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191-016
ON OR BEFORE NOVEMBER 2 2000 LOCATION CLEA~ZNCE REPORT Lease File: Abnd Da=a Liner Review the well file, and-ccmmenn cn piuqgi~g, well head sue=us, a~d !oca=icn clearance - provide loc. clear, code. Well head ca= o~-~: ~ " Harker 'pos= or pla~m: ~ Conclusions: Code MEMORANDUM State of Alaska Alaska Oil and Gas Conservation Commission TO: David Johr~n, DATE: Chairman.,~ THRU' Blair Wondzell, ~.4~~ FILE NO: P. I. Supervisor FROM: Lou Grimaldi,c,~t~<~ SUBJECT: Petroleum Inspector August 24, 1994 MLGLOCLR. DOC Location Clearance inspection BPX Malguk #1 '~ Sec. 28, T04N, R09E, Umiat PTD #91-016 Wednesday, August 24, 1994: I attempted a Location Clearance on BPX exploratory well Malguk #1. Wade Srock (BPX rep.) Accompanied me on my inspection. The location was not found this day probably due to bad GPS cordinates. We flew the area for approximately 30 minutes with no success. SUMMARY: I attempted a Location Clearance on BPX exploratory well Malguk #1, but was unable to find the location. Attachments: None TO: THRU: FROM: MEMORANuUM Sta e of Alaska ALASKA OIL AND GAS CONSERVATION COMMISSION Lonnie C Smith Commissioner DATE: FILE NO: October 7, 1991 LG107-2 .DOC TELEPHONE NO: SUBJECT: Location Clearance BPX Malguk #1 _P~er..mi..t 91-16 __ Exploratory Sec 28, T4N, R9E, UM Louis R Grimaldi Petr Inspector I flew to BPX Exploratory Site where Malguk #1 had been drilled and subsequently plugged and abandoned. The location was very clean with virtually no trace of the ice pad that had been there last winter. The marker was of proper construction and mounted securely. The information was bead welded on and was correct. There is approximately an 18"-20" hole surrounding the monument that had standing water in it. All else looked good. In summary, with the exception of the puddling around the monument, the location is in its original condition. Attachment 02-00lA (Rev. 6/89) 20/11/MEMOi. PM3 FILE INFORMATION: Operator i~ Address ALA~-~ OIL AND GAS CONSERVATI'ON CO.~MISSION SURFACE AB,~DON~ENT REPORT 20 AAC 25, Ae, T~C~ 2 Surface Location of Well 20 AAC 2~.120: WELL ABANDONMENT MARKER: Permit NO. API No. 50-,.~3 Unit or Lease Name Well No. Field & Pool Dia. Steel Post (4"Min.) ~" Length (lq' Min.) /~ Height Above Final Grade Level (4' Min.i . . /~ ~ Top of Marker Pipe Closed with: Cemefit Plug Screw Cap_____ Set: On Well Head , On Cutoff Casing ~'~, 'in Concrete Plug Distance Below Final Grade Level ~ Ft. d) in. Side Outlets: All Valves and Nipples Removed All Openings Closed _____, With Blinds ~, With Cement._____ .. Welds , Other ,'/~/~' ! INFORMATION BEADWELDED DIRECT~LY TO MARKER POST: (List ~%ere Different from File Information) Operator ~ P ~/P/./)a~J-,OA/ Unit or Lease Name.~b~ Well Number /~f~o~ ~ / , Surface Location of Well: _~YT/O rt. r~L, f~& Ft., F~L,"'Sec ~, T ~/ ~_, R 20 AAC 25.170: 'LOCATION CLEAN-UP PITS: ~ Filled In , Liners' Removed or Buried -. , Debris Removed -~ ~ , , , SURFACE OF PAD AND/OR LOCATION: Rough , Smooth , Contoured , Flat , Compacted. , , , Other ."~O ~ ~-~ CLEAN UP OF PAD A~N~D/OR LOCATION: Clean_~__, Pipe Scrap .. , Iron Scrap _ , Wood . .., Mud Paper , Other , Cement , SURROUNDING AREA: · Wooded , Brush ' , Tundra ~ , Grass , Dirt Sand , Other CONDITION SURROUNDING AREA: Clean P< , Trash from Site Other , -, , Gravel , . .-. __ ... · Trees and/or Brush from Clearing Site ¢ ACCESS ROAD: Dirt~ , Gravel , Ice / , Other CONDITION ACCESS ROAD AND SURROUNDING: Clean ~ , Rough , Smooth , Trash from Operations , Trees 'and/or Brush from Clearing Road , Spoil from Clearing Road Other REMAINING TO BE DONE: Final Inspection DATE ~"- ~ '-~./. " . .2 ALASKA OIL AND GAS CONSERVATION COMMISSION TO: Lonnie C. Smith Commissioner FROM: Louis R.Grimaldi Petroleum Inspector DATE: ~--~--~ / FILE NO: SUBJECT: "~o~, o~J C £ ~R~,~ 9/--! BP EXPLORATION September 27, 1991 Mr. Lonnie Smith Alaska Oil and Gas Conservation Commission State of Alaska 3001 Porcupine Drive Anchorage, Alaska 99501-3192 LOCATION CLEARANCE MALGUK #1 & NARVAQ #1 BP Exploration (Alaska) Inc. 900 East Benson Boulevard RO. Box 196612 ',,, Anchorage, Alaska 99519-6~i~MM (907) 561-5111 SR G EOL~ / / Dear Mr. Smith' This letter is in response to attached letter from Mr. Louise R. Grimaldi of your staff dated September 23,1991. Mr. Grimaldi's letter requests additional fill be placed around the well markers of the above referenced exploration wells. On September 27, 1991 Mr. Rory Mayra of my staff discussed the scheduling of this work with you. Due to 1991 freeze-up fast arriving, it was mutually agreed the work would be better conducted next summer. Upon completion of the work, pictures of it will be forwarded to your office for review. If you have questions, please contact Rory Mayra at 564-4215. (:'~ter"T. Hanl~', P/e"/mitting Supervlsor~ Environmental & Regulatory Affairs, Alaska Attachment SDT/RRM RECEIVED OCT - ~ 1991 Alaska 0il & Gas Cons. CommJssien Anchorage J ALASKA OIL AND GAS CONSERVATION COMMISSION WALTER J. HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-14,33 TELECOPY: (907) 276-7542 September 23, 1991 Rory Mayra Permit Compliance Environ & Reg Affairs BP Exploration (Alaska) Inc P O Box 196612 Anchorage, AK 99519-6612 Re: Location Clearance for Malguk ~1 and Narvaq Dear Hr Hayra- This letter is pursuant to our conversation on Sepuember 9 concerning the location clearance and inspection of subject wells. It has been standard practice to provide a sufficient amount of gravel/dirt around the marker on abandoned wells to allow for subsidence around the casing that normally occurs in the North Slope region. When my reports and photographs were reviewed by the Commission, it was obvious that the area around the markers needs additional fill at the subject wells. The normal mounding should be about twelve inches at the marker and taper out tc the perimeter of the cellar. if you have other questions, feel free to contact the office. Sincerely, Louis R Grimaldi Petr Inspector LRG/j o RECEIVED OCT - ? 1991 Alaska 0il & Gas Cons. Oommissio~ Anchorage Environ~nentat and Regulatcr,, Affairs IBP 5x,c:cra.~on SEP 7 '91 ~rnes ~.~kubczak · .Brc. wn ~ev;~;egam Cooke ~Lomba~ , ~ Dal~ple [Lc. we Gliders {Mevra FILE: PERMIT 00-0242-0 68-0095-0 69-0036-0 73-0027-0 74-0056-0 74-0057-0 76-0013-0 76-0017-0 76-0034-0 78-0017-0 API NUMBER 029-21821-00 029-20004-00 029-20017-00 179-20004-00 029-20150-00 029-20151-00 029-20195-00 029-20199-00 029-20208-00 029-20278-00 ARCO SUSPENDED W-ELLS PRIOR TO 1980 AS OF AUGUST 1994 WELL WELL WELL NAME CLASS STATUS PRUDHOE BAY UNIT OW-DW-C SER SUSP DELTA ST 1 EXP SUSP PUT RIV ST I EXP SUSP KAVIK U~IT 3 DEV SUSP DELTA ST 2 EXP SUSP GULL IS ST I EXP SUSP GULL IS ST 2 EXP SUSP HIGHLA/qD ST 1 DEV SUSP W BEACH ST 3 EXP SUSP W MIKKELSEN ST i EXP SUSP STATUS DATE 6/23/73 2/27/69 7/01/69 5/02/74 5/17/75 4/01/76 4/22/77 4/12/76 7/26/76 11/11/78 SECT 11 10 07 08 35 28 28 24 25 32 TWP 10N 10N 10N 03N llN 12N 12N 11N 12N 10N P~NG 014E 016E 014E 023E 016E 01SE 01SE 011E 014E 019E MER U U U U U U U U U U PERMIT 60-0041-0 82-0038-0 82-0218-0 83-0181-0 84-0156-0 84-0205-0 86-0056-0 89-0013-0 89-0041-0 90-0036-0 91-0069-0 92-0065-0 93-0174-0 93-0179-0 94-0043-0 API N-I/MBER 133-10142-00 029-20727-00 029-20888-00 029-21056-00 029-21181-00 029-21221-00 029-20138-01 029-21912-00 029-21937-00 029-22027-00 029-22173-00 029-22261-01 029-22419-00 029-22423-00 029-20614-01 ARCO SUSPENDED WELLS SINCE 1980 AS OF AUGUST 1994 WELL WELL WELL NAME CLASS STATUS SWANSON RIV UNIT 34-15 DEV SUSP KUPARUK RIY I/NIT 1H-05 DEV SUSP P~AVIK ST 1 EXP SUSP HEMI SPRINGS ST 1 EXP SUSP PRUDHOE BaY I/NIT DSlS-11 DEV SUSP PRUDHOE BAY LTNIT DSl1-15 DEV SUSP W BEACH ST 1-A SER SUSP PT MCINTYRE P1-03 EXP SUSP PT MCINTYRE P3-01 DEV SUSP KUPARUK R!V UNIT 1L-20 DEV SUSP KUPARUK RIV UNIT 1L-26 DEV SUSP PT MCINTYRE P2-50A DEV SUSP KUPARUK RIV I/NIT 2E-17 DEV SUSP KUPARUK RIV LTNIT 2E-05 DEV SUSP PRI/DHOE BAY UNIT DS12-13A DEV SUSP STATUS DATE 8/21/91 5/18/82 4/03/83 4/03/84 9/17/84 2/14/91 5/06/86 4/26/89 7/03/89 3/31/91 6/09/91 8/30/92 4/25/94 4/25/94 4/03/94 SECT 15 33 32 12 19 33 25 16 22 29 32 14 36 36 18 TWP 08N 12N 09N 10N llN llN 12N 12N 12N llN llN 12N llN llN 10N 009W 010E 009E 011E 01SE 015E 014E 014E 014E 010E 010E 014E 009E 009E 015E MER S U U U U U U U U U U U U U U STATE OF ALASKA liP ALASKA OIL AND GAS CONSERVATION COMMISSION tlIIFIIIEi! 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 BP Exploration 91-16 3. Address 8. APl Number P. 0. Box 196612, Anchorage, Alaska 99519-6612 50- 223-20019 4.3710'FNL,LOCati°n of wel1556, FEL,at surf aCCsec. 28, T4N, R9E.~'~C--'-"()t~Ip~ ~ (._::.'i:~',,"r,-~ ' '¥" ;~,~! F ~ ~-~D' ~ 9.KuparukUnit or L eaSeuplandsName At Top Producing Interval ' 4040' FNL, 584' FEL, S~. 28, T4N, RgE At Total Depth ~~~~ Wildcat 4228' FNL, 719' FEL, S~. 28, T4N, RgE 5. Elevation in feet (indi~te KB, DF, etc.) ~. Lease Designation and Serial No. KBE = 338' AMSL I ADL 373006 12. Date Spudded 13. Date T.D. Reach~ 14. Date Comp., Su~. or Aband. ~15. Water Depth, if offshore ~16. No. of Completions 03-13-91 04-14-91 04-19-91~ N/A feet MSL ~ NONE 17. Total Depth (MD+TVD) 18. Plug Back Depth (MD+~D', 19. Directional Survey ~20. Depth where SSSV set ~21. Thickness of Permafrost 11375'MD/11296'~D none ~ ~ ~ ~ none feet MD ~ 1800' ~22. Type Electric or Other L~s Run LD T/CN~/M~NG T/Calipe~ DS T/GR , 23. CASING, LINER AND CEMENTI~ R~ S~I~ DEP~ MD CASING SIZE ~. PER ~. G~DE TOP ~ ~E SIZE CEM~I~ R~D AMOUNT PULLED 20,, Sudace 11 O' 13-3/8" 68~ N~OC 24. PeHorations o~n to Production (MD+TVD of T~ and Bottom and 25. T~I~R~D interval, size and number) SIZE DEP~S~ None none none 26. ACID, F~C~RE, CEMENT ~UE~E, ~C. DEPTH INTERVAL (MD) AMOUNT & KIND OF MATERIAL ~ED 9400~8700' 330 SX Class G Cement 5050'-4500' 290 sx Class G Cement 3180~2830' 315 sx Class G Cement 190c40' 135 sx Class G Cement 27. PROD~TI~ ~ST Date First Production ~Method of Operation (Flowing, g~ lift, etc.) N/A Date of Test Hours Tested P~D~T~ ~ OIL-BBL ~S-MCF WATER-BBL ~E~ JGAS-OIL ~TIO TEST PERIOD Flow Tubing C~ing Pressure CALCU~TED~ OIL-BBL ~S-MCF WATER-BBL OIL GRAVITY-APl (corr) Press. 24-HOUR ~TE 28. CORE DATA Brief description of lithology, porosity, fractures, apparent dips, and presen~ of oil, gas or water. Submit core chips. ~ere were no cores taken on this weft Form 10-407 Submit in duplicate Rev. 7-1-80 CONTINUED ON REVERSE SIDE 29. 30. GEOLOGIC MARKER,5; FORMATION TESTS NAME Include interval tested, pressure data, all fluids recovered and gravity, MEAS. DEPTH TRUE VERT. DEPTH GOR, and time of each phase. gnu & Sagavanirktok Surface ndifferentiated West Sak Fm 3810' Seabee Fm 5060' Torok Fm 9780' HRZ 1O887' Kalubik Fm 11120' Kuparuk River Fm 11176' Miluveach Fm 11332' 31. LIST OF ATTACHMENTS 32. I hereby certify that 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 BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Wednesday. March 13. 1991 WELL: Maleuk #1 -- APl No. 50-223-20019 Day' 1 Depth at 0600 Hrs. = 24 Hour Footage = 430 Ft. 320 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation: Drill 17 1/2" hole. Su,,mmary of Last 24, Hours' Spud in at 0130 hrs 3/13/91. Drill 17 1/2" hole to 430'. Mud Tv.De Mud Weight Viscosity Spud 8.9 #/gal 45 Sec. P V YP Fluid Loss Solids Temp 7 13 10.0 cc 4% 48 °F Survey. Depth Angle Direction TVD. 1 194 0.37 S05W 194 N-S E-W Doq,,Le.g Section Coordinate ~9ordinate °/100: Roviowed Dy: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Thursday. March 14, 1991 WELL: Malguk #1 APl No. 50-223-20019 Day: 2 Depth at 0600 Hrs. = 24 Hour Footage = 11865 Ft. 1,435 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Riq #18-E 684730 Current Operation: Trip for bit #3. Summary of Last 24 Hours' Drill 17 1/2" hole to 775'. Trip for bit #2. Drill to 1865'. Trip for bit #3. Mud Type Mud Weight Viscosity P V YP Spud 9.8 #/gal 150 Sec. 1 7 28 Fluid Loss Solids Temp 14.0 cc ? 46 °F Survey Depth Anole Direction TVD 2 532 0.36 N37 58W 532 3 952 0.86 N8 44E 952 4 1,432 0.44 N7 32E 1,432 N-S E-W Dog Leg Section Coordinate Coordinate °/100' Reviewed By' BP EXPLORATION (ALASKA), INC. ~IiFIOE~PJ~L DAILY DRILLING REPORT: As of 0600 Hrs. Friday. M~rch 15, 1991 WELL: Maleuk #1 -- EXPLORATION WILDCAT APl No. 50-223-20019 Day' 3 Depth at 0600 Hrs. = 24 Hour Footage = 2.800 Ft. 11365 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation' Drill 17 1/2" hole. Summary of Last 24 Hours' RIH with bit #3. Drill 17 1/2" hole to 2800'. Mud Type Mud Weight Viscosity Spud 9.5 #/gal 120 Sec. pv yP Fluid Loss Solids 1 4 20 13.0 cc Temp 54 OF Survey Depth Anale Direction 5 1,811 0.14 N33 52E 6 2,242 1.46 S77 28W 7 2,455 2.56 N73 42W 8 2,653 3.12 N64 15W .,TVD 1,811 2,241 2,455 2,652 N-S E-W Section Coordinate Coordinate -14 14 0 -12 12 3 -13 13 11 -16 16 2O Dog Leg o/100' 0.07 0.56 0.68 0.42 Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Monday, March 18. 1991 WELL: Malguk #1 APl No. 50-223-20019 Day' 6 Depth at 0600 Hrs. = 72 Hour Footage = 3,000 Ft. 200 Ft. Rig: AFE Number: AFE Amount = Current Costs - Estimated Final Cost - Nabors Rig #18-E 684730 Current Operation' RIH to drill out 13 3/8" casing. Summary of Last 72 Hours: Drill 17 1/2" hole to 3000'. Wiper trip. CBU. P©H. Run 13 3/8" casing - Shoe @ 2979'. RIH w/5" D/P and cement csg with 2700 sx Arcticset II cement - good returns to surface. Bump plug and POH with drillpipe. Install 13 5/8"x5M split speedhead. Nipple up & test B©PE. Install wear ring. RIH with 12 1/4" bit to drill out casing. MudType Mud Weight Viscosity p V .YP Fluid LOSS Solids Temp LSND 8.45 Cf/gal Sec. cc °F N-S E-W Dog Leg Survey Depth Angle Direction .TVD Section Coordinate Coordinate °/100' 9 2,967 2.90 N61 26W 2,967 -24 24 34 0.08 Reviewed By' BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Tuesday. March 19. 1991 WELL: Mal~uk #! ._ APl No. 50-223-20019 Day: Z Depth at 0600 Hrs. 24 Hour Footage = 3,315 Ft. 315 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation: Kick off with mud motor. Summary of Last 24 Hours: RIH. Ddll cmt to 2935'. Test casing to 3000# - OK. Drill shoe plus 10' new hole & perform LOT to 12.7 ppg EMW. POH. P/U 8 1/2" bit, motor and MWD. RIH. Drill with motor to3315'. Mud Tv.De Mud Weight Viscosity p V Yp Fluid Loss Solids LSND 9.15 #/gal 36 Sec. 4 8 12.0 cc 6% N-S E-W Survey Depth Angle Direction TVD Section Coordinate Coordinate 1 1 3,229 5.00 S31.5W 3,228 -22 20 46 Temp 80 OF Dog Leg o/100' 3.00 Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Wednesday. March 20. 1991 WELL: Mal~uk //1 -- WILDCAT APl No. 50-223-20019 Day: 8 Depth at 0600 Hrs. = 24 Hour Footage - 3,831 Ft. 516 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig Cf18-E ,684730 Current Operation: P©H for BHA change. Summary of.. Last 24 Hours' Drill with mud motor to 3831'. POH for bit and BHA change. Mud Tv.De Mud Weight Viscosity P V LSND 9.2 #/gal 49 Sec. 10 YP Fluid Loss Soli¢$ 24 10.6 cc 6% Temp 72 OF Survey Depth Angle Direction TVD 32 3,758 14.00 S2.3E 3,748 N-S E-W Section Coordinate Coordinate 57 68 59 Dog Leg o/100' 1.40 Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Thursday. March 21. 1991 WELL: Malguk /ti .~ APl No. 50-223-20019 Day: 9 Depth at 0600 Hrs, = 24 Hour Footage - 4,420 Ft. 589 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Riq #18-E 684730 Current Operation: Drilling Ahead. Summary of Last 24 Hours: POH for BHA change. Work on Mwd tool- Would not send data. RIH with bit #8. Drill 8 1/2" hole to 4420'. MudType Mud Weight Viscosity P .V. Y_.EP Fluid Loss Solids Temp LSND 9.2 #/gal 43 Sec. 6 11 8.8 cc 7% 74 °F N-S E-W Dog Leg Survey Depth Angle Direction TVD Section Coordina[te Coordinate °/100' 37 4,120 16.40 S7.5E 4,096 164 165 47 0.26 Reviewed By' BP EXPLORATION (ALASKA), INC. 87 ANERICA DAILY DRILLING REPORT: As of 0600 Hrs. Friday, March 22. 1991 WELL: Malguk #1 · EXPLORATION WILDCAT APl No. 50-223-20019 Day: 1 0.. Depth at 0600 Hrs. -- 24 Hour Footage = 4,776 Ft. 356 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 .Cu.rrent Operation: Drilling ahead. Summary of Last 24 Hours' Drill to 4615'. POH for bit change. RIH. Drill to 4776'. Mud Type Mud Weight Viscosity LSND 9.3 #/gal 52 Sec. p V ..YP Fluid Loss Solids 9 13 7.2 cc 7% Temp 77 OF Survey Depth Angle Direction TVD 40 4,494 17.50 S4.2E 4,454 N-S E-W Section Coordinate Coordinate 272 274 35 Dog Leg o/100' 0.60 Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Monday. March 25, 1991 WELL: Malguk #1 APl No. 50-223-20019 Day: 13 Depth at 0600 Hrs. = 72 Hour Footage = 5,885 Ft. .1,109 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation' Drilling with mud motor. Summary of Last .72 Hours' Drill to4965'. Trip for bit. Drill to 5423'. POH. Test BOPE. RIH with mud motor. Drill to 5885'. Mud Type Mud Weight Viscosity p V YP Fluid Loss Solids LSND 9.3 #/gal 48 Sec. 11 1 1 6.4 cc 8% Temp 87 OF N-S E-W Survey Depth Angle Direction TVD Section Coordinate Coordinate 45 4,962 16.90 S2.5E 4,900 413 414 28 49 5,330 10.30 S22.9W 5,259 495 496 37 53 5,725 5.90 S32.6W 5,649 554 556 69 Dog Leg o/100' 0.30 2.00 1.00 Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Tuesday. March 26. 1991 WELL: Malguk #1 ;, APl No. 50-223-20019 Day: ,1 4, Depth at 0600 Hrs. = 24 Hour Footage = 6,167 Ft. 282 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation: POH Summary of Last 24.. Hours: POH. Chg out mud motor. RIH. DRill to 6167'. POH for rotary BHA. .Mud-i'ype .Mud Weight Viscosity p V LSND. 9.3 #/gal 63 Sec. 1 5 YP Fluid Loss Solids 1 5 6.0 cc 8% Temp 81 °F Survey Depth Angle Direction TVD 57 6,101 1.10 S8.3E 6,024 N-S E-W Section Coordinate Coordinate 571 574 7O Dog .,Leg o/!00' 2.00 Reviewed By' BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Wednesday. March 27. 1991 WELL: ,Malguk //1 .~ APl No. 50-223-20019 Day' 1 5 Depth at 0600 Hrs. = 24 Hour Footage = 6,7.15 Ft. 548 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig Cf18-E 684730 Current Operation' DRilling ahead. Summary of Last 24 H0urs: RIH with rotary BHA. Drill to 6272'. Repair cuttings grinder. Drill to 6715'. Mud Type Mud Weight Viscosity p V YP LSND 9.45 #/gal 58 Sec. 16 20 Fluid Loss Solids 6.0 cc 9% Temp, 88 OF Survey Depth Angle Direction TVD. 60 6,593 2.40 S39.1W 6,516 N-S E-W Section Coordinate Coordinate 581 583 77 Dog Leg o/100' 0.60 Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Thursday. March 28, 1991 WELL: Mal~uk #1 APl No. · · 50-223-20019 Day' 1 6 Depth at 0600 Hrs. = 24 Hour Footage = 7,070 Ft. 355 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig Cf18-E 684730 Current Operation: Drilling ahead. Summary of Last 24 Hours: Drill to 6733'. CBU. POH for bit change. RIH. Drill to 7070'. Mud Type Mud Weiaht Viscosity LSND 9.65 #/gal 62 Sec. pv YP Fluid Loss Solids 17 21 5.8 cc 9% Temp 89 OF Survey Depth Angle Direction TVD 63 6,971 2.72 S87.5W 6,894 N-S E-W Section Coordinate Coordinate 585 588 88 Dog Leg o/loo' 1.20 Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: As of 0600 Hrs. Monday. April 1. 1991 WELL: Maleuk gl EXPLORATION WILDCAT APl No. 50-223-20019 Day: 20 Depth at 0600 Hrs. = 96 Hour Footage = 8,925 Ft. 1,855 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Riq #18-E 684730 Current Operation: Drilling ahead. Summary of Last 96 Hours: Drilling 8 1/2" hole to8925' - 3 trips for bit changes. Test BOPE. No problems. MudTv.De Mud Weight Viscosity P V YP Fluid LOSS Solids LSND 9.7 #~gal 55 Sec. 1 7 1 9 6.0 cc 10% ,Temp 101 °F N-S E-W Survey Depth Angle Direction .TVD Section Coordinate Coordinate 65 7,348 2.50 N71W 7,270 583 586 107 68 8,039 1.40 N42W 7,961 570 575 128 70 8,545 1.10 N37W 8,467 561 566 1 36 71 8,829 1.90 N15E 8,751 556 560 137 Dog Leg °/100' 0.40 0.30 0.10 0.4O Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: As of 0600 Hrs. Tuesday. April 2. 1991 WELL: Mal_guk #1 EXPLORATION WILDCAT APl No. 50-223-20019 Day: 21 Depth at 0600 Hrs. = 24 Hour Footage = 9.137 Ft. 212 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation' Drilling ahead. Summary of Last 24 Hours' Drill to 8938'. Trip for new bit. Drill to 9013'. CBU. Ddll to 9093'. CBU. Drill to 9137'. Mud'l'_vpe Mud Weight Viscosity P V ...YP Fluid Loss Solids LSND 9.85 #/gal 58 Sec. 1 9 1 6 6.0 cc 11.5% Temp 121 °F N-S E-W Survey Depth Angle DirectiQn TVD Section Coordinate Coordinate 72 9,002 1.30 N08E 8,924 552 556 1 36 Dog Leg o/100' 0.10 Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Wednesday. April 3. 1991 - WELL: Mal~uk 4/1 APl No. 50-223-20O19 Day: 22 Depth at 0600 Hrs. -- 24 Hour Footage = 9,159 Ft. 17Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation: RIH with mill. Summa,ry of Last 24 Hours: Drill to 9142'. POH. Lost cone from bit. RIH with bit #19. Drill to 9159'. P©H. Lost another cone. RIH with flat bottom mill. MudT.vpe Mud Weight Viscosity P V YP Fluid LQ$$ Solids Temp LSND 9.8 #/gal 54 Sec. 1 8 1 6 6.0 cc 11.5% 96 °F N-S E-W, Dog Leg Survey Depth Angle DirectiQn TVD Section Coordinate Coordinate °/100' Reviewed By' BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: As of 0600 Hrs. Thursday, A.Dril 4. 1991 WELL: Malguk #1 -. EXPLORATION WILDCAT APl No. 50-223-20019 Day: 23 Depth at 0600 Hrs. = 24 Hour Footage --- 9,360 Ft. 201 Ft. Rig: AFE Number: AFE Amount - Current Costs - Estimated Final Cost = Nabors Riq #18-E 684730 Current Operation: Drilling ahead. Summary of Last 24 Hours' RIH. Mill up bit cone. POH. RIH with new bit. Drill to 9360'. Mud Tv.De Mud Weight Viscosity LSND 9.9 #/gal 55 Sec. PV Yp Fluid Loss Solids Temp 11 1 4 5.6 cc 1 2% 89 °F Survey Depth Angle Direction TVD N-S E-W Dog Leg Section Coordinate Coordinate °/100' Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: As of 0600 Hrs. Friday. April 5. 1991 WELL: Malguk #1 EXPLORATION WILDCAT APl No. Day: 24 Depth at 0600 Hrs. = 24 Hour Footage = 9,549 Ft. 189 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = 50-223-20019 Nabors Rig Cf18-E 684730 Current Operation' RIH with bit Cf22. Summary of Last 24 Hours'. Drill to 9549'. POH. Change jars, MWD and bit. RIH. Cut drilling line. RIH - log 9300-btm. MudTvDe Mud Weiaht Viscosity p V. Y.P. Fluid Loss Solids Temp LSND 10.0 #/gal 62 Sec. 1 6 1 8 5.6 cc 1 2% 91 °F Survey Depth Angle Direction N-S E-W Dog Leg TVD Section Coordinate (~oordinate °/100' Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: As of 0600 Hrs. Monday. Aoril 8. 1991 WELL: Mal~uk #1 EXPLORATION WILDCAT APl No. 50-223-20019 Day: ..27 Depth at 0600 Hrs. = 10,465 Ft. 72 Hour Footage = 91 6 Ft. Rig' AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig Cf18-E 684730 Current Operation: Drilling ahead. Summary of Last 72 Hours: Drill to10121'. POH for bit change. RIH. Drill to10204'. CBU. Drill to 10465'. Mud Type Mud Weight Viscosity p V .YP.. LSND 10.1 #/gal 55 Sec. 1 9 21 Fluid Loss Solids ,Temp 5.6 cc 12.5% 98 °F Survey Depth Angle Direction TVD N-S E-W Dog Leg Section Coordinate Coordinate °/100' Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: As of 0600 Hrs. Tuesday. April 9. 1991 WELL: Malguk #1 EXPLORATION WILDCAT APl No. 50-223-20019 Day: 28 Depth at 0600 Hrs. = 10,582 Ft. 24 Hour Footage = 11 7 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation' RIH with bit #24. Summary of Last 24, Hours' Drill to10582'. POH. Change bit and MWD. RIH. Mud Type Mud Weight Viscosity LSND 10.1 #/gal 56 Sec. PV YP Fluid Loss Solids Temp 1 5 1 4 5.6 cc 12% 98 °F Survey Depth Angle Direction TVD N-S E-W Dog Leg Section Coordinate Coordinate °/100' Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Wednesday. April 10. 1991 WELL: Mal~uk #1 APl No. 50-223-20019 Day: 29 Depth at 0600 Hrs. = 24 Hour Footage = 10,764 Ft. 1.,,82 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation: POH for open hole logs. Summary,of Last 24 Hours: Drill to 10710'- tight on conns. POH to 10235' and ream to btm. Drill to 10764'. Short trip. CBU. POH for logs. Mud Type Mud Weight ViscQ$ity LSND 10.1 #/gal 58 Sec. Survey Depth Angle Direction TVD pv ,YP Fluid Loss Solids 1 5 1 6 5.8 cc 1 3% N-S E-W Section Coordinate Coordinate Temp OF Dog Leg °/100~ Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Thursday. Aoril 11. 1991 WELL: Malguk #1 WILDCAT APl No. 50-223-20019 Day' 30 Depth at 0600 Hrs. = 24 Hour Footage = 10,764 Ft. OFt. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation: Wiper trip for logs. ,,,Sum,,,mary of Last 24, H0urs: POH - jar thru tight spot 3350-3200. L/D MWD tools. RIH with keyseat wiper & clean hole to4587'. POH for logs. Run #1- DIL/LDT/CNL/MlCRO/AMS - 2 attempts stopped at 3915'. RIH for wiper trip. MudType Mud Weight Viscosity P V, YP Fluid Loss Solids Temp LSND 10.1 #/gal 59 Sec. 1 5 1 6 5.8 cc 1 3% °F Survey Deoth Anole Direction TVD N-S E-W Dog Leg Section Coordinate ,OQordinate °/100' Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: As of 0600 Hrs. Friday. Aoril 12. 1991 WELL: Malguk #1 ;~ EXPLORATION WILDCAT APl No. 50-223-20019 Day: 31 Depth at 0600 Hrs. = 10.764 Ft. 24 Hour Footage = O Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation: Wiper trip for logs. Summary of Last 24 Hours: Wiper trip - work thru tight spots. POH. Run DITE/LDTD/CNTH/MLTIVSGTL/TCCB/AMS. Tool stopped at5300'. Log out. RIH for wiper trip. Mud Type Mud Weight Viscosity P V YP Fluid Loss Solids Temp LSND 10.1 #/gal 54 Sec. 10 1 4 6.0 cc 1 3% °F Survey Deoth Anc~le Direction TVD -- N-S E-W Dog Leg Section Coordinate Coordinate °/100' Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: As of 0600 Hrs. Monday. A0ril 15, 1991 WELL: Malguk #1 _ EXPLORATION WILDCAT APl No. 50-223-20019 Day: 34 Depth at 0600 Hrs. = 11,375 Ft. 72 Hour Footage = 611 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation: POH for logs. Summary of Last 72 Hours: Condition hole - POH. Attempt logs - stopped at 5480'. RIH with drilling assembly: drill to 11375'. Short trip - CBU and POH for logs. Mud'l-.vpe Mud Weight Viscosity p V YP Fluid Loss Solids LSND 10.3 #/gal 58 Sec. 1 9 1 5 5.6 cc 1 3% Temp oF N-S E-W Survey Deoth Anole Direction TVD Section Coordinate Coordinate 78 11,375 1.10 N38W 11,296 518 518 163 Dog Leg °/100' Reviewed By' BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. 'l'uesdav. ADdl 16. 1991 WELL: Mal~uk #1 ,~. APl No. 50-223-20019 Day: 35 Depth at 0600 Hrs. = 11.375 Ft. 24 Hour Footage = O Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation: Lay abandonment plugs. S.ummary of Last 24 Hours: Attempt logs- Dipole Sonic. Stopped at 5300'. Log out & rig down. RIH with 3 1/2" D/P stinger to 9400'. Lay 330 sx Class G cement plug for abandonment. MudType Mud Weight Viscosity p V. yP Fluid Loss Solids Temp LSND 10.3 #/gal 58 Sec. 20 1 6 5.6 cc 1 3% °F Survey Depth Angle Direction TVD N-S E-W Dog Leg Section Coordinate Coordinate °/100' Reviewed By' BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Wednesday. April 17. 1991 WELL: Mai~uk #1 APl No. 50-223-20019 Day: 36 Depth at 0600 Hrs. = 24 Hour Footage = 8,66O Ft. O Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nab0rs Rig #18-E 684730 Current Operation' Abandon well. Summary of Last 24 Hours: WOC. Tag plug #1 at 8860'. POH to 5050'. Pump 290 sx Class G cmt plug. POH. P/U 1 std collars and 8 1/2" bit. RIH to shoe - WOC. Mud Type Mud Weight Viscosity P V YP Fluid Loss Solids ,Temp LSND 10.2 #/gal 61 Sec. 18 1 5 6.8 cc 1 3% °F Survey Depth Angle Direction ..TVD N-S E-W Dog Leg Section Coordinate Coordinate ,°/100' Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION WILDCAT As of 0600 Hrs. Thursday. April 18. 1991 WELL: Mal~uk #1 APl No. 50-223-20019 Day: 37 Depth at 0600 Hrs. = 24 Hour Footage = 2,880 Ft. OFt. