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Home My WebLink About190-175 ALASKA OIL AND GAS CONSERVATION COMMISSION WALTER J. HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 276-7542 September 2, 1994 Land Department (MB12-1) Pete Zseleczky, Mgr BP Exploration (Alaska) Inc. P O Box 196612 Anchorage, AK 99519-6612 Re: Location Clearance Inspections Eight (8) North Slope Wells Dear Mr~. Zseleczky: On August 24, 1994, our Inspector Lou Grimaldi accompanied Wade Stock, your reprensentaive, on location inspections of six BPX and two Conoco North Slope wells; he recommended location clearance for four of the BPX wells and one Conoco well. Final Location Clearance is hereby approved for the following North Slope wells: BPX Narvaq #1 ........ BPX Cascade #1 ....... BPX Yukon Gold #1 .... BPX Sourdough #2 ..... PTD 90-175 ~PTD 93-041 PTD 93-149 PTD 94-015 Conoco Sequoia #1 ...... PTD 91-136 Chal rman~ c: Rory Mayra, BP Environmental Blair Wondzell, PI Spvr, AOGCC hew/llbp4 nsw MEMORANDUM TO: THRU' David Johns_.~,~ Chairm~ Blair Wondzell, P. I. Supervisor State of Alaska Alaska Oil and Gas Conservation Commission DATE: August 24, 1994 FILE NO: NRVLOCLR.DOC FROM: Lou Grimaldi, b//~~ SUBJECT: Petroleum Inspector Location Clearance inspection BPX Narvaq #1 , Sec. 15, T07N, R08E, Umiat PTD #90-175 Wednesday, Au.qust 24, 1994: I made a Location Clearance on BPX exploratory well Narvaq #1. Wade Srock (BPX rep.) Accompanied me on my inspection. The location was clean and showed no impact from the drilling operation. The marker post was slightly high at 8' above tundra level but in my opinion was not worth cutting due to the possible impact on the surrounding tundra which had recovered nicely. There was a plate bolted to the post that had the ADL number bead welded to it. SUMMARY: I made a Location Clearance on BPX exploratory well Narvaq #1./ reccomend that this location be given final clearence. Attachments: NRVLOCLR.XLS Photographs STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION Surface Abandonment / Location Clearance Report ( Title 20 AAC 25, Article 2 ) ......... ,,,,-,,:,i ..... ,,, ,,,, .... FILE INFORMATION,: ,,, operator: BP Exploration Address: Surface Location: F L, F L Section 15 ,T 7N ,R 8E ,M Umiat Well Name: PTD No.: APl No. 50- Unit or Lease Name: Field and Pool: Downhole P&A Date: Narvaq #1 90-175 Inspection Date: I, 20 AAC 25.t25 - ABANDONMENT MARKER: I Approval Date: Steel Post OD: (4" min) 4 .... Length (10' min.) ft. Height Above Final Grade Level (4' min.) 8 ft. Top of Marker Post Closed With: Welded (Welded, Cmt., Cap), Set: (On Wellhead, Csg, In Cmt) Distance Below Final Grade Level: ft. Side Outlets: All valves and nipples removed ? ~AII openings closed ? With Marker Plate Diameter: "Thickness: "Distance Below Final Grade Level: Marker Plate Attached To: Wellhead Cutoff Csg Other Information Beadwelded Directly to Marker Post or Blind Marker Plate: Operator: BP Exploration Well Name: Narvaq #1 Surface Location: ~825 S N L, 2089 F W L Section 15 ,T 7N ,R 8E ,M U ( Note when different from file information) Unit/Lease Name: 368048 ADL # on add on plate bolted on post Inspection Date: I 20 AAC 25.t70 - LOCATION CLEANUP: PITS: Filled In: N/A Liners Removed or Buried: SURFACE CONDITION OF PAD AND / OR LOCATION · Approval Date: Debris Removed: Smooth ( Rough, Smooth, Contoured, Flat, Compacted ) Type & Quan. of Debris if any remaining on pad and / or location: Clean: Clean TYPE AND CONDITION OF SURROUNDING AREA' Tundra ( Wooded,Tundra,Grass, Brush, Dirt,Gravel,Sand) Clean: Clean Type &Quan. of Debris if any remaining on surrounding area · TYPE AND CONDITION OF ACCESS ROAD AND SURROUNDING AREA: No evidence of access road ( Dirt, Gravel, Ice, Other) Clean: Clean Type &Quan. of Debris if any remaining on access road or surrounding area · CLEANUP WORK REMAINING TO BE DONE · RECOMMENDED FOR APPROVAL OF ABANDONMENT: Distribution: Reason: orig - Well file c - Operator c- Database c- Inspector FI-000 (Rev. 3/93) Yes Yes No FINAL INSPECTION: Yes Yes No INSPECTED BY: Louis R Grimaldi NRVLOCLR.XLS ( If "No" See Reason ) DATE: 8/24/94 BP EXPLORATION (ALASKA) INC. P.O. BOX 196612 ANCHORAGE, AK 99519-6612 ANCHORAGE OFFICE: 900 E. BENSON BLVD. · ANCHORAGE, AK 99508 · (907) 561-5111 TO: Alaska Oil & Gas Conservation Commission 3001 Porcupine Drive Anchorage Alaska 99501-3192 FROM: BP Exploration (Alaska) Inc. Alaska Exploration P.O. BOX 196612 Anchorage, AK 99519-6612 DATE: 04/16/93 The following material is being transmitted herewith. Please acknowledge receipt by signing below and returning a copy of this letter: ~ v"'. Dual Induction - SFL 5" Run I Sepia and Paper copy v", Dual Induction. SFL 5" Run 2 Sepia and Paper copy v-. Long Spacing Sonic (SDT) 5" Run I Sepia and Paper copy ~, SDT Sonic Log 2" Run I and 2 Sepia and Paper copy v-'. Dual Induction - SFL 2" Run I and 2 Sepia and Paper copy Please Note: Your request for: Dipole Shear Sonic Imager, Array Sonic, DSST vs SDT and Array Sonic is not available in reproducible sepia form. RECEIVED Date Received: APi~ 1 6 1993 ~aska Oil Ex Gas Cons. Commission Anchorage TO: THRU: FROM: MEMORANDUM State of Alaska ALASKA OIL AND GAS CONSERVATION COMMISSION Lonnie C Smith Commissioner DATE: October 7, 1991 FILE NO: LG107 - 1 . DOC TELEPHONE NO: SUBJECT: Location Clearance BPX Narvaq #1 Permit #90-17__5 Exploratory Sec 15, T7N, R7E, UM Louis R Grimaldi Petr Inspector I flew to the BPX Exploratory Site of Narvaq #1. The location was very clean, with the exception of a pile of dirt and gravel, which needs to be moved to a depression that surrounds the monument. The information on the monument had one discrepancy. There was no unit or ADL number. This will be attended to and pictures sent into AOGCC. All else was correct. In summary, when the pile of dirt/gravel is moved and the discrepancy on the marker is resolved, the location clearance should be issued. Attachment 02-001A (Rev. 6/89) 20/11/MEMO1.PM3 ALASF~-0IL AN~ GA~.~'CONS.ERVATION CO~MISSION SURFACE ABANDONMENT REPORT 20 AAC 25, ARTICLE 2 FILE INFORMATION Operator ~ Address Surface_Location of Well /~,~Ft. F~L, ~;~OS~ Ft. F~L, , · 7.' O 20 AAC 2~.120: WELL ABANDONMENT MARKER: Dia. Steel Post (4"Min.) ~ ~" Length (/10' Min.) Height Above Final Grade Level (4' Min.i /~ Date Downhole P & A Permit No. A~I No. 50-, ~ ~7- ~ o~/o, -- ~ O,, Unit or Lease N~e We~ ~o. ~~V~ ~ ~ _ Field & Pool Top of Marker Pipe Closed with: Cemefit Plug Sc'few Cap_____ Set: On Well Head , On Cutoff Casing ~,, In Concrete Plug Distance Below Final Grade Level . ~ Ft. ~)' in. Side Outlets: All Valves and Nipples Removed All Openings Closed _____, With Blinds _____, With Cement______ Welds ~'"'~i. ~.. -. · Other ' /t~~ ., . . INFORMATION BEADWELDED DIRECTLY TO MARKER POST: (List ~ere Different from File Information) Operator ,~(~/0 ~/~L~o/~T-~O~i] Unit or Lease Name~,,~,k Well Number ,/k3~,,~ b/f~ ~ ; , Surface Location of Well: /~-5' Ft. F/~/ L, ~O~ Ft., Fu3n, Sec /D"., T F ? , R ~ 20 AAC 25.170: 'LOCATION CLEAN-UP PITS: ,. Filled In. , Liners' Removed or Buried ., Debris Removed SURFACE OF PAD AND/OR LOCATION: Rough Other · Smooth , Contoured , Flat_ . _ ·, Compacted ? ~.3 x,'. .~ ~? ,'q. ,, c:) .XJ E p , L ~_ o.,,= CLEAN UP OF PAD A~Nq)/0R LOCATION: Clean _~,, Pipe Scrap , Iron Scrap _, Wood Paper , Other ,, , Mud , Cement SURROUNDING AREA: Wooded , Brush ' , Tundra /'~, Grass Sand , Other · Dirt ,, Gravel CONDITION SURROUNDING AREA: Clean ~ , Trash from Site Other , -- , Trees and/or Brush from Clearing Site~ ACCESS ROAD: Dirt , , Gravel_ , Ice ,,~f', Other /C ~- ~ O~b ~_o~)/J ~ ., _. CONDITION ACCESS RO~ ~ND S~OU~ING: Clean ~ , Rough , Smooth , Trash fr~ Operations , Trees ~nd/or Br~h f~m Clearing' Road , Spoil from Clea~ing Road Other REC0~RiEND APPROVAL OF ABA~NDONMENT: Yes 05/26/81 NO ~ Final Inspection ...... BP EXPLORATION September 27, 1991 Mr. Lonnie Smith Alaska Oil and Gas Conservation Commission State of Alaska 3001 Porcupine Drive Anchorage, Alaska 99501-3192 BP Exploration (Alaska) Inc. ,' ' ':~ ...... 900 East Benson Bou evard., P.O. Box 196612 Anchorage, Alaska (907) 561-5111 [ [:,E~ lENa ASST I s. GEOL~ / LOCATION CLEARANCE MALGUK #1 & NARVAQ #1 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. ,,. E~ ~tv~rr;Tn .2ean~ ,~?-8~ P.~R.e~iltat it~ S~?~ ~ [s~ ras/~ka Attachment SDT/RRM RECEIVED OCT - 1 1991 Alaska Oil & Gas Cons. Commissien Anchorage WALTER J, HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 276-7542 September 23, 1991 Rory Hayra 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 #1 Dear Hr Hayra: This letter is pursuant to our conversation on September~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 to the perimeter of the cellar. If you have other questions, feel free to contact the office. Sincerely, Louis R Grimaldi Petr Inspector LRG/jo BP EXPLORATION August 16, 1991 BP Exploration (Alaska) Inc. 900 East Benson Boulevard Re. Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 Mr. Leu Grimaldi Petroleum Inspector AOGCC 3001 Porcupine Drive Anchorage, AK NARVAQ / MALGUK CLOSURE CLEARANCE Dear Mr. Grimaldi' As a follow-up to your August 6, 1991 site visit to exploration well sites Malguk and Narvaq, I have enclosed photographs of two action items you requested. The Narvaq well marker has had a permanent ADL # identification attached to it and secondly the overburden pile has been returned to to well head. As you recall the overburden pile was frozen below the top foot of cover. The ice pad was built prior to the well cellar being dug, so when the overburden was placed on the ice pad it thoroughly insulated it. Other than the soil we removed on the day of your visit, the majority of the pile was ice. On additional visits we removed what was possible and placed it at the well marker. Enclosed for reference are photos indicating identified well marker, overburden at well marker, and remnants of ice pad where overburden pile was located. I assume this completes our site closure requirements of these two sites and would appreciate a written confirmation from your office. If you have questions or require additional information, give me a call at 564-4215. Sincerely, R ry yra, F;er it Compliance Environmental & Regulatory Affairs, Alaska File' P/NU/Kuparuk Exploration Wells (Narvaq), please return to Mayra cc: L. Driski,l R E C E IV £ D AUG 1 9 1991 Alaska 0ii & Gas Cons. C0m~ssle.~ ~,nchorage RECEIVED CC: L. Driskif RECEIVED BP EXPLORATION BP Exploration (Alaska) Inc. 900 East Benson Boulevard RO. Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 May 30, 1991 Mr. Larry Grant Oil & Gas Conservation Commission 3001 Porcupine Drive Anchorage, Alaska 99501 Dear Larry, Please find enclosed the missing portion of the dry cuttings from the Narvaq #1 well, drilled by BP on the North Slope during the first quarter, 1991. Buster Bryant notified me that you were missing the enclosed interval, 2490-2610', from the set of well cuttings. This should complete BP's obligation to the state in terms of well data from Narvaq #1. Please feel free to contact me should there be any further concerns or questions.,_ / Respectfully, Geologist, Exploration E nclosu re JMS/js .Oil & Gas Cons. EXPLORATION (ALASKA)I, ~. P.O. BOX 6612 ANCHORAGE, ALASKA 99502-0612 ANCHORAGE OFFICE: 900 EAST BENSON BLVD. · ANCHORAGE, ALASKA 99502-0612 · (907) 561-5111 TO: '~"~'"~/ ~ ORIGINATOR: ~"~' ATTENTION: The following material is being transmitted herewith. Please acknowledge receipt by signing below and returning a copy of this letter: Received by: Ak 2233-2 (3/89) f ~' EXPLORATION (ALASKA)I1~.,~. RO. BOX 6612 ANCHORAGE, ALASKA 99502-0612 ANCHORAGE OFFICE: 900 EAST BENSON BLVD. · ANCHORAGE, ALASKA 99502-0612 ° (907) 561-5111 TO: ATTENTION: The following material is being transmitted herewith. Please acknowledge receipt by signing below and returning a copy of this letter: RECEIVED /.,., MAR 2 '1 1991 J /,~ GasCons. Commission ' / D-'ate Alaska 0il & ,,-,,~,,,,.:~n~. Received: Received by: AK 2233-2 (3/89) TO: THRU: FROM: MEMORANuUM St,, e of Alaska ALASKA OIL AND GAS CONSERVATION COMMISSION Lonnie C. Smi~ Commissioner DATE: March 15, 1991 FILE NO: HH315-6 TELEPHONE NO: SUBJECT: Plug & Abandonment BPX Kuparuk Uplands "C" Narvaq No.1 Permit No. 90-175 Exploration Harold Hawkins Petroleum Inspector Th~ursda¥ .. Fe_~,. 14,_ I991- I left Prudhoe to BPX Kuparuk Uplands "C" (Narvaq No. 1 ) to witness a plug and abandonment. Friday Feb, 15, ~1~1: I witnessed the bottom plug on BPX Kuparuk Upland "C" (Narvaq No. 1) being run. There was no tag. I also witnessed the running of the second plug on BPX Kuparuk Uplands"C" (Narvaq No. 1) saturday Feb,16, 1991: I witnessed the tag at top of second cement plug at 7013' at BPX Kuparuk Uplands "C" (Narvaq No.1) a.m. I also witnessed the running of third cement plug at BPX Kuparuk Uplands "C" (Narvaq No.1). $~D~av Feb. 17, 1991: I witnessed the tag at top of the third cement plug at BPX Kuparuk Uplands "C" (Narvaq No. 1). These plugs above were open hole plugs. Monday FeB° 18. !99!: I also witnessed the running and setting of the retainer for plug No. 4 inside 13 3/8 casing at 2300' w/ 20,000 pounds weight for BPX Uplands "C" (Narvaq No. 1) I witnessed the pressure test between 4 plug and surface to 1200 PSI BPX Kuparuk Uplands "C" Narvaq No. 1. I filled out an aoGcc plug & abandonment field report and made up a schematic of the work performed. I also received abandonment procedures from BPX KRU Uplands "C" (Narvaq No. 1) attached to this report. In summary: The abandonment procedures were performed satisfactorily on BPX Kuparuk Uplands "C" (Narvaq No. 1). Location clearance yet to be performed. Attachment. 02-00lA Rev. 6/89) 20/11/MEMO1.PM3 · 4/80 · Casing: i' cASKA @II, &, GAS C( IISERVATION ~,'!~MISSION " .... Plug'& J~ahdonment Rep~ Drive Pipe Conductor '~ ~ ~ ! "O.D. Intermediate /{/h "0. D. Plugging Data: "O.D. Set at Ft. w/ Pene. 11 O' Ft. Surface / ~ -ff"~"O.D. @ ,fi, ~Ft. /~. Ft. Production A~ "O.D.[ @~/~- Ft. 2. Open hole isolation plug: 3. Perforation plugs (if any): 4. Annulus plugs (if any): /3 ~C/ _~ ~ ~2,~' 5. Casing Stub plugs: 6. Surface plug: / - - Casin~ removal: ~ "casin~ cu~ at ff~ "casin~ cu~ at ' ~/~ "casing cut at ' / / 5 v S F/-t £ E Z ¢ ,r .' ,.r.E£ / ~- T T V 116/. _ BP EXPLORATION March 12, 1991 Larry Grant AOGCC 3001 Porcupine Drive Anchorage, Alaska 99501 BP Exploration (Alaska) Inc. 900 East Benson Boulevard P.O. Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 Dear Mr. Grant' The technical data listed below are being submitted herewith. Please acknowledge receipt, sign, and return a signed copy of this transmittal letter to the attention of Mr. Buster Bryant. NARVAQ #1 WELL DATA TRANSMITTAL Schlumberaer -- d),..1-5" r-~ ,. 1-5" ¢~.),.-' 1-2" ,,1-2" / --,,,~ t ,- 1-5" t -'1-5" i ,,-1.2" --1-2" t ,'1-5" ~ ,'1-2" ,. 1-5" Core Laboratories run 1 field print Dual Induction-SFL Milar run 1 field print Dual Induction-SFL Blueprint Phasor final print composite Dual Induction-SFL Milar Phasor final print composite Dual Induction-SFL Blueprint Phasor run 2 Dual Induction-SFL Milar ,./' run 1 field print Long Spacing Sonic (SDT) Milar rin'~t/ run 1 field print Long Spacing Sonic (SDT) Bluep final print composite SDT Sonic Log Milar final print composite SDT Sonic Log Blueprint run 2 SDT Sonic-GR (Delta Time) Milar run 2 SDT Sonic-GR (STC Processing) Milar Computer Processed Interpretation DSST vs SDT Blueprint ,,"l-Core Analysis Report RECEIVED / 1991 Alaska Oil & Gas Cons. Commission Anchorage NARVAQ #1 WELL DATA TRANSMITTAL Received: /(OGCC ///J"~ ' Sincerely, Curtis F. Goddard Operations Geologist RECEIVED ~'e 1 ~ 1991 Alaska Oil & Gas Cons. Commission Anchorage CFG/cfg BP EXPLORATION March 11, 1991 BP Exploration (Alaska) Inc. 900 East Benson Boulevard P.O. Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 Larry Grant AOGCC 3001 Porcupine Drive Anchorage, Alaska 99501 Dear Mr. Grant, The washed and dried well cuttings and conventional core sample chips listed below are submitted herewith. Please acknowledge receipt, sign, and return a signed copy of this transmittal letter to the attention of Mr. Buster Bryant. NARVAQ #1 WELL SAMPLES TRANSMITTAL Washed and Dried Well Cuttings parcel type box number depth range 1 box 1 9 90' - 1650' -/ 1 box 28 1650'- 2490'/ 1 box 46 z~/~ ~ - 4170'-" 1 box 69 4200'- 6000'¢ 1 box 83 6000'- 7030'/ 1 box 114 7030' - 7610''/ 1 box 121 7610' - 8220'j/ 1 box 144 8230' - 873'0~/ 1 box 161 8730' - 9200' ''/ 9 boxes total Conventional Core Sample Chips parcel type core number 1 box 1 depth range 7314' - 7374' NARVAQ #1 WELL SAMPLES TRANSMITTAL Conventional Core Sample Chips cont. parcel type core number 1 box 2 1 box 3 1 box 3 1 box 4 1 box 4 6 boxes total Received:~~_ [/AOGCC/'/ Sincerely, Curtis F. Goddard Operations Geologist CFG/cfg depth range 8272' - 8299' 8301'- 8356' 8357'- 8389' 8391'- 8447'~ 8448' - 8477' / Date RECEIVED MAR ~ ~ 1991 Alaska Oil & Gas Cons. Corn[nissio~ Anchorage BP EXPLORATION March 7, 1991 Larry Grant AOGCC 3001 Porcupine Drive Anchorage, Alaska 99501 BP Exploration (Alaska) Inc. 900 East Benson Boulevard P.O. Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 Dear Mr. Grant: The technical data listed below is being submitted herewith. Please acknowledge receipt, sign, and return a signed copy of this transmittal letter to the attention of Mr. Buster Bryant. NARVAQ #1 WELL DATA TRANSMITTAL Sperry-Sun Drilling Services I ,,..'1¢- Integrated Mud Log Milar /1- Integrated Mud Log Blueline Print /5~3.5'' Diskettes Mud Log ASCII Files ./t'-,- ADT Well Summary Report 'Core Orientation Report LIS MWD tape //I-LIS MWD tape listing ~ /1-2" & 5" MD DGR/EWR/FXE Log Milar~ /1-2" & 5" MD DGR/EWR/FXE Log Blueline Print I /f~2',i & 5',', MD DGR/CNO/SFD Log Milar ~:-2 & 5 MD DGR/CNO/SFD Log Blueline Print ' Schlumberaer OH LIS tape ,/Y~ OH LIS tape listing ,,.~/ /'"/1-2',' & 5'..' run 1 Dual Induction-SFL Blueprint . ,/. ~-~/'I-2,1 Phasor run 2 Dual Induction-SFL Blueprint ¢¢,~¢ ~.~k't.~./l-5 Phasor run 2 Dual Induction-SFL Biuep. rint . j¢~,~'~' /1-5" Dipole Shear Sonic Imager Blueprint ~ ,~'~',,~ (1-5" run 1 Array Sonic STC Processed Blueprint(~¢' (I. 'X ,, . ~ .,) 1-5 run 2 Array Sonic STC Processed Bluepnnt .k.¢^ ') 1-2" & 5" run 1 Long Spacing Sonic (SDT) Blueprint '¢'~' [1-2" run 2 SDT Sonic-GR (Delta Time) Blueprint ¢(~) ~.~1-5" run 2 SDT Sonic-GR (Delta Time) Blueprint NARVAQ #1 WELL DATA TRANSMITTAL Schlumberger cont. /,t-5" run 2 SDT Sonic-GR (STC Processing) Milar "~/-2" run 2 Dipole Shear Sonic Delta Time Blueprint .12" ~,, ~,5" ~-~5" ~J~-2" .... 1--5" 15" ~i72" '~ -5" ~/1-5" ~'5" ~d-5" .... ~- Mud lomporaturo Blueprint ~1- Mud Tomporaturo Milar ~, ~ ~-t- Mochanical Corin~ 1ool Bluopdnt ~4- Mochanical Gorin~ Tool Milar ~*l-Vo~ical Soismic ~rofilo--GSAI Bluoprint 1-Vo~ical Soismic ~rofilo--CS Received: run 2 Dipole Shear Sonic Delta Time Milar run 2 Dipole Shear Sonic Delta Time Blueprint run 2 Dipole Shear Sonic Delta Time Milar run 2 Dipole Shear Sonic Coherence (Blueprint) Blueprint run 2 Dipole Shear Sonic Coherence (Blueprint) Milar Porosity Simultaneous Compensated Neutron-Litho-Density Blueprint Porosity Simultaneous Compensated Neutron-Litho-Density Milar t~ Porosity Simultaneous Compensated Neutron-Litho-Density Blueprint~' Porosity Simultaneous Compensated Neutron-Litho-Density Milar.--- Raw Data Simultaneous Compensated Neutron-Litho-Density Blueprint Raw Data Simultaneous Compensated Neutron-Litho-Density Milar.,/ run 2 Microlog Blueprint run 2 Microlog Milar run 2 Microlog Blueprint run 2 Microlog Milar run 2 Natural Gamma Ray Spectrometry Blueprint run 2 Natural Gamma Ray Spectrometry Milar Sincerely. Curtis F. Goddard Operations Geologist CFG/cfg BP EXPLORATION BP Exploration (Alaska) Inc. 900 East Benson Boulevard Re. Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 February 28, 1991 Alaska Oil & Gas Conservation Commission 3001 Porcupine Dr. Anchorage, Alaska 99501 Attn' Lonnie Smith Well Narvaq #1 Enclosed, in duplicate, is form 10-407, our Report of Well Completion for the above named well. This information reflects the current condition and status of the well. Since this well was a vertical hole, there is no directional data. Included in this package is the well history. All logs and geological data will be submitted by March 18, 1991. Since this is an exploration well, we are requesting that this data be held in a confidential status by the AOGCC according to the guidelines set forth in the Alaska Administrative Code. Yours very truly, M. E. Miller Staff Drilling Engineer MEM/KMT cc: Well File B. Bryant RECEIVED MAR - 1 199~ Alaska Oil & Gas Oons. Anchorage STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION WELL COMPLETION OR RECOMPLETION REPORT AND'LOG 1. Status of Well Classification of Service Well OIL [] GAS [] SUSPENDED [] ABANDONED [] SERVICE [] i.~;: !' ~. ~: ..... 2. Name of Operator 7. Permit Number BP Exploration 90-175 3. Address ~ ~ ~ ~ 1 I~1, LI.~.~"~.~~" 8.50.APl 287-20010Number 4. Location of well at surface Ii '~ ~ ~ " - V~FJF.~ 9. Unit or Lease Name 1825' FNL, 2089' FWL, SEC. I~ R_~8E, UPM Kuparuk Uplands At Top Producing Interval ~'PLET~0~{ i Ci01~ST~ 10. Well Number Same . ~ ~. V~l~~ ~ii~ - i ... ~ . Narvaq #1 At Total Depth Alaska Gas 11. Field and Pool ~~i Anchorage Wildcat Same 5. Elevation in feet (indicate KB, DF, etc.) ~6. Lease Designation and Serial No. KBE = 453.26' I ADL 368048 '~'~"'bat~e Spudded ' 13. Date T.D. Reached 14. Date Comp., Susp. or Aband. 115. Water Depth, il ottshore 116. No. of Completions' 01-19-91 02-09-91 ~I N/A' teat MSL I none 17. Total Depth (MD+TVD) 18. Plug Back Depth (MD+TVD', 19. Directional Survey 120. Depth where SSSV set 121. Thickness of Permafrost 9200'MD/9200'TVD Surface YES [] NO []I none feet MD I 1450' 22. Type Electric or Other Logs Run Phazer Dual/DIG Sonic/LD T/CNL/ML/GR/CAL/DSS T/NG T/CS T/SWC/VSP 23. CASING, LINER AND CEMENTING R~ SETTING DEPTH MD CASING SIZE WT. PER FT. GRADE TOP BOTTOM HOLE SIZE CEMENTING RECORD AMOUNT PULLED 20~ 133# K-55 Surface 110' 26" Cemented to surface none 13-3/8~ 68# NTSOCYHE Surface 2480' 17-1/2" Cemented to surface none Plus Top Job (3255 cu ft Arcticset II 85 sx T.J.) 24~'" Perforations open to Production (MD+TVD of TOP and Bottom and 25. TUBING RECORD interval, size and number) SIZE DEPTH SET (MD) PACKER SET (MD) None None Note: Verbal approval of abandonment by M. Minder 2-15-91: Abandonment witnessed by Harold Hawkins-AOGCC. 26. ACID, FRACTURE, CEMENT SQUEEZE, ETC. DEPTH INTERVAL (MD) AMOUNT & KIND OF MATERIAL USED .. 8510'-8035'(est) 260 sx Class G Cement 7400'-7013' (tag) 260 sx Class G Cement 3880'-3435' (tag) 1260 sx Class G Cement 2300'-2600'(est)lO-150' 260 sx Arcticset 1/105 sx Arcticset I 27. PRODUCTION TEST Date First Production IMethod of Operation (Flowing, gas lift, etc.) None I Date of Test Hours Tested PRODUCTION FOR OIL-BBL ~S-MCF iNATER-BBL CHOKE SIZE IGAS-OIL RATIO TEST PERIOD I Flow Tubing Casing Pressure 3ALCULATED OIL-BBL GAS-MCF iNATER-BBL OIL GRAVITY-APl (corr) Press. 24-HOUR RATE 28. CORE DATA B'rief description of lithology, porosity, fractures, apparent dips, and presence of oil, gas or water. Submit core chips. Core #1 - 7314'-7374'- Sst, m gray, vf-m, ang-submd, mod sort, calcite-cemented, poor vis poros., quartzose Shale, dk gray-blk, silty Core #2- 8272'-8301'- Shale, blk, subfissile-fissile, tr fltg qtz grains Core #3 - 8301'-8391' - Shale, blk, subfissile-fissile, tr fltg qu.artz grains Sltst, m gray, shaley, consol, poor ws poros, qtzose Sst, m gray: v. silty, vf-f, subang-submd, well-mod sort, well cemented, poor vis poros, qtzose, tr glauc, locally burrowed Core #4 - 8391'-8482' - Sltstn, dk gray-blk, shaley, well consol, poor vis poros, qtzose Sst, It-med gray, v. silty, vf, subang-subrnd, mod sort, well cemented, poor vis poros., qtzose Form 10-407 Rev. 7-1-80 CONTINUED ON REVERSE SIDE Submit in duplicate 29. 30. GEOLOGIC MARKERS , ..~RMATION TESTS NAME Include interval tested, pressure data, all fluids recovered and gravity, MEAS. DEPTH TRUE VERT. DEPTH GOR, and time of each phase. Sag & Gubik fins surf-lO42' Ugnu 1042' West Sak 2000' Seabee 4030' Torok 7627' HRZ 7993' Kalubik 8205' : Kuparuk River 8312' : Miluveach 8530' 31. LIST OF ATTACHMENTS , 32. I hereby certify that the foregoing is true and correct to the best of my knowledge , Signed'.~. ~ '~~--~"'%,.~ Title-~/~7~ ~. ~Je., Date 2~~/ 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: NARVAQ #1 As of 0600 Hrs. Monday. January 21, 1991 WELL: Narvaq #1 APl No. Day: 2 Depth at 0600 Hrs. = 72 Hour Footage = 1,550 Ft. 1,550 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E ,684719 Current Operation: Drilling 17-1/2" hole. Summary of Last 72 Hours: Accepted rig at 0600 hours 1/19/91. Spud well at 1400 hours on 1/19/91. Drill and survey 17-1/2" hole to 1550'. MudType Mud Weight _Viscosity P V Y__EP Fluid Loss Solids Temp #/gal Sec. cc °F Survey Depth Angle Direction N:..S E-W Dog Leg TVD Section Coordinate Coordinate °/100' Reviewed By: MEM RECEIVED ~AR - 1 1991 Alaska 0/1 & Gas Cons. Commission Anchorage BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: NARVAQ #1 As of 0600 Hrs. Tuesday. January 22. 1991 WELL: Narvaq #1 APl No. Day: 3 Depth at 0600 Hrs. = 24 Hour Footage = 2.500 Ft. 950 Ft. Rig: AFE Number: ,~FE Amount = Current Costs = Estimated Final Cost = Nabor~ Rig #18-E 684719 Current Operation: RUNNING OPEN HOLE LOGS Summary_ of Last 24 Hours: DRILL AND SURVEY TO 2500'. RIG UP SCHLUMBERGER AND LOG DIL/SDT. Mud Ty.~e Mud Weight Viscosity P V ¥.P iEJ.uj.~LLQ.,~ Solids Temo SPUD MUD 9.75 #/gal 155 Sec. 1 8 29 14.0 cc ? 53 °F Depth Angle 2,018 0.50 2,5O0 1.00 Direction '['VD N-$ E-W Dog.Leg Section Coordinate Coordinate °/100! Reviewed By: BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Wedne~d.ay, January 23, 1991 WELL: NARVAQ #1 APl No. 50-287-20010 Day:& Depth at 0600 Hrs. = 24 Hour Footage = 2.500 Ft. OFt. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = .Nabors Rig #18-E 68471~) Current Operation: RIH WITH DRILL PIPE TO CEMENT 13-3/8" CASING Summary of Last 2...4 Hours: FINISH LOGGING DIL/SDT. MAKE WIPER TRIP. RUN 67 JTS. OF 13-3/8" CASING. RUN IN HOLE WITH STAB-IN TOOL ON DRILL PIPE TO CEMENT CASING. ~Mud Type Mud Weight Viscosity P V .YP. E!.uLd_L9.,~ ~ Temp S P U D 9.8 #/gal 1 6 7 Sec. 21 2 8 1 4.0 cc I 1% 5 2 °F N-$ E-W Sectiorl Coordinate Coordinate Doq Leg Survey D_cJ;ztb Angle .D. Jce.,.6:[[9~ TVD °/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Thursday. Januarv 24. 1991 WELL: NARVAQ ~1 APl No. 50-287-20010 Day: 5 Depth at 0600 Hrs. = 24 Hour Footage = 2,500 Ft. OFt. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684719 ,(~,urrent Operation' TESTING Summary of Last 2--4 Hours' CEMENT 13-3/8" CASING. BOP's NIPPLE UP AND TEST BOP's. Mud Type - . low solids Mud Weight Viscosity P V YP 8.9 #/gal 31 Sec. 3 4 16.0 cc 4% Temp 51 OF Survey Anale -- .[~ TVD N-S E-W Sectiorl Coordinate Coordinate Dog Leg o/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Friday, January 25, 1991 WELL: NARVAO #1 _ APl No. 50-287-20010 Day: 6 Depth at 0600 Hrs. = 24 Hour Footage = 2,838 Ft. 328 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 68471(:,) Current Operation' REPAIRING RIG MOTOR Summary_ of Last ,24. .Hours' TESTED BOWs. RIH, TEST CASING TO 3000 PSI. DRILL CEMENT AND 10' NEW HOLE. PERFORM LEAK-OFF TEST. TRIP FOR NEW BHA. DRILL TO 2838'. RIG MOTOR QUIT- REPAIR SAME. MudType Mud Weight Viscosity P V YP. _F..luid Loss Solids Temp LOW SOLIDS 9.0 #/gal 3 6 Sec. 6 7 1 0.0 cc 5 % 7 6 °F Survey Depth Angle Direction 'I'VD 6 2,686 0.31 Section Coordinate Coordinate °/.100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Monday, January 28, 1991. WELL: NARVAQ #1 APl No. 50-287-20010 Day: 9 Depth at 0600 Hrs. = 72 HOur Footage = 5,170 Ft. 2,332 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #,18-E 684719 Current Operation: DRILLING Summary_ of Last 72 Hours: DRILL TO 4190'. POH. WAIT ON WEATHER (WHITE OUT CONDITIONS). DRILL AHEAD. RIH. Mud Type Mud Weight Viscosity P .V LOW SOLIDS 9.15 #/gal 3 8 sec. 9 Survey D..EEtb Angle 7 3,091 0.49 8 3,592 0.56 9 3,993 0.63 ~ TVD YP E. LuLc[_L~ so I~ds 8 8.0 cc 6.5% Temp 76 OF N-$ E-W Dog,Leg Section Coordinate Coordinate °/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. T.uesday, January 29, 1991. WELL: NARVAQ #1 AP! No. 50-287-20010 Day: 1 0. Depth at 0600 Hrs. = 24 Hour Footage = 5,991 Ft. 82!. Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Ria #18-E -- 68471 9 Current Operation' ~ DRILLING Summary_ of Last 24 Hours' DRILL TO 5470'. TRIP. DRILL AHEAD. ,,,,,Mud Type Mud Weight LOW SOLIDS 9.25 #/gal Viscosity 3 7 Sec. PV~ yp ~ Solids Temo 9 7 7.6 cc 7 % 8 0 °F ~ Angle ~ 4,492 0.93 N70-10W 4,993 1.48 S86-32W 5,460 0.07 N80-02W TVD 4,492 4,993 5,460 .. S . :;VV Dog Leg Coordinate Coordinate °/100' 18 13 0.28 17 22 0.15 14 21 0.10 · Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Wednesday' January 30. 1991 WELL: NARVAQ #! APl No. 50-287-20010 Day: I 1 Depth at 0600 Hrs. = 24 Hour Footage = 6,590. Ft. 599 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684719 Current Operation: DRILLING ,,Summary of Last 24 Hours: DRILL TO 6416', CBU. DRILL TO 6469'. TRIP FOR BIT, DRILL AHEAD. .M~J,d Type Mud Weight Viscosity P V, LOW SOLIDS 9.45 Cf/gal 4 2 Sec. I 0 YP ~ Solids 9 6.2 cc 8% TemD 75 OF ~ Angle D.J.EP.,.C,t,[.~ TVD 5,015 1.35 S86-44W 5,015 5,61 6 1.22 N58-32W 5,616 6,21 1 0.77 N38-18W 6,211 Section Coordinate Coordinate S17.31 W22.64 S14.22 W33.17 S7.98 W39.69 Dog Leg Ol! oo' 0.11 0.26 0.19 Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Thljr~;day, January 31. 1991 WELL: NARVAQ #1 APl No. 50-287-20010 Day: I 2 Depth at 0600 Hrs. = 24 Hour Footage = 6,878 Ft. 2,88 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684719 Current Operation' TRIPPING Summary of Last .24 Hours: DRILL TO 6627'. TRIP. DRILL TO 6878'. POH. M,,~d ,.Type Mud Weiaht Viscosity LOW SOLIDS 9.35 #/gal 3 9 Sec. P v YP EJu. J.d_La~ Solids 9 8 6.2 cc 7% Tem.o 78 OF Survey ~ Angle ~ I 6 6,778 2.05 N18-18W TVD N-S E-W Section Coordinate Coordinate Dog Leg o/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Friday, February 1, 1991 WELL: NARVAQ 4/1 APl No. 50-287-200!0 Day' 1 3 Depth at 0600 Hrs. -- 24 Hour Footage = 7,150 Ft. 272 Ft. Rig: AFE Number: AFE Amount -- Current Costs = Estimated Final Cost -- Nabors Rig #18,E 684719 Current Operation: DRILLING Summary of Last 24 Hours' CBU. TRIP TO SHOE. WAIT ON WEATHER. RIH. DRILL AHEAD. Mud Type Mud Weight Viscosity LOW SOLIDS 9.4 #/gal 3 7 Sec. PV YP. ~ Solids 7 6.5 cc 8% Temp 77 OF Survey Depth Angle Direction TVD I 7 7,027 2.29 N32-32W N-S E-W Sectiorl Coordinate Coordinate LDog Leg °/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Monday, February 4, 1991 WELL: NARVAO #1 AP! No. 50-287-20010 Day: .1 6 Depth at 0600 Hrs. = 72 Hour Footage = 8.272 Ft. .1,!22 Ft. Rig: Nabors Rig #18-E AFE Number: AFE Amount = Current Costs = Current Operation: POOH FOR CORE #2. Estimated Final Cost = 684719 Summary_ of Last_ 72 Hours; DRILLING. DRILLING BREAK 7308'-7314'. CIRCULATE FOR SAMPLES. POOH. PICK UP CORE BARREL, RIH. WASH TO 7314'. CUT CORE #1- 7314'-7374'. POOH. RECOVER 60'. RIH WITH DRILLING ASSEMBLY, DRILL TO 8272'. POOH FOR CORE #2. Mud Type Mud Weight Viscosity P V YP IEJj.tLd_.L9.,%~ Solids LOW SOLIDS 9.9 #/gal 3 9 Sec. I I I 0 6.0 cc 1 1.5% Temp 96 OF Survey Depth Angle Direction I 8 7,240 2.28 N21-49W 1 9 7,561 2.06 N19-27W TVD N-S E-W Section Coordinate Coordinate. Dog Leg o/100, Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Tvesday, Febrv~ry 5, 1991 WELL: NARVAQ ~1, APl No. 50-287-20010 Day: I 7 Depth at 0600 Hrs. = 24 Hour Footage = 8.290 Ft. 18Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rio #18-E 684719 Current Operation: CORING [CORE #2] Summary_ of Last 24 Hours: POOH, TEST BOP's. RIH WITH CORE BARREL. ORIENT AND CUT CORE #2. MudType , Mud Weiaht Viscosity -- LOW sOLIDS 9.9 #/gal 4 1 Sec. Pv Y? ~~ 7 6 6.0cc 11.8% 'l'emD 84 OF Survey ~ Angle 20 8,036 1.03 N12-41W 21 8,163 1.05 N12-03W N-S E-W Section Coordinate Coordinat~ Dog Leg °/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Wednesday, February 6, 1991 WELL: NARVAQ #1 APl No. 50-287-20010 Day: I 8 Depth at 0600 Hrs. = 24 Hour Footage = 8,391 Ft. 10'1 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684719 Current O.oeration' ... POH WITH CORE #3, REDRESS CORE BARREL Summary_ .of Last 24 Hours' CUT CORE #2: 8272'8301 (29'). POH, LAY DOWN CORE, REDRESS BARREL.RIH. CUT CORE #3: 8301-8391 (90'). POH, REDRESS BARREL. MudType Mud Weight Viscosity P V YP ~ Solids Temp LOW SOLIDS 9.95 #/gal 40 Sec. 8 7 6.0 cc 11% 78 °F ~ ~ Angle g_J.c.e.~t, ig~ TVD 22 8,300 1.00 S55.8W N-$ E-W ~ Ooordinate Ooordinat~ Dog Leg °/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: As of 0600 Hrs. Thursday, February WELL: NARVAO #1 _ Day: I 9 Depth at 0600 Hrs. = 24 Hour Footage = 8,481 Ft. 90Ft. EXPLORATION 1991 APl No. ,L Rig' AFE Number: AFE Amount = Current Costs = Estimated Final Cost = 50-287-20010 Nabors Ria #18-E -- 684719 Current Operation: RIH, REAM AND LOG MWD. Summary of Last 24 Hours: RIH. CUT CORE #4: 8391-8481' (90'). POOH. 8241. REAM AND MWD LOG. RIH WITH DRILLING ASSEMBLY TO Mud Type .M. ud Weight Viscosity LOW SOLIDS 9.85 #/gal 3 8 Sec. Survey ~ Angle ~ TVD 23 8,391 1.20 N48.1E P V YP IiE. Lc. Ld_Lo.A~ Solids TemD 8 9 6.0 cc I 1% °F N-$ E-W Dog Leg Section Coordinate Coordinate °/100, Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Friday, Febrv~ry 8, 1991 WELL: NARVAQ #1 APl No. 50-287-20010 Day: 2 0 Depth at 0600 Hrs. = 24 Hour Footage = 9,010 Ft. 529 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig ¢18-E 684719 Current,Operation: DRILLING Summary of Last 24 Hours: LOG MWD TO 8481'. DRILL AHEAD. Mud Type ,,, Mud Weight LOW SOLIDS 9.95 #/gal ,,, , Survey ~ Angle 4 0 Sec. ~rVD 11 9 6.0 cc 11.5% N-S E-W Section Coordinate Coordinate Temo 82 OF Dog Leg °/100, Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Monday,. February 11, 199,1 WELL: NARVAQ, #.1. APl No. 50-287-20010 Day: 2,,3. Depth at 0600 Hrs. = 72 Hour Footage = 9.200 Ft. 190 Ft. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684719 Current Opera. ti0n: LOGGING Summary of Last 72 Hours: DRILL TO 9068'. TRIP FOR BIT. DRILL TO 9200' TD. POH. RIG UP AND RUN LOGGING TOOL, WOULD NOT GO PAST 4215'. RIH WITH DRILL PIPE TO BOTTOM. POH. RUN LOGGING TOOL (PHAZER-DUAL-DIG.SONIC). WOULD NOT GO PAST 8919'. TRIP DRILL PIPE TO BOTTOM. RIH WITH LOGGING TOOL (LDT-CNL-ML-G R-CALIPER). Mud Type Mud Weight Viscosity P V YP .ELu. Ld__[.D_s~ Solids Tem.D LOW SOLIDS 10.5Cf/gal 40Sec. 12 8 6.4cc 13% °F Survey Depth Anale Direction 'I'VD 24 9,151 0.88 N5-54W ,N-$ E-W Section Coordinate Coordinate Dog Leg o/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: As of 0600 Hrs. Tuesday, Febr!j{~ry WELL: NARVAQ #1 EXPLORATION 12, 1991 APl No. 50-287-20010 Day: 2 4 Depth at 0600 Hrs. = 24 Hour Footage = 9,200 Ft. OFt. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Current Operation: LOGGING Summary of Last. 24 Hours' RUN LDT-CNL-ML-G R-CALIPER. RUN DSST-NGT. RUN CST. Nabors Ria #18-E -- 684719 Mud 'i'y0e Mud Weight LOW SOLIDS 10.5 #/gal ,, , Angle Viscosity 3 9 Sec. PV yp E~ Solids I 2 8 6.4 cc 13% ,, N-~; E-W Section Coordinate Coordinate Temo oF Dog Leg °/100! Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATIQN. As of 0600 Hrs. Wednesday, February 13, 1991 WELL: NARVAQ #1 APl No. 50-287,20010 Day: 2 5, Depth at 0600 Hrs. = 24 Hour Footage = 9,200 Ft. OFt. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Rig #18-E 684719 Current Operation' TAKING SIDEWALL CORES ~Summary. of Last ~4 Hours: FINISH CST. TEST BOP's. RIH WITH BIT TO 8800'. AND CUT SIDEWALL CORES. POH. RIH WITH WIRELINE Mud Type Mud Weight Viscosity PV LOW SOLIDS 10.5 #/gal 4 0 Sec. I 0 Survey Depth Angle Direction TVD YP .EJ.uJ.d._L.Q~ Solids 7 6.4 cc 13% N-$ E-W Section Coordinate Coordinate Temo 73 OF Dog Leg 0/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Thursday, February 14. 1991 WELL: .NARVAQ ~1 APl No. 50-287-20010 Day: 2 6 Depth at 0600 Hrs. = 24 Hour Footage = 9,200 Ft. OFt. Rig: Nabors Rig #1~-E AFE Number: 684719 AFE Amount = Current Costs = Estimated Final Cost = current Ooeration' RUNNING VSP Summary_ of Last 24 Hours: FINISH MECHANICAL CoREs. RUN PERCUSSION SIDEWALL CORES. BIT TO 8800'. POOH. RIG UP AND RUN VSP. RIH WITH Mud Tv[~e Mud Weiaht Viscosity LOW 'soLIDS 1 0.5 #/gal 4 2 Sec. Angle J~L.Ec_gJ.Lg.D. TVD PV ,YP EJuj.c[_Lc_s~ So I~ds I I 8 6.2 cc 13% N-$ ~-W Section Coordinate Coordinate TemD 83 OF Dog Leg °/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Friday, February.. 15, 1991 WELL: NARVAQ,, ~! APl No. [0-287-20010 Day: 2 7, Depth at 0600 Hrs. = 24 Hour Footage -- .9,200. Ft. OFt. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Ria #18-E -- 684719 Current Operation' RIH TO PLUG Summarv of Last 24 Hours: FINISH RUNNING VSP. LAY DOWN BHA. PREPARE TO SET CEMENT PLUGS. PICK UP 3-1/2" DRILL PIPE. RIH AND Mud Type Mud Weight LOW SOLIDS 10.5 Cf/gal Survey D_.Ep. tb Angle Viscosity -- 4 3 Sec. PV yp ~ Solids I 0 8 6.2 cc 13% N-S, E-W Section Coordinate Coordinate 65 OF ,, Dog Leg o/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. M0nd{~y, Feb.ru{~ry 18. 1991 WELL: NARVAQ #1 APl No. .50-287-20010 Day: 3 0 Depth at 0600 Hrs. = 9,200 Ft. 72 Hour Footage = O Ft. Rig: Nabors Rig #18-E AFE Number: 68471cj AFE Amount = Current Costs = Estimated Final Cost = Current Operation: , NIPPLE DOWN BOP's Sum...mary. of Last... 72 Hours: RIH TO 8510'. PUMP 260 SX CLASS G CEMENT. POOH. RIH TO 7400'. PUMP 260 SX CLASS G CEMENT. POOH. RIH, TAG PLUG AT 7013'. POOH. WAIT ON WEATHER. RIH TO 3880'. PUMP 260 SX CLASS G CEMENT. POOH. RIH, TAG CEMENT TOP AT 3435'. POH. RIH, SET CEMENT RETAINER AT 2300'. INJECT EXCESS MUD. PUMP 260 SX ARCTiCSET I CEMENT THROUGH RETAINER, DUMP 54 SX ON TOP OF RETAINER. TEST TO 1200 PSI. POOH. NIPPLE DOWN BOP's. MudType Mud Weight Viscosity p ¥ .yp ~ Solids TemD LOW SOLIDS 10.45 #/gal 3 9 Sec. 8 9 7.0 cc 1 2.5% 6 5 °F Survey D_.EEt.b Angle TVD Section Coordinate ,~oordinate °/100' Reviewed By: MEM BP EXPLORATION (ALASKA), INC. DAILY DRILLING REPORT: EXPLORATION As of 0600 Hrs. Tuesday, February 19. 1991 WELL: NARVAQ #1 APl No. .50-287-20010 Day: 31 Depth at 0600 Hrs. = 24 Hour Footage = 9,200 Ft. OFt. Rig: AFE Number: AFE Amount = Current Costs = Estimated Final Cost = Nabors Ria #18-E -- 684719 Current Operati. on' RIG RELEASED .Summary of Last 24 HOurs: NIPPLED DOWN BOP. REMOVE WELLHEAD. PUMP 105 SX OF ARCTICSET I CEMENT IN TOP OF 13-3/8" CASING. WELD ON ABANDONMENT MARKER. RELEASE RIG AT 1600 HRS, 2/18/91. MudType .. Mud Weight Viscosity PV YP Fluid Loss Solids #/gal Sec. cc Temp oF Survey Depth Angle Direction TVD N-s .E-W Section Coordinate Coordinate °/100, Reviewed By: MEM LI iblNAL BP EXPLORATION (ALASKA), INC. CORE ANALYSIS REPORT NARVAQ #1 EXPLORATION NORTH SLOPE, ALASKA CL FILE NO. BP-3-1412 Performed by- Core Laboratories 8005 Schoon St. Anchorage, AK 99518 (907) 349-3541 Final Report Presented March 6, 1991 gate These analyses, opinions or interpretations are based on observations and materials supplied by the client to whom, and for whose exclusive and confidential use, this report is made. The interpretations or opinions expressed represent the best judgement of Core Laboratories (all errors and omissions excepted); but Core Laboratories and its officers and employees assume no responsibility and make no warranty of representation as to the productivity, proper operations, profitability of any oil, gas or other mineral welt or formation in connection with which such report is used or relied upon. INTRODUCTION Core Laboratories was requested to perform a core analysis study on behalf of BP Exploration (Alaska), Inc. for samples recovered from the exploratory NARVAQ #1 well. Presented herein are the results of this study. Conventional cores cut with a bland mud were submitted, consisting of intervals 7314.0 - 7375.0 ft and 8272.0 - 8478.0 ft. Service description and methodology are presented in section 1. The core analysis results and surface core gamma log are presented in sections 2 and 3. Section 4 contains copies of shipping and receiving transmittals. In conjunction with the report, the tabular results of the analysis are supplied on an IBM PC compatible diskette. Also, five sets of visible spectrum flash and ultraviolet light photographs are provided in separate binders. We sincerely appreciate this opportunity to be of service and hope these data prove beneficial in the development of this reservoir. Section 1 2 3 TABLE OF CONTENTS CONVENTIONAL CORE ANALYSIS, SERVICE DESCRIPTION CONVENTIONAL CORE ANALYSIS, TABULAR RESULTS CONVENTIONAL CORE STATISTICAL DATA, SURFACE CORE GAMMA LOG \ APPENDIX SECTION 1 CONVENTIONAL CORE Fi el d Procedures Conventional coring equipment in conjunction with a bland mud based drilling fluid was used to extract core samples from NARVAQ #1 during February of 1991. Core Laboratories field personnel performed wellsite core preservation. Each core was lowered from the drill floor to the pipe shed by rig personnel, and the core inner barrel cut into manageable lengths. The core was then crated and shipped to the Anchorage Core Laboratories facility. Core Processing Surface Core Gamma Log A surface core gamma log was performed on the recovered core samples upon arrival at the Anchorage laboratory. The gamma response is graphically presented in Section 3. Sample Preparation Dean-Stark Plug Samples The core was laid out on tables and pushed out of the inner barrel, the depth was marked and plug points selected by BP Exploration. Horizontal one inch diameter plug samples were drilled from each foot of core with a KCL brine. Plugs were taken from the center of each section and parallel to the bedding strike. The plug samples were trimmed with the KCL brine and prepared for fluid measurement. Plug ends were saved and stored according to depth for each sample. Slabbing When sampling was completed, the cored interval (7314.0 - 7375.0 ft, 8272.0 - 8478.0 ft) was slabbed and photographed. The whole core sections were slabbed in one-third and two-third sections using water as a blade coolant. Appropriate depths were marked on the slabbed face of each section and the two-thirds section was prepared for photography. Both core slab sections were then put in appropriately marked boxes. Ana]ys~s Techniques Dean-Stark Fluid Saturation Measurements Water was extracted from the plug samples by Dean-Stark technique using toluene. Samples were left in Dean-Stark for 24 hours. Recovered water readings were measured and the samples were removed. The samples were then placed in toluene for hydrocarbon extraction a minimum of two days, or until no fluorescence was visible. Extracted samples were dried in a convection oven at 220 degrees F. for a minimum of 24 hours, and cooled in a desiccator to room temperature before porosity and permeability was measured. Saturations by Dean-Stark methods were calculated using Equations 1 and 2. Where: So : [((W1 - W2 - H20)/Do)/Vp] x 100 (1) Sw: [H20/Vp] x 100 So = Oil Saturations, Percent Sw = Water Saturation, Percent W1 = Natural Weight W2 : Extracted and Dried Weight H20 : Extracted Water, Density Assumed 1.0 gm/cc Do = Density of Oil Vp : Pore Volume ' (2) Grain Density Grain volume determinations were performed according to Boyle's Law utilizing the Extended Range Helium Porosimeter. Grain density was calculated using Equation 3. Dg : Mg/Vg (3) Where: Dg = Grain Density Vg = Grain Volume Mg = Grain Mass Atmospheric Porosity The samples were measured for bulk volume by mercury displacement at ambient conditions. Porosity was calculated using Equation 4. P : [(Vb-Vg) / Vb)] x 100 (4) Where: P = Porosity, Percent Vb = Bulk Volume Vg = Grain Volume Atmospheric Permeability to Air Samples were loaded into a Hassler type core holder at a confining pressure of 400 psig. Permeability calculations were performed as defined by Darcy's Equation for compressible fluids, Equation 6. Pa x v x 1000 Qa x L x L ' K = x (6) (P1 - P2)(P1 +P2) Vb Where: K = Permeability v = Gas Viscosity P1 - P2 : Differential Pressure P1 +P2 = Mean Pressure Pa = Atmospheric Pressure Qa = F1 ow Rate L = Length Vb: Bulk Volume Core Photographs The two-thirds slabbed section of each core was photographed. Approximately 15 feet of core appears in each photograph. Five sets of visible spectrum flash light and ultraviolet light photographs are provided in separate binders. Special Conditions Plugs 1-15 through 1-41, (7328.3 - 7354.3 feet) were not originally requested, and the core was left unplugged for several weeks after slabbing. When these plugs were requested, much of the water originally present had evaporated. This is evidenced by the corresponding percent water saturation values, which are less than the values for plugs drilled immediately by at least a factor of one-half. Fluids (percent water saturation and, to a lesser degree, percent oil saturation) were the only tests which were affected. In addition, these plugs were chosen by BP Exploration staff for data on sand interlayers, and are not representative of the entire unit. Sample Disposition All plugs and plug ends of NARVAQ #1 are currently stored at ~ore Laboratories Anchorage facility awaiting shipping instructions. Slabbed core and state chips were both returned to BP Exploration's Anchorage warehouse. DEAN-STARK ANALYSIS RESULTS Company We11 : BP EXPLORATI'ON (ALASKA), ·· NARVAQ #1 ANALYTICAL TNC. PROC CORE E D U R LABORATORIES Field : EXPLORATION Formation : EXPLORATION ES AND QUALITY ASSU File No.: BP-3-1412 Date : 6-MAR-91 RAN C E HANDLING & CLEANING ANALYSIS Core Transportation : AIR FREIGHT Solvent : TOLUENE Extraction Equipment : DEAN STARK Extraction Time : 24 HOURS Drying Equipment : CONVECTION OVEN Drying Time : 48 HOURS Drying Temperature : 220 DEG. F. Grain volume measured by Boyle's Law in a matrix cup using He Bulk volume by Archimedes Principle Water saturations by Dean Stark Oil saturations by weight difference in Dean Stark Permeabilities measured on i in. diameter drilled plugs Core Gamma Composite REHARKS Plugs 1-15 through 1-41 taken several weeks after initial slabbing. Hence, this second suite of plugs have low fluid saturations. BPX chose these plugs as representative of sand bodies in cored interval J I I J J ! ! J t J J ! ! ! J J ! i t Company : BP EXPLORATION (ALASKA), INC. Well : NARVAQ #1 CORE LABORATORIES Field : EXPLORATION Formation .' EXPLORATION File No.: BP-3-1412 Date : 6-NAR-gl TABLE I SU##ARY OF CORE DATA ZONE AND CUTOFF DATA ZONE: Identification ........ Top Depth ................ Bottom Depth ............. Number of Samples ........ EXPLORATION 7313.0 ft 8477.1 ft 199 DATA TYPE: Porosity Permeability (HELIUM) (HORIZONTAL) Kair CUTOFFS: Porosity (Minimum) Porosity {Maximum) Permeability (Minimum) --- Permeability (Maximum) --- Water Saturation {Maximum) Oil Saturation (Minimum) - Grain Density {Minimum) -- Grain Density (Maximum) -- Lithology Excluded ....... 0.0% 100.0 % O. 0000 md 100000. md 100.0 % 0.0% 2. O0 gm/cc 3.50 gm/cc NONE CHARACTERISTICS REHAINING AFTER CUTOFFS ZONE: Number of Samples Thickness Represented - POROSITY: Storage Capacity Arithmetic Average .... Minimum Maximum Median Standard Deviation .... GRAIN DENSITY: Arithmetic Average .... Minimum Maximum --- Median Standard Deviation .... 191 191.0 ft 1717.2 ~-ft 9.0% 1.2% 17.3 % 8.6% _+2.2 % 2.71 gm/cc 2.49 gm/cc 2.91 gm/cc 2.71 gm/cc ,0.03 gm/cc PERMEABILITY: Flow Capacity Arithmetic Average .... Geometric Average Harmonic Average Minimum ............... Maximum Median Standard Dev. (Geom) -- K-lO*0'848 632.1 md-ft 3.31 md 0.31 md 0.08 md 0.01 md 191. md 0.22 md md HETEROGENEITY (Permeability): Dykstra-Parsons Var. -- Lorenz Coefficient 0.827 0.891 AVERAGE SATURATIONS (Pore Volume): Oil .... Water 10.2 % 67.2 % Stat 1 - 1 i i I ! ! I i I I I I ! I ! ! ! ! ! I Company : BP EXPLORATION (ALASKA), INC. Well i : NARVAQ #! Location : Co,State : NORTH SLOPE, ALASKA CORE CORE LABORATORIES Field : EXPLORATION Format on : EXPLORATION Coring Fluid : BLAND MUD Elevation : ANALYSIS RESULTS File No.: BP-3-1412 Date : 6-MAR-g1 API No. : Anal ysts: SATURATION SAMPLE DEPTH PERMEABILITY POROSITY GRAIN DESCRIPTION NUMBER (HORIZONTAL) (HELIUM) (PORE VOLUME) DENSITY Kair OIL WATER ft md % % % gm/cc Core 1 : 7314.0 - 7374.0 1 I 7314.0 0.12 17.3 12.6 69.7 2.75 Ss-ltgy,fgr,vwsrtd,$brnd,vwcmt,qtz,dk lith gr,tr glau,calc,mic 1 2 7315.0 0.14 16.2 12.4 64.4 2,73 Ss-ltgy,f-mgr,pred fgr,vwsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc,tr glau,mic 1 3 7316.0 0.10 15.3 13.2 67.8 2.73 Ss-ltgy,fgr,vwsrtd,sbrnd,vwcmt,qtz,dk lith gr,tr glau,calc,mic 1 4 7317.0 0.11 15.3 13.0 70.9 2.73 Ss-ltgy,f-mgr,pred fgr,vwsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc,mic I 5 7318.0 0.13 15.6 16.3 61.7 2.74 Ss-ltgy,f-mgr,pred fgr,vwsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc,mic 1 6 7319.0 0.12 15.7 15.4 61.7 2.74 Ss-ltgy,f-mgr,pred fgr,vwsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc,tr glau,mic 1 7 7320.0 0.16 14.8 20.9 54.3 2.73 Ss-ltgy,f-mgr,pred fgr,vwsrtd,$brnd,vwcnrc,qtz,dk lith gr,calc,mic 1 8 7321.0 0.17 14.8 15.8 57.5 2.72 S$-ltgy,f-mgr,pred fgr/occ m pbl,mod srtd,sbrnd,vwcmt,qtz,dk lith gr,calc, I 9 7322.0 0.12 14.5 17.3 55.3 2.72 Ss-ltgy,f-mgr,pred fgr,vwsrtd,sbrnd,vwcnfc,qtz,dk lith gr,calc,mic I 10 7323.0 0.10 14.6 14.3 61.7 2.73 S$-ltgy,f-n~jr,pred fgr,vwsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc,mic 1 11 7324.0 0.26 13.3 5.8 71.9 2.74 Ss-ltgy,vf-fgr,pred fgr,vwsrtd,sbrnd,wk lam,vwcmt,qtz,dk lith gr,calc 1 12 7325.0 0.04 13.4 6.4 75.2 2.74 S$-ltgy,vf-fgr,pred fgr,vwsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc i 13 7326.0 0.22 9.9 9.9 81.7 2.73 Ss-ltgy,$1t-msd,pred vfgr,bnd,wsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc,frac i 14 7327.0 191. 10.3 6.3 82.9 2.74 Ss-ltgy,slt-msd,pred vfgr,bnd,wsrtd,sbrnd,vwcmt,qtz,dk lith gr,dol,frac PLUGS 1-15 THROUGH 1-41 TAKEN SEVERAL WEEKS AFTER SLABBING 1 15 7328.3 0.01 9.0 9.6 31.2 2.73 S$-mgy,vf-fgr,pred vfgr,wsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc cmt i 16 7329.2 0.01 8.6 10.4 33.0 2.71 Ss-mltgy,vf-mgr,pred vfgr,wsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc cmt 1 17 7330.2 0.02 8.4 7.2 30.0 2.70 Ss-mltgy,vf-mgr,pred vfgr,wsrtd,sbrnd,vwcmt,qtz,dk lith gr, calc cnfc frac i 18 7331.5 0.03 8.7 8.5 34.0 2.67 Ss-mltgy,vf-mgr,pred vfgr,wsrtd,sbrnd,vwcmt,qtz,dk lith gr, calc cmt,tr bit i 19 7332.3 0.02 7.3 23.9 19.6 2.68 Ss-ltgy,vf-fgr,pred vfgr,wsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc cmt 1 20 7333.5 0.09 5.9 22.6 23.7 2.67 Ss-ltgy,vf-fgr,pred vfgr,wsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc cmt 1 21 7334.2 0.01 6.7 22.5 18.3 2.69 Ss-mltgy,vf-mgr,pred vfgr,wsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc cmt,tr glau 1 22 7335.2 0.04 8.7 10.1 32.7 2.65 Ss-mltgy,vf-cgr,pred vfgr,wk lam, msrtd,sbrnd,vwmct,qtz,dk cly,calc cmt 1- 1 J J ! J J i I ! ! ! i ! I I ! ! ! ! J Company : BP EXPLORATION (ALASKA), INC. Wel 1 : NARVAQ #1 CORE CORE LABORATORIES Field : EXPLORATION Formation : EXPLORATION ANALYSIS RESULTS File No.: BP-3-1412 Date : 6-MAR-gl SATURATION SAMPLE DEPTH PERMEABILITY POROSITY GRAIN DESCRIPTION NUMBER (HORIZONTAL) (HELIUM) (PORE VOLUME) DENSITY Kair OIL WATER ft md % % % gm/cc i 23 7336.1 0.01 8.1 15.0 25.0 2.71 Ss-mltgy,vf-mgr,pred vfgr,wsrtd,sbrnd,vwcmt,qtz,dk cly gr,calc cmt I 24 7337.1 0.01 8.8 11.2 31.4 2.71 Ss-mltgy,vf-cgr,pred vfgr,wk lam, msrtd,sbrnd,vwcmt,qtz,dk cly,calc cmt i 25 7338.2 0.31 8.6 5.2 36.1 2.70 Ss-mltgy,vf-fgr,pred vfgr,wsrtd,sbrnd,vwcmt,qtz,bit,calc cmt,broken i 26 7339.1 0.04 7.8 18.5 24.4 2.71 Ss-mgy,vf-fgr,pred vfgr,wsrtd,sbrnd,vwcmt,qtz,bit,calc cmt i 27 7340.2 0.24 6.4 22.1 21.4 2.70 Ss-mltgy,vf-mgr,pred vfgr,wsrtd,sbrnd,vwcmt,qtz,dk lith gr,calc cmt 1 34 7347.2 NO PLUG 1 41 7354.3 0.07 1.2 49.2 44.1 2.49 Ss-ltgy,vf-mgr,pred vfgr,wsrtd, lam, sbrnd,vwcmt,qtz,dk lith gr,qtz+calc cmt 1 43 7354.3 NO PLUG Core 3 : 8301.0 - 8389.3 3 7 8307.7 0.01 9.0 17.4 72.7 2.91 Ss-ltgy,vf-mgr,pred vfgr,mod srtd,sbrnd,vwcmt,qtz,glau,dol 3 8 8308.2 0.02 9.9 23.6 63.4 2.75 Ss-ltgy,vf-mgr,pred vfgr,mod srtd,sbrnd,vwcmt,qtz,glau,dol 3 9 8309.2 0.46 2.0 25.3 59.3 2.74 Ss-mltgy,vf-cgr,pred vfgr,mod srtd,sbrnd,vwcmt,qtz,glau,calc 3 10 8310.2 0.03 12.1 37.2 54.1 2.81 Ss-mgy,vfgr/r msd-fpbl,mod srtd,sb-wrnd,vwcmt,qtz,glau,calc 3 11 8311.2 0.02 10.6 20.4 63.8 2.75 Ss-mgy,vf-cgr,pred fgr,mod srtd,sbang-wrnd,vwcmt,qtz,glau,dol 3 12 8312.2 0.22 12.1 13.6 69.5 2.71 Ss-mgy,f-vcgr,pred fgr,mod srtd,sbrnd,vwcmt,qtz,glau,dol 3 13 8313.2 4.55 10.6 15.2 51.6 2.73 Ss-mgy,vfgr,lam/dk mdst,vwsrtd,sbrnd,vwcmt,qtz,occ pyr,tr dol 3 14 8314.2 19.3 10.7 15.3 56.0 2.71 Ss-mgy,vf-mgr,pred vfgr,wsrtd,sbrnd,vwcmt,lam, qtz,dkbrn cly,broken 3 15 8315.2 0.23 8.4 21.5 49.6 2.66 Ss-mdkgy,vfgr,vwsrtd,sbrnd,vwcmt,wk lam, qtz,tr dol 3 16 8316.2 0.03 7.5 22.5 55.4 2.62 Ss-mdkgy,vfgr,vwsrtd,sbrnd,vwcmt,lam, qtz,tr dol 3 17 8317.2 4.26 8.6 12.8 79.2 2.66 Ss-mgy,vfgr,vwsrtd,la~dkbrn n~lst,sbrnd,vwcmt,qtz,dk cly,tr dol 3 18 8318.2 0.11 7.4 30.5 42.8 2.67 Ss-mgy,vfgr,vwsrtd,lam/dkbrn mdst,sbrnd,vwcmt,qtz,dk cly,tr dol 3 19 8319.2 0.38 9.1 18.2 51.0 2.68 Ss-mgy,vfgr,vwsrtd,lam/dkbrn mdst,sbrnd,vwcmt,qtz,dk cly,tr dol 3 20 8320.2 1.58 9.1 18.1 69.1 2.71 Ss-mgy,vfgr,vwsrtd,wk lam/dkbrn mdst,sbrnd,vwcmt,qtz,dk cly,dol,tr pyr 3 21 8321.4 0.50 7.9 25.8 47.2 2.67 Ss-mgy,vfgr,lam/brn mdst,vwsrtd,sbrnd,vwcmt,qtz,brn cly,tr dol 3 22 8322.2 0.11 8.9 7.7 64.1 2.73 Ss-mgy,vfgr,lam/brn mdst,vwsrtd,sbrnd,vwcmt,qtz,brn cly,tr pyr 3 23 8323.2 0.11 8.9 11.0 64.6 2.74 Ss-n~jy,vi=gr,lam/brn mdst,vwsrtd,sbrnd,vwcmt,qtz,brn cly,tr pyr 3 24 8324.2 3.02 10.0 22.9 52.1 2.69 Ss-n~jy,vfgr,lam/brn n~st,vwsrtd,sbrnd,vwcmt,qtz,brn cly,tr pyr 1 -2 I ! ! I } I ! ! ! ! ! } ! ! . I } ! ! } Company : BP EXPLORATTON (ALASKA), INC. He11 : NARVAQ //1 CORE CORE LABORATORIES Field : EXPLORATION Formation : EXPLORATION ANALYSIS RESULTS File No.: BP-3-1412 Date : 6-MAR-91 SATURATION SAMPLE DEPTH PERMEABILITY POROSITY GRAIN DESCRIPTION NUMBER (HORIZONTAL) (HELIUM) (PORE VOLUME) DENSITY Kair OIL WATER ft md % % % gm/cc 3 25 8325.3 0.95 8.6 6.5 73.0 2.69 Ss-~x3y,vfgr,lam/brn mdst,vwsrtd,sbrnd,vwcmt,qtz,brn cly,tr pyr 3 26 8326.3 0.13 10.2 8.1 61.0 2.67 Ss-~mjy,vfgr,lam/brn mdst,vwsrtd,sbrnd,vwcmt,qtz,brn cly,tr pyr 3 27 8327.2 0.36 8.0 24.4 45.7 2.69 Ss-n~jy,vfgr,lam/brn mdst,vwsrtd,sbrnd,vwcmt,qtz,brn cly,tr pyr 3 28' 8328.2 NO PLUG 3 29 8329.3 0.47 9.0 21.0 52.9 2.71 Ss-n~ly,vfgr/sml brn cly clas,vwsrtd,sbrnd,vwc~Yc,qtz,brn cly,tr dol 3 30 8330.2 0.93 8.8 11.4 63.5 2.70 Mdst-mltgy,cly-vfsd,pred slt,vwsrtd,vwcmt,bnd/dkbrn cly 3 31 8331.4 0.02 8.7 23.4 54.8 2.71 Mdst-mltgy,cly-vfsd,pred slt,vwsrtd,vwcmt,wk lam/dk cly,tr dol 3 32 8332.4 38.3 8.1 11.7 69.8 2.67 Mdst-dkgy,dk cly/r fsd,vwcmt,broken 3 33 8333.3 0.30 8.8 17.3 52.3 2.71 Ss-mdkgy,vfgr/dkbrn cly, lam,vwsrtd,sbrnd,vwcmt,qtz,brn cly,tr dol 3 34 8334.2 1.29 9.3 20.3 48.5 2.71 Ss-mdkgy,vfgr/dkbrn cly,bnd,vwsrtd,sbrnd,vwcmt,qtz,brn cly,tr dol 3 35 8335.2 0.86 9.0 15.8 60.0 2.72 Mdst-mltgy,cly-vfsd,vslty,vwsrtd,vwcm~,wk lam/dk cly,tr dol 3 36 8336.3 0.09 8.9 13.1 57.4 2.71 Mdst-mltgy,cly-vfsd,vslty,vwsrtd,vwcmt,wk lam/dk cly,tr dol,tr pyr 3 37 8337.2 0.15 7.8 10.6 60.5 2.68 Mdst-mltgy,cly-vfsd,vslty,vwsrtd,vwcnYc,wk lam/dk cly,tr dol,tr pyr 3 38 8338.1 0.04 8.5 8.5 62.9 2.69 Mdst-mltgy,cly-vfsd,vslty,vwsrtd,vwcnYc,wk lam/dk cly,tr dol 3 39 8339.2 0.25 8.6 9.9 65.6 2.70 Ss-mdkgy,vfgr,bioturb,dkbrn cly,mod srtd,sbrnd,vwcmt,qtz,brn cly,tr dol 3 40 8340.5 0.92 7.3 13.9 56.2 2.70 Mdst-mltgy,cly-vfsd,vslty,vwsrtd,vwcnYc,wk lant/dk cly,tr dol,tr pyr 3 41 8341.3 0.12 8.7 13.3 55.0 2.71 Mdst-mltgy,cly-vfsd,vslty,vwsrtd,vwcnYc,wk lam/dk cly,tr dol 3 42 8342.2 0.03 7.3 2.0 77.2 2.65 Sltst-mdkgy,dkbrn cly & slt-vfsd,pred slt,vwcmt,qtz,tr mic 3 43 8343.1 0.72 7.5 1.2 73.1 2.66 Sltst-mdkgy,cly-fsd,pred slt,wk lam,vwcm~c,brit,sm frac 3 44 8344.3 7.23 7.8 0.1 79.6 2.65 Mdst-mdkgy,cly,vfsd,vwcmt,dkbrn cly,qtz,broken 3 45 8345.1 12.9 9.2 1.6 78.1 2.72 Ss-mdkgy, vfgr,bnd/dkbrn cly,vwsrtd,sbrnd,vwcmt,brit,qtz,sli dol,tr pyr 3 46 8346.4 0.05 9.9 2.4 78.7 2.71 Ss-mdgy,vfgr, lam, vwsrtd,sbrnd,vwcn~t,qtz,brn cly,occ calc,occ pyr 3 47 8347.2 0.15 11.6 19.6 44.0 2.80 Ss-mltgy,vfgr,lam,vwsrtd,sbrnd,vwcnYc,qtz,brn cly,dol,occ pyr 3 48 8348.3 0.21 12.5 17.3 53.4 2.69 Ss-mltgy,vfgr,lam,vwsrtd,sbrnd,vwcmt,qtz,brn cly,dol,tr pyr 3 49 8349.5 0.16 12.1 5.6 69.8 2.69 Ss-ltgy,vfgr,wk la~/dk cly,vwsrtd,sbrnd,vwcmt,qtz,dkbrn cly,tr pyr,sli dol 3 50 8350.2 0.83 12.8 6.5 51.6 2.69 Ss-ltgy,vfgr, lam, vwsrtd,sbrnd,vwcmt,qtz,dkbrn cly,tr pyr,broken 3 51 8351.2 1.25 12.0 6.5 62.5 2.69 Ss-ltgy,vfgr, lam, vwsrtd,sbrnd,vwcmt,qtz,dkbrn cly,occ pyr 3 52 8352.4 0.14 12.8 12.2 51.9 2.72 Ss-ltgy,vfgr, lam/dkbrn cly,vwsrtd,sbrnd,vwcmt,qtz,dk cly, occ pyr,tr dol 3 53 8353.2 0.15 11.0 12.0 55.8 2.71 Ss-ltgy,vfgr, lam/dkbrn cly,vwsrtd,sbrnd,vwcmt,qtz,dk cly,occ pyr,tr calc 1 -3 I I i J ! I I I ! ! ! I ! ! ! ! i ! Company : BP EXPLORATTON (ALASKA), TNC. Nel 1 : HARVAQ #! CORE CORE LABORATORIES Field : EXPLORATION Formation : EXPLORATION ANALYSIS RESULTS File No.: BP-3-1412 Date : 6-MAR-91 SATURATION SAMPLE DEPTH PERMEABILITY POROSITY GRAIN DESCRIPTION NUMBER (HORIZONTAL) (HELIUM) (PORE VOLUME) DENSITY Kair OIL WATER ft md % % % gm/cc 3 54 8354.3 0.29 10.9 25.7 51.4 2.69 Ss-ltgy,vfgr, lam/dkbrn cly,vwsrtd,sbrnd,vwcmt,qtz,dk cly, occ pyr,tr dol 3 55 8355.4 0.70 13.1 13.9 54.5 2.71 Ss-ltgy,vfgr, lam/dkbrn cly,vwsrtd,sbrnd,vwcmt,qtz,dk cly,occ pyr,tr dol,fr 3 56 8356.3 11.6 11.0 13.4 64.2 2.74 Sltst-mdkgy,brn cly-vfsd,pred slt,lam,vwcmt,qtz,pyr nod 3 57 8357.2 0.16 12.8 11.2 67.4 2.71 Ss-ltgy,vfgr, lam/dk cly,vwsrtd,sbrnd,vwcmt,qtz,tr pyr,tr calc,frac 3 58 8358.4 0.55 10.9 3.1 71.0 2.71 Ss-ltgy,vfgr, lam/dk cly,vwsrtd,sbrnd,vwcmt,qtz,tr pyr,tr calc,frac 3 59 8359.2 1.98 11.4 1.7 70.5 2.71 Ss-ltgy,vfgr, lam/dkbrn cly,vwsrtd,sbrnd,vwcnfc,qtz,dol,tr pyr 3 60 8360.2 0.89 9.0 7.7 75.8 2.71 Ss-mgy,vfgr,bnd/dk cly,vwsrtd,sbrnd,vwcmt,qtz,pyr bit 3 61 8361.2 0.17 9.0 8.0 74.6 2.68 Ss-mgy,vfgr,lam,vwsrtd,sbrnd,vwcmt,qtz,dkbrn cly,tr pyr 3 62 8362.2 0.50 8.7 1.5 82.9 2.67 Ss-mgy,vfgr,lam,vwsrtd,sbrnd,vwcmt,qtz,dkbrn cly,tr calc 3 63 8363.3 0.27 8.6 3.6 82.1 2.68 Mdst-mdkgy,dk cly-vfsd,bnd/vfsd,vwcmt,qtz,tr pyr,tr calc 3 64 8364.4 0.18 10.6 1.6 73.0 2.70 Mdst-mdkgy,cly-vfsd,vslty,vwcnfc,dkbrn cly,qtz,dol 3 65 8365.2 1.09 9.7 1.9 79.1 2.72 Mdst-mdkgy,cly-vfsd,vslty,vwcmt,dkbrn cly,qtz,dol 3 66 8366.3 0.60 9.3 0.9 77.1 2.72 Ss-mltgy,vfgr,lam, vwsrtd,sbrnd,vwcmt,qtz,dkbrn cly,dol,tr pyr 3 67 8367.4 0.07 7.7 3.4 80.1 2.70 Mdst-mdkgy,dk cly-vfsd,bnd/vfsd,vwcnfc,qtz,dol,pyr 3 68 8368.2 0.17 8.9 4.6 77.9 2.70 Mdst-mdkgy,dk cly-vfsd,bnd/vfsd,vwcnfc,qtz,tr calc,pyr 3 69 8369.4 0.07 8.8 5.3 73.5 2.71 Mdst-mdkgy,dk cly,qtz slt-vfsd, lam, vwcn~,qtz,tr pyr 3 70 8370.1 0.15 7.2 4.6 79.8 2.66 Sltst-mdkgy,dkbrn cly-msd,pred slt,vwcnfc,qtz 3 71 8371.2 0.08 11.6 5.1 67.3 2.69 Ss-mltgy,vfgr,lam/dkgy cly,vwsrtd,sbrnd,vwcmt,qtz,tr calc 3 72 8372.2 0.07 11.1 5.2 54.5 2.72 Ss-mltgy,vfgr,lam/dkgy cly,vwsrtd,sbrnd,vwcmt,qtz,tr calc,occ pyr 3 73 8373.2 0.05 11.2 4.8 61.9 2.70 Ss-mltgy,vfgr,lan~/dkgy cly,vwsrtd,sbrnd,vwcmt,qtz,tr calc,occ pyr 3 74 8374.2 0.11 8.9 4.0 79.4 2.68 Ss-mdkgy,vfgr,bnd/dkbrngy cly,wsrtd,sbrnd,vwcmt,qtz,tr pyr,tr calc 3 75 8375.4 0.05 9.8 6.4 72.3 2.70 Ss-mdkgy,vfgr,bnd/dkbrngy cly,wsrtd,sbrnd,vwcmt,qtz,tr pyr,tr calc 3 76 8376.4 4.27 9.7 8.2 73.7 2.68 Ss-mdkgy,vfgr,bnd/dkbrngy cly,wsrtd,sbrnd,vwcmt,qtz,tr pyr,tr calc 3 77 8377.2 0.10 8.3 9.0 73.7 2.70 Ss-mdkgy,vfgr,bnd/dkbrngy cly,wsrtd,sbrnd,vwcmt,qtz,tr pyr,tr calc 3 78 8378.2 0.10 8.7 7.6 75.7 2.70 Ss-mdkgy,vfgr,bnd/dkbrngy cly,wsrtd,sbrnd,vwcmt,qtz,tr pyr,tr calc 3 79 8379.2 0.09 8.4 3.5 82.3 2.70 Ss-mdkgy,vfgr,bnd/dkbrngy cly,wsrtd,sbrnd,vwcmt,qtz,tr pyr,tr calc 3 80 8380.4 0.03 9.2 3.6 80.0 2.71 Ss-mdkgy,vfgr,bnd/dkbrngy cly,wsrtd,sbrnd,vwcmt,qtz,tr calc 3 81 8381.4 0.17 8.0 6.8 81.1 2.73 Mdst-mgy,brn cly, slt,vfsd,bioturb,vwcmt,pyr nod,tr calc 3 82 8382.2 0.15 8.3 1.7 83.0 2.68 Mdst-mgy,brn cly,slt,vfsd,bioturb,vwcmt,tr calc I -4 Company : BP EXPLORATION (ALASKA), INC. Wel 1 : NARVAQ #1 CORE CORE LABORATORIES Field : EXPLORATION Formation : EXPLORATION ANALYSIS RESULTS File No.: BP-3-1412 Date : 6-MAR-gl ,,, SATURATION SAMPLE DEPTH PERMEABILITY POROSITY GRAIN DESCRIPTION NUMBER (HORIZONTAL) (HELIUM) (PORE VOLUME) DENSITY Kair OIL WATER ft md % % % gm/cc 3 83 8383.2 0.12 8.4 0.6 83.2 2.69 Mdst-mgy,brn cly, slt,vfsd,bioturb,vwcmt,tr calc 3 84 8384.3 0.31 8.9 1.3 77.8 2.69 Mdst-mgy, brn cly,slt,vfsd,bioturb,vwcmt,tr calc 3 85 8385.4 0.16 7.7 5.3 77.8 2.68 Mdst-mltgy,cly,slt,bioturb,vwcmt,brn cly,qtz,calc 3 86 8386.2 3.69 8.3 0.1 84.0 2.69 Mdst-mltgy,cly,slt,bioturb,vwcmt,brn cly, qtz,calc 3 87 8387.2 0.02 8.0 1.4 78.9 2.70 Mdst-mltgy,cly,slt,bioturb,vwcmt,brn cly,qtz,calc 3 88 8388.1 0.32 7.4 1.7 78.1 2.73 Mdst-mltgy,cly,slt,bioturb,vwcmt,brn cly,qtz,calc,tr pyr 3 89 8389.1 1.98 7.9 1.3 85.1 2.69 Mdst-mltgy,cly,slt,bioturb,vwcmt,brn cly,qtz,calc Core 4 : 8391.0 - 8477.6 4 I 8391.4 0.05 7.4 10.2 79.3 2.69 Mdst,mdkgy,bioturb,vwcmt,brn cly,qtz,occ pyr,tr calc~ 4 2 8392.2 0.07 7.7 15.7 67.0 2.71 Mdst-mltgy, lam, dkbrn cly, qtz,dol,vwcmt 4 3 8393.3 0.28 7.3 2.3 88.0 2.67 Mdst-mltgy,bioturb,dkbrn cly,qtz,dol,vwcmt,frac 4 4 8394.4 0.15 7.2 28.1 60.1 2.70 Mdst-mdkgy,bioturb,dkbrn cly,qtz,occ dol,vwcmt,frac 4 5 8395.3 3.13 7.2 14.7 74.9 2.67 Mdst-mdkgy,bioturb,dkbrn cly, qtz,tr dol,vwcmt,frac 4 6 8396.2 1.14 7.7 3.6 83.0 2.68 Mdst-mdkgy,bioturb,dkbrn cly,qtz,tr dol,vwcmt,frac 4 7 8397.3 0.25 7.2 4.7 83.2 2.68 Mdst-mdkgy,bioturb,dkbrn cly, qtz,tr dol,vwcmt 4 8 8398.3 91.0 7.8 9.1 76.7 2.69 Mdst-mdkgy,bioturb,dkbrn cly,vwcmt,qtz,tr calc,tr pyr,broken 4 9 8399.2 0.11 9.1 15.7 57.6 2.74 Mdst-mdkgy,bioturb,dkbrn cly,qtz,tr dol,vwcmt 4 10 8400.6 18.3 8.9 5.7 78.6 2.71 Mdst-mdkgy,bnd,dkbrn cly, qtz slt-vfsd,vwcmt,frac,tr calc 4 11 8401.2 6.78 7.7 9.1 73.8 2.71 Mdst-mdkgy,bioturb,dkbrn cly,qtz,tr dol,vwc~,pyr 4 12 8402.5 0.39 7.5 6.0 77.5 2.69 Mdst-mdkgy,bioturb,dkbrn cly,qtz,tr dol,vwcmt 4 13 8403.3 0.57 7.9 8.4 77.6 2.71 Mdst-mdkgy,bioturb,dkbrn cly,qtz,tr dol,vwcmt,pyr 4 14 8404.4 11.0 8.4 7.4 79.0 2.69 Mdst-mdkgy,bioturb,dkbrn cly,qtz,tr dol,vwcmt,broken 4 15 8405.3 51.6 9.3 0.6 84.5 2.76 Mdst-mdkgy,bioturb,dkbrn cly,qtz,tr pyr,tr calc,vwcmt,frac 4 16 8406.4 6.27 9.3 2.3 84.8 2.77 Mdst-dkgy,dkbrn cly,occ qtz,occ pyr,vwcmt,broken 4 17 8407.2 3.98 8.5 6.3 76.2 2.77 Mdst-dkgy,dkbrn cly,occ qtz,occ pyr,vwcn~c,tr calc,frac 4 18 8408.2 0.43 8.0 1.9 80.7 2.72 Mdst-dkgy,dkbrn cly,occ qtz,occ pyr,vwcmt,tr calc 4 19 8409.6 0.26 8.2 2.6 80.5 2.72 Mdst-dkgy,dkbrn cly,occ qtz,dol,bio turb,vwcmt 1 -5 I ! ! ! i i ! I I t I i I i ! ! I I ~ Company : BP EXPLORATION (ALASKA), INC. Wel 1 : NARVAQ #! CORE CORE LABORATORIES Field : EXPLORATION Formation : EXPLORATION ANALYSTS RESULTS File No.: BP-3-1412 Date : 6-NAR-g1 SATURATION SAMPLE DEPTH PERMEABILITY POROSITY GRAIN DESCRIPTION NUMBER (HORIZONTAL) (HELIUM) (PORE VOLUME) DENSITY Kair OIL WATER ft n~l % % % gm/cc 4 20 8410.2 0.08 8.8 2.0 77.9 2.75 Mdst-dkgy,dkbrn cly,occ qtz,tr calc,bio turb,vwcmt 4 21 8411.2 2.88 8.1 3.9 80.5 2.70 Mdst-dkgy,dkbrn cly,occ qtz,tr dol,bio turb,vwcmt,frac 4 22 8412.0 NO PLUG 4 23 8413.1 0.48 9.6 0.3 78.7 2.76 Mdst,dkgy,dkbrn cly,occ qtz,sli dol,vwcmt,lam 4 24 8414.5 1.58 8.6 6.6 85.9 2.72 Mdst-dkgy,dkbrn cly,occ qtz,dol,bioturb,vwcmt,frac 4 25 8415.4 14.2 8.0 7.3 91.7 2.68 Mdst,dkgy,dkbrn cly,occ qtz,sli dol,vwcmt,lam, broken 4 26 8416.3 2.58 7.7 6.9 84.9 2.68 Mdst,dkgy,dkbrn cly,occ qtz,sli dol,vwcmt,lam,frac 4 27 8417.3 5.65 9.0 3.7 76.6 2.72 Mdst,dkgy,dkbrn cly,occ qtz,sli dol,vwcmt,lam,frac 4 28 8418.0 NO PLUG 4 29 8419.2 0.11 8.2 3.3 78.5 2.72 Ss-mclkgy,vfgr,lam/brn cly,bioturb,sbrnd,vwcmt,qtz,occ pyr,tr calc 4 30 8420.4 0.17 9.1 2.1 75.4 2.72 Ss-mclkgy,vfgr,lam/brn cly,bioturb,sbrnd,vwcnfc,qtz,occ pyr 4 31 8421.2 0.58 8.7 4.0 80.4 2.71 Ss-mclkgy,vfgr,lam/brn cly,bioturb,sbrnd,vwcmt,qtz,occ pyr 4 32 8422.3 0.08 10.5 6.9 60.5 2.70 Ss-ltgy,vfgr, lam/dkbrn cly,vwsrtd,sbrnd,vwcmt,qtz,tr calc 4 33 8423.6 1.77 10.0 1.2 77.2 2.71 Ss-ltgy,vfgr, lam/dkbrn cly,vwsrtd,sbrnd,vwcmt,qtz,tr calc 4 34 8424.4 2.31 9.2 8.4 74.7 2.69 Ss-ltgy,vfgr, lam/dkbrn cly,vwsrtd,sbrnd,vwcmt,qtz,brn cly,tr calc 4 35 8425.3 0.69 10.5 3.2 69.5 2.73 Ss-ltgy,vfgr,bnd/dkbrn cly,vwsrtd,sbrnd,vwcmt,qtz,dkbrn cly,calc 4 36 8426.3 0.33 7.4 14.4 57.4 2.72 Ss-ltgy,vfgr,bnd/dk cly,vwsrtd,sbrnd,vwcmt,qtz,calc 4 37 8427.3 0.11 7.9 13.7 76.5 2.70 Ss-mgy,vfgr,bioturb/dk cly,mod srtd,sbrnd,vwcmt,qtz,calc 4 38 8428.2 0.03 8.9 21.0 55.0 2.72 Ss-ltgy,vfgr,bioturb/dk cly,wsrtd,sbrnd,vwcmt,qtz,calc 4 39 8429.3 0.14 8.3 8.8 71.8 2.71 Ss-ltgy,vfgr,bioturb/dk cly,wsrtd,sbrnd,vwcnfc,qtz,calc 4 40 8430.3 0.03 9.4 19.1 59.0 2.76 Ss-ltgy,vfgr,bioturb/dk cly,wsrtd,sbrnd,vwcmt,-qtz,calc 4 41 8431.2 0.75 8.0 6.6 79.2 2.70 Mdst-mdkgy,cly,slt,vfsd,bioturb,vwcmt,dkbrn cly,qtz,tr calc 4 42 8432.2 0.59 6.7 6.0 89.2 2.69 Mdst-mdkgy,cly,slt,vfsd,bioturb,vwcmt,dkbrn cly,qtz,tr calc,broken 4 43 8433.2 1.36 7.5 9.0 79.3 2.70 Ss-mltgy,vfgr,bioturb/dk cly, sbrnd,vwcmt,qtz,dkbrn cly,pyr,calc 4 44 8434.3 6.21 8.1 16.4 71.1 2.70 Ss-mltgy,vfgr,bioturb/dk cly,sbrnd,vwcmt,qtz,dkbrn cly,tr calc,broken 4 45 8435.3 0.52 8.3 10.2 67.4 2.73 Ss-mltgy,vfgr,bioturb/dk cly,sbrnd,vwcmt,qtz,dkbrn cly,tr calc,broken 4 46 8436.3 0.62 7.4 5.8 74.6 2.71 Ss-mltgy,vfgr,bioturb/dk cly,sbrnd,vwcnfc,qtz,dkbrn cly,tr calc,broken 4 47 8437.3 5.24 8.4 9.6 75.5 2.71 Ss-mltgy,vfgr,bioturb/dk cly,sbrnd,vwcmt,qtz,dkbrn cly,tr calc,frac 4 48 8438.4 0.16 7.4 10.1 83.7 2.70 Mdst-mclkgy,dk cly,bnd/qtz slt,dol,vwcmt I - 6 i i t I I i I I I I I ! i t I I I I I Company : BP EXPLORATION (ALASKA), iNC. We11 : NARVAQ #1 CORE CORE LABORATORTES Field : EXPLORATION Format1 on : EXPLORATION ANALYSIS RESULTS File No.: BP'3-1412 Date : 6-iIAR-91 SATURATION SAHPLE DEPTH PERHEABILITY POROSITY GRAIN DESCRIPTION NUHBER (HORZZONTAL) (HELIUM) (PORE VOLUHE) DENSITY Kair OIL WATER ft mci % % % gm/cc 4 49 8439.2 2.43 7.6 16.3 66.7 2.70 Mdst-mgy,dk cly,qtz slt,tr dol,lam,vwcmt 4 50 8440.2 1.55 7.5 3.2 84.5 2.70 Mdst-mgy,dk cly,qtz slt,tr dol,bioturb,vwcmt 4 51 8441.3 0.06 8.8 18.2 64.4 2.74 Mdst-mgy,dk cly,qtz slt,tr dol,bioturb,vwcmt 4 52 8442.3 0.54 7.5 4.5 81.3 2.71 Mdst-mgy,dk cly,qtz slt,tr dol,lam,vwcmt i 4 53 8443.2 3.33 8.2 15.8 76.3 2.72 Mdst-mdkgy,dk cly,qtz slt,bioturb,vwcmt,frac 4 54 8444.3 0.22 7.1 7.1 84.3 2.69 Mdst-dkgy,dk cly & slt/r vcg wrnd qtz sd,vwcmt,pyr, tr calc 4 55 8445.2 0.15 7.3 12.2 69.6 2.82 Mdst-mgy,dk cly/qtz slt,pyr,vwcmt 4 56 8446.3 0.02 7.4 19.8 63.8 2.71 Mdst-mdkgy,dk cly/qtz slt,pyr,vwcmt,frac 4 57 8447.2 0.32 7.2 5.3 89.7 2.70 Mdst-dkgy,dkbrn cly,vwcmt,brit,tr pyr,broken 4 58 8448.3 4.14 9.2 6.2 71.0 2.74 Mdst-mdkgy,dk cly/qtz,vwcmt,frac 4 59 8449.5 1.53 8.3 6.0 77.6 2,70 Mdst-mdkgy,dk cly/qtz,vwcmt,frac 4 60 8450.3 0.53 9.3 4.8 78.8 2.71 Mdst,mdkgy,dk cly/qtz slt,vwcmt,broken 4 61 8451.3 0.22 7.0 7.8 78.6 2.69 Mdst-mdkgy,dk cly/qtz,vwcmt 4 62 8452.2 0.09 6.6 4.3 85.3 2.71 Mdst-mdkgy,dk cly/qtz,vwcmt,frac 4 63 8453.1 3.32 7.0 12.3 75.9 2.68 Mdst-mdkgy,dk cly/qtz,vwcmt,frac 4 64 8454.2 0.06 7.4 11.1 66.8 2.71 Mdst-mdkgy,dk cly/qtz,vwcmt 4 65 8455.3 2.46 8.4 8.0 75.2 2.70 Mdst,dkgy,dk cly/r fgr qtz sd gr,vwcmt,brit,occ pyr,frac 4 66 8456.2 0.05 7.2 7.0 77.9 2.69 Mdst-mdkgy,dkbrn cly,qtz slt,vwcmt,brit,tr pyr 4 67 8457.3 1.25 8.2 8.6 81.3 2.69 Mdst-n~ikgy,dkbrn cly, qtz slt,vwcmt,brit,tr pyr,broken 4 68 8458.4 0.99 8.4 9.4 78.1 2.71 Mdst-mdkgy,dk cly/qtz,vwcmt,tr dol,frac 4 69 8459.2 0.70 8.2 7.8 79.6 2.68 Mdst-mdkgy,dkbrn cly,qtz slt,vwcmt~brit,tr pyr,broken 4 70 8460.0 NO PLUG 4 71 8461.2 0.21 7.0 5.6 87.6 2.68 Mdst-mcmkgy,dkbrn cly,qtz slt,vwcmt,brit,tr pyr,broken 4 72 8462.0 NO PLUG 4 73 8463.2 0.10 7.8 2.1 82.9 2.75 Mdst-mcmkgy,dkbrn cly, qtz slt,vwcmt,brit,tr pyr 4 74 8464.0 NO PLUG 4 75 8465.5 0.72 7.3 4.7 71.3 2.73 Mdst-mdkgy,dk cly,qtz,occ pyr,bioturb,vwcmt 4 76 8466.2 0.02 6.7 2.9 70.0 2.71 Sltst-mgy,wsrtd,vwcmt,qtz,dkbrn cly,tr dol 4 77 8467.1 0.05 6.3 13.9 82.2 2.68 Mdst-n~lkgy,dk cly,qtz,occ pyr,bioturb,vwcmt I -7 I ! I t ! ! I ! J - ! ! ] ~ J ! ............. ) ] ! ! ] Company .- BP EXPLORATION (ALASKA), INC. Wel 1 : NARVAQ #1 CORE CORE LABORATORIES Field : EXPLORATION Formation : EXPLORATION ANALYSIS RESULTS File No.: BP-3-1412 Date : 6-1tAR-gl SATURATION SAMPLE DEPTH PERMEABILITY POROSITY GRAIN DESCRIPTION NUMBER (HORIZONTAL) (HELIUM) (PORE VOLUME) DENSITY Kair OIL WATER ft md % % % gm/cc 4 78 8468.2 0.01 6.7 10.6 70.1 2.70 Mdst-mdkgy,dk cly,qtz,occ pyr,bioturb,vwcmt 4 79 8469.2 15.9 6.6 7.3 78.7 2.67 Mdst,mdkby,dk cly,qtz slt-vfsd,tr pyr,bioturb,vwcmt,broken 4 80 8470.3 0.08 7.8 12.4 49.6 2.71 Sltst-mgy,wsrtd,vwcmt,qtz,dkbrn cly,tr dol 4 81 8471.2 16.5 6.9 10.0 46.5 2.70 Ss-mltgy,vfgr,vwsrtd,sbrnd,lam,vwcmt,qtz,brn cly,tr calc,frac 4 82 8472.2 0.12 6.4 6.7 75.0 2.67 Mdst,mdkgy,dkbrn cly/qtz slt,vwcmt,brit,tr calc,frac 4 83 8473.2 0.02 7.8 5.9 66.4 2.71 Mdst-mdkgy,dkbrn cly/qtz slt-vfsd,vwcmt,brit,tr calc 4 84 8474.3 0.03 7.6 13.7 68.0 2.71 Mdst-mdkgy,dkbrn cly/qtz,slt-vfsd,vwcmt,brit,tr calc 4 85 8475.3 0.07 7.5 6.7 79.7 2.69 Mdst-mdkgy,dkbrn cly,wk lam/qtz slt-vfsd,vwcmt,brit,tr calc 4 86 8476.2 0.48 8.8 6.9 72.9 2.71 Mdst-mdkgy,dkbrn cly/qtz slt,vwcmt,brit,tr dol 4 87 8477.1 19.0 8.5 5.4 81.1 2.70 Mdst-mdkgy,dkbrn cly/qtz slt,vwcmt,brit,tr dol,frac 1 -8 Permeability vs. Porosity iO00.O iO0.O O.i O.Oi 4.0 ~ 8.:0~:~ i~.O i6.0 Helium PoPosity: % 20.0 BP EXPLORATION ~ALASKA). INC, NARVAr~ #i EXPLORATION EXPLORATION -- LESEND - EXPLORATION Porosity Histogram 9O ?0 60 /; / 4O i.O $.0 5.0 7.0 9.0 Helium Po~o~ l~y: // / // / ii.O % i"~. 0 iE.O 90 40 3n EO 0 i7.0 aO ?0 GO BP EXPLORATTOH (ALASKA). NARVAQ #i EXPLORATZON INC. EXPLORATION (73i4.0 - 8477.6) 7-HAft-g1 - LEGEND - Median VaZue APtth. AvePage Per'meabi~ity Hi~togr'am 7~ / / 1 I I / / / I i ! ? / ? / NARVAQ #i EXPLORAT]~ON );NC. EXPLORATION tOO 90 8O 7O ~0 50 40 :SO 0 ;~.40 2.70 G~aln D~nslty: tOO 90 aO 70 60 50 ,~0 ~,0 0 ~XPLORATTOM EXPLORATION (7~i4.0 - 8477.B) SURFACE CORE GAMMA LOG RAW DATA FOR DEAN-STARK ANALYSIS I i I i I i I i i I t I I i ! i I I i CORE LABORATORIES DEAN STARK ANALYSIS BP EXPLORATION WELL' NARVAQ 1 DATE: 7-MAR-91 FILE: BP1412DS DEAN STARK ERHP DEB PERMEAMETER sample fresh water dry grain bulk volume permeabilty number depth weight out weight volume corrected orifice J water c I length 1 1 7314.0 45.981 2.30 43.311 15.745 19.043 0.3390 19 5.00 3.84 1 2 7315.0 46.186 2.00 43.845 16.044 19.152 0.3390 22 5.00 3.84 1 3 7316.0 46.875 2.00 44.529 16.289 19.238 0.3390 15 5.00 3.85 1 4 7317.0 47.111 2.10 44.670 16.342 19.305 0.3390 17 5.00 3.85 1 5 7318.0 32.880 1.30 31.275 11.432 13.539 0.3300 30 5.00 2.63 1 6 7319.0 45.003 1.80 42.804 15.610 18.525 0.3390 18 5.00 3.85 1 7 7320.0 45.407 1.50 43.394 15.894 18.656 0.3390 24 5.00 3.84 1 8 7321.0 45.536 1.60 43.545 15.986 18.769 0.3390 26 5.00 3.86 1 9 7322.0 45.550 1.50 43.634 16.020 18.734 0.3390 18 5.00 3.87 1 10 7323.0 46.067 1.70 44.018 16.106 18.862 0.3390 15 5.00 3.86 1 11 7324.0 46.554 1.80 44.626 16.280 18.782 0.3390 39 5.00 3.86 1 12 7325.0 46.801 1.90 44.757 16.306 18.832 0.0878 25 5.00 3.86 1 13 7326.0 47.327 . 1.50 45.666 16.716 18.551 0.0878 125 5.00 3.85 1 14 7327.0 47.520 1.60 45.812 16.718 18.648 5.0410 158 60.00 3.86 1 15 7328.3 51.073 0.57 50.347 18.467 20.293 0.0878 6 5 4.02 1 16 7329.2 59.380 0.67 58.523 21.598 23.627 0.0466 6 5 4.69 1 17 7330.2 59.381 0.60 58.653 21.723 23.723 0.0466 16 5 4.72 1 18 7331.5 58.911 0.70 58.056 21.720 23.781 0.0466 26 5 4.71 1 19 7332.3 35.141 0.20 34.725 12.973 13.992 0.0466 29 5 2.82 J ~J J ! i I t ! ! J J I i ! I I I i J CORE LABORATORIES DEAN STARK ANALYSIS BP EXPLORATION WELL: NARVAQ 1 DATE: 7-MAR-91 FILE: BP1412DS DEAN STARK ERHP DEB PERMEAMETER sample fresh water dry grain !bulk volume permeabilty number depth weight out weight volume corrected orifice water c length 1 20 7333.5 59.943 0.33 59.334 22.213 23.605 0.0878 44 5 4.75 1 21 7334.2 37.153 0.18 36.776 13.657 14.642 0.0466 10 5 2.90 1 22 7335.2 57.844 0.67 56.990 21.528 23.580 0.0466 38 5 4.68 1 23 7336.1 59.836 0.48 59.101 21.797 23.714 0.0466 5 5 4.70 1 24 7337.1 51.797 0.57 51.046 18.833 20.648 0.0878 7 5 4.13 1 25 7338.2 56.693 0.70 55.903 20.688 22.627 0.2496 56 5 4.51 1 26 7339.1 59.614 0.45 58.861 21.755 23.603 0.0466 37 5 4.70 1 27 7340.2 33.735 0.18 33.390 12.366 13.209 0.2496 74 5 2.62 1 34 no plug 1 41 7354.3 45.347 0.10 45.147 18.116 18.343 0.0466 90 5 3.61 1 43 no plug 3 7 8307.7 52.142 1.25 50.626 17.388 19.107 0.0466 6 10.00 3.88 3 8 8308.2 49.192 1.20 47.595 17.316 19.210 0.0466 9 10.00 3.87 3 9 8309.2 51.910 0.23 51.593 18.796 19.184 0.9174 26 5.00 3.85 3 10 8310.2 49.260 1.25 47.248 16.805 19.116 0.0466 33 5.00 3.87 3 11 8311.2 48.829 1.30 47.160 17.140 19.179 0.0466 21 5.00 3.89 3 12 8312.2 47.166 1.60 45.289 16.718 19.021 0.0878 127 5.00 3.90 I I I I I i i I t ~, ~ ...... I I i I I I t i CORE LABORATORIES DEAN STARK ANALYSIS BP EXPLORATION WELL: NARVAQ 1 DATE: 7-MAR-91 FILE: BP1412DS DEAN STARK ERHP DEB PERMEAMETER sample fresh water dry grain bulk volum(permeabilty nUmber depth weight out weight volume corrected orifice water c I length 3 13 8313.2 48.396 1.05 47.071 17.232 19.265 2.5770 90 5.00 3.89 3 14 8314.2 47.977 1.15 46.548 17.197 19.251 3.3850 24 60.00 3.90 3 15 8315.2 47.908 0.80 46.800 17.606 19.219 0.3390 35 5.00 3.90 3 16 8316.2 47.669 0.80 46.581 17.758 19.201 0.0466 33 5.00 3.88 3 17 8317.2 33.315 0.90 32.286 12.126 13.262 2.5770 122 5.00 2.68 3 18 8318.2 47.477 0.60 46.498 17.440 18.842 0.0878 63 5.00 3.88 3 19 8319.2 37.444 0.70 36.522 13.627 14.999 0.3390 69 5.00 3.13 3 20 8320.2 48.730 1.20 47.251 17.422 19.158 0.9174 88 5.00 3.87 3 21 8321.4 47.064 0.70 46.025 17.251 18.734 0.9174 27 5.00 3.87 3 22 8322.2 49.005 1.10 47.788 17.486 19.202 0.9174 6 5.00 3.89 3 23 8323.2 49.075 1.10 47.808 17.447 19.151 0.3390 16 5.00 3.87 3 24 8324.2 47.936 1.00 46.546 17.274 19.193 2.5770 60 5.00 3.87 3 . 25 8325.3 48.456 1.20 47.161 17.504 19.148 0.9174 53 5.00. 3.86 3 26 8326.3 47.437 1.20 46.095 17.244 19.212 0.2496 28 5.00 3.85 3 27 8327.2 48.433 0.70 47.402 17.640 19.171 0.3390 55 5.00 3.87 3 28 NO PLUG 3 29 8329.3 48.030 0.90 46.813 17.274 18.974 0.3390 71 5.00 3.85 3 30 8330.2 38.289 0.85 37.304 13.839 15.178 0.3390 167 5.00 3.15 3 31 8331.4 47.808 0.90 46.567 17.209 18.852 0.0878 12 5.00 3.81 I J · I I I I I I I I t I i i i I I ! I CORE LABORATORIES DEAN STARK ANALYSIS BP EXPLORATION WELL: NARVAQ 1 DATE: 7-MAR-91 FILE: BP1412DS DEAN STARK ERHP DEB PERMEAMETER sample freSh water dry grain bulk volum~permeabilty number depth weight out weight volume corrected orifice water I c I length 3 32 8332.4 49.191 1.10 47.927 17.928 19.505 5.0410 197 10.00 3.88 3 33 8333.3 49.453 0.90 48.289 17.793 19.515 0.3390 46 5.00 3.87 3 34 8334.2 36.248 0.65 35.357 13.041 14.381 5.0410 16 5.00 3.03 3 35 8335.2 49.584 1.05 48.289 17.771 19.521 0.3390 132 5.00 3.87 3 36 8336.3 49.309 1.00 48.106 17.738 19.480 0.0466 106 5.00 3.86 3 37 8337.2 42.937 0.80 42.013 15.673 16.996 0.0466 171 5.00 3.55 3 38 8338.1 46.911 1.00 45.791 17.020 18.610 0.0878 24 5.00 3.85 3 39 8339.2 49.344 1.10 48.097 17.844 19.521 2.5770 5 5.00 3.87 3 40 8340.5 49.585 0.80 48.610 18.033 19.457 0.3390 142 5.00 3.86 3 41 8341.3 37.227 0.70 36.377 13.405 14.677 0.3390 22 5.00 3.08 3 42 8342.2 48.891 1.10 47.766 18.007 19.431 0.0466 35 5.00 3.89 3 43 8343.1 49.085 1.07 47.999 18.055 19.518 0.9174 41 5.00 3.87 3 44 8344.3 48.573 1.20 47.372 17.885 19.393 0.9174 , 34 60.00 3.87 3 45 8345.1 47.544 1.35 46.170 16.987 18.715 5.0410 128 5.00 3.87 3 46 8346.4 48.493 1.50 46.952 17.343 19.249 0.3390 7 5.00 3.89 3 47 8347.2 49.747 1.00 48.351 17.273 19.546 0.0878 89 5.00 3.86 3 48 8348.3 47.480 1.30 45.807 17.032 19.465 0.0878 124 5.00 3.87 3 49 8349.5 46.544 1.60 44.831 16.640 18.931 0.0466 169 5.00 3.87 3 50 8350.2 47.470 1.30 46.025 17.103 19.623 2.5770 17 5.00 3.86 CORE LABORATORIES DEAN STARK ANALYSIS BP EXPLORATION WELL: NARVAQ 1 DATE: 7-MAR-91 FILE: BP1412DS DEAN STARK ERHP DEB PERMEAMETER sample fresh water dry grain bu~k volum~permeabilty number depth weight out weight volume corrected orificeI water I c length 3 51 8351.2 29.285 0.90 28.302 10.531 11.972 0.9174 113 5.00 2.40 3 52 8352.4 48.065 1.30 46.493 17.066 19.571 0.0878 84 5.00 3.86 3 53 8353.2 48.520 1.20 47.090 17.394 19.546 2.5770 3 5.00 3.87 3 54 8354.3 48.489 1.10 46.901 17.419 19.558 5.0410 3 5.00 3.88 3 55 8355.4 47.898 1.40 46.182 17.060 19.630 0.3390 108 5.00 3.87 3 56 8356.3 39.072 1.10 37.768 13.806 15.519 5.0410 149 5.00 3.09 3 57 8357.2 48.275 1.70 46.325 17.117 19.639 0.0878 98 5.00 3.86 3 58 8358.4 48.417 1.50 46.858 17.320 19.433 0.3390 85 5.00 3.85 3 59 8359.2 43.114 1.40 41.684 15.369 17.355 0.9174 123 5.00 3.49 3 60 8360.2 59.268 1.60 57.524 21.207 23.317 0.2496 155 5.00 4.64 3 61 8361.2 59.618 1.60 57.865 21.584 23.730 0.3390 21 5.00 4.73 3 62 8362.2 59.010 1.70 57.283 21.491 23.542 0.2496 87 5.00 4.67 3 63 8363.3 39.313 1.10 38.170 14.258 15.598, 0.0878 189 5.00 3.21 3 64 8364.4 37.231 1.15 36.059 13.333 14.908 0.9174 13 5.00 2.99 3 65 8365.2 59.628 1.80 57.789 21.285 23.562 0.3390 139 5.00 4.66 3 66 8366.3 60.000 1.70 58.283 21.411 23.616 0.3390 76 5.00 4.69 3 67 8367.4 29.000 0.70 28.274 10.454 11.328 0.0466 131 5.00 2.26 3 68 8368.2 58.098 1.60 56.415 20.906 22.959 0.9174 8 5.00 4.67 3 69 8369.4 35.424 0.90 34.466 12.728 13.952 0.2496 18 5.00 2.90 i ! ! ! I ! ! i I t ! I t ! i i t J I CORE LABORATORIES DEAN STARK ANALYSIS BP EXPLORATION WELL: NARVAQ 1 DATE' 7-MAR-91 FILE: BP1412DS DEAN STARK ERHP DEB PERMEAMETER sample fresh water dry grain bulk volumepermeabilty number depth weight out weight volume corrected orifice water ¢ I length 3 70 8370.1 57.459 1.30 56.093 21.200 22.750 0.0878 72 5.00 4.68 3 71 8371.2 56.767 1.80 54.846 20.370 23.045 0.0466 73 5.00 4.71 3 72 8372.2 57.556 1.40 56.038 20.591 23.162 0.0466 61 5.00 4.71 3 73 8373.2 57.197 1.60 55.486 20.538 23.122 0.0466 49 5.00 4.70 3 74 8374.2 57.042 1.60 55.370 20.690 22.705 0.0466 98 5.00 4.65 3 75 8375.4 56.962 1.60 55.237 20.443 22.655 0.0879 25 5.00 4.62 3 76 8376.4 56.134 1.60 54.377 20.300 22.471 2.5770 70 5.00 4.61 3 77 8377.2 58.117 1.40 56.565 20.941 22.841 0.3390 12 5.00 4.66 3 78 8378.2 57.896 1.50 56.262 20.847 22.828 0.3390 12 5.00 4.67 3 79 8379.2 58.974 1.60 57.313 21.209 23.152 0.0878 41 5.00 4.68 3 80 8380.4 58.307 1.70 56.540 20.901 23.026 0.0466 26 5.00 4.79 3 81 8381.4 59.724 1.50 58.112 21.252 23.101 0.0878 83 5.00 4.67 3 82 8382.2 58.400 1.60 56.771 21~211 23.139 0.0878 73 5.00 4.70 3 83 8383.2 58.104 1.60 56.494 20.975 22.897 0.3390 15 5.00 4.71 3 84 8384.3 57.935 1.60 56.312 20.957 23.013 2.5770 5 5.00 4.71 3 85 8385.4 59.590 1.40 58.106 21.660 23.459 0.0466 150 5.00 4.68 3 86 8386.2 58.135 1.60 56.534 20.983 22.888 2.8150 55 5.00 4.67 3 87 8387.2 58.728 1.45 57.255 21.216 23.054 0.0466 19 5.00 4.66 3 88 8388.1 60.798 1.35 59.422 21.770 23.498 0.3390 41 5.00 4.68 ! i i CORE LABORATORIES DEAN STARK ANALYSIS BP EXPLORATION WELL' NARVAQ 1 DATE' 7-MAR-91 FILE: BP1412DS DEAN STARK ERHP DEB PERMEAMETER sample fresh water " dry grain bulk volume permeabilty' number depth weight out Weight volume corrected 'orifice water I c length .... 3 89 8389.1 58.710 1.55 57.139 21.280 23.102 0.9174 91 5.00 4.68 4 1 8391.4 59.174 1.35 57.670 21.429 23.131 0.2496 9 5.00 4.72 4 2 8392.2 59.938 1.20 58.489 21.605 23.395 0.0466 68 5.00 4.70 4 3 8393.3 58.949 1.50 57.414 21.519 23.224 0.0878 133 5.00 4.68 4 4 8394.4 59.034 1.00 57.619 21.366 23.030 0.3390 19 5.00 4.67 4 5 8395.3 59.244 1.25 57.777 21.633 23.301 0.9174 12 60.00 4.70 4 6 8396.2 59.337 1.50 57.780 21.558 23.365 0.2496 97 10.00 4.69 4 7 8397.3 59.524 1.40 58.054 21.640 23.322 0.2496 21 10.00 4.69 4 8 8398.3 59.483 1.40 57.935 21.538 23.364 3.3850 94 60.00 4.72 4 9 8399.2 38.961 0.80 37.968 13.834 15.223 0.0878 82 5.00 3.07 4 10 8400.6 57.882 1.60 56.179 20.765 22.800 5.0410 151 5.00 4.68 4 11 8401.2 59.010 1.30. 57.568 21.238 22.999 2.5770 110 5.00 4.69 4 12 8402.5 59.455 1.35 58.012 21.563 23.304 0.2496 33 10.00 4.70 4 13 8403.3 58.540 1.40 57.006 21.070 22.874 0.2496 95 5.00 4.68 4 14 8404.4 59.129 1.55 57.450 21.351 23.314 0.9174 42 60.00 4.71 4 15 8405.3 34.432 1.05 33.375 12.104 13.346 3.3850 91 60.00 2.73 4 16 8406.4 59.001 1.80 57.157 20.668 22.790 0.9174 24 60.00 4.65 4 17 8407.2 48.233 1.20 46.945 16.975 18.550 0.9174 115 10.00 3.74 i ! ! ~ J I I I I I ! J I CORE LABORATORIES DEAN STARK ANALYSIS BP EXPLORATION WELL' NARVAQ 1 DATE' 7-MAR-91 FILE: BP1412DS DEAN STARK ERHP DEB PERMEAMETER sample fresh water dry grain bulk volum~permeabilty number depth weight out weight volume corrected orifice I water ¢ I length 4 18 8408.2 59.405 1.50 57.874 21.242 23.101 0.2496 36 10.00 4.68 4 19 8409.6 59.927 1.55 58.332 21.419 23.344 0.3390 32 5.00 4.69 4 20 8410.2 33.765 0.90 32.844 11.953 13.108 0.2496 25 5.00 2.66 4 21 8411.2 58.901 1.50 57.336 21.220 23.084 0.9174 66 10.00 4.69 4 22 8412.0 NO PLUG 4 23 8413.1 35.732 1.05 34.679 12.585 13.920 0.9174 18 10.00 2.83 4 24 8414.5 59.431 1.70 57.615 21.150 23.129 0.3390 189 5.00 4.78 4 25 8415.4 58.990 1.70 57.170 21.314 23.168 0.9174 55 60.00 4.66 4 26 8416.3 58.271 1.50 56.663 21.109 22.875 0.9174 59 10.00 4.67 4 27 8417.3 36.938 1.00 35.895 13.218 14.524 0.2496 125 60.00 2.96 4 28 8418.0 NO PLUG 4 29 8419.2 59.306 1.50 57.750 21.270 23.181 0.2496 18 5.00 4.69 4 30 8420.4 59..058 1.60 57.419 21.102 23.223 0.3390 21 5.00 4.70 4 31 8421.2 58.558 1.60 56.887 20.981 22.970 0.2496 49 10.00 4.68 4 32 8422.3 58.754 1.50 57.103 21.146 23.626 0.0878 36 5.00 4.75 4 33 8423.6 58.580 1.80 56.755 20.969 23.302 0.9174 41 10.00 4.68 4 34 8424.4 58.679 1.60 56.919 21.140 23.283 2.5770 38 5.00 4.69 4 35 8425.3 58.576 1.70 56.806 20.775 23.222 0.9174 16 10.00 4.67 4 36 8426.3 60.516 1.00 59.294 21.811 23.552 0.2496 55 5.00 4.75 CORE LABORATORIES DEAN STARK ANALYSIS BP EXPLORATION WELL: NARVAQ 1 DATE: 7-MAR-91 FILE' BP1412DS DEAN STARK ERHP DEB PERMEAMETER sample fresh water dry grain bulk volumepermeabilty .... number depth weight out weight volume corrected orificeI water c I length 4 37 8427.3 59.190 1.40 57.567 21.349 23.179 0.2496 19 5.00 4.70 4 38 8428.2 60.194 1.15 58.654 21.535 23.626 0.0878 13 5.00 4.71 4 39 8429.3 60.335 1.40 58.783 21.671 23.621 0.2496 24 5.00 4.74 4 40 8430.3 60.665 1.30 58.992 21.363 23.568 0.0878 15 5.00 4.69 4 41 8431.2 60.127 1.50 58.516 21.671 23.566 0.2496 128 5.00 4.70 4 42 8432.2 59.910 1.40 58.426 21.755 23.324 0.2496 100 5.00 4.70 4 43 8433.2 59.957 1.40 58.416 21.617 23.382 0.2496 230 5.00 4.71 4 44 8434.3 59.944 1.35 58.317 21.592 23.492 2.5770 102 5.00 4.71 4 45 8435.3 59.746 1.30 58.271 21.374 23.302 0.9174 24 5.00 4.70 4 46 8436.3 60.277 1.30 58.888 21.698 23.441 0.9174 29 5.00 4.69 4 47 8437.3 58.507 1.45 56.894 20.982 22.903 2.5770 85 5.00 4.68 4 48 8438.4 60.197 1.45 58.591 21.669 23.402 0.2496 27 5.00 4.71 4 49. 8439.2 60.165 1.20 58.705 21.739 23.537 0.9174 110 5.00 4.76 4 50 8440.2 58.492 1.45 56.994 21.123 22.838 2.5770 25 5.00 4.69 4 51 8441.3 41.062 0.90 39.936 14.571 15.969 0.2496 14 5.00 3.33 4 52 8442.3 58.811 1.40 57.343 21.166 22.887 0.2496 90 5.00 4.69 4 53 8443.2 59.458 1.45 57.741 21.225 23.125 0.9174 154 5.00 4.67 4 54 8444.3 60.425 1.40 58.920 21.868 23.528 0.9174 10 5.00 4.72 4 55 8445.2 62.803 1.20 61.416 21.743 23.466 0.3390 19 5.00 4.69 J ! J J J ! ! I ,~ I J J ! I J i t I i CORE LABORATORIES DEAN STARK ANALYSIS BP EXPLORATION WELL' NARVAQ 1 DATE: 7-MAR-91 FILE: BP1412DS DEAN STARK ERHP DEB PERMEAMETER samPle fresh water dry grain bulk volumepermeabilty number depth weight out weight volume corrected orifice water I c I length 4 56 8446.3 59.582 1.10 58.179 21.484 23.209 0.0878 10 5.00 4.68 4 57 8447.2 60.096 1.50 58.517 21.648 23.321 0.0878 158 5.00 4.67 4 58 8448.3 39.255 1.00 38.178 13.936 15.344 2.8150 91 5.00 3.15 4 59 8449.5 41.480 1.05 40.358 14.951 16.304 0.9174 96 5.00 3.37 4 60 8450.3 38.068 1.10 36.908 13.601 14.997 0.9174 36 5.00 3.09 4 61 8451.3 60.462 1.30 59.048 21.921 23.574 0.3390 27 5.00 4.73 4 62 8452.2 59.973 1.30 58.615 21.635 23.159 0.2496 15 5.00 4.69 4 63 8453.1 58.920 1.22 57.525 21.493 23.101 0.9174 152 5.00 4.69 4 64 8454.2 44.015 0.85 43.040 15.871 17.143 0.2496 14 5.00 3.52 4 65 8455.3 40.510 1.00 39.416 14.591 15.921 0.9174 169 5.00 3.18 4 66 8456.2 43.472 0.95 42.446 15.773 16.993 0.3390 8 5.00 3.46 4 67 8457.3 34.420 0.90 33.436 12.432 13.539 0.9174 92 5.00 2.83 4 68 8458.4 34.908 0.90 33.912 12.522 13.675 0.9174 74 . 5.00 2.82 4 69 8459.2 58.127 1.50 56.496 21.105 22.990 0.2496 119 5.00 4.67 4 70 8460.0 NO PLUG 4 71 8461.2 58.715 1.40 57.235 21.354 22.952 0.0878 100 5.00 4.65 4 72 8462.0 NO PLUG 4 73 8463.2 40.485 1.00 39.463 14.336 15.542 0.2496 25 5.00 3.20 4 74 8464.0 NO PLUG J I J ! ! I i J ~ J ! J ! i ! ! I ! CORE LABORATORIES DEAN STARK ANALYSIS BP EXPLORATION WELL: NARVAQ 1 DATE: 7-MAR-91 FILE: BP1412DS DEAN STARK ERHP DEB PERMEAMETER sample fresh water dry grain bulk volum(permeabilty number depth weight out weight volume icorrected orifice I waterI c I length 4 75 8465.5 47.090 0.95 46.084 16.907 18.240 0.3390 115 5.00 3.68 4 76 8466.2 60.400 1.10 59.260 21.832 23.403 0.0466 18 5.00 4.69 4 77 8467.1 49.349 1.00 48.199 17.973 19.189 0.0878 30 5.00 3.86 4 78 8468.2 59.950 1.10 58.702 21.712 23.282 0.0878 5 5.00 4.71 4 79 8469.2 59.033 1.20 57.734 21.637 23.161 2.5770 129 10.00 4.71 4 80 8470.3 59.119 0.90 58.020 21.446 23.259 0.0878 35 5.00 4.79 4 81 8471.2 59.530 0.75 58.637 21.692 23.305 5.0410 136 5.00 4.74 4 82 8472.2 58.681 1.10 57.494 21.539 23.005 0.0878 56 5.00 4.67 4 83 8473.2 44.054 0.90 43.083 15.910 17.265 0.0878 15 5.00 3.51 4 84 8474.3 59.382 1.20 57.967 21.385 23.150 0.0878 12 5.00 4.82 4 85 8475.3 53.269 1.25 51.926 19.273 20.841 0.0466 67 5.00 4.17 4 86 8476.2 59.370 1.50 57.745 21.298 23.355 0.9174 22 5.00 4.71 4 87 8477.1 59.313 1.60 57.619 21.319 23.291 5.0410 155 5.00 4.76 TRANSMITTALS Western Atlas International CORE LABORATORIES TRANSMITTAL AND ACKNOWLEDGEMENT OF RECEIPT TO: BP EXPLORATION WESTPORT LAB 6700 PORTWEST DR. HOUSTON, TEXAS 77024 ATTN: ED PARK MA TERIALS RECEIVED VIA: FEDERAL EXPRESS ,-- ITEMS RECEIVED: NARVAQ//1 CORE 8348.9 - 8349.5 AND 8310.7 - 8133.9 __ PLEASE RETURN ONE COPY Shipped by: PERRY BROWN for CORELAB Date: 8-FEB-91 Recieved by: for BP Date: .