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Home My WebLink About175-060TONY KNOWLE$, GOVEt~NOR AIASK~ OIL AN~D GAS CONSERYATION COMMISSION November 20, 1995 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 FAX: (907) 276-7542 UNOCAL Kcvin Tablet, Land Manager P. O. Box 196247 Anchorage, Alaska 99519-6247 Re: Location Clearance Inspection Accepted - Swanson River Field Wells Dear Mr. Tablet: On July 27, 1995 our inspector, Leu Gfimaldi, inspected several abandoned Swanson River Field locations for location clearance. He recommended Location Clearance for thc follmving 11 Swanson River Field wells: .. SCU 14A-5 PTD 75-060 ---- SCU 34-5 PTD 61-036 SCU 44A-8 PTD 80-103 SCU 14A-9 PTD 74-037 SCU 11-16 PTD 71-014 SCU 31A-16 PTD 75-025 SCU 34-33 PTD 60-036 SCU 24-34 PTD 70-043 SRU 34-10 PTD 00-145 SRU 31-15 PTD 77-012 SRU 314-27 PTD 59-016 Thc Commission accepts thc above listed Swanson River Field wells as properly abandoned with thc stipulation, if problems with them occur in the future, UNOCAL is liable for the corrective work and for whatever damages might have occurred. BLM and possibly other agencies may also have closurc rcsponsibilitics. · Chairman ~ "~ encl' Inspector reports w/o attachments. CC: Joc Dygas, BLM Blair Wondzcll bcw/lcahsr f MEMORANDUM State of Alaska Alaska Oil and Gas Conservation Commission TO: David Johnston, Chairman--' THRU: Blair Wondzell, P. I. Supervisor~¢¢~ FROM' Lou Grimaldi, Petroleum Inspector DATE: FILE NO: SUBJECT: July 27, 1995 LO14A-5.DOC Location Clearance Inspection Arco ¢SCU 14A-5 Swanson River Field PTD ¢75-60 Thursday, July 27, 1995: I made a Location Clearance inspection on the Arco well ¢SCU 14A-5 in the Swanson River Field. This marker is situated on a gravel pad along with abandoned well ¢SCU 34-5 and a producing well ¢SCU 24-5. The following Info was on a 6" marker post: Arco Alaska Inc. A-028996 *SCU 34-5 1160' FSL + 1480' FEL Sec. 5, T 7N, R 9W ,SM. SCU 14A-5: 75'N, 46'W *SCU 24-5: 102'S, 17'W FED *(This info is in ref. to the other wells located on this pad) The pad was clean and well groomed. The surrounding area was well kept with no signs of impact from the existing Oil and Gas operations. I recommend final clearance be given for this well. SUMMARY: I made a Location Clearance inspection on the Arco well ¢SCU 14A-5 in the Swanson River Field. Attachments: LO14A-5.XLS .... STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION Surface Abandonment I Location Clearance Report ( Title 20 AAC 25, Article 2 ) Operator: Arco Alaska inc. Address: PO Box 100360 Anchorage Alaska 99510-0360 Surface Location: 1235 F S L, Section 5,T Inspection Date: Steel Post OD: (4" min) Well Name: PTD No.: APl No. 50- Unit or Lease Name: 1526 F E L Field and Pool: 8N ,R 9W ,M S Downhole P&ADate: 6" SCU 14A-5 75-60 50-133-20201-1 Soldotna Creek Unit Swanson River Field Approval Date: "Length (10' min.) ft. Height Above Final Grade Level (4' min.) 6' ft. Top of Marker Post Closed With: Welded (Welded, Cmt., Cap), Set: ~ (On Wellhead, Csg, In Cmt) Distance Below Final Grade Level: ft. Side Outlets: All valves and nipples removed ? All openings closed ? With Marker Plate Diameter: "Thickness: "Distance Below Final Grade Level: ft. Marker Plate Attached To: Wellhead Cutoff Csg Other Information Beadwelded Directly to Marker Post or Blind Marker Plate: ( Note when different from file information) Operator: Arco Alaska Unit / Lease Name: Sofdotna Creek Unit Well Name: 14 A-5 Remarks: A-O28996. Marker post sets over 34-5 and rets 14 A-5 as Surface Location: "SCU #14 A-5: 75' N, 46' W" 1160 F S L, 1480 F L Section 5 ,T 7N ,R ,M S Inspection Date: PITS: E 9W Approval Date: Filled In: ~ Liners Removed or Buried: Debris Removed: SURFACE CONDITION OF PAD AND / OR LOCATION: ( Rough, Smoolh, Contoured, Flat, Compacted ) Clean: X Type &Quan. of Debris if any remaining on pad and / or location: TYPE AND CONDITION OF SURROUNDING AREA: Wooded (Wooded,Tundra,Grass,Brush,Dirt,GraveI,Sand) Clean: X Type &Quan. of Debris if any remaining on surrounding area: TYPE AND CONDITION OF ACCESS ROAD AND SURROUNDING AREA: Gravel ( Dirt, Gravel, Ice, Other) Clean: X Type &Quan. of Debris if any remaining on access road or surrounding area: CLEANUP WORK REMAINING TO BE DONE: RECOMMENDED FOR APPROVAL OF ABANDONMENT: Yes X No ( if "No" See Reason ) Distribution: orig - Well file c - Operator c- Database c- Inspector Reason: FINAL INSPECTION: Yes X No INSPECTED BY: Louis R. Grimatdi DATE: 27-Jut-95 FI-O00 (Rev. 3193) LO14A-5.XLS STATE OF ALASKA ALASK~OIL AND GAS CONSERVATION ~-'OMMISSION WELL COMPLETION OR RECOMPLETION REPORT AND LOG 1. Status of Well Classification of Service Well OIL [] GAS [] SUSPENDED [] ABANDONED ~] SERVICE [] 2. Name of Operator 7. Permit Number ARCO Alaska, Inc. 75-60 3. Address 8. APl Number P. 0. Box 100360, Anchorage, AK 99510 50- 133-20201-1 4. Location of well at surface 9. Unit or Lease Name 1235' FSL, 1526' FEL, Sec. 5, T7N, Rgw, 5M $oldotna Creek Unit At Top Producing Interval 10. Well Number 1085' FSL, 3340' FEL, Sec. 5, T7N, R9W, SM SCU 14A-5 At Total Depth 11. Field and Pool 1108' FSL, 3369' FEL, Sec. 5, T7N, R9W, SM Swanson River-Hemlock 5. Elevation in feet (indicate KB, DF, etc.) 6. Lease Designation and Serial No. RKB 151 ' A-028996 . 12. Date Spudded 13. DateT.D. Reached 14. Date Comp.,Susp. orAband. I 15. Water Depth, if offshore 116'No'ofC°mpleti°ns 11/06/75 1 2/02/75 06/22/87I N/A feet MSLI 1 17. Total Depth (MD+TVD)11076,MD, 10766'TVD 18.Plug Back Depth (MD+TVD)19. Directional SurVeYsurface YES [~ NO [] I20' Depth where SSSV setN/A feet MD I21' Thickness °f Permafr°stN/A 22. Type Electric or Other Logs Run DIL, BCS, FDC/CNL, CBL 23. CASING, LINER AND CEMENTING RECORD SETTING DEPTH MD CASING SIZE WT. PER FT. GRADE TOP BOTTOM HOLE SIZE CEMENTING RECORD AMOUNT PULLED 20" 85.0# B Surf 45' 26" 5 yds Construction ceme.~t 10-3/4" 40.5# K-55 Surf 2100' 15" 1200 sx Class G *7" ~3/26/29# N-80/P-11£ Surf 11440' 9-7/8' 1400 sx Class G 5" 18.0# N-80 8955' 11075' 6" 215 sx Class G * Sidetra~;ked f/9162 -9214' 24. Perforations open to Production (MD+TVD of Top and Bottom and 25. TUBING RECORD interval, size and number) SIZE DEPTH SET (MD) PACKER SET (MD) None 2-7/8" 10885 ' 10838' 26. ACID, FRACTURE, CEMENT SOUEEZE, ETC. DEPTH INTERVAL (MD) AMOUNT& KIND OF MATERIAL USED PIug @ 8489' (sqz 10 792 '-10796' )-185 sx C1 ass C. 2-7/8"x7"x10-3/4" ann (1;hru Derf ~ 19f~'~-?c,I') .~ Ctl~ C. 27. PRODUCTION TEST Date First Production I Method of Operation (Flowing, gas lift, etc.) 12/18/75I Gas lift Date of Test Hours Tested PRODUCTION FOR OIL-BBL GAS-MCF WATER-BBL CHOKE SIZE GAS-OIL RATIO 12/27/75 4 TEST PERIOD I~ 60.7 508.16 142 -- 8376 FIowTubing Casing Pressure CALCULATED.I~ OIL-BBL GAS-MCF WATER-BBL OILGRAVITY-API (corr) Press. 550 1600 24-HOUR RATE ~ 364 3049 852 ~6.7° 28. CORE DATA , Brief description of lithology, porosity, fractures, apparent dips and presence of oil, gas or water. Submit core chips. None WC3/23 :DAN I Submit in duplicate / Form 10-407 Rev. 7-1-80 CONTINUED ON REVERSE SIDE GEOLOGIC MARKERS ¢oRMATION TESTS NAME Include interval tested, pressure data, all fluids recovered and gravity, MEAS. DEPTH TRUE VERT. DEPTH GOR, and time of each phase. N/A See Wel 1 Completion Repor.t dated 1/28/76 for formation test results : .: · . 31. LIST OF ATTACHMENTS None 32. I hereby certify t't~at the foregoing is true and correct to the best of my knowledge 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 Pump, Submersible, Water In- jection, Gas Injection, Shut-in, Other-explain. Item 28: If no cores taken, indicate "none". Form 10-407 STATE OF ALASKA Ab~_-;KA OIL AND GAS CONSERVATION C~MISSION REPORT OF SUNDRY WELL OPERATIONS 1. Operations performed: Operation shutdown f~ Alter Casing ~ Other 2. Name of Operator ARCO Alaska, Inc. 3. Address P.O. Box 100360 Anchorage, AK 99510-0360 4. Location of well at surface 1235' FSL, 1526' FEL, Sec. 5, T7N, At top of productive interval 1085' FSL, 3,340' FEL, Sec. 5, T7N, At effective depth 1088' FSL, :3344' FEL, Sec. 5, T7N, At total depth 1108' FSE, 33,69' FEL, Sec. 5, T7N, R9W, SM R9W, SM R9W, SM R9W, SM Stimulate © ~ging ~ ABANDON Perforate [] Pull tubing 5. Datum elevation (DF or KB) RKB 151 ' 6. Unit or Property name Soldotna Creek Unit 7. Well number SCU 14A-5 8. Approval number 7-185 9. APl number 50-- 133-20201-1 10. Pool SwansOn River - Hemlock Feet 11. Present well condition summary Total depth: measured 11076'MD true vertical 10766'TVD Effective depth: meas u red 10905 ' MD true vertical 10598'TVD Casing Length Conductor 30' Surface 2085' Production 11425' Liner 11060' feet feet Plugs (measured) 11076'-10905' feet Junk (measured) None feet Size Cemented Measured depth 20" 5 yds Construction cmt 45'MD 10-3/4" 1200 sx Cl. ass G 2100'MD *7" 1400 sx Class G 11440'MD 5" 215 sx Class G l1075'MD *Sidetracked from 9162'-9214' True Vertical depth 45 'TVD 21 O0 'TVD 11047 ' TVD 10765 'TVD Perforation depth: measured None true vertical None Tubing (size, grade and measured depth) 2-7/8", N-80, tbg w/tail (~ 10885' Packers and SSSV (type and measured depth) FH pkr (~ 10838', SSSV: none 12. Stimulation or cement squeeze summary 13. Intervals treated (measured) Plug (~ 8489' (sqz 10792'-10796'), 2-7/8" x 7" x 10-3/4" ann (through perf ¢ 196')~ surface plug Treatment description including volumes used and final pressure 185 sx Class G~ 250 sx Class G~ qt.y: N/A~ Class G Representative Daily Average Production or Iniection Data N/A OiI-Bbl Gas-Mcf Water-Bbl Casing Pressure Tubing Pressure Prior to well operation Subsequent to operation 14. Attachments (Abandonment Wel 1 History) Daily Report of Well Operations ~ Copies of Logs and Surveys Run [] 15. I hereby certify that the foregoing is true and correct to the best of my knowledge ~ ~.~..._/,~j ~,~ Form 10-404 Rev. 12-1-85 (Dani) 5W02/65 Submit in Duplicate ADDENDUM WELL: 2/21/87 2/22/87 2/25/87 2/28/87 3/02/87 14A-5 (SWANSON RIVER) No report. RIH w/OS, latch hyd jars left in hole on 2/21/87. POH w/Jars. RIH w/latch & POH w/prong f/P5-2 plug. RIH, latch plug body, pulled off plug in slv profile, POOH, OS cracked. Chg out OS, RIH, unable to latch plug. Fsh left in rathole below tbg tail. RD precision WL & secure well. NU prod csg ann vlv to leaking vlv. RU choke to flowln, press tst. Bled press f/3500 psi to 500 psi on prod csg ann. Pmp dn tbg w/produced wtr & corrosion inhibitor @ initial pmp rate of 3500 psi @ 1BPM w/prod csg @ 500#. 20 bbls into displm't, 1500# on tbg, 1000 psi on prod csg. Inc'd pmp rate to 1.5 BPM. Pmp rate fell to 0 psi, prod csg remained @ 900 psi. Pmp'd total of 405 bbls. SI well w/SITP @ 0 psi, prod csg @ 900 psi. Ck press. Tbg press = 3400 psi, Prod csg press = 2800 psi. Bld tbg press to 2500 psi, bled prod csg press to 1500 psi (fluid to surf). RU Howco, pmp dn tbg, rtns up prod csg. Pmp kill @ 3 - 4 BPM. After 40 bbls, tbg press dec'd to 0 psi. Pmp total of 400 bbls. Tbg on vacuum @ end of job w/prod csg SI w/200 psi. Cont monitoring & bleeding prod csg & tbg press. RU S/L, tst lubr. RIH w/XA slv shifting tl to 10,803', jar dn & up thru slv several times, POH. RIH w/scratcher to XA Slv, jar thru slv& wrk scratcher, POH. RIH w/XA shifting tl, jar dn, tl fell thru, POOH. RIH w/PX plug, set in XA slv@ 10,803', POH. RIH w/prong f/PX plug & set. RU Howco to prod csg, shot fluid levels on tbg (5666'). Pmp 70 bbls into prod csg & tbg @ 3 BPM, shot fluid levels; prod csg full (tbg = 4353'). Pmp'd 3 BPM f/70 bbls more, shot fluid levels. Fluid being injected. (Tbg = 1568'). Pmp 70 bbls more @ 3 BPM, shot fluid levels (Tbg = 1152'). Pkr leak & hole in tbg above SA. Mx 20 bbls LiteSal pill, RIH, latched vlv @ 7855', pull vlv. RIH, pull prong & plug. Pulled plug 30' up hole, stuck, jar free, POH, rec'd large chunk of pkr rubber. RIH, set dummy in vlv @ 7855', POOH. RD S/L. RU Howco to tbg, bullhead 20 bbls LiteSal pill to perfs @ 3 BPM, ADDENDUM WELL: 14A-5 SWANSON RIVER (cont'd) 3/03/87 3/31/87 6/01/87 6/05/87 6/07/87 6/10/87 2000 psi; 400 - 500 psi press inc when LiteSal pill hit perfs. 3 bbl diesel cap in ann prior to bullhead. Fin'd bullhead w/2 bbls diesel cap in tbg. (NOTE: Large pkr leak @ 10,838', tbg leak between mandrel 2 & 3 @ ±5000') RU Howco, pmp 50 bbls brine 8.9 ppg - 9.1 ppg & 2 bbls diesel dn prod csg. Secure pmp'g unit. Ck pressures; well dead. RU Gearhart, press tst lubr. RIH w/1.80" GR to 10,800', POH. RIH w/perf gun, perf 2-3/8" tbg @ 10,792'-10,796' w/4 SPF (16 holes). ~POH. RIH w/2-3/8" retnr, set @ 10,780', POOH, RD & secure well. RU CTU & tst. RIH, pmp @ 1/4 BPM while RIH. Sting into retnr @ 10,780', circ 50 bbls 9.1 ppg brine taking rtns out prod csg ann; hole full in tbg & ann. Set btm plug w/185 sx C1 "G" w/.5% CFR-2, .6% Halad 344 & .2% LWL. Pmp 265 bbls up ann, shut ann & sqz 5 bbls into perfs. Unsting f/retnr & POH slow pmp'g remaining 9.6 bbls slurry. POH, cont to displ CTU. RD. Est TOC in tbg @ 8500'. Well secured. RU S/L, RIH, tag top of btm cmt plug @ 8489' inside 2-7/8" tbg, POH, RD S/L. Instl flanges on tbg & production csg f/circ'g top plug & surf case for dn sqz. RU Howco to tbg. Pmp 330 bbls produced wtr dn surf csg @ 4 - 5 BPM, 800 - 1000 psi. M&P 250 sx C1 "G"'w/2% CaCl2 dn tbg thru previously perf'd holes @ 196'. Rtns up prod csg & dn sqz dn surf csg. Clear all vlvs w/wtr. RD Howco. Open prod csg & tbg, all press to bleed off. Instl gauges on tbg & prod csg. Tbg = 0 psi, Prod Csg = 60 psi in 12 hrs. Bleed off. Press tbg & prod csg to 1000 psi; both bled off to ±400 psi/5 min. Bleed off. Open all ann (tbg, prod csg & surf csg) & allow to vent. 6/12/87 Monitor f/PBU before setting surf cmt plugs (no PBU). ADDENDUM WELL 14A-5 SWANSON RIVER (cont'd) 6~20/87 6/22/87 RU Howco, prop C1 "G" cmt w/6% CaC19. Press up w/Howco to 2000 psi against tbg & PC, close i~' RD Howco. Cut off wellhead. Weld on P & A mkr. FINAL REPORT Drillin~uperviso~ Date STATE OF ALASKA ALAS~,.,_-OIL AND GAS CONSERVATION COML:~ION APPLICATION FOR SUNDRY APPROVALS 1. Type of Request: Abandon ~ Suspend ~ Operation Shutdown F' Re.enter suspended well Alter casing Time extension- Change approved program ~ Plugging I-F. Stimulate ~ Pull tubing ~- Amend order ~ Perforate- Other 2. Name of Operator ARCO Alaska~ Inc. 3. Address P. 0. Box 100360 Anchorage, AK 99510-0360 4. Location of wellatsurface 1235' FSL, 1526' FEL, Sec. 5, T7N, Rgw, SM Attop ofproductiveinte~al 1085' FSL, 3340' FEL, Sec. 5, T7N, R9W, SM Ateffective depth 1088' FSL, 3344' FEL, Sec. 5, T7N, Rgw, SM 5. Datum elevation (DF or KB) RKR I c,1 , 6. Unit or Property name Soldotna Creek Unit 7. Well number SCU 1 4A-5 8. Permit number N/A 9. APl number 50-- 133-20201 -1 feet At total depth 1108' FSL, 3369'. FEL~ Sec. 5~ T7Na 11. Present well condition summary Total depth: measured true vertical 11,076'MD lO,766'TVD Effective depth: measured true vertical 1 O, 905 ' MD lO,598'TVD Casing Length Size Structural Cel 1 ar Conductor 30 ' 20" Surface 2085 ' 1 0-3/4" Production 11,425' *7" Liner 11 ,060' 5" R9W ~ SM feet feet feet feet Plugs (measured) Junk (measured) 10. Pool Swanson River - Hemlock None None Cemented Measured depth True Vertical depth Construction Cement 45'MD 45'TVD 1200 sx Class G 2100'MD 2100'TVD 1st stage 700 sx C1 G 11,440'MD 11,047'TVD 2nd stage 700 sx C1 G 2155 sx Class C 11,075'MD lO,765'TVD Perforation depth: measured 10~876'-10~892, true vertical 10,569'- t-0,584 ' Tubing (size. grade and measured depth) *Sidetracked from 9162'-9214' RECEIVED 2-7/8", 6.5#/ft, N-80, EUE, 8rd w/tbg tail ~ 10,885' Packers and SSSV (type and measured depth) >~:~.:;~,::~ 0ii & G~-~s C::,i%~ C0-:~:~:;t.~:-~ ~. ~::.:'-,. B.ak~r FH DEr (~ 10 . R~R ~ 12.Attachments Description summary of proposal ~Detailed operations program'S>--BOP sketch 13. Estimated date for commencing operation March 27, 1987 14. If proposal was verbally approved Name of approver Date approved Conditions of approval 15. I hereby certify that the foregoing is true and correct to the best of my knowledge , / ?~'LI A.~c~/~.~ Title Associate Engineer Commission Use Only (JG) SA2/27 Notify commission so representative may witness ~_ Plug integrity .~, BOP Test ~ Location clearance Commissioner IApproval No. ~ ..