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HomeMy WebLinkAbout191-027 Imag~ roject Well History File Cover i' ge XHVZE This page identifies those items that were not scanned during the initial production scanning phase. They are available in the original file, may be scanned during a special rescan activity or are viewable by direct inspection of the file. · lq /--'-Oc~? Well History Fileldentifier Organizing :',-..,~ RESCAN [~ Color items: Grayscale items: DIGITAL DATA Diskettes. No. L3 Other, No/Type Poor Quality Originals: [] Other: NOTES: B Y: BEVERLY ROBIN VINCENT SHERYL~'WINDY Project Proofing Scanning Preparation % x 30 = %L~ 0 BY: BEVERLY ROBIN VINCENT SHERYL A~WINDY OVERSIZED (Scannable) Maps: D Other items scannable by large scanner OVERSIZED (Non-Scannable) Logs of various kinds Other Production Scanning Stage 1 PAGE COUNT FROM SCANNED FILE: ¢ ~0 PAGE COUNT MATCHES NUMBER IN SCANNING PREPARATION: _~YES ........ NO Stage 2 IF NO iN STAGE 1, PAGE(S) DISCREPANCIES WERE FOUND: ............. YES .............. NO BY; BEVER~INCENT SHERYL MARl/., WINDY DA"rE.~'-C~~/Si~ RESCANNEDBY: BEVERLY ROBIN VINCENT SHERYL MARIA WINDY DATE: tst General Notes or Comments about this file: Q u a l ity C h e c ked ~;.~ ~:,~ ~:: ~ 12110/02Rev3NOTScanned.wpd , • STATE OF ALASKA • ALASKA OIL AND GAS CONSERVATION COMMISSION WELL COMPLETION OR RECOMPLETION REPORT AND LOG 1a. Well Status: Oil 0 Gas ❑ SPLUG E] Other fl Abandoned © Suspended 1b. Well Class: 2OAAC 25.105 20AAC 25.110 Development 0 Exploratory 0 GINJ 0 WINJ 0 WAG 0 WDSPL ❑ No. of Completions: Service 0 Stratigraphic Test 0 2. Operator Name: 5. Date Comp., Susp., or 12. Permit to Drill Number: Hilcorp Alaska, LLC Aband.: 6/18/2012 91 -27 3. Address: 6. Date Spudded: 13. API Number: 3800 Centerpoint Dr, Anchorage, AK 99524 50- 733 -20428 4a. Location of Well (Govemmental Section): 7. Date TD Reached: 14. Well Name and Number: Surface: 975' FNL, 519' FWL, Sec 33, T9N, R13W, S M -29 Top of Productive Horizon: 8. KB (ft above MSL): 160' 15. Field /Pool(s): 783' FSL, 1581' FWL, Sec 28, T9N, R13W, S GL (ft above MSL): McArthur River Field / Middle Kenai Total Depth: 9. Plug Back Depth(MD +TVD): G Oil & Hemlock Oil Pool 1844' FSL, 2237' FWL, Sec 28, T9N, R13W, S 8452' MD / 8040' TVD 4b. Location of Well (State Base Plane Coordinates, NAD 27): 10. Total Depth (MD + TVD): 16. Property Designation: Surface: x- 214138 y- 2499527 Zone- 4 11,896' MD / 11,115' TVD Steelhead (ADL0018730) TPI: x- 215263 y- 2501251 Zone- 4 11. SSSV Depth (MD + TVD): 17. Land Use Permit: Total Depth: x- 215777 y- 2502278 Zone- 4 N/A 18. Directional Survey: Yes 0 No lell 19. Water Depth, if Offshore: 20. Thickness of Permafrost MD/TVD: (Submit electronic and printed information per 20 AAC 25.050) 187' (ft MSL) N/A 21. Logs Obtained (List all logs here and submit electronic and printed information per 20AAC25.071): 22.Re- drill/Lateral Top Window MD/TVD: Redrilled as M -29A 23. CASING, LINER AND CEMENTING RECORD WT. PER SETTING DEPTH MD SETTING DEPTH TVD AMOUNT CASING FT GRADE TOP BOTTOM TOP BOTTOM HOLE SIZE CEMENTING RECORD PULLED 26" 267# WH 990 WH 989 16" 75# K -55 WH 1441 WH 1440 20" 2200 sx 13 -3/8" 61# K -55 WH 3756 WH 3754 14 -3/4" 2200 sx 10 -3/4" 51# L -80 WH 484 WH 484 9 -5/8" 47# L -80 484 11038 484 10357 12 -1/4" 730 ft3 24. Open to production or injection? Yes 0 Nola If Yes, list each 25. TUBING RECORD interval open (MD +TVD of Top & Bottom; Perforation Size and Number): SIZE DEPTH SET (MD) PACKER SET ( MD/TVD) None 26. ACID, FRACTURE, CEMENT SQUEEZE, ETC. SCANNED MAY DEPTH INTERVAL (MD) AMOUNT AND KIND OF MATERIAL USED 0 2 2013 27. PRODUCTION TEST Date First Production: Method of Operation (Flowing, gas lift, etc.): Date of Test: Hours Tested: Production for Oil -Bbl: Gas -MCF: Water -Bbl: Choke Size: Gas -Oil Ratio: Test Period .■► Flow Tubing Casing Press: Calculated Oil -Bbl: Gas -MCF: Water -Bbl: 011 Gravity - API (corr): Press. 24 -Hour Rate - 28. CORE DATA Conventional Core(s) Acquired? Yes ❑ No S Sidewall Cores Acquired? Yes ❑ No 12 If Yes to either question, list formations and intervals cored (MD +TVD of top and bottom of each), and summarize lithology and presence of oil, gas or water (submit separate sheets with this form, if needed). Submit detailed descriptions, core chips, photographs and laboratory analytical results per 20 AAC 25.071. RECEIVED AUG 01 2012 RBDMS AUG 0 1 M F/h,.i AOGCC Form 10 -407 Revised 12/2009 CONTINUED ON REVERSE Submit original only 1 , Z;�;;-)1 • • 29. GEOLOGIC MARKERS (List all formations and markers encountered): 30. FORMATION TESTS NAME MD TVD Well tested? ❑ Yes ❑ No If yes, list intervals and formations tested, briefly summarizing test results. Attach separate sheets to this form, if Permafrost - Top needed, and submit detailed test information per 20 AAC 25.071. Permafrost - Base G -Zone Top 9,180.00 8,523.00 Hemlock Top 9,656.00 8,949.00 West Foreland Top 10,267.00 9,500.00 Formation at total depth: 31. List of Attachments: 32. I hereby certify that the foregoing is true an correct to the best of my knowledge. Contact: Printed Name: d /f / �" Title: �/'� /�jl 5 c il7PCr Signature: / Phon{07) ! 7! - g3,S Date: 7 /9: INSTRUCTIONS General: This form is designed for submitting a complete and correct well completion report and log on all types of lands and leases in Alaska. Submit a well schematic diagram with each 10-407 well completion report and 10 -404 well sundry report when the downhole well design is changed. Item 1 b: Classification of Service wells: Gas Injection, Water Injection, Water - Alternating -Gas Injection, Salt Water Disposal, Water Supply for Injection, Observation, or Other. Multiple completion is defined as a well producing from more than one pool with production from each pool completely segregated. Each segregated pool is a completion. Item 4b: TPI (Top of Producing Interval). Item 8: The Kelly Bushing and Ground Level elevations in feet above mean sea level. Use same as reference for depth measurements given in other spaces on this form and in any attachments. Item 13: The API number reported to AOGCC must be 14 digits (ex: 50- 029 - 20123- 00 -00). Item 20: Report true vertical thickness of permafrost in Box 20. Provide MD and TVD for the top and base of permafrost in Box 28. Item 23: Attached supplemental records for this well should show the details of any multiple stage cementing and the location of the cementing tool. Item 24: If this well is completed for separate production from more than one interval (multiple completion), so state in item 1, and in item 23 show the producing intervals for only the interval reported in item 26. (Submit a separate form for each additional interval to be separately produced, showing the data pertinent to such interval). Item 27: Method of Operation: Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water Injection, Gas Injection, Shut -in, or Other (explain). Item 28: Provide a listing of intervals cored and the corresponding formations, and a brief description in this box. Submit detailed description and analytical laboratory information required by 20 AAC 25.071. Item 30: Provide a listing of intervals tested and the corresponding formation, and a brief summary in this box. Submit detailed test and analytical laboratory information required by 20 AAC 25.071. Form 10-407 Revised 12/2009 Hileorp Luke Keller Hilcorp Alaska, LLC Enemy Company Drilling Engineer P.O. Box 244027 Anchorage, AK 99524 -4027 Tel 907 777 8395 7/30/2012 Email Ikeller@hilcorp.com Commissioner Alaska Oil & Gas Conservation Commission 333 W. 7th Avenue Anchorage, Alaska 99501 Re: Steelhead Platform, Trading Bay Unit M -29 Dear Commissioner, 1) � Enclosed for review and approval is the 10-407 (Well Completion Report) for the permanent abandonment of M -29. , The wellbore was permanently plugged and abandoned to a depth of 8452' MD / 8044' TVD with a cmt plug from 8930' to 8510' and a CIBP set at 8452'. The cmt plug was tagged & tested to 1500 psi / 30 min. The CIBP was also tagged and tested to 1500 psi / 30 min. The wellbore was redrilled as M -29A utilizing the CIBP set at 8452' as a base for the Whipstock. Attachments include: 1. Plug and abandoned wellbore diagram. 2. Summary of operations throughout the P&A phase. 3. Completed 10-407 in duplicate. If you have any questions, please don't hesitate to contact myself at 777 -8395. Sincere!y, / 2/L Luke Keller Drilling Engineer Hilcorp Alaska, LLC Page 1 of 1 • Steelhead PlA" km Well # M -29 Wellbore Schematic 06 -18 -2012 P &A Hilcurp Alaska, LI C LLL CASING AND TUBING DETAIL SIZE WT GRADE CONN ID TOP BTM. 26 267# to 3974 Drill Quip Surf . 990' 16 754 K -55 BTC 15.124 Surf 1441' 13 -3/8 61# & 68# K -55 BTC 12.415 Surf 3756' 10 -3/4 51# & 55.54 L -80 BTC 9.760 Surf 484' 9 -5/8 47# & 53.5# L -80 AB Mod & BTC 8.535 484' 11,038' . 1 JEWELRY DETAIL g \O. 17.011 , ID j Item 1 2 74.5' 10 -3/4" Casing Hanger Of 1 8452' Cast Iron Bridge Plug. MIT 6/18/2012 3 2 8510' 36 bbl 15.4 ppg cement plug. MIT 6/17/2012 Top of Fill —am 3 8930' Stuck ESP assy. Motor section flange looking up ! = 8,930' 4 8,968' NA Aluminum Anode (bottom depth) 5 10,100' 4.75" Baker DB Packer Size 194 -47 with 14' SBE t -, • 8 10 ' 6 10,104' 6.366" Millout Extension ▪ x ' b1e . N . K"1 - 7 10,146' 3 "813" Otis X- Nipple � G .4 10,180' 3.725" Otis XN- Nipple �'`� 3 9 10,182' 3.958" WLEG :. .. Damaged '''''''11';41.' cas 9 r s - 10 1 0,988' NA Cement Retainer 9577 to 9661' , /s "� . v , �.. fi r, --,, Obstru t9o584 &' ' , ▪ Y I f. . o; 11 5, ... : :: PERFORATION DATA - Esti r.±stod Tratuf Estematod Shcetu pet Currimulnt.ve SPF Z.01114 Top atm Interval Z,.,m -Bo„eh per ZorYO Seneh 1 . - J 1 \fl V,2<11' lYY I {1 { •,h Iti 5. ,1*, _ _ . 1 . - 4,-:.:99. V rtn9• 10 ...�- .....2222 y w1 1 ,..,..- t t __ is -9 Y. 911' •9391' '1 1.0 46 Iw t +1 +i _ - 1,.1 , 9,424)' Ott 1,2 51t04, ,1 .1`,I s 1_ ! [ , 1 1 + 9 } $0 1.502 0-545 ..1':1 Mil �r I3a) c4' ats r, . — 6 f e 4.132' 2 f •. `. ear_ 1 .. _ .. -... _....n.._.... .......... _._ ...� ......... Mini 1 7 1141 I I 4,731' 1j. Sgt1 shc -, t •.I i IL 8 1111 -3 ?.Y< 33,77 4,' 31' 544414'11, -. " 1113 -3 -i 03475' 31" { w ;., 3 r f • ', WF - 1113 -4 ) _,I• 10 71 lecl .i 1 , .t., 13 5y, ; °)d : ', 715', a * ?, 1113 -3 14),040• 14),099 3K` 1 .1/51. 911(AS 1 1.rt ` 14 w ∎45 1 t.' E" 'yf�'a i V'1 —f 11Y,j4�?' ICe,394" Sr 4'3` 1, ,t :r 1 : 1 10.34'!: ' 681) 511015 1 ,p't 'fi;. y�9..z' 3. WF-2 ,� 1 11 a fi r ' " ° , - " 10.7410' 70' 540'Just% 5 51,1` 1 z, 1 ?•a 1 9 1, 1 5.5 • . p #' PBTD WF-6 = 10,938' MOVTD = 11,896' Max HOLE ANGLE = 30.97° @ 8700' M -29 Schematic 06 -18 -12 Updated: 07/24/2012 LEK • • Hilcorp Alaska, M -29 P &A Operations Summary Well Name API Number Well Permit Number Start Date End Date M -29 Plug and Abandonment 50- 73320428 -01 -00 212050 6/7/12 6/18/12 Daily Operations: 06/06/2012- Wednesday No Activity. 06/07/2012 - Thursday Rig up circulating lines on M -29A. Complete rig inspection form. Circulate 600 bbls of clean FIW down tubing @ 4 bpm. Return to Production. Install blowout preventor valve, nipple down production tree. 06/08/2012 - Friday Inspect hanger threads and confirm 4 -1/2" IBT. NU 16 -3/4" riser sections, make up riser clamp in UWBR and torque to specifications. NU 16 -3/4" 5M BOP, Stack BOP onto riser DSA and M/U same. Torque to specifications with hydraulic wrench (RKB 74.36). Install kill & choke lines. Change API gaskets in kill line hub connections. Clean and organize well head room, UWBR and cellar area. Off -line: Pollard Slick Line and E -Line operations on M -1, M -3 and M -6. Connect accumulator lines and function BOP to verify operation. Clean and install air boot flange on flow box, center up BOP and secure same. Install flow nipple and energize seals. Install drain hoses on drip pan, change out lower top drive mud valve. Grease TD valves, build test assembly and M/U to Hanger. M/U test pump hoses. Casing Pressures: 13 -3/8 "= 510, 16 "= 510, 20 "= 215, 26 "= 160. Shipped 1450 bbls. 06/09/2012 - Saturday Test BOP and related equipment to 250 psi low /5,000 psi high. Test annular to 250/3500. Perform accumulator draw down. Test LEL and H2S alarms; no failures to report. Pull blowout preventor valve. Rig down test equipment. M/U landing joints. Connect annulus to production, circulate well bore to production. Pump 510 bbls of clean FIW @7 bpm, 700 psi. Bleed annulus to 0 psi. BOLDS. Finish rig up of Centrilift ESP equipment. PJSM and review "Bare Pipe Shut -In" procedure. Each crew member practices use of cable cutter on a sacrificial piece of ESP cable. Pull hanger off seat with 195k, but ESP assembly is stuck (4' of pipe movement). Attempt to free stuck ESP by working Do. Land hanger and make up cement hose. Attempt to bullhead to formation and gain pipe movement. Make up top drive to landing joint and park with 88k overpull. Circulate well @3 bpm, 60 psi. 06/10/2012 - Sunday Work pipe periodically and park with overpull while circulating @3 bpm, 70 psi. Attempt to gain pipe movement while waiting on Pollard crew for tubing cut. Pollard on board; PJSM. Make up tool string and M/U to Dp. Tool String: 1- 11/16" RS, weight bar, spang, centralizer, CCL & 2.5" radial torch. RIH with 2.5" radial torch,. correlate w /CCL to tubing tally. Detonate radial torch @8,735'. POOH with radial torch tool string (misfire). Break down and trouble shoot tools; found short on positive lead. Re -dress radial torch anchor and test same. Make up radial torch #2. RIH with radial torch assembly. Tag @8,746. Correlate w /CCL to tubing tally. Detonate radial torch @8,742'. Good indication of detonation felt. POOH with tool string. RD Pollard equipment and clear floor of excess tools; pull hanger to rig floor. UP 185k. Lay down landing joints, hanger and pup. POOH with 4 -1/2" 563 Hydril tubing and rack back in derrick, (2) stands. Thread ESP cable and flat -pack through sheaves and "slobber" hose. Hang sheaves in V -door and secure same. Attach cables to spoolers. POOH racking back stands of 563 Hydril tubing from 8,742' to 5,787'. Well taking calculated displacement. Pressure wash pipe and cables. Casing pressures: 13 -3/8" -550, 16 " -54, 20" -220, 26" -140. Top of fish @8,742'. Fish in hole: 14' cut joint, pup, sliding sleeve, pup, full joint, pup, XN nipple, pup, full joint, X0 pup, 8" OD pressure head. Discharge head, (3) pumps, seals, motor, Pheonix, bull nose with anode =226 ft. Page 1 of 3 • • Hilcorp Alaska, M -29 P &A Operations Summary Well Name API Number Well Permit Number 0 Start Date End Date M -29 Plug and Abandonment 50- 73320428 -01 -00 ..O51T ' I' 6/7/12 6/18/12 Daily Operations: ! +` 06/11/2012 - Monday POOH with "cut" 4 -1/2" 563 Hydril Com. tubing, ESP power cable and Flat Pack f/5787. Continue to POOH with 563 Hydril tubing and cable from 4,194'. Recovered 278 joints, 12.2' cut joint, armor Jacketed cable and Flat Pack. Recovered 166 Canon clamps, (9) GLMs, (1) splice clamp. Clamps remaining on fish =(2) 6.18" Cannon clamps, (1) 7.68" MLE splice clamp ; (1) MLE clamp. Clear floor of tubing equipment and excess tools. Pressure wash and organize same; drain riser to production. Close blind rams and change upper rams from 4 -1/2" to 5 "; RU to test rams. Install test plug, fill riser and stack with water, R/U test assemblyy. Test annular to 250/3500 psi, test upper andlLower 5 "rams to 250/5,000 psi. RD test equipment. Casing pressures: 13 5/8 "= 520, 16 "= 510, 26 "= 150. 06/12/2012 - Tuesday Install wear bushing and secure same. Rack back test stand. MU clean out BHA #1: 8 -1/8" cut lip shoe w /7" ID, (100') of 8 1/8" wash pipe; boot basket, bump jar, oil jar, X0, (3) 6 -1/2" DCs, (21) 5" HWDP = 851.17. TIH with clean out assembly on 5" Dp from 851' to 8718'. Record parameters: UP 280k, DN 230k, Tq 8k @ 40 rpm, 240 psi @ 5 bpm. Wash over TOF @ 8742' wash to end of stand @ 8807 w/o tag. Did see additional drag when swallowing fish. Reverse circulate 1 -1/2 volume of work string (no solids in returns). Make up Std #85 and tag oversized splice clamp @ 8838 w /5k. POOH with clean out assembly from 8835 (SLM on trip out). Lay down clean out assembly. Make up 4.5" Overshot ; TIH to TOF @ 8742. Break circulation and engage Fish. 06/13/2012 - Wednesday Engage ESP Fish @8,742'. Jar down with bumper sub, jar up with oil jars @40k. Work pipe and stage up over pulls /jar impact. Work from 40k to 150k over UP weight. Stack 40k on fish, shut in Ann and bullhead against obstruction with 1,500 psi. Resume jarring operations. Jar w /150k over, then straight pull to 170k over UP weight. Lost weight after jars fired. POOH slow & wet w /5 -8k extra weight. Work BHA (braking out new driller). Tap plugged fish above & below each collar and relieve pressure. Fish full of sand. 06/14/2012 - Thursday Finish lay down fish. Vacuum and power wash rig floor. Pick up over shot and remove cut -off. Total 160.87' recovered. Estimate top of fish @8,919'. Service rig and monitor well; zero static losses. Pick up BHA #3 = 8 -1/8" cut lip guide 0/s, plus ext dressed w/6.750' basket grapple & control, plus 6 -1/4" B /S, plus 6 -1/4" oil jar, plus pump -out sub, plus X0, plus (9) 6 -1/2" DC, plus X, plus acc Jar = 321.75'. RIH to 8,519'. Kelly up, practice making connections with new driller. Establish parameters, t /tag @8,910' dpm. Circulate bottoms up @15 -18 bpm, est bbl sand back, pump 25 bbl high vis pill around. Engage fish @8,910' and work to 8,920'. Jar on fish, fire jars @130k over with straight pull to 200k over. Grapple slipped off and unable to re- engage motor hole (no change). POOH to check tools. 06/15/2012 - Friday Work BHA & check tools, small ball of control line in top of extension & grapple. Control gone (looks like it was pulled thru 0/S), service rig & inspect equipment. L /dn BHA #3 change out all jars, 0/S & p /up 4 -3/4" rat pack vibration tool. Attempt to test vibration tool (unable to get tool to operate). POOH & I /dn vibration tool & re -m /up BHA. RIH w /BHA #4 to 8,859'. Establish parameters, engage fish @ 8,919'. Set grapple and start fire jars @130k over and straight pulls to 200k over, 7 jar licks freed fish and pull up hole one STD. Circulate bottoms up and mointor well (same no losses). POOH working fish through up to 100k over pulls. L /dn fish, recovered last pump section at 13.72', ShPerPd hnitc to tnnrlam seals. Section / est TOF @ 8,932.72' w/ total of 53.19' fish still in hole. Page 2 of 3 Hilcorp Alaska, M -29 P &A Operations Summary Well Name API Number Well Permit Number Start Date End Date M -29 Plug and Abandonment 50- 73320428 -01 -00 212050 6/7/12 6/18/12 Daily. Operations: 06/16/2012 - Saturday Lay down over shot BHA. RIH with 3 std 6 -1/2" drill collar and lay down same. Clear and clean floor of Baker fishing equipment, prep and pick up 29 jts of 2 -7/8" cement stinger. RIH with 2 -7/8" cement stinger on Dp Tag TOF @8,930'. Circulate and build mud push and prep for cement job (PJSM for cement job). Test lines to 3,000 psi, rig pump 25 bbls 12 ppg mud push. Schlumberger mixed and pumped 36 bbls of 15.3 ppg cement, rig pump 4 bbls of 12.0 ppg mud push and rig displaced with 134 bbls FIW. POOH slow to 8,000'and lay 519' balanced cement plug, CIP @21:45. Pump Dp dart, circulate full round @10 bpm. POOH and lay down 2 -7/8" cement stinger, service rig / WOC. 06/17/2012 - Sunday WOC, service top drive, power wash /clean shakers and cutting chute, drain and cleans pits. Ship NPF to TBPF. Pick up BHA #5 and RIH to 4,103' bit depth and 4,086' window mill depth. Set down 20k at known tight spot, 20k pull out. Continue cleaning pits and shipping NPF to TBPF. Kelly up and ream 3' area and clean up same. Work pipe 30' with only 1k extra weight. Continue RIH with bit scraper and window mill (whipstock mimick assembly) to 6,481'. WOC, service rig, • clean pits and rig. Continue building drilling mud. Continue RIH f/ 6,481' to 8,220'. Kelly up wash down tag at 8,388' c /out, rotate C /out green cement to 8,466', C /out hard cementt to 8,510' and circulate out, balance on connections. Circulate clean, pump 30 bbl high vis sweep around. 06/18/2012 - Monday Continue circulate clean, test 9 -5/8" X 10 -3/4" casing against 420' cement plug @8,510' dpm with 5.6 bbls to 1,520 psi to 1,502 psi in 30 min on chart. Rig up to reverse circulate with clean FIW and take returns to production. Reverse circulate with 800 bbls clean FIW @6 bpm, taking returns to production. Rig down lines and POOH to 4,800'. Lost fan belt on air conditioner in SCR room, repair same. Continue POOH to BHA. Work, check and lay down BHA. Rig up Schlumberger E- line. RIH with USIT log with C sub for 8.6" to 8,495' tie in and log for 8,495' to 480' at 3,000 FPH. Found 1 spot of intrest. Make high resolution pass across same, 4,250' to 3,900' @1000 FPH (found TOC @ 5720'). Lay down USIT tools and pick up Baker CIBP while wirelining. Continue house cleaning, cleaning pits, building drilling mud. 06/19/2012 - Tuesday Finish p /up Baker 9 -5/8" CIBP. RIH w /CIBP on Schlumberger E -line, tie in and set top of same at 8,442' WLM, POOH. Check setting tool (ok), rig down E -line. Finish cleaning shakers and install cutting chute hose. Rig up equipment to test BOPs. Chg btm rams to 7 ". Lock down pin leaking and test plug leaking, repair both. Test BOP per AOGCC regulations 250 4,000 psi. Rig down test equipment, install wear ring. Test casing to 1,590 -1,579 psi in 30 min on chart. V 06/20/2012- Wednesday Pick up BHA #6. Baker Window Master G2 system on torque master bottom trip anchor with Schlumberger MWD, shallow test MWD (ok). RIH slow to 8,312', kelly up. Orient whip stock 90L, continue RIH, set @8,452' DPM @75L, pull 15k over and check anchor set (ok), sheer off (ok). Change over to 2% KCL, clayseal /gem drilling mud @9.5 ppg with FIW returns to production and start milling on lug once mud rounds corner. Finish change over and mill window from &43O' (top of window) to 8,467'. Circulate and balance MW for LOT /FIT. Page 3 of 3 Y' 4A.,7/ • 411 Page 1 of 3 Schwartz, Guy L (DOA) From: Luke Keller [Ikeller @hilcorp.com] Sent: Thursday, July 05, 2012 11:20 AM To: Schwartz, Guy L (DOA) Cc: Mike Leslie; Shane Hauck; Paul Mazzolini Subject: 2 Week BOP Test Frequency c /— Q Z Guy, See below email chain concerning the 14 day BOP test frequency we talked about this morning. Approval to go to 14 day test frequency was given by Jim Regg. Luke Keller Drilling Engineer Hilcorp Alaska, LLC 907 - 777 -8395 iot Aitifi r ) 1./ i l From: Mike Leslie Sent: Monday, June 11, 2012 11:27 AM To: Shane Hauck • Cc: Paul Mazzolini; Luke Keller Subject: FW: Kuukpik 51 06- 08- 12.xls Shane, The AOGCC has granted us a (14) day schedule for testing our BOPs, starting today. Next BOP test due date will be June 25 Mike From: Regg, James B (DOA) fmailto:jim.re•gOalaska.govl Sent: Monday, June 11, 2012 11:06 AM To: Mike Leslie Subject: RE: Kuukpik 51 06- 08- 12.xls You can start 14day clock today. Jim Regg AOGCC 333 W. 7th Ave, Suite 100 Anchorage, AK 99501 907 - 793 -1236 From: Mike Leslie fmailto:gleslie@ahilcorp.coml Sent: Monday, June 11, 2012 11:05 AM To: Regg, James B (DOA) Cc: Brooks, Phoebe L (DOA) 7/5/2012 • Page 2 of 3 • Subject: RE: Kuukpik 51 06- 08- 12.xls Thanks for the prompt reply Jim, I was just about to send it to you. I do have a question for you. We are still on a weekly test schedule, so do I start the clock from the finish of today's tests, or from when we finished on 6 -8 -12? From: Regg, James B (DOA) [mailto:jim.regq@ alaska.gov] Sent: Monday, June 11, 2012 10:58 AM To: Mike Leslie Cc: Brooks, Phoebe L (DOA) Subject: RE: Kuukpik 51 06- 08- 12.xls It is not necessary to send the test report after changing UPR to 5" since it is not a complete BOPE test. Just keep charts in your files and document test in daily drilling rpt, which should be available for inspection upon request. Jim Regg AOGCC 333 W. 7th Ave, Suite 100 Anchorage, AK 99501 907 - 793 -1236 From: Mike Leslie [mailto:gleslie @ hilcorp.com] Sent: Monday, June 11, 2012 10:44 AM To: Regg, James B (DOA) Cc: DOA AOGCC Prudhoe Bay; Brooks, Phoebe L (DOA) Subject: RE: Kuukpik 51 06- 08- 12.xls Mr. Regg, I understand your confusion after reading my report. I neglected to change the Ram size prior to sending out the report. We tested 4.5" Rams and then pulled 4.5" completion. We changed the 4.5" Rams in the Upper cavity early this morning to 5" and then tested them and the 5" Lower Rams to 250/5000 psi. We also retested the Annular on the 5" Test joint this morning. I'll send the updated Test report reflecting this morning's tests soon. I apologize for the confusion I've caused, x Descrir Descrir hec h BeJeie Drilling Foreman Hilcorp Energy Alaska Steelhead: 907 - 776 -6833 Mobile: 907 - 382 -3057 gleslie @hilcorp.com From: Regg, James B (DOA) [mailto:jim.regg @alaska.qov] Sent: Monday, June 11, 2012 9:11 AM 7/5/2012 • Page 3 of 3 To: Mike Leslie Cc: DOA AOGCC Prudhoe Bay; Brooks, Phoebe L (DOA) Subject: RE: Kuukpik 51 06- 08- 12.xls I'm confused by Remarks and ram configuration. You are pulling 4.5" completion but did not test any rams to cover that pipe size. Jim Regg AOGCC 333 W. 7th Ave, Suite 100 Anchorage, AK 99501 907 - 793 -1236 From: Mike Leslie [mailto:gleslie(ahilcorp.com] Sent: Friday, June 08, 2012 5:22 PM To: DOA AOGCC Prudhoe Bay; Brooks, Phoebe L (DOA); Regg, James B (DOA) Cc: Paul Mazzolini; Luke Keller; Shane Hauck Subject: Kuukpik 51 06- 08- 12.xls 7/5/2012 ,, • • , G it G y re 1 1 SEAN PARNELL, GOVERNOR ALASKA OIL AND GAS 333 W. 7th AVENUE, SUITE 100 CONSERVATION COMMISSION ANCHORAGE, ALASKA 99501 -3539 PHONE (907) 279 -1433 FAX (907) 276 -7542 Paul Mazzolini Drilling Manager Q 2 'q Hilcorp Alaska, LLC 3800 Centerpoint Drive Anchorage, AK 99524 Re: McArthur River Field, Midddle Kenai G & West Foreland & Hemlock Oil Pool, Trading Bay Unit M -29 Sundry Number: 312 -223 SLAWNED JUN27 Dear Mr. Mazzolini: Enclosed is the approved Application for Sundry Approval relating to the above referenced well. Please note the conditions of approval set out in the enclosed form. As provided in AS 31.05.080, within 20 days after written notice of this decision, or such further time as the Commission grants for good cause shown, a person affected by it may file with the Commission an application for reconsideration. A request for reconsideration is considered timely if it is received by 4:30 PM on the 23rd day following the date of this letter, or the next working day if the 23rd day falls on a holiday or weekend. Sincerely, p 4 frj4.4, Cathy r. Foerster Chair 5 DATED this day of June, 2012. Encl. • 4%LXV'RECEIVED STATE OF ALASKA vuk JUN 142012 ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS AOGCC 20 AAC 25.280 1. Type of Request: Abandon ❑ Plug for Redrill ❑ Perforate New Pool ❑ Repair Well ❑ Change Approved Program 0. Suspend ❑ Plug Perforations ❑ Perforate ❑ Pull Tubing ❑ Time Extension ❑ Operations Shutdown ❑ Re -enter Susp. Well ❑ Stimulate ❑ Alter Casing ❑ Other: ❑ 2. Operator Name: 4. Current Well Class: 5. Permit to Drill Number: Hilcorp Alaska, LLC Development Q , Exploratory ❑ 191-027 • 3. Address: Stratigraphic ❑ Service ❑ 6. API Number: 3800 Centerpoint Drive, Anchorage AK, 99524 50- 733 - 20428 -00 - 7. If perforating, closest approach in pool(s) opened by this operation to nearest 8. Well Name and Number: property line where ownership or landownership changes: Spacing Exception Required? Yes ❑ No El Trading Bay Unit M -29 - 9. Property Designation (Lease Number): 10. Field / Pool(s): . • ADL0018730 Steelhead Platform McArthur River Field / Middle Kenai G Oil & West Foreland Oil & Hemlock Oil Pool 11. PRESENT WELL CONDITION SUMMARY Total Depth MD (ft): Total Depth TVD (ft): Effective Depth MD (ft): Effective Depth TVD (ft): Plugs (measured): Junk (measured): 11,896' , 11,130' • 10,938' 10,271' N/A 8919' (ESP) Casing Length Size MD TVD Burst Collapse Structural 915' 26" 990' 989' 3,010 psi 1,440 psi Conductor 1,366' 16" 1,441' 1,440' 2,630 psi 1,010 psi Surface 3,681' 13 -3/8" 3,756 3,754 3,090 psi 1,540 psi Intermediate Production 10,963' 10 -3/4" & 9 -5/8" 484' x 11,038' 484' x 10,357' 5,860 psi 3,220 psi Liner Perforation Depth MD (ft): Perforation Depth TVD (ft): Tubing Size: Tubing Grade: Tubing MD (ft): 9,180' - 10,095' 8,690' - 9,508' None N/A N/A 10,312' - 10,538' 9,694' - 9,892' Packers and SSSV Type: Packers and SSSV MD (ft) and TVD (ft): Baker DB packer 194-47 Pkr: 10,100' MD / 9,510' TVD 12. Attachments: Description Summary of Proposal IN 13. Well Class after proposed work: Detailed Operations Program (l BOP Sketch (1 Exploratory n Development n . Service rl 14. Estimated Date for 15. Well Status after proposed work: 15- Jun -12 Commencing Operations: Oil ❑ Gas ❑ WDSPL ❑ Suspended ❑ 16. Verbal Approval: Date: gpy hi Off— ❑ GINJ ❑ WAG ❑ Abandoned . Commission Representative: 6 3'4 ?Z / y/i� -- GSTOR ❑ SPLUG ❑ 17. I hereby certify that the foregoi( is true and correct to the best of my knowledge. Contact Printed Name Pig L4 I.- MAZZOL.t lU) Title 'bQt`� / "4 G Ma 12___ Signature n Phone 04v Date ' l Zo r z COMMISSION USE ONLY Conditions of approval: Notify Commission so that a representative may witness Sundry Number: 3 11-223 Plug Integrity Ei BOP Test ❑ Mechanical Integrity Test ❑ Location Clearance ❑ Other: Subsequent Form Required: /o" 41o7 APPROVED BY Approved by: COMMISSIONER THE COMMISSION Date: G . 2/ - (Z..- Form 10 -403 evised 1/2010 Submit in Duplicate 1 ev.,,, fis xf • • Hilcorp Paul Mazzolini Hilcorp Alaska, LLC Elam Confpnw Drilling Manager P.O. Box 244027 Anchorage, AK 99524 -4027 Tel 907 777 8369 6/14/2012 Email pmazzolini @hilcorp.com Commissioner Alaska Oil & Gas Conservation Commission RECEIVED 333 W. 7th Avenue Anchorage, Alaska 99501 JUN 14 2012 Re: Steelhead Platform, Trading Bay Unit M -29A AOGGC Dear Commissioner, Enclosed for review and approval is a 10 -403 "Change to Approved Program" for the plug and ' abandonment of M -29. A change to the current M -29 P &A program is requested due to the current condition of the ESP • assembly. A summary of plug and abandonment operations to date & the requested forward plan are included in attached procedure summary. If you have any questions, please don't hesitate to contact myself at 777 -8369 or Luke Keller at 777 - 8395. Sincerely, *' cpernfrj u it Paul Mazzolini Drilling Manager 6 . Attachments: • 10 -403 in duplicate • Procedure Summary • Wellbore Schematic • Production tubing tally Hilcorp Alaska, LLC Page 1 of 1 • • Trading Bay Unit Well # M29 Hilcorp Procedure Summary 6/14/2012 Lamy Campy Background: A change to the current P &A program is requested due to the current condition of the ESP • assembly. When attempting to pull the ESP assembly out of the hole, it was found to be stuck inside the 9 -5/8" production casing. The 4 -1/2" tubing was cut at 8758' (above the ESP assembly) and recovered to surface. An overshot was run and successfully engaged the ESP assembly. After jarring for "'7 hrs, the ESP assembly was pulled in two, separating between a seal module and pump module. 161' of the ESP assembly was recovered to surface, leaving 49' of the ESP assembly in the hole (Seal module + motor module + Phoenix Sensor). The recovered section of ESP was found to be densely packed with fine sand. Suspect that the entire wellbore is packed with the same densely packed fine sand. A second overshot was run and successfully engaged the 49' left in hole. After jarring for - 1 hr, the overshot released from the fish and could not be re- engaged (grapple pulled out of overshot). Requested Forward Operations: 1. Make final attempt at fish recovery with 6 -3/4" overshot + agitator + jar assembly. 2. If successful: a. Make clean out run with 8 -1/2" bit to damaged casing interval (9577'). b. TIH w/ cmt stinger, balance a 50 bbl (714') cmt plug from 9577' to 8863'. c. Make clean out run with 8 -1/2" bit + casing scraper, Tag TOC, scrape casing from 8360' to 8380'. d. Pressure test cmt plug, 1500 psi / 30 min. e. Run CIBP on a -line and set at 8370'. f. Run USIT. g. Run Whipstock, mill window. 3. If unsuccessful: a. TIH w/ a cmt stinger and balance a 36 bbl (519') cmt plug from 8919' to 8400'. b. Make clean out run with 8 -1/2" bit + casing scraper, Tag TOC, scrape casing from 8360' to 8380'. c. Pressure test cmt plug, 1500 psi / 30 min. 1 ' d. Run CIBP on a -line and set at ^'8370'. �/ se.. a Y 6 - IF.! e. Run USIT. --- '7 `{07 § es 4.3'a s. a f. Run Whipstock, mill window 4. Continue with drilling operations as per previously submitted 10 -401. AOGCC M -29 P &A Procedure June 14, 2012 • • Chevron ." Steelhead Platform Well #M -29 Wellbore Schematic 04 -15 -2010 Workover RKB to TBG Hgr = 74.5' CASING AND TUBING DETAIL Hanger Connection = IBTM SIZE WT GRADE CONN ID TOP BTM. J JJ 1 L 26 267# to 397# Drill Quip Surf 990' " ' 16 75# K -55 BTC 15.124 Surf 1441' 4111104 � '' z 13 -3/8 61# & 68# K -55 BTC 12.415 Surf 3756' ' 3 10 -3/4 51# & 55.5# L -80 BTC 9.760 Surf 484' 9 -5/8 47# & 53.5# L -80 AB Mod & BTC 8.535 484' 11,038' 1 4 6 4 -1/2" 12.6# & 12.75# L -80 Hydrill 503 /563 3.958 Surf 8,873' MB JEWELRY DETAIL 411=1 1 9 NO. Depth ID Item 10 74.5' 3.833" drift Tubing Hanger if 12 1 1,597' 3.833" drift GLM #9 SFO -1 2 2,610' 3.833" drift GLM #8 SFO -1 3 3,495' 3.833" drift GLM #7 SFO -1 13 4 4,205' 3.833" drift GLM #6 SFO -1 5 4,662' 3.833" drift GLM #5 SFO -1 6 5,093' 3.833" drift GLM #4 SFO -1 7 5,576' 3.833" drift GLM #3 SFO -1 8 6,090' 3.833" drift GLM #2 SFO -1 9 6,596' 3.833" drift GLM #1 SFO -1 1 0 8,768' 3.813" XD Sliding Sleeve (down opening) e 11 8,827' 3.725" XN- Profile Nipple 12 8,873' NA Centrilift ESP Assembly (X /O pressure head top depth) G 13 8,968' NA Aluminum Anode (bottom depth) Possible o 14 10,100' 4.75" Baker DB Packer Size 194 -47 with 14' SBE Casing from 9677 to 9651' a 15 10,104' 6.366" Millout Extension Obstruction - 16 10,146' 3.813" Otis X- Nipple 9,584' 17 10,180' 3.725" Otis XN- Nipple E. 18 10,182' 3.958" WLEG 19 10,988' NA Cement Retainer HB PERFORATION DATA Estimated Total Estimated Shots per CummulatIve SPF Zone Top Btm Interval Zone -Bench per Zone Bench G -1 9,180' 9,220' 40' 1,053 shots 26 spf s.1` - - - _; - - -4 G -2 9,239' 9,269' 30' 731 shots 24 spf 14 G -3 9,330' 9,351' 21' 510 shots 24 spf G -4 9,380' 9,420' 40' 1,250 shots 31 spf 15 G -5 9,475' 9,555' 80' 1,802 shots 23 spf inn 16 G -6 9,607' 9,632' 25' 150 shots 6 spf 17 HB - 9,700' 9,731' 31' 540 shots 17 spf 18 HB -2 9,745' 9,776' 31' 540 shots 17 spf HB - 9,845' 9,876' 31' 540 shots 17 spf WF - HB - 9,950' 10,021' 71' 900 shots 13 spf HB -5 10,040' 10,095' 55' 1,056 shots 19 spf F. WF -1 10,312' 10,395' 83' 1,000 shots 12 spf WF -2 10,450' 10,566' 116' 680 shots 6 spf Top of Fill - WF -2 WF -4 & 5 10,630' 10,700' 70' 540 shots 8 spf = 10,538' ,f*' WF -6 10,760' 10,800' 40' 240 shots 6 spf I 'a WF-4 'gq ` - WF -5 PBTD `; ' a WF -6 = 10 ,938' . . ' X 19 ` � :.,, ``4' ,'' TD = 11,896' Max HOLE ANGLE = 30.97° @ 8700' M -29 WBD 04 -15 -2010 Workover.docx Updated: 04/16/2010 RMS • • ('ilevron Tubular Tally Tubular Information: Tubular Size: 4 1/2 ", 12.6 #, L -80, Hydril 563 & 503 AFE Number: UWDAK -R0011 EXP Well: M -29 Start Date: 4 -13 -10 Field: McArthur River Start Time: 20:30 Platform: Steelhead Date Landed: 4 -15 -10 Foreman: Leslie /Menapace /Lucas Time Landed: 17:40 Rig: Rig 51 Up- Weight: 187,000 Completion Fluid Weight (PPG): 8.6 ppg Slack -off : 168,000 Completion Fluid Type: 3 %KCUFIW Weight set on Slips/HGR: 103,000 Wellhead Make: FMC 4 1/2 Tubing ID = 3.958 Current Rig KB Elevation: 74.5' 563 coupling OD = 5.20, Pin ID = 3.908 Original Rig KB Elevation: 503 Intergal coupling OD = 4.926, Pin ID =3.908 Joint Description ID " OD " LENGTH Total TOP BTM. Run Jt 0 (in) (in) (ft) Length (ft) (ft) 0 Bull Nose Centralizer w /Aluminum Anode (2 Anodes Only) (2 3/8" BMZ W /Anode) Model MMO2A NA 7.563 1.68 1,68 8,966.37 8,968.05 8,964.50 8,966.37 Phoenix XT -1 Sensor Gauge (type XT -1- 13673) NA 4.5/3.75 1.87 3.55 Motor: Model IIMI (CRC), SN 10332717, PN 216009878, 800HP, 4160V, 86.9 Amps clamp (6) 8,929.74 8,964.50 Kramer clamps O.D = 8.15" to 8.21" N;1 7.300 34.76 3831 Tandem Seals: Model HST3 4B HL INV PFSA, SN 10274090, PN SE7505SA Protectalizer on coupling 833004560 (4 MLE 8,914.86 8,929.74 clamps, 8.10 OD NA 6.750 14.88 53.19 HC7800, SN 10321023, PN 0304939 Protectalizer on top coupling 833004570 (4) MLE 8,901.14 8,914.86 clamps, 8" OD NA 6.780 13.72 66.91 Mid Pump: 28 Stage Model HPHVMAR, Type t1C7800, SN 10321025, PN C304941 Protectalizer on top coupling 833004580 (4) MLE 8,888.01 8,901.14 clamps, 8" OD NA 6.800 13.13 80.04 1 pper Pump: 28 Stage Model 111'11\11 AR, "ty 11(7800, SN 10325048, PV 0304941 Protectalizer on top coupling 833004580 -2, (4) 8,874.89 8,888.01 MLE clamps, 8" OD NA 6.780 13.12 93.16 Discharge Head, PN C46416 8,874.22 8,874.89 5.5" 8RD STC PxB NA 6.550 0.67 93.83 Crossover Pressure head - 5 1/2" 8RD STC Pin x 8,873.19 8,874.22 4 1/2" 1BTM Box N8 8.000 1.03 94.86 XO Pup, 4 1/2, L -80 12.6 #, Hydril 563 x IBT (BxP) Coupling OD = 5.22" w/ cross coupling 8,867.57 8,873.19 clamp 3.908 4.500 5.62 100.48 6,Ates 100.48 8,867.57 8,867.57 JT. 4 1/2, 12.68, L - 80, 563/503 Tbg. w /coupling 8,839.45 8,867.57 281 w/MLE clamp 3.908 4.500 28.12 128.60 P -1 Pup, 563 PxP 3.908 4.500 11.39 139.99 8,828.06 8,839.45 XN Nipple 8101010553 3.720 5.010 1.56 141.55 8,826.50 8,828.06 P -2 Pup, 563 BxP 3.908 4.500 12.05 153.60 8,814.45 8,826.50 MLE Round x Flat splice across coup @ 154' w /round x flat clamp. Meg readings: 2G ohms 280 JT. 4 1/2,12.60, L -80, 563/503 Tbg. w /coupling 3.908 4.500 30.20 183.80 8,784.25 8,814.45 P -3 XO Pup, TC -II x 563 BxP 3.908 4.500 11.99 195.79 8,772.26 8,784.25 4.5" XD Sliding, TC - II BxP 8101205569 3.813 5.600 4.19 199.98 8,768.07 8,772.26 P -4 XO Pup, 563 x TC -II BxP 3.908 4.500 12.1 212.08 8,755.97 8,768.07 279 3T. 4 1/2,12.68, L - 80, 563/503 Tbg. w /coupling 1908 4.500 _27.90 239.98 8,728.07 8,755.97 II I zn 278 JT. 4 1/2, 12.68, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 30.40 270.38 8,697.67 8,728.07 277 JT. 4 1/2, 12.60, L - 80, 563/503 Tbg. w /co, pling 3.908 4.500 29.68 300.06 8,667.99 8,697.67 276 JT. 4 1/2,12.60, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.66 329.72 8,638.33 8,667.99 Ma 275 JT. 4 1/2, 12.68, L - 80, 563/503 Tbg. vs/coupling 3.908 4.500 28.93 358.65 8,609.40 8,638.33 '',? 274 JT. 4 1/2, 12.60, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.09 387.74 8,580.31 8,609.40 • 273 JT. 4 1/2, 12.66, L-80, 563/503 Tbg. w /coupling 3.908 4.500 28.87 416.61 8,551.44 8,580.31 272 JT. 4 1/2, 12.6 #, L-80, 563/503 Tbg. w /coupling 3.908 4.500 29.11 445.72 8,522.33 8,551.44 271 JT. 4 1/2,12.66, L-80, 563/503 Tbg. w /coupling 3.908 4.500 27.79 473.51 8,494.54 8,522.33 270 JT. 4 1/2, 12.6#, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 27.73 501.24 8,466.81 8,494.54 269 JT. 4 1/2, 12.6#, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 28.47 529.71 8,438.34 8,466.81 268 JT. 4 1/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 28.79 558.50 8,409.55 8,438.34 267 JT. 41/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 28.47 586.97 8,381.08 8,409.55 266 JT. 4 1/2, 12.6#, L 563/503 Tbg. w /coupling 3.908 4.500 29.11 616.08 8,351.97 8,381.08 265 JT. 4 1/2, 12.6#, 1,80, 563/503 Tbg. w /coupling 3.908 4.500 29.50 645.58 8,322.47 8,351.97 264 JT. 4 1/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.52 675.10 8,292.95 8,322.47 263 JT. 4 1/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 28.53 703.63 8,264.42 8,292.95 262 .IT. 41/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.23 732.86 8,235.19 8,264.42 261 JT. 41/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.03 761.89 8,206.16 8,235.19 260 JT. 4 1/2, 12.66, L 563/503 Tbg. w /coupling 3.908 4.500 28.72 790.61 8,177.44 8,206.16 259 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 28.44 819.05 8,149.00 8,177.44 258 JT. 4 1/2,12.66, L-80, 563/503 Tbg. w /coupling 3.908 4.500 26.79 845.84 8,122.21 8,149.00 257 .IT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 30.33 876.17 8,091.88 8,122.21 256 JT. 4 1/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 30.39 906.56 8,061.49 8,091.88 ' 255 JT. 4 1/2, 12.6#, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 28.93 935.49 8,032.56 8,061.49 254 JT. 41/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 28.67 964.16 8,003.89 8,032.56 253 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 30.20 994.36 7,973.69 8,003.89 „;; 252 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 24.38 1,018.74 7,949.31 7,973.69 251 JT. 4 1/2,12.6 #, L 563/503 Tbg. w /coupling 3.908 4.500 29.89 1,048.63 7,919.42 7,949.31 32 250 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 28.99 1,077.62 7,890.43 7,919.42 33 249 JT. 4 1/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.50 1,107.12 7,860.93 7,890.43 248 JT. 4 1/2, 12.6#, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.59 1,136.71 7,831.34 7,860.93 247 JT. 4 1/2, 12.6#, L - 80, 563/503 Tbl. w /cou .lin 3.908 4.500 29.20 1,165.91 7,802.14 7,831.34 246 JT. 4 1/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 27.83 1,193.74 7,774.31 7,802.14 245 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 29.08 1,222.82 7,745.23 7,774.31 244 JT. 4 1/2,12.6 #, L 563/503 Tbg. w /coupling 3.908 4.500 28.43 1,251.25 7,716.80 7,745.23 243 JT. 4 1/2,12.6#, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.21 1,280.46 7,687.59 7,716.80 242 JT. 4 1/2, 12.66, L -80, 563/503 Tbg. w /coupling 3.908 4.500 29.38 1,309.84 7,658.21 7,687.59 Megger Readings: 2.2 G ohms 241 JT. 4 1/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.32 1,339.16 7,628.89 7,658.21 240 JT. 4 1/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.09 1,368.25 7,599.80 7,628.89 239 JT. 4 1/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 28.87 1,397.12 7,570.93 7,599.80 238 JT. 4 1/2, 12.6#, L 563/503 Tbg. w /coupling 3.908 4.500 29.60 1,426.72 7,541.33 7,570.93 237 JT. 4 1/2, 12.6#, L 563/503 Tbg. w /coupling 3.908 4.500 29.22 1,455.94 7,512.11 7,541.33 236 JT. 4 1/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.67 1,485.61 7,482.44 7,512.11 235 JT. 4 1/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.30 1,514.91 7,453.14 7,482.44 234 JT. 41/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 27.23 1,542.14 7,425.91 7,453.14 233 JT. 41/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 28.86 1,571.00 7,397.05 7,425.91 232 JT. 4 1/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 30.19 1,601.19 7,366.86 7,397.05 231 JT. 4 1/2,12.6 #, L 563/503 Tbg. IN /coupling 3.908 4.500 27.77 1,628.96 7,339.09 7,366.86 230 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 29.03 1,657.99 7,310.06 7,339.09 229 JT. 4 1/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.17 1,687.16 7,280.89 7,310.06 228 JT. 4 1/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.02 1,716.18 7,251.87 7,280.89 227 .IT. 4 1/2, 12.6#, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.62 1,745.80 7,222.25 7,251.87 226 JT. 41/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 28.26 1,774.06 7,193.99 7,222.25 225 JT. 4 1/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.54 1,803.60 7,164.45 7,193.99 224 JT. 4 1/2, 12.6#, L 563/503 Tbg. w /coupling 3.908 4.500 27.61 1,831.21 7,136.84 7,164.45 223 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 28.87 1,860.08 7,107.97 7,136.84 222 JT. 4 1/2, 12.6#, L 563/503 Tbg. w /coupling 3.908 4.500 29.20 1,889.28 7,078.77 7,107.97 221 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 29.51 1,918.79 7,049.26 7,078.77 220 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 28.97 1,947.76 7,020.29 7,049.26 219 JT. 4 1/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.58 1,977.34 6,990.71 7,020.29 218 JT. 4 1/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 24.56 2,001.90 6,966.15 6,990.71 Megger Readings: 2.3 G ohms 217 JT. 4 1/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 30.78 2,032.68 6,935.37 6,966.15 216 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 31.17 2,063.85 6,904.20 6,935.37 215 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 31.23 2,095.08 6,872.97 6,904.20 214 JT. 4 1/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 30.02 2,125.10 6,842.95 6,872.97 213 JT. 4 1/2, 12.6#, L 563/503 Tbg. w /coupling 3.908 4.500 29.01 2,154.11 6,813.94 6,842.95 212 JT. 41/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 28.35 2,182.46 6,785.59 6,813.94 211 JT. 4 1/2,12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 29.57 2,212.03 6,756.02 6,785.59 210 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 26.11 2,238.14 6,729.91 6,756.02 7 '- 209 JT. 4 1/2, 12.6#, L 563/503 Tbg. w /coupling 3.908 4.500 29.01 2,267.15 6,700.90 6,729.91 74 208 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 28.19 2,295.34 6,672.71 6,700.90 . : 207 JT. 4 1/2,12.66, L -80, 563/503 Tbg. w /coupling 3.908 4.500 28.59 2,323.93 6,644.12 6,672.71 7b 206 JT. 4 1/2, 12.6 #, L -80, 563/503 Tbg. w /coupling 3.908 4.500 28.56 2,352.49 6,615.56 6,644.12 GLM P -5 Pup, 41/2, 12.6 #, L -80, Hydril 563 SCC /coup 3.908 4.500 11.38 2,363.87 6,604.18 6,615.56 I GLM #1, 41/2" SFO -1, Hydril 563 w /dummy 3.833 6.401 8.03 2,371.90 6,596.15 6,604.18 P -6 Pup, 41/2, 12.66, L -80, Hydril 563 SCC /coup 3.908 4.500 12.06 2,383.96 6,584.09 6,596.15 77 205 JT. 4 1/2,12.60, L -80, 563/503 Tbg. w /coupling 3.908 4.500 29.04 2,413.00 6,555.05 6,584.09 • • ! 204 JT. 4 1/2, 12.6#, L-80, 563/503 Tbg. w /coupling 3.908 4.500 28.86 2,441.86 6,526.19 6,555.05 203 JT. 4 1/2, 12.6#, L -80, 563/503 Tbg. w /coupling 3.908 4.500 28.01 2,469.87 6,498.18 6,526.19 202 JT. 4 1/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 25.09 2,494.96 6,473.09 6,498.18 201 JT. 41/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 27.86 2,522.82 6,445.23 6,473.09 200 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 28.29 2,551.11 6,416.94 6,445.23 199 JT. 4 1/2,12.60, L 563/503 Tbg. w /coupling 3.908 4.500 31.11 2,582.22 6,385.83 6,416.94 198 .IT. 4 1/2,12.6#, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 31.14 2,613.36 6,354.69 6,385.83 197 .IT. 4 1/2,12.6#, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 30.49 2,643.85 6,324.20 6,354.69 196 .IT. 41/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 31.18 2,675.03 6,293.02 6,324.20 195 JT. 4 1/2, 12.66, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 31.11 2,706.14 6,261.91 6,293.02 194 JT. 4 1/2,12.66, L 563/503 Tbg. w /coupling 3.908 4.500 31.15 2,737.29 6,230.76 6,261.91 l ? 193 JT. 4 1/2,12.66,1 - 80, 563/503 Tbg. w /coupling 3.908 4.500 31.11 2,768.40 6,199.65 6,230.76 i 9 192 JT. 4 1/2, 12.6#, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 28.68 2,797.08 6,170.97 6,199.65 4 ,,' 191 JT. 4 1/2,12.60, L - 80, 563/503 Tbg. w /coupling 3.908 4.500 30.80 2,827.88 6,140.17 6,170.97 9''''; 190 JT. 4 1/2, 12.66, L -80, 563/503 Tbg. w /coupling 1908 4.500 31.17 2,859.05 6,109.00 6,140.17 GLM P -7 Pup, 4 1 /2, 12.6 #, L -80, Hydril 563 SCC /coup 3.908 4.500 11.41 2,870.46 6,097.59 6,109.00 # 2 GLM #2, 4 1/2" SFO -1, Hydril 563 w /dummy 3.833 6.401 8.02 2,878.48 6,089.57 6,097.59 P -8 Pup, 41/2, 12.6 #, L -80, Hydril 563 SCC /coup 3.908 4.500 12.07 2,890.55 6,077.50 6,089.57 189 JT. 4 1/2, 12.60, L -80, 563/503 Tbg. w /coupling 3.908 4.500 28.38 2,918.93 6,049.12 6,077.50 188 JT. 4 1/2,12.6 #, L -80, 563/503 Tbg. w /coupling 3.908 4.500 31.20 2,950.13 2,979.72 6,017.92 6,049.12 ,IT. 4 1/2, 12.6#, L Hydril 503 Tbg. 29.59 5,988.33 6,017.92 187 w /intergalconn 3.908 4.500 Megger Readings: 2.4 G ohms Stand 186 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.48 3,011.20 5,956.85 5,988.33 #1 185 JT. 4 1/2, 12.6#, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.43 3,042.63 5,925.42 5,956.85 184 JT. 4 1/2, 12.6#, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.85 3,072.48 5,895.57 5,925.42 Stand 183 JT. 41/2,12.66, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.44 3,103.92 5,864.13 5,895.57 2 182 .IT. 41/2,12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.41 3,133.33 5,834.72 5,864.13 181 JT. 4 1/2, 12.6#, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.85 3,163.18 5,804.87 5,834.72 Stand 180 JT. 41/2,12.6#, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 30.15 3,193.33 5,774.72 5,804.87 3 179 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 30.28 3,223.61 5,744.44 5,774.72 178 JT. 41/2,12.6#, L-80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 30.21 3,253.82 5,714.23 5,744.44 Stand 177 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.87 3,283.69 5,684.36 5,714.23 4 176 JT. 41/2,12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 30.00 3,313.69 5,654.36 5,684.36 175 JT. 4 1/2,12.60, 1 -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.24 3,342.93 5,625.12 5,654.36 Sinlge 174 JT. 4 1/2, 12.64, 1.-80 Iiydrit 503 Tbg. w /intergal conn 3.908 4.500 30.07 3,373.00 5,595.05 5,625.12 GLM P - 9 Pup, 4 1/2, 12.6 #, L - 80, Hydril 563 SCC /coup 3.908 4.500 11.39 3,384.39 5,583.66 5,595.05 # 3 GLM #3, 4 1/2" SFO - 1, Hydril 563 w /dummy 3.833 6.401 8.05 3,392.44 5,575.61 5,583.66 P -10 Pup, 41/2, 12.6 #, L - 80, Hydril 563 SCC /coup 3.908 4.500 12.07 3,404.51 5,563.54 5,575.61 Double 173 JT. 4 1/2, 12.6 #, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.94 3,434.45 5,533.60 5,563.54 5 172 JT. 4 1/2, 12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.62 3,464.07 5,503.98 5,533.60 Stand 171 JT. 41/2,12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 30.07 3,494.14 5,473.91 5,503.98 #6 170 JT. 41/2, 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.19 3,523.33 5,444.72 5,473.91 169 JT. 41/2,12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 30.31 3,553.64 5,414.41 5,444.72 Stand 168 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.44 3,585.08 5,382.97 5,414.41 7 167 JT. 41/2,12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.31 3,614.39 5,353.66 5,382.97 166 JT. 41/2,12.65, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.43 3,645.82 5,322.23 5,353.66 Stand 165 JT. 41/2, 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 30.24 3,676.06 5,291.99 5,322.23 8 164 JT. 4 1/2,12.6#, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.89 3,705.95 5,262.10 5,291.99 163 JT. 4 1/2, 12.65, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.58 3,735.53 5,232.52 5,262.10 Megger Readings: 2.5 G ohms Stand 162 JT. 41/2,12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 30.00 3,765.53 5,202.52 5,232.52 9 161 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.14 3,794.67 5,173.38 5,202.52 160 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.92 3,824.59 5,143.46 5,173.38 single 1 2 " J' 1.4 1/2. 12.6#, 1. -80 Hydril 503 11,2. w /intergal coon 3.908 4.500 31.47 3,856.06 5,111.99 5,143.46 GLM P - Pup, 4 1/2, 12.6 #, L -80, Hydril 563 SCC /coup 3.908 4.500 11.38 3,867.44 5,100.61 5,111.99 64 GLM #4, 4 1/2" SFO - 1, Hydril 563 w /dummy 3.833 6.401 8.03 3,875.47 5,092.58 5,100.61 P -12 Pup, 41/2, 12.6 #, L -80, Hydril 563 SCC /coup 3.908 4.500 12.06 3,887.53 5,080.52 5,092.58 Double . .I 1.4 I/2, 12.64,1.80 Ilydril 503 wGntergal coon 3.908 4.500 3,918.04 5,050.01 5,080.52 #10 JT. 4 1/2, 12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.70 3,947.74 5,020.31 5,050.01 Stand ! JT. 41/2,12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.59 3,977.33 4,990.72 5,020.31 # 11 i JT. 4 1/2, 12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 28.66 4,005.99 4,962.06 4,990.72 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.41 4,037.40 4,930.65 4,962.06 Stand .. , JT. 41/2,12.65, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.39 4,068.79 4,899.26 4,930.65 # 12 152 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 4,100.16 4,867.89 4,899.26 151 JT. 41/2,12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.33 4,131.49 4,836.56 4,867.89 Stand 150 JT. 41/2,12.6 #, L -80 Hydra 503 Tbg. w /intergal conn 3.908 4.500 31.38 4,162.87 4,805.18 4,836.56 # 13 149 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.31 4,194.18 4,773.87 4,805.18 148 JT. 41/2,12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.25 4,223.43 4,744.62 4,773.87 Single 147 JT. 41/2,12.6#, 1 - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.43 4,254.86 4,713.19 4,744.62 Double 146 JT. 41/2,12.6 #, L-80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.48 4,286.34 4,681.71 4,713.19 • GLM P -13 Pup, 4 1/2, 12.60, L -80, Hydril 563 SCC /coup 3.908 4.500 11.39 4,297.73 4,670.32 4,681.71 # 5 GLM #5, 4 1/2" SFO -1, Hydril 563 w /dummy 3.833 6.401 8.06 4,305.79 4,662.26 4,670.32 P -14 Pup, 41/2, 12.6 #, L -80, Hydril 563 SCC /coup 3.908 4.500 12.07 4,317.86 4,650.19 4,662.26 STD 14 145 JT. 4 I/2, 12.6;/. 1,80 Hydril 503 1 bg. w / intergal con. 3.908 4.500 31.35 4,349.21 4,618.84 4,650.19 Stand 144 JT. 4 1/2, 12.60, L - 80 tlydril 503 Tbg. w /intergal cone 3.908 4.500 31.41 4,380.62 4,587.43 4,618.84 15 143 JT. 4 1/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 28.97 4,409.59 4,558.46 4,587.43 142 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.19 4,438.78 4,529.27 4,558.46 Stand 141 JT. 41/2,12.6 #, L - 80 Hydril 503 Tbg. w /intergal Bonn 3.908 4.500 31.38 4,470.16 4,497.89 4,529.27 16 140 JT. 4 1/2,12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.33 4,499.49 4,468.56 4,497.89 139 JT. 4 1/2, 12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.40 4,530.89 4,437.16 4,468.56 Stand 138 JT. 41/2,12.6 #, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 4,562.26 4,405.79 4,437.16 17 137 JT. 41/2, 12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.00 4,591.26 4,376.79 4,405.79 136 JT. 4 1/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 4,622.63 4,345.42 4,376.79 Stand 135 JT. 41/2, 12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 28.90 4,651.53 4,316.52 4,345.42 18 134 JT. 41/2,12.60, L Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.27 4,680.80 4,287.25 4,316.52 133 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 4,712.17 4,255.88 4,287.25 Single 132 .IT. 4 1/2, 12.64,1 - 80 tlydril 503 Tbg. w /intergal Conn 3.908 4.500 31.38 4,743.55 4,224.50 4,255.88 GLM P -15 Pup, 41/2, 12.65, L -80, Hydril 563 SCC /coup 3.908 4.500 11.36 4,754.91 4,213.14 4,224.50 # 6 GLM 06, 4 1/2" SFO - 1, Hydril 563 w /dummy 3.833 6.401 8.03 4,762.94 4,205.11 4,213.14 J' -16 Pup, 4 1/2, 12.6 #, L -80, Hydril 563 SCC /coup 3.908 4.500 12.06 4,775.00 4,193.05 4,205.11 Double 131 JJ. 4 1'2. 12.6 1, -9 tlydril 503 Tbg. w /intergal coon 3.908 4.500 31.38 4,806.38 4,161.67 4,193.05 Std -19 130 JT. 4 1/2, 12.60, L - 80 Ilydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 4,837.76 4,130.29 4,161.67 Stand 129 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 30.28 4,868.04 4,100.01 4,130.29 # 20 128 JT. 41/2, 12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.34 4,897.38 4,070.67 4,100.01 127 JT. 41/2,12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.13 4,926.51 4,041.54 4,070.67 Megger Readings: 2.4 G ohms Stand 126 JT. 41/2,12.6 #, 1 -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 4,957.88 4,010.17 4,041.54 # 21 125 JT. 41/2,12.6 #, L Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 4,989.26 3,978.79 4,010.17 124 JT. 41/2,12.60, L-80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 5,020.63 3,947.42 3,978.79 Stand 123 JT. 41/2,12.6 #, L Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.41 5,052.04 3,916.01 3,947.42 0 22 122 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.40 5,083.44 3,884.61 3,916.01 121 JT. 4 1/2, 12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.39 5,114.83 3,853.22 3,884.61 Stand 120 JT. 41/2,12.6 #, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 5,146.21 3,821.84 3,853.22 # 23 119 JT. 4 1/2, 12.6#, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.39 5,177.60 3,790.45 3,821.84 118 JT. 4 1/2,12.6 #, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.11 5,206.71 3,761.34 3,790.45 Stand 117 JT. 4 1/2, 12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.29 5,238.00 3,730.05 3,761.34 # 24 116 JT. 4 1/2, 12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 5,269.38 3,698.67 3,730.05 115 JT. 41/2,12.6 #, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.44 5,300.82 3,667.23 3,698.67 Stand 114 JT. 41/2,12.6 #, 1-80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.36 5,332.18 3,635.87 3,667.23 # 25 113 .IT. 41/2,12.6 #, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 5,363.55 3,604.50 3,635.87 1'' - JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.13 5,392.68 3,575.37 3,604.50 Single 1 JT. 4 1/2, 12.60, L -80 Hydril 503 Tbg. w /intergal corn 3.908 4.500 29.19 5,421.87 3,546.18 3,575.37 Double 1 .11. 4 l'2, 12.64,1.-80 Ilydril 503 Tbg. w /intergal coon 3.9(18 4.500 31.36 5,453.23 3,514.82 3,546.18 GLM P - 17 Pup, 41/2, 12.60, L - 80, Hydril 563 SCC /coup 3.908 4.500 11.4 5,464.63 3,503.42 3,514.82 # 7 GLM #7, 4 1/2" SFO -1, Hydril 563 w /dummy 3.833 6.401 8.06 5,472.69 3,495.36 3,503.42 P -18 Pup, 41/2, 12.6 #, L -80, Hydril 563 SCC /coup 3.908 4.500 12.05 5,484.74 3,483.31 3,495.36 Std - 109 JT. 4 1/2, 12.6 #. L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.47 5,516.21 3,451.84 3,483.31 Stand 108 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.18 5,545.39 3,422.66 3,451.84 # 27 107 JT. 41/2,12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 5,576.76 3,391.29 3,422.66 106 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.36 5,608.12 3,359.93 3,391.29 Stand 105 JT. 4 1/2, 12.60,1 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.30 5,637.42 3,330.63 3,359.93 ESP cable splice Q 5638'. Install "Splice clamp ". Meg test = 2.75 G ohms # 28 104 JT. 4 1/2, 12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.47 5,668.89 3,299.16 3,330.63 103 JT. 4 1/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.16 5,698.05 3,270.00 3,299.16 Stand 102 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.26 5,727.31 3,240.74 3,270.00 0 29 101 JT. 4 1/2, 12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.41 5,758.72 3,209.33 3,240.74 100 JT. 41/2,12.60, L-80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.24 5,787.96 3,180.09 3,209.33 Stand 99 JT. 41/2,12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 5,819.34 3,148.71 3,180.09 # 30 98 JT. 41/2, 12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.48 5,850.82 3,117.23 3,148.71 97 JT. 41/2,12.6 #, L - 80 Hydril 503 Tbg. w/intergal conn 3.908 4.500 31.33 5,882.15 3,085.90 3,117.23 Stand 96 JT. 4 1/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 5,913.52 3,054.53 3,085.90 # 31 95 JT. 4 1/2, 12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 5,944.89 3,023.16 3,054.53 94 JT. 4 1/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.05 5,973.94 2,994.11 3,023.16 Stand 93 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.30 6,003.24 2,964.81 2,994.11 # 32 92 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.44 6,034.68 2,933.37 2,964.81 91 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.20 6,063.88 2,904.17 2,933.37 Stand 90 JT. 41/2,12.6 #, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 6,095.26 2,872.79 2,904.17 0 33 89 JT. 41/2,12.60, 1 Hydril 503 Tbg. w /intergal coon 3.908 4.500 31.47 6,126.73 2,841.32 2,872.79 88 JT. 4 1/2,12.6 #, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.27 6,156.00 2,812.05 2,841.32 Stand 87 JT. 41/2,12.6 #, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.00 6,185.00 2,783.05 2,812.05 0 34 86 JT. 4 1/2,12.6 #, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 6,216.37 2,751.68 2,783.05 85 JT. 41/2,12.6 #, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.35 6,247.72 2,720.33 2,751.68 • • • Stand 84 JT. 4 1/2, 12.6#, L-80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 6,279.09 2,688.96 2,720.33 0 35 83 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.46 6,310.55 2,657.50 2,688.96 82 JT. 4 1/2, 12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.14 6,339.69 2,628.36 2,657.50 GLM P - Pup, 41/2, 12.6 #, L -80, Hydril 563 SCC /coup 3.908 4.500 11.18 6,350.87 2,617.18 2,628.36 # 8 GLM #8, 4 1/2" SFO -1, Hydril 563 w /dummy 3.833 6.401 7.73 6,358.60 2,609.45 2,617.18 P - 20 Pup, 41/2, 12.60, L - 80, Hydril 563 SCC /coup 3.908 4.500 12.06 6,370.66 2,597.39 2,609.45 Stand 81 JT. 4 1/2, 12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.39 6,402.05 2,566.00 2,597.39 036 80 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.28 6,431.33 2,536.72 2,566.00 79 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 6,462.71 2,505.34 2,536.72 Stand 78 JT. 4 1/2, 12.60, L -80 Hydril 503 Tbg. w /intergal conn 3,908 4.500 29.08 6,491.79 2,476.26 2,505.34 0 37 77 JT. 4 1/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.06 6,520.85 2,447.20 2,476.26 76 JT. 4 1/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.42 6,552.27 2,415.78 2,447.20 Stand 75 JT. 4 1/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.53 6,583.80 2,384.25 2,415.78 0 38 74 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.46 6,615.26 2,352.79 2,384.25 73 JT. 4 1/2, 12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.52 6,646.78 2,321.27 2,352.79 Stand 72 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.31 6,676.09 2,291.96 2,321.27 # 39 71 JT. 4 1/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.38 6,705.47 2,262.58 2,291.96 70 JT. 4 1/2, 12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.30 6,734.77 2,233.28 2,262.58 Megger Readings: 3.8 G ohms Stand 69 JT. 4 1/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.31 6,766.08 2,201.97 2,233.28 # 40 68 .1T. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.44 6,797.52 2,170.53 2,201.97 67 JT. 41/2,12.60, L Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.50 6,829.02 2,139.03 2,170.53 Stand 66 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w/intergal conn 3.908 4.500 31.40 6,860.42 2,107.63 2,139.03 # 41 65 JT. 41/2,12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 6,891.80 2,076.25 2,107.63 64 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 6,923.17 2,044.88 2,076.25 Stand 63 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.31 6,952.48 2,015.57 2,044.88 . 0 42 62 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w/intergal conn 3.908 4.500 31.40 6,983.88 1,984.17 2,015.57 61 JT. 4 1/2,12.60, L Hydril 503 Tbg. w/intergal conn 3.908 4.500 31.40 7,015.28 1,952.77 1,984.17 Stand 60 JT. 4 1/2,12.60, L - S0 Hydril 503 Tbg. w/intergal conn 3.908 4.500 31.38 7,046.66 1,921.39 1,952.77 # 43 59 JT. 41/2,12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.46 7,078.12 1,889.93 1,921.39 58 JT. 41/2,12.60, L-80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.35 7,109.47 1,858.58 1,889.93 Stand 57 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.36 7,140.83 1,827.22 1,858.58 # 44 56 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.26 7,170.09 1,797.96 1,827.22 55 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal con 3.908 4.500 31.37 7,201.46 1,766.59 1,797.96 Stand 54 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w/intergal corm 3.908 4.500 29.35 7,230.81 1,737.24 1,766.59 0 45 53 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.40 7,262.21 1,705.84 1,737.24 52 JT. 41/2, 12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.44 7,291.65 1,676.40 1,705.84 Single 51 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.46 7,323.11 1,644.94 1,676.40 Double 50 JT. 4 1/2, 12.60.1, Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.32 7,352.43 1,615.62 1,644.94 GLM P - 21 Pup, 4 1/2, 12.6 #, L - 80, Hydril 563 SCC /coup 3.908 4.500 11.37 7,363.80 1,604.25 1,615.62 # 9 GLM #9, 4 1/2" SFO - 1, Hydril 563 w /dummy 3.833 6.401 7.73 7,371.53 1,596.52 1,604.25 P - 22 Pup, 41/2, 12.6 #, L - 80, Hydril 563 SCC /coup 3.908 4.500 12.06 7,383.59 1,584.46 1,596.52 Std 46 49 JT. 4 1/2,12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.10 7,412.69 1,555.36 1,584.46 Stand 48 JT. 4 1/2, 12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.05 7,441.74 1,526.31 1,555.36 0 47 47 JT. 4 1/2, 12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.02 7,470.76 1,497.29 1,526.31 46 JT. 4 1/2, 12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.35 7,502.11 1,465.94 1,497.29 Stand 45 .1T. 4 1/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 7,533.49 1,434.56 1,465.94 if 48 44 JT. 4 1/2, 12.6#, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.47 7,564.96 1,403.09 1,434.56 43 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.24 7,594.20 1,373.85 1,403.09 Stand 42 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.67 7,623.87 1,344.18 1,373.85 # 49 41 IT. 41/2,12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.05 7,652.92 1,315.13 1,344.18 40 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.02 7,681.94 1,286.11 1,315.13 Stand 39 JT. 41/2,12.6 #, L-80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.48 7,711.42 1,256.63 1,286.11 0 50 38 JT. 41/2,12.60, L80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.47 7,742.89 1,225.16 1,256.63 37 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 7,774.26 1,193.79 1,225.16 Stand 36 JT. 41/2,12.60, L80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.37 7,805.63 1,162.42 1,193.79 0 51 35 JT. 4 1/2,12.60, L80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.35 7,836.98 1,131.07 1,162.42 34 JT. 4 1/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.36 7,868.34 1,099.71 1,131.07 Megger Readings: 3.8 G ohms Stand 33 JT. 41/2,12.60, L80 Hydri1 503 Tbg. w /intergal conn 3.908 4.500 31.37 7,899.71 1,068.34 1,099.71 # 52 32 JT. 41/2,12.60, L80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.43 7,931.14 1,036.91 1,068.34 31 JT. 41/2,12.60, L80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.36 7,962.50 1,005.55 1,036.91 Stand 30 JT. 41/2,12.6#, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 7,993.88 974.17 1,005.55 # 53 29 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.41 8,025.29 942.76 974.17 28 JT. 41/2,12.60, L - 80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.30 8,056.59 911.46 942.76 ® 27 JT. 4 1/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.39 8,087.98 880.07 911.46 26 JT. 41/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.17 8,117.15 850.90 880.07 25 JT. 4 1/2,12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 28.90 8,146.05 822.00 850.90 • 0 Stand 24 JT. 4 1/2, 12.6 #, L - 80 Hydri1 503 Tbg. w /intergal conn 3.908 4.500 31.50 8,177.55 790.50 822.00 # 55 23 JT. 4 1/2,12.6#, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.23 8,206.78 761.27 790.50 22 JT. 4 1/2, 12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.33 8,238.11 729.94 761.27 Stand 21 JT. 4 1/2, 12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.22 8,267.33 700.72 729.94 # 56 20 JT. 4 1/2, 12.6 #, L -80 Hydril 503 Tbg. w /intergal coon 3.908 4.500 31.31 8,298.64 669.41 700.72 19 JT. 4 1/2, 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.21 8,327.85 640.20 669.41 Stand 18 JT. 4 1/2, 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.41 8,359.26 608.79 640.20 # 57 17 JT. 4 1/2, 12.68, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.36 8,388.62 579.43 608.79 16 JT. 4 1/2, 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 8,420.00 548.05 579.43 Stand 15 JT. 4 1/2, 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.35 8,451.35 516.70 548.05 # 58 14 JT. 4 1/2, 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.14 8,480.49 487.56 516.70 13 JT. 4 1/2, 12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.11 8,509.60 458.45 487.56 Srand 12 JT. 4 1/2, 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.33 8,540.93 427.12 458.45 # 59 11 JT. 4 1/2, 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.55 8,572.48 395.57 427.12 10 JT. 4 1/2, 12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.38 8,603.86 364.19 395.57 Stand 9 JT. 4 1/2, 12.60, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.09 8,632.95 335.10 364.19 # 60 8 JT. 4 1/2, 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.14 8,662.09 305.96 335.10 7 JT. 4 1/2, 12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.50 8,693.59 274.46 305.96 Stand 6 JT. 41/2,12.6 #, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.40 8,724.99 243.06 274.46 # 61 5 JT. 41/2,12.68, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 29.12 8,754.11 213.94 243.06 4 JT. 4 1/2,12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.39 8,785.50 182.55 213.94 Stand 3 JT. 4 1/2, 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.32 8,816.82 151.23 182.55 # 62 2 JT. 4 1/2. 12.66, L -80 Hydril 503 Tbg. w /intergal conn 3.908 4.500 31.35 8,848.17 119.88 151.23 1 JT. 4 1/2, 12.66, L -80 Hydril 503 Tbg. w /intergal Conn 3.908 4.500 29.11 8,877.28 90.77 119.88 Pup, 4 1/2, 12.6#, L -80, IBT x 563, BxP 3.908 4.500 12.15 8,889.43 78.62 90.77 Pup, 4 1/2, 12.6#, L -80, IBT, PxP 3.908 4.500 3.25 8,892.68 75.37 78.62 Manger: FMC. lb 314', type 1U b tC. - tNS, 41/2 Butt lift & suspend, CIW Type "H" BPV profile. ESP cable to Penetrator #C61727. (2) 1/4" SS chemical injection lines wtcheck valves installed below hanger. Final Meg reading = 800 M ohms 0.87 8,893.55 74.50 75.37 RKB to LDS 74.5 8,968.05 (0.00) 74.50 286 8,968.05 (0.00) (0.00) 287 6 Kramer Clamps 8,968.05 (0.00) (0.00) 288 1 Gator Splice clamp 8,968.05_ (0.00) (0.00) 289 12 Pump MLE clamps 8,968.05 (0.00) (0.00) 290 4 Seal Section MLE clamps 8,968.05 (0.00) (0.00) 291 6 Protectalizers 8,968.05 (0.00) (0.00) 292 1 4500 series Cross Coupling clamps 8,968.05 (0.00) (0.00) 293 1 MLE Splice Clamp 8,968.05 (0.00) (0.00) 294 168 Dual Channel Cannon clamps 8,968.05 (0.00) (0.00) 295 Cannon clamps on joints #280 - #247 8,968.05 (0.00) (0.00) Cannon clamps on every-other joint from #246 296 to XO pup below hanger. 