- Please note that the items listed above are inventor/ed, sh~iz~ped and recieved in good faith, but due errors, are subject to minor adjustmentS. In such case bot/~ shipper and receiver agree to make a timely and bon~'fi~le e ffort.to correct any obserVed discrepancies. ' Westech Atlas International CORE LABORATORIES. TRANSMITTAL AND ACKNOWLEDGEMENT OF RECEIPT TO: JOHN SCHOLTON BP EXPLORATION WESTPORT LAB 6700 PORTWEST DR. HOUSTON, TEXAS 77024 MA TER/ALS RECEIVED VIA: FEDERAL EXPRESS · ITEMS RECEIVED: NARVAQ #1 SIDEWALL SAMPLES SEE ENCLOSED INVENTORY - PLEASE RETURN ONE COPY Shipped by: PERRY BROWN for CORELAB Date: 13-FEB-91 Recieved by: for BP Date: -- Please note that the items listed above are inventoried, shipped and re¢ieved in good faith, but due to :~, errors, are,subject to minor adjustments. In such case both shipper and receiver agree to make a timely' . . -. -'-, :"- and bona fide effort to.COrrect :any observed discrepancies. - ... - ii?i_":;;~'"i'~;" ~. :- ' "-':"' ;! .'--:?~':i" ':;: ;8005'~$tl'e~"/~Ch°rage' Ataska 9951843045' (901> 349~3541' Fax (I)07) 344'2823. BP EXPLORATION NARVAQ #1 EXPLORATION NORTH SLOPE, ALASKA SIDEWALL SAMPLES 13-FEB-91 FILE 1412 TYPE DEPTH BIOSTRA 257O B1OSTRA 2672 BIOSTRA 2761 BIOSTRA 2835 BIOSTRA 2950 BIOSTRA 3065 BIOSTRA 3150 BIOSTRA 3250 BIOSTRA 3350 GEOCHE 3380 BIOSTRA 3450 BIOSTRA 3540 BIOSTRA 3635 GEOCHE 3690 GEOCHE 3800 BIOSTRA 3865 GEOCHE 3920 BIOSTRA 3965 BIOSTRA 4O50 GEOCHE 409O GEOCHE 5170 BIOSTRA 5250 GEOCHE 5310 BIOSTRA 5350 BIOSTRA 5430 GEOCHE 5510 BIOSTRA 5640 BIOSTRA 5750 BIOSTRA 5850 GEOCHE 5920 BIOSTRA 5955 BIOSTRA 6070 GEOCHE 6125 TYPE GEOCHE GEOCHE GEOCHE BIOSTRA BIOSTRA GEOCHE BIOSTRA GEOCHE BIOSTRA BIOSTRA GEOCHE' BiOSTRA BIOSTRA BIOSTRA GEOCF~E GEOCHE GEOCHE GEOCHE GEOCHE GEOCHE GEOCHE GEOCHE BIOSTRA BIOSTRA BIOSTRA BIOSTRA GEOCHE GEOCHE BIOSTRA BIOSTRA GEOCHE DEPTH 6160 6260 6300 6340 6480 6525 6640 6680 6740 6860 6910 6965 7040 7140 7215 7245 7275 7555 7570 7585 7600 7630 7660 7850 7950 8050 8055 8115 8130 8540 8580 DATA DI'SKETTES Western Atlas International A Liilon/Dresser Company CORE LABORATORIES ORIGINAL BP EXPLORATION (ALASKA), ];NC. STDENALL ANALYSTS REPORT NARVAQ #! EXPLORATTON NORTH SLOPE, ALASKA CL FTLE NO. BP-3-1412 Performed by: Core Laboratori es 8005 Schoon St. Anchorage, AK 99518 (907) 349-3541 Final Report Presented May 9, 1991 These analyses, opinions or interpretations are based on observations and materia[s suppLied by the client to whom, and for whose exclusive and confidential use, this report is made. The interpretations or opinions expressed represent the best judgement of Core Laboratories (aL[ errors and omissions excepted); but Core Laboratories and its officers and employees assume no responsibility '- and make no warranty of representation as to the productivity, proper operations or profitability of any oiL, gas or other mineral we[[ or formation in connection with which such report is used or relied upon. 8005 Schoon Street, Anchorage, Alaska 99518-3045, (907) 349-3541, Fax (907) 344-2823 INTRODUCTION Core Laboratories was requested to perform a sidewall core analysis study on behalf of BP Exploration (Alaska), Inc. for samples recovered from the Narvaq #1 Well. Presented herein are the results of this study. Rotary sidewall cores were submitted. A service description with methodology is presented in section 1. The sidewall core analysis results are presented in section 2. Section 3 contains shipping transmittals. We sincerely appreciate this opportunity to be of service and hope these data prove beneficial in your development efforts. TABLE OF CONTENTS Section 1 SIDEWALL CORE ANALYSIS, SERVICE DESCRIPTION AND METHODOLOGY SIDEWALL CORE ANALYSIS, TABULAR RESULTS SECTION 1 SIDEWALL CORE Fi el d Procedures Core Laboratories was not represented at the wellsite. Six rotary sidewall samples were sent by air freight to Core Laboratories' Anchorage facility in February of 1991. The rotary sidewalls were preserved in sidewall glass jars. Core Processing Sample Preparation Dean-Stark Sidewall Samples Six samples were selected for Dean-Stark analysis. They were first cleaned of drilling mud and cut into shapes approximating right cylinders in KC1 brine. The samples were then weighed, placed in thimbles, and loaded into the Dean Stark. Analysis Techniques Dean-Stark Fluid Saturation Measurements Water was extracted from the sidewall samples by Dean-Stark technique using toluene. Samples were left in Dean-Stark for 24 hours. Recovered waters were measured and the samples were placed in the centrifuge for hydrocarbon extraction for a'minimum of 48 hours. Extracted samples were dried in a convection oven at 220 degrees F. for a minimum of 24 hours, and cooled in a desiccator to room temperature before porosity and permeability were measured. Saturations by Dean-Stark methods were calculated using Equations 1 and 2. So : [((W1 - W2 - H20)/Do)/Vp] x 100 Sw: [H20/Vp] x 100 (1) (2) Where: So = Oil Saturations, Percent Sw = Water Saturation, Percent W1 : Natural Weight , W2 = Extracted and Dried Weight H20 : Extracted Water, Density Assumed 1.0 gm/cc Do : Density of Oil Vp : Pore Volume Grain Density Grain volume determinations were performed according to Boyle~s Law utilizing the Helium Porosimeter. Grain density was calculated using Equation 3. Dg : Mg/Vg (3) Where: Dg = Grain Density Vg = Grain Volume Mg = Grain Mass Atmospheric Porosity The samples were measured for bulk volume by mercury displacement at ambient conditions. Porosity was calculated using Equation 4. P : [(Vb-Vg) / Vb)l x 100 (4) Where: P = Porosity, Percent Vb = Bulk Volume Vg = Grain Volume Atmospheric Permeability to Air Samples were loaded into a Hassler type core holder at a confining pressure of 400 psig. Permeability calculations were performed as defined by Darcy~s Equation for compressible fluids, Equation 6. Pa x v x 1000 Qa x L x L K = x (6) (P1 - P2)(P1 +P2) 2 Vb Where' K = Permeability v = Gas Viscosity P1 - P2 = Differential Pressure P1 + P2 = Mean Pressure Pa = Atmospheric Pressure Qa = F1 ow Rate L = Length Vb: Bulk Volume Sample Disposition The sidewall samples are at Core Laboratories Anchorage office. DEAN-STARK ANALYSIS RESULTS J ] ! ! I I ! ! ! I ! ! ! i J ! J Company Wel 1 : BP EXPLORATION : NARVAQ#1 ANALYTICAL R 0 CORE E D U R LABORATORIES Field : Exploration Formation : Exploration ES AND QUAL I T File No.: BP-3-1412 Date : g-Hay- 1991 Y ASSURANCE HANDLIN6 & CLEANING ANALYSIS :ore Transportation Solvent Extraction Equipment Extraction Time Drying Equipment Drying Time Drying Temperature : Air Freight : Toluene : Dean Starks : 24 hours : Convection Oven : 24 hours : 220 deg. F. Grain volume measured by Boyle's Law in a matrix cup using He Bulk volume by Archimedes Principle Water saturations by Dean Stark Oil saturations by weight difference in Dean Stark Permeabilities measured on I in. diameter drilled plugs Dean Stark grain densities clean, dry solid mineral phase are measured RENARKS Measurements were performed on rotary sidewalls. ! J ! ! ! ! | ! J I I J i I I J ~ Company : BP EXPLORATION We11 : NARVAQ# 1 Location : Co,State : North Slope, Alaska CORE CORE LABORATORIES Field : Exploration Formation : Exploration Coring Fluid : Elevation : ANALYSIS RESULTS File No.: BP-3-1412 Date : g-ltay-lggl API No. : Analysts: PLB SATURATION SAMPLE DEPTH PERMEABILITY POROSITY GRAIN DESCRIPTION NUMBER (HORIZONTAL) (HELIUM) (PORE VOLUME) DENSITY Kair OIL WATER ft md % % % gm/cc 1 7220.0 0.03 8.3 8.2 89.0 2.68 MOST-ltgy,vw cmt,hd/bnd ltgy,vf sd,calc cmt,w srtd 2 7259.0 0.26 9.7 10.2 88.4 2.55 SS-ltgy,vfgr,lam/brn mdst,wsrtd,sbrnd,vwcmt,qtz,calc,brn cly,bit 3 7264.0 <.01 6.2 16.9 76.0 2.71 SS-ltgy,vf-mgr,pred fgr,wsrtd,sbang,vwcmt,qtz,cht,dk lith gr,calc cmt 4 7406.0 0.02 11.0 17.9 81.4 2.74 SS-ltgy,vf-mgr,pred fgr,wsrtd,sbang,vwcmt,qtz,cht,dk lith gr,calc cmt 5 7460.0 0.02 10.4 11.0 84.6 2.75 SS-ltgy,vf-mgr,pred vfgr,mod srtd,sbang,vwcmt,qtz,cht,dk lith gr,calc cmt 6 7762.0 0.13 12.2 19.9 53.6 2.69 SS-ltgy,vfgr,wsrtd,wk lam, sbang,wcmt,qtz,dkgy cly lam, calc cmt I - 1 OI?IGI AL SPERRY-SUN DRILLING SERVICES CORE ORIENTATION REPORT FOR B.P. EXPLORATION, INC. WELL NARVAQ KUPARUK UPLANDS JOB NO. AK-EI-10015 SUMMARY PA~E FOR B.P. EXPLOP, ATION, INC. Job No.: AK-EI-10015 Well Name: NARVAQ #1 Run Data: February 1 through February 6, 1991 Run Number: Four Cores Orientated Operator: Tom McGuire Core Company: Christensen The core orientation data provided in this report was obtained using the Sperry-Sun Electronic Survey System (ESS). Probe toolface was obtained from electronic magnetic sensors. Groove Reference direction is calculated using the offset from the probe to the knife plus magnetic declination and presented in Quadrant Direction (True North). COMPANY: British Petroleum WELL: Narvaq #1 S PERRY- S UN ORIENTATION PAGE 1 OF 2 JOB #: AK-EI-10015 RUN #: 1 FIELD: Kuparuk Uplands '~COUNTY' North Slope DATE: 02/01/91 SURVEY ENGR: Tom McGuire DECLINATION: 29.0 OFFSET CORRECTION: +163 DIRECTION OF DEPTH INCLINATION HOLE AZ. SCRIBE AZ. REFERENCE GROOVE TRUE NORTH TRUE NORTH 7314 2.4 337.0 116.5 S 63.5 E 7316 135.1 S 44.9 E 7318 275.0 N 85.0 W 7320 289.8 N 70.2 W 7322 287.8 N 72.2 W 7324 290.7 N 69.3 W 7326 315.6 N 44.4 W 7328 31.4 N 31.4 E 7330 34.4 N 34.4 E 7332 29.7 N 29.7 E 7334 102.9 S 77.1 E 7336 50.6 N 50.6 E 7338 124.0 S 56.0 E 7340 113.0 S 67.0 E 7342 159.9 S 20.1 E 7344 177.2 S 2.8 E 7346 156.4 S 23.6 E 7348 157.7 S 22.3 E 7350 157.7 S 22.3 E 7352 160.9 S 19.1 E 7354 155.5 S 24.5 E 7356 118.5 S 61.5 E COMPANY:' British Petroleum SPERRY-SUN ORIENTATION PAGE 2 OF 2 JOB #: AK-EI-10015 WELL: Narvaq #1 RUN #: i FIELD: Kuparuk Uplands COUNTY: North Slope DATE: 02/01/91 SURVEY ENGR: Tom McGuire DECLINATION: 29.0 OFFSET CORRECTION: +163 DIRECTION OF DEPTH INCLINATION HOLE AZ. SCRIBE AZ. REFERENCE GROOVE TRUE NORTH NORTH TRUE 7358 71.8 N 71.8 E 7360 66.0 N 66.0 E 7362 13.9 N 13.9 E 7364 136.9 S 43.1 E N 30.6 E 7366 30.6 7368 44.8 N 44.8 E 7370 36.2 N 36.2 E 7372 63.2 N 63.2 E 7374 2.4 337.0 24.5 N 24.5 E ~ ' ' ' ~ /~, SPERRY-SUN i ' '. ~ ORIENTATION COMPANY: British Petroleum PAGE 1 OF 1 JOB #: AK-EI-10015 WELL: Narvaq #1 FIELD: Kuparuk Uplands COUNTY: North Slope RUN #: 2 DATE: 02/05/91 SURVEY ENGR: Tom McGuire DECLINATION: 29.0 OFFSET CORRECTION: -13 DIRECTION OF DEPTH INCLINATION HOLE AZ. SCRIBE AZ. REFERENCE GROOVE TRUE NORTH TRUE NORTH 8272 1.0 345.8 304.0 N 56.0 W 8274 236.3 S 56.3 W 8276 239.4 S 59.4 W 8278 245.7 S 65.7 W 8280 241.8 S 61.8 W 8282 230.3 S 50.3 W 8284 237.7 S 57.7 W 8286 244.1 S 64.1 W 8288 235.7 S 55.7 W 8290 236.9 S 56.9 W 8292 233.5 S 53.5 W 8294 229.0 S 49.0 W 8296 229.3 S 49.3 W 8298 222.2 S 42.2 W 8300 1.0 345.8 235.9 S 55.9 W COMPANY: British Petroleum WELL: Narvaq #1 SPERRY-SUN ORIENTATION PAGE 1 OF 2 JOB #'. AK-EI-10015 RUN #: 3 FIELD: Kuparuk Uplands DATE: 02/06/91 COUNTY: North Slope SURVEY ENGR: Tom McGuire DECLINATION: 29.0 OFFSET CORRECTION: -64 DIRECTION OF DEPTH INCLINATION HOLE AZ. SCRIBE AZ. REFERENCE GROOVE TRUE NORTH TRUE NORTH 8301 1.2 345.7 130.4 S 49.6 E 8303 24.5 N 24.5 E 8305 87.5 N 87.5 E 8307 25.8 N 25.8 E 8309 31.7 N 31.7 E 8311 38.0 N 38.0 E 8313 33.8 N 33.8 E 8315 32.0 N 32.0 E 8317 37.3 N 37.3 E 8319 39.4 N 39.4 E 8321 22.0 N 22.0 E 8323 35.0 N 35.0 E 8325 31.6 N 31.6 E 8327 35.5 N 35.5 E 8329 37.4 N 37.4 E 8331 28.2 N 28.2 E 8333 26.6 N 26.6 E 8335 22.9 N 22.9 E 8337 13.8 N 13.8 E 8339 47.6 N 47.6 E 8341 46.5 N 46.5 E 8343 46.5 N 46.5 E COMPANY: British Petroleum WELL: Narvaq #1 SPERRY-SUN ORIENTATION PAGE 2 OF 2 JOB #: AK-EI-10015 RUN #'. 3 FIELD: Kuparuk Uplands DATE: 02/06/91 ~COUNTY'. North Slope SURVEY ENGR: Tom McGuire DECLINATION: 29.0 OFFSET CORRECTION: -64 DIRECTION OF i DEPTH INCLINATION HOLE AZ. SCRIBE AZ. REFERENCE GROOVE TRUE NORTH TRUE NORTH 8345 43.2 N 43.2 E ,,, ! 8347 33.0 N 33.0 E I 8349 31.1 N 31.1 E i 8351 38.2 N 38.2 E ~" 8353 41.2 N 41.2 E I 8355 41.1 N 41.1 E 8357 42.3 N 42.3 E i 8360 35.9 N 35.9 E ! 8362 27.6 N 27.6 E 8365 38.3 N 38.3 E ?. 8367 19.3 N 19.3 E 8370 11.4 N 11.4 E ., , I 8372 9.4 N 9.4 E 8374 55.0 N 55.0 E ~' 8377 55.6 N 55.6 E 8379 56.1 N 56.1 E 8381 59.0 N 59.0 E I 8383 57.7 N 57.7 E 8385 54.7 N 54.7 E 8387 62.1 N 62.1 E .,, 8389 49.2 N 49.2 E 8391 1.2 345.7 48.2 N 48.2 E COMPANY: British Petroleum SPERRY-SUN ORIENTATION PAGE 1 OF 2 JOB #: AK-EI-10015 WELL'. Narvaq #1 FIELD: Kuparuk Uplands COUNTY'. North Slope RUN #-. 4 DATE: 02/06/91 SURVEY ENGR: Tom McGuire DECLINATION: 29.0 OFFSET CORRECTION: -40 DIRECTION OF DEPTH INCLINATION HOLE AZ. SCRIBE AZ. REFERENCE GROOVE TRUE NORTH TRUE NORTH 8391 1.2 357.7 315.3 N 44.7 W 8393 315.5 N 44.5 W 8395 309.4 N 50.6 W 8397 313.1 N 46.9 W 8399 312.3 N 47.7 W 8401 309.2 N 50.8 W 8403 312.6 N 47.4 W 8405 314.8 N 45.2 W 8407 310.3 N 49.7 W · 8409 310.0 N 50.0 W 8411 303.4 N 56.6 W 8413 303.6 N 56.4 W 8415 308.2 N 51.8 W 8417 303.2 N 56.8 W 8419 309.7 N 50.3 W 8421 304.4 N 55.6 W 8423 304.7 N 55.3 W 8431 333.5 N 26.5 W 8435 343.4 N 16.6 W 8437 341.4 N 18.6 W 8439 337.8 N 22.2 W 8441 337.9 N 22.1 W COMPANY:~ British Petroleum SPERRY-SUN OR'rENT~TION PAGE 2 OF 2 JOB #: AK-EI-10015 WELL: Narvaq #1 RUN #: 4 FIELD: Kuparuk Uplands COUNTY-. North Slope DATE: 02/06/91 SURVEY ENGR: Tom McGuire DECLINATION: 29.0 OFFSET CORRECTION: -40 DIRECTION OF DEPTH INCLINATION HOLE AZ. SCRIBE AZ. REFERENCE GROOVE TRUE NORTH TRUE NORTH 8443 343.7 N 16.3 W 8445 340.9 N 19.1 W 8447 337.8 N 22.2 W 8449 332.6 N 27.4 W 8453 333.2 N 26.8 W 8455 331.0 N 29.0 W 8457 321.6 N 38.4 W 8459 328.2 N 31.8 W 8461 317.2 N 42.8 W 8463 320.1 N 39.9 W 8465 317.2 N 42.8 W 8467 310.5 N 49.5 W 8469 315.5 N 44.5 W 8471 309.0 N 51.0 W 8473 313.0 N 47.0 W 8476 312.8 N 47.2 W 8479 313.2 N 46.8 W 8481 1.2 357.7 319.8 N 40.2 W SPERRY-SUN LOGGING SYSTEMS Anchorage, Alaska ADT WELL SUMMARY REPORT BP Exploration, Inc. NARVAQ No. 1 0 ROf~ ~~[ Alaska Final Report Summary February, 1991 RECEIVED I~AR 7 '~991 Alaska Oil & Gas Cons. Commissior~ Anchorage PREPARED FOR: BP Exploration Inc. PREPARED BY: Mr. W. A. Shepherd Sperry-Sun Logging Systems Anchorage, Alaska TABLE OF CONTENTS INTRODUCTION ..................... A WELL DIAGRAM ..................... 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.) DATA BASE DISK MWD DATA ....................... G 1.) RECORD OF SURVEYS BIT RECORD ...................... H DRILLING MUD RECORD .................. I SHOW REPORTS ..................... J INTRODUCTION Drilling operations for Narvaq No. 1 were initiated on 1-19-91 by BP Exploration Inc. The well was drilled by Nabors Drilling Inc. Rig 18-E on Section 15 Township 7N Range 8E North Slope, Alaska. Narvaq No. 1 was drilled to a total depth of 9200' in 21 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 Narvaq 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 Narvaq 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 Unit. --2-- BP £×P~fiTION IqflR~flQ ~qO. 1 C~ing Program LithologU DlflGRfiM / Formotion~ TOROK Interval: 2500'to 9200' Days: 18 Hole Size: 8 1/2" No. Bits: 9 Rotating Hours: 162.0 Deviation: 1.0° Mud Weight: 8.9-9.9 ppg Average WOB: 35 KLB Average RPM: 120 Average GPM: 400 Average SPP: 2600 PSI Average ROP: 41 FT/HR Mud Type: GENERIC Discussion: 13 3/8" casing was set at 2,480' and cemented. Bit No. 4, a 12 1/4" Hughes R-1 with 3-13'S jets, was used to drill the cement, 13 3/8" casing shoe and 10' of new hole. A leak off test was run to 12.7 ppg equivalent and the 12 1/4" bit and 8 inch drilling assembly was POH and laid down. A 6 1/4" drilling assembly with a Sperry-Sun MWD tool, and Bit No. 5, an 8 1/2" ATJlS with 3-11'S jets, was picked up and drilling was resumed. No problems were encountered as drilling continued through predominantly clay to a depth of 2,827'. A short trip to the shoe was made to repair a rig motor and drilling was resumed through clays, sands, and siltstones to a depth of 3,786' where Bit No. 5 was pulled due to slow penetration rates. NB No. 6, a CX3A with 3-10'S and 1-8 jets, was in the hole drilling ahead without any problems, when at 4,192' a trip to the shoe was made to wait out severe weather. When the severe weather abated and allowed for the removal of drill cuttings, drilling continued without any problems. A marker bed of tuff was encountered at 4,920', and Bit No. 6 was POH at 5,470'. No problems were encountered with Bit No. 7, a CX3A with 3-10's and 1-8 jets A drill break was encountered at 6,405'-6,415' where well flow was checked, and bottoms was circulated up without any positive results. Penetration rates slowed and Bit No. 7 was POH at 6,469'. Drilling operations with NB No. 8 in the hole , a ATJlS with 3-11'S jets, were discontinued again by severe weather conditions. While waiting for the weather to abate, a trip was made and the MWD tool was changed out. Bit No. 8 was rerun in the hole to 4,000' and 400 bbls of fluid was injected into the formation. Bottoms was circulated up and drilling was resumed. Drilling operations were again shut down and a trip was made to the shoe to allow time for the road to be cleared so cuttings could be removed. When the weather abated and the roads were cleared, drilling resumed with pore pressure increasing slowly below 7,030'. The mud weight was increased to 9.1 ppg. A drill break was encountered at 7,309'-7,314 ', flow was checked and bottoms up was circulated with sands and shows. Bit No. 8 was POH for NB No. 9, a RC-476 with .5 TFA, in conjunction with a core barrel to cut Core No. 1 from 7,314'-7,374'. Bit No. 10, a ATJ1S with 3-11'S jets, was run into the hole at 7,374' and drilling continued. Pore pressure gradually increased with depth to 9.5 ppg and the mud weight was increased to 9.9 ppg after drilling into the HRZ marker topped at 7,985'. Drilling continued to 8,272' where bottoms up was circulated and Bit No. 10 was POH to pick up a core barrel. Bit No. 9, a RC-476 in conjunction with a core barrel, was rerun to cut Cores 2, 3, and 4 to a depth of 8,481'. A total of 269' was cored on this well which resulted in recovering 263.3' of formation. Bit No. 11 was picked up, a ATJ1S with 3-11'S jets, and RIH to 8,245'. The Sperry-Sun MWD was then used to log the cored interval and drilling resumed. Due to time on bit and slower penetration rates Bit No. 11 was replaced with NB No. 12, a SDGH with 3-12 jets. Drilling continued to 9,200' where bottoms up was circulated in preparation for E-logs. At this depth, drilling parameters and heaving shale indicated that the pore pressure had increased to 9.8 ppg. The mud weight was increased to 10.3 ppg before E-logging began. The first E-log run could not get below 4,015', making a wiper trip necessary. The second E-logging attempt could not get below 8,800' and another wiper trip was made. The mud weight was also increased to 10.5 ppg. E-logging operations continued and were completed without going below 8,800' before the well was plugged and abandoned. Operations to plug and abandon the well were initiated 2-15-91. WELL SUMMARY BY INTERVALS Interval: 110' to 2500' Days: 3 Average WOB: 33 KLB Hole Size: 17.5 Average RPM: 142 No. Bits: 3 Average GPM: 457 Rotating Hours: 20.6 Average SPP: 1000 PSI Deviation: 1.0 DEG Average ROP: 115 FT/HR Mud Weight: 8.9 PPG Mud Type: Spud mud Discussion: Operations on Narvaq No. 1 began at 08:15 hfs on 1-19-91 by drilling out the conductor casing. Contaminated mud was replaced with 550 bbls of new spud mud and drilling resumed to the depth of 343'. A trip was made to change stabilizers and to allow additional time to remove drill cuttings. To ensure proper cuttings handling, control drilling was placed into effect at a depth of 624'. Cuttings removal was hampered due to severe weather conditions and a trip was made at this point to change bits and allow for cuttings removal. Bit No. 2, a S3SJ with 3-15'S jets was run into the hole. Drilling resumed under control conditions to limit the volume of cuttings, through interbedded clays and sands without problems. At 1,706' a trip for Bit No. 3 was made and a MDSJC with 3-15'S and 1-10 jets was run to a depth of 2,500'. A short trip was made and bottoms were circulated up in preparation for running electric logs and 13 3/8" casing. CONCLUSIONS AND RECOMMENDATIONS The drilling program for Narvaq No. 1 was designed to penetrate to an estimated depth of 10,000'. Narvaq No. 1 was drilled to 9,200'in 21 days, the designated total depth. Five days were needed to complete the E-logging operations and two days to P&A. MAJOR CONCERNS The major concerns related to the drilling of Narvaq No. 1 were directly weather related. Road closures due to blowing snow and white out conditions prevented the removal of drill cuttings from the well site. Drilling operations had to be slowed or suspended each time roads became impassable due to severe weather. Only minimal problems occurred while actual drilling and coring operations were in progress. Problems did occur when E-logging operations began. Only a maximum depth of 8,800' could be reached even after running additional wiper trips and increasing the mud weight to 10.5 ppg. A contributing factor to this problem could have been due to injecting fluid into the formations at 4,000'. In addition, high flow rates which put mud into turbulent flow contributed to the hole washout and hydrating shales to deteriorate. Pore pressure increases caused minimal or no problems during Narvaq No. 1 operations. All problems were overcome and Narvaq No. 1 was completed as planned. 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 Narvaq No. 1 to compensate for the problems noted in this area. Recommend Mud Properties Depth 0-550 Below Permafrost CSG Seat 30" 13 3/8" Mud Yield Water Weight Point Loss 9.0 N/A N/A 9.0 N/A N/A TD 8 1/2" Hole 150 psi overbalance >12 <4 Recommend Hydraulics Hole Size: 17-1/2 8-1/2 Depth: 2500 9000 Gallon per Min: 500 350 Nozzle Size: 3-15's 3-11's Pump Pressure: 1000+ 2000+ DRILLINg; vs. DEP~ ~0 29 38 I~OTATIN(~ HOURS v~. PORE~-~-'$$URE v~ MUD lb/~al 10 11 12 13 15 1~ 17 RESIST I~IT¥ 288 PORE PRESSURE EST. lb/gal i3 '~4R 2"/1008FT TOTtqL G~qS -- UNITS ESr, PO~E ?~ESSU~E 10.5 13 F{ODIFIED "D" EXPObIE{qT #l~ 5 ltTJl$ n BPX NARVAO 1 WILDCAT NORTH SLOPE JANUARY 1991 MEASURED DEPTH 2497.98 2686.12 2749.68 ,8,, .81 2906. '~ I 30~i.86 ~09i. ~G ~125.~7 ~156.02 ~248.25 ~59.28 aG.4.50 3702.8'4 3~ ~. ~ 46. ~n ~Sg~.aO 4026.26 4238.76 44aa.44 ~65~.88 4841.00 5213 ~ 5~60.02 56!G.74 5~5.~5 6022.09 6211.02 6369. i 4 ~1.~5 6545.23 6777.78 6929~ 11 N~7. C0 ANGLE OEG 0.39 0.29 0.43 0.23 0.43 0.33 0.42 0.57 0.50 0.49 0.54 0.40 0.52 0.55 0.56 0.37 0.56 ~...,J I 0.59 O. 71 0.98 0.81 1.35 1.i! (I.87 1.22 1.07 0.58 0.77 0.95 0.79 1.00 2.(;5 2.44 2.36 '. AK VERTICAL SECTION DIRECTION: N O0 E HAGNETIC CORRECTION APPLIED: 29 NAGNETIC DIP: 80.16 NAGNETIC FIELD STREN$TH: 0.573 SPERRY-SUN DRILLING SERVICES, INC. RECORD OF SURVEY S41 44W 2497.96 G.30 S 5.62 W -6.30 0.02 SG2 IGE 2530.05 6.42 S 5.62 W -6.42 1.68 S14 37E 2686.10 7.01S 5.16 W -7.01 0.16 S47 46E 2749.66 7.33 S 4.94 W '7.33 0.38 S16 33E ?o~ ~,,o.94 7,76 S 4.62 W -7.76 0.27 S 0 4GE 2877.79 7.94 S 4.60 W -7.94 0.69 S 6 !E 2906.88 8.14 S 4.59 W -8.14 0.37 --,,.;~ 8.~, S 4.57 W -8.32 0.00 S 0 2BE 2966.36 8.50 S 4.56 W -8.50 0.31 S 3 38E 3033.13 9.08 S 4.54 W -9.08 0.23 S 0 39E 3061.83 9.35 S 4.53 W -9.35 0.28 S 7 8W 3091.43 9.60 S 4.54 W -9.60 0.24 S 8 57E 3125.44 9.91S 4.53 W -9.91 0.44 S19 i4E 3155,99 10,15 S 4,48 W -10,15 0,53 S 8 49E 3248,21 10.86 S 4.31W -10,86 0,15 S I 53E 3359.24 12.00 S 4.21W -12.00 0.16 S13 54W 3535.79 13.86 S 4.38 W -13.86 0.12 S25 49W 3592.77 14.38 S 4.57 W -14.38 0.20 S26 9W 3624.44 14.61S 4.68 W -14.61 0.62 S31 44W 3702.78 !5.16 S 4.99 W -15.16 0.25 S40 IGW 3746.84 15.51S 5.25 W -15.51 0.17 540 41W 3809.24 15,99 S 5,66 W -15,99 0,00 SS0 7W 4026.18 17.49 S 7,16 W -17,49 0,05 S73 24W 4238.67 18.50 S 9.19 W -18,50 0,14 N67 54W 4433.~ 18,22 S 11.89 W -18,22 0,31 N88 54W 4653,75 17.49 S 15,19 W -17,49 0,16 N86 1W 4840.84 17.32 S 18,50 W -17,32 0.23 S86 44W 5024.82 17.31S 22,64 W -17,31 0.11 N73 12W 5212.86 16,91S 26,59 W -16.91 0.26 N68 ~ '~ ~W 5459.ia 15.53 S 30.63 W -15.53 0.10 N58 32W 5616.42 14.22 S 33,17 W -14.22 0,25 N32 31W 5834.89 11.29 S 36.25 W -11.29 0.25 NG4 OW 6021.71 9.40 S 38.04 W -9.40 0.35 N38 18W 6210.63 7.98 S 39.69 W -7.98 0.19 N32 44W 6368.73 6.04 S 41.06 W -6.04 0.12 N32 41W 6461.23 4.86 S 41.82 W -4.86 0.17 N26 53W 6544.80 3.72 S 42.46 W -3.72 0.28 Nl8 18W 6777.26 2.04 N 44.69 W 2.04 0.46 N33 33W 6928,48 7.29 N 47.32 W 7.29 0.47 N33 tOW 7086.46 12.82 N 50.96 W 12.82 0.04 N26 GW 7275.91 !9.45 N 54.74 W 19.45 0.16 N!6 54W 7466.23 26.41N 57.48 W 26.41 0.19 N19 5~ '59!.80 ~0.87 )l 58.93 W 30.87 0.21 DIRECTION VERTICAL LATITUDE DEPARTURE VERTICAL DOG OEG DEPTH FEET FEET SECTION LE6 7777.73 1.86 N18 48W 7776.47 36.78 N 60.95 W 36.78 7941.72 1.40 N11 57W 7940.39 41.26 N 62.23 W 41.26 8036.18 1.03 N12 41W 8034.83 43.22 N 62.65 W 43.22 8230.22 0.99 N I 30W 8228.84 46.58 N 63.07 W 46.58 8423.46 1,09 N 5 58E 8422.05 50,08 N 62,93 W 50,08 8608.33 0,97 N 2 14W 8606.89 53.40 N 62.80 W 53.40 8796.67 0.86 N 1 20W 8795.20 56.41 N 62.90 W 56.41 9016.29 0.98 N 4 24W 9014.79 59.94 N 63.08 W 59.94 9151.82 0.88 N 5 54W 9150.31 62.13 N 63.28 W 62.13 0,08 0.30 0.40 0.10 0.09 0.10 0.06 0.06 0,08 Co~ments: CALCULATIONS BASED ON THE MINIMUM CURVATURE METHOD HORIZONTAL DISPLACEMENT AT 9151.8 MEASURED DEPTH IS 8B.7 AT N45 DEG 31 MIN W PROJECTED DISPLACEMENTS BASED ON 15249.9 MEASUREO DEPTH: AT 1¢.n .~ ? ~ . u~,., TRUE VERTICAL DEPTH. 171.6 DISPLACEMENT, AT N25 DE6 9 MIN W SURVEYS MEASURE9 FROM KELLY BUSHING n SPERRY-SUN DRILLING SERVICES, A BAROID COMPANY BIT RECORD COMPANY: BP EXPLORATION STATE: ALASKA CASING PROGRAM: 30 inch at - ft. WELL: NARVAQ #1 CouNTY: NORTH SLOPE 20 inch at 110 ft. TOTAL DEPTH: ft. CONTRACTOR:NABORS DRILLING LOCATION:KUPARUK UPLANDS 13 3/8 inch at 2480 ft. SPUD: 1-19-91 9 5/8 inch at ft. PAGE -1- BIT IDEPTH I I FT! IACCUM-HRI TRIP IRIG-HRI COST J I PUMP FLOg GRADE IVERT I MUD NO. SIZE TYPE JET OUT FEET IHOURS I HR DRLG TIME I COST I /FT I ~OB I RPM PRES GPM T 16 I I 1000' 1250 I 1 17.5 R-1 16-161 624 514 I 4.0 I 128 4.0 /HR. /HR. I 34 25 140 750 477 6 15 I I 2 17.5 S3SJ 15-15 1706 1082 I 10.9 I 99 14.9 " "I 27 30 145 1100 470 6 I 110'15 I I I I I 3 17.5 I MDSJC 115-15 2500 I 794 I 5.7 139 I 20.6 I " "I 29 35 140 1000 425 3 .......... I ....... I ..... I ...... I ...... I ............ I ........ I ...... I ...... I ............................... I 13 I I I I I I I 4 12.251 R-1 113-131 2510 I 10 I 0.1 75 I 20.7 I "I "I ' 35 110 1250 410 1 .......... I ....... I ..... I ...... I ...... I ............ I ........ I ...... I ...... I ............................... I 11 I I I I I I I 5 8.5 I ATJ'1SI11'111 3786 I 1276 I 14.0 91 I 34.7 I ,m I "I 25 32 105 2200 400 5 .......... I ....... I ..... I ...... I ...... I ............ I ........ I ...... I ...... I ............................... I 8-1ol I I I I 6 8.5 I CX3A I10-101 5470 1684 22.6 75 I 57.3 I "I "I 27 30 120 2200 375 5 .......... I ....... I ..... I ........................ I ........ I ...... I ...... I ............................... I 8-1ol I I I I 7 8.5 I CX3A 110-101 6469 999 19.4 51 I 76.7 I "I "I 41 35 130 2250 377 5 .... I ...... I ....... I ..... I ........................ I ........ I ...... I ...... I ............................... 8 I 8.5 I ATJ'1SI11'111 6626 157 3.0 52 I 79.7 I " "I 115 38 130 2370 380 .... I ...... I ....... I ..... I ...... I ...... I ...... I ...... I ........ I ............ I ...... I ..... I .................... 11 I I I I I RRB 8.5 ATJ'1SI11-111 7314 688 19.0 36 I 105.0 I " "I 60 I 32 I 119 2500 400 5 ...................... I ........................ I ........ I ............ I ...... I ..... I .................... CHRIS TFA I I I I 9 8.5 RC476 0.5 7374 60 3.6 17 I 108.6 I .... I I 11 I 75 600 280 I .............................................. I ........ I ...... I ...... I ...... I ..... I .................... 11 I I I I I 10 8.5 ATJ-1S 11-11 8272 898 24.8 36 I 133.4 I "I "I 56 I 37 I 126 2560 392 3 .... I .......................................... I ........ I ...... I ...... I ...... I ..... I .................... B 4 5 3 E E F E N E N E G DEV i ~T REMARKS I 1/8 .75 J 8.9 POOH-CUTTING BACKUP I I .75 I 9.4 I 1/4 .5 I 9.7 POOH FOR LOGS & CASING I I I I ' I 8.9 DRLG OUT CEMENT I 1/810.56 9.0 POOH ON ROP I I 10.90 9.1 POOH ON HRS I 1.00 9.2 POOH ON ROP POOH - CTGS DISPOSAL C 1.54 9.4 DELAY I 2.32 9.4 POOH F/ CORE C 9.4 CORE N0.1 9.4 PACK OFF - INCR WT I 1.05 9.9 POOH -F/ CORE SPERRY-SUN DRILLING SERVICES, A BAROID COMPANY BIT RECORD COMPANY: BP EXPLORATION STATE: ALASKA CASING PROGRAM: 30 inch at ft. NELL: NARVAQ #1 COUNTY: NORTH SLOPE 20 inch at 110 ft. TOTAL DEPTH: ft. CONTRACTOR:NABORS DRILLING LOCATION:KUPARUK UPLANDS 13 3/8 inch at 2480 ft. SPUD: 1-19-91 9 5/8 inch at ft. PAGE -2- ~,~l I I IDEPTH I I I FT/ IACCUM-HRI TRIP IRIG'"RI COST I I PUMP FLO~ GRADE IVERT MUD "0-1 SIZE I TYPE I JET OUT I ~EE~ I"~"S I "R I DRLG I TI"E I COST I /FT I "OS I RP" PRES GP" T . O DEV I IcHRIs ITM I I I I I I I RR91 8.5 IRC476 I 0.5 83011 29 I 8.4 I 3 I 141.8 I "I "I 968 .... I ...... I ....... I ........... I ...... I ...... I ...... I ........ I ...... I ...... I ...... I IcHRIS ITFA I I I I I I RR9J 8.5 lRC476 I O.S 8391I 9O I S.O I 18 I 146.8 "I "I 249 ICHRIS ITFA RR9 8.5 IRC476 I 0.5 8481 90 3.9 23 150.7 " " 236 I 15 I 72 I 17I 74 734 298 I 781 307 I 11 80 787 297 11 I I 11l I 8.5 IATJ-lS II1-111 9068 587 22.3 26 173.0 " " 80 I 56 l~s 2900 406 4 ............. I ..... I .................................................. I ......................... 12 8.5 SDGH 112-12l 9200 132 9.6 14 182.6 ,, " ~ I ~s l~ ~00 ~os ~ 1.09 E E NT REMARKS 9.9 CORE NO. 2 9.9 CORE NO. 3 9.9 CORE NO. 4 I )0.98 I I 10.88 9.9 DRILLING 9.9 TD a 9200 SPERRY-SUN DRILLING SERVICES, A BAROID COMPANY DRILLING MUD RECORD COMPANY: BP EXPLORATION WELL: NARVAQ #1 CONTRACTOR: NABORS DRILLING STOCKPOINT: PRUDHOE BAY STATE: ALASKA COUNTY: NORTH SLOPE LOCATION: KUPARUK UPLANDS ENGINEER: M & I CASING PROGRAM: 30 inch at ft. 20 inch at 110 ft. TOTAL DEPTH: 9200 FT. 13 3/8 inch at 2480 ft. 9 5/8 inch at - ft. PAGE -1- DATE IDEPTH IWEIGHT I viscosiTY Yp GELS FILTRATION RETORT SAND I CEC I p" FILTRATION ANALYSIS REMARKS ...... I ............. I ........... I .................................................... I ..... I ................................... AND 1990 feet Lb/gal I Sec I PV 10 sec/ ml HTHP Cake Solids Oil Water % I Mud IStrip £ ] Pm I Pf/ CL I Ca TREATMENT I API I 10 min API 32nds % % % Ime/mtlMeter £ ] IMf ppm I ppm 1-20 474 8.9+I 145 I 6 29 18/27 10.0 - 3 4.5 - 95.5 .75 35 7.5 I TR/.05 300 I 80 SPUD MUD 1-21 9.4 160 12 I 48 21/44 16.0 - 3 8.0 - 92.0 2 8.0 1.05/.15 350 I 160 1-22 2500 9.7+ 155 18 I 29 20/45 14.0 - 3 10.5 - 89.5 1.5 7.0 I TR/.1 300 I 40 ELOG 1-23 2500 9.8 167 21 I 28 25/46 14.0 3 11.0 89.0 1 35 7.0 I TR/.15 300 I 40 RUN 13 3/8" CSG 1-24 2500 8.9 31 3 I 4 1/2 16.0 - 1 4.0 - 96.0 15 7.0 TR/.05 300 I 80 BUILD NEW MUD 1-25 2810 9.0 I 36 6 I 7 1/9 10.0 - 1 5.0 - 95.0 - 17.5 9.0 TR/.25 350 TR DRILLING 1-26 3990 9.0 I 39 8 10 2/19 8.8 - 2 5.5 - 94.5 TR 20 9.0 - TR/.151 400 TR 1-27 4192 8.9 I 38 8 9 2/33 I 8.4 J - 2 5.0 - 195.0 I TR 22.5 9.5 - .01/.251 350 TR WOW 1-28 5059 9.1+I 38 9 8 3/51 I 8.0 I ' 2 6.5 193.5 I TR 25 9.5 - .05/.3 I 350 TR 1-29 I 5892 9.2+ 37 9 7 2/23 I 7.6 - 2 7.0 193.0 TR 25 9.0 - .01/.251 350 TR 1-30 I 6496 9.4+ 42 10 9 2/37 6.2 - 2 8.0 192.0 - 30 9.0 I ' .01/.3 350 TR 1-31 I 6840 9.3+ 39 9 8 2/31 6.2 2 7.0 193.0 TR 30 9.0 I - 350 TR 2-1 I 6942 9.4 37 6 7 3/11 6.5 2 8.0 192.0 TR 32.5 9.5 .05/.35 350 TR 2-2 I 7314 9.4 36 3 6 1/4 6.5 2 8.0 192.0 TR 27.5 9.5 - 300 TR CORE NO.1 2-3 I 7600 9.5 38 5 7 3/5 6.0 2 8.5 191.5 TR 27.5 9.5 .1/.4 400 I TR 2-4 I 8225 9.9 39 11 10 5/9 6.0 - 2 11.5 - 88.5 TR 30 9.5 350 I TR SPERRY-SUN DRILLING SERVICES, A BAROID COMPANY DRILLING MUD RECORD COMPANY: BP EXPLORATION NELL: NARVAQ #1 CONTRACTOR: NABORS DRILLING STOCKPOINT: PRUDHOE BAY STATE: ALASKA COUNTY: NORTH SLOPE LOCATION: KUPARUK UPLANDS ENGINEER: M & I CASING PROGRAM: 30 inch at - ft. 20 inch at 110 ft. TOTAL DEPTH: 9200 FT. 13 3/8 inch at 2480 ft. 9 5/8 inch at - ft. PAGE -2- DATE IDEPTH IWEIGHT I VISCOSITY I YP I GELS I FILTRATION I RETORT ISAND CEC I pH FILTRATION ANALYSIS REMARKS ...... I ...... I ....... I ........... I .... I ........ I ................. I .................. I .......... I ................................... AND 1990 I feet lib/gatI Sec I PV I 10 sec/ I mL IHTHP ICake ISotidsl Oit IWaterl X Mud Strip [] Pm Pr/ C[ I Ca TREATMENT I I I API I I 10 min I API I 132nds ~ I ~ 1% I me/mt Meter [) Mf ppm I ppm 2-s I 8242 I 9.9 I 411 7 6 4/11 I 6.0 I - I 2 11.0 TR 189.o I TR 30 8.5 .05/.5 400 I TR ...... I ...... I ....... I ..... I ..... I ............ I ..... I ..... I ..... I ...... I ..... I ..... I ..... I ............................... I .............................. 2-6 18391 9.8+I 40I 8 7 2/17' 16.0 ...... I ............. I ..... I ................. I ..... 2-7 8481 9.8+1 I 8 ................... I ..... I ..... 2-8 8996 9.9+I 40 I 11 2-9 9200 9.9+I 41 I 10 2-10 9200 lO.3+1 40 11 9 2/51 J 6.0 9 2/37 16.0 ............ i ..... 8 2/33 6.0 9 2/24 6.2 11.0 TR 189.o TR I 30 9.5 .05/.4 400 11.0 TR 189.0 TR 132.5 9.0 .05/.3 350 11.5 TR 188.5 TR I 35 9.0 - .1/1.2 350 11.5 TR 188.0 TR 137.5 10.0 .15/1.8 400 12.5 TR 187.0 TR 137.5 9.0 - .25/1.6 350 TR CORE NO.2 CORE NO.3 & 4 ELOG 2-11 9200 10.5 40 12 8 3/31 6.4 2 13.0 TR 187.0 TR 40 9.0 - .05/.8 400 I I I 0 TIGHT HOLE - TIH W&R TR ELOG ............................. I ....... I ................................... This section of the report contains copies of show evaluation reports for Narvaq 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. 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. Show BAROIO ppm LOG EVALUATION REPORT COMPANY _ WELL LOCATION FORMATION OEPTH_ B P EXPLORATION NARVAQ NO. I KUPARUK UPLANDS TOROK 7050'- 71~0 PROBABLE PRODUCTION GAS MUD ANALYSIS I0O HYDROCARBON RATIOS C, C~ C~ C, C~ C3 C4 i i i BACKGROUND NET .1~ PLOT I PLOT 2 DEPTH 7075 ~DEPTH712.5- · METHANE- ppm C~ 21800 9~00 E THANE-- p~ C! 1270 590 ,eoP~[-aaecs 950 au~,ar-,,e c~ 457 257 ~ ,,, ~,,, p[~a~[,-,aec~ 145 91 METHANE %--UN~I-- ~ , , , ~o~c ~_u,n~_ ~65 172 c HLOa~O[ S 530 550 DRILLINO RATE: FT/HRX MIN/FT__ F R 0 M ,35 TO .____ .50 , L ITHO LO e Y SS-clr?wh?ltg¥?s~p? vf mgrt rnd sbang~ msrt=uncons,qtz, lith, pyrt, calc cmt ip? tr slt},t fri t br, i yel-gld flor? )/el fish cut flortsli yel string cut flor REMARKS Gos Anolysis on Trop Line Somple. Poor Show in Interbedded Sond NEW ORDER~ ,,, CALLED IN BY- TALKED TO TIME AM ..-PM..._ Ct~ M CS" ,,M C4' ,, M Cs+' ,M Ce" M PI c,/c~. 17_ c~/cs'_j?.;~_ c,/c<._~.8_ c,/cs+'_LS.0 P2 CI/C2 16 CI/C3 21 CI/C4...:59 CI/C5 102 L PLOT RATIOS ON LINES INOICATED. 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 INOICATIVE OF SALT WATER, b, IF THE C~/Ca RATIO FALLS LOW IN THE OIL SECTION ANO THE C~/Ce 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~/C4 IS LESS THAN C~/C~ THE ZONE IS PROBABLY WET. d. THE RATIOS MAY NOT BE OEFINITIVE FOR TIGHT, LOW PERMEABILITY ZONES. 12--15-67 ~-- BAROIO ppm LOG ~ .OW EVALUATION REPORT CO¥1~ANY__.B P EXPLORATION WELL NARVA O NO. ~ LOCATION KUPARUK UPLANDS FORMATION ,, T 0 R 0 K DEPTH _ 7245 '- 7320' PROBABLE PRODUCTION GAS-OIL HYDROCARBON RATIOS C, C, C, m ILL i i Cz C~ C, MUD ANALY9'I9 IiX) BACKGROUND NET IR~RLr::J~- __ , PLOT I PLOT 2 DE PTH7~60 DEPTH 7~0 METHANE- ppm Cl 8800 I ~0 _ E THANE-- PI~,~ C! 620 1090 . ,, PRO P&N[-- Dp~ C ~ 475 900 .... ~ , , , euY,N[--~ C, ~55 511 , ~ , ~ pENT~Nt*-~p-C~ 105 191 METHANE %- UNrTa_ ~ ~ ~ , TOTAL %_u,~Ys_ 158 229 CHLORIDES 500 500 ~ , DRILLING R.~TE: FT/HRX MIN/FT__ FROM, , 50 TO 40 L ITH 0 LO G Y SS-clr? It. gy, vf-fgr,sbang-sbrnd, msrf,_ m-wcmt?u, nco. ns. ip, slty,sl carb, trstn, trpyr, bri yel . .flor~ gd wh strmc, I cu.t.flor See Core No. I (7314-7:574) REMARKS Show in Gas AnaiTsis on Trap Line Sam, pie. Interbedded Sands NEW ORDERS CALLED IN BY TALKED TO DA. Tr. . TIME AM __PM__ Clt..~..__M C~' M C4, ,,, M CB+' .M Cl" M P I c,/c~, 14 c~/c~. ICj c,/c4...~5_ c,/c5+. $9 P2 CI/C~ 12 CI/C$ 15 CI/C4 28 CI/C5 70 I. PLOT RATIOS ON LINES INDICATED. 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTED CURVE WITHIN 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~/Ca RATIO FALLS LOW IN THE OIL SECTION AND THE C~/C~ RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. ¢. IF ANY RATIO (C~/C~ EXCEPTEO 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 WET. d,' THE RATIOS MAY NOT BE DEFINITIVE FOR TIGHT, LOW PERMEABILITY ZONES. BAROID ppm LOG EVALUATION REPORT COMPANY BP EXPLORATION WELL NARVAQ NO. I LOCATION KUPARUK UPLANDS FORMATION TOROK DEPTH 7390'- 7415' PROBABLE PRODUCTION OIL MUO ANALYS'IS IOO HYDROCARBON RATIOS C, C, C~ C~ C~ C~ C4 C5, BACKGROUND NET ~ PLOT I PLOT 2 'DE PTH 7400 DEPTH7405 METHANE- Pllm Cl I I000 13400 E THANE-- I~llm C ! 795 1000 ! PROPANE--ppm C 3 705 agO ,,, ~ , BUTAN£--ppm C4 396 48,5 PENTANE,-,pmCa4 153 176 METHANE %- U.rr=_ --- -- ' , ~ , TOTAL %_UNn'l _ 177 206 ,, , CHLORIDE S 300 300 --DRILLING "ATE: FT/HRX_ MIN/FT._. F.oM.. TO 49 '-' L IT H 0 LO G Y SS- Itgy, clr. vf-fgr, mgr ip, sbrnd-sbonq, reSEt, mcmt, un. cons? sli calc?dol7 sltyt tr pyr, sh ipt bri --,.yel fiD.r,? pr-fr-wh stErnE cut flor , _REMARKS .,Gas Analysis on Trap Line Sa,mple. Fair Show in Thi'n Sand NEW ORDERS CALLED tN BY- TALKED TO --DA-T F. 2/2/91 TIME 20:00 AM _PM.._ Pla2 c,/c: 14 USE ONLY GAS INCREASE OVER BACKGROUND M CS' M C4' ,M Cs+,,~M M c,./c:' 16 c,/c,~.L.,?._~ c,/ca**-72 I. PLOT RATIOS ON LINES INDICATED. 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTED CURVE WITHIN THE FOLLOWING LIMITS: G.'PRODUCTIVE DRY GAS ZONES MAY SHOW ONLY Cl BUT ABNORMALLY HIGH Cl ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE C~/Ct 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~/C~ EXCEPTED IF OILMUD I$ USED) IS LOWER THAN A PRECEDING RATIO THE ZONE IS PROBABLY NONPRODUCTIVE. FOR EXAMPLE. IF Cl/Ce IS LESS THAN C~/Ca THE ZONE IS PROBABLY WET. d. THE RATIOS MAY NOT BE OEFINITIVE FOR TIGHT~ LOW PERMEABILITY ZONES. BR- 3061 ~-.~ BAROID ppm LOG SI ~f EVALUATION REPORT COMPANY B P EXPLORATION NARVAQ NO. I WELL , KUPARUK UPLANDS LOCATION ..... FORMATION ..TO R 0 K Dt~PTH _ 7440'- 7475' , PROBABLE PRODUCTION ". ', MUD ANALYSIS ' !BACKGROUND "NET PLOT '1 PLOT 2 DE PTH ~.~ DEPTH ~ METHANE- I~l;e Cl ?_620 62,50 ETHANE--aWe Ce 170 460 PRO eaSE-- a.e C s 141 ~00 METHANE %- , ,,, , ,i , TOTAL %_U~TI_ 4~ 90 ,,, ,, CHLORIDES ~00 ~00 I0O wa HYDROCARBON RATIOS C, C, C, Cm ,.,.,.. ,----,,.. .=.-- Ct C~ C, Cs, --DRILLING RaTE: FT/HR.~.x MIN/FT__ FROM 30. TO 46 ., --L IT H 0 LO g Y SS- clr? It-mg¥Twhz fgr. mgr ip. ong-sbrnd, msrt, uncons-m_cmt_? calc ip? tr pyr7 arg? sine bri, ,¥el flor, pr wh cut flor _REMARKS ..Gas An. aly.sis on Trap Line So...mp!.e. ._Poor Sh..ow.-V_ery Low Gas Readings., NEW ORDERS_ ii i i i i ii CALLED IN BY TALKED TO --)ATIE_2/2/91 B~-30615 TIME 2,2:O0 ,, AM _PM__ Clt M C3= M C4=~M CB+' M CI~' M P I cm/c~,_16__ c.,/c~- 1~9 c~/c4::52 c~/cs~ L_7.7.7.7.7.7.7.7~. P2 Ci/C2 14 CI/C$ 16 Cl/C4Z6 Cl/C5 68. I. PLOT RATIOS ON LINES INDICATED, 2. EVALUATE SECTION FOR PROBABLE PRODUCTION AS INDICATED BY THE PLOTTED CURVE WITHIN THE FOLLOWING LIMITS: a.'PRODUCTIVE DRY G~S ZONES MAY SHOW ONLY C~ BUT ABNORMALLY HIGH C~ ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE C~/C= 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~/C~ EXCEPTED IF OIL MUO IS USEO) 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. 13-15-67 BAROIO ppm LOG EVALUATION REPORT COMPANY B P EXPLORATIONi. WELL N ARVAQ NO. I LOCATION KUPARU. K UPLANDS FORMATION TOR OK DEPTH 7750'- 7785' , PROBABLE PRODUCTION OIL MUD ANALYS'IS I0O HYDROCARBON RATIOS C~ C~ Ct C, C2 C3 C 4 C~* el , BACKGROUND NET , PLOT I PLOT 2 'DEPTH 7780 DEPTH_.____ Ill METHANE- Pllm Cl 32800 E THANE-- IH~m C! 2900 PROPANE-- ppm C ~ 27~0 i BUTANE--ppe C4 1548 i i i i i PENtANE~-ppmC~ 60~ METHANE-%- TOTAL %_UNITS_ c ~LoaloE S 400 i i i i -'DRILLINO R~TE: FT/HRX MIN/FT__ F R 0 M ~50 TO 42 -'L ITHO LOG Y SS-clr~ Itgy,wh~vf-fgr, mgr ip, tang,- .sbrnd, msrt, mcmt, uncons ip~ sli calc~ arg~ slty, carb~ -'.,d,I yelTgld flor~ p,r-gd wh string cut flor _REMARKS ~Gos Analysis on Trap Line Sample. Good Gas Ratios for Oil-Thin Sand ! _NEW OR DERS_ TALKED DA-T F.. TO 2/5/91' TIME AM _PM__ Cl· M C3' M C4'~M C5+. M Ci:'~M c,/c~'/~L C.'/C~LI2 . C~/C4'.?J._ Ct/Cs+: 54. 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 Ct 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~/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~/C4 IS LESS THAN Ct/C~ THE ZONE IS PROBABLY WET. d. THE RATIOS MAY NOT BE DEFINITIVE FOR TIGHT, LOW PERMEABILITY ZONES. 12-15-67 .-.~ BAROIO ppm LOG [ ~W EVALUATION REPORT COMPANY B P EXPLORATION WELL NARVAQ NO. I LOCATION KUPARUK UPLANDS FORMATION . TaR 0 K DEPTH 7560'- 7910' PROBABLE PRODUCTION GAS - OIL MUD ANALYSIS BACKGROUND NET ~ PLOT I PLOT 2 DE PTH 7~75 ~ DEPTH 7895. METHANE-ppe C~ 45500 37000 , E THANE-- pl)m C! 2800 2660 PROP&NE--I)pm C) 1960 2080 i 8UTAN£--p~m C, 950 1108 ?g N TA Nr .- ,pm Ce~ 343 4 26 METHANE %- UNITS_ __ ~ m m , . . tOTAL %-u.~-i 520 450 CHLORIDES) ~00 ~00 m m , , m, IOO 90-- HYDROCARBON RATIOS C~ C, C, C, C~ C~ C, --DRILLING RATE: FT/HRx MIN/FT_... FROM :52 TO ~ -- L ITHO LOG Y SS-It-mgy? clr? vf-for? ang-sb,rnd7 msrt? .mcmt, uncons ip, varg ip, tr mica,sli calc, yel-or flor, -- fr yel-wh cut flor REMARKS _Gas Analysis on Trap Line Sa .re,pie. _ Inte.r,.bedded Sand. NEW ORDER9., CALLED IN BY TALKED DA-T F, 3~- 30615 TO , 2/3/91 TIME ,, AM -.PM_. PI P2 ' ................ ~--- ~,-I't n&i ClL M C~',, M CA~~M C5+' M Ct' M c,/c~.l~ c~/c~. 23 c,/c~ 4~ c,/c~+. CI/C2 14 Cl/C5 18 Cl/C4 ~3 C1~5 86 I. PLOT RATIOS ON LINES INDICATED. ~. 