~/~-~-~' by order of the commission Date~ ~,~ ~*~ Form 10-403 Rev 12-1-85 Submit in triplicate P & A Discussion Swanson River Field SCU 14A-5 It is proposed to P&A the subject well. This well is a single packer com- pletion with open perforations from 10,876' to 10,892'. An "EZ" drill retainer was set at 10,905' on 12/12/75 prior to running the completion string during the last workover operation. This well was shut-in on 2/11/87 while performing diagnostic work on an adjacent well. Over the next five days the production casing pressure increased to 3650 psi and the surface casing pressure increased from 0 to 380 psi. Slight bubbling in the cellar was noted on 2/18/87. Unsuccessful attempts were made to set a "PS" plug in the Otis "S" nipple at 10,843'. Subsequently, the well was killed with a litesal pill and 9.1 ppg NaC1 brine to render to a safe condition. The current production data from this well make it uneconomical to operate. Due to these safety and economic criteria it has been decided to P&A this wellbore. It is proposed to P&A the well without recovering any tubulars. The open zone will be squeezed off through a cement retainer set in the tubing, and a ~500' cement plug will be left in the tubing and the tubing x production casing annulus above the top packer. A 150' surface cement plug will be placed in all strings of pipe and the wellhead removed. Due to the fact that another well on the same pad has been approved for P&A (SCU 34-5), the pertinent information will be permanently placed on the steel plate across the wellbore. The regulation abandonment marker on SCU 34-5 will be modified to identify the surface location of SCU 14A-5. (This procedure is at the request of the Fish And Wildlife Service). Please see the attached General Procedure and Proposed Final Wellbore Schematic for more information. SR/35 ih GENERAL P & A PROCEDURE Swanson River Field SCU 14A-5 SCU 14A-5 is planned as a "rigless" P&A using a coiled tubing unit. The primary cementing job was conducted in two stages without apparent problems. For Safety reasons the well was killed with a litesal pill and 9.1 ppg NaC1 brine 3/1/87. The P&A will proceed as follows: I. RU pump to tubing and establish injection rate and pressure into open perfs. 2. Rig up slickline. Go in the hole and shift open XA sleeve at ±10803. Make a gauge ring run to ±10800'. 3. Rig up an electric line unit. ±10780. Set a 2-3/8" cement retainer at 4. Rig up a coiled tubing unit. Run the circulating stinger for the cement retainer on coiled tubing. 5. Sting into retainer. Circulate 9.1 ppg brine up annulus to load it with a kill weight fluid. 6. Spot a ±500' cement plug in annulus (estimated TOC @ ±10,280'). Close well in and squeeze 20 sx cement into open zones from 10876' to 10892'. Pull out of retainer and spot ±500' cement plug on top of retainer. 7. Pull out of the hole with the coiled tubing, displacing the tubing with 9.1 ppg (kill weight) brine. 8. After cement sets, pressure test cement plugs in tubing and produc- tion casing to 1000 psi for 15 minutes. 8. Downsqueeze 40 sx cement in 7" x 10-3/4" annulus to leave ±150' surface plug. 9. Perforate 2-7/8" tubing at 150'-152' below ground level. 10. Spot +-150' cement surface plug in tubing and production casing. Note: If unable to downsqueeze in Step 8, the 7" will also be perforated @ 150'-152' below ground level. A +150' cement plug will then be circulated down the 7" x 10-3/4" anro~lus in this step. 11. Cut off wellhead and casing strings at the base of the cellar. Weld on steel plate across wellbore covering all strings of pipe the metal plate must be at least ¼" thick. 12. Bead weld the P&A information to the metal plate. Fill-in cellar. The following information should be welded on the plate: FED ARCO Alaska, Inc. Lease A-028996 SCU 14A-5 1235' FSL, 1526' FEL Sec 5, T7N, R9W, S.M. SR/16 ih ~2 4 58' 5259' ,, ...... 2,2~9.5~'-' ~-. CAMCO MM MANDREL 58 j~s. 2~,,, ~ug 6.5# N-80 TUBn~O TOP 5" 8954' 9162' [9214' ~ oF ~,~ ~ 10,803.27..~-- 10,b~3.3ar-( 60 JTS. 2~" ~S h.7//. N-8O TUBII~O .J . OTIS "~" S~E ' 1 JT. 2%" SUS h.7~ N-SO TUB~O ~i" X 5", 1~ BAKER "~" PACKER OTIS "S" NIPPY, Position ~2 TOP OF PLUG 10,905' i BLAST JT. ~ 12,O75' T.i). 11,O75' 2269..1.(;; 13~8.5C 13.02 1079.3~ 13.o( 13oO: 13.O: 1.1 1870.5 2.9 31.7 5.~ SCU 14/.%-5 CASING 8~ TUBING DETAI SECTION :5 T. TN.,Rgw. 5259' .- LANDIN~ MANDR,:i~,~ K.B. TOP 5" 6954' 9162' 9214' 6o JTS. 2%. ~S ~.7#. N-80 TUBn~O 10,803.27~ ' · ? OTIS "XA" SLF.~VE ' 1 JT. 2%" [U£ L~.7# ~-80 TUBZNG 10,837.0~) ~i" x 5", 1~ BAKER "~" PACKER 10,$u3.3~ OTIS "S" NIPP~, Position ~2 1G,855.~0 "~' ~" 1 B~ST~JT. ~ TOP OF PLUG 10,905' 11,O75' 11,075' SCU 14A-5 1~26.6~ 13~8.5c 13.O2 1079.3'~ 13.0( o83.7: 13.0 13.O 1~2.7 1.1 1870.5 2.~ 31.i CASING 8~ TUBING DETAI S[¢TION $ T. TN.,R.9~L TRANSMITTAL ANr '\CKNOWLEDGEMENT OF RECEIPT OF M~ ']RIAL - (ALASKA) TO:_ t'.tr, y'. R. Marshall .. State of Alaska DEPT, Division of Oil & Cas i. 3DO1 l~orcupir:.e Drive PLAC! Anchoraga, Alaska .99504 DATE FD- Folded R - Rolled S - Sepia F - Film X - Xerox B - Blueline THE FOLLOWING IS A LIST OF MATERIAL ENCLOSED HEREIN. PLEASE CHECK AND ADVISE IMMEDIATELY. · : COMPANY WELL HISTORY LOG 2" · 5" ..... ! - ~ I00 200 ,~OC/j/__ ~'cb/ /?__.¼--/o ~~' ~- 7 DiviSiON OF 01t. AND G,,V3 RE~/I'ARI<$ ON OTHER THIS SHEET TRANSMITTAL ANL ACKNOWLEDGEMENT OF RECEIPT OF Mu ERIAL - (ALASKA) TO: ..it T k l~ -~ __ ' ...... ~- .:],.all State of Ala.~; DEPT :_ Div . .L~.~on of: OJi & Gas 3001 Porcupine D:iv(:~ PLACE :_ ~,ncaorage ~ ..... . , A.~o,~a 99504 FD - Folded R - Rolled S - Sepia F - Film X - Xerox B - Blueline THE FOLLOWING IS A LIST OF MATERIAL ENCLOSED HEREIN. PLEASE CHECK AND ADVISE IMMEDIATELY. COMPANY WELL HISTORY LOG 2" 5" ! I IOO 200 ._ / ! / / ~,;vis,oN 'O~oT~'~c~ ~^s RECEIVED BY REMARKS ON OTHER SLOE, THIS SHE'ET BY ../'" / }' ~l'nt 1~ 7 -~ SUBMIT IN DUi ~_~ATE* STATE OF ALASKA (s~,~, ',e~'t,~ reverse side OIL AND GAS CONSERVATION COMMITTEE WEL~ COMPLETION OR RECOMPLETION REPORT AND LOG* la. TYPE 0F WELL: Oil, ~ GAS ~ ~ W EI.I. WELL ~ DRY Other b. TYPE OF COMPI,ETION: -~:'" F3 ,,.,,,,~ ~ ,~:~:,,- ~ ~,~r~~ m~. ~ Redrill XX Ell. ~_J OVER ~ EX ~ BACK RESVR. Other 2, NAM E OF OPERATOR Standard 0il Company of California, Western, Operations. Inc. ,q;, Al)DRESS OF OPERATOIR P. O. Box 7-839, Anchorage .... Alaska 99510 4, hOC,,rI~X OF WEI,L (Report location clearly and itt accordance with any State requireme~lts)* ,~t,~,~r,~,1228' North and 1533' West of S.E. corner of Sec. 5; T-7N, R-9W, SB&M At t,,p pr0d~ interval reported below 151' South and 1815' West of surface At total depth 127' South a West of surface location DATE T.D. REACHED {15. I>ATE COAIP SUSP OR ABAND. 12-2-75 [ 12-16-75 ]:e DATE St'U£DJED 11-6-75 11076 MD 10766 TVD ! 10905' ROTARY TOOLS 10598' TVD 0-11076' ?,2, PRODUCING !N'FEIIVAL(S}, OF Tills CoMPLETION--TO,P, BOTTOM, NAME (MD AND TVD)* Hemlock Top 10876' MD 10766' TVD Bottom 10892' MD 10584' TVD 5. API NU1VLEE/CAL CODE 50-133-20201-1 6. LEASE DESIGNATION A_ND SERIAL NO.p~ , A-028996 ..~/t Y. ~F Ixz)L~, ~LOTTE~', ox Tms~ X~ 8. UNIT,FAa~i2VI OR LF~kSE NAME Soldotna Creek g, WELL NO. SCU 14A-5 10. FI~.I_~D A~ND POOL, OR WILDC&T Swanson River Hemlock 11. SEC., T., 1%., 3~., (~OTTOM HOLE OBJECTIVE) Sec. 5; T-7N, R-9W, SB&M 12. P~7~IIT NO. 75,60 ' I i16. ELEVATIONS (DF, t%KB, KT, GR, E/'C)* 17. ELEV. CASINGIIEAD 151' KB INTERVALS DRILLED BY CABLE TOO I..S 23. ~VAS DIRECTIONAL SURVEY ~IADE Yes 2.1 TYPE l.',i,[<('iill(' AND (.)T[tER LOGS RUN .... DIL, BCS, FDC .-~N~, CBL ~5. 2 0" 10 3/4" 7" CASING 1%ECORD (Report all strings'set in w~ll) WEIGII'F, LB, F'F. 85# 40.5# 23,26,29~ 26 .LH N tjX{, II.ECOtiJ~ .~J Z ['l [ 7'OP (A,IDI 15OX TONi (A4D) ] SACKS CE3, IE.N*T* 5.'_' 8955 1.10~ 215 I I II ! IL I 28 PI, iiiF(H{A'I ~ONS OPEN TO PRODUC'FiOi~ (interval size and number) 10876-10892' Four 1/2" jet holes per foot Ill I I III I III I I I I II I II I 30. PI%OD UCTION DAI'I.; I;'It:S[' [q:()r:.L!C'I'ION [ PIIODUCTION 1MEI[{OD IFlov.'ii~g, t~.,,c~,a, lif[, pumping--size and type of pump) 12-18-75 [ Gas lift 12-27-75 . .... F--[A')~;i ;[VL'i:iN(; ICAI-;I.N('} PrtESSUnE |CALCULATED OII~--BBL. TqtE.-~S. I [2,I-HOUI~ RATE [ ss0 ,11600 J :, ;[ 364 ~li[itsf,~Sl,r'~°x ()Ir c*s (Sold, used ]or ~uel, vented, etc.) ' Injected back into field 32. 1.18'I' OF AI'TACHMENT-~ i"GRADE ] D?P~t, SE%.' (~¥D)[HOLE SIZE [ C.~.MLNTING RECORI) | IC.~OUNT PULLED B .~ [ 45', I 96" I 5 yd_~ Const~ ~t_ Non~ ,,K-55I 210.0'.. [ 15" [ 800 sas. "G" ~t. _ I II Il II N~80_ ~ 11.440 [ 9 7/a [ghoa 700 g~ ~ ~P a7l~ ~' ~ne P-110[ with ?00, ~ks "~" C~f.. . Xindow milled 9162-c_214' for radril] 27. TUBING SCiLE~ (AfD) [ SIZE [' DEPTH SET (AID) [ PACKER SET (AID) I D~T%i IX/'~V.~ (MD) AMOUNF ~t~D I'2IND OF MAI'E?iAL US~ [ VvELL STATUS (Producing or ~naC-in) Producinq \VATEI~BBL. I GAS-OIL IL~TIO 1508.16 1~42 [ ;8376 ~ WA~--BBL. [ OIL GRAVITY-~I i~[,~,~g52~ ,~- ~,.~ ~[~ ~36.7 o DIL, BCS, FDC-CNL, CBL & Tubing Detail ' 7;21 I h~,rob~- certify that the foregoing and at.~he~l_n~or~tlon is complete and smx~, R. M..McKinley_ LE Area i 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: 16: Indicate which elevation is used as reference (where not otherwise shown) for depth measure- ments given in ether spaces on this form and in any attachments. Items 20, arid 22:: If this well is completed for separatc, prcduction from more than one interval zone (multiple completion), so state ~n item 20, and in item 22 show the p, cJucir:9 interval, or intervals, top(s), bottom(s) and name (s) (if any) for only the interval reported in item 30. Submit a separate report (page) on this form, adequately identified, for each additional interval to be seperately produced, show- ing the ackJitional data pertinent to such interval. Itom26: "Sacks Cement": Attached supplemental records for this well should show the details of any mul- tiple stage cementing and the location of the cementing tool. Item 28: Submit a separate completion report on this form for each interval to be separately produc~l. (See instruction for iterns 20 and 22 above). , , ,, 34. SUMMARY OP' PO~MATION TESTS IN('LUI)IN(; INTERVAl. TESTED. PI~F~SSUR£ DATA Ai~I~'~OVERIES OF OIL. GAS. 35. G I~OI.~)G I(" WATER AND MUD ii i Formation Test of Perforations 10965-10972' and 10984-10992' ~^s. Recovered 69 bbls of water with scum of oil on 4 hour test ' ' " P~SSU~ ~CO~ER DATA: Initial hydrostatic 5386 psi F~al Shut-in 4466 psi Initial Fi~ 251 psi Final Hydrostatic 5386 psi Final Flow 4416 psi Formation test of Perforations 10913-10920' and 10930-10935' Recover~ 60 bbls of water with trace of oil on 4 hour test P~SSU~ DATA: Initial Hydrostatic 5299 psi Final Flow 4410 psi Initial Flow 1609 psi Final Shut-in 4435 psi · /,~ ,, ~. co~{.g DATA. aqn:Act[ URgEr ~I~ONS Or L~TnOLoGY. POnOS]TY..F~a~., APP~NT ~ " FLU I D S^MPLE D 'A Ticket Dote 12-8-75 - .~.,, Number 817_711 Sampler Pressure .P.S.I.G, at .Surface Kind · · . Halliburton Recovery: Cu, Ft. Gas of?~OKkTALT._TEST_ District cc, Oil · ,. cc. Water _Tester C~__~,..., ']3_~N _ Witness De CARTER cc. Mud Drilling ...... Tot. Liquid cc, Contractor ~'~Z DRILLING COMPANY TH S Gravity o APl @ °F. E Q U I p M E N T & H O L E D A ~ A .... Gas/Oil Ratio cu. ft./bbl. Formation Tested Hemlock , , RESISTIVITY CHLORIDE Elevation 151 I Ft. CONTENT Net Productive Interval 15 t Ft. Recovery Water __ @__ °F. ppm All Depths Measured From KelgLy Bushin~ '13t .... Recovery Mud _ @ °F. ppm Total Depth 11030' P~:r~l_ Ft. Recovery Mud Filtrate __ @ °F. ppm Main Hole/Casing Size 7" & 5~t Mud Pit Sample @ °F. ppm Drill'Collor Length I.D. - Mud Pit Sample Filtrate @ °F. ppm Drill Pipe Length 2259' - 8602' I.D2o441" - 2,764" , Packer Depth(s) 10897 ' Ft. Mud Weight' vis cp Depth Tester Valve 10862' ..Et,.J TYPE AMOUNT Depth Back Surface Bottom Cushion Ft. Pres. Valve Choke 1/2" Choke 5/8" · · Recovered 10].37 Feet°..f drilling .mud..to Kass¥ water, Recovered Feet of ,~I~ ~ h''~d -lC; ~ ~tJ' }~. ~ Recovered Feet of ' ' Recovered Feet of . . Recovered Feet of.-~ 1~t ,~, ,~, 4/~'. .-.· ' Remarks Opened toql wi.t.h light bubble hose blow, Dead in 225 minutes° Closed in at_ ,, 233 minutes~ Closed in after flow for 518 minute shut in° Q - Questionable~_ · , , .... ' Gouge No. 3382 'Gouge'No. 3381 ' ]' Gauge No. 2858 TEMPERATUREI TIME D__e~t h: 10882 Ft. D___ept h: 10886 ...... ~fh: 10915 Ft. ~ 24 Hour Clock 24. Hqur Clock. l. 24 Hour Clock__ Tool 12-8 A.M. Est._ °F. Blanked Off NO --B!~nked Of.f ]~0__ Blanked Off ~c~ ~O e.~d__O.~_~ ]092~' ~ 'Opened 12-9 A.M. _Actual 243 °F. Pressures .... Pre.s, sur?. .. . Pressures Byp_.~__~.~)~ P.M. Reported Computed Field Office Field Office Field Office Initial Hydrostatic 5365 5376 537~ 5378 5372 5383' Minutes Minutes ~3 Flow Initial 145 1043 1~ 344 1.130~-Q ~ 419 1086 -- c~c'c ~ino, 4419 44.24j 4418 4428 J 4435 4432 240 233 Ctosedin 4466 4450 4467 I 4450t 4459 4457 .520 518 ,~- Initial g,~ Flow ................... ,~ ~, Final Closed in Initial ___ ~'~ Flow ................................. .~. '~ Final ~' ~ ~' Cf'~,7'd'-M ......... ~ ' - Finoi Hya'76'f~ 5355 ' .--5376' -- . ,53~-9 . -5,3-72..~363 ...... IrOa~ Itt-RI--PRIhlIED IN U.$.A, FORMATION TEST DATA LITTLI~'I~ I~E6~I 101,4 0/74 Ticket FLUID SAMPLE D+,.~ ,' A Date 12-8-75 --.-. Number 817711 Sampler Pressure .P.S.I.G. at Surface Kind ... Halliburton . .. Recovery: Cu. Ft. Gas of Job }tO0]~/~L~, '~[]$T District . ANCH, 0RAG~., cc. Oil cc. Water Tester C~ Ho BOAT]~/~.]~r Witness cc. Mud Drilling .... Tot. Liquid cc. Contractor KENAI DRILLING CON~A~ TH S ....... Gravity o APl @ °F. E Q U I PM E N Z & H O L E D A T A Gas/Oil Ratio cu. ft./bbl. Formation Tested RESISTIVITY CHLORIDE Elevation Ft. CONTENT- -- Net Productive Interval Ft. Recovery Water @ °F. ppm All Depths Measured From Recovery Mud @~ °F. ppm Total Depth Ft. Recovery Mud Filtrate o @ °F. ppm Main Hole/Casing Size Mud Pit Sample @ °F. ppm Drill Collar Length I.D. ,, Mud Pit Sample Filtrate @ °F. ppm Drill Pipe Length I.D. Pocker Depth(s) Ft. ~M~ud,LWeicuht- , ....... vis ...... cp, Dep,th Tester Valve .... EL TYPE AMOUNT Depth Back Surface Bottom Cushion Ft. Pres. Valve Choke Choke · Recovered Feet of ., · Recovered, , Feet of Recovered Feet of ' Recovered Feet of_ Recovered Feet of , , , Remarks ........ 4TH CA U_(~ ,,, · Gauge No. 2859 Gauge'No. Gauge No. TEMPERATURE TIME _ D_~m: 10919 Ft. , D_g.~th: Ft. _ Depth: Ft, ·" 24 Hour Clock Hour Clock Hour Clock Tool A.M. Est. °F. Blanked Off ¥]]8 Blanked Off Blanked Off Op_e. ned P.M. ............. Opened A.~v~'.- Actual °F. Pressures Pressures Pressures Bypass P.M. Field Office Field j Office Field Office R~'e'd C~) mp u t e'~d-- Initial Hydrostotic 5386 5389 ........ Minutes Minutes -~o Flow Initial 251 1112 ~__ Fina~ 441.6 ,~434 _ Closed in 4466 4456 ..... Iniliol 'g~o Flow .......................... ~,8'r-~ Final Closed in j I! Flow Initiol ~. Final FORt4 t~It.~II--pHINTI~D IH FORMATION TEST DATA LI~'TLI['I, J~071 loll 0/74 Ticket Gouge No. 3382 Depth 10882 Clock No. 16147 24 hour No. 817711 I First ! First Second Second Third Third F)¢w Period ~, C!osed In Pressure Flow Period Closed In Pressure Flow Period Closed In Pressure Temp. Temp. Log Temp. Temp. Log Temp. .000" .000" bi T Corr. .000" Corr. .000" Corr. .000" Corr. .000" ~ Corr. [ oi.oooo. ;6~00 4424 Temp. Corr. __1043 3078 4431 1254' ,3828 .5t15 6403 4067_.1j .3357 4351 1!,5069 4419 1io8492 .7690 442A ~0203 ~o!915 ,. 7050 4434 4438 4441 4441 4443 4446 4448 4448 4450 } Gouge No. t"ot .oooo I' .1~7o*, I 2 .2574 3381 Depth 1130 10886 Clock No. 13838 24hour 12 13' 4428 4432 4437 .3878 4442 o5182 4445' ,6486 ,7790 3086 !]_, 1669'* 4071 ,3405 4354 L-5140 4405I°6876 4423 8611 4428 ~ 9.0347 t_~3818 ~_, 5_~_5 o, _~ 72 90 4445 Reodinc Interval REMARKS: 4_4_47 444.7 4447 4450 44%0 39 I! 52 * - first interval is equal to 38 minutes~ ** - 50 minutes. Q = Ques'tJonab]e Minutes SPECIAL PRE~SURE DATA Gauge No. ,, ~85J Flow Period Time Deft. .0O0" _. O.c_.oo 1280' .2594 I.,, ,~ Depth First Closed in Pressure Il21 PSIG Temp. Corr. 1086 3111 4077 Time Defl. .000" ,.,0000 .1679'* .3424 PSIG Temp. Corr. 4432 4439 43601, 4410 ~. -_ 4427 ,: 4442 · 3908 5170 4444 .5222 6915 4447 .6536 8661 4449 4432 ~,0407 %.2152 .7850 3898 Gouge No. ~ooO.. .5~42 , ,7730 7390 ,, 2859 1112: 3119 _,_! 660** 4077 .~__3._3_87 .,. 4362 __5_!!_3 4414 .~_~84__O 4429 _.,¢567 4434 52 3746 ...... ._5473 Reodina Interval 39 ~7200, 4452 4454 4454 4454 4457 Depth 4~.3~ 4441 4446 44&9 444.9 4A5! .... 4~54 445_4 4456 445_6 .... 4_456_ _ 10915 Second Flow Period Time Deft. .000" PStG Temp. COr'F. 1091,9 Clock No. 13874 Second Closed In Pressure Time Dell. .000" PSIG Temp. Corr. Clock No. 137~9,, REMARKS: * - first interval is equal to 38 minutes~ ~'¢ - 50 minutes. I Ticket [ hour No. 817711 t , Third Third Flow Period Ciosed I,~ Pressure Time Daft. .000" PSIG TareD. Corr. 2,4 hour ,, t Time Deft. Log-~ .000" PS~G Temp. Corr. Minutes SPECIAL PRESSURE DATA .... ......................................................... ......................... ,,.. I.D. LENGTH Oo D. Drill Pipe or Tubing ........ ~-.. .... Rever~ing Sub ........................ 3.88'I ,1,.. 75" ~f~xqxV~[~e .Drill..Pipe... Drill Pipe ........................ Drill Collars ...................... 2 '7/8" ,. 2 7/8" Handling Sub & Choke Assembly ...... Dual CIP Valve ............ . ....... ' 3.~88" ,, Dual CIP Sampler .................. Hydro-Spring Tester ...... : ......... 3.88" l, 2,7,64" ...... 