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Home My WebLink About188-047Image Project Well History File Cover Page XHVZE This page identifies those items that were not scanned during the initial production scanning. They are available in the Original file, may be scanned during the rescan activity or are viewable by direct inspection of the file. // _¢2_,Z/_/~ Well History File Identifier Organization (do.e) ~wo-Sided RESCAN [] Color items: [] Grayscale items' [] Poor Quality Originals: o Other: TOTAL PAGES' NOTES: DIGITAL DA-fA o Diskettes, No. o Other, No/Type OVERSIZED (Scannable) [] Maps: ~ Other items scannable by large scanner OVERSIZED (Non-Scannable) [] Logs ol various kinds [] Other ORGANIZED BY: BEVERLY BREN VINCENT SHERYL MARIA LOWELL DATE: ISI Project Proofing Staff Prool PROOFED BY E~EVERLY BREN VINCENT SHERYL MAIRIA LOWELL DATE ~SI Scanned (done P~--GES' SCANNEO BY BEVERLY BREt.' VINCEN~~t~',AAP;A LOwELt ReScanned Idooel IS, General Notes or Comments about lh~s l~le PAGES Oual~ty Checked UNSCANNED, OVERSIZED MATERIALS AVAILABLE: ~, ~ ~~~ FILE # To request any/all of the above information, please contact: Alaska Oil & Gas Conservation Commission ~ 333 W. 7th Ave., Ste. 100 Anchorage, Alaska 99501 Voice (907) 279-1433 -Fax (907) 276-7542 ~~ PLUGGIN~ ~& LoC3-TION CLEA CE REPORT State of Alaska Memcrandu~m To File: APr No. · ALASKA OIL & GAS CONSERVATION COMMISSION Note casing size, wt, depth, cmt vol, &.procedure. Perf inner-;als - tops: Review the well file, and' comment on plugging, well head s uatus, and location clearance - oro~vide loc. clear, code. ,,-,_,.,,,.,,, CrnT P~.,-~ /~oo z -~,s?.,' ~ fl ~ o' 1003 psi - ., - ,, /~ / ..-,i U . _c ~,. o ' Locaeion C,~ar~c~: Code · · ~ STATE OF ALASKA ~ ~ ALASKAoIL AND GAS CONSERVATION COMMISSIO~.~I G I N A WELL COMPLETION OR RECOMPLETION REPORT AND LOCI 1. Status of Well Classification of Service Well OIL ~ GAS,r-I SUSPENDED [] ABANDONED]~'X SERVICE [-I 2. Name of Operator 7. Permit Number UNOCAL (Marathon Oil Co. Sub-operator) 88-47 3. Address 8. APl Number P. O. Box 190247 Anchorage, AK 99519 so- 733-20400 4. Location of well at surface 9. Unit or Lease Name 1369' FNL, 1065' FWL, Sec. 33 9N-13W-SM Trading Bay Unit At Top Producing Interval 10. Well Number N/A TBS Relief #1 At Total Depth 11. Field and Pool 741' FNL, 535' FWL, Sec. 33 9N-13W-SM McArthur River Field 5. Elevation in feet (indicate KB, DF, etc.) I 6. Lease Designation and Serial No. 98' KB above MSLI ADL 18730 Graylinp Gas Sands i2. Date Spudded 13. Date I.D. Reached 14. Date Comp., Susp. or Aband,~_,~15. Water Depth, if offshore 116. No. of Completions 5/22/88. 7/9/88 ~ ~~,~/~,_~C 187'feetMsL / 0 17. TotalDepth(MD+TVD) 18. Plug Back Depth (MD+TVD) 19'[~ire;::ti°nal'SuC'vey '--I-20. Depth where SSSV set I 21. Thickness of Permafrost 2,310' & 2033' 330' & 330' YEsr~x Nor-]. NOF~(~ feetMD N/A 22. Type Electric or Other Logs Run HWD, D[L, LDTC+L, CR, SP, LDT, CNL, CAL, CBL, GRCCL, GCT GRV0, TFNq(/R "MAC~ DANgF" VFCTCiR MAC~NFTTCq I{lgq MU~ LOGS 23. CASING, LINER AND CEMENTING RECORD SETTING DEPTH MD CASING SIZE WT. PER FT. GRADE TOP BOTTOM HOLE SIZE CEMENTING RECORD AMOUNT PULLED 30" 640# 0' 376' 3b" /OO sx (.:'lass G' N/A , 16" 84# N-80 . 0' 657' 22" 984 sx Class G N/A 13-3/8" 68# K-55 0' 1,182' 17.5" 630 sx Class G N/A 9-5/8" 43.5# N-80 O' 1,804' 12.25" 500 sx Class G N/A 24. Perforations open to Production (MD+TVD of Top and Bottom and 25. TUBING RECORD interval, size and number) SIZE DEPTH SET (MD) PACKER SET (MD) None None 26. ACID, FRACTURE, CEMENT SQUEEZE, ETC. DEPTH INTERVAL (MD) AMOUNT& KIND OF MATERIAL USED " None 27. pRODucTION TEST Date First Production I Method of Operation (Flowing, gas lift, etc.) . None - ! Date of Test Hours Tested PRODUCTION FOR OIL-BBL GAS-MCF WATER-BBL CHOKE SiZE J GAS-OIL RATIO None TEST PERIOD I Flow Tubing Casing Pressure CALCULATED ,a~ OIL-BBL GAS-MCF' WATER-BBL OIL GRAVITY-APl (corr) Press. 24-HOUR RATE .... 28. CORE DATA Brief description of litholog¥, porosity, fractures, apparent dips and presence of oil, gas or ware r. Submit core chips. RECEiYED Anchorage Form 10-407 Submit in duplicate Rev. 7-1-80 CONTINUED ON REVERSE SIDE NAME Upper Tyonek AC-1 GE'OLOGIC MARKERS MEAS. DEPTH 1496' TRUE VERT. DEPTH 1439' 30. -' FORMATION TESTS Include interval tested, pressure data, all fluids recovered and gravity, GOR, and time of each phase. 31. LIST OF ATTACHMENTS Attach #1, Summary of Operations; Attach #2, Directional Survey; Attach'#3, Abandon. Diagram 32. I hereby certify that the foregoing is true and correct to the best of my knowledge Environmental Signed/Z~C~,,,,/,~,~l~..//~.__/zF..~ Title Engineer Date 3/9/90 INSTRUCTIONS General: This form is .designed for submitting a complete and correct well completion report and Icg on all types of lands and leases in Alaska. Item 1: Classification of Service VVells: Gas injection, water injection, steam injection, air injection, salt water disposal, water supply for injection, observation, iniection for Jn-situ combustion. Item 5: Indicate which elevation is used as reference (where not otherwise shown) for depth measurements given in other spaces on this form and in any attachments. Item 1(5 and 24: If this well is completed for separate production from more than one interval (multiple completion), so state in item 16, and in item 24 show the producing intervals for only the interval reported in item 27. Submit a separate form for each additional interval to be separately produced, showing the data pertinent to such interval. Item 21: Indicate whether from ground level (GL) or other elevation (DF, KB, etc.). item 23: Attached supplemental records for this well should show the details of any multiple stage cement- ing and the location of the cementing tool. Item 27: Method of Operation: Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water In- jection, Gas Injection, Shut-in, Other-explain. Item 28: If no cores taken, indicate "none". Form 10-407 Attachment #1 Summary of Daily Wel 10perati ohs TBU Relief Well #1 05/14/88 Towed Diamond M Falcon to location. Dropped #7 anchor as rig was towed to location. Ran anchors #3, #6, #5, & #2. Had problems getting anchors on desired location and correct length of chain out due to current effect on anchor-handling boats. MV Biehl Trader hit starboard pontoon of Falcon while running #5 anchor. Put 2" x 6" hole in #5 ballast tank. Ran anchors #1 & #4. Picked up & re-ran #6. Ran anchor #8. Pick-up and stood back 2 stands of 9" & 2 stands 6-1/2" DC's. Pick up anchor #3 0 0600 hrs to re-run. 05/ 5/88 Pulled & re-ran anchors #3, #2, #8, #5, #7, & #6 to get positioned with proper length of chain out. While re-running #7, eye on workwire on anchor-handling boat broke & dropped pennant line. Unable to recover pennant line with grapple. Ran 20 ton piggy-back anchors on #3, & #6. ABS & US Coast Guard inspected hole in #5 ballast tank. Repairs approximately 604 complete @ 0600 hrs. 5/16/88 Set 20 ton Moorfast anchors on #2, #8, #5, #4, & #1 as piggy-backs. Chased #7 anchor-chain, pulled pennant, & set #7 piggy-back. Tested all anchors to 400 kips-OK. Completed repairs to #5 ballast tank & approved by U.S. Coast Guard. RU diving equipment, MWD equip, drl water & mud hoses. At 0600 hrs moving rig NE 100' over observation well location & ballasting rig down to 30' draft. 5/17/88 Fin moving rig 100' NE over location for observation well. Ballasted down to 33' drlg draft. Rig stable w/ ±200 kips anchor tension through tidal cycles. Took on liquid mud, mixing spud mud. Tagged seafloor at low slack tide. Water depth 195.2'. Check Honeywell position indicator, functioned OK. Check Howco pump units, OK. Inventoried directional drilling tools & wellhead equip. Cont RU Exlog mud logging equip & mixing spud mud @ 0600 hrs. 5/18/88 Held pre-spud meeting & drills w/ all crews. Took on cmt, bentonite, & on deck mud system. RU mud logging equip. Tested Hal liburtion pumping equip @ 100 BPM seawater (a 100 psi. Fabricate & install walkways & escape walkways. 5/19/88 Spud observation well w/ 9-7/8" BHA & MWD @ 0910 hrs (5/18) at high slack tide. Jet & rotate w/ kelly spinner 13' BML. MWD tool failed. POH. Change out MWD tool, test tool, OK. RIH & wait on low slack tide. Check inclination w/ MWD @ 0.6°. Re-spud observation well. Jet & drl to 17' BML. MWD tool failed. POH. Waiting on replacement MWD tool w/ logging function to re-spud. Summary of Daily W~ Operations TBU Relief Well #1 Page 3 5/20/88 Wait on slack tide & MU BHA (RGD tool). Re-spud observation well on high tide, jet and use kelly spinner to get KB in table. Drld 40' BML, survey @ 10°. Wait on slack tide, could not rotate in high currents. Resurvey @ slack tide, 8.3° drld to 51' BML. Lost MWD signal. POH. Pin on stablizier twisted off. Left bit, bit sub, XO, and 8" MWD in hole. Wait on MWD. Re-spud observation well on low slack using 6-3/4" mud motor & MWD. Drlg 0 20' BML @ 0600 hrs. 5/21/88 Drld observation well w/ mud motor from 316' (20' BML) to 735' (439' BML). Recorded resistivity, gamma ray & directional readings from MWD, no anomalies. At 735', trouble making connection. Rotate & PU freely, but could not slack-off. Pumped 2 hi-vis sweeps each jt & spot hi-vis mud on connections. Monitored hole on slack tide, no flow. Spot hi-vis mud in hole & POH. 5/22/88 Fin POH from observation well w/ BHA. Very slight gas bubbling from observation well. Drafted rig up from 32.5' to 24', & installed back-up current meter. Moved rig off observation well (slack tide). Gas venting from observation well increasing. Ballast rig to drlg draft. RU & ran temp guide base (TGB) to seafloor. Wait on slack tide. Land TGB on seafloor. Jump diver & check slope indicator @ 2-3/4°. Release from TGB & POH. MU BHA. At 0600 hrs observation well gas vent approx 150' diameter. 5/23/88 RIH w/ 22" bit & 36" HO. Stabbed through TGB & spudded relief well @ 0720 hrs, 5/22/88. Drld 2', jumped diver~ bit inside TGB, OK. Drld to 121' BML. POH. MU 12-1/4" bit on mud motor. RIH & stab through TGB w/ sonar assistance. Drld 12-1/4" pilot hole 310'-432' (134' BML) using hi-vis mud. POH. RIH w/ 17-1/2" HO w/ 15' bullnose. Tagged @ 345'. Opened 12-1/4" to 17-1/2" from 345'-392'. Could not wash deeper. POH. MU 12-1/4" bit on 17-1/2" HO. RIH & wait on tide. At 0600 hrs, no change in size of gas vent from observation well. 5/24/88 Stabbed 17-1/2" HO thru TGB w/ sonar assistance on slack tide. Open 12-1/4" hole to 17-1/2" from 392'-420' w/ seawater & hi-vis mud sweeps. POH. MU 17-1/2" bit w/ 26" x 36" HO. RIH. Jumped diver & confirmed 36" HO thru TGB. Opened 17-1/2" hole to 36" from 304'-396'. Had problems cleaning hole. Had drag on pick-up & fill on connections. Conditioned 36" hole w/ hi-vis mud. POH to 329'. Wait 1/2 hr. RIH & tag 392' w/ HO. Reamed & CO to 396'. Spot hi-vis mud. POH. Very little change in size of gas vent from observation hole. 5/25/88 Fin POH w/ 36" HO. Set permanent guide structure (PCS) in moonpool. Could not make up 30" ALT-2 connector between shoe jt & housing jt. RD .30" csg & PCS. RIH w/ 36" HO, tag @ 408'. Circ fresh hi-vis mud to hole. POH. Cutoff ALT-2 Summary of Daily · Operations TBU Relief Well #1 Page 4 connector & welded 30" shoe jt & housing jt. Ran 5" DP cmting stinger inside 30" & landed in PGS. Filled 30" w/ seawater & RIH & landed ca 376' RKB (78' BML). Cmtd w/ 700 sx w/ 24 CaCl CIP ca 0545 hrs, 5/25/88. WOC. No change in size of gas vent from observation hole. 5/26/88 Wait on surface samples of cmt to harden. Released 30" running tool & POH. WOC. MU BHA's & 16" csg float equip. Jumped diver & tagged cmt in 36" hole x 30" csg annulus ca 2-1/2' below seafloor. RIH w/ 17-1/2" bit & 26" HO, thru PGS, no problems. Tagged cmt in 30" csg ca 361' RKB. Drlg cmt 361'-373' Gas vent from observation well is approximately same size. 5/27/88 Fin drlg cmt to 376' w/ 17-1/2" bit x 26" HO. CO rathole to 432' w/ 17-1/2" bit. Fill hole w/ hi-vis mud. POH. RIH w/ 9-7/8" bit, mud motor & MWD. Orient motor, attempt gyro-orient w/o success. Drld w/ motor 432'-448'. Increase mud vis to 150 sec. Drld w/ motor 448'-680', building angle to 11.3° @ 310.3° heading. Circ returns to seafloor ca 7.3 BPM to clean hole. Begin running multi-shot survey. Gas vent from observation hole approx same size. 5/28/88 Open 9-7/8" hole to 14-3/4" from 417'-468'. Could not get below 468' with HO, 8-1/2" bit to 485'. 5/29/88 Fin RIH w/ 9-7/8" bit & tag ca 469' Attempted to get back into 9-7/8" hole. Drld 469'-552'. Survey no good. ~rld 552'-585' Survey showed sidetracked. Drld 585'-680' w/ hi vis mud. Survey. Displ hoie to 10.6 ppg mud. Made two short trips, worked thru tight spots 503'-542'. Had 5' of fill POH. MU & RIH w/ 14-3/4" HO, tag @ 485' w/ bit & 468' w/ HO. Open 9-7/8 ~ole to 14-3/4" 468'-680'. Ran survey, OK. Dspl hole w/ 10.6 ppg mud. POH. MU 22" HO & begin RIH. 5/30/88 Fin RIH w/ 22" HO, tagged @ 424' w/ HO. Opened 14-3/4" hole to 22" from 424'-590'. Pull into 30" csg shoe w/ 20-30,000# drag. Built hi vis mud volume. RIH. Fin opening 14-3/4" to 22" from 590'-671' Circ disp hole to 10.6 ppg mud. Short trip into 30" csg shoe, hole OK. Mix mud volume. Displ hole to 10.6 ppg mud. POH w/ 22" HO. MU 16" csg shoe + 3 jts WO slack tide. Fin running 16" csg to ~657'. Latched wellhead housing into 30" housing. Circ. Cemented w/ 984 sx w/ 2~ CaCl2. CIP 0547 hrs, 5/30/88, WOC. 5/3 /88 Released running tool. POH. Breakdown BHA's. Install vortex shedding strakes on 2 riser pups. Stand 2-50' riser jts in derrick. Diver retrieved Honeywell beacon from PGS. Moved BOP & LMRP into moonpool. Had leak on top seal of lower annular BOP. Disassemble annular to inspect & repair. Summary of Daily W~ 'Operations TBU Relief Well #1 Page 5 6/01/88 Disassembled lower 18-3/4" annular preventer. Cleaned & replaced upper "0" ring seal. Reassemble annular, re-install LMRP on BOP. Retest annular, collett connector, & seal 0 300/1500 psi, OK. Function test BOP from remote stations. Repair hydraulic leak, yellow pod. Due to BOP repairs, missed high-slack tide @ 2030 hrs. MU 2-50' its of riser. Install locator beacon. Wait on high-slack tide. 6/02/88 Ran stack on high-slack tide. Landed & test pulled w/ 50,000 overpull. Tested PR, BR & choke & kill lines to 300 psi & 5000 psi. Tested LMRP to 300 psi & 2500 psi. All tests witnessed by Bobby Foster w/ AOGCC. Presently repairing choke manifold valves. Finishing NU diverter & riser. 6/03/88 Fin testing BOP & choke manifold, repairing valves. Tested 16" diverter system, no leaks. All tests witnessed by AOGCC representative. Tested kill system @ 28 BPM @ 2700 psi w/ seawater w/ 6 pump skids thru both starboard & port diverter lines separately. Repeat test w/ 12.5 ppg kill mud @ 21BPM @ 2530 psi. RIH & drld hard cement w/ 14-3/4" bit from 561'-655'. POH. Held well control drill w/ crews. Ran CBL/GR log. Test blind rams & 16" csg to 1000 psi. RIH w/ 14-3/4" bit. 6/04/88 Fin RIH w/ 14-3/4" bit, drld shoe & CO rathole to 670', POH. MU & RIH w/ 9-7/8" BHA. CO rathole 670'-680'. Drld 680'-708', lost all returns. Well kicked mud thru rotary, closed diverter bag & opened starboard (east) diverter line. Pumped 12.5 ppg kill mud, followed w/ 10.7 mud, no returns. Well quit blowing gas, pumped seawater, no returns. SD pumps to monitor well, very slight gas vapor out diverter line. Gas vent from observation hole had stopped. Began rebuilding mud volume & took on mud materials. Ran sonar, no gas venting from around relief well @ seafloor. 6/05/88 Monitored well, static. Installed additional warning lights & horns on rig floor, mudlogger unit, & Howco console. Modified walkways for better access. Modified deluge system @ starboard diverter. Mix 9.2 ppg mud. Held well control review meetings w/ crews. Checked diverter lines. Attempted to fill riser & hole w/ seawater, could not fill. Used sonar to verify no flow around relief well at seafloor. Attempted to stage 9.2 ppg, 150 vis mud into well. Could not fill hole. Monitor well, static. Open diverter annular preventer, no gas. No fluid at surface, moved drill string, pipe free. Monitor well, static. No gas venting from observation hole, only an occasional bubble visible at surface. Summary of Daily Wc Operations TBU Relief Well #1 Page 6 6/06/88 Worked pipe 60'-90' free, no drag. Spotted 50 sx of cmt w/ 404 Calseal w/ bit @ 656'. Displ cmt & closed diverter/annular, pump 5 BBL w/ no pressure. CIP @ 0745 hrs (6/5). WOC, worked pipe, free. Attempted to fill hole w/ 300 BBL 8.9 ppg mud (150 + visc), could not fill. Fluid level in riser approx ca sea level. Preparing for 2nd cmt job, well static. At 1620 hrs well began to unload. Closed diverter annular & divert out starboard line. Pump 400 BBL of 8.9 ppg mud ca 28 BPM ca 1920 psi. Pumped 1400 BBL 10.0 ppg mud ca 40 BPM ca 3500 psi. Pumped 600 BBL 12.5 ppg mud ca 32 BPM ca 3190 psi. Well unloading gas, mud, & solids (coal). Diverter annular began to leak after lowering pipe to get tool jt out of rams. Increased closing pressure on annular. Gas still leaking. Closed blind/shear rams ca 1735 hrs & SI well. Observe well. Open choke line ca 2156 hrs. 100 psi on choke ca 0600 hrs. No flow observed around wellhead ca seafloor with sonar. Observation hole not venting. 6/07/88 Observe well SI w/ blind-shear rams, no gas bubbles. Had 100 psi on choke line, attempt to bleed off, got only gas. Pump into choke line w/ 14-1/2 BBL seawater. Press increased to 170 psi, leveled off ca 130 psi. Observed gas bubbles under rig. Ran sonar, could not observe gas venting around relief wellhead. Circ riser w/ 12.5 ppg mud thru cutoff DP. Closed annular BOP around DP, functioned blind/shear rams twice. Slowed gas weeping thru blind rams & out diverter line. POH w/ DP, left 419.79' fish below BS rams. Made up hangoff tool w/ inside BOP, RIH. Close annular on DP. Open BS rams, could not work hangoff tool thru BOP. Attempted to bleed off choke line, had 150 psi increase to 220 psi. Had dry gas, could not bleed off. Left well SI & check seafloor on slack tides, no gas venting at wellhead. Vent from observation hole 150'-200' in diameter on slack tide. 6/08/88 Filled riser w/ 12.5 ppg mud. Pump down DP w/ 3 BPM increasing to 10 BPM. Bleeding off gas thru choke line. Returns changed to seawater w/ gas surges. Using sonar, verified no gas venting at seafloor at relief well. MU fishing tools. Stripped out w/ DP w/ hangoff tool while pumping down C&K lines ca 5 BPM. Strip in hole w/ fishing tool. Tag TOF ca 334', latch & pull fish free, no drag. Strip out, slight flow back on DP. Pump hi-vis pill down DP. Finish out & recover entire fish. RIH w/ OEDP w/ float to 452' ca 0600 hrs. Gas vent from observation hole varies w/ pump-in rate. Vent very little changed. 6/09/88 Preparing for cmt job. Checked fish recovered. Fish above BS rams was 277.12' & below BS rams was 389.51'. Total recovered 666.63'. Strip in w/ OEDP from 452',t,o 633'..P. umping down C&K lines ca 5 BP~M. Pumped 20 BBL CaCl~ water + !0 BBL Flo-Check". Mix & pumped 241 sx of 40~ calseal cmt + 731 sx~of Class G" cmt w/ 24 CaCl2. Mix & pump Ca 4-5 BPM. Displace ca 2 BPM to 1/4 BPM. SI w/ 65 Summary of Daily WE Operations TBU Relief Well #1 Page 7 psi. CIP 0 1600 hrs (6/8). WOC. Strip DP out to 515'. Work pipe 30' w/ upper annular closed while WOC. At 0500 hrs bleed SI pressure down from 45 psi to 0 psi. Fill hole w/ 22 BBL water. Pump thru OEDP w/ returns out choke line. Intermittent returns of seawater and surges of gas. Onloading cmt for 2nd plug. Gas vent from observation hole unchanged. 6/10/88 Pumped thru OEDP w/ intermittent returns on choke line, con't taking on bulk cmt & chemicals. Strip in hole thru upper annular w/ OEDP to 572'. Test lines. Begin pumping for cmt job & CP increase to 120 psi. Open choke line & began circ w/ full returns w/ 40 psi. Returns gradually decr to intermittent as before. SI choke line. Pump 41BBL of 104 CaCl^ & 20 BBL "Flo-Check" ahead of 1200 sx cmt w/ 24 CaCl~. While pumping cmt csg ~ress incr 15 psi to 80 psi & stabilized @ 40 psi.D~Spl cmt w/ 12 BBL, est TOC @ 577' inside 16" csg. CIP ~ 1620 hrs (6/9). WOC. On 0315 hrs slack tide gas vent from observation hole barely visible on sonar. At 0600 hrs, 0 psi csg press. 6/11/88 WOC. Attempt to circ thru choke line, intermittent returns pumping 1-5 BPM. With upper annular closed press tested 16" csg to 200 psi, bled off to 180 psi in 30 min. Strip in hole w/ OEDP & tag hard cmt @ 541'. Circ & took returns into mud tank bypassing gas-buster, full returns. SI & press test 16" csg to 455 psi. Circ hole & check for gas, OK. Tag 0 541'. POH, had cmt on lower 40' of DP. ND diverter system. Disconnect riser tensioners, disconnect H-4. Pull BOP. Land BOP on moonpool spider beams. 6/12/88 Set back LMRP & BOP on test stumps. Open bonnet doors on blind/shear rams, upper & middle pipe rams. Found a 3-1/2" x 2" x 1/2" piece of HWDP lodged in blind/shear ram recession. Found BS ram block & body cavity flow cut. Installed new BS rams in 3rd from bottom position, removing upper set of three 5" pipe rams. Changed out element in upper annular. Stump test upper & lower annulars. 300/3500 psi, OK. Changing out element in 21-1/4" diverter bag. 6/13/88 Fin relocating kill valve. Stump tested BOP 300/5000 psi, OK. Move BOP & LMRP over moonpool & latch. Began running BOP & riser into water @ 3.5 knots, check alignment w/ sonar & landed BOP on slack tide (a 1900 hrs (6/12). RU tensioners on slip jt & tensioned to 400 K. NU & test C&K lines. RU blue & yellow pod lines. Begin NU diverter. 6/14/88 NU diverter system. Ran test plug & began testing BOP. Found 3 valves on choke manifold leaking, repaired same. Finish testing BOP 300/5000 psi. Test Summary of Daily W&Operations TBU Relief Well #1 Page 8 Anc'hora~ .... - . . ~ annu]ars 300/1500 psi. Test diverter system & simp ~t to 100 psi. LD excess p~pe from deft]cb. Tested BS rams & 16" cs9. HU & RIH w/ 14-3/4" b~t, ta9 ~ 536' Tested Howco un,ts down DP/chobe/b~]] ]ines, max 95 BPH w/ seawater. Foun~ ~11 ]~ne va]ve not funct~on~n9 on b]ue pod, troub]e shooting same. 6/15/88 Check out blue POD function, OK. Change chok man valve, test 5000 psi. Displ hole to 9.0 ppg mud. Drld cmt 536'-552', clabbered mud. Displ hole to seawater. Drld cmt 552'-662', 5' below 16" shoe. Spot mud 0 shoe & test to 13.0 ppg EMW. Displ hole ~ 9.0 mud. Drld cmt 662'-701' checking flows & CBU as required. Lost all returns @ 701'. SI well, no press. Fill riser above SI annular w/ 59 BBL. Mix & spot 50 BBL plug of Gabriel International's "Liquid Casing" + "OM Seal". Could not fill hole. Pump 58 BBL seawater down choke line. SICP increased 0 psi to 95 psi. Pump seawater down kill line @ 3-1/2 BPM to 7 BPM & bled gas off choke line to 0 psi. Mix & pump 50 BBL "Liquid Casing" + "OM Seal", no returns. Begin mixing 400 BBL of M-I's "Form-a-Plug". On slack tide after lost returns @ 701', could not detect gas vent from ovservation hole. Vent beginning to return @ 0600 hrs. 6/16/88 Con't mixing "Form-a-Plug". SICP increased from 38 psi to 175 psi. Pumped gelled mud down DP & bled gas press off choke line thru super choke. Tested lines. Pumped 266 BBL hi vis gelled mud ahead of 150 BBL XC polymer followed by 20 BBL "Form-a-Plug". Lost prime on pump. Displ 20 BBL plug into formation. Clean pumps & lines. Attempted to fill hole, no returns. Pumped 355 BBL "Form-a-Plug"; plug in place ~ 0045 hrs (6/16). Plug pumped @ 5-6 BPM w/ 300-350 psi DP press. SI & wait on plug. No SICP this morning. No gas vent from observation hole. 6/17/88 Wait for "Form-a-Plug" to set. Attempted to fill hole down DP @ 1.8 BPM, no returns. RU to cmt. Pump thru bit @ 584'. Pump 37 BBL 104 CaCl + ~GBBL water + 10 BBL "Flow-Check" + 27 BBL water followed w/ 1100 sx Class "w/ 24 CaCl~. Mix & pump @ 3 to 3-1/2 BPM. Displ w/ 10 BBL water slowing rate to 1 BPM.L CIP @ 2120 hrs 6/16. Well on vacuum after job. WOC. Move DP, OK. SICP : 0 psi ~ 0600 hrs. Observation hole static until 0400 hrs, check w/ sonar showed very slight gas vent. 6/18/88 WOC. Fill hole & circ. Tag cmt @ 604'. After 20 hrs WOC, drld firm cmt from 604'-672'. Drld soft cmt 672'-696'. Lost all returns @ 696'. Close diverter bag, pump 15 BPM down DP & 40 BPM down C&K lines (seawater) & drld to 757'. Returns incr from almost nothing to 15 to 25 BPM @ 757'. Formation getting firmer last 10' ~rld. POH w/ bit to 613'. SI well. Mix & pump 1330 sx premium cmt w/ 2~ CaCl2 + 0.54 gas ban (15.6 ppg) with closed choke. Pump ~ 3-3-1/2 BPM, displace w/ 11BW, slowing rate to I BPM. CIP @ 0205 hrs (6/17). Broke line loose, well on very slight vacuum. Pull 1 jt. WOC. Move DP, OK. Observation hole @ 30-404 normal vent prior to losing circ @696'. Gas vent barely visable on sonar after lost circ & cmt job. Summary of Daily WLOperations TBU Relief Well #1 Page 9 6/19/88 WOC. RIH w/ 14-3/4" bit, tag cmt 0 623'. After 17 hrs drld firm cmt 623'-710'. Drld soft cmt 710'-715'. Drld stringers 71~'-727'. Lost returns @ 727' Pump down DP & in C&K lines, regain returns. SD pumps, slight flow. SI annuiar. No pressure, open BOP, no flow. Hole standing full. Attempt to circ, no returns. Mix & pump 48 BBL "Liquid Casing" & "OM Seal" LCM pill, no ret, but hole standing full. Pump down DP Ca 14 BPM & thru C&K Ca 5 BPM w/ 25 BPM ret. Ream thru bridge Ca 727' & rmd to 757'. SD pumps, hole standing full. POH to 675'. SI well & bullhead 1525 sx premium cmt + 2% CaCl2 + 0.5% gas ban. No gas vent from observation hole Ca 0600 hrs. 6/20/88 Fin pumping 1525 sx w/ 2% CaCl + 0.5% gas ban Displ w/ 12 BW. CIP Ca 0708 hrs (6/19). Well on very slig~[ vacuum. Strip ~it out to 575'. WOC 17 hrs. CBU. RIH & tag TOC Ca 683'. Drld firm cmt 683'-715' w/ seawater & hi vis sweeps. Had 125 units gas Ca 715', CBU. Flow check OK. Wash 715'-737', no cmt. Hole taking 10-20 BPH. Displ hole to 9.0 ppg mud & pump 48 BBL "Liquid Casing" & "OM Seal". Wash & drld 737'-757'. Hole static. CBU. Short trip to 16" shoe Ca 657' RIH, hole static. Spot 48 BBL "Liquid Casing" & "OM Seal", full returns. ~onar shows no gas vent from observation hole. 6/21/88 Circ & spot "Liquid Casing" LC pill. POH. MU 17-1/2" underreamer. RIH. UR 14-3/4" to 17-1/2" from 662'-751'. CBU. POH. MU 1-1/2° bent housing motor & MWD. RIH, orient tool & drld 757'-827' CBU, 20 units. Est top AA-2 sand Ca 820'. POH. MU angle buidling BHA to d~l thru AA-2 sand. RIH, 15' fill. Drld 827'-904'. CBU, 30 units. Drld 924'-959'. CBU, 30 units, No vent from observation hole, static. 6/22/88 Drld w/ mud motor + MWD from 959'-1217' Reamed each kelly & CBU prior to conn. Short trip to 533', hole OK. CB6, 6 units gas. Dropped single shot surv, POH & LD 15 jts. MU & RIH w/ 17-1/2" underreamer to 751'. UR 12-1/4" to 17-1/2" from 751'-1203' (13.56' bullnose below UR). CBU Ca 1217'. Observation hole has no gas vent. 6/23/88 CBU. Short trip, 5 stands. No fill. POH w/ 17-1/2" UR. Pull seat protector. Ran 21 jts, PUP, & csg hgr, 13-3/8" 68#, K-55 w/ shoe Ca 1182'. CBU0 lost 35 BBL while circ. Tested lines. Dropped ball & sheared BTM plug, pump 5 BW ahead followed w/ 630 sx Class "G" w/ 2% CaClo. Sheared top plug w/ dart & displ. Lost returns while displ. Slowed rate'from 4-1/2" BPM down to 1-1/2" BPM. Regain almost full returns at end of displ. CIP Ca 2339 hrs (6/22). Set seal assembly & test to 2000 psi. POH, lost tong die in hole. Washout wellhead & testing BOP. Summary of Daily WL'Operations TBU Relief Well #1 Page 10 6/24/88 Fin testing BOPE. Tested pipe rams, choke & kill valves and choke manifold to 2000 psi. Test annulars to 1500 psi. Tested Kelly cocks, floor valves, inside BOP to 3000 psi, WOC. MU CO BHA & RIH. Tag cmt @ 1071'. Drl cmt & plugs to 1096'. Quit drlg. POH. Check bit, OK. Recovered tong die in JB. Drl FC [a 1097'. Drld very firm cmt 1097'-1172'. Circ. 6/25/88 CBU. POH. RU & ran CBL/CCL/GR & GCT gyro. Bond log showed no bonding. Tested BR & csg @ 500 psi, OK. Tested to 1500 psi, bled off. Retested to 1500 psi, bled off faster. MU RTTS & RIH. Set RTTS @ 1076'. Press csg to 2000 psi, OK. POH. MU Nortrak and MWD. RIH. Drl firm cmt. Float shoe & 5' of new formation. Tested shoe to 14.0 ppg EMW. Drl 1222'-1297'. Checking for flow on drlg breaks. 6/26/88 Drld 1297'-1559'. Reamed & flowcheck each conn. CBU @ 1486', 1496', 1524' had slight indication of flow 0 1559', SI annular. No press & no flow. CBU, 440 units gas. Drld 1559'-1800'. CBU @ 1572', 1606', 1673', 1688', 1800'. Made short trip to 13-3/8" shoe, no drag, no fill. CBU, Survey, POH. 6/27/88 Fin POH. Ran DIL/SP (1781 '-1175') & LDT/CNL/CAL (1793'-751'). Made wiper trip w/ 12-1/4" BHA, hole OK. CBU, 58 units. POH. MU & ran 20 jts 9-5/8", 43.5#, N-80 butt w/ 9-5/8" liner hanger. 6/27/88 Ran 5" DP & tagged @ 1800'. Circ, 3 units gas. Cmtd w/ 500 sx Class "G" & displaced w/ 70.5 BBL. Bumped plug w/ 3000 psi & set liner hanger. ¢IP [a 0330 hrs (6/27). Full returns while cmting & displacing. Released running tool & POH. WOC. 6/28/88 WOC. LD BHA from derrick. MU 8-1/2" BHA tools, stand in derrick. Test BOP's. Had leakage past outer upper & outer lower choke valves. Worked & washed past valves, would not test. Pull test plug, run wear bushing. RIH & flush DP & HWDP of contaminated mud. Pull wear bshg, run test plug. Attempt to circ thru C&K lines w/ water, kill line fail-safe valve would not open. Pull plug, run wear bshg. RIH w/ 12-1/4" bit, circ contaminated mud out. Wash cmt 702'-745'. Drld hard cmt 745' to TOL @ 907. Test liner lap to 2000 psi, OK. POH. 6/29/88 Retrieve wear bushing, ND diverter, slip jt & riser tensioners. Unlatch BOP. Pull to surface RD stack. Presently repairing stack. 1) outer kill valve SPM valve stuck due to silt filling cylinder. 2) Upper annular open & close pilot lines leaking. 3) Yellow pod 1" supply line & several function control lines Summary of Daily WL .'Operations TBU Relief Well #1 Page 11 sheathing split at connection to top of pod. 4) Upper annular regulator leaking on blue pod. 5) Upper outer choke valve beginning to wash. 6/30/88 Repair BOP. Rehead yellow pod line. Clean silt from SPM valves in yellow & blue pods. Changed upper outer choke valve. Replace 2 hoses on blue pod. Stump test BOP, choke & kill valves, pipe rams & blind shear rams, 300/6000 psi. Test upper & lower annulars 300/2000 psi. MU stack in moonpool, test collet conn 300/1500 psi. Set beacons & clamp pod lines. MU riser, wait on tide. Begin running BOP @ 0545 hrs (6/30). 7/01/88 Ran & landed BOP stack, test pulled to 50,000#. MU tensioners. MU diverter cross, lines & bag. RIH w/ test plug. Test choke/ kill valves & choke manifold, 300/2000 psi. Test annulars, 300/1500 psi. POH w/ test plug. Test blind/shear rams + csg & TOL, 2000 psi, OK. Test kelly, standpipe, & floor valves 300/ 3000 psi. RIH w/ 8-1/2" bit. Displ riser to mud, test slip jt + diverter to 100 psi. RIH to TOL @ 907'. Drld 11' cmt in TOL. RIH & tag TOC @1703'. Drld cmt to landing collar @ 1713' Test 9-5/8" liner to 2000 psi, 30 min, no leak-off. Drld landing collar & drid cmt to 1725' @ 0600 hrs. 7/02/88 Drld cmt & 9-5/8" shoe ~ 1804'..Drld formation to 1810'. C&C mud. Ran shoe test to 15.5 ppg EMW. POHRU. WL & ran GCT gyro survey & CBL/GR/CCL. MU 8-1/2" bit, mud motor, & MWD. RIH to 1804'. RU & ran "Pee-Wee" gyro survey thru DP to check GCT gyro versus MWD survey. Calc gyro survey @ 0600 hrs. NOTE: Checked SLM vs pipe tally. Corrected top of 9-5/8" liner from 907' to 915' and shoe from 1796' to 1804'. 7/03/88 Fin calc gyro survey. Drld 1810'-2157' using motor to hold & build angle & turn left. Circ up drlg breaks. Gas @ 1846'-65 units; 1888'- 58 units, 1907'-25 units, 1948'-38 units, 1970'-58 units, 2000'-60 units, 2041'-93 units, & 2157'-39 units. Short trip ~ 2157'. CBU, 3 units gas. POH. LD mud motor & MWD. RIH w/ 8-1/2" bit. Tight in float collar. Reamed thru FC. 7/04/88 Fin reaming thru FC & RIH to 2157', no fill. Drld to 2187'. CBU, 25 units gas. Drld to 2219'. CBU, 22 units gas. Drld to 2227' (1980'TVD), lost circ. PU DP, pump 9.0 ppg mud. Hole stayed full 3 min, then mud fell out of sight. SI well w/ annular, SICP = 0 psi. Filled riser w/ 29.5 BBL. Mud level fell 70'. Workboat said Steelhead bubble almost died when lost returns. Pump total 450 BBL 9.0 ppg mud followed w/ 50 BBL red dye in SW followed by 1474 BBL SW @ 24.6 BPM. Reduced rate to 12.3 BPM & pumped 1477 BBL SW. No trace of dye. Reduced rate to 7-10 BPM & pumped 640 BBL SW. No trace of dye. Mixing 9.5 ppg mud. Pumped 1570 BBL 9.5 ppg mud w/ DPP 1570' decrease to 1530' psi. Gas bubble 70-1004 of orig size. Began mixing 10.7 ppg mud. SICP incr to 520 psi. Summary of Daily W Operations TBU Relief Well #1 Page 12 Pumped 140 BBL 9.5 ppg & 80 BBL 10.7 ppg down choke line. Attempt to bleed off gas. SICP up to 720 psi. Pumped 2193 BBL 10.7 ppg mud down DP @ 24.3 BPM & bled CP from 720 down to 0 psi. DPP 1550 psi up to 1730 psi. Gas bubble decreased to approximately 50% when stopped pumping @ 0530 hrs. Bit @ 2205'. SICP = 0 psi. Observe well & mixing mud. 7/05/88 Pump 40 BBL of 10.7 ppg mud ever hr @ 7.4 BPM for a total of 200 BBL. Pump 40 BBL of 11.0 ppg mud every hour @ 7.4 BPM for a total of 160 BBL. Took fluid level shots down DP. (FL @ 410' in DP). Pumped 11.3 ppg mud 0 24.3 BPM. (Total of 940 BBL w/ liquid csg & OM seal.) DP pressure = 1900-1980 psi. Bled csg pres to 0 psi. Pump 40 BBL 11.3 ppg mud @ 7.4 BPM every hr. Csg press : 10 PSI. Steelhead bubble appears to be 75~-80~ of normal. 7/06/88 Built mud volume, 12.5 ppg. Fluid level shot in DP @ 0700 hrs, 487'. Pump 440 BBL 12.5 ppg mud w/ 10 ppb "OM Seal" @ 6.1 ppg. Fluid level shots in DP @ 1215 hrs, 576'. Pumped 1701BBL 12.5 ppg mud @ 12.7 BPM (561BBL) w/ DPP increasing 450 to 520 psi & 24.3 BPM (1140 BBL) w/ DPP increasing 2020 to 2100 psi. Opened choke while pumping, no gas. Shot fluid levels in DP, 1515 hrs, 495'. Took on mud & cmt from boat. Mixing mud to 12.5 ppg. Pumping down DP once every hour to assure pipe is clear. Fluid level shot @ 0500 hrs, 580' SICP - 0 psi @ 0600 hrs. Steelhead bubble is 75~-80~ of normal size on slack tide with calm seas. 7/07/88 Cont mixing mud & taking on bulk cmt. Shot static fluid levels, 1200 noon, 529'~ 1300 hrs, 520'~ 1400 hrs, 536' Pumped 200 BBL 12.5 ppg mud (12.4 BPM & 400-450 psi). Followed w/ 30 BBL "Fio-Check" & 38 BBL water. Mix & pump total 8056 sx cmt, (Class "G" w/ 24 CaCl~ & premium cmt) 5 to 9 BPM @ 0 to 550 psi. Displ cmt w/ 5 BBL water followed ~/ 42.5 BBL 10.0 ppg mud. Max displ press 360 psi, final displ press 250 psi. CIP @ 0403 hrs (7/7). Bit @ 2205' while cmting. Strip out thru annular to 1773'. WOC w/ well SI. Taking on bulk cmt & mixing mud. SICP = 0 psi. RU WL unit on Steelhead Well M-25. Pulled BPV. Open SSSV. Ran base Temp/Noise/GR logs. Ran logs while pumping cmt. Will cont logging to attempt to locate TOC. Steelhead Leg B-1 bubble approx 754-80% normal size. 7/08/88 WOC. Monitor SIDP & SICP, 0 psi. Shot hourly fluid levels in DP @ 236' from 0600-1600 hrs. Built mud volume & took on cmt from boats. Fill annulus w/ 9 BBL of 10.0 ppg mud. Circ w/ full returns. Flow check, well dead. POH. Pull wear bushing & ran test plug. Test BOP 300/2000 psi, operate all BOP functions w/ both blue & yellow pods. Test kelly, standpipe manifold, & floor valves. Clean & inspect wear bushing. RIH w/ wear bushing. Summary of Daily WI. Operations TBU Relief Well #1 Page 13 7/09/88 Set wear bushing. Rabbit DP. RIH w/ 8-1/2" bit. Tag 0 2153'. Washed & reamed 2153'-2227'. CBU, got pieces of hard cmt. POH to 9-5/8" csg. Press up on open hole to 300 psi with 2 BBL of 10.0 ppg mud. Leaked off to 100 psi. Pump in I BBL & press up to 250 psi & held. RIH to 2227' Drld 2227'-2310'. CBU each 15' - max 34 units gas. Short trip to 9-5/8" shoe, RIH, hole OK. CBU. Ran temperature/noise logs. Ran gyro survey through DP. Reran temperature/noise logs. Temperature log indicates continued cooling across OH. RD WL. CBU. Steelhead gas bubble 50'-75' diameter on high slack tides. 7/10/88 POH w/ 8-1/2" bit. Ran "GCT" gyro survey. Ran Vector Magnetics "WELL SPOT" survey. Survey indicated Well M-26 casing to be 2.0' (±0.4') to NE of relief well at 2223'. Ran Tensor "MAG RANGE" surveys, both "passive" & "downhole current injection" tools. Survey indicated M-26 casing to be 1.5' (20.5') at 2227' at 050° (±10°) from relief well. Survey indicated possiblity of 2 strings of casing in M-26 wellbore. Ran CBL/GR across 13 3/8" casing. Ran DIL/GR log which indicated M-26 csg at 2226'. RIH w/ 8-1/2" bit. Tag @ 2294' (16' fill). CO to 2310'. Cond hole. POH. PU & RIH w/ 3-1/2" OEDP stinger on 5" DP. Steelhead bubble maximum 100', surges & head & intensity decreases until bubble is barely visible, then returns to 100'. 7/11/88 RIH w/ 3-1/2" OEDP to 2305'. Mix & spot 290 sx cmt across OH. CIP @ 0845 HR (7/10). POH to 1492'. Circ. Closed annular, press cmt to 275 psi. Bled to 210 psi in 6 min & held steady. POH. Set 9 5/8" cmt rtnr @ 1550'. Press under rtnr to 350 psi, 5 min, no leak off. Spot 60 sx cmt on top of rtnr. POH. RIH w/ OEDP. Perf'd 13-3/8" csg 848'-850' w/ 4-SPF. RD WL. Establish pumping rate 2 1/4 BPM @ 200 psi. POH. Ran 12-1/4" bit +13-3/8" csg scraper to TOL @ 915'. POH. RU WL & set 13-3/8" cmt rtnr @ 836' WLM. MU stinger & RIH to 800'. Break circ. 7/12/88 Tested lines. Sting into rtnr 0 841'DPM/836' WLM. Sqz perfs in 13-3/8" csg 848' - 850' w/ 300 sx cmt with initial press 100-150 psi & final sqz press 325 psi. Displ cmt & press decr 325 to 300 psi when SD pumps. Press @ 275 psi after 5 min. PU out of rtr - rev out. POH. L/D BHA's. M/U new BHA's while WOC. Ran 13-3/8" csg scraper to 841'. M/U drilex 13-3/8" pack stock (casing whipstock). RIH & orient packstock 0 293° azimuth. Press to 3200 psi & set packstock @ 836'. Top of packstock @ 808' Check orientation of packstock w/ gyro. Circ hole to high visc mud. Slack iff w/ 13-3/8" starting mill. Tagged @ 814'. Began cutting window. Steelhead bubble has decreased in intensity. Bubble maximum diameter 50', but majority of time bubble barely visible. 7/13/88 Used starting mill to begin cutting window in 13-3/8" csg @ 814'. Mill not making hole. POH. Blades not worn, but looked like tapered nose of mill was riding on shear-bolt lug on face of whipstock. RIH w/starting mill on DP - Summary of Daily W< . Operations TBU Relief Well #1 Page 14 limber BHA. Milled 2-1/2 hours 0 814' - not making hole. CBU - got fine metal cuttings & formation cuttings. POH. Modified tapered nose of starting mill w/tungsten carbide. RIH. Milled to 814.6' - total 8" in 16 hrs. Steelhead bubble still heading between 50' & 100'. 7/14/88 Milled 13-3/8" csg w/ starting mill, not making hole. POH. OD of blades worn down 12-1/4" to 11-3/8". Had made approx 0.7' total (16-1/2 hrs). LD jt of DP & PU jt of HW DP above starting mill, RIH. Mill 0 814.7', not making hole. POH. RIH w/ 12-1/4" bit, circ while waiting on modified starting mill, tapered blades at 10°. RIH w/ modified starting mill. Mill to 815.7' (total 1.7' in 28-1/2 hrs). POH. Bottom of mill worn from 12-1/4" OD to 10-1/2" OD. MU & RIH w/ 2nd modified starting mill. Mill @ 815.7'. Steelhead bubble varying between 30'-100' in diameter. Very irregular. 7/15/88 Milled w/ 2nd modified starting mill, made very little progress. CBU. POH. MU 12-1/4" flat bottom mill. Made guage run, tagged at 810' POH. MU & RIH w/ 12-1/4" window mill, tag ~ 810'. Cut window 4', got good'metal cuttings. CBU. POH. MU & RIH w/ 12-1/4" diamond speed mill, tag @ 810'. Cut window 810' - 825'. Lots of metal cuttings, off whipstock @ 825' Reaming back thru window @ 0600 hrs. Steelhead gas bubble, no change, ~eading to max 100' dia. (Total 48 hrs. milling). 7/16/88 Mld thru window w/ diamond speed mill + water melon mill. Drld to 844'. Circ & POH. RIH w/ 12-1/4" taper mill, string mill & water melon mill. CBU, had 1030 units gas & MW cut 9.9 to 9.0 ppg. Mld thru window, tight. Reamed window, OK. CBU, POH. RIH w/ 12-1/4" bit, string mill & water melon mill. Sat down @ 822', reamed thru window. Circ. Ran shoe test on 13-3/8" ppg EMW. POH. RIH & washed BOP stack w/ jetting tool. Got small amount of metal cuttings. POH. RIH w/ 12-1/4" bit, C&C mud to lower visc & yield point POH. MU sidetracking BHA 0 0600 hrs. Steelhead gas bubble, little change, 20'-100' in diameter. 7/17/88 RIH w/ directional BHA w/ mud motor & MWD. Circ & orient. Drlg 841'-1016'. CBU. Ran gyro single shot. POH. Changed BHA & RIH to survey closer to bit. Reran gyro single shot. At 986' had 17-3/4° & 311.38° azimuth. Check shot, OK. POH. RIH w/ motor & MWD. Took 30,000# to work thru whipstock, had added 12" clamp-on stabilizer @ top of motor to build angle. Drld 1016'-1188'. POH. Took 10,000# to pull back thru whipstock. 7/18/88 RIH w/ 9-7/8" HO w/ bullnose. Survey @ 1165'-28°. Hole falling below projected target, not building angle fast enough. POH. RIH w/ plug cutter to 1188' CBU. Mix & pump 230 sx premium cmt w/ 24 CaCl @ 16.4 ppg. ¢IP @ 1300 hrs (~/17). POH to 850'. Sheared plug, circ out contaminated mud. Pulled Summary of Daily WL , Operations TBU Relief Well #1 Page 15 wear bushing. Tested BOP & surf equip, OK. Used jet wash tool to wash thru wellhead & BOP. Reran wear bushing, MU 9-7/8" directional BHA while WOC. Steelhead bubble barely visible to 30' in diameter on slack tides. 7/19/88 WOC. RIH w/ 9-7/8" BHA w/ motor & MWD. Wash 823'-976', had difficulty getting thru bottom of window. TOC @ 976', orient motor. Directional drld 976'-1450 building angle to 57.3o at 311° azimuth. CBU. Short trip to 887" no drag. RIH, no fill. CBU. POH & LD DP. MU 9-7/8" x 12-1/4" HO w/ 15-1/2' slick- limber bullnose. RIH. Steelhead gas bubble averaged 10' to 30' diameter w/ very little activity. 7/20/88 RIH & opened 9-7/8" hole to 12-1/4" from 857'-1434'. No problem thru window. Short trip, hole OK. RIH, 1' of fill. CBU. POH. Retrieve wear bushing. Ran 28 jts of 9-5/8", 43.5#, N-80, seal tech SST/L csg to 1413', no problem thru window. Landed hanger in wellhead. Circ. Cmtd w/ 10 BBL water ahead of 375 sx premium cmt w/ 24 CaCl~ @ 15.8 ppg. Displ w/ 80-1/2 BBL Full returns. CIP @ 2147 hrs, 7/19. Se{ 9-5/8" seals/packoff, test 2000 ~si. POH w/ running tool. RIH & wash WH & BOP w/ jetting tool. POH. Ran test plug. Began testing BOP while WOC. No change in Steelhead bubble, 10'-30' max diameter. 7/21/88 WOC. Fin testing BOP, pull test plug, ran wear bushing. LD BHA. MU 6-3/4" directional BHA, stood back. Close blind/shear rams, test 9-5/8" csg to 2000 psi 30 min, OK. RIH w/ 8-1/2" bit, tag cmt 0 1303'. Drld cmt, float collar, firm cmt, float shoe & CO rathole to 1450'. Drld new formation to 1455'. Test 9-5/8" csg shoe to 14.3 ppg EMW. POH. RU WL & ran GCT gyro, could not get below 1364'. Now running GR/correlation & temp log. No change in Steelhead bubble, max 20'-30' diameter. 7/22/88 Fin running GR-temp log, RIH w/ steerable motor & MWD. Drl 1455'-1681' Had 10-904 cuttings in returns. CBU. Short trip to shoe. CBU. POH, MU siick drlg assembly. RIH. Drl 1681'-1848', lost returns slowly. Pump 9.5 ppg mud. Rate dropped. Filled riser and opened upper annular. Drl 1848'1859'. Closed annular, pumped 6.2 BPM @ 200 psi. Rate dropped to 3.6 BPM @ 250 psi. Pumped 11.6 BPM @ 100 psi @ breakdown, rate dropped again to 1.2 BPM @ 300 psi. Pumped total of 750 BBL 9.5 ppg mud & 200 BBL 11.0 ppg mud. Presently C&C. No lost returns. Ran base temp/noise log in M-25. Ran noise log at Relief Well #1 closest approach to M-25, detected increase in noise @ 1600',1550', & 1500'. Ran noise log when Falcon lost returns from 1500'-400' Louder over base log. Ran noise log after Falcon regained returns. Noiser t~an base log, but quieter than when returns were lost. 7/23/88 C&C mud. Attempt to POH twice, hole swabbed. Pump out 6 its. POH. Clean BHA. RIH to shoe, CBU. RIH to 1859'. CBU. RU Halliburton. Test lines to ~,Operations Summary of Daily · TBU Relief Well #1 Page 16 2000 psi. Pumped 10 BBL seawater @ 2 BPM, 24 BBL 284 HCl @ 0.7 BPM, displace acid w/ seawater @ 1-1/2 to 3 BPM. Pumped 1180 BBL seawater @ 3-9 BPM. Casing pressure dropped 280 to 0 psi. Mixed & pumped 8094 sx premium cmt @ 15.8 ppg. Displaced w/ 5 BBL seawater & 32 BBL 10.8 ppg mud. Slowed rate to 2 BPM, for last 12 BBL. Pressure increase to 275 psi. CIP @ 0337 hrs (7/23/88). Trip out of hole to casing shoe. Monitor well. CP=O psi. Run noise log on Well M-25. Noise at 1100' before cementing not evident after cement. 7/24/88 WOC w/ bit @ 1380' inside 9-5/8" csg. SICP=O psi. RD & backload equipment to work boats. CBU @ 1380'. RIH to 1605'. CBU RIH & tag cmt 0 1742' Drld firm cmt 1742'-1752'. Plug hard @ 1752' (drl~ w/ 8000 WOB, took 1/2 ~r to drill 10'). CBU. POH, LD excess DP & BHA. Suspected lost 5" DP wiper rubber in hole. Circ thru C & K lines, made 3 runs attempting to locate wiper rubber. Could not feel rubber. PU & RIH w/ 3-1/2" DP stinger on 5" DP to set open hole plug. Steelhead bubble 10'-12' diameter on slack tide, barely visible. 7/25/88 Spotted 217 sx premium cmt 1752'-1200' in open hole. POH to 1170'. Rev circ. Press plug to 115 psi for 10 min, OK. POH & LD 3-1/2" DP stinger. RIH w/ 8-1/2" bit & scraper to 1170'. Circ 10.3 ppg mud. POH. Ran & set 9-5/8" cmt retainer @ 1150'. Tested above retainer to 1800 psi, OK. Stab into retainer & test to 14.3 ppg EMW. Pull stinger out of retainer. Mix & spot 60 sx premium cmt on top retainer. Est TOC @ 980'. Pull 3 stds & rev circ. POH. RIH w/ wear bushing retrieving tool. Could not get into WB. POH, pieces of DP wiper rubber in retrieving tool. RIH w/ DP stinger, could not wash out. POH. RIH w/ 8-1/2" bit to 650', OK. POH. Reran WB retrieving tool, no success. RIH w/ 8-1/2" bit to 650', OK. POH. RIH w/ 9-5/8" csg cutter, could not get below 307'. POH. RIH w/ 12-1/4" bit. Drlg on wiper plug in WB. Steelhead bubble varies in size 5'-25' w/ very light frothing action. 7/26/88 Fin drlg wiper rubber. Pulled wear bushing. PU 8-1/2" bit & RIH. Drld soft cmt 974'-985'. Made up 9-5/8" csg seal retrieving tool. RIH Unsuccessful in attempt to pull seal assembly. Made up 9-5/8" csg cutter & RiH to 514'. Cut 9-5/8" csg. RIH w/ 9-5/8" csg spear. Speared csg. Unable to jar free. Had gas bubble in well that cut mut wt from 10.3 to 9.5 ppg. Displaced 10.3 ppg mud w/ 10.8 ppg. POH. Cut 9-5/8" & 13-3/8" csg @ 494'. POH. PU csg spear. Noise & temp logs were run 310'-2500' in Well M-25. Logs essentially unchanged from 7/23/88 following cmt job. Still no positive indication of fluid movement below 1000'. 7/27/88 Jarred on fish w/ csg cut @ 494'. No movement. Release, POH. Change stop on cutter to allow knives to open to 14-1/2" (was 14"). Recut 0 494', no torque. POH, redress cutter. RIH. Cut both 9-5/8" & 13-3/8" 0 450'. POH & redress cutter. RIH & recut @ 450'. RIH w/ spear, engage fish, jar 200,000# & pull 350,000#, no movement. Release & POH. Redress cutter w/o stop on knives, allowing cut to 15-7/8". Recur @ 450'. RIH w/ spear, jarred w/ no movement. Summary of Daily Operations TBU Relief Well #1 Page 17 POH. RIH w/ cutter & cut 9-5/8" & 13-3/8" @ 395'. RIH w/ spear, jarred on fish, no movement. POH. RIH w/ cutter w/o stop (15-7/8"). Recut @ 395'. RIH w/ spear, jarred w/ 200,000#, pulled to 350,000#, fish came free. Had gas in mud. SI upper annular. Mud cut 10.9 to 10.5 ppg. No DP or SICP. Open BOP & circ thru fish. Steelhead bubble 15'-20' diameter w/ very little activity. 7/28/88 Circ thru csg fish. POH w/ fish. Recovered both 9-5/8" & 13-3/8" csg to 450'. Cut 0 395' lacked 1/16" of being cut thru. Ream w/ 14-3/4" bit from below wellhead to 450'. Set 16" cmt retainer @ 445', test above to 1000 psi. Stab into retainer & test 13-3/8" x 16" annulus to 13.0 ppg EMW0 OK. Mix & spot 125 sx cmt plug from 445'-335'. POH to 335', circ. POH. Set 16" cmt retainer @ 330'. Test to 1000 psi above. ND diverter system. Pull riser & BOP on 0100 hr slack tide. Secure LMRP & BOP on stumps on deck. Blue pod air-tugger cable had parted about 60' above pod. Steelhead bubble 15'-20' diameter w/ minimal activity. 7/29/88 Fin ND BOPE. MU multi-string cutter to cut 16" csg + 30" conductor. Backload equip while waiting on slack current. RIH w/ cutter, could not stab into WH (3 guidelines). POH. Re-tied soft lines on GL's. RIH & stab into WH, OK. Cut 16" & 30" @ 320'. Wait on slack current, velocity in excess of 6.5 knots. Began cutting again @ 320' when current slacked. Drl string torqued & twisted off. POH. String had parted in box of space-out sub below marine swivel. Fish in hole = 30'. Jump diver & re-establish 4th guideline. Felt top of fish 6" below top of WH. Attempted to WO fish w/ OS. POH. No recovery. Redress OS w/ 7-7/8" grapple & wait on slack tide to RIH. 7/30/88 Wait on slack tide. RIH w/ OS, diver confirmed OS in well. Could not latch fish. POH. PU six 9" DC's & redress OS w/ 8" mill control & 7-7/8" grapple. Wait on slack tide. RIH, got into well w/ difficulty (could not jump diver due to current). Latched fish, POH. LD fishing tools. Redress multi-string cutter. Wait on slack tide. RIH, current never slack enough to jump diver. Worked pipe until got into wellhead. Slacked off until marine swivel on wellhead, rotated w/ excessive torque. Torque decreased as continued rotating. Cut 16" & 30" csg @ 320' for 30 min. Current bowed drill string outside guidelines. Wait on slack tide. Began cutting again 0 0200 hrs. Cut 1-1/2 hrs between 2.5 knots on ebb tide & 3.0 knots on flood tide. Waiting on slack tide @ 0600 hrs. Steelhead bubble normally 15'-20' diameter, heads occasionally to ± 40' diameter. 7/31/88 Wait on slack tide w/ multi-string cutter in well. Cut 16" & 30" cs9 @ 320', got high torque. PU, cutter nozzle partially plugged. POH. Cutter knives showed cut thru 16", not positive cut on 30" Found bolt in nozzle. Redress cutter & WO slack tide. RIH, could not get into WH. Could not jump diver on low slack, current never slack enough. POH. WO high slack. RIH, jumped diver & worked cutter into WH. Fin cut 30" csg ~320'. POH. MU 16" spear, WO slack Summary of Daily ~ , Operations TBU Relief Well #1 Page 18 tide. RIH & stabbed into WH by shortening west soft-line. Latched 16", PU & POH w/ 16", 30" csg + permanent guide & temporary guide bases. Land on moonpool spider beams & RD same. No change in Steelhead bubble, 15'-20' w/ minimal activity. 8/0 /88 Fin RD temp & perm guide bases & 16" & 30" csg cutoffs. Pulled #2 & #3 piggyback anchors, loaded/secured on rig. WO slack tide, #3 primary slipped on ebb current. Reran #3 primary. Pulled #1 piggyback, OK. Pulled #4 piggyback. Loaded/secured #1 & #4 on rig. WO slack tide. Pulled #6, #7, & #8 piggybacks, secured on workboat decks. WO slack tide. Pulled #5 piggyback (all piggybacks up). Pulled & bolstered #1 primary anchor. No change in Steelhead bubble, 15'-20'. 8/2/88 WO slack tide. Pulled primary anchors #5 & #8. Move MV Ocean Fin to bow. Tow bridle for ebb tide. WO slack tide. Pull primary anchors #4 & #7. Connect MV Ocean Fin & MV Monarch in tandem to stern tow bridle for flood tide. WO slack tide. Anchors #3 & #6 slipping, difficulty holding heading. Pulled #3 primary. Connect MV Biehl Traveler to starboard tow line & MV Ocean Fin to bow tow bridle. Pull #2 primary anchor. Winched Falcon over #6, when PU off seafloor, anchor spun, fouling chain. WO slack tide. Turned Falcon to 180° heading. Pulled #6 anchor onto MV Ocean Fin, cut chain & loaded on to Falcon. Took fuel soundings. RIG RELEASED from operation to demobilization @ 0600 hrs, 8/2/88. FINAL REPORT. _ Attachment #~ ~*~ TRADING BAY. NI~**' ~'~ 'RELIEF WELL ~1 PLUG & ABANDON DIAGRAM' Sea Floor at 298' __ 30' at 376~ Cement 16' at 657' 13 3/8" at814; ~ ..~ Top of cement, at * 1'0oo'" ~ cut' !e' :&' 30" it · 9i~' 16. C®me'n! RetS' iit:~:'iJ30', cut 13 3/8'.cIMng at.*'410~ 13 8/8, Cement Retr ~t · 480"~ ---- cut 9 518' casing at* 500'= 10.2 ~pg Mud 9/68' Cement "J~etr a'{: * 'i 10.2 ppg Mud Top of Cement at * 1200" ~ g 5/8' at 1'4i3' Cement 2nd Intersection of M'26' .Weilbore at' 1848'-MD! Sidetrack · 1' TD et:-1859 ~e~nt Gl~N/(mw ?IlS/Il MCC TBUS M26 RELIEF WELL +-- t + ft ft/hr~ AVG MAX AVG AVG PRES I unit IN OUT IN OUT IN OUT + ........ ~rathon Oil C~upanyspudded ~':-~. · TBUS;~26 ~bse_~rvatlofi ~ell at 05:00 hfs on ~my 20, 1988. Returns are to the $~a f'l,~..or dr.i_:l, ling wit.h9~t NB ~3 Smith SDS-~9.8,~" W%~.~,.op~. 9~.],,e.,t:'.S~ i~, 30~i~e,,9,~/m, Sl (,mean sea leve3~ c~.r~ently, 204 Bi%~t~3 was run in c(~n~uc.~i~.n. Wi~h,. a Non-~.~r~a~!k ~':~ :~, .~mg~t.o,~' ~.~ .a ~eleco ~D' directional t~l. 4 ~:~0~ , 390,0 3t.~ ~ .4.2.~,8 4'1.4 0' 0, 13 ~54Z 3e~.~ 35. 14 ~543 310.2 15 0544 311,~. 42.6~ 16 ~545 17 ~546 313'.I23,9} 18 ~Sd~ 314~{67.~J 19 0547 315.~ 42.2~ 20 0548 316.2 186{ ~ ~.549 317,~ 61.6~ 25', ~8 a~.. a~i.~-. 32~'~.~.~ ..-34. [~7' 326.0 1~. =: 3~ 9.6~: 327. [ /'."35 06~8 "~33,~ 31,9 41 5642 ~37,~ ,.- 4-$ .~642 338.~ [ 45 e644 341.e 46 0644 342.0 166 47 0644 ~3.0 163 240. 21~.8'3. d. 263, '3. 198 3,'88 180 1.39. 181 I78 1.15 177-t,.~ 178 1.35 18~ 1.27 179 1.2~ 181 1.07 181 1.36 181 1.57 164 ~.62 185 !d45. .1-78 1,48 i81-1..'47. ff'l~5 11'56 177 1.76 182 2.4~. 174 2.67 176 3.34 177 4.02 1-75~ 2.69' i~3 2.S7 177 2.~3 178 2.79 1.~9 2.22 179 2;70 174 2.75 181 4.42 176 2.~9 173 4. 7t0 500 720 64~ 490 470 75~. 470 73~ 671] 55~ 0,.~.'~/2~:, ~,.~], 362 S 4'2/8 41/4 68~ ~ 8.:a22 t,~OO 362 0. 42;8 41~41 5i~ ~. ~ 8:. ~ '~, ~s 3fi. i: 42. 8- 41. 546 . g.,g 8~2~,0-.~ 363: $.' 42.8 640' ~2.~ 8.2!.'~'~0~; 35~. 0. 42.8 5e~ ~;g ~..t~:. ~';~.- 3.56 ~ 42..6 460 0.O; 8.1~,~;~0 355 01 4216': 4I,.~, 640 0.~ 8. ~5"~ ~.. 359 670 0.0 8.18 0~. 35~ 0 44~ 0. ~ 8.24 O. ~8 362 0' 450 0.0 8.25. g. ~ 35~ 520 0.0 8.59 ~:.~0- 3~9. 0 490 0.0 8.47> 0;.~0': 36.~.: 4v~ s'.~., s.2e s:de~:~.. .. e: 488. '. S.~. 8. ~ g. ~0. 36'6: .46~. ~. S:. 8.2~ 0'. ~ . a3.~ ' ~:, ~'0 8.31 ~'.~ 540. g.~ 8.23 0.80' I46_ 0.0 8..3g' 0~00 345' - 0 0.0 8,18 0.00' 356- ~ 8.37 8.0~ -3.5~3 g.~ 8.26 ~.~0 2-~8 '0 .. ~.~ 8.25 S.~ 555 -'~.~ 8.31 ~.~ 355 ~.~ 8.29 0~ 362 ,.' 0', O 8.19 .. ~ ~g 352- ~.~ 8.15-. 9.~9'. '-t61: . O,~ 5.27 ~.~g 3'5~ g g.g 8,~g g.~g 35~ 42:'6 41.2 42.6 41,2 42-..6 41.2 42.6 41..2 42.4 41.2 42~31. 41.12 42.3: 4i,2. 42:,3 4L 2~.. 42.6. 42~.6. 4-2~6 · 41', 4'.- 42.6' 4t;.4. 42.6 %1.. 4z.e . 42.6 4i.4 4i:.4 42. %. 41~ 42.4,41.4- 42.4 41,4 42.4 41,4 42.4 4t,4. 41.4 41.4 42.4 41.4 42.4.41.4' , Data P~lnted at time 15129 Date Jul 28 '88 Data Recoraeo at time 05:99 Date Fk~]/ 20 '88 --THIS BlT ...... WATER --T¥'D--I I ft hr DEPTH DEPTH ~,s~../' 753' 753 7~3 742 73~ ' 723. 712 7~4 699 674 667 682 714 -..743 749. 753 ~5 7~ 757 7~' 736 · -72m 729 .5 .5 ,5 DXC ECD NXMD 2,~,0.~ / '1.211 26.~ '71.2 27.0 1.2 28.~ "' 1.3 29-.0 1.3 3~J'. 01 1.3 31.1 1~.4 32;~ 1.4 34.~' 1,4 35.e- 37,~ 1,5 1.5 1,~ 1.S 3~7.'~4 :..~3 ,a26: 311.~ '.9t :s.~ ~.5~ 313.1{ 1.~2 8.69 3142~{ .84 8.~ 8.5~ 3~.~{ .~1 8.~ 8.50 316.~2 { .65 8,61 .-,..-.--ff.~% 0.0 0.% 317.t; .86 ..%18. D: 1,15 32~.8 1./5 32t. {~ 1.~8 .3~.~. 1,16 326. ~ 1,16 327.~ 1.~ 32~..~ 1.~ 329.~ 1.06 33~.'zj .89 336,.b 34Z.OI/ 342.~J 3~3.~l 8.66 8.51~ 8.&?. 8;6t. 8.67 8.-~ 8.67 .8.48. ~ 8.5~ 8.64 ~.48 8.66 8.5~ 8.67 8.48 8.7~ 8.5~ . 8.66 . .. ~ 48 ID D ,D D ~D -D !D :D. D D' MLC RBUS M26 RELIEF ~ELL #1 F# TIP~ DEFI'H ft 48 ~645 49 ~645 50 0645 51 0647 52 0648 53 ~651 54 0651 55 0656 56 ~700 57 0702 58 0704 59 0708 60 0712 61 ~716 62 0721 63 0724 64 0737 65 0738 66 0742 67 0743 68 0744 69. 0745 70 0746 71 0746 72 0747 73 0749 .7~750 .75.,~51 .7~9751 ~.: 0752 7~ ~757 7~ ~754 ~. ~755 ~. 0756 82, ~757 ~. ~758 .~.. ~759 ' 85 0800 86 ~801 87 08~3 8~ ~8~3 89 ~804 9~ ~5 91 ~8~6 92 08~7 93 94 ~8~9 95 +----: ROP ft/f= TORQUE RPM WC{~ PUMP AVG MAX A%G AVG PRES 344.1 2G5 345.1 217 346.0 94.2 347,1 34.0 348.0 43.4 349.0 24,5 3.50.! 111 351.1 30 · i 352.0 34.1 353.0 33,5 354.1 31.2 355.0 30,1 356.0 32,2 357.0 34.5 358.0 34.6 359.0 3~.0 360.1 35. 361.0 33.8 362.0 34. 363.0 81.1 364.0 43.5 365.0 130 366.0 47.1 367.0 89,0 368. ~ 61.7 369.0 37.5 370. ~ 81.6 371.0 64,8 372.0 64.2. 373.0 72.2 374.0 56.7 375.0 71.1 376.0 59.6 377.0 63.3 378.0 379.0 63.5 380. ~ 57.0 381.0 51.2 382.1 75.6 383.~ 51.8 384.2 51.9 385.1 64.4 386.1 66.3 3~7.1 52.5 388.1 67.8 389.0 66.3 390.0 68.fi 391.0 63.6 177 6.~1 181 5.83 178 7.49 175 7.53 174 6.96 175 6.~0 175 5.79 175 6,88 243 5,77 244 6,00 243 6.39 242 6.64 244 6.~8 244 6.69 244 6.98. 242 7.11 2,~6 6~ 42 239 7.01 252 6.29 254 6.40 255 6.43 256 5.35 256 4.30 255 4.~5 258 4,21 253 4,78 253 4.43 253 4.16 256 5.23 255 5,04 253 4.65 255 5.45 257 4.41 257 6,28 254 5.~35 253 4.57 253 5,54 256 5.~5 25~ 5.29 257 4.83 261 7,54 261 7.54 261 7.54 261 7.54 261 7.54 261 7.54 261 7.54 196 3.50 Data Pr~ntea at t~me 15732 Date 0ul 2~ 'g6 Data Recor~e~ at t~me ~6745 Date ~'~y 2~ '88 48~ 700 680 720 1620 540 710 560 680 6301. 84~, 630i 770~ 760 740 570 530 580 540 600 570 510 550 690. 750 730 590 740 720 750 570 530 760 720 750 610 550 550 580 520 650 570 53~ 540 53~ T.GAS MD lb/gal FLOW/MIN TEMP {F) PVT unit IN OUT IN OUT IN OUT 0.0 8.31 0.00 354 0 42.4 41.4 728 9.0 8.21 0.00 359 0 42.4 41,4 724 0.~ 8.16 0.~0 357 0 42.6 41.3 720 0.0 8.21 0.~0 341 0 '42.4 41.4 714 0.~.8.12 0.00 344 0 42.3 41.5 7~9 ~.0 8.21 ~.0~ 350 ~ 42.2 41.5 701 0.0 8.18 0.0~ 348 0 42.~ 41.5 698 --THIS BlT ...... WATER --TVD-- ft hr DEFIH DEI~I'H 0.0 8.27 0.f'0 360 0 42.~ 41.4 0.~ 8.25 0.00 397 0 42.3 41.~ 0.0 8.~6 0.00 396 0 42.4 41.0 0.0 8.25 0.~0 395 0 42.4 41.0 0.0 8.19 0.00 396 0 42.4 41.0 0.0 8.16 0.~0 393 0 42.4 41.~0 0.0 8.21 0.00 394 0 42.4 41.0 0.0 8.48 0.00 397 0 42.4 41.~ 0,0 8.21 0.00 396 0 42..6 41.0 0.0 8.18 0.00 367 0 42.1 41.4 0.0 8.51 0.00 367 0 42.2 41.5 0.0 8.36 0.00 369 0 42.3 41.5 0.0 8.27 0.00 369 0 42.3 41.5 0.0 8.14 0.00 374 0 42.4 41.5 0.0 8.17 0.00 375 0 42.4 41.5 0.0 8.25 0.~0 373 0 42.4 41.5 0.0'8.04 0.00 373 0 42.4 41.5 ~.0 8.07 0.00 ' 376 0 42.6 41.5 0.0 8.12 0.00 367 0 42,6 41.7 0.0 8.14 0.00 366 0 42.6 41.7 0.0 8.07 0.00 368 0 42.6 41.9 0.0 8.13 0.00 375 0 42.6 41.9 0.D 8.57 0.00 372 0 42.6 42.1 0.0 8.17 0,00 370 0 42.8 42.1 0.0 8.15 0.~0 374 0 42.8 42.1 0,0 8.19 0.00 374 0 42.8 42.1 0.0 8.25 0.0~ 376 0 42.8 42.1 0.0 8.27 0.0~ 368 0 42.8 42.2 0.0 8.34 0.00 367 0. 42.8 42.3 0.0 8.25 0.00 370 0 42.8 42.3 0.0 8.22 0.~[} 376 0 42.8 42.3 0,0 8.14 0.0~ 373 0 43.0 42.4 0.0 8.21 0.00 379 0 43.0 42.4 0.0 8.29 0.00 367 0 42.6 44.4 0.~ 8.31 0.00 363 0 42.8 44.4 0.0 8.31 0.0~ 364 0 42.8 44.4 0.0 8.28 0.00 374 0 43.0 44.9 ~.0 8.£~ 0.00 374 0 43.~ 44.6 0.0 8.16 0.00 166 0 43.0 44,6 0.~' 8.16 0.~0 166 0 43.~J 44.6 0.~ 8.27 0.~ 3~ 0 43.~ 44.4 6821 51.1 695I 699[ 53.0 7031 54.1 ,717j 56.0 732 57.~ 741 58.0 744 59.0 665 60.1 673 61.0 691 62.0 695 63.0 703 64.0 703[ 65.0 710 66.0 711 67.~ 718 68.0 · 725 69.~ 732 70.0 733 71.0 736 72.0 740 73.0 747 74.0 75~ 75.0 755 76.0 758 77.0 763 78.0 768 79.0 7721 80.0 7771 81.0 782t 82.1 792[ 83.0 675 84.2 676 85.1 677 86.1 702 87.1 703 88.i 757 89.0 757 90.~ 738 91.~ 44.1 1 .'5 0. ¢ 344.1 45.1 1.5 0.6 345.1 46.~ 1,5 0.0 346.W 47.1 1.6 0.'0 347.1 48.~ 1.6 0,0 348.0 49.0 1.6 0.0 349.0 50,1 1.6 0. ~ 350 . t 1.7 0.0 351.1 2.4 0.~ 352.0 2.4 0.0 353.0 2.5 0.0 354.1 2,5 0.0 355.0 2.6 0.0 356.0 2,7 0.0 357.0 2.8 0.0 358.0 2.8 0.0 359.0 3.6 0.0 360.1 3.6 0.0 361.~ 3.7 0.0 362.0 3.7 0.0 363.0 3.7 0,0 364.0 3.7 0.0 365.~ 3.7 0.0 366.~ 3.7 0.0 367.0 3.8 0.0 368.0 3.8 0.0 369,0 3.6 0.0 370,0 3.8 0.0 371.0 3.8 0.0 372.0 3,6 0.0 373.~ 3.9 0.0 3.9 3.9 0.0 3.9 3.9 0.~ 3.9 0.0 4.0 ~.0 4.0 ~.~ 4.~ 0.0 4.0 0.0 4.8 ~.0 4.8 9.0 4.6 5.0 0.0 5.9 (6.0 5.1 0.0 5.1 ~.~ 5.2 0..~ DXC 5CD NXMD .~4 8.62 8.40 .83 8.66 8.50 1.05 8,67 8.42 1.28 8,65 8.50 1.20 8.70 8.42 1.30 8.60 8.50 .96 8.63 8,42 1.54 8.64 8.50 0.~0 8.68 8.48 1.40 8.67 8.48 1.58 8.64 8.50 t.57 8,60 8.48 1.48 8.65 8.50 1.64 8.66 8.48 1.62 8.60 8.50 1.50 8,64 8.48 2.01 8.62 8.50 1.34 8.67 8.48 1.51 8;61 8.50 1.15 8.65 8.48 1.29 8.69 8.50 1.01 8.60 8.48 1.17 8.66 8.50 1.05 8.63 8.48 i.12 8.65 8.50 1.24 8.65 8.48 1..07 8.66 8.50 1.10 8.68 8.48 1.15 8.61 8.50 1.i2 8.63 8.48 374.01 1.15 375.~I 1.14 37 .ot' 1.1 37,.~J 1.20 378,0 j 1.19 379.01 1.12 38~.oI 1.19 381.0 1.19 362.1 1.12 3~3.0 1.23 384.£ 1.64 3~5.1 0.0~ 386.1 ~.~ 8.61 8.50 8.61 8.48 8.67 8.50 8.63 8.46 8.60 8.50 8.60 8.48 8.62 8.50 8.65 8.48 8.64 8.50 8.67 8.48 8.68 8.50 8.69 8.50 6.63 8.5G 8.61 8.50 8.62 8,50 ~.65 ~.50 $.b7 8.5~ 6.62 8.50 D D D D D D D D D D D D D D D D D F# TIME DEPTH ROP ~t ft/hr 96 g~ll 392.~ 56.~ 97 0~12 394.~ 69.8 98 0~13 395.0 58.3 99 ~814 396.Z 57.'7 100 ~815 397.0 59.i 101 ~816 398.0 67.6 102 G'819 399.~ 59.7 t103 ~19 400.0 67.3 1104 0820 401.6 59.5 11~5 1~58 402.1 28.,5 1106 1~59 403.0 54.5 1107 1100 404.0 73.1 t1~9 1102 406.0 52.2 110 1103 407.~ 54.7 111 11~4 4.08.~ 70,1 112 1105 409.0 47.2 113 1106 410.0 57.6 114 1108 411.0 40.9 115 1108 412.~ 77.9 116 1109 413.0 51.9 117 1111 414.0 53.0 118 1112 415.0 58.4 119, 1113 416.0 61.2 1 12~ 1113 417.0 74.0 121 1114 418.~ 58.4 1.2.2,,~. 1115 419.'~ 60.0 1~.~i,'n16 42'0'.i 57.2 124:1117 421.0 59.0 126 1120 423.~ 46.9 .. 127 1121 128 1122 129. 1123 '1~ f124 131 1125 132~ 1126 133 1127 134 1128 135 1129 136 1130 137 1131 13.8 1301 139 1302 148 1203 141 1304 142 12~6 143 13~7 424.0 50.2 425.~ 56.7 426.0 52.7 427.0 69.0. 428.0 63.1 429.1 57.8 430.~ 62.i 431.0 69.7 432.0 47.2 43.3.0 53.5 434.0 60.4 435.0 6.1 436.2 65.~ 437. ~ 102 438.0 60.5 439.{3 48.2 440.1 55.9 ~4CC ~BUS M26 RELIEF WELL TORQUE R[%~ ~OB AVG MAX AVG AVG 196 3.60 760 197 3.87 77~ 197 4.87 770 197 4.87 770 197 4~87 770 197 4.87 770 197 4.87 770I 197 4.87 710{ 267 5.. 02 82~ 270 4.36 270 4.40 730I 271 4.78 670 270 5.71 810 272 5.70 770 273 5.90 72~ 271 5.33 640 272 5.63 83~ 264 5.6~ 62~ 244 5.57 61~ 242 4.79 61~ 247 5.63 430 243 5.87 530 244 5.~8' 53~ 249 3.65 410 2~7 3...5! 48~ 244 3.&3 530 244 3..97 41~ 244 3.79 62~ 245 3.62_. 440 249 3.62 580 249 3.68 52~ 247 3.45 44~ 245 3.48 590 246 3.84 510 246 3.60 43~ 249 2..52. 410 249 1..63 41~ 249 1._67 223 247 1.16 242 3.17 241 3.71 245 1.98. PUMPt T.GAS MD lb/gal PRES I unlt IN OUT 0.D 8.37 0.~ 8.37 ~.~ 8.37 ~.~ 8.37 ~.~ 8..37 ~.~ 8.37 ~,~ ~.~ 8.37 ~.~ ~.~ 8,18 0.~ 0.0 8.66. ~,~ 8.39 0.~ 0.~ 8.69 ~.~ 0,0 8..45 0,~. 8.56.. 0.~ ~.g 8.21 0.~ 8.35 g.,~ 8.56 8,24 0.~ 8.14 8.32 0,0~ 8.27 0.~ 8.11 ~.~ 0.~ 8.16 8.14 8.15 8.10 0.~ 8..!8 8.28 8.28 0.0 8.25 ~..0 B. 26 FLOW/'~IIN TEMP iF) IN OUT IN OUT 390 0 43.~ 44.4 391 ~ 43.~ 44.4 392 ~ 43.~ 44.4 392 0 43.~ 44.4 392 0 43.~ 44.4 392 0 43.0 44.4 392 ~ 43.~ 44.4 392 ~ 43.0 44.4 393 0 43.~ 44.4 389 ~ 42.4 44.1 393 0 42.4 44.1 388 0 42.4 44.1 394 0 42.4 44.2 390 0 42.4 44.2 393 0 42.4 44.2 395 0 42..6 44.2. 39~ 0 42..6 44.2 394 0 42.6 44.2 361 0 42.6 44.2 335 0 42.7 44..2 336 0 42.8 44.2 344 0 42.8 44.2 329 0 42.8 44.2 340 0 42.,8 44.2 334 ~ 42~,8 44.3 343 ~ 42,.8 44.4 346 0 43.0 44.4 342 0 43.~ 44.4 336 0 43,0 44.4 34~ 0 43.~ 44.4 337 0 43.0 44.4 339 0 43,0 44.4 346 ~ 43.0 44.6 341 0 43.0 44.4 34~ 0 43.1 44.4 334 0 43.2 44.4 338 0 43.2 44.4 340 0 43.2 44.6 346 0 43.2 44.4 344 0 43.2 44.4 342 0 43..2 44.A 345 0 43,2 44.4 PVT Data Pr~ntea at t~me 15726 Data Keco=ae~ at time 08711 737 737 737 737 737 73~ 737 737 735 620 625. 628 634 638 646 650 656 659 668 672 678 685 689 696 699 711 71} 722 732 736 744 748 755 756 758 755 759 759 761 --THIS BlT ....... WAT~.R --TVD-- ft hr DEPTH DEFi'H 92.,0 5'~2 0.~ 392.0 94 . ~ 5 . 2 95.~ 5.2 0.0 395.0 96.0 5.,2 0.0 396. 97.0 5.2 0.~ 397.0 98.[J 5.2 0.0 398.1~ 99.~ 5.2 ~.~ 399.~ 1~0 5,2 101 5.3 0.0 401.0 1~2 5.5 0. ~ 402.1 103 5.,5 0.0 403.0 1~4 5.5 0. 1~5 5.6 0 · 106 5-.6 0 · 0 406.0 107 5.6 ~,,0 407,~ 1~8 5,6 0.. 109 5..6 11~ 5.6 0 111 5.7 0. ~ 411.0 112 5.7 0.0 412,0. 113 5 · 7 0 · 114 5,,.7 0 · ~ 414 . 0' 115 5~.7, 0.0 415.0 116. 5..8. 0.~ 416.B 117 5..8 0.~ 118 ~,.,8 0.0 418.0 119 5.8 ' 0. 120 5.8 0 · 121 5.,8 122 5.9 0. ~ 422..~ 123 5.9 0..g 422,0 124 5.9 0.{J 424.0 125 5.9 0.0 425.0 126 5.9 0 127 5.9 0 . 0 427.0 128 6.~ 0.0 428.0 129 6.0 0.0 429.1 13~ 6.0 0. 131 6. ~ 0 ..0 431.. 0 132 6.0 133 6..~ 0.0 433.J~ 134 6.1 0.~ 434.0 Date Jul 28 '88 Date P~ay 20 '88 DXC 5CD NX~D .10 8.67 8.50 .32 8.64 8,50 .SZ 8.65 8.50 .50 8.61 8.50 .50 8.61 8.50 .50 8.64 8.50 .50 8.68 8.50 .50 8.66 8.50 0,00 8..65 8..50 1.,32 8.67 8o50 1.15 8.65 8..50 1..09 8.69 8 1.,16 8.69 8.50 1.2~. 8.62 8.50 1.19 8~67 8.50 1.14 8..68 8,,50 1.20 8..62 8~50 1.1.7 8.,,70 8.,50 1.~3 8.64 8.50 1.~8 8.66 8.50 i. 13 8.,65 8.50 1.17 8,69 8.50 1.,16 8.. 66 8.50 1,12 8.60 8.50 1.06 8.. 68 8..50. 1.08 8,61' 8.50 1.~'7 ~.. 62. 8.-5~ 1.02 8..62 ~.50 L~9 8.60 8.50 1..1~ 8..65 8. 1..13 8.63 8.50 1.11 8.61 8.50 1.09 8.62 8..5g 1.11 8.61 1.05 8,69 8.5~ i. 06 8'. 66 8 1..1~ 8.64 8.50 1.07 8.69 8. .59 8.69 8.50 · 98 8.69 8.50 · 98 8..65 8.50. · 94. 8.69 8..50 1.47 8..~4. .90 8.,}0 8.50 .82 8..66 8.50 1.07 8.62 b.50 1.14 8,64 8.50 .99 S. 67 347 0 42.4 43.5 346 0 42.6 43.5 351 0 42,6 43.5 337 0 42.6 43.5 33,~ 0 42.6 43.5 344 0 42.6 43.5 762[: 762{ 73~I 75~I ]46t 749I 755i ;5~t 135 7.1 0.0 435.0 136 7..1 0.~ 436~2 13~7 7.1 0.~, 43~ .D 138 7.1 0.0 438.0 13~ 7.1 g.B. 439.0 14~ 7. i ~. ~ 44{~. i D D D D- D D D D D D D D: D D D D D D 'ID ir> ID ID ID ID MCC ~BUS N26 RkLiEf' WELL F~ TIME DEr/IH ~t ROP ft/tm 144 1308 145 1309 146 1311 147 1312 148 1313 149 1315 150 1316 151 1218 152 1320 153 1322 154 1324 155 1325 156 1327 157 1329 158 1330 159 1331 160 1332 161 1334 162 1335 163 i336 164 1337 165 1338 166 1339 167 1340 168 1341 169 1342 170 1343 171 1244 172,1346 173 1347 174 1348 175 1349 176 1353 177 1353 178 1356 179 1356 180 1359 181 1422 182 1427 183 1435 184 1440 185 1445 -186 1511 167 1511 188 1511 189 1511 19~ 1511 191 1511 ,. 441.g 58.9 442.0 45.5 443.1 43.9 444.0 39.4 445.1 44.8 446.0 51.6 447.6 46.9 44 8.0 28.4 449.9 32.4 450.0 23,4 451. ~ 37.0 452.~ 37~9 453.1 42.4 454.0 33.1 455.0 43~5 456.0 59.0 457.0 42. t 458.1 36.6 459.0 52.6 460.1 50.D 461;9 96.6 462.1 64.1 463.0 49.6 464.0 61.1 465.9 5~. 1 466.6' 52.9 I 467.0 49.2I 468.~ 63.$j 469.G 127 ] 470.0 158~ 472.~ 129 473.'0 1~21 474'.0 136 475.G 1'26 476.3 46.1 477.~ 40:6 478.5 42.8 479.0 42.2 480,0 68.1 481.0 60.6 482. g 56.7 483. ~ 55. i 484.0 57.7: 4~5.0 58.5i 486.0 59.3. 487 .-0 60. ~ 488.~ 57.4 ~ORQgE RPM WOB PUMP AVG MAX AVG AVG PRES 239 1.99 67~ i46 2.23 499 249 2.]8 579 248 2~55 45~ 244 3.62 660 248 2.~6 48~ 249 3.2~ 480 247 3.~6 480 241 3.~9 71~ 241 3.15 680 236 3.22 500 246 3.91 520 245 3~9 610 248 2~8 500 249 2~69 490 244 3~07 640 239 3,78 470 246 3.33 530 243 4.~ 719 241 3.78 536 245 3.34 61~ 246 2,75 700 246 2~38 440 237 3~56 690 249 3,42 53~ 243 3,63 600 247 2~79 519 2'37 3~1! 720 245 3.28 440 245 4.i4 620 245 3.79 84~ 24'5 ¢.~8 550 ~45 4.71 560 245 5.~2 440 245 4,~6 630 ~45 5.19 500 245 4,38 560' 233 4.53 490 232 2.68 54~ 232 3'.59 470 236 4.34 670' 226 5.15 860 242 5.36 579 242 5.10 58~ 242 5.61 74~ 242 5.09 550 242 2.73 710 242 5.91 55~ · . Data Print~ at t~me 15:39 Data RecorOe~ at tlme 13:68 Date 0ui ~8 '88 Date ~y 26 '88 T.GAS MD lb/gal FLOW/MIN TE~iP ~F) un~ t iN OUR' IN OUT iN OUT PVT --THIS BI~'- ...... WATEE ~t hz DEPTH ~.G 8.27 9.60 326 6 42.8 43.5 754 ~.~ 8.35 0.~9 344 0 42.8 43.5 746 0.6 8.28 9.~0 349 0 42.8 43.5 734 0.G 8.40 9.~0 344 0 42.7 43.5 729 9.~ 8.21 0.00 343 0 42.6 43.5 736 0.~ 8.23 0.00 248 0 42.6 43.5 714 0.~ 8.26 0.~ 349 0 42.6 43.5 712 0.~ 8,77 9.09 339 0 42.8 43.5 722 ~.~ 8.17 ~ 328 0 42.8 43.5 734 ~.0 8.3~ ~90 329 0 42.8 43.5 734 0.0 8.19 0.~0 ~35 0 42,8 43.5 733 0.0 8.21 0.00 342 0 42.8 43.5 732 0.9 8.19 0.00 346 0 42.8 43.5 728 0.~. 8.16 0,~ 346 0 42.8 43.7 725 0.g 8.26 0.90 348 0 42.8 43.7 728 0.0 8~19 0~0~ 338 0 42.~ 43.7 726 0.~ 8.37 0.00 331 0 42.8 43.7 721 0.9 8.25 0.09 349 0 42.8 43.7 729 0,~ 8.16 0.00 328 0 42.8 43.7 727 0.0 8.40 9.9~ 338 0 42.8 43.7 73~ 0.9 8.23 0~0 349 0 42.8 43.7 732 ~.6 8.18 0.60 338 0 42.8 43.7 735 0.0 8,27 0.00 343 0 43.~ 43.7 74~ 0.~ 8.15 0.00 325 0 43.9 43.9 74~ 9~6 8.25 0,~0 333 0 43.~ 43.7 743 ~,0 8.1.9 ~,£0 337 ~ 43.6 43.9 74~ 9.9 8.27 0~ 347 0 43.0 43.'9 743 0.0 8.~9 9.~0 .323 ~ 43,.~ 43.9 744 0,9 8.16 0.99 35~ ~ 43.~ 43.9 748 0.9 8~3 0.09 345 0 43.9 43.9 751 0.9 8.27 0.~0 334 0 43.9 43.9 755 0.~ 8.25 0.~ 335 0 43.0 43.9 757 0.~ 8..27 9.90 348 0 43.9 43.9 741 0.9 8.23 0.00. 335 0 43.~ 43.9 739 0'.0 8~21 0,~0 350 0 43.6 44.1 735 0~0 8.21 ~.00 351 0 43.~ 44.1 734 0.~ 6.24 ~.g~ 335 0 42.9 44.1 732 0.0 8.~0 ~.~0 34~ 0 42.8 44.4 722 0.~ 8~13 0.00 -335 0 42.8 44.4 740 0.0 8~30 0.~ 334 0 43.0 44.4 748 0.0 8.23 0.~0 ~41 0 43.~ 44.4 730 0.0 8.12 0.00 321 0 42.8 44.2 728 0.~ 8,31 0.~0 334 ~ 43.~ 43.9 737 0.0 6.21 0.00 334 0 43.-6 43.9 737 0~ 8.51 0.00 3~4 9 43.~ 43.9 737 0.0 8.5t 0.00 334 ~ 43.~ 43.9 737 0.9 8.21 0.60 334 0 43.~ 43.9 737 O.~ S.21 0.00 334 ~ 43.6 43.9 737 141 7.2 0.~ 142 7.2 0.~ 143 7.2 0.9 144 7.2 145 7.2 0.0 146 7.3 9.0 147 7.2 ~.~ 14~ 7~3 9.~ 149 7.4 150 7.4 0.0 151 7.4 0.9 152 7.4 0.0 153 7.5 0.0 154 7.5 0.9 155 7.5 0,0 156 7.5 0.9 157 7.6 158 7.6 0,0 159 7.6 16~ 7.6 161 7.6 0.~ 162 7.7 0.0 163 7.7 164 7.7 0.0 165 7.7 166 7.7 ~,0 167 7.7 0.~ 168 7.~ 0.9 169 7.8 179 7.8 0.9 171 7.8 ~.$ --TVD-- DEPTH 441. ~ 442.0 443.i 444.0 445.1 446.0 447.~ 448.0 449.9 450.0 451.9 452.9 453.1 454.0 455. ~ 456. ~ 457.0 458.1 459.~ 469.1 461.0 462.1 463. ~ 464.0 465. ~ 466.0 467..0 468.0 469.9 47~.6 471.~ DXC ECD .98 i.~6 1.~9 1.W9 1.10 1.97 1.11 1.20 1.17 1.22 1.13 1.12 1.il 1.12 1,98 1.05 1.15 1.1~ 1,13 1.12 .97 1~t 1.03 1.66 1.16 1.~6 i..~3 1.,19 172 7.8 0.~ 1~3 7.9 ~..~ 174 7.9 0.0 175 '7.9 0.0 i76 7.9 6.9 177 7~ 0..9 179 8.9 179 8~1 0.£ 180 8...2 ~.0 181 8..5 182 .8.2 0.0 183 7.6 184 7.6 0.9 185 7.6 186 7.6 187 7.6 1~8 7.6 ~.~ 472.0t 473.0i ~.~ 474.01 0.69 4 75..o I 476.31 477.0I 478.51 1.04 4~9.0~ .~8 480.0: .77 481.0 .79 482.6~ .82 483..~ 4~4.~ .~7 ~5.~ .87 486.~' .87 487.0' .57 468.~ .~7 8.67 8..67 8.68 8.62 8.68 8.64 8.67 8,64 8.68 8.63 8.61 8.63 8.68 8.64 8.69 8~69 8.67 8.68 8.62 8.62 8.66 8.63 8..6~ 8.63 8.65 6.61 8,63 8.6~ 8.61 6.65 8.62 8..64 8.62 8.67 8,60 8.6B 8..67 8.68 8.65 6.70 8..63 8.~5 8. ~4 8.66 8.~7 8.50 8.59 8.5~ 8.55 8.59 8.5~ 8.50 8.50 8.50 8.50 8.50 8.50 8.50 8.50 8.50 8.50 8..5~ 8.50 8.50 8.50 8.50 8,50 8.5~ 8.5~ 8.5,0 8.50 8.5~ 8.50 8.5~ 8.50 8..5~ 8.50 6.50 8.50 8.50 8.50 -8.50 8..50 8,, .50 8...51~ 8.5U 8.59 ~.5~ b.50 8 .-5~ ~.59 8.50 D D aD D D D D D D D tD D D ~D tD · + MCC RBUS M26 RELIEF WELL Data P~lntec at tyne 15:42 Data Recorcaa at time 15:11 Date Jul 28 '88 Date b~y 26 '88 F~ TIME DEPTH ROP it it/hr 192 1511 489.0 57.2 193 1511 490.0 56.3 194 1511 491.0 55.8 195 1511 492.2 59.5 196 1511 493.0 58.2 197 1539 493.8 41.9 ~C. 198 1~; 495.~ 41.2 199 1542 496.~ 39.5 2063 1542 497.f 39.6 2%31 1547 498.~' 29.6 2~2 1547 499.D 32.4 2~3 1547 500.0 32.5 2~4 1557 501.~ 50.0 2~5 1557 502.D 49.1 206 1557 503.~ 46.6 207 1559 504.0 45.5 208 1559 505.0 45.4 209 1559 506.0 44.6 21~ 1604 5~7.~3 43.~ 211 1604 508.~ 46.7 212 1604 509.~' 44.8 213 1606 51~.~3 43.5 214 1606 511.~ 43.2 215 1606 512.0 45.'4 216 1611 513.g 43.2 217 1611 514.~ 42.8 218 1614 515.0 38.7 219 1619 516.0 21.5 22~ 1619 517.~ 21.1 221 1619 518.0 21.~ 222 1619 519.~ 22.4 223 1628 52~.~ 22.2 224 1628 521.0 24.6 225 1633 522.0 45.9 226 1635 523.~ 48.7 227 1724 524.D 16.9 228 1729 525.~3 27.2 229 1734 526.0 28.8 23~ 1729 527.0 2~.~ 231 1734 528.~ 27.8 232 1736 529.~ 32.4 1233 1736 530.0 33.4 1234 1736 531.~ 33.2 235 1736 532.~ 33.2 236 1741 533.D 62.9 237 1741 534.~ 61.2 228 1752 535.£- 55.1 t259 1752 536.{, 54.W TORQUE RPM WGB PUMP A%G MAX AVG A%G PRES 242 4.51 690 242 5.59 72~ 242 3.72 650 242 4.4~3 690 242 3.89 74~ 249 4.68 570 249 5.1i 242 4.84 740 242 3.53 710 237 5.88 650 237 4.67 550 237 6.31 620 242 5.52 62~ 242 5.77 660 242 5.74 550 242 5.15 650 242 6.2~ 72~ 242 5.~1 740 237 4..85 690 237 5.18 570 237 4.~8 61~ 244 6.56 620 244 6.~8 590 244 5.'48 680 24~ 4.49 720 247 4.48 610 246 4.51 670 248 5.43 730 248 4.11 680 24~ 5.14 65{6 248 4.20 570 243 5.23 630 243 4.24 720 238 5.~7 650 239 6.60 239' 6.60 710 240 5.69 650 239 6.01 740 240 4.58 690 239 5.91 70~ 243 5.42 243 6.19 650 243 5.40 570 243 6.24 720 24~ 4.~1 710 248 3.97 700 246 5.93 560 246 7.~6 690 T.GAS MD lb/gal unit IN OUT T~,MP {F) IN OUT PVT --THIS BlT ....... WATER ~t hr DEPTH FLOW/MIN IN OUR' 0.0 8.31 0.~0 334 ~) 0.~ 8.21 0.00 334 ~ ~.~ 8.2.1 ~.~ 334 ~ 0.0 8.31 ~.~0 334 ~ 0~ 8.21 ~.~0 334 ~ ~.0 8.26 ~.~ 352 ~ W.~ 8.26 ~.~ 352 W ~.~ 8.15 ~.~-~ 338 0 W.D 8.15 0.~'~ 338 ~ 0.~ 8.26 0.~0 331 D 0.~ 8.26 ~.~0 331 ~ 0.~ 8.26 0.~ 331 0 0.~ 8.41 0.~ 345 0 ~.~ 8.41 0.~ 345 ~ 0.~ 8.41 W.~ 345 ~ 0.0 8.28 0.~0 345 0 0.~ 8.28 ~.D~ 345 0 ~.0 8.28 0.~ 345 0 0.D 8.~2 ~.~0 335 0 ~.~ 8.22 D.~ 335 ~ ~.W 8.32 ~.~ 335 W ~.~ 8.37 ~.~ 348 ~ ~.~ 8.37 0.0~ 348 ~ 0.D 8.27 ~.~ 348 ~ W.~ 8.24 ~.S~ 355 0 ~.~ 8.24 ~.~ 355 ~ ~.D 8.24 $.W0 355 W ~.~ 8.28 0.~0 358 0 ~.~ 8.28 ~.~ 358 W 0.~ ~.28 0.~ 358 ~ 0.~ 8.28 ~.~ 358 ~ D.~ 8.14 W.~,O 351 ~ 0.~ 8.14 ~.~ 351 ~ 0.0 8.25 0.~0 338 ~ 0.0 8.47 D.~ 341 0 0.~ 8.16 ~.D~ 341 0 0.~ 8.~ ~.~0 342 ~ ~.D 8.33 0.~ 338 ~ 0.~ 8.21 D.~ 342 ~ 0.D 8.33 O.DD 338 0 ~.~ ~.3~ ~.~0 346 0 0.~ 8.3~ 0.G0 346 0 D.~ 8.3~ ~.~ 346 ~ ~.~ 8.~ W.~W 346 ~ ~.W 8.17 ~.~ 351 ~ O.~'8.17 D.~ 251 0 ~.W 8.2~ ~.[:~ 349 W ~.~ 8.2~ ~.~ ~49 W 43.0 43.9 43.0 43.9 43.D 43.9 43.D 43.9 43.~ 43.9 43.~ 43.9 43.W 43.~ 42.8 43.9 42.8 43.9 42.8' 43.7 42.8 43.7 42.8 43.7 43.0 43.7 43.~ 43.7 43.0 43.7 43.2 43.7 43.2 43.7 43'.2 43.7 43.2 43.9 43.2 43.9 43.2 43.9 43.~ 43.9 43.0 43.9 43.~ 43.9 43. g 44.1 43.~ 44.1 43.~ 44.1 43.2 44.1 43.2 44.1 43.2 44.1 4.3.2 44.1 43..0 44.1 43.~ 44.1 43.~ 44.1 43.2 44.1 43.~ 43.7 43.~ 43.7 43.~) 43.9 43.~ 43.7 43.0 43.9 43.0 43.9 43.0 43.9 43.~ 43.9 43.~ 43.9 43.~ 43.9 43'~ 43.5 43.~ 43.9 43.~ 43.9 737 737 737 737 737 718 718 711 711 718 718 718 757 757 757 765 765 765 775 775 775 764 764 764 746 746 765 768 768 768 768 733 733 739 745 734 732 725 732 725 716 716 716 716' 711] 7111 7~2t 752i + 189 7.6 igw 7.6 191 7.6 192 7.6 193 7.6 194 7.8 195 7.8 196 7.9 197 7.9 198 8.0 199 8. ~ 200 8.0 201 8. i 2~2 8.1 203 8. i 204 8.2 205 8.2 2~6 8.2 21~7 8.2 2~8 8.2 2~9 8.1 21g 8.2 211 8. ~ 212 8.3 21'3 8.4 214 8.4 215 8.4 216 8.5 217 8.5 218 8.5 219 8.5 22~ 8.6 221 8.6 222 ~ · 7 223 8.8 224. 9.2 22.5 9.4 226 9.5 227 9.4 228 9.5 229 9.5 230 9.5 221 9.5 222 9.5 232. 9.6 254 9.6 225 9.7 0.~ 0.0 ~..~ 0.0 DEFTH 489.~ 490.~ 491.~ 492.2 493. ~J 493.8 495.0 496.~ 497.0 498.~ 499.~ 5~0.B 5~1.~ 502.'~ 5~3.~ 5~4. ~ 5~5.~ 5~6.0 5~7. ~ 5~S.~ 5~9. ~ 51~. ~ 511.~ 512. ~ 513. ~ 514. ~ 515. ~ 516.~ 517.~ 518.~ 519. ~ 52~.~ 521. ~ 522.0 523.0 524.0 525.~ 526. ~ 527. ~ 52~.~ 530, ~ 53~. 6 534.~ 53~.~ DXC ECD NY/MD .87 8.62 8.50 .87 8.65 8.50 .87 8.66 8.5~ .87 8.68 8.50 .87 8.69 8.50 .93 8.68 · 93 8.62 8.50 .94 8~66 7.76 .94 8.65 7.76 1.02 $.63 7.76 i..02 8.62 7.76 1.~2 8.61 7.76 .94 8.61 8.26 .94 8.61 8.26 .94 8.66 8.26 .94 8.64 7.76 .94 8.67 7.76 .94 8.61 7.76 .93 8.66 7.76 .93 8.63 7.76 .93 8.63 7.76 .93 8.63 8.26 .~3 8.70 8.26 .93 8..70 8.26 .94 8.68 8.26 .94 8,67 8.26 .98 8.68 7..77 1,.09 8.64 7.77 1.~9 8.63 7.~7 1.~9 8.63. 7.77 1.~'9 8.62. %.77 1.~J3 8.65 8. 1.03 8.67 8.26 .93 8.62 8.26 .94 8.6~ 7.77 1.21 8.64 7.77 1.{~5 8.62 7.~7 1.02 8.62~ '7.77 1.~;5 8.63. 7.~7 1.~2 8.69 7.77 i.~1 8.65 8.26 1.~1 8.65 8.i6 1 · tli 8 . 00 8 . 26 1.~1. g.62 ~.26 .g4 ~.6~c .~4 8.(~W 8.26 .94 ~.63 7.57 .54 8.62 7.%9 D D D D D D D D D D D. D D D D D 'D D D D ID ID ID iD tD + MCC ~BU8 M26 R/Li,~~ WELL f'# TIP~E DEPTH ROPI TORQOE RPM WOB PUMP tt ~t/hrI AVG F~%X A¥]G AVG PR~S + 240 1753 241 1753 242 1758 243 1758 244 1800 24 5 1800 24.6 1866 247 175& 248 1800 249 1800 250 1800 251 1800 252 1800 253 1805 254 1~05 255 1810 256 1810 257 1923 258 1926 259 1934 260 1934 261 1934 262 1934 263 1934 264 1934 265 lC~24 266 1939 267 1939 268 1942 269 1942 27~ 1550 271 1950 272 1954 273 1954 274 1959 275 1959 276 1954 277 1954 278 1954 279 1954 280 1954 281 1954 282 1954 283 1959 284 1959 285 1959 286 1959 287 1959 + 537.0 49.91 6~ ~ 232 6.20 69~ 538.~ 5~.~t g g 232 5.2~ 62~) 539.~ 45.61 ~ 6 242 4.].6 54~.~ 46.41 0 ~3 242 6.f05 74~ 541.0 45.21 0 g 24~ 5.90 670 542.g 45.5t g 0 240 4.71 74~ 543.~ 43.41 ~ 0 240 4.65 57~ 543.6 47.4, ~ ~ 242 5.~8 59~ 545.~ 45.6] ~ 0 24f3 4.93 546.~ 45'71 ~ ~ 240 4.22 570' 550.~ 61.91 0 0 248 4.33 640 551.0 59.01 0 0 248 3.81 720 552.0 49.51 0 0 242 4.77 620 553.'~ 49.41 ~ 0 242 4.21 64~ 554.0 28.7, 0 0 237 3.82 680 555.~ 33.7, 0 0 235 5.25 640 556.~ 37'6t ~. 0 226 4.65 640 557.~ 39.01 0 0 226 4.98 660 558.0 38.9t 0 0 226 4.57 61.0 559.~ 39.7 0 0 226 5.84 620 56~.~ 37.1 0 0 226 4.20 56~ 561. ~ 37.5 I ~J rd 226 5.99 '610 562.~ 29.~1 ~ 0 226 6.~5 550 563.~ 1721 0 0 226 5.91 690 564.0 1491 0 0 226 6.14 720 565.0 1491 0 0 230 5.~38 700 566.0 1471 0 ~ 230 3.93 650 567.~ i65t ~ 0 224 6.46 660 568.0 151i 0 0 224 6.88 620 569.0 1471 0 0 227 5.15 570 570.~ 177t 0 0 227 5.60 600 571.0 168, 0 0 224 7.25 580 572.0 134, 0 0 224 6.18 610 573.~ 1811 0 0 227 5.~8 630 583.C 61 ~ 0 224 ...4 586: 584.C 63.9t 0 0 224 6.~2 + Data Pr~ntea at time 15:45 Data t{ecorGea at time 17:52 Date 0ui 2b '88 Date ~z_,,y 20 '88 Y.GAS MD lb/gal un i t IN OUT IN OU2' IN OUT 42.g 43.5 43.~ 43.9 43.g. 43.7 43.~ 43.7 43.g 43.7 43.g 43.7 43.~ 43.7 43.0 43.7 43.~ 43.7 43.g 43.7 43.~ 43.7 43.0 43.7 43.0 43.7 43.g 43.5 43.0 43.5 43.g 43.3 43.g 43.3 42.6 45.1 42.4 45.g 42.6 44.8 42.6 44.8 42.6 44.8 42.6 44.8 42.6 44.8 42.6 44.8 42.6 44.8 42.6 44.4 42.6 44.4 42.6 44.4 42.6 44.4 42.6 44.4 42.6 44.4 42.6 44.1 42.6 44.2 42.8 44.2 42.8 44.2 42.6 44.2 42.6 44.2 42.6 44.2 42.6 44.2 42.6 44.1 42.6 44.2 42.6 44.1 42.~ 44.2 42.8 44.'2 42.8 44.2 42.8 44.1 4~.8 44.1 PVT --~HI$ BIT ...... WATER --TgD-- tt hr D[.FI'H DEPTH 0.6 8.21 ~.~ 321 0.~ 8.21 0.6~ 321 O.~J 8.22 ~.0~ 343 ~.0 8.22 ~.~3~ 343 6.~ 8.23 ~.~ 339 0.g 8.23 g.~ 339 ~.~ 8.23 g.g~ 339 0.~ 8.22 ~.[~ 343 ~.~ 8.23 ~.~ 33.9 ~.~ 8.23 ~.~ 339 g.g 8.23 ~.~ 339 0.~ 8.23 ~.~ 339 0.~ 8.23 0.~ 339 ~.~ 8.29 ~.~ 352 ~.~ 8.29 ~.~0 352 0.~ 8.21 0.~ 337 0.~ 8.21 ~.~ 337 0.0 8.2~ 0.Z0 328 ~.~ 8.30 ~.~ 329 0.~ 8.29 ~.~ 321 ~.~ 8.29 ~.~ 321 ~.~ 8.29 ~.~0 321 ~.0 8.29 ~.~ 321 ~.~ 8.29 ~.~ 321 0.