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 C~ ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b. IF THE C~/C~ RATIO FALLS LOW IN THE OIL SECTION AND THE C~/Ce RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. c. IF ANY RATIO (C~/C~ EXCEPTED tF OIL MUD I$ USEO) IS LOWER THAN A PRECEDIN~ ~ATIO THE ZONE IS PROBABLY NONPRODUCTIVE. FOR EXAMPLE, IF C~/C4 IS LESS THAN C~/C~ THE ZONE IS PROBABLY WET. d. THE RATIOS MAY NOT BE OEFINITIV[ FOR TIGHT~ LOW PERMEABILITY ZONES. 1~-15-67 BAROIO ppm LOG EVALUATION REPORT COMPANY ,, B P EXPLORATION NARVAO NO. I WELL .......... LOCATION ...... KUPARUK UPLANDS FORMATION, KUPARUK RIVER DEPTH 8310'- 8::560' PROBABLE PRODUCTION GA S MUD ANALYS'IS i i i PLOT I PLOT DE PTH8325 [DEPTH 8350 Il I I1 _M ETHANE - ppm C I 19700 10400 _ ETHANE--p~m C~ 820 655 "PO PINE-- peru C t 250 252 i i BUTANE--ppm C4 I00 107 i METHANE %- i TOT4L %_umll_ 245 166 lU c HLO~DE S 400 400 i u , ii --DRILLINO RATE: FT/HRX-~ MIN/FT__ FROM- 2_.,5 TO · 50 -'L ITHO LOG Y See Core ,N0. ;5 Description, (8301'- 8391') _REMARKS During Coring. Anolysis on Trop Line So ,mple. Tight Zone. Poor Show. NEW ii ,_CALLED ORDERS ,, IN BY TALKED ~&T~ TO ,, 215/91 21:00 TIME , AM -..PM.--. HYDROCARBON RATIOS C~ C~ C~ C~ C=, Cs C, Cs, Clt, M C3'~M C4' , M CS+' M Cl~' M P I c~/ct, Z4 c;/c~, 79 c~/c4,197 c~/cs~'....~:.,~7 P2 Cl/C2 .16 Cl/C3 41 Cl/C4 97 CI/C5 221 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 Ct ONLY SHOWS ARE USUALLY INOICATIVE 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 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~/C4 IS LESS THAN C~/C~ THE ZONE IS PROBABLY WET. d. THE RATIOS MAY NOT BE DEFINITIVE FOR TIGHT~ LOW PERMEABILITY ZONES. 1~--15-67 BAROID ppm LOG EVALUATION REPORT COMPANY B P EXPLORATION WELL ..... NARVAQ NO. I KUPARUK UPLANDS LOCATION FORMATION_ KUPARUK RIVER DEPTH _ 8560'- 8440' PROBABLE PRODUCTION GAS MUD ANALYS'I S i ' ,. BACKGROLWD NET ' PLO T I PLOT 2 _~TH~Ng-.~,C,[ 21800 ~4400 _EZH~Ng--e~ C~ I100 _ PRo P~z-,~ ~ c ~ 3~0 570 BUTANZ--ppm C4 116 237 METHANE %- ~ ~O~L ~_um~[ 270 ~70 CHLORIDE S - , . ~00 ~00 --DRILLING RATE: FT/HRX.~ FROM_ 7, TO - 98 MIN/FT __ '-LITHO LOGY _See Core No..,4 Description (8391'- 848~') -- _RE M AR KS _.Gas Anal)/sis ,on Trap Line Somp!e During ~Co,rinq. Tight, Zq,ne. POor Show ,,, NEW ORDERS_ CALLED IN BY- TALKED TO D&TK. ~R-30~15 2/5/91 TI ME _,?.3:00 AM ._PM_ HYDROCARBON RATIOS C....[~ C__[~ C ' C, C~ C~ C4 Cs, IO43 I Ctr--.-.__.M Cs' M C4= .... M CS+' .... M CI~'____._M P I c~/c~. 20 c.,/c$. 64 ce/c4.198 Cl/Cs..460 P2 CI/C2 1__~..8 Cl/C3 45 Ci/CA. 10.._~.3 Ci/C5 274 I. PLOT RATIOS ON LINES INDICATED. t~, 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 Ct ONLY SHOWS ARE USUALLY INDICATIVE OF SALT WATER. b, IF THE C~/C= RATIO FALLS LOW IN THE OIL SECTION AND THE Ct/C4 RATIO FALLS HIGH IN THE GAS SECTION THE ZONE IS PROBABLY NONPRODUCTIVE. c. IF A~Y RATIO {C~/Cl 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 Ct/C~ THE ZONE IS PROBABLY WET. d. THE RATIOS MAY NOT BE OEFINITIVE FOR TIGHT, LOW PERMEABILITY ZONES. 1~-15-$7 ? ___L~hcck off or fist d~ta as it is rccci¥cd I .¢';'~ ,,,,.,//~~.,~ J cored intcwals dry ditch Ji'lJCJvaJs diuilal data [: ........... i ............. . ....... "'. '...' : "' '''', ~ . ,, .......... i i ii i iii i., J i ii .~ ...... ?---.:. "'1" O'G ~iYI:'E FI u I'1 IH TE finAL S SCALE ~= .......................... , ........... ; ~ ............................... ~ ................................. .............. · ol L..o,,,.s 5',,,, c~'~,? -f"'"' ~ c.r,~'~) / ~ /,~?/.- ..~ ~z.r-2 ' .,¢" '! 'i J // ~- // _.¢// ........... .................... ' i 61 .......... ~ ~ '" ........ ,,, ti ~ ......... ~ ~ ,, ,~ ,~ ,,,,H ~ , ~ , ......... ,, ,, / PERMIT ~t ~ o - ? ~..T'"' WELL NAME .,~",~ >,/,,,,~ ~ .~ / COMPLETION DATE ~ / /~ / P// CO. CONTACT /'~/~.-~. LOG TYPE RUN INTERVALS SCAIF NO. ~2o! ~,p/~,o-r z?, ox,o,," ~,~l~x~ i--Z ~,'o/- ~'-.~ / ,.~ " 4 ~-" 1/~ ~ ,, / 33] ,, 34} ,. I ........ I o+~¥ From: Drilling Superintendent Subject: Aban_donment - NARVAQ._~1 Following is a procedure for the abandonment of NARV~Q #1. Contact Mr. I {arold Mawkins AOGCO (..n79-'1499) for approvsl of the p~gram and also witnessing setting the plugs or tagging the plugs. Mike Mlnder' (AOGCC) g~ve v~rb~l approval of the followin~ pl~01'~i~. M~ke ~y ~l,~,,~u~ [u [l~u ~,~ you think ~re ne~e~, thi~ i~ only a ~ulde, Dowell i~as been contused concerning the cement, The engineer is Mike Miller (248-2299). gCOPE: Lay 3 noat olaoo "G" cement plug9 In the ope~ hole. "Leave kill mud weight in the hole between plugs.- Inject waste mud and spot an Arctlcset I Plug across the 13-3/8".shoe through a retainer, Lay a 3 bo' p~ug at the sudace with Arcti~et I cement. Remove the wellhead and Install a hole me,er FIRST PLUG: 1. Run 5 stands (475~)~ ~f 3-1/2" open ended (mule shoe?) drill pipe to 8510', a 5" p~ug catcher and 5" drill pipe to sudace. 3. Pump 300 cuff. (260 sx.)* of neat class"G" cement 15,~ D~g, 1 15 cu~sx; 4,97 gal w~t~r/~x; ?-1/~ hm th~c anon0 time* *NOTE'. volumes calculated using 11" avorago holo *NQTE: A~d D-~RR r~tard~r as req~ilr~d lot ti,luke,,ling LI~ ba~ud on 185'F circulating temperature. 4. Drop plug. Pump 3 barrels of water (ratio: outsideAnside - 6/1). E. Di~plao~ pluo to c. at~he~. Sump plu;. Shear plu; and ~lowly PON. ESTIMA TED CEMENT TOP.8035' (may bo a~ high as 7700' if channeled). TAG PLUG.I~ REQUIRED BY AOGCC (top must be no deeper than 8210'). SECOND PLUG: 6. Run 5 stands (475') of 3-1/2" drill pipe, plug catcher, and 5" drill pipe to 7400'. 7. Pump 18 bbls water ahead, 8, Pump 300 curt (260 sx) of neat class "G" cement as above. *assumed 11" hole 9. Drop plug. Pump 3 bbls of water. 10. Displace:to catcher, bump plug, shear plug. POH. ESTIMA TED. C£MEIVT TOP=8925!. (m~y bu u~ high as 6600' If channeled). ~,~:,,*~'~.' .. ,~;.'.' .. .. . · ~..:.:;:??: :'. A~O0 WILL ~QUI~ THAT THIS ~LU8 8~ TA~D O~ T~aT~D, (top mum be no deeper tha~ 7150') THIRD PLU~: 11. Ru~ 5 ~t~d8 (475') ~f 0-1/9" drill pl~, plu~ c~t~h~r, ~d 5" drill 12. Pump 18 bbls water ahead. 1~. Pump 800 cuff (260 8~) of ne~t 01~99 ~ ~ment ~ above (a~umed hole). 14. Drop plu~, Pump ~ bbl~ water behind. 15. Di~plB~ tg G~Gh~r, bum lua, lua, POH, ~$TIMA T~D C~M~NT TOP,~40O' (ma2 bo a~ h/gh ~ ~100' if TAG PLUG IF REQUIRED ~Y AQGGCfl~p must be n~ d~p~r than 'FOURTH PLUG: (across ShOe) 16, RIH with a retainer and set at 2300'. Wait on cement at le~t 4-houre for the third plug to set. 17, Inject all waste mud, 1R. Pump 31~0 ouff (3~0 ox) of ^rotiooot I oomont through'tho retainer. UnsUng, and dump 50 cuff (54sx) of cement on top of the retainer.' ,~.~.=,, ,-..:¢~ ?.,.:.,. ... ....... .~...:..FI;TH PLU~I , · ' 19, POH without filling to leave the top 160' empty. Push a 13-3/8" cement wiper plug to 150'.~ Fill top 150' with ~x), Cement trip m~l.~t h~ within 5' of oround level end extend to 150' below ground level. SURFACE: ' 20 Romouo tho woilhoad. 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: DP ExploraL;o,', NARVAQ #1' 1825' FNL, 2089'FWL, Sec. 15, T7N, RSE.UM 02-00lA (Rev. 6/89) 20/ll/MEMO1.PM3 OPERATION: Drlg / Wkvr STATE OF ALASKA ALASKA 01L AND GAS CONSERVAT I ON COMM I SS I ON BOPE Inspection Report Operator ..~}~/~. Location: Sec 1,~ T )/4~/ R V~/ M Dr l g contrctr -//'A _/~R)" DATE TEST: Initial L/// Weekly Other Representative ~F Permit #. ~ - /~ ~ Casing set ~ X~~ ft / ~"~ psig Pump incr c]os press 200 psig ~ min ~ sec Full charge press attained ,~ , min /~ ,.sec N2 ~ ~~~ ~ ,~O~ psig Co.t o] : Mast . Remote ~~ Blind switch cover~/J~ KELLY AND FLOOR SAFETY VALVES: Location (general) Housekeeping (general Reserve pit Wel, sign Rig ~/~'~ MUD SYSTEMS: Visual Audio Trip tank I/' J Pit gauge O/ I Flow moni tor/~$I . O~//~..j~._/f/~.~S) Gas detectors .*~' 'i(~y I O/f~J POPE STACK: Test Pressure Annular preventer ~, ~/9 ~ Pi pe rams ~'-~5)d:~ ~ B1 ind rams ,~'(~ (~ ~ Choke line valves , , ~~ HCR valve , ~ d~ ~ TEST RESULTS: Rig# / ~F~~ Rep j~/~ ACCUMULATOR SYSTEM: Full charge pressure Press after closure Upper Kelly Test Lower Kelly Test Ball type Test Inside BOP Test Choke manifold Test Number valves Number flanges. Adjustable chokes Hydraulically operated choke pressure pressure pressure pressure pressure raj,utes '~ij~~.. ~ Test time 2 hrs Repair or replacement of failed equipment to be made within _~ days. Notify the Inspector, and follow with written/FAXed verification to Co~ission office. Distribution: orig - AOGCC c - Operator c - Supervisor WITNESS C.004 (rev O5/10/90) BP EXPLORATION Thursday, January 24, 1991 Mr. Lonnie Smith AOGCC Dear Sir: BP Exploration (Alaska) Inc. 900 East Benson Boulevard RO. Box 196612 Anchorage, Alaska 99. (907) 561-5111 1 ., The name of the Exploration well we are currently drilling (Drilling Permit #90-175), was changed from KuDaruk Uplands 'C', to Narvaa #1. - Yours Truly, Mike ~- Staff Drilling Engineer JAN 2 5 ]991 TO: THRU: FROM: MEMORANDUM Stale of Alaska ALASKA OIL AND GAS CONSERVATION COMMISSION Lonnie C. Smi~ DATE: January 24, 1991 Commissioner ~.I v FILE NO: JT. DA. 12491 TELEPHONE NO: SUBJECT: Diverter Test BPX Kuparuk Uplands "C" Permit No. 90-175 Exploratory Doug Amao s ~ Petroleum Inspector Friday Jan. 18, 1991: I attempted to travel this date from Prudhoe BaY to BPX's ~p~ Uplands "C" exploration well to conduct the diverter test on Nabor Rig 1SE. I was unable to reach the location due to a rig breakdown on the spine road which haulted traffic from 11:30 a.m. until i:00 a.m. 1/19/91. Saturday Jan. 19, 1991: I traveled this date from BPX PBU BOC to the ~Up-~~ploration well and witnessed the diverter test on Nabors Rig 18E. I found the vent lines unanchored and required Bob Mash, BPX rep, to correct this non-compliance before drilling commenced. The lines were anchored before I departed the location. Attached is an AOGCC BOPE/RIG walk-thru inspection report with the diverter portion and closing unit portion of the report completed. In summary: I witnessed the diverter test at BPX Kuparuk Uplands "C" exploratory well on Nabors Rig 18E. Attachment. 02-00lA (Rev. 6/89) 20/ll/MEMO1.PM3 SENT'BY:Xerox Tele¢0pier 7020 ;'~'~'18-91 ; 3'OOPM ; 90727~=~-'i42~ 6594510;~ 2 OPERATION; Prlg STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION BOP£ Walk-Thru Inspection Report Wkvr UIC DATE, Operator'__ ~_eX ' - - Loc~tion (gen'l) ~~ ..... Wetl ,tgn ~ Rig (gert'l) A, ~msm tall n/a 1, ('T (~ ( ) line 2, ( ( ( ) line cgnn & anchored ~, (~" ( ) ( ) 90~ ~rgeted turn~ 5. (~() ( ) vtvsz auto & s~multaneou~ 6. (~() ( ) annular pmck-off 7 (~() ( ) condition B, palm fmtl n/a BOP STACK 1,(~ 2.() () ~.() () c. () () 7,() 8.() 9.() () ~o,() 13, ( ) 1~.() ~.() () ('~/wellhead flg wkg pre~s (~/annular preventer pipe ram~ (~bl(nd rams ( ~ ~c~k m,,~l,o,':d ohko/kill line ~z (~90~ turns targeted (chke & k~ll l n) [~HCR vlv~ (chke & kill) (~/m, nu~l vlv~ (chke & kill) (~connections (fled, ~hd, clmpd) dr1 spool flo~ n~pple flo, monitor control l~ne~ f~re protected ~. (~'~() ~.( () D, 2a~ fail 1. ( ) ( ) 2,() () ~.() () 4,() () s.() () ~,() () 7.() () 8.() () ( ) firewall ( ) nitrogen power source (back-up} (,) condition (leak~ ho~e~ etc) CLOSING UNIT5 ( ) wkg ( ) opr~g pre~ 2, ( ) ( ) ( ) ~ufflcient vlv~ 4, ( ) ( ) ( } regulator bypa~ 5. ( ) ( ) ( ) ~-~a), vlv~ (actuator~) 6, ( ) { ) I~hlind handl~ nowr ?, ( ) ( ) ( ) drillmr control ( ) remot;e control panel (if apple) (~/pit level floats installed flow rote (v~mud ga~ ~eparator degasmer (,~.separ'ator bypass (~chke In conn (~') trip ~ank E. pa.~s fail n/a RIG FLOOR 1, ( ) ( ) (~¢/ kollz co~k, 2. ( ) ( ) (~floor vlvs (dar~ vlv, ball vlv} 3. ( ) ( ) (~kelly & floor vlv wr'ench~ (flow monitor flow ra~e indicator) 4. ( ) ( ) (~' driller'~ con~ole (pit level indtcator~, gauges) 5. ( ) ( ) (~kill ~heet up-to-dat~ 6. ( ) ( ) (~g~ ~etectton mon(tor~ (H S &methano) 7, ( ) ( ) (~,hyOr ohk~ panel F. ~ea~ fail n/a MISC EQUIPMENT ~.() () 9 (v~() (~vent line (~900 turn~ targeted (:). (awn ~trm choke lng) (~ reserve pit tankage (~personnel protective equip avail (u~'all drl ~te~ ~uprw~ trained 2for prooedure~ (~H S probe~ ( ) rig housekeeping Re[ulttng fatture,; Failures not corrected & why: ..... .. ~:... ~ --x Date cor'rec~ion~ will bo completed: ...... _~'/~ BOP teat & re~ult~ properly entered on daily recorO? C,0013 (r~v 01/17/91) January 11, 1991 STEVE COWPER, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 M. E. Miller Exploratory Lead Engineer BP Exploration (Alaska), Inc. P. O. Box 196612 Anchorage, AK 99519-6612 Re: Well No. Kuparuk Uplands C Company BP Exploration (Alaska), Inc. Permit No. 90-175 Sur. Loc. 1827'FNL, 2089'FWL, Sec. 15, T7N, R8E, UM Btmhole Loc.1827'FNL, 2089'FWL, Sec. 15, T7N, RSE, UM Dear Mr. Miller: 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. David W~Joh~ston, Chairman Alaska Oi~nd Gas Conservati on 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 P.O. Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 Tuesday, January 8, 1991 Mr. Bob Crandall AOGCC Dear Sir: Attached is the geophysical data requested as per regulation 25.033 (e), concerning the Permit to Drill for the Kuparuk Uplands 'C' exploratory well. Please call me if you have any questions (564-4913). Yours Truly, Mike Miller Staff Drilling Engineer- BPX cc.' File: Kuparuk Uplands 'C' RECEIVED JAN 0 8 1991 BP EXPLORATION Memorandum To' D.I.Rainey Date: January 8, 1991 From: W.H.Fulroth Subject: Overpressured Gas Survey for Kuparuk Uplands 'C' Well In compliance with the Alaska state permitting requirements, the potential for overpressured gas in the Kuparuk Uplands '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 #32-7-8 and Ravik #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 'C' well. WHF/wf attachment cc: J.M.Spatz M.Miiler -/44 z~ RECEi'VEI) JAN 0'81991 AK 3407-7 (1189) BP EXPLORATION BP Exploration (Alaska) Inc. 900 East Benson Boulevard RO. Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 Monday, January 7, 1991 Mr. Bob Crandall AOGCC Dear Sir: Attached is the Designation of Operator concerning the Permit to Drill the Kuparuk Uplands 'C' exploration well this winter. If there are any questions, please call me at 564-4913. Yours Truly, Mike Miller BPX- Drilling RECEIVED JAN o 7 1991 STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION DESIGNATION OF OPERATOR 20 AAC 25.020 1. Name of Owner Texaco Inc. Address . 4800 Fournace Bellaire, Texas 77401 3. Notice is hereby given of a designation of operatorship for the oil and gas property described below: Property designation: State of Alaska Oil & Gas Lease ADL #368048 Legal description of prcpe~y: .. Township 7 North, Range 8 East, Umiat Meridian: Sections 1, 2, 3, 10, 11, 12, 13, 14 and 15 (containing 5,760 acres, more or less) Prol~erty Plat Attached [] 4. Name of Designated Operator BP Exploration (Alaska) Inc. Address 900 East Benson Boulevard - '~-CFI Post Office Box 196612 ----,VE, J'~ · Anchorage, AK 99519-6612 _J/tAt January 1, 1990 ..... 6. Acceptance of operatorship for the above described prope~y with all attendant responsibilities andheriq''eDy ~ is tions acknowledged BP Exploration (Alaska) Inc. Signed ~ ,, /d. /~"~~~itle Vice President, Exploration Date /'~'. =~',~,e 7. The owner hereby certifies that the foregoing is true and correct Form 10-411. 12-1-85 Suomi( in Ouplicale WOLFBUTTON 32 190'10 LINE WG82-29 ] 413rl 0 - RAVIK I 0 m ....I " ~ - ~l / .z, , " i~ :~' 4-~_.- · .~_~. _ ~ :' '?. .X. I , '. ,"?,, / ', ,' '.? '~? ~ i' ';:, .:~ · ..,,-..., -"r~...,, .~ ;' -~'~-"-',~,~' ; -' . ! ~ - "':- ! ~-.-- f : ' '~l .: --t. .,..~,...., ' ..,"-'~~"'"..~ :-..... '--'=- :' :. ..-r_- -'-! I .' '._~ .~..I~ ~, , ;~ -- ....... [- ;-,,...., - '"e .~:I'.=,.-. · ~.~'~ ~..~. , ~'". -.~;... ~,. '-L- -C~r-.ia-- .- =' ~ "'~'~' O"~r"x' '~r"l'~ '~% '~"' ff~''~-,0,.'"-'~- J~ '"-/" " '" ;' / ¥'~e~ I '~ ~-~ I 4' .,~_.i~.~L _..=._~':-~ ~r ..~....? ~-' '- . . . · -TEr :~. :-,. ~'- :... ~ .- _ '-..: '- ' ,.-, . .- . ~.'~'~: -' ." t - .-,. /'"~- ~ ,. ~ ,, ,-' . ~ 0 ~ ,.". 7:. I ~ '~' ,:~ ., ::':.'~: ,.1 ",_ ':::' ":'. ',~ ,,. · ', ~ .~ ,."'.-.,._.~' _ ~. ~, f,.>',' i _ .~".~ . , .... ,'r, ,''. ,-' :--...' · .- '~ll' l' ,":...' u.,...' .~.~ ,iv'tj[p,?C-1'"".'~. · ~" il' ~ 'L", './' 1., ..' '!~ ": ' '"'- I"_"" "' '": ,'."iF',... ~: ...~::-~. ,~ - Ev ~ 4. ~:' "'" - ",s:"' '" -" " · ': p._.,-e .... , ri ~. ":..-,. ~' '"-' I , ! % -4. E~l ~. ~¢ _ ~1 -~ [~ ." ", , ~* '._.?~ .. , ,..,.. · ~'~ I m ' ~' PI %'" I~l~ I ' I' !!'''~ -- t' ' ' ..'.o. · ' ' ]. ~ '~ -- "'"' o-':a ~ '~; ~'~.~ t ..',~:-.~., I....o X '. / ~. -~ '~,'~ '...r -'--c' ..--.. ~ ito .. .t'% ].z' - " '. ! ~ ~. ~' ..~. , ,. ! ,p I I --cJ ff.o u C ,o '~0 :,~ )2 BP EXPLORATION BP Exploration (Alaska) Inc. 900 East Benson Boulevard RO. Box 196612 Anchorage, Alaska 99519-6612 (907) 561-5111 Monday, December 17, 1990 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. There is no close approach data included as the nearest well is 3.5 miles away. Also attached as part of the permit is a letter concluding the results of shallow gas surveys in the area indicate no shallow hazard. If there are any questions, please call me at 564-4913. Yours Truly, Mike Miller Staff Drilling Engineer-Exploration DEC 1 9 1990 & Gas Cons. (;ommlss~o Anchorage STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION PERMIT TO DRILL 20 AAC 25.005 la. Type of work Drill [] Redrillr-illb. Type of well. Exploratory[] Stratigraphic Testl~! Development OilE] Re-Entry [] DeepenI-II Service [] Development Gas [] Single Zone [] Multiple Zone [] 2. Name of Operator 5. Datum Elevation (DF or KB) 10. Field and Pool BP Exit/oration KBE = 453' AMSL feet Wildcat 3. Address 6. Property Designation P. O. Box 196612. Anchoraae. Alaska 99519-6612 ADI ¢. Location of well at surf-ace 7. Unit or property Name 11. Type Bond(see 2o AAC 25.o2~) 1827' FNL, 2089' FWL, SEC. 15, T7N, R8E, UM Kuparuk Uplands At top of productive interval 8. Well number Number 1827' FNL, 2089' FWL, SEC. 15, T7N, R8E, UM Kuparuk Uplands 'C' 2S100302630-277 At total depth 9. Approximate spud date Amount 1827 FNL, 2089' FWL, SEC. 15, 77N, R8E, UM January 7, 1991 $200,000.00 12. Distance to nearest 13. Distance to nearest well 4. Number of acres in property15. Proposed depth(UDandTVD) property line ADL 368047 @ 2104' feet Wolfbutton (32-7-8)/3.5 mi feet 5760 9200'TVD/BKBfeet 16. To be completed for deviated wells 17. Anticipated pressure (see 20 AAC 25.035 (e)(2)) Kickoff depth NO~vEfeet Maximum hole an(:jlev~m' 0 Maximum surface 3100 pslg At total depth (TVD) 920074400 psi~l 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" 68# ~T~¢~,,~.BTC 2472' Surface 2500' 2500' 4200 cu ft Arcticset 8-1/2" 7" 29# L-80 TKC 9172' Surface 9200' 9200' 450 cu ft Class G 1 g. 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 ~.e~u~re~d~) True Vertical depth Conductor Surface Intermediate Production Liner Alaska 0ii & Gas Cons. Comm'tss~O~ Perforation depth: measured Anchorage true vertical 20. Attachments Filing fee [] Property plat [] BOP Sketch [] Diverter Sketch [] Drilling program [] Drilling fluid program [] Time vs depth pict [] Refraction analysis [] Seabed report[] 20 AAC 25.050 requirements[] 21. I hereby certify th? the fore~Lging is true and correct to the best of my knowledge Signed '-~, ~~~ Title Exploration Lead Engineor Date//2.~?/~0 Commission Use Only Permit Number IAPI number ]Approval date ISee cover letter ~O "/7,,,~'" 150-~..~"7- ~.,oo/d I 01/11/91 Ifor other requirements Conditions of approval Samples required '~ Yes [] No Mud Icg required ~ Yes [] No Hydrogen sulfide measures-~ Yes [] No Directional survey requ~rea [] Yes,,,,~l No Required~--.-~--~-~ ~--~ r-~.--~w°rking pressure f~ []2M; 1-13M; ~i~5M; I'-I10M; I-I15M; Other: ~'"'""- ~ ~:I~,.~---~ ,~ ', --- by order of Approve~ ~ Commissioner the commission Date i~1 ~.,, Form 10-401 Rev. 12-1-85~,~~ Submit in trip CONFIDENTIAL PROPOSED DRILLING AND COMPLETION PROGRAM KUPARUK UPLANDS 'C' Objective; It is proposed to drill Kuparuk Uplands 'C' as an Exploration well during the winter months of 1990-91. The well is to be drilled from an ice pad to be built approximately 35 miles southwest of W-Pad in the Eileen West End area. An ice road from W-pad will provide access. The well will be a vertical hole to approximately 9200' tvd bkb. No overpressured zones are expected and seismic data indicates no shallow gas pockets. Operation: Install and cement 80' of 20" conductor to surface. Install 20" ~ ¢.., ?~,'~ ~<. ~,'1l¢-,~ / -- Drill 17-1/2" hole vertically to 2500' and cement 13-3/8, 68#/ft, NT80CYHE, ERW, Buttress casing to surface. Install blowout prevention equipment consisting of 5000 psi W.P. pipe rams, blind rams, and annular preventer. Maximum expected bottom-hole pressure is 4400 psi at 8680' TVDss. Maximum possible surface pressure is 3100 psi based on a gas column to surface. Drill a maximum of 10' of new hole and perform a formation leak-off test. Drill, and core an 8-1/2" hole vertically to TD at approximately 9200'. Run open .hole logs and seismic. If testing is required, run 7", 29#/ft, L-80"TKC casing from TD to surface and cement using Class G cement. Any testing will be done with the rig on location. Clean out to 7" float equipment. Change over to 10.2 ppg NaCl completion fluid. Test casing to 3000 psi. Rig up test facilities and flow test the well through drill pipe or tubing. RECEIVED DEC ] 9 199(~ AJaska Oil & Gas Cons. Commissiot~ Anch0rag~ 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" annulus. If the well is suspended, the 7" x 13-3/8" annulus and the inside of the 7" casing will be adequately freeze protected. MEM 11/26/90 RECEIVED [)F-C !9 1990 Aiaska Oil & Gas Cons. Commission Anchorage BOP STACK CONFIGURATION 13 5/8", 5000 PSI WP TRIPLE RAM STACK DRILLING I RISER ANNULAR PREVENTER 2" KILL LINE I I P! PE RAMS I MANUAL HYDRAULIC GATE GATE I I BLIND RAMS i DRILLING SPOOL I PI PE RAMS I I RECEIVE[ DEC 1 9 1990 A~aska Oil & Gas Cons. Comn Anchorage 4" CHOKE LINE HYDRAULIC MANUAL GATE GATE ssion 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 43e 35' or as required ,._1 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 Cellar 20" Diverter Spool wi 10" Side Outlet RECEIVED DEC 1 9 1990 Alaska 0il & Gas Cons. Oor~missio~ Anchorage M EM 1/3/90 1' - 5280' KUPARUK WELL LAT. = 69"57'48.97" LONG. = 150"06'47.02" Y = 5,836,179.55 A.S.P. X = 4~5'811.56 ZONE 1,827' FROM NORTH LINE 2,089'.FROM WEST LINE TSN / 10 , 11 ~05 ~2 KUPARUK ~ / 22 13~, f DIGITIZED FROM UMIAT (D-l) QUADRANGLE RECEIVED D EO I 9 1990 Alaska Oil & Gas Cons, commission Anchorage o I 1 2 (MILES) BP-053 I hereby certify that I am properly registered and licensed to practice land surveyfng in the State of Alaska, and that this plat represents a survey made by me or under my ~upervision, and that ail dimensions and other details are correct. Date DEC. 7, 1990 ' LS N~,. 73.35 ~'~istere~l Lan'rd Surveyor Kelth A.- McNeil No, L$ 7335 KUPARUK UPLAND WELL AS STAKED WELL "C" LOCATED IN PROTRACTED SECTION 15, TOWNSHIP 7 NORTH, RANGE 8 EAST, UMIAT MEREDIAN, ALASKA SURVEYED FOR: B.P.' EXPLORATION P.O. BOX 196612 ANCHORAGE, ALASKA 99519-6612 SURVEYED BY: ARCTIC SLOPE: CONSULTING C, ROUP 6700 ARCTIC SPUR ROAD ANCHORAGE, ALASKA 99518 DRAW~! ~Y: KMC D^~ 12/7/90 Pit. I. 7~MK. Choke Manifold Poor Boy Degasser . Brandt Vacuum.-Type Degasser Brand t Dual Tandem Shale Shaker Pioneer Mud Cleaners Pione. er MKI Centrifuge WATER VOLClHE T'AAJK I00 06L !.30 '/'RI P rAN K 75- D~C.~$$ER TA~K t'IUD 5 Y~F~h' .~L SUR/AC( CAPACITY: ! ~1~ I cncx~ 1 ~ I OU,"tL / ' TYPE ;TRIBOTION MOO CLF_.AA~ a.~ 1 - RecOrding drilling fluid, pit 'level indicat~r with both visual and audio warning devices at driller's console ' 1 ' Trip Tank (75 BBL.) 1 - Drilling fluid flow sensor with readout at driller's console 11 - 5 Hp Agitators BP EXPLORATION Memorandum TO: D. I. Rainey FROM: W.H. Fuiroth November 20, 1990 SUBJECT: ,,.S..hallow Gas Survey. for 1990-91 Kuparuk Uolands Dri!.ling 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 pull-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)~''''~ CHECK LIST FOR NEW WELL PERMITS ITEM APPROVE DATE (2) L0~ M~.C. ~ '(2 ~hru '('9 -thru 1~) ' 10. (10 and 13) 12. 13. (4) Casg (14 thru 22) (5) BOPE (23 thru 28) (6) OTHER ~/~ //?/~./ (29 thr6 31)' (6) Add: Geology: DWJ Engineering: rev: 01/30/89 6.011 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. For 29. 30. 31. 32. Company /~ /~. Is the permit fee attached .......................................... ~ 2. Is well td be located in a defined pool ............................. 3. Is well located proper distance from property line ........ ~ ......... 4. Is well located proper distance from other wells .................... 5. Is sufficient undedicated acreage available in this pool ............ 6. Is well to be deviated and is wellbore plat included ................ 7. Is operator the only affected party ................................. 8. Can permit be approved before fifteen-day wait ...................... 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 .~O~ psig .. Does the choke manifold comply w/API RP-53 (May 84) .................. Is the presence of H2S gas probable ................................. exploratory and Stratigraphic wells: Are data presented on potential overpressure zones? ................. Are seismic analysis data presented on shallow gas zones ............ If an offshore loc., are survey results of seabed conditions presented Additional requirements ............................................. INITIAL GEO. UNIT ON/OFF POOL CLASS STATUS AREA NO. SHORE 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 ......................... 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 effod has been made to chronologically organize this category of information. (NOTE: **** LIS READ **** MAXIMUM RECORD LENGTH - 8192 BYTES) ** REEL HEADER ** SERVICE NAME: SSDS DATE: 91/02/21 ORIGIN OF DATA: FEWD REEL NAME: BPX CONTINUATION #: 01 PREVIOUS REEL NAME: COMMENTS: REEL SEQUENCE # 1 · PETROLEUM COMPUTING INC.- LIS FORMAT A~aska Oil & 6a~ Co~. r,;omm~ss~O~, ** TAPE HEADER ** SERVICE NAME: MPT DATE: 91/02/21 ORIGIN OF DATA: EXPL TAPE NAME: NARVAQ#1 CONTINUATION #: 01 PREVIOUS TAPE NAME: COMMENTS: PETROLEUM COMPUTING INC.- LIS FORMAT ********** END OF FILE (EOF # 1) ********** · TUM SPECIFICATION BLOCKS NAME SERVICE SERVICE UNIT API API API API ID ORDER# LOG TYP CLS MOD DEPT FT 0 0 0 0 ROP MWD FT/H 0 0 0 0 GRC MWD API 0 0 0 0 FXD MWD HOUR 0 0 0 0 DDD MWD PPF 0 0 0 0 FXN MWD HOUR 0 0 0 0 DDN MWD PPF 0 0 0 0 NFO MWD CTS 0 0 0 0 NFl MWD CTS 0 0 0 0 NN0 MWD CTS 0 0 0 0 NN1 MWD CTS 0 0 0 0 FXE MWD HOUR 0 0 0 0 DDE MWD PPF 0 0 0 0 EWR MWD OHMM 0 0 0 0 QRAT MWD G/C3 0 0 0 0 CAL MWD INCH 0 0 0 0 NPSC MWD P.U. 0 0 0 0 RHOB MWD G/C3 0 0 0 0 FILE SZE PROC SPL REPR NO. LVL CODE 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 1 4 0 1 68 ** DATA VERIFICATION (every 100 FT) ** DEPT ROP GRC FXD NFO NFl NN0 NN1 QRAT CAL NPSC RHOB 2400.000 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 2500.000 -999.2.50 64.739 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 2600.000 139.577 66.547 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 2700.000 113.406 82.253 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 2800.000 51.970 69.795 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 2900.000 88.623 59.945 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 3O0O.OO0 -999.250 -999.250 3100.000 -999.250 -999.250 3200.000 -999.250 -999.250 3300.000 -999.250 -999.250 3400.000 -999.250 -999.250 35O0.000 -999.250 -999.250 3600.000 -999.250 -999.250 3700.000 -999.250 -999.250 3800.000 -999.250 -999.250 169.757 50.522 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 41.377 85.022 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 72.829 64.296 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 94.086 80.781 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 110.190 106.426 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 34.236 68.064 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 88.512 113.532 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 70.080 78~000 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 168.510 109.922 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 DDD FXE -999.250 -999.250 -999.250 -999.250 -999.250 .210 -999.250 .088 -999.250 .120 -999.250 .104 -999.250 .040 -999.250 .176 -999.250 .070 -999.250 .097 -999.250 .078 -999.250 .192 -999.250 .104 -999.250 .141 -999.250 .060 FXN DDE -999.250 -999.250 -999.250 -999.250 -999.250 3.226 -999.250 5.263 -999.250 4.545 -999.250 4.348 -999.250 20.000 -999.250 2.941 -999.250 4.167 -999.250 4.348 -999.250 3.125 -999.250 4.348 -999.250 5.556 -999.250 14.286 -999.250 2.439 DDN EWR -999.250 -999.250 -999.250 -999.250 -999.250 5.945 -999.250 5.011 -999.250 4.990 -999.250 6.119 -999.250 9.722 -999.250 5.371 -999.250 3.989 -999.250 3.313 -999.250 9.464 -999.250 7.530 -999.250 3.982 -999.250 2.717 -999.250 4.611 3900. -999. -999. 4000. -999. -999. 4100. -999. -999. 4200. -999. -999. 4300. -999. -999. 4400. -999. -999. 4500. -999. -999. 4600. -999. -999. 4700. -999. -999. 4800. -999. -999. 4900. -999. -999. 5000. -999. -999. 5100. -999. -999. 5200. -999. -999. 5300. -999. -999. 5400. -999. -999. 5500. -999. -999. 000 250 250 0O0 250 250 0O0 250 250 OO0 250 250 O00 250 250 0OO 250 250 O00 250 250 0O0 250 250 000 250 250 O00 250 250 000 250 250 000 250 250 000 250 250 000 250 250 000 250 250 0OO 250 250 O00 250 250 50. -999. -999 · 106 · -999. -999. 127. -999. -999. 116. -999. -999. 94. -999. -999. 77. -999. -999. 61. -999. -999. 63. -999. -999. 70. -999. -999. 65. -999. -999. 59. -999. -999. 88. -999. -999. 107. -999. -999. 82. -999. -999. 82. -999. -999. 86. -999. -999. 58. -999. -999. 784 250 250 934 250 250 835 250 250 655 250 250 737 250 250 344 250 250 787 250 250 225 250 250 08O 250 250 934 250 250 477 250 250 491 250 250 327 250 250 539 250 25O 227 250 250 010 250 250 510 250 250 96.224 -999.250 -999.250 102.576 -999.250 -999.250 102.373 -999.250 -999.250 105.790 -999.250 -999.250 97.757 -999.250 -999.250 104.810 -999.250 -999.250 95.858 -999.250 -999.250 88.273 -999.250 -999.250 106.413 -999.250 -999.250 105.488 -999.250 -999.250 94.526 -999.250 -999.250 109.500 -999.250 -999.250 102.622 -999.250 -999.250 99.936 -999.250 -999.250 101.367 -999.250 -999.250 95.726 -999.250 -999.250 101.374 -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 -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 -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 .177 -999.250 .175 -999.250 .078 -999.250 .083 -999.250 .118 -999.250 .148 -999.250 .267 -999.250 .178 -999.250 .153 -999.250 .147 -999.250 .124 -999.250 .331 -999.250 .099 -999.250 .126 -999.250 .114 -999.250 .281 -999.250 .141 -999.250 7.143 -999.250 2.941 -999.250 2.941 -999.250 4.167 -999.250 5.OOO -999.250 6.667 -999.250 5.882 -999.250 4.762 -999.250 7.692 -999.250 5.882 -999.250 4.348 -999.250 3.704 -999.250 3.226 -999.250 5.000 -999.250 4.000 -999.250 4.762 -999.250 5.000 -999.250 2.844 -999.250 3.105 -999.250 2.989 -999.250 3.597 -999.250 3.369 -999.250 3.396 -999.250 3.749 -999.250 3.872 -999.250 3.627 -999.250 3.432 -999.250 2.333 -999.250 4.209 -999.250 4.344 -999. 250 4.783 -999.250 3.616 -999.250 4.456 -999.250 4.232 5600.000 -999.250 -999.250 5700.000 -999.250 -999.250 5800.000 -999.250 -999.250 5900.000 -999.250 -999.250 6000.000 -999.250 -999.250 6100.000 -999.250 -999.250 6200.000 -999.250 -999.250 6300.000 -999.250 -999.250 6400.000 -999.250 -999.250 6500.000 -999.250 -999.250 6600.000 -999.250 -999.250 6700.000 -999.250 -999.250 6800.000 -999.250 -999.250 6900.000 -999.250 -999.250 7000.000 -999.250 -999.250 7100.000 -999.250 -999.250 7200.000 -999.250 -999.250 64 -999 -999 52 -999 -999 54 -999 -999 55 -999 -999 62 -999 -999 69 -999 -999 54 -999 -999 34 -999 -999 35 -999 -999 55 -999 -999 44 -999 -999 47 -999 -999 46 -999 -999 54 -999 -999 37 -999 -999 39 -999 -999 17 -999 -999 .039 .250 .250 .433 .250 .250 .781 .250 .250 .256 .250 .250 .541 .250 .250 .815 .250 .250 .621 .250 .250 .386 .250 .250 .634 .250 .250 .458 .250 .250 .760 .250 .250 · 174 .250 .250 .154 .250 .250 .912 .250 .250 .838 .250 .250 .581 .250 .250 .232 .250 .250 112.304 -999.250 -999.250 100.356 -999.250 -999.250 97.667 -999.250 -999.250 115.631 -999.250 -999.250 109.104 -999.250 -999.250 101.045 -999.250 -999.250 108.453 -999.250 -999.250 112.181 -999.250 -999.250 86.015 -999.250 -999.250 129.542 -999.250 -999.250 121.322 -999.250 -999.250 111.673 -999.250 -999.250 104.922 -999.250 -999.250 121.796 -999.250 -999.250 118.357 -999.250 -999.250 102.519 -999.250 -999.250 92.809 -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 -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 -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 .161 -999.250 .195 -999.250 .160 -999.250 .330 -999.250 .154 -999.250 .182 · -999.250 .166 -999.250 .205 -999.250 .409 -999.250 .330 -999.250 .269 -999.250 .261 -999.250 .230 -999.250 .173 -999.250 .308 -999.250 .236 -999.250 .435 -999.250 4.545 -999.250 5.263 -999.250 3.846 -999.250 3.448 -999.250 5.000 -999.250 4.762 -999.250 4.545 -999.250 5.000 -999.250 2.703 -999.250 3.333 -999.250 7.143 -999.250 6.667 -999.250 4.762 -999.250 4.762 -999.250 6.250 -999.250 6.250 -999.250 10.000 -999.250 4.382 -999.250 4.337 -999.250 3.467 -999.250 3.925 -999.250 4.033 -999.250 4.719 -999.250 4.215 -999.250 3.893 -999.250 6.980 -999.250 3.815 -999.250 5.056 -999.250 4.299 -999.250 5.133 -999.250 3.655 -999.250 4.833 -999.250 6.195 -999.250 7.980 7300. 887. 7400. 839. · 7500. 727. · 7600. 807. · 7700. 655. · 7800. 687. · 7900. 639. · 8000. 663· · 8100. 759. · 8200. 583. · 8300. 485. · 8400. 527. · 8500. 575. · 8600. 527. · 8700. 519. · 8800. 583. 8900. 607. · 00O 000 009 0OO 000 044 00O 0OO 086 00O 0O0 493 000 0OO 079 0O0 000 078 000 000 130 O0O 0OO 074 000 000 035 000 00O 041 00O 000 423 000 0O0 067 000 000 0O8 000 000 056 O00 000 012 00O 0O0 097 000 000 017 30. 775. 8. 44. 847. 8. 34. 711. 8. 25. 799. 8. 36. 695. 8. 35. 671. 8. 36. 695. 8. 39. 631. 8. 54. 783. 8. 17. 599. 8. 100. 503. 11. 115. 615. 8. 36. 519. 8. 36. 503. 8. 40. 543. 8. 25. 575. 8. 15. 623. 8. 203 000 430 141 000 720 958 00O 740 285 000 680 139 00O 350 089 000 550 703 0OO 540 971 00O 890 503 000 810 905 00O 420 243 00O 480 174 O00 800 703 000 5O0 703 000 5OO 027 O00 610 774 000 710 096 0O0 540 122 3176 23 73 3304 19 107 3016 24 5O 3672 19 106 3032 27 100 3000 27 94 3080 27 126 2872 30 223 2568 30 126 2664 34 101 2120 48 96 2584 33 95 2680 33 104 2488 38 103 2728 35 111 2504 36 98 2632 32 · 614 .000 .247 .401 .000 .379 .634 .000 .058 .997 .000 .620 .331 .000 .068 .435 .000 .636 .331 .000 .231 .276 .000 .216 .948 .000 .402 .698 .000 .823 .936 .000 .912 .931 .000 .655 .033 .000 .811 .822 .000 .460 .954 .000 .334 · 915 .000 .092 .677 .000 .496 -999.250 3080.000 2.237 -999.250 3176.000 2.499 -999.250 3128.000 2.496 -999.250 3752.000 2.695 -999.250 2872.000 2.410 -999.250 2920.000 2.423 -999.250 2936.000 2.498 -999.250 2760.000 2.579 -999.250 2616.000 2.409 -999.250 2680.000 2.489 -999.250 2104.000 2.345 -999.250 2760.000 2.463 -999.250 2760.000 2.436 -999.250 2472.000 2.446 -999.250 2632.000 2.444 -999.250 2616.000 2.567 -999.250 2552.000 2.408 2.439 .271 5.000 .838 5.263 1.203 5.000 .920 7.692 1.067 5.556 1.070 7.143 .856 4. 545 .749 6.250 1.071 6.667 1.118 -999.250 44.816 2.128 20.407 4.762 .891 7.143 .839 4.545 .785 7.692 1.282 9.091 1.451 -999.250 4.545 -999.250 5.882 -999.250 -999.250 -999.250 11.111 -999.250 7.692 -999.250 12.500 -999.250 9.091 -999.250 4.545 -999.250 7.143 -999.250 12.500 -999.250 3.226 -999.250 3.030 -999.250 10.000 -999.250 5.882 -999.250 6.250 -999.250 12.500 -999.250 14.286 2.083 5.647 4.762 10.815 8.333 5. 164 6.667 7.711 8.333 4.550 5.882 4.635 6.667 4 .719 4.545 3.131 5.263 2.960 4.762 1.654 1.587 1.815 1.754 4.742 4 .762 3.471 6.250 2.486 5.000 2.871 8.333 2.018 9.091 2.059 9000.000 567.000 -.047 20.098 104.513 -999.250 11.111 -999.250 543.000 2600.000 2504.000 1.604 20.000 8.740 36.043 2.499 14.286 1.988 9100.000 527.000 -.017 18.326 111.869 -999.250 12.500 -999.250 607.000 2616.000 2648.000 2.076 8.333 8.450 33.945 2.360 12.500 1.895 9200.0 -999.2 -999.2 00 20.885 -999.250 50 -999.250 -999.250 50 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 ** 979 DATA RECORDS ** FROM 2400.00 TO 9250.00 FT ** FILE TRAILER** FILE NAME: NARVAQ.DAT SERVICE NAME: MPT VERSION #: V 3.26 DATE: 91/02/21 MAX. RECORD LENGTH: 1024 FILE TYPE: EO NEXT FILE NAME: ********** END OF FILE (EOF # 2) ********** ** TAPE TRAILER** SERVICE NAME: MPT DATE: 91/02/21 ORIGIN OF DATA: EXPL TAPE NAME: NARVAQ#1 CONTINUATION #: 01 NEXT TAPE NAME: COMMENTS: PETROLEUM COMPUTING INC.- LIS FORMAT ** REEL TRAILER ** SERVICE NAME: SSDS DATE: 91/02/21 ORIGIN OF DATA: FEWD REEL NAME: BPX CONTINUATION #: 01 NEXT REEL NAME: COMMENTS: PETROLEUM COMPUTING INC.- LIS FORMAT ********** TAPE TERMINATED BY REEL TRAILER ********** ALASKA cO~PUTXNG CENTER COMPANY~NAME BOROUGH. STATE API REFERENCE I BP EXPLORATION I NARVAO#1 :'WILDCAT : NORTH SLOP~ : ALASKA : 50-287t20010 :74355 RECEIVED MAR 7 1991 Alaska Oil & Gas Cons. Commission Anchorage ,IS Tame Verification Listinq ~Chlumberqer Alaska Computlnq,Cemter **** REEL HEADER **** SERVICE NAME : EDIT DATE : 9!/03/ 4 ORIGIN ~ FLIC REEL NA~E · : 74355 CONq'INUATION # PREVIOUS REEL CO~UENT : BP EXPLORATION, **** TAPE HEADER **** SERVICE NAME : EDIT DATE : 91103/ 4 ORIGIN : FLIC TAPE NAME ~ 74355 CONTINUATION # : ! PREVIOUS TAPE : CON~ENT : BP EXPLORATION, **** FILE HEADER **** FILE NAME : EDIT. ~,001, SERVICE FbIC' V~RSI. ON ~ O01a06 DATE ! 91/03/ 4 MAX REC $~Zm FILE TYPE LAST FILE~ 4-~,AR-199 ~, 17 :.11 WILDCAT, NARVAQ #1, 50-287-20010 WILDCAT, NARVAO ~!, 50-287-200!0 PAGE: SCHLUMBERGER ~ELL SERVICES' ************************************************************************************ COMPANY NA'MEI BP EXPLORRTION ~Ebb{, NARVAO FIELD! ~lbDCAT BOROUGH~ NORTH SLOPE STATE~i ALASKA API NU~BER~ 50-287-200~0 LOCATION ~ SEC?ION: c~lomberger AlasRa Co~Pot!n~ Center 4-~AR-1991 17:11 PERMANENT DATUI~! NSL ELEVATXON: 0 LOG MEASURED FRoM RKB 453.3 ABOVE: PERMANENT DAZUM ELEVATIONS KB: 453.3 DF~ 452'3 GL: 425,5 CASING I: 20" ~, DRILLER DEPTH OF 0 TO 110' BIT SIZE. I: 17 1/2'' CASING 2: 13 3/8" ~ DRILLER DEPTH OF 2479 AND LOGGER DEPTH OF 2482 BIT SIZE 2: 8 1/2" PAGE: DATE LOGGED:· 22-JAN-!991 RUN NUMBER: ONE TD DRILLER: 2500 TYPE FLUID IN HOLE: SPUD HUD DENSITY: PH: 7.0 FLUID 14 IME CIRCULATION ENDED: 00:30 JA~-22 I~E LOGGER ON BOTTOM: 05':01. JAN-22 PRUDHOE BAY LOGGING DISTRICT: LOGGING. ENGINEER: WARNER WITNESS: BARNABY/MARSH TOOL NUMBERS: A~M-AA-7 SGC.SA-6~4 SLR-CA"88 DIC-EB-15 TCM-AB'509 WDM-AA-570 TCC'~"281 SLC,,CA,'3~ SLS'VB-57 DIS-H¥-240 STM,,CA~,66 FIELD RE~ARKS: TOOL STRING~ (BOT-TOP}:::DITE-SDT-GR"TCCB-AMS · USED 3.5.,': STANDOFF$~ AND.: ~ CHEZ_FOR CENTRALIZATION. UNABLE TO OBTAIN A.::GOOD~ ~TLNEA~UR£HENT DUB TO CENTRALIZED: TOOL FOR WAV£FORM AND DIS.. R~A~ NOISE'AND C,CLE,SKIPS'.AR£ APPARENT THROUGHOUT THE LOGGED. iNTERVAL.:' ABO'VE: 1580 SIGNAL WAS VERY WEAK STANDOFFS' ~ND 2 C"EZ FOR_C~NTRALIZATION.:: 'SP, SHIrTS'A$'..SPECIFXED ,IS TaPe YeriiloatlO~.o~tSti ,Chlumberger A as~a ~putlnn~ Center 4-~AR-199! I?Ill DATE LOGGED: lO-FEB-gl RUN NUHBER: 2 TD DRILLER~ 9204 TD LOGGER~ 8919 FLUID IN HOLE~ bOW SOLIDS PEN$ITY~ 10,4 VISCOS~TY~ 40 PH~ 10 FLUID LOSS: 6 HUD RESISTIVlTY~ 2,-11 ~ 76 FILTRATE RESISTIVITY1 1,56 ~ 76' HUD CAKE RESISTIVITY: 1,96 ~ 76 TIME LOGGER ON BO . DTE/$DT PAS$)~ 04 t2 10-FEB ~AX!MUM TE~P. RECORDED DT.E/SDT PAMS)t 16' TIME LOGGER ON BOTTO~ ~LDT/CNL/PCD P SS)la 03:50 Il-FEB MAXI.UM TEMP R£CORDED (~D?/CNL/PCD PASS}~ 162 T~PE LOGGER ON SOTTOP ~ 4S 1 -FEB NGT PASS): 12: I MAXIMUM TEMP RECORDED (NGT PASS)I,. !68 LOGGING.. DISTRICTI PRU~HD$ BAy LO~GING ENGINEERI BARBER', WITNE&$I PUTNAM/TIFENTAb/GALARIO AMM~AA'724 TCC-B-28! SGC-$A-60 EDC-C'~Oi SbR-C-O02 D!C'377 DIS-379 TCM'AB"509 ST~'CA'228 WD~'AA'421 TOOL NUmBeRS (LDT/CNL/PCD PASS): A~M'AA'724 TCC'B'28~ SGC"SA'60 PCS-A-133 PCC'A'134 CNC-H"2190 N$C'E'801 DRS-B-4908 TCM'AB~509 STM-CA'228 WDM"AA"421- TOOL NUMBERS (NGT PASS): AMS'A TCC'B NGT"D DSST"A GPIT-A FIELD R~ARK$ (DTE/SDT,PASS): TOOL STRING (EOT TOP)'= DITE/$~TC/GR/TCC/A~$.,: THEi TO0~. STRING WA& CENTRALIZED WITH 2 CMEZ TY~E. SPR~NG,,.CE.NTRAbI~ERS ON THE ~6NIC TOO5~i NO OTHER. CENTRAbIZERS~WERE U~ED DUE ~0 THEiPR~BLE~$ ' EXPERIENCED WITH:.TOOL STICKING~ ON THE FIRST RUN IN THE. ~OLE,, THE D-ITE WAS RUN WITH A 2 FT RUBBER ~OLE FINDER, THIS iS A'PRELI~iNARY TYPE ,IS Ta e Verl~ica=lon Llstinq ;ehlum~erger lasl(a CompUting Center 4-MARoI991 17:11 EVALUATION OF THE STC PROCESSED ~AYEFORMS. THE SONIC DATA WILL BE REPROCESSED AT THE FIELD LOG INTERPRETATION CENTER (SWS) TO PROVIDE A FINAL PRODUCT. STRAIGHT LINING OF THE DTCO AND. DTSM CURVES BE. THE RESULT OF THE PROCESSING LOCKING UP-ON MUD. ~ETECTIONo ON PARAMETER ~INDO~S. OR ON SPURIOUS ~ATA, REPROCESS!NG ~AY SOME OF THE ERRONEOUS DATA. COMPARISON O~ THE SONIC DATA TO THE LOT CALIPER IN AREAS OF POOR SONIC DATA SUGGEST THAT THE DT COMPRESSIO~AL IS BEING AFFECTED BY THE LARGE AND RUGOSE HOLE. CABLE STRETCH CORRECTION WAS APPLIED TO THE FIRST LOGGING RUN AT CLIENT'S REQUEST. THE TOTAL CORRECTION ADDED WAS TO= +3' 7500'- +2' · - , 5900'= +1' AND 4200' TO SURFACE= O' THREE ~AXI~UM R~ADING THERmOmETERS WERE'RUN RUNt. THE~ ALL READ'i64 DEGF, THE TOOL WAS STUCK FOR 25' OF INTERVAL NEAR 8850' ALL DATA STRAIGMTLINES FOR A CORRESPONDING DISTANCE, AND SHOULD BE USED WITH CAUTiOn. F~ELD RE~ARKS (LDT/CNL/PCD PASS): SANDSTONE, MOLE CORRECTION : CA I R. DENSITY G/CC. FLUID DENSITY = 1.0 G/CC THE E ITY CORRECT E VERY ~IGH IN THE LOWER PART OF THE WELL AN ADDITIONAL REPEAT PASS WAS MADE IN AN ATTEMPT TO IMPROVE THE DATi. ALL THREE THERMOMETERS READ 162 DEGF. FIELD REMARKS (NGT PASS): TOOL STRING (MOT-TOP) - GPIT-DSS?-NGT-TCC-AMS. THE TOOL STRING wAS CENTRALIZED WITH T~O C~EZ TYPE SPRING CENTRALIZERS ON THE TOP AND BOTTO~ OF THE SONIC TOOL. NO. OTHER STANDOFFS WERE USED, DUE TO TOOL STICKING PROBLEMS OBSERVED EARLIER IN THE jOB. THE. GP~T DID HiYE ~ 2" RUBBER HOLE FINDER. THREE MAXIMU~ READING THERmOmETERS,WERE RUN O~ THE WIREbINE HEAD,. aL~ T~REE READ~!68 DEGF. T~E,LOG W~$ GENERATED_USiNG _ CABLE STRETCH CORRECTIONS ~T THE CLIENTS R~UEST.. 'A TOTAL OF 3' WAS ADDED,,,' COMPUTING CENTER THE TWO.~ RUN2 NGT DATA SETS ON.FIELD PRINTS WERE ~ERGED @4030'.' RUN2 SOT WAS~ MERGED~ TO RuNt RUN2'DTE WAS MERGED: TO RUN! ~2492'' RUN2. LDT:CNL~PCD FILE 32 WAS'~ERGED ~O Ft~33 g8320'.~ NO. D~P~H' ADJUStmENTS NERE.