8,968.05 (0.00) (0.00) Cannon clamps on pup joints above and below 297 GLMs 8,968.05 (0.00) (0.00) 298 1st in 2 nd in 299 CABLE SERIAL NUMBER 57280 57279 Total cable used = 8934' 300 LENGTH 5500' 5500' Cable remaining on reel # 57279 = 2066' LT84- LT84 - Sot REEL NUMBER 13354 13328 302 CABLE CONDITION New New 303 CABLE OWNERSHIP Chevron Chevron 304 MOTOR LEAD EXTENSION S/N: 10507108; P/N: C78146 - 120; Description: MLE CBLE 725 #1 KLHT 305 COMMENTS Penetrator (C61727), Lower Connector (BIW: L02118 - Kit) 306 2 - tube flat pack (2X .375 ") f /pressure discharge to Cannon clamp # 4500 52/C - 25S /06DC 307 surface for chemical injection Gator Splice Tower (PL041032 - kit) Gator Upper (GSO41032 - Kit) 308 3 -tube flat pack (3X .025 ") f/Phoenix to discharge head. 309 Middle line for gauge, outsside for Chem inj. 310 311 312 313 314 Il i 111 • • Page l of l • Schwartz, Guy L (DOA) From: Schwartz, Guy L (DOA) Sent: Monday, June 18, 2012 3:05 PM To: 'Luke Keller' Subject: RE: M -29 USIT Log Results 62 04 Casing test to 1500 psi on 9 5/8" is acceptable as per your sundry proposal. Guy Schwartz Senior Petroleum Engineer AOGCC 793 -1226 (office) 444 -3433 (cell) From: Luke Keller [mailto:lkeller @hilcorp.com] Sent: Monday, June 18, 2012 11:12 AM To: Schwartz, Guy L (DOA) Cc: Shane Hauck; Paul Mazzolini; Trudi Hallett Subject: M -29 US1T Log Results Guy, Attached is the only real section of interest that was obtained from the M -29 USIT log. There is an ID restriction or casing eccentricity at 4075' that is of concern to us. The interval has been noticed on several trips with BHAs as well (fishing assy & the clean out run yesterday). The plan for M -29A is to run a 7 -5/8" tieback to isolate the 9 -5/8" casing during the production life of the well. Because the 9 -5/8" casing integrity is only of concern during the drilling phase, we request that the casing test pressure be reduced from 3000 psi to 1500 psi to reduce the likelihood of a casing failure at 4075'. The well will be a Hemlock & G -zone producer, both reservoirs are approx. 95% water cut. The well will be "No -Flow" tested prior to being produced. The likelihood of having to shut in the well during the drilling phase is remote. The casing was successfully tested to 1500 psi while pressure testing the cement plug set from 8930' to 8510'. Luke Keller Drilling Engineer Hilcorp Alaska, LLC 907 - 777 -8395 6/18/2012 jj * L�■� • :::::::: 1 , •.: s por , g . k a17l�a r • . .. r ... OM ! mom A ,, a✓r.% �• 1 r7kFr ' r MI 4100 �1V CM IN •""+ • MIR - • + MI. al I I a!a = KIM M # r . I �1 t Cr : _ t aMaM:NAa 41P =HIM "111111 -. aar a a * . �.r • _ .� a�4 : =ram. . +r ,_ -- - _ f IllC�! . raa =a = 1: Trel L MI � �al� - - -- : ::< ::: �alal� <: <: ��� f a�aa -.:-:-: -::::?-: -_----:- ::.::-.:: AA I !!! 1 "1 �!! u � ' ; 6 ' 4200 - ��a1� III ( 7ii .iwl P IEZIIMMIIM -. k r El NE I Mama - . .... .. . ••• if 11111MWIMM - - ..' "lir lir 1A 17lalal • ,T7_ x tararamm r ... IIII as ` • : : n . i n 1 1 - . 1 a4 7�� /lrrrrrn a !i7 MIMI . y ',1r r�ra a . 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" r ° if MriiiiiWirdinii .., .... • .-.--- ... , mingsrlams. • , (... . .. .- • atraimam. . :.., . ............ ormummms. - . . ■ - .:..- _..... __ ..,. uomimo.p.F........,.... ..w...amitiam • - - - ------- .:.:.:.::::::- .,- - v.:. • .. ---..------ vito artsm. •r .-„,::•:::::: . . •,....., ,........ ' - . Ni .... .5.. .1 . ..„ _.,.. • Ell . •.•.•.• ...:.:. . el Kl ! • Page 1 of 1 Schwartz, Guy L (DOA) From: Luke Keller [Ikeller @hilcorp.com] Sent: Thursday, June 14, 2012 1:11 PM To: Schwartz, Guy L (DOA) Subject: RE: M -29 Plug & Abandonment 10-403 "Change to Approved Procedure" Thank you, Guy. Much appreciated. P.N l c (- o z Luke Keller Drilling Engineer Hilcorp Alaska, LLC 907 - 777 -8395 From: Schwartz, Guy L (DOA) [mailto:guy.schwartz @alaska.gov] Sent: Thursday, June 14, 2012 1:09 PM To: Luke Keller Subject: RE: M -29 Plug & Abandonment 10 -403 "Change to Approved Procedure" Luke, You have verbal approval to proceed with the new procedure to modify the P & A of well M -29 as outlined in your sundry. Guy Schwartz Senior Petroleum Engineer AOGCC 793 -1226 (office) 444 -3433 (cell) From: Luke Keller [mailto:Ikeller @hilcorp.com] Sent: Thursday, June 14, 2012 10:22 AM To: Schwartz, Guy L (DOA) Cc: Paul Mazzolini; Shane Hauck; Mike Leslie; Stephanie Klemmer Subject: M -29 Plug & Abandonment 10 -403 "Change to Approved Procedure" Guy, Attached 10 -403 is headed your way via courier this morning. Luke Keller Drilling Engineer Hilcorp Alaska, LLC 907 - 777 -8395 6/14/2012 • Page 1 of 1 • Schwartz, Guy L (DOA) From: Regg, James B (DOA) Sent: Monday, June 18, 2012 12:16 PM To: Schwartz, Guy L (DOA); Ferguson, Victoria L (DOA) Subject: FW: test cmt plug Attachments: P6170646.jpg 6 Jim Regg AOGCC 333 W. 7th Ave, Suite 100 Anchorage, AK 99501 907 - 793 -1236 From: Shane Hauck [mailto:shauck @hilcorp.com] Sent: Sunday, June 17, 2012 6:01 PM To: Regg, James B (DOA); DOA AOGCC Prudhoe Bay Cc: Paul Mazzolini; Mike Leslie; Luke Keller Subject: test cmt plug Mr. Jim Regg We tag our fish w/ 2 -7/8" cmt stinger @ 9830' & layed in (36) bbl 519' 15.3 ppg balance cmt plug / WOC 24 hrs / wash do w/ 8 -1/2" bit @ 10 bpm tag @ 8388' / Rotated @ 80 rpm W/ 10 bpm w/ no wob c /out soft cmt t/ 8466' rotated @ 80 rpm w/ 10 bpm w/ 15 -20k wob c /out hard cmt t/ 8510' dpm / Circ clean / tested 9 -5/8 X 10 -3/4" csg test against 420' P &A cmt plug w/ 5.6 bbls t/ 1520 psi held for 30 min end psi was 1502 psi (see photo of chart) N1�..�p t1..•4.►.1.1.( Thanks, Shane R. Hauck Sr. Drilling Foreman Hilcorp Energy Company shauck @hilcorp.com Anch office: 907 -777- 8366 Cell: 907 - 250 -2713 Rig: 907- 776 -6833 6/18/2012 • • „-p: I! SEAN PARNELL, GOVERNOR JAI Li ALASKA OIL AND GAS 333 W. 7th AVENUE, SUITE 100 CONSERVATION COMMISSION ANCHORAGE, ALASKA 99501 -3539 PHONE (907) 279 -1433 FAX (907) 276 -7542 Paul Mazzolini Drilling Manager " 1 1 6 Hilcorp Alaska, LLC 3800 Centerpoint Drive Anchorage, AK 99524 Re: McArthur River Field, Middle Kenai G, West Foreland, and Hemlock Oil Pool, Trading Bay Unit M -29 Sundry Number: 312 -124 Dear Mr. Mazzolini: Enclosed is the approved Application for Sundry Approval relating to the above referenced well. Please note the conditions of approval set out in the enclosed form. As provided in AS 31.05.080, within 20 days after written notice of this decision, or such further time as the Commission grants for good cause shown, a person affected by it may file with the Commission an application for reconsideration. A request for reconsideration is considered timely if it is received by 4:30 PM on the 23rd day following the date of this letter, or the next working day if the 23rd day falls on a holiday or weekend. Sincerely, Cathy " . Foerster Chair DATED this /t9 day of May, 2012. Encl. 4 it • •`'-7 s /`v 1 ' 'z.. STATE OF ALASKA Sal S"-/0 - ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS 20 AAC 25.280 1. Type of Request: Abandon ❑ Plug for Redrill 0 0 Perforate New Pod ❑ Repair Weil ❑ Change Approved Program ❑ Suspend ❑ Plug Perforations ❑ Perforate ❑ Pull Tubing ❑ Time Extension ❑ 1 Operations Shutdown ❑ Re -enter Susp. Well ❑ Stimulate ❑ Alter Casing ❑ Other. ❑ 2. Operator Name: 4. Current Well Class: 5. Permit to Drill Number. Hilcorp Alaska, LLC Development gi « Exploratory ❑ 191 -027 3. Address: Stratigraphic ❑ Service El 6. API Plumber. 3800 Centerpoint Drive, Anchorage AK, 99524 50- 733 - 20428-00 ' I 7. If perforating, closest approach in pool(s) opened by this operation to nearest 8. Well Name and Number property line where ownership or landownership clanges: Spacing Exception Required? Yes ❑ No 0 Trading Bay Unit M -29 • 9. Property Designation (Lease Number): 10. Field / Pool(s): ADL0018730 Steelhead Platform McArthur River Field / Middle Kenai G Oil & West Foreland Oil & Hemlock Oil Pool 11. PRESENT WELL CONDITION SUMMARY Total Depth MD (ft): Total Depth TVD (ft): Effective Depth MD (ft): Effective Depth TVD (ft): Plugs (measured): Junk (measured): 11,896' • 11,130' • 10,938' 10,271' N/A 10,538' (fill) Casing Length Size MD TVD Burst Collapse Structural 915' 26" 990' 989' 3,010 psi 1,440 psi Conductor 1,366' 16" 1,441' 1,440' 2,630 psi 1,010 psi Surface 3,681' 13 -3/8" 3,756 3,754 3,090 psi 1,540 psi Intermediate Production 10,963' 10 -3/4" & 9 -5/8" 484' x 11,038' 484' x 10,357' 5 860 psi 3,220 psi Liner C r Perforation Depth MD (ft): Perforation Depth TVD (ft): Tubing Size: Tubing Grade: Tub 9,180' - 10,095' 8,690' - 9,508' 4 -1/2" 12.6# L -80 APR x,03201? 10,312' - 10,538' 9,694' - 9,892' Packers and SSSV Type: Packers and SSSV MD (ft) and ND (ft): & I a a fl & G as Cons, L-, Baker DB packer 194 -47 Pkr: 10,100' MD / 9,510' ND ArrhoP:. 0�► 1 1 1SSIpts 12. Attachments: Description Summary of Proposal El 13. Well Class after proposed work: Detailed Operations Program ❑ BOP Sketch El Exploratory ❑ Development El Service ❑ 14. Estimated Date for 15. Well Status after proposed work: ;�• j Commencing Operations: 15- May -12 Oil ❑ Gas ❑ WDSPL ❑ Suspended 16. Verbal Approval: Date: WINJ ❑ GINJ ❑ WAG ❑ Abandone�a ' Commission Representative: GSTOR El SPLUG , y.'' 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. Contact Printed Name 74t t.. M A4 XZO L. I A! I Title sb RILL I >N G M/$0•4/tea a Signature 74 „n , Phone 8 3 � Date 63i., / �� 2.. j 407-771- 4 COMMISSION USE ONLY Conditions of approval: Notify Commission so that a representative may witness Sundry Number: /n - /t q Plug Integrity ig BOP Test V Mechanical Integrity - Integgrity T s estt 111 Location Clearance � *1 Other: 5 � - c 'fir G..e /X lC -S f .` ' - 0�Dl� J f ,3 L ! °' /, a 4 () e^ c_ . Subsequent Form Required: ! 0 67 1� _ { APPROVED BY Approved by: ad ( COMMISSIONER THE COMMISSION q Date: S ii Form 10 -403 Revised 1/2010 R N ®MS 9i . 1 L O12 plicate y- /t -/2.- O t I G I/ l 9F.16'� �f / O r tin Duplicate ) . • • • • Trading Bay Unit Well # M29 Hilcorp EneitY �� 3/20/2012 Ps Obiective: P • Pull current completion; evaluate condition of 9 -5/8" x 10 -3/4" casing. 1') r • Plug & abandon G -zone perforations from 9,180' to 9,632' and jRKBJ. Plug & abandon Hemlock • perforations from 9700' to 10,095' m__ Plug & abandon West Foreland perforations from ' 10,312' to 10,538' and (RKB). • Prepare wellbore for re- drill. • Procedure Summary: 1. Circulate residual oil out of wellbore & load well with filtered inlet water. 2. Set BPV in tubing hanger. N/D tree, install & test 16 -3/4" 5M BOP (schematic attached). Test rams to 250/5000 psi, annular to 250/3500 psi. Remove BPV. A. BOP configuration f/ top down: 16 -3/4" Hydril GK 5M annular /16 -3/4" 5M Cameron U Double Ram /Mud cross /16 -3/4" 5M Cameron U single ram i. Double Ram: 3 -1/2" x 7" VBR in top cavity, blind ram in bottom cavity v - ii. Single Ram: 7 -5/8" fixed ram for running 7 -5/8" tieback ., 3. Pull production tubing & Centrilift ESP. 4. Attempt to TIH w/ stinger to Baker DB 194 -47 packer @ 10,100' MD (RKB). ,r A. If able to trip through damaged casing at ^' 9,651' (Casing was severely damaged with a flat bottom mill): 1. Circulate 30 bbls 15.4 ppg Class G neat cmt to just above packer. Sting in to packer and squeeze cmt into West Foreland perforations. 2. Pull out of pkr & spot 700' (50 bbls) 15.4 ppg Class G neat cmt f/ 10,100' to 9,400' across Hemlock, G -zone 5, & G -zone 6 perforations. 3. Pull up above plug, circulate out, WOC 24 hrs, tag & confirm TOC. 4. Spot 400' (30 bbls) 15.4 ppg Class G neat cmt f/ 9,400' to 9,000' across G -zone • (# 1 thru #4) perforations. 5. Pull up above plug, circulate out, WOC 24 hrs, tag & confirm TOC. "/ P: re es fi- 1j "/c.4-5 ` B. If unable to trip through damaged casing at "9,651': 1 ? A/ f-.'fz f;:. ye . - Ire 1. Trip in hole with cement retainer to 9,170' (just above top perforation). re) 2. Conduct injectivity tests at different rates. 3. Circulate 110 bbls 15.4 ppg Class G neat cement down to retainer, close circulating port and squeeze cmt into West Foreland, Hemlock, & G -zone perforations. _ 5. Dress off cement in preparation for setting whipstock. Run USIT log. Set CIBP @ — 8980'. �� 1S� 6. Run & set Baker Hughes G2 Window Master Whipstock on TM bottom trip anchor 3z `` f'.s 1 conGYf. 14, pi lot_e;M be drilled as _M-29A per the following procedure at , fit Mete ''' X009' Q w tv. fir o%c/o ,'r, fwv r do (/4 1N� e.,,i , vr 0 4 gtfelor� gfko ;II 20 To �N r4 f ' « ' /' Obsrircl%c�i w4f c°,(coo, 0 Z' F+�' � f 7D "7 l f ji OO &vtrf W tr5 � Gn4/ 6PSiIT, �' /P� r�mlrg me CAf,� Or wit �elvn qv 6 '404 /+ePrrxf 61 ��r' fl *b b'e /ark./ M ,# %f CC M -29 P& Summary /' �efS 7 ` +� /00 / a rch 16, 2012 t � qty �t f h• QO 4, , QCCPS,�► /P. Cline 4 04 / 4l i4►,' A/lirr <vT0 1 4 ®aMy Th, f we(iere Se 'Ti - 4 filer cK C4n ip fi l/e�/ 70 q new 6 f9d 1 4 / 74r,et t 2 4' I (r'COvet fr y li -s f ' e k/ Aie WO,- • • Trading Bay Unit Well # M29 Hilcorp 3/20/2012 Energy Company A. Mill 8 -1/2" window in 9 -5/8" casing f/ 8950' to 8966'. Directional drill 8 -1/2" hole section f/ 8966' to 12,311' MD / 10,072' ND in a NNE direction (15deg) using a 9.6 ppg 2% KCI /Clayseal /GEM water based mud system. B. Run & cmt a 7" 26# L -80 BTC prod liner f/ 12,311' to 8750' with a Baker Hughes ZXP liner top packer. C. Run a 7 -5/8" 29.06# L -80 Hydril 523 tieback assy. D. Selectively perforate G -zone & Hemlock intervals. E. Run a Centrilift ESP on 3 -1/2" 9.3# 1 -80 EUE prod tubing to "'8700'. AOGCC M -29 P &A Summary March 16, 2012 . , • • • Chevron '° Steelhead Platform ALASKA DRILLING Well # M -29 Wellbore Schematic 04 -15 -2010 Workover RKB to TBG Hgr = 74.5' CASING AND TUBING DETAIL Hanger Connection = IBTM SIZE WT GRADE CONN ID TOP BTM. Alk 26 267# to 397# Drill Quip Surf 990' 16 75# K -55 BTC 15.124 Surf 1441' • aula '' a 13 -3/8 61# & 68# K -55 BTC 12.415 Surf 3756' • 3111111E: a ► 10 -3/4 51# & 55.54 L -80 BTC 9.760 Surf 484' MIXE anit ` 4 9 -5/8 47# & 53.5# L -80 AB Mod & BTC 8.535 484' 1 1,038' 5 A AIM 6 �.i 4-1/2" 12.6# & 12.75# L-80 Hydrill 503 /563 3.958 Surf 8,873' MOIL 7 m JEWELRY DETAIL mew 8 9 NO. Depth ID Item 10 74.5' 3.833" drift Tubing Hanger 4 11 1 1,597' 3.833" drift GLM 49 SFO -1 2 2,610' 3.833" drift GLM #8 SFO -1 3 3,495' 3.833" drift GLM #7 SFO -1 13 4 4,205' 3.833" drift GLM #6 SFO -1 5 4,662' 3.833" drift GLM #5 SFO -1 td 5 ,1, 6 ', 6 5,093' 3.833" drift GLM #4 SFO -1 7 5,576' 3,833" drift GLM #3 SFO -1 �l / /) 8 6,090' 3.833" drift GLM #2 SFO -1 im mi - - - . C-(13 e e 9 6,596' 3.833" drift GLM #1 SFO -1 - 81 'O 10 8,768' 3.813" XD SlidintSleeve (down opening) 11 8,827' 3.725" XN- Profile Nipple `3U (313 " 12 8,873' NA Centrilift ESP Assembly (X/O pressure head top depth) Poeaible ` . - - G 13 8,968' NA Aluminum Anode (bottom depth) Damaged 14 10,100' 4.75" Baker DB Packer Size 194 -47 with 14' SBE Caefng from 9677' m 968 +' - 15 10,104' 6.366" Millout Extension obau °°n«,6 16 10,146' 3.813" Otis X- Nipple 9,664 17 10,180' 3.725" Otis XN- Nipple -' 13 -' _ 18 10,182' 3.958" WLEG 19 10,988' NA Cement Retainer - HB PERFORATION DATA l hstimated Totai Estimated Shots per Cummuiativ. SPF Zone Top Btm Interval Zone-Bench per Zone Bench I G - 9,180' 9,220' 40' 1,053 shots 26 spf i i : V �'"' pS G -2 9,239' 9,269' 30' 731 shots 24 spf `` . -:� ��` ' �¢, 14,. G - 3 9,330' 9,351' 21' 510 shots 24 spf 15 G - 4 9,380' 9,420' 40' 1,250 shots 31 spf All NI' i G -5 9,475' 9,555' 80' 1,802 shots 23 spf M 16 G -6 9,607' 9,632' 25' 150 shots 6 spf All 17 HB -1 9,700' 9,731' 31' 540 shots 17 spf -'- 1 18 HB - 9,745' 9,776' 31' 540 shots 17 spf - HB -3 r 9.845' 9,876' 31' 540 shots 17 spf .! .1A 08/....S - WF -1 HB-4 _ 9,950' 10,021' 71' 900 shots 13 spf HB -5 10,040' 10,095' 55' 1,056 shots 19 spf WF -1 10,312' 10,395' 83' 1,000 shots 12 spf WF -2 10,450' 10,566' 116' 680 shots 6 spf Top of FIII WF-2 WF-4 8, 5 10,630' 10,700' 70' 540 shots 8 spf = 10,538' it � _ � �3 � F � WF 10,760' 10,800' 40' 240 shots 6 spf ■ PBTD kst . 3 WF -6 = 10,938' visirialapasurara R. - ---iii 1 irei.-/,0- .,„ `w,.3• '" ' 1 0 TD = 11,896' C E - ' Max HOLE ANGLE = 30.97° @ 8700' M -29 WBD 04 -15 -2010 Workover.docx Updated: 04/16/2010 RMS • • Steeihead Platform 16 % 5M BOP (OH Leg) M -27, 29, 31 3/16/2012 v floor Bwmm of tlnv w� i • • 4"7 ,: 27' qpe for air boot flanges 8.4T PP Moon pool Peck 4,,,vvrtim o floor 5.10' 5.46' • • sea seek it ' 8 • II: r } !. 3.00' 3.58' DSA16% 10MX16%5M i 66' 111, .. -:_ t r ess....r..rowss s sq Weo..m, Riser, 16 %5M API hub 16 3/4 10M FE uw.w.s.....wets,. s,m, s m } 594 c.mr.m.. flow Riser, 16''/. 5M FE X 16''/. 5M API hub y ` cam goti tIt WMFntl w. W.W.tl r • 11i 1■�,.�I• ii fll I I I In _I Page l of l Subject: FW: INTENT PLUG for RE -DRILL WELLS: Corrected From: Davies, Stephen F (DOA) Sent: Monday, February 08, 2010 10:52 AM To: Foerster, Catherine P (DOA); McMains, Stephen E (DOA); Schwartz, Guy L (DOA); Saltmarsh, Arthur C (DOA); Aubert, Winton G (DOA) Subject: RE: INTENT PLUG for RE -DRILL WELLS: Corrected Revised procedure with an additional step per Cathy's comment: INTENT PLUG for RE -DRILL WELLS (IPBRD) Type Work Code in RBDMS 1. When a Form 10 -403 is submitted requesting approval to plug a well for redrill, the initial reviewer (Art 2ir Steve D.) will check to make sure that the "Plug for Redrill" box in the upper left corner of the 403 / form is checked. If the "Abandon" box is checked, we will cross that erroneous entry out and initial it on V both copies of the Form 10 -403 (AOGCC's and operator's copies). 2. On the Form 10 -403 if "Abandon" is checked in Box 15 (Well Status after proposed work), Art or Steve / D. will cross that erroneous entry out and initial it on both copies of the Form 10 -403 (AOGCC's and ✓ operator's copies). Instead, we will check the "Suspended" box. Guy and Winton will serve as quality control for steps 1 and 2. 3. When Steve McMains receives the Form 10 -403 with a check in the "Plug for Redrill" box, he will enter the existing code "IBPRD" into RBDMS. This code automatically generates a comment under the History tab stating "Intent: Plug for Redrill." 4. When Steve McMains receives any Form 10 -407, he will check the History tab in RBDMS for this comment. If he sees the "Intent: Plug for Redrill" code, and cannot find any evidence that a subsequent re -drill has been COMPLETED, he will assign a status of SUSPENDED to the well bore in RBDMS, no matter what status is listed on the 10 -407. Steve will also change the status on the 10 -407 form to SUSPENDED, and will date and initial his change. If Steve does not see the "Intent: Plug for Redrill" comment or code, he will enter the status listed on the Form 10 -407 into RBDMS. 5. When the Form 10 -407 for the redrill is received, Steve M. will change the original well's status from suspended to abandoned. 6. The first week of every January and July, Steve M. and Steve D. will check the "Well by Type Work Outstanding" user query in RBDMS to ensure that all of the Plug for Redrill wells have been handled properly. At this same time, Steve M. and Steve D. will also review the list of suspended wells for accuracy. Thanks, Steve D. file: //F: \Daily_ Document_ Record \Procedures_Instructions \FW INTENT PLUG for RE -D... 3/23/2012 Ch. yan Francisco Castro Chevron North America Exploration and Production Technical Assistant 3800 Centerpoint Dr. Suite 100 Anchorage, AK 99503 Tele: 907 263 7844 Fax: 907 263 7828 E -mail: fcastro @chevron.com DATE October 27, 2010 To: AOGCC , Christine R� 333 W. 7 Ave. Ste #100 Anchorage, AK 99501 WELL LOG TYPE LOG DATE INTERVAL B- CD LOGGED LINE I TBU M -29 RST SIGMA 4/11/2010 4100 -9114 X X TBU M -29 TCP CORRELATION 4/12/2010 4100 -9114 X X a"4 NOY 5 Z u�a Please acknowledge receipt by signing and returning one copy of this trAI%sftTitt6l - or FAX to 507 263 7828. Received By: Date: r~ lit ~ ALASKA STATE OF ALASKA AND GAS CONSERVATION COMMISS REPORT OF SUNDRY WELL OPERATIONS ~dY ~ 5 ~01Q h-~Gf~- os~o~ !Coto 1. Operations Abandon Repair Well Plug Perforations Stimulate Other ~ ESP Changeout PerformedN..o,,.~~~RN$5HN1 Pull Tubing ^~ Perforate New Pool ^ Waiver ^ Time Extension^ Change Appro ^ Operat. Shutdown ^ Perforate ^ Re- ter Suspended Well ^ 2. Operator Union Oil Company of California 4. Well Class Before Work: .Permit to Drill Number: Name: Development Q Exploratory ^ 191-027 3. Address: PO Box 196247, Anchorage, AK 99519 Stratigraphic^ Service ^ API Number: 50-733-20428-00 7. Pro~ty Designation (Lease Number): Well Name and Number: ADL018730 [Steelhead Platform] Trading Bay Unit M-29 9. Field/Pool(s): McArthur River Field /Middle Kenai G Oil & West Foreland Oil & Hemlock Oil Pools 10. Present Well Condition Summary: Total Depth measured 11,896 feet Plugs (measured) N/A feet true vertical 11,135 feet Junk (measured) 9,584' (obstruction) feet Effective Depth measured 10,538 feet Packer (measured) 10,100 feet true vertical 9,910 feet (true vertical) 9,515 feet Casing Length Size MD ND Burst Collapse Structural 990' 26" 990' 989' Conductor 1,441' 16" 1,441' 1,440' 2,630 psi 1,020 psi Surface 3,756' 13-3/8" 3,756' 3,754' 3,090 psi 1,540 psi Intermediate Production 484' x 10,554' 10-3/4" x 9-5/8" 484' x 11,038' 484' x 10,361' 5,860 psi 3,220 psi Liner 9,180'-9,220', 9,239'-9,269', 9,330'-9,351', 9,380'-9,420', 9,475'-9,555', 9,607'-9,632', 9,700'-9,731', 9,745'-9,776', 9,845'- Perforation depth: Measured depth: 9.876', 9,950'-10,021', 10,040'-10,095', 10,312'-10,395', 10,450'-10,566', 10,630'-10,700', 10,760'-10,800' 8,684'-8,720', 8,737'-8,763', 8,818'-8,837', 8,863'-8,899', 8,949'-9,021', 9,067'-9,090', 9,152'-9,180', 9,193'-9,220', 9,283'- True Vertical depth: 9.311', 9,379'-9,443', 9,460'-9,510', 9,706'-9,781', 9,831'-9,935', 9,993'-10,057', 10,111'-10,147' Tubing (size, grade, measured and true vertical depth): 4-1/2" 12.6# & 12.75# L-80 8,873' MD 8,416' ND Packers and SSSV (type, measured and true vertical depth): Baker DB Packer 10,100'MD/ 9,515'ND N/A N/A 11. Stimulation or cement squeeze summary: Intervals treated (measured): N1A ~:~ J i.~ ~ ~~C~~ ~ #~,, ~` , ~ `` ~" F" i ~ ~ "~ `' ~ Treatment descriptions including volumes used and final pressure: ~ • ° N/A 12. Representative Daily Average Production or Injection Data Oil-Bbl Gas-Mcf Water-Bbl Casing Pressure Tubing Pressure Prior to well operation: 0 0 0 0 psi 0 psi Subsequent to operation: 40 60 7,961 21 psi 84 psi 13. Attachments: 4. Well Class after work: Copies of logs and Surveys Run N/A Exploratory^ Development^~ Service ^ Daily Report of Well Operations X .Well Status after work: Oil ~ Gas WDSPL GSTOR ^ WAG ^ GINJ ^ WINJ ^ SPLUG ^ 16. I hereby certify that the foregoing is true and correct to the best of my knowledge. Sundry Number or N/A if C.O. Exempt: 310-070 Contact Ronnie Santos 263-7978 Printed Narry~Timothy C. Brandenburg Title Drilling Manager Signature ~~ , ~ _ Phone 276-7600 Date 5/4/10 Form 10-404 Revised 7/2009 RBDMS MAY 0 6 101Q-~~ Submit Original Only Chevron Chevron -Alaska Daily Operations Summary Well Name Legal Well Name Lease Surface UWI ChevNo Original RKB (ft) Water Depth (ft) M-29 TRADING BAY UNIT M-29 ADL0018730 5073320428 OS6727 160.00 --- .t0 - ,, _ ,, _- ~ ~ Primary Job Type _ ___ Job Category Objective V Actual Start Dale Actual End Date Pump Repair Major Rig Replace the failed ESP. 3/5/2010 4/17/2010 Work Over Retrieve the old upper production packer. (MRWO) Retrieve the old lower isolation packer if project economics will allow. Cleanout casing to the top of the old isolation packer in preparation for tubing conveyed perforation, or to PBTD if project economics will allow. Replace production tubing and jewelries. Primary Wellbore Affected Wellbore UWI Well Permit Number M-29 507332042800 1910270 -- -- -- Dail O rations 315/2010 00:00 -316/2010 00:00 - -- - - Operations Summary RU slickline, pressure test lubricator 250psi low/2500psi high. Pull tubing patch at 1,083.5' and clean tubing w/ 3.8" GR to 8,915' (top of ESP pump). RD slickline. 3115/201:0 00:00 - 3/16/2010 00:00 _ _ _ __ Operations Summary RU Wireline, pressure test lubricator to 250psi low/2500psi high. Ran Micro Vertilog and logged from surface to 8915' RKB. Put night cap on well and rested crew. -- _ 3/16/2010 00:00 - 3!47/2010 00:00 ___ Operations Summary RD wireline and turned well over to production. 3/1812010 00:00 - 3/19/2010 00:00 _ _ Operations Summary RU wireline. Pressure test lubricator 250psi low/2,500psi high. RIH and punch holes in 4-1/2" tubing from 8,894' to 8,900' RKB WLM. Rig down wireline unit. Turned well over to production. 3/2$!2010 00:00 - 3/28/2010 00:00 _ _ __ _ _ _ Operations Summary Skid rig over M-29. RU other equipment. -, 3/29/2010 00:00 - 313p/2010 00:00 Operations Summary Continue RU other equipment. Build 80 bbls sized salt pill, 30 bbls saturated salt, and 250 bbls 3% KCI. Test surface lines to 2000 psi. Pump 1034 bbls 3% KCI down tubing taking 563 bbls returns to production thru test separator. Well on vacuum after pumps down. Monitor well for 1 hour and built 20 psi on annulus and 3 psi on tubing. Bullhead 73 bbls sized salt pill and 10 bbls saturated. Spot with 130 bbls of 3% KCI. Monitor well for 1 hour and built 18 psi on annulus and 1 psi on tubing. - ---- :3/30/2010 00:00 - 3/31!2010 00:00 __ _ Operations Summary Circulate hole and monitor well until fluid returns are clean and loss rate at 8 bph. Gravity feed annulus with trip tanks. Conduct pre-spud meeting. ND flowline and production tree. Prepare to NU riser. Notified AOGCC Jim Regg of upcoming BOPE test. .3/31/2010 00:00 - 4/112010 00:00 _ _ Operations Summary Received email from AOGCC Jim Regg waiving commission witness of the BOPE test. NU riser, BOPE, kill and choke lines. Average loss rate is 12 bph. Install 5" rams in top gate and 4-1/2" rams in bottom gate. Pressure test BOPE with 5" DP. Test upper rams, HCR and manual valves to 200/3000 psi. ` 112010 00:00 -4/2/2010 00:00 -_ _ Operations Summary T Pressure test choke, kill lines, and inside BOP valve to 200/3000 psi. Pressure test BOPE with'4-1/2" tubing. Test annular to 200/1000 psi for 5 minutes. Test 4-1/2" lower rams, 4-1/2" TIW valves, blind rams, and choke manifold valves to 200/3000 psi each for 5 minutes. Pump 50 bbls sized salt pill into formation. Monitor well on trip tank. -- _ - -- -- 4/2l2010 00:00 - 4/3/2010 00:00 _ _ _ _ Operations Summary Monitor well on trip tank with losses at 8 bph. Unseat tubing hanger with 196 kips and LD. Pull and LD 59 joints of 4-1/2" tubing while cutting power cable pack in 7' to 8' lengths. MEG ESP cable and found grounded. Continue pull and LD 4-1 /2" tubing while spooling power cable pack. 4/3/2010 00:00 -4/4/2010 00:00 _ Operations Summary Continue pull and LD 4-1/2" tubing while spooling power cable pack. Pull ESP assembly to surface removing injection line and MLE cable. ----- 4.4s o110 ~:oa = 4I~~o~o oo~oo - -- _____..~ Operations Summary LD ESP pump and motor assembly. RD tubing handling tools, ESP sheaves and other tools/equipment. PUMU 8-112" bull nose mill and BHA. PU and RIH with 5" DP to 2400'. Chevron Chevron -Alaska Daily Operations Summary Well Name Legal Well Name Lease Surface UWI ChevNo Original RKB (ft) Water Depth (R) M-29 TRADING BAY UNIT M-29 ADL0018730 5073320428 OS6727 160.00 ball O rattons~ - _ 4/5/2010 00:00 - 4/6/2010 00:00 _ OperaUOns Summary Continue PU and RIH with 5" DP. Tag and ream 4,090' - 4,095'. RIH tag fill at 9,018' and ream to 9,076' with pump pressures indicating packing off. Work mill to 9,078' packing off when bullnose enters packer. POOH to 5,000'. --- -_ --- - 416f2010 00:00 - 4!7!2010 00:00 __ _ Operations Summary POOH with BHA to surface. RIH with similar 8-1 /2" bull nose mill and BHA to 9,071'. Work mill into packer at 9,073'. Mill packer from 9,076' to 9,080'. Circulate out bottom up gas and monitor well. Chase and continue milling packer to 9,128'. Push packer to 9,131'. Circulate hivis sweep and POOH to 4,991'. 417/2010 00:00:.- 4!6!2010 00:00 ---- Operations Summary Continue POH and LD mill. PUMU spear assembly with 4.805" basket grapple and BHA. RIH to 9040' and establish circulation. Wash to tag packer at 9,123'. Engage spear with fish. POOH and LD fish. Prepare for BOPE test. Notified AOGCC Jim Regg of upcoming BOPE test by email 4/6/2010 2054H and follow up phone call on 4/7/2010. __ ---- 4f8f2010 00:00 - 4!9!2010 00:00 Operations Summary Test annular preventer to 200/1000 psi with 5" and 4-1/2" test joints. Test remaining BOPE equipment to 200/3000 psi. Perform accumulator draw down test. BOPE test witness waived by AOGCC Jim Regg. MU 8-1/2" mill tooth bit and 8-1/2" string mill with BHA. RIH to obstruction at 4,085'. Cleanout to 4,090'. Continue RIH to 9,055'. Wash and ream to 9,577'. Tight section from 9,180' - 9,577' even with no WOB. Pump hivis sweep. _ __ _ _ 419/2010 00:00 - 4/10!2010 00:00 _ ---- -_ Operations Summary Circulate bottoms up. Continue cleaning out casing from 9,577' to 9,584'. Unable to make progress. Circulate bottoms up and POOH. PUMU 8-1/2" metal muncher mill and string mill with BHA. RIH to 9,527'. Wash to 9,584' with increase in torque at 9,544'. Wash and ream to 9,598' with slow progress and TDS stalling with WOB greater than 4K. Continue cleaning out to 9,625' and observe 200% increase in fine sand across shakers. 4!10/2010 00:00 - 4/11/2010 00:00 ___ Operations Summary Continue cleaning out to 9,651. Suspect that assembly cut through the 9-5/8" casing around 9,598'. Pump hivis sweep. Pull up to 9,582'. Circulate hole clean while mixing casing wash train. Pump 150 bbls new 3% KCL and followed by casing wash train. Continue circulating hole with clean 3% KCI until solid spin out of 300 ppm. POOH UD BHA. _- _._ _ __ 4/1112010 00:00 - 4112(2010 00;00 Operations Summary Continue POOH UD BHA. RU Eline, Run RST log from 4,100' to 9,130', RD Eline. PUMU 4-5/8" TCP gun assembly. RIH with 5" DP to 2432'. M12I2010 00:00 - 4/13/2010 OOsQO Operations Summary Continue RIH 4-5/8" Millenium TCP guns on 5" DP to 9571'. Run WL log to correlate depth. Fired guns with top shot at 9180' and bottom shot at 9555' (G-Zone Benches 1 through 5). Perforated the following depths: 9,180'-9,190' (12spf); 9,190'-9,200' (5spf); 9,200'-9,209' (12spf); 9,209'-9,220' (5spf); 9,239'-9,264' (5spf); 9,340'-9,350' (5spf); 9,380'-9,390' (5spf); 9,390'-9,400' (12spf); 9,400'-9,420' (5spf); 9,475'-9,510' (12spf); 9,510'-9,530' (5spf); 9,530'-9,541' (12spf); 9,541'-9,555' (5spf). Establish circulation and displaced wellbore with clean 3% KCI. POOH UD BHA and TCP guns. All shots fired. Prepare for running 4-1/2" tubing. _._._ 41131201000:00_4114/201000;00 i __ __.___ _______ Operations Summary PU RIH and POOH standing back 186 joints of 4-1/2" Hydrill tubing. PUMU ESP assembly. -- _- 4/14/2010 00:00 - 4!1512010 00:00 _ _ _ Operations Summary RIH 4-1/2" ESP assembly complete with accessories. Continue RIH with 4-1/2" 12.6# & 12.75# L-80 tubing stands from derrick, PUMU GLMs. Test cable and chemical injection lines every 1000'. 4/7 5/2010 00:00. -4/16/2010 00:00 _ _ _ ___ - ------------------------- Operations Summary Continue RIH with 4-1/2" tubing. PUMU tubing hanger and land with bottom of ESP assembly at 8968'. RD sheaves and tubing running tools. Prepare to ND BOPE. 4/16/2010 00:00 - 4/17/2010 00:00 _ __ Operations Summary ND BOPE. NU tree and shell test to 250%5 000 psi for 30 minutes. NU flowline. LD 5" DP. . 4/17/2010 00:00:- 4ft8/2010 00:00 ___ _ _ _ Operations Summary Finish LD 5" DP. Startup ESP at 17:55H. Start rigging down and prepare for demobilization (final report). y Chevron %R ;~ Steelhead Platfor~ Well # M-29 Wellbore Schematic 04-15-2010 Workover RKB to TBG Hgr = 74.5' Hanger Connection = IBTM 3 4 s 6 7 a 9 la 11 lz l3 Posaihle Damaged Casing from 9577'to 8851' ObsWCtlon ~ 9.584' HB 14 15 16 17 18 I WF-1 Top of Fill WF-2 = 10,538 ,. ~' WF-4 s,. WF-5 PBTD W F-6 = 10,938' ,,, ";; °'ti''' ' +"` TD = 11,896' Max HOLE ANGLE = 30.97° ~ 8700' CASING AN D TUBING DETAIL SIZE WT GRADE CONN ID TOP BTM. 26 267# to 397# Drill ui Surf 990' 16 75# K-55 BTC 15.124 Surf 1441' 13-3/8 61# & 68# K-55 BTC 12.415 Surf 3756' 10-3/4 51# & 55.5# L-80 BTC 9.760 Surf 484' 9-5/8 47# & 53.5# L-80 AB Mod &BTC 8.535 484' l 1,038' 4-1/2" 12.6# & 12.75# L-80 H drill 503/563 3.958 Surf 8,873' JEWELRY DETAIL NO. De th ID Item 74.5' 3.833" drift Tubin Han er 1 1 597' 3.833" drift GLM #9 SFO-l 2 2,610' 3.833" drift GLM #8 SFO-1 3 3 495' 3.833" drift GLM #7 SFO-1 4 4,205' 3.833" drift GLM #6 SFO-I 5 4,662' 3.833" drift GLM #5 SFO-1 6 5 093' 3.833" drift GLM #4 SFO-1 7 5,576' 3.833" drift GLM #3 SFO-1 8 6,090' 3.833" drift GLM #2 SFO-1 9 6 596' 3.833" drift GLM # 1 SFO-1 10 8,768' 3.813" XD Slidin Sleeve (down o enin I 1 8,827' 3.725" XN-Profile Ni le 12 8,873' NA Centrilift ESP Assembl X/O ressure head to de th l3 8,968' NA Aluminum Anode bottom de th 14 10,100' 4.75" Baker DB Packer Size 194-47 with 14' SBE 15 10,104' 6.366" Millout Extension 16 10,146' 3.813" Otis X-Ni le 17 10,180' 3.725" Otis XN-Ni le 18 10, l 82' 3.958" W LEG 19 10,988' NA Cement Retainer PERFORATION DATA Zone Top Btm Interval s mae oa Shots per Zone-Bench s mas Cummulative SPF per Zone Bench G-1 9,180' 9,220' 40' 1,053 shots 26 spf G-2 9,239' 9,269' 30' 731 shots 24 spf G-3 9,330' 9,351' 21' 510 shots 24 s f G-4 9,380' 9,420' 40' 1,250 shots 31 spf G-5 9,475' 9,555' 80' 1,802 shots 23 spf G-6 9,607' 9,632' 25' 150 shots 6 spf HB-1 9,700' 9,731' 31' 540 shots 17 spf HB-2 9,745' 9,776' 31' 540 shots 17 spf HB-3 9,845' 9,876' 31' 540 shots 17 spf HB-4 9,950' 10,021' 71' 900 shots 13 spf HB-5 10,040' 10,095' S5' 1,056 shots 19 spf WF-1 10,312' 10,395' 83' 1,000 shots 12 spf WF-2 10,450' 10,566' 116' 680 shots 6 spf WF-4 & 5 10,630' 10,700' 70' 540 shots 8 spf WF-6 10,760' 10,800' 40' 240 shots 6 spf M-29 WBD 04-15-2010 Workover.docx Updated: 04/16/2010 RMS Page 1 of 1 rRl~ pz7 Autxrt, Winton G (DOA) Fran: Aubert, Winton G (DOA) Sent: Monday, April 12, 2010 6:53 AM To: 'Santos, Ronilo' Subject: RE: Sundry No. 310-070 (M-29 Workover) pp y~ , ., ~ ~ 1 _ _.. ~~ C~ F' ... ... ~! h 4i' From: Santos, Ronilo [maitto:ronnie.sant~os@chevron.com] Sent: Saturday, Apri 10, 2010 2:04 PM To: Aubert, Winton G (DOA) Cc: Nienhaus, Doug R; t3onnett, Nigel (Nigel.Bonneti:); Tyter, Steve L; Kanyer, Christopher V Subject: Sundry No. 310-070 (M-29 Workover) Mr. Aubert, ~~ ' ~q ~~ O Please refer to Sundry No. 310-070. ~ ~ ` J We have already pulled and laid down the failed ESP completion. We also have successfully retrieved the upper production packer. During our attempt to cleanout the rest of the 9-5/8" casing, we encountered an obstruction at 9577' that hindered our progress. After two trips and two BHA's we were only able to go to 9651'. Drilling parameters and solids returns to surface are indicating that we could have possibly sidetracked out of the casing. We are accepting this depth for our cleanout attempt and move forward with the TCP gun perforation of the G-Zone only. The Hemlock and the West Foreland proposed perfs and re-perfs are below the casing obstnaction. After the TCP gun perforation, we will cony on our plan to run a new ESPIGLM completion. We view this change as a reduction in the scope of work that was submitted in the sundry application. We do not see a need for an exception unless there is a requirement that you may have otherwise. Please advise if you will require further documentation or approval. Regards, Ronnie Santos 907-306-5857 4/12/2010 • • '~~~~ ~` F ~ k" _ ~ SEAN PARNELL, GOVERNOR =~ ~ ~ ~~ ~ h dyLJ•7~ OI~ ~ ~ 333 W. 7th AVENUE, SUITE 100 CO1~T5E`R'QA'I`IO1~T COMl~'IISSIOIQ ANCHORAGE, ALASKA 99501-3539 PHONE (907) 279-1433 -~--„~- -- FAX (907) 276-7542 Timothy C. Brandenburg Drilling Manager ~ ~~ Union Oil Company of California ~ P.O. Box 196247 ~,, ~~~ ~ ~ Z~11 Anchorage, AK 99519 ~~~'~"~ Re: McArthur River Field, Middle Kenai G Oil Pool 8s West Foreland Oil Pool 8s Hemlock Oil Pool, Trading Bay Unit M-29 Sundry Number: 310-070 Dear Mr. Brandenburg: Enclosed is the approved Application for Sundry Approval relating to the above referenced well. Please note the conditions of approval set out in the enclosed form. As provided in AS 31.05.080, within 20 days after written notice of this decision, or such further time as the Commission grants for good cause shown, a person affected by it may file with the Commission an application for rehearing. A request for rehearing is considered timely if it is received by 4:30 PM on the 23rd day following the date of this letter, or the next working day if the 23rd day falls on a holiday. or weekend. A person may not appeal a Commission decision to Superior Court unless rehearing has been requested. Sincerely, Daniel T. Seamount, Jr. Chair DATED this, d~ f March, 2010. Encl. U ~ ~ 3 3,~5 ~ STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS 20 AAC 25.280 RECEI~~= MAR. I 1 201D ~ (~ , GO-1MIw1ifMR ~nchoraa~ 1. Type of Request: Abandon ^ Plug for Redrill ^ Perforate New Pool ^ Repair Well ^ Change Approved Program ^ Suspend ^ Plug Perforations ^ Perforate ^~ Pull Tubing ~ Time Extension ^ Operations Shutdown ^ Re-enter Susp. Well ^ Stimulate ^ Alter Casing ^ ESP Changeout & Pertorm Cleanout Q 2. Operator Name: 4. Current Well Class: 5. Permit to Drill Number: Union Oil Company of California Development Q Exploratory ^ 191-027 ° 3. Address: Stratigraphic ^ Service ^ 6. API Number: PO Box 196247, Anchorage, AK 99519 50-733-20428-00 7. If perforating, closest approach in pool(s) opened by this operation to nearest 8. Well Name and Number: property line where ownership or landownership changes: Spacing Exception Required? Yes ^ No ^~ Trading Bay Unit M-29 • 9. Property Designation (Lease Number): 10. Field/Pool(s): ADL0018730 [Steelhead Platform] McArthur River Field /Middle Kenai G Oil & West Foreland Oil & Hemlock Oil Pool ' 11 • PRESENT WELL CONDITION SUMMARY Total Depth MD (tt): Total Depth TVD (ft): Effective Depth MD (tt): Effective Depth TVD (tt): Plugs (measured): Junk (measured): 11,896 11,135 10,938 10,271 N/A 10,538' (fill) Casing Length Size MD TVD Burst Collapse Structural gg0' 26" 990' 989' Conductor 1,441' 16" 1,441' 1,440' 2,630 psi 1,020 psi Surface 3,756' 13-3/8" 3,756' 3,754' 3,090 psi 1,540 psi Intermediate Production 484' x 10,554' 10-3/4" x 9-5/8" 484' x 11,038' 484' x 10,361' 5,860 psi 3,220 psi Liner Pertoration Depth MD (tt): Pertoration Depth TVD (ft): Tubing Size: Tubing Grade: Tubing MD (ft): See attached schematic See attached schematic 4-1/2" 12.6# L-80 8,915' Packers and SSSV Type: Packers~nd SSSV MD (tt) and TVD (tt): ~ Baker SB-3 & Baker DB Packer / N/A 9,088'MD (TVD) & 10,100'MD (TVD) / N/A 12. Attachments: Description Summary of Proposal ^r 13. Well Class after proposed work: Detailed Operations Program ^ BOP Sketch ^~ Exploratory ^ Development ^~ Service ^ 14. Estimated Date for 3/17/2010 15. Well Status after proposed work: Commencing Operations: Oil Q . Gas ^ WDSPL ^ Plugged ^ 16. Verbal Approval: Date: WINJ ^ GINJ ^ WAG ^ Abandoned ^ Commission Representative: GSTOR ^ SPLUG ^ 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. Contact Ronnie Santos 263-7978 Printed Name Timothy C. Brandenbur Title Drilling Manager Signature ~ ~ rie 276-7600 Date 3/10/2010 COMMISSION USE ONLY Conditions of approval: Notify Commis on so that a representative may witness Sundry Number: ~' O - ~~ Plug Integrity ^ BOP Test ~ Mechanical Integrity Test ^ Location Clearance ^ Other: T'•E S'~ ctuv~.t.~-~tt,v RD -~ ~ f'o 1 DOO ~ L~ T~s-~ yuw.. 6'01'E ~ 3000 ~ >rc' . Per Z o ~r°tL ZS. Z g S (ti.~ , a (~~ w~~e. 7~0 ~ E i S a.(~ ~ Yo ~l e d . Subsequent Form Required: ` p , C.~O ~~ APPROVED BY ~ ~ ~l COMMISSIONER THE COMMISSION Date: A d b O pprove y: V ~B°'"~ MAR ~~ ~o~ O R I G I N A L Form 10-403 Revised 12/2009 '~ ~,~..,Z, ~t5 Submit in Duplicate Chevron • • Trading Bay Unit Well # M 29 3/9/10 OBJECTIVE: • Pull failed ESP completion, retrieve old production packer (contingency to pull lower packer), perform cleanout to lower production packer (contingency to PBTD if packer is removed), and run new ESP completion. PROCEDURE SUMMARY: 1 -Kill well with 3% KCI. 2 ND tree, NU & test BOP. / 3 Pull 4-1/2" tubing, ESP completion. 4 Mill and pull Baker SB-3 production packer at 9,088'. Contingency: Mill and pull Baker DB isolation packer at 10,100'. 5 cleanout to top of Baker DB isolation packer at 10,100' Contingency: cleanout fill from 10,538'(+/-) to PBTD at 10,938' if Baker DB isolation packer is removed. 6 Run RST Log from 4,175'(+/-) to 9,175'(+/-). 7 TCP perforate the following Intervals: G-1 from 9,180'(+/-) to 9,220'(+/-) G-2 from 9,239'(+/-) to 9,264'(+/-) G-3 from 9,340'(+/-) to 9,350'(+/-) G-4 from 9,380'(+/-) to 9,420'(+/-) G-5 from 9,475'(+/-) to 9,555'(+/-) G-6 from 9,60T(+/-) to 9,632'(+/-) HB-1 from 9,705'(+/-) to 9,725'(+/-) HB-2 from 9,746'(+/-) to 9,780'(+/-) HB-3 from 9,876'(+/-) to 9,890'(+/-) HB-4 from 9,953'(+/-) to 9,991'(+/-) HB-5 from 10,045'(+/-) to 10,083'(+/-) HB-5 from 10,125'(+/-) to 10,138'(+/-) (If packer and cleanout contingencies performed) 8 Run 4-1/2" tubing ESP completion to 9,000'(+/-). 9 ND BOP, ND tree. Turn well over to production. 10 Perform No Flow #est if cleanout is performed. M-29 REVISED BY: CVK 3-9-10 • • Steelhead Platform Well # M-29 Wellbore Schematic 11/15/02 RKB to TBG Hgr = 74.5' Hanger Connection: 4-1/2" Butt r„n.„e r..,. ~ uno~-uui 1 2 3 4 5 6 ~ 8 9 G HB -- 10 ~~ 11 12 ' 13 la W F-1 Top of Fill WF-2 = 10,538' r ' :;: PBTD r'.•~3 WF-4 = 10,938' , 15 r_ '~*"' ~ TD = 11,896' Max HOLE ANGLE = 30.97° @ 8700' CASING AND TUBING DETAIL SIZE WT GRADE CONN ID TOP BTM. 26 267# to 397# Drill Quip Surf 990' 16 75# K-55 BTC 15.124 Surf 1441' 13-3/8 61 # & 68# K-55 BTC 12.415 Surf 3756' 10-3/4 51# & 55.5# L-80 BTC 9.760 Surf 484' 9-5/8 47# & 53.5# L-80 AB Mod &BTC 8.535 484' 11,038' Tubing: 4-1/2" 12.6# L-80 AB Mod IBTC 3.958 Surf 8,915' JEWELRY DETAIL NO. Death ID Item Tbg Hgr FMC TC-B-EC-ENS, 4-1/2" Butt Top & mod-Butt 74.5 Btm, CIW `H' BPV 1 8915' 3.958 4-1/2" 12.6 lb/ft L-80 Imp Butt Tubing (Cannon Clamps) SFO-2 SPMs (5 w/ GLVs, 1 w/orifice, & lower 2 w/ dummies) 2 3.833 (6' pups above 3.3' pups below) @ approx. 6050', 5650', drift 5250', 4850', 4450', 4000', 3200', & 2150') 3 9,004' NA Centrilift 600 hp ESP (pump & seals = 6.75", motor = 7.25") 4 9,088' 4.750 Bak~B-3", 12' long, size 194-47 5 9,104' 6.366 MOE 6 9,123' 3.813 Otis "X" Nipple, size 3.813 7 9,135' 3.958 Crossover, AB mod Butt X Vam 8 9,136' 3.958 AVA "RBS" sub, Ass # A-CHD-RBS-450-2B 9 9,138' 3.958 WLEG 10 10,100' 4.75 Bakerl)B Pkr, size 194-47 w/ 14' SBE 1 I 10,104' 6.366 MOE 12 10,146' 3.813 Otis "X" Nipple, size 3.813 13 10,180' 3.725 Otis "XN" Nipple, size 3.813 14 10,182' 3.958 WLEG 1 ~ 10,988' NA Cement Retainer Fish/Fill Information: A. *Ta g "sticky hole" w/ S-line @ 10,538' in 01/99. Overpu11650# in 2 attempts. B. Tubing patch at 1076' - 1 101' PERFORATION DATA Zone Top Btm Amt Zone Top Btm Amt G-1 9,190' 9,220' 30' WF-1 10,312' 10,322' 10' G-2 9,242' 9,266' 24' WF-1 10,340' 10,350' 10' G-3 9,330' 9,350' 20' WF-1 10,360' 10,390' 30' G-4 9,380' 9,420' 40' WF-2 10,450' 10,472' 22' G-5 9,510' 9,530' 20' WF-2 10,480' 10,490' 10' G-5 9,541' 9,551' 10' WF-2 10,500' 10,512' 12' HB-1 9,701' 9,731' 30' WF-2 10,552' 10,566' 14' HB-2 9,746' 9776' 30' WF-4 10,645' 10,655' 10' H B-3 9846' 9876' 30' W F-4 10, 680' 10, 700' 20' HB-4 9951' 9971' 20' HB-4 9991' 10021' 30' HB-5 10041' 10083' 42' M-29 WBD vl_20021115b-updated20100309RMS.docx DRAWN BY: JFB date: 10/25/02 Updated: 03/09/2010 RMS Chevron RKB to TBG Hgr = 74.5' Hanger Connection = PBTD = 10,938' Max HOLE ANGLE = 30.97° @ 8700' Steelhead Platform Well # M-29 PROPOSED Wellbore Schematic 2010 Workover CASING AN D TUBING DETAIL SIZE WT GRADE CONN ID TOP BTM. 26 267# to 397# Drill ui Surf 990' 16 75# K-55 BTC 15.124 Surf 1441' 13-3/8 61# & 68# K-55 BTC 12.415 Surf 3756' 10-3/4 51# & 55.5# L-80 BTC 9.760 Surf 484' 9-5/8 47# & 53.5# L-80 AB Mod &BTC 8.535 484' 11 038' 4-//2" /2.6# L-80 HVdri!! 503/563 3.958 Sur _8,900' JEWELRY DETAIL NO. De th ID Item 74.5' Tubing Hunger / -8,900' 3.958" 4-1/2" 12.6 /b/ft L-80 Hydrill 563/503 2 TBD 3.833" drift SFO-2 SPM GLMs 3 -8, 780' 3.813" XD Sliding Sleeve (down opening) 4 _8,840' 3.813" X-Profile Nipple 5 -8,900' NA Centrilift ESP Assembly (top depth) 6 _9,000' NA Aluminum Anode (bottom depth) 7 10 988' NA Cement Retainer PER FORATION DATA Zone Top Btm Amt Remarks G-1 9,180' 9,220' 40' Proposed G-1 9,190' 9,220' 30' G-2 9,239' 9,264' 25' Proposed G-2 9,242' 9,266' 24' G-3 9,330' 9,350' 20' G-3 9,340' 9,350' 10' Proposed G-4 9,380' 9,420' 40' Proposed G-4 9,380' 9,420' 40' G-5 9,475' 9,555' 80' Proposed G-5 9,510' 9,530' 20' G-5 9,541' 9,551' 10' G-6 9,607' 9,632' 25' Proposed HB-1 9,701' 9,731' 30' HB-1 9,70$' 9,725' 20' Proposed HB-2 9,746' 9,776' 30' HB-2 9, 746' 9, 780' 34' Proposed; New Segment: 9,776'-9,780' (4) HB-3 9,846' 9,876' 30' HB-3 9,876' 9,890' 14' Proposed; New Segment: 9,876:9,890'(14) HB-4 9,951' 9,971' 20' HB-4 9,953' 9,991' 38' Proposed; New Segment: 9,971:9,991'(20) HB-4 9,991' 10,021' 30' HB-5 10,041' 10,083' 42' HB-5 10,045' 10,083' 38' Proposed HB-5 10,125' 10,138' 13' Proposed; New Segment: 10,125:10,138' (13) WF-1 10,312' 10,322' 10' WF-1 10,340' 10,350' 10' WF-1 10,360' 10,390' 30' WF-2 10,450' 10,472' 22' WF-2 10,480' 10,490' 10' WF-2 10,500' 10,512' 12' WF-2 10,552' 10,566' 14' WF-4 10,645' 10,655' 10' WF-4 10,680' 10,700' 20' G IIB WF-I WF-2 e WF-4 ~~ TD = 11,896' M-29 Proposed WBD v0_20100309RMS.docx Updated: 03/09/2010 RMS M-29 Workover 20-3/4" BOP / Diverter Stack Up i STATE OF ALASKA i'i ALASKA OIL AND GAS CONSERVATION COMMISSION REPORT OF SUNDRY WELL OPERATIONS 1. Operations performed: Operation shutdown: Stimulate: Plugging: Perforate: Pull tubing: X Alter casing: Repair well: Other: X Replace failed ESP 2. Name of Operator 5. Type of Well: 6. Datum elevation (DF or KB) UNION OIL COMPANY OF CALIFORNIA (UNOCAL) Development: X 74.6 RKB feet 3. Address Exploratory: 7. Unit or Property name P.O. Box 19-6247 Stratigraphic: Anchorage, AK 99519-6247 Service: Trading Bay Unit 4. Location of well at surface 8. Well number 975' FNL, 519' FWL, Sec 33-9N-13W-SM ' M-29 At top of productive interval 9. Permit number 783' FSL, 1581' FWL, Sec 28-9N-13W-SM "~ ~ j91-27 At effective depth 10. APl number 1450' FSL, 1931' FWL, Sec 28-9N-13W-SM 50- 733-20428 At total depth 11. Field/Pool 1,844' FSL, 2237' FWL, Sec 28-9N-13W-SM McArthur River/G-Zone & Hemlock Pool 12. Present well condition summary Total depth: measured 11,896' feet Plugs (measured) None true vertical 11,115' feet Effective depth: measured 10,938' feet Junk (measured) None true vertical 10,266' feet Casing Length Size Cemented Measured depth True vertical depth Structural Conductor 1,441' 16" 2200 sx 1,441' 1,441' Surface 3,756' 13-3/8" 2200 sx 3,756' 3,756' Production 484' 10-3/4" 2600 sx 484' 484' Production 11,038' 9-5/8" 1300sx 11,038' 10,357' Liner Perforation depth: measured Zone Top TVD Btm Amt Zone Top TVD Btm Amt true vertical G-1 9,190' 8,693' 9,220' 30' WF-1 10,312' 9,706' 10,322' 10' G-2 9,242' 8,739' 9,266' 24' WF-1 10,340' 9,731' 10,350' 10' G-3 9,330' 8,818' 9,350' 20' WF-1 10,360' 9,749' 10,390' 30' G-4 9,380' 8,863' 9,420' 40' WF-2 10,450' 9,831' 10,472' 22' G-5 9,510' 8,980' 9,530' 20' WF-2 10,480' 9,858' 10,490' 10' G-5 9,541' 9,008' 9,551' 10' WF-2 10,500' 9,876' 10,512' 12' HB-1 9,701' 9,153' 9,731' 30' WF-2 10,552' 9,923' 10,566' 14' HB-2 9,746' 9,193' 9776' 30' WF-4 10,645' 10,007' ..... !0~655'.,.. ,.--. ~0.'~,, /.!....~ .~ .. HB-3 9846' 9,284' 9876' 30' WF-4 10,680' 10,039' 101700' ', 20' HB-4 9951' 9,379' 9971' 20` HB-4 9991' 9,416' 10021' 30' HB-5 10041' 9461 10083' 42' ~ i: ~i / Tubing (size, grade, and measured depth) 4-1/2" 12.6 Ib/ft L-80 AB Mod IBTC @ 8,920 '~ ~ ;~ .... ~ ',. ........... ~".,~ ' Packers and SSSV (type and measured depth) Production packer - N/A (well on artificial lift, No-Flow status approved by/~OG¢')' .',.~ . Other packers in well: (1 .) Baker SB-3 @ 9,088' (2.) Baker Model DB @ 10,100' 13. Stimulation or cement squeeze summary Intervals treated (measured) Treatment description including volumes Used and final pressure 14. Representative Daily Average Production or Injection Data OiI-BBL Gas-Mcf Water-Bbl Casing Pressure Tubing Pressure Prior to well operation 391 150 8493 75 82 Subsequent to operation 453 400 5426 1142 123 15. Attachments: c'",~,,, 16. Status of well classification as: Copies of Logs and Surveys run:~ ~' ~_~,O'",~O Daily Report of Well Operations: X Oil: X Gas: Suspended: Service: 17. I hereby certify that the foregoing is true and correct to the best of my knowledge: Form 1~- 5/88 SUBMIT IN DUPLICATE 11103102: Mixed 3% KCL-FIW and WO boat (high wind/seas). 11/04/02: Pumped KCL through bleeders on mud pumps, swab and liner. Rigged up to move to North side rig stairway. 11/05/02: Skid rig over center of M-29 and install seismic clamps. Changed out leaking suction valves in pits. 11/06/02: Repaired pump pressure sensors on mud manifold. Tested rig deluge system. Pressured up system. Received supplies. Installed flanged headpin on top of tree. Repaired rig and pumps. 11/07/02: Circulated well. Tested lines to tree and mud manifold. Bullheaded 25 bbls CaCO3 LCM pill. Shut down well on vacuum. Cleaned out suction screens. Restored power to pump. Circulated well clean to production. 11/08/02: Finished circ well clean, pumped 772 bbls w/419 bbls returned to production. Well on strong vacuum. Pumped 51 bbl CaCO3 pill. Well on weak vacuum. Rigged up rig floor equipment. Made up crossover sub and tubing to lift tree from wellhead. Rigged down circulating hose and circulating head from top of tree. Re-tested deluge system, repaired alarm. Installed back pressure valve. Nippled down x-mas tree and flowlines. 11/09/02: N/U 16-3/4" 10M BOP stack with 4-1/2" pipe rams in top of double BOP and blind rams in bottom of double BOP. Installed choke line and kill line. Function tested BOPE. Picked up and made up test joints, ported sub, and X-O sub. Serviced valve and retested both kill line valves to 250~3000 psi, ok. Tested Choke manifold to 250~3000 psi, ok. Pulled BPV and set 2 way check. Tested blind rams and 4-1/2" pipe rams to 250~3000 psi, ok. Tested floor valves to 250~3000 psi, ok. Installed extension on mud return line. Tested annular to 250/2500 psi. 11/10/02: Rigging up necessary equipment to prepare to pull tubing out of hole. Repaired mud line on active manifold. Conducted fire drill, abandon platform drills and H2S drills. Rigged up power tong equipment on rig floor. Rigged up hydraulic cable cutter. Prepared floor for tripping tubing. Continued to rig up for ESP change out. Conducted cable cut and emergency shut-in drill. Pulled BPV and made up landing joints to pull tubing hanger. Filled tubing and annulus circulating to production. Backed out lock down screws on tubing head. Unseated tubing hanger from tubing head. Pumped to well with trip tank. Snaked ESP cable thru cable shieVe, thru 4" elephant trunk and to cable spooler. 11/11/02: POH w/4.5" tubing, GLM and ESP assembly. 11/12/02: Pulling out of hole with ESP motor and pump assembly, laid down same. Picked up new ESP motor and pump assembly. 11/13/02: RIH wi 600 hp 725 series ESP w/Phoenix gauge on 4.5" 12.60 ppf L- 80 tubing w/GLMs. 11/14/02: Continue to run ESP/Gas lift assembly in hole on 4-1/2" tubing. Landed completion of base of ESP assembly @ 10,280'. Set BPV. N/D BOPE. N/U 4 1/16" 5m x-mas tree. Tested tree and void over to 5000 psi, OK. Hooked up flowlines. Final Report 11/15/02: N/D tree and turned well over to production at 03:00 hrs. STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION j~/V~,/o~. APPLICATION FOR SUNDRY APPROVALS 1. Type of Request: Abandon: Suspend: Operation shutdown: Re-enter suspended well: Alter casing: Repair well: Plugging: Time extension: Stimulate: Change approved program: Pull tubing: X Variance: Perforate: Other: Replace failed ESP 2. Name of Operator 5. Type of well: 6. Datum elevation (DF or KB) Union Oil Company of California (UNOCAL) Development: X 160' KB ABOVE MSL feet 3. Address Exploratory: 7. Unit or Property name P. O. Box 196247 Stratigraphic: Anchorage, AK 99519-6247 Service: Trading Bay Unit 4. Location of well at surface ~/' ~/~ ,./' 8. Well number 975' FNL, 519' FWL, Sec 33-9N-13W-SM M-29 At top of productive interval 9. Permit num/,ber 783' FSL, 1581' FWL, Sec 28-9N-13W-SM 91-27 At effective depth 10. APl number 1450' FSL, 1931' FWL, Sec 28-9N-13W-SM 50- 733-20428 ¢ At total depth 11. Field/Pool 1,844' FSL, 2237' FWL, Sec 28-9N-13W-SM McArthur River/G-Zone & Hemlock Pool 12. Present well condition summary Total depth: measured 11,896' ''/ feet Plugs (measured) None true vertical 11,115' ~' feet Effective depth: measured 10,938' feet Junk (measured) None true vertical 10,266' feet Casing Length Size Cemented Measured depth True vertical depth Structural Conductor 1,441' 16" 2200 sx 1,441' 1,441' Surface 3,756' 13-3/8" 2200 sx 3,756' 3,756' Production 484' 10-3/4" 2600 sx 484' 484' Production 11,038' 9-5/8" 1300sx 11,038' 10,357' Liner Perforation depth: measured 11,420 - 11,460'; 11,482 - 11,540'; 11,552 - 11,774'; 11,856 - 11,876'*; 11,920 - 11,975' true vertical 9,234- 9,265'; 9,283 - 9,328'; 9,359 - 9,512'; 9,576- 9,592'*; 9,626 - 9,669' (* squeezed parrs) Tubing (size, grade, and measured depth) 4-1/2" 12.6 Ib/ft L-80 IBTC S.C.C. @ 9,042' (base of ESP) Packers and SSSV (type and measured depth) Production packer - N/A (well on artificial lift, No-Flow status approved by AOGC) Other packers in well: (1 .) Baker SB-3 @ 9,088' (2.) Baker Model DB @ 10,100' 13. Attachments Description summary of proposal: Detailed operations program: X BOP sketch: X Current & Proposed Wellbore Schemeatics: X 14. Estimated date for commencing operation 15. Status of well classification as: 11/6/2002 16. If proposal well verbally approved: Oil: X Gas: Suspended: Name of approver Date approved Service: 17. I hereby~hat th~f~regoing is true and correct to the best of my knowledge. Signet'. ~ / ~ Jerry F. Bowen, P.E. Title: Consulting Drilling Engineer Date: 10/31/02 - / / FOR COMMISSION USE ONLY Conditions Of Plugapproval:integrity.~' Notify Commission BOps° represen, t~tiVeTest Y,, may witness Location'~i~t'"~ ~)clearance ~' ~-z~(~::~' -.~ %--~..~ IApprovaI No,~) ~-,.-_.~D Mechanical lntegrity Test ubsequentformrequiredl0- . '* "CFIVED 0CT31 2002 Ong,nal S~gned 6¥ Alasl{a 0il.& Gas eons. Commission Approved by order of the Commissioner Cammy Oed~sli Taylor . ,. CommisstonerAnCh0ragel~ Date ijj i ,' _' Form 10-403 Rev 06/15/88 RBB~4S BFL SUBMIT IN TRIPLICATE NOV 15 ~nn,~ UNOCAL Steelhead Well No. M-29 ESP Replacement 10/18/02 OBJECTIVE Pull the completion and replace the failed 600 hp 562 series ESP. WELL HISTORY & STATUS The well was drilled and completed in the G-zone and West Foreland in 1991. The well produced with a jet pump until 1993, when worked over and converted to gas lift. Perforations were added in the Hemlock in 1998. After converting to ESP in August 2001, the well produced at varying rates, and was making approximately 10,000 BFPD with a 93% watercut (700 BOPD) when the pump failed electrically on 7/5/02. The well is currently on gas lift, producing approximately 5000 BFPD with a 94% water-cut (300 BOPD). A No-Flow Test in December 1998 resulted in AOGCC approval to produce without a SSSV or packer. The reservoir pressure of the West Foreland, Hemlock, and G-Zone are estimated to be 4000, 4070, and 2700 psi, respectively. The pressure gradient of the West Foreland, Hemlock and the G-Zone are estimated to be 0.40, 0.42, and 0.31 psi/ft, respectively. However, the pressures and gradients in each 'sub-layer are not likely to be uniform. Therefore, extra care should be taken to make sure the well is standing full and completely static before and during the workover, to mitigate the risk of hydrocarbon coming into the wellbore via crossflow. SPECIAL HAZARDS The produced gas from well M-29 was analyzed in June 2002, when on ESP production, and was found to contain 220 ppm H2S. However, the concentration is only 55 ppm while on gas lift. The Steelhead facility is designated as an H2S facility. The site specific Steelhead H2S Drilling & Workover H2S Contingency Plan should be reviewed during the pre-spud meeting. NORM contamination may be present on Well Components. WELLHEAD CONDITION 4 %" tubing pressure = 100 psi(system pressure) 4 % "x 10 3/4" = 1,100 psig (gas lift pressure as of 10/17/02) 10 3/4" x 13 3/8" = 0 psig (as of 10/17/02) 4 1/16" 5m X-mas tree. Tubing hanger PN# P147745, BPV profile FMC 16 3/4" X 4 1/2" ESP, 4 %" IBTC top/bottom, 4" Type 'H' Communication Test Report (9/15/02): "Rigged up test pump initial pressure in void was close to gas lift pressure at 1000 PSI. Pumped approximately 2 gallons of oil and pressured up to 2000 PSI. Bled all pressure off of void, mostly gas and continued to pressure up to 5000 PSI. This took about another 2 gallons of oil. After reaching 5000 PSI held for 20 minutes with no leakage. Bled all pressure off and rigged down pump. Due to the design of this seal flange there is a large cavity that will trap air/gas in the void, this could account for the amount of oil needed to achieve our test." Prepared by S. Lawrence PRE-WORKOVER PREPARATION Production M-29 ESP WO Proc (short).doc 1 11/05/02 Steelhead UNOCAL Well No. M-29 ESP Replacement 10/18/02 · Four days prior to skidding rio, shut off Oas lift gas and slowly de-pressurize the tb§/cs9 annulus, at a rate of approximately 50 psi/hr to minimize damage to the ESP cable insulation. Centrilift All required Centrilift equipment (and a full set of back-up equipment) should be available at OSK at least two days prior to starting rig work, ready to be shipped to the rig when requested. Recommend having the Centrilift equipment and representative(s) on board 24 hours prior to un-landing the completion, to inspect and prep the new equipment immediately upon arrival at the rig. Drilling The Unocal Alaska Drilling Department is developing Standard Operating Procedures intended to minimize HES risks, streamline operations and ensure job quality. For theis process to function correctly, the Drilling Foreman must verify compliance with the following documents pertaining to ESP workovers: 1. SPS 7.24 Simultaneous Operation Policy & Checklist 2. Management of Change (MOC) For Drilling Operations Procedure A.) MOC Form 5 Unexpected Change or Occurrence at the Well Site Checklist (only if required) B.) MOC Form 6 ESP Workover Checklist 3. SPS 7.11 H2S Facility Requirements & Drilling Department's Site-Specific Steelhead Drilling & Workover H2S Contingency Plan 4. Drilling 5. Drilling 6. Drilling 7. Drilling 8. Drilling 9. Drilling Dept. SOP - ESP Workover Pre-Rig Arrival Procedure Dept. SOP - ESP Workover Pill Setting Procedure Dept. SOP - ESP Workover Rig Startup Procedure Dept. SOP - ESP Workover NU BOPE Procedure Dept. SOP - ESP Workover Tripping Pipe & Cable Procedure Dept. SOP - ESP Workover Emergency Shut-In Procedure NOTE: Item #2 B. above, the MOC ESP Workover Checklist, requires tested blind shear rams in the BOP stack prior to tripping pipe with ESP cable. Unocal has been unable to acquire 16 %" 10m blind shear rams for this particular well. Therefore, conduct of this particular workover requires additional contingency planning, namely, 100% compliance with all other MOC ESP workover SOPs. No other variances can be granted in the absence of blind shear rams. 1. Prep well and facility by ensuring full compliance with Standard Operating Guideline - ESP Workover Pre-Rig Arrival Procedure. . A separate procedure has been issued to punch circulation holes in the tubing immediately above the pump. This can be done at any time before step #3, since gas lift operations will continue as normal after punching the circulation holes. 3. Spot CaCO3 LCM pill as per Standard Operating Procedure - ESP Workover Pill Setting Procedure. Note: As per MOC Form 6 - ESP Workover Checklist, it is essential that a column of fluid can be maintained in well M-29, in order to conduct the workover safely, due to the absence of blind shear rams. Repeat spill spotting procedure if necessary to reduce loss rate to a manageable level, and obtain approval of M-29 ESP WO Proc (short).doc 2 11/05/02 UNOCAL Steelhead Well No. M-29 ESP Replacement 10/18/02 Superintendent before proceeding to step #4 or NU BOPE. 4. Mobilize crews, activate rig & skid over well M-29 as per Standard Operating Procedure - ESP Workover Rig Startup Procedure. 5. NU & test 16 %" 10m BOPE to 250~3000 psi as per attached diagram & as per Standard Operating Procedure - ESP Workover NU BOPE Procedure. Note: No blind shear rams are available for this stack, standard blind rams will be utilized in the middle BOP. This will be a 5000 psi configuration with a 3000 psi test. . Unland hanger & POH w/4 %" ESP completion as per Standard Operating Procedure - ESP Workover Tripping Pipe & Cable Procedure. Visually inspect tubing while POH & stand in derrick to be re-used. 7. L/D & inspect ESP assembly for evidence concerning the cause of the failure. Equipment Disposition Tree and tbg hanger:Inspect re-dress and re-run (Orient hanger & tree to match flowline) Tubing: Power cable: SPMs/GLM's: Cannon clamps: Flat guards: Pumps: Seal sections: Motors: Phoenix Equipment: Aluminum Anode: Visually inspect, replace scaled/damaged jts & re-run Replace w/new cable, spool and send to Centrilift for inspection/repair Replace w/used/inspected/tested SPMs/GLVs or re-dress on location Re-run (Have 10- 15 extra on location) Replace Replace & send to Centrilift for inspection/repair Replace & send to Centrilift for inspection/repair Replace & send to Centrilift for inspection/repair Visually inspect, check w/ & re-run (have back-up on location) Visually inspect & re-run (Have back-up on location) 8. M/U new ESP assembly as per attached diagram, and in accordance with ESP QA/QC Checklist. . RIH w/ESP assembly & refurbished SPMs (refer to attached gas lift design) on the original 4 %" 12.6 ppf L-80 IBTC SCC tbg, as per Standard Operating Procedure - ESP Workover Tripping Pipe & Cable Procedure. Position base of ESP at +/-9100' (2 its deeper than current setting depth). 10. Splice ESP cable to BIW hangar penetrator pig tail. Make up chemical injection upper check valve. Test conductivity of both the ESP cable. 11. Install BPV. ND BOPE & NU X-mas tree as per Standard Operating Procedure - ESP Workover NU BOPE Procedure. 12. Recover BPV and set TWC valve. Pressure test tree, hanger body and neck seals, EFT penetrations and ring gasket to 5000 psi. Recover two way check. 13. Install flowline and surface facilities & turn well over to Production. M~29 ESP WO Proc (short).doc 3 11/05/02 UNOCALe RKB to TBG Hgr = 74.5' Hngr. connection: 4-112" Butt HK  10 11 WF-2 WF-4 PBTD = 10,938'* TD = tl,896' Max HOLE ANGLE - 30.97° @ 8700' M-29 Schematic 11-15-02.doc Steelhead Platform Well # M-29 Wellbore Schematic 11/15/02 SIZE CASING AND TUBING DETAIL WT GRADE CONN ID TOP BTM. 26 267 thru 397# Drill Quip Surf 16 75 K-55 BTC 15.124 Surf 13 61 & 68 K-55 BTC 12.415 Surf 10-3/4 51 &55.5# N-80 BTC 9.760 Surf 9-5/8 53.5 N-80 BTC 8.535 484' Tubing: 4-1/2" 12.6# L-80 AB Mod 3.958 Surf IBTC 990' 1441' 3756' 484' 11,038' 8,920' NO. JEWELRY DETAIL Depth 1D Item 74.5 I 8886' 3.958 2 3.833 dfiR 3 9,004' NA 4 9,088' 4.750 5 9,104' 6.366 6 9,123' 3.813 7 9,135' 3.958 8 9,136' 3.958 9 9,138' 3.958 10 10,100' 4.75 11 10,104' 6.366 12 10,146' 3.813 13 10,180' 3.725 14 10,182' 3.958 Tbg Hgr FMC TC-B-EC-ENS, 4-1/2" Butt Top & mod-Butt Btm, CIW 'H' BPV 4-1/2" 12.6 lb/ft L-80 Imp Butt Tubing (Cannon Clamps) SFO-2 SPMs (5 w/GLVs, I w/orifice, & lower 2 w/dummies) (6' pups above 3.3' pups below) ~ approx. 6050', 5650', 5250', 4850', 4450', 4000', 3200', & 2150') Centrilift 600 hp ESP (pump & seals = 6.75", motor = 7.25") Baker "SB-3", 12' long, size 194-47 MOE Otis "X' Nipple, size 3.813 Crossover, AB mod Butt X Vam AVA "RBS" sub, Ass # A-CHD-RBS-450-2B WLEG Baker DB Pkr, size 194-47 w/14' SBE MOE Otis "X" Nipple, size 3.813 Otis "XN' Nipple, size 3.813 WLEG Fish/Fill Information: A. *Tag "sticky hole" w/S-line ~ 10,538' in 01/99. Overpull 650# in 2 attempts. PERFORATION DATA Zone Top Btm Amt Zone Top Btm Amt G-1 9,190' 9,220' G-2 9,242' 9,266' G-3 9,330' 9,350' G-4 9,380' 9,420' G-5 9,510' 9,530' G-5 9,541' 9,551' HB-1 9,701' 9,731' HB-2 9,746' 9776' HB-3 9846' 9876' HB-4 9951' 9971' HB-4 9991' 10021' HB-5 10041' 10083' 30' WF-1 10,312' 10,322' 10' 24' W F-1 10,340' 10,350' 1 O' 20' WF-1 10,360' 10,390' 30' 40' W F-2 10,450' 10,472' 22' 20' WF-2 10,480' 10,490' 10' 10' WF-2 10,500' 10,512' 12' 30' WF-2 10,552' 10,566' 14' 30' WF-4 10,645' 10,655' 10' 30' WF-4 10,680' 10,700' 20' 20' 30' 42' DRAWN BY: JFB Date: 10/25/02 UNOCAL RKB to TBG Hgr = 74.5' Hngr. connection: 4-1/2" Butt HK 1 14 i1 0 11 IWF-I WF-2 WF-4 PBTD = 10,938'* TD = 11,896' Max HOLE ANGLE - 30.97° @ 8700' SIZE 26 16 13 10-3/4 9-5/8 Tubing: 4-1/2" NO. Steelhea~' rlatform Well # M-29 Proposed Schematic 10/25/02 mo CASING AND TUBING DETAIL WT GRADE CONN 1D TOP 267 thru 397# Drill Quip Surf 75 K-55 BTC ! 5.124 Surf 61 & 68 K-55 BTC 12.415 Surf 51 &55.5# N-80 BTC 9.760 Surf 53.5 N-80 BTC 8.535 484' 12.6# L-80 AB Mod 3.958 Surf IBTC JEWELRY DETAIL Depth ID Item BTM. 74.5 8886' 990' 1441' 3756' 484' 11,038' 9,006'+ 3.958 3.833 dri~ 3 ±9,100' NA 4 9,088' 4.750 5 9,104' 6.366 6 9,123' 3.813 7 9,135' 3.958 8 9,136' 3.958 9 9,138' 3.958 10 10,100' 4.75 11 10,104' 6.366 12 111,146' 3.813 13 10,180' 3.725 14 10,182' 3.958 G-4 G-5 G-5 HB-1 HB-2 HB-3 HB-4 HB-4 HB-5 Tbg Hgr FMC TC-B-EC-ENS, 4-1/2" Butt Top & mod-Butt Btm, CIW 'H' BPV 4-!/2" 12.6 lb/ft L-80 hnp Butt Tubing (Cannon Clamps) SFO-2 SPMs (5 w/GLVs, 1 w/orifice, & lower 2 w/dummies) (6' pups above 3.3' pups below) ~ approx. 6050', 5650', 5250', 4850', 4450', 4000', 3200', & 2150') Centrilift 600 hp ESP (pump & seals = 6.75", motor = 7.25") Baker "SB-3", 12' long, size 194-47 MOE Otis "X" Nipple, size 3.813 Crossover, AB mod Butt X Vam AVA "RBS' sub, Ass # A-CHD-RBS-450-2B WLEG Baker DB Pkr, size 194-47 w/14' SBE MOE Otis "X" Nipple, size 3.813 ()tis "XN" Nipple, size 3.813 WLEG Fish/Fill Information: *Tag "sticky hole" w/S-line ~ 10,538' in 01/99. Overpull 650# in 2 attempts. 'PERFORATION DATA 9,380' 9,420' 40' 9,510' 9,530' 20' 9,541' 9,551' 10' 9,701' 9,731' 30' 9,746' 9776' 30' 9846' 9876' 30' 9951' 9971' 20' 9991' 10021' 30' 10041' 10083' 42' WF-2 10,450' 10,472' 22' WF-2 10,480' 10,490' 10' WF-2 10,500' 10,512' 12' WF-2 10,552' 10,566' 14' WF-4 10,645' 10,655' 10' WF-4 10,680' 10,700' 20' M-29 Proposed Schematic 10-25-02.doc DRAWN BY: JFB Date: 10/25/02 UNOCAL RKB to TBG Hgr = 74.5' Hngr. connection: 4-1/2" Butt HK "I1 10 11 IWF-I WF-2 PBTD = 10,938'* TD = 11,896' Max HOLE ANGLE - 30.97° @ 8700' SIZE Steelhead t'latform Well tt M-29 Completion Date 8/9/01 CASING AND TUBING DETAIL WT GRADE CONN ID TOP BTM. 26 267 thru 397# Drill Quip 16 75 K-55 BTC 13 61 & 68 K-55 BTC 10-3/4 51 &55.5# N-80 BTC 9-5/8 53.5 N-80 BTC Tubing: 4-1/2" 12.6# L-80 AB Mod BTC NO. Depth ID 74.5 m. I 8886' 3.958 2 3.833 drift 3 9,042' NA 4 9,088' 4.750 5 9,104' 6.366 6 9,123' 3.813 7 9,135' 3.958 8 9,136' 3.958 9 9,138' 3.958 10 10,100' 4.75 I I 10,104' 6.366 12 10,146' 3.813 13 10,180' 3.725 14 10,182' 3.958 Surf 990' 15.124 Surf 1441' 12.415 Surf 3756' 9.760 Surf 484' 8.535 484' 11,038' 3.958 Surf 8,886'_+ G-4 G-5 G-5 HB-1 HB-2 HB-3 HB-4 HB-4 HB-5 JEWELRY DETAIL Item Tbg Hgr FMC TC-B-EC-ENS, 4-1/2" Butt Top & mod-Butt Btm, CIW 'H' BPV 4-1/2" 12.6 lb/fl L-80 hnp Butt Tubing (Cannon Clamps) SFO-2 SPMs w/GLVs (6' pups above 3.3' pups below) @ 7485', 7094', 6609', 5966', 5269', 3952', 2256' Centrilift 600 hp ESP (pump & seals = 6.75", motor = 5.62") Baker "SB-3", 12' long, size 194-47 MOE ()tis "X" Nipple, size 3.813 Crossover, AB mod Butt X Vain AVA "RBS" sub, Ass # A-CHD-RBS-450-2B WLEG Baker DB Pkr, size 194-47 w/14' SBE MOE Otis "X" Nipple, size 3.813 Otis "XN' Nipple, size 3.813 WLEG Fish/Fill Information: *Tag "sticky hole" w/S-line ~ 10,538' in 01/99. Overpull 650# in 2 attempts. PERFORATION DATA 9,380' 9,420' 40' 9,510' 9,530' 20' 9,541' 9,551' 10' 9,701' 9,731' 30' 9,746' 9776' 30' 9846' 9876' 30' 9951' 9971' 20' 9991' 10021' 30' 10041' 10083' 42' WF-2 10,450' 10,472' 22' WF-2 10,480' 10,490' 10' WF-2 10,500' 10,512' 12' WF-2 10,552' 10,566' 14' WF-4 10,645' 10,655' 10' WF-4 10,680' 10,700' 20' M-29 Schematic 8-9-01.doc DRAWN BY: JFB Date: 10/01/01 71.81' M-29 16 314" BOP Stack up Top of Rota~ Table KB= 71.81' , , 16 314" 5M Hydril Annular 5.40' 36.25' 59.76' 16 314" 10M Mud Cross 2.45' ALL Wing valves 3" 5M Rig Sub Grating 23.47' Upper well Bay Floor .60' 12.51' Top of 16" 5 M Tbg Spool Unocal Corporation P.O. Box 196247 Anchorage, AK 99501 Telephone (907) 263-7660 UNOr. Dan Williamson Drilling Manager 10/0 5/O 1 Alaska Oil and Gas Conservation Commission 333 West 7th Avenue Anchorage, Alaska 99501 Attn: Re: Commissioner Julie Heusser Report of Sundry Operations (Form 10-404) Steelhead, Well M-29 McArthur River Field Commissioner Heusser: Enclosed for your review is a Report of Sundry Well Operations (Form 10-404) for the recent workover to install an electric submersible pump (ESP) in Steelhead Well #M-29. The workover was successful and no additional work is planned for Well M-29 at this time. If there are any questions, please contact Jerry Bowen at 263-7640. Drilling Manager RECEIVED OCT 1 0 Z001 Alaska 0il & Gas Cons. Comrnissio~, Anchorage AOGCC cover letter404.doc Tim Billingsley STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION REPORT OF SUNDRY WELL OPERATIONS 1. Operations performed: Operation shutdown: Stimulate: Plugging: Perforate: Pull tubing: X Alter casing: Repair well: Other: Install ESP 2. Name of Operator 5. Type of Well: 6. Datum elevation (DF or KB) Union Oil Company of California (UNOCAL) Development: X 160' KB ABOVE MSL feet 3. Address Exploratory: 7. Unit or Property name Stratigraphic: P.O. Box 196247, Anchorage, AK 99519 Service: Trading Bay Unit 4. LocaUon of well at surface Leg B-1 Slot & Steelhead Platform 8. Well number 975' FNL, 519' FWL, Sec 33-9N-13W-SM M-29 At top of productive interval 9. Permit number/approval number 783' FSL, 1581' FWL, Sec 28-9N-13W-SM 91-27 At effective depth 10. APl number 1450' FSL, 1931' FWL, Sec 28-9N-13W-SM 50- 733-20428 At total depth 11. Field/Pool McArthur River Field 1,844' FSL, 2237' FWL, Sec 28-9N-13W-SM G Zone and Hemlock 12. Present well condition summary Total depth: measured 11,896' feet Plugs (measured) None true vertical 11,115' feet Effective depth: measured 10,938' feet Junk (measured) None true vertical 10,266' feet Casing Length Size Cemented Measured depth True vertical depth Structural Conductor 1,441' 16" 2200 sx 1,441' 1,441' Surface 3,756' 13-3/8" 2200 sx 3,756' 3,756' Production 484' 10-3/8" 2600 sx 484' 484' Production 11,038' 9-5/8" 1300sx 11,038' 10,357' Liner Perforation depth: measured/vertical (no perfs added - refer to attached wellbore schematic diagram for existing perfs) Tubing (size, grade, and measured depth) 4-1/2" 12.6 Ib/ft L-80 IBTC S.C.C. @ 9,042' (base of ESP) Packers and SSSV (type and measured depth) Production packer - N/A (well on artificial lift, No-Flow status approved by AOGC) Other packers in well: (1 .) Baker SB-3 @ 9,088' (2.) Baker Model DB @ 10,100' 13. Stimulation or cement squeeze summary RECEIVED N/A Intervals treated (measured) N/A OCT O ZO0't Treatment description including volumes used and final pressure N/A 14. Representative Daily Average Production or Injection Data~[819k1~ 0il & 8a~, Cu.s. 00BI1Di$$iOr~. OiI-BBL Gas-Mcf Water-Bbl Casing Pressure Anchorage Tubing Pressure Prior to well operation 7-29-01 441 100 4,623 1,155 123 Su bsequ e nt to operation 9-23-01 691 220 7,078 81 96 15. Attachments: 16. Status of well classification as: Copies of Logs and Surveys run: N/A Daily Report of Well Operations: X Oil: X Gas: Suspended: Service: 17. I hereby certify that the foregoing is true and correct to the best of my knowledge: Form 10-404 Rev 06/15/88 SUBMIT IN DUPLICATE ..