~ 8.i9 ~.~ 321 ~.~ 8.29 ~.~Z 321 0.~ 8.~2 0.~ 321 ~.~ 8.23 ~.~ 32i ~.0 8.18 0.~0 329 ~.~ 8.2~ ~.~ 329 0.~ 8.43 ~.~ 317 ~.~ 8.43 D.~ 317 ~.~ 8.49 ~.~0 32~ 0.~ 8.49 0.~ 3~ 0.~ 8.i7 0.~ 315 0.~ 8.27 0.~'0 315 0.0 8.49 0.~ 32~ ~.~ 8.49 ~.~ 320 0.~ 8.49 0.~,0 320 0.~ 8.49 0.~ 320 0.~ 8.49 0.~ 32~ 0.0 8.49 0.~0 32~ ~.~ 8.49 ~.0~ 32~ ~.~ 8.27 ~.~ 315 0. ~ 8.~27 ~. ~ 515 ~.~ 8.~7 ~.~ 315 W.O 8.2~ 0.~ 315 732 732 734 734 733 · 733 733 7'34 733 733 733 733 732 732 735 735 727 711 728 728 728 728 728 728 728 7il 711 708 735 735 732 732 740 74~ 732 732 732 732 732 732 732 74~ ~4~ 74U 237 9.7 238 9.7 239 9.8 240 9.8 241 9.8 242 9.8 243 9.8 244 9.8 245 9.8 246 9.8 247 9.8 248 9.8 249 9.8 25~ 9.9 251 9.9 252 10.0 253 10.0 254 10.7 255 10.7 256 10.8 257 10.8 258 10.8 259 1~. 8 266 10.8 261 10.8 262 1~. ~ 263 10.9 264 10.9 265 11. ~ 266 11.6 267 11. i 268 11. i 2~9 11.2 270 11.2 271 l!.3 272 11.3 273 11.2 274 11.2 275 11.1 276 11.2 277 1i..2 278 11.2 279 11.2 280 il. 2 281 il. 2' 282 1!.3 283 11.2 284 11.2 DXC ECD NXM~D ~.0 537.0 .94 ~.~ 538.~ .94 ~.~ 539.~ .94 0.0 54~0. ~ .94 0.~ 541.~ .93 ~.~ 542. ~3 .93 0.~ 543.~ .93 ~.~ 543.6 .94 0.~ 545.~ .93 0.0 546.0 .93 ~.~ 547.0 .93 O.D 548.0 .93 0.0 549.~I .93 0. ~ 550. ~ .85 0.0 551.~i .85 0.0 552.0 .89 ~. 0 553.0 .89 0. ~ 555.. 0.0 556. .94 0. ~ 557. ~ .94 0. ~ 558.0 .94 0.~ 559.~ .94 ~. ~ 560.0 .94 W. 0 561. ~ .94 ~. 0 562.0 .94 ~.~ 563.~ .94 0. ~ 564. ~ .94 ~. ~ 565. ~ .90 6.0 566.~ .9~ ~.~ 567.~ .99 0. ~J 568. ~ .99 0.6 569.~ .83 0. ~ 570. ~ .83 0.~ 571.~ .88 0.0 57.2.0 .88 0.0 573.0 .~3 0.0 574.~ .83 ~.~ 575.~ .~3 0.0 576.0 .83 O.D 577.6 .83 ¢.0 578.~ ~83 0.~ 579.~ .83 IE.'g 581.~ ~.~ 582.~ .88 5~4.u 8.62 8.26 8.68 8.26 8.69 8.26 8.69 8.26 8.65 7.77 8.67 7.77 8.61 7.77 8.63 8.26 8.68 7.~7 8,69 7.77 8.67 7.77 8.65 7.77 8.60 7.77 8.63 7.77 8.68 7.77 8.63 8.26 8.62 8.26 8.69 8.26 8.64 7,77 8.69 8.26 8.64 8.26 8.67 8.26 8.64 8.26 8.62 8.26 8.66 8. 8.67 8.26 ~.69 8.26 8.63 8.16 ~.67 7.~7 ~.70 7.~7 8.69 8.26 8.~0 8.26 8.67 7.5'7 8.65 7.77 8.63 8.26 8.65 8.26 8.68 7.77 8.61 7.7~ 8.62 7.77 8.66 7.77 8.68 7.77 8.61 7.77 8.66 8.65 8.16 8.66 8. b2 t. 16 8.65 $.26 ~. ~2 ID D D D D D D D D D D D T D D D ID + MCC ~BU~ M26 RELlkF WELL TIME DEPTh ROP ft ft/h~ 288 1959 585.6 61.5~ 289 1959 586,~. 64,2 1290 1959 587.6 62.i. 1291 1959 588.~'62.6 292 1959 589.0 66. 293 1959 590.~ 61.9 t 294 2~5~ 591.6 79.7 295 2050 592,~ 83.2 296 2~50 593.0 83.6. 297 2650 594.0 80,5 298 2050 595.6 79.1 299 2050 596.0 83.7 360 2W50 597.0 81.5 361 2050 598.0 83.1 302 2650 599.6 82.5 303 2050 660.0 83.5 304 2050 60i.~ 8i.~ 305 2055 602.6 38'2 3W6 2655 603.~ 42.~ 367 2~55 604.~ 42.4 308 2~55 605.~ 39.6 369 2655 666.~, 38.1 31~ 2~58 607.0 38.1 311 2658 608.g 38.~ 312 2163 609.~ 38.2 312 2163 610.6 38.2 314 2163 611.6 38.2 315 2111 612.2 28.5 316 2112 612.7 28.4 317 21~1 614..2 23.6 318 2122 615.1 36.4 319 2122 616.0 8~.1 32~ 2133 617.~ 62.5 321 2134 618.~ 53.5 322 2135 619.~ 62.4 323 21~6 620.6 62.~ 324.2138 621.~ 45.7 325 2139 622.~ 50.8 326 2140 623.D 5~.7 327 2141 624.6 81.4 328 2142 625.0 68.6 329 2143 626.~ 87.7 330 2144 627.~ 54. 331 2145 628.4 332 2146 629.1 126 333 2147 630.~ 152 334 2148 63i.~- 61.2 335 2149 652.~ 64.4 Data Pr~ntec at tune 15:48 Data kecorceo an time 19:59 Date Jul 28 '88 Date Fray 2~ '88 TORQUE RPM WOB PUMP AVG FAX A~ AVG PRES 224 5.87 670 224 7.1W 606 224 6.49 69W 224 7.32 6601 224 5.82 580 224 6.96 570 224 4.96 65~ 234 4.~6 72~ 234 4.83 610 234 4.19 560 234 4.25 71~ 234 6.~;2 610 234 5.76 590 234 6.16 690 234 5.15 670 234 4.87 660 234 4.94 74~ 232 4.99 680 232 5.72 570 232 6.20 58~ 232 4.91 232 4.57 67~ 238 5.75 760 238 5.30 760 237 5.41 580 237 5.55 580 237 4.69 586 236 5.92 740 226 5.79 690 94 4.63 72~ 118 4.47 790 237 4.4~ 620 2~5 4.~6 63~ 234 3.67 750 24~ 4.~9 770 241 4.~6 840 234 3.88 720 236 3.68 760.[ 246 4.12 730 239 3.53 720 239 2.26 580 240 1.51 690 223 1.9~ ')'00 22~ 1.88 646 244 1.14 500 245 1.21 63~ · 24~ 1.61 65~ 241 1.~2 536 T.GAS MD lb/gal FLOW/MIN unit IN OUT iN OUT 0.6 8.27 ~.66 315 6.6 8.27 0.~6 315 0.g 8.27 ~3.06 315 0.6 8.27 0.~ 315 ~.~ 8.27 ~.~ 315 ~,~ 8.27 0.~ 315 ~.~ 8.18 ~.~ 33~ g.~ 8.18 ~.0~ 33~ ~.~ 8.18 ~.~0 33~ 0.~ 8.18 0.~ 330 ~.6 8.18 ~.~ 33~ ~.~ 8.18 ~.~0 330 0.~ 8.18 0.~0 0.~ 8.18 0.~0 330 ~.~ 8.18 0.~ 33~ ~.0 8.18 0.~ 33~ 0.~ 8.18 0.00 33~ 0.~ 8.47 ~.~0 327 ~.~ 8.47 0.~ 327 ~.~ 8.47 ~.60 327 ~.~ 8.47 ~.~ 327 ~.~ 8.47 0.60 327 ~.~ 8.20 ~.60 339 0.~ 8.2~ ~.~ 339 ~.~ 8.4~ ~.~0 337 ~.~ 8.4~ ~.~ 337 ~.~ 8.4~ 0.~ 337 ~.~ 8.21 ~.~ 335 ~ 8.28 0.~ 336 ~.~ 8.22 ~.~ ~2~ ~.~ 8.20 ~.~ 319 ~.~ 8.24 ~.0~ 319 ~.~ 8.2~ ~.~ 315 ~.~ 8.11 ~.~0 322 ~.~ 8.24 0.~ 326 ~.~ 8.19 0.~ 327 ~.~ 8.~ ~.~ ~.~ 8.17 ~.~ 326 ~.~ 8.~6 ~.~ 327 ~.~ 8.18 0.~ 326 ~.~ 8.~4 0.~0 328 0.~ 8.~4 0.~ 326 ~.~ 8.~ 0.~0 3~9 ~.~ 8.i4 ~.~0 3~2 ~.~ 8.~9 ~.~ 332 ~.~ 8.i~, ~.~ 33~ ~.~ 8.~9 ~.~ 32~ 6.~ 8.17 ~.~:~ 333 IN OUT 42.8 44.2 42.8 44.2 42.8 44.2 42.8 44.2 42.8 44.2 42.8 44.2 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43,5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.7 42.6 43.7 42.6 43.5 42.6 43.5 42.6 43.5 42.8 43.2 42.8 43.4 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.6 43.5 42.5 43.5 42.4 43.5 42.4 43.5 42.4 43.7 42.4 43.7 42.4 43.7 42.4 43.~ 42.4 43.9 42.4 43.9 42.4 44.~ 42.6 44.1 42.6 44.] --THIS BIT ....... ~A'I'ER zt hr DEFi'H 285 11.3 0.~ 286 11.2 287 11.3 288 11.3 0.0 289 11.3 290 11.2 291 11.7 292 11.7 0.D 293 11.7 0.~ 294 11.7 0.0 295 11.7 0.0 296 11.7 0. 297 11.7 0.0 298 11. ~ Z. 0 299 11.7 0. 300 11.7 0.0 301 11.7 0 · 302 11.7 0.0 303 11.7 0.0 304 il. ~ 3~5 11.% 0.6 306 11.7 0.6 307 11.8 0.6 308 11.8 0'.~ 3~9 11.9 0.6 310 i1.9 311 11.9 312 12.0 ~.~ 313 12.6 314 12.1 315 12. i 316 11.1 0.6 317 12.1 6. 318 12.2 0. 319 12.2 320 12.2 321 12.2 ~. 0 322 12.2 323 12.2 324 12.2 ~.~ 325 12.2 ~.6 326 12.3, 0.~ 327 12.3 6.~ 328 11.2 325 12.2 320 12.4 ~.~ 2~i 11.4 ~.u 222 12.~- ~.~ 74~ 74~ 746 740 74~ 74~ 737 ')37 737 737 737 737 737 737 737 737 737 724 724 724 724 724 719 719 726 72~ 755 754 735: 731 729 727 725 717 709 706 764 699 699 705 71~ 71~ 72~ --'IVD-- DEFI'H 585.6 586.~ 587.6 588.6 589.~ 59~. 6 591.~ 592.6 593.0' 594. ~ 595.6 596.0 597.0 598. ~ 599.0 600.0 6~1.0 602.6 603.0 604.6 6~5.6 696.0 607.~ 60~. ~ 609.~ 616.0 611. ~ 612.2 612.7 614.2 · 615.1 616. (~ 6i7.~ 618.0 619.0 62~. ~1 62i. ~i 622. ~. b23. Z 624.0 625.~ 626.0 627. ~ 62~. ~ 629.i' 63i.~ 632. ~ DXC ECD NXMD .88 8.67 8.26 .88 8.65 8.26 .88 8.68 8.26 .88 8.65 8.26 .88 8.67 8.26 .88 8.61 8.26 .80 8.66 8.00 · 80 8.66 8.~0 · 80 8.66 8.00 · 80 8.69 8.60 .80 8.68 8.~0 .80 8.63 8.0~ .80 8.64 8.~0 .80 8.69 8.00 .80 8.65 8.00 .80 8.68 8.00 .80 8.62 8.~0 .95 8.61 8.~0 .95 8.67 8.00 · 95 8.60 8.6~ .95 8.60 8.~ .95 8.66 8.~0 .96 8.64 8.50 .96 8.70 8.50 .96 8.68 8.50 .96 8.63 8.5~ .96 8.65 8.50 1.~1 8.66 8.~0 i.~1 8.65 8.~0 i.6')' 8.bl 8.60 1.~9 8.61 8.50 1.£17 8.70 8.41 1.1~ 8.63 8.50 1.11 8.62 8.41 1.10 8.62 8.59 1.i6 8.61 8.41 1.15 8.69 8.50 1.12 8.66 8.41 1.15 8.67 8.50 1.~2 8.69 8.41 .97 8.66 8.50 .87 8.61 8.41 .98 8.67 8.5~ .92 8.64 8. ~.i .~ 8.~2 b.48 .~5 8.69 ~.48 .93 ~.62 ~.4~ .54 ~.~b E.48 D D D D D D D D D D D D D D D D D D D D D D D D 'D D 'D D D D 'D Io MCC ~EUS M26 RELiL~' WELL F~ Tlr;& DEFtH ~t ft/hr 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 i358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 381 382 215C 2152 2154 2156 2158 2159 2260 2262 2203 2204 2205 2206 2227 2228 2229 2232 2233 2233 2234 2235 2235 2236 2237 2239 2243 2245 2246 2247 2248 2249 2250 2251 2253 2254 2255 2257 2258 23~0 23(~2 22~3 2206 23~9 Date ~29 ~31 9U21 ~,632 ~33 633.9 75.2{ 634.6 26.2 635.~ 46.2j 636.0 39.11 637.6 23.1 638~1 72,8 635.6 49.5t 649.9 32.2I 641.1 52.8 642.0 66.2 643.9 51.1 644.6 61.2 645.0 124 647.9 76.9t 649.8 51.3t 650.0 46.9I 651.9 69.2I 652.0 114I 653.0 1231 654.0 116 656.6' 43.~ 657.0 16 658.9 42 659.6 56 660.9 49.~i 661.0 53."i 662.~ 56.1 663.~ 54.51 664. ~ 51.3 665.~ 51.5 666.9 46.3 667.0 45.6 668.9 39.5 669.9 36.8 67~.~ 49.8 671.~ 27.2 672.0 41.5 673.~ 23.5 674.D 22.9 May 21 '88 675.9 34.4I 676.~ 46.7t 6:7.1 80.~t 679.9 90.51 679.9 81.~! Data Przntea at time 15:51 Date 0ui 2g '88 Data Recoroe~ at t~me 21:5D Date l,~,y 29 '88 TORQUE RPM ;~OB PUMP AVG MAX A%G AVG PRES 242 1.60 56~ 241 2.28 549 246 3,99 699 237 4.33 57~ 223 4.71 689 238 3.49 69~ 242 3.~4 669 24~ 3.65' 53~ 236 3.11 660 241 1.53 650 242 1.81 670 240 1.61 679 239 1.86 740 T.GAS MD lb/gal unit IN OUT FLOW/MIN IN OUT ~.~ 8.19 0.60 335 ~ 0.~ 8.37 6.60 333 ~ 0.0 8.26 0.6~ 329 0 0.6 8.25 ~.69 327 0 9.~ 8.24 ~.~ 31~ ~ 9.9 8.25 ~.~W 326 W ~.~ 8.27 ~.~f 331 ~ ~.~ 8.12 6.6'~ 327 ~ ~.~ 8.14 ~.~0 324 ~ ~.~ 8.32 ~.f~ 332 ~ 0.0 8.2~ ~.~0 331 0 0.~ 8.23 g.~ 326 0 0.~ 8.33 ~.gg 336 g TEMP {f') IN OUT 42.6 44.1 42.8 44.2 42.8 44.2 42.8 44.4 42.8 44.6 42.8 44.6 42.8 44.6 42.~ 44.6 42.8 44.5 42.8 44.6 42.8 44.6 42.8 44.6 42.8 45.9 742 755 765 759 756 753 746 735 732 725 714 719 734 --THIS Bi1~ ....... WA%ER --T%D-- it hr DEPR H DEPTH 333 12.4 ~.6 633.6 334 12.4 ~.~ 634.g. 335 12.5 0.9 635.0 336 12.5 ~.6' 636.9 337 12.5 ~.0 637.$ 338 12.5 ~.6 638.1 339 12.6 ~.~ 639.~ 340 12.6 ~.9 640.9 341 12.6 0.6 641.1 342 12.6 0.0 642.0 343 12.~ 0.6 643.0 344 12.7 0.9 644.0 345 12.7 0.0 645.0 242 2.48 529 241 1.26 520 242 1.29 660 244 1.92 520 244 2.~4 650 242 2.91 709 242 2.59 750 242 1.55 550 244 1.39 5~0 247 3.60 520 245 3.53 77~ 243 6.95 530 249 3.88 570 252 3.99 539 251 2.62 739 254 1.98 51~ 247 3.74 530 259 4.35 760 250 4.43 590 256 4.12 726 25~ 5.24 580 251 4.04 750 249 4.76 610 251 4.68 51~ 250 4.55 540 252 4.~8 650 251 4.59 570 251 4.67 640 250 4.85 500 9.08.270.90 9.08.180.00 0.9 8.21 9.~0 0.08.270.00 0.~ 8.27 0.90 0.08.290.90 0.08.210.90 0.08.180.09 0.0 8.23 9.~0 0.0 8.22 ~.60 0.0 8.14 8.00 ~.0 8.23 9.9~ 0.08.240.90 0.~ $.27 0.90 0.0 8.24 0.~0 0.0 8.22 0.96 ~.9 8.26 0.~ 0.~ 8.26 0.09 0.0 8.25 ~.00 0.08.290.90 333 323 336 336 333 332 331 339 336 341 328 320 339 328 3~31 333 327 331 334 333 331 332 330 33~ 338 33G 338 341 42.7 45.9 42.6 45.9 42.6 45.0 42.6 45.~ 42.6 45.0 42.6 45.0 42.6 45.0 42.6 45.~ 42.6 45.9 42.6 45.1 42.6 45.1 42.6 44.8 42.8 44.6 42.8 44.8 42.8 44.8 42.8 44.8 42.8 44.8 42.8 44.8 42.8 44.7 42.8 44.~ 42.8 44.6 42.8 44.~ 42.8 44.4 42.8 44.4 42.8 44.2 42.8 44.2 42.8 44.2 42.8 44.2 42.8 43.9 730 723 706 795 705 793 705 702 793 707 726 743 739 737 734 730 730 725 724 717 715 714 714 · 712 713 714 715 346 12.8 0.0 646.0 347 12.8 0.0 647.0 349 12.8 9.9 648.9 359 12.8 0.0 649.8 350 12.8 0.0 650.0 351 12.8 0.0 651.W 352 12.8 0.9 652.~ 353 12.8 0.9 653.0 354 12.8 0.0 654.0 355 12.9 ~.g 655.0 356 12.9 0.0 656.0 357 13.~ 0.9 657.~ 358 i3.6 {.9 658.0 359 13.~ 9.9 659.0' 369 13.~ ~.~ 660.9 361 13.0 ~.~ 661.0 362 13.1 9.9 662.6 363 13.1 ~.9 663.~ 364 13.1 ~.6 664.6 365 13.1 0.6 665.0 366 13.1 0.6 666.0 367 13.2 0.~ 667.9 368 13.2 0.9 668.~ 369 13.2 ~.0 669.9 370 13.2 9.0 670.9 371 13.2 0.0 671.~ 372 13.2 0.0 672.~ 373 15.2 ~.~ 673.~ 374 13.4 0.6 674.0 DXC HiD NXRD .99 8.68 8.48 1.15 8.68 8.48 1.17 8.61 8.48 1.25 8.66 8.48 1.14 8.63 8.48 1.93 8.60 ~.48 1.68 8.65 8.48 1.29 8.63 8.4~ 1.06 8.68 8.48 .91 8.65 8.48 .98 8.64 8.48 .93 8.67 8.48 .84 8.63 8.48 .96 8.61 8.48 · 87 8.67 8.48 .75 8.68 8.48 1.00 8.68 8.48 1.03 8.69 8.48 1.94 8.65 8.48 .90 8.66 8.48 .$1 8.62 8.48 .80 8.60 8.48 i.15 8.66 8.48 1.14 8.62 8.48 1.51 8 · 66 8.48 1.16 8.63 8.48 1.09 8.66 8.48 1.96 8.65 $.48 1.~ 8.69 8.48 1.10 8.68 8.48 1.14 8.68 8.48 1.16 8.66 8.48 i. 14 8.63 8.4a 1.22 8.65 8.48 1.ih 8.65 8.~8 1.23 8.62 8.48 1.24 8.66 8.48 i.21 8.~5 8.48 1.27 8.66 8.48 1.21 8.66 8.48 1.24 8.6~ 8.48 1.35 8.66 8.4~ 2~1 5.~6 570I 267 6.91 740t 272 5.]6 750I 274 5.29 650I 266 4.49 530! 8.25 0.~,9 8.25 8.26 6.6~ 8.28 361 357 364 366 353 41.9 42.2 684{ 375 14 £ 9.~ 41.9 42.2 6781 376 14.2 {.~ 41.9 42.2 6741 377 14.2 ~.~ 41.9 42.2 671{ 378 14.2 41.9 42.] 66~1 25~ 14.2 675,6{ 1.22 676.~i 1.2~ 677.1{ 1.i2 ~.6i 679.~{ i.~9 5.64 ~.4& + O~ D D D D D D D D D D D D D D D D D D D D D D D D D D MCC IBUS M26 f, tLiLF ~fLL ~i ~, Ti~ DEFIH it 383 5034 38,4 6~35 385 386 8038 387 6¢39 388 0040 389 0~41 39¢ 6042 391 ~843 392 ~045 393 ~46 394 395 ~49 396 ~5~ 397 ~52 39S ~053 399 ~54 4¢¢ ~055 4~1 ~057 4~4 ~1~5 4~]5 ~1~6 4~7 4~8 ~147 4~9 41~ ~149 411 ~15~ 412 ~151 412 ~152 414 ~153 415 ~154 416 ~156 417 ~157 418 ~157 419 ~lSS 42~ ~155 421 ~2~ 422 ~2~1 423 ~2~2 424 425 ~266 426 ~2~6 427 42E ~2~ .429 43~ ~21~ ROP 680. ~ 61. i 681.1 86.2 682.6 75.5 683.1 23.4 684.6 37.9 685.0 66.0 686. g 71.6 687.~ 61.7 688.6 53.1 689.0 35.3 690. ~ 42.7 691.1 35.7 692. ~ 69.8 693.0 40.3 694. f 39.1 695.0 50.0 696.1 48.2 697.0 66.7 698.0 35.11 699.0 20.6t 700.0 18.5I 701.0 32.2t 7o2.~ 34.4I 783.~ 45.6I 704.~ 54.2] 705.6 26.5 706.1 99.8 707.0 53.3 708.6; 57.3 799.0 59.2 716.6 49.6 711. £, 57.4 712.0 52.i 713. ~' 43. ~ 714.6 54.6 715.~ 7~.6 716.~ 72.1 717.f 64.4 718.Z 63.5 719.0 56.7 720.6 67.2i 721.~ 55.7 722.1 1~8i 723.1 724.6 79.4 725. ~; 69.8 726.~ 46.2 727.6 53.9 TORQgE RP~ WCB PUMP AVG ~X A%G AYG PRES 267 4.1~ 54W 2~'g 4.81 51~ 27~ 4.6~ 65D 266 6.85 61~ 266 7.47 830 270 5.47 600 26~ 4.62 72~ 27~ 3.93 566 269 6.~5 59~ 266 8.66 610 269 8.23 640 266 7.76 660 268 ~7.36 600 268 8.11 810 27~ 8.68 70~ 265 8.67 660 265 8.27 630 270 7.99 650 268 8.41 66W 269 8.62 780 264 8.28 630 265 8.65 680 264 8.84 760 264 8.78 750 261 6.52 546 265 4.21 74~ 278 5.28 600 279 5.44 610 280 3.12 720 280 3.67 51~. 277 2.98 73~ 279 3.48 536 ~74 3.49 510 277 2.84 277 2.39 670 T.GAS f~ lb/gal unzt IN OUT ~.~ 8.37 0.¢6 ¢.0 8.27 0.66 ¢.~ 8.74 6.~ 8.0 8.66 ~.6~ W.6 8.77 ~.~6 ~.~ 8.78 6.¢0 0.~ 8.63 6.00 ~.0 8.56 6.¢0 6.08.686.06 0.6 8.69 0.¢0 0.68.510.06 0.68.536.00 0.68.560.60 0.0 8.51 0.'¢6 0.68.366.60 0.68.360.60 6.08.180.60 6.6 8.43 6.60 6.68.210.66 6.68.290.00 0.0 8.28 6.~6 ¢.~ 8.27 6.~0 0.6 8.16 0.¢0 0.68.320.66 ~.6 8.28 6.66 6.0 8.23 ~.60 6.6 8.45 0.¢¢ FLOW/NIN TEMP (F) IN OUT IN OUT 356 ~ 41.9 42.1 362 6 41.9 42.1 362 6 41.9 42. i 363 ¢ 41.7 42.1 352. ¢ 41.7 42.3 362 6 41.7 42.$ 356 ~ 41.~ 42.i 361 0 41.7 42.1 359 0 41.7 42.1 354 0 41.7 42.i 361 6 41.9 42.1 355 0 41.9 42.1 356 0 41.9 42.1 356 ~ 41.9 42.3 363 0 41.9 42.3 352 0 41.9 42.3 360 0 41.9 42.3 364 0 41.9 42.3 354 W' 41.9 42.3 353 6 42.1 42.Z 358 0 42.2 42.1 359 0 42.4 42.1 354 0 42.4 42.1 351 6 42.6 42.1 349 ~ 42.6 42.1 352 W 42.4 41.7 360 0 42.3 41.7 361 0 42.3 41.7 364 0 42.3 41.8 363 6 42.2 41.7 359 0 42.2 41.7 365 ~ 42.3 41.~' 355 0 42.2 41.7 363 ~ 42.3 41.7 36~ 0 42.1 41.7 367 0 42.i 41.7 36~ ~ 42.1 41.7 364 0 42.1 41.7 360 0 42.1 41.7 356 0 42.1 41.7 367 0 42.1 41.7 368 0 41.9 41.7 364 0 41.9 41.7 363 6 41.9 41.7 355 6 41.5 41.7 363 ~' 41.9 41.7 364 6 41..c 4i.~ 353 b 4~.i 4i.7 276 1.96 44~ 28~ 1.8~ 470 276 1.72 460 276 1.71 42~ 274 1.94 64~ 277 1.60 49~ 278 1.57 480 277 3.22 54~ 277 2.80 610 272 1.97 570 276 1.S4 436 277 2. ~3 650 273 1.~8 46~ 0.68.440.06 0.08.500.60 0.~ 8.39 0.~0 ~.~ 8.52 ~.~ ~.0 8.45 0.60 ~.~ 8.63 ~.~ PVT 664 660 656 643 64~ 636 634 63~ 626 621 618 626 625 624 62~ 616 611 61~ 621 639 658 667 675 682 t27 ~12 695: 69~ 685i 677! 672 66] 662 658 651 645 63E 632 625 624 Data ~rznteu at tlme i5;55 Data k£corc£~ at tLT, e ~:34 --THIS BlT ....... it hr DEPTH 38~ 14.2 W.~ 381 14.2 ~.W 382 14.3 383 14.2 6. 384 14.4 0. 385 14.4 6.~ 386 14.4 ~.~ 387 14.4 388 14.4 0.~ 389 14.5 390 14.5 0.0 391 14.5 0.6 392 14.5 0 ..~ 393 14.5 0.0 394 14.6 0.6 395 14.6 0.0 396 14.6 397 14.6 0.0 398 14.7' 0. 399 14.7 0.6 4~6 14.8 4~1 14.8 0. 402 14.8 0. 403 14.8 0.6 464 14.9 0.6 405 15.4 6.0 466 15.4 6.6 407 15.5 0.6 4~8 15.5 469 15.5 6.~ · 416 15.5 ~.~ 411 15.5 0.6 412 15.5 413 15.6 0.~ 414 15.6 415 15.6 0. 41~ 15.6 0. 417 15.6 418 15.6 ~.~ 419 15.7 0. 42~ 15.~ 0.6 421 15.7 ~.0 422 15. ~ 422 15.~ ~.6 424 15.8 ~25 15.g ~.~ 42~ 15.~ ~.b 42~ i_=.b Date Jul 2~ '88 Date f'~y 2i '~ --'I"VD-- 68~. 6 681.1 682.~ 683.1 684.~ 685.0 686.~ 687.6 688.6 689.~ 690 · 0 691.1 692.6 693.0 694.6 695.6 696. i 697.0 698.0 699.g 706.0 701.6 702.6 703.6 704.0 705.~ 706.1 707.~ 708.0 7~9.0 7'10.6 711.6 712.~ 713.6 714.6 715. ~ 716.~ 7t7.~ 718.~ ]19.0 720.~ 721.0 722.2 723.1 72%. ~ 725.~ 726. ~ DXC DiD 1.13 8.66 8.4a 1.i~ 8.63 8.48 i.i~ 8.66 8.48 1.45 8.69 8.48 1.36 8.62 8.48 1.15 8.64 8.48 1.1~ 8.65 8.48 1.6~ 8,70 1.21 8.65 8.48 1.39 8.66 8.48 1.33 8.65 8.48 1.34 8.65 8.48 1.18 8.65 8.48 1.33 8.67 8.48 1.35 8.68 8.48 1.29 8.64 8.48 1.28 8.63 8.48 1.21 8.68 8.48 1.36 8.62 8.48 1.47 8.69 8.48 1.50 8.67 8.48 1.46 8.68 8.48 1.4~ 8.69 8.48 1.33 8.68 8.48 L22 8.69 8.48 1.31 8.68 8.48 1.69 8.68 6.48 1.23 8.61 8.48 1.~9 8.68 8.48 1.68 8.68 8.48 1.ii 8.70 8.48 1.11 8.70 8.46 1.12 8.64 b.48 1.12 8.68 8.48 1.04 8.63 8.48 .96 8.63 8.4~ .94 8.68 8.48 .95 8.67 8.48 .95 8.69 8.48 .99 8.61 8.48 .93 8.68 .96 8.66 8.48 .95 8.6~ 8.48 .65 8.b3 b.51 .~2 b.~ 8.48 .54 g.o5 b.5i i.bi b.6~ b.4~ .97 8.~ ~.5i + D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D t ~:CC qLUS h26 ~LLIEF %~LLL ~1 Data ~,rlntec at time ib:48 Date Data Recoraea a[ time ~2:1i Date , Gui 2g '~b I f'~ TIP~E DEPT}] ROP! ROR~UE RRM ~OB PUMPt %. GAS ft ft/'b~t AVG ~,'~X AYG AVG PRESt unit MD lb/gal fLOW/~'iIN TEMP ~F) P~71 IN OUR iN GUT IN OUR --~HIS BlT ....... ~A%ER --~tVD--1 DXC ~t hr DEPTH DEFIH i ECD N~'D 1431 ~211 72g.~ ~ .... c~ _z.~$ ~ ~ 274 1.~ 69~ t 432 ~212 729.~ 49.7I ~ ~ 267 2.23 63~ 433 ~2i2 73~.~ 55.Z~ ~ ~ 269 3.13 76~ ,434 ~214 731.~ 58.~, ~ ~ 267 2.71 435 ~215 732.t. 69.!~ 0 G 271 ~.43 ~436 ~216 733.{~ 54.i$ ~ G 269 '.25 ~437 C218 734.~, 24.4~ ~ ~ 275 4.~2 47~ % NB ~3 cut 434 ice% in 15.~ Grilling hours. C~plet~ Observation well to 734 ~eet msl. ~.{~ 8.57' {.~6 361 £. 42.i 41.7 6261 ~.~ 8.46 ~.~ 343 ~ 42.1 41.- 633 ~.~, 8.63 6.~, 351 ~ 42.1 41.7 632~ ~.~ 8.6~ ~.~ 356 ~ 42.~ 41.~ 627~ G.~ 8.66 ~.~ 36~ W 42.1 41.7 627 ~.6 8.44 ~.g:~ 353 ~ 42.1 41.7 624~ Z.{ g.69 ~.b{. 363 ~ 42.1 41.7 626~ 428 15.8 ~.~ 728.Zi .~6 429 15.8 W.g 729.Zi 1.Z~ 43~ 15.9 ~.~ 73~.~. 1.~5 431 15.9 ~.~ 731.~I i.~1 432 15.9 0.~ 732.~I .96 433 15.9 ~.~ 733.~t 1.66 434 15.~ ~.~ 734.~I 1.25 Observation well was not cemented or fillc~ with 12.4 ppg mud prior to moving to the Relief well location. Observation well ilowing gas from sea floor. Gas bubble at the Steelhead Platform seem to have ~£<reasec in size. Gas bubbles irom the Steei~ao as well as the Observation well seem to D~ve equalize~ in size. 8.61 8.63 8.62 8.63 8.61 8.64 8.48 8.51 8.51 8.48 8.51 8.48 + Data Recorued at time + MCC RBUS M26 RELIEF ~ELL #1 1~:~3 Date Jun 3 '86 Fi TIM£ DEFI'H ROP[ TCRQUE RPM WGB PUMP[ T.GAS MD lb/gal FLOW/MIN TEMP 4F) PVT[ --THIS BlT ....... WATER ft ft/hr [ AVG MAX AVG AVG PRES I unit IN OUT IN OUT IN OUT ft hr DEPTH ] + + Relief well spuddeu and drilleG to 432' M~y 25, 1988. The hole was opened to 36" and ran 30" casing to 376'. Cemented 3~" casing with 7~0 sacks of premium cement. Directional section drilled to 68~' with 9.875" bit in conjuction with a NaviDrill mud motor an~ a Teleco ~D directional tool. ~. The hole was opened twice to 14.75" and then to 22" to 680' msl. Ran 8 joints of 84 lbs/ft N-80 16" casing and cementec~ (984 sacks) at 657' msl. NB Smith SDS 9.875" with 24:24:24 jets in at 670 feet. a Teleco ~D directional/garaua/resistivity tool. 650 1.0 10.6 9.30 363 365 61.9 52.0 Bit #3 was run in conjuction with 6 1230 671.8 76.5 228 239 91 7 1235 219 248 92 8 1236 242 251 90 9 1237 232 251 91 10 1237 246 251 90 11 1238 242 256 90 12 1239 234 259 90 13 1249 228 239 91 14 1250 219 248 92 15 1251 242 251 90 16 1252 232 251 91 17 1252 246 251 90 18 1253 242 256 90 19 1254 234 259 90 20 1303 240 260 90 21 1305 243 294 92 22 1306 243 251 99 23 1307 268 393 98 24 1308 262 299 98 25 1308 256 269 98 26 1309 263 282 98 27 1310 693.3 60.1 245 259 99 28 1311 694.2 51.81 238 249 99 29 1312 695.3 49.31 232 270 99 30 1313 696.6 85.51 242 260 99 31 1314 697.3 54.41 241 257 99 32 1315 698.7 106t 236 249 100 33 1316 699.5 51.41 251 272 99 34 1329 701.1 57.21 255 324 98 35 1330 701.9 76.61 256 269 99 36 1346 7~4.3 1071 252 341 100 37 1348 705.5 61.11 250 293 lg0 38 1348 706.7 109t 248 264 1~1 39 1349 707.7 89.41 236 241 1M2 Lost circulation at 708' m~l. 1.010.89.35 1.~ 10.8 9.29 3.010.79.19 3.010.79.13 3.0 1~.7 9.18 3.010.69.20 3.010.69.30 2.010.89.35 2.010.89.29 2.010.79.19 1.010.79.13 1.010.79.18 1.010.69.20 1.010.68.90 1.010.48.87 1.010.48.77 1.010.48.73 1.010.38.63 1.010.38.69 1.010.28.60 1.010.48.42 1.010.58.53 1.010.78.50 1.010.78.53 1.010.68.65 1.010.78.62 1.0 10.7 8.7~ 1.010.710.3 1.0 11.0 1~.4 1.010.710.5 1.010.710.5 i.~ 10.7 10.5 1.010.86.45 367 368 61.7 51.9 '363 364 61.7 51.9 366 368 61.6 51.9 365 366 61.5 51.7 364 365 61.5 51.7 365 366 61.5 51.7 363 365 61.9 52.0 367 367 61.7 51.9 363 365 61.7 51.9 366 367 61.6 51.9 365 366 61.5 51.7 367 368 61.5 51.7 366 368 61.5 51.7 361 361 61.3 51.5 367 368 61.3 51.5 364 365 61.3 51.5 359 361 61.3 51.5 349 350 61.3 51.4 348 349 61.3 51.3 353 353 61.3 51.1 357 358 61.3 51.1 363 363 61.3 51.1 355 356 61.3 51.1 362 364 61.3 51.1 354 354 61.3 51.3 357 354 61.3 51.3 360 362 61.3 51.2 363 364 61.5 63.3 365 366 61.5 63.2 363 363 61.7 62.9 379 380 61.7 63.2 376 376 61.7 63.2 489 489 61.9 54.8 673.0 129 674.0 126 675.0 103 676.0 213 677.1 110 678.4 96.5 679.4 89.5 680.6 131 681.5 125 682.6 226 683.6 105 684.7 117 686.~ 70.9 686.6 77.8 687.2 33,9 688.4 130 688.9 55.5 690.0 71.1 691.0 76.3 692.4 113 932t 3.0 930 4.0 926 5.0 924 6.~ 919! 7.1 919 8.4 93~ 9.4 932 10.6 930 11.5 926 12.6 924 13.6 919 14.7 919 16.0 9051 16.6 9041 17.2 8971 20.¢ 897! 21.~ 894i 22.4 .890 23.3 893. 24.2 894 25.3 899 26.6 898 27.2 900 28.7 902 29.5 897 31.1 899 31.9 893 34.3 893 35.5 890 36.7 843 37.7 1.62 1.48 630 2.11 620 1.53 720 2.61 690i 1.62 670 1.48 590i 2.11 570i 1.53 7301 2.61 670 2.45 640~ 1.94 700, 2.49 740 2.78 610 4.93 7101 5.17 630 4.09 7301 4.25 750 3.16 630 2.81 750I 2.71 750I 3.59 800[ 3.39 770 3.68 720 5.21 740 3.93 580 3.40 730 3.~0 740 3.77 620 2.44 530 1.94 2860 ~ell blew mud over crown, continued pumping until well was under control. .0 193.2 671.7I .0 193.0 .672.8! .1 193.0 673.8 .1 193.~ 674.8 .1 193.0 675.8 .1 192.9 676.9 .1 192.6 678.2 .1 192.6 679.2 .1 192.4 680.4 .1 192.4 681.4 . 2 192 . 4 682.4 .2 192.4 683.4 .2 192.3 684.5 .2 192.0 685.8 .2 191.9 686.4 .2 191.7 687.0 .2 191.6 688.2 .2 192.1 688 · 7 .2 192.0 689.8 · 3 191.9 690.8 .3 191.6 692.2 · 3 191.7 693.1 .3 191.7 694.0 .3 191.7 695.1 .3 191.4 696.4 .4 191.7 697.0 .4 191.3 698.5 .4 191.4 699.3 .5 190.9 700.9 .5 191.0 701.7 .5 189.6 704.1 .5 189.5 705.2 .6 1~9.3 706.4 .6 189.3 707.5 ;~1i blew a second time ~hile observing after c~nenting and not reestablishing circulation. After pt~uping 2.5 bouts without gaining any control over the diverted blowout; the drill string was sheared and thew ell shut in. DXC ECD N~D .58 1~.67 9.00 .50 10.69 9.~0 .53 10.69 9.00 .53 10.72 9.~0 .47 1~.74 9.B0 .56 10.75 9.07 .56 10.76 9.14 .56 10.67 9.21 .50 10.69 9.21 .53 10.69 9.21 .43 10.72 9.21 .58 10.74 9.24 .55 10.75 9.32 .60 10.76 9.29 .61 10.79 8.52 .74 1~.80 8.52 .56 10.81 8.52 .76 1~.81 8.52 .72 1~.81 8.52 .68 1~.80 8.46 .62 10.Sl 8.5~ .69 10.79 8.44 .70 10.77 8.37 .70 10.76 8.3~ .65 10.75 8.31 .72 10.75 8.24 · 63 10.75 8.29 .78 10.76 8.29 .72 1B.78 8.21 .66 1~.79 8.22 .60 1B.82 8.22 .71 10.86 8.17 .57 1~.87 8.17 .57 1~.94 8.17 D D D D D D D D D D D D 12) D D D D D MCC TBUS ~26 RELIEF WELL Data Prlntea at time 15:58 Data Recordea at time i4:~2 Date Jul 29 '88 Date dun 3 '88 ft ft/hri AVG MAX AVG AVG PRESI unit IN OUT IN OUT IN OUT --THIS BIT ....... WAT~.R --T%/D--I DXC ft hr DEPTH DE~I'H t 5CD NX~D The well was bull heaaeo and brought under control. After pumping 2.5 hours without gaining any control over the diverted blowout; the arill string was sheareo an(~ the well shut in. The well was bull heade~ and brought under control. After regaining control oX the well the was strippea in and fished. BHA was retrived and stripped out. The hole depth was determined to be 15 feet deeper at 723' msl. NB #7 Smith SDGH 12.25" with 16:16:16 lets in at 757 ~eet REB MSL. Bit =un in con3unction with an 8" Nortrak mud motor (0.25 revs/§al, bent housing 1.5 degrees) an~ a Teleco ~D tool. Date Jun 20 '88 47 1539 757.0 4.5 48 1541 757.2 6.3 49 1543 757.4 5.6 50 1545 758.0 8.0 51 1547 758.3 9.6 52 1548 759.3 62.6 53 1549 760.3 48.2 54 1550 761.3 60.4 55 1551 762.3 66.9 56 1552 763.4 80.6 57 1553 764.4 59.3 58 1554 765.4 47.7 59 1555 766.6 61.4 60 1556 767.6 51.8 61 1557 768.6 49.3 62 1558 769.6 62.9 63 1559 770.6 84.1 64 1603 771.5 76.3 65 1640 774.6 83.2 66 1649 775.8 62.2 67 1650 776.6 87.2 68 1651 777.6 71.4 69 1652 778.6 47.9 70 1653 779,6 38.6 71 1654 780.6 7~.4 72 1655 781.6 90.7 73 1656 782.6 101 74 1656 783.6 106 76 1657 784.6 78.8 77 1657 785.6 122 78 1658 786.6 159 79 1658 787.6 181 80 1658 788.5 154 81 1659 789.4 150 82 1659 790.4 164 83 1659 791.4 172 84 1700 792.4 180 85 1700 793.4 190 210 231 115 4.30 1160 162 162 115 2.80 1250 162 162 116 3.38 1230 162 162 120 5.57 1450 162 162 121 3.96 1390 95 162 124 4.60 1370 0 0 124 5.10 1490 0 0 124 3.80 1380 0 0 124 4.40 1370 0 0 124 3.60 1490 ~ 0 124 4.10 1380 0 0 124 5.30 1340 0 0 124 4.60 1340 0 0 124 2.83 1370 0 0 124 4.61 1480 ~ 0 124 4.69 1380 0 0 124 4.98 1360 0 0 124 4.27 1350 0 0 124 4.27 1360 -2 -2 127 3.86 1460 -2 -2 127 4.74 1470 -2 -2.127 4.26 1460 -1 32 127 5.05 1430 1 58 127 4.91 1400 0 0 127 4.44 152~. 0 0 127 4.81 1510 0 0 127 5.~5 1570 0 0 127 4.81 14~ 63 319 128 4.08 1380~ 283 333 150 5.65 1660; 290 301 154 6.60 15901 293 299 154 7.23 16601 276 283 155 6.93 1600i 271 28~ 156 6.84 1690~ 270 282 156 6.79 1510 270 296 156 7.~8 157~ 29~ 3~4 156 7.67 1710 281 294 156 6.98 1570 3.5 9.00 9.10 458 401 67.8 65.~ 3.5 9.00 9.1~ 455 404 68.~ 65.8 3.5 9.~J0 9.10 486 412 68.0 66.1 3.5 9.00 9.10 498 426 68.1 67.7 3'.5 9.00 9.1~ 495 446 68.1 67.8 3.5 9.00 9.10 496 477 68.~ 67.7 3.5 9.~0 9.10 496 491 68.0 67.3 3.5 9.00 9.10 497 495 68.g 67.2 3.5 9.00 9.1~ 497 500 68.0 67.1 3.5 9.~'0 9.1~ 495 507 68.0 67.1 3.5 9.00 9.1~ 497 511 68.0 67.1 4.g 9.00 9.10 497 506 68.0 67.1 4.0 9.00 9.10 496 496 68.0 67.1 4.0 9.00 9.10 496 495 68.1 67.1 4.0 9.00 9.1~ 495 491 68.2 67.1 4.0 9.D0 9.10 497 497 68.2 67.1 4.0 9.00 9.10 496 505 68.2 67.1 4.0 9.00 9.10 496 508 68.4 66.7 4.0 9.00 9.10 496 506 69.7 65.5 3.0 9.00 9.10 508 520 70.2 65.6 3.0 9.00 9.1~ 508 530 70.2 65.6 3.~ 9.~0 9.10 507 533 7~.3 65.7 3.0 9.~0 9.10 509 533 70.3 65.7 3.~ 9.00 9.10 507 525 70.5 65.7 3.0 9.00 9.10 508 536 70.5 65.7 3.0 9.00 9.1~ 508 533 70.5 65.8 3.0 9.00 9.10 509 528 70.6 65.7 3.0 9.00 9.10 508 524 70.7 65.8 3.0 9.00 9.10 509 516 70.7 65.8 8.0 9.00 9.10 509 520 70.7 65.8 8.0 9.00 9.10 506 524 70.7 65.8 8.0 9.~J 9.1D 5~7 526 7~.7 65.8 8.0 9.00 9.1~ 51~ 527 7~.7 65.8 8.g 9.00 9.10 511 528 70.7 65.8 8.0 9.00 9.10 513 529 70.8 65.7 8.~ 9.0~J 9.15 513 527 70.9 65.7 8.0 9.00 9.10 512 528 70.9 65.7 8.0 9.~J0 9.10 512 528 70.9 65.7 714 0.0 742 .2 758 .4 774 1.0 778 1.3 779 2.3 775 3.3 775 4.3 775 5.3 774 6.4 779 7.4 779 8.4 778 9.6 776 10.6 779 11.6 772 12.6 771 13.6 773 14.5 787 17.6 763 18.8 763 19.6 762 2~.6 766 21.6 768 22.6 770 23.6 770 24.6 770 25.6 7711 26.6 7701 28.6 770t 29.6 31.5 7711 34.4 7701 35.4 0.~ 192.9 756.4 · 0 192.9 756.6 .1 192.9 756.8 · 1 192.7 757.4 .1 192.7 757.7 · 1 192.7 758.7 · 2 192.7' 759.7 .2 192.7 760.7 .2 192.7 761.7 · 2 192.6 762.8 .2 192.6 763.8 .2 192.6 764.8 .3 192.4 766.~ · 3 192.4 767.0 .3 192.4 768.~ .3 192.4 769. ~ · 3 192.4 770.0 .3 192.4 770.9 .7 192.1 774.0 · 8 192.2 775.2 .8 192.4 776.0 · 9 192.4 777.~ .9 192.4 778.~ · 9 192.4 779.0 .9 192.4 780.~ .9 192.4 781.~ · 9 192.4 782.0 1.~ 192.4 783.~ 1.0 192.4 784.0 1.0 192.4 785.~ 1.0 192.4 786.~ 1.~ 192.4 787.~ 1.0 192.5 787.9 1.~ 192.6 788.8 1.0 1~2.6 789.8 1.0 192.b 790.8 1.0 192.6 791.7 1.~ 192.6 792.7 1.35 1.20 1.26 1.32 1.2~ .89 .96 .87 .87 .80 .88 .96 .89 .84 .92 .88 .83 .83 .82 .86 .83 .85 .94 .98 .85 .82 .80 .78 .81 .81 .79 .78 .80 .81 .79 .78 .79 .76 8.91 9.20 8.90 9.20 8.89 9.20 8.92 9.20 8.92 9.20 8.93 9.20 8.94 9.20 8.95 9.20 8.96 9.20 8.97 9.20 8.99 9.20 9.~1 9.2~ 9.02 9.20 9.~3 9.20 9,06 9.20 9.08 9.20 9.09 9.20 9.12 9.20 9.~1 9.20 9.04 9.20 9.~5 9.20 9.07 9.20 9.~9 9.20 9.12 9.20 9.12 9.20 9.14 9.2~ 9.15 9.20 9.15 9.20 9.16 9.2~ 9.17 9.20 9.18 9.20 9.20 9.20 9.20 9.20 9.22 9.£0 9.24 9.£~ 9.24 9.£~ 9.25 9.20 9.26 9.2D D D D D D D D D D D D D D D D D D D D D D D D D D D MCC IBUS M26 RELIEF WELL #1 TIME DEFI'H ft ROPI TORQUE RPM WOB PUMP ft/hri AVG ~.LAX AVG AVG PRES 86 87 89 90 798.3 85.8 91 799.3 90.1 92 $00.3 95.1 93 8~1.1 87.5 94 802.1 97.7 95 803.1 102 96 803.9 58.4 97 804.8 35.9 '98 806.~ 45.6 99 806.5 28.4 16~ 807.7 60.4 101 808.7 54.9 1~2 809.7 60.2 103 810.5 50.3 1~4 811.5 43.8 105 812.3 42.8 106 813,3 50.9 107 814.3 77.8 1~8 815.2 53.8 109 816.2 62.4 110 817.2 120 111 818.2 99.7 112 819.2 115 113 819.9 76.5 114 820.1 160 115 821.1 240 116 822.1 224 117 823.1 184 118 823.3 74.0 119 824.7 77.5 120 825.8 249 1761 794.4 62.3! 1762 795.2 42.3 1763 796.3 87.9 i7~4 797.2 83.7 1764 0 17ff5 1706 17~6 0 17~7 1707 1708 1710 1750 -0 1757 0 1759 1801 0 1802 1~03 1804 1806 0 1806 1807 0 1808 2 1809 1819 1810 1823 1846 0 1846 0 1846 -0 1847 0 1851 1 1852 0 1852 0 $7 cut 69 feet in 3.0 41 280 141 3.i~ 1430 3 73 127 4.12 1520 0 0 127 5.64 1550 0 0 127 4.67 1580 I'.GAS MD lb/gal unit IN OUT 8.~ 9.~0 9.1~ 7.5 9.~0 9.1~ 7.5 9.60 9.1~ 7.5 9.0~ 9.10 FLOW/'biIN TEMP (F) PVT IN OUT IN OUT 508 529 70.9 65.7 770 568 526 7~.9 65.5 771 569 522 71.1 65.4 770 508 52~ 71.1 65.2 770 509 521 71.1 65.3 770 510 520 71.1 65.1 769 51~ 520 71.2 65.1 767 508 520 71.2 64.9 766 509 52~ 71.2 64.9 766 51~ 520 71.2 64.8 766 509 522 71.4 64.7 766 508 519 71.4 64.5 765 51~ 517 73.~ 69.9 775 500 496 73.4 71.9 762 500 494 73.4 72.5 761 500 492 73.4 73.1 761 500 493 73.6 72.9 762 499 494 73.6 73.0 760 501 492 73.6 72.9 760 499 493 73.8 72.7 760 501 493 73.8 72.9 759 501 494 73.~ 72.7 759 496 493 73.9 72.0 761 501 494 73.9 72.1 762 501 493 73.9 72.6 761 500 491 73.9 72.9 761 501 490 74.1 72.9 764 497 481 74.5 72.9 764 501 491 75.6 73.4 756 497 492 75.6 73.4 757 495 490 75.6 73.4 756 497 489 75.6 73.4 757 5~0 499 75.6 72.2 764 5~0 499 75.7 73.4 760 504 496 75.7 73.5 761 127 4.96 127 5.04 128 5.19 127 5.13 127 5.62 127 5.03 127 5.87 127 5.26 127 5.26 125 5.11 125 4.94 125 5.66 125 4.77 125 6.05 125 5.72 125 6.07 125 5.45 125 4.91 124 4.83 125 3.88 125 4.95 125 5.34 125 5.~8 125 4.45 125 2.93 124 10.2 124 1~.1 124 8.87 125 8.26 126 8.07 126 8.43 hours, pulled 1550 1470 134~ 1510 16~0 162~ 1510 1370 1350 136~ 1250 1340 1360 1420 142~ 1560 1450 1420 1390 1430 1340 1540 1510 1410 1260 1480 144~ 1500 1410 1480 1370 at 826 7.5 9.00 9.10 7.5 9.~0 9.10 7.0 9.0~ 9.10 7.0 9.~O 9.10 7.~ 9.00 9.10 7.0 9.~0 9.10 7.0 9.0~ 9.10 7.0 9.00 9.10 5.0 9.00 9.10 5.0 9.00 9.10 5.0 9.00 9.10 5.0 9.00 9.10 5.0 9.00 9.10 3.0 9.00 9.10 3.0 9.00 9,10 3.6 9.00 9.1~ 3.~ 9.~ 9.10 3.~ 9.~0 9.10 8.~ 9.~ 9.10 8.~ 9.~0 9.10 8.g 9.00 9.1~ 8.0 9.~'0 9.10 8.~ 9.~0 9.1~ 8.g 9.~ 9.10 10.0 9.~ 9.10 1~.0 9.gg 9.10 1~.~ 9.00 9.10 lg.0 9.~ 9.1~ 1~.0 9.00 9.10 1~.0 9.~0 9.10 6.g 9.00 9.1~ f~t ~ ~L. Bit pulled to change BHA to conventional rotary type with out a RRB #TR1 Smith SDGH 12.25" with open jets in at 827 feet. Circulating bottoms 126 2206 827.7 189 127 2207 828.7 108 128 2207 829.7 96.4 129 2208 830.7 102 130 2209 831.7 70.2 131 2210 832.5 60.1 132 2211 833.4 57.5 133 2212 834.4 87.1 134 2212 835.4 93.2 before drilling ahea~ after trip. 227 256 70 9.46 370 248 257 69 1~.7 370 246 259 69 i~.5 370 254 285 69 10.7 380 265 291 68 1~.5 380 251 275 69 10.1 380 232 248 70 10.1 380 237 246 69 10.8 3801 235 249 7~ 10.4 380 6.0 9.~0 9.1~ 6.0 9.00 9.10 6.0 9.~0 9.i~ 6.09.009.10 6.~ 9.00 9.1~ 6.09.009.10 6.0 9.0~ 9.10 6.0 9.~0 9.10 6.09.009.10 Data Printeo at time 16:01 )ara Recoroed at time 17:~1 --~HIS BI~ ....... ~ATER --TVD-- ft hr DEFi'H DEPTH 37.4 1.~ 36.2 1.1 39.3 1.1 40.3 1.1 41.3 1.1 42.3 1.1 43.3 1.1 44.1 1.1 45.1 1.1 46.1 1.1 46.9 1.2 47.8 1.2 49.0 1.6 49.5 1.7 50.7 1.8 51.7 1.8 52.7 1.8 53.5 1.8 54.5 1.8 55.3 1.9 56.3 1.9 57.3 1.9 58.2 1.9 59.2 1.9 60.2 1.9 61.2 1.9 62.2 1.9 62.9 2.~ 63.1 2.4 64.1 2.4 ~65.1 2.4 66.1 2.4 66.3 2.5 67.7 2.5 68.8 2.5 Date dui 29 '88 Date Jun 2~ 192.6 793.7 192.7 794.6 192.7 795.6 192.7 796.6 192.7 797.6 192.7 798.6 192.7 799.6 192.9 8~.4 192.9 801.4 192.9 8~2.4 193.1 803.2 193.1 804.1 194.9 805.3 195.3 805.8 195.3 807.ff 195.3 808.~ 195.3 809.0 195.5 809.8 195.5 810.8 195.7' 811.6 195.7 812.6 195.7 813.~ 195.8 814.5 195.8 815.5 195.8 816.5 195.8 817.4 195.8 818.4 196.5 819.1 197.9 819.4 197.9 820.3 197.9 821.3 197.9 822.3 198.3 822.5 198.3 823.9 198.2 825.0 Ieleco tool to drill a fifty foot sand section. DXC lCD NXMD .82 .92 .~2 .81 .82 9.27 9.26 9.27 9.28 9.28 9.2~ 9.2~ 9.20 9.20 9.20 550 533 75.7 72.~ 754t 1.7 .2 2~8.a 82~.9 546 541 75.7 72.1 7541 2.7 .2 208.3 827.9 551 543 75.7 72.07531 6.5 2 208.5 831.v: 551 546 75.7 72.~ ~53t 7.4 .2 2~8.6 832.6 551 536 75.7 72.0 7541 8.4 .3 20~.6 833.6 .81 .81 .82 .8~ .79 .92 .99 .98 1.~5 .94 .89 .97 .98 1.00 .94 .85 .91 .85 .77 .81 .77 .83 .65 .74 .75 .77 .95 .94 .70 9.28 9.20 9.28 9.20 9.29 9.2~ 9.28 9.20 9.28 9.20 9.28 9.20 9.28 9.20 8.91 9.20 9.04 9.20 9.04 9.20 9.06 9.20 9.06 9.20 9.07 9.20 9.08 9.20 9.10 9.20 9.10 9.20 9.11 9.20 9.11 9.20 9.12 9.20 9.13 9.20 9.14 9.20 9.15 9.20 9.15 9.20 9.05 9.20 9.~5 9.2~ 9.~7 9.20 9.~7 9..20 9.10 9.20 9.11 9.2~ 9.11 9.20 .66 .79 .81 .80 .~7 .90 .91 .84 .82 9.~9 9.2~ 9.10 9.2~ 9.11 9.2~ 9.11 9.20 9.13 9.£~ 9.i4 9.20 9.13 9.20 9.i4 9.20 9.14 9.2~ + ;D D D :D D D ~D ~D D ~D D~ D D D D D D D D D D D D D D D MCI] RBUS M26 RELIEF WELL IF# TIF~E DEPIB It ROP ft/hr t135 2213 136 2214 137 2214 11:,8 2215 1139 2216 1146 2244 141 2245 142 2245 143 2245 144 2246 145 2246 146 2246 147 2247 148 2247 149 2247 150 2248 151 2248 i152 2248 i Drilling 154 2300 i155 2300 1156 2300 i157 2301 158 2301 159 2301 160 2302 161 2302 162 2302 1163 2303 '164 2303 1165 2303 :166 2304 167 2304 ,168 2304 169 2340 170 2340 171 2341 ,172 2341 1173 2341 1174 2341 175 2342 176 2342 177 2342 178 2343 179 2343 180 2343 181 2344 182 2344 tORQUE RPM WOB PUMP AVG MAX AVG A¥~ PRES 836.4 97.9 234 248 69 1Z.5 380 837.4 78.7 232 249 76 10.5 380 838.5 64.9 228 236 70 10.5 380 839.6 96.8 221 243 76 10.5 380 840.5 73.5 231 241 70 16.4 380 841.4 114 268 294 64 12.4 380 842.4 171 284 293 65 13.0 370 843.4 191 293 296 66 13.8 380 844.4 187 292 3~6 65 13.7 370 845.4 175 285 298 65 13.4 38~ 846.4 183 283 290 65 13.3 370 847.4 176 285 293 65 13.2 380 848.4 171 279 285 66 12.9 370 849.4 148 274 288 66 12.4 370J 850.4 184 289 299 65 13.4 370 851.4 146 269 280 66 12.7 370! 852.4 157 269 280 66 12.9 380 853.4 1551 270 280 66 12.8 370i at high rate picked up off bottom t° 285 66 11.5 370I 304 61 14.2 370I 301 61 14.9 376t 298 61 15.1 380I 303 61 14.8 370t 286 61 14.8 380t 293 61 14.8 370 298 61 9.75 380 291 61 8.55 380 290 61 8.94 370 283 61 9.04 370 296 61 11.4 370 282 61 14.2 380 272 61 14.0 380 283 61 14.9 37~ 319 66 14.2 370 3~6 72 14.8 370 307 74 14.6 370 316 70 15.6 370 303 63 15.4 370 303 64 15.5 370 304 56 15.6 370i 340 60 15.3 37~ 304 64 15.6 380 325 65 15.6 370 311 65 14.9 370 298 65 13.5 370 314 65 15.5 370i 294 65 15.1 370 854.4 63.1 235 855.4 165 286 856.4 191 287 857.4 172 291 858.4 191 286 859.4 171 282 86~.4 189 283 861.4 192 290 862.4 148t 275 863.4 171t 279 864.3 2~7~ 280 865.4 2171 288 866.4 1781 275 867.4 178I 267 869.~ 214[ 27~ 870.7 124 251 871.7 232, 296 872.6 275i 301 873.6 248i 290 874.6 199 293 875.6 200 288 876.6 189 280 877.7 146~ 307 878.6 188 296 879.7 1811 3~1 880.7 153 290 881.6 195 275 882.7 222 296 883.7 200! 289 Data Print~ at time 16:05 Date Jul 29 '88 Data RecozCed at time 22:13 Date Jun 20 '88 T.GAS ~D lb/gal unit IN OUT 5.D 5.0 5.0 5.6 7.5 7.5 7.5 7.5 7.5 7.5 7.5 7.5 7.5 7.5 5.0 5.0 5.0 5.0 check 5.0 7.0 7.0 7.0 7.0 7.0 5.~ 5.0 5.0 5.0 5.0 5.0 5.~ 9.G0 9.10 9.0G 9.10 9.[f~ 9.1~ 9.00 9.1~ 9.0fl 9.16 9.00 9.10 9.00 9.10 9.6~ 9.16 9.06 9.16 9.00 9.10 9.00 9.10 9.00 9.10 9.00 9.10 9.00 9.10 9.~0 9.10 9.~0 9.16 9.00 9.10 9.00 9.10 for flow. 9.6'0 9.16' 9.00 9.10 9.00 9.1~ 9.00 9.16 9.00 9.10 9.00 9.10 9.00 9.10 9.60 9.10 9.00 9.10 9.00 9.1~ 9.~0 9.10 9.~0 9.10 9.ZW 9.10 FLOW/MIN IN OUT 551 536 551 535 551 535 547 534 548 535 545 542 542 541 544 540 547 538 549 537 551 536 551 537 551 537 548 537 546 536 549 535 550 535 551 534 545 545 538 541 536 539 540 538 541 537 541 536 543 ~ ' ~6 546 536 547 536 544 535 543 535 544 536 546 537 TkMP (F) iN OU? 75.7 72.D 75.7 72.6 75.7 72.D 75.P 72.6 75.7 72.6 75.2 72.7 75.2 72.7 75.2 72.7 75.2 72.7 75.2 72.7 75.3 7.2.7 75.4 72.6 75.4 72.6 75.4 72.5 75.4 72.5 75.4 72.3 75.4 72.2 75.4 72.2 75.4 72.4 75.6 72.5 75.6 72.5 75.6 72.4 75.6 72.4 75.6 72.1 75.6 72.1 75.6 72.1 75.6 71.8 75.6 71.8 75.6 71.5 75.6 71.5 75.6 71.2 P~ 754 10.4 755 11.4 756 12.5 756 13.6 756 14.5 869 15.4 809 16.4 8~9 17.4 81~ 18.4 810 19.4 810 20.4 816 21.4 810 22.4 8101 23.4 810, 24.4 810 25.4 810 26.4 810 27.4 8081 28.4 808t 29.4 8081 30.4 8~91 31.4 8o9j 32.~ 8091 33.4 816i 34.4 811t 35.4 810t 36.4 8~8t 37.4 806 4~.4 807 798 798 7971 7971 797: 797 797 797 797 797 797 796 5.0 5.~ 7.5 7.5 7.5 7.5 7.5 8.~ 8.0 8.0 8.0 8.0 8.0 8.0 8.~ 8.W 9.00 9.10 9.00 9.10 9.00 9.10 9.00 9.10 9.00 9.10 9.00 9.10 9.00 9.10 9.00 9.10 9.00 9.10 9.~0 9.10 9.00 9.10 9.00 9.1~ 9.00 9.10 9.00 9.10 9.00 9.10 9.00 9.10 547 538 548 538 546 507 547 519 545 531 543 536 547 535 549 539 550 541 551 541 551 545 551 548 551 55~ 551 550 551 550 551 551 75.6 71.2 75.6 71.2 75.9 70,7 75.9 72.9 75.9 72.9 75.9 72.9 75.9 72.9 75.9 72.7 75.9 72.7 75.9 72.7 75.9 72.7 75.9 72.7 75.9 72.5 75.9 72.5 75.9 72.2 75.9 72.2 --~HIS BIT ....... WA~'ER --~VD-- ft hr DEPTH DEPTH 41.4 43.6 44.7 45.7 46.6 47.6 48.6 49.6 50.6 51.7 52.6 53.7 54.7 55.6 56.7 57.7 .3 208.6 835.6i .3 208.6 836.61 .3 208.5 837.7 .3 208.4 838.7: .3 208.5 839.61 .4 208.6 84~.5 .4 208.6 841.5 .4 208.6 842.5 .4 208.6 843.5 .4 208.6 844.5t .4 208.6 845.5I .4 208.6 846.5I .4 208.6 847.5I .4 208.6 848.5I .4 208.6 849.4I .4 208.6 850.5I .4 208.6 851.5I .4 208.6 852.51 .5 208.6 853.5 .5 208.6 854.4 .5 208.6 855.4 .5 208.6 856.41 .5 208.6 857.41 .5 268.6 858.4 .5 208.6 859.4 .5 208.6 860.4 .5 268.6 861.4 .5 208.6 862.4 .5 208.6 863.3t .5 208.6 864.4t .5 208.6 866 .5 208.b 868 .5 206.~ 869.6j .5 208.3 870.6I .6 208.3 871.6I .6 208.3 87~.6I · 6 208.3 873.6J · 6 208.2 874.6I .6 208.3 875.5 .6 208.3 876.6 .6 208.3 877.5 .6 208.3 878.5 · 6 2~8.3 879.61 · 6 206.3 8~.5 · 6 206.2 881.5 · 6 2~8.3 882.5 DXC ECD NXMD .81 9.i6 9.20 .85 9.16 9.2~ .89 9.i7 9.26 .~1 9.i8 9.2~ .86 9.1~ 9.2~ .80 9.04 9.20 .71 9.64 9.25 .70 9.~5 9.26 .7~ 9.~7 9.20 .71 9.~7 9.20 .TG 9.08 9.20 .71 9.~9 9.20 .71 9.09 9.20 .74 9.1~ 9.20 .70 9.11 9.20 .74 9.11 9.20 .73 9.13 9.20 .73 9.14 9.20 .91 9.17 9.20 .71 9.17 9.26 .68 9.17 9.20 .71 9.18 9.20 .68 9.2~ 9.20 .71 9.20 9.2~ .68 9.21 9.2~ .62 9.22 9.17 .66 9,22 9.i7 .63 9.23 9.14 .59 9.23 9.14 .61 9.24 9,12 .69 9.26 9.12 .69 9.26 9.i2 .65 9.27 9.12 .81 9.~2 9.12 .69 9.~3 9.12 .65 9.~3 9.~7 .67 9.~5 9.~7 .70 9.05 9.07 .70 9.~7 9.~7 .68 9.08 9.~7 .76 9.~8 9.~7 .71 9.~9 9.07 .73 9.10 9.~7 .~6 9.10 9.~7 .68 9.11 9.27 .6~ 9.11 9.07 .69 9.12 9.~7 + D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D + MCC ~BUS M26 RELiEf' WELL #1 + $ Data Printea at time 16768 Data Hecora¢~ at time 23744 + Date jul 29 '88 Date Jun 26 '88 + ] F~ TI~iE DEf*i'H ROPI IORQGE RPM WOB t ft ft/hrI AVG MAX AVG AVG + + PUMPI T.GAS MD lb/gal FLCW/MIN TEMP (F) PRESt unit IN OUT IN OU? IN OUT t ~t nr DEPTH DEFIH t + % LCD NXhD 183 2344 884.8 225[ 293 363 65 16.5 Flow check ana circulating bottoms up. Date Jun 21 '88 1~5 ~g13 886.6 53.6] 186 0~14 887.7 75.7 187 ~15 888.7 52.4 188 0~t6 ~89.7 47.2 159 ¢~17 8~.7 62.6 19~ 0~1~ 691.7 99.2 191 ~18 892.7 110 192 0~19 893.8 117 193 ~19 894.9 112 194 0020 895.9 58.5 195 ~21 896.9 65.11 196 ~022 897.9 86.7 197 ~22 899.~ 114 198 g023 90~.1 101 199 0024 901.1 65.2 2~0 ~25 902.1 63.5 2~1 ~26 903.1 61.6 37~J 8,~ 9.~6 9.10 551 551 75.9 72.1 278 385 62 16.6 299 333 62 16.1 31~ 337 62 16.1 288 316 63 15.9 281 3~4 63 15.1 271 282 63 15.2 272 282 63 15.3 271 285 64 15.~ 297 312 62 15.8 274 291 63 15.2 270 288 63 15.2 254 270 64 14.1 245 269 64 13.3 280 303 63 16.4 277 288 63 16.1 272 288 63 15.7 262 280 64 15.1 37~ 37~ 37~ 370 370 37¢ 370 370 370 380 270 370t 38~ 380 380 38~. 380j 7.~ 9.~0 9.lB 556 551 76.1 73.W 7.~ 9.~W 9.1~ 556 552 76.1 73.~ 7.~ 9.B~ 9.1~ 557 551 76.1 72.9 7.~ 9.0~ 9.1D 556 552 76.1 72.5 3G.~ 9.66 9.16 556 552 76.1 72.3 3~.D 9.6~ 9.10 556 551 76.1 72.2 30.~ 9.~0 9.1~ 556 55~ 76.1 72.3 30.0 9.~0 9.lq 556 551 76.1 72.3 3~.D 9.~ 9.10 556 552 76.1 72.3 17.~ 9.00 9.10 556 551 76.1 72.4 17.~ 9.~ 9.10 556 551 76.1 72.5 17.~ 9.¢~ 9.16 556 55~ 76.1 72.5 17.0 9.~0 9.10 555 55~ 76.1 72.5 5.~ 9.~¢ 9.10 555 550 76.1 72.6 5.0 9.~0 9.1~ 555 551 76.1 72.7 5.¢ 9.f0 9.1~ 555 551 76.1 72.7 5.0 9.~0 9.10 556 55~ 76.1 72.7 Circulating bottoms up prior to POOH to change the BHA. RP~ 7R1 cut 76.7 feet in .9 arilling hours. POOH to cimnge BHA. RRB ~7R2 Smith SDGH 12.25" with 16716716 jets in at 903.7 feet F~L. Resume drilling after putting the ~eleco tool back in the string. 2~8 ~355 903.7 74.6 209 042~ 906.4 115 21~ ~42i 907.6 68.8 211 ~422 9¢8.8 43.3 212 ~423 909.8 46.8 213 0426 911.8 51.9 214 ~426 912.~ 69.9 215 ~427 913.8 60.7 216 0428 914.8 84.8 217 0428 915.8 154 218 ~429 916.8 131 219 ~429 917.8 145 220 ~430 918.8 173 221 ~43~ 919.8 199 222 043~ 92~.8 176 223 ~431 921.8 191 224 0431 922.8 205 227 278 6~ 6.6~ 1470 2 2 62 7.81 151~ 2 2 62 6.13 16lB 4 89 62 8.24 1660 2 2 63 8.56 169~ 2 2 127 8.73 135~ 2 2 126 8.65 159~ 2 2 127 5.34 152~ 2 2 127 2.55 1326 2 2 126 3.02 151~ 2 2 126 2.99 156~ 2 2 126 3.24 1570 2 2 126 3.71 1660 2 2 127 3.27 1600 2 2 127 3.55 1590 2 2 127 3.28 134~ 2 2 126 3.43 155~ 5.~ 9.¢0 9.10 511 502 75.7 75.4 11.0 9.0~' 9.10 506 5~5 77.~ 75.8 11.~ 9.00 9.16 5~5 504 77.0 76.~' 11.~ 9.~0 9.10 506 5~4 77.1 76.1 11.0 9.60 9.i~ 505 504 77.2 76.2 15.~ 9.~0 9.10 507 505 77.3 76.2 15.0 9.06 9.10~ 506 506 77.4 76.5 15.0 9.~0 9.1~ 506 506 77.4 76.5 15.0 9.00 9.1~ 5~6 507 77.4 76.5 26.5 9.G0 9.1~ 5~5 505 77.4 76.5 26.5 9.¢0 9.1~ 505 504 77.4 76.5 26.5 9.00 9.1~ 5~5 5~6 77.5 76.6 26.5 9.~ 9.16 5~6 506 77.5 76.6 26.5 9.~0 9.10 506 506 77.5 76.6 15.g 9.¢0 9.10 506 507 77.5 76.6 15.(~ 9.~ 9.1~ 506 507 77.5 76.5 15.~ 9.~0 9.10 506 508 77.5 76.5 225 0431 923.8 128 2 2 126 3.96 1560 226 0432 924.8 92.7 2 2 126 3.07 1510 227 ~432 925.8 103 2 2 127 3.69 155~ ~228 ~433 926.7 67.3 2 5 127 4.46 1330 229 0434 927.6 70.3 2 5 127 4.34 1410 Circulating bottoms up from 928' RkB MSL. 221 ~5~7 929.1 6G.6! 2 2 126 2.64 15901 15.~ 9.00 9.10 505 507 77.5 76.5 15.0 9.~0 9.10 5~6 507 77.5 76.4 14.0 9.~¢ 9.1~ 506 506 77.5 76.1 14.~ 9.~ 9.i~. 5B6 5~6 77.6 75.8 i4.{~ 9.~0 9.10 505 491 77.6 75.E 7941 58.& .6 208.1 883.7j .~7 7~7t 6~.6 7861 61.7 7861 62.7 786t 63.: 7871 64.7 7~71 66.7 7867 67.8 786, 68.9 787 69.9 787 70.9 787i 71.9 787 73.0 787 74.1 787 75.1 788 76.1 787 77.1 786 0.0 797 2.7 797 3.9 797 5.1 797 6.1 796 8.1 797 .9.1 796 1~.1 795 11.i 796 12.1 795 13.1 793 14.1 795 15.1 794 16.1 796 17.1 795 18.1 793 19.1 ~93 2~.i 795 21.1 795 22.1 793 22.~ 793 .6 207.4 885.4 · 7 2~7.3 886.5 · 7 207.3 887.5 .7 207.3 888.5, · 7 2~7.3 889.5i .7 2~7.3 890.51 .7 207.3 891.5i .7 207.2 892.5 .8 2~7.1 893.6 .8 207.1 894.61 .8 207.1 895.6 .~ 207.1 696.6 · 8 207.~ 897.7 · 8 2~6.9 898.8 .8 2~6.9 899.8 .8 206.9 900.8 .9 206.9 901.8 ~.0 197.9 902.3 .~ 197.4 905.~ · $ 197.4 9~6.2 .1 197.2 907.4 · 1 197.2 908.4 .i 197.2 91~.4 .1 197.2 911.3 .1 197.2 912.3 .1 197.2 913.3 .i 197.2 914.2 .1 197.2 915.3 .1 197.2 916.3 .2 197.2 917.3 .2 197.2 918.2 .2 197.2 919.2 .2 197.1 920.2 .2 197.i 921.2 .2 197.2 922.2 .2 197.2 923.2 .2 197.i 924.i .2 197.2 925.1 .2 197.1 926.U 14.~ 8.98 9.1~ 503 51G 78.8 77.2 796[ 25.4 .7 196.9 927.4j + 9.12 9. ~7 1.03 9.03 9.~7 · 94 9.~4 9.~7 1.e2 9.~5 9.07 1.B5 9.06 9.~7 .97 9.07 9.07 .86 9.07 9.07 .84 9.~9 9.67 · 82 9.10 9.07 .83 9.11 9.07 · 98 9.12 9.07 · 95 9.13 9.~7 .87 9.13 9.07 · 80 9.14 9.07 · 86 9.16 9.~7 · 96 9.16 9.07 · 96 9.17 9.07 .96 9.18 9.~7 77 8.~8 9.~7 D~ .'~1 9.~2 9.~7 D .82 9.~4 9.~7 D .92 9.~6 9.~7 D .91 9.67 9.07 D 1.04 9.1~ 9.. ~7 D .97 9.11. 9.07' 'D .91 9.12 9.~7 D .~4 9.i2 9.07 JD .66 9.12 9.~4 JD .69 9.14 9.~4 jD .68 9.15 8.9~ JD .66 9.16 8.95 ID .62 9.16 8.95 .65 9.18 8.93 tD .63 9.19 8.93 tD .62 9.19 8.94 jD .74 9.21 8.94 ID .75 9.22 6.94 ID .85 9.23 ~.~4 IL~ + MCC q'BUS M26 RELIEF W~LL ~1 T]ME DEPTH ft ROP ft/hr 232 ~598 233 ESlg 234 G512 235 5514 236 ~515 237 0516 238 ~516 239 6517 246 E~517 241 0518 242 ~518 [ 244 0519 245 ~52~ 1246 0521 1247 ~522 1248 g522 1249 ¢522 ~251 ~523 252 ~523 253 ~524 254 ~524 255 ~524 ~56 ~525 257 ~526 258 ~527 259 ~528 26~ ~,529 261 ~529 262 ~609 263 O61g 264 ~61~ 265 ~611 266 ~612 267 ~613 268 ~613 269 ~614 27~ ~614 271 ~615 272 g615 273 ~6i6 274 ~616 ~275 ~617 ~ 276 ~618 1277 ~618 93~. 1 41.2 931. i 33.8 932.1 25.7 933.1 47.6 934.1 51.5 935.1 69.6: 936.1 79.4: 937.6 162 938.1 156 939.1 i5~ 940.1 941.1 105 942.1 93.9 943.1 97.7 944.1 86.8 945.1 62.7 946.1 154 947.1 163 948.1 164 949.1 191 95~.1 195 951.1 185 952.1 179 953.1 193 954.1 196 955. i 51.6 956.~ 35.8 957. i ~6.2 958.1 80.4 959.1 9~.2 959.4 78.2 ~6~.4 i~3 961.4 9~.9 962.4 51.3 963.4 85.4 964.2 71.5 965.2 105 966.2 144 967.2 148 968.2 1~6 969.2 126 97~.2 81.1 971.2 118 972.1 116 973.1 54.~ 974. i ~2. i 975.1 94.6 976.1 ii~ Data Printe~ at time 16:11 Date Jul 29 Data ~iecorae~ at time ~5:,~t Date Jun 21 TORfUE RPM WOB PUMP AVG MAX AVG AVG PRES 2 2 126 3.75 1580 2 2 126 4.24 1536 1£ 147 126 4.44 1566 2 2 126 5.18 1416 2 2 126 5.~8 1620 2 2 126 5.2~ 1520 2 2 126 4.95 1490 2 2 126 5.13 154~ 2 2 126 5.41 1646 2 2 126 4.99 156~ 2 2 126 5.21 154~ 2 2 126 5.~1 140~i 2 2 126 5.74 1636i 2 2 126 5.83 166~ 2 2 126 4.89 162g 48 395 129 4.43 1480 399 337 165' 7.48 1580 300 366 166 7.19 172g 3~0 312 166 7.44 1640 314 335 167 1~.1 1770 399 319 167 1~.2 177g 312 322 167 16.1 1740 313 33~ 166 10.3 165~ 315 333 167 16.2 1656 32~ 327 166 16.4 1866 67 320 142 4.33 16 184 126 4.42 1556 3 3 126 5.27 1386 3 3 126 5.68 1666 3 3 126 5.78 157~ 3 5 126 5.32 155~ 2 2 126~. ~ 58 2 2 127 5.~9 156~ 8 118 127 4.25 169~ 3 3 127 5.24 16~ 3 3 126 4.76 1646 3 3 126 4.47 1590 3 3 126 5.~5 1580 3 3 127 5.25 1636 3 3 127 6.26 155~ 3 3 127 4.82 160~ 3 108 127 3.64 1550 3 3 127 4.~6 1630 3 3 127 5.44 159~ 3 3 127 5.72 1~1~ 3 3 127 5.57 156~ 3 3 127 5.56 1586 3 3 127 5.76 153~ T.GAS ~D lb/%al FLOW/MIN TEMP (F) unit IN OUT IN OUT IN OUT 15.6 8.98 9.1~ 15.£~ 8.94 15.g 8.92 9.i~ 15.~ 9.6g 9.i~ 15.0 8.94 9.t~ 41.0 9.~1 9.ig 41.6 8.96 9.16 41.6 8.96 9.1~ 41.~ 9.~6 9.16 41.0 9.~J2 9.1~ 40.0 9.02 9.16 4~.~ 9.02 9.i0 40.~ 8.98 9.10 40.~ 8.9~ 9.i~ 46.g 8.95 9.16 594 512 78.8 77.4 794 5~4 51~ 79.~ 77.5 795 5~4 5i~ 79.~ 77.8 793 564 569 79.~ 77.9 791 5~4 5~9 79.~ 77.9 792 5~5 51~ 79.2 77.9 791 5~4 511 79.2 77.7 792 5~4 5~9 79.2 77.7 794 5~5 5i~ 79.2 77.4 794 565 51~ 79.2 77.3 795 505 510 79.2 77.3 795 5~5 512 79.2 77.~ 794 504 513 79.2 77.5 795 5~5 514 79.3 77.8 794 505 509 79.3 77.9 792 --TH1S BlT- ...... WA~ER --7VD-- it hr DE~I'H DEP~~H ' 26.4 .8 196.9 928.4 27.4 .8 196.9 929.4i 28.4 .8 196.9 93~.4 29.4 .9 196.9 931.41 3~.4 .9 196.9 932.3 31.4 .9 196.9 933.3 32.4 .9 196.9 934.3 33.3 .9 196.9 935.2 34.4 .9 196.9 936.Z~ 35.4 .9 196.9 937.2 36.4 .9 196.9 938.2 37.4 .9 196.9 939.2 38.4 .9 196.9 940.2 39.4 1.0 196.9 941.2 46.4 1.~ 196.9 942.2 2~.~ 8.94 9.1~ 26.6 8.88 9.1~ 20.0 8.88 9.16 2~.6 9.1~ 9.16 2~.0 9.1~ 9.1g 15.0 9.16 9.16 15.6 9.16 9.10 15.~ 9.1~ 9.16 15.6 9.16 9.16 15.6' 9.1~ 9.1g 7.~ 9.1~ 9.1~ 7.~ 9.i~ 9.1~ 7.~ 9.1~ 9.1~ 7.~ 9.1~ 9.1~ 7.~ 9.1~ 9.1~ 7.6 9.1~, S.l~ 1~.~ 9.1~ 9.1~ 1~.~ 9.1~ 9.1~ 16.~ 9.1~ 9.16 1~.~ 9.1~ 9.10 38.~ 9.1~ 9.i~ 3~.~ 9.16 9.1~ 38.~ 9.1[ 9.1~ 3~.~ 9.1~ 9.1W 38.~ 9.1~ 9.16 1~.~ 9.i~ 9.1~ 18.0 9.1Z 9.1~ 18.~ 9.1~ ~.~ ~ ~ ~ 18.Z 9.1~ 9.1~ 18.~ 9.1[~ 9.i~ 2~.~ 9.1D 9.iW 2~.W 9.iC 5.1~ 504 507 79.3 78.3 791 505 566 79.3 78.4 792 506 507 79.3 78.4 792 507 507 79.3 78.4 792 509 5~6 79.3 78.4 793 5~9 505 79.3 78.2 794 509 504 79.3 78.2 794 51D 502 79.3 78.1 794 51~ 562 79.3 78.1 794 569 502 79.5 77.8 794 504 496 7~.5 77.6 794 5~5 488 79.5 77.5 795 505 4~8 79.5 77.7 795 5~4 493 79.5 77.7 796 595 5~ 79.6 77.7 795 5~0 493 8~.6 77.7 78~ 5£5 51D 8D.6 77.7 787 5~7 517 8~.6 77.8 786 5~7 516 8~.6 78.1 784 5~7 515 8~.6 78.2 786 502 512 8~.6 78.4 785 5~4 511 8~.6 78.5 787 5~5 51~ 80.6 78.6 787 507 511 8~.6 78.6 788 5~8 510 8~.6 78.8 787 508 51~ 8~.6 78.9 788 508 511 86.6 79.~ 788 5~7 5~9 8~.6 79.~ 788 5~7 5~9 8~.7 79.2 788 5~8 51~ E~.8 79.2 757 5~7 51~ 86.8 79.1 786 5G7 5~7 8~.8 79.C 785 5~8 507 ~O.& 7~.9 784 41.4 1.0 196.9 943.1 42.4 1.~ 196.9 944.2 43.4 1.6 196.9 945.1 44.4 1.g 196.9 946.1 45.4 1.6 196.9 947.1 46.4 1.~ 196.9 948.1 47.4 1.~ 196.9 949.~ 48.4 1.6 196.9 956.6 49.4 1.W 196.9 951.0 56.4 1.~ 196.9 952.6 51.4 1.1 196.9 953.~ 52.3 1.i 196.9 953.9 53.4 1.1 1~6.9 954.9 54.4 1.1 196.9 955.9 55.4 1.1 196.9 956.9 55.7 1.6 197.6 957.1 56.7 1.7 197.6 958.2 57.7 1.7 197.~ 959.1 58.7 1.7 197.6 966.1 59.7 1.7 197.6 961.1 6Z.5 1.7 197.8 961.9 61.5 1.7 197.E 962.9 62.5 1.7 197.~ 963.8 63.5 1.7 197.8 964.8 64.5 1.7 i97.E 965.~ 65.5 1.8 197.~ 966.8 66.5 1.£ 197.8 967.7 67.5 1.8 197.8 968.7 68.4 1.8 197.9 969.6 69.4 1.8 197.9 976.6 7~.4 1.8 197.9 971.5 71.4 1.8 197.9 972.5 72.4 1.~ 197.~ 973.5 DXC ECD N~D .93 9.~4 S.94 .98 9.05 8.94 i.~4 9.~7 8.94 .95 9.~8 8.94 .93 9.~9 8.94 .88 9.1~ 8.94 .84 9.11 8.94 .8~ 9.12 8.94 .74 9.13 8.94 .73 9.13 8.94 .8~ 9.15 8.94 .81 9.16 8.94 .83 9.17 8.94 .83 9.18 8.94 .82 9.26 8.94 .87 9.21 8.94 .83 9.21 8.94 .81 9.22 8.94 .81 9.23 8.94 .84 9.23 8.94 .83 9.25 6.94 .84 9.15 8.94 .85 9.26 8.94 .83 9.27 8.94 .83 9.27 ~.94 .91 9.28 8.94 .95 9.28 8.94 .$3 9.i8 8.94 .85 9.28 8.94 .83 9.29 8.94 .86 9.~8 8.94 .~2 9.~9 8.94 .83 9.19 8.94 .90 9.10 ~.94 .84 9.i~ 8.94 .86 9.11 8.94 .78 9.12 8.94 .74 9.13 8.94 .74 9.13 8.94 .83 9.15 8.94 .75 9.15 8.94 .79 9.17 8.94 .74 9.17 8.54 .78 9.~b 8.94 .85 9.i~ .~5 9.1~ 5.9~ .52 9.1~ E.~4 D D D D D D D D D D D D D D D B D D D 'D D ID ID MCC %BUS M26 RELIEF WELL TiME DE [3IH ROP ft ft/hr 28~ W620 977.1 96.6 281 ~i621 978.1 79.2 282 W621 979.1 1W1 283 8622 979.9 68.2 284 ~623 98~.c3 59.7 285 ~3624 981.9 66.1 286 ~625 982.9 54.W 287 ~3627 983.7 33.5 288 ~3627 984.7 131 289 ~628 985.7 180 290 D'628 986.7 175 291 8628 987.7 177 292 8629 988.1 65.9 293 ~3709 989.2 68.4 294 ~3712 990.2 75.8 295 ~3713 991.2 67.7 296 8713 992.2 63.7 297 0714 993.2 65.4 298 0715 994.1 9~.6 299 ~716 995.6 76.1 3~0 6717 996.~ 78.2 3~1 0718 997.~ 55.1 3~2 G719 998.£' 43.3 3~3 ~722 998.8 23.6i 3~4 6723 999.8 61.7 385 ~3723 t0~6.8 74.8 386 g'724 16~1.7 59.1 3~7 ~725 1~2.7 73.7 3~8 ~726 1~03.6 70.6 , 3~9 ~727 1~04.7 83.9 31~ ~727 1~65.7 85.2 311 ~728 i066.7 9t.9 312 ~729 1£~67'.7 88.5 313 ~729 1~08.7 78.g 314 ~731 1~09.5 47.6 315 ~731 1610.5 197 316 G731 1011.5 243 317 G732 1611.9 192 318 U732 1014.4 2~6 319 [~732 i615.2 212 32~ g-733 1~16.3 216 321 ~3733 lg16.7 76.5 322 ~805 1~17.7 78.5 323 ~81~ 1617.9 77.7 324 ~3811 1~18.9 88.2 325 £811 i~19.9 326 ~,$12 1821.~ 1~9 5OR~UE RPM WOB PUMP AVG MAX AVG A%~ PRES 3 3 127 5.93 161~ 3 3 127 6.~4 140~ 3 3 126 6.25 162~ 3 3 126 5.55 16~D 3 3 127 4.89 156~ 3 3 126 5.35 159~ 3 3 126 6.32 1510 74 398 136 6.87 187~ 291 385 16~ 8.54 i67~ 331 351 158 9.73 1650 338 367 161 9.79 1820 315 327 161 8.91 165~ 246 311 163 5.17 1670 246 311 163 5.17 161~i 2 2 126 4.32 1680, 2 2 126 5.D1 1600i 2 2 126 5.43 1640i 2 2 126 5.21 1590 2 2 126 5.34 162~ 2 2 127 4.7~ 1580 2 2 126 5.21 144~ 2 2 126 5.48 1550 2 3 126 5.69 1510 2 i62 126 5.~9 145~ 3 3 126 5.12 1660 2 2 127 5.22 1630 2 3 127 4.75 143~ 2 3 126 5.66 1616 2 3 127 5.06 158~ 2 3 127 5.21 153~ 2 3 127 5.28 1636 2 3 127 5.56 162~ 3 3 127 5.54 167W 3 3 127 5.U3 1410 41 395 128 5.~2 1680 346 382 157 10.6 1670 3~0 387 160 12.8 1780 361 383 16W 12.6 174~ 351 383 160 12.~ 171~I 343 369 159 12.5 184~1 357 372 16~ 13.1 17601 2~3 364 16~ 9.66 167~i 283 364 160 9.66 166~i 2 2 126 4.31 155~ 2 2 126 4.31 166~ 2 2 126 4.69 1666 2 2 12~ 4.49 1560 327 ~813 1622.~ 7U.61 2 2 126 4.7~ 173~ T.GA$ MD lb/gal FLO~'~/MIN %F~]P (F) P~T unit IN OUT IN OUT IN OUT 2~.~ 9.i~ 9.1~ 5~8 5~6 86.8 78.7 782 2W.D 9.10 9.1~ 566 5~6 8~.~ 78.6 782 20.~ 9.10 9.1~ 5W5 5~5 8W.8 78.6 783 2~.~ 9.1~ 9.1~ 506 5~6 8~.6 78.6 782 12.W 9.i~ 9.10 506 5~5 8~.8 78.6 784 i2.~ 9.1~ 9.1~ 5~5 5~4 80.$ 78.6 786 12.~ 9.1~ 9.1~ 5~5 505 81.~ 78.8 787 12.~ 9.1[ 9.i~ 5~6 5~4 81.~ 78.~ 788 12.~ 9.1~ 9.1~ 5~ 5~7 81.~ 7~.g 788 28.~ 9.1~ 9.10 5~9 5~7 81.~ 78.8 788 28.0 9.1~ 9.1~ 510 510 81.~ 78.8 788 28.0 9.10 9.1~ 511 511 81.0 78.8 787 28.Z 9.10 9.10 51~ 51~ 81.~ 79.0 788 28.0 9.1~ 9.1~ 507 5~6 81.7 79.1 783 18.~ 9.1~ 9.1~ 5~4 505 81.9 79.9 783 18.0 9.1~ 9.10 505 5W6 81.9 79.9 784 18.~ 9.10 9.1~ 506 5~6 81.9 79.9 779 18.0 9.10 9.1~ 505 506 81.9 80.W 780 18.0 9.1~ 9.10 505 5~4 81.9 80.] 781 12.~ 9.1~ 9.1~ 506 5~5 81.9 8~.1 7811 12.~ 9.10 9.1~ 506 5~7 81.9 80.1 782 12.W 9.1~ 9.1~ 505 5~6 82.~ 8~.2 7821 12.~ 9.10 9.1~ 506 506 82.0 8~.4 782 12.~ 9.16 9.1~ 506 502 82.2 80.2 784 12.~ 9.10 9.1~ 505 501 82.2 80.2 782 16.~ 9.1~ 9.1~ 5~6 5~2 82.2 8W.~ 782 1~.~ 9.i~ 9.t~ 507 5~3 82.2 79.8 781 1~.~ 9.1~ 9.1~ 5~6 5~3 82.4 79.9 782 1~.0 9.1~ 9.1~ 5~7 503 82.4 8~.2 782 10.~ 9.1~ 9.1~ 5~7 5~2 82.4 8~.2 783 14.~ 9.i~ 9.1~ 5~6 5~1 82.4 8~.2 780 14.~ 9.1~ 9.1~ 507 5~2 82.4 8~.1 783 14.~ 9.10 9.10 507 5~2 82.4 8~.1 783 14.0 9.10 9.10 5~7 5W2 82.4 8W.1 782 14.0 9.10 9.10 506 501 82.6 80.1 783 18.0 9.10 9.1~ 5~7 503 82.6 80.2 783 18.0 9.1~ 9.10 508 5~3 82.6 8~.2 782 18.~ 9.10 9.1~ 509 5~4 82.6 8~.2 782 18.~ 9.1~ 9.i~ 511 5~5 82.6 80.2 783 9.0 9.i~ 9.1~ 511 505 82.6 8~.2 783 9.0 9.1~ 9.10 511 5~5 82.6 8~.2 785 9.0 9.1~ 9.1~ 511 5~2 82.6 8~.2 784 9.0 9.1~ 9.10 5~8 511 83.5 8~.5 787 9.D 9.i~ 9.i6 505 512 83.7 81.5 772 9.~ 9.1W 9.16 5~5 516 83.7 81.5 771i 9.~ 9.1~ S.i~ 505 515 83.7 ~1.5 11.6 S.16 9.i~ 505 512 ~3.7 ~1.5 7671 ll.U 9.18 9.16 5~5 512 ~3.7 gl.5 Data Prlntec at time i6:i5 Date Jul 29 Data Recora=a at time W6:2~ Date Jun 21 --TH1S BlT ....... ~AR'EE --TYD-- it hr DEPTH DEFtH 73.4 1.8 197.9 974.5 74.4 1.8 197.9 975.5 75.4 1.9 197.9 976.4 76.2 1.9 198.1 977.2 77.2 1.9 198.1 978.2 78.2 1.9 198.1 979.1 79.2 1.9 198.1 98~.1 8~.~ 1.9 198.$ 9~.9 8i.~ 2.~ 198.3 981.9 82.~ 2.W 198.3 982.8 83.D 2.D 198.3 983.8i 84.0 2.D 198.3 984.8i 84.4 2.D 198.3 985.2i 85.5 2.6 199.7 986.2~ 86.6 2.6 199.7 987.3 87.5 2.7 199.8 988.2 88.5 2.7 199.8 989.1 89.5 2.7 199.8 990.1 90.4 2.7 199.9 991.~ 91.3 2.7 200.W 991.9 92.3 2.7 2G~.0 992.9 93.3 2.7 2~.~ 993.8 94.2 2.8 20~.~ 994.8 95.1 2.8 2~.2 995.5 96.1 2.8 20~.2 996.5 97.1 2.8 2~.2 997.5 98.~ 2.9 20~.3 998.2 99.~ 2.9 2~.3 999.3 99.9 2.9 2~.4 1~0~.2 1~1 2.9 2~.3 1~01.2 i~2 2.9 2~.$ 1~2.2 1~3 2.9 2~0.3 1~3.2 1~4 2.9 2~.2 1~4.2 105 2.9 2~.3 10~5.1 106 3.~ 2~0.5 1~05.9 1~7 3.~ 200.5 1006.8 1~8 3.0 2~.5 1~7.8 1~9 3.D 2~0.5 1~9.2 111 3.D 20~.6 1010.6 112 3.~ 2~6.7 1011.~ 113 3.~ 2~0.7 1012.4 113 3.~ 2~.7 1~12.9i 114 3.5 2~1.7 1013.8,n ' 114 3.6 2~2.1 1~14.~ 115 3.6 2~2.i l~lS.W, 116 3.b 2£2.~ I~15.5 11~ 3.6 2~2.~ lZlT.b ii$ 3.b 2~2.u !~i~.~ DXC ~CD .83 9.22 8.94 .87 9.24 8.94 .63 9.24 8.94 .88 9.24 8.94 .88 9.25 8.94 .~8 9.25 8.94 .94 9.26 8.94 1.~6 9.28 .87 9.29 8.~4 .83 9.29 8.94 .84 9.3~ 8.94 .82 9.30 8.94 .92 9.26 8.94 .92 9.2~ 8.94 .82 9.17 8.94 .87 9.17 8.94 .9~ 9.18 8.94 .88 9.19 8.94 .82 9.19 8.94 .84 9.20 8.94 .85 9.21 8.94 .92 9.23 8.94 .97 9.25 8.94 1.~6 9.17 8.94 .88 9.28 8.94 .85 9.29 8.94 .87 9.31 8.94 .84 9.31 8.94 .85 9.32 8.94 .82 9.32 8.94 .82 9.34 8.94 .82 9.35 8.94 .82 9.36 8.94 .83 9.37 8.94 .92 9.37 8.94 .81 9.27 8.94 .81 9.37 8.94 .~5 9.38 8.94 .~3 9.39 8.~4 .83 9.4~ 8.94 .83 9.40 8.94 99 9.41 8.54 1]~1 9.20 8.94 .g2 9.23 g.94 .~9 9.24 8.94 .75 9.24 .76 9.14 .b4 9.15 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D- D 'D MOC ~BUS M26 RELIEF WELL #i IF~ Ti~'/~ DEPTH ft + ROP] R'CRQUE RH4 KC'B PUMPI R'.GAS ft/hr{ AVE MAX AVG AVG PRES unit 328 W813 1622.9 85.71 2 2 126 4.19 1676 329 ~814 1023.9 9~.It 2 2 126 4.5~ 1416 336 ~815 1024.9 78.3! 2 2 126 4.31 i59~ 331 ~816 1~25.8 82.61 2 2 126 4.43 171~ 332 8816 1~26.8 161t 2 2 126 3.44 1556 333 8817 1627.7 1~'6t 2 2 126 4.16 153~1 334 W817 1628.8 1~61 2 2 126 3.95 165~ 335 ~1~ 1629.8 1251 2 2 126 3.21 162~ 336 ~818 i~3~.7 156! 2 2 126 3.75 i53~ 337 ~818 1~31.8 2631 2 2 126 3.29 1550 338 0819 1~32.8 180 339 ~819 1~33.8 181 RD lb/gal FLOW/MIN ThMP IN OUT IN OUR IN OUR' Data Frintec at time 16:18 Data kacoraea at t~me 68:13 --RHIS bI% ....... ~A%ER it hr DEPTH --T~D-- DE,IH 1618.8 1~19.8 1~2~.7 1~21.6 1822.6 1W23.5 1024.5 1W25.5 1W26.4 1627.4 2 2 126 2 2 126 34~ ~826 1634.6 109j 2 2 126 341 ~826 1035.6 135t 2 2 126 342 ~820 1~36.5 212t 2 2 126 1343 0821 1037.6 2231 2 2 126 1344 ~821 1638.~ 2851 2 2 126 ~ Checking the d~ill b~eak fo~ [low /346 6846 1~39.1 45.6! 2 3 126 347 0848 1639.4 90.6j 332 398 155 348 ~848 164~.3 486t 383 398 163 9.15 1616 349 6848 1~42.4 541 4f6 4~1 156 1~.7 1886 356 ~848 1644.7 447t 282 398 162 7.73 1726 . Circulatefl bottoms up at ~rill break at 1631 352 ~928 1~45.4 154 282 2 162 7.73 1576 353 ~927 1646.1 135 354 693~ 1647.1 142 355 D936 i~48.i 292 356 093~ 1649.6 361 357 ~930 1656.1 295 358 ~931 1651.2 313 359 6931 1651.'9 216 3~g ~931 1653.~ 268 361 6931 1654.2 284 362 ~932 1655.7 368 363 ~932 1~58.8 364 ~932 1~60.6 292 365 ~933 1~61.3 272 366 ~933 1663.6 281 367 6933 1~64.~ 3~2 368 ~933 1664.9 315 369 ~933 !~66.~ 276 370 G934 1667.0 115 3~1 ~934 1~68.~ 184 372 G935 1~68.9 1791 373 ~935 1~6.6 2[9 374 6935 i671.~ 215 375 ~935 1~71.S 11.6 9.16 9.16 564 513 83.7 81.5 768 ll.g 9.1~ 9.16 585 515 83.8 81.6 769 ii.~ 9.16 9,16 505 515 83.8 81.7 769 15.~ 9.1~ 9.16 565 518 83.~ 81.8 769 15.6 9.10 9.16 565 518 83.8 8i.~ 769 15.~ 9.10 9.16 565 515 83.8 82.6 769 15.6 9.18 9.18 504 512 63.8 82.f 769 i5.~ 9.18 9.i~ 5~5 511 83.8 82.C 769 15.~ ~ 1~ 9.10 ~ ~. ~ 511 83.~ 8~.i 776 t5.~ 9.16 9.i~ 565 511 83.8 82.1 771 2.85 16~W 15.0 9.16 9.1~ 565 511 83.9 82.g 3.67 156~ 15.0 9.16 9.16 505 511 83.9 82.~ 3.25 159WI 15.6 9.16 9.16 504 510 84.6 82.0 3.11 1560 15.6 9.18 9.10 504 5ig 84.6 82.0 3.16 1576I 15.0 9.1~ 9.1~ 505 511 84.~ 82.~ 3.21 1600t 15.6 9.16 9.1~ 505 512 84.0 82.~ 4.54 1550t 15.~ 9.10 9.18 505 512 84.~ 82.~ at 1639' msi. 1.55 1430 15.6 9.10 9.10 564 5~4 84.6 81.4 5.61 1566 15.0 9.16 9.10 504 518 84.6 82.1 14.6 9.1~ 9.1~ 505 517 84.6 62.1 14.6 9.1~ 9.16 5~6 515 84.6 82.2 14.6 9.18 9.1~ 567 512 84.6 82.2 msl anG then dri!ieC to kelly down at 282 2 162 7.73 1566 ~ g 128 i.~5 154~ ~ ~ 127 3.66 1696 6 0 127 4.19 1696 6 0 128 2.54 175~ 6 6 128 3.85 1766 0 0 128 3.59 166~ ~ ~ 128 3.89 177~ ~ 6 126 3.99 1686 0 ~ 128 2.67 1616 ~ C 128 3.85 143~ ~ 0 128 3.78 1590 6 0 128 4.2~ 177~ 6 0 118 3.56 166~ ~ 0 128 3.21 167~ 0 0 128 4.86 1580I 15 65 128 3.2C 15901 392 411 144 8.70 1816 398 298 155 10.1 18~01 ~,~7 398 152 ~..6~'~ 18361 36~ 255 162 16.3 175~ 351 262 163 10.8 i87~J 376 25C 164 !~.4 187~ 771 770 771 77~ 771 771 771 t19 3.6 2~2.1 12~ 3.6 2~2.1 121 3.6 262.1 122 3.7 262.2 123 3.7 2~2.2 124 3.7 202.2 125 3.7 202.2 126 3.7 262.£ t27 3.7 2~2.2 12~ 3.7 202.2 129 3.7 202.2 i3~ 3.7 2~2.2 131 3.7 2~2.4 132 3.7 202.4 '133 3.7 202.4 134 3.7 202.4 135 3.7 202.4 771t 135 4.2 263.3 771i 136 4.2 203.5 7721 137 4.2 263.5 7721 139 4.i 2~3.5 773 141 4.2 2~'3.4 1046'msl an¢ aid the same. 1028.3 1029.3 163f.i 1031.0 i~32.0 1633.0 1033.9 1634.4 1~34.7 1635.6 1037.6 1639.8 4.7 204.5 164~.5 4.8 2~4.8 1W4i.i 4.8 264.8 iD42.1 4.8 204.8 i~43.1 4.8 2~4.9 1043.9 4.8 204.8 4.8 204.8 1~46.~ 4.~ 2~5.~ 1646.7 4.L 205.6 1647.8 4.8 205.6 1~48.9 4.9 265.~ 1~55.7 4.9 2~5.0 1~58.8 4.9 265.0 1~66.~ 4.9 2~5.~ 1061.3 4.9 205.~ 1~63.~ 4.9 2~5.~ 1064.6 4.9 265.~ 1~64.9 4.9 205.6 !~66.T 4.9 205.0 1~67.0 4.9 265.6 1~6~.~ 4.9 2~5.~ 1L68.9 4.9 2~5.~ 1~.~ 4.9 265.L 1LTi.u 4.9 2L5.~ i6~i.5 1~.6 ~.1~ 9.16 508 507 84.9 82.4 794t 142 10.6 9.1~ 9.1~ 567 565 84.9 8~.9 776j 142 16.~ 9.16 9.1~ 510 568 84.9 81.7 7761 143 10.6 9.16 9.1~ 509 507 84.9 81.7 770J 144 10.~ 9.1~ 9.1~ 5~9 566 84.9 bi.7 7671 145 i4.D 9.16 9.1~ 510 505 84.9 ~i.7 766j 146 14.6 9.16 9.1~ 51~ 511 84.9 81.7 7671 147 14.6 9.16 9.16 511 511 85.~ 81.7 765t 148 14.~ 9.1~ 9.i~ 511 51~ 85.~ 81.7 7641 149 14.~ 9.1~ 9.1~ 512 511 85.0 81.7 7641 151 15.0 9.16 9.10 512 516 85.1 ~1.7 764t 152 15.0 9.10 9.1f 511 511 85.1 ~1.9 7641 155 21.0 9.1G 9.1~ 511 513 85.1 81.9 7641 156 21.6 9.10 9.1~ 51~ 513 85.1 81.9 765j 158 21.~ 9.16 9.10 511 514 85.1 81.9 7651 159 21.~ 9.10 9.10 511 514 85.1 8i.9 765.j 160 21.~ 9.1~ 9.1~ 511 514 85.1 61.9 765t 161 3~.~ 9.1~ 9.!~ 511 514 85.1 82.~ 7651 162 30.6 9.1~ 9.10 512 513 85.1 82.~ 7651 163 3~.~ 9.1~ 9.10 513 5i4 85.1 ~2.6 765i 164 30.e 9.1~ 9.1~ 514 515 65.1 ~2.~ 7651 1~5 36.~ 9.1~ 9.i~ 515 516 85.1 ~2.1 766! 166 36.~ 9.1~ 9.16 516 518 85.1 82.1 766t 167 36.b 9.i~ 5.16 516 51[ 85.1 Date Sul 29 '88 Date Jun 21 DXC LCD NX~D .79 9.26 8.94 .79 9.26 ~.94 .81 9.26 8.94 .81 9.27 8.94 .74 9.27 8.94 .75 9.28 8.94 .74 9.29 8.94 .69 9.29 8.96 .67 9.2~ 8.89 .61 9.31 8.92 .61 9.31 8.94 .64 9.32 8.95 .71 9.33 8.90 .67 9.34 8.88 .59 9.24 8.93 .59 9.35 8.98 .58 9.35 6.98 .77 9.26 8.98 .87 9.26 8.98 .62 9.26 9.61 .61 9.26 9.06 .61 9.29 9.16 .82 9.3~ 9.1~ .85 9.25 9.16 .56 9.28 9.10 .56 9.29 9.10 .57 9.29 9.10 .53 9.31 9.16 .55 9.31 9.16 .61 9.21 9.13 .5~ 9.33 9.12 .57 9.33 9.13 .55 9.34 9.13 .55 9.36 9.13 .56 9.37 9.13 .58 9.27 9.19 .56 9.,~ ~.19 .54 9.29 9.19 .57 '9.39 9.19 ~ 9.40 .S7 9.41 9.19 .~1 9.41 9.19 .~i 9.41 9.19 .~ c ~ .t~ 9.~2 c~.i9 .Li 9.43 5.i9 D D D D D D D D D D D D D D ID ID D D D D D D D D ~D D D D D 'D D b .-t- MOC ~i}3{3S M26 RKLiLF hELL + Data ~rlntec at time 16:21 Date Data Racorcea at time ~9:26 Date Sul 29 gun il ft ft/hrI + ~CRQUE RPN WCB PUMP T.GA$ ND lb/gal fLOW/'NIN AVG ~X AVG AVG pREs unit iN OUT IN OUT + T~MP {J:') IN OUT I ft hr DEPTH D5P'I'H I ~C.D N~.D 376 ~936 1673.f 259{ 355 367 377 ~936 1673.9 244 348 361 378 6936 1675.~ 230 367 382 Circulate bottoms up at ]675' 380 1639 1076.~ 92.61 381 1~4~ 1577.1 109. 382 1~4~ 1~78.1 68.4~ 383 1~41 1079.1 98.2 384 1~42 1~8~.1 94.7 385 1~42 1081.i 121 386 1~43 1082.1 91.6: 387 1~43 1083.t 1~2 388 1644 1~84.1 9{.6 389 1~44 1~85.~ 113 39~ 1~45 1~86.1 134 391 1~45 1~87.1 1~4 392 1~46 1~88.1 98.6 393 lf47 1089.1 77.2 394 1~47 1~90.1 1~8 395 1648 lfgl.1 81.3 396 1049 lf92.1 75.1 397 1~50 1~93.1 86.8 398 i~50 1~94.1 77.6 399 1~51 1~95.1 lfl 4~ 1~51 1~96.1 117 4fl 1~52 1~97.1 249 402 1~52 1~98.1 143 4~3 1~53 1~99.1 12~ 494 i653 116~.i 151 4~5 i~52 11~1.i 182 466 1~53 1102.1 18~ 4~7 1~54 11~3.1 81.5 4~8 1655 11~4.t 2~4I 469 1655 11~5.1 252t 41~ 1133 1196.4 179I 411 1134 11~7.4 241I 412 1134 1168.4 259I 413 1134 i169.4 3~4I 1414 1124 1116.5 333 415 1135 1112.1 141 416 1135 1113.4 311 417 1135 1114.5 268' 418 1135 1115.7 283 419 1136 1116.8 311 426 1136 1118.4 238 421 1136 1119.4 293 422 1127 1121.7 376 422 1137 1i22.5 3~9. + ~ 0 9 113 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 5 ~ 2 ~ 2 1 2 ~ 2 5 155 2 2 2 2 2 2 4 15 348 4&l 29C 312 3~4 345 292 228 173 11.5 1936t 172 iD.6 158~I 172 11.4 195~t msi. 127 4.~8 162~ 127 4.45 168~ 127 3.iS 176~ 127 3.87 161~ 127 3.78 155~ 127 4.16 161~ 127 3.3~ 1590 127 4.48 165~ 127 3.6G 153~ 127 3.56 175~ 127 3.58 161~ 127 3.55 165~ 127 4.13 158~ 127 4.~6 1550 127 4.08 174~ 127 4.57 151~ 127 4.~ 1760 127 3.89 159~ 126 4.46 162~ 127 3.64 143~ 127 3.63 167~ 127 3.96 176~ 127 4.45 166~ 127 4.~5 175~ 127 3.71 156~ 127 3.8f 1676 127 4.9g 143~ i26 4.44 16~ 127 3.44 1716 127 2.25 1610 125 1.29 17~ 125 2.5~ 154~ 126 4.50 14901 126 4.1L 152f 126 3.5~ 153~ 125 2.5~ 1530 124 1.63 167~ 124 1.87 155~ 125 2.4~ 1540 125 2.25 165~ 144 2.56 153~ 168 1.16 i4~0 168 2.47 159~ 169 3.26 167~ 36.g 9.1~ 9.10 516 518 85.1 82.2 36.~ 9.i~ 9.1~ 516 517 85.1 82.2 i~.~ 9.1G 9.i6 516 516 85.1 82.3 1~.0 9.16 9.1f 507 5~8 86.2 82.8 16.0 9.16 9.10 5~7 5~7 86.2 83.0 1~.~ 9.10 9.10 508 5~8 86.2 83.3 16.~ 9.16 9.16 5f7 5~9 8b.2 83.4 15.~ 9.i~ 9.i6 5~8 506 86.2 83.6 15.~ 9.1~ 9.10 508 512 86.2 83.6 15.~ 9.1~ 9.10 5~8 509 86.3 83.6 15.~ 9.i~ 9.1~ 508 5~9 86.4 83.7 15.~ 9.1~ 9.i~ 508 507 86.4 83.7 15.0 9.1~ 9.10 5~8 5~7 86.4 83.7 15.0 9.10 9.10 509 508 86.4 83.8 15.g 9.10 9.10 569 508 86.4 83.7 15.0 9.10 9.16 508 508 86.4 83.9 15.6 9.10 9.1~ 5~8 507 86.4 84.1 15.~ 9.16 9.10 508 507 86.4 84.1 15.0 9.1~ 9.10 5~8 5~7 86.4 84.2 15.0 9.16 9.i~ 508 506 86.4 84.0 15.~ 9.10 9.1~ 508 5~7 86.4 83.8 15.0 9.10 9.1~ 504 507 86.5 83.8 25.0 9.10 9.10 5~7 506 86.5 83.8 25.0 9.1~ 9.1~ 507 506 86.5 83.8 25.0 5.1~ 9.1~ 507 5~6 86.5 83.9 25.~ 9.10 9.1~ 5~8 565 86.5 83.9 25.g 9.i6 9.10 509 5~5 86.5 84.1 27.5 9.1~ 9.1f 509 5~5 86.5 84.3 27.5 9.1~ 9.i~ 509 506 86.5 84.3 27.5 9.10 9.16 506 5~6 86.5 84.4 27.5 9.10 9.i~ 505 503 86.5 84.4 27.5 9.1~ 9.16 506 563 86.5 84.4 20.6 9.i6 9.10 507 503 86.5 84.4 20.0 9.1~ 9.1~ 5~0 478 86.9 84.~ 26.~ 9.1~ 9.10 500 482 86.9 84.6 20.g 9.10 9.10 501 488 86.9 84.6 2~.0 9.1~ 9.1~ 562 491 86.9 84.6 25.6 9.16 9.16 562 493 86.9 84.6 25.0 9.1~ 9.16 498 5~0 86.9 84.4 25.~ 9.10 9.10 496 501 86.9 84.4 25.~ 9.~' 9.1~ 496 561 86.9 84.4 28.~ 9.1~ 9.1~ 498 5~2 86.9 84.4 28.~ 9.1~ 9.1~ 500 564 86.9 84.4 2E.~ 9.10 9.16 5~2 5~4 86.9 84.4 28.6 9.1~ 9.i~ 5~3 5~5 86.9 ~4.4 25.~ 9.1~ S.l~ 5e5 507 8~.9 84.2 29.~ 9.1£ 9.1~ 595 5~7 86.5 84.2 766[ 169 4.9 205.~ 1073.0} .78 766 170 4.9 2~5.0 1073.9 .78 766 171 4.9 205.6 i~75.6 .81 733 733 733 733 73~ 73~ 731 730 730 729 729 730 736 729 73~ 73~ 729 729 729 729 728 728 729 73~ 729 729 729 729 728 722 722 722 722 723 722 72~ 715 720 722 7121 + 172 5.9 205.9 1076.0 173 5.9 2~5.9 1077.1 174 5.9 2~5.9 1078.1 175 5.9 2~5.9 1079.1 176 5.9 205.9 108~.i 177 5.9 2~5.9 1~81.i 178 5.9 2~5.9 1~82.1 179 6.0 205.9 1~83.i 180 6.~ 2~5.9 1084.1 181 6.~ 205.9 1~5.6 182 6.~ 205.9 1086.1 183 6.~ 205.9 i~87.1 184 6.~ 2~5.9 1~88.1 185 6.~ 205.9 1~89.1 186 6.0 205.9 1~83.1 187 6.0 205.9 1084.1 188 6.0 2~5.9 1085.~ 189 6.1 265.9 i~86.0 190 6.1 2~5.9 1686.9 191 6.1 2~5.9 1087.9 192 6.1 2~5.9 1088.8i 193 6.1 205.9 1~89.7i 194 6.1 2~5.9 109~.7 195 6.1 205.9 i~91.7 196 6.1 205.9 1092.6 197 6.1 2f5.9 1093.6 198 6.1 205.9 1094.5 199 6.1 2~5.9 1~95.5 2~ 6.1 2~5.9 1096.4 2~1 6.1 2~5.9 1097.4 2~3 6.7 2~5.5 1~98.6 204 6.7 2~5.5 1~99.6 205 6.7 205.5 1100.5 206 6.7 265.5 11~1.4 207 6.7 205.5 1162.5 208 6.7 2~5.5 1164.0 21~ 6.7 205.6 11~5.2 211 6.7 2~5.5 1196.2 212 6.7 2~5.5 1107.4 213 6.7 265.5 11~8.5 215 6.7 2~5.6 1169.9 216 6.7 2~5.5 Ili~.~ 215 6.7 2~5.5 ii12.~ 22~ 6.7 2~5.4 1114.6 .77 .76 .79 .76 .76 .73 .74 .77 .76 .72 .69 .73 .76 .8~ .74 .81 .80 .77 .81 .74 .71 .59 .70 .7~ .67 .64 .67 .80 .61 .54 .54 .56 .60 .56 .53 .64 .44 .51 .52 .56 .58 .56 .52 .54 9.43 9.19 9.45 9.19 9.45 9.19 9.29 9.19 9.29 9.19 9.3~ 9.19 9.30 9.19 9.30 9.19 9.31 9.19 9.31 9.19 9.32 9.19 9.32 9.19 9.33 9.19 9.34 5.16 9. ~4 9.16 9.35 9.16 9.36 9.16 9.36 9.16 9.37 9.16 9.37 9.16 9.38 9.16 9.38 9.16 9.38 9.16 ~.39 9.16 9.39 9,22 9.40 9.17 9.4~ 9.13 9.41 9.11 9.41 9.12 9.42 9.11 9.43 9.11 9.42 9.14 9.42 9.i4 9.26 9.14 9.27 9.14 9.27 9.19 9.28 9.19 9.28 9.19 9.36 9.19 9.31 9.19 9.~2 9.i9 9.~4 5.i9 ~.i~ 5.19 iD D D D D D D D D D D D D D D D D D D D D D D + MCC ~BUS M26 RELIEF WELL ~.1 F~ TIME DEFIH ROP ft 424 1137 1124.8 36~ 1425 1137 1126.7 373 426 1138 1127.6 66.4 427 1138 1128.5 156 428 1139 1129.6 222 429 1139 1130.5 215 430 1139 1131.5 263 431 1145 1122.6 162 432 i14W 1133.5 20~ 433 1140 1134.5 291 434 1140 1135.6 287 435 1141 1136.5 50.7 436 1142 1137.6 222 437 1218 1139.4 21~ 438 1218 1140.5 250 439 1219 1141.5 121 440 1220 1142.5 77.3 441 1221 1143.6 48.4 442 1224 1144.7 21.7 443 1225 1145.8 65.6 444 1226 1146.9 37.2 445 1228 1147.8 41.9 446 1229 1148.9 48.5i 447 1230 1149.9 39.61 448 1232 1150.8 42.5! 449 1233 1152.~ 42.21 450 1235 1153.~ 43.7: 451 1236 1154.~ 45.2 452 1237 1155.2 58.6 453 1235 1156.2 45.6 454 1239 1157.2 59.0 455 1246 1158.2 48.4 456 1241 1159.2 52.1 457 1243 1160.2 41.8 458 1244 1161.2 50.8 459 1245 1162.4 74.9 460 1246 1163.4 63.4 461 1247 1164.4 53.1 462 1248 1165.4 54.1 463 1249 1166.6 71.6 464 1249 1167.6 83.0 465 1256 1168.6 85.7 466 1251 1169.5 79.3 467 1252 117~.6 61.5 Circulate bottoms u 469 1227 1171.2 41.9 47D 1335 1173.1 22.1 1471 1336 1174.i 61.9 + Data Prlnte~ at t~me 16:24 Data Recor~ea at time 11:37' Date Jul 29 '88 Date Jun 21 'Sb TOROUE RPM WGB PUMP AVG ~IAX A%YS AVG PRES 271 309 169 1.42 17~0 286 296 169 2.96 165~ 19 22~ 152 .35 1590 2 2 126 2.05 160~ 2 2 126 2.~8 1586 2 2 126 1.90 1540 2 2 126 2.49 1760: 13 165 126 3.4~ 147W 2 2 126 1.26 1510 T.GAS MD lb/gal unit 1N OUT 29.~' 9.1D 9.16 34.6 9.1~ 9.1~ 34.6 9.1~ 9.16 34.~ 9.1~ 9.1~ 34.~ 9.1~ 9.1~ 33.~ 9.1~ 9.10 33.~ 9.10 9.16 33.W 9.10 9.i~ 33.~ 9.1~ 9.1~ FLGW/MIN TEMP IN OUT IN OUT 505 567 86.9 84.2 566 5~7 86.9 84.3 504 5~7 86.9 84.2 502 506 86.9 84.2 502 565 86.9 84.4 563 505 86.9 84.4 504 5~4 86.9 84,4 503 503 86.9 84.6 5~)3 562 ~6.9 84.6 PVT 722 722 722 723 722 721 722 722 722 --THIS BIR- ...... ~AqLR ~t hr DEPI'H 221 6.7 205.4 223 6.7 224 6.7 265.4 225 6.~ 205.4 226 6.8 205.4 227 6.8 205.4 225 6.8 265.4 229 6.~ 205.4 23~ 6.8 2~5.4 --TVD-- DEt~IH 11i6.~ 1117.7 1118.6 1119.4 1120.4 1121.4 1122.3 1123.3 1124.1 2 2 126 1.~9 i49~. 2 2 126 5.91 20001 1 3 126 4.41 1516 0 2 126 2.56 1450 0 3 131 4.60 1340 0 0 131 2.60 1550 0 0 132 3.4~ 1490 ~ 0 137 3.00 1550 0 0 129 2.40 1530 0 ~ 128 3.23 1560 0 0 136 4.22 1530 6 0 127 4.16 1580 0 0 126 4.28 1596 ~ ~ 126 4.51 1550 0 0 126 3.72 151~ 0 0 126 4.20 1666 6 159 126 3.71 157~ ~ 0 126 4.45 1560 -0 0 126 4.43 1670 -0 0 126 4.32 1670 -~ 0 126 4.19 1650 6 ~ 126 4.25 1540 0 0 126 4.18 153~ 0 6 126 4.66 1436 -0 0 126 4.30 1520 143 460 139 3.93 143~ 265 286 150 3.62 1636 267 273 156 3.79 1660 267 286 153 3.47 1550 261 276 153 3.04 1680 259 270 153 3.11 1446 272 278 153 4.1~ 1646 33.0 9.i~ 9.1~ 5.09.109.10 5.0 9.16 9.10 5.0 9.10 9.1C 5.0 9.10 9.1W 4.59.169.10 4.59.109.10 4.59.109.10 4.59.109.10 4.59.109.10 3.~ 9.i~ 9.1~ 3.09.109.10 3.0 9.1~ 9.1~ 3.C 9.10 9.i~ 7.~ 9.10 9.1~ 7.~ 9.i~ 9.1~ 7.~ 9.1~ 9.i~ 12.~ 9.10 9.1D 12.0 9.10 9.16 12.~ 9.1~ 9.16 12.6 9.iC 9.10 12.0 9.1~ 9.1~ 14.0 9.1M 9.10 14.~ 9.10 9.1~ 14.~ 9.16 9.16 i4.~ 9.16 9.1~ 14.6 9.1~ 9.16 15.0 9.16 9.1~ iS.D 9.10 9.16 15.0 9.1~ 9.1~ 15.~ 9.1~ 9.10 15.69.109.10 4.0 9.1~ 9.1~ 273 278 153 4.48 1560 266 273 153 4.59 1580 267 272 153 3.97 1660 a~te~ tlow check at 1170.9'. 125 273 143 3.94 16UZI 4.~ 9.1~ 9.10 -2 ~ 152 5.22 2C3~I 4.D 9.16 9.iW -2 -2 154 4.62 225~ 5~3 5~2 86.9 84.7 502 562 86.9 84.7 502 501 87.0 84.7 503 561 87.1 84.7 524 520 87.1 84.2 524 522 87.1 84.2 534 527 87.1 84.2 542 530 87.1 84.2 509 534 87.1 84.2 519 531 87.1 84.9 516 529 87.1 85.2 505 526 87.1 85.5 504 524 87.1 85.6 504 524 87.2 85.8 5~4 523 87.3 85.8 503 522 87.3 85.7 564 526 87.3 85.7 503 519 87.3 85.5 5~5 526 87.4 85.2 563 52~ 87.4 84.9 5~4 520 87.4 83.9 564 522 87.4 85.~ 5W5 522 87.4 84.9 5~5 524 87.4 84.6 5~5 526 87.6 84.4 5~6 525 87.6 84.9 5~6 525 87.6 85.2 508 526 87.6 85.5 567 525 87.6 85.8 507 524 87.6 85.8 507 524 87.6 85.8 506 523 87.6 85.7 507 523 87.6 85.7 5~8 524 87.6 85.6 507 523 ~7.6 85.5 722 723 723 722 708 71~ 769 709 706 705 7~7 705 706; 705 705 706 705 7~P 705 705 7~5 ]05 7~5 705 7~5 705 7~5 704 706 706 7D7 7~6 768 709 769 231 6.8 205.4 232 6.8 205.4 233 6.8 265.4 234 6.8 205.4 236 7.3 2~4.5 237 7.3 204.5 238 7.3 2~4.5 239 7.3 204.5 240 7.3 2~4.4 241 7.3 264.3 242 7.4 264.2 243 7.4 2~4.1 244 7.4 264.2 245 7.4 204.1 246 7.5 204.1 247 7.5 2~4.2 248 7.5 204.~ 249 7.5 204.~ 25~ 7.6 2~4.0 251 7.6 203.~ 252 7.6 2~3.8 253 7.6 2~3.8 254 7.6 203.8 255 7.6 263.6 256 7.7 2~3.8 257 7.7 2~3.$ 259 7.7 2~3.6 260 7.7 2~3.6 261 7.7 203.6 262 7.8 263.6 263 7.~ 2~3.4 264 7.8 203.4 265 7.8 203.4 266 7.8 203.5 267 7.8 263.4 5~4 5~6 ~7.4 $5.~ 7271 2~ 1125.1 1126.1 1127.0 1128.~ 1129.7 1130.6 1131.6 1132.5 1133.6 1134.6 1135.6 1136.6 1137.5 1138.5 1139.4 1140.3 1141.4 1142.3 1143.3 1144.4 1145.2 1146.2 1147.2 1148.1 1149.~ 1149.9 1151.6 i152.~ 1152.9 1153.8 1154.9 1155.si 1156.81 1157.6 1158.6 DXC BCD NXMD .49 9.38 9.19 .Sa 9.38 9.19 .60 9.40 9.23 .60 9.40 9.27 .54 9.40 9.27 .54 9.42 9.27 .53 9.42 9.27 .64 9.44 9.27 .52 9.44 9.27 .49 9.44 9.27 .60 9.44 9.31 .88 9.4~ 9.31 .56 9.40 9.31 .63 9.36 9.33 .56 9.3~ 9.33 .71 9.31 9.33 .77 9.32 9.33 .81 9.31 9.33 .98 9.32 9.33 .84 9.32 9.33 .93 9.33 9.33 .91 9.33 9.33 .90 9.33 9.33 .9~ 9.34 9.33 .91 9.35 9.33 .89 9.35 9.33 .91 9.34 9.33 .91 9.34 9.33 .86 9.34 9.33 .9~ 9.35 9.33 .85 9.34 9.33 .89 9.33 9.33 .89 9.33 9.33 .92 9.34 9.33 .88 9.34 9.33 .82 9.34 9.33 .85 9.35 9.33 .87 9.35 9.~3 .85 9.26 9.33 .~1 9.36 9.33 .82 9.37 9.33 .83 9.37 9.33 .84 9.55 9.35 .87 9.2~ 9.22 611 577 87.6 65.8 ~97I 269 615 579 87.6 86.~ 8.5 2g2.2 1159.z! .93 kbl.9 116~.9! i.~4 26i.5 iitl.9I .5~ + D D D D D D D D D D + ~ ft it/n~t + TOR6UE RPM AVG Y~X AVG 472 1337 1175.1 59.01 -2 473 1328 1176.1 66.1 474 1339 1177.2 72.8 475 1346 1178.2 64.4 476 1341 1179.3 67.2i 47'7 1342 1i8~.2 51.6i 478 1343 1181.3 62.11 479 1344 1182.3 60.6~ 48~ 1345 1183.5 63.8 1 -2 -2 -2 -1 -2 -2 -2 -2 154 47 153 -2 153 -2 153 -2 154 31 154 11 154 -2 152 -2 153 481 1347 1184.4 27.5i 482 1402 1186.1 27.3. . MUa loss due to leak 484 1462 1187.2 65.6 485 1403 1188.3 60.~ 486 1405 1189.3 53.7 487 1466 1196.3 42.3 488 1407 1191.5 54.8 489 1408 1192.5 65.7 490 1409 1193.5 80.4 491 1416 1194.6 73.5 492 1410 1195.7 59.8 493 1412 1196.7 56.3 494 1413 1197.7 59.1 495 1414 1198.8 43.5 -2 -2 152 -1 0 132 in mud pits. 0 126 0 126 0 126 0 126 2 50 126 6 0 126 6 0 126 0 126 0 126 0 126 0 126 0 126 · Circulate bottoms up at 1204 feet 497 1511 12~0.6 66.4I 0 0 125 498 1512 1261.4 88.8, -6 ~ 126 499 1513 1262.4 61.~, 6 0126 564 1518 12¢6.8 62.4 ~OB PUMPt T.GAS ND lb/gal A~G PRESI unit IN OUT f'LO~/MIN TENP IN OUT IN OUT 4.41 249~I 13.D 9.1~ 9.16 613 4.59 23361 13.6 9.16 9.16 615 4.4~ 212~i 13.~ 9.1~ 9.1~ 616 4.41 2256t 13.6 9.16 9.i~ 613 4.57 22201 13.f 9.10 9.16 616 4.14 2536t 15.~ 9.16 9.16 616 4.54 23601 15.0 9.16 9.16 616 4.67 21861 15.6 9.16 9.i~ 6~6 4.6~ 21961 15.~ 9.i~ 9.1~ 615 3.52 16701 15.6 9.16 9.1~ 589 3.94 16401 26.6 9.i~ 9.16 564 26.0 9.16 9.16 504 26.0 9.10 9.10 503 26.6 9.10 9.10 504 20.6 9.16 9.10 503 20.g 9.10 9.1~ 504 20.0 9.10 9.1~ 503 20.0 9.10 9.16 504 20.6 9.16 9.i~ 504 2o.o 9.16 9.16 504 2~.o 9.16 9.16 504 2g.o 9.16 9.1~ 505 26.o 9.1~ 9.10 504 possible casing point. 16.6 9.16 9.16 561 16.6 9.1~ 9.16 564 16.6 9.1~ 9.16 505 16.0 9.16 9.10 503 5.0 9.1~ 9.1~ 505 5.~ 9.16 9.16 505 4.87 1480 4.29 1750 4.82 1586 4.22 1560 3.27 1520 4.25 1510 4.45 1566 4.85 1616 4.24 1580 4.58 1576 4.77 1650 3.76 162W RKB MSL for 5.16 1690 6.f3 1716 5.49 1566 6.31 1630 5.80 1746 5.81 1670 586 87.6 86.~ 586 87.7 85.8 577 87.8 85.8 577 87.8 85.~ 577 87.8 85.8 577 87.8 85.8 576 87.9 85.6 577 87.9 85.6 575 88.~ 85.5 565 88.6 85.7 5~4 87.8 87.~ 504 87.8 86.9 5¢2 87.8 87.1 500 87.9 87.t 501 88.6 87.1 502 88.0 87.1 501 88.0 87.2 500 88.0 87.2 562 88.g 87.1 503 88.6 87.1 502 88.6 87.~ 502 88.1 86.9 500 88.2 86.8 518 88.5 87.1 515 88.4 87.1 514 88.4 87.1 513 88.3 87.1 512 88.3 87.3 512 88.3 87.2 _PVT 685 678 676 674 667 660 658 652 646 637 646 644 646 647 648 6461 646I 647I 649I 649 646 647i 6471 689 692 693 694 694 697 Data Printec at time 16:28 Data Recorce~ at time 13:37 --THIS BI~-- ...... WATER tt hr DEPTH 271 8.5 201.9 272 8.5 2~1.8 274 8.6 2~1.7 275 8.6 261.7 276 8.6 2~1.7 277 8.6 261.7 278 8.6 201. ~ 279 8.6 2~i.7 286 8.7 2~1.5 281 8.7 201.5 282 8.9 260.8 283 8.9 200.8 285 9.6 266.6 286 9.6 200.7 287 9.0 206.6 288 9.6 200.5 289 9.6 266.5 296 9.6 200.5 291 9.1 260.4 292 9.1 266.3 293 9.1 2~fi.3 294 9.1 200.3 295 9.1 26~.2 --%'VD-- DEPTH 1162.8 1163.8 1164.6 1165.8 1166.7 1167.6 1168.5 1169.4 1176.5 1171.4 1173.~ 1174.~ 117'4.9 1175.9 1176.8 1177.9 1178.8 1179.8 1180.8 1181.8 1182.7 1183.6 1184.6 1185.8 1187.~ 1188.~ 1188.9 1189.9 1190.7 5~5 1555 1268.4 73.5i 506 1556 1210.6 88.61 507 1557 1210.9 55.8; 508 1558 1212.6 77.1, 569 1559 1113.2 92.81 510 1600 1214.2 70.7 511 1660 1215.2 1~0 512 1601 1216.2 1~7 513 16~1 1217.2 146 -0 ~ 126 5.32 1686 -6 0 126 3.37 1560 ~ 2 125 5.6~ 1660 0 0 125 5.24 1580 7 225 125 4.61 1470 0 0 125 4.85 1650 0 6 126 4.12 1506 0 0 125 3.35 1560 0 6 125 3.82 1516 0 0 125 4.23 1590 0 0 126 4.29 1520 5.5 9.16 9.18 563 5.5 9.10 9.16 564 5.5 9.16 9.16 501 16.6 9.16 9.16 502 16.~ 9.16 9.16 500 26.0 9.16 9.10 562 26.6 9.10 9.16 503 26.0 9.16 9.16 499 25.6 9.1~ 9.16 562 25.0 9.10 9.1{3 502 25.~ 9.1~ 9.1~ 502 514 88.3 87.1 698 510 88.2 87.2 702 5~8 87.6 86.5 750 510 87.6 86.6 752 51~ 87.6 86.6 752 569 87.6 86.6 755 509 87.6 86.5 753 508 87.6 86.5 754 509 87.8 86.5 756 507 87.8 86.5 758 5~7 87.8 86.5 756 Circulate bottoms up at 1217' msi prior to short trip. 'RRB ~7R2 cut 313.6 £eet in 11.5 drilling hours. SlK)rt trip ma~e with little or r~ Crag. Un~er-reamec with 1~.5" tool to 1213' m~sl. CirculatcC bottoms up prior to tripping out to running 13.275" casing. Pan 21 ]olnts oi 68 lbs/it K-55 13.275" casing to 1182' msl. 296 16.1 197.7 298 1~.1 197.6 299 1~.i 197.6 300 10.1 197.6 361 16.2 197.6 302 16.2 197.6 1191.8 1192.6 1193.5 1194.9 1195.8 1196.8 ii97.9I iisa.aI 1199.7t 12C6.61 1261.61 3~3 16.2 197.4 303 10.2 197.4 3¢5 16.8 196.~ 366 1~.8 196.6 307 16.8 196.6 308 16.8 195.9 316 10.8 195.8 31~ 10.8 195.8 311 16.9 195.8 312 1~.9 195.S Date Jul 29 '88 Date Jun 21 '88 DXC BiD NXMD .90 9.32 9.33 .96 9.33 9.33 .86 9.34 9.33 .88 9.34 9.33 .88 9.35 9.33 .91 9.36 9.33 .89 9.37 9.33 .9~ 9.38 9.33 .88 9.39 9.33 .98 9.39 9.33 .98 9.37 9.33 .85 9.38 9.33 .85 9.37 9.33 .89 9.37 9.33 .91 9.36 9.33 .82 9.36 9.33 .83 9.35 9.33 .80 9.35 9.33 .83 9.35 9.33 .85 9.35 9.33 .87 9.35 9.33 .87 9.35 9.33 .89 9.35 9.33 .86 9.32 9.33 .84 9.32 9.33 .89 9.33 9.33 .90 9.33 9.33 .90 9.34 9.33 .96 9.35 9.33 .89 9.36 9.33 .81 9.3~ 9.23 .86 9.2~ 9.23 .82 9.26 9.33 .86 9.26 9.33 .83 9.26 9.33 .77 9.2~ 9.33 .79 9.17 9.33 .75 9.28 9.33 .75 9.28 9.33 .TQ 9.i9 9.