2,441." ,87" ,62" Multiple CIP Sampler ............... Extension Joint ..................... 3,8811 .... , , 88" AP Running Case ' 3.88" " " " 3.88" Hydraulic Jar .................... 3,88" 3'! 31, 11' - * 75" 1.80" 2,44" VR Safety Joint ................ Pressure Equalizing. Crossover ......... 3 o 8,8" Packer Assembly ................... 3.90" 2.88" Packer Assembly ................... Flush Joint Anchor ................. Pressure Equalizing Tube ........... Blanked-Off B,T. Running Case ....... Drill Collars ...................... Anchor Pipe Safety Joint ............ 3,88" 3.88" Ht-500 Temperature - >~4~x~~ ......... R.e.c.o.¥d.e.r. 3,88" . .. Distributor ........................ Packer Assembly ................... Anchor Pipe Safety Joint ............ Side Wall Anchor ................. Drill Collars ...................... Flush Joint Anchor .................. Blanked-Off B.T. Running Case ........ ' ' Total Depth ....................... ,,,..,-..,.,..,~ u,.,..EQUIPMENT DATA 2,36~... .8602 ~ 2259' 6.37' 7.99' 13.40' 4.58' .4.57' 3,23~ 3,24' '-., 3,81' 15,66" ,,, 4,06' 4.05' .1,05' DEPTH 10856' 108~2' 10882' 10886' 10897~ 1091.5' 10919~ . 10924' 11~..030' LI'rTL~:'I 9{,67~. 7~C 0/?4 Ticket FLUID SAMPLE DATA Dote 12-12-75 Number 817712 ',~_ --Ir- Sampler Pressure .P.S.I.G. at Surface Ki~d Halliburton Recovery: Cu. Ft. C~s of Job HOOK WALL TEST District ANCHORAGE cc. Oil cc. Water Tester MR. BOATMAN Wnnes~ MR. CARTER ........ cc. Mud Drilling ,,,--~,A · Tot. Liquid cc. ControctorlklglW'~l DRILLING COMPANY PW S "~z Gravity ° APl @ . °F. EQ U I P M E N T & H O L E DA T A I , , C-os/Oil Ratio cu. ft./bbl. Formation Tested Hei~-J-OTz~ RESISTIVITY CHLORIDE Elevation 1 51 ' Ft. CONTENT -- ' Net Productive Interval 1 2 ' Ft. :~- Recovery Water @ °F. ppm All Depihs Mc~sured From. ,.Kel__l.y__Bu_s_!)jn_cj_ 13' Recovery Mud @ °F, ppm Total Depth 10952' Plu9 Back Depth .Ft. __ Recovery Mud Filtrate @ °F. ppm Main Hole/Casing Size 7" - 5" Mud Pit Sample @ °F, ppm Drill Collar Length I.D. Mud Pit Sample Filtrate' @ °F. ppm Drill Pipe Length 2259"-8571 '__I.D. 2.441"-2.764" i Packer Depth(s) 10860' Ft. Mud Weight vis cp Depth Tester Valve 10825' TYPE AMOUNT Depth Back Surface Bottom Cus[hJon Ft. Pres. Valve 10819' Choke 1/2" Choke 5/8" · _Recovered 10193 Feetof Drilling mud to water. ~ Recovered Feet of ~C~ ~ -4 Z Recovered Feet of ~ ~ 0 Recovered Feet of __.~ ~.~ DiVi31ON Gl: OIL ;,,ND GAS Recovered Feet of ~ I~!~'~ ~,~-~ ~ .~. ,.. i Remarks Opened tool for a 240 minute first flow period with a stronq_ bubble hose _ blow; decree_sing to almost dead during test. Closed tool for a 480 minute final closed 'in pressure period. .. TEMPERATURE Go~]ge No. 3382 Gauge No, 338] IGaugeN°' 2859 J TIME _l~Depth: 10845' Ft. ,D,epth: 10849' Ft. ,, Depth: ,. 10879' Ft, ~-~ --" 24 HourCIock 24 HourCIock 24HourClock Tool 12-11-75k. M.' c~ Est. °F. Blanked Cfff NO Blanked Off NO Blanked Off Yes Opened,6 :.] 2 P.M. 10888' Opened 12-12 A.M. -- Actual 245 °F. Pressures Pressures Prr:ssures Bypass 6:12 P.M. Field Office Field Office FieldI Office Reported Computed Minutes ~nitialHydrostatic 5223 5266 5253 5265 _5_2_~_~.7 ~-- 5_-_27 7_ _ .-_ L-- __ ,inu _ Minutes ~o Initial 737 ~.~_ Flow !725 14_5~1-~Q i 1632-CJi 1378 i~___2075-~ - LT.~. Final [4419 4389 4368 T3~-~ / ~-~ ~----,'1-4'~)-4-- ....... ~-4-6-'- 240 Closedin 4443 4422 4393 I 4420 / 4~ti-7 F ~,'42T- __'4_g~__0_-___-.~.-~'go- ~'~ Flow Initial .... o.~_ ~ ~ Final Closed in Initiol ~.o~ Flow .................... ~ Final Closed in '--~]nol Hydros[ati¢-J 5223 ' 5259 5253 525~' 52-'62 5257 ..... .... ~-~;-~3~T~- , --, _7 ...... FORMATION TIEST DATA .. t I'TTL [ $ ~(,r, 71 lo~ 0174 Ticket FLUID SAMPLE DATA . Dote 12-12-75 Nu,~ber 817712 Sampler Pressure .P.S.I.G. at Surface Ki~d Halliburton Recovery: Cu. Ft. C~s of Job HOOK WALL TEST District ANCHORAGE cc. Oil Cc. Water ~e~ter MR. BOATMAN Witnes~ MR. CARTER cc. Mud .Drilling Tot. Liquid cc. Contractor KENAI DRILLING COMPAr!Y PW S Gravity ° APl @ . °F. E Q U I PM E N Z. & H O L E D A T A C~s/Oil Ratio cu. ft./bbl~ Formation Tested RESISTIVITY CHLORIDE Elevation ..' F:t. CONTENT · Net Productive Interval Ft. ... Recovery Water @ °F. ppm All Depths Measured From Recovery Mud @ °F. ppm Total Depth Ft. Recovery Mud Filtrate @ °F. ppm Main Hole/Casing Size Mud Pit Sample @ °F. ppmDrill Collar Length I.D. Mud Pit Sample Filtrate '@ °F. ppm Drill Pipe Length I.D. Packer Depth(s) Ft. Mud Weight vis .... cp Depth Tester Valve .__Ft. TYPE AJ~OUNT Depth Bock Surface Bottom Cushion Ft. Pres. Valve Choke Choke Recovered F~et of _ Recovered Feet of _o J · . Recovered Feet of -~ " < Recovered Feet of Recovered Feet of · , Remarks . , FOURTH GAUGE' ? Gouge No. 2858 J Gouge No. Gouge'l~o. ' .... TEMPERATUREJ TIME .... Depth: ,, 10883' · "' 2Z~ Hour Clock Hour Clock Hour Clock 'Fool A.M' Est. °F. Blanked Off Yes Blanked Off Blanked Off Ope. ned ..... P.M. Opened A.M. Actual ~F.Pressures Pressures Pressures Bypass P.M. Field Office Field Office Field Office Reported Computed Initial Hydrostatic ~299 5279 Mi~te, M~e~ =, ~nit~al -1-6-0-2 -. 202-0-_-Q ! ~.~ FIow---~inal 4410 4410 Closed in ~-zF'3-5- 4zT32 "o-o Initial ~ o Flow ..... O.~. ~ ~ Final Closed in -- Initial ~_.e Flow ............ Closed in .............. Final Hyd:'oslotic F~-Zg9 52-67 Jo~H I~I-Xl---PI~INTED IN U.S.A. FORMATION TEST DATA LIT'fL.E'5 ~r)?l $ok( 8/74 e No. First Flow Period 3382 Depth 10845' Clock No. 16147 First Closed in Pressure Log~- Second Flow Period Second Closed In Pressure Time Deft. Log-~ .000" ITicket 24hour No. Third Flow Period PSIG Temp. Corr. 817712 Third Closed In Pressure Time Deft. .000" No. 3381 1632 · i~37 I 39 2~73 .3206 24 1.442F Readin.q Interval 4~ REMARKS: Q : Questionable Depth 4396 4403 4~08 4413 14415 I 4475 I 4~.o I 44__2_0 4420 4420 48 10849' Clock No. 13838 i t I 24 hour Minutes Gauge No. 2859 Depth 10879' Clock No. 13739 24 hour No. Fi rs t Fir st Second I Seco nd m~ i rd Th i rd Flow Period Closed In Pressure Flow PeriodI Closed In Pressure Flow Period Closed In Pressure Time C~fl. J ,,PSIG Time Dell. Log t -J- 0 PSIG Time Dell. PSIG Time Deft, ~ PSIG Time Deft. PSIG Time Deft. t + ~ PSIG . ., e .. .000" ~ Corr, .000" Corr. .000" Corr. .~0" Corr. .000" ~ Corr. 2 2653]E.~292 ' ,[Z]-3 ~ .5307/4384 ~ _..6364: ~_442] 51 · ~6_3~4 ~97. .7955, 4421 ~ .79,50 i 440_~_ .9546 4424 8 1. 272~ 4424 9 ~ 1.4~31~ 4424 12 ]3 !4 Gouge No. 2858 Depth 10883' Clock No. 13874 24 hour 2 2687 ~_ ~29~.3222~ 4427 I 31 .4030~.3.60~ =~.83~l 4425 ~ 5JZ3 ~ 43BB i .6~.~ 4425 ~ I 1 449~ 4430 ~E,~A~XS: Q = Questionable TICKET NO. 817712 Drill Pipe or Tubing ................ Reversing Sub ....................... Water Cushion Valve ................ Drill Pipe ........................ ~~ ........ Df. il 1.2ipe.. Handling Sub & Choke Assembly ...... Dual CIP Valve ................... Dual CIP Sampler .................. Hydro-Spring Tester ................ Multiple CIP Sampler ............... Extension Joint AP Running Case .................. AP RunnJng Case Hydraulic Jar .................... VR Safety Joint ............. Pressure Equalizing Crossover ......... Packer Assembly ................... O.D. I.D. L£NGTH 3.88" 1.75" 2 7/8" 2. 441" 3 1/2" 2. 764" 3.88" .87" 3.88" .62" 3.88" .88" 3.88" 3" 3.88" 3" 3.88" 1" 3.88" .75" 3.90" 1.80" 2.44" ~r. 2.88" Packer Assembly ................... Flush Joint Anchor ................. Pressure Equalizing Tube .......... Blanked-Off B.T. Running Case ....... 3.88" D~U~-C~ B£ANKED .OF.F .B.T....CASE 3.88" Anchor Pipe Safety Joint ............ 3.88" Distributor ........................ Packer Assembly ................... Anchor Pipe Safety Joint ............ Side Wall Anchor ................. Drill Collars ...................... I:lush Joint Anchor .................. Blanked-Off B.T. Running Case ........ ' ' · ' Total Depth ....................... OEP11t 2.36' 2259' 8571 ' 6.37' 10819' 7.99' 10825' 13.40' 4.58' 10845' 4.57' 10849' 3.23' 3.24' 3.81 ' 10860' 15.66' Perforations 4.06' 10879' 4.05' 10883' 1.05' 10888' 10952' P.B.D. EQUIPMENT DATA COMPLETION REPORT REDRILL STANDARD OIL COMPANY OF CALIFORNIA, WESTERN OPERATIONS, INC. AREA: Swanson River Field Kenai, Alaska I2kND OFFICE: Anchorage PROPERTY: Soldotna Creek- Unit WELL NO: 14A-5 LEASE NO: A-028996 API NO: 50-133-20201-1 LOCATION AT SURFACE: 1235' North and 1526' West of Southeast corner Section 5, T7N. ,R9W. LOCATION AT DEPTH: 127' South and 1843' West of surf-ace. ELEVATION: 151' K.B. DATE: February 2, 1976 BY: R. LM. -c n ey Area Engineer 'DRILLED BY: Kenai Drilling Rig #2 DATE COMAMENCED DRILLING: November 6, 1975 RIG RELEASE: December 16, 1975 DATE OF INITIAL PRODUCTION: December 16, 1975 SUi~f~RY TOTAL DEPTH: 11,076' EFFECTIVE DEPTH: 10,905' CASING: 20" Cement At 45' 10 3/4" Cement at 2,100' 7" Sidetracked at 9,164' PLUGS: 11,076' - 10,905' S.T. Plugs: 11,450' - 11,300' 11,3004 - 10,839' 10,839' - 9,164' 5" Cement at 11,075' Top at 8,9~' Cemented Milled window at 9,162' - 9,214' S.T. 7,, Cement.at 11,440 (14-5) December 6~ 1975 'Pulled out of hole and made up 6" bit. Re-entered hole locating top of cement at 8,850'. Drilled out soft cement from 8,850' to 8,959' and tested liner to 3000 psi for 10 minutes, OK. Reduced mud weight to 70# cu/ft. 85-70 pcf mud December 7, 1975 Rigged up an ran Dresser Atlas Cement Bond log from 9,850' to 11,007'. Pulled out of hole leaving centralizer with 2x65' iron bar in hole. Rigged up shooting nipple and tested to 1800 psi, OK. Ran 3 5/8"x20' gun and drove centralizer to bottom. Perforated 4-1/2" holes per foot from i0,992' - 10,984' and 10,972' - 10,965'. 70 pcf mud December 8, 1975 ~ Hooked up flow line and made up Howco test tool. Ran packer in hole with packer at 10,900'. FORMATION TEST H.F.T. 1 - 10,897' - 11,030' ( 12-8-75 ) Opened tool with light bubble hose blow. Dead in 3 hours 40 minutes. Closed in at 3 hours 50 minutes. Closed in after flow for 8 hours 38 minutes shut in. Recorder: IH IF FF FSI FH Top inside 5365 145 4419 4466 5365 Bottom inside 5376 344 4418 4467 5376 Top outside 5372 419 4435 4459 5372 Bottom outside 5386 251 4416 4466 5386 December 9, 1975 Laid dow~ testing tools and rigged for Go International to set E-Z Drill cement retainer. Retainer stopped at 10,836'. Backed out of hole and made up 4 1/8" bit and two 5" casing scrappers. Re-entered hole to 11,028' and circulated. Pulled and made up Go International to set cement retainer. 70 pcf mud December 10~ 1975 Ran into hole and set cement retainer at 10,952', pressure testing to 2000 psi for 15 minutes, OK. Pressured up to 4000 psi with 1/2 cu/ft water and bled back to 3600 psi in 5 minutes. 70 pcf mud December 11, 1975 ~ntered hole with Dresser Atlas and perforated 10,913' to 10,920' and 10,930' to 10,935' with four 1/2" holes per feet. Made up Howco Test tool and tested. Set packer at 10,860' with tail at 10,887'. 70 pcf mud December 12 ~ 1975 FORMATION TEST H.F.T. - 2 10,860' - 10,952' (12-12-75) Opened tool f6r a 4 hour first flow period with a strong bubble hose blow; decreasing to almost dead during test. Closed tool for a 8 hour final closed in pressure. Recorder: IH IF FF FSI FH Top inside 5223 725 4419' 4443 5223' Bottom inside 5253 737 4368 4393 5253 Top outside 5262 1378 4392 4417 5262 Bottom outside 5299 1602 4410 4435 5299 Pulled tool loose along with seven stands to rise. Reverse out muddy water with scum of oil. Laid down test tools, closed Blind Rams and attempted to inject to formation pressure up to 3500 psi with no bleed off. Rigged up Dresser Atlas and ran E-Z drill retainer set at 10,905'. Installed shooting flange and lubricator pressure test to 1200 psi, OK. Re-entered hole with 3 1/2" Carrier gun and perforated 4-1/2" holes from 10,876' to 10,898'. Pulled Dresser equipment and installed flow line. Ran in with 4 1/8" bit 2-5" casing scrapers, circulated and condition hole. Prepared to run tubing. 70 pcf mud December 13~ 1975 Pulled out of hole with 3 1/2" drill pipe. Changed pipe rams to 2 7/8". Ran in with production tubing as programmed (see tubing detail attached). Tested tubing to 5000 psi. 70 Pcf mud December 14 ~ 1975 Completed testing and tubing run with packer set at 10,845'. Installed Cosasco plug, removed B.O.P.S. and installed X-mas tree. 70 pcf mud December 15.~ 1975 Completed check out of X-mas tree and tested to 5300 psi for 10 minutes, OK.~ Displaced well with crude Oil. Closed'~f-A sleeve with C.A. White. Set packer by pumping against plug.~i~ Posi~i~ ~2 nipple at 3000 psi. Plug blew out and fell in rat hole. Pulled and rigged down C.A. ~ite. Tested to determine if packer set, f~Ol! 1800 on tubing, on annulus. Placed well on production. · December 16, 1~75. Completed rigging down. Cleaned mud pits and lines, drained pumps and released rig at 12:00 noon. J. W. Wilson PERFORATI6NS: Four 1/2" Jet holes per foot 10,992'-- 10,984! 10,972' - 10,965' 10,913' - 10,920.' 10,930' - 10,935' 10,876' - 10,892' ~ FORMATION TESTS: No. 1 10,897' - 11,030' No. 2 10,860' - 10,952' LOGS: Schlumberger Dual Induction Log Borehole Compensated Sonic Compensated Formation Density Compensated Neutron Formation Density Saraband 9,147' - 11,047' 9,145' - 11,035' 9,147' - 11,047' 9,147' - 11,047' 9,170' - 11,050' 2" & 5" 2" & 5" 2" & 5" 2" & 5" 5" Dresser Atlas Cement Bond Log 9,850' - 11,030' 5" INITIAL PRODUCTION: Method: OIL: WATER: GAS: GOR: Flowing 36h B/D 85~ B/D 30h9 MCF/D 8376 CF/D November 6-7~ 1975 Commenced operations at 3 P.M. Mixed mud, weight 74 pcf. Install Cosasco plug and tested to 3000 psi. Removed well head and set B.O.P.E. per" Operating Instruction D-17". 74 pcf mud November 8, 1975 Completed installing and testing B.O.P.E. to 5000 psi. Tested Kelly cocks, and-mud maniford to 3000 psi, Hydril to 2500 psi. Landed tubing to release packer at 10,870', with no progress. Removed Cosamco plug and pick up 6' pup and Kelly. Circulated and worked tubing to release packer. November 9 ~ 19.75 Rigged up'jet cutier and cut 2 7/8" tubing at 10,965' and 10,867' pulled out of hole and changed 2 7/8" pipe rams to 3 1/2". November 10, 19 75 Tested 3 1/2" pipe rams to 3000 psi. Made up 5 3/4" O.D. socket with 2 7/8" basket grapple and jars. Engaged fish and chained out .of hole. 74 pcf mud November 11, 1975 Recovered 79' of fish including 7" 29# HS 16-1. Brown pack~r and position 1 "S" nipple. Redress socket with new 2 7/8" basket grapple. Ram in hole and engaged fish but slipped off. Re-engaged fish at 10,948' and jet jarred f~sh loose. 74 pcf mud . · November~ 12 ~ 1975 Recovered 117' of remaining fish and pulled fishing tools. Made up three joints of 2 3/8" tubing with x-over to 3 1/2" drill pipe. Ran im hole to 11,079' and circulated. Mixed 73 sacks of Class "G" cement with .75% CFR 2 slurry weight 115 pcf. Displaced cement with 441 cu/ft of mud. Cement in place at 9:40 P.M. Pulled up to 10,628' and reversed out cement, conditioned mud. Chained and laid down tubing. 74 pcf mud November 13~ 1975 Cleaned shaker tank while out of hole. Re-entered hole-and located plug at 10,839'. Pulled and pressure tested 7" casing to 3000 psi for 15 minutes, OK. Increased mud weight to~.83 pcf and prepared to mill 7" casing. 83 pcf mud November 14, 1975 (14A-5) REDRILL Commenced milling 7,, casing from 9,162' to 9,168' and increased window to. 9,198' where pipe stuck (4 hours) but was worked free and milling continued to 9,214'. Pulled out of hole. 83-90 pcf mud November 15, i975 Re-entered with 3 1/2" drill~pipe to 9,215'. With pipe hung at 9,215', mixed 72 sacks of Class "G" cement with .75% CFR 2 slurry weight 122-127 pcf. Displaced cement, with 368 cu/ft of mud and water. Cement in placed at 9:45 A.M. Reversed out and made up drilling assembly. Ran in hole to plug at 9,087'. Bit plugged and prevented further progress. 90 pcf mud November 16, 1975 Pulled up hole to 2700' circulated and condition mud, circulated at 3,050' - 3,250' - 3,500' - 3,880' - 4,600' - 5,350' - 8,200' and 9,087'. Found hard cement at this point and drilled to 9,164'. 85 pcf mud November 17, 1975 Drilled window from 9,162' to 9,214'. Made up Dyna drill and check for operation, OK. Drilled 6" hole from 9,164' to 9,213' (49').' 