~ UNOCAL RKB to TBG Hgr = 74.5' Hngr. connection: 4-1/2" Butt HK 1: 14  10 11 IWF-I WF-2 ~~~ WF-4 PBTD = 10,938'* TD = 11,896' Max HOLE ANGLE - 30.97° @ 8700' Steelhead ~'l~dorm Well # M-29 Completion Date 8/9/01 SIZE CASING AND TUBING DETAIL WT GRADE CONN ID TOP BTM. 26 267 thru 397# Drill Quip 16 75 K-55 BTC 13 61 & 68 K-55 BTC 10-3/4 51 &55.5# N-80 BTC 9-5/8 53.5 N-80 BTC Tubing: 4-1/2" ! 2.6# L-80 AB M od BTC Surf 990' 15.124 Surf 1441' 12.415 Surf 3756' 9.760 Surf 484' 8.535 484' 1 !,038' 3.958 Surf 8,886'+ NO. Depth ID 74.5 I 8886' 3.958 2 3.833 drift 3 9,042' NA 4 9,088' 4.750 5 9,104' 6.366 6 9,123' 3.813 7 9,135' 3.958 8 9,136' 3.958 9 9,138' 3.958 10 10,100' 4.75 11 10,104' 6.366 12 10,146' 3.813 13 10,180' 3.725 14 10,182' 3.958 JEWELRY DETAIL Item Tbg Hgr FMC TC-B-EC-ENS, 4-1/2" Butt Top & mod-Butt Btm, CIW 'H' BPV 4-1/2" 12.6 lb/ft L-80 Imp Butt Tubing (Cannon Clamps) SFO-2 SPMs w/GLVs (6' pups above 3.3' pups below) ~ 7485', 7094', 6609', 5966', 5269', 3952', 2256' Centrilift 600 hp ESP (pump & seals = 6.75", motor = 5.62") Baker "SB-Y', 12' long, size 194-47 MOE Otis "X" Nipple, size 3.813 Crossover, AB mod Butt X Vain AVA "RBS" sub, Ass # A-CHD-RBS-450-2B WLEG Baker DB Pkr, size 194-47 w/14' SBE MOE Otis "X" Nipple, size 3.813 Otis "XN" Nipple, size 3.813 WLEG Fish/Fill Information: A. *Tag "sticky hole" w/S-line ~ 10,538' in 01/99. Overpull 650# in 2 attempts. 'PERFORATI, ON DATA G-4 9,380' 9,420' 40' G-5 9,510' 9,530' 20' G-5 9,541' 9,551' 10' HB-1 9,701' 9,731' 30' HB-2 9,746' 9776' 30' HB-3 9846' 9876' 30' HB-4 9951' 9971' 20' HB-4 9991' 10021' 30' HB-5 10041' 10083' 42' WF-2 10,450' 10,472' 22' WF-2 10,480' 10,490' 10' WF-2 10,500' 10,512' 12' WF-2 10,552' 10,566' 14' WF-4 10,645' 10,655' 10' WF-4 10,680' 10,700' 20' M-29 Schematic 8-9-01.doc DRAWN BY: JFB Date: 10/01/01 Date 8/2/01 8/3/01 8/4/01 8/5/01 8/6/01 8/7/01 8/8/01 8/9/01 Daily Report of Well Operations Steelhead Well M-29 Workover to Convert well from Gas Lift to ESP AFE #149480 Summary Rigged down V-door & skidded rig over well M-29. Production bled SICP (gas lift pressure) to 0 psi. Re-positioned catwalk & set the V-door in place. Rigged up & tested lines to wellhead. Pumped 200 bbls 3%KCI-FIW down csg, csg on vacuum. Pumped 170 bbls down tbg, tbg prssure 0 psi. Installed BPV. Closed SSSV. ND flowline & started ND X-mas tree. Attempted to ND X-mas tree, t}'~/e:':C:6i~Oded.to:.tbg:~hea~, RU & started cold-cutting tree studs. Finished cutting studs & ND X-mas tree. Drove corroded studs out of tbg head flange. Cleaned & inspected tbg hanger threads. Installed scaffolding & NU BOPE. Changed top rams from 2 7/8" to 4 ½". Engaged tbg hanger with landing joint. Tested BOPE to 250/3000 psi. Found 5 psi SICP, pumped 30 bbls 3% KC1-FIW, on vacuum. Replaced BPV with TWCV. Tested blind rams to 250/3000 psi. Recovered TWCV. Tested accumulator. Backed out hold down pins. Un-landed completion. Pulled seals out of packer. Re-landed tbg hanger & machined larger ID in bell nipple. POH drifting 4 ½" tbg and inspecting for thread damage, NORM, scale & pitting. Cleaned connections & replaced AB Mod. seal rings at break points. LD 75 joints found to have thread damage (3 jts) and scale (72 jts), no NORM or corrosion detected. PU & rack back 75 jts of new 4 ½" 12.6 ppfL-80 tbg. RU to run ESP. Make up 600 hp ESP assembly with Phoenix sensor & RIH to 2016'. Continued RIH with ESP to 9000', making cable splices at 2315' & 6275' Make up tbg hanger & splice penetrator pigtail to hanger. Landed tbg hanger with base of ESP at 9042'. Ran inhold down pins & installed BPV. ND BOPE. NU X-mas tree in two pieces. Recovered BPV & installed TWCV. Tested tree to 5000 psi. Connected flowline. Prep to skid rig. FINAL REPORT. ~KA OIL AND GAS CONSI~RVA~ION COP~ISSION September 5, 2001 Dwight Johnson, Superintendent Chris Meyers, Superintendent UNOCAL Field Superintendents 260 Caviar Street Kenai, Alaska 99611 TONY KNOWLES, GOVERNOR 333 W. 7TM AVENUE, SUITE 100 ANCHORAGE, ALASKA 99501-3539 PHONE (907) 279-1433 FAX (907) 276-7542 RE: No-Flow Verification TBU Well M-25, PTD 187-086 TBU Well M-29, PTD 191-027 TBU Well M-31, PTD 193-190 Gentlemen: On April 11, 2001 AOGCC Petroleum Inspector Lou Grimaldi witnessed "no-flow" tests on UNOCAL's Steelhead Platform, Trading Bay Unit, McArthur River Field. Wells M-25, M-29 and M-31 were tested. Mr. Grimaldi arrived on Steelhead Platform and found the wells shut in and depressurized as requested. Over the course of 3-1/2 hour witnessed period, test performance of TBU Well M-25, PTD 187-086, TBU Well M-29, PTD 191-027 and TBU Well M-31, PTD 193-190 demonstrated only minor amounts of gas. When shut in, only slight pressure increases were noted which could be quickly bled off. Therefore, these wells need not be equipped with a commission approved fail-safe automatic surface-controlled subsurface safety valve ("SSSV") system. However, these wells must be equipped with fail-safe automatic surface safety valve ("SSV") systems capable of preventing uncontrolled flow and maintained in proper working condition. If for any reason any of the wells become capable of unassisted flow of hydrocarbons, the SSSV must be returned to service. A copy of this letter should be maintained in the respective well files on board Steelhead. Sincerely Sr. Petroleum Engineer JMH:\jjc [Fwd: Request fbr Approval of Vari...g BOP Test - Well M-29, Steelhead] · Subject: [Fwd: Request for Approval of Variance for Upcoming BOP Test - Well M-29, Steelhead] Date: Fri, 03 Aug 2001 07:23:38-0800 From: Tom Maunder <tom_maunder~admin.state.ak.us> To: Lisa Weepie <lisa_weepie~admin.state.ak.us> Lisa, Please place in the file. PTD # is 191-027 Tom Subject: Re: Request for Approval of Variance for Upcoming BOP Test - Well M-29, Steelhead Date: Thu, 02 Aug 2001 16:45:33 -0800 From: Tom Maunder <tom_maunder~admin.state.ak.us> To: "Bowen, Jerry -Alaska" <jbowen~unocal.com> CC: AOGCC North Slope Office <aogcc_prudhoe_bay~admin.state.ak.us> Jerry, I have received your request with regard to ram coverage. 20 AAC 25.285 (c) proscribes the requirements for BOP equipment during workovers. Section (h) provides that the Commission will, in its discretion, approve a variance from the requirements of this section if the variance provides at least an equally effective means of ensuring well control. On workovers for BOPE equal to or less than 5000 psi, 3 preventers including one set of pipe rams for the pipe in use, one set of blind rams and an annular are required (A) (i). You correctly note that the subject well has been granted no flow status. It appears that your installation is in compliance with the regulations. Good luck with your work. Tom Maunder, PE Petroleum Engineer AOGCC "Bowen, Jerry -Alaska" wrote: Tom; With reference to our telephone discussion a few minutes ago, Unocal respectfully requests AOGC approval install only one set of 4 1/2" pipe rams in the BOP stack for the workover to convert Steelhead Well M-29 from gas lift to electric submersible pump (ESP). The plan would be to install the rams in the uppermost preventer, and leave the current 3 1/2" pipe rams in the lowermost preventer (please refer to the attached diagram). If this request is approved, we will have an annular preventer above the 4 1/2" pipe rams and blind rams immediately below. We will test the entire system as usual, with the exception of the 3 1/2" pipe rams, which will be of no value for the upcoming workover. Please note that the subject well, M-29, has passed the "No Flow" test on several occasions, and is not capable of flowing against atmospheric pressure. The tubing has already been bled to 0 psi in preparation for this work, and the well is currently 100% dead without adding any fluid. However, we do plan to fill the tubing prior to starting work, as an added safety precaution. 1 of 3 8/3/01 7:39 AM [Fwd: Request tbr Approval of Vari...g BO[' Test - Well M-29, Steelhead] The conversion to ESP is straightforward. The tubing will be pulled and re-run (if in acceptable condition) with the ESP assembly. No additional perforating or other trips in/out of the well are planned. It currently appears that we would be ready to test the stack Thursday afternoon or evening, therefore your earliest attention to this request will be greatly appreciated. Please accept my personal apology for this late request. We were 'certain' that we owned two sets of 4 1/2" pipe rams for the Steelhead's unusual 16 3/4" IOM BOP stack, however, it became clear today that we have only one set of 4 1/2" pipe rams, and there appears to be no other compatible 4 1/2" rams available within Alaska. We are in the process of attempting to locate an additional set of 4 1/2" rams, as we plan on several more workovers and/or drilling which will involve 4 1/2" pipe. Please call or send an e-mail if additional information is required or if I can be of assistance in any way. Thanks. Jerry F. Bowen , P.E. Sr. Advising Drilling Engineer Office: 907-263-7640 Cell: 907-360-2490 Home: 907-688-2278 Fax: 907-263-7884 <<BOP stack.xls>> > ..... Original Message ..... > From: Bowen, Jerry -Alaska > Sent: Wednesday, July 18, 2001 3:19 PM > To: 'Tom Maunder ' > Cc: Nienhaus, Doug R; Byrne, Don S > Subject: Transmittal of schedule for upcoming Steelhead ESP workovers > (4) and drilling wells (2) > > Tom; > > Attached is the schedule for the four Steelhead workovers followed by the > two drilling jobs. I scanned it as a JPG file. It's not as clear as I > would have liked, but it should be clear enough to read. Please let me > know if you have a problem reading or printing it. > > I will prepare the various "Applications for Permits to: Abandon Zones, > Abandon Wellbores & Drill" as required for the last three wells, and > forward same to your attention ASAP. > > Thanks. > > Jerry F. Bowen, P.E. > Sr. Advising Drilling Engineer > Office: 907-263-7640 Cell: 907-360-2490 > Home: 907-278-7638 Fax: 907-263-7884 > > << File: Steelhead Sched.jpg >> > > Doug; > > Please be sure to notify the AOGC at least 24 hours prior to the BOP test > on well M-25. > 2 of 3 8/3/01 7:39 AM [Fwd: Request tbr Approval of Vari...g BOP Test - Well M-29, Steelhead] _ Name: BOP stack.xls BOP stack.xls Type: EXCEL File (application/msexcel) Encoding: base64 Tom Maunder <tom maunder~admin.state.ak.us> Petroleum Engineer Alaska Oil and Gas Conservation Commission Tom Maunder <tom maunder~admin.state.ak.us> Petroleum Engineer Alaska Oil and Gas Conservation Commission 3 of 3 8/3/01 7:39 AM MEMORANDUM TO' Julie Heusser, Chairman State of Alaska Alaska Oil and Gas Conservation Commission \xtl 0 \ DATE: April 11, 2001 THRU: Tom Maunder, ~~~ P. I. Supervisor~'''~ FROM: Lou Grimaldi, SUBJECT' Petroleum Inspector No-Flow Test Unocal Steelhead M-25 McArthur River Field TBU PTD 187-086 NON,CONFIDENTIAL Wednesday~ April 11~ 200,1:, I witnessed a No-Flow verification on UNOCAL's Steelhead platform wells #M-251~~ 31 in the McArthur River field. I was onboard 'for SVS and Mechanical Integrity tests during which I observed these wells (M-25, 29, & 31) No Flow tests. Following is a timeline and well stat~s during test. , w ., Well-> M-25 M-29 M-31 Time v "i6.00 1 psi, flowing ~ <180 scf/hr' 10, psi,.vent to atmosphere I pSi, floWing at < 180 scf/hr 1620 .Venting to atmoSphere 3 psi, flow (~ >1800 scf/hr Shut-in (~ I psi 1625 Zero Flow, Shut-in 1. psi, flow (~ 70 scfthr Shut-in (~.4psi. 1655 Shut-in @ 1 psi 0 psi, 0 flow, shut-in Well. Shut-in @ 5 psi, flow @ 250'" ,, , . scflh,r 1¢15. .Shut-in (~ I Psi Shut-in (~ 5 psi Flow .~ <180 scf/hr. ' 1725 Vent to atmosphere @ '250 Shut-in @ 6 psi, open 'to 'riow @ Flow @ < 1'80 scf/hr, shUt-in. scf/hr and decline >1800 scflhr, well '1735 Zero flow,. Shut-in Well Flow (~ 800 scl/hr. Shut-in @.5 pSi:. . '.'-' 1755 Shut-in ~ 1 psi Flow (~ 250 scf/hr Shut-in @ 7 psi, 1815 Shut-in @ 1 psi 'Flow @ < iso'scf/hr,' shut-in well. 'Flow @ 1200. scf/hr & decline to O. Shut-in well. 1930 Shut-in @ I psi, blow down' Shutin @ 2 psi, blow dOWn well Shut-in @ 2 psi, blow down- well to zero flow. to zero flow. well to zero flow. The three wells exhibited inability to flow to surface unassisted and I recommend they be granted No-Flow status. s,,,U, MMARY;, I witnessed No-Flow verification on UNOCAL's Steelhead platform wells #M-25, 29, & 31 in the McArthur River field. NON-C0NEIDENT!AL CC; Dwight Johnson/Gary Ross (Unocal) At .ta..c....hment: None No-Flow UNOCAL TBU M~25,29,31 4-11-01 LG SCANNED MAY 2 8 2002 i STATE OF ALASKA (' ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS 1. Type of Request: Abandon: Suspend: Operation shutdown: Re-enter suspended well: Alter casing: Repair well: Plugging: Time extension: Stimulate: Change approved program: Pull tubing: X Variance: Perforate: Other: 2. Name of Operator 5. Type of well: 6. Datum elevation (DF or KB) Union Oil Company of Califonia (UNOCAL) Development: X 160' KB to MSL feet 3. Address Exploratory: 7. Unit or Property name Stratigraphic: Trading Bay Unit P.O. Box 196247 Anchorage, Alaska 99519-6247 Service: 4. Location of well at surface Leg B-1 Slot & Steelhead Plafform 8. Well number 975' FNL, 519' FWL, Sec 33-9N-13W-SM M-29 At top of productive interval 9. Permit number 783' FSL, 1581' FWL, Sec 28-9N-13W-SM 91-27 At effective depth 10. APl number 1450' FSL, 1931' FWL, Sec 28-9N-13W-SM 50-733-20428 At total depth 11. Field/Pool 1,844' FSL, 2237' FWL, Sec 28-9N-13W-SM McArthur River Field G/Hemlock/West Foreland 12. Present well condition summary Total depth: measured 11,896' feet Plugs (measured) None true vertical 11,115' feet ,,, Effective depth: truemeasuredvertical 110'938'feet0,266' feet Junk(measured) None ORIGINAL Casing Length Size Cemented Measured depth True vertical depth Structural Conductor 1,441' 16" 2200 sx 1,441' 1,441' Surface 3,756' 13-3/8" 2200 sx 3,756' 3,756' Intermediate 484' 10-3/8" 2600 sx 484' 484' Production 11,038' 9-5/8" 1300ex 11,038' 10,357' Liner Perforation depth: measured (See attachment) RECEIVED true vertical Tubing (size, grade, and measured depth) 4-1/2" 12.6 Ib/ft L-S0, Imp Butt at 9100'121999 Packers and SSSV (type and measured depth) Baker Model DB @ 10,100' Alaska 0il & GasCons. Commissiol~ Anchorage 13. Attachments Description summary of proposal: X Detailed operations program: BOP sketch: X 14, Estimated date for commencing operation 15. Status of well classification as: 2/27/1999 16. If proposal well verbally approved: Oil: X Gas: Suspended: Name of approver Date approved Service: 17. I hereby certify that the foregoing.is true and correct to the best of my knowledge. Signed:(~i~/~ ~/ Title: Drilling Manager Date: ~'~,~,~ FOR COMMISSION USE ONLY Conditions of approval: Notify Commission so representative may witness IApproval No.., ~ Plug integrity BOP Test ~ Location clearance~ I d~ ('~Y'" Mechanical Integrity Test Subsequent form required 10- ¢,,t¢~ 4 Appro~eCt CoPY BetUrl~ed- ~ Robert N. Ghristenson Approved by order of the Co mmissioner Commissioner Date , Form 10-403 Rev 06/15/88 SUBMIT IN TRIF ICATE Unocal Corporation '~ P.O. Box 196247 Anchorage, Alaska 99519 907-263-7655 Dan Williamson Drilling Manager UNOCALe) January 11,1999 RECEIVED JAN 72 999 Alaska Oil & Gas Cons. Commission Anchorage Subject: Steelhead M-29 Recompletion Dear Mr Wondzell, Unocal is proposing to workover the Steelhead Platform Well M-29 and re-complete the well as a 4-1/2" single string ESP completion. Existing production from the Hemlock, West Foreland and G intervals is expected to increase as a result of the additional drawdown provided by ESP. The work program is expected to commence 27 February. A "no flow" performance test was performed on Well M-29 in December and witnessed by Lou Grimaldi. (Attached) As a result of that test we do not plan on installing a sub surface safety valve or packer in the completion assembly. A surface safety valve system will be incorporated in the surface wellhead system. The attached procedure provides an overview of the planned workover. If you have any questions, please contact the undersigned at 263-7677 or Nell Magee at 263-7671. Sincerely, Dan Williamson Drilling Manager Steelhead M-29 Summary of the Workover Proposal The well was completed in the G and West Foreland Formations and produced via a single string 4-1/2" gas lift completion until 12/98 when the Hemlock was opened up in the well. Production tests before and after the Hemlock was added is shown below: November 98 Well Test (G and West Foreland) 3 January 99 Well Test (Hemlock Added) 1329 BFPD, 359 BOPD, 73% wc 4124 BFPD, 540 BOPD, 87% wc Unocal plans to convert the well to an ESP completion as part of an initial program to evaluate the feasibility of converting a number of other potentially high volume Hemlock producers to ESP lift mechanisms on the Steelhead Platform. The proposed re-completion of M-29 is expected to increase well deliverability to approximately 10,000 BFPD, 1000 BOPD. The recompletion will entail circulating the well to 3% KCL/FIW, retrieving the existing gas lift completion, milling and retrieving the uppermost packer and re-running a 4-1/2" ESP completion. A draft workover program is provided as Attachment 1. Zone G-1 G-2 G-4 G-4 G-5 G-5 WF-1 WF-1 WF-1 WF-2 WF-2 WF-2 WF-2 WF-4 WF-4 HB-1 HB-2 HB-3 HB-4 HB-4 HB-5 Steelhead M-29 Perforations MD FT TVD 9190'-9220' 30 9242'-9256' 24 9330'-9351' 21 9380'-9420' 40 9510'-9530' 20 9541'-9551' 10 8,690'-8717' 8,736'-8758' 8815'-8758' 8860'-8895' 8975'-8993' 9003'-9012' 10312'-10322' 10 10340'-10350' 10 10360'-10390' 30 10450'-10472' 22 10480'-10490' 10 10500'-10512' 12 10552'-10566' 14 10645'-10655' 10 10680'-10700' 20 9710'-9710' 9726'-9735' 9744'-9771' 9826'-9846' 9854'-9863' 9872'-9883' 9919'-9931' 10003'-10012' 10034'-10052' 9701'-9731' 30 9746'-9776' 30 9846'-9876' 30 9951'-9971' 20 9991'-10021' 30 10041'-10083' 42 9148'-9174' 9190'-9216' 9280'-9309' 9375'-9393' 9411'-9439' 9457'-9495' TONY KNOWLE$, GOVERNOR ALAS~ OIL AND GAS CONSERVATION COMMISSION 3001 PORCUPINE DRIVE ANCHORAGE. ALASKA 99501-3192 PHONE: (907) 279-1433 FAX: ~907) 276-7542 December 22. 1998 Chris Meyers\Dwight Joimson Field Superintendents UNOCAL 260 Caviar Street Kenai, Alaska 99611 Re: No-Flow Verification MRF Wells D-I and M-29 Gentleman: Our Inspector, Louis R. Grimaldi. witnessed "no-flow" tests on UNOCAL's McArthur River Field wells D-l (PTD 67-080) and M-29 (PTD 91-027). When the inspector arrived, thc wells had been "in test" with no fluid production, but were now shut-in. The pressures were 4 to 6 psig: when open to atmosphere thc,,' bled dov~'n immediately. He observed the wells shut-in for an hour - thc pressure built to 2 psig on each well. They bled down rapidly in a bucket and had only the slightest gas flow. The inspector recommends the wells be granted "no-flow.? status. McArthur River Field wells D-1 (PTD 67-080) and M-29 (PTD 91-027) mcct thc criteria ora "no-flow" performance test and as such are considered incapable of flow to the surface. Under thc authority of 20 AAC 25.265(A) they arc not required to have a fail-safe automatic SSSV; however, the pilot and surface safctx' valve must be maintained in good condition. If for any reason, the well(s) again becomes capable of unassisted flow of hydrocarbons, the subsurface safety valve must be reinstalled and maintained in good working condition. Sincerely, Blair E. Wondzelk~ PI Supervisor Attachments CC: Lou Grimaldi Mark Atkins\Bill Smith - Doily Varden Gary. Ross - Steelhcad Dan Williamson - Anchorage bew/n l~.d I +m29 MEMORANDUM State of Alaska Alaska Oil and Gas Conservation Commission TO: David Johnston, DATE: Chairman THRU: FILE NO: Blair Wondzeli, ~ P. !. Supervisor ~"Z.(2¢..{9~ FROM' Lou Grimaidi,~'~ SUBJECT: Petroleum ins~ector December 13, 1998 1U7JLMFE.DOC No-Flow test Unocal M-29 Trading Bay Unit PTD # S.un..day, December 13, 1998; I witnessed the well test exhibiting No-Flow status on Unocal well #M-29 (Steelhead platform)in the Trading Bay Unit. Ken Sides (Unocal Lead Operator) had set up this test during the recent round of SVS tests I had witnessed. I talked to Ken this morning on the status of the well. It has been in test with no fluid production and a small amount of gas working out of the fluid. I arrived to find the well shut-in with 6 psi on the tubing and casing (using a 30 psi gauge) which had been jumpered together. I had Bean Lacey (Unocal operator) open the well to the Flare header, which bled the tubing pressure to 0 psi immediately. I observed the well for fluid production and finding none had the well shut-in. Over a hour the well slowly built to 2 psi and bled off rapidly when opened to the Flare header. I had the bleed down hose removed and ran into a bucket, I observed only the slightest of gas flow. I recommend this well be granted No-Flow status. SUMMARY: I witnessed Unocal well M-29 in the Trading Bay Unit exhibit inability to flow unassisted. Attachments: M-29 well test report. Cc; Chris Meyers\Dwight Johnson (Unocal Kenai) Gary Ross (Steelhead platform) NON-CONFIDENTIAL STEELHEAD M-29 RECOMPLETION DRAFT PROCEDURE (Attachment 1) Prepare well for workover. 1 Test HGR seals and 10-3/4" X 13-3/8" seals. 2 Equalize tbg and casing pressures 3 RU slickline unit 4 Pull SCSSSV 5 Run gauge ring. 6 Pull Gas Lift Valve #11 @ 9,009'. 7 Kill well thru GLM ~ 9,009' w/3%KC1 brine. 8 RD slickline unit. 9 Install BPV Workover well. 10 Mobilize and skid rig 11 ND tree. 12 NU BOPE and riser. 13 Test BOPE 14 Pull BPV and install 2-way check 15 Test blind rams. 16 Pull 2-way check. 17 MU landing joint. 18 Engage tubing hangar and release seal assy. 19 CBU 20 POOH and LD 4-1/2" tubing. 21 RIH and retrieve packer at 9088' 22 Perform bit and scraper trip to 10100' 23 RU power cable handling equipment 24 RIH with ESP on new 4-1/2" Imp. Butt tubing to 9100' 25 Prepare feed through and land tubing hangar. 26 Lay down landing joint. 27 Install BPV. 28 ND BOPE and riser. 29 NU adapter flange and install penetrator. 30 NU tree. 31 Pull BPV and set 2-way check. 32 Test tree and wellhead. 33 Pull 2-way check. 34 Install flowline. 35 Release well to Production RKB to Tubing Hgr = 74.50' 15 Steelhead Platform Well M-29 Current Completion, 1/99 SIZE WT GRADE CONN TOP 26"" 267 Drill-Quip Surf 16" 75 K-55 Butt Surf 13-3/8" 61/68 K-55 Butt Surf 10-3/4" 51/55 N-80 Butt Surf 9-5/8" 47/53.5 AB Mod Butt 484' Tubing: 4-1/2" 12.6 L-80 AB ModButt Surf' JEWELRY DETAIL Item NO. Depth 1 74.5 2 445 3-13 14 9069 15 9088 16 9112 17 9127 18 10100 19 10146 20 10180 21 10182 16" x 4-1/2" Hangar Butt TxB crossover 4-1/2" Camco TRDP 3.813" ID Camco 4-1/2" GLM MMG at: 1744', 2735', 3755', 4561',5364', 6103', 6663', 7221', 7808', 8394', 9009' Otis 4-1/2" XD sliding sleeve (3.813") Baker Packer SB-3A 192-47 Otis X nipple (3.813") Wireline Re-entry Guide Backer Packer DB 194-47 Otis X landing nipple (3.813") Otis XN nipple (3.725") Wireline Re-entry guide BTM 990' 1,441' 3,756' 484' 1 1,03 8' 9,135' Obstruction at 9672' RKB Hemlock perfs Ii, Ii G perfs Hemlock perfs ~ 18 5;~ ~ 20 21 Last fill tag --] 10,487' 12/298~~ WF Perfs PBTD = 10,420' TD = 11,896' Max angle = 30.97° ~ 8700' Open Perforations G-1 9180-9220 Last Reperf 12/97 G-2 9239-9269 Last Reperf 12/97 G-3 9330-9350 Last Reperf 12/97 G-4 9380-9420 Last Reperf 12/97 G-5 9475-9559 Last Reperf 12/97 G-6 9607-9632 Last Reperf 12/97 WF Perforated on 10/91 and 11/92 WF-1 10312-10322,10340-10370,10360-10390 WF-2 10450-10472,10480-10490,10500-10512,10552-10566 WF-4 10645-10655,10680-10700 HB-1 9701-9731 Perf 12/5/98 HB-2 9746-9776 Perf 12/5/98 HB-3 9846-9876 Perf 12/5/98 HB-4 9951-9971 Perf 12/4/98 HB-4 9991-10021 Perf 12/4/98 HB-5 10041-10083 Perf 12/4/98 REVISED: 1/8/99 DRAWN BY: NM Proposed Wellbore Schematic - M-29 RKB to TBG Hgr = 74.5' Hngr. connection: 4-112" Butt SIZE CASING AND TUBING DETAIL WT GRADE CONN ID TOP G HK 8 I w~-~ WF-2 PBTD = 10,938' TD = 11,896' Max HOLE ANGLE - 30.97° @ 8700' NO. 26 267 thru 397# Drill Quip Surf 16 75 K-55 BTC 15.124 Surf 13 61 & 68 K-55 BTC 12.415 Surf 10-3/4 51 &55.5# N-80 BTC 9.760 Surf 9-5/8 53.5 N-80 BTC 8.535 484' Tubing: 4-1/2" 12.6# L-80 AB Mod 3.958 Surf BTC Depth JEWELRY DETAIL ID Item 74.5 9,000'+ 10,100' 10,104' 10,146' 10,180' 10,182' Tbg Hgr FMC TC-1A-EN, 4-1/2" Butt Top & Btm 3.958' 4-1/2" 12.6 lb/ff L-80 Imp Butt Tubing Camco GLM's NA ESP 4.75 Baker DB Pkr, size 194-47 w/14' SBE 6.366 Mill Out Extension 3.813 Otis "X" Nipple, size 3.813 3.725 Otis "XN" Nipple, size 3.725 3.958 WLEG PERFORATION DATA G-4 9,380' 9,420' 40' WF-2 G-5 9,510' 9,530' 20' WF-2 G-5 9,541' 9,551' 10' WF-2 B-1 9700 9730 30' WF-2 B-2 9745 9775 30' W F-4 B-3 9845 9875 30' WF-4 B-4 9950 9970 20' HB-1 B-4 9990 10020 30' H B-2 B-5 10040 10090 50' HB-3 B-5 10130 10170 40' HB-4 0' HB-4 HB-5 10 450' 10 480' 10,500' 10,552' 10,645' 10,680' 9 701' 9 746' 9846' 9951' 9991' 10041' 10,472' 10,490' 10,512' 10,566' 10,655' 10,700' 9,731' 9776' 9876' 9971' 10021' 10083' BTM. 990' 1441' 3756' 484' 11,038' 9,000'_+ 22' 10' 12' 14' 10' 20' 30' 30' 30' 20' 30' 42' JLH lO,O00psi DOUBLEGATE crouch< w~ LINE GATE VALVE L, GATE VALVE x HCR VALVE ,l PIPE RANS ~ '{ lO,O00psi SINGLEGATE 16 3/4" 5000psi HALL VALVE STEELHEAD PLATFORM PREVENTER SCHEMATIC s/97 STEELHEAD PLATFORM CtlOKE MANIFOLD TO GAS D~JSTER TO DERRICK VENT TO SHALE StlAKERS ._ · CHOKE LINE SECTION AA HUD RETURN DITCH AGITATOR O MUD GUN STEEl,HEAD PLATFORM UUD PIT I,AYOUT MEMORANDUM State of Alaska Alaska Oil and Gas Conservation Commission TO: David John?.~'~, Chairman- ,.~,~ DATE: September 9, 1996 THRU: FROM: Blair Wondzell, P. I. Supervisor Chuck Scheve, Petroleum Inspector FILE NO: iu7kiidd. Doc SUBJECT: No Flow Test UNOCAL Well M-29 McA~hur River Field PTD # 91-0027 Monday September 9,1996: I traveled to UNOCAL's Steelhead Platform and witnessed a NO-FLOW test on well #M-29. The subject well had been flowed down to separator pressure before my arrival on the platform. When I arrived the well was lined up to the test separator and bled to flare' ( <4PSI ) for several hours with no fluid produced. The well was then shut in at the tree and slowly built to 15 PSI over a 3 hour period. The pressure bled off instantly when opened to the test separator. A half inch hose was then run from the tree cap to a 5 gallon bucket half filled with water. Minor amounts of gas were observed bubbling in the bucket with no fluid surfacing. I recommend approval of NO-FLOW status for this well. SUMMARY: I witnessed a successful NO-FLOW test on UNOCAL's well M-29 (Steelhead Platform) in the McArthur River Field X Unclassified Classified Unclassified with Document Removed , STATE OF ALASKA , A~' ~A OILAND GAS CONSERVATION cO( ,ISSION REPORT OF SUNDRY WELL OPERATIONS 1. Operations Performed: Operations Shutdown __ Stimulate __ Plugging __ Perforate X Pull Tubing Alter Casing Re~air Well Other 2. Name of Operator UNOCAL (Marathon Oil Company - Sub Operator) 3. Address P.O. Box 196247 Achorage, AK 5. Type of Well: Development X Exploratory -- S tratig rap hic -- Service ~ 4. Location of well at surface 975' FNL, 519' FWL, Sec. 33-9N-13W-SM At top of productive interval 783' FSL, 1,581' FWL, Sec. 28-9N-13W-SM At effective depth 1,450' FSL, 1,931' FWL, Sec. 28-9N-13W-SM At total depth 1,844' FSL, 2,237' FWL, Sec. 28-9N-13W-SM Leg B-l, Slot 7 Steelhead Platform i/i .~'~"~ , 6. Datum elevation (DF or KB) 160' KB above MLW feet 7. Unit or Property name Trading Bay Unit 8. Well number M-29 9. Permit number/approval number 91-27 / 93-202 0. APl number 50- 733-20428 1. Field/Pool G-Zone / West Foreland 12. Present well condition summary Total Depth: measured true vertical 11,896' feet Plugs (measured) 11,115' feet None 13. Effective depth: measured true vertical Casing Structural Conductor Surface Intermediate Production Liner Perforation depth: measured true vertical 1 0,938' feet Junk (measured) 1 0,266' feet Length Size Cemented 1,441' 16" 2,200 sx 3,756' 13-3/8" 2,200 sx 484' 10-3/8" 2600 sx CIP 11,038' 9-5/8" See Attachment #1 Tubing (size, grade, and measured depth) None Measured depth True vertical depth 1,441' 3,756' 484' 11,038' 1,441' 3,756' 484' 10,357' RECEIVED APR 22 1994, ^l~ska 0il & Gas Cons. Commission 4-1/2", 12.6~, L-80, AB Mod Butt tbg to 9,138' Anchorage Packers and SSSV (type and measured depth) ~::amco TRDP-4,AO SCSSV @ 447' Baker SB-3A, 12' SB pkr Size 192-47 (~9,088'; Baker DB pkr Size 194-47 w/14' SBE (~ 10,100' Stimulation or cement squeeze summary Intervals treated (measured) Treatment description including volumes used and final pressure 14. Rel)resentative Daily Avera,qe production or Injection Data Oil-Bbl. Gas-Mcf Water-Bbl. Casing Pressure Tubing Pressure Prior to well operation 664 455 960 1,000 Subsequent to operation 670 270 1,247 1,060 152 156 5. Attachments 116. Status of well classification as: I Copies of Log and Surveys run __ Daily Report of Well Operations X Oil X Gas Suspended Service 7, I hereby, certify that the foregoing is t. rue and correct tome best of my knowledge Form 10-4,~, Rev O6/15/88 Date ~'..~,r,'~. ~,, 1- SUBMIT IN~ Bench G-1 G-2 G-3 G-4 G-5 G-5 WF-1 WF-1 WF-1 WF-2 WF-2 WF-2 WF-2 WF-4 WF-4 Attachment #1 Well M-29 Perforations MD 9,190' - 9,220' 9,242'- 9,266' 9,330'- 9,351' 9,380'- 9,420' 9,510'- 9,530' 9,541'- 9,551' 10,312'- 10,322' 10,340'- 10,350' 10,360'- 10,390' 10,450'- 10,472' 10,480'- 10,490' 10,500'- 10,512' 10,552'- 10,566' 10,645'- 10,655' 10,680'- 10,700' TVD 8,690'- 8,717' 8,736'- 8,758' 8,815'- 8,833' 8,860'- 8,895' 8,975'- 8,993' 9,003'- 9,012' 9,701' - 9,710' 9,726'- 9,735' 9,744'- 9,771' 9,826'- 9,846' 9,854'- 9,863' 9,872'- 9,883' 9,919'- 9,931' 10,003' - 10,012' 10,034' - 10,052' [SUN DRYI.XLW] Perf Database Gas Cons. Commiss~or~ Anchorage DALLY WELL OPERATIONS M-29 3/24-25/94 Conducted pre-job meeting. Installed fusible cap on master manumatic. Isolate SCSSV w/hand pump @ 4,000 psi. RU E-line equipment. Pressure tested lubricator and BOPE to 2500 psi. - GOOD. RIH with 3-3/8" HSD carrier guns, 6 SPF, 60° phase. Perforated the following intervals with well flowing: BENCH RUN INTERVAL (DIL) FOOTAGE G-5 '1 9,544' - 9,554' DIL 10' G-5 1 9,480' - 9,490' DIL 10' G-5 2 9,500'- 9,530' DIL 30' G-4 3 9,400'- 9,420' DIL 20' G-4 3 9,383'- 9,393' DIL 10' G-3 4 9,341' - 9,351' DIL 10' G-2 4 9,244'- 9,254' DIL 10' G-1 5 9,209'- 9,219' DIL 10' G-1 5 9,190'- 9,200' DIL 10' RD E-line. Returned well to production. RECEIVED APR 22 1994 At~sk~ 0il & Gas Cons. 60mmissi0n Anchorage H:\wp\WELLOPS!M29 Unocal Energy Resource{i 'ision Unocal Corporation [ 909 West 9th Avenue, RO. Box 196247 Anchorage, Alaska 99519-6247 Telephone (907) 276-7600 UNOCALt Alaska DOCUMENT TRANSMITT~ May 3, 1994 TO: Larry Grant FROM' Kirk Kiloh LOCATION: 3001 PORCUPINE DRIVE LOCATION: P.O.BOX 196247 ANCHORAGE, AK 99501 ' ANCHORAGE AK 99519 ALASKA OIL & GAS CONSERVATION COMM. UNOCAL . ~: _ .--., . ~ .... _ .... :-::: _ -_-_~_ ..... ::::::_~.-~.-~___~_~_ ...... TRANSMITTING AS FOLLOWS 1 Sepia each for the following wells: TRADING BAY UNIT '?~(c~Biv D-28 Production Log c~0-~lo~ M-19 Production Profile ~4.--6G M-25 Production Log q\.--.;;L~ M-29 Production Log ~oI M-7 Production Log R~I-13 ~roduction LOg ~--9-/ M-14 Production Log 6/25/94 11/23/93 11/11/93 11/23/93 3/30/94 4/01/93 4/03/93 PLEASE ACKNOWLEDGE RECEIPT BY SIGNING AND RETURNING ONE COPY OF THIS DOCUMENT TRANSMITTAL TO: RECEIVED BY: DATED: DEBRA CHILDERS C/O UNOCAL P.O. BOX 196247 ANCHORAGE, AK 99519 ,j Unocal Energy Resource{ 'sion Unocal Corporation~, 909 West 9th Avenue, RO. Box 196247 Anchorage, Alaska 99519-6247 Telephone (907) 276-7600 UNOr. Alaska DOCUMENT TRANSMITTAL April 15, 1994 TO: Larry Grant FROM: Kirk Kiloh LOCATION: 3OOl PORCUPINE DRIVE LOCATION: P.O.BOX 196247-- ANCHORAGE, AK 99501 ANCHORAGE AK 99519 ALASKA OIL & GAS CONSERVATION COMM. UNOCAL TRANSMITTING AS FOLLOWS 1 Blueline each for the following wells: TRADING BAY UNIT 7~,- 3 ~' D-28 'Production Log tirO- I0~t M-19 "Production Profile ¢?- E>~ M-25 'Production Log qt -- 2=r M-29---Production Log ci~2. - r'~ M-7 "Production Log ~ct-q~ M-13/Production LOg ~q-%% M-14 /Production LOg 6/25/94 11/23/93 11/11/93 11/23/93 3/30/94 4/01/93 4/03/93 PLEASE ACKNOWLEDGE RECEIPT BY SIGNING AND RETIJ'RNING ONE COPY OF THIS DOCUMENT TRANSMrlTAL TO: RECEIVED BY: DATED: DEBRA CHILDERS C/O UNOCAL P.O. BOX 196247 ANCHO GE, A 99519 DOCUMENT TRANSMITTAL August 19, 1993 TO: Larry Grant FROM: 3001 Porcupine Drive Anchorage AK 99501 ALASKA OIL & GAS CONSERVATION COMMISSION Kirk Kiloh P O Box 196247 Anchorage AK 99519-6247 ALASKA REGION Transmitting as Follows: Conventional Core wellsite descriptions and core analyses for TBU M-29 Core #1 Core g2 Core #3 11,125- 11,150 11,481- 11,495 11,495- 11,514 PLEASE ACKNOWLEDGE RECEIPT OF THIS DOCUMENT TRANSMITTAL BY SIGNING AND RETURN~G ONE/COPY. THANK YOU. RECEIVED BY: ~ /~_~~"--~ DATED: AUG 2 Alaska 0il & Gas ',Cons. ,~,~.~ STATE OF ALASKA ~ : ALA: OIL AND GAS CONSERVATION COM ,...SION APPLICATION FOR SUNDRY APPROVALS 1. Type of Request: Abandon Suspend Operation shutdown Re-enter suspended well /,/~ Alter casin"'~- Repair w'~' Plugging -- Time extension Stimula-'~' F \ Change approv"--~ program__ -- Pull Tubing X.~ Variance__ P--~rforate X.~ Othe--7'~ ~"~ 2. Name of Operator 5. Type of Well: 16. Datum elevation (DF or KB)~'~' UNOCAL (Marathon Oil Company- Sub Operator) De,.vel.opm. ent X.~_ I 160' KB above MLLW ~xplorazory I 3. Address Stratigraphic 17. Unit or Property name P.O. Box 196247 Anchorage, AK 99519 Service ~ Trading Bay Unit 4. Location of well at surface Leg B-l, Slot 7 Steelhead Platform 975' FNL, 519' FWL, Sec. 33-9N-13W-SM At top of productive interval 783' FSL, 1,581' FWL, Sec. 28-9N-13W-SM At effective depth 1,450' FSL, 1,931' FWL, Sec. 28-gN-13W-SM At total depth 1,844' FSL, 2,237' FWL, Sec. 28-9N-13W-SM 8. Well number M-29 9. Permit number/approval number 91-27 10. APl number 50- 733-20428 11. Field/Pool G-Zone / West Foreland 2. Present well condition summary Total Depth: measured true vertical Effective depth: measured true vertical Casing Structural Conductor Surface Intermediate Production Liner Perforation depth: 11,896' feet 11,11 5' feet 10,938' feet 10,266' feet Length Size 1,441' 16" 3,756' 13-3/8" 484' 10-3/8" 11,038' 9-5/8" Plugs (measured) None Junk (measured) None Cemented Measured depth Tubing (size, grade, and measured depth) 4-1/2", 12.6#, L-80, AB Mod Butt tbg to 9,127' Packers and SSSV (type and measured depth) 13. True vertical depth 2,200 sx 1,441' 1,441' 2,200 sx 3,756' 3,756' 2600 sx CIP 484' 484' 11,038' 10,357' measured See Attachment #1 R'E'~E ~ V E' D true vertical J LJ L 8 ,Alaska Oil & Gas Co~'~s. Commission Anchorage Baker SB-3A, 12' SB pkr Size 192-47 @9,078'; Baker DB pkr Size 194-47 w/14' SBE @ 10,100' Attachments Description summary of proposal ~ Detailed operations program -_ BOP sketch X Estimated date of commencing operation September 1, 1993 If proposal was verbally approved Name of approver Date approved 15. Statis of well classification as: Oil X Gas Service Suspended 17. I hereby (~y. t~gji~true~and~...e~t.t,o the best of my knowledge. Signed . ~ Title Date FOR COMMISSION USE ONLY Conditions of approval: Notify Commission so representative may witness Plug integrity__ BOP Test__ Location clearance__ Mechanical Integrity Test Subsequent form required 10- , Approved by order of the Commision Form 10-403 Rev 06/15/88 Original Signed By In,vid W.. , App,~-oved Copy Returned Commissioner Date ~'_/~/~ ~,~ ~ SUBMIT IN TI~IPLICATE'""-~. Zone G-1 G-2 G-4 G-4 G-5 WF-1 WF-1 WF-1 WF-2 WF-2 WF-2 WF-2 WF-4 WF-4 M-2g PERFORATIONS MD FT 9,190 - 9,220 30 9,242 - 9,256 24 9,330 - 9,351 21 9,380 - 9,420 40 9,510 - 9,530 20 9,541 - 9,551 10 TVD FT 8,690 - 8,717 27 8,736 - 8,758 22 8,815 - 8,833 18 8,860 - 8,895 35 8,975 - 8,993 18 9,003 - 9,012 9 10,312 - 10,322 10 10,340 - 10,350 10 10,360 - 10,390 30 10,450 - 10,472 22 10,480 - 10,490 10 10,500 - 10,512 12 10,552 - 10,566 14 10,645 - 10,655 10 10,680 - 10,700 20 9,701 - 9,710 9 9,726 - 9,735 9 9,744 - 9,771 27 9,826 - 9,846 20 9,854 - 9,863 9 9,872 - 9,883 11 9,919 - 9,931 12 10,003 - 10,012 9 10,034 - 10,052 18 H: \wp\WLPRO\M29 M-29 WORKOVER PROCEDURE OBJECTIVE: Replace tubing; convert well from jet pump lift to gas lift. 10. 11. 12. 1. Kill well by circulating drill water + 3% KCL through sliding sleeve at 9033'. 2. RU slickline. Set plug in SCSSV profile at 448'. Set BPV. 3. ND tree. NU BOPE and riser. Test to 250/2500 psi. Pull BPV. RU slickline and pull plug at 448'. 4. POOH and lay down 4-1/2" tubing and packer seal assembly. 5. RIH with workstring, bit, and casing scraper to packer at 9078'. Circulate hole clean. POOH. 6. RU electric line. Run casing inspection log from packer at 9078' to surface. 7. RIH with new 4-1/2" tubing with gas lift mandrels, locator seal assembly, and 4-1/2" SCSSV. Stab seal assembly into packer. Land tubing hanger. 8o RU slickline. Set plug in SCSSV profile. POOH. Set BPV. ND BOPE and riser. NU and test tree. Pull BPV. RU slickline and pull plug from SCSSV profile. 9. Release rig. Unload well. Run production log to determine G-Zone and West Foreland contribution. Reperforate select intervals following evaluation of production log. RECEIVED L 2 8 199; Gas Co~s. Oon~missio~ Anchorags Wireline Lubricator w/Associated BOPE GREASE HEAD (Hydraulically Activated) LUBRICATOR MANUALLY OPERATED BOP ~ ,=,, , ECE VED JUL 2 ~ Alaska Oil & ~;as Cons: Commission X-~I018-K-REV. 2 MARATHON OIL COMPANY STEELHEAD PLATFORM CHOKE MANIFOLD TO GAS BUSTER TO DERRICK VENT A~ TO SHALE SHAKERS c.o~,= LWNE i~i A.-._I SECTION AA ALL VALVES IN FLOW PATH ARE 3-1/16' 5000 PSI CAMERON GATE TYPE ,.i Pipe Rams Blind Rams Flow Line Hydrtl 16-3/4' 5000 Type GK Annular Gate Valve Gate Valve HCR Valve Choke Line PIl3e Rams 16-3/4° 10,000 Del Singlegate 16-3/4° 5000 pal Riser R'E EJVED /~ B,II V,lv, JUL 2 ~ 199~) f A.bska Oil & Gas Cons Comrn)ssior) Anchorag~ Wellhead Completed 6//26/91 Tubing Leaks: 8,336' &: 4,951' (Depths per 5/5/93 Tubing Leak Detection Log) Tubing Patches: 4,938' - 4,966' 8,331'- 8,359' (2.5" ID throucjh Patches) Jet Pump/SaFe~y VaLve set in 'XD' Sleeve ~ 9,033'. No ID through ~ssemb(y, X-Lock set in X NippLe @ 9,112' Hin I.D. = 2.62' J LJ L ~ B 1997 Alaska Oil & Gas Cons, Anchorage FiLl Tagged 10,744' DIL 11/3/92 MARATHON B~' CF1MPANY TRADING UNIT STEELHEAD PLATFORH M/ELL M-29 Att measurements 0, re RKO to top oF equipment. C6sin9 DetaiL: 990' 1,441' 3,756' 484' 11,038' 26', 267-397~, Drit-Qulp 16', 75~, K-55 OTC 13-3/8% 61/68~, K-55, OTC 10-3/4', 51/55.5~, N-80 Butt 9-5/8', 53.5~ BTC, 47~ OTC, 47~ ABMBD CompLetion String: (KB = 74.5' From Tubing Head Top F[ange 4.5' FNC TC-1A-EN Tb9 Hngr, Butt Top & Btm. 448' OTIS 'FMX' SCSSV, 3.813' 0'-9,127' 4.5% 12.6~, L-80 AB Hod Butt Tbg. ALL GLN's c~re Do, niet GLSB, 4.5' x 1.5' sldepocket mandrels (12 tot:a Depth V6lve 2,306' 1 3,543' 2 4,6t2' 3 5429' 4 6.178' 5 6,780' 6 7,197' 7 7,555' 8 7,908' 9 8,265' 10 8,625' 11 8,985' 12 9,033' Type Latch Dummy Rk Dummy RK -- -- -- -- -- -- -- -- -- -- -- Otis 'XD' Production S(eeve (3.813' X ProFiLe). Production Packer AssembLy: 9,078' 9,093' 9,100' 9,112' 9,124' 9,125' 9,027' Isolation Baker 'SB-3A' 12' SB size 192-47. MiLLout Ext. X-over, 7' Ltc B x 4-1/2' Butt. tb9, P Otis 'X' Lc~ndin9 NippLe (3.813' Pk9 Bore). X-over, Butt. AB Hod. B x VAN P AVA 'kBS' SUB, ASS ~A-CHD-RBS-450-O2B W/L Re-entry Guide Packer Assembty~ 10,100' 10,104' 10,146' 10,180' 10,182' Baker DB Pkr size 194-47 w/ 14' SBE Baker MitLout Ext. Btls 'X' Landln9 NippLe (3.813" PR9 Bore). B'tls 'XN' N~pp(e (3.813' Bore, 3.725' NoGo). W/L Re-entry Guide G ZONE PERFORATIBNS IntervaL Zone 9,190 - 9,220 G-1 30 9,242 - 9,266 G-2 24 9,330 - 9,350 G-3 20 9,380 - %420 G-4 40 9,510 - 9,530 G-5 20 9.541 - 9,551 G-5 10 WEST FQREL.AND PERFORATIONS IntervaL Zone Ft 10,312 - 10322 WF-1 10 10,340 - 10,350 WF-1 10 10,360 - 10,390 WF-1 30 10,450 - 10,472 WF-2 22 10,480 - 10,490 WF-2 lO 10,500 - 10,512 WF-2 12 10,552 - 10,566 WF-2 14 10,645 - 10,655 WF-4 10 10,680 - 10,700 WF-4 20 PBTD @ 10,938' TD @ 11,896' Revlslon Dote, 5/14/93 Revised By: JCM/evo Reason: Tubing Patches Previous Revlslon: 11/16/92 ,. Unocal North Amer~ Oil & Gas Division ~ Unocal Corporation 909 West 9th Ave., P.O. Box 190247 Anchorage, Alaska 99519-0247 Telephone (907) 276-7600 Alaska Region UNOCAL RECEIVED APR 2. O 199~ Al~ka Oil & G~s Oons. Commission DOCUMENT TRANS1V~TTAL April 16, 1993 TO: Larry Grant FROM: Kirk Kiloh LOCATION: 3OOl PORCUPINE DRIVE LOCATION' P.O.BOX 196247 ANCHORAGE, AK 99501 ANCHORAGE AK 99519 ALASKA OIL & GAS CONSERVATION COMM. UNOCAL - _::_~ : ~ __ .-~... :. _ ..... _~._ ......... ........ _ ___ ~__:_~ :: ....... .~. , _ _ ~ ...... :~: _ __~__ . TRANSMITTING AS FOLLOWS TRADING BAY UNIT 1 blueline and 1 sepia Logs from specified wells listed below ,; ,, ~g0-(~--. D-5R.D Perforating Record 7 7~Z- '- D-7RD Perforating Record --D-il. Perforating Record ~),&,~ --D-17RD 'Perforating Record · Perforating Record .Perforating Record Completion Record ~,9--q5' -- D-20 Completion Record 10-18-92 10-19-92 11-30-92 11-22-92 11-29-92 12-04-92 6-29-92 6-16-92 7&~ D-28 8~-"~11 D-43RD c~l-II D-47 Completion Record Perforating Record Perforating Record Perforating Record Perforating Record Perforating Recold Continuous Gyro Tool Cement Bond Tool 6-20-92 11-21-92 11-25-92 10-17-92 12-03-92 12-18-92 7-24-92 7-24-92 qO"lq M-28 ~4~,~::~ i.~' M-29 Perforating Depth Control Tubing Patch Record 8-12-92 11-13-92 PLEASE ACIC~T,owL¥,DGE RECEIFr BY SIGNING AND RETLrRNING ONE COPY OF THIS DOCUM~2qT TRANSMITTAL. THANK YOU DATED: .. r STATE OF ALASKA i~ ' r~ [~ ~...,KA OIL AND GAS CONSERVATION COMM,_ _;'iON "'" REPORTOF SUNDRY WELLOPERATIONS L 1. Operauons oerformea: Operation snutclown __ Stimulate w Plugging J Pedorate ~ Pull tubing __ Alter casing __ Repar well __ 2. Name of Operator / 5. Type of Well: UNOCAL (Marathon Oil Co- Sub Operator ) Devek~ent X Exploratory 3. Address Stratigraphic ~ P.O. Box 190247 Anchorage, AK 99519! Ser,ce~ 4. Location of w~ at sudace Leg B-1, Slot 7 Steelhead Platfom 975' FNL, 519' FWL, Sec. 33-gN-13W-SM Other 6. Datum elevation (DF or KB) 160' KB from MLLW Z Unit or Property name Trading Bay Unit 8. Well numOer M-29 At top of productive interval 783' FSL, 1,581' FWL, Sec. 28-gN-13W-SM At effective depth 1450' FSL,. 1931' FWL, Sec. 28-gN-13W-SM At total depth 1844' FSL, 2237' FWL, Sec. 28-gN-13W-SM 9. Permit numberlapprova number 91-27 10. APl number 5o- 733-20428 11. Field/Pool G-Zone/West Foreland feet 12. Present well condition summary Total depth: measured true vertical 11,896' feet 11,115' feet Plugs (measured) None Effective depth: measured 10,938 ' feet true vertical 10,266' feet Casing Structural Conductor Surface Intermediate Production Liner Perforation depth: Junk (measured) Length Size Cemented 1,441' 16" 3,756' 13 3/8" 484' 10-3/8" 1,038' 9-5/8" true vertical '~ OV ~ "f ~[ " Tubing (size, gra, e, and meas,,~~ ~ GBS .~:OO. ~""' ,, ' ~~: , ~&~O~~' 4-1/2 Packers and SS~ (~ and measur~ depth) Baker DB net Si Tm 13. Samulation or ~ment squ~ s~m&~- 2,200 sx 2,200 sx 2,600 sx CIP See 12.6# L-80 Baker SB-3A Measured depth 1,441' 3,756' 484' 11,038' True vertical depth 1,441' 3,756' 484' 10,357' Attachment 1Q4-,47 W/ 14' AB Mod Butt 12' SB Pkr tbg to 9,127' Size 192-47 e 9078' Intervals treated (measure(i) Treatment description including volumes used and final pressure 14. Representative Daily Averacje Production or I niection Data OiI-Bbl Gas-Mcr Water-Bbl. Casing Pressure Tubing Pressure Prior to well operation 423 ,"" 285 896 99 2632 Subsequent to operation 180 ....... 9 635 100 15. Attachments 16. Status of welt cla~fication as: Copies of Logs and Surveys run Daily Report'of Well Operations ~.' Oil .~X Gas..._ Suspended j 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. Service 3001 Signed Form 10-404 Date\t, SUBMIT IN DUPUCATE Zone G-1 G-4 WF-1 WF-1 WF-1 WF-2 WF-2 WF-2 WF-2 WF-4 WF-4 H-29 PERFORATIONS MD FT 9,190 - 9,220 30 9,242 - 9,256 24 9,330 - 9,351 21 9,380 - 9,420 40 9,510 - 9,530 20 9,541 - 9,551 10 TVD 8,690 - 8,717 8,736 - 8,758 8,815 - 8,833 8,860 - 8,895 8,975 - 8,993 9,003 - 9,012 10,312 - 10,322 10 10,340 - 10,350 10 10,360 - 10,390 30 10,450 - 10,472 22 10,480 - 10,490 10 10,500 - 10,512 12 10,552 - 10,566 14 10,645 - 10,655 10 10,680 - 10,700 20 9,701 - 9,710 9,726 - 9,735 9,744 - 9,771 9,826 - 9,846 9,854 - 9,863 9,872 - 9,883 9,919 - 9,931 10,003 - 10,012 10,034 - 10,052 FT 27 22 18 35 18 9 9 9 27 20 9 11 12 9 18 H: \wp\WLPRO\M29 DAILY WELL OPERATIONS M-29 11/2/92 Hold safety meeting. RU Otis lub on well. PT lub to 4000 psi. RIH w/ GS pull tool to retrieve JP. Latch pump La 9042' WLM RT. POOH. 11/3/92 RIH and pull X-lock ~ 9112' POOH RD slickline. Spot SWS equip. Hold safety meeting. PT lubricator to ~,000 p~i. Perforate the following w/ 3-3/8", 6SPF, 60 degrees, 22 GR DP HC's: Zone Run # DIL Depth Footaqe Results WF-2 la 10,502 lb 10,452 WF-1 2a 10,378 2b 10,360 2c 10,340 G-5 3a 9,541 3b - 10,512 - 10,472 - 10,388 - 10,370 - 10,350 - 9,551 9,510 - 9,530 10 20 10 10 10 10 20 Fired Fired Fired Fired Fired Fired Fired 11/4/92 Zone G-4 G-3 G-2 G-1 Run # 4a 4b 5a 5b 6a 6b DIL Depth 9,400 - 9,420' 9,382 - 9,392' 9,341 - 9,351' 9,244 - 9,254' 9,209 - 9,219' 9,190 - 9,200' Footage 20 10 10 10 10 10 Results Fired Fired Fired Fired Fired Fired RD E-line. RU slickline and HOWCO lines. PT lub and lines to 2000 psi. RIH w/ X-lock and set in X-nipple ~ 9,112'. POOH. RIH w/ JP (RB nozzle/throat combo) and JPSV (11 pins) tg set in sliding sleeve profile 0 9,042' WLMRT. 11/5/92 OOH w/ pump assembly. Unable to set pump. New running tool. Redressed X-lock & pump w/ new packing. RIH w/ pump assembly. Set assembly & POOH. Circulated hole full of diesel. SI back side & tested safety valve. Held ~830 psi for 20 min. Test good. Flow test. Rd Howco. Gear up to run panty hose on WL to find hole in tubing. 11/6/92 RU 5' stem, spang, OJ, & POOH tail. Lowered tools below tree. Started injecting PF down tubing 0 I BPM. Returns ~ +/- 1 8PM. RIH slowly. Set down (a #6 GLM ~ 6720'. P/U w/o drag & RIH to 9000' WLM. Increased rate to 2 BPM & POOH. OOH. Part of hose missing. R/U scratcher. RIH to jet pump & POOH w/ well SI. RU 2nd pony tail & RIH w/ well SI made. 3 passed through GLM #6. P/U to 6600'. Started injecting PF ~ I BPM. RIH, made 2 passes across mandrel l. Nothing noted. POOH. RD Otis. R/U Schlumberger to run spinner/Temp combo. Pressure test BOPE & lub to 4000 psi. Test good. RIH to 50'. Started injection ~ 2450' BWIPD. Found hole in tubing @ pipe connection @8322'. Roughly 504 flow passing through hole. Only annomoly noted. POOH w/ logging tool assembly. Evaluate options for pipe inspection & patching hole in tubing. H: \wp\WELLOPS\M29 DAILY WELL OPERATIONS H-29 Page 2 11/8/92 Pressure test lub to 600 psi Test good RIH w/ USIT tool to 9000' OOH w/ logging tools. Added 2nd knuckle joint ~o string. RIH. Unable to iog lower tubing. POOH. Upper tubing appears in good shape w/ a few had spots. OOH w/ logging tools. RD off well. 11/12/92 Arrive w/'Repeata isolation tools. Safety meeting. PT lubricator to 2000 psi. Attempt to RIH w/ CC1, setting tool, Repeata-L, 6' pup, Repeata-R. Tool string would not pass through top of tree. LD tool string. LD lubricator. 11/13/92 MU lubricator, est comm. B/O, MU tool string: CC1, CPST-M setting tool. Repeata-L 6' pup. Repeata-R. PT lubricator to 2000 psi. RIH. Correlate tools to DIL. Locate isolation tools to straddle leaking coupling @ 8328' DIL. Ignite setting tool. POOH. Top of isolation asembly ~ 8320' DIL. Bottom of isolation assembly ~ 8334' DIL. OOH w/ setting tool. Good indication that packers saw correct setting force. RD SWS off well. Return well to production slowly, to 3000 psi PFP. H: \wp\WE L LOPS\M29 8,320' - 8,334' Repeata Tbs Patch 2.3" ID w/ GS Internal Fishing neck Top & Tapered Entry Guide Bottom Jet Pump/Sar'eLy VaLve set in 'XD' SLeeve ~ 9,033'. No ID through assembly. X-Lock set in X NippLe @ 9,112' Min I,D. = 2,62' Fil, t Tagged e 10,744' DIL 11/.3/92 MARNTHEIN FIIL ~FIMP~NY TRADING B~" JNIT STEELHEAD '~TFFtRM WELL H-29 - j Att measuremenms are RKB t:o 1:o1:) of equipment. i Casino De-toiL: L 990' 86% F'67-39711, Bri[-QulD 1,441' 16', 75~, K-55 OTC 3,756' i3-3/8', 6i/681t, K-55, OTC 484' i0-3/4', 51./55.5~¢, N-80 Butt i1,038' 9-5/8% 53.5# OTC, 47~t OTC, 47ff ABHOD COMDtetlon 2tr'ing: (KB = 74.5' Prom Tubing Head Top FLange) 4.5' FMC TC-iA-EN Tb9 Hngr, Butt Top & Btm. 448' nTIS 'FHX' S£SSV, 3.813' lx 0'-9,127' 4.5', 12.6#, L-80 AB Hod Butt Tbs. A(t GLM's are Danlet GLS[I, 4.5' x 1.5' $idepocket mandrels (12 total.) Death Valve, 2,306' 1 3,543' 2 4,612' 3 548.9' 4 6,178' 5 6,780' 6 7,197' 7 7,555' 7,908' 9 2,265' !0 8,625' 11 8,985' 12 9,033' Tvoe Latch Dummy RK Dummy RK Port Size -- -- -- -- -- -- -- -- -- -- Otis 'XD' Production SLeeve (3.813' X Prof'ite). Production Pac;ker Ass~'mbLy: 9,078' Baker 'SB-3A' 12' SB size 198-47. 9,093' MiLtou-t Ext. 9,100' X-over, 7' Ltc B x 4-1/2' Butt. tb9. P 9,118' Otis 'X' Landin9 NippLe (3.813' Pk9 Bore). 9,184' X-over, Butt. AB Hod. B x YAW P 9,125' AVA 'RBS' SUB, ASS ~A-CHD-RBS-450-OSB 9,027' W/L Re-entry Guide I$otation Pa(;;ker AssembLy: tO, lO0' Baker DB Pkr size 194-47 w/ 14' SBE 10,104' Baker Nit,out Ext. 10,146' Otis 'X' Landln9 NippLe (3.813' Pk9 Bore). 10,180' Otis 'XN' NippLe (3,813' Bore, 3.725' NoGo). 10,182' W/L Re-entry Guide G ZONE PERFORATIONS ]nt~'rvat Zone F._2_t 9,190 - 9,220 G-1 30 9,242 - 9,266 G-2 24 9,330 - 9,350 G-3 20 9,380 - 9,480 G-4 40 9,510 - 9,530 G-5 20 9,541 - 9,551 G-5 10 WEST FORELAND PERFORATIONS Interval Zone F__~_~ 10,312 - 10328 WF-1 10 10,340 - ]0,350 WF-1 10 10,360 - 10,390 WF-I 30 10,450 - 10,472 WF-2 22 10,480 - 1.0,490 WF-2 10 10,500 - 10,518 WF-2 12 10,552 - 10,566 WF-2 14 10,645- 10,655 WF-4 10 10,680 - t0,700 WF-4 20 PBTD 8 10,938' TD 8 11,896' Revision Date, 11/16/92 Revised By: JaM/eva Reason: Reper¢, Add New PerFs, Tubing PatQh Previous Revision: 11/22/91 STATE OF ALASKA i' O R I G ALASKA OIL AND GAS CONSERVATION COMMISSION REPORT OF SUNDRY WELL.OPERATIONS 1. Operations pedormed: Operation shutdown ~ Stimulate m Plugging Pull tubing m Alter casing __ Repa, r well Pedorate ~ Other 2. Name of Operator UNOCAL (Marathon 3. Address P.O. Box 190247 t5 . Type of Well: 0il Co- Sub Operato ) Development X~ Exploratory Stratigraphic __ Anchorage, AK 99519! Service 4. Location of well at surface Leg B-l, Slot 7 Steelhead Platform 975' FNL, 519' FWL, Sec. 33-gN-13W-SM At top of productive interval 783' FSL, 1,581' FWL, Sec. 28-gN-13W-SM At effective depth 1450' FSL, 1931' FWL, Sec. 28-gN-13W-SM Att¥~d4epthF'sL, 2237' FWL, Sec. 28-9N-13W-SM 6. Datum elevation (DF or KB) 160' KB from MLLW 7. Unit or Property name Trading Bay Unit 8Mw_~19numloer 9. Permit nu~r/appr~ number 91-27/3'27 10. APl number so- 733-20428 feet 11. Field/P. ool McArLi~ur River G-Zone/West Foreland 12. Present well cOndition summary Total depth: measured true vertical Effective depth: measured true vertical 11,896 ' feet Plugs (measured) 11,115' feet 10,938' feet Junk (measured) 10,266' feet Casing Length Structural Conductor 1,441 ' Surface 3,756' Intermediate 484 ' 11,038' Production Liner Perforation depth: measured true vertical Size Cemented 16" 2,200 sx 13 3/8" 2,200 sx 10-3/8" 2,600 sx CIP 9-5/8" Measured depth None True vertical depth 1,441' 1,441' 3,756' 3,756' ,484' 484' 11,038' 10,357' See Attachment Tubing (size, grade, and measured depth) 4-1/2" 12.6# L-80 Packers and SSSV (type and measured depth) R ~ ~ ,~t VBBD 12' Raker DR pkr Size ]94-47 w/ 14 gRF la lfl:lflfl' 13. Stimulation or cement squeeze summary Intervals treated (measured) ~as~..aj DjI. ~ Gas :C'0. ~s, ~o~issL~Q. ....... Treatment description including ~lumes us~ and final pm~um ~'D AB Mod Butt tbg to 9,127' SB Pkr Size 192-47 (a 9078' 14. Prior to well operation Subsequent to operation Representative Daily Average Production or Injection Data OiI-Bbl Gas-Md Water-Bbl Casing Pressure 342 1668 842 620 366 2048 1121 630 15. Attachments Copies of Logs and Surveys run .,., Daily Report of Well Operations ~..~.... 16. Status of well classification as: Oil ~ Gas_ Suspended Service 17. I hereby certify that the foregoing is true and correct to the best of my knowledg~ Signed (~ o..~ ~-~, (~ ~...Z~Lv~. Title ~'"~ t. ~\~, ,.~.,~3 Tubing Pressure 3967 4,011 Date II-!z-gt_., I~ SUBMITIN DUPMC&TE ~ M-2g PERFORATIONS Zone G-1 G-2 G-4 G-4 G-5 MD FT 9,190 - 9,220 30 9,242 - 9,256 24 9,330 - 9,350 20 9,380 - 9,420 40 9,510 - 9,530 20 TVD FT 8,690 - 8,717 27 8,736 - 8,758 22 8,815 - 8,833 18 8,860 - 8,895 35 8,975 - 8,993 18 WF-1 WF-1 WF-1 WF-2 WF-2 WF-2 WF-2 WF-4 WF-4 10,312 - 10,322 10 10,340 - 10,350 10 10,360 - 10,390 30 10,450 - 10,472 22 10,480 - 10,490 10 10,500 - 10,510 10 10,552 - 10,566 14 10,645 - 10,655 10 10,680 - 10,700 20 9,701 - 9,710 9 9,726 - 9,735 9 9,744 - 9,771 27 9,826 - 9,846 20 9,854 - 9,863 9 9,872 - 9,881 9 9,919 - 9,931 12 10,003 - 10,012 9 10,034 - 10,052 18 H: \wp\WLPRO\M29 DAILY ~ELL OPERATIONS ~-29 10/11/91 Held safety meeting. RU hand pump and set ~ 4500 psi° Installed lock open fusible cap on top master (manumatic). Pressure tested 80P & lub to 4000 psi. Test 9ood. RIH w~ G$ pulling tool and latched jet pump & S$$V. Jarred loose & POOH. 10/12/91 OOH w/ jet pump & SSSV. Otis RD. Halliburton R/U on M-29. Safety meeting. Pressure tested BOP & lub to 3500 psi. Good. Established CBO and armed 30' 3- 3/8" HC. 6 SPF, 60 degree phase. RIH. Set down hard ~ 9,112'. Otis X-nipple w/ 3.815" I.D. POOH. HLS RD. 10/13/91 Held safety meeting. RU & pressure test BOPE & lub to 3500 psi. Test good. RIH w/ 3.7" swedge. Tagged solid Ia 9,112 Otis X-nipple. POOH. RIH w/ 2.72" gauge ring. Tagged same. RIH w/ 4-1/2" GS pulling tool. Latched Otis x-lock (a 9,112'. POOH. RIH w/ 3.7" swedge. Tagged fill ~ 10,795' WLM REF RKB. POOH. RD Otis & RU Halliburton. Pressure tested BOPE & lub to 3500 psi. Established CBO. MU & armed 30' 3-3/8" HC, 6SPF, 60 phase. Select fire. RIH. Perforated the following intervals: Run #1 WF-4 Run #1 WF-4 Run #2 WF-2 Run #2 WF-2 Run #3 WF-2 Run #3 WF-2 10,680 - 10,700 10,645 - 10,655 10,552 - 10,566 10,500 - 10,510 10,480 - 10,490 10,450 - 10,470 2O 10 14 10 10 2O F i red F i red F i red Fi red F i red F i red 10/14/91 Run #4 WF-1 Run #5 WF-1 Run #6 WF-1 Run #6 WF-1 Run #7 G-5 G-4 10,360 - 10,390' 10,340 - 10,350' 10,340 - 10,350' 10,312 - 10,322' 9,510 - 9,530' 9,410 - 9,420' 30 10 10 .10 20 10 Fired Mi s f i red Mi s f i red Fi red Misfired F i red 10/15/91 Run #8 G-3 G-2 9,340' - 9,350' 9,242' - 9,261' 20' 20' Fi red F i red Run #9 WF- 1 G-5 10,340' - 10,350' 9,510' - 9,530' 10' 20' Fired F i red RIH, tagged fill ~ 10,779' DIL, POOH. RD E-line. H: \wp\WE L LOPS/M29 Daily Well Operations H-29 Page 2 10/16/91 RU WL. Press tested BOPE & lub to 3500 psi. Test good. RIH w/ X-lock & set in X-nipple 0 9,112. POOH. MU & RIH jet pump, SSSV & X-lock. RIH w/ jet pump assembly. Encountered obstruction ~ 4252 WLM. Stuck jet pump assembly. Sheared off & POOH. RIH w/ GS pulling tool. Latched X-lock & jet pump assembly. POOH. Circulatled 200 BBLS down tbg to clear scale. RIH w/ assembly. Set jet pump assembly. Sheared off & POOH. Secured well. Started pressure test of SSSV. Valve set Sleeve e 9,033'. No []) through Gssenbly. X-Lock set in X Nipple e 9,118' Hin I.D. · 8.68° MARATHDN I]IL CDMPANY TRADING BAY UNIT if STEELHEAD PLATFDRH ~/ELL M-;~9 ALL neasu~enents ore RKB to top oF eq~ipflent. Casing 990' 1,441' 3,756' 484' ]1,038' 86% ~7-3~7Bo Dra-Cko;p 168 75l, K-SS BTC 13-3/8~ 61/~a, K-5~ ~TC 10-3/4~ 51/5~5., N-80 But~ 9-5/8', C~et;on $trin= CKB = 74.5' Frail T~ng Head Top Flange) 4.5' F~ TC-tA-~N Th9 448' 0T]~ 'FHX' ~C~V, 3~t3' ~H'S ere Darnel Death Valve Tvme Latch P~t $;ze ~6' ] D~y RK - 3,543' a - 4,6]a' 3 - 54~9' 4 - 6378' 5 - &780' 6 - 7,]97' 7 - 7,555' 8 - 7,~8' 9 - 8~65' lO - 8,~5' It - ~5' i~ D~ny RK - %033' ~tis 'X~' Pro~cti~ ~[eeve (3.813' X ProVUe). Production Packer Assembly: 9,078' 9,093' g, lO0' 9,184' 9,185' 9,087' lso(atiofl 10,100' 10,104' 10,146' 10,t80' 10,188' I~ker 'SB-3A' 18' SB size 198-47. H;Ltout Ext. X-over, 7' Ltc B x 4-1/8' Butt. tb9. P aris 'x' Londm9 Nipple C3.813' ~g ~re). X-over, Butt. AB ~. B x V~ P AVA 'RBS' SU~ ASS ~A-CHD-RBS-4~-0~B ~/L Re-entry ~ide Packer A$$e~v: _ ~ke~ DB Pk~ size 194-47 ~ke~ gill~t Otis 'X' Lo~ Ni~e (3.813' Pkg Otis 'XN' N;ppte (3.813' Bore, 3.7~' No~). V/L Re-entry Gu~e FlU Togged 10,779' w/ E-Line 10/15/91 G ZONE P[RF'0RATION$ Interval Zone %190 - 9,880 G-! 30 9,~4~ - 9,~ G-~ 84 9,3~ - %350 G-3 9,~ - 9,4~0 G-4 V~T ;fiEf'LAND P£RFrtRATInN~ Interval Zone 10,318 - 10388 vr-] lO 10,340 - 10,350 vt-! lO 10,~0 - 10,3'90 VF-! 30 10,450 - ]0,478 VF-8 10,480 - 10,490 vr-8 ]0 10,500- 10,510 VF-8 10 10.558 - 10,566 vr-8 14 10,645 - 10,655 vt-4 10 10,680 - 10,700 vt-4 PBTD e 10,938' TD e 1L896' Revision D~te, 11/88/91 Rev;sad B)- PHO/evo Reaso~ ReperF & Add New PerFs Previous Rev;sion, 7/91 STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS 1. Type of Request: Abandon __ Suspend __ Operation shutdown __ Re-enter suspended weld __ Alter casing __ Repair weld __ Plugging __ Time extension __ ,,~tim ulate __ Change approved program __ Pull tubing __ Variance __ Pedorate ~ Other __ 2. Name of Operator ! 5. Type of Well: 6. Datum elevation (DF or KB) UNOCAL (Marathon Oil Co - Sub OperatT) DevelopmentX 160' KB from MLLW Exploratory __ 3. Address ..7. UgiI or Pr~perty,narp,e P.O. Box 190247 Anchorage, AK 995191 Stratigraphic__ Service__ /raal ng t~ay un~: feet 4. Location of well at sudace Leg B-l, Slot 7 Steelhead Platform 975' FNL, 519' FWL, Sec. 33-9N-13W-SM At top of productive interval 783' FSL, 1,581' FWL, Sec. 28-9N-13W-SM At effective depth 1450' FSL, 1931' FWL, Sec. 28-SN-13W-SM Att~l~thFSL, 2237' FWL, Sec. 28-9N-13W-SM 8.1~¢_e-~¢um ber 9. Permit number 91-27 10. APl number 5o- 733-20428 &J-- A .-J- L .... r~ 2 1 '-' -'"' ' I'l~.,/'TI L, IIl..,ll R I VCI · ~;lelO/l-'~QI , ,- ., . -Lone/west: I-ore/ana 12. Present well condition summary Total depth: measured true vertical Effective depth: measured true vertical Casing Length Structural Conductor 1,441' 3,756' Sudace 484' Intermediate 11,038 ' Production Liner Perforation depth: measured 11,896' 11 115' feet Plugs(measured) ' feet 10,938' feet Junk (measured) 10,266' feet Size Cemented Measured depth 16" 2,200 sx 1,441' 13 3/8" 2,200 sx 3,756' 10-3/8" 2,600 sx CIP 484' 9-5/8" 11,038' See Attachment true vertical Tubing (size. grade, and measured depth) 4-1/2" 12.6# L-80 AB Mod Butt Baker SB-3A 12' SB Pkr Packers and SSSV (type and measured depth) Baker DB pkr Size 194-47 w/ 14' SBE 0 10,100' None True vertical depth 1,441' 3,756' 484' RECtifieD NOV - 6 1992 Alaska Oil & Gas Cons. Anch0mg~ tbg to 9,127' Size 192-47 (a 9078' 13. Attachments Description summary of proposal __ Detailed operations program X BOP sketch X 14. Estimated date for commencing operation 11/2/92 Oil X Gas __ 16, Ifpro,oosal was verbally approved Blair Wondzel 1 10/30/92 Name of approver Date approved Service 17. I hereby ce~,j~ tha/L[h~j~g, oing is true and correct to the best of my knowledge. Signed /¢~ (~(~ Title ~ ~¢,/~ f~' FOR COMMISSION USE ONLY' Conditions of approval: Notify Commission so repYesentative may witness Plug integrity __ BOP Test ~ Location clearance __ Mechanical Integrity Test ~ Subsequent form required 10- 15. Status of well classification as: Suspended __ Date /~-/./'~ ~, JApprovalNo. . ,~ ~ . Approved by order of the Commission Form 10-403 Rev 06/15/88 Original Signed BY j Commissioner Date SUBMIT IN TRIPLICATE M-2g PERFORATIONS Zone G-1 G-2 G-4 G-4 G-5 MD FT 9,190 - 9,220 30 9,242 - 9,256 24 9,330 - 9,350 20 9,380 - 9,420 40 9,510 - 9,530 20 TVD 8,690 - 8,717 8,736 - 8,758 8,815 - 8,833 8,860 - 8,895 8,975 - 8,993 FT 27 22 18 35 18 WF-1 WF-1 WF-1 WF-2 WF-2 WF-2 WF-2 WF-4 WF-4 10,312 - 10,322 10 10,340 - 10,350 10 10,360 - 10,390 30 10,450 - 10,472 22 10,480 - 10,490 10 10,500 - 10,510 10 10,552 - 10,566 14 10,645 - 10,655 10 10,680 - 10,700 20 9,701 - 9,710 9,726 - 9,735 9,744 - 9,771 9,826 - 9,846 9,854 - 9,863 9,872 - 9,881 9,919 - 9,931 10,003 - 10,012 10,034 - 10,052 9 9 27 20 9 9 12 9 18 H: \wp\WLPRO\M29 S~ WELL M-29 AFE #8391-2 mmmmmmmlmmmmmmlmmlmmm, mmmmmmmmlmmmmmmmmmmmmm~s~ss~ismNmmNmmNmmmmNmmmmmmmmmmm OBJECTIVE: Reperforate select G-Zone and West Foreland intervals, repair jet pump, replace jet pump safety valve. LAST WIRELINE: 9/13/92 -- Run and test jet pump and jet pump safety valve. Safety valve would not hold pressure from above. WIRELINE PROBLEMS: None mmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmm PROCEDURE-. 1. Hold safety, environmental, and operational procedures meeting· SI power fluid. Isolate SCSSV with handpump at 4000 psi. Install fusible cap on master manumatic. RU slickline lubricator on well. RU HOWCO for pumping diesel. MU chiksan from upper wellroom service line to slickline lubricator. PT all lines and lubricator to 4000 psi with diesel. 2. Circulate 700 bbls of diesel at'about 2 BPM. Do not exceed 4000 psi. Monitor diesel cut in returns. · Check test separator header valve and casing valve for leakage: Reduce circulation pressure to 1000 psi. Close test separator header valve and allow casing and flowline to pressure up to about 1000 psi. Close casing valve, SD pumps, and monitor pressure falloff on PI-131 and gauge downstream of the check valve (see attached wellhead and flowline configuration schematic). This information will be used for testing the jet pump safety valve in step 12. · Check for communication above and below jet pump: With test separator header valve or casing valve closed, inject diesel until casing is pressured up to about 1000 psi. SD pumps and monitor pressure bleed-off. If pressure does not bleed to 0 psi, pressure tubing to about 3000 psi to shear equalizing feature in jet pump safety valve. Flush surface lines. RD HOWCO. 5. RU slickline equipment. RIH with GS pulling tool and latch jet pump at 9042' WLMRT. Allow vaccuum to stop before attempting to pull free. POOH with pump. 6. RIH with GS tool and retrieve X-lock at 9112'. POOH. RD slickline. RE6EIVED NOV - 6 1992 Alaska 0]i & Gas Cons. 6ornmissio~'~ Anchorage .M-29 - 2 - AF~ .~8391-2 i" '~i,. 7. Hold safety, environmental, and operational procedures meeting. RU E-line on well. PT lubricator to 2000 psi. With the well open to production, perforate the below listed G-Zone and West Foreland intervals with 3-3/8", 6 SPF, 60 , 22 gram DP guns. Establish communications blackout above 1000' for both live and spent guns. Tag fill after perforating the last West Foreland interval. ZONE RUN # DEPTH FOOTAGE WF-2 la 10,502' '- 10,512' DIL 10' lb 10,452' - 10,472' DIL 20' WF-1 2a 10,378' - 10,388' DIL 10' 2b 10,360' - 10,370' DIL 10' 2c 10,340' - 10,350' DIL 10' G-5 3a 9,544' - 9,554' DIL 10' 3b 9,510' - 9,530' DIL 20' G-4 4a 9,400' - 9,420' DIL 20' 4b 9,382' - 9,392' DIL 10' G-3 5a 9,341' - 9,351' DIL 10' G-2 5b 9,244' - 9,254' DIL 10' G-1 6a 9,209' - 9,219' DIL 10' 6b 9,190' - 9,200' DIL 10' 8. RD E.line. RE-RUN JET PUMP AND JET PUMP SAFETY VALVE 9. RU slickline and HOWCO lines. PT lubricator and lines to 2000 psi with diesel. 10. RIH with X-lock and set in X-nipple at 9112'. POOH. 11. RIH with jet pump (12B nozzle/throat combo) and jet pump safety valve (12 pins) and set in sliding sleeve profile at 9042' WLMRT. POOH. 12. Test jet pump safety valve: Inject diesel at 1000 psi until returns are observed at the test separator. Close test separator header valve and allow casing and flowline to reach 1000 psi. SD pumps.and monitor bleed-off. Flush HOWCO lines, and RD lubricator off well. 13. Test jet pump: Inject power fluid at 2000 psi until net returns are observed in the test separator. Increase PFP in 500 psi per 15 minute increments until PFP equals 4000 psi. Monitor net returns. 14. Complete RD of slickline and HOWCO. notice. Keep well in test until further R C[ VED NOV - 6 1992 AJaska Oil & Gas Cons. 6ommission Anchorage STEELHEAD PLATFORM Wireline Lubricator w/Associated BOPE , GREASE HEAD (Hydraulically Activated) LUBRICATOR MANUALLY OPERATED ' BOP m , 3-I' MARATHON RECEIVED OIL NOV - 6 1992 Alaska Oil & Gas Cons. Gommissio~ Anchorage Jet Punp/Sofety Valve set ~ 'XD' Sleeve e %0339 No 1]) through assenl)ly. X-Lad( set in X Nipple e 9,112' Hifl I.D. · e.G2' TRADIN6 ]~AY UNIT STEELHEAD PLATFORH \- ~/ELL M-2g Att neasu~enents are RKO to top oF e~ent. Casmt~ Detaa: 990' 1,441' 3.756' 484' 26', 267=397m, DrA-C)up 16', 751, K-$5 OTC 13-3/8', 61/68i, K-55, OTC ]0-3/4°. 51/5~x511, N-80 Butt 9-5/8°. 53.511 OTC. 471 OTC, 471 ABHOD Co, Diet;on Str;n~ CKB = 74.5' fron Tul~n9 Head Top Flange) 4.5' FHC TC-IA-i~N Tb9 ~9r, ~tt T~ & 448' OTIS 'rHX' SCSSV, 3~13' 0'-9,1~7' 4.5', 12~1, L-80 AB ~d ~tt T~ ~ Valve Tvoe Latch P~t ~ize ~6' ] D~my RK - 3,543' ~ - 4,6]E' 3 - 5429' 4 - 6.178' 5 - &7e0, G - 7,]97' 7 7,555' 8 - 7,~8' 9 - 8~5' ]0 - %033' Otis 'XD' ~o~ctim Sleeve (3.813' X Pro;;e). Production Pncker Assembly: %078' %093' 9,100' 9,112' %124' 9,125' 9,027' lso(atiofl Baker 'SB-3A' 12' SD size 192-47. I~ttout Ext. X-over, 7° Ltc B x 4-1/2' l~tt. tbg. P Otis *X' LandinG Nil:~e 43.813' Pk9 Bore). X-over, Butt. AB ~. B x V~ P AVA 'RBS' $U~ ASS EA-CHD-RBS-4~-0;B V/L Re-entry ~de Packer Assefl~v: 10.100' 10.104' 10.146' 10.180' 10.182' BGker DB Pkr size 194-47 w/ 14' SBt' Baker Hmttout Ext. Otis 'X' Landi~0 Nipple 43.813' Pk9 Bore). Otis 'XN' Nipple ¢3.813' Bore, 3.7L~' NoGo). V/L Re-entry OuKie Fill Ta99ed e 10.779' w/ E-Line 10/15/91 G ZDNK I:q~RFORATION$ Interval Zone rt 9,190 - 9.220 O=! 30 9.242 = 9,266 O=2 24 9,330 - 9,350 O-3 20 %380 - %420 O-4 40 9,510 - 9,530 G=5 20 V~::ST FDRI:'LAND P£RFDRATIDNS Interval Zone 10,312 - 10322 VF-I 10.340 - 10,350 VF-I 10,360 = 10.390 VF=I 10.450 - 10,472 vt-2 10.480 - ]0,490 VF-2 10,500 = 10.$10 VF'-2 10.552 - 10.566 VF-2 10,645 - 10.65S V?-4 10,680 - 10.700 VF-4 ,o RECEIVED 10 30 22 NOV - 6 1992 10 1o Alaska Oil & Gas Cons. C;ommission ]4 1o Anchora~te PBTD e 10,938' TD e 1L996' Revision I~te. 11/22/9] Revised By, PH0/evo Reoso~ Reperf' & Add New PerFs Previous Revision, 7/91 STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS 1. Type of Request: Abandon __ Suspend __ Alter casmg __ Repair well __ Change approved program m Operation shutdown __ Re-enter suspended well__ Comp'] ete flew G-Zone Plugging__ Time extens,on __ Stimulate__ W-Foreland Tnt. er, Pull tubing __ Variance __ Pedorate __ Other __ 6. Datum elevation (DF or KB) 160' KB from MLLW feet .Unit~9r Prop..erty name raping uay Unit 2. Name of Operator ! 5. Type of Well: UNOCAL (Marathon Oil Co - Sub Operatior) Development__ m Exploratory __ 3'Addr~s.s0. Box 190247 Anchorage, AK 9951~9 Stratigraphic__ Service __ 4. Location of well at sudace Leg B-l, Slot 7 Steelhead Platform 8. V~.l_lL~mber 975' FNL, 519' FWL, Sec. 33-9N-13W-SM At top of productive interval 783' FSL, 1,581' FWL, Sec. 28-9N-13W-SM At effective dep. th 1450' FSL, 1931' FWL, Sec. 28-9N-13W-SM Att°ti~t~ FSL, 2237' FWL, Sec. 28-gN-13W-SM 12, Present well condition summary Total depth: 9. Permit number 91-27 measured true vertical RECEIVED 10. APl number 5o- 733-20428 11 F: Id/Po^l HcArghur Ei ver G-~ne~V~est Foreland OCT ri !99) 11 896' None ' feet Alas.