~9 S- D D D D D D D D D MOC TBUS M26 RELIEF WELL #1 Data Printed at time 07:18 Data Recorded at time 07:00 Date Jul 30 '88 Date Jul 22 '85 I F# TIME DEPTH ROPI TORQUE RPM WOB PUMP t T.GAS MD lb/gal FLOW/MIN TEMP (F) PVTI wTHIS BIT .... - WATER --TVD-- I DXC ft hr DEPTH DEPTH BCD NXMD Ran 21 joints of 68 lbs/ft K-55 13.375" casing to 1182' msl. Cemented the casing with 630 sacks of class "G" c~ment. Drilled c~ment and float collar to 1172' msl. Ran wireline logs: CBL/GR/OCL as well as GCT. Drilled out of the casing shoe at 1182' to 1217' msl. Ran a Pressure Integrity test (PIT) at the shoe with a 14.0 ppg equivalent mud weight (EFg~). RRB #10R2 Smith SDGH 12.25" with 16:16:16 jets in at 1071 feet. Bit #10 run in conjuction with a Nor Track mud motor and a Telleco ~WD directional tool. Cem~t, float collar and shoe were drilled with a conventional BHA. Date Jun 25 '88 5 0257 1219.7 178 6 0257 1220.8 180 7 0257 1221.8 145 8 0358 1222.9 78.1 9 0359 1223.8 72.6 10 0400 1224.8 Ran second PIT 12 0400 1225.8 13 0401 1226.8 14 0402 1227.8 15 0402 1228.0 16 0411 1230.2 17 0412 1231.2 18 0413 1232.2 19 0414 1233.2 20 0414 1234.3 21 0415 1235.3 22 0415 1236.3 23 0416 1237.3 24 0416 1238.3 25 0417 1239.5 26 0418 1240.5 Check for flow 28 0423 1241.7 29 0424 1242.7 30 0425 1243.7 31 0425 1244.7 32 0426 1245.9 33 0427 1246.9 34 0427 1247.9 35 0428 1248.9 36 0428 1249.9 37 0429 1250.9 38 0429 1251.9 39 0430 1252.9 40 0430 1253.9 41 0431 1254.9 42 0431 1255.9 62.3 test 84.3 92.6 80.3 41.4 74.6 72.0 64.9 76.6 125 96.4! 104 100 96.1 85.6 96.0 at 1: 44.5 79.1 91.2 83.0 93.1 109 125 105 104 121 120I 106I 120{ 131{ 73.4~ + 321 353 148 1172 1070 323 338 147 1209 1020 340 362 147 1298 1170 174 346 139 1023 1550 0 0 126 1516 1620 0 0 127 1455 1650 at 1200' T%D msl with an 0 0 127 1465 1660 0 0 128 1355 1640 0 0 127 1383 1720 1 3 128 1121 1660 0 0 123 1213 1500 0 0 124 1276 15601 0 0 125 1221 14801 0 0 123 1202 1610 0 0 123 1120 1490 0 0 124 1215 1650 0 0 125 1111 1540 0 0 125 990 1470 0 0 124 1189 1630 0 0 125 1121 1480 0 0 124 1175 1550 !40.7' msl (negative). 0 3 116 1121 1490 0 0 122 1119 1610 0 0 124 1272 1660 0 0 123 1274 1570 0 0 123 1239 1650 0 0 123 1462 1590 0 0 125 1445 1610 0 0 125 1552 1600 0 0 124 1494 1500 0 0 121 1471 1570 0 0 123 1448 1580 0 0 125 1507 1570 0 0 125 1377 1600. 0 0 125 1471 1500 0 0 120 1247 1620 16.0 9.10 9.10 411 411 73.6 62.6 8301 2.7 22.0 9.10 9.10 411 411 73.6 66.5 8301 3.8 22.0 9.10 9.10 411 410 73.6 66.5 8291 4.8 22.0 9.10 9.10 500 504 73.7 67.1 829! 5.9 22.0 9.10 9.10 505 508 73.7 67.1 8281 6.8 22.0 9.10 9.10 508 507 73.6 67.1 8301 7.8 equivalent mud weight of 14.0 ppg. 40.0 9.10 9.10 510 510 73.6 67.1 829 40.0 9.10 9.10 512 509 73.6 67.1 831 40.0 9.10 9.10 510 511 73.6 67.1 831 40.0 9.10 9.10 467 405 73.6 67.1 832 53.0 9.10 9.10 495 490 73.8 67.1 833 53.0 9.10 9.10 498 497 73.8 67.1 833 53.0 9.10 9.10 498 500 73.8 67.1 830 53.0 9.10 9.10 494 496 73.8 67.1 831 53.0 9.10 9.10 493 498 73.8 67.1 $30i 25.0 9.1~ 9.10 497 498 73.8 67.1 830i 25.0 9.10 9.10 500 498 73.8 67.1 · 831 25.0 9.10 9.10 499 499 73.8 67.1 831 25.0 9.10 9.10 498 495 73.9 67.1 832 25.0 9.10 9.10 500 496 73.9 67.1 832 41.0 9.10 9.10 495 497 73.9 67.1 832 41.0 9.10 9.10 452 473 74.0 67.0 835 41.0 9.10 9.10 490 495 74.1 66.9 835 41.0 9.10 9.10 497 498 74.1 66.9 833 35.0 9.10 9.10 490 489 74.1 66.9 833 35.0 9.10 9.10 491 496 74.1 66.9 834 35.0 9.10 9.10 494 499 74.1 66.9 832 35.0 9.10 9.10 498 500 74.1 66.9 829 35.0 9.10 9.10 500 498 74.2 66.9 830 35.0 9.10 9.10 494 496 74.3 66.9 829 30.0 9.10 9.10 486 490 74.3 66.9 829 30.0 9.10 9.10 493 489 74.3 66.9 829 30.0 9.10 9.1~ 499 487 74.3 66.9 831 30.0 9.10 9.10 501 486 74.3 66.9 831 30.0 9.10 9.10 500 486 74.3 66.8 832 60.0 9.10 9.10 483 482 74.5 66.8 832 8.8 9.8 10.8 11.0 13.2 14.2 15.2 16.2 17.3 18.3 19.3 20.3 21.3 22.5 23.5 24.7 25.7 26.7 27.7 28.9 29.9 30.9 31.9 32.9 33.9 34.9 35.9 36.9 37.9 38.9 2.2 2.2 2.2 3.2 3.2 3.3 3.3 3.3 3.3 3.3 3.4 3.4 3.4 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.6 3.6 3.6 3.6 3.7 3.7 3.7 3.7 3.7 3.7 3.7 3.7 3.7 3.7 3.7 208.2 208.2 208.2 206.2 206.2 206.2 206.2 206.2 206.2 206.2 205.8 205.8 205.8 205.8 205.7 205.7 205.7 205.7 205.7 205.5 205.5 205.3 205.3 205.3 205.3 205.1 205.1 205.1 205.1 205.1 205.1 205.1 205.1 205.1 205.1 205.1 1203.9 1204.8 1205.8 1206.8 1207.6 1208.5 1209.4 1210.3 1211.3 1211.5 1213.4 1214.4 1215.31 1216.2~ 1217.2 1218.1 1219.0: 1219.9 1220.8 1221.9 1222.8 1223.9 1224.8 1225.7 1226.7 1227.7 1228.6 1229.5 1230.5 1231.4 1232.3 1234.9t 1235.91 .77 .77 .83 .88 .95 .98 .92 .88 .91 1.00 .90 .92 .93 .89 .79 .85 .82 .81 .85 .86 .85 .97 .87 .87 .89 .86 .86 .83 .88 .87 .83 .84 .87 .83 .82 .90 9.22 9.29 9.23 9.29 9.24 9.29 9.38 9.29 9.38 9.29 9.38 9.29 9.38 9.29 9.37 9.29 9.38 9.29 9.38 9.29 9.34 9.29 9.34 9.29 9.34 9.29 9.34 9.29 9.35 9.29 9.35 9.29 9.35 9.29 9.35 9.29 9.36 9.29 9.36 9.29 9.36 9.29 9.34 9.29 9.36 9.29 9.37 9.29 9.37 9.29 9.37 9.29 9.37 9.29 9.37 9.29 9.37 9.29 9.37 9.29 9.38 9.29 9.38 9.29 9.38 9.29 9.38 9.29 9.38 9.29 9.59 9.£5 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D MCC TBU$ M26 RELIEF WELL #1 IF# TIME DEPTH ROP it ft/hr + 43 0432 1257.0 122 44 0433 1258.0 99.8 45 0433 1259.0 1~6 46 0434 1260.0 110 47 0434 1261.0 115 48 0435 1262.2 126 49 0505 1264.6 64.4 50 0506 1265.7 126 51 0506 1266.8 185 52 0506 1267.8 130 53 0507 1268.8 78.2 54 0508 1269.8 69.3 55 0510 1270.9 32.1 56 0510 1272.0 143 57 0510 1273.0 191 58 0511 1273.9 210 59 0511 1274.9 229 60 0511 1276.0 224 61 0511 1277.0 195 62 0512 1278.0 203' 63 0512 1279.0 200 64 0512 1280.0 136 65 0514 1281.1 29.4 66 0516 1282.3 50.7 67 0517 1283.3 43.9 68 0518 1284.3 7.8.3 69 0519 1285.3 38.7 70 0520 1286.5 49.5 71 0522 1287.7 42.5 72 0523 1288.7 68.5 73 0523 1289.7 88.3 74 0524 1290.7 88.1 75 0525 1291.7 81.1 76 0525 1292.7 94.6 77 0526 1293.7 84.4 78 0527 1294.8 106 79 0527 1295.8 121 80 0527 1296.8 161 81 ~528 1297.8 145 82 0603 1298.9 80.1 83 0604 1300.0 71.1 84 0605 1301.0 118 85 0605 1302.0 105 86 0606 1303.1 78.3 87 0607 1304.0 72.4 88 0608 1305.2 71.8 89 0608 1306.2 93.51 90 0609 1307.2 66.4 Data Printed at time 07:23 Data Recorded at time 04: 3,2 Date Jul 30 '88 Date Jun 25 '88 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 0 0 122 1483 1640 0 0 125 1458 1530 0 0 126 1451 1350 0 0 126 153~ 1720 0 0 127 1564 1600 0 0 128 1310 1480 0 2 125 972 1480 0 0 123 1079 1620 0 0 124 1147 1560 0 0 125 966 1520 0 0 125 993 1450 0 0 122 935 1610 200 492 131 979 1570 327 372 137 858 1670 357 377 138 914 1600 318 362 138 851 1650 292 304 139 860 1560 316 345 138 821 1590 321 356 138 724 1430 353 375 137 843 1650 359 388 137 1177 1570 309 332 137 893 1550 218 333 134 795 1510 0 0 125 1140 1620 0 0 124 1175 1510 0 0 124 1341 1640 0 0 124 1440 16901 0 0 126 1387 1560 0 0 123 1567 1650, 0 0 125 1714 1640 0 0 125 1704 1620 0 0 125 1511 1500 0 0 125 1720 1580 0 0 126 1786 1720 0 0 126 1838 1620 0 0 125 1691 1400 0 0 126 1639 1620 0 0 126 1559 1520 0 0 126 1501 1590 0 170 127 1329 1550 0 0 126 978 1620 0 0 126 1289 1440 0 0 126 1585 1720 0 0 128 1629 1700 0 0 127 1244 1510 0 0 125 1278 1580 ~ 0 115 1548 1510 ~ 2 127 1190 1560 T.GA$ MD lb/gal unit IN OUT --THIS BIT- ...... WATER --TVD-- ft hr DEPTH DEPTH 60.0 9.10 9.10 FLOW/MIN TEMP (F) PVT IN OUT IN OUT 489 485 74.5 66.7 832 60.0 9.10 9.10 502 489 74.5 66.7 832 60.0 9.10 9.10 505 491 74.5 66.7 832 120.0 9.10 9.10 502 493 74.5 66.8 832 120.0 9.10 9.10 508 493 74.5 66.7 832 120.0 9.10 9.10 512 494 74.6 66.7 832 120.0 9.10 9.10 493 500 75.6 66.0 832 80.~ 9.10 9.10 492 503 75.6 65.8 833 80.0 9.10 9.10 497 504 75.6 65.8 833 80.0 9.10 9.10 501 504 75.6 65.8 831 80.0 9.1~ 9.10 497 503 75.7 65.8 827 80.0 9.10 9.10 486 504 75.7 65.8 828 52.0 9.10 9.10 499 500 75.7 65.8 828 52.0 9.10 9.10 502 499 75.7 65.8 829 52.0 9.10 9.10 504 500 75.7 65.8 829 52.0 9.10 9.10 505 500 75.7 65.8 829 52.0 9.10 9.10 506 500 75.7 65.8 829 48.0 9.10 9.10 505 501 75.7 65.8 829 48.0 9.10 9.10 505 501 75.7 65.8 829 48.0 9.10 9.10 505 502 75.7 65.8 829 48.0 9.10 9.10 503 502 75.9 65.8 829 106.0 9.10 9.10 500 503 75.9 65.8 829 106.0 9.10 9.10 489 500 75.9 65.8 831 106.0 9.10 9.10 499 499 75.9 65.8 830 106.0 9.10 9.10 496 500 76.1 65.7 831 106.0 9.10 9.10 496 502 76.1 65.7 830 60.0 9.10 9.10 497 503 76.1 65.7 831 6~.0 9.10 9.10 504 504 76.2 65.7 831 60.0 9.10 9.10 490 493 76.3 65.7 830 60.0 9.10 9.10 502 491 76.3 65.7 8311 60.0 9.10 9.10 498 488 76.3 65.7 830 40.0 9.10 9.10 502 484 76.3 65.7 831 40.0 9.10 9.10 500 480 76.5 65.7 830 40.0 9.10 9.10 504 481 76.5 65.7 830 40.0 9.10 9.10 502 485 76.5 65.7 829 40.0 9.10 9.10 500 490 76.5 65.7 830 80.0 9.10 9.10 502 492 76.5 65.7 830 80.~ 9.10 9.10 504 492 76.5 65.7 830 80.0 9.10 9.10 505 492 76.5 65.7 83~ 80.0 9.10 9.10 506 531 76.8 67.5 847 55.0 9.10 9.10 505 518 77.2 67.6 852 55.0 9.10 9.10 505 512 77.5 67.6 852 55.0 9.10 9.10 505 511 77.5 67.8 852 55.0 9.10 9.1~ 511 514 77.7 67.8 854 55.0 9.10 9.10 507 518' 77.8 67.8 848 70.0 9.10 9.10 497 512 77.9 68.0 845 70.0 9.10 9.10 503 509 77.9 68.~ 848 70.0 9.10 9.10 509 513 78.1 68.1 846 40.0 3.8 205.0 1237.7 41.0 3.8 205.0 1238.6 42.0 3.8 205.0 1239.5 43.0 3.8 205.0 1240.4 44.0 3.8 205.0 1241.3 45.2 3.8 204.8 1242.4 47.6 4.2 203.4 1244.5 48.7 4.2 203.2 1245.6 49.8 4.2 203.2 1246.5 50.8 4.2 203.2 1247.4 51.8 4.2 203.2 1248.3 52.8 4.2 203.2 1249.2 53.9 4.3 203.0 1250.2 55.0 4.3 203.0 1251.1 56.0 4.3 203.0 1252.0 56.9 4.3 203.0 1252.9 57.9 4.3 203.0 1253.8 59.0 4.3 203.0 1254.7 60.0 4.3 203.0 1255.6 61.0 4.3 203.0 1256.4 62.0 4.3 203.0 1257.4 63.0 4.3 202.9 1258.3 64.1 4.3 202.9 1259.2 65.3 4.4 202.7 1260.3 66.3 4.4 202.7 1261.1 67.3 4.4 202.7 1262.1 68.3 4.4 202.6 1263.0 69.5 4.4 202.5 1264.0 70.7 4.5 202.3 1265.0 71.7 4.5 202.3 1266.0 72.7 4.5 202.3 1266.8 73.7 4.5 202.3 1267.7 74.7 4.5 202.3 1268.6 75.7 4.5 202.3 1269.4 76.7 4.5 202.3 1270.3 77.8 4.5 202.2 1271.3 78.8 4.6 202.2 1272.2 79.8 4.6 202.2 1273.0 80.8 4.6 202.2 1273.9 81.9 5.1 20~.1 1274.9 83.0 5.1 199.9 1275.9 84.0 5.1 199.9 1276.7 85.0 5.2 20~.0 1277.6 86.1 5.2 199.9 1278.6 87.~ 5.2 200.0 1279.4 88.2 5.2 199.8 1280.4 89.2 5.2 199.8 1281.21 90.2 5.1 199.6 1282.2, DXC ECD NXMD .83 9.39 9.29 .87 9.40 9.29 .86 9.40 9.29 .86 9.41 9.29 · 86 9.41 9.29 .81 9.41 9.29 .89 9.31 9.29 .78 9.31 9.29 .72 9.31 9.29 .76 9.31 9.29 .86 9.32 9.29 .87 9.31 9.29 1.04 9.31 9.29 .74 9.31 9.29 .70 9.31 9.~9 .67 9.32 9.29 .66 9.32 9.29 .66 9.33 9.29 .67 9.33 9.29 .68 9.33 9.29 .72 9.34 9.29 .76 9.35 9.29 1.01 9.36 9.29 .96 9.37 9.29 .99 9.39 9.29 .91 9.40 9.29 1.06 9.41 9.29 1.00 9.42 9.29 1.06 9.43 9.29 .98 9.44 9.29 .93 9.44 9.29 · 90 9.44 9.29 .94 9.44 9.29 .92 9.44 9.29 .95 9.44 9.29 .89 9.44 9.29 .85 9.45 9.29 .79 9.45 9.29 .80 9.46 9.29 .91 9.33 9.29 .88 9.33 9.29 .83 9.33 9.~9 .89 9.34 9.29 .96 9.34 9.29 .92 9.35 9.29 .92 9.36 9.29 .90 9.56 9.29 .92 9.37 9.29 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D + MOC TBUS M26 RELIEF WELL #1 IF# TIME DEPTH ROP ft ft/hr 91 0610 1308.2 78.2 92 0611 1309.3 82.2 93 0611 1310.4 85.7 94 O612 1311.496.4 95 0613 1312.4 85.6 96 0613 1313.4 87.9 97 0614 1314.4 83.8 98 0615 1315.4 79.2 99 0615 1316.4 80.9~ 100 0616 1317.4 123~ 101 0616 1318.4 120' 102 O617 1319.6 131~ 103 0617 1320.6 1111 104 O618 1321.6 77.8 105 O619 1322.7 84.6 106 0619 1323.7 113 107 0639 1325.9 17.4 108 0640 1327.0 54.3 109 0641 1328.0 69.6 110 0642 1329.1 72.1 111 0642 1330.1 82.9 112 0643 1331.1 74.0 113 0708 1333.5 69.6 114 0708 1334.6 75.1 115 0709 1335.7 86.0 116 0710 1336.8 83.9 1117 0711 1337.9 76.5 118 O711 1338.8 83.8 119 0712 1339.9 78.2 120 0713 1340.9 82.0 121 O713 1341.9 94.8 122 O714 1343.0 100 123 0715 1344.0 61.5 124 0716 1345.0 73.8 125 0716 1346.0 101 126 0717 1347.2 125 127 0717 1348.2 104 128 O718 1349.2 94.8 129 0719 1350.2 81.0 130 0719 1351.2 76.7 131 0720 1352.2 77.5 132 0721 1353.4 62.1 133 0722 1354.4 1481 134 0722 1355.4 135 135 0723 1356.4 108 136 0723 1357.5 119 137 0724 1358.5 102 138 0724 1359.6 106 Data Printed at time 23:37 Data Recoroed at time 06:10 Date Jul 29 '88 Date Jun 25 '88 ~R~E R~ W~ PUMP MAXAM A~ P~S 0 0 127 1413 1530 1 129 125 1535 1580 0 0 127 1362 1650 0 0 127 1519 1600 0 0 128 1587 1600 0 0 125 1485 1650 280 659 160 1132 1520 358 515 180 1365 1760 362 385 183 1160 1700 347 367 180 1061 1590 330 348 180 1085 1550 352 371 181 1125 1830 334 340 183 1283 1780 349 371 183 1167 1870 353 369 184 1222 1670 355 385 183 1324 1850 134 388 151 1542 1670 0 236 128 1333 1600 0 0 126 1193 1470 0 0 126 1320 1680 0 0 127 1579 1640 0 0 128 1407 1650 0 2 128 1308 1780 6 283 128 1038. 1640 0 0 128 1273 1750 0 0 128 1242 1680 0 0 128 1360 1540 0 0 128 1495 1700 0 0 129 1380 1430 0 0 128 1312 1640 0 0 128 1311 1670 0 0 129 1374 1640 0 0 128 1374 1670 0 0 125 1335 1680 0 0 126 1382 1590 0 0 127 1420 1640 0 0 126 1359 1590 0 0 124 1483 1640 0 0 128 1418 1600 0 0 128 1354 1640 0 0 126 1530 1670 127 652 137 1227 1560 336 340 187 1115 1770 335 341 187 1102 1790 331 341 187 1055 1710 332 354 188 985 1620 323 340 188 1013 1450 339 358 187 1176 1650 T.GAS MD lb/gal FLOW/MIN unit IN OUT IN OUT 70.0 9.10 9.10 509 514 70.0 9.10 9.10 501 509 85.0 9.16 9.10 505 508 85.0 9.10 9.10 508 508 85.0 9.10 9.10 509 507 85.0 9.10 9.10 503 505 85.0 9.10 9.10 510 505 70.0 9.10 9.10 511 502 70.0 9.10 9.10 512 500 70.0 9.10 9.10 499 501 70.0'9.10 9.10 501 502 70.0 9.10 9.10 500 502 68.0 9.10 9.10 506 502 TEMP IN OUT 78.1 68.2 78.1 68.2 78.3 68.2 78.3 68.3 78.3 68.4 78.3 68.4 78.4 68.4 78.4 68.4 78.4 68.5 78.5 68.5 78.6 68.5 78'.6 68.5 78.6 68.5 846 847 847 847 848 844 845 846 846 847 846 847 847 --THIS BIT ....... WATER ft hr DEPTH 91.2 5.2 199.8 92.3 5.2 199.7 93.4 5.3 199.6 94.4 5.3 199.6 95.4 5.3 199.6 96.4 5.3 199.6 97.4 5.3 199.6 98.4 5.3 199.6 99.4 5.3 199.6 100 5.3 199.6 101 5.3 199.6 103 5.3 199.4 104 5.4 199.4 DEPTH 1283.0 1284.0 1284e9 1285.8 1286.7 1287.5 1288.4 1289.3 1290.2 1291.0 1291.9 1292.9 1293.8 68.0 9.10 9.10 511 68.0 9.10 9.10 509 68.0 9.10 9.10 510 98.0 9.10 9.10 509 98.0 9.10 9.10 511 98.0 9.10 9.10 503 98.0 9.10 9.10 501 44.0 9.10 9.10 511 44.0 9.10 9.10 511 44.0 9.10 9.10 512 44.0 9.10 9.10 514 18.0 9.10 9.10 514 18.0 9.10 9.10 513 18.0 9.10 9.10 513 18.0 9.10 9.10 513 18.0 9.10 9.10 170.0 9.10 9.10 502 78.6 68.6 506 78.8 68.7 507 78.8 68.7 496 79.5 69.8 497 79.7 69.9 497 79.7 70.0 495 79.7 70.0 498 79.7 70.2 498 79.7 70.2 496 80.4 70.4 499 80.4 70.5 501 80.4 70.5 502 80.4 70.6 501 80.4 70.7 502 80.4 70.7 515 501 80.4 70.7 513 502 80.4 70.9 847 847 848 862 863 864 865 864 864 880 879 876 879 879 878 881 881 105 5.4 199.4 106 5.4 199.3 107 5.4 199.3 109 5.7 198.1 110 5.7 198.0 111 5.7 198.0 112 5.8 197.9 113 5.8 197.9 114 5.8 197.9 116 6.2 196.5 118 6.2 196.3 119 6.2 196.3 120 6.2 196.2 121 6.2 196.1 122 6.2 196.1 123 6.2 196.1 124 6.2 196.1 1294.7 1295.6 1296.5 1298.4 1299.3 1300.2 1301.1 1302.0 1302.8 1304.9 1305.9 1306.8 1307.7 1308.7 1309.5 1310.4 1311.3 170.0 9.10 9.10 513 502 170.0 9.10 9.10 514 501 170.0 9.10 9.10 507 500 70.0 9.10 9.10 500 497 70.0 9.10 9.10 506 498 70.0 9.10 9.10 506 498 70.0 9.10 9.10 497 502 70.0 9.10 9.10 498 502 84.0 9.10 9.10 512 505 84.0 9.10 9.10 513 505 84.0 9.10 9.10 502 505 84.0 9.10 9.10 507 504 84.0 9.10 9.10 511 504 94.0 9.10 9.10 513 503 94.0 9.10 9.10 515 505 94.0 9.10 9.10 515 506 94.0 9.10 9.10 516 506 94.0 9.10 9.10 513 506 80.5 70.9 80.6 71.0 80.6 71.1 80.6 71.1 80.6 71.1 80.6 71.2 80.6 71.2 80.6 71.2 80.6 71.3 80.6 71.4 80.7 71.4 80.8 71.6 80.8 71.6 80.8 71.6 80.8 71.6 80.8 71.6 80.7 71.6 79.7 71.8 880 882 883 883 882i 883' 883~ 886: 888 890 890 890 890 891 891 891 898 907 125 6.3 196.1 126 6.3 196.0 127 6 · 3 196.0 128 6.3 196.0 129 6.3 196.0 130 6.3 195.8 131 6.3 195.8 132 6.3 195.8 133 6.3 195.8 134 6.4 195.8 135 6.4 195.8 136 6.4 195.6 137 6.4 195.6 138 6.4 195.6 139 6.4 195.6 140 6.4 195.5 141 6.4 195.5 143 6.4 195.4 1312.1 1313.0 1313.9 1314.7! 1316.61 1317.5 1318.3 1319.2 1320.0 1320.9 1321.9 1322.7 1323.6 1324.4 1325.4 1326.2 1327.1 DXC ECD NXMD .92 .93 .90 .89 .93 .91 .91 .98 .95 .85 .86 .85 .90 .96 .95 .90 1.31 1.00 .93 .94 .95 .95 .94 .89 .90 .90 .93 .93 .93 .91 .88 .87 .97 .92 .87 .83 .86 .89 .92 .92 .94 .95 .83 .84 .88 .85 .88 .90 9.37 9.38 9.38 9.38 9.39 9.39 9.39 9.39 9.40 9.40 9.40 9.41 9.41 9.42 9.43 9.43 9.21 9.20 9.21 9.22 9.23 9.23 9.26 9.28 9.29 9.29 9.30 9.31 9.32 9.33 9.33 9.34 9.35 9.36 9.36 9.36 9.36 9.37 9.38 9.39 9.40 9.41 9.41 9.42 9.42 9.43 9.43 9.44 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 + D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D MOC TBUS M26 RELIEF WELL #1 IF# TIME DEPTH ROP ft ft/h~. 139 0725 1360.6 140 0725 1361.5 141 0726 1362.5 142 0726 1363.5 143 0727 1364.5 144 0727 1365.6 ~R~E R~ WOB MAXAM 117 343 116 336 116 331 125 352 125 341 125 329 375 187 1165 1710 358 188 1161 1730 362 188 1099 1710 367 188 1345 1640 359 188 1352 1680 345 188 1215 1630 158 341 159 1168 1650 0 0 128 1371 1660 0 74 128 971 1570 0 0 127 1478 1720 0 0 126 1628 1400 0 0 127 1276 1700 0 0 128 1800 1800 0 0 129 1947 1680 2 589 128 1890 1770 377 409 179 1640 1850 343 451 180 843 1770 35 366 141 1118 1630 0 184 126 1595 1530 290 500 172 1068 1620 358 372 183 1115 1600 346 369 185 1086 1660 323 338 185 851 1540 4 299 135 1147 1630 0 0 127 1577 1540 0 0 128 1785 1630 0 0 127 1644 1580 0 0 125 1732 1560 0 0 126 1764 1580 0 42 126 1652 1480 0 0 126 1767 1560 0 0 128 1978 1480 0 0 128 2048 1550 0 0 128 2113 1650 0 0 128 2187 1400 0 0 128 2199 1630 0 0 128 2156 1620 0 0 128 2115 1650 0 0 128 2056 1560 0 0 128 2044 1730 0 0 130 2170 1890 0 61 130 1995 1730 0 0 130 2158 1700 0 0 130 2133 1780 0 0 130 2200 1670 0 0 129 2406 1780 g 0 130 2293 1910 0 0 130 2284 1820 145 0755 1366.9 98.4 146 0755 1367.9 102 147 0756 1369.1 72.2 148 0757 1370.1 75.1 149 0759 1371.1 29.6 150 0800 1372.2 50.0 151 0801 1373.2 100 152 0804 1374.3 22.3 153 0809 1375.4 12.6 154 0810 1376.6 49.9 155 0810 1377.6 116 156 0814 1378.8 31.2 157 0816 1379.8 25.9 158 0819 1380.9 19.0 159 0820 1381.9 137 160 0820 1382.9 120 161 0821 1383.9 120 162 0823 1384.9 23.9 163 0825 1385.9 39.4 164 0825 1387.1 85.4 165 0828 1388.1 23.7 166 0830 1389.2 25.8 167 0832 1390.3 33.4 168 0835 1391.3 21.4 169 0836 1392.4 47.8 170 0837 1393.5 58.2 171 0838 1394.5 64.4 172 0839 1395.4 83.8 173 0839 1396.5 75.6 174 0840 1397.5 71.3 175 0841 1398.5 76.8 176 0842 1399.5 95.3 177 0842 1400.5 98.8 178 0914 1402.1 83.6 179 0915 1403.1 37.1 180 0918 1404.1 23.3 181 0919 1405.0 48.6 182 0921 1406.0 28.8 183 ~923 1407.0 26.4 184 0925 1408.0 28.3 185 0926 1409.0 79.2 186 0927 1410.0 83.8 Data Printed at time 23:41 Date Jul 29 ,88 Data Recorded at time 07:25 Date Jun 25 '88 T.GAS MD lb/gal FLOW/MIN TEMP (F) unit IN OUT IN OUT IN OUT 70.0 9.10 9.10 514 509 79.2 71.8 912; 70.0 9.10 9.10 516 512 79.6 71.8 9121 70.0 9.10 9.10 517 513 79.6 71.8 911: 70.0 9.10 9.10 516 514 79.[ ?1.~ 910 70.0 9.10 9.10 515 512 79.9 72.0 910 23.0 9.10 9.10 515 513 79.9 72.0 908 23.0 9.10 9.10 512 514 80.8 77.5 831 23.0 9.10 9.10 510 511 80.9 77.5 801 23.0 9.10 9.10 513 513 81.0 77.5 782 120.0 9.10 9.10 505 498 81.0 77.5 782 120.0 9.10 9.10 509 509 81.0 77.5 785 120.0 9.10 9.10 509 501 81.0 77.5 786 120.0 9.10 9.10 511 507 81.1 77.5 787 120.0 9.10 9.10 516 513 81.1 77.7 790 45.0 9.10 9.10 512 517 81.3 77.9 795 45.0 9.10 9.10 517 517 81.5 78.0 794 45.0 9.10 9.10 518 519 81.5 78.2 795 45.0 9.10 9.10 488 497 81.6 78.1 808 45.0 9.10 9.10 501 512 81.7 78.7 807 50.0 9.10 9.10 508 508 81.7 79.0 810 50.0 9.10 9.10 511 509 81.8 79.2 807 50.0 9.10 9.10 512 509 81.8 79.2 805 50.0 9.10 9.10 509 508 81.9 79.2 805 50.0 9.10 9.10 510 499 81.9 79.2 809 84.0 9.10 9.10 508 498 81.9 79.3 811 84.0 9.10 9.10 510 497 82.0 79.4 813 84.0 9.10 9.10 506 501 82.0 79.5 820 84.0 9.10 9.10 504 500 82.2 79.5 823 76.0 9.10 9.10 503 502 82.2 79.4 824 76.0 9.10 9.10 502 499 82.3 79.5 825 76.0 9.10 9.10 508 499 82.4 79.7 828 76.0 9.10 9.10 511 500 82.4 79.7 828 76.0 9.10 9.10 511 512 82.4 79.7 828 40.0 9.10 9.10 513 500 82.4 79.7 830 40.0 9.10 9.10 514 502 82.5 79.9 831 40.0 9.10 9.10 511 512 82.6 80.0 832 40.0 9.10 9.10 512 512 82.6 80.1 833 40.0 9.10 9.10 513 513 82.6 80.2 831 45.0 9.10 9.10 510 500 82.6 80.2 829 45.0 9.10 9.10 516 524 83.2 80.6 854 45.0 9.10 9.10 518 524 83.3 80.8 855 45.0 9.10 9.10 520 519 83.3 80.8 856 45.0 9.10 9.10 519 519 83.5 81.1 862 45.0 9.10 9.10 521 521 83.5 81.3 863 45.0 9.10 9.10 518 516 83.6 81.3 864 45.0 9.10 9.10 516 516 83.7 81.3 869 45.0 9.10 9.10 519 517 83.7 81.3 868 253.0 9.10 9.10 521 518 83.7 81.3 869 --THIS BIT ...... WATER --TVD-- ft hr DEPTH DEPTH 144 6.4 195.4 1328.0 144 6.4 195.5 1328.7 145 6.5 195.5 1329.6 146 6.5 195.5 1330.4 147 6.5 195.5 1331.2 149 6.5 195.4 1332.21 150 6.9 195.1 1333.3 151 6.9 195.1 1334.1 152 6.9 194.9 1335.1 153 6.9 194.9 1335.9: 154 7.0 194.9 1336.8 155 7.0 194.8 1337.7 156 7.0 194.8 1338.5 157 7.0 194.7 1339.5 158 7.1 194.6 1340.4 160 7.1 194.4 1341.4 161 7.1 194.4 1342.2 162 7.2 194.2 1343.2 163 7.2 194.2 1344.1 164 7.3 194.1 1345.0 165 7.3 194.1 1345.8 166 7.3 194.1 1346.6 167 7.3 194.1 1347.5 168 7.4 194.1 1348.3 169 7.4 194.1 1349.1 17~ 7.4 193.9 1350.1i 171 7.4 193.9 1351.0 172 7.5 193.7 1351.9 173 7.5 193.7 1352.8 174 7.6 193.7 1353.6 175 7.6 193.6 1354.5 176 7.6 193.5 1355.4 177 7.6 193.6 1356.3 178 7.6 193.6 1357.0 179 7.6 193.5 1357.9 180 7.6 193.5 1358.7 181 7.7 193.5 1359.5 182 7.7 193.5 1360.4 184 7.7 193.5 1361.3 185 8.2 192.9 1362.5 186 8.2 192.9 1363.4 187 8.2 192.9 1364.2 188 8.2 193.0 1365.0 189 8.3 193.0 1365.8 190 8.3 193.0 1366.6 191 8.4 193.0 1367.4 192 8.4 193.0 1368.2 193 8.4 193.~ 1369.1 DXC BCD N~MD .88 9.44 9.29 .88 9.44 9.29 · 87 9.45 9.29 .89 9.45 9.29 '89 9.45 9.29 .87 9.46 9.29 .90 9.29 9.29 .87 9.30 9.29 .88 9.30 9,29 · 95 9.30 9.29 1.16 9.30 9.29 1.0~ 9.30 9.29 .93 9.30 9.29 1.27 9.30 9.29 1.39 9.30 9.29 1.13 9.31 9.29 · 83 9.32 9.29 1.08 9.30 9.29 1.18 9.33 9.29 1.21 9.32 9.29 · 85 9.33 9.29 .87 9.33 9.29 · 83 9.34 9.29 1.13 9.35 9.29 1.10 9.30 9.29 · 96 9.31 9.29 1.21 9.31 9.29 1.20 9.31 9.29 1.16 9.30 9.29 1.23 9.30 9.29 1.08 9.31 9.29 1.07 9.31 9.29 1.05 9.32 9.29 1.00 9.32 9.29 1.03 9.32 9.29 1.05 9.32 9.29 1.03 9.32 9.29 · 97 9.32 9.29 .96 9.32 9.29 1.00 9.26 9.29 1.20 9.26 9.29 1.28 9.28 9.29 1.13 9.28 9.29 1.£5 9.29 9.29 1.28 9.29 9.29 1.29 9.29 9.29 1.04 9.50 9.29 1.02 9.51 9.2~ D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D 'D D D D TIME DEPTH ft MOC TBUS M26 RELIEF WELL #1 ROPI TORQ{3E RPM WOB PUMP ft/hrI A~G MAX AVG AVG PRES 187 0931 1411.0 39.1 188 0932 1412.0 162 189 0932 1413.0 225 190 0932 1414.0 225 191 0933 1415.7 203 192 0933 1417.0 229 193 0933 1417.9 181 194 0934 1418.8 276 195 0934 1419.8 250 1960939 1420.8 53.0 197 0939 1421.7 193 198 0940 1422.5 195 199 0940 1423.5 194 200 0940 1424.6 141 201 0941 1425.6 181 202 0941 1426.6 171 203 0941 1427.6 172 204 0942 1428.6 116 205 0943 1429.6 42.2 206 1024 1430.2 19.0 207 1032 1431.7 15.3 208 1037 1432.6 11.2 209 1038 1433.5 87.6 210 1039 1434.4 85.3 211 1039 1435.6 103 212 1042 1436.4 25.4 213 1042 1437.3 73.0 214 1043 1438.4 126 215 1046 1439.1 44.6 216 1047 1440.1 62.4 · Flow check at 1439 218 1048 1441.0 60.0 301 ~82 170 1597 1790 363 387 180 1490 1880 367 379 181 1521 1780 358 375 181 1489 1680 370 393 181 1629 1600 383 405 181 1617 1750 377 400 181 1494 1740 381 385 180 1619 1740 384 398 181 1629 1770 T.GAS MD lb/gal FLOW/MIN unit IN OUT IN OUT 253.0 9.10 9.10 515 525 253.0 9.10 9.10 518 525 253.0 9.10 9.10 519 524 253.0 9.10 9.10 520 523 120.0 9.10 9.10 521 522 120.0 9.10 9.10 521 524 120.0 9.10 9.10 521 523 120.0 9.10 9.10 521 522 120.0 9.10 9.10 521 522 TEMP (F) PVT IN OUT 290 398 173 1215 1760 373 383 177 1630 1840 383 414 178 1695 1670 388 409 179 1730 1810 392 411 178 1665 1830 399 414 179 1614 1850 393 421 179 162I 1780 388 409 179 1746 1800 372 388 179 1701 1830 356 406 181 1843 1690 0 0 129 2394 1670 0 0 128 2555 1740 224 495 159 2118 1870 400 435 180 1867 2050 359 430 181 1103 1650 364 508 179 1058 1570 303 487 169 885 1660 338 375 171 829 1760 339 372 171 827 1690 164 338 152 816 1610 0 0 128 1256 1640 :eet RKB MSL. No flow. 0 0 129 1352 1650 80.0 9.10 9.10 80.0 9.10 9.10 80.0 9.10 9.10 80.0 9.10 9.10 80.0 9.10 9.10 15.0 9.10 9.10 15.0 9.10 9.10 15.0 9.10 9.10 15.0 9.10 9.10 15.0 9.10 9.10 15.0 9.10 9.10 15.0 9.10 9.10 15.0 9.10 9.10 15.0 9.10 9.10 15.0 9.10 9.10 40.0 9.10 9.10 40.0 9.10 9.10 40.0 9.10 9.10 40.0 9.10 9.10 40.0 9.10 9.10 10.0 9.10 9.10 10.0 9.10 9.10 83.8 81.3 869 83.9 81.3 871 83.9 81.3 871 83.9 81.3 869 84.0 81.3 872 84.0 81.3 870 84.0 81.3 873 84.0 81.3 871 84.0 81.3 870 504 508 84.0 80.3 658 508 512 84.0 80.3 644 513 516 84.0 80.4 633 515 516 84.0 80.4 622 516 511 84.0 80.6 617 517 514 84.0 80.6 612 518 517 84.1 80.7 611 518 519 84.1 80.7 608 518 519 84.2 80.8 606 515 517 84.2 80.8 606 514 514 84.9 82.8 605 514 522 85.1 82.2 570 515 515 85.3 81.0 570 516 515 85.3 81.1 567 516 518 85.2 81.2 568 514 519 85.3 81.3 566 507 514 85.3 81.3 567 509 516 85.3 81.5 568 511 517 85.3 81.5 567 487 446 85.5 81.5 573 513 496 85.5 81.6 574 219 1049 1442.1 69.4 220 1050 1442.9 46.2 1221 1052 1443.9 41.4 '222 1053 1444.9 50.3 223 1055 1445.7 39.0 224 1056 1446.7 32.0 225 1058 1447.5 42.5 226 1059 1448.5 64.8 227 1059 1449.5 86.3 228 11~0 1450.5 122 229 1101 1451.5 79.4 230 1101 1452.5 1071 231 1102 1453.4 87.4 232 1102 1454.4 122 233 1103 1455.4 103 234 1108 1455.8 60.2 127 1460 1600 128 1599 1640 128 1665 1630 129 1670 1540 128 1817 1730 129 1887 1670 129 2046 1680 129 2021 1670 129 1846 1750! 128 1842 1570 128 1520 1620 128 1685 1470 128 1718 1710 129 1742 1650 129 1681 169~ 129 1611 1640 515 511 85.5 81.7 574 85.5 81.7 572 85.5 81.9 574 85.5 81.9 575 85.6 82.0 574 85.6 82.2 573 85.7 82.2 574 85.8 82.4 574 85.8 82.6 576 85.9 82.6 576 85.9 82.6 578 86.0 82.8 578 86.0 82.8 579 86.0 82.8 580 86.0 82.8 578 86.0 82.8 579 86.2 82.4 582 Data Printed at tirae 23:44 Data Recorded at time 09:31 10.0 9.10 9.10 510 513 10.0 9.10 9.10 514 514 10.0 9.10 9.10 513 513 10.0 9.10 9.10 515 516 60.0 9.10 9.10 514 516 60.0 9.10 9.10 513 520 60.0 9.10 9.10 515 520 60.0 9.10 9.10 516 521 60.0 9.10 9.10 516 520 90.0 9.10 9.10 512 520 90.0 9.10 9.10 514 522 90.0 9.10 9.10 510 522 90.0 9.10 9.10 513 521 90.0 9.10 9.10 515 521 30.0 9.10 9.10 516 522 30.0 9.10 9.10 519 514 Date Jul 29 '88 Date Jun 25 '85 --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 194 8.5 193.0 1369.9i 195 8.5 193.0 1370.7 196 8.5 193.0 1371.5 197 8.5 193.0 1372.41 199 8.5 193.0 1373.8 200 8.5 193.0 1374.91 201 8.5 193.1 1375.61 202 8.5 193.2 1376.3 203 8.5 193.2 1377.2 204 8.6 193.2 1378.0 205 8.6 193.3 1378.7: 206 8.6 193.4 1379.4, 207 8.6 193.4 1380.3 208 8.6 193.4 1381.1i 209 8.6 193.4 1382.0: 210 8.6 193.3 1382.8 211 8.6 193.4 1383.6 212 8.6 193.4 1384.4 213 8.6 193.3 1385.2 213 9.2 194.7 1385.8 215 9.3 195.3 1387.0 216 9.4 195.4 1387.7 216 9.4 195.5 1388.4 217 9.4 195.4 1389.2 219 9.5 195.4 1390.2 219 9.5 195.6 1390.8 220 9.5 195.6 1391.6 221 9.5 195.6 1392.4 222 9.6 195.8 1393.0 223 9.6 195.9 1393.8 224 9.6 196.0 1394.51 225 9.6 195.9 1395.4I 226 9.6 196.1 1396.1I 227 9.7 196.1 1396.9I 228 9.7 196.1 1397.7I 229 9.7 196.3' 1398.4~ 230 9.7 196.3 1399.2 230 9.8 196.5 1399.8 231 9.8 196.5 1400.6 232 9.8 196.5 1401.4 233 9.8 196.5 1402.2 234 9.8 196.5 1403.1 235 9.8 196.5 1403.9 236 9.8 196.6 1404.6 237 9.8 196.6 1405.4 238 9.8 196.6 1406.2 239 9.9 196.8 1406.6 DXC ~CD NXMD 1.16 9.32 9.29 .86 9.33 9.29 .80 9.33 9.29 .79 9.33 9.29 .83 9.34 9.29 .80 9.34 9.29 .84 9.35 9.29 .76 9.35 9.29 .79 9.35 9.29 1.03 9.35 9.29 .83 9.35 9.29 .84 9.36 9.29 .85 9.37 9.29 .90 9.37 9.29 .85 9.37 9.29 .86 9.37 9.29 .87 9.38 9.29 .95 9.38 9.29 1.18 9.39 9.29 1.38 9.27 9.29 1.45 9.28 9.29 1.50 9.27 9.29 1.04 9.26 9.29 .94 9.26 9.29 .89 9.30 9.29 1.11 9.30 9.29 .90 9.30 9.29 .80 9.31 9.29 .97 9.27 9.29 .95 9.29 9.29 .98 9.31 9.29 .96 9.32 9.29 1.06 9.34 9.29 1.09 9.35 9.29 1.05 9.36 9.29 1.12 9.38 9.29 1.18 9.35 9.29 1.14 9.37 9.29 1.05 9.33 9.29 .96 9.34 9.29 .89 9.35 9.29 .94 9.35 9.29 .90 9.36 9.29 .94 9.37 9.29 .88 9.37 9.29 .90 9.38 9.29 1.D1 9.37 9.29 + D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D MOC TBUS M26 RELIEF WELL #1 IF# TIME DEPTH ROP ft ft/hr + 235 1125 1457.8 74.5 236 1131 1459.0 96.1 237 1135 1459'8 16.5 238 1142 1460.2 8.1 239 1144 1461.1 29.7 240 1145 1462.1 47.0 241 1146 1463.1 74.1 242 1147 1464.0 70.6 243 1148 1464.9 88.4 244 1151 1465.7 36.4 245 1152 1466.8 105 246 1152 1467.8 76.9 ~ Flow check at 1465' 248 1153 1468.6 57.2 249 1154 1469.6 63.9 250 1155 1470.6 76.7 251 1156 1471.4 50.4 252 1157 1472.4 58.3 253 1158 1473.4 61.1 254 1159 1474.4 66.8 255 1200 1475.2 56.0 256 1202 1476.1 39.2 257 1202 1477.2 123 258 1203 1478.2 107 259 1203 1479.0 91.2 260 1204 1480.1 1~2 261 1205 1481.1 93.1 262 1205 1482.1 109 263 1206 1483.1 102 264 1206 1484.1 98.4 265 1207 1484.9 70.7 266 1229 1484.7 65.3 267 1231 1485.5 51.0 268 1249 1485.7 13.0 269 1301 1485.9 36.0 1270 1301 1487.0 143 271 1302 1488.0 96.1 1272 1302 1489.0 121 273 1303 1490.0 112 274 1303 1491.0 81.4 275 1304 1491.8 74.1 276 1305 1492.8 70.7 277 1306 1493.8 67.4 TORQUE RPM WOB PUMP A%X2 MAX A%~2 AVG PRES 0 0 129 1611 0 0 128 661 0 0 127 992 0 0 128 1083 0 0 128 1509 0 0 127 1559 0 128 1434 0 0 129 1264 0 0 128 1201 0 0 123 1099 0 121 1407 0 0 127 1347 RKB MSL. No flow. 0 0 128 1350 0 0 128 0 0 128 0 0 128 0 0 127 0 0 128 0 0 128 0 0 128 127 508 150 318 325 184 313 332 184 320 341 184 308 320 185 307 316 183 306 319 184 307 320 185 308 316 185 285 317 185 285 283 185 0 0 129 0 0 125 0 0 127 0 0 126 0 0 126 0 0 128 0 0 128 0 0 128 0 0 126 0 0 127 0 0 128 Flow check at 1494.3' 279 1330 1494.3 56.3 280 1341 1495.2 50.0 281 1342 1496.2 90.1 282 1342 1497.2 103 1740 1550 1700 1500 1600 1610 1740 1540 1720 1570 1740 1730 Data Printed at time 23:47 Date Jul 29 '88 Data Recorded at time 11:25 Date J~hn 25 '88 T.GAS MD lb/gal unit IN OUT 30.0 9.10 9.10 30.0 9.10 9.10 30.0 9.10 9.10 40.0 9.10 9.10 40.0 9.10 9.10 40.0 9.10 9.10 40.0 9.10 9.10 40.0 9.10 9.10 40.0 9.10 9.10 50.0 9.10 9.10 50.0 9.10 9.10 50.0 9.10 9.10 1470 50.0 1330 1720 50.0 1551 1690 58.0 1413 1550 58.0 1358 1670 58.0 1286 1700 58.0 1404 1730 58.0 1490 1630 60.0 1154 1600 60.0 798 1650 60.0 732 1610i 60.0 895 17001 60.0 688 1540i 250.0 637 1660. 250.0 677 1570~ 250.0 714 1620 250.0 690 1690 250.0 686 1570 250.0 686 1560 250.0 984 1670 72.0 587 1590 72.0 1051 1480 72.0 1343 1760 72.0 1146 1760 72.0 1258 1720 72.0 1316 1660 72.0 1298 1570 72.0 1335 16~ 72.0 1367 1610 72.0 1268 1520 72.0 RKB MSL. No flow. Circulate 0 0 126 987 164~ 72.0 0 0 128 1213 1730 220.0 0 0 127 1259 1640 220.0 0 0 127 1219 1470 220.0 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 9.10 bott(~s up. 9.10 9.10 9.20 9.10 9.20 9.10 9.20 9.10 FLOW/MIN TEMP (F) IN OUT IN OUT 515 515 86.5 82.6 513 513 86.5 81.5 506 520 86.6 81.9 512 524 86.9 82.2 512 520 86.9 82.2 503 521 87.1 82.4 512 520 87.1 82.4 515 520 87.1 82.4 513 519 87.1 82.4 510 451 87.3 82.2 512 441 87.3 82.0 509 488 87.3 82.0 603 595 596 603 603 603 605 605 605 609 609i 608i --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 241 10.2 197.8 1408.1 242 10.2 198.0 1409.1. 243 10.3 198.2 1409.7 243 10.4 198.7 1410.1 244 10.4 198.9 1410.8. 245 10.5 198.9 1411.61 246 10.5 198.9 1412.4 24.7 10.5 199.0 1413.1 248 10.5 199.1 1413.8 249 10.5 199.2 1414.5 250 10.6 199.2 1415.3 251 10.6 199.2 1416.1 DXC HID NXMD .99 9.11 9.29 .77 9.27 9.29 1.16 9.29 9.29 1.329.29 9.29 1.14 9.30 9.29 1.06 9.30 9.29 .95 9.30 9.29 .93 9.31 9.29 .88 9.32 9.29 1.03 9.27 9.29 .86 9.30 9.29 .92 9.32 9.29 511 5~9 87.3 82.2 511 515 87.3 82.2 513 516 87.3 82.3 508 517 87.3 82.4 510 516 87.3 82.4 512 517 87.3 82.6 510 515 87.3 82.6 511 516 87.3 82.6 511 515 87.4 82.6 511 511 87.4 82.6 511 511 87.4 82.6 511 511 87.4 82.6 510 509 87.4 82.6 510 510 87.4 82.6 510 511 87.4 82.7 511 511 87.5 82.6 510 509 87.6 82.6 510 510 87.6 82.6 517 517 87.6 81.9 518 518 87.6 81.~' 510 511 88.0 81.9 509 509 88.2 82.2 504 501 88.2 82.2 507 509 88.3 82.2 510 511 88.3 82.2 510 510 88.3 82.2 511 510 88.3 82.2 506 508 88.3 82.2 510 511 88.3 82.3 510 510 88.3 82.4 509 508 88.9 82.6 511 511 89.1 82.8 508 505 89.1 82.8 509 510 89.1 82.8 607 610 611 613 614 614 616 618 619 620 619 621 621 622 624 623 626 629 644 543 648 651 651 653 651 651 652 652 653 654 671J 672I 672I 673[ 252 10.6 199.4 1416.8 253 10.6 199.4 1417.6 254 10.6 199.4 1418.3 254 10.6 199.6 1419.0 255 10.6 199.6 1419,8 256 10.7 199.6 1420.6 257 10.7 199.6 1421.4 258 10.7 199.8 1422.0 259 10.7 199.8 1422.7 260 10.7 199.8 1423.6 261 10.7 199.8 1424.4 262 10.7 199.9 1425.0 263 10.8 199.9 1425.9 264 10.8 199.9 1426.7 265 10.8 199.9 1427.4 266 10.8 199.9 1428.2 267 10.8 199.9 1429.0 268 10.8 200.1 1429.6 268 11.0 201.3 1429.5 268 11.1 201.5 1430.1 269 11.3 202.5 1430.3 269 11.5 203.0 1430.4 270 11.5 203.0 1431.3 271 11.5 203.0 1432.0 272 11.5 203.0 1432.8 273 11.5 203.0 1433.6 274 11.6 203.0 1434.4 275 11.6 203.2 1435.0 276 11.6 203.2 1435.8 277 11.6 203.2 1436.6 .98 9.32 9.29 .96 9.32 9.29 · 95 9.33 9.29 1.02 9.33 9.29 .98 9.33 9.29 · 96 9.34 9.29 .96 9.34 9.29 1.01 9.34 9.29 1.05 9.34 9.29 .81 9.34 9.29 .82 9.35 9.29 .88 9.35 9.29 .82 9.35 9.29 .83 9.36 9.29 .81 9.36 9.29 .83 9.36 9.29 · 83 9.37 9.29 .89 9.37 9.29 .90 9.35 9.29 .94 9.36 9.29 1.09 9.35 9.29 1.02 9.33 9.29 .8~ 9.34 9.29 · 85 9.34 9.29 .82 9.35 9.29 .84 9.35 9.29 .90 9.35 9.29 .92 9.35 9.29 .94 9.36 9.29 .93 9.36 9.29 277 12.0 204.4 278 12.1 204.8 279 12.1 204.8 280 12.2 204.8 1437.01 .92 9.37 9.29 1437.6t .98 9.38 9.29 1438.41 .87 9.37 9.19 1439.2[ .84 9.34 9.29 D D D D D D D D D D D D D D .D D D D D D D D D D D D D D D D D D D D D D D D D D MOC TBUS M26 RELIEF WELL #1 I F# TIME DEPTH ROP ft ft/hr ~R~E R~ W~ ~MPI AU MAX A~ AU P~Si 283 1343 1498.1 1021 284 1343 1499.1 85.9! 285 1344 1500.0 87.7 286 1345 1500.9 85.8 287 1346 1501.9 76.5 288 1346 1502.9 78.4 289 1347 1503.9 60.8 290 1348 1504.9 88.6 291 1349 1505.9 71.8 292 1350 1506.7 61.9 293 1351 1507.7 70.8 294 1351 1508.2 61.2 295 1351 1510.0 58.3 . Flow check at 1510 RKB 297 1423 1510.0 0.0 298 1439 1510.5 81.9 299 1440 1511.5 57.71 300 1440 1512.5 64. 6 301 1441 1513.5 62.3 3~2 1442 1514.5 76.7 303 1443 1515.5 61.4 304 1444 1516.5 60.7 305 1445 1517.5 77.0 0 306 1445 1518.5 141 0 307 1446 1519.5 69.3 0 308 1447 1520.5 93.5 0 309 1448 1521.5 67.1 0 310 1449 1522.4 60.1 0 311 1449 1523.2 70.7 0 312 1450 1524.3 72.4 0 . Flow check at 1524.5 RKB MSL. 314 1521 1525.2 29.3 302 409 193 315 1521 1526.3 191 373 385 209 316 1521 1527.3 192 373 379 208 317 1522 1528.3 197 370 377 208 318 1522 1529.5 207 370 383 208 319 1522 1530.3 190 367 377 208 320 1522 1531.3 19~ 360 369 207 321 1523 1532.2 198 360 371 208 322 1523 1533.3 198 368 375 208 323 1523 1534.2 190 359 364 208 324 1524 1535.3 181 363 371 208 325 1524 1536.3 165 362 367 207 326 1524 1537.3 172 360 377 207 327 1525 1538.3 171 362 369 207 328 1525 1539.3 172 359 362 208 · Circulate bottoms up at 1540' RKB 330 1542 1540.5 53.1! 318 374 208 0 0 127 1411 1660 0 0 128 1275 1720 0 0 128 1340 1740 0 0 128 1306 1660 0 0 128 1316 1620 0 0 128 1340 1630 0 0 128 1241 1710 0 0 127 1326 1770 0 0 127 1503 1680 0 0 128 1441 1650 0 0 128 1574 1740 0 0 128 1256 1660 0 0 128 1256 1690 MSL. No flow. Circ{ 0 0 128 1256 150~ 0 0 129 1303 1710 1 86 129 1209 0 0 127 1475 0 0 128 1319 0 0 128 1173 0 0 129 1074 0 0 128 1274 0 129 1379 0 129 1595 0 129 1271 0 128 1578 0 129 1347 0 129 1200 0 128 1380 0 129 1360 No flow. Cite 985 1680 1115 1790 1041 1700 1385 1600 1678 1560 1737 1650 1658 1740 1657 1710 1779 1720 1738 1660 1639 1690 1565 1680 1573 1670 1623 172~ 1559 1710 MSL. 1259 Data Printed at time 23:51 Data Recorded at time 13:43 Date Jul 29 '88 Date Jun 25 '88 T.GAS MD lb/gal FLOW/MIN TEMP CF) PVT unit IN OUT IN OUT IN OUT 220.0 9.20 9.10 510 510 89.1 82.8 673 220.0 9.20 9.10 512 514 89.1 82.8 675 170.0 9.20 9.10 513 515 89.1 82.8 673 170.0 9.20 9.10 513 515 89.1 82.8 674 170.0 9.20 9.10 511 515 89.2 82.8 676 170.0 9.20 9.10 512 513 89.2 82.8 674 170.0 9.20 9.10 512 513 89.2 82.8 674 170.0 9.20 9.10 506 513 89.2 82.8 673 160.0 9.20 9.10 510 515 89.2 82.8 676 160.0 9.20 9.10 512 517 89.2 82.8 678 160.0 9.20 9.10 511 516 89.4 82.9 677 160.0 9.20 9.10 512 518 89.4 82.9 679 160.0 9.20 9.10 512 518 89.4 82.9 679 llatebottoms up. 120.0 9.20 9.20 508 506 89.8 82.6 674 120.0 9.20 9.20 514 515 89.6 82.6 688 --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 281 12.2 204.9 1439.9 282 12.2 204.9 1440.6 283 12.2 205.0 1441.3 284 12.2 205.1 1442.0 285 12.2 205.1 1442.8 286 12.2 205.1 1443.6 287 12.2 205.1 1444.3 288 12.3 205.1 1445.1 289 12.3 205.1 1445.9 290 12.3 205.3 1446.5 291 12.3 205.3 1447.2 291 12.3 205.3 1447.6 293 12.3 205.3 1448.9 293 12.8 206.2 1448.9 293 13.0 206.5 1449.3 1730 120.0 1610 120.0 1670 120.0 1660i 120.0 14901 110.0 1630 110.0 1780i 110.0 17601 110.0 1650 110.0 1720i 100.0 1620i 100.0 1770 lg0.0 1630i 100.0 16701 100.0 9.20 9.20 514 511 89.6 82.7 687 9.20 9.20 510 509 89.6 82.7 690 9.20 9.20 512 513 89.6 82.8 691 9.20 9.20 514 515 89.6 82.8 689 9.20 9.20 514 514 89.6 82.8 690 9.20 9.20 513 514 89.7 82.8 690 9.20 9.20 515 515 89.7 82.9 693 9.20 9.20 515 517 89.7 82.9 693 9.20 9.20 513 518 89.7 82.9 694 9.20 9.20 514 517 89.7 82.9 698 9.20 9.20 515 517 89.8 82.9 697 9.20 9.20 513 516 89.8 83.1 694 9.20 9.20 515 515 89.8 83.1 694 9.20 9.20 516 515 89.8 83.1 693 294 13.0 206.5 1450.1 295 13.0 206.5 1450;8 296 13.0 206.5 1451.6 297 13.1 206.5 1452.3 298 13.1 206.5 1453.1 299 13.1 206.5 1453.8 300 13.1 206.5 1454.6 301 13.1 206.5 1455.4 302 13.1 206.5 1456.1 303 13.1 206.5 1456.9 304 13.2 206.5 1457.6 305 13.2 206.6 1458.3 306 13.2 206.7 1459.0 307 13.2 206.7 1459.7 :ulate bottoms up. 440.0 9.20 9.20 510 524 90.1 83.8 699 440.0 9.20 9.20 511 520 90.1 83.8 700 440.0 9.20 9.20 512 518 90.1 83.8 699 440.0 9.20 9.20 513 516 90.1 83.8 700 440.0 9.20 9.20 510 516 90.1 83.8 701 0.0 9.20 9.20 507 514 90.1 83.8 701i 0.0 9.20 9.20 508 512 90.1 83.8 700 0.0 9.20 9.20 509 512 90.1 83.8 701I 0.0 9.20 9.20 512 511 9~.1 83.8 702i 0.0 9.20 9.20 513 512 90.1 83.8 704~ 150.0 9.20 9.20 511 511 90.1 83.8 703 150.0 9.20 9.20 508 511 9~.1 83.8 7031 150.0 9.20 9.20 509 511 90.1 83,8 704i 150.0 9.20 9.20 509 508 90.1 83.8 704i 150.0 9.20 9.20 510 508 90.1 83.8 704 308 13.6 206.7 1460.4 309 13.6 206.7 1461.2 310 13.6 206.7 1462.0 311 13.6 206.7 1462.7 312 13.7 206.7 1463.61 313 13.7 206.7 1464.2 314 13.7 206.7 1465.0 315 13.7 206.7 1465.71 316 13.7 206.7 1466.5 317 13.7 206.7 1467.2 318 13.7 206.7 1468.0i 319 13.7 206.7 1468.71 320 13.7 206.7' 1469.5 321 13.7 206.7 1470.2 322 13.7 206.7 1471.0 DXC BCD .87 9.36 9.29 .89 9.36 9,29 .89 9.38 9.29 .89 9.39 9.29 .91 9.39 9.29 .91 9.40 9.29 .95 9.40 9.29 .88 9.40 9.29 .95 9.41 9.29 .97 9.41 9.29 .96 9.42 9.29 .95 9.42 9.29 .96 9.42 9.29 -$ 9.35 9.29 .90 9~39 9.29 .95 9.40 9.29 .97 9.40 9.29 .95 9.40 9.29 .89 9.41 9.29 .92 9.42 9.29 .95 9.43 9.29 .92 9.43 9.29 .82 9.44 9.29 .92 9.44 9.29 .90 9.45 9.29 .94 9.45 9.29 .94 9.47 9.29 .93 9.47 9.29 .92 9.48 9.29 1.11 9.45 9.29 .80 9.45 9.29 .78 9.46 9.29 .83 9.46 9.29 .85 9.47 9.29 .87 9.47 9.29 .86 9.48 9.29 .85 9.49 9.29 .87 9.49 9.29 .87 9.49 9.29 .87 9.5~ 9.29 .~8 9.5~ 9.29 .87 9.50 9.29 .88 9.51 9.29 .87 9.52 9.29 16601 240.0 9.20 9.20 506 505 90.0 83.3 7111 323 14.0 D D D D D D D D D D D D D D D D D D D D '9 TIME DEPTH ROP ft ft/hr 331 1542 1541.5 132 332 1542 1542.5 155 333 1543 1543.5 174 334 1543 1544.4 196 335 1543 1545.5 184 336 1544 1546.5 201 337 1544 1547.5 173 338 1544 1548.5 181 339 1545 1549.5 163 340 1545 1550.5 181 341 1545 1551.5 163 342 1545 1552.5 182 343 1546 1553.5 188 344 1546 1554.5 181 345 1546 1555.5 157 346 1547 1556.5 168 347 1547 1557.5 176 348 1547 1558.5 203 Flow check at 1559' MOC ~BUS M26 RELIEF WELL #1 Data Printed at time 23:54 Date Jui 29 '88 Data Recorded at time 15:42 Date Jun 25 '88 ~R~E R~ W~ PUMP A~ MAX A~ A~ PBS 355 371 205 1328 1680 341 358 206 1258 1630 357 367 206 1478 1760 355 366 206 1475 1780 362 377 206 1514 1750 357 369 207 1550 1620 351 361 206 1475 1680 350 359 206 1509 1680 351 366 206 1568 1660 352 362 206 1609 1690 352 366 207 1525 1580 353 366 206 1537 1740 357 367 207 1536 14601 359 369 206 1591 1700 356 366 206 1500 1660 347 361 206 1441 1580 354 361 205 1584 16001 353 362 205 1538 1630 RKB MSL. The hole is fl( T.GAS MD lb/gal FLOW/MIN TEMP unit IN OUT IN OUT IN OUT 240.0 9.20 9.20 506 501 90.0 83.3 710 240.0 9.20 9.20 508 503 90.0 83.3 710 240.0 9.20 9.20 510 503 90.0 83.3 710 240.0 9.20 9.20 510 503 90.0 83.3 709 252.0 9.20 9.20 511 504 90.0 83.3 710 252.0 9.20 9.20 511 505 90.0 83.3 709 252.0 9.20 9.20 509 504 90.0 83.3 709 252.0 9.20 9.20 509 505 90.083.3 710 252.0 9.20 9.20 509 505 90.~ 83.3 709 252.0 9.20 9.20 510 507 90.0 83.3 708 252.0 9.20 9.20 511 511 90.0 83.3 710 252.0 9.20 9.20 510 515 90.0 83.3 710 252.0 9.20 9.20 510 510 90.0 83.3 709 252.0 9.20 9.20 510 509 90.0 83.1 709 330.0 9.20 9.20 509 509 90.0 83.1 710 330.0 9.20 9.20 509 510 90.0 83.1 709 330.0 9.20 9.20 507 504 90.0 83.1 709 330.0 9.20 9.20 505 505 89.9 83.1 708 Iwing at a low rate. --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 324 14.0 206.5 1472.6i 325 14.0 206.5 1473.4~ 326 14.0 206.5 1474.11 327 14.0 206.5 1474.9. 328 14.0 206.5 1475.6~ 329 14.0 206.5 1476.4 330 14.0 206.5 1477.1 331 14.0 206.5 1477.9 332 14.0 206.5 1478.6 333 14.0 206.5 1479.4 334 14.0 206.5 1480.1 335 14.0 206.5 1480.9 336 14.0 206.5 1481.6 337 14.0 206.5 1482.4 338 14.0 206.5 1483.1 339 14.0 206.5 1483.8 340 14.1 206.5 1484.6 341 14.1 206.5 1485.3 DXC HID NXMD .89 9.47 9.29 .85 9.47 9.29 .86 9.47 9.29 .83 9.48 9.29 .85 9.48 9.29 .84 9.48 9.29 .86 9.49 9.29 .85 9.49 9.29 .88 9.50 9.29 .86 9.51 9.29 .88 9.51 9.29 .85 9.52 9.29 .85 9.52 9.29 .86 9.53 9.29 .88 9.53 9.29 .86 9.54 9.29 .86 9.54 9.29 .83 9.54 9.29 Close annular preventer and circulate through choke. No casing pressure developed, the choke was opened, and normal circulation resumed. 353 1646 1560.1 63.4 354 1647 1561.4 118 355 1648 1562.4 45.0 356 1649 1563.4 84.4 357 1649 1564.4 72.1 358 1650 1565.3 70.6 359 1651 1566.4 86.2 360 1652 1567.4 74.8 361 1652 1568.5 95.4 362 1653 1569.5 71.6 363 1655 1570.5 46.2 :364 1655 1571.5 62.8 i365 1656 1572.5 96.8 366 1751 1574.8 42.8 367 1753 1575.9 40.0 368 1754 1576.9 37.7 369 1755 1577.9 48.1 370 1757 1578.9 43.2 371 1758 1579.9 44.0 372 1759 1580.9 50.5 373 1800 1581.9 57.7 374 1801 1583.1 68.7 375 1802 1584.1 57.5 376 1803 1585.1 60.2 377 18~4 1586.1 71.4 378 1805 1587.2 64.0 379 1806 1588.3 65.0 304 367 202 1066 1660 324 335 200 960 1520 310 317 201 903 1570 315 324 200 1022 1510 313 325 201 956 1590 312 322 202 922 1470 317 322 200 1069 1670 312 327 201 1019 1590 320 328 201 1030 1650 319 332 202 946 1640 303 311 201 952 1640 309 317 201 1001 1720 327 337 202 1018 1650 8 322 132 2043 1670 0 0 127 2240 1600 0 0 127 1835 1550 0 0 127 2126 1610 0 0 127 2236 1550 0 0 127 2098 1590 0 0 127 2072 159~ 0 0 127 2107 16~0 0 0 127 2017 169~ 0 0 127 2106 1620 0 0 128 2196 1600 0 0 127 2354 1640 0 0 127 2249 1550i 0 0 127 2197 1520[ 120.0 9.20 9.20 504 510 89.4 80.6 726 120.0 9.20 9.20 504 509 89.4 80.7 725 120.0 9.20 9.20 507 506 89.4 80.8 727 120.0 9.20 9.20 505 504 89.5 80.9 728. 120.0 9.20 9.20 510 506 89.6 81.0 728 140.0 9.20 9.20 508 506 89.6 81.1 728 140.0 9.20 9.20 505 503 89.6 81.1 729 140.0 9.20 9.20 505 504 89.6 81.1 729 140.0 9.20 9.20 509 505 89.6 81.1 729 140.0 9.20 9.20 509 505 89.6 81.3 729 34.0 9.20 9.20 507 505 89.6 81.3 729 34.0 9.20 9.20 508 504 89.6 81.5 729 34.0 9.20 9.20 510 504 89.6 81.5 729 34.0 9.20 9.20 508 516 90.1 83.5 563 39.0 9.20 9.20 510 510 90.1 83.6 564 39.0 9.20 9.20 507 508 90.3 83.7 562 39.0 9.20 9.20 508 507 9~.3 83.7 562 39.0 9.20 9.20 507 503 90.3 83.7 565 39.0 9.20 9.20 508 507 90.3 83.7 567 130.0 9.20 9.20 510 510 90.4 83.7 567 130.0 9.20 9.20 509 509 90.5 83.7 563 130.0 9.20 9.20 508 508 90.5 83.7 562 130.0 9.20 9.20 509 510 90.5 83.7 561 143.0 9.20 9.20 511 516 90.5 83.7 562 143.0 9.20 9.2~ 509 512 90.5 83.7 562 143.0 9.20 9.20 510 512 90.5 83.7 562 143.0 9.20 9.20 509 513 9~.5 83.7 562 343 15.0 205.8 344 15.0 205.6 345 15.0 205.6 346 15.0 205.6 347 15.1 2~5.6 348 15.1 205.6 349 15.1 205.6 350 15.1 205.6 351 15.1 205.5 352 15.1 205.5 353 15.1 205.5 354 15.2 205.5 355 15.2 205.5 358 16.0 204.2 359 16.1 204.1 360 16.1 204.1 361 16.1 204.1 362 16.1 204.1 363 16.2 204.1 364 16.2 204.1 365 16.2 204.1 366 16.2 203.9 367 16.2 203.9 368 16.2 203.9 369 16.3 203.9 370 16.3 203.8 371 16.3 203.7 1486.6 1.00 1487.5 .86 1488.2 1.03 1489.0 .93 1489.7 .95 1490.4 .95 1491.2 .94 1492.0 .95 1492.8 .91 1493.5 .95 1494.3 1.03 1495.0 .98 1495.8 .90 1497.5 1.14 1498.3 1.17 1499.0 1.13 1499.8 1.12 1500.5 1.15 1501.3 1.13 1502.0 1.10 15~2.8 1.07 1503.7 1.02 1504.41 1.07 1505.2{ 1.07 1505.91 1.~5 1506.7[ 1.06 9.39 9.29 9.39 9.29 9.40 9.29 9.40 9.29 9.41 9.29 9.41 9.29 9.42 9.29 9.42 9.29 9.43 9.29 9.44 9.29 9.44 9.29 9.45 9.29 9.45 9.29 9.37 9.29 9.36 9.29 9.36 9.29 9.37 9.29 9.38 9.29 9.40 9.29 9.41 9.29 9.42 9.29 9.43 9.29 9.44 9.29 9.45 9.29 9.45 9.29 9.46 9.~9 9.47 9.29 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D ~D D D D D D D D D MCC TBUS M26 RELIEF ~_LL #1 I F# TIME DEPTH ROP ft ft/hr 380 1807 1589.3 53.2 381 1808 1590.3 64.4 382 1809 1591.3 59.5 383 1810 1592.3 59.0 384 1811 1593.3 55.4 385 1812 1594.3 73.0 386 1812 1595.3 82.6 387 1815 1596.5 23.2 388 1816 1597.5 152 389 1816 1598.7 77.4 390 1818 1599.7 37.0 391 1819 1600.7 42.3 392 1821 1601.6 42.2 393 1822 1602.6 42.9 394 1823 1603.8 68.1 395 1824 1604.8 59.1 396 1825 1605.8 54.3 397 1909 1606.5 31.4 398 1910 1607.3 98.1 399 1910 1608.4 97.4 400 1911 1609.4 71.6 401 1912 1610.4 58.8 :402 1913 1611.4 62.1 1403 1914 1612.4 62.5 404 1915 1613.6 90.2 405 1916 1614.5 72.1 406 1916 1615.5 66.7 407 1917 1616.6 73.7 408 1918 1617.6 67.9' 409 1919 1618.7 76.9i 410 1920 1619.7 62.4 411 1921 1620.7 59.1 412 1921 1621.7 98.5 · Flow check at 1622.: 414 1952 1622.2 45.1 415 1953 1623.1 26.4 416 1955 1624.1 38.1 417 1956 1625.2 51.6 418 1957 1626.2 41.9 419 1958 1627.3 53.2 420 1959 1628.3 47.1 421 2000 1629.3 57.6 422 2~01 1630.3 63.3 423 2~01 1631.2 52.0 424 2002 1632.4 103 425 2~03 1633.4 52.9 426 2004 1634.4 52.4 427 2005 1635.4 69.6 TORTE R~ W~ PUMP A~ MAX A~ A~ P~S 0 0 127 2223 1540 0 0 127 2293 1610 0 0 127 2384 1560 0 0 127 2294 1680 0 0 127 2151 1400 0 0 127 2327 1580 0 0 127 2264 1610 313 515 192 1344 1770 T.GAS MD lb/gal unit IN OUT 143.0 9.20 9.20 150.0 9.20 9.20 150 . 0 9.20 9.20 150.0 9.20 9.20 150.0 9.20 9.20 150.0 9.20 9.20 300.0 9.20 9.20 300.0 9.20 9.20 FLOW/MIN TEMP (F) PVT IN OUT IN OUT 509 511 90.6 83.7 562 510 512 90.7 83.7 562 508 511 90.7 83.8 563 510 511 90.7 83.8 564 509 510 90.7 83.8 565 508 508 90.7 83.8 566 510 508 90.7 83.8 566 512 506 90.783.9 568 Data Printed at time 23:57 Data R==corded at time 18:07 --THIS BIT- ...... WATER --TVD-- ft hr DEPTH DEPTH 372 16.3 203.7 1508.3 373 16.3 203.7 1509.0 374 16.3 203.7 1509.8 375 16.4 203.7 1510.5 376 16.4 203.7 1511.3 377 16.4 203.7 1~!2.0 378 16.4 203.7 1512.7 379 16.4 203.5 1513.6 388 395 218 1460 1710 359 383 218 917 1700 340 354 217 819 1600 336 343 218 912 1560 338 349 218 971 1600 324 335 217 925 16001 326 337 218 974 1640 326 333 218 934 1650 328 340 218 1055 1600 290 362 216 1076 1690 348 362 220 1152 1560 338 351 220 1055 1790 328 346 220 959 1400 328 337 220 933 1620 336 341 221 981 1600 332 343 221 957 1630 331 340 221 1010 1660 331 349 221 1009 1580 328 337 221 1066 1620 326 338 221 1058 1670 329 338 221 1067 1550 337 356 221 1278 1660 343 353 222 1333 1700 346 359 221 1390 1660 363 382 221 1645 1700 !' RKB MSL. No flow. CJi 300.0 9.20 9.20 300.0 9.20 9.20 300.0 9.20 9.20 110.0 9.20 9.20 110.0 9.20 9.20 110.0 9.20 9.20 110.0 9.20 9.20 110.0 9.20 9.20 22.0 9.20 9.20 22.0 9.20 9.20 22.0 9.20 9.20 22.0 9.20 9.20 22.0 9.20 9.20 20.0 9.20 9.20 20.0 9.20 9.20 20.0 9.20 9.20 20.0 9.20 9.20 20.0 9.20 9.20 28.0 9.20 9.20 28.0 9.20 9.20 28.0 9.20 9.20 28.0 9.20 9.20 28.0 9.20 9.20 25.0 9.20 9.20 25.0 9.20 9.20 culate bottoms up. 514 509 90.7 83.9 567 513 512 90.7 84.0 568 514 512 90.7 84.0 569 512 512 90.8 84.0 570 514 514 90.9 84.0 571 509 515 90.7 84.0 572 514 516 90.7 84.0 572 512 515 90.7 84.0 573 514 516 90.7 84.0 573 504 505 91.6 84.2 592 503 502 91.6 84.2 593 505 506 91.6 84.2 594 504 506 91.6 84.4 595 506 505 91.6 84.4 591 508 507 91.6 84.4 592i 506 505 91.6 84.4 592: 508 506 91.6 84.4 591 509 507 91.6 84.4 589 507 506 91.6 84.4 586 508 507 91.6 84.4 585 509 507 91.6 84.4 587 507 507 91.6 84.4 587 510 508 91.6 84.4 588 504 509 91.6 84.4 587 505 509 91.6 84.4 586 380 16.5 203.5 1514.4 382 16.5 203.3 1515.3 383 16.5 203.3 1516.0 384 16.5 203.3 1516.8 385 16.5 203.3 1517.4 386 16.6 203.4 1518.2 387 16.6 203.2 1519.1 388 16.6 203.2 1519.8 .389 16.6 203.2 1520.6 390 17.3 201.7 1521.1 390 17.3 201.6 1521.7 391 17.3 201.6 1522.5 392 17.3 201.6 1523.3 393 17.3 201.6 1524.0 394 17.4 201.6 1524.7 395 17.4 201.6 1525.5 397 17.4 201.4 1526.4 397 17.4 201.5 1527.1 398 17.4 201.5 1527.8 400 17.4 201.4 1528.6 401 17.4 201.3 1529.4 402 17.5 201.3 1530.2 403 17.5 201.3 1530.9 404 17.5 201.3 1531.7 405 17.5 201.3 1532.4 336 356 217 1206 1580 325 338 216 1001 1660 326 335 216 1004 1690 326 332 215 1007 1740 329 340 217 1107 1490 329 338 217 1074 1620 322 328 217 1002 1460 326 330 217 1185 1640 335 348 217 1327 1670 337 345 217 1402 1740 325 340 215 1252 1600 327 346 216 1309 1800 324 332 217 1098 1520 329 343 217 1206 1680 22.g 9.20 9.20 22.0 9.20 9.20 22.0 9.2~ 9.20 42.0 9.20 9.20 42.0 9.20 9.20 42.0 9.20 9.20 42.0 9.20 9.20 42.0 9.20 9.20 34.0 9.20 9.20 34.0 9.20 9.20 34.~ 9.20 9.20 34.0 9.20 9.20 34.0 9.20 9.20 36.0 9.20 9.20 512 510 92.5 85.3 597 510 508 92.5 85.3 598 512 508 92.5 85.3 600 506 506 92.5 85.3 600 511 507 92.5 85.3 600 512 506 92.5 85.3 599 513 509 92.5 85.3 598 511 509 92.5 85.3 599 513 508 92.5 85.3 599 513 509 92.5 85.3 600 508 508 92.5 85.3 600 511 507 92.5 85.3 600 514 510 92.5 85.4 599 513 511 92.5 85.4 598 405 18.0 199.9 1532.8 406 18.0 199.9 1533.4 407 18.0 199.9 1534.2 408 18.1 199.8 1535.0 409 18.1 199.8 1535.7 410 18.1 199.7 1536.6 411 18.1 199.7 1537.3 412 18.1 199.7 1538.1 413 18.1 199.7 1538.8 414 18.2 199.7 1539.5 415 18.2 199.6 1540.31 416 18.2 199.6 1541.1 417 18.2 199.6 1541.8 418 18.2 199.6 1542.5 Date Jul 29 '88 Date Jun 25 '88 DXC BCD NXMD 1.10 9.47 9.29 1.06 9.47 9.29 1.09 9.47 9.29 1.08 9.48 9.29 1.08 9.48 9.29 1.~4 9.48 9.29 1.00 9.48 9.29 1.23 9.48 9.29 .89 9.48 9.29 .94 9.48 9.29 1.05 9.47 9.29 1.05 9.48 9.29 1.06 9.48 9.29 1.05 9.48 9.29 .97 9.48 9.29 .99 9.48 9.29 1.03 9.48 9.29 1.14 9.42 9.29 .94 9.42 9.29 .93 9.43 9.29 .97 9.43 9.29 1.~0 9.44 9.29 1.00 9.45 9.29 .99 9.45 9.29 .93 9.46 9.29 .97 9.46 9.29 1.00 9.46 9.29 .98 9.46 9.29 .99 9.47 9.29 1.01 9.47 9.29 1.06 9.47 9.29 1.08 9.48 9.29 1.01 9.48 9.29 1.10 9.43 9.29 1.16 9.41 9.29 1.09 9.42 9.29 1.03 9.43 9.29 1.09 9.43 9.29 1.04 9.43 9.29 1.05 9.44 9.29 1.05 9.44 9.29 1.05 9.44 9.29 1.10 9.45 9.29 .94 9.45 9.i9 1.~8 9.46 9.29 1.~5 9.46 9.29 1.~1 9.46 9~29 + D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D- MCC TBUS M26 RELIEF WELL TIME DEPTH ROP TORQUE RPM WOB PUMP T.GAS MD lb/gal A~ MAX A~ A~ P~S 356 217 1105 1620 346 217 1023 1670 338 217 1074 1580 346 217 1195 1660 341 217 1181 1670 MSL. No Flow. ft ft/hr 428 2006 1636.4 64.31 329 429 2006 1637.452.81 325 430 2007 1638.4 60.6 322 431 2008 1639.4 70.7 336 432 2009 1640.4 80.7 334 Flow check at 1641.4 RKB Circulate bottoms up. 434 2047 1642.1 31.81 435 2048 1643.1 40.3 436 2049 1644.1 49.4 437 2051 1645.1 55.1 438 2051 1646.1 70.6 439 2053 1647.1 40.01 440 2054 1648.1 38.2i 441 2056 1649.1 43.4i 442 2058 1650.1 32.21 443 2100 1651.1 30.3 444 2101 1652.1 31.4 445 2104 1653.1 21.5 446 2107 1654.1 23.5 447 2109 1655.1 25.3 448 2112 1656.1 21.1 449 2115 1657.1 20.7 450 2115 1658.1 134 451 2116 1659.1 53.4 452 2118 1660.1 37.3 453 2119 1661.1 63.7 454 2120 1662.1 57.2 455 2121 1663.1 74.0 456 2121 1664.1 82.7 457 2122 1665.1 79.8 458 2123 1666.1 69.0 459 2124 1667.1 70.8 460 2125 1668.1 77.1 461 2126 1669.1 70.3 462 2126 1670.1 97.4 463 2127 1671.1 59.8 464 2128 1672.1 73.8 121 325 162 1822 1640 0 139 127 2121 1560 0 0 127 2241 1650 0 0 127 2092 1510 0 0 126 2359 1650 0 0 127 2427 1700 0 188 127 2494 1610 0 0 127 2484 1520 0 0 126 2638 1740 0 0 127 2830 1610 0 0 127 2955 1710 0 0 127 2927 1650 0 0 127 3046 1680 0 0 127 3165 1710 0 0 127 3202 1650 234 513 174 2115 1820 376 405 208 1446 1740 354 385 207 1057 1510 333 379 207 949 1640 333 348 207 1001 1570 331 369 207 962 1580 343 349 207 1070 1590 346 353 208 1129 1730 353 374 207 1093 1660 351 364 207 1091 1710 361 396 207 1186 1610 357 375 207 1211 1640 355 382 207 1163 1690 354 361 206 1260 1720 349 361 206 1009 1610 352 364 206 1~44 1570 465 2129 1673.1 82.5 353 434 207 1145 1740 · Flow check at 1673.7' RKB MSL. No flow. Ci: 467 2231 1673.7 0.0 316 417 208 X180 1650 unit IN OUT 36.0 9.2~ 9.20 36.0 9.20 9.20 36.0 9.20 9.20 36.0 9.20 9.20 8.0 9.20 9.20 8.0 9.20 9.20 8.0 9.20 9.20 8.0 9.20 9.20 7.0 9.20 9.20 7.0 9.20 9.20 7.0 9.20 9.20 7.0 9.20 9.20 7.0 9.20 9.20 20.0 9.20 9.20 20.0 9.20 9.20 20.0 9.20 9.20 20.0 9.20 9.20 20.0 9.20 9.20 20.0 9.20 9.20 20.0 9.20 9.20 115.0 9.20 9.20 115.0 9.20 9.20 115.0 9.20 9.20 167.0 9.20 9.20 167.0 9.20 9.20 167.0 9.20 9.20 167.0 9.20 9.20 167.0 9.20 9.20 165.0 9.20 9.20 165.0 9.20 9.20 165.0 9.20 9.20 165.0 9.20 9.20 165.0 9.20 9.20 175.0 9.20 9.20 175.0 9.30 9.30 175.0 9.30 9.30 45.0 9.30 9.30 culate bottoms up. 45.0 9.30 9.30 45.0 9.30 9.30 81.0 9.30 9.30 81.0 9.30 9.30 81.0 9.30 9.30 81.0 9.30 9.30 81.0 9.30 9.30 85.0 9.30 9.30 FLOW/MIN TEMP (F) PVT IN OUT IN OUT 512 510 92.5 85.5 597i 513 510 92.5 85.5 597 512 510 92.5 85.5 598 511 509 92.5 85.5 598 512 510 92.5 85.5 598 Data Printed at time 00:01 Data Recorded at time 20:06 --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 419 18.2 199.6 1543.3 420 18.2 199.6 1544.0 421 18.2 199.6 1544.8 422 18.3 199.6 1545.5 423 18.3 199.5 1546.3 425 18.7 198.9 1547.5i 426 18.7 198.9 1548.3: 427 18.7 198.9 1549.0 428 18.7 198.9 1549.7 429 18.7 198.9 1550.5 430 18.8 198.9 1551.2 431 18.8 198.9 1551.9 432 18.8 198.9 1552.7 433 18.9 198.9 1553.4 434 18.9 198.9 1554.2 435 18.9 198.9 1554.9 436 19.0 198.9 1555.6 437 19.0 198.9 1556.4 438 19.0 198.9 1557.1 439 19.1 198.9 1557.8i 440 19.1 198.9 1558.5~ 441 19.1 198.9 1559.3 442 19.2 198.9 1560.0 443 19.2 198.9 1560.8 444 19.2 198.9 1561.5 445 19.2 198.9 1562.2 446 19.2 198.9 1563.0 447 19.2 198.9 1563.7 448 19.3 198.9 1564.4 449 19.3 198.9 1565.2 450 19.3 198.9 1565.9 451 19.3 198.9 1566.6 452 19.3 198.9 1567.4 453 19.3 198.9 1568.1 454 19.3 198.9 1568.8 455 19.4 198.9 1569.5 456 19.4 198.9 1570.3 468 2234 1674.2 76.4 469 2236 1675.1 38.3 470 2237 1676.1 63.7 471 2237 1677.1 74.3 472 2238 1678.1 61.1 473 2239 1679.0 82.8 474 2240 1680.0 58.0 457 20.3 200.6 1570.7 457 2~.4 200.8 1571.1 458 20.4 200.8 1571.8 459 20.4 200.9 1572.5 460 20.4 200.9 1573.2 461 20.4 200.9 1573.9 462 20.4 200.9 1574.6 463 20.5 201.~ 1575.4 Date Jul 30 '88 Date Jun 25 116 2354 1460 117 2267 1300 116 2561 1480 116 2650 1630 117 2744 1490 118 2838 1440 117 2616 1480 498 506 92.1 84.7 601 509 509 92.1 84.7 601 509 508 92.1 84.7 603 509 508 92.1 84.7 605 503 506 92,1 84.7 604 508 507 92.1 84.7 600 508 507 92.1 84.7 600 509 508 92.2 84.8 602 509 505 92.3 84.9 601 508 504 92.3 84.9 601 508 504 92.5 84.9 602 503 500 92.5 85.1 603 502 502 92.6 85.3 604 510 503 92.7 85.4 603 508 503 92.8 85.6 602 511 503 93.0 85.8 604 511 504 93.0 85.8 604 508 505 93.0 85.8 605 508 502 93.0 86.0 605 508 501 93.0 86.0 605 508 502 93.0 86.0 605 509 503 93.0 86.0 603 508 503 93.0 86.0 604 508 503 93.0 86.0 604 509 502 93.0 86.0 604 508 503 93.0 86.0 605 509 502 93.0 86.0 604 508 502 93.0 86.1 604 504 505 93.0 86.1 604 505 502 93.0 86.2 604 506 504 93.2 86.2 603 507 504 93.2 86.2 603 503 508 93.6 86.7 600 466 467 93.4 86.7 594 468 471 93.2 86.5 597 462 468 93.2 86.5 597 464 476 93.2 86.5 595 471 469 93.2 86.5 597 471 464 93.2 86.5 597 468 470 93.2 86.5 599 DXC ~CD NXMD 1.01 9.47 9.29 1.03 9.48 9.29 1.01 9.48 9.29 1.00 9.49 9.29 .98 9.49 9.29 1.20 1.13 1.10 1.06 1.04 1.17 1.19 1.16 1.24 1.28 1.28 1.37 1.37 1.36 1.41 1.35 .90 1.02 1.06 .98 .99 .96 .95 .95 .98 .99 .98 .99 .94 .99 .95 .95 9.55 9.29 9.55 9.29 9.55 9.29 9.55 9.29 9.55 9.29 9.55 9.29 9.56 9.29 9.56 9.29 9.57 9.29 9.58 9.29 9.59 9.29 9.53 9.29 9.52 9.29 9.52 9.29 9.52 9.29 9.51 9.29 9.51 9.29 9.51 9.29 9.51 9.29 9.52 9.29 9.52 9.29 9.52 9.29 9.52 9.29 9.53 9.29 9.53 9.29 9.53 9.29 9.53 9.29 9.54 9.29 9.54 9.29 9.55 9.29 9.55 9.29 9.55 9.29 -$ 1.01 1.16 1.07 1.04 1.1~ 1.04 1.10 9.46 9.46 9.47 9.47 9.47 9.47 9.48 9.48 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.29 + D D- D- D D D D D D D D D 475 476 477 478 479 480 481 482 483 484 485 486 487 488 489 490 491 492 493 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516 517 518 519 520 521 M(]C TBUS M26 RELIEF WELL #1 Data Printed at time 00:04 Date Jul 30 '88 Data Recorded at time 22:41 Date Jun 25 '88 TIME DEPTH ROP ft ft/hr 2241 1681.0 48.2 2242 1682.0 54.5 2244 1682.9 38.2 2245 1683.9 38.8 2247 1684.7 30.8 2249 1685.7 38.1 2251 1686.7 33.7 2253 1687.5 22.7 2320 1688.7 39.0 2322 1689.7 43.5 2322 1690.7 82.8 2324 1691.5 42.9 2325 1692.3 40.5 2327 1693.3 26.5 2332 1694.1 13.3 2343 1694.5 18.4 2343 1695.5 171i 2344 1696.6 1811 2345 1697.6 40.01 2346 1698.5 54.4 2352 1698.9 50.6 Date Jun 26 '88 0003 1700.7 72.1 i 0004 1701.7 72.11 0005 1702.6 46.2 0006 1703.6 62.7 0007 1704.6 63.3~ 0008 1705.6 60.1 0009 1706.4 51.4 0011 1707.4 48.5 0017 1708.1 35.1 0017 1709.0 73.1 00J.:9 1710.0 62.5 0019 1710.9 69.3 0020 1711.9 53.5 0021 1712.9 79.6 0022 1713.9 50.0 0023 1714.9 65.8 0024 1715.7 62.1 0025 1716.7 65.2 0026 1717.7 65.4 0027 1718.5 63.1 0028 1719.5 73.7 0029 1720.5 50.8 0030 1721.5 62.4 0031 1722.5 71.6 0032 1723.4 60.2 0032 1724.4 67.8 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 0 0 119 2740 1470 0 0 117 2946 1480 0 0 118 3052 1500 0 0 118 3188 1470 0 0 119 3320 1430 0 0 119 3336 1400 0 0 121 3437 1530 0 0 127 3596 1680 0 180 126 2453 1590 0 0 127 2814 1690 0 0 127 3169 1660 0 0 127 2923 1760 0 0 127 2988 1590 0 0 126 3065 1590 0 52 127 3374 1640 194 411 163 2463 1690 387 396 197 1994 1720 376 396 197 1797 1610 363 380 196 1402 1620 367 380 196 1497 1640 234 379 189 1230 1560 364 379 204 1188 1590 361 372 205 1233 1530 357 369 204 1207 1550 363 375 205 1264 1630 361 371 204 1241 1620 350 369 204 1163 1550 354 374 204 1258 1530 341 367 203 1166 1570 353 382 206 1159 1600 345 361 206 1144 1480 341 348 207 1182 1510 346 353 207 1237 1560 346 359 206 1152 1540 343 354 207 1152 1540 339 345 206 1088 1580 346 351 205 1096 1560 345 351 207 1153 1540 344 351 207 1165 1560 341 348 207 1181 1610 344 351 207 1177 1460 345 351 207 1223 1670 345 359 207 1297 1610 346 353 207 1342 1570 343 354 207 1429 1680 351 359 208 1638 1430 361 372 208 1820 1730 T.GA$ MD lb/gal FLOW/MIN TEMP (F) PVT unit IN OUT IN OUT IN OUT 85.0 9.30 9.30 474 470 93.2 86.4 603 85.0 9.30 9.30 471 470 93.1 86.4 603 50.09.30 9.30 463 470 93.0 86.4 603 50.0 9.30 9.30 477 467 93.0 86.4 605 50.0 9.30 9.30 471 465 93.0 86.2 605 50.0 9.30 9.30 477 466 93.0 86.2 605 49.0 9.30 9.30 495 501 93.0 86.2 607 49.0 9.30 9.30 509 509 93.0 86.2 612 49.0 9.30 9.30 500 499 92.7 84.9 634 44.0 9.30 9.30 508 509 92.7 84.9 629 44.0 9.30 9.30 508 503 92.8 84.9 628 25.0 9.30 9.30 510 510 92.8 84.9 625! 25.0 9.30 9.30 509 499 92.8 84.7 628 25.0 9.30 9.30 509 508 92.8 84.7 630 25.0 9.30 9.30 509 510 92.8 84.6 6371 99.0 9.30 9.30 511 512 92.5 84.2 6491 99.0 9.30 9.30 512 512 92.5 84.2 649 99.0 9.30 9.30 512 512 92.5 84.0 651 99.0 9.30 9.30 508 509 92.5 84.0 6531 29.0 9.30 9.30 505 506 92.4 84.0 654 29.0 9.30 9.30 508 509 92.3 83.8 659 --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 464 20.5 200.9 1576.1 465 20.5 201.0 1576.8 466 20.5 201.1 1577.5 467 20.5 201.1 1578.2 468 20.6 201.3 1578.8 469 20.6 201.3 1579.5 470 20.6 201.3 1580.2 470 20.7 201.5 1580.8 472 21.1 202.3 1581.7 473 21.1 202.3 1582.4 474 21.2 202.3 1583.1 474 21.2 202.5 1583.7 475 21.2 202.7 1584.3 476 21.2 202.7 1585.1 477 21.3 202.8 1585.7 478 21.5 203.4 1586.0 479 21.5 203.4 1586.7 480 21.5 203.4 1587.5 481 21.5 203.4 1588.2 481 21.6 203.5 1588.9 482 21.6 203.7 1589.2 DXC fED NXMD 1.16 9.49 9.29 1.14 9.49 9.29 1.24 9.49 9.29 1.25 9.50 9.29 1.32 9.50 9.29 1.27 9.51 9.29 1.31 9.51 9.29 1.44 9.51 9.29 1.20 9.42 9.29 1.21 9.43 9.29 1.09 9.43 9.29 1.22 9.44 9.29 1.24 9.44 9.29 1.35 9.45 9.29 1.55 9.46 9.29 1.42 9.46 9.29 .91 9.46 9.29 .88 9.46 9.29 1.13 9.46 9.29 1.09 9.46 9.29 1.05 9.45 9.29 14.0 9.30 9.30 498 502 91.9 83.1 668 14.0 9.30 9.30 502 501 91.9 83.1 668 14.0 9.30 9.30 500 503 91.9 82.9 667 14.0 9.30 9.30 502 501 91.9 82.9 665 14.0 9.30 9.30 495 493 91.9 82.9 667 50.0 9.30 9.30 501 504 91.9 82.9 666 50.0 9.30 9.30 492 485 92.0 82.8 665 50.0 9.30 9.30 496 498 92.0 82.8 663 50.0 9.30 9.30 502 505 92.1 82.6 666 50.0 9.30 9.30 500 500 92.1 82.6 664 130.0 9.30 9.30 504 504 92.1 82.5 666 130.0 9.30 9.30 506 506 92.1 82.4 663 130.0 9.30 9.30 500 501 92.1 82.4 664 130.0 9.30 9.30 504 505 92.1 82.4 665 130.0 9.30 9.30 497 492 92.1 82.4 661 130.0 9.30 9.30 497 498 92.1 82.2 661 20.0 9.30 9.30 505 506 92.1 82.2 661 20.0 9.30 9.30 505 505 92.1 82.2 658 20.0 9.30 9.30 504 500 92.1 82.2 658 20.0 9.30 9.30 504 504 92.1 82.2 660 20.0 9.30 9.30 505 505 92.1 82.2 660 66.0 9.30 9.30 502 503 92.1 82.2 661 66.0 9.30 9.30 504 505 92.1 82.2 662 66.0 9.30 9.30 507 508 92.1 82.2 658 66.0 9.30 9.30 509 5~9 92.1 82.1 658 66.0 9.30 9.30 508 508 92.1 82.0 658 484 21.8 204.3 485 21.8 204.3 486 21.8 204.4 487 21.9 204.4 488 21.9 204.4 489 21.9 204.4 489 21.9 204.6 490 21.9 204.6 491 22.0 204.9 492 22.0 205.0 493 22.1 205.0 494 22.1 205.1 495 22.1 205.1 496 22.1 205.1 497 22.1 205.1 498 22.1 205.1 499 22.1 205.3 500 22.2 205.3 501 22.2 205.3 501 22.2 205.5 502 22.2 205.5 503 22.2 205.5 504 22.2 205.5 505 22.3 205.5 506 22.3 205.6 507 22.3 2~5.6 1590.5 .99 1591.2 1.00 1591.9 1.08 1592.6 1.03 1593.3 1.02 1594.1 1.02 1594.6 1.06 1595.4 1.06 1595.9 1.12 1596.5 .98 1597.3 1.01 1597.9 1.00 1598.7 1.04 1599.4 .96 1600.1 1.04 1~00.91 .99 1602.2{ 1.00 1602.91 1.00 1603.5! 1.01 1605.il 1.07 1605.- 1.04 1606. 1.02 1607. 1.09 1607. 1.~9 9.47 9.29 9.48 9.29 9.48 9.29 9.48 9.29 9.48 9.29 9.49 9.29 9.49 9.29 9.50 9.29 9.50 9.29 9.51 9.29 9.50 9.29 9.51 9.29 9.51 9.29 9.51 9.29 9.51 9.29 9.51 9.29 9.52 9.29 9.52 9.29 9.52 9.29 9.53 9.29 9.53 9.29 9.54 9.29 9.54 9.29 9.54 9.29 9.53 9.29 9.53 9.29 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D + 522 523 524 525 526 527 528 529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 i56o 561 562 563 564 565 566 567 568 569 .4- MOC ~BUS M26 RELIEF WELL #1 Data Printed at time 00:07 Data Recorded at time 00: 33 Date Jul 30 '88 Date Jun 26 '88 TIME DEPTH ROP ft ft/hr 0033 1725.4 77.7 0034 1726.2 60.2 0035 1727.2 72.8 0036 1728.2 72.8 0038 1728.8 47.7 0102 1730.0 38.8 0104 1731.0 86.6 0104 1732.0 76.8 0106 1732.8 47.9 0107 1733.8 57.5 0107 1734.8 78.1 0108 1735.8 66.1 0109 1736.8 75.5 0110 1737.8 64.0 0111 1738.8 84.8 0112 1739.6 51.2 0113 1740.5 74.5 0113 1741.6 73.5 0115 1742.5 48.4 0115 1743.4 67.1 0116 1744.4 65.5 0117 1745.4 65.0 0118 1746.4 74.5 0119 1747.4 70.71 0120 1748.5 63.1 0121 1749.3 70.7 0121 1750.3 79.5, 0122 1751.3 65.5 0123 1752.2 59.0 0124 1753.1 69.3 0125 1754.1 73.6 0126 1755.1 72.0 0127 1756.1 73.9 0128 1757.1 68.8 0128 1758.1 79.2 0151 1759.4 55.3 0152 1760.4 70.0 0153 1761.4 54.1 0154 1762.4 69.9 0155 1763.3 57.7 0155 1764.3 79.2 0156 1765.3 98.4 0157 1766.3 66.8 0158 1767.3 72.2 0159 1768.3 59.7 0159 1769.2 72.6 0200 1770.3 82.1 0201 1771.1 59.7 TORQUE RPM WOB PUMP AVG MAX A~G A~;G PRES 354 366 208 i808 1670t 361 372 208 1911 1780i 372 396 208 1897 1750 363 375 209 1839 1660 277 358 203 1569 1650 0 0 126 353 1520 358 382 200 1586 1620 343 351 201 1441 1660 335 345 201 1335 1570 332 346 202 1423 15501 349 356 202 1588 1450i 345 354 202 1559 16201 356 385 201 1740 1750 368 388 199 1708 1650 362 377 199 1662 1690i 353 374 201 1348 1640i 348 358 200 1180 1620 345 354 199 1166 1620 346 366 200 1330 1570 357 374 200 1615 1630 363 375 201 1587 1630 367 380 201 1726 1750 370 388 199 1868 1700 360 367 200 1789 1690 358 375 201 1697 1630 351 379 201 1612 1690 341 356 200 1388 1610 358 371 201 1529 1700 358 375 201 1532 1600 362 372 199 1608 1600 360 374 199 1446 1640 356 367 201 1450 1580 366 382 201 1649 1580 383 400 201 1880 1690 371 380 201 1705 1540 350 361 205 1331 1680 356 366 205 1408 1590 361 371 205 1365 1690 367 380 206 1472 1730 368 379 206 1551 1630 364 380 206 1472 1590 363 374 206 1397 1640 355 361 204 1164 1530 363 374 205 1368 1630 363 374 205 1405 1440 361 369 204 1368 1680 357 367 205 1268 1620 351 358 205 1250 1600! T.GAS MD lb/gal 'FLOW/MIN TEMP (F) PVT unit IN OUT IN OUT IN OUT 30.0 9.30 9.30 509 509 92.1 82.0 659 30.0 9.30 9.30 509 508 92.1 82.0 657 30.0 9.30 9.30, 510 510 92.1 82.0 657 30.0 9.30 9.30 511 511 92.1 82.0 657 30.0 9.30 9.30 197 107 92.1 82.0 661 30.0 9.30 9.30 506 507 92.1 87.7 662 66.0 9.30 9.30 508 509 92.1 86.5 663 66.0 9.30 9.30 510 510 92.1 86.0 662 66.0 9.30 9.30 508 507 92.1 86.0 663 --THIS BIT ...... WATER ft hr DEPTH 508 22.3 205.6 509 22.3 205.8 510 22.3 205.8 511 22.3 205.8 512 22.4 205.8 512 22.7 206.9 514 22.8 207.0 515 22.8 2~7.0 516 22.8 207.2 DEPTH 1608.5 1609.2 1609.9 1610.6 1611.1 1611.9 1612.7 1613.4 1614.0 66.0 9.30 9.30 509 509 92.1 85.7 660 66.0 9.30 9.30 506 507 92.3 86.1 660 75.0 9.30 9.30 508 509 92.3 86.5 660 75.0 9.30 9.30 511 511 92.3 86.9 657 75.0 9.30 9.30 511 506 92.3 86.9 658 75.0 9.30 9.30 507 508 92.3 87.4 661 75.0 9.30 9.30 509 509 92.3 87.6 662 102.0 9.30 9.30 507 506 92.3 87.8 663 102.0 9.30 9.30 508 508 92.3 88.1 661 102.0 9.30 9.30 509 508 92.3 88.6 661 517 22.8 207.2 518 22.8 207.2 519 22.8 207.2 520 22.9 207.2 521 22.9 207.2 522 22.9 207.2 523 22.9 207.4 524 22.9 207.4 525 22.9 207.4 525 22.9 207.5 1614.7 1615.4 1616.2 1616.9 1617.7 1618.4 1619.~ 1619.7 1620.4 1621.1 102.0 9.30 9.30 508 510 92.3 88.5 662 102.0 9.30 9.30 510 513 92.3 88.2 663 60.0 9.30 9.30 509 512 92.3 88.2 666 60.0 9.30 9.30 502 512 92.3 88.1 664 60.0 9.30 9.30 509 512 92.3 88.0 663 60.0 9.30 9.30 510 506 92.3 87.8 663 60.0 9.30 9.30 511 505 92.3 87.6 663 68.0 9.30 9.30 510 506 92.3 87.5 666 68.0 9.30 9.30 508 505 92.3 87.5 664 68.0 9.30 9.30 507 504 92.3 87.5 664 68.0 9.30 9.30 505 504 92.3 87.8 664 68.0 9.30 9.30 506 505 92.3 88.1 665 40.0 9.30 9.30 509 505 92.3 88.2 667 40.0 9.30 9.30 509 505 92.3 88.1 666 40.0 9.30 9.30 510 504 92.3 88.3 667 40.0 9.30 9.30 511 505 92.3 88.3 668 40.0 9.30 9.30 507 508 92.3 89.4 666 60.0 9.30 9.30 509 502 92.3 89.3 668 60.0 9.30 9.30 508 503 92.3 89.1 664 60.0 9.30 9.30 509 504 92.3 88.8 665 60.0 9.30 9.30 509 506 92.3 88.4 667 60.0 9.30 9.30 509 505 92.3 88.1 665 139.0 9.30 9.30 509 506 92.3 88.0 665 139.0 9.30 9.30 501 504 92.3 88.4 665 139.0 9.30 9.30 504 503 92.3 88.5 665 139.0 9.30 9.30 506 504 92.3 88.7 667 139.0 9.30 9.30 502 503 92.3 88.6 668 80.0 9.30 9.30 507 501 92.3 88.7 668 80.0 9.30 9.30 509 503 92.3 88.9 665 526 23.0 207.6 527 23.0 207.6 528 23.0 207.6 529 23.0 207.6 530 23.0 207.6 531 23.0 207.6 532 23.0 207.7 533 23.1 207.7 534 23.1 207.7 535 23.1 207.8 536 23.1 207.9 537 23.1 207.9 538 23.1 207.9 539 23.1 207.9 540 23.2 207.9 541 23.2 207.9 542 23.5 208.6 543 23.5 208.6 544 23.5 208.6 545 23.6 208.6 546 23.6 208.7 547 23.6 208.7 548 23.6 208.7 549 23.6 208.7 550 23.6 208.7 551 23.6 208.7 552 23.7 208.7 553 23.7 208.7 554 23.7 208.9 1621.7 1622.5 1623.2 1623.9 1624.7 1625.5 1626.1 1626.8 1627.5 1628.2 1628.9 1629.6 1630.3 1631.0 1631.8 1632.5 1633.5 1634.2 1634.9 1635.7 1636.3 1637.1 1637.8 1638.5 1639.3 1640.0 1640.7 1641.4 1642.0 DXC BCD NXMD 1.06 9.53 9.29 1.13 9.54 9.29 1.09 9.54 9.29 1.08 9.54 9.29 1.12 9.54 9.29 .81 9.47 9.29 1.01 9.48 9.29 1.01 9.48 9.29 1.09 9.48 9.29 1.07 9.48 9.29 1.03 9.49 9.29 1.06 9.49 9.29 1.06 9.50 9.29 1.08 9.50 9.29 1.02 9.51 9.29 1.97 9.51 9.29 .97 9.52 9.29 .97 9.52 9.29 1.08 9.53 9.29 1.96 9.54 9.29 1.06 9.54 9.29 1.08 9.54 9.29 1.07 9.54 9.29 1.07 9.55 9.29 1.08 9.55 9.29 1.05 9.55 9.29 .99 9.56 9.29 1.05 9.56 9.29 1.07 9.56 9.29 1.05 9.57 9.29 1.01 9.57 9.29 1.02 9.57 9.29 1.04 9.58 9.29 1.09 9.57 9.29 1.03 9.57 9.29 1.06 9.51 9.29 1.03 9.52 9.29 1.07 9.52 9.29 1.04 9.51 9.29 1.09 9.51 9.29 1.01 9.51 9.29 .96 9.51 9.29 1.00 9.51 9.29 1.01 9.51 9.29 1.06 9.51 9.29 1.01 9.51 9.29 .97 9.51 9.29 1.03 9.52 9.29 + D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D + MOC ~BUS 026 RELIEF WELL #1 I F# TIME DEPTH ROP ft ft/hr + 570 0202 1772.1 70.9 571 0203 1773.1 55.2 572 0204 1774.1 71.0 573 0205 1775.1 65.4 5740206 1776.1 60.0 575 0206 1777.1 72.2 576 0207 1778.1 68.0 577 0208 1779.1 65.0 578 0209 1780.1 68.2 579 0210 1781.1 75.5 580 0211 1782.1 81.0 581 0212 1783.1 61.1 582 0212 1784.1 71.0 583 0213 1785.1 67.8 584 0214 1786.1 78.6 585 0215 1787.1 67.8 586 0216 1788.1 66.7 587 0247 1788.8 37.0 588 0247 1789.8 94.5 589 0248 1790.8 70.7 590 0249 1791.7 53.8 591 0250 1792.8 63.5 592 0251 1793.8 62.2 ~R~E R~ WOB ~MP A~ MAX A~ A~ P~S 356 362 205 1478 1670 357 375 206 1486 1570 363 380 206 1615 1690 357 372 206 1526 1700 353 364 206 1466 1480 357 372 205 1584 1590 372 385 206 1668 1710 364 377 206 1423 1570 359 374 204 1382 1580 363 372 205 1404 1630 359 364 204 1408 1560 358 367 205 1368 1580 366 377206 1405 1570 376 388 205 1443 1580 376 398 206 1550 1700 376 390 206 1504 1670 372 393 206 1578 1620 347 380 206 1633 1600 356 367 208 1426 1700 349 358 210 1245 1570 356 366 210 1313 1690 354 379 209 1303 1580 352 362 209 1280 1690 T.GAS MD lb/gal FLOW/MIN TEMP (F) unit IN OUT IN OUT IN OUT 80.0 9.30 9.30 507 501 80.0 9.30 9.30 509 502 80.0 9.30 9.30 509 501 60.0 9.30 9.30 509 502 60.0 9.30 9.30 510 501 60.0 9.30 9.30 507 502 60.0 9.30 9.30 509 502 60.0 9.30 9.30 508 505 88.0 9.30 9.30 506 501 88.0 9.30 9.30 503 502 88.0 9.30 9.30 503 504 88.0 9.30 9.30 507 504 88.0 9.30 9.30 507 503 144.0 9.30 9.30 505 501 144.0 9.30 9.30 508 502 144.0 9.30 9.30 510 502 144.0 9.30 9.30 508 500 144.0 9.30 9.30 502 500 144.0 9.30 9.30 501 502 30.0 9.30 9.30 508 505 30.0 9.30 9.30 507 506 30.0 9.30 9.30 503 508 30.0 9.30 9.30 507 511 92.3 88.8 663 92.3 88.7 666 92.3 88.7 667~ 92.4 88.6 668 92.4 88.4 668 92.5 88.5 666 92.5 88.5 666 92.5 88.5 666 92.5 88.5 667 92.5 88.5 668~ 92.5 88.0 668 92.5 88.2 668 92.5 88.3 666 92.5 88.4 667 92.5 88.5 667 92.5 88.6 668 92.5 88.5 667 92.3 86.0 677 92.3 86.2 675 92.3 86.2 673 92.3 86.1 670 92.3 85.7 670 92.3 85.5 672 Data Printed at time 14:58 Date Jul 30 '88 Data Recorded at time 02:~2 Date Jun 26 '88 --THIS BIT ....... WATER --TVD--~ ft hr DEPTH DEPTH 593 0252 1794.8 61.0 360 366 209 1379 1610 30.0 9.30 9.30 502 510 594 0253 1795.7 69.61 355 362 210 1385 1570 34.0 9.30 9.30 508 510 595 0254 1796.8 65.51 349 354 210 1378 1530 34.0 9.30 9.30 508 511 596 0255 1797.8 75.61 350 354 210 1397 1580 34.0 9.30 9.30 507 510 597 0256 1798.8 68.7 356 364 210 1428 1610 34.0 9.30 9.30 508 508 598 0256 1799.8 79.3 363 371 210 1603 1600 34.0 9.30 9.30 508 509 Circulated bottoms up at 1801' msl. RRB #10R2 cut 584 feet in 22.4 drilling hours. Schlumberger ran the following logs: DIL/SP/GR and LDT/CNL/GR/CAL. Ran 20 joints 43.5 lbs/ft N-80 9.625" casing. The casing run as a liner was hung from 907' with its shoe set at 1796' msl. The liner was c~mented with 500 sacks of class "G" c~ment. Drilled out c~ment in the 13.375" casing to the liner hanger at 907' msl. Blowout Preventer Stack will not test. Pulling BOP to ~rk on the choke valves. Ran the BOP and tested it successfully. Drilled liner, float collar and shoe as ~11 as new formation to 1810' msl. Schlum~ger ran the following log: GCT and CBL. Ran a Sperry Sun Pee Wee Gyro through Grill pipe. Corrected steel line measur~m~ant (slm) and pipe tally. 92.3 85.6 673 92.2 85.6 674 92.1 85.6 676 92.1 85.6 675 92.1 85.6 675 92.1 85.6 675 Liner hanger and shoe ad]usted for the corrected slm are at 915' and shoe at 1804' msl. NB #12 Smith SDG~ 8.5" with 16:16:16 jets in at 1700 feet. Eit #12 was run to drill c~ment float collar in the 9.675" liner. Liner lap tested to 2200 psi. Date Jul 1 '88 555 23.7 208.9 1642.8~ 556 23.7 208.9 1643.5, 5~7 23.7 208.9 1644.21 558 23.7 208.9 1645.0i 559 23.8 208,9 1645.71 560 23.8 208.9 1646.41 561 23.8 208.9 1647.2~ 562 23.8 208.9 1647.9~ 563 23.8 208.9 1648.6 564 23.8 208.9 1649.4 565 23.8 208.9 1650.1 566 23.9 208.9 1650.8 567 23.9 208.9 1651.6 568 23.9 208.9 1652.3. 569 23.9 208.9 1653.0 570 23.9 208.9 1653.8 571 23.9 208.9 1654.5 572 24.4 209.2 1655.0 573 24.4 209.2 1655.7 574 24.5 209.2 1656.5 575 24.5 209.3 1657.1 576 24.5 209.2 1657.9 577 24.5 209.2 1659.0 578 24.5 209.2 1659.7 579 24.5 209.3 1660.4 580 24.5 209.2 1661.2 581 24.6 209.2 1661.9 582 24.6 209.2 1662.6 583 24.6 209.2 1663.4 DXC fED NXMD 1.03 9.52 9.29 1.08 9.53 9.29 1.05 9.53 9.29 1.06 9.54 9.29 1.06 9.55 9.29 1.04 9.55 9.29 1.07 9.56 9.29 1.04 9.57 9.29 1.02 9.57 9.29 1.00 9.57 9.29 .99 9.58 9.29 1.04 9.58 9.29 1.02 9.59 9.29 1.03 9.59 9.29 1.02 9.59 9.29 1.04 9.59 9.29 1.05 9.59 9.29 1.19 9.52 9.29 .97 9.53 9.29 1.00 9.53 9.29 1.07 9.53 9.29 1.03 9.53 9.29 1.03 9.53 9.29 1.05 9.53 9.29 1.03 9.53 9.29 1.04 9.53 9.29 1.01 9.53 9.29 1.04 9.53 9.29 1.03 9.53 9.29 + D D D D D D D D D D D D D D D D D D D D D D D D D D D ~ + + MOC TBUS M26 RELIEF WELL #1 F# TIME DEPTH ROP ft ft/hr TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 0850 1800.9 54.7 0851 1802.1 64.7 0852 1803.2 55.1 ~853 1804.2 44.8 0855 1805.2 40.9 0858 1806.4 20.5 0904 1806.9 21.0 0910 1808.2 33.9 T.GA$ MD lb/gal FLOW/MIN TEMP (F) PVTI unit IN OUT IN OUT IN OUT 8 327 337 89 14.5 760 3.0 9.30 9.30 9 330 345 90 14.~ 760 3.~ 9.20 9.30 10 324 337 89 14.0 760 3.~ 9.30 9.30 11 321 338 89 13.9 760 3.0 9.30 9.30 12 314 341 90 12.5 750 5.0 9.30 9.30 13 298 413 90 11.2 750 5.0 9.30 9.30 14 291 419 74 16.2 750 5.0 9.30 9.30 15 308 419 69 12.3 770 5.0 9.30 9.30 16 0911 1809.7 36.9 307 419 69 11.7 7701 5.~ 9.20 9.30 Ran Pressure Integrity Test at 1804' msl with a 15.5 ppg EMW. NB #13 Smith SDGH 8.5" with 20:20:20 jets in at 1810 feet. Bit #13 run in 678 675 60.6 66.~ 633I 679 680 60.6 66.~ 632 679 678 60.6 66.~ 631 678 676 60.6 66.1 631 678 676 60.6 66.2 631 678 678 60.6 66.2 631 678 679 60.6 66.4 628 678 678 60.6 66.6 626 678 683 60.6 66.6 625 Data Prlnte~ at time 15:02 Date Jul 30 '88 Data Recorded at time 68:50 Date Jul 1 '88 --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 97.9 3.6 207.1 1665.5 99.1 3.6 206.9 1666.4 10~ 3.6 206.8 1667.2 101 3.7 206.8 1668.0 102 3.7 206.8 1668.7 103 3.7 206.6 1669.6 104 3.8 204.8 1670.0 105 3.9 2~4.3 1671.0 107 4.0 204.3 1671.3 conjuction with NorTrack mud motor and a Teleco W~D directional/ga~ana/resistivity tool. 20.0 9.00 9.00 405 404 75.2 59.7 582 20.0 9.00 9.00 405 406 75.2 59.7 583 20.g 9.00 9.00 407 405 73.2 64.9 568 20.0 9.00 9.00 408 405 73.0 65.1 557 20.0 9.00 9.00 409 404 73.0 64.4 562 20.0 9.00 9.00 406 404 72.9 64.9 565 12.0 9.00 9.00 408 406 72.9 67.5 569 12.0 9.00 9.00 409 404 72.8 67.2 578 12.0 9.00 9.00 406 404 72.8 67.7 588 12.0 9.00 9.00 408 408 72.7 68.4 603 10.0 9.00 9.00 404 410 72.7 69.1 662 10.0 9.00 9.00 382 393 72.9 70.7 854 10.0 9.00 9.00 383 395 72.9 70.9 858 66.0 9.00 9.00 378 390 73.0 71.1 855 66.0 9.00 9.00 380 381 73.0 70.9 855 66.0 9.00 9.00 383 381 73.0 70.7 855 66.0 9.00 9.00 383 380 73.0 70.7 854 66.0 9.00 9.00 383 381 73.0 70.7 855 6.0 9.00 9.00 378 378 73.0 70.7 854 6.0 9.00 9.00 379 381 73.0 70.7 854 6.0 9.00 9.00 409 419 73.2 70.6 853 6.0 9.00 9.00 409 417 73.4 70.8 853 6.0 9.00 9.00 409 403 73.4 71.4 853 6.0 9.00 9.00 403 405 73.4 71.0 8461 6.0 9.00 9.00 418 416 73.4 70.7 851~ 6.0 9.00 9.00 417 422 73.5 70.9 8551 6.0 9.00 9.~0 416 419 73.6 71.0 8551 55.0 9.00 9.00 417 423 73.6 70.8 854 55.0 9.00 9.00 412 412 73.6 70.6 855 55.0 9.00 9.00 412 412 73.6 71.1 855 55.0 9.00 9.00 416 416 73.6 71.2 855 55.0 9.00 9.00 417 419 73.6 71.5 855 63.0 9.00 9.00 411 417 73.6 71.4 855 63.0 9.~0 9.~0 415 418 73.6 71.5 854 63.0 9.00 9.0~ 415 418 73.6 71.5 854 .3 0.0 212.8 1.3 0.0 209.5 2.5 0.0 208.8 3.5 0.0 208.8 4.5 0.0 208.8 5.6 0.0 208.7 6.8 0.0 208.5 7.8 0.0 208.5 8.9 0.0 208.4 9.9 0.0 208.4 11.4 0.0 207.9 13.8 0.0 206.5 14.7 0.0 206.5 15.8 0.0 206.4 16.9 0.0 206.3 18.0 0.0 206.3 19.0 0.0 206.3 20.2 0.0 206.1 21.3 0.0 206.0 22.3 0.0 206.0 22.3 ~.~ 205.0 23.6 0.0 204.7 24.6 0.0 204.6 26.0 0.0 204.3 27.6 0.0 203.7 28.6 0.0 203.7 29.8 0.0 203.6 30.9 0.0 203.4 31.9 0.0 203.4 32.9 0.0 203.4 34.1 .0 203.2 35.1 .0 203.1 36.2 .1 203.1 37.2 .1 2~3.i 39.0 .1 203.1 249 319 155 10.4 1000 249 319 155 10.4 1000 375 421 155 5.55 1000 360 372 155 5.46 1150 361 374 156 8.98 1150 354 374 154 8.21 1100 347 362 155 7.59 1170 353 364 155 9.66 1220 354 379 154 10.6 1180 346 356 155 9.71 980 356 392 158 10.8 1200 348 434 154 3.92 1120 342 359 151 .91 1020 342 353 150 2.02 830 334 341 150 1.45 960 330 337 151 1.94 1000: 331 338 151 1.65 990 331 335 151 1.23 910 331 337 150 1.85 980 324 338 150 2.05 1020 332 362 156 9.02 1230 335 362 157 9.67 1170 337 372 156 9.93 1220 322 358 156 10.5 1100 350 388 163 7.99 1280 328 380 163 2.55 960 319 330 162 1.60 1110 327 335 163 2.39 980 330 346 162 1.85 1150 322 332 162 1.86 950 325 332 162 2.18 1120 325 330 163 1.99 940 322 328 162 1.65 1170 321 325 162 1.52 1050 321 325 162 1.52 1050 Date Jul 2 '88 21 0619 1810.0 40.1 22 0853 1811.0 47.0 23 0903 1812.2 67.1 24 0905 1813.2 38.0 25 0906 1814.2 50.0 26 0907 1815.3 46.6 27 0909 1816.5 46.8 28 0910 1817.5 34.7 29 0912 1818.6 44.7 30 0913 1819.6 40.0 31 0919 1821.1 11.9 32 0945 1823.5 15.2 33 0947 1824.4 31.8 34 0948 1825.5 83.1 35 0949 1826.6 41.9 36 0950 1827.7 51.6 37 0952 1828.7 48.7 38 0953 1829.9 46.1 39 0954 1831.0 73.5 40 ~955 1832.0 39.6 41 1014 1832.0 12.0 42 1017 1833.3 26.5 43 1020 1834.3 15.7 44 1024 1835.7 17.6 45 1029 1837.3 30.7 46 1031 1838.3 41.9 47 1032 1839.5 45.7 48 1033 1840.6 53.1 49 1034 1841.6 53.2 50 1035 1842.6 46.5 51 1036 1843.8 60.3 52 1038 1844.8 40.7: 53 1039 1845.9 48.8 54 1040 1846.9 60.3 55 1040 1848.7 60.3 DXC ~CD NXMD 1.G0 9.68 9.00 .96 9.68 9.00 .99 9.68 9.G0 1.03 9.68 9.00 1.03 9.68 9.~0 1.15 9.67 9.00 1.21 9.64 9.00 1.62 9.64 9.00 .99 9.64 9.00 1674.4 1.12 1675.1 1.09 1676.0 .89 1676.7 .99 1677.5 1.04 1678.3 1.03 1679.2 1.02 1680.0 1.13 1680.81 1.10 1681.51 1.09 1682.61 1.38 1684.41 1.o8 1685.11 .75 1685.91 .70 1686.71 .77 16~7.51 .77 1688.31 .76 1690.01 .71 169o.71 .81 1691.31 1.30 1693.11 1.28 1695.5, 1.10 1696.3, .84 1697.21 .77 1698.01 .80 1698o~ .76 1699.5 .78 1700.4 .76 1701.2 - .81 1702.