87 pcf mud November 18, 1975 Drilled 6" hole 9,312' to 9,313' November 19 ~ 1975 Drilled 6" hole 9,313' 9,447' (100') 88 pcf mud (134') 86 pcf mud · November 20~ 1975 Drilled 6'~ hole 9,447 - 9,529' November 21~ 1975 Drilled 6" hole 9,529' - 9,633' · November 22, 1975 Drilled 6" hole 9,633' 9,715' November 23~ 1975 Drilled 6" hole 9,715'~- 9,820' · November 24, 1975 Drilled 6" hole 9,820' - 9,986' November 25, 197.5 Drilled 6" hole 9,986' - 10,088' November 26, 1975 Drilled 6" hole 10,088' - 10,198' November 27, 1975 Drilled 6" hole 10,198' - 10,320' November 28, 1975 Drilled 6" hole 10,320' -.10,461' (82') (104') (105') " (166') (102 ' ) (110') (122') (141') 87 pcf mud 87 .pcf mud 88 pcf mud 87 pcf mud 88 pcf mud 88 pcf mud 88 pcf mud 89 pcf mud 89 pcf mud November 29 ~ 1975 Drilled 6" hole 10,461' - 10,630' (169') 88 pcf mud November 30, 1975 Drilled.6" hole 10,630' - 10,812' (182') 88 pcf mud December...1, 1975 Drilled 6" hole 10,812' - 10,955' (143') 88 pcf mud December 2, 1975 Drilled 6" hole, 16,955' to 11,076' pulled out of hole an rigged up to run ~Schlumberger logs. 88 pcf mud · December 3, 1975 Ran Schlumberger logs from 9,147" to 11,047'. Dual Induction (2" & 5"), Dual Induction with Linear (5"), Borehole Compensated Sonic (2" & 5"), Formation Density (2" & 5"), Compensated Neutron Formation Density (2" & 5"), Saraband (5"). Condition hole for 5" liner run. 88 pcf mud December 4, 1975 Pulled drill pipe and rigged up to run 5" liner, circulating at 11,070' . 88 pc'f mu~ December 5, 1975 5" LINER Ran 52 joints (2,120') of 5" 18# N-80 Hydrill super flush joint liner landing Baker float shoe at 11,075'. Float collar at 10,987' with Burns hanger groved for cementing at 8,954'. Cemented liner with 250 cu/ft Class "G" cement with .75% CFR-2 displaced with 585 cu/ft water and mud. Had full circulation while cementing. i- , , ELEV. 151' K.B. ! LANDINU MANDRE~ Tu K~B. TUBING HANGER 2458' 5259' 9164~ 215' 2100' .1 PUP JT. 2~" EU~ 6..5# N-80 TU2ING · 72 jTs. 2t" EUE 6o5" N-OO TUBING ~, 289.5h ~ ~ c~co ~ ' 58 JTS. 2%" E~ 6.5~ N-~ TUB~G ~3 JTS. 2~' EUE 6.5~ N-dO TUBING 5,490.68% C~:CO ~ ~DREL '35 JTS. 2~' E~ 6e~ N-SO TUBING 6,~1.O9 ~CO ~ ~ND~L 28 JTS. 2%" EUE 6.5~ N-dO TUBING 7,h97.80~ C~CO ~ ~ND~L ~ J~. 2%" E~ 6'5~ N-~O TUB~G 7,85~72~ C~CO ~ ~ND~L 34 JTS. 2~" EUE 6.~ N-~ TUB~G · 'TOP 5" 8954' 10,803.27~- 9162' I9214' o ' !089'2' !0920' 10965' · '.~ "109B4' 109gZ' . 1.64, 2269. L~ ' 13.O0' 1026.64 ' 13.O0, 13.O2 ' 1079o39' 13.O0' 883.71' 13.O2' 3~. 90 ' 13oO5' 1062.78 ' 1.13' 60 3TSo 2%" EUE ~.?# N-80 TUBING OTIS "XA" SLEEVE 1 10,83~.8~> ~ x 5, 1~ BAKER ~ PACKER 10,8d3~3~ oTis "S" NIPPY, Position ~2 '- 1 BMST JT. / 885.5o, ' TOP OF PLUG 10,905' 2o90' 31.70' 5.~?' 1.50' ~O.66' 11,O75' T.D. 11,O76' "SCU 14A--5 .. CASING a TUBING DETAIL SECTION 5 T. TN.,R. 9W. ANCHORAGE, ALASKA REPORT and PLAN of SUB-SURFACE SURVEY STANDARD OIL COMPANY OF CALIFORNIA IISOLDOTNA C REEK UNIT 14A-5 KENAI, ALASKA r.! v F. ~ , WELL . SC,'./ la ..... A r L""'r'S~Y Al,_ ~,.SS,.'7)CTAT'Lq EAST C O, 4 p U T E X -;,q, ..') '" L; [~ ,'rI I DP I F'"" D Z .:1 LC T()TAL NAT ES 0.00 S ............ 3.00 W C L '" b U R,. ~ . 5 , ,:".!", C f£ A,NGL E ,M O.'uO S ',: · 5 ~S !.33 5 '~,~2 S 4, Z -.,. 6,7'~.. S C} '; :: .: U, .. fi '~ ;' , 3/.,. ..! , , 7 '2 ~ ',' · :' ) ,'-. .., ",, '0 $ O 0 OW SECT I ON D I 5 TANCd ".CO0 . 0.00 ,t.. dOC ...... 0,30 0 · ¢+ '?.. l 0 · i 9 '.:) · 2. 65 b · ~ ",255 O,al '"J · '3.33 3 · 42 .. ,z,.g2 -3.13 r' .., ,- r'.] · ,~ :) __ '2 L,555 -3,01 ~,,277 -~,7~: . · .5'72 -~, ,,t)7 -'7,2u ?,Io7 -~ , 2... ,,.5}2 ',525 -" ': ..... ._ ,, 5, ,'., z, -- _ 6 * ~. 'P .., · :3 '- .4 - i 9 ·.=~ 2 A~ ' CALCULAT!r' 225u ! 45 38~9.62. 35ga.62 '}gz.a. ! "+5 394.3·5'7 3)'88.57 _, ........... ~ ~6 · 39 L ' ,'.,. -; 2 z+5 z,-l'~ 6.37 ~991.37 DR ,- ~'T D E C:, · N 7~ ,.. .N 68 N 70 i .~q ,.,'-' E LEC'Fn'ON I C,. CO!'.'iP~ ~-[' ER 15 4177,33 z+~_ 42,~7.26_ · 4052,26 !0 4256.2' 4081,21 15 4268,1B 4!13.!8 30 4299.15 A, 144. !5 30 a329.10 .4lTa.!C ' ~ a'~5~ q7 420~ q7 45 az, i -/. z.?, ".262.~ ~ 4q2~, "O 45 453c:.0~ 42Ya.9~ ., . ~5 45-/~.aZ ~423.42 9 459R . 74 4453,74 4599. ~ l -- : '2 · ..... . · C ' 0 DIST;;, _ 29,08 30.'/2 ~3.~ i 3o.5'? :57. !0 DOG LEG U R E $ SEVERITY .._ SECT ION ANGLE . I'OEG/IOOF.T ................. DISTANCE S 53 4 20 E 0.032 -21.99 S 5'7 30 8 E 0.~80 -2.~,76 S 61 55 42 i 0,591 -28,42 S 07. 21__15 E_ 0.70~ ........... -32.71 6 68 6 Z5 E 0.640 -33·40 BELOW., _,FRON DRILCON 51NGLE SHOT !3,83 S 36.18 _. lA,gl ..... S ............ 3_7.d~. E _6.t+8 S ..... 38.49 !7.72 S ._ 38.34 E !8.57 ..$ .............. 31.28, 20.~ 5 ~. Z'& 2a. Za. . ~ 7.4q FL ...... 24.Z6_5 ........... 6. !~_ E . 2q-,4-/ S . O,ig 24.69 S ~.)~ '" . ~ ~ ...... 25.07..S ..... !3.44 ',' ?n.7~ ~ 2~ ' ~ ,,,, ~ ~' ~ .... ~ · ~ ~ 26.61 S _ . 2f.al ?.' }2.7~' S 3.5.56 S 74.k4 '.',' 4!,42' S ~ng,:i.C '," an 5' S ~J, .~ ~ '.'~ ...~ 3~,74 S 69 4 34 E a0.68 S 6~ 38 25..E 4!.g7 S 66 49 !8 42,2a S' 65 11 6 4!.b6 4-0,57 50.96 S P8 15 ~0 E 34.30 2~,0~ 3.716 -35.15 6.247 ................-36.75 ~;. 684 -37,27 5.658 -37.03 5. 787 ...............-35,92 4.0!i -34.23 5,855 -51.65 L,563 ...... --23.84 ! · ~+0~+ --! 5 · 14 2.289 --5,72 3.125 ......... -6.~'/ 5.495 . !.a9 G .032 7.93 5.!97 ......... 15.13 5.075 22 · 69 3.332 - 31.'7 3 · 643 q 2 · E I ,. · 31 t;c'* I" i .a21 ~7,'.' -t ~,~0! ICY,eS 2.519 14!.65 CALCULATIONS RECORD OF SURVEY PER~O?.XcD BY I B....?,I ~:L~',.TRONIC .... COHPUTER T~L;C ~,'--.r=?.,, ,,iER~ICAL. 21 nS. 5123,26 .... 4968.26 21 ~3 5209,7'9 5054.79 ?0 45 5527.0~ 5372,0[5 DR ! ¢"' TOTAL. , ,.wwr, uINArES C L O Z R EC ................................... F.', ! STANCE DEC 85 '~ 48.45 S ........... 172.45 w 179.12 96 k' 50,8~ S 206.45 '.,. 212.61 27 ',', 52.63 S '240.~3 :: ,246.52 ~ ,,,l ~4.2] S ............286.11 '.,: 291.20 on. ~, ",. 54.2~ S ...... 32~.62 8g ". 53,91 S ........ 34~,7P '.',' 349,96 ~,r) % 53.,.91 ....S ........... 356.~5 W '~6n.91 ~0 h 56.33 S ...376.1~3 7~: ~, ~ 52 S ............ 400.76 ",' 405.~5 oO ..... W. 67.36 S 43~.~''~. ,_,.. ~,',, ~3G.'~6 S 8~ ..... . ~ 74,20 q n77.(.'~' ',,',' 482.78 72 ,'. ~0.42 S ......521.33 ,', 527.49 ~,.~ ','.' 82,95 S 557.,'.~3 v. 563.57 o: ~6.8~ S 5~c:__. 4" ' 59~' 80 ?'~ :,',' c,3.89 c 622.,~ 62r;,7~ ..... ~ . ~ ........ 8~'_, ~., 9°.72_ 5 65~-.~2 '.', ~g;'~..~.!9 g5 ~,' ...... !92.82._S. 7~,{;'.~'. '- 756.2~ n:, ' I°2,~2 S ~9}.2 ' $ c'qg v' .... i05.92 S 75(.,76 - .... -: c09.a0 S d" " ,O~.C? c. gp3.~-~ c79,.3~ an ,. '~,3~ 5 ? .... _.' .... s~.2~ . ~6...2v. "'? .,',' i'" ~ '~" < 56:' ': -. ~ ~ ~ ~ .. ~ . S .... ~:i ' '0c,.05 c~ ~526. S U R E S ANG L E O i'4 S S 74 S 76 !0 S 77 40 S 79 16 S 80 37 S ~~ S 81 24 S B1 3t 21 w 4 W 19 W 13 w 55 W 15 l~l W DOG bEG SEVE, R i TY SECT ION ,..,=11OOFI ..............OlSTANCr_- 0.855 ........ 175.36 0.479 20e.45 0.465 243.8.7 0,290 ................ 289.15 3.728 . ~31.57 0.8E2 3~8.66 1.339 ............ 359.7% 5. 798 ~69.27 6.390 379.31 1.647 ............. 4-06.03 " ~ 9 437 · ~+0 9.5O2 4~i.Ui ~ 505 525.61 ! · 515 pOI i.206 "' 266 b2u.x7 O .7R7 659.40 C · OCO 7C3. C.3OO ..... 754.57 l.OfiO g~C. 39 ".40'0 ;34 b · ' 2 ~ ..90 c,O T~L!E Dq I FT ¢., v6z+~ lC 15 ~aSO,OR 7305,08 S 7 v~25, 19 90, 7¢'"=2.56..,_ , 7377,66 S 67 72].~ i9 15 7620.46 7465.4('~ S 0,~3 ',': v~a,~? ..... "o 15 ~73'7.q3, ,'758~.5~_ . S 59 '/,' ?"'"6,5,.,lC, 0 ~ 85.3.2 ~, 76':::; ~'''., ,.. ,:.,"'3 5 '7,'0 ~,'., E"65 l~; 45 794g.47 7794,./+7 & 76 .< <"'~" ? '~ '5 ...... :4'3~7.31 7932.°.'~ c ~f,",'7 "© ~ ..1 . ,..'z_ ' .~., '.r .... z. 'O ~.76,i~6 ~r cG S 69 ~ ~"'"0 ~ e 30 ~2~"" ¢"'" " S 75 .,. , ,~. · U 13 '/· o ,", , , r696 lO .3, Q Ba'q. 9.2¢ ~J294,2~2 c'29 lo. 45: .;~q74_, .66 t4'9'- .46 S i'5 .'- r;~,.,G4 ='a 45 2Exo.,.a.~., ~;7.,'x4.4c, , ..... TOTAL "'"r"nr:"r;INA'rES C L. r, . . %. r-, I ,,:- T/., ,., i',i u. i" I.!~ ,70 S 103 · 121,7/+ 133,23 S ....... fO8 S, OG.._W 1090.17 DOG LEG .... U,,' E S SEvr:R,_ . tTY .. .SECTION ANGLE ......... BZG/iOOET .................... DISTANCE S 83 50 ~+4 W 6.933 .... 1041,17 S 83 26 44., 3.q59 1055.40 S 83 ! 7 W 0.447 1094.61 147,8° S I12.6..2! .... ,, .......... i139 87 S 181,97 S I163,34 W ii75.00 !72~68 S ITM " ..... ~,~ .34._W =22'0.76 198,92 S 1269,73 ?. i2.~.22 209,54 S !309.39 4 1326,05 c = ~ ~' i'~81,27 S *34 5~ ~ 1408.5" "' "r+2~J99 ~' - ~ 247,17 S 1465.78 ~,': i4~.d.4.-1 S .- ' ~ 539.86 S 25 ~ · 44 ....S ....15 ~TM. 3 a .'~ .~ ~ ,255 ................... !133 · ~9 C.33u 1172.17 O .24.~ '~ i 203 · 37 '0,~62 ............ i250.06 ]..C6u !2.tO. 3g 1.628 1328,67 ~0 4.2 40 ~'~ '~.201 1~75 23 gO 3! 53 W 0,515 i419,33 80 25 42 W . C.593 i~'~9.27 60 24 42 .w 0.45o ..................!532.36 I · 595 ..... iau3 · '7,:; r. 3 4. i '7 C 7 . '~ -' ...514 i 1i-7 ' i · 9 :-I 9 1727. ,'<' ',':. 4:'; O 1743. ~ ~ .. · '.507 ' 772.. v ~ EC©~-:D 0 ALL CALC' ;TIOiX; cc '"'FOR r."- ...... !L,', S , E:': ."i,~... Y SURVEY ~:i~,. .... ELn'CTRO,'~IC~, .COr,iPUTER T:-2UE V z.", T T C ,~ ,. ..... r- r',CPTH /k '..: ~ :.., .... - , , Su£',~, DR!UT TOTAL CEOS(..;.. l..,,Tao"c C L. O' I~3.51 173.02 162.22 ~77~o~2._W .,. ~ 7~5.48 W 1799.07 .W S W R E S A ~',! G L E D ,v, S ,: ,.46.90 E~_T AT .., S l:-:.',/E f.~,' ?Y SECT I ON :O'/PLET !OFi REPORT ....... ;,'*?,'bARD OIL CO. OF CALIFORNIA ',':.G'<ET!C SINGLE SHOT SURVEY 'A";GE.;,,'T:AL t<ETHOD OF C0,".!PUTATiO,NS ..:,'"'"c'"r-9: ,., -~O2 HAROL~'' Bonl~,, .... ...... ~ , .... ,,'~ Cm,..o ANy =EBRUARY.OS,!gm6 .... WELL SCU !4-5 DECLINATION 25 DEG. KB ELEVATION 155 FT. L!NDSEY AND ASSOCIATES EAST ALL CALCULAT ~ Ol::S ......... TPUE r-,~..:.l.r:T V'-r~z ,T ICAt_ SU9 , $ U R E S A N (3 L E D M S DOG LEG SEVERITY SECTION DZG/!OOFT DZSTANCE 0154 °O~TIC, N OF 1518.35 W 1539.86 'ru¢ HOL~ WAS SID~Tr~ACKED S 80 24 ~9 W 0.000 1532.36 !557,76 1597.23 ! 646 . 53 _ ~ , ~ · 05 l 'f2 /. 5:2 ~','5;~o 7.3 l '!: ~: I, 03 ~ x'OF ~'"" 7 2C61,0~ 2' q'~ 7v ~ --I 1579.75 W 16i9,B9 ',;,.l 1669.36 "' ~7a~ 09 .. ~ W .~ 7-/a,,,99 1915,52 2 O 2 z,. ~,. ! 2081.55 . ',', 720" ',,',~ .? 2 ¢-, C · '~ z 0.497 1572.10 0.481 1611.85 3.331 1661.51 0.640 1693,23 0.533 1743,~4 0.675 1771.25 0.253 1822,6~ O.O00 1856.7a ~,~b7 2018.37 0,3~7-, 2076,19 0.22a . 2!19,~0 0.346 22C4.9v 9'.~7'? 22 :'/. 31 SUE S: A a55 555 65r. ~ 755 , .. . . .... - _. .. _ _; 2~5, 355, 2 655. 755. S~:5,_, 7 .... " ! 0 % ~ · 9 C '~ · !!55. lOC:*. ~ s~5, 129' !4 r:'5. ~ 3:"" ]7~ ~ , *er, 5. ....... c 5~ . 23'2 , 255~ , :' ¢. ~., 2'-' ~:" 2'. ~ .j 1 2555...':,' t~.. "' ~:'. SEA T 9 T A L COO?.D I~';ATES S $ S S 5 S S 5 C,' · O0 O.OC W 0.00 W J.O0 w O,O0 w O.CO w O. O C) w 0.00 0. UU w. O.oO. O.O0 w 0~00 w 0.09 0.37 0,47 i 2.14 2 2.0~j 4,07 ;,50 E 7,¢~9 ?.65 _ _'7 · 3..* " t DATA FOR EVEIY _EVE?.z LC() FEET._ OF $ L A D i P T H. 9 2 0 V 57?4 ~. ~ ., .... . - ,. ~ ~, , 5755. 4!55. 4255 · z., 2,55 · 4 C, 5 5 · f;:J 95. SL'? :k'] D- t' V r', Dr ~ F"' :; ::%Cr: VCRT i C ' CC ''~ o .... 0~ T OT . ,,. AL C00t,( D INA 1'ES .,, 26.36 E 23.4,0 2(:.4.0 ~.£ 30 , 35 .i 3 ~ * 92 S 33.z~6 E 20.08 6.62 !1.32 ,,'~ 44.37 W 72 · 43 ,~' ! 06 · 1 l W ! S 4.92 ?.' 224.00 252 · Z~9.07 ',~' 574,75 W 410.L0 ,,,: L-47, 22 '.'.' f 2 4.9 Z ~ - 600.57 531~5~ .-. 6!4 · 2 71...04- ::23.2:5 ., ::;5.~7 ','..' DATA '-m,', r:' ,- - ,-.. r',.r...VTRY L:Vi:''''''~-,, IOS~ .. FC:'CT,_ ,.,"'F' $","~..,-~ Sc~A ... SU~} P':D-TVD ........ V ES-:T I CAL_. ,'5 F!: A D I F ~'" ,~ '-" C c f,~ ,- ,..- rtz .~. ..... CO :<:..CT;O,', TOTAL 710q,.. ':' v 0') -z l,,,O 7400 ~ 6C:0 7700 7800 k/ ',, F C '2 O . ~' ,~ ,~ .. .. :'? %. r:) T H, COCR f,~ INATES ~ 75 5 ~ 0'7, .;2. '-:: . ............... '7 ................ zlI.24 S I'2/~ 6 -. i2/,,-, 6o S 2 '2 r, - .. 6 ...... _3'/. 5~ S ?25 5 l:~°. 9s S 2!'i . .. 6 - 161.7! S -";~ 5 ' '~4.0.7 ' -.:.-'-. _ ........... 6 ......... 205. OJ S 2'r'' '''' i . 223.4.~.] S o 53 6 2 ''~ '-; :-- 77 5 2 ~'," . ................ 7 ................ 2z,(.) o b 3 S v'"5-,-, 6 Z4~:. Cb~S 272 L, 254.29 £ .................. .b .....................25.:5.77 2r-,' a ? ~,5, r;O ,' '-' '/' 3 25:~,c3 S · '. . . 2 ": -" '". ............... 2= ~ . 67 2°2 3 >;,.l. &7 29-'- . ............................ 2 ...................... 7Z5.24 5 - ,- zt.~,., _ 5 cc:- ~ 221.6z- .- - - ~_.. .... 65 2'2 ..... !Y}.3'- 5 -' \ ~ -- ~- , t . ..', - ',..52, -? -' l?" _ isl.,.- - 962.80 997.23 '~ 034 2a 1066.54 W 1099.30 ;,,; !131.85 i' 96.18 1296.46 .W . ...... ~330.75 W ._ i365.13 13 9 ':. a 2 w "' 35.24 ' 50{:.!5 w _.. 156z,, O0 w ~Sz3,1b ;j .......................................... i. ',~35.20 v, ' 577.72 - ',-,.~6 v, i'/~3.:'2 .., - '7&5. ~2 i-' / 1.':, ' I i I I t S Ur~ ._. !0, 16. Z~ , _,03. O0 ¢ 0 . ,'~r', '' ......... ~, C D S .................. '..'.~ ,, 00 73 S 4°50._,'-- 0a c: '-'~ I~ r:' 6 ~ ": !!5 ;:'T .. PI 5__ 2'~ 0~ .......... ,,.. · ~ .. 154.. 34 ..,. S .......... I i '-, 3.9 "~ .':' 245.74 S _ .!4{:,3.77 ':? 225,,75. 5 .... "i.70~.~3 v~ 7000 000 ........... ; ..... ~-~.1~0,000 ~ . ..... · - TVD: I! 056' TMD= 11,450' TVD = 10~766'~ TMD=I 1,076' ..... $CU' 14A-5 ~ 1,056' TMD = I 1,450' CLOSURE_..~ S 86° 04' W . LOCATED IN THE APPENDIX UI WFL UI IPR LOG UI CALIPER SURVEY UI VOLAN ~1 CURVE DATA [21STRATIGRAPHIC HIGH RESOLUTION DIPMETER ~ OTHER' No. P--4 3- 1-70 STATE Or ALASKA SUBMIT IIW DUPLICATE OIL AND GAS CONSERVATION COMMI'FI'EE MONTHLY REPORT OF DRILLING AND WORKOVER OPERATIONS AP1 NU~ERICAL CODE 4. LOCA~ONO~ W~ 1228' North and 1533' West of SE corner of Sec. T7N, R9W, SB&M 50-133-20201-1 6 LEASE DESIGNA~ON AND S~IAL NO. A-028996 WKLL WELL OTHEI% 2. NAME OF OPElgJLTOR 8. L.~IT.FARAI OR LEASE NAME Standard 0il Company of California, WOI Soldo~na Creek 3. ADDRESS OF OPhiR 9 WE~ NO P.O. Box 7-839, Anchorage, Alaska 99510 SCU 14A-5 5; 10. F~;I.~ AN'D POOL. OR '~VILDCAT Swanson River - Hemlock 11. SEC., T., R., M., (BO~YOM HOLE O Se~.~r~7N, R9W; SB&M 19. P]EPdVIIT NO. 75-60 13. REPORT TOTAL DEPTH AT END OF MONTH, CI-IA~%'GF~S IN HOLE SIZE, CASING AIN-DCEMENTING JOBS INCLUDING DEPTH SET AND VOLUlVIES USED, PERFORATIONS,TESTS A/ND tkESULTS. FISHING JOtlS. JIINK IN HOLE A.ND SIDE-TRACKED HOLE AND ANY O'T'I'KER SIGNIFICANT CI-IA.NGES IN HOL]~ CONDITIONS. December 1975 Directionally drilled 6" hole from 10814 - 11076' ran D1L, Bce, FDC-CNL logs. Cemented 2120' of 5", 18# N-80 liner at 11075; with 215 sacks class G cement. Drilled out cement and ~leaned out to 11030' Ran cement bond log. Perf'd fo~ 1/2" jet hol~r~10965 - 10972' and i0984 - 10992'. Formation test of hole 10965 - 10972 and 10984 ~ 10992'. Tool open 4 hours. No gas to surface. Recovered 69 bbls. of water with scum of oil, Set retainer at 10952'. Per- forated four 1/2" jet no±e's?~rom 10913 - 10920' and 10930 - 10935'. Formation test of holes 10913 - 10920 and 10930 - 10935'. Tool open 4 hours. No gas to surface. Recovered 60 barrels of water with trace of oil. Set retainer at 10905'. Perforated four 1/2" jet holes~om 10876 - 10892'. Ran tubing with packer set at 10845;. Installed christmas tree. Displaced mud with oil. Crew released 12:00 pm December 16, 1975. 14. I hereby certify that the foregoing is S~GN~D R. M. McKinley Area Engineer DAT'~__ NOTE--Report on this form is required for .each calendar month~ regardless of the status of operations, and must be filed in duplicate with the oil and gas conservation committee bythe IDth of the succeeding month, unless otherwise directed. TRANSMITTAL AND ACKNOWLE .... EMENT OF RECEIPT OF MATERIAL - ~,H~ASKA) DEPT.:_ 3001 Anc, toj.'" -'age ~ Ala::~ka. 995114 PLACE: THE FOLLOWING IS A LIST OF MATERIAL ENCLOSED HEREIN. PLEASE CHECK AND ADVISE IMMEDIATELY. '-'- COM AN CA SCA g RUNS INDUCTION ELECTRICAL LOG __~_. DUAL INDUCTION LATEROLOG ~ BOREtlOLE COMPENSATED SONIC BOREHOLE COMP. SONIC w/caliper BOREHOLE COMP. SONIC w/gamma .BOREHOLE TELEVIEWER CONTINUOUS DIPMETER- .High Res. CDM- POLYWOG PLOT CEMENT BOND LOG CASING COLLAR LOG - Perf. Rec. ~/ COMPENSATED FORMATION DEN. __ COMPE,~SA~ED NEUTRON · FORMATION ANALYSIS LOG FORAL4TION DENSITY LOG F F FORMATION TESTER FORMATION FACTOR F F GAMMA RAY GAb~A RAY - NEUTRON GAM~bi RAY COLLAR LOG MICRO LOG MI CROLATEROLOG MUD LOG NEUTRON LOG · " PROXIMITY MICROLOG RWA COMPARISON PLOT SANDSTONE ANALYSIS __ ! SARABAND SIDEWALL NEUTRON POROSITY SONIC TE~[PERATURE LOG t,,.~ ~'~ ~ ~"~ r- ~,.~...~ ,'-'...~ '~'~ ,-, .'.~- COMPLETION REPORT DIRECTIONAL SURVEY CORE DATA SARABAND TABULAR LISTING · - z--- -. r ~ - , ,. ', ,' - ~ .- · . . Received and checked by: I I I00 zoo TRANSMITTAL AF~-' ACKNOWLEDGEMENT OF RECEIPT OF t ERIAL - (ALASKA) TO: ~"~' 'J'' . Harshall Store of Alaska Division of Oil[ & Gas DEPT.: 300'~. Porcupine Drive PLACE: Ancho~:ag.a, Alaska 99504 DATE "i . -' .~ _~, ~ ) t'~, , ....... ,:..-- _.-_~_~,+,.~- ~ ..... ED - Folded R' - Rolled ~':~ ~C (?'_. ~ ~ ~'.~ ~ "~'~'} S - Sepia .....~.<t.J] [~..:, ~''~ [k, '~ ~J:' F - Film ~'~,~ l!:.'~) X - Xeroi COMPANY WELL THE FOLLOWING IS A LIST OF MATERIAL ENCLOSED HE~R:,Ei~;!~ PL:EASE CHECK'3~AND'"'~"~" ADVISE IMMEDIATELY. . · .~" 'HISTOR~'' LOG' 2'1 5" ~ " I00 200 RECEIVED BY REt/lARKS ON OTHER SIDE, THIS SHE'ET BY TltANSI,II',J'TA], Al:'-> ACI[i'.,~Ot,IJ,EJ)CF. HENT OF RECEJiPT OF 14~:)'J.',Y.'IAL - (AJ,ASKA) DEPT.: PLACE: T0: i'K". ~'. R. Narsh;i'!l. DATE . ...a.I- -~ St ..... u of Alaska DJ'vision of ~- od0 .... r c:. ;:cu[~:[ n.e Drive bzichor,Txf.