~e,~J(,&~GaerG~)ns. Commission 11 115' , feet J~rlCh01'a~l~ Effective depth: measured 10,938 ' feet true vertical 100266 ' feet Junk (measured) Casing Length Size Structural Conductor 1,441 ' 16" Surface 3,756' 13 3/8" 484' 10-3/8" Intermediate 11,038' 9-5/8" Production Liner Perforation depth: measured Cemented 2,200 sx 2,200 sx 2,600 sx CIP Measured depth True vertical depth 1,441' 1,441' 3,756' 3,756' 484' 484' 11,038' 10,357' See Attachment true vertical Tubing (size, grade, and measured depth) 4-1/2" 12.6# L-80 AB Mod Butt tbg to 9,127' Packers and SSSV (type and measured depth) Baker DB okr g-iTe lq4-47 · 13, Attachments 1, 2, Description summary of proposal ._x_ 3, 4 Baker SB-3A 12' SB Pkr Size 192-47 8 9078 w/ 14' gRF fa l(1.1(lO' · Detailed operations program __ BOP sketch ~ 14. Estimated (:late for commencing operation 10/12/91 16, If proposal was verbally approved Lonnie Smith Flame of approver 10 / 1 l~t~ approved 15. Status of well classification as: Oil .Z_ Gas __ Suspended __ Service 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. Signed (~o..,..,.& .~--~, ,(~...,.~... Title (~--.~.%,~-r..,~ ~'~.~, ~ ~ FORCOMMIS~N USEONLY Conditions of ap~val: ~otify Commission so representative may witness Date t~ - 2_5" -~)\ iApproval No, Plug integrity __ BOP Test __ Location clearance __ Mechanical Integrity Test __ Subsequent form required 10- Approved by order of the Commission Form 10-403 Rev 06/15/88 ORIGINAL SIGNED · ,-,,-,mr' r, LUI~II~ ~ [. ' Approved Returned C ommlssloner Date /,I- I - c~ I SUBMIT IN TRIPLICATE · e ® · e Attachment #1 STEELHEAD WELL M-29 COMPLETE NEW G-ZONE/WEST FORELAND INTERVAL PROCEDURE Hold operations/safety meeting. Reduce PFP to 2000 psi. Close in flowline at production header and allow flowline pressure to build to 2000 psi. Close in flowline at casing valve. Continue to pump power fluid until pressure breaks back indicating the equalizing feature of the safety valve has sheared. Shut off power fluid. Open casing and bleed remaining pressure to separator. Shutin well at wing valve, swab, and master. RU Otis on pipe rack level. Take SCSSV off platform system and put on hand pump (4500 psi) located near well room door. Install lock open fusible cap on master manumatic. MU tool string w/ GS pulling tool. Pressure test lubricator to 3500 psi. Note: Zero tool string at pipe rack level, which is 41' lower than KB. Report all depths on a KB basis. Open master and note SITP. Open swab. RIH and retrieve jet pump/SCSSV from XD sleeve at 9,033' KB. Run 3.70" tubing swedge to ensure tubing and isolation packer are free of obstructions. Tag fill (last tagged at 10,921' KB). POH and RD Otis. Open flowline to production and allow well to flow. RU E-line unit. Pressure test lubicator to 3500 psi. Perforate the following WF/G intervals with the well open to flow. For each perf run, establish communications blackout prior to arming guns until guns are below 1000'. Re-establish blackout when POH above 1000'. Guns to be used are 3-3/8" hollow carriers loaded with 6 spf, 60 deg phasing, 22 gm DP charges. RECEIVED OOT 5 0 1991 ~!a~.~..a. ~Oil :& Gas Cons. Commission Anchqra~ ZONE RUN # DEPTH W/F - 4 Run la Run lb WF - 2 Run 2a Run 2b Run 3a Run 3b WF- I Run 4 Run 5a Run 5b G - 5 Run 6a G - 4 Run 6b G- 3 Run 7a G - 2 Run 7b 10,680' - 10,700' DIL 10,645' - 10,655' DIL 10,552' - 10,566' DIL 10,500' - 10,510' DIL 10,480' - 10,490' DIL 10,450' - 10,470' DIL 10,360' - 10,390' DIL 10,340' - 10,350' DIL 10,312' - 10,322' DIL 9,510' - 9,530' DIL 9,410' - 9,420' DIL 9,340' - 9,350' DIL 9,242' - 9,262' DIL FOOTAGE 20' 10' 14' 10' 10' 20' 30' 10' 10' 20' 10' 10' 20' DO NOT EXCEED 500 BFPD RATE WHILE GUNS ARE IN THE TUBING BELOW THE XD SLEEVE AT 9,033' . 9. Tag depth of fill on last perforation run. RD E-line. 10. RU Otis on pipe rack level. Shut in well. Pressure test lubricator to 3500 psi. 11. MU tool string w/ running tool and jet pump/safety valve assembly (w/ 12B nozzle/throat combination). RIH with assembly and set in XD sleeve at 9,033'. POH. Rig aside Otis. 12. Test integrity of safety valve below jet pump by pressuring tubing and casing to 1000 psi. Open well to production. Slowly apply power fluid increasing pressure to 1500 psi. Monitor production for net returns. Increase PFP in 500 psi increments every 15 minutes until operating pressure of 4000 psi is reached. If okay, complete RD of Otis. 13. Produce well to test. \oe59/48.doc RECEIVED OOT 5 0 1991 Alaska 0il & Gas Cons. CommiSSiO~ Anchorage. ATTACHMENT #1 AFE #8360-1 ZONE G- 1 G-2 G-3 G-4 WF- 1 WF - 2 M-29 EXISTING PERFORATED INTERVALS DEPTH 9,190' - 9,220' DIL 9,242' - 9,266' DIL 9,330' - 9,350' DIL 9,380' - 9,420' DIL 10,312' - 10,322' DIL 10,340' - 10,350' DIL 10,360' - 10,390' DIL 10,450' - 10,472' DIL FOOTAGE 30' 24' 20' 40' 10' 10' 30' 22' M-29 PROPOSED PERFORATION INTERVALS ZONE WF - 4 WF - 2 WF- 1 G-5 G-4 G-3 G-2 \oe59\48.doc RUN # Run la Run lb Run 2a Run 2b Run 3a Run 3b Run 4 Run 5a Run 5b Run 6a Run 6b Run 7a Run 7b DEPTH 10,680' - 10,700' DIL 10,645' - 10,655' DIL 10,552' - 10,566' DIL 10,500' - 10,510' DIL 10,480' - 10,490' DIL 10,450' - 10,470' DIL 10,360' - 10,390' DIL 10,340' - 10,350' DIL 10,312' - 10,322' DIL 9,510' - 9,530' DIL 9,410' - 9,420' DIL 9,340' - 9,350' DIL 9,242' - 9,262' DIL FOOTAGE 20' 10' 14' 10' 10' 20' 30' 10' 10' 20' 10' 10' 20' RECEIVED OCT ~ 0 1991 Alaska Oil ~' Gas Cons. CommissiOn Anchorage Attachment M-29 G ZONE PERFORATIONS ~ FT rVD 9190 - 9220 30 8690 - 8717 9242 - 9266 24 8736 - 8758 9330 - 9350 20 8815 - 8833 9380 - 9420 40 8860 - 8895 BASAL NEST FORELAND PERFORATIONS MD FT TVD 10312 - 10322 10 9701 - 9710 10340 - 10350 10 9726 - 9735 11)360 - 10390 30 9744 - 9771 10450 - 10472 22 9826 - 9846 FT 27 22 18 35 FT 9 9 27 20 ALL PERFORATIONS ARE 8 SPF, 120 DEG. PHASING. Attachment #3 i~' MARATHF1N OIL COMPANY TRADING BAY UNIT 3TEELHEAD PLATFORM WELL M-~9 Att measurements are RKO to top oF equipment, Ccisin9 Detoit: 990' 1,441' 3,756' 484' 11,038' 26% 267-397~t, Drit-Oulp 16% 75~, KI55 OTC 13-3/8', 61/68~, K-55, OTC 10-3/4', 51/55.5~, N-80 Butt 9-5/8', 53,5~ OTC, 47~ OTC, 471f ABMBD CompLetion String: (KB = 74,5' From Tubing Head Top FLange) 4.5' FMC TC-1A-EN Tb9 Hngr, But-t Top 8, ]Btm. 448' OTIS 'FMX' SCSSV, 3.813' 0'-9,127' 4.5', 12,6ff, L-80 AB Mod Bu-~t Tb9, Att GLM's ore Daniel GLSB, 4.5' x 1.5' sldepocket; mandrels (12 -total,) Depth V(ltve P,306' 1 3,543' 8 4,612' 3 5429' 4 6278' 5 6,780' 6 7,197' 7 7,555' 8 7,908' 9 8,265' 10 8,625' 11 8,985' 12 9,033' Otis Type L6tch Pont Size Dummy RK Dummy RK 'XD' Production SLeeve (3.813' X ProFiLe). Production Packer Assemb[yl 9,078' Baker 'S;B-3A' 1;2, SB size 198-47, 9,093' Mlttout Ext, 9,100' X-over, 7' Ltc B x 4-1/8' Butt. tb9. P 9,112' Otis 'X' Landing NippLe (3.813' Pkg Bore). 9,1P4' X-over, Bu%t. AB Hod, B x VAMP 9,185' AVA 'RBS' SUB, ASS ~A-CHD-RBS-450-OPB 9,087' W/L Re-enTry Guide so,aLlan Packer AssembLy: lO, lO0' 10,104' 10,146' i0, i80' 10,188' 'F ECF. VED Baker DB Pkr slze 194-47 w/ 14' SBE B~ker Mittout Ext. 0 Otis 'X' L0. nding NippLe (3.813' Pk9 Bore). --¢""-~j Otis 'XN' NippLe (3.813' Bore, 3.785' NoGo). Anchorage G ZONE PERFORATIONS Interval F._$_t SPF Phasing Date 9,190 - 9,280 30 8 180 7/3/91 9,242 - 9,866 24 8 180 9,330 - 9,350 80 8 180 9,380 - 9,420 40 8 120 BASAL WESTFORELAND PERFORATIONS In~cervaL F~t SPF Phasing Date iO,31P - 10322 lO 8 180 7/1/91 10,340 - lO, 350 LO 8 180 10,360 - 10,390 30 8 180 , 10,450 - i0,478 22 8 180 PBTD 8 10,938' TD 8 11,896' Revision Date, 10/8/91 Revised By: PAL/eva Reason: New Comptet;on Previous Revision: None ,,~ Attachment #4 f l' STEELHEAD PLATFO( Wireline Lubricator w/Associated BOPE GREASE HEAD (Hydraulically Activated) LUBRICATOR MANUALLY OPERATED BOP ,,, ~ / ---10 ........ MARATHON OIL (' STATE OF ALASKA (" ' 0 R t6 I N~ ALASKA'OIL AND GAS CONSERVATION cOMMIssION WELL COMPLETION OR RECOMPLETION REPORT AND LOG' 1. Status of Well Classification of Service Well OIL ~X GAS I-) SUSPENDED .F-j ABANDONED )--) SERVICE .,'-I 2. Name of Operator I LOCATIONSIt 7. Permit Number UNOCAL (Marathon Oil Co. Sub-operator) i ,.~l~l~ ~ 91-27 3. Address ! ,cj.u~-~ 8. APl Number P. O. Box 190247 Anchorage, AK 99519 ~?~._~.t 50- 733-20428 J 4. ~ocat~on of wel~ at surface Leg B1, Slot 7 Steelhead Platform ...... "'".---'-.~ 9. Un~t or Lease Name 975' FNL, 519' FWL, Sec. 33 9N-13W-SM ~~:;::,"~ Trading Bay Unit At Top Producing Interval ~,u~.--. ..... ",,., , I ~~/i 10. WellNumber At Total Depth 11. Field and Pool 1844' FSL, 2,237' FWL, Sec. 28 9N-I3W-SM McArthur River Field 5. Elevation in feet (indicate KB, DF, etc.) I 6. Lease Designation and Serial No. G 0i ] Zone/West 160' KD from MLLWI ADL 18730 Fore]and 12. Date Spudded 13. DateT.D. Reached J 14. Date Comp., Susp. orAband. 115. Water Depth, ifoffshore 116. No. of Completions 2/23/91 6/26/91 7/08/91 187'feet MsL 2 17. Total Depth (MD+TVD) 18. Plug Back Depth (MD+TVD) 19. Directional Survey 20. Depth where SSSV set I 21. Thickness of Permafrost 11,896' &11,115' 10,938' :10,266' YES[~]X NO['-) 448NeetMDJ N/A 22. Type Electric or Other Logs Run CET. CBT. GR. CCL. AMS. PHASOR BHC. SP. FDC. CNL. NCT. CAL 23. CASING, LINER AND CEMENTING RECOF(D SETTING DEPTH MD CASING SIZE WT. PER FT. GRADE TOP BOTTOM HOLE SIZE CEMENTING RECORD AMOUNT PULLED 1fi" 7fi# K-~ f) m 1.441 m 17_g" fiNN ~Y TI W fiNN ~Y 17N ~l-t_.~/R,, 'l 61# K-RE O' _l.7~fi' 12_2.~" lfiC)N _~ TIW_" " ~)-~'/R"'~ .~.~# I-RO O' '4R4' _~!§00 sx C!P 40,000# 0-~;'/8" 47# L-~O 4R4 fi. 7~7' " ,, 40.000# 9-5'/8'' ~3.~# L-R0 ~.727 11 ~ O_tR' ' " " '" · 24. Perforations open to Production (MD+TVD of Top and Bottor~ and 25. TUBING RECORD interval, size and number) SIZE DEPTH SET (MD) PACKER SET (MD) RECEIVED ,:_, ,.,.. 26. ACID, FRACTURE, CEMENT SQUEEZE, ETC. See Attachment 00-F ~ 0 i991' DEPTH INTERVAL (MD) AMOUNT & KIND OF MATERIAL USED A)aska 0ii & Gas Cmos. Comm',~sio~ ;Anchorage: 27. PRODUCTION TEST Date First Production J Method of Operation (Flowing, gas lift, etc.) 7/08/N1J Jet Pm..n Date of ~est ' Hours Tested PRODUCTION FOR I~)IL-BBL GAS-MCF WATER-BBL CHOKE SIZE J GAS-OIL RATIO f~7/l~/ql ;)4 TEST PERIOD I~ ~;&; :tTn 1 'pit') N/~J F I~w'T~l~i~g Casing Pressure CALCULATED O I-L-'B-B L G~-~ICF WA"I'--Eh---B B L O I [.'~ R AV ITY-AP I'~Jo~'r) Press. ?RC;fl 1 111 24-HOUR RATE I~ 545 '4711 19a9 34.00 28. CORE ~k~A ., Brief description of lithology, poro$itv, fractures, apparent dips and presence of oil, gas or water. Submit core chips. Core #1: 11,125' - 11,150' Interbedded fine to medium grained sandstone and siltstone ~ith minor thin peeble conglomerated beds. Core #2~ 11,481' - 11,495' Metamorphosed sandstone ~ith approximately I fracture per foot. Core #3~ 11,495' - 11,514' Metamorphosed sandstone with approximately I fracture per foot. Form 10-407 Submit in duplicate Rev. 7-1-80 CONTINUED ON REVERSE SIDE 29. 30. NAME G-Zone Top Hemlock Top West Foreland Top Jurassic Top GEOLOGIC MAR~ MEAS. DEPTH TRUE VERT. DEPTH 3523' 8949' 9160' 9656' 10,267' 11,200' 9500' 10,322' 3RIVlATION TESTS include interval tested, pressure data, all fluids recovered and gravity, GOR, and time of each phase. 31. LIST OF ,ATTACHMENTS Current Perforations; Wellbore Diaqram; Directional Survey 32. I hereby certify that the foregoing is true and correct to the best of my knowledge Signed__. ~~ _~ Title (~, .'[.~C~,o, . ¥4~y. Date INSTRUCTIONS General' This form is designed for submitting a complete and correct well completion report and log on all types of lands and leases in Alaska. Item 1' Classification of Service Wells: Gas injection, water injection, steam injection, air injection, salt water disposal, water supply for injection, observation, injection for in-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 16 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}:~U~"'",~.~'ul~..¢r~e,, Water In- jection, Gas Injection, Shut-in, Other-explain. ~'~. ~ ~'~? ~ ~'" ~.., ~ ~' L.. ~,~ Item 28: If no cores taken, indicate "none". Form 10-407 HARATHON OIL CF]NPAN~ TRADING 3AY UNIT STEELHEAD PLATFORH WELL N-~9 Alt ~easunemen"cs are RKB to top oF equipmen"c. Casing Detoib 990' 1,44t' 3,756' 484' 11,038' 2G', 267-397¢t, Dr;t-Quip 16', 751*, K-55 BTC 13-3/8% 61/68~, K-55, BTC 10-3/4% 51/55.5~, N-80 But"c 9-5/8', 53.5t¢ BTC, 47~ BTC, 47t~ ABHOD Completion String: (KB = 74.5' From Tubing Head Top FLange) 4.5' FNC T£-IA-EN Tbs Hngr, :Butt Top 8. BtM. 448' OTIS 'FNX' SCSSV, 3.8t3' 0'-9,127' 4.5', 12.6~, L-80 AB Mod Butt Tbs. Att GLN's ore Daniet GLSB, 4.5' x 1.5' sldepocket mandrels (12 total) Depth Valve 2,306' 1 3,543' 2 4,612' 3 5429' 4 6.178' 5 6,780' 6 7,197' 7 7,555' 8 7,908' 9 8,265' 10 8,625' 11 8,985' 12 9,033' Type Latch Port Size Dummy RK Dummy RK Otis 'XD' Production SLeeve (3.813' X ProFi(e). Production Packer Assembly! %078' %093' 9,100' 9,11a' 9,184' 9, t25' %027' B&ker 'SB-3A' 12' SB size 192-47. Hi(Lout Ext. X-over, 7' Ltc B x 4-1/2' Butt. tb9, P Otis 'X' Landln9 Nipple (3.813' Pkg Bone). X-over, Butt. AB Mod. B x VAMP AVA 'RBS' SUB, ASS ~A-CHD-RBS-450-OPB W/L Re-en±py Guide Isotc~tion Packer Assembly: 10,100' 10,104' 10,146' lO,180' 10,182' B(xker DB Pkr size 194-47 w/ B~ker HitLout Ext. Otis 'X' L&ndln9 Nipple (3.813' Otis 'XN' Nipple (3.813' Bore, G ZONE PERFORATIONS Interva( F_it SPF Phasing Dote 9,190 - 9,220 30 8 120 7/3/91 9,242 - 9,266 24 8 120 ' 9,330 - 9,350 20 8 12o · 9,380 - 9,480 40 8 120 ' BASAL WESTFDRELAND PERFBRATIBNS Intervat F__%t SP.F.. Phasing Date 10,312 - 10322 10 8 120 7/1/91 10,340 - 10,350 lO 8 120 · 10,360 - 10,390 30 8 10,450 - 10,472 22 8 120 , Revision Dote: 10/8/91 PBT:D @ 10,938' Revised By~ PAL/eva TD 8 11,896' Re~son~ New Compte"c;on Previous Revl~tom None M-29 G ZONE PERFORATIONS .KD FT rVD 9190 - 9220 30 8690 - 8717 9242 - 9266 24 8736 - 8758 9330 - 9350 20 8815 - 8833 9380 - 9420 40 8860 - 8895 FT 27 22 18 35 BASAL WEST FORELAND PERFORATIONS ,,RD FT TVD 10312 - 10322 10 9701 - 9710 10340 - 10350 10 9726 - 9735 10360 - 10390 30 9744 - 9771 10450 - 10472 22 9826 - 9846 FT 9 9 27 20 ,ALL PERFORATIONS ARE 8 SPF. 120 DEG. PHASING. CORE ANALYSIS REPORT FOR MARATHON AK M-29 MCARTHUR RIVER July 1991 FiLE 70093 Reports submitted by Petroleum Testing Service are based on the analysis of materials and information supplied by the client, and cannot be guaranteed. These opinions and interpretations expressed represent our best judgement; however, Petroleum Testing Service assumes no responsibility nor makes any warranty regarding profits or performance resulting from the use of such reports. Company: Well: Field: RECEIVED AUG 0 199 Alaska Oil & ~as Cons. Commission Marathon Oil Company Anchorage ~-29 McArthur River Date: July 5, 1991 File # 70093 ROUTINE CORE ANALYSIS 1. Drill 1" diameter plugs using reservoir brine as the cutting fluid; trim plug to right cylinder 1.5" long. 2. Extract water and hydrocarbons from sample using Dean-Stark toluene method. Record produced water volume. 3. Vacuum dry at 150'F until weight is stable. Allow sample to cool and weigh to the nearest 0.01 gram. 4. Measure bulk volume using mercury immersion method. 5. Measure sand grain volume using a Boyle's Law helium porosimeter. Calculate porosity, saturations, and grain density. 6. Mount samples in hydrostatic Hassler-type sleeve using a confining stress of 300 psi. 7. Measure permeability with nitrogen gas using a calibrated flow-tube permeameter. COMPANY : MARATHON AK CORE TYPE: 4 INCH MUD TYPE : WATER BASE FORMATION: N/A PETROLEUM TESTING SERVICE, INC. WELL : M-29 FIELD : MCARTHUR RIVER COUNTY: COOK INLET STATE : AK CONVENTIONAL CORE ANALYSIS I I I I I I I I SAMPLE I DEPTH IPERMEABILITYI PorosITY I NUMBER I ft I ~d I ~ IRATIO I SATURATION I I GRAIN OIL WATER TOTAL I DENSITY (PERCENT PORE VOLUME)I gZcc I COMMENTS iCORE NO. 1 : 11125.00 - 11155.00 CUT 30.00' REC 24.40' I I I I 11128.70 1.7' 9.8 0.0 0.0 88.9 88.9 2.67 *Fractured Ka 2 11132.15 7.9* 11.0 0.0 0.0 91.3 91.3 2.64 *Fractured Ka - 3 11134.20 0.7* 10.8 0.0 0.0 92.8 92.8 2.66 *Fractured Ka 4 11135.75 1.0' 9.9 0.0 0.0 93.7 93.7 2.64 *Fractured Ka 5 11140.40 0.6* 9.2 0.1 5.4 82.1 87.5 2.66 *Fractured Ka 6 11141.90 2.0 8.8 0.0 0.0 86.6 86.6 2.63 7 11146.90 <0.1 10.1 0.0 0.0 92.9 92.9 2.73 PAGE : 1 FILE NO.: 70093 DATE : JULY 03, 1991 RESULTS L ]THOLOG] CAL DESCR]PT]ON Sst, gry, fsd-vcrssd, vsh[y, w[ cml, no edr, no stn, tr fluor Sst, gry, fsd-vcrssd, vshly, wl cmt, no odr, no stn, tr fluor Sst, brn, fsd-vcrssd, vsh[y, w[ cml, no edr. no stn, no fluor Sst, gry, fsd-vcrssd, vsh[y, w[ cml no odr, no stn, no fluor Sst, It gry, msd-crssd, shly, w[ cml, calc, carb/[am, no odr, spks [t stn, fnt yet fluor Sst, It gry, fsd-vcrssd, vshty, w[ cml, no odr, no stn, no fluor Sst, [t brn, fsd-msd, vsh[y, w[ cml, no odr, no stn, no fluor i . COMPANY : MARATHON AK CORE TYPE: 4 INCH MUD TYPE : WATER BASE FORMATION: N/A PETROLEUM TESTING SERVICE, WELL : M-29 FIELD : MCARTHUR RIVER COUNTY: COOK INLET STATE : AK INC. PAGE : 2 FILE NO.: 70093 DATE : JULY 03, 1991 CONVENTIONAL CORE ANALYSIS RESULTS r~T i T T~T T 1 I I I I I SATURATION I I SAMPLE I DEPTH IPERMEABILITYI POROSITY I O/W I OIL WATER TOTAL I DENSITY I NUMBER I ft I md I % I RATIO I (PERCENT PORE VOLUME)I e/cc I L._ t I I j ~ j / ICORE NO. 2 : 11481.00 - 11495.00 CUT 14.00' I COMMENTS REC 13.50' LITHOLOGICAL DESCRIPTION 8 11485.35 <0.1 4.5 0.0 0.0 56.2 56.2 2.69 Sst, dk gry, fsd-msd, vshly, w[ cmt, caLc, no odr, no stn, no fluor PETROLEUM TESTING SERVICE, INC. COMPANY : MARATHON AK CORE TYPE: 4 INCH MUD TYPE : WATER BASE FORMATION: N/A WELL : M-29 FIELD : MCARTHUR RIVER COUNTY: COOK INLET STATE : AK PAGE : 3 FILE NO.: 70093 DATE : JULY 03, 1991 CONVENTIONAL CORE ANALYSIS RESULTS I I I I I I I I I I I I I I I I s^.PLE IDEPTH IPERMEABILITYIPOROSITY I 0/. INUMBER I ft I m~ I X I RATIO I SATURATION I I GR^X. OIL WATER TOTAL I DENSITY (PERCENT PORE VOLUME)I g/cc I CORE NO. 3 : 11495.00 - 11514.00 CUT 19.00' COMMENTS REC 17.80' ! LITHOLOGICAL DESCRIPTION 9 11496.75 <0.1 3.2 0.1 4.4 71.7 76.1 2.57 Sst, gry, fsd-crssd, vshly, wl cmt, catc, no cdr, spks [t stn, d[ g[d fluor 10 11501.30 <0.1 3.1 0.0 0.0 82.0 82.0 2.59 Sst, gry, fsd-msd, vsh[y, wl cmt, ca[c, no cdr, no stn, no fluor 11 11506.50 <0.1 2.2 0.0 3.6 87.5 91.1 2.53 Sst, [t gry, fsd-msd, vsh[y, w[ cml, ca[c, carb/lam, no cdr, spks [t stn, d[ g[d fluor 12 11510.45 <0.1 3.5 0.0 0.0 53.6 53.6 2.63 Sst, gry, fsd-crssd, wl cmt, ca[c, no cdr, no stn, no fluor rILE FIELD ?ETROLEUHTESTING SERVICE, INC. PKS SA2fFLING LIST Page / of I DATE: ~/,/9/ ,. 2). IIIZ& . , 38) '//99 5 74-~ ll0) · 3) Iii. Z, 7 39) IIg~¢. ./-r:---. \ 75) , 111) .... 5> /~lzq 4].') //~/¢b k.._../ ~7) , :1..:1.3) .... 6) II1~ 42) /lUq7 78) ....... 114) ...... 7) ,11~! _ 43).. l,V~,¢ . 79) .... ~- 115), , . ,.,., __ ......... 9)' 11;~3 ..... _ . 45) z/.~'~ ~81) · ,0) /~"/. - :.4..~) //_so/ _ _ 82> 4ie,,z..__IJG.e¢i-:~.- .. ~)... III) ~ · ..~) .... I~. ~3) .... ~3). /~7. ~), ~ ..... 85), , , ~) ....... , . 1'4) ///)g , '_ 50) ..WS~;_ .86) ' ~.~) n¢~9. _ ~Z~... /~¢¢ ~7) .... t~) !6) I;)~ff... .5~) ..... ... //~¢7 _ 88) zT) m y, · . ~J).. :.//~z _ ;8~) ' ~:2~) ...... ,_ , . ,, .... . ,' _ _ ,., , zo)' Cf,er. . . '.56). //~,/ _ 92) ...... ' L~8) ........ . 21)- · //2~ .. ¢7)' //~/Z _ .i93) . .. L29) ..... : .. 22) InVe .... 58).2, · . 94) ...... ;3¢) .... _ "_..2~.) ..... '4~v¢ , , , 60) . ¢6) ........ L)~) . , _ 25) lily ~ ~ .~ 6~) , ~7) _ ' ., L33). . __ ~ , ,,, ,_ - . . _ , , - . 26) ~'q~L C-Z ) 62) ,98) , ,, L34) -- ~ 63) 99) L35) 27) //~Z _ ~_ ~ , 30). //v~s ... ~6).. ...... _ zo2> : ~__~ :38) ...... _ , 3 ~) .//v ~ __. 6 ~) .... _ .~ o 3) ,- , . · 32) · /iu87 68)... . .... ko4>.. . ' .¢g> ' .. ~_3) /~¢~ 49) .' ~o5> .., ~_:_ n~fO .___ ". 7~9'".. toT~__....' ...... 72)' . , ~08) , 3~) ../LYe(. .. . . //, ~.fl ' il. APP ' Page No RECEIVED AU~ 2 0 1~ Naska Oil i 6as Cons. Commission Anchorage CoRPse ~.,~'. OilComparw ~ I/,/.C5 ~ i/, i1~13 7 ' 11, Page No. Of I RECEIVED AUG £ 0 1995 Alaska Oil & Gas Cons. Cornniission Anchorage Subiect File 1/, P/,,~ ' /Z, P/..,<" //. //, AUG 2 0 1993 Alaska Oil & Gas {Dons. Commission Anchorage .......... V v'v //..F'z'/: ~r~Cl~oro~Tso' C°r~s~on File ?/. ?1. dgl ' ¥ ~ V V ~ V ~ V V /I. dgd ' //. e'97 ' LV Mardthon Oil Company I PageNo./ Of U~ I ~ Subject File RECEIVED AUG 2 0 199a Alaska 011 & Sas Cons. Anchorage C°~r~ission Oil Comparnt ,~" { File ~:;],,,~] B ' ate AUG 2 0 Chorale' C°~07/8gloa oi~ Compa,w !File //>j../y , 1..; v v, v' v v v v, RECEIVED AU(; 2 0 199,~ Alaska Oil & Gas Cons. Commission Anchorage ARCO ALASKA, INC. CORE ANALYSIS REPORT POINT MCINTYRE #7 EXPLORATORY NORTH SLOPE, ALASKA CL FILE NO. BP-3-1383 Performed by: Anchorage, AK 18 (907) 349-3541 / Date Final Report Presented -'~ - June 28, 1990 These analysis, opinions or interpretations are based on observations and materials supplied by the client to whom, and for whose exclusive and confidential use, this report is made. The interpretations or opinions expressed represent the best judgement of Core Laboratories (all errors and omissions excepted); but Core Laboratories and it's officers and employees assume no responsibility and make no warranty of representation as to the productivity, proper operations, profitability of any oil, gas or other mineral well or formation in connection with which such report is used or relied upon. INTRODUCTION Core Laboratories was requested to perform a core analysis study on behalf of Arco Alaska, Inc. for samples recovered from the Point McIntyre #7 exploratory well, North Slope, Alaska. Presented herein are the results of this study. Conventional cores cut with a bland mud were submitted. A service description with methodology is presented in section 1. The core analysis results, core statistical data, and surface core gamma log are presented in Sections 2 and 3. Section 4 contains shipping transmittals. In conjunction with the report, the tabular results of the analysis are supplied on an IBM PC compatible diskette. Three sets of visible spectrum flash and ultraviolet light photographs are provided in separate binders. We sincerely appreciate this opportunity to be of service and hope these data prove beneficial in your exploration efforts. CONVENTIONAL CORE ANALYSIS, SERVICE DESCRIPTION AND METHODOLOGY SECTION 1 CONVENTIONAL CORE Field Procedures Conventional coring equipment, in conjunction with a bland based drilling fluid was used to extract four inch ~iameter core samples from Point McIntyre #7 well during March of 1990. There were three Core Lab personnel assigned to the wellsite during the coring operation. Six 1.0 inch diameter plugs were drilled at the wellsite with Isopar by a Core Lab representative and were dry trimmed into right cylinders. These were preserved in bottles of Isopar and the wellsite plug ends were sealed in ProtecCore. The wellsite plug depths were: Sample # Depth 1-15 13569.4 1-16 13570.2 1-17 13571.0 1-18 13572.2 1-19 13573.2 1-20 13574.2 The wellsite plugs and plug ends were shipped along with three hundred and sixty-four and two tenths feet of core to Core Laboratories' Anchorage facility. The whole cores were preserved for shipment in three foot sections of fiberglass barrel sealed with rubber caps and clamps. The sections from which the wellsite plugs were taken were sealed in saran wrap and foil coated with CoreSeal. Core Processing Surface Core Gamma Loq A surface core gamma log was performed on the recovered core samples upon arrival at the Anchorage laboratory. The gamma response is graphically presented in Section 3. Sample Preparation Dean-Stark and Special Analysis Plug Samples When the gamma log was completed the core was extruded from the fiberglass barrels, one at a time, and placed onto tables. One inch diameter plug samples were drilled with brine from the three hundred fifty-seven and two tenths feet of core which had not already been plugged with Isopar at the wellsite. No plugs were taken from the three feet of core which were comprised of rubble. Plugs were drilled from the center of each section and parallel to the bedding strike. They were then dry trimmed into right cylinders and prepared for fluid saturation measurements. Plug ends were saved and stored according to depth for each sample. Slabbing At the completion of the conventional plug sampling the whole core was slabbed in one-third and two-third sections using water as a blade coolant. Appropriate depths were marked on the slabbed faces of both slabbed sections. The one-third sections were put in protective plastic sleeving material and placed in boxes. The two-thirds section, was prepared for photography and later packed in slab boxes, with the exception of seven feet from Core 1 (13568.0 - 13570.2), which was preserved in saran wrap, foil, and CoreSeal after being plugged and slabbed. State Chips One set of state chips were taken to ,..~:ep~u,~is!e.~C~m~mi~oot of core. The chips were marked and boxed accordin~D~epth. Analysis Techniques and Laboratory Procedures Dean-Stark Fluid Saturation Measurements Saturations by Dean-Stark methods were calculated using Equations 1 and 2. Where: So = [ ((W1 - W2 - H20)/Do)/Vp] x 100 Sw = [H20/Vp] x 100 (2) So = Oil Saturations, Percent Sw = Water Saturation, Percent Wi = Natural Weight W2 = Extracted and Dried Weight H20 = Extracted Water, Density Assumed 1.0 gm/cc Do = Density of Oil Vp = Pore Volume ' Grain Density Grain volume determinations were performed according to Boyle's Law utilizing the Heise Gauge Helium Porosimeter. Grain density was calculated using Equation 3. Dg = Mg/Vg (3) Where. · Dg = Grain Density Vg = Grain Volume Mg = Grain Mass Atmospheric Porosity The samples were measured for bulk volume by mercury displacement at ambient conditions. Porosity was calculated using Equation 4. P = [(Vb-Vg) / Vb) ] x 100 (4) Where: P = Porosity, Percent Vb = Bulk Volume Vg = Grain Volume Atmospheric Permeability to Air Samples were loaded into a Hassler type core holder at a confining pressure of 400 psig. Permeability calculations were performed as defined by Darcy's Equation for compressible fluids, Equation 6. Pa x v x 1000 Qa x Lx L K = x (6) (P1- P2)(P1 + P2) 2 Vb Where: K = Permeability v = Gas Viscosity P1 - P2 = Differential Pressure P1 + P2 = Mean Pressure Pa = Atmospheric Pressure Qa = Flow Rate L = Length Vb = Bulk Volume R E c JUL 9 Alaska Oil & Gas Ct~:.~ Anchor':J[4e Dean Stark Analysis Conclusions There are three particularly noteworthy observations regarding this analysis. First, samples were preserved differently and plugged with different lubricating fluids. Second, some samples had extremely high porosities for their measured permeabilities. Finally, there were a number of samples that exhibited slightly oxidized mineral assemblages. The plugs drilled between 13569.3 and 13574.3 used Isopar as a lubricating fluid. The rest of the plugs were drilled with brine. In another well, Pt. McIntyre #8, two samples were taken from the same foot, one using Isopar, the other with brine. The obvious affect was the Isopar-drilled samples had a higher oil and lower water saturations. In this well a similar effect was observed. The samples with high porosities when compared to their permeabilitities is most obvious between 13621 and 13630. Here permeabilities are generally under 1 millidarcy, yet porosities exceed 15% and, in five cases, 20%. The best explanation for this is the dehydration and shrinkage of water-sensitive minerals. This results in microporosity, which was then measured with our total porosity, Boyle's Law method. Rehydration in a humidity oven before measuring porosity should reduce the microporosity measured. The changing oxidation states of the minerals can be explained by the presence of a Roll-Front, which was encountered in core 1, from 13,621 ft. to 10,630 ft. A Roll-Front is characterized by chemical alterations left in a permeable unit by oxidizing fluids moving laterally through that unit. They are identified visually on the basis of the changes to the iron mineralogy. The Roll-Front has a reduced (ahead of the Roll-Front) side, an intermediate zone of chemical activity, and a fully oxidized side. The reduced zone is typically represented by disseminated pyrite; and other accessory minerals such as hornblende, pyroxenes, biotite, and chlorite. Organic carbon is represented by the presence of cellulose, lignin, and other compounds. The chemically active zone contains a progressive series of reactions that move laterally as more oxygen is introduced from the moving fluids. As the reactions start to occur the first noticeable effect in the increase of pyrite, often forming large nodules. Next the iron is changed to FeS, siderite, and limonite. Other metals are commonly concentrated at this point, and organic compounds undergo fermentation. The oxidized zone typically is represented by the presence of hematite, although in some sandstones the iron may be reabsorbed into the lattice of clay minerals such as montmorillonite. Organic compounds have typically been removed from this oxidized zone. Permeability and mineral content are often affected by the creation and destruction of compounds by the Roll-Front. Commonly, permeability will be low in the chemically active zone, because of the deposition of siderite and other carbonate minerals; but higher in the oxidized areas than was originally present. This well apparently intercepted a Roll-Front near the most advanced edge of the oxidation, in the chemically active zone. The sandstone section above 13,621 ft. is in the reduced environment with organic compounds present. The active front is indicated by limonitic alteration with traces of hemitite, and the lack of organic compounds between 13,621 ft. and 13,630 ft. Below 13630 ft. the reduced nature of the sandstone indicates that the well has passed below the lower limb of the Roll-Front. Core Photographs The two-thirds slabbed section of each core was photographed, with the exception of seven feet from Core 1, from which the one- third section was photograped. Approximately 15 feet of core appears in each photograph. Four sets of visible spectrum flash light and four sets of ultraviolet light photographs are provided in separate binders. Sample Disposition Both core slabs of Point McIntyre #7 along with the plug ends, preserved sections, and state chips were shipped to the Arco storage facility in Anchorage. At this time the plugs are still being stored at Core Laboratories' Anchorage lab awaiting shipping instructions. DEAN-STARK CORE ANALYSIS, TABULAR RESULTS CORE LABORATORIES Company : ARCO ALASKA, INC. Well : POINT NcINTYRE #7 Location : 3-12N-14E, Fr SW cor 340'N 1442'E (BHL) Co,State : NORTH SLOPE, ALASKA Field : POINT I~cINTYRE Formation : EXPLORATION Coring Fluid : BLANO HUO Elevation : CORE ANALYSIS RESULTS File No.: BP-3-1383 Date : 28-Apr- 1990 API No~ : Analys~,~.: PLB SAMPLE NUMBER 1 1 I 2 1 3 I 4 1 5 i 6 I 7 1 8 1 9 I 10 I 11 I 12 I 13 I 14 I 15 I 16 I 17 i 18 i 19 I 20 1 21 I 22 I 23 I 24 I 25 DEPTH ft 13555.4 13556.2 13557.3 13558.6 13559.2 13560.3 13561,2 13562.2 13563,1 13564.2 13565,1 13566,3 13567,3 13568,2 13569,4 13570.2 13571.0 13572.2 13573.2 13574.2 13575.2 13576.2 13577.2 13578.2 13579.3 PERMEABILITY (HORIZONTAL) Kair POROSITY (HELIUM) SATURATION (PORE VOLUME) OIL WATER % % GRAIN DENSITY gm/cc DESCRIPTION CORE I 13555.0 - 13646.0 FEET 1.77 34.4 2.21 1.19 1.42 8.58 1.44 7.05 0.04 23.0 7.30 1.46 0.44 4.75 55.7 0.27 0.59 66,2 20.5 10.1 33.8 62.4 18.1 15.9 62.2 18.4 26.7 17.9 15.7 19.5 21.1 16.9 18.3 14.4 25.2 25.3 22.6 18.0 23.1 26.3 13.5 17.6 24.6 16.4 13.5 21.0 17.7 20.8 21.3 23.7 9.5 76. 8.2 73. 5.3 77. 8.0 78 5.8 79. 9.0 77. 7.0 81. 13.8 72. 5.1 73. 11.2 74. 23.4 64. 5.7 85. 14.8 74. 17.3 72. 39,5 58. 28.3 55. 27,6 63, 39,8 57. 34,5 60. 21 8 71. 15 5 64. 17 4 60. 140 70. 159 67. 171 66. 2.98 3.01 3.21 3.16 3.23 3.26 3.23 3.05 3.29 2.79 2.90 2.86 2.95 2.85 2.96 3.18 3.03 3.00 3,07 3.38 3.01 3.21 3.18 3.18 3.02 SS-mgy,vf-cgr,pred fgr,mod srtd,sbang-rnd,wcmt,qtz,glau,wht carb cnfc SS-mltgy,vf-cgr,pred mgr,mod srtd,sb-wrnd,sli fri,qtz,glau,sid cmt SS-mltgy,vf-mgr,pred fgr,wsrtd,sb-rnd.vwcnfc,qtz.glau,sid cn~ SS-mltgy,vf-nmjr,pred fgr,wsrtd,wk lam,sb-wrnd,vwcmt,qtz,glau,sid cmt,brn cly SS-mltgy,vf-mgr,pred fgr.wsrtd,wk lam, sb-wrnd,vwcmt,qtz,glau,sid cmt,brn cly SS-mltgy,vf-mgr,pred fgr,wsrtd,sb-wrnd,vwcmt,qtz,glau,sid cmt SS-mltgy,vf-mgr,pred fgr,wsrtd,sb-wrnd,vwcmt,qtz,glau,sid cmt SS-mltgy,vf-fgr,pred fgr,vwsrtd,wk lam, sbang-rnd,vwcmt,qtz,glau,wht carb cmt SS-mgy,vf-fgr,pred fgr,vwsrtd,sb-wrnd,vwcmt,qtz,glau,sid cmt SS-mltgy,vf-mgr,pred fgr,wsrtd,sb-wrnd,sli fri,qtz,glau,wht carb cmt SS-mltgy,vf-vcgr,pred fgr,psrtd,lam, sb-wrnd,mod fri,qtz,glau,tr carb cmt SS-dkgngy,fgr,r vcgr,wsrtd,sb-wrnd,wcmt,qtz,glau,wht carb cmt,sid cmt SS-mltgy,f-cgr,pred fgr,wsrtd,sb-wrnd,vwcmt,qtz,glau,wht carb cmt SS-mltgy,fsd-fpbl,pred msd,psrtd,sb-wrnd,wcmt,qtz,glau,lith 9r,carb cmt SS-mltgy,fsd-fpbl,pred msd,psrtd,sb-wrnd,mod fri,qtz,glau,gy cly SS-ltgy,f-vcgr,pred fgr,mod srtd,sb-wrnd,vwcmt,qtz,glau,tr lith gr,vug CGL-ltbrngy,fsd-fpbl,wrnd,qtz,lith pbl,vwcmt,sid,f sd mtx SS-mltgy,f-fcgr,pred mgr,psrtd,sbang-wrnd,mod fri,qtz,glau lith 9r,sid cmt SS-mltgy,f-vcgr,pred mgr,psrtd,sbang-wrnd,wcmt,qtz,glau,lith gr,sid cmt SS-mclkgy,f-mgr,pred mgr,wsrtd,sbang-rnd,wcmt,mas pyr,brn cly,qtz,glau SS-ltbrngy,mgr,vwsrtd,sbrnd,wcmt,qtz,glau,sid,wht carb cmt SS-mgy,vf-vcgr,wsrtd,sb-wrnd,vwcmt,qtz,glau,pyr gr,sid,wht carb cmt SS-ltgy,f-vcgr,pred cgr,psrtd,sbang-rnd,sli fri,qtz,cht,cly gr,glau,sid cmt SS-mltgy,vf-vcgr,pred fgr,psrtd,sbang-rnd,wcnKc,qtz.glau, lith gr,sid cmt SS-ltgy,m-vcgr,pred mgr,wsrtd,sbang-rnd,wcmt,qtz,glau,lith gr,sid cmt 1 - 1 CORE LABORATORIES Company Well : ARCO ALASKA, INC. : POINT RcINTYRE #7 Field Formation : POINT HcINTYRE : EXPLORATION CORE ANALYSIS RESULTS File No.: BP-3-1383 Date : 28-Apr- 1990 SAHPLE NUMBER 1 26 I 27 I 28 I 29 i 30 1 31 1 32 I 33 i 34 1 35 i 36 I 37 I 38 I 39 I 40 1 41 i 42 1 43 1 44 i 45 I 46 I 47 i 48 '1 49 I 50 i 51 I 52 i 53 1 54 DEPTH ft 13580.3 13581.1 13582.2 13583.8 13584.1 13585.3 13586.1 13587.5 13588.3 13589.2 13590.2 13591.3 13592.2 13593.2 13594,1 13595.2 13596.4 13597.3 13598.2 13599.2 13600.2 13601.2 13602.2 13603.2 13604.2 13605.2 13606.2 13607.6 13608.1 PERMEABILITY (HORIZONTAL) Kair POROSITY (HELIUM) SATURATION (PORE VOLUHE) OIL WATER % % GRAIN DENSITY gm/cc DESCRIPTION 13.0 19.8 12.1 3.48 53.9 7.61 97.6 2.32 46.9 51.8 121. 22.9 24.6 7.05 97.2 56.2 280. 471. 62.9 123. 39.1 20.3 16.7 19.9 3.29 27.6 97.6 8.68 268. 21,7 19,9 19,4 13 2 18 8 18 5 ZO,5 14,0 20.5 22.0 19.2 22.4 24 0 18,7 18,1 17,8 21,2 24 0 23 6 19,5 22,7 22 9 17.6 17.9 14.2 17.8 23.5 9.5 23.9 15.5 66.9 3.16 15.6 68.4 3.23 14.5 71.2 2.90 11.4 67.8 3.39 12.3 60.2 3.54 17.2 61.7 3.44 18.2 61.8 3.13 10.5 67.3 3.41 14.3 68.1 3.23 10.5 68.8 3.24 11.3 69.2 3.18 5.0 78.7 3.27 6.9 79.1 3.29 15.0 71.9 3.22 17.6 73.1 3.06 17.2 53.5 3.05 16,7 57.5 2,90 13,7 64.8 3,10 14.6 61.1 3,03 18.5 61.4 2.95 10.7 69.4 3.20 9.7 71.3 3.40 13.1 65.6 3.18 9.6 68.1 3.31 8.9 75.6 3.40 12.7 65.6 3.29 11.1 68.5 3.09 14.8 61.1 3.21 17.5 55.5 3.12 SS-mltgy,vf-vcgr,pred fgr,mod srtd,sbang-sbrnd,wcmt,qtz,glau,lith gr,sid cmt SS-mltgy,vf-vcgr,pred fgr,mod srtd,$bang-sbrnd,wcmt,qtz,glau,lith gr,$id cmt SS-mltgy,mgr,vwsrtd,sb-wrnd.wcmt.qtz.glau.wht carb cmt SS-ltgy,f-cgr,pred mgr,wsrtd.sb-wrnd,vwcmt,qtz,glau,sid cmt SS-mltgy,f-cgr,pred fgr,mod srtd,sb-wrnd,wcmt,pyr,sid,qtz,glau.frac SS-mltgy,f-cgr,pred fgr,mod srtd.sb-wrnd,wcmt.pyr,sid,qtz,glau SS-ltgy,f-vcgr,pred n~jr,wsrtd,sb-wrnd.wcmt,qtz,glau,lith gr,wht carb cmt SS-ltgy,fsd-fpbl,pred msd,mod srtd,wrnd,vwcmt,qtz.lith gr.glau,pyr,~id,carb SS-mgy,f-mgr,pred fgr,~srtd,sb-wrnd,vwcmt.qtz,glau,wht carb cmt.sid SS-mgy,f-mgr,pred fgr,wsrtd,sb-wrnd,vwcmt,qtz,glau,pyr, lim, sid SS-mltgy,f-mgr,wk bnd,wsrtd,sbang-rnd.wcnKc,qtz,glau,sid,wht carb cmt SS-mgy,fgr,vw~rtd,sbrnd.wcmt,qtz,glau,sid cmt SS-mgy,fgr,vwsrtd,$brnd.wcmt,qtz,glau,$id cmt,tr lim SS-n~jy,f-mgr,pred fgr,vwsrtd,$brnd,vwcmt,qtz,glau.sid SS-mltgy,f-mgr,pred fgr,vwsrtd.sbrnd,wcmt,qtz.glau,wht carb cmt SS-mltgy,f-mgr,pred fgr,vwsrtd,sbrnd,wcmt,qtz.glau,wht carb cmt SS-mltgy,f-mgr,pred fgr,vwsrtd,sbrnd,wcmt,qtz,glau,wht carb cmt SS-ltgy,f-n~jr,pred mgr.vwsrtd,sb-wrnd.sli fri,qtz,glau,wht carb cmt SS-ltgy,f-n~jr,pred mgr,vwsrtd,sb-wrnd,sli fri,qtz,glau,wht carb cmt.f cmt frac SS-ltgy,f-mgr.pred mgr.vwsrtd.sb-wrnd.sli fri,qtz.glau.wht carb cmt.tr pyr SS-mgy,f-mgr,pred n~jr,r f lith pbl,wsrtd.rnd,sli fri,qtz,glau,sid cmt.cmt frac SS-mgy,f-vcgr,pred mgr,msrtd,rnd-wrnd,wcn~c,qtz.glau,lith gr,carb cmt,cmt frac SS-mgy,f-vcgr,pred mgr,msrtd,rnd-wrnd,wc~,qtz,glau,lith gr.carb cmt,cmt frac SS-mltgy,f-vcgr,pred fgr,msrtd,sbang-rnd,wcmt,qtz,glau,lith gr,sid cmt SS-ltbrngy,f-vcgr,pred n~jr,wsrtd,$b-wrnd,wcmt,qtz,glau,lith gr,tr pyr,tr hem SS-mgy.f-cgr,pred fgr,wsrtd.sb-wrnd.vwcmt.qtz.glau.sid cmt.cmt frac SS-mltgy,f-cgr,pred mgr,wsrtd,rnd-wrnd,mod fri,qtz,glau,carb c~ SS-ltbrngy. f-cgr,pred mgr,mod srtd,rnd-wrnd,vwcmt,qtz,glau.sid cmt,vug,frac SS-ltgy,f-mgr,pred fgr,wsrtd,sb-w~nd.sli fri,qtz,glau,carb cmt,frac 1-2 CORE LABORATORIES Company : ARCO ALASKA, INC. Well : POINT HcINTYRE #7 Field : POINT McINTYRE Formati on : EXPLORATION File No.: BP-3-1383 Date : 28-Apr- 1990 SAMPLE NUMBER DEPTH ft 1 55 13609.9 I 56 13610.4 1 57 13611.5 1 58 13612.4 1 59 13613.5 1 60 13614.1 1 61 13615.9 1 62 13616.4 1 63 13617.2 I 64 13618.2 I 65 13619.2 1 66 13620.2 1 67 13621.3 I 68 13622.2 I 69 13623.2 I 70 13624.3 I 71 13625.1 1 72 13626.2 1 73 13627.2 1 74 13628.2 1 75 13629.5 1 76 13630.2 I 77 13631.3 '1 78 13632.4 1 79 13633.3 1 80 13634.2 I 81 13635.2 I 82 13636.2 I 83 13637.3 CORE ANALYS I S RESULTS PERMEABILITY (HORIZONTAL) Kair POROSITY (HELIUM) SATURATION (PORE VOLUNE) OIL WATER % % GRAIN DENSITY gm/cc DESCRIPTION 1871. 87.7 8.64 4.29 62.8 39.9 2.07 0.34 161. 90.4 67.2 4.25 1 13 0 07 O 19 0 09 0 31 021 0,36 0 19 0 04 152 3 29 73 2 1 93 104 53.5 1.75 2.12 13.4 14.6 15.1 14.0 15.6 21.0 14.9 12.2 21.4 18.9 19.3 14.5 16.7 20.5 17.5 15.5 20.2 23.1 23.1 23.3 14.8 12.3 13.8 19.8 15.8 21.1 18.8 15.1 13.9 14.1 18.6 17.7 8.3 17.1 17.1 17.2 12.4 16.3 12.7 16.4 17.6 5.9 1.3 1.0 0.5 1.0 0.7 1.0 0.9 6.4 6.8 10.0 10.9 13.0 12.7 12.0 9.6 8.8 64.6 54.0 53.5 70.8 63.0 60.0 73.5 83.0 54.6 53.8 58.2 60.3 88.8 97.5 98.7 98.1 99.0 98.9 97.7 99.1 89.7 91.7 75.4 65.1 65.9 65.9 66.0 73.4 74.7 3.54 3.28 3.11 3.30 3.31 3.15 3.31 3.32 3.11 3.01 2.90 2.91 3.38 3.22 3.27 3.37 3.36 3.47 3.43 3.47 3.32 3.30 3.10 2.91 3.56 3.14 3.10 3.45 3.25 SS-ltgy,f-cgr,pred mgr,wsrtd,sb-wrnd,vwcmt,qtz,glau,carb cmt,broken SS-mtlgy,f-cgr, pred mgr,wsrtd,sbang-rnd,vwcmt,qtz,glau,carb cmt,frac SS-mltgy,f-n~jr,pred fgr,wsrtd,sbang-rnd,vwcmt,qtz,glau,carb cnfc SS-mltgy,f-mgr,pred fgr,wsrtd,sbang-rnd,vwcmt,qtz,glau,carb cmt SS-mltgy,f-mgr,pred fgr,wsrtd,sbang-rnd,vwcmt,qtz,glau,carb,r plty pbl,frac SS-mltgy,f-mgr,pred fgr,wsrtd,sbang-rnd,vwcmt,qtz,glau,carb,r plty pbl,frac SS-nMjy,f-vcgr,pred n~jr,mod srtd,sb-wrnd,vwcmt,qtz,glau,c plty lith gr,carb cmt SS-mgy,f-mgr,pred fgr,vwsrtd,sb-wrnd,vwcmt,qtz,glau,sid SS-ltgy,f-vcgr,pred mgr,wsrtd,sbang-rnd,sli fri,qtz,glau,wht carb cmt SS-mgy,f-mgr,pred fgr,vwsrtd,sbang-rnd,sli fri,qtz,glau,sid,cmt frac SS-brn gy,f-mgr,pred fgr,vwsrtd,sb-wrnd,wcmt,qtz,glau,carb cmt,cmt frac SS-mgy,msd-fplb,pred msd,msrtd,wrnd,vwcmt,lith,qtz,carb cmt,frac CGL-mdkgy,fsd-fpbl,psrtd,plty-wrnd, lith pbl,vwcmt,qtz,lim,$id,tr pyr CGL-mgy,fsd-fpbl,psrtd,plty-wrnd,lith pbl,vwcmt,qtz,lim, glau,carb cmt CGL-mgy,fsd-fpbl,psrtd,plty-wrnd,lith pbl,vwcmt,qtz,lim, glau,carb cmt,tr hem CGL-brngy,fsd-fpbl,psrtd,plty-wrnd, lith pbl,vwcmt,qtz,glau, lim, hem, carb cmt CGL-brngy,fsd-fpbl,psrtd,plty-wrnd, lith pbl,vwcmt,qtz,glau, lim, hem, carb cmt CGL-brngy,fsd-fpbl,psrtd,plty-wrnd, lith pbl,vwcmt,qtz,glau, lim, hem, carb cmt CGL-brngy,fsd-fpbl,psrtd,plty-wrnd, lith pbl,vwcmt,qtz,glau, lim, hem, carb cmt CGL-brngy,fsd-fpbl,psrtd,plty-wrnd, lith pbl,vwcmt,qtz,glmu, lim, hem, carb cmt CGL-mgy,fsd-fpbl,psrtd,plty-wrnd, lith pbl,vwcmt,qtz,glau,carb cmt CGL-mgy,fsd-fpbl,psrtd,plty-wrnd,lith pbl,vwcmt,qtz,glau,carb cnfc CGL-mgy,fsd-fpbl,psrtd,plty-wrnd,lith pbl,vwcmt,qtz,glau,carb cmt SS-mgy,f-n~jr,pred mgr,wsrtd,sb-wrnd,sli fri,qtz,glau SS-mltgy,f-mgr,pred mgr,wsrtd,sb-wrnd,vwcmt,qtz,glau,sid SS-mltgy,f-mgr,pred mgr,wsrtd,sb-wrnd,sli fri,qtz,glau,wht carb cmt SS-mltgy,f-mgr,pred mgr,wsrtd,sb-wrnd,sli fri,qtz,glau,wht carb cmt SS-mltgy,f-mgr,pred fgr,vwsrtd,sb-wrnd,vwcmt,sli fri,qtz,glau SS-mgy,f-vcgr,pred cgr,psrtd,sb-wrnd,vwcmt,lith gr,qtz,glau I -3 CORE LABORATORIES Company : ARCO ALASKA, INC. Well : POINT NcINTYRE #7 Field Formation : POINT McINTYRE : EXPLORATION File No.: BP-3-1383 Date : 28-Apr-1990 CORE ANALYSIS RESULTS SAMPLE NUMBER DEPTH ft PERMEABILITYJ (HORIZONTAL) Kair POROSITY (HELIUM) SATURATION (PORE VOLUME) OIL WATER % % GRAIN DENSITY gm/cc DESCRIPTION I 84 13638.5 0.71 I 85 13639.3 3.24 I 86 13640.7 85.8 I 87 13641.2 273. I 88 13642.3 213. 1 89 13643.1 99.2 1 90 13644,3 0.68 1 91 13645.7 0.11 2 1 2 2 2 3 2 4 2 5 2 6 2 7 2 8 2 9 2 10 2 11 2 12 · 2 13 2 14 2 15 2 16 2 17 2 18 13646.4 13647.4 13648.2 13649.3 13650 2 13651 3 13652,3 13653,6 13654,3 13655 3 13656 3 13657 2 13658 0 13659 2 13660.4 13661.3 13662.2 13663.3 0.08 100. 218. 171. 38.6 0.09 0.23 235. 16.3 45.4 186. 88.8 36.5 33.8 2.54 6.58 39.2 34.6 15.8 11.8 19.9 23.4 23.7 18.5 14.1 14.4 15.9 24.4 22.9 25.3 23.1 13.5 14.6 24.8 17.2 19.7 22.5 22.7 18.6 14.5 16.5 21.7 22.5 23.3 11.4 10.7 11.7 10.3 11.6 9.6 3.8 9.4 10.3 11.7 11.6 9.7 12.0 11.1 2.8 9.0 12.4 10.0 15.8 15.3 10.8 6.3 3.6 4.5 8.1 10.4 86.5 87.9 64.8 64.1 66.3 71.0 95.8 90.3 84.5 67.9 69.8 70.3 71.5 76.8 84.7 71.0 65.5 62.6 58.5 58.5 62.0 68.3 78.6 72.7 73.4 72.1 3.28 3.29 2.94 2.81 2.92 3.23 3.20 3.32 CORE 2 13646.0 - 13736.9 FEET 3.39 3.09 2.99 2.92 3.14 3.39 3.30 2.79 2.94 3.23 2.83 2.94 3.11 3.24 3.06 3.Z9 3.08 3.13 SS-mgy,f-vcgr,pred cgr,psrtd,sb-wrnd,vwcmt,lith gr,qtz,glau SS-mgy,f-vcgr,pred cgr,psrtd,sb-wrnd,vwcmt,lith 9r,qtz,glau SS-mltgy,f-vcgr,pred mgr,mod srtd,sbang-rnd,sli fri,qtz,glau,wht carb cmt SS-ltgy,nxjr,vwsrtd,sbang-sbrnd,wcmt,qtz,glau,wht carb cmt,broken ~ SS-ltgy,mgr,vwsrtd,sbang-sbrnd,wcmt,qtz,glau,cmt frac Lj~J SS-ltgy,f-mgr,pred mgr,wsrtd,sbang-sbrnd,sli fri,qtz,glau,cmt frac .~'~_~;, SS-mdkgy,f-mgr,pred mgr,vwsrtd,sbang-wrnd,vwcmt,qtz,glau,sid cmt .... SS-ltgy,f-vcgr,pred mgr,mod srtd,sb-wrnd,vwcmt,qtz,glau,carb cmt ?~J SS-mgy,f-v¢gr,pred mgr,mod srtd,sb-wrnd,wcmt,brn lith gr,qtz,glau SS-ltg¥,f-v¢gr,oc¢ fpbl,pred mgromod ~rtd,sbang-rnd,mod fri,qtz,glau,lith gr SS-ltgy,f-v¢gr,occ fpbl,pred mgr,mod srtd,sbang-rnd,mod fri,qtz,glau,lith gr SS-mgy,f-vcgr,pred mgr,mod srtd,sbrnd,sli fri,qtz,glau,cmt frac SS-ltbrngy.f-vcgr,pred mgr,mod srtd,sb-wrnd,mod fri,qtz,glau,brn lith gr SS-ltgy,f-v¢gr,pred mgr,mod srtd,rnd,vwcmt,qtz,glau,brn lith gr SS-mltgy,f-cgr,pred mgr,wsrtd,rnd,vwcmt,qtz,brn lith gr,glau,tr pyr SS-mltg¥,f-mgr,pred mgr,wsrtd,rnd,sli fri,qtz,glau,cmt frae SS-mltgy,f-mgr,r v¢gr,pred fgr,wsrtd,rnd,wcmt,qtz,glau SS-mltg¥,f-mgr,pred mgr,vwsrtd,rnd,wcmt,qtz,glau,sid SS-ltgy,f-mgr,pred fgr,vwsrtd,rnd,wcmt,qtz,glau,wht carb cmt SS-ltgy,f-mgr,pred fgr,vwsrtd,rnd,wcmt,qtz,glau,wht carb cmt SS-ltgy,f-mgr,pred fgr,vwsrtd,rnd,wcmt,qtz,glau,wht carb cmt SS-ltgy,f-mgr,pred fgr,vwsrtd,rnd,vwcmt,qtz,glau,frac SS-mltgy,f-mgr,pred fgr,vwsrtd,rnd,vwcmt,qtz,glau SS-mltg¥,f-cgr,pred mgr,wsrtd,rnd,sli fri,qtz,glau,pyr SS-ltbrngy,f-¢gr,pred mgr,wsrtd,rnd,sli frioqtz,glau,bnd,mgy sltst SS-ltbrngy,f-mgr,r vcgr,pred fgr,wsrtd,sbang-rndowcmt,qtz,glau 1 -4 Company Nell : ARCO ALASKA, INC. : POINT MclNTYRE //7 C 0 R E CORE LABORATORIES Fi el d : PO ! NT )lc!NTYRE Formation : EXPLORATION ANALYSIS RESULTS File No.: BP-3-1383 Date : 28-Apr- 1990 2 2 2 2 2 2 2 2 2 2 2 2 2 2 .2 2 2 2 2 2 2 SAMPLE NUMBER DEPTH ft 2 19 13664.4 2 20 13665.2 2 21 13666.3 2 22 13667.2 2 23 13668.2 2 24 13669.2 2 25 13670.2 2 26 13671.3 27 13672.1 28 13673.3 29 13674.1 30 13675.2 31 13676.2 32 13677.2 33 13678.4 34 13679.2 35 13680.2 36 13681.6 37 13682.1 38 13683.3 39 13684.2 40 13685.2 41 13686.3 42 13687.4 43 13688.2 44 13689.2 45 13690.5 46 13691.2 47 13692.2 PERMEABILITY (HORIZONTAL) Kair POROSITY (HELIUM) SATURATION (PORE VOLUME) OIL WATER % % GRAIN DENSITY gm/cc DESCRIPTION 3.42 2.18 0.88 0.48 0.07 5.46 0.30 1.45 1.71 9.85 9.50 55.8 74.8 6.00 1.95 1.68 44.7 45.5 5.89 2.75 17.5 3.86 0.14 116. 16.3 108. 120. 78.5 0.20 17.9 9.8 12.7 18.8 11.4 17.5 12.8 15.7 16.0 18.2 17.3 20.0 22.3 17.5 16.4 16.0 19.7 21.2 16.8 19.1 23.0 22.2 17.0 21.1 18.4 21.2 21.5 17.9 4.8 8.0 7.9 6.6 8.4 7.9 6.4 7.5 8.8 9.3 11.9 14.8 10.3 10.1 12,1 16.7 10.5 13.3 18.0 11.9 14.8 20.9 12.7 11.2 11.7 12.1 9.1 7.5 8.7 12.6 78.4 73.2 76.8 76.6 83.3 78.8 75.2 76.4 82.1 65.6 67.2 65.0 64.0 67.9 69.2 77.4 66.2 59.2 73.8 71.6 62.9 74.0 71.1 61.2 67.9 66.2 66.0 70.9 62.9 2.99 3.19 3.05 3.31 3.21 3.14 2.97 2.68 2.70 2.83 2.72 2.84 2.72 2.70 2.79 2.70 2.71 2.72 2.67 2.77 2.75 2.77 3.05 2.70 2.71 2.74 2.71 2.74 3.13 SS-ltbrngy,f-mgr,r vcgr,pred fgr,wsrtd,sbang-rnd,wcmt,qtz,glau SS-ltgy,fgr,vwsrtd,rnd,vwcmt,qtz,glau SS-ltgy,f-vcgr,pred mgr,mod srtd,plty,rnd,wcmt,qtz,glau,lith gr,carb cmt,pyr SS-ltgy,msd-fpbl,pred md,mod srtd,plty,rnd,vwcmt,qtz,glau, lith gr,sid,pyr SS-ltgy,msd-fpbl,pred msd,mod srtd,plty.rnd,vwcmt.qtz,glau, lith gr,sid,pyr SS-ltgy,msd-fpbl,pred msd,mod srtd,plty,rnd,vwcmt,qtz,glau, lith gr,sid,pyr SS-mgy,f-mgr,pred mgr,wsrtd,rnd,vwcmt,qtz,glau,carb cmt SS-mltgy,m-cgr,pred mgr, lam, gy sltst,wsrtd,rnd,vwcmt,qtz,glau SS-mltgy,m-cgr,pred mgr, lam, gy sltst,wsrtd,rnd,vwcmt,qtz,glau SS-mltgy,m-cgr,pred mgr,lam, gy $1tst,wsrtd,rnd,vwcmt,qtz,glau SS-mltgy,f-mgr,pred fgr,wk lam, wsrtd,sbang-wrnd,wcmt.qtz,glau SS-ltgy,fgr,vwsrtd,sbang-wrnd,sli fri,qtz,glau SS-ltgy,fgr,vwsrtd,$bang-wrnd,sli fri,qtz,glau SS-ltgy,fgr,wk lam, vwsrtd,sbang-wrnd,sli fri,qtz,glau SS-ltgy,fgr,wk lam, vwsrtd,sbang-wrnd,sli fri,qtz,glau SS-mgy,f-mgr,pred fgr,vwsrtd,sbang-rnd,wcmt,qtz,glau SS-ltgy,f-mgr,pred fgr,vwsrtd,sbang-rnd,wcmt,qtz,glau SS-ltgy,f-mgr,pred fgr,vwsrtd,sbang-rnd,wcmt,qtz,glau SS-mgy,f-mgr,pred fgr,lam,w~rtd,$bang-sbrnd.wcmt,qtz,glau SS-mgy,f-mgr,pred fgr,lam,wsrtd,sbang-sbrnd,wcmt,qtz,glau SS-ltgy,f-mgr,pred fgr,wk lam,wsrtd,sbang-rnd,sli fri,qtz,glau SS-ltgy.f-mgr,pred fgr,wsrtd,sban§-rnd,$1i fri,qtz,glau SS-mltgy,f-mgr,pred fgr,wsrtd,sbang-rnd,vwcmt,qtz,glau,sid SS-gngy,fgr,vwsrtd,wk lam, sbang-sbrnd,wcmt,qtz,glau SS-ltgy.fgr.vwsrtd. lam. brn cly. sbang-rnd,sli fri,qtz,glau SS-grgy,fgr,vwsrtd,wk lam, sbang-sbrnd,wcmt,qtz,glau SS-ltgy,fgr,r cgr,wsrtd,sbang-sbrnd,sli fri,qtz,glau SS-ltgy,fgr,r cgr,wsrtd,sbang-sbrnd,sli fri,vwcmt.qtz,glau SS-mltgy,f-mgr,pred fgr,wsrtd,sbang-rnd,vwcmt,qtz,glau,sid cmt 1-5 Company : ARCO ALASKA, INC. Well : POINT HcINTYRE #7 SAHPLE NUMBER DEPTH ft PERMEABILITYJ (HORIZONTAL)) 2 48 2 49 2 50 2 51 2 52 2 53 2 54 2 55 2 56 2 57 2 58 2 59 2 60 2 61 2 62 2 63 2 64 2 65 2 66 2 67 2 68 2 69 2 70 2 71 2 72 2 73 2 74 2 75 2 76 13693.2 13694.5 13695.3 13696.2 136973 13698 4 13699 3 13700 7 13701 2 13702 4 13703 3 13704.3 13705.2 13706.4 13707,3 13708.2 13709.4 13710.2 13711.2 13712.2 13713.2 13714.3 13715.2 13716.2 13717.2 13718.2 13719.2 13720.2 13721.3 1.00 0.93 0.12 1.99 2.91 0.01 2.42 2.54 5.75 0.15 1.10 1.88 2.26 83.6 30.2 3.68 5.37 13.5 137. 53.3 30.1 70.2 5.57 19.3 3.12 6.86 3.61 65.5 16.8 POROSITY (HELIUM) 16.6 14.9 14.8 16.8 16.0 10.1 14.2 13.4 15.4 16.8 17.4 19.1 11.1 22.7 20.0 16.1 16.4 17.7 15.1 18.2 17.4 19.5 18.5 18.7 13.4 17.1 14.8 19.2 22.9 CORE LABORATORIES ORE SATURATION (PORE VOLUME) OIL WATER % Field : Format i on : ANALYSIS GRAIN DENSITY gm/cc POINT McINTYRE %, File No.: BP-3-1383 EXPLORATION ' ~.~ate : 28-Apr- 1990 RESULTS DESCRIPTION 17.5 14.6 11.7 5.1 9.9 2.5 2.9 10.2 7.7 1.5 4.2 6.2 9.3 8.7 6.1 8.2 7.2 13.2 12.3 11.9 10.5 10.7 8.7 13.3 10.0 12.2 7.8 12.8 11.0 82.3 70.1 68.1 78.3 70.4 87.8 82.4 74.3 74.8 87.3 82.0 77.2 89.8 73.0 74.1 70.6 74.3 71.9 68.2 68.0 69.1 64.0 72.6 64.8 67.7 66.4 77.7 63.4 62.4 2.72 2.89 3.10 2.71 3.00 3.12 2.73 3.04 2.72 3.14 3.02 3.02 3.12 3.01 2.84 2.88 2.72 2,78 3.03 2.66 2.68 Z.69 2.71 2.72 3.16 2.71 2.69 2.69 2.87 SS-ltgy,fgr,r cgr,wsrtd,sbang-sbrnd,sli fri,qtz,glau SS-ltgy,fgr,vwsrtd,sbang-sbrnd,wcmt,qtz,glau SS-mltgy,f-mgr, pred fgr,vwsrtd,sbang-rnd,vwcmt,qtz,glau SS-ltgy,fgr,r cgr,vwsrtd,sbang-sbrnd,sli fri,qtz,glau SS-mltgy,f-mgr,wsrtd,sbang-sbrnd,vwcmt,qtz,glau,sid cmt SS-mltgy,f-mgr,pred fgr,wsrtd,sbang-wrnd,vwcmt,qtz,glau SS-ltgy, bnd,f-vcgr,wsrtd,sbang-sbrnd,vwcmt,qtz,glau,sid SS-mltgy,f-mgr,pred fgr,wsrtd,sbang-sbrnd,vwcmt,qtz,glau,sid SS-mltgy,fgr,r mgr,vwsrtd,sbang-sbrnd,vwcmt,qtz,glau,sid SS-mltgy,f-vcgr,pred fgr,mod-wsrtd,sbrnd,vwcmt,qtz,glau,sid,tr pyr SS-mltgy,vf-mgr,pred fgr,mod srtd,sb-rnd,vwcmt,qtz,glau,sid SS-mltgy,f-mgr,pred fgr,wsrtd,sb-rnd,vwcmt,qtz,glau,sid SS-ltgy,f-mgr,r vcgr,pred fgr,wsrtd,sbang-rnd,vwcmt,qtz,glau,sid,frac SS-ltgy,f-mgr,pred mgr,wsrtd,sbrnd-rnd,wcmt,qtz,glau,sid SS-ltgy,f-mgr,pred mgr,wsrtd,sbrnd-rnd,wcmt,qtz,glau,sid SS-mltgy,f-cgr,pred fgr,wsrtd,sbrnd,wcmt,qtz,glau,carb cmt SS-mltgy,fgr,vwsrtd,sbrnd,sli fri,qtz,glau SS-mgy, fgr,r vcgr,wsrtd,wk lam, sbrnd,wcmt,qtz,glau,occ brn cly SS-mgy, f-mgr,r vcgr,pred fgr,wsrtd,sb-rnd,vwcmt,qtz,glau,sid cmt,frac SS-ltolvgy, fgr,vwsrtd,wk lam, sbrnd,sli fri,qtz,glau SS-mltgy,vf-cgr,pred fgr,wsrtd,wk lam, sbrnd,sli fri,qtz,glau,tr brn cly SS-ltgngy,f-mgr,pred fgr,wsrtd,wk lam,sbrnd,wcmt,qtz,glau SS-mltgy,fgr,vwsrtd,sbrnd,wcmt,qtz,glau SS-ltolvgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,glau,tr pyr SS-mgy,f-mgr,pred fgr,wsrtd,sbrnd,vwcmt,qtz,glau,sid SS-mgy,f-mgr,pred fgr,vwsrtd,sbrnd,vwcmt,qtz,glau,tr brn cly SS-mgy,f-mgr,pred fgr,vwsrtd,sbrnd,vwcmt,qtz,glau,tr brn cly SS-ltolvgy, fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,glau SS-ltgy,f-mgr,pred fgr,wsrtd,sbang-sbrnd,wcmt,qtz,glau I -6 Company Well : ARCO ALASKA, INC. : POINT HcINTYRE #7 O R CORE LABORATORIES Field : POINT NcINTYRE Formation : EXPLORATION E ANALYSIS RESULT File Oate No.: : BP-3-1383 28-Apr- 1990 SAMPLE NUMBER 2 77 2 78 2 79 2 80 2 81 2 82 2 83 2 84 2 85 2 86 2 87 2 88 2 89 2 90 3 1 3 2 3 3 3 4 3 5 3 6 '3 7 3 8 3 9 · 3 10 3 11 3 12 DEPTH ft 13722.3 13723.2 13724.2 13725.2 13726.2 13727.4 13728.2 13729.4 13730.2 13731.3 13732.2' 13733.Z 13734.6 13735.3 PERMEABILITY (HORIZONTAL) Kair POROSITY (HELIUM) 0.83 34 8 20 2 13 7 7 34 3 72 2 12 0 28 I ,19 7,34 3,52 1.51 1.33 2.98 18.3 21.2 19.8 17.9 16.2 15.9 15.1 11.5 14.0 16.6 14.4 13.7 15.4 13.2 13737.3 1.08 14.0 13738.2 0.47 13.3 13739.3 0.81 13.1 13740.1 1.31 14.6 13741.3 1.50 13.7 13742.3 1.71 14.1 13743.5 1.15 13.9 13744.1 0.78 13.7 13745.2 2.80 15.3 13746.3 Z.96 16.1 13747.1 6.56 15.Z 13748.3 1.75 16.1 SATURATION (PORE VOLUME) OIL WATER % % GRAIN DENSITY gm/cc DESCRIPTION 15.3 15.3 12.4 14.0 10.0 8.8 10.8 10.4 10.7 12.7 4.4 7.3 5.5 6.8 67.7 65.7 68.7 69.0 74.4 74.3 75.7 88.5 80.5 70.3 81.1 83.1 73.3 81.1 3.02 2.88 2.72 2.71 2.69 2.70 2.73 3.01 Z.73 2.72 2.67 2.69 2.73 2.71 SS-ltgy,f-mgr,pred fgr,wsrtd,sbang-sbrnd,wcmt,qtz,glau,frac SS-ltolvgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,glau,frac SS-ltolvgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,glau SS-ltolvgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,glau L,LJ SS-ltolvgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,glau SS-ltolvgy,fgr,vwsrtd,$bang-rnd.wcmt,qtz,glau SS-ltgy,fgr,vwsrtd,sbang-rnd,vwcmt,qtz,glau SS-ltgy,fgr,vwsrtd,sbang-rnd,vwcmt,qtz,glau,frac SS-ltgy,fgr,vwsrtd,sbang-rnd,vwcmt,qtz,glau SS-ltgy,fgr,vwsrtd,sbang-rnd,vwcmt,qtz.glau SS-mltgy,fgr,occ mgr,wsrtd,$brnd,wcmt,qtz,glau SS-mltgy,fgr,occ mgr,wsrtd,sbrnd,wcmt,qtz,glau SS-mltgy,fgr,o¢¢ mgr,wsrtd,sbrnd,wcmt,qtz,glau,fra¢ SS-mltgy,fgr,oc¢ mgr,wsrtd,sbrnd,wcmt,qtz,glau CORE 3 13737.0 - 13829.0 FEET 4.3 4.0 1.8 0.5 3.2 1.0 0.8 0.2 0.4 2.8 1.9 0.7 83.1 80.1 86.5 85.7 87.4 81.3 81.2 87.1 84.8 82.1 81.9 79.2 2.69 2.71 2 69 2,71 2 69 2 84 2 83 2 69 2 8O 2.76 2.74 2.68 SS-ltgy,fgr,vwsrtd, sbrnd,wcmt,qtz,gl~u SS-ltgy,fgr,vwsrtd.sbrnd,wcmt,qtz,glau SS-ltgy.fgr,vwsrtd,wk lam, sbrnd,wcmt,qtz,glau SS-ltg¥,fgr,vwsrtd,wk lam, sbrnd,wcmt,qtz,glau SS-ltgy,fgr,vwsrtd,$brnd,wcmt,qtz,glau SS-ltgy,fgr,vwsrtd,$brnd,wcmt,qtz,glau SS-mltgy,f-mgr,pred fgr,vw~rtd,$brnd-rnd,vwcmt,qtz,glau,frac SS-mltgy,f-mgr,pred fg~,vwsrtd,sb-rnd,wcmt,qtz,glau SS-mltg¥,f-mgr,pred fg~,vwsrtd,sb-rnd.wcmt,qtz,glau SS-mltgy,f-mgr,pred fg~,vwsrtd,sb-rnd,sli fri,qtz,glau SS-ltgy,f-mgr,r ¢gr,pred fgr,wsrtd,wk lam,~brnd,sli fri,qtz,glau SS-ltg¥,f-mgr,r ¢gr,pred fgr,w~rtd,wk lam, sbrnd,sli fri,qtz,glau 1- 7 Company We11 : ARCO ALASKA, INC. : POINT HclNTYRE #7 CO R CORE E A N LABORATORTES Field : POINT HcINTYRE Formation : EXPLORATION ALYS I S RESULT File No.: BP-3-1383 Oate : 28-Apr- 1290 3 ~ 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 '3 3 3 3 3 3 SAMPLE NUMBER 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 DEPTH 13749.2 13750.1 13751.2 13752.4 13753.0 13754.5 13755.4 13756.1 13757.2 13758.1 13759.2 13760.1 13761.2 13762.1 13763.3 13764.3 13765.3 13766.8 13767.3 13768.2 13769.2 13770.2 13771.9 13772,3 13773.2 13774.1 13775.5 13776.2 13777.2 PERMEABILITY (HORIZONTAL) Kair 0.92 0.51 1.59 0.57 0.97 0.18 0.85 2.15 1.18 0.01 0.84 1.55 1.05 1.90 1.76 0.44 1.43 5.59 5.50 6.12 1.88 2.52 0.78 1.65 1.98 2.63 1.80 1.15 1.94 POROSITY (HELIUN) SATURATION (PORE VOLUME) OIL WATER % % GRAIN DENSITY gm/cc 13.0 2.1 84.9 2.65 12.6 1.7 83.5 2.67 12.2 2.0 89.5 2~68 13.2 1.5 88.2 2.66 13.5 6.8 86.3 2.66 5.0 3.8 95.7 3.24 13.1 1.3 82.5 2.69 13.2 7.4 82.6 2.67 13.7 2.6 83.8 2.67 5.8 1.5 97.4 2.98 13.4 2.0 84.6 2.68 14.5 4.9 80.9 2.67 13.7 1.4 88.3 Z.67 13.9 0.6 87.1 2.68 16.9 1.6 91.1 3.12 12.2 o.7 80.4 2.73 14.0 1.7 78.0 2.67 16.1 2.3 78.4 2.67 16.1 3.8 79.5 2.66 17.7 2.1 70.1 2.69 15.6 3.4 70.7 2.69 15.2 3.4 77.0 2.66 14.2 3.4 76.1 2.67 14.9 0.5 80.1 2.67 14.5 0.9 82.7 2.67 15.8 1.5 77.4 2.70 14.9 0.4 79.6 2.67 13.7 1.0 81.1 2.67 14.5 2.1 81.8 2.67 DESCRIPTION SS-ltgy,fgr,r mgr,vwsrtd,sbrnd,sli fri,qtz,glau SS-ltgy,fgr,vwsrtd,wk lam,sbrnd,wcmt,qtz,glau,brn cly,wht carb cmt SS-ltgy,fgr,vwsrtd,wk lam,sbrnd,wcmt,qtz,glau,brn cly,wht carb cmt SS-ltgy,fgr,vwsrtd,wk lam,sbrnd,wcmt,qtz,glau,brn cly,wht carb cmt SS-ltgy,fgr,vwsrtd,wk lam,sbrnd,wcmt,qtz,glau,brn ¢ly,wht carb cmt SS-mltgy,fgr,vwsrtd,sb-wrnd,vwcmt,qtz,glau SS-mltgy,f-mgr,pred fgr,wsrtd,wk lam,sb-wrnd,wcmt,qtz,glau,brn cly SS-mltgy,f-mgr,pred fgr,wsrtd,wk lam, sb-wrnd,wcmt,qtz,glau,brn cly SS-mltgy,fgr,vwsrtd,$b-wrnd,wcmt,qtz,glau SS-mltgy,fgr,vwsrtd,sb-wrnd,vwcmt,qtz,glau SS-mltgy,fgr,vwsrtd,sb-wrnd,wcmt,qtz,glau SS-mltgy,fgr,vwsrtd,sb-wrnd,wcmt,qtz,glau SS-mltgy,fgr,vwsrtd,sb-wrnd,wcmt,qtz,glau SS-mltgy,fgr,vwsrtd,sb-wrnd,wcmt,qtz,glau,frac SS-ltbrngy,fgr,occ cgr,wsrtd,sbang-rnd,vwcmt,qtz,glau,sid SS-mltgy,fgr,vwsrtd,wk lam, sb-wrnd,wcmt,qtz,glau,occ brn cly SS-mltgy,fgr,vwsrtd,wk lam, sb-wrnd,wcmt,qtz,glau,occ brn cly SS-mltgy,fgr,vwsrtd,wk lam, sb-wrnd,wcmt,qtz,occ glau,occ brn cly SS-mltgy,fgr,vwsrtd,wk lam, sb-wrnd,wcmt,qtz,occ glau,occ brn cly SS-mltgy,fgr,vwsrtd,wk lam, sb-wrnd,wcmt,qtz,occ glau,occ brn cly SS-mltgy,fgr,vwsrtd,wk lam, sb-wrnd,wcmt,qtz,occ glau,occ brn cly SS-mltgy,fgr,vwsrtd,wk lam, sb-wrnd,wcmt,qtz,occ glau,occ brn cly SS-mltgy,fgr,vwsrtd,wk lam, sb-wrnd,wcmt,qtz,occ glau,occ brn cly SS-mltgy,fgr,vwsrtd,wk lam, sb-wrnd,wcmt,qtz,occ glau,occ brn cly SS-mltgy,vf-mgr,pred fgr,wsrtd,sbang-sbrnd,sli fri,qtz,occ glau SS-ltgy,vf-mgr,pred fgr,wsrtd,sbang-rnd,vwcmt,qtz,occ glau SS-ltgy,vf-mgr,pred fgr,wsrtd,sbang-rnd,vwcmt,qtz,occ glau SS-ltgy,fgr,vwsrtd,wk lam, sb-wrnd,wcmt,qtz,occ glau SS-ltgy,fgr,vwsrtd,wk lam,$b-wrnd,wcmt,qtz,occ glau 1-8 CORE LABORATORIES Company : ARCO ALASKA, INC. Well : POINT HcINTYRE #7 Fi el d : PO I NT McINTYRE Formation : EXPLORATION File No.: BP-3-1383 Date : 28-Apr- 1990 CORE ANALYSIS RESULTS SAMPLE NUMBER DEPTH ft 3 42 13778.3 3 43 13779.2 3 44 13780.6 3 45 13781.2 3 46 13782.1 3 47 13783.4 3 48 13784.7 3 49 13785.3 3 50 13786.3 3 51 13787.2 3 52 13788.2 3 53 13789.3 3 54 13790.2 3 55 13791.2 3 56 13792.2 3 57 13793.2 3 58 13794.2 3 59 13795.2 3 60 13796.2 3 61 13797.3 3 62 13798.1 3 63 13799.3 3 64 13800.6 3 65 138O1.3 3 66 13802.4 3 69 13805.4 3 70 13806,8 3 71 13807.2 3 72 13808.1 PERMEABILITY (HORIZONTAL) Kair POROSITY (HELIUM) SATURATIDN (PORE VOLUME) OIL WATER % % GRAIN DENSITY gm/cc DESCRIPTION 2.08 14.6 1.5 81.0 2.67 SS-ltgy,fgr,vwsrtd,wk lam,sb-wrnd,wcmt,qtz,occ glau 1.35 3.00 2.27 0.49 2.46 1.18 29.0 216. 256. 173. 171. 502· 131. 158. 158. 101. 261. 189. 42.0 88.6 47.9 4.02 63.0 10.9 19.7 69.1 13.8 16.6 14.5 14.5 15.1 8.0 14.4 13.4 15.6 18.9 22·6 20.1 20.8 21.1 18.9 20.7 20.1 19.0 21.4 21.4 19,6 16~0 14 1 17,4 15 2 15,8 19 Z 17·1 17.2 1.3 80.5 2.0 85.3 2.2 79.4 8.7 80.4 2.3 79.4 0.7 82.9 10.8 68.6 4.3 79.9 1.9 72.7 4.6 74.9 3.4 74.6 3.8 75.2 2.9 78.9 3.6 73.3 4.7 71.9 2.7 72.1 3.8 68.4 1.5 72.1 4.2 72.9 1.7 *72.8 2.7 78.9 3.2 76.6 1.2 82.6 7.9 73.0 4.7 84.3 4.2 80.5 2.4 73.0 1.9 70.4 2.70 SS-mltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,occ glau 2 65 SS-mltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,occ glau · 2.66 SS-mltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,occ glau 2.99 SS-mltgy,vf-mgr,pred fgr,wsrtd,sbrnd-rnd,vwcmt,qtz,occ glau,fra¢ 2.68 SS-mltgy,vf-fgr,r mgr,pred vfgr,wsrtd,$bang-sbrnd,wcmt,qtz,oc¢ glau 2.70 SS-mltgy,vf-fgr,r mgr,pred vfgr,wsrtd,sbang-sbrnd,wcmt,qtz,o¢¢ glau 2.93 SS-ltbrng¥,vf-fgr,pred vfgr,vwsrtd,sbang-~brnd,vwcmt,qtz,o¢¢ glau,frac 2.72 SS-ltgy,vf-fgr,pred fgr,vwsrtd,sbang-sbrnd,wcmt,qtz,cht,tr glau,occ pyr cmt 2.74 SS-ltg¥,vf-fgr,pred fgr,vwsrtd,mbang-sbrnd,wcmt,qtz,cht,tr glau,o¢c pyr cmt 2.$$ SS-ltg¥,fgr,vwsrtd,sbang-sbrnd,wcmt,qtz,cht,tr glau,tr pyr cmt 2.70 SS-ltg¥,fgr,vwsrtd,sbang-sbrnd,wcmt,qtz,cht,tr glau,tr pyr cmt,fra¢ 2.82 SS-mltg¥,fgr,vwsrtd,~bang-rnd,vwcmt,qtz,cht,tr glau,tr pyr,num frae 2.68 SS-ltgy,fgr,vwsrtd,~bang-~brnd,wcmt,qtz,cht,tr glau,tr pyr 2.70 SS-ltgy,fgr,vwsrtd,wk lam,sbang-$brnd,wcmt,qtz,cht,tr glau,tr pyr,brn cly 2.69 SS-ltgy,fgr,vwsrtd,~bang-sbrnd,wcmt,qtz,cht,tr glau,tr pyr 2.73 SS-ltgy,fgr,vwsrtd, sbang-sbrnd,wcmt,qtz,cht,tr glau,tr pyr 2.70 SS-ltgy,fgr,vwsrtd,$bang-sbrnd,wcmt,qtz,cht,tr glau,tr pyr 2.70 SS-ltg¥,fgr,vw~rtd,sbang-sbrnd,wcmt,qtz,¢ht,tr glau,tr pyr 2.68 SS-ltgy,fgr,vwsrtd,sbang-sbrnd,vwcmt,qtz,¢ht,tr glau,tr pyr 2.68 SS-ltgy,fgr,vwsrtd,sbang-sbrnd,vwcmt,qtz,¢ht,tr glau,tr pyr 2.66 SS-ltgy,fgr,vwsrtd,sbang-$brnd,vwcmt,qtz,¢ht,tr glau,tr pyr 2.69 SS-ltgy,fgr,vw~rtd,wk lam,~bang-rnd,vwcmt,qtz,¢ht,pyr,occ brn ¢ly,tr glau 2.66 SS-ltgy,fgr,vwsrtd,sbrnd-rnd,vwcmt,qtz,cht,o¢c pyr,tr glau,tr brn 2.85 SS-ltgy,fgr,vwsrtd,~brnd,rnd,vwcmt,qtz,¢ht,oc¢ pyr,tr glau,tr brn ely 2.67 SS-ltgy,fgr,vwsrtd,wk lam,sb-wrnd,vwcmt,qtz,occ cht,brn cly,pyr,glau 2.67 SS-ltgy,fgr,vwsrtd,sb-wrnd,vwcmt,qtz,occ glau,occ pyr 2.67 SS-ltgy,fgr,vwsrtd,sb-wrnd,vwcmt,qtz,occ glau,occ pyr 2.68 SS-ltgy,fgr,vwsrtd,wk lam, sb-rnd,vwcmt,qtz,occ glau,cht,tr pyr I -9 CORE LABORATORIES Company Wel 1 ISAHPLE NUHBER ; 3 73 '~ 3 74 3 75 3 76 3 77 3 78 3 79 3 80 3 81 3 82 3 83 3 84 3 85 3 86 3 87 3 88 3 89 3 9O 3 91 3 92 , 4 4 .4 4 4 4 : ARCO ALASKA, INC. : POXNT HcINTYRE #7 0 R Field Formation : POINT HcINTYRE : EXPLORATION E ANALYS I S RESULTS DEPTH ft PERHEABILITY (HORIZONTAL) Kair POROSITY (HELIUM) SATURATION (PORE VOLUME) OIL WATER % % GRAIN DENSITY 9m/cc File No.: BP-3-1383 Date : 28-Apr- 1990 13809.2 13810.2 13811.2 13812.2 13813.2 13814.2 13815.2 13816.3 13817.2 13818.2 13819.3 13820.3 13821.3 13822.6 13823.3 13824.2 13825.4 13826.4 13827.4 13828.2 10.4 8.56 7.59 0.23 5.65 39.8 18.4 34.7 20.2 41.4 57.2 7.20 8.69 4.98 1.21 139. 19.5 15.4 11.2 3.51 16. 16. 15. 1. 17. 18. 17. 19. 16. 19. 18. 15. 16. 16. 12. 19. 17. 17. 16. 13. 2.5 2.5 1.4 2.5 2.2 4.0 1.4 4.9 5.8 7.9 4.5 5.3 2.9 5.1 6.2 5.0 5.3 5.5 3.2 1.9 74.0 73.4 78.7 90.2 75.9 75.4 78.9 68.2 79.0 70.1 71.9 79.5 77.3 75.1 73.5 75.5 72.8 69.5 75.7 79.1 2.68 2.67 2.66 3.00 2.69 2.69 2.67 2.68 2.66 2.66 2.66 2.65 2.65 2.66 2.67 2.74 2.67 2.66 2.66 2.64 SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,occ ~)~,ch~r ~ SS-ltgy,fgr,vwsrtd,sb-rnd,vwcmt,qtz,tr glau,pyr SS-ltgy,fgr,occ c glau gr,vwsrtd,sbrnd,vwcmt,qtz,tr pyr SS-ltgy,fgr,occ c glau gr,vwsrtd,sbrnd,vwcmt,qtz,tr pyr,sid SS-ltgy,fgr,vwsrtd,sb-wrnd,vwcmt,qtz,occ cht,tr pyr,tr glau SS-ltgy,fgr,vwsrtd,sb-wrnd,vwcmt,qtz,occ cht,tr pyr,tr glau SS-ltgy,fgr,vwsrtd,sb-wrnd,vwcmt,qtz,occ cht,tr pyr,tr glau SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,occ glau SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,occ glau SS-ltgy,fgr,vwsrtd,sb-rnd,vwcmt,qtz,occ glau,tr pyr SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,occ glau,tr pyr SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,occ glau,tr pyr SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,occ glau SS-ltgy,fgr,vwsrtd,sb-rnd,vwcmt,qtz,tr glau SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,tr brn cly,tr glau SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,tr brn cly,tr glau,frac SS-ltgy,fgr,vwsrtd,wk lam, sb-rnd,vwcmt,qtz,tr brn cly,tr glau SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,tr brn cly,tr glau SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,tr brn cly,tr glau SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,tr brn cly,tr glau CORE 4 13829.0 - 13919.3 FEET 13829.3 13830.4 13831.3 13832.1 13833.1 13834.2 8.37 12.7 3.24 14.8 32.8 28.3 16.2 16.8 13.8 17.4 19.0 18.2 2.8 3.9 3.9 4.4 5.0 3.0 75.9 70.2 66.8 73.8 67.6 73.5 2.67 2.68 2.92 2.69 2.69 2.65 SS-ltgy,fgr,vwsrtd,sb-rnd,vwcmt,qtz,tr glau SS-ltgy,fgr,vwsrtd,sb-rnd,vwcmt,qtz,tr glau SS-ltgy,fgr,occ c glau gr,vwsrtd,sb-rnd,vwcmt,qtz SS-ltgy,fgr,vwsrtd,sb-rnd,vwcmt,qtz,tr 91au SS-ltgy,fgr,occ c glau gr,vwsrtd,sb-rnd,vwcmt,qtz SS-ltgy,fgr,occ c glau gr,vwsrtd,sb-rnd,vwcmt,qtz 1 - 10 Company We11 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 CORE LABORATORIES ARCO ALASKA, INC. POINT Hc]NTYRE #7 ORE ANA Field : POINT HcINTYRE File No.: BP-3-1383 Formation : EXPLORATION ~te : 28-Apr-1990 LYS I S RESULTS SS-ltgy,fgr,c glau gr,mod srtd, sbang-sbrnd,vwcmt,qtz,glau SAMPLE NUMBER DEPTH ft PERMEABILITY (HORIZONTAL) Kair POROSITY (HELIUM) SATURATION (PORE VOLUME) OIL WATER GRAIN DENSITY gm/cc 7 8 9 10 11 12 13 14 15 16 17 18 19 2O 21 22 23 24 25 26 27 28 30 31 32 33 34 35 36 13835.2 13836.3 13837.2 13838.2 13839.6 13840.3 13841.2 13842.2 13843.2 13844.2 13845.2 13846.2 13847.2 13848.2 13849.2 13850.2 13851.2 13852.2 13853.3 13854.2 13855.2 13856.7 13858.7 13859.2 13860.2 13861.5 13862.2 13863.3 13864.3 8.16 6.50 21.9 15.9 6.69 2.57 4.77 2.49 2.55 1.58 2.41 3.11 4.59 6.38 9,96 3.39 6.30 0.19 2.16 8.28 44.4 654. 662, 779. 249. 0.15 0.73 0.82 1.57 15.5 15.0 17.6 16.9 15.9 14.1 16.3 13.1 13.1 12.0 11.7 15.4 14.9 14.1 11.9 11.2 13.6 9.7 14.2 7.1 21.9 25.0 24.4 23.7 19.8 7.4 11.2 10.9 4.7 2.6 4.5 3.0 4.5 4.0 4.1 3.8 3.9 4.3 4.3 3.6 1.4 4.5 6.0 8.0 3.0 5.3 4.6 5.4 11.8 13.9 10.2 5.7 3.5 3.1 14.7 13.2 8.7 10.8 79.4 70.7 70.0 74.8 75.9 75.2 70.2 78.0 80.5 85.3 86.2 78.8 74.7 78.9 76.3 79.6 78.2 84.3 77.6 77.7 62.4 61.4 69.7 65.6 69.3 76.4 71.5 79.3 88.4 2.94 2.93 2.66 2.67 2.67 2.67 2.71 2.69 2.66 Z.67 2.66 2.69 2.67 2.66 2.66 2.85 2.66 2.67 2.66 2.68 2.69 2.67 2.68 2.69 2.73 2.67 2.66 2.65 2.78 SS-ltgy,fgr,c glau gr,mod srtd,sbang-sbrnd,vwcmt,qtz,glau SS-ltgy,fgr.vwsrtd,v wk lam,sbrnd-rnd,wcmt,qtz,occ cht,tr glau SS-ltgy,fgr.vwsrtd,v wk lam, sbrnd-rnd,wcmt,qtz,occ cht,tr glau SS-ltgy,fgr.vwsrtd,v wk lam, sbrnd-rnd,wcmt,qtz,occ cht,tr glau SS-ltgy,fgr.vwsrtd,v wk lam, sbrnd-rnd,wcmt,qtz,occ cht,tr glau SS-ltgy,fgr.vwsrtd,v wk lam, sbrnd-rnd,wcn~c,qtz,occ cht,tr glau SS-ltgy,fgr.vwsrtd,v wk lam, sbrnd,rnd,wcmt,qtz,occ cht,tr 91au SS-ltgy,vf-fgr,pred fgr,vwsrtd,v wk lam, sb-rnd,vwcmt,qtz,tr glau SS-ltgy,vf-n~jr,occ c glau gr,pred fgr,wsrtd,wk lam, sb-rnd,vwc~,qtz SS-ltgy,vf-mgr,occ c glau gr,pred fgr,wsrtd,wk lam, sb-rnd,vwcmt,qtz SS-ltgy,fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,tr glau SS-ltgy,vf-fgr,pred fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,tr glau SS-ltgy,vf-fgr,pred fgr,vwsrtd,wk lam, sb-rnd,vwcn~c,qtz,tr glau SS-ltgy,vf-fgr,pred fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,tr glau SS-ltgy,vf-fgr,pred fgr,vwsrtd,wk lam,sb-rnd,vwcn~c,qtz,tr glau SS-ltgy,vf-fgr,pred fgr,vwsrtd,wk lam,sb-rnd,vwcmt,qtz,tr glau SS-mltgy,vf-fgr,pred fgr,wsrtd,p lam, rnd,vwcmt,qtz,brn cly,tr glau SS-ltgy,vf-fgr,pred fgr,vwsrtd,wk lam, rnd,vwcmt,qtz,tr glau SS-ltgy,vf-fgr,pred fgr,vwsrtd,wk lam,rnd,vwcmt,qtz,tr glau SS-vltgy,vf-mcjr,pred fgr,wsrtd,sbang-rnd,wcmt,qtz,cht,occ glau SS-vltgy,vf-n~jr,pred fgr,wsrtd,sbang-rnd,wcmt,qtz,cht,occ glau SS-vlt§y,vf-mgr,pred fgr,wsrtd,sbang-rnd,wcmt,qtz,cht,occ 91au,tr calc SS-vltgy,vf-mgr,pred fgr,wsrtd,sbang-rnd,wcmt,qtz,cht,occ glau,tr calc SS-vltgy,vf-fgr,bnd,wsrtd,sbang-rnd,vwcn~c,qtz,cht,occ glau SS-mltgy,vf-fgr,pred fgr,wsrtd, lam, sbang-rnd,vwcmt,qtz,brn cly,carb,tr glau SS-mltgy,vf-fgr,pred fgr,wsrtd,lam, sbang-rnd,vwcmt,qtz,brn cly, carb,tr glau SS-mltgy,vf-fgr,pred fgr,wsrtd, lam, sbang-rnd,vwcmt.qtz,brn cly,carb,tr glau SLTST-mgy,mas,dissem,vf-fsd,vwcnKc,frac, ltgy,f sd bur,pyr pod 1 - 11 CORE LABORATORIES Company Wel 1 ARCO ALASKA, INC. POINT NcINTYRE #7 Field Format i on : POINT HcINTYRE : EXPLORATION CORE ANALYS I S RESU L T~ File No.: BP-3-1383 Date : 28-Apr- lggo SAMPLE NUMBER DEPTH ft 4 37 13865.3 4 38 13866.2 4 39 13867.2 4 4O 13868.3 4 41 13869.2 4 42 13870.3 4 43 13871.2 4 44 13872.2 4 45 13873.3 4 46 13874.3 4 47 13875.4 4 48 13876.2 4 49 13877.2 4 50 13878.1 4 51 13879.3 4 52 13880.3 4 53 13881.2 4 54 13882.2 4 55 13883.3 4 56 13884.2 4 57 13885.2 4 58 13886.2 4 59 13887.4 '4 60 13888.2 4 61 13889.5 4 63 13891.7 '4 64 13892.4 4 65 13893.5 4 66 13894.5 PERMEABILITY (HORIZONTAL) Kair POROSITY (HELZUM) SATURATION (PORE VOLUME) OIL WATER % % GRAIN DENSITY gm/cc 238. 347. 267. 245. 279. 304. 238. 351. 411. 657. 642. 569. 247. 702. 698. 579 363 27O 37O 332 375 326 271 464 484 6OO O. 580. 568. 22.9 22.4 22.4 23.1 23.7 23.2 23.3 14.7 13.1 8.8 8.3 7.0 7.5 6.5 60.1 62.6 69.1 68.8 70.1 72.9 72.3 2.83 SS-vltgy,fgr,vwsrtd 2.66 SS-vltgy,fgr,vwsrtd 2.69 SS-vltgy fgr,vwsrtd 2.72 SS-vltgy fgr,vwsrtd 2.71 SS-vltgy fgr,vwsrtd 2.66 SS-vltgy fgr,vwsrtd 2.69 SS-vltgy fgr,vwsrtd ~'----- 0") Oo _~ION:'~ - DES ~ ,$b-~nd,wcmt,q~z,91au,ecc ch~,mB..~py~ pod ~sb-rnd,sli fri,qtz,cht,glau ~ .sb-rnd,sli fri,qtz,cht,glau .sb-rnd, sli fri,qtz,cht,glau,tr pyr cmt .sb-rnd,sli fri,qtz,cht,glau sb-rnd,sli fri,qtz,cht,glau .sb-rnd,sli fri,qtz,cht,glau O8 24.2 25.1 25.9 26.3 25.9 22.8 26.9 26.4 25.0 21.9 24,3 23.4 23.8 24.2 24.1 23.5 23.7 24.6 25.0 6.7 24.9 24.6 5.2 6.6 5.1 5.4 6.4 3.4 3.8 4.5 2.7 2.6 5.8 4.5 5.3 6.4 5.5 6.1 5.1 3.7 8.1 5.1 7.3 6.0 69 69.9 71.5 70.7 68.8 71.4 65.3 67.1 70.8 70.6 69.7 72.1 71.8 69.3 71.1 71.7 69.8 72.9 68.4 90.9 71.6 72.4 .3 2.68 2.69 2.68 2.67 2.68 2 71 2 70 2,67 2 67 2 65 2 81 2,68 2,69 2,68 2.70 2 70 2 68 2,67 2.67 2.67 2.65 2.69 SS-vltgy fgr,vwsrtd.sb-rnd,sli fri,qtz,cht,glau SS-vltgy fgr,vwsrtd,sb-rnd,sli fri,qtz,cht,glau SS-vltgy,fgr,vwsrtd,sb-rnd,sli fri,qtz,cht,glau SS-vltgy,fgr,vwsrtd,sb-rnd,sli fri,qtz,cht,glau SS-vltgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,cht SS-vltgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,cht SS-vltgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,cht SS-vltgy,fgr,vwsrtd,sbmng-sbrnd,$1i fri,qtz,cht SS-vltgy,fgr,vwsrtd,sbang-$brnd,sli fri,qtz,cht ,occ pyr cmt ,tr pyr cnKc ,occ glau,occ pyr,tr calc ,pyr lam, occ 91au,tr calc ,occ glau ,oct 91au ,occ glau,occ pyr SS-vltgy,fgr,vwsrtd SS-vltgy,fgr,vwsrtd SS-vltgy,fgr,vwsrtd SS-vltgy,fgr,vwsrtd SS-vltgy,fgr,vwsrtd SS-vltgy,fgr,vwsrtd SS-vltgy,fgr,vwsrtd SS-vltgy,fgr,vwsrtd ,sbang-sbrnd,sli fri,qtz,cht,occ glau ,sbang-sbrnd,sli fri,qtz,cht,occ glau ,sbang-sbrnd,sli fri,qtz,cht,occ glau,tr pyr ,sbang-sbrnd,sli fri,qtz,cht,occ glau ,sbang-sbrnd,sli fri,qtz,cht,occ glau, tr pyr ,sbang-$brnd,$1i fri,qtz,cht,occ glau,tr pyr ,sbang-sbrnd,sli fri,qtz,cht,occ glau,tr pyr ,sbang-sbrnd,sli fri,qtz,¢ht,occ glau,tr pyr SS-vltgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,¢ht,occ glau,tr pyr SS-vltg¥,fgr,vwsrdtd,sbang-sbrnd,sli fri,qtz,cht,occ glau SS-n~jy,fgr,vwsrtd,f lam, sbang-sbrnd,wcmt,qtz,brn cly,wht carb cmt,tr glau,pyr SS-vltgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,¢ht,tr glau,tr pyr,tr calc SS-vltg¥,fgr,vwsrtd,sbang-$brnd,sli fri,qtz,cht,tr glau,tr pyr,tr cal¢ 1 - 12 Company Wel 1 : ARCO ALASKA, INC. : POINT NcINTYRE #7 C O R E CORE LABORATORZES Field : POINT ltcINTYRE Formation : EXPLORATION ANALYSIS RESULT File No.: Date : BP-3-13B3 28-Apr- 1990 SAMPLE NUMBER DEPTH ft PERHEABZLITYI (HORIZONTAL) Kair 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 13895.2 13896.2 13897.3 13898.2 13899.2 13900.2 13901.2 13902.2 13903.2 13904.3 13905.2 13906.2 13907.2 13908.2 13909.2 13910.2 13911.2 13912.2 13913.3 13914.2 13915.2 13916.2 13917.1 13918.1 13919.1 553. 511. 571. 536. 601. 731. 596. 584. 416. 262. 548. 707. 538. 676. O. 899, 934. 475. 88, 239, 376, 96, 482, 807. 