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E ,684730 Current Operation: Abandon well. Summary,of Last, 24 Hours: Tag plug #2 at 4560'. P©H. RIH - set 13 3/8" E-Z Drill at 2880'. Inject excess mud. Pump 270 sx Class G cmt thru retainer and lay 45sx on top. POH. RIH with 12 1/4" bit. MudTv.De Mud Weight Viscosity p V YP Fluid Loss Solids -l-emp #/gal Sec. cc °F Survey Depth Anale Direction TVD - _ N-S E-W Dog Leg SectiQn Coordinat~ Coordinate °/100' Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: As of 0600 Hrs. Friday, April 19, 1991 - WELL: Malguk #1 EXPLORATION WILDCAT APl No. 50-223-20019 Day: 38 Depth at 0600 Hrs. = 24 Hour Footage = Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684730 Current Operation: Rig Release. Summary of Last 24 Hours: Tag plug #3 at 2700'. POH - P/U 13 3/8" RTTS and RIH looking for leak in csg. Found same at 608'.RIH - set E-Z Drill at 550'. Squeeze 250 sx Arcticset 1 thru retainer and 30 sx on top. Lay final plug from 120' to surface. Remove wellhead and install abandonment marker. Release rig at 0600 hrs 4/19/91 for rig move. Mud Type Mud Weight Viscosity p V YP Fluid Loss Solids ,T, emp #/gal Sec. cc °F Survey ,Depth Angle Direction N-$ E-W Dog Leg TVD Section Coordinate Coordinate °/100' Reviewed By: BP EXPLORATION MALGUK NO I PRUDHOE BAY AK. Controlled LES HENDERSON (907) 333-1552 Drilling Consultants, ~ate I Inc. CONTROLLED DRILLING CONSULTANTS, INC. P.O. Box 190560 Anchorage, Alaska 99519-0560 (907) 333-1552 March 8,1991 Mr Larry Driscoll BP Exploration . Pouch 196612 Anchorage, Ak. 99519-6612 RE: Magnetic Single Shot Survey Job Nc.A-0391-015 Well: Mal§uk # 1 Prudhoe Bay Field North Slope, Alaska Date of Survey: 03-15-91 to 04-3-91 Dear Mr. Driscoll, Please find enclosed the "Ori§inal" and four (4) copies of our Magnetic Single Shot Survey on the above well. The method used in calculating this survey was Radius of Curvature. The depth of the survey was 136'to 9,002'. Thank you for giving us this opportunity to be of service. Yours very truly, Controlled Drillin§ Consultants, Inc. Cecil W. Harrin~ton Directional Supervisor -i-i i! i j ii I i !1 ; i i ii i_i ii }] i iii !-FI-TT-Z%~.LLi.Li_L !1 -i--P-~- . -l-t- , i i - ' ~" ' I . i I i ' ~ ! ' r~-' .... I I , , L , -t--*-, · ' i I r .... ~ ..... _l ...... , , _ !ti _~, ~, ,~,'fit, ,~ .... --r__ !!,'~.~_~L: .... ~;~-~.'-/~I-~.-ff~-~1-~. / t Ill I ! I ! I I/ i I I ~ I I t . ~ !II1 ! I1 ,! ! ~ ; I ' i i ' ~' i ii i ' ' ' ~ ' ' -' ' ' i '-~-~ tJ- J ! i i l'J ~~ ~~ I i ~--p~- ~- t-- RADIUS.-OF-;CURVA~RE-+ 1 :~~ i i ~ ~ ~ ~ ...... ~ ~ , ' ~ , i ~ i, ~ ~ i ,,, ~ i , ~ ' _ ....... , .._i..; ..... ~.. _ ~_ . · . ~~~,1 - l', ~1 ~ !, ~ ' ,, ' ~ FJ ~' ~ ..... ......... , i , ~ , ~. ~, ~ ~ PRI. ~ 199, ,.~_ : · i ' , : : :, Ti: , : I · : : I : J I ! :, , , , I : : :~..i ~ i i ~ i ~ ' I I ~ - I i : I , : : I iL, : Z ~ i I : ' I : ' ' : ' ' ' 4 ' ' : Z & : ' : . : ' : ~ , : { · : : I : ~ , J ' I : I I , ~ : . , , , , : : ~ ~ ~ . ~; ! : ; ' [ ' ~ ~ ' , ..... --'m*~~ ..... W~r-%-'r .... -~%?--~-~-~ ~--~-'~-= ...... =-=~*--'=~=- +"~'~'l -k% - ~+e~~-~-~ ' - · ~ ,: ~ Ftm--~~! --:-- . ._t_.=_=._=.=._L_.~ r ...... bI F ~ , = _,._? ~ ~= _~_~ ?_~_~__,_~+,_~ ,, ~~,_~_ , ~ 1.?.~~.. , _~_FH?.I~_, ~ ..... p ~ .... ~. ...... ~l_t__~_? .?_.~ ........ ~_~~ ?~--r~~--T--~- ~ -~~--m?~T~-~~' ~ * -%' TT '-~ , : ~ ! i i I ~ ~ i . I I i ~ ~ I ~ ~ i ~ I ~ ' ~ I ~ , '~~_~. . ~~ I ~ ~ , , ~ , ~ · , ~ : I ~~~~~ ~_~_ ~_~.~_~~~.~.~ - ~- -~ ............ t-.L-~-~ ........ ~ ~-~.. - ~ ~ ~ .... ~ .... ~ ~~ ~ . ~ ~ ~-~-~,- , -W~--~-!- ........ t- -~-~---~-~ ........... ~- ~-~-- --~-~M~ ', '. ' K~-' ' ~ ~~~, ~ ~' ' }~ ~ ! I~i,, ~ ~ ~ :~ ~~-~-.~-~-~H~! i I ~ ~ ~ ~ ~ I ~ ~ ~ I l~ ~ ,4 -~ .... ~' .~-~ .... ~- ~ I ' I ~-, - I ' ' ~'~L~~-~TL~ ! --~-: I ~ I ' ' : ; : i , i ~ : IFI , I : : ........ I , , i , ~~'Ii IIi i~ I~ ~~F~II I ii~!lill 1~ ~ ilI!~~ I~ ~I ~ t~l~i~ 11 I1 ~I i llil!'lI ~1 I~111 tli il ii II.ii I ~ ii ~I, ~ ti!!' , , I ~ ~ ~ , , 1 ~ I · I 1, I I I .... ~ , , ~ , 4 , , , I~ ~ '~ - -~- I I~ ~ ~' ~ . ~ I I, I i i I I I I ~ ~ I :' ' ' ' -' I --+'--4-- i "~ ['""H4 ji !!~_! i , t 1 i i i ~'~.!!!!i' ~ ~ ~I'IIII!~I' '~ ~ ~ ~ il i t ~ ii~ 8P EXPLORATION MAGNETIC SINGLE SHOT SURVEY RADIUS OF CURVATURE METHOD ENGINEER O, W, HARRINGTON COMPUTED FOR CDC 8Y ARCTIC OF COMPUTATION SLOPE CONSULTiNC, £~ROLiP JO8 NO A-OBVi-Oi5 WELL MALGUK i SURVEY DATE i5703/9i PROPOSED DiR 90J-48E RECORD OF SURVEY TRUE MEAS, DRIFT VERTICAL SUB DEPTH ANGLE DEPTH SEA D H DRIFT DtREC DEG. TOTAL COORDINATES CLOSURES DISTANCE AN~i_E DOG LEG SEVERITY DE~/iOOFT S-' r. -'- ON Di STAP 'l ASSUMED VERTICAL TO 0 0 0 0 . O0 -341 ,40 i94 0 22 194.00 -i47,40 248 fl t3 248,00 -93,40 4 05 0 26 4 04 . ~ 63.59 532 0 22 53t,99 190,59 584 0 46 583,99 242,59 675 I 22 674,97 3~43,57 747 t 40 746,95 405.55 865 i 7 864,91 523,5i 952 0 52 951 ,90 6i0,50 li66 0 32 !i65.88 824,48 ~O i254.88 913.48 i345 0 22 i344.88 i003.48 i432 0 26 !43i,88 1090,48 i556 0 J4 i555,87 i2i~,47 1620 0 JO i6i9,87 I278,47 17i4 0 i:3 i7i3,87 1372,47 i8i'I 0 .~8 J810.87 i469.47 2029 >02'8:'~;87 ~ A87 47 2242 ~..,-83 igC0 43 ,, ,00 S ,47 S ,86 S i.t3 S i:23 S ,50 S .05 S i,6i N 3.52 N 6,.~6 N 7.84 N iO 43 N ii t0 N ii 66 N i2 27N i2 99 N ~3 2I N i3 47 N i3,7i N i~.27 N jj.O4 N i 1 i 2 itt JJ JJ i2 i3 1.7, JJ .coo 052 L ,3 .J 678 -i.~ 7 475 2t~ i 69 O94 428 , oD ,47 ~ ... 20 OD _ :'_.: =~.', -i~ ,68 - i 2, ?29 · -i= Oi -i 3: 2.7: - i3,-49 -i.: 72 --'~ 3, ':25 -ti BP BELL HAi..L~U.;. I SINGLE SHOT SURVEY JOB NO A-039i-015 COHPUTER- i5 NAR 9'i ~'""" -' "'"' -"'~' FT, RECORD OF SURgEY MEAS. DRIFT DEPTH ANGLE D H 2455 2 34 2653 3 7 2968 2 54 3846 2 49 3229 5 0 3324 6 24 3419 e 12 3513 i0 24 3606 i2 i2 3698 13 24 3758 i4 0 3e39 15 30 3932 I5 56 4026 16 9 4i20 I6 23 4214 i6 43 4308 I? 4 4404 4494 t7 4587 17 4775 17 3i 4866 4962 16 53 5855 i4 52 5148 12 42 5242 ii 9 TRUE VERTICAL DEPTH 2454,70 2652,45 2967,02 3044,92 3136 3227,57 3322, I 0 3416,32 35 09,08 3~00,28 3689,99 3748,28 39i6,13 4006,47 4096,7~ 4186,81 4276,76 4368,49 4454,38 4543,~8 4631,58 4722,i5 4809,02 4900,e2 4990,27 5080,59 5~72,55 SEA DRIFT DEG, 23i I . 05 N64.15W 2625,62 N6! ,26B 2703.52 N55.28ti 2795,40 96 0 , 56B 2886, 17 93i . 5OW 2980.70 Si 6 . OOW 3074 , 92 Si 2 , i 3W 3 t 67,68 S 3258.88 9 5.57W ~348,59 S , OOW 3406.88 9 2,35E 3485,2i $ 7.24E 3574,73 S 7,32E 3665,07 $ 7,62E 3755,30 9 7,52E 3845,41 S 6.58E 3935,36 S 5,70E 4027.09 S 5.83E 4It2,98 S 4, 4201.60 S 3,50E 4290,~8 $ 2,43E 438 O. 75 S 2, 4467,62 S 2, 4559,42 S 2,47E 4648,87 S , 58E 4739,19 S 4,40B 4831 , ~5 9i 4,62B TOTAL COORDINATES 11.28 N 14,83 N 22,4i N 24,46 N 24,67 N 20,25 N ii,64 N ,07 $ iS.0i S 33, O9 S 53,44 S 67.65 $ 88,i9 S i!3.i8 S i38 94 $ 165 05 S iSi 62 S 2i8 77 S 246 94 S 273 72 $ 301 86 S 330.i3 S 358,79 S 385,85 S 439,34 9 46i,47 $ 490,60 9 iO.OG 19. 19 .'33.89 37.19 4i,67 46.25 50.04 52.97 55.69 57,93 58,92 5~. ~3 56.98 53,7i 50,33 46,86 4~, 58 40.66 37.8i 35,47 33,58 32,ii 30,80 29.46 28,16 27,48 28.22 3~.4~ C L 0 S D t STANCE U R E S ANGLE D M 15. 2~. 40. 44. 48, 50, 5i. 57, 79 i04 222 249 303 360. 386. 414. 440, 462, 48i . DOG LEG SEVER l Th" E G ...' i 0 0 F T .5i7 070 385 2,!02 488 ,897 .344 .94i 026 9Oi ,225 .255 ,3i9 .202 .142 .407 262 i 8'F 337 698 :3 E C T i O i' -23.4; .... 2i .7( -i 5i ,5~ 65 7~ i 37.2 ~ 2i7,:37 245,6¢' 272 4~ 300 '::~ '~57 6 384,7~ 479,~7 DP WELL ;~INGLE SHOT ~RVE¥ HEAS DRIFT DEPTH ANQLE 5447 5540 600? 6405 6593 678i 697~ 7064 7~48 78i8 8039 8289 8545 8829 9002 JO 20 ? ~ 2 ~4 2 2~ J ~5 2 j4 J ~0 J 2~ J 27 J ~ J 2S J 20 80TTOM HOLE TROE VERTICAL DEPTH 5466,~9 5555.30 5649,55 5739,99 5838.60 5930,42 6024,36 61~8,D4 65J6.20 6784,06 680~,02 6893,95 6986,83 7270.50 7552,26 7740 ~5 7961 07 8210 99 8750 86 8923 8i CLOSURE SUB SEA ~032.9J 5J24,79 52t3,98 ~308. J 5 5398,59 5497,20 5589,02 5796,94 5986,90 6i74,80 6362,66 6458,62 6552,55 ~645.43 6929, J 0 72 J 0,86 7398,75 76~9,67 7869,59 8i25,5~ 9409.46 ;.'5:92,4 J 572 RECORD OF SURVEY DRIFT DiREC DER, $22,eeW S32,20~ S31,t5Y S29,42~ $25,24W S23,58W S 4,54E S 2,35E ~ 8~ 35E 9i4,78~ $39.i5W S~.OOW N84.30W S87,55W $87,35W NTO,SSW N63.93W N6~.98W N42,07W N40,85W N37,42W Ni4,SOE N 7,73E FEET AT S TOTAL COORDINRTE$ 496, 12 5t..3,69 525,94 5.38,89 547,46 556,63 585, i 4 57 O, 82 574,09 576, 09 579, 08 583,29 587,62 588, 08 587,98 588, i 9 586,24 58 t, 73 578,83 575,22 570..58 566, 09 560,i6 5~6, i 3 36,69 45,86 53,4! 59,8i 65,27 69,43 70,86 70.52 70.2i 72,37 76.8i 85,34 88 86 93 50 I07 O0 ~J7 85 23 55 J28 i6 332 27 ~3~ ~z 177 ~ t36 30 i3 46 16 W C L 0 $ U DISTANCE 497.47 9 5i5.74 S 529,64 $ 548,2J S 55 t 34 $ 560 94 S 569 56 S 575 16 $ 578 36 S 588 37 S 583 59 S 588 ~ 593 .$8 $ 594 24 S 594 66 S 595 57 S 595 93 S 593 55o'--' 59 J 86 S 589 33 S 585 7J S 582 18 S 576 69 S 572 59 S CONPUTER- ~ ;J KB ELEV 34i ,40 ANGLE D ~'{ DOG LEG SEVERITY DEG/iOOFT · 979 .987 ,646 .ii2 .844 4i~ ,9J5 . ~49 ,195 ,2iZ , SOl i2i 035 MAR 9~ SECT i ON DISTANCE 5 ~. 'i, .. 52.3,99 534 ,. 545. i 554, i6 562. E, 2 568.3 i ~ 7 ~ , .5~ 57S 584 72 585, 09 584 584.94 577 ~ 574.63 57'0,89 56i ,52 55 i, 55 8P WELL HAL~UK i ~4E~SU~ED DEPT~ SINGLE SHOT SURYEY AND OTHER DATA FOR EVERY E'EN, iO0. FEET JOe. NO A-0~91"-015 OF SUB SEA DEPTH, COHPU'TER- i5 .~iAR KB ELEV .~4i .40 Fi', MEASURED DEPTH TRUE VERTICAL SUB MD-TVD VERTICAL DEPTH SEA DIFFERENCE CORRECTION TOTAL COORDiHATES 0 44t 741 84t 941 1042 it42 i242 1342 i44~ t542 ~642 ~742 ~842 ~942 2042 2~42 2242 2342 2442 2642 2742 2848 8942 3042 3~43 3243 3343 3444 3546 3648 375~ O. -341 54i , 200 641. 300 74t, 400 84i 941, I 04t. 700 il41, 800 t24i. i341, i i44i, I54i. I200 i6~i, I300 i74i i841, i508 J94i, J~OO ~04i. 1700 ~i~l. ~800 ~4t. ~00 ~341 , ~000 ~44~, ~i O0 ~54 i . ~00 ~64 t . ~300 ~74i, ~400 ~84i, 2500 '304~ 3i41. ~800 344~. 3i O0 .00 1.00 3.36 5.89 7.68 9.05 iO,i3 ii.02 ii 12.34 I2.91 i3.27 ~3,55 ~3~77 i3.75 ii i4.58 16.95 2~ .79 24.36 24.54 9 ~.73 21,06 42,~6 65,94 $ S N N N N N N N N N N N N N N N N N N N N N N N N N N N 92 i 78 i 39 .99 ,68 ,14 5,~3 9.49 i8,65 23.58 29,28 32,75 46,87 50,64 5~,72 56,54 58,~i 58,69 W W W W W W W W W W W W W W E W W W W W W BP WELL t{ALGUK I SINGLE SHOT SURVEY MEASURED DEPTH AND OTHER DATA FOR EVERY EVEN lO0 FEET OF SUB SEA DEPTH, COMPUTER- ~o M~R k'.B ELEY 34~.~0 FT, TRUE MEASURED VERTIOAL SUB MD-TVD VERTICAL DEPTH DEPTH SEA DIFFERENCE CORRECTION TOTAL COORD i H~T~, 4i67 4i4i. 3800 25 5 427i 424I, 3900 29 4 4376 434t, 4000 34 5 4480 4441. 4t00 38 4 4585 454i, 4200 43 5 4690 464i, 4300 48 5 4795 474i. 4400 53 5 4900 4@41, 4500 58 5 5004 494t, 4600 62 4 Si00 5041, 4700 66 4 52i0 5i4i, 4800 6@ 2 53i2 524t, 4900 ?0 2 5414 534i. 5000 72 2 55i5 5441, 5i00 56i6 554i 5~' . ~00 74 57i7 5641, 5300 75 58i? 574i. 5400 59i8 5841. 550~ 76 0 6018 594i, 5600 76 0 61i8 6041. 5700 76 O G218 6i4i, ~800 76 0 63i8 624i, 5900 76 0 64i8 634i. 6000 7G 0 65i8 6441. 6i00 76 0 66i8 6541. 6200 76 0 6718 664i, 6300 76 0 6818 674i, 6400 76 0 69i0 6841. 6500 77 i ?0i9 694i. 6600 77 0 ?ii9 7041. 6700 77 0 72i9 ?i4i, 6000 77 0 73i9 7241. 6900 77 0 92.27 S i.ig. OD S i78. i6 S 20~,0~ 23~. 59 ~69,65 S 333,25 S 368. i 5 ~95,79 S 425,87 45'" 4~4.48 S 493. 509,04 S 522 70 535 546 58 556 565 34 S 57i J6 S 574 4! 576 i 4 577,75 579, ~ - 58i, i9 S 584,09 586,60 S 588. O0 S 5g 7,99 588.08 S 588,22 S 587,75 S 586. 8P WELL NALGUK MEASURED DEPTH SINGLE SHOT AND OTHER DATA FOR EVERY EVEN lO0 FEET JOE', NO A-OSgl-Ol5 OF SUB gEA DEPTH, COMPUTER- i5 MAR 9! KB ELEV '~"~' -- MEASURED DEPTH TRUE VERTICAL SU8 MD-TVD VERTICAL DEPTH SEA DIFFERENCE CORRECTION TOTAL COORD!NATES 76t9 7819 79i9 8ii9 83i9 84i9 85i9 86i~ 87~0 8820 8920 9002 7341, 7000 ?? 744i, ?iO0 77 0 7541, ?200 ?? 0 7641, 7S00 77 0 7741, 7400 77 0 784i, 7500 77 0 7941. 7600 77 0 804t. 7700 77 0 814i. 7800 77 0 824i. 7900 78 8341. 8000 78 0 844~. 8i00 78 8541, 8200 78 0 8~4i. 8300 78 O 874i, 8400 78 O 884t. 8500 78 O 8924. 8582 78 0 585,i9 58i,92 580,27 578.8! 577,3i 575,58 573,76 57J,90 570.0i 568,t9 566.50 564,79 560,38 558,04 556,i3 WELL HALGUK SINGLE SHOT SURVEY JO8 NO A-O391-OiS COMPUTER.- tNTE-RP'O'L~TED MEASURED DEPTH 0 lO00 2000 3000 4000 5000 6000 7000 8000 9000 9002 VALUES FOR EVEN FEET OF ttEASURED DEPTH, TRUE VERTICAL SUB DEPTN SEA TOTAL COORDINATES O, -34i, ,00 S t800. 658, 8,52 N 2000, i658, i3,46 N 2999, 2658. 23.22 N 3981. 3640. 131.79 $ 4937, 4596, 424.68 S 5923, 5582, 578,46 S 692~ 6582, 588,84 S 7922, 7581, 575,9~ S 8922. 8580, 556.i8 S 8924, 8582, 556,13 S .00 W ,94 W ,i8 E 35,28 W 5t,28 W 27,77 W 70.53 W 90.26 W 127,5t W 136.3i W I~6.30 W SPERRY-SUN DRILLING SERVICES LOGGING SYSTEMS Anchorage, Alaska ADT WELL SUMMARY REPORT BP Exploration, Inc. MALGUK No. 1 North Slope, Alaska ORIGINAL Final Report Summary April, 1991 PREPARED FOR: BP Exploration Inc. PREPARED BY: Mr. J. M. Patton Sperry-Sun Drilling Services Logging Systems Anchorage, Alaska TABLE OF CONTENTS Introduction ......................................... A Well Disgram ........................................ B Well Summary By Intervals .............................. C Conclusions and Recommendations ......................... D Appendix: Parameters vs. Depth ................................... E 1.) Days Drilling 2.) Rotating Hours 3.) Pore Pressure - Mud Weight 4.) Condensed Resistivity 5.) Condensed EWR - Gamma 6.) Dc Exponent Log Packet .......................................... F · 1.) ADT Log (250'/inch) 2.) Engineering Log (250'/inch) 3.) Database Disks MWD Data .......................................... G 1.) Record of Surveys 2.) Directional Plot Bit Record.. Drilling Mud Record ................................... I Show Reports ........................................ J INTRODUCTION Drilling operations for Malguk No. 1 were initiated on 3/13/91 by BP Exploration Inc. The well was drilled by Nabors Drilling Inc. Rig 18-E on Section 28 Township 4N Range 9E North Slope, Alaska. Malguk No. 1 was drilled to a total depth of 11,375' in 33 days. A Sperry-Sun Logging Systems MPT/2000 Unit was in operation from surface to TD providing full mud logging, applied drilling technology and Mud Pulse MWD services. The MPT/2000 Unit and crew provided assistance in drilling Malguk No. 1 by monitoring drilling parameters and gas levels. Also provided were real-time Gamma Ray, EWR information, directional surveys, fluid hydraulics information, pore pressure vs. necessary mud weight evaluations, and a wide range of geological interpretations and sampling services. The following pages of this report are designed to supply historical data of events that occurred on Malguk No. 1 along with some analysis and recommendations for specific problems that occurred while drilling the hole. All the information compiled in this report was acquired from the sensors of the MPT/2000 unit at the well site. The sensors incorporated in this unit are independent from the rig sensors and may differ slightly from values reported by the rig contractor. In addition, any evaluations in this report regarding formation evaluations, pore pressure estimates, or other geologic interpretations are made entirely by Sperry-Sun personnel from on site examination of drill cutting samples and pertinent data supplied solely by the MPT/2000. '- i BP E×P~ MfiLGUK MO.1 Casing Program ~ELL / Formations SRGRVRNI~TO}~ COLVILLE Interval: 80' to 3000' WELL SUMMARY BY INTERVALS Days: 5 Average WOB: 35 klb Hole Size: 17.5 Average RPM: 180 No. Bits: 4 Average GPM: 485 Rotating Hours: 37.1 Average SPP: 1400 psi Deviation: 2.9 deg Average ROP: 93 ft/hr Mud Weight: 9.9 ppg Mud Type: Spud mud Discussion: Drilling operations on Malguk No. 1 began at 0200 hours on 3/13/91 by drilling out the conductor casing with Bit No. 1, a R-1 with 3-16's jets. A bit trip was made at 776' and Bit No. 1 was replaced with Bit No. 2. Bit No. 2 was used to drill to 1,867' without difficulty. Bit No. 3 was then run into the hole and encountered a bridge at 330' while going into the hole. Washing and reaming was required to get through this tight area in order to get to bottom. Drilling resumed with some problems noted with slower penetration rates when the bit appeared to ball up or clog with clay. This bit was used to drill to 2,858' and replaced with Bit No. 4, a DSJC using 3-14's and a 10 jet for better hydraulics. Some drag was experienced while pulling out of the hole to change Bit No. 3, but no further problems were encountered while running back to bottom. Drilling continued with Bit No. 4 to the 17.5" interval TD of 3,000' without complications. The hole was circulated out and a carbide lag was run. The carbide lag came up 3000 strokes too soon indicating that the hole was possibly swelling or that the mud was channeling. Bit No. 4 was pulled out of the hole and experienced excessive drag on this trip. A wiper trip was then made to wash and ream through the tight spots and circulate and condition the hole. At the conclusion of the wiper trip, 13 3/8" - 68 Ib/ft casing was run to a depth of 2,977' and cemented in place. Lithologies of this section of the hole included gravel, clay, unconsolidated sands, and thin beds -' 1 of coal. Hole problems throughout this interval were minor and were largely associated with tight hole conditions due to swelling clays. The pore pressure gradient for this interval was estimated to be normal ranging from 8.5 to 8.7 ppg. '"' 2 Interval: 3000'to 11375' Days: Hole Size: No. Bits: Rotating Hours: Deviation: Mud Weight: 28 Average WOB: 40 klb 8 1/2" Average RPM: 120 21 Average GPM: 320-395 315.9 Average SPP: 2100-2900 PSI .91-17.4 deg Average ROP: 26 ft/hr 9.2-10.3 ppg Mud Type: Generic Discussion: Bit No. 5, a 12 1/4" DSJ, was used to drill the out the cement inside the 13 3/8" casing, the casing shoe, and 10' of new hole. A leak off test was run at 3,010' and yielded a fracture gradient equivalent to 12.4 ppg. This compares to a calculated value of 13.3 ppg using the Eaton Method for calculating this value. Bit No. 5 was then pulled out of the hole and the 8" bottom hole assembly was laid down. Bit No. 6, in conjunction with a 6 1/4" directional drilling assembly that included a mud motor, was run into the hole and used to initiate the directional phase for this well. This bit was pulled out of the hole at 3,489' after reaching angle of about 10 degrees. Bit No. 7 was run into the hole on the same assembly and used to directionally drill to 3,830'. This bit was pulled out of the hole after building the angle to 14 degrees to change the bottom hole assembly. The BHA was changed to a conventional locked assembly and run into the hole with Bit No. 8. Drilling continued with this bit through interbedded sand and siltstone to a depth of 4,615'. The hole angle continued to build during this bit run to a value of 16.8 degrees. The following bit, Bit No. 9, was run into the hole on the same assembly. This bit was used to drill ahead to 4,965' as the hole continued to maintain angle reaching a maximum value for this well of 17.4 degrees. Bit No. 9 was pulled out of the hole to change the BHA in an attempt to drop the angle back to the desired value as require by the drilling program. 3 Bit No. 10 was run into the hole after changing the BHA to establish a pendulum effect. This bit was used to drill to 5,423' while reducing the hole angle to nearly 11 degrees. The following two bit runs were made with a directional assembly using a mud motor to correct the angle. Bits No. 11 and 12 were used to drill to 5,885' and 6,168', effectively dropping the hole angle to almost one degree. Bit No. 13 was run in to the hole on a locked assembly after completing the "S" shaped turn designated for this hole. Tight hole conditions were encountered while going to bottom with this bit and required the reaming of four singles to get to bottom. During this bit run some drag was experienced on connections and one pack-off condition was encountered while making a connection at 6,514'. The mud weight was the raised to 9.5+ ppg along with additions of Resinex to improve hole conditions. Bit No. 13 was pulled out of the hole at 6,734' without complications. Bit No. 14 was run into the hole and used to drill to 7,172'. Penetration rates on this bit run were slow while drilling through a predominantly siltstone formation. The following bit run with Bit No. 15 experienced better penetration rates possibly due to better hydraulics applied with this bit by using smaller jets. Bit No. 15 was pulled out of the hole at 8,086' without any notable drag. While drilling ahead with Bit No. 16, slower penetration rates and low gas readings were recorded in what appeared to be well-cemented interbedded sands. One pack-off condition was experienced on a connection at 8,337' but did not account for any serious concerns. Bit No. 16 was pulled out of the hole at 8,592'. The next bit run using Bit No. 17 recorded similar penetration rates through the hard sandstone found in this formation. This bit was changed at 8,938' without experiencing any drag or encountering any other problems. 4 Drilling continued with the next bit noting a slight increase in background gas. This increase became more dramatic from a 2' drilling break at 9065-9067' reaching a maximum gas reading of 3,160 units indicating an increase in pore pressure by this depth. The mud weight was then increased to 9.8 ppg to counter this change and drilling was continued. Bit No. 18 was pulled out of the hole at 9,142' after drilling for only I0.1 hours and displayed extreme wear leaving parts of the bit cones in the hole. Although the sandstones at this depth appeared to be fairly abrasive, the damage to this bit appeared to be the result of another factor, possibly the bit being pinched on the way into the hole. Bit No. 19 was then run into the hole and an attempt was made to drill ahead. This bit drilled only 17' as the junk left in the hole would not easily drill up. Consequently, a flat bottom mill was then run into the hole with a junk basket to mill the metal left in the hole. Fairly high trip gas readings of 3000+ u. were recorded during this process. Bit No. 21 was next run into the hole at 9,164' and used to drill ahead without any consequences using 10.0 ppg mud weight. Bit No. 22 was run into the hole at 9,549' and drilling continued with this bit recording good penetration rates through shale, siltstone, and thin sands to a depth of 10,121'. Similar rates were experienced on the following bit run to the trip depth of 10,587'. However, problems were encountered while drilling ahead with the new bit, Bit No. 24, as the drill string was temporarily stuck at 10,700'. After working the pipe free, the bit was pulled off bottom 9 singles and reamed back to bottom. Drilling was continued with this bit until the decision was made to pull out of the hole and run electric logs at 10,764'. The hole was conditioned with a 10 stand short trip and additional circulating time in preparation for running logs. After completing this process, the drill string was again temporarily stuck while pulling the bit through the deviated section on the way out of the hole. The pipe was subsequently worked free and pulled out of the hole laying down the MWD tools and the near -" 5 bit stabilizer. The hole was then conditioned with a second wiper trip reaming through the tight section of the hole. On the first attempt at logging the hole, the logging tools failed to go past 3,200'. This depth was at the top of the kick-off for deviated section of the hole. Another wiper trip was performed to condition the hole for logs. At the second attempt at logging the hole, the tools would not go past 5,000"+/_. This was the area of the deviated section where measures were taken to reduce the angle back to a straight hole. Another wiper trip was again performed to condition the hole. Additions were made to the mud system to improve the lubricity of the hole on this trip. The third attempt at logging the hole also proved unsuccessful, the tools would not pass below 5,300'. Bit No. 25 was run into the hole without any problems to continue drilling. Hole conditions appeared to change while drilling ahead with this bit at 10,900' after penetrating the top of the HRZ Formation. Connection gas was noted at this depth and along with other parameters, indicated an increase in pore pressure. The mud weight was increased to 10.3 ppg to counter this change. A drilling break was recorded at 11,175' and the hole was checked for flow. When the hole was verified as stable, drilling was continued through sand and shale to the total depth for this well of 11,375' The hole was then conditioned with another wiper trip and additional circulating time to prepare the hole for electric logs. When this processed again proved unsuccessful, plug and abandonment procedures were initiated for Malguk No. 1. Lithologies for this extensive interval varied and included clay, siltstone, shale, traces of coal and tuff, and some bedded sandstone. The majority of the 8 1/2" interval was estimated to be Cretaceous in age ranging from the Colville to the Kuparuk. Hydrocarbon shows were recorded in this section particularly below 8,500' and are presented in the Show Report (Section J) of this -" 6 report. A modest pore pressure gradient was estimated to begin at approximately 9,000' and extended to the bottom of the hole reaching a maximum estimate of 9.9 - 10.0 ppg at 11,150'. Problems were moderate while actually drilling ahead in the 8 1/2" area. Two pack-off conditions were noted on connections, as well as one premature bit failure that required a milling run to remove the metal left in the hole. However, the more significant complications occurred while attempting to log this well. The problem area was largely related to the deviated "S" region of the hole as the logging tools would not go past this area. Tight hole conditions were experienced on trips to condition the hole for logs, which resulted in excessive drag and temporarily sticking the drill string on two separate occasions. 