~ .76 1702.7 .72 1702.7 .72 9.52 9.00 9.51 9.00 9.53 9.00 9.53 9.00 9.55 9.00 9.57 9.00 9.55 9.00 9.59 9.00 9.59 9.00 9.62 9.00 9.60 9.00 9.61 9.00 9.62 9.00 9.62 9.00 9.64 9.00 9.66 9.00 9.69 9.00 9.71 9.00 9.72 9.00 9.72 9.00 9.72 9.~0 9.68 9.73 9.00 9.72 9.00 9.73 9.00 9.74 9.00 9.74 9.00 9.75 9.00 9.75 9.00 9.75 9.00 9.75 9.~0 9.77 9.00 9.77 9.~0 9.78 9.~0 9.78 9.~ D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 ~101 !102 1D3 MCC TBUS M26 RELIEF WELL #1 Data Printed at time 15:06 Data Recordeo at time 11:34 Date Jul 30 '88 Date Jul 2 '88 TIME DEPTH ROP ft ft/hr 1134 1850.5 47.8 1134 1851.2 47.8 1134 1852.1 47.8 1135 1853.2 57.3 1137 1854.1 26.3 1139 1855.3 47.7 1140 1856.3 41.3 1141 1857.3 42.4 1143 1858.5 49.5 1144 1859.5 48.0 1145 1860.5 50.8 1146 1861.8 93.51 1148 1862.8 26.3 1149 1863.9 49.7 1219 1864.9 34.7 1222 1866.4 36.6. 1223 1867.7 48.9 1225 1868.7 33.0 1227 1869.6 29.5 1228 1870.9 46.2 1229 1871.9 42.5 1231 1873.0 48.8 1232 1873.9 33.1 1234 1875.2 39.7 1235 1876.7 42.4 1237 1877.9 29.2 1239 1879.0 32.2 1240 1880.6 65.6 1242 1881.4 28.2 1244 1882.5 28.1 1246 1883.6 40.0 1248 1884.8 33.5 1250 1885.8 31.3 1251 1887.0 41.0 1252 1888.4 62.9 1340 1889.1 60.5 1341 1890.5 103 1344 1891.4 23.7 1345 1892.0 48.1 1346 1893.5 56.7 1348 1894.3 36.2 1349 1895.6 75.9 1350 1896.6 54.0 1351 1897.6 57.3 1352 1898.8 62.5 1353 1899.8 45.3 1354 1900.8 55.9 1355 1901.8 60.5 ~R~E R~ W~ ~MP AU ~XA~ AU PRES 217 361 137 3.38 960 217 361 137 3.38 960 217 361 137 3.38 960 0 0 99 6.58 1010 0 0 98 6.67 1080 0 0 97 6.74 1000 0 0 99 7.~5 1030 0 0 97 6.65 1070 0 0 97 6.72 1050 0 0 98 6.45 1040 0 0 99 6.55 1090 0 0 98 6.17 1020 0 0 98 5.88 1050 0 0 99 6.58 1070 0 0 97 8.35 1060 0 0 98 6.61 1040 0 0 996.56 980 0 0 99 7.03 1030 0 0 99 6.81 1020 0 0 99 7.16 920 0 0'98 7.97 1030 0 0 98 7.18 1020 0 0 99 6.92 1050 0 0 100 7.20 1060 90 476 115 6.09 870 355 492 158 2.19 1040 355 359 154 1.87 1010 352 359 154 1.44 850 349 356 153 1.76 1050~ 346 354 154 1.92 10601 345 354 153 1.84 1050 348 353 154 1.64 980 348 358 156 1.60 920 346 351 156 1.69 1060 347 353 155 1.84 930 13 133 156 5.50 1010 393 484 156 2.04 1030 268 476 157 1.42 1030 350 356 150 1.06 990 346 354 150 1.25 1050 338 343 153 1.52 1060 338 343 153 1.52 1050 338 341 153 1.47 104~ 336 338 151 1.26 880 337 340 152 1.31 1060 333 338 154 1.35 930 336 340 152 1.41 101~ 338 343 151 1.48 1050 T.GA$ MD lb/gal unit IN OUT 63.0 9.00 9,00 70.0 9.~0 9.{)0 70.~ 9.00 9.00 70.~ 9.00 9.00 70.0 9.00 9.00 70.0 9.00 9.00 71.0 9.00 9.00 71.0 9.~0 9.0~ 71.0 9.~0 9.00 71.0 9.00 9.00 71.0 9.00 9.00 38.0 9.00 9.00 38.0 9.00 9.00 38.0 9.00 9.00 38.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 FLOW/MIN TEMP (F) PVT IN OUT IN OUT 393 401 74.5 72.6 845 393 401 74.5 72.6 845 393 401 74.5 72.6 845 394 400 74.5 72.7 844 389 392 74.5 71.9 846 388 390 74.5 71.6 845 398 400 74.6 72.2 845 387 396 74.7 72.0 845 391 397 74.7 72.3 844 391 393 74.7 72.5 844 396 393 74.7 73.0 840 393 391 74.7 73.1 836 394 388 74.7 73.2 835 396 391 74.7 73.1 836 390 382 75.4 73.6 837 396 395 75.4 73.2 836 399 398 75.4 73.6 839 396 395 75.6 73.4 834 397 396 75.6 73.4 839 --THIS BIT ....... WATER it hr DEPTH 40.8 .8 198.9 41.5 .8 198.9 42.4 .8 198.9 43.5 .8 198.8 44.4 .9 198.9 45.6 .9 198.7 46.6 .9 198.7 47.6 .9 198.6 48.8 1.0 198.5 49.8 1.0 198.5 50.8 1.0 198.5 52.1 1.0 198.2 53.1 1.0 198.2 54.2 1.1 198.1 55.2 1.3 195.7 56.7 1.4 195.6 58.0 1.4 195.3 59.0 1.4 195.3 59.9 1.5 195.3 DEPTH 1707.6 1707.6 1707.6 1708.5 1709.1 1710.0 1710.8 1711.6 1712.4 1713.2 1713.9 1714.9 1715.7 1716.5 1717.8 1719.0 1720.0 1720.8 1721.5 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 54.0 9.00 9.00 54.0 9.00 9.00 54.0 9.00 9.00 54.0 9.00 9.00 70.0 9.00 9.00 70.0 9.00 9.00 70.0 9.00 9.00 70.0 9.00 9.00 74.0 9.00 9.00 74.0 9.00 9.00 74.0 9.00 9.00 74.0 9.00 9.00 74.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.00 30.0 9.00 9.~0 30.0 9.~0 390 388 75.6 73.5 840 390 388 75.7 73.4 838 388 392 75.7 73.2 834 400 399 75.7 73.4 832 399 398 75.7 73.4 836 397 396 75.9 73.3 832 374 373 75.9 72.4 834 400 399 75.9 72.0 833 391 392 75.9 72.0 836 394 389 75.9 72.6 831 393 391 76.0 72.8 830 397 392 76.1 72.8 832 399 395 76.1 72.9 835 396 391 76.1 72.9 838 400 399 76.1 72.9 838 396 395 76.1 72.9 840 385 384 76.8 74.0 841 387 386 76.8 74.3 844 392 391 76.8 74.3 840 390 389 76.9 74.5 842 386 385 77.0 74.6 838 401 400 77.0 74.4 841 396 395 77.0 74.0 841 390 389 77.0 73.7 839 390 389 77.0 73.6 838 389 385 77.0 73.9 838 395 390 77.0 74.0 838 394 389 77.0 73.9 840 386 381 77.0 73.8 841 61.2 1.5 195.1 62.2 1.5 195.1 63.3 1.5 195.0 64.2 1.6 195.1 65.5 1.6 194.7 67.0 1.6 194.2 68.2 1.6 194.0 69.3 1.7 194.0 70.9 1.7 193.4 71.7 1.7 193.5 72.8 1.8 193.5 73.9 1.8 193.4 75.1 1.8 193.2 76.1 1.8 193.2 77.3 1.9 193.0 78.7 1.9 192.6 79.4 2.5 189.5 80.8 2.5 189.5 81.7 2.5 189.5 82.3 2.5 189.6 83.8 2.5 189.5 84.6 2.6 189.7 85.9 2.6 189.4 86.9 2.6 189.4 87.9 2.6 189.4 89.1 2.6 189.2 90.1 2.7 189.~ 91.1 2.7 189.2 92.1 2.7 189.2 1722.4 1723.1 1724.0 1724.6 1725.7 1727.0 1727.9 1728.7 1730.0 1730.6 1731.4 1732.21 1733.1. 1733.9~ 1734.8~ 1735.9 1737.3 1738.3 1739.0 1736.5 1737.6 1738.1 1739.1 1739.9 1740.6 1741.5 1742.2 1743.D 1743.7 DXC ECD NXMD .84 9.71 9.00 .84 9.71 9.00 .84 9.71 9.00 .85 9.71 9.00 1.00 9.71 9.00 .89 9.72 9.00 .92 9.72 9.00 .91 9.72 9.00 .88 9.72 9.00 .88 9.73 9.00 .87 9.74 9.00 .75 9.74 9.00 .97 9.75 9.00 .87 9%75 9.00 .99 9.66 9.00 .94 9.65 9.00 .89 9.66 9.00 .97 9.65 9.00 .99 9.65 9.00 .91 9.65 9.00 .95 9.64 9.00 .90 9.65 9.00 .97 9.64 9.00 .95 9.65 9.00 .93 9.66 9.00 .88 9.65 9.00 .84 9.67 9.00 .70 9.67 9.00 .85 9.67 9.00 .86 9.67 9.00 .80 9.67 9.00 .81 9.67 9.00 .82 9.68 9.00 .79 9.68 9.00 .74 9.68 9.00 .89 9.74 9.00 .67 9.74 9.00 .84 9.76 9.00 .70 9.76 9.00 .70 9.75 9.00 .78 9.76 9.00 .69 9.77 9.~0 .72 9.77 9.00 .70 9.78 .69 9.78 .74 9.~9 9.~ .71 9.80 9.00 .70 9.8~ 9.~0 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D- D D D D D D D I F# TIME DEPTH ROP ft ft/hr + 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 1538 1947.2 65.5 M0C TBUS M26 RELIEF WELL #1 Data Printed at time 15:~9 Data Recomdeo at time 13:56 Date Jul 3~ '88 Date Jul 2 '88 1356 1902.8 56.1 1357 1903.8 49.7 1358 1904.9 61.8 1359 1905.9 52.4 1401 1906.0 36.1 1402 1906.9 55.2 1404 1908.1 29.6 1405 1909.1 45.4 1407 1910.1 45.8 1439 1911.3 34.4 1440 1912.3 81.1 1441 1913.3 40.5 1442 1914.3 49.5 1444 1915.3 45.6 1445 1916.1 41.0 1446 1917.1 63.4 1447 1918.1 54.6 1448 1919.1 60.2 1449 1920.1 53.4 1450 1921.1 74.0 1451 1922.0 42.1 1509 1923.5 36.0 1510 1924.5 47.6 1511 1925.4 49.4 1513 1926.3 45.0 1514 1927.1 60.8 1515 1928.2 66.3 1516 1929.0 51.3 1517 1929.8 44.4 1518 1930.8 58.3 1519 1931.8 56.1 1520 1932.7 48.0 1521 1933.5 57.3 1522 1934.5 62.2 1523 1935.5 55.9 1525 1936.4 46.2 1526 1937.2 52.6 1527 1938.2 59.9 1528 1939.0 45.5 1529 1939.9 48.5 1530 1940.9 72.1 1531 1941.9 55.6 1532 1942.7 47.~ 1534 1943.6 47.1 1535 1944.5 56.3 1536 1945.5 64.1 1537 1946.2 44.1 TORTE R~ W~ PUMP A~ ~X A~ A~ PBS 338 341 153 1.40 1~20 336 343 153 1.63 1030 338 340 153 1.45 990 337 340 152 1.32 1020 335 341 153 1.25 1010 337 343 155 2.14 1080 359 379 154 7.15 1090 337 353 155 2.49 1080 338 356 152 2.76 1110 320 380 145 2.65 990 342 349 147 2.71 1070 333 337 146 2.18 1100 333 340 145 3.17 1090 333 341 146 2.36 930 332 340 144 1.73 990 338 346 145 2.69 960 333 338 147 2.77 1090 333 340 148 3.07 1040 331 337 148 2.01 1070 332 337 146 2.28 1050 327 332 146 1.34 920 337 366 151 1.31 1050 337 354 153 1.44 1000 333 337 156 .66 1040 333 348 153 .86 1060 332 335 153 .88 1080 329 332 153 .54 1070 327 330 153 .77 1000 332 337 153 .91 1030 331 333 153 1.54 1080 330 337 153 1.56 1010 331 335 153 1.48 1000 335 341 153 2.27 1040 338 346 154 2.49 1080 338 346 153 4.44 1140 335 341 153 2.96 1130 335 348 153 2.71 1080 330 335 153 2.34 1060 328 335 153 2.04 1050 332 343 153 3.05 1060 334 345 153 2.82 1080 334 340 153 2.62 1030 336 343 153 2.39 1040 335 343 153 1.83 1040 334 34~ 153 2.66 1100 334 337 153 2.69 1040 336 341 153 3.53 1040 332 337 153 2.84 930 T.GAS MD lb/gal FLOW/MIN unit IN OUT IN OUT 30.0 9.00 9.00 394 389 30.0 9.00 9.00 385 380 30.0 9.~0 9.~0 393 388 20.0 9.00 9.~0 387 382 20.0 9.00 9.00 391 386 20.0 9.00 9.00 399 394 20.0 9.00 9.00 395 390 24.0 9.00 9.~0 399 394 24.0 9.00 9.0~ 377 372 24.0 9.00 9.00 380 376 24.0 9.00 9.00 394 397 24.0 9.00 9.00 392 388 20.0 9.00 9.00 389 380 20.0 9.00 9.00 386 378 20.0 9.00 9.00 386 377 20.0 9.00 9.00 384 380 20.0 9.00 9.00 396 391 22.0 9.00 9.00 395 390 22.0 9.00 9.00 397 392 22.0 9.00 9.00 388 383 40.0 9.00 9.00 394 389 40.0 9.00 9.00 392 387 40.0 9.00 9.00 402 397 40.0 9.00 9.00 401 396 40.0 9.00 9.00 401 396 40.0 9.00 9.00 401 396 40.0 9.00 9.00 400 395 40.0 9.00 9.00 401 396 40.0 9.00 9.00 400 395 TEMP (F) IN OUT 77.0 73.8 77.0 73.4 77.0 73.1 77.0 73.1 77.1 73.6 77.2 73.5 77.2 74.1 77.2 73.9 77.2 74.1 78.1 75.1 78.1 75.1 78.1 75.2 78.1 75.2 78.1 75.0 78.1 74.8 78.2 74.7 78.3 74.7 78.3 74.7 78.3 74.6 78.3 74.8 78.3 74.8 78.4 75.9 78.5 75.7 78.6 75.7 78.6 75.7 78.6 75.2 78.6 75.1 78.6 75.2 78.6 75.1 PVT 835 842 839 837 840 836 840 842 843 841 840 840 841 841 840 840 841 840 840 839 839 839 838 835 834 834 834 830 833 --THIS BIT ........ WATER ft hr DEPTH 93.1 2.7 189.2 94.1 2.7 189.2 95.2 2.7 189.1 96.2 2.8 189.1 96.3 2.8 189.0 97.2 2.8 189.1 98.4 2.8 188.9 99.4 2.9 188.9 100 2.9 188.9 102 3.2 188.7 103 3.2 188.7 104 3.3 188.7 105 3.3 188.7 106 3.3 188.7 106 3.3 188.9 107 3.3 188.9 108 3.4 188.9 109 3.4 188.9 110 3.4 188.9 111 3.4 188.9 112 3.4 188.9 114 3.6 189.5 115 3.6 189.5 116 3.6 189.6 117 3.6 189.7 117 3.6 189.9 118 3.7 189.8 119 3.7 190.0 120 3.7 190.2 --TVD-- DEPTH 1744.5 1745.2 1746.0 1746.8 1747.6 1748.2 1749.2 1749.9 1750.6 1751.5 1752.3 1753.0 1753.8 1754.5 1755.0 1755.7 1756.5 1757.2 1757.9 1758.7 1759.4 1762.5 1763.2 1763.8 1764.4 1765.0 1765.8 1766.4 1766.9 22.0 9.00 9.00 401 399 22.0 9.00 9.00 401 403 22.0 9.00 9.00 400 404 22.0 9.00 9.00 401 406 22.0 9.00 9.~0 4~1 405 22.0 9.00 9.00 401 402 22.0 9.00 9.00 400 404 22.0 9.00 9.00 400 405 22.0 9.00 9.00 400 399 22.0 9.00 9.00 399 399 22.0 9.00 9.00 400 399 16.0 9.00 9.00 399 399 16.0 9.00 9.00 399 399 16.0 9.00 9.00 400 399 16.0 9.00 9.00 400 399 16.§ 9.00 9.~0 400 399 16.0 9.00 9.00 400 399 16.5 9.00 9.~0 400 399 16.0 9.00 9.0~ 400 399 78.6 75.4 78.8 75.4 78.8 75.4 78.8 75.5 78.8 75.4 78.8 75.2 78.7 75.0 78.8 75.0 78.8 75.0 78.8 75.0 79.0 75.0 79.0 75.0 79.0 75.0 79.0 75.0 79.0 75.0 79.0 75.0 79.0 75.~ 79.0 75.0 79.0 75.~ 831 831 83~ 831 829 830 830 831 830 829 830 828, 828 829 8271 827 829 828 828 121 3.7 122 3.7 123 3.8 124 3.8 125 3.8 126 3.8 127 3.8 127 3.8 128 3.9 129 3.9 130 3.9 131 3.9 132 3.9 133 4.0 134 4.0 135 4.0 136 4.0 136 4.~ 137 4.~ 190.2 1767.6 190.2 1768.4i 190.3 190.5 1769.51 190.5 1770.3. 190.5 1771.0 190.7 1771.5 190.8 1772.2 190.8 1772.9 191.0 1773.4 191.1 1774.1 191.1 1774.8 191.1 1775.5~ 191.3 1776.0 191.4 1776.7 191.5 1777.3 191.5 1778.1 191.8 1778.5 191.8 1779.2 DXC ECD NX~D .71 9.80 9.00 .74 9.82 9.00 .70 9.82 9.00 .71 9.82 9.00 .76 9.82 9.00 .76 9.82 9.00 1.06 9.81 9.00 .81 9.80 9.00 .82 9.78 9.~0 .88 9.54 9.00 .75 9.54 9.00 .82 9.55 9.00 .84 9.56 9.00 .81 9.57 9.00 .79 9.57 9.00 .78 9.57 9.00 .81 9.59 9.00 .81 9.60 9.00 .77 9.60 9.00 .73 9.60 9.00 .75 9.61 9.00 .78 9.61 9.00 .75 9.62 9.00 .67 9.62 9.00 .70 9.62 9.00 .66 9.63 9.00 .61 9.63 9.00 .67 9.63 9.00 .71 9.62 9.00 .73 9.61 9.00 .74 9.61 9.00 .75 9.61 9.00 .78 9.61 9.00 .78 9.62 9.00 .88 9.62 9.00 .85 9.63 9.00 .81 9.63 9.0~ .77 9.64 9.00 .80 9.65 9.00 .84 9.65 9.00 .77 9.66 9.00 .80 9.66 9.00 .81 9.66 9.00 .78 9.67 9.00 .80 9.67 9.00 .78 9.68 9.00 .~8 9.6~ 9.00 .78 9.68 9.00 D D D D D D D D D D D D D D- D :D D D D D D D D D D D D D D D D D D D D D MCC TBUS M26 RELIEF WELL IF~ TIME DEPTH ROP ft ft/hr + 152 1539 153 1541 154 1616 155 1632 156 1635 157 1637 158 1638 159 1641 160 1643 161 1644 162 1646 163 1647 164 1649 165 1651 166 1652 167 1654 168 1656 169 1657 170 1657 171 1658 172 1659 1173 1700 174 1701 175 1702 176 1703 177 1704 178 1732 179 1738 180 1745 181 1750 182 1752 183 1754 184 1756 185 1757 186 1803 187 1804 188 1805 189 1806 190 1808 191 1810 192 1811 193 1813 194 1814 195 1815 196 1816 197 1817 198 1818 199 1819 1948,2 58.5 1948.6 31.1 1949.3 29.7 1950.5 28.4 1951.1 27.2 1951.9 35.1 1952.7 48.0 TORQUE RPM WOB PUMPi AVG MAX AVG A~K~ PRESi 1953.6 21.3 1954.4 35.9 1955.3 41.6 1956.1 33.1 1957.1 42.3 1957.8 31.3 1958.8 45.8 1959.6 36.4 1960.5 33.9 1961.3 35.3 1962.2 51.7 1963.1 103 1964.0 66.8 1964.8 72.2 1965.8 59.4 1966.7 56.2 1967.7 68.7 1968.5 58.6 1969.5 75.1 1970.0 31.8 1970.6 38.4 1971.0 29.7 1971.3 40.6 1972.1 32.7 1972.8 27.3 1973.7 39.3 1974.6 57.4 1975.2 14.1 1976.0 50.6 1977.0 84.6 1977.7 37.0 1978.7 28.4 1979.5 45.3 1980.3 42.7~ 1980.8 36.4~ 1981.6 46.3~ 1982.7 55.3 1983.7 50.9 1984.7 45.8 1985.7 64.2~ 1986.7 67.7 336 340 153 2.48 1070. 334 343 153 2.32 980 334 343 153 2.32 9801 334 343 153 2.32 970 9 316 100 9.40 850 0 0 100 9.91 970 0 0 100 11.2 1020 0 100 10.3 1020 0 100 11.2 980 0 100 11.0 1040 0 100 10.5 1040 0 100 11.0 970 0 100 11.4 980 0 100 11.8 1040 0 100 11.1 1010 0 100 11.4 1080 0 100 11.6 1020 0 100 12.0 1040 0 100 13.1 1020 0 100 12.1 980 0 100 12.0 1060 0 100 11.2 1020 0 100 12.3 950 0 100 12.4 990 0 0 100 11.9 1060 0 0 100 12.4 910 0 0 100 11.6 940 0 0 101 11.2 1020 0 0 101 10.0 1010 0 0 100 9.80 1030 0 0 100 11.6 1030 0 0 100 12.4 870 0 0 100 13.0 10401 0 83 100 13.0 940 0 162 100 12.1 1000 0 0 100 11.2 1070 0 0 100 11.8 1090 0 0 100 11.8 1060 7 125 100 9.45 1110 0 0 100 10.5 1040 0 0 100 10.8 1020 0 0 100 12.2 980 0 0 100 11.3 1040 0 0 100 12.4 1000 0 0 100 12.9 1120 0 0 100 11.7 1030 0 0 100 12.5 1080 0 0 100 13.2 1130 T.GAS MD lb/gal FLOW/MIN TEMP (F) unit IN OUT IN OUT IN OUT 16.0 9.00 9.00 400 399 79.1 75.0 16.0 9.00 9.00 400 40~ 79.2 75.0 16.0 9.00 9.00 400 400 79.9 76.6 16.0 9.00 9.00 400 403 80.2 77.3 4.0 9.0~ 9.00 401 412 80.2 77.0 4.0 9.00 9.00 401 409 80.4 77.1 4.0 9.00 9.00 400 405 80.4 77.1 4.0 9.90 9.00 400 492 80.4 77.2 4.0 9.~ 9.00 401 405 80.4 77.0 4.0 9.00 9.00 400 405 80.4 77.3 38.0 9.00 9.00 401 405 80.6 77.2 38.0 9.00 9.00 401 403 80.6 77.3 38.0 9.00 9.00 400 403 80.6 77.4 38.0 9.00 9.00 400 403 80.6 77.5 38.0 9.00 9.00 400 402 80.6 77.3 38.0 9.00 9.00 400 401 80.7 77.0 58.0 9.00 9.00 400 399 80.8 77.1 58.0 9.00 9.00 400 403 80.8 77.3 58.0 9.00 9.00 400 406 80.8 77.4 58.0 9.00 9.00 401 406 80.8 77.4 58.0 9.00 9.00 399 406 80.8 77.4 58.0 9.00 9.00 401 405 80.8 77.3 58.0 9.00 9.00 400 405 80.8 77.2 58.0 9.00 9.00 400 406 80.8 77.3 58.0 9.00 9.00 401 404 80.9 77.3 58.0 9.00 9.00 401 405 81.0 77.0 58.0 9.00 9.00 403 402 81.3 77.7 20.0 9.00 9.00 402 401 81.5 77.6 20.0 9.00 9.00 402 401 81.5 77.6 20.0 9.00 9.00 400 402 81.7 77.8 20.0 9.00 9.00 400 403 81.7 77.6 20.6 9.0~ 9.00 40~ 404 81.7 77.8 20.0 9.~0 9.00 400 402 81.7 78.0 20.0 9.00 9.Z0 401 404 81.7 78.3 20.0 9.00 9.00 401 407 81.7 77.2 28.0 9.00 9.00 401 404 81.7 77.4 28.0 9.00 9.00 402 402 81.7 77.7 28.0 9.00 9.00 401 402 81.7 78.4 28.0 9.00 9.00 401 399 81.7 78.5 28.0 9.00 9.00 401 397 81.8 78.3 28.0 9.00 9.00 401 400 81.9 78.2 24.0 9.00 9.00 402 410 81.9 78.5 24.0 9.00 9.00 400 405 81.9 78.3 24.0 9.00 9.00 401 401 81.9 77.9 24.0 9.00 9.00 402 399 81.9 78.1 24.0 9.00 9.00 401 398 81.9 78.2 20.0 9.00 9.00 4~0 397 81.9 78.3 20.~ 9.00 9.00 4~1 395 81.9 7&.2 Data Printed at time 15:24 Data Recorded at time 15:39 + --THIS BIT ...... WATER --TVD-- it hr DEPTH DEPTH 829I 832I 825t 826 825 826 830 832 838 840 837 837 837 836 834 838 836 835 832 829 826 827 831 834 835 835 843 839 8~0i 843' 843 842 845 844 846 847 846 846 851 860 863 862 862 861 861 858 138 4.1 191.8 1780.0 139 4.1 191.9 1781.6 140 4.5 195.1 1780.7 141 4.6 196.6 1780.3 141 4.6 196.9 1780.7 142 4.7 197.1 1781.2 143 4.7 197.3 1781.9 144 4.7 197.4 1782.4 145 4.7 197.6 1782.9 146 4.8 197.7 1783.6 146 4.8 197.9 1784.1 147 4.8 197.9 1784.8 148 4.9 198.2 1785.3 149 4.9 198.2 1786.01 150 4.9 198.4 1786.51 151 4.9 198.5 1787.2 152 5.0 198.7 1787.7 152 5.0 198.8 1788.3 153 5.0 198.9 1789.0 154 5.0 199.0 1789.6 155 5.0 199.2 1790.1 156 5.0 199.2 1790.9 157 5.1' 199.3 1791.5 158 5.1 199.3 1792.2 159 5.1 199.5 1792.8 160 5.1 199.5 1793.5 160 5.5 201.9 1793.2 161 5.6 202.4 1793.5 161 5.7 203.1 1793.6 162 5.8 203.7 1793.7 162 5.8 293.9 1794.2 163 5.8 2~4.2 1794.6 164 5.9 204.4 1795.2 165 5.9 204.4 1795.9 166 6.0 204.8 1796.2 166 6.0 205.0 1796.8 167 6.0 205.0 1797.5 168 6.0 205.2 1798.0 169 6.1 205.3 1798.7 170 6.1 205.5 1799.2 171 6.1 205.7 1799.7 171 6.1 206.2 1800.1 172 6.2 206.3 1800.6 173 6.2 2~6.3 1801.3 174 6.~ 206.2 1802.1 ·175 6.2 2~6.2 18~2.8 176 6.2 206.2 1863.5 177 6.3 206.2 1804.3 Date Jul 30 '88 Date Jul 2 '88 DXC ~CD NXMD .78 9.68 9.00 .87 9.68 9.00 .88 9.60 9.00 1.~6 9.64 9.00 1.~8 9.64 9.~0 1.04 9.65 9.00 1.00 9.65 9.~0 1.13 9.74 9.00 1.~5 9.74 9.00 1.01 9.75 9.00 1.05 9.75 9.00 1.01 9.76 9.00 1.08 9.76 9.00 1.01 9.76 9.00 1.04 9.75 9.00 1.06 9.76 9.00 1.06 9.76 9.00 .99 9.77 9.00 .86 9.77 9.00 .93 9.78 9.00 .92 9.78 9.00 .94 9.78 9.00 .97 9.79 9.00 .93 9.78 9.00 .96 9.78 9.00 .91 9.79 9.00 1.09 9.65 9.00 1.04 9.66 9.00 1.07 9.67 9.00 1.00 9.67 9.00 1.08 9.66 9.00 1.14 9.67 9.0~ 1.07 9.67 9.00 .99 9.68 9.~0 1.27 9.68 9.00 .98 9.68 9.00 .89 9.68 9.00 1.06 9.69 9.00 1.06 9.69 9.00 .99 9.70 9.00 1.~1 9.70 9.00 1.07 9.70 9.~0 1.00 9.70 9.00 .99 9.70 9.00 1.61 9.70 9.00 1.01 9.7~ 9.0G .96 9.7~ 9.G0 .96 9.7~ 9.~ D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D MOC TBUS M26 RELIEF WELL #1 F# TIME DE~TH ft ROP ft/hr 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 1820 1821 1823 1824 1824 1824 1825 1826 2013 2013 2014 2014 2014 2015 2015 2016 2016 2016 2017 2017 2018 2018 2019 2019 2019 2020 2020 2021 2021 2022 2022 2023 2023 2023 2024 2024 2040 2041 2041 2041 2042 2042 2043 2043 2043 2044 2044 2048 1987.7 52.3 1988.7 58.2 1989.6 35.3 1990.5 64.9 1991.4 177 1992.3 264 1993.4 147 1994.4 74.5 1995.8 8.4 1997.0 225 1998.1 102 1999.1 121 2000.1 141 2001.1 171 2001.9 101 2002.9 106 2003.9 175 2004.9 171 2006.1 182 2007.1 126 2007.9 125 2008.8 111 2009.8 120 2010.8 134 2011.9 149 2012.9 153 2013.8 137 2014.9 135 2015.9 118 2016.9 1291 2017.9 1121 2018.9 113, 2019.9 152 2020.9 172~ 2021.9 156 2022.9 153 2024.3 223 2025.4 226 2026.4 170 2027.3 133 2028.2 150 2029.2 148 2030.1-152 2031.2 144 2032.1 141 2033.2 144 2034.2 143 2035.1 66.9 Data Printed at time 15:30 Date Jul 30 '88 Data Recorded at t/me 18:20 Date Jul 2 '88 ~R~E R~ WOB PUMP A~ MX A~ A~ 0 0 100 13.3 1060 0 0 100 11.5 1040 78 485 107 9.33 1020 402 458 145 2.81 1010 412 435 144 5.80 1130 385 396 144 5.09 1070 378 382 144 3.00 1060 339 385 144 2.96 1020 62 417 106 22.7 1130 417 435 148 10.2 1200 411 426 148 9.85 1170 420 432 148 10.8 1220 397 409 148 7.28 1150 380 385 147 5.71 1120 381 396 148 6.69 1030 390 406 148 8.78 1170 393 416 148 9.72 1190 389 393 147 9.95 1240 400 414 148 10.1 1240 373 383 148 6.47 1050 368 374 147 5.15 1030 371 379 147 5.57 1040 367 371 146 4.92 1030 368 372 148 5.42 1000 376 383 147 6.58 1090 379 383 148 6.35 1050 378 385 147 6.29 1080 379 390 147 4.99 1070 381 388 148 5.15 1030 374 380 147 4.90 1030 373 379 148 4.89 900 379 387 147 5.28 1080 381 388 147 6.35 1080 377 382 148 5.98 1100 381 393 147 6.31 1050 377 380 148 5.25 1020 326 411 146 5.94 1110 402 422 148 4.93 1160I 391 403 148 4.04 1040i 381 388 148 3.80 1080 381 385 148 3.98 1040 379 380 148 3.39 1020 381 388 147 4.07 10301 376 379 148 3.91 1020 376 377 148 3.45 1040 376 380 148 3.17 1050 377 382 148 4.03 1030 356 472 146 3.28 1090 T.GAS VD lb/gal FLOW/MIN unit IN OUT IN OUT 20.0 9.00 9.00 402 398 20.0 9.00 9.00 401 393 20.0 9.00 9.00 401 400 32.0 9.00 9.00 400 399 32.0 9.00 9.00 399 399 32.0 9.00 9.00 399 399 32.0 9.00 9.00 399 399 32.0 9.00 9.00 399 399 60.0 9.00 9.00 395 395 60.0 9.00 9.00 395 395 60.0 9.00 9.00 396 395 60.0 9.00 9.00 396 395 60.0 9.00 9.00 396 396 60.0 9.00 9.00 396 395 60.0 9.00 9.00 395 394 60.0 9.00 9.00 395 394 60.0 9.00 9.00 395 394 60.0 9.00 9.00 396 395 65.0 9.00 9.00 396 395 65.0 9.00 9.00 396 396 65.0 9.00 9.00 396 395 65.0 9.00 9.00 395 394 65.0 9.00 9.00 395 394 70.0 9.00 9.00 394 393 70.0 9.00 9.00 394 394 70.0 9.00 9.00 395 394 70.0 9.00 9.00 395 402 70.0 9.00 9.00 395 403 88.0 9.00 9.00 395 404 TEMP (F) IN OUT 81.9 77.7 81.9 77.6 81.9 77.6 81.9 77.5 81.9 77.5 81.9 77.5 81.9 77.7 81.9 78.0 74.1 76.1 74.1 76.1 74.1 75.8 74.1 75.8 74.1 75.8 74.1 75.7 74.1 75.7 74.1 75.0 74.1 75.0 74.1 74.5 74.1 74.5 74.0 74.8 74.0 74.8 73.9 74.7 73.9 74.7 73.9 74.7 73.9 74.7 73.9 74.9 73.9 74.9 73.9 75.2 73.9 75.2 PV~ 855 853 850 846 847 848 846 847 880 880 889 889 883 880 880 885 887 884 881 887 883 882 885 886 883 885 885 884 887 --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 178 6.3 206.3 1805.0 179 6.3 206.3 1805.7 180 6.3 206.3 1806.3 181 6.3 206.4 1807.1 182 6.3 206.6 1807.6 183 6.3 206.6 1808.3 184 6.3 206.6 1809.1 185 6.4 206.6 1809.8 186 7.8 211.1 1809.7 187 7.8 211.0 1810.5 188 7.8 210.9 1811.4 189 7.8 210.9 1812.1 190 7.8 210.9 1812.8 I91 7.8 210.9 1813.6 192 7.9 211.1 1814.1 193 7.9 211.1 1814.8 194 7.9 211.1 1815.6 195 7.9 211.1 1816.3 196 7.9 210.9 1817.2 197 7.9 210.9 1818.0 198 7.9 211.1 1818.5 199 7.9 211.1 1819.2 200 7.9 211.1 1819.9 201 7.9 211.1 1820.7 202 7.9 211.1 1821.5 203 7.9 211.1 1822.2 204 7.9 211.2 1822.8 205 7.9 211.1 1823.6 206 7.9 211.1 1824.4 88.0 9.00 9.00 395 404 88.0 9.00 9.00 396 395 88.g 9.00 9.00 395 401 88.0 9.00 9.00 395 399 90.0 9.00 9.00 396 398 90.0 9.00 9.00 396 398 90.0 9.00 9.00 396 399 90.0 9.00 9.00 398 395 56.0 9.00 9.00 398 396 56.0 9.00 9.00 398 397 56.0 9.00 9.00 398 399 56.0 9.00 9.00 397 399 56.0 9.00 9.00 397 396 56.0 9.00 9.00 397 397 50.0 9.00 9.00 397 396 50.0 9.00 9.00 397 396 50.0 9.00 9.00 397 395 50.0 9.00 9.~0 397 396 50.0 9.00 9.00 397 397 73.9 75.7 73.9 75.7 73.9 75.7 73.9 75.7 73.9 75.7 73.9 76.1 73.9 76.1 73.8 76.5 73.8 76.5 73.8 76.7 73.8 76.7 73.8 76.9 73.8 76.9 73.8 76.9 73.8 76.1 73.8 76.1 73.8 75.4 73.8 75.4 73.7 77.7 887 887 889 886 883 881 883 884 885 885 884 884 886 886 886 888 888 886 885 207 8.0 211.1 1825.1 208 8.0 211.1 1825.8 209 8.0 211.1 1826.6 210 8.0 211.1 1827.3 211 8.0 211.1 1828.0 212 8.0 211.1 1828.8 213 8.0 211.1 1829.5 215 8.3 210.6 1830.7 216 8.3 210.6 1831.5 217 8.3 210.6 1832.2 218 8.3 210.7 1832.8 219 8.3 210.8 1833.4 219 8.3 210.8 1834.2 220 8.3 210.8 1834.9 221 8.3 210.8 1835.6 222 8.3 210.8 1836.3 223 8.3 210.8 1837.1 224 8.3 210.8 1837.8 225 8.4 21~.8 1838.6 DXC ~CD NXMD 1.01 9.70 9.00 .96 9.71 9.00 1.03 9.71 9.00 .77 9.71 9.00 .70 9.71 9.00 .61 9.72 8.99 .65 9.73 8.92 .75 9.74 8.92 1.62 9.70 8.92 .74 9.71 8.92 .89 9.72 8.92 .87 9.72 8.92 .78 9.72 8.92 .70 9.73 8.92 .82 9.73 8.92 .86 9.74 8.92 .78 9.74 8.92 .79 9.74 8.92 .78 9.75 8.92 .78 9.76 8.92 .74 9.77 8.92 .77 9.77 8.92 .74 9.78 8.92 .74 9.78 8.92 .74 9.78 8.92 .73 9.79 8.92 .75 9.80 8.92 .72 9.80 8.92 .75 9.81 8.92 .73 9.81 8.92 .75 9.82 8.92 .76 9.83 8.92 .73 9.83 8.92 .70 9.83 8.92 .73 9.84 8.92 .70 9.85 8.92 .65 9.87 8.86 .63 9.88 8.84 .65 9.88 8.78 .68 9.88 8.78 .67 9.89 8.68 .65 9.89 8.63 .67 9.90 8.56 .6~ 9.90 8.48 .66 9.91 8.43 .65 9.91 8.42 .~6 9.~2 8.$5 .78 9.78 8.25 D D D D D D D D D D D- D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D F# TIME DEPTH ft 248 2048 249 2048 250 2049 251 2049 252 2050 253 2050 254 2119 255 2120 256 2120 257 2120 258 2121 259 2121 260 2121 261 2122 262 2122 263 2123 264 2123 26.~ 2124 266 2124 267 2147 268 2147 269 2147 270 2148 271 2148 272 2149 273 2149 274 2150 275 2150 276 2150 277 2151 278 2151 279 2152 280 2152 281 2153 282 2153 283 2153 284 2154 285 2154 286 2155 287 2155 288 2155 289 2156 290 2156 291 2157 292 2157 293 2157 294 2158 295 2158 MOC TBU$ M26 RELIEF W~LL #1 Data Printed at time 15:33 Data Recoraed at time 2{~:48 Date Jul 30 '88 Date Jul 2 '88 ROP 2036.1 216 2037.3 183 2038.4 146 2039.3 113 2040.3 134 2041.4 165 2042.9 123 2043.9 324 2045.0 244 2046.0 125 2047.0 109 2047.9 162 2049.0 171 2050.0 144 2051.1 116 2052.2 126 2053.2 150 2054.2 164 2055.2 172 2057.2 171 2058.2 175 2059.2 167 2060.2 164 2061.3 130 2062.3 104 2063.3 132 2064.3 162 2065.3 160 2066.3 149 2067.5 169 2068.5 120 2069.5 108 2070.5 132 2071.5 141 2072.5 128 2073.5 130 2074.5 126 2075.5 143 2076.4 144 2077.6 164 2078.6 137 2079.5 143 2080.5 150 2081.6 156 2082.7 174 2084.8 129 2085.8 116 TORQUE RPM WOB PUMP All; MAX A~ AVG PRES 383 387 140 4.34 1120 385 393 143 4.08 1010 382 388 144 3.31 1050 384 393 145 2.97 1010 385 390 145 3.01 1060 383 392 145 3.67 980 363 471 140 5.86 1050 400 416 139 6.38 1100 406 417 139 4.65 1120 389 408 139 3.06 990 386 392 138 3.67 1060 392 401 138 4.96 1050 379 388 138 3.54 990 382 387 138 3.35 1000 381 385 138 3.54 1030 379 383 138 3.64 1020 381 383 138 3.91 1090 381 383 138 4.36 1060 320 379 138 4.10 920 411 476 152 4.54 1310 394 408 156 4.18 1260 391 400 156 5.77 1350 375 380 156 2.27 1250 377 380 155 2.08 1200 374 377 154 2.64 1130 377 380 155 2.85 1260 379 382 155 3.76 1270 377 379 156 3.36 1180 374 377 156 3.42 1260 373 377 156 3.44 1270 371 375 156 2.99 1190 379 387 153 3.35 1240 381 383 154 3.34 1230 380 383 155 3.60 1180 381 387 156 3.45 1240 380 382 157 3.21 1250 379 382 156 3.42 1200i 377 382 156 3.63 12301 379 382 156 3.90 1170 378 382 156 3.83 1260 379 382 156 3.53 1290 379 385 156 3.32 1260 380 385 156 3.75 1250 360 382 156 3.50 1190 379 382 155 3.06 1210 382 385 155 3.53 1250 361 385 156 3.43 1190 383 390 156 5.85 1350 T.GA$ MD lb/gal unit IN OUT 46.0 9.00 9.00 46.0 9.00 9.00 46.0 9.00 9.00 46.0 9.00 9.00 46.0 9.00 9.00 50.0 9.00 9.00 50.0 9.00 9.00 50.0 9.00 9.00 50.0 9.00 9.00 58.0 9.00 9.00 58.0 9.00 9.00 58.0 9.00 9.00 58.0 9.00 9.00 58.0 9.00 9.00 60.0 9.00 9.00 60.0 9.00 9.00 60.0 9.00 9.00 60.0 9.00 9.00 60.0 9.00 9.00 33.0 9.00 9.00 33.0 9.00 9.00 33.0 9.00 9.00 33.0 9.00 9.00 28.0 9.00 9.00 28.0 9.00 9.00 28.0 9.00 9.00 28.0 9.00 9.00 28.0 9.00 9.00 FLOW/MIN TEMP iF) PVT IN OUT IN OUT 397 396 73.6 77.3 882 398 397 73.6 77.3 884 395 394 73.6 77.3 882 398 392 73.6 77.2 878 399 399 73.6 77.2 877 399 405 73.6 76.8 877 399 398 73.6 78.5 877 399 398 73.6 76.5 879 398 397 73.6 78.5 878 398 397 73.6 78.4 879 398 397 73.6 78.4 880 397 396 73.6 78.4 881 397 396 73.6 78.4 880 397 396 73.6 78.4 879 397 406 73.6 78.4 882 397 400 73.6 78.4 879 397 398 73.6 78.4 880 397 397 73.6 78.4 880 397 396 73.7 78.5 879 452 451 73.7 78.6 888 452 451 73.7 78.6 887 452 451 73.7 78.6 888 453 446 73.8 77.5 888 446 449 73.8 77.5 887 447 447 73.7 77.2 887 448 447 73.8 75.5 887 449 446 73.8 75.5 887 450 446 73.8 74.6 886 --THIS BIT ....... WATER ft hr DEPTH 226 8.4 21~.8 228 8.4 210.7 229 8.4 210.6 230 8.4 210.6 231 8.4 210.6 232 8.4 210.6 233 8.7 210.1 234 8.7 210.1 235 8.7 210.0 236 8.7 210.0 237 8.8 210.0 238 8.8 210.0 239 8.8 210.0 240 8.8 210.~ 241 8.8 210.0 242 8.8 209.8 243 8.8 209.8 244 8.8 209.8 245 8.8 209.8 247 9.1 208.8 248 9.1 208.8 249 9.1 208.8 250 9.1 208.8 252 9.1 208.7 253 9.1 208.7 254 9.1 208.7 255 9.2 208.7 256 9.2 208.7 DEPTH 1839.3 1840.2 1841.0 1841.7 1842.4 1843.2 1844.4 1845.1 1846.0 1846.7 1847.4 1848.2 1848.9 1849.6 1850.5 1851.3 1852.0 1852.8 1853.5 1855.1 1855.9 1856.7 1857.3 1858.3 1859.0 1859.7 1860.5 1861.2 32.0 9.00 9.00 451 447 32.0 9.00 9.00 451 447 32.0 9.00 9.00 451 446 32.0 9.00 9.00 441 447 32.0 9.00 9.00 442 447 36.0 9.00 9.00 447 446 36.0 9.00 9.00 450 447 36.0 9.00 9.00 451 447 36.0 9.00 9.00 451 448 38.0 9.00 9.~0 450 446 38.0 9.00 9.00 450 445 38.0 9.00 9.0~ 451 444 38.0 9.00 9.00 452 444 38.0 9.00 9.00 452 444 38.0 9.00 9.00 452 446 38.0 9.00 9.00 448 444 38.0 9.00 9.00 446 443 38.0 9.00 9.00 446 443 38.5 9.00 9.00 449 443 36.0 9.~0 9.00 451 450 73.8 74.6 886 73.8 74.6 886 73.8 76.8 887 73.8 77.9 885 73.8 77.9 887 73.7 78.3 887i 73.7 78.3 887 73.8 78.8 885, 73.8 78.8 8851 73.6 78.6 884: 73.6 78.6 883 73.6 78.4 884 73.6 78.4 883 73.6 78.2 884 73.6 78.2 883 73.7 78.0 884 73.7 78.0 884 73.7 78.0 883 73.7 77.9 882 73.7 77.7 881 257 9.2 208.7 258 9.2 208.5 259 9.2 208.5 260 9.2 208.5 261 9.2 208.5 262 9.2 208.5 263 9.2 208.5 264 9.2 208.5 265 9.2 208.5 266 9.2 208.6 267 9.2 208.5 268 9.2 208.4 269 9.2 2~8.4 270 9.3 208.4 271 9.3 208.4 272 9.3 208.4 273 9.3 208.2 274 9.3 208.~ 275 9.2 208.2 276 9.3 2~8.2 1861.9 1862.9 1863.6 1864.3 1865.1 1865.8 1866.5 1867.3 1868.0 1868.6 1869.4 1870.3 1871.0 1871.7 1872.5 1873.2 1874.~ 1874.9 1875.6 1876.3 DXC EED NJ(MD .62 9.78 8.40 .63 9.87 8.41 .65 9.90 8.41 .68 9.91 8.34 .65 9.91 8.33 .64 9.91 8.35 .75 9.77 8.35 .59 9.77 8.35 .60 9.78 8.42 .66 9.79 8.37 .71 9.79 8.37 .68 9.79 8.31 .63 9.80 8.34 .65 9.80 8.34 .69 9.81 8.25 .68 9.81 8.20 .66 9.82 8.20 .66 9.82 8.20 .64 9.82 8.23 .67 9.87 8.21 .66 9.88 8.22 .71 9.88 8.14 .60 9.88 8.22 .63 9.89 8.26 .69 9.88 8.21 .66 9.89 8.21 .66 9.89 8.22 .65 9.90 8.24 .66 9.90 8.24 .64 9.91 8.27 .68 9.91 8.24 .71 9.91 8.17 .67 9.90 8.15 .67 9.90 8.14 .69 9.91 8.11 .67 9.91 8.10 .69 9.91 8.07 .67 9.91 8.07 .68 9.91 8.06 .66 9.91 8.08 .68 9.91 8.~7 .66 9.91 8.09 .67 9.92 8.09 .65 9.92 8.12 .62 9.92 8.19 .64 9.92 8.23 .68 9.93 8.20 .77 9.94 8.2~ D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D. D MOC TBUS M26 RELIEF WELL #1 I F# TiME DEPTH ROP ft ft/hr 296 2159 2086.8 57.2 297 2200 2087.8 90.9 298 2200 2089.0 90.9 299 2230 2090.5 44.0 300 2231 2091.6 78.3 301 2232 2092.6 52.5 302 2233 2093.8 70.3 303 2234 2095.0 76.6 304 2234 2096.0 98.1 305 2235 2097.0 49.0 306 2236 2098.0 96.3 307 2237 2099.0 75.1 308 2237 2100.0 96.9 309 2238 2101.0 88.8 310 2239 2102.0 83.5 311 2239 2103.1 88.2 312 2240 2104.1 75.3 313 2241 2105.1 68.3 314 2241 2106.3 111 315 2242 2107.3 87.6~ 316 2243 2108.3 90.7 317 2244 2109.3 40.7 318 2245 2110.3 116 319 2245 2111.3 122 320 2246 2112.3 124 321 2246 2113.3 116 322 2246 2114.5 181 323 2247 2115.5 129 324 2248 2116.5 68.4 325 2248 2117.5 86.6 326 2249 2118.5 133 327 2249 2119.6 172 328 2249 2120.6 143 329 2250 2121.6 140 330 2311 2123.6 49.2 331 2313 2125.0 34.8 332 2315 2126.0 22.8 333 2316 2127.1 156 334 2316 2128.3 115 335 2317 2129.3 121 336 2317 2130.3 148 337 2317 2131.3 152 338 2318 2132.3 142 !339 2318 2133.3 137 ~340 2319 2134.3 168 i341 2319 2135.3 107 !342 2319 2136.5 152 343 2320 2137.4 123 + TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES Data Printed 390 429 157 9.69 370 375 155 3.54 370 375 155 3.54 78 474 117 6.78 0 0 102 7.63 2 121 101 7.68 0 0 101 7.89 5 0 101 8.16 0 0 101 8.31 0 0 101 7.66 0 0 101 8.67 0 0 101 8.32 0 0 101 7.97 0 0 101 8.56 0 0 101 8.77 0 0 101 8.72 0 0 101 8.12 0 0 101 8.70 0 0 101 8.82 0 0 101 8.36 0 0 101 9.47 263 489 124 4.91 400 413 137 3.41 416 445 137 3.93 401 451 143 3.22 395 398 142 3.58 393 398 140 4.20 389 395 139 3.42 389 396 139 1.80 386 388 140 2.45 389 398 139 3.98 399 405 140 3.70 390 403 141 3.78 387 390 141 3.88 360 471 150 4.94 400 413 157 11.9 396 413 153 7.15 420 447 152 5.33 403 426 149 3.42 400 486 148 3.52 400 406 147 4.64 392 396 149 4.09 389 395 148 4.04 396 408 147 4.37 398 403 148 7.02 397 401 148 6.89 390 392 149 4.14 395 405 147 4.11 at time 15:36 Data Recoroed at time 21:59 1300 1270 1270 980 1010 990 1000 1040 1060 910 1070 1040 1030 980 1090 1030 1010 1040 1120 1080 990 1020 1060 1090 1038 T.GAS MD lb/gal unit IN OUT FLOW/MIN TEMP (F) IN OUT IN OUT 36.0 9.00 9.00 453 444 73.7 77.7 36.~ 9.00 9.~0 447 446 73.6 77.7 36.5 9.00 9.~ 447 446 73.6 77.7 36.0 9.00 9.50 422 422 73.8 78.1 15.0 9.00 9.~0 407 407 73.8 78.1 15.0 9.00 9.00 405 398 73.8 78.3 15.0 9.00 9.00 405 398 73.8 78.4 15.0 9.00 9.~0 404 403 73.8 78.5 15.0 9.00 9.50 405 404 73.8 78.5 15.0 9.00 9.50 405 404 73.8 78.8 15.0 9.00 9.00 405 404 73.8 78.8 15.0 9.00 9.00 405 404 73.8 78.6 15.0 9.00 9.00 405 404 73.8 78.6 14.0 9.00 9.00 405 404 73.7 78.5 14.0 9.00 9.00 405 404 73.7 78.5 14.0 9.00 9.00 405 404 73.6 78.5 14.0 9.00 9.00 405 404 73.6 78.8 14.0 9.00 9.00 404 404 73.6 78.9 10.0 9.00 9.00 405 404 73.6 78.7 10.0 9.00 9.00 405 404 73.6 78.7 10.0 9.00 9.00 406 405 73.6 78.8 10.0 9.00 9.00 406 405 73.6 79.4 10.0 9.00 9.00 404 403 73.6 79.4 26.0 9.00 9.00 403 403 73.6 79.2 26.0 9.00 9.00 403 398 73.6 79.2 PVT 881 883 883 878 883 888 889 893 893 896 894 895 896 895 898 898 899 900 895 885 880 832 826 822 820 --THIS BlT ....... WATER --TVD-- ft hr DEPTH DEPTH 277 9.3 208.2 1877.1 278 9.3 2~8.2 1877.8 279 9.3 208.2 1877.8 281 9.7 206.5 1880.2 282 9.7 206.4 1881.1 283 9.7 206.3 1881.9 284 9.7 206.2 1882.8 285 9.7 206.1 1883.6 286 9.7 206.~ 1884.4 287 9.8 206.0 1885.2 288 9.8 206.0 1885.9 289 9.8 206.0 1886.6 290 9.8 206.0 1887.3 291 9.8 206.0 1888.1 292 9.8 206.0 1888.8 293 9.8 205.9 1889.6 294 9.8 205.9 1890.4 295 9.8 205.9 1891.1 297 9.9 205.7 1892.0 298 9.9 205.7 1892.8 299 9.9 205.7 1893.5 300 9.9 205.7 1894.2 301 9.9 205.7 1895.0 302 9.9 205.7 1895.7 303 9.9 205.7 1896.4 Date Jul 30 '88 Date Jul 2 '88 DXC ~CD NXMD 1090 1090 1110 1030 910 1080 1050 1880 1080 1390 1230 920 1240 1000 1088 1880 1838 1080 1838 1110 1070 1040{ 95o! +. 26.0 9.00 9.00 404 402 26.0 9.00 9.00 403 402 26.0 9.00 9.00 403 402 26.0 9.80 9.00 403 403 26.0 9.00 9.00 403 403 26.0 9.00 9.00 403 401 26.0 9.00 9.00 403 401 6.0 9.00 9.00 404 401 6.0 9.00 9.00 404 401 6.0 9.00 9.00 441 447 24.0 9.00 9.00 423 429 24.0 9.00 9.00 420 421 24.0 9.00 9.00 412 418 24.0 9.00 9.80 403 408 24.0 9.00 9.~0 399 407 24.0 9.00 9.00 398 404 30.0 9.00 9.00 398 402 30.0 9.08 9.00 398 403 30.0 9.00 9.00 397 401 30.8 9.00 9.80 398 400 30.0 9.00 9.~0 399 400 30.0 9.~0 9.00 399 403 30.0 9.~0 9.~ 399 484 73.6 79.2 73.6 79.2 73.6 78.9 73.6 79.0 73.6 79.0 73.8 78.8 73.8 78.8 73.8 78.5 73.8 78.5 73.8 78.8 73.8 78.4 73.8 78.6 73.8 78.6 73.8 78.6 73.8 78.6 73.8 78.3 73.8 78.3 73.8 77.8 73.8 77.8 73.8 77.5 73.8 77.5 73.8 77.2 73.8 77.2 819 818 807 779 770 769 769 765 762 751 757 762 762 762 761 762 762 763 765 766 765 I 765I 7651 304 9.9 285.7 1897.2 305 9.9 205.5 1898.1 306 9.9 205.5 1898.8 307 10.0 205.5 1899.6 308 10.0 205.5 1900.3 309 10.0 205.5 1901.0 310 10.~ 205.4 1901.9 311 10.0 205.4 1902.6 312 10.~ 285.4 1903.3 314 10.2 204.3 1905.1 315 10.3 284.0 1906.2 316 10.3 203.9 1907.0 317 10.3 203.9 1907.8 319 10.3 203.7 1988.7 320 10.3 203.7 1909.4 321 10.3 203.7 1910.2 322 10.3 203.7 1910.9 323 10.4 203.7 1911.6 324 10.4 203.7 1912.4 325 10.4 203.7 1913.1 326 10.4 203.7 1913.8 327 10.4 253.6 1914.7 328 18.4 2~3.6 1915.4 .99 9.94 8.20 .74 9.95 8.20 .74 9.95 8.20 .93 9.83 8.20 .82 9.82 8.20 .89 9.81 8.20 .84 9.82 8.20 .83 9.82 8.2~ · 79 9.82 8.20 · 90 9.83 8.20 .80 9.83 8.20 .84 9.83 8.20 · 78 9.84 8.20 · 81 9.84 8.20 ,82 9.85 8.20 · 81 9.85 8.20 .83 9.85 8.20 .86 9.85 8.20 · 77 9.85 8.20 .81 9.86 8.20 .82 9.85 8.20 .89 9.85 8.20 .68 9.85 8.17 .69 9.85 8.13 · 67 9.84 8.12 .69 9.85 8.08 .64 9.84 8.13 · 67 9.85 8.13 · 69 9.85 8.08 .69 9.85 8.05 · 68 9.85 8.04 .63 9.85 8.10 .67 9.85 8.11 .67 9.86 8.11 .90 9.80 8.11 1.16 9.79 8.11 1.11 9.79 8.11 .71 9.79 8.06 .70 9.79 8.02 .70 9.79 7.99 .70 9.78 7.97 .68 9.79 7.98 .69 9.79 7.98 .70 9.79 7.95 · 73 9.79 7.89 .81 9.80 7.89 .68 9.80 7.91 .71 9.81 7.87 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D MOC TBUS M26 RELIEF WELL Data Printed at time 15:40 Data Recoraed at time 23:20 Date Jul 30 '88 Date Jul 2 '88 F% TIME DEPTH ROP ft ft/hr~ 1344 2320 2138.4 109 1345 2321 2139.4 121 !346 2321 2140.6 145 i347 2322 2141.6 148 ~348 2322 2142.6 150 1349 2323 2143.5 102 i350 2323 2144.6 165 1351 2323 2145.6 158 352 2324 2146.6 162 353 2324 2147.6 174 354 2324 2148.6 196 355 2325 2149.6 176 356 2325 2150.6 180 357 2326 2151.7 113 358 2326 2152.8 208 359 2326 2153.6 232 360 2328 2154.2 119 361 2328 2155.3 128 Circulating bottoms TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 394 398 147 3.94 1070 392 398 148 4.25 1110 389 393 147 4.27 1030 388 392 148 4.78 1050 390 393 148 5.15 1090 392 396 148 4.44 1110 395 401 147 5.29 1070 392 396 147 5.00 1030 393 401 147 5.52 1100 402 413 146 5.97 940 399 408 145 5.75 970 397 405 141 5.85 850 397 403 140 6.54 940 399 408 140 4.94 940 400 406 138 6.82 1040 409 414 139 7.19 1050 219 401 138 3.61 1040 219 401 138 3.89 1030 up at 2156' msl. T.GAS MD lb/gal FLOW/MIN unit IN OUT IN OUT 30.0 9.00 9.00 398 404 30.0 9.00 9.00 399 404 35.0 9.00 9.00 399 404 35.0 9.00 9.00 399 406 35.0 9.00 9.00 398 407 35.0 9.00 9.00 398 396 35.0 9.00 9.00 398 396 38.0 9.0~ 9.~ 398 396 38.0 9.00 9.00 398 396 38.0 9.00 9.00 396 394 38.0 9.00 9.00 388 386 38.0 9.00 9.00 377 375 39.0 9.00 9.00 371 369 39.0 9.00 9.00 367 365 39.0 9.00 9.00 366 364 39.0 9.00 9.00 366 364 39.0 9.00 9.00 367 365 39.0 9.00 9.00 368 366 TEMP IN OUT 73.8 77.0 73.8 77.0 73.8 77.0 73.8 77.0 73.8 77.0 73.8 77.2 73.8 77.2 73.8 77.1 73.8 77.1 73.8 77.0 73.8 77.0 73.8 77.0 73.8 76.9 73.8 76.9 73.8 76.9 73.8 77.0 73.8 77.0 73.8 77.3 PVT 768 768 767 768 768 766 767 769 769 770 768 768 770 770 771 771 778 782 --THIS BIT ....... WATER ft hr DEPTH 329 10.4 2~3.6 330 10.4 203.6 331 10.4 203.4 332 10.4 203.4 333 10.4 203.4 334 10.4 203.4 335 10.4 203.4 336 10.4 203.4 337 10.5 203.4 338 10.5 203.4 339 10.5 203.4 340 10.5 203.4 341 10.5 203.4 342 10.5 203.3 343 10.5 203.2 344 10.5 203.3 345 10.5 203.1 346 10.5 203.1 --TVD-- DEPTH 1916.1 1916.8 1917.7 1918.5 1919.2 1920.0 1920.7 1921.4 1922.2 1922.9 1923.6 1924.4 1925.1 1925.9 1926.8 1927.5 1928.3 1929.1 Tripping out to lay down the mud motor and ~ tool. NB #12 cut 346 feet in 10.6 drilling hours. NB #13 Smith SDGH 8.5" with open jets and additional center jet Date Jul 3 '88 364 0658 2156.8 152 365 0741 2157.9 182 366 0742 2159.0 176 367 0742 2160.1 198 368 0743 2160.3 212 369 0743 2161.3 178 370 0743 2162.3 194 371 0744 2163.1 148 372 0744 2164.0 141 373 0744 2165.0 184 374 07452166.1 182 375 0745 2167.1 171 376 0745 2168.0 120 377 0746 2169.0 197 378 0746 2169.9 215 379 0746 2171.1 176 380 0747 2172.1 160 381 0747 2173.1 166 382 0747 2174.1 131i 383 0748 2175.2 176I 384 0748 2176.1 125I 385 0749 2177.1 146i 386 0749 2178.1 153i 387 0749 2179.1 1481 388 0750 2180.1 174~ 219 0 138 4.53 370 219 0 138 3.61 370 219 0 138 3.13 370 219 0 138 3.96 370 419 429 187 15.4 380 412 427 187 14.9 370 442 476 184 15.3 380 422 451 184 15.5 370 422 450 183 15.1 380 410 434 183 15.0 380 427 458 183 14.8 380 433 463 183 15.6 380 432 463 183 15.4 380 445 456 183 15.4 380 446 468 184 15.3 380 424 447 183 15.8 380 421 447 183 15.4 380 394 430 184 13.1 380 395 417 183 12.6 380 394 421 183 12.3 370 408 432 184 12.4 380 400 413 76 12.9 380 407 429 75 12.7 380 401 426 77 12.5 380 412 443 76 12.7 380 18.0 9.00 9.00 18.0 9.00 9.00 18.0 9.00 9.00 18.0 9.00 9.00 20.0 9.00 9.00 20.0 9.00 9.00 20.0 9.00 9.00 20.0 9.00 9.00 20.0 9.00 9.00 20.0 9.00 9.00 25.0 9.00 9.00 25.0 9.00 9.00 25.0 9.00 9.00 25.0 9.00 9.00 25.0 9.00 9.00 25.0 9.00 9.00 25.0 9.00 9.00 25.0 9.00 9.00 25.0 9.0~ 9.00 25.0 9.00 9.00 23.~ 9.00 9.00 23.0 9.00 9.00 23.0 9.00 9.00 23.0 9.00 9.00 23.~ 9.00 9.00 in at 1256 feet. 437 436 69.4 72.5 437 435 69.3 71.7 437 435 69.3 71.7 437 435 69.3 71.7 438 445 69.3 71.7 438 441 69.3 71.7 438 440 69.6 72.7 437 438 69.6 72.7 438 439 69.6 72.6 438 439 69.6 72.6 437 437 69.6 72.6 438 439 69.6 72.4 437 440 69.6 72.4 437 438 69.6 72.0 437 437 69.6 72.0 437 437 69.6 72.0 437 435 69.6 71.9 438 434 69.6 71.9 437 435 69.6 71.6 437 435 69.6 71.6 438 434 69.6 71.3 438 436 69.6 71.3 438 440 69.6 71.2 437 437 69.6 71.2 437 434 69.6 71.2 851 840 842 843 848 848 845 846 850 850 849 852 855 857 858 861 864 861 862 863 864 863 862 863 864 -.2 11.4 210.6 .9 11.5 211.7 2.0 11.5 211.7 3.1 11.5 211.7 3.3 11.5 211.7 4.3 11.5 211.7 5.3 11.5 211.7 6.1 11.5 211.9 7.0 11.5 212.0 8.0 11.6 212.0 9.1 11.6 211.9 10.1 .0 211.9 11.0 .0 212.0 12.0 .0 212.0 12.9 .0 211.9 14.1 .0 211.9 15.1 .0 211.9 16.1 .0 211.9 17.1 .0 211.9 18.2 .0 211.8 19.1 .1 211.9 20.1 .1 211.9 21.1 .1 211.9 22.1 .1 211.9 23.1 .1 211.9 1927.3 1927.1 1927.8 1929.2 1930.0 1930.7 1931.5 1932.0 1932.6' 1933.~ 1934.~: 1934.9 1935.4 1936.3 1937.1 1937.8 1938.6 1939.3 1940.0 1940.9 1941.5 1942.2 1943.0 1943.7 1944.4 DXC BCD NXMD .73 9.81 7.82 .72 9.81 7.78 .69 9.81 7.80 .70 9.81 7.80 .71 9.81 7.79 .75 9.82 7.71 .69 9.82 7.73 .69 9.82 7.74 .70 9.83 7.75 .70 9.83 7.77 .67 9.84 7.81 .69 9.84 7.84 .70 9.84 7.84 .74 9.83 7.79 .67 9.83 7.84 .66 9.83 7.90 .69 9.81 7.90 .69 9.79 7.90 .68 9.77 7.93 .62 9.81 7.93 .61 9.81 7.93 .62 9.81 7.93 .87 9.81 7.93 .90 9.80 7.93 .88 9.80 7.93 · .95 9.81 7.93 .95 9.81 7.93 .89 9.82 7.93 .89 9.82 7.93 .91 9.83 7.93 .99 9.83 7.93 .88 9.83 7.93 .86 9.84 7.93 .91 9.85 7.93 .92 9.85 7.93 .88 9.85 7.93 .92 9.85 7.93 .85 9.85 7.93 .93 9.86 7.93 .72 9.86 7.93 .70 9.87 7.93 .71 9.87 7.93 .68 9.87 7.86 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D MCC TBUS M26 RELIEF WELL #1 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 393 414 75 12.6 380 387 401 76 12.8 380 421 438 75 12.8 380 316 429 76 11,7 370 316 429 76 11,7 370 at 2186' msl, 426 472 66 12.4 370 416 429 73 13.0 360 428 442 72 12,4 370 418 443 72 12,4 370 409 424 73 12,7 370 395 411 72 12.3 360 424 442 73 12,7 370 408 424 73 12,3 370 398 427 73 12,6 370 392 403 74 12,6 370 405 426 72 12,6 370 404 430 73 12,7 370 402 426 75 12,2 370 395 406 76 12,6 370 414 429 76 13,1 380 413 430 76 12,8 380 407 414 76 12,7 380 413 427 76 12,8 370 398 419 76 12,4 380 400 419 76 13,1 380 385 405 76 12,2 380 390 401 76 12,6 390 393 406 76 13.2 410 386 408 76 12,2 410 379 406 76 12.6 400 367 379 76 12,2 380 376 383 76 12.9 390 386 401 76 12.9 390 388 400 76 13.2 430 382 401 75 13,6 420 384 413 76 13.0 400 382 417 76 13.7 410 F# TIME DEPTH ROP ft ft/hr 389 0750 2181.1 170 390 0750 2182.1 149! 391 0751 2183.2 171 392 0753 2184,3 139 393 0753 2185,8 142 Circulating the hol( 397'0843 2187.9 160i 398 0843 2188.9 164: 399 0843 2189,9 148i 4000844 2190,9 1501 401 0844 2191,9 1451 402 0845 2192.9 1381 403 0845 2193,9 151 404 0845 2194,9 144 405 0846 2195,9 157 406 0846 2196,9 145 407 0846 2197,9 148i 408 0847 2198,9 153 409 0847 2199,9 164 410 0848 2200,9 1721 411 0848 2201.9 1561 412 0848 2202,9 1591 413 0849 2203,9 168 414 0849 2205,1 85,7 415 0850 2206,1 73,9 416 0851 2207.1 80,51 417 0852 2208,1 68,4~ 418 0852 2209,2 75,7 419 0854 2210,2 34,5~ 420 0855 2211,2 55,4 421 0856 2212.4 81.1 422 ~857 2213,4 67,7 423 0857 2214.4 81.1. 424 ~858 2215.4 64.7 425 0900 2216.5 45,8 426 0901 2217.5 44,6 427 0902 2218,5 48.8 428 0904 2219.6 30,8 Slight increase seen in Flow check at connection 430 0935 2219,7 31,7 345 477 431 0937 2221,3 58,7 414 477 432 0945 2222.8 47.6 347 400 433 ~945 2223,8 74,1 405 419 434 0946 2224.7 76,7 388 413 435 0947 2225,8 113 381 387 Lost circulation at 2234' msl. Circulating with Haliburton, the pit as well in ~ (2219.' msl) negative. 73 12.8 370 73 12,9 390 76 11,9 380 80 12.8 410 80 12.0 390 79 12.5 400 Data Printed at time 15:43 Date Jul 30 '88 Data Recorded at time 07:50 Date Jul 3 '88 T,GAS MD lb/gal FLOW/MIN TEMP (F) PVT unit IN OUT IN OUT IN OUT 20.0 9.00 9,00 437 430 69.6 71.2 860 20,0 9.00 9,00 438 435 69.6 71.2 857 20,0 9.00 9.00 438 435 69.6 71.2 855 20,0 9,00 9,00 438 435 69,6 71,4 863 20,0 9,00 9,00 437 435 69.6 71,4 865 --THIS BlT ....... WATER --TVD-- ft hr DEPTH DEPTH 24.1 ,1 211.9 1945,2 25.1 .1 211.9 1945.9 26.2 .1 211.8 1946.7 27.3 .1 211.8 1948.2 28.8 .1 211.7 1949,1 DXC lCD NXMD ,68 9,88 7,80 .71 9.88 7.80 ',68 9.88 7.74 .73 9.62 7.74 .72 9,65 7,74 20,0 9,00 9,00 414 412 69,8 71.7 891 20,0 9,00 9,00 411 409 70.0 70.7 889 20,0 9,00 9.00 420 418 70,0 70,7 885 20,0 9,00 9,00 424 422 70,0 70,7 882 20,0 9,00 9,00 426 423 70,0 71,2 881 '20,0 9,00 9,00 426 421 70,0 71,2 878 20,0 9,00 9,00 426 423 70,0 71,3 875 20,0 9,00 9,00 426 424 70,0 71,3 874 23,0 9,00 9,00 427 425 70.0 71,2 872 23,0 9,00 9,00 427 426 70,0 71,2 871 23,0 9,00 9,00 427 427 70,0 71,2 868 23,0 9,00 9.00 427 428 70,0 71,2 869 23,0 9,00 9,00 426 429 70,0 71,2 869 17.0 9,00 9,00 426 430 70,0 70,9 870 17.0 9,00 9,00 426 431 70,0 70,9 870 17,0 9.00 9,00 427 432 70,0 70.7 870 17,0 9,00 9,00 427 432 70,0 70,7 871 17,0 9.00 9,00 427 431 70,0 70,7 872 12,0 9,00 9,00 427 430 70,0 70,5 871 12,0 9,00 9,00 427 429 70,0 70,5 869 12,0 9,00 9,00 427 430 70.0 70,5 870 12,0 9,00 9,00 427 430 70,0 70,8 872 12.0 9,00 9.00 426 431 70,0 71,3 871 10,0 9,00 9,00 426 434 70.0 71,5 874 10,0 9,00 9.00 426 434 70.0 71.5 873 10,0 9,00 9.00 427 425 70,0 71.5 875 10,0 9,00 9,00 427. 425 70.0 71,8 873 10,0 9.00 9,00 427 425 70,0 71,7 874 6,0 9.00 9.00 426 424 70.0 71,6 875 6.0 9,00 9.00 426 424 70,0 71.6 876 6.0 9.00 9.00 428 426 70.0 71.4 876 6.0 9.00 9,00 427 424 69.9 71.6 877 e return flow. 30.9 .1 211,1 1944,1 31.9 ,1 211,1 1944,8 32.9 .1 211,1 1945,5 33,9 ,1 211,1 1946,2 34,9 ,1 211,1 1947,0 35,9 ,1 211,1 1947,7 36,9 .2 211,1 1948.4 37,9 .2 211,1 1949,1 38,9 .2 211.1 1949,8 39.9 ,2 211,1 1950,5 40.9 ,2 211,1 1951,2 41.9 ,2 211.1 1952,0 42,9 .2 211,1 1952,7 43,9 ,2 211.1 1953,4 44,9 .2 211,1 1954,1 45,9 .2 211,1 1954,8 46.9 ,2 211,1 1955,5 48,1 ,2 210,9 1956,5 49,1 .2 210,9 1957,2 50,1 .3 210.9 1957.9 51,1 .3 210,9 1958,6 52,2 ,3 210,8 1959,4 53,2 ,3 210,8 1960,1 54.2 .3 210,8 1960,9 55.4 ,3 210.6 1961.8 56,4 ,4 210,6. 1962,5 57.4 ,4 210,6 1963,2 58,4 ,4 210.6 1963,9 59.5 .4 210.5 1964,7 60.5 .4 210,4 1965.4 61.5 .4 210.5 1966.2 62.6 .5 210,5 1966,9 ,68 9,69 7.68 ,70 9,66 7,60 ,71 9.69 7.52 ,71 9,69 7,44 ,72 9.70 7,36 ,72 9,70 7,28 ,71 9,71 7,23 ,72 9,71 7,18 ,70 9,71 7,16 ,72 9,72 7,12 ,71 9,72 7,10 ,71 9.73 7,09 ,69 9,73 7,10 .69 9,73 7,11 ,71 9,74 7,09 .71 9,74 7,08 ,70 9,75 7,09 ,84 9,75 7,09 ,86 9,76 7,09 ,85 9,76 7.09 ,87 9.76 7,09 ,86 9,77 7,09 1,04 9,77 7,09 .92 9,77 7,09 .85 9,77 7.09 ,88 9.77 7,09 .85 9,78 7,09 ,90 9,78 7.09 ,97 9,79 7,09 ,98 9,79 7,09 .96 9.79 7,09 1,07 9.79 7.09 6,0 9,00 9,00 434 477 70.3 73,4 0,0 9,00 9,00 432 456 70,3 73.4 0,0 9,00 9.00 416 358 70,3 72.1 0.0 9.~0 9,00 433 414 70.4 72.5 0,0 9.00 9.~0 435 436 70,5 72,5 0,0 9.00 9.00 436 441 70.5 72.4 8771 62.7 8921 65.8 886[ 67.7 882~ 68.8 ,5 208.9 1967.5 .5 208,7 1968.7 ,6 208,2 1969,9 .6 208.2 1970.6 ,6 208,2 1971,3 .6 2~8.2 1972.0 1.05 9.65 7,09 ,92 9,66 7,09 ,96 9,63 7,09 ,89 9,66 7.~9 .87 9.68 7,~9 .79 9.68 7.~9 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D MOC TBUS M26 RELIEF WELL #1 + .................... ~ ~ Data Printed at time 17:28 Data Recorded at time 1~:13 Date Jul 3~ '88 Date Jul 3 '88 IF# TIME DEPTH ROPI TORQUE RPM WOB PUMPI T.GAS MD lb/gal FLOW/MIN TEMP ft ft/hrl AVG MAX AVG AVG PRES unit IN OUT IN OUT IN OUT + ~ Pit #2 isolated as the active pit. Pumping 9.0 ppg mud, to be followeo by inlet water. 438 1~20 2226.9 89.21 378 468 79 11.2 0t 0.0 9.00 9.00 334 74 70.5 69.4 2841 69.9 .6 206.3 Filling pit #2 with inlet water at 10:38 hrs. Pumping dye with inlet water via Haliburton. Pumping Inlet water with rig pumps. Filling pit #2 with Inlet water simultaneous to pumping down the hole. After pumping 9.5, 12.5 ppg as well as Sea Water without any significant effect on the bubble at the Steelhead, cementing was proceeded. At completion of the job 8056 sacks of c~ment yielding a 1693 bbl slurry was pumped. The maximum pressure seen while mixing/pumping cement (15.8 ppg) was 550 psi. The maximum pressure seen while displaceing the drillstring was 360 psi. After c~lmenting, the drill string was tripped to the shoe. After waitting on the cement and testing the BOP stack, the hole was circulated. A few pieces of hard cement were recovered with bottoms up. Increase in pit volume probably due mud leaking into active pits, as total volume remains constant. RRB #13 Smith SDGH 8.5" with open jets as well as center jets in at 2161 feet. Tagged cement at 2161' msl. Circulated hole after washing and reaming to 2227' msl. Pressure testing cement for integrity. Pulled up into the casing shoe at 1723' msl. Circulating prior to running the Cement Integrity Test. Completed the test with some leakage. Running stands in preparation to drill Date Jul 8 '88 11 1459 2227.0 28.5 12 1522 2228.8 33.9 13 1523 2230.0 56.3 14 1524 2231.0 48.7 15 1526 2232.0 43.3 16 1528 2233.0 30.2 17 1530 2234.0 27.3 18 1531 2235.1 37.6 19 1533 2236.1 33.0 20 1535 2237.1 33.5 21 1536 2238.3 48.9 22 1538 2239.3 36.5 23 1539 2240.3 38.2 24 1541 2241.3 33.6 25 1543 2242.3 33.2 26 1555 2245.2 23.1. 27 16{}6 2247.0 31.2 28 1608 2248.1 42.4 29 1609 2249.1 33.9 30 1611 2250.2 40.0 31 1613 2251.3 32.2 32 1616 2252.2 17.7 33 1619 2253.4 21.7 256 485 72 11.4 430I 377 417 62 13.8 430I 367 380 66 13.2 430I 372 383 67 11.3 420! 369 377 66 12.1 440I 367 380 66 13.4 440{ 368 393 67 12.7 460 375 387 67 13.0 460 372 393 67 12.7 480 365 385 66 12.3 430 364 374 67 12.4 430 357 366 66 11.6 430 361 379 67 12.3 440 360 372 66 12.0 430 360 369 67 11.6 4401 309 367 64 11.8 3801 368 382 68 11.2 430 366 375 67 12.5 430 370 387 68 12.3 420 369 385 68 12.5 440 354 361 68 12.3 420 357 377 68 13.3 45~ 356 374 68 13.2 430 12.0 10.1 10.1 12.0 10.1 10.1 8.0 10.1 10.1 8.0 10.1 10.1 8.0 10.1 10.1 8.0 10.1 10.1 8.0 10.1 10.1 10.0 10.1 10.1 10.0 10.1 10.1 10.0 10.1 10.1 10.0 10.1 10.1 10.0 10.1 10.1 10.0 10.1 10.1 10.0 10.1 10.1 10.0 10.1 10.1 6.0 10.1 10.1 6.0 10.1 10.1 6.0 10.1 10.1 6.0 10.1 lg.1 7.0 10.1 10.1 7.0 10.1 10.1 7.0 10.1 10.1 7.0 10.~ l~.f. 408 408 63.3 60.8 2390 409 408 63.3 61.0 2367 410 408 63.2 61.0 2373 410 410 63.2 61.2 2367 411 410 63.1 61.2 2368 410 410 63.1 61.2 2372 410 411 63.1 61.3 2368 409 412 63.1 61.3 2372 409 411 63.1 61.3 2372 410 414 63.1 61.5 2374 410 415 63.1 61.5 2374 410 411 63.1 61.5 2374 409 410 63.1 61.5 2373 409 410 63.1 61.7 2372 410 410 63.1 61.7 2368 408 409 63.3 62.1 2361 413 412 63.3 62.4 2364 409 412 63.1 62.6 2362~ 412 413 63.1 62.6 2363 411 410 63.1 62.6 2361 412 413 63.1 62.6 2361 411 409 63.1 62.& 2368 498 4~5 63.1 62.8 2264 1.~ .0 205.7 2.8 .4 205.2 4.0 .4 205.0 5.0 .5 205.0 6.0 .5 205.0 7.0 .5 205.0 8.0 .6 205.~ 9.1 .6 204.9 10.1 .6 204.9 11.1 .6 204.9 12.3 .7 204.7 13.3 .7 204.7 14.3 .7 204.7 15.3 .7 204.7 16.3 .8 204.7 19.2 1.0 204.2 21.0 1.2 204.0 22.1 1.2 203.9 23.1 1.2 203.9 24.2 1.3 203.7 25.3 1.3 203.7 26.2 1.3 203.7 27.4 1.4 2~3.6 RCD NXMD 1974.61 .87 9.12 7.09 .98 10.73 9.00 1.00 10.67 9.00 .89 10.67 9.00 .89 10.67 9.00 .93 10.67 9.00 1.03 10.66 9.~0 1.04 10.66 9.00 .98 10.65 9.~0 1.00 10.75 9.00 .99 10.75 9.g0 .91 10.75 9.00 .96 10.75 9.00 .96 10.74 9.00 .98 10.74 9.00 .98 10.74 9.00 1.05 10.73 9.~0 .99 10.68 9.00 .95 10.68 9.00 1.00 10.68 9.00 .96 10.68 9.00 1.00 1~.68 9.00 1.i5 lf.65 9.~0 1.11 1~;69 9.D0 1973.6 1975.0 1976.0 1976.7 1977.4 1978.1 1978.8 1979.6 1980.4 1981.2 1982.0 1982.7 1983.4 1984.1 1984.8 1987.1 1988.4 1989.2 1989.9: 1990.6 1991.6 1992.2 1993.1 D D D D D D D D D D D D D D D D MOC ?BUS M26 RELIEF WELL #1 F# TIME DEPTH ROP ft ft/hr 34 1621 2254.5 25.1 35 1622 2255.6 44.7 36 1624 2256.6 40.1 37 1626 2257.6 33.9 38 1627 2258.6 40.4 39 1631 2259.5 37.1 40 1705 2260.9 43.5 41 1706 2261.9 68.9 42 1707 22[;2.9 56.5 43 1708 2263.9 54.5 44 1709 2264.9 49.2 45 1710 2265.9 52.4 46 1711 2267.1 53.8 47 1712 2268.1 49.8 48 1714 2269.1 51.4 49 1715 2270.3 64.5 50 1716 2271.3 50.6 51 1717 2272.3 47.2 52 1718 2273.3 57.0 53 1719 2274.2 42.7 54 172~ 2275.4 56.2 55 1753 2275.6 37.9 56 1754 2276.7 59.4 57 1755 2277.7 41.8 58 1756 2278.8 52.2 59 1758 2279.9 34.8 60 1808 2281.2 6.0 61 1816 2282.5 7.4 62 1818 2283.5 30.7 63 1819 2284.5 42.8 64 1821 2285.7 36.8 65 1822 2286.7 39.5 66 1824 2287.7 33.7 67 1825 2288.8 50.9 68 1827 2289.8 41.0 69 1828 2290.8 46.0 70 1830 2291.8 32.2 71 1831 2293.0 61.9 72 1832 2294.0 42.7 73 1916 2295.2 47.3 74 1917 2296.3 50.9 75 1923 2297.2 9.2 76 1924 2298.0 22.2 77 1927 2299.4 27.~ 78 1928 2300.4 39.7 79 1930 2301.5 42.4 80 1931 2302.4 43.2 81 1932 22~3.4 38.2 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 358 364 68 11.9 430 361 367 68 11.5 420 353 364 68 10.6 420 345 358 68 9.72 410 338 343 67 8.62 420 333 353 67 8.98 400 360 366 58 9.83 390 362 366 59 10.7 390 362 377 59 10.2 400 366 374 59 10.1 380 364 369 59 9.80 380 359 367 59 10.4 380 354 359 59 10.0 380 362 367 59 10.9 370 363 374 59 10.3 390 362 372 60 11.3 370 351 358 60 11.6 380 362 374 60 11.7 380 362 382 59 12.2 400 366 379 60 11.1 390 357 361 60 11.7 390 367 422 67 9.20 380 374 382 67 10.2 380 357 371 66 9.20 370 362 377 66 10.0 380 371 377 67 11.7 370 355 374 66 13.9 370 351 366 66 13.0 370 357 382 67 9.28 380 362 400 66 9.19 370 368 416 67 8.19 380 363 422 67 8.83 370 362 387 67 8.38 370 353 377 67 9.06 380 366 379 67 9.10 380 357 362 67 9.21 380 355 369 67 8.71 380 350 367 67 9.47 390 378 390 67 10.3 390 380 532 62 11.2 450 360 372 63 10.2 450 357 372 63 12.3 430 372 401 63 12.3 440 384 387 64 10.1 410 368 387 63 9.13 400 363 390 63 10.4 370 379 392 63 10.3 370 373 403 63 1~.2 370 T.GAS MD lb/gal unit IN OUT FLOW/MIN TEMP (F) PVT IN OUT IN OUT Data Printed at time 17:31 Data Recorded at time 16:21 7.0 10.0 10.0 12.0 10.0 10.0 12.0 10.0 10.0 12.0 10.0 10.0 20.0 10.0 10.0 20.0 10.0 10.0 21.0 10.0 21.0 10.0 21.0 10.0 21.0 10.0 10.0 21.0 10.0 10.g 28.0 10.0 10.~ 28.0 10.0 10.0 28.0 10.0 10.0 28.0 10.0 10.0 33.0 10.0 10.0 33.0 10.0 10.~ 33.0 10.0 10.0 33.0 10.0 10.0 33.0 10.0 10.0 30.0 10.~ 10.0 30.0 10.0 10.0 30.0 10.0 10.0 30.0 10.0 10.0 30.0 10.0 10.0 30.0 10.0 10.0 6.0 10.0 10.0 6.0 10.0 10.0 6.0 10.0 10.0 6.0 10.0 10.0 28.0 10.0 10.0 28.0 10.0 10.0 28.0 10.0 10.0 28.0 10.0 10.0 28.0 10.0 10.0 30.0 10.0 10.0 30.0 10.0 10.0 30.0 10.0 10.0 30.0 10.0 10.0 15.0 10.0 10.0 9.0 10.0 10.0 20.0 10.0 10.0 20.0 10.0 10.0 20.0 1~.0 10.0 24.0 10.0 10.0 24.0 10.0 10.0 24.6 10.0 10.G 24.0 10.~ 1C.C 410 406 63.1 62.8 2364 410 405 63.1 62.9 2358 410 403 63.1 63.0 2356 410 403 63.1 63.0 2360 412 404 63.1 63.0 2358 410 408 63.1 63.0 2358 397 398 63.2 63.5 2350 397 397 63.3 63.5 2351 397 397 63.3 63.5 2351 395 397 63.3 63.5 2349 396 397 63.3 63.5 2348 397 397 63.3 63.5 2347 398 397 63.3 63.5 2348 398 397 63.3 63.5 2347 398 397 63.3 63.5 2346 398 397 63.3 63.5 2347 398 397 63.4 63.5 2347 398 398 63.5 63.5 2348 398 397 63.5 63.5 2347 398 397 63.5 63.5 2348 398 398 63.5 63.5 2347 399 398 63.5 63.9 2344 399 399 63.5 63.9 2345 399 399 63.5 63.9 2346 398 399 63.5 63.9 2346 399 399 63.5 63.9 2344 399 398 63.7 63.9 2343 398 397 63.7 63.9 2341 399 398 63.7 63.9 2339 399 401 63.7 63.9 2341 399 402 63.7 64..0 2341 398 400 63.7 64.0 2342 398 400 63.7 64.0 2342 398 398 63.7 64.~ 2343 398 399 63.7 64.0 2343 398 399 63.7 64.0 2342 398 400 63.7 64.0 2341 398 398 63.7 64.0 2340 398 400 63.7 64.0 2342 415 411 63.9 66.4 2347 415 414 63.9 66.4 2347 415 415 64.0 66.0 2343 416 414 64.0 66.0 2342 400 4~0 64.0 66.2 2340 390 390 64.0 66.4 2337 384 383 64.0 66.4 2337 375 379 64.~ 66.4 2333 374 375 64.2 66.4 2332i --THIS BlT ....... WATER ft hr DEPTH 28.5 1.4 203.5 29.6 1.5 203.4 30.6 1.5 203.4 31.6 1.5 203.4 32.6 1.5 203.4 33.5 1.6 203.2 34.9 2.1 202.1 35.9 2.1 202.1 36.9 2.1 202.1 37.9 2.2 202.1 38.9 2.2 202.1 39.9 2.2 202.1 41.1 2.2 201.9 42.1 2.2 201.9 43.1 2.3 201.9 44.3 2.3 201.7 45.3 2.3 201.8 46,3 2.3 201.7 47.3 2.3 201.7 48.2 2.4 201.8 49.4 2.4 201.6 49.6 2.9 200.4 50.7 2.9 206.3 5.1.7 2.9 200.3 52.8 2.9 200.2 53.9 3.0 200.1 55.2 3.1 199.8 56.5 3.3 199.5 57.5 3.3 199.5 58.5 3.3 199.5 59.7 3.4 199.3 60.7 3.4 199.3 61.7 3.4 199.3 62.8 3.4 199.2 63.8 3.4 199.2 64.8 3.5 199.2 65.8 3.5 199.2 67.0 3.5 199.0 68.0 3.5 199.~ 69.2 4.2 197.7 70.3 4.2 197.7 71.2 4.3 197.6 72~0 4.3 197.5 73.4 4.4 197.6 74.4 4.4 197.6 75.5 4.4 197.6 76.4 4.4 197.6 77.4 4.5 i97.6 Date Jul 3~ '88 Date Jul 8 '88 --TVD-- I DXC DEPTH I lCD N~MD 1993.9 1994.7 1995.4 1996.2 1996.9 1996.8 1998.9 1999.6 2000.3 2001.0 2001.8 2002.5 2003.4 2004.1 2~04.8 2005.7 2006.3 2007.2 2007.9 2008.5 2~09.4 2011.3 20'12.1 2012.9 2013.6 2014.5 2015.5 2016.5 2017.21 2018.0 2018.9 2019.6 2020.3 2021.1 2021.8 2022.6 2023.2 2024.2 2024.9 2024.7 2025.4 2026.2 2026.6 2~27.8 2028.4 2029.2 2~29.9 2~3~.~ 1.05 10.70 9.00 · 92 10.70 9.00 ,92 10.71 9.00 .94 10.72 9.00 .88 10.73 .92 10.74 9.00 .87 10.63 9.00 .79 10.64 9.00 .82 10.64 9.00 · 83 10.64 9.00 .84 10.64 9.00 · 84 10.64 9.00 · 83 10.65 9.00 · 86 10.66 9.00 .84 10.66 9.00 .82 10.66 9.00 .87 10.66 9.~0 .89 10.66 9.00 .86 10.67 9.00 .90 10.67 9.00 · 85 10.67 9.00 · 91 10.63 9.00 .84 10.64 9.00 .89 10.63 9.00 · 86 10.64 9.00 .98 10.64 9.00 1.40 10.63 9.00 1.33 10.61 9.00 .95 10.62 9.00 · 88 10.61 9.00 .89 10.62 9.00 .89 10.62 9.00 .91 10.62 9.00 .$5 10.63 9.00 .89 10.63 9.00 .87 10.64 9.00 .93 10.64 9.00 .82 10.64 9.00 .91 10.65 9.00 .89 10.68 9.00 .85 10.68 9.00 1.25 10.67 9.00 1.C7 10.66 9.£~ .99 10.66 9.00 .89 10.64 9.00 .90 1~.63 9.~0 .9~ 1~.62 9.60 .92 t~.62 9.~ D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D MOC TBUS M26 RELIEF WELL F# TIME DEPTH ROP ft ft/hr 82 1934 2304.4 47.5 83 1935 2305.5 52.3 84 1936 2306.6 56.3 85 1937 2307.6 43.7 86 1939 2308.6 44.5 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 392 413 63 11.3 370 374 385 64 11.8 370 389 406 64 12.5 370 379 405 63 11.1 380 399 417 64 11.1 370 369 393 T.GAS MD lb/gal unit IN OUT FLOW/MIN IN OUT TEMP IN OUT PVT Data Printed at time 17:35 Data Recorded at t~,e 19:34 87 2128 2310.2 11.5 63 10.0 390 RRB ~13R1 cut 84 fez t in 2.8 drilling hours. RRB 913R1 cut 65 feet of cement in 4.8 dilling hours. Circulating bottoms up prior to tripping for E-logs. Shozt trip prior to E-logs. Circulating bottoms up after short trip. Schlumberger ran a (]CT log. Vector Magnetics ran it's logs on Schlumberger's wire line. Tensor Mag Range ran it's logs on Schlumberger's wire line. Cementing back up the hole in preparation to side track. 24.0 10.0 10.0 374 374 26.0 10.0 10.0 374 374 26.0 10.0 10.~ 374 374 26.0 10.~ 10.D 373 374 26.~ 10.0 10.~ 374 374 26.0 10.~ 10.0 399 389 64.2 66.4 64.2 66.4 64.2 66.4 64.2 66.2 64.2 66.2 65.8 66.5 2337 2337 2334 2336 2335 2337 Date Jul 3~ 'SS Date Dui 8 '88 --THIS BlT ....... WATER --TVD--I ft hr DElmI'H DEPTH + 78.4 4.5 197.6 2031.3I 79.5 4.5 197.4 2032 80.6 4.5 197.4 2032 81.6 4.5 197.4 2033.7t 82.6 4.6 197.4 2034.4 84.2 6.2 199.3 2933.6 DXC BCD NXMD .90 10.62 9.~ .89 10.62 9.~ .89 10.62 9.00 .91 10.62 .91 10.61 9.00 1.16 10.55 9.00 D D D D D MOC TBUS M26 RELIEF #1 SIDETRACK + + F% TIM]5 DEPTH ROPI TORQUE RPM WOB PUMPt T.GAS MD lb/gal FLOW/MIN TEMP 4F) ft ft/hr~ AVG MAX AVG AVG PRESI unit IN OUT IN OUT IN OUT P%m~ped 290 sacks of class "G" cement. Tagged c~ment in the 9.625" linnet at 1531' msl. Set wireline retainer at 1550' wire. Spotted 60 sack cement plug on the retainer at 1550'. Perforated from 848 to 850' msl through a retainer. Squeezed the perforations at 842' with 300 sacks class "G" cement. Ran and oriented a 13.375" Packstock (casing wipestock) at 336' msl. Made six runs with starter mills with some problems. Ran a Trl-State flat bottom Speed mill for a gauge run. Window milled and gauged to 844' msl. NB #14 Smith SDGH 12.25" with 16:16:16 jets in at 844 feet Bit #14 run in conjuction with a NozTrack mud motor and a Teleco MD directional tool. 6 0840 844.5 52.8 7 0840 845.1 71.9 8 0841 846.1 72.9 9 0842 847.1 42.6 10 0843 848.2 53.3 11 0844 849.3 61.2 12 0845 850.3 68.2 13 0846 851.4 56.8 14 0847 852.4 56.2 15 0848 853.4 50.5 16 0849 854.5 62.4 17 0850 855.5 57.9 18 0851 856.5 64.4 19 0853 858.5 57.3 20 0854 859.7 61.3 21 0855 860.7 58.8 22 0856 861.8 56.1 23 0857 862.8 64.6 24 0857 863.8 112 25 0901 864.8 58.3 26 0901 865.9 57.1 27 0902 866.9 43.1i 28 0902 868.0 62.4 29 0902 869.0 52.7 30 0903 870.1 71.5 31 0903 871.2 53.8 32 ~903 872.2 51.8 33 0917 874.0 70.3 34 ~917 875.2 151 35 0918 876.2 117 36 0918 877.2 121 37 0919 878.2 115 38 0921 879.2 33.6 39 0921 880.3 103 40 ~922 881.3 54.5 |1 0923 882.3 71.~ 0 0 121 2.10 1480 0 0 119 1.90 1550 0 0 119 2.30 1570 0 0 119 5.10 1750 0 0 121 2.50 1530 0 0 119 2.20 1400 0 0 119 1.70 1540 0 0 120 1.50 1630 0 0 121 1.10 1560 0 2 120 1.50 1510 0 0 120 2.30 1450 0 0 119 .80 1580 0 0 119 2.00 1430 0 0 119 1.80 1610 0 0 121 1.70 1320 0 0 120 1.90 1510 0 0 121 1.80 1540 0 0 120 1.70 1590 0 0 120 1.50 1510 0 2 120 1.70 1340 0 2 120 1.70 1360 0 2 120 1.60 1370 0 2 120 1.50 1340 0 2 120 2.20 1340 0 2 120 1.30 1310 0 2 120 3.70 1440 0 2 120 2.80 1490 12 100 119 .80 1500 0 0 120 2.00 1540 0 0 133 1.~0 1530 0 0 136 .90 1560 0 0 133 2.10 1670 0 2 122 1.10 1500 0 0 120 .90 1530 0 0 120 1.C0 1520 0 0 120 4.4C 1700 3.0 9.60 9.60 482 483 74.7 83.3 3.0 9.60 9.60 477 474 74.7 83.3 3.0 9.60 9.60 480 476 74.7 83.1 3.0 9.60 9.60 477 479 74.7 82.9 3.0 9.60 9.60 487 487 74.7 82.6 3.0 9.60 9.60 476 480 74.7 82.7 3.0 9.60 9.60 478 476 74.7 82.6 3.0 9.60 9.60 482 483 74.7 82.8 3.0 9.60 9.60 482 479 74.7 82.5 3.0 9.60 9.60 480 479 74.7 82.6 3.0 9.60 9.60 484 480 74.7 82.8 2.0 9.60 9.60 476 477 74.7 82.6 2.0 9.60 9.60 479 479 74.7 82.2 2.0 9.60 9.60 479 478 74.7 81.9 2.0 9.60 9.60 482 483 74.8 82.0 2.0 9.60 9.60 482 479 74.8 82.0 2.0 9.60 9.60 482 481 74.8 82.2 2.0 9.60 9.60 480 480 75.0 82.4 2.0 9.60 9.60 481 479 75.1 82.4 2.0 9.60 9.60 473 473 75.0 81.9 2.0 9.60 9.60 472 474 75.0 81.9 2.0 9.60 9.60 473 474 75.0 81.9 2.0 9.60 9.60 474 475 75.0 81.9 2.0 9.60 9.60 475 476 75.0 81.9 2.0 9.60 9.60 477 478 75.0 81.8 2.0 9.60 9.60 477 478 75.0 81.8 2.0 9.60 9.60 477 478 75.~ 81.6 2.0 9.60 9.60 480 480 75.4 79.9 2.0 9.60 9.60 484 488 75.4 79.7 2.~ 9.60 9.6~ 536 536 75.4 79.6 2.0 9.60 9.60 542 543 75.4 79.5 2.0 9.60 9.60 524 525 75.4 79.3 2.0 9.60 9.60 482 483 75.6 79.~ 4.0 9.60 9.60 481 481 75.6 78.9 4.~ 9.60 9.6~ 480 480 75.2 79.4 4.~ 9.60 5.60 481 482 75.1 79.9 Data Printc-d at time 21:39 Date Data Recorceo at time 03:21 Date Jul 3~ '88 Jul 16 '88 PVTI --THIS~t BIT-hr ...... WATERDEPTH --TVD--IDEPTH DXC BCD NXMD 919 92~ 920 919 919 919 919 918 919 919 919 919 918 918 919 919 919 919 919 919 919 919 919 919 918 919 919 916 918 917 917 916 915 912, 907 .5 .0 206.9 843.7 1.1 .0 206.9 844.2 2.1 .1 206.9 845.2 3.1 .1 206.9 846.1 4.2 .1 206.8 847.2 5.3 .1 206.7 848.3 6.3 .1 206.7 849.3 7.4 .2 206.6 85~.4 8.4 .2 206.6 851.4 9.4 .2 206.6 852.4 10.5 .2 206.5 853.5 11.5 .2 206.5 854.5 12.5 .2 206.5 855.4 14.5 .3 2~6.5 857.4 15.7 .3 206.3 858.6 16.7 .3 206.3 859.6 17.8 .3 206.2 860.7 18.8 .3 206.2 861.7 19.8 .3 206.2 862.7 20.8 .4 206.2 863.6 21.9 .4 206.1 864.7 22.9 .4 206.1 865.7 24.0 .4 206.~ 866.6 25.~ .4 2~6.0 867.8 26.1 .4 205.9 868.9 27.2 .4 205.8 869.9 28.2 .4 205.8 870.9~ 3~.0 .6 2~5.~ 872.7 31.2 .6 204.9 873.8i 32.2 .6 204.8 874.9 33.2 .6 204.8 875.9 34.2 .6 2~4.8 876.9 35.2 .6 204.8 877.8i 36.2 .6 2~4.7 878.9 37.3 .7 2~4.7 879.9 3~.Z .7 2~4.7 88~.9 .73 .67 .69 .88 .74 .70 .66 .67 .64 .69 .70 .61 .68 .69 .67 .69 .69 .66 .58 .68 .68 .72 .66 .72 .62 .79 .75 .59 .56 .55 .54 .62 .72 .55 .64 .77 9.87 9.00 9.88 9.00 9.88 9.00 9.90 9.00 9.91 9.00 9.92 9.00 9.93 9.00 9.93 9.00 9.95 9.00 9.96 9.00 9.96 9.00 9.97 9.00 9.98 9.~0 9.98 9.00 9.99 9.00 9.99 9.00 9.99 9.00 9.99 9.00 9.98 8.91 9.96 8.91 9.96 8.91 9.96 8.91 9.97 8.91 9.97 8.91 9.98 8.91 9.98 8.91 9.98 8.91 9.92 8.91 9.93 8.86 9.93 8.83 9.94 8.82 9.94 8.82 9.90 8. 9.90 8.80 9.91 D D D D D D D D D D D D D D D D D D D D D D D D D D + MOC ~BU$ M26 RELIEF ~1 SIDSTRACK IF~ TIME DEPTH ROP ft ft/hr + 42 0924 883.5 54.8 43 0926 884.5 39.6 44 0926 885.5 100 45 0927 886.5 73.2 46 0928 887.5 63.9 47 0928 888.2 51.2 48 0931 889.8 27.1 49 0931 890.8 26.1 5~J 0932 891.8 15.1 51 0933 892.8 25.9 52 ~934 893.8 29.5 53 0935 895.0 62.5 54 0936 896.0 56.2 55 0937 897.2 57.1 56 0938 898.2 56.1 57 0942 899.5 58.0 58 0943 900.5 64.3 59 0944 901.5 60.9 60 0945 902.7 64.3 61 0946 903.7 68.0 62 0949 904.8 61.1 63 0949 905.8 77.3 64 1006 907.8 48.9 65 1006 908.8 125 66 1006 909.8 164 67 1007 910.8 191 68 1007 911.8 166 69 1011 913.2 47.8 70 1012 914.2 54.6 71 1013 915.2 49.9 72 1014 916.3 76.4 73 1015 917.4 63.7 74 1015 918.5 93.9 75 1016 919.5 ~3.2 76 1017 920.5 74.6! 77 1017 921.5 90.8~ 78 1018 922.5 64.5 79 1019 923.7 70.8 80 1020 924.7 128 81 1020 925.7 97.1 82 1021 926.7 125 83 1021 927.8 148 84 1021 928.8 140 85 1022 929.9 65.1 86 1023 930.9 82.5 87 1023 932.0 123 88 1025 933.~ 47.3 89 1026 934.2 37.2 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 0 0 121 1.50 1570 0 0 121 1.10 1530 0 0 119 1.00 1380 0 0 120 .80 1470 0 0 120 1.20 1580 0 '0 121 5.00 1670 0 0 121 6.90 1650 0 0 121 3.90 1660 0 0 120 7.00 1710 0 0 120 2.60 1590 0 0 12~ 3.10 1630 0 0 121 3.20 1580 0 0 119 3.30 1670 0 0 120 3.60 1590 0 0 121 3.10 1590 0 0 120 3,40 1570 0 0 120 3.20 1570 0 0 119 3.00 1560 0 0 120 2.60 1520 0 0 121 4.60 1580 0 0 121 4.60 1550 0 0 120 3.00 1520 108 399 127 3.90 145~ 215 244 174 3.60 1410 217 236 176 5.10 1490 220 244 175 4.60 1400 214 218 176 6.10 144~ 7 197 137 3.90 2100 11 207 134 3.40 1840 1 49 133 5.60 1970 0 0 132 4.10 1880 0 0 133 2.50 1780 0 0 133 1.30 191~ 0 0 123 2.20 1860 0 0 133 2.10 1900 0 0 132 1.60 1850 0 0 133 1.60 1780i 3 31 132 1.90 1930 0 0 132 3.00 1940 0 0 133 1.90 19101 0 0 133 3.10 1900 15 113 132 2.60 1850 0 0 133 4.90 1850 0 0 133 4.00 1930 0 0 134 5.10 1960 0 0 134 4.10 2090 7 65 134 7.G0 20~0 0 0 134 8.1~ 2~30 T.GAS MD lb/gal. FLGW/MIN TEMP (F) PVT unit IN OUT IN OUT IN OUT 4.0 9.60 9.60 483 484 75.2 80.1 906 4.0 9.60 9.60 483 484 75.3 80.1 907 6.0 9.60 9.60 477 479 75.4 80.2 908 6.0 9,60 9.60 479 481 75.5 80.4 907 6.0 9.60 9.60 481 483 75.5 80.4 906 6.0 9,60 9.60 483 482 75.6 80.5 907 6.0 9.60 9.60 484 486 75,7 80.8 905 1~.0 9.60 9.60 484 485 75.9 80.8 9~5 10.0 9.60 9.6~ 481 482 75.9 80.8 906 10.0 9.60 9.60 478 479 75.9 80.8 903 10.0 9.60 9.60 481 486 75.8 80.6 903 12.0 9.60 9.60 483 484 75.9 80.5 901 12.0 9.60 9.6~ 476 478 76.1 80,6 900 12,0 9.60 9.60 482 484 76.1 80.6 903 12.0 9.60 9.60 484 485 76.1 80.6 901 12.0 9.60 9.60 483 485 76.3 80.6 903 12.0 9.60 9.60 479 481 76.3 80.6 904 12.0 9.60 9.60 476 476 76.4 80.6 903 12.0 9.60 9.60 477 477 76.5 80.6 901 12.0 9.60 9.60 486 486 76.5 80.8 900 12.0 9.60 9.60 479 481 76.5 80.9 898 7.0 9.60 9.60 483 483 76.5 80.9 898 7.0 9.60 9.60 462 462 76.8 79.7 890 7.0 9.60 9.6~ 468 469 76.8 79.7 890 7.0 9.60 9.60 469 470 76.8 79.7 889 5.0 9.60 9.60 469 470 76.9 79,7 889 5.0 9.60 9.60 469 470 77.0 79.7 887 5.0 9.60 9.60 530 531 76.9 79.5 885 5.0 9.60 9.60 534 535 76.9 79.4 884 20.0 9.60 9.60 533 535 76.9 79.3 884 20.0 9.60 9.60 529 529 77.0 79.3 883 20.0 9.60 9.60 530 530 77.~ 79.3 882 20.0 9.60 9.60 531 533 76.9 79.2 883 20.~ 9.6~ 9.60 529 53~ 76.9 79.3 8~4 12.0 9.60 9.60 532 533 76.9 79.3 883 12.0 9.6~ 9.60 528 529 77.0 79.3 883 12.0 9.60 9.60 533 534 77.0 79.3 884 12.0 9.60 9.60 525 526 77.0 79.3 883 12.0 9.60 9.60 527 528 77.0 79.3 883 18.0 9.60 9.60 531 532 77.~ 79.3 883 18.~ 9.60 9.60 530 532 77.0 79.3 883 18.0 9.60 9.60 530 531 76.9 79.3 883 18.0 9.60 9.60 532 533 76.9 79.3 883 18.0 9.6~ 9.60 534 535 77.0 79.2 882 12.0 9.60 9.60 534 536 77.0 79.3 882 12.0 9.6~ 9.60 535 536 77.~ 79.3 883 12.0 9.60 9.60 534 536 76.9 79.2 883 12.~ 9.60 9.6~ 536 537 77.1 79.2 ~82 Data Printed at time 21:42 Data RecordeC at tlme 09:24 --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 39.5 .7 204.5 882.1 40.5 .7 2~4.5 883.1 41.5 .7 204.5 884.0 42.5 .7 204.5 885.0 43.5 .7 204.5 886.~ 44.2 .8 204.4 887.1 45.8 .8 204.2 888.3 46.8 .8 2~4.2 889.2 47.8 .8 204.2 890.2 48.8 .8 204.2 891.2 49.8 .9 204.2 892.2 51.0 .9 204.0 893.3 52.0 .9 204.0 894.3 53.2 .9 203.8 895.5 54.2 .9 203.8 896.5 55.5 1.0 203.5 897.8 56.5 1.0 203.5 898.7 57.5 1.0 203.5 899.7 58.7 1.0 203.3 900.9 59.7 1.1 203.3 901.9 60.8 1.1 203,2 903.0 61.8 1.1 203.2 903.9 63.8 1.3 202.2 905.9 64.8 1.3 202.2 906.9 65.8 1.3 202,2 907.9 66.8 1.3 202.2 908.8 67.8 1.3 202.2 909.8 69.2 1.4 201.8 911.2 70.2 1.4 201,8 912.2 71.2 1.4 201.8 913.1 72.3 1.5 201.7 914.2 73.4 1.5 201.6 915.3 74.5 1.5 201.5 916.4, 75.5 1.5 2~1.5 917.~' 76.5 1.5 201.5 918.1 77.5 1.5 201.5 919.1 78.5 1.5 201.5 79.7 1.6 201.3 80.7 1.6 201.3 81.7 1.6 201.3 82.7 1.6 201.3 83.8 1.6 201.2 84.8 1.6 201.2 85.9 1.6 201.1 86.9 1.6 201.1 88.6 1.6 201.~ 89.~ 1.6 2~1,~ 90.£ 1.7 2~0.~ Date Oul 30 '88 Date Jul 16 '88 DXC ECD NXMD .68 .69 .56 .58 .64 .84 1.01 .92 1.12 .85 .86 .75 .77 .78 .76 .75 .74 .74 .72 .79 .80 .71 .83 .72 .72 .68 .74 .84 .80 .89 .77 .73 .61 .67 .68 .63 920.~ .68 921.2 .68 922.2 .64 923.2 .63 924.1 .65 925.2 .60 926.2 .69 927.2 .79 928.2 .78 929.2 .69 93~.i .93 931.4 i.~1 9.91 8.80 9.90 8.80 9.90 8.76 9.91 8,67 9.91 8.67 9.92 8.67 9.93 8.67 9.93 8.67 9.93 8.67 9.92 8.67 9.91 8.67 9.91 8.67 9.91 8.67 9.91 8.67 9.91 8.67 10.09 8.67 9.89 8.67 9.89 8.67 9.89 8.67 9.89 8.67 9.89 8.67 9.88 8.67 9.83 8.67 9.84 8.67 9.84 8.67 9.85 8.67 9.86 8.67 9.87 8.67 9.88 8.67 9.88 8.67 9.89 8.67 9.90 8.67 9.90 8.56 9.92 8.56 9.92 8.56 9.93 8.56 9.93 8.56 9.93 8.56 9.94 8.56 9.94 8.56 9.94 8.56 9.94 8.47 9.94 8.47 9.94 8.47 9.95 8.47 9,95 8.47 9.96 8.47 9.95 8.47 D D D D D D D D D D D D D D D D 90 91 92 93 94 95 96 97 98 99 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 1125 1.26 127 128 129 130 131 132 133 134 135 1.56 137 MOC TBUS M26 RELIEF 91 S1DE~RACK Data Prlntec at time 21:46 Date Jul 3~ '88 Data Recoraed at time 10:27 Date Jul 16 '88 TI~£ DEPTH ROP ft ft/hr 1027 935.2 55.2 1029 936.3 47.$ 1030 937.4 53.9 1031 938.5 44.2 1032 939.5 85.1 1032 940.5 93.3 1033 941.5 94.8 1033 942.6 108 1034 943.7 57.~ 1035 944.8 64 5 1037 945.9 56.7 1117 948.5 18.1 1120 949.8 20.0 1122 951.2 41.6 1126 952.6 18.5 1129 953.8 19.8 1131 955.4 32.0 1134 956.7 20.2 1136 957.6 28.3 1138 958.8 27.3 1140 959.8 25.3 1143 961.1 20.4 1145 962.3 32.6 1147 963.3 31.8 1149 964.5 23.9 1153 965.5 15.2 1156 966.6 21.3 1159 967.6 17.4 1204 968.9 12.7 1210 970.2 10.0 1221 971.8 17.0 1222 972.9 216 1222 974.0 270 1225 975.1 22.4 1227 976.3 34.0 1232 977.5 27.4 1235 978.7 16.8 1240 979.8 11.8 1247 981.4 463 1247 982.4 450! 1311 985.2 58.0i 1312 986.1 49.0 1313 987.1 60.4 1313 988.2 119 1314 989.1 58.0 1315 990.1 63.51 1316 991.2 66.21 1317 992.1 1G3 TORTE R~ WOB PUMP A~ MX A~ A~ P~S 0 0 134 7.40 1930 1 34 134 4.90 1900 0 0 133 6.70 2000 22 107 134 5.70 1920 0 0 134 5.50 1860 0 0 134 5.70 1940 0 0 134 7.30 2270 0 0 134 6.40 1970 0 0 134 3.80 1940 0 0 134 4.40 1860 0 0 134 2.90 1870 0 0 114 7.70 1500 11 73 115 10.0 1600 11 123 114 9.40 1570 0 2 115 13.4 1490 0 0 115 12.4 1560 15 100 119 13.5 1480 0 0 119 7.20 1500 0 0 119 14.6 1730 0 0 119 12.6 1600 0 0 120 14.6 1610 0 0 120 8.30 1380 0 0 120 11.5 1730 0 0 120 11.5 1620 0 0 120 12.6 1600 0 0 120 12.0 1580 0 0 119 11.7 1670 0 0 119 13.2 1600 0 0 119 12.2 1610 0 0 119 12.1 1740 179 222 172 7.00 1410 254 275 171 8.70 1680 278 281 170 9.70 1770 177 273 161 9.90 1710 0 40 120 1.80 1640 0 0 119 4.30 1560 0 0 119 10.8 1610 0 0 119 15.8 1640 0 0 155 17.0 2570 0 0 155 15.3 2610 0 0 151 9.50 2410 0 0 151 6.70 2540 0 0 151 6.50 2510 0 0 150 7.20 2490 0 0 151 6.20 2410 11 131 151 5.80 2310 ~ 0 151 6.50 2520 0 0 151 6.6~ 2600 T.GA$ ~D lb/gal FLOW/MIN TEMP IF) unit IN OUT IN OUT IN OUT 27.0 9.60 9.60 535 536 77.1 79.5 27.0 9.60 9.60 534 535 77.0 79.5 27.0 9.60 9.60 534 534 77.0 79.5 27.0 9.60 9.60 536 537 77.1 79.5 27.0 9.60 9.60 536 536 77.1 79.5 20.~ 9.60 9.60 536 537 77.2 79.5 20.0 9.60 9.60 537 537 77.2 79.6 20.0 9.6~ 9.60 537 537 77.~ 79.7 20.~ 9.60 9.60 535 536 77.1 79.7 20.0 9.60 9.60 536 538 77.0 79.7 8.0 9.60 9.60 536 537 77.1 79.7 8.0 9.60 9.60 456 457 78.1 79.3 8.0 9.60 9.6~ 459 461 78.2 79.3 3.0 9.60 9.60 461 460 78.3 79.3 3.0 9.60 9.60 465 463 78.1 79.3 3.0 9.60 9.60 473 469 78.3 79.5 3.0 9.60 9.60 478 478 78.4 79.5 3.0 9.60 9.60 472 471 78.6 79.5 3.0 9.60 9.60 474 474 78.5 79.5 3.0 9.60 9.60 474 473 78.5 79.5 3.0 9.60 9.60 481 482 78.5 79.5 3.~ 9.60 9.60 475 476 78.5 79.6 3.0 9.60 9.60 480 481 78.5 79.7 3.0 9.60 9.60 480 476 78.6 79.7 3.0 9.60 9.60 480 481 78.7 79.7 2.0 9.60 9.60 479 474 78.7 79.7 882 883 882 882 882 881 882 880 880 879 882 868 872 872 867 867 862 863 863 867 868 868 866 867 867 869 --THIS BIT ....... WATER --TVD-- it hr DEFI'H DEPTH 91.2 1.7 200.8 932.4 92.3 1.7 2~0.7 933.4 93.4 1.7 200.6 934.5 94.5 1.7 200.5 935.6 95.5 1.8 200.5 936.5 96.5 1.8 200.5 937.5 97.5 1.8 200.5 938.5 98.6 1.8 20~.4 939.6 99.7 1.8 200.3 940.6 101 1.8 2~0.2 941.7 102 1.9 200.1 942.7 105 2.4 198.5 945.3 106 2.5 198.2 946.6 107 2.5 197.8 948.~ 109 2.6 197.4 949.3 110 2.6 197.2 950.5 111 2.7 196.6 952.1 113 2.7 196.3 953.3 114 2.7 196.4 954.2 115 2.8 196.2 955.4 116 2.8 196.2 956.3 117 2.9 195.9 957.5 118 2.9 195.7 958.7 119 2.9 195.7 959.7 121 3.0 195.5 960.8 122 3.0 195.5 961.8 DXC ECD NXMD .91 .87 .90 .91 .79 .78 .81 .77 .8~ .77 1.11 1.15 ' .99 1.24 1.21 1.14 1.07 1.18 1.15 1.21 1.10 1.09 1.10 1.18 1.26 2.0 9.60 9.60 477 476 79.0 79.9 2.0 9.60 9.60 474 474 79.1 79.9 2.0 9.60 9.60 476 476 79.3 79.9 2.0 9.60 9.60 476 474 79.3 80.1 2.0 9.60 9.60 475 475 79.7 80.1 2.0 9.60 9.60 478 475 79.6 79.7 2.0 9.60 9.60 480 475 79.6 79.7 13.0 9.60 9.60 473 469 79.7 79.5 13.0 9.60 9.60 478 479 79.7 79.3 13.0 9.60 9.70 476 472 79.7 79.0 13.0 9.60 9.70 475 475 78.9 79.0 13.0 9.60 9.70 473 473 78.6 78.8 3.0 9.60 9.70 620 621 79.0 79.0 3.0 9.60 9.70 626 621 79.0 79.0 17.0 9.60 9.70 6~5 605 79.6 79.5 17.0 9.60 9.70 605 606 79.7 79.5 17.0 9.60 9.70 606 606 79.6 79.5 17.0 9.60 9.70 601 602 79.7 79.5 17.0 9.60 9.70 604 606 79.7 79.5 19.0 9.60 9.70 601 602 79.7 79.5 19.0 9.60 9.70 604 605 79.7 79.5 19.0 9.60 9.70 605 605 79.8 79.6 869 877 871 877 879 881 881 878 871 872 913 943 942 942 877 865 854 852 853 849 849 847 123 3.1 195.4 124 3.1 195.4 125 3.2 195.1 126 3.3 194.8 128 3.5 194.2 129 3.5 194.1 130 3.5 194.0 131 3.6 193.9 132 3.6 193.7 134 3.7 193.5 135 3.7 193.3 136 3.8 193.2 137 3.9 192.6 138 3.9 192.6 141 4.2 190.8 142 4.3 190.9 143 4.3 190.9 144 4.3 190.8 145 4.3 190.9 146 4.3 190.9 147 4.3 190.£ 148 4.4 190.9 963.8 1.26 965 1.30 966 1.35 967 1.17 968 .74 970.01 .71 971.11 1.19 972.2 .77 973.4 .92 974.5 1.21 975.6 1.40 977.2 .67 978.1 .66 980.9 .99 981.7 .95 982.7 .90 983.8 .8~ 984.6 .90 985.6 .87 986.6 .89 987.5 .61 9.95 8.47 9.95 8.47 9.95 8.47 9.94 8.47 9.93 8.47 9.94 8.47 9.94 8.47 9.94 8.47 9.93 8.47 9.93 8.47 9.92 8.47 9.87 8.47 9.89 8.47 9.90 8.47 9.91 8.47 9.91 8.47 9.91 8.47 9.92 8.47 9.92 8.47 9.92 8.47 9.93 8.47 9.93 8.47 9.94 8.47 9.94 8.47 9.93 8.47 9.92 8.47 9.91 8.47 9.91 8.47 9.88 8.47 9.89 8.47 9.86 8.47 9.86 8.47 9.86 8.47 9.87 8.47 9.89 8.47 9.90 8.47 9.89 8.47 9.87 8.47 9.86 8.47 9.87 8.47 9.84 8.47 9.84 8.47 9.86 8.47 9.86 8.47 9.88 8.47 9.~8 8.47 9.~9 ~.47 9.9G 8.47 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D IF# TIME DEPTH ROP £t it/hr MOC TBUS M26 RSLIEF #1 S1DETP~.CK Data Printeo at time 22:~5 Data Reco~a£a at time 13:17 Date Jul 3~ '88 Date Jul 16 '~8 138 1317 993.3 106 139 1318 994.4 97.0 140 1319 995.1 84.5 141 1319 996.1 95.7 142 1320 997.1 90.0 143 1321 997.9 83.5 144 1321 999.1 138 145 1321 1000.1 116 146 1322 1001.1 116 147 1323 1002.1 81.1 148 1323 1003.2 94.7 149 1324 1004.3 70,1 150 1325 1005.4 102 151 1325 1006.4 133 152 1326 1007.4 104 153 1326 1008.4 83.5 154 1327 1009.4 67.2 155 1328 1010.4 82.9 156 1329 1011.4 90.1 157 1329 1012.6 116 158 1330 1013.7 101 159 1330 1014.9 92.6 160 1331 1015.9 77.4 TORQUE RPM ~OB PUMP AVG MAX AVG AVG PRES 150 6.00 2670 149 5.70 2260 151 4.90 2120 142 7.60 2200 135 6.60 2060 134 6.40 2050 135 7.20 2050 135 7.60 2170 135 6.80 2160 135 6.40 2110 135 8.60 2090 135 5.70 2030 136 5.90 1920 135 6.30 1960 134 8.30 2020 135 8.80 1980 135 6.80 1990 135 7.00 2120 135 7.40 2130 135 7.90 2150 134 9.30 1960 135 9.70 2070 133 4.80 2120 T.GA$ MD lb/gal FLOW/MIN TEMP ~F) unit IN OUT IN OUT IN OUT 19.0 9.60 9.70 599 601 79.8 79.6 19.0 9.60 9.70 598 599 79.7 79.7 18.0 9.60 9.70 601 603 79.7 79.7 18.0 9.60 9.70 566 561 79.7 79.7 18.0 9.60 9.70 538 539 79.8 79.7 18.0 9.60 9.70 537 542 79.9 79.7 18.0 9.60 9.70 539 539 79.9 79.7 18.0 9.60 9.70 541 537 80.0 79.7 18.0 9.60 9.76 541 542 79.9 79.7 18.0 9.60 9.70 542 543 79.9 79.7 18.0 9.60 9.70 541 542 79.9 79.9 18.0 9.60 9.70 542 543 79.9 79.9 10.0 9.60 9.70 542 543 79.8 79.9 10.0 9.60 9.70 538 539 79.9 79.9 10.0 9.60 9.70 537 533 79.8 79.9 10.0 9.60 9.70 540 537 79.8 79.9 10.0 9.60 9.70 541 539 79.8 79.9 8.0 9.60 9.70 542 542 80.0 79.9 8.0 9.60 9.70 541 54~ 79.9 80.1 8.0 9.60 9.70 541 540 79.9 80.1 8.0 9.60 9.70 537 538 79.8 80.1 8.0 9.60 9.70 539 539 79.9 80.1 4.0 9.60 9.70 532 536 80.1 80.1 PVT 850 852 850 850 855 856 855 855 856 857 860 861 863 859 861 860 860 859 858 853 855 850 843 --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 149 4.4 190.7 988.6 150 4.4 190.6 989.7 151 4.4 19~.9 990.3 152 4.4 190.9 991.3 153 4.4 190.9 992.2 154 4.4 191.1 993.0 155 4.4 190.9 994.1 156 4.4 190.9 995.~ 157 4.4 190.9 996.~ 158 4.5 190.9 997.0 159 4.5 190.8 998.0 160 4.5 190.7 999.1 161 4.5 190.6 1000.1 162 4.5 190.6 1001.1 163 4.5 190.6 10~2.0 164 4.5 190.6 1002.9 165 4.5 190.6 1003.9 166 4.5 190.6 1004.8 167 4.5 190.6 1005.8 169 4.6 190.4 1007.0 170 4.6 190.2 1008.6 171 4.6 190.1 1~09.1 172 4.6 190.1 1010.1 DXC ECD NXMD .78 9.91 8.47 .79 9.92 8.4? .79 9.93 8.47 .83 9.94 8.47 .81 9.94 8.47 .81 9.95 8.47 .74 9.96 8.47 .78 9.97 8.47 .76 9.98 8.47 .82 9.98 8.47 .84 9.99 8.47 .82 10.00 8.47 .76 10.01 8.47 .72 10.01 8.47 .81 10.~1 8.47 .86 10.02 8.47 .86 10.~1 8.47 .83 10.01 8.47 .82 10.01 8.47 .79 10.02 8.47 .84 1~.02 8.47 .86 10.02 8.47 .78 10.02 8.47 NB ~14 cut 172 feet in 4.6 drilling hours. Ran single shot gyro survey at 986' msl. NB #15 Smith SDGH 12.25" with 16:16:16 jets in at 1016 feet. Bit ~15 run in conjuction with a NorTrack mud motor and a Teleco M~I) directional tool. 163 2309 1016.5 108I 164 2310 1017.5 142I 165 2310 1018.7 145I 166 2310 1019.5 127I 167 2311 1020.5 136I 168 2311 1021.5 136I 169 2311 1022.6 145i 170 2312 1023.7 147 171 2314 1024.9 33.71 172 2314 1025.9 27.01 173 2330 1027.9 143! 174 2330 1028.9 130 175 2331 1029.9 159 176 2331 1030.9 157 177 2331 1031.9 206 178 2332 1032.9 120 179 2332 1034.0 112 180 2333 1035.~ 120 181 2333 1036.1 99.9 182 2334 1037.1 112 183 2334 103~.2 112 122 6.60 1940 123 6.50 1850 122 8.80 1960 122 7.20'1890 123 7.90 1930 123 7.90 1860 122 7.50 1920 123 7.00 1880 122 3.10 1860 122 3.30 1700 123 8.30 1890 123 8.50 2000 123 6.90 1840 123 6.90 1870 123 7.70 1900 123 5.80 1930 123 4.80 191~ 123 6.2~ 1880 123 6.0~ 1890 122 6.40 1840 120 5.30 190~ 4.0 9.60 9.70 488 490 76.1 67.6 4.0 9.60 9.70 490 491 75.9 67.3 4.0 9.60 9.70 488 492 75.9 67.3 4.0 9.60 9.70 488 492 75.8 67.7 13.0 9.60 9.70 491 492 75.8 67.7 13.0 9.60 9.70 493 493 75.7 68.0 13.0 9.60 9.70 4~9 494 75.6 68.2 13.0 9.60 9.70 490 494 75.6 68.4 13.0 9.60 9.70 495 497 75.4 69.3 27.0 9.60 9.70 495 496 75.4 69.3 27.0 9.60 9.70 491 495 74.8 73.5 27.0 9.60 9.70 491 494 74.8 73.7 27.0 9.60 9.70 491 493 74.8 73.8 27.0 9.60 9.70 491 493 74.8 73.8 27.