647. O5 POROSITY (HELZUM) 24.2 24.3 25.7 25.3 25.6 26.6 25.5 25.6 25.1 23.7 25.7 26.4 25.7 26.1 6.1 25.0 25.6 24.3 20.4 22.4 23.4 20.5 23.4 23.7 21.4 SATURATION (PORE VOLUME) 0IL WATER GRAIN DENSITY gm/cc DESCRIPTION 5.7 6.9 4.0 4.0 5.9 3.5 4.3 5.1 4.9 6.5 3.5 4.9 4.8 5.8 3.5 4.0 5.2 5.6 8.7 7.5 8.8 6.2 6.7 6.8 6.0 72.0 69.7 68.5 71.2 68.6 69.3 67.4 70.8 73.6 74.0 75.0 69.1 75.5 72.3 82.0 72.1 75.1 75.1 72.1 67.1 65.7 66.8 71.4 72.3 70.1 2.66 2.67 2.69 2.71 2,69 2,68 2,67 2 71 2,72 2,79 2,67 2,68 2,68 2,69 2.70 2.65 2.65 2.68 2.81 2.75 2.73 2.85 2.72 2.66 2.65 SS-vltgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,cht,tr glau,tr pyr,tr calc SS-vltgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,cht,tr glau,tr pyr,tr calc SS-vltgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,cht,tr glau,tr pyr,tr calc SS-vltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,cht,tr glau,tr pyr SS-vltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,cht,tr glau,tr pyr SS-vltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,cht,tr glau,tr pyr SS-vltgy,fgr,vwsrtd,sban§-rnd,wcmt,qtz,cht,tr glau,tr pyr SS-vltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,cht,tr glau,tr pyr SS-vltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,cht,tr glau,tr pyr SS-vltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,cht,tr glau,tr pyr SS-vltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,cht,tr glau,tr pyr SS-vltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,cht,tr glau,tr pyr SS-vltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,cht,tr glau,tr pyr SS-vltgy,fgr,vwsrtd,sbang-rnd,wcmt,qtz,cht,tr glau,tr pyr SS-mgy,fgr,wsrtd,f lam, sbang-rnd,vwcmt,qtz,brn cly, occ pyr SS-vltgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,cht,occ glau SS-vltgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,cht,occ glau SS-vltgy,fgr,vwsrtd,sbang-sbrnd,sli fri,qtz,cht,occ glau SS-vltgy,fgr,vwsrtd,sbang-sbrnd,wcmt,qtz,cht,occ glau SS-vltgy,fgr,vwsrtd,sbang-sbrnd,wcmt,qtz,cht,occ glau SS-vltgy,fgr,vwsrtd,sbang-sbrnd,wcmt,qtz,cht,occ glau SS-vltgy,fgr,vwsrtd,sbang-sbrnd,wcmt,qtz,cht,occ glau,cnfc frac SS-vltgy,fgr,vwsrtd,sbang-sbrnd,wcmt,qtz,cht,occ glau SS-vltgy,fgr,vwsrtd,sbang-sbrnd,wcmt,qtz,cht,occ glau SS-vltgy,fgr,vwsrtd,sbang-sbrnd,wcmt,qtz,cht,occ glau 1 - 13 CONVENTIONAL CORE STATISTICAL DATA AND SURFACE CORE GAMMA LOG Company : ARCO ALASKA, INC. Well : POINT McINTYRE #7 ANALYTICAL R 0 C E CORE D U R LABORATORIES Field : POINT NcINTYRE Formati on : EXPLORATION ES AND QUALITY File No.: BP-3-1383 Date : 28-Apr- 1990 ASSURANCE HANDLING & CLEANTNG AMALYSIS rnre Transportation : AIR FREIGHT vent : TOLUENE ~raction Equipment : CENTERFUGE Extraction Time : 48 HOURS Drying Equipment : VACUMM OVEN Drying Time : 48 HOURS Drying Temperature : 180 DEG. F. Grain volume measured by Boyle's Law in a matrix cup using He Bulk volume by Archimedes Principle Water saturations by Dean Stark Oil saturations by weight difference in Dean Stark Permeabilities measured on I in. diameter drilled plugs Core Ga~mna Composite REMARKS Mercury was the fluid used for bulk volume measurements. Twenty-six degree oil was used for oil saturation calculations. Company Well CORE LABORATORIES : ARCO ALASKA, INC. : POINT NcINTYRE #7 Field Formation TABLE I : PO !NT Mc INTYRE : EXPLORATION SUNHARY OF ZONE AND CUTOFF DATA CORE CHARACTERISTICS File No.: BP-3-1383 Date : 28-Apr- 1990 REHAINING A FTJ~ R CUTOFFS ZONE: Identification ........ Top Oepth Bottom Oepth ............. Number of Samples EXPLORATION 13555.0 ft 13919.3 ft 360 DATA TYPE: Porosity Permeability (HELIUM) (HORIZONTAL) Kair CUTOFFS: Porosity (Minimum) Porosity (Maximum) Permeability (Minimum) --- Permeability (Maximum) --- Water Saturation (Maximum) Oil Saturation (Minimum) - Grain Density (Minimum) -- Grain Density (Maximum) -- Lithology Excluded 0.0% 100.0 % O. 0000 md 100000. md 100.0 % 0.O% 2. O0 gm/cc 4. O0 gm/cc NONE ZONE: Number of Samples Thickness Represented - POROSITY: Storage Capacity Arithmetic Average .... Minimum Maximum Median Standard Deviation .... GRAIN DENSITY: Arithmetic Average .... Minimum Maximum Median Standard Deviation 360 360.0 ft 6480.4 ~-ft 18.0 % 1.6% 26.9 % 17.6 % +4.6 % 2.87 gm/cc 2.64 gm/cc 3.56 gm/cc 2.72 gm/cc ±0.24 gm/cc PERMEABILITY: Flow Capacity Arithmetic Average Geometric Average Harmonic Average Minimum Maximum Median Standard Dev. (Geom) -- 39020.8 md-ft 108. md 12.1 md 0.75 md 0.01 md 1871. md 9.91 md K.iO±1'090 md HETEROGENEITY (Permeability): Dykstra-Parsons Var. -- Lorenz Coefficient 0.941 0.714 AVERAGE SATURATIONS (Pore Volume): Oil Water 8.2% 72.9 Stat I - 1 I, ~0000. iOOO.O O.Oi 0 Permeabili~y vs. Porosity o,. + ++ + 6.0 i2.0 i8. Helium Porosity: 30.0 ARCO ALASKA. ZNC, POZNT Hc'rNTYRE PO'tNT HcZNTYRE 13555.0 - t39t9.3 FEET 2~-.Jun-J, ggo - LEGEND - EXPLO~ATiO~,~ tO0 Porosity Histogram ~00 go BO 7O 6O 5O 40¸ 3O 2O tO 0 L.O , / / / 5.0 g. 0 '~. 0 t7.0 ~t. 0 25.0 Helium gO BO 7O 8O 5O 40 io o _1 ~0 ~ PO · ~0 0 BB. 0 ARCO ALASKA. ZNC, POZNT McZNTYRE ~7 POZNT Mc ZNTYRE L3555.0 - ~3g:tg.3 Core LeborB~or~e~ 2g-Jun-~ggo Anchorage 3EO Bemplem U r_ go O0 7O 80 5O 4O 3O 2O Permeability Histogram ~00 .OB .7t Horizontal Permeability /// i I / / / / / / / I ! i I i i I i 6. 45. 362. (A~r) · md 9O 8o 7o 5O 4O 3O 2O 2898. (.1 ARCO ALASKA. POTNT Hc TNTYRE PQZNT HcZNTYRE ~.3555.0 - ~.3g~.g. 3 Core Lmborm~or tee P.5-Jun-f. ggO -I tEIVED -- - Nedlln Value ............ ;mom. A~rtm. o~ .... cumulml:tvl Frequency _ And~:orage 360 SO0 Grain Density Histogram go 8O 7O BO · o :. 4O 9O BO 7O BO 5O 4O '~0 I 30 I · 20 20 tO ! 0 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 2.60 2.80 3. O0 3.20 3.40 3.60 Grain Density: gm/cc ARCO ALASKA, ZNC, POZNT McZNTYRE ~7 POZNT McZNTYRE 13555.0 - i39i9.3 Core Laboratories 25-Jun-tBgO u. --- Nedton Value (2.72) ............ Art~h. Average (2.87) - -Cumulative Frequency POINT McTNTYR£ #7 POINT HcINTYRE 13555.0 -- 13919.3 FEET C~re Luborc~tor le,~ 25--J un--1890 Vert lcQl ScQle 5. O0 In -- 100. 0 ft [iiii!i!i!i!i!iii!i) - Llthology Legend - Conglomerete ~ Slltstone Cum. Curve Wc]ter S(]t: Depth Helium ~oro.it¥ Oil Sat Gr Feet io. 3o :~_: , ' ' ' ' , ' ' ' ' ' , ,,,,o [ ' .... : .... }':':':':':':':':'1 ~:~:~:~:~:~:~:~:~ I:~:~:~:~:~:~:~:~:1 ~-.-.-.'.'.-.-.-.-I I~'~* ~ ~1 ,................., I:-:.:.:-:-:-:.:-:1 I-:.:.:-:-:-:-:-:-I i::::':':::::'::::l ~:,:. "~:_. I.:-':'::.:.':'-:.1 !:::::::::::::::::1 i:::::::::::::::::1 Attachment # Daily Operations Summary Well M-29 02/22/91 Accept rig from Well M-28 at 1900 hrs 2/21/91. Skid rig to Well M-29. Begin N/U diverter. 02/23/91 Finish N/U diverter system. Test casing and diverter to 500 psi. RIH. Drill cement from 363'-458'. 02/24/91 Clean out cement with 17-1/2" bit to 997' Underream inside 26" casing to 22" from 340'-g95'. Displace seawater from hole with mud. RIH with directional drill g95'-1048' 02/25/91 Directionally drill with mudmotor from 1048'-1455' and taking GSS surveys. P/U 22" underreamer and open hole from 995'-1207'. 02/26/91 Underream to 22" from 1207'-1446'. R/U and run 33 jts of 16"; 75#/ft; K-55 buttress casing. Preparing to land casing. 16" Casing Detail 30" MSS to Rotary Table FMC Mandrel Hanger 32 Jts 16", 75# Butt K-55 Butt Halliburton Float Collar 1Jt 16", 75# Butt K-55 Butt Halliburton Float Shoe FROM TO 0.00 80.40 80.40 83.13 83.13 1395.70 1395.70 1397.62 1397.62 1439.35 1439.35 1440.90 02/27/91 Fin running 33 its of 16" 75# K-55 buttress casing. Run 5" stabin string. Circ and recip casing. Cemented with 1600 sx TLW and 600 sx of Class "G" both with additives. WOC. Begin N/D diverter system. 02/28/91 N/U diverter. N/U unihead and dryhole tree. Prep to skid. Released rig to Well M-28 at 1700 hrs 2/27/91. Will continue operations when frac job on M-28 is complete. 03/29/91 Accepted rig from Well M-28 at 1430 hrs 3/28/91. N/D dry hole tree. N/U 16-3/4" risers, BOP stack and lines. Started testing BOP's. 03/30/91 Tested BOP's. Tested casing. RIH. Drilled shoe and 5' fomation to 1460'. CBU. Tested shoe to 14.0 ppg EMW. Drilled from 1460' to 1530' CBU. POOH. BHA. RIH.. Drilled and underreamed to 17.5" from 1530' to 1721'. 03/31/91 Drilled and underreamed to 17.5" from 1721' to 2388' taking single shot gyros. 04/01/91 Drilled and underreamed to 17.5" from 2388' to 2752' taking single shot gyros. Torqued up. POOH. Left retaining pin and both arms of underreamer in hole. Wait on fishing tools. M/U globe basket and RIH mill over fish. POOH. No recovery. 04/02/91 Made two runs with globe basket to recover underreamer ams with no recovery. Made two runs with magnet and recovered fine metal shaving. RIH with 11-3/4" mill and drill rods inside and attempted to latch fish. No recovery. RIH with 12-1/8" millshoe and mill over fish. RIH w/millshoe and drill rods, attempted to latch fish. POOH, no ,~-~.. 04/03/91 RIH with magnet and cut lip guide. POOH. Recovered retaining pin for nderreamer arms. RIH with diverter tool and set 600 sx cement plug from 2752' to 2352'. POOH 6 stds. Circulated. POOH. Tested BOP's. RIH to 16" shoe. WOC. 04/04/91 RIH tag cement at 2361' ¢leanout cement to 2500'. POOH. P/U motor ssembly. RIH. Directionally drili and survey f/2500'-2619'. 04/05/91 Directionally drill and survey from 2619'-3258', 04/06/91 Directionally drill and survey f/3258'-3770'. POOH. P/U 17-1/2" underreaming bottomhole assembly. 04/07/91 TIH. Underream hole to 17-1/2" f/1450'-3035'. 04/08/91 Underream hole to 17-1/2" f/3035'-3760'. CBU. 04/09/91 P/U into 16" csg. Cleanout cmt and underream to 1450'. RIH C&C mud. POOH. R/U to run csg. Running 13-3/8", 68# and 61#, K-55 casing. 13-3/8" "Casing Detail RT to Csg Landing Shoulder FMC Hanger & Pup Jt 65 Jts 13-3/8", 61# Butt K-55 22 Jts 13-3/8", 61# Butt K-55 Float Collar 2 Jts 13-3/8", 61# Butt K-55 F1 oat Shoe 04/10/91 FROM TO 0.00 78.83 78.83 81.75 81.75 2808.12 2808.12 3671.77 3671.77 3673.37 3673.37 3753.84 3753.84 3755.64 Finish running 13-3/8" casing. Cemented w/1600 sxs TLW w/additives and 600 sxs Class "G" with additives. (CIP at 2330 hrs 4/9/91) Set packoff, test pulled 50000# and test void to 5000 psi. W.O.C. Changing top pipe rams to 5". 04/11/91 Changed top pipe rams. Started testing BOP's. Started to leak around test plug, pulled same. Left testplug bushing in hole. Prep to N/D. P/U stack, retrieved testplug bushing. N/U BOP's and finished testing same. M/U BHA. RIH. Drilled float equip, cmt, and formation to 3775'. CBU. Tested shoe to 14.0 ppg EMW. Displaced with polyer mud. 04/12/91 Finished building polymer mud. Drilled and surveyed from 3775' to 4260'. 04/13/91 Drilled and surveyed from 4260' to 4906'. 04/14/91 Drilled and surveyed from 4906' to 4948'. Tripped for bit. Drilled and surveyed from 4948' to 5298'. ,~f~sk~ Oil & Gas Oo~s. Anc.ho~ge. 04/15/9! Drilled and surveyed from 5298' to 5486', CBU, Short tripped to 4360', Drilled and surveyed from 5486' to 5777'. 04/16/9! Drilled and surveyed from 5777' to 5959', CBU, Short tripped to 4930', Drilled and surveyed from 5959' to 6t95', 04/t7/9! Drilled and surveyed from 6~95' to 6285', POOH. Tested BOP's, R[H. Drilled and surveyed from 6258' to 640~'. 04/18/9! Drilled and surveyed from 640~' to 6682', Short tripped to 47~2', Drilled and surveyed from 6682' to 67~5'. 04/[9/9! Drilled and surveyed from 67~5' to 7~52'. 04/20/9! Tripped for bit, Drilled and surveyed from 7~72' to 7344', 04/2t/9! Drilled and surveyed from 7344' to 1529', Short tripped to 6580'. Drilled and surveyed from 7529' to 7565'. POOH for new bit, R[H, 04/22/9! Finished RIH with new bit, Washed 7530'-7565', No fill, Drilled and surveyed from 7565' to 7999'. 04/23/9! Drilled and surveyed from 7999' to 8044'. Circulated, Short tripped to 7~54', Hole pulled tight 7832'-7800' and 7550'-7530', Drilled and surveyed from 8044' to 83t5', 04/24/9! Drilled and surveyed from 83~5' to 84~6', Circulated, Short tripped to 6588', Drilled and surveyed from 84~6' to 8676'. 04/25/91 Drilled and surveyed from 8676' to 8726'. POOH. Tested 80P's. RIH. Drilled and surveyed from 8726' to 8823'. 04/26/91 Drilled and surveyed from 8823' to 9065'. Short tripped. Drilled and surveyed from 9065' to 9142'. 04/27/91 Drilled and surveyed from 9142' to 9392'. Short tripped. Drilled and surveyed from 9392' to 9454'. 04/28/91 Drilled and surveyed from 9454' to 9602'. Tripped for bit. Drilled and surveyed from 9602' to 9657'. 04/29/91 Drilled and surveyed from 9657' to 10,041'. Short tripped. Drilled and surveyed from 10,041' to 10,048'. 04/30/91 Drilled and surveyed from 10,048' to 10,254'. Started POOH. Pipe stuck. Jarred same free. POOH. 05/01/91 Tested BOP's. RIH. Washed and reamed from 9922' to 10,254'. Drilled and surveyed from 10,524' to 10,346'. 05/02/91 Drilled and surveyed from 10,346' to 10,624'. Short tripped to 9700' Hole pulled tight to 10,248'. Drilled and surveyed from 10,624' to 10,673;. 05/03/91 Drilled and surveyed from 10,673' to 10,928'. short tripped to 9130'. Hole pulled tight 20-80K. Drilled and surveyed from 10,928' to 10,943'. 05/04/91 Drilled and surveyed from 10,943' to 11,117'. Circulated Short tripped to 8330'. Hole pulled tight, 40-70K, first 2 stands. Circuiated. Dropped survey. POOH. 05/05/91 Finished POOH. Logged. RIH with AMS/Phasor/GR/BHC/SP tagged at 7230' WLM. POOH. Logged BHC/GR 11 115'-8080' WLM. Logged Phasor/GR/SP 11,115'-3755' WLM. Logged FDC/CNL/NGT/CAL ~1,115'- 8080' WLM. Rigged down wireline. RIH with bit. 05/06/91 Finished RIH with bit. Circulated and conditioned hole. POOH. Hole tight at 11,065'. RIH with RFT/GR. Took pressure readings at 9626' and 9551'. Tool stuck. Attempted to work free. Rigged up and stripped over wireline. 05/07/91 Stripped over wireline to 8350' Circulated. Attempted to strip in hole. Circulated. Stripped over wireiine to 8440'. Attempted to pull out of rope socket. POOH with drill pipe. Hole tight at 7932' Worked pipe. RIH to 8394' could not work deeper. Circulated. POOH with drili pipe to 7932'. Hole tight. Circulated. Worked pipe. Pipe stuck. Worked pipe. 05/08/91 Alternately worked stuck pipe 7937' and circulated. Dropped wire line cutter and worked down. Dropped detonator bar and cut wire line. POOH with wireline, recovered 4621'. Circulated and worked stuck pipe at 7938'. RIH with string shot and backed off pipe at 4521WLM. POOH with drill pipe. POOH with drill pipe. Recovered 48 stands drill pipe (4521.23' SLM). BHA picked up jarring assembly. 05/09/91 Screwed into fish at 4521' and jarred on same. R.U surface jars and jarred on pipe. R/D surface jars. Jarred fish. RIH w/ stringshot. Set down at 4957' WLM. Made backoff at 4930' WLM. POOH R/D W/L. POOH. Recovered 13 its DP, 408.50'. TOF 4929' DPM. P/U washpipe and RIH. Started washing over fish at 4929' . 05/10/91 Washed over fish. POOH. Recovered 60' W/L. No indication of going over fish. Made trip with wireline spear with no recovery. RIH with washpipe and attempted to get over fish w/o success. POOH. RIH with bent JT DP. Screwed into fish, lost torque. POOH. Recovered 106' of d.p. M/U wireline spear and RIH to csg shoe. Slipped and cut drilling line. 05/11/91 RIH. CBU. Fished for W/L. POOH. Recovered 445' of wireline. RIH with cutlip guide, hollow mill, and 5" grappl. Attempted to latch fish w/o success. POOH. M/U hook wall guide, hollow mill,e5'' grapple and bent joint of DP. Attempted to latch fish w/o success. POOH. L/D hollow mill. RIH. Latched onto fish. 05/12/91 R/U wireline and made two attempts to get inside of fish w/o success. R/D wireline. Released overshot, POOH. P/U joint of washpipe and washed over fish to 5074' POOH. RIH w/external cutter and cut fish at 5055'. POOH. Recovered 15.50' o~ fish. RIH with overshot. 05/13/91 RIH and latched onto fish. Unable to circulate. RIH w/freepoint. 100% free at 5215', stuck at 5245'. Made backoff at 5215'. POOH. Recovered 4 its and I cut joint, total 154'. RIH w/wireline spear, to TOF. Pulled 25K over string wt. POOH. No recovery. RIH with spear to TOF. POOH, no recover. Start P/U washpipe. 05/15/91 Fished for wireline with no recovery. RIH with external cutter and made cut at 5588' POOH. Recovered 5 its and I cut piece. RIH with wireline spear and fisheJ for wireline at 5588'. POOH. Recovered 1363' of wireline. P/U mill shoe and 9 jts of washpipe and RIH. 05/16/91 RIH with washpipe and washed over fish to 5855' POOH. RIH with over shot latched fish. R.U wireline, ran freepoint and ~ade backoff at 6064' WLM. POOH. Recovered 14 its and 1 cut joint. TOF 6056'. P/U washpipe and RIH. Washed over fish 6056' to 6126'. 05/17/91 Washed over fish from 6126' to 6130'. Tripped for millshoe. Washed over fish to 6321'. POOH. P/U screwin sub and RIH. Screwed into fish established circulation, CBU while jarring on fish. R/U wireline and RIH with stringshot, unable to get below 6087'. POOH removed 2 sinker bars. RIH, unable to get below 6087'. POOH. Attempted blind backoff w/o success. RIH with stringshot, made backoff at 6056'. POOH. 05/18/91 Finished POOH. RIH with washpipe and external cutter. Made cut at 6311'. POOH. Recovered 8 joints and one cut piece. RIH with overshot and latched onto fish. R/U wireline and RIH with freepoint. 'Pipe stuck at next tool joint. POOH, R/D wireline. Shuck overshot and POOH w/DP. 05/19/91 POOH. RIH with washpipe and washed over fish to 6578'. CBU. POOH. RIH with overshot. Latched onto fish. CBU while jarring on fish. R/U W/L freepoint and made back off at 6566' WLM. POOH. Recovered 7 its and i cut it, total length 248.80'. TOF 6560' DPM. RIH with washpipe. 05/20/91 Washed over fish to 6826' Sub in safety joint crossthreaded into fish. CBU while jarring on fish. R~U W/L and made backoff at 6813' WLM. POOH, R/D W/L. POOH. Recovered 8 its DP TOF 6807' DPM. Made trip with W/L spear. No recovery. P/U washpipe and RIH. 05/21/91 Washed over fish from 6807' to 7065' CBU. POOH. RIH and screwed into fish. Jarred on same. RIH with freepoint ;nd hit obstruction at 6960'. POOH. Made backoff attempts with stringshot at 7116' and 7056' WLM w/o success. Made backoff at 6871' WLM. POOH, R/D wireline. POOH. Recovered two jts DP. TOF 6868' DPM. P/U external cutter and WP and started RIH. 05/22/91 RIH and washed over fish. Made external cut. POOH. Recovered 6 its and I cut it. TOF 7060' DPM. RIH with W/L spear, fished for W/L, POOH recovered approximately 200' of W/L and 1' piece of DP 2" wide. RIH with cleanout BHA and reamed 4500'-6988'. CBU. 05/23/91 Finished CBU. POOH with bit. RIH With wash pipe. Washed over fish 7060'-7370'. CBU. POOH. RIH with overshot latched fish at 7058' jarred fish, could not circulate. RIH with spud bars on wireline to 7124'. POOH. RIH with string shot. Backed off drill pipe at 7122'. POOH. 05/24/91 Finished POOH with fish. Recovered 1 joint and i cut off piece. Recovered 59.48' drill pipe. RIH with external cutter. Cut HWDP at 7300'. POOH. Recovered 600' wireline and 183.57' HWDP. RIH with washpipe. Washed over fish 7300'-7568'. POOH. RIH with overshot. TOF @ 7300'. 05/25/91 Finished RIH with overshot. Latched fish at 7300'. Jarred. RIH with free point. Pipe free 7560'. POOH. RIH with string shot. Backed off HWDP at 7567'. POOH. Recovered 8 joints and I cut piece. RIH with wash pipe. Washed over fish 7567'-7837'. POOH. RIH with screw in sub. TOF 7567'. 05/26/91 Finished RIH with screw in sub. Screwed into fish at 7567'. Jarred. RIH with string shot. Backed off fish at 7636' WLM. POOH with drill pipe. Recovered 59.56' HWDP. RIH with external cutter. Attempt to cut HWDP at 7778'. POOH no recovery. Redressed cutter. RIH with external cutter. Tagged up at 7209'. POOH. 05/27/91 Finished POOH with external cutter. RIH with bit and stabilizers to 6800'. Washed and reamed 6800'-7626'. CBU. POOH. RIH with external cutter. Attempted to make cut on fish at 7746'. POOH. 05/28/91 Finished POOH with external cutter. No recovery. Knives failed. RIH with new external cutter. Attempted to cut HWDP at 7778'. Pipe stuck. Jarred free. POOH. No recovery. RIH with screw in sub and jarring assembly. Screwed into fish at 7627'. Jarred on fish and worked torque downhole. RIH with stringshot. Backed off jarring assembly. POOH. Left screw in sub in hole. 05/29/91 RIH with washpipe. Washed over fish 7625'-7932'. Could not wash deeper. POOH. RIH with screw 'in sub to 7625'. Could not locate fish. Washed down to 7933'. Screwed into fish. POOH with fish. Recovered g joints HWDP, I joint drill pipe, sump in sub, and overshot, full recovery. Recovered 250' wireline in fish. Laid down washpipe from derrick. 05/30/91 Finished laying down pipe from derrick. RIH with wireline spear. Could not work spear below 7945'. POOH recovered 50' wireline. RIH w/bit. Washed and reamed 7600'-7955'. Hole tight 7932'-7947'. Circulated. POOH. RIH with wireline spear. 05/31/91 Finished RIH with wireline spear. Fished for wireline 7955'-7981' POOH. Recovered 50' wireline. RIH with wireline spear. Fished for wireline 7981'-8090'. POOH. Recovered 400' wireline. RIH with wireline spear. Fished for wireline 8090'-8360', could not work deeper. POOH recovered 25' and birds nest of stranded wire. RIH with wireline spear. Fished for wireline 8360'-8456'. POOH. Recovered 60' wireline. 06/04/91 Finished POOH with wireline spear recovered remaining wireline and rope socket. RIH with overshot. Washed g028'-9531'. Latched fish. POOH. Recovered RFT tool. Rigged down fishing tools. RIH with bit to casing shoe. Restrung block to 12 line. RIH, picking up drill pipe. 06/05/91 RIH to 8524'. Reamed hole 8524'-10,611'. Had to re-ream hole several times each stand to keep the hole open. Short tripped to 8605'. Had tight spots 10,656'-10,250'. Reamed hole 10,661'-11,117'. Re-reamed several times each stand to keep hole open. Hole packing off below 11,070'. 06/06/91 Circulated and conditioned mud. Unable to keep hole open past 11,070'. Short tripped to 9500'. Circulated and conditioned mud. POOH. R/U and started running 9-5/8" casing. 06/07/91 Ran 9-5/8" and 10-3/4" casing, landed same with shoe at 11,038'. Circulated and conditioned mud. Pumped prefluid and prep to cement. 9-5/8" Casing Detail FROM TO RKB to Hanger FMC Hanger 9 its 10-3/4, 55.5 BTC L-80 1 jt 10-3/4, 51 BTC L-80 1 jt 10-3/4 x 9-5/8" crossover 36 its 9-5/,8,", 47# BTC L-B0 3 its 9-5/8 , 47# AB MOD L-80 2 its 9-5/8", 47# BTC L-80 34 its 9-5/8", 47# AB MOD L-80 56 its 9-5/8", 47# BTC L-80 123 its 9-5/8", 53.50# BTC L-80 I Float Collar 2 its 9-5/8", 53.50# BTC L-80 I Float Shoe 0.00' 77.02' 77.02' 79.69' 79.69 459.98 459.98 482.03 482.03 484.27 489.27 1925.46 1925.46 2053.18 2053.18 2130.97 2130.97 3552.18 3552.18 5727.27 5727.27 10956.15 10956.15 10957.84 10957.84 11036.37 11036.37 11038.05 06/08/91 Cement 9-5/8" and 10-3/4" casing with 2600 SX. CIP at 1000 hrs 6/07/91. L/D landing joints. Set and tested 10-3/4" packoff to 40K overpull and 5000 psi. Repaired guard around top drive. 06/09/91 Tested BOP's. P/U 8-1/2" BHA. Change in orders. Set stormpacker at 645'. N/D BOP's. Prep to skid, and released rig to Well M-28 at 2000 hrs 6/08/91. 06/12/91 Flowed well until water cut dropped to 40%. Shut in well. RIH w/CT and tagged fill at 12,733' CTM. Washed fill to 12,853'. POOH w/CT. R/D CTU and lubricator. Prep to skid to Well M-29. 06/13/91 Prep to skid to Well M-29. Skid rig from Well M-28 to Well M-29. Grippers started to slip on bad spot on skid rails. Repaired gripper and built clamp to stop slippage. Finished skidding rig. Nippled up BOP's. Retrieved RTTS. Wash out wellhead. Started testing BOP's. Found leak in flange. Broke stack to replace ring gasket. 06/14/91 Release rig from Well M-28 to Well M-29 6/13/91 at 0600 hrs. Tested BOP. RIH with bit. Tagged at 10,862'. Circulated. Tested casing to 4000 psi for 30 minutes. Drilled ratty cement 10,862'-11,018'. Tested casing to 4000 psi. Pressure bled to 3600 psi in 15 min. Drilled ratty cement to 11,038'. Reamed to 11,045'. Hole packed off. Circulated. Tested shoe to 2800 psi. EMW 15.0 ppg. Circulated. 06/15/91 Circulated and raised mud weight to 13.0 ppg. Washed and reamed hole 11,046'-11,094'. Hole packing off 11,046' ,11,078' ,11,088', and 11,094'. Pipe stuck and lost returns at 11,094'. Jarred and worked pipe free. Hole packed off and pipe restuck. Worked pipe free. Pull up into casing shoe. Pipe still packed off. Established circulation. CBU. POOH. 06/16/91 Finished POOH with bit. Laid down junk baskets. RIH w/bit. Washed and reamed 11,023'-11,117'. CBU. Short tripped to casing shoe and waited. RIH had 1' fill. POOH. RIH with core barrel. Washed 11,038'-11,125'. Had 6' fill. 06/17/91 Conventionally cored 11,125'-11,150'. POOH. Laid down core, recovered 24.4'. RIH with bit. Washed and reamed 11,121'-11,150'. Hole tight 11,130'-11,145'. Drilled 11,150'11,172'. Picked up for connection, hole tight 11,145'. Reamed several times 11,145'-11,172'. 06/18/91 Rotary drilled 11,172'-11,190'. Circulated up samples. Drilled 11,190'-11,200'. Circulated up samples. Drilled 11,200'-11,322'. 06/19/91 Rotary drilled 11,322'-11,351'. CBU. Rotary drilled 11,351'-11,414' CBU. Tripped for bit. 06/20/91 · , · . . Finished RIH Drilled from 11 414' to 11,481' CBU POOH ' picking up coring BHA. O0'T .,a~as~a 06/21/91 Made up coring assembly and RIH. Cut oriented core from 11,481' to 11,499'. CBIJ. POOH. Recovered 13.5' of core. RIH. Started cutting core #3 from 11,499' to 11,504'. 06/22/91 Cut oriented core from 11,504' to 11,514'. CBU. POOH. Recovered 17.8' of core. RIH w/bit and drilled from 11,514' to 11,588'. 06/23/91 Drilled from 11,588' to 11,692'. Made short trip to shoe. Drilled from 11,692' to 11,761'. 06/24/91 Drilled from 11,761' to 11,841'. Made short trip to shoe. Drilled from 11,841' to 11,886'. 06/25/91 Drilled from 11,886' to 11,896'. CBU. Short tripped to shoe. Circ and cond mud. POOH. R/U wireline. RIH w/DIL sonic GR and logged from 11,893' to 11,038'. RIH w/FMS GR AMS to 11,893'. POOH and work on same. RIH and started logging w/FMS GR AMS from 11,893'. 06/26/91 Finished logging w/FMS GR AMS. RIH and logged w/LDT CNL GR AMS, 11,893' to 11,038'. POOH, R/D wireline. RIH w/bit to 11,896'. CBU. POOH. M/U cement retainer and RIH w/same to 10,988'. 06/27/91 Set retainer at 10,988'. Tested casing to 2400 psi. Displaced drillpipe with water and stung into retainer. Monitored pressure. ISIP-2450 FSIP 2580 reversed water. Mixed and pumped 100 sx cement. Displace drill pipe stung into retainer and squeezed 15 bbl cement below retainer. TOC ~ 10,938'. Reverse circulated. POOH. RIH with bit and scraper. Circulated. Tested casing to 2450 psi for 30 minutes. Displaced casing with 10 ppg mud. POOH. 06/28/91 Finished POOH with bit. Logged repeat sections CET/CBT/GR/CCL 10,800'-10,500' with 0,500,1000,1500 psi. Logged CET/CBT/GR/¢CL 10,920'-3600' with 1000 psi. Tested BOPE. 06/29/91 Finished testing BOPE. Ran GDS gyro survey 10,892' to surface. RIH with bit and scraper. Displaced mud with FIW. Circulated. Displaced FIW with 34 KCL water. Circulated and filtered. 06/30/91 Circulated and filtered. POOH with bit and scraper. RIH with TCP guns and DST equipment. RIH with GR/CCL and correlated perf guns. Rigged up to set packer. 07/01/91 Set packer at 10,278'. Opened PCT valve. Perforated 10,312'-10,472' flowed well for 5 min. Shut well in for 60 min. Flowed well to bubble bucket for 3 hours. Reversed out oil and water from drill string. Pulled packer. CBU. Monitored well, losing 38 bbl/hr. Spot HEC pill. Monitored well initially lost 36 bbl/hr., reduced to 4 bbl/hr. POOH. Laid down TCP guns. 07/02/91 Finished laying down TCP guns. RIH with isolation packer assembly. Set packer at 10,100'. POOH with running tool. RIH with packer plug. Latched plug into packer. Tested at 2000 psi for 10 min. spotted sand on top of packer and plug. POOH with running tool. 07/03/91 POOH with packer plug running tool. RIH with TCP guns and DST valve assembly. RIH with GR/CCL and correlated TCP guns. Spaced out drill string. Perforated G Zone 9,190'-9420' DIL. Flowed well for 5 min. Shut in well for 60 min. Flowed well for 3 hrs. Had fluid to surface in 50 minutes. Recovered 69 bbl of fluid. Opened SARV valve. Well died. Reversed out drill pipe. Unseat packer. Monitored well. Circulated. 07/04/91 Circulated and filtered fluid. Monitored well, hole taking approx. 8 bph. POOH. L/D packer and perf guns. RIH w/plug retrieving tool. Washed sand off plug and circulated filtered KCL. Latched plug, POOH. RIH w/bit and scraper. 07/05/91 Finished RIH w/bit and scraper. Circulated and filtered KCL water. POOH, laying down drillpipe, heavy weight, and drill collars. Pulled wearbushing, set testplug and started changing top set of rams. 07/06/91 Tested ram doors to 1500 psi. R/U and run 4-1/2" production tubing. Spaced out. Landed hanger. Dropped ball and set packer at 9079'. Tested backside to 2000 psi. Sheared out ball. 07/07/91 Made 3.70 gauge ring run. Installed two way check valve. N/D BOP's. N/U tree and tested same. Pulled two way check valve. R/U slickline. RIH with shifting tool and shifted XD prod sleeve. Set "X"/lock at 9112'. Started RIH with jet pump. 07/08/91 Set jet pump. R/D slickline. Prep to skid. Rig released to Well M-13 at 1100 hours 07/07/91. \shp\m29.doc · ',',~- MARATHON OIL COMPANY ~.~ · ,¢!.~ STEELHEAD P1 ~'t~:or.m ~. .~.~ McAr-thur'. RiveF' Field, Cook Ir,'tet, AK .~s.~ E 't 1 i P s e d i me r, s i c, r'~ 5 NO T i r'~ c I u d e d i r~ ,:::;.z '1 c u '1 ,'.z'L' i o r'~ s C: a s i n ~ d i m e n ~_'-. i c, n s..'. N 0 T i r'~ c ] u d e d i r'~ ,"' a. 't c u '1 a. t i o n s p r. ,:, ::.:: i m i t'.,- r.,~,:t i u s i s :300 ,, .¢ e e t A ] ] d e F.' t h '..'.'. a.r",.:.,, i r'~ .F e e t a. r'~ d ;.'.z r'. e r- e 1: e r. e n c e d t c, t h e REF EREtqC:E WEL. L RKB F.,;~, .I.. e r. e n ,:: e F i I e lq a. m e . D g 1: I- ::: 00 0 ():3 ] P 0 () 4.::: 15 6 M A I!~; t e F'""bJ :i S e V e I"' 'J= i C' ;& ] d e P 'L" h S t ¢.::L '(' ~. 0 F! ':_:. F' I.J r'~ 'J:: F' ,:, ITl 'i~) 7 ~=~. t o "=::' 075. a. t :L n t e r'- v a. ] s c, 4= 2('). 4:: e e t ! R e .F e r. e r'~ c e :-2; 't o t N,'.z rr; e : - B 1 .... 7 ', ............ R-:.:~ '[:: e F' e I] ,:: eW e 'J 'J J J,~.lh'~=' R e q u-..~, s t e db'.,' : - B ROY A c c e ~::'1:' e d b'.,.' : .-- 0 b .J e c t...,':' 't ,:, t N Cz rr~ e s D,:z t e :-25-JAN-'..T,' ! Revision N,::, : ....7 P r- e P,~ r. e ,:.t b Y : .... T ,..iOlq E C h e c k e d b'.,.': -- ERSTMRN CHRISTENSEN Al-it M .... 14 Bi-ll M-25 Bi-1 M,-26 G-3-2 G-2! /1ERSTMRN CHRISTENSEN C AL C: U L A T I 0 N CIF L E A S T D T S TAI:4f'-:E BETMEEN WELLS F:'osition c,n L, Jeil M-29 F:loses-L- Pc, sition M D 't- V D N F; E W M D T V D on welt M-5 Dis~nce Dir-ecti ............................ Between Between NS EW Wells Wells ? 95. 1._,':' ':-'.. ':.,..._.~;. c) 0 9.. 65. S ._~ .81 W 99. 6 . 16, '? 96, .1 ._, I. 015. 1:3 1015.00 t O. 0 i '.--; 5. ::-':'T.,' W 1016,. 02 1015.98 L0:35. 14. i0:35.00 10.4-7 ::; 6.02 W 1036.0i 10:35.98 61.20 S 7:.2:.2! E ?;'4-.4-9 S56 44E 6i. 10 '.E; '72.'P'F¢ E 'F;4. 11 -':: S5/_-, 5tE /_-,0. ':-.; 8 S 72.80 E 9:3.76 .::: S57 4. E 6.0 '-"-' " ..... ' ' "-- '-'=i . ,=. ~ .=, / ,-'. o._, E ?::-":. 4- I 'C .=,._ 7 '2:2:E ,.._,._, 1, 4 i ('~5F, 00 11 02 '..2; /",. 1 'F..' W 1056.01 1055.97 LO7P; 15 lC) 75,00 1i / =' . 7._ 9 '7 .... :,._, S 6.44 W 1076, 00 10'.~. L O'::;.':'q ! 7 .1. 0 9 5 0 ("~ 12 ':' =; 'S 6 '7 6 W 10 9 6, 0 0 ! ("~ 9.=; 9,/.., L 11._, ='. 19. i i 1 ._, =' .0o. 1..., '":' .05 '.:; -'/ . ":'":' 1,4 111._, = .78 11 i ._.=;. 74 60.65 S 72.5 :L E '.:.):3. (:)5 <: S57 4/_-,E 60.49 S '72.:36 E 92.72 .::: :358 12E 60. :.2::3 S -;', .,-"-'. 22 E 9:2 .4- 2 .::] '::'._, =;._ ,_,':' 4:3 E 60. 16 S 72. 10 E 92. :36 -::Z ::359 ~.OE P;9. '.:;,8 S 72,02 E 'F.-'2, 18 .::: S 6(:) ' ,:".~E' 59.81 S '71. 'F..' 4 FZ 9"2.0:3 -::: S 60 42 E 59.63 S '71.8/_-, E ?::' 1.8'F.' .::" S 6,1 20 E 59.45 S 71.77 E 91.75 -C S/:,1 55E 215. "29 .1. 215.00 1/':,. 85 S 9.52 W 1 :;:' 15.78 12:1. 5. '74 59.26 S '7 i. '70 EE '.:.:' 1.62 .C S62 26E 2:'_-','5. :30 12:35.00 17. :37 S 9.82 W 1235.78 1235.7:3 59.03 S '71.6:3 E 91.4?.:' .::: S62 54E 255.:30 1255.00 17.'7'F' S i0.06 W 1255.7'7 1255.'73 58.81 '..2; '7!.5'7 E 275. :31 1275. ()0 18. 12:3 10.25 W 12'75.77 1275. '7:;.'.' 58.5:.2: S 71.50 E 91.2:;.':' .::" S6:3 40E 1295.31 1 '2 ? 5. C) 0 ]. 8. :36 S 10.39 W 1295.77 1295.72 58. :2:6 S 71.4.4 E "..;' 1. C):.2: <] S/...3 5'7 E:' 1:31._, =' . :311:315.00 18. '.:~_ C)_ '.:; 10.4'7 W 1:315 . :.2:1 1:3 t .5 . '76 ._'-q,_':_::. 12 '.::; 7 i . :.2:7 E 90 . ':"/..._' .':.: .::" S 6, 4 10 E 1335 ,, 2:1 1335. cE) 0 ]. 8.56 S 10.51 W 1335.8' _1. 12:35.7 L=., 57. :.2:7 '..2; 7 .1. ,, :.2:1 E '.-:? 0 ,, '77 .::'_' S 64 20 E i~'355. :.'.-:1 1355, O0 18.56 S ' 10.'51 ~W" 1355', 80' 1355.7!5 57..62 S 71.24 E 90.61 .::: S64 28E 14. F:.; 5.31 1455.00 18.56 ~.2; 10..51 W _1. 4.55.96 1455.89 56.16, ,.E; 70. 92 E 89. ,'.":. ? 'C S 65 13 E 14'75. :3 :L 14'75.00 18. !:'-16 S 10.51 W 1475.9; 6 1475.89 55.82 S 7 C). :i::6 E :3'.:::,, 50 -::" S 65 24 E 1495.31 1495.00 18.56 S 10.51 W 1495.95 1495.88 .=2;5.48 S 70.8(]} E :.2:9.30 .::: S/-,5 35E 1515. :31 .1. 5 .1. 5.00 18.56 S 10.5 ], W 15 i 6..1. 1 t 51 ,/_",. 03 5!5. 10 S 70. '74 E 89 ,, 09 < '.i.:.;65 47 E ERSTMRN CHRISTENSEN C A r"t I '-'-." 0 N r"~F E;'I" AN C Et · L ...... L~-]] I _ LtEAST DI BE'T'WEEN rd"'..ELL.:,' .... Re -F : ::~C)t:.~270, 8MA 1615.:31 1615.(")(") 18.56 S 10,51 W 1615.97 16,!5,87 53,02 S 70.42 E 87.96 <1 S/:,6 56, E t/-,25 :BI. !/-':' ~-: (')0 18 5,A S 1(-) kql W i '-' ~= .._, i 52 62 .:, 6,: ..... c.,/. /. '-' =- '::/- '-' 7 ~.] :'::'7 E 87 7/-, .... :,.:,._, .':" S/-, 7 10 E I/' .~.~l c, -' ~=-- o.=l =~'-." '-'"" - -' =-'i/- ".~._. ....... I 1/',-__..~ C)_ (]~ 18 . .=;__/', S 1 (')..._.=; 1 W 1655 .9. 6, 1 c ..... , ..... ,_,._ ..- .-., .S 70 .3:2 E ::: / . ..... <] S/_".7 2:3E ~7 o :31 1 0C) 1 ~':' =:z- '-' F -' ~-- '--~ = 675 '-' = ':' ~-, z .-, 1 (]) rs_ 1 W i .-, z .:, . .~ -_, 1 o._, 5 i :3:3 70 2 :Z: E L-:; .-': / 'C '.~:,'"'. 7 :--: 7 E 16'F/5.:3i 1695.00 18,56 S 10.51 W !695,95 16'F.~5,84 51.4:_: S 70.23 E ::.:7,18 'C S67 51E 1715.31 1715.00 18.56 S lC).51 W i715.85 1715.74 51.06 ,.E: 70. 19 E :-,'7.00 '::] S6:3 4E 17.:,._,, 31 1,.:,._ C~('~ 18 56 S 10 51 W 17:-:~.85 17._-:5.7:3 5c~ 71 S 7~]~ 14. E 86 :::::3 '-:] ::';6::: 16E ":"5= OC) 18 5,,'-, L:; lC~ 51 W 17 .... 1, ...., '72 50 37 S 7c~ !0 E :::/-, ,"_-,/-, .::_' 17_ ._~._.=;-, :3 i i / .... , . . ':i .=, . ,_,':' ._.5 ':' .5 ='- . . ,:-/. ,:, .c: E a - · -- -- . ._ . . . · 1775.3 ]. 1775.00 18. '"'/. .... / / .... 7 C~ 06 E 86.. 4.9 .::' '.:.:6:::: 4 OE :", ::. :E: 1 ,:"~ 5 t W 1 'Z-7 ~ 84. 1 -'-".=; 72 50.0 1795 31 1 '795 0 (') ~ 8 5/:, :3 1 (). 51 W 1795.84 1 7'::-~ 5.71 4. 9.67 S 7,3 () 2 E 86 3 ::: .::~ S/:, :.':~: .... :, E 1815. :3]. 1815.00 ].8. F:;6 S ].(')· 51 W 1815.7/.:", 1F:15.6,2 49. :"-':4- F; 69.9::: E. Ei:/_-,. 17 .::] S6,9 4E 18:35. ::: 1 1835.00 18.5./:, S 10..'":i i W 1F:::]-:5.7!:'";18:35.6,2 49.02 S /_-,9.94 E 8./:,. 0:3 -C S69 1/_",E 1855.31 1:355.00 18, 56 :Ei; i O. 51 W 1855.7'.=; 1855./:, 1 48,70 '.:i; 69, 91 E 85,88 .::] S,':'.,9 2'7E 1875.:2,'1 1:375.00 18.56 S 10.51 W 1875·75 1875.61 48. :2:8 S 69.:38 E :35.74 -':' S69:39E 18'!;'5.31 1895.00 18. !56 S 10, 5 ]. W 1895. '75 1895~ 60 48.07 ::i; Ag. 84 E :.'."..:5.60 .C '.:!;,,.'::,':T., 50E 1 ?.' :[ 5. :3 :L 1915. o 0 18.56 S 1 (). 51 W 1 'i.'"~ 15,63 1 '.-.-~ 15.48 4'7. '76 '.3 69'. 82 E 85 ,, 47 '::: ::; 70 C)E 19:'_::5.3t 1935.00 18.56 S 10.5I W 19:L::5.63 1935,48 47.47 '.:..]: ,'_'.:,9.80 E:' 85,35 ..'::: S70 12E 1955.31 1'!.:.'55. 00 ]. 8.56 S :L 0. !=; 1 W 1955,63 1955.4:3 47. 17 S 6'.:). 79 F 85.24 <_' S'70 23E ~ ':,'""=i ]. 197.=: .1. ('), =; 1 W I ':.) 7.':'~ 6 ii'. ]. 97.=;', 47 46 -' ''"' ':' 69.78 ':" ~'" .,.; / ._ :E: 0 0 1 '::' .~:,':", S :::,,::, .... E 1:3 .::: S 7 ("~ 3-4 E n .... u 1..I :: ..... . ....... II . -- u # ,"_.",~.~.1 · ~;t~'~5. :..-.,:.1. · 197'5, 00 1:3 .'56 :.3 10. 51 W 199/5fl'62 1'F~'~5, 4.7 46.5~ .'-_'.; Z_..,'.~. 76 E :-_--:5.02 .::] S70 45E .,~.., :: ._,. '.=;/-, '.:_:; 1 ("). 51 W '.":'(")9 f::; 41 4.._ 40 '::' 69 81 E ...... ,, t_, . _ _ .,. ...., d~.t..".._In ~: :2II5.:31 21].5,00 18.56 S 10.51 W 2115.22 2115.06 45. 1'.:;' S 6'..:.~.:34 E:' 84.64 .C $7I 4 OE 2135,3.1. 2 .1. 35.00 18.56 .'::; 10.5.1. W 2135.22 2135, 06 45,01 S 69, 8'.:.:' E 84.6:3 .::] S71 48E 2 i 55 · 31 2 i 55.00 18.56 S .1. 0.5:1. W 2155 ,, 22 2 :L :55.06 44.82 ::3 ,-::, 9.9:3 E :!34. ;32 <: S'71 55 F_- ERSTMRN CHRISTENSEN CALCLILATION OF: LEAST DISTANCE:.' BETWE"'EI'..I WE:LLS R e 'F Position c,n well M-2:'? · M D T V D N C-: E W Closest Position on welt M-5 MD -r~r,, ~,_, N'S EW D i s t'a r', c e D i r.e c t i Betmeen We] t s Wei I s · ':'":' F., 5 (')9 22.=, 4 ':'.'":' .' .g.-_-_ ~ . .-- 11 ...,~- 2'7' 75.0 5' 2274. ':.-.' 2 22'F..'5. C)8 2294. '.--./1 c,-:, 1 = 07 .~,o · _,. 14 90 4:2:. 87 S 70, 2!5 E 84,62 S 77:3/:,E 4:3.6 7 S 70. :2::3 E :-:: 4./_-, 4 '.E;7 2 4 5E 4-:3.4. :--: :.-'5: 7 A. 4 i E 84.6,/_-, S 72 5:7.:E 4.:3 .... 28 ',3 70 4 9 E 84- 69 S '~/.:,'-' 2E 2335.31 2:_::35.00 18.56 S 10.51 W 2355.3i 2355.00 18.56 S 10.51 W -237'5, :3 .1. 2:"::75. ,:])0 18, 56 '.E; 10,51 W 23'P5.:31 2395,,00 18.56 S i0.51 W 2335, ('_)7 2334,90 · -,'-,=F, 07 '-'""= .,' ,_-,._1 ._ . ." .-', ._~ 4. _ . 2:37._, ~ . 0'7 2 :Et 7 4.8 9 23':.? 5. C) 7 2:39 4. :39 24.15. (")6 2414. '=''''':'' 24:35.06 24:34, :;7455. (')/:, 2454.88 247r5. 05 2'~7'.). 87 4 3.0::": S 7 0.5 8 E :.5_: 4.71 .'-L:;'73 i 1 E 4 2. :::::'2: F.; '70.6 6 E:' :34. '74 S 7:3 19 E 4'--..', 68 S 70, 75 E 84 ,, '7/:, S7:3 28E 4 2.4 8 '.3 '70.8 4 F 8 4.7 9 '.E;7:3 ?.'7 E 4 2.30 '.:; 7 C). 9 2 E 8 4.81 '.--:7 3 4- 5 E 4 2. i 4 S '70.5:' 9 E 8 4. :::.: 4. :..5;'73 5 2 E 4 i. 'iF.' 8 S 71.. 0 7 E :..5: 4. ,':.'; 7 S'7,.i. 0 E 4i.82 S 71.!5 E 84.9(} S74 /:,E '-' '-'= '" =; 24. 94. '7 4 S 74 1 ._-': .-:, a,'--? =; .--', :t. 2495 ¢') 0 1 r":, ~:;!-, ,::' i ,:"} '=i 1 W .,.,._ 4 .-..._, 8 1 66 S 71 ":-' 2' .... 0._ E 84 o-':: .... ~..-T., '-- n ._1 n .... .-~ u . u u n d-- . :: ..._ 2.515.:31 2515. CK) 18.56, S 1(), ~'-]1 W 2515, (")7 2514,89 4i, 51 S 71,2'.-]> E 84.96 S74 20E ,..., ....' 1:38 S 71 ...... E' '.-];74 .......... .,:. ._,.:, 4 '-"- 4 84. ':.~':,> "':' =i":'.':-]. '":' ]. z.""'...'::i c,'"._, =' (')¢.") .1. 8 '-'-':;/.. '::' :1. (') '=i 1 W ""....: ='....,''''',: ..... ~"~ 0 7 "" ~:'"'-' '::' F. 2 6 E 255 5.3 :L 25.".55.0 0 .1. ::::. 56, S .1. O. 51 W :25 5 !5.0 7 2 55 4.89 .4. :L. 2 4 S 71.4. 2 E 8 5.01 S'74 3'2 E .,:.._ /,, :31 ... 7._ ,:])0 1 ,_,o ,, .,::;/., :ii; 1 (). r'=i 1 W .,:.. ..... (")7 ,::._ /4. 4 :[ 11 S / 1 .4.'P E ,..-,_ .J $74 '-'-"' - 25'.:.:'5. :31 2595. c)0 :L 8, 56 S 10. 51 W 2595.07 25'.:.:'4.. 8'.:.:' 4('). 5:'8 ,.5; 71.55 E :'__.':5. (]h,3 S74 4.3E :;..'i:615.:3:L 26,15.00 I8,,56, S 1(),,51 W 2/3:1.5.04 2614.86 40.85 S 71.6,2 E 85.09 '.:i;'74 49E 2635.31 2/_-,35,'00 1'8.56, S 10,51 W, 26:35.04 2634.86 40,'71 S 7.1. ,' 69 E 85., 13 S74 55E :27'5:'.5,31 2'735, 00 I :!:3,56 S 10. 51 W 2735.02, 2.:.' 734,8:3 40, (') 5 S 72,05 E 85. :30 S 75 2. 5 E · -, "7 ~::; ~::r '-, "7 '=' .~] '-' ' .... .,::, ...... ,, :3 t .,.., ._,._, C). c). 1,::,'"" . ._':~ 6 ::.5; 10....,=' 1 W .-.,=...-z, '::i'=- .......... 02 "::"7 Fi 4 '-':,.o"" ..... ":,',::, . 9. 2_ ._, 7 ~:::. 12 E o""'._, ='' . :34 .:,'-'""/..:, '='' :F: 1 E 2'77."25 ,, :31 2 77 5.0 0 18.5 6 S ! 0.51 W 2'7'7 :il. 0 2 2'7'74.8 3 5:57.7 9 S '72..1. 9 iii:.: 8 5. :3 ::::: S'752; :36 E 275'5.3.1. 2795.00 18.56 S 10. ERSTMRN CHRISTENSEN BETWEEN WELLS '-'"'-"=', ':.::975 ...... s-'974 29'74 71 :B:=: 48 S 7:3.04. E :::':) S7/- :B/:,E ,c..~- / ..., :2:1 00 18 P;/-, S 10 .':'11 W .... 9 () , , ::::5 .... _, ~, c.,,- ,= 7:3 i 4 E '-' = 9/-, S 76 ~ :..~,'..,. :2: t .,_'.';" 9. 9....5.00 1:2', , .=;./-,_ S 10 . ._,'= 1 W 2994 . '? c) 2994 .71 :2: :2:, ._'::._F.'; S , ,:,._, . . _ 42 E :2:01 F; ........................ 3 ! :':: 01 F; (')0 18. =;/- S 10 51 W :2:(') 12 F:;/-,2 o 1 ',7'..' :2:6 ":'::=: :21 :::; "~', .... ':: :2:7 E: "":, c' ..... ! ':' S 7 /.- 4. 9 E '"( .... ' .... 'o '"' = C) O ;fL 8 :, .J.-:.:, :31 .:,..:,._,, ._ _ ._, 2 C):'::'7' :2:4 :2:6:2: C.~ S 77 ':': F · '~'0 :-"'- c, . .............. ' 87 4 ! .::, / /t 7 E c, .,._,.:, .... 1:2: ~") ~.=; () () 18. F; 6 '."_-': 10 =; 1 W 2 (3 ~'-,', 54. 2,:] 52. :2:1 27,7'.~-' .':_; '74.72: E , ' ...... ,-~ '* -~ 17~' .:,0/,_,, :31 :::0'7.~_. _. -':}f') 18 . .~;,/-,_ _ S 1() , ...... _ 1 N :"-]f')72, ?;4 3072 , ':.28 ._'q'7, ~q::: .... .~,,:- "zF.~, ._. 4n... E 88 .03 S7'7' 31E ':, n o ~ ...... :2:7:2:7 S / 6.0 :.2: E." 88./-,.'=; S 7 7 zt. 5 E .., ..- ~ .~. :;ii: ! :'::09~; OC} :1. :2:56 S 1 (3 R 1 W :B092 ~:;":' :q 0':;.,2 '-'/' -" · u ...... ~ . . n ~ . u .#..-~ ~ ~;-'-Cs n _ .. ":' 1 i .~:;_, :2:1 :2: :1. i.J '=' , ()0 1:2: , ,_1 :3215.3:1. :3215. ("~0 18.56:2; 10. 51 W :2:206.4 Zl. :2:205.70 4- C). 5'.=; S :2:5. :2:4 E 98.78 S77 5E · '-, .-., .-, · '=, '7, ":, · : 6 ''"' 5 .... :, 10 1 W 1 ._ ,.._ ._-, ~. .,:. .) 62 41 4/-, S 87, '-' '=' /.. .,: ._, E 1 () 1 4:3 S'7 ....,,'1. 9 E:' :--:2F;F'; :B I ":"?'::;=; (')C) 18 .:;/-, c:. 10 =; 1 W :3241 :31 '-"'-' .... :7(") 4 '":' 7 2 'c ..... '"' ''"' - ............................... :, .-'. 40 .... '" 89 84 El 1 ':') 4 ,, 26 S'76 .,::.,:, E ~275.3.'1. 3275,00 1'8.56 S :fLO. 51 ~ 326:t., 10 3259,, 78 ' 43.97 S '.'-..'2.42 E ;1.07,, 10 $76 82 ERSTMRN CHRISTENSEN C A L C U L A T I F1N 0 F' L E A :::; T D I ::-i: T A N C E:- BETWEEN WELL. S Positior, or: well M-29 F':Iosest Positj-c,n on ~el 1 M--F, M D T V D N'._z; E W M D T V D N S E W Ref : S0827("~.:::MA 2:615.31 3615.00 18.56 S lc).51 W 3580.77:3572.22 77.00 3635.31 3635.(1~0 18.56 S i0.51 W :3600. 15 35':21.00 79.49 3655.3I 3/.,55.00 18.56 S 10.5! W 3615.00 3605.35 81.52 :: ..../*, '7 ,~ . :2: i ._,'-*' ,_, ~- '?, ..., ~**~ . 0 0 18 . .-q_/-,_ ¢:: 10 . ._~ 1 W :':: 6 3 4. . ._'*;'....~i ._,'z'/._, ._'**;'._,'z'. 8 6 8 4. . I:: 4 D i s t m r: c e D i r. e c t i Betk, een Betu~een Nel I s Wel i s 3695 ,, 31:3695.00 18.56 S 10.51 W 3653.50:2:642. :'::8 87. 16 371 !:.5. :2:1:7:: 715.00 18.56 S 10. !51 W :'::672.74 366 (}. 90 89.98 :3735. :2:1 373::i. 00 18.56 S .'L 0.51 W 3/:,'F.-' :1.. 99:2:6'79.42 92.80 3755. :31:3755. 00 18.56 S 10.51 W :3707. 95 :3694. 78 95. I4 i34.54. E 157~02 '.q71 22E 137.97 E i61.79 871 3E 142.(i)7 E 166.63 S70 41E 146.16 E 171.47 S70 .-"-'IE S 150.25 E 176.32 S70 OE S 154.35 E 181. i8 S69 43E S 157.61 E 186.2:6 '.-_-:/z, 9 2:8E S 16'2.0:3 E 19 t. 60 S 69 ,F :3 E S 1 ,"::, 6.4. 4 E 196.9-4. '.:";/-,8 ii-".':'.' E S 17 C:,.,_,':' ._.~ E 202 .28 S ,"-,.. 8:3 ¢.', E '.-]; 17.5.2'7 E 207.64 S 68 13 E:' S 178.9:3 E 213.02 S6:::: OE 3775.3:L 3775.00 18.56 S 10.51. W 3720.61 3706.79 97.2:3 S 182.30 E 219.15 S67 47E 3795. :31 3795.00 18.56 S 10.51 W :'-':7:3'F~. 59:3724.79 10(}. 50 S 1:37. :36 E 225.3'7 S/.,7 30E .:,,z, 15 :}.': 1 --:,,z, 15 00 :L 8. =,': c:. '-'" =l ''"' ='/ '::' ._,: .... 1 () =; 1 W ..:, 7 .... =, :3'742 '"'' 0 _1. ,:"):":: · .., :, 71 192 42: E 2:':: .1. 61 S/z, 7 14 E 38:35. :2::L :38:35.00 18.56 S 10. !=; I W :377'7.54 3.760.80 :t 06.92 S 19'7.4:3 E :2:37.8.4. S67 3855.31:3855.00 18.56 S 10.51 W 3'796.52 37'78II81 11.0.14 :ri: '202.53 E 244.()8 S66 4.4E 3875. 31:3:3'75. 00 i 8.56 '.!:: 1(). 51 W :380'7.95 3789.65 1 :L 2.0'7 S 205.5:'.-]: E 250.44 S66:36E 3895.31 :'::895.00 ].8.56 S 10.51 W 3822.36:3803.09 114..76 S 210.,01 E 257.54 SA/.., 26E 39~'15.31 391'5.00 18.56 S 10.51 W: 3841.02 3820,50 118;25 S 21'5'.74 E 264.68 S'66 I3E -- ., · :, ~,.:,..., :31 0 C) 8 5 ~ ..... 10 =; .1. W .:,,=,._, .=- ,.:,,= ............. . ,, , . ..... . ......... ....................,, :.. 1 74. S 2.:;21 4 '::'E ,.. i '::;/:,/-, '"",E ._"i .:-...,...: 3 .1. *'"' '**) =* '= "::**":' '*" ='.m,.*~: *'":** ,-, · :, .-, ...,._, 0 0 1 :'*::. ~:""; 6 :-' I cZ) 5 . . .:, i W .... '"'" .... '" :34 ""'"':=; '= . .:,,z, / ,:,, .:,,:: ..... , ...... z, 1 .,:._,.,:..:, S 2. 27 .. 21 E z: 7,z, ,97 .=,""',::,/. ....,'::' .... '"""*'-~ ~:"' ":' '*::":'~'7 '=; "-':',:: 7":: .... :' ":'":' 9 !:5 *'::"::'/- ,::* ,'- ..::, .=- / ._, i 00 .1.....,c:, ,.-::;._ ,..,/'. '::'._, 1 ,:") '=; 1 W :7:: 8'.:;"7 0 ]. 74 .1. -.:, o 71 '::* ......... :. ..... , ..... ~.., E 1] .......... :3i;'E ._~ ..- ~ ._ ,, .... "P'*'~ =' '76 2:36 31 E. ...:, :: ::._,, :31 ._":~:'::,'~'::; .. o0....._ _1.8.56 S :LC:, .5:t. N :':: 9 c":, '7 ........ ,95 ":":"::'"':'.,,..,.,:., '- =".::".z, Z :3 c":,, .=,' .... ....... ;;"-.-.":':: :2:7 :E;65 ...,":' "':' E..., .. ERSTMRN CHRISTENSEN CALCULATION O~ ........ ' ..... L.E:.,~.-~.::, t 'r.) I S T A N C E 'SE:TWEEEN WELLS P,.-,sitior, on Luet i M-2'? MD TVD N:_:; EW [ ' 5'-'. ...... 58. _ - -~ _ 0.,._, 14. 1055.0o 11 02 S 6 19 W 105:3.69 1053.63 8t 93 S 26 W :::~,,9'F~ .::: g;:36 17W [07e~. 15 lO'7~] O0 11 A~] S 6 44 W 107:3.77 107:3 72 82.2:3 S '="" . ............ ,.:,.:36 W 87 64 <] S:36 20W ..... ' ':'~i ~i':' 4~5 W 8'7 17 .:" [ O. 9. Fi_. 1 / 109 ~i_ ~ 00 1 ~:: ......... '.E; /-,_ .76 W 109:3 .78 109:3 .72. 82 . ~._._,':' S .- ,-, . -, . . .. ::;_ :36 22 W [115. i9 IlI~] O0 t:3 ¢)~ '.E; 7:3:3 W 111":' 86 111:3 :::0 82.82 S ~':' W 8/-, ~/- .C S:36~ ....... - ..... . -54 ""::', ~] 8 62 W ::: 6 .C i '7 W L 1 ':"=i 21 1 ! .:,._ O0 1 :'3. 'F; 0 S -7 c, 1 W 11:33 :::7 11:3:3 81 :E::3 10 S ':' ~l ,::;'::/- Ll':~i 24 lt=i=i r>O 14 '77 S 8 '::":' W !l=i':' 8:3 1i~::: 82 :B :3 . ':: ':; S ~ic' 71 W "":: ...... = i4 -C S:3A 17W - =i - ~:i':' 7'F' W ~l(') .C S:36 18 W I. 17 ~,, 26 1 i 7._ . 00 1 =i ._~i,_,/- S 8 7'7 W 117 ::: 9. 7. 117:3 90 ,..,'::'...,':'./-_,,...,/- '.E; 84 L 19. %... 2 '7 1 t 9 .... ~i .00 16 .2 r:i_ S 9.. 17 W 11 ':;.....q. q'.. ::'., 119. :::_. ? 1 ,_,':'.-,':'. '~. 2 .:,'-' ._~,_,':' ,, 86 W 83 .9/-,_ -C ...,._,':":'/~_, 17 W 215,,29 1215.00 16.85 S ?.:,.F':i2 W 1214,14 1214.07 84. I8 S 58,?.'4. W 83.52 -:.'] $36 17W 235.:B0 i235.00 17.3'7 S 9.82 W 1234. 14 1234.07 84.40 S 59.0I W 83. 16 .::: S36 16W .'-~: ~.~,. r::i .,..9'=i...._':::i. :'::_ 0 t z.._,.,. . ¢). (') 1 '7.. 7 '? ._,':' 1 (). 06 W 1 .,_9 Fi_ 4 .1 '.ffl 1 ?. FEi.4 .0:3 84 . ds, :B :-'.'; F:i_ 9. . ,"~... :::.. W82 .9. 0 .::.i S :':: 6 15 W 2'75. :31 i 275. O0 1 :::. 12 S t O. 25 W 127,'$. 27 1274.20 :L::4. :::4 S 59. t :B W :E:2.7:2 .:.'] ::;36 1:3W '"-'~.::i "::'"~'~ 18 .=i/.., Si; 10 51 W 1:::74 ,,'_-,Zl, 1:374 ,,v';' ,::.o=i ~'~' 1 .:, 7 .... :}:: t 1 ._,, .... (")0 .... "'" ~ 76 S r=i'F.-' .... '"" W ':"-' . c.,.", ':") 0 W 1 ""'-" ...... ""' '= ' 5 .~, Y.:, ::: 1 18 .=~/-, 'S 10, i W 6 4 13 ?.':' 4, !=~ A ,-'"", ~ ......1 .:, .-./._, 0 0 , 13'ii~ 4 , _ _ ,=,'-'._, *-"'' 9 () '.i_:; f'~'.T.' .2 0 W ::2: ::: . I f) =,..:,._, '..'_' ..~ IAI 1 4 .1..5, ..... "::' i .1. 4 1 ~':~._ ,, ()0 .1.,::,'-', Fi_ F',_ '.'-'i; .1. 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'.:.:' 9' W 8 3.3 5 '..':.!; :3 5 3 4 W 1515,, :3 :L 1515.0 0 1 :F:. !5 6 S 10. 51 W i 51 F:i. 0:3 151 4,, '.:.:'5 8 6 ,, 41 S 5 8,, '!;-'6 W :E.:::i:,, :3'7 S:'::5 3 2W ='""":.::i ':::i"::"::i C:, 0 ., o 4 4 S 'i.,"." 4 W ,: ............... 1 ._,._-,._. 31].._ ._,._ . 1 :.'3 ,, ~:'_. ' S I 0 . ~':i... I W 1 ._'=i._,':' =i._. ,".~. .... :: 1534. ,tv. ![i c:,,_,,_,/... Fi_ 8 . ':':":' ':::_. '::'.. ':' ":' ~'~ ::: () IAI ':=i ':'~ '::' 00 I o .... e, S 1 (). = 1 W i::.,..., 1...'=i._':'~ Fi_. :2:1 :i ........ ,. ,_, . ':=i' .. ._, .~ ..., =' ...... =i '=', .0:7 ..... ,_ ,_~=i '=i 4, . '"" '=86 47 :F; .... ,_, .'=i c:, ? :2 W 8:3 40 '-':,..:,._,""' '= '.':::'!?W 15'75~ 31 1575. O0 1:3,, 56 S 1 ('~. 51 W 1575.0:3 1574. ".:'-'5 86.5() S 58,, !;'0 W 8:::, 4 i. S:35 -';;!:SW 15S'5 ,, 3 t 1595.00 18. [5./:, '.[.:; 10.5 i W 15'.:.:'5.03 1 !iig4. ?;'5 8/.':,. !.=.';;2 S 58.8'.::".' W 8::3.4:2 S:::::5 2'7W ERSTMRN CHRISTENSEN F.:e ~: ~ S 0 E: 1. ,.t. 6.8 M A F:' ,-, s i ..i: i c, n c, n w e i I M-29 M D '~"~ v~.' tI N :'--; ~-',-W MD D i r'.e c t i E': e t m e e n Wet t s [695.:B1 1695.00 18.56 S 10.51 W 1695.00 16,94.92 86.61 S 5:3.87 W ::2:3.48 L 71.3:31 1-7. ~-- ,-, ,~ .~,:, '-. .1 ...,. 00 1 ,:, . ._ 6 S 10. ._, =:' 1 W 1714. 'P 4 1 '714. ::2:8, ::2:/=,. 6 ::: S ...... ::2:::2: W :E: :3. 50 [ '7:E: fi.l, :3 i 17:35,00 t :3.56 S 10, 51 W ! '7:34, 'P 4 1. 7 ::2:4,86 ::2:6.6.'.5 S 5 E:. 'i;' i W 8:3.54 [75!5.3! !755.00 1:=:.56 S 10.5,1 W 1754.94 1754.:36 86.6,7 S 58.94 W 8:3.57 855. ::2:1 1855.00 ].8.56 S 10.51 W 1855.16 1855.C)8 :36.61 S 58.97 W 8:3.54..::] S:B5 28W '-"~ ~' ,-., -7 ~". ~' "" = rs:/-, .=i':.? ::2; W 83 <" 28 W o / ._, :B I 1 00 1,:,"". !5 '-'" .% =i':' ?]':' ,:,, ..., 6 S 10 .... ,1 W 1 o7._, 1:3 1 ,:, 7._ 0'.=: ':~/-, , .... . . - - . ._ ,_~ . .. _ = .'_"~..::, ...! 8'75. E:1 1895.00 18.56 S 10.51 W i:E:'PS. 13 1E:95.05 86.5:2: E; 58,,96 W 8:3.51 .:C S:B5 2.8W 915.31 1915.00 18.56 S 10.51 IAI 19i5.0::3 1914.95 86.57 S 58.':.-:,/=, W 8 ::3.51 <: S35 2. 8W 2 C)':.:, !:::; :B 1 '.--'r":":'s'=i () C)1 ::2: ':"' ~: '=';'::~ zt, i W 8:.2:92' '::":' =; :.2:9 W ...................... ::, =, '..2; 10 5 .1. W 2.094- ::::2 2.094.7/!. :.2:6.76', ':::' n :i .-~ --- ." u ~ . . ,_t ,_; ,_ :2115. :31 2115.00 :L ::2: ................. ?] t., S 10 !;l 1 W 2114. '77 21 14 /-,9 ,::, z: ............ :.2:0 S ....5'::".... 4 A W :.2::B '=.'::' ":::,.:"= 2135.31 2. ! 3'5. C)O .1. 8. DE, S 10. 5 ! W 2.1 :L::4.77 2134. ,"_..,'i.:'-' 8/=,. ::_.::6 ::2; 59.50 W ,"-.'.::4 ,, 05 S:B5 39W 2155 ,, :3 .1. :2.' 155.00 18.5,/-, 'S .1. t}. 51.W 21 !fl; 4.7'7 2154.69 8,'::,. 'P 2 :.i:.; 5'.:..". 55W 84. ! 3 ::2; 3 !5 39 W ERSTMRN CHRISTENSEN CAL. CULATtON OF:' L. EAS'F DISTANCE BETWEEN WELLS P ,'-, s i t i o n ,':, n ~ e 'I 1 M- 2'P M D T V D hi :3 E W Dipecti Between Wetls ,'.,.:,Fi 5 31 '? '? ~ 5 (') 0 1:3 ._ ,_ ....... ' - _~ ............. F,/- S i0,51 W 22:55 ()! ~._, q,, 'T;:-~, :B/_",.9c; :--; 5'.-.; 71 W ::_':4-28 ' ~ 7._ :2:1 (,)0 1 P N/....- ........ , .., ..' / ..... _,. _ _ t0..~;1 N 2274 '.-.}7 2274 ,_,oo... :::7~ 00 :.2; .~?,-;_. ~4 W F:4. ._'31 ,!'295. :2:1 2:--','95.00 1 :r_:. 5/_-, S 10.5 i W 2294.97 2294. ,'.-]:9 87.01 S Pig. 77 W :._-.-:4. :::4. .~.:, 1 ._, t') (') 10 F-i 1 W 231 ~ 02 2314 o =- =,'-~ '79 W :::: 4. '::/- :...::lPi-, :2:t '-"-' = 1:--: 5/_-, Fl; .~ ._, 87 t:):--: c- S:35 .-, ..%, 43W 4.4W 45W 45W :": 415, :B .1. 2415, 00 .1. 8,56 S 10,51 W 24.15, 12 24-15, 04. 87, 1 I S 5;9, 71 W 84,38 .::] .... ' '-'?] 00 '-' '-' =' 1 :.2 · "_-' 4 :B 5 31 z. 4._-,._ 1 :.2:..'=]/-, :.::: 1 t') 5 ]. 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S ..... . 20 W 8 4 .15 .::1 ...,._..... 2 :L W 2595. :2:1 2:59.5.00 18.56 S 10.51 W 25'F;5.2:i: 2.595. 15 87. :21 S 59. 1:2 W :E:4 ,, 12 '::: :E;:'::5 t 8W 26,15.:2:1 2615.00 18.56 ,.E; 10.51 W 2615.19 2615.11 87.2:2 S 59.04 W 84..08 <:: ::'-:;:BS; 15W ~"~',35,:31 2/_-,35.00 1'L'-:.56' .'3 10.51 W 2/_-,35.'I9 2/:,'35. tl 87,25 ::_:; 5E::.'F;6 W 84.06 .-'L" .'._--;35 12W 2735.31 2'735.00 18.56 S 10.51 W 2'735.1() 2 '735.02 87.36 S 58.97 W 84,. 15 <] S35 10W 2'755.:'31 2755.00 i8.56 S 10.51 W 2755.10 2755.02 87.35 S 58.99 W ::34.15 ,::1 S:B5 IlW 27'75.31 2.'7'75.00 18.56 S 10.51 W 2775. 10 2775.0':::' 87.33 S 59.00 W 84. 15 .::1 $35 11W 2795..:::1 2795,00 1::3,56:3 1().51 W 2775. 10 2795,,0:.? 87.32 S 59.01 W 84. 14 <: S35 12W HRmSTENSEN CALCULAT!ON OF LEiAST DISTANCE BETWEEN WELL.:::; R,ai: : S08!46,.8MA P o s i t i o r, ,", r, ,_~ e '! IM- 2 9 M D T V D N S E W C~,:,sest Position on we]] M 14 Distan,-e DireFti .................................................. 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E A ::; T n I S T A N C E BETWEEN WELL.'S Ref : S08146.8MA P,:, s i t i o r, MD TVD C, Fi w e t t M- 29 NS EW C'tc, sest P,:,sition c,n well M-14 MD TVEI NS EW 3535. 1 1 3535.03 86.4R S 5'.--.-'. :E55 W 3555. !1 :-'5555. 0555 86.45 S 59.88 W · -'=-'-~, '-'F-]-'.~, (.'7:_--: '-" 4:_'-: '._--; .~9 9¢7 W · :,._,/._1 1 .:,._ / .... :,o. · ..... · -, = o ='- '-, =-,:~ = r; :'-': . ~5'-.? 9 2 · -,._,; ...., t I ,.~._, .... -.._,. :--:6 40 S _. , W Di stance Dir-ect i B e t w.e e n B e t w e e n W~l 1 s Wel i s 8 :B. 9 5 .::] :'_-:; 3 60 W 83.94 'C S:'::6 OW 8 3. '? :':-: .::'. S :5:6 :.3: W :'-:3. '?:3 .::: :--;536 4W :B695.:}::1 3695.00 18.5/:, S 10.5! W B715.31 3715.00 18.56 S 10.51 W 375.=.55. :5:1 3'735.00 18.56 S 10.51 W "_-'575 5. :31 ::.:: 75 !5.0 0 18.5 6 S ! 0.51 W :B615.07 :}.':614. 98 3635.07 3634. '.-.-.'8 :5:655.07 3654..'.-.78 :5:675.0'7 53674.98 :B695.07 36':74.98 371'.5.04 3714. 3'7:_:5.04 3734.95 :375.5.04 3'754. 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(.'.70 ..'.'] S :5:/..:, 2'7 W 60.43 W 83.98 <" S:B6 28W ERSTMRN CHRISTENSEN CAL. CULATtON OF LEAST r) ISTANCE] BETWEE'N WELLS Re 4: Position on ~et! M-29 M Fi T V D N S EW Ctc, sest Positinn c,n u~ell M-14 MD TVD NS EW lei i s t a n ,- e D i r e ,- t i Between Betmeer Wel i s Wel I s 10.51 W 10.51 W lC',. 51 W 10.51 W 4.175.14 4175.05 4195. 14 4195.05 42!5. 19 4215.10 · .*' ._",._,. 19 4 ~..:,..,. 10 :--:6.07 S 60.45 W :::::3.9'7 .::] S:3/_-, :30 W F:6.04 S 60. 47 W 8:2:. 96 .::.' S:36:31 W ,=,":',_,/-. 0 i S /",_ n .4-9 W 8 :':: . '? 4 -::] S :3/_.-, :_--: 2 W ,_,._'=',=,. ':¢.. 7 .=,'-' 60 .49. W. 83 . '~>. 2 '::: S :36:34.. 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W 4415.2:.'3 44,15.14 85.70 S 6,0.4.5 W 8:3.68 < S36 39W 10.51 W 4.435.2:]:', 4435. 14 85.6:9 S 60.42 W 83.64 .::" S3/_-, 38W 10.51 W 4455.23 4455.14- 85.67 S 60.:i:9 W 8:3.6! -::] ::i;36 37W ':5' "" ~ /. ~ =~,:-., ,z;*'::,z,, 10 ._ I W 4 .'I. 75 2:3 4. 4'75 14 '.::; /_:,<'} :.'::: . o._, W g:3 -C :'q'7W u n .. u '- ~_1 ._ -_ .. 4495.:~:1 4495.00 4,'.515.31 4-515.00 ~1 =" .-, r- , ~-..:, ..:, .'.".,.._, I 4 .=:~ ...... :;:: N ,, O_ C) 4555,':31 '4555. O0 I8.56 S 10.51 W 4495.23 4495.14 :5'5.63 S 6(:}.32 W 83.54 < '.:i;:36 36W 18.'.5:;.;_' S 10.48 W 45].5.20 4515.11 85.61 S 60.:30 W 83.56 S36:36W 18.3 :::: S 10. :-.,:7 W 4 !5:35.20 4. 535. I 1 85.59 S 60. ;ii:8 W 8 :':.:. 75 '.:.i: :':-: /:, 34. W .1. 7.99 S 10. 17' W 4555.20 4555.12 85; 57 S 6,0.25 W 84.12 F-:3./:.., 33W 4.5'75.32 4,575.00 4595.34 4595.0<') 4, 615. :3/_", 4615.00 4635.39 4635.00 4655 ,, 4:3 4655.00 46'75.48 4675.00 4695.55 469'.5.00 471._=;./.,..._,':' 47 ]. ._, = . o. (')_ .... ='=' 5 85 4 Fi S Ac) 1 '=i W 8:=3 ':::i4. '::":'/-1:3W 14. (')2 S /. '::'=i W 4 AF:~f=; 2.4 4. a,._,..., ]. 12.7'7 S '7. 12 W 46'75.24 4675. ], 6 85. ,4- 3 '.-'.3 6 C:,. i :3 W 89.95 :E; 36, 7 W 1 ]. --,"::' ' c:,=~ 91 =:~".:, c'":,/~ . ._-,, S ,'.:,. :30 W 46 ?.:' 5 24 4./-,':;/~::; 1 ,/", ,. .... 4 (') '.i:.:'; /-, 0. ]. :1. W 0 W 9,. 81 '.i.:; ._::;, :':S>_. W 4'7 l':q... .36 4715 . ...o7 ,_,'::'51._ . ::;7 S /-,n ...... . ,:]::::: W c/-':,. -_,. 27 ""'""'='.:,.:,._, 54W 47:35.7 2:4-'725.00 475!5. :94 4755. ()0 4 7 7 5, 9 7 4'7 75. C) 0 47'.:.>6. t :3 4'7'i;'5. 8.11 S 4.39 W 4'735. :.'-.':6 4735.28 85.33 S 6(_'}. 04 W ".-.'¢5 ,, ]. :!ii: S:35 4'7W /:,. 25 S :L::. 30 W 4755.37 ,-1.755, 2!;' 85.27:¢ S 59.99 W 97.26 835:3'.:.>W ":" '=; '::'=; '":"::'~ S =;c..) 9' 4. t,,J ,:.> 9 5:3 c:...:, 4. 2';I. '.B 2. 12 gl 4 7'7.'=; ":"::' 4 / 7._ "':"::-" . . _ ._1 ~_, . .~... . . ............................. 3 ! W '"' (.')7 c- 0 oz ..... , ....... ,~_- ..... :, 1,4 4'795 ":"::' 4'79 rS :'::(') ,:,"'"._, ':=' 21 '.3 !:=, e 'p c) W I c) 1 '::, 7 2::3 W · L", .~, HRISTENSEN BETWEEN WELLS Position on ue]] M.-2'.:.) M n T V D N ~:; _r,., r-:losest Pc, siti,:,n ,':,nue'! 1 M.-14 Tk: ~ N'S EW D i s t a n c e D i r.e ,- t i Betueen t04.58 '.:;35 !4W i (')7 '*::/- '-"-'=' /-,W - .--, ..0 1 ! 0.2:3 :::; 2,!. 57 W i 13. ":t-'7 :::; :74 48 W :1.9'78.78 4'?,'75.00 2:4.4.,-!. N 14./.::,6, E.] .1.'P'.:::' 9, .,::.._,'"' =' 4':..'-' .... 9._"5-,. ~,") 0 :2 F:: . i ,_,'::' N ! A.. . ,:,._,'-' '=' E 5019.75 5015 ~ 00 ::.::';:.'. (") 8 N 19. 1:3 E ~040.30 5035.00 36. 15 N 21.51 E 48'?~5.53 4895.44 47.)15.5!:_-] 4915.46 ~.'735.56 4-925.48 4'755.58 4'P55.4'.-:-" Zl 'P 7 5.5'P 4'.'-)75. 50 4.9'.:.)5.61 4995.52 5015.71 5015.62 50:35.7:3 5035.64 84.9'.--..' S 59.56, W 116.7'.--.; 5;34- :_--:?W 84.95 S 59.49 W 1:20.:30 S34:30W 84.. 'T.-' 2 S 5':}. 40 W 123. ?'.:.:' S 34 21 W 84.8'P S 5'?;. :31 W i 27.8'7 S :]": 4 [*-"::', W 8 4.8 6, S 5'P. 2 2 W 1:3 ].. 9 3 S 3 4 :]-] W 84. :.:::3 S 57.). i 3 W 136. i 8 S::::3 55W 8 4.8 0 S 5 9. (] 2 W 14 0./'_-, :L '..-_-;3 3 4 6 W :::.:.'.1.. '7'7 S 58.91 W 145.22 S33 3:::W 14:3 ......................... 7 4 =; 1:3 5 0 0 5 8, ':.:'t:~ N 3 4 '::'/- E '=; 1 :.7::6,0" ...,=: 5 :L ..:,'-' '':*"..., 9,,'.., 8.':-1- 6 2 ':: ....... ~-.:; c, L.~ / W :t. 71 13 " ...... '"" F;::::: W ..... - " "· - ' ~ ."-*,.-**.c: ..... 164.58 5155,, 00 6.,':1.. 02 N :'::7.82 E 5156.08 51P]5. 'P9 84.58 S 58. 12 W 1 '76.8:::: '.S:}.12 5 t W .1. 85.48 5175. C)(') 6'.:.:'. _':::' 5 N 4 o. 8'F' E 5 :I: 76. :1. 2 5:1. 76. () 2 84.54 S 57. 'P 7 W 1. 8:2.83 '.::; :'-': 2 4- 4 W ~206.4.4 5i75.00 74, 66 N 44,05' E 51'P6.15 51":.:.'6.06 84.5I S 57.82 W !:_--':8,'.--.*,'-.-.:S:.S'2 37W 5:312.20 52 S"5.00 ]. 04.35 N 61.43 EE 5_';?. 9'6.8 S* 529 6 ,, 80 84.22 S 56.8,:]) W 222.58 S 32 5 W 53:}):3.56 5315.00 1 !0.83 N 65.22 E 53i7.'76 5317.66 84. 15 ',S 56.54 W 22?.'. L:,".:.? S32 OW "::' '-' =' =' ......::,.:,._,, ~"} 0 1 1 '7, ,-t-'~.~ N 6 9 I '":' ., o...,..., () 0 '=;""""' =:' ':::~":"""";' 84'=;":":' "'' ,:, a (') 6 ' ..... :,,=; . . ... E ..... :.,..:,,. ....... :, / . 74 ,.., .,., ::, .':::i_ 6...~ ..... W 227 . :3'7 '.:,.:,' ] ..... =, .:,'-' ~,' ~ 5:376,. 52 5:35 !5.0 C) 124.34 i',.I 7 :'::: ,, i :3 E 5357. !.:.' 3 535'7.82 83.96, S 55. 'i.:',' 5 W 245.08 S 31 47 W ............,:.._ E .':::; ..... 279 ,, 3,:] .'=~ .... 279 .1 ':::'.. . ...., =; =',.54 W .:.'":":::;._ .,:.."':'. F::.. 9. S :z: 1 .,-I- i W 54 :L '.::?, 80 5:.'.:.;':?,'5, O0 13:.'.:.':. 6 :L N 81.48 E 53'i.:,"P. 4:3 53'i::,"!:.'~. 32 8:3.6.5 S 55. 16 W 26(), 'P4 '.S:31 35W 5441.57 5-'i. :I. 5. (':~ 0 :L 46. () 3 N 85.8:2 E 5422. '..i:, 6 5 ,,.t. 22. rE: 4 83.3 ?. S '5 z!.. 5'.:.:' W 26,'..T.'. (1 :':.'~ S :':: !29 W 546:3..'-!. 3 5435.00 153.65 1',t !;' 0. :28 E 5443.2 :L !544:3.07 82. 'P 6 S 5 Zl.. 05 W 2'77.27 S :.':31-':23 W ERSTMRN CHRISTENSEN C:AL_C:ULATIOt',t OF LEAST Dt STANCE BETWEEN WELLS Re.F ~ S08146.:--~MA ¸MD Position on we]] M-29 Closest Position on we]] M-14 Dist,~nce Dir. ecti .... Between Between TVD NS EW MD TVD NS EW We I ] ,'~ We ] ] s 5485.3':-.; 5455,00 :]507.44 5475,0C) ERSTMRN CHRISTENSEN C A L C U L A T I 0 tq O F '- re'- BETWEEN WELLS Re f : S (} 7'i;' 91.8 M A P,",_ s i t i o n o n m e t 1 M- '~'=...° MD TVD NS EW Ct,-,sest mositi,',r, on ~,ett M-,:._ t~"q TVD NS EW Distance Dicect i B e t ~ e e n B e t ~: e e n Wet 1 s Welt s 975.12 975.00 9.36 S 5.77 W 995. 1:3 995.00 9.65 S 5.81 W 1015. 13 1015.00 10.01 S 5.89 W L035. 14 1035.00 10.4'7 S 6.02 W ':'7E, 44 ':)7~ .~? '-.' =F'~ ,' .... ..' . ....... :. ..... 1`4 6 Pi';.' E 1/, 1 '.'.-'.' N 4. 6 7 E ':."--~/- 4.4 '::'::.~ F,':, i :::9 N /-, 27 E 16 71 .::] N 46 i 9 E 1016.02 1015. I4- 1,4.5 N 6,.04 E 16,.55 .::] N.46 10E lO":'/- 02 1( .... "- '~- ..-_ ....., ~.:,._, . i 4 1 . 31 N ._~. 94 E 1 ,_,,"- / ::: N 45 27 E 055.14 1055.00 075. 15 1075.00 095.17 1095.00 115. 19 1115.00 .t. 135.21 1135.00 t155,:24 ii55.00 1175.26 1175.00 1_195,27 1195.00 , . o ~ =' 5 84 E 1-'7 1 1i,o. 2 ._.':' /:. 1':'.,' W 1056,02 1.._,._,.1.5 1.16 N -. , . .:_ N4.4 :::?E 11 ~'= - =- . ,:,._, '.E; 6.44 W 1 (')76.0(') i 075. 12 1.00 N L-.,. ::: 1 E 17.60 1'444. ._,E 12.35 S 6.76, W 1096.00 !095.12. O.:E::B Iq 5.79 E ! 8.20 N4:-:: :B6E 13.05 S 7.:'"::3 W i1.15.90 1i15.02' 0.70 N 5.:_=:0 E 19.01 N43~"~E 1._,':'. 9. O. 'S 7 . ,_,':' 1 W ! 1 ._,":' ~._. q:'. 0 11 ._,":' ~._ .02 ("~. 64 N .'=~_ ,, 84 E '~. .... 9 . ":,:.. '=', N 4 :'_'-': 1. 2, E .1.4 77 F; 8.'-"-' W 1155 90 il .... , .... . .:, z. . "'=; = 02 0..~;'7 N 5.89 E :2 (';). ':.' 1 N 42 48 E 15.56 S ::':.77 W 1175,:B4- 1.1.74.96 0.54 N ff'.96 E 2..I..82 N42 27E: i6.";..'5 F; 9. 1'7 W 1195.84 1194.96 o.52 N 6.04 E 22./_-,4 N4:;:' 12E I215.29 1215.00 I6.85 S g.52 W I215.83 1214..95 0,,52 N 6.09 El 23.36 N41 57E 12:35,:i::0 1235.00 17.37 '.i:; 9.82 W 1235,83 12:34.95 0.~=~5 N 6.12 E 23.98 N41 39E :[255.30 1255.00 1'7.79 S .1.().()6 W 1:255.83 1254.95 0.58 N 6, 15 E 24,,4!;:' N4! :25E 12'75.31 1275.00 18. 12 S 10. 25 W 1275.88 1275.00 0./:,:2 N /:,. i 1 E 24.87 N41 7E: i295.31 1295.00 18.36, S 10.39 W .1. 295.88 1295.00 0.66 N 6.06 E 25. 14 N40 52E i315. :_31 i315.00 18.50 S i0.47 W 1315.87 1314.99 0.7(:) N 6.02 E 25.3:[ N40 :Z.:'.-]:'E 133:5.31 :1,335.00 18.56 S lO.51 W 1335.8'7 1334.99 0.75 N 5.97 E 25.38 N40 29E t~B55.31 t355,00 I8. r~6 S 10,51 W 1355.87 1354.99 0.79 N 5.92 E 25.:B9 N40 20E ,-':~,::~ ,, z., ,'-':',='. . - ' . ... ' '=' = ..... -':' =i. N 4.,:} =; '? r.: 14 ......31 1 .~.._,._, ('~() 18 b,'"_., L:i; 1 ('~ ":~ I W 1 ~1.._,._, ,.z., I 14.55 03 0 70 N ¢_'.:,. i E, E .~ ..... 4'7 .::] ._ .~ ...... 14'75. 31. .1. 475. 00 18.5.6 S 10.5t W 1475.96 14'75.08 0.64 N 6.13 E :25.41 .::: t`44.0 54. E 14.95,31 14'.:;':5. O0 18.56, .':ii; 10, 51 W 1495.96 1,495, 08 (). 59 N 6. C)';) E 25,3.4 -::] N40 55E 151Pi 31 1.~1._, '=' 00 i8.56 S 10 Fi .1. W 1 .................... , N ...,...:, [.: '-' =' .:7 N 4. () !:=~.4. E *-- s: ... a ,-- .. ,: .:~.-..! t~ .~~... .. .~ .... :,._,,, ..::, ! .1. ........... . 0 () 18 . ._._,=;/- S 10. ._=i I W '1 ...... : .... . .... ..... 1 :"-', ::: t=i .05 0 = ....=i'=i._ N 6 .00 E ,: ..... . ~... .... .::] N 4. o 49 E 15!55.3 :I. 1555.00 i 8.56 S I O. 51 W 1555.9:3 1555.05 (). 54 N 5.9 El E .';-25.2.'-" i '::] N 40 44lie 15 '75.31 1575.00 1.8.!=~6 F; 10.51 W !575,?:}]: 1575.04 0.54 N 5.89 E 25.1E: -~:" N40 39E t 5'F,'5, :31 :t_ 595.00 18. !56 S 10.51 W 159!!5, 93 1595.04 0.54 N !5.84 E 25. 14. < N40 33E ERSTMRN CHRISTENSEN BETWEEN WELLS R e f : '.::; (')'799 ]. , ,::, hi~--~ _ . v ~ NS C 1 o s e s t EW MD 'TV Fl i s t :-in c e Wel i s D i r.e c t :i Between We '1 I s N40 N40 N40 N40 27E 2iE 1SE i OE N40 4E N4. O OE N 40 0 E N 40 .... 0 E N:B9 ?'( '= '''.z, .z, E N :5:9 49 E N :'_:', 9 4-4E N:'::9 41 E 1855.31 1855,00 18.56 S 10.51 W 1855.94 1855.0,5, 0,,87 N 5,59 E 2".'5.24 .::] N:39 3 :ii!:E 1875.:7':! 1875.0() 18.56 S i0.51 W I875.9(3 18'75.0I 0.89 N 5.55 E 25.2::2 .::: N:B9 :B2[E :L ,-,o,= '-,,'a= ;"x'.~ ....... 'S I 0 F.; 1 W _t.'"'"'~"::' ':'.'o () 0 91 N t E 21 .::.~ N:B":';' 26E ,:, .~ .... :2: i :L ,::, :: ..., ,.... 18 . ~'"'i z _ ,::, :: ...,, ..- .. 1 '::' ':)~'~ 1 5 =; '::'5 1915,:B1 19i5.00 18,56 S 10,5I W 1915,::":2:.' I914.94 0.9:B N 5.50 E 2..=.5.22 N:-':9 2:5:E 19:B5.:31 I935,00 18.56 S 10.51 W 1935.82 1934.94 0.9!5 N 5..554 E 25.2'7 N:B9 26E 1 ':..? 5 !=;. :B i 1 'il)!55.00 18. Fi; 6 S 10.51 W 1955.82 1954.. '.?.' 4 0.98 t'.4 5.59 E: 25.32 N :B 9 29 E ]. o'v ~=i :':: 1 I ,'re-',= 1 ':' =i"- '::' () ?:i ................ .=i 5'7 E ": .... ::'/", ..., ._.. .". / ..,. 0 () _. ,.., ,, ._. ,.., ...., .1. . ._ .'t. W 1 '::~ / 5. c:,.. '7. :1. ,.:s / F', .0 ..... :::: n,._., ':'".. _...".:' N .. ,, .~....., ..... .::7. N :B 9 :.5.: 2 E t'.;)95. :31:1.995~ 00 I8, 56 'S 10, 51 W I995.97 1995,'08 O, 86 N 5,5'!5 E 25.5:.'0 '.'.'_' N:7_-:9 35E '::"7 ':?':" 5:'~ 4. 5 lie ,: ..... :I ..... N :B 9 20 E ? ~.')'=1 .=i', :7-_': I "::' c) 5 F:; (5 (") :L 8. !::;/'., ':' 1 C, F.:i iW 9 C) N F:; .... ".:',:') F:i 4. ,:-) ,--s .T., N '-:' 5,o ?~.") 7 !:=i ":' :1. 2 (")'7 N.t.")O 18 '=i' '-' .5 ....... ' '""=; - · _ o .::, 10 =i 1 W 207f::i, :'2', 1 2(")'74. 9'2 () 94 N '-' =' 5 ..:_ E 24 N :c: 5." z.._ E :2095.:B1:2()95.00 18.56 E; 10.5I W 2095.8I 2094.92 0.95 N 5.5 Ii:, E 25.30 N39 :B1E '=i,'- !5 ':'.'"'"' '= 66 E ':' 11 '=i :3 :I. 21 t 15 (':,(7.) I L:,' ...... S ! 0 5 !5. '::~:7 ":' .= .... . . 1 W .~"" 11 , ...~. 11 , 04 () ~ ....., N ._, . ,~"='...,, :32 N:}::9 .,.'.I. .... ('~F 21:B5.:31 21:35.00 .I. 8.56 S 10.5t W 2_1.:B5.9:3 2135.04 0.84 N 5.7.i. Er 25.29 .::: N39 5:3E:' 2155. :B :L 2.155. O0 :I. 8.5,./:, S I 0 ,, 51 W :2 :I. 55.9::.':~ 2 i 55.04 O. 76 N 5.76 E: .';:-"5.26 .::: N40 6tE .... ' '""::-'i ......... / ... ,:".~'7 ':") '71 N '":'=i :2175. :B :t..~..1. / .... . O. 0 .1. ':',..,.._=i,_,z. S 10. ':::i ! W 21 '7 !:;5 '::,,,':, 2!: 1 "" =i . _. . . 5... 74 E ~._.. 2... 0 .:::: N 40 E!: E 2195.3 :t 2195. O0 18.5,.S S i O. 51 W 2 :t 95.9,.:':, 2195,, (:)7 O. 6,5, N 5.70 E 25. :L 4 ,::: N40 SE 2. 215. :B 1 2215. ('} 0 18.56 '.:, 1 (7.). 5 !W '":'"':' 5. _. 5. z 5./.., 7 E ..... 1 I -'.:] N 40 _ '" .:...:.. ! :::: 9 221 00 0. ,:, 4.N _ ":' r5. 6 E 22:B!5. :B i 2:2:B5. O0 1. R. 56 S I 0.5 t W 22:::.::5.89 22:B!5.00 O. 6'7 N 5.6:3 E 25. I I N 40 OE ERSTMRN CHRISTENSEN C A L C U L A T I 0 N 0 F L E A S T D t S'T'A N F: E B E T W E E N W E L. L S R.e ~ .'. S 0'7' 9 91. :=: M A P o s i t i o n MD TVD .2255.31 2'.255.00 ,:_'275. :Bi 2275.00 ~2'P5.7-: 1 2295.00 ~315.31 2315.00 :-'.3:35, :31 2:335,00 "'-'='- :' '"-' 5 :' C)(') '.:..:,._, ._,, ::=: 1 .,':.' .: ..... ,, ::::37.=~. :31 2:=:75,00 ~3':=.'5. :2:1 2395, O0 ,,":415.31 2,',l. 15.00 ,Z4:B5.31 24:35.00 .2455. :71 2455.00 ,Z475.31 2475.00 18.56 S 10.51 W 2335.82 2334.'.-}3 O. 91 N 5./_-,9 E 25.:=::3 N39 452 18.56 S 10.5I W 2:355.82 2:354.9:3 0.96 N 5.71 E 25.:2:8 N39 432 18.56 S 10.51 W 2375.E:3 2374.94 0.98 N 5.76 E 25.4.:3 N39 462 1 ':' r-~/-, S 10 ~' 1 W ":":":"~ °:'':' ':":" :' 4 ? 4 ? ~ 4 8 ~,~. ,z, E · _, 1 01 N .~ 81 E N:39 18.56 S 10.51 W 24t5.?-'5 2415.06 1.00 N 5.82 E 25.49 N:39 512 18.56 S 10.51 W 2435.95 2435.06 0.97 N 5.79 E 25.44 .::] N39 502 18.56 S 1(").51 W 2455.95 2455.06 0.?.':3 N 5.7!5 E 25. :39 -'-:] N39 492 18.56 '.B 10.51 W 2475.82 2474.9:3 0.97 N 5.77 E 25.4:2: N:B9 482 :"'47.)5. 31 2495.00 18.56 '.=: 10.51 W 2495.82 2494.9:3 1.02 N 5,, 79 E 25.48 N39 472 ::.'515.31 2515,,00 18.56 S 10.51 W 2515.:97 25 .1. 4.':98 1.02 N 5,,85 E 25.52 N39 52F:: ::' 5:35. :3:1. 2535, 00 18.56 '.E; 10. 51 W 2535.87 25-:; 34.98 0.9/::, N 5. '.-.-,'5 E 25.53 N 40 8 E 2555. :31 2555.00 18.56 S .1. 0.51 W 2555.87 2!554.98 C).90 N 6.05 E 25.55 N40 232 ]:5'75.31 2575.00 18.56 8 !0.51 W 25'75.?1 2575.C) 2 0.80 N 6. 14 E 25.5:3 .::: N40 412 ) :=; ':;, M. :31 .~:'-' ._'=~':'~.._,*:' .0 C) 18 .... ':~ 6 8 10.._, =' 1 W .._'::' y; .... 9 r-:; .9. i ._...? .'=~':~..._?]. ('.,..'2_ 0 . '70 N ./::, . ..,,":' ._,':' E ..:'-'._, =" . ._=~ ''".',:. .::: N 4.1 0 E '?.615.31 2. 615.00 .1.8.5/=, S 10,51 W 2615.9'7 2615.08 0.59 Iq 6.:31 E 25.49 .:.'] N41 162 ~'635.31 2635.00 I8, 5~ S 10.51 '[~ 2/='r"----'"'5. 97 2635, 08 0.48 N 6. :'-'~4 E 25.4:2 .'.': N41 302 ?.735. :}::1 '7735.00 18.56 S 10.51 W 2736.02 2735.12. 0.10 S 6.36 E 25.01 ..{ N42 252 :.'755.3i 2755.00 t8.56 S ~0.51 W 2756.01 2755.12 0,,24 S 6. :37 E 24.91 -::] N42 402 :'"~'-;"=; :=: i 2'7'7 .=~. (')(') i 8 =:' ' S 10. =; .1.W .~ ...............:. 7 / ._. (:) :3 0 ,, :.7 ::: S 24. '::' o .,, .............. , c, ._ .=,'77 =; ,=,.: .... '" '"' ~ .... 6.47 E ,: ...... '::: N 4. 3 2: E · '."7'ii:'5, :31 :;.2795.00 18.5/=, S .I. 0.5 :L W 2795.9:3 2795.03 0, 52 S 6, 58 E 24. ::_:":5 .::'_' N4:3 262 :.'815,,31 2815.00 18.5,/-, 8 10.5! W 2!: 815.86 2814.96 0.62 S 6.68 E 24.84..::] N4:3 472 · "835. :31 2835. O0 18.56 S 10.51 W 2835. :,'..]:6 28:34.96 O. 68 S 6.79 E 24.88 N44 32 !:855,.31 2855.00 18,56 S 10,51 W 2855,86 2854,,96 0~7.4. :::!; 6.90 E 24.'F-'.1. N44 192 :'875. :31 2875. O0 .1.8.56 S i O. 51 W 28'75.5¢2 2875.03 0.83 R ,/..,. 97 E 24.89 .':_" N44 352 ERSTMRN CHRISTENSEN C A LC LtL A T Z OIq FiF L EAST D I S 7'AI',fr'-:E BE'I"MEEN WELLS R.~, .F : :.E; ,:"3 7 9' 91 . 8 M A ,~. s i t i o n o n ~.~ e t t Fi-29 MD TVD NS EW L-:l,:,sest Positi,:,n on wetl M-.-- MD TVD N::; EW D i s t ,'-z n c e D i r-e ,- t i Be'b we.:.--.. F, B-a, t Ld,e e r'~ Wet 1 s Welt s 2915. :3:1 2915.00 18.56 S 10.51 W ~ ~ .:,._, 3 i '2'.-.-':35 A F~ 18 ~/-, S 1 ¢.1~ .~ 1 W · 2955.:'::1 2955.00 18.56 S i0.51 W 2895.92 2895.02 2915 c.,-:, 29!~ 04 2'F.~35.93 2?.'35.04 ""'--'.~,'~- 9::: '-'":;.~= 04 0.9:7.: S 7.04, E 2:4.8'7 '::1 N44 51E 1. C' 2_ S 7 . 10 E 24 · ,-,':' ._?; '::: N 4.5 7 E 1. 1 ::: 8 7. 1/:. E 24.. L::2 '::'. N 45 22 E 1 2:3 L=; '7 '-"-, . . . ..-'.-' E 24 79 "-:: N45 2975.31 2975.00 i8.56 .'_=; 10.51 W 2995.31 2'F¢95.00 18.56 S 10.51 W B015.:31 3015.00 18.56 S 10.51 W B035.:31 :BO:B5.00 18.56 S 10.51 W · .-:'97.=; 9¢) .":,eT=; 2995.90 2995 :3("~ 15.89 3 ('~ 14. · -' (' '-"= ::: 9:30:3,4. -'"' _).#'-__l · ... 3055.89 3,:}54.99 :3075.9::: 3075.0:}.': 3095.93:3095.03 3115.'79 3i :1.5.09 t. 28 :E; 7. 2'7 E 24.7'.'.V .::] N 4. 5 4, 9 E 1. :33 "".:, 7.32 E 24.79 t'44.~_ .:,-=,:,'-' E- l. :2:'? c- -, 24.7'F.' · _, /.:38 E . N46 iOE 1 47 S 7 47 E 24.80 N4-6 ""' '- 1..=;.,._._F, c.._, 7 . ='~._._=; E ,~.- ~ .":' a 81 N 4- 6 42 E !. 67 S 7.6:3 E 24.7':'.-> .E N 47 2 E I. 7'.:.) ,.E; 7. 71 E ii:4. '76 '::] N 4. 7 21 E 1.92 :$; 7.76 E 24.71 .::] N47:3'?E 3215.21 3215.00 18.56 S 10.51 W 3216.15:3:215.25 2..72 S 7.79 E 24..21 .::" N4'? 6E :32:'_'::5.21 :::235. O0 18.56 S 10. 51 W :32:36. 15 3235.24 -';:"'. '76 S 7.7:3 E 24. O0 .::" N4".-;' 27E :3255. :31 :.:.!::;;:'55.00 18.56 S 10.51 W 3256.15:3255.24 :3.2.1. S 7.67 E 23. ::::0 <: N49 49E 3275.3I 3275. O0 18.56 S 10','51 W 32'7/_-,. 25 '3275, 34 3.47 S 7.5::: E 23, 52 '::: NSO 5E HRISTENSEN C A L C U t_ R'T' I 0 N 0 F' L.. E A E;-F D ~ '.:; T A N C E ~ETWEEEN WELLS Ref : S07S:'F~l. 8MA Position r,n u~eli M-2t-.-: ,_.~-'lo_=.e~'t Po_~itinn on u~et 1 ri D T V D N S E W M D T V D N S -..' ._, D i s t a n c e D i r- e c t i ................. Be t ~,.a e n Be t~oe e n EW Wei ts Wells ::535. :5:1 3535.00 ::555.31:5:555.00 ::575.31 3575.00 ::5'75. 31:5,'5S"5. 00 7 ,, E: 7 E 24,0 :_:: N,,-1-'.:.,' 50 E C-:. 60 E ...._,'-' ''''=' . I I N 4 S.-,' :--:'7. E '.-::", 58 E 26.51 N4S' 275 i0·/_,5 E 27.98 N49 i 3613.43 35,12.27 3632.46 3631.21 c, /. .~.-.,, --,--, --, ~--(' . ..:. 6._, .:'. 92 ._,,,_., ._ .,... .", ,,.,::. . 3672 1 '7 ':' '¢' '? A /- "" 3692.03 36,90.34 3709.93 3708. 10 :372'.--..'./-, ~'~ ':' 79'7 .=i':' :3'74'5'. :2:'7 :>':7.,':1.6. 'i..77 ('). 6,6 N 1.91 N :]:.:. 4'.-? N 5.07 N 6 , /' '=, N 8.17 N i£:'./.:,1 N 13.06 N i 1.75: E 2'F:. 56 N4.? I:::E: 13. t'.-7., E :_:,'1.54 N4.'!..",' 11E 14.. 9:E: E :33.95 N4'.'-.'.' 8E 18.55 E :5:'.E:, 75 N4. S' :E:E :;:-':,:":,. 20 I-E. 41, :2'P N 48 58 E 22.4..4. E 44,5/.:-,4. N48 295 24.5,8 E 47.99 N48 35 :.:,'775.31 3775. ()0 18.56 S 10.51 W 376,'.-.:'. (":'9 :B76,6.40 15.5('_':' N B7'F,'5. :]-,' I 3795.00 18.56 S 10.51 W 378:::. 80 3785. :_::4 17.95 N :":' 1 '=i .......... ':' 1 ::ii: 81 "=; 00 1 '-':: ..... F:; A c. 1 ~.]~.."-i_ 1 W .'.-.::::: ()'7 9 F; :38 ('~ 4 71 20 .z,'-' z.'-' N .::8:::5. :5:1 3:'33!:.-]. 00 1':::. 56 '.S 10.51 W 3825.67 38:,22. A:3 23.40 N '.::.: 6.92 E 51. :5:3 N 4,'7 4. 2 E 2':','. .16 E F-;_ 4,/-_,,_,'::' N 47 22 E 3 t. ,, :34 E 58.04 N 47 .,.,6 E 33.5,:":' E /_.,2. :1.8 N4,'.'.:, 225 !!:855. 31:3E:55. 00 18.56 S 1C:'.51 W :5:845.22 3841.12 26.80 N ::87'5. :5:I 3875. O0 i:::.::. 56 S 1 (). 5 i W ::::864. '76 3860.22 30. 19 N .::: 895. :5:1 3 :::.:95.00 18.56 'S 10 ,, 51 W 3884,. 31 3879.32 3:5:. 5':;' N B9'15.3'1 3915, O0 18~r56 S 10. 51 W 3':'--"03. 85:3898. ~1 36.98 N 38.29 E 70.54 N45 OE 4,:":,. 6,8 E 74.74 N44 285 43.07 E 78.94 N43 5:5:E _. ,:,.z ..... N 4-3 ..... E 4 '7.. ,.,'::' O. E ,_,':',_,':'. 52 N 42 ;:~ E 50.3'7 E '.:.:'3.42 N42 145 =;'":' 94 E ':)g:.'-"- .... : ........ :,.s N 41 44 E :1.0 ]. 5.31 4.015.00 18.5/.':, S 1 (':'. 51 W 3997.98 3989.61 56,, 66 N r ,.."s .t. Lx:,.:,. 31 405':~:5. C, 0 18.56 S 10.51 N 40 i2.85 .4003 ,, 96 59.96 N :~055.31 4055.00 18,56 S 10,,51 W 403:2,00 4022.28 64,66 N ............ o6 N ,~ z c' 0. o/"::¢ .... ~(')7F; 31 4075.00 18 .... z ..... 1(") '=1 W 4A~;1 ! ._, 404. 61 · '=;':::; .'=; 0 E ! ('.~ :::. ":' '=: N 41 1/.",E ._ .~.. ...... .~.% ..,.s 5'7.58 E: 108.4./z, N4() 56E 60.5I E 114. 