};e, f,! aska TIlE FOLLOWING IS A LIST OF 1.5\TERI. AL ENCLOSED 'ltERETN. PLEAS]'] CIlECK AND AI)¥ISF, II.IHEDIiATELY. RECEIVED lr~rm N'o. P--4 I%EV. 3- I-?0 STATE OF ALASKA OIL AND GAS CONSERVATION COMMI'i-rEE MONTHLY REPORT OF DRILLING AND WORKOVER OPERATIONS SUBMIT EW DUPLICATE 0IL ~-~ G&I~I O WELL WELL OTHER NAME OF OPERATOR Standard Oil Company of Californiar WOI ~. ~DD~ OF O~k~ATOR P. 0. Box 7-839, Anchorage, Alaska 99510 4. LOCATION O.F W 1228' North and 1533' West of SE corner of Sec. 5; T-7N, R-9W S. B&M ~APi NU~iEH1CAL CODE 8. LmlT r~{ OR LEASE Soldo~na Creek SCU 14A-5 Swanson River He 75-60 13. REPORT TOTAL DEPTH AT END OF MONTH, C!-IA~'qGES IN HOLE SIZE, CASING AND CEIVIENTING JOBS INCLUDING DEPTH SET ANI) VOLLFfvTES USED. PERFORATIONS, T~ESTS A-~rD I~ESULTS, FISHING JOt%S. JU~iK LN HOLE A.~D SIDE-TRACKED HOLE A/VD ANY OTHER SIGNIFICA2~T CHA3qGES IN HOL~ CONDITIONS. November 1975 Commenced operations at 3:00 p.m. 11-6-75. Filled well with 74 pcf mud. Removed christmas tree and installed class III B.O.P.E. Tested B.O.P.E. o.k. to 3000 psi. Fished and recovered all of tubing and packers. Bridged well with 73 sacks of class G cement from 10,839' to 11,079'. Milled section out of 7" casing from 9162-9214'. Bridged hole with 72 sacks of class "G" cement from 9087' to 9215'. Drilled out cement from 9087' to 9164' and directionally drilled 6" hole from 9164' to 10,814'. 14. I hereby certify that /..~" R. M. McKinley/~ ~~u~ Area Enqineer DATE SIGNED NOTE iRegort off this form is required for each calendar month~ regardless of the status of operations, and must be flied In duplicate with the oil and gas conlervatlon committee by the 15th of the sueceeding month, unless otherwise directed. October 22, 3975 Be: Soldotrm C~k SCU 14 A-5 75-~ Mr. R. McKinley Area Engineer Standa~ Oi 1 Co~4~any of ~1 t forn i a P. O. Box 7-839 Anchora~, Alaska 99510 Dear Sir: Enclosed is t~,~ approved application for permit to drill the above referenced well at a location in Section 5, Township 7N, Range 9W, SM. Well samples, core chips, and a mud log are not required. A directional survey is required. ~4any rivers in Alaska and their drainage systems have been classified as important for the sp~tng or migration of anadrom..ous fish. Operations in ~se areas are subject to AS 16.50.870 and the regulations promulgated there- under {Title 5, Alaska Administrative Code). Prior to conmmncing operations you may be con~cted by t~ Habitat Coordinator's office, Department of Fish and Ga~. Pol!uti~ of any waters of t~ State is prohibited by AS 46, Chapter 03, Article 7 and Me regulations :promulgated thereunder (Title 18, Alaska A~inistrative Code, Chap~r 70) and by the Federal Water Pollution Control Act, as amended. ~ior to coat-ricing operations you may be contacted by a representative of the ~partment of Envirofanental Conservation. Please notifY the Oivision of Oil and Gas within 48 hours after the well is active so that a representative of the Division may be present to witness test- ing of blowout prevention equi~nt. In the event of suspension or.abandonment please give this office adequate advance notifi~tion so that we may have a witness present. Ve~ truly yours, O. K. Gilbre~, dr. Chairman Alaska Oil and Gas Conservation Committee OKG.be Enclosure cc: De~rtment of Fish and ~, Habi~t Section w/o encl. De.parent of Envir~nmn~i Conservation w/o encl. ~par~ent of Labor, Su~rvi~or, Labor Law C~pliance ~ivisi~ w/o e~l. form I0'-- 401 .R..~. I--I--71 SUBMIT IN TRIP~ (Other mstruction~ reverse side) STATE O:F ALASKA OIL AND GAS CONSERVATIO'N ,COMMITTEE' PERMIT TO DRILL OR DEEPEN la.TYP~ OF WOrK DRILL t--] DEEPEN [~ REDRILL X TYP~ OF W~LL WeLL W~LL OTHER ZON~ ZONE 2. NAME OF oPEk°~TOR Standard Oil Company of California; WOI, ..o.p~r~eor 3. ADDRESS O'F OPERATOR P. O. Box 7-839, Anchorage, Alaska 99510 4.LOCATION OF WELL At surface 1228' North & 1533' West of SE corner of Sec. 5 T7N R9W At proposed prod. zone 1150' North & 1900' East of SW corner Sec 5 13. DISTANCE IN MILES AND DIRECTION FROM NEAREST TOWN OR POST OFFICE* 16.5 miles (approx) from Kenai AP I#50-133-20201-01 6.LEASE DI~;IGNA'IqON AND S]gl:[l.A-L NO. A-028996 "/. IF INDIAN, ALLOTTEE OR TRIBE NAME 8. UNIT, FARM O1{ LEASE NAME Soldotna Creek 9. WELL NO. scu m~s /¢/9 -6- ]0. FIELD AND POOL, OR WILDCAT Swanson River 11. SEC., T.. R.. M.. HOLE OBJECTIVE~ Sec 5 T7N R9W 14. BOND INFOFLMATION: Statewide ~451636 TYPE Na~i0~wid~urety and/or No..qT, 6P. 05R62 15. DISTANCE FROM PROPOSED* LOCATION TO NEAREST +1500 ' PROPERTY OR ~_EAS~, LINE, ~r. __ (Also to nearest drig, unit, if any) 18. DISTANCE FROM PROPOSED LOCA~ON* TO NEAREST WELL DRILLING, COMPLETED, OR APPLIED FOR, FT. +1500' 21. ELEVATIONS (Show whether DF, RT, CH, etc.~ GL 138' [18. NO. OFACRES IN LEASE 2560 19. PROPOS'~D DEPTH 11,075' 100,000 ~o~mt 150,000 17. NO. ACRES ASSIGNED TO THiS WELL 80 20. ROTARY OR CABLE TC)OL.~ Rotary 22. APPROX. DATE WORK WILL November 1975 23. PROPOSED CASING AND CEMENTING PROGRAM ,,. SIZE OF HOLE SIZE OF CASING WEIGHT PER FOOT GRAI)E S~TTING DEPTH q u a n t i tM of c e m e n t ,, .. c.~ , . , . )~.,,, ~; ,/,'_ ,,': . , / , , .... , , , * We propose to redrill SCU 14-5 as per attached prograph. Well to be redesignated SCU 14A-5. IN ABOV~ SI~AC~ D~SCR/BE PROPOSED PROf;R.~VI: If ~1 is to dee~n 'give ~ on present p~u~ive zone ~d pro~ ~w preclusive ~ne..!( ~o~1 i~ ~. drill or d~n d~ec%ionally, glve p~r~ment ~' on s~bsu~a~ ~tW~ ~d meas~d and ~ue Ve~ical dept, Give-b~{ Dreventer~ program. 24.1 hereby ce~ify ~he ~rego~~e an~ Corre~ / ./~~//~ (This space for State office use) SAMPLES AND CORE CHIPS DmECTZONaL SURVEY ,~.YES [] NO M,UD LOG]~ [] YES NO CONDITIONS OF APPROVAL, IF ANY: iA.P.I. NUMERICAl, COD~ SEE TRANSMITTAL LETTER 2o zo t -o/ Area Enoineer October 22~ 1975 October 22, 1975 Proposal for Well Operations PRO 316-1 Rework of SCU 14-5 Field: Swanson River Property and Well: SCU 14-5 (to be redesignated 14A-5) Surface Location: 1235' N and 1526' W of SE corner, Section 5 T-7-N, R-9-W, SB & M Bottom Hole Location (At H-4 Point - Target): (a) Existing: 959' N and 1510' E of SW Corner Section 5 (b) Proposed: 1150' N and 1900' E of SW Corner Section 5 Elevation: 151' KB, which is 13' above G.L. Total Depth: 11,450' Plugs: 11,340' Cement Casing: 20" cemented at 45' 10 3/4" cemented at 2100' 7" cemented at 11,440'; 700 sacks around shoe and 700 sacks with 4% Gel through DV at 7422'. Bottom 6,180' - 29# P-110 8RD Next 2,802' - 26# P-110 Buttress Next . 2,403' - 23# N-80 Buttress Top 55' - 29# N-80 Buttress 11,440' Perforations: 4 1/2" holes per foot 4 1/2" holes per foot 10,956' -10,992' 11,000' - 11,044' Directional: Drilled'directionally below 4147'. Maximum angle is 21°. Junk: None. Tubing: See attached mechanical detail. Plug in "D" Nipple at 10,993'. Wire and junk above plug. Completion: November, 1969, in Hemlock 2-4 intervals. Last Production: 6/20/74 0/0/0 Proposal for Well Operations PRO 316-1 Rework Of SCU 14-5 Blowout Prevention Consideration: 1. Potential Problems: A. Gas: Gas may be encountered any time after releasing packers, during cleanout of 7" prior to abandonment and while redrilling. Care must be exercised at all times not to swab well. B. Water Entries: Extreme caution must be exercised while rework- ing. A mud weight of up to 98 pcf may be required to overbalance potential high pressure entries above the Hemlock. This well was originally drilled with 90-98 pcf mud from 9000' to TD without entry problems. C. Lost Circulation: The programmed mud weight of 85 pcf at KOP is the minimum which can be used to provide adequate overbalance for the zones above the Hemlock. Because of the low Hemlock pressure (4450 psi) in this part of the reservoir, lost circu- lation in these zones could definitely occur. LCM should be kept on hand at all times. D. Precautions: Any kicks should be handled by normal procedures. Drilling crews should be made aware of these methods and care must be exercised by every member at all times. The hole must be kept full. 2. Maximum AnticiPated Formation Pressure: Est. 4450 psi at Hemlock H'4 Point (Target) Est. 5000 psi in gas sands above Hemlock 3. Maximum Possible Surface Pressure: 3850 psi 4. Blowout Prevention Equipment: A. As per "Operating Instructions D-17." B. Class III, 10" - 5000 psi for all work. Estimated Correlations and Depths: Marker Subsea Vertical Measured KOP -8,734 ' 8,889 ' 9,164 ' H-4 (Base H5, Target) -10,-500' 10,655' 10,972' T.D. -10,600' 10,755' ll, 076' Proposal for Well Operations PRO 316-1 RewOrk of SCU 14-5 PROGRAM 1. Prior to rigging up, pull valve from mandrel @ 10,815'. Check casing x casing annulus for pressure. 2. Move-in rig. Mix 74 pcf mud. 3. Kill well by pumping down tubing and up tubing x casing annulus. 4. Install Cosasco plug and remove tree. 5. Nipple up 10" - 5000~ Class III BOPE including 5000 psi blow and kill lines. Pressure test to 5000# and remove Cosasco. 6. Release packers and pull production equipment slowly to minimize swabbing. Examine jewelry for damages and note depths. 7. Cleanout to below bottom of perforations at 11,044'. 8. Equalize cement'plug in stages, if necessary, from effective depth to 10,800'+. Downsqueeze 100 lineal feet. 9. Run bit and locate top of cement. If necessary, recement to 10,850'~. DOG to witness. 10. Pressure test the 7" casing to 3000 psi with rig pumps for 15 minutes° 11. Condition mud to 85 pcf. 12. Mill a 40' window in the 7", 29~, P-110 casing from 9132' to 9172'. 13. Plug the window with densified c~nent (126-129 pcf). Top of plug is to be 150'+ above top of window. Do%~nsqueeze, leaving top of plug 50'+ above window. 14. Drill out cement plug to 2' below top of window. 15. Sidetrack original hole and directionally redrill 6" hole to a total depth of 11,075'. A directional plat will be furnished, but the target is the base of H5 sand (H4 point) deviated 325'~ in a N 45°E direction. Note: Redrill operations will start with 85 pcf mud. The system is to be continually monitored and mud weight is to be increasad only as required to combat high pressure entry. Excessive mud weight will result in serious loss circulation while drilling the Hemlock. ~Proposal for Well Operations PRO 316-1 Rework of SCU 14-5 6 16. At T.D., condition mud for logs. Obtain a 1/2 gallon sample of drill- ing fluid before pulling out of the hole. 17. Run Schlumberger Dual Induction Laterolog with SP, BHC Sonic with SP, and Compensated Neutron - Density Log from T.D. to the 7" casing. A. Use linear scale for 2" DIL and logarithmic scale for 5" DIL. B. Use +10 MV SP scale and 0-50 ohm-meters for the linear DIL. 18. Cement approximately 2200'+ of 5", 18#, N-80 JFJ liner at total depth with sufficient Class "G" cement premixed with 3/4% CFR-2 to obtain returns above top of liner. Equip liner with 5" x 7", 29# Burns liner hanger grooved for cementing. Allow for 200' of liner lap. A. Run float collar and float shoe. Float collar is to be one joint above shoe. 19. Clean out cement to float collar. 20. Run variable density cement bond - neutron - collar log from effec- tive depth to above top of liner hanger. 21. Pressure test 7" casing, 5" x 7" lap and 5" liner to 3000 psig for 15 minutes. 22. Condition mud weight to 68-70 pcf. 23. Jet perforate selected Hemlock sand intervals for production. 24. Run tandem 5" casing scrapers and scrape the entire 5" liner. 25. Run and hydrotest to 5000 psig 2 7/8" x 2 3/8" tubing, gas lift mandrels, and completion jewelry. A detailed completion program will be provided after T.D. logs have been run. 26. Remove BOPE and install xmas tree. Pressure test tree to 5000 psig. Displace drilling fluid down the annulus and up the tubing with lease crude oil. 27. Set produc%ion packers and release rig. Place well on production as directed. o/s Area Engineer ~ ~ Super~~6~ R. M. McKinley DRILLING FLUID PROGRAM REWORK oF SCU 14-5 SWANSON RIVER FIELD BASIC DRILLING FLUID SYSTEM Medium treated Lignosulfonate mud. OPTIMUM DRILLING FLUID PROPERTIES PROPERTY Weight - pcf Viscosity - sec/qt., API Fluid Loss - cc, API Plastic Viscosity - CPS Yield Point - Lb/100 ft2 Gel - Lb/100 ft2- 10 rain pH Calcium- PPM Solids Content - % Vol *AR- As Required IN 7" AND 5" WHILE REDRILLING ~68 - 70 85 - AR* 43 - 47 43 - 47 4 - 7 7 - 10 (See 4) 10 - 14 20 - 30 8 - 12 8 - 12 0 - 5 10 max. 9.5 8.5 - 10 50 max. 50 max. 6 - 10 10 - 18 1. Limit dry jobs to 20 sacks of barite or as directed by Drilling Foreman. 2. Maintain adequate supply of barite and LCM on location. 3. During milling and redrilling operations continually monitor (on 24-hour basis) mud system for evidence of high pressure water entry. BE PREPARED TO SHUT WELL IN AND RAISE WEIGHT. 4. Maintain fluid loss between 4 and 7 cc below the top of the Hemlock. PROPOSAL FOR WE-- OPERATIONS PRO-316-A (TO" USED AS A G0-111) CASING F EQUIREMENTS AND PRODUCING EQUIPMENT WELL/LOCATION NO. FIELD SCU 14A-5 Flowinq Swanson River METHOD OF PRODUCTION TOTAL DEPTH ESTIMATED O/W/G 1] 0D/SL2DD EQUIP. FOR STEAM CASING Gross Footaqe~ APl Size Weight Conductor E×£sting Existing Surface Grade Threads DATE 10/12/75 ESTIMATED SPUD DATE MAX. ESTIMATED SURF. PRESSURE INJ.' Coupling 3000 PRODUCER X Computer Design For: This Well Standard Design For Field Well No. Max. Drift Angle PSI [] [] Water String: Design based on mud density Ibs./cu. ft. and above max. surf. pressure Existing Cementing Accessories Liner 2200 ' .'" 5" Hanger Perforated ', CASING } UNITIZED HEAD: tO Existin9 Top Conn. Fittings 18 N-80 HSFJ ', Mesh, Rows,. SI ets, Ce nte rs, PSI CWP. Bottom Conn. MC MUC outlets CASING SPOOL TUBING HEAD Existing Top Conn. Type Suspension TUBING Feet PSI CWP. Bottom Conn. Bottom Next Total Tubing Catcher .... Packer with XMAS TREE ~ Tubing Beans Header Stuffing Box PUMP: RODS: Grade__,~ PUMPING UNIT. AP! Size Engine APl Size Weight Grade Threads Type EXisting 2300' 3 - FH packer 3 - XA sleeves 1 - D nipple 2 7/8 2 3/8 type. ~ wt, Arm 4.3 N-80 3 - PS nipples 2 - CC joints 8RD EUE 120' - Blast joint Csg. Size " Wt. Install at Type with "stroke at Other Fittings PSI CWP. Dwg. No. Type " PSI CWP. Dwg. No. Type. Polished Rod Remarks (Cross-overs, etc.) Type Max. Stroke "Set at Motor HP Remarks Type Type at ,t Long 'of "Stroke and SPM Prepared By Area Supervisor ~,. - - _ ........ ~ Sr. Drift. El~fline0r. Approved by Drlg. Supt. PRO-316-A (CD-1-75) t'rinted In I. .... A, SROWlNg ESTINATED' ~AS SWEEP PATTERN TO TI,!E PROPOSED SCLtI~A-5LOCATIO~,] AND THE PRODUCING AI, tD tf]JEC¥1I~.g I.~]TERV/'~LS iJ~ T!IE ,S UR}JOLII,~ DI~ ~ELLS~ To Accompany PRO 316-1 FOR REDRILL 'SHoi,~iIIG PROPOSED ~ONPET~ON ~ IN TE~{VAL F OR SOU I~A-DREDRiLL , TO ACCOMPANY ~RO 31~-I MAY 1975 LANDING HANDREL TO KB TBg. DETAI, LANDING MANDREL 49 JTs +PUP ~"EU~ ............... CAMCO MMIdANDREL .. 3Z JTs Z~'EUE ................. CAMCO MM ,MANDREL .............. 28 JT~ :>]~"EUE ................. CAMCO MM MANDREL ............. 18 JTs 2~"EUE ................ CAMCO klm MANDREL ............. 13 JT$. Z;'~" EUE ............... CAMCO MM MANDREL ........... 207 JTs 2~' EuE ............ CAMCO MM MANDREL' BAKER FH' PACKER 2.3,~" EUE OTIS "S-NIPPLE ................ I JT. 2;,~ EUE ................ CAMCO 2~ I~M MANDREL .......... BAKER 2/b'' BLOST JT, CAMCO "D" N~PPLE ......... SEAL A SSE HBLY . ~,~]~'. ,~.'r. QP..SUB ...... ,. I JT. ~ EUE .................. PERF'D PUP 2"~' . ................ Act. L enoch s !.~48.70' 12.96' 974.63' - 1:5.05 13.00' 56 5,59 13.00' 441,02' 13.0o 6358.27 13.03' 41.78' 6.00' 31,63' 1.55' 30.22' .... ! 40_6;2' 4.00' EST TOP OF PLUG ........... I1,,~)0' ~TOTAL DEPTH I 1,4 ,~ O' 6"5000~ ,~'I. IA F'/~.>',P /0" - (SOC.> O v 12 '; 3000 1~ ': t O . · ,to ' .o . '~.o.~' .>~ · ~ o cS. HOCI,KLI,o 14:6'4. [.: P C IL. ~.' ¥ - ~' CHECK LIST FOR NEW WELL PERMITS Company Yes No Remarks 1.Is the permit fee attached ..................... 2. Is well to be located in a defined pool ............... ~ 3. Is a registered survey plat attached ............... 4. Is well located proper distance from property line ......... ~/~: 5 Is well located proper distance from other wells 6 Is sufficient undedicated acreage available in this pool .... 7. Is well to be deviated ....................... %=~c 8. Is operator the only affected party ................ ~ Can permit be approved before ten-day wait '. ..... . . . . . . . ~.~,,,~.,~,,,,,~'~,' O. Does operator have a bond in force .............. 1. Is a conservation order needed ................... 2. Is administrative approval needed ................. 3 Is conductor string provided 4. Is enough cement used to circulate on conductor and surface .... 5. Will cement tie in surface and intermediate or production strings 6. Will cement cover all known productive horizons .......... ~, 17. Will surface casing protect fresh water zones ........... ~ .