7 CONCLUSIONS AND RECOMMENDATIONS The drilling program for Malguk No. 1 was designed to penetrate to an estimated depth of 11,500' and evaluate sand found in the 8 1/2" interval. Malguk No. 1 was drilled to 11,375' in 233 days, very close to the projected total depth. Four days were expended in an attempt to complete electric logs in the prospective interval after reaching a depth of 10,764' without success. Operations to plug and abandon the well were initiated 3/15/91. No significant hole problems were experienced in the 17 1/2" interval of this well. Some bit balling was noted in this section along with swelling clays. The cuttings removal system employed on this job worked fairly well in handling the large volume of cuttings produced by the 17 1/2" bits. Most of the complications experienced while drilling this well were encountered in the second interval on Malguk No. 1. The trouble appeared to be mainly mechanical in nature and possibly associated with the deviated section of the hole. The problems experienced included a premature bit failure that resulted in a mill run, some pack off conditions on connections, and tight hole conditions experienced during the final 1,500' of this well. The more serious problems proved to be the tight hole conditions encountered at the bottom of the hole. This condition did not restrict or interfere the actual drilling process, but severely limited the evaluation of this well with electric logs. When hole conditions deteriorated sufficiently, the decision was made to run logs prior to reaching total depth at 10,764'. The logging tools would not go through the deviated section of the hole located between 3,200' and 6,000' after making additional wiper trips to condition the hole. The most probable reason for the logging tools failure to pass through this section was the high -- 1 probability of an irregular bore hole due to washouts. It is not known if a key seat was developed with the number of bit trips needed to reach this depth, but it is also a possibility. One of the contributing factors for both of these potential situations was time exposure. Over 15 days of drilling was needed to reach logging depth after the desired hole angle was achieved. A possible solution to this situation would have been to run casing through the deviated section of the hole. However, very little time was left to complete this well given the rapidly deteriorating condition of the ice road to this location. Pore pressure increases caused either minimal or no problems during drilling operations for Malguk No. 1. A pore pressure gradient was estimated to begin around 8,900' and continued to the total depth of the well. Hydrocarbon shows were also recorded in thin sands drilled below this threshold. The following hydraulics and mud property recommendations are based on a similar drilling program used on this well. There are moderate differences in these parameters as those used on Malguk No. 1 to compensate for the problems noted in this area. -' 2 Recommended Mud Properties Depth Mud Yield CSG Seat ,,Weight Point 0-550' 30" 9.0 N/A Below Permafrost 6000' TD 13 3/8" 9.0 25+ 8 1/2" 9.2 Hole 8 1/2" Hole 150 psi overbalance >12 >14 Water Loss N/A <15 <8 <6 Recommended Hydraulics Hole Size: 17-1/2" 8-1/2" 8-1/2" Depth: 2500 4000 9500 Gallon per Min: 500 365 350 Nozzle Size: 3-15's 3-10's 3-10's Pump Pressure: 1500+ 2700 2700 3 10 DF~Y$ DRILLING 9 PORE v~ HUD WE lb?gc~l 11 12 13 lq 15 16 1'2 ISTIt~IT¥ 2 288 PORE PRESSURE EST. lb/gal 8 2"/10001~T PORK PRKSSUJ~K 10~5 2~?i008FT TOTAL GRS -- UNITS ~ST. POi~ PR~SSUR~ 10_5 MODIFIED "D" EXPONENT 1 XOD 1R-1 MB 2 NOD $ FODS W/MUD MOTOR N8 ? FDS W/MOOD MOTOR NB 8 CH3A XB 0 CH3A RB 18 AT,TIS )i~B 11 C J2 NB 12 C$2 W/MUD MOTOR NB 13 AT J-IS NB 17 AT J-IS NB 18 SDGH ~{~ ~{~ MO iS SODCH NB 28 MILL NB 21 ATJ-1S NB 22 AT J-IS ~B 2~ BTJP~5 BF' EXPLORATION MALGUK #1, WILDC~AT APRIL 1991 MEASURED ANGLE D I RECT I ON VERT I CAL LAT I TUDE DEPTH DEGREE DEGREE DEPTH FEET . O0 .0(] .00 . O0 .00 136.00 .4(]) 185.94 136.00 -. 47 194. O0 .37 183.7(]) 194.00 -. 86 248.00 . '~' 1 193.45 248. AO - 1. 13 4(])5.00 .43 330.42 404. '99 -1.23 532.00 .36 322.25 531.99 -. 5(]) 584.00 .76 341.29 583.99 -. 05 675.00 1.37 4.05 674.'37 1.61 747· 00 I. 67 ·3.07 746.95 3.52 865.0(') 1. 11 1i.00 864.91 6.36 952.00 .86 8.'95 951.90 7.83 1163.00 .53 35'?.1(]) 1162.88 1(]).38 1255.00 .34 352.45 1254.88 11.08 1345.00 .37 5·80 1344.88 11.63 1432.00 .44 7.75 1431.88 12.25 1556.(')0 .23 354. 12 1555.87 12.97 1620.00 . 17 24. 14 1619.87 13. 19 1714.00 . °-~.' I 41.07 1713.87 13.45 1811.00 . 14 34.09 1810.87 13.68 .--, - .--, ~- .-(.)~ ~. 00 .56 2(i)7.27 2(])28.87 13.23 2242.00 1.46 257.69 2241.83 11. (:)2 2455.00 2.56 286.52 2454· 70 11.29 2653.00 3. 12 295.97 2652.45 14.84 2'368. (] 0 ? '- ' . . . _. ~(.) 2'38 7'3 2967 02 '.]'2 45 3046.00 2.81 304.67 3044.92 24.49 3169.00 3.99 223.08 3167.70 23.78 322'3.00 4.96 211.08 3227.52 20.05 '~'-'~' (')(') 6 '-'~ 196 01 ":'-~-'-'~ ~.(.~ 11 40 3419.00 8.21 192.22 3416.29 -. 15 3514.0(]) 10.43 188.88 3510.03 -15.27 3606.00 12. 16 185.95 3600.24 -~.~ 14 36'98. (])0 13.41 18(]). 00 368'3.96 -53.46 3728.00 13.88 179.30 3719.11 -60.53 3758·00 14.0(]) 177.42 3748.23 -67.76 3839.(])0 15.49 172.61 3826.56 -88.29 ~,-~.c, 00 15 '34 172.46 3916 09 -113.26 4026.00 16. 15 172.39 4006.42 - 139.02 4120.00 I6.3'3 172.48 4096.66 -165. 13 4214.00 16.71 173.42 4186.76 -191.7(]) 4~(. 8.00 17. (:)6 174.3(]) 4276.71 -'?.' 18.84 API #50-223-20019 NABORS 18E NORTH REFERENCE : TRUE NORTH DEF'ARTURE VERTICAL DOG LEG FEET SECTION SEVERITY .00 .00 .00 -. 05 .47 .29 -. 08 .85 .06 - 1':' 1 11 31 -. 8(:) 1.41 .38 -1.28 .86 . (:)7 -1.52 .51 .84 - 1.74 - 1. (])2 .8(i) -1.62 -2.87 .42 -1.27 -5.68 .5(:) -1.01 -7. 17 .'29 -.87 -9.64 . 17 - 94 -10 29 *~'1 . . m a~ -.95 -10.81 . 10 -. 87 -11.42 . (:)8 -.86 -12.11 .18 83 -12 ~ 19 -.66 -12.63 .(])7 -. 48 -12.91 .08 28 -12 71 o.~, m m .~ -2.61 -9.73 .56 -9.99 -7.77 .69 -19.13 -8.42 .37 -33.81 -11.26 .08 -37.11 -12.22 .3'3 -43.77 -9.54 3.68 -46.59 -5.14 2.24 -50.35 4.24 2.11 -53.26 16.13 2.04 -56.08 31.4(]) 2.40 -58.4(]) 4'9.14 1.98 -59.46 68.84 1.97 -59.41 75.58 1.66 -59.21 82.41 1.56 -57.42 1(i)1.45 2.38 -54.14 124.2'3 .49 -50.72 147.83 .22 -47.25 171.69 .26 -43.96 I96.£)5 .44 -41.04 221.07 .46 BP EXPLORATION MALGUK #1, WILDCAT APRIL 1991 MEASURED ANGLE D I RECT I ON DEPTH DEGREE DEGREE 4404. (:)(.'7 17.25 174. 16 4494. (:)(:7 17.51 175.81 4587.00 17.80 176.50 4680.00 17.64 177.57 4775.00 17.51 177. 17 4866.00 17. I4 177. 17 4962.00 16.89 177.53 5055.00 14.86 179.41 5148.00 12.70 184.40 5242.00 11. 15 194.62 = ~ ~(') 00 10 ~ ~ -- (...'. 89 5447.00 9. 18 '712.49 5540.00 8.55 21 I. 25 5630.0(] 7.59 209.70 5725.00 6.81 205.39 5816.00 5.86 203.97 5915.00 4.23 175. I0 6(.')07.00 2.90 177.41 6100.00 1. 14 171.41 6215.00 . '93 194.78 6309.00 1. 11 213.55 64(.')5.00 1.3(:) 233.90 6498.00 1.25 229.02 65'93.00 2.44 219. 15 6687.00 2.38 227.38 6781.00 1.94 246.01 6877.00 I. 58 275.7(:7 6'971. (:)(:7 ",". 72 267.56 7064.00 3.00 267.35 7159. (:70 2.8(:7 274.0 (:7 7254.00 2.68 281. 16 7348.00 2.54 28'9.05 7442.00 2.35 291. 19 7536.00 2.24 2'97.60 7630.00 '2.24 296.07 7726.00 2. 15 2'91.47 7818.00 1.66 298.02 7913.00 1.76 308.87 8007.00 1.54 314.56 8102.00 1.25 312.84 API ~50-223-20019 NABORS 18E NORTH REFERENCE : TRUE NORTH VERTICAL LATITUDE DEPARTURE VERTICAL DOG LEG DEPTH FEET FEET SECT I ON SEVER I TY 4368.44 -247.02 -38.20 247.09 .20 4454 ~o .... .~ -273 80 -35 85 271 93 62 4542.95 -3¢) 1.94 ~". . · . -~ 96 298 2(:7 38 4631.54 -~()~'. 21 -32.49 324.73 . ~"~_ 4722. 1 (]7 -358.86 -31. 18 351.67 . 1 '9 4808. '98 -385. '93 -2'9.84 3'77. (:78 .41 4'9(]7(]7.77 -413.99 -28.54 4(i)3.46 .28 4'9'9(:7.22 -439.42 -2'7.86 427.51 2.25 5080.54 -461.55 -28.60 448.84 2.65 5172.51 -480.68 -31.8(:7 468.05 2.78 5258.97 -4'96. 19 -37.07 484.43 I. 98 5374. :27 -513.73 -46.27 503.92 1.7(:7 5466. 16 -525.90 -53.84 517.80 .71 5555.27 -,536.78 -60.24 530. 11 I. 09 564'9.52 -547.34 -65.75 541.83 1.00 5'73'9. '96 .-556.46 -6'9. '94 551.7'9 1.06 5838.58 -564.96 -71.37 560.32 3.00 I~.~,-- ,'*", ' · · ~'~,~U. 40 -57(:7.67 -7(:). 99 565 66 1 45 6(:723.33 -573. '93 -70.68 568.67 1.90 6138.32 -575.99 -70.79 570.67 .41 6232.3(:7 -577.51 -71.47 572.32 .40 6328.28 -578.'96 -72.86 574. 12 .48 642I. 26 -58(:7.25 -74.48 575.84 .13 6516.21 -582.44 -76.6(i) 578.57 1.2'9 661 (:7. 12 -585.32 -7'9.31 582. 13 .37 670-~. 06 -587.25 -82.25 584.86 .88 6800.01 -587.72 -85. 13 586. 16 1.01 6893. '94 -587.62 -88.66 587. 13 1.25 6'986.83 -587.82 -'93.2'9 588.71 .30 7081.70 -587.77 -98.09 5'9(17. 10 .41 7176.60 -587. 17 -102.59 590.88 .38 727(:7.50 - 586.05 - 106. '72 591.06 .41 7364.41 -584.67 -110.49 590.87 .22 7458.34 -583. !2 -113.91 590.42 .30 7552.27 -581.46 -117. 19 58'9.82 .06 7648. 19 -57'9.98 -120.56 58'9.42 .21 77,40. 14 578.7(:7 123 ~ . - - . ~ 58'9. (:73 58 7835. 10 .-5'77. 14 -125.6'9 588.25 .36 7929.06 -575.34 -127.71 587. 14 .29 8024. ')~ =' ~ ~.~. (. ~ -~ ?~. 74 - 1 '?'~ 3'9 586. 12 .31 BF' EXPLORATION MALGUK #1, WILDCAT APRIL 1991 ~t.,--.-' ..-~- ... ~.,,k. 19 NABORS 18E NORTH REFERENCE : TRUE NORTH MEASURED ANGLE D I RECT I ON VERT I CAL LAT I TUDE DEPARTURE VERT I ]_-:AL DOG LEG DEPTH DEGREE DEGREE DEPTH FEET FEET SECT ION SEVER ITY 8197. (])0 1.36 312.44 8119.01 -572.28 - 130.98 585.20 .12 8289. (1)0 1.45 319. 14 8210.98 -570.66 -132.55 584. 13 .2(i) 8384. O0 1.44 325.68 8305.95 -568.76 -134.01 582.76 .17 847'9.00 1.4(1) 32'9.60 8400. '92 -566.77 -135.27 581.24 .11 8545.00 1. 14 322.58 8466.91 -565.56 -136· 08 580.33 .46 8638. (')0 1.34 343.85 855'9.88 -563.77 -136.99 578.8'9 .54 8734.00 1.35 2.03 8655· 86 -561.55 -137.26 576.85 .44 882'9.00 1.3'9 14.79 875(:). 83 -559.31 -136.93 574.61 .32 · · · ~""NI[' · · . 8'9(])'9 00 i 40 14 19 88~.) 81 -557.42 -136.44 572· 67 (]2 9002.00 1.33 7.73 8'923.78 -555.25 -136. (:)2 57(]). 47 . 18 9092.00 1.54 348. 10 9£)13.75 -553.01 -136. 10 568.36 .5'9 9192.00 1.73 345.45 9113.71 -550.23 -136.76 565.90 .2(:) 9285.00 1.69 349.64 9206.67 -547.52 -137.36 563.5£) . 14 '9378.00 1.54 3';6.40 '929'9.63 -544.95 -137.90 561.22 .19 '9464.00 1.39 333- - -. 86 '9385.61 -542.89 -138.64 559.47 . 41 9621.00 1.43 321.95 9542.56 -53'9.62 -14(i). 6'9 556.97 . 19 979(i). 00 1.37 323.32 9711.51 -536.34 -143.2(]) 554.59 . (])4 9975 00 1 09 322 ')~ -533 . 552 · . .L~ 9896.46 . 19 -145 61 .3(i) . 15 I (:)(:)71. AO I. 12 318.67 9992.45 -531.76 - 146.7'9 551.3(]) . (i)7 · . .)L~8~. 43 -~.. 42 -147.94 I0162.00 1 11 319 97 1('' ~ = ~'] ,. · ~ (..--, . · z-N 1 (])2'9(]) 00 84 ~ .)~. 71 10211 41 -528.98 - 149.57 549.4'9 ~ 1 ]~ '- . ~')' .52 . . 549 16 .04 1L ~6 ~. 00 86 ot 4 1 (])2'9(I) 4(:) -528.34 - 15(:) 55 . · ... . ,"N -}.-, (~ ,-N · · ') ~ 1(')465 AA 88 ~L,'.78 1.)~86.3'9 -527.53 -151 76 548 75 .L~ 1L ~6 d. 00 1. (:)3 295.51 1 (:)4'9(:). 38 -526.68 - 153 27 548 4(i) 19 1 (])666.00 1. 16 298. (i)4 10587.36 -525.85 - 154. '93 548. 10 .14 0750.00 1.24 2'95.87 10671.34 -525.05 -156.50 547.81 .11 0834.93 1.(i)6 294.90 10756.25 -524.32 -158.(}4 547.58 .21 0953.38 .92 305.60 10874.69 -523.29 -159.8(i) 547. 13 .20 1049.87 .97 306.40 10971.16 -522.36 -161.09 546.62 .05 1155.03 .76 3(i)5.48 11£)76.31 -521.42 -162.37 546. 12 .20 · ."N .'"J. · · ~ '--, ') 11250.07 67 ~1 90 11171 34 -j.,L.54 -163. 15 545.51 .36 1133'9.79 1. 11 322.09 11261.05 -519.37 -163.91 544.62 .52 11375.(])0 1. 11 3~'-'-.08 11296.26 -518.84 -164.~ 544.24 .(](').. RADIUS OF CURVATURE CALCULATION METHOD HORIZONTAL DISPLACEMENT AT BOTTOM HOLE IS 544.24 FEET ALONG S 17 DEG 34 MIN W RELATIVE TO WELL HEAD VERTICAL SECTION RELATIVE TO WELL HEAD VERTICAL SECTION COMPUTED ALONG 197.47 DEG SPERRY-SU'-I DRILL ING SERVICES VERTICAL PROJECTION 5O-223-20O19 WILDCAT NABORS 18E START TVD = 0 FINISH TVD = 11296.40 SCALE ZS 1740 FEET/ZN 1740 348O 5220 696O 8700 10 440 12180 1296, 11375 :20 17~0 3460 VERTICAL SECTION DIRECTION = 180.00 SPERRY-SU'I 50-223-20019 WZLDCAT NABORS 18E DRILL lNG 3ERVICES HORIZONTALPROJECTION START TVD = 0 FINISH TVB = 11296.40 SCALE IS 110 FEET/IN M~IT HORIZONTAL DISPLACEHENT IS 543.27 DEPARTURE 660 550 440 330 220 110 0 I I I I I ,I I 110 '22O '330 440 '550 660 SPERRY-SL DRILLI'NG 'SERVICES VERTICAL/HORIZONTAL PROJECTIONS 50-223-20019 START TVD = 0 WILDCAT FINISH TVD = 11296.40 NABORS 18E VERT SECT SCALE IS 1740 FEET/IN HORT SECT SCALE IS 220 FEET/IN o_ W 174~ 3480 5220 6960 8700 10 440 12180 Z96.4 11375 HORIZONTAL DISPLACE~4ENT IS 543.27 DEPARTURE 660 440 220 0 I I I I '220 440 660 -=o ~;~o ,£~o VERTTCAL SECTTON DIRECTTON = 180.00 SPERRY-SUN DRILLING SERVICES, A BAROID COMPANY BIT RECORD COMPANY: BP EXPLORATION STATE: ALASKA CASING PROGRAM: 30 inch at NA ft. WELL: MALGUK No. 1 COUNTY: NORTH SLOPE 20 inch at 80 ft. TOTAL DEPTH: 11,375 ft CONTRACTOR: NABORS LOCATION: KUPARUK UPLANDS 13 3/8 inch at 2977 ft. SPUD: 3-13-91 9 5/8 inch at NA ft. PAGE -1- BITJ IDEPTH I FT/ IACCUM-HR TRIP IRIG-HR COST I NO. SIZE TYPE JET OUT FEET JHOURS HR DRLG TIME I COST /FT I woB 16 I lOOO 112oo I 1 17.5 R'I 16-16 776 695 I 3.7 188 3.7 /HR J/HR 19 133 16 I I 2 17.5 R'I 16'16 1867 1091 J 12.2 89 15.9 " J " 25 28 PUMP RPM PRES GPM J T I 167 944 482 J 4 I 180 1600 514 J 5 FLOW I GRADE IVERT I MUD e G I DEV I WT REMARKS ...... I ..... I ............................. I I 4 I J 1.67J 8.9 POOH ON ROP I I 4 1/8J 1.10J 9.8 POOH ON ROP 10-15 J 17.5 IY-11-J 15-15 2858 991 J17.1 58 33.0 ,, ,, 34 11o-141 I DSJC J14-14J 3000 142 4.1 35 37.1 ,, ,, J 104 37 190 1500 118 I I I DSJ JlS-18J 3010 10 .3J 40 37.4 " " - 11 8ol 85o 114 I I I FDS J14-14J 3489 479 12.6J 38 SO.O " " 57 16 110J 1225 40 180 1500 506 6 6 440 2 3 4 17.5 I 5 I 12.25 I 6J 8.5 297 4 345 3 J 7 J 8.5 FDT 14-14J 3830 341 9.9 J 34 59.9 ,, ,, 70 19 110 1250 345 4 8-10J 8 8.5 CX3A 10-101 4615 585 20.3 39 80.2 " " 50 31 120 1600 322 6 E 8-20 J 9 8.5 CX3A 10-10 4965 350 15.2 23 95.4 " J " 91 37 119 1650 319 7 E 11 J J J 10 8.5 ATJ1S 11-11 5423 458 J 22.0 21 117.4 " " 90 40 J 121 1080 318 5 J E 14 J 11 8.5 CJ2 J14-14 5~5 462 14.5 31 131.9 .... 71 27 110 1440 343 2 J E J 12 8.5 J CJ2 J14-141 6168 283 9.7 J 29 141.6 .... 93 28 110 1525 342 2 J E 2 I 4 J16 I 5jI I 3.10J 9.9 POOH ON ROP I 2.90J10.2 POOH TO RUN 13 3/8 CSG I 2.90J 9.2 10.0 9.3 MUD MOTOR 14.0 9.2 MUD MOTOR 1/8J17.0 9.2 LOCKED BHA I 1/8J17.4 9.3 " 1/ 16 11.2 9.3 PENDULUM I 5.8 9.7 MUDMOTOR I 1.14 9.3+ MUDMOTOR J J J J J J J J J J J J J J J J | | J SPERRY-SUN DRILLING SERVICES, A BAROID COMPANY BIT RECORD COMPANY: BP EXPLORATION STATE: ALASKA CASING PROGRAM: 30 inch at NA ft. WELL: MALGUK No. 1 COUNTY: NORTH SLOPE 20 inch at 80 ft. TOTAL DEPTH: 11,375 ft CONTRACTOR: NABORS LOCATION: KUPARUK UPLANDS 13 3/8 inch at 2977 ft. SPUD: 3-13-91 9 5/8 inch at NA ft. PAGE -2- BITI IDEPTH FT/ IACCUM-HRI TRIP RIG-HRI COST I NO. SIZE TYPE JETIOUT FEET HOURS HR DRLG I TIME COST /FT I WOB lO I I 13 8.5 ATJlS 10-10) 6734 566 14.7 38 156.3 )" " 61I 41 11 I I 14 8.5 SDGH 11-11 7172 438 20.5 21 176.8 I " " 95 I 44 11 I 15 8.5 ATJ1S 10-101 8086 914 23.9 38 200.7 I " " 53 I 43 ...................................................... I .................. 16 8.5 ATJ1S 10-101 8592 506 13.3 38 214.0 I .... 69 45 RPM 121 123 I 125 2940 I 389 124 2970 391 PUMP I FLOW PRES I GPM T ...... i ......... I 3050 I 378 4 I 2600 I 397 GRADE IVERT 5 5 B E E E MUD I G I DEV WT I REMARKS I I I I 2.44 9.4+ILOCKED BHA I 1/81 2.74 9.6 POOH ON ROP I 1.39 9.6 POOH ON HOURS I 1.14 9.7 11 I I I 17 8.5 ATJ1S 10-101 8938 I 346 14.5 23 228.5 .... 104 46 I 126 2960 395 5 E 18 8.5 SDGH 10-101 9142I 204 10.1 20 238.6 " " 147 45 I 127 2980 397 8 8 19 8.5 SDGH 10-101 9159 I 17 I 3.3 5.0 241.9 " " 1547 46 133 2889 398 I 8 8 FLAT .5 I I I 20 8.5 MILL TFA 9164 51 3.7 1.4 245.6 " " - 26 137 I' I' .................................. I ............................................................ I---I--- 11 I 21 8.5 ATJ1S 10-10 9549 385 15.5 25 261.1 " Ii 99 4O 127 2952 4OO 6 I 6 I 1. 341 9.7 POOH ON ROP I POOH ON ROP 1/81 1.541 9.8 LEFT CONES IN HOLE I I 1/81 1.541 9.8 DRILLED ON JUNK - 9.8 MILLED JUNK I 9.9 22 8.5 I ATJlS 10-10 10121 572 23.6 24 284.7 " ,, 87 36 123 2466 357 5 11 23 8.5 AT J22 10-10110587 461 39.2 12 323.9 " " 151 36 91 2029 320 4 I 24 I 8.5 ATJP05'10-10110764 182 9.9 18 I 333.8 .... 176 I 34 108 2069 I 310 4 E I I 1.37 10.1 I EI I .91 10.2 POOH ON TORQUE I I E I I 1.16110.1 POOH TO E-LOG J J J J J J J J J i J j ! j I j j J J SPERRY-SUN DRILLING SERVICES, A BAROID COMPANY BIT RECORD COMPANY: BP EXPLORATION STATE: ALASKA CASING PROGRAM: 30 inch at NA ft. WELL: MALGUK No. 1 COUNTY: NORTH SLOPE 20 inch at 80 ft. TOTAL DEPTH: 11,375 ft CONTRACTOR: NABORS LOCATION: KUPARUK UPLANDS 13 3/8 inch at 2977 ft. SPUD: 3-13-91 9 5/8 inch at NA ft. PAGE -3- BIT I IDEPTH ET/ IACCUM-HRI TRIP RIG-HRI COST I PUMP I FLOW GRADE JVERT NO. SIZE TYPE I JET OUT FEET HOURS HR DRLG I TIME COST /FT ) WOB RPM PRES I GPM T B ................. I ..................................... I .................. I ................ ) ............ 25 8.5 ATJ11H)10-10 11375 611 19.2 32 353.01 ,, ,, 75 ) 41 111 ...................................................... I .................. I .......... I I I i I 2179 I 315 I I 2 E MUD G DEV WT REMARKS POOH TO E-LOG AND I 1.11 10.3 TD WELL I I I I I I I I j J ~i J J J J I I | | ~ | J J J J ~ J SPERRY-SUN DRILLING SERVICES, A BAROID COMPANY DRILLING MUD RECORD COMPANY: BP EXPLORATION STATE: ALASKA CASING PROGRAM: 30 inch at NA ft. WELL: MALGUK No. 1 COUNTY: NORTH SLOPE 20 inch at 80 ft. TOTAL DEPTH: 11,375 ft. CONTRACTOR: NABORS LOCATION: KUPARUK UPLANDS 13 3/8 inch at 2977 ft. STOCKPOINT: PRUDHOE BAY ENGINEER: M.I. 9 5/8 inch at NA ft. PAGE -1- DATE IDEPTH WEIGHT VISCOSITY Yp GELS FILTRATION I RETORT SAND I CEC pH FILTRATION ANALYSIS REMARKS ........................................................... I ....................... I ........................................ 1991 feet lb/gal Sec PV 10 sec/ m[ IHTHP !Cake ISotids Oil IWater %iMud STRIP [X] Pm Pf/ C[iCa TREATMENT API 10 miA API 132nd$l % % % Ime/mt Meter [] Mf ppm I ppm 3-13 117 8.9 165 12 45 20 3 I 4 96 - 30.0 11.5 - 400 I ' SPUD MUD 3-13 1000 9.4 130 12 21 14/34 16 3 8 92 .5 27.5 8.5 - TR/.01 300 120 " 3-14 1785 9.8 150 17 28 15/37 14 3 11 89 - 27.5 8.0 TR/.01 300 100 " 3-14 2100 9.9 180 18 24 19/56 13 3 11.5 - 88.5 - 130.0 7.5 ITR/.01 300 80 " 3-15 2725 9.9+ 120 14 20 18/47 13 3 11.5 - 88.51 130.0 8.5 ITR/.01 300 80 " 3-16 2900 10.2 125 17 33 21/49 8 - 3 14.01 - 86.01 132.5 8.5 TR/.01 300 I 80 CIRC AND COND HOLE AND 3-17 3000 i i i RUN 13 3/8 CSG CLEAN PITS 3-18 3146 9.1+I 36 4 8 2/10 12 - 2 6.0 94.01 - 17.5 10.5 - .1/.2 1000 I 160 3-19 3831 9.2 49 10 24 11/20 10.61 - 2 6.0 94.01 .25 22.5 9.0 - .1/.25 900 120 3-20 4385 9.2 43 6 11 11/81 8.81 2 6.5 93.51 .25 25.0 9.5 - .15/.65 850 20 3-21 4685 9.3 52 9 13 12/83 7.2 2 7.01 - 93.01 127.5 9.0 .05/.25 800 20 3-22 4995 9.3+ 48 10 14 7/96 7.2 - 2 7.5I 92.5 135.0 9.0 .1/.301 800 20 3-23 5423 9.3 48 11 12 7/96 7.0 - 2 7-51 I 92.5 140.0 9.0 .1/.45 800 20 3-24 5815 9.3+ 48 11 11 5/73 6.9 - 2 7.5I I 92.5 142.5 9.5 - .2/.7 800 I 20 3-25 6140 9.3+ 63 15 15 8/86 I 6.0 - 2 7.5I I 92.5 - 145.0 9.0 - .15/.6 800 I ' I 3-26 6600 9.4+ 58 16 20 12/25 I 6.0 2 8-51 I 91.5 - 147.5 9.5 - .2/.55 800 I ' ADDED RESINEX AND J J J J J J J J J J J J J J J J | J J SPERRY-SUN DRILLING SERVICES, A BAROID COMPANY DRILLING MUD RECORD COMPANY: BP EXPLORATION STATE: ALASKA CASING PROGRAM: 30 inch at NA ft. WELL: MALGUK No. 1 COUNTY: NORTH SLOPE 20 inch at 80 ft. TOTAL DEPTH: 11,375 ft. CONTRACTOR: NABORS LOCATION: KUPARUK UPLANDS 13 3/8 inch at 2977 ft. STOCKPOINT: PRUDHOE BAY ENGINEER: M.I. 9 5/8 inch at NA ft. PAGE -2- DATE IDEPTH 1WEIGHT VISCOSITY Yp GELS i FILTRATION I RETORT ISAND I CEC pH FILTRATION ANALYSIS REMARKS ...... I .................................... I ................. I .................. I ..... I ........................................ AND 1991 feet lb/gal Sec PV 10 sec/ I m[ API 10 min I API 3-27 7010 9.6+ 62 17 21 10/45 I 5.8 3-28 7300 9.5+ 55 13 19 6/28 I 5.8 3-29 8086 9.7 54 10 17 6/27 I 5.8 3-30 8290 9.7 54 10 17 6/27 I 5.8 3-31 8890 I 9.7 55 17 19 8/30 I 6.0 4-01 9100 I 9.8 57 19 16 6/34 I 6.0 4-02 9154+I 9.8+ 54 18 16 7/23 I 6.0 HTHP 1Cake IsoLidsl oil water1% 1Mud STRIP IX] Pm i Pf/ Ct Ca TREATMENT 132nds ~ IX ~1 Ime/mt Meter [3 IMf ppm ppm ................ ) .......... I ..... I ................... I .......................................... 2 9.0l - 91.01 147.5 8.5 ITR/.20 8OO INC M.W. - 2 9.01 - - 2 9.01 - 2 9.01 - 2 I lO.O1 - - 2 11.51 - - 2 11.51 - 91.01 147.S 8.5 ITR/.20 750 ..... I ..... I ............................................................. 91.01 147.5 9.0 .1/.50 500 91.01 147.S 8.S .1/.40- 500 ..... I ..... I ............................................................. 90.01 147.s 8.5 .1/.40 500 88.sl 147.5 8.5 .1/.40 500 88.sl 147.s 8.s .os/.4sl soo 4-03 9201 9.9 55 11 14 5/69 5.61 - ~ il.si I 88.5 147.5 8.5 .os/.2sl 45o 4-04 9549 10.0 62 16 18 8/56 5.61 - 2 11.51 188.5 147.5 8.5 JR/.20 4-05 10007 10.1 I 57 15 19 8/61 5.6 - 2 12.01 88.0 - 147.5 8.5 - TR/.15 I 450 - 4-06 10200 10.1I 57 14 17 5/43 5.6 - 2 12.0 88.0 - 147.5 8.5 - TR/.15 I 400 - 4-07 10400 10.2I 55 19 21 8/21 5.6 - 2 12.5 87.5{ - 147.5 8.5 I ' TR/.15 I 400 I - 4-08 10582 10.1 J 56 15 14 6/44 5.6 - 2 12.0 88.01 - 147.5 8.5 - .05/.151 400 I ' 4-09 10760 10.1 J 58 15 16 11/24 5.61 - 2 12.0 88.0J - J47.5 8.5 - TR/.15 J400 J - 4-10 10764 10.1 I 59 15 16 8/29 5.8J - 2 13.0 87.0J - J47.5 8.5 - .01/.15J 400 J - E-LOGGING 4-11 10764 10.1+J 54 10 14 5/21 6.0J 2 13.0 87.0J - J45.5 8.5 - .01/.15J 400 J - " J J J J J J J J ~l J ~l J J J J J J } SPERRY-SUN DRILLING SERVICES, A BAROID COMPANY DRILLING MUD RECORD COMPANY: BP EXPLORATION STATE: ALASKA CASING PROGRAM: 30 inch at NA ft. WELL: MALGUK No. 1 COUNTY: NORTH SLOPE 20 inch at 80 ft. TOTAL DEPTH: 11,375 ft. CONTRACTOR: NABORS LOCATION: KUPARUK UPLANDS 13 3/8 inch at 2977 ft. STOCKPOINT: PRUDHOE BAY ENGINEER: M.I. 9 5/8 inch at NA ft. PAGE -3- DATE IDEPTH IWEIGHT VISCOSITY I Yp GELS FILTRATION I RETORT ISAND 1991 I fee~ lED/gal Sec PV 10 sec/ m[ IHTHP ICake ISolids Oil IWaterl % I I APl 10 min APII 132nds % % % I ...... I ...... I ................. I ................. I .......................... ) ..... 4-12 110764 10.2 58 14 16 7/34 5.21 2 13.0 6.5 80.5) - 4-13 10764 10.2+ 58 14 16 7/34 5.2 2 13.0 6.5 80.51 - CEC pH I FILTRATION ANALYSIS .............. i ......................... Mud STRIP IX] i Pm me/mt Meter [ ]1 47.5 8.5I- 47.5 8.5 i - REMARKS AND Pr/ Ct I Ca TREATMENT Mf ppm I ppm TR/.15 400 - " TR/.15 400 - " 4-14 11375 10.3 58 14 16 7/34 5.2 2 13.0 6.5 80.51 - I I I I I 47.5 8.5 I ' TR/.15 400 DRILL TO TD I I I SHOW REPORTS This section of the report contains copies of show evaluation reports for Malguk No. 1. These reports are based on chromatography evaluations of gases retrieved from the gas trap line intake, in conjunction with the total hydrocarbon analyzer. They are normally developed from gases retrieved from mud samples injected into Baroid's Steam Still apparatus; consequently, interpretations made on each report reflect this procedure. Show reports are not always included in the well report analysis because of restricted information requirements placed on some wildcat wells. They do offer some insight of fluid content on potential producing zones of good permeability; however, they are often inadequate on tight zones or when gas samples are taken while coring. ~.,AROtO ppm LOG EVALUATION REPORT COMPANY WELL LOCATION FORMATION DEPTH /o¢4o '- I 0/::,~o; PROBABLE PRODUCTION (~,4-~ MUD ANALYSIS I0O HYDROCARBON RATIOS Cl C, C~ CI Ct C~ C4 CB, , , ' BAG~M~D NET H~fi'RE*A~.-E-' I I PLOT I PLOT 2 DEPTH t~,-~' [DEPTH METHANE- ppm C! <:~?0oo 6P2000 , ,, , . . ~ , PNOPAN[--ppm C] ~00 .... m m m METHANE %--UNrTSA ~70 TO*AL ~_u.,.~ 12.6~ !1~ ~ ,,, .,. ,, m m m mmm m~ m m r -'DRILLING RATE : FT/HR'x MIN/FT__ FROM 20 TO,, ~0 I NEW ORDERS ....... I I I I I I I I I I I l ,.l:,ll. I I r i il llll lmm I I AM .._PM-~X' CALC. I:D ~N aY ~. F£~,dc~ -- i i TALKED TO Il I ~' ~l~ ~ ~n,a Y --DAT~ ~'~/ TIME ,,,~:O0 I USE ONLY GAS INCREASE OVER BACKGROUND Cl" ,M Ca' M C4' M Cs+' M Ct' M ?z-oT~c~/c.,./o..3 Cl/C~,./&.4, c,/c4.,.3~.? Cl/C~+. ~.,.a PL<~T~) o.s /~..~ 30./ I. PLOT RATIOS ON LINES INDICATED. E. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTED CURVE WITHIN THE FOLLOWING LIMITS: o.'PROOUCTIVE DRY GAS ZONES MAY SHOW ONLY Ci BUT ABNORMALLY HIGH Ci ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE Ci/Ct RATIO FALLS LOW IN THE OIL SECTION AND THE CI/Ce RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. c. IF ANY RATIO (C~/Ct EXCEPTED IF OIL MUD IS USEO) IS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY NONPRODUCTIVE. FOR EXAMPLE, IF Ci/C, IS LESS THAN CI/C~ THE ZONE IS PROBABLY WE'**'. d. THE RATIOS MAY NOT BE OEFINITIVE FOE TIGHT, LOW PSRMEABILITY ZONES. ,--~, BAROIO ppm LOG ~ 3W EVALUATION REPORT COMPANY WELL LOCATION FORMATION DEPTH PROBABLE PRODOCTION CD MUD ANALYS'IS IOO HYDROCARBON RATIOS C._.L C_.!~ C__j C_2 C~ C~ C, Ca, ' ' BACKGROUND NET INCREASE . PLOT I PLOT 2 DEPTH JO'~O0 DEPTH_ID2,o~ METHANE- 99' Ct .... lq&~ Cz~oo ~ ,,, , p[ NTANE*- ~pmC~ ~q~ ~ METHANE %- UNrTS_ CHLORIDE S ~O ~O DRILLINO RATE: FT/HR.,~.. MIN/FT_ FROM NEW ORDERS ii i CALLED TALKED i i i i i i i i i i TO , T I M E , ~'/' 3~ AM __PM.... BR- 30615 ! USE ONLY GAS INCREA31': OVER 9ACKOROUNO ClL .M C3' M C4' M C~,+' M Ct' .... M (:~cvc~, '~.8 cvc3~.~ c,/c,./~./ c~/c~+,.z~..~' 1. PLOT RATIOS ON LINES INDICATED. 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTED CURVE WITHIN THE FOLLOWlN~ LIMITS: o.'PRODUCTIVE DRY GAS ZONES MAY SHOW ONLY C~ BUT ABNORMALLY HIGH C~ ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE C~/Ca RATIO FALLS LOW IN THE OIL SECTION AND THE C~/C~ RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. c. IF ANY RATIO (C~/C~ EXCEPTED IF OIL MUD i$ USED) IS LOWER THAN A P REgEDIN6 RATIO THE ZONE IS PROBABLY NONPROOUC?IVE. FOR EXAMPLE, IF C~/C~ IS LESS THAN C~/C~ THE ZONE IS PROBABLY WET. d. THE RATIOS MAY NOT BE DEFINITIVE FOR TIGHT, LOW PERMEABILITY ZONES. ,.~--~ BAROIO ppm LOG · 3W EVALUATION REPORT COMPANY WELL LOCATION · FORMATION DEPTH PROBABLE PRODUCTION MUD ANALY~'IS HYDROCARBON RATIOS C, C, Ct C, · re.m.,.. ,~_ ,.mm-- C2 C~ C~ ' ' PLOT I PLOT DE PTH mmmmm m E THANE-- p~m C~ , PRO PANE-- ppm C BUTANE--ppm C4 .... METHANE %- i i i ,, i i i i ii ii C HLO~fD[ i ii i ii i i ,1 ii i i ORILLINO R. TE: FT/HR MIN/FT__ FROM VF-Fo, A,,' ~sr~c~-~J~A~G~ /Y~$£1', C,4LC C;~,~.-r' ,p. NEW ORDERB ,1 _ CALLED IN BY TALKED TO ,, I, TIME i ~7.~ ~ ~ AM _PM._. I USE ONLY GAS INCREASe': OVER BACKGROUND Claim C;~' M C4' ..M C5+' , M E:])c,/c~.~.~ c,/c~. 7...!.. c,/c,. ~...~ c,/c5+. ~7 I. PLOT RATIOS ON LINES INOICATED. 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED aY THE PLOTTED CURVE WITHIN THE FOLLOWINg LIMITS: o.'PRODUCTIVE DRY GAS ZONES MAY SHOW ONLY C! BUT ABNORMALLY HIGH C! ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE Ct/Ca RATIO FALLS LOW IN THE OIL SECTION AND THE Ct/C,~ RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. c. IF ANY RATIO (Ct/CT EXCEPTED IF OIL MUD IS USED) IS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY NONPRODUCTIVE. FOR EXAMPLE, IF Ct/C,~ IS LESS THAN Ct/CT THE ZONE IS PROBABLY WET. d. THE RATIOS MAY NOT BE OEFINITIVE FOR TIGHT, LOW PERMEABILITY ZONES. BAROIO ppm LOG . 3W EVALUATION REPORT MUD ANALYSIS IOO HYDROCARBON RATIOS C, C, C, C~ C~ C~ C~ C~ ' ' BACKGROUND NET ~ , , , PLOT I PLOT DEPTH ~Z~5' DEPTH ETHANE--ee~ C~ /2~ Zl~O PROPANE-- ppm C3 I~ i i i BUTANE--ppm C4 !00~ _ ] i i pENTANE*-ppmC~ ~g~ i i i i METHANE %--UNrTI-- ii i , i i ii ,,,, , , i i CHLORIOE S ~0 DRILLING RATE: FT/HR¥'- FROM ,~C) TO 39 MIN/FT _ NEW ORDERS ii i ii i i i i i CALLED IN aY , ~,~¢¢, ~,4,"r-~ TALKED TO ~--~ ~ ~~,~ AM _PM_ I USE ONLY GAS INCREASF OVER BACKGROUND Cl' M C~' M C4'~M CB+',__M Ct' M I. PLOT RATIOS ON LINES INDICATED. 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTED CURVE WITHIN THE FOLLOWING LIMITS: e.'PRODUCTIVE DRY GAS ZONES MAY SHOW ONLY C~ BUT ABNORMALLY HIGH C~ ONLY SHOW:5 ARE USUALLY iNDICATIVE OF SALT WATER. b. IF THE C~/Ct RATIO FALLS LOW IN THE OIL SECTION AND THE C~/C~ RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. c. IF ANY RATIO (C~/C~ EXCEPTED IF OIL MUD I$ USED) IS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY NONPRODUCTIVE. FOR EXAMPLE, IF C~/C,, IS LESS THAN C,/C~ THE ZONE IS PROBABLY WET. THE RATIOS MAY NOT BE OEFINITIVE FOR TIGHT~ LOW PERMEABILITY ZONES. :--. BAROID ppm LOG L .)W EVALUATION REPORT MUD ANALYS'I S CI HYDROCARBON RATIOS ..c c_.j c-- C~ C ~ i i BACKGROUNO NET ~ _ PLOt I PLOT 2 E THANE-- I)pm C! , , '/'f'-.~C) BUTANE--pl)m C4 ,, , ~,O4~( ,, /-,r~, . pENTANE.*-I)I)mC~. . '2.0,~. . . /~. / METHANE %-- U#rtl_ ,~-7 2..._7) i i i i i _TOTAL ..%--UNI?I- ... /'31 ~' i i i · -" DRILLING RATE: FT/HRX MIN/FT._ F.OU TO .., NEW ORDERB ,, i i i iii __ ii i i iii i i , i CALLEO tN BY- ,~"~,~,d,~, Z_~,-"/'~ TALKEO DATE , TIME ,. 6 ~'oo USE ONLY GAS INCREASE OVER BACKGROUND ClL ..... M CS' ,M C4'.~M CB+=,, ,M Cl? M ~.~ Ct/C~,,,~'.'7 Ct/C~' q..___~/ CdC4~!z-~ C~/C~+, ~~ I. PLOT RATIOS ON LINES INDICATE[:). ~. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTEO CURVE WITHIN THE FOLLOWING LIMITS: i i AM ....PM__ a.'PRODUCTIVE DRY GAS ZONES MAY SHOW ONLY Ci BUT ABNORMALLY HIGH Ci ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE C~/Ca RATIO FALLS LOW IN THE OIL SECTION AND THE C~/Ce RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. ¢. IF ANY RATIO (C~/Ci EXCEPTED IF OIL MUD I$ USED) IS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY NONPRODUCTIVE. FOR EXAMPLE, IF Cl/Ce IS LESS THAN C~/C~ THE ZONE IS PROBABLY WET. d. THE RATIOS MAY NOT BE DEFINITIVE FOR TIGHT, LOW PERMEABILITY ZONES. BAROIO ppm LOG EVALUATION REPORT COMPANY WELL LOCATION FORMATION DEPTH PROBABLE PRODUCTION MUD ANALYS'I S IOO HYDROCARBON RATIOS C, C, C, C~ C~ C, C~ ' BACKGROUND "NET Ii1~ ' PLOT I PLOT 2 DEPTH c~'.