19 N40 285 ,::,3.44 E 119. '?2 N40 45 :I.C:,S.'5. :3.i. 4C','i;'5. C:,0 18.56 S 1 (). 51 W 40'70,, 29 4C'58.93 74, (]:,7 N · l..1_ 15.3 :i. 4 .I. 15. C)O 18.5¢'.-, ,.E; 1 ':}. 51 W 408':.-". 4'4 4.':":'77.26 78,77 N :1.135.31 41:35. (.':, 0 18.5/::, E; 1 C}, 51 W 4.10'7, '.:::' 5 4094-. 98 83,31 tx! .I. 155.31 4. i55.00 i::-:.55, S I0.51 W 412i.08 410'7.35 87,,C,:2 N z..,,/.., :_37 E 1 .~ ..... ':. 6 N :}:: 9 4 i. E I .... u . :...' 6'.:.:'. 30 E 131.40 N539 5_." 1E 7 2. 1. 4 E 1. :37. 15 N:39 3E 74.47 E i 4.:3.66 t',t:3::.:~: 505 ERSTMRN CHRISTENSEN CAL ~"-ULAT I FiN OF LEAST D t STAI",iCE · B E TWE E N WE L L S R c, -F : '..'-~; 0 7 ? 9 .t, 8M A Pc, sition c,n ,,deli M--2!::' Closest Position on we]'! M-25 Di~t~.ince .................................................................................................................................. Bc, t,_~een 1"t D T V D N S E W M Fi T V D N'.3 E W W,--, 1 i s Di r-ect i Be t we..._~ n We'{ 1 s ~ 1' =. :':: ~ t 00 _. 4 3'F..'. 25 - 7._, 4 75. 18.56 '.:_.; i ('> 51 W i 9:3:41 .12 '.:.:'2. :--: 4 N 77. :---:2 E 150. ::: ('.~ N 38 ~ 19.~]. :z: i 4195.00 i 8.56 '-:; t 0.51 W 4158.79 4 i 42. 'F.'O 97.67 N 81. i 7 E i 56.9'4 N:3:8 ~-215.:31 4215.00 18.56 :--.; 10.51 W 4. I77.64 4160.67 I02.99 N 8.4.52 E 1/:.:3.58 N38 ~ ~'".:'-'.~; 31 ,.~..~ .."-'.:'-' ...................... = (')(') i ::: ~ 1-, ':' 10 .~ 1 W 4 t 96. ~(') 4178.44 108. :32 N ::: 7 87 E 17 (') 22 N :':: 7 ~2.55.3:1 425.=;.00 18.56 'S 10.5i W 4207.95 4189.24 1il.55 N 8":].91 E i'77.()2 N37 ~275.31 4'.';'75.00 i8.56 S 10.51 W 4226.22 4206.18 117.35 N ':.:~:3.54 E 184.48 N:37 .'.~2'.:/5. ::: ]_ 4295. (')0 18.56 '._:; 10.51 W 4244.77 422:3.37 12:3.24 N 97.22 E 191. ?'5 N37 ~315.3.I. 4:3i5.00 i8.56 S I0.51 W 4263.31 4240.57 129.12 N 1~:)0.91 E I?.'9.41 N:37 . . ,:,. :.'-:; 1 (') ~ :t,W 4 :-281 4 ..' ._/. 1 I N 104 "~"---~ E 8 F.', N :36 ~.),:, 2 8 E 214 :--: 4 lq 36 ¢':'":;=: 31 4:::.~.:; 00 1:::: .::;- F; 1(').?;1 W 4:30(') 41 4";"74 ':'~,/-, 14c) '.:.'.'0 N 1'"'-' q. 3:'75, :3 :i. ':":' =' ]. W 14:3, N 110 () 2 E ./.c..c. N :3:6 ~.'1 .... , ...,. (). (") 1 ':' ...... ='_,,:/' ..... ':' 10 .5 ........ 4 :'::(')';;'. (')'7 4282.97 6'? . ...... "-' .0,_,':' '-"-'=. . . 10. 1 W 4:327 26 42'?9.51 i5C) 11 N 11 E N:36 ~ '-'";~ ?] ._, !:-~ . 4. (]) (') 2' 3 ("). ":: 7 ~-..:, :/._, :31,'.!..:., .-. ,_ 00 i 8 56 ':' . .- ,, 4415:3i 4415 00 ]. :-.:: . F; /-, ':::' t<") .'::51 W 4.-,4. ,. 4=~ 4:'::i6 06 ].=~"- 54 hi 1].'7 .......... 6 N :36 · -.,,-: = .... , .-, z '-,"", ..... -., 44.: ..... :'":: 1 44:35.0() 18.56 S 10 . ._, I W 4,_-,6.:-,, /_-,4 .t...:,.._.,,:.', 61 162 .9/-, N 12 i . 97 E ,:..,...,.. _ N:36 ..... '""' 1 N 1 ":' =i 9 .'::; E ';.": ._, hi :36 44':']%......., ._,':' 1 4zt..~;~::i_ _ .00 18 , F~4,_. _ 'F; I () . F;_ 1 W 4.::,o 1 , F::4 zl.:"_.::zl.'~) .1 .=;_ /.,c:,_ ... :.::,;.~_. ~ ._ . . _ .~. . . c:~ . / ...I. .... ._ --, 4475 :':: 1 4475.00 ! 8 ._ 6 S 1 (') 51 W 4400.03 4365.7 (') 1 "' =' :::.:2N 129 9 :':: E 26 :'.::, ='; 4 N..:,..:, :--:2E i6E OE 47E 40E 26E 14E '") 5 IE 41 E :--': ,'.':, E 26E 16E 7E OE 51E ERSTMRN CHRISTENSEN B E T W E F N NJ .ir= L.. L'.:!; R c, t: ~ '.E; 0 7 :')7 ::_:: ~ 1 M A MD FVD NS 975.12 '.775.00 'F..'. :36 S · .- ._ n ...* '-- ~ ,- u '--1 1015. 1:3 1015.00 10.0i S [0:35. 14 i035.-'.30 10.47 8 N 7?./ W ,--.,7.~ '-.,,- .,.7 .... '--' :=:2 N 4. N N ..... ....... - ..... . ........ ,... N28 ! :.-= ._, 81 W 'F,":.-,'4 84 'P 94 :::2 9 7'F,' t'4 4 ._ ..:, E 2 2. (") ! t'42:E: 0 E 5.8':? W 1C) 14.84. 1014.:::2 1C).00 N 4..4.:3 E 22.54 N27 24E '- C, 2 W 10:34.,_,._,':' '~' 10:34.81 ic) ~ N 4.42 E 23. i7 N26 4 '7E [055.14 1(')55.00 11.02 F; 6. I9 W L075. 15 1075.00 11.65 $ 6.44 W L ,r'),:..:,.~; 17 1 (')9 ?] (', 0 12, ":' =; '.:; /- '"/-, W [115. i'P 1115.00 1:3.05 8 7. :i::3 W L 1 :i:5.21 11:35,0(1) 1 ::-:,, 'F,'o S 7,81 W '=;'= 00 14 7'7 S "'" '-"-' Ll.'::;'='; :24il ...... , , L 17 Fi; ';i: 6 1 :t. 7 ri'; c) 0 i .'=; =:;/- '.E; F.': 77 W [ 1 '-7.,!:; :2'7 1 19.=1 (')(') 1/-,. '-' =' . .......... .'._, ::::; 9 :[7 W 1054.38 1054.35 1074.._,":'...~ 1 C) 74.31 1094.31.:' 1094.27 111:3.71 111:3.,-2,5 :1.13:3.64 1133.55 i 153.56 1153.4-4 1 i 7 ::3 '":' =:; , .,._ 11'7:'::: I0 11 ,p's_). 5?-' 11 '!:72. :i:7 1. C), 56, N 4.. 3/_:, E 24. ,:1)2 N26 4. E 11,20 N 4, 27 E 25.24 N25 6E 11.:35 N 4..l:E', E 26.57 N24 20E 1 '":' .-':S":, N 4 ,:1)'-.-.' E 2 :--: (1) 4. N 24 /4. E 13. ,(:, 1 lx.I 4.0 2 E :2'i;'. '.:...' 8 N 2:3 1/'-., E 14 70 N ":', 9,1. ~. 31 9'6 N 2 2 ..:',._ Es 1 .=;. '77 N :E':. 87 E:' :3:i:. ::::3 N 21 5 8 E 1'7 '":":' N :3 ""'=' E "::A (.")'7 . . o._, N21 'i. 4E 1212.48 1212.2(i) 1232.38 1232.04 12F";0. ?6 1250.53 127(}. 8 t 1270.2/", lrE:.84 N 3.84 El 38.2:[ N20 31El 20.40 N :3.83 E 40.26 N19 52E 22.28 N 4,,C:,7 E 4:2.72 NJ. 9' 25E 24.3 7 N 4.. :38 IF_ 45. :[ 9 N 19 C) E [ 2 ? 5. :31 11.!'.95. 00 18. :::6 S 10.3"::~' W [315.:31 1:31.5.00 18.50 S 10.4'7 W 1.335.31 1335.00 18.56 S 10.51 W t:'~'3'5'5:; 31 t :355. '00 18'. 5/'_-, S 10, 51 W .1. :2'i;,' 0.6,'7 1:29 C,. 0 :L 1308.89 i:i:08.0:3 13.';2:'..:.:,, 69 132'7. ,:.:,8 1348.'49 1347.29 2,'!,. 4'7 tx.! 4,70 E 4'7. F:; 6 N ! 8 36 E '-:":' 7:2 N 5 (-:,9 E .=;(") '-' '"' '::' .,:.. ,. ............ .--:...~ N 1 ..... 14 E :31.4:3 51 5..':'!i"::~ E" .=:; :!::. 0:3 N I '7 5 .1. E 34.14 N 6.09 E 55, 79 N17 29E L :37 5....,'::' .!. 1 .::,7...,. 00 1:3.56 S 1 C) . .":i; 1 W L 3 95. ':l: 1 :L 3'.:.:'5. 00 18..=.56 :i.:.; 1 C). 51 W L 41._=; ,,..., '"':' ]. 141 !:5 .00 1 ,_,'::' ,, .=:; ..../", '.E; I C).. . '~.., 1 W L435.31 1.4.35.00 1:::. 56 '.F; 10.51 W 1366.41 12:65.01 13:'_-','6. 12 1384.42 1405.8:2 14 (")3.83 i423.(3'7 1420.81 '"'::/-,. 7':::,' 5t 6.5/.":, EEl '=;':' 7 :.:.!: N 1 '7[' ' E ,_ , . ... t.,i ~ .4. C)1:2 N 7 1":' fi-- /' '-' . . ~. ,=,.,=. 18 N 16 ,.:::E 4:3.4 6 N 7 ,, 6 8 E 65.5':';' N ! d. :20 E .,.1.6 4:3 N ': .... 'C . , ..... : .) E 69. :t 1 N 16 :2:EE 1. 4.4:2.64 1439.96 14.62.22 1459. 12 14,81.79 1478,, 2'7 150 !. :36 14':T/'7.4, 2 5 C:,. :36 N 9 ,, 0'7 E 7 :_.7:.:. 21 N :L 5 51 E 54.29 N ?'.94 E 77,32 NI!5 41E '"-';;.... ':::',_,..,:..":' 2 N 10. ,, 81 E 8 .1. .4-3 N 15 3 .1. E /.52, :L 6, !'4 ! 1.68 E 8 5, 54. N 15 2::2tie _I Fi?C} Ss 4 1 !51./-, =;c' 1540.51 15:35.7:3 1 F~/-,n 09 "=; '='" ::::'? ...... . J.,..,_f~'J' ~., . :L .57'.T/. 66 1574 = 04. 6/.'.:,. (}'.::",' N 1 ":' 55 ' '=; 5 · -... El 8'P. c.., ._ N 1. 1.4, E '70.0:;;' N 13.42 E 9:3.76 N :L 5 '7E "'~ '-- 11 .... ~ ' ~;~ / ..:: ':;' P; N 14,, :'.':: 0 El ".:;"7 8'7 N iL ._ C:, E:. 77.88 r,.l :I. 5, 17 E ].01,,';:8 N14. 54E ERSTMRN CHRISTENSEN R e 'F : '.Ei: (')'707 E:. i Fl A F' o s i t i o n o n Lo e 11 M-. 2'i..'.' MD TVD N:--: EW Closes'.k posii-ion on uJell M-2/B MD m,..,r,, .~, NS EW D i s t a r', c e D i r.e c t i Between Between Wells Wel'ls [615.31 1615.(')C) 1:E:.56 S 1C)=5! W L5,25:31 !/-'z'=- (-)0 18 F-q/.. :2; 1('~ ~]1 W :',._,._, J: 1 l ,L-,._, ......... /-~'= (')(') 1:--': .=-iA, S lC) .:i, 1 W L675.:2:1 ! 15 9'-7.' 2 3 1 ..... _-,. 19 :':: 1 81 N 16.0 4 E 1 (]~/'_', 0 9 N i 4 4'F.-' E 1/_-, 18. :2:1 1612 . ._,":'.=l._ , _, . _' :' .=i . 74 N t/-,_. 91. E I!0 .20 NI4 442 15,:3:--:.38 15,31.5(') E:?.67 N 17.78 E 114.:2:I Ni4:37'E 1 t-.:l'z'_,._ ._,. O1 1645 ./-,9.. ,z,.z,...._,. ':'):2: N 18 17 -~, ='._, :2:1 1 '"~, -~, .... ='~ C)0 1:2: ..... Fi; .1. O. =; 1 W 1749 ':~ ~.~. 1 '7:2:'.:.) 6:2: 17'.-.-.~ 5. :2: i I 795.00 18.56 S i C). 5 t W 1 '75,9. :2:2 17 F-; 8.42 1L'-.:15.:2:1 1:315.0C) 18.56:2; 10.51 W 1788.71 1'77'7.21 l':'":'=i :31 1 ,:,c,.=i Cx2) 1,_,':'. 56 S i C) 51 W 1 ::-': C) :.'-: 1 (') 1 '7':T~5,. t_,..,._ ,, ,_~._,._ ,~ ,~ ,~ .. '.-} 7.6 9 N 19. 'F.~ 1 E i 2:3.9 8 N 14 4 0 E i 0 2. :2:0 N 21. 15 E 12 :'2:. 9 C) N t 4 4 i E 1(")6.'F.~1 N 22.:3:2: E l:]'i',:3.:E::::: N14 412 ! 11.....~=i'-.' N :2:.-_-: .1-,'-.'_.:. E 116.13 N 24. ::2:!5 E 14.:2:. 67 N!4 4:':E 120.73 N 26.C) 9 E i4-8.60 Ni4 4:32 1 '25. :34 N 2-:.'7. :-2:2 E 15:7::. 52 N 14 442 56 "q'::' 129 ":, = · . .~.._, N 2:3. E 1 ._ ,_,. 44 N i 4 442 "' =:;' :2:4 7:3 E 18:2: ,:")F., 4 19._,'z' ._'=;, ._,c, 1 192.=., . r)._ ,:")_ 1:2: . :=;_/.,_ ':'._, 1 (]) . ._ 1 W .... 19 C).='i . (") :2: 1 F:: ..... ::: c:,.. ,::~.. 4. 't. =:~._ ..,':'. o. c). N . . _ _ N I 4 ,'.":, E · ' '?"-':"' ..... _ _ ::~ (.),:, 1 F-i 7,61 N :3 =:; 97 E 1 ,:, ''"''-'/ ':~':' N 14. 4. 7 E ~. :: .:,.:, :7': 1 I '.T.,55.0 C) t 8. Pi,-"-, ::_:; 1 C) 51 W 1924 41 1 '- "'"" '7 ::: ..... 197 F-'; ,. 31 1 S-'.' 75.00 18.56 S 10.51 W 1943.80 1927.52 162.22 N 37.20 E 1 '.-} 2.9' () N 14 4'7 E I"995.31 1995.00 1'8.5/_-, S 10.5'1 W 1'.-.755,25 1938.6]. i/.:,4..'P4 N 37.9:3 E 197.99 N14 472 :;;it 095. :31 .,_9 ('). ,:~..._::;, C). 0 1 :ii!:. F.;,/-, S 10 . ._=i 1 W ";',_ ("). ?;_ O.. ,_,':' I 20:2: () , ]. '7 I o... 1 ,4. () N 44 ,78 E:' .,:..'":',_'::'/',_,, 6. 0 N 14 4 :::;._ E 2115.:31 2115.00 18.56 S 10.51 W 2069.9'7 2048.5:3 196.71 N 46.1!ii E ';:2:32.:32 NI4 4!52 2135. :2:1 2135. O0 I 8.56 E; 10.51. W 2.:'08'.:.~. 14 2066. '.:':>0 26)2. (.")2 N 4'7.52 E 238.04 N 14 442 2155 ,, :31 2:1. 55.00 18.5/::, S 1 c). 51 W 2108. :30 2085.2,'.'.':, 207 ,, 3:3 N 4,'i".-:. 89 E 243. '76 N ! 4 44 E .,::. 1 / .... 31 217 .., 0 (') 1 E: ='F 5 . .,:. 24'."-?, 4, E: , ._, :, '.::, 10. 1 W :'-2127 7 10:2:, 5,2 212 = 5, 4 N 5 ("). ~:"' 7 E N 14 4. 4. E 2i95.:31 2175.00 1:3.56 S 10.!51 W 2146.6:3 2121.97 217,,95 N 51.64 E 255.2I N14 4:7':E 2215.:2:1 2215,00 18,56 S 10,51 W '2165,F':0 2140.35 223.25 N 53,01 E 260,,73 N14 4. :32 .......... :"::'"::"-:; (')0 '::' '=;/- '--' :2: 4, 'F.' 6 ':::;'::' '"' 2 '":''::' :22:.::b. :3 i ,: .......... , ! ,..,.._ ,_, S t 0 .51 W ,:.. 1 2:1. ...... , / I :.., ...... , 5 A_ N ~"]_ 4 .2_ 9. E 265,, 65 N 14.. 4:2: E ERSTMRN CHRISTENSEN Position c,n wet ! M-2t:) EW · !255.3! 2255.00 18.56 S 2275.31 2275.00 18.56 'S · "'2'T.,5.31 22'F./5.00 18.56 S 2'-'315.31 2315.00 18.56 S = ~.-,._.. 31 c) 0 -- ~ ._l,_l.~. st # CALr.]:ULAT ! ON r"lF LE~'.:-;T DISTANCE] DETHEEN.,. HELL.::]; MD C1,;,sest Position on well M.-26 TVD NS EW R e f : :--';~:")7078. 1 M A D i s t ,an c e D i r- e c t i Bet,~,een Betu, een We 11 s We ! ! s 10.51 W 2204,1~--: 2177.07 233.87 N 55.76 E 272,:--:7 N!4 43E 10.51 W 2217.:E:4 21t'--~0.15 237. 85 N 56.76 E 278,34 N14 42E 10,51 W 2236.88 2208, 2'.--.* 243.48 N 5:E:.17 E 284.4-3 N14 41E 10.51 W 2255,'73 2226.4-3 24'?.12 N 5'F~.57 E 2?0.53 N14 40E ERSTMRN CHRISTENSEN MD ~ BETWEEN WELLS Position or, ~etl M-29 Closest Position TVD NS EW MD TVD on tuel 1 G-2! NS EW Z756.:37 7455.00 7779. 11 7475.00 75 t Pi 0 fi 108S;. 77 N 638.13 E 839S;. i099. 10 N 643.60 E 8414. 1108.44 N 64'.--;. 06 E 8428. i117 77 N /_-,54 M'-~ . . ._~ E 844:3, 12 7456.32 04 7468.57 95 7480.82 87 74~3.07 7847.32 7535.00 7870.05 7555.00 78t-}2.79 7575.00 7915.52 7595.00 1127.10 N 659.98 E 8458. 1136.4:3 N 665.44 E 8473. 1145.76 N 670.90 E 8488. 1155.09 N 6'76.36 E 8503. 78 7505.32 84 7517.56 48 7529.45 12 7541.2:3 Dist,~nce Dir-ecti Bet~.~een Be t:~ee r'~ Wel!s We]'ls - c .-.,,-., , ,_, 1 ._. ¢)0 7 ..~ o c,, :26~/- ":'~ . 796/",0,99 7635.00 7983.73 7655.00 3006.46 7675.00 1164.42 N 6,81.82 E 8517. :L17:3, 76 N 6:--:7 2:-_-,' E '-"=""'-' n :. 1-_: ._1 .._".: .~.. 1. _1. 8:3.09 N /::,".:.~2., 7'5 E ::":547. 1192.42 N 6'P8.21 E :::563. / ........... 2'1 3';:" 7565. 10 ('.'],3 757,/..,. 98 4.7 7!590.32 1297.59 N 8:39.69 E 2:89.51 N44 7E 12'-}1 6:3 N '-' Pi ~/. .. · . o4._. /,:, E 279 24 .::: N46 24E 1 "::'°5~,_,._, 66 N ,.,°=;1._ . 8:3 E 26'.:; ,68 .::' N4o-,_, 5iE 127'.:'..',70 N 857,'P0 E 26q,,':.';0 -::: NS1 28E 1273.73 N 863.97 E 252. '.--;7 -::] N54 i 7E 1.--67 ~'"' .. _ _ .... J N 870.17 E '-' = -- .' 4._, 9 ::: -::] N P; 7 Z Z E 1261.50 N 876.22 E 240.05 .::1 N60 35E 1 '".=,~-' '.':"::"5 2/- · -' .... ,. 46 N ,=,::,,"-' -"-'. 26, E ~._,.. . ,_, '::] N64 0 E ¢ 1249,42 N 888.30 E; 2:31,6:E: .::: N67:38E 1243.37 1'4 894. :]-:5 E 225). :36, -::] N71 25E lz.1.::7 ...... . '-"""' N.:,o :.7;¢x']`. ...._c:c;.. E2:128. .',.'-":"-- -, -::] N-=:;/._ 2':i'E 1230.P]3 N 'F;A7, 1/_-, E 228.66 N79 40E ,_,,., ..- .:. 20 7 &':?""q. 00 J 201 75 N 7 ("]` ?: L..,7 E =,._ 7 ,=, .00 7602.12 1224.42 N . .... 13 (") 5 E 2:30. 18 N 83 49 E 8051.9:3 7715.00 121:L.08 N 709. 1:3 E 8592.5:3 7613.92 1218.:32 N 918.'P5 E 233.01 N88 OE 8074.67 7735.00 122.0.41 N 714.59 E 8607.06 7625.72 1212.22 N 924.84 E 237.10 S87 46E 8097.41 7755.00 1229.74 N 720.05 E 8621.60 7637.52 1206.11 N '~;':3().74 E :242.:38 'S8:3 36E 8120. 14 7775.00 1239.08 N 725.51 E 8636.13 7649.31 1200.01 N 936.63 E 248.79 '.E;79 31E 8142.88 77'.:.:'5. O0 1248.41 N 7:30. ?;7 E 8650.66 7661. 11 1.1. ?;3. 'PO N '..7¢42,, 5:3 E 2~=;6.22 S75:33E ,'", .'-"-, / o/. z ,'", 7 'P ' '=`/" '=;": ..... "-: '- ,::,1/",.=; /',1 781=i 00 :L257 74 N 7.:.,:, 44. E 76,75 .1.186,'?M ........ ._. . :., c:,,:,,:,. . ,_..., . .,:.._ N ':]:' 49 .76 E: 2.:: 6 Zl ...... . S 7 :i. .,::. o E ............. '="~' '='" "' _ ..... ::. ..... ,, 41 .E ..:.7..:,. 60 '.:;t",7 5,F}E ~'-~-~;~'ir':~i::::"-'?[~; 7:R:"::5. ',tm, 11267', 07l N: 74t l,' .y~ 6)' E 8'6,'.93', :~::.,:, 7/:_,,:'~ 7.6 ;:' i I"RO. O:::"N ":." P; '::'" '-' .... _ .. 82.ti.08 7855.00 8233. ::!:2 '7875.00 177A.40 N 747. :3,/:, E :::/-,':77 77 7,/-,99 .=1'.:' 11'7:3.92 N '-' ...................... ::,v:, I. 0/.:, E :283. ,.I. 5 S64 ,--: :.-_: ~:~ - ~:~ ."'~ -..: .- :...,:-,.,. ...) .. - 1 .:-'-,:,._ 7:3 N 7._ .,'. :::,....': E: c:, / 1 .'-, z . =..:.,:, 771 I. 36 116'7. '75 N '.:)6, 6,. 71 E :.-.::':.; 4.0 '~' 'F.; 6 :t /' E ERSTMRN CHRISTENSEN * Energy Systems Technology * 156~ Broadway, Suite 9.~3'1 * Denver, Colorado 8¢2~f~- * ( 3~Y3 ) 861-2424 * * * * ES-I. O6 True Vertical Depth Results * lrue Yertical Depth Data - Full Report * Termlnal Angle t4othod PROJECT NAI!E : TBU Op,r. rator MARA'f'!ION OIL COMPANY Wel 1 N~me M-29 FLS/UNIT NCARTF!UR RIVER/TRDG. BAY UNIT ¢o...nty K[I.~AI ?£NINSUCA BOROUGH St .:, ~-e Al_ AS KA Lo::'.:tt ion STEEl_HEAD PLATFORM, U.C.I. Co .~f-r y USA P r,;.ject: TBIJ Cc,, ~"-z.n,%s DATUH IS M.S.L. ONLY SP-GR/ILD-ILH-SFL RUN ASOVE 8gr78' MD {-75GBr' SSTVD}. CAU 7/91. * 17-O~T-91 i5:51 Measured Dr t ft Depth An91 e (feet) (deg m in ) === 4 ,¢'.g..O'f.,r,o' 11:3',~'. ~,~.."£~ 12,29'. 15 ~tg. 21 ~8. 24.0' ~. ~.08 27 ~Y~. ~::"'~ 28.7.0. 32 ~.8. ~.e '~37 ;~'.~. 43 gr~. 467'~. 48,~.~. 55 ~"~. ~,:':'~ N 9 N 5 N 2~ }Y 47 1 8 1 1 i1 1 1.~ 1 3 1 17 2 15 2 23 2 9 1 1 11 N 59 1~ 39 O 48 O 46 N 44 N 46 N 49 N 54 I 36 I 6 1 24 1 5,9 N 2 3 38 3 25 2 4! 2 18 2 13 2 1,0' 2 1 1 5/ 1 5 .S 1 45 1 55 2 2 2 12 2 19 2 27 2 31 3 23 4 5*.'.< 6 18 7 5[; 1~ 26 12 3! 14 9 16 15 18 37 2PJ G 21 59 Project: TBU Dr' tft O ~ r (;ct ion (deg mtn) Depth Interval (feat) N ~ ~ E N 63 46 W $ 27 38 W S 34 15 E S 21 29 E S 1~ 17 W S 48, 49 W S 52 3~ W S 53 54 W S 43 55 W S 27 58 W S 3~F 45 W ,% 32 12 W S 34 56 W S ,~5 27 W S 6~ 18 W S 75 21 W S 84 54 W S 7,1 7 W S 77 4 W S Gg 25 W S 63 5 W S 7,~ 55 W S 77 !9 W S 7~' 4 'vt S 88 18 W N 31 lB W II 8 34 E I',~ 23 13 E Ii Z5 17 E N 34 36 E N 42 52 E N 4g 2~" E N 37 38 E N 34 41 E R 31 24 E N 3g 3.0' E N 29 55 E N 29 12 E N 27 54 E N 28 3 E N 27 16 E N 26 2S E N 28 18 E N 27 19 E I'l29 ,.~9 E N 3g 38 E N 35 42 E N 34 ,16 E N 33 29 E N 32 19 E H 31 51 E H 31 41 E N 31 11 E N 32 7 E R 33 ":" E Well: M-29 Page: True Vertical Depth (feet) Dog Leg Rectangular Coordinates Severity (deg/l~ ft) (feet) (feet) N,NNN 10N.NNN 2NN,NNN 299,998 399.989 499,969 599,948 699,927 799,9~G 899.889 999.864 1~99,787 1199,7~1 1299.63~ 1399.588 1499.567 1599.552 1699.545 1799.536 1899.527 1999.518 2~99.51~ 2199.499 2299.487 2399.448 2499.429 2599.4~N 2699.341 2799.341 2899.14~ 2998.962 3~98.853 3198,772 3298.697 3398.626 3498.564 3598.5N6 3698.449 3798.4NN 3898.344 3998.281 4N98.2~7 4198.125 4298.N34 4397.938 4497.763 4597.4~3 4696.8N4 4795.838 4894.185 4991.8~9 5~88.774 5184.779 5279.547 5373.457 5466.186 ~.88~ 8.88~ N N.88g E 1.~ ~.116 N N.235 W 1,898 ~.813 S ~.382 W 1.~0 ~.494 S ~.~25 E 1.8~ 1,766 S ~.526 E 1.8~ 3.712 S ~.173 E 1.~88 5.853 S 1.36~ 9 1.888 6.31~ S 2.998 9 1.~ 7.51~ S 4,643 W 1.~ 8.83~ S 5.914 ~ 1.~ 1N.808 S 6.965 9 1.~ 14,182 S 8.972 W 1.g~ 17.7~1S 11.188 W 1.~ 2g.777 S 13.336 W 1.~ 22.817 S 15.4~9 ~ 1.~ 23.84~ S 17.2~3 W 1.O8~ 24.274 S 18.863 9 1.~ 24.375 S 19.993 W 1.~¢~ 24.757 S 21.336 ~ 1.¢~N 25.N57 S 22.64~ ~ 1.N~N 25.5N7 S 23,838 ~ 1.~ 26.112 S 25.~31W 1.¢~¢ 26.578 S 26.378 ~ 1.~g~ 26.923 S 27.911 W 1.¢88 27.875 S 38.535 W 1.~¢~ 27.932 S 32.454 W 1.~ 25.844 S 33.724 W 1.~ 22.451 S 33.212 W 1.~1 22.397 S 33,189 W 1.~2 16.667 S 3~.483 W 1.~ 11.762 S 27.~99 W 1.~ 8.33~ S 23.914 W 1.~ 5.271 S 21.316 W 1.~0~ 2.2~8 S 18,955 W 1.~ ~.899 N 16.8~1W 1.~ 3.9~3 N 14.967 W 1.~ 6.834 N 13.24~ ~ 1.~ 9.759 N 11,558 W 1.~ 12.5~ N I~.~25 W 1.~N~ 15.456 N 8.46~ ~ 1.~ 18.588 N 6.792 ~ 1.~ 22.~ N 5.~33 ~ 1.~ 25.618 N 3.232 ~ 1.0~ 29,382 N 1.2~5 W 1.~ 33.284 N ~.81~ E 1.~ 38.421 N 3.715 E 1.~ 45,671 N 8.~8 E 1.¢~ 54.582 N 14.411 E 1.¢~N 65,968 N 22.315 E 1.~1 81.~72 N 32.3~5 E 1.ggl 99,387 N 43,891 E 1.~ 12~.152 N 56.792 E 1.~1 143.965 N 71.489 E 1.~1 17i.276 N 88.~18 E 1.~N~ 2~.383 N 1~6.289 E 1.~1 231.538 N 127,84~ E 17-0¢T-91 15:51 Me'D sured Depth ( 'Feet ) Project: TBU Drift Drift Angle Direction (de9 min) {deg mtn) 23 29 N 34 4~ 26 5 N 33 58 27 45 N 33 31 28 ~ N 33 5~' 28 51 N 33 31 29 7 N 34 7 28 33 N 34 2 27 46 N 33 ~ 28 ll N 32 33 28 35 N 32 21 29 Z N 32 16 29 2 It 32 31 29 29 N 32 24 3~ 6 N 32 21 3~ 34 N 32 26 3~ 27 N 32 52 3f 18 N 32 54 3~ 2~ N 33 15 3~ ~ N 33 5 29 35 N 32 59 28 54 N 33 7 29 6 N 33 9 29 15 N 32 45 29 26 N 32 22 29 38 H 32 37 29 45 N 32 27 29 52 H 32 28 29 47 N 32 I~ 29 56 N 31 58 3~ 14 N 32 3 3~ 4~ N 31 48 3~ 58 N 31 34 3~ 26 N 31 1G 29 57 N 3~ 52 29 9 I1 3£ 15 28 23 N 29 49 27 33 N 29 1~ 26 45 N 28 3! 26 7 N 27 46 25 42 N 27 13 25 9 N 26 52 24 49 N 26 29 24 39 N 25 44 24 47 N 25 1 24 57 N 24 52 25 17 H 24 42 25 45 N 24 2~ 25 25 N 24 14 25 6 N 24 3 25 3 N 24 1~ 25 23 N 24 19 25 47 N 24 7 25 52 N 23 52 25 39 N 23 4] 25 3~ N 23 41 25 1~; N 24 24 Well: M-29 Page: Depth True Vertical Interval Depth (feet) {feet) lZZ.ZZZ 5557.9~4 lZZ.ZZZ 5647.719 lZZ.ZZZ 5736,218 1~.~ 5824,513 1~.~ 5912.1~1 i~.~ 5999.464 1~.0~ 6~87.3~4 I~'.Z~Z 6175.79~ lf~.~f 6263.934 1ZO'.~f~ 6351.746 I~'.ZgZ 6439.2~8 lZD.~Z~ 6526.641 I~,Z~ 6613.691 19Z.~f~ 67ff.2fG lf~.~.a~ 6786.31~ I~.Z~N 6872.517 1~.~,~f 6958.856 1~.~ 7~45.167 lf~.ZQ~ 7131.769 l~f.Z~ 7218.733 1~0.~ 73f6.279 lff.~ 7393.657 19~.Z~Z 748~.9~6 lf9.~0 7567.999 19~.Z~ 7654.92~ ]Z~.~9~ 7741.74~ l~f. Zf~ 7828.458 l~.~f~ 7915.25~ lf8'.~ 8f~1.91~ lf~'.f~ 8~88.3f9 lf~.~0~ 8174.324 lf~.~ 826~.~7~ lf~.9~ 8346.292 1~.~ 8432.938 1Z~.~Z 852f.273 10~.~fN 86~8.252 I~.~Z 8696.913 lf~.f~ 8786.211 I~.Z~Z 8876.~1 1~.Z8~ 8966.1~8 1~9.~ 9356.628 I~,Z~ 9147.394 1~.~ 9238.281 10~.~ 9329.~71 1~.~8~ 9419.739 1~.~ 951~.16~ 1~.~8~ 9G~.23~ 1~.~ 969~.552 1~.~ 9781.1~8 1~.~ 9871.7N2 1~8o88~ 9962.~48 1~.~0 1~52,~93 1~,~ 1~142.~74 1~,~8~ 1~232.22~ 38.~ 1N266.475 13.~0 1~278.228 Dog Leg Rectangular Coordinates Sever~t~ {deg/lZO ft) {feet) {feet) 1.ZOZ 1.OZl 1.ZZZ 1.ZNZ 1.WZZ 1,ZZZ 1.ZNZ 1.ZWW 7.693 264.312 N 149.796 E 3fZ.777 N 174.271 E 339.597 N 199.982 E 378.594 N 226.121 E 418.823 N 252.765 E 459.107 N 28~.~56 E 498.714 N 3~6.8~5 E 537.785 N 332.178 E 577.596 N 357.589 E 618.~14 N 383.19~ E 659.~08 N 4Z9.~72 E 699.932 N 435.16~ E 741.487 N 461.532 E 783.854 N 488.367 E 826.776 N 515.641 E 869.343 N 543.143 E 911.7~4 N 57Z.548 E 953.939 N 598.239 E 995.833 N 625.531 E 1~37.245 N 652.4~8 E 1~77.722 N 678,812 E 1118,44~ N 7~5.4~6 E 1159.535 N 731.839 E 12f1.~42 N 758.146 E 1242.689 N 784.798 E 1284.563 N 811.422 E 1326.578 N 838.155 E 1368.625 N 864.6N~ E 141f.958 N 891.~17 E 1453.635 N 917.737 E 149G,984 N 944.614 E 154~.824 N 971.55~ E 1584.121 N 997.84~ E 1626.974 N 1~23.454 E 1669.~51 N 1~47.992 E 171~,295 N 1~71.629 E 175~.63~ N lZ94.264 E 179Z.179 N 1115.752 E 1829.131 ~ 113G.26W E 1867.695 N 1156.094 E 1995.607 N 1175.3~g E 1943.174 N 1194.Z16 E 198Z.745 N 1212.125 E 2~18.731 N 1229.852 E 2Z57.ZZ3 N 1247.59W E 2~95.8~5 N 1265.437 E 2135.39Z N 1283.328 E 2174.528 N 13~.954 E 2213.265 N 1318.242 E 2251.896 N 1335.576 E 229Z.96~ N 1353.228 E 233~.66~ N 1371.~1 E 237~.557 N 1388.653 E 241~.199 N 14~6.~41 E 2425.262 N 1412.648 E 243~.322 N 1414.943 E -17-0CT-91 15:51 Pro~ect: TBU Well: M-29 Page: Measured Drift Depth Angle (feet) (deg mfn) Drift Direction (deg min) I1E66.E~g 25 12 11155.g~ 24 54 1135g.~0 29 g l145~.g~g 29 E 1188~.~ 28 g 11896.~ 28 g N 26 42 E N 25 48 E N 26 3~ E N 28 3~ E H 28 3~ E N 28 3~ E Depth True Vertical Interval Depth {feet) {feet) 115.9gE lg382.282 89.fgg 19463.gg9 225.f~ 1~659.798 7~.Zf~ 1~721.921 43g.~g~ 111~.689 16.g~ 11114.816 Dog Leg Rectangular Coordinates Severity {deg/l~O ft) {feet) {feet) ~.87E 2474.~65 N 1436.944 E 1.124 25~7.8g2 N 1453.253 E g.446 26~5.424 N 15~1.925 E 1.429 2635.248 N 1518.118 E f.233 2812.657 N 1614.443 E ~.233 2819.258 N 1618.~28 E ~17-0CT'91 15:51 Project: TBU Well: M-29 Page: 4 FINAL CLOSURE INFORMATION: Distance Azimuth (feet) (deg mtn) 325N.574 N 29 51 SUB - S URFA CE DIRECTIONAL UIDANCE [~10NTINUOUS ~-~ OOL SURVEY & RECEIVED AUG 1 2 1991 Company MARATHON OIL COMPANY Alaska 0it & Gas Cons. A)tchorage Well Name TBU M-29 (975' FNL, 519' FWL, SEC 33, T9N, R13W) Field/Location MCARTHUR RIVER, KENAI, ALASKA Job Reference No. 74690 Loqged,By: HAUGAARD Date 28-JUN-91 Computed By DEES GCT DIRECTIONAL SURVEY CUSTOMER LISTING FOR MARATHON OIL COMPANY TBU M-29 MCARTHUR RIVER KENAI, ALASKA SURVEY DATE: 28 JUN 89 METHODS OF COMPUTATION TOOL LOCATION: INTERPOLATION: VERTICAL SECTION: ENGINEER: KORSMO TANGENTIAL- Averaged deviation and azimuth LINEAR HORIZ. DIST. PROJECTED ONTO A TARGET AZIMUTH OF NORTH 30 DEG 19 MIN EAST MARATHON Oil COMPANY TBU M-29 MCARTHUR RIVER KENAI, ALASKA COMPUTATION DATE: 26-JUL-91 PAGE 1 DATE OF SURVEY: 28 JUN 89 KELLY BUSHING ELEVATION: 160.20 FT INTERPOLATED VALUES FOR EVEN 100 FEET OF MEASURED DEPTH TRUE SUB'SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN 0.00 100.00 100 200.00 200 300.00 300 400.00 399 500.O0 499 600.00 599 700.0O 699 800.00 799 900.00 899 0 O0 -160.20 O0 -60.20 O0 39.80 O0 139.80 99 239.79 98 339.78 96 439.76 94 539.74 92 639.72 90 739.70 1000.00 999.88 839.68 1100 O0 1099.82 939.62 1200 O0 1199.74 1039.54 1300 O0 1299.66 1139 46 1400 O0 1399.61 1239 41 1500 O0 1499.57 1339 37 1600 O0 1599.56 1439 36 1700 O0 1699.55 1539 35 1800.00 1799.54 1639 34 ENGINEER: KORSMO 0 0 N 0 0 E 0 9 N 63 46 W 0 5 S 27 38 W 0 20 S 34 15 E 0 47 S 21 29 E 1 8 S 10 17 W 1 10 S 48 49 W ! 11 S 52 30 W 1 10 S 53 54 W 1 3 S 43 55 W VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTiON SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/IO0 FEET FEET FEET DEG MIN 0.00 -0.04 -0.09 -0.3! . -0.77 -2.14 -4,08 -6.02 -7.84 -9.70 1900.00 1899.53 1739.33 0 46 -11.58 -14.90 -18.89 -23.04 -26.!4 -28.54 -29.98 -30.90 1 17 S 27 58 W 2 15 S 30 45 W 2 23 S 32 12 W 2 9 S 34 56 W 1 40 S 45 27 W 1 l! S 60 18 W 0 59 S 75 21W 0 39 S 84 54 W 0 48 S 74 7 W -31.78 S 77 4 W -32.72 S 69 25 W -33 68 0 44 31 0 46 3O 0 49 29 0 54 27 1 36 24 1 6 22 I 24 18 1 58 09 2 50 93 3 38 563 5 W S 70 55 W S 77 19 W 570 4 W S 88 18 W N 31 18 W N 8 34 E N 23 13 E N 25 17 E 2000.00 1999.52 1839 32 -34 75 -35 86 -36 95 -38 5! -40 17 -40.14 -37.93 -33.89 -28.26 2100.00 2099.5! 1939 2200 O0 2199.50 2039 2300 O0 2299 49 2139 2400 O0 2399 47 2239 2500 O0 2499 44 2339 2600 O0 2599 42 2439 2700 O0 2699 38 2539 2800 O0 2799 29 2639 2900.00 2899 13 2738 3 25 N 34 36 E -21 98 2 41 N 42 52 E -16 73 3000.00 2998.93 2838 73 3100.00 3098.79 2938 59 3200.00 3198.70 3038 50 3300.00 3298.62 3138 42 3400.00 3398.55 3238 35 3500,00 3498.48 3338 28 3600.00 3598.43 3438 23 3700.00 3698.37 3538 17 3800.00 3798.31 3638.11 3900.00 3898.26 3738.06 2 18 N 40 20 E -12 65 2 13 N 37 38 E -8 78 2 10 N 34 44 E -4 93 2 1 N 31 24 E -1 31 1 57 N 30 30 E 2.07 1 56 N 29 55 E 5,49 1 48 N 29 12 E 8.78 1 55 N 27 54 E 11.98 0 O0 0 14 0 27 0 04 051 ! 42 0 04 0 22 0 27 0 25 0 O0 N 0 09 S 0 08 S 0 39 S 1 20 S 2 91 S 4 51 S 5 81 S 6 98 S 8.25 S 0 oo E 0 09 E 0 03 w 0 05 E 0 52 E 0 74 E 0 37 W 1 99 w 3 61 W 5 10 W 0 O0 N 0 0 E 0 13 S 42 10 E 0 09 S 22 27 W O4O S 753 E 1 31 S 23 2O E 3 O0 S 14 19 E 4 52 S 4 40 W 6 14 S 18 53 W 7 85 S 27 21 w 9 70 S 31 43 w 0.99 0 25 0 38 0 95 0 02 0 69 0 36 0 47 0 02 0 05 9 8O S 12 72 S 16 11 S 19 58 S 21 98 S 23 60 S 24 27 S 24 46 S 24 77 S 25 10 S 6.19 W 11 59 S 32 16 W 7.77 W 14 91 S 31 25 W 9 87 W 18 89 S 31 30 W 12 16 W 23 04 5 31 50 W 14 21 W 26 17 S 32 53 W 16 18 W 28 62 S 34 26 W 17 89 W 30.15 S 36 24 W 19 38 W 31,21 S 38 24 W 20 59 W 32.21 5 39 44 W 21 88.W 33.30 S 41 5 W 0 O0 0 O8 041 0 15 0 6o i 07 1 35 1 20 0 89 0 60 25.48 S 26.03 S 24 26.59 S 25 26.99 S 27 27.63 S 29 28.13 S 31 27.24 S 32 24.42 S 33 20.53 S 32 15.35 S 29 23 14 W 34.42 S 42 15 W 34 W 57 W 03 W 05 W 47 W 93 W 38 W 03 W 73 W 35.63 S 43 5 W 36.89 S 43 53 W 38.20 S 45 2 W 40 09 S 46 27 W 42 21 S 48 12 W 42 73 S 50 24 W 41 36 S 53 48 W 38 05 S 57 20 W 33 46 S 62 42 W 0.79 0.98 0.00 0 33 0 29 0 11 0 28 0 3O 0 44 0 68 9.90 S 5.77 S 2,68 S 0.36 N 3.49 N 6.50 N 9.41 N 12.29 N 15.09 N 17.88 N 26 61 W 23 28 W 20 48 W 17 99 W 15 74 W 13 72 W 11 99 W 10 15 W 8 40 W 6 85 W 28.40 S 69 35 W 23.98 S 76 5 W 20,65 S 82 33 W 18.00 N 88 52 W 16.12 N 77 30 W 15.18 N 64 39 W 15.24 N 51 52 W 15.94 N 39 33 W 17.27 N 29 7 W 19.15 N 20 58 W MARATHON OIL COMPANY TBU M-29 MCARTHUR RIVER KENAI, ALASKA TRUE' SUB-SEA COURSE 'MEASURED .VERTICAL VERTICAL DEVIATION AZIMUT~ DEPTH DEPTH DEPTH DEG MIN DEG MiN COMPUTATION DATE: 26-JUL-91 PAGE 2 DATE OF SURVEY: 28 JUN 89 KELLY BUSHING ELEVATION: 160.20 FT ENGINEER: KORSMO INTERPOLATED VALUES FOR EVEN 100 FEET OF MEASURED DEPTH VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECT[ON SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH 4000,00 3998 21 3838 0i 2 2 14 3937 94 2 12 O6 4037 86 2 19 98 4137 78 2 27 88 4237 68 2 31 75 4337 55 3 23 49 4437 29 4 50 99 4536 79 6 18 23 4636,03 7 58 92 4734,72 10 26 FEET DEG/IO0 FEET FEET FEET DEG 4100.00 4098 4200.00 4198 4300.00 4297 4400.00 4397 4500.00 4497 4600.00 4597 4700,00 4696 4800,00 4796 4900,00 4894 N 28 3 E 15.37 N 27 16 E 19.03 N 26 28 E 22,95 N 28 18 E 27.07 N 27 19 E 31.36 N 29 29 E 36,42 N 30 38 E 43,69 N 35 42 E 53.56 N 34 46 E 65.82 N 33 29 E 81,89 N 32 19 E 101,70 N 31 51 E 124,81 N 31 41 E 151,06 N 31 11 E 180.92 N 32 7 E 214,19 N 33 40 E 250,20 N 34 40 E 288.84 N 33 58 E 330,80 N 33 31 E 376,05 5000,00 4992.93 4832.73 12 31 5100.00 5090,21 4930,01 14 9 5200.00 5186.70 5026.50 16 15 5300,00 5282.13 5121,93 18 37 5400,00 5376,42 5216.22 20 6 5500.00 5469.69 5309.49 21 59 5600.00 5561,89 5401,69 23 29 5700,00 5652,59 5492,39 26 5 5800,00 5741,73 5581,53 27 45 5900,00 5829.95 5669,75 28 0 N 33 50 E 423.05 N 33 31E 470,42 6000.00 5917.98 5757.78 28 51 6100.00 6005.26 5845.06 29 7 6200.00 6093.11 5932.91 28 33 6300.00 6181.40 6021.20 27 46 6400,00 6269.64 6109.44 28 11 6500,00 6357.53 6197.33 28 35 6600.00 6445.37 6285.17 29 0 6700,00 6532.70 6372.50 29 2 6800,00 6619.91 6459.71 29 29 6900,00 6706,83 6546,63 30 6 · 7000 O0 6793,14 6632 94 30 34 O0 6879.21 6719 O0 6965.49 6805 O0 7051.93 6891 O0 7138,23 6978 O0 7224,98 7064 O0 7312.37 7152 O0 7400,00 7239 O0 7487.30 7327 7100 7200 7300 7400 7500 760O 7700 7800, 01 30 27 29 3O 18 73 30 20 O3 3O 0 78 29 35 17 28 54 80 29 6 10 29 15 13 29 26 N 34 7 E 51~.13 N 34 2 E 566.79 N 33 0 E 613,67 N 32 33 E 660.66 N 32 21 E 708.34 N 32 16 E 756.11 N 32 31 E 804.79 N 32 24 E 853.68 N 32 21 E 903.10 7900,00 7574.33 7414 N 32 26 E 953,57 N 32 52 E 1004.44 N 32 54 E 1054.94 N 33 15' E 1105,18 N 33 5 E 1155,62 N 32 59 E 1205.31 N 33 7 E 1253,87 N 33 9 E 1301,98 N 32 45 E 1350.70 N 32 22 E 1399.91 0 65 0 40 0 34 018 0 68 0 87 i 50 0 82 2,82 2,30 2,28 1 ,98 2,26 2,65 2,03 2.22. 1,49 0,67 2,35 0.45 1 4O 1 99 0 25 1 35 0 44 I 10 I 25 0 95 0 50 I 03 0.32 0,43 0.41 0,89 0,85 1,14 0,81 1 .68 0,91 1 .09 20.92 N 24,20 N 27.69 N 31 36 N 35 19 N 39 63 N 45 93 N 54 20 N 64 19 N 77 57 N 94 21N 113 82 N 136 13 N 161 68 N 190 O0 N 5 33 W 3 67 W 1 88 W 0 0! W 1 95 E 4 38 E 8 O0 E 13 42 E 20 60 E 29 56 E 21 59 N 14 17 W 24 47 N 8 37 W 27 75 N 3 53 W 31 36 N 0 1 W 35 25 N 3 10 E 39 87 N 6 18 E 46 62 N 9 53 E 55 84 N 13 54 E 67 42 N 17 48 E 83 02 N 20 52 E 40.36 E 102 49 N 23 11 E 52,61 E 125 39 N 24 48 E 66,44 E 151 48 N 26 1 E 81.92 E 181 25 N 26 52 E 99,39 E 214 43 N 27 37 E 220 29 N 118,94 E 250 35 N 28 22 E 252 28 N 140,77 E 288 89 N 29 10 E 287 O0 N 164,53 E 330 81 N 29 49 E 324 75 N 189,61 E 376 05 N 30 17 E ~63.93 N 215.71 E 423 06 N 30 39 E 403,44 N 241 97 E 470 44 N 30 57 E 443,95 N 269 483.48 N 296 522 62 N 321 562 19 N 347 602 47 N 372 642 88 N 398 684 01 N 424 725 31N 450 767 09 N 477 20 E 519 03 E 566 96 E 613 39 E 660 94 E 708 48 E 756 57 E 805 82 E 853 27 E 903 19 N 31 14 E 91 N 31 29 E 83 N 31 38 E 86 N 31 43 E 56 N 31 46 E 36 N 31 48 E 07 N 31 50 E 99 N 31 52 E 44 N 31 53 E 809 72 N 504 33 E 953.94 N 31 55 E 852 895 937 979 1021 1061 1102 1143 1184 60 N 531 O3 N 559 2O N 586 45 N 614 19 N 641 94 N 667 28 N 694 17 N 720 68 N 747 78 E 1004.85 N 31 57 E 26 E 1055.39 N 32 0 E 67 E 1105.68 N 32 3 E 36 E 1156.18 N 32 6 E 42 E 1205,92 N 32 8 E 92 E 1254.52 N 32 10 E 23 E 1302,68 N 32 12 E 83 E 1351,46 N 32 14 E 33 E 1400.70 N 32 15 E MARATHON OIL COMPANY TBU M-29 MCARTHUR RIVER KENAI, ALASKA COMPUTATION DATE: 26-JUL-91 PAGE 3 DATE OF SURVEY: 28 JUN 89 KELLY BUSHING ELEVATION: 160,20 FT ENGINEER: KORSMO INTERPOLATED VALUES FOR EVEN 100 FEET OF MEASURED DEPTH TRUE SUB-SEA COURSE VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH . SECTION SEVERITY NORTH/SOUTH EAST/WSST DIST. AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN FEET DEG/IO0 FEET FEET FEET DEG MIN 8000 O0 7661,27 7501.07 29 38 8100 O0 7748.27 7588,07 29 45 8200 O0 7835,20 7675.00 29 52 8300 O0 7922.03 7761.83 29 47 8400 O0 8008.61 7848.41 29 56 8500 O0 8095.08 7934.88 30 14 8600 O0 8181.32 8021,12 30 40 8700,00 8267,14 8106,94 30 58 8800,00 8352.94 8192.74 30 26 8900,00 8439,31 8279,11 29 57 N 32 37 E i449.30 N'32 27 E 1498 57 N 32 28 E 1547 96 N 32 10 E 1597 54 N 31 58 E 1647 55 N 32 3 E 1697 76 N 31 48 E 1748 35 N 31 34 E 1799 68 N 31 16 E 1851,02 N 30 52 E 1901.43 0.78 0,78 0.98 1 .44 1 .07 0.15 0.94 0,7'.. 1,14 1.17 1226.37 N 773,88 E 1450 12 N 32 15 E 1267,95 N B00.36 E 1499 1309,68 N 826.87 E 1548 1351,57 N 853.42 E 1598 1393,98 N 879.99 E 1648 1436.56 N 906.63 E 1698 1479,51N 933.40 E 1749 1523.23 N 960,32 E 1800 1567.03 N 987,13 E 1852 1610,21N 1013,13 E 1902 43 N 32 16 E 86 N 32 16 E 46 N 32 16 E 50 N 32 16 E 73 N 32 15 E 34 N 32 15 E 68 N 32 14 E 02 N 32 12 E 43 N 32 11 E 9000,00 8526,28 8366,08 29 9 9100,00 8614,01 8453,81 28 23 9200,00 8702.37 8542.17 27 33 9300,00 8791,31 8631,11 26 45 9400,00 8880,80 8720,60 26 7 9500,00 8970.80 8810,60 25 42 9600,00 906i.ll 8900,91 25 9 9700.00 9151.81 8991.61 24 49 9800.00 9242.65 9082,45 24 39 9900,00 9333,49 9173.29 24 47 N 30 15 E 1950,77 N 29 49 E 1998.78 N 29 18 E 2045.58 N 28 31 E 2091,29 N 27 46 E 2135.87 N 27 13 E 2179.42 N 26 52 E 2222,28 N 26 29 E 2264.32 N 25 44 E 2306,01 N 25 1 E 2347.66 0.69 0,98 1694 1,12 1734 0,79 1774 0,68 1814 0.34 1852 0,56 1891 0.50 1928 0,57 1966 0.33 2004 1652 69 N 1038,24 E 1951.75 N 32 8 E 25 N 1062.28 E 1999.73 N 32 5 E 96 N 1085,38 E 2046.49 N 32 2 E 99 N 1107.46 E 2092,15 N 31 58 E 32 N 1128,52 E 2136,66 N 31 53 E 97 N 1148.71 E 2180.14 N 31 48 E 23 N 1168,19 E 2222,93 N 31 42 E 84 N 1187,15 E 2264,89 N 31 37 E 34 N 1205,60 E 2306,51 N 31 31 E 12 N 1223,51 E 2348,08 N 31 24 E 10000,00 9424,20 9264,00 24 57 10100,00 9514.75 9354,55 25 17 10200.00 9604.95 9444.75 25 45 10300 O0 9695,09 9534.89 25 25 10400 O0 9785.56 9625.36 25 6 10500 O0 9876.16 9715.96 25 3 10600 O0 9966.61 9806.41 25 23 10700 O0 10056.87 9896.67 25 47 10800 O0 10146.90 9986.70 25 52 10900 O0 10237.03 10076.83 25 39 N 24 52 E 2389 58 N 24 42 E 2431,81 N 24 20 E 2474 75 N 24 14 E 2517 81 N 24 3 E 2560 17 N 24 10 E 2602 26 N 24 19 E 2644 65 N 24 7 E 2687 45 N 23 52 E 2730 72 N 23 41 E 2773 78 0,10 0,62 2080 83 N 1259.03 E 2432 0,22 2120 12 N 1276.91 E 2474 0,57 2159 58 N 1294.74 E 2517 0,01 2198 48 N 1312.13 E 2560 0.15 2237 11 N 1329.44 E 2602 0.32 2276.01 N 1346.90 E 2644 1,11 2315,26 N 1364,58 E 2687 0.22 2355.01 N 1382,32 E 2730 0,00 2394.65 N 1399.83 E 2773 2042 30 N 1241,25 E 2389 92 N 31 17 E 08 N 31 11 E 96 N 31 4 E 96 N 30 57 E 27 N 30 50 E 32 N 30 43 E 69 N 30 37 E 47 N 30 31 E 73 N 30 25 E 78 N 30 19 E 10938.00 10271.28 10111,08 25 39 N 23 41 E 2790.12 0,00 2409,71 N 1406,44 E 2790,12 N 30 16 E MARATHON OIL COMPANY TBU M-29 MCARTHUR RIVER KENAI, ALASKA COMPUTATZON DATE: 26-JUL-91 PAGE 4 DATE OF SURVEY: 28 JUN 89 KELLY BUSHING ELEVATION: 160.20 FT ENGINEER: KORSMO INTERPOLATED VALUES FOR EVEN 1000 FEET OF MEASURED DEPTH TRUE SUB-SEA COURSE VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTh DEPTH DEPTH DEPTH DEG MIN DEG MIN FEET DEG/IO0 FEET FEET FEET DEG MIN 0.00 0.00 -160.20 0 0 N 0 0 E 0.00 1000.00 999.88 839.68 1 17 S 27 58 W -11,58 2000.00 1999.52 1839.32 0 44 S 69 25 W -33.68 3000.00 2998.93 2838.73 3 25 N 34 36 E -21.98 4000.00 3998.21 3838.01 2 2 N 28 3 E 15.37 5000.00 4992.93 4832-.73 12 31 N 32 19 E 101.70 6000.00 5917.98 5757.78 28 51 N 33 31 E 470.42 7000.00 6793.14 6632.9~ 30 34 N 32 26 E 953.57 8000,00 7661.27 7501.07 29 38 N 32 37 E 1449.30 9000.00 8526.28 8366.08 29 9 N 30 15 E 1950.77 10000,00 9424.20 9264.00 24 57 N 24 52 E 2389,58 10938.00 10271.28 10111.08 25 39 N 23 41 E 2790.12 0.00 0.99 0.00 0.79 0 65 2 28 1 40 0 32 0.00 N 9805 25 9 2O 94 403 809 78 1226 69 1652 6.19 W il 48 S 23.14 W 34 90 S 26 61W 28 92 N 5 33 W 21 21N 40 36 E 102 44 N 24t 97 E 470 72 N 504 33 E 953 37 N 773 88 E 1450 69 N 1038 24 E 1951 0.00 E 0 O0 N 0 0 E 59 5 32 16 W 42 S 42 15 W 4O S 69 35 W 59 N 14 17 W 49 N 23 11 E 44 N 30 57 E 94 N 31 55 E 12 N 32 15 E 75 N 32 8 E 0.10 2042.30 N 1241.25 E 2389.92 N 31 17 E 0.00 2409.71 N 1406.44 E 2790.12 N 30 16 E MARATHON OIL COMPANY TBU M-29 MCARTHUR RIVER KENAI, ALASKA COMPUTATION DATE: 26-JUL-91 TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN PAGE 5 DATE OF SURVEY: 28 JUN 89 KELLY BUSHING ELEVATION: 160.20 FT ENGINEER: KORSMO INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA DEPTH VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/IO0 FEET FEET FEET DEG MIN 0,00 160.20 260.20 260,20 100,00 360 20 360,20 200,00 460 21 460 20 300,00 560 23 560 20 400,00 660 25 660 20 500.00 760 27 760 20 600,00 860 30 860 20 700.00 960 31 960 20 800,00 N 0 O.E S 89 39 W S 16 21 E S 30 32 E S 7 16 E S 41 28 W 552 1W S 55 30 W S 48 57 W S 33 22 W 0 O0 -0 05 -0 21 -0 51 -147 -3 30 -5 24 -7 13 -898 -1078 0,00 -160,20 0 0 160.20 0,00 0 3 0 12 0 35 1 3 1 9 1 13 1 7 1 7 1 5 2 7 2 16 2 24 S 34 20 w 1 43 S 42 32 w 1 26 5 51 53 w 1 2 570 34 w 0 51 S 86 27 w 0 45 S 72 31 w 0 45 S 76 7 w 0 45 S 73 23 w 1060 35 1060,20 900.00 1160 42 1160,20 1000,00 1260 51 1260 20 1100,00 1360 58 1360 20 1200.00 1460 62 1460 20 1300,00 1560 64 1560 20 1400,00 1660 65 1660 20 1500,00 1760 66 1760 20 1600,00 1860,67 1860 20 1700,00 1960,68 1960 20 1800.00 0 46 S 28 32 w -13,39 S 32 15 w -17,29 -21,46 -25,02 -27.74 -29,48 -30.61 -31.39 -32.36 -33.29 -34.31 -35,44 -36.53 -37.73 -39.66 -40.41 -39.04 -35.68 -30,63 -24.36 2060,69 2060 20 1900 O0 2160.69 2160 2260,70 2260 2360,72 2360 2460.75 2460 2560,77 2560 2660,80 2660 2760.87 2760 2861,00 286O 2961,20 2960 O0 0 46 O0 0 52 O0 1 18 O0 1 24 O0 0 59 O0 1 43 O0 2 27 O0 3 21 O0 3 36 20 2000 2O 2100 20 2200 2O 23OO 2O 2400 20 2500 20 2600 2O 2700 2O 2800 3061,36 3060 20 2900 O0 S 63 51 w S 64 42 w 575 6 w S 71 19 w S 80 13 w N 52 12 W N 5 32 W N 21 23 E N 23 56 E N 31 2 E 2 57 N 40 27 E -18 60 17 25 39 67 79 18 55 73 O5 20 3000 2O 3100 20 3200 20 3300 20 3400 20 3500 20 3600 20 3700 3161,47 3160 3261,55 3260 3361.62 3360 3461.69 3460 3561,75 356O 3661.81 3660 3761,87 3760 3861,92 3860 3961.97 3960.20 3800 O0 2 18 N 41 48 E -14 O0 2 14 N 39 4 E -10 O0 2 12 N 35 2 E -6 O0 2 3 N 33 40 E -2 O0 1 53 N 30 47 E 0 00. 1 59 N 33 35 E 4 O0 1 54 N 34 0 E 7 O0 1 50 N 30 29 E 10 O0 1 59 N 25 58 E 14 0,00 0.00 0,30 0,52 0,73 0,52 0,00 0.15 0,21 0,35 0,72 0,18 0,14 0,39 0.83 0,33 0.59 0,28 0,00 0.10 0,04 0,09 0,07 1,15 0.62 1 .78 1 .31 1 ,05 0.88 0,60 0.74 0,32 0,04 0,17 0.39 0,35 0,53 0.38 0.30 0.21 0 O0 N 0 06 S 0 23 S 0 78 S 2145 3 95 S 5.30 S 6,52 S 7.74 S 9,10 S 11.41 S 14,76 S 18.27 S 21,15 S 23.10 S 24.07 S 24.43 S 24,62 S 24,99 S 25.32 S 25.79 S 26,39 S 26,85 S 27.28 S 28.03 S 27.87 S 25.67 S 22,20 S 17.52 S 11,90 S 7,19 S 3,85 S 0.81 S 2.29 N 5.36 N 8.31 N 11.18 N 14.05 N 16.80 N 19.74 N 0.00 E 0.00 N 0 0 E 0.00 W 0.06 S 0 7 W 0.03 W 0.23 $ 7 33 W 0,31 E 0,84 S 21 51 E 0.75 E 2,27 S 19 20 E 0.21 E 3.96 S 3 2 E !.33 W 5.46 S !4 5 W 2.96 W 7. 16 S 24 25 W 4.55 W 8.98 S 30 28 W 5.78 W 10.78 S 32 24 W 7 02 W 9 02 W 11 26 W 13 40 W 15 45 W 17 24 W 18.87 W 20.08 W 21.38 W 22.66 W 13 39 S 31 36 W 17 30 5 31 26 W 21 ,47 S 31 39 W 25 04 S 32 22 W 27 79 S 33 46 W 29 61 5 35 37 W 3O r87 S 37 41 W 31 77 S 39 12 W 32,88 S 40 33 W 33,98 S 41 49 W 23 87 W 25 26 28 30 32 33 32 30 27.90 W 35.14 S 42 47 W 08 W 36.40 S 43 32 W 45 W 37,69 S 44 34 W 11 W 39,17 S 45 51 W 62 W 41.52 S 47 32 W 40 W 42,74 S 49 18 W 42 W 42.15 S 52 28 W 72 W 39.54 S 55 51 W 72 W 35.36 S 60 18 W 30.33 5 66 54 W 24 55 W 21 49 W 18 92 W 16 58 W 14 45 W 12 63 W 10 84 W 9 05 W 7.47 W 5.93 W 25.58 S 73 41W 21.83 5 79 51W 18.94 S 87 32 W 16.73 N 82 8 W 15.41 N 69 39 W 15.12 N 56 41W 15.57 N 44 7 W 16.71 N 32 48 W 18.39 N 23 59 W 20.62 N 16 43 W MARATHON OIL COMPANY TBU M-29 MCARTHUR RIVER KENAI, ALASKA COMPUTATION DATE; 26-JUL-91 TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN PAGE 6 DATE OF SURVEY; 28 JUN 89 KELLY BUSHING ELEVATION: 160.20 FT ENGINEER: KORSMO INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA DEPTH VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUT~ 4062.03 4060 20 3900.00 2 5 4162.11 4160 20 4000.00 2 17 4262.19 4260 20 4100.00 2 22 4362.28 4360 20 4200.00 '2 27 4462.39 4460 20 4300,00 3 2 4562.59 4560 20 4400.00 4 26 4662.99 4660.20 4500.00 5 58 4763.65 4760.20 4600.00 7 17 4864.75 4860.20 4700.00 9 39 4966.53 4960.20 4800.00 11 44 N 26 24 E N 27 49 E N 27 17 E N 26 38 E N 29 29 E N 29 59 E N 33 38 E N 35 42 E N 33 27 E N 32 44 E 5069.08 5060.20 4900.00 13 39 N 31 54 E 5172.44 5160.20 5000.00 15 42 N 31 44 E 5276.91 5260.20 5100.00 17 58 N 31 2 E 5382.74 5360.20 5200.00 19 51 N 31 56 E 5489.77 5460.20 5300.00 21 47 N 33 28 E 5598.16 5560.20 5400.00 23 27 N 34 40 E 5708.48 5660.20 5500.00 26 11 N 33 53 E 5820.91 5760.20 5600.00 28 6 N 33 35 E FEET DEG/IO0 FEET FEET FEET DEG MIN 17.62 21.43 25.48 29 74 34 31 4O 66 49 6! 61 03 75 77 94 7O 0 12 0 53 0 57 015 1 22 I 49 i 50 ~ 44 2 23 2 25 117.39 1.30 143.47 1.64 173.67 3.00 208.29 1.11 246.39 2.15 288.10 1.38 334.53 1.34 385.82 1;65 22.93 N 26.33 N 29.96 N 33.75 N 37.79 N 43.32 N 50.94 N 60.27 N 72.46 N 88.30 N 4 31W 2 0 1 3 6 11 17 26 36 59 E 23.33 N 10 39 W 58 W 26.46 N 5 36 W 75 W 29 97 N 1 27 W 20 E 33 77 N 2 3 E 35 E 37 94 N 5 4 E 48 E 43 80 N 8 31 E 16 E 52 15 N 12 21 E 84 E 62 86 N 16 29 E 19 E 77 05 N 19 52 E 95 58 N 22 31 E 107.52 N 48 69 E 118.03 N 24 22 E 129 67 N 62 45 E 143.93 N 25 43 E 155 48 N 78 17 E 174.02 N 26 42 E 185 O0 N 96 26 E 208.54 N 27 29 E 217 10 N 116 82 E 246.54 N 28 17 E 251 67 N 140 35 E 288,16 N 29 9 E 290 10 N 166 61 E 334.54 N 29 52 E 332 90 N 195.02 E 385.82 N 30 22 E 5934.28 5860.20 5700.00 28 9 6048.33 5960.20 5800.00 29 21 6162.58 6060 20 5900.00 28 20 6276.05' 6160 20 6000.00 27 38 6389 29 6260 20 6100 O0 28 9 6503 04 6360 20 6200 O0 28 34 6616 97 6460 20 6300 O0 29 9 6731 47 6560 20 6400 O0 29 11 6846 27 6660 20 6500 O0 29 29 6961 77 6760 20 6600 O0 30 22 N 33 45 E 439,15 0.87 N 33 58 E 493.88 0.92 N 34 11 E 549.03 !.25 N 33 13 E 602.54 1,32 N 32 34 E 655.62 0.35 N 32 20 E 709.79 1.26 N 32 21 E 764.36 0.81 N 32 31 E 820.08 1.04 N 32 19 E 876.44 0.24 N 32 24 E 934.19 0.72 '1.09 0.25 7077 93 6860 20 6700 O0 30 35 -N 32 47 E 993.25 7193 87 6960 20 6800 O0 30 20 N 32 54 E 1051.85 7309.60 7060 20 6900 O0 30 24 7425.36 7160 7540.39 7260 7654.58 7360 7768,96 7460 7883.76 756O 7998.77 7660 8113.73 7760 8228,83 7860 8344.09 7960 20 7000 20 7100 20 7200 20 7300 20 740O 20 7500 20 7600 2O 7700 20 7800 O0 29 54 O0 29 6 O0 28 39 O0 29 9 O0 29 31 O0 29 39 O0 29 41 O0 29 51 oo 30 10 377 34 N 224.68 E 439.17 N 30 46 E 422 99 N 255.04 E 493.93 N 31 5 E 468.74 N 286.04 E 549 12 N 31 24 E 513.29 N 315 88 E 602 557.93 N 344 6O3.7O N 373 649.86 N 4O2 696.91N 432 744.54 N 463 793.36 N 493 843,18 N 525 892.44 N 557 N 33 15 E 1110.03 0.75 N 32 57 E 1168.27 0.29 990 N 33 2 E 1225.06 1.24 1037 N 33 6 E 1280.12 1.39 1083 N 32 57 E 1335.58 0.60 1130 N 32 26 E 1391.91 0.74 1177 N 32 37 E 1448.69 0.76 1225 N 32 28 E 1505.37 1.18 1273 N 32 30 E 1562.31 1.42 1321 N 32 5 E 1619.59 0.96 1370 67 E 655 72 E 710 89 E 764 80 E 820 O1 E 876 94 E 934 71 E 993 70 N 31 36 E 81 N 31 42 E 02 N 31 46 E 61 N 31 48 E 37 N 31 50 E 76 N 31 53 E 55 N 31 54 E 65 N 31 57 E 58 E 1052 30 N 32 0 E 941 26 N 589 34 E 111054 N 32 3 E 06 N 621 26 E 1168 77 N 652 19 E 1225 95 N 682 28 E 1280 45 N 712 61 E 1336 92 N 743 04 E 1392 86 N 773 55 E 1449 69 N 804.02 E 1506 78 N 834,58 E 1563 84 N 32 6 E 69 N 32 9 E 80 N 32 11 E 32 N 32 14 E 70 N 32 15 E 52 N 32 15 E 23 N 32 16 E 21 N 32 16 E 25 N 865.16 E 1620,52 N 32 16 E MARATHON OIL COMPANY TBU M-29 MCARTHUR RIVER KENAI, ALASKA COMPUTATION DATE: 26-JUL-91 PAGE 7 DATE OF SURVEY: 28 JUN 89 KELLY BUSHING ELEVATION: 160.20 FT ENGINEER; KORSMO INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA DEPTH TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN VERT!CAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/IO0 FEET FEET FEET DEG MIN 8459 63 8060 20 7900.00 30 14 8575 8691 8808 8924 9038 9152 9265 9377 9488 46 8160 91 8260 42 8360 09 8~60 75 8560 37 8660 11 8760 04 8860 24 8960 20 8000.00 30 31 N 31 54 E 1735 20 8100.00 30 58 N 31 34 E 1795 20 8200.00 30 22 N 31 14 E 1855 20 8300.00 29 46 N 30 45 E 1913 20 8400,00 28 44 N 30 6 E 1969 20 8500.00 27 50 N 29 33 E 2023 20 8600.00 27 7 N 28 44 E 2075 20 8700.00 26 18 N 27 58 E 2125 20 8800.00 25 42 N 27 20 E 2174 N 32 4 E 1677 44 86 52 29 42 5O 44 48 73 33 9598.99 9060.20 8900.00 25 9 9709 25 9160.20 9000.00 24 48 9819 31 9260.20 9100.00 24 40 9929 43 9360.20 9200.00 24 52 10039 72 9460.20 9300.00 25 4 10150 34 9560.20 9400.00 25 37 10261 33 9660.20 9500.00 25 39 10371 99 9760.20 9600.00 25 7 10482.39 9860.20 9700.00 25 2 10592.90 9960.20 9800.00 25 23 N 26 52 E 2221.85 N 26 28 E 2268,19 N 25 36 E 2314.04 N 24 57 E 2359.96 N 24 45 E 2406.29 N 24 26 E 2453.34 N 24 23 E 2501.24 N 24 4 E 2548,36 N 24 11 E 2594.85 N 24 18 E 2641.63 10703.70 10060,20 9900.00 25 48 10814.78 10160.20 10000.00 25 50 10925.71 10260.20 10100.00 25 39 10938.00 10271.28 10111.08 25 39 N 24 7 E 2689.05 N 23 50 E 2737.13 N 23 41 E 2784.83 N 23 41 E 2790.12 0.33 0.32 0.69 0.88 0.63 1.11 0.81 I .27 !.18 0.45 1419.33 N 895.84 E 1678,40 N 32 16 E 1468.90 N 926.81 E 1736 1519.68 N 958.14 E 1796 1570.68 N 989.34 E 1856 1620.~2 N 1019.27 E 1914 1668.89 N 1047.66 E 1970 1715.67 N 1074.50 E 2024 1761.12 N 1099.88 E 2076 1805,36 N 1123.78 E 2126 85 N 32 15 E 52 N 32 14 E 29 N 32 12 E 42 N 32 10 E 47 N 32 7 E 37 N 32 3 E 36 N 31 59 E 5,4 N 31 54 E 1848.44 N 1146.36 E 2175 06 N 31 48 E 0.55 0.68 1932 0.46 1973 0.48 2015 0.53 2057 0.54 2100 0.79 2144 0.19 2187 0.11 2230 0.40 2273 1890 85 N 1167.99 E 2222 50 N 31 42 E 3i N 1188.88 E 2268 76 N 31 36 E 61 N 1209.08 E 2314 52 N 31 30 E 32 N 1228.73 E 2360 36 N 31 22 E 54 N 1248.30 E 2406 60 N 31 15 E 52 N 1268.02 E 2453 58 N 31 7 E 39 N 1287.88 E 2501.41 N 30 59 E 63 N 1307.28 E 2548.47 N 30 52 E 31 N 1326.39 E 2594.92 N 30 4,4 E 24 N 1345.65 E 2641.66 N 30 37 E 1.03 2316.72 N 1365.24 E 2689.07 N 30 31 E 0.54 2360.90 N 1384,93 E 2737.13 N 30 24 E 0.00 2404.84 N 1404.30 E 2784.83 N 30 17 E 0.00 2409.71 N 1406.44 E 2790.12 N 30 16 E MARATHON OIL COMPANY TBU M-29 MCARTHUR RIVER KENAI, ALASKA MARKER GCT LAST READING BOTTOM 9 5/8" CASING TD COMPUTATION DATE: 26-JUL-91 INTERPOLATED VALUES FOR CHOSEN HORIZONS PAGE 8 DATE OF SURVEY: 28 JUN 89 KELLV BUSHING ELEVATION: 160,20 FT ENGINEER: KORSMO SURFACE LOCATION = 975' FNL & 519' FWL, SEC33 TgN R13W MEASURED DEPTH BELOW KB TVD FROM KB SUB-SEA RECTANGULAR COORDINATES NORTH/SOUTH EAST/WEST 10892.2O 10938.00 10938.00 10229.99 10069.79 10271.2B 10111.08 10271.28 10111.08 2391.55 N 1398.47 E 2409.71 N 1406.44 E 2409.71 N 1406,44 E MARATHON OIL COMPANY ' TBU M-29 MCARTHUR RIVER KENA[, ALASKA MARKER TD COMPUTATION DATE: 26-JUL-91 PAGE 9 DATE OF SURVEY: 28 JUN 89 KELLY BUSHING ELEVATION: 160.20 FT ENGINEER: KORSMO ************ STRATIGRAPHIC SUMMARY SURFACE LOCATION = 975' FNL & 519' FWL, SEC33 TgN R13W MEASURED DEPTH TVD RECTANGULAR COORDINATES BELOW KB FROM KB SUB-SEA NORTH/SOUTH EAST/WEST 10938.00 10271.2B 10111.08 2409.71 N 1406.44 E FINAL WELL LOCATION AT TD: TRUE SUB-SEA MEASURED VERTICAL VERTICAL DEPTH DEPTH DEPTH 10938.00 10271.28 10111.08 HORIZONTAL DEPARTURE DZSTANCE AZIMUTH FEET DEG MIN 2790.12 N 30 16 E DIRECTIONAL SURVEY COMPANY MARATHON OIL COMPANY FIELD MCARTHUR RIVER WELL TBU M-29 COUNTRY USA RUN ONE DATE LOGGED 28 - JUN - 91 DEPTH UNIT FEET REFERENCE 74690 · NI Interpreta~ons are oplrtlorl8 base(~ on Inferences from elecl]lCal or other measurements end we cannot, and c~o not guarantee the accuracy or con'ectness of any Interpretations, anti we 8rtaJl not, except In the case of gross or vellfull negligence On our part, be liable or responsible for any Ios~, costs, damages or expenses Incun'scl or sustained Dy anyone re~ultlng from any ~flterpretation made Dy any of our ofllcers, agents or employees. These Ir~elpretatlorls are elm) subject to our General Terms and Conditions as set out I~ our current price Schedule. WELL: TBU M-29 (975' FNL, 519' FWL, SEC 33, T~., R13W) IORIZONTAL PROJECTION 1600 soum -10OO · "r-r"r"! ...... !"'r"?! ..... r"r'?-'~ ....... ~'"~'"?i ...... !'"k"~'"i ...... k"i'"i'"~ ....... !'"i"'i'"i ...... ~"+"~"'~ ...... F'T"F"~ ...... i"T'T'T"TT"r"r"~~_..... ...... ?'r"r"~ ......,...??r'? ..... i-T-F-! ..... ?r-?~ · "~'"i'"i"'i ...... P'i'"i'"i ..... i'"i'"i'"~ ....... i-.+-.i...! ...... ~-.-i-..!-..i ...... !..+.+..~ ...... ~...~-.~...~ ..... ~..+.+..~ ...... F-.h..i.-.! ...... i...i...i...~...[...~...!...!...~ ...... !'"i'"i'"i ...... i'"i'"!'"! ..... i'"i'-~-'i ...... .................................... : : ~ : ; ........ , ............ 2[::i: '[ ....... 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FT"i'"~ ...... i"'FT"[ ...... F-i-T'i ....... "'Y"i'"?'~ ....... Y"!'"~'"~ ...... Y"F"~"'~ ..... F"F"i"'i ...... i'"F"i'"~ ...... ~'"!'"F"~ ...... ~"'!"'F"! ..... f'"i'"F"~ ...... ?'!"'i'"! ..... ?'!'"!"'! ...... !'"!"'F"~ ...... i'-f'"F"~ ...... i"'?!°"! ...... ?!'-Y'! ...... · --}.-.h.,F..} ....... h..h,.i...! ...... h..F,.}.,-! ..... }-,.i...!...!,.....k..h-.}...i ...... h..h..!...i ...... h..h..h..~ ...... !...h..h..! ...... i...h.,h-.} ..... !...F-.h..} ...... h..!...h..~ ...... !,..!...h,.~ ...... i...h..h..! ...... !..-ho+-~ ...... i-+-h-} ...... '":'"~'"i'": ...... ~'"?i'"~ ...... ???'"! ..... ?"?!"'~ ...... i'"?"i'"~ ...... F'?'"T'"! ...... ~'"!"'~'"i ..... ?"F"F"~ ...... ?i"'F"! ...... ?'?'?! ...... !'"!"'F"~ ...... ~ ....................................................... i ........ ...b.~.,.~..,:...;~.,~...:,..L..~ ...... ~...~...~...~ ..... t..~.~.:~,.: :~ ; ..... ~...~.,.~..,~ ............. ~ ...... ;..; ............ · .-i..-i...i--.i ...... L..L..!...!......i,..i...i.,.i ..... i...i...!...i...[...i...!,..i...~ ...... !,..L..i.,.L..I...L.i...i...[ ...... L..L..!,..~ ...... L..!,..!...! ..... i...i...!...i ...... !...i,..L,~ .... L.i...L.!...i.L~.! ..... i.. i...i.!...~ ..... -1500 -1000 -500 0 600 1000 1500 2000 2500 EAST WELL: TBu M-29 ~': (975' FNL, 519' FWL, SEC 33, T~.. ~, R13W) VERTICAL PROJECTION -500 O O ~OO 10OO 1500 ~ 2500 3000 35OO 7000 VERTICAL SECTION F~OJECTION ON VERTICAL PLANE 210.00 3~00 SCALED IN VER"IlCAI_ DEPTHS HORIZ SCALE = t / SOO IN/FT PERMIT,ill C~ \ _ ,~'"7 WELL NAME · COMPLETION DATE . 7 /_ .'~ ~,O[ I CO. CONTACT check off or list data as it is received_,*list received date for 407. if not required list as 407 I * If')/:~j/cj I drilling history/~ ~ Survey I v~l well tests O I core descriptit~,jl~ cored inier~a.ls' core analys?~. ~ I d, ditch inte~als dieital data ii i i i i i i J i i i i i i ] i i i i iii i LOG 'TYPE ' RUN INTERVALS SCALE NO. [to the nearest foot] (inch/100'! ....................... , I. HJl I J I I Ill I I I II J I L I,, ~ . 2 - , ................... IJ I .I .. I ] I Jl I1[I I ] IIII II IIIII mlltllll Illlllll IIII I II ;: I °! ,,, m .... i ip ~111 ,,, , ........ ~,,,,tl,~, ~. .~_, 131 ' ~ ~ ' .. ~ ~ ~ ~ ~ ~ ~. ~ ~ ........ plJI III I IIIII III II '1111 I I I I IIII II II I, I 11 . Unocal North Americ~, Oil & Gas Division ;~, Unocal Corporation P.O. Box 190247 Anchorage, Alaska 99519-0247 Telephone (907) 276-7600 UNOCAL DOCUMENT TRANSMITTAL Alaska Region August 12, 1991 HAND DELIVERED TO= Mike Minder FROM: Kirk Kiloh LOCATION= 3001 Porcupine Drive Anchorage AK 99501 ALASKA OIL & GAS CONSERVATION COMMISSION LOCATION: Alaska Region P. O. Box 190247 Anchorage AK 99519 Transmitting as Follows: Trading Bay Unit, McArthur River Field, Steelhead Platform, Cook Inlet, Alaska Washed and dried well cuttings as follows: Box Depth (feet) 1 1460-2750 2 2500-3950 3 3950-5240 4 5270-6530 5 6530-7850 6 7880-9080 7 9110-10,340 8 10.370-11,580 /9 11,590-1.1.,~9-6 .................. ~. Mud Log MO ~ %. Uud Log TVD-' Phasor Induction Log/GR/SP- ~ ~ Natural Gamma Ray Spec Log- ~ Borehole Compensated Sonic Log~ Repeat Formation Tester- ' GCT ' CET~ Directional survey, O.H. Edit Tape/listing PLEASE ACKNOWLEDGE RECEIPT BY SIGNING AND ~ETURNING THIS DOC~ENT T~NSMITTAL. TH~K,YOU.~ AUG 1 2 ~99~ A~aska 0i% & Gas 00ns. 00remission Anchorage ONE COPY OF DATED: TO: Mike Minder LOCATION: 3001 Porcupine Drive Anchorage AK 99501 ALASKA OIL & GAS CONSERVATION COMMISSION DOCUMENT TRANSMITTAL August 12, 1991 HAND DELIVERED FROM: Kirk Kiloh LOCATION: Alaska Region P. O. Box 190247 Anchorage AK 99519 Transmitting as Follows: Trading Bay Unit, McArthur River Field, Steelhead Platform, Cook Inlet, Alaska Washed and dried well cuttings as follows: BOX Depth (feet)~ ~...~.C.,':~'i~'~ ~ ~o-~?so ~ ~ ~!~-.,~..~ 2 2500-3950 / 3 3950-5240 ~'~' ~q~0-6530 4 > 2~~ s ~sao-vsso. 7 go~.,~ %~0-10,340 8 1~3~0 .1~~0-11,580~i~I' 9~.. I b ~ &~zgo-1~,896 . z/~blueline and 1 sePia each as follows. ~ud nog ~D ., ~ 9 ~ (~ % '~ ,~ U ~ud ~o~ ~VD ~n~ Phasor Induction nog/GR/SP ~ Natural Gamma Ray Spec Log , ~ ~ Borehole Compensated Sonic Log ~,,~/~ ~at Formation Tester , ~-~ CBT CNLD ~rectional survey, O.H. Edit Tape/listing PLEASE ACKNOWLEDGE RECEIPT BY SIGNING AND RETURNING ONE COPY OF THIS DOCUMENT TRANSMITTAL. THANK YOU. RECEIVED BY: DATED: PKS SAI~PLING LIST .. 1) ///Z.5' 37) // z/c/7_ 73) 109) z) /;~z/, ., ,38)' . //~'1 ~ 7z,.~ :11o) ... 3) /;;Z7 ~ 39) //V9¢ .--- .75) 11i) " 4) llIZ~ 40) /IA/gS ~"~. 3 ~76) . .. 5) , f/Iz~ . ~13 //~¢& ~ 77) 113) . 6)' /;15~ 42) //gg7 78) ll&) , .,, , . ~) . ,I/~ ~.) . ~,v~f. . ~9) . . . ~5) . . s)- //;sz ~4) 1~9~ _ 80) .... . , ,, , , . '9)' ;/;SM .... ~5) ~~ 8~) ,,, z~7) , zo) /;;~ q 96) I/3o/ ,, 82) , 1~) /ll]~ · 47) , (~z. ,, 83) ,, ~.9) ....... . _ , ~.2) I~1~ , . ~8), I/sp3 ........ 84), . [~0) ,, ~)' ~Z ~?). ..//~ _ 85) " ~) ,., 1'4), ,i11~. " ,, 50) .~(3~s 86) ,.. ~22), ' z~.) I~135. ~z) /~. 87) ~) .... ~6) !1~o _ .52~ . //~7 _.. 88) ,~ L2~) ... _ ZT) H!~' .' . ~3) . .//~A '89) ~CX~. ~'~) .... ~8) ~z ~4), , ~/s~ _ 90) . t~ ~v~L~) .~) ,,~. _ ~). .. ~,~ ~).... . UUL ~ ,~ .~.~). ...... . ..... 21). ' /;lg~ J.7)' //~/Z ·93) ~) ~,,v~ . ~) ' . . .. ~).... · ,,,,~ s~)' , ....~ ...,,.'~/~ ~z) .... 23) ~ ~) '/~ .~. ~/,.~o) ,,,., g~) . ~3~) , '" ,. 25) IIIV~_,~~, ~'- 61) _ 97) ...' ~F3// L33) ........... ....... . .. .... 27) ,,~ z~. ~s) .. .~¢) /' '- .. L3S.) . . _ · 28)..' /,~.} · _ ~4) . zoo) , , , , , ~.) ¢~ _: ~5) ~oz) ..... L3~) . · ... ~0) //~% 66) ~02) . , L38) ...... _ . L ,, ~ · ~2). //~? _ ~) ... ... ' '[Zo4) . ' :4o).....' .. 33) /~ ~ -: · - , ......... ' ..... 34) //~ "~ ad)'"" ' ": ' ...... , .... . ~06~ ........ , ...... ~42,),, , ' - ' - ~ "'"'" -' $ A M P L E T. 12051 RIVERA ROAD SANTA'FE' SPRINGS, CA 90670-2289 PTS ~ ORIGINATOR= ADD SHIP C~ANGE (circle one) RECEIVE J.O. 9: GEO/ENG: ATTN (LAB/PERSON): N S F, T. I C K E T SHIPPING CO. SERVICE TYPE AIR: LOCATION: Next Day 2nd Day Economy TRUCK: Express Standard Refrigerated Castiac (circle one) x SHIPPING BILL NO.. DATE: COST: WEIGHT: PREPAID: COLLECT: ?ETROI~EUH TESTING SERVICE, INC'. PKS SARPLING LIST Page / of I ~.. ?/,/~/ ALASKA OIL AND GAS CONSERVATION COMMISSION February 21, 1991 WALTER J. HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 276-7542 Unocal Mr. Gary S. Bush, Reg. Drlg. Mgr. P. O. Box 190247 Anchorage, AK 99519-0247 Re: Trading Bay Unit M-29 Unocal Permit No. 91-27 Sur. Loc. 975'FNL, 519'FWL, Sec. 33, T9N, R13W, SM Btmhole Loc. 2002,FSL, 2262'FWL, Sec. 28, T9N, R13W, SM Dear Mr. Bush: Enclosed is the approved application for permit to drill the above referenced well. The permit to drill does not exempt you from obtaining additional permits required by law from other governmental agencies, and does not authorize conducting drilling operations until all other required permitting determinations are made. The Commission will advise you of those BOPE tests that it wished to witness. Sincerely, ~Lonnie C.( Smith, Commissioner Alaska Oil and Gas Conservation Commission dlf/enclosures cc: Department of Fish & Game, Habitat Section w/o encl. Department of Environmental Conservation w/o encl. STATE OF ALASKA ALASKA"~t' o_ AND GAS CONSERVATION C(J:..MISSION PERMIT TO DRILL 20 AAC 25.005 la. Type of work Drill ~-_ Redrill lb. Type of well. Exploratory :.~ Stratigraphic Test "- Development Oilx~ Re-Entry Deepen Service ".2 Developement Gas - Single Zone ,_Z Multiple Zone _ 2. Name of Operator 5. Datum Elevation (DF or KB) 10. Field and Pool Unocal (Marathon Oil Company Sub-Operator) 160' KB from MLLW feet McArthur River Field "G" Oil Zone 3. Address 6. Property Designation P.O. Box 190247, Anchorage, AK 99519-0247 ADL 18730 West Foreland 4. Location of well at surface 975'FNL 519'FWL,Sec.33 7. Unit or property Name 11. Type Bond (see 20 AAC 25.0251 T9N,R13W,S.M.,Slot 7/inLeg B-~, Steel~ead Trading Bay Unit (See 29 AAC 25,025) Platform At top of productive interval 8. Well nu ,mber Number 700'FSL,1500'FWL, Sec.28,T9N,R13W @ 8710' M-29 5194234 TVD At total ld~h0~Q~v2~FSL 2262'FWL,Sec.28,T9N, 9. Approximate spud date Amount R13W @ ' rMarch~, 1991 2./-~i/~f $200,000.00 12. Distance to nearest 13. Distance to nearest well 14. Number of acres in property 15. Proposed depth(MD a,d TVD/ property line 12,355' MD 2262 feet M-25@ 975' - 17 feet 3840 11~500' TVD feet 16. To be completed for deviated wells 17. Anticipated pressure (see 20 AAC 25.03,5 (e)(2)) Kickoff depth 4500 feet Maximum hole angle28.40 Maximum surface 4000 psig At total depth (TVD) psig 18. Casing program Setting Depth size Specifications Top Bottom Quantity of cement Hole Casing Weight Grade Coupling Length MD TVD MD TVD (include stage data) 22" 16" 75 X-56 BTC 1380' 70' 70' 1450 1450 2102 sx 17-1/2" 13-3/8" 61 ~- K-55 BTC 3680' 70' 70' 3750 3750 2198 sx 12-1/4" 10-3/4" 55.5 N-80 BTC 430' 70' 70' 500 500 12-1/4" 9-5/8" 47.~ N-80 BTC 10638' 500' 500' 11138 10430 2445 sx 8-1/2" 7" 29.0'~-80 BTC/TKC 1417 10938' 1Q254 123.55 11500 325 sx 19. To be completed for Redrill, Re-entry, and Deepen ~Operation,s. Present well condition summary .-~- ~,~ ¢¢'~¢-,,L~, Total depth: measured feet Plugs (measured) true vertical feet _ Effective depth: measured feet Junk (measured) true vertical feet Casing Length Size Cemented Measured depth True Vertical depth Structural 410 ' 34" Dr iven 480 ' 480 ' Conductor 916 ' 2 6" Surface 978 ' 97 8 ' Surface Intermediate Production FEB 1 5 Liner Perforation depth: measured A~ask~ 0i~ & Gas Cons. true vertical 20. Attachments Fili_n,,,g fee ~ Property plat ~ BOP Sketch ~ Diverter Sketch E~ Drilling program ~ Drilling fluid program 2_4- 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 , ",, Date Signed ~ ,.¢-~.9~,. Title ~,~ ~.%, ~,~ ,-\ % g.,...% Commission Use Only , Permit Number APl number I Approval date I See cover letter ':) / - Z ~' 50-- 7.:,-?,,~ -' ~ ¢/,f~ ~I 02/21/91I for other requirements Conditions of approval Samples required [] Yes ~o Mud Icg required ~ Yes Hydrogen sulfide measures ~ Yes ~7~"1qo Directional survey required ~---~s [] No Required working pressure for BOPE/.;X2M; ,~_3/M~i~)~ 5M; [] 10M: ~ 15M Other:,/~"/~'~) .... . ';" ~ '¢~ by order of Approved by .~"'(~-'~..~,,~ i .~, Commissioner the commission Date Z-2. Form 10-401 Rev. 12-1-85 Submit in triplicate Y:Marathon 011 Company ; 2-21-91 ; 0:20PM ; Anchorage~ ~ STATE OF. ALASKA ~ ALASKA OIL AND GAS CONSERVATION COMMISSION PERMIT TO DRILL 20 AAC 25.005 90'72767542;# 2/ 2 la. Type of work Drill ~ Redrill lb. Type'oi well. Expl'oratory ("~" $tratigraph'i'c Test LI DeVeiopme~t Oil Re-Entry ..ID Deepe.n.. Service 73 Developement Gas i-I Sing,.,le Zone ri Multiple Zone 2. Name-(~f"O~3erator .... 5. Datum ~levation (DF or KB) 10. Fi~ldand Po0'l Unocal'.(I.!arat;hon Oll Company Sub-Operator) 160' KB from I~LLId feet ~lcArt:hur River Field ..................... "G': 3. Address 6. Property ~esignation Oil Zone P.O. Box 190247, Anchorage, AK 9951.9-0247 /LI)L 1873 , k'est: Foreland 4. Location of wail at surface ~)~'5'FEL.SI9 i[~.~. Se~ ~33 31' Unit or proPerty"l~lams ' '11. Type Bon('~'[;~ 2OAAO 2S.n2S! T9N,RI3Tg,S.M.,SZor 7/-J.n. Les B-l, St;eellrtead Platform TradLng Ba.y Unit ... (See 29 A~C 25,025) At top of productive interval 8. Well nurpber Number 700'FSL, IS00'Fw%,. Sec.28,TgN,R13~ @ 8710' M-29 5194234 A't total depth ' , L 0 FS 2262 Sec 28 9: ApPr0~'m~te sp~d' ~iate 'Amount ' F, arch 5, 1991 ~200,000,00 1Z-O'i~tance t° nearest 13. bisiance to"~'~arest well "1,{, Number of acres in'prOpert~ 15. Proposed del3th'~o property line 2262 feet ~--25@ 975' - 17 feet 3840 12,355' ,,! !, 500 ' TVD feet 16. To be completed for d~'viated wells ' i7. Anticil~ated pressure (see 2o,~c 2~,03~ Kickoff depth 4500 feet Maximum hole angle?.8,4o Ma,laura surface 4000 1~,19 A! total del)t, {'l'VDI 18. Casing program ............... . .... ,Setting ~P:~h ...... ' ............. size , Specifications .... Top Bottom Quantity of cement Hoie casing Weight Grade {~oupling Ler~'~th' MD TVD MD'" TVD ....... (incl;d~'.~tage dai%) 22" 16" 75 X-56 i).T.C.. .138Q..' 70' ...70' 14~'0 1450 2102 ax l~=i/2' '1~-3/8" 6i * K-55 ~TC, 3650' 70' 70~ 3750 3750 2198 ex. - 12-.._1/4" 9-5/8" 47.0... N-80 ]STC [0638~'' 500° '500'j 11f38 10430 2465 sx .............. '" 8_1/2"' 7,i 29,0 ~-.95 BTC/~KC' 1417 1093~"' 1025~" 123.5.5 11500 325 sx 19, To be completed for Redrill, Re-entry, ~nd Deepen OperationS. ' .... Present well condition summaryJu:k ;:::~::dl'~ Total depth: measured feet Plugs true vertical feet Effective depth: measured feet ( ~ r '~ ~ true vertical feet Casing Length Size Cemented Measure~l~. ~;?~ True Vertical depth Structural Z~10' 3Z~" Driven 487~ "%'~ ~ Conductor 916' 26" Surface 978' 'V~o~ 978' Surface Intermediate Production * 13-3/8" K-55 61tt/ft r~o 2950' Liner ].3-3/8" K-55 68~/ft t:o 3750' Perforation depth: n'masured true vortical 20. ,~tl:achments "Filin~ tee'iX{ i~;'~efty plat ~ Sop"~'ketch [~ Dl~erter Sketch ~ '-Drilling program ~ .......... Drilling f,,luid program r~ T!_m..e vs depth plo, t [] Refraction a..n.a, lysis 7] Seabed report [-i 20 AAC 2&050 requirements 21. I hereby certify that the toreg0ing is true and correct t° the best of my knowledge ...... ' Signed Title Date ........ C'~'mmission Use Only .............. Permit Number APl number Approval date See ~;~er letter 50-- for other requirements con'~i'ti°ns of approval ~mples required "'l'l"yes 'r,"J No Mud log required ~ Yes I._1 No Hydrogen sulfide measures ~ Yes ~ No Directional survey required E] Yes [] No Required working pressure for BOPE ~2M; /~ 3M; /~ SM: [] 10M; ~ 15M Other: _,-. by order of Approved by ~; Commissioner the ~ommlssion Date ' -[ ' i! il nil, 1,,,1 'J~ 11 ! . # tqlll, ,, , ~ ; ..... : 1:, . .. . ......... SENT BY'l~tara;hon 011 Company ; 2-21-01 ; 3:lOPM : (Marathon Oil Company Anchorage-' 9072767542 ;# 1 / 2 ~ACS~IMiLE PLEASE DELIVER THE FOLLOWING PAGES TO: .~.E ... -._ _ N,,~N,.~.~ COHPANY/FIRH ,/Or'O~C i1~ -- _.__ i__ _ L_ i. iiii ,1~__ mi .--- TELECOPY NUMBER ~'7_(~,---_~S~Z.._-.. CONFIRMATION NUMBER FROM: .. · . NAME A~$~ R~filON TELECOPIER HUMBER (go7) 564-6489 WE ARE T~NSMI~ING IF ll~ANSMISSION I$ ~ COMPLETE, PLEASE CALL: . (907) 51)1-5311 , ,,m., · · TI~A, NSMI$SION COMPLETED NOTE: ' ~,.,./c~A-f ~ e ,/~_.~, ~CC_ Uf~A 7~ ~J t ~ ~H ~ : ....... ~ . ._ - .. . ' ....... ~. --,,,,,~ _ _ __ iiiim .__1 F . ALASKA OIL AND GAS CONSERVATION COMMISSION WALTER J. HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 276-7542 February 20, 1991 ADMINISTRATIVE APPROVAL NO. 80.58.. Re: The application of Union Oil Company of California, operator of the Trading Bay Unit (TBU), to drill and complete the TBU M-29 well as part of the pressure maintenance project approved by Conservation No. 80. Mr. Kevin A Tablet Landman UNOCAL Corp P. O. Box 190.247 Anchorage, AK 99502-0247 Dear Mr. Tablet: Your application dated February 13, 1991 for a "Permit to Drill" TBU well M-29 is proposed to recover additional oil from the Middle Kenai "G" oil pool and from the West Forelands oil pool. The Alaska Oil and Gas Conservation Commission he~e_re.by .auth__~he drilling and com¢letion of the TBU M-29 well pursuant to Rule 5 of Conservation Order No. 80. Sincerely, ' '" Commissioner BY ORDER OF THE COMMISSION dlf / 3. AA 80 DRILLING AND COMPLETION PROGR~' MARATHON OIL COMPANY ALASKA REGION WELL: M-29 LEG: B-1 SLOT: 7 FIELD: AFE No.: TYPE: Trading Bay Unit, Steelhead Platform 8360-1 G/SNF ( 8361-1 - Basal W/F) G-WF / Basal WF Producer REVISION NO.: 2 DATE: 2/11/91 SURFACE LOCATION: 975'FNL,519'FWL, Sec.33,T9N, R 13W, S. M. TARGETS: G-Zone: 700'FSL, 1500' FWL, Sec 28, T9N, R13W @ 8710' TVD W. Foreland: 1143'FSL, 1759' FWL, Sec 28, T9N, R13W @ 9660' TVD BOTTOMHOLE LOCATION: KB ELEVATION: 160 ft. GL ELEVATION: 2002'FSL, 2262' FWL, Sec 28, T9N, R13W @ 11500' TVD FORMATION AC-1 A-1 B-1 C-1 D-1 E-1 G-1 Hemlock West Foreland Basal West Foreland TOTAL DEPTH TYPE SIZE CONDUCTOR: 26 ESTIMATED FORMATION TOPS: DEPTH(MD) 1480 2630 3170 3860 4230 6341 9160 9666 10217 11195 12355 CASING PROGRAM WT. 397 POTENTIAL DEPTH(TVD) CONTENT 1480 2630 3170 3860 4230 6210 8690 9135 9660 10480 11500 GRADE THREAD X-56 AUXILIARY: 16 75 K-55 SURFACE: 13,375 PRODUCTION: LINER: 10.75 9.625 7.00 Dril-quip BTC BTC BTC BTC 61 K-55 55.5 47.0 N-80 N-80 29.0 S-95 BUTTKC page 1 gas/water gas/water gas/water gas/water gas/water gas/water oil/water RECE IVED oil/water oil/water FEB I 5 t991 oil/wat~ska 0ii & Gas Cons. Commissic Anchorage SET SET FROM TO HOLE SIZE Surf Surf Surf Surf 500' 10938' 978' 978'TVD 1450' 1450'TVD 3750' 3750'TVD 5O0' 11138' 10430'TVD 12355' 11500'TVD in place 17-1/2" U/R to 22" 12-1/4" U/R to 17-1/2 12-1/4" 8-1/2" CASING DESIGN SETTING FRAC GRD FORM PRSS SIZE WEIGHT GRADE DEPTH,TVD @ SHOE @ SHOE MASP 26" 369# X-56 975' 12.0 420 667 16" 75.0# K-55 1450' 14.0 679 1420 13.375" 61.0# K-55 ~ >14.0 1523 3138 10.75" 55.5# N-80 500' 9.625" 47.0# N-80 10430' >14.0 4268 4OOO DESIGN FACTORS TENS COLL BURST 12.63 1.56 2.75 ? 6.96~~'~ 1'31-~' 1.25 2.60 20.90 1.77 2.74 1.45 1.58 7" 29# S-95 11500 n/a 6800 4000 25.70 2.48 2.33 DIVERTER SYSTEM The diverter system will consist of a 29-1/2" x 500 psi annular preventer, a 30" x 500 psi riser, and two 16" diverter lines each equipped with a 16" hydraulically actuated full-opening ball valve. A preselected diverter valve will open automatically and simultaneously when the annular is closed. The direction of flow can be changed without opening the annular. BLOWOUT PREVENTERS The blowout preventer stack will consist of a 16-3/4" x 5000 psi Hydril type GK annular preventer, a 16-3/4" x 10000 psi Hydril double gate ram type preventer outfitted with blind rams in the bottom and pipe rams in the top, a 16-3/4" x 10000 psi drilling spool (mud cross) equipped with a 4-1/16"x 10000 psi outlet and a 3-1/16"x 10000 psi outlet, and a 16-3/4" x 10000 psi Hydril single gate ram type preventer outfitted with pipe rams. A 16-3/4" x 5000 psi riser will be utilized between the blowout preventers and the casing spools. The choke manifold will be rated 3-1/16" x 5000 psi. It will include a remote hydraulic actuated choke and a hand adjustable choke. Aisc included is a poor- boy gas buster, and a vacuum-type degasser. A flow sensor will be installed in the flowline and the mudpits will contain sensors to measure the volume of fluid in the surface mud system, both with a readout convenient to the drillers console. The blowout preventers, choke manifold and associated equipment will be pressure tested to 250 psi and to 4000 psi with the exception of the annular which will be tested to 250 psi and to 2500 psi. R'ECEIVED FEB I ,5 1991 Alas,~a Oil & Gas Cons. Commission nchorago page 2 MUD PROGRAM DEPTH WEIGHT VISCOSITY WATER MUD TO ppg sec/qt LOSS TYPE 1450' 9.0-9.2 60-80 <30cc's Spud 3750' 9.2-9.4 40-50 <20cc's PHPA 11138' 9.4-9.8 40-50 < 10cc's PHPA 12355' 12.7-13.0 50-55 < 10cc's PHPA Mud discharges will be monitored and reported per EPA requirements MUD EQUIPMENT The solids control equipment consists of an Brandt dual tandem shale shaker, a Brandt 2-cone desander, a Brandt mudcleaner, and a Brandt centrifuge. WELLHEAD SYSTEM STARTING FLANGE: 30" series 300 MSS x 26" butt weld CASING HEAD: 30" 300 MSS x 21-1/4" 2000 psi FMC segmented clamp hub w/2" L.P. outlets CASING HEAD CLAMP: 21-1/4" 2000 psi FMC segmented clamp CASING HEAD: FMC Unihead Type II, 2 step, 16" pack-off bottom w/21-1/4" 2000 psi clamp hub x 16-3/4,' 5000 psi flanged top w/2-1/16" 3000 psi outlets TUBING HEAD: FMC TC-60-ET, SPCL 16-3/4" 5000 psi STD BTM x 16-3/4" 5000 psi FLNGD top w/2-1/16" 5000 psi outlets and four 1/4" SCSSV control line ports RECEIVED Nas1 0il .& Gas Cons. C 0 m ss't0u page 3 CEMENTING PROGRAM AUXILIARY: 16"@ 1450' MD LEAD SLURRY: .2% CFR-3 TOP OF CEMENT: WEIGHT: YIELD: WATER REQ.: PUMPING TIME: EXCESS (%): ESTIMATED VOLUME TLW w/ 10% Microbond + 5 lb/sack Gilsonite +.50% Halad 344+ 2% CaCI+ SURFACE 13.1 ppg. 1.50 cu. ft./sk 7.06 gal/sk 5 + hrs:min 100 % 1560 sx TAIL SLURRY' Premium w/ 1% CaCI2 + .25% SuperCBL + .4% Halad 344 TOP OF CEMENT: 1240 ft. WEIGHT: 15.8 ppg. YIELD: 1.15 cu. ft./sk WATER REQ.: 5 gal/sk PUMPING TIME: 3 hrs:min EXCESS (%): 100 % ESTIMATED VOLUME 542 sx RUNNING 1. 2. 3. 4. 5. . 7. 8. 9. 10. AND CEMENTING DETAILS: Remove thread protectors and visually inspect connections. Pickup shoe joint. Baker-lok float shoe. Fill pipe until circulating. Check float. M/U stab-in float collar.(Baker-lok top and bottom of float collar) Fill pipe until circulating. Run remaining casing (filling every joint) and land in the 30" MSS flange (install centralizers on jts. 1,2,4,6,8,10,12,14) Rig up false rotary and run and space out stab,in cementing string. Secure drill pipe and circulate while reciprocating casing. Continue circulating until no gains in circulating efficiency is made. With as little shut down as possible, begin pumping spacer. Pump spacer as follows: 40 bbls 18% NaCI 20 bbls drill water 20 bbls Super Flush (increase if losing circulation) 20 bbls drill water 40 bbls 18% NaCl Mix and pump 417 bbls of lead slurry (1560 sx). Mix and pump 111 bbls of tail slurry (542 sx). Reciprocate casing as long as possible. 12. 13. 14. Displace drillpipe. 15. Check float. 16. Pull seals out of float shoe. 17. Pull out of hole w/d.p. 18. WOC 12 hours holding 75 psi on annulus. 19. N/D diverter 20. N/U unihead and BOP stack. page 4 CEMENTING PROGRAM SURFACE: 13-3/8"@ 3750' MD LEAD SLURRY: TOP OF CEMENT: WEIGHT: YIELD: WATER REQ.: PUMPING TIME: EXCESS (%): ESTIMATED VOLUME TLW w/ .6% Halad 344 + 10% Microbond + .3% HR-7 + .2% CFR-3 SURFACE 13.2 ppg. 1.32 cu. ft./sk 6.70 gal/sk 5+ hrs:min 50 % 1715 sx TAIL SLURRY: TOP OF CEMENT: WEIGHT: YIELD: WATER REQ.: PUMPING TIME: EXCESS (%): ESTIMATED VOLUME Premium w/.3% Halad 344 + .35% SuperCBL + .2% HR-7 3500 ff. 15.8 ppg. 1.15 cu. ft./sk 5.0 gal/sk 2:30 hrs:min 50 % 483 s× RUNNING , 2. 3. 4. 5. 6. 7. . 9. 10. 11. 12. 13. 14. 15. Pump 5 bbls drill water. Mix and pump 403 bbls lead slurry (1715 sx). Mix and pump 99 bbls of tail slurry (483 sx). AND CEMENTING DETAILS: ENSURE WEAR BUSHING IS REMOVED! Remove thread protectors and visually inspect connections. Pickup shoe joint. Baker-lok float shoe. Check float. Fill pipe until circulating. M/U float collar. (Baker-lok top and bottom of float collar) Fill pipe until circulating. Run remaining casing. M/U cementing head, install bottom plug and test all lines. Circulate and reciprocate until no gains in circulating efficiency is made. With as little shut down as possible, drop bottom plug and begin pumping spacer. Pump spacer as follows: 40 bbls 18% NaCl 20 bbls drill water 20 bbls Super Flush (increase if losing circulation) 20 bbls drill water 40 bbls 18% NaCl RECEIVED Displace cement. Reciprocate as long as possible. FF._.~ 1 ~) ~0~9~ Bump plu0 w/500-1000 psi over final circu{at{ng pressure. Check f{o~ska 0}i & Gas Cons. Install 16" X 13-3/8" packoff. ~lchorag~ wOC 12 hours holding pressure on annulus. Test BOPE. Run intermediate wear bushing. page 5 PRODUCTION: 9-5/8" and 10-3/4" @ 11138' MD LEAD SLURRY: TOP OF CEMENT: WEIGHT: YIELD: WATER REQ.: PUMPING TIME: EXCESS (%): ESTI MATED VOLU M E TLW w/ .4% Halad 344 + .35% Super CBL + .55% HR-7 + .2% CFR-3 3500 ft. 13.2 ppg. 1.32 CU. ft./sk 6.70 gal/sk 5 hrs:min 30 % 1675 sx TAIL SLURRY: TOP OF CEMENT: WEIGHT: YIELD: WATER REQ.: PUMPING TIME: EXCESS (%): ESTIMATED VOLUME Premium w/.4% Halad 344+ .35% Super CBL + .05% HR-7 9000 ft. 15.8 ppg. 1.15 cu. ft./sk 5.0 gal/sk 4:00 hrs:min 30 % 770 sx RUNNING AND CEMENTING DETAILS: ENSURE WEAR BUSHING IS REMOVED! 1.Remove thread protectors and visually inspect connections. 