~ 9.60 9.70 492 494 74.9 74.0 27.0 9.60 9.70 492 494 74.9 74.~ 27.0 9.60 9.7~ 492 494 75.0 74.1 21.0 9.60 9.7~ 490 494 75.0 74.2 21.~ 9.60 9.70 491 491 75.0 74.3 21.0 9.60 9.70 486 491 75.~ 74.2 21.0 9.60 9.7~ 482 482 75.~ 74.2 858 859 859 858 857 857 856 856 853 852 854 854 854 854t 14.9 8541 15.9 8531 16.9 8541 18.~ 8531 19.0 853] 21.1 5521 22.2 + .5 1.5 2.7 3.5 4.5 5.5 6.6 7.7 8.9 9.9 11.9 12.9 13.9 .0 202.5 1009.9 .1 202.5 1010.9 .1 202.5 1012.0 .1 202.5 1012.8 .1 202.5 1013.1] .1 202.5 1014. .1 202.4 1~15. .1 202.3 1016. .1 202.1 1017.9 .1 202.1 1018.8i .3 201.1 1~20.8 .3 2Gl.1 1021.7 .3 201.1 1022.6 .3 201.1 1023.6 .3 201.1 1024.5 .3 201.1 1025.4 .4 201.~ 1026.5 .4 201.~ 1027.5 .4 2~.9 1~28.4 .4 200.9 1029.4 .4 2~.~ 1~3~.4 .75 9.97 8.47 · 70 9.97 8.47 · 74 9.99 8.47 .74 9.99 8.47 .73 10.06 8.47 .73 10.09 8.47 .71 10.~9 8.47 .70 10.10 8.47 .83 10.11 8.47 .87 10.11 8.47 .73 10.08 8.47 .75 10.08 8.47 .69 10.~& 8.47 .69 10.08 8.47 .65 10.09 8.47 .71 10.~9 8.47 .70 10.1~ 8.47 .72 1~.1~ 8.47 .75 1~.il 8.47 .73 i~.11 8.47 .7~ 10.11 8.47 D D D D D D D D D D D D D D D D D D D D D D D I F# TIME DEPTH ROP ft ft/hr + 231 0039 1089.4 38.3 232 ~040 1090.6 61.9 233 0041 1091.7 55.5 234 0042 1092.8 58.1 235 0043 1093.7 52.9 236 0119 1095.1 327 237 0124 1096.1 61.0 238 0124 1097.1 147 239 0124 1098.2 173 240 0125 1099.1 214 241 0125 1100.2 199 242 0125 1101.3 136 243 0126 1102.3 76.7 244 0126 1103.3 126 245 0127 1104.3 98.2 246 0128 1105.2 112 247 0128 1106.2 140 248 0129 1107.3 86.6 249 0130 1108.5 39.9 250 0132 1109.5 25.9 251 0133 1110.5 85.8 252 0134 1111.7 106 253 0134 1112.7 87.8 254 0135 1113.7 90.4 255 0136 1114.7 97.4 256 0136 1115.8 130 257 0137 1116.8 116 258 0137 1117.8 112 259 0138 1118.8 95.6 260 0138 1119.8 124 261 0139 1120.8 131 262 0139 1121.8 113 263 0140 1122.8 149 264 0140 1123.8 124 265 0141 1124.8 111 266 0141 1125.8 103 267 0142 1126.8 125i 268 0142 1127.8 112 269 0216 1129.4 165 270 0217 1130.4 360 271 0217 1131.4 320 272 0217 1132.4 200 273 0217 1133.4 269 274 0217 1134.5 268 275 0218 1135.5 145 276 0218 1136.4 230 277 0218 1137.5 157 278 0219 1128.4 133 MCC TBUS M26 RELIEF #1 SIDETRACK ~R~E RPM WOB PUMP A~ MAX A~ A~ PHS 0 0 151 10.4 2760 11 70 151 11.8 2290 0 0 151 6.90 2600 0 0 151 9.50 2760 22 115 151 8.10 2480 0 0 150 6.90 2770 0 0 150 7.40 2550 0 0 149 8.50 2570 0 0 150 3.2~ 2516 0 0 149 4.20 2450 0 0 148 5.10 2440 0 0 149 5.20 241{ 0 0 149 4.70 2510 0 0 149 6.70 2620 0 0 148 6.70 2430 0 0 149 7.80 2420 0 0 150 5.70 2210 12 79 150 8.30 2460 0 78 150 4.20 2580 6 78 149 3.60 2580 0 0 150 4.30 2450 0 0 150 4.60 2410 0 0 150 4.00 2440 0 0 150 4.7~ 2610 0 0 150 5.00 2380 0 0 149 6.10 2640 0 0 148 4.40 2390 0 0 149 4.20 2460 0 0 148 5.00 2190 0 0 149 5.00 2600 0 0 149 3.60 25t0 0 0 149 5.90 2480 0 0 150 6.20 236~ 0 0 150 4.80 2370 0 0 152 8.40 2380 0 0 157 6.30 2370 0 0 174 5.80 2550' 0 0 168 5.10 2490 0 3 149 2.90 2410 0 0 147 2.2~ 2350 0 0 148 3.90 2310 0 0 147 3.50 2250 0 0 147 5.50 2530 0 0 147 6.60 2610 0 0 148 3.10 2340 0 0 147 3.30 2320 0 0 146 2.90 2490 0 0 147 3.36 2540 T.GA$ MD lb/gal FLOW/MIN TEMP (F) PVT unit IN OUT IN OUT IN OUT 16.0 9.60 9.70 601 601 76.6 66.~ 813 14.0 9.60 9.70 606 607 76.6 66.6 812 14.0 9.60 9.70 606 607 76.6 69.3 811 14.0 9.60 9.70 606 606 76.8 70.9 810 14.0 9.60 9.70 605 607 76.8 72.2 812 15.0 9.60 9.70 598 600 77.9 77.0 849 15.0 9.60 9.70 598 599 77.9 77.0 848 15.0 9.60 9.7~ 597 599 78.1 77.0 847 15.D 9.60 9.70 598 600 78.1 73.2 844 15.0 9.60 9.70 596 596 78.1 73.2 841 17.0 9.60 9.70 594 595 78.1 65.6 838 17.0 9.60 9.70 595 596 78.1 63.9 835 17.0 9.60 9.70 598 598 78.1 63.9 826 17.0 9.60 9.70 598 598 78.1 63.9 821 17.0 9.60 9.70 594 594 78.1 63.9 809 15.0 9.60 9.70 597 598 78.1 64.0 803 15.0 9.60 9.70 598 599 78.1 63.9 800 15.0 9.60 9.70 598 600 78.1 63.8 792 15.0 9.60 9.70 599 600 78.3 63.7 772 15.0 9.60 9.70 596 597 78.3 87.9 765 18.0 9.60 9.70 598 599 78.3 88.1 767 18.0 9.60 9.70 599 599 78.3 87.9 765 18.0 9.60 9.70 599 599 78.3 87.7 767 18.0 9.60 9.70 599 599 78.3 87.4 768 18.0 9.60 9.70 599 600 78.4 87.3 769 21.0 9.60 9.70 596 596 78.4 87.3 769 21.0 9.60 9.70 594 595 78.4 87.7 767 21.0 9.60 9.70 595 597 78.4 88.1 767 21.0 9.60 9.70 594 594 78.4 88.4 769 21.0 9.60 9.70 596 597 78.4 88.7 768 22.0 9.60 9.70 597 597 78.4 88.9 769 22.0 9.60 9.70 598 599 78.4 89.0 768 22.0 9.60 9.70 598 599 78.4 89.1 766 22.0 9.60 9.70 598 598 78.4 89.1 767 22.0 9.60 9.70 610 610 78.4 89.1 769 13.0 9.60 9.70 642 642 78.4 89.1 770 13.0 9.60 9.70 686 687 78.4 89.1 768 13.0 9.60 9.70 667 667 78.6 89.1 7671 13.0 9.60 9.70 586 584 79.5 88.7 758 14.0 9.60 9.70 588 584 79.5 88.7 759 14.0 9.60 9.70 589 585 79.5 88.7 755 14.0 9.60 9.70 589 585 79.5 88.7 755 14.~ 9.60 9.70 588 585 79.5 88.7 759 14.0 9.60 9.70 588 585 79.6 88.7 757 20.0 9.60 9.70 590 587 79.6 88.7 759 2~.~ 9.60 9.70 588 587 79.7 88.7 758 20.0 9.60 9.70 583 588 79.7 88.6 757 20.0 9.6C 9.70 587 586 79.7 8£.6 759 )ata Printed at time 22:12 Date Jul 30 '88 ~ta Recorde~ at time 00:39 Date Jul 17 '88 --THIS BlT ....... WATER --TVD-- ft hr DEPTH DEPTH 73.4 1.4 197.5 1078.0 74.6 1.4 197.4 1079.0 75.7 1.4 197.3 1080.0 76.8 1.4 197.2 1080.9 77.7 1.4 197.2 1081.8 79.1 1.9 195.8 1083.3 80.1 2.~ 195.8 1084.1 81.1 2.~ 195.8 1085.1 82.2 2.~ 195.8 1~86.0 83.1 2.0 195.8 1086.9 84.2 2.0 195.7 1087.9 85.3 2.~ 195.7 1088.8 86.3 2.~ 195.7 1089.7 87.3 2.0 195.7 1090.6 88.3 2.0 195.7 1091.5 89.2 2.1 195.7 1092.5 90.2 2.1 195.7 1093.3 91.3 2.1 195.7 1094.3 92.5 2.1 195.5 1095.4 93.5 2.1 195.5 1~96.3 94.5 2.1 195.4 1097.3 95.7 2.2 195.3 1098.3 96.7 2.2 195.3 1099.2 97.7 2.2 195.3 1100.1 98.7 2.2 195.3 1101.0 99.8 2.2 195.2 1102.0 101 2.2 195.2 1102.9 102 2.2 195.2 1103.8 103 2.2 195.2 1104.7 104 2.2 195.2 1105.7 105 2.2 195.2 1106.5 106 2.2 195.2 1107.5 107 2.3 195.2 1108.4 108 2.3 195.2 1109.3 1~9 2.3 195.2 1110.2 110 2.3 195.2 1111.1 111 2.3 195.2 1112.0 112 2.3 195.2 1112.9 113 2.8 194.5 1114.5 114 2.8 194.5 1115.5 115 2.8 194.5 1116.3: 116 2.8 194.5 1117.2i 117 2.8 194.5 1118.2' 119 2.8 194.5 1119.0 119 2.~ 194.5 1119.9 120 2.8 194.5 1120.8 121 2.& 194.5 1i21.g 122 2.~ i94.5 ii22.7 DXC ~CD NXMD 1.06 10.15 8.47 .99 10.15 8.47 .91 10.14 8.47 .96 10.13 8.47 .95 10.13 8.47 .60 10.01 8.44 .91 10.02 8.44 .77 10.02 8.44 .61 10.D3 8.37 .61 10.04 8.32 .64 10.05 8.22 .71 10.06 8.22 .79 10.06 8.22 .76 10.07 8'.22 .80 10.07 8.22 .80 10.07 8.22 .72 10.07 8.22 .86 10.08 8.22 .88 10.08 8.22 .92 10.10 8.22 .76 10.10 8.22 .73 10.11 8.22 .74 10.11 8.22 .76 10.11 8.22 .76 10.11 8.22 .74 10.12 8.22 .71 10.12 8.22 .71 10.12 8.22 .76 10.13 8.22 .71 10.13 8.22 .67 10.12 8.22 .75 10.11 8.22 .71 10.11 8.22 .71 1~.11 8.22 .82 10.11 8.22 .79 1~.11 8.22 .76 10.11 8.22 .76 10.12 8.22 .61 9.97 8.19 .47 9.97 8.19 .54 9.98 8.19 .60 9.98 8.19 .60 9.99 8.19 .~2 9.99 8.15 .64 10.~0 8.08 .57 I~.01 ~.i3 .~2 1~.~1 8.11 .~6 l~.D2 8.~1 D D D D D D '~) D D D D D D D D D D D MOC ~US M26 RELIEF ~1 SIDE~'RACK F# TIME DEPTH ROP ft ft/hr 184 2335 1039.2 93.8 185 2335 1040.2 129 186 2336 1041.2 119 187 2336 1042.2 112 188 2337 1043.2 93.8 189 2338 1044.2 100 190 2338 1045.4 142 191 2339 1046.4 101 192 2339 1047.4 106 193 2340 1048.5 130 194 2340 1049.5 87.9 195 2341 1050.5 109 196 2341 1051.5 101 197 2342 1052.6 102 198 2342 1053.5 116 199 2343 1054.6 109 200 2343 1055.6 106 201 2344 1056.7 121 202 2344 1057.7 118 203 2345 1058.7 103 Date Jul 17 '88 204 0016 1061.5 119 205 0016 1062.5 108 206 0017 1063.5 140 207 0017 1064.5 111 208 0018 1065.5 72.2 209 0019 1066.5 77.3 210 0019 1067.5 106 211 0020 1068.6 103 212 0020 1069.6 94.3 213 0021 1070.7 98.8 214 0021 1071.8 121 215 0022 1072.8 90.5 216 0023 1073.8 72.6 217 0024 1074.8 75.6 218 0024 1075.8 87.9 219 0025 1076.8 92.6 220 0026 1077.8 61.1 221 0026 1078.8 94.0 222 0027 1079.8 100 223 0028 1080.9 69.7 224 0029 1082.0 91.1 225 0029 1083.0 95.1 226 0030 1084.0 97.5 227 0033 1085.1 17.8 228 0034 1086.2 56.0 229 0036 1087.2 30.8 230 ~038 1088.5 42.4 Data PrinteC at time 22:~9 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 122 5.10 1820 122 5.3C 1810 121 5.20 1830 122 5.70 1910 121 5.90 1620 122 5.80 1890 121 5.80 1830 121 5.10 1870 122 6.50 1880 123 6.80 1660 123 6.40 1910 123 6.10 1910 123 6.30 1930 123 6.00 1660 123 6.50 2000 123 7.40 1980 122 6.00 1890 119 5.80 17'40 120 7.80 1920 122 8.30 1990 2 113 4.50 1820 0 115 6.40 1730 0 116 6.70 1690 0 116 5.60 1690 123 116 5.90 1790 0 116 6.30 1780 0 116 6.00 1770 0 116 6.10 1830 0 116 6.90 1790 0 117 7.00 1750 15 117 6.30 1790 294 117 8.20 1750 0 118 9.40 1710 0 117 7.00 1820 0 117 7.90 1720 0 118 8.80 1720 0 118 8.00 1740 o 117 8.50 18001 0 118 7.90 1720 0 117 10.4 1770 0 117 8.70 1790 0 117 8.20 1670 0 118 11.6 1660 0 117 8.10 1690 0 117 8.60 1660 0 146 8.2~ 2660 0 151 10.3 2680 T.GAS ~D lb/gal FLOW/MIN T~.IP {F) PVT unit IN OUT IN OUT IN OUT 21.0 9.60 9.70 488 490 75.0 74.2 852 18.~ 9.60 9.70 488 489 75.0 74.1 852 18.0 9.60 9.70 486 488 75.1 73.9 852 18.0 9.60 9.70 486 488 75.2 73.8 851 18.0 9.60 9.70 487 489 75.2 73.5 851 18.0 9.60 9.70 490 489 75.2 73.3 852 18.0 9.60 9.70 486 487 75.2 73.1 852 18.~ 9.60 9.7~ 484 485 75.2 72.9 852 18.~ 9.60 9.70 488 484 75.2 72.8 850 18.0 9.60 9.70 491 491 75.2 72.6 850 18.0 9.60 9.70 491 492 75.3 72.4 852 16.0 9.60 9.70 492 494 75.4 72.2 852 16.~ 9.60 9.70 492 493 75.4 72.1 851 16.0 9.60 9.70 492 494 75.4 71.9 851 16.0 9.60 9.70 491 492 75.4 71.8 851 16.0 9.60 9.70 492 493 75.4 71.6 853 14.0 9.60 9.70 483 482 75.4 71.5 852 14.0 9.60 9.70 478 483 75.4 71.5 853 14.0 9.60 9.70 481 484 75.5 71.4 854 14.0 9.60 9.7~ 488 483 75.6 71.2 855 Data Recordec at time 23:35 Date Jul 35 '88 Date Jul 16 '88 --THIS BIT ....... WATER --TVD--I DXC ft hr DEPTH DEPTH ECD NXP~D 18.0 9.60 9.70 448 449 75.7 68.0 845 18.0 9.60 9.70 460 461 75.7 68.0 838 18.0 9.60 9.70 465 463 75.9 68.0 834 18.0 9.60 9.70 463 464 75.9 67.8 828 30.0 9.60 9.70 462 466 75.9 67.8 821 30.0 9.60 9.70 461 464 76.1 67.7 817 30.0 9.60 9.70 464 462 76.3 67.6 818 30.0 9.60 9.70 464 463 76.3 67.6 818 30.0 9.60 9.70 467 464 76.3 67.5 816 34.0 9.60 9.70 469 465 76.3 67.5 816 34.~ 9.60 9.70 468 464 76.3 67.5 816 34.0 9.60 9.70 470 470 76.3 67.4 816 34.0 9.60 9.70 470 472 76.3 67.3 814 23.2 .4 200.8 1031.3 24.1 .4 2~0.8 1032.2 25.2 .4 200.8 1033.2 26.2 .4 200.8 1~34.1 27.2 .4 200.8 1035.1 28.2 .4 200.8 1036.~ 29.4 .4 200.6 1037.1 3~.4 .5 200.b 1~38.1 31.4 .5 200.6 1039.~ 32.5 .5 200.5 1040.0 33.5 .5 200.5 1040.9 34.5 .5 200.5 1041.9 35.5 .5 200.5 1042.8 36.6 .5 200.4 1043.8 37.5 .5 200.5 1044.7 38.6 .5 200.4 1045.7 39.6 .5 200.4 1046.5 40.7 .5 200.3 1047.6 41.7 .6 200.3 1048.6 42.7 .6 200.3 1049.5 .73 10.11 8.47 .68 10.12 8.47 .69 1~.12 8.47 .72 10.12 8.47 .75 10.12 8.47 .74 10.12 8.47 .68 10.13 8.47 .72 10.13 8.47 .74 10.14 8.47 .72 10.14 8.47 .77 10.15 8.47 .73 10.15 8.47 .75 10.17 8.47 .74 10.17 8.47 .73 10.18 8.47 .76 10.18 8.47 .73 10.19 8.47 .70 10.20 8.47 .75 10.20 8.47 .78 10.21 8.47 45.5 1.0 198.6 1052.3 46.5 1.0 198.5 1053.2 47.5 1.0 198.5 1054.1 48.5 1.0 198.5 1055.0 49.5 1.0 198.5 1055.9 50.5 1.0 198.5 1056.8 51.5 1.0 198.5 1057.7 52.6 1.1 198.3 1058.9 53.6 1.1 198.4 1059.7 54.7 1.1 198.3 1060.6 55.8 1.1 198.3 1~61.7 56.8 1.1 198.2 1062.7 57.8 1.1 198.2 1063.6 .67 10.02 8.47 .73 10.03 8.47 .70 10.04 8.47 .71 10.04 8.47 .79 10.05 8.47 .79 10.06 8.47 .73 10.06 8.47 .74 10.06 8.47 .77 10.07 8.47 .76 10.08 8.47 .71 10.08 8.47 .80 10.10 8.47 .87 1~.1~ 8.47 34.0 9.60 9.70 470 466 76.3 67.3 814 35.0 9.60 9.70 470 468 76.3 67.3 816 35.0 9.60 9.70 470 468 76.3 67.1 816 35.0 9.60 9.70 470 468 76.3 67.1 815 35.0 9.60 9.70 469 467 76.3 67.0 813 35.0 9.60 9.70 470 469 76.3 66.9 816 18.0 9.60 9.70 470 470 76.4 66.9 815 18.0 9.60 9.70 469 468 76.3 66.9 815 1~.0 9.60 9.70 470 467 76.3 66.8 816 18.0 9.60 9.70 470 469 76.5 66.7 818 16.0 9.60 9.70 468 470 76.5 66.6 819 16.0 9.60 9.70 469 468 76.5 66.4 818 16.0 9.60 9.70 596 597 76.5 66.2 814 16.0 9.60 9.70 606 6~6 76.4 66.2 814 58.$ 1.1 198.2 1064.5 59.8 1.1 198.2 1065.4 60.8 1.1 198.2 1066.3 61.8 1.2 198.2 1067.2 62.8 1.2 198.2 1068.2 63.8 1.2 198.2 1069.1 64.9 1.2 198.1 1070.1 66.0 1.2 198.0 1071.1 67.0 1.2 198.0 1072.0 68.0 1.2 198.0 1~72.9 69.1 1.3 197.8 1074.0 70.~ 1.$ 197.8 1075.~ 71.2 1.$ 197.7 1076.~ 72.5 1.2 197.5 i~77.1 .81 10.10 8.47 .80 10.11 8.47 .81 10.11 8.47 .87 10.12 8.47 .80 10.13 8.47 .78 10.14 8.47 .89 10.14 8.47 .81 10.15 8.47 .79 10.16 8.47 .85 1~.16 8.47 1.C9 t0.18 8.47 .69 i~.17 8.47 1.~4 i~.17 8.4~ 1.~3 1~.i7 ~.47 D D D D D D D D D D D D D D D D D D D D D D D IF~ TI~E DEPTH ft + 279 0219 280 0220 281 0220 282 0220 283 0221 284 0221 285 0221 286 ~222 287 0222 288 0222 289 0223 290 0223 291 0224 292 0224 293 0224 294 0225 295 0226 296 0227 297 0227 298 0228 299 0229 300 0258 301 0258 302 0258 303 0259 304 0301 305 0302 306 0302 307 0304 308 0304 309 0305 310 0306 311 0307 312 0307 313 0308 314 0308 315 0309 316 0309 317 0310 318 0310 319 0311 320 0312 321 0312 322 0313 323 0313 324 0314 325 0314 326 0315 MCC TBUS M26 RELIEF ~1 SIDETRACK ROP ft/hr 1139.5 116 1140.4 171 1141.5 163 1142.5 191 1143.5 157 1144.5 164 1145.5 162 1146.5 161 1147.5 135 1148.5 162 1149.5 132 1150.5 174 1151.5 139 1152.5 157 1153.5 141 1154.5 74.01 1155.5 86.6 1156.5 88.2 1157.5 100 1158.5 48.4 1159.5 60.1 1159.8 75.6 1160.8 360 1161.7 225 1162.5 72.3 1163.5 68.3 1164.3 88.3 1165.3 93.1 1166.3 54.6 1167.3 107 1168.3 47.0 1169.3 86.0 1170.3 95.8 1171.3 101 1172.2 83.2 1173.2 141 1174.2 120 1175.2 116 1176.2 108 1177.2 88.3 1178.2 94.8 1179.2 103 1180.g 95.0 1181.0 111 1182.0 114 1182.8 83.3 1183.8 115 1184.8 115 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 0 148 3.60 263~ 0 149 4.10 2620 0 149 3.90 2410 0 149 3.70 2360 0 149 4.50 2100 0 149 3.70 2400 0 148 3.90 2420 0 148 4.50 0 149 3.80 251~ 0 149 3.90 2380 0 148 4.40 2220 0 147 4.10 2270 0 148 8.70 2640 0 147 11.9 2530 0 147 10.1 2620 0 147 7.20 2370 0 148 8.00 2400 0 149 7.00 2630 0 149 7.60 2400 0 149 5.50 2280 0 148 8.20 2420 2 149 3.40 2550 0 150 3.60 2470 0 150 4.30 2550 0 149 5.30 2440 0 148 8.30 2750 0 150 9.40 2640 0 150 8.40 2510 178 150 7.50 2450 0 150 7.50 2410 44 150 5.60 2460 0 150 7.90 2550 0 150 8.30 2550 0 151 7.90 2560 0 149 8.80 2590 0 149 8.30 2390 0 150 8.20 2450 0 149 9.20 2520 0 149 8.80 2500 0 150 7.90 2300 0 150 9.10 2530 0 149 9.10 2590 0 147 8.30 2500 0 147 7.50 2620 0 149 9.10 2410 0 150 9.10 2440 0 150 8.0~ 2460 0 148 8.4~ 2410 T.GAS MD lb/gal unit IN OUT 20.0 9.60 9.70 14.0 9.60 9.70 14.0 9.60 9.70 14.0 9.60 9.70 14.0 9.60 9.70 14.0 9.60 9.70 14.0 9.60 9.70 14.0 9.60 9.70 14.0 9.6~ 9.70 14.0 9.60 9.70 14.0 9.60 9.70 11.0 9.60 9.70 11.0 9.60 9.70 11.0 9.60 9.70 11.0 9.60 9.70 11.0 9.60 9.70 10.0 9.60 9.70 10.0 9.60 9.70 10.0 9.60 9.70 10.0 9.60 9.70 10.0 9.60 9.70 10.0 9.60 9.70 1~.0 9.60 9.70 10.0 9.60 9.70 10.0 9.60 9.70 10.0 9.60 9.70 10.0 9.60 9.70 12.0 9.60 9.70 12.0 9.60 9.70 12.0 9.60 9.70 12.0 9.60 9.70 12.0 9.60 9.70 16.0 9.60 9.70 16.0 9.60 9.70 16.0 9.60 9.70 16.~ 9.60 9.70 16.0 9.60 9.70 17.0 9.60 9.70 17.0 9.60 9.7~ 17.~ 9.60 9.70 17.0 9.60 9.70 17.0 9.60 9.70 17.~ 9.60 9.70 17.0 9.60 9.70 17.0 9.60 9.70 17.0 9.60 9.70 17.~ 9.6~ 9.70 17.~ 9.60 9.70 FLOWyMIN TEMP (F) 1N OUT IN OUT 592 592 593 595 594 596 594 595 595 596 595 595 594 595 593 594 594 595 79.7 88.5 79.7 88.5 79.7 88.6 79.7 88.6 79.7 88.6 79.7 88.5 79.7 88.5 79.7 88.7 79.7 88.7 PVT 761 760 758 757 761 760 763 764 765 )ara Printec at time 22:15 3ata Recordea at time ~2:19 --THIS BIT ....... WATER ft hr DEPTH 123 2.8 194.5 124 2.8 194.5 125 2.8 194.5 126 2.8 194.5 127 2.8 194.5 128 2.8 194.5 129 2.8 194.5 130 2.8 194.5 131 2.9 194.5 DEPTH 1123.6 1124.5 1125.4 1126.3 1127.2 1128.1 1129.0 1129.9 1130.8 Date ~ul 30 '88 Date Jul 17 '88 DXC ECD NXMD .69 10.02 8.~1 .64 10.~2 7.95 .65 10.~2 7.89 .61 10.02 7.91 .67 10.03 7.81 .64 10.03 7.79 .65 10.03 7,77 .66 10.~4 7.7~ .67 10.~4 7.62 594 590 590 591 588 588 591 594 594 594 595 594 597 598 598 591 598 600 599 599 599 599 599 600 595 590 591 591 589 589 593 594 595 594 596 594 598 599 598 588 600 601 600 600 600 594 594 601 79.7 88.7 79.7 88.6 79.7 88.8 79.7 88.8 79.7 88.9 79.9 89.1 79.9 89.1 79.9 89.1 79.9 89.2 79.9 89.2 79.9 88.8 80.1 88.4 81.3 90.4 81.3 90.4 81.3 90.4 81.3 90.3 81.3 9~.5 81.3 90.7 81.3 90.7 81.1 90.7 81.2 90.8 81.1 91.0 81.1 91.0 81.1 91.0 765 765 765 766 761 761 762 762 763 764 769 768 771 767 769 772 770 768 768 770 771 771 771 775 132 2.9 194.5 133 2.9 194.5 134 2.9 194.5 135 2.9 194.5 136 2.9 194.5 137 2.9 194.5 138 2.9 194.5 139 2.9 194.5 140 2.9 194.5 141 2.9 194.5 142 3.0 194.5 143 3.0 194.5 144 3.3 195.3 145 3.3 195.3 146 3.4 195.3 147 3.4 195.5 148 3.4 195.5 148 3.4 195.7 149 3.4 195.7 15~ 3.4 195.7 151 3.5 195.7 152 3.5 195.7 153 3.5 195.7 154 3.5 195.7 1131.7 1132.6 1133.5 1134.4 1135.3 1136.2 1137.1 1138.0 1139.0 1139.9 1140.7 1141.7 1141.8 1142.7 1143.6 1144.3 1145.2 1145.9 1146.8 1147.7 114~.6 1149.5 1150.4 1151.3I 1152.2I 1153.0I 1153.9I 1154.81 .64 10.05 7.63 .69 10.05 7.53 .64 1~.05 7.55 .78 10.06 7.55 .81 10.07 7.55 .80 10.07 7.55 .86 10.07 7.55 10.~8 7.55 10.08 7.55 10.08 7.55 10.08 7.55 1~.08 7.55 9.90 7.55 9.90 7.55 9.90 7.61 9.93 7.61 9.93 7.61 9.93 7.61 9.93 7.61 9.92 7.61 9.92 7.61 9.94 7.61 9.94 7.61 9.94 7.61 .85 .83 .82 .89 .93 .76 .52 .61 .83 .92 .89 .86 .94 .81 .91 .87 .85 604 596 597 599 595 597 599 599 597 589 589 596 599 598 595 604 594 595 596 596 595 593 594 596 590 590 596 596 595 595 81.1 91.~ 81.1 91.4 81.1 91.4 81.1 91.6 81.1 91.6 81.0 91.7 81.1 92.1 81.0 92.1 81.0 92.1 81.0 92.1 81.0 92.1 81.0 92.1 81.1 92.2 81.1 92.3 81.1 92.4 777 780 779 778. 779. 781 783 784 784 786 787 788 789 790 792 155 3.5 195.7 156 3.5 195.8 157 3.5 195.8 158 3.5 195.8 159 3.5 195.8 160 3.5 195.8 161 3.6 195.8 162 3.6 195.8 163 3.6 195.8 164 3.6 196.0 165 3.6 i96.C 166 3.6 196.~ 167 3.6 196.2 168 3.6 196.2 1155.7 1156.6 1157.5 1158.5 1159.4 1160.f 1161.~ 1161.9 1162.6 1163.5 .84 .89 .78 .81 .83 .84 .86 .87 .85 .85 .80 .83 .89 .gl 9.94 7.61 9.95 7.61 9.95 7.61 9.96 7.61 9.96 7.61 9.96 7.61 9.96 7.61 9.97 7.61 9.97 7.61 9.97 7.61 9.97 7.61 9.97 7.61 9.98 7.61 9.9~ 7.61 9.98 7.61 169 3.6 196" I164. z. D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D + I~iCC ~EUS M26 RELIEF #1 SIDETP~CK F# TIME DEPTH ROP it ft/hr 327 0315 1185.8 112 328 0316 1186.8 95.2 329 0317 1187.8 63.7 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 0 0 148 8.70 2590 T.GAS MD lb/gal FLOW/MIN TEMP (F) PVT unit IN OUT IN OUT IN OUT Data Printed at time 22:19 Date Jul 30 '88 Data Recora£d at time 03:15 Date Jul 17 '88 + --THIS BIT ....... WATER--TVD-- I DXC ECD NXMD ft hr DEPTH DEPTH + 330 0317 1188.8 162 0 0 147 5.~0 2530 14.0 9.60 9.70 592 593 81.1 92.5 794 173 3.7 331 0317 1189.8 184 0 0 147 6.00 2530 14.0 9.60 9.70 593 594 81.1 92.5 794 174 3.7 NB ~15 cut 172 feet in 3.67 drilling hours. Due to lack of angle the hole was cemented back to 930' msl, The plug consisted of 23~ sacks oi Premiu~acement. 14.~ 9.60 9.70 592 595 81.1 92.6 792 170 3.6 196.2 1165.31 .83 9.98 7.61 0 0 146 7.70 242~ 14.0 9.60 9.70 586 588 81.1 92.7 793 171 3.7 196.2 1166.2 .83 9.98 7.61 0 0 148 4.10 2620 14.0 9.60 9.70 592 594 81.1 92.5 795 172 3.7 196.2 1167.1 .81 9.98 7.6i 196.2 1168.0] .68 9.~8 7.55 196.2 1168.91 .68 9.98 7.51 MCC TBUS M26 RELIEF 4'1 SIDETRACK F# TIME DEPTH ROPI TORQUE RPM WOB PUMPt T.G~5 MD lb/gal FLOW/MIN TEMP {F) ft ft/~r AVG MAX AVG AVG PRESt unit IN OUT IN OUT IN OUT Data Printed at tim£ 23:58 Data RecorGea at time {8:15 Date Jul 3~ '88 Date Jul 18 '88 PVTI --THIS BIT ....... WATER t Et . hr DEPTH + --TVD-- DEFI~H iDXC lCD NXMD Test BOP stack. Difficult to ~ork motor assembly through the wincow. NB ~16 Smith SDGH 9.875" with 16:16:16 jets in at 976 feet. Bit #16 run in conjuction with a NorTrack mud motor and a Teleco ~WD directional tool. 4 0857 977.7 64.1 5 0857 978.6 139 6 0857 979 7 189 · 7 0928 981'4 59.1 8 0928 982.4 223 9 0929 983.5 219 10 0929 984.4 129 11 0930 985.5 38.9 12 0931 986.5 94.6 13 0932 987.5 59,4 14 0935 988.5 39.7 15 0935 989.5 45.0 16 0941 990.7 288 17 0941 991.7 576 18 0942 992.9 71.5 19 0945 994.0 49.4 20 ~946 995.0 36.6 21 0948 996.2 35.6 22 0949 997.2 42.5 23 0950 998.2 45.6 24 0952 999.2 48.1 25 0952 1000.3 85.5 26 ~953 1001.3 98.G 27 0954 1002.3 64.2 28 ~955 1003.4 50.2 29 0956 1004.5 47.9 30 0957 1005.5 43.3 31 0959 1006.5 32.2 32 1~00 1007.7 50.5 33 10~2 1~8.7 49.3 34 1003 1009.8 59.3 35 1~04 1010.8 60.0 36 1022 1011.7 3.6i 37 1033 1012.2 2.9 38 1039 1014.6 4.3 39 1059 1016.6 2.3 49 11~6 1017.3 4.2 41 1113 1018.3 3.7 42 1122 1~19.3 3.4 43 1129 1~2~.1 4.5 0 193 2.80 1140 0 193 2.80 1200 0 194 2.D~ 1150 ~ 194 2.70 122~ ~ 195 2.6~ 118~ ~ 196 4.~0 1180 0 196 4.80 120~ 0 196 4.30 1170 0 196 4.6~ 1250 0 196 4.2~ 1170 2 195 5.D~ 122~ 2 195 5.~0 1190 0 193 1.40 113~ 0 193 3.70 1070 0 194 3.~ 1270 175 196 4.20 121~ 0 197 4.1~ 1250 0 196 4.1~ 1200 0 197 3.40 128~ 0 197 4.80 1270 0 197 3.80 1290 0 196 4.10 1180 0 197 4.00 120~ 0 197 3.80 1230 0 196 4.10 1200 0 195 4.00 124~ 0 197 3.70 1280 0 195 5.3~ 1220 0 197 3.90 113~ 0 196 4.20 128~ 0 197 3.60 124~ 0 197 6.60 1250 0 196 1.4~ 1060 126 195 2.30 121~ 47 196 2.60 103~ 0 196 3.80 1190 0 196 3.2~ 112~ 0 196 2.70 110~ 0 196 3.1~ 1130 Pit volu~echange aue punping 45 1136 1021.1 3.81 6 60 46 1145 1~22.1 3.6~ 47 115~ 1~22.7 4.61 12 5~ 1.~ 9.5~ 9.7~ 386 387 7~.4 63.2 742I 1.D 9.5~ 9.70 386 386 70.4 63.2 74~ 1.~ 9.5~ 9.70 387 387 7~.4 63.2 736 1.~ 9.5~ 9.7~ 388 383 69.4 74.5 745 1.~ 9.50 9.7~ 389 390 69.4 74.5 746I 1.0 9.50 9.70 390 390 69.4 74.5 746I 1.0 9.50 9.70 391 392 69.4 74.5 745 1,0 9.5~ 9.70 391 390 69.4 74.3 745 1.0 9.50 9.70 392 393 69.4 74.3 746 1.0 9.50 9.70 391 392 69.6 74.2 745 1.0 9.50 9.70 389 387 69.6 74.1 752 1.0 9.5~ 9.70 390 391 69.6 74.1 751 2.0 9.50 9.70 384 386 69.8 73.7 751 2.0 9.50 9.70 385 385 69.8 73.7 751 2.0 9.50 9.7~ 390 390 69.8 73.6 75~ 2.0 9.50 9.70 393 393 69.8 73.0 747 2.~ 9.50 9.70 393 395 69.8 73.~ 745 2.0 9.5~ 9.70 393 393 69.8 73.0 749 2.0 9.50 9.70 393 393 69.8 73.3 749 2.0 9.50 9.70 394 393 70.0 73.8 750 2.0 9.50 9.70 393 394 70.0 74.2 749 1.0 9.50 9.70 393 393 70.~ 74.3 751 1.0 9.50 9.70 393 394 70.0 74.3 750 1.0 9.50 9.70 393 393 70.0 74.5 750 1.0 9.50 9.70 393 393 70.0 74.5 748 1.~ 9.50 9.70 390 391 70.0 74.2 750 1.~ 9.5~ 9.70 394 393 70.D 73.7 749 1.0 9.50 9.70 394 393 70.2 73.6 751 1.D 9.50 9.70 394 394 70.2 73.6 751 1.~ 9.5~ 9.70 393 393 70.2 74.~ 757 1.0 9.50 9.70 394 391 70.2 74.3 .755 1.0 9.50 9.70 393 394 70.2 74.5 755 1.0 9.50 9.70 387 387 70.5 73.~ 738 1.D 9.50 9.70 391 392 70.7 73.4 739 1.0 9.50 9.70 392 393 70.7 73.2 741 1.~ 9.50 9.70 392 391 70.9 71.2 741 1.0 9.50 9.70 391 391 71.1 72.D 741 1.0 9.50 9.70 391 390 70.9 72.3 743 1.0 9.50 9.70 391 388 71.1 72.5 745 2.0 9.5~ 9.7~ 391 391 71.4 72.7 791 196 3.40 115G of the slug pit into the active syste~n. 196 2.50 114~I 2.~ 9.50 9.5~ 392 392 196 1.8~ l16WI 2.~ 9.50 9.5~ 392 392 196 2.9~ 1~30t 2.0 9.5~ 9.5~ 392 394 + 71.6 72.9 71.4 72.9 71.6 73.i 1.7 .G 207.4 2.6 .G 207.4 3.7 .~ 207.4 5.4 .5 206.6 6.4 .5 206.6 7.5 .5 206.6 8.4 .5 206.6 9.5 .5 206'5 10.5 .5 206.5 11.5 .5 206.5 12.5 .6 2~6.5 13.5 .6 206.5 14.7 .6 206.2 15.7 .6 206.1 16.9 .6 206.1 18.~ .7 206.~ 19.G .7 2~6.~ 2~.2 .7 205.8 21.2 .8 205.8 22.2 .8 205.8 23.2 .8 205.8 24.3 .8 205.7 25.3 .8 2~5.7 26.3 .8 205.7 27.4 .9 205.6 28.5 .9 205.5 29.5 .9 205.5 3~.5 .9 205.5 31.7 .9 205.3 32.7 1.~ 2~5.3 33.8 1.~ 205.2 34.8 1.0 205.2 35.7 1.3 204.4 36.2 1.5 203.9 38.6 1.6 203.7 40.6 1.9 2~2.7 41.3 2 . 0 202.5 42.3 2.2 2~2.D 43.3 2.3 201.5 44 . 1 2.4 2~1 . 1 792t 45.1 2.5 2~.6 756t 46.1 2.7 2~W.i 75~! 46.7 2.~ i99.~ 973.2 974.1 975.2 976.~ 977.8 978.7 979.6 980.7 981.6 982.6 983.5 984.5 985.6 986.6 987.7 988.7 989.7 990.8 991.8 992.7 993.7I 994.7I 995.7I 996.6I 997.6I 998.7 999.6 1~.6: 1001.7 1~2.6 1003.7, 1004.61 10~5.4 1005.9 1~08.2 1~1~.~ 1~1~.7 1011.6 1~12.5 1~13.2 .8~ 10.34 9.00 .68 10.34 9.~0 .6~ 1~.34 9.~0 .81 10.28 9.~0 .6~ 1~.29 9.~G · 65 10.29 9.00 .77 10.30 9.~0 .95 10.31 9.0~ .81 1~.32 9.00 .87 10.33 9.~0 .98 10.19 9.00 .96 10.18 9.00 .50 10.36 9.00 .48 10.36 9.00 .79 10.37 9.~0 .90 10.36 9.00 .95 10.37 9.00 · 95 10.37 9.00 .89 10.38 9.00 .94 10.38 9.05 .89 10.38 9.00 .80 10.39 9.~0 .78 10.39 9.00 .84 1~.40 9.00 .89 10.4~ 9.00 .89 1~.4~ 9.00 .9~ lf.39 9.00 1.01 10.39 9.~0 .88 1~.4~ 9.~0 .90 1~.4~ 9.~ .84 10.41 9.0~ · 95 1~.42 9.0~ 1.1¢ 1~.38 9.~ 1.23 10.33 9.00 1.2~ 1~.32 9.~0 1.39 10.31 9.fZ 1.34 9.63 9.~0 1.$1 9.64 9.00 1.36 9.64 9.0~ 1.34 9.64 1G14.21 1.29 1£15.71 i.2U 9.63 9.B~ 9.64 9.B~ 9.65 9.~ M~ TBUS b!26 RELIEF ~1 SIDETRACK Data Printed at time 00:28 Date Data ~ecor~ed at time 12:~ Date F# TIME DE~TH ROP ft ft/hr 48 1200 1023.8 2.4 49 1208 1025.1 3.9 50 1213 1025.9 2.9 51 1220 1026.9 3.9 52 1227 1027.5 4.3 53 1231 1028.8 3.3 54 1248 1030.5 2.6 55 1259 1~31.6 2.7 56 1307 1032.7 3.8 57 1320 1033.8 5.9 58 1402 1034.3 30.5 59 1404 1035.5 28.2 60 1406 1036.6 36.9 61 1406 1037.7 87.0 62 1407 1038.8 70.3 63 1408 1039.8 85.5 64 1409 1040.8 70.6 65 1413 1041.9 13.8 ~ORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 0 47 196 2.g~ 1190 0 0 196 2.46 1176 0 0 196 1.70 1200 0 0 196 2.40 1170 0 0 196 2.4~ 1180 0 0 196 2.80 1150 2 52 196 2.86 1150 g 50 176 2.~0 93~ ~ 2 174 3.1~ 936 0 2 181 2.40 1210 0 0 192 1.60 1130 0 0 195 2.80 1190 0 0 195 1.90 117~ 0 0 195 1.9~ 1130 0 0 195 3.10 1200 0 0 195 2.90 1200 0 0 195 1.80 1180 0 0 195 .30 1170 Drilled 67 1422 1043.3 6.2 68 1428 1044.6 10.9 69 1433 1045.8 12.3 70 1440 1046.6 8.2 71 1445 1047.8 12.4 72 1448 1048.6 19.6 73 1449 1049.7 40.0 74 1454 1~51.1 12.2 75 1505 1052.4 5.4 76 1507 1053.4 41.8 77 1508 1054.4 54.0 78 1509 1~55.2 54.6 79 1510 1056.2 54.6 80 1512 1057.2 42.3 81 1512 1058.2 111 82 1512 1059.2 194 ~3 1513 1060.2 196 84 1513 1061.2 190 85 1513 1062.2 185 86 1514 1063.3 178 87 1514 1064.2 181 88 1514 1065.2 179 89 1515 1066.5 228 90 1515 1067.2 240 91 1515 1068.2 199 92 1544 1069.£ 125 93 1545 1070.7 281 94 1545 1~71.6 142 95 1545 1~72.7 175 fast footage in order 12 60 0 0 195 1.26 1110 10 74 195 .50 1140 0 0 195 .70 1140 1~ 154 195 .90 1130 0 0 195 .70 1170 0 0 195 1.00 1150 0 0 195 1.00 1200 26 170 195 2.60 1130 0 0 195 2.90 113~ ~ ~ 195 1.80 1160 0 0 195 3.70 1140 0 2 195 1.26 1~50 8 44 180 2.70 916 0 0 169 4.40 94~ 0 0 167 5..~0 950 G 0 166 4.10 930 0 0 166 4.50 986 0 0 166 4.9~ 92~ 0 0 166 4.60 91~ 0 0 166 4.10 94~ 0 0 166 5.9~ 960 0 0 166 4.40 930 0 0 166 4.80 890 C 0 166 1.60 960 0 0 194 3.7~ 1216 0 0 194 3.~0 1310 0 ~ 194 3.5~ 123~ 0 C 195 3.6~ 124~ T.GAS MD lb/gal unit IN GUT --THIS BI~ ....... WA~ER --TVD-- ft hr DEi~I'H DEPTH FLOW/MIN IN OUT TEMP (F) IN OUT 47.8 2.9 199.3 1016.7 49.1 3.1 198.7 1018.6 49.9 3.2 198.4 1018.8 50.9 3.3 197.8 1019.7 51.5 3.4 197.5 1020.2 52.8 3.5 197.2 1021.4 54.5 3.7 196.2 1~23.~ 55.6 3.9 195.5 1~24.~ 56.7 4.1 194.9 1025.1 57.8 4.3 194.2 1026.0 58.3 4.8 192.7 1026.5 59.5 4.9 192.6 1027.6 60.6 4.9 192.4 1028.6 61.7 4.9 192.3 1029.7 62.8 4.9 192.2 1030.7 63.8 4.9 192.2 1031.6 64.8 4.9 192.2 1032.5 65.9 5.0 192.1 1033.5 PVT 2.0 9.40 9.50 391 391 71.6 73.4 759 1.0 9.40 9.50 391 392 71.8 73.4 766 1.~ 9.40 9.50 392 392 71.9 73.4 762 1.0 9.46 9.50 392 393 72.~ 73.4 766 1.0 9.40 9.5~ 392 393 72.1 76.6 767 1.0 9.40 9.50 391 390 72.1 77.~ 768 .5 9.40 9.50 392 391 72.6 78.1 770 .5 9.40 9.50 347 343 73.~ 78.4 770 .5 9.4~ 9.5~ 347 344 73.2 78.3 768 .5 9.40 9.50 384 385 73.2 77.9 775 .5 9.4~ 9.50 390 390 73.8 77.2 783 3.0 9.40 9.5~ 390 387 73.8 77.2 777 3.~ 9.40 9.50 389 388 74.0 77.1 778 3.~ 9.40 9.50 390 390 74.0 77.1 778 3.0 9.40 9.50 390 390 74.6 77.0 777 3.0 9.40 9.50 389 390 74.1 77.0 778 1.0 9.40 9.50 390 389 74.1 77.0 778 1.0 9.40 9.50 389 388 73.9 78.1 779 to evaluate the c~ment to formation ratio; in order to evaluate the kickoff. 195 1.50 1130 1.0 9.40 9.50 390 390 74.3 77.9 783 67.3 5.2 1.~ 9.40 9.50 390 389 74.2 77.7 780 1.0 9.40 9.40 389 389 74.3 77.5 779 1.0 9.40 9.40 390 391 74.4 77.2 783 1.0 9.40 9.40 390 390 74.5 77.0 788 1.0 9.40 9.40 390 389 74.6 77.0 791 1.6 9.40 9.40 390 389 74.5 77.6 788 2.0 9.40 9.40 390 390 74.7 77.0 785 2.~ 9.40 9.40 389 390 75.2 76.8 782 2.~ 9.40 9.40 389 390 75.2 76.8 784 2.0 9.4~ 9.4~ 389 390 75.2 76.8 787 2.~ 9.4~ 9.40 390 391 75.2 76.8 791 2.0 9.40 9.40 391 392 75.2 76.8 792 2.0 9.40 9.40 35~ 350 75.2 76.8 792 2.~ 9.46 9.46 339 339 75.3 76.8 794 2.0 9.40 9.40 335 334 75.3 76.8 794 5.0 9.40 9.46 333 332 75.3 76.8 795 5.0 9.40 9.40 332 332 75.4 76.8 794 5.~ 9.4~ 9.4~ 331 331 75.4 76.8 797 5.0 9.40 9.4~ 332 333 75.4 76.8 795 5.G 9.46 9.4~ 332 331 75.4 76.8 794 10.~ 9.46 9.40 332 331 75.4 76.8 795 lg.0 9.40 9.40 332 334 75.2 76.6 794 10.~ 9.40 9.4~ 332 332 75.2 76.8 793 1~.~ 9.40 9.40 332 332 75.2 76.8 793 10.C 9.40 9.4~ 388 385 75.6 75.9 789 16.~ 9.40 9.40 388 385 75.6 75.~ 788 1~.~ 9.4~ 9.4~ 389 3~7 75.6 75.9 791 1~.~ 9.4~ 9.4~ 389 2~7 75.6 75.9 789 191.7 1034.8I 68.6 5.3 191.4 1036.0 69.8 5.3 191.2 1~37.1 70.6 5.5 191.4 1037.8 71.8 5.5 191.2 1038.9 72.6 5.6 191.4 1~39.7 73.7 5.6 191.3 1040.7I 75.1 5.7 190.9 1042.0I 76.4 5.9 190.6 1043.2 77.4 5.9 190.6 1~44.1 78.4 5.9 190.6 1045.0 79.2 5.9 1~.7 1~45.7 80.2 6.6 190.8 1~4~.6 81.2 6.0 190.8 1047.5 82.2 6.~ 190.8 1048.4 83.2 6.0 190.8 1649.3 84.2 6.6 190.7 1050.2 85.2 6.~ 190.8 1651.1 86.2 6.~ 190.8 1052.1, 87.2 6.~ 190.8 1~53.11 88.2 6.0 190.~ 1~53.9 89.2 6.~ 190.8 1054.8 90.5 6.~ 190.7 1~56.6 91.2 6.C 190.8 1056.6 92.2 6.1 190.8 1~57.5 93.~ 6.4 191.2 1058.9 94.7 6.4 191.3 1059.7 95.6 6.4 !~1.4 96.7 6.4 191.4 I~6i.5 Jul 31 '88 Jul lg '88 DXC ECD NXMD 1.31 9.65 9.00 1.28 9.65 9.~0 1.25 9.66 9.0~ 1.28 9.68 9.00 1.26 9.70 9.00 1.33 9.72 9.00 1.37 9.73 9.00 1.35 9.72 9.~0 1.31 9.74 9.0~ 1.19 9.78 9.00 .88 9.72 9.00 .98 9.73 9.00 .88 9.74 9.00 .75 9.74 9.00 .85 9.75 9.00 .8~ 9.75 9.00 .77 9.76 9.00 .79 9.76 9.00 1.10 9.77 9.M0 .99 9.74 9.00 .86 9.73 9.00 .95 9.74 9.00 .93 9.74 9.00 .84 9.74 9.~0 .78 9.74 9.00 .95 9.73 1.23 9.72 · 92 9.73 9.~0 .81 9.73 9.~0 .92 9.74 9.~0 .76 9.74 9.00 .90 9.74 9.~ .80 9.74 9.G0 .72 9.75 .6~ 9.75 9.~ .70 9.76 9.~g .72 9.~6 9.60 .71 9.77 .7~ 9.77 9.00 .75 9.78 9.00 .66 9.79 9.~0 .67 9.80 9.C~ .57 9.El 8.99 .78 9.72 8.~9 .61 9.72 ~.~3 .~5 9.~2 .69 9.51 k.93 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D MCC ~BUS M26 RELIEF #1 SIDETRACK IF# TIME DE[~I~H ROP ft Et/hr 96 1546 1073.6 140 97 1546 1074.6 174 98 1546 1075.6 142 99 1547 1076.4 114 100 1547 1077.4 141 101 1548 1078.4 144 102 1548 1079.4 138 103 1549 1080.5 152 104 1549 1081.4 133 105 1549 1082.4 100 106 1550 1083.4 154 107 1550 1084.4 134 1~8 1551 1085.4 139 109 1551 1086.4 128 110 1552 1087.4 138 111 1556 1088.3 14.3 112 1600 1089.1 14.9 113 1604 1089.8 13.8 114 1607 1090.8 23.6 115 1608 1091.6 38.9 116 1609 1092.6 136 117 1613 1093.4 12.3 118 1614 1094.5 57.9 119 1615 1095.5 98.5 120 1615 1096.5 133 121 1617 1097.3 125 122 1618 1098.3 110 123 1637 1097.9 179 124 1638 1099.0 75.0 1125 1639 1100.3 76.2 126 1640 1101.0 33.6 127 1641 1101.8 63.0 128 1645 1102.6 17.2 129 1645 1103.6 124 130 1646 1104.6 196 131 1646 1105.6 210 132 1647 1106.5 71.4 133 1648 1107.5 77.8 134 1648 1108.5 70.5 135 1649 1109.3 65.0 136 1653 1110.1 18.9 137 1653 1111.1 143 138 1654 1112.0 96.1 139 1655 1112.8 45.6 140 1658 1113.8 16.8~ 141 1701 1114.5 17.1 142 1702 1115.2 52.7 143 1704 1116.3 63.2 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 195 .90 1130 194 1.80 1180 T.GAS MD lb/gal un i t IN OUT 9.40 9.40 9.40 9.40 FLOW/MIN TEMP (F) IN OUT IN OUT 389 386 75.6 75.9 388 386 75.5 75.9 PVT 789 789 Data Printea at time ~0:33 Data Recorae~ au time 15:46 --THIS BIT ....... WATER --TVD-- it hr DEPTH DEPTH 97.6 6.4 191.4 1062.3 98.6 6.4 191.4 1063.2 0 0 194 4.60 1290 0 0 195 5.50 1460 0 0 196 5.00 1310 0 0 196 5.10 1370 0 0 196 5.00 1320 3 23 196 4.7~ 1410 54 141 196 3.70 1290 50 152 196 4.20 1330 0 0 195 4.20 1300 0 0 195 5.00 1290 0 0 195 5.90 1330 0 0 195 5.90 1320 0 0 195 6.80 1260 0 0 195 8.00 123~ 0 0 194 10.1 1220 0 0 195 9.70 1210! 0 0 195 7.40 1140 ~ 0 195 8.70 1320 0 0 196 9.90 1320i 0 0 195 9.70 1310 0 0 195 7.70 1380: 0 0 196 6.80 1250 0 0 196 8.50 1370 0 0 196 1.70 1350 0 0 196 1.60 1370 0 0 194 8.30 1370 0 0 195 10.6 1350 0 0 195 10.3 1260 0 0 195 1~.8 1280 19 176 195 9.20 1250 0 201 195 8.00 1370 0 0 195 3.90 1140 0 0 195 4.30 1150 0 0 194 7.20 1170 0 0 194 6.90 1340 0 0 196 7.7~ 1280 0 0 195 6.8~ 1220 0 0 195 9.80 1350 128 299 214 4.00 1230 218 226 228 4.10 1300 212 220 228 5.80 1210 2~6 210 228 4.80 115~ 132 207 221 3.30 1190 0 66 194 4.80 13~0 0 0 195 4.~0 116~ 0 0 194 4.20 1250 10.0 9.40 9~40 10.0 9.40 9.40 10.0 9.40 9.40 10.0 9.40 9.40 1~.0 9.4~ 9.4~ 10.0 9.40 9.4~ 10.0 9.40 9.40 10.~ 9.40 9.40 1~.0 9.4~ 9.40 10.0 9.40 9.40 3.0 9.40 9.40 3.0 9.40 9.40 3.0 9.40 9.40 3.0 9.40 9.40 3.0 9.40 9.40 3.0 9.40 9.40 3.0 9.40 9.4~ 3.0 9.4~ 9.40 3.0 9.4~ 9.40 3.0 9.40 9.40 3.0 9.40 9.40 3.0 9.40 9.40 3.0 9.40 9.4~ 3.0 9.40 9.40 3.0 9.4~ 9.40 3.~ 9.40 9.40 3.0 9.40 9.40 3.~) 9.40 9.40 3.0' 9.4~ 9.40 3.0 9.40 9.40 3.0 9.40 9.40 3.0 9.40 9.40 3.0 9.40 9.40 3.5 9.40 9.40 3.5 9.40 9.40 3.5 9.40 9.40 3.5 9.40 9.4~ 3.5 9.40 9.40 4.0 9.40 9.40 4.0 9.40 9.40 4.0 9.40 9.40 4.6 9.40 9.40 4.G 9.40 9.40 4.0 9.4~ 9.40 5.0 9.4~ 9.40 388 385 75.6 75.9 390 389 75.6 75.9 392 392 75.5 75.9 391 387 75.5 75.9 391 392 75.4 76.1 391 390 75.3 76.1 392 391 75.3 76.1 391 391 75.5 76.1 ~91 391 75.5 76.1 390 385 75.5 76.1 390 392 75.4 76.1 390 389 75.4 76.1 390 385 75.4 76.1 388 388 75.6 76.3 388 390 75.9 76.3 390 390 75.9 76.3 389 390 76.1 76.5 391 390 76.1 76.5 391 391 76.0 76.5 389 388 76.3 76.6 391 390 76.3 76.6 391 390 76.3 76.6 391 390 76.3 76.6 365 365 76.3 76.6 279 280 76.3 76.6 389 389 76.5 78.3 390 390 76.5 78.3 390 391 76.5 78.4 389 389 76.6 78.4 392 392 76.6 78.6 389 389 76.6 78.8 390 391 76.6 78.8 390 390 76.6 78.8 389 390 76.6 78.8 390 390 76.8 78.6 391 392 76.8 78.8 391 391 76.8 78.9 390 390 76.8 78.8 389 389 76.8 78.8 389 388 76.8 78.8 389 389 76.~ 78.8 388 388 76.8 78.8 388 387 77.0 78.6 388 389 77.1 78.4 39~ 391 77.0 78.4 389 3~8 77.~ 78.4 5.~. 9.4~ 9.4~3 787 789 788 791 790 790 I 788 I 788 I 788I 788 I 789t 790 I 790 I 7891 791 I 7921 793 793 790 792 792 790 792 791 797 797 797 795 797 796 796 797 796 797 797 798 797 798 799 8¢0 802 99.6 6.4 191.4 1064.1 100 6.4 191.6 1064.8 101 6.4 191,6 1065.7 102 6.5 191.6 1066.6 103 6.5 191.6 1~67.5 105 6.5 191.6 1068.5 105 6.5 191.6 1069.3 106 6.5 191.6 1070.2 107 6.5 191.6 1071.11 108 6.5 191.6 1071.9 109 6.5 191.6 1072.8 11~ 6.5 191.6 1073.7 111 6.5 191.6 1~74.6 112 6.6 191.7 1075.4 113 6.7 191.9 1076.0 114 6.7 192.2 1076.6 115 6.8 192.2 1077.5 116 6.8 192.4 1078.2 117 6.8 192.4 1079.1 117 6.9 192.6 1079.8 119 6.9 192.5 1080.8 120 6.9 192.5 1081.7 121 6.9 192.5 1082.5 121 6.9 192.7 1083.2 122 7.~ 192.7 1084.1 122 7.2 194.1 1083.7 123 7.2 194.~ 1084.7 124 7.2 194.0 1085.8 125 7.2 194.0 1086.4 126 7.2 194.2 1087.1 127 7.3 194.4 1087.8 128 7.3 194.4 1088.7 129 7.3 194.4 1089.6 130 7.3 194.4 1090.4 131 7.3 194.5 1091.2 132 7.3 194.5 1092.1 133 7.4 194.5 1092.9 I33 7.4 194.7 1093.6 134 7.4 194.9 1094.3 135 7.4 194.9 1095.2 136 7.4 195.0 1096.0 137 7.5 195.2 1096.7 138 7.5 195.2 1097.5 139 7.6 195.5 1098.1 139 7.6 195.7 1098.8 14~ 7.6 195.7 1~99.7 Date Jul 31 Date Jul 18 '8~ DXC ECD NXMD .60 9.72 8.88 .64 9.72 8.78 .79 9.73 8.78 .85 9.74 8.78 .80 9.74 8.78 .80 9.75 8.78 .80 9.75 8.78 .78 9.76 8.78 .76 9.77 8.78 .83 9.77 8.78 .76 9.77 8.78 .81 9.78 8.78 .83 9.78 8.78 .84 9.79 8.78 .85 9.79 8.78 1.33 9.80 8.78 1.39 9.80 8.78 1.39 9.80 8.78 1.21 9.79 8.78 1.15 9.78 8.78 · 93 9.78 8.78 1.43 9.74 8.78 1.05 9.75 8.78 .92 9.76 8.78 .90 9.77 8.78 .68 9.79 8.78 .69 9.78 8.78 .84 9.79 8.78 1.07 9.79 8.78 1.06 9.79 8.78 1.24 9.80 8.78 1.07 9.80 8.78 1.29 9.79 8.78 .78 9.80 8.78 .71 9.80 8.78 .78 9.81 8.78 .98 9.81 8.78 .98 9.82 8.78 .98 9.82 8.78 1.07 9.83 8.78 1.12 9.83 8.78 .79 9.84 8.~8 .91 9.85 8.78 1.~1 9.85 8.78 1.1! 9.65 I.i6 9.~5 8.]8 .93 9.86 8.78 .90 9.86 8.78 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D ID D D D D D D D D MCC RBUS M26 RELIEF ~1 SIDETRACK TIME DEPTH ROP ft ft/hr 144 1705 145 1706 147 1709 148 1710 150 1712 151 1713 152 1714 153 1714 154 1723 155 1724 156 1733 157 1734 158 1734 159 1735 160 1735 161 1735 162 1735 163 1736 164 1736 165 1736 166 1736 167 1736 168 1737 169 1737 170 1737 171 1737 172 1737 173 1742 174 1742 175 1743 176 1743 177 1743 178 1743 179 1743 180 1744 181 1747 182 1747 183 1753 184 1805 185 1806 186 1806 187 1806 188 1806 189 18~6 190 1807 191 t807 + 1117.1 75.5 1118.2 58.8 1119.0 64.2 1119.9 71.4 1120.8 25.0 1121.8 47.1 1122.8 170 1123.8 162 1124.8 181 1125.8 173 1125.5 140 1126.4 397 1127.4 385 1128.3 225 1129.5 245 1130.2 287 1131.2 315 1132.2 388 1133.2 529 1134.2 1136.2 393 1137.2 210 1138.2 235 1139.1 240 1140.1 338 1141.1 469 1142.1 392 1143.1 405 1144.1 328 1145.1 341 1147.1 312 1148.0 362 1149.~ 374 1150.0 338 1151.0 354 1153.0 326 1154.0 331 1155.0 322 1156.0 303 1156.4 85.0 1156.0 99.9 1157.0 27.2 1157.9 60.2 1158.9 26.8 1160.0 70.9 1162.~ 101 1164.6 27.1t 1165 .9 45. + TORQUE R?M WOB PUMPI AVG MAX AVG AVG PRES i 0 194 10.8 1750 0 195 5.4~ 1280 ~ 195 5.40 13~0 0 194 3.60 121Di 0 194 4.10 11401 0 194 4.30 12001 0 194 4.70 122~ 0 194 5.70 1140 0 194 5.20 1200 0 194 4.70 1090i 0 194 2.6~ 121~i 0 194 5.31 1220 0 194 3.20 1150 0 197 4.40 1240 0 197 6.30 1310 0 197 8.4~ 1310 0 197 7.50 1280 0 197 7.80 1200 0 197 6.50 1140 0 197 7.30 1260 0 197 6.50 1310 0 197 6.70 1270i 0 197 7.10 1300i 0 197 6.40 12401 ~ 197 5.40 1210 0 197 7.40 1250 0 197 8.50 1290 0 197 6.90 12701 0 197 8.40 1280i 0 197 2.80 11801 0 197 2.90 1140i 0 197 3.20 121~i 0 197 3.~0 1120: 0 197 2.70 1120 0 197 3.40 1180 0 197 3.~0 1200 0 197 3.30 1220 ~ 197 1.50 120~ 0 197 1.50 1210 0 234 4.00 1080 0 235 4.0~ 1060 g 234 4.80 1150 0 236 3.50 112~ ~ 237 3.60 1120 0 236 3.80 1130 0 236 3.90 113~ 0 237 3.1~ 1~70 ~ 236 2.7~ 1~4~ Data Printed at time ~:58 Da~a Racoroe~ at time i7:~5 Date Jul 31 Date Jul i8 '88 T.GAS MD lb/gal unit IN OUT 5.0 9.4~ 9.4~ 5.0 9.40 9.40 5.0 9.40 9.40 5.~ 9.4~ 9.40 5.0 9.40 9.40 5.0 9.40 9.40 5.0 9.40 9.40 5.0 9.40 9.40 5.~ 9.4~ 9.4~ 8.~ 9.40 9.40 8.0 9.40 9.40 8.~ 9.40 9.40 8.0' 9.40 9.40 8.0 9.40 9.40 8.0 9~40 9.40 8.0 9.40 9.40 8.0 9.40 9.40 8.0 9.40 9.40 8.0 9.40 9.4~ 8.0 9.40 9.40 8.~ 9.40 9.40 8.0 9.40 9.40 8.0 9.40 9.40 8.0 9.40 9.40 8.0 9.4~' 9.4~ 8.0 9.4~ 9.4~ 8.~ 9.4~ 9.40 8.0 9.40 9.40 8.0 9.40 9.40 8.~ 9.4~ 9.40 8.~ 9.4~ 9.4~ 8.~ 9.40 9.4~ 8.~ 9.40 9.40 8.0 9.40 9.4~ 8.0 9.40 9.4~3 8.0 9.40 9.40 8.(~ 9.40 9.40 8.0 9.40 9.40 3.0 9.40 9.4~ FLOg'/MIN TEMP (F) IN OUT IN OUT PVT 389 390 77.1 78~4 804 389 388 77.2 78.3 804 388 387 77.2 78.3 805 389 389 77.2 78.3 807 389 388 77.2 78.3 807 388 388 77.2 78.3 808 288 390 77.2 78.2 807 389 389 77.2 78.3 807 388 391 77.2 78.3 388 388 77.2 78.3 807 388 385 77.1 78.1 815 388 386 77.1 78.1 815 388 386 77.2 76.6 815 388 388 77.3 76.6 816 388 388 77.3 76.6 817 389 387 77.2 76.6 818 394 395 77.2 76.6 819 394 394 77.4 76.6 819 394 395 77.4 76.6 819 394 393 77.4 76.6 818 393 393 77.4 76.6 818 393 393 77.4 76.5 818 393 393 77.4 76.5 818i 394 393 77.4 76.5 817 394 394 77.2 76.5 817 394 393 77.2 76.5 816 393 393 77.2 76.5 815 394 394 77.2 76.5 815 394 393 77.2 76.5 814 393 393 77.2 ~6.5 791 394 394 77.2 76.5 79~ 393 394 77.2 76.5 788 393 394 77.2 76.5 788 393 392 77.2 76.5 788 392 393 77.2 76.5 787 392 392 77.2 76.5 789 391 391 77.2 76.5 786 391 391 77.0 76.5 776 391 392 77.0 76.5 777 --THIS B/T------- WATER ft hr DEPTH 141 7.6 195.8 142 7.7 195.8 143 7.7' 196.~ 144 7.7 196.2 145 7.7 196.2 146 7.7 196.2 147 7.7 196.2 148 7.7 196.2 149 7.7 196.2 150 7.7 196 . 2 15~ 7.9 196.7 150 7.9 196.7 151 7.9 197.6 152 7.9 197.7 154 7.9 197.7 154 7.9 197.8 155 7.9 197.8 156 7.9 197.8 157 7.9 197.8 158 7.9 197.8 16~ 7.9 197.8 161 7.9 197.8 162 7.9 197.8 163 7.9 197.9 164 7.9 197.9 165 7.9 197.9 166 7.9 197.9 167 7.9 197.9 168 7.9 197.9 169 8.~ 197.9 171 8.0 197.9 172 8.0 198.~ 173 8.0 198.0 174 8.0 198.0 175 8.0 198.~ 177 8.0 198.0 178 8.0 198.~ 179 8.D 198.~ 180 8.0 198.0 --T%D-- DEPTH 1100.3 1101.3 11~2.~ 1102.7 1103.5 1104.3 11W5.2 11~6.9I 1108.2I 1109.9I 1110.9t 1112.3I 1113.1I 1114.~I 1114.8I 1116.5I 1117.3I 1118.1 1118.9 1119.7 112~.5~ 1121.4, 1122.21 1123.0, 1123.8' 1125.4 1126.2 1127.0 1127.8 1128.6 1130.3 1131.1 1131.9 1132.7 3.0 3.0 3.0 3.0 3.0 3.~ 2.5 2.5 9.40 9.40 9.4~ 9.40 9.40 9.40 9.40 9.40 9.40 9.40 9.40 9.40 9.40 9,4~ 9.40 9.4~ 9.4(~ 9.4~Z 390 390 77.0 76.5 778 391 391 76.8 76.4 770 390 391 76.7 76.5 768 39~ 39~ 76.7 76.5 769 390 391 76.7 76.5 769 390 391 76.7 76.5 769 390 391 76.7 76.5 768 39~ 39~ 76.7 76.5 767 39~ 29~ 76.8 76.5 768 180 8.~ 199.0 180 8.0 200.~ 181 8.0 2~0.~ 182 8.0 20~.1 183 8.D 200.1 184 8.~ 2~0.1 1E6 8.0 20~.i 188 8.~ 20~.1 i9~ E.~ l~.i 1133.1 1152.7 1133.5 1134.2 1135.1 1125.9 · 1127.5 i12~.i ii4~.7 DXC ECD NX~D 1.~6 9.87 8.78 .96 9.87 8.78 .95 9.84 8.78 .86 9.84 8.78 1.~6 9.84 8,78 .96 9.84 8.78 .75 9.85 8.78 .79 9.84 8.~8 .75 9.84 8.78 .74 9.85 8.78 .71 9.67 8.78 .62 9.67 8.78 .56 9.82 8.78 .69 9.82 8.81 .73 9.82 8.81 .74 9.83 8.81 .71 9.83 8.81 .67 9.85 8.81 .59 9.85 8.85 .67 9.86 8.85 .64 9.86 8.78 .76 9.87 8.78 .75 9.87 8.78 .73 9.88 8.78 .64 9.88 8.71 .62 9.89 8.69 .68 9.89 8.69 .64 9.90 8.64 .71 9.92 8.64 .57 9.86 8.70 .59 9.86 8.73 .57 9.87 8.78 .56 9.87 8.86 .5~ 9.87 8.91 .58 9.87 8.93 .58 9.89 8.95 .59 9.90 8.96 .53 9.73 8.96 .54 9.73 9.06 .89 9.73 9.~6 .85 9.85 9.06 1.11 9.84 9.~6 .91 9.88 9.06 1.~5 9.88 9.6~ .9~ 9.~ 9.b6 .85 9.84 9.b6 1.~2 9.84 9.~6 .52 9.~5 9.~ F~ TIME DEPTH ROP ft ft/h~ + 192 1807 1167.1 46. 193 1807 1167.9 36.0 194 1808 1168.9 63.4 195 1808 1169.9 104 196 1809 1170.7 83.2 197 1809 1171.7 95.9 198 1810 1172.6 105 199 1811 1173.5 200 1811 1174,6 126 201 1821 1174.9 6.2 202 1822 1175.9 59.4 203 1826 1177.5 25.5 204 1828 1178.2 24.0 205 1830 1179.2 34.8 206 1833 1179.9 20.0 207 1836 1180.7 24.0 208 1838 1181.5 26.3 209 1840 1182.4 23.7 210 1843 1183.2 20.9 211 1903 1183.9 37.9 212' 1905 1184.8 37.2 213 1908 1185.5 23.4 214 1909 1186.4 37.1 215 1910 1187.0 43.1 216 1912 1187.9 56.6 217 1913 1188.7 46.2 218 1914 1189.5 42.6 219 1916 119~.6 37.3 220 1918 1191.5 32.4 221 1919 1192.4 32.8 222 1922 1193.4 21.7' 223 1924 1194.4 45.9 224 1924 1195.4 84.1 225 1925 1196.2 65.1 226 1926 1197.2 69.6 227 1927 1198.2 77.6 228 1928 1199.2 62.7 229 1929 1200.2 65.6 230 1930 1201.1 52.8 231 1930 1202.1 81.2 232 1932 1203.1 43.1 233 1933 1203.9 55.2 234 1933 1204.9 144 235 1934 1205.9 100 236 1934 1207.0 150 237 1935 1207.9 130 238 1935 12~8.9 148 239 1936 1209.9 135 MCC TBUS M26 RELIEF ~1 SIDETRACK Data Prlnte~ at tlme 01:01 Data RecorC£~ at time i8:~7 Date Jul 31 '88 Date Oui 18 '88 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 0 0 236 3.60 107~ 0 0 237 2.80 1090 ~ D 236 3.9~ 1100 0 0 236 4.2~ 1110 g 0 236 3.60 1090 0 0 236 3.80 1080 0 0 237 5.00 1110 0 ~ 237 4.70 109~ 0 0 222 2.70 1120 0 0 197 5.20 1140 0 0 196 7.00 1240 ~ 0 196 5.40 1260 0 0 196 5.50 1210 0 0 196 6.20 1160 0 0 196 6.30 118~ 0 0 196 5.50 1270 0 0 196 6.00 1230 0 0 196 6.00 1200 0 0 196 2.20 1140 0 0 197 4~60 1250 0 0 198 5.00 1210 0 0 197 5.40 1280 0 0 197 6.10 1300 0 0 198 5.50 1230 0 0 198 3.50 1230 0 0 197 4.20 1250 0 0 198 5.90 1180 0 0 197 5.40 1230 0 0 197 4.30 122~ 0 0 197 6.20 1190 0 0 197 5.9~ 1220 0 0 197 7.50 1260 0 0 198 8.40 1280 0 0 198 7.60 1280 0 0 198 8.60 1250 0 0 198 6.60 1270 0 0 198 8.80 1320 0 0 198 9.00 1300 0 0 198 8.40 1370 0 0 198 7.70 1310 10 84 198 3.60 1230: 228 302 236 5.90 1300i 233 238 240 6.60 1310 225 234 240 4.90 1250 222 230 240 6.40 1230 22~ 228 240 6.20 1260 217 223 240 6.70 1250 43 212 238 6.~0 127~ T.GAS ~D lb/gal unit IN OUT FLOW/MIN 7EMP (F) PVT IN OUT IN OUT --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 2.59.409.40 2.5 9.40 9.4~ 2.59.409.40 2.5 9.40 9.40 2.09.409.40 2.09.409.40 2.~ 9.4~ 9.4~ 2.W 9.40 9.40 2.~ 9.4~ 9.40 2.09.409.40 1.59.409.40 1.5 9.40 9.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 1.59.409.40 3.09.409.40 3.09.409.40 3.~ 9.40 9.40 3.~ 9.40 9.40 3.0 9.4~ 9.40 3.09.409.40 3.09.409.40 3.~ 9.40 9.40 3.09.409.40 3.09.409.40 7.09.409.40 7.09.409.40 7.09.409.40 7.09.409.40 7.09.409.40 7.0 9.40 9.40 6.~ 9.40 9.40 6.D 9.40 9.40 6.[ 9.40 9.40 6.D 9.40 9.4~ 6.g 9.40 9.4~ 390 390 76.8 76.5 769 390 389 76.8 76.5 769 390 391 76.8 76.5 770 39~ 390 76.7 76.5 770 390 390 76.7 76.5 770 390 389 76.7 76.6 770 390 390 76.7 76.7 770 390 390 76.6 76.8 768 390 391 76.6 76.8 770 393 393 76.6 77.D 783 393 392 '76.6 76.7 785 392 392 76.6 82.4 788 392 392 76.6 82.2 790 392 390 76.7 82.0 792 392 389 76.5 82.0 796 392 388 76.7 82.4 801 392 388 76.7 82.6 800 392 387 76.9 82.8 799 395 394 76.8 77.1 801 395 391 77.4 81.9 804 395 391 77.4 81.7 804 395 395 77.4 81.5' 805 395 391 77.2 81.3 805I 396 397 77.5 81.1 805I 396 395 77.5 81.1 801l 395 393 77.5 81.4 797~ 396 395 77.7 82.0 796I 395 394 77.7 82.2 800I 394 394 77.9 82.2 800I 394 394 77.9 82.4 8~2 393 392 77.9 82.1 802t 395 395 77.9 81.8 802I 396 395 77.9 81.6 801I 396 396 77.9 81.5 802! 396 395 77.9 81.6 802I 395 397 77.9 81.7 803I 396 396 77.9 81.8 805~ 396 396 78.1 82.G 805 395 396 78.1 82.0 397 395 78.1 82.0 807 396 396 78.0 82.2 805 396 395 78.1 82.2 804 396 395 78.1 82.2 804 395 394 78.1 82.2 805 394 394 78.1 82.2 803 394 394 ~8.1 82.2 806 394 393 78.~ 82.2 806 396 395 78.2 g2.~ 801 191 8.0 200.1 192 8.0 200.1 193 8.D 200.1 194 8.1 200.1 195 8.1 20~.3 196 8.1 200.3 197 8.1 200.4 198 8.1 200.4 199 8.1 200.4 199 8.3 201.1 20~ 8.3 201.1 202 8.4 201.5 202 8.4 201.8 203 8.4 201.8 204 8.5 202.1 205 8.5 202.3 206 8.6 202.5 206 8.6 202.6 207 8.6 202.8 208 8.9 204.1 2~9 8.9 204.2 210 9.0 2~4.5 210 9.0 204.6 211 9.0 205.0 212 9.0 205.1 213 9.0 205.3 214 9.1 205.5 215 9.1 205.4 216 9.1 205.5 216 9.2 205.6 217 9.2 205.6 218 9.2 205.6 219 9.2 205.6 220 9.2 205.8 221 9.3 205.8 222 9.3 205.8 223 9.3 2~5.8 224 9.3 205.8 225 9.3 206.0 226 9.3 227 9.4 228 9.4 229 9.4 230 9.4 231 9.4 232 9.4 233 9.4 224 9.5 DXC ECD NXFD 1141.6 1142.4 1143.1 1143.9 1144.6 1145.4 1146.1 1146.8 1147.7 1147.9 1148.7 1150.0 1150.5 1151.3 1151.9 1152.5 1153.1 1153.8 1154.4 1155.~ 1155.7 1156.3 1157.0 1157.4 1158.1 1158.8 1159.4 1160.2 1160.9 1161.6 1162.4 1.1~ 1163.2 1.08 1164.0 .98 1164.61 1.~1 1165.~I 1.o2 1166.11 .95 1166.91 1.o5 1167.61 1.05 1168.3t 1.~7 .96 .96 .92 .85 .86 .85 .88 .86 .75 1.36 1.~1 1.11 1.12 1.D9 1.20 1.13 1.14 1.16 .98 1.02 1.~4 1.14 1.~)8 1.03 .9~ .96 1.04 1.05 1.02 1.10 205.9 1169.1 2~6.0 1169.9 206.1 1170.5 206.1 1171.2 206.1 1172.~ 206.~ 1172.8 206.1 1173.5 266.1 1174.2' 2~6.i 1175.~ .97 .94 1.02 .86 .88 .85 .87 .86 .86 9.88 9.~6 9.88 9.06 9.88 9.06 9.88 9.66 9.87 9.06 9.87 9.06 9.88 9.06 9.89 9.06 9.89 9.06 9.90 9.06 9.90 9.~6 9.91 9.06 9.91 9.06 9.84 9.06 9.82 9.06 9.82 9.06 9.82 9.06 9.82 9.06 9.83 9.~6 9.81 9.06 9.81 9.D6 9.82 9.06 9.82 9.06 9.83 9.Z6 9.83 9.06 9.84 9.06 9.85 9.06 9.85 9.06 9.86 9.06 9.87 9.06 9.88 9.~6 9.88 9.06 9.89 9.~6 9.90 9.06 9.90 9.06 9.90 9.06 9.91 9.06 9.91 9.~6 9.91 9.06 9.92 9.06 9.92 9.06 9.92 9.06 9.92 9.~6 9.93 9.~6 9.93 9.W6 9.93 9.g6 9.~4 9.~6 9.93 9.66 D D D D D D D ID D D D D D D D D D D D D D D D D D D D D D D D D D D F# TIME DEPTH ROP ft ft/hr 1240 241 242 !243 i244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 254 285 2E6 287 1942 1210.91 111 1956 1212.2 37.4 1958 1213.9 57.1 1958 1214.9 89.2 1959 1215.9 116 1959 1216.9 166 2000 1218.9 141 20~0 1219.9 130 2001 1220.9 1~8 2001 1221.9 147 2002 1222.7 74.6 2003 1223.8 147 2003 1224.8 104 2004 1225.8 105 2004 1226.7 98.0 2005 1227.7 110 2005 1228.6 121 2006 1229.7 112 2007 1230.8 81.3 2007 1231.7 176 2007 1232.8 141 2008 1233.8 138 2008 1234.8 162 2009 1235.6 126 2009 1236.6 134 2009 1237.6 158 2010 1238.6 110 2010 1239.6 116 2011 1240.6 186 2~37 1241.3 22.2 2038 1242.3 93.3 2038 1243.3 92.61 2039 1244.3 87.91 2040 1245.3 75.1 2041 1246.3 92.3 2042 1247.3 48.0 2042 1248.3 91.1 2043 1249.1 71.31 2044 1250.1 96.6 2044 1251.1 141 2045 1252.1 156 2045 1253.1 147I 2046 1254.1 83.5 2046 1255.1 75.8 2047 1256.1 81.2 2048 1257.1 73.4I 2f49 1257.9 51.1[ 205~ 1259.C 139, MCC gBUS M26 RELIEF ~1 SIDt~'FACK Data Printed at time 01:~5 Date Jul 31 '88 Data Recorae~ a[ time 19:42 Date Jul 18 '88 TORQUE RPM WOB PUMP AVG MAX AVG AVG pREs 43 212 238 4.0~ 1250 0 0 193 2.40 1160 ~ 0 193 5.70 12601 0 0 194 5.50 1200 0 0 194 6.60 1290 0 0 194 8.40 1230 0 0 194 6.90 1220 0 0 194 8.0~ 1230 0 0 194 6,50 1230 0 0 194 7.10 1250 0 0 194 7.60 1120 0 0 194 7.40 1220 0 0 194 8.00 1250 0 0 194 7.80 1210 0 0 194 8.40 124~ 0 0 194 8.00 1280 0 0 194 8.1~ 1280 0 0 194 3.20 1180 198 354 226 7.90 1270 234 238 237 7.60 1250 231 239 236 5.20 1200 220 238 237 6,60 12f0 233 238 236 7.40 1190 240 251 236 8.60 1210 238 251 235 6.60 1200 223 233 235 7.50 1200 241 254 235 5.50 1150 237 246 236 4.80 1140 227 238 235 8.30 1200 208 234 235 5.50 1240 0 0. 197 6.80 1240 0 0 197 7.20 1240 0 0 197 7.30 1280 0 0 197 5.40 128~ 0 0 197 6.00 1200 0 296 196 6.50 1250 0 0 196 5.10 1220 0 0 196 4.50 1210 0 0 196 6.70 1250 0 0 197 6.10 12301 0 0 197 6.80 12601 0 0 197 9.00 13101 0 0 197 6.80 12501 0 0 197 6.20 1230 0 ~ 196 7.1~ 1230 0 0 196 6.~0 1250 0 0 196 6.4~ 12~ 0 ~ 196 7.2~ 127~ T.GAS MD lb/gal unit IN OUT 8.~ 9.40 9.40 8.0 9.4~ 9.40 8.~ 9.4~ 9.4~ 8.~ 9.40 9.40 9.09.409.40 9.~ 9.40 9.40 9.0 9.40 9.4~ 9.~ 9.40 9.40 8.0 9.40 9.4~ 8.09.409.40 8.09.409.40 8.09.409.40 8.09.409.40 8.09.409.40 8.0 9.4~ 9.40 8.09.409.40 8.09.409.40 8.09.409.40 8.0 9.4~ 9.40 8.09.409.40 8.09.409.40 8.~ 9.40 9.40 8.~ 9.40 9.40 7.09.409.40 7.09.409.40 7.09.409.40 7.09.409.40 7.09.409.40 10.09.409.40 FLOW/MIN TEMP (F) PVT IN OUT IN OUT 396 395 78.3 82.0 801 386 385 78.3 81.1 794 387 387 78.3 81.4 802 388 388 78.3 81.5 801 387 390 78.3 81.5 805 387 389 78.3 81.5 804 387 388 78.3 81.4 803 387 3~7 78.4 81.2 802 388 389 78.4 81.3 805 388 388 78.4 81.3 801 388 388 78.4 81.2 802 388 387 78.4 81.2 802 388 388 78.4 81.1 801 389 389 78.3 81.1 801 388 388 78.3 81.1 800 388 389 78.3 81.0 801 387 388 78.3 81.0 800 387 387 78.3 80.8 804 386 386 78.4 80.8 806 387 389 78.4 80.8 805 387 389 78.3 80.8 808 387 389 78.3 80.8 809 387 390 78.3 80.8 807 386 385 78.3 80.8 807 386 389 78.3 80.6 807 386 39~ 78.3 80.6 805 386 388 78.2 80.6 809 386 388 78.2 80.6 809 385 387 78.2 80.6 806 --THIS BIT ....... WATER --TVD-- ft hr DEPTH DEPTH 235 9.5 206.1 1175.7 236 9.7 207.1 1176.7 238 9.7 207.1 1178.0 239 9.7 207.1 1178.7 240 9.7 207.1 1179.4 241 9.7 207.1 1180.2 243 9.7 207.1 1181.7 244 9.7 207.1 1182.4 245 9.7 207.1 1183.2 246 9.7 207.1 1183.9 247 9.8 207.3 1184.5 248 9.8 207.2 1185.3 249 9.8 207.2 1186.0 250 9.8 207.2 1186.8 251 9.8 2~7.3 1187.4 252 9.8 207.2 1188.1 253 9.8 207.4 1188.8 254 9.8 207.3 1189.6 255 9.8 207.2 1190.4 256 9.8 207.2 1191.0 257 9.8 207.2 1191.8 258 9.8 207.2 1192.6 259 9.9 207.2 1193.3 260 9.9 207.4 1193.9 261 9.9 207.4 1194.6 262 9.9 2~7.4 1195.3 263 9.9 2~7.4 1196.~ 264 9.9 207.4 1196.7 265 9.9 207.4 1197.4 1~.~ 9.40 9.40 392 393 10.0 9.40 9.40 394 395 10.0 9.40 9.40 393 393 10.0 9.40 9.40 393 393 12.~ 9.40 9.40 393 392 12.~ 9.40 9.40 393 393 12.~ 9.40 9.40 392 393 12.0 9.40 9.40 393 394 12.~ 9.40 9.40 392 393 12.f 9.40 9.40 393 391 12.0 9.40 9.40 393 394 12.0 9.40 9.40 393 392 12.0 9.40 9.40 394 392 12.~ 9.4~ 9.40 394 394 20.~ 9.4~ 9.40 393 393 20.0 9.40 9.4~ 393 393 20.~' 9.4~ 9.40 393 392 2~.~ 9.4~ 9.4~ 392 39~ 2~.~ 9.4~ 9.4~ 392 392 78.6 80.1 802 78.6 80.1 804 78.6 80.1 802 78.6 80.1 802 78.6 80.0 802 78.6 79.9 802 78.8 79.8 802 78.8 79.7 802 78.7 79.7 802 78.8 79.6 802 78.8 79.6 800 78.8 79.6 801 78.8 79.5 800 78.8 79.5 8~1 78.8 79.4 8~1: 78.£ 79.2 800 78.£ 79.2 8~2 7&.8 79.2 78.5 79.3 265 10.2 207.7 1197.9 266 10.2 207.7 1198.6 267 10.2 207.7 1199.3 268 10.2 207.7 1200.1 269 10.2 207.7 12~.8 270 10.2 207.7 1201.5 271 10.3 207.7 1202.2 272 10.3 207.7 1202.9 273 10.3 207.9 1203.4 274 10.3 207.9 1204.1 275 10.3 2~7.9 1204.8 276 10.3 207.9 1205.5 277 10.3 207.9 1206.2i 278 1~.2 2~7.9 12~6.9 279 i~.3 2~7.9 1207.6~ 28~ 10.4 2~7.9 12£~.3~ 281 1~.4 2£7.9 12~9.~ 282 i~.~. 2~&.~ i269.=~: 283 iC.4 2~.g i2i~.2 DXC BCD NXMD .83 9.93 9.06 .89 9.92 9.06 .97 9.93 9.06 .88 9.93 9.~6 .86 9.93 9.~6 .84 9.93 9.06 .84 9.94 9.06 .88 9.94 9.06 .~8 9.94 9.06 .83 9.95 9.06 .97 9.95 9.06 .84 9.95 9.06 .90 1~.23 9.06 .89 10.23 9.06 .92 10.23 9.~6 .89 10.23 9.0'6 · 87 10.23 9.06 .74 10.23 9.06 · 97 10.24 9.06 .82 10.24 9.~6 .80 10.25 9.~6 .84 10.25 9.06 · 83 10.26 9.06 .91 10.26 9.06 .85 10.27 9.06 .84 10.27 9.~6 .85 10.27 9.~6 .82 10.28 9.06 · 82 10.28 9.06 1.17 9.90 9.06 · 92 9.89 9.~6 · 93 9.89 9.06 .94 9.~9 9.~6 · 92 9.88 9.~6 · 90 9.88 9.06 1.04 9.87 9.~6 · 87 9.~7 9.06 .89 9.87 9.06 .91 9.87 9.06 .82 9.88 9.06 .82 9.B9 9.06 .88 9.89 9.06 .94 9.90 9.~6 .94 9.9~ 9.U6 .95 9.91 9.~6 .56 9.51 9.~6 i.~2 9.92 9.~6 .55 9.~3 ~.~6 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D 'D IF# TIME + 288 2~50 289 285~ 290 2~51 291 2051 292 2052 293 2052 294 2053 295 2~53 296 2~53 297 2054 298 2054 299 2054 300 2055 301 2120 302 2121 303 2121 304 2122 305 2122 306 2124 307 2125 308 2125 I09 2126 310 2127 311 2128 312 2128 313 2129 314 2129 315 2129 316 2129 317 2130 318 2130 319 2130 320 2130 321 2131 322 2132 323 2132 324 2132 325 2132 326 2132 327 2133 328 2133 329 2133 330 2200 331 2200 332 220~ 333 22~0 334 2201 335 2201 MOC TBUS M26 RELIEF ~1 SIDETRACK Data Printe~ at tzme 01:C8 Data Recorded at time 26:50 Date Jul 31 '88 Date 0ul 18 '88 DEPTH ROP it it/hr 1260.0 147 1261.0 141 1262.~ 159 1263.0 8~.5 1263.9 113 1265.0 133 1265.9 190 1267.~ 163 1267.9 172 1268.9 172 1270.0 144 1271.0 173 1272.2 153 1272.8 33.7 1273.8 437 1275.0 90.6 1275.9 94.8 1276.9 87.5 1277.8 39.1 1279.0 84.8 1279.9 80.9 1281.0 77.4 1281.9 79.7 1283.0 70.7 1283.9 97.3 1285.0 227 1286.1 211 1287.1 234 1288.1 209 1289.1 217 1290.~ 232 1291.1 225 1292.1 135 1293.0 171 1294.0 90.3 1295.0 320 1296.0 328 1297.2 396 1298.6 335 1300.0 334 1301.3 3331 1303.0 338~ 1304.6 2431 1305.5 242i 1306.6 2471 13~7.5 252 1308.6 213 1309.6 183 TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 0 0 197 9.10 131~ 0 0 197 7.10 1220 0 0 196 7.30 1266 94 374 216 5.10 1210 225 228 246 4.60 1160 224 238 246 5.90 1180 222 225 245 6.90 1170 228 231 245 7.10 1190 222 226 246 7.76 1180 230 249 246 8.70 1240 235 252 245 6.40 1170 235 243 246 5.10 1160 235 252 247 6.00 1208 0 201 194 3.30 1190 0 0 194 5.40 1170 0 0 194 6.30 1230 0 0 195 6.50 1270 0 0 195 6.40 1890 0 53 194 8.50 1310 0 0 195 6.40 1200 0 0 194 6.80 1280 0 0 194 7.00 1240 0 0 194 6.00 1240 0 0 194 5.30 1210 0 0 194 6.80 1210 0 0 194 6.30 122~ 0 0 194 6.50 118~ 0 0 195 7.90 1220 0 0 194 7.20 1220 0 0 194 6.50 1090 0 0 194 7.00 1200 0 ~ 194 8.40 1240 0 0 194 7.00 12~0 0 0 194 6.30 1220 57 374 207 6.20 1220 235 239 245 5.6~ 12~0 22~ 225 249 6.00 1180 233 241 248 6.00 1190 228 231 247 6.30 1180 221 228 246 5.90 1180 222 228 249 6.40 1180 223 236 248 6.10 1170 220 226 226 9.40 1310 236 244 225 10.3 1380 227 238 226 10.8 1360 252 264 226 10.5 1470 254 262 226 13.C 15ig 261 283 226 1~.9 1680 T.GAS MD lb/gal FLOW/M1N unit IN OUT IN OUT 2C.0 9.40 9.4W 393 393 --THIS BIT ....... WA~'ER --TVD-- ~t hr DEI~I'H DEPTH 20.D 9.40 9.40 2~.6 9.4~. 9.40 2~.~ 9.40 9.40 20.D 9.40 9.40 20.0 9.40 9.40 2~.0 9.4~ 9.40 2C.D 9.40 9.4~ 2~.D 9.40 9.40 2~.~ 9.40 9.40 20.0 9.40 9.40 17.0 9.40 9.40 17.0 9.40 9.4~ 17.~ 9.40 9.40 17.0 9.40 9.4~ ~EMP (F) 1N OUT 78.8 79.2 PVT 393 393 78.8 79.2 802 393 391 78.8 79.2 805 393 392 78.8 79.2 803 392 394 78.8 79.2 803 391 394 78.8 79.2 804 391 393 78.8 79.2 803 391 391 78.8 79.2 8~4 392 39~ 78.8 79.6 802 392 390 78.8 79.~ 804 392 389 78.8 79.0 805 392 391 78.8 79.~ 803 392 393 78.8 79.0 804 388 388 78.8 78.0 796 388 389 78.8 78.0 797 17.0 9.40 9.40 389 17.0 9.4~ 9.40 389 17.0 9.40 9.40 390 17.0 9.40 9.40 389 17.0 9.40 9.4~ 390 17.0 9.40 9.40 388 20.0 9.40 9.40 388 20.0 9.40 9.40 389 20.0 9.40 9.40 388 2~.0 9.40 9.40 388 24.0 9.40 9.40 388 24.0 9.4~ 9.40 388 24.0 9.40 9.40 389 24.D 9.40 9.4~ 389 24.0 9.40 9.4~ 388 24.~ 9.40 9.40 388 25.0 9.40 9.4~ 387 25.0 9.40 9.40 388 25.C 9.40 9.40 388 25.0 9.40 9.40 388 25.~ 9.40 9.40 387 2~.0 9.4~ 9.40 388 28.0 9.40 9.40 388 28.0 9.40 9.40 387 28.~ 9.40 9.40 387 28.Z 9.40 9.40 387 387 78.8 78.0 796 389 78.8 77.9 795 390 78.8 77.9 797 390 78.9 77.7 797 39~ 78.9 77.7 796 388 78.9 77.6 795 388 78.9 77.5 795 389 78.8 77.4 794 387 78.9 77.4 797 387 78.8 77.4 796 389 78.8 77.4 796 389 78.8 77.4 797 387 78.8 77.4 797 389 78.8 77.4 797 390 78.8 77.4 798 388 78.8 77.4 797 387 78.8 77.4 797 384 78.8 77.4 797 385 78.8 77.3 798 388 78.8 77.4 798 389 78.8 77.4 798 388 78.8 77.4 798 389 78.8 77.4 799 390 78.8 77.4 799 387 78.8 77.4 800 387 78.8 77.4 801 391 78.8 77.4 801 396 79.0 81.7 803 396 79.0 81.7 804 399 79.0 81.7 8~3 398 79.1 81.7 804 396 79.1 81.7 803 396 79.1 ~1.7 ~03 26.0 9.40 9.40 387 26.~ 9.40 9.40 395 26.0 9.40 9.40 396 26.C 9.40 9.40 397 26.D 9.40 9.4~ 297 26.C 9.4~ 9.4~ 398 26.~ 9.40 9.4C 399 284 1~.4 208.0 121~.9 285 10.4 268.1 1211.6 286 1~.4 208.0 1212.3 287 10.4 208.1 1216.5 288 10.4 2~8.1 1217.1 289 10.4 208.1 1217.8 290 1~.5 208.1 1218.5 291 1~.5 2~8.0 1219.1 292 10.5 2W8.1 1219.8 293 10.5 208.1 1220.5 294 10.5 208.1 1221.2t 295 10.5 2~8.6 1221.91 296 10.5 208.1 1222.6 297 10.8 208.1 1223.1 298 10.8 208.1 1223.7 299 10.8 208.0 1224.5 300 10.8 208.1 1225.1 301 10.8 208.1 1225.8 302 1~.9 208.1 1226.4 303 10.9 208.0 1227.2 304 10.9 208.1 1227.8 305 10.9 208.0 1228.5 306 10.9 208.W 1229.1 307 10.9 208.~ 1229.8 308 10.9 208.1 1230.4 309 1~.9 207.9 1231.2 310 10.9 207.9 1231.9 311 10.9 207.9 1232.5 312 11.0 207.9 1233.2 313 11.0 207.9 1233.8 314 11.0 207.9 1234.4 315 11.~ 207.9 1235.1 316 11.~ 2C7.9 1235.8 317 11.~ 207.9 1236.4 318 ll.Z 207.9 1237.1 319 11.0 207.9 1237.7 320 ll.g 2~7.9 1238.3 321 11.0 207.9 1239.1 323 11.0 207.9 1240.0 324 11.~ 207.9 1240.9 325 11.~ 207.9 1241.8 327 11.0 207.9 1242.9 329 11.3 207.4 1243.9 330 11.4 207.4 1244.5 331 11.4 207.4 1245.1 332 11.4 2~7.4 1245.8 333 11.4 2~7.4 1246.4 234 11.4 2~7.4 1247.1 DXC 5CD NXMD .88 9.94 9.~6 .84 9.94 9.06 .82 9.94 9.~6 .90 9.95 9.~6 .85 9.95 9.06 .86 9.96 9~6 .82 9.96 9.~6 .86 9.97 9.66 .86 9.98 9.66 .88 9.98 9.06 .86 9.99 9.06 .79 9.99 9.06 .84 9.99 9.06 .96 9.90 9.06 .59 9.90 9.08 .91 9.91 9.08 .90 9.91 9.08 .92 9.91 9.88 1.13 9.90 9.08 .92 9.89 9.08 .94 9.89 9.08 .96 9.90 9.08 .92 9.90 9.08 · 92 9.91 9.08 .91 9.92 9.08 · 73 9.92 9.08 .75 9.93 9.08 .76 9.93 9.08 .77 9.94 9.08 .74 9.94 9.08 .74 9.94 9.'08 · 78 9.96 .84 9.96 9.08 .78 9.97 9.08 .91 9.98 9.08 · 69 9.98 9.08 .70 9.98 9.08 .66 9.99 8.99 .70 9.99 8.99 .69 1~.~0 8.99 .70 1~.00 8.99 .69 10.02 8.99 .82 9.93 8.99 .83 9.93 8.99 .64 9.93 8.89 .83 9.93 8.99 .91 9.93 8.99 .9~ 9.93 8.99 + D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D MOC TBUS M26 RELIEF #1 SIDETRACK Data Printea at time 01:11 Date Jul 31 '88 Data Recoraeo at time 22:~1 Date Jul 18 '88 F# TIME DEPTH ROP It it/hr 336 2201 1310.5 177 337 2202 1311.6 203 338 2202 1312.5 229 339 2202 1313.5 185 340 2202 1314.6 153 341 2203 1315.7 144 342 2203 1316.8 221 343 2203 1317.8 163 344 2204 1318.8 186 345 2204 1319.5 197 346 2204 1320.8 214 347 2205 1321.7 176 348 2205 1322.8 171 349 2205 1323.7 194 350 2206 1324.8 199 351 2206 1325.8 200 352 2206 1326.8 273 353 2206 1327.8 324 354 2206 1328.8 328 355 2207 1329.7 292 356 2207 1330.8 231 357 2207 1331.9 267 358 2207 1332.9 265 359 2207 1333.9 255 360 2208 1334.9 172 361 2234 1336.7 57.8 362 2234 1337.7 162 363 2235 1338.7 156 364 2235 1339.7 143 365 2235 1340.7 125 366 2237 1341.7 51.5 367 2237 1342.7 53.8 368 2239 1343.7 48.0 369 2239 1344.7 84.0 370 2240 1345.7 66.4 371 2241 1346.8 68.3 372 2242 1347.9 132 373 2242 1348.9 94.7 374 2243 1349.9 75.7 375 2244 1350.9 59.1 376 2245 1351.9 90.5 377 2245 1352.9 79.7 378 2246 1353.9 102 379 2247 1354.9 98.5 380 2247 1356.0 81.9 381 2248 1357.~ 87.8 382 2249 1358.~ 64.2 383 225~ 1359.2 64.2 ~QRQUE RPM WOB PUMP AVG MAX AVG AVG PRES 260 265 227 11.6 1490 257 265 229 11.7 1480 254 264 227 12.3 1520 271 286 227 11.9 1720 272 285 228 13.5 1800 260 296 230 7.40 1430 242 249 229 11.0 1430 237 247 229 8.50 137~ 241 254 226 11.0 1410 234 239 226 9.40 1400 257 268 226 12.9 1500 246 254 226 12.1 1450 259 265 226 11.6 1450 246 257 227 11.6 1430 255 264 226 10.0 1420 219 236 227 7.20 1250 217 225 228 8.50 1260 237 243 225 10.6 1310 T.GAS MD lb/gal FLOW/MIN TEMP (F) PVT unit IN OUT IN OUT IN OUT --THIS BIT ....... WATER --TVD-- it hr DEPTH DEI~H 335 11.4 336 11.4 337 11.4 338 11.4 339 11.4 340 11.4 341 11.4 342 11.4 343 11.4 344 11.4 345 11.4 346 11.4 347 11.4 348 11.4 349 11.4 350 11.5 351 11.5 352 11.5 207.4 1247.7 207.4 1248.4 207.4 1249.~ 207.4 1249.6 207.4 1250.2 207.3 1250.9 207.2 1251.6 207.2 1252.2 207.2 1252.9 207.2 1253.4 207.2 1254.1 207.2 1254.7 207.2 1255.4 207.3 1256.0 207.2 1256.6 207.2 1257.3 207.2 1257.9 207.2 1258.5 207.2 1259.1 207.3 1259.7 207.2 1260.4 207.1 1261.1 207.1 1258.4 207.1 1259.~ 207.1 1259.7 206.3 1260.8 206.3 1261.4 206.3 1262.0 206.3 1262.6 206.3 1263.2 206.3 1263.8 206.3 1264.4 206.3 1265.1 2~6.3 1265.7 206.3 1266.3 206.2 1266.9 206.1 1267.6 206.1 1268.2 206.1 1268.8 206.1 1269.4 206.1 1270.0 206.1 1270.6 206.1 1271.2 206.1 1271.8, 206.~ 1272.41 206.~ 1273.~ 2~6.~ i272.6 · i274.2 240 246 225 10.5 1400 266 277 226 9.60 1580 263 283 225 9.10 1460 255 257 228 10.2 1400 247 257 227 10.6 1400 243 252 227 12.7 1390 250 259 227 10.6 1350 4 236 201 7.50 1280 0 0 200 7.20 1260 0 0 199 7.50 1300 0 0 199 9.60 1300 0 0 200 13.2 1400 0 0 200 9.70 1270 0 0 199 8.10 1290 0 0 199 8.40 1170 0 0 199 8.70 1360 0 0 200 8.30 1310 0 0 200 9.10 1170 0 0 199 9.60 1340 0 0 200 9.20 1290 0 0 200 9.30 1340 0 0 200 9.10 1320 0 0 200 9.10 132~ 0 0 200 8.70 1330 0 0 20~ 9.20 1200 0 0 200 8.90 1310 0 0 2~ 9.50 139~ 0 0 2~0 1~.6 133~ ~ ~ 200 t~.4 13~ ~ ~ 2~ 1~.4 124~ 3~.D 9.40 9.4~ 3~.D 9.40 9.4~ 30.~ 9.40 9.40 30.0 9.4~ 9.40 3~.~ 9.40 9.40 30.0 9.40 9.40 3~.~ 9.40 9.4~ 3~.0 9.40 9.40 30.0 9.40 9.40 30.0 9.40 9.40 33.0 9.40 9.40 33.~ 9.40 9.40 33.0 9.40 9.40 33.0 9.40 9.40 33.0 9.40 9.40 33.0 9.40 9.40 33.0 9.40 9.40 33.0 9.40 9.40 401 400 78.9 81.6 801 402 402 78.9 81.6 802 4~2 4W0 78.9 81.6 801 401 401 79.~ 81.5 800 403 403 79.0 81.5 801 4~5 4~6 79.2 81.5 801 4~5 404 79.2 81.5 802 4~3 405 79.2 81.5 802 400 402 79.2 81.6 802 399 397 79.2 81.6 801 398 398 79.2 81.6 802 398 397 79.2 81.7 801 399 398 79.2 81.7 803 399 400 79.1 81.5 802 399 399 79.1 81.5 802 399 399 79.1 81.5 803 399 398 79.1 81.5 803 398 398 79.1 81.5 803 353 354 355 356 357 358 359 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 11.5 11.5 11.5 11.5 11.5 11.5 11.5 11.8 11.8 11.8 11.$ 11.8 11.9 11.9 11.9 11.9 11.9 11.9 11.9 12.~ 12.~ 12.0 12.0 12.0 12.0 12.D 12.D 12.i 12.1 12.i 33.0 9.40 9.40 33.0 9.40 9.40 33.0 9.40 9.40 33.0 9.40 9.40 33.0 9.40 9.40 33.0 9.40 9.40 33.0 9.40 9.40 10.0 9.40 9.40 10.0 9.40 9.40 10.0 9.40 9.40 10.0 9.40 9.40 7.0 9.40 9.40 7.~ 9.40 9.4~ 7.~ 9.40 9.40 7.0 9.40 9.40 7.0 9.40 9.40 7.0 9.40 9.40 7.0 9.40 9.40 7.0 9.40 9.40 7.0 9.40 9.40 7.0 9.40 9.40 8.0 9.40 9.40 8.0 9.40 9.40 8.0 9.40 9.40 8.~ 9.40 9.40 8.0 9.40 9.4~ 10.0 9.40 9.4~ 10.D 9.40 9.4{~ 1~.6 9.4~ 9.4~ 1~.~ 9.40 9.40 397 397 79.1 81.5 804 396 397 79.1 81.5 803 397 397 79.1 81.5 803 399 398 79.1 81.5 802 399 400 79.1 81.5 802 399 399 79.1 81.4 802 398 399 79.1 81.4 803 399 400 79.3 80.2 801 399 4~ 79.3 80.2 801 399 399 79.3 80.2 799 398 399 79.3 80.2 800 399 399 79.3 80.4 800 400 395 79.3 80.4 801 399 398 79.2 80.4 802 398 396 79.3 80.6 803 398 395 79.3 80.7 803 400 396 79.3 80.8 801 399 396 79.3 80.8 800 398 397 79.3 80.£ 1~2 400 400 79.3 80.~ 802 400 395 79.3 80.7 801 399 399 79.3 80.6 802 400 400 79.3 80.6 803 400 400 79.3 80.6 803 4~0 400 79.2 80.6 802 399 401 79.3 80.6 802I 400 399 79.4 8~.6 801I 401 401 79.5 50.4 802I 400 4~ 79.5 ~0.4 801I 4~ 399 79.2 g6.4 8~11 DXC I~CD NXMD .92 9.93 8.99 .90 9.92 8.99 .88 9.92 8.99 .92 9.92 8.99 .99 9.93 8.99 .88 9.92 8.99 .87 9.92 8.99 .88 9.92 8.99 .90 9.91 8.99 .86 9.91 8.99 .91 9.91 8.99 .94 9.91 8.99 .93 9.91 8.99 .91 9.92 8.99 .87 9.92 8.99 .81 9.92 8.99 .78 9.93 8.99 .78 9.93 8.99 .77 9.94 8.99 .78 9.94 8.99 .82 9.95 8.99 .81 9.95 8.99 .82 9.96 8.99 .86 9.96 8.99 .91 9.97 8.99 1.~3 .9.91 8.99 .82 9.91 8.99 .84 9.91 8.99 .90 9.91 8.99 1.0~ 9.91 8.99 1.12 9.89 8.99 1.07 9.88 8.99 1.1~ 9.86 8.99 .99 9.86 8.99 1.~3 9.86 8.99 1.05 9.87 8.99 .92 9.87 8.99 .98 9.87 8.99 i.~3 9.88 8.99 1.07 9.89 8.99 .99 9.89 8.99 1.00 9.90 8.99 .97 9.90 8.99 .96 9.91 8.99 i. D1 9.91 8.99 1.~2 9.92 8.99 i.~9 9.92 8.99 i.~8 9.93 8.99 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D MCC TBUS N26 RELIEF #1 SIDETRACK F# TIME DEPTH ROP ft Et/hr 384 2251 1360.2 58.0 385 2252 1361.2 57.1 386 2253 1362.2 60.2 387 2254 1363.2 66.0 388 2254 1364.3 74.1 389 2255 1365.4 75.2 390 2256 1366.4 60.3 391 2257 1367.5 61.~ 392 2326 1368.5 187 393 2326 1369.5 193 394 2326 1370.7 187 395 2326 1371.7 172 396 2327 1372.7 163 397 2327 1373.6 191 398 2327 1374.6 204 399 2328 1375.7 187 400 2328 1376.7 171 401 2328 1377.9 191 402 2329 1378.9 204 403 2329 1379.9 208 404 2329 1380.9 198 405 2329 1381.9 182 406 2330 1382.9 170 407 2330 1383,9 155 408 2331 1384.9 140 409 2331 1385.9 145 410 2331 1386.9 153 411 2332 1387.9 180 412 2332 1388.9 250 413 2332 1389.9 171 414 2333 1390.9 130 415 2333 1391.9 120 416 2334 1393.0 155 417 2334 1394.0 129 418 2334 1395.0 123 419 2335 1396.~ 121 420 2335 1397.~ 119 421 2336 1398.~ 125 422 2336 1399.2 148 423 2358 1401.2 72.6 424 2359 1402.2 69.0 Date Jul 19 '88 425 0000 1403.1 59.91 426 0001 1404.1 69.5I 427 0002 1405.2 147I 428 0~02 1406.4 138~ 429 0003 1407.2 139 430 0003 1408.4 151 + TORQUE RPM WOB PUMP AVG MAX AVG AVG PRES 0 0 200 9.40 1220 0 0 199 9.1~ 1250 0 0 200 8.70 1290 0 0 200 10.2 1290 0 0 2~0 9.20 1270 0 0 200 9.00 13~0 0 0 200 8.90 125~ 0 0 200 8.9~ 1210 235 246 253 9.00 1300 232 243 254 8.50 1280 238 249 255 6.40 1250 228 236 255 7.90 1250 231 243 255 6.10 1240 225 228 255 7.80 1240 227 230 254 8.20 1260 232 236 254 8.10 1280 226 231 254 7.60 1280 222 225 255 7.50 1250 226 234 254 8.30 1250 230 234 255 8.40 1250 233 238 256 8.50 1250 229 231 254 9.~0 1240 230 239 254 9.70 1270 238 249 254 8.30 1230 232 239 255 8.10 123~ 224 233 255 7.50 1190 226 228 254 7.00 1210 217 225 256 5.80 1170 223 228 254 8.10 122g 231 236 254 7.00 1220 226 236 255 8.30 1200 230 241 254 7.20 1230 233 241 254 7.50 1260 224 23~ 255 8.30 1230 230 239 255 7.70 1220 227 234 254 7.80 1210 221 230 255 7.50 1200 212 215 255 7.30 1180 219 225 255 7.90 1200 54 231 212 10.2 1240 0 0 195 9.50 1270 Data Printed at t£me ~1:15 Data Recorce~ a% time 22:51 Date Jul 31 '86 Date Jul lb '88 T.GAS MD lb/gal FLC~&/MIN unit IN OUT IN OUT 11.0 9.40 9.40 399 399 11.0 9.40 9.40 398 394 11.~ 9.40 9.40 400 11.0 9.40 9.40 399 394 11.~ 9.40 9.4~ 400 399 12.0 9.40 9.4~ 400 400 12.0 9.4~ 9.4~ 399 396 12.0 9.40 9.40 4~0 396 12.~ 9.40 9.40 394 394 12.0 9.40 9.40 395 395 22.0 9.40 9.40 397 396 22.0 9.40 9.40 398 396 22.~ 9.40 9.40 397 397 22.0 9.40 9.4~ 397 400 22.0 9.40 9.40 397 400 30.0 9.40 9.40 396 398 30.0 9.40 9.40 396 398 30.0 9.40 9.40 397 395 30.0 9.40 9.40 397 392 30.0 9.40 9.40 397 398 33.0 9.40 9.40 397 399 33.0 9.40 9.40 396 395 33.0 9.40 9.40 396 395 33.0 9.40 9.40 397 397 33.0 9.40 9.40 396 397 40.0 9.40 9.40 396 396 40.0 9.40 9.40 396 396 40.0 9.40 9.40 396 396 40.0 9.40 9.40 396 397 40.0 9.40 9.40 396 396 40.0 9.40 9.40 397 398 40.6 9.40 9.40 396 396 40.0 9.40 9.40 396 396 40.0 9.40 9.40 397 398 32.0 9.40 9.4~ 397 398 32.~ 9.40 9.40 396 396 32.0 9.40 9.40 395 397 32.0 9.40 9.40 395 395 32.0 9.40 9.40 395 391 35.0 9.40 9.4~ 390 389 35.0 9.40 9.40 391 388 TENP (F) IN OUT 79.4 80.4 79.3 80.4 79.4 80.4 79.4 80.4 79.4 80.4 79.5 80.4 79.5 80.4 79.5 80.4 79.7 8~.1 79.7 80.1 79.7 80.1 79.7 80.1 79.7 80.1 79.7 80.1 79.7 80.1 79.7 80.1 79.7 80.1 79.7 80.1 79.7 80.1 79.7 80.1 79.7 80.2 79.7 80.2 79.7 80.2 79.7 80.1 79.7 80.1 79.7 80.1 79.7 8~.1 79.7 80.1 79.7 80.1 79.7 80.1 79.8 80.1 79.8 80.1 79.8 80.1 79.7 79.9 79.7 79.9 79.7 79.9 79.6 79.8 79.6 79.8 79.8 79.7 79.9 81.9 79.9 81.9 PVT 802 801 800 800 801 802 8~2 801 800 800 801 800 800 800 799 799 801 801 801 801 801 800 800 800 801 801 800 801 800 800 802 801 800 801 801 800 800 797 795 --THIS BIT- ...... WATER --T%I)-- ft hr DEPTH DEF1H 384 12.1 205.8 1274.9 385 12.1 205.8 1275.5 386 12.1 205.8 1276.1 387 12.1 205.8 1276.7 388 12.2 205.7 1277.3 389 12.2 205.6 1278.0 390 12.2 205.6 1278.6 391 12.2 2~5.5 1279.2 392 12.6 204.5 1279.8 394 12.6 204.4 1280.4 395 12.6 204.3 1281.1 396 12.6 204.3 1281.7 397 12.6 2~4.3 1282.2 398 12.6 204.3 1282.8 399 12.6 204.3 1283.4 400 12.6 204.3 1284.0 401 12.6 204.3 1284.6 402 12.6 204.1 1285.2 403 12.6 204.1 1285.8 404 12.6 204.1 1286.4 405 12.6 204.1 1287.~ 406 12.6 204.1 1287.5 407 12.7 204.1 1288.1 408 12.7 204.1 1288.7 409 12.7 204.1 1289.2 410 12.7 204.1 1289.8 411 12.7 204.1 1290.4 412 12.7 204.1 1290.9 413 12.7 2~4.1 1291.5 414 12.7 2~4.1 1292.1 415 12.7 204.1 1292.6 416 12.7 204.1 1293.2 417 12.7 204.0 1293.$ 418 12.7 204.~ 1294.4 419 12.7 204.~ 1295.0 420 12.7 204.~ 1295.6 421 12.7 204.0 1296.1 422 12.8 204.0 1296.7 423 12.8 2~3.8 1297.4 425 13.~ 202.8 1298.5 426 13.0 202.~ 1299.1 DXC ECD NXMD 1.~8 1.07 1.05 1.07 1.02 1.02 1.~6 1.~5 .89 .88 .83 .89 .85 .86 .86 .87 .88 .85 .86 .86 .~7 .90 .92 .91 .93 .90 .88 .82 .81 .86 .94 .93 .89 .94 .94 .94 .94 .92 .90 1.~7 1.~34 9.93 9.93 9.94 9.95 9.95 9.96 9.96 9.96 9.81 9.81 9.82 9.82 9.83 9.83 9.83 9.84 9.84 9.85 9.85 9.85 9.86 9.86 9.87 9.88 9.88 9.89 9.89 9.90 9.90 9.91 9.91 9.92 9.92 9.93 9.93 9.94 9.94 9.95 9.95 9.93 9.91 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 8.99 196 9.00 1520I 196 8.89 1280I 196 9.70 1250{ 195 9.80 1340i 195 10.4 i29~I 196 1~.5 1360t + 35.0 9.40 9.40 392 390 35.~ 9.4~ 9.40 391 391 35.0 9.40 9.40 391 391 35.0 9.40 9.4~ 39~ 392 35.~ 9.40 9.40 391 392 35.~ 9.4~ 9.40 391 293 79.9 81.8 79.8 81.7 79.9 82.4 79.9 82.4 79.9 82.4 79.9 84.9 795 797 799 801 801 42~ 13.~ 202.8 1199.6 428 13.i 2~2.$ 13~.2 429 13.1 202.7 130g.8 430 13.1 202.6 13M1.4 431 12.1 2~2.6 i3~2.~ 432 13.1 2~2.6 12~2.6 1.C6 1.03 .gw .91 .92 .91 9.91 9.90 9.89 9.90 9.89 9.E9 8.99 8.99 8.99 8.99 8.99 8.99 + D D D D D D D D D D D D D D D D D D D '~) D D D D D D D MOC TBUS 026 RELIEF ~1 SIDETRACK I F# TIME DEPTH ROP ft ft/hr 431 0~5 1413.5 154 432 0005 1414.5 2Z3 433 0~05 1415.5 161 434 0006 1416.5 165 435 ~006 1417.5 172 436 0~06 1418.4 181 437 ~7 1419.5 163 438 ~,3007 1420.5 181 439 0007 1421.5 188 440 0~8 1422.4 200 441 ~8 1423.4 189 442 0008 1424.5 2~1 443 ~09 1425.5 200 444 0~9 1426.5 171 445 0~9 1427.5 19~ 446 0010 1429.5 185 447 0010 1430.7 131 448 0033 1432.8 43.3 449 0034 1433.8 71.2 450 0~34 1434.8 107 451 ~34 1435.9 175 452 0035 1437.1 122 453 0036 1438.1 52.2 454 0~36 1439.1 142 455 0037 144~. 2 142 456 ~37 1441.2 146 457 '~38 1442.2 158 458 0~38 1443.2 94.8 459 ~39 1444.2 77.5 460 ~ 1445.4 58.1 461 0~41 1446.4 66.9 462 ~42 1447.3 50.5 463 0~43 1448.5 56.1 464 ,2~44 1449.5 47.8i TORQUE RPM WOB PUMP AYG MAX AVG AVG PRES 230 254 268 8.~ 1190 232 236 267 9.80 1220 238 246 268 8.20 1235 232 239 267 8.70 1210 240 252 267 7.70 1210 244 254 267 9.70 1260 237 246 267 8.70 1230 230 234 268 8.3~ 1210 230 234 267 8.~ 1190 23~ 238 269 9.10 1210 228 234 268 9.10 1220 228 234 268 8.70 1210 232 241 268 8.70 1220 235 251 268 8.30 1220 231 241 267 9.5~ 1200 232 239 268 9.50 1200 177 238 266 5.80 1139 0 2~9 197 9.50 1280 9 116 198 9.50 1290 0 0 197 9.30 1250 0 0 197 9.9~ 1270 0 0 197 6.9~ 1240 0 0 198 9.80 1230 0 0 198 10.7 1350 0 0 198 9.9~ 1260 0 0 198 11.1 1420 0 0 198 11.2 1290 11 158 198 6.2~ 12201 0 31 198 11.8 1290 0 0 198 10.8 1320 0 0 198 11.0 1250 0 0 197 12.6 1320 0 ~ 198 11.7 1250 Z ~ 198 10.7 1300! T.GAS MD lb/gal FLOW/MIN unit IN OUT IN OUT TZ~P (F) IN OUT PVT Data Printed at tim~. 2~:24 Data Recorded at time DM:M5 31.~ 9.4~3 9.40 389 389 31.0 9.40 9.40 389 389 33.0 9.40 9.40 389 388 33.0 9.40 9.40 389 389 33.0 9.40 9.40 389 388 33.0 9.40 9.40 389 388 33.0 9.40 9.40 389 388 40.D 9.40 9.49 389 388 45.0 9.40 9.40 389 388 40.0 9.40 9.40 389 388 40.0 9.40 9.40 389 388 40.0 9.40 9.40 389 388 38.0 9.40 9.40 389 389 38.0 9.4~ 9.40 389 389 38.~ 9.40 9.40 389 389 38.0 9.40 9.40 388 389 20.0 9.40 9.40 389 389 20.0 9.40 9.40 395 391 20.0 9.40 9.40 395 392 20.0 9.4~ 9.40 395 396 15.0 9.40 9.40 395 390 15.0 9.40 9.40 395 39~ 15.0 9.4~ 9.40 395 392 15.0 9.40 9.40 395 390 16.0 9.40 9.4~ 395 396 16.0 9.40 9.40 395 396 16.0 9.40 9.40 396 396 16.0 9.40 9.40 396 396 16.0 9.40 9.40 395 396 34.0 9.4~ 9.40 395 394 34.0 9.40 9.40 395 397 34.0 9.40 9.40 394 395 34.0 9.40 9.4~ 396 396 34.0 9.40 9.40 395 395 79.9 84.9 79.9 84.9 79.9 84.7 79.9 84.7 79.9 84.7 79.9 84.4 79.9 84.4 79.9 84.4 79.9 84.2 79.9 84.2 79.9 84.2 79.9 83.9 79.9 83.9 79.9 83.9 79.9 83.7 79.9 83.7 79.9 83.6 79.9 84.0 79.9 83.9 79.9 83.9 79.9 83.9 79.9 83.9 79.9 83.5 79.9 85.3 79.9 85.3 79.9 85.3 79.9 85.4 79.9 85.4 79.9 85.2 79.9 85.0 79.9 84.8 79.9 84.7 80.0 84.6 80.0 84.4 802 802 802 801 801 801 801 801 802 801 802 801 801 802 801 802 8~ 799 799 797 796 798 798 798 797 797 798 797 795 796 797 798 796 797 --THIS BIT - WATER --TVD-- ft hr DEPTH DEPTH NB %16 cut 774 feet in 13.7 drilling hours. Circulate at 1450' msl. Making short trip to 887' msl. Completed short trip. Circulating bottoms up. Opened the 9.875" hole to 12.25" from 857 - 1434' msl. Hole o~ener run in conjuction with Teleco 5~D directional tool. Ran 28 joints of 43.5 lbs/ft N-80 9.625" casing to 1413' msl. Casing ~s cemented with 375 s;.,zks of Premium cement. Test BOP stack and lay down 7.75" drill collars. RRB ~13R1 Smith SDGH 8.5" with omen jets in at 1303 feet. Bit ~13 used to drill cement, float equipment, shoe and new formation. Tagged cement in the 9.625" casing at 13'~3' msl. Drilled cement, float equipment, shoe and 5' of new fomtion to 1455' msl. Dats Jul 31 ' ~ Date JUl 19 '88 437 13.1 202.5 438 13.1 202.5 439 13.1 202.5 44~ 13.1 202.5 441 13.1 202.5 442 13.1 202.5 443 13.2 202.5 444 13.2 202.5 445 13.2 202.5 446 13.2 202.5 447 13.2 202.5 448 13.2 202.5 449 13.2 2~2.5 450 13.2 202.5 452 13.2 202.4 453 13.2 202.3 455 13.2 202.3 457 13.5 201.1 458 13.5 201.1 459 13.5 201.1 460 13.5 201.0 461 13.5 201.0 462 13.5 200.8 463 13.5 200.8 464 13.5 200.8 465 13.6 2~. 8 466 13.6 200.8 467 13.6 2~. 8 468 13.6 2~. 8 469 13.6 200.6 470 13.6 2~. 6 471 13.6 200.6 472 13.6 200.5 473 13.7 200.5 DXC 1305.4 .91 1306.0 .90 1306.5 .91 1307.1 .91 1307.6 .88 1308.2 .92 1308.8 .92 1309.3 .89 1309.9 .87 1310.4 .89 1311.0 .90 1311.5 .88 1312.1 .88 1312.6 .90 1313.2 .90 1314.3 .91 1314.9 .87 1316.1 1.13 1316.7 1.03 1317.2 .94 1317.8 .86 1318.4 .86 1319.0 1.10 1319.6 .92 1320.1 .90 132~.7 .92 1321.2 .9~ 1321.8 .89 1322.3 1.07 1322.9 1.10 1323.5 1.08 1324.0! 1.18 1324.61 1.14 1325.21 1.15 ECD NXMD 9.77 8.99 9.77 8.99 9.77 8.99 9.77 8.99 9.77 8.99 9.77 8.99 9.77 8.99 9.78 8.99 9.78 8.99 9.78 8.99 9.78 8.99 9.78 8.99 9.79 8.99 9.79 8.99 9.79 8.99 9.80 8.99 9.83 8.99 9.79 8.99 9.79 8.99 9.79 8.99 9.79 8.99 9.79 8.99 9.79 8.99 9.79 8.99 9.79 8.99 9.79 8.99 9.79 8.99 9.79 8.99 9.78 8.99 9.77 8.99 9.77 8.99 9.75 8.99 9.74 8.99 9.75 8.99 I ID ID !D ID ID ID ID ~D ID D D D D D D D D D D D ~4OC TBUS ~26 RELIEF %1 SIDE'PRACK ~ F~ TIME DEPTH ROPI TORQUE RPM WeB PU~PI T. GAS MD lb/gal ft ft/hrl AVG MAX AYG AVG PRES i unit IN OUT .I,, Ran a Pressure Integrity Test with a 14.3 0Pg E~. 6 2241 1451.3 1511 261 267 60 9.20 2101 10.0 9.4~ 9.40 7 2242 1452.3 86.8~ 287 337 60 9.5~ 2101 10.0 9.40 9.40 8 2243 1453.3 62.41 301 325 60 9.50 2101 10.0 9.40 9.40 9 2244 1454.3 46.11 322 341 60 12.3 210~ 10.0 9.40 9.40 10 2245 1455.3 43.31 335 354 60 12.1 2101 6.0 9.40 9.40 NB #17 Smith SDGH 8.5" with 16:16:18:32 jets in at 1455 feet. Data Printed at time_ 29:32 Data Recorded at time 18:15 Date Jul 31 '88 Date Jul 29 '88 FL~/MIN TZMP (F) IN OUT IN OUT PVT ] --THIS BIT I ft hr WATER --TVD--~ DXC DEP~ DEPTH I ! BCD NXMD 343 344 68.7 68.5 4651 141 3.2 343 343 68.7 68.5 4651 143 3.2 343 343 ~8.7 68.4 4661 144 3.2 343 344 68.7 68.4 4681 145 3.2 343 343 68.7 68.2 4811 146 3.3 208.7 1324.41 .68 10.01 9.00 208.7 1325.0~ .80 10.02 9.00 208.7 1325.51 .87 10.06 9.00 208.7 1326.!] .99 10.06 9.00 208.7 1326.61 1.01 10.08 9.00 Bit %17 Bit ~!7 Date Jul 21 '88 12 1231 1457.0 79.2 13 1232 1458.0 64.4 14 1233 1458.9 66.7 15 1234 1460.2 72.1 16 1235 1461.2 60.8 17 1236 1462.1 53.0 18 1237 1463.2 46.1 19 1238 1464.2 51.4 2~ 1239 1465.2 46.2 21 1240 1466.2 53.1 22 1241 1467.3 62.1 23 1242 1468.4 80.4 24 1243 1469.3 74.7 25 1244 1470.4 86.1 26 1245 1471.3 70.3 27 1245 1472.4 99.1 28 1246 1473.4 76.7 29 1247 1474.5 63.6 30 1248 1475.5 79.3 31 1249 1476.5 55.61 32 1249 1477.566.5 33 1250 1478.4 60.0 34 1251 1479.4 86.4 35 1252 1480.5 68.9 36 1252 1~3~.2 136 37 1253 14~2.7 72.7 38 1254 1483.6 56.3 39 1255 1484.7 84.2 4~ 1256 1485.7 99.5 41 1256 1486.8 94.9 42 1257 1487.9 79.2 43 1258 1488.8 69.2 44 1259 1489.9 81.9 45 1259 149~.9 85.71 46 1329 1492.7 74.8 47 1329 1493.7 80.~i 48 1330 1494.7 61.31 49 1331 1495.7 82.7 run in conjuction with a L~rTrack mud motor and a Teleco ~4D directional Tool. with an additional center jet (o.Den). 0 0 178 7.~ 840 2 39 178 7.60 ~70 0 0 178 7.50 820 0 0 178 4.50 800 0 0 177 6.20 810 0 0 176 6.50 790 0 0 176 7.10 820 0 0 178 7.6~ 780 0 0 177 5.6~ 750 0 0 177 4.20 820 0 0 178 5.10 770 0 O 178 5.0~ 780 0 ~ 177 8.10 830 0 0 176 7.50 820 0 0 177 8.40 800 0 0 178 9.40 830 0 0 178 10.0 760 0 0 178 10.3 840 0 0 178 7.80 820 0 0 178 9.Z~ 810 12 133 178 9.6~ 830 0 0 178 8.0~ 8201 0 0 178 7.4~ 8101 0 0 178 9.10 7201 19 61 178 8.99 760i 3 155 178 7.10 7~ 6 137 179 9.5~ 76~ 0 0 178 5.9~ 750 0 0 178 $.5~ 750 0 ~ 179 8.9~ 740 0 0 178 8.9~ 780 O 0 178 8.10 8~ 0 0 178 7.30 82~ 0 0 178 8.69 760 264 385 212 5.4~ 750 352 372 226 3.50 680 342 364 227 4.7~ 730 350 365 227 4.6~ 72~ 6.0 9.40 9.40 355 358 66.6 61.7 6.0 9.40 9.40 355 358 66.6 61.7 6.0 9.40 9.40 355 357 66.6 61.7 6.0 9.40 9.40 355 358 66.6 61.7 6.0 9.40 9.40 353 356 66.6 61.7 6.0 9.40 9.40 353 354 66.6 61.7 6.0 9.30 9.40 354 356 66.6 61.7 6.0 9.30 9.40 356 356 66.7 61.7 8.0 9.30 9.40 351 355 ~6.7 62.4 8.0 9.30 9.40 356 355 66.7 62.3 8.0 9.30 9.40 357 355 66.7 62.3 8.0 9.30 9.40 356 353 66.8 62.8 8.0 9.30 9.40 352 353 66.8 65.6 20.0 9.30 9.40 353 354 66.8 65.6 20.0 9.30 9.40 355 352 66.8 65.5 20.0 9.30 9.40 355 352 66.7 65.7 20.0 9.30 9.40 355 354 66.9 66.1 20.0 9.30 9.40 355 352 66.9 66.4 25.0 9.30 9.40 356 352 67.0 66.6 25.0 9.30 9.'40 356 354 67.1 66.8 25.0 9.30 9.40 355 353 67.1 66.9 25.