~, g OEPTH.,.~/~/O. 11 il i i ,, , ii PRO PANE-- ppm C s ~70 lf~ i i i ~ '., M E TH A NE % - UNfT I -- i ii i CHLORIOE S DRILLINO RATE: FT/HR_.).~ MIN/FT__ FROM, , ,~) ,., TO , ,/..P .... -' LITHOLOGY ,~S- L'dU) L~, ~,~',,, i i i ! - · ,f~ 'TcG~T i i ii mi mm i i i mm i NEW ORDERS , __ CALLED 'TALKED DA.T r. BR- 30615 USE ONLY OAS INCREA~iE OVER 9ACKGROUNO Cl' M C:~' M C4'~M CS+', M Ct' M Ct/Ct, '7,,___~ Ct/C$, 9.'7 C~/C4)/6'.? Cl/C~+'-~' !. PLOT RATIOS ON LINES iNDICATED. 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTED CURVE WITHIN THE FOLLOWING LIMITS: o.'PRODUCTIVE DRY GAS ZONES MAY SHOW ONLY C! BUT ABNORMALLY HIGH Ci ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE C~/CI RATIO FALLS LOW IN THE OIL SECTION ANO THE C~/C4 RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. ¢. IF ANY RATIO (C~/Cm EXCEPTED IF OIL MUD I$ USED) IS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY NONPRODUCTIVE. FOR EXAMPLE, IF Ct/Ce IS LESS THAN Ce/Cra THE ZONE IS PROBABLY WET. d. THE RATIOS MAY NOT 8E DEFINITIVE FOR TIGHT, LOW PERMEABILITY ZONES. /-- BAROIO ppm LOG ~..)W EVALUATION REPORT COMPANY WELL LOCATION ~ p ~..,c PLo ¢4't',_o~ FORMATION DEPTH PROBABLE PRODUCTION HYDROCARBON RATIOS c, ,,~ c~ c__, c~ C~ Cs C4 MUD ANALYS'IS IOO , , BACKGROUND NET ~ PLOT I PLOT 2 DrpTH 907S' I)rPTH METHANe- ppm CI ,, ~0000 , , ,, ,, ........ , ~, , BUTA NE--ppm C4 ~~ i i ii iiiiii i p[NTANC,-ppmC~ ~/3- i i METHANE %- UN/TB-- TOT,~C %_U.,T~ , ,, ~/~ gt~ DRILLING, RATE: FT/HR__ MIN/FT__ FROM, ~o, ~,,/.(-~. · TO .... REMARKS - ~)Ob ~A'uO~' /~_ U,F - ii NEW ORDER8- CALLED IN BY TALKED TO DATE TIME ,04 :~)0 , AM __PM._ USE ONLY 6Am INCREASE OVER BACKOROUNO Cl' M C3' M C4'.~.M CB4-' , , ,M Ct' M c,/c.. T..~ c,/c3. ,~..___~ c,/c,,/~,.? c,/c~,,:~ I. PLOT RATIOS ON LINES INDICATED. 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTED CURVE WITHIN THE FOLLOWING LIMITS: o.'PRODUCTIVE DRY GAS ZONES MAY SHOW ONLY Ci BUT ABNORMALLY HIGH CI ONLY SHOWS ARE USUALLY INOICATIVE OF SALT WATER. b. IF THE Ct/Ct RATIO FALLS LOW IN THE OIL SECTION AND THE C~/C~ RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. c. IF ANY RATIO (C~/Ce EXCEPTED IF OIL MUD IS USED) IS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY NONPROOUCTIVE. FOR EXAMPLE, IF Ct/Ce IS LESS THAN Ct/Ca THE ZONE IS PROBABLY WET. d. THE RATIOS MAY NOT BE DEFINITIVE FOR TIGHT, LOW PERMEABILITY ZONES. YW EVALUATION ~:~EPORT ,~, COMPANY WELL ..... ..f'~, ,,~r'/..-~ b//<'., "7~:/, LOCATION .K/J/'),4' ....~ ~,/4'., FORMATION .... DEPTH ~.~ ~ ~' -- <~7° ", PROBABLE PRODUCTION . 0/~ , MUD ANALYSIS ~oo HYDROCARBON RATIOS C, C, C, CI C2 Cs C 4 BACKGROUND NET PLOT I PLOT 2 DEPTH ,Y'~,,~-I DEPTH_ ~'~ ?'~ METHANE %- , ., ~ , ~ .. r' CHLORIDE S ~0~ fido m mmm m . m Z -' DRILLINO RATE', FT/HR)( MIN/FT__ ~-- USE ONLY OAS INCREASE OVER BACKGROUND / C/ - At..50 NEW ORDERS Cl" 67~ M Ct/C~ ~.1 c~/c~. ~.~ CUC4./3.~ c~/c~+. ~l..~ PLOT RATIOS ON LINES INDICATED. EVALUATE SECTION FOR PROBABLE PRODUCTION </~ ¢'~ AS INDICATED BY THE PLOTTED CURVE WITHIN C~/cj~ THE FOLLOWING LIMITS: ~¢~ ~ a.'PRODUCTIVE DRY GAS ZONES MAY SHOW_ ONLY C~ BUT ABNORMALLY HIGH C~ ONLY~.~' ~ SHOWS ARE USUALLY iNDICATIVE OF SALT WATER. b. IF THE C,/Ct RATIO FALLS LOW IN THE OIL SECTION AND THE C~/C~RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. c. [F ANY RATIO (C¢/C~ EXCEPTED IF OIL MUD IS USED) tS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY HONPRODUCTIFE. FOR EXAMPLE, IF Ct/C4 IS LESS THAN C~/C~ THE ZONE IS PRO~ADLY d. THE RATIOS MAY NOT aE OEFINITIVE FO~ 71GHT, LOW PERMEABILITY ZONES. .--. ~,AROtD ~pt'a LOG $, .W EVALUATION REPORT MUD ANALYSIS IOO HYDROCARBON C, C~ RATIOS C, C, C, C5, ' BACKGROUND NET i PLOT I PLOT DEPTH 1~9o ~EPTH ,, ,, , i ~ , l, i , METHANE- ppm , , ~rH~N[--~ C~ /310 /~0 PROP~NE--,pm C} / ~gO / 770 iii i ii i PEN~ANE*-ppmC~ , METHANE %--UNtTS-- i i ,,. , . CHLORIO[ "' DRILLING R.~TE: FT/HR.~.~ MIN/FT__ FROM '~Z ..... TO , 5-7 RE M AR K S ,/_o~ V/-Sc~z- [ i i i i i i , r CALLED tN BY TALKED TO D~'r ~._'~'/' ~/,, T t M E 7,''°° ... AM _P~,_Z.. P~ I USE ONLY GAS INCREASE OVER BACKGROUND Cl~, ,M C:s' M C4' ,M CB+= M C~ , M /°~or~CllC~, I/,o. Ct/C$./o.~ C~/C4./~.~ Cl/C~+" ,~'-~ I. PLOT RATIOS ON LINES INDICATED. 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATEO BY THE PLOTTED CURVE WITHIN THE FOLLOWING LIMITS: o.'PRODUCTIVE DRY GAS ZONES MAY SHOW ONLY C~ BUT ABNORMALLY HIGH C~ ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE C~/Ca RATIO FALLS LOW IN THE OIL SECTION ANO THE C~/C, RATIO FALLS HIGH IN THE GAS SECTION THE ZONE PROBABLY NONPRODUCTIVE. c. IF ANY RATIO (C,/C~ EXCEPTED IF OIL MUD IS USED) IS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY NONPRODUCTIVE. FOR EXAMPLE, IF C~/C, IS LESS THAN C¢/C, THE ZONE IS PROBABLY d. THE RATIOS MAY NOT BE DEFINITIVE FOR T~GHT, LOW PERMEABILITY ZONES. COMPANY WELL LOCATION FORMATION , , ZelS"" DEPTH _ , PROBABLE PROOUCTION MUD ANALYglS IOO (~uO GA5-- ~Ja~- :5--C~A~. Er~,...,-."~ HYDROCARBON RATIOS C, C, C~ C~ C~ C3 C, CB, , PLOT I PLOT 2 · DEPTH ~clJ:S" DEPTH. . METHANE- I~pm cf ~1~0 ~38o ETHANE-- ~p* Cl /hZ 167 , , ,.., , , ,. BUTANE--ppm C~ .~ life _ , ,, METHANE %-- , , , , - TOTAL ,, ~ , ,, , CHLORIOES i , 11 "DRILLING RATE: FT/HR,,~ MIN/FTm FROM /5' · TO l~ ('^c.~-u~u.v />,~ ) ' ' ' ~o~ ~AN~ NEW ... ORDERS - "T'HI5 Zo~,~ ,q-F'PF_..A*Fa ~ r"/ 'To TALKED TO T ME USE ONLY GA8 INCREASE OVER BACKGROUND Clt M C;~' M C4= M Cl~+= M C~' M C~/C~,~ . C~/C$'..___. C~/C4; Cl/C~+'._.__ I. PLOT RATIOS ON LINES INDICATED. 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTED CURVE WITHIN THE FOLLOWING LIMITS: 0.'PRODUCTIVE DRY GAS ZONES MAY SHOW ONLY Cf BUT ABNORMALLY HIGH C~ ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE C~/Ca RATIO FALLS LOW IN THE OIL SECTION AND THE C~/C~ RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. c. IF ANY RATIO (C~/C; EXCEPTED IF OIL MUD IS USED) IS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY NONPROOUCl'IYE. FOR EXAMPLE, IF C~/C~ IS LESS THAN C~/Ca THE ZONE IS PROBA~J LY WET. d. THE RATIOS MAY NOT BE OEFINITIVE FOFi T~GHT, LOW PERMEABILITY ZONES. 3~OiO ppm LOG EVALUATION REPORT COMPANY WELL ,, F~MATION ~PTH MUD ANALYg'IS HYD CARBON RATIOS C, C, C~ C, C~ Cs C 4 Cs, ....... i i ii i iiii i i PLOT I PLOT ~[THANE-p~m CI , ~ ~ ~ .... " i . ,, PROPANE--p~. C~ ' ,,,, · i ,, , il METHANE %- Il, '1 ' '" I "I I I I , T o T t L %_um,~ _ , , , , ,, CHLOBIOES i iii ,, i i "" DRII. LINO RATE: FT/HR-~ MIN/FT__ FROM,, t0 , TO I ~- NEW ORDERS_ CALLED AM __.PM X/- USE ONLY GAS INCREASE OVER BACKGROUND CI~._.._.._.M C~" M C4=~M CB+= C~' , , M Ct/C~. Ci/C$,...__. Ci/C~,.___ Ci/C~+"_ I. PLOT RATIOS ON LINES INDICATED. 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTED CURVE WITHIN THE FOLLOWING LIMITS: o.'PRODUCTIVE DRY GAS ZONES MAY SHOW ONLY Ci BUT ABNORMALLY HIGH C; ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE C~/Ca RATIO FALLS LOW IN THE OIL SECTION AND THE C~/C~ RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. c. IF ANY RATIO (C~/C~ EXCEPTED IF OIL MUD IS USED) IS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY NONPRODUCTIVE. FOR EXAMPLE, IF C~/C~ IS LESS THAN C~/Cs THE ZONE IS PROBABLY d. THE RATIOS MAY NOT BE DEFINITIVE FOR TIGHT, LOW PERMEABILITY ZONES. EVALUATION REPORT WELL LOCATION FORMATION DEPTH "~' *~'~-~ -- PROBABLE PRODUCTION MUD ANALYSI9 IOO HYDROCARBON RATIOS Cl C, C, Ct C~ C~ C,~ Ca, i BACKGROUND NET PLOT I PLOT 2 DEPTH ~7P', i METH~.E-,,. ct 7/~ , 7~,-~~ ~, ~ ~ ,. , ,,,, , .. ~ ~ ~ , ,.. METHAN[ %- , , , i i , , . . TOT AL %_urn,a_ .,, . .... , . CHLORIDES DRILLINO RaTE: FT/HR)(' MIN/FT__ F.o , ,,, TO NEW ORDERS ,, , USE ONLY GAS INCREASE OVER BACKGROUND ClL _M C3' M C4= M Cl~+~ M C~' M Ct/C~' , C~/C$..____ Ci/C4: , Ct/C~+'_.___ I. PLOT RATIOS ON LINES INDICATED. 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTED CURVE WITHIN THE FOLLOWING LIMITS: o.'PRODUCTIVE DRY GAS ZONES MAY SHOW ONLY Ci BUT ABNORMALLY HIGH Ci ONLY .. SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE Ci/Ct RATIO FALLS LOW IN THE OIL SECTION AND THE C~/C, RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. c. ;F ANY RATIO (C,/Cl EXCEPTED IF OIL MUD IS USED) IS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY NONPRODUCTI¥£. FOR EXAMPLE, IF C~/C, IS LESS THAN C~/C~ THE ZONE IS .. PROBABLY WET: d. THE RATIOS MAY NOT BE OEFINITIVE FOR TI~NT, LOW PERMEABILITY ZONES. B0'690028. tO4 6/90 $H~w. EVALUATION REC.,RD o~ ~ /~ /'~ / w~ ~~,z ~ / " I~ ~ . / /u~.Oco~t ' s.ows DEPTH /, . ': ~ ¢~ . '"" ' SEE COLOR CHART PE~M~T~ ff / - /Z WELL I AOGCC GEOLOGICAL MATERIALS INVENTORY LIST is received ~, ' ~ ~.~, t..t. ! core desr, pt, on I.~ ~red inie~als ~re anal~is, d~ ditch inte~als digital data i I , I i LOG TYi3E RUN INTERVALS SCALE NO. i i 21 ~, ,, .R" .... , (r~,,,~ ~ 8) ,, (~)/ ~ ~,, ~ (~~y) ~ , ,. ~l ~,.~/,2 / ~/,_ ~~' ~" ~ s], ~~/~r ~/~r/~F~ 1-2 ~ ~//'- //~ ~/ - ~" v ~",, ,, 1~] , , '1 L EXPLORATION (ALASKA)I! P.O. BOX 6612 ANCHORAGE, ALASKA 99502-0612 ANCHORAGE OFFICE: 900 EAST BENSON BLVD. · ANCHORAGE, ALASKA 99502-0612 · (907) 561-5111 / / The following material is being transmitted herewith. Please acknowledge receipt by signing below and returning a copy of this letter: RECEIVED Received by: AK 2233-2 (3/89) Date Received: MAy ~ ! 1.99! Anchorage April 26~ 1991 BP EXPLORATION (AL. ASKA) 1310 West 5 6th Ave'hue Anchorage, Alasl<a 99518 Attn: CORE STORE Mr, I.., C, Smith A 1 a s !< a 0 i 1 & G a s C o 'n s e r v ~'***~ .i... :i. o n C o 'mm i s s :i. o *n 3001 PorCUtl.)i*ne Dr, A'nchora~:.~e, AK 99501..-.1433 TI"IIE F:'OI...I_C:IW :1: NG MA'T'IE R :1: Al... :1: ii:; .B['E :1: NG SU BM :I:'T'TFZ D I"IE l;~r_.EW ]: 'T'H , F>I...E:ASE: AC I(NOI. JI...IE DGIE R IE CIE :1: F:' "f' B Y S :[ G N :1: N G A C O t-'-' Y 0 F:' 'i' I"1:1: S I... liE'T' T Iii: R A N I] R tii:"f' lJ R N :1: N G :1: '1" 'i" O T I"1:1: .S O F:' F:' I C: Ii:': F:' :i. f' .1:. e e n I.') o x e s o -r" t] r y Ctt .I:..I-_ i n g s s a m I::' :l e s '1:~ r o m t,~ e :1. :1. M a :1..g t.t k :11:1, ]" h e s e '..i.~ .;:.'~ zl', I:.' :1. e s a 'r e ,:: o 'n s :i. (:1 e r e (:1 C 0 N F:' :I: I] E: N T :1: A I .... ^ / //?)x-I Se'hr I:)y: I~ ec e :i. ve(:l: D a t e t e TO: THRU: FROM: MEMORANDUM State of Alaska ALASKA OIL AND GAS CONSERVATION COMMISSION Lonnie C. Smit~. Commissioner DATE: Apr il 25, 1991 FILE NO: HH425 - 2 TELEPHONE NO: Harold R. Hawkins Petroleum Engineer SUBJECT: Plug & Abandonment BPX Malguk No.1 Permit No. 91-16 ADL 373006 Sec 28 T4N,R9E,UM Exploratory Tuesday April~ 16, !991: I left Anchorage at 9:00 a.m. by Mark Air to Prudhoe arriving at 10:30 a.m. I went to BPX Malguk No. 1 to witness plug and abandonment operations. I arrived at Malguk No. 1 at 2:30 p.m. At 3:45 p.m., the first attempt to tag was in green cement. At 8:35 p.m., another attempt was made and the top of the bottom plug was tagged at 8860 with 20,000 lbs of weight. This was a 660' plug down to 9400'. ~edne~.dav~ April 17~9~: The second open hole plug was 490' from 5050' up to 4560'. This cement plug was tagged at 4560' with 20,000 lbs at 10:00 a.m. Retainer was set at 2870' 60.7' above and inside 13 3/8 casing with 25,000 lbs of weight, time 5:30 p.m. 36 bbls cement squeezed below retainer and 9 bbls laid on top of retainer. Pressure tested, would not build-up pressure indicating a hole in 13 3/8 above cement. Thursday April 18, t~91: At 11:45 a.m., a RTTS packer was run into 13 3/8 casing to find leaks. RTTS ran to 950' and pressured up to 1200 PSI. This tested retainer integrity set at 2870' o.k. with several settings and pressuring up the leak in the 13 3/8 casing was between 608' at top and 658' at bottom. A split in 13 3/8 casing almost the full length. A cement basket was run in below split in 13 3/8 casing and another retainer was set inside 13 3/8 at 550'. Cement 15.7 arctic set was squeezed through retainer at 500 PSI with an injection rate of 2.2 bbls min until there was a 200 PSI build-up to 700 PSI. Six bbls of 15.7 arctic set was laid on top of retainer a 60' plug. Time was 8:30 p.m I did not witness surface plug of 150'. BPX had all well data for marker post o.k. 20" conductor and 13 3/8 will be cut off at mud line below tundra. 02-00lA (Rev. 6/89) 20/ll/MEMO1.PM3 Plug & Abandonm BPX Malguk No, _. Page 2 Fridav ADril___.!~ ....... !~.9.!: I left BPX Malguk No. 1 at 4:30 a.m. back to Prudhoe. In summary: The plug and abandonment I witnessed, was performed satisfactorily on BPX Malguk no. 1. Location clearance will have to be performed later this summer when ice and snow is gone. Attachment, OPeratO~i ~P.X STATE : F ALAS~\ OIL & GAS CCLSERVATION CO~.:Mi Plug & Abandor~nen% Report Company Repr .)~O~ /~//}~b',q ,4/'/) O'Ol'/t'/J't~AFt6 Drilling Permit Lease No.~DA ~73o~ Well No Total DepthT;~//2~3' Elevation Cas ing: Sec. T-R Mud Wt. Drive Pipe. ,. /7~,/'~ Conductor ~ ~ r( "0. D. @ Intermediate //g~,A~- "0. D. @ .. Plugging Data: 1. ~'0 D Set at ( Ft. w/ Ft. Surface Pene. / 3~ ,"O'D' @ ~?7Y Ft. Ft. Production~/D~"O.D. @ ~ Ft. O en hole 2. Open hole isolation plug: 3. Perforation plugs (if any): . ., e · ~n,~u~ ~ (if any) Casing ~ plugs-:~/~. Casing removal: , '~'d/"~ "casing cut at ------ ' "casing cut at ~ ' , · · fl £ rA / ,VFK po f BP EXPLORATION BP Exploration (Alaska) Inc. 900 East Benson Boulevard RO, Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 Thursday, April 18, 1991 Mr Lonnie Smith AOGCC Anchorage Alaska Dear Sir: Please find attached form 10-403 and an accompanying procedure for the abandonment of our exploration well, Malguk #1. This procedure was discussed with Mr Mike Minder on 4/16/91 and verbally approved by him on 4/17/91. The abandonment is in progress, with operations being witnessed by Mr Harold Hawkins of your office. If there are any questions, please call me at 564-4441. Yours Truly, / C.R. Maskell Senior Drilling Engineer. STATE OFALASKA ! , f /: ALASr~A OIL AND GAS CONSERVATION COMMISSI~,I APPLICATION FOR SUNDRY APPROVALS 1. Type of Request: Abandon X Suspend__ Operation Shutdown__ Re-enter suspended well__ Alter casing __ Repair well __ Plugging __ Time extension __ Stimulate __ Change approved program __ Pull tubing __ Variance __ Perforate__ Other__ 2. Name of Operator 5. Type of Well: 6. Datum elevation (DF or KB) BP Exploration Development__ KBE = 338' AMSL feet Exploratory X 3. Address Stratigraphic-- 7. Unit or Property name P. 0. Box 196612, Anchorage, Alaska 99519-6612 Service ~ Kuparuk Uplands 4. Location of well at surface 8. Well number 3710' FNL, 556' FEL, SEC. 28, T4N,, R9E At top of productive interval 4040' FNL, 584' FEL, SEC. 28, T4N, RgE At effective depth At total depth 4228' FNL, 719' FEL, SEC. 28, T4N, R9E Malguk #1 9. Permit number 91-16 10. APl number 50- 223-20019 11. Field/Pool Wildcat 12. Present well condition summary Total depth: measured true vertical Effective depth: measured true vertical Casing Length Structural Conductor Surface 2948' Intermediate Production Liner Perforation depth: measured n/a true vertical n?a Tubing (size, grade, and measured depth) n/a Packers and SSSV (type and measured depth) n/a 11375' feet Plugs (measured) 9400'-8700' (330 sx ) 5050'-4500' (290 sx ) 11296' feet bkb 3180'-2830' (315 sx ) n/a feet Junk (measured) feet Size Cemented Measured depth 13-3/8" 2700 sx 2979' 190'-40' (135 sx) True vertical depth 2979' RECEIVED ~t;as,~a 0ii .& Gas Cons,. C0mmiss[Ol'~ · 13. Attachments Description summary of proposal x Detailed operations program __ BOP sketch 14. Estimated date for commencing operation Apri116, 1991 16. If proposal was verbally approved Name of approver M. Minder 4-16-91 Date approved 15. Status of well classification as: Oil Gas Suspended x Service 17. I hereby ce,~-~hat the fore~ing is true and correct to the best of my knowledge. Signed ~~,¢¢~,,/~,2~_~~''',x/- /- TitleSeniorDrillingEngineer FOR COMMISSION USE ONLY Date 4-18-91 Conditions of approval: No~f~Commission so representative may witness Plug integrity ~ BOP Test Location clearance ~ Mechanical Integrity Test Subsequent form required~u.- Approved by order of the Commission ~nnrrtvRd CODY Form 10-403 Rev 06/15/88 ~ Commissioner ORIGINAL SIGNED BY LONNIE C. SMITH SUBMIT IN TRIPLICATE TO: THRU: FROM: MEMORANDUM State of Alaska ALASKA OIL~_.AND GAS CONSERVATION COMMISSION Commissioner~ FILE NO: DA418- 2 TELEPHONE NO: DOUg Amo~. ~; ~- Petroleum Engineer SUBJECT: BOPE Test BPX Malguk #1 Permit No. 91-16 Exploratory Sec 28,T4N,R9E,UM Tuesday ADril~.9,~ 199~' I travelled this date from Anchorage to Prudhoe Bay and on to BPX Malguk #1 exploratory well to stand by for the BOPE test on Nabors Rig 1SE. Due to a dog leg at 4000', which caused tight hole problems, the testing was delayed untiI 9/13/91. SatUrday Apritrl.3, .199~: I travelled this date from BPX P- pad back to Malguk #1. The testing commenced at 4:30 p.m. and was concluded at 7:30 p.m. As the attached AOGCC BOPE inspection report indicates, there were three failures, two of which were corrected this date. The cellar gas detector is on order and should be on location 4/16/91. In summary: I witnessed the BOPE test at BPX Malguk #1 exploratory well on Nabors 1SE. Two of the three failures were corrected and retested during this test. The third failure, the cellar gas detector, was ordered and should be in place 4/16/91. Attachement. 02~00lA (Rev. 6/89) 20/11/MEMO1.PM3 STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION BOPE Inspection Report DATE OPERATION: Operator Drl g ~ Wkvr Well Location: Sec Drlg contrctr Location (general) Housekeeping (general) Reserve pit ~i'~., Well sign Rig MUD SYSTEMS: Visual Audio Trip tank ~" I ~': Pit gauge / I Flow monitor / I ~ Gas detectors /~o~ ~ ! ~ BOPE STACK: ?/~ Test Pressure Annular preventer Pipe rams ~V" Blind rams Choke line valves HCR valve.: Ki'll line valves Check valve 0 TEST: lnitial~ Weekly. ~ Other Representative ~, ~/~'~ ~ Permit # ~/ ACCUMULATOR SYSTEM ft Full charge pressure ~10~ psig Press after closure /; ~9~ psig Pump incr clos press 200 psig min ~ sec Full charge press attained ~ min ~ sec Controls: Master Remote ',~ B1 i nd switch cover /~'~ KELLY AND FLOOR SAFETY VALVES: Upper Kelly Lower Kelly Ball type Inside BOP ~" Choke manifold '~'"l Number valves Number flanges Test pressure Test pressure Test pressure Test pressure Test pressure Adjustable chokes Hydr.aulically operated choke TEST RESULTS: Failures ~ Test time ~ hrs Repair or replacement of failed equipment to be made within ~ days. Notify the Inspector, and follow with written/FAXed verification to Commission office. Distribution: orig - AOGCC c - Operator c - Supervisor . C.004 (rev 05/10/90) To: From: Rig 18E Supervisor Drilling Superintendent Date: 4/15/91 RECEIVED Subject: Abandonment- MAL(~UK #1 APR 1 6 1991 Alaska 011 & Gas Cons. Commission Anchorage Following is a procedure for the abandonment of MALGUK #1. Contact Mr. Mike Minder AOGCC (279-1433) for approval of the program and also witnessing setting the plugs or tagging the plugs. Mike Minder (AOGCC) gave verbal approval of the following program. Make any changes to the program you think are necessary, this is only a guide. Dowell has been contacted concerning the cement. The engineer is Dick Maskell (345-3518). SCOPE: Lay 2 neat class "G" cement plugs in the open hole. Leave 10.3 ppg mud in the hole between plugs. Inject waste mud and spot a Class G plug across the 13-3/8" shoe through a retainer. Lay a 150' plug at the surface with Arcticset I cement. Remove the wellhead and install a dry hole marker FIRST PLUG: 1. Run 24 joints (740') of 3-1/2" open ended (mule shoe?) drill pipe to 9400', a 5" plug catcher and 5" ddll pipe to surface. 2. Pump 20 barrels of water ahead. 3. Pump 380 cu ft. (330 sx.)* of neat class "G" cement (9400-8700). 15.8 ppg; 1.16 cu ft/sx; 5.03 gal water/sx; 3 hrs thickening time* *NOTE: volumes calculated using 10" average hole size. *NOTE: Add D-133 retarder as required for thickening time based on 230°F BHST (185 deg BHCT) 4. Drop plug. Pump 5 barrels of water (ratio: outside/inside = 4:1). 5. Displace plug to catcher, bump plug. Shear plug and slowly POH. ESTIMA TED CEMENT TOP=8700' (may be as high as 8450' if gauge hole). TAG PLUG IF REQUIRED BY AOGCC (top must be no deeper than 8800'). SECOND PLUG: 6. Run 19 joints (575') of 3-1/2" drill pipe, plug catcher, and 5" drill pipe to 5050'. 7. Pump 20 bbls water ahead. 8. Pump 330 cuft (290 sx) of neat class "G" cement as above (5050-4500). Add retarder to give 3hr TT based on 160 deg F BHST (110 deg BHCT) *assumed 10 1/2" hole. 9. Drop plug. Pump 4 bbls of water (ratio: outside/inside = 5:1) 10. Displace to catcher, bump plug, shear plug. POH. ESTIMA TED CEMENT TOP=4500' (may be as high as 4200' if gauge hole). AOGCC WILL REQUIRE THAT THIS PLUG BE TAGGED OR PRESSURE TESTED. (top must be no deeper than 4600') THIRD PLUG: (across shoe) 16. RIH with a 13 3/8" retainer on 5" drillpipe and set at 2880'. Wait on cement at least 4 hours for the second plug to set. 17. Inject all waste mud. 18. Pump 250 cu ft (270 sx) of Class G cement through the retainer. Unsting, and dump 50 cu ft (45sx) of cement on top of the retainer. FOURTH PLUG: 19. POH without filling to leave the top 160' of 13 3/8" casing empty. Push a 13-3/8" cement wiper plug to 160'. Fill top 150' with Arcticset I cement (125 cu ft = 135 sx). Cement top must be within 5' of ground level and extend to 150' below ground level. SURFACE: 20 Remove the wellhead. 21. Install a dry hole marker: 4" diameter post (minimum), 10' long, welded to plate that is to be welded across top of surface casing, extending 4'- 6' above ground level, weld top closed. Weld the following information to the post: BP Exploration MALGUK #1 ADL 373006 3710' FNL, 556'FWL, Sec. 28, T4N, R9E.UM RECEIVED APR 1 6 ~g9t Alaska 011 & Gas Cons. Commission Anchorage TO: THRU: FROM: MEMORANUUM Sta e of Alaska ALASKA OIL AND GASCONSERVATION COMMISSION / Lonnle C Stol ?- DATE: April 11 1991 , ' Commissioner FILE NO: DA411 - 1 Doug Amos~~ Petroleum Inspector TELEPHONE NO: SUBJECT: BOPE Walk-Thru Insp BPX Malguk #1 Permit No. 91-16 Exploratory Sec 28,T4N,$9E,UM ~0 -~ ~ednesdav. March ~ ~ 199!: I travelled this date from AAI's KRU to BPX Malguk #1 Wildcat well to conduct a BOPE Walk- Thru inspection on Nabor's Rig 1SE. The initial BOPE test was waived due to inspector unavailability. I found two non-compliance items during this inspection. The fire shields for the BOPE control lines and two 90© ella's in the vent/flare line downstream of the choke manifold. I was contacted on 3/22/91 by Bill Bixby. Nabors Rig 1SE rep., and informed that both items were corrected. While on location, I talked with John Salario, BPX rep., and requested that I be notified before the next BOPE test so that I could witness the test. I was contaced but the test had been performed. An AOGCC BOPE Walk-thru inspection report is attached. In summary: I conducted a BOPE walk-thru inspection on Nabors Rig 1SE at BPX Malguk #1 Wildcat well. I found two non-compliance items which were corrected as per phone contact with Bill Bixby, Nabor's rep. I was contacted after the weekly BOPE test was performed and as a result, was unable to witness the test. A copy of the initial BOPE test dated 3/17/91 is attached. Attachment. 02-00lA (Rev. 6/89) 20/ll/MEMOi. PM3 OPERATION: Drlg , ,~"'~ Wkvr Operator j~y~DX Location: Sec %~ T ~ ~J Drlg contr ~~ ~ Location (gen'l) ~~ STATE OF ALASKA ALASKA 01L AND GAS CONSERVAT I ON COMMI SS I Oh BOPE Walk-Thru Inspection Report UIC DATE: /~, ~C/~ ~0, J Permit # R/'/ ~ mm m RePresentatilve ~//~/¥/q ~ ~/O Rig~ /~ Representative ~/~ ~/~~ Well ~gn~~ ~~ ~~ I N COMPL I ANC~ yes no n/a A. DIVERTER 1. ( ) (--~ ~ line sz & length 2.() 4.() s.() 6.() 7.() ( ) (b~ line conn& anchored ( ) (b~~ bifurcated & dwn wind ( ) (~ 90° targeted turns ( ) (~ vlvs: auto & simultaneous ( ) (~' annular pack-off ( ) (~'"'condition B. BOP STACK ( ) wellhead flg wkg press ( ) stack wkg press ( ) annular preventer ( ) pipe rams ( ) blind rams ( ) stack anchored IN COMPLIANCn~a ),es n~o ~ 11. (~)~ ( ) ( ) firewal] 12. (b)~..() ( ) nitrogen power source (back-up) 13. (~'() ( ) condition (leaks, hoses, etc) D. MUD SYSTEM 1. (v~ ( ) ( ) pit level floats installed 2. (v~I' ( ) ( ) flow rate sensors 3. (vK ( ) ( ) mud gas separator 4. (,~)/ ( ) ( ) degasser 5. (~ .... .( ) ( ) separator bypass 6. ('k~v~'~' ( ) ( ) gas sensor 7. (~)~'~ ( ) ( ) chke In conn 8. (\~)~'~ ( ) ( ) trip tank E. RIG FLOOR ( ) chke/kill line sz 1. (~ ( ) ( ) kelly cocks (upper,lower,IBOP) ( ) 90° turns targeted (chke & kill ln) 2. (~ ( ) ( ) floor vlvs (dart vlv, ball vlv) ( ) HCR vlvs (chke & kill) 3. (~'~() ( ) kelly & floor vlv wrenches 4. (~ ( ) ( ) driller's console (flow monitor, 10. (~' ( ) ( ) manual vlvs (chke & kill) 11. (~l~" ( ) ( ) connections (flgd, whd, cl~.~m~_~) 12. (~.i~() ( ) afl spool 13. (~ ( ) ( ) flow nlpple 14. (~ ( ) ( ) flow monitor 15. ( ) (~)~ ( ) control lines fire protected 1.(~ () 2. () 3.(~-() () s.(W/' () C. CLOSING UNITS ( ) wkg press ( ) fluid level ( ) oprtg press ( ) press gauges ( ) sufficient vlvs 6. (p-~'~ ( ) ( ) regulator bypass 7. (~)~ ( ) ( ) 4-way vlvs (actuators) 8. (~)/ ( ) ( ) blind handle cover 9. ((~ ( ) ()driller control panel 10. ( ) ( ) remote control panel RECORDS flow rate indicator, pit level indicators, gauges) 5. (~"~() ( ) kill sheet up-to-date 6. (~J~"'~() ( ) gas ~etection monitors " (HS & methane) 7. ('~ _~.-) ( ) hydr chke panel 8. (!~'( ) ( ) chke manifold F. MISC EQUIPMENT 1. (~. ( ) ( ) flare line 2. ( (') ( ) vent line 3. ( ) (1~() 90° turns targeted ~F ~ ~~~-)~- (dwn strm choke lns) ~-.~. (~r~-. ( ) ~. (~. ( ) y.( () 8. (~l" ( ) ( ) reserve pit tankage ( ) personnel protective equip avail ( ) all drl site suprvs trained for procedures ( ) H2S probes ( ) rig housekeeping Date of last BOP inspection: , Date of last BOP test: Resulting failures: Failures not corrected & why: ~. Date~corrections will be completed:.. BOP. test & results p?perly entered on daily record? d~'~ ~ ~~'~'~::-:?~:'::7~'~E?7?:'~'~:7:~?''''r~'~'~'~'~ '?'' MANUFACTURER AND TYPE, SIzE OF R~M~,"~T~;" '. ":.}"/2.}: '::;E ?' ' . TEST.E~T.~E,~ ........... ................. ' ...... - ~ ........... ~' .:..'.~.:'t~:~:?~.~:~:~:.:..~'??.:~~E~, ..... I~ ~/~ - _ ~ ~ ?/~.?~:.7"~.??:"::.:..'~"...~'.~. ' ACCUMULATOR - . -"';:' "~:!"!?i!'-i i.:.: ,'.. i?"i:;.,: i :"TEST.: TEST & PUMPS ACC,.UMU. LATOR ONLY. ' · '.:.".':'~-'~;ii"t~N,I,~:~i;.".-. i,'.*'""' 'PRES,SURE ' TIME CLOSING 'CLOSING ........... RECHARGE * ' · '""" '" ' :: ':'; ~ '""*:'~'~ ':" ':"" '"': TIME TIME TIME ,~"'0~i~?-.:':i~./~.._s.~,..o: ........... ,~ ~ · "" : i:'t' ...... """ ?'"~'.... ' ' " ....... '..' ..... .ii ~ . Ii " ° ' ' ' '" ~AM~ :-~7!. :,,~;~'? ~:~ ,,~ ........... ~' ":"' . BLIND, : . :~,;?771 ...... : ........ . ........... · .. ;.,,..., :,.... .,... /%. .. -- '.... '.it;".i ;' ' ~,~ ~A~..';.~..:_ .... .':'.: :.'" ~~.'~' ~,~-,x ..... .'::: ':'"'-~ : .......... . , .' .~(..,, : "" . ::.P~?~,'~M:;~;.7:;7-:::'-;"" .,--:~_7 .... ~,~ "': ) · '" "::':.. ................. CHOKE MANII~::' 7 ...... ~,,~. "?' ' ' · ............ R~ ( TEST TOOL: [~LUG, E3CUP, E3PACKER @ ' KELLY.COCK ,_~/ '~~. ') CAS~NG TESTED: ., FT.'TO' : ' PS~. ":"KE[Uy.. V.'.~LW~'~i-:':~ ...... .'&m (-~~ .... ~ ^CCUUUL^TOR RECHARGE: :~X.~'. ' "." PS~ BEF?E TEST, ~' '2.. L:: .... '.,"Z.Z..Z.: ........ "KELL..~-.H. OS.E ..,!g-...'' . : 7 sTA~N'D:"pip E?~i~?~;~ 'i:~ ................. ~;~i~~~,.-:." :'":~::7~"-" ........ :""'/ ;~v~ 1,0 ~;,~¢ MIN. RECH~RG.P~,~IME, BOP DRILL ' ~ .,SEC, ' ' '".::.'!!~'.' ' ' TRIp DRILL SEC. ' .... ,' NITROGEN PRECHARGE: 1.~/..0,-----2~ ~ '3. ~ 4. , ~. 6. 7, ....... g.,, ~, .. 1~...~. ' ' 2.. ..... ~. ~. ... .~ .~: ... QUIPMENT: CHECKLIST' ......................... ~ YES NO ~-'CIRCOi~.' TIN~3"HEAQ~ ON"'Fi~OOR .................... :" iNsIDE.' BO',PTON"Ff*OOR & SUBS"· ......... "K ELL¥:.'VAL~ESON"FLOO R &'S~JBS ..... ';"SPARE'KEf'LY"~ALVE" i: ' . PVT:SYSTEM OPERATING ........... L~" .... FLOW 'SENSOR'OPERATING 'STROKE COUNTER. oPERATING L~ , · TRIP 'TANK .............. ~, LOCKING SCRE. WS ON BOP & 'ALL vALvES ' · / OPE. RATE E..A.~..~ .I,..Y. · L,,/ 'REMOTE STATION OPERATING ' ~ " BOP' HANDWHEELS AVAILABLE "' y~ "GAS'SNIFFER OPERATING .......... ,,~ BARITE ON HAND , ,//,--~ ~ . .. SACKS ::'.; ,'::":',i.' GEL ON HAND //~Z~'~' ..SACKS ":"·: WATER ON HAND ~:~)::>'~ .... .. ~B.L. SURFACE MUD VOLUME ~ BBL ' HYDRAULIC OIL ON HAND ~=~ DRUMS NITROGEN BACKUP SYS. ~ NO, OF BOTTLES HOOKED UP, AT o~~ PSI NITROGEN PRESSURE. MA~FUNCTI, QNS & COMMENTS {ITEMIZE. ALL LEAKS, MALFUNCTIONS, MISSING EQUIPMENT, ETC,, AND ACTION TAKEN.) SUPERVISOR: TO BE COMPLETED AND PUT ON FILE FOR EACH BOP TEST. AK 228~2 (3~88) ALASKA OIL AND GAS CONSERVATION COMMISSION March 8, 1991 WALTER J, HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 276-7542 C. R. Maskell Senior Drilling Engineer BP Exploration (Alaska), Inc. P. O. Box 196612 Anchorage, Alaska 99519-6612 Re: Kuparuk Uplands Malguk #1 BP Exploration Permit No. 91-16 Revised Sur. Loc. 3710'FNL, 556'FEL, Sec. 28, T4N, R9E, UM Btmhole Loc 4310'FNL, 537'FEL, Sec. 28, T4N, R9E, UM. Dear Mr. Maskeil: Enclosed is t.he approved revised application for permit to drill the above referenced well. The provisions of the cover letter dated February 15, 1991, accompanying the original approved permit are in effect for this revision. Sincerely, ~w--~-~, ~?:si~ W~? Johnst~s, cCoh:siS~:a~ion Commission dlf Enclosures CC: Department of Fish & Game, Habitat Section w/o encl. Department of Environmental Conservation w/o encl. BP EXPLORATION Tuesday, March 5, 1991 AOGCC Anchorage Alaska Att'n' Mr Bob Orandell BP Exploration (Alaska) Inc. 900 East Benson Boulevard RO. Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 Dear Sir: Please find enclosed revised copies of the surVeyors plat and Permit to Drill for our upcoming exploration well, Malguk #1. Unsuitable terrain prevented us from building an ice pad at the previously submitted surface location. The new location is approx 600' North of the previous site. As a result of this change to the surface location, the well will now be intentionally deviated to target the bottomhole location which is unchanged. As such, we enclose copies of the proposed directional profile for the well. If there are any questions on this matter, please call me at 564-4441. Yours Truly, C.R. Maskell Senior Drilling Engineer RECEIVED MAR - ? ]99! Alaska 0il & Gas Cons. uommission Anchorage STATE OF ALASKA ,~~ ~.~-~-~, ~f"~ J~ ~ ALASKA OIL AND GAS CONSERVATION COMMISSION PERMIT TO DRILLCONFiDENTiAL 20 AAC 25.005 la. Type of work Drill [] Redrilll-lllb. Type of well. Exploratoryr~ Stratigraphic Testl-] Development Oill-I Re-Entry [] Deepen []1 Service [] Development Gas [] Single Zone [] Multiple Zone [] 2. Name of Operator 5. Datum Elevation (DF or KB) 10. Field and Pool BP Exoloration KBE=338' AMSL feet f e e t Wildcat 3. Address 6. Property Designation P. O. Box 196612. Anchorac~e. Alaska 99519-6612 ADL 373006 4. Location of well at surf-ace 7. Unit or property Name 11. Type Bond(see 20 AAC 25.025) 3710' FNL, 556' FEL, SEC. 28, T4N, R9E, UM Kuparuk Uplands At top of productive interval 8. Well number Number 4310' FNL, 537' FEL, SEC. 28, T4N, R9E, UM Malguk # 1 2S 100302630-277 At total depth 9. Approximate spud date Amount 4310' FNL, 537'FEL, SEC. 28, T4N, R9E, UM March lOth, 1991. $200,000.00 12. Distance to nearest 13. Distance to nearest well 4. Number of acres in property15. Proposed depth (MD and TVD) property line ADL 373004 @3710' feet Wolfbutton (26-6-9)/13 mi feet 5609 11673'TVD/11742'MDfeet 16. To be completed for deviated wells 17. Anticipated pressure (see 20 AAC 25.035 (e)(2)) Kickoff depth a~oofeet Maximum hole angle ~5 o Maximum surface 4700 psig At total depth (TVD) 11673'/6100 psig 18. Casing program Setting Depth s~ze Specifications Top Bottom Quantity of cement Hole Casing Weight Grade Coupling Length MD TVD M D TVD (include stage data) 26" 20" 133# K-55 BTC 80' Surface 108 108 250 cu ft 17-1/2" 13-3/8" 68t/ ~~8oc~,E BTC 2472 Surface 3000 3000 5000 cu ft Arcticset 8-1/2" 7 291/ L-80 TKC 11714 Surface 11742' 11673' 250 cuft Class G Contin gency 12-1/4" 9-5/8" 47# L-80 BTC 10041' Surface 10069' 10000 575 cuft Class G 19. To be completed for Redrill, Re-entry, and Deepen Operations. Present well condition summary Total depth: measured feet Plugs (measured) true vertical feet Effective depth: measured feet Junk (measured) true vertical feet Casing Length Size Cemented Measured depth True Vertical depth (~t°rnUdC3cUtr°~l R E¢ E IV E D Surface I nte rm ed late Production MAR - 7 1991 Liner Alaska 0il & Gas Cons. C0mmiSsi0Q Perforation depth' measured Anchorage true vertical 20. Attachments Filing fee [] Property plat [] BOP Sketch [] Diverter Sketch [] Drilling program [] Drilling fluid prograrn~[] Time vs.~depth pict [] Refraction analysis [] Seabed report[] 20 AAC 25.050 requirements[] 21. I hereby~'_,/~~/'~--,¢~ ~ ~ ./"~ ce~at the fo~going is~j;ue and correct to the best of my knowledge Date Signed _.._ ~______;~_.,__ ~ _~,,~' Title Senior Orillin,~t Engineer /. Commission Use Only Permit Number IAPI number lAp. pr.oval .date See cover letter 15o-.:z2 -..z 00/"~' ]02/]_5/9]. Ifor other requrements Cond~'tions of approval Samples required ~Yes [] No Mud Icg requir.ed ,,~Yes [] No Hydrogen sulfide measures .~'Yes [] No Directional survey required ~ Yes [] No Required working pressurefo"rBOPE I'-]2M; EI3M; 'I~5M; E]IOM; F'I15M; Other:/,.,,..~ (.~..%----.-~,:~_ -(, -,)~ ~-""'-'-""- _ by order of Appro,~.._by ~_ ~ Commissioner ,ne commission D at¢..,~,//~/~'/ Form 10-40 ~ '" Submit i cate j! ~. = 5~80' 17 16 29 28 22 27 .,,,/' 23 24 26 ~' T. 4 N. T. ,.3 N. RECE ¥ED . Alaska Oil & Gas o0ns. com~S~e~t Anchorage . '2 3 ('MILES) , hereby c~lf, tho, { om properly reglst~ and licensed to' practice land surve~ng In the State of Alaska, and that this plat represents a survey ~°de by me or und~ my .superdsl~ .~ , end that ~11 dlm~mionm ond other detoils ere, c~rect. .' / Registered Land Su~eyor .34 MALGUK 'WELL "F" LAT. 69.40 1.815 LONG. = 149°55'07.441 y = 5,7;28,700.54 A.S.P X ' 510,.541.59 ZONE .3710 FROM NORTH LINE 556 FROM EAST LINE MALGUK MALGUk WELL "F'" MALOUK WELL "F" AS-STAKED LOCATED IN PROTRACTED SECTION' 28 TOWNSHIP 4 NORTH, RANGE 9 EAST UMIAT MEREDIAN, ALASKA SURVEYED FOR: B.P. EXPLORATION P.O. BOX 196612 ANCHORAGE, ALASKA 99519-6612 SURVEYED BY:. I ARCTIC SLOPE CONSULTING GROUP 501 DANNER STREET ANCHORAGE. ALASKA 99518 ~,WN BY: DAG o A'r~..: 3/04/91 Great Land Oirectional Orilling, ='nc, <KS>O ~----~ ........ 650 ~--~- i300 ~ ......... 2600 ~- ....... 3900 4-55O 5200 AvEP~GE 15.00 T 5850 v D 6500 ~-~- 7t50 7800 -- 8450 9t00 9750 10400 O0 deg VERTICAL SECTION VIEW BP EXPLORATION MALGUK Section at: S 1.81E TVD Scale.: 1 inch : 1300 feet Oep Scale.: 1 inch : 1300 feet Drawn ..... : 03/05/91 Marker Identification ~ I'VD SECTN INCLN A) KB 0 0 0 0.00 B} KOP BUILD 2.00/100 3t00 3100 0 0.00 C) END O? 2.00 BUILD 3850 3842 98 t5.00 D] KOP DROP t.50/t00 5289 5231 470 t5.00 E) END OF t.50 DROP 6289 6220 600 0.00 F) TARGET 9652 9583 600 0.00 8] TO 11742 11673 600 0.00 11050 loll 1i700 650 0 650 t300 i95o 2000 3250 ~goo 4550 5200 5650 6500 Section Departure A ! HarkeP Identification ~ N/S E/it ~]~ 0 O~ OE B) KOP BUILD 2.00/~00 3~00 0 H 0 E C) END OF 2.00 BUZLD 3850 98 S 3 E D) KOP DROP 1.50/~00 5289 470 S 15 E F.JEND OF t.50 DROP 62119 600 S t9 E F) TARGET 9652 600 S i9 E G) 'rD ii742 600 S t9 E PLAN VIEW BP EXFLORATION MAL6UK CLOSURE ..... : 600 ft S 1.8t E DECLINATION.: 0.00 E SCALE ....... : I inch = 100 feet DRAWN ....... : 03/05/§I 50 0 lO0 200 ~50 300 350 400 450 500 550 60O 650 200 2OO 50 100 t50 200 250 500 150 tO0 50 0 <- NEST' FAST -> 1' = 5280' 0 I 2 `3 '~9th Douglas A. C, raethe¢ No. LS 7835 (MILES) I hereby certify that I am properly registered and licensed to practice land surveying in the State of Alaska, and that this plat represents a survey made by me or under my supervision, and that all dimensions and other details are correct. Date FEB. 26, 1991 LS No. 7835 egistered Land Surveyor MALCUK WELL "F" LAT. = 69°40'05.917. LONG. : 149°55'06.873' y = 5,728,101.00 A.S.P. X = 510,562.49 ZONE 4 ¢510 FROM NORTH LINE 557 FROM EAST LINE MALGtJK .MALC.'JIX WELL "F" MALGUK VVELL "F" AS-STAKED LOCATED IN PROTRACTED SECTION 28 TOWNSHIP 4 NORTH, RANGE 9 EAST UMIAT MEREDIAN, ALASKA SURVEYED FOR:. B.P. EXPLORATION P.O. BOX 196612 ANCHORAGE, ALASKA 99519-6612 StJRVE~'ED BY: ARCTIC SLOPE CONSULTING GROUP .301 DANNER STREET ANCHORAGE, ALASKA 99518 , ~A~ 8¥: DAG !OATS:, 2/25/91_ _ , ALASKA OIL AND GAS CONSERVATION COMMISSION February 15, 1991 WALTER J, HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 275-7542 C. R. Maskell Senior Drilling Engineer BP Exploration(Alaska), Inc. P. O. Box 196612 Anchorage, AK 99519-6612 Re: Wildcat Malguk #1 BP Exploration (Alaska), Inc. Permit No. 91-16 Sur. Loc. 4310'FNL, 537'FEL, Sec. 28, T4N, R9E, UM Btmhole Loc.4310'FNL, 537'FEL, Sec. 28, T4N, R9E, UM Dear Mr. Maskell: Enclosed is the approved application for permit to drill the above referenced well. The permit to drill does not exempt you from obtaining additional permits required by law from other governmental agencies, and does not authorize conducting drilling operations until all other required permitting determinations are made. Sufficient notice must be given to allow for a representative of the commission to witness the BOPE installed on the surface casing and a test of same prior to drilling out the surface casing shoe. Sincerely, ~o~Bs~o~, Chairman Alaska Ot~l~nd Gas Conservation Commission BY ORDER OF THE COMMISSION dlf/Enclosure cc: Department of Fish & Game, Habitat Section w/o encl. Department of Environmental Conservation w/o encl. BP EXPLORATION BP Exploration (Alaska) Inc. 900 East Benson Boulevard RO, Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 Thursday, February 7th, 1991 Mr. Lonnie Smith AOGCC Dear Sir: Attached is a revised Permit to Drill for one of two Exploratory wells we are planning to drill south of Prudhoe Bay this winter in the Kuparuk Uplands area, Malguk #1. This revision provides for deepening the 13 3/8" casing shoe to 3000' and includes a contingency 9 5/8" casing string that will be committed if well conditions so dictate. These changes were made after a conversation with Mr M. Minder on 2/7/91. There is no close approach data included as the nearest well is 13 miles away. Aisc attached as part of the permit is a letter concluding the results of shallow gas surveys in the area indicating no shallow hazard, and seismic data indicating no overpressured zones are expected throughout the well. The Designation of Operator form is also included. At this time we have not yet surveyed the exact well location (as you will notice no plat is included). We expect to survey the location after most of the ice road is built to minimize the time and the cost of surveying. Of course, the well will be surveyed before spudding as the exact well location is required before the ice pad for the rig is built. We will forward a copy of the survey to you at that time. If there are any questions regarding these changes, please call me at 564- 4441. Yours Truly, C. R. Maskell Senior Drilling Engineer-Exploration Alaska 0il & 6as Cons. Co. mmlsSll)_ll Anchorag~ STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION PERMIT TO DRILL 20 AAC 25.005 la. Type of work Drill [] Redrillr'lllb. Type of well.'l~'x'l~,O~.i~'~l~l Stratigraphic Testl-I Development Oi, i-I Re-Entry [] DeepenVII Service [] Development Gas [] Single Zone [] Multiple Zone [] 2. Name of Operator 5. Datum Elevation (DF or KB) 10. Field and Pool BP Exoloration KBE=338' AMSL feet feet Wildcat 3. Address 6. Property Designation P. O. Box 196612. Anchoraoe. Alaska 99519-6612 ADL $75006 ¢. Location of well at surf'ace 7. Unit or property Name 11. Type Bond(see 2o AAC 2S.02s) 4310' FNL, 537' FEL, SEC. 28, T4N, R9E, UM Kuparuk Uplands At top of productive interval 8. Well number Number 4310' FNL, 537' FEL, SEC. 28, T4N, RgE, UM Malguk #1 2S100302630-277 At total depth 9. Approximate spud date Amount 4310' FNL, 537' FEL, SEC. 28, T4N, RgE, UM February 20, 1990 $200,000.00 12. Distance to nearest 13. Distance to nearest well 14. Number of acres in property 15. Proposed depth(UDandTVD) property line ADL 373004 @4310' feet Wolfbutton (26-6-9)/13 mi feet 5609 11700'MD/BKBfeet 16. To be completed for deviated wells 17. Anticipated pressure (see 20 ^^c 25.035 (0)(2)) Kickoff depth NoN,feet Maximum hole angle VERT o Maximum surface 4700 pslg At total depth (TVD) 117oo'/61oo pslg 18. Casing program Specifications Setting Depth s~ze Top Bottom Quantity of cement Hole Casing Weight Grade Coupling Length MD TVD MD TVD (include stage data) 26" 20" 133# ' K-55 BTC 80' Surface 108 108 250 cuft 17-1/2" 13-3/8" 68# ,r, OCYH~ BTC 2472 Surface 3000 3000 5000 cu fl Arcticset 8-1/2" 7 29# L-80 TKC 11670' Surface 11700' 11700' 250 cu fl Class G Contin gency 12-1/4" 9-5/8" 47# L-80 BTC 9970' Surface 10000 10000 575 cuft Gla;s G 19'. To be completed for Redrill, Re-entry. and Deepen Operations. Present well condition summary Total depth: measured feet Plugs (measured) true vertical feet Effective depth: measured feet Junk (measured) true vertical feet Casing Length Size Cemented Measured depth True Vertical depth Structural Conductor I ECEIVED Surface Intermediate Production FEB 1 I t99! Liner Alaska Oil & Gas Cons. Commission Perforation depth: measured true vertical Anchorage 20. Attachments Filing fee [] Property plat [] BOP Sketch [] Diverter Sketch [] Drilling program [] Drilling fluid procjram/l~Time vs deptJ~ plot [] Refraction analysis l-I Seabed report• 20 AAC 25.050 requirements• 21. I hereby certif~h~, the foregoi,~ is true a.nd correct to the best of my knowledge Signed ~~.~~~.~_~~ _.~-" TitleSoniorDrillingEn£inoer Date ~?,)~/~ I Commission Use Only Permit Number IAPI number IApproval date ISee cover letter ~ ! ' r 6 15 o- 2. ?_.. 3 - ~_ o,.t3 t ~) I 0 2. / 1 5 / 91_ ,- [for other requirements Conditions of approval Samples require..(;L E~Yes [] No Mud log required [3'Yes..[] No Hydrogen sulfide measures [] Yes E3' No Directional.say requ~reo [] Yes ~No Required working pressure for BOPE 1-12M; 1-13M; 1~5Mrvel-I1; OM; I-!15M; Other: ~ ~- by order of Approved b (_,,-~ Commissioner Tne commission Date /.,///~--//~[ Form 10-401 -85._~ Submit CONFIDENTIAL PROPOSED DRILLING AND COMPLETION PROGRAM MALGUK #1 Objective; It is proposed to drill Malguk #1 in the Kuparuk Uplands as an Exploration well during the Winter months of 1990-91. The well is to be drilled from an ice pad that will be accessed by approximately 60 miles of ice road south from W-Pad in Eileen West End. The well will be a vertical hole to approximately 11700' TVD BKB. No overpressured zones are expected and seismic data indicates no shallow gas pockets (see attachments). Operation: Install and cement 80' of 20" conductor to surface. Install 20" Diverter. Drill 17-1/2" hole vertically to 3000' and cement 13-3/8", 68#/ft, NT80CYHE, ERW, Buttress casing to surface. The mud for the surface hole will be a freshwater spud mud with weights 8.7-9.8 ppg. Install blowout prevention equipment consisting of 5000 psi W.P. pipe rams, blind rams, and annular preventer. Maximum expected bottom-hole pressure is 6100 psi at 11335' TVDss. Maximum possible surface pressure is 4700 psi based on a gas column to surface. Drill a maximum of 10' of new hole and perform a formation leak-off test. It is proposed to drill, and core an 8-1/2" hole vertically to TD at approximately 11700' TVD BKB, run open hole logs and seismic. However, if hole conditions warrant, the 8 1/2" hole will be opened up to 12 1/4" and 9 5/8" 47# L-80 Buttress casing will be set and cemented with Class G cement at a suitable depth to provide adequate well control capability. It is not anticipated that this contingency casing string will be set at a depth greater than 10000' TVD BKB. If testing is required, 7", 29#/ft, L-80 TKC casing will be run and cemented across the 8 1/2" hole using Class G,i;;~_ent. Any testing will be done with the rig on location. iVE D FEB 11 t991 01t & Gas Cons. L;ommission Anchorage The mud used for drilling this hole section will be a fresh water, Iow solids, lightly dispersed system with polymers. The mud weight Will range from 8.8-10.5 ppg. No H2S has been encountered in the area, and none is expected in this well. Clean out to 7" float equipment. Change over to 10.2 ppg NaCI completion fluid. Test casing to 3000 psi. Rig up test facilities and flow test the well through drill pipe or tubing. Suspend or abandon the well with the appropriate plugs and markers according to AOGCC regulations. Move the rig and equipment from location and clean the pad and the ice road access area. Non-hazardous waste fluids incidental to the well will be trucked from the location to an approved disposal site or pumped down the 7" x 13 3/8" or 9 5/8" x 13-3/8" annulus. If the well is suspended, the wellbore and all applicable annuli will be adequately freeze protected. MEM 11/26/90 RECEIVED FEB 1 1 t991 Alaska Oil & Gas Cons. Co.m~iss|g_tl '.Anchorage NABORS RIG NO. 22E MUD/SOLIDS CONTROL EQUIPMENT 1 - Brandt Dual Tandem Shale Shaker 2 - Triflow 16" Cone Mud Cleaners 1 - Demco 416H w/16 cones & (1) Demco 48H w/16 cones (Desilter) 1 - Gasaway Vacuum Mud Degasser 2 - PiOneer 100 gpm Capacity Centrifuges 1 - Brandt CF-2 200 gpm Capacity Centrifuge 1 9- Brandt MA5 Mud Mix Agitators 1- Trip Tank 1- Recording drilling fluid pit level indicator with both visual and audio warning devices at driller's console 1- Drilling fluid flow sensor with readout at driller's console 1- Caviem Dewatering screen assembly RECEIVED Naska Oil.& 6as Cons. Commission ',Anchorage MiX HOPPERS / i CENTRIFUGE PIONEER MK I DEC.-~SSE~ MUD CLEANER ~2 TRIFLOW MUD CLEANER · ! TRIFLOW TO PIT SUCTION TANK MUD PUMPS 2- Erasco FB 1600 Triplex Pumps STANDPIPE ~ KI.i LINE WATER-VOLUME TANK FILL LINE V(N_UME TANK SHAKER TANK FLOW tINE TO FLARE NABORS DRILLING RTD RIG No. 22E MUD SYSTEM SURFACE FACILITIES TOTAL ACTIVE SYSTEM: 848 BBL TOTAL SURFACE CAPACITY: 1200 BBL RECEIVED Alaska 0il & C~as Cons. Comm/ssior~ Anchorage BOP STACK CONFIGURATION 13 5/8", ~000 PSI WP TRIPLE RAM STACK DRILLING RISER ANNULAR PREVENTER PIPE RAMS 2" KILL LINE MANUAL HYDRAULIC 'GATE GATE DRILLING SPOOL PI PE RAMS 4" CHOKE LINE ~~X~r HYDRAULIC MANUAL GATE. GATE RE EIVED Alaska.Oil,& 6 s Cons. Com~iss~ SURFACE HOLE DIVERTER SYSTEM Two lines venting 90 deg. apart in directions that ensure safe down wind venting, and ex- tending to a point at least 100' from any potential source of ignition. 10" Full Opening Valves 3' 35' or as required Dresser Sleeve 1. All pipe connections 150# ANSI Flanges or welded connections and secured to prevent movement. 10" Diverter Line 2. Manual 10" full opening valves mechanically connected to ensure that one valve is fail-safe open at all times. 3. All turns are 90 deg. and targeted. 10" Full opening ball valve w/Hydraulic Actuator RECEIVED Cellar 20" Diverter Spool w/10" Side Outlet Alaska .Oil,& Gas Cons. 'Anchorage M EM 1/3/90 BP EXPLORATION Memorandum TO; D.I. Rainey FROM: W.H. Fulroth November 20, 1990 SUBJECT: Shallow Gas Survey for 1990-91 Kuparuk Uplands Drilling In Compliance with the Alaska state permitting requirements, the potential for shallow gas sources in the first 2000 ft. of each permitted well site (Kuparuk Uplands 'A' through 'F') was checked. The analysis consisted of examining CDP records across each well site (see attachments)looking for the following effects: anomalous high (or Iow) amplitude reflectors, velocity puli-downs, or phase changes. None of the proposed well sites showed any of these features. In addition, interval velocities near the drill sites showed no anomalous lows which might indicate gas zones. Because of these results, and the lack of shallow gas in other nearby wells, we conclude that there is no evidence of shallow pressured gas on any of the Kuparuk Uplands wells. WHF/dd O0140 Attachments (6) cc: J.M. Spatz M. Miller (Drilling)C-'""" RECEIVED Alaska Oil & Gas Cons. C~,ii/nission Anchorage a~ '.t~tT/.7 tllSg~ BP EXPLORATION Memorandum To: D.I.Rainey Date' January 11, 1991 From' W.H.Fulroth Subject' Overpressured Gas Survey for Kuparuk Uplands 'F(C)' Well in compliance with the Alaska state permitting requirements, the potential for overpressured gas in the Kuparuk Uplands 'F(C)' well was checked. The analysis consisted of examining interval velocity records from seismic stacking velocities across the well site (see attachment) looking for anomalous Iow velocity zones not penetrated in surrounding wells (Wolfbutton 25-6-9 & Bush Fed #1). None of the intervals at the proposed well site showed this character. Because of these results, and the lack of overpressure in other nearby wells, we conclude that there is no evidence of an overpressured zone in the Kuparuk Uplands 'F(C)' well. WHF/wf attachment cc: J.M.Spatz M.Miller RE6EiVEb Alaska Oil,& Gas Cons, Anchorage AK 3407-7 (1/89) O~CG[ I:][:0~ I: i or. co[ I]DI~ OCC~ ~ m - DC'Ce -" I STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION DESIGNATION OF OPERATOR 20 AAC 25.020 1. Name of Owner Union Oil Company of California -. 2. Address . ' 909 West 9th Avenue Anchorage, Alaska 99501 3. Notice is hereby given of a clesignation of operatorship for the oil and gas property described below: Property designation: State of Alaska 0il and Gas Lease ADL #373006 Legal description of property:. .. Township 4 North, Range 9 East, Umiat Meridian: Sections 19, 20, 21, 28, 29, 30, 31, 32, and 33 (containing 5,609 acres, more or less) Property Plat Attached 4. Name of Designated Operator Address BP Exploration (Alaska) Inc. 900 East Benson Boulevard Post Office Box 196612 Anchorage, Alaska 99519-6612 5. Effective date designation January 8, 1991 6. Acceptance of operatorship for the above described property with all attendant responsibilities and obliga- tions is hereby acknowledged · BP~~rati7(Alaska) Inc. ,,Signed Title Vice President, Ex. ploration-A.~a / l/ UNION O'IL COMPANY OF CALIFORNIA =erin 10-411, 12-1-85 EXHIBIT A w 4~ 20 I I 6~ AC I I 1 21 69A-006 I -,,,- 5609Ac. 32 ~ ~ I [~,n I ,,_ ,, I Tract 69A-006 T. 4 N., R. 9 E.. Umlat Meridian, Alaska Section 19, Unsurveyed, All, 587 acres; Section 20, Unsurveyed, All, 640 acres; Section 21, Unsurveyed, All, 640 acres; Section 28, Unsurveyed, All, 640 acres; Section 29, Unsurveyed, All, 640 acres; Section 30, Unsurveyed, All, 590 acres; Section 31, Unsurveyed, All, 592 acres; Section 32, Unsurveyed, All, 640 acres; Section 33, Unsurveyed, All, 640 acres. This tract contains 5,609 acres more or less. BP EXPLORATION Thursday, January 31, 1991 BP Exploration (Alaska) Inc. 900 East Benson Boulevard P.O. Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 Mr. Lonnie Smith AOGCC Dear Sir: Attached is a Permit to Drill for one of two Exploratory wells we are planning to drill south of Prudhoe Bay this winter in the Kuparuk Uplands area, Malguk #1. There is no close approach data included as the nearest well is 13 miles away. Also attached as part of the permit is a letter concluding the results of shallow gas surveys in the area indicating no shallow hazard, and seismic data indicating no overpressured zones are expected throughout the well. The Designation of Operator form is also included. At this time we have not yet surveyed the exact well location (as you will notice no plat is included). We expect to survey the location after most of the ice road is built to minimize the time and the cost of surveying. Of course, the well will be surveyed before spudding as the exact well location is required before the ice pad for the rig is built. We will forward a copy of the survey to you at that time. If there are any questions, please call me at 564-4913. Yours Truly, Mike Miller Staff Drilling Engineer-Exploration CHECK LIST FOR NEW WELL PERMITS ITEM (1) Fee Company 6P APPROVE DATE ~.~/?/~J~}· 1. Is the permit fee attached .......................................... (2 thru 8) (8) (3) Admin./~r_ ' (9 t%ru 53) '' (10 and 13) .. 2. Is well to be located in a defined pool ............................. 3. Is well located proper distance from property line .................. 4. Is well located proper distance from other wells .................... 5. Is sufficient undedicated acreage available in this pool ............ 6. Is well to be deviated and is wellbore plat included ................ 7. Is operator the only affected party ................................. 8. Can permit be approved before fifteen-day wait ...................... (4) Casg (14 thru 22) (23 thru 28) . 10. 11. 12. 13. Does operator have a bond in force .................................. Is a conservation order needed ...................................... Is administrative approval needed ................................... Is the lease number appropriate ..................................... Does the well have a unique name and number ......................... Lease & Well YES NO , , 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. Is conductor string provided ........................................ Will surface casing protect all zones reasonably expected to serve as an underground source of drinking water ..................... Is enough cement used to circulate on conductor and surface ......... Will cement tie in surface and intermediate or Production strings ... Will cement cover all known productive horizons ..................... Will all casing give adequate safety in collapse, tension and burst.. Is this well to be kicked off from an existing wellbore ............. Is old wellbore abandonment procedure included on 10-403 ............ Is adequate wellbore separation proposed ............................ Is a diverter system required ....................................... Is the drilling fluid program schematic and list of equipment adequate,~ Are necessary diagrams and descriptions of diverter and BOPE attached. Does BOPE have sufficient pressure rating - Test to ~~ psig .. Does the choke manifold comply w/API RP-53 (May 84) .................. Is the presence of H2S gas probable ................................. Zg (29 thru 31) (6) Add: Geology: DWJ Engineering rev: 11/30/90 6.011 For 29. 30. 31. 32. exploratory and Stratigraphic wells: Are data presented on potential overpressure zones? ................. Are seismic analysis data presented on shallow gas zones ............ If an offshore loc., are survey results of seabed conditions presented Additional requirements ............................................. ,~ Additional Re~rks: IINITIAL GEO. UNIT ON/OFF POOL CLASS STATUS AREA NO. SHORE -/ c,,o © ~Z CHECK LIST FOR NEW WELL PERMITS ITEM APPROVE DATE (2' thru 8) (8) (3) Admi '(9 Thru 13) 10. (10 and 13) 12. 13. (4) Casg ~, ,~.-~/, ~ -2~- ~/ (14 thru 22) (23 thru 28) YES NO Is the permit fee attached .......................................... 2. Is well t~ be located in a defined pool ............................. 3. Is well located proper distance from property line .................. 