~,, 18. Will all casing give adequate safety in collapse, tension & burst 19. Does BOPE have sufficient pressure rating ............. qdditional Requirements' Approval Recommended' Geology Engi neeri n~,' TR,~ HWK ~ OKG ~HH ~- JAL LCS JCM ,~ Revised 1/15/75 Well History File APPE'NDIX Information of detailed nature that is not particularly germane to the Well Permitting Process but is part of the history file. To improve the readability of the Well History file and to ~ simplify finding information, information, of this nature is accumulated at the end of the file under APPENDIx. No special'effort has been made to chronologically organize this category of information. S~ AAAAAA AAAAAA AA AA AA AA AA AA AA AA AA AA AA AA AA A A RR~RRRRR RRRRRRRR RR RR RR RR R RR RRRRRRR RRRRRRRR RR RR RR RR RR RR RR RR SSSfiSSS$ SS SSSSSS SS SS SSSSSSSS sSsSSSSS 000000 O0 000000 000000 O0 000000 ,0 O0 O0 O0 O0 000000 000000 11 11 111t 1111 11 11 11 11 11 11 11 11 111111 111111 LPTSPL VERSION 6 (344) RUNNING ON R~OUEST CRE ,6 tSPAC 0~ : 0 ~-75 LPTO 5969 DATE 0b-DkC-7b 09:t9:00 <Iii'l> TABULAR LISTING OF · COUNTY KENAI 13~50, I0740 (,002) TAP{ 0 8TANDAf. D OIL cO,OF CAL,SCU 14 A.5vSWANSON RI¥~R OF ~ A R A B A N D A SANDSTONE ANALYSIS ~EbL FIELD STATE ~TANDARD OIL COMPANY OF 8CU 14 ~WANSON R~VE~ KENAI AbASeR 1375OA16740 (,002) DATE 6-DC'75 TAPE IDENT. 13750,16740 STANDARD OIL cO,OF CAL,SCU 14 A-5,SWANSON RIV~JR b$ bl bCAL Il CWSP ARRA~ RW A? O. Oo O. O. O. 0, O, .~oo o.ooo o.ooo o.ooo o.oou o.ooo ~i:~. o. o. o. o. o. 0, O. O. 0, 0. O, 0, O. O. 0. 0. O. 0,00 0.00 0,00 0,00 0.00 5 0.0 0.0 0.o 0.0 0.0 007 0o000 0.000 0.000 0.000 0.000 0.000 12 0. O. o. 0. 0. o. ~o. o.,~ ',,. ,.oo~ 0.9,, o.~oo o. ,,~o. o.ooo ,.oo o.ooo s.~o ,.oo o.~ o..~,~ ,~..o~, ~. ~. ~ o ,~o o .~ ~o o ~9 t000'0 0,07 0,333 0,70 0,20 SP SYhTISTIC$ OVER ENTIRE YNTERV~b RESI YIVI?Y STATISTICS OVER ENTIRE INTE~VAb SONIC STATISTICS-OVER ENTIRE INTERVAL R ~ASAMP ROUTINE USED ATION NATION 9176.o 0-3 ii.4 I00 100 I00 !00 O0 O0 lO0 lO0 O0 i00 922 9226 922! 0,2 1i,2 : 4 .: ,4 ,7 0 o 0 10o 00 O0 100 100 100 100 100 100 ioo i00 oO O0 0 CL, AY VObUME % 35 0 O 0 0 0 0 0 15 i9 40 40 2~ 23 iO 2~ 49 38 40 48 2.5 20 12 I! 25 25 24 ! 7 29 18 lb 10 o 2 7 i8 0 0 0 CUM, POROSITY FEET 89,42 89,2! 88,91 88,b2 88.32 88,02 87,74 87.51 87,29 87,08 86,86 86.71 86.60 86,46 86,28 8b.09 85,95 85,86 85.77 85.67 85,55 85,37 85.26 85,07 84,90 84.74 84.56 84.39 84,22 84,05 83,88 83,71 83,62 83,61 83.51 83,35 83.16 82,94 82,68 ~2.44 82,21 0o00 0,00 0o00 0.00 CUM, HYCARO FEET 5.03 5,03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,O3 5.03 5,03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5.03 5°03 5,03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5,03 5.03 5.03 b.03 0,00 0,00 0,00 0,00 PORO$I Y wATEI~ % % HYCARB GM/CC CLAY % CUM, POROSITY FEET CUM . ~'EET .6 12.8 9262,,0 90 25.5 ,9 .1 2.7 929 930 93( O' 0 ,6 .5 0.0 {00 O0 100 00 O0 tO0 00 !00 oO I00 100 O0 100 100 I00 10 100 loo 100 tOo 100 100 41 39 49 0 0 40 4b 19 24 43 4b 4b 17 18 14 14 lb 12 9 14 .JO 0.00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0.00 82,i0 81.97 81.87 81,67 81,45 81,14 80.90 80,66 80.27 80,02 79,81 79.69 79.65 79,38 79.18 79,01 78.92 78,83 78,30 78.10 77.89 77.71 77,53 77,35 77.17 77,00 76.~0 76,61 76.43 76,08 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5,03 5.03 5,03 5,03 5.03 5,03 5.03 5.03 5.03 5,03 5.03 5.03 b.03 5.03 5,03 5,03 5.03 5.03 5.03 5.03 PORO~ZT¥ ~A?ER ~ · AT. 0.0 100 15,b 15,0 10 100 1oo 100 .7 ~, 59,0 20 20.3 lO0 100 iO0 I00 lOo Oo lO0 1o0 93~ 100 100 0 0 0 HYCARB DENS, GH/CC CbA¥ VObUME % 22 2O 39 35 31 27 31 45 39 20 17 ltl 13 14 lO 21 20 41 40 0 0 0 CU~. POROSITY FEET 76.08 7b.08 7b,08 26.08 75,94 75.78 75.63 75.48 75.37 75.08 74.88 74.67 74.47 74,26 74.05 73.84 73.62 73,44 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0.00 0,00 0.00 0.00 72.86 72.b6 72.31 72.22 0.00 0.00 0.00 CU~, H¥CARB FEET 5.03 5.03 5,03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5,03 5,03 5,03 5.03 5.03 0,00 0,00 0,00 0,00 0,00 0.00 0,00 0.00 0.00 0,00 0,00 0,00 0o00 0,00 0.00 0,00 5.03 5.03 5.03 0.00 0.00 0.00 EET MD % POROSITY WATER 6 IO.O lOU 8.9 ioo 0,0 0 O, 0 6,9 O. 0 0-0 14.0 I0 100 I00 100 26.5 · o:g 8.3 12.2 100 100 i00 100 lO0 iOo )0 100 100 oo 100 I00 100 7,2, 100 ]4 0 100 100 H~CA~8 DEN5, GM/cC CLAY VOLUME % 42 o 23 0 0 0 47 0 0 O 0 '0 35 42 0 3 3 7 19 20 30 2~ 24 48 39 44 CUM. POROSITY FEET 72,11 72.02 0.00 '11.90 71.74 0.00 0.00 0.00 71.70 71.62 0,00 0,00 0,00 0.00 0.00 71.27 0o00 71.10 70.77 70,19 69.91 69,64 69,40 09.21 69.10 69.02 68,93 68.80 68.63 68.44 68.03 67.98 07,49 07.22 PEET 5.03 0.00 5.03 5.03 0.00 0.00 0.00 5.03 5.03 0,00 0,00 0,00 0,00 0,00 0,00 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5 5.03 5.03 5,0J b 5.03 5.03 5.03 POROSITY WATER HYCARO SAT. DENS, % % GH/CC CbA¥ % CUM, POROSITY FEET CUM, H¥CAR~ ~'~EET 94' 941' 947 94J 9475 9477 94 948 0 0 9 1~,9 100 "~,5 100 8 100 o 0 0,0 25.7 ,I ,0 *0 949 t 0 oo.O O.o o.o 9501 0 0 .o° 100 100 100 100 100 100 lO0 :oo oo oo O0 lO0 I00 O0 ~00 0 0 0 0 0 3 0 0 7 22 0 O 0 0 lb 7 0 0 11 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 67,00 66.81 66.64 66,51 66,46 66.46 66,42 0.00 0,00 0,00 0,00 06.32 66.12 65.89 05,41 65.12 04,84 64.62 64.40 64.17 63.94 63,70 63,49 63,32 63,19 63,01 62.78 62.54 62,30 62,01 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0.00 0,00 0,00 0,00 0,00 0,00 5.03 5.03 5,03 5.03 5.03 5.03 5.03 0.00 0.00 0.00 0,00 5.03 5.03 5.03 5.03 5.03 5,03 5.0~ 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5,03 5.03 5.03 5.03 0.00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0o00 0,00 0,00 0,00 0,00 P 0 RO,.~ IT ¥ ~AT~R ~/cC CbA¥ V0bUME % CUH. POROfiIT¥ FEET CUM, FEgT 0.0 0 .0 I3.5 21.6 .4 i' 9 d,o. o,o 955 0 4 100 100 lO0 lO0 lO0 100 10o lo ° Ioo 10o Ioo tOo 1oo toO O0 I00 1oo 100 }oo oo 3O 20 20 2~ 49 40 25 lb 0 1 O 0 0 14 21 20 20 2.5 20 9 17 0 0,00 0.00 0.00 0,00 0.00 0,00 0.00 0.00 0,00 0,00 0,00 0.00 bl,71 Ol,55 01,01 00,86 60.b8 60,53 60.32 b0.23 60.09 59.90 59.76 59.bi 59.44 59,28 59,12 58,92 58,69 58,46 58,22 58.01 57.85 57.71 57.55 57,41 57,27 57.11 56.92 56.72 56.52 56,31 ~0.00 0,00 0,00 0,00 0,00 0.00 0.00 0.00 0,00 0.00 0.00 0.00 0.00 5.03 5.03 5.03 5.03 5.03 5.05 5.03 5,03 5.03 5.03 5°03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5,03 5.03 5,03 5.03 5.03 5,03 5.03 5.03 0.00 ~ 95~ POR06I T¥ WATER 0,0 o°:o° oO:o :oo ,0 o 0.0 D~NS, CLAY VOLUME % CON. POROSITY FEET 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0.00 0,00 0,00 0,00 0,00 CUM, HYCARB FEET 0,00 0,00 0.00 0,00 0,00 0.00 0.00 0,00 0.00 0.00 0.00 0o00 0o00 0.00 959 0 0 ,00 ,00 ,00 ,00 ,00 0o00 0,00 0.00 0,00 0,00 96 i 0 9606,0 0,0 0 ~ o 9608 0 961 3 0°0 0 0 0 29,6 o 0 0 0 0 0 100 0,00 0,00 0,00 0,00 0,00 0,00 6,10 0,00 0,00 0,00 0,00 0,00 0,00 5,03 9619 96 9625 ,67 100 , i00 6 100 ;5 tO0 100 100 ,00 100 . i00 ~.o O.o o.o o 96 0 ,0 0 ,0 0 96 0 96~ ,0 0°0 0,0 0 50 25 39 40 55,93 55,84 55,71 55,58 55,51 55,49 55,48 55.47 ,00 ,00 ,00 ,00 .00 ,00 .00 o00 ,00 5.03 5 ,.0.3 5,03 5,03 5.03 0.00 0,00 0,00 0.00 0,00 0.00 0,00 0,00 0.00 ~/cC Ci, AY % CUM, POROSITY FEET FEET ,' 80 9654.0 0.~ 11.4 o.O o.o 9 0.0 97 O lo0 100 g.0 0 · O O O0.0 0 o 9728.0 o.2 lo.~ 9~ O.O 0 0 0 o° o o IOO 100 8,7 100 16.4 I0 I00 lOo lO0 10o 100 lO0 100 I00 100 i00 100 i00 100 I00 0 40 39 42 41 47 2b 27 i9 24 27 34 25 11 0 55 55 55 54 54 54 54 54 54 53 53 5.~ 53 53 52 52 52 52 52 52 .00 ,41 .35 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .10 ,97 .9O .70 .36 .19 ,04 ,90 .73 ,57 .42 °05 ..90 .75 , b0 .21 .00 O. O. O. O. 0. 0, O. 0. 0. O. 0. 0. O. 0. Oo 0. O. · 5, 5. 5, 5. 5, 5. 5. 5, O0 03 O3 O0 O0 O0 00 00 OO 00 O0 oo OO 00 00 00 00 O0 00 O0 03 03 O3 03 03 03 03 03 03 O3 03 O3 5,03 5,03 5.03 5,03 5,03 5.03 .5,03 5..03 ,SAT. 9 7 ~ ~ 97~7 ~2 :too 100 !00 I00 IO0 I00 iOo 2i,. 100 97 979 ,0 -0 :oo 0 0 0 0 0 0 0 0 0 0 0 0 0 0 97 9 98 98 ,, O9 100 loo ioo O0 10o ioo oo O0 DENS, CbA¥ VObUME % 1i I0 8 4 0 1 2 15 20 20 43 24 22 24 21 25 24 24 27 CU~, POHO$ITY FEET 51,79 51,57 51,09 50,86 50,66 50,47 50,27 50,04 49,82 49,59 49,36 49,15 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 48.94 48.72 48.53 48,35 48.21 48,06 47.87 47.68 47.50 47.33 47,19 47,05 46,92 46.77 46.59 46,40 46.21 46,04 CUM. tiYCA~ ~'EET 5.03 5.03 5,03 5,03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5,03 0.00 0,00 0,00 0.00 0,00 0.00 0,00 0.00 0,00 0,00 0.00 0,00 0.00 0,00 0,00 5,03 5.03 5,03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5,03 5,03 5.03 5,03 5.03 5.03 5.03 5.0] II'If {~ATER SAT' % ' ,0 5, O. ,4 , O. 0 0,0 100 ! O0 100 I00 loo ioo oo O0 100 100 100 iOo O0 ~0~ 1 O0 I00 0 0 0 0 0 0 0,O 0 98t ,~ ,3 1OO I00 100 I00 loo ~/CC CbA¥ VOl.,lIRE % 24 14 4 19} 39 31 28 25 22 2~ 27 41 2J 22 21 15 0 0 0 0 0 29 34 42 CUM. POHOSITY FEET 45,89 45,74 45,59 45.45 45,36 45,33 45,26 a5.09 44.93 44,76 44,60 44,4b 44,33 44,25 44.18 44.09 43,96 43,78 43,70 43,56 43.38 43,20 42,82 0.00 0.00 0,00 0,00 0.O0 0.00 0,00 0,O0 0,00 0.00 0.00 0,00 0,00 0.00 0.00 42.53 42.36 42,19 42,03 41.89 CUM. t.~ ¥C AR~ FEET 5,05 5,03 5.03 5,03 5,03 5.03 5.03 5,03 5,03 5,03 5,03 5.03 5,03 5.03 5,03 5,03 5.03 5.03 5.03 5,03 5,03 5,03 5,03 0,00 0,00 0,00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 b.03 5,03 5,03 5,03 5.03 3 15.8 IOO O0 iOO 993 0 9934 0 .. 99~ 0 I0 t00 i00 O0 I00 oO iOO oO O,O O 0 o 0 0 o 0,O 0 9945 9947 0 9949 0 99' ,5 0 3 ,0 7.5 100 1oo 0 4 I1.9 100 99! 99~ 7 100 I iOO 7 i00 : oo H¥CARB D~NS, CbA¥ VObUHE 38 24 31 41 30 27 3O 33 33 24 27 32 39 37 35 31 26 27 4t~ 39 33 28 3! 2~ 37 50 40 27 27 21 CUM, P£)HOSIT¥ FEET 41,79 41.64 41.46 41.31 41.10 40.96 40.80 40,63 40,47 40.32 40.19 40.10 40.04 40.03 40,03 40.03 40,00 39,92 39.72 39.59 39.45 39,30 39.15 0o00 0,00 0,00 0,00 0,00 0,00 39.04 38.92 38.76 38.59 38,43 38.29 38.15 37,8b 37.69 37.55 37.41 CUi~, iiYCARb 5.03 5.03 5.03 5,03 5,03 5,03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5°03 5.03 5.03 5.03 5.03 5,03 5.03 0.00 0,00 0.00 0.00 0.00 0,00 5,03 5.03 5,03 5,03 5.03 5.03 5,03 5,03 5.03 5.03 5.03 5.03 % % ' ,4 .? lO0 I00 ' 100 ' 15,2 I00 I00 ,g 100 , 1°o 13,6 lO0 100 100 1oo 991 1,7 9,0 ,0 ,,4 ~ · . 10,2 17,6 lO0 100 lO0 oo 100 lO0 oo O0 I0o 100 I00 1 O0 :t°o CbAY VObUME % 11 17 17 2b 33 50 30 39 3b 20 22 21 38 5O 43 42 4.3 42 30 3O 33 34 32 31 22 30 37 3'/ 18 31 34 27 2b 43 48 2b CUM, POROSITY FEET 37,28 37,18 37.13 37.10 37,05 3b,99 36.64 36.51 36.39 36.24 36.10 35,95 35.73 35.54 35.38 35.30 35,29 35,29 35.25 35,14 35.03 34.93 34,80 34.67 34,58 34,51 34.50 34,50 34,49 34,44 34.33 34,20 34,10 34.01 33,91 33.83 33,79 33,79 33,75 33,63 33.46 33,3b 33.28 CUM, FEET 5.03 5,03 5,03 5.03 5,03 5.03 b.03 5.03 5.03 5.03 5,03 5.03 5,03 5.03 5.03 5.03 5°03 5,03 5,03 5.03 5.03 5.03 5.03 5,03 5,03 5,03 5,03 b.03 5.O3 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5,03 5.03 DEPTH FEET PER{vi. PORO~][T¥ WATER ~iycA~B G~/cC Cl.,AY WObUME % CUM , POROSITY FEET CU~, t~EET 10013 .O ~OiS: 100!6,0 2O 0,4 20.5 12.0 10026,0 0.0 ioo~-o o.o 002B 0 ~,0 0029~O .0 0030.0 0.0 oo~1~o o.o 10032,0 0.0 0o0 00U~,O 0.. oob .o o. ioo?o.o 0.,6 1oo71.o o.o 9.0 o.o o~o o. 10098.O O,0 O,O 1009,9,0 0 0 0,0 ~o~oo.o o:O o,o 10151. O ,0 0 , ,0 ,0 ,0 0 ~o~.o O,O o]o 0,0 0,0 0, 0. O,0 O,0 o ,0 O :o° I01U2,0 0.O .0 0 0 · 0 010 :oo oo: oo 100 100 lO0 I00 100 lOO I00 100 100 i00 tO0 1 oo IO0 I0217.0 0.2 il.3 100 14 30 40 0 0 0 0 0 0 0 35 40 42 47 4b 44 47 42 32.82 32.62 32.41 32.28 0,00 0,00 0,00 0,00 0,00 0.00 0,00 32.i3 32.05 31.87 31,75 0,00 0,00 O.00 0,O0 0,00 0.O0 0.00 0.O0 0,00 0,00 0,00 0,00 0.00 31.65 31.58 31.49 31.4o 31.31 0.00 ,0.00 0.00 0,00 31.17 5.03 5.03 5.03 b.03 0,00 0,00 0,00 0,00 0,00 0,00 0,00 5.03 5,03 5.03 5.03 0,00 0,00 0.00 0.00 0.00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 b.03 5.03 5,03 5.03 5,03 0.00 0.00 0.00 0.00 5.03 , i POROSi?]~ ~TER 6AT. % % F ~} 1o242.o o.O ?.~ io~SS.o o.v 13.2 ! 10,9 I00 100 100 iOo O0 lO0 lO0 100 lO0 iOo 100 I00 100 100 I00 O0 100 100 O0 100 100 { 0,0 0 { 0,0 0 0,0 0 1035 0 12,4 I00 H¥CARB DENS, G~/cC CLAY VOLUME % 47 47 49 47 27 47 44 49 37 42 49 41 41 27 2~ 42 28 21 2~ 2,:1 31 47 43 4! 24 CUM. POROSITY FEET 31,05 30,97 30,8B 10.75 30,66 t0.50 30.33 30,17 30,Og 30.00 29.79 29.70 29,62 29.54 29.43 29,~5 29,25 29.13 29.02 28,94 28.90 28.89 28.88 28,81 28.7O 28,61 28,53 0.00 0,00 0.00 0,00 0,00 0,00 0,00 0,00 0,00 28,35 CU~4. FEET 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 b,03 5.03 5.0] 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5.03 5.03 0.00 0.00 0.00 0,00 0,00 0,00 0,00 0,00 0,00 5.03 ,0 0,0 POROSITY WATER SAT % % ' ,0o I00 , I00 0,0 :oo 8.4 100 7,8 100 iO0 2 10523.0 0.0 0.0 .o° 0 1054~ 0 9 10630 0 0 0 9 100 0 lO0 i00 100 100 I00 ~ycAR{~ DENS. GM/cC CbA. Y VObUME % 35 42 47 19 42 34 41 33 28 30 47 28 4..t 42 5O 44 31 CUM. PUROSiTY FEET 28,24 28,21 28.21 28,21 0,00 0,00 0,00 28,18 28,08 27,93 27,83 27,76 27,72 27.65 27.48 27.34 27,21 27,07 27.00 2b.99 26,99 0,00 0,00 0,00 0,00 0.00 0,00 0,00 26,84 26,61 26,45 26,]4 26,25 26.0g 25.97 25.83 25.67 CU~4, HYCARB FEET 5.03 5.0.3 5.03 b,03 0.00 0,00 0.00 5,03 5.03 5.03 5.03 5.03 5.03 5.03 0.00 0,00 0o00 0.00 0,00 0,00 0.00 5.03 5,03 5.03 5.03 5.03 5.03 PORO$ I?Y WATER $ ' ~AT. % % · ~o~9.° o.o ~.8 10 4 0.9 0,0 100 100 t00 O0 oo O0 I00 00 lO0 oo oo 100 !00 0 0,0 o°:o° 7.7 0,,0 o.o lO0 to0 11~°O 100 0.1 9.1 I00 ~YC~ DISN$. GM/CC CLAY VODUME % 49 42 44 41 29 44 41 42 41 41 42 42 4'9 44 45 44 47 45 CUM, PORt]$ITY FEET 25.54 25.47 25.35 25,22 25.10 25.00 24.92 24.90 24,85 24,80 24,79 24,73 24,64 24,55 24,48 24.30 24.20 24.10 24,00 23.91 23,86 0.00 0.00 0,00 0,00 0.00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0.00 2],64 23.57 23.5'1 23.57 23.52 23,42 CUM. ~EET 5,03 5.03 5,03 5.03 5,03 5,03 5,03 5.03 5.03 5.03 5,03 5,03 5.03 5.03 5.03 5,O3 5,03 5.03 5,03 5.03 5,03 5,03 0.00 0.00 0.00 0.00 0,00 0.00 0.00 0.00 0o00 0,00 0,00 0.00 O,00 5.03 5,03 5.03 5.03 5,03 5.03 POROSITY WATER HYCARB aAT, DENS. % % GM/CC C~AY VOLUME % CUM, POROSITY F~ET CUM, F~ET ,2 o4 100 i00 0,0 100 100 I00 .Oo lO0 O0 99 98 100 !00 O0 O0 100 too 100 O0 100 I00 ~00 100 4o 34 29 30 37 48 49 38 38 32 30 30 3O 27 27 47 39 37 39 3b 43 45 34 29 21 4 0 0 22 25 23 23 23 22 22 22 22 22 22 22 22 22 21 21 21 21 .10 ,96 ,83 .71 .64 ,55 .4t ,30 .18 ,04 ,90 .76 21.30 21.22 21,lB 21,03 20.94 20,84 20.75 20,67 20,59 20.54 20,4q 20,41 20,32 20,19 20,01 19,78 19.52 19,32 18 .93 5. 5. 5, 5. 5. 5. 5. b. 5. 5. 5. 5. 5. 5, 5, . 5. 5. 5. 5. 5, 5. 5, 5, 5, 5, 5. 5. 5. 5, 5. 5, O3 O3 O3 O3 03 O3 O3 03 O3 O3 03 O3 O3 O3 O3 O3 03 03 03 03 O3 03 03 03 03 03 03 03 03 03 03 03 03 03 O3 8-~ $TOPIN PHIMAX PHINCI, PH1DC!j O 2,0 10812, 0,2]0 0,]74 0,066 RTp[~ PUN DAX DAblH DAGA DASH DTSD DTSH CP PSSH 138, ,021 0, O, O, 0, 190, 150, 0,97 ,191 o looo,oo.o; o.~a~ o.'/oo.~o o.~o $ OVER ENTIRE CORRECTION OF DOUBTFUL POR[]SITY [)ATA P ORO8 ! T y WAT ER MAT' % % ' H¥¢ARB ~M/CC CbAy VOLUME % CUM, POROSITY FEET CUM. H'YCARB FEET I0833, 00 10834° : 10f~35,0 0,4 ios~e.o o.o 10850,0 0.0 7,0 10855.0 o.o 5.7 10856.0 0.0 10874,0 0,0 0.0 10879 ~ I0880: 10881,0 10882.0 i0803 0 10~85, 10886, 10887,0 1o888;o 1088g.~ 10890. 1089 ~ 10893,0 o"g .o i0895,0 losgb.o ]0897 0 10903,~ I0905,~ i0906. 10907,0 I0908.0 lOgO9,O 10910'0 10911,0 109i2,0 109i3,0 10914.0 0 10 I0 7 ? 9 4 2 O, O. I0,~ i5,5 9 ,1 lO0 100 63 97 100 100 8! 53 52 55 59 57 67 6~ ?3 4b 44 30 45 47 49 5O 45; 45 42 41 4.:1 3b 37 30 20 19 24 21 22 21 29 29 2'I 27 3! 37 3b 3O 30 37 41 4~ 44 18 {.8 18 18 17 17 17 17 17 17 17 17 17 11 16 16 It, lb 15 15 15 15 15 15 i4 14 14 13 II 13 13 13 13 12 ,30 ,20 .97 .81 .00 .47 .38 .28 .18 .09 .01 .91 .64 .31 .14 .84 .02 .70 .38 .07 .80 .40 .03 .94 °85 . 5. 5, 5. , , 0, 03 03 03 O0 99 97 97 O0 4.97 4,94 g,90 4.85 4.81 6.77 4,77 4,75 4,69 4.b4 4,57 4.50 4.43 4,36 4,29 4.22 4.15 4,09 4.03 3.98 3.93 3.88 3,83 3.77 3,7! 3.66 3.61 3,5b 3,51 3.46 3.41 3.35 3.31 3,29 3.25 · 10927o~ 0o0 O* 109~i~ 0 0. 10948.0 8 , 8 ol :I °7 ,I o! 16.] 16.3 13.5 9 100 70 O? ? I00 60 34 100 lO0 H~CARB DENS, G~/cC 0.5 0.6 0.8# O.6 0.8t, CLAY VOLUME 43 2~ 41 43 44 47 49 44 3O 24 44 41 2~ 21 ]0 43 45 40 47 4b 44 42 31 15 11 9 9 10 14 lo 4 0 4 7 9 18 21 CUM. POROSITY FEET 12.76 12,64 12.53 12.]9 12.2b 12,16 12.07 11.99 11.63 11.56 11.47 11.32 11.18 11.10 11.01 10.9! 10.76 10,60 10.49 10,41 10.33 10.25 10,17 10,09 10.02 9.94 9.85 9,71 9,5b 9.40 9,2~ 9.07 8,91 8,76 ~.~2 ~.49 8.35 8.20 8,03 7,85 7,68 7,54 7.44 7.28 7,25 7,23 CUM. HYCA}~I~ 3.21 3,15 3.09 3.02 2,95 2.91 2,87 2,85 2.85 2.85 2.82 2.74 2.67 2.bO 2.64 2.61 2.55 2.48 2.44 2,44 2.44 2.44 2.44 2,43 2.43 2,43 2,42 2,{7 2,31 2.24 2.18 ~.11 2.05 1,99 1.9~ 1.91 1.88 1.84 1.79 1,73 1.b7 1.61 1.55 1.50 1.46 i.4~ 1.46 10984 0 POROSITY WATER $ ,1 ,5 ? 3 44 44 1 58 55 5] 50 48 43 41 5 99 55 55 58 7 62 0,5 0.5 0,5 0,6 CLAY VO~U~E % 24 15 19 24 19 lb 4 7 9 14 15 17 21 21 17 CUM, POROSITY FEET 7.18 7,09 6.95 6.83 6.73 6.62 6,54 6.43 6.30 6.15 6,00 5.86 5.73 5,55 5..48 5,43 5,37 5.25 5.1.7 5.05 4.91 4,78 4.65 4.50 4,:~4 4,18 4,04 CUM, FE~T 1,45 1.40 1.33 1.26 1.21 1,16 1.08 1.02 0,96 0.89 0.82 0.75 0,69 0.64 0,60 0,60 0.60 0.60 0.58 0,55 0.50 0.43 0.37 0.32 0.25 0.18 0.11 O,Ob ~$,~ - ~ 3 ~ 5 6 ? ~9 I~ ~1 I~ 13 14 15 16 1'7 1~ ~9 20 :21 22 0 0 0 I ~ 0 1 0 0 2 0 0 0 0 0 0 ! 