~ 9.30 9.40 356 353 67.3 67.1 25.0 9.30 9.40 356 354 67.3 67.0 37.0 9.3~ 9.40 356 355 67.2 67.1 37.0 9.40 9.40 356 355 67.2 67.1 37.0 9.40 9.40 357 355 67.1 67.1 37.0 9.40 9.40 357 354 67.2 67.1 37.0 9.40 9.40 356 353 67.3 67.1 37.~ 9.40 9.4~ 357 354 67.3 67.1 37.0 9.40 9.4~ 357 354 67.2 67.1 37.0 9.40 9.40 356 354 67.3 67.0 37.0 9.40 9.40 356 354 67.4 66.9 1~6.0 9.4~ 9.40 356 353 67.5 66.9 39.0 9.40 9.4~ 356 353 67.5 66.9 30.0 9.40 9.40 351 354 67.8 64.9 30.0 9.40 9.40 352 352 67.8 64.9 3~.~ 9.4~ 9.4~ 353 352 67.8 64.9 40.0 9.40 9.49 352 351 68.~ 64.8 7161 2.0 716 3.0 717 3.9 718 5.2 718 6.2 719 7.1 719 8.2 721 9.2 722 10.2 722 11.2 722 12.3 722 13.4 724 14.3 724 15.4 726 16.3 726 17.4 727 18.4 725 19.5 726 20.5 726 21.5 726 22.5 7281 23.4 727! 24.4 7281 25.5 729~ 26.2 727 27.7 728 28.6 729 29.7 730 30.7 730 31.8 728 32.9 731 33.8 729 34.9 73~ 35.9 711! 37.7 7!4~ 38.7 7121 39.7 713~ 40.7 .3 .3 .3 .3 .4 .4 .4 .4 .4 .5 .5 .5 .5 .5 .5 .5 .5 .6 .6 .6 .6 .6 .6 .6 .7 .7 .7 .7 .7 .7 .7 .7 .8 .8 1.2 1.2 1.2 1.2 204.0 204.0 204.0 203.8 203.8 203.8 203.8 203.8 203.8 203.8 203.6 203.6 203.7 203.7 203.6 203.6 203.5 203.5 203.5 203.5 203.5 203.5 203.5 203.5 203.5 203.3 203.3 203.3 203.1 203.1 203.2 203.2 203.1 203.1 202.3 2~2.3 2~2.3 2-92.3 1327.51 .95 10.08 9.00 1328.01 1.00 10.11 9.00 1328.5~ .99 10.12 9.00 1329.2~ .88 10.12 9.00 1329.7 .97 10.13 9.00 1330.2 1.~ 10.14 9.00 1330.8 1.05 10.15 9.0~ 1331.3 1.04 10.16 9.00 1331.8 .99 10.16 9.00 1332.4 .91 10.17 9.00 1333.0 .92 1~.18 9.00 1333.5 .87 10.18 9.00 1334.0 .98 10.19 9.00 1334.6 .93 10.19 9.0~ 1335.0 1.00 10.20 9.00 1335.6 .95 10.20 9.00 1336.2 1.02 1~.21 9.00 1336.7 1.07 10.21 9.0~ 1337.2 .96 10.22 9.00 1337.8 1.06 10.23 9.00 1338.3 1.04 10.23 9.~0 1338.8' 1.02 10.23 9.00 1339.3i .93 10.24 9.00 1339.8:!.~2 10.25 9.00 1340.2: .88 10.26 9.00 1341.0 .95 1~.26 9.~ 1341.5 1.g7 10.27 9.00 1342.0 .89 1~.28 9.00 1342.6 .94 10.28 9.~ 1343.1 .95 10.28 9.00 1343.7 .98 1~.29 9.~ 1344.1 .99 1~.28 9.00 1344.7 .93 1~.28 9.~ 1345.2 .96 1~.29 9.~ 1346.1 .94 10.13 1346.7 .86 10.13 9.~0 1347.2~ .96 10.13 1347.7~ .99~ 1~.13 9.~ I ID ID ID ID]' I I I I ID ID ID ID ID ID ID ID ID D D D D D D D D D D D D D ID ID ID ID ID ID ID ID ID ID ID MO2 TBUS ~26 RELIEF ~1 SIDETRACK I F# TIME DEPTH ROPI TORQUE RPM WOB PUMPI T.GAS MD lb/gal I ft ft/hrl' AYG MAX AVG AVG PRES~ unit IN OUT 5~ 51 52 53 54 55 56 57 58 ~ 59 I 61 I 62 65 67 69 70 71 72 73 ~ 74 75 76 78 79 81 82 83 85 87 89 91 92 93 95 97 1332 1496,8 87.41 341 364 1332 1497.9 86.'51 347 357 1333 1498.8 79.81 349 422 1334 1499.8 95.51 337 348 1334 1500.8 92.41 328 335 1335 1501.9 83.31 326 335 1335 1502.9 1071 329 338 1336 1503.9 67.61323 331 1337 1504.9 105 327 333 1338 1505.9 79.4 1338 1506.8 109 1339 ~508.0 97.1 1339 1509.0 87.3 1340 1510.0 90.9 1341 1511.0 103 1341 1512.2 103 1342 1513.2 71.4 1343 1514.29~.5 1343 1515.1 97.7 1344 1516.2 93.2 1345 1517.2 82.3 1345 1518.2 102 1346 1519.2 79.6 1347 1520.2 73.5 1347 1521.2 100 1348 1522.4 139 1348 1523.4 87.9 1349 1524.4 87.9 323 331 323 328 325 331 335 346 329 336 326 331 323 330 326 338 332 338 337 346 331 341 333 343 334 341 335 343 337349 339 349 332 336 333 343 331 34~ 1400 1525.7 101 333 353 1400 1526.7 1121 339 353 1401 1527.6 83.8 1401 1528.7 110 1402 1529.9 91.4 14~3 1530.9 56.1 1404 1531.9 85.0 14~4 1532.9 85.9 14~5 1533.9 1~1 14Z6 1534.994.6 14~6 1535.9 94.8 14~7 1536.9 94.9 14W7 1537.9 117 14~8 1539.0 89.4 14f~8 154O.1 110 1409 1541.0 94.8 141~ 1542.2 98.9 1410 1543.2 L95 1411 1544.2 1411 i545.2 !~5 337 353 339 349 325 331 326 331 329 336 328 341 325 330 325 333 324 330 324 330 325 331 323 330 332 348 335 346 330 338 328 333 330 343 336 343 227 3.50 670 227 3.60 690 236 3.10 650 238 2.90 660 238 2.50 640 239 2.80 650 238 2.9~ 660 238 2.70 650 239 3.20 640 238 2.30 630 238 3.30 66~ 238 3.1~ 640 239 3.40 650 239 3.20 650 239 3.60 670 238 3.30 660 238 3.40 670 238 4.10 700 238 3.40 690 238 3.30 650 237 2.60 64~ 2373.20 650 237 3.30 670 237 3.6~ 650 237 4.60 680 237 3.60 670 237 3.00 670 237 4.50 7~: 242 5.9~ 760 243 4.40 710 243 5.80 750 243 3.6~ 243 2.70 6801 243 3.50 690 244 4.70 720' 243 3.80 710 243 4.50 710 244 3.9~ 710 243 4.2~ 700 244 4.70 710 243 4.20 7~ 243 4.4~ 720 243 5.6~ 750 244 5.30 740 243 4.6~ 720 243 4.70 72~ 244 5.00 720 243 4.7~ 72~ FLOW/MIN IN OUT 40.0 9.40 9.40 352 351 40.0 9.40 9.40 352 350 40.~ 9.40 9.4~ 352 350 40.0 9.40 9.40 352 351 50.0 9.40 9.40 352 351 50.0 9.40 9.40 353 350 50.0 9.40 9.4~ 352 35~ 50.~ 9.40 9.40 353 350 50.0 9.40 9.40 353 359 72.0 9.40 9.40 353 350 72.0 9.40 9.4~ 353 350 72.0 9.40 9.40 353 350 72.0 9.40 9.40 353 349 30.0 9.4~ 9.4~ 353 350 30.0 9.40 9.40 353 347 30.0 9.40 9.4~ 353 344 30.0 9.40 9.40 352 346 30.0 9.4~ 9.40 352 348 24.0 9.40 9.40 352 349 24.0 9.4~ 9.40 352 350 24.0 9.40 9.40 353 350 24.0 9.40 9.40 353 350 24.0 9.40 9.40 352 349 24.0 9.40 9.40 352 349 38.0 9.40 9.40 352 349 38.0 9.40 9.4,~ 352 350 38.0 9.40 9.40 352 350 38.0 9.40 9.40 352 350 32.0 9.40 9.40 365 364 32.0 9.40 9.40 365 364 32.0 9.40 9.40 365 363 32.0 9.40 9.4~ 364 361 32.0 9.40 9.40 365 361 34.0 9.40 9.40 365 361 34.0 9.4~ 9.40 365 361 34.0 9.40 9.40 365 361 20.0 9.40 9.40 365 361 2~.0 9.4~ 9.40 365 361 34.0 9.40 9.40 365 362 34.0 9.40 9.40 365 362 34.0 9.40 9.40 365 362 34.0 9.40 9.40 365 361 107.0 9.40 9.4~ 365 362 107.0 9.40 9.40 365 362 107.0 9.40 9.40 365 362 1~7.0 9.4,~ 9.40 365 362 107.3 9.4~ 9.40 366 362 11~. ~ 9.4,9 9.4~ 365 362 TE~P (F) IN OUT 68.0 64.8 68.~ 64.8 68.0 64.8 68.0 64.7 68.0 64.6 68.0 64.6 68.~ 64.6 68.0 64.5 68.0 64.5 68.0 64.4 68.0 64.4 68.0 64.4 68.1 64.4 68.2 64.3 68.2 64.3 68.2 64.2 68.2 64.2 68.2 64.2 68.2 64.2 68.2 64.2 68.2 64.0 68.2 64.0 68.3 64.0 68.4 64.0 68.4 64.0 68.4 64.0 68.4 63.9 68.4 63.9 68.5 63.9 68.5 63.7 68.5 63.7 68.5 63.7 68.5 63.7 68.5 63.5 68.5 63.5 68.5 63.5 68.5 63.5 68.5 63.4 68.5 63.3 68.5 63.3 68.6 63.3 68.6 63.3 68.6 63.3 68.7 63.1 68.7 63.1 68.7 63.1 68.7 63.1 68.7 63.1 PVT Data Printed at time_ 20:38 Data Recorded at time 13:32 · --THIS BIT~ WATER ---TVD-- ft hr DEPTH DEPTH 714 41.8 714 42.9 713 43.8 713 44.8 712 45.8 714 46.9 712 47.9 · 711 48.9 713 49.9 711 50,9 710 51.8 713 53.0 712 54.0 711 55.0 711 56.0 712 57.2 709 58.2 711 59.2 710 60.1 710 61.2 712 62.2 711 63.2 710 64.2 712 65.2 711 66.2 711 67.4 712 68.4 714 69.4 714 70.7 715 71.7 715 72.6 714 73.7 714 74.9 712! 75.9 713] 76.9 713 77.9 713 78.9 7121 79.9 713i 80.9 712i 81.9 7111 82.9 7121 84.0 713~ 85.1 712 86.Z 712~ 87.2 711~ 88.2" 7121 89.2 713} 9~.2 ! 1.2 202.2 1348.3 1.2 202.1 1348.8 1.2 202.2 1349.3 1.3 202.2 1349.8 1.3 202.2 1350.3 1.3 202.1 1350.9 1.3 202.1 1351.4 1.3 202.1 1351.9 1.3 202.1 1352.4 1.3 202.1 1353.0 1.3 202.1 1353.4 1.3 202.0 1354.0 1.4 202.0 1354.6 1.4 202.0 1355.1 1.4 202.0 1355.6 1.4 201.8 1356.2 1.4 201.8 1356.7 1.4 201.8 1357.3 1.4 201.8 1357.8 1.4 201.8 1358.3 1.4 201.8 1358.8 1.5 201.8 1359.3 1.5 201.8 1359.9 1.5 201.8 1360.4 1.5 201.8 1360.9 1.5 201.6 1361.5 1.5 201.6 1362.~ 1.5 201.6 1362.6 1.6 201.3 1363.2 1.6 201.3 1363.7 1.7 201.3 1364.2 1.7 201.3 1364.8 1.7 201.1 1365.4 1.7 201.1 1365.9 1.7 201.1 1366.4 1.7 201.1 1367.0 1.7 2~1.1 1367.5 1.7 201.1 1368.0 1.7 2Z1.1 1368.5 1.8 201.1 1369.0 1.8 201.0 1369.6 1.8 201.0 1370.1 1.8 200.9 1370.7 1.8 2~1.~ 1371.2 1.8 200.8 1371.8 ..~.8 2~.S 1372.3 1.8 2~.8 1372.8 1.8 2~0.~ 1373.3 Date Jul 31 '88 Date Jul 21 '88 ,, ~ DXC ECD NXMD .84 10.13 9.00 .85 10.14 9.00 .85 10.14 9.0~ .81 10.15 9.00 .79 10.16 9.00 .82 10.16 9.00 .79 10.17 9.0~ .85 10.17 9.~0 .81 10.18 9.00 .80 10.18 9.0~ .80 10.19 9.00 .81 10.19 9.00 .84 10.20 9.00 .83 10.21 9.0~ .82 10.21 9.~ .81 10.22 9.~O .87 10.23 9.00 .86 10.23 9.00 .82 1~.24 9.0~ .82 10.24 9.00 .81 10.25 9.00 .80 10.26 9.0~ .85 10.26 9.0~ .87 10.27 9.0~ .86 10.27 9.00 .77 10.28 9.0~ .81 10.29 9.00 .88 10.29 9.00 .91 10.29 9.00 .84 10.29 9.00 .94 10.29 9.0~ .81 10.29 9.00 .80 10.30 9.00 .92 1~.30 9.00 .9~ 10.29 9.~ .86 10.29 9.00 .86 10.29 9.00 .85 10.29 9.~ .86 10.29 9.~ .88 10.29 9.00 .82 10.3~ 9.~ .88 1~.30 9. Z~ .88 10.29 9.~ .9~ 1~.29 9.0~ .87 10.29 9.00 .86 10.29 9.~',~ .9~, !~.. 29 9. ~,'-,~ · 86 1~.29 9.~ ID ID ID ID ID lB ID ID ~D ID ~D MOC TBUS 426 RELIEF ~1 SIDETRACK 98 99 100 101 102 103 104 105 106 107 1417 1555.4 88.5 108 1433 1557.0 75.0 109 1434 1558.0 83.8 110 1435 1559.0 56.8 111 1437 1560.2 33.3 112 1438 1561.2 32.6 113 1441 1562.3 29.6 114 1442 1563.5 32.8 115 1446 1564.5 17.9 116 1448 1565.7 21.8 117 1450 1566.7 33.1 118 1451 1567.9 52.5 119 1453 1568.8 44.4 120 1454 1570.0 35.6 121 1456 1571.0 44.0 122 1457 1572.0 59.3 123 1457 1573.0 70.2 124 1458 1574.0 82.9 125 1459 1575. ! 77.4 126 150~ 1576.2 75.6 127 1501 1577.2 61.3 128 1502 1578.2 51.5 129 15~- 1579.2 57.1 130 1504 1580.3 68.6 131 1504 1581.3 80.7 132 1505 1582.3 70.4 133 1506 1583.3 51.3 134 1507 1584.5 72.2 135 1508 1585.5 58.2 136 1509 1586.5 61.6 137 1510 1587.5 77.4 138 1511 1588.5 74.9 139 1512 1589.5 71.8 TIME DEPTH ROPI TORQUE RPM WOB PUMP ft ft/hrl AYG ~AX AVG AVG PRES 1412 1546.2 1031 328 340 1413 1547.2 92.11 319 331 1413 1548.2 97.51 325 331 1414 1549.2 80.61 318 330 1415 1550.2 92.11 321 333 1415 1551.2 94.8 323 328 1416 1552.4 113 329 333 1416 ]553.4 100 332 341 1417 1554.4 105 336 341 244 3.60 690 243 4.70 720 244 4.20 700 243 3.50 690 244 2.9~ 670 243 3.9~ 690 243 4.30 680 244 4.20 700 244 4.80 710 329 335 244 3.80 680 79 341 197 7.00 750 0 0 182 6.6~ 750 0 0 182 9.20 780 0 0 181 6.80 760 0 3 182 8.00 740 0 0 182 8.00 810 0 0 182 9.70 700 0 0 182 10.4 770 0 0 182 9.60 770 0 0 182 10.5 780 0 ~ 182 9.60 770 0 0 182 11.2 810 0 0 182 11.0 780 331 513 235 2.80 680 359 393 244 3.10 680 364 482 254 3.70 720 356 372 255 5.40 760 353 362 255 4.00 720 343 354 254 5.30 730 36~ 369 255 5.80 750 346 370 255 6.70 760 347 367 255 5.10 740 338 353 254 3.80 720 351 364 256 5.50 750 346 351 255 4.6~ 710 352 361 256 3.60 7~ 343 354 256 3.50 700 337 348 255 3.1~ 690 335 348 256 4.10 700 338 348 256 3.30 7~ 341 357 256 4.00 710 339 349 255 4.3~ 720 14~ 1513 1590.4 39.2 338 346 256 4.32 + ~oved temp out sensor into flowing mud 142 1527 1591.2 64.8 ~ 0 0 188 10.6 143 1528 1592.2 69.9 ~ 0 0 188 9.2D 144 1529 1593.2 68.2~ ~ 0 188 12.3 145 153~ 1594.2 80.21 9 0 188 10.3 Data Printed at time 20:43 Data Recorded at time_ 14:12 Date Jul 31 '88 Date Jul 21 '88 T.GAS ND lb/gal FLC~/MIN TL~P (F ~nit IN OUT IN OUT IN OUT 110.0 9.40 9.4~ 365 363 68.7 63.0 110.0 9.40 9.4~ 365 363 68.7 63.0 110.0 9.40 9.40 365 362 68.7 63.0 ll0.D 9.40 9.40 365 362 68.7 63.0 119.0 9.40 9.40 365 361 68.8 63.0 119.0 9.40 9.40 365 358 68.9 62.9 119.0 9.40 9.40 365 356 68.9 62.9 119.0 9.40 9.4~ 366 355 68.9 62.8 119.~ 9.40 9.~ 365 360 68.9 62.8 30.0 9.40 9.40 365 364 68.9 62.8 30.0 9.40 9.40 364 369 69.1 62.1 15.0 9.40 9.40 363 369 69.1 62.1 15.0 9.40 9.40 363 369 69.1 62.1 9.0 9.40 9.40 363 369 69.1 62.1 9.0 9.40 9.40 363 370 69.1 62.1 9.0 9.40 9.40 363 371 69.1 62.1 9.0 9.40 9.40 364 368 69.2 62.1 9.0 9.40 9.40 364 367 69.3 62.1 7.0 9.40 9.40 3~.~ 367 69.3 61.9 7.0 9.40 9.40 364 366 69.4 61.9 7.0 9.40 9.40 364 365 69.4 61.9 7.0 9.40 9.40 364 366 69.4 64.8 7.0 9.40 9.43 363 366 69.5 74.1 17.0 9.40 9.40 363 365 69.5 74.5 17.0 9.40 9.40 363 367 69.5 74.5 17.0 9.40 9.40 363 367 69.6 74.5 17.0 9.40 9.40 363 366 69.6 74.5 18.0 9.40 9.40 363 367 69.6 74.4 18.0 9.40 9.40 363 368 69.6 74.5 18.0 9.40 9.40 363 367 69.6 74.3 18.0 9.40 9.40 363 367 69.6 74.3 18.0 9.49 9.40 362 367 69.6 74.3 ) PVT 713 713 713 711 712 713 712 713 712 712 709 709 707 702 710 716 716 716 716 716 715 714 715 716 716 715 714 716 714 717 716 717 25.0 9.40 9.40 362 367 69.6 74.3 25.0 9.40 9.40 363 366 69.6 74.3 25.0 9.40 9.40 363 367 69.6 74.3 25.0 9.40 9.40 363 367 69.7 74.3 25.0 9.40 9.40 363 367 69.6 74.3 25.0 9.40 9.40 363 367 69.6 74.3 25.0 9.40 9.4~ 363 367 69.7 74.3 25.0 9.40 9.40 363 368 69.8 74.3 48.~ 9.40 9.40 363 368 69.8 74.3 48.0 9.40 9.40 363 367 69.8 74.2 8.0 9.40 9.40 363 367 69.7 74.1 --THIS BIT WATER --TVD-- ft hr DEPTH DEPTH 91.2 1.8 200.8 1373.8 92.2 1.8 200.8 1374.3 93.2 1.9 200.8 1374.9 94.2 1.9 200.8 1375.4 95.2 1.9 200.8 1375.9 96.2 1.9 200.8 1376.4 97.4 1.9 200.6 1377.0 98.4 1.9 200.6 1377.5 99.4 1.9 200.6 1378.1 100 1.9 200.6 1378.6 102 2.1 200.0 1379.4 103 2.1 200.0 1379.9 104 2.1 199.9 1380.4 105 2.1 199.8 1381.1 106 2.2 199.8 1381.6 107 2.2 199.6 1382.2 108 2.2 199.5 1382.7 109 2.3 199.5 1383.3 111 2.3 199.3 1383.9 112 2.4 199.3 1384.4 113 2.4 199.1 1385.0 114 2.4 199.2 1385.5 115 2.4 199.2 1386.1 116 2.5 199.0 1386.6 117 2.5 199.0 1387.1 118 2.5 199.0 1387.6 119 2.5 199.0 1388.1 120 2.5 198.9 1388.7 121 2.5 198.8 1389.3 122 2.5 198.8 1389.8 123 2.6 198.8 1390.3 124 2.6 198.8 DXC ECD N~D .82 10.29 .88 10.29 .85 10.29 .86 10.29 .81 10.29 .85 10.29 .83 10.29 .85 10.29 .86 10.29 .85 10.28 .96 .91 1.06 1.09 1.14 1.16 1.19 1.34 1.27 1.21 1.09 1.17 1.21 .92 .89 .98 .94 .9~ .95 1.01 1.07 1390.8! 1.0~ 10.25 10.25 10.25 10.25 1~. 25 10.24 10.24 10.22 10.21 10.21 10.21 10.22 10.22 10.23 10.23 10.24 10.24 10.24 10.24 10.24 10.24 10.25 715 717 716 718 717 718 718 717 718 718 720 in order to obtain good values. Note change. 89~[ 8.0 9.40 9.40 376 376 69.8 74.3 850t 376 377 716~ 880~ 377 377 7171 910~ 376 375 7151 125 2.6 198.7 1391.41 .91 126 2.6 198.7 1391.9~ .95 127 2.6 198.7 1392.51 .94 128 2.6 198.7 1393.01 .95 129 2.7 198.5 1393.61 .88 130 2.7 198.5 1394.21 .9~ 131 2.7 198.5 1394.71 .94 132 2.7 198.5 1395.21 .86 133 2.7 198.5 1395.71 .9~ 134 2.7 198.5 1396.21 .92 135 2.7 198.4 1396.6~ 1.11 1~.25 10.26 10.26 10.26 10.26 10.27 10.27 10.27 10.28 10.28 10.28 7151 136 2.9 197.8 1397.~! 1.08 10.27 8.~ 9.4~ 9.40 69.8 73.9 8.0 9.~ 9.43 69.8 74.7 8.0 9.4~ 9.40 69.8 74.1 137 2.9 197.8 1397.51 I.D3 138 2.9 197.°~ 1398.1~ &. ~ 12 129 2.9 197.8 !398.6~ i. D2 9.00 9.00 9.00 9.00 9.00 9.0~ 9.00 9.00 9.00 9.00 9.00 9.00 9.0~ 9.00 9.~ 9.00 9.00 9.00 9.~ 9.00 9. MM 9. MM 9. MM 9.~ 9.~ 9.0~ 9.0~ 9.0~ 9.~ 9.0~ 9.0~ 9.0~ 9.~ 9.00 9.0~ 9.~ 9.~ 9.~ 9.0~ 9.~ 9.~ 9.~ 9.~O 1~.27 9.~ iD. 27 9. g~ !D. 27 9. · D D D D D D D D D D D D D D D D D D D MOC TBUS ?~26 RELIEF #1 SIDETRACK I F~ TIME DEPTH ROP ft ft/hr 146 1530 1595.3 68.8 147 1531 1596.3 64.1 148 1532 1597.5 76.9 149 1533 1598.5 52.0 150 1534 1599.5 52.8 151 1535 1600.4 56. 152 1536 1601.5 72.2 153 ~37 1602.4 65.8 154 1539 1603.5 36.1 155 1540 1604.6 59.4 156 154~ 16~5.9 126 157 1541 1606.8 72.7 158 1542 1607.7 67.9 159 1543 1608.8 49.8 160 1544 1610.0 58.1 161 1545 1610.8 47.7 162 1546 1612.0 78.4 163 1547 1613.0 49.2 164 1548 1614.1 53.2 165 1549 1615.1 68.8 166 1551 1616.1 27.3 167 1554 1617.1 22.8 168 1558 1618.2 15.4 169 1559 1619.1 61. 170 1559 1620.3 96.8 171 1600 1621.3 72. 172 1618 1622.6 64.9 173 1619 1623.7 116 174 1619 1624.7 74.9 175 1620 1625.8 136 176 1620 1626.8 75.9 177 1621 1627.8 73.9, 178 1622 1628.8 78.8 179 1623 1629.8 66.6 180 1624 1630.8 72.1 181 1625 1631.8 66.5 182 1625 1632.8 77.1 183 1626 1633.8 95.8 184 1626 1634.8 163 185 1627 1635.8 82.5 186 1628 1636.8 187 1628 1637.7 78.6 188 1629 1638.7 88.1 189 1630 1639.8 92.5 19~ 1630 164~.8 113 191 1631 1641.8 96.9 192 1631 1642.8 gZ. 0 193 1632 1643.8 94.8 ~ata Printed at time 20:49 Date Jul 31 '88 Data Recorded at time 15:30 Date Jul 21 '88 TORQUE RPM WOB PUMP AVG ~IAX AVG AVG PRES 0 0 188 9.70 820 0 0 188 9.20 880 0 0 188 9.50 900 0 0 188 I1.5 880 0 0 188 11.3 880 0 0 188 12.6 94~ 0 0 188 10.2 860 0 0 188 9.40 9~0 3 99 188 9.40 880 9 0 188 9.4~ 870 0 0 188 9.6~ 850 0 0 188 9.80 900 O 0 188 9.10 840 0 ~ 188 11.3 800 0 0 188 9.00 870 0 0 188 9.10 880 O 0 188 10.3 830 1 44 188 6.6~ 830 1 37 188 12.3 880 0 0 188 9.30 840 3 76 188 10.0 86~ 2 87 188 11.8 820 139 506 206 3.10 730 338 353 232 6.20 770 343 359 231 5.50 760 348 365 231 7.~ 830 339 375 233 3.9~ 700 348 361 237 3.50 680 349 356 237 4.20 710 353 362 237 4.70 74~ 342 353 237 5.20 730 350 377 237 7.6~ 79~ 351 377 236 5.50 740 350 369 237 6.40 760 359 377 236 8.0~ 78~ 360 377 236 7.50 79~ 356 372 236 6.1~ 740 361 374 237 6.30 740 361 369 236 5.9~ 760 349 359 236 6.60 720 342 362 237 6.50 710 336 351 236 5.4~ 71{) 336 346 237 6.1~ 720 344 356 237 6.1D 720 339 348 237 4.50 720 339 351 237 6.30 73~ 342 353 236 5.3~ 710 34~ 349 237 6.80 710 T.GAS ~4D lb/gal unit IN OUT 7.0 9.40 9.40 7.0 9.40 9.40 7.0 9.40 9.40 7.0 9.40 9.4~ 7.0 9.40 9.40 8.0 9.40 9.4.~ 8.0 9.40 9.40 8.0 9.40 9.4~ 8.~ 9.40 9.40 8.0 9.40 9.40 16.0 9.40 9.40 16.D 9.40 9.40 16.0 9.4~ 9.40 16.~ 9.4~ 9.~ 16.0 9.~ 9.~ 8.0 9.~ 9.~ 8.0 9.~ 9.~ 8.0 9.~ 9.4~ 8.0 9.~ 9.~ 14.0 9.4~ 9.~ 14.0 9.~ 9.~ 14.~ 9.40 9.4,~ 14.~ 9.40 9.40 14.~ 9.~ 9.~ 13.0 9.~ 9.~ 13.0 9.40 9.~ 13.0 9.~ 9.~ 13.0 9.~ 9.~ 13.0 9.~ 9.~ 10.0 9.~ 9.4~ 1~.~ 9.~ 9.~ 1~.~ 9.~ 9.~ 1~.~ 9.~ 9.40 1~.~ 9.~ 9.4~ 10.~ 9.~ 9.~ 1~.~ 9.~ 9.~ ~.~ 9.~ 9.~ 1~.~ 9.~ 9.~ 10.0 9.~ 9.~ 35.0 9.~ 9.~ FLOW/MI~] T~P (F) PVT IN OUT IN OUT 376 376 69.8 74.1 716 376 377 70.0 74.4 715 376 376 70.0 74.5 714 375 378 69.9 74.4 714 376 377 69.8 75.2 714 375 376 69.8 75.4 712 376 378 69.8 75.4 713 376 377 69.9 75.4 713 376 377 70.C 75.2 714 376 376 70.0 75.4 712 376 377 70.0 75.4 712 376 377 70.0 75.3 712 376 376 70.0 75.2 711 376 376 70.0 75.2 712 375 376 70.0 75.2 712 376 376 70.0 75.2 711 376 376 70.2 75.2 710 376 376 70.2 75.2 711 376 377 70.2 75.2 710 375 375 70.2 75.2 710 376 375 70.2 75.2 710 375 373 70.3 75.2 709 377 375 70.3 75.2 714 377 376 70.4 75.4 715 376 376 70.4 75.4 714 376 377 70.5 75.3 713 351 351 70.7 74.7 714 357 356 70.7 74.7 716 36~ 358 70.7 75.0 715 360 358 70.7 75.0 713~ 360 359 70.7 75.0 714 360 359 70.6 74.9 713 360 359 70.7 75.0 712 360 358 70.7 74.9 711 359 357 70.7 75.0 710 359 357 70.7 75.2 712 359 356 70.7 75.2 711 359 356 70.7 75.3 711 359 356 70.7 75.3 710 36~ 357 70.7 75.3 711 --THIS BIT WATER ~TVD-- ft hr DEPTH DEPTH 140 3.0 197.7 1399.1 141 3.~ 197.7 1399.6 142 3.0 197.5 14~.2 143 3.0 197.5 1400.7 144 3.0 197.5 1401.2 145 3.0 197.5 1401.6 146 3.1 197.5 1402.2 147 3.1 197.4 14~2.7 148 3.1 197.3 1403.2 15~ 3.1 197.4 1403.7 151 3.1 197.2 1404.4 152 3.1 197.2 1404.8 153 3.2 197.2 1405.3 154 3.2 197.2 1405.8 155 3.2 197.2 1406.4 156 3.2 197.2 1406.8 157 3.2 197.0 1407.4 158 3.2 197.0 1407.9 159 3.3 196.9 1408.4 160 3.3 196.9 1408.9 161 3.3 196.9 1409.4 162 3.4 196.9 1409.9 163 3.4 196.8 1410.4 164 3.4 196.9 1410.9 165 3.4 196.7 1411.4 166 3.5 196.7 1411.9 168 3.7 196.4 1412.6 169 3.7 196.3 1413.1 170 3.7 196.3 1413.6 171 3.7 196.2 1414.1 172 3.7 196.2 1414.6 173 3.7 196.2 1415.1 174 3.7 196.2 1415.6 175 3.8 196.2 1416.1 176 3.8 196.2 1416.6 177 3.8 196.2 1417.1 178 3.8 196.2 1417.61 179 3.8 196.2 1418.1 180 3.8 196.2 1418.6! 181 3.8 196.2 1419.0 35.0 9.40 9.40 36~ 357 35.0 9.40 9.4~ 360 357 35.0 9.40 9.40 360 357 35.0 9.4~ 9.49 360 358 34.0 9.40 9.49 36~ 358 34.~ 9.40 9.4Z 360 357 34.~ 9.40 9.4~ 36~ 357 34.~ 9.4D 9.~ 36~ 358 70.7 75.2 710 7~.7 74.9 711 70.7 74.9 712~ 70.7 75.0 7111 70.7 75.1 7121 7D.7 75.1 7121 7~.7 75.2 7111 7~.7 7~.2 7121 182 3.8 196.2 1419.5~ 183 3.8 196.2 142~.~1 184 3.9 196.2 1420.5~ 185 3.9 196.2 1421.~1 186 3.9 196.2 1421.5~ 187 3.9 196.2 1422.~l !S~ 3.9 196.2 1422.~ 189 3.9 196.2 1422.91 ! DXC ECD NXMD !.04 10.27 9.00 1.04 10.27 9.00 1.01 10.27 9.00 1.14 1~.27 9.00 1.14 10.27 9.00 1.15 10.27 9.00 1.?~ 10.27 9.00 1.04 1.~.27 9.00 1.17 10.27 9.0~ 1.~6 10.27 9.~0 .92 10.27 9.00 1.03 10.27 9.O0 1.03 10.27 9.O0 1.15 10.27 9.00 1.~6 10.27 9.00 1.10 10.28 9.00 1.03 10.28 9.00 1.02 10.28 9.00 1.16 10.29 9.00 1.03 10.29 9.00 1.24 10.29 9.00 1.33 10.29 9.00 1.08 10.27 9.00 1.Z0 10.27 9.00 .9~ 10.27 9.00 1.00 10.27 9.00 .91 10.19 9.00 .80 10.21 9.00 .90 10.21 9.00 .82 10.22 9.00 .94 10.22 9.00 1.02 10.22 9.00 .94 10.22 9.00 1.0~ 10.23 9.~. 1.04 10.23 9.~g 1.04 1~.23 9.00 .96 10.24 9.f~ .93 10.24 9. f~ .82 10.25 9.00 .97 1~.26 9.0~ .93 1~.26 9.00 .93 10.27 9.~ .94 10.27 9.~Z .93 19.28 9.~ .84 1~.28 9.~0 .92 1~.29 ~.3~ .~ iS.29 9.2~ .94 I~.29 ~ ~ ID ID [D ~D ]D .ID ID ID ID ID ID ID ID ID ID I F~ TIME DEPTH ROP ft ft/hr 194 1633 1644.8 103 195 1633 1645.7 97.4 196 1634 1646.7 89.9 197 1634 1647.8 87.7 198 1635 1648.7 73.5 199 1636 1650.0 118 2~0 1636 1651.0 96.8 2~1 1652 1651.9 84.3 202 1653 1652.9 83.9 203 1653 1654.0 86.3 204 1657 1655.0 17.8 205 1658 1656.0 38.9 206 1700 1657.0 27.4 207 1703 1658.0 24.2 208 1703 1659.0 95.8 209 1704 1660.0 81.3 210 1705 1661.0 80.5 211 1706 1662.0 76.7 212 1706 1662.9 95.3 213 1707 1664.0 105 214 1707 1665.0 101 215 1708 1666.0 98.4 216 1709 1667.0 89.4 217 1709 1667.8 67.0 218 1710 1668.8 122 219 1711 1669.8 93.0 220 1711 1670.8 81.6 221 1712 1671.8 113 222 1712 1672.8 102 223 1713 1673.8 91.2 224 1714 1674.8 69.2 225 1714 1675.8 122 226 1715 1676.8 79.9 227 1716 1677.8 96.5 228 1716 1678.8 84.3 229 1717 1680.0 93.0 230 1718 1680.8 94.8 MOC TBUS :.126 RELIEF ~1 SIDETRACK PUMP T.GAS [40 lb/gal TORQUE RPM WOB AYG MAX AVG AVG 338 349 237 3.50 680 345 356 237 4.30 700 336 349 237 6.50 720 335 349 237 4.6~ 7~ 326 333 237 3.90 680 334 343 237 5.90 720 329 336 237 4.90 700 97 330 204 7.50 820 0 0 189 7.39 820 0 0 188 11.3 850 0 0 188 12.0 860 0 0 189 11.9 840 0 0 189 12.1 890 100 511 204 4.90 J70 338 346 239 6.10 790 334 343 239 5.50 770 332 343 238 6.40 790 336 353 238 5.10 760 334 348 239 4.50 750 331 341 239 5.30 770 325 335 239 5.50 760 323 330 238 4.60 740 333 346 239 3.90 730 329 343 239 4.80 740 320 325 239 4.80 740 318 323 238 6.10 750 317 330 239 4.80 730 314 320 239 4.90 740 314 328 239 4.10 740 316 327 239 3.80 74~ 316 322 239 5.30 740 316 331 239 5.?~ 750 320 331 239 4.10 740 318 327 239 4.20 720 323 333 239 4.80 740 327 341 239 5.70 780 320 328 239 5.10 750 PRES unit 34.0 34.0 34.0 34.0 34.0 15.0 15.0 15.0 15.0 13.0 13.0 13.0 13.0 13.0 106.0 106.0 106.0 106.0 106.0 110.0 110.0 110.0 110.0 110.0 110.0 94.0 130.0 130.0 130.0 130.0 100.0 100.0 118.0 118.0 118.g 115.0 115.0 IN OUT 9.40 9.40 9.4~ 9.4~_ 9.40 9.40 9.40 9.40 9.4~ 9.40 9.40 9.40 9.4~ 9.40 9.40 9.40. 9.~ 9.40 9.40 9.~ 9.~ 9.40 9.40 9.~ 9.~ 9.~ 9.~ 9.~ 9.~ 9.4~ 9.~ 9.~ 9.~ 9.~ 9.~ 9.40 9.~ 9.~ 9.40 9.~ 9.~ 9.40 9.~ 9.~ 9.~ 9.~ 9.4~ 9.~ 9.~ 9.~ 9.~ 9.40 9.~ 9.~ 9.~ 9.~ 9.~ 9.~ 9.~ 9.~ 9.~ 9.~ 9.~ 9.40 9.~ 9.~ 9.~ 9.~ 9.~ 9.~ 9.40 9.~ 231 1718 1681.8 92.3 321 330 239 5.30 730 + NB #17 cut 226 feet in 4.6 drilling hours. Short tri..Dped bit to casing shoe 1413' msl. Circulated bottoms up. FLON/~4IN T~P (F) PVT IN OUT IN OUT 360 358 70.7 75.2 713 360 358 70.7 75.1 714 360 358 70.7 75.2 713 360 358 70.7 75.2 712 361 358 70.7 75.2 714 360 358 70.7 75.6 713 360 358 70.7 75.6 712 377 373 70.9 75.3 708 377 374 70.9 75.3 708 376 373 7~.9 75.2 708 377 369 70.9 75.5 710 377 370 70.9 74.8 709 378 368 70.9 76.2 709 377 368 70.9 76.Z 707 377 369 70.9 76.3 708 377 370 71.0 75.9 709 376 370 71.0 75.9 707 377 370 71.0 76.2 709 376 371 71.1 75.9 707 377 370 71.1 76.0 706 377 370 71.1 76.0 709 376 369 71.1 76.2 708 376 369 71.1 76.0 710 377 369 71.1 76.0 709 377 369 71.1 76.0 709 377 369 71.1 75.7 708 376 370 71.1 75.6 710 377 368 71.1 75.6 708 377 369 71.1 75.8 707 377 368 71.1 75.9 710 377 368 71.1 75.9 705 377 367 71.1 75.9 704 377 369 71.1 75.9 705 377 369 71.1 75.9 706 377 369 71.1 75.7 707 377 368 71.1 75.8 706 377 369 71.1 76.0 705 377 370 71.1 76.0 705 Data Printed at time. 2D:55 .Data Recorded at time 16:33 --THIS BIT--~,~ATER ft hr DEPTH 19M 3.9 196.2 191 3.9 196.2 192 3.9 196.2 193 3.9 196.2 194 4.M 196.2 195 4.0 196.1 196 4.Z 196.0 197 4.1 196.~ 198 4.1 196.~ 199 4.1 196.M 200 4.2 196.0 201 4.2 196.0 202 4.3 196.~ 203 4.3 196.0 204 4.3 196.0 205 4.3 196.0 206 4.3 196.0 207 4.4 196.0 208 4.4 196.0 209 4.4 196.0 210 4.4 196.0 211 4.4 196.0 212 4.4 196.0 213 4.4 196.2 214 4.4 196.2 215 4.4 196.2 216 4.4 196.2 217 4.5 196.2 218 4.5 196.2 219 4.5 196.2 220 4.5 196.2 221 4.5 196.2 222 4.5 196.2 223 4.5 196.2 224 4.5 196.2 225 4.5 196.2 226 4.6 196.2 227 4.6 196.2 DEPTH 1423.4 1423.9 1424.4 1424.9 1425.4 1426.0 1426.5 1427.0 1427.4 1428.0 1428.4 1428.9 1429.4 1429.9 1430.4 1430.9 1431.4 1431.9 1432.3 1432.9 1433.4 1433.8 1434.3 1434.7 1435.2 1435.7 1436.2 1436.7 1437.2 1437.7 1438.2 1438.7 1439.2 1439.7 1440.1 1440.7 1441.1 1441.6 1442.~1 1442.51 1~43.zi i443.51 +Tripping out of hole..to lay down the mud motor and ~;;D tool. + RRB #17R1 Smith SDGH 8.5" with open jets in at 1681 feet. I Bit ~17 with an additional center jet. 1235 2207 1682.6 00.0} 273 286 64 12.8 2301 24.0 9.40 9.40 ~236 2208 1683.6 58.5~ 277 296 63 14.8 21~1 24.0 9.40 9.40 1237 2209 1684.7 63.81 291 31~ 63 15.0 21~ 24.0 9.40 9.40 i238 2210 1685.6 51.6~ 282 3~4 63 13.8 22ZI 27.0 9.40 9.~3 396 399 69.8 73.~ 7421 1.6 .2 207.3 397 398 69.8 73.0 743! 2.6 .2 207.3 396 399 69.6 72.2 745~ 3.7 .2 2~7.3 396 400 69.6 72.6 7441 4.6 .2 2~7.4 + Date Jul 31 '88 Date Jul 21 '88 DXC ECD NXMD .81 10.30 9.00 .85 10.30 9.00 .94 10.30 9.00 .88 10.31 9.00 .88 10.32 9.00 .87 10.32 9.00 .87 10.33 9.MM .95 10.33 9.00 .93 10.33 9.00 1.03 10.33 9.00 1.38 10.32 9.00 1.21 10.32 9.00 1.29 10.30 9.MM 1.09 10.29 9.00 .92 10.3~ 9.00 .93 10.30 9.00 .96 10.29 9.00 .93 10.29 9.00 .87 10.29 9.00 · 88 10.29 9.00 .89 10.29 9.00 .86 10.29 9.00 .85 10.29 9.00 .94 10.29 9.00 · 83 10.29 9.00 .93 10.30 9.00 .90 10.31 9.00 .85 10.31 9.00 .84 10.32 9.MM .84 10.33 9.00 .95 10.34 9.00 .84 10.34 9.~ .88 10.34 9.00 .85 10.35 9. Z~ .89 10.36 9.0~ .91 10.36 9.MM .88 10.37 9.00 .89 10.37 9.~ .78 10.12 9.~ .~ 10.12 9.~ .3~ 19.12 9.~0 .~ I~.12 9.C0 D D D D D D D ID D D D D D D D D D D D D D Ir> ID D ID ID ID I ~,~OC TBUS i'~26 RELIEF ~1 SIDETRACK ~ F~ TIME DEPTH ROP ft ft/hr 239 2211 1686.5 69.8 240 2213 1687.6 42.0 241 2213 1688.6 64.4 242 2215 1689.6 39.7 243 2216 1690.6 42.3 244 2217 1691.6 53.0 245 2218 1692.6 59.9 246 2220 1693.5 44.5 247 2221 1694.6 49.1 248 2222 1695.6 50.0 249 2224 1696.4 42.5 250 2225 1697.4 41.9 251 2226 1698.4 75.8 252 2227 1699.4 39.5 253 2228 1700.4 67.0 254 2229 1701.4 60.1 255 2230 1702.4 56.1 256 2239 1703.4 64.2 257 2240 17~4.3 51.5 258 2241 1705.3 53.0 259 2242 1706.3 71.0 260 2243 1707.4 56.1 261 2244 1708.4 52.6 262 2246 1709.2 40.9 263 2247 1710.2 62.6 264 2248 1711.1 75.0 265 2249 1712.2 49.0 266 2250 1713.2 52.4 267 2251 1714.2 51.1 1268 2252 1715.3 54.2 269 2253 1716.3 67.8 270 2254 1717.2 42.5 271 2255 1718.2 60.6 272 2256 1719.3 59.4 273 2258 i720.3 43.8 274 2259 1721.3 46.4 275 2300 1722.2 55.0 276 2301 1723.3 58.3 277 2302 1724.3 50.7 278 2303 1725.2 55..2 279 2305 1726.2 52.1 280 2306 1727.3 53.9 281 23~7 1728.3 50.8 · 282 23~8 1729.2 53. ~ 283 2309 1730.2 61.2 TORQUE REX WOB PUMP AYG :~AX AYG AVG PRES 275 302 63 9.4~ 210 269 299 63 6.70 200 278 301 63 7.9~ 19~ 279 296 63 6.40 19~ 269 283 64 6.80 200 280 301 63 7.80 2D0! 275 299 63 7.30 180 282 306 63 7.60 170 274 2~9 64 7.20 180 276 301 63 8.50 160 274 298 64 8.~ 170 281 302 63 7.00 170 286 302 63 9.80 170 287 304 63 7.90 170 291 319 63 9.30 170 291 310 63 9.D~ 170 292 306 63 9.10 170 253 310 65 7.20 180 282 309 66 6.80 180 275 3~4 66 6.50 18~ 279 299 66 7.40 180 289 314 65 8.9~ 180 289 310 66 7.90 180 279 3~9 66 6.00 19~ 277 3~9 66 6.70 170 301 331 65 9.90 180 292 315 66 7.40 170 276 301 66 5.70 180 278 3~6 66 6.9~ 180 279 304 67 7.9~ 180 289 323 67 7.9~ 190 268 294 67 7.80 190 285 299 67 9.10 19~ 289 3~9 66 9.4~ 180 29~ 314 66 6.70 210 286 309 67 7.40 210 293 319 66 7.50 210 292 319 66 8.30 200 296 315 66 7.80 210 288 306 66 8.5~ 290 29~ 312 66 7.50 200 281 306 67 9.10 2~O 296 3~7 66 8.50 2~ 291 320 66 7.8~ 2~ 296 315 67 8.80 2~ 284 2310 1731.2 56.0 292 317 66 9.~_~ 2~ 285 2311 1732.2 56.3 303 328 ~6 7.~0 2C~1 286 2318 1733.4 59.9 275 325 ~9 9.70 190t T.GAS [~D lb/gal FLO~{/~4IN TKMP (F) PVT unit IN OUT IN OUT IN OUT 27.~ 9.40 9.40 397 399 69.6 72.7 741 27.0 9.49 9.4~ 396 401 69.4 72.4 743 27.0 9.40 9.40 396 401 69.4 72.4 743 27.0 9.4~ 9.40 396 4~2 69.4 72.8 742 31.0 9.40 9.40 396 400 69.4 71.6 743 31.0 9.40 9.40 396 399 69.3 70.7 741 31.0 9.40 9.40 396 396 69.3 71.0 7411 31.0 9.~ 9.4~ 397 397 69.3 72.3 739 31.0 9.40 9.40 396 395 69.3 72.2 739 31.0 9.49 9.4~ 396 398 69.3 72.1 740 35.0 9.40 9.40 396 396 69.3 72.2 737 35.0 9.49 9.4~ 397 397 69.3 72.7 737 35.0 9.40 9.40 397 396 69.2 72.9 737 35.0 9.40 9.4~ 397 396 69.1 72.9 739 36.0 9.40 9.40 397 396 69.1 72.9 739 36.0 9.40 9.40 397 396 69.1 72.9 736 36.0 9.40 9.40 397 398 69.1 72.9 735 36.0 9.40 9.40 394 394 69.1 72.6 734 36.0 9.40 9.40 395 395 69.1 72.7 734 28.0 9.40 9.40 395 394 69.1 72.7 734 28.0 9.40 9.40 395 395 69.1 72.5 735 28.0 9.40 9.40 396 396 69.1 72.5 734 28.0 9.40 9.40 396 395 69.1 72.3 734 28.0 9.4~ 9.40 396 396 69.1 72.3 735 36.0 9.40 9.40 396 396 69.1 72.3 734 36.0 9.40 9.40 396 396 69.1 72.5 734 36.g 9.40 9.40 396 396 69.0 72.5 727 36.0 9.40 9.40 397 397 68.9 72.5 729 36.0 9.40 9.40 397 397 68.9 72.5 727 33.0 9.40 9.40 396 397 68.9 72.0 730 33.0 9.40 9.40 397 398 68.9 71.7 728 33.0 9.5~ 9.50 397 398 68.9 72.3 728 33.0 9.50 9.50 397 397 68.9 72.3 728 33.0 9.50 9.59 398 398 68.9 72.3 729 31.0 9.50 9.50 398 397 68.9 72.5 729 31.0 9.50 9.5~ 399 398 69.~ 72.5 728 31.0 9.50 9.50 399 399 69.1 72.5 728 31.0 9.5~ 9.5~ 399 399 69.1 72.5 732 31.0 9.50 9.50 399 398 69.1 72.5 725 33.0 9.50 9.50 398 397 69.1 72.3 723 33.0 9.50 9.50 399 398 69.1 72.3 723 33.0 9.50 9.5g 399 397 69.1 72.3 723 33.0 9.50 9.50 399 398 69.1 72.2 725 33.~ 9.5~ 9.50 399 399 69.1 72.1 722 33.~ 9.50 9.5~ 399 398 69.1 72.1 718 33.~ 9.59 9.5~ 399 398 69.1 72.2 717 33.~ 9.50 9.5~ 399 399 69.1 72.1 716 33.0 9.5~ 9.5~ 3~9 388 69.1 72.1 722 Data Printed at time 21:01 Date Jul 31 '88 Data Recorded at time 22:11 Date Jul 21 '88 --THIS BIT- WATER --TVD-- ft hr DEPTH DEPTH 5.5 .2 6.6 .2 7.6 .3 8.6 .3 9.6 .3 10.6 .3 11.6 .3 12.5 .4 13.6 .4 14.6 .1 15.4 .2 16,4 .2 17.4 .2 18.4 .2 19.4 .2 2~.4 .3 21.4 .3 22.4 .3 23.3 .3 24.3 .4 25.3 .4 26.4 .4 27.4 .4 28.2 .4 29.2 .5 30.1 .5 31.2 .5 32.2 .5 33.2 .5 34.3 .5 35.3 .6 36.2 .6 37.2 .6 38.3 .6 39.3 .6 40.3 .7 41.2 .7 42.3 .7 43.3 .7 44.2 .7 45.2 .7 46.3 .8 47.3 .8 48.2 .8 49.2 .8 5~.2 .8 51.2 .9 52.4 .9 207.4 1443.9 207.4 1444.5 207.4 1444.9 207.4 1445.4 207.4 1445.9 207.4 1446.4 207.4 1446.9 207.4 1447.4 207.4 1447.9 207.4 1448.4 207.6 1448.8 207.6 1449.3 207.6 1449.8 207.6 1450.3 DXC ECD N)~4D .76 10.12 9.00 .78 10.12 9.00 .74 10.12 9.00 .79 10.12 9.00 .79 10.12 9.00 .77 10.12 9.00 .74 10.12 9.00 .80 10.12 9.~0 .77 1~.12 9.00 .79 10.12 9.00 .82 10.12 9.00 .79 10.12 .74 10.12 9.~ .82 10.12 9.00 207.6 1450.81 .76 10.12 9.00 207.6 1451.2 207.6 1451.7 207.6 1452.2 207.6 1452.7 207.6 1453.2 207.6 1453.7 207.6 1454.2 207.6 1454.7 207.8 1455.1 207.8 1455.6 207.8 1456.0 207.8 1456.6 207.8 1457.1 207.7 1458.0 207.7 1458.5 207.7 1459.0 207.8 1459.4 2~7.8 1459.9 207.7 146~.5i 207.7 1461.0 207.7 1461.4 207.7 1461.9! 207.7 1462.4i .77 10.12 9.00 .79 10.12 9.00 .73 10.12 9.0~ .76 10.12 9.O~ .75 10.12 9.00 .72 10.12 9.~0 .79 10.13 9.00 .78 10.13 9.00 .78 10.13 9.00 .73 10.13 9.00 .76 10.13 9.00 .79 10.13 9.00 .73 10.13 9.~0 .77 10.13 9.00 .78 10.13 9.00 .74 10.14 9.00 .83 -10.14 9.~0 .79 10.14 9.~0 .80 10.14 9.~0 .79 10.14 9.00 .80 10.14 9.00 .77 10.14 9.00 .78 10.14 9.ZO 207.7 1462.91 .80 10.14 9.~ 207.8 1463.4 .8~ 1~.14 9.00 2~7.8 1463.81 .79 10.14 9.g0 2~7.7 1464.4 .82 10.14 9.00 207.7 1464.9 .82 10.14 9.~ 207.~ 1465.3 .80 10.15 9.~ 207.8 1465.S .79 10.15 9. g0 2~7.8 1466.3 .82 1~.15 9.?0 207.8 1466.E. .79 !~.t5 9. gM 2~7.6 14~7.4 .~3 i~.!5 9.~? D D D D D D D D D ID ID D D D D D D D D D D D ID MOC TBUS 026 RELIEF ~1 SIDETRACK I F~ T~:~ D~.m~ ROP ft ft/hr 287 2319 1734.4 59.8 288 2320 1735.4 54.3 289 2321 1736.4 67.2 290 2322 1737.4 62.0 291 2323 1738.4 47.6 292 2324 1739.4 51.6 293 2325 1740.4 54.7 294 2326 1741.4 53.7 295 2327 1742.4 51.4 296 2328 1743.6 68.0 297 2329 1744.6 62.6 298 2330 1745.6 56.1 299 2331 1746.6 60.2 300 2332 1747.5 61.1 301 2333 1748.6 63.2 302 ~.334 1749.6 53.8 303 2335 1750.6 56.3 304 2337 1751.6 42.8 305 2338 1752.6 52.7 306 2339 1753.6 53.8 307 2340 1754.6 58.1 308 2341 1755.6 53.0 309 2342 1756.6 56.1 310 2343 1757.6 67.7 311 2344 1758.7 66.7 312 2345 1759.7 63.2 313 2346 1760.7 45.9 314 2347 1761.7 64.0 315 2348 1762.9 66.8 316 2349 1763.9 56.1 317 2350 1764.9 72.1 318 2356 1765.9 117 319 2357 1766.8 57.2 320 2358 1768.1 67.7 321 2359 1769.1 54.8 Date Jul 22 '88 322 0000 1770.0 59.0 323 00~1 1771.0 69.4 324 .0002 1772.2 80.2 325 ,9~02 1773.1 73.4 326 0003 1774.2 63.6 327 0~04 1775.2 82.3 328 00~5 1776.2 73.7 329 0005 1777.2 75.~ 330 0006 1778.2 102 331 ~007 1779.2 73.4 332 0008 1780.2 9~. 1 Data Printed at time 21:~4 Date Jul 31 '88 Data Recorded at time 23:19 Date Jul 21 '88 TORQUE RPM WOB PUMPI T.GAS MD lb/gal FLOW/MIN T~,IP (F) PVTI --THIS BIT WATER --TVD-- AVG MAX AVG AVG PRES I unit IN OUT IN OUT IN OUT I ft hr DEPTH DEPTH 296 383 65 8.40 200i 33.0 9.50 9.5~ 392 393 69.1 72.0 7231 53.4 .9 298 319 67 7.90 2001 34.0 9.50 9.50 393 393 69.1 72.3 7231 54.4 .9 304 310 67 8.60 2001 34.0 9.50 9.50 393 393 69.1 72.3 724~ 55.4 .9 309 333 68 8.~0 1901 34.0 9.50 9.50 393 396 69.1 72.3 7231 56.4 .9 293 322 68 7.50 200~ 34.0 9.50 9.50 392 394 69.1 72.2 721! 57.4 1.0 295 319 68 5.80 190! 292 315 68 8.50 190 301 327 68 6.5~ 1901 287 320 68 7.9~ 1801 305 331 68 8.00 180 312 343 68 8.00 180! 313 343 68 7.20 180i 302 327 68 8.00 190i 309 330 68 8.50 1901 310 341 68 9.00 210! 305 327 68 8.00 180 293 319 68 7.20 1901 294 322 68 7.60 190~ 300 319 68 8.10 180 305 325 68 8.00 190~ 305 319 68 7.80 200 304 330 68 7.80 180 302 325 68 8.60 200: 314 335 68 9.80 190 304 328 68 9.40 190 318 346 68 10.5 190 299 388 71 8.90 190 304 323 83 10.2 190 298 331 83 8.30 200 310 323 83 8.20 190 308 315 83 9.60 190 309 414 66 6.90 210 321 344 63 9.9~ 210 3~9 336 64 8.70 220 325 362 62 8.30 210 314 461 83 8.60 220 316 330 91 8.20 210 308 328 91 8.00 210 324 353 91 8.20 210 306 336 90 8.00 210 322 344 91 8.30 210 315 323 91 8.60 210 332 357 91 9.8~ 210 332 348 91 8.9~ 210 308 327 91 9.50 220 324 336 90 1D.~ 22~ 333 ~08 1781.2 79.21 319 341 91 9.40 220 34.0 9.50 9.50 392 394 69.2 72.0 723t 58.4 1.0 36.0 9.50 9.50 392 395 69.3 72.0 7211 59.4 1.0 36.0 9.50 9.5~ 392 394 69.3 72.1 7211 60.4 1.~ 36.0 9.50 9.50 393 394 69.3 72.1 7211 61.4 1.0 36.0 9.50 9.50 393 395 69.3 72.3 7231 62.6 1.1 36.0 9.50 9.50 393 394 69.3 72.3 723~ 63.6 1.1 38.0 9.50 9.50 393 394 69.3 72.0 723 64.6 1.1 38.0 9,50 9.50 393 395 69.3 71.5 723 65.6 1.1 38.0 9.50 9.50 394 395 69.3 70.8 723 66.5 1.1 38.0 9.50 9.50 393 396 69.3 71.3 722 67.6 1.1 38.0 9.50 9.50 393 396 69.3 72.0 723 68.6 1.2 35.0 9.50 9.50 393 396 69.3 72.1 723 69.6 1.2 35.0 9.50 9.50 394 395 69.3 72.1 722 70.6 1.2 35.0 9.50 9.50 393 395 69.3 72.2 721 71.6 1.2 35.~ 9.50 9.50 394 395 69.3 72.3 7241 72.6 1.2 35.0 9.50 9.50 393 396 69.3 72.3 7221 73.6 1.2 38.0 9.5~ 9.50 393 395 69.3 72.3 724 38.0 9.50 9.50 393 395 69.3 72.3 724 38.0 9.50 9.50 394 395 69.3 72.3 725 38.0 9.50 9.50 394 395 69.3 72.3 723 38.0 9.50 9.50 394 396 69.3 72.3 7241 40.0 9.50 9.5~ 394 395 69.3 72.2 725 40.0 9.50 9.50 394 395 69.3 72.3 727 40.0 9.50 9.50 394 396 69.3 72.3 727 40.0 9.50 9.50 394 394 69.3 72.3 7311 40.0 9.50 9.50 394 394 69.3 72.3 732i 40.0 9.50 9.50 413 414 69.4 72.3 7291 40.0 9.50 9.50 421 421 69.4 72.3 731 40.0 9.50 9.50 421 421 69.4 72.3 731 40.0 9.50 9.50 421 421 69.4 72.1 733 74.6 1.3 75.6 1.3 76.6 1.3 77.7 1.3 78.7 1.3 79.7 1.3 80.7 1.4 81.9 1.4 82.9 1.4 83.9 1.4 84.9 1.4 85.8 1.4 87.1 1.5 88.1 1.5 207.6 1467.9 207.6 1468.3 2~7.6 1468.8 207.6 1469.3 207.6 1469.8 207.6 1470.3 207.6 1470.8 207.6 1471.3 207.6 1471.8 2~7.4 1472.4 207.4 1472.9 207.5 1473.3 207.4 1473.8 207.4 1474.3 207.4 1474.8 207.4 1475.3 207.4 1475.8 207.4 1476.3 207.4 1476.8 207.4 1477.3 207.4 1477.7 207.4 1478.2 207.4 1478.7 207.4 1479.2 207.3 1479.7 207.3 1480.2 207.3 1480.7 207.3 1481.2 207.1 1481.8 207.1 1482.3 207.1 1482.8 DXC ECD NXMD .80 10.15 9.00 .81 10.16 9.00 .79 10.16 9.00 .80 10.16 9,00 .84 10.16 9.00 .79 10.16 9.00 .85 10.16 9.00 .81 10.17 9.00 .85 10.17 9.00 .80 10.17 9.00 .82 10.17 9.00 .82 10.17 9.00 .83 10.18 9.00 .84 10.18 9.00 .85 10.18 9.00 .86 10.18 9.00 .83 10.18 9.00 .90 10.19 9.00 .87 10.18 9.00 .86 10.17 9.00 .84 10.18 9.00 .86 10.18 9.00 .87 10.18 9.00 .85 10.19 9.00 .85 10.19 9.00 .88 10121 9.00 .92 10.20 9.00 .91 10.20 9.00 .86 10.21 9.00 .89 10.22 9.00 .88 10.22 9.00 207.1 1483.3~ .67 10.24 9.00 207.1 1483.7 .87 10.25 9.00 206.9 1484.3 .81 1Z. 25 9.00 206.9 1484.8 .84 10.26 9.00 40.0 9.50 9.50 422 421 69.4 72.0 733 34.0 9.50 9.~S 423 422 69.4 72.3 734 34.0 9.50 9.50 422 421 69.4 72.3 734 34.0 9.50 9.50 422 422 69.4 72.1 733 34.0 9.50 9.50 422 422 69.4 72.2 733 38.0 9.50 9.50 422 422 69.4 72.2 735 38.0 9.50 9.50 422 422 69.4 72.3 734 38.~ 9.50 9.50 422 422 69.4 72.3 735 38.0 9.50 9.50 422 422 69.4 72.3 736 38.0 9.50 9.50 422 423 69.4 72.1 735 20.0 9.50 9.5~ 422 422 69.4 72.3 735 20.~ 9.50 9.5~ 422 423 69.4 72.3 73~ 89.0 1.5 90.~ 1.5 91.2 1.5 92.1 1.5 93.2 1.5 94.2 1.6 95.2 1.6 96.2 1.6 97.2 1.6 98.2 1.6 99.2 1.6 190 1. f 206.9 1485.31 .89 10.26 9.00 207.0 1485.81 .86 10.18 9.MM 206.8 1486.41 .83 10.19 9.00 206.8 1486.81 .85 10.19 9.00 206.8 1487.31 .88 10.19 9.0~ 206.8 1487.81 .83 10.19 9.~O 206.8 1488.31 .86 10.2~ 9.00 206.8 1488.8! .88 10.20 9. C0 206.8 1489.31 .80 iS.20 9.M~O 206.~ i489.81 .88 1~.21 9.00. 2~6.8 149~.31 .~5 I~.22 9.00 2~6.~ i49~.8i .86 I~.22 ~.0~ ID ID ID ID ID ID ID ID ]D ID ID D D D D D D D D D ID [D ID ID ID ID !D ID IF$ TIME DEPTH ROP ft ft/hr 334 0009 1782.2 83.5 335 ~010 1783.2 87.8 336 ~010 1784.2 77.2 337 0012 1785.3 34.6 338 0014 1786.4 34.5 339 0016 1787.4 27.3 340 ~18 1788.5 34.7 341 0019 1789.5 45.9 342 0021 1790.5 38.0 343 0023 1791.5 29.1 344 ~25 1792.5 27.0 345 0027 1793.7 34.1 346 0030 1794.7 20.2 347 0032 1795.8 29.4 348 ~034 1796.9 25.61 349 ~36 1797.9 29.9 1350 0047 1800.0 35.0 351 0051 1801.2 33.8 352 0053 1802.2 32.5 353 0054 1803.2 42.6 354 0056 1804.2 37.4 355 0057 1805.4 55.1 356 0058 1806.3 40.7 357 0100 1807.5 36.5 358 0101 1808.5 46.8 359 0102 1809.5 59.3 360 0103 1810.5 56.8: 361 0104 1811.5 59.11 362 0105 1812.5 105~ ~363 0105 1813.5 79.1 :364 9106 1814.5 197 365 0107 1815.5 109 366 0107 1816.6 68.4 367 0198 1817.7 51.1 368 0110 1818.746.0 369 0111 1819.8 62.4 370 0112 1820.8 62.5 371 0113 1821.8 55.D 372 0114 1822.8 51.5 373 9115 1823.8 57.3 374 0116 1824.8 51.6 375 0117 1826.0 53.8i 376 9118 1827.0 59.31 377 0119 1828.0 69.01 378 ~120 1829.0 102~ 379 D12M 1830.0 95.31 '380 ~121 1831.~ 110~ 381 M129 1832.3 78.51 MOC TBUS 026 RELIEF ~1 SIDe'TRACK TORQUE RM~ WOB PUMP AVG MAX AVG AVG PRES 325 356 91 8.60 323 331 91 9.30 319 348 91 8.70 326 349 91 10.0 315 338 91 9.80 305 327 91 9.70 297 344 91 7.9D 297 315 91 9.10 294 315 95 10.1 289 304 97 10.0 292 3~6 96 9.30 287 309 97 8.90 285 314 97 7.20 272 294 97 8.90 283 306 97 9.80 291 315 97 8.90 276 325 86 8.20 299 328 100 7.50 300 338 100 7.30 285 301 100 9.60 3~1 322 100 7.50 293 323 100 9.30 298 322 100 10.2 293 319 100 8.30 298 327 100 9.60 293 315 100 9.20 289 323 100 7.50 269 298 101 6.50 280 296 101 8.30 296 317 100 9.40 314 322 100 10.0 316 330 100 10.2 316 341 100 8.60 294 319 100 9.40 291 320 100 8.90 299 315 100 10.8 286 310 100 9.60 300 320 100 10.6 287 314 1MM 9.99 298 319 1MM 11.6 288 328 100 10.2 286 317 101 9.00 292 315 101 8.20 269 285 1M1 7.1~ 281 294 101 8.20 287 304 101 8.6~ 284 296 1C~ 9.50 275 322 100 7.3~ .Data Printed at time 21:10 Date Data Recorded at time 00:09 Date Jul 31 '88 Jul 22 '88 220 220 T.GAS MD lb/gal FLOW/MIN unit IN OUT IN CYJT 20.0 9.50 9.50 422 422 20.0 9.50 9.50 423 423 TEMP (F) IN OUT 69.4 72.2 69.4 72.0 P~T 735 737 -~HIS BIT ... WATER --TVD--I DXC ECD N~4D ft hr DEPTH DEPTH ! 101 1,6 102 1.7 206.8 1491.3 .83 10.22 9.00 206.8 1491.7 .84 10.22 9.00 220 260 270 260 240 260 24~ 280 2701 2601 2501 3001 3MMI 330j 350l 3201 330j 310i 310~ 3201 310 310 300 300 300 300 290 300 290 290 29~ 29~ 280 290 2~c~1 29~! 2~c~1 27~ 20.0 9.50 9.50 10.0 9.50 9.50 10.~ 9.50 9.50 10.0 9.50 9.50 10.0 9.50 9.50 10.0 9.50 9.50 7.0 9.5~ 9.50 7.~) 9.50 9.50 7.0 9.50 9.50 7.0 9.5~ 9.50 7.0 9.50 9.50 6.0 9.50 9.50 6.0 9.50 9.50 6.0 9.50 9.50 6.0 9.50 9.51.' 5.0 9.50 9.50 5.0 9.50 9.50 5.0 9.50 9.50 5.0 9.50 9.50 5.0 9.50 9.50 5.0 9.50 9.5~ 5.0 9.50 9.50 5.0 9.50 9.50 5.0 9.50 9.50 26.0 9.50 9.50 26.0 9.50 9.50 26.0 9.50 9.50 26.0 9.50 9.50 26.0 9.50 9.50 10.0 9.50 9.50 10.0 9.50 9.50 10.0 9.50 9.50 10.0 9.50 9.50 10.0 9.50 9.50 9.0 9.50 9.50 9.0 9.50 9.50 9.0 9.50 9.50 9.0 9.50 9.50 9.0 9.50 9.50 10.0 9.50 9.50 10.0 9.50 9.50 lZ.~ 9.50 9.50 10.~ 9.50 9.50 10.0 9.50 9.59 ~.0 9.50 9.5'0 ~.O 9.5~ 9.50 422 423 69.4 72.0 423 422 69.4 72.4 423 421 69.4 72.5 422 419 69.4 72.5 423 418 69.4 72.5 423 420 69.4 72.5 423 420 69.4 72.5 423 419 69.3 72.5 422 419 69.3 72.6 422 419 69.3 72.6 423 417 69.4 72.5 423 418 69.4 72.5 473 438 69.4 72.7 477 471 69.4 72.7 .~B0 477 69.4 73.2 479 477 69.4 72.7 476 478 69.4 72.9 480 478 69.4 72.9 481 478 69.4 72.9 480 477 69.3 72.9 481 477 69.3 72.9 481 475 69.3 72.7 481 476 69.3 72.7 481 475 69.3 72.7 481 476 69.3 72.8 482 477 69.3 72.9 481 476 69.3 72.9 481 476 69.3 72.9 482 476 69.3 72.9 481 477 69.1 72.9 481 476 69.t 73.0 481 476 69.1 73.D 482 477 69.1 73.0 477 476 69.1 73.0 481 476 69.1 72.9 482 477 69.1 72.9 481 476 69.1 72.9 482 476 69.1 72.9 481 476 69.1 72.9 482 477 69.1 72.9 481 476 69.1 72.9 482 476 69.1 72.9 482 476 69.1 72.9 482 477 69.1 72.7 481 477 69.1 72.7 465 459 68.9 72.7 737 737 737 738 740 739 743 746 749 743 745 746 748 749 750 752 756i 759 762 ~ 761! 757i 755i 7541 757: 767 771 772 772 774 775 777 779 781 782 784 786 789 789 793 794 796 797 796 79~ 7991 103 1.7 206.8 104 1.7 206.7 105 1.7 206.6 106 1.8 206.6 107 1.8 206.5 108 i. 8 206.5 109 1.8 206.5 110 1.9 206.5 111 1.9 206.5 113 1.9 206.3 114 2. M 206.3 115 2.0 206.2 116 2.1 206.1 117 2.1 206.1 119 2.2 205.8 120 2.2 205.8 121 2.3 205.8 122 2.3 205.8 123 2.3 205.8 124 2.3 205.6 125 2.4 205.7 126 2.4 205.5 127 2.4 205.5 128 2.4 205.5 129 2.4 205.5 130 2.5 205.5 131 2.5 205.5 132 2.5 205.5 133 2.5 205.5 134 2.5 205.5 136 2.5 205.4 137 2.5 205.3 138 2.6 205.3 139 2.6 205.2 140 2.6 205.2 141 2.6 205.2 142 2.6 2~5.2 143 2.6 205. i 144 2.7 205.2 145 2.7 2Z5.0 146 2.7 205.0 147 2.7 2D5.0 148 2.7 205.0 149 2.7 205. ~ 150 2.7 204.9 151 2. S 2~4.7 1492.2 .85 10.22 9.00 1492.8 1.05 10.22 9.00 1493.3 1.04 10.21 9.00 1493.8 1.09 10.21 9.00 1494.3 .99 10.21 9.00 1494.8 .97 10.21 9.00 1495.3 1.04 10.21 9.~0 1495.8 1.09 10.22 9.00 1496.3 1.09 10.23 9.00 1496.91 1.03 10.24 9.00 1497.4 1.08 10.24 9.00 1497.9 1.06 10.25 9.00 1498.4 1.11 10.26 9. MM 1498.9 1499.6 15~. 5 1501.01 1501.5 1502.0! 1502.6i 1503.0i 1503.6~ 15~4.1 1504.6 1505.1 1505.6 1506.1 1506.5 1507.1 1507.5 1508.1 15~8.6 1509.1 1509.6 1510.1 1510.6 1511.1 1511.6 1512.1 1512.7 15!3.21 1513.71 1514.21 1514.61 ~5~5.21 1515.81 1.05 10.27 9.00 .98 10.28 9.00 1.MM 10.31 9.MM 1.00 10.31 9.00 1.01 10.22 9.00 .98 10.21 9.00 .95 10.22 9.00 1.04 10,20 9.00 1.01 10.21 9.00 .99 10.23 9.00 .94 10.23 9.MM .90 10.22 9.00 .87 10.21 9.00 .80 10.23 9.00 .88 10.22 9.00 .83 10.22 9.00 .83 10.24 9.OM .89 10.24 .97 10.24 9. DM .98 10.25 9.00 .96 1~.26 9. D0 .93 10.27 9.00 .98 10.29 9.00 .97 10.31 9.DM .99 10.31 9.00 .98 10.31 9. DM .95 10.31 9.00 .91 10.31 .85 10.28 9.DM .80 10.28 .82 !D.29 .81 ?.2~ 9.C~ .83 i~.30 9.~ D D D D D D D D D D ID lO ID I0 I F~ TIME DEPI~ ft MOC TBUS 026 RELIEF ~1 SIDE?RACK ROP TflRQUE RPM WOB PUMPI T.GAS ~D lb/gal ft/hr 382 O130 1833.4 73.9 383 O131 1834.4 62.8 384 O131 1835.5 69.6 385 O132 1836.5 57.3 386 0134 1837.5 50.7 387 O135 1838.5 54.1 388 O136 1839.5 48.3 389 ~137 1840.5 50.1 390 O138 1841.6 48.2 391 0140 1842.7 45.0 392 ~141 1843.8 41.4 393 O143 1844.8 31.4 394 3145 1845.8 36.8 395 O146 1846.8 30.9 AVG r~%~X AVG AVG PRESI unit IN OUT 308 320 99 8.50 2601 0.0 9.50 9.50 320 340 99 9.40 2801 0.0 9.50 9.50 3~9 346 99 7.80 2701 0.0 9.50 9.5~ 302 314 99 9.80 2601 0.0 9.50 9.50 309 323 99 8.90 2701 0.0 9.50 9.5~ 314 331 99 8.50 2701 0.0 9.50 9.50 312 338 99 9.10 27~1 0.0 9.5~ 9.50 309 331 99 7.60 26~1 ~.0 9.5~ 9.50 3~5 327 99 8.50 2801 0.0 9.50 9.50 305 325 99 10.0 2801 0.0 9.50 9.50 299 319 99 10.4 2801 0.0 9.50 9.50 297 328 99 8.20 29~ 0.0 9.50 9.50 299 320 99 8.9~ 2801 0.0 9.50 9.50 307 336 99 8.70 290~ 0.0 9.50 9.50 302 325 99 S.60 2901 0.0 9.50 9.50 ' msl. 396 ~147 1848.~ 55.8 + Lost circulation at 1848 kill proceedures. 92 12.2 -201 0.0 9.50 9.50 89 1~.9 01 0.0 9.50 9.50 rasl. 89 9.30 -20 89 9.70 -20 89 10.3 -20 89 9.70 -20 90 11.6 -20 90 10.5 -2.~ 90 8.80 -20 90 11.4 -2~ drilling hours. 0.0 9.50 9.50 0.0 9.50 9.50 0.0 9.50 9.50 0.0 9.50 9.50 0.0 9.50 9.50 0.0 9.50 9.50 0.0 9.50 9.5~ 0.~ 9.5~ 9.50 I Shut the well in and began i399 0307 1850.0 51.3~ 302 302 14~O 0309 1851.0 42.~ 300 325 + Regained circulation at 1847' Resum~ drilling at 1847' msl 402 3311 1852.0 32.91 310 348 403 0312 1853.2 47.31 312 349 404 0314 1854.2 33.4~ 313 344 405 O315 1855.3 59.41 312 338 406 0316 1856.2 41.21 291 325 407 0317 1857.5 45.7~ 308 343 408 O319 1858.5 43.~! 310 331 409 0321 1859.5 31.01 301 333 + RRB ~17Ri cut 179 feet in 3.3 FLOW/MIN Swabbed the hole twice while tripping to the casing shoe_. Circulate at casing shoe then trip out. Haliburton pumping 28% HC1 (24 bbls) to open 026 bore hole. Cem~nted 026 well bore with 8094 sacks Premium cement. Sidetrack abandoned project complete. 466 467 466 471 466 468 466 465 466 466 466 465 465 465 464 465 466 465 466 465 467 465 466 465 466 463 466 463 466 465 TEMP (F) 68.9 72.8 68.9 72.9 68.9 72.8 69.1 72.6 69.1 72.3 Data Printed at tim~ 22:11 Data Recorded at time. D1:3~ Date Jul 31 '88 Date Jul 22 '88 PVTI --'PHIS BIT ~ - WATER --TVD-- I ft hr DEPTH DEPTH 8151 152 2.8 204.7 1516.31 816~ 153 2.8 204.6 1516.8 818 154 2.8 204.5 1517.3 819 155 2.8 204.5 1517.8 819 156 2.9 204.5 1518.3 DXC ECD N)~D .87 10.31 9.0~ .92 10.32 9.~0 .86 10.32 9.00 .94 10.34 9.00 .95 10.36 9.00 69.1 72.1 820 69.1 72.1 819 69.1 72.0 822 69.1 71.8 821 69.1 71.6 826 69.1 71.4 826 69.1 71.4 827 69.1 71.4 8311 69.1 71.4 831 157 2.9 204.5 1518.8 158 2.9 204.5 1519.3 159 2.9 204.5 1519.8 161 2.9 204.4 1520.3 162 3.0 204.3 1520.9 163 3.0 204.2 1521.4 164 3.0 204.2 1521.9 165 3.0 204.2 1522.4 166 3.1 204.2 1522.9 .93 10.38 9.00 .97 1~.38 9.00 .93 10.38 9.00 .97 10.37 9.00 1.02 10.38 9.00 1.06 10.37 9.00 1.06 10.38 9.00 1.05 10.38 9.00 1.09 10.38 9.~0 .97 10.39 9.00 69.1 71.4 833 167 3.1 204.0 1523.5 401 394 69.2 71.1 3731 169 401 394 69.8 68.6 3551 170 3.1 3.1 200.1 1524.41 -$ 10.39 9.00 200.0 1525.21 1.07 10.38 9.00 401 394 69.7 69.8 3351 171 400 394 69.3 70.6 335i 172 401 396 69.1 70.9 3351 173 401 400 68.9 69.9 3341 174 4~2 417 68.7 71.0 3341 175 402 414 68.7 71.0 3351 176 401 401 68.5 70.9 3361 177 402 394 68.4 71.2 3411 178 3.1 3.2 3.2 ~3.2 3.2 3.3 3.3 3.3 200.0 1525.71 1.09 10.30 9.00 199.8 1526.31'1.02 10.30 9.00 199.8 1526.81 1.11 10.31 9.00 199.7 1527.41 .97 10.31 9.00 199.7 1527.81 1.1~ 10.31 9. Z~ 199.5 1528.41 1.05 10.31 9.00 199.5 1528.9{ 1.02 10.31 9.00 199.5 1529.51 1.16 10.31 9.00 !D ~D ID ID MCC 'iBUS M26 'R~I~2EF ~.';ELL ~! E~tr'~ Print, x] at tLne ~i9.5~ ~t.2 Jul 3 '88 5-~ta ~cord0d at time ~9 49 ~te Jul 3 '88 ' VOL 2~S 6D~ ~0 12~-) ~ ~ P~S ~ P~S ~ VOL ~P~ 8G~ 16~ 24~ 3~S ~ h~.ss ~ psi ~ psi ~ bbl ~ lb/gal ~gal/mi~ gal ~ ~ ft ~ ~it~ ~ x ~ x ~ x ,~ x ~ x ~ x ~ x ~ x ~ x ~ x ~ x ~ x ~ x ~+ x ~+ x ~+ x ~+ x ~+ x ~+ x ~+ x 095f3.26 1 0951.37 [ 0952,38 ] 0 [ -10 0953.39 ] 0954.40[ D955.4! ] ~ [ 3D ~956,42 1 ~957.43 [ ~ [ 2~ ~958.~ [ ~ [ -2o ~959.45 [ ~ [ -2~ lSZ1.47 I ~ I .-2~ 878 ] 9.~ 9~00 @81 881 9. 8'78 9. 872 9. 862 9. 856 9. ~6 9. 846 85~ 9,~ 9.C~ 852 852 9.~0 853 9.~ 852 9,OZ 9.~ 833 9~ 9.~ 817 9. 811 9~g~ 9.~ 8~5 9. 372 9,~ 9.~ Lost circulation at 2227' rosa 09.47 brs .Well bore ~6 se~s ~o be intersect~ at i973' ~ msl~ the back sid~ wzth Rig ~md H~liburton. x x x 9 124 107 235 282 269 282 4~ 2 0 0 0 123 15~ 154 175 235 x x x x x x x x x x x x x x x x ,%+ x 1~1S.56 [ 4C~ [ -1~ [ 365 19,~ 9.~ I 239 1011.57 ] 40 t -101 361 I 9.0~3 9,,~Z I 270 1012.58 [ 50 [ .2~ [ 346 [ 9.C~ 9.~ [ 2~ 1013,59 [ 5~ [ -20 ] 338 ~ 9.~ 9.DM [ 296 1~15.~ ~ 5M ~ -1M [ 33~ ~ 9,CD ~..~ [ 3M9 1016.M1 ~ 60 [ -1~ ] 321 [ 9.C~ 9,~ [ 319 1M17.~2 [ 6M [ -i~ ] 311 [ 9.C~ 9.~ [ 318 1018 GO [ 60 ] -1~ ] 3~ [ 9.D~ 9.~ [ 327 isolated ,~2 pit as r:ctive pumping 9, O ppg mud ~nich will be followed by se] water.~ 1019.04 6D I -1~ I 289 I 9.MD 9.f~ I 333 6D ! -10 ] 281 [9,S0 9.0D[ 352 70 I -10 ] 270 [9.£0 9.~'~ [ 368 70 [ -~ ] 259 I 9.~ 9.0~ [ 369 7S I -,-1~ [ 249 7D [ .-1~ I 236 ] 9.~ 70 ] -1~ ] 226 ] 9.~ 9.C~ ] 3~ 7~ ~ ,-1M ~ 215 ~ 9.~ 9.~ ~ 3~ 7~ ~ -20 ~ 204 ~ 9.CO 9.k~ ~ 366 7~ ~ -1M ~ 195 ~ 9.C~ 9.~ ~ 363 70 ~ -2~ ~ 181 ~ 9.~ 9.~ ~ 362 ~ ] -lO [ 1~ [ 9.a~ 9.00 ~ 469 ~ I -~s i ~ i 9.~ 9.~ I 5~ 8D i -1~ I 142 ~ 9,~ 9-~ I ~ ] --lC ] ~28 [ 9.~ 9,~ I 5~2 s~ I -~s [ ~n [9.~ 9.~ I 5~ ~ [ -1~ ] 97 [ 9.Z~ 9.~ ] 536 1020, C,5 1021.06 1022. M7 1023. Z8 1024. '~9 1025.1~ 1026.11 1~27.12 1~28.12 1029.14 1M3~. 15 1M31,16 1032.17 1Mi3.18 1~34.19 1D35. ~ 0[ 0 112[ 22 198] 39 452 I 89 752 i !48 10371 204 1337 I 263 , 1357 I 267 1357 I 267 , 1357 ! 267 13571 267 1357 } 267 ~ 1357 1 267 ~ 1484 i 292 1647! 324 18~9 I 356 1997 I 393 ~ 22~6 I 434 2455 I 483 27~9 [ 533 I 2993 [ 589[ 0~0 [ 3.50 IT O.g I 2.00 IT 0.0 ] 2.~,g IT o.e i ~.5e IT S.~ I 2.~ IT ~.~ I ~.5S IT ~.~ I .5~ t~ ~.0 I .5~ IT ~.~ I ~-6~ IT _.;l; ..... ...... -,...I 1 ~.~ I ~.~ IT ~.S i ~.~ IT 3293. [ 648 I .... ~0~ I o.g0 IT 36M81 710 t 3928[ 7731 4269] 46~4 i 9061 49451 9731 5301 I 1043 I 5666 I 1115 [ 6053] 1191 ] 6439 [ 1267 I 6830 t 1344 [ 7216 [ 14za l 7603 ] 1496] 7989 ! 1572 I 8375 [ !648 ] 8756 I 1~:~ ] 9137 ] 1798 l 9625 [ 1894[ 11211 ] 2206 ] ~1745 [ 2311 [ 123~ [ 2421 ] ~iCC 2BUS M26 RELIEF WELL TgT GAS~.'~' C~iNG PRES (-+), P~flP PRES (*). PIT VOL Ix), [ TIME I GISiR~I l VOL 39~ 60~ ,~,~0 120~ i I PRES IPRES 8~D 1600 240~ 32U~ ] hlran,ss ! psi GAS 2U0.0~ 4U~, ~J 6~G.Z0 80~.G0 j ] ~+ X $+x $+ x $+ x ~ x ~ x ~ FiltLng pit ~2 ~it/~ sea ] ~pi~ rc~ {?) c%/e .into l~lc. ~ x ~ x ~ x 4~ x ~ x ~ x 4~ x $+ * X ~+ * X ~+ * X Pumping inlet %ater f~'cm pit ,~2 with rig p~aps, $+ * X $+ * X $+ * X ~+ * X * X ~+ X* X* X * Filling pit %2 with inlet %~tcr %%1ile txlnpin9 out of that x* ~+ x * ~+ x * ~+ x * %+ x * '~+ x * ~+ x * ~+ x * ,~+ x * %+ x * %+ x * +- ........... _+ ......... [t~'ta P~-intcd c,.t uim~c ].D 25 Ek~ta Recorct. c] at tim.-'2 10:35 .... -r ........ + ..... ~r ...... + ............... ~ ....... + .... PL~.~ PiT I Damity PRES psi [ 1~36 ~ I iD37.22 t 1038.23 [ 1~39.24 I ~-~. 25 I 1{14!, 26 I VOL ] IN OUT I £N [PU4PED I bbl ] lb/gal' [gal/mit ga]. .......... ~- ....... --1- ........... --t- .......... u ..... 90 I --1~ [ 82 I 9.~6 9.~9 i 555 ! 12888 99 ] -1~ I 66 I 9.00 9.0g I 553 I 13467 aU [ 1.~] I 93 I 9.~ 9,e~, t 81 ] 12513 7~ I iG ~ 151 I 9 Si; 9.~0 ~ 5 } 13512 60 I ~ ~ 198 ] 9.Z~ 9.~D ~ 0 ~ 13513 60 ~ I~ [ 243 I 9 ZO 9.~3 ' ~ ~ 13513 6z [ 70 I 7{I I 70 ] 72 [ 1042 ~ 27 1043,28 !0'~4,29 i U45.39 !~46.31 1~%7,22 1048.23 1049, 54 !~50.35 1051.26 I052.37 1053. ~8 1054.39 1055.40 1056.41 1057.42 [ 80 ] 1058.43 I 80 1059.44 I 8~ 1100.45 1!U!.46 [ 11~2.47 ! 70 1 1102.48 I 70 I 1104.49 I 70 I 11o5.~ I 11o6.51 Lkltc Jul 3 '88 D~te Jul 3 '~i 1~} 288 !~ 334 30 385 40 430 5~ 435 6~3 434 6~ 434 60 434 7C 434 d 434 5D 429 410 421 420 413 55~'3 412 6ZD 411 65~1 7D~ [ 4~4 73~ [ 3~ 81~ [ 395 870[ 391 92~ ] 965 [ 3~ ~os [ 376 1100 { 372 11~ [ 365 ii~ 365 135~ ~ 134D ~ 364 142~ ~ 364 14t~ [ 361 i~ 36~ 13~ 35i 1420 ~ 34~ 1410 ~ 342 9 I FLO]~ ]VOLL~tE ]STRO~S]DZSPLAC~I TOTAL I I ft I ~it[ + ...... ~ ................. I 2536 [ ~ 265~ ~ ~.g [ 2659 ~ [ 2659 [ 12659] ] 2659 [ ~.~ [ I 9,Gs 9,60 I 0 I i3513 I 9.c~ 9.~s [ s [ i3513 [ 9.~ 9.~0 [ 0 ] 13513 [ 9-~0 9,g~ [ ~ [ 13513 [ 9-~ 9.Gg i ~ I 1,3512 I 9.e~ 9.~ ! 0 I i35i3 [ 9-~ 9.~ I ~ ~ i~513 [9.~ 9.~[ ~ [13513 I 9.~ 9,~0 [ 92 [ 136~5 I 9.~9.~ I 4i8 [ i~37 ] 9,6~ 9.~ [ 533 [ 14611 [ 9.~0 9,s~ I 563 [ 152~ ] 9.~ 9.D~ I 6ii t 1585i 2659] 2659 [ 2659 ] 0. 2659 { 2659 t 2659 [ 0:.'~ 2659 ] 2659 I ~.0 26591 0.0 2659 ! 2677] 2762. ] ~'. 28751 0..0 29911 0.0 3119 [ ]9.~ 9,e~ I 646 I 16532 I 3253 [ 0.~ ] 9,~D 9,~ [ 679 I i.7248 t 33°-94 i 0.0 I 9.00 9.09 [ 699 I 1798g I 3538 [ ~.~ [ 9.~0 9.E~ ] 722 ] 18743 [ 36~ ] ~.~ ] 9.P~ 9.~ ~ 764 ~ 19545 ] 3~6 ] ~.~ ~ 9,~ 9.~; ~ 799 [ 203~ ] 4011 ] ~.~ [9.C~ 9,~ [ 318 I 21248 [ 4181 [ 0.~ [ 9,~ 9.~ ~ 837 ~ 22!27 I 4354 [ 9.~ 9,U0 [ 871 ] 23~47 ] 4535 [ ] 9,~ 9.~ [ 877 [ 23967 [ 4716 I 9,~ 9.~ I 878 I 24~2 [ 4~ I ] 9.~0 9,ZO [ a79 I 25812 ] 5u79 ] e.O t9.m 9.~ I 896 [ 26752 [ 5264 I 0.0 [ 9.2~ 9.~ ! 956 ~ 27763 [ 5~2 [ ~.0 ] 9.~ 9.~ [ 980 [ 28795 [ 5~6 [ 0.6 [ 9.~ 9.~3~ ~ 9~ [ 2~32 [ 587C [ ~.D '[ O.C~ ~T [ 9.~ 9.~ t 983 ~ 31885 [ 62T4 [ 0.~ ] ~.C~ IT 19.~ 9~ I 9~ 1 3292i [ 6478 [ ~.~ I o.c~ IT ] 9,~ 9.~ [ 973 [ 33~ [ 668D [ ~.~ i ~-~ iT ] 9.~ 9.~g ] 9~ [ 34979 [ 6~3 ] ~.~ [ O,C~ [T ] 9.£~ 9.ZC ! 983 ! ]7~53 [ 729i ] ~.z [ 0.0~ ET + ........ , .... _-= .u .......... .a~ ....... -+ MOC iI3[~3 ~'126 AELIEIm~. 'FELL {: i 13~t~ P£inu:-:d -k tLm~. !1 2{] D:~:e Jul 3 28 ~ta Recoslet s,t ~e l!~ll' ~lte Jul 3 88 { ~ G~ (~), ~NG PF~ {~). PU4P P~ (*), Pi? VOL (x} ~ T~,~ ~ ~ll.~ PU~P ; PiT ~ D~ity ~ ~'~ ~VOL~ ~I~S~DISPL~C~;P ~ ~ ~ VOL 3~$ 6gg Q~'~ 12~{~ ~ : P~S P~S ~ VOL ~ ~N ~ ~ iN ~P~I~D ~ ~ ~ ~ ~ ~ IPRES 8~ 1690 24~.g 3200 ~ hbo,ss I psi psi t bb! i lb/gal Igal/mil gal ! ~+ x * i121.05 ~ 8~ ].420 ~ 341 [ 9.g~ 9,g~ [ 986 ~ 38089 ~ 7495 ~+ x * I122.~ ~ 8f.3 1420 ~ 338 [ 9.~{3 9.~ [ 986 ~ 39131 [ 77~ ~+ x * 1123.~ [ 80 134~ [ 338 ~ 9.~ 9.~ [ 986 [ 40162 [ 7903 ~-~ x * 1!24.~3 ~ 8~J 1340 ~ 337 ~ 9.0~ 9,~ ~ 98~ ~ 41189 [ 8!f~5 ~+ x * ~2~.~9 ! 8~ 135~ ~ 337 I 9,~ 9.~ [ 981 ] 42226 [ 83~9 . . , ~q ~ ~+ x * 1126 I~ ~ 8~ 135~ ~ 333 [ 9 ~g 9 g~ ~ 981 ~ 4_=5, ] 8512 %~- x * 1127.11 ] 8~ !34~J [ 333 ~ 9.g~ 9.g~ [ 979 [ 44283 ~ 8714 %+ x * 1128.12 8~ 134~ [ 333 ] 9.gg 9.~D ] 9~2 ] 45S15 [ 8917 ~ x * i!29.13 [ 8~ 134~ [ 333 [ 9.Z~ 9.~ [ 978 [ 46247 [ 912~ %+ x * 1130.14 ] 80 134~ ~ 333 [ 9,gg 9,00 ~ 981 [ 47378 I 9322 %+ x * i131.15 [ 8~ 1J5f$; [ 334 [ 9,Zg 9.g~ ~ 982 ~ 4~10 [ 9526 %~ x * 1132.16 [ 8~ 135~ ~ 335 ~ 9.0~ 9,g~ ] 981 [ 49~6 ] 973~ [ %+ x * 1133~17 [ 8~ 134~ ~ 337 [ 9.Z~ 9.gB [ 982 [ 50478 [ 9933 %+ x * 1124,!8 [ 8~ 134~ ] 338 ~ 9,~0 9.~ [ 981 [ 51504 [ 1~135 %+ x * 1135.19 ] 80 134~ I 337 ~ 9.g6 9.C0 ~ 9~ [ 52541 [ 10339 %= x * i136.2~] ] Sg 13~ [ 338 ] 9,gD 9,~ [ 981 ~ 53572 ~ 1~542 %+ x * 1137.21 ] 8~ 1340 I 337 [ 9.Z~ 9.~0 [ 981 [ 5~04 [ 1~745 %+ x * 1138.22 [ ~ 134~3 ~ 337 [ 9.~ 9,~ [ 982 [ 55656 [ lg948 [ %+ x * 1139,23 ] 8~ 134~ [ 337 [ 9,Z~ 9,~Z ] 981 [ 56672 ] 11t52 ~+ x * 114~.24 [ 80 t340 [ 338 [ 9,Z~ 9.~ ] 982 [ 57694 ~ 11353 ~+ x * 1141.25 ] 8~ 13~ I 338 ] 9,~30 9.g~ ] 9~ [ 58725 [ 11556 ~+ x * 1142 2~ ~ 88 134~ [ 337 [ 9.~0 9.Z~ ] 982 [ 59757 [ 11759 ~ x * 1143.27 [ 8~ 134~ ] 337 ] 9.2~ 9,~ ' 982 ] 6~79~ I 11963 ~ [ 9.g~ 9.gg [ 982 i 61825 [ 12166 ~* x * 11~-28 [ 8~ ~50 [ 3'38 ' ~+ x * i145,29 ~ 8~ !34Z [ 338 ~ 9.~ 9~ ~ 981 ] 62~56 ] 12369 ~+ x * 11~,30 [ 80 135G ] 337 [ 9,Z~ 9.g~ [ 982 [ 63~8 [ 12572 %+ x * 1147.31 ~ 90 134~ ] 337 ~ 9.~ 9.ZS ] 981 ] 64924 [ 12776 %+ x * 1148.22 [ 80 13~ [ 338 ~ 9.CU-9.~ [ 981 ~ 65956 ] 12979 ~+ x * 1149.23 [ 8~ 1S4J [ 337 ] 9,~ 9.~$g [ 982 [ 669~ [ 131~ %+ x * 1150.34 i ~ 134~ [ 338 ~ 9.C~ 9,C~ ~ 981 I 68019 [ 13385 %+ x * 1151,35 [ 99 134~ [ 338 [ 9.09 9.Zg [ 982 [ 69~56 [ 13589 %+ x * 1152.36 ~ 9~ 13~ ] 338 t 9.~ 9,~ ~ 982 ~ 70~3 ] 13791 ~+ x * 1152.37 [ 9~ 134~ [ 338 ~ 9,~ 9,gg [ 982 ~ 71114 [ 13994 .... :~ [ 982 [ 72151 [ 14198 %+ x * 1154.38 I 90 135~ ~ 338 ] 9.~ ~ ~ , ~ [ 338 [ 9,Z~ 9.U~ [ 982 : 73!~ [ 1~1 ~'~ x * 1155.29 I ~) ~ TM ' ~+ x * !1~.~ [ 9~ 1350 ~ 330 ~ 9.C~ 9.Eg ] 9~ [ 74~9 I 1~03 %+ * X ' 1157.41 ] 9~ 3~ ~ ~9 [ 9.~ 9.~ ] 598 [ 7~9 [ 14725 %+ * x 1158.42 ~ 80 3~ ~ 365 ] 9,~U 9-~ ~ 487 [ 75332 [ 14~4 %e * X 1159.43 [ 8~ 3~] [ 381 [ 9,f~ 9.~ [ 478 ] 7~ ~ 14924 ~+ * x 12Ug.~ ~ 8~ 3~3 [ 303 I 9,Zg 9.t~ [ 486 ] 76347 [ 15~24 %+ * x 1201.45 ] 89 36g ] 3~ ] 9.Zg 9.[~ ] 482 [ 7~55 [ 15!24 ~+ * x 12D2.~ [ ~ 350 [ 356 [ 9.~ 9.Z~ [ 495 I 77378 [ 15227 ~+ * x . 1~3.47 ~ 8~ 36[$ ~ 338 [ 9.C~ 9,U~ ] 5~1 [ 77896 [ 15329 ~+ * x I !2~4,~ ~ 8~ 370 ~ 323 [ 9 ~D 9,G~ ] 5~ ] 7~3~ [ 15434 %= * x 1205.49 [ ~ 350 ] 3~ I 9-g'S 9,~ ] ~ [ 78943 ~ 15525 %+ * x I 12~6.5g ] 88 360 ~ 290 ] 9.65~ 9.GU [ 498 } 79466 ~ 15638 %+ * x 1207.51 ~ 80 j~ ~ 298 [ 9,C~ 9.t~ ~ 5L~ ~ 799~ ~ 15741 %+ * x ' 12C~.52 [ 88 370 ~, 3Lc ~ 9 C~ 9.C~ t 510 ~ 8~527 ] !5~9 + ......... ~ ....... ~ ......... ~ .......... ~ ........... · .......... + -. ~ ...... ~ - ft unit l 0.0 0.0 0.0 g.g (1. F g.R-z IT 0.00 IT ~.~ tT 0.~ IT ~,~S IT ~.~ IT ~.~ IT ~.~ ~T ~,~ JT ~.~ IT ~.~ IT ~.~ IT g.~S IT ~.SS IT g.~ IT ~.~ JT ~.~ IT ~.~ ~T ~.Cg JT ~.~ JT ~.~ IT :o? GAS (~), ~:Et:Z P~S ,. , ' %), PL~'IP PPiS (*) PIT V~ ~x) VOL 2D~J 6gg ~D 12DD ~S 8D~ !Gg~J 2~gg 3~g + * x ].2~9 52 + * x 1216 ~+ * x 12il 55 + * X 1212 56 + * X 1213 57 + * x 1214 58 ~ * x 1215 59 [~+ * X + * x 1218 + * x 1219 ~2 + * X 1221 + * X 1222 h~5 $+ * X 1223 + * X 1224 ~7 $+ * x 1225 + * X 1226 89 $+ * x 1227 $+ * X 1228 11 $+ * X 1229, 12 + * ~X 1231.14 $+ * X 1232.15[ + * X 1233.16 $+ * X 1234.17 ~ * X 1235.18 $+ * X 1236.19 ~ $+ * X 12S7.~ ~ + * X 1238.21 $+ * x !2~9.22 $+ * x 1248.23 $+ * x 1241.24[ + * x + * x $+ * x 12~.27 ~ + * X $+ * X 1246.29 + * X 1247. Re~t ~ta! vol~e ~ ~t ~ g~ g~l~s. + * x 1248- 21 + * x !249.32 + * x 1258.33 + * x 1251.34 + * x 1252. + * x 1255. L6 + * x !254. S7 ~+ * X .............. ~ ......... + .......... ~ ............ +--- - D ;t': P;-J.nt,.d r:t ::Jim;; 12. g8 B%-2o Jul 3 '88 ~t~ p~S ~ P~S I VOL psi ~ psi 8~ ~ 36D ~ 323 8G { 35£~ I 359 98 [ 350 ! 361 9D [ 36.C-, t 364 98 ~ 36~'~ ~ 364 9~ 36~J~ 364 9SI 35O ~ ~] 9~ ~ 35~ [ 373 9~I 35~1 373 98 ~ 36g ~ 377 9~ ~ 368 ~ 381 9D [ 37~ : 381 9~ ] 37~ ~ 3~ 98 [ 37g ~ 391 9D [ 368 [ 3~ 96 ~ 36D [ 3~ 9s ] 36D[ 387 9~3 ~ 368 [ 3~ 9~ ~ J6g ~ 379 90 ] 36[~ ~ 37u 98 ] 368 ~ 364 ~ [ 36~ ~ 351 9z ] 37g ~ 338 98 [ 36~ [ 331 9~ ~ 36g ] 328 9~ [ 368 ~ 32~ 98 [ 378 ~ 328 ~ ~ 36L ~ 331 9~] ~ 37~ [ 333 9s ~ 35s ~ 333 90 ~ 37~ [ 33s 90 ~ 36g [ 333 ~ [ 378 ' ~ 335 90 ~ 36g'~ 337 Density I FLGW [VOLLEY. ISTROt'~',%S , D~PiACtf~ENT I ~OTAL !b/'gal [gal/mil gall I ft I ~it[ ........ ~ .... ~ ...... ~ .......... ~ ............... 9.~Z 9.D~ ~ 496 t 8iD55 15951 ~.D 16D55 16157 16258 16259 16458 16559 16658 1676~ 16863 16965 17367 1717~ 17273 17375 17477 17581 17682 17784 17885 17988 18091 18192 18296 18398 185DD 186g0 187fJ3 18805 189~9 19gig 19111 1~11 1~14 19517 196~ 19723 O.S g.O 0.0 O.f~ 0.0 '3.1D 9.Z~ 9. 630 I 5~ ! 81583 9. Z;t~ 9, ~3£~, I 488 I 821~1 9,~ 9,~ I 495 [ 82614 9-~ 9.tk; [ 495 ~ 85127 9.C~ ~.~G I 479 I 836Sg 9.~g 9.S~ i 487 9.C~ 9.~S i 48Z 9.Df) 9.Z[l I 493 [ 85164 9.G~ 9.EG I 496 I 85687 9.DS 9~D ~ 498 I 862~5 9.S~ 9 SD i 49S ~ 86723 9.DD 9.~ ~ 4~ I 87246 9.~} 9.~ I 498 I 87769 9.~ 9.~ ! 492 i 88287 9.~g 9.~ I 5~1 ] 89333 9.~ 9.g~ I 488 9.i~ 9-~ ! 495 I 9S364 9.gS 9.~ I 492 ~ 9~877 9.~ 9.~0 [ 497 9.[~ 9,ZS I 498 : 91923 9,ZZ 9.~ ! 495 ! 92436 9.~ 9.~ ~ 496 ~ 92964 9.~ 9.~ ~ 498 ~ 93482 9,~ 9.~ [ 487 [ 940~0 9.Eg 9,~3 ~ 488 ~ 945~ 9.~D 9.g~ [ 492 ~ 95~51 9.~b 9.~g ] 497 [ 95549 9.gg 9.Sg ~ 497 ~ 96U77 9,gg 9,[~ ~ 496 ~ 96598 9.~ 9,Zg ~ ~7 [ 97183 9.~ 9.~ [ 4~ [ 97611 9 ~g 9.Z~ [ 4~ ~ 98129 9.gS 9.~ ~ 492 ~ 98642 9,gO 9.~g ~ 497 [ 99165 9.~ 9,~ ~ 498 [ 99688 9.f~ 9.~ [ 498 ~ 162 9~ ', 36~5 I 337 [9.eS 9.eSl 48~ I 676 I 198241 90 I 36["'1. [ 337 ! 9.¢¢ 9 CO I 4% [ 12~4 [ !9928 [ ~d [ 36~ I 338 19.¢S 9.;~ [ 4~ I 1718 [ 2D229 [ ~ ~ 380 [ 337 [ 9.~ 9.~ ~ 497 ~ 22~ [ 28!22 ~ 9~; [ 270 I 339 ] a¢.~ 9.GD [ 498 [ 2765 [ .0-~5~ ~* ~ 9~ [ 373 [ 343 [ 9.Cd 9.CO [ 5~2 [ 3288 ', 2032,8 ] 9~ [ 386 ] 342 ] 9~¢C 9.CS I 4~ [ 3012 ] 2S~I [ IT !T !T IT iT iT IT IT IT IT IT IT IT IT IT IT iT IT IT IT IT IT IT 1T IT I , IT iT '~T I 1255.38 i 9'd i 370 ' 2'33 [ 9.C~ 9.~f5 ', 487 ', 4~25 [ 2,3542 1256.29 [ 9d I 55~ ; 293 i 9.£'J 9.£'% [ 5G5 ' 486,, .... ~ ...... -+ ..... .~ ......~ _~. __. ~. _ _. ~ ..... ~ ..... ~-- ~ ........ + HCC 'T~LI~ L~26 P, ELiEF ~/I~ D:ta Psin'ao'l su t~.inc !2.56 E~'~tc Jul '3 88 D'%na Reco~]~ at tJ~e J. 2;56 5~te Jul 3 '88 ..... ~ ....... ~ ........~ ............e ......~ ......... ~ .......... ~ ......................... ~ .......~ G~S2~J P~ i PET J ~nsity J ~OW [~L~ IEFmI~SIDiSPLXC~I ~ J P~ I P~S j VOL I ZN c~ ~ ZN JP~d~D J j t'.~ ~t J ~ ~ psi J psi J bbl 3&/gal jga!,/miJ gal J J ft J ~itl ~ , , + ............~- ............ -4- .............. ? ............ -+ $+ * X ~+ * X $+ * X ~+ * X %+ * X ~+ * X ,~+ * X ,%+ * X $+ * X %+ * X $+ * X %+ * x ~+ * x $+ * x %+ * x %+ * x $+ * x ,~+ * X %+ * X ~+ * X %+ * x %~' * X $+ * x %+ * x $+ * x $+ * X ~+ * X ,%+ * X %* * x $+ * X %~ * x %+ * X %+ * X %+ * X ~+ * x $+ * X %+ * X ~+ * x .~- * X $1- * X $+ * x %+ * X 4+ * x %'-}- * X ........... .,.+. ........ ~- ............. -~ ......... ,~ ............. + 1257.40 j 90 J 3'd"~ j 294 9.ZO 9.C~ J 1258.41 ! 9'~ 1259.42 i 90 130'3.431 9"-0 1301.44 1302.45 I 90 i303,4u I 9U !o~,4.47 ] 90 1305. ~ J 96 i306.49 j 13~8.51 1399.52 [ 9~ 1311,54 ~ 9~ 1312. 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PLMP PP~ ~ , PIT VCL ]VOL 203 6~0 ~0 12~0 ' ] PRES [P~S 8G0 16~J0 2~0 320~ ~ hl~.ss ~ psi %+* ~}+* %+* ~ .&ctiv'._' pits , .r~: ncwz ~1,2, 2. ~ '~r~t 5. ~+ 14n2 13 142.4 !5 i435 16 14~6 !7 1437 18 14S9.2g I~i~ 22 ~ 1~ 1~2,23 144J. 24 ~. 25 1452,33 !453.34 ~ 10S 1454, 35 1455.26 1456,37 [ l~g 1457,38 ~ !~ 1450.39 [ I~6 15D1.42 1532.43 ~584,45 ', too 1508.49 ~5~s. 5~ ~5~. 52 1513. ~ i5~4.55 1515.56 ~ i~ 15!6.57 15!7.5;3 ! 100 ' D.'_t~: Pri_.nt:x] ct tim,.: !4:ZD ~"~tc Jul 3, '3z-3 Da ta .... ~ -"~ · .".~'~O."(.,',~ nt time 7.4. Ir2 D:'ltc- Jul j '8~ --'r .............. + ......4 ........~ ..... P .................... -4- ........... PL~[P I PIT ] Density I FLOW iVOLU;.~, iSTROI~SIDiSPLAC~I TOTAL [ PRES [ VOL [ iN OUT [ IN I Pt}.IPED I 'MUD DEPI'[t I GAS ' psi ! bbl I !b/gal Igal/mi [ ga]. 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X X X X X X X X X x x X X X X X X X X X X X X X X 1527. ~7 ] 1528.es ! !529. ~9 I 15~o. 1~ I 1531. l~ [ _ . &o , 1534.14 ~ 15~5. ]5 ~ 1536,16 [ ~5~7, ~7 [ ~539. 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DrinL<.d ;'.t LLm; 16.g4 ~'~Uc Jul D:lta Fc. cor:k-,2 't t~c !5:~9 ~ntr? Jul 3 '~ ~ ~ ~'~ (~).. ~%SiNG P~ (~), P~P PP~ ~*), PIT V~ (x) ~ T2..~ [ ~SiI~ P~.~ ' PiT '~ ~nsity ~ ~CW [VOL~ ~S',DISPL~C~,.~ ~ VOL S~J 6~ ~3~ 1200 ~ ~ P~S ~ P~S ~ VOL ~ 'iN c~ ~ ~N ~P~D { ~ ~.~ DE~H ~P~ 8DC !60~) 2~ 32~3~ ~ h~.ss ~ psi ~ psi ~ bbl ~ lb/gal ~ga!,/mi~ gall ~ ft Active. pits are ~2, 3, arr~ 4. ~ * X -~' * X t- * x + * x %* x* + X * '~- X * + X * + X + X * + X * + * X Active pit now ~2. x x x x X } 16~5.45 i6f~6.46 I 130 ! 6C8.44:~ 1669.49 16i0.5C 1612.52 ~ 13~ ~3.53 [ 1614.54 ~6~5.55 16].~. 56 1617.57 1619.59 1621. ~)D i 130 1622. 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C~ { 186 ] 96COFJ [ 38582 { 1627.C6 I 120 { 30 [ 209 ! 9.~0 9.£,YO { 184 [ 96193 [ 3,q620 Sic~ pumps to 40 SPM ~ile mixing more mud. + x { 1628, C7 ¢~- x [ 1629,£¢3 ! 120 ] + x { 1630. C9 + x I 1631, lg ~-:- x I 1622.11 i 4-, x [ 1623. i2 , + x I 1624,13 + x 1t626.15 + x 11637.16 .4- x { i638.17 + x ] 1659.18 I 120 + × I 16~.19 ] ].2o [ ~+ x { 1641.m I 11r~ + x } 16,,2.21 ~+ x i 16-.'-2.22 ' Slow pt:ups r_o 13 St:M,. .~+ x { 1645.24 '; .- x { ~c.46.25 ~-~- x ] i647.26 .~+ x I !6.m-3 '-'? 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S2 27~ [ --2~ ~ 42~' 9.~ 9.0C ] ,~ [ 2~926 45184 ~ ~.~ ~ ~.~J IT ~ x + ~1ff2.33 27{~ [ -2~ [ 4S ~ 9.6~ 9.g~ ~ ~ [ 28926 451~ ~ (:3.U ~ S.~ [T ~ x + ~1f;J.34 23E9 [ -23 { 43 [ 9.f3~~ 9.~S ~ ~ ~ 28926 45184 ~ 0.U [ ~.~ ~T ~ x + ~]!~5.26 33~ ~ .-!c~ ~ 46 [ 9.JE 9 G~ ~ Q [ 28926 451~ ~ x + ei~3~.27 333 [ -iS ~ 47 [ 9.Z~ 9.~ [ C [ 28926 45184 ] 9.~ [ ~.~ IT ~ x ~ ~1~7.j8 318 ~ ~-iD ~ 47 '~ 9.~D 9.~Z [ ~ ~ 28926 451~ [ ~.g [ ~.SG IT ~ ~ x ~I~8.39 33~ ~ -lC [ 1439 ] 9.~ 9.{~ ] ~ [ 28926 45184 [ ~.Z ~ ~].UD IT ~ + x ~1Q9.43~ 39~ ] ..-1~ [ 1437 [ 9.ES 9.f~ [ ~ [ 28926 45!~ ~ % x ~110.41 41~ [ 3~ [ 14Z9 [ 9.~D 9.~D ] ~ [ 28926 451C~ '~ ~.Z ~ ~.~ ~T % ~* x D111.42 37~ ~ 433 ~ 1437 ~ 9.~ 9.Z~ ] 9! ~ 29316 45~2 ~ D,D ] ~.~ IT % ~ x 0113.~ 318 ~ 379 ] 1436 ~ 9.~ 9.~ ~ 13D ~ 29285 45256 ] D.D ~ 0.~D ~T ~ % x ~!!4.45 293 [ 288 [ 1433 [ 9.~3~ 9.~ ] 39 [ 29335 45266 ] ~,~; [ ~.~ IT ~ % x Dl!5.~ 3~ ~ 28~ [ 1431 ~ 9.~D 9.~S i [ 29335 45266 ~ % x 0116.47 2~ ~ 29~3 [ 1432 [ 9.~ 9.{38 [ 0 ~ 29335 45266 ~ + x Dl!7.~ 2~ ~ ~ ~ 143~ ~ 9.ZD 9.ZD ~ ~ [ 29335 45266 ~ % x ~118.49 28~ [ 280 [ 1433 [ 9.~ 9.~ [ ~ [ 29335 45266 [ ~.~ [ ~.~Z IT % ~ x ~119.53 283 ] 283 ~ 1429 ~ 9.DS 9.86 ~ D ~ 29335 452~ ] ~.~ ~ g,Z~ IT ~ *~ x ~121.52 35U : 24~ ~ 1431 ] 9.Z~ 9.f~ ~ ~ ~ 29335 45266 ] 0.D ] ~.DD IT % * + x ~122.5~ 333 ] 213 ', 1433 ~ 9.~D 9.f~3 ] D ] 29335 45266 ] D.~ ] ~.0~ IT ~ * + x D123.54 41~ ~ 28~ ~ 1~t ~ 9.~ 9.J~ ] .1 ] 29335 45266 ~ ~.~ ~ O.f~ ~T ~ * r x ~U124.55 ~ [ 3~3 [ 1~3 ~ 9.GD 9.C~ ~ D ] 29335 45266 % * + x ~125.56 45~ ~ 328 ~ 1~8 ~ 9.G~ 9-Z~ ~ O ~ 29335 45266 '~ S.S [ ~.~ IT % * + x ~3126,57 45~ ] 32~ ~ I~9 ~ 9.~ 9.~ [ ~ [ 29335 45266 ~ ~,~ [ ~.ff~3 IT % * + x-I ~127,~ 45~ [ 32~ ] !~3 ] 9.Z~ 9,~ ~ ~ ~ 29335 45266 ~ * + x[ ~13~.ZZ 45k3 ~ 3~ ~ 1477 ~ 9.~S 9.~.'G ] ~ ~ 29335 45266 ~ ~.~ ] ~.~ IT % * + ~ Di31.Zl ~3 ~ 32~ ] 1486 ~ 9.~Z 9.frs ~ ~ [ 29335 45266 ~ * + ~ $132.t~2 ~ ~. 3~ ~ ~=~nn ] 9.UE o~.G~ ~' ~ ] 29335 45266 % * + ~ ff123.02. ~D ~ 3~ [ 15~ ] 9.~ 9.S~ ~ ~ [ 29335 45266 ] ~.f ~' .58 IT % * * ~ Qlg4.f~ ~ [ 31~ [ 1513 [ 9.~ 9.~ ~ [] ] 29335 45266 ~ ~.Z [ .5~ IT ~ * + i ~135.~5 a~J ] 3~ I 1518 ~ 9.~ 9.9~ [ 0 { 293.%5 45266 ~ ~.~ ~ .5~ IT % * + ~ '~136.~J ~ ] 31~ ~ 1527 [ 9.?~ 9.~ ~ ~ [ 29335 45266 ~ * ~' ~ ClS~.f3~ ~ [ 31~ [ 1545 [ 9.CG 9.CZ ~ O ] 29335 45266 : 0.~ [ .53 ~T ~ * + ~ ~"~!.]9.C9 423 [ 3~3 ~ 15w~ ~ 9.~G 9.2~ ] ~ [ 29325 45266 ~ * + ~ :3!~.IQ 433 [ 3~ ~ 1555 [ 9.9~ 9.GZ [ e [ 29335 45266 % * + i %)141.11 4SD [ 3~ ] 1569 [ 9.~ 9.C~ ] ~ ~ 29325 45266 ~ 0.S [ 2.C0 IT ~ * + i ~142.12 4~ [ 3~D ] 1574 ] 9.f~ 9.~ [ ~ ~ 29335 45266 % * + ~ ~142..13 4~ [ 2~I ~ 1579 ~ 9.GU 9.~.~ ] ~ [ 29335 45266 [ ~.D [ 2.GO ]T ~ ~ = ~ el~.i4 4~ ~ -~9~ ~ 1588 [ a~.~.~ 9.~'Z ] ~.~ ~ 293~5 45266 % * ~ ~146.!6 433 ~ 29~ ] 16Sb ~ 9.G~ 9.SS [ C ~ 2_~5 45266 % * + ~ D!47.17 ~9 ] 2~ '~ i617 ] 9.~S ~. ..... ~D ~ ~ ~ 29~25 45266 % * + ~ ~l~.!C 45~ ] 2~ ~ 1616 ~ 9.k:C 9.GE [ ~ [ 29335 45266 [ ~ * ~. ~ [~149.19___ 450 ~ 29G ,~ 1623 I~ 9.[~S 9.~U ]. 0 ] 29J35 45266 [ ~.S [ ..n.gfJ ,~ ''~ ~ * + ~ {)iSC.Pf3 ~C' ~ 293 ~ !62G ~ q. CC 9.~7Q ', ~ ', 29~5 45266 ~ *= ~ ~]15!.=~ ~ ~3C. ~ .... ~ ~: i637 ', ~.L[_. 9.'~"~,, ,~ :~ , 292~5 45266 MOC TBt~ 026 ?~ELi'EF WELL #1 TOT G~S ($), CASING PRES (+), Pt~{P PRES (*), PIT VOL (x) VOL 3~0 600 96~ 1200 IPRES 800 16~ 24~0 3200 x x x x x x x x x x ~* x $* x $* x x * x * x * x * x * ~* x $* x $* x $* x ~ ~ ~pi~ ~lci~ ~oride. ~ x ~* x ~* x ~* x ~* x ~* x ~* x ~* x ~ *x ~ *x x x x ~*x ~*x ~* x ~*x ~ *x ~* x ~*x ~* x Fi~sh ~p~ c~ci~ ~loride, ~ ~~ ~ow c~ck. ~* x Tn~E 2112.50 2113.51 2114.52 2115.53 2116.54 2117.55 2118.56 2119.57 2120.58 2122.00 2123.01 2124.02 2125.03 2126.04 2127.~5 2128.06 2129. ~7 2130.08 2131.09 2132.10 2133.11 2134.12 I CASING I PtMP[ PIT PRES[ VOL psi [ bbl[ F ......-+ ......--+ PRES 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 10 50 50 50 50 50 80 80 1070 210~ 1940 1910 1890 110 70 10~ 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 120 116 116 116 116 Data Printed at tune 21:12 Date Jul 6 '88 Data R~oord~l at time 21:12 Date Jul 6 '88 ~ ..... -+ ...... -+ ...... -+ + ..... --+ I ~c~; IVOLh~E ISTI%OFF.~ ID!SP~AC~TI ~ I Density IN OUT lb/gal 2135.13 2136.14 2137.15 2138.16 2139.17 214~. 18 2141.19 2142.2~ 2143.21 2144.21 2145.22 2146.23 2147.24 2148.25 2149.26 2150.27 2151.28 2152.29 2153.3~ 2154.31 2155.32 2156.33 140 14~ 140 200 80 18~ 190 70 70 70 179 160 70 17U 18~ 160 150 116 116 116 119 119 119 12f~ 120 123 123 123 123 123 123 120 119 117 119 118 119 119 116 9.00 0.00 9.00 0.00 9.00 0.00 9.00 0.00 9.00 9.00 9.00 0.00 9.00 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 12.5 12.5 0.10 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.f~ 12.5 0.00 12.5 0.00 12.5 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 12.5 9.00 12.5 12.5 12.5 12.5 12.5 12.5 I 2157.34 I 0 I 70 I 116 !12.5 0.~ ! I Igal/mil I 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 9.0 0.0 0,9 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.9 0.0 0.0 0.0 0.0 0.0 0.0 o.~ IT 0.00 IT 0.00 IT 0.00 IT 0.00 IT 0.00 IT 0.~o IT 0.00 IT 0.00 IT 0.~0 IT 0.~ IT 0.~ IT 0.~ IT 0.00 IT ~.z~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.00 IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT Z.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT 0.~ IT I I I ~.s~ IT MGC TBLIS M26 RELIEF %.'~ELL #1 TOT GAS (#), CASING P~ES (+), PLI, IP PRES (*), PIT VOL (x~ I ?~"~ vol ~0 6~0 ~ 12~0 I Data Printed at time 21:57 Date Jul 6 Data Fecord~d at time 21:57 Date Jul 6 '88 ~ ..... -+ ...... -+ ...... -~ 7-----+ ...... -+ ...... -~ + ..... -+ I ~I3~l PLNP I PIT I Density I FLOW IVOLL~. ISTROk~SIDISPLAC~4ENTI TOTAL I PRES I PRES I VOL I IN OUT I IN I PL~IPED I I ~3D DEPIIt I GAS I PRES 80~ 1600 2400 3200 GAS ~Jd0. G~ 4~0. ~0 608. C~ 80~. ~ *X ~* x ~*x Flow check 7 bbl/min. ~* x ~*x ~*x ~ x ~* x Pumping 2~ bbls fresh water. ~* x ** x Pumping sea water at 1 bbl/min. x x x x x x x x x x x x x x Shut do~n to repair Haliburton leak. x x x x x x x x x x x x x x x x x I hhn~.ss I psi I psi I bbl I lb/gal Igal/mil gal l e ...... -+ ..... -+ ...... -~ ~ ..... -+-- ..... -+-- ..... I 2158.35 ] 0 I 19~ I 116 ~ 12.5 ~.~ ~ 0 ] 0 ~ 12159.36 I 22~. 37 I 22D1.38 2202.39 2203.40 2204.41 2205.42 22~6.43 2207.44 [2208'.45 [ 22~9.~ 221D. 47 2211.48 2212.49 2213.50 2214.51 2215.52 2216.53 2217.54 2218.55 2219.56 2220.57 2221.58 2223. 2224. 2225.02 2226.03 2227. Z4 2228. ~5 2229.06 223{I. D7 2231.t~8 2232. ~'9 2233.10 2234.11 2235.12 2236.13 2237.14 2238.15 2239.16 2240.17 2241.18 13~ [ 116 0 [ 170 I 117 360 [ 119 320 [ 119 9~ I 117 160 I 118 16~ I 118 60 [ 117 I00 [ 119 0[ 100 [ 118 0 I 70 I 120 60 60 60 50 50 50 50 117 116 116 112 109 114 116 50 50 50 60 80 116 123 123 123 123 123 123 1~ 123 1~ 123 9~ 123 90 123 9~ 127 9~ 130 9~ 13~ 9~ 13~ 9~ 13~ ~ 13~ ~ 13~ ~ 13~ ~ 130 ~ 130 9M 130 ~ i33 9~ 133 112.5 o.~ I 12.5(~.D0 ~2.5 12.50.00 12.5 0.Z0 12.5 ~.~ i2.s ~.~ 12.5 ~.~D i2.s ~.~ I i2.s ~.~ I i2.5 ~.~ 12.5 0.~ 12.5 0.~ 12.5 ~.~ 12.5 ~.~ 12.5 0.~ 12.5 0.~ 12.5 ~.~0 12.5 0.~ 12.5 D.~ 12.5 D.~ 12.5 0.~ 12.5 ~.~ 12.5 0.~ 12.5 8.~ 12.5 ~.~ 12.5 ~.~ 12.5 g.~ 12.5 ~.~ 12.5 ~.~ 12.5 ~.~ 12.5 ~.~ 12.5 0.~ 12.5 12.5 ~.~ 12.5 D.~ 12.5 ~.~ 12.5 ~.~ 12.5 O.~ 12.5 ~2.5 12.5 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ol ol 0 0 0 0 0 0 0 0 0 0 0 0 oi o ol o ol o ol o oi o ol o ol o ol o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ft 0.0 0.,0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.~ 0.0 0.0 0.0 0.C I o. oo IT I 0.00 IT I 0.00 IT I o.00 IT I o.0~ IT 0.00 IT 0.00 IT 0.~ IT ~.~ IT ~.~ IT I I ~.~IT I ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT I a.~ IT S.~ IT 0,~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT i ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT a.~ IT '~.~ IT MfE TBUS M26 RELIEf~ WELL TOT GAS (#), CASING PRES (+), PLOP PRES (*), PIT VCL (x) t TIME I VOL 300 6~0 9~0 1200 I D~ta Print~ at time 22:41 D~te Jul 6 '88 Ekata ~ecorded at time 22:41 D~te Jul 6 '88 + ...... -+ ...... -+ ...... -% + .... -+ ..... -+ ...... _+ ........ -+ ...... I CASING I PLI~P I PIT I Density I FL(~4 lVOLLME ISTNDKESIDISPLAC~MENT~ TOTAL I I PRES I PRES I VOL I IN OUT ~ IN IPUMPED I I MUD EEPI~ I GAS ] PRES 8~3 1600 2400 320~ I GAS 200.0~ 400.00 600.O~ 800.00 + .......... ~ ~ % + ~* X ~* X ** X ~* X ~* X x x x x x x ~ ~er 1~ in a 1~. x x x x x x x * x x x x * x x % ~~ ~ at 5 ~1/~. ** x ~* x ** x ~* x ** x ** x } * x * * x * * x ~ * x ~ * x ~* x ~ * x * * x ~ * x * * x * * x ~ * x ~* x ~* x I hhnn.ss I psi I psi I bbl I + ...... -+ ...... -+_ ..... -+ ~ 2242.19 I 0 I 90 I 134 ~ 2243.2~ I 0 I 9~ I 135 1 2244.21 I 0 I 90 I 138 I 2245.21 I 0 I 90 I 138 I 2246.22 I 0 I 90 i 138 I 2247.23 2248.24 2249.25 2250.26 2251.27 2252.28 2253.29 2254.30 2255,31 2256.32 2257.33 2258.34 2259.35 230~.36 2301.37 2302.38 2303.39 2304.40 2305.41 2306.42 2307.43 2308.44 2309.45 2310.46 2311.47 2312.48 2313.49 2314.50 2315.51 2316.52 2317.53 2318.54 2319.55 2320.56 2321.57 2322.58 2324.0~ 2325.01 2326.g2 2327.~3 ~ I 90 0 I 90 90 90 90 80 80 80 70 90 140 200 130 110 130 110 120 120 140 160 160 190 210 170 140 150 210 19~ 1.o0 210 150 140 140 145 145 145 144 142 143 145 I 145 146 146 142 142 142 139 139 141 139 142 142 142 142 142 142 142 144 142 146 146 146 146 146 146 146 146 146 146 146 146 146 146 lb/gal I gal/mil gal ~ ..... -+ ...... -+ ..... --4 ~ .... ---+ 12.5 0.00 I 0 I 0 I 0 ~ 0.0 I 0.00 12.5 0.k"3{~ { 0 { 0 { 0 { 0.0 { ~.~ 12.5 12.5 0.00 12.5 0.00 12..50..gO 12.5 12.5 0.00 12.5 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 12.5 12.5 0.00 12.5 12.5 ~.00 12.5 0.00 12.5 0.00 12.5 0. Z0 12.5 0.00 12.5 0.~0 12.5 0.00 12.5 0.~ 12.5 0.00 12.5 0.00 12.5 12.5 0.£~ 12.5 0.00 12.5 0.~ 12.5 0.00 12.5 0.00 12.5 0.00 12.5 O.C~ 12.5 ~.~ 12.5 0.00 12.5 12.5 12.5 12.5 12.5 g. Zg 12.5 ol ol 0 0 0 0 0 0. 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0..{} 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.~ 0.0. IT IT IT IT IT I o.00 IT 0.00 IT 0.00 IT 0.00 IT 0.00 IT 0.~ IT I ~.~ IT 0.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT 0.~ IT I o.~ IT. 0.~ IT 0.~ IT o.~ IT ~.~ IT ~.~ IT 0.~ IT o.~ IT ~.~ IT ~.~ IT 0.~ IT 0.~ IT 0.~ IT o.~ IT 0.~ IT O.CZ IT 0.~ ~ 0.~ IT ~.~ IT ~.~ IT 9 MCC 'i~L5 M26 RELIEF TOT GAS (#), CASING PRES (+), PLMP PRES (*), PIT VCL (x) 30 600 900 1200 800 16~0 241~ 3200 2~0 . 00 4~. 00 600.00 800.0~ * X * X * * * * T~E Data Prints] at time Data P~corded at time ~ ...... -+ ...... -+ ....... I CASLNGt PU,~ ] PIT P~S I P~S I ~L psi I psi l bbl ...... --+ ...... --+ ....... 0 I 140 146 0 I 240 149 0 ~ 250 841 01 2~0 840 0[ 220 84~ gl 220 841 2328.04 2329.05 2330.06 2331.07 2332.~8 2333.09 ~ping 10 ~bls/min. * x [ 2334.10 230 bbls total pumped. * x [ 2335.11 * x [ 2336.12 * x I 23J7.13 * x ~ 2338.14 260 bblspumped * x [ 2339.15 Correction<la last message 266 bblspumped. * x I 2340.16 29~ bbls at 10 hbl/min. 2341.17 2342.18 2343.19 2344.2~ 2345.21 2346.21 2347.22 2348.23 2349.24 2350.25 2351.26 2352.27 2353.28 x x x x x x x x x x x x x 2300 to 18~3' measured detYch with no tracer Schlunberger r~ ~ ,~teelhead 2354.29 I 0 23:27 Date Jul 6 '88 23:22 Date Jul 6 '88 ~ ..... -+ ...... --+ ...... --+ + ...... -+ Density } FLOW IVOLLI~E ISTNDKESIDISPIA~ TOTAL l II,; OUT [ IN [PUMPED [ [ MUD 12EPI~ ~ GAS [ lb/gal Igal/mil gall [ ft [ unit[ ~ .... -+ ...... --+ ..... -~ ~-- .... -+ * X Present r%n frcm 2300 to 13~' measured depth. * x * x * x * x * x * x 462 bbls total pumped (cement). * x * x * x * x * x * x * x 12.5 0.00 12.5 0.00 12.5 12.5 0.~ 12.5 12.5 0 I 280 I 840 I 12.5 0 I 320 I ~ 112.5 0 I 370 I ~ 112.5 o.~ 0 I 350 I ~z 112.5 0 I 350 I 840 I 12.5 400 1 839 I 12.5 0..~ [ 0 i 330 I 839 112.5 0. Z0 I I I 12.5 9.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 838 838 836 837 836 836 835 834 834 835 8~ 836 834 370 350 220 260 280 240 160 230 260 230 260 180 17~ responce. 833 I 12.5 ~.~0 [ I 3~ I 832 I 12.5 0.00 I I 2813 I 832 112.5 0. Eg I 270 { 830 I 12.5 c~.~l I 31~ I 831 112.5 0.00 I 340 I 829 112.5 o.~ I 38~ I 830 112.5 z.~ 2355.30 2356.31 2357.32 2358.33 2359.34 12.5 0.~ 12.5 0.~ 12.5 0.00 12.5 0.~ 12.5 0.00 12.5 ~.00 12.5 O.DZ 0 0 0 0 0 0 ol ol ol ol ol ol 0 0 -1 0 0 0 0 ol ol ol ol 0 0 0 0 0 ol 0.0 0.0 0.0 0.0 0.0 0 0 0 ol ol ol 0 0 0 0 0 ol ol ol ol ol 0 0 ol 0.0 I ol 0.0 ! ol o.~ { oi 0.0 I 0 0 0 0 0 0 0 0 ol ol ol ol ol 01 0 0 0 0 0 0.0 I 0.0 0.0 0.0 0.0 EI..O 0.0 0.0 0.1~ 0.0 0.0 0.0 0.0 0.0 0.0 0.D 0.0 ~1.37 ~2.38 ~3.39 9005.41 ~36.42 '~007.43 330 ~1 260 829 260 830 ~ ~8 240 827 230 828 2~ 828 0.00 IT 0.~ IT 0. ('~O IT 0.00 IT 0.~ IT I 0.00 IT I 0.00 IT 0.00 IT 0.~ IT I e.~e IT I 0.~ IT ~.~ IT ~.~ IT 4.5~ IT ~.~ IT e.~ IT e.~ IT ~.~ IT e..~ IT e.~ IT e.~ IT e.~ IT e.~ IT I I e.~ IT. I IT IT IT IT I ' ~.~ IT ~.~ IT 0.~ IT ~.~ IT ~.~ IT _ -- MCC TBL~ M26 RELIEF WELL TOT GAS (~), CASING PRES (+), PQ4P PRES (*), PIT VOL (x) I VOL 3~9 6~0 9~0 12~0 PRES 800 16~0 2400 3200 % t ~ ~ 534 bbl s total ~ump~ (cement). ~* x * x * x * x * x * x * x * x * x * x * x Data Printe~] at time 00: ~7 Data Recorded at t/me [ TIME ] CASING[ P~MP ! PIT [ PRES [ PRES [ VOL I hhnn.ss I psi t psi [ bbl [ 0~8.44 0009.45 0010.46 0011.47 9012.48 0~13.49 0914.50 0915.51 0016.52 0017.53 0018.54 140 19~ 210 260 250 24~ 320 389 320 310 320 829 829 830 830 829 829 829 833 833 833 832 DeD-~ity IN OUT ~ IN IP~4PED I I ~3D EEP~H lb/gal Igal/mil gall I ft +------+ ...... -+ ...... -d 12.5 0. f~ 12.5 ~.00 12.5 ~.~ 12.5 0.~ 12.5 ~.~0 12.5 12.5 12.5 12.5 12.5 12.5 0.00 Date Jul 7 '88 Date Jul 7 '88 ..... -+ ...... -+ .... --4 ~ .... -+ FLOW I VOL%ME I STROKES I DISPIAC~4~qT[ TOTAL I 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0 0 0 0 0 0 0 I o.~ IT 0.~ IT 0.00 IT 0.00 IT 0.o~ IT 0.00 IT 0.~ IT ~.~ IT ~ * x i 0019.55 0 360 829 % Schlunberger Log ru~ at 2300 to 1300', 2.5 api u~it shift at 1850' as ~11 as temp a~mally · * x I ~20.56 [ 0 I 39~! 827 588 bbls total pumped (cem~t). * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x ~* x * x ~ ~ls ~ ~ (~t). * x * x ~3 ~ls m~ ~ (~t). 0021.57 ~22.58 0023.59 0025.0~ 0026.01 0027.02 0~28.03 0029.04 003~. 05 0031. ~ ~32.~ / ~33.~ [ ~34.~ [ ~35. ~ I ~36. ~ I ~37.12 ~38.13 ~39.14 ~.15 ~1.16 ~42.17 ~3.18 ~.19 ~5. ~ 0~. 21 ~7. ~ ~49.24 0 0 0 0 0 0 0 0 360 370 340 410 370 310 310 390 350 39~ 420 360 340 370 370 360 42Z 370 2~ 230 330 170 29~ 140 280 826 826 827 827 828 826 826 824 825 825 825 823 824 824 823 823 823 822 821 821 821 820 821 821 821 821 819 819 ~50.25 1 ~051.26 I o ! 31o i S191 o I 260 I 8191 I 12.5 0.00 0 at 150~' absent. 112.5 0,00 I ~ I 12.5 0.~ 12.5 0.~ 12.5 ~.~ 12.5 ~.~ 12~5 12.5 0.~0 12.5 12.5 0.00 12.5 0,00 12.5 12.5 0.~ 12.5 ~.~ 12.5 12.5 0.~ 12.5 ~.~ 12.5 12.5 ~.~ 12.5 0.~ 12.5 0.00 12.5 12.5 ~.~ 12.5 0.~ 12.5 12.5 0.g0 12.5 12.5 ~.~ 12.5 ~.