2.Make up float shoe and 2 shoe joints. Check float. Fill pipe until circulating. 3.M/U float collar. (Baker-lok all connections to top of float collar) 4.Fill pipe until circulating. 5.Run remaining casing. M/U cementing head, install bottom plug and test all lines. 6.Circulate and reciprocate until no gains in circulating efficiency is made. 7.With as little shut down as possible, drop bottom plug and begin pumping spacer. Pump spacer as follows: 40 bbls 18% NaCI 20 bbls drill water 20 bbls Super Flush 20 bbls drill water 40 bbls 18% NaCI 8. Pump 5 bbls drill water. 9. Mix and pump 298 bbls. lead slurry(1675 sx). 10. Mix and pump 158 bbls. of tail slurry(770 sx). 11. Displace cement. Reciprocate as long as possible. 12. Bump plug w/500-1000 psi over final circulating pressure. Check floats. 13. Install 16"X 10-3/4" packoff. 14. WOC 12 hours. 15. Test BOPE. RE(EIVED FEB 1,5 199 .0il & Gas'C0ns, c0mm%ss't0t~ ncho. rage page 6 t' CEMENTING PROGRAM LINER: 7"@ 12355 'MD LEAD SLURRY: TOP OF CEMENT: WEIGHT: YIELD: WATER REQ.: PUMPING TIME: EXCESS (%): ESTIMATED VOLUME Premium cement w/.4% Halad-344 + .10% LWL + .2% CFR-3 500 ft. above TOL 15.6 ppg. 1.18 cu. ft./sk 5.2 gal/sk 4:00 hrs:min 30 % 325 sx RUNNING 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 2O 21 22 AND CEMENTING DETAILS: Remove thread protectors and visually inspect connections. Make up float shoe and 2 shoe joints. Check float. Fill pipe until circulating. M/U float collar. (Baker-lok all connections below top of float collar) Fill pipe until circulating. Run remaining liner. Make up liner hanger and running tools. Run liner in hole on 5" drillpipe. When shoe of liner is 250' above csg shoe perform rotate and recip, torque test. Continue in hole until 30' from desired depth. M/U swivel, manifold, flag sub and single on top of drill string. Continue to depth, circulate and condition mud. Reciprocate and rotate liner throughout job. Pump 10 bbls. fresh water spacer. Mix and pump 20 bbls. of Dual Spacer mixed 1.0 ppg heavier than mud weight.. Mix and pump 68 bbls slurry (325 sx). Displace cement. Set liner hanger. Release liner setting tool. Pull 10 stands. Reverse out drillpipe volume. POOH. WOC 12 hours. RE£E VE ) page 7 DESC RKB TIE-IN & NUDGE HOLD KICKOFF END OF BUILD TOTAL DEPTH DIRECTIONAL PLAN MD TVD INCL NORTH AZIM COORD 0 0 0 0 0 978 978 0 S01.88E -9 build & turn then drop & turn @ 1.5 deg/100ft 1338 1337 0 N00.00E -19 4500 4500 0.0 N00.00E -19 build @ 2.5 deg/100ft. 5636 5590 28.4 N30.33E 219 12355 11500 28.4 N30.33E 2977 EAST COORD VERT SECTION 0 0 -6 -11 -10 -21 -10 -21 1129 254 1742 345O POTENTIAL INTERFERENCE: WELL DISTANCE (ff.) DEPTH (MD) M-2 118 978 M-4 106 978 M-13 114 978 M-15 127 978 M-25 17 978 M-26 22 978 M-27 36 978 M-28 37 978 M-1 97 1025 M-14 83 1175-4475 M-19 90 1275 RLF-1 98 1575 M-3 105 1725 RLF-1 190 1925 M-5 85 2225 G-21 229 8006 CONDUCTOR: LOGGING PROGRAM No logging is planned for this interval. AUXILIARY: No logging is planned for this interval. SURFACE: No logging is planned for this interval. RECEIVED FEB 1 5 t°~9t 0it & Gas'Gons, Go~~''''t0'~t. . .. ' PRODUCTION: GR/SP/Cal/DIL/LSS from 11,138'-4000 '. FDC/CNL/Cal/GR from 11,138'-4000'. Four arm caliper for cement volumes across open hole. LINER: GR/SP/Cal/DIL/LSS from 11138'-12355'. FDC/CNL/Cal/GR from 11138'-12355'. Four arm caliper for cement volumes across open hole. COMPLETION: A Cement Bond Log (CBL/GR) and a directional gyro- survey will be run prior to perforatin..g. page ~ DRILLING PROGRAM CONDUCTOR: to 500 psi. 26" casing in place. Weld on starting flange to 26" casing. N/U diverter and test AUXILIARY: Drill a 17-1/2" hole to 1450' RKB per the directional program. Underream hole to 22" from 975' to 1450'. Pull wear bushing. Run and cement 16" auxiliary casing. WOC. Back out and L/D landing joint. N/D diverter and install FMC Unihead w/16" pack-off and test void to 700 psi. N/U bope and test to 2000 psi. Set Unihead wear bushing. Test 16" auxiliary casing to 1850 psi. SURFACE: Drill float equipment and 10' of new formation w/14-3/4" bit. Run leak off test. Do not exceed 14.0 ppg equivalent test pressure. Drill a 12-1/4" hole from 1460' to 3750' per the directional program. Underream the 12-1/4" hole to 17-1/2" from 1450' to 3750'. Pull wear bushing. Run and cement 13-3/8" casing. Set pack-off and test void to 1100 psi. Test BOPE and choke manifold to '3000 psi. Set wear bushing. Test 13-3/8" surface casing to 2150 psi. PRODUCTION: Drill float equipment and 10' of new formation. Run leak off test. Do not exceed 14.0 ppg. equivalent test pressure. Drill a 12-1/4" hole from 3760' to 11138' per the directional program. Log. Pull wear bushing. Run and cement 9-5/8" casing. Set pack-off and test void to 2800 psi. Test BOPE and choke manifold to 4000 psi. Test production casing to 4000 psi. Set wear bushing. LINER: Drill float equipment and 10' of new formation. Run leak off test. Do not exceed 15.0 ppg. equivalent test pressure. Drill a 8-1/2" hole from 11138' to 12355' per the directional program. Log. Run and cement 7" liner. Clean out to liner top and test lap to 4000 psi. COMPLETION: Cleanout casing to PBTD. Run gyro and CBL. Completion procedure to follow. CORING PROGRAM No cores are planned for this well. TESTING PROGRAM No open hole tests are planned for this well. page 9 Well TBU l,.laximum Antic:ipated Surface Fressui.~, (k4ASP)Calr:~ ~lations The m~',imurn pressure gradient expected to be encountered during the life of Well Ivl-29 is in the Basal West Foreland resep/oir. Static bottom hole pressures tal~.,~n'~ · in Well tvl-.,, o,~:~ the onl)~ producer to date in this inteiYal., indicate a reser;,oir pressure of 6800 psi. The expected top at the Well I,,1-29 location is 10,480'-Pv'D. This equates to a .649 psi/ft gradient. Since the formation fluid produced from the Basal West Foreland is oil with a ',ten/..' Io'w bubble point (1500 psia), it is not feasible to have a entire colurnn of gas in the tubing or casing at the current abnorma. I rese~¥oir pressures for calculation of k~ASP. Therefore an alternate method was used to estimate MASP due to the Basal West Foreland formation. Since the artificial lift. method planned initially for Welt ki-29 is jet pumping, utilizing a pump s)..'stem rated at 4000 psi m~.,.,,imurn, it can be assurned that unless SITP on a flowing well exceeds 4000 psi, that should be the maximum pressure on the casing (assuming a shallow leak in 'the tubing and an inadvertantly closed casing valve). To reach 4000 psi SITP in a flowing well, the tubing would have to have over 4000 feet of gas with the remainder oil, which given the bubble point .'.)f the res%..'oir as i't is, is not feasible. Therefore, 4000 psi is assumed to be the k'IASP. 20O 150 100 50 5O lO0 150 200 150 I I I I I 150 100 I 5O 6200 5800 6200 100 50 50 100 150 1800 / / / / 6400 0 4000 q°~oo i 000 1200 1 000 1800 000 1 000 1200 100 150 2O0 150 lO0 5O 0 5O lO0 150 200 40 _ 30 . 20 _ 10 _ ~ 10 _ 20 _ 30 _ 40 _ 50 20 10 I I I i, 30 0 10 20 30 1~00 1200 / /, ,;o /~ 6000 a1 / / / / / / 5000 3700 I I I I I I 20 10 0 10 20 30 40 30 20 10 0 10 _ 20 _ 30 _ 40 MARATHON Oil Company Structure · Steelhead Platform Well · M-29 Field ' Trading Bay, Unit Location ' Cook Inlet, Alaska o u~ '' 500 ~ lOOO 1500 2000 2500 3000 ~::~3500 4000 ~ 4500 O - 5000 - ®~ ~-- 5500 6000 6500 7000 7500 8000 8500 9000 9500 10000 _ 105O0- _ 11000- 11500- Ireoted by : jones For: BRIAN ROY ate plotted ; 24-Jan-g1 lot Reference is M-29 Version oordinates are in feet reference B1-7. rue Vertical Depths arerefer ...... Ilhead. RKB E:levaUon 160' 1.45 Begin Nudge Tvd=975 Tmd=975 Dep=-11 1.5 Dog/lDO Ft Dogleg 1.50 End Nudge Tvd=1338 Tmd=1338 Dap=-21 16" CS(; Pt Tvd=1450 Tmd=1450 Dep=-21 .o,0,:,oo.0o East --> 200 0 200 400 600 800 1000 t 200 1400 1600 1600 I I I I I I I I I I I I I I I I I I I I I TDLocation: 2002'FSL. 2262' FWL I Sec. 28, TgN. R13W. i ITarget ~2 Location: i 1143' FSL, 1759' FWLI Sec. 28, TgN, R13W l 'forget /~2 [ / Tvd 9660 Tmd= 10263 Dep=2455 North 2119 East 1240 13 3/8" CSG Pt Tvd=3750 Trod=5750 Dep=-21 KOP Tvd=4500 Tmd=4500 Dap=-21 2.50 7.50 12.50 Build 2.5 Dog/lO0 Ft 17.50 22.50 27.50 EOB Tvd=5590 Trod=5636 Dep=254 Target fl Location: 700' FSL, 1500' FWL Sec. 28, TgN, R13W Target tl Tvd=8710 Tmd=g183 Dep=1941 North 1675 East 981 Surface Loction: 975' FNL. 519' FWL Sec. 35. TgN, R13W -3000 2800 2600 --2400 -- -2200 ~2000 1600 - -1400 ]20° - -lOOO 8OO 600 400 CO o - 200 0 ,200 0 N 30 DEG 34 MINE 1941' (TO TARGET //1) TARGET #1 / G Zone Tvd=8710 Tmd--9185 Dep=1941 ~_ TARGET //2 / West Foreland ~ Tvd:9660 Tmd:10263 Dep=2455 FEB 1,5 t99' AVERAGE ANGLE 8" CS(;; Pt Tvd=10430 Tmd=11138 Dep---287Ala,~ka 0it &Gas Cons. Coram~so,J~-'~ 28 DEC 24 MIN ~~s/ Anchorage ~ TD / 7" Liner Tvd=11500 Tmd=12355 Dep=3450 i i i i i i i i i i i i i i i i i 500 0 500 1000 1500 2000 2500 3000 3500 5COIe 1 : 250.00 Vertical Slaflon en 30.35 ezlmulh with r,f*renae 0.00 N. O.00 [ from STEELHEAD PLATFORM BOP Schematic WELL: FROM MUD PUMPS . . JHYD. CHOKE · ADJUSTABLE CHOKE PRESS. SENSOR CHOKE MANIFOLD DRILLFLOOR '3' m TO MUD SEPARATOR 3' TO DERRICK VENT 3'' m TO SHALE SHAKER FLOW LINE HYDRIL TYPE OK 16 3/4'X 5000 PSI 'IPE 3° KILL LINE Co FLEXIP HOSE Oil S Gas Cons, f~nchorage .IND 3" CHOKE LINE Co FLEXlP HOSE RAM PREVENTORS ARE HYDRIL TYPE V 16 3/4' x 10,000 PSI 16 3/4'-5U00 PSI RISER 16 3/4' - 5000 PSI CASING HEAD 30' DRIVE PIPE 2O" CONDUCTOR 16' CONDUCTOR 13 3/8' SURFACE CASINO CENTRIFUGE PIT lOO Bbls Cap 0.99 Bbls/in MUD CLEANER PIT lO5 Bbl$ Cap 1.03 Bbls/in DESANDER PIT 113 Bbls Cap 1.11 Bbls/In . SUCTION PIT ~2 320 Bbls Cap 3.05 Bbls/in MIX PIT 82 Bbls Cap 0.77 Bbls/in MUD RETURN DITCH EQUALIZE ~;i AGITATOR MUD GUN Nr RESERVE PIT '509 Bbls Cap 4.97 Bbl$/in IiA i PILL PIT 80 Bbl. Cap 0.75 Bbls/in DESANDER PIT 113 Bbls Cap 1.11 Bbls/in MUD CLEANER PIT 105 Bbls Cap 1.03 Bbl=/in CENTRIFUGE PIT 100 Bbl$ Cap 0.99 Bbl./in SUCTION PIT ~1 320 Bbls Cap 3.05 Bbl$/in STEELHEAD PLATFORM MUD PIT LAYOUT I I ! .4- 14 13 18 17 -.F i M-29 fib mil + + - · .~ ,t- M fe~ lube~3. PROJEt~FION INFORMATION Centered on Groyfing Ptotform Generol Transverse Idercot~r Soheroid - Clorke 1866 RECEIVED FEB I 5 ~9~. - Alaska Oil & Gas Cons. Commission Anchorage MARATHON OIL COMPANY McARTHUR RIVER I:'IELD Plan View STEELHEAD PLATFORM DiVERTER SYSTEM Rig Substructure 16; Diverter Line 16' Remote Operated Ball Valve Al~S~ Oil & G~s Cons. Section View Conductor Riser 16' Diverter Line 29-1/2' 500 psi Flange STEELHEAD PLATFORM CHOKE MANIFOLD TO GAS BUSTER TO DERRICK VENT I I I I I I I I I I I TO SHALE SHAKERS f CHOKE LINE I I I I "SWACO ALL VALVES IN FLOW PATH iRE 3-1/16" 5000 PSI CAMERON GATE TYPE SECTION AA O ~ O. · ,,~ L~,I A A A ; ~ A A A MUD MUD CENTRIFUGE -- -- DESANDER ~ A ~ ~ DESANDER ~c.~... ~ ~.T.,~U~ : PIT ~//~ losPITBbl, c.p ' 0.99 Bblt/in 105 Bbll Cap i 1.11 Bblt/in ,, 0.99 Bbl./in 1.03 Bbll/in [ ~ RESERVE PIT ~ ~.o3 able/in ,., ~. . ...... ,o..,..~., '~~ ~ o '~o o/ o~ o ,.~, .,,.,,. ,,. , ~ , . ~ ,, I SUCTION PIT ~2 ~ SUCTION PIT ~1 320 Bbls Cap ~ 320 Bbl~ Cap 3.05 Bbll/in , ~ 3.05 Bbll/in ~ ~ ~ ........... A '~ ' ;'~" MIX PIT PILL PIT J ..... 82 Bblt CSp 80 Bbl. ~ 0.77 Bbl./in 0.75 Bbll/in ~'0 0 0 0 , , ~ , ,,, ,, , ,, ,,, , ,, MUD RETURN DITCH EQUALIZER I I A AGITATOR 0 MUD GUN N ~ STEELHEAD PLATFORM MUD PIT LAYOUT CHECK LIST FOR NEW WELL PERMITS ITEM APPROVE 'DATE (2 thru 8) (8) (3) Admin (9 thru 13) (10 and 13) (14 thru 22) 1. Company {]~9f'(7~ Lease & Well No. YES NO Is the permit fee attached .......................................... ~- 2. Is well td 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 ............ ,~ 6. Is well to be deviated and is wellbore plat included ................ ~_ 7. Is operator the only affected party ................................. ~ 8. (5) BOPE (23 thru 28) e 10. 11. 12. 13. 14. 15. (6) OTHER :~,~ (29 thru (6) Add: Geology: DWJ ~' En$ipe,ering: 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. nl/30/89 For 29. 30. 31. 32. Can permit be approved before fifteen-day wait ...................... ~ Does operator have a bond in force .................................. ~ Is a conservation order needed ...................................... Is administrative approval needed ................ .............. "~'-... ,~ Is the lease number appropriate ..................................... Does the well have a unique name and number ......................... I~ conductor string provided ........................................ Will surface casing protect all zones reasonably expected to serve as an underground, source of drinking water ..................... Is enough cement used to circulate on conductor and surface ......... Will cement tie in surface and intermediate or production strings ... Will cement cover all known productive horizons ..................... Will all casing give adequate safety in collapse, tension and burst.. Is this well to be kicked off from an existing wellbore ............. Is old wellbore abandonment procedure included on 10-403 ............ Is adequate wellbore separation proposed ............................ Is a diverter system required ....................................... Is the drilling fluid program schematic and list of equipment adequate/~ Are necessary diagrams:and descriptions of diverter and BOPE ~ttached./~ Does BOPE have sufficient pressure rating - Test to ~7%~¢ psig .. ~ Does the choke manifold comply w/API RP-53 (May 84) .................. /~ Is the presence of H2S gas probable ................................. exploratory and Stratigraphic wells-. Are data presented on potential overpressure zones? Are seismic analysis data presented on shallow gas zones ............ If an offshore loc., are survey results of seabed conditions Additional requirements ............................................. " INITIAL GEO. " UNIT ..... 0N/OFF POOL CLASS STATUS AREA NO. SHORE , , , TZ u Pi - 9 ~S Additional Remarks: o~ M- ~t. , ~:, o~ 0 ~-~ 0 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 APPENDIXi No special'effort has been made to chronologically organize this category of information. COMPANY NAME: : MARATHO~ OIL CO~ANY FIELD NAME : MCARTHUR RIVER STATE : ALASKA REFERENCE NO :, 74685 RECEIVED Alaska 0il & Gas Cons. Commission AnchoraDe IS Wa~e Verification L, istina chlumberqer AlasKa Computin~ Cemter 12-JtiL-1991 !i)9:38 **** P F..E[: !:q e~A [) ER **** p~'r~: : 911o7/12 OR,tIN : FLIC ~EE[, ~'~f~E : 74635 COr,~T!r,~UATIO[J ~ : CO~uE~.~I : aAR~THOL OIL CO~4PANY,LCART~UR RIVE6~,TBU M-29,50-733-20428 **** TAPE }4EADEJ~ DI~TK : ql/a';t!2 ORI~I[I : FLIC TAPM ~,~A~'ag : 74635 CONTINUATION ~ : PREVIOLiS TAPE CO~',~ENT : ~aA~ITHO~ OIL CO~PANY,~CART~UR RIVER,TB~I M-2g,50-733-20428 **** MILE HEADER **** FILE N&HE : EDIT ,001 SERVICC : FLIC VERSION : O01A06 DAT~ : 91/07/~2 MAX REC SIZE : 1024 FILE TYPE : LO I..,~ ST FILL : PAGEt ******************************************************************************** ** ** ** ** 8C}~bllgBERGER WEbb SERVICES ** ** ** ******************************************************************************* CO~P~MY HAME: MARATi'iQN OIL C¢~PANY WELL: TBU a-29 FiEb!): ~c,ART~tlR RIVER BOROUGh: KEi~AI STATE: ALASKA APl N[I~gER: 50-'733-20428 !,.~OCATIOM: 975' FML & 519' FWL SECTION: 33 TOWNSHIP: TgN RANGE: R13W PERMA~,~ENT OATUa: MSb ELEVATION chlumberger AlasKa Computinq Cen%er LOC ,,'4EASLi~EP_ Fk,.r)i,', i{.B.160.2 ~6GVF, PE[~.~!A~,!E~T DATU}i EI,EVaTIn~S KB: 160.2 DF: GL: CaSI~!G 1: 13 3/8" o DPILL~iP D~iPTM OF 3755 ~T $IZ~ i: 1~ 1/~" CASI~:~G ~: q 5/~" (~ DRILLER OEPTF~ OF ~1038 ~T S~ZE 2: ~ 1/2" ****************************************************************************** ********************************** D~T~ bOGGED: TD ORILLER: 11117 T[> I,OGGE~: TYPE FLUID It~ HOLE: FRESH GEL i~UP DENSITY: 9,7 VISCOSITY: 55 PH: 9.~ FL, DID 5OSS.: 7 ~!D RESISTIVITY: F~LT~TE RESISTI¥ITY: ~UD CAKE RESISTIVITY: 4.76 ~ 72 3,76 ~ 72 4,95 ~ 73 T!~K CIRCULATIOg ENDED: 05:30 04-~AY TI~E LOGGER ON BOTTOM: 13:55 04-~AY ~AXI~d~ TEMP P~C(]ROED~ 170 LOGGING DISTRICT: LOGGING ENGt~EER: U~DERWOOD NUMBERS: DIS 42 DIC 86 SLS WA 1.373 SDC UA 70 AMS 952 SGTL 577 ORS 298! C~ TCC~ 1.1~9 ********************************** RUN2 ************************************** [)ATE bOGgeD: 24-JU~i-91 TO DRILLER: 11896 TD LOGG~R: !i8~ TYPE FLUID Ilq MOLE: FRES~I GEL DENSITY: t3 VISCOSITY: 56 DH: 9.4 FLUID [,OSS: 6.6 PAGE: IS rape verification i. istina Chl. Umberoer Alaska Co,~puti. n~ Center 12-jOL-1991 09:38 ~t~l) P}~SJST!VIT¥; F~ [,T~6TF RES!STITt ~!~'D CAK~: RESIS'PlvlTY: 3.~5 :~ 74 1.76 :~ 59 1.19 ~ 64 TI;,~E CIRCI]LATIO!¢ E:J[~o: 14:00 6-24 ~AZI~,~tJ~:'~. .~ TE~P PEC~ID~D:,. 175 L .,t,G I~,iG DISTRICT: I,OGG I ~G E~IGINEE~: t.,~ ! TioESS: SLC UA 156 A~S 952 aGS 748 [)RS 3879 Sba i372 TCa 544 COMPUTING CENTE~ RE~ARK$: bDT/CNL DATA DEPTH-ADjUSTED TO THE DITE BY USING T~{E!R ASSOCIATED G~MA RAYS FOR CORRELATION AS FOLbOW$: OLD DEPTM NEW DEPTH AMOUNT SHIFTED 113 ' O, 11.,307 0 ' 1.00000 1~1. O, 11189' ' I I79' () " 00000 · I~14.7,5 10949,0 ~0745.5 ~0679~0 10277.~ g737.S0 9729.00 8665.50 8396.50 8381.50 , 8378,50 0 t 0 ,}I127.5 ! -1,50000 0949,0 ! 0 10746,5 ! 1.00000 10679,0 ' 0 5 ; -1 00000 1022~. 9738,00 [ ,50000 9729,00 ! 0 8665,00 ! -0,5()000 8396.50 ! 0 8382.00 ! 0,50000 S3~8.50 , !~GT O.~TA O~':P?H-ADJUSJED TO :HE bITE BY I,,8I. NG THEIR ASSOCIATED CA)~h!A RAYS FOR CORRELATION AS FOLLOWS: (}LD DEPTN NEW DEPTH A~OiJNT SHIFTED 888R8.0, 88888.0 ! 0 PAGE: IS Taoe Vertilcatlnn Chlumberoer Alaska Comoutim,~ Center ]!074.0 10679 0 102~7;5 9737,50 972g,00 s665.5o 8~96,50 8381.50 837~,50, ! O0,000, 1 ~074.0 : 0 10679.0 ! 0 10226.5 ' -1.00000 9738,00 ! .50000 972g,o0 I 0 .~665,00 ' -0.50000 8396.50 ; '0 8382.00 .; 0.50000 ~t378.50 ! 0 100,000 I 0 1].074,0, 10906,~ 10522, 10226.6 9645,50 9515,00 947 ~ O0 9436150 9} 2,50 9 So 7, 829 50, 100,000, tS. El,.. . 0 TFIE DITE ) DATA DEPTH.-ADJ; T" ~ T YS FOR Cb, ~EI,,ATI,),~ Ao FOLLOWS: .~Ei.~ DEPT}'i AMOUNT S{,tlFTED 88 .0 ! 0 11095,5 ~ 0 i 1074,0 ~ 0 11061,0 ' '1 , 00000 10942,0 { -l.00000 10905.5 i -0.500O0 1052~,5 ' 0 s ; . 0000 9515,50 ! ,50000 9472'00 ' 1,,00000 9436,50 i 0 9423,50 ~ 1,00000 9358.50 ' 0 9~91,00 { .50000 ags8,Oc~ [ .5ooOo I -o'500oo 8291'00 ! '0,50000 8195 50 I '1,00000 8136:00 I '1.00000 99,0000 I -1..O0000 8Y USI.~tG D A ' E T ~ JOB STAR ED: 10-JU!~-9I JOB RE~ERE~CE r;.~O; 74685 LOP/gNA: KOHRI O9: 38 THEIR ASSOCIATED PAGE: FTLE - EI) IT,O0! ~ARATHON OIL CO~PA~!Y ~CARTHUR RIVER TBU 50-73B-2042~ IS mar~e ~erif.lcation ~,.tstin~ ChlUme, eraer AlasKa Comp~ti. nq Center 12-Jub-~ 99I (,9:3~ DAT~ I.~(LLII,F.)- TOO[ T Y P E [',IT-E , DTE LSS , LSS . bDT PHASOR DUAL I"~DUCTIO~,! SFL 11883' TO 3755' RUbil ~ERGED ~O RUN2 011074' L, Ob~G SPACED SOmatIC 11850' TO 8079' P~{,~I BHC MERGED 1'0 RUNP LSS ~11074' THEREFORE NO OTb CURVE EXISTS OVER RUN ~I blThO DENSITY 11890' TO 8079' R~I ~ERGED TO RL}~2 CO?lOgS;SATED {4EUTRO~ 11~90' TO 8079' RUN1 ~ERGED TO RUN2 (a11107' NATL~RAL GAM~,~A SPECTROSCOPY 11828' TO 8079' RU~! ~ERGED TO RUN2 ~11074' ****************************************************************************** PAGE: 5 T BLL YPE : CONS FN ~iCARTHbR RIVER W~ TBU ~-2g API~ 50-733-20428 FL 975' Fill & 519' FWL SEC~~ 33 TOM'~ TgN RANG RI3~ COUP} STAT ALASKA hATI USA WIT~ UNDERSTOOD SON 593676 POAT E P D F T 0. L~F K APD FT I~ '2 EDF MT 99~ 25 EGL FT -999 25 TOD ~T' 1189 , T D L, ~ T 1168 P. BL1 FT 11883. TLI PT 11036, F . DFT FRESH G~,.L Well Name APl Serial Number Field Location Section Township 'Ran e County Stale or Province Nat oD Witness' Name Service Order Number Permanent datum Elevation of Perm. Datum bog Measured From ~BOVE PERMANENT DATUM Elevation of Kelly Bushing Elevation of Derrick Elevation of Ground Level Total Depth - Driller Total Depth - Logger Bottom L0gtlnterval Top Log 1~ erval ~rllling FlUid Type IS Ta[~c verification Iistinq ChlU~,berger AlasKa COmoutinq Ce.ret 99!, 09:3t3 PAGE: 6 TLii~I V~LO DEFI DFPHDFV CP 95g~ {,) llinq Flui Ph DF[i, ~3 6.6 ~ST D~GF 7 ~FST O~GF 5~ ~C$ OPi~H l,~q ~CsT DMGF 64 ' TCS 14100 0-24 BNT DE~ 175, Drilling Fluid Viscosity Drilling Fluid boss Resistivity of Mud Sample Mud Sample Temperature Resistivity of mud filtrate s Mud Filtrate Sample Temperatu Resistivity of Mud CaKe Sampl Mud Ca~e Sample Temperature 'rime Circulation Stopped Bottom Hole Temperature TABLE TYP~2 DEPT CIDP IDPW CIM~ I~PH ClbP lbo Clb~ iLS IFRF IDQF I~OF IIRD IIXD IIR~ II×~ SP GR TENS NTE~ DT DTL TT2 TT3 TT4 SP G~ Depth Channe] ~Jame IMDUCTION DEEP PHASOR CONDUCTIVITY INDUCTIO~i{ DEEP P~ASOR RESISTIVITY INDUCTIO~ MEDiUm{ PHASOR CONDUCTIVITY INDUCTION ~EDIU~ P~AS{.~R RESISTIVITY~ Deep Induction Standard Processed Conductivity Deep Induction Standard Processed ~esistivlty ~edium Induction Standard Processed Conductivity Medium Induction Standard Processed Resistiv~.~ty Induction Calibrated Fre~uency IDOF DEEP IND,JC,CION O[.if~blTY FACTOR ItiQF ~4~ED INDUCTIO~ OUALITY FACTOR Deep Inductlon ;~eaI Deed Induction Quad Intermediate CoDdUctivit ~ediu"~ I.ductlon Real Intermediate ConduCtivity Medium Induction Quad Intermediate Conductivity SFL ResiStivity (uoaveraged) SpontaDeol]s Potential Gam~a Ray Te~sion ~4ud Temoerature ~UD Resistivity Head Tension DELTA-T DELTA-T LONG SPACI~G TRANSIT TIldE] i TRANSIT TI~f 2 TR,~NSIT TI~E 3 Spontaneous Pote.tial Gamma Rav Tension ~lud~,. Temperature ,~UD Res stivity IS Ta~,e v~rlfication I.,istiD(: Chlumberger Alaska ComL~ut.~i. nq Center 12-JLIL-1991 ¢:9:38 PAGE: H~E'~ ~{ead Ten ins o DPHI Density Porosftv IR Fi OF, Bulk Density DR~O Delta PEF Photoelectric wactor OLS Ouallty control oi lonq spacing for bDT OSS ()ualltV control on sho~% spacing }or L, DT LS Long Spacing Comptlted Count Rate (I,b+uU/2) LU Lona Upper 1-2 ~lDdow Count Rate LL Long Lower ~i. ndow Count Pate LIT~ !,itholoq ~i~dow Count Rate SS1 S~ort S6aclnq 1 ~indow Count Rate 6S2 Short S~acln~ 2 :<indo~: Count Rate LSHV Lonq Spacing ?Iiqh Voltage Output SS}iV ShortSI.~ pac .~,G Nigh VoltaGe Loop Outp~lt S1RH Short Spacing ~. Density LSRN Long Spacin~ R~(']B (Uncorrected) LURH !,onq Upper HO C~L! Caliper GR Gamma Ray TENS Tension ~TE;~ ~%ud Temperature E~ES r,{ [j O Resisttvlty HTE~ Mead Tension NPH! Neutron Porosity RTNR Raw Thermal Neutron Ratio TNPli T~ermal Neutron Porosity TNR~. Calibrated Thermal F~eutron Ratio MPO~ b~eutron Porosity Output From an APplication Program RCN~ RCFT RCFT 'C~TC C~TC CFTC GR TENS HTEN THO~ POTA URA~ WI. NG w3N~ T~S ~TE~ NRES CS ~TS~ CFTC (;amma Ray Tension ~i,)D Resis'tlvl~y ~ud Temperature ?{ead Tension Spectroscopy Gamma-Ray Computed GR from Thorium, Uranium, Potass],um Thorium Potassiu~ ~ran!um Window 1 (,150 - ,5 ~fEV) Window 2 Window 5 (2 - ] FtEV) ~rension ~ud Temperature ~UD Resistivity able Speed ~ead Tehslon ChlU. mberqer AlasKa ComputinQ Center 12-JUL-199! 09138 PAGE: mmmmmmmmmmmmmmmmmmm~mmmmmmmmmmmmmmmmmmmmmm~mmm~mmmmm~mmmmmm ** SET TYPE- 64EP, ** ''''TYPE ...........REPR ~F~ ........ VAIL:~' :! 66 0 ~ 66 0 3 73 348 4 6~ ~ 5 66 7 65 !:~ 68 0,5 11 66 2 12 68 13 66 0 14 65 FT 15 66' 68 16 66 1 0 66 0 mmmm~m~mmmmmmmmmm~m~mmmm~mm! ** SET TYPE - C~AN ** ID ORDER ~ [,OG TYPE CLASS MOD NUMB 5A~P t.i!jE~ CODE [HEX) DEPT ~T 593676 O0 CIDP DTE MMHO 593676 O0 IDPN OTE O~MM 593676 o0 CI~P OTE ~HO 59367~ O0 I~P}4 OTE ('I~M~ 593676 o0 CIbP OTE MMHO 593676 O0 ILD DTE OH~M 593676 O0 CIL~ DTE ~HO 593676 O0 IL~ DTE OF{~ 593676 O0 IFRF DTM HZ 593~76 IOOF DTE 593676 O0 I~OF OTE 593676 O0 IIRD ~g ~MO 59~676 O0 IIXD DTE a~MO 593676 O0 IIR~ D~E N~HO 59367~ O0 IIX~ O%g ~iSHO 593~76 O0 SFLU DTE O~M 593676 O0 SP DTE MV 593676 O0 GR DTE GAPI 593676 O0 TENS DTE .LB 593676 O0 MTE~ OTE DEGF 593676 O0 OOn O0 0 I 1 I 4 68 0000000000 000 O0 0 1 I ~ 4 68 0000000000 000 O0 0 1 I I 4 68 0000000000 mOO O0 0 I I I 4 68 0000000000 0©0 O0 o 1 1 I 4 68 0000000000 000 O0 0 1 1 I 4 68 0000000000 000 O0 0 1 1 ! 4 68 0000000000 riO0 O0 t) I 1 ~ 4 68 0000000000 00o oO u I 1 i 4 68 0000000000 000 O0 o I 1 1 4 60 0000000000 000 OO 0 I I i 4 b8 0000000000 000 O0 0 I 1 'I 4 68 0000000000 000 o0 0 1 1 i 4 6B 0000000000 000 oO 0 1 1 I 4 68 0000000000 OOO O0 0 I I ] 4 68 0000000000 000 O0 0 i I I 4 68 0000000000 00~ oO u 1 1 )~ 4 68 00000.00000 OeO O0 0 1 1 i 4 68 0000000000 000 O0 0 1 1 I 4 6B 0000000000 000. O0 0 .1 I I 4 68 0000000000 OOO O0 O i i I 4 68 0000000000 ,IS l'aoe vertfi, catior~ Listtnq i2-JL~b-199.~ 09:38 ,chlUmberqer AlasKa Computing Center PAGE: mmmmmmm mmmmmmmm mmmmemmememmmmmM~m mmememmmmm m mmMmmemmmmmmmmmmmmmNmmmmm~em ~E$ DTE OHM~ 593076 00 000 00 O 1 1 t 4 68 0000000000 HTEN DTE LB 593676 O0 000 00 0 i I i 4 68 0000000000 DT LSS US/F 593676 00 000 00 0 .[ ~. 1 4 68 0000000000 DT[, bSS !3S/F 59367~ O0 000 00 0 1 I 1 4 68 0000000000 TTi LSS US 593676 O0 O0O 00 o I ~ i 4 68 0000000000 TT2 ),SS tis 593676 00 000 00 0 1 1 l 4 68 0000000000 TT3 LSS i)S 59~67h 00 000 00 0 1 1 i 4 68 0000000000 TT4 LSS 0S 593676 O0 oO0 Oo 0 I t i 4 68 0000000000 SP LSS ~V 593676 00 000 00 o 1 1 1 4 68 0000000000 GR LSS GAPI 593676 O0 0OO 00 0 ~ 1 1 4 68 0000000000 TENS LSS LB 593670 00 00o O0 ~ 1 1 I 4 68 0000000000 ~TE~'~ L$S DEGF 593676 O0 000 00 0 1 1 ~ 4 68 0000000000 ~RES LSS OHM~ 593676 00 000 O0 0 ! ~ 1 4 68 0000000000 HTE~ LSS LB 593676 00 000 O0 0 1 1 I 4 68 0000000000 DPH! LOT DU 593676 00 000 O0 O 1 1, ! 4 68 0000000000 R~OB bDT G/C3 593676 OD 000 O0 0 1 ! I 4 68 0000000000 DRHO LDT G/C3 593676 00 0o0 00 0 i 1 1, 4 68 0000000000 PKF LDT 593676 00 000 00 0 I 1 1 4 68 0000000000 0[,$ LDT 593676 00 000 O0 0 1 ~ i 4 6~ 0000000000 O~S LI)T 593676 00 000 O0 0 I 1 1 4 68 0000000000 LS LDT CPS 593676 00 000 00 o 1 i I 4 68 0000000000 LU bDT CPS 593676 00 000 00 0 I ~ i 4 68 0000000000 LL LDT CPS 593676 O0 0GO 00 0 i 1 i 4 68 0000000000 LIT~ LOT CPS 593676 00 000 00 O ! ] 1 4 68 0000000000 SS1 LDT CPS 59367~ 00 000 00 0 I 1 ! 4 68 0000000000 S$2 bDT CPS 593676 00 060 00 0 1 ~ I 4 68 0000000000 LS~V LDT q 593~76 O0 000 00 0 I 1 1 4 68 0000000000 SSHV LDT V 593676 00 000 00 0 I I 1 4 68 0000000000 S1RH I,DT G/C3 593676 00 000 00 0 1 1 1 4 68 0000000000 LDTG/C3 59'3676 O0 000 00 0 ! i 1 4 68 0000000000 LUR~ LDT G/C3 593676 00 000 O0 0 1 1 t 4 68 0000000000 CALI LDT IN 593676 00 000 O0 0 1 1 1 4 68 0000000000 GR LDT GAPI 593676 00 000 00 0 i 1 I 4 68 0000000000 T~NS LDT LB 59367~ 00 000 00 0 i 1 I 4 68 0000000000 ~TE~ LDT !)EGF 593676 00 000 00 0 1 1 i 4 68 0000000O00 MRE$ LDT O~M~ 593676 00 000 00 0 1 1 i 4 68 0000000000 HTEN LDT LB 593676 00 000 00 0 I 1 i 4 68 0000000000 NPHT CNL p~l 593676 00 000 00 0 1 1. ~ 4 68 0000000000 RTN~ CNL 59367~ 00 000 00 0 1 1 I 4 68 0000000000 TNP~ C!~L PU 593676 00 000 ~>0 0 1 1 1 4 68 0000000000 TNR~ Cab 593676 00 000 00 (? t 1 I 4 68 0000000000 NPOR CNL PU 593676 O0 000 O0 0 1 1 i 4 68 0000000000 RCNT CNL CPS 593676 O0 000 O0 0 i I 1 4 68 0000000000 RCFT C~L CPS 593676 O0 000 O0 o 1 1 ~ 4 68 0000000000 CMTC C~L CPS 593676 00 0GO O0 0 I 1 1 4 68 0000000000 CFTC CNL CPS 593676 00 000 O0 0 ! 1 i 4 68 0000000000 GR CNL GAPI 593676 O0 000 00 0 i I I 4 68 0000000000 TE~S CNL LB 593676 O0 000 00 0 i ! i 4 68 0000000000 NRE$ CNL OHM~ 593676 00 000 O0 0 I !, t 4 68 0000000000 MTE~ Cab DEGF 593670 O0 000 0O O 1 1 1 4 68 O000000O00 HTE~ CNL bg 593676 O0 000 00 0 I 1 I 4 68 0000000000 IS ~ar..e Verlftcatlon Listino ChlU¢berger AlasKa '._'omouti~q Center 12-J~J[,-1991 09:3~ PAGE: 10 I P 0 R D E R R ~i G'1, A 5936 6 CGR I~GT GAPI 593676 THOP h~GT PPM 593676 POT5 NGT P~! 593576 U~AM i(GT PP~ 593676 ~lN~ NGT CPS 59]676 ~ aGT CPS 59367~ W~G ~GT CPS 59367~ ~4k~ NGT CPS 593~76 w5NC NGT CPS 59367~ TE~!A ~GT LB 593676 P!TgU t~GT DEGF 593~7~ CS ~GT F/HR 5~367~ MTg': ~GT LB 593~76 APl LOG TYPE .......o o O0 000 0 0 0 0 0 O0 000 u 0 ~ 00 0 0 0 0 0 00 000 (> 0 000 O0 000 O0 O0 000 00 000 0 0 0 0 o O0 O0 .......... ......... 1 4 00'0000 0 4 68 0000000000 4 68 0000000000 4 08 0000000000 4 08 0000000000 4 68 0000000000 4 ~8 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 D~PT. 11.953,500 CIDP.DTE 27 719 8 I~PH.D. E 37.68 CILD gTE 29:047 . ~'~ :,, ~ · IL~ DTE 36,500 I. RE.DTE 20.000 IIRD PTE 26.40b IIXO.DTE -1 284 ""~ ~ , DTE 0'753 b'TE,..~,TE 1,77 ,462 !qRE8. DTb. LSS 53.625 TTI.LS8 735.000 TT4. LSS 7ao, 500 sP. LSs -47, ~ 25 ~ITE~ Lo,.~'S 177.462 ~.~RES,LSS 0 753 .LDT DRHO~LDT -999,250 OSS.LDT -999.~50 ~ LS.i.i)T -999.250 hlTg. I.,[)9~ -999 ~ 250 88!, bDT -999. 250 CALI,LDT -999,250 GR.L[)T -999: 250 ~'RES,L[),T "999,250 NTEN.LDT -999 250 TtqPH.CNt, -999,250 T('~RA. Ck~b -999.250 RCFT.CN[, -999.250 CaTC,CNL -999,250 TENS'CNI~ -999.250 ¢:.~R ES, CT'~ L -999.250 SG~, tqGT O, O00 CGR. NGT O. 000 URA~, ~GT C,O00 ~'~ 1 ~,~ G. 1~',~ GT 65.834 W 4 N G. b g T i, l 35. 'cd 5 N c"~, N G T 0,0 00 N, R E $ , N G T O, . 753 C $ , ~'~ C., '", g, 70 , 500 DEPT. 1i900.000 I~P*~. DTE 37,219 I L, ~4. D T E 36.906 :' "' 7 ~TEt. a, DTE 177.462 DTL. LSS ~3.625 'rT~. LSS 730. 500 CIDP.DTE 27.703 CILO,gTE 29,125 IFR£.DTE 20,000 IIXD,DTE -I.301 SP,PT!!; -47'219 ~RES,DTE 0.753 TT1,LSS 735,000 SP.LS6 '47.219 IDPg,DTE ILO,DTE ID~f DTE IIR~,DTE GR,DTE HTEN,OTE TT2'LS$ GR,LSS ~E~:i LSS PEF;LDT LU'LDT 882,~hDT LSRt'{,DDT TEMS,LDT NPH!.CNL NPO~,CML CFTC.CNL ~TE? · C~L THOR ,NGT ~ 2 ~ G. N G T TE~$, NGT HTEN,~GT 36 063 34 406 3 000 26 047 0 000 232 000 605 500 0 000 232 000 -999~250 -999 250 -999.~50 -999.1 50 -999.,250 -999'250 -999,.250 -999'250 -999.250 0,00() 23.837 3580,000 232.000 36.063 34,313 0.000 25.766 18.770 1094.000 605.:500 18,770 CI~P,DTE ClLM.DTE IMOF.DTE IIXM.DTE TENS.DTE DT.L$$ .TT3,L$$ TENS,L$S DPHI,.LDT OLS'I:,:DT LL.LDT LSHV. LDT LURH LDT MTEM,LDT RTNR.CNL RCNT.CNL GR'CNL HTEN.CNL POTA'NGT W3NG.NGT MTEM.NGT CIMP,DTE CILM.DTE IMGF.DTE IIXM,DTE TEM$,DTE DT.LSS TT3.LSS TENS.LSS 26 531 27 375 °°,, 3580 00 63 25 860 ~)o0 3580 000 -999 250 : 9'99 i ~5 0 999'250 -999,,250 .'999~ 250 :999'250 .999;:250 ~999.2~50 999 ~ 2~0 -999,250 0,000 13.62:1 177,462 26,859 27,078 0,000 -20;297 7070~000 63.625 860.000 7070.000 IS Ta~e Verification bis'tina ChlUmberqer Alaska Computina Center 09:38 ~?.TE~'!, [.SS 177,462 i~iRES. LSS 0.753 HTE~':i. bSS RHOB, LI3T 2,573 DRHO.LD/ 0.041 PEF,LDT OS$. LDT 0. O6b LS. LDT 227.375 LU, LDT I,~T~, LDT 33,125 SSI.LPT 209.750 SS2.LDT SSHV.LDT 1448'000 S1 ~H, l.,D~f 2,426 LSRH.bDT CALI.LDT 8.141 GP.LDT 34,31] TENS.LDT N~ES. [,bT -0,038 HTE?'~' LDT 35.750 TNP~.C~]L 22,437 T~i~.CNL ~,216 MPOR,CN5 RCFT. C~',gL 1407,939 C ~"~TC. CN [., 3307,328 CFTC, Ct~L TENS.C~qL 54~0.000 ~RES,C~b -0.038 ~TEM.C~L SG~.~GT 18.770 CGR. ~"4GT 5,822 THOR. ~.~GT URA~':. ~GT i.908 W~NG,hGT 65.S34 w~G, ~GT W4NG N~~ . ~;R ES. ~GT 0,753 CS. r.~GT 1508.000 DEPT, 11800.000 CIDP,DT~; 35.563 IDPH,DTE I~PH,DTE 26,R28 CILO,DTE 37,1~8 ILD. DTE IbM. D"i'M 25.656 IFRE.DTE 20.000 II)OF. DTE IIRD.DTE 33.875 tIXO.DTE -0.927 IIR~,i, DTE SFLU. DTE 30,5 ] i SP. DTE -40. 250 G~. DTE MTE~. DTE 177.350 ~RES,DTE 0.766 MTE~. DTE DTL. LSS 62,875 TTI ,LSS 754,500 TT2, bSS TT~.LSS 753.000 SP LSS -40.250 G~.LSS MTE~'~ LSS 177,350 RNO~' .... ~o, LS8 0.706 HT~!, hSS .bDT 2.601 DRHO.LDT (),OOl PEF.LDT OSS. bDT O. 002 LS.LDT 209.125 LU, LDT LITH,LL~' 42,594 SS1 L[ ~ 191,500 SS2,LDT ~Hv.noT 1448,000 S1R~.LDT 2,594 MRES,LDT '0,038 HTEN.I. DT 80 : O0 ~.PHI.CNb TMP~.CNI, 26,949 TNRA.CNb 2 556 NPOR.CNL RCFT, C~>$L 1345.57 3759:798 CFTC.CN[, TE~*~S. CNL 6595' O0 3 C~JTC,CNL 0 ~RES,CNL ~,039 gTE'~q, CNL SG:~, NGT 14~ 885 C GR;' NGT ~v;7;64 THOR, MGT URAls. NGT -0.277 WtNGiNG~ 45.156 W2NG,~GT W4NG,NGT 0'000 ~5NG,NG~ 1'642 TENS,NGT MRE~8,NGT 0,766 CS'~GT 1507,0o0 HTEN,NGT 1094.000 ~ 234 26~.000 2.531 5420.00O 22 593 22!4/t7 1509 600 182.375 ~1,036 3.837 7070.000 1094.000 28 109 26:875 0 000 37i031 14 885 1116.000 61~,000 I . 885 1116 000 4 879 207 125 256:250 2.59'6 6595.000 26,984 27,016 1503,911 182,75P 1'9'37 26 ' 27 3 7080,000 1116.000 DPMI.LDT QLS LDT LL:LDT LSHV.LDT LURH,LDT MTEM bDT RTNR!CNL RCNT CNL GR,CNL HTEN.CNL POTA.NGT W3NG.NGT MTEM.NGT CIMP,DTE CIL~.DTE IMQF,DTE IIXM,DTE TENS,DTE DT,LSS TT3,L$$ TENS.LS$ DPHILDT OL$:~DT bL.L~T LSH¥.LDT bURH,LDT MTEM,LDT .RTNR,CNL RCN'T.CML GR.CNL HTEN,CN~ POTA,N'GT G W3N ,NGT MTE'M~NGT DEPT. 11700. 000 CIDP,DTE 24' ~. 88 IDPH. DTE 41,313 CIMP,DTE I~PF~. DTE~ 50'531. CiLD,DTE 25.391 ILP'DTE 39,344 CILM,DTE IL~{, DTE 51 ,~69 IFRE,DTE 20~000 IDOF'DTE 0,000 INQF~DTE IIRD,DTE 23,203 IIXD,DTE -81,000 IIR~. DTE 18..484 ~,I.XM · DT'E SFLU,OTE 62,844 SP.DTE -37.!56 GR,DTE 23.735 ~ENS,D~E · ., '~ DTE 1125,000 DTiLSS ~TE~ DTE i77,238 NR~S. DTE 0,765 HTE~, DTL,LSS 60,125 T,T1:, LSS 715,500 TT2,LSS 592.000 TT3,bSS TT4,LSS 716.000 SP. :LSS -37.!56 OR. t, SS ~ 735 M~'~,LSS 177,238 ~RES LSS 0 765 .- , , .-, .,. ;., , bSS llz~:O00 DPMI bDT RHOB. [,OT 2.644 DRHO...~,~D~ -0 003 PEF, LDT 5.211 QLS,bDT OSS, LDT 0,005 LS, LDT 194 250 LU,LDT 194,375 LL,LDT LITM.LDT 36,8~3 SSI,LDT 187 000 SS2,hDT 247,125 LSHV., LDT SSHV, I..DT 1448,000 SIRH,LDT 2 654 bS~}~, bDT 2,643 LURH, LDT C~LT,LDT 8,852 GR, bDT 23 409 TENS.bDT 6480,000 MTEM, LDT M~ES.LDT -0.039 HTEN.LDT 788.500 NPHI.CNL 22.707 RTN:R.CNL TNPH, C~?~]L 23.000 Tt~PA.CNb 2.282 NPOR.CNL 23.000 RCNT.CNL RCf'T,CNL 169(), 585 CNTC,CNL 4109.759 CFTC.CMb 1830.6i5 GR.CNb PAGE: 11 4.669 -0,044 113.500 1354 000 182,375 2,355 3365.611 34.313 35.750 0652 177,462 37,250 38.938 0.000 '14 211 7O8O 000 63 875 884 000 7080 000 2 961 '0,013 105,563 1354,000 2;604 182;:750 2,642 3818.,848 2i.125 806,500 0'684 177,350 19'766 19~406 o,;o0o ,I64;500 6940~000 59;750 272~250 6940,000 o 353 -0016 97 063 1354 000 2 65O 182:250 2 355 4182165 :23 :~69 IS Ta~e verification !~istinn chlumberger AlasKa Com~UtiD,~ Center DEPT. 11600.000 CIDP.OTE IMPP,.DTE 33.625 CILO.DTC~ IL~'.DTE 40.594 TFRE. DT~] IIRD.DTE 20.688 IIXO.I>TE 8 LU.DTE 91 563 F~TE['~ . DTE 177,125 ~4RES. DTE DTL. LSS 59,000 TT1. bSS TT4, LSS 7 1 ~, 000 SP. LSS 5~TE~,LSS 177. 125 ~ES* LSS RHOS.LDT 2.583 DRHO.LDT OSS. LDT O. 00~, LS. bDT LITe. L~T 38.5 ~ ~ SS1, LDT SSHV.LDT 1448.000 CALI. BDT 8. 872 G MRES,LDT -0,039 TNP~I.CNL 28 579 RCF~'.CFtL ~231,875 CqTC.C~b TE~S,, CNL~.., 6487,953 MRES,CNL SGP. NGT t 2,299 CGR. NGT URAN,NGT o.548 MING,~GT ~ ES,~c~. oT 0.761 CS ~ [~GT DEPT !1500,000 CIDP OTE iLg,DTE 38,906 CIL~.DT~ .DTE 48,625 IFRE.DT~, IIRP.DTE I9,047 IIXD,DTE SFLU, DT~ 79,87:5 MP~DTE ~,~TE~' DTE 176,225 DTL, LSS -77' 500 T TT~, LSS 693' 000 SP~ ~ E~.~, bS$ I76,225 ~RES,LSS $,L0 0,010 LS.LDT LITN, LOT 44,625 SS1. bDT SSHV,LDT 1448,000 S1RH.LOT CALI ,bDT 8,653 GR, bDT ~ES. LDT -0.039 HTE~J LDT TNP~, C;~L 25,2~1, TNRA CNb RCFT,CNL 1561,250 C ~.tT C CNL t.l R A :~,~.~:~ (;T 0. 555 W l ~'~'G ., "~G ~r' MRES,.N:GT O, 739 CS, 12-JUb-1991 (~9:738 -0,039 ~TE~:.CNL 23.0~4 THOa. NGT 70.996 W2NG.NGT 1.732 TEN$.NGT i487.000 20.250 IDPH.DTE 22.344 ILD.OTE 20,000 IDOF.DTE -93,0u0 IIR~,OTE -52,219 GR,DTE 0 761 HTEi;~,DTF 716:000 TT2.LSS -52,219 GR.GSS 0,7~! HTE~,LSS '0.004 PEF,t, DT 2i2.043 LU,LDT 189.654 SS2.LDT 2.601 LSRH.LDT 15,059 TENS,LDT 806,469 NP~I,CNL 2.657 NPOR,CNL 34'70.297 CF C, T' C~L -0'039 ~TE~i,CNL 8,580 THOR.~!GT 36.885 ~!2NG,5~GT 1'639 TENS.~GT 1506.000 HTEN.NGT 20.~00 IDPH.DTE 21. 75 ILD'DTE 20,000 IDOF'DTE -88,750 IIR~,DTE '66,4:3:8 GR~DTE 0,739 HTEN'DTE 690,500 TT2~[~S$ -66.438 GR.LSS 0,739 HTEN,LS$ 0,003 PEF,LDT 2i5,~68 LU,bDT ]93,826 S$2,bDT 2,567 LSR~,L~T 1~,254 TENS,bDT 802,251 NPHI.CNL 2,460 NPOR'CN5 3940,750 CFTC'CNL .039 ~TE~I:,CNb i(;,156 T~OR,~GT 49.302 ~2N~,NG 0.822 TENS,~qGT 1503,000 HTEN,i~GT !.82.250 1.508 44.156 6940.00O 1125.000 49.344 44.719 0.000 23 422 12:299 1120o000 597 000 12:299 ~120.000 6.249 210.279 255,355 2.583 6487.95] 28.307 28.404 1327.375 181 375 1~283 23.770 6880.000 1120.000 48.750 46,750 0'000 19.563 16;926 1136.000 577.500 16.926 1136'000 4,522 212.547 257,619 2 578 6340 438 25 629 25 037 1654 375 180 375 1 138 31 224 6865 000 1136.O00 HTEN.CNL POTA.NGT W3NG.NGT MTEM.NGT ClgP.DTE CILM.DTE IMOF,DTE IIXM.DTE TENS.DTE DT,LSS TT],LS$ TENS,L$S DPHI.LDT OLS.LDT LL.LDT LSHV.LDT LURH.LDT ~.TEM bDT RTNR:CNL RCNT,CNL GR,CNL HTEN.CNh POTA.NGT WSNG.NGT NTE~.NGT IMP,DTE IMQF,DTE IIXM'DTE TENS~DTE D:T.LS$ TTS.L$S TEN$'bSS DPHI'bDT ObS*[,DT Lb*bDT LSHV..LDT LURH.LDT MTEM,LDT RTNR,CNL RCNT~CNL GR.CNL HTEN.CNL POTA:~GT W3NG GT MTE~,~GT PAGE: 12 788.500 1,223 15.584 177.238 29.719 24,609 o: oo -117 88 6880,000 59,875 843.500 6880,000 4,041 10 1'017 914 1354 000 2 593 ]75 18~ 784 3548 438 15 059 806469 0 279 2,459 177.125 25,688 20;547 6865'0'00 59 1251 810000 6865 000 3 902. -o 01,3, 108 886 1354000 2 587 180 375 2 698 4042000 11.:254 802.281 12 25 t76,225 IS Tape Verification Listing chlumbcrqer AlasKa Comput. lno Center DEPT. 11400.000 CIOP.DTE I~P~. DTE 99,875 CILD,DTE DTL.LSS -91.251) TTI .LSS TT4.I, SS 222,750 SP.USS NTEW.LSS 175.212 r~RES. LS6 RHOR.L[)T 2.638 ORHO.LDT OSS. UDT 0.017 LS. LDT LITN. LDT 34. b31 SS1. SS~V,LDT 1447.418 SIRN,LOT CALl. LOT 9. 085 GR. LDT MRES, LOT -0,039 HTE~q. bDT T~:PH C~qL 21.948 TNRA.CNL RCFT~CNL 1812.000 Ck~TC.CNL TENS.CNL 6423.250 MRES. Civil S(;R, NGT 28. O19 CGR. NGT U~A~, ~GT 0,505 W1NG.NGT ~4NG.NGT 1.638 W5NG,NGT MPES.~ GT {) 773 CS.~G"' DEPT. I1300,000 CIDP,.og.E I~PH.DTE 35.250 CILD,DTE Ib~,DTE 35'156 IFRE.DTE IRD [TE 32'156 IIXD,DTE IFLU,DTE 8.3,000 SP, DTE ~TEg,DTE 174,313 ~RES,DTE DTL.LSS 57,875 TT 1 ' LSS TT4, LSS 729,00O SP,LSS ~TE~{.LSS 174.313 ~RES.,. 5SS RHOB.LDT 2,575 DRHO,LDT OSS · LO~ L LDT 0,'03~ biTH. hOT 42' 84~ 881, bDT ss H V ~ L 0 T 1 4 4 8 ,0 0 o s CALl' LDT 9 'i 41 GR ' LDT ~s'~ -o 040 T~P~ CND 26 22 T..~RA, CNb RCFT.CNL 1457,060 CNTC.CNL TENS.CNL 6305.000 ~RES'CNL SGF, ~GP 18 514 CGRi~GT !.!RA~. NGT 0,623 ~ING*NGT W4NG.NGT 0,95~ WSNG,NGY MRES. ~.~GT O, 778 CS, NGT 12-gub-1.991 2! .672 !DPM,OTE 23.161 ILO.DTE 20,000 IDGF,DTE -109,503 IIR~.~,DTE '50.625 GR,DTE 0,773 F' DTE 261.500 TT2.bSS -50.625 GR,bSS 0.773 HTFN,LSS 0.005 PFF,LDT 197,820 LU,bDT 191,,$64 6S2.LDT 2.606 LSRH,LDT 30.567 TENS,LOT 799.R75 NPHI,CNL 2 1~8 NPOR. Cf~b 4096 [ 500 CFTC*CNL ~o 039 4[594 90.090 1,638 TENS.NGT 33 750 IPP~,.T.DTE 731 *000 TT2,GSS -34,125 GR,LSS 0,778 HTEN.LSS 0.008 PEF.L~T 25 LU T j97,500 S~2 ~DT 2 ,.531 bSRB ~'u DT 141922 TENS.LDT 767 000 NPHI.CNL 2470 NPOR'CNL 3902.161 CFTC,CNL' '0,040 {~TE~,CNL 14,287 THGR.NGT 68,539 W2NG,NGT 0.952 TENS,NGT 1t18.000 HTE.N, NGT 1 2 113 24 2 113 !9 25 642 1. 1875, 179. 42: 6885 1135~ 6.125 3 188 0 000 4 484 8 019 5 000 9 5O0 8[019 5 000 5 749 8 172 0 336 2 627 3 250 011 021 1,25 073 452 588 000 000 29 594 29 094 0 000 27 047 18 514 I0~8 000 599 500 18 514 1.088 000 4 895 213 5'00 256 000 2 56~ 6305 000 25,166 25,602 1582,651 177.875 t'671 23'798 6655'000 1088.000 CI~P.DTE CIL~.DTE I~QF.DTE IIXM.DTE TEN$.DTE DT.LS$ TT3.LSS TENS.L$S DPHI.LDT QLS.LDT LL.LDT LSHV.LDT LURH.LDT ~TEM.LDT RTNR,CNL RCNT.CNL GR.CNL HTEN.CNL POTA,NGT W3NG.NGT MTEM.NGT CIMP.DTE CIL~.DTE IMOF.DTE IIX~,DTE TENS'DTE DT.LSS TT3,LSS TENS.LSS DPHI'LDT QbS,LDT LL'LDT LSHV,LDT LURM.LDT ~TE~.LDT RTNR'CN5 RCNT;CNL GRiCNL HTEN,CNL POTA,NGT ~3NG,,NGT MTEN,~GT PAGE: 13 10.008 15'211 0,000 340.250 6885,000 50,906 292.750 6885,000 0.754 -0.02! 98.758 1354 000 2:636 179.073 2,237 g.ooo .567 799,875 1,:340 19'656 175'212 28 344 28 422 0 00.0 -28 1.72 6655 000 57 250 849 000 6655 000 4 542 0 4 1353,; 000 539 403t, ,462 14 .922 767 000 o 578 8 091 I74 313 D~:PT. 11200,000 ClDP,DTE 237 ~75 IDPH, OTE 4.211 ClNP. DTE 2441'750 IMPW'DT~7i 4,082 CILi),DTE 244.' 25 IL[J,OTE 4.094 CILM,DTE 243,7$0 IL~,'~ DTE 4.098 I,R~,, DTE 20,000 IDQF,D~E 0.000 IMOF.DTE 0,:000 IIRD*DTE 211,375 IIXD,DT~ -51,500 IIR~,DTE 228.625 iIXM.,DTE -203,000 SFLU,DTE 4'684 SP.DTF -23,844 GR,DTE 44.940 TENS,DTE 6625,000 NTE.~' ~,DTE 174,425 gRES.DT 0,775 HTE~,OTE 1072,000 DT.LSS .76~625 DTL,LSS 77,000 TT1,LSS 954.500 TT2,LSS 778.500 TT3,LSS 1132,000 TT4.LSS 958,500 . ~P,LSS -23.844 GR,LSS 44.940 TENS, LSS 6625~000 MTE~,LSS 174,425 ~R ..~&, LSS 0.775 HTEN,bSS ~072.000 DPHI,LDT 6,272 IS Ta~-e Ver~ficatio~ Listinq chlu~berger t~laska Computin~ Cen. ter RHOP.I.DT 2.547 0S$. LDT O. 02~ L$. LITe{. LDT 37.150 SS 1. LDT SSHV.[,DT 1447.000 S1RH.LDT C~LI. LOT 14.2~ t GR. LOT . TMPH. C~[, 42 022 "" Cr,~L RCFI.C;'~L 602.8~7 C~TC.CNh SGP. N(;T 44. 940 CGR. NGT W 4~.}G. r~:GT 7.357 ~RES. ~(;T 0. 775 CS. ~GT DEPT. II100.00~) CIDP,DTE I~PN.DTE I..44~ CILO.DTE IL~.DTE 1.469 IFRE.DTE IIRD.DTE 425,750 II~O,t)TE SFL~. DTE I, 273 SP. DTE ~TE~{. DTE 173,750 ~RFS, DTE DTL, LSS 116. 000 TT1. LSS TTa. LSS ! 138. 000 SP. LSS ~TEt~. [.,SS :[73.750 ~4RES. LS5 OSS. LDT O, 023 LS, LDT LITe. L[)T 306. 625 SSi, LDT SSH'V, LDT 1662.000 S1RH,LOT CALI.LDT ~. 6'862 GR, LOT MRES,LDT 1,324 MTE~,LOT RCFT C~L 1258.006 TENS ' $(~¢,CNL 7287,750 MRES, C~,b ~GT 44.866 CGR, NGT U~A~:}' ~GT !.698 W4NG:NGT 5,.303 ~SNGiNGT ~RES. ~6T 0'782 CS, DEPT. J' It000,000 CIDP,DTE IMPR.[ ~ 2.398 CIDD.DTE IL~,DTE 2.260 IFRE.DTE IIRO,DTE 335'000 IIXO,DTE SFLU DTE 2,75~ SP MTE~ DTE 169,81,3 ~RES,DTE DTL' ' . bSS -999,250 TT TT4, LSS 510,250 SP, LSS ~TE~, LSS I67,225 RH02. LDT i ,910 OSS.LOT -0. 020 tS. LOT LIT}~. LDT 276.875 SSi .LDT SSHV.LDT 1662.0()0 SiRH.L~T CALl, LDT 15.15~ GR. LDT ~ R E $, !. l) T 1.324 ~ T E ~.~ L D T TMPH,CNL 4~,790 T[qRA' RC~' ~r. ,C~b 482.563 TENS, C~',~L 7262.156 jUL ~ggl 09:]8 0.01 I PEF. LDT 233. 500 i,U. LDT ~02.000 SS2.LDT 2.47 ] LSRH. I, DT 43.750 TENS.LDI 799.500 3.799 NPOR,CNL 2396.713 CFTC.C~4L 32.925 TBOR,~GT 155,120 ~2NG,NGT 7,357 TENS, 1054,fi00 HTEN.NGT 529.000 IDPM.DTE 563 500 iLO.DTE 20~000 IDOF.DTE 53.906 IIR¢~.DTE -40.7 ~ I GR, 0.7~2 HTE~.OTE 134. 000 TT2, LSS m40.781 GR,LSS 0,782 0,022 PEF, bDT 279,000 LO. LOT 257,234 SS2. bDT 1.717 LSRH'LDT ~5 8()6 TENS,LDT 443:531 NPHI.CNL 2,7~4 NPOR'CN5 3404,594 CFTC,CNL 1. 324 ~TEN, CNb 33' 339 THOR ~ NGT ~41~' 426 WgNG 'MGT 3'536 TE~S.NGT 946' 500 HTEN,NGT 431,000 IDP~i. OTE I ,750 ILO.gTE 42 .000 IDOF. DTE 68.000 IIRS.DTE -i 1. 727 GR. DTE 1 353 ~TE~. DTE 708: 500 T T 2..b S S -999'250, GR,L, SS I , 394 NTB'~,5SS 0.063 PEF'h[ 1. 804,875 LO, ~OT 268.391. SS2.hDT 73, 8 TEa, IS, LDT 40! .375 NP~{I, CNL 4. 058 NPGR. CNL ~920. 375 CFTC,CML 1. 324 M"~E ~ · C~-;L 9.406 231.125 265.500 2.518 6330 000 43:662 40.045 651.882 177.250 7-278 62.538 6625.000 1072.000 1.890 1.773 0.000 620.000 44.866 1105,000 962.000 44.866 825.750 376 844 li788 7287~50 25,244 2:5.377 1268.~4.73 172,5~3 5,264 66,588 6605.000 1105'000 2 318 O. 0 409'250 71,813 157,000 3,500 5~9,.125 219,875 2,730 758,000 410..(.)78 1.835 7262.156 47'984 45'929 482,625 172':754 OLS.LOT LL.LDT LSHV.LOT LURH LDT MTEM~I, DT RTNR.CNL RCNT.CNL GR.CNL HTEN.C~L POTA.NGT W3NG.NGT MTEM.NGT CI~P.DTE CILM.DTE IMOF.DTE IIXM.DTE TENS.DTE DT.LSS TT3.LSS TENS.LSS DPHI.LDT QLS.LDT LL LDT LSHVibDT LURH LDT MTEM.LDT RTNR.CNL RCNT,CNL GR.CML ~TgN'C~L POTA'NGT W3NG'NGT MTEM.NGT CI~P.DTE CILM.DTE IMOF.DTE IIXM.DTE TENS.DTE DT'LSS TT3,L$$ TENS..LSS DPHI,LDT OLS,LDT DL:,LDT LSHV,LDT LURH.LDT MTEM,bDT RTNR,CNL RCNT.CNL GR.CNL HTEN.CNL PAGE: 14 -0.030 117.875 1353.000 2.529 177.250 3,958 2544.127 43,750 799.500 0,500 20,233 174,425 691 000 68O 5O0 0 000 5.188 6605,000 114,000 1288,000 6605,000 50.1:34 -0.018 466.000 1619'000 1..~95 172,513. 3674i375 45'806 443,531 i.;~Ot7 30'053 173,750 442, 58.45 O0 108 688 68 000 60~4 000 44 873 '0 034 426 063 1618,000 8~7 4.437 2122~688 '73~.4~8 401.;375 IS Tar~e verification [,isti~q Chlumberger A!a$~a Computing Center DFPV'. IC900.0~0 CIDP.DTE IMP~.DIE 15.~67 CILD.DTE IL~'~. DTE i4.656 1FRE.DTE II~D.DTE 58.000 IIXD.DT~ SFLI~. DTE 20.15~ S~, OTC MTE~'.DTE 169.587 DTL LSS 9.9 250 TT1.LSS I'T~.I~SS 420,063 SP.LS5 ~TE~. [,SS I67.113 ~RES. L, SS RHOR.LDT 2,513 OSS. LDT C. 059 LS. LDT LITF. bDT 8 ~. 813 SS1. bDT SSHV.LDT 1663.000 S1RH.LDT CALI. bDT 14.75b GR. bDT MRES.LOT t.327 HTE~. LDT TNP~.C~.~L 2~.937 RCFT. C~'~L 957 .'~38 CNTC.ChL TENS.C?4b 7410.~25 ~RES.CEL SGP. NGT 92. 170 CGR. NGT URA~.NGT 4.546 WING.NGT DEPT, 10800.000 CIDP.!)TE IMPM.DTE 7.313 CILD.DTE IL~,DTE 7.805 IFRE.DTE IIRD.DTE 1. il,313 IIXD.DTE SFLU,DTE 7 234 SP,D..E MTE~:~ DTE 169,475 DTL. LSS -999. 250 TT 1 .LSS TT4.. LSS 42 i. i5~ SP, LSS MTE~.LSS I67,337 ~RES*bsS RI'{O~ LDT 2,~88 DRHO.bDT GSS.' LDT 0.052 SSHV. bDT 1663. 000 SIRH. LI) T. CALI. bDT 13.071 GR. bDT MPES,LDT 1.309 HTEN.LDT TNPN.CNL 34,6~0 T~<~R/4. CN b RCFT,CNL 84:3.078 CNTC.Cb~L TENS,CNL 7047.375 ~RES,CNL SG9. NGT 54. 590 CGR ' ~GT 2.925 F~gES'N6T i, 308 CS, ~GT DEBT. 10700.000 CIDP,DTE I~PH,DTE 7,371 CILO.DTC !!RD,DTE 131,625 IIXD.DTE i2-OUL-1991 09:38 ~5.7el 253.496 W2~iG.NGI' 2.622 TENS.~GT 1823.000 HTE~.NGT 58.250 IDPM.DTE 62.875 IbO.DTE 20.000 IDOF,DTE 2.980 IIR~:,DTE -37.438 GR.D'~E 1.360 HTE~.OTE 608.71.9 TT2,LS$ '999.250 GR,LSS 1.401 HTEi~.LSS 0.106 PEF.LDT 298.344 LU,LDT 247.078 SS2.bOT 2.171 LSRM.LDT 101.O9~ TE~S.LDT 506.781. NPHI.CNb 2.690 NPOR.CNL 2618.500 CFTC.CNL 1.327 ~TEM.CNL 02.893 THOR,NGT 316.832 W2NG.NGT 8.911 TENS,NGT ~824.000 HTEN.NGT 1~3 938 IDPM,DTE 122:5~3 ILD,DTE 0 000 IDOF'DTE 15' 33.063 IIR~I.DTE '" .906 GR,DTE !. 348 HTEN T bSS 593.250 T 2, '999. 250 GR, bSS 1.390 HTEN,LSS 0 ~11 PEF,LDT 536:500 LO,bDT 270.813 SS2.bDT 63 281 TENS.bDT 414 953 NPHI,CNb 3 ~26 NPOR,CNL 2747 750 CFTC,CNL , 309 t~tTEa. CNL 3 .785 THO}~.NGT !72 277 6.931 TENS,HGT 1805.000 HTEt~, HGT 150.375 !DPh,DTE 152.250 ILD,DTE 20,000 IDOF,DTE 9.406 IIRM.DTE 7.290 124 126 7245:000 457.500 17.156 15.898 0 000 64~688 101.938 123,688 411't25 96 215 1,93~375 2 989 281~813 305.313 2 389 74:101625 24 959 26 431 955,750 172.288 9 !51 122i 72 743O 00 515.500 8 063 8 156 0 000 1.21 000 52 219 140 875 427,2-81. 54,824 185 436 2,626 496.875 359-531 2.064 7047,375 32.300 33,812 863.563 172.063 4.868 73,267 7075,.000 388.250 6.645 6.566 0.000 132.875 POTA.NGT ~3NG,NGT MTEM,NGT CIMP.DTE CILM.DTE IMOF.DTE IIX~.DTE TENS.DTE DT.LSS TT3~LSS TENS.LSS DPHI.LDT OLS.LDT Lb.bDT LSHV.LDT bURH.LDT MTEM.LDT RTNR.CNL RCNT,CNL GR.CNL HTEN CNL POTA:NGT W3NG.NGT MTE~.NGT CIMP,DTE CILM,DTE IMOF,DTE IIXM.DTE TENS'DTE TT3,LSS TENS'bSS DPHI,LDT QLS'LDT Lb.bDT LSHV,LDT bURH.bDT MTEM.bDT RTNR'CNL RCNT.CNL GR.CNL HTEN.CNL POTA.NGT W3NG.NGT ~TE~.MGT CI~P.DTE C!LM.OTE IMOF.DTE IIXM'DTE PAGE: 1,525 40.210 172,850 63,000 68,188 0.000 2,602 6140,000 71,813 615,125 5988.000 8 311 [o:oo8 7,438 l&21,O00 2 392 172 288 2 789 2889 000 lOt 094 506 ~ t 2 ]2 43 564 172'288 136 625 128 000 0 000 3~40~02 5955, 82:: ,~§ i 589 5895 875 1621 000 2 '064 ! ? 06~ 3'380 3050' 250 63,281 414~953 4 i72,063 135,625 140,750 : :ooo 896 15 IS Taoe Verification l.isting chlumoerger AlasKa Con, putJ~ng Center SFLU. DTE 9. 063 SP. h~TE~'~. DTE !69.925 DTL, [.SS -999. 250 TT1. LSS TT4. I~SS 422.481 SP, LSS MTE~.LSS 167.675 MRES.DSS RHO~.LDT 2,334 OSS. LOT 0,022 LS. LITH. LOT 1 i 9. 086 SS1. LOT SS~V.LDT ~ 664.O0() SiRe.bDT CALI. LOT ! 2.133 GR. LOT M~ES.LOT 1.284 ~TEN LOT TNP~, C,,~[, 22,646 TNRA CNL RCFT,CNL 1386,50o CNTC T~NS.ChL 7153.766 MRES.CNL SG~. NGT 62. 902 CGR, N GT URA~3.MGT 2.343 W4N~,NGT 0.990 MRES. NGT 1.284 CS.NGT DEPT, I0600.000 CIDP.DTE I~PH.DTE 7.918 CILD,DTC IL~,DT~ 8.461 IFRE,DTE IIRD.DT£ 1(:)3.563 IIXD.DT~ 8FL[~ DTE 6.32o SP,DTE ~{T~ ] DTE 169,700 MRES,DTE DTL. LSS -999. 250 TT1. LSS TT4. LSS 419,063 SP, LSS MTE~.LSS 167,563 MRES, LSS RHOB, LOT 2. 351 D~HO,bDT OSS,LDT O. 024 LS,LDT LITH,LDT 106 ~74 SSI,bDT SS}'tV.LDT 1663:,,,0d SlR~.LDT ca LI, LOT 13,221 GR,LDT M~ES, LOT ~ ,305 HTEN,LDT TNP. :~NL 21118 TNR~.C~L RCFT Nb. 135 ~50 C~'~TC".,.CNL TENS,CNL 7012,000 MRES.CNh SG~ ~GT 64 531 CGR,~GT U~A~,MGT 4,231 wING.NGT MRES. NGT I . 305 CS, NGT 12-JUb-1991 ~9:35 '~7,000 GR.DTE 1.325 HTE~.DTE 571.305 TT2,L$S -999.250 GR,bSS 1.382 ~TEN,LSS 0 011 FEF.LDT 344:008 I.,U.bDT 224.261 SS2.bDT 2,267 LSR~.I.,DT ~3.325 TENS.LOT 450,547 NPDt,CNb 2,424 NPO~,C~L 3278,500 CFTC.C~L I 284 MTENi,CNB 47~837 ~]R. THC NGT 188.119 W2NG.NGT 3,960 TEN$.~GT 1843.000 HTEN,~GT 118.625 120.313 20.000 7.871 -46.375 1,345 556,375 -999,250 1.385 0.014 33 22~ 734 . 957 2 ~70 64 31 437 7'03 314~ 38i 0o0 1.,305 37,330 209.625 5.348 1835.301 IDPM.DTE ILD.DTE IDQF,DTE GR.DTE HTE~.DTE TT2.LSS GR,LSS HTEN, hSS PEP, bDT LU. bDT SS2.LDT LSRH.LDT TENS.LOT NPMI.CNL NPOR,CNL CFTC,CN.b MTE;M.CNL THOR.NGT W2NG.NGT HTEN.NGT 59.438 107 563 410:426 57 676 145 000 2 406 321 633 299 033 2 312 7153.766 22.o03 22.781 1385.641 172 5~3 5:310 106 931 7160:000 445,250 8 422 8i305 0 000 111.625 59,375 54.344 400 063 63 609 185 281 2 678 322.078 298,352 2.,323 7012.000 ~0,941 23,279 13.72.500  175 17 ~854 7012,000 437,703 TENS,DTE DT.LSS TT3'LS$ TENS LSS DPHI~LDT OhS.LOT bL.LDT LSHV.LDT bURH,LDT MTE~,bDT RTNR.CNL RCNT.CNL GR.CNL HTEN.CNL POTA.NGT W3NG.NGT MTEM.NGT CIMP.DTE CIbM.DTE IMQF.DTE IIX. M DTE TENS:DTE DT bSS TT]iLSS TENS LSS DPHI.LDT OhS.bDT bL.LDT LSMV,LDT LURH,LDT ~TEM.LDT RTNR,CNb RCNT,CNb GR.CNb HTEN.CNL POTA,NGT W3MG,NGT MTE~,NGT DEPT 105o0.00n CIDP.DTE 126,688 IDP~.DTE 7.891 CIMP DTE ' ~ 75 ILD,DTE 7 754 CILM[DTE DTE 128,~0020. IDQF,DT~ 0~000 IMQF DTE I~PH.DTE 8,297 CItgO, DT~7 tL~, DTE 8.258 IFRE, ...... . IIRD,DTE 11~,375 IIXD,DTE 8.633 IIRM,DTE 114 438 IIXM,DTE SFLU. BTM 8,055 SP. DTE -66.938 GR. OTE 61,188 TENS,DTE MTEN{, DT~ 169,475 MRES,DTE 1.337 HTEN.[)TE 102,813 DT,SSS DTL.LSS -999,250 TT1.LSS 5~1,453 TT2.LSS 393'250 TT3,LSS TT4.LoS 410.848 SP hSS 99 250 GR,LSS 48 35 TEN .hMS MTE~,LSS 167.459 ~'~RES.LSS I 377 ~TE~.LSS 184:=~63 DPMI.LDT RMO~,LDT 2.4~2 QRHO.LDT 0 012 PEF b~.] 2 234 OhS,bDT OSS.LDT 0.013 LS.LDT 303 227 LB LOT 280:.948 LL.LDT bITS,bDT llu '~98 SS1.LDT 220 06~ SS2'LDT 292,250 hSMV,LDT SSHV. LD'T I. 66.4 ~ qI S1RH.i, DT 2.338 LSRH:LDT 2.386 LURH.LDT PAGE: 16 6280 000 81 390 576 609 5970 813 19 160 -0o008 183'316 1622,000 2.311 17~,513 ,627 3549,250 63-325 450,547 2,149 29 703 172:513 126 188 118 063 0 000 19 063 6145 000 74 734 568 586 6030 750 18 t06 -0 047 000 3.0 2 172 2 648 3200~, 000 437 i 506 34 031 172 175 120:~38 121. 63 0 000 4 7 131 57~ 91 5932 688 1.4 439 0 162 54 162~ 000 395 'rave VeritJ. cation [,istir~q chlumterger ~las~a Computing Center CAb t. LnT,~. 3 2,9 ~., ~" GR. bDT ~RES. !,DT ] ,295 TLlPW,C'~b ~2,271 RCFT,C~UL 1134,500 CLTC.C~L TE ~S, C~ I.. 7055,025 ~RES,C~qL SGP, NGT 59. 547 CGR. NGT URA~ ~GT 2.039 ~IN~ ;'~GT W4NG' . . ,MGT 3,117 ~LNG.~ G~- MRES. t~GT 1.29~ CS. DEPT. 10400.000 CIDP.DTE I,~P~.DTE 6.945 CILO,DTE IL.~,DTE 6.531 IFRE. OT~j IIRD,DTE 132.250 IIXD,DTE SFLU. DTE 5. 359 SP, DTE MTE~", DTE 168.575 ~ES.DTE DTL. LSS -999. 250 TT1, LSS TT4. LSS 412. 797 SP, LSS ~TE~.LSS 166.325 ~RES. LSS R~O~.LDT 2.396 ORHG,LDT OSS, LDT O, 017 .[.,S, LDT LITF~, LOT 78.734 SS1. LOT SSH~,LDT 1664,000 S1RM,LDT CALl,LOT 14,840 GR, bDT ERES, LDT 1,314 HTE~, LOT TNPw,CNL 24,438 TNRA,CNL RCFT CML 1107 50() C~.TC, TENS.C~L 6875,688 :~RE&.Cb~5 SGR,NGT 52,760 CGR,NGT W4N~,NGT 2.316 W5~G ~GT DMPT. 10300',000 CIDP'DTE I~P}~, OTE 1,0 164 CILD. DT~i ILN~,DTE 9:828 IFRE'OTE IIRF~,DTE 90,50{) IIXD,DTE SFLU EIE 11 250 SP'DTE ~TEU' DTE 167 90() D T. L , ~' o~.c S - 999 ' 25 TT4, LSS 399~939 SP' LSS , , R,,,~$,LSS MTE~ bSS i6~,438 R~OB* LOT 2' 61.4 DRHO,bDT OSS, bDT O, 014 bS,bDT biTS, bDT 54,2~3 SSi, bDT SSRV,LDT !664,000 S1RH,LDT C~LI ' bDT 16,372 GR' bDT M. ES,bDT 1,315 ?TE~q~ ,bDT RCFT,CNL 790,813 CMTC,C~b TENS, ~L 6835'000 ~RES.CNS SC~. ~.~(;.r I 12. qss C..R. NGT URAM NGT 5,t)73 ~,IMG,NGT ~4NG. NGT 14,813 WLNG.NGT N~ES. NGT 1,3 12-,Jbh-1991 09:3~ 59. 547 TENS, 524.]25 NPHI.CNL 2 517 MPOa. CNL 2713:000 CFTC,CmL 1.298 46.440 THOR,~GT 1~2,500 ~;2NG,NGT 5,025 TL~S.MGT i~35.000 HTEN. ~GT 146.625 I. DPH,DTE 149.500 ILD.OTE 20.000 IDOF.DTE 5,117 IIRM.DTE -34,000 GR,DTE 1.354 ~TE~,DTE T' 540,313 ,.T2,LSS '999,250 GR,LSS 1,390 HTE~,L$S '0,003 PEF'LDT 299.125 LO,LDT 211,305 SS2.LDT 2,396 LSRH LDT 52,760 T'~' :ENo,bDT 437'291 NPHI,CNL 2,548 MPOR,CNL 2940,875 CFTC,CNb 1,314 ~TEM,CNL 47,076 THOR.NGT 152,32~ W2MG'NGT 6,262 TENS,NGT 97:563 IDP~.OTE 99 875 ILO,DTE 20 000 IDOF,OTE 4.066 IIRM,DTE -44,219 GR,DT~ -99 250 GR~LSS 1.388 HTEN,bSS 0,012 PEF,LDT 215.570 LU,LDT 207.007 SS2,bDT 2 536 LSRH.L:DT 112:988 TENS.bDT 467,250 NPMI,CNL 3 0~3 NPOR,CNb 2426 078 CFTC,CML ~ ~15 gTE~,CML 80 369 T~OR,MGT 369,063 W2MG,NGT 1!.461 TENS,NGT 1828.324 HTEN.NG~ 7055.625 23 096 2~:458 1147 250 171:861 5.62] 97.594 7055.625 524,125 6 813 6!684 0000 144 375 54.125 97,438 395.844 48,250 195,465 3-332 285180 279 675 2 383 6875 688 22 809 26 172 1143 7 0 1'70 9~8 4 487 89 656 6875688 437:291 10.008 o.ooo 96,31~ 106 93 59 210 407 87~ 102:816 183 680 3 573 205,740 263'662 2.581 6835,000 29,030 30,554 793.844 170,~263 13,532 168,602 6835,000 467,250 STEM LOT RTNRiCNL RCNT CNL GR,CNL HTEN,CNL POTA.NGT W3NG,NGT MTEM.NGT CIMP,DTE CILM.DTE IMOF.DTE IIXM.DTE TEN$.DTE DT.LS$ TT3.LSS TENS.LSS DPHI.LDT ObS LDT LL~LDT LSHV,LDT LURH.LDT STEM.bDT RTNR.CNL RCNT,CNL GR,CNL HTEN,CNL POTA'NGT W3NG,NGT MTEM,NGT ClMP'DTE CILM,DTE IMOF'DTE II×~,DTE TEN$.DTE DT',LS$ TT3,LS$ TENS,LS$ DPHI,LDT OLS.LDT Lb. LDT LSHV,LDT LURH'LDT STEt'bDT RTNR.CNL RCNT.CNL GR'CNL HTEN.,CNL POTA'NGT ~3NG.NGT ~TEM.NGT PAGE: 17 171 861 2 679 2932 313 59 547 524 125 1.974 30.813 171,861 143.875 153,000 0.000 61~2 037 s:ooo 81 926 554 875 5964 375 15 391 '0 022 15~ 563 O0 1622 :~84 170 938 2 562 3042,500 52'760 437,291 2~293 .170 8 98,311 10t.,68 6055~000 79'405 566,624 6052,625 026 701 000 !6 263 3,t63 2670'750 1~2,988 467~250 2,503~ 42~969 170.263 IS Ta~e verification Listinq ch.lumberqer Alaska Comp%ltl.hq Center PAGE: 18 DEPT 1020~.~ 000 CIDP.DTE 49.0(~0 IDP~.!. DTE IMPP~DTE 22;875 CILO.DTE 50,719 ILD.DTE IL~.DTE 23.156 IFRE.DTk] 20.000 IDOF.DTE IIR~.DTE ~6,2~1 !IXD.~TE 2.027 IIRP., OTE SFLU. DTE 22. 984 SP, DTE -114.1B 8 GR. DTE ~ITE~. DTE ~6a,23a ~RES.OTE 1.3a2 HTE~, DTE DTI,. I,,SS -999.250 TT1.LS5 527.359 TT2.DSS TTa .bSS 390.133 SP. bSS -999. 250 GR.LSS NTE~,LSS 166.43~ ~IRES. LSS 1.379 HTEN.LSS R~iOB. I,ST 2.400 DRHO.bDT 0 102 PEF,LDT OSS. LDT O. 068 bS. LDT 357 ~ 156 LU. LDT I.IT~ LOT 108 125 SSI I.DT 253 05I ,.S2 bDT SSHV.LDT 1664,000 SI~H.LDT 2.076 LSRH.LDT CALI.LOT 12.746 GR.LDT 65.461 TENS.bDT N~ES.!,DT 1,29g MTE~.i, LDT 395.281 NPHI.CNL T~]pD .CNL 21.96g TNRA.CNL 2.420 NPOR, CN L RCFT.CNL 1304,469 C~,~TC. CNL 3085.125 CFTC~CNL TENS CNL 6647 68a ~4RES .CNL 1,299 ~ITEM.CNU SGP.NGT 65,461 CGR,NGT 47.656 THOR.NGT URAN,NGT 2.770 ~GT 197,000 W2NG,NGT WlNG' ~C'" 2,773 TENS NGT MRES" NGT 1.2~9 CS. NGT 1~82.838 HTEN. ~'~GT D~PT. 10100.000 ClDP.DTE 27.906 IDPM,DTE I~P~.DTE 38.969 CI[.D.DTE 30,i41 !LD,DTE IL~:,DTE 37.000 IF~E,DTE 20.000 IIRD.DTE 28.094 IIX:O.DTE 0,582 IIRM,DTE DT SFLU. E 54,000 SP, DTE -134,250 GR, DTE MTE~, [)TE 168.238 MRES.DTC 1.347 HTEN,DTE DTI.,. I~$S -999.250 TTI,bSS 509,594 TT2,LSS T~'4 , I.,,SS 386,195 SP,LS~ -999,250 GR,5SS NTE~<.LSS 166,550 ~4RES, LS~ 1,387 HTEN,IJSS 0,023' LIT~..LDT 88.590 SSi.bDT 217[~45 SS2,,LDT sSHV.LDT 1664'000 $1RH'LDT 2 05 LSRi!.LDT CAbI.LDT ~2.I33 G~.LDT 45:~34 TENS.:LDT M~ES.LDT 1 '304 HTE~.~. LDT 347 56 NPHI,CNL . C.}~L 1,613 NPOR.CNb T N p ~ C N 1,, ! 1.210 T .... a A. RCFT.CNb 2919.547 CNTC,CNL 4579.844 CF~C,CNL TENS,CNL 6633.313 aRES,CNI. 1,304 MTE~-~,CNL 8GP,N(;T 45,234 CGR,~GT 32,100 TMOR,NGT Nc"' W' ~'~(;T !gl. 813 W2NG. ~,~G~ U~AI<. ,~1 2,043 ING. W4NG, . NGT 2.480 t~SNG ~GT 2.719 TENS,,,~GT . ' ' .-'~' NGT MRES NGT 1.304 CS.NGT 1812.000 HTE.~. 20.391 19.703 0.000 41.000 68.313 78.625 382.102 58.313 151.313 3.304 337.156 316.258 2 2~5 6647:688 21.703 22.339 1319.401 170.150 5.375 100.320 6647.6S8 395.~81 35.813 33.156 0,000 25.703 45.625 95 813 37~ 367 37 699 161 71! ~ i93 247 234 278 ,25O 2 479 66339 ~ ~63 10 995 2919 641. ~69 900 4 7~ 6633 347 ,!56 CIMP.DTE CILM.DTE IMQF.DTE IIX~ DTE TENS:DTE DT.LSS TT3~LSS TENS.LSS DPHI.LDT OLS,LDT LL.LDT hSHV.LDT LURH,LDT gTEM.LOT RTNR.CNL RCNT.CNL GR.CNL HTEN.CNL POTA.NGT W3NG,NGT MTEM.NGT CI~IP.DTE CILM DTE IMQF DTE IIXM DTE TENS DTE PT LSS TT3.L$S TENS'LSS DPHI.,LDT ObS ;LDT Lb,bDT DSHV * bDT ~URH, bDT MTEM, L:DT ~R RTN , CNL RCNT, CNL Ga. CNb HTEN 'CNL PCJTA, NGT W 3NG *NGT ~ITEM. NGT , [ T:E, 23.672 IDPH,OTE 42.219 CIMP*DTE DEPT 10000,000 CIDP, , ~" I~,!PU. DTE 39.750 CILD,Di~ 25'344 ILD,DTE 39.438 CILM.DTE IL~" DT~] 38 250 IFRE.D~E 20,000 IDQF DTE 0.000 IMQF.DTE IIRD DTE 23 20~ IIXD'D"PE 0 595 IIR~q,.O~.~E 24'859 iIXM DTE SFLU'.DTE 48.405 SP.DTE -!4t 500 C;~ Of..,, 46.531 TENS*DTE MTE~ DTE 167 563 ,~pr'~: DTE 1.347 H'P '~. .... , ......... , ,..E DTE 11.8.000 DT,LSS DTL LSS -999 250 T' hSS 512,086 ~T2 LSS 380',t45 TT3:.5SS ~'4' . . ', ~1, · T~ .', LSS 376.445 SP,LSS -999.250 GR,hSS 46.372 TENS,LSS 43.688 43,125 0.000 0526 6060:000 70 984 535 797 6032 250 15 146 -0 027 188 586 1621 000 2 282 170 150 2 497 3317 750 65 461 395 170 150 25.,656 27,'016 0,000 -1:875 6040 000 67 709 515 656 6200 375 8 124 -0'0:09 134:736 1621000 2 475 169 900 1 723 5027 62 4'5 34 347 156 21.285 :297 169 900 25.l,41 26.125 0.000 .1190 5995000 66 957 8 906 IS Tare verificatiom Listlm~ cblu~Cerger AlasKa ComDutin(~ Center ETE~.L$$ 166,168 MR~;$,LS8 RNOP,LDT 2.532 DRHO.L~T OSS.LDT 0,001 LS.!.,DT I, IT~.LDT ~0,121 SSI,~,UT SS~V.LOT 1663.000 S1RH,BDT CILI.I. OT ~2.839 GR.LDT MRE$.LDT ].295 MTEM.LDT TNPH,CNL 12,200 TNRA,CNL RCFT.CNt, 2833,025 C~tO.Cf'~b TENS.CNL 6551~.90~ ~RES.C~b SGn,NGT 46,254 CGR.NCT URAt~.NGT 1.567 ~IKG,NGT W4NG,NGT 1,160 NS~G,NGT MRE$.NGT 1.295 CS.NGT DEPT. 9900.000 IMPH.OTE 12,172 IL~.~TE 13,070 IIR~.DTE 61.31,3 SFLU.DTE 10.325 MTE~.DTE 167,337 DTL,bSS -999.250 TT4,LSS 408.219 MTE~.LSS 165,650 RHO~.LDT ~.462 OSS.LDT 0,01! bi'TH'bDT 89,586 SSHV'.LDT 1663.000 CALl.bDT 13,203 MRES.LDT 1,3~0 TMP~ CNL 20.810 URA~.NGT 2'520 W4NG,NGT 5,949 MRES.NGT 1,310 CIDP,DTE CILD,DTE IIXD.DTE SP.OTE ~RES,DTE TTI.LSS SP.LSS ~RES.LSS DRHO,LDT L$'LDT SSl.LDT S!RH LDT GR bDT HTE~ LDT TNRA CNL C~TC C~[,, ..~RES,CNL CG.R,NGT WING,~GT Wb~G,NGT C$'NGT DEPT, 9800,000 I~P~.DTE 34. 625 I~.DTM 32'844 IiRD.DTE 29,078 SFLU.DTE 45.406 MTE~.DTE 166,775 DTL,bSS -999.250 TT4.LSS 404.730 MTE~.LSS 164.525 RHO~.LDT 2'487 OSS.LDT 0.000 LITM.LOT 97.49~ SSHV.LOT 1663.000 CALI'LOT 12.141 MRES.LDT 1.339 TNPH CML 14,725 RCFT:CNL 2182.375 CIDP,DTE CILO,D2'E IFRE,D~E II×O.DTE S~,OTE TTI.LSS SP.LS$ ~RES.LSS 0 R N 0, b D T bS, LOT SS 1, LDT S1RM,LDT GR,LDT HTEM,LDT TMR~,CNL 12-d0b-1991 Og: 3~! 1.385 NTEI.i. LSS 0.003 PEF.bDT 243.398 LU.LDT 206.4~9 S$2.LDT 2.503 LSRH,LDT 46.254 TE~S.I, DT 358.14~ NP~tI,CNL ~.686 MPOR.CNL 4628.697 CFTC.CNL 1 295 MTEM-CNL 36:~76 THOR.NGT 145.344 W2NG.NGT 5,553 TENS,NGT 1767.609 HTEN,MGT 70.813 IDPH,DTE 70.688 ILO.OTE 20.000 IDQF'DTE 1.456 IIRM.DTE '104.500 GR.DTE 1.352 HTEN.DTE 544.500 TT2.LSS '999.250 GR,L$8 1,395 HTEN,L$$ 0.01g PEF,LDT 280.297 LU,LDT 220.133 S$2,LDT 5~.361 LSRH,LDT .016 TENS,LOT 367,766 NPMI,CNb 2,325 NPOR,CNL 2782.250 CFTC.CNL 1.310 MTE~!'CNL 28.297 IDPH.OTE 31.5~3 ILD,DTE 20,000 IDQP.DTE 1.100 IIR~,DTE '144,625 GR,DTE 1.367 HT~,DTE 536.633 TTz.LSS '999,250 GR,L$S 1.405 HTEN,L$$ 0.007 PEF.bDT 264.578 bU,bDT 211,631 SS2,LDT 2.441 LSR~{,LDT 45.814 TEi~$..LDT 350. 219 ~PHI.CNL 1 ~21 MPOR,cML 4008:078 CFTC,. 173.395 2 230'359 , 271.793 2.514 6553.906 10.658 11,200 2789.234 169.406 4 633 701406 6553 906 35~ 141 14.117 14.14I 0 000 72:500 43 375 96! 8 46 406 187 539 2 540 264 789 290 ~50 2 bS04 ~0 20 097 22 .~19 122~ 75 16 025 4317 650 75O 367 766 35.313 31'672 0.0,0o 28 953 4!i688 93 188 388 ~1,4 o:i 75 2o8.g84 2,t00 248"734 281.488 2'469 6431.375 12.955 14'790 2202.906 DPMI.bDT OLS.LDT LL.LDT LSHV.LDT LURH.LDT MTEM.LDT RTNR,CNL RCNT.CNL GRoCNL HTEN.CNb POTA'NGT W3NG.NGT MTEM,NGT CIMP.DTE CILM.DTE IMQF.DTE IIXM.DTE TENS.DTE DT,LS$ TT3.LSS TENS.LS$ DPHI.LDT OLS.LDT LL.LDT LSHV.LDT LURH,bDT MTEM.LDT RTNR,CNL RCNT.CNL GR"CNI~ HTEN,CNL POTA,NGT W3NG,NGT MTEM.~GT CIMP.DTE CILM.DTE IMQF.DTE IIXM.DTE TENS~QTE DT,LS$ TT3'LS$ TENS,bS$ DPHI,bDT OhS,bDT bL,.LDT bSMV,LDT LURM,LDT MTEN.LDT RTNR,CNt, RCNT.CNL GR.CNL PAGE: 19 7.150 0 o18 128i242 1622000 2,522 169.406 526 000 35 141 477 20 516 169:406 82,.125 76,438 0,000 -0:348 5900 000 73 320 539 375 6170 62~ 1t 41 -0 O0i 1,47 77 1621.,000 2 ~25 ~69 28~6' 25 367, i~ 16025 28 859 30 438 0 000 9 72 746 550 000 6264 500 9 863 0 015 140 145 1621~ 000 2 471 168,350 434~,::929 3. I3 45'814 IS Ta~e Yerification t,i$tinu cblumberger Alaska Comp~JtiDg Center TENS,C~L 6431.375 ~RE$.C~L U~AN.MGT 1,3~6 WING.NGT W4NC,NGT 7.016 ~5NG.NGT ~ES.NGT 1.319 CS,hGT D~PT. 9700,000 C!PP,DTE I~PM,DTE I3,28! CILD,OTE ILV.DTE 13.008 IF~E,DT~ IIRD.DTE 60.938 II×O.DTE SFLU.DTE 12.016 SP DTE MTE~,DTE 165.650 F!RES:DTE DTL.,LSS -999.250 TT!.LSS 7T~.LSS 4~4,3~0 MTEU.LSS 164.075 RHOB,LDT 2,468 DRHO.LD~ OSS.LDT 0,023 LS.I~DT LITM.LDT 85,809 SS1.LDT $SH~.LDT 1663.000 SIRH LDT C~LI,bDT ~4.3~9 GR~LDT M~E$,LDT 1,343 aTM'.bDT tIRA CNL TNPH,C~L 30,072 T , RCFT.CNb 797,000 CNFC,CNL TENS,CNb 6511.750 MRES,C~L SG~,NGT 90,859 CGR.NGT URA~i,~GT 3,80,1 WING,NGT W4~G,MGT 9,078 W5NG.NGT MRES,UGT 1.34] C$.~iGT DEPT. 9600,000 CIDP.DTE IMP'M DTE 5 965 CILD DTF ,DTE 6.828 IFRE.DTE IIRD.DTE 1!8.563 IIXD.DTE SFbU,DT~ 9.60~ SP. DTE ~TE~. DTE 164,300 ~RES.,DTE DTL. LSS -999,:250 TTI, I~SS TT4, LSS 462,938 SP. LSS MTE~,LSS 163,288 MRES,LSS R~O~.LDT 2.282 DRHO.LDT 0SS, LDT 0. 047 LS, LDT [,ITH. LDT i 40. 969 SSi, LDT SS~V,LDT 1662,00~ S1RM.LDT CALI. LOT 17. 988 G~. I, DT ~IRES,LOT 1,354 H~E~' LDT TMPM,CNL 39.545 RCFT.CNL 495,781 C;~TC.CNL TFNS,C~L 6438,500 SGR. aGT 71 , 371 CGR. ~4GT NGT ~,274 U~A~~ , · W4~,~G, Nf~T 4.711 ~RES, ~:~GT I ,354 CS. FGT 12-JOb-1991 1,339 r4TEi'.,~. C~ h 37 290 T~O~, ~,!GT 135:3'15 W2NG, 6.J. 68 TENS. ~,~GT :1.776,381 ~TEN, ~'~GT 68.625 IDPH.DTE 69.250 ILD.OTE 20.O00 IDOF,OTE 1,054 IIRa. DTE -93,553 GR,DTE 1,384 HTE~,DTE 566,781 TT2,L$S -999,250 GR,LSS 1,412 HTEN,~SS 0.019 PEF,LDT 277,541 I,U,LDT 219,834 S$2.LDT 2,3~7 LSRM,bDT 90,859 TENS.LOT 466,~50 NPHI,CNb 2 957 NPOR,CNL 2352]~25 CFTC,CNb 1.343 MTEM,CNL 66,418 T}iOR,NGT 269,6~8 ~2NG,NGT 8,055 TEN$,NGT ~.769,027 HI'EN.NGT 138 375 IDPH, !)TE 140i750 IL~.DT~ 20'000 IDO, ,DTE 4 422 IIRM,DTE -45 000 GR,DTE 1 383 HTE~,DTE 697 875 TT -999,250 GR,bSS ""{ bSS 1,409 HIE~, 0,108 PEF,LDT 453. 125 LU, LDT 264.141 SS2,LDT 1.934 LSRH,LDT 71,371 TEMS. bDT 425, IS8 NPHI,CNL 3,815 ~POh. CNL ~9'04,375 CFTC.CNL 1,354 ~{TE~, C~L ~3,895 THOR. NGT 212.938 W2NG, ~GT ~, 555 TE~.;S. 168,350 4.645 69.984 6431 375 ]50~21g 14.555 14.430 0.000 72,875 79 688 o 1ooo 419 184 74~555 253.359 2.948 265.750 285.223 2,433 6511.750 29.132 30,261 802,438 167,563 10.140 145,031 6511.750 466,250 7 219 7 102 0 000 138 125 64 875' 65 188 476 594 66 ,344 266,594 2942 4.19,250 346,391 2 !55 6438! 00 42 175 3s,go5 524:~25 165 88 6.746 109,688 6438,500 425,188 MTEN.CNb POTA NGT W3NG~NGT MTEM.NGT CIMP.DTE CILM.DTE I~QF.DTE IIXM.DTE TENS.DTE DT.LS$ TT3,LSS TENS,LSS DPMI,LOT QLS,LDT Lb,hDT bSHV,LDT LURH,LDT ~TEM LOT RTNR:CNL RCNT.CNL GR,CNL HTEN.CNL POTA,NGT W3NG,NGT MTEM,NGT CIMP,DTE CILM.DTE IMOF,DTE TEMS,DTE DT,LSS TT3,LSS TENS'LS$ DPHI,LDT QLS,bDT LL*LDT LURH ~DT RTNR'CNL RCNT,CNL GR,CNL HTEN,CNL POTA,NGT ~3NG,NGT ~TEMoNGT PAGEI 20 350,219 1,554 27.758 168,350 75.250 76'813 0,000 1413 58251000 76 176 562 781 6325 000 11,012 -0 021 144 545 1621 000 2 428 167 ~63 2545~250 90~859 466250 2,319 39 828 167 56~ 167,500 146,375 0000 1 663 5680:000 91,52 695i314 6283 219 22 296 -0 018 243 563 165988 3 749 71. 1 425 188 1.522 33 671 165 988 IS Ta~e Verification [,istin~ Chlumberqer AlasKa Co~r. putlnq Center DEP?, 9500,000 CIDP.DTE I~PH.DTE 15.2al CI!.O.£~TK IL~.gTE 15.378 IFRE.DTE IIRD.DTE 51,906 I!×D SF[..I;, DTM !, d, 688 SP[DTE MTE~, DTE 164,188 ~RE$.DTE DTL.LSS -999,250 TT1.LSS TT4,LSS 431,551 SP,b$S MTE~,[.SS 162,500 MRES,L~S RHOS,LDT ~.419 DRHO.LDT OS$,!.r)T 0,049 ~$,b~T LIT~.I, OT 107.098 SS}~V.LDT 1662,000 Sl~i~,LDT CaLI,LDT !2,762 GR,L~T MRES.LDT I.~64 T~PH.CNL 25.873 ~FT,C~!L 1136,!37 C~qTC.CNL ~ .... MS.CNL 6295,6~8 gRES.C~L SGR NGT 59.51. 2 CGR URA~:NGT 1.364 W4NG,NGT 3,740 MRE$,NGT !.364 C$.~GT DEPT. 9400 000 ClDP.DTE I~P~.DTE 39i938 CILO.DTE IL~,DT~ 37 969 IFRE.DTE MTE~,DYE 163,513 ~RE OTE DTL,I.,SS -999,250' TTI.LSS TT4.LSS 3g2,234 SP,LS8 RMO~,LDT 2.446 DRH LDT OSS*LDT 0~006 L$,LDT LITN,bDT 95.1,02 SSi.I,DT SHV,LDT 1662 00 $1RH,.LI. r ~ALI.LDT 12 8,4 GR.LDT ~RE$.bDT 1.374 H?EN bDT T~P~ CNb 17,358 RCFT'CNL I742 625 .~u C~b TFNS.CNb 6250,()00 ~RES.C~*5 NGT 52,137 CGR,NGT URAM,~'GT 2,162 ~ING,NGT W4MG,NGT 5,426 W5NG,NGT MRE$,NGT 1,374 C$,NGT DEPT, 9300,000 CIDP..DTE I~PH,DTE 10.672 CIbO. DT~ IL~,DTE I0,414 IFRE.DT£ IIRD,DTE 77 250 IIXD ~E SFLU DTE 13 0.47 SP,DTE MTE~: DTE 163 175 ~RES. f:.TE DTI.. LSS -999 250 TT~,LSS TT4, LSS 399. 934 SP. bSS ETCh, LSS 161,600 MRES,LSS 12-JUt,-1991 09:38 58.u99 59.000 20.0~0 IDOF,D~E 0.~57 IIR~,D?E -156.7~0 GR.DTE ~.396 HTEN,OTE 576 lO2 TT2.L~S '999~250 GR,L$S 1,427 HTEN,LSS 0,068 PEF,bDT 327,8i3 P39.648 S$2.LDT 2.~6 LSRH,LDT 59.512 TENS,bDT 355,~88 ~IPHI,C~b 2.717 MPOa,CNL 2915,50() CFTC,CNL !.364 50 7~6 174!594 I0 586 TEN$,hGT ~775.645 MTEN.NGT 23.828 IDPH.OTE 25,766 IbD.DTE DTE 20.000 0.~ II~.[.T~ -223. GR,DTE T 1,405 MTEN,I)..E 528,172 TT2,LSS -999.?50 1,439 0,000 PEF.LDT ~7'8~602 LU.LDT 209.99I SS2,LDT 2'434 LSRH,bDT 52,137 TEMS.i~DT 370,098 NPMI,C~.~b 2.12~ 3~95.281 CFTC,CNL 1,374 MTEM.CNL 38.239 156.0o8 W2NG.NGT 5.711 TE~$, NGT 1772. 000 HTE~. ~GT sl .7bO IDP~. OTE 85.875 ILD, 20.000 IDQF.I. 7L 4,598 I I R -90. 750 GR. DTE 1 410 HTEt~, DTE 54~ ~ 938 TT~. LSS -999.250 GR bSS 1.427 HTE~ 17.203 16.938 0.000 61.906 56,031 i26.563 419.807 55,674 192.141 2.43i 304.094 305.141 2.337 6295 688 26!157 26 147 1122.250 165.899 5 895 87:418 6295.688 355.188 41 938 38i781 0 000 25 047 52 5OO ~67:625 392 375 43!729 I85 109 2.206 264.445 279 269 2 434 6250 000 t~ 405 .673 1714 625 164 897 4,988 84,078 b250.000 370.098 12.219 11 633 0 000 90 875 85 875 5 90 766 CIMP.DTE CILM.DTE IMQF,DTE IIXM,DTE TENS.DTE DT.L$$ TT3.LS$ TENS.LS$ DPHI.bDT QLS.LDT Lb,bDT LSHV.LDT LURH.LDT ~TEM,LDT RTNR.CNL RCNT.CNb GR.CNL HTEN,CNL POTA.NGT W3NG.NGT ~T~M,NGT CI~P.DTE ClLM.DTE IMQF.DTE IIXM,DTE TENS,DTE DT TT3 LSS TENS DPHI bDT QLS LDT LL,LDT LSHV,LDT LURH.LDT MTE~,LDT RTNR,CNL RCNT.CNL GR,CNL HTEN.CNL POTA,NGT .w3NG.NGT MTEM.NGT CIMP.DTE CILM DTE IMQF:DTE IIXM,DTE TENS.DTE DT.L. SS TT3,LS$ TEMS,LSS DP}II.bDT PAGE: 21. 65 375 65~188 0 000 -1 963 5655 000 80 617 586 172 6082 750 14 029 0 008 175 664 1620 000 2 344 165 899 3 034 3143 500 59.512 355,188 2 7 165.899 25 016 '-1 076 5740 000 71 844 532 336 -0 07 146 ~04 1619 000 2 432 164 897 375~ 303 3'75 52 i37 370 098 1 539 28 203 164 897 93 625 95 938 0 000 5525 78 104 553 000 6102,313 i0,365 IS TaOe verificatior~ Listino cblumberc~er Alaska Co~outin~ Ce,ter R~OB.LDT 2.479 D~HO.I,DT QSS.LDT 0.o24 LS.LDT [,IT~'I. DT 93'053 S$1,LDT SSHV.LDT ~61,000 S1R!.~.LDT CALI.LDT 16.967 GR.LDT NRES,LDT 1,352 HTEN.LDT TNP~.CNL 29.o69 T[.~RA.CDL RCFT.CNL 908.609 CNTC.C~[, T~N$,CNL 6190.875 ~RES.CNL SGR.NGT 91.324 CGR.NG~ URAM.NGT 4,332 ~iNG,NGT W4NG,NGT 6,!.09 WSNG NGT MRE$.MGT 1.382 C$~NGT DEPT. 9200.o0() CIDP.DTE I~P~.DTE 28.I72 CILD,DTE Ib~.DYE 27.172 IFRE.DTE I~RD.DTE 33.656 IIXD,DTE D~ 29.938 SP DTE L,LSS -999:250 TT1.LSS TT4.LSS 423,000 SP.LSS MTE~,LSS 161.150 ~RE$.LSS RMOB.bDT 2.393 DRHO.LDI.. QS$ bDT 0'017 LS,LDT b~TM:LDT 106'977 SS1.LDT SSHV.LDT 1661.502 S1RH,.LDT T~P.. CNL 20~238 TNR.A'~ RCFT,CNL 1~02,~25 CNTC,CNL TENS.CNL 6172'625 MRES,CNL SGR,NGT 66~602 CGR,NGT W4NG.NGT 3,565 M~]S,NGT 1~390 DEP~. ,DTE IIRD,DTE SFLU'DTE NTEM,DTE DTI~;,I,,SS TT4,LSS MTE~,LSS RHOB.LDT QSS.LDT LITH.LDT SSHV.LDT CALI.L~T MRES.LDT TNPH'CML RCFT.C~L TENS.C~L 9100,000 55,,59~ 49,906 t6,438 60'7!.9 -999'250 366~750 160.363 2.567 0.032 71,203 !662.000 !2 273 i 402 11 940 2686.500 6i78.156 12-dUb-1991 r)9:38 0.087 PEF', bDT 307. 625 I,U, bDT 242.828 SS2.bDT 2. ~ 87 LSRH.LDT 91,324 TENS.bDT 443.313 NPHI.CNL 3 010 NPOR.CMb 2621~188 CFTC.CMb 1.362 63,475 298.7~I W2NG. 5:(;T 7.688 1,811.805 HTMN. NGT 35.469 IDPH.OTE 37.250 ILO.DTE 20.000 IDQF.OTE 0.651 IIR~.DT~ -156.625 GR,DTE 1.423 HTEN,DTE 577,000 TT2.bSS -999.250 GR.LS$ 1,441 HTEN,LS8 0,014 PEF,bDT 312.133 LU.LDT 221.934 $S2,LDT 2,314 bMRH,LDT 66,502 TENS,BDT 404,938 NP~{I'CNb 2.218 NPOR,CML 3548.875 CFTC,CNL 1.390 MTEM,CNb 50.125 THOR,NGT 5 ~84 TENS,NGT 1811:: 00 HTEN,NGT 1!!703 IDP~{,DTE 2 000 IDQF,DT~ 1'188 IIR~.,DTC -147,1~5 GR' 3 1,4 3 HTE~, $ 496,250 TT2,L~S '999,250 GR,LSS 1,447 HTEN'LSS 0,038 PEP,bDT 24.1,359 LU,LDT 219,245 $S2'LDT 2.416 LSRH,SDT 50.7~2 TENS,bDT 4(:3,250 NPHI,.CNb 1.697 NPO'R.CNb 4357'500 CFTC,CNb 1,402 3.365 295.563 315.188 2.372 6~90 875 . 28.920 29.980 890.000 164 188 91766 142 414 6190 875 443,313 ObS. bb. bSHV, LURH. MTEM, RTNR. RCNT. GR. HTEN. POTA, W3NG, MTE~e bDT LOT LDT LDT bDT CNL C~b CNL CNL NGT NGT NGT 28.172 26.828 0 000 34 969 63 406 133 ,125 406 250 55 906 189 500 2 393 288 766 CIMP.DTE CILM,DTE IMQF.DTE iIXM.DTE TENS.DTE DT.LSS TT3,LSS TENSeI, SS DPHI,LDT QLS.LDT LL.LDT 294 2 6172 18 2O 1611 163 6 9'6 6!72 404 621 bSHV,bDT 367 LURH,bDT 625 MTEM.LDT ~16 RTNR.CNL 9 RCNT.CNL 250 GR,CNL 569 HTEN'CNL 375 POTA'NGT 625 MTEM,NGT 67 ~38 57~ 44 0,000 19.063 44'094 101.438 354,.250 40.563 175,500 2'666 233'473 275'969 2.517 6178,156 11'050 11,584 2688'750 162.500 CIMP.DTE ClI~M,DTE iMQF'DTE IIX~,DTE TENS.DTE DT,bSS TT3,b$S TENS hMS DPHI bDT OhS LDT bb bDT~ bSH¥ bDT bURH,LDT ~TEM.LDT RTNR,CNb RCNT.CNL GR,CNL HTEN.CNL PAGEI 22 -0.037 159 836 1618 000 2 362 164 188 3 219 2785 250 91 324 443 313 2.198 42,141 164,188 35.469 36.781 0.000 -0'669 5515.000 8 250 581 000 5540 000 0 167 688 1618 000 2 377 163569 2,353 3853500 66 602 404938 2 057 32~4'0 163 569 17 984 20 031 0 000 -0 ooo 6~ 188 503.500 5575 000 5 000 -0.016 I24 664 1619 000 2 513 .162 500 481~ '821 ,750 50 742 46~ 250 IS Tare verification Listing chlumberoer Alaska Computinq Cent. el' DEPT. 9000.000 CIDP,t)TE I ~ ? ~'~. D T E 14,305 C I L 0. b T E IL~:,DTE 14.047 IFRE.DTE iIR.D.DTE 5S.563 IIXD.DTE 8FLU. DTE 14. 547 SP. DTE ~TE~. DTE 160,81 3 ~ES, DTE DTL. LSS -999. 250 TT1 , LSS TT4, LSS 430 · 250 SP. LSS MTE~, LSS 16C.025 ~RES,LSS RUOB.I,DT 2.470 DPhO.LDT ~SS. LBT 0.0~3 LS. LOT LITM, LOT 86. 763 SS 1. LOT SSHV.LDT 1661.000 S1RH.LDT CALI ,LOT 13,3~ 8 GR. LOT M~ES.I.,OT 1,410 HTEN.LDT TNP~.CN5 23,847 TNRA.CNL RCFT CNL 1147.813 CNTC.CbL TENS:CNL 6029,438 ~RES, Cb',b SGR,NGT 78,355 CGR. NGT URAN.NGT 2,606 W1N~.NGT W4NG.NGT 9,547 W5~ ~, ..... ~RES' NGT 1,41 0 CS,NGT DEPT, 8900.000 CIDP.DTE I~PP. DTE 37 094 CILD,DTE IL~i~DTE 36i188 IFRM,DTE IIRD.DTE 23 656 IIXO,DTE SFLU.DTE 112,563 SP. DTE MT~"DTE 160'36~ ~RES,DTE OTb. DSS -999. 250 TTI TT4, bSS 594,572 MTE~, [.,SS 159~575 RMO~,LDT I ,374 DRHO,LDT OSS.LDT 0, O ! 0 IS.LOT LITe. LOT 779,000 SSI. LOT SSHV, [,,DT ~.659,O00 S1RH 'h~ LOT 15,832 GR,b[,T C L I . . . MRES'LDT i '432 HTEN. LOT TNP~,CNL 75,354 TNRA.CNL RCFT,CNL 297,094 C~.~TC, C~L -~'Fg CNL 583I 063 aRES.CN:L S(;~, NGT 39. 