0 0 ~ 0 IHPi T PARAM!~TEI~5 FROM 11050, TO 10996 ~ BHTDEP ~IJFT RMF RMFT RO~F~ PHI~FS DA~IL I106~. 40. 1.00 75, 1.00~ 0,~95 O,bO0 0, O, 2,84 0.20 11050, 9170. 0.O00 1.00 0.000 ~.70 20,00 0,2 PK ,$~ sTOPIN PHIMAX PHINCL P)ilDCI, 6,0 2".0 1099b, 0.210 0.354 0,066 PHZN~O RTPM PUN DAX DAL~M DAGA DASH DTSD DT~H CP PSSH 0.213 138, ,O21 0, 0, 0, O. 150. 150, 0,79 ED 0 ~ GRLIM VAR.C CONST ROP VARL1M CSF IO00,0 0,07 0,]33 0.70 0,20 0,50 STATISTICS OVeR ENTIRE INTERVAL SONIC $TATISTIC$ OVER ENTIRE iNTERVAl, GAM NOT D IN CORRECTION OF DOUBTFUL POROSITY DATA ETERMiNATION TATISTICS POROSITY o7 ~ 1!011.0 0~0 0.0 0,0 0.0 { i ioa6'o o.o 4 WATER SAT' % ' 100 100 1o0 IOO O0 .09 1OO IO0 1OO 100 100 O0 100 lO0 100 1OO 100 lO0 100 i O0 HyCARB DEN.q. GM/cC VOi.,UME % 4~ 29 3~ 34 29 35 40 3i 11 48 42 43 43 ~4 2~ 22 22 19 10 15 14 19 CUM. P~,)RO$ I TY ~EE1 3.80 3.71 3.60 3.53 0.00 0,00 3,41 3.28 3.18 3.09 2,95 2.78 2.bO 2.43 2,21 2,14 2,06 !,97 1,87 1,74 1,57 1,40 1,21 1,02 0,83 O.U3 0,44 0.25 0,09 CUM. tI¥CARB FEET 0.03 0,03 0.02 0.02 0o00 0,00 0,02 0,O1 0.O! 0,01 0.¢)1 0.00 0.00 0,00 0.00 0.00 0,00 0,00 0,00 0.00 0,00 0.00 0.00 0.00 0.00 0.00 0,00 0,00 0,00 OF SARABAND A SANDSTONE ANAbY6IS COMPANY FIELD COUNTY STATE STANDARD OIL COMPANY OF CALIFORNIA SCU 14 A-5 SWANSON RIVER KENAI ALASKA 13750v16740 (o002) DATE 6-DC-75 TAPE IDENT. 13750,16740 STANDARD OIb cO.Of' CAL,ScU 14 A.5,SWANSON RIVf;R LS LO LN LX0 bSN LILM LII~D LSP LGR I~CAL 2 .] 4 0 70 7 ! 58 9 10 11 SP BASE LINE SHIFT N[]NE CWSP ARRAY RW ARRAY' AT DEPTH AT TEMP TOP DEPTH 71. O, O, O, O, O. O, O. 0,150 0.130 0.800 0,000 0,000 0,000 0.000 0.000 11050. 10996, lOB12, O, O, O, O, O, O. O, O, O. O. O. O. O. 10996, 10812, O, O, O, O. O, O, ROG ARRAY DTMA ARRAY ZSNMA A~RAY TOP DEPTH 2,65 2,65 2,65 0,00 0.00 0.00 0.00 0.00 55.5 55,5 55,5 0.0 0,0 0.o 0.0 0.0 0.000 0.000 0.000 0.000 0.000 0.00o 0.000 0.000 1099b. 10~12, O. O, O. O. O. O. ISS -, 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 1~ lq 20 2.1 22 00010110 0 2 0 0 0 0 0 0 I 0 0 0 0 INPUT PARAMETERS F~OM 10t~12, TO 9170, WMUD XLIT BITSZ BHT BHTDEP 8UFT RMF RMFT ROMFS PHIMFS DASIL 8.3 0.50 6,00 172, 1106B. 40, 0,56 75, 1,003 0,995 0,600 SPCK DSPCK RODC DEbRGM START STOPbG ZSPNb BGN ZSPDL REC RESH CSS 0, O, 2,84 0,20 11050, 9170, 0,000 1,00 0.000 3,~0 5,00 0,2 WHY PHILEV BR SLIM AK PK SK sTOPiN PHIMAX PHINCL PHIDCL ,200 0,000 ,10 0,30 62500, 6;0 2'.0 O, 0,290 0.364 0,051 PHINSO RTPM PUN DAX DAI, IM DAGA DASH DTSD DTSH CP P$SH 0,213 138,.,021 69, 52, 44. 83', 150, 150, 0.84 ,230 EDIAIa PNI, IM PDLIM O.00 0.34 0,22 RLIM GRblM VARMC CONST RUP VARI,IM CSF 2,9 1000,0 0,07 0,333 0,70 0,20 0,50 SP MTATISTICS OVER ENTIRE INTERVAL RESISTIVITY STATISTICSOVER ENTIRE INTERVAL SONIC STATI,STICS OVER ENTIRE INTERVAL ANALYSIS BY QUASI MODEL PERMEABILITY BY TIMUR EQUATION SP COEFF, FROM STATISTICS GR NOT USED IN 6HALINES8 DETERMINATION SONIC C[}EFF, FROM STATISTICS WASAMP ~OUTINE USED DEPTH FEET PERM, MD POROSITY % WATER SAT, % HYCARB DENS, GM/cC CLAY VOLUME % CUM, POROSITY FEET CUM, HYCARB FEET 9176,0 9177,0 9178,0 9179,0 9180,0 91Bl,O 9182.0 9183.0 9184,0 9185,0 .91B6,0 9187,0 9188,0 9189,0 9190,0 9191.0 9192,0 9193,0 9198,0 9199,0 9200,0 9208,0 9209.0 9210,0 92il,0 92i2,0 '9213,0 9214.0 9215,0 92i6,0 92i7,0 92i8,0 9219,0 9'220,0 9221,0 9222,0 9223,0 9224.0 9225.0 9226,0 9227,0 9228.0 9229,0 9230,0 9231.0 0,3 400 30O 300 30O 200 40 20 20 4 0.4 0,4 6 10 3 0.2 0.0 0,0 0,3 0.2 0,0 I0 5 3 6 6 4 4 5 5 0,3 0.0 0.0 2 3O 100 8O 5O 3O 0,0 0,0 0,0 0,0 11.4 ]0,4 29,0 29,8 30.1 28,3 23.9 22,6 21,2 21,4 16.8 12,1 12.0 17.9 i9,0 16.1 I0,5 3.7 7.9 il,8 11,2 8,3 19.4 17,4 16,2 17,5 17,4 16,6 16,8 17,1 17,3 11,6 0,4 7.6 15,0 18,2 21,4 25.4 24.7 23,4 21,7 0.0 0,0 0,0 0.0 .lO0 100 lO0 lO0 lO0 lO0 lO0 100 I00 lO0 100 lO0 100 100 lO0 100 lO0 100 100 I00 lO0 100 100 100 100 100 lO0 lO0 100 100 lO0 lO0 100 100 100 lO0 lO0 lO0 lO0 100 lO0 0 0 0 0 35 0 0 0 0 0 0 0 19 31 40 4O 28 23 10 7 28 49 38 40 48 25 26 23 12 11 25 25 24 1 7 29 18 15 10 0 2 7 18 0 0 0 0 89.42 89.21 88.91 80.62 88.32 88.02 87,74 87.51 87,29 87.08 86,86 86,71 86.60 86,46 86.28 8b.09 85,95. 85.86 85.77 85.67 85,55 85,37 85.26 85.07 84.90 84,74 '84,56 84.39 '84,22 84,0b 83,88 83,71 83,62 83.61 83.51 83.35 83.16 82.94 82.68 82.44 82,21 0,00 0,00 0,00 0.00 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 b.03 5.03 5.03 5,03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 '5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5,03 5.03 5,03 5.03 5.03 0o00 0,00 0,00 0.00 DEPTH FEET PERM. MD POROSITY % WATER SAT' % HYCARB DENS. GM/CC CbAY VOI.,UME % CUM, POROSITY FEET CUM, }tYCARB FEET 9232,0 9233.0 9234.0 9244.0 9245.0 9246.0 9247,0 9248.0 9249.0 9250,0 9255,0 9256.0 9257.0 9262.0 9263.0 9204,0 9279,O 9280.0 9282.0 9283,0 9284,0 9285.0 9288.0 9291.0 9292.0 9293.0 9294.0 9295.0 9299,0 9300,0 9301.0 9302.0 9303.0 9304.0 9305,0 9306,0 9307.0 9308,0 9309,0 9312.0 _. 0,0 0.0 0.0 0o0 0.0 0.0 0.0 0.0 0',0 0,0 0.2 0.3 0.0 200 400 0.6 200 200 90 50 2- 0.0 ' 0.0 20 8 0.1 0.0 0,0 20 20 10 7 8 7 6 10 10 9 6 0.0 0,0 0.0 0,0 0.0 0.0 0.0 0.0 0.0 O.0 0,0 10,8 11.8 6.7 27.3 31,1 12.8 28.3 28.1 25,5 22,9 15.1 2.7 8,8 20.6 18,5 10,4 8,7 8.8 20,4 21'.0 18.8 17.9 18.1 18,0 17,4 19.1 19.6 18,6 17.7 0.0 100 100 100 100 100 t00 100 100 100 100 100 I00 I00 100 100 100 100 i00 100 100 100 100 100 100 100 100 100 100 100 100 41 39 49 6 0 30 8 0 0 40 45 19 24 43 40 46 17 18 i4 14 10 12 9 14 23 0.00 0,00 0.00 0.00 0.00 0o00 0.00 0.00 0.00 0.00 82.i0 81.97 81.87 81.67 81,45 81.14 80.96 80,66 80.27 80.02 79.81 79.69 79.65 79.38 79,18 79.01 78.92 78.83 78.30 78.10 77.89 77.71 77,53 77,35 77.17 77.00 76.80 76,61 76,43 76.08 0,00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 5.03' 5.03 5,03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5.03 5.03 5,03 5,03 5.03 5.03 5,03 5.03 5,03 5.03 5.03 5,03 5.03 5.03 5,03 5.03 5,03 5,03 DEPTH PERM, POROSITY FEET MD % WATER HYCARB CbAY CUM, MAT~ DENS, UbUME POROSITY % GM/CC % FEET CUM. H¥CARB FEET .. 9313,0 0,0 0,0 100 9314.0 0.0 '0,0 100 9315.0 0.0 0.0 I00 9320.0 I 14.1 100 9321.0 3 15.8 100 9322,0 2 15.6 100 9323,0 2 15.0 100 9324,0 0,1 9,5 100 9325,0 0.5 t2.5 100 9327,0 10 19.7 100 9328,0 20 20,8 100 9329.0 20 20.2 100 9330.0 20 20,5 100 9331.0 20 21,0 100 9332.0 20 21,2 100 9333.0 30 21,5 100 9334.0 30 22,1 I00 9335.0 20 20.5 100 9337,0 0.0 0.0 9338,0 0,0 0,0 9339,0 0.O O.0 9340.0 0.o 0,0 9341.0 0.0 0.0 9342.0 0.0 0.0 9343.0 o.o o.o 9346.0 O,O 0.0 9347.0 0.0 0,0 9348.0 0,0 0,0 9349,0 0,0 0,0 9350.0 0.0' O,0 9351,0 0,0 0.0 9352,0 0.0 0,0 9353.0 0.0 0,0 9394,0 0.0 0.0 9359,0 20 20,3 lO0 9360.0 20 20.9 100 9362.0 0.2 10,8 100 9363,0 0.2 11.1 100 9366.0 0,0 0.0 9367,0 0,0 0,0 9308.0 0.0 0.0 0 0 0 22 20 39 35 31 27 31 45 39 20 17 18 19 16 13 14 lb 21 -0 0 0 0 0 o 0 20 17 41 40 76,08 76.08 76.08 76.08 75,94 75.78 '75,63 75,48 75,37 75.08 74,88 74.67 74,4'7 74,26 74,05 73,84 73.62 73,44 0,00 0,00 0.00 0.00 0.00 0,00 0.00 0,00 0.00 0,00 0,00 0.00 0,00 0,00 0,00 0,00 72,86 72.66 72,31 72.22 0,00 0.00 0.00 5 5 5 .5 5 5 .03 .03 .03 .03 .03 .03 ,03 .03 .03 .03 .03 ,03 .03 ,03 ,03 .03 .03 ,00 ,00 ,00 ,00 ,00 ,00 .00 .00 ,00 ,00 .00 ,00 .00 .00 .00 .00 . .03 .03 .03 ,03 .00 .00 .00 DEPTH FEET POROSITY % WATER % DENS. GM/cC CLAY ¥OLUME % CUM. POROSITY FEET CUM, ~YCARB PEET 9369, 9374.0 9376.0 9378.0 9379.0 9380.0 9381.0 9382.0 9383,0 9384,0 9388.0 9389.0 9390.0 -939! ,0 9392,0 9394.0 9397.0 9399,0 9401,0 9404,0 9405.0 9406.0 9407.0 9408.0 9409.0 9410.0 9411,0 9412.0 94i3,0 94i4.0 9417.0 9419.0 9421.0 9424.0 9425.0 0.1 0.0 0,0 6 0,0 0,0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.2 I00 200 200 80 20 0,8 0,0 0.0 0,3 4 10 0.0 0,4 0.! 0.0 200 50 10, 8, O, 17.6 6,4 0,0 0,0 0,0 6,2 6.9 0.0 0,0 0,0 0.0 0.0 14,0 0,0 10.6 26.5 28.6 27,8 24.8 20,2 13.2 8,5 8.1 11,6 16.7 19,0 8.3 12.2 9,7 7,2 28,0 23,4 100 100 0 100 100 0 0 0 lO0 100 I00 0 100 lO0 100 100 100 100 100 100 100 I00 100 100 100 I00 100 100 I00 100 42 45 0 23 48 0 0 0 47 47 0 0 0 0 -0 35 0 42 O 0 3 7 19 26 30 28 24 48 39 44 9 72,11 72.02 0.00 71.90 71.74 0.00 0.00 0.00 71.70 7i.62 0,00 0.00 0.00 0.00 0.00 71.27 0.00 71.10 70.77 70.19 69.91 69,64 69,40 09.21 69,10 69,02 68,93 68,80 68,63 68.44 68,33 68.03 67.90 67.49 67.22 5.03 5,03 0.00 5,03 5,03 0.00 0,00 0.00 5.03 0,00 0,00 0,00 0,00 0,00 5.03 0,00 5,03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 DEPTH KEET PERM. MD POROSITY % WATER % DENS, GM/cC ChAY VOLU~E % CUM. POROSITY f'EET CUM, FIYCANB FEET 9426.0 9427.0 9428,0 9429,0 9430.0 9431,0 94~2,0 9433,0 94~4,0 9435.0 9436,0 9457.0 9458.0 9459,0 9461.0 9462.0 9463.0 9464,0 9465,0 9466,0 9467.0 9468,0 9469.0 9470,0 9471,0 9472.0 9473,0 9474,0 9475,0 9476,0 9477.0 9478,0 9479,0 9480,0 9481,0 9482,0 9483,0 9491,0 9492,0 9493,0 9494,0 9500.0 9501,0 9502.0 10 7 0.0 0.0 0.0 0,0 0,0 0,0 0,0 0.0 7 30 100 300 30O 5O 2O 60 50. 5O 40 9 0,9 3' 40 60 5.0 20O 300 0,0 0,0 0,0 0,0 0o0 0,0 0.0 0o0 0.0 0.0 0,0 0,0 0,0 19.4 17.9 13.9 7,5 0.7 1.2 8.8 0,0 0,0 0.0 0.0 18.2 22.2 25.7 29,1 29,0 23,4 20,6 23,6 23,1 23,3 22,3 18.5 13.4 15.8 22,3 23,5 27,8 30,1 0,0 0,0 0,0 ~0o0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 I00 .100 100 100 100 100 100 0 0 0 0 100 100 100 100 100 100 100 100 100 100 I00 100 100 100 100 I00 100 100 100 0 0 0 0 0 0 0 3 0 0 7 22 2~ 30 0 0 0 0 2'1 16 7 0 0 11 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 0 67,00 O6.81 66.64 66.51 66.46 06.46 66,42 0.00 0.00 0.00 0,00 66,32 66,12 65,89 65.4l 65.12 04.84 64.62 64.40 64,17 03,94 63,70 63.49 6],32 63,19 63,01 62.78 62.54 62,30 02.01 0,00 0.00 0.00 0,00 0,00 0,00 0,00 0,00 0.00 0,00 0o00 0.00 0.00 0.00 5.03 5.03 5.03 5.03 5.03 5.03 0.00 0.00 0.00 0,00 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.0.3 5.03 5.03 5.03 5.03 5.03 5,03 5,03 5.03 5,03 5.03 5.03 0.00 0.00 0.00 0,00 0,00 0.00 0.00. 0.00 0.00 0.00 0.00 0,00 0,00 0,00 DEPTH FEET. PERM, MD POROSITY % WATER SAT~ % H¥CARB GM/cC CbAY VObUME % CUM, POROSITY FEET CUM, t.{YCARB FEET 9503.0 9506,0 9507,0 9508,0 9518,0 9519,0 9520,0 9521,0 9522,0 9523,0 9524,0 ~9525,0 9530,0 9531,0 9534.0 9535,0 9536.0 9537.0 .. 9540.0 9541.0 9542,0 9543.0 9544,0 9545,0 9546.0 9547.0 9548.0 9549.0 9550.0 9551,o 9552.0 9'553.0 9554,0 9555,0 9556.0 9557.0 9558.0 9559,0 9560,0 9561.0 9562.0 9563,0 9564.0 -0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0.0 0,0 0,9 3O 0.0 0.3 8 2 1 3 5 2 10 40 50 60 40 4 2 2 2 0,8 10 20 20 20 1 0.0 0,0 0.0 0,0 0.0 0.0 0,0 0,0 0.0 0.0 0.0 0,0 0,0 13.5 21,6 16,4 18.6 15.3 14,4 8,0 11.7 18.5 15.4 14,3 16,2 17.1 15.0 19,0 22.6 23.5 23.7 22.2 16,8 14.6 15,3 15,1 13,3 14,8 18,8 20,4 19,8 20,3 14,4 0,0 0 0 0 0 0 .0 0 0 100 100 100 100 100 100 100 100 100 100 100 lO0 100 100 100 100 100 100 100 t00 100 100 100 100 lO0 100 100 100 100 100 0 3b 30 20 49 40 25 25 lb 0 1 0 0 0 0 0 14 21 20 20 25 20 9 3 4 t7 34 0 0.00 0.00 0.00 0,00 0.00 0.00 0,00 0,00 0,00 0.00 0.00 0.O0 61.71 01.55 61,01 00,86 60.b8 b0.53 60.32 b0.23 60.09 59,90 59.76 59,bl 59,44 59,28 59,12 58,92 58,69 58,46 58.22 58,01 57,85 57.71 57,55 57,41 57,27 57.11 56.92 56,72 56.52 56.31 0,00 .00 .00 .00 ,00 0.00 0.00 0.00 0,00 0.00 0.00 0.00 0,00 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5,03 5.03 5,03 5,03 5.03 5.03 5,03 5,03 5,0] 5,03 5.03 5,03 5.03 5,03 5,03 5.03 5,03 5.03 5.03 0,00 DEPTH FEET PERM. MD POROSITY % WATER SAT~ % HyCARB DENS, GM/CC CLAY VOLUME % CUM, POROSITY FEET CUM, HYCARB FEET 9565.0 9572.0 9573,0 9574.0 9575,0 9576.0 9577,0 9578.0 9579.0 95~0.0 9581o0 9582,0 9583,0 9584,0 9588,0 9589.0 9590.0 9591.0 9592.0 9604.0 9605.0 9506,0 9607.0 9608.0 9609.0 9610,0 9619.0 9620.0 9621,0 9622,0 9623,0 9624,0 9625,0 9626,0 · 9632.0, 9633.0 9634,0 9635,0 9636,0 9637,0 9638.0 9639.0 9650,0 0,0 0.0 0.0 0,0 0.0 0.0 O.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 300 0.0 0.2 0.9 0.1 0.0 0.0 0.0 0,0 ~ 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0,0 0,0 0.0 0,0 0,O 0.0 0,0 0,0 0.0 0.0 0,0 O.0 0,0 0.0 0,0 0o0 0.0 0.0 0.0 0.0 0,0 0,0 0,0 0.0 0.0 0.0 29,6 6,7 10,6 13,6 9.5 2.6 0.8 1.0 4,0 0,0 0.0 0,0 0,0 0,0 0.0 0.0 0.0 0,0 0 0 0 0 0 0 lO0 100 100 100 · I00 100 100 100 100 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O. 0 0 0 0 0 0 0 0 0 0 0 0 o 0 50 43 30 25 35 39 4O 4~ 0,00 0.00 0.00 0,00 0.00 0,00 0.00 0.00 0o00 0.00 0.00 0,00 0,00 0,00 0.00 0,00 0.00 0,00 0,00 0.00 0,00 0.00 0.00 0.00 0.00 5b.10 55.93 55.84 55.71 55.58 55.51 55.49 55.48 55.47 0,00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0,00 0.00 0.00 0,00 0.00 0.00 0.00 0.00 0,00 0.00 0.00 0.00 0,00 0,00 0,00 0.00 0.00 0.00 0.00 0.00' 0.00 0.00 0.00 0.00 0.00 0,00 5.03 5.03 5,03 5,03 5.03 5.03 5.03 5.03 0.00 0.00 0.00 0.00 0.00 0.00 0,00 0,00 0.00 DEPTH FEET PERM. MD POROSITY % WATER SAT' % HyCARB DENS, GM/cC CLAY VUbUME % CUM, POROSITY FEET CUM. HYCARS FEET 9651,0 9652.0 9654.0 9694,0 9695.0 9696,0 9697.0 9704.0 9705,0 9706.0 9707.0 9708.0 97o9o0 9710,0 9711.0 9715,0 97i6.0 9717,0 97i8.0 9719.0 9728.0 9729.0 9738.0 .. 9744,0 9745,0 97q6.0 9747,0 9748.0 9749,0 9750.0 9751,0 9752,o 9755.0 9756.0 9757.0 9758.0 9759.0 9760.0 97b1,0 9762.0 0.0 0.] 0.3 0,0 0,0 0,0 0,0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0o0 .- 0.0 0,0 0,0 0.2 0.3 : 0,0 . 2 3 2 6 3 1 4 3 3 0,0 11,8 11.4 0,0 0,0 0,0 '0,0 0,0 0,0 0.0 0,0 0,0 0,0 0,0 0.0 0,0 0.0 0,0 0,0 0,0 I0,8 11,5 8,7 17,7 15.7 17,6 15,4 14.4 .16.3 16.2 15,4 15.4 13.0 t4.3 15,9 14,7 17.0 20,1 21,4 20,8 10 10 100 100 100 100 100 100 100 100 I00 100 i00 100 lO0 1 O0 100 100 100 100 100 lO0 0 40 39 42 41 47 2O 27 19 28 28 16 24 27 38 34 28 2.{ 13 li 0.00 55.41 55.35 0.00 0.00 0.00 0.00 0.00 0.00 0o00 0.00 0.00 0,00 0.00 0.00 0,00 0.00 0.00 0,00 0.00 55.10 54.97 54.90 54.70 54.53 54.36 54.19 54.04 53.90 53.73 53,57 5.~.42 53.18 53.05 52.90 52.75 b2,bO 52.42 52.21 52,00 0,00 5.03 5.03 0.00 0.00 0.00 0,00 0,00 0,00 0,00 O.OO 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0,00 0.00 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5,03 5.03 D~PTH FEET PERM. MD POROSITY % WATER 5AT. % HyCARB DENS. GM/cC CbAY ¥ObUME % CUM, POHOS [TY FEET CUM . H¥CAHB I"EET 9763,0 9764,0 976b.0 9766.0 9767.0 9758.0 9759.0 9770.0 9771,0 9772.0 9773.0 9774.0 9775,0 9777.0 9778,0 9779.0 9780,0 9781.0 9782.0 9783,0 9784,0 9785,0 9786,0 9787,0 9788.0 9789,0' 9790.0 9791.0 9795.0 9796.0 9797.0 9798.0 9799,0 9~0o.o 98Ol.O 9802.0 9803.0 9804.0 9805.0 9806.0 9807.0 9808.0 9809.0 9810.0 9811,0 9812.0 30 50 70 60 20 9 20 40 40 40 50 30 20 0.0 0,0 0.0 0.0 0.0 0-0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0.0 0.0 2O 6 3 0,1 9 10 7 6 2 1 ! 2 5 10 10 5 21,7 23.2 24.3 23.7 20.7 18.6 19,9 22.2 22.2 22.7 23.3 21,6 21,2 0.0 0,0 0.0 0,0 0.0 0.0 0.0 0,0 0,0 0.0 0.0 0.0 0.0 0.0 0,0 21.3 20.5 17.5 16.2 10.4 18.b 19.2 18,0 17.6 15.0 13,9 14.2 14,7 17.3 19.1 19,0 17.5 15.7 100 100 100 100 100 100 I00 100 100 100 t00 100 100 100 100 100 100 100 I00 i00 100 100 10o 100 100 100 100 100 100 100 11 10 7 8 4 0 1 2 2 15 20 20 31 43 24 22 24 21 25 35 34 24 24 25 27 51.79 51.57 51.33 51,09 50.86 50.66 50.47 50,27 50.04 49.82 49,59 49.36 49.15 0.00 0,00 0.00 0.00 0,00 0.00 0.00 0.00 0,00 0.00 0,00 0,00 0,00 0o00 0,00 48'.94 48.72 48.53 48.35 48.21 48.06 47.87 47.68 47.50 47,33 47,19 4'1.05 46.92 46.77 46,59 46.40 46,21 46.04 5.03 5.03 5.03 5,03 5,0,3 5.03 5,03 5.03 5,03 5.03 5,03 5,03 5.03 0.00 0,00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0o00 0.00 0.00 0.00 0,00 0,00 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5,03 5.03 5.03 5.03 5.03 5,03 5,03 5.03 DEPTH FEET PORU$ITY WATER SAT~ % H¥CARB D~NS. C,M/cC CbAY VObUME % CUM, POROSITY FEET CUM. H¥CARB FEET 9813,0 9814,0 9815.0 98i6.0 9817,0 9818,0 9821.0 9822,0 9824,0 9825.0 9826,0 9827,0 9828,0 9829,0 ~830.0 9831,0 9832.0 9833,0 9834.0 9835.0 9836.0 9837,0 9838.0 9839.0 9U40.0 9841.0 9842.0 9843.0 9844.0 9846,0 9847,0 9848,0 9849,0 9850.0 9866.0 9807.0 9868,0 9869,0 9884.0 98d5.o 9886.0 9887,0 9888.0 2 2 1 0,2 0.0 0,0 3 4 4 4 1 0,8 0.1 0,0 0.0 0.5 4 0.3 0.0 8 7 6 10 8 0.0 0.0 0.0 0,0 0,0 0,0 0.0 0.0 O,0 0,O 0.0 0o0 0.0 0.0 0.0 3 5 1 2 0.2 15.0 15.0 14.3 10.8 5,1 0.4 15.9 16.6 16,8 16.6 14,4 13.2 9.1 6,5 8,0 12.4 16,9 11,7 8.6 18,4 18,2 17,8 19,6 18.4 0.0 0.0 O,0 0,0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0'.0 0,0 0,0 0.0 15.8 17,2 14.6 14,8 11,3 100 100 100 100 100 100 100 I00 1{}0 100 100 100 100 100 '100 100 100 i00 100 i00 100 100 100 100 0 0 0 0 0 0 0 0 O' 0 100 I00 100 100 I00 24 18 14 4 19 39 31 2~ 25 22 22 23 27 30 20 41 4'/ 23 22 21 15 27 0 0 0 0 0 0 32 29 35 34 42 45.89 45.74 45.59 45.45 45,36 45.33 45.26 '45.09 44.93 44.76 44.60 44,4b 44.33 44.25 44,18 44.09 43.96 43.78 43.70 ~3.56 43.38 43,20 4],02 42,82 0,00 0.00 0,00 0o00 0,00 0,00 0.00 0.00 0.00 0.00 0,00 0.00 0.00 0.00 0.00 42.53 42.36 42,19 42.03 41,89 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 b,03 5.03 5,03 5.03 5,03 5.03 5.03 5.03 5,03 5.03 5.03 5,03 5.03 5.03 5,03 0o00 0.00 0,00 0.00 0.00 0.00 0,00 0,00 0.00 0.00 0.00 0.00 0,00 0,00 0.00 5.03 5.03 5.03 5.03 5.03 DEPTH FEET PERM, MD POROSITY % WATER SAT' % HYCARB GM/CC CSAY ¥ObUME % CUM, POROSITY F EE'r CUM. liYC ARB FEET 9892 9893 9894 9895 .0 ,0 ,0 ,0 9B97.0 9898,0 9899.0 9900,0 9901,0 9902,0 9903,0 9904.0 9905,0 9906.0 9907,0 9908,0 9909.0 9910,0 9915,0 9916,0 99i7,0 9918,0 99i9.0 9931.0 9932.0 9933,0 9934,0 9935,0 9956,0 9945.0 9946,0 9947,0 9948,0 9949,0 9950.0 9951,0 · 9953,0 · 9955,0 9956.0 9967,0 9958.0 0.6 6 3 3 0.3 5 3 2 0,2 0,0 0.0 0,0 0.0 0.0 0.0 0.2 1 0.9 1 0,1 0.0 0.0 0.0 0.0 0.0 0.0 0,4 2 6 3 2 0,1 0.0 0.4 12.8 17.7 16,0 15.8 11.5 16.2 17,2 16,1 14,9 13,8 lO.b 6.1 0.0 0,0 0,9 7,7 11,3 13,8 13,6 14.2 15.7 9.5 0.0 0,0 0.0 0,0 0,0 0.0 12.0 15.2 17,6 16,5 15.0 10,3 7.5 11.9 16.7 15,1 13.7 13.8 100 100 1 O0 100 100 I00 100 100 100 100 I00 100 I00 100 100 lO0 I00 100 IO0 100 100 lO0 100 100 100 100 100 100 100 100 100 100 100 100 100 38 24 31 41 30 2'1 30 33 33 2~ 24 27 32 30 39 37 35 35 31 26 27 4~ 39 33 28 31 28 37 5O ¸40 27 27 29 21 41. 