~0 12.5 0¸ 0 0.0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0.0 0.0 0.9 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 MGC ~IBUS M26 RELIEF WELL #1 GAS (#), CASING PRES (+), PLMP PRES (*), PIT VOL (x) 90~ 1200 Data Print~ at time ~0:52 D~te Jul 7 '88 Data Recorded at time (,)0:52 Date Jul 7 '88 + ....... -+ ...... -+ ...... -+ ~------+ ...... -+ ..... -~ ~ ..... -+ I CASING I PLMP PIT I Density I FLCf~ IVOLL~ ISTROKESIDISPIACtMtI~TI TOTAL I PRES I PRES VOL I IN OUT I IN I P~IPED t ~JD DEPTH ~ GAS ~ PRES 80D 1600 2400 32~O GAS 2~10 . 0~ 4~0. g~ 600. ~ 800.00 ~ * x ~ * x ~* x ~ * x ~ * x ~ * x 0052.27 0054.05 0055.06 0056. ~7 0057. Z8 0058. ~9 hh~m.ss I psi I psi 0 180 0 210 0 250 0 220 ~* x * x * x * x * x * x 1103 bbls total pumped (cement). * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x x 1330 bbls total pumped (cement). Schlumberger log r~ no gamma ray amncmally seen and temp ann(x~ally at 1500' gone. 0059.10 0100.11 01~1.12 0102.13 0103.14 0104.15 ~105.16 0106.17 0107.18 0108.19 0109.20 0110.21 0111.22 I 0112.23 0113.24 Dl14.25 0115.26 0116.27 0117.28 0118.29 0119.30 0120.31 0121.32 ~122.33 ~123.34 0124.35 150 240 310 360 400 370 330 46~ 3~ 380 350 220 39~ 250 260 210 270 270 3~ 300 3~ 330 460 37~ 13~ ~ * X ~* x ~* x ~* x ~ * x ~ * x ~ * x ~ * x ~ * x ~* x ~ * x ~ * x ~ * x + t ,~ 0125.36 0126.37 ~127.38 ~128.39 0129.4~ ~130.41 0131.42 0132.43 0133.4~ 0134.45 0135.46 ~136.47 ~137.48 14~ 80 80 390 260 200 170 470 46g bbl I I 819 I 12.5 819 112.5 S2~ I 12. S 818 I 12.5 818 I 12.5 817 112.5 lb/gal Igal~il gal ~.~1 s s ~.~l ~ ~ 818 818 819 819 818 818 12.5 O.Z~ 12.5 12.5 0.~ 12.5 0.~ 12.5 0.00 12.5 ~.~ 818 817 818 817 816 816 816 816 816 816 816 813 815 815 816 816 816 816 816 816 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 0.~ 0.00 0.00 0.00 0.1~0 0.00 0.~ 0.00 0.1~ 0. l~ 0. I~(~ 816 816 816 817 817 817 816 816 816 816 814 817 816 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 I ft 0 0 8 0 g 0 0 8 0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.~ 0,0' 0.0 0.0 0.0 0.0 0.0 0,0 0..0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.~ 0.~ 0.[', 0.0 0.~ 0.00 IT 0.00 IT 0.00 IT .50 IT 0.00 IT 0.~ IT I 0.00 IT 0.00 IT 0.00 IT 0.00 IT 0.00 IT ~. ~,~ IT I ~.~ IT ~.~ IT ~.00 IT ~.~ IT 0.00 IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT 0.~ IT ~.~ IT ~.~ IT ~.~ IT I ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT MCE TBL~ M26 PgLIEF WELL #1 TOT GAS (#), CASING PRES (+), PLOP PRES (*), PIT VQL (x) VOL 300 600 900 1209 TIME I CASI_~GI PLMP I PIT PRES 800 1600 24~0 GAS 2~0.~0 400. ~0 600.~0 4 * x 4 * x 4 * x 4 * x 4 * x 4 * x 4 * x 4 * x 4 * x 4' x ~ * x ~ * x ~ * x ~ * x ~ * x ~ * x ~ * X ~* x ~ * x 1378 ~ls ~ ~ (~t). ~ * x ~ * x ~ * x ~* x ~ * x ~* x 3200 800.00 I P~s I P~ I VOL htran,ss I psi I psi I bbl I I ~ ..... ---+ ...... -+ ...... 0138.49 0139.50 014~. 51 0141.52 0142.53 0143.54 0144.55 0145.56 0146.57 0147.58 0148.59 0150.00 0151.01 0152.02 0153 · 03 0154.04 0155 · 05 0156 · 06 0157.07 0158.08 0159.09 0200.10 0 0 0 0 0 0 0 01 340 816 380 815 330 815 200 816 180 816 260 816 300 814 230 814 150 815 90 814 160 812 280 812 400 814 350 813 360 814 280 813 300 813 310 812, 310 814 320 811 100 811 210 811 02~1.11 0202.12 0203.13 0204.14 0205.15 0206.16 230 220 210 150 240 15~ 811 812 811 812 812 812 Noise log disturbances at 240~to23~0 as w~ll as 900,15~ 'with possiblilies * x 0207.17 0 4 * X 4 * x 4 * x 4' x 4 * x 4 * x ~* x 4 * x 4 * x 4 * x 4 * x 4 * x 4 * x 4 * x 4 * x ~ * x 4 * x 02~8.18 0209.19 ~21D. 2~ 0211.21 0212.22 0213.23 0214.24 0215.25 0216.26 0217.27 0218.28 0219.29 0220.30 0221.31 0222.32 0223.33 S224.34 at 1750to1800' 2~ 270 270 160 110 220 260 150 2~ 150 18~ 230 270 240 260 210 270 250 811 812 811 813 810 810 812 810 810 811 811 810 810 810 8~8 809 8C9 D~ta Printed at time ~1:37 Date Jul 7 '88 Data Recorded at time (~)1:35 Date Jul 7 '88 + ..... -+ ...... -+ ...... -% Density IN OUT lb/gal 12.5 ~.0~ 12.5 0.00 12.5 12.5 0.00 12.5 12.5 12.5 0.00 12.5 0.00 12.5 0.~ 12.5 0.00 12.5 0.00 12.5 12.5 0.00 12.5 0.0~ 12.5 0.00 12.5 9.00 12.5 0.0~ 12.5 0.00 12.5 0.00 12.5 0. Z0 12.5 0. Z0 12.5 0.Z0 12.5 0.00 12.5 12.5 9.00 12.5 0.00 12.5 ~.~ 12.5 0.013 12.5 0.00 12.5 0. I:~l~ 12.5 12.5 12.5 0.~ 12.5 0.~ 12.5 9.00 12.5 0.~ 12.5 0.~ 12.5 12.5 O.Z~ 12.5 12.5 0.~ 12.5 12.5 0.~ 12.5 12.5 0.~ 12.5 C.~ I FLC~ IVOLtlVIE ISTROKES IDISPIAC~C~I~Trl ~ I I ~N IP~PED I Igal/mil gall I 0 0 0 0 0 0 0 -1 0 0 0 0 I 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ol ol ~D~H I GAS I ft I unit l I I o.~ IT 9.0 0.00 0.0 0.~ 0.0 0.00 0.0 0.00 0.0 0.00 0.0 9.00 0.0 0.~ 0.0 0.0 ~.~ ~.0 0.~ 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.~ 0.0 0.~ 0.0 0,0 I 0.00 z.0 I 0.o~ 0.0 I 3.~ z.0 I o.zz 0.0 9.0 0.00 0.0 0.00 0.0 0.00 0.0 9.0 0.0 0.0 ~.~ 0.0 ~.~ ~.~ 0.0 ~.~ 0.0 0.~ 0.0 ~.~ 0.0 D.~ IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT I IT IT IT IT IT IT I IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT HCC TBUS H26 RF_,L'rEF WELL TOT GAS (~), CASING PRES'(+), P~P PRES (*), PIT VOL (x) VOL 300 600 900 12~0 PRES 800 1600 2400 3200 GAS 2~0. ~ 400.0~ 600.00 800. D~ * X * x * x * x 1549 bbls total pumped (cement). * x * x * x * x * x * x * x * x * X * x * x * x 1636 bbls total pumped (c~ment). * x * x * x * x * x ** x * x ~* x ~* x ** x ** x ** x Shut do%n u~per }~liburton ** x ~* x ~* x }* x ~* x ~* x ~* x ~* x ~* x ~* x ** x ~* x ** x ~* x ~* x ~* x ** x I hh~za.ss I psi I psi I bbl I lb/gal lgal/mil gal I I t I I ~ I I I ~ ~ .... -+ ......-+ .... --4 ~ .... ---+ -----+ .... --+ I 0225.35 I 0 I 290 I 809 J 12.5 0.00 J -1 I 0 I 0226.36 I 0 [ 370 I 808 I 12.5 0.0~ I 0 I 0 I 0227.37 I 0 I 360 I 808 I 12.5 0.00 I 0 I 0 I 0 I I 0228.38 I 0 I 260 I 808 I 12.5 0.00 I 0 I ~ 9229.39 0230.40 0231.41 0232.42 0233.43 0234.44 0235.45 0236.46 0237.47 0238.48 0239.49 0240.50 Data Printed at time {]2:24 D~te Jul 7 '88 Data P~corded at time 02:23 Date Jul 7 '88 ~ ...... -+ ...... _+ ...... -~ ~ ..... -+ ...... -+ ...... -+ ~ .... --+ I CASINGI PLOP [ PIT I Density I FLOW IVOLLME ISTFOKESIDISPLAC~I TOTAL I PRES I PRES I VOL I IN OUT I IN I PL~4PED I I MUD DEPTH ~ GAS ~ 810 808 808 807 806 807 808 806 807 805 806 806 12.5 0.00 12.5 0.Z~ 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 0241.51 0242.52 0243.53 0244.54 0245.55 ~246.56 0247.57 0248.58 0249.59 0251.00 0252.01 ~253.02 37~ 250 33~ 480 480 320 440 370 290 360 550 290 807 807 807 806 806 802 805 803 804 805 803 803 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0.00 12.5 0 0 0 0 0254.03 0255.04 0256.05 0257.06 0258.07 ~259. ~8 030~. 09 0301.1~ 03~2.11 03~3.12 0304.13 0305.14 0306.15 0307.16 ~308.17 0309.18 ~310.19 420 230 430 400 380 100 230 80 110 80 110 803 110 803 80 804 70 804 80 803 70 8~2 80 803 8~ 803 120 803 12~ 802 12~ 8~3 70 802 70 802 8~ 8~2 1~ ~93 ~1 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 0 ~ 0 0 0.0 ! 0.00 I? 0.0 I ~.00 IT 0.0 I 0.00 IT 0.0 I 0.00 IT I 0.0 0.00 IT 0.0 0.00 IT 0.0 0.00 I? 0.0 o.~ I~ ~.0 ~.~ IT ~.~ ~.~ IT ~.~ ~.~ IT ~.~ ~.~ IT ~.0 0.~ IT ~.o ~.~ IT ~.0 0.~ IT I 0,0 0.~ IT 0.0 0.~ IT ~.z ~.~ IT 0.0 0.00 IT 0.0 0.~ IT 0.0 0.~ IT 0,0 o.~ IT 0.0 0.~ IT 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 MOC 'I~SL~ 026 RELI~ ~:~LL #1 I T~T GAS (#), CASING PRES (+), PLI~P PRES (*), PIT VOL (x) I VOL 300 600 900 1200 T~ME D.~ta Printc~] at time 03:lq Date Jul 7 '88 DaL% Recorded at time 03:10 Date Jul 7 '88 ~ ...... -+ ...... -+ ..... -~ ~ ..... -+ ..... -+ ...... -+ .......... -+ ..... -+ I C~INGI PLMP I PIT I Density I FLOW tVOLLME ISTROk~SIDISPLAC~M~IqT~ TOTAL I PRES I PRES I VOL I IN OUT I IN I PUMPED [ MUD DEPI~ I GAS t PRES 800 1600 ~ ~* x ~* x ~* x ** x ~ * x ~ * x ~* x ~ * x ~* x ** x ~* x ~* x ~* x ~* x ** x ** x ** x ~* x ~* x ~* x ~* x ** x ~* x ~* x ~* x ~* x ~* x ~* x ~* x ** x ~* x ~* x ~* x ** x ** x ~* x ** x ** x ~* x ~* x ~* x ~* x ~* x ~ * x ~ ~feri~ m~ ~ ~1~. ~ * x ~ * x 2400 3200 600. ~ 8~0. ~ ~ + 0311.20 0312.21 0313 · 22 0314.23 0315.24 0316.25 0317.26 0318.27 0319.28 0320.29 0321.3~ 0322.31 0323.32 0324.33 0325.34 0326.35 0327.36 0328.37 0329.38 0330.39 0331.40 0332.41 '~333.42 0334.43 0335. ~ ~336.45 ~337.~ 0338.47 0339. ~ 03~. 49 0341.50 0342.51 0343.52 ~3~. 53 0345. ~ ~3~. 55 ~347. ~ M~8.57 ~35~. 59 ~352. ~ ~353. ~ 0354.02 ~355. ~3 ~3~. ~ psi l psi l bbl I lb/gal ~gal/mil gal I I I I I I I I ¥ .... -+ ...... --+ ..... ---~ ~ .... ---+___-----+ ...... -~ o I 11o 801 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 I 120 803 120 802 120 802 170 170 8~1 16~ 800 140 801 150 800 150 800 130 801 80 800 80 800 90 799 9~ 8~ 90 799 110 800 110 7~ 1~ 798 1~ 798 ~ 798 ~ 799 ~ 798 ~ 798 ~ 799 130 799 120 797 1~ 798 110 796 1~ 798 1~ 797 1~ 797 70 795 80 7~ 70 798 1~ 797 1~ 796 70 797 ~ 7~ 1~ 775 1~ 772 110 767 ~ 762 1~ 759 12.5 12.5 12.5 12.5 0.00 12.5 0.00 12.5 0. I~IZI 12.5 0.00 12.5 0.00 12.5 12.5 0.£~ 12.5 12.5 12.5 M.~ 12.5 ~.~ 12,5 ~.~ 12.5 12.5 12.5 ~.~ 12.5 12.5 M.~ 12.5 ~,~ 12.5 12.5 ~.~ 12.5 12.5 12.5 ~.~ 12.5 M.~ 12.5 M.~ 12.5 ~.~ 12.5 ~.~ 12.5 ~.~ 12.5 ~.~ 12.5 ~.~ 12.5 12.5 0.~ 12.5 M.~ 12.5 ~.~ 12.5 ~.~ 12.5 M.~ 10.0 !M.M ~.~ 1M.D l~.O ~.~ 10.0 ~.~ 10.~ 0 -1 -1 -1 0 0 -1 -1 -1 0 -1 0 0 -1 0 -1 -1 0 -1 0 0 -1 -1 -1 -1 0 0 0 -1 0 -1 0 -1 -1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 I 0357.05 I 0 I 260 I 747 I 1c.~ ~ ~3~.z6 I ~1 3001 748 I 10.~ + ~- .... __+_~__+___~_+ o.~! o! ~! ~.c~l o I o I o I ~ .... -+-- ..... --+-------+ ft 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.~ 0.0 0.~ 0.0 o.~ IT 0.~ IT 0.0~ IT 0.00 IT o.~ IT 0.o~ IT 0.~ IT 0.~ IT e.~ IT ~.~ IT e.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT e.~ IT ~.~ IT ~.~ IT 0.~ IT ~.~e IT ~.ee IT ~.~ IT e.~ IT 0.~ IT 0.~ IT ~.~ IT ~.~ IT 0.~ IT ~.~ IT ~.~ IT o.~ IT 0.~ IT ~.~ IT I I O.~IT MCC TB%B ?~26 ?~ELIEF WELL #1 E~.~ta Printed at time g3:58 Data Pecorded at time 03:56 TOT GAS (~), CASI/{G PRES (+), PLMP PRES (*), PIT VOL (x) I TIME I CASING I P~,m I PIT I I VOL 3~ 600 9~0 1200 I I PRES I PRES I VOL I ~PRES 800 1600 2400 3200 I ht~m.ss I psi I psi I bbl I + ~ + ~ + ~ ...... -+ ...... -+ ..... .~ * x I 0359.07 I 0 I 280 I 745 1 Begin displacing cement through drillstring with 10.0 ~ mu~. 0400. ~8 0401.09 04~2.10 0403.11 ~404.12 0405.13 0416.14 04~7.15 0408.16 0409.17 0410.18 0411.19 0412.20 0413.21 0414.22 0415.23 ~ 0416.24 0418.26 0419.27 0420.28 0421.29 0422.30 0423.31 ,,342~. 22 0425.33 ~426.34 0427.35 0428.26 0429.37 043D. 38 g431.39 0432.40 0433.41 0434.42 0435.43 ~436.44 slurry. 0 0 3g 30 10 10 10 10 !0 410 27g 130 12D 90 110 180 743 6g 743 50 744 10 742 20 744 20 743 20 741 20 738 20 738 20 738 20 738 20 737 20 737 20 738 20 737 20 738 20 737 20 737 20 733 2g 727 2g 726 20 727 2~ 727 20 726 2~ 726 20 725 20 725 20 724 20 721 20 718 2g 712 2~ 711 20 713 2g 713 20 712 20 711 20 709 x x x x x x x x x x Ccmpleted cement job and cleaning up. x x x x x x x x x x x x x x x x x x x x x x x x x x cc~pl~i~ of job 8956 sacks of cement yeilding 1693 bbl pump pressure ~hile mixing ~s 55~ psi. p~p pressure ~hile displaceing %~s 360 psi. x x x x D~te Jul 7 '88 Date Jul 7 '88 7------+ ...... -+ ...... -~ ~- ..... -+ Density ~ FLC~ IVOLL~E ISIS~KESIDISPLAC~M~qTI TOTAL I IN OUT I IN I PL~4PED I I ~q3D DEFfH I GAS I lb/gal Igal/mil gall ! ft I unitl ~. ..... -+ ...... -+ ..... -+- .......... -+ ..... ----+ le. eo.~ I ~ I o I o I 0.~ I o.~ IT 10.0 ~;.00 10.0 0.00 10.0 10.0 10.0 ~.~ 10.0 0.00 10.0 0.00 10.0 10.0 0.00 10.0 0.00 -1 -1 0 -1 0 0 -I 12 103 6 -1 -1 -1 -1 49 7 2 117 63 3 0 0 -1 -1 -1 -1 -1 46 13 57 3 -1 -1 0 0 20 144 144 144 144 144 144 144 194 194 199 334 408 408 408 408 408 408 408 498 408 453 533 533 533 533 533 533 533 0 0 0 0 0 4 29 29 29 29 29 29 29 39 39 40 67 82 82 82 82 82 82 82 82 82 91 94 1~7 107 107 107 107 107 107 10.0 0.00 10.0 0.00 10.0 10.0 0.~ 10.0 0.00 10.0 10.0 ~.~ 10.0 10.0 10.0 0.~ 10.0 10.0 ~.~ 10.0 10.0 0.~ 10.0 10.0 10.0 0.~ 10.0 ~.~ 10.0 0.~ I 04~7.45 I 1~ I 2~ I 7~7 t1~.~ ~.~ I -1 I 533 I 107 l ! a438.~6 I l~ I 29 I 7~ I ~.0 ~.~ I -~ I 533 I 1~ I 1~39.~7 I 8~ I 20 I 7~ I ~.~.~ ! -~ ~ ~33 I ~ ~ i ~.~ I S~ I 2~ ! ~ I m.~.~ I -Z ~ 53~ ~ z~7 I I 0~!.49 I 8~ I 2~ ! 71'3 ~ ~O.C e.ce I -z ~ 522 ; ~ I 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.1~ 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 ~.O 0.0 I 0.00 IT 0.00 IT 0.0~ IT ~.~ IT 0.~ IT 0.00 IT 0.00 IT ~.00 IT ~.~ IT a.~ IT ~.~ IT a.~ IT 0.~ IT ~.~ IT ~.~ IT ~.~ IT 0.00 IT a.~ IT ~.~ IT .5~ 1T .~ IT .50 IT .5~ IT .~ IT .~ IT .5~ tT ~.~ IT .5~ IT ~.~ IT .~ IT ~.~ IT I I I I a.~lT I' I .a.C~ IT I ~.~IT ~---~ b'10C 'iJ3Ug M26 ~i.~ ;iELL ;1 CAS (g), G'~ING PFd~S (+}, PLDI? PPiS (*), PIT ~DL (x) 90D 12~ I PRES 8~ 16~D 24~D 3200 2~0.00 400.00 6D0. DD 8D0. g0 ~ .......... --+ + ~ I bleu. ss I psi I 122~. 57 1221.58 1222.59 1224.D~ 1225.D1 1226.~2 0 1228.04 iD 1229· 05 1233.06 1231.67 0 1232.~8 1233.09 ~ 1234.10 0 1236.12 O 1237.13 ID 1238.14 0 1239.15 I 0 1240.16 0 1241.17 0 1242.18 0 1244.2'D 0 1245.21 1247.23 1248.24 iD 1249.25 125~. 26 1251.27 0 1252.28 iD 1253· 29 0 1254.2(3 1255.31 1256.32 1257· 33 0 1258.34 1259.35 1300.26 13C.1.37 1302.38 4 Pulled five stands (to 1723 feet), circulate battens up, prior to l~k-off ~ i 13~3.39 ~ ~ 1304.40 ~ ~ 13~5.41 ~ ~ 1336.42 ~* i 1337.42 ~ * t 13:m.~ ~ :1:].309.~5 t: !51]_. 47 test. Lknta Printed at time 12:45 F~q~e Jul 8 '88 Data Recorded at time 12:19 Data Jul ....... --+ ...... --+ ..........--4- ..... -+ ....... -+ ....... --~ ~- ...... -+ PL~-'IP I PiT D~nsity I FLLW IVOLU%iE ISTROIq~SIDISPLACTM~.'Ufl PPiS I VOL AN o~ I m I~,t~PED I I term DEPI~{ I cas 1 psi l bb± lb/gal IgC/mil gaZl I ft I un/ti I I I I I ! I ....... -+ ........ -+ ..... --+ ...... -+ ...... -~ 230 200 2D 2[3 20 10 10 10 ID iD 20 iD 10 10 10 iD 10 10 20 30 250 37g 350 35~ 350 35~ ~5~ 35~ 35g 34D 340 20 D 20 0 iD ~3 iD iD 49 4O 180 0 ,.. ~ ....... --~ ........ -~ ....... 239~ 2402 2409 2419 2418 2420 2432 2429 2429 2426 2423 2423 2413 2401 2399 2400 2401 24D3 2402 2404 24~3 2403 2403 2399 2390 2388 2385 2382 2384 2385 2383 2385 2383 2379 2375 2376 2378 2386 29Z 3O0 303 37 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O 41 157 270 36~ 388 386 389 386 392 392 393 393 393 37~ 35 58~76 10~57 50384 10119 50698 10182 50708 10184 56768 10184 50738 10184 507~8 10184 507~8 10184 507~8 lg184 50708 10184 5~7~8 1~184 50708 lg184 597~3 lg184 5~708 10184 50708 10184 5~7~8 10184 5~7~8 10184 5~7~8 10184 50708 10184 50708 10184 50708 10184 5~7M8 10184 537~8 10184 50748 10192 5'0922 10227 51196 1~282 515,59 10357 51972 1~438 52371 10518 52769 10598 53172 15679 53575 1~76~ 53979 10841 54387 13923 5 479(~ 1 lgg4 55198 11086 55567 1116~ 55567 !116~ 0.C 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.D 0.~ 0.0 0.~ 0.0 0.~ 4. ~O 5.ZM 5.50 6.~J~ 5.50 · 50 0.gO D.00 0.~ 0.00 0.00 0.06 0.00 0.00 O.Z~ O.Wd 0.00 0.0f~ 0.00 ~.CO O.DO 0.00 1.rD 4.50 5.50 6.~ 6.00- 6.30 6.00 5.5~ 5.50 6. gO 6.C0 6.~D 2384 I 10. C 0.~ 2383 I 10.Z C.¢O 2332 I IZ.C D.g~ 2385 I 1~.~. 0.DM 2385 ! lS.~ C.C~ 238£~ I 10.C g.L~ 2380 I 1Z.P O.CM 23~4 ! 1U.C g.£~ 2282 ! !E.C G.~ t 55567 I 1116[~ I 0.~ I 55567 I 11160 I ~.~ I 55567 11116o I 0.0 ] 55567 I 1116~ I ~.¢ 55567 ] li16U I O.C 56 [ 55622 ~ 11171 ~ ~.~ 25 ~ 55~Z I 11179 I 5566] ~ 11179 55~! [ 11179 ~ ~.~ IT IT IT IT IT IT IT 1T IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT IT !T IT IT IT IT IT IT I 4.zz IT ~. 5o IT 3.5~ IT 3.~0 I? 2.5o I? 2.55 I'~ TOT GAS (J), CASING PRES (+), Pb/~P PRES (*), PiT VOL (x) I VOL 300 6~D 980 1280 IPRES 8~0 160'D 24D0 32~3 I PRES I PRES [ VOL l~m.ss I ~i I psi l bbl I I I 5-~ta ~rintcd at time 12.11 E~:itc Jul S F~ta Re.corde~ at time 13311 ~te Jul ~nsity ~ ~; ~VO~',~ ~ST~I~S ~/gal ~ gal/mi ~ gal ~ + ....... ~ ....... ~ ....... 1312.48 1313.49 1314.511 1315.51 1316.52 1317.53 131s. 54 :s39.55 1320.56 1321.57 1322. ~ 1323.59 1325. ~ 1325.31 J 1326.~2 1326.33 1327. ~4 1327.35 1328. ~6 1328.37 j 1329.~ 1329.39 1330.1~ J 133~.41 1331.12 1331.43 1332.14 1332.45 1333.16 1333.47 1334.49 33~5.~ 1335.51 1336.22 1336.53 1337.24 :s~7.55 1338.26 3338.57 1339.20 t34~.~1 1341.32 1342.~3 1342.34 1343. C5 0 0 0 110 170 218 230 238 230 268 278 230 180 150 200 24g 25e 9~ 68 50 20 20 30 110 15g !78 190 19~ 190 14~ 7~ 3-0 3e 2~84 2383 2383 2381 2383 2383 2385 2386 2384 2383 2383 2385 2386 2383 2384 2385 2384 2383 2384 2383 2382 2381 2379 2381 2379 2379 2375 2377 237~3 2377 2375 2375 2372 2372 2369 237~ 2369 2375 2378 2383 2384 2386 2386 2387 2386 2386 2386 2~86 10.~ g. CG 0 55661 11179 iO.C 0.C0 O 55661 11179 10.~ 0.08 0 55661 11179 iO.C g. CO -1 55661 11179 1C.G ~.C~ 0 55661 11179 10.~ g. gO -1 55661 11179 lg.~ 0.0g g 55661 11179 lg.g ~.L~ -1 55661 11179 1~.~ ~.g~ -1 55661 11179 10.~ ~.~ -1 55661 11179 lg.~ O.f~O -1 55661 11179 10.g O.~ -1 55661 11179 10. g g.~ -1 55661 11179 10.0 ~.~g -1 55661 11179 lg.g ~.Lq~ -1 55661 11179 10.g 0.~0 -1 55661 11179 10.g ~.g0 -1 55661 11179 l~.g ~.~ -1 55661 11179 lg.0 0.00 -1 55661 11179 lg.g ~.00 0 55661 11179 lg.g g.g~ -1 55661 11179 10.g g.Zg.} -1 55661 11179 10.g g.g~ I -i 55661 11179 10.0 ~.00 I -1 55661 11179 10.C 0.~ [ -1 55661 11179 l~.g g.~ I -~ 55661 11179 10.g g. Og I -1 55661 11179 10.0 ~.~ ~ -1 55661 11179 1~.~ ~.~ -1 55661 11179 lg.C g. CO -1 55661 11179 10.G g. CO -1 55661 11179 l~.g ~.Og -1 55661 11179 lg.G U.~O -1 55661 11179 10.~ g.~0 -1 55661 11179 lO.~ g. g0 ~ 55661 11179 lO.C 0.£~ -1 55661 11179 10.0 O.C~ -1 556~l 11179 lg.~ ~.L~ -1 55661 11179 lO.g 0.00 -1 55661 11179 10.~ ~.~ --1 55661 11179 I~.C g.C~ -1 55661 11179 lg.C C.C~ -1 55661 11179 10.C g.~ -1 55661 11179 IO.C C.C~ -1 55661 11179 i~.C ~.CO -1 55661 11179 1D.C ~.C~ -1 55661 11179 lt].C ~.~.: -1 55061 11179 i~.C ~.CG -i 55661 11179 ----~ .......... --4- ..... --~- ..... ~ ........ DISPLAC~4~-~T I TOTAL MUD DEPTH ft 0.0 0.0 0.0 0.0 0.0 0.0 0.~ 0.0 0.0 0.~ 0.0 0.0 0.0 0.0 CI.~ 0.0 0.0 0.0 0.0 0.~ 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 O.g 0.C 0. C, 0.0 0.0 O.C O.f' 0.~ O.C 0.? O.P 3.e0 IT 3.C0 IT 3.oz IT 2.50 IT 2.50 IT 2.50 IT 2.~ IT 2.s~ 1T 1.5~ IT 1.50 tT 1.50 IT 1.~0 IT 1.5~ IT 1.50 1T 1.50 IT 2.00 IT 1.58 IT 1.50 IT 1.5o IT :.~ I~ .5~ IT .5~ IT .5~ ~e .5Z IT .5~ IT .SZ IT .50 IT .5~ IT .50 IT .50 IT .5~ IT .5o IT .5~ le .5c ~T .5Z IT .5S IT .5Z IT .50 DOT CAS (~), CASI~,X] PRES (+), FL[MP PPiS (*), PIT ~DL (x) I VOL 300 6~ ~ 12~ P~ ~ 160~ 2~0 3200 ~pl~ ~tc~riW test %~ s~e ledge. TIME I CA~S ZNG I PU4P I tflran.ss I psi I FSi 1343.26 1344.07 1344.38 1345.09 1345.4~ 1346.11 1346.42 1347.13 1347.44 1348.15 1348.46 1349.17 1349.48 135~. 19 135~3.50 1351.21 1351.52 1352.23 1352.55. 1353.55 1354.56 i355.57 1356.58 1357.59 i359.00 i400. ¢i i4~i.o2 i4~2.o3 i~5.~6 i~8.~9 1410.11 i4n. i2 i4i2. i3 i4i3. i4 i4i4. i5 14i5.16 i4i6. i7 14i7.18 i4is. i9 i~ig.m 1421.22 38 3~ 3,3 20 20 0 0 0 0 0 0 0 0 6~ 250 23~ 4~ 40 40 40 4~ 40 4~ 40 40 ~ta Printc~] at tLme Dmt,~ Pecord~] at time Density IN OUT ~/~ 2384 23}~4 2387 2387 2388 2386 2391 239~ 2389 2389 239~ 2389 2386 2387 239~ 2388 2387 2388 2388 2386 2386 2383 238~ 238~ 2383 2384 2386 2385 2385 2388 2385 2388 2387 2389 2384 239c3 2389 2391 239~ 2388 2386 2385 23-82 2383 2388 237~ l~.Z g.~0 10.0 0.~0 10.0 ~.Z0 10.Z 0. L~3 10.0 0,00 10,0 0, C~ 10.,0 0,~ 10.g g, 00 10,~ g,OO lg.M g.0g lg.~ O,C~ lO,~ O,~ l~.D ~.ZO lO,C 0,~ lS.C ~.C~ i0,~ M.~ 1M,C O,C~ 10,0 10,Z D,~D 10,~ 0,~ lO,D D,~ 1D,f ID.Z D.C~ 1D,D O. CM 1D, C O,C~ IO, M 0,~ lO.C IO.C C. CO 13:43 D~te Jul 8 13:42 t~te Jul 8 ~--'---+ .... '--+ ........ -4 + ....... --+ I Fta~ IVOLUYm lST~KESIDZSPL~CmnVrl ~TiL I I gal/mit gal I I ~- ....... -+ ...... _+ ......_~ -1 -1 -1 -1 -1 -1 -1 -1 -1 "1 -1 -1 -1 -1 -1 -1 -1 -1 -1 55661 11179 55~61 iii79 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 55661 11179 MUD DEPI~.i 0.0 0.0 0.0. 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 25 260 298 165 111 1~7 107 107 1U2 1£~ lg7 1~7 l'J7 lg7 107 106 1~6 106 1~6 55691 55970 56283 56592 56776 56886 56995 5711~ 57219 57324 57433 57548 57657 57767 57876 57986 58100 58209 58319 58428 535~8 58647 58762 55%q71 589,81 5909~ 592~ 11185 11241 11304 11366 11403 11425 11447 11470 11492 11513 11535 11558 11580 116~2 11624 11646 11669 11691 11713 11735 11757 11779 11802 , 11824 , 11846 11368 , I!69~ 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 D.0 0.0 0.0 ~3.0 l I unit l I .50 IT .50 IT .5~ IT .5~ IT .5~ I? .50 IT .50 IT .5~ 1T .50 IT .5~ iT .50 IT .5~ ]T .50 IT .50 [T .50 tT .50 IT .50 IT .50 tT .50 l? .50 IT .50 IT 0.00 IT 1.5~ [T 3.5~ IT 4.50 ]T 4.50 IT 4.gg IT 3.5~ I~ 3.5~ IT 3.50 IT 4.~ [T 3.5Z [T 3.5~ IT 3.5O IT 3.58 IT 4.~ IT 4.~0 IT 4.5~ IT 5.5~ I? 5.5~ tr 4.5~ IT 5. ~O I? mCC r£~US M26 RELIEF WELL TOT GAS (#), CASING PRES (+), PUMP PRES (*), PIT VOL (x) I VOL 500 1000 1500 2000 [PRES 800 I GAS 2~0.0 t x t x t x t x t x t x t x t x ~ x ~ x t x t x ~ x ~ x P x ~ x ~ +* x ~ + * X ~ + * X ~ + * X ~ + * X ~ + * X ~ x t x ~ x ~ x ~ x } * X } * x } * x 1600 2400 320Z 400.0 600.0 800.0 I ~ I TIME t~.ss 0841.32 0842.33 0843.34 0844.35 0845.36 0846.37 0847.38 0848.39 0849.40 0850.41 0851.42 0852.43 0853.44 0854.45 0855.46 0856.47 0857.48 0858.49 0859.50 09~0.51 0901.52 0902.53 0903.54 0904.55 0905.56 0906.57 0907.58 0908.59 0910.00 0911.01 0912.02 0913. Z3 displacement. Circulating after squeeze job at 837' wlm. x 0914.04 x 0915.05 x 0916.~6 x 0917.07 x 0918.~8 x 0919.09 x 0920.10 x C921.11 x 0922.12 x 0923.13 x 0924.1~ x ~925.15 x C926.16 x 0927.17 x ~92£.18 I I I t CASING I PRES I psi I I 0 0 0.00 0 0 0 0 0.00 0 0 30 40 180 390 430 410 270 230 230 230 10 20 0 0 0 0 0 0 Da~a Printed at time 08:~0 Date Jul 11 '88 Data ~ecorded at time 08:36 Date Jul 11 '88 I FLO,,~ VOLtl~E I STROKES J DISPLAC~ENT I TOTAL I PU~P I PRES I I I 0 0.00 0 0 0 0 0 0 0 0 0 0 0 0 30 40 310 620 660 630 430 380 390 390 20 20 0 0 60. ~ 410 410 410 PIT I VOL I bbl I ' I 545 546 546 546 548 548 547 545 547 548 547 547 546 548 547 546 548 54~ 537 530 524 52~ 515 518 516 518 517 518 519 512 511 510 0 0.00 0 0.00 0 0 0 ~.00 0 0 0 0 ., 410 420 420 410 410 420 420 400 410 410 260 360 41~ 5~ 511 515 513 513 513 513 512 513 515 513 515 51~ 513 513 514 Density IN OUT lb/gal 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10,0 10.0 10,0 10.0 10.0 10.0 10.0 10.0 10.0 10.~ 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.~ 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0, 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10,0 10.0 10,0 10.0 10.0 10.0 10.0 10.0 10,0 10.C 10.0 10.0 10.C 1~.0 10.0 10.0 10.C 10.0 10.0 10.0 10.0 1C.C 10.0 lg.C !C.0 1C.[' 1C.C. 1£.~ I~,,~ I IN Igal/mi I I 0 0 0 0 0 0 0 0 0 0 0 0 0 94 27 163 193 209 211 176 167 172 172 56 2 0 0 4 231 282 285 285 285 286 286 285 285 285 286 285 286 274 255 282 267 282 P~iPED I gal I I ,I 25 5 25 5 25 5 25 5 25 5 25 5 25 5 25 5 25 5 25 5 24.89 5 25 5 25 5 25 5 119 24 144 29 314 63 513 103 732 147 951 191 1130 227 1304 262 1484 298 1658 333 1728 347 1728 347 1728 347 1728 347 1737 349 1986 399 2280 458 2574 517 2868 576 3161 635 3460 695 3754 754 4048 813 4341 872 4640 932 4934 991 5227 1050 5526 1110 58~5 1166 5~69 1219 6358 1277 6656 1337 6940 1394 I I ' I MUD DEPTH I I I 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.~ 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 GAS I unitl I 0.0 IT 0.0 IT 0.0 IT 0.0 IT 0.0 {T 0.0 {T 0.0 {T 0.~ IT ~.0 {T 0.0 {T 0.0 {T 0.0 {T 0.0 {T 0.0 {T 0.0 IT 0.0 IT 0.0 IT 0.0 T 0.0 IT 0.0 IT B.0 IT 0.0 IT 0.~ IT 0.0 IT 0.0 IT 0.0 IT 0.~ IT 0.0 IT 0.0 IT ~.~ IT ~.B It 0.0 IT I 0.0 IT 0.0 IT 0.0 IT 0.0 IT Z.g IT 0.0 IT g.0 IT ~.0 IT ~.~ IT s.~ IT S.C IT · I j TO1 (=,,= (,,),.. 0 :,ii',.:, ::::kg (+), ?u:,4, ,:-'i:L£ (*) , i-il' t, 6L i555.23 1 ::5:. 21:~2.42 i~. ! 474 I Ii;.2 IC.3 lC-iL I 474 I ,_..~-':~' l,, 473 J 1C.2 l:~: I :73 J iS~"L' I 472 I lt:. + Puia~in9 acid . l[,:f.,: £t:. f.['L wich i-aliibu:'non unit. i.:ecorcin(3 [-~:,i i~:':.ssUru' alit, casin:3 £:'~ssu:=s on kill monitor. 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[',e 353 2¢ 3~2 fl: 242 4[;.. 342 4C, 342 8['. 342 3£ 321 VCL I bbl I I 5¢}¢ 499 499 5~i 5f:f} 5G¢ 495,4 473 474 475 475 473 475 474 ~75 473 473 ~73 473 474 474 321 .,, z'..~. 3lr 1~.2 1L..3 1~,.2 1¢.3 iC.2 1{7.3 1(3.2 1C.3 1C'.2 1('.3 1C.2 1C.3 iC.2 12:.2 I~.3 16.2 1~.3 1¢.2 1~.3 1[;.2 lf... 3 1[:.2 16.3 1¢.2 1¢.3 16.2 tC.3 16.2 1£..3 lC.2 1¢.2 1(;.3 1£.2 1C.3 lC. 2 I~3..3 1¢.2 16.3 iD.. 2 li!..3 I{;.2 1{).3 1C.2 1C.3 l[::. 2 1[:.3 1¢.2 1C.3 i~.2 1{.',.3 1C.2 1£.2 i~..2 16.3 1~.2 lC.3 1[.2 1£.2 iC.2 1{~.3 1¢.2 16.3 1[.2 lt.2 i('.2 i[,.2 !;:.2 iC.? 1P.2 1C.3 1~.2 1~.3 474 I 117.2 Ii;.2 [ 475 J 1;..2 1£%2 1 t73 I 1::.2 IC'.2 I 475 I IC.2 16.2 I ,'175 I ii 2 li:.3 I 475 ! 1~.2 i~.2 I <7?. ~ !¢.2 if.2 J <7.- I iL.2 1~.3 ~ cement out of drill ::i[.e at 03:37 hrs. -1 C -1 '1 0 r{ -1 -1 -1 ;. -1 { {- [: . -- C C C 0 C .6 D ~.: £, [; TC'iRL GAS I ~:itl 1 ~.~ l'i' r~.~ IT s.~: IT ~.6 IT ~.~ IT ~.~ IT ~.~ IT ~.~ IT .5 IT ¢.6 IT ¢.S I'~ .... ~..~ IT ~:.C IT 6.~: IT z.r, IT 5.C IT ~.~, I'~' ~.6 IT ~1 ' IT ~.[: IT I ':.~ I',' .5 !~' .5 I% .5 ~. ~: ~ - i.. T£,:L I C~SI~,~[ PU?~- I FiT I Densi'~], I £'LCb I FF:~S ! PM:S [ VOL I iN OUT hi~m~.ss ~ fsi ~ ssi [ hbl [ ib/(3~! I ! t 1 289 289 289 ',' 477 47E 476 4,7S' z'77 479 47S 477 477 47~ 478 476 477.8 478 47~ 481 482 1~.2 1£.3 10.2 1C.3 1~.2 1C.3 1~,.2 1C.3 1~.2 if'.3 i(';. 2 10.2 lf!.3 iC.2 lC.2 1~..3 16.2 !{.~. 3 I~.2 lq.3 1~'.2 1['.3 i~.2 1~.3 1~,, 2 1~.3 iq,.2 I~,3 1~.2 1~.3 10.2 1[,.3 lf.,. 2 1~.3 1~.2 I[~.3 tf:.2 1(}. 3 TC%' C~[~ (;!), (2:'Li:~C Pi~gS (+), ru~',i~- [-'~L~ (*), PIT VOL (x) VOL 5El.' if'CC PMZ [':{~C: 1,.~,..[. 2t GAg 2~ ['.f ~{;C. f: * x * x x x x x x x x x x x x x x x x x ; I I I EAS~AN CHRIS~ENSEN I~EC[)RD OF SURVEY F OR OPERATOR STRUCTU~B WBI, I, LOCAT ]~ON JOB NUMBER BEC!, INAT ION PLANE OF VERTICAL SECTION DIrECT!ON EF: 1'~t~E;TRi~':T I)RI,~..~I'NG ENGiNEERiNG M B A.':'!; U ~ B D DB IFT I) BPTH ANG.LB :0 M 0.00 0 0 301-'.>, .00 0 0 328 :, 20 0 41 348.20 i 55 ::'-~ 68. ,~"s 0 i t 488.20 2 ! 6 508.20 2 32 528.20 2 50 5 48.20 3 6 568.20 3 20 608,20 3 40 6 28 :, '" ') . :...: ~ 3 44 6'18 20 :':, 6 FR '?0 3 6.88.2.0 3 49 7r;8 ">0 :4 4,.".), 728.~-~°0 3 3 / ~ o ,'s ..-'~ ,-) 768.20 3 31 D R I F T D I k I..-] C. T I 0 N N 0 0 B N 0 0 E S 59 OW S 65 58 W S 81 4 W N 8o W N 72 34 W N 63 7 W N E,O N 56 52, W N 54 2 W P 52 52 W N 51 18 W N 49 59 W N 47 47 W N 45 26 W N 43 15 W N 42 5 W N 41 53 W N 43 25 W N 45 5! W N 45 31 W N 41 5 W N °4 N ..: 43 W o ] .:,L(.. T WELL PBI-'IL COURSE LENGTH 0.00 302.00 26.20 20.00 2. 0. () 0 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 ~0 00 °O O0 '20.00 2:0=00 '20,00 20.00 20.00 20.00 ""0 O0 :20.00 RELIEF WELL N 47 42 W TRUE ..... ICAI., E l:' T H 0.00 302.00 328.20 :348.19 368.19 o88 18 408.18 4B8.17 448.16 468.15 488.14 508.12 528.10 548.07 568.04 588.0]. 607.97 627.93 647.88 667.85 687.8! 707.76 7.~7 7,) 747.70 ~67 67 :787.62 807.56 o :~ 7 4 'Y 847.36,. ::','67 2'~ .- . DAT. B BRINTEI) OUR REP,, NO,, JOB NUMBER '2 5 '-,'.l L. I., -d <:. o,,JO0~ ., . 8MA VEBTICAL R E C T A N G U L A R SECT ION C: 0 0 R B I N A T E S 0.00 0.00 0.05 0.21 0.48 0.74 1.11 1.57 2.12 2.77 3.51 4.34 5.27 6.30 7.42 8.62 9.88 11.16 12.43 ],3.66 :[4.94 16 '~ 5 ].7 18.43 19.50 0.00 N 0.00 E 0 . 00 N 0 . 00 E 0.08 S 0.14 W 0.28 S 0.54 W 0.44 S 1.03 W 0.45 S t.40 W 0.36 S 1.83 W 0.17 S 2.28 W 0.10 N 2.78 W 0.45 N 3.34 W 0.87 N 3.95 W ]..37 N 4.62 W ]..94 N 5.36 W ') 60 N 6 16 W '3.34 N 7.00 W 4.16 N 7.87 W 5.06 N 8.75 W 6.0i N 9.63 W 6.96 N 10.48 W 7.87 N 11.32 W 8.77 N 12.::21 W 9.69 N 13.15 W :t. 0.54 N 13.96 W 11.35 N 14.59 W 1° 29 N 1.~; ].q W ..."sO.80 13.417 N 15,,87 W o.; ,:,:' 14 90 N 16 67 W 24.14 16.53 N !7.60 W 26=11 18.32 N 18.64 W · ">o '76 ':>0 °7 N lq 78 W BAGB NO. ~ DOGLEG °EVER,:., ITY 0.00 0.00 2.63 6.19 4,86 1.6 i. 48 1.44 1,32 1.40 1.36 1.37 1.54 1.39 1.3:[ 1.26 0.94 0.48 0.70 0.6° ) 1..82 0.56 3.55 2.00 3,,50 4.08 3.70 3.17 2.61 '2.67 PAGE ..... M B A S U R E D D R I F T I) R I F T DEPTH ANGLE D I'RBCT. ION D M D M SLOT WELL PBHI., COURSE LBNGTH 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20,00 2,0.00 1088,,:.2.0 17 50 N 34 59 W 20,00 ].108,'20 18 56 N 35 41 W 20.00 ,,"~ '~ i t :2 ,o..., ,, 2. C, ]. q. 56 N ,:, ~:. 2, 3 W :2 '.')., C,. 0 i:L,."~R ':30 °0 49 N 3R i'--';7 W 20 O0 1168.20 '2! 2.9 N 37 20 W 20.00 1 18 ,~:'~..:, "~<, 0 '),.., :L !=;_ ?,., N 37 ,.'~ 6 W 1208,, 2. 0 ~..,"~ ,.,':' .~,"~ 4 N 37 4,5 W 12:28.20 23 28 N 38 :L8 W i ~'~f4 '"0 ')4 5"l, N '~9 5 W !i:?,68,:.7.;0 :26 28 N 39 49 W 1 ':',88,. ..nO ,~,°'::..., 44 N 39 ~'~3. W 1408.20 34 29 N 38 37 W 1428.20 35 10 N 38 7 W !.448.::?..0 3,2, 7 N 37 48 W 1.46° '~'~ ...4 N 37 :~'~ ,: ..... t :37 '~ . ...,,., W °0 ")0 20. O0 ,:., ,,. 00 20.00 20.00 20.00 20.00 20.00 ~0 O0 20.00 20.00 20.00 20.00 20.00 20.00 RELIEF WELl.. N 47 42 W DATE PRINTED OUR REP. NO. JOB NUMBER "' 5'"' J LJL'"' 88 S 000 '~ TRUE VERT :[CAi, D E P T H VERT IC:AL oEC. T ION B B C T A N G L.! I., A R C 0 0 R I) I N A T E S 887.08 906.89 926.65 946.33 965.93 30.60 22.40 N 20.99 W 33.19 24.77 N 22.33 W 36.16 27.47 N 23.88 W 39.55 30.53 N 25.69 W 43.40 33.95 N 27.78 W 985.42 1004.80 1024.11 1043.36 1062.53 1081,62 :LlO0.60 1119.46 1138.21 1156.86 74.10 60.46 N 45.18 W 80.27 65.61 N 48.83 W 86.78 70.99 N 52.74 W 93.62 76.57 N 56.90 W 100.71 82.33 N 61,26 W 1175.44 1193.97 1'~ :1. 2,~ . 39 1230,64 i'~R 66 ~'~ "~ ~_ . . 107.98 88.19 N 65.75 W 115.40 94.15 N 70.36 W 1':'3 08 100 '" 7:,, .... ~9 N "= 16 W 131.17 106.68 N 80.28 W !39.75 113.37 N 85.79 W 1266.45 1284.04 1301.44 1318.62 1335.58 148.81 158.26 168.05 178.20 188.71 120.35 N 91.68 W 127.57 N 9'7.89 W 135.03 N ].04.34 W 142.80 N !11.00 W 150.91 N 117.84 W 1352.31 1368.87 1385.29 1401.54 1417.57 199.56 ~10 64 271 245.18 159.36 N 124.80 W 168.09 N 131.85 W /,.04 N 1°8~. .c)4_ W 186.23 N 146.10 W 195.70 N 153.42 W PA.~E NC) 0 0 G L E G OEVEBITY,,, 3.06 4.90 6.38 6.38 6.95 7.1 5.39 3.67 3.35 4.02 4.81 5.6:[ 5.08 4.56 3.42 1.91 2.71 5.41 7.28 8.1" 7.43 5.25 5.75 6.53 6.61 5.55 4.05 3.70 4.84 6.50 CONTJ:NU]:D ON NEXT PAGE ..... M B A S Lt R F, 0 D R I Y T I) B P T H A N G L B D M 1488.20 38 46 1508.20 39 59 !528.20 40 56 1548.20 41 31 1568.~0 41 46 ,.,~. ,.,. 20 4 i 52 1608,20 41 54 16:28.20 42 5 t 648,20 42 ~3 1668,20 42 40 1688.2.0 42 53 i708 ')0 a') 59 1728.20 42 56 1748,20 42 49 1768 "~0 4o 43 1788.20 42:39 !808,, ;::0 42. 2.? 1828,20 42 26 i 848 ~ ;:0 4.':.i),. 38 1868.20 42 4]. 1888,2,0 42 14 1908.20 41 59 1928,20 41 50 ]. 948.20 42 7 ].g6° 20 4:~ °7 DR IFT I) iRECT ION D M N 37 14 W N 37 1:1, W N 37 16 W N 37 29 W N 38 3 W N 40 ii W N 40 '"'~,,3 W N 40 25 W N 40 :.31 W N 40 32 W N 40 31 W N 40 17 W N 40 26 W N 40 45 W N 41 57 W N 41 55 W N 41 59 W N 42 i W N 4° '°)4 W N 4o.~ 46 W S I., 0 T WELL PBHL COURSE LENGTH 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20. O0 20.00 20. O0 20.00 20.00 20.00 20. O0 20.00 20.00 20.00 20.00 20.00 20.00 20.00 ~>0 O0 .:'.~ . 20.00 20.00 °O O0 20.00 '"' 0~ . O0 ~ t I.EL:[EF WELL N 47 42 W TRUE VERT :[(:Al, D E P T I"1 t433.3I 1448.77 1463.98 1479.03 1493.97 :1,508.88 1523.77 :1, 538.64 1553,44 1568.18 :1, 582,86 1597.51 1612.14 1626.80 1641.48 :1, 656.18 :1, 670.92 1685.68 1700.41 17 t 5.12 ].744.72 1'759.60 1774.47 1 ~"8q 180'~ 93 ].818.55 1833.].6 ], 847.77 1862.38 IJAI.,: PR INTEl:: OUR REF. NO. : JOB NUMBER '.' 25-'JUL-'88 S 000. ,.~,') ";'. 8 M A V E R T I C A L SECT ION R E C. T A N G U L A B C 0 0 R D I N A T E S ,257,31 269.79 282.55 295.52 308.60 321..76 334.97 348 o 361.53 374.92 388.38 401.89 415.41 428.91 442,39 455.84 469.25 482.64 496.06 509.52 522.96 536.30 549,59 562.91 576.33 589.86 603.45 6!7.05 630,65 644.24 205,50 N 160.90 W 2],5.61 N :1,68.58 W 225,95 N 176.43 W 236.42 N 184.43 W 246.92 N 192.57 W 257.36 N 200,86 W 267.71 N 209,30 W 278.03 N 2:1.7.82 W 288.37 N 226.41 W °98 74 N 2:45 08 W 309,13 N 243.82 W 3 ]. 9 '=' ':~ "~ '=: ''~ .,;.,.. N 63 W 329.91 N 26]..47 W 340.26 N 270.30 W 350.58 N 279.1B W 360.89 N 287.94 W 371.19 N 296,70 W 381.47 N 305.45 W 391.'73 N 314.24 W 401.91 N 323.20 W 411.95 N 332.22 W 421.92 N 341.].8 W 431.85 N 350,12 W 44]..76 N 359.11 W 45!.68 N 368.23 W 461.67 N 377.44 W 471.72 N 386.67 W 481.79 N 395.89 W 491.88 N 405.10 W 501.98 N 414.28 W PAGE NO. DOGLEG SEVER ITY 6.86 6.15 4.76 2.94 2.27 2.8 i. 88 1.10 :1,, 58 1.57 :1,. 29 0.85 0.69 0.50 0.36 I .27 0.52 1.45 4.0c 2.30 1.27 0.76 1.89 2.84 1.73 0.81 0.44 0 ,, 32 0.4]. C(:.tNT!NUt::i-,~ ON NEXT PAGE ...... MABA%HON 0~'i., COMPANY C 00 K I N i.. I.:: 'Y ,. A i., A S; K A SLOT WBI.,L PBHL BAI'B ?BIN3.'BD ,', gS-JUL-88 OLIB, BB.~-' NO ' .-q 0 '~ ..... · :.0 0.~7 . 8MA ;.lOB NLJMBBB AGE NO, M B A .'.':., J B, ~'.-', 0 '.R ii; Ii' % D R .t..F." .r C 0 U R $ B '.r I'< U B i)iE{I:".I; H ANGI. B Ii II;:..r= C'I' ION Li{~NG'I;H V ][=',I(: I'. ICAI., 1] M D H I) E P 3; !.-t VBR'.I: ICAL SBC'S ION R B C T A N G U I., A B C 0 0 B, I) I N A 'S E S DOGI.,BG SEVERITY 2188.20 45 !4 N 42 25. W 2208,20 45 26 N 42 20 W 2228.20 45 34 N 42 14 W 2248,,20 45 52 N 42 15 W 2268.00 46 2 N 42 14 W 20,00 1876.96 20,, 00 1891. i78 20,00 1905,65 20.00 1919.86 20.00 1934,04 20.00 1948.17 20.00 1962.22 20.00 1976.24 20,00 1990,21 19.80 2003.98 857.88 512.11 N 423.50 W 671.68 522.31 N 432.88 W 685,64 532,61 N 442.38 W 699.68 542.96 N 451.9]. W 713.70 553.37 N 461.44 W 727.80 563.82 N 470.99 W 741,96 574.317 N 480,58 W 756.16 584.88 N 490.18 W 770.42 595.48 N 499.80 W 784.58 606.01 N 509.37 W 1.83 4.78 1.57 1.06 0,49 I. 7 0.99 0.72 1.50 0.86 · ,,~,,,,..,, 0 46 1]. N 42 18 W 2310,00 46 11 N 43 ].8 W '7.30 '2009.04 34.70 2033.06 2.17 0.0 0 CLOSURE - DISTANC~ : 821.92 DIRECTION : N 40 8 W REPORT UNITS : Eeet SURVEY CALCULATION METHOD : Minimum curvature SUBVBY BUN :[N~'OBMA'i'ION SCHI.,LtMBBBGE'B GC'S. SURVEY ('SOOL HAND B Ic. t.:,~Z [:BOM BES'I) ASSUME VERTICAL EBOM BKB (+97' MgL) 'I'0 NUDLINE 8 302' OPEN HO!.,~ SONIC ~YBE C~NTBALIZ~BS USED. I'HB~E l:~ 3/8" CASING PROM 30° ~'0 9()7'~ 9 ~,,." LINER 907' 370 1800 ~'T,, 8 ]./?~. ~., OPEN HOLE ~'BOM 1°00,., '~0 .,~'~o83.~ .s'~ =,'~':!0'~, . SUBVRY'.,~ PRO3ECTED RECORD O~ SURVEY STRUCTUi~B : STBBLHBAD PLAT.FOP, M :~.: WBLL : ~BLIBF S-T~ACK SLOT : :~ :~ LOCAl;ION : COOK :[NI.,BT~ ALASKA :k BOB NUMBEI~ : A RIG : ~ DECLINATION : 0.00 E ~ PLANB OF ~B~TICAL SBCTION ~ DIRECTION : N 47 42 W ~ EC ~'~!STR][CT ' D?,iLLING ENGINEERING ~:, ~ .t~ .:, LH t~.~ A D COOK INi.~<'¥. ALASKA DBP];H ANGI..B D M 0.00 0 0 302 . 00 0 0 :32, 8 . 20 0 4 ], 348.20 ,1. 55 368.20 ] I :B 88.20 1 10 408. :'.:30 1 '20 ,t '2, 8..20 1 30 448.20 1 45 468 ,, ;20 '2 1 4 ~. o. ~', ,.~ ,~ 16 508, :20 2 32 52,8.20 2, 50 548.20 3 G 568.20 3 20 588.20 3 32 608,20 3 40 628.20 3 44 648.20 3 35 GG8 20 '~ o9 ,': c:, .q ':' 0 "-> 4 ii 708. %'0 :3 43 748.'20 '2 50 768~.<,'"0 3 3] D I .!-.'~ B C .T I 0 N N 0 0 E N 0 0 E S 59 0 W S 65 58 W S 81 4 W N 83 47 W N 72 34 W N 63 7 W N 60 2 W N 56 52 W N 54 2 W N 52 52 W N 51 18 W N 49 59 W N 47 47 W N 45 26 W N 43 15 W N 4::?, 5 W N 4 ] 53 W N 43 ?.5 W N 45 5]. W N 45 31 W N 4] 5 W N 3,4 :27 W N 30 43 W N 29 9 W N 33 20 W N 34 34 W N 36 8 W WELL ?BHL C 0 U B S B I,,B N G'.~: H 0.00 302.00 26.20 20.00 i:10.00 20.00 ~0 ,, 0(5 20.00 20. O0 20.00 ~0.00 20.00 20.00 · '~0 O0 20.00 20.00 20.00 20.00 20.00 '.,-':: 0.00 20.00 20.00 20.00 20.00 '~0 O0 20.00 20.00 t7.80 ';0 Ao 20.00 BBl.. ]:El:: S-'i'RACI.,' N 47 42 W I)Al~E PR IN']~BD OUR RE~. NO. JOB NUMBER TRUE VBR:F lC:AL D E B '.l: I.-t ER ~ ICAL S B C ']: I 0 N '25 - J U L ..-. 88 $00014.8MA 0.00 302.00 328.20 348.19 368.19 0,00 0.00 0,05 0.21 0.46 R E C '1' A N G U L A B C 0 0 B D I N A .T B S 388.18 408.18 428.17 448,16 468.15 0.74 1,11 1.57 2.12 2.77 . 0. O. 0. 0. 488.14 508.12 528.10 548.07 568.04 588.01 607.97 6~7.93 647.88 667.85 3,51 4.34 5.27 6.30 7.42 8.62 9.88 ].1.16 12.43 13.66 0 . 0. O. O. O. 00 N 0 ,, 00 B 00 N 0.00 E 08 S 0.14 W 28 S 0.54 W 44 S 1.03 W 68'7 707.76 727.73 747.70 767.67 14.94 16.25 17.42 18.43 19.50 787.62 807.56 845.02 864.74 20.80 '~'~ 35 24.28 '27.15 30.42 0.87 N 3,95 W :L.37 N 4.62 W 1.94 N 5,36 W 2.60 N 6.16 W 3,34 N 7.00 W 4.16 N 7.87 W 5.06 N 8.75 W 6.01 N 9.63 W 6.96 N 10,48 W 7.87 N 11.32 W 8.77 N :L2.2:L W 9.69 N 13.15 W 10.54 N 13.96 W 11.35 N 14.59 W 12.29 N 15,19 W 13. 14. 16. 19. 21. 47 N 15.87 W 90 N 16.67 W 60 N 17.7~ W 05 N 19,37 W 78 N ~1.31 W PAGE NO,, .'C 0 b L B ~:J SEVER I.TY 0.00 0.00 2.63 6.19 4.86 :L. 48 1.44 1.32 1.40 1,36 1.37 1,54 1.39 ]..31 0.94 0.48 0.70 O.G' 1.82 0.56 3.55 2.00 3.50 4.08 3.70 15.86 6,51 5.17 CONTINUED ON NBX'.I~ PAGE ..... MARATHON OIL COMPA STEBLH~AO PLATPORM COOK IN!.F]',, ALASKA NY 886.00 )] 8 N 37 45 W 906.00 12 14 N 39 1! W 926.00 )3 25 N 40 t2 W 946.00 .t. 4 ,4t N 40 51 W 966.00 16 8 N 4:!, 44 W 986,,0,;) 17 49 N 4d ') W ].006.00 19 43 N 44 29 W ].026.00 21 45 N 45 47 W ].046,,00. ~.').,° ~:;..4 N 46 44 W 1066.00 26 9 N 47 !6 W 1086.00 28 30 N 47 6 W 1106.00 30 49 N 46 23 W !12E,.00 33 6 N 45 32 W 1146.00 35 19 N 45 0 W 1165.00 37 28 N 44 49 W 1186.00 3cj '24 N 45 29 W 1206.00 41 211 N 46 16 W 1226.00 43 22 N ..4.7 5 W 1246.00 45 39 N 47 35 W 1266.00 47 58 N .47 46 W 1 '''~°6 oO 4c'~ q~ N 4'-* 5] W 1306.,00 50 49 N 47 5:3 W 1326.00 5) 40 N 48 7 W 1346~00 52 38 N 4.9 23 W ..... ... N 4° ..... .> 4'" W S L 0 T WELl. PBHL C 0 U R S E L B N G ]! l--I 20.00 20. O0 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20 ,, 00 °O 00 '"~0 00 .-.'.~ ,, 20.00 20.00 20.00 20.00 20.00 ~:':'0 . O0 20.00 20.00 16.70 20.30 10° O0 3,1.00 3 ].. 0 0 ,:, I . 00 REL :I: E l:' ~'' ... ~.~ .... TRACK N 47 42 W DATF.. PRINTED :: OtJR BEE. NO. : JOB NUHBBR :: 25 .... JUI.,-88 S00014.8MA T R U E V E R T :11 [:: A L rJ E B ':f H VERTICAl.. ·., .. ~, c.,.., B C I ICI N R E C T A N G tJ I., A R C fl) 0 B .0 I N A T B S 884.40 903.98 923.48 942.88 962.17 34 38 42 47 52 .04 .04 .44 .25 .53 24.73 N 23.53 W 27.89 N 26.05 W 31.3i N 28.,89 W 35.00 N 32.04 W 138.99 N 35.,55 W 981.29 1000.23 1018.93 :[ 037 ~. 37 1055.49 58 64 71 '79 88 .34 .76 .84 .59 .05 43..30 N 39.49 W 47.94 N 43.94 W 52.93 N 48.96 W 58.30 N 54.,57 W 64.06 N 60.76 W 10713.25 1090.63 1107.60 1124.14 1140.24 97 107 117 128 140 .23 .11.3 .71 .94 .79 70.30 N 67.49 W 77.09 N 74.69 W 84.45 N 82.30 W 92.36 N 90.29 W 100.77 N 98.66 W 1155.90 1171.14 i 185.92 1200.18 1213.87 153 166 179 193 208 .21 .16 .63 .65 .23 109.53 N 107.48 W 118.55 N 116.78 W 127..79 N 126.58 W ..... .,6.89 W ]. 37 ,::, c) N 1 ':': 147.11 N 147.67 W 1 o 2'7 ~) ~ 1239.86 1252.38 1264.65 1"~74--. . 63 254 270 .27 .63 .02 .41 157.21 N 158.82 W 167.51 N 170.22 W 177.93 N 181.82 W !88.45 N 193.60 W 197.31 N 203.63 W 1286.45 134° 69 1360.27 1376.38 1392.37 299 386 415 441 468 .90 .15 .24 .72 .25 208.14 N 216.09 W 264 c)~ N ~aO 98 W 284.14 N 302.87 W 3()1.~ N 3°0 06 W 318.29 N 343.47 W PAGE NO,, DOGLEG · ,~, .'.;~ E ,BI ITY 5.17 5.69 6.01 6.40 7.34 8.6: 9.79 10.40 10.91 11.31L 11.76 11.74 11.62 1 ]..20 10.71 9.93 10.07 10.47 11.53 11.6 7.96 6.27 4.34 4.96 8.05 4.78 4.16 2.67 1.93 1.96 CONI'INLIBD ON NEXZ PAGE MABATHON OIL COMBANY ~::.[E.:.LHEAD PLA..BORM C:OOK i N I, I.:.: .~; AL, A.. oLOT ~ I. AiE PRINTED "~: , ,.,,: JUL-8~., WBLL : REI.,IEI'? S-TRACK OUB BEF, NO,, : S00014.8MA PBHL : N 47 42 W ,'.lOB NUMBEB ',: MBASURB!) OB !FT OR iFT COURSE TRUE V !~.~B T tCAL "~ ....... S I) B !:' it: H ~.~ N .:~ I, b I) I B B C T I 0 iq L B N G 'J: H V E R ii' I C. A ii., iS C T I 0 N B E C T A N G U L A B C: 0 0 B 9 I N A T E S PAGE NO. 4 I) 0 P~ L E G SEVERITY 1611.00 60 42 N 49 42 W 1850.50 60 il. 2 N 46 47 W 1 a'=;'-:, 0,"~ 60 ]. 2 N 4 B 47 W 29.00. ].406.. ,..,o,:.i ....4 c."~,.. 33. 334 ~ 4]. N 1362 .7]. W ':~39 5(') t 5''~' 3 "'~ · . ,..,,~ u3 /.:)1.63 47:3.14 N ~=' ........ .,18.:i. 1 W 8.50 1529.25 '709.01 478.19 N 523,,48 W 5.58 1.08 0 ,, 03 CLOSU~B - [IISI'ANC£ : 709.01 [I II{BCTION : N 47 35 W R£POBT UNITS : ~eet SUBVE¥ 'CALCULATION M~THOD : Minimum curvature SURVEY BUN INFOBMA.T:[ON ASS~JNBI) VBI~TICAL ':f:O HUI)LINE AT 302' SCHLLJMBEBGEB GCT SURVEY ~:ROM ORIGINAI., HOLE 328'-808 SCI-ILUMB~RGBR aCT SURVBY IN SIDBTI~ACK ]:Ei.,ECO SLJBVBYS 1383'-1611' PI~OJBC'I:B[~ FI?OM 1611'-1859' TO HIT M .... 26 AT 1525' TVD 3~00 .... 6~00 _ 9!oo. _ 1~200 _ 1 !5.0.0 _ 2il OQ. · 2!400 ..... ~00 I I I I~R. ATHON OI!L COMPANy oTEELHEAD iPLATFORM COOK I NLETi, ALASKA 0 :~00 6OO 900 I 1200 I il IlL , ~ I I I I I I VERTICAL PROJECTION PLANE: OF PROJECTION N 47'42' , _ 300 INTERCEPT 1850 HD - 1525 TVD INTERCEPT 222? ;MD - 1975 TVD 0 300 600 900 I ~200 7500 I , I J 1500 .0 _ 30_0 _ 600 .9O0 _ 1200 _ 1 500 _ 1800 _ 2 _ 24O-O .oo_ 600,_ 500,. ~00_. 3:00 _ ; HARATHON OIiL COHPANY i STEELHEAD iPLATFORM · .... ; ' CO"OK INLETi, 'ALAS'K~ ! , : 600 , 50.0 ~00 300 . i - i ! TVD 2OO I SUR~^CE ' I NOR1,H, . : HORIiZON1,AL} PROJECI'ION .... ! ............. ! 600 50,0 ~00 ....... 300 2OO 1 O0 I , !00 _ 700 _ .600 _ 500 _ 4,00 _ 300 2o0 _ 100 '"' ' .~ ........ '-'l~ ..... 2, ' .=,F ERRY.,.-~:,_ N WELL. SURVEY I NG L. UMI::_.~N~ .................................................................................... _P_A. GE ..... _! MARATHON OIL CO. TBU RELIEF WELL #1 ._ ALASKATRADING BAY UNIT l~'~/~ ~Of~ 0 .............VERTIE. AL~ .... :~''~EL. TIJN~ ........................................ CALCULATED ALONG CLOSURE ANCHORAGE ALAo[.',A C. OM~!TA_T I ON _DATE JULY 7, 1.988 DATE OF oLIRVEY dULY 2, LE~/EL ROTER SURVEY ,_lOB NJMBER AK-LB-8OO/:,& KELLY BLISHING ELEV. = 103.00 FT. 0 F' ER A__T_~R-_H_~R~_E R_ _ TRUE SUB-SEA MEASURED ..... VERTICAL' .............. -VERTICAL DEPTH DEPTH DEPTH COURSE COURSE DOG-LEG INCLINATION DIRECTION SEVERITY DEG M I N DEGREES DEG / 100 80 6.9 69' 30 10 10 W 50 .W 19 W 1.9 W 69 W 17 W 1.9 W 30 W 10 W 80 W 39....W 6O W 0 89 0 6.9 80 80 W 8'2 W 8.9 W 1.9W O. O0 E o.:-, 0. O0 E O. ')'~' L..:, 0.00 W 0 17 0 04 '-' i W O. i:S' 0,05 S W ~.'--' c)2. 1... 08 N W W W W W 1.15 0.17 O. 93 3.18 2.53 3.82 TOTAL RECTANGLILAR COOR[i-~ NATE:-] .......... VERTI iZ:~'~L ......... NuR TH/.=,uUTH EAST/WEST SECT I ON. O. O0 0.00 O. O0 O. O0 ............. O. 00 ..................... 0..00 O. 14 W O. (.) ._, 0 50 W 0 '.-'/- . I i~ilI jI ............ 2,.34...W 2:_.2.7 4,..12 N 6.14 W 6.':77 -' 8.09 N 10.57 W 12.81 10 '-'= N 12.6'7 W 15 o- ... - ..'..j .................................. - 13.1° o N 14.82 W 1..43 17.27 N 17.38 W 24.24 22._~6_ N 20.62.. W 30,.~ 1 25.03 W '-'"' · :,c,. 71 30 "':"~' 49.67 · -~.o 21 W ,, _ 6.2 · ........ .~ ~_I mm ............ Im 6.00 29.61 N 6.51 3;~. 86 N :3 o4.._ i . 4'P. '~""---' . ................ 4_,,_~ ... N 4.14 62.14 N 4.86 75.70 N 3 22 .90 . . ....,,., ~. N 5.74 106.11 N 7.17 123.66 N 5.50 ...... ~__~143.08 N 6.34 164.46 N 3.~7 187.70 N 6.5~ 212.73. N 3.66 23~.30 N 2.~0 266.12 N 1.32 '?~-$,-,,~ ..... E,,:, N 2.32 315.39 N 100 100.00 -3.00 :: 0 0 N 48. .--00 .97. O0 ._1. zOO. 00 0 0 N ?, 300 300.00 1.97.00 0 10 S 72. 400 400.00 297.00 0 15 N 79. .JO .) 4.9~ ~& 396. S/6 2 15 N ._,6. 600 5,~c, 84 4~6..,=,4 :3 1'~ N 4o. 700 '='~ " 6 ~ ~. 66 ._~°zr-o. 66 ~: 30 N 48. ~,7 3 '-~ 7..,U 74~ 57 646 ~ N 40 .......... :~:00 799.43 6.96 43 4 ~5 N .crc, . . m '~(') :,4 ~ 1.9 746 19 6 10 N '~ 1 ~0o. ... .................. o'~"=,~'~ o. oO '~' ............. 795.80 ............ 8 .......... 4 .......... N.. 3 ! ,. 950 .948 10 845.10 11 4 N 1000 t~g&. 87 o,;~ 87 14 19 N 33 l:C~O 1045. (]9 942. (]9 16 15 N 3:3 1092. :E::3 b78'2.83 1 ~ '-- .' i l:~t~O 1 ~'~'~ .97 1036.97 2r~ 40 N '~ I~0 1186.51 1083.51 22 10 N 37 ~:~0 1 .~,o.:, 33 1129.33 25 0 N ._:~ ~)0 1276.96 1173. 'P6 28 34 N 3'2 ~0 1320.27 1217 27 :31 1.9 N ._~. . -~::: i~80 13A2. z:~ 1 zS~. '-'~' . ~c, 34 19 N 37. 1450 1403.11 1300.11 36 10 N 35. 1500 1442.6.1 1339.61 39 25 N 34. 1550 1480.72 1377.72 41 15 N 34. 1600 1518.1~ 1415.1~ 41 40 N 36. 1650 1= ~,5~,. 35 1452.35 42 1 'B N 36. 16'~2 1586 . 30 1483.30 42 45 N 38. 46.55 W 77.~ ) .'9' ?4. '," ~- · _¢.. 21 W - 67.11 W ......... 11Z.-'.'.-- 54 ..... 79.43 W 1 .... ' J..'-. 54 ~3.55 W 155.06 1A'.~ "'" ~ ....'-._, .. W ......... 1.,0. O1 125.90 W 207.10 142..9'..-? W '73'~. 95 __160.67.....W ............. 266.58 179.13 W 2'P8..92 1,w~ ~-- W 3~2.01 '218.6I W 365.47 235..92 W 3.93.86 ............... . ._.~H_OR..!Z ONTfiL .D I S.PL~pEME.N. ~ .=__ ...... ~.~.,._S6__EEE.T_. AT_.NORT_~_. 36__.DEO.: ...... ~ 7 .H! N_.___W.E. ST _~T. __MD__.= ...... _1672 THE CALCULATION PROCEDLIRES ARE BASED ON THE USE OF THREE DIMENSIONAL RADIUS OF CLIRVATURE METHOD. MARATHON OIL CO. TBU RELIEF WELL TRADING BAY UNIT ALASKA 0 O. 00 -103. O0 O. O0 O. O0 1000 :.~gA ,'37 '"" ~' '~' ~xo W .... :, ~/.",. o7 '-"~' · .:,o. 86 N 30. '~''' 1692 1._~ '--" 'o: o . .-', 0'-' 14:3:3.30 :_2'- 1 .~:, = . 39 N ~ ._~._, '-?---' ='. ':~2. W '-~ ' . '---' i ................ .~z,F_.'ERRY_,oL N .WELL SURVEY I NO COMPANY_ ......................................... ~:~:~ ~: · ANCHORAGE ALA.:,KA ?:i?:i!~:: :~: : DATE OF ;_-,URVEY dULY '.-' ,JULY 7, ' ';'-"q " '----' ' ' ". ~... ,_--:: ,JOB NUMBER AK-LB-.o~.)Oo6 KELLY :-~ = .x.-.,. 00 FT, BU._ H I NG ELEV. 1 INTERPOLATED VALUES FOR EVEN 1000 FEET OF MEA:_-,LRED DEPTH TRUE :_-,I_IB-._-,EA 'TOTAL MEA::;URED VERT I F:AL VERT I C:AL RECTANGULAR Iz:OCJRD INA TE:S MD-TVD VERT I CAL DEPTH DEPTH DEPTH NJRTH/~.OUTH EAST/WEST DIFFERENCE CORRECTION 0.00 3 1'~ '- . ~, ~.13 105.70 102.57 ...... ...THE__CALCULAT I ON PROCEDURES .~.R_.E..._BASED_.. ON. THE USE ..OF..THREE D ! MENS.!,O.N~L._~AD.z !_.iS....j.-!F_L.-_:!_!_R'.V~...T_L!~E._MF_TH..!_-_~.£!.. ............ i_-'. I i~, :,PERRY-.--,LIN NELL SURVEY I NO _.Q!--!.[fl._F~ANY ' ' ..... ' ~'l -- ~, -- .'., ,':. ' · :' i :'.i :i':. .: ::i¥.:i:? :' ..:. ' . ' · ':' ' TBU RELIEF WELL COMPUTATION DP~TE:: TRADING BAY UNIT JULY 7, 1,~:~o.. _~, dOB NLIMBER AK--LB-:--:O066 ALASKA KELLY BUSHING ELEV. = 1 "~' (.)~. O0 F T. ..................................................................................................................................................... OP ESA..T.. E!.RcH..A .RG ER ........... INTERPOLATED VALUES FOR EVEN 100 FEET OF ,='l ,-' ~:,L B-~,EA DEPTH MEASURED DEPTH TRUE ...... SUB-SEA ........................... TOTAL .......................................................................... VERTICAL VERTICAL RECTANGULAR COORDINATES MD-TVD VERTICAL .... _K_!EPTH ............... E!EP.T_..~_ ......... ~!Q.RI'H./..SOU_T...H.. ........... .EAS~.T/WES. T_ ..... OIF..F. ERENCE .............. C:'.O~BE_C.:_T..!....C.'!N ........................................ ). ...... 1 0 0. O0 -103. O0 0. O0 103 103. O0 O. O0 O. O0 203 203.00 100.00 0.00 303 303.00 200.00 0.05 S 403 403.00 300.00 0.05 S 503 503.00 400.00 1.15 N 603 603.00 500.00 4.24 N 703 703.00 600.00 8.23 N 803 803.00 700.00 13.43 N ~04 ~03.00 800.00 23.10 N 006 1003.00 ?00.00 40.17 N 110 11 ~'~ ~ c,. O0 1000.00 64. ~c,A'=' N 217 1203.00 1100.00 95.82 N 32~ 1303.00 1200.00 135.12 N 44? 1403.00 1300.00 187.67 N 57~ 1503.00 1400.00 255.31N 6?2 1586.30 1483.30 315.37 N 0 2 6 10 14 20 31 48 71 102 142 190 235 O. 00 0. O0 O. O0 O. O0 O. 00 O. 00 O. 00 0. O0 0.15 W 0.00 0.00 .51 W 0.00 0.00 .44 W 0.04 0.04 27 W 0 17 0 1'-' 72 W 0 ':'.:;, 0 1'=' .. I~l i~ .~':~ W O.~-:~- .... · .-',--, 0. ~:_': ~/-', W 1. '~'~ . -'" ~, O. 67 ,'_--:4 W :~ :~:~, '-, F'-' . _ . ~....),~, .4,?, W 7.70 4.37 ~,._~ W 14.'-''=' ,=,o 7 1":' ~'-'W 26 c.~2 12.05 '-?A W 46.-"- . . _ ,~.:~ 19.96 · 41 W 76.66 2~-~. 7:_=: . :~2 W ....... 105.7_0 .................... 2~-.-~. 04 ..... THE CALCULATION PROCEDURES USE A LINEAR INTERPOLATION BETWEEN THE NEAREST 20 FOOT MD (FROM RADIUS OF CURVATURE) POINTS Telecopy No. (907) 276-7542 March 7, 1990 Marathon Oil Company P O Box 190168 Anchorage, A_K 99519 Re: Trading Bay Unit M-26 Relief Well Sec 33 TgN R13W SM Permit ~88-47 Dear Sir or Madam: We wish to bring to your attention that the Commission has not yet received the following required items on the subject well which our records indicate was approved for abandonment on August 1, 1988: Well Completion Report Daily Well Operations Section 71(b) of Title 20~, Chapter 25, Article I, Alaska Administrative Code, stipulates that operator shall file this material With the Comtssion within 30 days after completion, suspension, or abandonment of a drilling well. Please submit the missing material listed above to Larry Grant of this office. /~' ) !f 1/"i' i t ~ V Ch~terton C~~an , Unocal Oil & Gas Divisic Unocal Corporation P.O. Box 190247 Anchorage, Alaska 99519-0247 Telephone (907) 276-7600 UNOCAL Alaska District DOCUMENT TRANSMITTAL September 27, 1988 HAND DELIVERED TO: Oohn Boyle FROM: R.C. Warthen LOCATION: Anchorage LOCATION: Alaska District ALASKA OIL & GAS CONSERVATION COMMISSION Transmitting as Follows: Regarding: Trading Bay Unit, McArthur River Field - Relief Well One (1) blueline and one (1) sepia of: ~ 2" Dual Induction-Laterolog · 5" Dual Induction-Laterolog · 2" & 5" Lithodensity Raw Data Log - 2" & 5" Lithodensity-Neutron Rorosity Log ®Cement Bond Log - Variable Density-GR ~ Cement Bond Log-GR ~Cement Bond Log-GR · Cement Bond Log-VDL - Noise Log ~ Continuous Gyro Survey ,Gyro Continuous Log · Gyro Continuous Log · Continuous Gyro Survey · Temperature - GR Log , Temperature - GR (Through Drillpipe) PLEASE ACKNOWLEDGE RECEIPT BY SIGNING AND RETURNING ONE CORY OF THIS DOCUMENT TRANSMITTAL. THANK YOU, DATED: . , , Unocal Oil & Gas Divisic Unocal Corporation RO. Box 190247 Anchorage, Alaska 99519-0247 Telephone (907) 276-7600 UNOCAL Alaska District DOCUMENT TRANSMITTAL August 22, 1988 HAND DELIVERED TO: John Boyle FROM: R.C. Warthen LOCATION: Anchorage LOCATION: Alaska District ALASKA OIL & GAS CONSERVATION COMMISSION -- Transmitting as Follows' Regarding: Trading Bay Unit, McArthur River Field, M-26 Relief Well #1 One magnetic taoe with listing PLEASE ACKNOWLEDGE RECEIPT BY SIGNING TRANSMITTAL. THANK YOU. RECEIVED BY: DATED: = ~D....RETJ. LRNING ONE j~ OF THIS DOCUMENT AnGhomge Unocal Oil & Gas Divis[ Unocal Corporation RO. Box 190247 Anchorage, Alaska 99519-0247 Telephone (907) 276-7600 UNOCAL Alaska District DOCUMENT TRANSMITTAL August 8, 1988 HAND DELIVERED TO: William Barnwell FROM: R.C. Warthen LOCATION: Anchorage LOCATION: Alaska District ALASKA OIL & GAS CONSERVATION COMMISSION Transmitting as Follows: Regarding: Trading Bay Unit, McArthur River Field Re: M-26 Relief Well #1 bone blueline and one sepia of Formation Evaluation Log ~One copy of Final Printout and Plots ~dOne box of dry cuttings Re: M-26 Relief Well #1, Sidetrack #1 TOne blueline and one sepia of Formation Evaluation Log ~d One box of dry cuttings PLEASE ACKNOWLEDGE RECEIPT BY SIGNING AND RETURNING ONE COPY OF THIS DOCUMENT TRANSMITTAL. THANK YOU. RECEIVED BY: DATED: Unocal Oil & Gas Divisi( Unocal Corporation RO. Box 190247 Anchorage, Alaska 99519-0247 Telephone (907) 276-7600 UNOCAL Environmental Group Alaska District July 29, 1988 Hr. C.V. Chatterton Chairman, Alaska Oil & Gas Conservation Commission 3001 Porcupine Drive Anchorage, Ak. 99501 Dear Hr. Chatterton: RELIEF WELL #1 TRADING BAY UNIT Attached for your information and files, are three copies of the final directional record for Relief Well #1, Trading Bay Unit. Should you have any questions regarding these surveys, please give me a call. Very truly yours, Candace L~ Environmental Specialist cwl cc' Gary Bush - UNOCAL Guy R. Whitlock - Hoco Alaska R n /'~ ./ Domestic , , dduction ~ Marathon Anchorage, Alaska 99519 ~ Oil Company Telephone 907/561-5311 SR~~ July 25, 1988 ~=. ~1a1= ~o~ell STA~'~-C~ Alas[a 0~1 a~d Gas Co~se=~atio~ Co~ss~ou Fii~E~ 3001 ~o=cup&~e A~cho=age, AE 99501 Dear Mr. Wonzell: This letter confirms the telephone conversation between you and Ken Thoma of Marathon Oil Company on Saturday, July 23, 1988. Marathon successfully intersected the Steelhead Well M-26 wellbore with a second intersection on July 22, 1988, at 1848' MD (1525' TVD). Mud returns were lost when the wellbore was intersected. The M-26 wellbore was pumped into with mud and seawater. On July 22 and July 23, 1988, a total of 24 BBL of 28% HC1 acid and 1180 BBL seawater was pumped ahead of 8094 sacks of premium cement mixed at 15.8 ppg to plug the M-26 well. Following pumping the cement into M-26, noise and temperature logs were run in Well M-25 on the Steelhead. These logs do not indicate any positive fluid movement adjacent to Well M-25 below 1000'. Analysis above this depth is difficult due to interferance from platform equipment noise. Attached is a plugging and abandonment procedure for the Relief Well #1. This procedure was reviewed with you by Mr. Thoma on July 23, at which time you granted verbal approval. If you have any questions regarding the plugging of Well M-26, or on the plugging and abandonment of Relief Well #1, please contect me at 564-6316 or Ken Thoma at 564-6330. Sincerely, Guy R. Whitlock Drilling Superintendent Attachment GRW/KAT/rs/DD 11/71 cc: K. A. Thoma Well File RECEIVED J U L 2 ::'; ]fi~";,ii Alaska Oil & Gas Cons. Commissio. A~chora..qe A subsidiary of USX Corporation TRADING BAY UNIT, RELIEF WELL #1 PLUGGING AND ABANDONMENT PROCEDURE 1. RIH w/ 8-1/2" bit to top of cement plug that was pumped July 23 (8094 sx). Clean out to 1859' TD, or drill out until hard cement is confirmed. CBU. POH. 2. RIH w/ 3-1/2" DP stinger (±600') to 1859' or to top of cement plug. 3. Mix & spot balanced cement plug from 1859'-1200'. Use approximate- ly 260 sx of premium cement mixed w/ 2% CaC12 water. POH to 1170', circ hole clean. 4. Close BOP, pressure open-hole cement plug to 100 to 150 psi, hold pressure 10 min. Bleed off & POH. ~5. RIH w/ 8-1/2" bit and 9-5/8", 43.5# casing scraper to 1170'. CBU. POH. RIH & set 9-5/8" cement retainer @ 1150'. Test above retainer to 2000 psi. Sting into retainer & test cement plug & 9-5/8" shoe to 14.3 ppg equivalent mud weight (EMW), or approximately 250 psi w/ 10.2 ppg mud. Mix & spot 60 SX cement on top of retainer. CBU, leave 10.2 ppg mud in hole. POH. 7. RIH w/ Vetco running & retrieval tool on Marathon Oil Company DP, strap weld all connections. Backoff 9-5/8" casing hanger packoff in wellhead 1-1/2 turns to left to disengage mechanical seal. POH. 8. RIH w/ 9-5/8" casing cutter. Cut casing at ±500'. POH. 9. RIH w/ 9-5/8" spear, pull 9-5/8" casing & hanger. 10 RIH w/ 13-3/8" 68# casing scraper to top of 9-5/8" stub @ 500' CBU. POH. 11. RIH w/ 5" open-ended DP to ±450'. SI pipe rams above tool joint. RU lubricator on DP. Run perf gun thru DP & perf 13-3/8" casing @ ±470'. POH w/ perf gun & RD WL. 12. Check 13-3/8" for gas pressure. If no pressure, test thru perfs to 13.0 ppg EMW, or approximately 70 psi w/ 10.2 ppg mud. POH w/ OEDP. (Note: If pressure in Step 12 is OK, proceed to Step 14.) 13. If cannot get pressure test, RIH w/ 13-3/8" cement retainer & set above perfs. Test above retainer to 2000 psi. Cement ~.~ueeze thru low pres s ~ ~l~Sting out retainer & perfs @ 470' to obtain ~. ~. of retainer. Circ. Ai~s~:~ Oi~ & Gas C,~ns. ~,;~::,'~ms:~'u'~ 14. If pressure test in Step 12 is OK, POH w/ OEDP. RIH w/ 12-1/4" bit & casing scraper thru perfs @ 470'. POH. 15. RIH w/ 13-3/8" cement retainer & set @ ±480' (10' below perfs). POH. 16. RIH w/ Vetco packoff running & retrieval tool on DP strap welded at connections. Back off 13-3/8" packoff in wellhead 1-1/2 turns to left. POH. 17. RIH w/ 13-3/8" casing cutter & cut casing @ ±470'. POH. 18. RIH w/ 13-3/8" spear & retrieve 13-3/8" casing & hanger. 19. RIH w/ 5" OEDP to top of cement retainer @ 480'. Spot balanced plug of cement (approximately 150 sx) from 480' up to 330', 30' below mudline. Pull to 330', circ clean. POH. 20. RIH w/ 16" cement retainer on DP & set @ 330'. Pressure test above retainer to 1000 psi. Sting into retainer & test cement plug & 16" shoe to 13.0 ppg EMW, or approximately 50 psi w/ 10.2 ppg mud. POH. 21. RU to pull riser. Release & pull BOP & riser. LD riser, set LMRP & BOP on stumps. Secure for sea tow. 22. RIH w/ multi-string cutter, marine swivel & three 9" DC's on 5" HWDP. Use guide frame or diver to stab into wellhead. Cut 16" & 30" casing strings & ±318'. POH. 23. RIH w/ 16" spear. Stab & engage 16" casing. Pull 16" & 30" casing w/ permanent guide structure. (Note: The temporary guide base may be retrieved w/ PGS by maintaining tensions on remaining guidelines.) 24. If TGB is not retrieved in Step 23, RIH w/ TGB running & retrieving tool on Marathon Oil Company DP. Latch TGB & pull same to clear seafloor. 25. Begin pulling anchors to demobilize rig. By: G. A. Newberry and G. R. Whitlock, July 23, 1988. '~RADING BAY UNIT RELIEF WELL ~ 1 PLUG & ABANDON DIAGRAM Sea Floor at 298' , -cement3°' at 376' ~ I'!:'""~'"~:~::ili{"'~':'i)!il}iiii~I~!ii,~iii!i!iil I 13 3/8' at814' ~ · . _Cut' 16'-& 30' at ~318' 16' Cement Retr at~ 330' .--,- Cut 13 318' Casing at * 470' --,-- 13 3/8' Cement Retr at * 480' Cut 9 518' Casing at* 500' 10.2 ppg Mud Top of Cement at · 1000' 9 158' Cement Retr at · 1150' 10.2 ppg Mud Top of Cement at · 1200' 9 5/8' at 1'413' M-26 Wellbore Cement Cement - 8094 Sacks (7/23/88) Cement 2nd Intersection of M-26 Wellbore at 1848' MD. 1525' TVD (7122/88) Sidetrack ~1 TD at. 1859' GAN/GRW 7/23/88 STATF-OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS 1. Type of Request: Abandon X}(. Suspend [] Operation Shutdown [] Re-enter suspended well E] Alter casing E] Time extension E] Change approved program [] Plugging [] Stimulate F1 Pull tubing [] Amend order I-I Perforate [] Other [] 2. Name of Operator Unocal; Marathon Oil Company/Sub-Operator 3. Address P. O. Box 190247 Anchorage, AK 99519-0247 4. Location of well at surface 1369' FNL; 1065' FWL; At top of productive interval N/A At effective depth 1369' FNL; 1065' FWL; At lotal depth 2310' MD Sec 33, T9N, R13W, SM Sec 33, TgN, R13W, SM 741' FNL & 535' FWL; Sec 33, T9N, R13W, SM 5. Datum elevation (DF or KB) 98' KB 6. Unit or Property name Trading Bay Unit feet 7. Well number Relief # 1 8. Permit number Verbal Approval 9. APl number 50--733-20400 10. Pool McArthur River Field 3ray'ling Gas Sands 11. Present well condition summary Total depth: measured 2310 · true vertical 2033 · Effective depth: measured 2310' * true vertical 2033' Casing Structural Conductor Surface Intermediate Production Liner feet feet Perforation depth: measured Plugs (measured) (See attached drawings) feet Junk (measured) feet * 20' below mudline Length Size Cemented 278' 30" 700 sx 559' , 16" 984 sx 882' 13-3/8" 630 sx 889' 9-5/8" 500 sx Measured depth 376' KB 657' KB 1182' KB 915'-1804' KB True Vertical depth 3,~6' KB 657 ' KB 1170' KB 914'-1668' KB true vertical Tubing (size, grade and measured depth) Packers and SSSV (type and measured depth) 12.Attachments Description summary of proposal [] Detailed operations program L~ BOP sketch [] 13. Estimated date for commencing operation 23 3ul7 1988 14. If proposal was verbally approved Name of approver Blair Wondzell SubseqUent Work Reported on Form No. Dated / Date approved 23 July 1988 15. ! hereby certify that the foregoing is true and correct to the best of my knowledge · Signed ' '2 ' · Ap,n_r_nv~d _by ~.,~...-Title Environmental E~gin~.r ROy~D. Roberts Date 7 -~-~,Commission,~, ,, , Use Only., Conditions of approval Notify commission so representative may witness I Approval E] Plug integrity [] BOP Test [] Location clearance NO. Date 7/29/88 Approved =orm 10-403 Rev 12-1-85 ,APProved Copy Returned_, C-~nmlss~one~ by order of b~/tr~in tO'rip C~t the commission Dat;u Ii , TRADING BAY UNIT, RELIEF WELL #1 PLUGGING AND ABANDONMENT PROCEDURE 1. RIH w/ 8-1/2" bit to top of cement plug that was pumped July 23 (8094 sx). Clean out to 1859' TM, or drill out until hard cement is confirmed. CBU. POH. 2. RIH w/ 3-1/2" DP stinger (±600') to 1859' or to top of cement plug. 3. Mix & spot balanced cement plug from 1859'-1200'. Use approximate- ly 260 sx of premium cement mixed w/ 2% CaC12 water. POH to 1170', circ hole clean. 4. '.Close BOP, pressure open-hole cement plug to 100 to 150 psi, hold pressure 10 min. Bleed off & POH. 5. RIH w/ 8-1/2" bit and 9-5/8", 43.5# casing scraper to 1170'. CBU. POH. 6. RIH & set 9-5/8" cement retainer @ 1150'. Test above retainer to 2000 psi. Sting into retainer & test cement plug & 9-5/8" shoe to 14.3 ppg equivalent mud weight (EMW), or approximately 250 psi w/ 10.2 ppg mud. Mix & spot 60 SX cement on top of retainer. CBU, leave 10.2 ppg mud in hole. POH. 7. RIH w/ Vetco running & retrieval tool on Marathon Oil Company DP, strap weld all connections. Backoff 9-5/8" casing hanger packoff in wellhead 1-1/2 turns to left to disengage mechanical seal. POH. 8. RIH w/ 9-5/8" casing cutter. Cut casing at ±500'. POH. 9. RIH w/ 9-5/8" spear, pull 9-5/8" casing & hanger. 10. RIH w/ 13-3/8", 68# casing scraper to top of 9-5/8" stub @ 500'. CBU. POH. 11. RIH w/ 5" open-ended DP to ±450'. SI pipe rams above tool Joint. RU lubricator on DP. Run perf gun thru DP & perf 13-3/8" casing @ ±470'. POH w/ perf gun & RD WL. 12. Check 13-3/8" for gas pressure. If no pressure, test thru perfs to 13.0 ppg EMW, or approximately 70 psi w/ 10.2 ppg mud. POH w/ OEDP. (Note: If pressure in Step 12 is OK, proceed to Step 14.) 13. If cannot get pressure test, RIH w/ 13-3/8" cement retainer & set above perfs. Test above retainer to 2000 psi~'~'~ment squeeze thru retainer & perfs @ 470' to obtain low pressure, sqUeeze. Sting out of retainer. Circ. 14. If pressure test in Step 12 is OK, POH w/ OEDP. RIH w/ 12-1/4" bit & casing s6raper thru perfs @ 470'. POH. 15. RIH w/ 13-3/8" cement retainer & set @ ±480' (10' below perfs). POH. · 16. RIH w/ Vetco packoff running & retrieval tool on DP strap welded at connections. Back off 13-3/8" packoff in wellhead 1-1/2 turns to left. POH. 17. RIH w/ 13-3/8" casing cutter & cut casing @ ±470'. POH. 18. RIH w/ 13-3/8" spear & retrieve 13-3/8" casing & hanger. · 19. ·RIH w/ 5" OEDP to top of cement retainer @ 480'. Spot balanced plug of cement (approximately 150 sx) from 480' up to 330',~ 30' below mudline Pull to 330' circ clean. POH. 20. RIH w/ 16" cement retainer on DP & set @ 330'. Pressure test above retainer to i000 psi. Sting into retainer & test cement plug & 16" shoe to 13.0 ppg EMW, or approximately 50 psi w/ 10.2 ppg mud. POH. 21. RU to pull riser. Release & pull BOP & riser. LD riser, set LM~P & BOP on stumps. Secure for sea tow. 22. RIH w/ multi-string cutter, marine swivel & three 9" DC's on 5" HWDP. Use guide frame or diver to stab into wellhead. Cut 16" & 30" casing strings & ±318'. POH. 23. RIH w/ 16" spear. Stab & engage 16" casing. Pull 16" & 30" casing w/ permanent guide structure. (Note: The temporary guide base may be retrieved w/ PGS by maintaining tensions on remaining guidelines.) 24. If TGB is not retrieved in Step 23, RIH w/ TGB running & retrieving tool on Marathon Oil Company DP. Latch TGB & pull same to clear seafloor. 25. Begin pulling anchors to demobilize rig. By: G. A. Newberry and G. R. Whitlock, July 23, 1988. RELIEF WELL . , PLUGGING PROCEDURE': FIRST INTERCEPT 290' KB tO ML 657' Retainer at 905' 915' 1182' 30" Casing 16' Casing 13 3/8' 68+ Casing Cap: .8406 cu ft/ft . 1616' 1804' Plug 9 5/8' 43.5+ Casing Cap: .4180 cu ft/ft Retainer at 1754' ~ M-26 Wellbore 8 1/2' OH Cap: .3941 cu ft/ft x150% : .5941 cu ft/ft 2227', ,,, M-26 Intercept 30' at 376' RKB w/7OOsx 16' at 657' RKB w/984sx 13 3/8' at 1182' RKB w/ 630sx 9 5/8' at 915'-1804' RKB w/5OOsx TD w/8 1/2' OH at 2327' Intercept w/M-26 at 2227~ 2327' Plug +1: (232'7'-1804') .5941 * 50 (.4180) : 331.6 cuft: 288: 290 sx Plug +2:138 (.4180): 57.7 cu ft: 50 sx Sea Floor at 298' __ I I'1/'%i./i1~11,.,1 I:i/.i · UI~Ii I RELIEF WELL ~ 1 / PLUG & ABANDON DIAGRAM 30' at 376' ~ Cement 16' at 657' 13 3/8' at 814' ~ Top of Cement at · 1000"' ---~----- Cut'16' & 30' at~318' 16' Cement Retr' at~ 330" Cut 13 3/8' Casing at.470' 13 3/8' Cement Retr at · 480' Cut 9 5/8' Casing at · 500' 10.2 ppg Mud 9 /58' Cement Retr at s 1150' 10.2 ppg Mud Top of Cement at s 1200' 9 5/8' at 1413' M-26 Wellbore Cement Cement - 8094 Sacks (7/23/88) 2nd Intersection of M-26 Wellbore at 1848' MD. 1525' TVD (7122188) Sidetrack ~1 TD at 1859' Cement GAN/GRW 7/23/88 M EMORAN DUM I a s ALASKA OIL Ai~D GAS ka TO: Lonnie C Smith /'- Commissioner ~S!.;;;~"~.f' DATE: FILE NO: July 12, 1988 D. BDF. 123 TELEPHONE NO: THRU: Michae 1 T Minder ~' ~~ SUBJECT: Sr Petroleum Engineer Petroleum Inspector FROM: BOP Test UNION- T. B. U. Relief Well ~1 Permit No. 88-47 McArthur Rv Gas Pool Wednesday, June 22, 1988: I traveled this date to the Diamond M Dri"~iing ~g~, "'~icon', to witness the upcoming BOP Test. Thurs._da_y,.Jun. e.23, 1988.: The test began at 2:30 a.m. and was completed at '7:30-a.m. As the attached BOP Test report shows, there were no failures. Gary Newberry, Marathon Rep., asked me if he could test to 2,000 psi instead of 5,000 psi, since the bottom hole pressure was 930 psi. I called Mike Minder and he approved the test pressure change. In s~__n~_mary, I witnessed the BOP test on Marathon Union Relief Well 1. Attachment '~'~2.~1A (Rev. 8/85) ..... :~ J&C STATE OF ALASKA ALASKA OIL & GAS CONSERVATION COMMISSION B.O.P.E. Inspection Report Location: Sec T R M Drilling Contractor D/~./~.~/~.~. Location, General b Well Sign General Housekeeping. Reserve Pit Mud Systems Visual Audio Trip Tank Pit Gauge Flow 'Monitor Gas Detectors ACCUMULATOR SYSTEM BOPE S tack Annular Preventer Pipe Rams . Blind Rams Choke Line Valves H. C.R. Valve Kill Line Valves Check Valve Test Pressure / Full Charge Pressure ,~ p~z~ Pressure After Closure / g c~ Pump incr. clos. pres. 200 psig Full Charge Pressure Attained: psig psis mi~;~ sec. ~ min /~ sec. Controls: Master ~ ! RemOte ~ ~ .5-' Blinds switch cover / Kelly and Floor Safety Valves Test Pressure Test Pressure Test Pressure Test Pressure Upper Kelly Lower KellM Ball Type Inside BOP Choke Manifold No. Valves No. flanges ~ Adjustable Chokes ~ Hydrauically operated choke Test Time ~-~ hrs. Test Results: Failures <~ Repair or Replacement of failed equipment to be made within day~ and Inspector/ Commission office notified. Distribution orig. - AO&GCC cc - Operator cc - Supervisor Robert T. Anderson District Land Manager Alaska District Unocal Oil & Gas Divis Unocal Corporation P.O. Box 190247 Anchorage, Alaska 99519-0247 Telephone (907) 276-7600 UNOCAL ) Ouly 6, 1988 Mr. Jim Eason, Director Division of Oil and Gas P.O. Box 107034 Anchorage, AK 99510-7034 TRADING BAY UNIT State of Alaska Twenty-Third Plan of Development Dear Jim: Enclosed per your request of December 30, 1987 to Tom Brooks of Marathon Oil Company regarding timing and appropriate drilling information for the M-26 relief well, Steelhead Rlatform, is an overview of the drilling program. This information is submitted in conjunction with the State's approval of the amended Twenty-Third Plan of Development and Operations for the Trading Bay Unit. IVery truly yours, )Kevin A. Tablet · Landman KAT:bdb Enclosure cc: AOGCC w/enclosure Wil Kirchner, Marathon w/o enclosure MARATHON OIL COMPANY RELIEF WELL ~ 1 FOR ArE'LL M-26, STEELHEAD PLATFORH HC ARTHUR RIVER FIELD, COOK INLET, ALASKA OVERVIEW REV. 5/9/88 The semi-submersible rig Diamond 'M' Falcon will be towed to Cook Inlet to ~"'~ ....'~-" drill relief well ~1 for the intersection, stabilization and permanent abandonment of well M-26, Steelhead Platform. Following arrival of the "- drilling unit in the Cook Inlet, the Falcon will be positioned southeast and adjacent to the Steelhead Platform such that the relief well can be spudded from a location approximately 677' southeast of well M-26 at surface. The Falcon will be anchOred using eight primary anchors on approximately 5,500' of 2-3/4" anchor chain each. Further, ~ach primary anchor will be backed up with a piggy-back'anchor approximately 500' beyond the primaries. The Falcon will test several flood and ebb tidal cycles to assure station-keeping ability prior to spudding. Prior to spudding the actual relief well, a 830' 9-7/8" diameter well will be . . drilled adjacent to the relief well location at surface to check for the -" presence of abnormally pressured gas due to the M-26 blowout that may be contained in the shallow formations. This test or observation well will be drilled to 830' RKB, or approximately 530' B~. The observation well will ' verify the flow or non-flow of gas or water at the mudline from the shallow strata at the relief well location. Following drilling and monitoring of the observation well, the relief well will be spudded. The relief well will be equipped with 30" structural casing cemented at either 380' RKB (80' BML) or 460' R¥~ (160' B~) dependent on the results of the observation well. Setting 30" at the shallower depth is advantageous as it allows initiation of directional drilling earlier. The 30" serves only as a conductor to help control loose, unconsolidated strata immediately below the seafloor. Following setting of the 30" casing, the relief well will be directionally drilled to 530' B~ to set 16" casin~. It is intended to build approximately 19° of hole angle prior to setting 16" casing. The relief well will have been drilled to this point with all returns to the seafloor, but following cementing of the 16" casing string, the subsea BOP will be run with riser ba~k to the rig-floor. The diverter systems will be rigged-up at this time. A conventional drilling assembly will be used to drill out below the 16" casing allowing the well to drop angle back to near vertical. The hole will be drilled to approximately 1,230' Ti~; the equivalent setting depth of the 13-3/8" casing in the actual relief well. Again, this will allow monitoring for abnormal pressures due to gas or water flows without having the mud-motor, directional drilling assembly in the well. After monitoring, the observation well will be plugged back with cement to the 16" casing shoe. At this'point the relief well will be directiona!!y drilled to the 13-3/8" casing point at approximately 1,287' MD (1,200' T%~) ~ about 47° =~ of hole angle. . .... ; .... i.~.'. The well will continue to be directionally drilled below the 13-3/8" shoe to -!~'?:~-:i'-".~]~:":'approximately 1,900'MD, 1,700' TVD. At this depth, magnetic ranging tools · .i:a~.':~'~i~..~[:..~[:/! will be used to begin locatin$ the H-26 wellbore. Following ranging surveys, · .~:.~-.'...... 9-5/8" casing will be run and cemented at approximately 2,019' MD, 1,800' TVD. · ~-~-~. ;. -:. -.. · .., ,.:, ~ . . . .":'~. The relief well will be drilled below the 9-5/8" casing and ranging tool ...... ; .....surveys will be run to effect intersec~ion of the H-26 wellbore. Intersection is expected at approxiamtely 2,285' }~, 2,050' TVD. The relief well will follo~ ~he ~-26 wellbore to TD usin§ pre-planned well control procedures. Pressure stabilization and permanent abandonment of the ~-26 wellbore will be accomplished using another string of pipe, if required, with cement squeezes and cement plugs. Sidetracks of the relief well may be required to intersect intermedia~e targets in H-26. Actual Spud Date: 05-22-88 Est. Completion Date: 08-15-88 Rig Name 0 A Kaneb Comlmny B.O.P. Test Record Sheet ORIGINAl. LOWER KELLY COCK: R.T. ELEVATION ABOVE ZERO SEA LEVEL' ~'~' GRAYB.O.P'. --" STANDPIPE MANIFOLD' DEPTH' B U PST: CO L LAPSE' TEST 1 TEST 2 TEST 3 TEST 4 TEST 5 TEST 6 TEST 7 TEST 8 TEST 9 TEST 10 REMARKS KEY i~ Choke Line Test: - Tes~: - Test:- Tes~' - Tes~' - Tes~'- Test' - Tes~ - Test' - Tes~' - .... G.O.P. Control Position Time taken to Activate Unit and Volume of Fluid Used to Activa[e Alternate Weekly Betw~n Main MAIN/REMOTE PANEL MAIN/REMOTE PANEL & Remote Positions . .................... , .............. . ............. OPEN CLOSE OPEN CLOSE G.O.P. Pressure Time I Time Volume Time Volume ~ Time I VOlume ! Time ~ Volume Lower pipe rams ~ ~ c~'~ ~ /~ 5-/_ ~ ~ ~ secs. Upper pipe rams ~~~ p.s.,. ~ mins. '~ ~cs. ~ ~ galls. ~ ~ secs. ~ o.~ galls, secs. galls, secs. galls. Shear rams ~~ p.s.i. ~ mins. ~ ~ secs. ~ galls. ~ ~/ secs. ~ galls, secs. galls, secs. galls. Annular B.O.P.~ ~/~p.s.i. '~~mins. ~ ) secs. ~ galls. ~ secs. (~ ~ galls, secs. galls, secs. galls. ~~~~ ~~~p.s.i. '~mins. ~ ~ secs. ~ galls. ~ secs. ~ ~ galls, secs. galls, secs. galls. Inner choke valve [~/~~.~.i ~ mins. secs. ~ galls. '~ secs. ~ galls, secs. galls, secs. galls. 3NATURE- ~A~O~ ~: ~~~~~~NATURE- O~g~oR: Alaska I: :)n Domestic ~-roduction Marathon Oil Company R O. Box 190168 Anchorage, Alaska 99519 Telephone 907/561-5311 June 23, 1988 Mr. Mike Minder Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive Anchorage, AK 99501 Dear Mike: Attached is the BOP Test Record Sheet that you requested for M-26 Relief Well #1. If you have any questions, please call me at 563-6316. Regards, Guy R. Whitlock Drilling Superintendent GRW/rs/DD10/38 Attachment A subsidiary of USX Corporation D,A~oN~ ~ COMPANY Rig Name F~c~ //~ B.O.P. Test Record Sheet ORIGINAL - UPPER KELLY COCK' 3 WELLNo.. /~-,,2-~ /~,/~'~'I DATE OF LAST TEST.~. ~~ LOWER KELLY COCK: ~ p~/ ~ ~/ WATER DEPTH. /~ CHOKE MANIFOLD: R.(' EVATION ABOVE ZERO SEA LEVEL: ~ ~ GRAYB.O.P.' ~ ~/ 5/~ ~/ STANDPIPE MANIFOLD: ~a ~] ~ ~/ CASING SIZE: /~" GRADE'~-~ WEIGHT- ~ CEMENT UNIT & LINES' DEPTH: BURST: COLLAPSE: · ...... TEST1 TEST2 TEST3 TEST4 TEST5 ~ TEST6 TEST7 TEST8 TEST9 TEST ~0 KEY REMARKS I .... ~ ~ __ ~I~~ '~ ~ Closed Open _ _ ........ - . , ' ' ~ Choke Line T Test: - Test :- Test:- :- Test:- Test: - Test: - Test :- B.O.P. Control Position Time taken to Activate Unit and Volume of Fluid Used to Activate ,,. Alternate Weekly Betw~n Main MAIN/REMOTE PANEL MAIN/REMOTE PANEL & Remote Positions OPEN CLOSE OPEN CLOSE .............................................. B.O.P. Pressure Time Time Volume Time Volume Time Volume Time Volume Lower pipe rams ~~.g.~ ~ /~ ,ecs. ~ galls. ~ ~ secs. ] G galls, sec,. galls, ,ecs. galls. Upper pipe rams ~~.s.i. __~ rains. _~ secs, ~ galls. ~ 0 secs. ~,~ galls, secs, galls._ secs. galls~ Shear ~ams ~ p.s.i. ._~ rains. ~/ secs. ~ ~ galls. ~ ~ secs. ~ ~, ~ galls, secs. galls, secs, .. galls. AnnularB.O.P.~ 3~~si /~ mins. secs. ~ galls. ~'~ secs. ~ galls, secs. galls, secs. galls. p.s.i, rains, secs. galls, secs. galls, secs. galls, secs. galls. .... Inn~t,;choke valve ~/~D.~i. ~°//~mins. ~ ~gall5.' 't~~.~ '~/,f secs. ~' ~ secs. ~: ~ galls. ,ecs. gall;- secs. galls. kill v~!ve ~/~s.,. zd//O mins. ~ secs. ~ galls~.~ secs. ~, ~ galls, secs. galls, secs. ' galls. "Z/~ ?~/~.,. '~,~ rains. ~ secs. ~ ~ galls. ~ secs. ~, ~. galls. ,~ ,ecs. - ~ galls. ,ecs. galls. M EMORAN DUM State.of Alaska ,*sr ozz, TO: Lonnze C Smit DATE: June 10, 1988 Commissioner ! ~ roLE NO: D. BDF. 118 TELEPHONE NO: THRU: Michael T Minder ~~~ SUBJECT: Sr Petroleum Engineer Bobby D Foster <i-?x Petroleum Inspector FROM: BOP Test Marathon TBU Relief Well #1 Permit #88-47 McArthur Rv Gas Pool Tuesday, May 31, 1988: I traveled this date to Diamond M drilling rig Falcon to Witness the upcoming BOP test. When I arrived at the rig, I met with George Susich and Jim Windstrup, Marathon reps, and Cory Beckman and David Alexander, Diamond M reps. The subsurface stack had been tested at the surface prior to my arrival, but I looked at the charts of the test. As the stack was being prepared to run, a hydraulic leak was noticed on one of the control couplings. Before this could be repaired the tide was running so fast the equipment could not be run. .~.~dne.sday, June 1 & 2, 1988: The BOP test began at 2:00 p.m. and was mPle'~'ed at 4:00 p.m., June 2, 1988. The length of the test was caused by several factors: test line leaks, valves leaking in choke manifold, and having to wait for the temperature of the test fluid to stabilize. Three valves in the choke manifold leaked, but were being repaired when I departed the rig. The lower pipe rams and the blind shear rams were not tested at this time because Marathon reps did not want to back the test joint out of the test plug due to the depth. As stated in this report, I went over the test charts of the "stump" test and both components tested ok. After completing the BOP test the surface diverter system, consisting of a 13 3/8" annular preventer and two 20" hydraulic controlled valves with 16" divert lines diverting to the opposite side of the rig, was actuated and tested to 125+psi. Ail components tested ok. In summary, I witnessed the diverter and BOP tests on Diamond M rig Falcon drilling relief well #1 for well M-26. Attachment Per Call to .company man 6/3/88 the three leaking valves on the choke manifold we~' repaired and tested ok. 02-001A (Rev. 8/85) , ~ #4 5/84 STATE OF ALASKA ALASKA OIL & GAS CONSERVATION COMMISSION B.O.P.E. Inspection Report " -- , ~.-c~. '"'l ~' r . ,,. ' f , Wen W, UI il/ ' q Location: Sec 5 5 ~~R~J~M ~~ , %: Casing Set 8 &~? I . ft.~C. ~.~ ~ , / ".',~/.. -- _, Location, General ~- Well SiEn ~ ACC~LATOR SYST~ ~' ~ '~ ~' General Housekeeping Reserve Pit Mud Systems Visual Audio. Trip Tank Pit Gauge Flow Monitor Gas Detectors BOPE Stack Annular Preventer PipeRams Test Pressure Full Charge Pressure ~crz~ psig Pressure After Closure / ~bO psig Pump incr. clos. pres· 200 psig -- Full Charge Pressure Attained: Controls: Master RemOte~~ Blinds switch cover Kelly and Floor Safety Valves Upper KellM / Test Pressure ~o Lower KellM / Test Pressure -- Ball Type / Test Pressure ~-.~,~'~'~ " min~_5-sec. min ~B ,sec. · I Blind Rams .- Choke Line Valves H.C.R. Valve Kill Line Valves Test Results: Failures --.~_ Inside BOP / Test Pressure Choke Manifold~~ Test Pressure No Valves ~'~ · No. flanges Adjustable Chokes Hydrauically operated choke Test Time ~ ~ hrs. Repair or Replacement of failed equipment to be made within ~' day~ and Inspector/ Commission office notified. Remarks: ~_ ~ / ~ ,-":' :> ,.