~.MADE TO,THE.DATA O~ THiS~!BRAR¥ TA~E IT ALL ~ATCHES'FIELD BLUEbINES,'. ~THE FObbDWiNG. $6T D~TA CHANNELS EXIST., NDOWS 1~:~_.4~. ~3NG, W4NG. & W5NG. ARE NOT ON THiS TAPE BECAUSE, THEY WERE THX$ TAPE A~SO INCLUDES THE COMPUTING:. CENTER PROCE$~ED:.SONIC DATA, FILE STC. = RUN2 STCLPROCE~SING. 8890,0..: 'TO 4246,5~ CESS.I~G 8655~07 TO 3 4 FILE DSST = RUN2 D.,,ST PROCESSING 41,.45,0~ TO 2~60.0~ 5 FILE DSST ~07 = RU~2 DSST ,PROCESSING 2525,,0' TO ~986,0' (IN' CASING,) DATE JOB~ STARTED: 20-FE0-91 JOB REFERENCE NO: 74355 LOP/ANAl KOHRING PAGE: Tape verification Listing ~ChlumberqerAlaska computin~ Center 4-MAR-,!991 1711! PAGE: FILE ' EDIT,O0! BP EXPLORATION WILDCAT NARVAG # I RUNI MAIN PASS OrE/SOT LOG DATA FROM FIELD FILE F19 RUN2 MAIN PASS DTE/$DT LOG DATA FROM_FIELD FILES F24 & F26 RUN2 MAIN PASS LDT/CNL/PCD bOG_DATA FROM FIELD rILES F33 & F32 RUN2 MAZN PASS NGT LOG DATA FROM FIELD FILE r04 DATA:SAMPLED EVERY -,5000 FEET DATA INCLUDED - TOOL EXTENSION ToOL TYPE USED NAME DIT-E ,OTE PHASOR DUAL ZNDUCTION. SFb 8~ 1' TO 1{0' SOT .SD? ARRAY $ONI~ _ 8 ~5~ TO '0' ~T-A/D/H ,CNb COMPENSAT£D .NEUTRON 86~ ~ TO 246 ' TABLE TYPE: I CONS TUNI VAbU DEFI .. CN BP,,EXP~ORATION FN w.I~DCAT WN NA VAQ FL 1 rNL, 2.089' FWL SECT TOWN 7N RANG 8E , COUN NORTH .SLOPE STAT ALASKA NATI USA, W!TN PUTNAM/TIFENTAL/SAbARIO 80N '549'192 PDAT EPD FT Ompan~ Name 'ield ame Well Name API Serial Number Field Location Section Township Range County sta~e or Province Nation witness' Name Service Order Number Permanqnt datum Elevation of Perm,~ Datum ChlumbergerAalasK ComPuting Center 4-MAR-199! 17:11 PAG£: 6 TUN! VAbU DEFI LMF RKB Log Measured From APD FT 453,3 ABOVE PERMANENT DATUM EKE FT 453,3 Elevation of Kelly Bushing EDF FT 452,3 Elevation ot Derrlc~ Floor EGL FT 425.5 Elevation ot Ground Level TDD FT 9204, Total Depth - Driller TDL FT 8919, Total Depth - Logger 8LI FT' 8910, Bottom bog Interval TLI FT 2484,.. Top bog Interval DFT bOW SOLIDS Drilling Fluid Type DFD G/C3 IO,4 Drilling Fluid Density DFPH Drilling Fluid Ph .. DFV CP it Drip!lng. Fluid boss DFL F3 '11 Resistivity of Mud. Sample AMS OHMM ~$T DEGF Mud-Sample'TemPerature RMFS OHMM I ~6 Resistivity of mud filtrate s MFST DEGF ? Mud..Filtrate SamPle' Temperatu RMCS OHMM ~6 Resistivity Of ~d Cake Sampl MCST DEGF ~.~ Mud Ca~e Sample Temperature' TCS 0 0 10-FEB Time Circulation Stopped B~T DEGF 16. BottomHole TemperatUre TABLE TYPE { CURV DEPT CIDP IDPH CI~P IFRE IDQF IMOF !IRD IIXD IIRM IIXM SFLU SP SPAR GR MTEM ~RES HTEN DT DTL DEF! Depth'Channel NameI. INDUC?ZON DEEP PHASOR CONDUCTIVITY INDUCTION MEDIUM PHASOR RESISTI-ITY Dee~umlnductton Standard ProcesSed Reai~ttvit~ Med ind ct$on Standard Processed Res~stlvi y Ind. uct~Rnr !allerate,:rreguency _ IDQ D EP NDUCTION. OUALITY FACTOR IMOF MED INDUCT'~ON. QUALITY FACTOR: ~edDeeDee~ umInduInducti°n'RealI ndU i onct a ua. cl. , n t · r me d i a, e.. ¢ond:' Xn t er reed i at e Cond !~ ~.l v ..Ction Real:.Intermedla.te Co ~ct' V~ty MedEum InduCtiOn Quad: Intermediate Conductivity SEb,.Resistivity.(unaveraged) SpontaneouS-potent'iai 8parc _ Gamme,~a¥ Tension Mud ?e~pe[ature MUD Resis ivi[y Head Tension DELTA'T LONG SPACING Tape Verification Listing chlumberqer AlasKa Computing Center 4-MAR-lg91 t7:11 PAGE: DEFI ',,,'"""'"'"'"'""'. .... DTLF DTLF TT1 TRANSIT TIME t TT2 TRANSIT TIME 2 TT3 TRANSIT TIME 3 TT4 TRANSIT TIME 4 LTT! LONG SPACING TRANSIT TIME MODE ! LTT~ LONG SPACING TRANSIT TIME; MODE 2 LTT3 LONG SPACING TRANSIT TIME NODE 3 LTT4 LONG SPACING TRANSIT TIME MODE 4 SP Spontaneous Potential GR Gamma Ray TENS Tension ~TEM Mud Temperature ~RES MUD Resistivity HTEN Head Tension DPHI Density Porosity RHOB Bulk Density DRHO Delta RHO ~, PEF photoelectric Factor . QLS Qua!StY'control of long spacigg for LDT QSS Quality control on short spacing ~Or. LDT LOng Spacing COmputed Count Rate (LL+LU/2 LU bonQ upper 1-2~Win~ow COunt, Rate (LUI+LU2) LL LOng ~ower Wlndo~,count:Race: LITH LithOlOg Indow count Rate SS! Short~s~a, tnq 1 w!ndow count Rate 852 ~hOrttspa~ in~ 2 window Count..Rate LSHV bong sP~c ng Htgh Voltage Output SSHV Short: Spa lng High VOltaoe LoOp OUtput s!RH Short.,$Pa ln~ l:_ensltyD ' . LSRH Long Spac ng~RHOB (Uncorrected) LURH ~oog.,,UPpe :RHOB CALl caixper GR Gammas. Ray TENS Tension MTE~ MudTemperetgr MRE.$ MUD~ ReStstivIt~ HTEN Heao Tension ~ NPH! Neutron porosity .... RTN~ Raw('Thermal:,'NeUftOn Ratio · TNP~ ThermalS'NeUtron Porosity TN~ ¢811bra~ed T~ermai..Neutron'~8tio NPOR NeUtron PorOsity OutPut:From an AppliCation program RCN) RCNT, RCFT CNTC CFTC CA5I TENS RCFT ~CNTC CFTC GammaRa¥ Call~er. Te, ns~.on~ MUD, Resistivity Mud~Temperature ,IS Ts~, Verification List~nq ,chlumbergerA1 asks ComPuting Center 4,,,~AR-!99! !?;!! HTEN SGR CGR THOR POTA URAN TENS ~TEH C8 HTEN SDEV GR T~NS MTE~ ~R. ES HTEN HDIA LA DEFI Head Tension Spectroscopy.Gamma-Ray Computed GR from Thorium, Uranlum, Potassium Thorium POta~sium Uranium Tension Mud Tam Y Cable Head Teg~ on Sonde day Relative,Beat Pad I Azimuth Gamma~Ray Tension ~ud Temperature MUD Reststtvlty Head TensiOn HoXe Dtameter Larqe Arm SA 8maXZ Arm PAGEt DATA FORNAT SPECIFICATION RECORD ? TYPE - 64EB ** YPE REPR CODE VALUE 66 0 Tape Vert~ication biStinQ ~chlumberoerAlaska ComPutlnq Center ** SET TYPE - CHAN ~*m NAif SERV UNIT SERVICE AP! AP! API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE.CLASS MOD NUMB SAMP ELEM CODE (HEX) . O0 000 O0 oo 00o o0 O0 0o0 O0 oO 000 oo oo 000 oo o0 00o OO O0 00o OO oO 0o0 oo O0 000 O0 O0 000 Oo o0 000 oo oO 000 OO O0 000 O0 oo 000 O0 O0 00o O0 O0 000 O0 O0 000 O0 O0 0o0 O0 O0 000 O0 oo 000 O0 O0 0o0 O0 oo 000 O0 00 000 00 DT DTLN SDTL US/F 549192 O0 000 O0 SDT US/F 549192 O0 000 O0 DTLF SDT U$/F 549192 O0 000 O0 TT1 SDT US 549!92 00' 000 O0 TT2 :$DT US 549192 O0 000 O0 491 §2 00 000 O0 5549192 00. 000 O0 54.19~9 000 O0 TT3 $DT US TT4 SDT US' bTT! SDT US bTT2 SDT US 549192 LTT3 SDT US 19 549 ~ L~T4 SDX US' SP SDT MV 549.192 GR SDT GAPI: 549192 TENS SDT LB 549192 MTE~ '$DT DEGF 549192 NRES SDT OH~M, 549~92 HTEN SDT LB 549192 DPH! LDT PU 49192 RHOB LDT G/C3 49192 DgHO LDT G/C3 549~92 PEF 5DT 549192 OO O0 O0 o0 O0 O0 O0 o0 O0 O0 oo O0 O0 O0 QL8 LDT 549192 O0 ~$S LDT 549192 O0 L$ LDT CPS 549192 O0 LU LDT CPS 549192 O0 LL LDT CPS 549192 OD L!TH LDT CPS 549~92 O0 000 O0 000 O0 000 O0 000 OO 000 O0 000 O0 000 OO 000 OO 0o0 oo 0o0 OO O0 O0 gOO O0 000 O0 000 O0 000 O0 000 O0 000 O0 000 O0 0o0 oo 0 o 0 o o 0 0 0 0 o 0 0 o 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 ! 1 1. I' 1 i' 'I' 0 0 0 0 0 1 0 0 0 0 0 0 0 1 ! ! 1 ! 1 ! 1 ! 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 ! 1 t ! 1, :t 1 ! ! ! ! 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 6B 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000006000' 68 0o00000000 68 OOOO000000 °°° ooog OO°°O 00000 0000000000 0000o00000 68 00000 §. 00. 68 00000~ ~00 68 0000000000 0000000000 °o°o° o0000g°0°° .0000 68 0000000000 68 0000000000 68 0000000000 68 0000000000. 68 0000000000 68 0000000000 68 0000000000 68 0000000000 6B 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 6B 0000000000 IS Tape Verification blstinq chlUm_'-,ergerh AlasKa ComPutinO Center 4-MAR-1991 17:11 PAGE{ 10 m~~m~mm~~m#~mmm~~mm~m~mm~mm~mmmm~m~mm~mm~mmmmmmmmmmmmmmm#m~m~m~mm~m NA~E SERV UNIT SERVICE APl APl APl APl FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # bOG TYPE CbASS MOD NUMB SANP ELEM CODE (HEX) TEN8 CNL LB 549192 O0 NRE$ CNL OH,, 5.49192 O0 MTE, tnb DEGF 549192 O0 HTEN CNb LB 549192 O0 GR NGT G~P! 5 9 92 O0 41 NG, GAPI 549192 O0 19~ oo THOR NGT PPM 4 49 9 POTA NGT PU ! 92 O0 URAN NGT PPM 549192 O0 TEN8 NGT LB~, 549292 O0 MTE~ NGT DEGF 549192 O0 NRE8 NGT OHMN 549~92 0 0 CS NGT F/NR ~49~92 O0 MTEN NGT LB 549~92 O0 SDEV NG, DEG 549192 O0 0o0 oo o 000 oo o 000 oo o 000 OO 0 000 oo 0 000 o0 o 0o0 O0 0 0o0 O0 o 000 OO 0 00o o0 0 000 oo o 1 000 O0 0 000 oo 0 0o0 oo o 000 oo 0 0o0 O0 o 000 O0 0 000 O0 o 000 oo o ! 000 O0 0 0o0 oo 0 000 O0 o 1 000 O0 o 000 o0 o 000 O0 o 000 O0 0 000 O0 o 000 oo o 000 O0 0 I 000O0 o 000 OO o 000 O0 0 1 000 0.0 o :1 000 O0 o 1 00 oo o O0 oo o 00 oo 0 1 O0 oo o o00 O0 0 0o0 oo 0 000 O0 0 ooo OO 0 o0o oo o 00o o0 0 1 1 1 1 1 1 1 1 1 1 I! ! ! 1 1 ! ! ! ! 1 1 ! 1 1 1 1 1 1, 1 ! ! ! 1 ! '1 4 68 0000000000 4 68 0000000000 4 6B 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 6~ 0000000000. 4 68 0000000000 4 68 0000000000 4 68 00000 0 O0 4 68 0000~§ 000 4 68 o00o 0§~00 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 6.8 000000000o 4 68 0000000000 4 68 0000000000 4~ 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 6'8 0000000000 4' 68 0000000000 4' 68 00000o0000 4' 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 0000000000 4 68 o000000000 4 68 0000000000 oo ooo oo o ~ ~ I 4 6~ oooooo0ooo HTEN PCD LB 549192 O0 000 O0 0 ! '1 1. 4 68 0000000000 HDXA PCD ET 549192 O0 000 O0 0 ! 1 i 4 68 0000000000 .co oo ooo oo o oooooooooo oo. ooo . o I i ..4 68 oooooooooo. Verification bistinq ,Chlumberqer AlasKa Computing Center DATA DEPT.: INPH.DTE IDOF.DTE IIR~'DTE SPA~,DTE MRES'DTE DTLN.SDT TTi SDT LTT SDT TENS SDT DPHI bDT OLS'bDT LL,bDT bSHV'bDT LURH.bDT NTEM.bDT RTNR,~Nb RCNT~ Nb M_GR Nh ..TEM MTEM.NGT SDEV.NGT TEN~,PCD MD! .PCD DEPT,': IMPH,DTE IPOF;DTE IIRM,DTE SPAR.'DTE MRE$,DTE DTLN,SDT LTT~.~:SDT TENS~SDT DPHI;bDT OhS,bDT LSHV,bDT LURH'bDT ~TE~bDT RT:NR:~CNb RCNT,CNL TMOR~NGT: ~TEM NGT SDEV NGT TENS PCD HDIA PCD 500 3,-000 423.000 -999-250 0~855 0 000 770 000 [246 800 3650 000 -999 250 -999 250 '999 250 '999 250 ~999 250 ~999 250 -999 250 '999 250 -999 ~50 -999250 -999 250 ''999,250 "999~250 '99~250 -99 250 8900'000 ,ooo 500 -9 ~,250 '855 '500 ~.800 i2~:,000 .*250 -999,250 '999~250 '999'~'250 '999'250 -999,25~ -99 ,25 '99~:~250 -9 ,250 '999~250 '999'250 -999'250 CIDP.DTE IbD.DTE IMOF.DT£ IIXM.DTE GR.DTE HTEN, DTE DTbF, SDT TT45DT bTT4,~$DT MTEM,iSDT RHOB~DT QSSEDT LITH:bDT SSHV~bDT CALI~LDT MRES~LDT TNPH. CN~ RCFT~CN CALI~CNb HTEN~CNL~ POTA:NGT ~RESNGT: RB'NGT ~TE~,P D: LA,P~D C~IDP.DTE IbD'DTE. iMOF.,DTE I:IXM*DTE GR*DTE HTEN,iDTE~ DTbF~SDT T?4~SDTi bTT4'SDT: MTEM.~SDT~ RHOB,LDT OSS,bDT~ LITH'LDT! SSHV'LDTi ~RE$~bDT~ TNPH,~CNb: RCrTCNb, CALI CNb POTA NGT, EB~NGT~ ~TE~,PCD~ LA ~CDi 4-MAR-1991 17{11 417.250 2.389 2.000 30,672 100,3!3 -48,469 0,000 588,400 1057,600 i63,625 999,250 999.250 -99~ 250 '99 50 '999~~ 0 m999~ '999~ ~ -999i ~0 -999; o -999, ~0 '999, 0 '999" 50 '999~50 '999' 50 o,9oo 23,b94 100'313 1019,000 89' §o 586, 057' 163, -999. 0 -999; ~0 "999, 0 "999~ "999,. ~00 '999' ~0 -999'.~0 "999,2 "999,2 ~ -999'2~ -999'2 0 '999,2 IDPH,DTE ILM.DTE IIRD.DTE SFLU.DTE TENS,DTE DT.SDT TTi,SDT LTTI, SDT 'SP,SDT MRESeSDT DRHO..LDT LS.bDT SSi,bDT SiRH bDT GR bDT HTEN bDT TNRA CNb CNTC CNL TENS CNL. SGR NGT URAN NGT CS NGT PlAZ NGT MRESPCD SA POD IDPH,DTE IL~'DTE' 'iIRD:*DTE SFbU'.D?E TEN~':DTE TTI,$DT~ bTTI,,SDT SP.SDT ~RES..$DT DRHO bDT US bDT SSi bDT $tRH bDT GR ~DT :HTEN bDT TNRA CNL CNTC CNL TENS CNL~ SG:R NGT URA:N NGT C$ NGT P1AZ NGT MRES PCD SA PCD~ 2 395 2 342 2 3650. 0 590 1076 O, -999 -999 -999 -999' -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 CIMP.DTE 184 IFRE.DTE 000 IIXD,DTE 910 SP.DTE 000 MTEM.DTE 000 DTb. SDT 800 TT2.SDT 400 LTT2,SDT HTEN.$DT 250 PEF.bDT 250 LU.bDT 250 SSi'LDT 250 L$RH: bDT 250 TENS bDT 250 NPH~ tnb 250 NPOR CNL 250 CFTC CNL 250 MRESCNL 250 CGR NGT ~50 TENS. NGT 250 HTENNGT 250 GR~PCD ~50 HTENPCD 25O 2 330 C.:]:MPi DTE 9 6 IF ~ E <~ DT E ' 352 75~ !IX'D DIE 2 89 SP DIE 5085 59O .I076 0 -999 -999 -999 -999 ,999' ~999~' -999 999 -999 -999 :000 ~TE~ DTE 600 DTL SDT 800 TT2~T 400 LTT2 · .'T 086~' GR ~DT 855 iHTEN SDT 250 PEF bDT 250 LU bDT 250 SS2 bDT 250 bSRH bDT 250 :TENS LDT 250 NPHt CNb 250 NPOR CNL 250 CFTC CNb 250 ~RES:CNb :250 CGR, NGT 250 TENS: NGT 250 HT:EN,NGT ,250 GR'PCD ,~50 HTEN.PCD' 250 PAGE{ 457 250 20 000 62 406 -22 313 163 625 0 000 408 400 878 000 100 313 -48 469 '999 250 '999 250 '999 250 '999 250 '999 250 -999 250 ~999 250 -999 250 -999 250 -999 250 -999 250 -999 0 -999 25O 410.250 20 000 25 408 400 · 87~ 000 0 ~3 -999 250 ~999 250 -999 250 -999 250 -999 ~50 '9991 50 "999 "999:250 e999:250 '999 250 ~999 250 "99~ 250 "99 250 lis Ta e Verii~catlon Dlsttng cblum~erqer lasKa Computing Center 4-MAR-1991 17~11 PAGEs 12 DEPT, IMPH,DTE IDQF,DTE IIR~ DTE SPARiDTE ~RES DTE DT~N SDT LTT~ DT TEN ,SDT DPHI,LDT DSH¥'LDT LURH LDT MTEN DDT RTNR MTE~ CNL NTEN NGT SDEV NGT TENS PCD .DI PCP DEPT iNpH'DTE IDQF~DTE !;IR~'DTE SPAR,DTE DTbN,SDT TT3'.$DT LTT3,SDT TENS'SDT DPHI,LDT O5~'LDT LL,LDT LSH¥,.LDT LURH..LDT ~TNR~CND RCNT*CNL G~,CND ~TE~,CNL THOR,NGT. MTE~*NGT SDEV*NGT TEN$,PCD HDIA,PCD 8800,000 2,809 0,000 332.000 -999 250 0 876 92 50O 842 800 1297 200 5565 000 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 "999 250 -999 250 -999 250 -999 SO "999 ~50 "999 0 '999 50 -999 ~50 8700,000 3,178 0 000 .300 750 999 250 0 850 94 800 820 800 !300 000 4930 000 -999 250 -999 250 -999 250 -999 .250 -999 250 -999 250 -999 250 -999 25O -999 250 -999 25O -999 25O -999 250 -999 250 -999 ~50 -999 250 CIDP,DTE LD,DTE XNOF,DTE IIXM.DTE GR,DTE HTEN,DTE DTLF,SDT TT4,$DT DTT4,SDT MTEH,$DT RHOB,bDT blTH,bDT SSHV,LDT CALI,bDT MRE$ bDT TNPH CNL RCFT CNL CAb! CNb HTEN CNL POTA NOT NRES NGT RB NGT ~TEM PCP LA PCD CIDP~DTE ILD DTE I~OF DTE IIXM DTE GR DTE DT SDT TT4 SDT 5TT4 SDT MTE~ SDT RH. OB bDT OSS bDT LITH LDT SSHV 5DT CALI LDT ~RES LDT TNPH CNL RCFT CN5 CALI CNL HTEN CNb POTA NGT ~RES NGT RB.NGT ~TE~,PCD LA,PCD 0 2§:000 34 105,~38 ~574,000 95.200 O0 661'I00 -999 250 -999 25O -999 0 -999 250 -999 -999 -999 250 -999 25O -999 ~50 -999 250 -999 250 -999 250 330,750 2,984 0,000 9 .938 [~ 000 8O0 ~63~ 600 [~[~ 400 16:125 -99~ 250 -99~ 250 '99i 250 -99~ 50 -99! 50 -999 -999 -999 50 "999 50 -999 50 -999 ~0 -999 0 -999 ~0 -999 0 "999 250 IDPH,DTE IL~,DTE IIRD DTE SFLU DTE TENS DTE DT SDT TT1SDT ~TT1SDT MRE$ DT DRHO bDT bS bDT SS1 bDT HTEN bDT TNRA CN~ CNTC CNL TENS CNL SGR,NGT 'URAN-,NGT CS,NGT P1AZeNGT NRES,PCD SA.PCD IDPH DTE ILM DTE IIRD DTE SFLU DTE TENS DTE DT SDT TTI SDT SDT ~RES SDT DRHO bDT LS LDT SSI bDT SlRH bDT GR ~DT HTEN DDT TNRA CNG CNTC CNL TENS CNG SGR NGT URAN NGT CS NGT PIAZ NGT MRES PC'D SA PCD 2 523 ClNP,DTE 2!801 IFRE,DTE 329 250 XIXD,DTE 3 686 SP.DTE 5565 000 MTEN,DTE 88 000 DTL,$DT 647 600 TT2,$DT 1123 600 bTT2,SDT 4 160 GR SDT 0 876 HTENiSDT -999 250 PEF DDT -999 250 LU GDT -999 ~ $$2 DDT -.999 GSRH LOT -999 ]50 TENS 5DT 999 ~250 NPHI CNb 999'250 NPOR CNL -999 ~50 CFTC CN5 i50 CGR '2 .99 5 0 CNL NGT NGT NGT PCD PCD 3 3 .278 4 635 ~tt5 -4 0 -999 -999 -999 -999 -999 -999 -999: ~999~ -999 -999 -999 ~999 999 -999 -999 0 ~P DTE ' RE ,DTE 500 IIXD i09 SP 000 MTE~ 800 DTL 00 TT2 ~00 LTT2 684 GR 850 HTEN ~250 PEF 250 LU 250 SS2 250 LBRH 250 TENS 250 NPHt !250 NPOR .50 CFTC NRES 250 ~50 ~250 :250 250 DTE DTE DTE SDT 'SDT SDT LDT LDT bDT CGR'NGT HTEN;NGT G~,PCD HTEN'PCD 355'750 :ooo 5 125 i 160 16 250 92 300 455 60O 948 400 105 938 1574 000 -999,250 -999 250 -99~ 250 -99 1250 -999~250 -999250 -999 250 -999 250 -999 250 -999 25O -999 250 -999 250 ~-999 250 -999 250 314 500 20 000 39 031. -4 684 162 125 94 800 44.4 400 925 600 ~99 938 X109000 "999 250 "999 250 "999~250 '999 250 "999 250 '999 250 ~999 250 "99 'r99~ ~0 0 -99~ 250 -99 250 -999 250 -999 250 -999 250 ,IS Tape Verification bi. sting ~chlumberqer' AlasKa Computing Center 4-~AR-~991 17:11. PAGE{ 13 DBPT, IMPH,DTE XDOF,DTE IXRM,DTE SPAR,DTE MRES DTE DTbN SDT LTT3 SDT TENS DPHX,bDT OLS.bDT bL.LDT LSHV bDT LURH bDT MTEM bDT RTNR CNL RCNT CNL GR tnb MTEM CNb THOR NGT MTE~ NGT SDEV NGT TENS PCD HDIA PCP DBPT. IMPH.DTE I~F,.DTE ! M DTE SPAR DTE MRES DTE DT SPT DPHi bDT ~T~ RCNT GR CNb SDEV NGT TENS PCP HOXA PCP B600.O00 3.055 0.000 301,250 -999.250 0.857 93.900 815.600 1301,600 4875,000 ~5,596 t 950 151,625 9 3,667 142.360 102 563 597 I$5 824 0 885 4975 000 t2 680 o :ooo 29~ 000 75O ,,999 250 0 863 °°o 7 400 123~0 000 501 000 -0 000' 15 625 :207 224. 103 4870 000 ii 8i0 CIDP DTE ILD DTE IMOF DTE XIXM DTE GR DTE HTEN DTE DTLF SDT TT4 SPT LTT4 SDT ~TEM SDT RHOB bDT OS$ bDT LXTH bDT SSHV bDT CAlX MRES N H CNh TC~TR CNL CALX· CNL HTEN CNL LA PCD CIDP,DTE ILD,DTE IMOF,DTE IXXM,DTE · GR'DTE HTEN.~DTE DTLF,SDT TT4,SDT LTT4,SDT MTEM GDT RHOB LDT OS$ bDT SSHV bDT CALX bDT ~RE$ bDT TNPH CNL RCFT CNL CALX CNL HTEN CNb POTA NGT MRE$ NGT RB NGT MTEM PCP LA PCP 34! 500 2 908 0 22 98 1112 161 2 1325 12 999 328 2 0 000 172 125 000 500 200 200 125' 063 5OO 000 898 000 325 86 IDPH.DTE ILM,DTE IIRD.,DTE TEN$,DTE DT, SDT TT1 SPT bTTX SPT SP SDT MRESSDT DRHObDT LSLDT SSi bDT S1RHLDT GR bDT HTEN'LDT TNRA,CNb CNTC',CNL TENS,CNL SGR,NGT URAN.,NGT. CS,NGT. PlAZ,NGT' MRES,PCD SA.PCP 0 XDPH*DTE i!6 lb..DTE 0 IIRD'DTE 69 "SFLU,DTE 50 TENS'DTE~ O0 DT'$DT O0 TT !SPT: 5 NRES, SDT: il O SP,.SDT:: 5 DRHO,LDT'i 11 LS'LDT: 5 · $Sl.LDT, ~0 '$1RH.LDT: 3 GR, LOT 9 HTEN. bDT' 6 TNR.A CNb: ! CNTC. CN5 3 TENS CN~ 0 SGRNGT ~ URANNGT. .CS NGT: 9 'SA LSRH,LDT TENS.bDT NPHI.CNL NPOR"CNL CFTC.CNL 2.926 CIMP DTE 3.094 IFREiDTE 286.250 IIXD DTE 3,787 SP DTE 4875,000 MTEM,DTE 94.300 DTb. SDT 622.400 TT2 SDT ~112,000 LTT2 SPT -1.215 GR SDT 0.857 HTEN SDT 0.115 PEP bDT 607.500 LU bDT 252.375 SS2 bDT 1.714 102,563 999,000 3, 9 1845,)3 66 4975.000 MRES.CNL 104'344 CGR.NGT 2'838 TENS.,NGT 796,881 HTEN.NGT 290,624 GR..PCD 0~946: HTEN.PCD 2,2~03 31~043 3'13! IFR~;:DTE 276,:000 IIXD'DTEDTE 4'12! ~ SP..DTE 50!0.000 TE~DTE 91 500 .DTL"$DT 0 863 HTEN!,SDT 0 221 PEF,bDT 362 250 5U'LDT 250 SS~,:'LDT 26'I 856 LSR 'bDT 96~:625 TENS 990.000 NPHI ~DTNL 3,223 NPOR Nb 2124'473 CFTC 4870.000 ~T 104.894 CGR: . 922 TENS~NGT PCP 0 949 HTEN PCD I 950 327.000 20.000 43 188 -1 215 161 125 95 500 436 800 926 8O0 98 125 1112 000 5 645 579 500 406 000 I 947 4975 000 39 579 38 173 54-4 263 0 946 83 626 4560 000 4796 413 102 563 999 000 32~03 2:50 000 3 5 6 3 -5 7 42 160:375 9o 9oo 4:23 O0 886 000 10 750 11245 000 41 703 34~i 250 39 :~00 3 559 697 061 .0:949 8 564 463 000 4815 ::215 996 1:0625 90 O0 ]iS Ta~ee verification bisting chlum r~er las~a Computing Center 4,-MAR-t991 I7:11 DEPT ~p. DTE DOF DTE IRN DTE SPAR DTE NRBS D?E DTLN SDT TT3 SDT LTT3 SDT TENS SDT DPH! LDT Ob5 bDT LL LDT LSHV LDT. LURHLDT MTEN LDT RTNR CNL RCNTCNb GR Nb MTEM THOR NGT MTEM NGT SD£V NGT T~NS ~CD HDIA D~PT' IMPH.'DTE IDQF,DTE !IRM,DTE SPAR.DTE DTLN;SDT TT},SDT LTT3,$DT TEN$'$DT DPH!,bDT ~LL':LDT' LSHV-LDT LURH bDT MTEN LDT RTNR CNL RCNT CNL ~GR CNL THOR NGT NTE~ NGT SDEV NGT T~NS PCD HDIA PCD ~8400,000 CIDP.eDTE ~ 208.125 5,t48 IbP DTE ,762 0.000 IMQF DTE ,OQO t89,500 XIXM DTE tl 6~3 -999:250 GR DTE 86~813 O, 872 HTEN DTE 1098,000 83 700 DTLF SDT 83,600 753:200 TT4 SDT 582,800 !023 1184 000 LTT4 SDT 16~,200 4885. 000 MTEM SDT ,250 RHO8 '12 518 bDT ,443 0021 OSS bDT 90'0296 193 250 LITH bDT ,625 1434 000 SSHV bDT 1325.000 88 313 CALI. CNL 911 22 153 250 HT£~:C~ 8~ 8 472 'POTA. NGT .~6. ~ 846 MRES NGT O. 6 160 956 277; ~4 4955 000 I53,z 0 12270 10; 753 8300 1 0 547 -999 ~93 903 I449 4720 !432 !511 104 !52 50!~ 16 00 O0 6OO oo 50~ O0 O0 45~ ~0 946 RB:NGT~ ~TE~PCD LAPCD ILD DTE IMQF DTE IXM DTE ,,GR DTE HTEN DTE TT4 LTT4 SDT' MTEM ~HOB CA~ ~DT MRES bDT TNPH CNL RCFT CSb CAb! CNb HTEN CNL POTA;NGT ~RE$;NGT ~TE~,PCD LA*PCD 613,500 I;603 g:ooo !4 000 .125o ~oo -~ 041 1~000000 .17:125 0 948 :49 730 323 000 i8 ~52 846 000 ~2 453 IDPH .DTE IIRD~DTE SFLU:DTE TENS:DTE DT~SDT TT1SDT LTT1SDT SP SDT MRES~SDT DRHO bDT LS bDT SS1,LDT S1RH.LDT. GR.LDT- HTEN.LDT TNRA CNb: CNTC CNL TENS CNL: SGR NGT URAN NGT CS NGT' P1AZ NGT ~R£$ PCD:: SA PCD: IDPH DTE:: IbM DTE 'IIRD DTE SFLU DTSDT:i LTTISDT TTI.SDT: SP SDT ~SiSDT DRHO~GDT b$;GDT' SSi,GDT S1.RH,bDT GR,LDT HTEN,bDT TNRA~CNb CNTC~iCNb TEN$1~CNb~ SGRi~NGT N T URAN~T PIAZ. NGT SA ~CD 4,801 C.I~P,DTE 4.91~ IFRE.DTE IIXD.DTE o o. oo -12.484 0.872 0.199 64,500 56,250 1.885 88 313 982 500 241~ 791 090 4955~000. 87 830 3 539. 814 737 304 .75.2' 0 937 1,895 GR.$DT HTEN'SDT PEF,LDT L~,LDT SS ,LDT LSRH,LDT T£N$.~DT NPHI~CNL NPOR'CNL CFTC.CNL MRES,CNL CGR,NGT TENS.NGT HTEN.NGT GR,PCD HTEN.PCD 100 0 1.630 1'675 IFR£ 484,750 IIXD .936 SP 000 MTEM 700 DTL 600 TT~ 000 LTT2 ;484 GR 885 HTEN 02~ PEF 50 bU 875 SS2 ,ooo ,~33 NPOR t46 ,308 CFTC lO00 MRES ClMPDTE DTE DTE DTE DTE SDT SDT LDT ~47 GR:jPCD ,94~ HTEN,PCD .4'.29 PAGEI 194125 20000 21484 -12484 160250 86300 406000 852 400 86 813 1098 000 4 109 342 75O 362 75O 2 244 4955 000 27590 28211 891 499 0 937 6~ 997 452 000 4794210 88 313 982 500 606 500 20 000 8 ~ :200 107~ 000 688 79 O0 350; !28 0,9 ~ 435,0~ 4762~999 ~04,:125 97,000 14 Tape verification Llst~ng chlumberqerRlas~a Computing Center DEPT, IPPH,DTE IDOF,DTE GPAR,DTE DT~N,SDT TT3,SDT LTT3,SDT TENS'SPT DPH! bDT ObS LDT Lb LDT LSHV LDT LURH ~DT PTEP LDT RTNR CNL RCNT CNL GR CNL NTEM CNL THOR NGT MTEM NGT SDEV NGT TENS PCP HD!A PCP DEPT iDQF DTE I!RP DTE SPAR DTE PRES DTE DTLN SDT TT3 SDT LTT3 SDT TENS SDT DPH! bDT 055 LDT 5L bDT RTNP CNb RCNT CN5 G~ CNb ~TEM CNG THOR NGT ~TE~ NGT DEV NGT ENS PCD HDIA PCD 8200 000 ! 972 0 000 478 250 -999 250 0 906 99 600 900 000 47 ,000 42 575 -0 073 359 000 143~ 000 I 871 149 875 489 1 75 1~:356 ~5 3 o 4895 000 15 580 810g,000 092 29~ 000 000 5O 10 89~ 300 0 47~ 000 16 713 -0 021 I89 500 1433 000 2 ~62 148 3 280 2240 777 ~92 :$25 i48 ~50 11193 159 671 0 595 4890 000 :i~ 306 CIPP DTE lbo DTE IMOF DTE IIXM DTE GR DTE HTEN DTE DTLF SDT TT4 SDT LTT4 SDT MTEM SDT RHOB bDT QSS bDT hITH bDT $SHV bDT CAb! bDT MRE$ bDT TNPH CNb RCFT CN~ CAb! CNL HTEN CNb POTA NGT NRESNGT RB NGT NTE~ PCD LAPCD ClDP DTE ILD DTE IMOF DTE IIXN DTE GR DTE HTEN DTE DTLF SPT TT4 SPT LTT4 SDT MTEMSDT RHOB.LDT OS$ bDT bITHLDT SSHVLDT CALi LDT MRES,bDT TNPH, CNb RCFTCNL CALICNb HTEN~CNL POTA NGT ~RESNGT RBNG~ MTEM~PCD bA PCD 4-MAR-1991 17:11 527 O0 I 8548 1 O0 4381 , o,o ooo 1 ~00 698 O0 1211 200 ! 52 250 I 948 -0 014 06 96~ 41 0~0 421. .531 1008 000 2 39'7 149 85 12 8!3 IDPH,OTE ILN,DTE IIRD,DTE 8FLU,DTE TENS,DTE DT,SDT TTI,SDT LTTI',~DT SP.$DT NRE$,SDT DRHO,bDT LS, LDT SSI. bDT $1RH~LDT GR~LDT HTEN. LDT TNRA. CNb. CNTC CNb~ TENSCNb SGR NGT URAN NGT CS NGT PIAZ:NGT MRES~PCD SA, PCP 338 14 1089 684 120 0 1325 I 0 0 36 6O8 10 !00~ 0 5~0 IDPH,DTE 88 IL~,DTE 000. I!RD,DTE ~!~1 SFLU*DTE 605 TENS DTE: 0~0 DT GDT: 700 TTI SDT O0 LTT1~ SDT 00 SP SDT i~0 MRE$ SDT 4 DRHO~bDT 2 LS bDT ~5 SSI, GDT SlRH bDT . ~DX TNRA CNL i :3 HT'EN CNTC CN~ ~' TENS CNL SGR NGT UR.AN NGT CS NGT ~JO NRE$ PCD 750 SAPCD I 895 Cl'MP DTE 1 925 !FRE DTE 422 2 4740 99 700 1212 -19 0 0 694 245 1 1 4 110 4 866 .319 0 250 IIXD 584 5P 000 MTEM 000 DTL 000 TT2 000 LTT2 078 GR 906 HTEN 077 P£F 000 LU 125 852 702 LSRH O0 CFTC 06 ~RES DTE DTE DTE SDT SDT SDT bDT bDT bDT bDT bDT CNL Cat, CNL CNL TENS NGT ]75 HTEN NGT 489 GR.PCD 964 HTENePCD 768 4730 ~ 02 1210 0 0 3 202i 4890 973 ~ * 556 2 95:1 CI~P DTE !!XD :855 SP 000 500 DTL 40 TT2 . LTT2 500 ' G~ 90.9 HTEN 0 .bU*LDT SS2'LOT NS,LDT ~RE$'CNb CGR'NGT TENS,NGT HTEN*NGT Ga*PCP ~TEN,PCD DTE DTE DTE DTE SPT 'SDT SD? 506,750 20,000 O78 152,250 99,500 495~600 1013.200 000 5 219 670000 402.000 489~ 869 000 0;964 80,033 4515,000 4759,4 5 111,698 1:068,000 20,~00 218500 !51,~500 100.~800 478;000 .!0~1,~00 179'625 1089,000 4;379 :337,250 347~000 2*250 4890'000 ~6 164 34 474 626 970 0 973 :81843 4390000 4758 ~96 !5 :~ T~e Yer~lc~tlo~ ~ls~!nq ,chlumberger Alaska Computing Center DEPT, XNP~,DTE I~OF,DTE SPAR'DTE MRES,DTE DTLN,$DT TT3,SDT LTT3,SDT TENS,SDT DPHI,LDT QLS,LDT LL bDT LSHV bDT LURH bDT MTE~ bDT RTNR CNL RCNT CNL G~ CNL MTE~ CNL THOR NGT NTE~ NGT SDE¥ NGT TENS PCD HDIA PCD 8000,000 4.051 0 000 232 375 -999 250 0 913 98 5OO 874 800 t36 800 470~ 000 19 970 -0 056 2 250 2 !58 147 5O0 200~ 810 615 148 000 147 500 I 449 0 743 4660 000 !2 669 CIDP.DTE IbD DTE INQF DTE IIXM DTE GR DTE HTEN DTE DTbF SDT TT4 SDT bTT4 SDT MTEM SDT RHOB bDT Q$S bDT kITH GDT SSHV LDT CAbI bDT ~RES LDT TNPH, CNL RCFT, CNL CALI, CNL HTEN. CNb POTA, NGT MRES. NGT RB, NGT MTEM PCD b~ PCD. DEPT. INPH*DTE IDQF;DTE I!RN,DTE ~PAR,DTE HRES"DTE DTLN*$DT TT3'SDT 5TT3,SDT TENS~;SDT DPHI.LDT LL:,~DT LU~.~LDT ~TE~'~DT RTNR,CNL RCNT.CNb THO~,NGT ~TE~NGT :SDEV,NGT TENS.PCD HDIA'PCD 7900,000 8'063 0-000 7 9 73~ O0 000 ooo · .. 000 9 ~47 '0 08 147' 25 9 .I57 ~ 467~ ~ !I 56 CiDP~DTE: !LDiDTE~ I!X~ DTE GR. DTE HTEN DTE DTLF SOT' TT4SDT: 5TT41SDT MTEM, SDT RHOB bITH~5DT CALt~SDT MRE$~LDT~ ~CFT~CNL~ CAbI,CNL~ ~TEN~CN~ POTA.NGT MRE$,~NGT RB'NGT MTEM*PCD LA'PCD 4-MAR-!991 17:11. 251,750 3 926 0 000 6 055 131 000 1099 000 98 400 678 000 117 $0~ 60O 750 ~.'015 100'56 2s:oo li,547 97 '72~ 5~2.547 978,0 0 IDPHDTE Ib~:DTE IIRD,DTE SFLU,DTE TENS,DTE DT.SDT TT1SDT LTT1SDT SP SDT MRE$ SDT DRHO bDT b$ bDT 851 bDT 81RH bDT GR bDT HT£NbDT TNRACNb CNTCCNb TEN$~CNU SGR~NGT URAN:NGT C$,NGT PIAZ NGT MRE$,PCD SA PCD 3'971 4.0 216.8~I 5,160 4,o5: oo 100 00 678 O0 -24 6 CIMP DTE IFRE DTE IlXP DTE SP DTE MTE~ DTE DTL SPT TT2 $DT 5TT2 SDT GR SDT '0 0 ~3 HTEN 419 253 14~ 978 3 1898 4660 136 0 ! ,500 LU ,t25 $$2 ,852 bSRH O0 NPHI 476 NPOR 155 Cr?C bDT bDT bDT bDT bDT CNL tnb ,tNb 000 MRES,CNL 721 CGRNGT .t47 TENS~NGT 562 HTENNGT 023 GR'PCD 973 HTEN,PCD 724 ' 'IbM DTE 7:387 IFRE,DTE SFLU DTE '~,7 ,508 SP~DTE 83'1 8 TENS D?E 4650 000 MTEM.DTE llOi'O00 .PT SDT 82 500 DT:b;SDT .79,800 SDT :577 200 TT2,6DT bTT'I, bTT2'$DT 577'2§0 1~18800 1016;4 0 8P SDT MRE$ $DT 0 915 HTEN.$DT 302,:2~0 32 03~ GR'SDT ~S51::i,LDT !325 0~0 211,000 ~SS2*LDT 004 PAGEI !6 246,625 20,000 20,953 '24.016 303~750 99 900 489 600 985 600 ooo 000 4 574 400 750 37 ! 750 38 581 39 693 545 972 0 973 84 553 4 7 O0 976,, 40O 83 88 .1i01;~00. 3,660 ,259,~50 293,2,0 4670;000 26;~941 27..;6521 ,!057,548 0'9~6' 74' 8 8 4300;:000 471~,'390 ichlumberger Alas~a Computing Center IDOF,DTE IIR~,DTE SPAR DTE M~E$ DTE DT~N SDT ?T~ SDT LTT~ SDT TENS SDT DPHI LDT OL$ bDT LL bDT LSHV bDT bURH bDT MTEM bDT RTNR CNL RCNT CNb MTEM THOR NGT NT~M NGT SDEV.NGT TENS.PCD HDIA~PCD 7800 000 5 277 0 000 179 875 -999 250 0 922 8 800 79~ 600 600 ooo 16 120 -0 054 195 500 14~3 000 2221 146 375 3 154 2323288 95 438 i46375 I0 067 t55 753 1369 4690:000 t3 153 CIDP DTE XLD DTE IMQF DTE llX~ DTE GR DTE HTEN DTE DTLF SDT TT4 SDT LTT4 SDT MTEM SDT RHOB bDT Q$S LDT LIT~ bDT SSH¥ LD~ ¢~b! LDT NRESbDT TNPH,~CNb RCFT, CN~ ~TEN,.CNL POTA, NGT ~RES,~GT RB GT LA PCD DEPT SPAR. DTLN TT3 LTT3 TENS DPH! OhS LSHV TNR CNT GR THOR ~DEV HDIA DTE DTE DTE DTE SDT SPT SDT SDT LDT LDT bDT bDT bDT C~G C'NL CNb PCD 7700 000 5 535 0 000 ~68 ~25 -999 ~50 o 24 76 00 ' 00 5 O0 I65,85 1433'.i~0 {45,500 1t'{10 t54'665 ooo .2;978 CIDP,DTE IbD.,DTE XMGF,DTE GR-DTE HTEN DTE. DTbF SDT TX4 SDT ~TT4SDT MTEMSDT RHOBbDT QSS bDT GITH GDT SSHV bDT CAbl bDT MRES LD~ TNPHiCNb RCFT, CN~ CALICNb HTEN CNL ~RE$,NGT RBNGT MTE~.PCD LA.PCD 197.250 5.008 0 000 10 328 92 250 1088 000 84 200 618 400 {063 200 301 500 ~ 384 041 063 9~ 000 57 13 983~500 2'433 0'{~9 ,570 XDPH DTE Ib~ DTE IIRD DTE SFbU. DTE TENSDTE DT &DT TT1SDT LTT! SDT SP SDT MRESSDT DRHO bDT b8 bDT SSi ~D~ S%RH bDT ~GR bDT HTEN bDT TNRA CHh · CNTC CNL TENS CNb SGR NGT URAN NGT CS NGT P{AZ MRES SA P..D IDPH DTE 5 5 171 5 4585 88 6 0 9831 065 CIMP,DTE IFRE,DTE :~5 IlXD.DTE 574 SP.DTE 000 MTE~.DTE DT I00 S O0 TT~ DT SDT 400 LTT2 891 GR 250 882 92~ 43 TEN 500 NPHI ,$DT ,SDT SDT ,bDT ,bDT bDT GDT bDT CNb 541 CFTCCN~ 4690e000 · .NGT ~47 TEN$~NG~ 865; ' .NG~. :' DTE 5 {8~,~00 0" 44 :IbM · 000 XIRD SFbU 8,070 02.500 TENS {il{'.O00 DT 200 GTT:I~ {034,400 SP 299.750 MR. ES DRHO oo 000 $1RH :9~4 'GR 58 941 7~2 TNRA CNTC~ 9~i'9'4 TENS ,500 :SGR~ ;474 URAN ,644 PIAZ 145'500 MRES Ii'36'7 SA DTE 163, DTE 6 DTE 4565 SDT 84 SDT 599 SDT 1033 SDT, ~DT~ bDT~ CNb: NGT NGT ~CD 500 979 'bSRH 870;2 4 HTEN 309,7~5 GR 40~. 59.' IFRE,D~E 750 IIXD,D~E 148 SP,DTE 000 600 984 SDT 924 ~TEN;SDT ~D~ PAGEI 17 189 395 20 000 · 18 219 -29 891 301 500 87 300 450 400 887 200 92 25O i088 000 4 238 360 750 349 250 2 227 4690 000 28 142 98 29 770 0 982 75 718 4280 000 4736 ~79 · 95 38 983 500 500 .~,469 · 29 , 50 84,600 2e5.0 ! {' 0 0 0 3r~975 30 250 34i:000 ',,326 4575,000 963.937 0 994 4220 485780~ 100.3113 995 .500 ,IS Tape Verification Listing ;¢hlumperger AlasKa Computing Center DEPT IDQF,DTE IIRM,DTE S~AR,DTE MRES,D?E DTLN,SDT TT3,SDT LTT3,SDT TENS,SDT DPHX,bDT OLS,LDT LL,LDT LSHV LDT LURH LDT STEM LDT RTNR CN5 RCNTCNL STEM CNL THOR NGT STEM NGT SDEV NGT TENS PCD HDIA PCD 0 932 106 800 899 600 1447 200 4375 000 10 995 -0 130 50 1434 O0 2453 145 3751 3558 2273 768 115 563 145 375 10 954 !53450 4445 000 11 275 CIDP DTE ILO DTE IMQF DTE IIXN DTE GR DTE HTEN DTE DTLF SDT TT4 SDT LTT4 MDT MTEM SDT RHOB LOT OSSLDT LITN bDT SSHVLDT CALILDT MRES~LDT TNPH, CNL RCFTiCNL :CALI, CNL HTEN, CNL POTA~NGT NRE$~NGT RB NGT STEM PCD LA PCD DEPT I~PH IDOF SPA} DTLN TT3 LTT3 TENS DPHI LSHV bUR}4 RTNR G~ ~TE~ SDEV TENS HDIA DTg DTE DTE DTE DTE SDT SDT SDT SDT LDT LDT LDT LDT LDT 5DT CNL PCD PCD 7500,000 6 789 0 000 128 375 -999 250 0 938 300 8~ 000 75 !160 400 4380 000 !2 139;OO0 1434,000 2124 ~4450 3 571 2496 935 94250 250· !"5:7 000 12,896 CIDP,DTE ISD,DTE IMQF,DTE IIXMDTE GR DTE HTEN DTE. DTLF SDT TT4 SDT LTT4 SDT NTEMSDT RHOBLDT OS~ bDT LIT ,LDT :SSHVLDT CALI bDT MRE$~LDT T.NP~;CNb CAL!CNb HTEN,CNL: POTA NGT ~RES~NGT RBiNGT MTEN~PCD LA PCD 4,,'{~AR'1991 17:11 161 875 6 090 0 000 4 387 112 813 t104 000 105 800 688 400 1232400 298 000 2 469 0 038 000 703 719 17 10 03 947 O0 I ~ ~5 9 5O ~ 000 461 :93 438 11:18 ooo 78 800 582 800 296 · ,477 0~999 '4~7 , Oi..O 0 44,2 0 't1,313 IDPH DTE IIRD DTE SFLU DTE TENS DTE DT SDT TT~ SDT LTT 1 SDT SP SDT NRES,SDT DRHO,~DT LS,LDT SS1 bDT S1RH bDT GR bDT MTEN TNRA CNL CNTC CNL,: TENS CNL 8GR NGT URAN NGT CS NGT P1AZ NT~ NRES P~D~: SA PCD IDPH,DTE XLM,DTE IIRD,DTE. ~FLU,DTE,i TENS,DTE~ DT~SDTI TT!'$DT' LTTI,$DT~ SP,SDT! MRES,$DT LS,,LDTi $2RH:LDT'i GR, bDT' HTEN TNRA TENS CNb~ SGRNGT URAN NGT CS NGT P~AZNGT ~RESPCD SAiPCD:, 6 6 142 8 4375 108 692 1232 =26 0 0 255 195 2 947 3 2175 4445 3 125 72 CXMP 109 SP 000 MTEM lO0 DTL O00 TT2 000 LTT2 703 GR 32 HTEN 8 LSRH 6 3 TENS 00 DTE DTE DTE DTE DTE SDT SDT SOT SOT SDT bDT LOT bDT LDT LDT 20~ ~POR;CNL 40 FTC-CN5 000 NRES.,CNL ~98 CGR,NGT · 178 TENS,NGT 520 HTEN~NGT 098 GR,PCD. 988 HTEN*PCD 525 4380 82 582 1008 0 0 69 957 CINP :348 IIXD 50 IFRE .86 se 000 ~TE~ 000 400 ??2 469 938 I PEF '0~0 LU i~50 SS2 83 i094:150 TENS 21:i000 NPH,I ~RES ~ HTEN 9 ~TEN DTE DTE DTE DTE DTE SDT SDT ~DT 5DT DT CN5 NGT PAGEI 18 119 000 0 000 -26 298 000 107 300 482 000 1021600 112 813 1104 000 4 414 250 125 269 000 4445 3449! 34758 707 999 4030 O0 4773 632 1! 147o: 250 2 000 1 375 ,,326 469 296 750 ,;o° . oo 000 847600 9348 0 ~. 0 I i t 8 281, 70 2 45~5000 I~: 926408 907 O, 999 80504 ,4055000 ~SO !022 ~00 Tape verification bis!trig ;Chlumberqer AlasKa Computin~ Center DEPT !MPH~DTE IOQF.DTE IIRM.DTE SPAR.DTE MRES.DTE DTLN,SDT TT3,SDT LTT3,SDT TENS,SOT DPHI.LOT QLS.LDT LL ~DT LSHV ~DT LURH ~DT ~TE~ RT~R CNL RCNT CNL THOR NGT MTEN NGT SDEM NgT TENS PCD HDIA PCD DEPT IMPB DTE XIR~,DTE: SPA~DTE NRES,DTE DTLN SDT' TT3 SDT. LTT3 SDT · TENS SDT DPH! bDT OLd,bDT Lb'bDT LSHV,LDT LUR~,LDT NTEM~LDT RTNR~CNL RCNTiCNL GR CNL THOR NGT MTE~ NGT TE'.$ PCD ~DIA PCD 7400 000 0 000 128!125 -999 250 0.933 78.700 738,000 1149 200 4290 000 9 90 000i 127 438 1434 000 2 498 302~ 2 80 625 143 625 9 562 ~5~ ~58 000 13'096 7300,000 9'398 o,ooo 99'3~3 77,800 747'.200 t 74,800 440~,000 ~'0,006 12~,750 43-000 4 ;ooo 470 75O 1~660 2~036 4420.000 t2 729 CIDP DTE ILD:DTE IMQF.DTE IIX~ DTE GR DTE HTEN DTE DTLF SDT TT4.SDT LTT4,SDT ~TEM-SDT RHOB.LDT QSS'~DT LITH.LDT SSHV.LDT CALl bDT MRES bDT TNPH CNL RCFT CALICNL ~TEN CNL~ POTA.NGT MRES.NGT RB.NGT MTE~PCD LA.PCD IbD'DTE I~OF.DTE IIXM;DTE GR.DTE HTEN,DTE DTLF,SDT~ LTT4'SDT' MTEH,SDT~ RHOB,LDT: OSS~LDT !TH~LDT CALI'.LDT MRES:'LDT TNPH*CNb ~RCFT,CNb CALl, Nb POTA~NGT MRE$~NGT~ RBi, NGT~ MTE~,PCD LA'PCD 4,,MAR-!99! !7=11 116.188 '8 352 0 84 438 1094000 78 500 596 800 990 400 297 50 2 0 014 71 375 1325 000 12:836 1;004 25,725 ~082,563~ 307 026 143 6 5 1! 570 ],.14 63 8 o OOoo 10!4 400 "29? 25o 5 i [ 0o2o ! 0 750 IDPH,DTE. ILM,DTE IIRD, DTEi SFLU,DTE TENS.DTE DT.SDT TTI.SDT LTT1.SDT SP,SDT MRES.SDT DRHO.LDT LS,LDT SSX,LDT RH,LDT SIGR,LDT HTEN.LDT TNRA CNL 'CNTC CNL~ TENS CNL: SGR NGT: URAN C$ ~GT · PiAZ NGT MRES PCD: SAPCD~ !DPH,DTE' IL~,DTE .IIRD,DTE~ SFLU~DTE. TEN$,OTE!~ pT,SOT~ TT:t'~SDT ~TT1,SDTi: SP.,SDT~ DRHO bDTI SSX .bDT'~: S~RH LDT~ GR bDT HTENLDT TNRAiCNL~i CNTCiCNL~ TENS~CN~~, iUR~NiNGT: CS~NGT. PiAZ'NGT! MRES*PCD, SA';PCD: 8 602 7 37' FRE DTE 105 311 I ? 547 !IXD!DIE SP. DTE 42?0 000 MTEM. DTE 9 000 597 600 TTb. ~DT 984 800 LTT2 -46 375 GR SDT 0 933 HTEN -0 00~ PEF ~DT 244 500 TENS DT 9~,000 ,382 CGRNGT 2-966 TENS NGT 8881492 NTEN HTEN PCD ~.525 .9'523. IFRE~DTE [05'.~88 [ZXDi, DTE [~'344 SP,DTE 4405,000 MXE -DTE 78,800' 586.'800 12~3i600 LTT2,~SDT 45,6.25.: GR~SDT ~0'94~. HTEN,·SDT 000 ~ L~,LDT 236 55~: PEF';LDT 1'89 000 SS2,LDT 2490 119r938 TE:NS,LD~ 978 500 NPHI,CNt 2837: 2857 0~,3:: CFTC*CNL: 4420000~ · 4 ~,39 TENS,.NG~ ,883,~626 H~EN~NGT 1.,~:89 G:R'PCD' !~000 HTEN,PCD .525 PAGE; 128 125 20 000 9 938 -46 375 297 750 78 600 432 400 830,000 84.438 1094.000 3 221 234 250 26~ 000 2 488 4465 000 23 858 26 064 I~19 306 t 004 69 233 4085 000 4767 314 80 625 !027 000 206~I3 20 O0 9 969 '-45 625 297 250 78 600 424 000 85O 000 ::I!!0i2130 ~50 44~0~000 '824! :2.8~42 t026 24 ! 000 ? 5oo !9 Tape Verification Listing ,chlumberger AlasKa CompUting Center DEPT, IMPH,D?E IDOF,D?E IIRM*DTE SPAR DTE ~RES DTE P~LN SPT TT3 SDT hTT 3. SDT TENS SDT D~H! LDT OLS.LDT LL.LDT LSHV LDT LURH LDT NTEM LDT RTNR CNb RCNT CN~ GR.CNL NTEN,CNL THOR.NGT ~TEN,~NGT NS'PCD HDIa,PCD DEPT,~. I~PH,DTE: 8PAR*DTE DTLN,SDT TT3,SDT LTT~,SDT TEN ~DT ~LS LDT LL LDT ~HV:LDT 5URHLDT NTE~ RCNT.CNL G~.CN~ ~TE~ CNL~ THORNGT ~DBV~NGT TENS PCO HDIA PCD 7200.000 5.590 0,000 176.000 '999,250 0.949 85'400 758,400 ~198,000 ,376 -0,010 161,750 1433,000 2 354 142 375 2 3061 286 122 063 142 3~5 13 148 ~39: 1,809 4345*000 12'044 7!00 000 9 258 0 000 · 115 063 -999 950 0 959 77800 74~.800 800 ooo 6~58 0005 2,545 140,875 330~.430 84'~50 8,989 .~47;416 4280,000 t3,;18t CIDP.*DTE ILD.DTE IMQF,DTE IIXM.DTE GR.DTE HTEN DTE DT~F SDT TT4 ~DT LTT4 SDT MTEN SDT RHOB bDT QSS ~DT ~ITH ~DT SSHV ~DT CALl LDT ~RESLDT TNPH~CN~ RCFTi.CN~ CALI, CN~ HTEN, CN~ POTAiNGT ~RE$~NGT RB:N!T ~TE~iP D CIDPi~DTE ..I~DiDTE IM~.DTE IIX~DTE GR, DTE HTENiDTE DTLF~$DT TT4~$DT bTT41$DT ~TE~,SDT RHOB. LDT Q$$,LDT 5ITH. LDT SSH¥,SDT CAL~ LDT PRESLDT TNPH~CNL RCFT. CNL CALI. CNL NTEN, CNL POTA<NGT MRESNGT RB~NGT ~TEM PCD ~A PCD 4-MAR-t99! 17:11 17! 625 5i730 0 000 8 586 I10 438 !105 000 85 200 60 I02~ 000 4OO 29~ 7 0 o 16 85 13~ 000 516 2~ 008 642 I04~ 590 1012 516 5oo 46 9O 75 375 116 85 0 0'0~4' 900 57 000 I007~ 0 ~ 292 ~ 0 2.g~08 0 0~1 62 1 1324 0000 12 6 138 6 ! IDPH, DTE IL~.DTE IIRD,DTE SFLU,DTE TENS.DTE DT,SDT TTI,SDT LTTI,SDT SP.,$DT MRES,SDT DRHO,LDT LS,LDT SS1,LDT $1RH LDT GR LDT HTEN LDT TNRA CNL CNTC CNL TENS CNL SGR NGT URAN,NGT CS,NGT P1AZ,NGT MRES:,PCD SA,PCD ! DPH DTE IL~. DTE IIRD DTE SFLU DTE TENS DTE DT GDT TTI.SDT LTT~,, SDT S , SDT ~RE$,SDT DR ~O, LDT LS 5DT 8$1 ~DT S1 RH LDT GR 5DT HTEN TNRA CNIC CN5 TENS CN'~ URANcs IgZ NGT RES PCD SA,PCD 5 151 6 4350 86 605 0 0 122, 2693 4345: 1 5.820 C/~P.DTE 344 IFRE.DTE 250 IlXD.DTE 270 SP.DTE 000 NTEM.DTE 300 DTL.$DT 600 TT~,SDT 800 LTT 88 GR,$DT ~49 HTEN,SDT 032 PEF,LDT .LDT 000 LU 750 S$2 bDT O0 CNL 552 CNL 003 CNL 000 CNL 343 NGT 51 PCP 008 PCD LSR TEN~ NPHI NPOR CFTC MRE$ CGR TENS GR HTEN 669 602 CI~P: ,06~ IIX 000 4285 80 575 995 -44 0 0 22.6. 186 '2 84 3!35 882 ! NTE~: 500 DTL 200 TT2 600 LTT2 625 GR 959 HTEN 002 PEr 500 GU 00.0 5,29 LSRH, 250 TENS 500 NPH[ 277 NPOR 55~ CFTC 000 MRE$ 77 CGR ~41 TENS 168 GR · 0.28 HTEN 556 ,DTE ,DTE DTE DTE SDT SDT SDT SDT SDT LDT LDT LDT LDT DT NGT CT PCD PCD PAGE,~ 20 178 750 20 000 14 805 -37 188 294 750 85 600 433 200. 860 400 110 438 1105 000 3 291 29O 750 3OO 000 2 346 4345 000 24 171 24 070 1034 446 1 008 95 246 4015,000 4778.~30 122, 63 I012,~500 107 938 20 O0 I ~64 25 80 700 427 200 840 800 25 89 ~0 1125 0 3 178 219 375 257 500 2 535 8~ 000 6! 114 394 000 4767 270 84 250 98i 500 Tape veria~ication bi,t~ncj ii~h~moetget laSKa Computing Center DEPT. I~PH'DTE IDQF,DTE IIRMeDTE SPAR DTE NRE$:DTE DTbS,SDT TT3.$DT LTT3,$DT TENS*SDT DPHZ.LDT OhS bDT Lb bDT LSHV bDT bURN bDT MTEM bDT RTNR CNL RCNT:CNb GR CNL ~TE~ CNL THOR NGT MTEM NGT SDEV ~GT TENS PCD HDIA PCD 7000 000 5 121 0 000 183 500 -999 250 0'970 87,100 768,400 42 ,000 5.606 '-0,0~0 115, 8 ! 14 125 i67 2?35.2?8 122,438 i40,125 12,698 146.281 ~44 42~!!7g5 CIDP.DTE ILD DTE IMOFDTE IIXM DTE GR DTE HTEN DTE DTbF SDT TT4 SDT bTT4 MTEM.SDT RHOB bDT QS$ bDT blTH bDT SSHV bDT MRES bDT TNPH,CNb RCFT,CN5 CALI.CNL HTEN'CNL POTAjNGT MRES, NGT RB,NGT MTEM,PCD LA*PCD DEPT. !.DOF'DTE iIRM,DTE SPAR'DTE ~RES;DTE DTLN;$DT -TT3,SDT bTT3'SDT DpH!..LDT~ Ob$,LDT Lb bDT L&HV bDT LURH bDT MTEM bDT RTNRCNL RCNT CNb, GR CNL ~TE~C:Nb THOR NGT MTEM NGT SDEV NGT TENS PCD HDIA PCD 6900,000 4,05* 0000 .233 500 999 250 0 964 · 92 400 884:400 .25 450 '0 002 ~43 O0 50 3 836 igoi 564 i3..,750 ~2~07 2,564 41~5'000 14'879 CIDPDTE. 'ILD. DTE 'IMOF DTE iIX~ DTE GR. DTE HTEN, PTE DTLF SDT. TT4 SDT LTT4 SDT MTEMSDT RHOB bDT OS$ bDT blTH bDT SS~V LOT CALILDT MRES bDT TNPH CNL RCFT CNb CALI CNL HTEN~CNb POTANGT MRE$~NGT RBNGT~ ~TE~PCD GA PCD 4,,'MAR-I991. 17:1{ 18~ 375 387 0 000 10~ 891 688 87 000 606.000 *056,400 290.500 2,558 0.025 6i 844 1324 000 12 172 3~ 032 302 796 365 12 72 967 ~00 1!,156 IDPH,DTE ILM,DTE I'IRD,DTE SFLU;DTE TEN$;DTE DT.$DT TTI.$DT LTTI,SDT SP,SDT MRES.SDT DRHO,bDT $1RH'LDT GR'LDT HTEN~LDT TNRA,CNL CNTC,CNL TENS,CNL SGR.NGT URAN.'NGT C$;NGT P1AZ,NGT MRES,PCD SAePCD IDPH,DTE IL~eDTE IIRD.DTE ~'000 !2 414~ SF'LU DTE O0 500 TENS DTE: 195 0 0 DT SDT ~0 0 :92 800 TTI SDT 689 200 LTTI SDT 'I16 200 SP'SDT; 250 M~ES :SOT~ 291:1230 D.HO ~DT 019 bS bDT 109~438 SSi bDT !324,000 :S1RH.bDT 15, GR~b.DT **!~t HTEN,bDT 36,27~ TNRA~CNbl 543,140 CNTC~CNb~ :141 TENS;C:Nb I39,75~ P!AZ'NGT MRES,PCD~ 12,563 $A,PCD · · 5:480 CI~P.DTE 16 , IIXD,DTE 5.~51 SP.DTE 4260 000 MTEM.DTE 88 400 DTL.SDT 607 200 TT2.SDT 1058 800 5TT2.SDT -26 078 GR.SDT 0 970 HTEN.SDT 0 018 PEF.LDT 225 .750 LU.LDT 193 250 552 LDT 2 473 LSRH bDT 122 438 TENS bDT 967.000 NPHI CNb 3.062 NPOR s7§:ooo 427 MRES.CNL 562 TEN$,NGT 882;359 HTEN,~GT 297,166 GRiPCD 1'032 HTEN;PCD , *'639 4'008 CIMP'DTE 4,:0t2 iFRE:.DTE 214,750 I!XD'DTE 4 258 SP,DTE 4!20 000 MTEM,DTE 94 DTb':$DT 687 TT2;SDT 1158 b:TT2,~DT ''1~ GR.,SDT HTZN' 0069 per. 422 000 227 875 $5:2, 2~006 bSRH~ lli,O00 TENS, 949,500 NP~I. 3.362 NPOR 1808,98:6 CFTC 4$35:,00.0 MRE~ 111.570 CGR 3.858 TENS 88*'82! HTEN 352,237 GR 1,028 2'316 900 200 80O 53 ~6t SDT bDT bDT bDT LDT bDT CN ~¢~ PAGEI 195 125 20 000 17 172 -16 078 290 500 87 700 457 200 867 600 101 688 *082 000 3 213 220 625 265 500 2 539 4270 000 31, 566 30 954 876 897 1032 3 87 310 9 000 246'625 2O 000. 25 750 -18 531 290 i~O 95 0 50 000 99~ 600 4~082 '387,500 338.~250 2'160 4135,:000 35,259 36,378 539~,796 !:;028 .83,4!2. 18~0'000 7 9,127 It1,000 949,500 ,IS ?aOe Verification Listinq ,Ch.lumberger AlaSka CompUtin~ Center DEPT,: IMPH DTE IOOF DTE IIRM DTE SPAR DTE MRES DTE DTLN SOT TT3 SOT LTT] SOT TENS SDT DPHI bDT OLS LOT LL bDT LSHV LOT LURH LOT ~TE~ bDT RCNT~CNL GR,CNL MTEM,¢NL THOR,NGT ~TE~,NGT S~EV,NGT TENS,PCD HDIA,PCD 6800,000 4,316 0 000 204 500 -999 250 0 973 82 784 000 ~20~600 4055000 18 127 -0 000 2328 139~75 3 800 2267 17 875 ~39 3?5 1] 674 ~4 36O ~3 ClDP DTE ILO DTE IMOF DTE !IXM DTE GRDTE HTEN DTE DTLF BDT TT4 SOT bTT4 SOT MTEM SDT RHOB bDT O$$bDT LITH,bDT SSHV bDT CALl bDT MRE$ bDT TNPH~CNb CALl b HTENCNb POTANGT MRESNGT RB NGT MTEM~.PCD LA PCD DEPT, IDQF DTE I!RM DTE SPAR DTE NRES DTE DTLN'$DT TT3,'.SDT: LTT3~$DT T~NS,.SDT OhS bDT LL bDT LURH bDT MTE~ bDT RCNT CNL GRCNL ~T~ CNL THO~ NGT SDEV,NGT T~NS;PCD .DIA'~CD 6700 000 5 6O9 0 000 5 0 2 85 ~00 8 2 000 12~2 000 3995 000 ,18 738 ,8i!00650g '432 137 875 2 828 2437 998 .~09 938 ~37 875 4 2,132 .0g0 000 14 160 ClDP DTE IbD DTE IMQF DTE I,IXM DTE GRDTE HTEN,DTE DTbFSDT TT4:&DT: bTT4:~DT RHO~'bDT blaH'bDT SS'.V.LDT CALl bDT ~RESbDT TNPHCNb RCFT,:CNL CALI:CNL HTEN,CNb POTA,NGT MRESiNGT RBiNGT ~TEM~PCD LA PCD 4'MAR-lg9! 17:1~ 231 !5 4 ,6 o 102 125 1114 000 81 6OO 611 200 !050 ~0 289 iO 0 ¢ ~0 0 I 5t6 IDPH DTE- Ib~ DTE IIRD DTE SFLU DTE TENS DTE DT SOT TT1 SOT LTT1 SOT SP SDT NRE$ SOT DRHO:bDT ~$ bDT 81R~ LOT LOT GR bDT HTEN LOT~ TNRA CNL CNTC CNb SGR'NGT URAN;NGT C$.NGT P~AZ.NGT MRES,PCD~ SA,PCD 4 324 CI~P DTE 4 590 IFRE DTE 198 4 4055 86 10 0 104] 2386 43~5 250 IIXD 602 SP 000 MTEM 000 OTb 000 IIi 600 bTT 688 GR ~50 LU 875 SS2 242 bSRH 875 TENS 000 NPH! 394 NPOR 675 CFTC: 000 ~RES 982 CGR 079 TENS 091 HTEN 30 0~7 GR HTEN DTE DTE DTE SOT BDT SOT SOT ,bDT ,bDT ,LOT ,bDT ~DT HG~ NGT NGT PCD PCD 5 !392 000 TEN$;DTE 3995 000 TTi,,:SDT, 6§~ :800 TT2'SDT =3 on0 DT%SOT 85 000 OTb'SOT bTT2 LTT'I~SDT: 22 000 o 2'j:34i DRHO;bDTi ,,.6 PEF bDT 0,0~5 LS:,bDT: ~47,500 LU LOT ' '13;g~i '::GR*bDT: '~ ~2; TENSNPH~'bDTcNL 1,05§ HTEN~,bDT'i, . 28,763. TNRA:!,CNbi 2'87! CFTC 942,00.0 URAN~ NGT ~ :3~660 TENS, NGT 2~2n7 &GR: NGT 103.516 CGR NGT 0 ~ :C$ NGT 04,374 HTEN NGT ~7 4~4 PIAZ NGT 60~659 GR PCD 13 8~5 MRES: PCD 1,0 5 HTEN PCD 1 g~4 SA PCD 2.il 6 PAGEI 22 2311375 2O 000 22 031 250 84 1 O0 45~ 200 882 800 10 125 ~11~ 000 ~ 5O6 30 0 ~0~ O0 5O0 747 ~66 30,3 ~7. 87 104300~ 20 000 21 234 '"21 547 287 5'00 85 30O 21 .680 go: 68 1122; :000 3'801 322 ~ 250 3 ! 0,2 5 0 27:985 '761' . 055 ~7 800 O0 4781. ~$8 I:o9 ~ch.,lommerger AlasKa Computing Center DEPT I~P~ DTE I~QF DTE I!RM DTE SPAR DTE M~ES DTE DT~N SDT TENS DPH! ~DT QLS ~DT LL ~DT LSHV LD? LUR~ LDT M~E~ ~DT RTNR RCNT CNL GR CN6 MTEM CNL THOR NOT ~T£M NGT SD£V NGT TEN8 PCD HDIA PCD 6600 000 4:!72 0,000 '. ,250 0 988 8 0 77~ 10 6O0 4OO ooo 4 8 O68 0 010 12] 125 000 143½ 518 137 000 2834 3 88 104 ~0 137 0 I 632 4050 000 t2 686 CIDP DTE IbD DTE IMOF DTE XIXM DTE GRDTE HTEN DTE DTLF SDT TT4 SDT LTT4 SDT MTEM SDT RHOB bDT QSS LDT GITH bDT $SHV bDT CAb! bDT MRE~ bDT HTEN POTA NGT MRE$ NGT RB NOT MT£M PCD LA PCD DEPT fDOF SPAR MAES DTbN ?T3 LTT3 TENS RTNR RCNT GR THOR ~TE~ SDEI DTE DTE DTE DTE DTE SDT SDT SDT LDT LDT GDT LDT LDT LDT CNL 6500 000 4 3 o .~34 000 99 ~50 0 94 87 100 805 600 1240 800 3965 000 10 999 -0 001 14 000 475 268; 05 000 13 677 ClDP DTE ILD DTE IMOF DTE IIXM DTE GRDTE HTEN~DTE DTLF ~DT TT4 SDT LTT4~SDT MTEM,SDT RHOB,~bDT QSS,,LDT LITH, LDT SSHV~LDT CAL! bDT MRES bDT TNPN CNb RCFT CN.L CAL! CNL HTEN POTA~NGT ~RE$ NGT RB NGT ~TEM PCD LA PCD 4-MAR-1991 I7:11 236 4 0 0 251 3 '8? 1076 0 750 203 000 47 000 ~00 40O 6O0 5OO 015 000 062 44 O0 24 000 04? 000 ~0 00! 0 752 498 000 249 170 XDPH,DTE ILg,DTE liRD,DTE. SFLU,DTE TEN$,DTE DT,SDT TT! SOT LTT! SDT 5P SDT MRES,$DT DRHO, bDT LS bDT SS1 GDT StRH bDT GR HTEN DT TNRA CNTC, CN~ TENS GT URAN NGT CS NGT PIAZ NGT MRES PCD SA PCD IDPH, DTE IL~,,DTE IXRD, DTE FLU. DTE TENS DTE.. DT~SDT TT! 5DT SDT' MRES DRHO GDT b& ~D? $IRH ~DT GR bDT HTEN bDT TNRA CNTC Nb TENS SGR GT URAN NGT CS NGT ~IAZ NGT ~RE$ PCD 4 223 CIPIP.DTE 4 238 IFRE DTE 201 250 DTE 4 4105 85 612 1034 0 236 !89 2 ~9 4050 !06 IIXD 047 SP 000 MTEN 300 DTL 800 TT2 000 LTT2 656 GR 988 HTEN 006 PEr 875 GU 250 882 .488 LSRH 188 TENS 000 NPH! 663 NPOR 474 CFTC :000 MRE$ 407 CGR 3 ,586 TENS 905~444 HTEN 191,824 GR · ' 062 1,639 DTE DTE BDT SDT SDT SDT bDT bDT LDT bDT bDT C.NL CNL NGT NGT NGT PCD HTEN PCD 3 CI~P · 004 IFRE ~,980 21,125 IlXO MTEM DTE DTE DTE DTE DTE 862900 DTL SDT 642'400 TT2 gDT 1016'400 LTT2 SOT -0,859 GR SDT 0'994 HTEN '5DT O,OOi PEr bDT ~2~875 GU LDT .2:.46~ LSRH LDT ~'625 TENS LDT 4'000 NPHI;CNb 4 55'? .!!'7'iJ~ CGR'NGT :5'ili TEN.S:;NGT 90~'~ .TEN.NGT 67 HTEN::,~CD PAGEI 23 239 500 °°o -19 6 285 85 200 44? 