4. Is well located proper distance from other wells .................... 5. Is sufficient undedicated acreage available in this pool ............ 6. Is well to be deviated and is wellbore plat included ................ 7. Is operator the only affected party ................................. 8. Can permit be approved before fifteen-day wait ...................... Does operator have a bond in force .................................. Is a conservation order needed ...................................... Is administrative approval needed ................................... Is the lease number appropriate ..................................... Does the well have a unique name and number ......................... 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. Is conductor string provided ........................................ Will surface casing protect all zones reasonably expected to serve as an underground source of drinking water ..................... Is enough cement used to circulate on conductor and surface ......... Will cement tie in surface and intermediate or production strings ... Will cement cover all known productive horizons ..................... Will all casing give adequate safety in collapse, tension and burst.. Is this well to be kicked off from an existing wellbore ............. Is old wellbore abandonment procedure included on 10-403 ............ Is adequate wellbore separation proposed ............................ //~. Is a diverter system required ....................................... Is the drilling fluid program schematic and list of equipment adequate/~... Are necessary diagrams and descriptions of diverter and BOPE attached. ~ . Does BOPE have sufficient pressure rating - Test to Does the choke manifold comply w/API RP-53 (May 84) .................. Is the presence of H2S gas probable .................................. O ~Z ~O (6) OTHER (29 thru 31) Geology: Engi3~eering: DWJ ~ LCS ~ BEW ~ o I oi8 6.0Z~ For 29. 30. 31. 32. INITIAL GEO. UNIT oN/OFF POOL CLASS STATUS AREA NO. SHORE · exploratory and Stratigraphic wells: Are data presented on potential overpressure zones~. ................. Are seismic analysis data presented on shallow gas zones If an offshore loc., are su~ey results of seabed conditions presented Additional requirements ............................................. Additional Well History File APPENDIX Information of detailed nature that is not particularly germane to the Well Permitting Process but is part of the history, file. To improve the readability of the Well History file and to simplify finding information, information of this nature is accumulated at the end of the file under APPENDIX. No special effort has been made to chronologically organize this category of information. **** LIS READ **** (NOTE: MAXIMUM RECORD LENGTH - 8192 BYTES) ** REEL HEADER ** REEL SEQUENCE # 1 SERVICE NAME: SSDS DATE: 91/05/23 REEL NAME: BPX/EXPL ~ CONTINUATION #: 01 PREVIOUS REEL NAME: COMMENTS: PETROLEUM COMPUTING INC.- LIS FORMAT ** TAPE HEADER ** SERVICE NAME: MPT DATE: 91/05/23 ORIGIN OF DATA: EXPL TAPE NAME: MALGUK#1 CONTINUATION #: 01 PREVIOUS TAPE NAME: COMMENTS: PETROLEUM COMPUTING INC.- LIS FORMAT ********** END OF FILE (EOF # 1) ********** ** FILE HEADER ** FILE SEQUENCE # 1 FILE NAME: MALGUK.DAT SERVICE NAME: MPT VERSION #: V 3.26 DATE: 91/05/23 MAX. RECORD LENGTH: 1024 FILE TYPE: EX PREVIOUS FILE NAME: ** COMMENTS ** REPROCESSED DUAL DENSITY DATA ** DATA FORMAT SPECIFICATION ** ENTRY BLOCKS TYPE SIZE REP CODE 4 1 66 0 1 66 ENTRY 255 DESCRIPTION LOG bIRECTION, DOWN TERMINATOR (NO MORE ENTRIES) DATUM SPECIFICATION BLOCKS NAME SERVICE SERVICE UNIT API API API API FILE SZE PROC SPL REPR ID ORDER# DEPT ROP MWD FXD MWD EWR MWD DDD MWD CAL MWD DDE MWD FXE MWD DRHO MWD GRC MWD TEM MWD FXN MWD DDN MWD NFO MWD NFl MWD NN0 MWD NN1 MWD NPSC MWD DSFD MWD LOG TYP CLS MOD NO. LVL CODE FT 0 0 0 0 1 4 0 1 68 FT/H 0 0 0 0 1 4 0 1 68 HOUR 0 0 0 0 1 4 0 1 68 OHMM 0 0 0 0 1 4 0 1 68 PPF 0 0 0 0 1 4 0 1 68 INCH 0 0 0 0 1 4 0 1 68 PPF 0 0 0 0 1 4 0 1 68 HOUR 0 0 0 0 1 4 0 1 68 G/C3 0 0 0 0 1 4 0 1 68 API 0 0 0 0 1 4 0 1 68 DEG 0 0 0 0 1 4 0 1 68 HOUR 0 0 0 0 1 4 0 1 68 PPF 0 0 0 0 1 4 0 1 68 CTS 0 0 0 0 1 4 0 1 68 CTS 0 0 0 0 1 4 0 1 68 CTS 0 0 0 0 1 4 0 1 68 CTS 0 0 0 0 1 4 0 1 68 P.U. 0 0 0 0 1 4 0 1 68 G/C3 0 0 0 0 1 4 0 1 68 ** DATA FORMAT SPECIFICATION ** TYPE SIZE REP CODE 4 1 66 0 1 66 ENTRY BLOCKS ENTRY DESCRIPTION 255 LOG DIRECTION, DOWN TERMINATOR (NO MORE ENTRIES) DATUM SPECIFICATION BLOCKS NAME SERVICE SERVICE UNIT API 'API API API FILE SZE PROC SPL REPR ID ORDER# LOG TYP CLS MOD NO. LVL CODE DEPT FT 0 0 0 0 1 4 0 1 ROP MWD FT/H 0 0 0 0 1 4 0 1 FXD MWD HOUR 0 0 0 0 1 4 0 1 EWR MWD OHMM 0 0 0 0 1 4 0 DDD MWD PPF 0 0 0 0 CAL MWD iNCH 0 0 0 0 1 4 0 1 DDE MWD PPF 0 0 0 0 1 4 0 1 FXE MWD HOUR 0 0 0 0 DRHO MWD G/C3 0 0 0 0 . 1 4 0 GRC MWD API 0 0 0 0 I 4 0 1 TEM MWD DEG 0 0 0 0 FXN MWD HOUR 0 0 0 0 1 4 0 DDN MWD PPF 0 0 0 0 1 4 0 NFO MWD CTS 0 0 0 0 1 4 0 1 NFl MWD CTS 0 0 0 0 1 4 0 1 NN0 MWD CTS 0 0 0 0 1 4 0 NN1 MWD CTS 0 0 0 0 1 4 0 1 NPSC MWD P. U. 0 0 0 0 1 4 0 1 DSFD MWD G/C3 0 0 0 0 1 4 0 1 68 68 68 68 68 68 68 68 68 68 68 68 68 68 68 68 68 68 68 ** DATA VERIFICATION (every 250 FT) ** DEPT ROP FXD EWR DDD FXE DRHO GRC TEM FXN NFl NN0 NN1 NPSC DSFD CAL DDN DDE NFO .000 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 250.000 300.000 -999.250 779.818 -999 .029 -999.250 23.114 -999.250 -999 -999.250 -999.250 -999.250 -999.250 -999 500.000 191.591 -999.250 77.348 -999 .168 -999.250 39.217 -999.250 -999 -999.250 -999.250 -999.250 -999.250 -999 750.000 148.482 -999.250 87.884 -999 .059 -999.250 42.787 -999.250 -999 -999.250 -999.250 -999.250 -999.250 -999 1000.000 142.293 -999.250 19.650 -999 .076 -999.250 61.066 -999.250 -999 -999.250 -999.250 -999.250 -999.250 -999 .250 .250 .250 .250 .250 .250 .250 .250 .250 .250 .250 .250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 1.087 -999.250 2.041 -999.250 2.500 -999.250 2.857 -999.250 1250.000 80.000 -999.250 23.262 -999 .115 -999.250 60.514 -999.250 -999 -999.250 -999.250 -999.250 -999.250 -999 .250 .250 .250 -999.250 -999.250 5.882 -999.250 1500.000 185.443 -999.250 55.427 -999 .238 -999.250 40.937 -999.250 -999 -999.250 -999.250 -999.250 -999.250 -999 .250 .250 .250 -999.250 -999.250 7.692 -999.250 1750.000 105.707 -999.250 27.552 -999 .218 -999.250 52.920 78.217 -999 -999.250 -999.250 -999.250 -999.250 -999 .250 .250 .250 -999.250 -999.250 4.762 -999.250 2000.000 127.001 -999.250 24.448 -999 .163 -999.250 63.488 78.217 -999 -999.250 -999.250 -999.250 -999.250 -999 .250 .250 .250 -999.250 -999.250 2.128 -999.250 2250.000 117.036 -999.250 24.475 -999 .088 -999.250 65.707 -999.250 -999 -999.250 -999.250 -999.250 -999.250 -999 2500.000 37.452 -999.250 18.387 -999 .216 -999.250 67.711 -999.250 -999 -999.250 -999.250 -999.250 -999.250 -999 2750.000 37.748 -999.250 4.097 .170 -999.250 68.481 -999.250 -999.250 -999.250 -999.250 -999.250 -999 -999 -99~ .250 .250 .250 .25O .250 .250 .250 .250 .250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 3.571 -999.250 10.000 -999.250 6.667 -999.250 3000.000 20.958 -999.250 9.248 96.226 .021 46.862 69.428 481.000 2264.000 2280.000 58.917 14 -999 2 .286 .250 .501 10.854 8.333 25.000 433.000 3250 1 719 .000 35.503 -999.250 5.852 .364 .034 97.588 -999.250 .000 3192.000 3160.000 32.590 6 -999 2 .25O .250 .552 8.689 5.000 14.286 703.000 3500 2 567 .000 82.207 -999.250 8.053 .008 .441 46.518 78.217 .000 2888.000 2856.000 35.417 11 -999 2 .111 .250 .470 8.910 8.333 25.000 591.000 3750 1 639 4000 1 655 .000 .830 .000 .0OO .542 .000 4250.000 2.617 583.000 4500.000 3.848 631.000 4750.000 2.817 695.000 5000.000 4.601 711.000 5250.000 3.284 623.000 5500.000 1.333 823.000 5750.000 .957 823.000 6000.000 1.057 951.000 6250.000 .245 831.000 6500.000 .238 1007.000 6750.000 .404 967.000 7000.000 .573 815.000 7250.000 .256 823.000 7500.000 .275 903.000 7750.000 .257 855.000 136. e 3112. 55. 2952. 35. 2968. 34. 2856. 20. -999. 3512. 12. -999. 3144. 22. -999. 2888. 52. -999. 3064. 31. -999. 3000. 17. -999. 3576. 46. -999. 3320. 23. -999. 3384. 28. -999. 3080. 17. -999. 2840. 47. -999. 3128 · 37. -999. 3160. 33. -999. 3192. 458 030 OO0 449 030 OO0 240 063 O0O 647 034 OO0 162 25O 0OO 252 250 000 428 250 000 091 250 000 554 25O 0OO 968 25O 00O 927 250 000 479 250 000 032 250 000 909 250 000 348 25O O00 305 25O 000 638 250 000 © -999.250 58.290 3096.000 -999.250 88.927 2808.000 -999.250 75.044 2936.000 -999.250 88.512 2952.000 -999.250 64.761 3256.000 -999.250 82.770 3176.000 -999.250 97.871 2904.000 -999.250 115.916 3048.000 -999.250 112.613 3000.000 -999.250 99.156 3496.000 -999.250 102.109 3272.000 -999.250 99.786 3272.000 -999.250 91.570 3288.000 -999.250 120.496 3016.000 -999.250 108.290 3240.000 -999.250 115.081 3032.000 -999.250 113.419 3080.000 5.075 -999.250 33.079 8.109 83.490 36.737 5.153 88.764 37.316 7.914 -999.250 35.175 6.304 94.037 25.490 6.751 95.795 29.235 5.105 102.826 37.646 4.528 94.037 28.310 3.377 -999.250 28.728 5.747 95.795 21.041 5.721 -999.250 25.160 8.051 116.888 20.774 5.773 111.615 24.212 5.350 125.677 30.287 6.513 -999.250 26.017 4.833 132.709 26.804 5.917 -999.250 26.273 4.545 -999.250 2.432 5.263 -999.250 2.502 5.556 -999.250 2.398 12.500 -999.250 2.391 12.500 -999.250 2.366 1~.667 -999.250 2.416 11.111 -999.250 2.436 11.111 -999.250 2.576 12.500 -999.250 2.570 9. 091 -999.250 2.596 5.882 -999.250 2.671 ~.333 -999.250 2.629 12.500 -999.250 2.497 20.000 -999.250 2.516 7.692 -999.250 2.517 8.333 -999.250 2.483 6.667 -999.250 2.553 8.789 5.556 8.752 3.125 8.746 5.882 8.662 9. 091 8.799 4.762 8.739 8.333 8.796 9.091 8.785 5.000 8.854 7.692 8.829 5.556 8.910 5.000 8.926 7.692 9.082 6.667 9.046 14.286 8.911 5.556 9. 046 5.556 8.942 4. 545 12.500 607.000 5.882 631.000 14.286 631.000 20.000 631.000 4.348 759.000 12.500 687.000 16.667 631.000 11.111 895.000 7. 143 871.000 8.333 927.000 6.250 847.000 3.704 1015.000 8.333 911.000 12.500 847.000 6.250 863.000 9.091 911.000 5.882 871.000 8000.000 .329 911.000 8250.000 .302 1015.000 8500.000 .262 823.000 8750.000 .435 983.000 9000.000 .434 1203.000 9250.000 .474 935.000 9500.000 16.968 879.000 9750.000 .456 887.000 10000.000 .624 911.000 10250.000 1.196 759..000 105.00.000 .834 -999.250 10750.000 .999 -999.250 11000.000 .424 -999.250 11250.000 .382 -999.250 37.429 -999.250 -999.250 122.670 3192.000 3016.000 45.232 -999.250 -999.250 85.326 3384.000 3368.000 41.634 -999.250 -999.250 116.979 3096.000 3128.000 22.135 -999.250 -999.250 130.805 3416.000 3416.000 17.060 -999.250 -999.250 86.942 3896.000 3768.000 28.286 -999.250 -999.250 83.271 3400.000 3320.000 23.327 -999.250 -999.250 103.321 2888.000 3048.000 33.085 -999.250 -999.250 122.671 3064.000 2872.000 16.484 -999.250 -999.250 106.671 3096.000 3064.000 13.917 -999.250 -999.250 128.542 2872.000 2808.000 10.275 -999.250 -999.250 76.115 3528.000 3304.000 15.987 -999.250 -999.250 141.912 -999.250 -999.250 30.703 -999.250 -999.250 169.869 -999.250 -999.250 41.028 -999.250 -999.250 72.597 -999.250 -999.250 ** 1762 DATA RECORDS ** ** FILE TRAILER** FILE NAME: MALGUK.DAT SERVICE NAME: MPT VERSION #: V 3.26 DATE: 91/05/23 MAX. RECORD LENGTH: 1024 FILE TYPE: EX NEXT FILE NAME: 5.808 -999.250 25.403 9.756 -999.250 19.557 4.799 141.498 26.306 10.268 141.498 19.746 37.291 137.982 14.086 17.266 -999.250 20.658 6.179 -999.250 27.536 3.384 145.013 29.893 4.331 148.529 25.768 2.965 141.498 36.371 7.996 -999.250 16.367 3.020 148.529 -999.250 1.788 -999.250 -999.250 6.110 -999.250 -999.250 FROM 7. 143 -999.250 2.510 5.882 -999.250 2.556 8.333 -999.250 2.535 12.500 -999.250 2.580 2.703 -999.250 -999.250 16.667 -999.250 2.500 7.692 -999.250 2.602 14.286 -999.250 2.529 16.667 -999.250 2.549 .ooo -999.250 2.572 10.000 -999.250 2.456 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 .00 TO 8.964 7. 143 9.933 5.263 9.007 7.692 10.613 5.882 -999.250 9.091 9. 129 7.692 9.229 2.041 8.719 8.333 9.164 9.091 9.591 14.286 9.727 20.000 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 11450.00 FT 6.667 911.000 10.000 991.000 6.667 855.000 7.692 1007.000 10.000 1219.000 11.111 999.000 2.632 839.000 6.250 823.000 12.500 815.000 25.000 767.000 20.000 855.000 20.000 -999.250 5.000 -999.250 7.692 -999.250 @ ~ ********** END OF FILE (EOF # 2) ********** ** TAPE TRAILER** SERVICE NAME: MPT DATE: 91/05/23 ORIGIN OF DATA: EXPL TAPE NAME: MALGUK# 1 CONTINUATION #: 01 NEXT TAPE NAME: COMMENTS: PETROLEUM COMPUTING INC.- LIS FORMAT ** REEL TRAILER ** SERVICE NAME: SSDS DATE: 91/05/23 ORIGIN OF DATA: MPT REEL NAME: BPX/EXPL CONTINUATION #: 01 NEXT REEL NAME: COMMENTS: PETROLEUM COMPUTING INC.- LIS FORMAT ********** TAPE TERMINATED BY REEL TRAILER ********** * ~bASKA COMPUTING CENTER , ****************************** ~e~m~mmm~e~m~meem~mmeme~mmmm~ *------' SCHLUMBERGER ****************************** COMPANY NAME : BP EXPLORATION WELL ~A~E : ~ALGUK #l FIESD NAME : WILDCAT'(KUPARUK UPSANDS) BOROUGH : NO~TH SLOPE RPI NUMBER : 50 223-200~.9-00 REFERENCE NO ~ 74~03 RECEIVED ~A¥ 5 1 1991 Oil & Gas O0~$, C,~)mmisslon IS TaDe Verification Li~tino cblumberoer Alaska Com~utino Center 1-M~¥-1991 22:53 *#*$ REEL HEADER DATE : 9!/U5/ 1 OPIGIN : FLIC P~EL NAME : 745t)3 pREVIOUS REEL CO~E~T : BP EXPLORATIOt~,~]fLDCAT (FUPARUK UPLAND$),~A~GUK #1,50-223-20019-0 **** TAPE HEADEP SERVICE NA~E : EDIT DAT~ TAP~ NA~E ~ 74503 CO~TINtlATIOU # PREVIOUS TAPE : COg~ENT **** FILE HEADER FILE ~A~E : EDIT .001 SERVICE : FLIC VERSION : 001~06 DATE : 91/05/ ~AX REC SIZE : 1024 FIL~ TYPE ~ LO LAST FILE PAGE: COMPANY NAME: BP EXPLURATIOM WELL: MALGUK ~1 FIEI,D: WILDCAT (KUP~UK UPLANDS) BOROUGN~ ~ORTH SLOPF STATE: AL~SK~ AP1N[J~BER: 50-223-200~g-00 LOCATION: 3710' F~L & 556' FEb SECTION: 28 TUwNsHIP: 4N R~NGE: 9E PERghMEMT DATUm: MSL ELEVATION: 0 LOG ~EAS!~RED WPO~ NKB 3~1,4 ^ROVE PERMAMENT DATUM i. IS TaMe Verlficatlon bistinq chlumberqer AlasKa Com~UtiDq Center i-~,~AY-1991 22:53 PAGE: ELEVATIONS KB: 341.4 340,4 GL: 314 O~E 10764 Ca$I:G 1: 13 3/~" g DRI!,LE~ DEPTH Of' 2979 AND LOGGER DEPTH OF 2976,0 BIT SIZE 1: 8.5 DIE/LOT/CML/ELL PASS TYPE FLUID IN MOLE: LOW SOLIDS DENSITY: ~0.10 VISCOSITY: 54 PH: ~.5 FLUID LOSS: 6.0 MUD RESISTIVITY: FILTRATE RESISTIVITY: ~UD CAKE RESISTIVIWY: 1.79 m 69 1.56 9 69 !,7] m 69 TIME CIRCULATION ENDED: 16:30 4=11 TT~ LOGGER ON OOTTO~: 21:01 ~-11 ~XI~U~ TEMP RECORD~! 121 LOGGING DISTRICT: LOGGING E~GINEER: WITNESS: PRUDHOE WEST PUTSAM/ALMES/BARMABY TOOL NUMBERS: TC~ 213 AMM AA 950 TCC B.8)q SGC SA 404 ~LT AA 27 CNG HA 332 DRS 4.969 NSC 793 PDH 8~1 PGGD 868 DIC 271. DIS 276 FIELD REMARKS: THE SP IN THE LOWER ZONE I'S ERRATIC POSSIBLY DUE TO DRILLING RIG ELECTRICAL INTERFERANCM, THE MICRO bOG WAS ERRATIC IN THE bOWER ZOnE (A~%E~IPT''" 5)'S0 I~ iS NOT PRESENTEO. BOR~ THIS INTERVAL. TOOL STRING (SOT-TOP}: DITE-LDT-CNL-MLT-GR-TCC-AgS, SIX 1,5" STANDOFFS AND A 2' ~OLE FINDER WERE USED. NEUTRON MATRIX = SAND HOLE = ! G/CC. : Fbi SITY 1.0 G/CC . DENSITY'HOLE CORRECTION = NO ~ BOWSPR~NG USED ON TEE CML, OE¥IATION OVER LOGGING ZONE APPROX "6-17 PEG THE'FIRST ATTEMPT TO LOG THIS STRING, A BRIDGE AT 3915f PREVENTED U~ FROM GOING DOWN. T~E SECOND ATTEMPT, THE DITE ~AS REMOVED BUT THE SAME DEPTH WAS REACHED, THE THIRD ATTEMPT WAS WITH THE FULL STRING BUT WITHOUT THE MOLE FINDER YtEBDING THE SAME RESULT. A PIPE TRIP WAS gAPE TO CLEAN OUT THIS SPOT AND THE FOURTH ATTEMPT REACHED A DEPTH OF 5296' wHICM WAS LOGGED TO CASING. A~OTHER PIPE TRIP WAS ~ADE THIS TIME TO BOTTOM T~E MUI) ~AS WEIGHTED UP AND 6% CRONE OIL WAS ADDED. THE FIFT~ ATTEMPT REACHED 5496' WHICH LOGGED UNTIL IT OVERLAPPED THE FOURTH ATTEMPT, IS Ta~e verification I.,istina cblUmberaer AlasKa Como1]tin~ Center 1-~AY-1991 22:53 THE SIXTH AT'rE~qPT ~AS ~!ADE ~ITHOUT STANDOFFS ON THE DITE AND THE RE~'..OVE!). THE SA~E DEPTH WAS REACHED. NGT/$DT PASS TYPE FLUID IN HOLE: [.OW SOLIDS DENSITY: tO.20 V~SCOSITY: 54 PM: 8,5 FLUID LOSS: 5.2 MI;D RESISTIVITY~ FILTRATE RESISTIVITY: ~D CAKE PESISTIV!TY: 2.04 e 67 1,53 ~ 67 2.10 0 67 TIME CIRCULATION ENDED: 02:00 4-13 TIME LOGGER ON BOTTOM: 11:34 4-13 M~XIMUM TEMP RECORDED: 121 LOGGING DISTRICT: PRUDHOE BAY ~U~NAM/A~NES/BARNAO¥ TOOL NUMBERS: TCM 213 AMS AA 950 TCC B ~39 NGD 739 NGC 1934 SDC 32 SL~ 8~ SL$ 26 RE~ARKS: TO05 STRING (SOT-TOP): SDT~NGT-TCC~-A~S EIGHT ~,~ I F ON STANDOFFS AND A 2' HOLE FINDER WERE'USED, NGT FILTERING WAS SET TO KALMAN. W~VEFOR~S FROM THE ARRAY WERE ~IGITIZED AND TAPED 'THE BEST ANALOG DELTA T CURVE, COMES FROM THE 5'-7' DTL. THE BEST 6VERALL DELTA T CURVE CO~ES FROM THE DIGITIZED WAVEFORMS THAT ARE PROCESSED THROUGH THE ARRAY PPOCESSOR USING STC PROCESSING.. ALL ANALOG DELTA T CURVES CYCLE SKIP OVER CERTAIN ZONES ESPECIALLY AREAS WHERE THR CALIPER WHERE E EN' GSPACE~ DIGITIZED WAVEFORMS DO NOT PROVID~ GOOD DATA. S~VE lNG ATTEMPTS AND TWO PIPE TRIPS WERE USED TO REACH A GREATE~ DEPTH, BUT W~RE UNSUCCESSFUL. ******************************************************************************** COMPUTING CENTER REMARKS: DSI/SDT PROCESSED. DATA ON THIS TAPE IS FROM COMPUTING CENTER COMPUTATIONS ONLY. THE SDT/NGT PASS }{AS BEEN DEPTH ADJUSTED TO MATCH THE DTE/LDT/CNL/MLL PASS USING THEIR ASSOCIATED GAM~A RAYS FOR CORRELATION THE D~PTH SHI~ . . .TS APPLIED WERE AS FOLLOWS: OLD DEPTH NEI~ DEPTH AMOUNT OF SHIFT 531~o, 53~2, ! .5oooo 5208.00, 5209, O0 : I, 00000 5096,50, 5096,50 ! 0 PAGE: 3 IS Tape Verification Llsttn~ chlumber~er Alaska Comp%It!Po Center ~-~AY-199! 22:53 PAGE~ 4944,00, 4894.50, 4776.50, 4715.50, 4663.00, 4457.5(~, 4416.50, 43~3.00, 4222,00, 4072.50, 4010,00, ~679,~0 3628. O~ 3446 50 3220.50, 3125,50, 100,000, 4a71.5o 4~43,5(~ 4894.50 4776.50 4716,oo 4662,5o 4~58,oo 4416.5o 4313,50 4222,50 4~82,50 4073,00 4010,50 3680 5O 3629:50 3448,50 3~74,00 322~,50 3~27,50 I02.000 -o.500o0 -0.5OOO0 0 .50000 -0,50000 50000 0 50000 .50000 1 50000 ' ,50000 50000 1.50000 1.50000 2.00000 2 00000 :ooooo 2,00000 2.00000 DAT~ JOB STARTED: 18-APR-91 JOB REFERENCE.NOi 74503 LDP/ANA~ $. DEES ***************************************************************************** FILE - EDIT,O0I BP EXPLORATION WILDCAT (KUPARUK 50-223-200!9-00 UPLANDS) ~AIN PASS LOG DATA FROI,~ FIELD FILE 014 NGT PASS LOG DATA FR~3~ FIELD FILE ,644 DATA SAMPLED 5]VEPY -.5000 FEET DATA I NCLUDF.,[) TOOL EXTENSION TOOL TYPE USED NAgE DIT-E .DTE PHASUR DUAL INDUCTION $F5 5471 TO 2978 ~LI,/PROX ,.qLL ~!.!CRC~/PROXIMITY LATEROLOG 5424 TO 2978 LDT ,LDT LIT}~[) DE~$]TY 5442 TO 2978 CNT-A/D/H ,C~,~[., CO~iPENSATKD ~EiJTR[)~ 5428 TO 2978 IS TaDe Verification I, lstln~ Chlumberqer Alaska Computing Center 1-~AY-1991 22:5] * NGT ,t~GT NATURAL GA~A SPECTROSCOPY 5434 TO 2978 * PAGEI 5 TYPE ~ CONS TUNI VA~U OEFI TYPE BP EXPLORATION Company Name WILDC&T (KUPARUK UPLA Field Name FT ~ALGUK #I 50-223-20019'00 3710' FN[, & 556' FEb 28 9E NORTH SLOPE ALASKA USA FN WN APlN FL SECT TOWN COUN STAT LATI LONG WIT~ SO~ PDAT EPD ~F APD EDF EGL T~ DFD DFPH DFV ~ST R~FS MFS? R~C$ ~CST TC$ BHT PUTNAM/ALNES/BARNABY 548194 Oo FT 341,4 FT 341,4 FT 340,4 FT 314~ FT 107 4, FT FT 5471, FT 2976, LOW SOLIDS G/C3 ~0 1 F3 6, OH~M 1 ~9 OH~M 1 ~6 16:30 4-1~ DEGF -999.25 DEGF 121, Well Name APl Serial Number Field Location Section Township Range County State or Prov~nce Nation Latitude 5ongitude Witness' Name Service Order Number Permanent datum Elevation of Perm, Da Log Measured From ABOVE PERMANENT ~DATUM Elevation of Kell Bu Elevatto~ of Derrick Elevation of Ground b Total Depth - Driller Total Depth - hog,er Bottom bog Interval Top Log Interval . Drilling Fluid Type Dril!in~ Fluid Densit Drilling Fluid ~h Drilling Fluid Viscos Drtllln6 Fluid boss Resistivity of Mud Sa ~ud Sample Temperatur ~esistlvit¥ Of mud fi ~ud..Flltrate Sample T Resistivity of MUd Ca Mud Ca~e Sample Tempe Time Circulation Stop Surface Temperature Bottom Hole TemDeratu IS Tape ver~fficatlon [,lst.ina chlUmberQer AlasKa Co~utJmq Center I-uAY-I991 22:53 PAGE~ 6 TABLE TYPE ~ CURV DEFI PEP? CIDP CIMP IbP CIL~ IbM IFR~ IDOF I~OF IIRO IIXD IIR~ SFLU TENS ~TEM HTE~ DPH! RHO~ DRHO PEF OLS ~$ LU LL LtT~ SSHV LSR~ 5~!R~ ~R TENS Depth Channel Name INDUCTION DEEP PHASOR CONDUCTIVITY INDI)CTION DEEP PHA$OR RESISTIVITY INDUCTION ~EDIU)4 PHA$OR CONDUCTIVITY INDUCTION ~EDIU~ PHASO~ RESISTIV)TY Deed Induction Standard Processed Conductivity Dee~ Induction Standard Processed Resistivity ~edlum Induction Standard ProceSsed Conductivity ~edlu~ Induction Standard Processed Resistivity InductioD Calibrated Fre~uenc~ IDOF DEEP INDUCTION OUALITY FACTOR IMQF MED INDUCTION QUALITY FACTOR Deep Induction Real Intermediate Conductivity Deed Induction Ouad Intermediate Conductiv~ty ~edtum Induction Real Intermediate Conductlv!ty ~edlum Induction Quad Intermediate Conductivity SFL Resistivity (unaveraged) S~ontaneous Potential Gamma Ray Tension gud Temperature mUD Resistivity Head~Tenslon Denslt~ Porosity Stalk Density Delta RHO Photoelectric Factor Oualit~ control of lon~ spacln~ for LOT OualitV control on short spaci6g for b~T Lon~ ipacimg Computed Count Rate (Lb+LU/2) Lon~ Upper 1,2 Wlndow Count Rate bon~ Lower wlmdow Count ~ate bitholog Wj~do~ Count Rate Short Spacing ~ Window Count Rate Snort SPaci~6 2 ~indow Count Rate Lonq Spacing Hlqh Voltage Output Short Spacing High Voltage Loop Output Short Spacine ! Density bong Spacing RHOB (Uncorrected) Lonq Upper RHOB Caliper Gamma Rav Tension .IS Tape verl~ication [,istinq ;Chlumberqer AlasKa Co~utino Center 1-~A¥-!991 ??:5] PAGE~ ~Tg~ ~ud Temperature M~E$ ~UD Resistivity HTE~ ~ead Tension ~PH! Neutron Porosity RTNP Raw Thermal Fieutron Ratio TNPP Thermal Neutron Porosity TNRA Calibrated Ther{~a3. Neutron Ratio NPOP ~eutron Porosity Output Fro~ an A~Dllcation Proqram RCNT ~C~T RCFT RCFT CNTC C~TC CFTC CFTC G~ Gamma Ray CALl Caliper TENS Tension MRES ~U9 Resistivity ~TEU ~ud Temperature HTEN ~ead Tension SGR Spectroscopy Ga,~ma-RaV CGR COmPUted GR from Thorium, Ura~llum, Potassium THOR Tnorlum POTA Potassium URA~) Uranzum WlN~ window 1 (.150 - 5 ~Ev) W2N~ Window 2 (.5 - !.{ ~EV) W4N~ ~Indow 4 ( .6 - ?~$ ?enslon MTE~ ~ud Temperature ~RE$ ~[JD Resistivity CS Cable Speed HTE~! Head Tension GR Gamma Ray TENS Tenslon ~TE~ gud Temperature NRE$ ~UD Reslst~.vity HTEN Head Tension C~LI Caliper DATA ~OR~AT SPECIFICATION RECORD ** ** SET TYPE - 64EB ** TY EPR CODE 2 66 0 3 73 32~ IS Ta~e Verification Listin~ chlumberqer AlasKa Computing Center 1-~AY-1991 22:53 PAGE{ 4 66 5 66 6 73 7 65 8 68 0 5 9 6S I2 68 13 66 0 14 65 FT 15 66 68 16 66 ! 0 66 0 ** SET TYPE - CHAN NAM~ SER UNIT gE . CE AP1 Ap ID ORDER # LOG TYPE CbASS MOD NUMB SAMP ELE~ CODE (HEX) D~PT FT 548194 O0 000 00 0 1 1 ~ 4 68 0000000000 CIDP DTE MMHO 548194 O0 IDPM DT~ OHM~ 548194 O0 C!MP DTE MMHO 548194 O0 IMPM DTE O~MM 548194 O0 CIDD DT~ M~O 54819'% O0 ILD DTE OHMM 548194 O0 CIS~ DT~ M~HO 548194 O0 ILM DTE 0~ 548~9~ O0 IFRE DTE HZ 548194 O0 IDOF DTE 548194 O0 X~QF DTE 548194 O0 I!PD DTE M~HO 548194 O0 IIXD DTE ~H[] 548194 00 IIR~ DTE ~HO548194 O0 IIX~ DTE ~HO 548191 O0 SFL[! DT~ OH~ 548194 SP DTE ~V 548194 G~ DTE GAPI 548194 O0 TENS DTE LB 548194 O0 ~TE~ DT~ DEGF 548194 O0 ~ES DTE OHa~ 548194 O0 HTEN DTE LB 548194 O0 D~HI LDT PU 548194 00 RHOB LDT G/C3 548194 O0 DSHO LDT G/C3 548194 O0 PEF [,DT 548194 O0 OLS [,DT 548194 O0 OS$ .LDT 548194 O0 L$ LDT CPS 548194 O0 LU LDT CPS 548194 O0 LL LDT CPS 548194 O0 000 O0 0 ~ 1 I 4 68 0000000000 000 O0 0 I 1 1 4 68 0000000000 000 O0 0 I I 1 4 68 0000000000 000 O0 0 1 1 I 4 68 0000000000 000 O0 0 1 ! 1 4 68 0000000000 000 O0 0 I 1 1 4 68 0000000000 000 O0 0 1 ~ 1 4 68 0000000000 000 O0 0 1 I 1 4 68 0000000000 000 O0 0 ! 1 1 4 68 0000000000 000 O0 0 ! ! ! 4 68 0000000000 000 O0 0 1 I I 4 68 0000000000 000 O0 0 i I 1 4 68 0000000000 000 O0 0 1 1 I 4 68 0000000000 000 O0 0 I I I 4 68 0000000000 000 O0 0 I I 1 4 68 0000000000 000 O0 0 1 ! 1 4 68 0000000000 000 O0 0 1 I I 4 68 0000000000 000 O0 0 i t 1 4 68 0000000000 000 O0 0 1 1 1 4 68 0000000000 000 O0 0 1 1 t 4 68 0000000000 000 O0 0 i I 1 4 68 0000000000 000 O0 0 1 1. I 4 68 0000000000 000 O0 0 t I I 4 68 0000000000 000 O0 0 l I t 4 68 0000000000 000 O0 0 I. t I 4 68 0000000000 000 O0 0 I 1 1 4 68 0000000000 000 O0 0 1 1 t 4 68 0000000000 000 O0 0 I 1 1 4 68 0000000000 000 O0 0 1 1 1 4 68 0000000000 000 O0 0 ! 1 1 4 68 0000000000 00o OO 0 i 1 ! 4 68 0000000000 IS Taue Yerification Listino chlumbercer AlasKa Computino Center 1-~AY-19gl 22:53 PAGE: NA~ S V U~IT SERV CF.. API P! API I FILE NUM UMB SIZE REPR PROCESS I9 ORDER # LOG TYPF CLASS MOD NUMB SAMP ELE~ CODE (HEX) '" ..... ' .......... T'rt ......... .... ' ............ ' .... T .... ' .... LIT~ LOT CPS 548 g O0 0 0 O0 0 I 1 4 8 000000 O0 $Sl LOT CPS 548194 O0 SS2 LDT CPS 5481~4 O0 LB~V LDT V 548194 O0 SS~V LDT V 548194 O0 S~RM LDT G/C3 548194 00 LSRM LD? G/C3 548194 LUR~ LDT G/C3 548194 O0 CALI LDT IN 548194 O0 GR LDT GAP! 548194 O0 TENS LDT LB 548194 O0 MTE. LDT DEGF 548194 O0 MRES LDT OHMM 548194 O0 HTEN bDT LB 548194 O0 NPHI CUL PU 548194 O0 RTN~ CNL 548194 O0 TNPM CML PU 5481.94 O0 T~R~ CN5 548194 O0 NPOR CNL PU 548194 O0 RCNT CNL CPS 548194 O0 RCFT CNL CPS 548194 O0 CNTC CNL CPS 548194 O0 CFTC CNL CPS 548194 O0 G~ CNL GAPI 548194 O0 CALI CNL IN 548194 O0 TENS CNL L~ 548194 O0 ~RES CNb OH~M 548~194 O0 MTE~ CN5 DEGF 548194 O0 HTEN CML LB 548194 O0 SGR NGT GAPI 548194 O0 CGR NGT GAP! 548194 O0 THOP NGT PP~ 548194 O0 POTA NGT PU 548194 O0 U~AN NGT PPM 548194 O0 W!NG ~GT CPS 548194 O0 W~NG NGT CPS 548194 O0 W3NG NGT CPS 548194 O0 W4NG NGT C~S 548194 O0 WSN~ NGT CPS 548194 O0 TEN~ NGT LB 548194 O0 MTEM NOT DEGF 548194 O0 ~RE$ NGT OH~M 548194 O0 CS NGT ~!HP 548194 O0 HTEN NGT LB 548194 O0 G~ PLL GAPI 5481.94 O0 TENS MbL LB 548194 O0 ~TE~ M55 OEGF 548194 O0 MRE$ MLL O~M~ 548194 HTEN ~[,L L~ 548194, O0 CALI MLL IN 548194 O0 000 O0 0 1 1 1 4 68 0000000000 000 CO 0 i 1 1 4 68 0000000000 000 O0 0 1 ~ i 4 68 0000000000 000 O0 0 1 1 1 4 68 0000000000 000 O0 0 I 1 1 4 68 0000000000 000 O0 0 ~ 1 1 4 68 0000000000 000 O0 0 1 1 1 4 68 0000000000 000 O0 0 1 I 1 4 68 0000000000 000 O0 0 1 I 1 4 68 0000000000 000 O0 0 1 1 I 4 68 0000000000 000 O0 0 1 1 1 4 68 0000000000 000 O0 0 I 1 1 4 68 0000000000 000 O0 0 i 1 1 4 68 0000000000 000 O0 0 1 1 I 4 68 0000000000 000 O0 0 I 1 1 4 68 0000000000 000 O0 0 I ~ 1 4 68 0000000000 OOO O0 0 ! 1 1 4 68 0000000000 000 O0 0 I I 1 4 68 0000000000 000 O0 0 1 1 I 4 68 0000000000 000 O0 0 I I 1 4 68 0000000000 000 O0 0 i 1 ! 4 68 0000000000 000 O0 0 1 ! 1 4 68 0000000000 000 O0 0 1 1 I 4 68 0000000000 000 O0 0 1 1 1 4 68 O00000OO00 000 O0 0 1 i I 4 68 0000000000 000 O0 0 1 1 I 4 68 0000000000 000 O0 0 1 1 I 4 68 0000000000 000 O0 0 I 1 1 4 68 0000000000 000 O0 0 t 1 I 4 68 0000000000 000 O0 0 1 1 ! 4 68 0000000000 000 O0 0 I 1 1 4 68 0000000000 000 O0 0 i I I 4 68 0000000000 000 O0 0 1 I 1 4 68 0000000000 000 O0 0 I 1 I 4 68 0000000000 000 O0 0 i 1 1 4 68 0000000000 000 O0 0 1 ! i 4 68 0000000000 000 O0 0 i I 1. 4 68 0000000000 000 O0 0 1 1 1 4 68 0000000000 000 O0 0 i 1 t 4 68 0000000000 000 O0 0 1 1 1 4 68 0000000000 000 O0 0 1 1 ! 4 68 0000000000 000 O0 0 1 1 ! 4 68 0000000000 000 O0 0 1 1 1' 4 68 0000000000 000 O0 0 I 1 I 4 68 0000000000 000 O0 0 i 1 I 4 68 0000000000 nO0 O0 0 i 1 1 4 68 0000000000 000 O0 0 i I 1 4 68 0000000000 000 O0 0 1 1 I 4 68 0000000000 000 O0 0 ! ! 1 4 68 0000000000 IS Tape Verification Llstlng ChlUmberqer AlasKa Computipc Center 1-~Y-1991 22:53 PAGE{ 10 DEPT. 5537.000 CIDP.DTE IMpH.DTE 4.422 CILD.DTE IL" DIE 4 383 IFRE.DTE I]nr>*.: OT~ 20.{,:000 IIXD,DT~ SFLU.DTF 4.434 SP.DTE RMOF]bDT 2.445 DRHO.LDT OSS.LDT 0.053 LS. LOT 5ITH, LOT 86,125 SSI..LDT SSHV. LOT 1369.000 SiRH LOT CRbI.LDT -999 250 GR:LDT HTEN t~4L 84 063 SGR:NGT -999 250 POTR.NGT ORAN NGT W3NG.~GT -999 250 W4NG MTEMeNGT -9992250 MRES NGT GR,~LL 160,875 TENS,NbL HTEN, MLL 84. 