344 CGR, URAN.NGT 1,597 ~ iNG'NGU.' W4NG,NGT 3,484 ~RES, NGT I ,432 CS,NGT D E P 7: 8800.000 C I D P, D I:' E I~P~:DTE 6,520 CILO.DT'E I t~,'~, 0 rs 6.875 IFRE, t,.,Tg iIRD.DTE 129,000 I!XD.DTE 12-Jt;l 1091 09:38 39.590 THCR. iq. GT 144.~13 W2NG.rlGT 4.137 TENS. :'¢GT 1808,000 HTEN. dGT 66,063 IDPH.DTE 66.563 IbP.gTE 20.000 IDOF.DTE 2.~O5 IIR~.DTE -70.125 GR. DTE !. 444 HTEN, ~TE 605.0U0 TT2,b$S '999.250 GR,LSS 1. 465 HTE~',/, hMS 0.042 PF.F. bDT 2~6,20'1 LO.LOT 227,1~4 SS2,LDT 2.308 LSRg,LDT 78.355 TENS,LOT 423.750 NPHI,CNb 2.444 NPDR,CNL 2867,727 CFTC,CNL 1.410 tqTEE.CtlL 61.600 THOR,NGT 235.516 W2NG'NGT i806.000 It'..I?E N, ;q GT i5.789 IDPH.DTE 22,719 ILD,DTE 20.000 I [) 2,408 IIR~.OTE -56.81,3 GR,DTE 1,4q7 HTEN ~DTE -9991250 1.462 HTEN,bSS 0,01.3 PEF,LDT 18[ 6 .500 L U, b I) T 245,748 SS2.BDT 1.431 hSRN,hOT 39,344 TENS,LOT 404,6i3 NPHI,CNL 4,879 NPOR.CNL I471.500 CFIC,CN~ I .432 MTEM.CNh 29,074 T H D R ' ~ G T 127.453 W2{~G. NGT 3 · 719 1809.340 1~2..375 IDP!~,OTE ~46.625 ILD,DTE 20.000 IDOF,DTE 7,91.4 IIRM.DTM 4.496 85.734 6178.150 463'250 15.133 15.008 0.000 67.500 76.088 111.063 430.250 65,875 260.000 2 965 267!564 295 279 2 414 6029.438 21.837 22 836 1~53i578 16~ 712 9,541 119.0i7 6029.438 423,750 63 313 0.000 26'28~ 35'250 2t5,250 609'531 36,180 220,520 0,874 1843'000 392'895 1,381 5831'063 62.691 77-576 303.547 161.263 4,496 57,609 583~,063 404.613 7.020 6,813 0,:0.00 137,250 POTA.NGT ~3NG.NGT NTEM.NGT CIMP.DTE ClLM.DTE I~OF,DTE IIXM.DTE TEN$.DTE DT LSS TT3:LSS TENS.LSS DPHI,LDT OLS,LDT LL.LDT LSHV.LDT LURH.bDT ~TEM.LOT RTNR.CNb RCNT.CNL GR.CNL HTEN.CNb POT& NGT MTEM,NGT CIMP.DTE ClLM.DTE IMQF,DTE IIXM,DTE TENS.DTE TDT*[,S'S T3,LSS TENS,hMS DPHI.hDT QLS.bDT bL,LDT LSHV~LDT LURM'LDT MTEM,LDT RTNR,CNL RCNT,CNL GR,CNL MTEN.CNL POTA'NGT W3NG,NGT MTEM,NGT CIMP.DTE CIbM.DTE IMQF,DTE !IXM.DTE PAGE: 23 1.754 28 563 1621500 69,875 71,125 0,000 I 7O5 5420 000 84 313 600 000 4960 000 10 893 0 013 152 471 1618 000 2.425 161,712 2 540 3216 ~898 78 355 423 750 2.118 46;500 161~712 261.938 27,625 0,000 ,000 132:~'064 861.53! sz ,soo ;368 934 875 ~609 441 1, 389 263 129 1553 281 39 ~44 404,61~ 1;001 161,2 153: 37:5 145 375 0 000 20 000 IS Tape verification bistino chlupberoer ~las~a Compot. ing Center SWL!}, ~TE 7,078 SP. MTE~"~, DTE 159.913 DTL.LSS -999.250 TT1 .LSS TT~, LSS 43~, 750 MTE~.LSS 159.125 ?~RES,LS8 [ , RHO~.~D~ 2.4i6 DRHO.bPT OSS. LDT O, 025 LS, LDT [,ITH, LOT gl.672 SS1, LDT SSHV.LDT 1660.000 S1RH.LDT C~LI. bDT 15.581 GR. LDT MRE$.LDT 1.422 MTEP.bDT T~P~. C~b 33.450 RCFT.C¢~b 712.813 TE[~,C¢~L 5885,688 ~!RES. C~b SG~.MGT 99.805 CGR NGT U~AS~. ~,;GT 5.373 W4~G. NGT b, 37~ W5N MRES.NGT i.4~2 C DEPT. 8700.000 CIDP.DTE I~Pg. DTE 8. 539 CIbO, DTE IL~.DTE 8.227 IFRE,DTE IIRD,DTE 98,375 IIXO.DTE SFLU DTE 9.359 SP.~F. MTEW,.DTE 159'575 ~RFS' DTE DTL. LSS -999. 250 TTI. LSS TT4, LSS 404. ~50 SP. LSS MTE~. LSS 158'788 ~RES,LSS RHOB.LDT 2.553 DRI'{O,LDT LI ~H.LDT 69,738 SS1,LD SSHV ,LDT I660,000 SIRH, LD'I C,.AL!* !,DT 16,735 GR, LDT T..~r .CNL 29 927 TNRA,CNL RCF?.CNL 783.688 Ct~TC,CNL TENS.C~L 5850.500 SG~ NGT 99. 906 CGR. URA~'~GT 4,923 WlMG.NGT W4~G ~)(;T 10,742 ~R~,,.,.. ~GT 1.437 CS, NGT DEPT, 8600.000 CIDP,DTE IMP{~,DTE I4.445 CILD.DTE IL~,DTE t4,258 IFRE,DTK IIRD.DTE 66.750 IIXD.DTE SFLU. DTE, 14. 406 SP. DTE MTE~:, DTE i58,788 ~RES,DTE DTL. LSS -999. 250 TT1, bSS TT4. LSS ~39,000 SP, LSS MTE~/~, LSS 158,!13 ~RES. LSS R~{~B.LDT 2,345 DRMO,LDT OSS, !~DT O. OP I LS. LDT [,ITFi,LDT 1 ] 3.906 SS1 ,LDT SSMV,LDT 1660.000 SIRH.LDT 12-JU[,-IOg] {~9:38 -36.t25 GR.i)TE 1.455 HTE;'i,DTE 596.0C)0 TT2.LSS -999,250 GR.DSS 1.474 HTEi~.L$S 0,053 PEF*LD~ 32o,629 LU.LDT 235.008 $$2,LOT 2.220 L$~!,bOT 99.805 TENS,bDT 403.254 NPHI,CaL 3,140 MPOR,CNL 2214,875 CFTC,CNL 1.422 gTE~,CNL b5,258 THOR,NGT 290 996 W2NG,NGT 11:680 TE~$.i~GT !808.0~0 HTE~,~GT 1.11.250 IDPM.DTE 113,438 II, D.DTE 20,000 !DOF.DTE 4 848 -77:375 GR'DTE 1.470 HTEN,DTE 563,000 TT2,LSS -999,250 GR,bSS 1,472 HTE~,hSS 0,026 PEF,DDT 244.754 LU,BDT 2~6 742 SS2,LDT 2~428 LSRH,LDT 99,906 bDT TEr~S, 384*844 gPHI.CNL 3,063 NPOR,CML 2379.125 CFTC,C~L ~.437 ~TEM'CNL 68,258 288,813 W2NG, 11.805 TE~qS,NGT 73.500 IDPH,DTE ~.250 IDO,DTE ,00o IDQ.F 3,26} IIR¢4' , D T g -~3. 688 GR.DTE 1,478 HTE~ DTE 594,000 TT2,bSS '999,250 GR, DSS I. 481 H TE ~'~, LSS 0.015 PEF.DDq~ 339, $05 LU, bDT 226'027 SS2,bDT 2.25g hSRH,bDT 91.313 99 ~13 ag:ooo 80.563 208,875 3,092 307,377 307.905 2.345 5885.688 31.391 32.666 694.711 160.7~4 9 827 167~906 5865,688 403.254 8 984 8~805 0 000 114:813 ~4 000 .5~500 413.500 85 ~75 245 O0 3 815 233 080 274 059 2 506 5850 500 29770 31 238 794 000 16(),134 10. 7t 157 719 5850,500 384,844 13, 5O. 175, 427, 52, 179, 2 301 594 281 000 500 938 250 000 000 750 463 1197 :145 TENS.DTE DT.LSS TT3.LSS TENS.LS$ DPHI.LDT OhS.bDT LL.LDT LSHV.LDT LURM.bDT MTE~.LDT RTNR.CNL RCNT.CNL GR,CNL HTEN.CNL POTA NGT ~3NG:NGT MTEM.NGT CIMP.DTE CI6~,DTE I~OF,~TE IIXM DTE TENS!DTE DT TT3,b$S TENS,LSS DPMI.LDT QLM'LDT Lb,LDT bSHV,LDT LORH.LDT MTEM,bDT RTNR*'CN!.~ RCNT,CNL GR.CNb HTEN'CNL POTA,NGT W3NG,NGT MTE~,NGT CIMP,DTE CILM,DTE IMOF'DTE IIXM-DTE TENS,DTE DT,L$$ TT3.LMS TENS,LSS DPHI,LDT QLS,LDT Lb.bDT LSHV~LDT LURH,LDT PAGE~ 24 5290 000 79 813 580 500 5185 000 14 156 -0 038 16710~5 1617 127 2~338 160.714 3.229 2455.406 99°805 403'254 2.312 49.969 160,714 117.063 121'438 0.000 8,219 5195 000 77 063 559 000 5375 000 5 876 0 006 16 967 16~ 514 !34 2.499,750 99~906 384,,844 2'275 54'203 ~60'~34 69.188 70'063 0..000 1'591 5270.~0 87, 8. 603'000 5240.000 18'485 -0'009 180;805 1617~000 2'317 IS Tar.~e verlficatior~ Listina chlum, berqer AlasKa Computino Center CALl. b.nT I 2.7 ~q ¢;R,I~.DT NRgS.LDT 1.437 T N P[~. C[.!I~ 22.481 RCFT,C.'~L ~37o.32~ TENS.CNL 5576'75U SGR, NGT 56. 805 CGR. [IRA~. NGT I .74.2 WlNG.hGT W4NG.NGT 6,477 ~'5~G' ~GT NRgS. NGT 1. 437 CS, DEP~'DTE 8,(,~6 CILD,DJ>K I~DH, ~' I L.~;. [ ~E 8.063 IIRD.DTE 9~.75() IIX[).DTE SF[,i~. DTE 7,930 MTE~. DTE 158,225 ~.~RES, DTE D~L. LSS -999. 250 TT4. LSS 437,00o SP, LSS MTE~. LSS 157.550 ~,~NES. LSS RHO~,bDT 2.~28 DRHU.LDT OSS. LDT 0. 058 LS, t. DT L! T~. LDT 100.645 SS 1. LDT SSHV.LDT i659,000 CALI,LDT ~5 543 GR,bDT MRS]S.LDT 1:446 HTEN,LDT TNPH.CNL ~2.894 TN~A.CNL RCFT.CNL ~257.313 CNTC'ChL TENS CNL 5328,125 SGR NGT 98,008 CGR,r~ G] RAN NGT 5,o36 WING,NOT 4~O', NGT 12,930 W5NG.MGT ~RES. ~gGT 1,446 CS DEPT.i ')' 8400,000 :CtDP,DTE P~.['rE 9,883 C. IL~,DTE 'i~:- b M, D T E 9 · 766 I F R ~,:, D T E IIRD,DTE 89'375 IIXD'DTE SFLU.DTE 1i. 261 SP, bTE MTE~. DTE 157 '550 ~R ES' DT E ~ _TL.[,SS -999,~50,..00 TT~.LSS MTE , LSS 157. 100 MRES, I, S8 RHOB,LDT 2,49:1 DRHD,LDT OSS, LDT O, 041 bS, bDT LITH, LDT $3, &14 SSI ,LD'V S:SHViLDT 1659,000 S1RH,LDT CALI,.[.,DT i 5,805 GR. LDT MRES LDT H~DN,b[ ~ TNPF~.CNL 2~.402 TNRA,CNL RCFT.CNL 901'919 Ch:TC,CNL TENS.CNL 575~.~:~8 MRE~, CI'~L ~ ,NGT 5,891 W1NG,NGT N GT 7.906 w SNG' NGT W4~G, NGT ~, 490 C5. i~GT MRES, 12-Obb-.1 991 09:3B 56,805 TENS.LDT 3~7.3i3 HPH!,CN!~ 2,413 PPOR,CNb 3277,688 CFTC,CNL 1.437 45 609 THOR, NGT 172:125 W2NG.NGT 2.938 TENS,NGT 1797.516 MTEm,NGT 112.688 IDPH,DTE 113.375 ILO,DT£ 20.000 IDQF.OTE 6.090 IIR~4, DTE -57,261 .GR. DTE 1 ~71 HTEN.DTE 616~000 TI'2,LSS -999.250 GR,bSS 1.484 HTM~'~. LSS 0.125 PEF, bDT ]56.367 L~.LDT 260,357 SS2,LDT ~.034 LSR~f. LDT 98 008 TENS,bDT 357:750 NPHI,CNL 2,522 NPOR,CNL 3130.266 CFTC,C~L i, 446 MTE,~, CNL 65,631 THDR,NGT 32~.500 W2NG,NGT 8.297 TENS,.~G~ 1359'688 HTEN, NGT 96,750 I D P 100.688 ILD'DTE 20,:0~00 IDQF,.DTE 6,0 ~'0 IIRM,DTE 597.000 TT2~&S$ - 999, :250 GR, 1,511 H TE~, 0. 067 PEF, GDT 290. 539 LU. LDT 545. 75 NPHI, NL NL 2.83 ~ 2376.250 CFTC,C L 1.490 ~.~TEM. CNL 59.285 'r~tOR NGT ..~'5 3I~,895 6,918 TEN S, ~,IGT !772,000 5576 2i 22 I]80 159 6 95 5576 347 750 i579 263 .406 688 110 488 750 313 B 8 0 117 8O 133 436~ 80. 170. 338 327 2 5328 22 23 1254 123, 5328. 357. I0 9 0 96 81 I;28 426 87 2 ~77 2 5754 26 902 158 1~9 5754 545 867 813 000 125 813 125 000 O00 625 400 O78 904 284 125 131 0~2 469 675 630 188 125 750 922 O00 875 250 250 ,250 924 789 402 :lgo 295 250 .336 .967 ,.719 MTE~.LDT RTNR CNL RCNT[CNL GR,CNL MTEN.CNL POTA.NGT W3NG,NGT MTEM,NGT CIMP.DTE CIL~.DTE iMOF,DTE IIX~,DTE TEN$.DTE DT,L$$ TT3.LSS TENS DPHI:LDT Qb$.LDT Lb. LDT LSHV,LDT LURH,LDT MTEM.LDT RTNR,CNL RCNT,CNL G~,CNL HTEN,CNL Po~A,NGT w3NG'NGT MTEM,NGT I~QF-,DTE IIXM,DTE TENS,DTE DT~bSS TT3,LS$ TENS,.L$$ DPHI,bDT QLS.LDT LL,LDT LSHV'bDT LURH,LDT MTEM~LDT RTNR,CNL RCNT CNL GR CNL HTEN CML PDTA,NGT ~3NG.NGT MTEM,NGT PAGE: 25 159.688 2.541 3588.750 56,805 347,313 1797 34i602 159 688 123563 0,000 7,988 80,000 5185.188 608.000 5155 000 13 477 -0 033 187 326 1615 385 2 281 158 675 2 688 3391 750 98 008 357 750 2 385 45 898 158 675 t, 1,86 5090 ~00 81 O0 578 500 5180 000 -0 ~24 15i 6:45 1614014 2 400 I58 336 2830 259! 688 97~54 545 375 2090 33 797 158 336 I$ Ta~e Verification LJsti. r~Q chlU~berQer AlasKa Computing CeDter DEPT. 8300,000 CIDP,bT[C I~PH.DTE 9,9~4 CILD,DTE IL~".DTE 9.9~1 !FRE,DTE IIRD.DTE 83.500 ii%0.DTE SFLU. DTE 8,8~0 SP.DTE MTEU.~TE 156,7~3 ~RES.DTE DTL,LSS -99~.250 TT1 .LSS TT~. LSS 394. 000 SP. LS8 MTE~,LSS !56,4~5 ~RES.LSS RHU~,LDT 2,558 DRHO.LDT OSS. LDT O. 025 LS. I, DT LTT~. LDT 68. 500 SS1. LDT 8SMV.LDT ~659,000 S~H.LDT CALl. LDT 18. 906 GR, LDT ~RES, LDT 1.4~1 HT~i~. LDT TNP~.CNL 25.320 TN~A,CNi, RCFT, C~<.L 1022.~04 C{~!TC.CNL TE~S.CNL 5620.000 ~LRES.Ct~L SG~, NGT 108.732 CGR. NGT URAN.NGT 3,b43 ~ING,NGT W4~C'NGT 6.g~4 W5NG, N'GT MRES,NGT 1,481 CS. ~GT DEPT. 8200.000 CIDP.DTE I~PH.DTE 9,844 CILO.DTE ILM,DTE 9.469 IFRE.DTE IIR~ DTE 85.313 IIXD,DTE [ ~g 10,~50 S~.DTE DTL, LSS '999'250 TT1 'LSS , q,. 4, LSS 414"555 ~ SP,LSS MTEN,LS8 155'863 /~RES,' LSS OSS'LDT O "033 LS.LDT L:ITM, LDT 75' 875 SSI* LDT SSHV;LDT 1659,000 SiRH,LDT CAL! LDT 16,,~25 GR,LDT MRS;S' LDT 1 482 HTEN ....... . . . L,~ r T~PH.CNL 28,i27 TNRA.Ch~ ~" C N b RCFT,CNL 854,477 C,TC. TE~S.CNL 5615,000 ~RES S(;R, NGT 11 O, 654 CGR, ~GT U~AN,NGT 5'230 W4NC,NGT 9,891 WLNG. ~'~GT ~iRES, ~*~GT 1,482 CS. t~iGT 12-,..lub-1991 09:3S 95.000 IDPN.DTE 94.688 ILD,DTE 20.000 IDQF.OTE 3'7~3 IIR~i,DTE -120, OOO GR. DTE 1,496 ~TE~~, DTE 550,000 TT2,hSS -999,250 GR.bSS i . 51~ HTEN, bSS 0.042 PEF,LDT 250,000 LO,LDT ~22,000 SS2,LDT 2,385 !,SRH. LOT bDT 457.250 2.692 ~IPOR.CNL 2~57,64~ CFTC.Ci~5 1,4Sl MTEH.CN5 ~5,311 THOR. NGT 334. 322 W2NG, NGT 8.902 TENS,~GT 1784.000 HTEN. NGT 94.625 IDPH,DTE 97.188 ILD,DTE 20,000 IDOF,OTE 5,301 IIRM,DTg -74,563 Ga,DTE 1,494 HTEN, DTE 578.0'70 TT2'b$$ . i2 HTE¢<~,i~SS 0 ~ 040 PEF~'hDT 290,2~0 LU,LDT 227,500 S 2,bDT 2 297 hSRH,5DT 110~654,, TENS, bO~'~ 426,000 NPHI,CNL 2'954 NPOR,CNL 2509.813 CFIC,CNb 77,031 THOR. iqGT' 354,105 W2NG,NGT 7.913 TENS, NGT 1786.000 HTEN. ~iGT DEPT. 81 O0. 000 CI['~P, D?E !46.125 IDPM, OTE .I~P~.DTE 9,320 CILD.; [)TE 145,875 ILD.OTE IL~,DTE 9,1.56 IFRE,DTE 20,000 IDQF,DTE IIRD D'r',,' 11578 IIR~,DTE . E 127. 000 IIXO. DTE'.; . ~ SFLU. DTE 15,227 SP, DTE ' 113 · 250 Ga, D rs MTEg,DTE !55.525 ~!R~ES. DTE 1.514 HTEN.DTE ! ~SS 591 000 TT2,LSS DTL, LSS -999,250 TI · ~ .... · TT4, LSS 436. 000 Bp, LSS -999. 250 GR, bSS 10,523 10 555 0:000 94,938 98,063 112.563 392.25O 92.375 319,250 3 539 237i750 282 500 2.492 5620 000 23:354 25.050 1039,626 157.100 · 14,282 166,172 5620.000 457,250 10,563 10 281 0 000 99 875 90 938 1.10:~38 416 69 85 ~05 27 500 56i5 000 28 188 28 563 872 581 156.538 12.887 171,1i8 5615.000 426.000 6,840 6,852 0 000 lo312s0 57,094 271.500 428.000 52,844 CIMP.DTE CILM.DTE IMOF.DTE IIXM.DTE TENS'DTE DT.LSS TT3.LSS TENS.LMM DPHI LDT O[,SiLDT LL.LOT LSHV.LDT LURH.LOT MTEM.LDT RTNR.CNL RCNT.CNL GR.CNL HTEN.CNL POTA.NGT W3NG.NGT MTEM.NGT CIMP,DTE ClLM.DTE IMOF.DTE IIXM.DTE TEN$,DTE DT.b$S TT 3, [,,SS TENS.LMM DPHI'LDT LL.LDT LSHV* LDT LURH LDT RTNR*CNL RCNT'. CNL GR * CNL HTE.~*CNL POTA.NGT W 3NG, NGT STEM. NGT CIMP,DTE ClLM,DTE IMQF.DTE IIXM,DTE TENS.DTE DT.bSS TT3,LSS TENS,LMM PAGE: 26 100 063 100~313 0,000 4,824 4940 000 78~563 550.000 5190'000 5,593 0,005 131,125 ~615,000 2,500 157,100 2.843 3131,634 108,732 457.250 2 676 49 456 157 100 101,563 105,500 0,000 4~.375 4950,000 ~0'53~ 578~117 5177'875 0~:028 151.;000 1616,000 2 398 38 2696112 110~654 426:000 27. 5 156 538 .107 :188 109 :!25 :0 000 5 563. 5100 000 84 688 594'000 5005.000 IS Tape Veriflcati, on Li. stinq c,blu,mberqer Alaska Comput~in/~ Center 12-JUL-1991 09;38 PAGEi 27 ~ITE~,LSS 155 300 aP, ES.LSo 1,521, HTE!~J [,~.o RNOB.LDT 2,414 [)RHO. I.~T o.018 PRF,SDT ' · . '- 3 "~( , ~. OSS,LDq. 0 017 LS L, DT 3~3,0(,3 LIi.LDT LITH.LDT 97.250 SSI.LDT ~ .000 8S2.bPT SSHV.LDT 1659.000 51RH.LDT 2.316 IJSRI.{. bDT CALI,LDT t3,000 GR.LDT ~4.717 TENS,LDT aRES.bDT 1.490 ~tTE~. bDT 4~1.500 NPHI.CNI,, TNPF,CNL 22,865 T ?,,~R a CNL 2,432 NPOR,CN5 RCFT.CNL 1469.960 C~;TC~ CNL 3606.567 CFTC,CNL T[i~S CNL 5555,0()0 ~,~RES,CNb 1,490 aTEa,Ctah ,..GR NGT 64,717 CGR.NGT 43,045 THOR.~GT URAN NGT 3.37~ ~ 1 ~:,iG. ~3 GT ~23.7~2 W~NG. NGT .~GT 7,921 ?~SN(;.-GI 5,941 TE~S. aGT MRES.NGT i.490 CS.NGT 1786.000 H TEi'~. r'.IGT DEDT. 8060,000 CIDP,DTE 90 500 IDPIS, DTE IMPH. [)TE 11,836 CI[,D. [)TE 90 500 ILO.DTE II~ DTE 11,336 IF~E,.~TE 20 000 IDQF,DTE IIRDiDTE 80.688 IlXD.uTE 4 313 II~M,DTE SFL[I. OTE 13.18 o SP. DTE -76,250 GR, DTE ~TE~~' D..ET' 154,962 ~RES.. .DTE,' 1 521 BTEN.DTg DTL'5SS. -999. .250 TTI.I~SS -999:250 TT2,LSS T,''r4,LSS -999,. ,250 SP,LSS. -999,250 Ga,LSS . ~4TE~, bSS -990 250 ,~ R ~,$, .... RHOB. I.,OT -999.25V DR~O. LD'I -999.250 PEF.hDT QSS. LOT -999. 250 LS. bP'v -999. 250 Lb. LDT LITN.LDT -999.250 SS1.LDT -999.250 SS2.GDT SSNV.LDT -999.250 SI~H.LDT -999.250 LSRH.SDT C.~LI.LDT -999.~50 GR.L[~T -999 250 TENS LDT MRES.LDT -999 25C' , !E~x~ LDT -999:250 NPMI.C¢,tb TNPH. C~b -999.250 T~R h ~ C~L -999.250 NPOR.. CND RCFT.C6, I, -999.~50 C~TC. CI",~ L -999.250 CFTC.CML TENS.C~L -999.250 ~i2'F~S. CN L -999.2b0 S(;9. NGT -999.250 CGR. I,~GT -999 250 TttOR. NGT [IRA~t.NGT -999.250 wlNG, ~,(;T '°99~250 W2~:G. NGT W4NG.NGT -999.250 ~SKG. ~'.GT -999.~50 TENS.NGT )~FEM.NGT -999.250 CS. f,.:GT -999.250 217.00 2 64 286 25 294 75 5555 0 21 78 14927~6823 155 86 4 52 8415 5555 O0 481.50 0 DPNI.SDT 5 QLS.I~DT 0 LL.LDT 0 bSH¥.LDT 3 5URH.LDT O. ~TE~,LDT 2 RTNR,CNL 6 RCNT.CNL I GR.CNL 3 HTEN.CNL 0 POTA.NGT 8 W3NG.NGT 0 NTE~.NGT 0 11 047 11 039 8~,000 500 76 ~50 331 .000 -999 250 -999 250 -999 250 -999 ~50 -999 ~50 -999 25O -999 250 -999 ~50 -999 250 -999 250 -999~250 -999.250 -999.250 -999,250 -999.250 -999.250 D~PT, 7909.000 CIDP.DTg 53,563 IDP~,DTE 18.656 I~"~,PI';. DTE ] 4.313 CILg. DTE 57. ~44 I!,D. 0TE 17.281 IL~.DTE 14.313 IFR~.i3T6 2o.000 IDQF,DTE 0.000 IIRD.¢Tg 54.156 IIXb,[~Ig 5.750 IIRA.DTE 66.250 SFL~.I)T~ ~!.359 SP DT~; -72 375 GR'i)TE 77,875 ~TE~'~. PTE 154,625 ;~ES' ' OT[, ISS ugq,250 r. 1'DTE 1.517 HTEN,OTE 120.125 · .LSS 999 250 TT2. · :uSS -999. 250 TT4. [,,SS -999. 250 SP. i385 -999,250 GR. DSS -999,250 ~TE~'.LSS -999.250 '~IRES. [,SS -999,250 HTEt{,hSS -999.~50 RNOP. [,DT -999.250 DRH:I. I,DT -999.250 PEF, LDT -999 250 QSS, LOT -999.250 I,$.L z -999.250 1.,~, LOT -999 250 LITH.[,DT -999,259 SS1.LD~ '999,250 SS2,LDT -999~ 250 SSHV,LDT -999,250 S 1. ~ ~. i,[:'T '999.250 LSRii, ~DT -999 250 C-ILI.LDT '9~9,250 (;R.LhT '999.250 TENS,bDT -999.250 ~4RES. LD'I' -99q,250 HTE;~, !.,DT -099,250 NFHI,CNI, -999'250 TNPN.Ci,~L .... -999.250 ;r~RA" .C~,,[, -999.'2.50 f, iPOR,u~;L~ : -999 250 RCFT , ., .C~L -999 ~:5n C:':TC.C":L -999.250 CFT~C.C~.:L -999 250 CINP.DTE CILM.DTE INQ ,,DIE IIX~.DTE TENS,DTE DT,LSS TT3 TENS~ $8 DPHI.LDT QLS.LOT LSHV,LDT LURH.LDT ~TEg. LDT RTNR CNL RCNT:CNL GR.CNL HTEN.C~h POTA.NGT W3NG.NGT MTEM.NGT CI~P.DTE CIL~.DTE IMQF.DTE IIX~.DTE TEN$.DTE DT.L$$ TT3.555 TENS.L$S DPHI 5DT QLS~LDT LL.SDT LSHV.LDT LURH,bDT MTEM.LOT RT~R.CNL RCNT.CNL GR.CNL 14 316 -0 011 159 875 1616 000 2 381 155 863 2 '638 3875 ~60 64 ~7 481 500 I 996 32 673 155 863 84, 8~, 125 0,00 4 012 5090 000 -999 250 -999 250 - 9 9 9 2 5 0 - 9 9 9 2 5 0 -999 250 -999 250 -999 2 -999 250 -999 250 999 2~0 - 2 0 -999 -999 250 -999 250 -999 250 -999 250 69,813 69,813 o 000 '0 855 478O 000 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999:250 iS Tape Verification [,lstlns ~blumberger Alaska ComPuting Center 12-JUL-1991 TF..N S, C~i L -9o9,25 ~' SG~,NGT -999,250 CGR.~<~T -999.250 THOR,NGT ~G -999,25~ ~I~.~G ~[GT 999 250 W2~g NGT ,MGT -999 250 ~ 5 ~ ~" ~ I~'GT -q99.250 TEb~8. NGT t.~B ES, ~ G T -999:250 CS. ~GT -999 250 DEPT, 7800,000 C!DP.DTF 126.625 IDPH.DTE I~P.~ t D~L~'"" .q,805 CILD,uTE~' ~27 o~3 ILD OTE iiRP,g~ ~ B.594 IFRE,DTE 20.000 IDgF DTE . ,DTE !08,500 I~'g. DTE 6.465 I IRr.~, DTE SF[,U. [.)TE 8,750 SP, DTE -67.813 GR, DTE ~T F ~' .P~L 153,837 ~RES. D~E 1.539 DTL,LSS -999,250 TTI LSS -999 250 MTE~,LSS -99:9.2.0'5 HRES.LSS -999.250 HTEN,bSS RHOB,LDT -999,250 DRHO.LDT ~999,250 PEF..LDT LITH' bDT -999,250 LS. bl>T -999. 250 LU, bDT ,bDT -999,250 SSI,bDT -999,250 SS2,'LDT SSHV, bDT -999,250 SIRH.LDT -999.250 LSRH,LDT CALI,[,DT -999,250 GR,LD~ %999,250 TEMS,LDT ~R~]S, bDT -999'250 HTES,LDT 999.250 NPhI,CNL TNpH.C~,;:L 999 250 'r~,~aA C~.}L 999 250 :: RCFT.CNL -999,250 C~TC.CPb 999[~50 CFTC.CML TE~'~$.C:~,~L 999,250 ~RE"~S C~I.~ 999 250 MTEM,t.~.L r,IGT ~999 250 CGR, ~iGI 999:250 TI.iOR, ~GT SGR,..~ ...,; . . lip A ~,~. ~.G 1, -9g9,250 ~I~G.NCT 999.250 w2NG,NGT W4}.]C, NGT -999,250 %~'5 NG. b~CT -999,250 TEMS,NGT MRES, f~'GT -999,250 CS.KGT -999.250 HTEN,NGT DEPT, 7700.000 CiDP DT:E 129 750 IDPM.DTE Ib~PW, D'TE 7,]29 CI [.O; DT~'~ 130:750 ILD.DTC IbM, DT~7 7,0~6 IFRE,DTE 20,000 IDOF,DTE IIRP.DT~ !15,250 ]~. IX'O, DTE 9.953 II~.DTE SFLU. DTE ~, 645 SP. DT~,J -65,500 GR, L)TE MTn:.,. DTE i53,275 I.!R~JS, DTE 1 544 HTEN,DTE DTL.LSS -999,250 TTJ..LSS -999~250 TT2,LSS TT4. LSS -999,250 SD, LBS -999,250 GF~, LSS MTE~.LSS -999,25U ,~RE',$. LSS -999.250 HTEP;, LSS RHOP.LDT -999.25() D~MO.LPT -999.250 PEF,LDT OSS, bDT -999,250 LS.LDT -999,250 LU bDT LITH.LDT -999,250 SSI.L[:T -999,25u SS2:LDT 8SMV.LDT -999,250 Si~H,LD% -999.250 LSRH,LDT CALI,LPT -999.250 G~, L, DT -999.250 TFMS,LDT ~ES,LDT -999,250 MTE~.LDT -999,250 HPHI,CNL Tr~P~, Cf~;L -999,250 T~-~ .~. ChL -9~9.250 MPOR,C~;L RCFT, C~'{L -999,250 C{JTC,ChL -999.250 CFTC,CUb TED.~$. C~ ~ -999,250 ~'.~ R ~'S. C ~.. L -999,250 MTE~,CNL SGP.~?GT -999,250 CGR.~GT -999.250 THOR.NGT UPA~'.)~GT -999.250 ~'~iNG. NGT -999.256 W2~G, i~GT W4i, G.t~GT -9°9.250 ;': 5 ~':' G, i',; G T -999.250 T ~:~., $. ~:'~ GT ~R ~S. ;~GY -999,250 CS.bGT -qgq.250 HTE'~, ;.~GT -999 250 -999 25O -999 25O -999 250 -999 25O ,895 ,863 0 000 110 000 8O 50O 147 625 -999 25O -999 250 -999 250 -999 250 -999 250 -999~25§ -999 25 -999 25O -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 2.50 -999 250 7,703 7,641 0 000 134:500 88.5OO 191 75O :9991250 999 25O -999.250 -999.250 -999,250 -999,250 -999,250 -999,250 -999,250 -999,250 -999 ~50 -999:250 -999,~50 -999.25U -999.~50 -999.250 HTEN CNL POTA~NGT W3NG.NGT MTEM,NGT CIMP.DTE CILM DTE IMQF[DTE IIXM.DTE TENS.DTE DT.LSS TTR,LS$ TENS,LSS DPHI DT Lb.bDT b.$~V.LDT LURH.LDT MTEM bDT RTNR!CNL RCNT CNL GR.CNL MTEN CNL POTA~NGT W3NG,NGT MTEM,NGT CI~P.DTE CILM.DTE IMQF,DTE IIX~.DTE TEN$.DTE DT L$$ TT3:LS$ TENS,LS$ DPHI,LDT OLS,LDT LL,bDT LSHV,LDT LURH,LDT ~TE~,LDT RTNR,CNL RCNT,CNL GR.CNb HTEN,CNb POTA,NGT ,3NG.NGT MTEM.NGT PAGE~ 28 '999,250 '999 . '999,250 ii3 438 11.6 313 0 000 4 543 4780 000 -999 250 -999 250 -999 250 -999 250 -999 ~50 -999 250 -99 250 -99~ 250 -999 250 -999 250 -999 2,50 -999 250 -999 250 -999 250 140 125 142 500 0 000 8 102 4780 000 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999,250 -999,250 -999.250 -999,250 IS Tape veritication bistinQ .~hlUmberqer AlasKa Computino Center DEP?, 7600.000 CIOP.DTE ~ DIE 6,613 IMDH, ')" . , · ILk,IrE 6,570 IFRE DTE IIRD.DTE 1~6'G00 IIXD,DTE SFLU.DTE 5.582 SP,DTE MTE~. DTE 152,375 NRES.DTE DTL, bSS -999,250 TT1, TT4' LSS -999.250 "SP, LSS MTE~,bSS -990'250 MRES,bSS MGB..LDT -999 ~50 DRHO.LDT SSHV.LDT -999,250 SIRH,LDT CALI' LDT -999' 250 GR, LDT MRES,bDT -999,250 HTEN'LDT TNPH'CNL -999'250 TNRA,CNL RCFT,Ci~L -999,250 CNTC' CMl,., T E N $. C t~ h -.999 .250 I, JRA[~, NGT -999'250 W4N'G. NGT -999.250 WbNG.NGT DRES, NGT -999' 250 C8, DGT DEPT 7500,000 CIDP,DTE.; i~p[.1' , ,., . · . ,DIE 11. ,977 ClLD, DTE IL~, DTE 11.83b IFRE.DTE IIRD,DTE 9~ O0 IiX SFLU.DTE 21 69 S MTE~. DTE 15i. 813 MRE DTE ~.~I LSS 999 250 TTI'LSS TT4, LSS -999,250 SP. LSS MTE~t,LS8 -999.250 ~RE~'LSS RHOB.LDT -999.250 QSS.LDT -999.250 bS. LD'!~ blTM.LOT -999'25~ SS1 .bDT SSHV.LDT -999.250 SiRH,L[)T CALl ' LDT -9q9,250 GR. LDT MRES LDT -99q.250 HTE.~, LDT TNP;I~CNL -999.250 TNRA.CNi. RCFT. C(':I L -999.250 CNTC.Cr~b TENS.CNL -999.250 ~RES.C~L SG~. NGT -999. 250 CGR. NGT URALS. ~:GT -999.250 W1NG.~GT W4t, G. NGT -999.250 ~bNG,NGT ~RES. NGT -999.250 CS. NGT DEPT. 7400,00o CIOP.DTE I~P~,DTE 0,457 CILD.DTE IL~.DTE 6,430 IFR.E. [)TE IICD.DTE 177,875 IIXO.{>TE SFLt]. DTE 15.516 SP. DTE ~TE~.DTE 150.913 ~4RE5. DTE DT[.~. LSS -999.250 PTi ,LSS TT4, LSS -990 · 250 SP. bSo MT'E~. LSS -999,250 >~RES.LS~ 12-JOb-1991 09:38 146,750 IDPH.DTE 148.000 ILD'DTE 20.000 IDOF'DTE 9,9~9 IIRM,DTE -~0.406 GR,DTE 1.537 HTEN,)TE -999,250 T~T2,LSS 999 250 GR,:b$S -999,250 PEF'LDT -999 ~50 bO,bDT -999 250 $$2,LDT '999 250 LSRH,bDT '999 ~50 TENS,LDT -999,250 NPHi,CNb -999'250 NPOR,C~L -999.250 CFTC.CNL -999,250 '9991250 -999 250 w2~iiG'MGT -999 250 TENS,NGT -999 250 HTEN,NGT 102,125 IDP}~,DTE 104.125 ILD,DTE 20,000 IDOF,DTE 12,719 II~t~,DTE -101,250 GR,OTE 1,641 HTEN,DTE '999.250 TT2,bSS '999,250 GR,LS$ -999.250 }ITEN,L$$ -999.250 PEF,b~T '999.250 LO,bDT -999~250 SS2.LDT -999.250 LS~M.bOT -999.250 TENS,bDT -999.250 NPHI,CNL -999.250 NPGR,CNL -999.250 CFTC.C~b -999'250 MTE~i.CNL -99~:250 THOR.~GT -99 250 W2NG,i~GT -999.250 TENS.~GT -999,250 206.750 IDPH.DTE 209.3'75 IbD.OTE 20.000 IDOF'OTE 2~,719 IIRM.DTE -1~3.875 GR,DTE 1.607 NTE~,DTE -999.250 TT2.LSS -999.250 GR,L5$ -999,250 MTE!~,bSS .809 ,754 0,000 143 90 257 -999 -999 -999 -999 -999 ~999 -999 .-999 -999 -999 -999 ,,500 938 5OO 250 25O 250 250 .250 250 25O 250 250 <250 250 ~999,,250 HTEN POTA .999,250 N3~G ~TE~ ~999'250 . 999,'250 ClMP,DTE CILM,DTE IMQF,DTE IIXM.DTE T.ENS.DTE < DT,b$S TT3.LS$ DPHI,DDT OL$,bDT bSHV bDT bURH LDT MTEMLDT RTN~:iCN:b RCN.CNB GR.CNL ,NGT NGT ,NGT 9,781 9.~594 0.000 8O O63 44 656 176 750 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 ~50 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999.250 -999.250 ClMP.DTE CILM,DTE IMQF.DTE IIXM.DTE TENS.DTE DT.L$S TT3,LS$ TENS.L$S DPHI bDT OLSiLDT Lb,LDT LS~V bURHiLDT MTEM bDT RTNR CNL RCNT:CNb GR.CNL HTEN,CMb POTA,NGT W3NG.NGT MTE~,NGT 4 832 4i77] o ooo 146 625 44 813 174 125 -999:250 -999 250 -999~250 CIMP.DTE CIL~.DTE IMQF.DTE IIX~ DTE TEN$:DTE DT*LSS TT3.bSS TENS,LSS DPHI,bOT PAGE; 29 151,125 152 000 :0 000 '7 371. 4850000 ~999250 "999250 '999250 -999250 -999,;250 -999~250 -999~250 '999i250 -999.2150 -999i~50 '999250 '999 -999 250 -999 2,50 83 438 84 438 0 000 5 55 464500~ -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 :999,250 999,250 -999,250 154 750 155~500 :ooo t 078 4580,000 '999,250 '999'250 '999,250 '999.250 'S Tape :blumberge rificat~on Listing < 12-JUb-1991 09:38 r Alaska Compt.}ting Center R~OB, Lt~T -999,250 ORHO.bDT -999.250 PEF.bDT DSS, LOT -999,250 LS.. bDT -999. 250 LU, bDT LITM.LDT -999,250 SSI.LDT -999.250 SS2.LDT SSHV,LDT -999,250, S1RH,LD®~, -999,250 LSRH. , ,LDT CA~LI bDT -999.250 GR.bDT -999,250 TENS.LOT .~RES' . . M~'PN LD~ -999 250' NP~.I CN5 ,,LDT -999 250 _.~ ...... -, . , , · TNP¢.CNL -999.250 TNR~.CNL -999,250 NPOR.CNb RCFT,CNL -999,250 CNTC,CNb -999.250 CFTC.CNL TENS. C;'~L -999.~50 MRES,CNL -999,250 MTE~,CNL "SG~.NGT -999,250 CGR ~GT -999,~b0 THOR.NGT URAN,NG.~'T -999,250 WING NGT -999,250 W2NG.NGT ' P NGT W4NC NGT -999,250 ;~5~G LGT -999,250 NR~,~I, NGT -999,250 CS ~'~GT -999,250 HTEN, ,~IGT 7300,000 3.605 3,64.6 222,000 4,148 150,125 -999,250 -999 25O -999 250 -999 250 -999.250 -999,250 -999,250 -999,250 -999,250 -999.250 -999,250 -999,250 -999.250 -999.250 -999.250 -999.250 CtDP,DTE 262,000 IDPN,DTE CILO.DTE 266 50 IBD,D E IFRE,DTE 20 O0 IDQF,DTE SP,DTE .87.375 ~E'S,DTE I 600 HTEN,DTE TT1,LS$ ' -999:250 TT2,L$S SP,LS$ -999,250 GR,LSS ~RES,L~$ -999.250 HTEN.LSS DRHO,bDT -999.250 PEF,LDT LS.LDT -999.250 LU.LDT SSI.L[I? -999,250 $$2,LOT SIR.H.LEI -999,250 LSR~.hDT GR bDT -999,250 TENS bDT ,. ,~m,LDT -999.250 NPHI.CNL TNRA,CNL -999.250 I~POR.CNL CNTC,CNL -999 250 CFTC.CNL gRE$.CNL -999~250 MTE~I.CNL CGR.NGT -999.250 THO~.NGT ~!.NG.NGT -999.250 W2N(;.NGT ~5PJG,~GT -999.250 TENS.NGT C$.~GT -999,250 HTB]~.~GT 72oo.oeo ~,2~9 90,250 9,23~ 149o900 -999.250 -999.250 -999.250 -999,250 -999.250 -999.259 '999,250 '999.~50 '999,255 -999.250 ClOP DTE 99.563 IDPH,DTE CI[,D;£,T~; 103. 313 ILD.I....~E IFR~j, DT~3 20.000 IDOF, DT~; IIXD DTE 6.059 IIRN,D..E SP. DTE -75,938 GR. DTE ~RES. OTE 1,604 HTEiq, DTE TTI,LSS -999,250 TT2,LSS SP. LS5 -999. 250 GR , bSS ~RES. L$5 -999,250 DRNO. LD'[' '999.250 PEF,bDT bS. bDT -999. 250 Ltl, bDT SS1.LDT -999 250 $S2.bDT SI~H.I.,DT -99~250 LSRft, LDT G~.LDT -999 250 TENS.bDT WTE¢ .LDO' -999.250 UPHI,CNL '!" :-~ R .~, C ~' L -999.250 NPOR,CML C ~TC. C~::~ L -999,250 CFTC. C~b ~;RES.C~,~[~ -999. 250 -999 250 -999 250 ,999 250 -999 250 -999 250 -999 25O -999 250 -999 250 -999 250 -999,25{} -999.250 -999,250 -999.250 3 81~ 3 744 0 000 256 500 56 125 362 000 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 25'0 -.999 250 -999 250 -999 250 -999i250 -999 250 -999.250 -999 250 -999:250 -999.250 0 031 19:672 0 000 I14~688 95.500 281.750 -999 250 -999 250 -999 250 -999 ~50 -999 250 -999 250 -999 -999.250 -999,250 -999.250 -999 250 -999~250 ~L$.bDT Lb LDT LSHV~bDT LURH,LDT M'rE~,LDT RTNR.CNL RCNT.CNL GR,CNL MTEN,CNL POTA.NGT W3NG,NGT MTE~,NGT CI~P.DTE CILM.DTE IMQF.DTE XM,DTE DT;LSS T' TENS LSS DP'HI:LDT QLS.LDT LL.LDT bSHV,LDT LtJRH.LDT MTEM,LDT RCN~ NL HTEN NL ~OTA,NGT W3NG.NGT MTEM.NGT ClMP.DTE CILM.DTE IMQF.DTE IIXM.DTE TENS DTE DT:LS$ TT3.b$$ TENS.LSS DPHI,LDT QLS,LDT LL.LDT LSHV.LDT bURH.LDT ~TE~.LDT RTNR,CNL RCNT,CNL GR.CNL HTEN,CNL GE. 30 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -99 250 -99~ 2.50 -999 250 277 250 274 000 0 000 20 4760 -999 o -999 250 -999 ~50 -999 50 -999 25O -999 250 -999 250 -99~ 250 -99 250 -999 250 -999 250 -999 250 -999 250 -999,2'50 -999,250 121 563 0,000 6,289 4590,000 '999,250 '999,250 '999,250 '999 250 '999 250 '999 250 '999 250 '999 250 '999 250 '999 25O '999 250 '999 25O '999,250 Tape Veri~ication Llstlno :hlumberger AlasKa Comsutinq Center SGR,NGT -999.250 CGR,{~GT URA~.NGT -999.250 WlNG.~GT W4NG,NGT -999,~50 WbNG,~GT ~!~ES,NGT -999,250 CS.,~GT DFPT, 7100. 000 CIDP I~{PH, DTE 20.07~ CII, D,DTE IL~.DTE 18.453 IFRE.DT~] IIRD.DTE 55,219 I!XD.DTE SFLU. DT~ ~ 6.92~ SP, DTE MYE~,.DTE 149,563 MRES,DTE D'~I, LSS 999 250 TTJ,LSS ,,I , 2 '2 TT4, [.SS 999, LbO SP, ~4TE~, LSS -999.250 MRES'LSS RHOR. L).~ 999,250 DRHO LOT OSS, LDT '999.250 bM,bDT AL!,LDT ~999'250 GR,LDT MRES*LDT -999.250 HTf:N', LDT TNPH.CNL '999.250 RCFT.CNL -999.250 C.~TC. C ~'L TENS.CNL -999'250 ~RES,CNL URA~:NGT -999:250 ~I.N.. ~GT W4NG,NGT -99q. .250 WbNG MRES, NGT '999,250 CS, DFpT. 7000.{)00 CIDP.{)TE I~PN.DTE 11.789 CILD.DTg IL~:t. DTE 11..875 IFRE.DTE IIRB.t)~E 103,~25 IIXD,DTe; SFLU,D E 24,422 SP,DTE ~TE~, DTE 147,98~ ~4RFS,DTE DTI.LSS -999.250 TT TT4. LSS -999. 250 SP. LSS ~.%TE~.LSS -999.25o ~RES.LSS R~OF',LDT -999,250 DRHO,LDT OSS. LDT '999. 259 LS. bDT LI'.I'H, LDT -999,250 SS 1, bDT SSNV,LDT -999,250 S1RH,LDT CAbI, bDT -999. 250 GR, LDT NRF'.S, LOT -9g9,250 HTE~,LDT TNP~.CNb -999.250 :fNRA.CNL RCffT,C~.~L -999.250 C~TC,C~L TE~.~S, CHL -999,250 SGR, NC.T -999,25C~ CGR, ~G~I~ URAr~.NGT -999,25J W4~,~G.NGT -999.250 ~:'~RES. ~:T -999 250 12~JUL-t991 09;38 -999.25([} THOR.'MGT -999,250 '999.250 TEN$,NGT '999,250 51,906 IDPH,fT~. 55,406 I'LD.DTE 20'000 7'148 IIR~,DTE -76.938 GR,DTE . 1.626 HTEN,DTE 999..~50 TT2.bSS '999' 50 -999 250 HTEN'bSS -999 250 PEF,LDT -999 250 LU'LDT -999 250 $S2.LDT ~999'250 L.SRi~,bDT '999,2~0 TENS,bDT -999.250 MPMI'CNL -999.250 NPOR,CNL -999.250 CFTC CNL -999.250 MTE~:CNL -999.250 THOR.NGT -999.250 W2NG.NGT -999.250 TENS.~GT -999.250 HTEN,NGT 111.375 IDPR.DTg 1~.500 ILO.OTE .000 IDQF.DTE 12.45:] IIR~,DTE -154.875 GR.DTE 1.64() HTEN,DTE '999 250 TT2,LS$ '999~250 G~,LSS -999,250 -999.250 PEF,LDT -999,250 LO.bDT -999.250 S$2.LDT -999.250 LSR~,bDT -999.250 TENS,bDT -999.250 NPIii,CNL -999.250 NPOR.CNb -999.250 CFTC,CNb -999.250 -999,250 THOR,NGT -999.250 W2~iG.,~,GT -999 250 TENS,:,G~ -999.~50 153.875 IDPH,O3E 157.L25 ILO,DTP'] 20.000 IDOF.DTE 14,094 IIR~g. OTE -999.250 -999'~50 -999,250 -999.250 19,250 'lB.031 o,ooo 51.438 66,625 ,1,34.6,25 -999.250 -999'250 999,250 999,250 .999,'.:250 ~999'250 .999,250 999,250 5O '999 :~50-999 -999 250 -999 250 -999 250 -999 250 -999 250 -.999 250 ~.969 8.727 0:~00 79~ 50 85 38 -999 50 -999 ~50 -999~ 50 -999.250 -999 250 -999~250 -999.250 -999.250 -999 250 -999i250 -999 250 -999 250 -999 250 -999 250 -999 250 -n99 250 6.492 6.359 0 ()00 129:750 POTA.NGT W3NG.NGT ~TE.N.NGT CIMP.DTE CILM,DTE I~QF,DTE IIXM.DTE TENS'DTE DT TT3 LSS TENS LSS DPHI.LDT ObS'.bDT LL,LDT LSHViLDT 4URH..,LDT MTE~.,LDT RTNR.CNL RCNT'CNL GR,CNL HTEN.CNL POTA.NGT W3NG,NGT MTEM.NGT CI~P.DTE C!L~.DT~ IM~ .DTE IIXM.DTE TENS.DTE DT.LSS TT3.LSS TENS.bSS DPHI.LDT QLS.LDT LL.LDT bSHV.LDT bURH.LDT MTEM.LDT RTNR.CNL RCNT.CNL GR.CNL HTEN.CNL POTA.NGT W3NG,NGT HTE~.NGT CI~P.DTE ClLM.DTE IMQF.DTE IIXN.DTE PAGEI 3! '999,250 "'999'. 250 '"999 ~250 49,78! o;ooo 6~.777 ~340,000 ~999,250 :999.~250 .999*250 .999i250 .999;:250 .999:,250 ..999'2,50 i999~250 0 '999'~0 -999 -999 250 '999.250. ~999.250 -999 250 -9992150 84750 84125 0000 421~ 590000 -999250 -999250 -999250 -999 250 -999,250 -999 50 -999,250 -999.250 -999 250 -999250 -999 250 -999 250 -999 250 -999 25O -999:250 132.375 137.375 0,000 6,922 Tape Veriflcation Listinq :hlumberqer Alaska Com'putlng Center SFDU. DTE ~. 695 MTE~. DT'E 147- 875 DTL. bSS -999,250 TT4. LSS -999. ~TE~.~, DSS -999,250 RHOB, LOT -999, ~50 QSS.LDT -999, ~50 LITH,~DT '999,250 Sg'uV LOT -999,~50 CALl, bDT -999 · 250 MRES, bDT -999,250 TNPH,C~L -999,250 RCFT.CD~L -999,250 TENS. CNL -999,250 SGD,NGT -999,250 [IRAN, N[,T -999,~5() W4NG. NGT -999,250 MRES,NGT -999,250 DEPT, 6800,000 CIDP DTE IMP~, DTE 1!.650 CILD DTE II,~,DTE 1!.383 IFRE DTE IIRD,DTE 94,250 IIXD DTE SFbL.', DTE t 4'055 SP, Pqg MTE~Z.DTE 147.31.3 ~RES.DTE DTL. I,,SS -99g.250 TTI .bSS TT4, LSS -999,250 SP, DSS ~TE~ DSS -999,250 MRES,LSS RHOB:LDT -999,250 DRHO,LDT OSS, LOT -999,250 DS, LOT LITe. LOT -999,250 SS1, LOT SSHV,LDT -999.250 S1RH,LDT CA LT. bDT -999,250 GR, LOT aRES. I,,DT -999.250 HTE~.bDT TNP~.CaL '999.250 T~JRA, C~.~L RCFT,C~ L -999,~50 CNTC.CNI, TFNS.C:~L -9q9,250 ~IRES.CNL SG~. aLiT -999,25b CGR. NGT URAM.5~GT -999.250 ~ING.NGT W4b~G.~GT -999,250 ~ 5 ~G. I';G'I' aRES. NGI' -999,250 CS.i~GT 12-JUL-199t 09:38 -126,000 GR, DTE 1,659 HTEN, -999,250 TT2,LSS -999,250 GR, DSS "999 250 HTEN, bsa% -999 250 PEF.LDT -999 250 LU,LDT -999 250 SS2,LDT -999 250 LSRH,LDT -999,250 TENS,LOT -999. 250 NPMI,~CNL -999,250 -999.250 -999'250 MTE,~4' C~L ~999,250 THOR,NGT -999~50 W2NG' NGT -999,250 TENS, NGT -999,.250 .HTE. N,.MGT 100.125 IDPH,DTE 103.813 ILD,DTE 20 000 IDOF,DTE i11414 IIRM.DTE '127. 000 GR. DTE I .653 HTEN, DT£ '999,250 TT2,bSS '999, ~50 GR' DSS '999,250 HTEN,LSS '999,250 PEF"LDT '999,250 LU, I~[)T '999,250 5S2' LOT '999 250 LSR~.LDT -999:250 TENS.LOT !9~9~250 NPHI.CNb 999 250 NPOR,CML 999 2bO CFTC,CN5 -999,250 NTEM,CML -q99,250 THOR,N ,,~ :999,250 W2NG, ~G'I' 999,250 TENS,NGT -999,250 ~TEN,NGT 49,281 .!67,750 .999'2.50 :999.'250 ,999,2:50 999~250 :999'250 999'250 '999 250 999 5O -999 5O -999 50 -999 250 -999 ~50 -999 ~50 -999.250 -999.250 9 977 9 625 0 000 83 46 563 153 750 -999 ~50 -999 -999 250 -999 ~50 -999 ~50 -999 250 -999 250 -999 250 -999 250 -999 ~250 -999 ~50 , -999,250 '999,250 '999,250 :999,250 999,250 DFpT. 670©.000 CIDP.OTE 112.813 IDPH.OTE 8 859 I~P)4,DTE 9,594. CILO,DTE 113,875 IbD,DTE 8~773 IL,~' gTE U 203 IFRC,DTE 20 000 IDO~',DTE 0,000 · ' ~ ' ~ ' IIR~.DTE t01,063 IIXO.DTE 6.777 II~i~1, DTE 102 750 SF!,U. DTE ~. 609 Sp. DTE -120. 625 GR. OTE 83:125 NTE~:. GTE 14h. 919 ~R ES, [:,TE 1.659 HTEN. DTE 307' 250 PTL.LSS -999.250 TT1.LSS -999.250 TT2.LSS -999 250 TT4, USS -909. 250 8P, I. SS -999,250 GR, DSS -999~ 250 ~TE~, LSS -999,250 ~RES.t,SS -999,250 HTEN,LSS -999,250 R~O~. LgT -999,250 OREO. hP'f 2999,250 PEF.LOT -999.250 OS~' 5- L 999.250 Lb}, bDT 999,250 ...... · oT -999,250 MS2,bDT 999,250 SSHV !.,OT -q9/) 250 SIP;1 bPT -q99.250 LSRH.LO'Y -999.250 TENS,DTE DT'LS$' TTO'hSS TENS.DSS DPMI.LDT ODS'bDT LL,L~T LSHV,LDT LURH,LDT MTEM'LDT RTNR'CNb ReNT.Cab GR'CNb HTEN,CNL POTA,NGT W3NG,NGT ~TE~;NGT IMPDTE ILM:DTE IMQF,DTE IIXM.,DTE TENS,DTE DT,b$$ TTO,LSS TENS,DSS DPHI,LDT ODS,bDT Dh,LOT LSHV.LDT LURH,bDT STEM.LOT RTNR.CNb RCNT,CNL GR,CNL HTEN,CNL POTA,NGT WONG,NGT ~TEM,NGT CIMP,DTE ClLM,DTE IMQF,DTE IIX~,DTE TENS,DTE DT,LSS TTO,LSS ?ENS,L$S DPHI,bDT ODS,bDT Lb,LOT bSM¥,LDT bURN,LOT PAGE: 32 ~300,000 999,250 -999 250 '999250 '999 250 '999 ~50 '999 250 '999 250 '999 250 -9991250 '9992.50 "999 '999;250 '999'*250 '999;250 999~250 87, 0000 4 4160 000 -'999 250 -999 .2150 '999!250 -999,!50 -999150 '999 250 '999250 '999 250 ~999 250 '999250 '999 250 '999 250 '999 250 -999 250 -999 250 -999 250 104,1gB 108 563 0~000 4,934 4290,000 -999 250 -999:250 -999 250 -999 250 -999 250 '999,250 '999,250 '999,250 TaPe Verificatlon Listinq :hlumberger AlasKa Co~putin~ Center CALI.I,DT -999,~50 GR LDT M~E$,LDT -999,250 HTEi'~:L.DT TNPN'CN[, 999,250 ~F*,CNL :999,250 C~TC,C~b NS,CSL -999,250 SGR,NGT -999,250 CGR,NGT -999,250 ~IN~,=, ~<iGT URAN'NGT -9 , W4~G,NG 99 250 5NG.~GT MRES.NGT -999,250 CS.NOT 12-JUL-t991 09:38 -999.250 -999,250 -999.250 -999.250 -999 250 -99~ 250 -99 250 -999 250 -999 250 DEPT, 6600,000 CIDP.DIE 167,500 I~P}:!,DTE 5,566 CILD, D~I'E 168.875 ILN,DTE 5,461 IFRE,DTE 20.000 IIRD,DTE 145,250 IIXD.DT~ 10'344 SFLU, OTE 4,844 SP, DT~] ,70,313 MTE~,DTE 146,413 ~RES,DIE 1,641 DTL, LSS '999,250 TT1 ,LSS '999.250 TT4,LSS '999,250 SP,LSS '999.2~0 MTL ~,LSS '999 250 ~RESi[,SS '999'2-0 RHOB.[,DT '999'~50 DRHO, I.,DT '999'250 OSS,LDT -999,~...5Q LS.LDT LITe, LDT -999. 250 SS 1, LDT -999,250 SSHV,LDT -999.250 SI~H,LC~T -999,250 CALI, LDT -999,250 GR, LDT -999. 250 ~R~:,~.. bDT -qgq,25o HTE:t~.[~O, -999,250 TNPH,CNL -999.250 T~RA,CNL -999,250 RCFT.CML -999,250 C:~TC,CNL -999,250 TEMS.CNL '999,250 t~RE&'C~-~5 -999,250 SGR,NGT 999 250 C~R NGT 999 50 2 URA~.NGT -999.250 ~i lNG. ~:GT' -999,250 W4NG.NGT -999,250 {5NG'NGT -999,250 M~ES. NGT -999,250 CS,,~ ~ -999. 250 DEPT. 6500.000 CIDP,DTE 59.3~4 I~PF~.OTE ]6.781 CI[.D. D7 f': 63.0(~0 IL~.. D'TE t6.469 IFRE, [)7'L 20,000 IIRn,DTE 57,656 IIXD,DTE 4.371 SFL~. DTE 17. 797 SP, D~.'E -119. 625 ~TE~:, OTE 145,738 ~RES, D~'E 1,65~ DTL,LSS -999.250 TT~ ~SS -Q99 250 TT4.LSS -999,250 SP' ' ' .LSS -999.250 ~TE~,SSS -999.250 ~RES.LSS -999,250 RNOg.LDT -999.250 QRf~O, L[>'Y -999.250 OSS. LOT -999,250 [.S, LD!~ -999. 250 LI'['~. LDT -099. 250 SS1. LDT -999,250 SSgv. LDT -999,250 S1RH,LDT -999.250 CALI. bDT -999. 250 GR, LDT -999,250 MRES.LDT -999.250 wTE:~, LPT.' -999.250 T~P~. C?~]L -99g.250 T{.~RA. CNi~ -999.250 RCFT. C{':L -999.250 C~:TC,Cbb -999.250 TF~'~$. C~'.~ L -999.250 ~'~RE$. C~. L -g99.250 SGR. ~GT -999,25L. C(;R. ~'vOT -999. 250 I]R A~:. ~GT -999.250 ~ 1 t,~ G, ~,~(;T -999.250 W4~G.NGT -999.250 ~5~.3G. ~GT -999.250 ~4P ~S. ~nT 999,250 CS. ~.~G. -999. 250 TENS,bDT NPHI,CN5 NPOR'CNL CFTC,CNL ~TEm,CNL THOR,NGT W2NG,NGT TENS.NGT HTEN,NGT IDPH,DTE ILD,D~E IDQF,D~E IIRM'DTE G'R.DTE HTEN,DTE TT2,LSS ~GR.L.$$ H~'EN,LSS PEF,LDT LU,LDT $$2,5DT LSRH'LDT TEN$,LDT NPHI'C~b NP~R.CNL CFTC.CNL ~TEM,CNL THOR.NGT W2NG.NGT TEN$.NGT HTEN.~GT IDPH.DTE ILD,DTE IDQF.OTE IIRM,DTE GR.OT~ HTEN,OTE TT2.LSS GR.L$$ HTEN,L$S PEF,LDT LO.LOT SS2,LDT LSRH.LDT TENS,LOT NPHI.CNL NPOR,CNb CFTC.C~L MTE~i.C~L THOR.~IGT W2NG.~qGT TEN$.MGT HTEM.~GT ,999.~50 999 50 ,999 0 999:~ 5 50 -999,250 -999,250 -999,250 -999'250 5,969 5,914 o.ooo 172,250 67'000 185,8~5 -999..250 :99 ,-25o 99!~,250 '999"250 -999'250 -999 25O -999 250 -999 250 -999 ,250 :999. so 999.250 -999.250 -999,250 -999,250 -999,250 -999,250 16,844 15,867 0,000 57,594 37.250 152 125 -999i250 -999 250 -999 250 -999,250 -999 ~50 -999~250 -999 250 -999~250 -999,250 -999.250 -999.~50 -999,250 -999 250 -999~250 -999.250 -999.250 MTEM.LDT RTNR.,CNL RCNT.CNL GR,CNb MTEN~CNL POTA,NGT W3NG,NGT MTEM,NGT CIMB.DTE ClLM.DTE IMQF'DTE IIXM'DTE TENS.DTE TT3..LS$ DPHI'.LDT Lb DT LSHV DT LURH,LDT ~TEM.LDT RTNR.CNL RCNT,CNL GR.CNL HTEN.CNL POTA.NGT W3NG,NGT ~TE~,NGT CIMP.DTE ClLM.DTE IMQF DTE IIXM:DTE TENS.DTE DT.LS$ TTRiLSS TENS.LSS DPHI,LDT QLS.LDT LL,LDT LSHV.LOT LURH.LOT ~TEM,LDT RTNR.CNL RCNT.CNL GR.CNL HTEN,CNL POTA.NGT W3NG,NGT ~TE~,NGT '9991'250 '999'2~50 "999~ 0 -999'250 .-999-250 -999;250 179:500 183 .000 0 00o 7906 4! ~,:000 -9 250 -999 250 '99'9 -999 250 -999 ~50 -999 250 -999,.250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 59.531 0 000 2 416 4005 000 -999 250 -999 250 -999 ~50 -999 250 -999 250 -999 250 -999 250 -999.250 -999.250 -999.250 -999.250 -999'250 -999,250 -999.250 -999.250 -999.250 iS TaPe Verification Llstt. ng 12-jb5-1991 09:38 PAGE: :hlumberg'er AlasKa Computing Center ¸34 [~E, PT, 6400,00i't CiDP,DTE 64,500 Ipp~,OTf I~PF!:~TE 16.297 C~LD,DTE 66,500 ILb,DTE IIR~,DTE 60,644 !IXD,DT~; 4,906 IIRM,DTE SFLU.DTE I4,570 SP,DTE -115,938 TE~!' D~E ETEN{, DTE 144.950 ~.~RES. OTE 1.666 H .. DTL,LSS -999.250 TT!.LSS -999.250 TT2,LSS TT~. LSS -999. 250 SP. LSS -999. 250 GR, LSS MTE~I, LSS -999,250 h~RES, Li7. S -999.250 HTE~,LSS RNOB,LDT -999,250 ORHO,LDT -999.250 PEF,LDT QSS.LD~ -999 ~50 LS.I..[)~ -9~9.2~0 [..U.LDT LITH.LDT -999' 250 SS1.LDT -999,250 SS2,LDT SSHV.LDT -999,250 S1RH:~DT -999.250 LSRH'LDT CA I.., I ,LDT -999'250 GR DT -999,250 TENS. LDT M. RES,LDT -999.250 HTEN,LDT -999,250 NPHIoCNL TNPH.CML -999 25{) T~qRA,CNL -999.250 NPOR,CNL RCFT'C~L -99 .25~ "~ ' CNTC,CNL '999 250 CFTC,CNL TEhS,CgL -9 250 ~RES. C~'~b ~999.250 MTEM,'CNL SGR'NGT 999,250 CGR.NGT -999.250 THOR,NG T U~AN'NGT [999.250 ~{1NG' NGT '999.250 W2NG.NGT NGT -999.250 TE~S.NGT W4~G.NGT -999.250 ~5NG.N ,N '.,T ~I~ES. NGT -999,250 CS. GT -999.250 HTEN G DEPT. 6300.000 CIDP.DTE I~P~.DTE 4,109 CIbD.OTE IL~,DTE 4,070 IFRE,DTE IIRD.DTE 197.875 iIXO.DTE 8FLU.DTE 3.775 SP,DTE MTE~.DTE 144.669 gRE~.DTE DTL,LS$ -999.250 TT1.LS8 TT4.LSS -999.25{) SP.LSS ~TE~.LSS -999.250 ~RES.LSS RNgB.LDT -999.256 DRMO.LOT QS$,LDT '999,~50 L$.LDT LITM.LgT -999,250 SS1,LF'T SSHV.LDT -999.250 S1RH.L[>T CALI.LDT -999.250 ~RES,LDT -999,250 flTEN.LDT TNP~.C~!L -999.250 RCFT.C~L -999.25(> CNTC.C~L TEN$.CNL '999.250 MRES.C~b SGP.~GT -999.25o CGR.~GT URAN.NGT -999.250 W4~G.NGT -999.250 w5~G.aGT MRES.NGT -999.250 2 250 20 000 20 281 -104 375 1 675 999 250 -999.250 -999.250 -999.250 -999 250 -9~9:250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 IDPH,DTE ILD,DTE IDOF,DTE I I R ~I, D T E GR ' DTE HTEN, DTE TT2'LSS GR'LSS HTEN,LS$ PEF.LDT LU,LDT S$2,LDT LSRH,bDT TENS.bDT NPHi.CNL NPOR,CNL CFTC,CNL ~TEM.CNL THOR.~GT W2NG,NGT TENS,NGT HTE~!.NGT DEPT. e200.OCO CIDP,DTE 117.938 IDPH,DTE I~PH.DTE 8.156 CILD.DTE 120.938 ILO,DTE IL~. DTE 8.1~8 [F~E. D'I'E 20.000 !DOF.DTE IIRP.DTE lO~.438 !I~O.DTF 7.762 IIR~'~.DTE SwLU. DTE 6.418 SP.i)T~: -114. 500 GR. DTE MTE~.DT~ 14.4,219 qRES.D'i a t.678 DTL.LSS -999.250 TTI.LS5 -999.250 TT2,LS8 TT4 .LSS -909.25o SP.LSS -999.256 G~{, LSS 15,500 5,~23 10~ O0 60 500 45 344 135 375 -999 250 -999 250 -999 250 -999250 -999 250 -999 250 -999.250 -999 250 ~999~250 -999 250 .999 250 -999 ~50 -999 250 -999 250 -999 250 -999 ~50 4.'379 4.340 0.000 230.250 63,094 .175,875 ~999.250 999.250 -999.250 -999.250 -999.250 -999.250 -999,250 -999.250 -999.250 o .999.250 999'250 -999 250 -999[250 -999,250 8.477 ~.266 0.000 115,438 62.594 146.750 99:250 IM~.DTE ILM.DTE I~OF'DTE IIXM,DTE TENS.DTE DT.bSS TT3.LSS TENS'LS$ DPHI'LDT OL$,LDT LL.LDT bSHV,LDT LURH,LDT ~TEM'LDT RTNR'CNL RCNT'CNb HTEN~CNL POTA,NGT W3~G'NGT MTE~'NGT ClMP.DTE CILM,DTE IM~F.DTE IIXM.DTE TENS~DTE DT.LSS TT3.L$$ DPHI'LDT ~L$~LDT LL.LDT LSH¥,LDT LURH.LOT MTE~.LDT RTNR CNL RCNT!CNb GR CNL MTEN.CNL POTA.NGT ~3NG,NGT ~TEM'NGT CIMP.DTE CILM.DTE IMQF.DTE IIXM.DTE TENS'DTE DT,LSS TT3.LS$ TEMS,L$S 750 60 000 39,30 -999 ~50 ~999 250 -999 250 -999 250 '999~,250 -999 250 -999 250 '999 ~50 '999250 -999~250 -999,250 :999:~'50 :999'250 :999'250 999'250 243~50 245. O0 3850000 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999'250 :999.250 999'250 -999.250 -999'250 -999,250 -999.250 122.563 122,125 0o000 4 254 3795i000 -999 250 -999, 50 [$ Tare Verification Listing ,~hlumberqer Alaska Computinq CeNter MTE~4. LSS -999.250 ~'tRES, L. SS RHQ8, LOT -999 250 DRHO. LbT OSS,LDT '999 250 LS,LDT DITM,LDT -999 250 SSI.LOT SSNV.LDT -999,250 CALl, bDT -999,250 GR, gDT ~REg LOT -999,250 HfE~.LDT TNPP~CNL -999,250 RCFT.CtqL -999,250 CNTC,C~L TENS.CML -999.250 SG~, NGT -999,250 CGR, NGT URA~,NGT -999,250 WlN~,NGT W4N~,NGT -999 250 wSN , MRES NGT -99q 250 CS DE:PT, I~PH. DTE I b~, {PT E SFLU, DTE MTE,~. DTE DTL.LSS TT4, LSS MTE ~, LSS RHO~,bDT OSS.LDT bITH,bDT SMHV. bDT C~LI ,LDT ~RES. bDT TNPM. CN b RCFT.C~L T E ~,SS, CNL SG~. W4NG.5~GT 6100,000 13.992 ~3 781 54 813 1.2 859 143 712 -999,250 -999,250 -999,250 -999.250 -999,~50 999250 999;25© 9~9,250 -999,250 -999.250 -999.250 -999,250 -999,259 -999.250 -999.250 -999.250 DEPT. IuPW.DTE IL~.DTE IIRD,OTE SFLU.DTE MTE~.DTE DTL.LSS TT~.LSS MTE~.LSS RWnB.I,.,DT OSS.LDT LITe.LOT SS~V.LOT ~RES,LCT TNP~ C~L 7.0©4 6,9!4 11i.81~ 6.488 143,150 -999.25C -999,250 -999,250 -999,250 -999,250 -999'250 -999.250 -999.250 -999,250 -~99,250 -999,250 12-JUL-I991 09:38 -999,250 HTE~.bSS '999,250 PEF*LDT -999,250 LO,BDT -999'250 $S2,LDT -999'250 LSRH.LDT -'999.250 TENS,LOT -999,250 NPHI,CNL 999,250 NPOR,~.qL -999. 250 CF~.~,CNLT ~ -999,250 MTEM,,CNL '999.250 THOR*NGT -999,250 W2MG'NGT -999.250 TENS'MGT -999,~50 HTEN.NGT 6 ~1.9 2~,000 -145.000 1,689 -999,250-999.250 999$2~0 -999,2~0 -999 250 '999 0 '999 250 '999'250 '999.250 :999,250 999.250 '999.250 '999.250 '999.2b0 127.000 127,6~8 20,000 7,578 -i10,B75 1.695 -999.250 -999,250 -999,250 -999,250 -999.250 -999.250 -999.2b() -999,250 -999,250 -999.250 -999.250 IDPH,DTE ILD,DTE IDOP* ~ TE G? ' DTE HTE~I. OTE TT~.LSS GM ,~SS MTEN,LSS P E F. ~ D T bU. LDT SS2,LOT LSRM. bDT TE~S. LOT MPMI. CHL MPO~. CNb CFTC. C~.{ L ~TE~. 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LSS PEF, LOT Lb, bDT SS2,DDT b S R H, L T~/~S, bDT NPHI.C~'~L NPO~, CNL CFTC. -999.250 -999 250 -999 250 -999 250 -999 250 -999 ~50 -999 50 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999,250 .109 0..:000 6B2750 49.094 238,8'75 -999 0 -999 250 -999 250 -999250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 999.~50 -999,250 7.871 7.828 0,000 136 375 82~938 195,250 -999 ~50 -999.250 -999.~50 -999.250 -999.250 -999,250 -999.250 -999,250 -999.250 -999.250 DPHI.LDT QLS,LDT Lb LOT 4SHV:LDT LURH,LDT MTE~,LDT RTNR,CNb RCNT,CNL GR.CNL MTEN,CNL POTA,NGT W3NG.NGT MTEM.NGT CIMP,OTE CILM.DTE TENS,DTE DT.LS$ TT~ LSS TEN~LS$ DPMILDT QL :bDT LL,LDT L$~V,LDT LURH,LOT MTEM,LDT RTMR,CNL RCNT,CNL GR,CNL HTEN,CNL P~Th NGT W3NG~NGT MTEMoNGT CIMP.DTE CILM'DTE IMOF.DTE IIXM.DTE TENS.DTE DT.L$S TT] LSS TENS:L$S DPHI LOT OLS~LDT Lb,LOT LSHV.LDT LU~H,LDT MTEM.LDT RTNR,CNL RCNT.CNL GR.CNL PAGEI 35 ~999.250 ~999~250 ,999'250 999~0 .2999'250 .999'250 ~999,250 ~999,~$0 ,999~,250 999.~250 ~999'250 999;250 05 999~250 -99~250 -99 250 -999 250 -999 250 -999 250 -999 250 -999 2:50 -999 250 -999250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 142.625 144 500 0:000 6 438 3775 000 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 Tame Verification ListlnO :blUmberger AlasKa Computinq Cerlter TENS.CN[. -999.250 SG~ NGT -999 25u CGR,~, UR~'~GT -99q 250 W1NG,,,:G.."T W4NG, NGT - 999.250~ w~:~NG .... , ~:>,i G 'T.. ~RES ~ aGT -999. 7250 C5. DEPT. 5900.000 CIDP. [~9;E I~PH DTE 5.844 CILD,DTE IIRD.DTE 154.625 IIXD,DmE SFLU, DTE 6,449 8P. DTE ~TB'.:N~, DTE i 42.306 MaES,DYE DTL, LSS -999.250 TT1 ,LSS TT4. LSS -999,250 SP. LSS iiTE~,L~S -999,250 MRES.LSS RHOB.LDT -999.250 DRHO,LDT OSS. bDT -999,250 LS. LDT LITH, LDT -999. 256 551..LDT SSHV.LDT -9~9.250 S1E}4.I~DT CALI. LDT -999,250 GR. LDT MRES. [.DT -999.250 HTEN.LDT TNPH.CNL -999.250 TNRA.C?L N C RCFT C~.L 999 250 NTC.CNL TENS:CNL :999:250 MRES,C~L sg~, NGT -999,250 CGR. NGT U~AN.NGT -999.25u W!.NG.N(;T W4NG,NGT -999,25Q WSN(,~, NGT MR'[~S, NGT -g99,250 CS. NGT DEFT, 5800,000 CIDP. DTB] D'I'E 5,465 CILD DTE IL~.OT~ 5.465 IFRE.DTE IIRr'.DTE i46.1~5 II~D.DTE SFL!:. DTE 4,676 SP, OTE MTf~. DTE 141.688 5~RES. DTE OTL' LSS -999,250 TTI. LSS TT4. LSS -999,250 SP, LSS uTg~e. I, SS -999.250 ~RES.I,SS RMOB,LDT 909.z5.~ OSS,bDT - _9q9,250 LS,!~[.~T LI'!'H, b[:T '999,250 SS1, LDT SS~*~,LDT -999,250 S~RM,LDT CALl. LDT -999. 250 GR. LDT ~ES.LDT -999,250 gTE;i,, LDT TNPH.CNL -999.25v TNRA.CNL RCFT.CNL -999,250 CqTC.CNL T~NS.CNL -999.250 ~,~RE8, Cf:L SG~ NGT -999 250 c~R NGI' UR~'NGT. -999 .25¢'''',, WlNG:NGT. W4NG.NGT -999.25v NRF:S.NGT -qgq,2~c C° T ............... ~. i',~ ~ 12-JUL-1991 09:38 -999. 250 Mq"E~;t. CNL -099. 250 THO~, NGT -999,250 W2~!G, NGT -999.250 TENS.,~' G"'.P -999.250 H,TEN, NGT 174.375 176.375 20,000 14.336 -63.4~9 1,~07 -999, 50 -999,~50 -999.250 -999.~50 -999.250 -999,2~0 -9991250 :999,250 999.250 .999:250 99,250 -999,250 -999,250 :999,250 999,250 165,375 168.125 20.000 10,555 -60,375 1,730 -999.250 -999,250 -999,250 -999,250 -999.2b0 -999,250 -999,250 -999.250 -999.250 :990 250 999:250 -999.2b0 -999 250 Z999i250 999 250 -999.250 IDPM,DTE IDQF,DTE IIRM,OTE G~.DTE HTEN.DTE ~'..2,L85 GR.LSS HTEN LSS PEF bDT LU LDT SS2 LSRH f DT TENS LDT NPHI,CNL NPOR,C~b CFTC,CNL MTE;~, CNL THOR, W2NG,NGT TENS.~GT HTEN,~GT IDPH,DTE ILD,DTE IDQF,DTE GR,DTE MTEN,DTE TT2,LSS GR,LS$ HTEN,LSS PEF,LDT LU,LDT S$2,LDT LSRH,LDT TENS.!,DT NPHI.CNL NPOR,CNL CFTC,CNb ~TE~,CNL THOR.NGT W2NG.NG'r TEN$.~GY HTE~.,~GT -999,250 -999 50 '999::~50 .-999,250 999,250 5,7]0 5,668 o,ooo 164.000 70.188 155 500 -999 250 -999 ~50 -999 250 -999 250 -999 ~50 -999,250 :999~250 999,250 -999'250 -999.250 -999,250 -999 ~50 -999~ 50 -999 250 -999i250 -999 250 043 945 0.000 172.125 90.000 164 625 -999i250 -999250 -999,250 -999.250 -999,250 -999,250 -999,250 -999,250 -999 250 , -999.250 -999.250 -999.250 -999 250 -999i250 -999 250 -999 250 HTEN.CN~ POTA,NGT WSNG,NGT STEM. NGT CI~P:,DTE ClLM.DTE IMOF,DTE IlXM.DTE TENS'DTE DT'LSS TT3;LSS TENS,LS$ DPHI,LDT OLS,,L,DT LL,LDT LSHV,LDT LU~Hi5DT ~TEM~LOT RTNR.CNL RENT CNL GR:CNL HTEN,CNL POTA,NGT WSNG.NGT MTEM,NGT ClMP,DTE CILM,DTE XMOF,DTE IIXM,DTE TENS DTE TT .LSfi TENS'LS$ DPHI,LDT OLS.LDT LL,LDT bSHV,LDT LURH,LOT STEM,bDT RTNR.CNb RCNT.CNL G~.CNL HTEN.CNL POTA'NGT WSNG,NGT MTEM.NGT PAGE:' 36 '-999, :250 -999' 250 ,,999,250 -999; 250 171 000 125 17~ 000 12 961 3.640 000 -999 250 -999 250 -999 250 -999 250 '999250 '999 '250 -999,;2,50 '999i150 '9 -999 250 '999 ~50 '999 '999 250 '999 250 -999 250 182875 182875 0 000 6 547 3665 000 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999.250 -999,250 -999.250 -999,250 -999.250 :999'250 .999,250 999.250 IS Tape verificatioD Listing ,-blumberger AlasKa Cor, puti~q Center DEPT. 5700,000 CIDP,DTE IfbPM'DTE 4,531 IL~,DTE 4.68(.) IFRE,DTE IIRD.DTE 168.625 I!XD,DTE SFLU, DTE 3,64 i SP, DTE MTE~ DTE !40'956 ~RES* DTE DTL' LSS -999" 250 2 TT4,LSS '999, 50 ~TE~, LSS -999,250 RMOB,LDT -999,250~ DRHO,LD ~88, LDT -999,250 bS, LDT LITe, LDT -9Q9. 250 SSi . bDT E.'I -999,250 SIR}i LDT SSHV, .b ':,~ , CALI~ bDT -999. 250 GR. LDT MRES~LDT -999'250 HTEN,bDT TNPH,CNL -999~250 TN:RA,CNL RCFT;cNL -999'250 C~TC,CND TEt~S,CNL -999,,250 ~RES'CNL SG~'NGT -999,25(1 CGR;NGT URA~,~' NGT -999,250 WlNG'NGT '~'4NG, NGT -999,250 WSNG,NGT M~ES, NGT -999,250 C5' NGT DEPT 5600,000 CIDP.DTE I~P~:D,TE 7,184 CIL[)'DTL IL~,OTE 6.98~ IFRE,DTE IIRD' D T'E 109,000 IIX13, DTE SFLU DTE 7,922 MTE~'DTE. 139,831 MRES.D.,E DTL, I, SS -999,250 TT TTb, LSS '999,250 SP. LSS ETE~ LSS '999,250 ~RES. 555 R~O~LDT -999,250 ORf~O' bLT OGS. I,,DT -999. 250 [,S, bDT LITH.LBT ' -999.250 SSi.bDT 8SHV.LDT -999 250 SI. RH, bDT C~[.,I, bDT -999 ~ 2'50 MRES,LOT '9~9,~50 HTEN.bD'I~ TNP~,CNL -999.250 RCFT,CaL -999,~50 Ct:TC,CbL T~NS.CNL -9990250 SG~. NGT -999. 250 CGR URA'~. NGT -999.25(, WlNG.f~GT WbNG.NGT -999,250 w5~i',.~GT ~RES. NGT -999.250 C5, NGT DF. pT. 5500,000 CIDP.DTk~ IMP~..DTF. 17.109 CIbD.DT£ Ib~' .OTE 16,000 iFRE.DTE IIRD.DTE 63,656 !IXD'DTE SFI, U. OTE 17.641 SP MTE~.DT~* i39,606 . z 5 ~., TT4, LSS -999,250 SP. 1,85 ETEt~,LSS -999.25u ~',~RES. bSS 12-JUL-I 991 09:38 !93.000 IDPH.DTE 1,~6.625 ILD.DTE 20.000 IDQ~',DTE 16,5i6 IIRa. DTE -69.250 Ga. DTE 1.740 HTEN.OTE -999,250 TT2,LSS -999,~50 GR,LSS -999. 5(3 gTEY,LSS -999.250 PEF,LDT -999,250 LU,L[)T -999.250 $S2,LDT '999,~50 LSRH,LDT '999, 50 TENS.LDT -999.250 NPHI,CNh '999.250 NPOR.CNL '999,250 CFTC,CNL '999 250 MTEM,CNL -999~50 THOR.NGT -999 250 W2NG..Nf"~T -999~250 TENS,NGT -999.250 H'~' F~ ,,~ NGT 1~ 375 IDP~i, DYE 1 :563 ILD,DTE 20,000 IDQF.DTE 6.434 IIR~I.OTE -07.188 GR.DTE 1.750 HTEN.OTE '999.250 TT2.4SS -g99.250 GR, DSS -999. 250 HTE~. bSS -999.250 PEF.bDT -999,250 LU, bDT -- ) ' 999,250 SS2.4I I '~99,250 LSRM.LDT '999,250 TENS./~DT -999.250 NPHI.CNL '999.250 NPOR.Ci~L '999.250 CFTC.C~L '999.250 MTE~I.CNL '999,250 THOR.NGT '999.250 W2NG,~GT '999.250 TENSo~GT -999. 250 HTF i~:. f, iGT 5,176 5,082 0.000 200 625 76 313 149 ~25 -999 ~50 -999 250 -999 250 -999 250 -999.~50 -999 ~50 -999 250 -999 ~50 -999 250 -999 250 -999 250 :999 250 999 250 -999 250 -999 250 -999,250 0 000 135!00O 74 750 152,250 -999 -999 '. 50 '999,250 '999.250 -999 ..250 '..999i250 999 250 999 250 -999 250 -999i250 -999 250 -999 250 -999.250 -999.250 -999.250 -999,250 67.563 IDFM.OTE 14.781 69.~13 ILD,DTE 14.320 20.090 IDOF,DTE 0 000 5.6~t) !IR~.,)T£ 59:281 -104.5o0 GR.DTE 44.531 1. 750 HTE~{,i)TE, 142,000 -999.250 TT2.LS$ -99q.250 -999.250 GR,L$~ -999,250 -999.250 HTEa.L$S -99~.250 CI'MP DTE CIS~iDTE I~QFDTE IIXM DTE TENS DTE DT LSS TT3 LSS TENS LSS DPHI,LDT QLS.LDT Lb,bDT LS.~:LDT bUR bDT ~TEM bDT RTNR CN5 RCNT CNL GR CNL HTEN.,CN5 POTA.NGT W3NG,NGT ~TE~.NGT CIMP,DTE CILM.DTE IMQF.DTE IIXM.DTE TENS.DTE DT.LSS TT3,LSS TEN$.LSS DPHI LDT OSSiLOT Lh hOT LSHV:LDT LURH.LDT ~TEM.LDT RTNR.CNL RCNT.CNL GR.CNL HTEN,CaL POTA.NGT w3NG,NGT MTE~NGT CIMP DTE CILM:DTE I~QF.DTE IIX~.DTE TENS.DTE DT,LSS TT3.LSS TENS.LES DP~I,LDT PAGEI 37 22~,625 21 '500 0-'000 9 62'5 3560 000 '999 250 '999 250 -999 2.50 -999 250 -999 250 '999 -999 250 '999 250 -999. 0 -999 ,, - -999 -999: -999 250 0 000 -99~ 250 -999 250 -999 250 -999 250 -999:250 -999 250 -999 250 :9 9 2so 999 25O -999 25O -999 25O -999 25O -999 250 -999 250 -999 250 -999250 58,406 62 438 0!000 2 717 3480,000 '999,250 -999,250 -999,250 '999'250 'S Tape Verification !..istlnq :hlumberger AlasKa Con-puting Center 12-JUL-1991 09:38 RHOB.LDT -999,250 DRHO..L[>T -999,250 PEF,LDT -999,250 OhS.bDT O$S,LDT -999.2~.0 LS'LDT -999,250 LU,LDT -999,~250 Lb,LOT .' . ~ '~"' -999 250 SS2,LPT 999,250 LSHV~LOT LIT~ bDT -999,250 SSF~V.LDT -999.250 SigH.bDT '999,250 LSRH*LDT -999~250 LURH.LDT CALI,LDT 502 ~R,LDY -~99,250 TENS~LDT .999,250 MTEM,LDT '999'~50 HTE~g LD'.[ -999,250 NpHI,CNL 999~250 RTNR,CNL MRES, LOT -999, , - TNPH, CNL -999,250 T~'~RA,CNL -999,250 NPOR,CNL -999 .250 RCNT'CNL R~,CNL -999,250 CNTC.C~:L -999 250 CFTC, CNL .999,250 GR.CNL TENS.CNL -999,250 ~{RES, C~;L -999~250 MTEM,CNL -999~250 HTEN~CNL SG~ NGT 999 250 C R NG -999,250 T~OR,NGT -99~i~50 POTA,NGT U~AN NGT -999,250 WING.NGT ~999,250 W~NG,NGT -999'250 W3NG~NGT W4NG:NGT -999.250 {~hNG,NGT 999,250 TENS,NGT -999'250 MTEM,MGT ~,RES, NGT -999.250 CS,NGT -999.250 HTEN.NGT -999.250 DEPT, 5400.000 CIDP,DTE 141,875 IDPM,DTE IM~H DTE 6,B98 C, ILO.DTE 145'~25 ILD,DTE IL~:DTE 6'672 IFRE,D~~E 20,000 IDQF,DTE I DTE 12~.250 II D,DTE 12~22 II~M,DTE S 5U~DTE. 9~ ,195 $~P.D]E'~ '"~ '56~875 GR,D~E'~" MTE~',DTE 139,!5~ N~RES, DTE t,746 HTEN,DTE DTL,LSS -999.250 TT1,LS6 -999.250 TT2,LSS TT4. LSS -999,250 SP. LSS -999,250 GR, LSS MTE~ LSS -999.250 MRE~ ~ hMS -999.250 HTEM, LSS RHOB LOT -999 250 ORHO,LDT -999.250 PEF,LLr OSS, LOT -999 ' 250 b~ LOT -999. 250 LL~. bDT bITM.L[>T -9~9,250 SS1 .bDT -999,2b0 SS~,bOT SSHV.LDT -999,250 SIRH,L[~T -999 250 LSR~, bDT CAb] LOT -999.25(; GR,LDT ~999:250 TENS,bDT MRES:LDT -999,250 HTE~4,LDT 999. 250 NPMI,CNb TNPN,CNL -999,250 TN'RA,CNL -999,250 NPOR,CNb RCFT,CNb -999,250 CNTC,CNL -999.950 CFTC,CNL TENS, C~.~L -999,250 ?~RES CNL -999.250 MTE~. CNL SGR.NGT -999,250 CGR~ 5~GT -999,250 THOR.NGT ~CT 999 250 W~NG.NGT URAN,NGT -999,25{~ MING,.~ ~ ~ :250 N NGT W4NG,NGT -9~9.250 ~hNG.~ GT 999 TE S,N ~ 5~ES. NGT -999.25u CS. NGT -999,250 HTEN., Gz z ~ p~,: OT~: 3.5~; C ~ [,0. r'T ~ 25~. soo z ~ o. o~'~ Ib~.DTF 3.56G IF~E,DT~ 20.000 IDOF,DTE !IRD.DT~ 216,375 IIXD.DTE 19.9~9 IIRM,OTC 8FLU. DTE 3.328 SP. DTE -q7.8~4 GR. DTE ~TE~.DTE 138.706 ~RFS.D~'E 1.7~9 HTEM.DTE D'. 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C~'~L TENS,CNL -999,250 -uRES,C~' L -999.250 ~TE~.C ~L 7,043 6,883 0 000 141,375 79 500 124313 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 50 -999 250 -999.250 -999.250 -999,~50 -999, 50 2999.250 999.250 -999.250 3.883 3.852 0 000 262:000 81.063 126.063 -999 250 -999:250 -999.250 -999.250 -999 250 -999:250 -999.250 -999.250 -999 25O -999~250 -999,250 -999,250 CIMP.DTE CIBM,DTE IMOF.DTE !IXM,DTE TENS,DTE DT LSS TT3~LSS TENS,LSS DPHI LOT OhS:LOT LL,LDT LSUV'I,,D~ LURH*i, DT MTE~'LDT RTNR'CNb RCNT,CNL GR,CNL HTEN CNL POT~:NGT W3NG,NGT MTE~,NGT CIMP.DTE CIL~.DTE I~QF,DTE IIXM.DTE TENS,DTE DT,LS$ TT3,LSS TENS,LSS DPHI.hDT OhS,LOT LL.LDT LSHV LOT bURH:LDT MTEM.LDT RTNR.C~L RCNT.CNL GR.CNL HTEN.CNL PAGE: ~38 "999250 · '999 2.50 '999:2'50 '999 250 '999250 ''999~250 -999250 999 250 -999 250 -999 250 -999 250 144,875 149,,750 o;ooo 33 0;00' -999, 0 9991250 999 250 999 250 -999.250 '999 250 -999 250 -999 250 -999250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 284 500 280 000 0 000 11633 3275.~00 -999 50 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999,250 -999,250 -999'250 -999,250 -999'250 [$ Tape verlflcat~on [istina :blumberqer AlasKa Computing Center 'P NGT -999.250 CGR i~;G'. 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T E -999 250 -999~250 -999,250 -999,250 7 0 000 102 250 44 000 137 875 -999'250 -999..250 -999.250 -999~'250 -999,:,250 :999,250 99~+250 -999~50 -999 250 -999 250 -999 250 -999 ~50 -999 250 -999 250 -~99 250 -999 250 i1 031 10 625 0 000 93 625 60 750 143 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 '999i250 -999 250 -999 250 -999 250 -999!250 -999 250 214.875 72,875 0.000 14.383 POTA.NGT W3NG.NGT MTEM'NGT CIMP'DTE CILM.DTE IMQF.DTE IIXM,DTE TENS,DTE DT.:LMS TT3'LSS TENS,L$$ DPHI.LDT OLS*LDT Lh~LDT LSHV,LDT ~URH,,LDT ~TE~LDT RTNR~CNL RCNT,CNL CR'CNL HTEN,CNL POTANGT' W3NG:NGT MTEM,NGT CIMP.DTE ClLM.DTE I~OF.DTE IIXM DTE TENS:DTE DT,LS$ TT3,LSS TEN$,L$$ DPHI,LDT Ob$,LDT Lb. LDT LSHV,LDT LURH.LDT MTEM.LDT RTNR'CNL RCNT,CNL GR.CNL HTEN,CNL POTA.NGT W3NG.NGT MTEM.NGT CIMP,DTE CILM DTE IMGF[DTE IIXM.DTE PAGEt 39 '999'250 '999; ~50 '999&~50 96~:13 I:08 O0 0 000 4527 3300 000 -999 250 -999250 -999 250 :-999 ~50 -999 ~50 '999 ~:$O -999250 .999 50 "999 250 ~999 ~50 "999 .250 "999 -999:250 '999 0 85 063 98875 0 000 322~i398 0 -999 250 -999 25O -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 25O -999 250 -999 250 -999 250 -999 250 -999 250 -999,250 9,297 15,102 0,~00 2. 32 .S Tape Verification L ~hlumberger Alaska Corn 6FLU, DTE MTE~ DTE OTb DSS TT4 DSS ~TEY DSS OSS LOT LITH LDT $SHV.LD? CAL~ .LDT ~RES, LDT RCFT,CNL TENS,CML SG~.NGT URAN'NGT WbNG, NGT MRE.$ ,NGT i93,125 ]37:,J88 -999,~50 -999.250 -999,25O -999.250 -999.250 -999.250 -999,250 -999.250 -999.250 -999'250 -999.250 -999.250 -999.~50 -999'~50 -999,250 -999.250 D~:PT. 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LDT DS. bDT SSi'LD~:~ S1RH.LD GR,LDT HTEN,LDT TNRA,CNL CmTC,CNh CGR.NGT W!NG,NGT WhNG,N~T 12-JUP-199! 09:38 -81,0~3 ! 760 -999 250 -999 250 -999 250 -999.250 -999,250 -999,250 -999 250 -999 250 -999 5O -999,250 -999.250 -999,250 -999'~50 -999.250 -9:99,250 145.~25 147. 25 20. 000 I0.133 -~0,656 1.753 ~999,250 999.250 99.250 99.250 -99 250 -99 250 -999.25(:) -999,250 -999,250 -999,250 -999.250 -999,250 164,125 166,500 20.0O0 !2 445 -42~6e8 1,774 -999.~50 -999.250 -999 250 -o99~250 -999,250 -g99,250 -999,2b0 GR,DTM HTEN,DTE TT2,LSS GR*:LSS HTEN,LSS PEF,LDT LU~LDT S$2.LDT LSRH.LDT TENS,DDT NPHI,CNb NPOR,CNL CFTC*CNL THOR,NGT W2NG,NGT TENS,NGT HTEN,.N~T IDPH,DTE ILD,DTE IDOF,DTE IIRM.DTE GR'DTE HTEN,DTE TT2,L$$ GR DSS HTEN LSS PEF hOT LO,bDT SS2,LDT LSRH,LDT TENS,bDT NPHI,CNL NPOR,CNL CFTC.CNL MTEM.CNL TMOR.NGT WpNG,NGT TENS,hGT HTEN.NGT IDPH, DTE ILO.OTC IDOF,DTE IR~. 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LDT · bDT -999.25(i;! HTEN. LOT CNL -999 250 TNRA,CNb CNL '999'250, CNTC,Ct~[,.. C~L -999. 250 ~ R ~S NGT -999,250 CGR, NGT NGT -99'9,250 1N NGT -999,250 W5NG, NGT NGT '999 · 250 CS. ~ G T DEPT, 4700,000 CIDP,PTE I~PH,DTE ' !.5,742 ClLDiDTE Ib~'{, DTE ;!,2,648 IFRE,DTE 58,625 IIXD,DTE I IRD · DTE D~ L' [.~SS -999,250 T 1 · LBS TT4:, b~8 -99 50 SP,.,g~.5 MTE~, LSS -999.250 MRES,LSf~ RHOB bDT -999"250 ~RHO.LDT QSS,LDT -999,250 LS LEI LITM.LDT -999 2~' SSi,LOT SSHV, t, OT -999:2~ S1RH'L5T CALl. I.,DT -999. 250 GR,LDT MRES,LDT -999,250 HTL;~,LDT TMP~'CNL -999,250 TNRA,CNL RCFT:CNL -999,250 CN'TC,CN~L TENS,CNL -999,250 ~RES.,CNL SG~ NGT -999,250 CGR,NGT URAN~NGT -999.250 w1. NG.NGT W 4 ~40 NGT -999,250 %~5NG. NGT ~R~:S, ~IGT -999. 250 CS. NGT 12-JUL-1991 09:]8 -999,250 TENS,LOT -999,250 NPHI,CNb -999.250 NPOR,CNb -999.250 CF..C,CNL -999,250 ~TE~,CNL -999.~50 THOR,NGT -999 250 W2NG NC T .., ;~ ~ -999~250 TENS,~G -999.250 HTEN,NGT 55,688 60,844 20,000 4'21! -38,344 1758 -999 250 9'9 -999:5O -999 50 -999 250 -999 2~0 -999 250 -999 250 -999 250 -999:250 -999 250 -999 250 -999 250 -999 -999 250 ILO, DTE IDQF .DTE GRDTE HTEN DTE TT2, LS$ Ga.' S HTEN. LS'$ PEF LOT LU bDT SS2,LDT LSRH,LOT TENS, bDT NPHI'CNL MPOR,CNL CFTC,CNL ~'~ C~L M TE.~, THOR,NGT W2NG,~GT TE~S,NGT HTEN, NGT DEPT 4600,00~ CIDP.DTE 156.000 IDPH,DTE IMPH~F, TE 5.664 CILD.DTE 158 750 ILf),DTE IL~.gTE 5.6!3 IFRE,DTE 20:000 IDQF,DTE IIRD.DTE 138'875 IIXD.DTE i1' 195 IIRs,OTE SFLU DTE 5.059 SP.DTE 25,750 GR,DTE ~TE~DTE 134,375 ~RE$,DTE I 784 HTE~ OTE DTL,LSS -999 25(3 TT1,LSS -999~250 TT2' , ,LSS TT4.LSS -999.250 SP.LSS -999.250 GR,LSS MTE~,LSS -999,250 ~RES,LSS -999,250 HTEN,L$$ RHOF,I~D'I -999,250 DRHO,LDT -999,250 PEF,LDT OS$.LOT -999.250 LS.LDT -999.250 LU,LDT LITH.LDT -990.250 SS1,LPT 2999,250 SS2'I,DT SSHV,LDT -999,250 S1RH,LDT 999,250 LSRH,LDT CAL!.LDT -999.250 GR,LDT -999,250 TENS,LOT MRES.LDT -999,250 HTEN.LDT -999.250 NPHI.CNL TNPM.CNL -999.250 CtJL :~99,2b0 NPOR,CNL TNR(~'C~L 99,250 CFTC,CNL RCFT.CkL -999.25u CNT., TFNS.CNb -999.250 MRES.C~L -999.250 MTE~,C~L SGR, NGT -g99,250 CGR, NGT -999,250 THOR,mG~ URA~.~GT -999,250 WlNG.DiGT -999.250 ~2NG.~GT W4NG,NGT -999.25G W5~G.~iGT -999.250 TENS,HGT ~RES.~GT -999,250 CS..t.;(;T -999,250 HTE~,~:GT -999 5O' -999,250 999,25 -999,250 -999'250 :999,250 999,~50 MTEM.bDT RTNR,CNL RCNT,CNL GR.CNR HTEN.CN5 POTA'NGT 'W3NG,NGT MTEM,NGT 17,918 CIMP.:DTE 16,422 ClL~.DTE 0,000 IMQF.DTE 74'938 IIXM,DTE 39,375 TENS~DTE 174.00.0 DT~LMS -999'250 TT3 b$5 :999'250 .999,250 OL$ bDT 999~250 bb bDT -999,250 LSHV LOT -999,250 LURH,LDT -999,250 -999~250 -999~250 -999 250 -999 250 -999 250 -999 250 -999 ~50 -999 250 MTEM,LDT RTNR,CNb RCNT.CNL GR.CN'b HTEN.CNL POTANGT W3NG:NGT MTEM,NGT 6.402 6.293 0 000 167:625 62.344 137.875 -999.250 -999.250 -999 25O -999:250 -999 25O -999!250 -999 250 -999,250 -999,250 -999,250 99 250 99 25O -999.250 -999.250 -999.250 CI~P DTE CILM!DTE iMQF DTE IIXM,DTE TEN$,DTE DT,L$$ TT$.L$$ TENS,L$$ DPHI,LDT QLM.LDT bb.bOT LSMV.LOT LURH,LDT MTE~LDT RTNR:CNL RCNT,CNL GR,CNL HTEN,CNL POTA,NGT W]NG.NGT MTE~,NGT PAGE{ 4t ~999,250 999,250 -999~250 ~999'250 .999;250 :999,250 ~999'250 .999'250 79*000 o,00o ~0,~000 :999250 ,999,.2.50 :9:9'9:250 .999250 "999 250 "999:250 '999 ~50 "999 "999 2 "999 ~50 "999 250 "999 250 '999 250 '999 250 176 500 178 000 0 000 8 086 2975 000 "999 250 '999 250 '999 250 '999,250 ~999 250 '999 250 -999 250 -999,250 '999,250 '999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999,250 Tape Verification I. istlnq ~hlu~berger Alaska Computing Center DEPT 4500,000 CiDP.t)TE I~PH DTE 51.,000 CILD.DTE IL~ OTE 42,750 IFRE.DTE II~D DTE 16.4~4 ilXD,DTE SFLU. DTE 77.750 SP,DTE ~TE~,DTE 133.i94 ~RES.DTE ~TL,LSS -999.25o TTi LSS · . -,,, TT4. t. SS -9~9. 250 SP. LSS MTE~.LSS -999.250 RHOBiLQT -999,~50 D.RHO,LDT eSS, LD'T -999,250 LS, LIT~ i LDT -999,250 SS1. LDT SSHV,bDT -999,250 S1RH.i.D:T CA~I, LDT -999. 250 GR' LDT ~RESiLDT 999'250 HTEN. L[~ TNPM.CNL -999.250 TNRA.CNb RCFT-CNL -999,25~ CNTC.CNL URALS, NGT 999 250 ~4NG,NGT :999,250 ~v5NG.NGT }4RES. NGT 999,250 CS. NGT DEPT. 4400.000 CIDP.DTE ImPH.DTE 5'375 CILD.DTE II.~ D1~' E..~ 5,121 IFRE.DTE IIRD' SFLu,DTE 194.250 IIXD.DTE ,DTE 6,2~ i SP.DTE MTE~ DTE 132.18] MRES. DTE DTL:LSS -999 250 TTI,LSS TT4, LSS -999: 250 SP. LSS ~TEb~.LSS -999.250 ~RES. LSS RHOB,LDT -999.250 DRMO.LDT OSS LDT -999.25o LS.LDT LITM: LDT -999. 250 SS 1 . LDT SSHV.bDT -999.250 S1RH.LDT CALl , LDT -999. 250 GR. LDT MRES.LDT -999.250 HTE~, I.,DT TNPH,C~L -999,250 TN~.CNL RCFT,CNL -999,250 CNTC,C~L - C~ L TENS,CNL 999.250 ~IRES, NGT SG~. 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I,DTE b2:906 IbD,DTE 20.000 IDQF.DTE 1.414 IIR~,DTE 2.2~4 GR,OTE 1.853 HTE~,DTE -999.250 TT2.DSS -999.250 GR.L$S 97.438 60.438 0,000 22,250 33'469 83-000 -999 250 -999 250 -999 250 -999 250 -999 .250 -999 250 -999 ~50 ~999 250 ~999 -999 250 ClMP,D'TE CIbM.DTE IMQF DTE IIX~ DTE TENS DTE DT bSS TT3 LMS TENS LSS DPHI.bDT QbSLDT LLLOT LSHV bDT LURH.LDT ~TEM LDT RTNR:CNL RCNT CNL '999'250 GR..CN.L :999'250 HTE'N CNL .999,250 POTA NGT 999~.250 W3NG NGT -999'~50 STEM NGT -999.250 4 469 4 465 0 000 183 50O 38 438 78 125 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999:250 -999,250 -999.250 -999,250 -999.250 -999.250 CIMP,DTE ClLM DTE I~OF:DTE IIXM.DTE TENS,DTE DT.LSS TT3.L$$ TENS.LSS DPNI,LDT OLS,LDT LL,LDT LSHV,LDT LURH.LDT ~TEM,LDT RTNR,CNL RCNT,CNL GR.CNL HTEN.CNL POTA,NGT W3NG.NGT ~TE~.NGT 16 047 15:891 0.000 66,8!3 49,28! 78.625 -999.250 -999.250 CIMP.DTE CILM.DTE IMQF.DTE IIXM DTE TENS:DTE DT.LSS TT3.L$S TENS.LSS 9,594 3; 75 o;o00 1,290 :2885,000 '999~250 .-999~250 -999~;.250 ,-999 250 '999 iO '999 '999 250 '999 '999250 "999 .:-999 ~0 -999 0 -999 185,875 ~855000 '999 250 '999250 '999 250 '999 250 '999 250 25O '999 250 '999 250 '999,250 '999 25O '999 250 ~999 250 '999 250 '999 250 '999 250 71 188 70 438 0 000 0 251 2785 000 '999 250 '999,250 -999,250 S TaDe veriflcatiom Listlnq 12-dUL-lg91 09:38 PAGE: 43 .' o . . ~ -999.250 DPHI,LDT -999,250 ~TEM,b$S -999 25. t~RE& LSS -999 250 HTEN,LS$ , L.DT -999,250 OLS'LDT -999;~50 RHOB LDT -999.250 DR~O.LDT -999'250 PEF, D' QSS,LDT -999.250 LS LDT -999,250 t..,U,L~7 -999,250 LL.LDT -999 50 LITN,LDT -999 250 $SI'~DT -999,250 SS2,bDT -999,250 LSMV,LDT -999:1~i50 " ' '~[~T 999,250 "R}{ bDT -999,250 LURH,LDT -999;250 $$HV,LDT -999 250 S1R~ ' LS · CALl,bDT -999,250 GR.L£~ -999,250 TENS,bDT -999,250 ~TEM,;LDT -999'.~50 MRES,.LDT -99Q 250 HTEN,LDT ~999,250 NPHI,CNL -999,250 RTMR,CNL 999;250 ~,~ng NL -99~'250 TNRA CNb 999 250 NPOR,CNL -999'250 RCNT.,CNL ~999;250 RCFT NL '999 250 C?~TC' CNb '999°:50 CFTC'CNL 999,:50 G~,CNL T£NS,CNL -999 250 :~RESoC~L -999'250 ~TE:~,C~L ~999,250 MTEN'CNL 999.250 · ' , 'G'~ .999";250 $GR,NGT -999 250 CGR NGT -999.250 THOR,N,I. 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DT~ 10 727 IL~. .6~8 SFLU.DTE 9 125 MTE~,DTE 130 269 DTL,LSS -999 250 TT4.bSS -999 MiTEM,LSS -999,250 RMOB,,LDT -999,250 OS$.LDT -999,250 LITM,L.DT -999,250 SSHV.LDT -999,250 CALI.LDT -999.250 MRES.LDT -999,250 TNp~,C~L -999.250 RCFT.CN[ -999,250 TENS CML -999.250 "SG~NGT -999.250 URAN.NGT -999"25© W4NG.NGT -999.250 MRES.NGT -999,250 CIDP.DTE CILD,DTE IFRE,DTE IIXD,DTE SP,DTE ~RES,DTE TTi,LSS SPobSS MRE$,L$S DRMO,LDT L&, LOT SlRH LOT GR LOT HTEN LOT TNRA CNN CNTC CNI, ~RE$,CNL CGR NGT WING NGT W5NG NGT C$.NGT DEPT. 3900.000 I~PM.DTE 6.172 IL~.DTE 6,340 IIRD,DTE 108,~25 SFLU.DTE 5.1!.3 ~TE~.DTE 130.212 DTL,bSS -999,250 TT4,LSS -999,250 MTEM,LSS -999,250 R~OB.LDT -999.250 M~ES.LDT '999.250 RCFT,~L -999.250 TENS.CNG -999.250 SG~.NGT -999.250 URA~!,NGT -999.250 w45:G. NGT -999. 250 NRE$.NGT -~q9.250 CIDP.DTE CZnD' T : IFRE.DTE IIXD.DTE SP.DTE ~RE$.DTE TTI.bSS SP.LSS MRES LSS DRHO: ~' L~ LS.LDT SS1,LDT S1RH,L. DT GR.LDT HTEN.LDT TNR~.C~iL CNTC,C~iL ~RE$,C~L CGR,~GI ~ING.NGT ~5~G.~G? 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NGT '999,25~ W2NG N6r -999,250 TEN$,NGT '999.250 HTEN,NGT 74,1~8 80,188 20,000 0,614 52'844 1,873 -999,250 -999,250 -999,250 '999,250 i999.250 999'250 999~250 999,250 9991250 '999.250 '999,250 '999 250 '999 250 '999 250 -999 250 ~999.250 128 250 128:375 20,000 4 293 78:813 1,8~3 -999.250 -999.2b0 -999,250 -q99,250 -999.2b0 -999.250 -999.250 -999.250 -999.250 -999,250 -~99,250 -999.250 -999.250 -999.250 -999.250 -999.250 IDPH,DTE ILD,DTE IDQF,DTE IIR~,.DTE GR,DTE HTEN,.DTE TT2.LSS GR.G$S HT~N,LSS PEF,LDT LO.bDT SS, 2,LDT LSRH.LDT TEb!S,LDT NPHI,CNL NPOR.C~L CFTC'CNG ~TEM,CNL THOR,NGT W2NG,NGT TENS,NGT HTEN.NGT IDPH,.DTE ILD.,DTE IDQF,DTE IIRM,OTE GR,DTg HTEN,DTE TT2,LSS GR,I, SS HTE[~.GSS PEF,bDT DH,bLT SS2,LDT LSRH.GDT TENS,bDT NPHI,CNL NPOR,CG~L CFTC,CN[, MTEM,CNL THON,NGT W2NG,!~GT TENS.NGT HTEN.~GT -999 250 -999 250 -999 250 -999 250 -999.250 13.469 12 461 0 000 88 ~50 ~8 25 77 ~5 -999 0 -999 ~50 -999 50 -999 ~50 -999. 50 -~99~,250 - 99,250 -999.250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 :999,250 999.250 7 793 7 !i789 0 000 14S 625 70 375 113 688 -999 250 -999".250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 i999i250 999 250 999 250 -999.250 99.250 -999.250 -999.250 HTEN,CNL POTA,NGT W3NG.NGT ~TEM,NGT CI~P,DTE CILM DTE IMQF DTE I. IXM DTE TENS DTE DT LSS TT3 bSS TENS LSS DPMI bDT 9LS:LDT LL,LDT bSHV~.LDT LURH,LDT MTEM LOT RTNR CML RCNT CNG GR CNG HTEN CNG POTA NGT W3NG NGT MTEM'NGT CIMP DTE IMQF,DTE IIXM,DTE TEN$.DTE DT DSS TT3:LSS TENS,L$$ DPHI,LDT ObS,bOT GL,LOT LSHV.LDT LURH.GDT STEM.bDT RTNR,CNL GR Nb HTEN.CNL POTA.NGT W3NG.NGT MTE~.NGT PAGE{ 44 -999 250 -999 250 -999 25O -999 250 6oo 12 469 2655 000 -99~ 250 ~999 '999 250 '999 '999 250 '999 250 ~'999 250 '999 2~0 '999 250 "999 250 "999 250 '999 250 161 875 157 625 0 000 2595 -999 250 -999250 -999 250 -999 250 -999 250 -999 250 '999 250 '999 250 -999 250 -999 2~0 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 Tame Verification Listinq ~ K Computinq Center ~hlumberger ~.las a 12-jUL-199109:38 DEPT, 3800,o00 CIDP,D ~. 46,969 IDPH,DTE I~P~.DTE 22,016 C I!.~D,.DTE 52,031 ibD,DTE IL~,DTE 17,547 IFRE,DTE 20,000 IDOF,DTE , DTE IIRD DTE 50.06~ IIXD.DTE 3.949 IIR~.~. F SFLU "DTE 30.'969 SP' DTE 94' 188 GR, DT ~ MTE~,DTE 130,0442 ~RES. DT~ ~,875 HTEN,DTE DTb,LSS -999, 50 TT1,LSS -999'250 TT2.5SS TT4,i~SS -999. 250 SP, LSS -999'250 GR, LSS MTE~, LSS -999. 250 ~R~; LSS -999,250 HTE~, LSS RHOB LDT 99.'250 DR~O,LDT 999,250 PE ~5DT Q S S. 'h D T - 999.250 b $, L [> 'I' - 999,250 L U ' h D Y 5ITH"LDT -999250 .SS1.LDT -999'250 SS2,LDT SSHV, LOT -999250 S!RH.LDT -999,250 LSRH,SDT CALI,LDT -999 250 GR,LDT -999,250 TENS, LDT MRES'bDT -999,250 HTEM'LDT -999,250 NPHI,C~I, TN~M,CML -999,250 TNR~CNL %999,250 NPOR'CNL RCfT'CNL -999.250 CNTC'CNL 999,250 CFTC' C~L ~.~$,.CNh 999,~50 gRE~,Chh '999 0 M~EM*CNh SG~, NOT 999,250 CGR NGT -999 , 0 THOR, NGT URA~,NGT 999.250 ~iNG,NGT -999 50 W2NG,NGT W4NG,NGT -999'250 ~V5~G.NGT -999'~50 TENS'NGT MRES,NGT -999.250 CS,NGT -999.250 HTE~, NGT DS~PT B725.000 CiDP. DTE 23 375 IDP}'{. DTE ii4PH:DTE 24.328 ClLD,DTg 25:328 ILD,DTE IL~,DT~] 33.219 1FRE,D?E 20,(~00 IDQF, 'T~ IIRD.DTE 22.750 IIXD,DTE -273.750 IIRM,D SFLU,DTE 0.024 SP. DTE 156,000 GR MTE.~. DTE I]0.100 P~RES., O ~ f. 1.869 MTE~ .DTg DTL,SSS -999,250 TTI,bSS -999,250 TT2,~SS TT4. LSS -999. 250 SP, bS5 -999,250 GR, MTE~, LSS -999,250 ~q.R ~5, l,SS -999,250 HTEN.hSS RMOS.LDT -999.250 DRHO.LDT -999,250 DEF.LDT OSS, LDT -999. 250 I,$. LD'r -999. 250 LU', LDT LIT~.LDT -999,250 SSt,LDT -999250 SS2,LDT SSHV.LDT -999.250 S1RH.LDT -999~250 bSR~.~DT CALI,LDT -999.250 G~.LDI -999.250 TENS.~DT MRES,LDT -999.250 HTEN.LDT -999,250 NPHI,CNL TNPH.CNL -999.250 TaRA.C~}L -999,250 ~POR.C~L RCFT.CNL -999,250 C~"~TC. C~. L -999,250 CFTC.CNL TE{~S,CNL -999,250 ~RES.CNL -999.250 ~TEM.CNL SG~.NGT -999,250 CGR.NGT -999.250 THOR.NGT U~AN,NGT -999.250 ~ 1NG. ~'~GT -999.250 W2NG,~GT W4NG.NGT -999.250 ~SNG.~GT -999.250 TENS.~gGT ~ KS. ~d GT -999.250 CS. aGT -999.250 19,20~ 0,000 54.094 40,.438 100.625 999'250 999,250 999,250 999,250 999~250 999.250 -999250 -999250 -999250 -999250 -999250 ~999~0 -999 150 -999 50 -999250 42,.750 39,.438 0.000 28,b09 34,531 101'750 -99g~250 -999.250 -999.250 -999.25{) -999 250 -999 ~50 -999 250 -999 250 -999 250 -999250 -999250 -999i250 -999250 -999.250 -999.250 -999,250 CIMP,DTE CIB~i,DTE IMQF,DTE IIXM DTE TENS DTE DT [,SS TT'3 LSS TENS LS8 DPHI LDT QLS LDT LL,LDT LSHV,LDT LURH,LDT MTE~.LDT RTNR,CNL RCNT,CN5 GR.CNL POTA.NGT W3NG,NGT MTE~.NGT ClMP DTE CILM:DTE IMQF,DTE IIXM.DTE TEN$,DTE DT.L$S TT3 DPHI 5DT LL.LDT LSHV,LDT LURM,DDT MTEM,bDT RTNR.CNL RCNT,CNL GR,CNL HTEN.CNL POTA NGT WBNG~NGT MTE~,NGT 45'~75 56'969 o;ooo ~5.60'000 ' 99:9':250 '999 250 '999 ~50 '9992150 '999250 -999 250 -999250 -999:250 -999250 -999250 ~999,250 ~999;250 ~999,250 999;250 41 094 ,3O 078 0 000 466 250 2560 000 -999 250 -999 250 -999 1250 -999 250 -999 250 -999 250 -999 25O -999 250 -999 250 -999,250 -999'250 -999,250 -999,250 -999,250 '999,250 '999,250 ** EbD OF DATA ** IS Tape Verification ListiDg ~hlu~Der~ger Alas~a Coo~putinq CeDter 12-JUD-1991 PAGE: 46: **** FILE TRAILER **** 'FILE NAME : EDIT ,00!, SERVICE : FbIC VERSION : O01A06 DATE : 91/07/12 MAX REC SIZ~ : 1024 FIL~ TYPE : LO LAST FILE **** TAPE TRAILER SERVICE MA~E : DATE : 91/07/~2 ORIGIN : FLIC TAPE NAME : 74685 C~NTIMUATION # : 1 PREVIOUS TAPE COMMENT : ~ARATHON OIL C[]MPANY,~CARTHUR RIVER,TBU M-29,50-733-20428 **** REEL TRAILER **** SERVICE NAME : EDIT D~TE : 91/07/12 ORIGIN : FL/C REEL NAME : 74685 CONTIMUATI.OM # : PREVIOUS REEL : COMMENT : MARATHON OIL COMPANY,~CARTHUR ~IVER,TBI} M-29,50-733-20428