200 874 800 'Igl: °ooo 2,785 227 625 265 750 2 510 4050 000 25152 480S~476 .104~188 939~000 248,375 20,000 25,8!3 -20~859 284,750 ,87'200 460"000 910,000 105,500 .li08.;000 274'500 2467 4055 000 30 :!I60 30 898 ~21 .7~ 067 791 3670 000 4801'146 1~' 625 94 000 Tape Verlficat!on bistinQ ;chlumbergerAlaska ¢omputlnq Center DEPT'DTE IDQF,DTE I)RM,DTE SPAR,DTE MRE$,DTE DTbN SDT TT3~SDT LTT~oSDT TENS,SDT DPHX,bDT OLS,LDT Lb,bDT LSHV bDT LURH LDT MTEM bDT RCNT G~ CNL MTEM tnb THOR NGT ~TE~.~GT SDEV,NGT HD!~,PCD 6400 000 5 266 0 000 181 000 -999 250 0 998 81 90O 768 000 117 000 403~ 000 12 135 0 004 136 $00 i431 000 2 457 135 75O 2 9~ 2843 91 688 135750 10 3!0 139 04O 0 900 4010 000 13 ~85 CIDPDTE ILD DTE IMOF DTE IIXM DTE GR DTE HTEN DTE DTLF MDT TT4 SDT ~TT4 SDT MTEM SDT RHOB bDT OSS.LDT ~!TH~LDT SSHV,bDT CALl,bDT MRESLDT TNPH;,CNL RCFT:.CNL CALI,~CNL HTEN.CN~ POTAiNGT MRES, NGT RBi.NGT: ~TEM, PCD LA PCD DEPT., XDOF'DTE IIRM.,DTE SPAR DTE ~RE$ DTE DTSN SDT TT3 SDT LTT3 SDT TENS'$DT DPH! bDT LL LDT bSMV ~DT LUR~ bDT MTEM ~DT G~CN~ ~TE~,C~ THOR:NGT ~TEM NGT SDEV NGT TENS ~CD ~D!A ~CD 6300 0 529 *999 1 97 867 !350. 3895. 14 0 147 .1430 134 0 000 778 000 000 25O 001 90O 20O 000 000 719 o i 4 750 :000 420 ~50 O34 074 125 ..750 501 000 CIDP DTE iLDDTE I'MOF DTE I. IXM DTE GR DTE HTEN DTE DTLFSDT TT4=SDT. LTT4SDT~ RHOB~DT QSS~bDT TNPH'CN~ RCFTi'CN~ NTENiCN~ POTA:;NGT! MRES,NGT RB,N!T 4-MAR-1991' 17111 192,875 O0 10 547 82 875 1119 000 BO 800 603 200 1026 400 282 750 2 45O 0 011 81 250 0 0 075 27 287 1042 067 .12 703 975 ~00 !, ~8 °.1 ,56 1,516 ,500 54~ ooo 13! 375 1080 000 98 700 684 800 !169 IDPH.DTE IL~.DTE IIRD'DTE SFbU.DTE TEN$,DTE DT.$DT TT!,SDT LTTi.SDT SP,SDT MRES.SDT DRHO.bDT bS bDT SS1 bDT SIRH bDT GR bDT HTEN bDT TNRA CN5 CNTC CNh TENS CNL SGR NGT URAN NGT CS NGT' P!AZ NGT MRES PCD SA PCD IDPH DTE I~ DTE: XXR DTE SFL~ ' ,OTE: TEN~DTE. DT:.~SDT TT! SDT bTT1SDT~ SP SDT 600 500 MR, ES SDT 282 407 DRHO ~LDT 0,003:' L$*:~DT · 000 GR'~bDT: !~4~6 SXRH'~DT: '~755 TNR.A~CNb~ 75 :~439 CNTC.CNh= '500 SGR'NGT '953 URAN.,N~~ "io,i9 cs, 335,560 .PI. AiZ~NGT= i~4,~50 ~RES,P D. !!'203 SA,P~D' 5.180 O0 5 109 4030 83 604 1025 ~0~ ~'/~0 4010 999 316 ! CXMP'*DTE IFRE.DTE IIXD.DTE SP,DTE 000 MTEM.DTE 000 DTL,SDT 800 TT2.SDT 600 LTT2,SDT HTEN.SDT 001 PEF 000 250 455 LSRH 688 TENS 500 NPHI .743 NPOR 025 CFTC 000 MRES 974 CGR 491 TENS ::780 HTEN 059 OR 075: HTEN 669 bDT ,bDT ,bDT ,LOT ,bDT NGT NGT NGT PCD ~CD 1~841 CZMP*DTE } *.~33: IFRE,DTE 43 ,~50 XIXD,DTE ,,.931 SP.DTE 389!'000 MTEM,DTE 10 .t00 DTL SDT 68 ':000 TT2:$DT II6~.200 LTT2;$DT ~2 :.750 GR.'~DT 2402: 900~ 330 'I 000 ,500 ~007 .~48 · HTEN 3 HTEN ' HTEN-$DT PEF bDT bU ~'DT S82 'LSRH bDT NP~i CNb NPORCNL CFT¢~CNL ,CNL NGT :PCP PCD PAGE{. 24 189,750 20,000 - .750 282 750 82 700 435 200 868 000 8~ 875 11! 000 ?29 248 750 270 26 28 488 1036 404 I ~075 66'4~ 0 000 s. oo,o 65 00:0 -24750 :28! 500 99 600 475 600 972 400 13!. 375 1080 ooo 2 633 · 30 776 79:~ 632 ~0 4773 93! :125 ~00 ;chlumbergerAlaska Computing Center 4-MAR-199! I7:11 25 DEPT ~ IDOF DTE fIRM DTE ~PAR DTE ~RES DTE DTLN ~TT3 SDT TENS SDT DPH! LDT ~.HV ~DT ~URH ~DT MTEM bDT RTNR CNL RCNT CNb MTEM CN~ THOR NGT MTEMNGT SD£V NGT T£NSPCD HDIA PCD DEPT !DOF DTE !IR~ DT~ ~PAR DTE MRE$ DTE TT~ DPt! ~DT LUR bDT ~TE~ RCNT MTGR CNb ~NOR NGT MT~M~NGT T~NS~CD HDIA~PCD 6200 000 4 445 0 000 21 000 '9993 250 888 800 136~ 0 o O0 .o - 217 250 ! 429 000 1936 83 104 25O 133 750 0 408 3890 000 14 208 6100000 5004 0 000 .191 7~0 99~ 250 8~ 019 600 852 000 65 000 !4 0.00 tO7 500 133:~250 ClDP DTE IbD DTE IMQF DTE IlX~ DTE GR DTE HTENDTE DTbF 8DT TT4 SDT bTT4.$DT MTEMSDT RHOBbD~ LIT~ ~DT S~HV~bDT CALI, LDT MRE$,.~DT TNPH,~CNL RCFT~¢N~ HTEN~CNb ~OTA~NGT MRE$,NGT RB,NGT ~TEN'PCD LA,PCD CIDP'DTE IbD,DTE IMOFeDTE IIX~,DTE GR*DTE HTENiDTE DTbF. SDT TT4~SDT LTT4. SDT RHOB. bDT QSS;GDT 'GiTH'LDT SSHV,hDT MRESbDT TNPH CNb RCFT~¢Nb HTENCNL POTANGT MRES NGT RBNGT ~TEM~PCD LA PCD 220 750 4 480 0 000 78 li 104 !117 000 92 700 698 ~00 115i i00 280 )00 !48 115 1323 14 t8 958 ~00 2 ~25 0 1~8 IDPH DTE IbM DTE IIRD DTE SFbU DTE TENS DTE DT SDT MRE$ SDT DRHO bDT kS bDT SSt LOT 8~RH bDT GR bDT HTEN bDT TNRA CNb TENS SGRNGT URAN NGT P~AZNGT NRE$~PCD SA PCO: 4 4 3885 94 OoO 118 IFRE 750 ZIXD 0 MTE~ 900 800 800 LTT 2~9 GR 01~ HTEN O7 O0 DTE DTE ~DTE ,DTE ,DTE ,SPT :SDT ,SOT PEF DT 413 bU ~DT 228 000 S$2.bO, 2 014 bSR DT 104 25~ TEN~'L 958 NPHIi{NL '3 i~O NPOR 1900 39 CFTC ,7.2! CGR,NG~ · .74 TEN$'NGT 90~,39 HTEN NGT 341'351 HT~NGR PCD ,09 PCD 6 5 4,930 C!~P,DTE 201.8~3 'IDPH D?E · , 'ibm DTE ..4,898 IFRE:.DTE SFLU DTE 5,035 ' 'SP,DTE '750, TENS;DTE 3865,000 MTEN.DT~ !t ~:iO0 DT'SDT :91,~00 DTL~SDT ~~ O0 TTI,SDT 662;400 TT2/SDT , oo 0!9 TNRA.CNb~ 3~099 NPOR' NL: I URAN NGT: 93 CS NGT: 902;016 HTEN.NGT :! 4:~226 TENS,NGT MRES: PCD: ..I.-095 HTENiPCD 'SA PCO: 000 28O 4O0 990 000 104 ill7 000 I 488 39 ~8i ~?0 ?99 ' 093 000 ~0 20 000 278 000° 92 600 474. 400 945 20! 93 · i 1.033 .000 as i,: 6Soo TaPe verification LiSt!n.cJ chlumbercjer Alas{ca ¢omputin~ Center IMpH DTE IDQF IIRM DTE SPAR DTE MRE$ DTE TT] SDT bTT3 ~DT T~S ~DT DPt! bDT LL bDT LSHV bDT LURH ~TEM bDT RTN~ CNb MTEM THOR NGT ~TE~ NGT SDE NGT TEN~ PCD HDIA PCD DEPT IPPH DTE IP~F DTE IIRP~ DTE SPAR DTE NRES DTE DTLN SDT TT3SDT L~T3 SDT TENS SDT DPH! bDT OhS bDT SLL bDT LHV bDT LURH bDT NT~ bDT RTN~ RC~T GR,CNL THOR'NGT ~TE~,NGT TENS PCD HD!A PCD 6000,000 3,871 0,000 243,750 -999,250 1' ,024 99,700 906,000 ~40~,200 05 ,,000 -0 170 0 1428 000 2 3t4 ! 32 500 2061 636 408 ! O4 000 · 132 500 12 997 134 859 0 996 3775 000 13 332 000 0 000 270 000 j, 6 457 o,o ! 3 ! 3' 108,375 ~.~, 3.2~, 025 000 CIDP DTE ILD DTE IMQF DTE IIXM DTE GR DTE HT£N DTE DTLF SDT TT4SDT LTT4,SDT MTEM,SDT RHOB,bDT GS$:LDT LXTV,LDT 8SH ~LDT CAbI, LDT MRES, LDT TNPH, CNb RCFT~CNb HTEN POTA NGT NRE$.NGT RB NGT MTE~PCD LA CIDPDTE '!LDDTE IMOF DTE { DTE HT~N DTE DTLF SDT :TT4 SDT bTT48DT MTE~SDT RHOB,LDT bITHLDT SSHV LDT CiblibOT TNPH~CNL RCrT CNb CAb! CNb HTEN CNb POTA NGT MRE$ NGT RBi~NGT MTE~ PCD b~ PCD 4-MAR-199! 17:11 25] 25 0 1~ )78 106 938 1123 000 2OO 1215 600 2726 2.50 025 0 000 O4 908 000 IDPH,DTE IL~,DTE I!RD,DTE SFLU,DTE TENS,DTE DT,$DT TT!,SDT LTTI,SDT SP. SDT NRES SDT DRHO bDT LS bDT SSi LDT S1RH bDT GR bDT HTEN bDT TNRA CNTC CNL TENS SGR NGT. URAN NGT' CS NGT~ P~AZ NGT MRE$ PCD SA PCD 278,500 3,541 o o00 227 438 000 !4 99 7~0 1246 IDPH DTE 'ILMDTE XIRD.DTE :SF'LU DTE. TENS DTE. DT SPT 700 SDT 400 LTI~ SDT 000 000 ~R~S~SDT 378 DRHObDT O3 ~,~ 6 8 &l,bDT: 0.3 bDT! 2!8 TNRA: CNL:~ & 2 CNTC::CNb,~ 50~ TENS CNL, 'SGR.,NGT 980 ~RAN NGT: MRES~PCD: :~ SA'PCD 3 965 CI~P DTE 3 840 IFRE DTE 216 000 IIXD DTE 4 070 SP DTE .o o ooo 600 TT2 SDT 0 0 32~ 500 LU,LDT 212~i25 $$2,LDT 104,0~ TENS'LDT 000 90~ .~388 NPOR.CNb CFTC,CNL ooo 965 TEN$;NGT 314 HTEN,NGT 2 230 HTEN,PCD 3 588 CI~P'DTE 3 459 IFRE DTE · 236 500 IIXD DTE 3 ~73 SP DTE 3705 000 DTE MTEM 500 , ,ooo '4~'~5 .: BDT '05~ PEF bDT 10 ,37~ bSRH bDT , TENS bDT gi~,;500 NPHI. CNL *4 ! i0 ~T~N PCD PAC;E~ 26 258 250 °°° - 328 -44 8t3 276 250 000 O0 3O9 250 3~ ~ ~00 0o0 0 0 0 10!;,6o0 4 o 6:1.:~. ,5o2 3405 i 000 &785~285 500 ils Tape Verification Listing ,¢hlumberger Alaska ComPuting Center DEPT, i'P"!DTE DQF DTE IIRN DTE SPA~,DTE ~RE ,DTE DTL~,$DT TT LTT3,$DT DPH],LDT OLS,LDT LL,LDT LUR LDT MTE~ LDT RTNR CNL RCNT CNL GR CNL NTEM CNL THOR NGT NTE~ NGT DEV NGT ENS PCD- HDIA PCP 5800 000 4 121 0 000 2]0 8?5 -g99 250 1 038 87 60O 8O6 000 1277 200 3630 000 12 470 -0 019 t36 750 1428 000 2 439 131 375 2829 3 95 88 131 375 13:167 132 2O9 052 365~ 000 12 115 CIDP DTE XLO DTE INQF DTE IIXM DTE GRDTE HTEN DTE DTLF SDT TT4 SPT LTT4 SDT MTEN SDT RHOB bDT QSS ~DT LITH bDT SSHV ~DT CAL! bDT ~RES bDT TNPH CNL RCFT CNb CAb! CNL HTEN CNL POTA NGT MRES NGT RB NGT ~TEM PCD LA PCD DEPT XMPH IDQF SPAR NRES DTLN TT' LTT] TENS RTNR RCNT T DTE DTE DTE DTE DTE SDT SDT SDT SDT bDT 5DT 5DT bDT 5700 000 4 523 0 000 10 I 039 85 500 899 3645 0 ooo 15 39~ 0 1168. 87 26 00~ · 53 6!~ 2292!2 813 olo 357(% 000 13 660 CIDP DTE ILD DTE IMQ~ DTE IiX DTE GRDTE HTEN DTE DTLF 6DT TT4 SDT bTT4 SDT NTE~ RHOB ~DT DT OS~ LDT biT bDT . ~DT TNPH CNL RCFT, CN5 CAb~ CNL HTE. CNL POTA NGT MRES NGT RS NGT NTEN PCD LA PCD 4-MAR-1991. 1711! 247 160 000 1112 000 O0 87 ~00 .oo 0 07 7 2 2 ' 4~8 936 500 131 1o 4 7 2t~ 000 609 000 70o !! ti 40 0~0 36 91 000 65 IDPH DTE ILNDTE IIRD DTE SFLU DTE TENS DTE DT SDT TT! SDT LTTI,SDT SP,SDT ~RES,SDT DRHO,bDT SS~ bDT bDT SlUR GDT HTEN bDT TNRA CN~ CNTC CN5 TENS CNL SGR NGT URAN NGT CS NGT' ~A'Z:NGT ESPCD SA PCD IDPH: DTE: IIb~ DTE~ RD~ DTE: SFbU DTE TENS DTE. DT: SDT:~ TT ! SPT LTT1 SDT:: SP' SDT~ MRES SOT~; DRHO SXRH bDT: GR bPT~: HTEN~ bDT TNRA~ CNb~ CNTC~ CNb TENS~ C'Nb :SGR~, NGT~ N T URAN,cs~ PI AZ NGT P D: NRESsA P~D 4 043 CII~P DTE 4 059 IFRE DTE 21! 4 3630 88 633 1103 -27 1 0 264 193 2 95 936 2 262~ ~65 101 885 77 1 750 llXP 457 SP 000 NTEM 900 DTb 200 TT2 200 bTT2 406 GE 038 HTEN 005 PEF 500 bU 125 SS2 418 LSRH 688 TENS 500 NPH! 898 NPOR 270 CFTC 00 ~RES 642 CGR 289 TENS 107 HTEN 4 GR ~ 0 HTE~ 69 4,46 XFRE t86,.1~5 ZXXD 4.605 SP ooi 696 1!88 209! 3570 , RTEN o SS2 TENS iNP~I CFTC 0 NRES 9~ CGR TENS HTEN ~.47 HTGR !0 ~ 9 35 DTE DTE DTE SDT SOT SOT SDT SDT bDT LOT LOT bDT LOT NGT NGT NGT PCD DTE DTE DTE DTE 8.DT 'S.DT :PCP 'CCD PAGEl 27 242,500 :ooo 781 -27 406 272 5OO 87,100 443 600 914 400 93125 1112 000 3,539 255 500 277 750 2438 3650 000 29 283 30 344 901 185 3420 4812 58 95 ~ 936 500 221.,000 20;000 ,5 ~ 8 't 3 i! ooo 800 30~ 000 61§ :3340 4812 469 ~93 0~o ~919 8 ;Chlum/.erger ask Computing Center DEPT IMPH DTLN TI3 LTT3 TENS DPH! LL LS~V LURH MTEM RTNR RCNT THOR SDEV TENS HD!A DTE DTE DTE DTE DTE SOT SDT BDT BDT bDT bDT LOT bDT bDT bDT CNL CNb NGT NGT PCP PCD 5600,000 4'363 0,000 220 500 '999 250 1,054 93 500 90 200 139~ 600 3625 000 13,8i5 -0,007 156,000 t427 000 2 375 129 125 56O 98 563 129 il 156 129 ~23 0 47 14 I. CIDP DIE ILO DTE IMQF DTE IIXM DIE GR DIE MIEN DTE DTLF SOT TT4 SDT hTT4 SPT MIEN SDT RHOB LOT QSS bDT SS~V bDT CALI LOT MRES bDT TNP :CNb RCF~,CNL CALirCNL HTEN CNb POTA NGT MRES NGT RB NGT MTEM PCD LA BCD DE T LTT3 TENS DPHI LSHV RTNR R~T THOR MTEM TENS ~Ol~ :: DTE ,DIE DIE .DIE ,SPT SPT bDT bDT bDT CNL CNL CNL 5500 4 0 ,194 999 879 1372 3590 -0 52 2265 .128 0 3505 13 000 :125 25O 065 300 200 000 000 892 0~? 500 000 381 375 64O 519 563 375 702 ~7 891 000 CIDP.DTE iLDeDTE I~QF,DTE.: .DIE HTEN, DTE: DTLF ~T4 NTENi, SDT RHOB~DT LITH;LDT SSHV GDT CALl LOT MRES:LDT :TNPH~CNb RCFTCNL CA:bi'. CNL: HTEN. C~Li POTA;NGT MRES,NGT MTEM~PCD: LA,PCP 4-'MAR-1991 17:11 224,000 4,418 0 000 12 648 ,IO oo 000 97 200 700 400 0 9~0 4(,1 2~:6 673 6E:4 0¢0 1 1 125 56~ IDPH,DTE ZLM,DTE IIRD.DTE SFLU,DTE TENS,DTE DT,SDT TTI,$DT LTT1,SDT MRE$,SDT DRNO,bDT LB,bDT SSi.bDT $1RH,LDT GR.LDT HTEN bDT TNRA CNTCCNL~ TENS CNG, SGR:NGT URANNGT CSNGT DiAZ ~T MRES S~ 4,461 4,250 193,7 3625 O0 10~,500 70 0 CIMP DIE IFREDTE XIXD DIE BP,DIE DTLSDT TT25DT bT~ SDTsDT HTEN~DT 0 054 P[['bPI 296 500 ,LOT LSRH,LDT NPNI,CNb 3 lOB NPOR.CNL 211~ 585 CFTC,tNb .PCD IIRDDTE i'o o TEN$,iOTE 3590, 1!32~0 0 :DT:~,SDT · 91, :SS,000 TTI~S~DT .:68~i,4 .680,800 1175 ,000 GTTI,SDT ,750 MRES~,$DT~ ' '~"~,4~7 DRHO,LDT:: ,0~0 .SS!,LDI ~ GR.LDT lO~ :'35,:1 6 TNRA CNb:~ ?0~'664 CNTC Cab~, 230~ ~:~OO TENS CNL, 3505 :SGR: NGT: 111 · 689 P1AZ NGT 103 Ii~;:375 MRES BCD ,094 SA PCD ! 840 IFRE.DTE 375 IIXD'DTE 000 SP,DTE DO0 MTEM'DTE ~00 DT~,SDT 800 TT2,SDT 200 LTT~.SDT 844 GR,SDT 065 HTENSDT 058 PEF.LDT 000 LU 0:00 S$2 bDT NPH~ C !:38: NPO, CNL 66:1 CFTC;C~b ooo TE~$,NGT :li HTEN.PCD 229 125 O0 20 9~4 500 000 ,oo 344 28~,000 ooo 6~ 136 OO9 4789 98 956 .~:i8'375 )~oOO 89 0~0 468 80 995 200 ~97 $ 3~ 1131 )oo ,~98 250 !! 000 ,IS Tape Verification blst~nq icl~lumbergerAias~ca Computing Center 29 IOQF DTE IIR~ DTE SPA~ DTE MRE$ DTE DTLN SDT TT3 6DT LTT3 SDT TENS SDT DPH! bDT LL ~DT LURH,LDT MTEM bDT RTN~ CNL RCNT CNL GR CNb MT£M CNb THOR NGT MTE~ NGT DEV NGT EN$ PCD HDIA PCD D~PT I~P~ OTE IDQF DTE I!RP OTE DT~N SDT ITT3 SOT DPHI bDT Qb$ LDT LL bDT bSHV bDT bURH bDT MTE~ ~DT THOR NGT MTEM NGT SDEV'NGT TENS,.PCD ~DIA,PCD 5400.000 4 465 0 000 2 1:1 -9~9 25 878 800 · !403 200 3500 000 20 482 "0 022 200 3'75 t426 000 2 23O 1.27 063 3 337 2160 3"/4 104 250 127 063 ,i 47 34~!.024.000 999,250 1:;085 98900 85.. i34~200 20O 34SO000 .24:20 "0~0t2 225 0 98 688 !26 438 ;798 13;516 CIDP:DTE iLD DTE IMQF DTE IIXN DTE GRDTE HTEN DTE DTLF SDT TT4 SDT bTT4 SDT MTEM SDT RHOB bDT QSS bDT bXTH bDT SSHV bDT CALX bDT MRE$ bDT RCFT CNL CAL~ CNL HT£ CNL POTA NGT MRES:NGT RBNGT ,PCD 'ILD,DTE IMQF,DT~ iI~M,DT GR,DTE HTENeDTE DT~FeSDT TT4,SDT 5TT4, DT MTEM!.~DT QS$:,LDT LIIH' DT SS CAbZ~bDT ~RE$,bDT TNPH,CNb~ RCFT:CNb CALX:CNb HTEN CNb.. POTA<NGT~ MRES NGTi RB NGT M?EM PCD, LA PCD 9e 105,0200 ° 0 $80 26) 0 0 108 ~ 5 !32t 0 12 . oo 4 412 0 : 94 'ilo,? !DPH DTE, ILMDTE* !IRDDTE SFLU DTE TENSDTE DT SDT TTiSDT LTT SDT S~SDT MRES,SDT DRHO bDT LS LOT $81 bDT S!RH bDT GR bDT HTEN, bDT TNRACNL CNTCCNb TENS CNL SGRNGT URAN NGT CS NGT: PIAZ NGT MRESiPCD SA:PCD ,3~6 Ib~. '17 SFLU '3~5 TENS 26~600 ' ,250 1320~0~0 t3,,281 GR '000 '$GR 279 PlAZ 1i,367 SA DTE DTE DT SDT. SDT: bDT~ bDT bDT~ bDT bDT C N b 4 0 Cl~P IFRE 000 XIXD 473 SP 000 MTEM 800 DTL .000 TT2 400 LTT2 375 074 085 PEF LSRH NPHI 111'2!3 CGR 4,2 ' 877.7~ TENS HTEN DTE DTE DTE, DTE DTE SDT SDT SDT SDT bDT bDT bDT bDT bDT CNL CNL CN 244 3 3420.000. ~87~i62i~ 210 799 ~ ;158 CIMP.DTE IFRE'DTE X!X~*DTE DTL,'SDT TT2LSDT bTT2'$DT PEFLDT SS2,LDT LSRH bDT TENS,bDT N:PH!:CNL NPOR.N~ CFTC~N MRE~ CGR:~G~ TEN$,NGT HTE~*NGT G ,PCV HTEN.,PCD 000 265; 486. 992;000 llos, so 000. 313: 354 500 324 750 27 34ii 415074 655 6 8 48 03 ~ 523 104,250 912,000 ooo 656 i 00 ooo 4 98 68.8 950 000 Tape Verification Listing chlumbergerAlasKa Computing Center DEPT, IMPH.DTE IDQF*DTE IIR~,DTE SPAR.DTE NRE$,DTE DTbN,SDT TT3,SDT LTT~ SDT TENS SDT DPH! bDT OLS bDT LL bDT LSHV LDT LURH LDT MTEN LDT RTNR tnb RCNT CNb GRCNb MTE~ CNb THD~ NGT MTfN N~T SDE¥ NGT TENS PCD HDIA PCD 5200 000 4 746 0 000 i99 250 -999 250 1 094 96 300 862 800 ~366 800 3405 000 23 451 -0 030 215 000 i424 000 2 !88 126 250 3 778 2118 553 103 375 t26 250 ~! 592 123 456 1 234 3395 000 13 777 CIDP DTE IbD DTE IMQF DTE IIXM DTE GR DTE HTEN DTE DTLF SDT TT4 SDT bTT4 SDT MTEM 8PT RHOB bDT QSS bDT 5ITNLDT SSH¥ LDT CALI bDT MRE$ bDT TNPH. CN~ RCFT. CNL CAb! CNb HTEN CNL. POTA NGT MRES NGT RB NGT ~TEM PCD LA PCD DE T, IDQF,DTE -SPAR,DTE MRES.DTE DTLN;SDT TT~.SDT TT3'SDT TEN$'$DT DPHI;LDT QbS'bDT LSHV.bDT 5URn;bDT ~TE~bDT TNR.~CNb CNT'¢Nb GR THOR NGT ~TE~ NGT SDE¥ NGT TENS PCD HDIA PCD 510o,0o0 4,418 0 000 14 500 99 250 ~ 096 98 400 863 600 :165 038 247 S75 1423 00~ ~035002 !5 ~64 CIDP DTE ILD DTE iMOF DTE !IXM DTE. GR DTE HTEN DTEi DTL~ SDT: TT4 SDT 5TT4 SDT~ MTE~ SDT RHOB bDT QS8 bDT~, LITHLDT: SSHV bDT CAbI bDT~ MRE$ bDT TNPHRCFT CAb~ HTE~ CNL POT NGT MR~$ NGT RB NGT ~?EM ~D 4'MAR-199! 17:~! 204. 4 107 1166 26t 2 0 t22 1320 13 0 ! 11 222 4 0 67 2 0 0O4 0 oo 25O 000 0 76 2, 97 IDPH.DTE IIRD.DTE 8FbU,DTE TEN$,DTE DT~SDT TT1SDT bTTI,$DT MRESSDT DRHO bDT 81RH bDT GR bDT HTEN bDT TNRA CNb CNTC TENS CNL~ SGR NGT URAN NGT CS NGT P~AZ,NGT MRES,PCD SAePCD 4.879 CI~P DTE 4 715 IFRE DTE 179 4 3405 96 670 1170 1 0 405 103 000 lIXO DTE 613 SP DTE 000 MTEM DTE 700 DTL SDT 400 TT2 8DT 000 LTT2 SDT 500 GR SDT 094 HTEN.SDT 075 PEF.LDT 500 LU'bDT 625 8S2.LDT 025 LSRHeLDT .375 TENS.GDT 000 NPHXeCNb 251 NPOR.CNL 995 CFTC;CNL 000 MRES.CNL 592 CGR,NGT 033 TENS.NGT 282 HTEN'NGT 120 GR.PCD .166 HTEN,PCD 262 4.496 CIMP.DTE · 4.371 IFRE,DTE 193,250 IIXD,DTE . .4~406 SP'DTE 3375..000 MTEM~DTE 98.100 DTL,$DT 676'000 TT2 SDT l!77,600 LTT2 SDT ;4~',469 GR SDT I~'096 HTEN SDT 0~077 PEr bDT '41 250 65; bU bDT 232,875 SS2 bDT !i,940 LSRH bDT 106'938 ~ENS bDT 904.000 3~.395 NPOR CNL 1886,000 CFTC CNL 3270'000 ,099 CGR NGT CNL 204'069 GR PCD ~;[70 HTEN PCD 210 500 20 000 .20 ~09 -41 O0 100 468 000 97! 600 ,000 3 539 381. 000 331 250 339 000 662 201 8~ 166 154 3045 000 48!9 124 103 375 920 000 226,125 2 0 477 200 97~ 000 110, 0 0 34~ 07 '~00, 0 503 483~ 000 90~ 000 Tape Verification bistinq ch!umbergerAlasKa Computing Center DEPT, IMPH DTE IDQF DTE IIRM DTE SPAR DTE NRES DTE DTLN SDT TT3 SDT bTT3 SDT TENS SDT DPH! bDT LL bDT LS~V bDT LU~ bDT MTEM bDT RTNR CNL RCN? CNb GR CNL MTEMCNb THORNGT MTE~ NGT SDEV NGT TE CD .PCD ~P~DTE ID~F,DTE' SR'DTE ~ ES,DTE DThN,SDT TTS'SDT TEN$'."SDT DPH! bDT OLS bDT LL bDT LURH bDT MTE~ bDT RTNR'CNb ~CNT,~Nb MT'EM*NGT SDEV~'NGT T~NG'PCD: HDIA,PCD 5000 000 4 414 0000 2%6 150 -9991 50 1 97 O0 389 200 000 141~ 0 0 340 0 22 17 -0 021 2 1 500 14i2 000 2 201 124 875 3 262 2286 0 t 24 875 !2 240 !2i 074 ooo 13 294 i.000 °i.ooo ,088 430.;500 999,;.:250 1"107 ! 0'300 8 2'800 142 41~;:00 6!.;573 '0,044 542',500 1419'000 12}1:647438 i23,438 t20'077 :1,409 3355,000 .14,025 CIDP DTE ILD DTE IMOF DTE IIXM DTE. GR DTE HTEN DTE DTbF SDT TT4SDT bTT4 SDT MTEM SDT RHOB bDT QSSLDT bITH bDT SSHV bDT CAbI~bDT MRES bDT TNPH CNb RCFT. CNb CAbICNb HTEN CNb PDTA NGT MRE$:NGT RB, NGT MTEN~PCD bA PCD C!DP DTE IbD DTE: INOF DTE I!XM DTE GR DTE HTEN DTE DTbFSDT TT4:$DT bTT4SDT MTEM.SDT. RHOBibDT QS$ bDT GITH bDT SSHV bDT CibI bDT ~RES bDT TNPH. CNb RCFT~CNb CALI:CNb' HTENCNb POTA~NGT MRESNGT RB2N~T~ NTEM. PD,~ LA PCP 4.,MAR"t99! 17:11 217,750 4,566 O. 000 12 664 107 750 1175 000 97 200 691 600 !214 400 257 50O 284 022 1312 00 31,i IDPH DTE Ib~ DTE IIRD DTE 8FLU. DTE TENS DTE. DTSDT TX1SDT LTT! SDT SP SDT MRES SDT DR~O 5D? L8 bDT S$1 bDT StRH bDT GR 5DT HT£N bDT TNRA CNb CN?C CNb TEN$,CNb SGR,NGT URAN,NGT CS,NGT PIAZ,;NGT NRES.,PCD 8R,PCD 451'7.50 /DPH UTE., 56 ,DTE~ 9t, TENS.iOTa: 120~,000 'DT,SDT~ lOi,0~O TTI,$DT 677,6 0 bTT1,SDT' !212'000 MRES~DT 25~.000 SP.:,SDT ,.~ 634 DRflO:,bDT 039 bS'bOX~ 239 250 SS,I,bDT 13!9 000 SIR,'GDT, 12 i~4 GR'LDT TNRAj :TEN$~NL.~ 101: SGRNGT 10 SA PCD= 4 590 CI~P.DTE 4 4 IFRE.DTE 189 ~5 IIXD.DTE 4 285 SP.DTE 340~ 000 MTEM.DTE 9 600 DTL.SDT 696 ~0 TT2.SDT 1214 0 LTT2'SOT -44 094 GR SDT I 103 HTEN SDT 0 087 PEF bDT 397 500 LU bDT 230 500 8S2 bDT 2 012 LSRH bDT !07 :875 TENS bDT 936 :500 NPH! CNL 3 047 NPOR CNL 2064'921 CFTC CNL 3370.000 ~RES..CNL '116~663 CGR,NGT :08~ HTEN.NGI 30,357 GR,PCD I':173669 HTEN.:PCD 2 3415 t02 ,i 'I 1929, 355, 213 ClNP'DTE t45 IFRE;.DTE 000 IiXD,DTE 156 SP'DTE 000 NTEN.;DTE ;~00 .DTb,$DT O0 TT~SDT OOg bTT2'SDT 75 GR'SDT HTEN'$DT O0 'PEF~LDT oo 000 S~';'bDT 'bDT LSRH,LDT 621 TENS,BDT 180 NPHI,CNb 'CFT¢'CNb O06 MRE$~CNb 289 CGReNGT 498 TENS'NGT 097 HTEN,NGT .,Om HTENiPCD 080 PAGE{ 31 226 375 20 000, 094' 257 500 100 200 484 800 1025 200 107 750 1175 000 3 248 37 0 33~ 0 00 3370 000 31-020 31' 836 · 0 4793 360 107 875 936 500 478,750' 20,000 62~063: -33,750 257;000 102,400 475,600 407i632 88 o,o ,chlumberger Rxas~a CompU:In~ Center DEPT IDQF DTE ~RES DTE DTbN SDT TT3 SDT LTT3 SDT TENS SDT DPH! bDT OL$,LDT Lb,bDT LSHV.LDT bURH bDT MTEM bDT G~C~L MTEMCNL THORi~GT MTE~ GT SDEV NGT TENS PCD HDI~ PCD 4800 000 3 270 0 000 285 000 -999 ! 22 95 000 830 800 1334 000 3385 000 178 250 1422 000 2 305 122 O63 3009 2588 097 115 563 12~ 063 890 118 270 81 274 330 000 12 751 CIDP DTE IbP DTE IMOF DTE lIXM DTE GR DTE HTEN DTE DTLF SDT TT4 SDT bTT4,SDT MTEM SDT RHOB bDT Q$S.,LDT kITH,bDT SSHV'LDT CRLI,LDT MRE$.LDT TNP~.CNL RCFT.CNL CALI,CNL HTEN,CNL POTA..NGT ~RE$.NGT RB~NGT ~TE~.PCD LA.'pCD DEPT I~PH: IDOF MRES DTbN TT3 LTT3 TE~S DPH! LSHV LURH RTNR RC~T' GR THOR HDIA DTE DTE DTE DTE SDT SDT SDT bDT LDT LDT LDT bDT bDT .CNL CNL PCD 470~.000 '316 0,000 278.:500 "999,250 96.900 ~823~600 1320'000. 3330*0O0 ~8,936 0.,004 187,375 1422,000. 2~279' 121.125~ 2 3'34:0 .592,922: 1:05'438 3385000 12:329 4-MAR-1991 17:1.1 3OO 750 3 293 0 000 20 656 98 688 1191 000 94 300 632 800 ~ 625 2 342 0e043 98~625 .'208 .483 81~*128 '898 IDPH,DTE Ib~'DTE XIRD,DTE SFLU.DTE TEN$~DTE DT,$DT TTI,$DT LTTI,$DT &P SDT MRE& SDT DRHO bDT kS GDT SS1LDT $1RH bDT GR bDT HTEN bDT TNRA CNb TEN& SGR NGT~ URAN HGT' CS NGT PIAZ NGT ~ES PCD SA PCO 96 O0 625 00 1128 00 252 MRE$, .938 t319.000 81RH, 12'2.42 GR ~1,220 HTEN .6~6 TNRA *000 SGR ~647 URAN ,1~3~ 5i,a74 PIAZ 12i'!125 i0,578 SA~ IDPH~DTE 'IL~,DTE IZR.D,DTE: 'SFLU,DTE T'ENS~DTEi DTiSDT TTt,&DT LTTI~SDT: SDT bDT bDT bDT .bDT bDT ~DT' CNL. CNL: NGT:: PCD,. 275 IFRE TE 3 33865 9 633 1138 1 0 335 213 2 115 981 2 2492 3380 89'/ 85 1 IIXD,DTE 8P,DTE 000 MTEM,DTE 200 DTL.$DT '0 TT DT Io° 0 bTT~'$ SDT 969 GR SDT :122 HTEN SDT 045 PEF LDT 500 bULDT 875 SS2, LDT 184 LSRH. LDT 563 TENS LDT 500 NPHI:CNb 869 NPOR.C.Nb 937 CFTC CNL 000 MRES CNL 860 CGR NGT 895 T'ENS NGT 96 GR'PCD 67~ HTEN NGT 208 HTENePCD ,549 C ! ~ P 24t 289 000 .000 ,DTE * DTE~ DTE DTE~ DTEi 3330 97 630 1~.2$ 0 2 IXXD ~TE~ DTL~SDT 400 TT2"$DT 000 bTT2'SDT 406 GR.SDT HTEN'SDT PEr bDT 250 LULDT 37~ $82 bDT !! LbRH L.DT 43~ TENS ,:000 N PHI 0 4~ NPOR CFTC CGR H'T~ , :66 ! G R ,220 ,.~51 CNL PCD :PCP 305 75O 2O 000 36 313 -38 969 254 625 95 500 436 000 943 600 98 688 1191 000 3 420 314 50O 30O 000 2'295 3380.000 8.388 ~0.045 877,~4 4~15, 98t,500 20. O0 .33~625 97'800 442~000 942~800 102'250 I:179~:000 3'318 32:7,500 '385 000 3i,094 ~ 3' 807 80i~235 .~98.~.00 484.1:~666 !05'438 1048;:000 ,IS Taue verification Listinq ,chlumberger Alaska ComPut!nq Center DEPT. IMPH,DTE IDQF,DTE IIR~ DTE S~A~ DTE MRE$ DTE DTLN SDT TT 3 SDT ~TT3,SDT TENS,SDT DPHI,LDT LL LDT ~$M¥ LDT LURM LDT ~TE~ ~DT RTNR CNL RCNT THOR NGT NTEMNGT SDEV'NGT TENS,PCD 4600 000 3 398 0 000 275 000 -999 250 I 137 94 800 843 200 1348 400 3340 000 17 59 -0 ~04 2 250 55 120 000 257~ 0401 120 000 10 719 115 337 o 888 3230 000 1~ 9O3 CIDP.DTE ILD DTE IX~.DTE GR,DTE HTEN.DTE DTLF~SDT TT4 SDT LTT4 SDT MTE~ SDT RHOB bDT QSS bDT LITH,LDT SSHV,SDT CALI,5DT HRE$,LDT TNPH,CNL RCF~'CNL CAL,.,CNL HTEN-CNb POTA~;NGT NRES,NGT: RB;NGT NTE~,PCD' DEPT, !NPH;DTE IDOF,DTE' IXRM,DTE NRE$"DTE DTLN,SDT ?T3,SDT L?T3,SDT TENS.SDT D:PHI,LDT OhS,~DT bDT: ,LDT' RCNT. CNL ~TE~ NGT SDEV NGT TEN PCD HD!~ PCD 4500,000 3;30'7 0;000 .282~500 '999~25~ 97'900 838'800 !331.600 ~0'054 21:3'~50 1421'000 2'~72 t8 438 3'400 241.1:916 107 938 1!e438 'I0 8t2 113 976 1:,312 3285 000 10 899 CIDP~DTE ILDiDTE IMQF, DTE IIXM DTE GR DTE. HTEN.~DTE: DTLF, SDT' TT4~SDT' bTT4:~DT MTEM RHOB bDT: OSS, uDT· LITH LOT SSHVLDT CALXLDT MRESLDT TNPH CNb. RCFTCNb HTEN!,CNb: POTA;NGT ~RE$~NGT RB;NGT NTEN,PCD bA*PCD 4-~AR-199! 17:11- 279 500 3 609 0 000 17 563 90 938 1187 000 95 100 646 000 1166 000 5O0 25~ 354 0 023 97 063 1320 763 6 2 00~ 000 32O 285 1o ! 0 ? 1t83 97 ~0 O0 O0 · 10 14 50 IDPH,DTE IL~,DTE IXRD, DTE SFLU,DTE TEN$iDTE DT~.$DT TT1 SDT LTT! SDT SP SDT MRES SDT DRHO bDT LS bDT SSi bDT SIRH bDT G~ SD? HTEN'~DT TNRA,CNL CNTC,CN5 TENS.CNL SGR'NGT URAN'NGT C$;NGT P1AZ,NGT NRES*PD SA,P~D 'IDPH DTE ,ILN DTE: !IRD OTE &FLU DTE TENS DTE: DT S'DT~: TTI SOT LTT1SDT SP.'SD? MRESeSDT DRHOi~DT LSi.bDT HTEN:~D~ TNRA CNb CNTC CNb TENS CNb SGa NGT URANNT PIAZ. ~RE$* 'CD 'SA' 3,574 CINP'DTE 3.~395 IFRE,DTE 2 :,so zzxO'OTE 191 SP'DTE 3340,000 ~4TEM,DTE 97,000 DTL,$DT 647,200 TT2,$DT 1~63.600 LTT2,$DT '4!~ 969 . GR,SDT ~37 HTEN.SDT 002 PEF~ bDT .ooo 000 99~ 89~[56~ TENS .9 i-, HTEN ,NGT 34~.81! GR .PCD '23 HTEN PCD 3~502 . 3'303 IFRE, DTE 242;250 IIX D,D 3,373 : SP':DTE 3~95,0.00 99,500 DTL,SDT .640,800 TT2-SDT I~44',000 LTT2-SDT 44'594' GR'SDT 1 * 1,47 HTEN ,'SDT O, 119 PEF ~:bDT 409;000' LU.LDT 240,250 SS2;LD~ ~'9.4~ ~07;938 TENS'SDT: I018'500 NP~I.CNb' 3~O47 NPOR_ bCN. 2341 ,:5.2~ CFTC 3285,000 ~RES CNb ~ ~ 0; 607 C~R 3,274 TE~S NG~. 898' ~348 MTEN 29 3,39 0 G R., PC O ! .250 HTEN :PCD i ,610 PAGE: 33 294 000 20 000 35 688 -4i 969 25O 5OO 95 80O 454 800 959 600 90 938 1187 000 2 904 289 ·750 28~ 250 352 ooo 31 021 33 339 794 38 000 841 447 97 438 :990 000 302,250 I 'ooo ,766 -44,594 ~248;375 98;600 444,000 954;~00 :107':063 1i83,000 50 ,180 ,000 !.;826 ,94 ~IS Ta~e Veri~icatlon Listing ~chlum erqer'AlasKa CompUtln(~ Center DEPT, IMPH DTE IDQF DTE IIRM DTE SPAR DTE MRES DTE DTLN SDT TT3 SDT bTT3 SDT TENS SDT DPHIibDT Lb bDT LSHV bDT GURH bDT MTEM bDT RCNT tnb GR CNb M?EM CNL THORNGT MTEM,NGT D£VNGT ENS PCD HDXA PCD DEPT~ ~XMPH,DTE IIR~,DTE SPAR'DTE MRES,DT~' DTLN~$DT' TT3'SDT bTT3 TENSSDT DPHI bDT ObSbDT LL bDT LSHV bDT LURH bDT RC§T CNL' MTE~ tnb THOR NGT ~TE~ NGT SDEV*NGT TENS,PCD HD~A,PCD 4400 000 3:074 0.000 299 000 °999 250 1 153 102 O0 924 000 !435 200 3150 000 47 24O -0 041 403 000 i418 ~00 1 28 117 438 4 1851 603 102250 t17 438 11 666 112 823 't 0~0 3205 ! 0 13 053 4300,000 3O;000 ,000 3 ,250 1 '* :l 76: ~ 400 14aO i :! 50 116 5.010 4,: 21 1847 92 500 1!6 500 8 864 !12 413. 13, 1.89 ClDP.DTE ILD DTE IMQF DTE llX~ DTE GRDTE HTEN DTE DTLF SDT TT4 SOT bTT4SDT MTEMSDT RHOB:bDT QSS~LDT LITHibDT ;LOT MRE$,LDT TNPH;CNL RCFT,CNL CALI,CNL HTEN,CNb POTA,NGT MRES,*-NGT RB,NGT MTEM,PCD' LA,PCD ClDP DTE! ILD DTE' IMOF DTE !.IXM DTE GR DTE HTEN DTE~ DTLF SDT TT4:SDTi LTT~'~DT MTE SDT RHOB bDT: ~$8 bDT LITH bDT · SSHV LOT CALl:bDT MRE$,LDT. TNPHCNL: ReFT:tNb CALl CNL, HTEN CNL POTA~NGT MRE$,NGT RB,NGT MTE~,PCD bR,,PCP 4,,,MAR-1991 1'/111 ol.ooo ,248 ILM,DTE 0,000 XIRD.DTE 18,563 ~FLU,DTE 106.375 TEN$,DTE 119o.0o0 i. ?oo SDT ,600 LTTX,SDT 122 .400 SP, SDT 246;375 MRES SDT 1,871 DRHO bDT "0,006 LS ~DT SIRH bDT ,609 GR bDT ,00) TNRA CNb 526,457 CNTC CNL 1.6o mEas 10 ,000 SGR NOT NT 117,438 MRES PCD 9,805 SA PCD 304!'2 ' 3.2 .0,0 ,9 ~0..315 1~7'0~0 !27o.0 0 ! 988 .3!8 000 ~12 242 i 259 4O 8O8 469 12 2 2 I153 000 2 ,139 iDPH DTE IL~DTE 'I.R )TE TENS,DTE DT SDT ,TT~ bTTl 8DT SP MRES:~DT DRHO~bDT b$ bDT /SSi bDT $1RH bDT GR, LDT HTEN, bDT TNRA:CNL C~TC, CNb TENS CNL ~GR ~G:T URAN,NGT C$~NGT PIAZ'NGT HRE$*PCD &A,PCD 2,; -45 I 0 766 241 1006 3205 896 3 3060 10~ I2~8 -48 ! 0 3 266 ¢IMP.DTE 1!7 IFRE,DTE 000 IIXP,DTE SP*DTE 076 000 000 000 400 MTEM.DTE DTL.SDT TT2,SDT LTT2,SDT GR,SDT HTEN.$DT O55 PEF.LDT 00 LU'LDT bSRH,LDT 250 TENS,bDT .NPHI'CNb O0 :776 061 248 NPOR'¢NL CFTC,CNL CGR.NGT TENS*NGT HTEN,NGT GR,PCD HTEN,PCD ,283 C2MP.DTE 992 ZFRE°DTE 250 2IXD:;DTE 000 MTEN*DTE 400 DTb,SDT LTT2SDT HTEN PEF ,74 bSRH ,500 TENS '.000 NPHI 9 088 .CGR :353 TEN& H_GR ' 59 .:TEN 2 ' ,i 13 bDT bDT bDT LOT CNL CNL NGT NGT NGT PCD PCD PAGEI 34 325 000 2O 000 35 78 -45 31t 246 375 I 3 400 4~4 400 I024 8OO 106 375 1!90 000 5 29? 726 500 396 000 320t 814 000 .42 379 38 523 389 29 000 10 0 333'000 20;000 :36,875 ,-48,438 !17,063, 106.300 508,000 1040,400 90,375 1127~000 4'46! 616,000 397,500 I 9xo '3390 000 43 005 · 4i 835 507:380 ~;259 6:6:618 2905000 4829,271 92500 ti53000 ,cl~lumverger aslca eom utlnq Center DEPT. IMPH.DTE IDQF,DT£ II~,DTE SP~R.DTE NRE$ DTE DTbN SDT TT3 SDT LTT3 SDT TE~$ SDT DPH! bDT OhS bDT Lb bDT LSHV bDT LUR~ bDT MTE bDT RTNR CNb RCNT CNb ~TEM CNb THOR NGT STEM NGT &DEV NGT TE~$~PCD HDIR~PCD yEPT IDOF DTE iIR~ DTE SPAR DTE ~RES OTE DTLN SPT TT~ SDT SDT T~NS SDT DPHILDT ~LSbDT LLbDT bSHV bDT STEM DT ReNT CNL THOR.~NGT ~TEMeNGT &D~V~NGT TEN$~PCD 4200 000 2 953 0 000 31~1250 -99 250 187 O0 478 000 075,000 55,613 000 1416,000 1'753 115-750 97 063 115 750 11 044 111 t00 0 ,856 ~3245000 13 459 4100,000 2'336 0,000 999,250 !~185 t14'600 999,:200 !588,:800 3060,:000 '2t;650 17, 60 653 107000 tI~938 1 64O 1o9 5o5 0 682 3085 000 ii 059 ClDPDTE ILDDTE IMQFDTE IIXM DTE GR DTE HTEN DTE DTLF.SDT TT4.$DT LTT4~$DT MTEM,SDT RHO8 bDT USS bDT bITH, LDT S3HVbDT CAbI, bDT MRE$ bDT TNPH CNb RCFTCNL CALI CNb HTEN CNb POTA NGT ~RESNGT: RB'NGT MTE~ PCD LA PCD ClDP DTE' iLD UTE IMO DTE. ' ,DTE HTEN,DTB: .TT4,$DT LTT4 PT RHOB, LDT' QSSiLDT LITH~LDT' SSHV bDT~ CA~I MRE$ bDT~: TNPH~CNL! 'RCFT~CNb. CALf' CNL~ POTA,NGT ~RES.,NGT RB,~GT ~TEM~PCD 'bA,PCD 4-MAR-1991 lT:li 304.000 3 254 0 000 I178 000 !07 900 721 600 1274 400 I17 000 1 7~2 125 ooo 4~ O~ ,oI i 6, O0 · '1 2 ° IDPH,DTE ILMDTE IIRD:DTE SFLU,DTE TENS,DTE DT,SDT TTI,SDT bTT ,$DT SP,MDT MRES,SDT DRHOebDT LS,LDT SS1 bDT SXRH bDT GR LOT HTEN bDT TNRA CNb CNTC CN~ TENS CNL SGR NGT URAN NGT CS NGT P!AZ NGT MRES.PCD SA~PCD 38~ 500 IDPH,DTE'DTE: IXRD~DTE: :359 SFLU~DTE 500 TEN$~DTE 1205 000 DT,SDT i360 SP*SDT 1!~-~0 LTTi. SDT DRHO':bDT .5~3 $$1LDT !318'0o0 ',1t,055 OR bDT 41,2~3 'HTEN bDT ,350 TNRA CNL. 486.388 CNTC ~ ~55 TENS CNL: 10 i .~0 SGR NGT P[AZ ~RES PCD 9 23 'SA PCD 2 3O75 12~4 1 -0 879 221 1 97 104~ 3 285 Cl~P ,DTE 982 IFRE 250 IXXD 799 SP 000 MTEM 400 DTL 0 TT2 ~0 L?T2 469 GR DTE DTE DTE DTE SPT SDT MDT SDT SDT bDT bDT bDT bDT bDT :187 HTEN 004 PEF 5OO 500 SS2 ~50 LSRH 06) TENS 000 N~HX,CNL 459 NPOR,CNL 178~,300 CFTC,CNL 3245i000 MRES.CNb 105.947 CGRjNGT 3 416 TENS,NGT ~ 401 HTEN.NGT :7 3: GR'PCD HT~N.PCD 564 CIMP'DTE !316 XFRE.'DTE~ 32! 750 XIXD,DT~ NTEM~DTE 117 900 DTL$SDT 0 TT2,$DT T~N~'LD · 06 NPHI. ~L 83,'943: CFTC 0SilO00 1::1 t,:~6! CGR,NGT . J~389 TENS'NGT 90!~15 ,TE~,'NGT 252~.289 G~'PCD 'I,273 MTEN,PCD 2,035 PAGEi 35 338 250 20 000 35 375 -47 469 117 000 109 900 499 200 ~062 800 -97 438 1178 000 5 258 838 500 4O4 250 0 531 8 8 1:!70 97, :1046, 0 116:'625 114,600 538'400 I:138,000 106,500 1.205~000 3,010 319,750 295"500 2,279 '3089~000 4.2'224 41;105 50:3~834 ,.. :28 2665,000 4823~540 1 o chlumLerger las~a Computin~ Center DEPT, IMPH.DTE ID~F,DTE IIR~ DTE SPAR DTE NRES DTE DT~ TT3 LTT3 SDT TENS SPT DDHI LDT QLS LDT LL LDT LSHV bDT LURH,LDT NTE~,LDT- RTNR,CNb RCNT,CNL GR,CNL ~TEM,CNL THOR NGT MTEN NGT &DEV NGT TENS PCP HDIA PCD 4000 000 2 578 0 000 362 000 -999 250 I 184 111 100 962 800 529 200 955 000 36 391 -0 037 326 000 1416 000 I 963 113 938 4 408 1660 475 95 938 113938 1~ 660 10 ~67 0 12 980 ClDP,DTE ILD,DTE !MQF,DTE IIXM,DTE GR DTE HTEN DTE DTLF SPT TT4 SPT hTT4 SPT MTEM SPT RHOB bDT QSS LDT LITH bDT SSH¥ bDT CALl bDT MRES LDT TNPH CNb RCFT CNb CALl CNL HTEN CNL POTA NGT MRES NGT RB NGT MTEM PCP LA PCP DEPT !MPH iD~F iIRM SPAR NRES DTLN LTT3 DPHI bSHV LURH MTE~ RCNT T~O~ SDEV HDIA DTE' DTE DTE DTE OTE SPT SOT SPT: SPT bDT bDT LDT L D T LDT LDT NGT NGT NGT PCP PCP 3900~:000 2!139 0 000 40 :~50 -99) 50 1:203 I 5,20 4 "0 013 276 750 1416~000 2~068 113:~!!25 3'554 1847,873 97'125 ~I[3,t25 !3,343 !06,356 0,172 2975,000 12'438 ClDP DTE ILD DTE MQF DTE GR DTE HTEN O~f. DTLF SPT 'TT4 bTT~ SPT MTE 'SPT RHOB,bDT QSS*bD~ LITH,LDT ~SHV,LDT CA~t*~DT MRES:~LDT ?NPH~¢Nb RCFT,CN~ ~Ab!,CNb ~TEN;CNL PDTA,NGT MRES,NGT 'LA,PCP 4-MAR-1991 17:11 350.500 0 0 2O 5OO 86 8 1 700 733 600 130 0 111 0 0 0 0 i° 14 ~ 6 44 5 ~ 1~ 0!6 loo ooo ~,451 92,174 797 I1 875 ~:~00 '12 087 0 0~ 0 0 '0 !DPH DTE ILM:DTE !IRD, DTE SFLU DTE TENS DTE DT SPT TT1 SPT LTTI SDT SP SDT MRES SPT DRHO bDT bS bDT SSSI,LPT 1RH,LDT GR,LDT HTEN,LDT TNRAeCNb CNTC,CN~ TENS,CNb SGR,NGT URAN,NGT CS,NGT PIAZ,NGT MRES~PCD SA,PCD IDPH'DTE I~,DTE IIRD, DTE SFLU,DTE TENS,PTE PT,SPT !TTI.,SDT LTTI,SDT SP,SDT MRES,SDT DRHO,GDT LS,LDT :S!RH~L.DT TNRA;CN CNTC,CN~ TENS~CNL SGR,NGT URAN,NGT CS,NGT PXAZ,NGT MRES,PCD SA,PCP 2 293 2 2955 115 737 1302 -47 1 0 609 246 95 oo2 296 101- 2 852 CIMP DTE 563 IFRE DTE 500 IIXD DTE 680 SP DTE 000 MTEM DTE 400 DTL SPT 600 TT2 GDT 800 LTT2 SDT 438 GR SPT ! 84 HTEN SPT 097 PEF LDT · 500 LU LDT 750 882 bDT 75 LOT 93_~ LSRH TENS DT 000 NPH~ 915 NPOR CNL 599 CFTC CNb · o0o ~RES tnb NGT HTEN NGT !93 ~ 5 PCP - HTEN PCP 2.31~ ~600 DTL,SDT 42,000 ~ 87 · 8~ 0,0 ~) PEF 1 ;97~ bSRH 480 605 1.03 719 11 NDOR 84 CfTC 481 CGR ,51 TENS 77 ~TEN: 495 29~ HT'EN bDT LDT CNL c N ~ CN NGT PAGEI 36 387 750 20 000 40 438 -47 438 1 o0 5!~ 200 108 800 86 688 1156 000 4 426 566 500 386 000 44 104 4~5~229 2595.00~ 4827;4i6 95,98 1002,0 0 !4:96 ~00 96~06~ 468;250 326~750 2,059 2975"000 52~' 851 000 48~4,1~9 97,~ 1071, Tape Verification blst'"ng ;chlUmberqer lasEa Computing Center DEPT. IMPH.DTE IDOF.DTE IIRM,DTE SPAR.DTE MRES,DTE DTLN SDT TT3 SDT bTT3 SDT TENS SDT DPH! LDT QLS bDT bL bDT LSHV bDT LURH MTEM bDT RTNR CNL RCNT CNE G~ tnb ~TEM:CNE T,OR'NGT SDEV.NGT HDIA.PCD 3800,000 4.297 0 000 216 125 -g99 250 I 214 OOoo i 378 400 2875 000 20 919 '0 023 ooo 000 2 275 iii 375 206~ 597 878 70 8 O89 i04 ~196 o :~88 2930 O0 CIDP DTE lED DTE IIX~ DTE GR DTE HTEN DTE DTLF SDT TT4 bTT4 SDT NTEM SDT RHOBbDT OSS bDT LITH, EDT $SHV:bDT CALl. bDT MRE$.LDT TNPH CNb RCFT CNb CAb!tNb HTENCNb POTA NGT ~RE$ NGT RB NGT ~TEM P~D LA DEPT DQF DTE IIR~ DTE: 8PA~ DT~ ~RES DTE DTLN 5DT :TT~SDT LTT3 SDT TEN8 SDT DPH! bDT ObSbDT bL. bDT ~?EM:,bDT ~CNT,CN~ GP;CN THO~,NGT ~TE~'NGT SDEV'NGT TENS&PCD HDIA;PCD 0 000 ...409 500 -999 250 · 9~4 ~00 1529 · :0 008 ,204 750 1411000 ltO i01~249"938 CIDP DTE ZED DTE IMQF,DTE IIX~ DTE GR DTE. HTENDTE DTbF:SDT TT4'SDT. bTT4,SDT: MTEM*SDT~ RHOB,bDT, OSS, bDT ~iTH,hDT 'CALI.CNb H~EN'CN~ POT~;NGT MRE$~NGT RB.,N T ~TE~P~D, 4-MAR-199! 17111 209,500 4,590 0 000 2~ 344 4O0 ~8~ ¢00 8O llli 000 000 30 0 04~ 0 6~3 6 35~ 9 !DPH.DTE ILM,DTE IlRD,DTE SFbU,DTE TEN$,DTE DTSDT TTI SDT LTT1SDT SP SDT MRES SDT DRHO bDT ES bDT SSi bDT GR bDT HTEN bDT TNRA CNb CNTC CNb TENS Nb SGR ~ ~ G~ URAN.NGT CSeNGT ~IAZ,NGT ES,PCD SA,PCD '439 0;0o0 :22,641 .85.063 !165,000 '105,300 73~,600 IDPH,DTE 'lb~,DTE IIRD~DTE: SFbU,DTE TENS;DTE DT~SD? TTI,SDT ETT~SDT SP:'SDT MRESSDT DRH~ bDT · bS bDT SSi BDT SIRH bDl 2 HTEN 6 TNRA:'CNb CN!C'CNb TENS,CNE SGR,NGT 756 URAN,NGT ~6 PIAZeNGT .!25 MRES~PCD 063 SA,PCD 4 770 4 185 4 2875 103 682 1180 340 IFRE 000 2O0 000 TT~ 800 LTT DTE DTE DTE DTE DTE SDT SPT 063 GR.SDT HTEN.SDT :500 8$2,bDT 6 bSRH.bDT '~0 TENS'bDT :500 NPHI.CNE 206 NPOR.CNb 404 CFTC.CNE 000 CNb ~04 CGR.NGT i TENS,NGT 228 GR,PCD 30 HTEN.PCD 39 :~ ~ CINP.DTE XFRE~DTE · 3~i 000 I!XD'DTE ' 2 268 SP.,DTE 2815 000 MT~M,DTE l:iO~iO0 DTL'SDT ,72~600 TT2,,SDT · !317 600 bTT2,:SDT '49,:~2~ ' GR,SDT I ;2:25 HTEN.SDT O,Ot:~ PEF~LDT 379,00~ LU.LDI 208~37. 8$2~bPT 2,182: bSRH!.bDT 101,938 TENS'bDT 1105,000 NPHI'.CNb ' 3,547 NPOR·,¢Nb ~2204,~85 CF~C.~C.E 3025~.000 ~RE~ CNb !00~034 CG ~NGT 4'1,18 TENS~ NG~ 821,832 HTEN~ NG~ 50~$52 GRPD 'I'342 HTEN: ~D 1.,696 ' 85 232"0~0 20, I I:°°° 300 476.800 977,600 122,188 i155~000 $00 300.000 2,273 2930,000 34'197 37~493 rio0 :0 4 l ~00000'00 .42 969 -49 ill' 400 ,5 2 400 lo½4 : 400 0 0 348 25 .. : 000 °to :35 137 658 469 · ,69 2565 000 1105 ~ 0 Tape Verification btsttno chlumberqer AlasKa Computin~ Center DEPT, I~P~ D?E IDQF D?E SPAR DTE MRE$ DTE DTLNeSDT LTT3.SDT TENS,$DT DPHI,LDT Obi,bDT Lt.,bDT bSHV.LDT LURH bDT MTEM bDT ~TN~ CNG RCNT ~Ti~ CNG MTE~ NGT SDE¥ NGT TENS HDIA PCD DEPT IMPH DTE IDQF DTE iXRN DTE SPAR DTE DTbN~SDT TT3~SDT ~TT~'SDT TENS'$DT DPHI'hDT OLS'L. DT LSHV.*bDT bURH,bDT ~TE~-bDT RTNRCNL RCNT:CNL G~CNL NTE~,CN~ THOR NGT SDEV NGT TE~S PCD HDIA PCD 3600,000 3,!00 0,000 296,250 '999,250 1,227 O0 1524.800 2805,000 24,908 -0 02 209 621 1415 000 2 207 109 063 100 ~ 10 ~ 8 101 0 2770 12 680 3500,000 '6*207 0,000 . I56~;875 "'999,250 :900 · 873,600 1379~600 ~2740,000 2 7 2 4 ,625 14 ~ 6' 000 2 2~7 ~07 50O 231~8 ~328 99 ~02 10 646 ClDP,DTE IbD,DTE IMQF,DTE X~ DTE IIGR:DTE HTENjDTE DTbF,$DT TT4.$DT LTT4.$DT MTEM.$DT RHOBbDT QSS bDT LITH bDT 8SHV bDT CALl bDT MRES' bDT TNPH CNG RCFT CNG CALl CNG HTEN CNG POTA NGT ~RESNGT RB,NGT ~TEM PCD bAPCD ClDPiDTE ILD~DTE IMQF~DTE !IXM~DTE GR~DTE HTEN DTE DTLF~$DT TT.41SDT LTT4:SDT RHOB~LDT Q~SLDT kITH bDT SH¥ bDT AL! bDT ~RES-bDT RCFT CAL~ CNL HTEN CNG POTA NGT MRES NGT RB NGT ~TE~PCD: LA PCD 4-MAR-1991 17:11 275 500 3 639 0 000 14 242 1103 563 58 000 115 300 746 000 1318 800 1!I. 375 2 239 5 .000 .750 4 3 563 3~5 I2 750 990 500 2 679 0,187 3~9~119 109,063 10,898 IDPH,DTE Ib~ DTE IIRD~DTE SFbU DTE TENS DTE DT SDT TTI SDT bTT1SDT SP,SDT MRES,$DT DRHO,bDT LS,bDT $$1,bDT S1RH,LDT GR.bDT HTEN'bDT TNRA,CNb CNTC,CNb TENS,CNG SGR'.NGT URAN'NGT CS,NGT PIAZ'NGT MRES'PCD~ SA.'PCD 1·53,615 6;3~. 4 o;.ooo $ :;: 641 101'3,!,3 ~196'000 108'500 688.000 1160,400 I:09;375 2,202 0 ;028 1 IDPH DTEi Ib~ DTE: !IRD.*DTE 8FbU,DTE' TENS-DTE DT;SDT TT1,SDT bTTt,$DT SPSDT MR:ES SDT DRHO bDT 'b$ !bDT 063, S$1 bDT ~0 ' $1RH*GDT: 2 OR,bDT i TN~A*CNb ::CNTC. eCNb 0 $GR%NGT 4: PlAZ~,NG?' 00 MRESePCD 9221 SA,PCD 3 629 CIMP.DTE 23~ 8~6 SP.DTE IiXD.gTE 000 MTEM, DTE 100 DTL!SDT O0 TT2 SDT ~00 LIT2 $DT 281 GR.SDT 227 HTEN.,$DT 034 PEF,LDT 000 LUeGDT 250 SS2.GDT 11t bSRH.LDT 56 TENS,bDT 990 500 NPHIeCNL NPOR*CNb 3'529 04.912 CFTC;CNG MRES.*CNL 75,000 . 05,076 CGR*NGT 3'262 TENSeNGT 2 I .'PCD o 2805 .48 1317 -53 1 0 394 100 1,504 CIMP.DTE ,004 1~.750 ,!!XD,DT~ · 746 $P,DTE .2740,000 MTEM.DTE 106-200 DTL.SDT 688.800 TT2.SDT LTT2.$DT t~6§~600 72;:438 GR~$DT 1.251 HTEN,MDT 0'003 PEF*bDT 397"000 bO'*bDT 204,·875 :.2'189 LSRM'GDT 88*938 T~NS.bDT 94~ ~000 405 NPOR'CNb :496 CFTCi~CNb~ 000 9' 42i CGR~NGT 759 TEN$'NGT 8~3 .966 HTEN,NGT t,1~ 737 GR'PCD 376 HTEN~PCD I, 24 PAGEI 38 322 500 20 000 22 875 -53 281 111 375 114 400 .531 600 1114 000 103 563 I15~ 000 418 368 750 315 000 2 203 2775 000 39 469 39 289 578654 1.355 81,269 2455000 4829 252 lO0 563 990 500 16i'000 20.000 .11'273 72,438 109-.:375 107;500 475~!200 .971'200 101,313 1!96:*000~ 363,000 300*250 2.~;199 ,2700,000 39,234 36.936 :6 ,241~ '986 .'.000 484~'604 8'8,9~8 9451;000 ,IS Tape Verification Listing chlumberqerAlaska Computing Center IMP~,OTE IDO..,DTE X!RM'DTE S~AR,DTE DTLN,3DT TT3'$DT LTT3~,~DT DPH~,~DT ObS:,.L.DT LSHV,bDT: LURH~bDT ~TE~ hOT RTN~ G~ CN~ IHO.R NGT TEM NGT SDEV NGT T~NS PCP HDI~ PCP 3400 000 6 367 0 000 181 250 -999 25O 1 254 000 1479 200 2715 000 192 375 1415 000 2 271 106 000 3 264 215~ 142 8. ,125 106000 7 464 97 982 0 579 ooo :242 3300.000 3~9$? o,00o .242'000 .999,250 111:;30'0 962,000 5121.,200 2.680,.000 0,013 ~01,250 1.14,000 ,,~o2 .1909,896 90,'188 105,625 8'!586 96 ~85 0~: 84 11 88 CIDP'DTE ILD,DTE IMOF DTE IIXM DTE GR DTE HTEN DTE DTLF TT4 SDT bTT4'~DT MTE~ SDT RHOB ~DT OSSbDT LITH.bDT LI~bDT MRE$ DT TNPH.~N~ RCFT.~b CALl b HTEN CNL POTA MRES GT RB, NGT MTE~iPCD LA PCD CIDP DTE IbD DTE I~QF D?E IIX~DTE GR:DTE HTEN. DTE~ DTbF~SDT' TT4SDT LTT4..SDT ~TEM,~DT RHOBiLDT OSS~LDT ~ITH~LDT AL~DT TNPH:*:CNL: POTA.NGT MRE$.NGT ~TEM,PCD LA,PCD 4-MAR-1991 17:11 183375 0 000 20:344 87 750 1157 000 !02 700 701 600 1244 400 108 625 2.282 0.022 104,000 1317.000 9.992 3~;39o .748 630'781 9,992 1053.000 2.354 0'183 105,745 106,090 9'180 i .ooo ,473 ~4:;0~0 ::,1166,0~0 I066~0 0°0 114;2 1317, 493~ 10 .5~ 282' IDPH'DTE ILM,DTE~ I IRD, DTE SFLU,DTE TEN$,DTE DT,$DT TTI ,$DT bTT !. $ PT SP.&DT MRES,SDT DRHO.bDT LS'bDT SS 1, bDT SIRH' bDT GR LDT HTEN LDT TNRA CNL CNTC CNL TENS CNL SGR NGT URAN NGT CS NGT P~ AZ NGT MRES PCD SA*PCD ~DPH.' UTE ':IL~'DTE IIRD'DTE SFLU,OTE TE~$:. DT · D T ~, :$ O T: TT:I · 8P, SDT~ DRHD~bDT~ $ S 1 ,; b D T :~ O0 8IRH'bOT:~ HTE~'hDT 58 :TNRA~:CNh: O~ SGR,NGT: ~7 ' URAN'NGT' 8 ~. CS,' NGT P 1 A Z, N GT ~RES'PCD . C 5.449 ClMP.DTE 5 188 IFRE DTE 160 375 IIXD DTE 8-328 ' SP DTE 2715 000 MTEN DTE 104 600 DTL SDT 696 800 TT2 1243 600 LTT2 SDT -64.375 GR 0 ~. PEF 358 LU 210 625 882 2 184 LSRH 87 !25 TENS I05i 000 NPHI :135 NPOR 022.916 CFTC ,118 TENS 83909· HT N ~2~4 Z 317 1~390 HTEN 2,063 SDT SDT bDT LDT :bDT LDT .bDT ~CNL :CNL .CNL .NGT .NGT NGT PCD 194 2~80 ooo 709 SP,DTE 000 ,oo 000 ~38 G 11 268 HTEN ;$DT . 0:058 PEF.bDT 377;:250 LU'LDT 22:1'000 SS2,LDT · 2.094 b. SRH*:bOT 90'i88 TEN$,L.DT 1045'000~ NPH'ii~CNL · ~,490 I774,292' CFTC,CNL 2760,;000 9:1,~369 CGR. NGT 3,072 832,609 HT~N, NGT: 122,726 · 1'401 HTEN PCD 2,:008 ' PAGE: 39 156 875 20 000 14 805 -64 375 108 625 105500 473 200 1058 400 87 750 1157 000 3 291 331 500 307 250 282~ 258 000 34 279 35 365 646 783 1 390 64.'655 2435,000 4815.274 87,125 1053;000 252 625 20 000 ll 867 -59 438 !07 750 '517 1094 000 04§00 !166 00 000 0 :!4i 28 51771.4 .1. 401 68 946 2430 000 4837.295 90 I045 00 ,Is rape Yeriflcation blst.~nq ;chlumberger AlasKa Computing Center IMPH,DTE IDQF DTE SPAR DTE DTLN SDT TT3 SDT LTT3,SDT TENS,SDT DPHI.LDT OLS LDT LL LO? LSH¥ LDT LURH LDT MTE~ bDT RTNR CNL RCNT CNL TMO~NGT MTE~ NGT SDEV NGT HDIA PCD D~PT IIR~ DTE DTLN SDT TT'. DT TENS ~DT DT DPt{! LDT OLS bDT LL bDT MTE~ bDT. RTNRCNL RCNTCNL G~CNL TMO~iNGT ~TE~NGT HDI~ PCD 3200,000 2,742 0.000 335'000 -999 250 ! 273 1t7 900 924 800 ~474 800 26~5 000 51 298 -0 031 443 000 1414 000 1 779 104 500 4 583 16~7 7 104 500 9~ .350 963 0 831 2750 000 15 100 3100 000 4 125 0 000 -9 250 I 279 ,oo 2OO 1587 200 2630 000 51 009 -0 036 25O 4 000 10~ 784 5OO 3 863 175~ 807 76 10~ 5004 12 579 CIDP*DTE 'ILD.DTE IMOF DTE IIXH DTE GR DTE HTEN DTE DTLF,$DT TT4 SDT LTT4 SDT MTEM SDT RHOB bDT Q$$ bDT ~ITH LDT $SHV bDT CALl bDT MRE$ bDT TNPH, CNb RCFTiCNb CAbZ, CNL HTEN, CNb POTA, NGT MRES, NGT RB, NGT LA PCD CIDP.~DTE iLD, DTE IMQF, DTE IIXM, DTE GR DTE HTEN DTE DTLF TT4 SDT bTT4 SDT ~TEM 8DT RHOB ~DT OS$ bDT LITH bDT SSHV ~DT CALI.~DT MRE$ bDT TNPH CNb RCFT CNL CALl CNb HTEN CNb POTA NGT MRE$ NGT RB NGT MTE~ PCD LA PCD 99! ! 7:11 31~ 500 !00 0 000 13 602 66 250 180 00o 40O 256 400 106 313 !.804 0 0 000 15 039 5 2~,8 9 5 0 6 7 4 0 2 IDPH,DTE ILM.DTE II~D.DTE $FLU.DTE TEN$;DTE DT.$DT TTI,SDT LTTI,SDT S~.SDT. MRES.SDT DRHO.~DT SSI.LDT S1RH.LDT GR.hDT HTEN.LDT TNRA.CNL CNTC CNU T~N$ CNL $GR NGT NT PlAZ NGT MRE$SA P Dp~o IDPH DTE 'I~M DTE II D DTE 8F~U DTE TES DTE DT SDT · :TT~ SDT bTT1SDT SP SDT MRE$ SDT DR~O bDT L~ LDT $~! .bDT S1 H L.DT I R TN A CNb CNTC CNb~ NS:,CNL UR NGT ¢~ NGT PIAZ NGT MRES PCD SA PCD 3 158 ClMP DTE 2 773 IFREiDTE 260 250 IIXD DTE 2 58~ SP.DTE 00 DTL.SDT 2~ i200 TT2 SD, 125 400 LTT2~SDT -56,8~3 GR,,SDT 63 TENS.bDT 66,2~0 ~RE$.CNL' 8 CGR.NGT 42;985 GR 4;695 CI~P'DTE 4: ,! 4.5 · !1'25 !iX. ,DTE itl: IFR~.DTE! SP'DTE 469'~ '5~i;279' HTEN'$DI 0.041 PEF:'LDT 831~500' LU. 239.000 7~662 bSRH ' TENS 125 97] 00'0 NPHI !655 14~ NPOR CFTC 2665 00 2;,675 T 854'497 HTEN. 31::.;896 bDT bDT bDT LDT CNG CNL CNL CN: NGT PCD. PCD PAGE: 40 364 500 20 000 22 438 -56 813 106 118 300 504 000 i038 800 66 25O 1180 000 5 570 797 500 382 250 I 761 2750 000 48 190 47 414 417:212 I 425 53 878 .2385 4803 044 ~145 ,000 -58,469 .I0.~'563 800 871375 ~62 000 79~ 699 000 396500 767 40536 466044 1,.423 68,178 2370,000 4868,86! 7 chlumberqer Alaska ¢omputtn9 Center DEPT IDOF,DTE IIR~,DTE SPAR,DTE MRES DTE DTLN SDT TT3 SDT LTT] SOT TENS SDT DPHI LDT ~LS LDT LL LOT LSHV LDT LURH LDT MTE~ LDT RTN~ CNL RUNT CNL THOR.NGT MTE~,NGT $DE¥,NGT TEN~,PCD HD! ,PUD ID~F,OTE IIR~,DTE SPAR~DTE ~E$,DTE DTLN~SDT TT~,:SDT ~TT3'SDT TEN$:,SDT: DPH!,~DT 0LS~LDT LL'~LDT LSHV,LDT LURM LDT RTNR CML: RUNT CNL G~ CNL MTE~ THOR NGT ~TE~ NGT 'PUD HDI~,PC~ 3000.000 4.375 0 000 183 375 -999 25O 01 1 ~00 000 ooo 26 972 =0 002 217 625 1413 000 2 201 10~ 750 646 ,o 40 9~i~31 '2560 000 10 773 2900.000 3,459 0'000 .255~625 999'250 ' · I:~i289 oo O6 I413 061 1', 88 102,:1200 79~188 !02,:: 88 259O'000 14.242 CIDPDTE ILD DTE IMQF DTE ~IXM DTE GR DTE MTEN DTE DTLF MDT TT4,SDT bTT4 MDT STEM MDT RHOB LDT QSS LDT LITH bDT $$HV bDT CALl bDT MRE$ LDT TNPH tnb RCrT CNL CALI~L HTEN- POTANGT MRES:NGT RB:N T' MTEM, P~D LA. PUD C~DP DTE! IbDD~E !IX~ DTE' GR, DTE MTEN~DTEi DTLF,$DT TT4'~DT LTT4'$DT MT:EM'SPT LITH~LDT 8SHV LDT CALf bDT MRES bDT 'REFT :CALI.~CNL. HTEN..CNL .POTA. NGT MRE$ NGT RB:NGT~ MTEM~CD LA, PUD 179'000 0 000 8 766 61 281 1157 000 106 800 712 400 1289 200 104 8~3 2,205 0 020 0 758 34 444 !0 7 ~ 957 500 · ~,66 '75A ,766 237.8 S :4'2 6 0,0 0 -3.2 2 6e'6 8 !!42'0 0 '1!6~6 0 761,2 0 1382,0 0 10~'6 8 1'9 0'0 '2' 57,e 5 13!6,0 :0 '15,6 ,4 '": 4 ~4 461 715 :15 6~4 251 470 1 2 IS8 '.,2 039 IDPH,DTE ILM,DTE IIRD,DTE 8FbU.DTE TEN$,DTE DT.SDT TTi.