063 DEPT. IMPN.DTE IL~ DTE IiRD:DTE SFLU.OTE MTEM.DTE RHOB,LDT OSS.LDT LITR,bDT SBHV,LDT CALl.bDT ~RE$.LDT RCFT CML CALI CML HTEN CNb POTA.NGT W3NG.N~T MTE~.NGT G~.Mbb HTEW.~Lb 5500,000 4.422 4.383 201.000 4,434 t19,125 2,445 0.~53 86,.25 1369.000 '999,250 1,154 34.2~8 915,38~ 2.711 14t~.000 -999,250 -999 250 -999 250 160 875 t4t2 000 ClDP DTE CILD:DTE IFRE.DTE II×D.DT~ SP.DTE ~RES,DTE DRHO.LDT LS.LDT SSl.LDT SIRH.LDT GR,LDT HTEN.LDT TNRA,CNL CNTC.CNL TENS CNL SGR' URA~ 'NGT .NGT W4NG,NGT MRES NGT TENS~'LL C~LI.~LL 232,O00 234 500 20i000 20 516 -47.000 1.154 0 098 321 500 248 250 2 145 160 875 84 063 2,992' 2923.292 1680 000 -999 25O -999 250 -999 250 -999 250 1680 000 2 71~ 2 500 20 000 20 16 - 00 1,154 0 098 321 500 2 5 1412 0 3650 000 -999 -999 250 -999 250 3650 000 2,711 IDPH.DTE ILD.DTE IIRM,DTE GR DTE HTEN' CEF 'DTE ,bDT LU,LDT SS2,LDT bSRH.LDT TENS,bDT NPFI,CNL NPOR.CNL CFTC,CNL MRES,CNL CGR,NGT W1NG,~GT W5NG,NGT CS.NGT ~TEM.MLL IDPH DTE ILD DTE IOOF DTE IIR~ DTE GR DTE HTEN DTE PEF LOT LU bDT SS2,LDT LSRH,bDT TENS;bDT NPHIeCN5 NPOR,CNL CFTC~CNL ~RES CNL CGR NGT WiNG NGT W5NG NGT CS NGT ~TEM,~Lb DEPT 5400,000 CIDP.DTE 212.750 IDPH,DTE I~P~'DTE 4.500 CIt..D.[)TE 214,750 ILD,DTE ILM'DT~ 4.316 IFRE.DTE 20,000 IDQF,DTE ' 18,000 IIRM DTE iIR~.fJTE 184,500 IIXD DTE , SFLU DTE 4,473 SP:DTE -69.500 GR,DTE MTE~' ., . ' ,DTE 1!9 188 MRES.DTE 1,1.66 HTEM.DTE 4 309 CI~P.DTE 4:262 CIL~.DTE 3.000 IMOF DTE 214,000 IIXM:DTE 160.875 TENS.DTE 84.063 DPHI.LDT 0 000 OLS.LDT 304 250 Lb,LOT 330 250 LSHV,LDT 2 346 LURH,LDT 1680 000 MTEM bDT 40 552 RTNR CNL 34.228 RCNT CNL 986,933 GR CNL 1.154 MTEM CML -999.250 THOR NGT -999,250 W2NG NGT -999.~50 TENS,NGT =999 250 HTEN NGT 1192125 ~RES:~LL 4 309 CIMP DTE 4 262 CILM]DTE 3 000 IMOF DTE 214 000 IIXM DTE 16~ 875 TENS DTE 141 000 DPHI LOT 3 bDT 304 bDT 330 LDT 3650 DDT 40 CNL 34 CNL 986 CNL . 1,154 MTE~ CNL .999,250 THOR NGT .999'2'50 W2NG NGT .9991250 TENS.NGT 999'250 HTEN.NGT 119.125 MRES.MLb 4 OhS 0 5b 25o LSHV 346 LURH 000 MTE~ 552 RTNR GR 4.695 CIMP DTE 4.652 CILM~DTE 0 000 I~OF.DTE 2172250 IIXM.DTE 140,500 TEN$,DTE 1294.000 DPHI.LDT 225.875 228.000 2,000 6 863 1680 000 12 402 -0 o10 169 250 1714 000 2 355 119 125 3 163 2943 8~5 0 9 160 119 125 -999 250 -999 -999 50 -999 250 I 154 2 ,000 ,000 6,863 3650'000 12 402 -0 010 Oooo 3 2943 ~9 1'60 875 119 125 -999 250 -999,250 -999.250 -999250 1,154 222 125 231 500 0 000 5 934 3435 000 10 847 IS Tare Verification Llstlnn chlumber~er Alaska Computinq Center RMOB.[,DT 2,471 QSS.bD? -0,023 LITH,bDT 77,813 SSHV,bPT 1369,000 CAbI.LDT -999.250 MRES,LDT 1,166 TNPH.CNL 29,659 RCFT,CNL 853.7~4 CaLl.CML 13,8~0 HTEN CNL ~294,000 POT~:NGT 2 810 W3NG,NGT 59i488 ~TE~.NGT 115 I~8 G~o~LL 140.500 ~TE~,~LL 1294,000 DEPT I~P~!DTE IL~ DTE IIRD DTE SFLU:DT~ MTE~.DTM RHOB,LDT QSS bDT LITH:LDT $$HV,LDT CALI,LDT MRES,LDT RCFT,CML C~LI,CWb HTEN,CNb POTa,NGT W3N~,NGT MTE~,NGT G~ MLL HTEN'~bL , . DEPT, I;PH DTE b~ DTE IIR~ DTE SFbU DTE MTE~ DTE RHOB,LDT OSS,LDT LIT~,LDT S~HV,LDT CALY.LDT M~ES,LDT TNPM,CNL RCFT CML CALI:CNL HTEN,CNL POTA.NGT 5300,000 4,863 4,785 175.6~5 5,418 119,250 2,471 -0 002 75 375 1369 000 -999 250 ~ ~79 26 988 104~ 067 12 438 1323 000 2 681 51 205 115 625 113,000 1323,000 5200,000 4.707 4,598 175,125 4,746 1i8,938 2,.4~ 0,004 66,875 1369 000 14~164 1.18~ 28.530 92O 766 14 164 1359 000 2 946 DRHO.LO'r bM.LOT SS1.LDT S1RH.I, DT GR.LDT HTEN.LDT TMRA,CNL CNTC.CNb TENS,CML SGR.NGT URAM,NCT W4NG,NGT ~RE$.NGT TENS,MLL CALI.~LL CIDP DTE CILD DTE IFRE DTE IIXD DTE SP DTE MRE$ DTE DR~O bDT LS LDT SS1 bDT S1RH LDT GR bDT HTEN,LDT TMRA,CNL C~TC,CML TENS.CML SGR,MGT W4NG,NGI, ~EN$,MLL CALI,aLL CIDP"DTE CILD,DTE IFRE,DTE IIXD,DTE SP,DTE MRES,DTE DRHO,LDT LS,LDT SSI bDT S1RH'LDT , GR,LDT HTEM.LDT TMRACNL C~TC,CML TENS.CML SGR,NGT URAM.~GT 22:53 i O. 2 7. 2. 140. 1294. 2. 2697, 3435. 113, 3. 15 3455 199. 202, 20, 17 1. 0 265 211 2 113 132~ 2 1, 3340, 20 , 20, 16, 7. !, 252, 204. 2. 135 . 2, 2861. 3340. 122. 3, 017 PEF,LDT 000 LU.hDT 125 SS2,LDT 557 LSRH,LDT 500 TENS,LDT 000 NPHI,CWL 855 NPOR,CNL 858 CFTC,CML 000 MRES.CNL ~58 CGR,~GT ~13 WING,MGT 0~0 WLNG,NGT ~I, 7 CS.MGT 000 ~TE~.~LL 82O 625 625 000 844 5OO 179 OO4 000 125 449 000 000 624 923 000 8O4 533 024 215 000 438 IDPH.DTE ILD,DTE IDQF,DTE II~,DTE GR,DTE HTEN,DTE PEF,LDT LU,bDT SS~ LDT bSR~ LOT T~NS bDT NPHI CML NPOR CNL CFTC CNb MRE$,CNL CGR.NGT ~IN~,~GT W5~S,NGT MTE~,MGL 375 IDPH.DTE 5 iLD,DTE ~0 IDOF,DTE 688 IIR~,DTE ~$5 GR'OTE 88 HTEN,DTE 05 PEF,LDT 875 LU,LDT 625 SS~ ~DT 12 LSRH: DT ~13 TENS,BDT 000 NPHI,C~L 942 NPOR,CNL 452 CFTC,C~L 000 ~RES,C~L 4(>9 CGR,NGT 875 W1NG.NGT 2.967 247,250 288.000 2,488 3435,000 27,812 29.906 934,113 1.166 9O 570 3562175 9,036 1377.000 119,188 5 OO8 4 934 0 000 196 250 113 000 1323,O00 3,082 251.500 299.000 2 467 3340 000 24891 25 571 1115 045 I 179 89 853 .333 584 13 554 1484 000 11 250 4,988 4 945 0 000 204 1i7 125 13 1359 .000 3 324 245 875 286 000 2 492 3340 000 28 979 28 377 1012 405 1~188 93,469 394,688 OLS.LDT LL.LDT LSHV,LDT LURH.LDT MTE~.LDT RTNR,CNL RCNT.CNL GR CML STEm:CML TMOR,NGT w2NG,NGT TENS,NGT HTEN.NGT MRES,~LL ClMP.DTE CILM.DTE IMOF,DTE IlX~ DTE TENSiDTE DPHI LDT OLS.bDT LL LDT LSHV bDT LURH bDT STEM bDT RTNR CNL RCNT CML GR CML MTEM CNL THOR NGT W2NG NGT TENS NGT HTEN NGT ~RES ~bb CIMP.DTE CILM.DTE IMOF.DTE IIXM,DTE TENS, DTE DPHI~LDT OLS,LDT Lb DT LURH,LDT ~TE~,LDT RTNR.CNL RCNT, CNL GR.CNL ~TEM · CNL F..OR.NGT W2MG.NGT PAGE{ 11 o: oo 133 00 1715.000 2 2698 ~2 140 500 119 188 11 860 174 699 2790000 840 500 1 166 205375 2O875O 0000 334~I09000 10846 o ooo 2 480 119 250 2 847 3113 449 13 000 19 2 0 12 2~7 00o 839 500 1,179 '375 ,000 5,043 3340 000 9731 -0 016 1.3o o00 1714000 2496 118938 3 t36 2892801 8 187 406 IS TsDe Verlficetton t. istlnq chlUmberqer alaska Computtnq (:enter W3NG,NGT 65,109 ~4NG.NgT NTE~.~(;T 115,260 ~RES.~GT G~.MLL 117,813 TENS.~LL HTE~.M[,L 1359.000 CALI.~!LL OEPT. 5100,000 CIDP.DTE I~PH DTE 5,027 CILD.DTE XL~DTE 5 250 IFRE.DTE IIRD.DTE 154:875 IIXD.DTE SFLU.DTE 4.7~1 SP,DTE ~TE~,DTE 117,6~5 MRE$.DTE RMOB.LDT 2.475 DRMO.LDT OSS.LDT 0.002 LS.LDT bITS,bDT 76,56] SS1,LDT SSHV bDT 1369,000 S1RH,LDT CALI~LDT 12,89{ GR,LDT 1,059 HTE~.LDT MRES,LDT 24,559 TNPM CNL TNRA,CMb RCFT'CNL. 1197,6{3 CNTC,CNL CALI,CNL 12,898 TEM~:CNL HTE~,CNL 1379,000 SG NGT POT~.NGT 2,183 W]NG MGT 40, 72 w4NG.NGT MTE~'MGT. 1t4,750 ~RES,. NGT G~ MbL 104,250 TEN$,MbL MTEN:~bL 1379,000 C~LI.~Lb DEPT, 5000,000 CIDP,DTE I~PW,DTE 6,273 ClLD,DTE IL".DTE 5,898 IF~E,DTE IIRD,DTE 132,1~5 IIXD,DTE DTE SFbU,[)TE 5 26 SP,DTE 63 MRES. MTE~ DTE 117, RMOB[LDT 2,478 DRHO,LDT QSS bDT 0,005 LS,LDT bITS,bDT 76,938 SSI.LDT SSHV,LDT 1369,000 SiRH.LDT C~LI bDT 11.6~5 GR.LDT ~RES'LDT ! 08~ HTEN LDT # . TNPM,CNL ~6,479 TMRA.CNL RCFT,CNL 1115,8~6 CNTC.CN5 CALI,CNL ~1,6~5 TENS.CN5 HTEN.CML 1523,000 SGR,NGT POT~,NGT 3,060 URAN,NGT W3NG,NGT 53,398 W4NG,NGT NTE~.NGT 114,048 MRES,~GT GP*~LL 101,125 TENS.~Lb HTEN,~I.b 1523,000 CALI,~LL 1-~AY-!991 22:53 12. 1 3340[ 14. 178. 177 14 1 0 262 209 2 1379 2 103 9 3375 147 150 20 8 -67 1 0 263 212 2 15 2, 3196, 3490, t15, 3. 10, I, 3490. 11, . ~'~GT 414 236 C8,~GT COO ~TE~,Pb[, 164 625 IDPH,DTE 125 ILD,DTE 000 IDOF,DTE 000 IIR~.DTE 031 GR,DTE 059 HTEN,DTE 001 PEF,LDT 750 bU,LDT 250 S$2,hDT 467 bSRH,LDT 250 TENS,bDT 515 NPOR,CNb 743 CFTC,CNb 000 ~RES CNL 58 CGR:NGT ~ WlNG,NGT 6 W5NG,NGT 250 C$,NGT 00 ~TEM,MbB 98 875 875 000 656 063 083 006 50O 125 445 125 000 · 000 965 553 0¢0 625 IDPH,DTE IbD'DTE IDOF,DTE IIRM'DTE GR DTE MTEN DTE PEF bDT LU bDT 8S2 LDT LSRH bDT TENS bDT NPHi CNL NPOR,..CNL CFTC~CNb MRES,CNL CGR'NGT W1NG,NGT W5NG,NGT MTE~,MI.,b 14.771 1499,000 118.9~8 5.594 5 641 OiO00 179 125 104 250 13791000 3 121 251 250 294,250 2,473 3375.000 23.076 24412 1242:440 1,059 76.292 8, 2 1502,063 117,625 6 758 6 625 0 000 159 625 101 125 t523 000 2 830 251 000 297 250 2 471 3490 000 25 1,21 26,874 1230.525 1.'083 89,393 350,070 11,705 1496.772 117,063 TEMS.NGT HTEN,NGT MRES,~bL CI~P,DTE CILM,DTE I~OF.DTE IIXM.DTE TENS.DTE DPH! bDT OLS~LDT Lb,bDT LSHV,LDT bURH,LDT STEM,bDT RTNR,CNL RCNT,CNL MTEM Nb THORNGT W2NGNGT TENS NGT HTEN NGT MRES MLL CIMP.DTE CILN DTE IMOF DTE IIXM DTE TENS DTE DPHI LDT OLS bDT LL bDT LSHV t,'DT LURH bDT MTEM bDT RTNR CNL RCNT,CNL GR,CNL MTEM.CNb T~OR,NGT W2NG NGT TEN$:NGT HTEN,NGT ~RES,~LL PAGEI 12 2678,203 838.383 1,188 198 750 190i375 0 000 1,047 3375.000 10 601 0 005 137125 1715 000 2 480 111 625 3163103 104 !50 Io 5 O0 84~469059 159'I 3';'5 69 375 o o00 o 261 3490 000 10 440 0 013 138 25O 1714 000 2 480 03 3181 505 1 ot 125 11~ 03 I 513 180 ~656 850il DEPT, 4900,000 CIDP. r~TE 403,250 IDPH, DTE 2 479 CIMP,DTE 425,500 I~P~,DTE ?.348 CILD,DTE 421.750 ILD,DTE 2.'369 CILM,DTE 384,000 IL~.DTE 2,604 IFRE.DTE 20.000 IDOF,DTE 0." 000 IMOF.DTE 0'000 IIRD.DT~ 326,000 IIXD.DTE 26.547 IIR~;~, DTE 356 500 IIXM.DTE 10,563 SFLU DTE 1 938 SP DTE -62,000 GR'.~DTE 92,875 TENS DTE 3305,000 NTE~ DTE 116 12.5 MRES DTi~ 1.0q0 TE.~g*DTE 1400 000 DPHI'.LDT t4,251. IS Ta~e verification bisti, no ehlumberger ~laska Computing Center RHOB.LDT 2.4!5 DRHO,I, DT OS$ bDT 0,007 LS.LDT LITH~L~T 89.125 SSi.LDT SSHV.bDT 1368,000 S1RN,LDT CALI.LDT 10,414 GR.LDT "~E$,LDT 1 090 HTE~.LDT TNPF.CNL 34:!70 TNRA.CNL RCFT CNL 747,258 CNTC.CNL CALI:CNL 10,414 TENS,CNb HTEN,CNL 1400,000 SGR,N~T POTA.NGT 2,190 URA~.NGT W3NG NGT 44'890 W4NG,~GT ~?E~ ~GT 112,695 ~RE$,NGT G~i~LL 92,875 TENS.~LL HTEN ~LL 1400.000 CALI.~LL DEPT. IMPH DTE IIRD DTE SFLU:DTE ~TE~.DTE PHOB.LDT OS$.LDT LITH,LDT SS~V,LDT CALI.L~T MRE$ bDT TNPH CML RCFT CML CALl CML HTEN CNL POTa NGT W3NG NGT ~TE~,NGT GP ~Lb 4800,000 CIDP.DTE 7, 8 IFRE,¢TE 120 000 IIXD.DTE 6:797 SP.DTE 114,750 ~RES DTE 2,438 DRHO:LDT '0,006 LS.LDT 87,688 SS1,LDT 1368.000 SlAM,bDT 1.0,664 GR,LDT 1,104 ~TEN,bDT 28.441 TNRA,CNL 1050,488 .CNTC~CNL 10&664 TENS,CNL 1396 000 SG ~GT 2,2~9 URA N~T 44'643 W4NG,NGT 111.250 ~RES,NGT 83 563 ' ~S.,~I,L 96:ooo DEPT. 4700,000 CIDP,DTE I~P~ DTE 4,246 CILD,DTE iL~'DTF 4 578 IFRE DTE . · . , SFLU.DTE 3 236 SP.DTE MTE~.DTE 114 313 MRES.'DTE RHOB,LDT 2,4~3 DRUiD.bDT OSS,LDT 0,002 LS,LDT LITe.bDT 88,688 SSi,bDT SSHV,LDT 1368,000 S1RH bDT CALl,BDT 1.1,250 GR:LDI' ~ES.LDT i,104 HTEN.LDT TMPMiCNL 32,000 TMRA.CNL RCFT.C~!L 755,439 CNTC,CNL CALI'CNb 1i,250 TENS C~L ~TEN.CNL 1.380,000 SCR'NCT. POTA.NGT 2,004 URA~.NGT 1-~Y-1991 22:53 0.035 PEF.LDT 305.750 9:1875 TENS.bDT 2366,088 CFTC,CNL 1. 82 CS.~GT 3305.000 10.414 375 1~0 0 7.527 -67 063 1 104 ~0 011 274 750 204 000 2 490 83 563 1396 000 2 724 3106 317 3220 000 83.223 .712 ~,9 9 1.307 32~0.000 0.664 1~7 250 12~ 625 000 5 1,104 0,005 292,75O 215'625 2,387 ~05,3~3 1380,000 3,1.46 2438,851 3~95,000 I09o690 4,516 IDPH.DTE ILO DTE IDOF:DTE IIRM.DTE GR, DTE HTEN.DTE PEF,hDT LU, bDT SS2,4DT LSRH.LDT TENS,bDT NPMI, CNt, NPOR,CNL CFTC,CN5 MRES.CNL CGR,NGT WINC'NGT W5NG,NGT CS, MTE~,~bL 3 023 OhS.bDT 296:000 LL.LDT 323.500 LSMV.LDT 2 379 bURH.LDT 3305:000 ~ITEM,LDT 31.722 RTNR,CNb 31,946 RCNT,CNL 777.038 GR,CNL 1,090 ~TE~'CNL 71~786 THOR.NGT 291.422 W2NG,NGT 12,~4 TENS.NGT 1501, 2 HTEN.NGT 116.125 ~RES.~LL 7.488 ClMP.DTE 7,363 CILM..DTE 0.000 IMOF.DTE 131,625 IIXM*DTE 83.563 TENS,DTE 1396 000 DPHI,LDT 2 732 OLS,LDT 257 250 Lb bDT 291 750 LSHV LDT 2 447 LURH bDT 3220 000 MTE~ bDT 27 107 RTNR CNL 28 109 RCNT CNL 1156 510 GR CNL '1 104 ~TEM,CNb 62 939 THOR,NGT 500 W2NG.NGT 26~ 143 TENS,NGT 1530 000 HTEN.NGT 114.750 ~RES.MLL IDPH,DTE ILO,DTE , IDOF.DTE . GR,DTE , HTEN,DTE 1380, PEF*LDT 2,977 LU,LDT 28t,750 SS2,LDT 306.750 LSRH,LDT 2,406 TENS,bDT 3195,000 NPHI.CNL 33.191 NPOR.CN~ 34,484 ~RES,CNL 1,. 4 CGR,MGT 75.710 WI. NG,~GT 361,295 5,066 ClMP.DTE 5 :055 ClL~ DTE 0 ~000 I~OF DTE 205 125 IIXM DTE i05 313 TENS DTE 000 DPHI bDT OLS,LDT LL.LDT LSHV.LDT LURH bDT ~TE~:LDT RTNR,CNL RCNT,CNb GR.CNb ~TE~ CNL THORiNGT PAGE: 13 -0 037 157:750 !714,000 2 373 116 125 3 019 2517 343 92 875 116 125 9 552 143 953 2591 063 0 134 375 139~500 0 000 -2 131 322O 000 12~854 0~032 146 125 1714 000 2 465 114;750 2.863 3155~975 83,563 114,750 7.,112 133,036 2510,000 .854,500 1,104 375 21§ 000 -0 684 3195 000 14 356 -0 021 152 000 1714 000 2 404 114 313 105 313 114 313 1~. 328 15 820 IS Tare Verification bistInO ChlUmberger Alaska Computinq Center WIN~.NGT 45.383 W4%G.MGq' MTE~.NGT 110,418 ~RE$.~C;? GP,~LL 105.3~3 TEMS.~I.L HTE~.~i,L 1380.000 CALI.~LL DFPT. I~PW.DTE IIRD.DTE SFL~ DTE R~O~ bDT OSSiLOT LITM bDT $SMV.LDT C~LI,LOT M~ES.LDT T~PW'C~b RCFT.CML CALI,CNL MTEN,CNb POT~.NGT WING,NGT MTE~ NGT GP~MLL 4600,000 6.035 5.887 140.6~5 6,036 1~3.6~5 .~,476 .001 73,563 1369,000 1 33 259 789 945 8 922 1391 0~0 3,253 65,281 109,750 12~,063 1391,000 CIDP DTE CILD!DTE IFRE DTE IIXD DTE SP:DTE MRES,DTE DRHOiLDT LS.LDT SSl,LDT S1RH'bDT GR.LDT HTEN.LPT TNRA.CNL CMTC.CN[. TENS CNL SGR NGT URA~ qGl W4NG NGT ~RES NGT TENS MLL C~LI MI, L DEPT.. IMP~.DTE IIRD.DTE SFbU.DTE ~TE~ DTE OSS,LDT LITe,bDT SSH¥,LDT CALI,LDT ~RES.LDT TMON.CML RCFT.CNL CALI.CNL MTEN,CML POTA,NGT WING,NOT ~TE~,NGT MTEN.~LL 4500 000 51996 5 930 138 625 5,664 112,500 2,463 0 001 75 125 1369 000 10 508 1 122 29 364 903 ??4' 10,508 1355~000 2,4~8 49'746 I08,651 94,~75 1355,000 1'~{AY-1991 22:53 12.165 WbNG.MGT 1.324 C$,NGT ~TE!~.MLb 3195.000 1,1,250 157.375 2 000 J.~ 906 1,108 -0.004 259,500 121,063 1391,000 2469, 6 3105 ~00 125 59 3 776 I1 343 I 341 3105 000 8,922 156 895 158 8 5 20 000 11 008 -66 500 1,~22 '0, 06 ~64, 50 94' 9 . 75 1355,000 3095 000 93 211 o 3095, 0 1,0.508 IDPH.DTE ILD,DTE IDQF.DTE IIR~,DTE OR,DTE MTEN,DTE PEF.LDT LU.bDT SS2,bDT LSRH.bDT TENS bDT NPH! CNL NPOR CNL CFTC CNL MPES CNL CGR NGT WiNG NGT W5NG NGT CS NGT MTEM,MLL IDPH~DTE ILD DTE zpo ~ IIR~ DT DTE GR DTE HTEN DTE PEF bDT LU LDT S$2 bDT 5SRH bDT TENS LDT NPHI CNL NPOR CNL CFTC CNL ~RES CNL CGR~NGT W1NG NGT WSNGNGT CS NGT MTE~ MLL DEPT 4400,000 CIDP.DTE 17%,000 IDPH.DTE I~PH~DTE 5,746 CILD.DTE 17..625 ILD,DTE IL~.DTE 5.434 IFRE,DT~ 20,000 IDOF,DTE IIRD.DT~ 14B.6~5 IIXO.DTE 8,172 IiRM,DTE SFLI! DTE 6,242 SP.DTE -68,000 GR,DTE NTE~:DTE 111,500 MRES.DTE 1.135 HTEN.D?E 11.555 TEN$.NGT 1526.402 HTEN NGT 114.313 MRES:MLL 6.352 CIMP.DTE 6.258 CILM,DTE 0.000 IMOF.DTE 160.000 IIXM,DTE 121 063 TENS,DTE i391 ~00 DPHI.LDT 3 68 QLS,LDT 249 250 Lb,bDT 290 250 bSHV,LDT 2 479 bURH,bDT 3105 000 MTEM,LDT 32 043 RTNR.CNL 33 ~3 RCNT.CNL 845 6 GR,CNL 1 108 MTEM CNL 97 612 THOR NGT 380 46! W2NG NGT $4 723 TENS NGT 15~5 389 HTEN NGT 113 625 ~RE$ Mb[, 6 371 CI~P.DTE 6 289 CIL~.DTE 0 000 IMOF,DTE 158 750 IIXM,DTE 94 875 TENS,DTE 135~ 000 DPH'I,LDT 189 OLS,LDT 250:250 Lb,bDT 289 500 LSHV,LDT 2 469 LURH,LDT 309~ ~00 ~TEM, Nb RTNR,~DT ~9 3~ RCNT,CNb ! I 2 MTEM,CNL 77 ~3 THOR,NGT 294 ~78 W2NG.NGT 11 383 TENS.NGT 5 844 CIMP.DTE 5:789 CILM.DTE 0 000 IMOF,DTE 173:125 IIXM,DTE 88,750 TENS,DTE I]46,000 DPHI.LDT PAGE{ 14 2483, 875 1, 165 500 169 750 0 000 -2 221 3105 000 10 526 0 000 134 875 1713, 000 5 3, 175 2458~921 121 063 113625 656 2425 281 843 000 I 108 ! 5OO 0 000 2 0i4 0o 30~5 0 ,:0oo 1712 482 2659 466 94:8'75 50O 11~:709 141 8~3 2406. 849 ~03 1 122 173 875 18~ 875 :000 0 385 3010 000 11 068 IS Tape verification Listing Chlumberger AlasKa Computing Center RHOB.LDT 2.467 DRHO.LDT ess LDT 0.019 LS bDT LIT,:LDT 81.063 SSli~DT SS,V.LDT 1368.000 Sl~H ii~T CRLI,LDT 10,828 GR,LDT ~PES.LDT 1,135 HTEN.LDT TNPH.CN[. 28,299 TNRA,CNL RCFT.C{~L 1017,302 C{gTC.CNL CALI.CNL 10,828 TEN$,CNL HTEN.CNL 1346.000 SGR, NGT POTR.~GT 2,3~2 URAN,NGT W3NG.NGT 46.467 W4NG.NGT ~TE~.NGT 107.250 ~RES,NGT G~ ~I)L ~8,750 TENS.~LL HTEN: ~LL 1346,000 CALl. ~LL DEPT. IMPM.DTE IIRD.DTE SFLU.DTE ~TEU.DTE RHOB.LDT ~S$ LDT LIT~:LDT SSHV LOT M~ES,LDT T~PH:~[. ~CFT HTEN CML POT~'~GT W3NG.NGT ~TE~.NGT G~.~LL HTEN,~LL 4300,000 3,799 3,623 187 500 110. 2.$81 0,034 91,063 !368,000 10.195 I t46 35908 635 858 10352 1314000 1.873 06, 8 Ig8,500 1314,000 C IDP DTE CILD;DTE IFRE.DTE IIXD DTE SP;DTE ~RES.DTE DRHO. LDT L$, I,DT SSI.LOT StRH.LDT GR, LOT HTEN ' I. DT TNRA.CNL CNTC.CNL TENS. CNb SGR. NGT URAN,NGT W4NG.NGT N ~RES. G ~ C a L ~ L L. IMP~.DTE IL~.DTE IIRD.DTE SFLU.DTE MTE~.DTE RHOF.LDT OSS.LDT LIT~.LDT $SH¥,LDT CALT.LDT ~PES.LOT RCFW,C~L CAL/.C~L HTE~.CNL POTa.NGT 4200000 1993~ !7547 55906 21984 109375 2429 -0,012 ~0,500 1367,000 9.336 1.168 24.157 I443,736 9.242 1293.000 I'555 CIDP.DTE CiLD.DTE IFRE.DTE IIXD.DTE SP.DTE MRES.DTE DRHO.LDT LS.LDT SS1.LDT SiRH.LDT GR.LDT HTEN.LDT TMRA.CNL CMTC.CNL TENS.CML SGR.NGT URAN,~!GT 1-~AY-1991 ~?:53 274 500 LU.LVT 220:2u6 Ss .t, DT 2.375 LSRU,LDT ~8,750 TENS.LDT 1346.000 NPHI,CNL 2,663 NPOR.CNL 2865.{63 CFTC.CNL 3010.000 MRES CML 90.963 CGR:gGT 2.366 W1NG.NGT 7.817 W5NG.NGT 1.378 CS.NGT 3010.000 MTEM,MLL 10.828 218 000 ooo 000 16 3 1,146 0 017 314000 224 70 22~9 98500 1314000 3351 2117 383 2975 000 9~ 296 621 i0000 291~000389 o 352 3 78 2 260 =90 500 1168 -0 012 277 000 204 125 2'486 59 1293:' O0 2 358 3525 087 2840 000 59 ~95 1 IDPH.DTE ILD,DTE IDOF'DTE IIRM.DTE GR,OTE HTEM.DTE PEF.bDT LU,LDT SS2.bDT LSRH,bDT TENS,bDT NPHI.CNL NPOR,CNL CFTC,CN5 MRES,CN5 CGR NGT WlNG:NGT WL~i,N~T .NGT MTEM,MLL' IDPH,DTE IL .)TE IDO"'DTE IIR~i. DTE GR,DTE HTEN'D'TE PEF,bDT bU.bDT $$2,LDT bSRH,bDT TENS,bDT NPHI,CNL NPOR,CN~ CFTC.CML MRES,CNb CGR.NGT WING.NGT 3.070 OLS.LDT 257.000 kb. LOT 304.000 LSH¥.LDT 2.445 LURH bDT 3010.000 ~TEM:LDT 26,100 RTNR.CNL 24.706 RC~T,CNL 1067.722 GR.CNL .135 MTEM*CNL .267 THOR.NGT 152 840 HTEN,NGT 111 500 MRES.MLL 4 0 258 98 1314 2 304 309 2 2975 4.582 CIMP.DTE 3 CILM.DTE ~0 IMOF,DTE 000 IIX~ DTE 500 TENS DTE 000 DPHX BDT 945 OL$ BDT 500 LL bDT 000 LSHV bDT 363 bURH bDT 000 MTEM bDT 37 717 RTNR CNL 36 445 RCNT CNL 671 698 GR CNL 1.146 MTEM CNL 6~ 210 THOR,NGT 333 W2NG.NGT 317 500 TENS,NGT 151~ 000 HTEN.NGT 11 500 MRES'MLL 18 578 CIMP.DTE 1~ 891 ClLM.DTE 000 IMOF'DTE 54 063 IIX~,DTE 59 281 TEN$.DTE 1293 000 DPHI'LDT OLS.LDT 2 264 294 2840 23 25 1506 1 45 188 598 750 LL.LDT 750 LSHV.LDT 439 bURH LOT 000 MTE~:LDT 372 RTNR CML 624 RCMT:CNL 402 GR,CNb 168 ~TE~.CNL 871 THOR.NGT 750 W2NG.NGT PAGEI 15 0 033 146 125 1714 000 2 465 111 500 284 319'7 557 88 750 111500 9 397 131450 2414,199 854.719 1,135 ,'ooo 275,750 0,000 2975. 16 43 161,~750 1713:000 11~ 354 500 3.763 2105.102 98,500 110 500 -9 413 131 ~00 2355 859 500 ! 50,125 ,938 5 ;ooo -5;742 2840.,000 13391 -0 004 I44 625 171t 000 2445 101375 627 3397 109 5 466 79 273 IS Tape Verification Listina chlumberuer AlasKa Computina Center W3N~.NGT 32.395 W4NG.N¢;T MTEr~.FGT 105 078 .~RES,NGT GP.MLL 59:2~1 TENS.~I,L H~N.~I~L 1293.000 CAbI,~LL DEPT, 4100,000 IMP~,DT~ 6.859 IL~,DTE 6,305 IIRD DTE I~9.563 SFL[':DTE 6;742 M?EW.DT~ 108 ~50 RHOF.LDT 2:445 OSS.LDT 0,019 LIT",LDT B4.8~3 SSHV.LDT 1366,000 CAL~,LDT ~ES,LDT 1.180 TNP~.CNL 35,245 ~CFT,CN5 741,237 CALI.CNL 10.289 ~TEN.CNL POT~ NGT 1.857 MTE~,NGT 104,37'6 GR.~LL 73.938 HTEN.~L[, i382,000 CIDP.DTE CILD.DTE IFRE ~TE IIXD:DTE SP.DTE ~RE$.DTE DRHO,LDT L$.LDT SSl LDT S1RHiLDT GR~LDT HTEN,LDT TNRA CNL C~TC:CN~ TENS,CNL SGR.NGT URAN NGT W4NG NGT ~RE$ NGT TENS MLL CALI MLL DEPT, I~P~.DTE Ib~ DTE IIRD!DTE SFLU DTE MTE~ DTE RHOg LDT OSS LDT L~TH LDT SSHV LDT CAL! LDT ~RE$ LDT TNPM CNL RCFT CNL CALl CNL HTEN,CNL POTA,NGT W]N~.NGT ~wE~,NGT HTEN.~I,L 4000.000 7 09 117i~63 ? 56 107 ~5 2'306 · 8 1367 000 35 055 547 640 11 633 1265 000 2 357 48 992 103 8~3 87 000 1265,000 CIDP,[TE ClLD,DTE IFRE DTE IIXO DTE SP DTE MRESDTE DRHO bDT LS LDT SlUR kDT DT HTE~{'LDT TNRA,CNL CNTC~CNL TENS,C~L SGR.MGT URAN,NGT W4NG,NGT ~RE$.NGT TENS,MLL CALI,~LI. DEpT, 3900,000 CIDP.DTE I~PH,DTE 4.020 CILD DTE IL~,DTE 4,305 IFRE DTE IIRD,DT~ 191,875 IiXD DTE SFLU DTE 4 152 SP,DTE .DTE 106,813 ~RES.DTE 1-MAY-lg91 22:53 4,271 W5NG.NGT . ~GT 1 418 CS, 2840.000 ~TE~.MLL 9.242 135 75O ~36:500 20,000 5,820 -72,563 1.150 0 008 279 250 215 125 2 404 73 938 138~ 000 O25 2296 792 2980 000 4 734 1:428 2980 000 10~289 000 ~ 449 '70,500 1,188 0,§92 409, 00 t265. 00 3 088 1919 91 5~03 1~,5 8 ,039 1,439 2720,000 11.633 222 125 226 375 2O O00 14 609 -67 563 1 195 IDPH.DTE ILD.DTE IDOF,DTE IlRM,DTE GR,DTE HTEN,DTE PEF.LDT LU,bDT SS2'LDT LSRH,bDT TEN$,LDT NPHI,CNb NPOR,CNb CFTC,CNb MRES,CML CGR,NGT WlNG~NGT W5NG,NGT CS,NGT MTEM,~LL IDPH,DTE ILD, DTE IDOF;DTE IiRM.,DTE GR,DTE HTEN,DTE PEF"bDT LU;LDT SS2;bUT LSRH,bDT NPMI;CNL NPOR;CNL CFTC'CNL ~RES'CMh CGR,NGT W1NG'NGT wSNG,NGT CS~'NGT MTE~,MbL IDPH,DTE ILD,DTE IDOF,DTE IIRg,DTE GR,'DTE HTEM,DTE 7.707 TENS.NGT 1550.250 HTEN,MGT 109.375 MRES.MLL 2 267 297 2 2980 32 34 739 1 56 248 7 363 CIMP.DTE 7:320 CIL~.DTE 0 000 IMOF.DTE 149:500 IIX~ DTE 73.938 TEN$~DTE 1382.000 DPHI.LDT 965 OL$.LDT 250 LL.LOT 500 LSHV.LDT 436 LURH LDT 000 MTEM bDT 085 RTNR CNL 559 RCNT CNL 037 GR CNb 180 MTEM,CNb 258 TMOR,NGT 656 W2N~.NGT 6 885 TENS NGT 1549~479 HTEN:NGT io .25o 1265 3 380 36~ 2720 32 32 609 72 7 871 ¢IMP DTE 7 816 CILM DTE 0 000 IMOF DTE 625 IIXM DTE 000 TENS DTE 000 DPHI LDT 145 ODS LDT 000 LLLDT 000 LSHV bDT 213 LURH bDT 000 MTEM LDT 170 RTNR CNL 609 RCNT CNL 161 GR CND 188 ,TE,.CNL 248 THOR,NGT 5. 5 TENS,NGT 1554,063 HTEM,NGT 107,625 ~RES.MLL 4.500 CIMP.DTE 4 414 CiLM.DTE 0 000 IMOF,DTE 217 875 IIXM,DTE 81 563 TENS,DTE 1185 000 DP~{I,LDT PAGE{ 16 5,688 1,168 145.625 158.500 0 000 '! 613 2980 000 12 437 '0 007 145 625 9 108 250 34?4 2350 575 73'210 9,8 ~08 69,2 113,2~7 2285 000 848 578 ! 14 0 000 -4 930 2720 000 20 861 -0 009 219 125 000 2051 ~03 87 000 8 0 2274 7 879 4371 1 248, 5 000 0,844 2615,000 19'138 IS Tare verfflcation Listina chlumberoer AlasKa COmputlDq Center RHOF.LDT 2.334 DRHO.Li)T Q$S LDT 0.0t2 LS.LDT LITe:bDT 117,313 SSI.LpT SSHV.LDT ~366,000 $1~H.LI)T CALT.LDT 10,102 GR.LDT MRES.LOT ~ 195 HTED bDT TNpH.cML' 3u :342 TNRA:CNL RCFT.CNL 579~203 CNTC.CNL _ CALl,CML 10.~02 TENS,CNL MTEM.CUL 1185.000 SGR,NGT POT~.NGT 2,145 URAN.NGT ~TE~.NGT 103.3~3 ~RE NGT G~,MLL 81,563 TENS,ELL ~TE~,~bL 1185,000 C~LI,~bL DEP~. I~PM DTE IL~:DTE IIRD.DT~ SFLU.DTE MTE~,DTM RHO~,bDT O$S.LDT LITe,bDT SSMV,LDT CALI.LDT TNPH.CNL RCFT.CWL CALI.CNb HTEN CML POT~:NGT M3NG NGT Ge,NGT ~TE~ ,~LL 3800.000 7,086 6.313 126 438 7 9O6 106 063 ~ 375 0 00~ 99 750 1366 O00 14 .172 1 2O8 27 942 741,237 !4,~5~ i256.000 i.756 ,625 63,344 1256'000 CIDP,DTE CIbD.DTE IFRE.DTE IIXD.DTE SP.DTE MRE$,DTE DRMO,LDT LS.LDT SSI.LDT SIRH,bDT GR.LDT MTEN bDT TMRA;CNL CNTC,CN5 TENS.CUb URAN.NGT W4NG,NGT ~RES,NGT TEN~ MLL CAb DEPT. 3700,000 IL~,DTE 5, 7 IIRD.DTE 144.750 SFLU.DTE 5,582 MTE~,DTE 106,000 RHOB,LDT 2.354 OS8.LD~ 0,034 LIT~.LDT 106,1~8 SSHV.LDT 1366.0 0 CAL~.LDT 16.,92 ~ES.LDT 1 214 P~ C~iL 31~24! RCFT~C~.!L 676.0¢)0 CAI..I.CNL 16,172 HTE~.CNL 1254.000 POTA.NGT 1,4~0 CIDP,DTE CILD ' DTE IFRE,DTE I IXD, DTE T~ SP.D E ~RES DTE DRHO bDT b$ SS 1 LOT SI~H LDT G~, bDT HTE",I, LOT T~RA,CNL C~qTC, C ~b TE~S. CNL SGR,NGT t.]RAq. NGT 1-~AY-1991 22:53 0.037 PEF.LDT 354.750 LU.LOT 234,375 SS2,LDT 2.197 LSR~.bOT 81.553 TENS.bDT 1185.000 NPHI,CNL 3,3t8 1893.883 CFTC.C~L 2615 000 MRES,CNL 84:1i4 CGR,NGT W1NG.NGT 2,715 NGT I 453 2615i000 10102 38.375 141 25 2o: oo 8,531 -75.000 1,208 -0.0~5 3O7 7 0 211 250 2 400 63 344 1256 000 2 864 2223 3 65,368 1,830 6,306 ,476 265 ,000 14,258 IDPH,D?E ILD,D?E IIR~,DTE GR.DTE HTEM,OTE PEF,LDT LU,LQT SS2'LDT bSRH,bDT TENS,bDT NPHI,CNL NPOR.CNL CFTC,CNL MRE$,CNb CGR,NGT W1NG,N~T WbNG NGT MTEM,MLL 2.742 OhS.bDT 331,500 LL.LDT 335,500 LSHV.LOT 2.297 LURH.LDT 2615.000 MTEM.LDT 37 481 RTNR CNL 36[832 RCNT:C~b 574.757 GR'CN5 1 195 MTEM.CNL 63:803 THOR.NGT 273.348 W2NG'NGT 4 965 TENS.NGT 1556:000 HTEN,NGT 106,813 ~RES,MbL 7 59 149 50 63 44 1256 000 3OO 265~ 29 796 1 1546 106 157,125 IDPH,DTE 138'750 XLD'D?E 6 0,000 IDOF'DTE 0 12,227 IiRq,DTE 166 '66.063 GR.DTE 76 1,~4 HTEN.DTE 1254 O, 1 P'EF,LOT 2 338.250 LU,LDT 316 231.'000 SS2,LOT 319 ~,]34 LSRH.LDT 2 76. 75 TENS.bDT 2645 i254.000 NPHI,C~L 30 NPOR.CNL 33 3.~02 22q4, O0 CFTC.CNL 2645,000 ~RES.C~L 75,120 CGR.NGT 3.153 W1NG,NGT CIMP.DTE CILM.DTE IMOF.DTE IIXM DTE TENS:DTE DPHI,LDT 834 ObS.,bDT 500 Lb,bDT 250 bSH¥,LDT .379 LURH.LDT 000 MTEM.LDT 774 RTNR,CNL 991 RCNT,CNL 540 GR,CNb 208 ~TEM.CNL 682 THOR,NGT 9]8 W2NG,NGT 552 TENS,NGT 724 HTEN.NGT 063 MRES.MLL 6 359 CI~P.DTE 293 ClL~,DTE 000 IMOF,DTE 000 IIX~,DTE 375 TENS.DTE 000 DPHX,LDT 473 OLS,LDT 00 LL.LDT 00 LSH¥,LDT ~22 bURH,LDT 000 MTEM,LDT 59I RTNR,CNL 0]8 RCNT.CNL 732.191 GR.CML 1.214 ~TEM.C~L 51.542 THOR,NGT 233.219 W2NG.NGT PAGE{ 17 -0 O02 188 875 1712 000 2 301 106 813 8 1973 81 563 106 8 3 7 6~9 132 i12 2213 156 871 805 1 195 141 000 158 25O 0 000 -o o go 2655 16 657 1710. 000 2117 -6 63, 4 106 63 6 ' 44 89 ~14 5 6 2160 85! 1. 208 000 '1 2645 00 17 964 0 OO2 !80 125 1711 000 2 330 106 000 ° 76 75 106 000 7 484 113 235 IS ~a~e verification Listlno chlUmberqer AlasKa Computing Center W3~C,~GT 30.258 MTEu.r~GT 102,930 ~RES, I'~GT G~. ~[,b 76.375 TENS, ~.~bL HTE~'. ~'bb 1254,000 CALI,~LL DEPT. I~PH.DTE IL".DTE IIRD.DTE SFLU,DTE HTE~.DTE RHOB,LDT OS$,LDT b~T~.LDT SSHV,LDT CALI,LDT ~RES,LDT TNPM,CNL RCFT,C~}L C~L!,CNL HTEN,CNL POT~,NGT W3NG,~GT G~.~LL HTEN.~LL 3600,000 6.449 6 147!125 8 328 105 000 2 268 0 038 134 75O 1365 000 16 0]7 1,229 35 648 514:529 16.016 1243.000 2 485 53~697 101,802 92,813 1243,000 CIDP.DTE CILD,DTE IFRE DTM II~O:DTE SP.DTE ~RES'DTE DRHO.LDT LS,[.DT SS1,LDT S1RH,DDT GR,LDT HTEN.LDT ]!NRA CNL CNTC:CNL TENS CNL SGR NGT URAN NGT W4NG NGT MRES MGT TENS ~bb C~LI DEPT 3500.000 CIDP DTE IMPM:DTE ~0 891 CILD:DTE Ib~ D~E 10:570 IFRE LTE .-SFLU DTE 10.'352 SP.DTE ~TEU:DTE 104,688 MRES.DTE RHOB.I, DT 2,329 DRH~.LDT OSS.L~T 0 013 LS'LDT LITM.LDT !11:875 SS1.LDT SSHV LDT 1365,000 S1RH.LDT C~[.~:LDT 16,891 GR.bDT MRES,LDT 1,232 HTEN.LDT TNP~ CNL 30,0~6 TNRA.CNL RCFT:CNL 741,2~7 CNTC.CML CALl.CML 16.734 TE~S.CNL HTEN,CUL 1207,000 sGR,NGT POT.a NGT 1.596 URAM~MGT W3NG' ., W4NG, . NGT 28,469 NGT GR:MLL 57.6~5 TENS,MI, L HTEN.~LL ~.207.000 CAbI,HLL DEPT. T' 3400 000 CIDP.DTE IMPH.D:f. 7:898 CILD,DTE Ib~ DTE 7,867 IFRE,DTE IIRD' .~ ' ..,DTE 96,000 IIXD,DTE SFbU.DTE 7,535 SP,DTE ~TE~.DTE I03.938 ~RES,DTE 1-~AY-1991 22:53 9.350 W5~G.[~GT 1,480 CS.UGT 2645.000 MTEM,~LL 16.~72 167 875 17 :25o 20.000 6 648 -75:00O 1'229 0 100 442!500 261 000 92, 3 1243,0~0 3,498 1902,215 2535,000 98,496 3,273 9,2~5 ,503 253 ,000 16,016 81,000 86.188 20.000 4,3.98 '86,0~3 1,2 ~ 01 0'7~0 2 572.275 . 625 1207.000 2395,000 60,855 1.5~4 5,8 7 1,521 2395,O00 16.734 106 !25 107 813 2O 000 -2 834 -81 000 1,240 IDPH,DTE ILD,OTE IDOF,DTE IIRM,DTE GR,DTE HTEN. DTE PEF. LDT LU bDT 8S2 bDT LSRH bDT TENS L~T NPH! CNL NPORCNL CFTCCNL ~RES CNL CGR NGT WlNG NGT W5NG NGT CS NGT MTEM XDPM DTE ILD DTE IDOF DTE IlR~ DTE GR DTE HTEN DTE PEF LDT LU LDT SS2 bDT LSRH bDT TENS.bDT NPHI,CNL NPOR.;CNb CFTC,CNL CGR,N~T W1NG.eNGT W5NG,NGT CS,NGT ~TEM°~LL 7.982 TENS.NGT 1554.000 HTEN.NGT 106,000 MRES,MLL 5.953 CINP.DTE 5,801 CILM DTE 0,000 IMOF:DTE 154.250 IIXN.DTE 92,813 TENS.DTE 1243,000 DPHI,LDT 3.049 QLS.LDT 418 000 LL LDT 366 750 LSHV:LDT 2 2535 37 33 569 1 74 306 8 1555 105 .166 LURH LOT 000 MTEM bDT 328 RTNR CNL 135 RCNT CNL 514 GR CNL ~9 MTEM CNL 5 THOR NGT 961 W2NG NGT 946 TENS:NGT 837 HTEN.NGT 000 12 336 CINP.DTE li 594 CILN DTE 0 000 INOF DTE 89 500 IIXM DTE 57 625 TENS DTE 1207 000 DPHI LDT 2 592 OLS,LDT 322 000 LL,LDT 320 250 bSHV,SDT 2 316 LURH;LDT 2395 ~000 MTE~,LDT 29 771 RTNR.CNL 29 551 RCNT.CML 816 835 GR.CNL 1 232 ~TEM,CNL 49 233 THOR,NGT 200 .867 W2NG.NGT 5 816 TENS,NGT 1578 715 HTEN.NGT 104 688 ~RES'MbL IDPH,DTE 9 ,414 CINP.DTE ILD,DTE 9i266 CIL~i,DTE IDQF,DTE 0 000 IMQF,DTE IIR~,~TE 120 063 IIXN.DTE GR DTE 89,688 TENS.DTE HTEN:DTE 1225,000 DPHI',LDT PAGEI 18 2117,047 857,52'7 1,214 155,000 163,625 0 000 -4 258 2535 000 23 165 -0 040 5 1710 2~!62o 92 105 o00 8 921 156 875 2069 6~8 868 094 I 229 99~ 75O 500 0 000 -4 723 2395 000 19 469 -0 0.0 180 8{5 171~ 000 3,8 2S00 6116 57 62.5 104 688 6 169 8'5 i. 02 0 5 688 28~1 547 1 232 12 563 12~ 063 0 000 -O 832 2365 000 22 941 Tape Verification Li$tinq .CblUmberqer Alaska Computlmo Center RMOB.LDT 2.271 DRHO.LDT OS$ LOT 0.019 [,S.bDT LITH~I. DT 118.06] SSl.LDT SSM¥.