41. 41, 41. 41. 40. 40. 40. 40, 40. 40. 40. 40. 40. 40. 40. 40, 39, 39. 39, 39. 39. 39. , 0. 0. O. 0. O. 39. 38. 38. 38, 38. 38. 38. 38, 37. 37. 37. 37. 79 64 46 31 10 96 80 63 47 32 19 10 04 03 03 03 O0 92 72 59 45 30 15 O0 O0 O0 O0 O0 oo 04 92 76 59 43 29 19 15 86 69 55 41 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5,03 5,03 5.03 5,03 5,03 5.03 5.03 5.03 5.03 5,03 0,00 0,00 0.00 0,00 0,00 0 , 00 5.03 5.03 5,03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5.03 5.03 D~PTH FEET' PER~. POROSITY WATER · CLAY OLUME % CUM, POROSITY 1.' E E T CUM. tiYCARB FEET 9959.0 9960.0 9961.0 9962.0 9963.0 9964.0 . , 9967,0 9958,0 9972,0 9973.0 9975,0 9976,0 9977.0 9978,0 9979.0 9980,0 9981.0 ~ .. 9983,0 9984.0 9985.0 9986.0 9987.0 9988.0 9989.0 9990,0 9991.0 9992.0 9993.0 9994,0 9995.0 9996.0 9997.0 9998.0 9999,0 10000,0 I0001,0 10002.0 10003.0 10004.0 10005,0 , 10008,0 10009,0 10010.0 0.3 0,0 0.0 0.0 0,0 0.1 2 0,0 4 0.3 0.9 20 20 0.2 O, 0 0o0 0.0 0,1 0,2 O. ! 0,~2 1 0,1 0.,0 0.0 0,0 0,0 0,0 0.1 0,9 0,2 0,1 0,1 0,0 0,0 0.0 0.1 6 0,1 0,0 9 11.4 6.7 2.5 5.0 5.5 9,'1 15,2 7.0 16.8 11,9 13.6 21,3 20,2 16,8 10.7 1,2 0,1 1'7 9.0 11,2 10,4 11,0 13,8 10,3 8,I 1,8 0,0 0,1 3,4 9,5 13,4 11,1 9,2 8.9 9,0 5,9 Ool 1,2 10,2 17,6 I0,5 7,7 18.7 100 IO0 100 100 100 100 100 100 I00 I00 100 100 100 100 100 100 100 I00 100 100 100 100 100 100. 100 I00 100 100 I00 100 I00 lO0 lO0 lO0 100 100 lO0 100 lO0 100 100 100 100 15 11 17 17 26 32 33 50 30 39 36 20 22 21 10 38 40 50 43 42 43 42 30 30 33 34 32 32 31 28 22 30 37 37 28 18 31 34 27 26 43 48 25 37.28 3'1,18 37.13 37.10 37,05 30 , 99 36.64 36.51 36,39 36,24 36.10 35.95 35,73 35.54 35.38 35.30 35.29 35,29 35,25 35.14 35.03 34.93 34,80 34.67 34.58 34,51 34,50 34,50 34,49 34,44 34.33 34,20 34,10 34.01 33,91 33,83 33,79 33,79 33,75 33,63 33,46 33,36 33.28 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5,03 5,03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 b.03 5.03 DEPTH FEET PERM, MD POROSITY WATER SAT. % DENs. G~/CC CLAY VOLUME % CUM. POROSITY FEET CUM l.i YC/~R B FEET 10013.0 10014.0 10015,0 10016,0 10026,0 10027.0 10028.0 10029.0 10030.0 10031.0 10032.0 10063,0 lOOb4.0 10070.0 10071.0 10074,0 10075,0 10098.0 10099,0 I0100,0 10151,0 10152,0 10153,0 10154,0 10155,0 10156,0 10157.0 IoISB.O · 10178,0 10179.0 10180.0 10181.0 10182,0 .. 10191.0 10192,0 10193,0 10194.0 10217,0 20 2O 4 0,4 0.0 0.0 0.0 0.0 0,0 0.0 0.0 O.,i 0,,,6 0.0 0,0 0,0 '0,0 0.0 0.0 . 0,0 0,0 0,0 0,0 0,0 -0,0 0,0 0.0 0.0 0.0 0.1 0.1 0,0 0.0 0.0 0.0 0,0 0,2 20,5 20,2 16.6 12,0 0.0 0,0 0,0 0.0 0,0 0,0 0,0 9.5 2,5 12,8 9.0 0.0 0,0 0,0 0,0 0,0 0,0 0.0 0,0 0,0 0,0 0,0 0.0 0.0 6.8 9,1 9.9 7,8 0,0 0,0 0,0 0,0 11,3 '100 100 100 100 0 0 0 0 0 0 0 lO0 lO0 100 100 0 0 0 100 100 100 100 100 100 14 30 40 0 0 0 0 0 0 0 35 4b 33 42 47 4b 44 42 4'1 42 32,82 32.62 32.41 32,28 0,00 0,00 0,00 0,00 0,00 0,00 0,00 32.13 32.05 31,87 31.75 0.00 0,00 0.00 0,00 0.00 0,00 0,00 0,00 0,00 0,00 0,00 0.00 0,00 31.65 31,58 31.49 31,40 31.~I 0,00 0,00 0,00 0,00 31.17 5.03 5.03 5.03 5.03 0,00 0,00 0,00 0,00 0,00 0,00 0,00 5,03 5.03 5.03 5.03 0..00 0,00 0,00 0,00 0,00 0.00 0.00 0.00 0.00 0,00 0.00 0.00 0,00 5.03 5.03 5,03 5.03 5.03 0,00 0.00 0,00 0.00 5.03 DEPTH FEET PERM, MD POROSITY % WATER % DENS, GM/cC CbAY V(]bUME % CUM, POROSITY FEET CUM . HYCARB FEET 10218.0 10219.0 10220.0 10233.0 10234.0 10235.0 10236,0 1023g.0 10242.0 10255.0 10256,0 10258,0 10259.0 10260.0 10261.0 10262.0 10263,0 10269.0 10270.0 10271.0 10272.0 10273.0 10274.0 10275.0 10276.0 10277,0 10284,0 10285,0 lO2 O.O 10291,,0 10292.0 10353.0 10354.0 10355.0 10356.0 10357.0 10358.0 10421,o 0.0 0.0 0.0 0.0 ! 0.0 0.! 0,0¸ 0.7 0.2 0.0 0o0 0,0 0,2 0.1 0,0 0.I 0.2 0.0 0.0 0.0 0,0 0,0 0,! 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,O 0,0 0.0 0,0 0,0 0,5 8,8 8,8 7,8 8.5 4.1 7.6 8,4 9,8 7.3 3.2 0.9 8.1 7.4 0,8 9,0 0,5 1.1 8.7 5,5 1,0 0,2 6,1 9,6 8,9 7,5 0,0 0,0 0.0 0.0 0,0 0.0 0.0 0.0 0,0 2,4 100 100 100 100 100 I00 100 lO0 lO0 100 100 lO0 100 100 100 100 I00 100 100 100 100 10o 100 lo0 100 i00 100 100 lO0 4'1 47 49 47 27 47 44 49 37 42 49 41 41 27 28 42 43 28 21 26 23 31 47 43 47 24 31.05 30.97 30,88 30.75 30,66 .30,50 30.33 30.17 30.09 30,00 29,86 29.79 29.70 29,62 29.54 29.43 29,35 29,25 29.13 29.02 28.94 2t~.90 28.89 28.88 28,81 28.70 28.61 28.53 0.00 0.00 0,00 0.00 0.00 0.00 0o00 0,00 0.00 28.35 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5,03 5.03 5,03 5.03 5.03 5.03 5.03 5,03 5.03 5,03 5,03 5.03 5.03 5.03 5,03 5.03 5.03 0,00 0,00 0.00 0,00 0.00 0,00 0,0.0 0.00 0,00 5.03 DEPTH FEET PERM, MD POROSITY % WATER SAT. % HYCARB DENS, GM/cC CbAY ¥ObUME % CUM. PURO~ITY FEET CUM, HYCARB FEET 10422.0 10423.0 10424.0 10425.0 10429,0 10430,0 10431,0 10487.0 10488.0 10491.0 10492,0 10q93.0 10494.0 10495.0 10498.0 10499.0 10500,0 10514.0 10515.0 10516.0 10517.0 I0523,0 10524,0 10525,0 i0526.0 , , 10547.0 10548.0 10549,0 10579,0 ., 10619.0 10622,0 10623,0 10624.0 10630.0 10631.0 10632.0 1o6~3 .o 0,0 0,0 0.0 0,0 0,0 0,0 0,0 0,0 0,0 0.2 0,0 0,0 0,0 0,0 0.8 1 0,2 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0,0 0.0 0,0 0.0 0.1 0.4 0.1 '0,0 0,! i 2 3 5.5 0.0 0.0 0,0 0,0 0.0 0.0 8,4 7,8 11.0 7,7 4.5 6,4 7,6 13,3 14,3 11,2 8.2 0,0 0,I 0,0 0,0 0,0 0,0 0,0 0.0 0.0 17,6 9.9 11,9 9.2 6,7 9,7 14,2 15,0. 15,9 100 100 100 100 0 0 0 100 100 100 100 100 100 100 lO0 lO0 100 lO0 lO0 I00 100 0 0 0 0 100 100 100 I00 100 100 100 I00 100 23 35 42 48 47 48 28 19 24 30 42 37 34 41 33 28 30 47 , 28 43 36 42 5O 44 33 31 31 28.24 28.21 28.21 28.21 0.00 0.00 0,00 28.18 28.08 27.93 27.83 27.76 27.72 27.65 27.48 27.34 27.21 27,07 27.00 2b,99 26,99 0.00 0.00 0.00 0,00 0.00 0,00 0,00 26,84 26.61 26.45 26,34 26,25 26,09 25.97 25,83 25,6'1 5.03 5.03 5.03 5,03 0,00 0.00 0.00 5,03 5,03 5.03 5.03 5.03 5.03 5,03 5.03 b,03 5.03 5.03 5.03 5.03 5.03 0.00 0,00 0.00 0.00 0.00 0.00 0.00 5.03 5,0.3 5.03 5,03 5,03 5,03 5.03 5.03 5,03 DEPTH FEET PERM. MD POROSITY % WATER HYCARB DENS . GM/CC CbAY ¥ObUME % CUM. PORI]SITY FEET CUM. tiYCARB FEET 10634.0 10635.0 10636.0 10637.0 I0638.0 10639.0 10640.0 10641.0 10~42,0 I0643.0 10644.0 10647.0 106tB,O 10649,0 10650,0 10659.0 10661,0 10662.0 10663,0 10664.0 10671.0 10673.0 10674.0 10675.0 10676.0 10677.0 10678.0 10679.0 10730.0 10731.0 10732.0 I0733.0 10734,0 10735.0 10751.0 10753,0 10764.0 10755,0 10766.0 107~0.0 0.0 0.2 2 0.5 0,2 0.0 0.0 0.0 0.0 0,0 0.0 0.0 O,1 0,0 0.0 .0 0.! 0.! 0.1 0.0 0.0 0.1 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.'0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0',0 0.0 0,1 7.1 10.7 14,7 12,4 11.2 8,2 3,1 3.3 5.7 1,4 0.1 8.6 9.3 7.0 8.6 8.8 10.4 10,2 9.1 7.2 0,9 9,9 0,0 0,0 0.0 0o0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 7.7 0,0 0,0 3.4 7.5 9,1 ~.00 100 100 100 100 100 100 I00 100 100 100 100 I00 100 100 100 100 i00 100 100 100 100 100 100 100 100 100 100 49 42 32 34 28 30 44 41 29 37 48 44 30 41 42 41 41 42 42 49 44 45 44 47 45 25,54 25.47 25.36 25,22 25,10 25,00 24.92 24,90 24.85 24,80 24.79 24.73 24.64 24.55 24.48 24.30 24,20 24.10 ~24,00 23,91 23,86 23,77 0,00 0.00 0,00 0.00 0.00 0.0O 0,00 0.00 0.00 0.00 0.00 0o00 0o00 23.64 23,57 23.57 23,57 23.52 23,42 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 0.00 0.00 0.00 0.00 0.00 o.00 0.00 0,00 o,00 0,00 o,00 o,00 0.00 5.03 5.03 5.03 5.03 5.03 5.03 Df:;PTtt FEET PERM. Mi) POROSITY WATER ,SAT, % HYCARB DENS. GM/cC CBAY VO6UME % CUM. POROSITY FEET CUM, H YC aRB FEET 10761.0 1'0762.0 10763.0 10764.0 I07b5,0 10766.0 10767,0 10708,0 10769,0 10770,0 10771.0 10772.0 10773.0 10774,0 10775.0 10776.0 10779.0 10780.0 10781.0 10782,0 10783.0 10784.0 10785.0 10786,0 10787.0 10788,0 10789,0 10790,0 10791,0 10792,0 10793.0 10794.0 10795,0 10796.0 10799.0 0.! 0.3 ! 1 0,6 0.0 0,0 0.6 0.5 0.6 0.9 ! ! 1 0,0 0.0 0,1 0.! 0.1 O.1 0.0 0.0 0.0 0,0~ 0,0 0.0 0,4 4 30 lO0 4O 3 9,7 11.7 14.0 13,8 12,7 7.8 7.3 12.9 12.5 12.7 13,0 13,6 14,3 14,5 15,1 14,5' 8.2 8.1 9.8 9,4 9,6 9.5 8,6 8.2 5.8 4,3 7.1 8.6 12.1 16.3 21.7 26.1 22,7 16,0 18.0 100 I00 100 100 I00 100 i00 100 100 100 100 100 99 98 100 i00 100 100 t00 I00 lO0 100 100 100 I O0 100 100 100 100 100 100 100 lO0 100 100 4O 34 29 3O 3'1 48 49 32 3O 30 27 27 47 39 37 39 3~ 45 21 15 0' 0 22 23 23.33 23.23 23.10 22.96 22.83 22.71 22.64 22.55 22.4~ 22,30 22.18 22,04 21,90 21,76 21.61 21,46 21.30 21.22 21,13 21,03 20.94 20.84 20.75 20.67 20.59 20.54 20,40 20,41 20.32 20,19 20.01 19,78 19,52 19.32 18.93 5.03 5.03 5.03 5.03 5.03 5.03 5.03 5.03 b.03 5 .O3 5.03 5.03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5.03 5,03 5.03 5.03 5.03 5,03 5,03 5.03 5.03 5,03 5.03 5.03 5.03 5.03 ISS - 2 3 4 5 6 7 8 9 10 ll 12 13 14 15 16 17 18 19 20 21 22 0 0 0 1 0 0 1 0 0 2 0 0 0 0 0 0 1 0 0 0 0 *INPUT PARAMETERS FRO~I 10996, TO 10812, WMUD XLIT BITSZ BHT BHTDEP SUFT RF~F RMFT HOMF~ PHiMFS DASIL 8.3 0,50 6,00 172, 11068, 40, 1.99 '/5, ~.003 0,99.5 O,bO0 SPCK DSPCK R.ODC DELRGM START STOPL~ ZSPNb BGN ZSP})[, REC RESH 0, 0. 2.84 0.20 11050o 9170, 0.000 1.O0 0,000 7,60 11,20 0.2 WHY PHILEV BR SI~IM AK PK SK sTL)PIN PHIMAX PHINCL Pi4IDCL ,200 0.000 .10 0.30 b2500, 6.O 2.0 I0812, 0.230 0.374 0.066 PHINSO RTPM PUN DAX DALIM DAGA DASH DTSD DTS~{ CP PSSH 0,21'3 138..,021 O, O, O. O, lbO. 150, 0.97 EDIAM PNI.,I~4 PDI~IM RLIM GRLIM VARMC CONST R[]P VARI~IM CSF 0,00 0,32 0,21 3.0 1000.0 0,07 0.333 0,70 0.20 0.50 SP STATISTICS OVER ENTIRE INTERVAl, RESISTIVITY STATISTICS OVER ENTIRE'INTERVAL SONIC STATISTIC& OVER ENTIRE INTERVAl, GAMMARAY NOT USED IN CORRECTION OF DOUBTFUL POR{]SITY DATA ANALYSIS BY OUA6! MODEb~ PERMEABILITY BY TIMUR EQUATION · SP COEFF, FROH STATISTICS GR NOT USED IN SHALINESS DETERMINATION SONIC COEFF. FRi]M STATISTICS WASAMP ROUTINE USED DEPTft FEET PERM MI) POROSITY % WATER SAT' % HyCARB DENS, GM/cC CbAY VObU~E % CUM. PO}<OSITY FEET CUM. HYCARB F E E T 10833,0 10834.0 10835.0 10836,0 · 10850,0 10855.0 10850.0 10874.0 10879.0 10880,0 10881.0 10882.0 10883.0 10884.0 108B5,0 10886.0 10887,0 10888.0 10889,0 10890,0 10891.0 10892.0 10893,0 10894.0 10895.0 10896.0 10897.0 10898.0 I0899.0 10900,0 '1090t.O i0902,0 10903,0 10904,0 10905.0 10906.0 10907.0 10908.0 10909,0 lOglO.O 10911,.0 109i2,0 109i3,0 IO9i4.o 0,0 0,0 0,4 0,0 0.0 0.0 0,0 0.0 0.0 0,6 1 1 0.9 0.0 0.1 3 4 4 10 10 7 7 9 10 9 7 6 4 6 5 6 5 4 4 4 4 2 0,2 0.1 0.1 0.6 4.1 5.4 8.4 7.5 7.0 5.7 5.7 0,0 7.4 8.8 10.0 10.1 10.0 7.7 8.5 13,4 13.b 14,2 17,2 17,3 15,5 15,1 15,9 17.0 15.8 17,1 16,7 16,5 15,5 16,6 15,4 15,7 15.2 14,3 13,9 11,8 12,9 14,0 14,t 14.5 10,1 8.7 8.9 100 100 63 89 97 100 lO0 81 52 55 59 99 93 59 59 61 58 57 57 55 55 57 63 63 66 69 71 67 65 63 6~ 64 61 63 6O 62 64 67 73 94 68 59 45 44 29 30. 45 47 49 50 45 45 42 30 41 3b 3'1 30 20 19 21 24 23 19 24 22 21 29 29 27 2'1 31 3'I 30 30 3'; 41 44 44 18.30 18.26 18.20 18.11 17,97 i7.87 17.81 0o00 17.55 17.47 17.38 17.28 17.18 17.09 17,01 16.91 16,78 16,64 16.48 16.31 10,14 15.99 15.84 15.68 15,51 15,35 15,18 15,02 14.85 14,70 14,54 14,38 14.22 14.07 13,93 13.80 13,55 13.40 13.2o 13,12 13,03 12.94 12.85 5.03 5.03 5.03 5.00 4.99 4.97 q.97 0,00 4.97 4.94 4.90 4.85 4.81 4.77 4.77 4,75 4,69 4.04 4,57 4.50 4.43 4,36 4.29 4.22 4.15 4,09 4.03 3.98 3.93 3.88 3.83 3,77 3,71 3.66 3.61 3,5b 3,51 3.46 3,41 3.35 3.31 3,29 3,28 3.25 DEPTH FEET PERM, MD POROSITY WATER SAT'. H~CARB DENS, GM/cC CLAY VOLUME % CUM, POROSITY FEET CUM. 10915.0 10916.0 I09i7.0 I09i8,0 i0919.0 10920,0 10921,0 10922,0 10927,0 10928.0 10929.0 10930.0 10931,0 10932.0 10933.0 10934,0 10935,0 10~6,0 10937.0 10938.0 10939,0 10940.0 10941,0 10942,0 10943,0 10944.0 10945,0 10946'0 10947,0 10948,0 10949,0 10950.0 10951.0 10952,0 10953,0 10'954,0 10955.0 10956,0 10957.0 10958.0 10959,0 10960.0 10961,0 10962,0 I09~3.0 10964.0 10965.0 .. 2 6 5 0.9 0.8 0.4 0,0 0.0 0,0 8 7 0,0 0.1 0.1 3 10 0,0 0,0 0.0 0.0 0,0 0.0 0.0 0.0 2 6 7 7 5 2 2 3 5 10 9 6 1 0,8 0,0 0.0 0.0 10.8 11.2 13.9 13,2 9.6 9,5 8.7 7,4 7,0 6,3 14.4 14,5 7,4 8,8 9.7 13,7 16,7 12,8 8,1 8,1 7,5 7,9 7,7 7,9 7,~ 12,8 15,1 i6,1 16,3 16,3 16,2 15,3 13,8 13,5 13,9 14.5 16,0 17,3 15,0 10.9 9.1 7,6 4.4 1.7 3,9 51 49 47 48 53 55 65 99 99 100. 46 4.9 99 87 70 62 57 60 98 97 96 99 97 100 100 100 63 60 61 60 59 61 63 67 76 76 73 69 64 58 50 40 34 98 100 t00 0,5 0,6 0,8# 0,6 0,8, 44 43 2~ 41 44 47 49 44 3O 24 44 45 41 21 3O 43 45 47 46 44 42 31 25 15 13 .11 4 9 9 10 14 4 0 4 7 9 14 18 21 12.76 12,64 12,53 12,39 12.26 12.16 12.07 '11.99 11.63 11.56 11.47 11.32 11.18 I1.10 11.01 10,91 10,76 10,60 10,49 10.41 10.33 10.25 10.17 10,09 10.02 9,94 9.85 9.71 9,56 9,40 9.23 9.07 8.91 8,76 8.62 8,49 8,35 8,20 8,03 7.85 7,68 7.54 7.44 7,35 7.28 7.25 7.23 3.21 3.15 3.09 3.02 2.95 2,91 2.87 2.85 2,85 2.85 2,82 2.74 2,67 2.66 2.64 2.61 2.55 2,48 2.44 2,44 2.44 2.q4 2.44 2.43 2.43 2.43 2.42 2,37 2,3i 2,24 2.18 2.11 2.05 1.99 1.95 1.91 1.88 1,84 1.79 1.73 1.67 1.61 1,55 1.50 1,46 1.46 1.46 DEPTH F'EET PERM, MD POROSITY % WATER SAT' % H~CARB DENS , GM/CC CLAY VOLUME % CUM, POROSITY FEET CUM, H¥CAMB 10966,0 10967.0 10968,0 10969.0 10970,0 10971,0 10972.0 10973,0 10974.0 10975,0 10976,0 10977,0 10978,0 10979,0 10980,0 10981,0 10982,0 10983.0 10984,0 10985,0 10986,0 10987.0 10988.0 10989,0 10990,0 10991,0 10992,0 10993,0 10994,0 0,9 5 5 2 2 '0,5 0.7 6 7 6 5 3 O.g 0,3 0.0 0,0 0,0 0,0 0,4 4 3 4 10 9 6 0.9 8.9 12.6 13,1 10,5 10.7 8,6 9,6 13.0 14,9 14.9 14.1 13,3 11,2 7,0 5,1 5,2 5,7 8,3 10.3 13.6 14.1 12,5 13.7 16,3 16,3 14,9 10.1 44 44 4'1 47 51 6O 61 58 55 53 5O 48 43 41 43 91 95 95 99 59 55 55 56 58 56 54 55 57 62 0,5 0,5 0.5 0,6 24 15 22 19 23 2't 26 24 19 16 7 9 1'% 15 17 23 lO 13 21 29 21 17 34 7,18 7.09 6.95 6.83 6.73 6,62 6,54 6.43 6.30 6.15 6.00 5.86 5,73 5.63 5.55 5 ..48 5,43 5,37 5.32 5,25 5,1.7 5,05 4.91 4,78 4.65 4.50 4,134 4.18 4.04 1.45 1,40 1.33 1.26 1.21 1.lO 1.13 1.08 1.02 0,96 0.89 0.82 0.75 0.69 0.64 0.60 0.60 0.60 0,60 0,58 0,55 0.50 0.43 0.37 0.32 0.25 0.18 O,li 0.05 2 3 4 5 6 ? 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 00010010 0 2 0 0 0 0 0 0 1 0 0 0 0 INPUT PARAMETERS FROM 11050, TO 10996. WMUD XbIT BITSZ BHT BHTDEP ~IIFT RMF RMFT RI{MFS PHIMFS DA$1L 8.3 0,50 6,00 172, 11068, 40, 1,00 75, 1,003 0,995 0,bO0 SPCK DSPCK RI)DC DEL~GM START STOPLG ZSPNb BGN ZSPI.)I., REC RESH c$S 0, 0, 2,84 0.20 110b0, 9170, 0,000 1,00 0,000 ~,70 20,00 WHY PHIbEV BR SLIM AK PK SK STOPIN PHIMAX PHINCL ,200 0,000 ,10 0,30 62500, 6.0 2~0 1099b, 0,210 0.354 0,066 PHINSO RTPM PUN DAX DAL{M DAGA DASH DTSD DT~H CP PSSH 0.213 138, ,0~! O, 0, 0, 0, 150, 150, 0,79 .i. BO EDIAM PNLIM PDLIM 0.00 0.32 0,21 RLIM GRLIM VARMC CONST ROP VARI,.IM CSF 3,0 1000,0 0,07 0,333 0.70 0,20 0,50 SP STATISTICS OVER ENTIRE INTERVAL RESISTIVITY STATISTICS OVER ENTIRE INTERVAL SONIC STATISTICS OVER ENTIRE INTERVAl., GAMMARAY NOT USED IN .CORRECTION OF DOUBTFUL POROSITY DATA ANALYSIS BY'QUASI MODEL PERMEABILITY BY TIMUR EQUATION SP COEFF. FROM STATISTICS GR NOT USED IN SHALINES8 DETERMINATION SONIC COEFF. FROM STATISTICS WASAMP ROUTINE USED DEPTH FEET 11006,0 11007,0 liOOB,O 11009,0 11011,0 1i012,0 11018,0 110i9.0 11020,0 11021,0 11022,0 11023,0 11024,0 11025,0 11036,0 11037,0 llO]B,O 11039,0 11040,0 11041,0 11042,0 11043,0 11044,0 110t5,0 I1046,0 11047,0 11048,0 11049,0 11050,0 PERM. MD 0,0 0,6 0,0 0,0 0,0 0,0 0,7 0,2 0,1 0,6 8 10 10 3 0,0 0,0 · 0,1 0,1 0,6 7 8 10 20 20' 20 20 20 4 20 POROSITY 6.7 12,0 7.7 8,2 0,0 0,0 I2.2 i0.4 9.3 12,0 16.8 17.5 17,6 14.5 5,7 8.3 8,9 9,0 11.9 16.7 17,1 17,8 19,4 19,2 19,3 19,3 19,4 15.7 18.5 WATER SAT~ % i00 92 100 lo0 100 100 100 97 99 100 100 100 100 I00 100 100 100 I00 100 100 100 100 I00 lo0 100 I00 HyCARB DENS. GM/cC Cl.,AX VOLUME 4b 29 3U 34 29 14 14 11 131 48 42 43, 34 22 19 10 15 13 14 24 19 CUM, POROS I TY FEET 3.80 3.71 3.60 3.53 0.00 0,00 3.41 3.28 3.18 3,09 2,95 2.78 2 .bi) 2.43 2,21 2.14 2,06 1,97 1.87 1,74 1.57 1.40 1,21 1.02 O,B3 O,b3 0,44 0.25 0.09 CUM. }tYCAHB FEET 0.03 0.03 0.02 0.02 0,00 0,00 0,02 0,01 0,01 0,01 0.01 0,00 0.00 0,00 0,0o o.00 0,00 0.00 o,00 0.00 0,00 0.00 0.00 0.00 0.00 0.00 0,00 0,00 0,00