$DT LTTI,$DT SP.SDT MRE$,SDT DRHO,LDT b$ LDT :$51 BDT SXRH bDT GR bDT ~TEN LDT TNRA CNb CNTCCNL TEN$,~CNL SGRiNGT URAN~NGT C$,~GT PIAZ.NGT MRE$;PCD SAePCD XDPH;DTE IXRD, DTE SFLU:':DTE TENS.DTE, DTiiMDT~ TTI.;SDT LTTI,SDT, SP,SDT ~RES,$DT. ~$'~DT~ :~S~R.i'LDT GR"LDT HTEN,hDT TNRA,CN~~ CNTC:CNL~ TEN$CNL 8GR< NGT URAN~ NGT CS NGT P~AZ :MRES SA PCD: 5 586 CI~P,DTE 125 IFRE.DTE SP'DTE 000 NTE~.DTE 800 . 600 TT2. .MDT DTL SDT SDT 000 LTT2 188 GR.$DT 301 HTEN.SDT 011 PEF.LDT 500 LU*LDT 875 $$2.LDT 148 LSRH..LDT 5 159 3 2615 107 713 1288 -66 1 200 2 61 281 TENS.LDT 957 500 NPHI.CNL 3 398 NPOR.CNL '2188'859 CFTC.CNL 2560,000 ~RE$.CNL :34 . NGT 63'504 CGR, 943. HTEN.NGT . ~TEN;PCD: -:008 : . ..2 2525 O( !76.~38 6( 80 61 3 4 0 0 0 6 ,0~0 o DTE DTE ,DTE iDTE DTE :$DT SDT 8DT bDT LDT bDT LDT ,bDT .CNL 199 XIXD, !0 NTEM '0 DT~ 0 TT2 '~ LTT2 9 PEF LU L&RH NPH~, NPOR ~69 ~096 CFTC CNL 259 000 MRE$,CN'~ 72 !47' ,05~ 850 05~ HT~N~NGT 39:26~ GR,PCD PAGE: 41 228 375 20 000 13 930 -66 188 104 813 I08 300 492 400 1064 000 1157 0 3 293 371 750 311 250 2 ~93 2560 O0 38 027 42 489 65~I03'44 4 189,000 ~0,000 01,590 61.,344 ,700 ~$~,'800 11:55;600 68;688 1:142,000 3,680 568,000 355,500 !.946 2590,000 43;098 41.~042 484 004 444 ~! 139 000 4810 769 · 79 ,188 :969 0:00 Tape Yerificat!on List.i ,¢hlUmberger AlasKa Comput nn~ Center DEPT IDOF.DTE IIRM.DTE SPAR,DTE DTbN SDT TT3 SDT LTT3 SDT TENS SDT DPH! bDT ~bS bDT LSHV bDT LURH bDT MTEM LDT RTNR CNL RCNT CN5 GRCN5 MTENCNL THOR NGT M~EM NGT SDE¥ NGT DI PCD 2800 000 3:402 0 000 274 250 -999 250 1 292 111 2OO ~034 4OO 1945 2O0 2420 000 37 736 -0 051 286 000 1423 000 2 014 I01 50O 4 172 500 104713 93 168 0672 2520 000 23 267 CiDP.DTE ILD.DTE IMQF,DTE IIXM,DTE GR.DTE HTEN.DTE DTbF.SDT TT4:SDT GTT4 SDT MT£M BDT RHOB. bDT Q$S, bDT blTH~bDT SSHV bDT CAbI bDT MRES~LDT ?NPH:CNb RCFT CNb cab! CN HTEN CN~ POTA~NGT MRES, NGT RB:NGT MTEMPCD D~PT.:. iDQF DTE 'IIRM DTE SPAR DTE MRES DTE. DTLN SDT TT~SDT TENSSDT DPH! bDT bDT bURH ~DT NTE~ ~DT RTNRCNb RCNT CNb G~,CNL~ THOR,NGT ~TE~,,NGT SD~V,NGT TENS,PCD HDiA'PCD · 2700 000 4 484 '0 000 i96 0 "999 ~5 50 02 1 ! 100 9~8800 1687 600 2390 000 23465~ .o 1..0,;,625 75;938 100.'625 2580,000 I2,087 CIPP DTE ILD DTE IMQF DTE GR DTE~ ~TEN DTEI DT~F SDT' TT4 LTT4 SDTi MTEM SDT ess bDT b!T~ bDT ~SH¥1bDT MRES.ibDT TNPH~i RCFTi~Nb:' CAbI,CNLi HTEN'CNb POTA,NGT MTEM PCD LA PCD 260.000 -15.797 72,688 1~ ,500 14t0, 0 104.375 2,0~7 24~ 1 1 5o IDPH,DTE ILM,DTE XIRD,DTE SFLU,DTE TENS,DTE PT SDT TT1 SDT bTT ! SDT SP SDT MRES SDT DRHO bDT GR bDT HTEN ~DT TNRA CNb, TENS CNb SGR .NGT URgiNG, NGT P4AZ NGT M ESPCD' SA POD' 0 'I022 '762 t455 t03 2 to 0 .312 i00 10 250 IDPH:!~DTE 000 ' !.IRD., DTE 047 BFbU DTE 563! TENS DTE 000. 800. ~T :1;. SDT 000 b~ ~SD~ g 8 MRES,SDT~ 0~8 bS~GDT 000 ~6~'9 GR , bDT H TEN,, bDT TNRAiCNh 844 440 ~CNTC, 992 ~TENS~ CN,b :000 NGT 625 : 53 2 SGR URAN~ CS P ! A Z MRES NGT NGT NGT DTE 844 CIM~:DTE :406 IFR 375 IIXD,DTE 22~:695 SP,DTE 2420 000 ~TEM.DTE 115 800 DTG,SDT 801 600 TT2.$DT 1~10 400 LTT2,SDT 64 313 GR,SDT I 292 HTEN,SDT 0 008 PEF.LDT 543 500 _~U.LDT 2!7 125 BS2.bDT 8~ 625 TENS,bDT 98 500 NPHI,CNb · 3~ 649 NPOR,CNL CFTC,CNb MRES.CNb 1849;394 2520.000 '80'245 CGR'NGT 8 1,65~ TE:NS,NGT $'1,52,7 HTEN,~GT 21,768 GR,PCD 1,449 HTEN,PCD 1,696 5 4 166 1 0 '75 1025 258:0 66 2 846 IFRE.DTE ~ IIXD'DTE 6P,DTE 000 NTEM,DTE :800 DT:G,$DT ii~00 TTR~SDT O0 5TT2.SDT ~188 GR.SDT 302 HTEN,$OT 082 PEF.LDT ,~DT 004 GSRH'bD',' ~3~ TENS.bDT NPHI,CNL 6~ NPOR. CNb ~01 CFTC 000 MRES :874 CGR 698 TENS 572 HT~N 79 GR 69 HTEN CNL CNL NGT NGT NGT PCD PCD PAGE{ 42 750 ooo 4 840 -64 313 104 375 115 000 560000 ~72 4O0 72 688 1152 000 3 160 515 5OO 347 000 252~ 018 O00 4!. 011 4 i27 49~ 164 61 449 2!A5000 48.7;91 t88 51.3.600 lI19;200 64'563 1!35,000 383,750 326,750 2. 380 ,2580 000 '43~284 4:3:.334 540~552 4.~i 469 !79 ~2105000 4848 ,344 75. 938 1025 000 chlumberger Alaska Computing Center DEPT, INPp DTE XDQ DTE !XRM DTE SPAR DTE MRES DTE DTLN SDT TT~ TE~S SDT DPHILDT bURH BDT NTE~ bDT RCNT CNB GR CNL NTEM CNB THOR NGT ~TE~ NGT SDEV,NGT TENS,PCD HDIA,PCD NPU DTE IDOF DTE iliRP DTE SPAR DTE ~RES DTE DTLN SDT BTT3 SDT TENS &DT DPHI BDT ~h8 bDT Lb bDT L&HV bDT bURHbDT NTE~,bDT RTNR'CNL RCNT GR CNb HTE~ CNb THOR NGT MTE~ NGT SDEVNGT TENS PCD HDIA PCD 2600,000 5,676 O, 000 .166,000 999 250 ! 324 121 900 935 200 t62.20 000 237. 000 0 3 ?[o ooo 2 , 44 99 ~$O 2 991 2629 580 57 625 99 750 6 705 90 075 0 12 372 · 2500 000 7 938 0 000 128 000 -0 120 400 i149:200 1905 60'! 229O 0 006 ~50 234 ~o6~ 1412 2 !70 99188 469 0~ 1544 ~188 64 89 0 :I49 2390 000 ~4 46! CXDP,DTE IbD,DTE IMQF,DTE XIXM,DTE GR DTE HTEN DTE DTLF SDT TT4 SDT LTT4 SDT MTE~ SDT RHOB BDT QSS bDT bITH BDT $SHV BDT CALl bDT MRE$ bDT TNPH CNB RCFT CNb CAb! CNB HTEN CNb: POTA NGT NRE$ NGT RB NGT STEM PCD LA PCD CXDP DTE ILD DTE IMOF DTE IIXN DTE GR DTE ~TEN DTE DTBF SDT TT4 SDT LTT~ SDT MTE,. SDT RHOB bDT QSS~LDT: GITH:bDT: SSHViLDT TNPH::CNb RCF~ Nb CALX ~NL. HTEN CNbi POTA NGT ~RE$ RB:, GT MTEM PCD UA PCD 4-MAR-199! 17.'.11 ~ 000 -5 ! O0 699 ~00 02t 10 313 ' I :OOO 8 5 455 ii 954 O, 1o, 99 000 0~, !3 ;~, ,172 4~:479 280 372'0: i005°00~ 2; 317 0' :t 69 ~45;677 "99'188 ~2,453 ID~,DTE ! ,DTE IXRD,DTE SFBU,DTE TENS,DTE DT.,SDT TTI,SDT BTTI,$DT SP,SDT MRE$,SDT DRHO,bDT BS LOT Si bDT , GR DT HTEN ~DT TNRA CNb CNTC.:CNL TENS tnb SGR NGT URAN NGT CS NGT PlAZ NGT MRES P~D SA ~D XDPH,DTE IbM:;DTE IXRD-DTE :srbu DTE TENS DTE DTSDT:i TTISDTi ~RE~ SPT'~ DRHObDT' HTEN::;LDT'~ CNTC'CNb: 'TENS'CNb' SGR,NGT URAN,NGT CS;NGT: P~.AZeNGT! NRES.PCD SAi,.PCD 6 5 135 5 2370 94 701 1425 -86 1 0 2417 453 CIMP.DTE 672 IFRE DTE 625 IIXD DTE 055 SP DTE 000 STEM DTE 400 DTL 600 TT2 200 LTT2 625 GR 324 HTEN 005 PEr 000 bU :25 SS3 NPH! 985 NPOR. 964' CFTC 000 MRE$ 829 CGR .358 TENS 05 ~7½ HTEN G~ 484 HTEN 583 SDT SDT SDT 6DT SOT LOT bDT BDT BDT LDT CNL t'0,03:1 CXNP DTE 98,063 IlXO 7'297 SP DT 2~90,000 NTE~ 5,4;:000' OTb SOT [9,200 112 gDT ! 2~ 800 bTT2~DT 92 250 GR,SDT ! 328 HTEN,SDT 000{ 3750 .. .'t,P~ : b:SRH' ? 875 TENS · oo "00 SEES CNL TENSNGT · 8 ' ' PAGEI 43 X76 000 2~ 000 · 254 -8 471-200~O0 1077 6OO 55 656 1157 000 3 525 346 500 299,750 ~4~00~ :211- '2090-,000 4845,.918 ::57'625 954,000 1:25:938 20:000 -I. 596 -92 250 I02 938 I27 400 626 000 ~291.200 68 31,3 1164 000 3, 789 393000 '30~000 000 49 023: 49 2005;000 483i,573 :1005,000 ,IS Tape yerilication Listing ~chlumberger las~a Computing Center IDQF DT£ IIP~ DTE SPAR DTE MRES DTE LTT~,SDT T~NS,SDT DPHI,~DT OLS,LDT LL,LDT bSHV LDT MTE~,LDT RTNR CNL RCN? GR CNb MTE~ THORNGT MTEM NGT SDEV NGT TENS PCD HDIA PCD DEPT, I~PH,DTE IDOF,DTE IIRM,PTE SPAR,DTE ~RES,DTE DTLN;SDT TT~,SDT bTT3,SDT TEN$;$DT DPHI,:LDT OL$<'bDT LSHV,bDT LUR,~LDT MTEMjLDT RTNR,C~L RCNT,CNb PTE~.NGT $OEV'NGT TENS~PCD HDIA'PCD 2400 000 28:938 0,000 34,219 -0,029 7.4 I12,0~) 594,80 665,20 655.00 52,2! 76~ 37 1415 000 2 830 99 625 4 179 1405 679 30 203 99 625 '999 250 '999 250 -999 250 2405 000 13,18! , 2300 000 ! 0: 828 0,000 89.~i 25 . OiioO, 2 117;200 i 840 O0 2620,000 ~o?o o 86 050 1416 2:748 99 ,438 4:500 1263 8 99 · ,,999 ~ 0 -999 -999 50 2270 000 1'3 107 ClDP DTE ILD DTE IMOF DTE IIXM DTE GR DTE HTEN DTE DTLF SDT TT4 SDT LTT4 SDT MTEM SDT RHOB LDT QS$ bDT LITHLDT AL~ bDT LDT MRES.LDT TNPH,CNL RCFTCNL CALI~CNb HTEN'CNb POTA,NGT RB,NGT ~TE~,PC~ 5A.PCD CiDP DTE ILD DTE MOF DTE IXN DTE GR DTE NTEN DTE: DTLF BDT TT4SDT: bTT4 MTEM SDT~ RHOB bDT LITH~LDT:: 5SHV;LDT CAL!'LDT MRES,LDT TNPH;CNL: RCFT,CNL HTEN',CNL. POTA~NGT RB,NGT ~TEM,PCD= LA'PCD~ 4'MAR'lggl 17~1! 29 672 30 625 0 000 =12 547 28 719 708 500 120 600 510 4O0 144i 2 )0 q 9 61 7:8 '0 '1 r9 12O21 10t9 0 ..999 2 ~0 '999 250 99 ~ I 575 0 67 .20,2 4 !318.0 0 59,848 2~2'499 i2'344 ~ o I 7' 000 ~999.250 ;999,250 999,250 99;438 11.469 IDPH~DTE ilLN, DTE IRDDTE $FLU DTE TEN$:DTE DTSDT TTi SDT LTTX SDT $P SDT MRE$,SDT DRHO.LDT L$,LDT SSi, bDT $1R~LDT GR,bDT HTEN,:LDT TNRA.CNb CNTC CNL~ TENS CNb: SGR NGT URAN NGT: CS NGT' P1AZ NGT MRES PCD SA PCD IDPH,DTE i.b,DTE IR~,DTE FLU,DTE TEN$,OTE DT:;$DT TTX.SDT LTTISDT SP SDT MRESSDT DRHO~DT LS bDT' SSI bDT :.SIRH bDT GR :bDT HTEN LOT TNRA~CNL CNTC~CNL TENS CNL ~SGR NGT URAN NGT CS.NGT P1AZ.NGT ~RES,PCD SA PCD 33.688 CIMP DTE 27.766 IFRE DTE 6 SP DTE O0 MTEM DTE 4~5 oo TT ,400 SDT 000 402 HTEN 991 PEF 5OO bU. 75O $$2, 836 203' TEN$~ NPOR, 9 CFTC, 250 CGR 1444 -30 7 -0 153 30 1019 4 240 -999 -999 -999 -999 i ,BDT .bDT bDT ,LDT ~LDT .bDT :CNL ,CNL NGT 250 TENS.NGT 250 HTEN,NGT 250 GR,PCD 492 HTEN~PCD li'188 CI~P,OTE ~0'625 8~,~00 IFRE~DTE I'IXD,DTE 1 '258 $Pr, DTE 2620.000 MTEM'DTE 65.500 DTL~$DT 474 400 400 LTT2'SDT 789. G.R SDT 17:!. 55 '4 4,! ,1223 2270 =999 =999 ~999 ,999 402 HTEN, 953 PEr 375 094 LSRH: 664 438 TEN$~ O00 NP 640 NPOR~ ,333 CFTC 2~0 MRE$ CGR 250 TENS 250 HTEN~ 250 497 HT~N :639 BDT bDT LDT LDT bDT bDT CNL NGT NGT NGT PCD PCD PAGE{ 34 20 0 -30 362 1182 28 7O8 14 154 85 2 2405 5~ 53 320 -999 -999 -999 ~0 1019 7 6~3 227~ 60 6& '274 -99 '999 47 !017 44 000 000 719 4O0 1'19 5OO 930 125 0'75 ';79 000 ~50 25O 25O 0 89 469 I 00 000 200 000 859 250 000 002 106 598 497 250 250 250 ~IS Tape verification List~nq Center ,cblumberqer laska .comput n~ 4-MAR-t99! 17;11 PAGE; 45 DEPT, ID~F,DTE IIRM,DTE SPAR.D?E ~RE$'DTE DTLN.$DT TTI,SDT LTT BDT TENS SDT DPHI LDT OhS EDT LL LDT LSHV LDT MTE~ bDT RTNR RCNT THOR NGT NTE~ NGT SDE~ NGT TE~S PCD. BD!~' PCD ~Di}F DTE MR~$ DTE TT) SDT hTT) SDT TENS :SDT ObS,'bO?' ~DT LgRH ~DT ~TE~ bDT RTNR tnb RCNT CUb GR MTE~ CNL ~TE~ NGT SDEV NGT TENS PCD ~DI~ PCD 2200.000 17,~72 0,000 §6,2~9 '0 031 7 461 103 000 -999 250 1965 600 2605 000 -999 250 -999250 -999 ~50 -999 ~50 -999 50 ~999 250 -999 250 '999 250 -999 -999s°5o -999 250 -999 '999'250 "999'!;250 ':ooo 78;06.3 7,~45 ,!. a;soo .999,250 ~999:~250 "999,250 '"999~250 '999~250 ~999,250 '999~250 '999*:250 "999.250 '999'~50 '999,250 -999~250 -999,250 "999~50 C!DP DTE IUD DTE IMQF DTE IIXM DTE GR DTE HTEN DTE DTbF SDT TT4 SDT bTT4 SDT MTEMSDT RHOB bDT ~SS EDT bXTH EDT SSHV LDT CALl ~DT MRES ~DT TNPH CNL RCFT CNL Cab! CNL. HTEN CNb POTA NGT MRE$ NGT RS NGT MTEM PCD LAPCD CZDP DTE 'XbDDTE GR;DTE HTEN,DTE DTLF,;~DT TT4~$DT LTT4,~DT RHOB*LDT~ 'SSHV ~ · CA:bi DT ~RE$, ~DT TNPH~ RCFT.~NB: CAL:t'CNb HTEN~CNS~ POTAi~GT MRES:..GT RB,NGT MTE~,PCD 0 000 62 188 59 125 722 500 218 600 -999250 1356 O0 61 ~38 -999. 50 -999 ~50 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 '999 250 -999 250 ~999 250 -999 250 -999 250 -99 -99~ 250 250 8. 500 113 400 '999 250 :156 "99 250 '99~ 250 '99~ 250 '9 ~999 250 '999 ~50 -99 ;:250 '99~.250 "999i250 "999.250 '99 .250 IDPH.DTE IL~,DTE IIRD'DTE SFbU'DTE TEN$.DTE DT'$DT TT1,SDT ETTI.SDT SP.SDT MRES'SDT DRH~,bOT ES.bDT SSa.bDT SlRHiLDT GR.SDT HTEN.LDT TNRA.CN~ CNTC.CNL TEN$;CNL SGR'NGT URAN.NGT CS;NGT P~AZ.NGT MRES.PCD SA,PCD XDPH DTE: IL~DTE XIRDiDTE SFbUDTE~ TENSDTE DT:SDT! TTi SDT' bTTi $DT: SP SOT HRESSDT DRHO SOT LS bDT: .S$1. bDT GR,bD? HTEN;bDT' TNRA.CNh CNTC,CN~ TENS*CNL SGR NGT URAN NaT CS NGT PIAZ NGT ~RES PCD SA PCD 18.547 CIMP.DTE 16 875 IFRE.DTE 49 15 2605 999 1357 -30 7 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 . -999 -999~ 938 867 000 250 250 TT2 200 bTT2 953 GR 461 HTEN 250 PEF 250 LU 250 552 .250 LSRH 250 TENS .~50 NPHI 50 NPDR ~$0 ~50 25O 250 IIXD.DTE SP,DTE MTEN.DTE DTL SDT SDT SDT SDT bDT ~DT EDT bDT bDT .CNL ,tNb CFTC'~Nb MRES.CNE CGR;NGT TENS.NGT HTEN.~GT GR.PCD HTENePCD :781 2~IrO00 -999..2:50 -40 CIN~,DTE IFR DTE IIXD DTE :SP DTE MTE~DTE DT SDT ~SDT TT2 LTT2~$DT : GR,$DT .99~,:145 HTEN,:$DT :250 PEF bDT -999~250 bU"bDT -999 ~O SS2:,~DT -999 ~5.0 -999 ~50 TENS,LDT~ -999:250 NPH:I:.CNb. 99 -99~ 0 -99 ~0 ,TEN.NGT -999~"999"~50 GRjPCD 58 88 20 ~00 37 438 -30 953 6 438 -99'~ 250 -999250 1142 800 59 -999 250 -999 250 -999250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999250 -999 250 ~999 250 81 75O ~20000 .4~ 875 :063, '62 "999 250 -999 250 1:251:200 52 469 81~ 500 "999;2:50 ::999,250 .999;250 ~999'250 '999,;250 -999 '~999~50 :-999 250 "999 250 '999~250 ~"999~250 '999250 ,IS Tape Verification Listing ~chlumoeroer AlaSka ¢omputinq Center DEPT, XNPN*DTE XDOF"DTE IIRN,DTE SPAR.DTE MRE$,DTE DTLN,SDT TT3,$DT LTT3.SDT T£N$.SDT DPHI,LDT OLS,LDT LL,LDT LSH¥,LDT LURH bDT NTEN:bDT RTNR CNb ~C.NT CNL ~T£~ CNL T~OR NGT ~TE~ NGT SDEV*NGT TEN$,PCD HDIA'~CD E$',DTE DT~N,$DT TTS*$DT LTT~SDT ENS SDT LL ~DT ~SHV DT LUR~LDT C~L T~ORNGT SDE¥ NGT 2000 000 13 633 0 000 70 063 -0 050 7 ~30 1223OO '999 250 1906 40O 2500 000 -999 250 -999 250 -999 ~50 -999 50 -99 250 -99~ 250 -999 250 ~999250 -999250 -999~250 .-999 .999~ 50 50 -999~250 -999250 -999250 t900,000 82'3~3 o;ooo ~3~?03 '0,070 '7"254 .!02;800 999..250 61o4oo 415000 :~'999 250 '999 250 -999 ~'999 250 '999 ~999 250 ~999 250 '999:250 -999250 -999 -999 0 -999 ~0 -999 0 -999 ~50 CIDP.DTE XhD.DTE IMQF.DTE IlX~,DTE GR.DTE HTEN DTE DTLF SPT TT4 SDT LTT4 SDT ~TEM SDT RHOB LDT QSS LDT LITH GDT SSHV GDT CALX LDT MRES LDT TNPH~CNL RCFT, CNL CALZi.CN~ HTEN~CNL ~RE$1NGT RB, NGT ~TEM, P~D LAPD CXDP,DTE ILD*DTE DTE HTEN;DTE DTLF,SDT TT4*$DTi LTT4;SDT NTEN,$DT RHOB,LDT OS$,b T LITH,L~T $SHV,LDT CALI*LDT TNPH~CNb: ~CFT,CNb:~ HTEN,CNb, POTA~NGT ~RES:,NGT RB~NGT:, NTE~:,PCD LA,*PCD 4=~AR-1991 17:11 64 375 15 320 0 000 26 250 65 063 689 5O0 462 400 -999 250 1469 200 61 656 -999 250 -999 250 -999250 -999 250 -999 250 -999 250 -999 250 e999 250 '999 250 -999 250 -999 250 -999 250 '999 250 '999 IDPH.DTE ILM,DTE IIRD'DTE SFLU,DTE TENS,DTE DT,SDT TTI,SDT LTTI,~DT SP,SDT DRHO. LDT $S!LDT S1RH;LDT GRLDT HTEN bDT TNRA CNL CNTC CNL TENS CNL SGR NGT URAN NGT CS NGT PIAZ NGT ~RE$ PCD SA PCD 8~:,328 IDPH O0 IIRD '99~ ~999v250 GE -999~2~0 TEN& 999.250: .CS 999 20 9.~i9 250 '999 250 'SA~ DTE. DTE DTE: DTE DT SDT SDT SDT SPT LDT GDT LDT LDT LDT CNb: CNb ,P, D 15 523 CI~P.DTE IFRE DTE 117 SPeDTE 000 ~TE~,DTE 50 DTL*$DT 50 TT2,SDT 20~ LTT2.SDT ~ GR,SDT 0 HTEN,$DT 50 PEF,LDT 50 LU'LDT 250 SS2 LDT 250 LSRH LDT 57 12 2500 -999 -999 1471 7 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 ,999 '999 -999 CFTC 250 ~RE$ 250 25O 250 H~EN .:50 ~50 GR HTEN ~50 ~DT .CNL ,CNL .NGT :NGT NGT PCD 120063 69 43 78 II 125 21i5000, "999250 5O0 :254 HTEN iDT "999-250 -99~250 ~999,250 GSRH'LDT 999~ TENS*LOT -999~ NP~.I,CNL -999 NPoE.CN~ -9! CFTC:*CNL .i CGR.,~G~ -,9~ TEN$~N T -9' :HTEN'N,IT -999 '0 GR*PCD -999 ~0 HTEN.PCD '999250 DTE PAGE~ 46 73 313 20 000 8 28! -52 439 61 656 -999 250 -999 250 1219 600 65 063 689 500 -999 250 -999 250 -999 250 -999 250 -999250 -999 250 -999 250 -999 250 ~999 250 -999 250 -999250 -999 250 '999 250 "999 250 12,141 20.000 -0.298 '72'500 ;250 '250 1064;:000 37~3:I3 .693,000 .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 ,]:8 Tepe ver:[~lc~tion Listln~ DEPT, ID~F,DTE I!R",DTE SPAR,DTE MRE$,DTE OTLN,SDT TT3,$DT LTTS.SDT TEN~,SDT DPH*,~DT ~L$o~DT L~.~DT ~SHV bDT ~UEN bDT STEM bDT RTNR CNG R¢~T TROR NGT ~TE~ NGT SDEV~NGT TENS PCD HDIA~PCD DEPT I~PH DTE DQF DTE IIR~ DTE SPAR DTE NRES DTE DTLN SDT TT~ SDT LTT3 SDT DPHt bDT OhS bDT GL bDT LSHV GDT LURH bDT ~TNR CNL RCNT CN~ ,,~,O NGT NTEH NGT SDEV NGT TEN~ PCD HD! PCD !800 000 56 594 0 000 17 688 125,000 -999,250 2140,000 24t0~000 -999,250 -999~250 -999-250 -999 ~50 -9991 50 -999 250 -999 0 -999 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 1700 000 14 53 0 ~00 64 3 O6 0 0 2335 000 999 -999 ~50 -999 250 -999 250 -999 250 999 -999 ~50 -999 50 -999 250 -999 250 -999 250 -999 250 250 ILD DT£ XMQF~DTE XIXM, DTE GR. DTE HTEN. DTE TT4SDT bTT4 SDT MTEM SDT RHOB GDT OSS bDT ~{TH bDT SSHV GDT CAG! bDT MRE$ ~DT TNPH CNb RCFT CNG CAb! CNG H?EN CNG POTA NGT MRES NGT RB NG? M~EM PCD LA POD CIDP DTE IGD DTE I DIE R DTE HTEN DTE DTLF SPT TT4 SDT LTT4 SDT ~TE~ SDT RHOB GDT OS$ bDT GITH bDT SSHV GDT CAL~ GDT MRES LDT TNPH ' CNL, RCFT CNG CAbt CNG HTEN CNG POTA NGT N R E,5. NGT ~4TE.M LA PCD 4-MAR-199! 17111 I 727 6 188 O0 -2 09 $ 94 O0 50 O0 -9~9 -999 0 -999 ~50 -999 250 ~99' 250 -99~ 25O ~99~ 250 -9~~ .50 -99~ ~50 -99~ 250 -99' 250 =99' 250 -99 250 -999 250 -999 250 58 656 16 719 0 000 -8 180 52 .281 72 .254 500 400 ~ 999 250 1578 400 999 '999 ~0 '999 '99 '99 ;0 '99 '99 '99 '99 -99 ~0 IDPH DTE IbM DTE IIRD DTE SFGU DTE TENS DTE DT SDT TT1 SDT bTTI SDT SP MDT NRE$ MDT LS LDT 881 bDT $1RH GDT GR bDT HTEN bDT TNRA CNL CNTC CNL TENS CNL SGR NGT []RAN NGT CS NGT P1AZ NGT ~RES PCD SA. PCD IDPH ,DTE ILS ~DTE. IiRD DTE. SFLU DTE. TENS DTE DT gDT TT 1 gDT bTTI SDT SP SDT MRES~ SDT DRHO GDT LS'bDT $1RH,LDT GE,bDT HT~N ,bDT TNRA CNG CSTC CNG: TENS CNG SGR NGT URAN NGT CS NGT P A N.T 16 58 ~410 999 -999 1540 -95 ? -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 78 IFRE,DTE IIXD, 89~ DTE 31 SP.DTE 000 MTEM.DTE 250 DT~.SDT 250 TT2.SDT 400 LTT2,$DT 313 GR.SDT 336 HTEN SPT 250 PEF LOT 250 bU LOT 250 SS2 250 GSRH LDT 250 TENS bDT 25O NPH! CNG :250 NPOR CN~ 250 CFTC CNL 50 ~RES CN ~50 CGR NG~ 250 TENS NGT 0 HTEN NGT ~0 .GE PCD 250 HTEN,PCD 25O 'iIXD ~TEM 9':250 DTG 8'000 bTT2 10.:563 GE TEN .7;:324 -999,250 PEr -999,250 GU '999.250 ~$2 -999'250, '999,250 TENS -999,250 NPH{ -999'250· NPOR -999'250 CFTC ~'999250 '999250 CGR I999250 999250 HTEN '999.250 GR '999 ~250 '999250 DTE DTE DTE DTE DTE SDT SDT SDT SDT ,:LOT ~DT , C N b .CNG C~L NGT PCD PCD PAGEt 47 [656 000 -17 141 -95 313 61, 281. -999 250 -999 250 1284,400 32 594 711 500 -999~250 -999,250 "999250 '999 250 '999~250 '999=250 '999.250 '999250 '999~250 '999250 '999.250 '999:250 "999'250 '999 250 20'000 . 0.931 .iI0~563 '999,.!50 '999~.'~ :50 13~:5,200 j2~.28 ~99' :50 -999;150 -999~250 =50 ~999iI~50 ~999 "999 250 ~999 250 250 :'999250 "999250 "999 250 ,chlum~ erger lasRa Computing Center DEPT, IMpH,DTE DOF,DTE IR~ DTE SPAR DTE MRE$ DTE DTLN SPT TT3 SDT LTT3 ~DT TENS SDT DPHILDT QLS bDT LL bDT LSHV bDT bURN ~DT MTEM bDT RTNR CNb RCNT~NL GR NL MTEM CNL THOR NGT MTEM NGT SDEV NGT T~NS PCD HDIA PCD DEPT, IDQF"OTE IIR~' .DTE SPAR DTE DTLN SDT 'TT~ SOT ~T~ OLS bDT LL bDT LSHV bDT L~R~ L~T~ ~TEM .DT RTNR GR NTEMCNL THOR NGT :~TEM NGT 8~EV NGT TENS PCD HDIA PC'D !600 000 33 719 0 000 28 516 -0 O82 7 375 · 134 500 -999 250 1947 600 2330 000 -999 ~50 50 -999 -999 250 -999 50 '999 '999 250 -999 250 ~50 -999 '999 -999 250 '999 ':50 '999 ~50 -999 250 -999 -999 t500,000 17.453 0,000 52.906 -0;.~16 8'~72 .209,400 .999,250 2156,800 ~280,000 999,250 -999,250 -999~250 -999~250 '999'250 '999~250 '999,250 '-999~250 '999~250 ~'999~50 '999'~250 '999~ 50 -999,*150 ''999' $0 '999,150 CIDP,DTE ILD.DTE XMQF,DTE IIXN,DTE GR,DTE HTEN,DTE DTLF, SPT TT4'$DT LTT4,SDT MTEM,$DT RHOB,LDT QSS,LDT LITH,LDT SSHV.LDT CALl,LOT MRES, LDT TNPH*CNL RCFT,CNL CALX~CNL HTEN' CNL. POTA;NGT MRES, NGT ~B,NGT MTEM,P.D' LA~P~D CXD~ ILO IMOF DTE 'IIXM GR DTE HTEN DTE DTLF ~DT TT4 MTEM T RHOB bPT~ IT~ LOT SHV LOT AL~ bDT ~RES bDT RCFT CAbI: CNL HTEN CNL POTA NGT: MR. ES NGT R B N GT LA PCD 4-MAR-199] iT)il 23 40 0 1568 -99 '999 "99 '999 "999 999 -999 999 250 688 000 039 oo0 100 25O 000 406 250 $o 25o 250 25o 25o 0 IDPH DTE Ib~ DTE IIRD DTE SFLU DTE TENS DTE DT SDT TT1 SOT LTT! SDT SP SDT MRES SDT DRHO bDT $~1 bDT S~RH bDT GR GD~ HTEN GDT TNRA CNG. CNTC CNL TENS CNL SGR NGT URAN NGT C$ NGT PIAZ NGT MRES POD SA PCO 56 XLM,DTE o o, -!5: ~ IIRD,DTE 20 SF5U,DTE 63844 752 000 DT,~DT~ -I~5~ O0 :~50 ITl ~SDT '999 LTTZ.SDT~ 12.69 600 SP 5DT .60 688 MRES:SDT DRHO. LDT LSiGDT: GRiDT. HTEN TNRA~CNb: ~CNTCi:CNL, TEN$~CNL SGR N:GT URA~ NGT CS NGT PIAZ. NGT MRES~PCD, SAiPCD -999'2~0 '999,250 -999,2~0 -999,250' "999,250 '999,250 '999:)I'0 '999~ '999'250 '999,250 ~999,250 43.000 CIMP.~TE 311344 IFRE, TE 01~ tIXD.DTE ~ 56 SP;DTE ~ 000 ~T~.DTE 250 DTb. SDT -999 2~0 TT2.$DT 156~ 800 LTT2.$DT -7 188 GR.SDT 7 375 HTEN.SDT -999 -999:50 -9991250 -9991250 -999,250 -999,250 -999.250 -999.250 '999,250 0999..250 HTEN -999 ;250 GR -999,250 HTEN -999,250 PEF bDT LU bDT 832 bDT LSRHLDT TENSLOT NPORCNL CFTC¢~L ~RES CNL CGR:NGT TENS NGT ~GT ~¢D 20.984 17'938 45;875 ;~,250 ~999;250 999.~50 9992~0 -999 0 999 -999 :999 999 CIMP DTE IFRE DTE I'IXDDTE SPDTE MTEM DTE OTb'SOT TT2 SDT LTT2i:S.DT GR;$DT HTEN,$DT PEF~LDT LU'LDT LSR~':LDT TENS'LOT NPHI,:CNb NPORiCNb CFTC'C:NL~ -999 ~ MRES,:iCNL -999 CGR'NGT -999 6 ,TEN$,NGT -999 250 HTEN -999~50 GR~PCD -999,~50 HTEN,~CD -999'250 PAGEI 48 29 625 20 000 '0 64 406 -99 250 -999 250 1294 400 819 -999 250 -999 250 ~999 350 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -9.99 ~50 -999 50 -999 0 .57'250 .2o,000 lii',750 0,688 ::"'99 .2~ 9, ~:0 -999,250 12'/3; 200 63,844 .752,.000 999,~!50 ",999 *.250 -999*250 "'999,250 999~ ~ 250 - 999 .; 250 '999,250 :999,250 · 999o 250 -,999~250 -999,250 '999. 250 "999,250 "999 *250 Tape ver:[~cat~Lon ~lstinC ;chlumberger Alasl<a Comput!n~ Center DEPT, fNP~,DTE IDQF,D?E IIR~,DTE SPAR DTE ~RES DTE DT~N SDT TT~ SDT LTT3 SDT TE~S SDT DPH! LDT ~LS LDT LL LDT LSHV LDT LURH LDT ~TEN LDT RTNR CNL RCNT C~ MTE~ ~NL THOR NGT MTE~ NGT SDEV NGT TE,$ PCD HDIA PCD DEPT,: Z~P.H*DTE iPOF,DTg I!R~'DTE ~PA~DTE MRE$*DTE DTLN;$DT TT~$DTI ~TT~,$DT TENS,SDT DPHI"~DT ~b$ LDT LSHV ~DT LURH LDT LDT RT~ ~TE~NGT SDE¥,NGT T~NS,PCD 1400~000 O, O0 12797 -0 ~145 8008 · 250 ooo 250 -999 250 -999 250 -999 250 -999 250 "999 '999 ~5050 '999 250 '999,250 '"999250 -999 250 '999 250 '999250 -999250 :-999 250 t300,000 :17,625 0;000 :55,,000 '-0 ,70 8 ~600~0 '999i :999 ;~05 so, 999,250 -999 250 '999~ 0 .999:~5 5O -999~50 -999250 "999:250 -999250 -999:~50 ClDP DTE ILD DTE IMQF DTE IIXM DTE GR DTE HTEN DTE DTLF SDT TT4 SDT LTT4 MDT MTEM SDT RHOB bDT Q$$ LDT LITH .GDT SSHV .LDT CALI LDT MRE~ .LDT TNP RCF~ ,CNb CAh~ ~C~L ~TEN~,C~U POTA~ NGT ~RES NGT RB NGT MTEMLA P~D DP:DTE:~. C~D~DTE. MGFDTE IXNDTE' GRDTE: HTEN:DTE. DTLF SDT TT4 ~TT4$DT RHDB~hDT~ ~$~.~DT ~ZT~DT TEN~'CNL POT.A*NGT NRE$:,:NGT. MTEN,PCD 4-~AR-1991 17:1! 7 250 97 500 0 000 -12 992 43 969 827 000 346 600 -999 250 1646800 60 ~19 -999 50 ~999 250 -999 250 ~999 250 -99 -999 -999 ;0 -999 ~ iO '999 -999 -999 ~ 0 ."999 '99 IDPH.DTE IbM.DTE IIRD.DTE SFLU DTE TENS DTE DT MDT TTI SDT bTTI SDT. $P MDT MRE$ ~DT DRHO GDT ~$ ~DT ~$~ ~DT GR.~DT HTEN~LDT TNRA,CN~ CNT¢,CNL, TEN$.CN~' SGR~NGT URAN,NGT CS,NGT P1AZ,NGT ~RE$,PCD SA~PCD 137 875 CI~p. DTE 74 ~ IFRE.DTE 10 IIXD.DTE 138 000 SP'DTE 2~5S 000 ~TE~.DTg -999 250 DT~ -999 250 TT2:$DT ~54~ 600 LTT2.$DT '14~ 000 GR,$DT 008 HTEN.$DT -999 250 PEF,~DT -999~250 ~U,LD? -999 250 $S2.~DT -999~50 -999 250 TEN$,~DT -999 250 NPHI.~CNL -999250 -999 250 CFTC, C~L MRES, CNL .-999;250 -999'250 CG ?EN GT :999.250 ,N 999'250 HT£N~GT -999~50 GR.,PCD -999~5~ HTE~,PCD 17,25'0 4~656 IFREiDTE ~!XD'DTE:. 2360,000 '999~.250 DT~,$DT -999.~'250 TT~*$DT PEF;LDT .-999~250 999'*,:~50 NPOR*CN~ ~999'~250 :999'250 CGR'NGT ~999,,250 TEN:$:;NGT ~,.999,250 · PAGEI 49 12 328 20 000 -1 256 -141 000 60 219 -999 250 -999 250 1297 200 43 969 827 000 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 .-999 250 -999 250 -999250 -999250 '"999 250 56'719 ~0,000 :- 375 ,.:5e;4o6 '999.~'50 :250 ~999'~ 8004421 64500 914 000 :-999:!250 -999:250 '999~250 '999250 '999250 '999250 '999~.2.50 "999~250 '999250 "999,250 "999250 ;;"999,250 ::~'999, 250 ;-999 250 ,Chlumberger ask Computin~ Center PAGE: 5O DEPT.: IMPH.DTE IDOF.DTE IIRM DTE SPARiDTE MRE$ DTE DTbN SDT TT3.SDT bTT3,$DT TEN$,$DT DPHI.bDT LL bDT LSHV. LDT bURHbDT ~TEP bDT GR NE TMO~ ~GT ~TE~ NGT SDEV ~GT TENS PCD HDIA PCD I~PH,,DTE I~F,DTE !IR.*DTE SPAR'DTE NRE$;DTE DT~N'$DT TT3~SDT LTT$~SDT D~HI'LDT LL~DT LSHV,LDT bURH,~:DT ~TE~ ~DT RTN~ .,Nb THOP NGT M?EM NGT SDEV NGT TENS PCD. HDIA.PCD. 1200.000 20.734 O. 0 - 50 -999 2.90 -.999 -999 250 -999 -999 ~0 'SO -999 .-999 -999 : 50 -999 50 -999 .250 -999 250 1100 '000 ,000 '414 52~:300 2005~600 20 0 000 -999{250 '999,250 -999~250 -999,250 -999~250 -999,,1250 -999'250 -999,250 -999,250 -999,250 '999' 250 '999'250 -999,250 ¢IDP.DTE IbD DTE IMOF DTE IIXM DTE GR DTE HTEN DTE DTbF SDT TT4 LTT4 $DT MTE# SDT ~MOB bDT OSS bDT blTH bDT SSHV bDT CAL~ bDT MRE$ bDT TNPH CNb RCFT,CNb CAbI,CNb HTEN~CNb POTA NGT MRE$~NGT RBiNGT LA PCD CIDP, DTE ILD~DTE IMOF DTE IIX. M:DTE GR:DTE HTEN DTE DTbF SDT TT4 SDT bTT4 SDT MTE~DT RHOB~bDT TNP~CN~ RCFT~CN~~ HT~N~CNb POTA~NGT MRE$:N .T MTEMiPCD -I08 0 ooo -999 .50 IV96 ~00 :56 469. -999;250 .99im.25o '999,250 '999,25 -~99'258 -99, .9,!I: ,o '999' 2 iO -999.29;0 -9~9,250 -9 ~999,250 ~999,~50 2 ,8 8 000 469 ? 4;500 IDPH.DTE lbM'DTE IIRD.DTE SFbU,DTE TENS.DTE DT,$DT TTI~SDT SDT MRES~SDT DRHO, LDT STt~LDT SIRHbDT GR~bDT HT~N LOT TNRA CNL TENS SGR NGT NGT ~IAZ NGT MRES PCD SA PCD IDPH DTS IbM DTE SFLU~DTE T£NS,~TE DT SOT 187,400 TTI SDT -999,250 LTTi2 SDT t774.800 SP SDT 56,375~ MRES SDT -999,250 DR:HO'bDT "999~250 "9~!9~250 :$IRH,~DT '9~9,2~0 SSI,bDT '999,2~0 GR,LDT: -999~;~2 0 :HTEN~,bDT '9!99'250 '999;250 '9~9'250 TE~$~C~b~ '-999~250J SGR NGT -999,250; URA~ NGT: -999:,250' .CS NGT · -999,250 SA PCD: 27.266 CIM DTE 21.484 'FR~:DTE !9.65 SP.DTE 99,250 DTL,~DT X,600 LTT2.SDT 4.~50 GR.SDT 8,8 3 HTEN -999.~0 PEF bDT '999"250 LU bDT -999,2~0 SS2 LDT '99 8 bSRH LDT POR CNL .999,250..CF?C .999:,250 ~R£$ C~L :999,250 CGR, NGT .999,250 -9'99..250 -999.250 -999,250 ~CD :981 906 2:1 49 ~ 999 -999 1780 -999 -999 999 999: -999 -999 -999 -:999 ~031 656 000 ~250 :250 TT2 800 LTT2 :500 GR 41,4 HTEN :250 PEF 250 LU :250 SS2 ,:250 ~:$RH 250 TENS ,250 NPH~ 250 NPOR ,250 'CFT:C '999,'250 '999.~:250 '999'250 -999:;250 -999,250 1999,,250 999.250 CiMP.DTE IFRE:*DTE IIXD;DT~ SP*DTE PTEN.DTE DTh SDT SDT SDT SDT SDT bDT bDT bDT CNb NR.ES,CN~ CGR.NGT TENS'NGT HTEN'NGT HTGR:"PCD :~N'PCD 188 000 -0 381 -204 750 56 469 -999 250 "999 250 1449 600 59 875 -961 000 -999 250 -999 250 -999 250 '-999 250 -999 250 -999 250 -999 250 -999 ,250 -999 250 -999,250 -999250 :-999 250 :'999250 -999250 ,063 -0~53 -25.8; 56,3?5 :'999;250 ;999;250 ,494;800 6~,656 78 ,500 '999, 0 '9991250 '999,250 '999250 '99911~ 0 '99 ~250 '999250 '999~250 '999~250 ~-999 ~2'50 '999250 '999250 ich[umeerger as~a Comput ~gg Center INPH DTE IDOF DTE IIRN DTE SPARDTE MRES'DTE DTLN,SDT TT3,SDT LTT3$DT T~NS SDT DPt! OLS ~DT Lb bDT bSHV bDT LURH bDT MTEN bDT RTNR CNL RCNTCNL GR CNL MTEM THOR NGT ~TEM NGT SDEVNGT TENS FCD HDI~ PCD DEPT IDQF DTE IIR~ DT~ SPAR DTE MRES DTE DTbN SDT TT~ DPH'IbDT QbSLDT LLLDT LSHVLDT L~RHLDT HTE~.LDT RTNR~CNLi RCNT CNL GRCNL MTE~,CNb: THO~;NGT TENS,PCD HDIA,PCD I000 000 99 500 0 10 ~00 67 -0 309 8 336 80 ~00 -999 50 1485 200 Ioo 50 -999 50 -999 0 -999,250 -999 250 -999:250 -999.250 -999~50 -999..50 -999 ,250 -999 250 ~999 250 -999 250 900 000 364.06' 0 O0 '0 :'43 8 , 50 i809 .1970,000 -:999250 .-999,250 -999'250 -999'250 ~999i~2~0 -999,~2 0 -999,250 -999250 -999250 ~99920 :999~0 999 :.50 -.999 -999 250 CIDP,DTE ILD DTE IIXM DTE GRDTE HTEN DTE DTbF SDT TT4 SDT LTT4 SDT MTEN SDT RHOB LDT QSSLDT LITH bDT SHV LDT ALXLDT MRE$.LDT TNPH,CNL RCFT,CNL HTEN POTA NGT MRE$ NGT RB NGT MTEM PCD' LA PCD CXDP'DTE .IbD;~DTE I!X~;DTE: HGR;DTE 'TEN,DTE DTLF~$DT TT41~SDT~ hTT.4~SDT MTE~iSDT~ QSS. LDT LiTHiLDT CASI~DT MRE$:LDT TNPH!CNb RCFTiCNL CA.L:i: CNL HTEN. CNL P~TAiNGT ~RES~NGT RBiNGT ~TEM.i PCD. LA!.PCD~ 4-MAR-1991 17:11 0 676 759 500 0 000 . 656 816 500 79 200 '999 250 1327 600 58 ½50 '999 "999 250 '999 250 '999 250 '999 50 "999 )50 '99 50 '999 50 "999 )50 '99 '250 5O '99 50 ~999'250 0 0.00 69 '"9! 0 0 - 0 "9 '9! -9 5 -99 -99 -99 :50 "99 50 ":9~ 50 '9 50 IDPHDTE ILM DTE IIRD DTE &FLU DTE TENS: DTE DTSDT TTI SPT LTT1SDT ~P &DT MRE$SDT DRHO bDT LSLDT* 881,LDT SIRH, LDT GR bDT HTEN bDT TNRACNL CNTCCNb. TENS CNL: SGR NGT URANNGT C$ NGT: PIAZ,N..T~. MRE~P!D: SA:,P D. >ILN,DTE IIRD,,OTE .SFLU'OTE TEN$'DTE DT"$DT :TT! SDT LTTISDT. MRE~ DRHO bDT bS bDT .S$1bDT ~$1R~ 5DT GE .HTEN'~DT :T'NRA CNb CNTC SGRNGT URAN NGT c6 P!AZ NGT MRE& PCD: SA POD 1477 000 1.2~5 2268.000 i915.000 1999.25o 999.250 1335.600 -307 750 -999 -999 250 -999 250 -999 -999 -999, -999,250 NPOE -999 250 CFTC -999 250 MRE$ '999:250 CGR. ~999.:250 TEN$~ ~999,.250 HTEN 999,250 '999'.250 CIMP.DTE IFRE.DTE IIXD.DTE SP,DTE MTE~,DTE DT~.SDT TT2,$DT LTT2,$DT GR.SDT HTENeSDT PEF.LDT LU,LDT $82.LDT 250 LSRH,LDT 250 TENS~LDT 250 NPHI ~CNL ,CNb ,CNL NGT NGT PCD 36'938 IFRE,DTE 15,313 IIXD,DTE : 44,813 5P~DT.E :1970,:000 MTEM,DTE "999'250 DTL,'SDT~ -99~,.250 T'T~.,$D'T PEF'LDT 999.,250 :999,250 :999;,:250 bSRH~i. LDT '1999~50 '999:'250 NPH'I~i,CNL -'999'250 -999,250 .999:'250 CGR:,,NGT 999,250 TEN$,,NGT -999-25q HTEN~NGT '999'250 GE~.PCD -999'~250 HTEN.PCD -999.~50 PAGE: 10,047 20 000 -1 760 -307 750 58 188 '999 250 "999 250 1174 000 34 656 8 6 500 '9~9 250 -999 250 -999 250 -999 250 -999 250 -999 250 '999 250 '999 250 "999 .~50 -999 50 "999250 -999 250 -999 ,250 --999 250 7,453 0;000 .-343,.7~ 999 50 '"999 250 '999 250 "999.250 :'999:250 :"999250 "999250 "999:250 '999'250 "999250 "999!250 "999:250 :"999~250 "999~250 :-999~250 51 chlumberger Alaska Computing Center ~PH.DTE .DTE SPA~,DTE MRE$,DTE DTbN.SDT TT3.SDT bTT).SDT TENS;SOT DPHI,LDT Lb LSHV LDT LURH bDT NTEM bDT RTNR CML RCNT CML G~ CNL MTEM CML T.OR NGT NTEM NGT SDE¥ NGT TENSPCD HDIAPCD DEPT,:! INPH,DTE IPO[;OTE I!R VOTE SPAR*DTE NRE$,DTE DTL~/SDT TT3/SDT LTT3i:SOT TEN$)~DT D~H! LDT LL~LDT LSHV..LDT 'LURH~LDT ~TE~;LDT RCNT'CNL GP',CNL THOR~NGT NTE~NGT SDEV,NGT TENS,PCD HDIR.PCD ! '500 O,OOO 8,281 '0,393 8'S75 87,400 -999'250 151~.800 19 ,000 '999,~50 -999,250 -999~2S0 -999 ~50 -999 0 '999'~50 -999 50 -999~50 -999.250 -999 250 "999 250 '999 250 ~999 250 ~999 250 700'000 82~750 0,000 10'773 "0,450 8;539 - .250 1370 400 I825.000 ~ 99 "999~50 -999~50 -99~ 50 "99 ~:250 -999,250 -999'250 '999,250 -999~'~50 '999.~.50 "999'250 "~99'250 - 99'250 CIDP'DTE ILD,DTE !MQFDTE IIXM DTE GRDTE HTEN DTE DTbF SOT TT4 &DT bTT4 SOT NTEN SDT RHOBLDT OSS: bDT LITH bDT SHV LDT ALI LOT MRES bDT RCFT . CALl CML HTEN CNL POTA NGT NRES.NGT LA PCD: IIXM DTE, 'GRiDTE DTLF:$DT~ TT41$DT LTT~:$DT: MTE.$DT RHOB~LDT QSSLDT LITH~ bDT SSHV~LDT~ CALZi;hDT~: ~RE$:*~NL< TNPH,:DT: RCFT*CNL~, HTEH~CN5 POTA~;NGT PRE$:*NGT MTEM,PCD LA.PCD 4-MAR-199! 17:11 47~*TM .250 0 000 2 461 39 406 801 500 113 800 -999 250 1340 000 57 531 -999 250 -999 250 -999 250 "999 250 "999 250 m999 25O :999 150 999 !50 ~999 !50 e999 150 99~ 50 5O IDPH.DTE ILN,DTE IlRD.,DTE SFLU.DTE TENS,DTE DT SDT TT1 SOT bTTI SDT SP SDT MRES SDT DRHO bDT LS LOT SS1 bDT $1RH bDT GR. LDT HTENLDT TNRA~CN6 CNTC, CNL TENS CML SGRiNGT URAN NGT CS NGT PIAZ NGT MRES PCD SA PCD 1',:23~ IDPH'DTE 564'50 :IbN,DTE: 0'00i :IIRD,DTE '-12;78 ~SFLU'DTE 39;:31.: :TENS'DT'E 820'50 DT;SDT~ 195,40~. "999,2~ iI73,60~. LTT~'..SDT: 56'34 SP,SDT. -999~25~: MR:ES'$DT ORHO,;bDT "999~25 bDT -999.25 -999:,25~i '$1RH,LDT',GR,LDT -999.25 :999 255 · 999~ ~50 URA~ ~GT -999 ~50 ¢$ NGT -999 250 PIAZ NGT.. -999 250' ~RES PCD -999i250 SA PCD 583 000 CI~P.DTE 114 938 IFRE.DTE 244 IiXD.DT£ 750 SP.DTE 000 MTEN DTE 250 DT~ 250 TT2 SOT 600 LTT2 SOT 500 GR SDT 375 HTEN SDT 250 PEF.LDT 250 LU.LDT · ~0 $S2.LDT 0 LSRH.LDT r250 TENS.bDT 50 NPHI*CNL 50 NPOR,CNL .250 CFTC*CML 250 ~RES,CNL 250 CGR*NGT 2.50 TENS,NGT 250 HTEN,NGT 250 GR.PCD 250 ~TEN*PCD 25:0 2 27O 1980 -999 -999 1351 -394 8 -999 0999 -999 -999 -999 -999 -999 -999 -999 -999~ -999 -999 -999 .808.500 88'313 495~000 ~825':000 999,-250 '999~250 ~t84'400 · 450,'250 GR 8'539 ~TE:N .999'~-250 PEF ~999.~25:0 LU:. 999,~250 SS2 -999,~50 5SRH -999~250 :TENS -999,:25~ -999'250 NPOR IFREDTE IIXD~DTE SP. DTE MTEMDTE DTLiSDT TT2,SDT LTT2,SDT iSDT ;SOT LDT LDT LOT -999V~ CFTC'CN5 :999*250 MRES*CNb :999~;:250 ~GR'NGT .999,250 TENS:;NGT :999,,2:50 HTEN'NGT .999-250 GR,PCD :999'250 T" ' 999i=250 PAGEI 52 7 480 20 000 1 268 -394 500 57 531 -999 250 -999 25O 1151 200 39' 406 801 500 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999250 -999 250 ~999 250 -999250 ~999250 ½:078 000 ":!: 40 "999 2'50 "999 250 "999 250 -99~ .250 -999, 0 -999,:250 "99~;:25'0 :- 99 250 :"999 250 -999 250 -999 250 "999 -999 50 ,.I8 ?~pe. Yeriftc..atlon Ltstln~ ;chlumberger Alas~:a Computing Center PAGEI 53 DEPT, IDOF'DTE IIRN,DTE SPAR.DTE MRE$ OTE DTb~ SDT TT ~T SDT DPt! bDT OhS bDT bL bDT LSHV LDT LURH LDT NTE~ bDT RT~ RCNT C~b G~ C~b ~TEM CNb TBO~ NGT ~TE~ NGT SDE¥ NGT TEN8 PCP HDIR PCD DEPT IDQF DTE iIR~ DTE SPAR DTE ~E$ DTE DTb~ SDT '.TT~ SDT LTT~$DT TENS:$DT DPH! LDT O~BLDT .~L LDT LSHV LDT LURH ~DT NTEN GR CNL' ~TE~ CNL MTE~ NGT SDEV NGT ENS PCD DIA PCD 6OO 000 120 625 0 000 8 352 -~ 503 859 84 300 -999 250 1496 800 1755 000 '999:250 "999 250 '999 250 '999~250 "999 0 "999 250 ''999 250 ''999 250 -999 i50 '999 50 ''999 50 ''99'9250 ''999 250 :''999 250 '500 000 100 688 0 000 ,9 -0 5583 8 875 71 ,300 ""999 250 ! 778 000 1700 000 "999 20 '999 '999 25g '9'99' 25.. '999,~ :50 ''999 999 250 ''999' 250 -999,250 -999,250 CIDP.DTE ILD,DTE XMQF. DTE IIXM.DTE GR.DTE HTEN,DTE DTLF.SDT TT4 SDT bTT4 SPT MTEM SDT RHOB bDT QS$ bDT LITH bDT $SHV LDT CALX GDT MRES LDT: TNPH CNb RCFT CNb TE CNb POTA NGT MRES NGT RB NGT ~TE~ PCD LA PCP CIDP%DTE ILD'DTE: XMQF,DTE IIXM"DTE~ GR~DTE TT4,SDT bTT4,$DT ~TE~SDT QS$*LDT L[TH~bDT SSHV;LDT CALI,LDT MRE$,GDT TNPH,CN5 RCFT,CNb HTEN'CNb POTA,NGT '~TE~iPCD, bA,PCD~ 2 41 401 ~50 0 O0 4~ 0 4 840 500 ~00 '999, '999, "999, 250 250 "999,;250 '999.250 '999,250 999,2_50 '999,250' :999,25_0 999.;2~0 -999,250 '999 ~9 '99' ~0 IDPH.DTE Ib~,DTE IIRD,DTE SFbU,OTE TENS,DTE DT~$DT TT~,~DT LTT[,$DT SP,SDT ~RES,SDT LS',LDT $iRH,~DT GR~DT HTEN.bDT TNRA:CNb CNTC:CNb TENS C~L URAN~ NGT CS PtAZ MRES<~CD SA PCD IDP~ DTE LM DTE ZIRD DTE SrbU DTE TEN&~DTE TTI~&DT bTT2iSDT ,SP~SDT DRHO,LDT LS,bDT 'SS1,LDT SXRHi, bDT GR',bDT .HTEN,bDT TNRA'CNb TE'NSiCNb SGR'NGT URANiNGT HRES:~PCD:' SA:~PCD;! 466 750 114 000 2 266 341 750 1755 000 -999 250 -999 250 1346 400 -501 000 · 859 -999 250 -999 250 .999 250 -9~ 50 'gi[ 250 '9 ~250 50 :999,250 .999.250 ~999.250 :999.250 999.~250 100.688 1.473 ~216:000 ~700000 .999.250 999250 i~392~400 '560.500 8 875 -999:;259 ~999.~50 .999'~5~ ~999,.~50 .999,250 1999~50 1999,250 .999~2'50 999;250 ~999,250 999~:250 -9991~.250 -999~:250 .~999,250 .9991250 CINP.DTE ZFRE.DTE IIXD.DTE SP.DTE MTE~.DTE DTL.SDT TT2.SDT 5TT2.SDT GR.SDT MTEN.SDT PEF.LDT 'bU,bDT $S2.bDT LSRH.LDT TENS,LDT NPHX.CNb NPOR,CNL CFTC.CNb MRES,CNb CGR.NGT TENS.NGT HTEN'NGT GR,PCD HTEN.PCD CX~P.DTE XFR. E.,DT£ ZXXD. DTE SP DTE MT£NDTE DTLSDT 'TT.SDT b~TISDT GE SD'T HTEN;SDT PEF.bDT 5U,LDT SS2.5DT ~SRH. bDT TENSbDT NPHI'CN5 NPOR CN5 ~CFTC CNb MRES CNL ~CGR NGT TENS NGT HTEN NGT H_GR. PCD .'TB~ PCD 8 289 20000 -2 813 -502 000 53 469 -999 250 -999 25O 1180 000 43094 840 5OO -999 250 '999 250 -999 250 -999 250 -999 250 -999 250 ''999 250 -999250 ''999 250 -999~250 -999 250 ~999250 ''999~250 -999 250 .20,=00 '2'074 '-560;500 53,2!9 -999 0 ° 1148,000 32 .770 §6 '999~0 '999 $0 ~''999 $0 ~'999 '999,250 '999 250 ~'999 250 '999.250 '999'~250 ~=50 '999:~50 :'999' ,I8 Tape vet! 1catLon List 'chlumverger laska 4-MAR'199! 17{11 DEPT XDQF IIRM SPAR DTbN TT3 LTT3 TENS DPH! bUR~ RTNR RCNT ~TEM THO~ MTEM SDEV T~NS H IA DTE DTE DTE DTE SDT SDT SDT SDT LDT bDT LDT LDT LDT LDT ,NGT ;NGT .NGT ,PCD ,PCD 400.000 CIDP 76'875 XLD 563 IiX# -0,6 0 GR HTEN 999,250 TT4 571,200 LTT4 1710.000 MTEM ~99920 999 ~0 RH08 -999 250 LITH -999 250 -999 250 CALX -999 250 ~RES -999 2 0 -999 2~0 TNPH,RcFTi -999 250 CALIJ '999 250 HTEN~ '999 250 POTA~ :999 250 NRES 999 250 -999 250 ~TEMi -999 250 DTE 1,2(3 IDPH, DTE DTE 704.0~0 ILN, DTE DTE O.OC'O IIRD. DTE DTE '{4.44~5 SFLU, DTE DTE ~4,0('0 TEN$,DTE DTE 8~$,0C,0 DT,$DT SDT 2~4,0~'0 TTI~SDT SDT -999,2~,0 LTTI,SDT SDT 474,4(~0 SP, SDT SDT ..53,719 ~RES.SDT bDT. .999..250 DRHO,LDT ~DT .999,250 L$,~D? bDT -999.250 $S1,LDT .bDT -999'250 SiRH,LD~ .bDT -999,250 GR,bD? LDT -999,2~0 HTEN,LDT CNb, -999,250 TNRA,C.Nb CNG -999,250 CNT¢,¢NL C~L -999,250 CNL: 1999,2~0 SGR'NGT NGT 999,2)0 URAN,NGT NGT -999,2~0 CS,NGT NGT -999.,250 PIAZ~NGT PCD~ -999e250 ~CD -999~250 SAePCD. DFPT ~ 300 000 CIDP~ DTE 3' 87 ~MPH:DT£ 4'969 ILD~ DTE 277.~50 IDOr,DT£ 0.000 iMOr DTE IIRM,DTE 21:~469 IIXM~ DTE 22 SPAR,DTE '0'628 GRi DTE M~ES,DTE' ~,8,B47 HTEN, DTE. 768, ;00 DTLli~,SDTM . 68,900 DTLF ~DT .69~ O0 TT{~SDT .999,250 TT4 SDT 1296,~00 LTT4:$DT T~ $'SDT !360,000 DPHZ,LDT ~999,290 RHOB~hDT' Ob$'LDT ~999,250 OS$,LDT '999' !~0 _LL'LDT '999~250 L!TH,~DT~ -999~, !~0 LSHV'hDT -999:~250 8SHV,~DT LURH bDT -999~2§0 CAL:I'LDT. MTEM bDT :999,~250 ~RE$ LDT~ -999,!50' RCNT C~b. :999,250 RCFT CNG:: GR C~L .999,250 CAL:i CNL~: -999' !50 ~TEM CNG: '999,250 HTEN CNL:, ~999,250 THOR NGT -999 250 POTA NGT -999;250 ~TEM NGT -999 250 MRES NGT -999,250 SDEV NGT -999 250 RB NGT: -999,250 TENS PCD -999 250 ~TE~ PCD+: '999,2~0 HDIA PCD~ -999 250 LA PCD -999~250 XDPH DTEI ~IL~DTE~ ZIRDDTE SFLU~DTE TENS DTE~ DT!.SDT: ITi 5DT L:T~ 'SDT: :SDT DRHO'LDT, SSI,bDT' .GRibDT 'HT~:N~DT: TNRA~CN~ C.NT¢~CNL: TEN$*CNb: SGR~NGT U'RAN, NG~ PJAZ~NGT MRES:PCD 8AiPCD 1 526 -999~ 117 -999. -999 -999 -999 -999 -999 -999 -999 -999 :999 999 999 -999 295 · .,.999 -999 "999 '999 '999 :-999 '999 ':999 '999 500 000 2§0 250 25O 25O 2SO 25O 25O 250 2~0 250 25O 250 250 250 25O 000 :250 ~00 8O0 :250 250 0 · oo 0 250 CIMP,DTE IFREDTE IIXD,DTE SPDTE MTEM DTE DTL,SDT TT2$DT LTT2,SDT GR,$DT HTEN.SDT PEF,LDT LU~,LDT $S2, LDT LSRH:LDT TENS~LDT NPHX NPOR .Nb CFTC Nb MRES, CNL CGR NGT TENS'NGT HTEN,NGT GR,PCD HTEN.PCD CXMP.,DTE IFRE,DTE .XIXD,DTE MTEM'DTE DTL.SDT TT2;:SDT LTT2,SDT GR'~DT HTEN*$DT b~RH'LDT NPHt: CFTC; ~RE$ CNL CGRNGT TENS NGT HTEN NGT GR PCD HTE~ ~CD PAGEI 13 20 "609 53 '999 '999 1037 34 805 '999 '999 '999 '999 -999 '999 '999 '999 '999 '999 '999 '999 22 2O -99 '999:: -999~ '999 '999 '999'~ '999, ~'"999: '999: :'999 '999 '999 54 000 000 285 500 250 250' 200 000 000 250 250 250 250 250 250 250 250 250 250 250 250 234 000 479 500 688 250 20 359, $0 ~0 ~ $0 2~0 250 =250 250 250 250 IS Ta e~ Yerlfication Listing chlum~erger AlasKa ComPuting Center DEPT IMp. DTE IDQF DTE XIRM DTE SPAR DTE ~RES DTE DTbN SDT TT3 SDT LTT3 SDT TENS,SDT DPHX.LDT LSHV.LDT LURH.LDT MTE~.LDT RTNR'CNL RCNT,CN~ GR-CN~ ~TE~ CNL THOR NGT HTE~NGT SDEV ~GT TENS PCD HDIA PCD DEPT IHPHDTE IDQF DTE IIRM DTE SPAR DTE ~RESDTE DTbN SDT :TT3 SDT bTT3 TENS ~DT DPHILDT QLSLDT LL 5DT SHVhDT URH ~DT NTEN i. DT; RTN ~C~ tnb · CNL: ~TEM NL THO~ NGT MTE~ NGT SDEV NGT TENS PCD HDIAPCD 200,000 41.250 0.000 23 094 -0,660 8 .72 66 ~00 '999 250 {342 000 t490 000 -999 250 -999 250 -999 250 -999250 -999,~50 -999.~50 -999 150 -999 150 -999 50 '999 -999 -999 2 0 -999 250 '999 ~5'0 000 0,000 2 ,7~89 .'56 400 .999 ' ~50 922 ~00 1745 000 999.~50 -999 -999 ~$0 -999 iO -999 iO ~999 '999 50 "999 '999 '999 50 "9992501 '999:~50 '999 250 "999250 CIDP'DTE ILD DTE IMQF DTE IIXN DTE GRDTE HTEN DTE DTLFSDT TT4,SDT~ bTT4 SDT MTEN SPT RHOB bDT QS$ bDT bITH.bDT SSHV.bDT CALI,hDT MRE$,bDT TNPH.CNh HTEN.CNb POTA'NGT NRESNGT RB:NGT MTEM:PCD ~A~PCD CIDP, DTE ~XLD; DTE IM~F DTE. IXXM DTE! GR DTE, DT5F SDT TT4 SDT LTT4 SDT MTEM SDT, RHOBi~DT QSS.':~LDT ~SSH¥~LDTi N~ ~CFT~ CALi:;CNL HTE.N~ CNL, DOTA:.NGT ~RES. NGT RBiNG~ LA:iPCD 4-~AR"X991 17111 28~ !?S ~50 0 )00 -~ 4 )16 28 ~66 807 O0 66, O0 -999, 50 56. 38 '999, 0 '999.~0 -999;~50 "999. 50 "999,250 '999' ~50 '999 ~50 TNRA -999 ~5 -999 ~5~ CNTC TENS -999 ~50 SGR -.999 ~50 URAN "999 ~50 ' CS "999' ~50' ,AZ -999 !50 SA IDPH,DTE ,lb~,DXE .~XRD,DTE SFLU.DTE TENS~,DTE. DT, SOT TTt~SDT bTTI,SDT SP,SDT NRES..SDT DRHO bDT b$.bOT SSI,bDT 81RH,bDT GR,bDT HTEN, bDT PCD ~950 9 79 .5 -91 8 XDPH,DTE. O. "ILM!DTE': IiRD~OTE~ srbu OTE' TENS DTEi PT ::TTI, SDT. ~TT~,SDT. ' NRESSDT DRHOLD~. TENS:;CNL: '$GR~NGT O URAN:,NGT PXAZ.'NGT i CS~NGT NRES:,PCD 296.000 3,~39 1490,000 -999,250 -999-250 1220 800 -658 500 GR 8:172 HTEN .999~50 PEF '999 250 '999 250 882: -999 ~50 LSRH: -999 250 TENS '999;~50 NPHX, '999.~50 NPOR -999,250 CFTC: -999,250 NRES' -999,250 CGR: -99!,250 TENS~ -99!,~50. HTEN -99!,250 '99'.:250 "T~ -99!:,~50 CIMP DTE IFRE DTE IIXD $P :DTE MTEM DTE DTb SDT TT2 SDT bTT2 SDT SDT LDT LDT bDT bDT NGT NGT NGT ~ D i95!,000 SP~DTE, -67 i TT'2 SDT 7,~89 HTEN:'SDT :999,2S0: 999',:;~250: TENS.' DT '999:~'250 N,PH.!~ -999: '999i250 CGR '999::250. TENS -999:250 HTEN -999~50' G~ -999~250 HTEN -999250 NGT NGT 24 219 20 000 -6 500 "999 25 '999 1086 400 28 266 8O7 5OO "999 250 -999 250 "999:250 "999~250 "999~250 -999~!50 -999. 50 -9991 50 -999~,.50 .~9~i o -99 250 -999.,250 "999,250 2~'~ 250. 000 8 500 · "6 000 67, )00 .983 . "999 !50 ~-' 250. ~'< ,250 ' 150 :" 150 " 250 *-999~250 "999:250 "999250 ;chlu~ erger lasza Co~pu~Xng Center PAGE: 56 DEPT, IMPH,DTE XDQF,DTE IIRM,DTE SPAR,DTE MRES,DTE DTLN,SDT TT3.SDT bTT3 GDT T NS:SO? DPHI,bDT QLS.LDT Lb,bDT LSH¥,LDT LURH,LDT MTE~,LDT RTNR,CNL RCNT,CNL GR,CNL ~TE~,C~L TMOR'NGT MTE~,NGT SDEV',NGT TENS".PCD HDIA"PCD 70,000 9,328 0 000 140:500 -0 699 7 840 61800 -999 250 9 800 ooo -999 250 -999 ~$O -999 50 -999~250 -999~250 -999.250 -999 250 -999 250 '999 250 '999 250 -999 250 '999 250 '999 250 '999 250 '999 250 CtDP DTE ! LD DTE IMQF DTE I IXM DTE GR DTE HTEN DTE DTLF ~DT TT4 SOT bTT4 SOT MTEN SDT RHOB bDT QSS bDT LITH bDT SSHV bDT CALt bDT MRES :cLDT TNPH, Nb RCFT~ CNb. CAbI~ CNL HTEN, CNL POTA, NGT N~T ~RESRB, N~T. ~TEM:~P D 650~ 18 1237 68 -999 814 56 .-999 -999 -999 '999 999 '999 906 000 000 000 359 O0 ,o°o 2~0 000 9O6 250 250 $0 2riO -9~ 250 -9 250 -99~:2i0 URAN, '999:: PXAZ '999 5 NREG -999 50 SA IDPH,DTE 'ZLM,OTE IIRD,DTE SFbU,DTE TENS,DTE DT,SDT TTI,$DT LTT1,SDT SP,SDT MRES,SDT DRHO.bDT GS.bDT SSi,bDT SIRH,bDT GR,bDT HTEN.'LDT TNRA, CNb CNTC, C~ TEN'S~CNL SGR~.NGT NGT NGT NGT FCD PCD t950 000 CI~P'DTE 6 707 IFRE.DTE -21 0 1830 -999 -999 778 -71% -999 -999 -99 -99 -999 -999 -999 -999 -999 250 TENS~ -999'250 HTEN -999,250 GR ~999,250 HTEN' 999.250 750 IIXD.DTE 918 SP DTE 000 MTEM 0 ?g2 800 LIT2 500 GR 840 HTEN 250 PEF 250 LU 250 i50 GSRH 50 TENS 50 NPHI. 250 NPOR 250 CFTC 250 ~RES., 250 CGR, DTE SOT SOT SOT bDT bDT ,LOT ,CNL, CNb CN b NGT NGT NGT PCD PCD 107 125 2O 000 448 250 -711 500 56 906 -999 250 -999 250 676 800 18 359 1237 000 -999 250 -999 250 -999 250 ~999 250 ~999 ~50 -999 50 ~999 250 :-999 250 -999 250 -999250 -999.~50 -999 50 ~-999 ~50 -9991 50 END OF DATA ** EDIT ,001 SERVICE .1 DATE = 9~/03/'4 PiX RfC SIZE ': 1 24 FIL~ TYPE : LO LAST FILE { FILE NANE EDIT,O02 SERVICE { FL!C: N~iX REC SIZE FILE TYPE C LO 'LAST FI[,E ~I$ Ta"e~ Verlfl¢ation Listing ,ch~Lumberqer'Alaska ¢omputtnq Center 4-MAR=1991 17:11 FIbE - EDIT,O02 BP EXPLORATION WIbDCAT NARVAO #1 $0°287-20010 HAIN PASS DATA SAMPLED EYERY DATA' INCLUDED - TOOb EXTENsZON TYPE USED PCD ,pCD PCP LOG DATA FROM FIELD FILES F33 & F32 -,!667 FEET NAME pOWERED CAbIPER DEVICE 8642' TO 2484' WN APiN FL RANG C0U~ STAT NA. TI DAT PD APD EDF TDD TDL FT DFD FT FT FT' FT FT FT ~T FT NARVAO #1 50- 1825287'20010 ' FN6, 2089' FWb NORTH Sb0PE AbASKA USA P5U4~[~/TIFENTAb/SAbARIO 0 8 DEFI ComPany Name Field ~ame Nell Name APIi e[lai ~umber Fie ocation Section Township Range County stai~Nat n°r- Province ~ltness' ~ame Service Order Number Pe=manent ~atum ~levatt0n o~ Petm. Datum bo~ ~easute~ From ABOVE PERMANENT DATU~ Elevation of Kell'¥ Bu$~ing ElevatiOn o~ ~er~e~ Floor Elevation of GrOund bevel Total Depth - Driller Total Depth Bottom bog To, b Intervalr DrlOr~li~~n~ FlUI~ Type. Y · Flui~ Densit ut ,Ch!Um rger lasRa ng TONI ..... VAbU . . DEFI Drtllin~ Fluid Viscosity lq Drilling Fluid bos Resistl~ttY of Mud SamPle Mud Sample Temperature Resistivity of mud filtrate s Mud. Filtrate Sample Temperatu DFV CP , DFL F3 RM8 OHMM 2.11 RMF$ OHMM ~FST DEGF ..cs s oo:oo tO-FEe BBT 164' Resistivity of Mud CaKe Sampl Mud Cake $~mPle Temperature Time Circulation Stopped Bottom Hole Temperature. TABLE TYPE : CURV DEFI , DEPT Devth=Channel Name MNOR ~l~ro-Normal e~si~tiv:it~ MINV ~: MicrO-InVerse ~esistivi Y FORMAT.SPECIFICATION REcoRD SET TYPE= ~ 64EB $* TYPE':, R,EPR CODE .......... VALLJ~ 1 2 3 4 1 0 0 12' ·73: 68 ~'166 $8 ~i 65 66 68 Tape Verification Listing ;chlumberqerAlaska ComPuttng Center ** SET TYPE -.CHAN ** NAME SERV U~IT SERVICE AP[ AP! .APE APl FILE NUNB NUNS SIZE REPE PROCESS ID ORDER # bOG TYPE CLASS MOD NUMB SA~P EbEH CODE (HEX) DEPT FT 549192 O0 000 O0 0 2 ! 