[,DT 1364.000 S1RH,LDT C~LI.I.DT 17.447 GR.LDT M~ES.LDT ~,240 HTEN,LDT TNP~.C~L 3 ,600, T~R~*CNL RCFT.CNL 538.772 C~TC.CNL CALI.CNL 18.609 TENS.CNL HTEN.CNL 1225 000 SGR.NGT POTA NGT 2:{53 URRN.NGT W3NG:NGT 45.608 W4NG,~GT Ge ~LL 8 688 TEN$.~Lh HTE~'~LL 122 000 CAL! MLL D~PT. I~P~.DTE IL~.DTE IIRD.DTE SFLU DTK MTE~.DTE RgOB,LDT OSS,LDT LITH.LDT SSH¥.LDT CAL .bDT M~ES.bDT TNPg. CNL RCFT.CgL CALI.CNL HTEN.CN5 POTA.NGT ~TEW,NGT G~.~LL HTEN.~LL 3300,000 131.750 6,477 10~,938 ,226 0 013 I29 375 1364 000 17 777 1 235 44 479 360 216 ~7 469 !228 000 2907 62 500 100 875 98.438 1228'000 CIDP.DTE CILD,DTE IFRE.DTE IIXD,DTE SP.DTE MRES,DTE DRHO,LDT LS.LDT S$1.LDT SIRH LOT GR:LDT HTEN,LDT TNRA.CNL CNTC.CNL TENS.CNL SGR.NGT URAN,NGT W4NG.NGT MRES..NGT TEN$,MLL CALI.MLL D~PT 3200.000 CIDP.DTE IMP~DTE 4,516 CILD.DTE IL~.DTE 4,418 IFRE..DTE ~ 375 IIXD.DTE ItRD.OTE 17:230 S DYE PHOS.SDT 2,179 QS$,b~T 0,030 b LDT LIT~oLDT 167,125 $$1.LDT S$~V.SDT 1363,000 CaLI.LDT ~2.500 GR.bDT ~E$.LQT 1,235 ~TEN,LDT TNP~.CNL 42.193 RCFT.CNL 366.363 CNTC.CNb CaLI.CNL 2~.563 HTEN CSL 1200,000 SGR.NGT POT~'ZGT 2 064 URA~ 1-MAY-lg91 ~2:53 0,043 PEF.~DT 396 750 LU,LDT 240~375 SSa,bDT 2.~[g LSRH.LDT 89. 88 TENS,LOT 1225,000 NPHI,CNL ],271 NPOR,CN5 CFTC,C~L 188~.809 236 .000 MRES,CN~ 91.018 CGR.NGT 3 050 W1NG.NGT 7i ! WSNG,NGT I ~2 CS,~GT 2365.000 18,600 146,625 o 00 9 367 -80 563 I 235 0 052 437 000 246 625 0 9 1228 000 3 glo 1614 932 2320 000 99 938 52 274 506 193 375 197 125 20 000 28 047 -82 063 1 235 4902072 2.5~ .750 .500 7~ 948 250 1200 000 ~ 915 146 1 225~ 6 5 2.176 IDPH,DTE ILO,OTB IOOF DTE GR DTE HTEN DTE PEF 5DT LU LOT SS2 LOT LSRH LDT T£NS ~DT NPMI CNL NPOR CNL CFTC CNL MRES CNL CGR NOT WiNG NOT WSNG NGT CS NOT MTEM IDPH,DTE ILD DTE IDOF:DTE IIRM,OTE GR,DTE HTEN'DT~ PEF.LDT LU,bDT SS2,bDT SRH,LDT ~ENS,LDT NP~I.CNL NPOR,CNL CFTC.CNL ~ES CN5 CGR:NGT WING.NGT 3.148 OLS.LDT 374.250 LL.LDT 345.000 LSHV.LDT 2 229 bURH,bDT 2365 000 32 33 575 1 68 262 11 1577 103 938 MTEM,LDT 163 RTNR,CNL 712 RCNT.CNL 240 ~TEM Nb 202 THOR NGT 669 W2NGiNGT 824 TENS NGT 000 HTEN.NGT MRES.MLL 6:~I] CXMP.DTE 6 09 ClSM,DTE 0:~00 I,OF.DTE 164 75 IIXM.DTE 98 438 TENS DTE 410 360 2 2320 44 45 412 1 315 6 1442 103 000 DPHI 275 OLS 250 Lb 000 LSHV 172 LURH 000 MTEM LOT BDT bDT bDT LOT LDT 172 RTNR CNL 613 RCNT CNL 600 GR,CNb THOR NGT 878 W2NG NGT 757 TENS NGT 000 HTEN NOT 938 MRE8 ~LL 5 I68 CINP.DTE 5 070 ClLN DTE 0 000 IMOF:DTE 212 250 IIXM.DTE 74 250 TENS.DTE 1200 000 DPHI LOT 2 818 QLS BDT 456 369 2 2255 41 40 378 1 66 274 000 Lb LDT .750 LSHV bDT 105 LURH bDT 000 MTEM LDT 800 RTNR:CNL 993 RCMT.CNL 039 GR.CNL 235 MTEM.CN~ 761 THOR.NGT 038 W~NG,NGT PAGE~ 19 I03. 3,530 1894,367 89,688 8o 9 146,959 1970,000 852,000 1,240 168,125 174,$00 .2:°°o 082 2320,000 25,687 ; :oso 000 I707,000 4 ,04! 1589 433 98. 4 8 103~918 9.491 157:939 2920 000 849 000 I 235 221. S75 226125. 0 000 3 693 2255 000 28 544 "0 009 ' °ooo 2 ~13 103 13 4432 1515 498 50 74 ~i3 lo3 8 772 1t5 385 IS Tape Verification Listino chlumberGer AlasKa Computino Center W3NG.NGT 49.679 W4t~G.NGT ~TE~ NGT lO0 313 gRE$.~GT HTE~.~'~LL 1200.000 C~L ~LL DFPT. IL~.DTE IIRD.DTE SFLU ~TE"~DTE RMOB.LDT OS$.LDT LiTe.bDT SSHV.bDT CALI bDT TNPH CNL RCFT:C~5 CALI.CNL HTE"~.CNL POT~.NGT W3NG.NGT U~.~LL HTEN.~LL ]100.000 12.883 11,711 64,938 102.]75 1 3~9 -0 031 574 O00 1366 000 22 712 1 250 36,056 466,076 22.703 1200,000 3~ '732 .594 97.875 64,438 1200,000 CIDP.DTE CILD.DTE IFRE.DTE IIXD.DTE SP.DTE MRES,DTE DRHO.LDT LS,[,DT SS1 bDT S1RHiLOT GR bDT HTE~ bDT TNR~.CNL CNTC.CNL TENS CNL SGR~NGT URAM'NGT W4NG,NGT gRES.~GT TENS,~bb CAbI'~LL DEPT. I~PW.DTE Ib~ DTE IIRD:DTE SFLU.DTE MTE~,DTE MOB.LDT ROSS.bDT LiTW,LDT SSHV,LDT C~LI,LDT ~RES,LDT TNPH CNL RCFT:CML CA. bi.CML HTEN.CNL POTA,NGT W3NG.NGT ~TM~ NGT GR'~LL , ~TEM.~LL 3000,000 15,086 15.773 46.875 13,797 I01,~50 2,27i 0.001 1!1.375 1370.000 12.969 1,261 35,553 546,.856 t3,914 1274,000 1,561 28'045 96.563 61'063 1274,000 CIDP,DTE CILD'DTE IFRE,DTE IIXD.DTE SP DTE ~RES:DTE DRHO.LDT LS,LDT SSI.LDT SiRH,LDT GR'LDT HTEM.LDT TMRA,CNL CNTC~CNb TENS.CNL SGR.NGT URAN.~GT W4NG~NGT TEN~ CAb DFPT. I~PM.DTE Ib~ DTE IIRD' .DTM SFLU.DTE MTEU.DTE 2938.500 -999 250 -999 250 -999 250 -999 250 -999 250 CIDP.DTE CILD.DTE !FRE.DTE IIXD.DTE SP.DT£ gRES.DTE !-~AY-1991 22:53 6.410 W5NG.NGT I 577 CS NGT 22.553 67,O63 70,750 20.000 -4 492 -101~500 1.250 -0,~16 1914, 00 244.375 1 406 64:438 1200,000 3,~ 1 1806. 6 2255,0 0 69,260 748 [: so 1,616 2255.000 22.703 4 156 5~ 469 20 000 0 463 -92 -0 2 219 00 2 ~79 61 063 1274 000 185~ 42 2290 0 1 877 3,205 229~ '625 ,000 13.914 -999 250 -999 25O -999 2~0 -999 2 0 ~999 250 -999 250 IDPH.DTE ILD.OTE IDOF,DTE IIRM,DTE GR,DTE HTEN'~TE PEF,bDT LO,bDT SS2 bDT bSRH bDT TENS bDT NPHI CNL NPORCNL CFTC CNL MRES CNb CGR NGT W1NG,NGT W5NG,NGT CS.NGT ~TEM'~Lb IDPH,DTE ILD,DTE IDOF,OTE IIRM,DTE GR,DTE HTEN.QTE pEF,bDT LU,~DT SS2'5DT bSRN,bDT TENS,bDT MPMI.CNL NPOR::iCNb CFTC,CNL ~RES,CNL CGR.NGT WtNG'NGT WLNG,NGT CS,NGT ~TE~'MLL 10.417 TENS.NGT 1437 000 HTEN.NGT 103:313 ~RES.MLL 14.898 CIMP.DTE 14.125 CILM.DTE 0.000 I,OF.DTE 80.875 IIXM.DTE 64.438 TENS DTE 1200.000 DPHI:LDT 3.152 OLS,LDT 1932,000 Lb,bDT 44~.000 LS~V,LDT .345 bURH,bDT O0 MTE~.LDT 22538: :~49 RTNR.CNL 35 877 RCNT,CNb 514 399 GR.CNb 5~ .~50 MTEM CNL 84 THOR NGT 20~ ~69 W2NG NGT 13 TENS NGT 1447 O00 HTEN NGT 102 375 MRES,~LL 19 0 6O 61 1274 2 345 32! 2 2290 21 656 CIMP DTE 813 Clb~ DTE 000 IMOF DTE 25 II×M DTE ]63 TENS DTE 000 DPMILDT 951 OLM bDT ~50 Lb bDT ~00 LSHV bDT ~71 LURH bDT 000 MTEM bDT 36 987 RTNR,CNL 36,9§5 RCNT'CNL 566.540 GR,CNL 1 MTEM.CNL 1 4 900 ~2NG,~GT 006 TENS,NGT 1444,~00 lOl. 5o PAGE: 20 1855,000 851,000 1,235 77 563 85 313 0 000 '12 516 2255 000 80 040 '0.048 948 000 1709000 10~35837 3.$2~ 1826762 64 438 102 ]75 7 405 855 000 1 250 66 250 63375 0 000 -0 286 2290 g00 22 ?0 .o 0 1803 61 i63 93,750 ~795000 852 I 261 IDPH,.DTE -999 ]50 CI~P.DTE -999,250 ILD,DTE -999:50 CILM.DTE -999,250 IDQF,DTE -999:250 IMQF DTE -999'250 IIR~.DTE -999 250 IIXM:DTE -999,~50 GR,DTE -999 250 TENS DTE -999,~ HTEN.DTE -999:250 DPHI:LDT -999, IS TaLe verification Listing chlumberGer Alaska Computing Center !-MA¥-1991 22:53 PAGE: 21 RHOB.I.DT -999.250 DRHO.LDT OSS.LDT -999 250 LS.LDT LIT~.LDT -999i~50 SSI.LBT SSHV LDT -999 250 $1RH.LDT CAL~[bDT -999 ~50 G~.LDT ~iPES.LDT -999,~50 HTEN.LDT TNPH.CNL -999~250 TNRA.CNb RCFT.CNL -999.~50 CNTC.CNL C~LI.CNL -999,250 TENS,CNL HTEN.CNL -999,250 SGR.NGT POT~ NGT -999.~50 URAN,N~T W3NG~NGT -999 250 W4NG.NGT MTE~. NGT -999:~50 ~RES.NGT G~.~LL -999,~50 TENS.~LL HTE~.~L5 -999,250 CALI,PLL -999.250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999:250 ii9,250 99,250 9. 50 PEF.LDT LU,LDT SS2,LDT LSRN'LOT TENS,LDT MPMI,CML NPOR,CNL CFTC,C~L MRES,CNL CGR,NGT W1NG,NGT WLNG,NGT CS'N.~T MTEM,MbL -999.~50 @LS.LDT -999 250 LL.LDT -999:250 LSHV.LOT -999 ~50 LURH,LDT -9991250 ~TEM,SDT -999 250 RTNR,CNL -ggg ~50 T£NS:NGT -ggg 250 -ggg ~$0 MRE$,~LL =ggg 250 -999 250 -ggg 250 -999 250 -999 250 -ggg 250 -999 250 -999 250 '999 0 - 99 2go '999 250 '999 250 -999 250 ** END OF DATA **** FILE TRAILER **** FILM NAME : EDIT ,001 SERVICE : FbIC VERSION ~ O01A06 DATF : 9~/05/ ~ MAX REC SIZE : 1024 FILE TYPE : bO LAST FILE : **** FILE HEADER **** FILM NAME : EDIT ,002 SERVICE : FLIC VERSION : O01A06 D~TM : 91/05/ 1 MAX REC SIZE : 1024 FILE. TYPE : LO LAST FILE : ****************************************************************************** FILE - EDIT,002 BP EXPLORATION WILDCAT (KUPARUK UPLANDS) ~ALGUK ~1 SDT LOG DATA RECOils. Pi. ITEL ~T cO~PUTING CENTER FROg FIELD FILE .044 IS Tape verification List.~nq chlumberoer ~las~a Computln(~ Cemter 1-MAY-1991 22:53 , , , * D~TA INCLUDED * * TOOL EXTENSION * TYPE USE~ * * SOT DTCO,PTE * SOT DTCO.ITP * SDT DTSM.PTE * SDT DTSM,ITP * SDT CHCO,REC * SDT CHCO,TRA * SD CNSH.REC * ST CHSH.TRA * DT RSHC,ACT * SDT SGR,UNK * DATA SAMPLED EVERY -.5000 FEET EXTENSION DFSCRIPTION DT COMPRESSIONAb HIGH ~UALITY OT COmPRESSIONAL LOW QUALITY OT SHEAR HIGH OUALITY DT SHEAR LOW OUALITY COHERENCE AT COMPRES$IONAL PEAK RECEIVER MODE COHERENCE AT COMPRESMIONAL PEAK TRANSMITTER MODE COHerENCE AT SHEAR PEAK RECEIVER MODE COHERENCE AT,SHEAR PEAK TRANSMITTER ~ODE SHEAR CO~PRESSIONAL RATIO GAMMA RAY FROM DSI ****************************************************************************** PAGE~ 22 T~BLF TYPE : CONS TONI VALU DEFI TYPE CN FN WN APIN Fb $MCT TOWN COUN ST~T N&TI LATI LONG WITH SON PDAT EPD LMF APD EDF EGL TLI DFT DFD FT FT FT FT WT FT FT FT G/C3 BP EXPLORATION WILDCAT (KUPARUK UPLA MALGUK #1 50-223-200!9-00 3710' FNL & 556' FEL 28 4N 9E NORTH SLOPE ALASKA USA PUTNAM/ALNES/BARNABY 548194 0 341 4 340,4 314 1.07~4, 5471. 2976, LOW SOLIDS ~0,1 Compan Name Field ~ame Well Name API Serial Number Field Location Section Township Range County Sta~e or Prov~nce Nation Latitude Longitude Wit6ess' Name Service Order Number Permanent datum, Elevation of Perm, Da Log Measured From ABOVE PERMANENT DATU~ Elevation of Kelly Bu Elevation of Derric~ Elevation of Ground b Total Depth - Driller Total Depth - bog~er Bottom Lo~ Interval To~ bog Interval Dr lling Fluid Type Drlllln~ Fluid Denser ZONE IS Ta~e Verlticatlon Llstlnq ChlUmber{~er alaska Como,.ltinQ Center 1-uAY-1991 2~:53 PAGE: 23 TU~,;I VAI,U DEFI TYPE ............................................ ............,,.,.................................. 8,5 Drilling u d Pn DFV CP 54, DF[, r3 ~FST DEGV R~CS OH~; 1 73 ~CST ~GF 6~ TCS S?E~ DEGK '999.25 BHT DEGF 121, Drilling Fluid Viscos Orillin~ Fluid boss Resistivity of Mud Sa ~ud SamPle TemPeratur Resistivity of mud fi ~ud_Filtrate Sample T Resistivity of ~ud Ca .ud Ca~e Sample Tempe Time Circulation Stop Surface Temperature Bottom Hole Temperatu TABI,E TYPE : ZONE T~BLE TYPE : CURV DEFI DKPT De~th Channel Name DTCO QTCO DTCO DTCO DTS~ DTSM DTS~ DTSM C~CO COMP COHERENCE CHCO COgP COHERENCE CHS~'~ SMEAR COHERENCE C~S~ SHEAR COHERENCE R$HC RATIO SHEA~ TO CO~PRESSIONAL DELTA T S~R S~ectroscop~ Gamma-Ray ** DATA FO~AT SPECIFICATION RECORD ** SET TYPE - 64EB ** .;... .... .......... :..... YPk; RPR CODE ~LU~: 1 66 0 2 65 0 3 73 44 4 66 i ~IS Ta~e Verification Listino chlumberoer AlasKa CommuttnO Center !-~AY-~991 22:5] PAGE: 24 mmmmmmmmmmmmmmmmmmmmmmmmmmmmm~ TYPE REPR COD~ VALUE 5 66 6 73 7 65 8 68 0.5 9 65 FT 1~ 66 23 12 6~ 13 66 0 14 65 FT 15 66 68 16 66 0 66 ** SET TYPE MAiM SERV [)MIT 8E~V'YC ID O~DER CHAN ** API API API AP1 FILE NU~{B NUMO SIZE REPR PROCESS LOG TYPE CbA$$ gOD NUMB SA~P ELE~ CODE (MEX) mmmmmmmmm~mmmmmmmmmmmm~mmmmmmmm~m~mmmmmmm~mmm~m{m~m~mm~{m DEPT FT 548{94 O0 DTCO PTE -IlS 548194 O0 DTCO ITP US 548194 O0 DT$~ PTE US/F 548~94 O0 DTSM ITP US/F 548194 O0 CHCO REC 548194 O0 CHCO TRA 548~94 00 CHSH REC 548194 O0 CHSR TRA 548194 O0 RSHC ACT 548194 O0 SGR UNK GAPI 548194 O0 000 O0 0 2 I 1 4 68 0000000000 000 O0 0 2 I 1 4 68 0000000000 000 O0 0 2 I 1 4 68 0000000000 000 O0 0 2 1 1 4 68 0000000000 000 O0 0 2 I ! 4 68 0000000000 000 O0 0 2 1 1 4 68 0000000000 000 O0 0 2 1 1 4 68 0000000000 000 O0 0 2 1 1 4 68 0000000000 000 O0 0 ~ I 1 4 68 0000000000 000 O0 0 2 1 I 4 68 0000000000 000 O0 0 2 1 1 4 68 0000000000 ** DATA ** DMPT. 5475,:000 DTS~ ITP 168.608 CHSN :TRA 0'799 DEPT. 5400.000 DTS~,ITP 167,932 CHS~.TRA 0.855 DTCO.PTE CHCO,REC RSMC,ACT DTCO.PTE CHCO RSMC ACT DEPT. 5300,000 DTCO.PTE DT$~.!TP 157.383 CHCO.REC CHS~,TRA 0,800 RSHC,~CT DEPT 5200 000 DTCO.PTE DTS~'ITP {73:478 CHCO.REC C~$W T~A 0,803 RSHC 86.259 DTCO.ITP 86-259 DTSM.PTE .168,6082 -999,250 CHCO,TRA 0.894 CHSH,REC 999, 60 ~,955 SGR.UMK 0'000 84,776 DTCO,ITP 84,776 DTSM.PTE 167,932 0,886 CMCO,TRA 0.808 CHSH'REC 0,864 1.981 SGR,U~K 113.858 82,438 DTCO,ITP 82,438 DTS~.PTE 157,~85 0.934 CHCO.TRA 0881 CHSH.REC {,.909 SGR,UNK 111:866 86,780 DTCO,ITP 86.780 DTS~.PTE t73,478 0,851. CHCO,TRA 0.859 CHSH.REC 0,728 1.999 SGR.UNK I15.765 IS Ta~.e Verification I:isting ChlUmb. ereer alaska Co~'~put. ing Center PAGE: 25 DEPT 5100.000 DTCO PTE 80.883 DTCO,ITP 80.883 DTSM,PTE 15~.981 DTS~!TP 154,981 CHCO~REC 0.900 CHCO,TRA 0,900 CHSH.REC v,813 C"S".TRA 0,677 RSHC.ACT 1,916 SGR,ONK 105,605 DEPT 5000,000 DTCO,PTE 79,g10 DTCO,XTP 79,910 DTSM,PT~ 151,656 DT$~:~TP 151,656 CHCO,REC o,899 CHCO,TRA 0,925 CHSH,REC 0,761 C"$..T~ 0.859 RSHC.ACT 1,898 8G~.UNK 120.233 DEPT 4900.000 DTCO PT~ 80 ~20 DTCO,ITP ~0~520 DTS~.P?E 160,089 DTS~*ITP 160,089 CHCO~REC 0~ ~0 CH¢O,TRA 0 767 CHSH,REC 0.~46 C,$N~TRA 0.000 RSHC.ACT 1,98~ SGR.{~NK 103~ 199 DEPT 4800,000 DTCO PTE 85.734 DTCO.ITP 8}'734 DTSM.PTE 166.-170 OTS ' Tp lS .170 C COi C SSS 0.848 700.0o0 o co. Ts O?CO.XT. OTS .PTS DTSM:~TP 161,891 CHCO,R~C 0. 32 CHCO.TRA 0,91 CHBH.R~C ,716 DEPT 4600 000 DTCO PTE 87,416 DTCO,ITP 87 4~6 DTS~ PTE 17R'042 DTSP~ITP 170' ' ' ,.042 CHCO,REC 0,930 CHCO,TRA 0 8 3 CHSH~R£C ~,683 CHS~oTRA 0,698 RSHC,ACT 1,945 SGR,U~K 125~813 ' DFPT 4500,000 DTCO,PTE 86,490 DTCO,XTP 86,490 DT$~ PTE 169,575 DTS~'!TP 169,~75 CHCO,REC 0,897 C.HCO,TRA 0,914 CHSH~EC 0,620 CHSH~TRA 0.667 RSHC.ACT 1,961 SGR,UNK 102.906 DEP? 4400 000 DTCO.PTE 84.895 DTCO.iTP 8~,895 DTSM.PTE 169'7!9 DTSU:ITP 169:7~.9 CHCO,REC 0,930 CHCO,TRA 0.815' CHSM,REC 0,5~8 CHSg.TRA 0.450 RSMC.ACT 1.999 SGR,UNK 9~,019 DEPT 4300.000 DTCO PTE 89.349 DTCO.ITP 89,~49 DTS~oPTE 17~ 4B1 DTS~{'ITP 177.481 CHCO:REC 0.79§ CHCO,TRA 0.. 42 CHSM,REC CHS~TRA 0.000 RSMC.ACT ~.986 $GR,UNK 88.837 ,470 DEPT 42~00,000 DTCO.PTE 83.~5 DTCO,XTP 83.285 DTSP.PTE 154,758 DTS~'ITP 154 758 CNCO,REC 0 0 CHCO,TRA 0.734 CHSH,REC 0,6~4 CHS~ ' ' ' · .TRA 0.000 RSHC,ACT 1.858 SGR.UMK 60,'484 D~PT. 4~00.000 DTCO PTE 90.365 DTCO.ITP 90 365 DT$~.PTE 177.419 DTSu ITP ~77..419 CHCO:REC 0.840 CHCO.TRA 0:831 CHSH,~EC 0,000 CHS~:TRA 0.364 RSHC.ACT 1.963 SGR,UNK 8~.499 DEPT ~000.000 DTCO.PTE 94.~47 DTCO.ITP 94 ~47 DTS~.PTE -999.250 ~}I'$~''ITP 999.250 CHCO,REC O. 48 CHCO.TRA O: ~4 CHSM,REC 0.000 DEPT 3900,000 OTCO,PTE 92,839 DTCO.ITP 92,839 DTSM.PTE '999,250 DT$~ITP '999,~50 CMCO,PEC 0,864 CgCO,TR~ 0,91.4 CESH.REC 0,000 CH$~oTRa 0,277 RSHC,aCT -999,250 SGR,U~K 87.550 IS Tape Ver.lficatlon l. lstln chlumberoer AlasKa Comoutln DEPT. 3800.000 DTS~.ITP 182,25! C~SP.TRA 0.452 DPPT. 3700,000 DTSU.ITP -999.250 CHSH,TRA 0,000 DEPT. ]600,000 DTS~.ITP -999,250 CMSt~.T~A 0,000 DEPT. 3500,000 DIS~ ]TP -999,250 C~S"' .,IRA 0,000 DEPT 3400 000 DTS":ITP -999:250 CHS~.TRA 0,000 DEPT. ~300,000 DIS~ ITP 990,250 , C~S[~.TRA 0,000 'DEPT ~200,000 DTSW]ITP 999,250 CHS~.TR4 0,000 DEPT, 3100,000 DTS~.ITP '999,250 CHS~,TR~ 0,000 DEPT 3000,000 DTS~'.ITP -999,250 C~S~.T~ 0.000 ~)~PT. 2928:~00 $~.,ITP -999 50 C~S~4,TRA -999,~50 ** END OF DATA q q Center DTCO.PTE CHCO.REC RSHC.ACT DTCO,PTE CHCO.R~C ~SHC,ACT DTCO.PTE CHCO AEC RSHC:ACT DTCO PIE CHCOiREC ~SHC ~CT DTCO.PTE CHCO,REC RSHC,ACT DTCO PTE CHCOiREC RS~C ACT PTE DTC~:~EC C~C ~$~.~CT DTCO.PTE CHCO'REC RSHC.ACT DTCO,DTE CHCO.REC RSMC,ACT DTCO,PTE C~CO.REC RSHC,ACT ~-~AY-199] 22:53 9%.118 DTCO.ITP 0.869 CHCO.TRA 2.000 SGR,ONK 92.558 DTCO.ITP 0 779 CHCO.TR4 -999:250 SGR.U~K ~00.151 DTCO,ITP 0,618 CHCO,TRA -999,~50 SGR,UNK 94,3{9 DTCO'ITP 0,955 CHCO,T~ '999,250 SGR,UNK %04,099 DTCO,ITP 0,904 CHCO,TRA '999.250 SGR,UNK 103 535 DTCO,ITP 0]865 CMCO,TRA '999,250 SGR,UNK 102,198 DTCO,~ITP 0.9{5 CHCO,TRA -999,250 SGR,UNK 97,327 DTCO,ITP 0.896 CHCO,TRA -999,250 SGR,UMK 95,~42 DTCO,ITP O. 4 C~CO,TRA -999,~50 SGR,UMK 101,777 DTCO,ITP 0,~44 CHCO,TR~ -999. 0 SG~.U,~ 91.118 0.829 69.316 92,558 0.866 71,450 ~00.15! 0.836 95.727 943~9 0i887 62 791 ~04.099 39 103 5~5 0;953 99,938 ~02,198 0,957 80.~45 97,327 0,882 89,219 95,4!2 0,~37 62,75 lo4.777 -99 .250 -999,250 DTS~.PTE CMSH.REC DTS~.PTE CHSH.~EC DTSM.PTE CHSH.REC DTSM.PTE CHSH.REC DTSM.PTE CHSH.REC DTSM,PTE CHSH.REC DTSM,PTE CHSH.REC DTSM.PTE CHSH.REC DTSM,PTE CHSH'REC DT$~.PTE C~SH.REC PAGE~ 26 182.251 0,336 '999,250 0,000 '999,250 0,000 -999,250 0,000 ,250 '99~,000 '999,250 0,000 '999,250 0,000 . 5o '99~,000 "99~,250 ,000 '999:~500 O0 **** FILE TRAILER **** FILE NA~E : EDIT .002 SERVICE : FtIC VERSION : 001406 DATE : 91.105/ i ~AX AEC SIZE : !.024 FILF TYPE ~ bO LAST FILE : IS Tare Verification bistln~ cblumberoer ~lasMe Computinc Center 1.-~AY-199! 22:5] PAGEI 27 **** FILE HEADER **** FILW ~A~E : EDIT .003 SERVICE : FLIC VED$IC~ : O01A06 ~aT~ ~AX AEC SIZE I 1024 FILE TYPE : bO LAST FILE FIL~ ' EDIT,O03 BP EXPLORATION WILDCAT CKUPARUK UPLANDS) ~LGUK #1 LOG D~TA RECOMPUTED IN COMPUTING CENTER FROM FIELD FILE DSST .004 DaTA SAMPLED EVERY -,5000 FEET DATA INCLUDED TOOL EXTENSION EXTENSION TYPE USED DEFINITION PSI PSI PSI PSI DSI DS I PSI OS I DTCO.FMD DTSM DTSM PUN DTS~ IUN DTSM PLB DTS~ DTS~ PUB DTS~ IUB R,L~'X R UTX CH~H.LTX CHSH,UTX RSHC,LTX RSHC.UTX GR,D~S CALI,LDT DT COMPRESSlONAb CFIRST MOTION DT SHEAR HIGH QUALITY bOWER DIPOLE BEFORE BIAS CORRECTION DT SHEAR bOW QUALITY bOWER DIPOLE BEFORE BIAS CORRECTION DT SMEAR HIGH QUALITY UPPER DIPOLE BEFORE BiAS CORRECTION DT SMEAR LOW ~UALITY UPPER DIPOLE BEFORE BIAS CORRECTION DT SMEAR HIGH QUALITY bOWER DIPOLE AFTER BIAS CORRECTION DT SHEAR bOW QUALITY bOWER DIPOLE AFTER BIAS CORRECTION DT SHEAR HiGH ~UAbITY UPPER DIPOLE AFTER BIAS CORRECTION DT SHEAR LOW QUALITY UPPER DIPOLE AFTER BIAS CORRECTION POISSONS RATIO LOWER DIPOLE POISSONS RATIO UPPER DIPOLE COHERENCE AT SHEAR PEAK bOWER DIPOLE COHERENCE AT SHEAR PEAK UPPER DIPOLE SHEAR CO~PRESSIONAL RATIO bOWeR DIPOLE SHEAR COMPRM$SIONAL RATIO UPPER DIPOLE GAMMA RAY FROM D$I CAbIPER FRO~ ****************************************************************************** IS Tare verificatiom Listinq chlumberqer AlasKa Co~nputlno Center 22:53 PAGE: 28 TA BI. Fl TYPE TUN! C~ F~ API~, FL SFC~ TOWN RANg STAT NAT! bAT! LONG WITH pDAT EPD EKB EDF TDD TDL BLI TLI DFT DFD DFP~ DFV DFL MST ~CST TCS BMT FT FT FT FT FT FT FT FT CP F3 DEGF OHM~ DEGF DEGF V~LU DEFI TYPE ...... ................................................ BP PbO_ATIO~ Company Name WILDCAT (gUPARUK UPLA Fieldgame ~AbGUK #1 Well Hame 50-223-20019-00 API Serial NumOer 3710' FNI, & 556' FEI, Field Location 28 Section 4N Township 9E ~ange NORTH SLOPE County ALASK~ State or Prov~nce USA Nation Latitude Lonqitude PUTNAM/ALNE$/BARNABY Witness' Name 548~94 Service Order Number ~$L Permanent datum Elevation of Perm. Da ~B Log Measured From 341,4 ABOVE PERMANENT DATUM 34~,4 Elevation of Kellv Bu 340,4 Elevation of Derrick 3~4 Elevation of Groond I07~4, Total Depth - Driller Total DePth - Logger ZONE 5471. Bottom Log Interval 2976 ~¥1bog I~terval . LOW ~OLIDS ling Fluid Type 10,1. Drlllln~ Fluid Densit Drillin~ FlUid P~ 5~, Drtllin~ Fluid V'iscos , Drilling Fluid Loss ~"79 Resistivity of Mud Sa 69 Mud. SamPle Temperatur ~§6 Resist~git¥ of'mUd fi 69 Mud Filtrate Sample T 1~3 Resistivity Of Mud. Ca 69, ~ud Cake Sample Tempe ~6~30 4-~i Time Circulation Stop -999,25 Surface Temperature 121, Bottom Hole Temperatu TABLE TYPE : ZONE IS Tape verification CblUmber~er AlasKa Co~Duti~q Center 1-~;~Y-1991 22:5] TABLE TYPE : CURV DEFI DEPT DeDtb ChanDel Name DTCO DTCO DTS" OTS~ DTS~ DTSM DTSW DTS~ DTS~ DTS~ DTS~ DTSM DTS" DTS~ DTS~ DTS~ DTS~ PR Poisson's Ratio PR Po~ss'on's Ratio CHSH SHEAR COHERENCE CHSH SHEAR COHERENCE RSHC R~TIO BHEA~ TO COMPRESSIONA5 DELTA T RSMC RATIO SHEAR TO COMPRESSIONAL DELTA T GR Gamma Rav C~l,r Caliper PAGE~ 29 ** D~TA FORMAT SPECIFICATION RECORD ** SET TYPE - 64EB TYPE REPR CODE VALUE 1 66 0 2 66' 0 3 73 72 4 66 1 5 66 6 7 65 11 66 14 12 68 13 66 0 14 65 FT 15 66 68 16 66 1 0 66 I IS Ta~e Verification bistino ChlU~.berQer Alaska ComputJ. nO Center ~-~IAY-199] 22:53 ** SET TYPE - CHAN ** NA SERV tlNIT RVICE I AP! API P FILE N B NUMB SI REPR PROCESS ID ORDER ~ LOG TYPE CLASS MOD NUMB S~MP EbEM CODE (HEX) DEPT FT 54~194 OO 000 00 0 3 1 1 4 68 0000000000 DTCO FMD US 548194 O0 D?S~ PLN US/F 548194 00 DTS" IbM US/F 548194 O0 DTS~ PUN US/F 548194 00 DTSM IUM US/F 548194 O0 DTSM PLB US/F 548194 00 DTS~ ILB US/F 548194 O0 DTS~ PUB US/F 548194 00 DTSu IUB US/F 548194 O0 pR bTX 548194 O0 PR UTX 548194 O0 CHSH bTX 548194 00 CHSH UTX 548194 O0 RSHC LTX 548194 O0 RSHC UTX 548194 O0 GR DSS GAPI 548194 O0 CAb! LDT IN 548~94 O0 000 O0 0 3 1 1 4 68 0000000000 000 O0 0 3 1 1 4 68 0000000000 000 O0 0 3 1 1 4 68 0000000000 000 O0 0 ~ l 1 4 68 0000000000 000 O0 0 3 1 ! 4 68 0000000000 000 O0 0 ~ 1 1 4 68 0000000000 000 00 0 ] 1 I 4 68 0000000000 000 00 0 3 I 1 4 68 0000000000 000 00 0 3 1 1 4 68 0000000000 000 O0 0 3 1 1 4 68 0000000000 000 00 0 ~ 1 1 4 68 0000000000 000 O0 0 ~ 1 ! 4 68 0000000000 000 O0 0 3 1 1 4 68 0000000000 000 00 0 3 I 1 4 68 0000000000 000 00 0 3 1 1 4 68 0000000000 000 00 0 3 1 1 4 68 0000000000 000 O0 0 3 1 1 4 68 0000000000 PAGE{ 3O ** DATA ** DEPT 5280.000 DTS~;iPpU~ 1.78.871 DTS~ UB 166,976 CHS~.LTX 0,977 G~.DSS 98,625 DEPT 5200.000 DT$~'PUN 1 24 , 92, 8 GP,Dss 104,2~1 . DTCO,F~D 87.3~3 DTSM PLN 190!443 DTSM.ILN DTSM.IUN 178,8 1 DTSM~PLB 178 217 DTSM,,ILB DTSM.IUB 166.976 PR,LTX 0 342 PR,UTX C~SH,UTX 0.979 RSMC,LTX 2 O41 RSHC.UTX CALI.LDT 13,375 190,443 17~'217 t, DTCO.F~4D ~ 88,357 DTS~.PLN 194.262 DTSM.ILN 194,262 DTS~,IUN 192,~48 DTSM,PLB 180 644 DT$~..ILB 180,644 DTSV,IUB 178,,781 PR.,LTX 0:343 PR,UTX 0,338 CHSH.UTX 0,9 2 RSHC,LTX 2,044 RSNC,UTX 2,023 CALI, bDT 14,16.4 DEPT 5100,000 DTCO F~D 83.970 DTSM.PLN 179 648 DTSM.ILN 179,648 DTS~'PUN 175,878 DTS~'IUN 175 878 DTS~,PLB 168~527 DTSM.ILB 168'527 DTS~'PUB 164,991 . ,iUB 164.991 PR.hTX 0:338 PR'UTX 0,324 CHSH.LTX 0.972 CHSH,UTX 0 979 RSHC,LTX 2 023 RSHC.UTX 1.958 G~.DSS 95.015 CALI,LDT 12~891 DEPT 5000,000 DTCO.Fm~D 81,026 DTSM.PLN 169.979 DTSMoILN 169.979 DT$~'PUN 170.076 DTSM.IUN 170,076 DTS~,PL8 1.61 429 DTSM,ILB DTS~:PUB 161,5~I DTSC~.IUB 161,521 'P:R,LTX 0~326 PR'UTX 0,~2 C~SN,LTX O.98t CHSH.UTX 0,989 RSHC.LTX 1.970 RSHC.UTX 1.993 GP,DSS 99.447 CALI.LDT 11.625 ,IS Tare Verification histinq ;Chlumberqer AlasKa ComDutinq Center OEpT. 4900,000 DTCO.F~D DTSM PUN 191.254 DT$~.IU~g DTS~'PU~ 184,140 DTS~.IUB ~'LTX. 0.940. CHSH.UTX CH~.DSS 82.731 CASI.SDT DEPT. 4800,000 DTCO DTS,.PUN 18~ 457 DT$.~. PUS 17:473 DTSM CHS~ [,TX 0987 CHSN'UTX GW'DSS. 76:090 CALI,LDT DEPT. 4700000 DTCO,F~D DTS~.PUN 185i303 DTS~.IU~ DTS~,PUB 177057 DTS~.IUB CHS~.LTX 0970 CHSH,UTX G~,DSS 98,703 CALI.LDT DEPT ~600.000 DTCO.F~D DTS~PUN 188231 DT$~,IUN DTS~,PUB 1.83:751 DT$~.IUB CHSH.LTX 0,976 CHSH.UTX G~,DSS 1.08,307 CALI.LDT DEPT. 4500 O0O DTCO,FMD DTS~,PUN ~85:673 DTSM.IUN DTS~,PUB ~78,766 DT$~,IUB CHS~,LTX 0,982 CHSH,UTX GR,DSS 86.806 CALI,LDT FMD DEPT, 4400,000 DTCO,iuN DTS~PUB 17 064 DTS~,.IUB c.s 0' 80 c. .UTX G~:DSS 84.205 CA .LDT DEPT DTS~ DTS~ GW 4300.000 DTCO.F~D PUN 203,907 DTS~'IUN PUB 196,484 DT$~,IUB [:SS 87 11 CALI,LDT l=~AY-1991 22:53 PAGE~ 3t DEPT. 4100,000 DTCO,F~D DT$~.PbN 197425 DTS~.ILN 197,425 DT$~.PItN 200, 250 DTS~.IUN DTS~,PLB 190239 DTS~.ILB ~90.2~9 DTS~ PUF i92.744 DT$~.It)S PR.LTX 0345 PR.UTX 0,3~0 CH$~'LT× 0.970 CHSH,UTX RSHC,STX 2056 RSHC.UTX GR~DSS 69.96i CALI.LDT 84,456 191.254 184.140 0,967 10,414 87613 180:457 173,47~ 0 983 10:664 86 150 177 0 2 88,032 188,~31 183, 51 0,985 8,922 87.040 185,673 ~78,766 0,986 10.508 86,187 ~8~'072 174'04 92,8~9 6,484 0'940 I0,~95 81,~78 160, 80 156,977 0,~83 9. 36 92,537 200,025 192.744 0975 1o: 9 DEPT. 4200.000 DTCO,F~D DTS~,PLN 155.578 DT$~.ILN 155,578 DTS~ PUN 160,i80 DT$~,IUN DT~,PLB 152,467 DTSM.ILB DTS~'PUB 156,977 DTSM.IUB R,LTX 0. 13 PR,UTX CHS~.LTX 0'971 CHSH.UTX RSMC,LTX 1. 17 RSHC,UTX 983' G~.DSS 57,668 CALI,LDT DTSM.PbN DT$~,PLB PR'LTX RSHC,LTX DT$.~!, PLN DT$~'PLB PR,STX RSHC,STX DTSM.PLN DTS~,PLB PR,LTX RSHC.LT× DTS~,PLN DTSM,PLB PR,LTX RSHC,bTX DT$~ PLN DT$~ PLB PR LTX RSHC LTX DT$~ PLN DTSM PLB PR :LTX RSHC 57X 182 642 X75.574 0.342 2.042 ~ 75 278 167::513 0 ~23 ! 58 191.576 I)T$~.ILN 191,576 X87.0m17 DTSM IbB 187,0~7 0.,,65 PR:UTX 0.362 2.170 RSHC.UTX 2; 152 185.846 DTSM.ILN 185,846 178'932 DT$~ ILB 178,932 O. 341 PR!UTX :~:::139 2.036 RSHC UTX ~26 177!991 0 .347 2 064 200.912 DT$~.ILN 200,9t~ 193,599 DTSM, ILB 193,5§ 2,,i83 RSHC,UTX 030 DTSM.ILN 182,642 DTSM ILB 175,574 PRiUTX 0,$40 RSHC UTX 2,029 DTS~.ILN 175,278 DT$~.XLB 167,513 PR.UTX 0,345 RSHC.UTX 2,057 DTSM.ILN 185,350 DTS~4 ILB 177,.~I RSHC. UTX ~ 1 DT$~,P[,N 188.458 DT$~.ILN 188,458 DTS~,{,PLB 181448 DTSM ILB 181,448 PR [.,TX 0:337 PR",UTX 0,304 RSHC:LTX 2.018 RSHC.UTX 1,884 I$ Taoe Verlficatton Li$tina ChlUmberoer Alaska Computino Center 1-~AY-199~ 22:53 PAGE: 32 DEPT. 4000.000 DTS~.PU~ 199.878 DTSU.PUB 190,974 CHSH.LT× 0,975 GP.DSS 85,313 DEPT. 3900,000 DTSm.PU~ 218,590 DTS~.PUB 210,655 CMS~.LTX 0 972 G~.DSS 74:749 DEPT. 3800 000 DTB~.PUN 196i850 DTS~.PUB 183 681 C~SM.LT× 0 977 G~.DSS 56,264 DEPT. 3700,000 DTS~ PUN 216,590 DTS~'PUB. 20~,342 C~S~,LTX ,926 G~,DSS 64,756 DEPT 3600,~ DTS~: PI[IN 271, DTS~.PUB 254,315 C~$H.LTX 0,858 GR.DSS 82,353 DEPT. 3500.000 DTSM,PUN 203 677 DTS~ PUB 186:426 bT× 0,963 GR,DSS 55,459 "T OEP 3400,000 DTSM~PUM 243,361 DTS~,PUB 225,595 CHSH.LTX 0,856 G~,DSS 79,64~ DEPT, 3300 DTS~,PUN 286 DTSu.PUB 265 CMS~.LTX 0 GR.DSS 103 124 DTSM.PL~! 878 DTSM.PLS 924 PR.bTX 977 RSHC,LTX 557 DTSM,PLI.{ 590 DTSM,PLB 655 PR,bTX 972 RSHC,LTX ~0~ DTCO.FMD 93 DTS~,I{J~ 199 DTSM.!Ug 190 CHSH.UTX 0 CALI,LDT 11 DTCO,F~D 98 DT$~,IU~ 218 DT$~,IUB 210 CHSH,OTX 0 CALI.LDT 10 DTCO,FMD 98 OTSM,IUM 196 DTSM,IUB 183 CHSH,UTX 0 CALI,LDT 14 DTCO.FMD 85 DTS~.IUM ~16 DTSM,IUB 201 CHSH,UTX 0 CALI,LDT 16 DTSM,IUN DTSM,IUB 254 CHSH UTX 0 CALI:LDT 16 DTC~,FMD 98 DTSM*IUN 20 DTSM,IUB 18~ CHSH,UTX 0 CALI'LDT 16 DTSP' DTSM,I~N 2 .IUB 225 CHSH,UTX 0 CALI,LDT 17 DTCO.FMD 100 DTS~,IUN 286 DTSM.IUB 265 CHSH,UTX 0 CALI,LDT 17 DTCO FMD 101 DTS~:IUN 243 DTS~.IU~ 223 CHSH.UTX 0 C~LI,LDT 22 gg9 850 681 974 172 939 ,342 ,927 ,192 ,081. ,617 ,315 ,867 ~037 .184 ,~77 . 26 ,958 ,891 : 47 000 ,980 614 .614 720 ,720 771 ,9~7 666 ,7 7 DTSM PLN DTSM PLB PR 5TX RSHC LTX DTSM,PLN DTSM,PbB PR,ETX RSHC,bTX D~SM,PbN D2SM,PLB P:R. b T X RS HC, LTX DTSM' P LN DTSM' PLB PR:* 5TX DTSM,PLN DTSM.,PLB PR'bTX RSHC,bTX 190.645 182.162 0 298 1:865 208.522 201.057 0 353 2:097 188 239 175:044 0 259 1~754 207,621 192,257 0.376 2.246 448 0 337 2 023 DTSM.ILN DTS~.IBB PR.UTX RSHC,UTX DTSM.IbN DTSM.IbB PR.UTX RSHC.UTX DTSM.ILN PR!UTX RSHC UTX DTSM.ILN DTSM.ILB PR.UTX RSHC,UTX DTSM,ILN DTSM,IbB PR,UTX RSHC,UTX DTS~ PR UTX RSHC UTX 190,645 182,i62 0,345 2.057 208,522 201.057 88 239 75:044 0,300 1,872 207,621 192.257 0,385 2,318 384 309 208,008 191,784 1', 9 DTSM,PLB 242~., 9 PR,LTX 0 395 RSHC,bTX 2 398 DTSM. IbN 261,456 DTS,,ILB 242,579 RSHC.UTX 2 5 DEPT. 3200,000 ,698 DTSM,PLN 236.525 DTSM,IbN 236,525 DTSM PUN 243,305 '305 DTS~,PL8 216,870 DTSM,ILB 216,870 DTS~PUB 223,086 ,086 PR,bTX 0,388 PR.UTX 0,378 CHSH.LT× 0,928 ,942 RSHC,LTX 2.334 RSHC,UTX 2,258 G~,DSS 81,340 ,500 IS Tape Yeriflcation Llstino cblumberqer Alaska Computing Center J.-mAY-1991 22:53 PAGE: DEPT, 3100,000 OTCO.FMD DTSU.PUN 172,267 DT$~.IUN DIS" PUB 147,0{2 OTS~,IU8 CNS~:LTX 0 588 CHsH,UTX G~,DSS 63:827 CALI.LDT DEPT 3000.000 DTCO.F~D DTS~:PUN 220,137 DT$~ DTS~.P(~B 208,095 DTS~:IUB CHS~.LTX 0,955 CHS~.UTX G~.DSS 60,299 CALI,LDT D~PT 2938.500 DTCO,F~D DTS~:PUN 207,486 DT$~,IUN DTS" PUB 202,631 DTS~'IUB CHSH ' LTX -999.250 CHSH,UTX G~:DSS -999'250 CALI,LDT 100 957 DTS{~,,pLN 172;267 DTS~,PLB ~47,012 PR.LTX 0.000 RSHC,LTX 22,712 109 653 DTSH,PbN 220~137 DT$~,PLB 208,095 PR,SIX 0,982 R$~C'LTX -999 250 DT~,,PLN 207 486 202 63{ , PR,~TX -999 250 RG~C.bTX -999 250 184.860 DT$~.ILN 160,921 DT$~,IL8 0 310 PR,UTX 1:905 RSHC,UTX 201,094 DTSM.ILN 189.391 DTSM ILB 0.255 PRiUTX 1.744 RSHC UTX 903 DT$~,IbB -999 250 PR,UTX -999 250 RSHC,UTX 184,860 160,921 281 20~,094 18 ,391 0,30! 1,874 192,~80 168, 03 -999,250 -999,250 $*$~ FILE TRAILER **~ FIL~ NAME = EDIT .003 SERVICE : FLIC VERSION : O0~A06 DATE : 91/05/ t ~AX R~C SIZE : 1024 FIL~ TYPE : LO LAST FILE : *m**' TAPE TRAILER *~*~ SERVICE NAME = EDIT. DATE = 91/05/ 1 ORIGIN : FLIC TAPE NAME : 74503 CONTINUATION # : 1 PREVIOUS TAPE : COMMENT : BP EXPLORATION,WILDCaT (KUPARUK UPLANDS),MAbGUK ~1,50-223-20019-0 **** REEL TRAILER **** SERVICE MA~E : EDIT DATM ORIGIbl : FLIC REEL NA~E : 74503 CO~TIL!U~TIOM PREVIOUS CO~MENT : BP EXPLORATIO~,~ILDCAT (KUPARUK UPLANDS],~ALGUK #1,50-223-20019-0