~ ! Distribution orig. - AO&GCC cc - Operator cc - Supervisor ,-'-"- STATE OF ALASKA ALASK; ,L AND GAS CONSERVATION COMMI REPORT OF SUNDRY WELL OPEHATIONS 1. Operations performed: Operation shutdown [] Stimulate [] Plugging [] Perforate [] Pull tubing [] Alter Casing J~ Other [] 2. Name of Operator 3. Address Union Oil Company of CalifOrnia P. O. Box 190247 Anchorage, AK 99519-0247 4. Location of well at surface 1369' FNL, 1065' FWL, Sec. At top of productive interval 33, T9N, R13W, SM 5. Datum elevation (DF or KB) 98 KB 6. Unit or Property name Tradin8 Bay 7. Wellnumber Relief #1 8. Approval number At effective depth At total depth 755' FNL, 572'FWL, Sec. 33, T9N, R13W, SM 11. Present well condition summary Total depth: measured 680 feet true vertical 679 feet Repairing Annular BOP 6:O0 Effective depth: measured feet true vertical feet Verbal 9. APInumber 50-- 739-20400 10. Pool McArthur River Field Grayling Gas Sands Plugs (measured) am May. 31, 1988 dunk (measured) Feet True Vertical depth 376' 656' Date 6/7/88 Submit in Duplicaty Casing Structural Conductor Surface Intermediate Production Liner Perforation depth: measured Length Size Cemented 78' 30" 700SX 359' 16" 984SX Measured depth 376' 657' RECEIVED true vertical JUN 8 lglt8 Tubing (size, grade and measured depth) AJa~ 0~ & ~ ~ ~ Packers and SSSV (type and measured depth) *Harathon 0i'i Company - Sub-operator 12. Stimulation or cement squeeze summary Intervals treated (measured) Treatment description including volumes used and final pressure 13. Prior to well operation Subsequent to operation Representative Daily Average Production or Injection Data Oii-Bbl Gas-Mcf Water-Bbl Casing Pressure Tubing Pressure 14. Attachments Daily Report of Well Operations [] Copies of Logs and Surveys Run [] 15. I hereby certify that the foregoing is true and correct to the best of my knowledge Signed /¢~,¢¢~, ~~ ~ Form 10-404 Rev. 1~1-85 Roy D. R01e, ts Title Environmental Engineer dLY DRILLII~G REPORT SUMMARY OF OPERATIONS Oil Company ,,,3' ELEVATION I CONTRACTOR - RIG NUMBER SPM ~ psi SPM ~' psi HYDRAULICS AND BIT 'PUMP PRESS.' I 1 GPM 2 I JET NOZ. VEL. I ANNULAR VEL. 'DP/DCI PUMP NO. 1X I SPMI' PUMP NO. 2X ] SPM BIT NO. SIZE MAKE TYPE i SERIAL NO. JETSI32 DEPTH IN DEPTH OUT FEEl' ' HRS. RUNFTIHR CONDITION t REMARKS I ! TI~IG I I RPM I WT ON BIT ROTARY TORQUE USABLE BHA WT. tN MUD ROTATING STRING WEIGHT | SLACK OFF WEIGHT { PICK UP WEIGHT DRILLING ASSEMBLY -- FROM BOTTOM UP COMPONENT ' LENGTH O.D. J-D. J COMPONENT LENGTH O.D. I.D. J COMPONENT LENGTH O.D. I.D. · ~- ~ ,.,..,,,~_. - .~,o,=/~~./~,.~ ~-. ~,~ ~~, ~ ~, - ~ ~. I TIME DISTRIBUTION -- HOURS HRS. ON JARS/SS ~ HRS. SINCE ~ST INSPECTION I HOURS OPERATIONS IN SEQUENCE ~HINGI RIG SERV. W.O.O. LID DP I ICASING WOC NIU NID~_ TOTA 'l WASH/REAM OTHER JOTHER I OTHER IOTHER iOTHE I L ; · · . . ... , · · . . . . . . · . . STATE OF ALASKA ALASK,~ ,L AND GAS CONSERVATION COMMI ON REPORT OF SUNDRY WELL OPEHATIONS 1. Operations performed: Operation shutdown [] Stimulate [] Plugging [] Perforate [] Pull tubing [] Alter Casing :l~ Other [] 2. Name of Operator 5. Datum elevation (DF or KB) Union Oil Company of California* 98KB Feet 3. Address 6. Unit or Property name P. O. Box 190247 Anchorage, Ak 99519-0247 Trading Bay 4. Location of well at surface - 1369' FNL, 1065' FWL, S~C_.- 33, T9N, R13W, SM At top of productive interval At effective depth At total depth 755' FNL, 572' FWL, Sec. 33, T9N, R13W, SM 11. Present'well condition summary Total depth: measured true vertical 680 feet Plugs (measured) 679 feet 7. Well number Relief ~/1 8. Approval number Verba! 9. APl number 50-- 733-20400 10. Pool McArthur River Field Grayling Gas Sands Repairing Annular BOP 6:00 am May 31, 1988 measured feet aunk (measured) true vertical feet .. Effective depth: Length Size Cemented 78' 30" 700SX Casing Structural Conductor Surface Intermediate Production Liner Perforation depth: measured true vertical Measured depth 376' True Vertical depth 376' Tubing (size, grade and measured depth) Packers and SSSV (type and measured depth) *Marathon Oil Company - Sub-operator 12. Stimulation or cement squeeze summary Intervals treated (measured) Treatment description including volumes used and final pressure Prior to well operation Subsequent to operation Representative Daily Average Production or Injection Data Oil-Bbl Gas-Mcf Water-Bbl Casing Pressure Tubing Pressure 13. Copies of Logs and Surveys Run [] 14. Attachments Daily Report of Well Operations [] 15. I hereby certify that the foregoing is true and correct to the best of my knowledge Signed RO,,¢ D. Roberts Title Environmenta! Engineer Date 6/7/,8,8 Submit in Duplicate Form 10-404 Rev. 12-1-85 ~ILY DRILLING REPORT _ _ ~-/z~.~_~ ELL NAME & NUMBER Oil Company ELEVATION I CONTRACTOR * RIG NUMBER ~ MUD INFORMATI~Nw cc ~ ~.. ~',v _ · , ~,~ ~_._~~~. ~,, . T~L;~.~ ~~E;,C*LC,U' --~ t~:~ "P~/- CORR INHIB PPM I OIL ~ LCM ~ I BH~ I ~/- mp- w~ I si HYDRAULICS AND BIT I sPu PUMP PRESS. I I GPM 2 I JET NOZ, VEL' ~ ANNULAR VEL. DPIDC ~ ~UMP "O- 1. X /~-- ~ SPM~ ~ X PUMP NO. 2 [ ~ UF GPM SOLIDS REMOVAL UNIT/TYPE ~ OF ~ UF GPM DEPTH IN SOLIDS REMOVAL UNIT/TYPEI WT OF I ROTATING STRING WE G JETS/32 I t I I ROTARY TORQUE ISLACK OFF WEIGHT FEET HRS. RUNFTIHR CONDITION REMARKS IUSABLE BHA WT. IN MUD IPICK UP WEIGHT DRILLING ASSEMBLY -- FROM BOTTOM UP COMPONENT ' LENGTH O.D. I.D.I COMPONENT ~ LENGTH O.D. I.D. COMPONENT LENGTH IO,D. I.D. TIME DISTRIBUTION -- HOURS DRILLING TRIP SURVEY RIG REPAIR CIRC. LOST CIRC1 FISHING RIG SERV.W.O.O. LID DP CASING WOC NIU NID WASH/REAM CEMENTING CK. BOE CONDITION HOLE LOGI[ OTHER OTHER OTHER . I LAST CASING/SHOE TEST /~ """" ' "" "" BOP TEST DATE /! ~ -.:., .-~.,' HRS. ON JARS/SS HRS, SIN CE LAST INSPECTION HOURS OPERATIONS IN SEQUENCE / . _ ~ ~-~.~ ~/~ ~',/~/~ ~ ~-¢~ ~ ~/~ ~~ ~ ~/-~ ~-~ - - - - z ' ' ".~"::":'::"'"?~"~:' / ~o ~ ~ ~ ~ C ~ ~ -- ~J~ " '" ~' ' .... "':" ' DIRECT.ONAL SURVEYS ~/~ ~~/~ ~ · ~~ iv~,~.~:' i~o~,~ ~."" STATE OF ALASKA ALASK. ,IL AND GAS CONSERVATION COMIt ;ION APPLICATION FOR SUNDRY API-'ROVALS 1. Type of Request: Abandon Q Suspend [] Operation Shutdown [] Re-enter suspended well [] Alter casing L;~ Time extension [] Change approved program [] Plugging [] Stimulate [] Pull tubing [] Amend order [] Perforate [] Other I-_3 2. Name of Operator Union Oil Company of California* 3. Address P. O. Box 190247 Anchorage, AK 99519-0247 4. Location of wellatsurface 1369' FNL, 1065' FWL, Sec. 33, T9N, R13W, SM 5. Datum elevation(DF or KB) 98KB 6. Unit or Property name Trading Bay 7. Well number Relief ~/1 At top of productive interval At effective depth At total depth 755' FNL, 572' FWL, Sec. 33, T9N, R13W, SM 8. b~§r._i~i.~ number g. APl number 50-- 733-20400 feet 10. Pool McArthur River Field Grayling Gas Sands 11. Present well condition summary Total depth: measured 432' feet Plugs (measured) true vertical 432' feet Presently drilling cement at 373'. 6:00 a.m. 5/26/88 Effective depth: measured feet Junk (measured) true vertical feet Casing Length Structural 78 ' Conductor 352 '-382 ' Surface Intermediate Production Liner Perforation depth: measured Size Cemented 30" 700 sx 16" 1725 sx Measured depth ~ue Verticaldepth 376' 376' 650'-680'(proposed)648'-678' (prop°sedl true vertical Tubing (size, grade and measured depth) Packers and SSSV (type and measured depth) *Sub-Operator - Marathon Oil Company 12.Attachments Description summary of proposal ~ Detailed operations program [] BOP sketch [] 13. Estimated date for commencing operation May 28, 1988 14. If proposal was verbally approved Su~:lue~t ~ror]~ ,l{~e~ ~ ~_ Name of approver Mr. Russ Douglas ]FormNo.~])ate~-~-~-~ Date approved May 26, 1988 15. I hereby certify that the foregoing is true and correct to the best of my knowledge Signed ~;~¢uu'za. ~t~oJ:)e~-r_.~'~~'-:~~(~/)~'- Title ~nviror~ntal Dng_i~eer ,///' Commission Use Only Conditions of approval Notify commission so representative may witness J Approval No.(~ [] Plug integrity [] BOP Test [] Locat~~~lby -- --,-~ ORIGINAL SIGNED BY Returned_ LONNIE C. SMITH ~.- ~,_ '.~'~ --. Date 5/27/88 Approved by Form 10-403 Rev 12-1-85 by order of Commissioner the commission Date ..~) Submit in triplicat DESCRIPTION SUMMARY OF PROPOSAL It is requested to change the 16" conductor setting depth from 798' TVD to 648'-678' TVD. This will allow the 16" conductor shoe to be set above the gas found in the observation well. This change will not affect the integrity of the casing program. May 12, 1988 Telecopyz (907) 276-7542 Mr. Roy D. Roberts Environmental Engineer Union Oil Company of California P. O. Box 190247 Anchorage, Alaska 99502 Re: Trading Bay State Relief No. 1 Union Oil Company of California Permit No. 88-47 Sur. Loc. 1369'FNL, 1065'FWL, Sec. 33, T9N, R13W, SM Btmhole Loc. 755'FNL, 572'FWL, Sec. 33, TgN, R13W, SM Dear Mr. Roberts: Enclosed is the approved application for permit to drill the above referenced well. The permit to drill does not indemnify you from the probable need to obtain additional permits required by law from other governmental agencies prior to commencing operations at the well site. To aid us in scheduling field work, please notify this office 24 hours prior to commencing installation of the blowout prevention equipment so that a representative of the Commission may be present to witness testing of the equipment before the surface casing shoe is drilled. $~ere a diverter system is required, please also notify this office 24 hours prior to commencing equipment installation so that the Commission may witness testing before drilling below the shoe of the conductor pipe. C. V. Chatterton Chairman of Alaska Oil and Ga~ Conservation Co~ission BY ORDER OF THE COMMISSION dlf Enclosure cc: Department of Fish & Game, Habitat Section w/o encl. Department of Environmental Conservation w/o encl. Mr. Bill H. Lamoreaux ,----- STATE OF ALASKA rf ALASK; .)IL AND GAS CONSERVATION ¢;"¢,MMISSlON .: 'PERMIT TO DRILL 20 AAC 25.005 I la. Type of work Drill Dr, Redrill F-II lb. Type of well. Exploratory [] Stratigraphic Test [] Development Oil [] ** Re-Entry [] DeepenI'qI Service [] Developement Gas [] Single Zone ~ Multiple Zone [] 2. Name of Operator 5. Datum Elevation (DF or KB) 1©. Field and Pool Union Oil Company of 'California * 98 KB feet McArthur River Field 3. Address 6. Property Designation Grayling Gas Sands P.O. Box 190247, Anchorage, AK 99519 ADL 18730~/ 4. LoCation of well_at surface 7. Unit or property Name 11. Type Bond(see 20 AAC 25.025) 1369 FNL, 1065'FWL, Sec. 33, T9N, R13W, SM Trading Bay At top of productive interval 8. Well nurpber Number Relief #1 B-2-165-724-1 At total depth 9. ApProXimate sPud date Amount 755'FNL, 572'F.w~.., ..Sec. 33, T9N, R13W, SM May ll, 1988 $200,000 ,,, 12. Distance to nearest 13. Distance to nearest well 14. Number of acres in prOperty 15: Propose~l depth(MD and TVD) property line 4- , ,,,,TB,U ,Bou, nd,ry 949,5 feet Intersection M-26 feet 3840 2305'MD/2068'TVD-'~ .... 16. To be completed for deviated wells 17. Anticipated pressure (see 20 AAC 25.035 (e)(2)) Kickoff depth 478 feet Maximum hole angle 43 o Maximum surface 726 psig At total depth (TVD) 931 18'. Casing program Setting Depth ...... size Specifications Top Bottom Quantity of cement Hole Casin~l Weight Grade Coupling Length MD TVD" MD TVD (include stage data) .... 36 30"xl~" 640 ALT-2 160 293 293 453 453 1134 sx ~6 16 84 N-80 521 511 293 293 804 798 ' 1725 Sx 17½ 13-3/8 68 1-55 521 993 293 293 1286 1196 400 sx 12~ '" 9-5/8 43.5 N-80 BTC 1724 293 293 2017 1796 350 sx 19. To be completed for Redrill, Re-entry, and Deepen Operations. Present well condition summary Total depth' measured feet Plugs (measured) true vertical feet Effective depth: measured feet Junk (measured) true vertical feet Casing Length size Cemented ~v~sured depth True Vertical depth Structural -~' '~ Conductor R Surface /~¥.;'~? ~ .~ I n termed i ate t-x. '," L, of~55'~O~ Production ~.,~s ,;.;o~s, ' Liner ~5tk~, Oil ~ Perforation depth: measured true vertical *Su'b-operator/~arat'hon Oil Company **Rel±e£ ~ell for ~-26 20. Attachments Filing fee ~ Property plat ~ BOP Sketch [~ Diverter Sketch E~ Drilling p'rogram ~ .... Drilling fluid program ~] Time vs depth plot [] Refraction analysis [] Seabed report ~ 20 AAC 25.050 requirements 21. I hereby certify that the foregoing is true and correct to the best of my knowledge Signed~/';/~~,/~¢~~ Title Em, viroD, ental ?~ginel~r Date 4/27/8J -.' al~/~D. Roberts Commission Use Only Permit Number ! APl number I A P p roV~ 15.d/aJ. e2/8 8 [ See cover 'l'etter .... :~ ~ ~'"f 50--72,3' .- '~'~Je¢~o for other requiremen..ts Conditions of approval Samples required ~ Yes [] No Mud log required ~ Yes ~ No Hydrogen sulfide measures [] Yes J~ No Directional survey required I~ Yes [] No Required working pre_.ssurefor~~~SM; F-I 10M; i-I 15M ~~,,/.~ Other: ~,~~. __ by order of Approved by Commissioner the commission Date · Form 10-401 Rev. 124-85 Sub~ riplicate MARATHON OIL COMPANY RELIEF WELL #1 FOR WELL M-26, STEELHEAD PLATFORM MC ARTHUR RIVER FIELD, COOK INLET, ALASKA OVERVIEW REV. 5/9/88 The semi-submersible rig Diamond 'M' Falcon will be towed to Cook Inlet to drill relief well #1 for the intersection, stabilization and permanent abandonment of well M-26, Steelhead Platform. Following arrival of the drilling unit in the Cook Inlet, the Falcon will be positioned southeast and adjacent to the Steelhead Platform such that the relief well can be spudded from a location approximately 677' southeast of well M-26 at surface. The Falcon will be anchored using eight primary anchors on approximately 5,500' of 2-3/4" anchor chain each. Further, each primary anchor will be backed up with a piggy-back anchor approximately 500' beyond the primaries. The Falcon will test several flood and ebb tidal cycles to assure station-keeping ability prior to spudding. Prior to spudding the actual relief well, a 830' 9-7/8" diameter well will be drilled adjacent to the relief well location at surface to check for the presence of abnormally pressured gas due to the M-26 blowout that may be contained in the shallow formations. This test or observation well will be drilled to 830' RKB, or approximately 530' BML. The observation well will verify the flow or non-flow of gas or water at the mudline from the shallow strata at the relief well location. Following drilling and monitoring of the observation well, the relief well will be spudded. The relief well will be equipped with 30" structural casing cemented at either 380' RKB (80' BML) or 460' RKB (160' BML) dependent on the results of the observation well. Setting 30" at the shallower depth is advantageous as it allows initiation of directional drilling earlier. The 30" serves only as a conductor to help control loose, unconsolidated strata immediately below the seafloor. Following setting of the 30" casing, the relief well will be directionally drilled to 530' BML to set 16" casing. It is intended to build approximately 19° of hole angle prior to setting 16" casing. The relief well will have been drilled to this point with all returns to the seafloor, but following cementing of the 16" casing string, the subsea BOP will be run with riser back to the rig-floor. The diverter systems will be rigged-up at this time. A conventional drilling assembly will be used to drill out below the 16" casing allowing the well to drop angle back to near vertical. The hole will be drilled to approximately 1,230' TVD; the equivalent setting depth of the 13-3/8" casing in the actual relief well. Again, this will allow monitoring for abnormal pressures due to gas or water flows without having the mud-motor, directional drilling assembly in the well. After monitoring, the observation well will be plugged back with cement to the 16" casing shoe. At this'point the relief well will be directionally drilled to the 13-3/8" casing point at approximately 1,287' MD (1,200' TVD) at about 47° of hole angle. ~ The well will continue to be directionally drilled below the 13-3/8" shoe to approximately 1,900' MD~ 1,700' TVD. At this depth, magnetic ranging tools will be used to begin locating the M-26 wellbore. Following ranging surveys, 9-5/8" casing will be run and cemented at approximately 2,019' MD, 1,800' TVD. The relief well will be drilled below the 9-5/8" casing and ranging tool surveys will be run to effect intersection of the M-26 wellbore. Intersection is expected at approxiamtely 2,285' MD, 2,050' TVD. The relief well will follow the M-26 wellbore to TD using pre-planned well control procedures. Pressure stabilization and permanent abandonment of the M-26 wellbore will be accomplished using another string of pipe, if required, with cement squeezes and cement plugs. Sidetracks of the relief well may be required to intersect intermediate targets in M-26. DRILLING PROGRAM SUMMARY WELL: Relief #1 i · WELL DATA (a) Location at TD: At Surface: Water Depth: Unit: Field: Proposed Well Number: Well Class: (b) Drilling Unit: Est RKB to MSL (c) Drilling Contractor: (d) Operator for Unit: Sub-operator: (e) Anticipated Formation Tops (RKB 98') (f) Projected Total Depth: (g) Projected Deviation: MARATHON OIL COMPANY DRILLING PROGRAM 755.94'FNL, 571.26'FWL, Sec. 33, T9N, R13W, SM 13695' FNL, 1064.6' FWL, Sec. 33, T9N, R13W, SM Latitude - 60° 49' 41.8419" north Longitute - 151° 35' 32.2299" west or - 405' south and 540' east of well M-26 at surface. 195' Trading Bay McArthur River Relief #1 Relief Diamond "M" Falcon 98.3' Diamond "M" Drilling Company Union Oil Company of California Marathon OilCompany AC-1 Sand - 1423'TVD - 1591'MD AC-4 Sand - 1549'TVD - 1742'MD AC-6 Sand - 1689'TVD - 1900'MD AC-9 Sand - 1774'TVD - 1993'MD AD-2 Sand - 2008'TVD - 2242'MD AD-4 Sand - 2068'TVD - 2305'MD AD-6 Coal - 2163'TVD - 2405'MD 2,441' MD, 2,200' TVD As per directional program - Section III Relief #1 Casing Program (Depths - RKB) Hole Proposed Proposed Size Casing Size Grade Lbs/Ft Connection Shoe Depth Cement Top 36" 30"* N/A 640 Vetco ALT-2 + 453' Seafloor (1-1/2" W.T.) 22" 16" N-80 84 Hydril 521 ± 804' Seafloor 17-1/2" 13-3/8" 12-1/4" 9-5/8" K-55 68 Hydril 521 ± 1285' 200' into 16" shoe N-80 43.5 BTC ± 2017' 500' into 13-3/8" shoe Remarks - 160' below mud line - 511' below mud line - 992' below mud line - 1,724' below mud line Note: Ail joints to be drifted before running in hole. *Thirty-inch casing may be run to 373' RKB, or 80' BML, dependent on observation well. MUD PROPERTIES (SUMMARY SHEET) MUD TYPE Spud Mud* Spud Mud* Lignosulfonate Lignosulfonate HOLE SIZE: 36" 22" 17-1/2" 12-1/4" CASING SIZE: 30" 16" 13-3/8" 9-5/8" MUD WEIGHT: Seawater Seawater 8.8-9.8 9.0-i0.0+ FUNNEL VISCOSITY: PLASTIC VISCOSITY: 100+ 100+ 45-55 45-55 Spud Mud Spud Mud 10-15 10-15 YIELD POINT: - - 25-35 25-35 ph: API Fluid Loss: 10.5-11.0 10.5-11.0 20 cc or less 15 cc by casing point 20-10cc *Spud mud will be used for sweeps. The hole will be displaced with mud prior to running casing. ) SECTION I DRILLING PROGRAM 1.0 CASING PROGRAM 1.1 30" String The 30" string will consist of: - top joint 1-1/2" wall thickness welded to Vet¢o 30" housing, Vetco ALT-2 Box Down; - shoe joint - 1-1/2" wall thickness with 30" float shoe. Ail connections will be Vetco ALT-2. Pad-eyes to be welded on 30" for handling and two sets of elevators available. 1.2 16" String The 16" string will consist of: - 18-3/4" 10,000 psi Vetco SG5 wellhead housing complete with extension with Hydril 521 pin down on bottom; - intermediate joints 84 lb/ft N-80 - Hydril 521 box X pin; and - 84 lb/ft N-80 with conventional float collar up and down jet float shoe. NOTE: Float collar will be thread locked to top of shoe joint with a Hydril 521 box up and float shoe will be thread locked to bottom of shoe joint. 1.3 13-3/8" String The 13-3/8" string will consist of: - 18-3/4" x 13-3/8" Vetco hanger Hydril 521 pin down on 10 ft 68 lbs/ft K-55 pup joint; -intermediate joints 68 lb/ft K-55; - float collar thread locked into top of two shoe joints; - 2 shoe joints; - float shoe thread locked onto bottom of shoe joints. Ail joints to be drifted to 12-1/4". 1.4 9-5/8" Strin~ The 9-5/8" casing string will consist of: - 18-3/4" x 9-5/8" Vetco casing hanger, buttress pin down, complete with 6-10 ft 43.5 lbs/ft N-80 buttress pup joint; - intermediate joints 43.5 lb/ft N-80 buttress box x pin; - float collar thread locked into top of shoe joints; and - 2 shoe floats - float shoe thread locked on bottom of shoe joints. All joints to be drifted to 8-1/2". 2.0 CEMENTING PROGRAM General Type and amount of additives will be specified based upon laboratory results using cement, additive and mix water samples obtained from the wellsite. Ail cement will be Halliburton "Premium Cement". 2.1 30" Slurry Weight Additives : 15.8 ppg : 2% CaCI~ and as specified CFR-2, z2% CaC12 Yield : 1.15 cu ft/sk Required Thickening Time Objective cement top Approximate material requirement : 2 + hours : Seafloor : 1134 sx cement & 2132 lbs, CaC12 Plus additives Mix 250% excess on nominal annular volume and verify returns to seafloor. 2.2 16" S.~urry Weight : 15.8 ppg Additives : To be specified Yield : 1.15 cu ft/sk Required Thickening Time Required Compressive Strength Objective cement top : 3 hours : 1200 psi after 12 hours @ 60° F : Seafloor Approximate material requirements : 1725 sx cement + additives Mix 100% excess on the open hole volume and verify returns to seafloor. 2.3 13-3/8" Slurry Weight Additives Yield Required Thickening Time Required Compressive Strength Objective cement top : 15.8 ppg : To be specified : 1.15 cu ft/sk : 4 hours : 2000 psi after 12 hours @ 120°F : 604' RKB (200' above 16" shoe) Approximate material requirements : 400 sx cement + Additives Mix gauge open hole annular volume plus 200' of 13-3/8" x 16" annulus. 2.4 9-5/8" Slurry Weight Additives Yield Required Thickening Time Required Compressive Strength Objective cement top Approximate material requirements : 450 sx cement + Additives Mix the open hole annular volume as c~lculated from the average of the caliper logs with 20% excess plus 500~ of 9-5/8" x 13-3/8" lap. 3.0 MUD PROGRAM 3.1 Observation Hole : 15.8 ppg : To be specified : 1.15 cu ft/sk : 4 hours : 2000 psi after 16 hours @ 200°F : 700' RKB (500' above 13-3/8" shoe) Seabed - 830+ RKB (530 BML) Drill with fresh water (returns to seabed) with high viscosity pre-hydrated gel sweeps. Sweeps should be unweighted with a YP:PV ratio greater than 4:1. Sweep hole with ±35 bbl hi-vis pill on every connection or more often if required. 3.2 36" Hole Seabed - 483' ±RKB (190' BML) Drill with seawater (returns to seabed) with high viscosity pre-hydrated gel sweeps. Sweeps should be unweighted with a YP:PV ratio greater than 4:1. Sweep hole with ±35 bbl hi-vis pill on every connection or more often if required. Prior to wiper trips, pump 150 bbl of hi-vis mud around to clean hole. Before pulling out to run casing, displace entire hole volume plus 50% to 9.0 ppg mud with a water loss of ±15 c.c. to assist in keeping the hole open. If any bridges are encountered, repeat the process. 3.3 22" Hole 483'± - 834' ± RKB (533' BML) · Same as 36" hole. 3.4 17-1/2" Hole Depth Weight Funnel Viscosity ± 1315' RKB (1022' BML) 8.8 - 9.8 ppg 45 - 55 seconds/quart PV 10- 15 YP 25 - 35 lbs/100 sq ft ph FL use as required to control flow properties 10.5 - 11.0 20- 15 cc 3.5 12-1/4" Hole Depth ± 2047' RKB (1754' BML) Weight Funnel Viscosity PV YP ph 9.0 - 10.0+ ppg 45 - 55 seconds/quart 10 - 15 25 - 35 lbs/100 sq ft 10.5 - 11.0 20 - 10 cc 4.0 BOP AND CASING TEST PROGRAM General Instructions 4.1 - The Marathon representative or engineer will witness all pressure tests of BOPs, Surface Lines, Seal Assemblies, Casing and leak-off tests. - Ail pressure tests will be recorded on the IADC reports. - A pressure chart shall be recorded on all tests. - On all pressure tests of BOPs, record volume of fluid required for applying test pressure and the volume of fluid and time required to operate each function. - Ail BOP equipment will be tested with water. Prior to test, displace choke and kill lines and volume inside BOP to water. After test, leave unweighted gelled mud in choke and kill lines. - Ail test pressures will be held for 10 minutes. 4.2 Prior to running the 18-3/4" stack, the following high pressure and low pressure stump tests will be performed: - Shear Rams 5,000 psi and 300 psi; - Ail pipe rams 5,000 psi and 300 psi; - Ail Fail Safe Valves 5,000 psi and 300 psi; - H4 Wellhead hydraulic connector 5,000 psi and 300 psi; - Lower Spherical 3,500 psi and 300 psi; - Ail surface lines and choke manifold 5,000 psi and 300 psi. After mating the stack with the LMRP, test the upper spherical and the collet connector to 1500 psi. A complete function test will be performed with the pod not used for pressure testing. Ail remote control panels will be function tested. Check stack accumulators for proper operation. Record total surface and stack fluid volume available on IADC reports. Record times and volume of functions during accumulator test. 4.3 Once the BOP has been landed and before carrying out any pressure tests on the BOP, pack-off, casing, etc., the volume required to pressure up in each situation must be calculated. e.g. It is required to test the 9-5/8" pack-off to 7,500 psi. Let the volume of the lines from the cement unit to the BOP, plus the volume within the BOP from the rams to the pack-off total 25 bbl. -6 Assume a value for the compressibility of water/mud as 3 x 10 . Volume required to pressure up = 7,500 x (3 x 10-6) x 25 = 0.56 bbl. Whenever there is the possibility of pressure being applied to the outside of the casing e.g. when testing a pack-off, the volume required to pressure up the annular volume should also be calculated. (An estimate of the cement top will be required.) In this way, the maximum column that can be safely pumped without collapsing the casing will be known should the pack-off leak. 4.4 After 18-3/4" BOPs and 21" riser are run, run the plug type test tool and perform the following tests: Wellhead/BOP connector against 5" ram 300 psi and 5,000 psi; All Fail Safe Valves 300 psi and 5,000 psi; Sphericals 300 psi and 1,500 psi; - Ail Surface Lines 5,000 psi; Function test all rams, Annular Preventers and Fail Safe Valves with both pods. 4.5 After the stack is run, all BOP equipment will be tested weekly and/or each time casing is set. These tests should be performed according to the following pressure schedule, using the plug type test tool: Prior to setting 13-3/8" casing After setting 13-3/8" casing Pipe rams Annulars Fail Safe Valves Blind/Shear Rams* Kill & Choke Lines Choke Manifold (psi) 300 & 2,500 300 & 1,500 300 & 2,500 Function 300 & 2,500 300 & 2,500 (psi) 3OO & 5,OO0 300 & 1,500 300 & 5,000 Function 30O & 5,O00 300 & 5,000 *Do not back-off test plug to test blind/shear rams with BOP on seafloor. 4.6 After energizing the pack-off assemblies with the direct drive running tool, the following test pressure will be applied prior to pulling the running tool. Pack-Off Casing Burst Collapse Initial Test 13-3/8" K-55, 68 lbs/ft 9-5/8" N-80 43.5 lbs/ft (psi) (psi) (psi) 3,450 1,950 3,500 6,330 3,810 5,000 4.7 The casing bore protector will be visually inspected on every casing string, and during each BOP test which will be performed every seven days. STEELHEAD PLATFORM SCHEMATIC RELIEF WELL OF M-26 EQUIPMENT G. WHITLOCK 4/15/88 RIG FLOOR 6- Flowline Annular Prevento'r SHIP DECK · Telescoping Joint Diverter Lines Uniflex Joint 18 3/4' Shaffer Annular 18 3/4' Shaffer Annular Cameron Collet Connector Double Ram Preventer Double Ram Preventer H4 Connector Permanent Guide Structure TemDorary Guide Base SEA FLOOR &v// SECTION II DRILLING PROCEDURES 1.0 RIG MOVE 1.1 Rig positioning will be performed by Mini-Ranger IV triangulation survey method from onshore stations. Marker buoys will be spotted for anchor placement. 1.2 A 25' radius from surface co-ordinate is the maximum tolerance allowable. 1.3 Rig will move onto location on a heading of ± N-23°-E degrees. 1.4 De-ballasting will commence immediately after all anchors are out. 1.5 Once the drilling draft is reached, all anchors will be pre-tensioned to a minimum 250,000 lbs. The final position will now be determined using the triangulation survey method. 1.6 Ail anchors will consist of 25,000 lb Stevpris anchors and 40,000 lb Moorfast piggybacks. Drilling contractor will have a spare anchor on board rig with adequate line for piggy backs. Ensure that a spare chain chaser/grapple is on board during the rig positioning. 1.7 During pre-tensioning, the seabed will be tagged using a steel plate welded to an old bit and following recorded on the IADC form: RKB to MSL RKB to seabed (adjusted for tide) Water Depth (adjusted for tide) Ail these details should be relayed to the Marathon Anchorage office as soon as possible. 2.0 DRILLING 9-7/8" OBSERVATION HOLE 2.1 Move rig ±100' to north by anchor tensioning. 2.2 Make up BHA - 9-7/8" bit, 6 ea. 6-1/2" DC's, etc. 2.3 Drill to ±830' RKB to test for shallow gas, and plug observation well with 320 sx of Premium cement with 2% CaC12. 2.4 Move rig back to planned surface location. 3.0 RUNNING TEMPORARY GUIDE BASE 3.1 Prepare temporary guide base while de-ballasting; grease J-slot area in TGB and apply grease between the ball and cover plate in running tool. 3.2 Set TGB on spider beams and fill with sacked barite. Install slope indicator and Honeywell Inclination Beacon. 3.3 Make up running tool to TGB. Install guidelines in TGB. 3.4 Run TGB on 9" drill collars. Land out on seabed at slack tide and jump divers for inspection of level. 3.5 If slope indicator shows more than 3°, attempt to level temporary guide base. Otherwise unjay from temporary guide base. 3.6 Adjust guideline tension, taking care not to lift TGB from seabed. Note: All slope indicators should be checked for accuracy and consistency prior to installing on TGB, PGB, stack and riser. 4.0 DRILLING 36" HOLE 4.1 Make up BHA - 17-1/2" bit, 1-9" DC, 26" HO, MWD, 9" DC's, XO, HWDP. Ensure that a float and a Totco baffle are installed. 4.2 Run to seabed using soft-line to center drill string to enter TGB during slack tide and check depths. Space out drill string such that the bit will not come out of the hole on the first connection. Note: Jump divers to ensure drilling assembly has entered TGB. May need to move rig to enter TGB and assure 0° inclination with MWD. 4.3 Spud well by jetting as deep as possible - record time and date on IADC report. 4.4 Drill the first 30' using 9.0 ppg hi-vis (100-200) spud mud to prevent erosion of top hole. Take a survey after making the second connection and keep bit in hole. 4.5 Since a TGB is being used, continue with minimum pump rate and proceed with caution to minimize seabed erosion. Drill with seawater, sweeping the hole with approximately 50 bbl of hi-vis mud on connections. 4.6 Adjust ROP, WOB, RPM to maintain deviation to less than 1°. Take surveys at approximately 30' intervals. 4.7 At TD circulate hi-vis mud (YP/PV better than 4:1) around, then displace hole volume with 9.0 ppg mud with a water loss of ±15 c.c. 4.8 Drop Totco survey during slack tide and make wiper trip to within 30' of seabed. Retrieve Totco and run back to TD. 4.9 If hole OK, POH to run casing. 4.10 If hole not OK, ream and circulate around slugs of hi-vis mud until pipe moves freely. Displace hole volume with weighted mud as previously and repeat wiper trip before POH to run casing. 5.0 RUNNING AND CEMENTING 30" CASING 5.1 Prior to spudding in, make-up the 5" DP cementing stinger, standback in derrick, and prepare the permanent guide base. Guide posts, slope and rig position indicator receptacles, and Honeywell pinger receptacles will be installed. Guide posts should be identified by markers welded to guide posts. 5.2 Position PGB on spider beams and insert guide lines though posts and shackle to PGB. 5.3 The 30" casing, string is outlined in the casing program. 5.4 Cut off and grind down any pad eyes that are not required for setting the casing in the rotary and pick up shoe joint. 5.5 Run the casing throught the PGB. Tying the bottom joint of the conductor to the guidelines with lengths of soft manila line will aid entry through the TGB. Have diver retrieve Honeywell inclinometer from TGB for mounting on PGB. 5.6 Pick up the wellhead joint with the 30" Vetco running tool. Land the 30" housing in the PGB and make up split cover plate. 5.7 Release the running tool and make up the 5" DP cementing stinger, then space out so that bottom of stinger is approximately 30' above shoe. 5.8 Ensure casing is filled with seawater at spider deck and also that slope indicator and Honeywell beacon are in place on the PGB. 5.9 Make up the cam actuated running tool into the housing and proceed to run the casing using hevi-wate drill pipe as required. If necessary, use divers to close ball valve on the running tool after filling casing full of seawater. 5.10 Extend and lock the arms carrying the Honeywell transponders and pinger receptacles once the PGB is below the spider deck. 5.11 At slack tide jump divers to aid the entry of the 30" in the TGB and check for erosion and/or settling of the TGB. 5.12 Land the PGB. Check all measurements to ensure that the PGB is correctly positioned with respect to the seabed. If the TGB has settled below the sea floor hold the PGB 5' above the mud line. If the slope indicator is more than 1°, a management decision will be made whether or not to re-spud. 5.13 If the slope is 1° or less, proceed to break circulation and pre-flush with 50 bbl of seawater. 5.14 IMPORTANT. With seawater inside and 15.8 ppg cement outside, the conductor is neutrally bouyant. It is important therefore, once the PGB has been correctly positioned with respect to the seabed, that it be maintained in this position both during the cementing operation and while waiting on the cement to set. Compensator and guideline tension should be minimal during this period (see also 5.20). Movement due to tidal effects should be known and accounted for. 5.15 Mix and pump cement as per cementing program. 5.16 Displace stinger with seawater leaving 15' of cement above the shoe. 5.17 Check to see if float holds. If float does not hold, hold half of final pumping pressure on 30" until cement samples start to harden at surface. 5.18 Re-check water depth, etc. Record all measurements and correct to MSL/RKB. Enter on IADC report and morning report. 5.19 Wait on cement until surface samples harden (minimum 4 hours). Release running tool and POH. 5.20 If time and tides permit, divers may be jumped to catch a cement sample and inspect housing. 5.21 While waiting on cement, make up 18-3/4" wellhead housing with running tool. Will not use plug launcher on 16" - use stinger again. 6.0 DRILLING 22" HOLE 6.1 Make up BHA - 9-7/8" bit, bent housing mud motor, 2 - 7-3/4" monel, 6 - 7-3/4" DC, etc, as per directional driller. 6.2 Using soft lines, stab into the 30" housing with the aid of divers at slack tide. 6.3 Drill out cement using seawater. Drill shoe and clean out 36" hole to TD. 6.4 Directionally drill 9-7/8" hole with seawater as per directional driller. Leave 30' rat hole below shoe setting depth. Survey on every connection. 6.5 Control ROP to a level at which the hole can be kept clean, (100 ft/hr is the suggested maximum). Slug with 30-40 bbl hi-vis mud on each connection or more often if required, and each 100-150' drilled pump 75-100 bbl hi-vis mud around. Maintain a stock of LCM on board. 6.6 At 834' TD, circulate hi-vis mud (YP/PV better than 4:1) around, then displace hole volume with 9.5 ppg mud. 6.7 Drop magnetic multishot, pull to shoe. Retrieve multishot, run back to TD. 6.8 If hole OK, POH to run logs. 6.9 If hole not OK, repeat step 6.6 and wiper trip. 6.10 POH. Run logs according to logging program. 6.11 Open hole 9-7/8" to 17-1/2", then to 22" with 30' bullnose to assure hole is not sidetracked. Take gyro surveys at 100' intervals to ensure hole opener does not drill new hole. 6.12 POH to run casing. Make short trip if necessary. Note: · Exercise care when drilling this section as there is a possibility of shallow gas. 2. It is planned to set the 16" shoe at ± 804' RKB (800' TVD and 511' BML). 7.0 RUNNING AND CEMENTING 16" CASING 7.1 The 16" string is outlined in the casing program. Use drill collar clamps on flush-joint 16" casing. 7.2 The bottom two joints are to be threadlocked. Measure all joints as they are picked up. 7.3 The casing will'be run using soft line to guide the 16" into the PGB. 7.4 Install the soft line after making up shoe and collar joints. 7.5 Run and stab 16" casing at slack tide and jump divers to assist the shoe entering the 30" housing. Note: It may be necessary to adjust rig position dependent on tidal cycle - check OCS memo. 7.6 While running the casing, fill casing from rig floor. Ensure casing is filled before entering the open hole. (Note: Collapse pressure of 16" is 1410 psi). 7.7 Run the cementing stinger, landing joint and 18-3/4" wellhead housing. 7.8 Lower the casing on a running string made up of 5" HWDP. Re-check depth of 30" housing. 7.9 Break circulation with seawater and check string weights prior to landing out. 7.10 Land and latch in place 18-3/4" wellhead in the 30" housing. Check if latched by overpulling 10,000 lbs. If unable to latch, contact Anchorage base Drilling Superintendent prior to proceeding. 7.11 Circulate casing volume with seawater prior to cementing. 7.12 Mix and pump cement as per cementing program. 7.13 Displace the cement with seawater using cementing unit pump - monitor carefully. 7.14 Bleed off pressure and check float. If float does not hold, keep half of final pumping pressure on casing until surface sample starts to harden. 7.15 Release the running tool by turning to the right approximately 5-1/2 turns. Pull stinger and wash off the wellhead. 7.16 Lay down the 22" BHA. Prepare to run the 18-3/4", 10,000 psi BOP stack. 8.0 RUNNING THE 18-3/4" BOP STACK 8.1 The BOP stack will be completely pressure and function tested while on the stump before the 30" casing is set and according to the BOP Test Program sequence. 8.2 When completely tested and ready, move the stack to the spider beams and verify operation to both pods. 8.3 Run the stack and LMRP on the 21" riser testing each kill and choke line connection to 5,000 psi. Connect the telescopic joint. Land off the spacer housing on the rotary spider. Release and stroke out the inner barrel. 8.4 Position telescopic joint. Hook-up tensioners and choke and kill hoses. Close up riser and support ring, test choke and kill hoses to 5,000 psi. Note: The stack will be landed at slack tide. Jump divers to verify stack guide frame has gone over guide posts on PGB. Unlock compensator, land stack. Energize flex joint, install diverter element. Tension riser to 400,000 lbs. 8.5 After rigging down the riser running tools, run the wellhead test plug and perform the tests as per BOP test program. 8.6 Pull the test plug and run the 18-3/4" nominal seat protector. 8.7 Make up the emergency hang-off tools (including Otis 'N' nipple profile) and set back in derrick. 9.0 DRILLING 17-1/2" HOLE - OBSERVATION WELL AND DIRECTIONAL HOLE 9.1 Make up pendulum 9-7/8" BHA with MWD tool for drilling out. Bit/DC/Stab/MWD/NMDC/Stab etc. Include a float, baffle plate and 1 monel and be prepared to drop a survey on bit trips. Float to be run at all times and jars to be run above all drill collars. 9.2 MWD tool shall be tested electrically and function tested with mud prior to running in hole. 9.3 Run in the hole, tag cement, and drill to top of float collar. Keep RPM below 70. Test casing to 1,000 psi. Drill out shoe joint, clean out rat hole and drill ± 5' new hole. Ensure mud is fully conditioned. 9.4 Pull back into 16" casing and perform a formation leak off test. Do not exceed 10.5 ppg EMW during leak off test. 9.5 Drill 9-7/8" hole to 13-3/8" shoe at 1,200' TVD + 30' of rathole. Take MWD surveys at 100' intervals or more frequently if required. Drill no more than 100' without an accurate MWD or single shot survey. Drop a magnetic multishot when pulling out of the hole from TD. 9.6 Control the ROP in relation to hole conditions. Ensure that adequate hydraulics are applied both at the bit and in the annulus/riser. 9.7 Control mud properties as per mud program, making full use of solids control equipment. 9.8 At TD, make wiper trips to the 16" shoe and condition the hole as required to run logs. Strap out of hole. (a) Leave 30' rat hole below anticipated 13-3/8" shoe setting depth. (b) Make as many wiper trips as necessary for good hole condition. 9.9 Run logs according to logging program. 9.10 Abandon straight section of 9-7/8" hole by laying two separate cement plugs with the final cement top 200' back in the 16" casing shoe. 9.11 Drill cement to 50' below 16" casing shoe. Directional driller will witness plug hardness. 9.12 Circulate and condition mud. POH. 9.13 Make up 9-7/8" directional drilling assembly. RIH. Directionally drill 9-7/8" hole to 13-3/8" casing point. Circulate and condition mud. POH to 16" shoe and RIH. Circulate and condition mud. POH. 9.14 Run logs according to logging program. 9.15 Make up 9-7/8" bit, 1-6-1/2" Pony DC, 1-HWDP, 14-3/4" HO, MWD, 7-3/4" DC's and HWDP. RIH and open 9-7/8" hole to 14-3/4". Contition mud. POH. Make-up 17-1/2" under reamer with minimum 10' bullnose. Under ream 14-34/" hole to 17-1/2". Survey as required during hole opening and under reaming to assure well is not side tracked. 9.16 Pull out of hole and pull nominal seat protector. 10.0 RUNNING AND CEMENTING 13-3/8" CASING 10.1 The 13-3/8" string is outlined in the casing program. 10.2 All joints are to be drifted to 12-1/4". Measure all joints as they are picked up. The HWDP landing string to be used will be drifted to 2-3/4" to ensure passage of sub-surface top releasing plug. 10.3 The hanger joint, complete with pack off assembly and plug launching assembly, running tool, 5" HWDP, should have been made up previously and stood back. 10.4 Record the number of turns needed to make up the running tool for future reference. 10.5 The casing tally should be such that there is ± 30' of rat hole. 10.6 Centralizers may be run depending on hole conditions. 10.7 Use drill collar clamps on flush-joint 13-3/8" casing. Spider slips are to be used at all times on the rotary table. Side door elevators can be used in cased hole, but when entering open hole, slip type elevators are to be used. 10.8 Continuously monitor the fill-up of the casing as it is run. Limit the running speed to minimize surge. 10.9 Make sure all equipment is functioning properly and casing is full before the casing enters open hole. 10.10 Have a circulating swedge on the drill floor ready to be used if mecessary to wash the casing down. 10.11 Be prepared to make mouse hole connections with the drill pipe running string using kelly to circulate casing down if necessary. 10.12 Land the casing and check pipe measurements to ensure hanger is at correct depth. 10.13 Circulate the casing using rig pump until returns are clean. Reduce YP and gels to minimum values. Maintain same annular velocity as used while drilling. 10.14 Mix and pump the cement, as outlined in cementing program. 10.15 Use cementing pump to displace drill pipe and shear away plug. Displace the casing using cementing unit. 10.16 Bump plug to maximum of 1,500 psi and test casing as per BOP and casing program. 10.17 Check for backflow and be prepared to hold back pressure if necessary. 10.18 After ensuring that there is no backflow, release running tool by rotating to the right and hence set pack offs. Wash out wellhead, BOP's and riser to assure all cement is removed. 10.19 Close pipe rams on running string and pressure test seal assembly to 5,000 psi. The volume required to pressure up will have been calculated previously. EXTREME CARE SHOULD BE TAKEN DURING THIS OPERATION NOT TO COLLAPSE THE 13-3/8" CASING. (COLLAPSE RATING = 1950 PSI). 10.20 Open pipe rams and pull running string. 10.21 Run test plug and test BOP as per program. 10.22 Run wear bushing. 11.0 DRILLING 12-1/4" HOLE 11.1 Make up 9-7/8" BHA according to directional requirements. A float is to be run at all times. Be prepared to drop a survey on dull bits. Jars to be run above drill collars. 11.2 Run in hole and drill cement to float collar. Test casing to 2500 psi. Drill out collar/shoe joint, clean out rat hole and drill approximately 5' of 9-7/8" hole. Keep RPM below 100 through out. Circulate and condition mud for leak off test. 11.3 Pull back into the 13-3/8" casing and perform a formation leak off test. 11.4 Directionally drill ahead, keeping RPM below 100 until stabilizers are clear of the shoe. Drill 9-7/8" hole to depth as defined by the well program. Control all mud properties as per mud program. Take MWD surveys approximately every 100' or more frequently if required. The first ranging survey will be run at approximately 1,900' MD, 1,700' TVD. 11.5 At 2050'MD TD, (ensuring 30' rat hole for running casing), condition mud and hole as required for logging, drop magnetic multishot. Strap out of hole. 11.6 Run Schlumberger logs as per program. 11.7 Upon evaluation of Schlumberger logs a management decision will be made to run 9-5/8" casing or an abandonment procedure will be provided. 11.8 Open 9-7/8" hole to 12-1/4" to TD. 12.0 RUNNING AND CEMENTING 9-5/8" CASING 12.1 The 9-5/8" casing string is outlined in the casing program. 12.2 All joints are to be drifted to 8.5". Measure all joints as they are picked up. 12.3 It is planned that the casing string should be landed with 5" HWDP. The hanger joint complete with pack off, plug launching assembly and running tools, should be made up on HW drill pipe and stood back. 12.4 Record the number of turns needed to make up the running tool for future reference. 12.5 The casing tally should be such that there will be ± 30 of 12-1/4" rat hole. 12.6 Centralizers to be run as required - dependent on hole conditions. 12.7 Continuously monitor the fill-up of the casing as it is run. Limit the running speed to prevent surge. Note: Run 9-5/8" casing at a minimum of 45 seconds/joint. 12.8 Make sure all equipment is functioning properly before the casing enters open hole. Slip elevator and slip spider will be used at all times in the open hole. 12.9 Have a circulating swedge on the rig floor ready with chicksan connections if it is required to wash down casing. 12.10 Be prepared to make mousehole connections with kelly to circulate casing down if required. 12.11 Land out the casing and check measurements to ensure hanger is at the correct depth. 12.12 Circulate casing with rig pumps maintaining same annular velocity as used while drilling. Reduce YP and gels to minimum values. Circulate until returns are clean. 12.13 Mix and pump cement per cementing program. 12.14 Displace the landing string volume using the cement unit to launch plug. Use the cement unit pump to displace with mud. 12.15 Bump plug with maximum 1,500 psi. Test casing as per BOP and test procedure. 12.16 Check for back-flow and be prepared to hold back pressure on casing if needed. 12.17 Release the casing running tool by rotating to the right and hence set pack offs. Wash out wellhead, BOP's and riser to assure no cement. 12.18 Close pipe rams on running string and pressure test seal assembly/rams to 5000 psi. (9-5/8" N-80 43.5 lbs/ft - collapse pressure = 3,810 psi.) Monitor carefully the amount of fluid pumped. The volume required to pressure up will have been calculated previously. Do not continue to pump if leak is suspected. 12.19 If the pack off test is good, pull the running tool and run test plug and test BOP as per program. 12.20 Pull test plug. Run wear bushing. 13.0 DRILLING 8-1/2" HOLE AND WELL INTERSECTION 13.1 Make-up and RIH with 8-1/2" slick drilling assembly - run float. Drill out cement to float collar. Test 9-5/8" casing to 2,500 psi. 13.2 Drill float collar, clean out shoe joint, rat-hole and drill 5' of new hole. Circulate and condition mud. 13.3 Pull back into 9-5/8" casing and perform formation leak off test. 13.4 Change 8-1/2" BHA if required for directional control. Drill 8-1/2" hole making magnetic ranging surveys to effect intersection of well M-26 at approximately 2,285' MD (2,050' TVD). 13.5 Drill and/or wash while monitoring for lost returns or well flow from point of intersection to well M-26 TD at 2,265' MD - or approximately 2,440' MD in the relief well. 13.6 Well control procedures to be provided under separate section of this procedure. 13.7 Permanent abandonment of M-26 and the relief well to be effected through use of an additional string of pipe and/or cement plugs/squeezes as dictated by well conditions. Sidetracks of the relief well to other intermediate targets in Well M-26 may be required to accomplish permanent abandonment. Refer to the Directional Drilling Program. SECTION III DIRECTIONAL PROGRAM /-~ Eastn~n ~ _Eastman ~ Eastman ~ ~ Whip~oc~k ~ ,~~~E~tn~. n ~--~~ Whi~.pst~o~k ~ :. ,:::,:iii: :: ,, :: '." ':ii::!.: ::;ii".:' Eastman ~ ~ Eastman~ Eastman ~ Eastman ~ Whipstock 800 600 400 200 0 200 400 600 800 600 I 6OO 400 I 200 I 400 I 200 5OO 1000 1000 1500 200 17'OO I 200 2000 2068 400 ", 1,,ooo I 400 600 I 600 800 600 4OO 200 _ 200 .400 _ 600 .800 250 . 200 _ 150 _ 1 O0 _ 50 _ u 50 _ 100 _ 150 _ 1 50 1 O0 50 0 I I I I 50 2200 21 O0 2000 1600 l, 1900 ~oo 18001 1800 1700 \ 1 500 1 400 1300 1200 1000 3700 ~00 mm mm mm mm mm m mm mm mm mm mm I I I I I 1 50 1 O0 50 0 50 100 I 1 50 I 11700 I csqo { 2OO 1 500 [ I 4000 3900 1400 ;~ 300 \ \ 1200 \ \ 1100 \ 1000 000 I ~~,2oo _ I ! ! 1 O0 1 50 25O 200 150 100 50 _0 · 50 _ 100 150 HOR I Z~'T AL PROJECT I ON SCALE 1 IN. = 200 FEET HARATHON OIL COPIPANY Relief' Well No, 1 Pr'opo.ed FALCON. HcArthur Rmver.FI eld. Cook Inlet. AK 800 800 _ 600 _ z 400 _ I -,- 200 _ m 200 _ TARGET TVD-206S DEPI?S? NORTH 614 WEST 49,3 800 I WEST-EAST 400 200 I I TARGET LOCAT ! ON, 755' FNL. 52'2' FWL SEC, 3,3. TgN. R13W. SH 2OO I SURFACE LOOATION' 1369' FNL. 1065' FWL SEC- 33. TgN. RI3W. SH (APPROXiHATE) 405' SOUTH. 540' EAST FROH SLOT' BI-I. WELL' H-26 N 38 DEG 48 FIIN W 787' (TO TARGET) (PLANE OF PROPOSAL) HARATHON OIL COHPANY Rel lef' ~el I No~ 1 Pr'opoeed FALCON, McArthur River~=leld, Cook Inlet o 500 _ m 1 000 _ 1,--4 o 1 500 _ 2000 2500 . NOTE= RKB / TVD's are relative ~o RELIEF Well (98') 30" CONDUCTOR TVD=458 KOP TVD=4Z8 TMD=4?8 DEP=O 5'54' BUILD 5.9 DEG PER 100 ~T MAX I MUM AN GLE 47 DEG 41 MI N 17'42' 16" CSG PT TVD=Z98 TMD=804 DEP=53 29 ° 30' 41° 18' EOC / BEGIN DROP AND TURN TVD=l196 TMD=1286 DEP=312 43'1s' (13 3/8" CSG PT) 35'43' DOGLEG / 100 FT 4.25 DEG 28' 3i'' 22'26'9 5/8' CSG PT TVD=lZ96 TMD=2017 DEP=Z14 18' 6' TARGET (PRIMARY INTERCEPT POINT) TVD=2068 TMD=2305 DEP=787 I I 500 1 000 VERTICAL SECTION TARGET ANGLE 17 DEl3 1~ MIN SECTION IV WELL CONTROL PROCEDURES OBSERVATION PILOT WELL 9-7/8" Pilot Hole Seabed - 830' RKB · The pilot hole will be drilled with fresh drill water with returns to the seafloor. If hole stability becomes a problem, unweighted gelled fresh water mud will be used to complete the observation well. me 12.5 ppg kill mud should be kept in the on-deck pits to use for any dynamic kill operation. · If a gas or water flow is indicated by the MWD tool, continue to drill at 60 - 90 ft/hr to a depth of 830' RKB. At 830', if the gas or water flow continues, shut down rig pumps and start Halliburton pumps at the same time. (Note: Three Halliburton pumps should be run at idle and ready for use while drilling.) · Pump 12.5 ppg kill mud from the on-deck pits to kill the flow. Pump at 20 BPM until the well is killed as indicated by the MWD tool. · Plug and abandon the pilot hole with 15.8 ppg cement. Use gas-check additives if the MWD indicates a gas flow. Ye Prior to drilling the pilot hole, perform kill drills with the crews on each tour. The drill should include shutting down drilling operations and immediately bringing Halliburton up to kill speed. Halliburton can pump open-ended over the deck of the Falcon. Sequentially, run all Halliburton pumps at the kill speed. The test pumping rate for Halliburton should be 40 BPM. RELIEF WELL 30" Casing Section Seabed - 453' RKB me The hole will be drilled with a 17-1/2" bit and 26" hole opener. Use seawater if no gas or water flows were encountered in the observation well. The hole will be opened to 36". If gas is indicated by the MWD tool or the sonar sensor, pull out of the hole and skid the rig 50' to the south. 16" Casing Section 453' - 804' 1. Drill the initial interval of the hole with a 9-7/8" bit. me Drill this interval with seawater unless information from the pilot hole indicates the use of higher mud weight. 3~ 0 5o 0 7~ 0 o 10. 11. 12. The drill rate should not exceed 90 ft/hr. If gas is indicated, stop the rig pumps and line up on Halliburton. (Note: There will be three Halliburton units running at all times while drilling.) Pump 12.5 ppg kill mud weight from the on-deck pits at 20 BPM. After the well is dead, continue to drill to 804' RKB with 12.5 ppg kill mud. Circulate returns to seafloor. 12.5 ppg mud must be used in the hole opening bit runs. If the well starts flowing while opening the hole to either 14-3/4" or 22", stop the rig pumps and line up Halliburton. Pump 12.5 ppg mud from the on-deck pits at a rate of 20 BPM. Do not exceed 50 ft/hr during the hole opening or under reaming. When the hole is opened to 22", circulate the hole clean with the mud weight used to complete the interval. After the 16" casing is run, circulate the hole clean. Do not start cementing if gas flow is indicated. If the well starts flowing while cementing, immediately displace all cement from the hole and kill the well with 12.5 ppg mud at 30 BPM. Prior to drilling out the 16" pipe, perform dynamic kick drills with the rig crews and Halliburton. Pump overboard and run all Halliburton pumps during the test. Test rates should be at 20, 30, and 40 BPM. 13-3/8" Casing Section 804' - 1286' Drill a 9-7/8" hole with a 10.7 ppg mud. Do not exceed 60 - 90 ft/hr. 2. Flow check all drilling breaks. 0 Shut the well in with the diverter on a 5 bbl pit gain or a flow rate increase. 0 If the well starts to flow as indicated by a pit gain, flow rate increase or MWD tool, pick up the kelly, shut down the pumps and close the diverter. 5~ Start pumping 12.5 ppg mud with Halliburton at 20 BPM. (Note: Three Halliburton pumps should be run at idle and be ready for use at all times). Pumping should begin as soon as possible after a kick is detected. e After the well is dead, circulate and condition the mud system to 12.0 ppg and continue to drill to 1,286' RKB. 7. Do not exceed 50 ft/hr during the hole opening or under reaming. 8, If the well starts flowing during the opening or reaming, pump 12.5 ppg at 20 BPM until the flow is killed. 0 Prior to cementing the 13-3/8" casing, circulate the hole clean. Do not cement if gas flow is indicated. 10. If the well starts flowing while cementing, immediately displace all cement from the hole and kill with 12.5 ppg mud at 30 BPM. 11. Prior to drilling out of the casing for the next hole section, perform kick killing drills. The drills should include simulated kick detection and shut-in procedures. Use the rams for shut-in. Perform drills to determine the SIDPP when a float is used. 9-5/8" Casing Section 1286' - 2017' (1800' TVD RKB) 1. Drill the hole with 9-7/8" bit. Use the 12.5 ppg mud. 2. Do not exceed 30 - 40 ft/hr. 3. Flow check all drilling breaks. e If the well starts to flow as indicated by a pit gain or flow rate increase, pick up the kelly and shut down the rig pumps. 5. Pick-up the kelly to a pre-determined height for proper space out. e Close the upper set of pipe rams and open inner and outer fail safe valves. Ye Read and record the SIDPP and SICP. If a float is used, pump slow and determine the SIDPP. 8. Calculate and mix the kill mud weight. 9. Kill the well. M-26 Kill Procedure · · Drill the R-1 relief well into the M-26 wellbore. Drill this interval with a 8-1/2" bit. Use 12.5 ppg mud. (The reserve pits on deck must be full of 13.5 mud). 3. Do not exceed 30 - 40 ft/hr. e e e e 9, When the M-26 well is intersected, circulation will be lost if the M-26 well is flowing at the intersect point. Pump into the well down the drill string. Keep the annulus full so that the relief hole will not collapse. Pump directly into the annulus down the choke and kill lines if necessary to keep the R-1 relief well full. Use as many HT-400's as necessary to keep the relief well on positive pressure (full). (Note: Below the 9-5/8" pipe depth, keep six Halliburton units running at idle at all times). Pump 12.5 ppg mud from the active system and 13.5 ppg mud from the reserve system. After the well is dead, wait for 24 hours to assure the M-26 wellbore is stabilized. P & A operations will be outlined. Prior to intersection of the M-26 well, an observer(s) will be on the Steelhead Platform to observe effects on the M-26 vent around Leg B-1. Communications will be maintained with this observer(s) while pumping into or cementing Well M-26 through the relief well. SECTION V OPEN HOLE LOGGING PROGRAM Depth Interval-RKB Hole Size Seabed -453 ' 36" Casing Size Logs Required 30" None 453 ' -804 ' 22" 16" DIL/GR/SP, LDT/CNL/GR/CAL, 804 '-1286 ' 17-1/2" 13-3/8" DIL/GR/SP, LDT/CNL/GR/CAL, CBT/CCL/GR 1286'-2017' 12-1/4" 9-5/8" DIL/GR/SP, LDT/CNL/GR/CAL, CBT/CCL/GR General Notes on Logging (a) The company engineer is responsible for ensuring that log headings are completely and correctly filled in, that remarks are included regarding any scale change or equipment operation abnormality, and the First Reading depth for each sonde sensor is noted in the depth track of the 1/200 film. (b) Logging runs should be overlapped approximately 300 feet if possible. (c) A minimum of 200' repeat section should be included on the 1/200 film of each survey. This repeat section should be prospective pay zones of varied lithology for quality control purposes. (d) Ail logs will be digitally recorded. The tapes will either be transmitted or hand carried to the Marathon Anchorage office. (e) Ail field calibrations should be recorded on 1/200 film with full explanatory notes. This includes zero and calibration recordings before and surveys as well as caliper recordings of at least 25' in casing. (f) Logs should be filmed on 1/200 and 1/500 scales (feet). Alasl egion Dome.,.,c Production Marathon Oil Company May 10, 1988 R O. Box 190168 Anchorage, Alaska 99519 Telephone 907/561-5311 Mr. Mike Minder Alaska Oil & Gas Conservation Commission 3001 Porcupine Drive Anchorage, AK 99501 Dear Mike: This letter and the attached drawing should complete the information that you requested for approval of the drilling permit for the Relief Well #1. The 16" diverter lines are arranged in 180° phasing. The valves are hydraulically actuated. The valves are arranged so that one valve is opened where the diverter is closed, At this time, Marathon requests an exception to rule 20AAC25.030(d)(2)(B) requiring that cement be pumped to the sea floor on the 9-5/8" casing. Due to shallow setting depth, the 9-5/8" shoe will probably not support an entire column of cement. Cement is being brought into the 13-3/8" casing. As noted in the well program, the 13-3/8" and 16" will be cemented back to the sea floor. The BOP stack to be utilized is an 8-3/4" - 10,000 psi limit. Sincerely, G. R. Whitlock Drilling Superintendent Attachment GRW/rs/DD8/37 RECEIVED MAY 1 21988 Alaska Oil & Gas Cons. Commisslorl Anchorage A subsidiary of USX Corporation Detail of Diverter Syst n Hydraulically Activated · . Ball Valves 16' Diverter Line ~-"'- 80' STEELHEAD PLATFORM SCHEMATIC OF M-26. RELIEF WELL EQUIPMENT' G. WHITLOCK 4/15/88 RIG FLOOR '~ -- Flowline Annular Preventor' 16' Diverter Line SHIP DECK Telescoping Joint 18 314' Shaffer Annular Cameron Collet Connector Double Ram Preventer Double Ram Preventer H4 Connector Permanent Guide Structure Temporary Guide Base SEA FLOOR RECEIVED MAY 1 2 1988 Alaska Oil & Gas Cons. Commission Anchorage Unocal Oil & Gas .~ion Unocal Corporation P.O. Box 190247 Anchorage, Alaska 99519-0247 Telephone (907) 276-7600 UNOCAL Environmental Department Alaska District Dear Mike': May 12, 1988 Mr. Mike Minder AK. 0il & Gas Conservation Comm. 3001 Porcupine Drive. Anchorage, Alaska 99501 Re: Permit to Drill, Relief #1 Trading Bay Unit McArthur River Field UNOCAL's Alaska Drilling Group has reviewed Marathons proposal and approves of the information presented anO the proposed modification to the Permit to Drill, Relief #1 as outlined in Marathon Oil Company's letter dated May 10, 1988. Sincerely, Roy' D. Roberts Environmental Engineer cc S.L. McLean - Ventura G.R. Whitlock - Marathon Anch. RDR/lew RECEIVED Alaska Oil & Gas Cons. Commisslai Anchorage Alasl egion Dome~,,c Production Marathon Oil Company May 10, 1988 R O. Box 190168 Anchorage, Alaska 99519 Telephone 907/561-5311 Mr. Mike Minder Alaska Oil & Gas Conservation Commission 3001 Porcupine Drive Anchorage, AK 99501 Dear Mike: This letter and the attached drawing should complete the information that you requested for approval of the drilling permit for the Relief Well #1. The 16" diverter lines are arranged in 180° phasing. The valves are hydraulically actuated. The valves are~j~;arranged so that one valve is . opened where the diverter is closed, ~__~A~A ~4~ ~lw~$ ~ ~R~J' At this time, Marathon requests an exception to rule 20AAC25.030(d)(2)(B) requiring that cement be pumped to the sea floor on the 9-5/8" casing. Due to shallow setting depth, the 9-5/8" shoe will probably not support an entire column of cement. Cement is being brought into the 13-3/8" casing. As noted in the well program, the 13-3/8" and 16" will be cemented back to the sea floor. The BOP stack to be utilized is an 8-3/4" - 10,000 psi limit. Sincerely, G. R. Whitlock Drilling Superintendent Attachment GRW/rs/DD8/37 A subsidiary of USX Corporation Detail of Diverter System I I Hydraulically Activated Ball Valves 16' Diverter Line ~ ~- STEELHEAD PLATFORM SCHEMATIC OF M-26 RELIEF WELL EQUIPMENT* Go WHITLOCK 4/15/88 RIG FLOOR 6 ~ Flowline Annular Preventor' 16' Diverter Line 80' SHIP DECK Telescoping Joint Uniflex Joint 18 3/4' Shaffer Annular 18 3/4' Shaffer Annular Cameron Collet Connector Double Ram Preventer Double Ram Preventer H4 Connector Permanent Guide Structure Temporary Guide Base SEA FLOOR &v// u,~u~ ~ ,-u,, ~,~w w~,.~. ,~,~L,zzo uo..,'~any U/J/O~L~ ~a~.om~) Lease & Well No. ITI~ APPROVE DATE YES NO (1) Fe_~e ~ ~-/~/~ 1. Is the permit fee attached .......................................... (2 thru 8) (8), (3) Admin ~ (9 thru 13) (10 and 13) (4) Casg (14 =hru 22) (23 thru 28) ~/~_/. '~ (29 thru' 31) · (6) Add.' Geology: Engineering: wwB" ~ LCS B~ rev: 02/17/88 6.011 2. Is well to be located in a defined pool ............................. ~ 3. Is well located proper distance from property line .................. ,~ 4. Is well located proper distance from other wells .................... ~ 5. Is sufficient undedicated acreage available in this pool ..~ .......... ~3 6. Is well to be deviated and is wellbore plat included ................ ~F 7. Is operator the only affected party ................................. ~ 8. Can permit be approved before fifteen-day wait ...................... ~. 9. Does operator have a bond in force .................................. _~ 10. Is a conservation order needed ...................................... 11. Is administrative approval needed ................................... 12. Is the lease number appropriate ...................................... ~ 13. Does the well have a unique name and number ......................... ~ 14. Is conductor string provided ........................................ 15. Will surface casing protect fresh water zones ....................... 16. Is enough cement used to circulate on conductor and surface ......... 17. Will cement tie in surface and intermediate or production strings ... 18. Will cement cover all known productive horizons ..................... 19. Will'all casing give adequate safety in collapse, tension and burst.. 20. Is this well to be kicked off from an existing wellbore ............. 21. Is old wellbore abandonment procedure included on 10-403 ............ 22 Is adequate wellbore separation proposed · eeee..eee.e.ee...eeeee...eee 23. Is a diverter system required ....................................... ~ .. . 24. Is the drilling fluid program schematic and list of equipment adequate/~ 25. Are necessary diagrams and descriptions of diverter and BOPE attached.,~,~ 26. Does BOPE have sufficient pressure rating - Test to ~OOC) psig .. ~ .... 27. Does the choke manifold comply w/API RP-53 (May 84) .................. 28. Is the presence of H2S gas probable ................................. ,~ For exploratory and Stratigraphic wells: 29. Are data presented on potential overpressure zones? ................. 30. Are seismic analysis data presented on shallow gas zones ............ 31. If an offshore loc., are survey results .of seabed conditions presented 32 Additional requirements ' · .eleeeee.eeeee...eee®ee.eeeeeeeeeeeee.eeeeeee INITIAL GEO. uNIT O~/OFF POOL CLASS STATUS AREA NO. SHORE ,, , Well History File APPENDIX Information of detailed nature that is not particularly germane to the Well Permitting Process but is part of the history, file. To improve the readability of the Well History file and to simplify finding information, information of this nature is accumulated at the end of the file under APPENDIX. , No special effort has been made to chronologically organize this category of information. ****************************** COMPANY NAME I MARATHON OIL CO WELL NAME ~ TBU RELIEF #I FIELD NAME = MCARTHUR R~VER STATE ~ ALASKA BOROUGH ~ KEN.AI REFERENCE NO ~72~62 Tape Yer.l~lcation Llstinq lumberger AlasKa ComPuttn~ Center 19-AUG-19A8 05~05 **** REEL HEADER **** R1 NAME 2 P COMMENT : EDIT [.IS,MARATHON MCARTHUR hIVER TBU REb£:[F #1,50-733~20400 ~ R **** TAPE HEADE **** ~:.R~ICE NAME I EDiT DAT~ : 88/08/19 TAPE NAME , 862 ~INUATIO. N # : 1 iOUS TAPE COMMENT **** FILF HEADER **** " T 00,1 : E, DI, : rblC /08/19 1024 PAGEI ************************************************************************************* , SCHLUMBERGER , ALASKA COMPUTING CENTER JOB NU~BER AT AKCC: 72862 RUN #I DATE bOGGED! 26-dUN-88 RUN #~ DATE LOGGED~ O9-OUL-88 LDPI RICK KRUWELL RUN #1 C~$~N~ DRILLER TYPE fLUID DENSITY VISCOSITY pH F!,U?D LOSS ~AT~IX SANDSTONE 16,00" 0 657' - BIT SIZE = 20" TO 657' 13'~75" @ 1182' ' BIT SIZE = 17,5" TO 1182' GEL WATER 9 3 LB/G R~ ' I,~ ~ 71 DF 10.8 R~C = 2,32 ~ 65 Dr ~4 C] RM AT BHT ~ 1,585 ~ 85 DF RUN #2 CASING DRILLER TYPE FLUID DENSITY 9.625" M 1804' ' BIT SIZE = 8,5" TO 2310' GENERIC #2 10 LB/G 19-AUG-1988 05:05 PAGEt 2 Center VTSCOSIT¥ = 46 S NOTES 1,]FILE EDIT, O0~ CONTAINS DATA OF DUAL INDUCTION ( ,ITHO DENSITY AND GAMMA RA ,¢SG) 2 COLLAR ! AND COMPENSATED NEUTRON DATA DEPTH CORRECTED TO DUAL Y IN CASING DEPTH CORRECTED TO RUN I GAMMA RAY SCHLUMBERGER LOGS INCLUDED WITH THIS MAGNETIC TAPES DUAL INDUCTION SPHER1CAt~LY, FOCUSED LOG DATA'AVAILABLE: 2268' TO ~182' [,ITHO DENSITY 50G ('bDT) DATA AVAIbABbEI 1800 TO i~82' COMPENSATED NEUTRON LOG DATA A~AI'~ABLE~ ~1.786' TO GAM~A RAY THRU CAS.lNG DATA AVAIbABLEt 1800' TO 852' T~BLE TYP~ : CONS TUNI VALU DEFI CN ~ARATHON OIL CO Company Name FN MCARTHUR .RIVER Fle~d Name WN TBU RELIEF ~1 weX~ Name NATI USA Nation STAT ALASKA State or Province COU. ~NAI County 8~CT Sectlon TOWN 9H To~n~hlp RANG 13w Range L~T! 60,8283 batlt~de LONG Lonqltude OPER )4J'7CRYER operator's Code SON ~5~ service OTder Number APIN 50 733~0400 AP/ Serial Number FL ~$~[,4~ FNb &1053,57' FWL Field Location )n Llstlnq ComPutln4 Center 1g-AUG-1988 05:05 TABLE TYPE { CURV D~PT DEPTH CHANNel, NAME SFbU SFb Un iLD IL-Dee D~H~ Del AH08 DPH! P~F b~ bono TEN8 MRE8 NPH! TNRA RTNR RCFT RCNT CFTC CNTC GP TFN$ HTEN M~ES MTEM on or Window Count Rate 1'2 Window Count Rate (bU1+bu Rate 3bott Qpacinq ~ Window Count Rate 8ho~t ~uacing. Window Count Rate Callpe~ OUAL~TY CONTROL ON ~HORT SPACING FOR bDT OUALZTY CONTROL OF bONG SPACING FOR bDT bono Spacino HIO~ Vo~taoe Output Short 8paci6o Hig~ v6Itaqe Loop Output Gamma Ray Tension MUD RESI$.IVITY UDTEMP~RATUR£ EAD TENSION NEUT,~ON POROSITY CALI RATED THERMAL NEUTRON RATIO RAW THERMAL NEUTRON RATIO RCFT RCNT CFTC CNTC Gamma Ray Tension HEAD TENSION MUD RESISTIVITY MUD TEMPERATURE Gamma Ray Tension PA g: ~erifice~ion L Center 19-AUG-1988 05:05 DATA FORMAT SPECIFICATION RECORD ** SET TYPE - 64EB ** 1 66 1. 68 0 5 1 66 1) 66 ~T 14 65 0 6:6 0 mmmmmm~#mmmmmm#m~mmmm~~! ** SET TYPE - CHAN ** UNIT 8E~VIC£ A);I APl APl APl FIbE NUMB NUMB SIZE REPR PROCESS ORDER # bOG TYP~ ~bASS M~D NUM~ SAMP EbEM CODE (HEX) F? $ DIL OHMM DIL OHMM SP DIG MV D~HO LDT ..0" LOT G,C3 DPH! bDT PU P~F LDT LL LDT CPS LU LDT CPS LS LDT CPS L[TH bDT CPS $~ I LDT CPS $$2 ~DT CPS CaL! DT IN ~$H¥ ~D? V $SHV bDT V GR ~D? GAPI T~NS DT LR MRE$ LDT OHN~ ~TE~ bDT DEGF HTEN LDT LB NPH! CNL PU TNRA CNL RTN~ CNL 1 i 1 1 4 ! I 4 I 1 1 4 I 1 1 4 I 1 1 4 I 1 I 4 ! , 4 I 1 1 4 1 I I 4 1 1 1 4 I I 1 4 I I 1 4 1 1 I 4 I I 1 4 I I I 4 1 I I 4 I I I 4 1 I I 4 I 1 1 4 I I 4 i I I 4 69 ~ 0000000000 0000000000 oooooooooo 0000000000 0000000000 68 O0000000OO ~000000000 000000000 0000000000 0000000000 0000000000 0000000000 O000OOOOO0 0000000000 68 0000000000 68 0000000000 68 0000000000 0000000000 0000000000 68 0000000000 68 0000000000 68 0000000000 8 0000000000 ~8 0000000000 68 0000000000 68 0000000000 ?a~e verf~fcatlon I,ist!nq get AlasKa ComPuting Center 19-AUG-1988 05:05 PAGEi 5 ID ORDER # LOG TYPE CLASS MOD NUMB CPS CPS HTEN i SP ~0~ LDT TNR~ CNL CFTC tnb HTEN DEPT SP Pl~ RHOB tPT S~U ~DT ES bDT TNRA CFTC ~NbNb HTEN CNL TENS CSG DEPT H&P PI~ RO~ bDT LU bDT 8$2 bDT bSHVbDT M~ES~DT TNRA Nb CFT~ CNb H?EN CNb TFNSCSG 22~!, ,999; '999 '999 '999 '999 '999 -999 2200 -]2 -999 '99~ '99 '999 '999 '999 -999 '999 '999 210 -999 -999 -999 -999 -999 -999 -999 -999 -999 500 O47 25O 5O ~fiO ~0 000 rio 000 375 25O 250 250 250 250 25O 250 250 250 SFLU DIL bS LDT CALI LDT SH'V bDT TEM LDT CNTC, CNL MRES CHh DIL DPHI LDT SSHV LDT MTEM LDT RTNR,,CNL CNTCiCNL MRE$ CNL SFLU DIL GR DIL DPHI LDT bS bDT CAbI LDT SSHV LDT MTEM bDT RTNR CNL CNTCCHL MRES CNL 34 748 60 219 -999 250 -999 2 0 -999 250 -999 250 810 4 000 -999 250 -999 t50 -999 50 -999 250 -999 250 -999 ~50 -999 50 '999 250 5 466 40 781 -999 250 -999 150 -999 50 -999 250 -999 2'50 -999 250 ~EN$ DI~ PEF bDT C~ ILD, DIL TENS DIL PEr LDT LITH bDT OSS bDT GR bDT ~TE~ bDT RCFT CNL GR CNL ~?EM CNb ILD DIL TENS DIL Pir bDT I H bDT bo S LDT GR LDT HTEN LDT RCFT,CNb MTEM NL 20 ~5 -999 ::50 '999.~0 '999 0 '999 '999 250 3,769 1045,000 -999,250 -999,{50 '999, 50 50 :999 150 999 ~$0 -999 $0 IbM, DRHO, Lb RCNI TEN GR IbM DRHO TEN8 NPH! ReNT GR 120 . g Pit, LOT bDT CNL '999, '~99, '999, OIL bDT LOT LDT 4~ ion ~ Center 19-AU~-19BB 05:05 PAGE: L~ L~ CFTC HTEN TFN$ SP RHOB MRES TNRA CFTC TENS DEP? SP RHOB $82 LSHV bDT DID LDT LDT LDT LDT L DT LDT LDT CNL D iL LDT LOT LDT LDT 2000,000 "5,.254 '999 250 250 2.50 50 -999 250 1800~000 i13,813 65~ 859 5OO 39 540 562 685 045 1050 000 1700 000 -46 438 1 344 000 i 583 000 466 713 660 352 1070 000 1~0,000 4,938 2'129 409,0~4 341,167 1583,000 bDT DPHI,LDT CALl LDT SSHV £,DT MTEM LDT RTNR CNL CNTC CNL MRES CN5 SrbU DIL GR DIL DPHI bDT bS bDT CALl bDT SSHV LDT MTEM bDT RTNR CHL CNTC CNL MRES CNL OR DIL DPHI bDT bS LDT CALl bDT $SHV bDT MTEM,LDT RTNR CNL CNTC CNL MRESCNL SF~,DIL DPHI "DIL .LDT LS,LDT CAbI,LDT S~HV,LDT '999 -999 10 730 52 938 -999 -999 000 lSO~ 8~ ,,44 196~ 385 ~ 659 59 83 17 266 1509 000 84 37 4 I~6 1796 090 I 331 11 657 57 313 31 582 460 750 14 878 1508 000 Il, ,DI~ TEN~.DI ,bDT HTEN ,bDT RCFTiCNL GR CNL MTEM CNL ILD DIL TENS DIL PEF bDT LITH bDT OS$ bDT GR bDT HTEN bDT RCFT CNL OR CNL ~TEM CNL ILD,DIL TENS,DIL PEF LDT LITH:LDT O$S,LDT GR,LDT 430 80~ 203 000 ',,0, 0 4 6 0 760, 2'902 129,605 -0 01 IL#~DI N~HI,,C~L RCNT,CNL ~hM,Olb DRHO,LDT LLeLDT S$i'LDT GLSeLDT T~NS,LDT 4 ~0 '*0 4 12t ~0 196 12~ 969 1,844 I0,014 2 ;7o8 ,0 TN DEPT T~ DEPT LSHV MRE8 CFTC H?EN TENS DEPT bSHV MRES TNRA CFTC HTEN TENS bDT CNh CNL D :! b )T bDT bDT b LDT LDT bDT bDT SG DXL LDT LDT bDT bDT bDT CNL cation stln~ Center 1.315 3~119 796,656 000 583 603 646 925 000 1400,000 '3~,078 ,090 66,332 68,333 ,000 158~ ,305 43~ ,781 ;924 552,668 950L000 1~00 000 09 429 250 349 000 158~ 000 295 79~ 810 ~60 682 000 9~5 000 1200.000 '0.026 2.172 1583 .350 .000 493 071 000 05:05 ~TE~.,..bDT 84 463 HTEI bDT RTNR.CNL ~ CNTC.CNL 237 O0 MRE$ ,CNt, I CNL SFbU, DIL bDT RTNR CNL CNTC CN5 MRE8 ~CNL SFbU DIL GR DIL DPH! bDT SSHV, LDT ~TEM~LDT RTNR CNL CNTC MRES CNL SFLU DIL bD bS bDT CAb! bDT $$HV bDT MTEM LOT RTNR CNL CNTC CNL HRE$ CNL SFLU.DIL GR,DXL DPHX.bDT bS,LDT CAbl,LDT $$HVeLDT MTEM.LDT RTNR,CNL CNTC.CNL MRE$.CNL 2 XLD,DXL 8 TE~.$~DX5 9 PEF~LDT 9 091 5 O00 094 ~5~ 00.0 "200 3 828 164~ 899 3O5 IbD,DIL ~TEM,CNL 13 484 i5 2 237t 219 295 XLD,DIL Xb OR,bDT HTEN;bDT RCFT,CNL Ge,Cab MTEN,CNL 6 469 423 750 14 462 1507 Si 200 699 i816 102 I 305 ILD,DIL TEN$,DXL PEF,LDT LXTHebDT O$$,LDT GRebDT HTEN,LDT RCFTeCNL GR,CNL MTEM.CNb PAGEI 84 ~ NP'H 463: CNL CNbC~b ~ 16 225 ILM,DIL !4 10 75 XLM DXL 9~ 17 8~8 ~00 $& bDT NPHI RN CNb GR 8,737 7300 71 54~.2o3 XLM DIL DRHt bDT { LOT $~I bDT Ob, bDT TEN~I OT RCN' GR CaG 7 *5 bls R~O bDT b8 RHOB bDT sLU bDT CFTC CNL H?EN CNL TENS CSG D~PT SP RHOF bDT LU bDT SS2 bDT L~HV LDT M~ LDT TNRA CNL CFTC HTEN CNL DEP?, SP,DZL RHOFeLDT LU,LDT 8S2,LDT LSHV,LDT ! ~ 8 860,000 000 000 999 25O I 289 4 98O 237 ,601 678 5OO 815,000 9OO 000 -999 250 171 409 IS8 000 278 1~ 668 500 ?~0 000 800,000 -999,250 ,45516 ,125 89,875 1588,000 1'295 4,800 $8 ' -999,250 70~,000 '90 ,250 ,459 16 ,750 86,875 1592,000 :inO Center GR DPH! ~DT bS DT SFLU, f DPHI BDT b bDT CALl LDT SSHV bDT MTEM bDT RTNR C~b c. c MRES DIL DPHI, LDT b8 LDT ALI bDT 8HV bDT MTEM CNTC CNL MRES CNL SFLU,DIL GR,DIL DPHI bDT b$ LDT CALl LDT SSHV bDT MTEM bDT RTNR CNL CNTC CNL MRES CNL SFLU,DIL GR DIL DPHI bDT bM bDT CALl LOT SSHV LDT 19-AUG-1988 05105 250 250 130~ -99 7B 182 8 9 O96 289 HTEN RCF? GR MTEM bDT LOT - 99 75 18% 8~ 25O 250 . 88 TENS LITH HTE8 RCFT OR MTEM .LOT bDT .bDT bDT DT -999 250 -999 250 72 4 7 l?t 1~ 492 ]51 000 84 17 5 1.236 973 1 295 ILO TENS PEr bDT LITH bDT 058 bDT GR bDT HTENLDT RCFT CNL GRCNL MTEM CNL -999 250 -999 250 72 197 172 625 12 492 1510 000 IbD,DIb TEN$,DIL PEr,bDT LITH,LDT O$$,LDT GR,LDT -9! 35,656 18,484 -999,250 -999,250 80'688 17,156 '0,056 17,922 DILM., HO;bDT DT eN ,eNL GR'N DRHO, bDT S&bk:bDTLOT TE~$', LD DT NPHI, R~WT, TENS CNL OR C,5O ILM,DIL DRHO,LDT Lb,bDT Sgt,LDT Qb ,bDT T~N$,LDT 14¸ 9"5 t4 8 '999,250 'I,257 ,I56 '999,250 -1'257 90.688 55'219 870,000 DEP, b~HV D~PT LSHV MAES HTEN TENS DEPT MRE8 TNRA CFTC HTEN TENS Verification Listing laska ComPuting Center bDT LOT DT bDT bDT , b DT bDT CNL &,275 22~''285 6O0 000 158~ -999, 0 500 000 75 ISS~ 000 686 000 -999 250 400 000 -999 88 375 52 250 1589 000 I 343 5 461 259 815 666 922 -999 250 300,000 99 250 28,375 ~08,000 589.000 I 448 5 523 203 111 6?6 500 -999 250 ~TEM bDT RTNR CNN CNTC CNL ~RES CNL DPH! bDT bD? RTNR CNN CNTC CNN MRE$ CNL SrbU DIL bS bDT CALI bDT TEM TNR,CNb NTC,CNb MAES CNL SFhU DIL OR pZl, DPH! bDT bDT SSHV bDT 'MTEM bDT RTNR CNb CN?C CNL ~RES CNL SFbU.DIL GR.DIb DPHI.bDT LS.LDT CALl.bDT $SHV, LDT MTEM bDT RTNRCNL CNTC CNN MAES CNN 19-AUG-1988 05{05 85 1!3~ O0 HT[ -999 250 ILD,DIL M ?EM CNN -999 250 9 I oOO, I 320 ILD bDT bDT bDT CNN MTEM, CNL 999 74 12 150 1261 1 5O 143 ILD,DIL .. GR. bDT HTEN,LDT RCFT,CNb GR'CNL NTEM,CNb -999 250 -999 244 250 77 91 109~ 880035 I 44~ IbD,DIb TENS DXL PEr bDT blah bDT OSS LOT HTi~ bDT GR CNb MTEM,CNL PAGE: 949 NPH!, CNL CNLcNL 5'0 : DI.b '99'9, 250 -999,250 -9 -999 250 -999,250 -999,250 609 676, GR IbM, ILM.DIL $~ LOT OBI bDT TENS R¢N~ CNB TENi ~NL GR 5G ILM,DXL DRHOeLDT LB;bDT OLS,LDT TENSeL:DT NPHXtCNB RCNTeCNL TENStCNB GR,CSG 8 -999 50 -999 ~0 -ggg, ,0 -999 5O ! '999 19~AU~19~8 PAGEI 10 RH NL END OF' -999 bDT bDT bDT -999 -999 -999 -999 -999 -999 --999 -999 250 D:! b ' 9:99 Dib '999 ~ 9 9 CE TRAILER **** I EDtT ~001 I FLIC : OOiAO ~ 88/08~19 : 1024 FILE NAME SERVICE ~ TYPE bAST FILE EDIT ,002 001A02 88/08/19 1024 T~BLE TYPE ~ CONS ?UN! CN STAT COUN TOW. R~N~ OPE~ SON VAbU DEF! ~ARATHON OIL CO CpmPany Name MCARTHUR RIVER FIIZd Name TBU RELIEF #1 wa'l) Name USA Nation ALASka State or Province KINA! County 33 ~ectlon 9N Township 13w Range 60,8283 bat~tude bong~tude cod. Tape Ver]ticatton Listtno ~chlum~erger Alaska Computln~ Center TUN! VAbU TYPE ~ CURV DEF1 D'E F'! PAGEt ** OATA FORMAT SPECIFICATION RECORD ** ** SET TYPE - 64EB ** ..YPE R~PR CODE VALUE NRM~ SERV UNIT SERVICE APl APl APl APl FILE NUMB NUMB SIZE REPR PROCESS ID ORDER# LOGTYPECLASSMODNUMBSAMPEbEM CODE (HEX) o,,, ~, ~ , , . ,, oooooooooo ~, 0,~- ~ ~ , . ~ oooooooooo CCh C$C 2 . I 4 ~. 0000000000 ** DATA ** c'hiumbe:r~er AlaSka CompUting Center D~PT. 2281,917 CCL.DIL DEPT, 2200.000 CCL.DIL DEFT, 2100.000 CCL,DIL DEFT, 2000,000 CCL.DIL D~PT, 1900.000 CCL.DIL D~PT, 1800,000 CCL.DIL DEFT, 1100,000 CCL.DIL D~PT, 852,417 CCL,DIL END OF DATA 19-AUG-t98B 05~05 0,001 CCL,CSG -0,00] CCL,CSG -0.005 CC5,C$6 -0.006 CCL,CS~ 0,002 CCL,CSG 0,004 CCL,C$~ -999.250 CCL.CSG -999,250 CCL.CS~ .-999,250 -999,250 -999,250 -999,250 -999.250 -0,002 -0,013 -0,063 FILE NAME J ED]~ ,002 N i OO1A02 D~iE , 88/08/,9 , REC SIZ~ : 1024 F!LE TYP~ ~ LO L~$T FiLE : ***$' TAPE TRAILER SERVICE ~AMB ~ EDIT 'D~T~ I 88/08/19 ORIGIN : T~P~ NAME : 72~62 CUNTINUITION # :1 PREVIOUS TAPE COMMENT i EOIT LIS,MARATHON MCARTHUR RIVER TBU RELEIF #1,50-?]3-20400 **** REEL TRAI~EB $~RVICE NAM~ : EDIT D~TE : 88/08/19 O~IGIN : FblC REEL NA~E { 72862 CONTINUATION # pREVIOUS RE~L COMMENT J EDIT bIS,MARATHON MC~RTHIIR RXVKR TBU RELEIF #1,50-73]-20400 PAGEi 12