1 4 68 0000000000 ~NOR PCD OHMM 549.192 O0 000 O0 0 2 I t 4 68 0000000000 .MINV PCD OHMM 549192 00. 000- O0 0 2 I 1 4 68 0000000000 PAGEt 59 ** DATA DEPT. DEPT. DEPT. DEPT. DEPT. DEPT. DEPT. DEPT. DEPT. DFPT, D~PT. DEPT. DEPT. DEPT, DEPT. DEPT, DEPT. DEPT. DFPT, 8687.834 MNOR.PCD 1,694 ~!NV'PCD ~,[04 8600,000 NNOR.PCD ~,061 ~I~¥,PCD 1,595 8500.000 ~NOR.PCD 2,44! ~V,~CD 1.339 8400.000 NNOR.PCD 3.979 M!~V.PCD: 2'482~ 8~00,000 ~NOR*PCD t,231 ~ZNV'PCD ~*043' 8200,000 ~OR,PCD 1.,652 ~INV,PCD 8i00,000 ~NOR,PCD 3,922 ~INV',PCD 5'448 8000,000 ~NOR.PCD 2,40! ~XN¥*PCD .2'096 7900,000 ~NOR.PCD 3-586 ~[N¥.PCD 2'578 7800,000 MNOR,PCD 3,082 M[N¥,PCD: 2'392 7700,000 ~NOR.PCD 3,2?2: ~[~V,PCD: 3,27~ 7600,000 MNOR,PCD 3,680 ~1N¥,PCD 3~661 7500,000 MNOR.PCD 3,041.. MINV'PCD: 2-98a 7400'000 ,NOR.PCD 12,353 ~INV'PCD' 7300.000 MNOR.PCD 7.039 MINV.PCD 7200.000 ~NOR.PCD 5.986 ~iNV*PCD 6'805 7100.000 NNOR.PCD 15,326 MINV,PCD ~4~093 ?000,000 MNOR.PCD 3,244 MIN¥,PCD 3'599 6900.000 NNOE,PCD ~,843 MIN¥'PCD ~.,'359 6800,000 MNOR,PCD 3'~35, NINV,PCD 3~385. Tape verltication b:lst~.n; ,Chlumver..qer Alaska Co~puttnq Center DEP~,: DEPT, DEPT, DEPT,' D~PT, DEPT, D£PT, DEPT, DEPT, DEPT* DEPT, DEPT, DEpT~ DEPT~ DEPT, DEPT, DEPT, PEP?' :DEPT, DgP?, DEPT, DEPT, DEPT, OEPT, 6700,000 ~NOR,PCD 6600,000 ~NOR,PCD 6500,000 ~NOR,PCD 6400,000 6300,000 ~NOR,PCD 6200,000 ~NOR,PCD 6~00,000 MNOR.PCD 6000,000 ~NOR'PCD 5900,000 NNOR.PCD $800,000 NNOR'PCD~ 5700,000 ~NOR'PCD 5600,000 MNOR,PCD 5500,000 ~OR~PCD 5400'000, ~NOR'PCD :5300,000 ~NOR'PCD: 5200'000 NNOR~PCD' 5100,000 MNOR,PCD 5000,000 ~NOR~PCD 4900,000 ~NOR~PCD 4800,000 M~OR'PCD 4700,000 ~NOR~PCD 4600,000 ~'~OR,PCD 4500,000 ~OR*PCD 4400,000 4300'000 ~NOR~PCO~ 4200'000 ~NOR*PCD: 2,469 3,'189 3,244 4,481 t,680 2,360 3,354 2,387 2,5~? 3,0~B 3,~48 3.529 2,89~ 2'57~ ~'~50 2'21! 2'441 2,~84 ~,761 1,939 ~I~V,PCD ~IHV'PCD ~INV,PCD MI~V',PCD ~I~V,PCD ~INV,PCD a'INV'PCD ~INV,PCD ~I~V~PCD HI~¥,PCD ~I~V,PCD M~V,PCD ~NV,PCD ~NV, PCD ~iNV:,~CD M.INV'PCD atav,PCD MINV:*PCD H~N¥,PCD 1'780 4.~72 3'926 4.743 2'096 2,435 3.343 2'606 2.852 4.097 3,272 3.465 3.168 3,20! 2-433 '2'555 1,677 2~576 ~'268 1,574 2'80~ 2~617 PAGEI, 6O lis TaPe Verlttcat!on blsting 'chlumberqer Alaslca ¢omput ng Center DEPT. 4100.000 NNOR,PCD DEPT. 4000,000 MNOR.PCD DEP?.' 3900,000 MNOR.PCD DEPT. 3800.000 MNOR.PCD DEPT. 3700,000 NNOR.PCD DEPT. 3600,000 MNOR.PCD DEPT. 3500.000 MNOR.PCD DEPT. 3400.000 NNOR.PCD DEPT. 3300,000 MNOR.PCD DEPT, 3200,000 MNOR.PCD DEPT. 3100.000 MNOR.PCD DEPT. 3000.000 MNOR.PCD , DEPT, 2900,000 MNOR.PCD DEPT. 2800.000 MNOR.PCD DEPT. 2700,000 MNOR,PCD DEPT, 2600,000 MNOR,PCD DEPT. 2500.000 MNOR,PCD DEPT. 2400.000 MNOR,PCD DEPT, 2295,:333 MNORePCD END OF DA~A ** FIiLE NAME i::ED:IT: :: 002': V ~ - SER.~!CE '.~' Fb,!C VERSION ) 00IA06' DA?E ~ F!~E TYPE ~ bO 4,.MAR-lg9! l?Itl 1,611 MINV.PCD 1.829 MINV,PCD 1,218 MINV,PCD 2,619 MINV.PCD 1.938 MINV,PCD 3,707 MINV,PCD 3,0et MZNV,PCD 3'~8 ~ZNV',PCO t,6eO MINVePCD 2,334 H~V,PCD 2,649 ~NV'PCD 2*8?? 2,496 ~¥~PCD 1'636 1.604 1.2~7 2.473 1,$44 1.994 2'750 2'106 2,:125 1,503 1.810 1.604 1'686 2,524 2,504 2,248 '0,000 0':000 PAGE,* 6I ~IS Ta~e Ver!~lcatlon ~istinq ,chlumberger AlasRa Computing Center **~* FILE HEADER *~*~ FIb£ NANE : STC ,003 SERVICE : FbIC VERSION : O01A06 DATE 1 91/0]/ 1 NAX AEC SIZE :'1024 FIbE TYPE : bO LAST FIbE : 4-NAR-1991 17:11 PAGE: 62 SCHbUHBERGER WEbb. SERVICES ANCHORAGE COHPUTING. CENTER ARRAY SONIC, WAVEFORN PROCESSING ANSWER TAPE FIELD: BOROUGH': TATE!: ATE:~LOGGED~ OATE~COMPUTED: RUN NU~BER!:~ LOCATION~ AP'I NUMBER:: BI?SIZE:' JOB NUmB:ER;' BP EXPbORATION NARVAQ #.1, WlbDCA? NORTH SbOPE ALASKA 8 ,' FEB ONE..,, 453,~ 2089& FWb DTCO, !TP GR~R RAY CABbE' TENSION TASLE TYPE' :i~ CURV D~PT Depth Channel Name DTCO DTCO Tape Verification Listing chlumberger AlasKa-CompUt!ng Center 4-MAR-1991 17~11 DEF! DTCO DTCO GR Gamma Ray T£N$ Tension · PAGEt 63 DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB ** TYPE · .REPR,CODE VALUE 0 0 20 1 0 FT 68 I ! **...SET TYPE -'.CHAN CLASS M .DEPT FT O0 000 O0 0 I I ! 4 68 00000.00000 D?CO PTE U~ O0 000 O0 0 1 ! ! 4 65 0000000000 DT¢O !TP US O0 000 O0 0 I 1 1 4 68 0000000000 G~ T'OH GAPI O0 000 O0 0 I I I 4 68 000000'0000 TENS TOH ~B O0 000 O0 0 1 ! ! 4 68 0000000000 . . , . . ** DATA ** DEPT, 2460,000 TKNS,TOH 2720,000 DTCO,P'.. E ,',999,250 DTCO,.XTP -999,~250 GR,TOH 49 , 594 Chlu~eerger a$1~a Comp DEPT, ~400,000 TBNS,TOH 2655,000 DEpI 2300.000 ?EN :TOH 2620.000 ~,. ~o~:ooo ~s.~0~ ~o ooo DEP?. 2i00000 ~EN$.TOH 2650~000 DEPT.- 2000'000 ~,s,~o, ~soo,ooo ,~., ~,o~:ooo ~.s.~o. =~ ooo. "~' ~to,ooo ~.s,~o. ½.oo.ooo o~,~, ~:.goo TE~S.~OH 23 00 D£PT,' ~600,000 TKNS*TOH 233o,000 ~s.~O.~ 22ao oo ~p~,'~.. ~4Oo.oOo TE~$,:TO.. 2355,000 EPT* . t300,000 ~s.~o" ~: .ooo DEPT, 1100,:000 .. D~PT:,: 800' utlng Center DTCO*PTE DTCOePTE DTCO.PTE DTCO*PTE DTCO.PTE DTCO.PTE DTCO*~TE DTCO,~TE DTCO,~TE DTcO~PTEi DTCO"PTE! D?CO~TE D~CO*P~E D~CO*~E D~CO*PTE D~Co*p~E oTcO~pTEi 4-r~AR-1991 17Ill 117,284 DTCO,ITP 117,104 DTCO,ITP 109,504 DTCO,ITP 124.048 DTCO,ITP 125.756 DTCO,ITP 126.767 DTCO,ITP 128,831 DTCO*ITP '999,250 DTCO'ITP ~34.083 DTCO'IXP 129'208 DTCO%~TP· 107,490 DTCO'ITP 146,780 DTCO.~TP I$7,'385 DTCO'~TP t07.344 D?Co~!TP· 89'344 89,940 DTCO'{TP~ 117.284 117,104 109,504 124'048 125,756 126,767 128,831 130.2i6 134,083 1:29'208 107'490 146,780' 13~,385 107"344 89,344 89,940 GR.TOH GR*TOH GR.TOH GR.TOH GR,TOH GB,TOH GR,TOH GR*TOH GR,TOH GR*TO~ GR.TOH GR;TOH GR,TOH GR.TOH PAGEI 64 28.719 57,031 59,125 52,469 65,063 37,313 32,594 52.281 56'281 63,:844 43.969 64*500 : '59,875 60',656 31.656 48.969 '39,406 39'::3:i3 chlumberger Alaska ¢omPut:[n({ Center PAGE: 65 DEPT 600.000 DTCO.PTE TENS:TOH 1755,000 EPT 500.000 DTCO.PTE- .s:ro. oo.ooo DEPT. 400.000 DTCO,PTE TENS,TOH lTlO.O00 DEPT,~ 300,000 DTCO.PTE TEN$,TOH 1360.000 DEPT 200,000 DTCO PTE~ TENS~TOH 1490,000 ' DEPT, 95,000 DTCO'PTE TEN$.TOH 1600.000 ** END OF DATA m, 83.183 DTCO'ITP 70.816 DTCO'tTP 72.707 DTCO,ZTP 66,343 DTCO,ITP 104,500 DT¢O~Z?P 83.183 70.816 72,707 66,343 104,500 GReTOH GR,TOH GR,?OH GR,TOH GR,TOH. GR,TOH' 43.094 32,906 34,000 30,359 28,266 20.750 FILE NA~E~ t STC ,003 SERVICE : FLit' VERSION : 00!A0~ DATE : 91/03 I. MAX ~EC SIZ~ 1024 FILE ?¥PEi ~ bO LAST FIbZ : $~RV~CE : FblC. VERSION { 001A06: MAX AEC ~$~ZE FILE TYPE~ ********************************************************************* ****************************************************************** mm SCHLUM. BERGER WELL: SE.VICES ** ANCHORAGE COMPUTING CENTER **. Tape verification Listinq chlumberuer !as a Computlnu Center. 4-MAR-Igg! !7{!I PAGEI 66 COMPANY{ BOROUGH'~ STATE~ DATE LOGGED~ DATE CONPUTED= ~UN NUNBER= LOCATION= APl NUNBER~ KB ELEVATION{ Gt ELEVATION{ BlT SIZE= JO~ NU~BER~ BP EXPLORATION NARVAQ #l WILDCAT NORTH SLOPE II-FEB-1991 18-FEB-1991 TWO 1827' FNL & 2089' FWL 50-287-200i0 453,3 425',5 8 DTcO,~TE,ACT DTCO,ITP,ACT DTS~vlTP,ACT RSHC,ACT ' DT COaPRE$$IONA~ HIGH QUALITY DT COMPRESSIONA~ ~OW OUA~ITY DT SHEAR HIGH OUA~ITY ' DT SHEAR LOW OUAL~Y _ SHEAR COMPRESSION L RATIO GAMMARA¥ DEFI. .... DEPT De th:,Chann £SS!ONAL DFCO DELTA..T COMPRESS'ZONAL. DTS~ pe!ta-T $~ear:~essurement DT$~ De!=a-T $:hear':MeaSurement RSHC RATIO. SHEAR TO COMPRESSIONAL DELTA .GE ~Gamma, Ray **. ~ATA FOR~A? SPE¢[FIC~T[O. RECORD *'*' SET TYPE - 64EB,** TYPE~ ,REPR:CODE VALUE i 66. 0 2 66 O~ 3 73: 28 4 ~66 4-HAR-199! 171!1 PAGE{ TYPE. REPR CODE. VALUE § 66 6 ? 65 9 65 11 66 36 12 68 13 66 0 14 65 FT 15 66 68 16 66 0 , 66 SET TYPE. NAME BERV UNIT SERVICE API APl ~AP1 AP1 rlbE NUMB NUMB:SIZE REPR PROCESS ID ORDER # bOG. TYPE CbASS MOD NUMB SA~P EbEM CODE (HEX)' OEPTFT O0 000 O0 0 . 4 ~ 000000000 o~o ,~, ~.~. oo ooo oo o I.I I .'~o ooooooooo~ DTSM ~ 0 ' ~TP US/F O0 000 1 1 1 4 68 0000.000 O0 RSHC c,, ooooo ~ o,.~ , , ~ ooooooo oo. GA, ,TOHa GAP! .... O0 .000 O0 0 .I.' , 4 68 ,0000000600 ** DATA ** DTS~:'ITP 99,250 RSHC.ACT -999;250 G .TOH 100.313 " ~ DTCO'~Tp 9 37 DTSM.PTE DEPT'DTSM,~Tp~ 879 - O0 DTCO~PTE . 93..306 P 93. . ~9~250 RSHC'ACT 999;250 GRi,!TOH 97,625 DEPT. 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DEPT, DTSP.ITP DEPT,: DTS~,ITP DEpT DEPT*xTP DEP?, DTSP,ZTP DEPT, D~PT DTS~,tTP D~PT, DEPT DEPT, DT$~, DEPT':~Tp DTS~, DEPT'~Tp DTS~, DEPT'ZTp DTSP, D~PT ~999,250 00,000 100.000 ~999,250 8000.000 '999.250 7900,000 169,867 7800.000 '999,250 oo'ooo '999,250 Z~oo,ooo 99,250 ,i45 ,160 oo,o o ?~00,0 ~oo oOo lr42 7o0o,0oo 166'8~4 6900,000 -999'250 6800,000 ~82;75$ 6700'000 I75,055 6600,000 i58,836 DTCO,PTE RSHC,ACT DTCO, PTE RSHC,ACT DTCO,PTE RSHC,ACT DTCO,PTE RSHC,ACT DTCO,PTE RSHC,ACT DTCO,PTE RSHC,ACT DTCO,PTE ~S.C.ACT RSHC,ACT R~HC~ACT RSHC,ACT RSHC, ACT DTCO~PTE RSHC,ACT / DTCO,~TE~ RSHC, ACT DTCO, PTE R:~HC, ACT · RSHC, ACT 4'MAR-199! 17:tt !01,046 DTCO.ITP -999.250 GR.TOH 97.859 DTCO,ITP '999,250 102.826 DTCO'~TP '999,250 GR,TOH 22 ZTP 9 '~50 DTCO, '99~. GR,TOH -99~'~ DTCO,,TP , GR,TOH 8 4 .,o. .,~0 ~R'~OH , . v~.~4~ oTcO*~p 'I,864 'GR,~OH 8~:4!8 DTCO,~TP 8611 GR,TOH 3 GR*~OH 87,088 '1"916 GR,~OH -999.;250 GR,TOH. 0,; 5 GR'* TOH · -,~04 G~*TOH 8~;932 GR,TOH 101,046 DTSM.PTE 107,688 97,859 DTSM.PTE 98.438 I0~.826 DTS~.PTE 17 .625 98 22 DTS~*PTE 9 PTE 9!, 4 79,05~ DTSM*PTE 90'313 ?9 PTE 44 77,~81 DT$~',PTE i06, ,, : 87,088 D:T~N-PTE 98,375 93'~104 DTSN,PTE 98..063 89 · 87,.~79 DTSM,PTE 91.625 ' 82 PAGEI 68 '999.250 '999,250 '999,250 -999.250 -999,250 '999,250 '999,250 · '999,250 · 150'145 i45' 'g99', 250 -999,250 -999'250 158.836 Tape Verif~:l. cation blstinq ~chl. umbet.qer Alaslca ¢omPut!nq Cent. et 4..NAR-199! 17:t! PAGEI 69 DEPT, DTS~.'I?P DEPT DEPT. DTSM,ITP DEPT,ITp DEPT,I?p DTSM, DEPT,zTp DTS~. DEPT.~ DTS~,ITP DEPT.~ DTSM'~TP DEP? OEP?,. DTS~,~TP DEPT,!~ DTSM,.ITP DTS~:,ZTP EPT. 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UTX DTSM R$~C UTX RSHC'UTX 216,884 207,623 0,357 2,119 236,584 2202,578 2, 229,9 2t0 80 2,271 24,!, 78 0'~55 2, 9*/8 29~ 0 0 28 6 0 395 2 401 · 404 ,375 ,2.39 2760,158 2 2,080 - 999,250 ,,, 999 ' 2 '50 ;ch!umberger AlasRa Com ut ng Center PAGEI 9 1'** FILE TRAILER FILE NAME I D$$T ,005 SERVICE I FL!i VERSION : 001 06 DATE MAX REC SIZE I 1024 FILE TYPE' : LO LAST FILE **** FILE HEADER **** FILE HAME I D$ST .006 SERVICE t FLIC VERSION I O0!A06 DATE : 91/03/ 1 ~AX REC sIZE I 1024 FILE TYPE : LO LAST FILE : CO~PANYI BP EXPLORATION WELbl NARVAO FXELDI ~.ILDCAT BOROUGHI NORTH SLOPE STATE:.,, ALASKA DATE .~OGGED:I · 1.1-FEB:IO91 DATE COMPUTED'. !8-FEB 1991 LOCATION~ 1827 FNb & API NUMBERI 50-287-20010 KB E~VATIO~I 453,3 GL ELEVATION: 425,5 BIT SIZE~ oos NUrSeR:= 2089"FUb DTCO,F~D DTS~'PLN DT$~ DT$~;PUN DTSM, I UN DT CO~PRESSIONAb~ (FIRST OToT SHEARsHEAR HxGHLOW OUALITY U~PER:OW U POLDIPOLE BEFORE BIAS CORRECTION OT SHEAR bOW OUAGI,',~ UPPER. DIPOLE BEFORE BIAS CORRECTXON '?a e verIAftcation ChlUm erqer laslca ComPutino Center 4-MARo!991 1711! DTSM,PLB DTSM,'PUB DTSM'XUB PR,LTX PR.UTI CHEH,LTX CHSH,UTX RSHC,bTX RSHC,UTX CALI DT SHEAR HIGH QUALITY LOWER DIPOLE AFTER DT SHEAR LOW QUAhITY L~WER DIPOLE AFTER DT SHEAR HIGH QUALITY UPPER DIPOLE AFTER DT SHEAR LOW QUALITY U~PER DIPOLE AFTER POZSSONS RATIO LO~EB DIPOLE POI$$ON$ RATIO UPPER DIPOLE COHERENCE AT'SHEAR PEAK LOWER DIPOLE' COHERENCE AT SHEAR PEAK UPPER DIPOLE SHEAR COMPRESSZONAb~ RATIO LOWER DIPOLE SHEAR COMPRESSZONAL RATIO UPPER DIPOLE' GAMMA RAY CALIPER BIAS CORRECTION BIAS CORRECTION BIAS CORRECTION BIAS CORRECTION PAGEt 8O TABLE TYPE { CURV DEFI OEP? Depth Channel Name: DTCO DELTA-T COMPRE$SIONAL .. DTS~ Oeita-T Shear ~easurement DTSM oelta-T $~ear Measurement. 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Caliper= 3, .73 4' 66 5!~ 66 6 IS Ta e Veri~icatio~ cl~lom~erger , lasl(8 Co,put,hq Center PAGE:~ TYPB R~PR.CODZ , VAbU£ 7 65 ti 66 !4 13 66 0 14 65 FT 15 66 68 16 66 0 66 ** SET TYPE - CHAN ** NAME SERV UNIT SERVICE AP1 APl AP1 AP1 FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUNB SANP ELEM CODE (HEX) ~, ~, oo ooo oo o , , , 4 ~. oooooooooo ~co ~ ~s/~ oo ooo oo o i 1 i ~ ~s oo_oooooooo D?s, P~N us/~ O0 oo0 oo 0 ~ ~ ~ 4 68 oo~ooooooo ~?s. z~us/~ oo ooo oo o ~ x 4 66 oo. ooooooo ~?s.pun us/r oo ooo oo o ~ ~ t .4 68 .oooooooooo o?s.XUN US/~ oo ooo oo o ~ t ~ ¢ 68 oooooooooo D?s~~s us/~ oo ooo oo o ~ x ¢ 68 oooooooooo ~,~. ,~~ ooooo ooo, , ~ , ~ oooooo oooooo~° 0 $8 0 DTS~PUB US/F O0 000 O~ 0 !~ 1t !11 44 ,, ,~ oo ooo oo o ,. ooooooo ooo ,,~ ooooo ooo ~' ,.oooooooooo c.,. ,,~ ooooo oo o , 0o000oo000 .~.c ~?x oo ooooo o ~ I 4, 0000000000 .$.c ~Tx oo ooooo o 4 0000000000 $~.' ~,z ~A~ ooooo ooo , , ,,, 6~ oooooooooo · . oooooooooo CA~! TOH I~ O0000 O0 0 ! 1 ~ 4 6 DATA DEPT D?'SM .PUN DT$~ .PUB CHS~ LTX SGR GPX DEPT DTSN PUN DT$~ PUB, CHSH :LTX 8GR 4145 258 247 0 99 4100 0 ! 1 2 000 8 000 DTCO FRO DTS~ ,IUN DTCO,F~D DTSM,~UN DTSM,ZUB CHSH, UTX CALZ~TOH -999,250 258,636 24~,3Q8 ,978 2 D?S~ PLN. DTS'~ PbB. PR LTX RSH¢ PR GTX RSHC LTX 2" 02 'PR,U'TX ,475 RSHC,UTX 251,944 '999':2J0 - 9 9 9 ', 25 0 288,289 0;389 2'344 ,Chlumberger AlasKa Computing Center PAGEI 82 DEPT D?$M PUN DTSN PUB 8GR GP! D?SM PUN DTSN PUB CHSH bTX SGR DEPT DTSM PUB CHSH bTX $GR DEP? , DTS~,PUB CHSH.bTX DEPT DTSM :PUN DTS~ PUB $GR GP.! D?SN PUN: DTSM PUB: CHSH .bTX '$GR !i PUN D?,SN'PUB ,(;PI DEP? ~' CHSH, bTX 4000,000 3900,000 296,416 109.482 3800000 1 ,~64 O. 70 I04,704 3700,000 300,676 287,596 0'783 100,034 3600,:000 267,.,139 253,461 0,972 105,076 3500 000 24'7 898 238 577 0 980 97 42~ 3400,000 229,906 :221,146 8~, ,4{6 oo'ooo. 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RSHC .bTX 0,9 10,2~g9 RSHC,h?X !lO ~i9 DTS~,PbN . .PR,bTX · lO I~ 67.0 D?$M*PbN 0 7 RSHC,LTX ]68.27DTSM. 54.83 DTSN.fLN bB PR 2,31 HC, TX .02~ DTSM,ILN ~.52 DTSN,ILB ~~,52 SHC.U,X ,40~ R PR.U~X '61~ ,35 PR.UTX ,091 RSHC,UTX · DTSN,:ILB R PR'U?X 256,630 D?$N.' bB 0,379 R PR.UTX .2'268 SHC'U?X ' 0'366 PR,UTX ~,=i74 R$~C,U?X 22'560 0 ,; 366 D?$N :, uLB P~ TX as .c ::OTx 247.~2!9 DT$~,:iLN 237,453 DTSN,iILB RSHC'UTX 275'975 DTSN 25~,444 .DgS~ ,375 PR 2,233 RSHC UTX 268.278 254.837 0,382 2.289 309 020 294 527 0 398 2 426 ,614 ~'345 ,054 O73 2 6.5 27'0 478 6 o 24O 37 364. 2 !:1,65 47 2 ! 9 307 453 275,975 259,444 0,364 IS Taue Verification Listinu chlUmberger AlasKa Computin.~ Center 4-MAR-1991 17;ii PAGEI D~PT. DTSM,PUN DTSM,PUB CHSB.bTX SGR.GP! DEPT, DTSM,PUN DTSM,PUB CHSH,L?X SGR,GP! DEPT DTsM'PuN SH'bTX SGR,GPI DTSM,PUN DTSM ~UB · c.s.: tx SGReGP! DEPT, DTsM~PuN DTSM,PUB CHSH,LTX 8GR.GP! DEPT DTSM PUN TS)4, PUB HSH bTX 8Ge DEPT ! DTSM :PUN DTSM PUB CHSH LTX SGR GPI DTSM'PUN DTSM, :PUB CHSH ' LTX SGR. 3100 000 245 252 232 989 0 956 87 703 3000 000 238 319 229 19 0 95~. 63 341 2900 000 67 697 53 081 0 696 73 147 2800,000 ~7.534 4,156 0,852 80~245 2~0.000 24 i8 260 .000 g ~00.000 99,250 -999,250 0,:8~4: 79,4 0 0,935 44.377 ** gND OF DATA: ** DTCO,FMD DTSNe/UN CHSH,UTX CALI,TOH DTCO,FMD DTSM,IUN DTSM,IUB CHSH,UTX CALI,TOH DTCO'FMD DTSM JUN DTSM C.S. UTX CAb! TOH DTCO FMD DTSMIUN DTSM CHSH UTX CAL! DTCO DTSM .1UN DTSM :tUB HSH UTX ALI TOH DTCO FMD DTSM ~UN DTSM IUB CHSH UTX CALl TOH DTCO F~D DT~ CHSH UTX CALl TOH DTCO,FMD DTSM,IUN DTS~'.~IUB CAbI,ZOH O, 8 12,898 110,314 ' Ol 10, 14,~28 ½o ' 77.853 264.!]6 tiS,' 28 254,~44 243' ml 8 O' 963 ~0~992 96,5~6 225,582 ,~:9~4' ! 24' '999,250 I0.954 DTSM,PbN DTSM,PLB PR,LTX RSHC,LTX DTSM,PLN DTSM,PLB PR,LTX RSHC,bTX DTSM,PLN DTSM,PbB PR,bTX RSHC,bTX DTSM,PLN RSHC, ETX DTSM, PbN DTSMeP~B PR,bTX RSHC' LTX DTS~,PLB PR,bTX RSHC~:LTX DTSM,PLN DTSM~LB Pa ~b?X DTS~'PbN DTS~,PLB RSHC, LTX 255,850 DTSM.ILN 467 24~, DTSM, ' ~,358 PR,UTX 2,128 RSHC,UTX 242,689 DTSM,ILN 233.i394 DTSM.ILB · 0,356 PR, UTX 2,116 RSHC:UTX 288.727 DTBM,ILN 74,435 DTSM,ILB 263,271 DTSM,IPN '503 DTSM,ILB ,368 PR, UTX 25i,191 RSHC,UTX 0 2 588 DTSM.,ILN :t10 DTS~,ILB 35~ PRoUTX RSHC' UTX 383 362 0 2 570 DT$N'ILN ::i 2_8 DTSN .ILB 433 PR* UTX .90 4 R $ H C. U TX ,2319'85. D.T$~4~ ILB 250 PR, UTX .999.250 RSHC,UTX .850 5~,467 2, 242,689 233,394 0,349 2,078 273.002 258,096 0,372 2,217 288 727 2740 ~58 2 426 2377,588 22 ,110 ,88 , 37 ,! 8 4 2,9 8 '999 250 e ver~fication L!st~n~ TabergerP AlasKa Computing Center ~Chlum FILE NANE SERVICE I FLIC VERSION I OOIA06 DATE MAX REC SIZE I 1024 FILE TYPE I LO LAST FILE **** FILE HERDER FILE NA~E ~ DSS? ,007 SERVICE I FLIC VERSION I DATE I 91/03/ MAX AEC SIZE I 1024 FILE TYPE I LO LAST FILE 4-MAR-1991 1'71!I PAGE~ 84 SCHLUMBERGER WELL: SER¥ICE8 ANCHORAGE CONPUTING CENTER COMPANYI rlEbO:l BOROUGHI OGGEDI DATE CO~PUTEDi RUN NU~BER~ LOCATION~ API NU~BER~ KB ELEVATIONI b ELEYATtON~ IT SlZEt~, JOB NUMBER, BP EXPLORATION NAR,VAQ # 1 WILDCAT NORTH MLOPE ALASKA 1 ~'FEB' t 991 I ""FEB-1991 ~5 287-200~0 42 ., 5 2089' FWL DTCO PTE DTCO ITP DTSM PUN DTSM DTSN PUB DT COMPREBBIONAL HIGH QUALITY DT COMPRES$'!ONAb~: bO~ QU_Ab..ITY .. PT SHEAR HiGH OUA~][_T¥ U~PPER'D~POLE BEFORE' BIAS CORRECTION DT &HEAR bOW OUA,.LI~ U~PER D~POLE BEFORE EtA& CORRECTIO~ DT 8HEAR HiGH OUALiTY UPPER DIPOLe: AFTER BiAS CORRECTION CHSHoUTX RSHC,UTX DT SHEAR LOW. QUA_b.I?Y U?PER DIPOLE AFTER POIS$ON$ RATIO UPPER OlPObE COHERENCE AT ~HEA~ PEAK UPPER DIPOLE SHEAR COMPRESSIONA~ RATIO UPPER DIPObE GAMMA RAY BIAS CORRECTION PAGEI 85' TABLE TYPE I CURV DEr! DEPT DTCO DTCO DTSM DTS~ DTSM DTSM PR CHSH RSHC Depth.Channel Name DELTA T COMPRESSIONAb DEbTA-T COMPRESSIONAL Delta-T Shear Measurement Oeita-T Shear. Measurement Oelta-T sheer Measurement Oelta-T Shear. Measurement POisSon's Ratio SHEAR COHERENCE RATIO SHEAR TO COMPRESSIONAL DELTA T Spectroscopy Gamma-Ray DATA FORMAT SPECIFICATION RECORD ** ** SET TYPE - 64EB ** TYPE REPR~CODE VALUE I 66 0 66 0 ~ 73 44 4 66 5 66 ? 65 8 68 0 5 1! 66 I 66 0 I 65 FT 15 66 68 16 66 1 0 66 I ,chlum erqer las~a Computing Center 4-MAR-lgg! I7:11 NAME D~PT DTCO DTCO DTSM DTSM DTS~ DTSM PR CH~H RSHC SGR ** SET TYPE - CHAN ** SERV UNIT SERVICE AP! AP1 APl APl FIhE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CbASS MOD NUMB SAMP EEEM CODE (HEX) mmmmmmmmmmmmm~m~mmmmm~m~Nmmmmmm)~m~Mmmmm~mm~mM~mmmmmm~mmmmmNmmmMm~mmMm FT 00 000 O0 0 I I i 4 68 0000000000 PTE US/F 00 000 00 0 t $ 1 4 68 0000000000 ITP U~/F 00 000 00 0 ! 2 I 4 68 0000000000 PUN U$/F 00 000 00 0 ! $ 1 4 68 0000000000 IUN US/F 00 000 00 0 $ ! ! 4' 68 0000000000 PUB US/F 00 000 O0 0 2 1 I 4 68 0000000000 IU~ US/F 00 000 O0 0 1 I 1 4 68 0000000000 UTX 00 000 00 0 $ i ! 4 68 0000000000 UTX 00 000 00 0 i i 1 4 68 0000000000 UTX 00 000 O0 0 ~ 1 } 4 68 0000000000 GP! GAP{ O0 000 O0 0 I i. · 4 68 0000000000 PAGEt 86 ** DATA DEPT 2525.000 DTCO.PTE ~,4~8 DTCO,'ITP 113.478 DTS~.PUN DTSM:.IUN 260.146 DTSM,PUB 2~Bi~, 3 DTSM.IUB 248:~ 53 PR.U~X CHSH.UTX 0.949 RSHC,UTX 2.{87 8GR.GP! 95..~6 DTS~.:IUN 367e235 DT$~,PUB 3~8 B~, 6 DTSM,'~UB 348,836 PR.UTX CHS..UTX 0.852 RSHC.UTX 2,~28 SGReGPI 91.,326 CHBH,UTX 0,948 DTSM.~UN 37.g86 DTB~,PUB 2 DTBM,~UB . ~ ~ PR,UTX CHSH.UTX 0.552 R~HC.UTX DEPT iUN ,000 DTCO,PTE CHSH.'UTX 0. . SGR,GPI .614 DTSM,IUN 29 , 04 DTSM~PUB 28 , DT& , UB ,~194 PR.UIX CHS~,UTX 0,488 RSHC,UTX .~. 8G ,GPI 40,527 3 RSHC.OTX '999. 0 SGR,.GP2 49.446 DEPT, 1986,000 DTCO,PTE '999,'~50 DTCO,2TP !23 585 DTS~.PUN DTS~,'IUN 288,~02 DTS~,PUB -g99,.5~ DTSM,IUB 274~.222 pR.UTX CHSH,UTX 0, 00 RSHC.UTX 2.219 SGR.GP! 48.4!1 260, i 46 0,368 237,~86 0, 77 300 6 o 404 :38 6 -ggg,2~O 0,33 IS Tape Verification btst~nq' chlumberger Alaska computing Center 4-MAR-lgg! l?Ill PAGE~ B7 END OF DATA FISE NAME I D$$T ,007 SERVICE I FSlC VERSION Z O0!A06 DATE ~ 91/03/ 1 MAX REC 8IZg ~. 1024 F!6E TYPE ~ 60 6AST FIbE I **** TAPE TRAIbER **$* SERVICE NAME I ANSWER DATE I 91/03/ 1 ORIGIN ~ FbIC TAPE NAME I 74354 CONTINUATION # 'I 1 PREVIOUS TAPE z COMMENT ~ BP EXPbORATION,.NARVAO#1, WILDCAT, API# 50-2B7-20010 $~RVICE NAME , ANSWER ~TE , 91/03/ , COMMENT ~ BP ExPbORATION, NA. RVAO#%, WXbDCAT:, Ap]# 50"2B?"200~0 * ALASKA COMPUTING CENTER * ****************************** *------- SCHLUMBERGER ****************************** COMPANY NAME : B.P'~ EPLORATION WELL NAME : NARVAO ~1 FIELD NAME : WILDCAT BOROUGH : NORTH SLOPE STATE : ALASKA API NUMBER ~ REFERENCE NO ~ 74366 RECEIVED ~AR 2 1 1991 Alaska 011 & Gas Cons. Commission Anchorage (ALASKA), INC. IS Tape Verification List~n~ chlumber~er AlasKa ComDutin~ Center 13'NAR-l, 991 !0~04 PAGEt **** REEL HEADER **~* SERVICE NAME : DATE : 91/3 /9 ORIGIN : CSU REEL NAME : SPLICE CONTINUATION ~ : 0! PREVIOUS REEL : COMMENT : SCHL[!~BE~GER WELL SERVICES CSU TAPE $~** TAPE HEADER **~* SERVICE NA~E : DATE : gl/3 /9 TAP~ NAME : SPLICE CONTINUATION # : O! PREVIOUS TAPE ~ COMMENT : SCMLUMBERGER WELL SERVICES CSU TAPE **** FILE HEADE~ **** FiLE NAME ~ SPLICE,O01 SERVICE : SPLICE VERSION ~ 32,4 DATE : 91/0~/10 M~X REC SIZE : 8192 FILE TYPE : LAST FILE : ** DATA FORMAT SPECIFICATION RECORD ** ** SET TYPE - 64EB ** TY~E REPR CODE VALUE I 66 0 2 66 0 3 79 4426 4 66 5 66 ! 6 73 .528 7 65 INCH 8 73 60 9 65 !2 68 -999, ~3 66 ~4 65 I~ 66 !6 66 0 66 Tape Verlfl. cation [,isting CblUmberqer hlasKa ComDutlng Center 13-~AR-1991 10:04 PAGE: ** SET TYPE - CwAN ** NA SER UNIT E AP! APl API AP1 FILE NUMB NU,B RE.R ROC Ss ID ORDER # bOG TYPE CLASS MOD ~UMB SAMP EhEM CODE (HEX) TOD TOH S 07 000 00 0 19 I 1 4 73 000 0 0 820 0 0 TI~E TOH MS 07 636 21 0 19 1 1 4 68 8000000000 ETI~ TOg S CS TOH F/HR TT1 TOH US TT2 TOH US TT3 TOH US TT4 TOM US LTTI TOH US LTT~ TOH US LTT3 TOH US LTT4 TOM US SSLT TOH WFID TOH F WF2D TON F WF3D TOH F WF4~ TOH F WF1 TOH w~2 TO~ WF3 TOH wF4 TOH WF~N T0~ WF3~ TOH WF4N TOM WF5D TOM F WF6D TOH F WFTD TOM F WFSD TDH F WF5 TOH WF6 TOM W~7 TO~ WF8 'TO~! WF5N TOM WF7N TOH WFSN TQH DT TOM US/F DTL TOM US/F DTL~ TO~ US/F DTLF TOM US/F SVELTOH SPHI TOM V/V ITT TOH STCD TO~ NPK TOM PR TOH COHC TOH COHS COST TO~ 07 636 21 07 636 2t 07 522 83 O7 522 83 07 522 83 O7 522 83 O7 5~2 83 07 522 83 O7 5~2 83 07 522 83 07 000 O0 07 581 01 O7 581 O2 07 581 03 07 58! 04 07 58O 01 O7 58O O2 07 580 03 O7 580 04 07 582 O1 07 582 02 07 582 03 07 582 04 07 581 05 07 581 06 07 581 07 07 581 08 07 580 05 07 580 06 07 580 07 07 58O 08 O7 58~ O5 O7 582 O6 07 582 07 07 582 O8 O7 52O 8O 07 520 80 07 520 80 O7 52O 80 07 89O 07 890 01 07 529 82 O7 000 00 07 000 O0 07 000 O0 07 000 00 07 000 O0 O7 000 O0 0 !9 0 19 0 19 0 19 0 19 0 19 0 19 0 19 0 0 19 0 19 0 19 0 19 0 o 0 0 o 0 0 19 0 0 ! 0 0 ! 0 0 0 1 0 0 0 0 0 0 0 o 0 0 19 o 0 1. 1 I 4 68 8000000000 I I 2 49 8200000000 ! 1 4 68 8000000000 1 ! 4 68 8000000000 1 I 4 68 8000000000 1 ! 4 68 8000000000 1 i 4 68 8000000000 1 1 4 68 8000000000 ! 1 4 68 8000000000 1 1 4 68 8000000000 ! 1 ~ 79 8000000000 I I 4 68 9000000000 1 1 4 68 9000000000 1 1 4 68 9000000000 I 1 4 68 9000000000 l 1 1 1 I ! 1 ! t ! 1 1 1 1 ! I I ! 1 1 1 1 1 1 1 66 ! 1 I 1 500 500 56 9000000000 500 500 56 9000000000 500 500 56 9000000000 500 500 56 9000000000 1 4 68 9000000000 1 4 68 9000000000 I 4 68 9000000000 I 4 68 9000000000 1 4 68 9000000000 I 4 68 9000000000 1 4 68 900.0000000 1 4 68 9000000000 500 500 56 9000000000 500 50'0 56 500 500 56 500 5O0 56 4 4 4 4 4 4 4 4 4 4 4 9000000000 9OOOOOOOO0 9OOOOOOO0O 68 9OOO0OO00O 68 9000000000 68 9000000000 68 9000000000 68 8200000000 68 8200000000 68 8200000000 68 8200000000 68 8200000000 68 8200000000 68 8200000000 9000000000 8000000000 8000000000 49 8000000000 49 8000000000 49 8000000000 264 68 2 79 2 49 2 2 Tape Verlflcatlon bistlnq chlumber~er Alaska ComDutlnq Center 10:04 PAGE: ID ORDER # LOG TYPE CbASS MOD NUMB SAMP ELEM CODE (HEX) ---------------------------------------------------------------------------------~HE ?OH B 07 000 00 0 19 1 1 2 49 8000000000 SHE TOM DB 07 O00 00 0 19 1 1 2 49 8000000000 STE TOH DB 07 000 00 0 19 1 l 2 49 8000000000 WFC TOH 07 000 00 0 19 1 1 2 49 8000000000 wFSH TOM 07 000 00 0 !9 I 1 2 49 8000000000 STSG TOH 07 000 00 0 !9 X 1 2 79 8000000000 ** DATA TO~.TOH TT1.TOH bTT1.TOH SSLT"TOM WF4D.TOM WF4.TOg W~4N,TOH wFS.TOH WFSN.TOM DTLF,TOH STCD,TOM CO~8.TOH STE,TOH TOD,TOH TTI~TOH ~T~,TO~ SSLT,TOH WF4D,TOH WF~,TOH WFSD,TOH WFS.TOH WFSN,TOM DTLF,TOM STUD.TOM MTE.TOH LTT 1., SSLT, TO~.! ** DEPTH : 350628361 590,809 1076.40~ -45 8874.684 '25 0,795 8873,783 -~5 0 436 89 900 8875 358 0 000 0 000 ** DEPTH : 350628558 590,800 1.076,400 '45 8800,100 0.357 8799.~07 0,195 ~9,900 8800.983 · 0,000 "0,0~00 ** DEPTH = 350628881 647.600 1123,600 "-61 8974.500 FEET ** TIME.TOH 1309.000 TT2.TOH 408,400 LTT2.TOH 878.000 WFID.TOH 8875,357 WF1.TOH -25 WFIN.TOH 0,795 WF5D.TOH 8874.457 WFS,TOH -25 WF5N.TOH 0,651 DT.TOH go:~o0 SV'Eb,TOH 11037 25 NPK"TOH 0 COST.TOH 0,000 WFC'TO~ 0.000 8900.000 FEET TIME TOM TT2 TOH LTT2 TOH WF!D TOH WFI TOM WF1M TOH WF5D TOM WF5 TOH WFSM TOH DT TOH SVEL TOH NPK TOM COST TOH WFC TOH 8800,000 FEET TI~E.,TOH TT2.TOH LTT2,TO}.!! WF1D.TOH 13!5 000 408 400 878 000 ..oo . 5 0,436 8799,883 0,~39 90,600 1.1037.525 o 0.000 0,000 129~.000 45 ,600 948.~. .8700, I ETIM.TOH TT3,TOH LTT3.TOH WF2D, TOH WF2, TOH WF2N TOH WF6D TOH WF6 TOH WF6N TOM DTL TON SPHI TOH PR TOH CHE.TOH WFSH.TOH ETI~,TOH TT 3; TOH LTT3~TOH wF2O' TOM 42 029 CS.TON 770!000 TT4.TOH 1246 800 LTT4.TOH 8875 !33 WF3D"TOH -25 WF3.TOM 887 232 WF7D.TOH '-25 WF7.TOH 0 533 WFTN.TOH 90~200 DTLN.TOH 0.239 'ITT,TON 0.~000 COHC.TO~ 0,000 SHE.TOH 0.000 STSG,TOM 238.871 CS.TON 770 000 T~4'TO~ 1246:800 LT{41TOM 8800.758 WF3D,TOH -25 WF3.TON 0.436 WF3N'TOH 8799'658 WF7D.'TOH '25 WF7.TOM 01.195 WF7N.TOM 901200 DTLN.TOM 0'239 ITT.TOH 0.000 COHC,TOH 0-~000 SHE.TOH 0.000 STSG~TOH 562.033 C.S. 'O ~ · 84.2,800 TT4..TOH 1297.200 L.~T4.TOH 8700,674 '~':'3D'TOH 1353,000 588,400 1057,600 8874,908 ·-25 0,972 8874,008 -25 0,.416 94'500 o'ooo o;000 o'o0o I76 58 ~o0 oo I05~' OO '-25 0,292 8799,434 0,2~9 94,500 0.,007 0,000 0,000 176 393 000 661 200 IS Tape Yerlflcation Listinq chlumber~er AlasKa ComDutIng Center 13-MAR-199! 10:04 WF4D.TOH 8700.225 wF1.TOH WF4 TOH -25 wF1N TOH WW4N:TO~ 0,436 WF5D:TOH WFSD.TO~ 8699.125 WF5 TOH WF8 TOH '25 WFSN:TOH 0.292 DT DTLF.TOH 95.200 SVEL.TOH STC~.TOH 8700.891 NPK.TOH COHS.TOH 0,650 COST TOH STE.TOH 38,906 WFC:TON ** DEPTH : 8~00.000 FEET TOD TOH 350629138 ¥IME.TOH TT~:TOH 635.200 TT2.TOH TOH ~.115,200 LTT2,TOH LTTi, ~ . .. SSLT,TCH '45 WF1D'TOH WF4D.TOM 8600,266 WFI.TOH WF~iTOH '~5 ~F1N'TON WF4N TOM 0,651 WF5D,TOH WFSD TOM 8599,158 WFS,TOH WFS,TO, -25 WFSN.TOH W~ TOH 0,651 DT.TOH D', ,.':TON~u~ 94,800 SVEL,TOH STCD.TOH 8600,934 NPK.TOH COH$,TOH 0.426 COST,TOH STE,TOM 40,406 WFC,TOH ** DEPTH : 8600.000 FEET TOD.TON 350629~96 TIME,TOH TTI'TOH 622.400 TT2,TOH LTT!.TOH 1112,000 LTT2'TOH SSLT~TOH -45 WF1D,TOH WF4D*TOH 8500,250 WFi~TO~ WF4'TOH -25 WF1N,TOH WF4N.TOH 0'795 WF5D~TO~i wFBD.TO~ 8499,150 WFS,TOH WFS,TO~ -25 WF5N,TOH WFSN,TOM 0,436 DT,TOH DTLF'TOM 92,500 SVEL'TOM STCD,TOH 8500,924 NPK~TOH COHS.TOH 0,258 CO~T,TOH STE,TOH 43.~56 W~C,TOH -25 WF~.TOH -25 8700:000 WF60:TOH 8699,775 -25 WF6.TOH ~ 5 0.357 WF6N,TOH 0 ~ 7 88.000 DTL.TOH 92~300 11363.637 SPHI.TOH 0.227 2 PR,TOH 0.~42 0,250 CHE,TOH 38.344 0.000 WFSH,TO~' 0.000 1276,000 444.400 925,600 8600.934 -25 0 795 8600~041 -25 0.533 94.~00 ~0548.523 3 0, o.g * 0 ** 'DEPTH : 1294 000 436:800 926,800 8500.924 -25 1,188 8500'025 -25 0,533 94,~00 !'0604, 57 0,616 0,000 8500.000 FEET TOD,TOM 3506~9652 TIM~.TOH 12~,()~0 TTI~OH 607,200 TT2,"O~...H 4 ,2 0 LTTI'TOH 1057,600 GTT2,TOH 886,0-~0 sSLT'TOH -45 '~PIP,TOH 8400,995 WF4N'TOH 1,774 WF5D,TOH 8399,875 WFSD'TOH 8399'199 WFS~TOH ETI~,TOH TT3,TOH LTT3,TOM WF2D.TO~ WF2.TOH WF2M,TOg WF6D,TOH WF6,TOM WF6N,TOM OTb TOH SPMI TOH PR TOH CHE TOM WFSH TOH ETI~ TOM TT3 TOH LTT3 TOH WF2D'TOM WF~,TOH WF2N',TOH WF6D,TOH WF6~TOH WF6N,TOM DTL~TOH SPHI,TOM CHE,TOH WFSH,TOH ETI~.TOH TT3,TOH b~T3'TO~ WB:2D,TOH WF2.,TOH ~ ~'~ " H W[60,TOU ~F6,TOH 818.596 820 800 13002000 8600.707 -25 0.795 8599,607 -25 800 25~ 34O 0o0 000 1076,814 815,600 1301,600 8500,699 8499. g 0.436 95.5OO '0'254 0 1332,878 790'400 1232'000 8400,758 2,168 8399,650 WF3.TOH WF3N.TOH WF7D.TOH WF7.TOH WF7N.TOH DTLN.TON ITT,TOM COHC.TOH SHE.TOH STSG.TOH CS TOH TT4:TOH LTT4,TOM WF3D.TOH WF3 TOH WF7D TOM WF7 TOM WFTN.TOH DTLN TOM ITTiTOH CoHC TOH SHE'TOM STSG.TOM CS TOM TT4 TON bTT4 TOM WF3P TO~ WP3 TOH WF3N TOH WF7DTOH WF7 TOH WF7NTOH DTbN,TOH ITT,TOH COHC.TOM SME'TOM STSG,TOH CS TOH TT4 TOH LTT4 TOH WF3D TOH WF3 TOM WF3N TOH WF7D,TOH W~7~TO~ PAGE: -25 0 972 8699:559 0 357 92[500 0 016 0,965 42,500 176 1397,000 633.600 11~6 400 8 oo249o -25 0,795 8599,~83 0.533 94 800 0 025 0 947 34 906 1392,000 623,200 Ii~1~200 8500'475 0,795 8499,~75 "25 0 533 93 900 0 034 0 968 30 984 ~76 1428 000 606 000 1060 400 8400 533 -25 452 .IS TaDe Verification Listino ~chlumberqer AlasKa Computing Center WFS.TOH -25 WF5N.TOH WFSN.TOH 0.972 DT.TOH DTLF.TOH 88.500 SVEL.TUH STCD.TOH 8400.975 NPK.TOH COHS.TOH 0.451 COST.TOH STF.TOH 46.625 WFC.TOH DEPTH = 8400.000 FEET TOD.TOH 350629904 TIME.TOH TT1.TOH 584.400 TT2.TOH LTT1.TOH 1020.400 LTT2.TOH SSLT.TOH -45 WF1D.TOH WF4D.TOH 8300.158 WF1.TOH WF4.TOH -25 WFIN.TOH WF4N TOM 0.436 WF5D.TOH WFSD~TOH S299.266 WF5 TOH WFS.TOH -25 WF5~iTOH WFSN,TOH 0,131 DT TO~ DTLF.TOH 83,600 SVEb TOH STCD.TOH 8301.041 NPK.TOH CO~S.TOg 0.680 COST.TOH STE.TOM 48,188 WFC.TOM ** DEPTH = 8300.000 FEET TOD.TOH 350630305 TTI,TOH 713.600 LTT~.TOH 1236,000 SSLT'TO~ -45 WF4D.TOH 8200,19! WF4.TOM -25 WF4N '~OH 0.436 WFS'TOH '25 WFS~,TOg 0239 DTLFiToH 101:500 STCD'TOM 8200,891 COHS'TOH 0.844 ~0 844 TOD TT1. TO~ LTT~, $SbTTOH WF4~ TOH WF4'TOH WF4~'TOH .TOH ~F~N'TOHTOH DT5F;TOH STCD,TOH 350630653 700.000 1212,000 -6~ 8~00,133 -25 0,357 8099,2~5 -~5 0 !60 100 200 8101 000 8200.000 FEET TIME,TOH TT2,TOH LTT2,TOH WF1D.TOH WF1TOH WF~M TOH WFSD TOH WF5 Tog DT TOH SVEL'TOM 13-MAR-1991 10:04 1.774 WF6M.TOH 91 5O0 DTL TOH 10928:9633 SPH!iTOHpR TOH 0.776 CHE TOH 0,000 WFSH.TOH 1255 000 ETI~.TOH 406:000 TT3,TOH 852 400 bTT3,TOH 8301~041 WF2D,TOH -25 WF2.TOH 0,~95 WF2N.TOM 8299, 34 WF6D,TOH -25 WF6,TOH 0.292 WF6N,TOH 87,100 DTL.TOH 11481.059 SPHI TOH 3 PR' ,TOH 0.785 CHE,TOM 0.000 WFSH.TOH 2017.000 ETIM,.TOM 536,400 TT~,TOH 820 ' 9'1 WF2D,TOH '-25 WF2~TOH 0.~95 WF2N,TOH 7 WF6D'TOH 8199'-~5 WF6,~OH 0,~39 WF6N.TOM 10~ 700 DT~:TOH 99~ ~484 sP. TO~ ~'TOM 0,25~ CH · TOH 1399.000 49~,~00 101 , 00 BI01,000 -25 8099,25 0,239 99,000 10101,0t2 ETI~,TOH TT3,TOH bTT3,TOH WF2D,TOH WF2,TOH WF2N,TOM WF6D,TOH WF6,TOH WF6N.TOH DTL TOH SPHI TOH PR TOH 0.795 90.900 0.242 0.317 37.719 0.000 1585.013 753.200 1184.000 8300.816 0.533 8299.717 -25 0.239 86.3O0 35.250 0.000 !986,403 903,:~00 8200.658 0.533 8199.725 0,239 97,80'0 0'277 0..298 3,031 20.:000 2334 331 900 O00 1410 400 8100 767 -25 0.~36 8099" 75 0.239 99.500 0,~271 0,340 WF7N.TOH DTLN.TOM ITT.TOH COHC,TOH SHE.TQH STSG.TUH CS.TOH TT4.TOH LTT4.TOH WF3D,TOH WF3.TOH WF3N,TOM WF7D.TOM WF7,TOH WFTN.TOH DTLN.TOH ITT,TOM COHC.TOH SHE.TOH STSG.TOH CS.TOM TT4 TOM LTT4 TOH WF3D TOH WF3TOH WF3N TOM .WF7D TOH WF7 TOH WF7N TOM DTLN TOM ITT'TOH COHC,TOH SHE'TOH STSG~.TOH C$.TOH TT4 TOH bTT4 TOH WF]D TOM WF3 TOH ~N.TOH !iF7D,TOH WF7.TOH WF7N~TOH DTbM,TOH ITT,TOH COHC'TOH PAGE: 0.795 89.000 0.044 0,942 35,438 176 1430.000 582.800 1023,200 8300.383 0,651 8299,490 -25 0.195 83,700 0,052 0.960 4!. 6 706 O0 ~3o'~oo 82oo~424 8199, 0 g 30'2~03 9 '0 61 45,688 ~ 76 1273' 000 698,800 1211., 200 8t00,5.41 0,436 8099,~0 ~5 0,195 : 600 9~:i072907 ,IS Tame verification bisting ;chlumberqer AlasKa Computinq Center COHS,TOH 0,927 STE.TOH 43,250 ** DEPTH TOD.TOH 350630934 TT1.TOH 688.400 LTT1.TO~ !210.000 SSLT.TOH -61 WF4D.TOH 8000.274 WF4.TOH WF4N.TOH 0.651 WFSD,TOH 7999.183 WFS.TOH -25 WFSN.TOH 0.239 DTLF TOH 99,700 STCD[TOH 8000,958 TOM 0.283 COHS'TO~ST~, 36,188 ** DE. TH TOD,TOM 350631213 TT1,TOM 678,000 LTT1.TOH 1172,400 SSLT.TOM -45 WF4D.TOH 7900.208 WF4.TDH -25 WF4MiTOM 0.795 WFSD,TO}! 7899,116 WFS'TOH -~5 WFS~'TOH 0,533 DTLF'TOH 98.400 STCD'TO}~ 7900,892 COHS.~OH 0,653 STF'TOH 35,000 TOD. TOM T ~ ~ 1.. TOM WF4D, TOM WF4N, TOH WFSD'TOH WF~N., TOH DT6F 'TOH STCD,TOH COMS. TOM STE.TOH ** DEPTH = 350631494 577,200 1018'8~00 .-61 7800.~17 0,436 7799,~25 0 239 79 800 7800 899 o 25o 4~ 625 COST.TOH WFC.TOH 8100.000 TIME.TOH TT2.TOH LTT~.TOH WF1D.TOH WF1,TOH WF1N.TOH WF5D.TOH WFS.TOH WFSM,TOH DT,TOH SVEL,TOH NPK,TOH COST,TOH WFC,TOH 8000.0 TIME. TT2. 5TT2. WF1D WFI WF5D ~'WF5 DT SVEb NPK COST WFC. 7900,0 TIME TT2 bTT2 ~F1D WF1N WF5D WF5 WF5N DT' ~SVEL, NPK. COST' WFC, FEET O0 FEET TOH TOH TO}{ TOH TOH TOM TOH TOH TOH TOH TOH TO}..{ TO}{ O0 FEET TOM TOM TOH TOM TOH TOH TOH TOH TOH TOH TOH TOH TOH 13-MAR-1991 10:04 0.713 CHE,TOH 0.000 WFSH.TOH 1389.000 ETIM,TOH 478.0~0 TT3.TOM 1011.2 0 LTT3,TOM 8000.958 WF2D.TOH '25 WF2,TOH 0,651 WF2N,TOM 79.99.858 WF6D.TOM -25 WF6,TOM 0 357 WF6M,TOH 102:500 DTL.TOH 9756,100 SPHI TOM · I PR:TOM 0,295 CME.TOH 0,000 WFSH,TOH 1407.000 489,600 5 0 -25 0'651, 100.000 10000.000 0.000 !396.000 4!5'600 84~:400 780 898 -25 0,5~3 7799,9 0 0 8 ~00 12!2~ 211 2 0,250 0,000 ETI~,TOM TT3,TOH LTT3,TOH WF2D,TOM WF2,TOH WF2N.TOH WF6D.TOH WF6 TOH WF6N TOM DTL TOM SPHi TOH PR TOH CHE'TOH WFSH'TOH ETIM TOH TT3 TOH LTT3 TOH WF2D TOH WF2 TOH WF2N TOH WF6D TOM WF6 TOM WF6N TOH DTL TOH SPHI TOH PR TOH CHE:,T~H WFSH,TLH 26.547 0.000 2614.594 895.200 1413.200 8000.725 0.651 7999.633 -25 8OO 4ii 28 125 000 2894.738 874.800 1362'800 7900.~658 0,972 7899.758 ':25 436 ]75 000 3174.987 736,000 1188'000 7800.674 0,972 7799,766 -25 0 ~92 80 300 0 ~0! 0259 41 938 3 O00 PAGE: CS.TOM 1287.000 TT4,TOH 68~i800 LTT4 TOH 120 200 WF30:TOH 800 500 WF3.TOH -25 WF3N.TOM 0,972 WF7D TOH 7999,408 WF7iTOH -25 WFTN TOH 0 357 DTDN'TOM I01i300 ITT,TOH 0 081 COMC'TOM 0,940 SHE,TOM 40,594 STSG.TOH 176 CS.TOM 1281,000 TT4,TOH 678,000 LTT4.TOH I17~,600 790 ,441 WF3D,TOH WF3'.ToH · WF3N,TOH 0.~5 WF7DiTOMwF7 7899,,254 ,TOH WF7N,TOH 0,$33 DTLN~.TOM 98,500 ITT,TOM 0,092 COHC'TOM 0,97~ SHE,TOH 43,656 STSG,TOH 176 CS.TOH 1284,000 TT4'TOH 577,200 bTT4'TOM 10~,400 WF3D,TOM 78 441 WF3~TOM WF3N.TOM 0.,!~3 WF7D;TOM 7799, wFT'TOM , 5 wF7N:TOH 0 DTLNiTOH ,357 79,900 ITT'TOH 0,100 COHC,TOH 0'872 SME~TOH .35,469 STSG.TOM 176 $~E.TOH 46.969 STSG.TOH 176 IS Tape verificat~on bistinq cblumberger AlasKa Computing Center DEPTH = 7800.000 FEET TOD.TOH 350631773 TIME.TOM TT1,TOH 621.200 TT2,TOH LTT1.TOH 1064.400 bTT2.TOH SSbT.TOH -61 WF1D,TOH WF4D,TOM 7700.217 WF1.TOH WF4N.TOH 0°436 WF5 WFSD.TOH 7699.125 WF5 TOH WFS.TOM '25 WFSN~TOH WFSN.TOH 0.357 DT.TOH DTLF.TOH 84.200 SVEL TOH STCD.TOH 7700.89i MPKiTOH CONS.TOM 0.464 COST TOH STE,TOH 40.313 WFC'TOH TOD.TOH TT1 TOM LTT~:TOH SSLT.TOH WF4D.TOM WF4 TOH WF4N TOM WFSD TO}{ WF8 TOW WFS~ DTLF TOM STCD.TOH ~TE,TOH TO .TOH TT~ TOH LTT1 $~LT TO~ WF4D TO~ WF4 TO~ WF4N TOH WFSD TOM WF8 WF8N TOH DTLF TOM STCD TOH COHS'TOH ~TE.TOH ** DEPTH 350632055 599.600 1033,200 '61 0.651 7599.142 -~5 0,239 8~,900 7:600.908 44,844 DEPTW = 35063233O 692,000 1232,000 -45 7500.283 -25 1,452 7499,183 -25 0 436 105 8OO 7500 958 0 4~ 42 594 7700.000 FEET TIME TOH TT2:TOM bTT2,TOI4 WF!D,TOH WF1.TOH WF~N TOH WF5D WF5 WFSN DT SVEb NPK COST WFC TOM TOH TOH TOH TOW TOH 7600.000 FEET TIME-TOM TT~,TOH LTT2.TOH WF!D'TOH wF1.TOH WF1N'TOH WF5D,TOH WF5'TOH WFSN';TOH DT.TOH SVEL TOH MPK TOM COST TOH WFCTOH 13-MAR-1991 10104 1397.000 ETIM TOM 450.400 TT3:TOH 887.200 LTT3,TOM 7700.891 WF2D,TOH '25 WF2.TOH ~:188 WF2N.TO, 769 990 WF6D.TOM -25 WF6,TOH 0 533 WF6N,TOH 88:100 DTL.TOH 11350.740 SPHI:~O, 4 PR OH 0.403 CME.TOH 0.000 WFSH,TOH 145].000 ETI~,TOH 43 .200 TT3,TOH 868,800 LTT3,TOH 7600,908 WF2D TOM -25 WF2,TOH 7599 25 WF6D.TO~ WF6,TOH 'WF6N~TOH DTL,TOH 8 000 1~90 762 SPHI.TOH 2 PR;TO~ 0,722 CHE,TOH 0.000 i375.000 ETI~:.TOH 482,:000 TT3 10.21,600 5TT3 TOM 7500,958 WF2D '-25 WF2 TOH 2.~68 WF2N,TOH 74.99, 66 WF6D.TOH -25 WF6.TOH 0.972 WF6N,TOH I08,100 DTL,TOH 9250,695 SPMI~TOW pR,TOH 0'65 CHE.¥OH 0,000 ~FSM,TOM 3453.928 791.600 1227.600 7700.658 -25 0 795 7699~758 -25 87 O0 O, 74 44.969 0'000 735.320 3764.4O0 1202.000 7600'683 -25 651 '~25 6O0 208 43.500 0o000 .4011.158 899,600 1447,200 7500"133 25 0',533 i07.:300 0.30! 0 ,290 35 03! 10:000 CS.TOH TT4.TOH LTT4 TOH WF3DiTOH WF3N.TOM WF7D.TOH WFT.TOW WF7N.TOM DTLN,TOM ITT.TOM COHC'TOH SHE.TOH STSG.TOH CS,TOM TT4,TOM LTT4.TOM WF3D.TO~ WF3.TOM WF3N.TOM WF7D.TOH WF7,TOH wF7N~TOH DTLNiTOH ITT,TOM CO~C'?O~ S~E,TOM STSG.TOH CS.TOH TT4'TOM bTT4.TOM WF3DTOH WF3 TOH ~F3NTOH WF7D TOE ~ 7 WFTOM WF7NTOH DTLN:TOM ITT TOM COHC TOH PAGEI 1320 618i 1063 7700 O, 7699. 000 4OO 2OO 441 ,,25 ,-25 4~6 80O 109 957 000 176 1271.000 597,200 1034.400 7600.450 0,972 7599,375 0,4~6 82.200 0,117 176 123 !, 7499, ~oo 43, 000 .400 4O0 :509 -,25 774 4O8 ,,,25 ~ 00 969 176 **. DEPTH : 75:00.000 FEET ** ,IS Tape Yeriflcatlon [.isttnq ;chlumberMer Alaska Computinq Center TOD.TOH 350632605 TINE.TOM TTI,TOH 582.400 TT2.TOH £,TT1.TO~ 1008.400 LTT2,TOH SSLT.TOH '61 WF1D.TOH WF4D,TOH 7400,267 WF1.TOH WF4.TOH '25 WF1N.TOH WF4N,TOH 1.188 WF5D,TOM WFSQ.TOH 7399.166 WF5,TOH WFS.TOH -25 WF5N.TOH WFSN,TOH 0.972 ' DT.TOH DTLF.TOH 78.800 SVEL,TOH STCD,TOH 7400,942 NPK.TOH COHS.TOH 0,606 COST.TOH STE.TO~ 41.688 ~FC.TOH TOD,TON TT~.TOM LTT~.TOM SSLT,TON WF4D,TON WF4.TOM WF4N.TOH WFSD.TO~ WFS.TOH WFS~,TOH DTLF,TOH STCD,TOH COHS'TOH STE,TOH TOD,TOH TT!,TOM SSLT,~OH WF4D'TO~ WF4 TOH WF4N TOH WFSD TOH WF~ TOM WFSN TOH DTLF TOM STE TOM TT].TOH SSLT, TOg ** DEPTH 350632877 597.600 984,800 -45 7300,291 1.188 7299'191 -~5 1 ,188 78 500 7300 967 0 ~65 41 125 DEPT~, 350633151 586.800 1013,600 -61 7200,~75 -25 0,795 7199,~74 0 357 78 100 7201 050 0 897 46 094 DEPTH ' 350633426 605,600 ~024,~00 -61 7400.0 TIME.TON TT2.TOH LTT2 TON WF1D~TOH WF1,TOH WFIN.TOH WFED,TOH WFE,TOH WFEN.TOH DT'TOM SVEL,TOH NPK.TOH COST~TOM WFC,TOM 7300,000 TIME,TOH TT2.TOH LTT2 TOH WFID TOH WFI TOH WFIN TOH WF5D TOH WF5 TOH WF5N TOH DT TOM SVEb~TOH NPKTOH COST TOH WFC,TOH 7200,0 TT2~ LTT~. WF1D~ 13-MAR-1991 !~0:04 1378,000 ETIM.TOH 430,000 TT3,TOM 847,600 LTT3.TOH 7400.94! WF2D.TOH -25 WF2.TOM 2 168 WF2N'TOH 7400:04~ WF6D,TOH -25 WF6.TOH 1.188 WF6N,TOH 82.000 DTL.TOH 12195.121 S~HI.TOH 3 PR,TOH 0.328 CHE,TOH 0.000 WFSH.TOM 00 FEET ** 1377,000 432,400 830,000 7300,967 '25 2,650 7299.875 -25 0,972 7~,000 1265 ,230 4 0,250 0.000 FEET i~67,000 424.000 850'000 7201.050 2 *25 0,795 78,800 ~2690,357 3 0,550 0'000 00 FEET ** TOH !359,000 TOM 433,200 TOM 860,400 TOH 7101,008 ETIM,TOH TT3'TOH LTT3,TOH WF2D,TOM WF2,TOH WF2N,TOM WF6D,TOH WF6'TOH WF6N,TOM DTL,TOH SPHI.TOH PR'TOH CH.E,TO~ wFSH'TOH ETI~'TOH TT3,TOH LTT3,TOH WF2D'TOH WF2,TOM wF2N.'TOH WF6D'TOH WF6'TOH WF6N,TOM DTL,TOH PR'TOM CHE,TOM W~SH~TOH ETIM,TOH TT3 TOH bTT] TOH MF2D TOH 4285.938 754.000 1160.400 7400.7~7 -25 3 957 7399:625 -25 0.972 80 200 0 198 0 282 26 875 0 000 4558 072 738,000 1149..200 7300,741 1.774 7299.649 '25 1 188 78 .600 0182 0,324 37,406 0,000 4832 402 747 200 7 0 6~3 0 !72 5 0,,:~57 O0 0;275 28,03! 0..000 5107,275 758,400 1.198'000 7100.774 CS.TOM TT4.TOH LTT4,TOM WF3D.TOH WF3.TOH WF3N.TOH WF7D,TOM WF7.TOH WF7N.TOH DTLN.TOM ITT,TOM CO~C.TO~ SHE TOM STSG~TOM C$.TOM TT4.TOH LTT4 TOH WF3D:TOM WF3,TOH WF3N,TOH WF7D,TOH WF7.TOM ~F7N TOM DTLN TOM ITT.TO~ COHC,TO~ SHE,TOH STSG,TOH CS TOM TT4 TOH LTT4 TOM WP3D T0H WF3 TOM WF3N TOH WFZU.TO. Wf7.TOM WF7N,TOM DTLN,TOM ITT,TOM COHC,TOH SHE,TOM STSG.TOM C$. TOH TT4'TOH ~TT4;TOH WF3D, TOH PAGE: 1313.000 582.800 1009.200 7400.491 '25 2.650 7399,399 0.795 81,~00 0.136 0.829 42,375 !76 1307,000 596,800 990.400 7300.517 2,~68 7299.425 8 0,144 0,919 36,063 176 1312'000 585'200 1014'400 7200~408 1,452 7199,500 '1'52 . 0,923 4~,406 602 000 1028 400 7100 550 Tape Verification bistl, ng .¢hlumberger AlasKa Computlmq Center WF4D.TOH 7100,133 WF4,TDH °25 WF4N,TOH 1.774 WFSD.TDH 7099,233 WF8 TO~ -25 WF8N~TOH 0.795 DTLF,TOH 85.200 STCD.TOH 7101,008 COH$,TOH 0,250 STE,TOH 44,250 ** DEPTH TOD.TOM 350633702 TT1.TOH 575 200 LTT!.TOH 995:600 $SLT'TOH -61 WF4D.TOH 7000,267 WF4,TOH '25 WF4N.TOM 0,651 WFSD'TOH 6999,175 WFS,TOH '25 WFSN,TOH 0,651 DTLF,TOH 77,900 STCD,TOH 7000.950 COHS,TOH 0.755 STE,TOH 45,8!3 ** DEPTH : TOD.TOH 350633975 TT1,TOH 607,200 bTT~'TOH 1058,800 SSLT,TO~ -61 WF4D.TOH 6900,241 WF4'TOH WF4N~To~ 0.651 SD.TOM 6899.149 W~FS,TO}..{ -25 WFSN~TO}~ 0.292 DTLF~TOH 87,000 STCD~TOH 6900,925 COHS~TOM 0,767 STE,TOH 43.906 DEPTH= TOD.TOH 350634249 TT!..TOM 687,200 LTT~.TOM 1!58 800 W'F4D~TOH 6800,217 WF4.TOH -25 WF4N TOH 1,452 TOH 6799,~25 WF~.TOH WF~N,TOH WFSD.TOH WF5 TOH WF5N TOH DT TOH SVEL TO~ NPK TOH C~ST,TOH WFC,TOH 7100.000 FEET TIME TOH TT2:TOH LTTP,TOH WFID,TOH WFI,TOM WF1N'TOH WFSD'TOH WFS,TOH WF5N.'TOH DT~TOH SVEb~-O~ ~ NPK"TOH COST~TOH W iFC.TOH 7000.000 FEET TIME'TOH TT2 TOH LTT2 TOH WFID TOH WFI TOH WF1N TOH WF5D TOM WF5 TOH WFSN TOM DT TOH SVEL TOH NPK TOH COST-TOH WFC,TOH 6900,000 FEET TIME,TOH TT2'TOH bTT2~TOH WF~D,TOH W~I~.TO~ WF5D'TOH WFS,TOH 13-MAR-1991 10:04 =25 WF2,TOH 2 650 WF2N,TOH 7099~908 WF6D.TOH -25 WF6,TOH 0 972 WF6N,TOH 86:300 DTL,TOH 11587.484 SPHI'TOH 3 PR,TOH 0.691 CHE'TOH 0.000 WFSH,TOM 1371 000 ETIM,TOH 427:200 TT3.TOH 840,800 LTT].TOH 7000,950 WF2D.TOH -25 WF2,TOH 699 849 WF6D,TOH -25 WF6,TOM 0 ~3 WF6N.TOH 80i0 DTb'TOH 12422 361 SPHI,TOH 4 PR,TOH 0,690 CHE,TOH 0.000 WFSH,TOH 1369.000 457.200 6900 01,452 69~0,017 -25 ~0 651 8s:4oo 11312,217 0,526 0,000 5 ,000 68 ,892 -25 99~ ETIM,TOH TT3,TOH bTT3~. OH WF~ TOH WF2~iTOH WF6 TOH WF6 TOH WF6N. TOH DTblTOH MPHITOH PR~TOH CHETOH WFSH TOH ETiM,TOH TT3,TOH LTT3'TOH WF2D;TOH ?2,rOH W~.~TO~ WF6D,TOH WF6,TOH -25 1.774 7099.683 -25 0.795 85.60O 0,219 0.325 42.969 3,000 5382 392 742!800 1!58800 7O00724 -25 0.972 6999,6~4 -25 0 533 80 700 0190 0305 26000 0000 5655.932 768 400 122~ 400 690 700 1.188 6899.790 0,436 87,~700 0.~29 0.. 0t 578 :ooo 884'400 6800.675 -25 679~ *~52 ,767 '25 WF3.TOH WF3N TOH ~FTDiTOH WF7 TOH WF7N.TOH DTLN,TOH ITT,TOH COHC.TOH SHE TOH STSG:TOH CS TOH TT4TOH LTT4TOH ~F3D TOH WF3 TOH WF3N TOH WF7D TOM WF7 TOM WF7N TOH DTLN TOM ITT TOM COHC TOH SHE,TOH STSG,TOH CS.TOH TT4.TOH LTT4,TOH WF~D.TOH WF3'TOH WF3N,ToH WF7D.,TOH WFT,TOH ~:F7N.TQH DTLN.TOH ITT.TOH CO~C,TOH SH:E~TOH STSG'TOH C$.TOM TT4,TOM LTT4~TOM WF3D'TDH WF3 TOH WF3N TOH WF7D TOH WF7 TOH PAGE: -25 1.452 7099.458 0.795 85.400 0'160 0'827 38.188 176 1311,000 574.000 1007,600 7000.491 1,188 6999'399 0,168 1312,000 606,000 1056'400 6900~466 0,795 6899~374 0,292 87,i00 0,177 .0,851 42,000 176 3071,:000 1689,200 116 1200 679~:650350 IS Tare Verilication Listing chlumberqer Alaska Computing Center WFS,TOH -25 WF5N TOH WFSN.TOH 0.292 DT~TOM DTLF.TOH 92.800 SVEG.TOH STCD.TOH 6800,892 NPK TOM COHS.TOH 0.930 COST~TOH STF.TOH 43.375 WFC,TOH ** DEPTH = 6800.000 FEET TOD.TOH 350634522 TTt,TOH 612.000 LTT1.TOH 1041.600 SSLT,TQM '61 WF4D TOM 6700,125 WF4:TOH '25 WF4N.TOH 0.357 WFSD TOt{ 6699,225 WFS:TO}{ '25 WFSN,TOM 0.107 DTLF,TOM 81,600 ~CD.TO, 6701.000 HS.TOM 0.662 STE.TOH 4].219 TOD.TOM TT1.TO~ LTT1.TOM SSLTTOM WF4DTOH WF4 TOM WF4N TOH WFSD TOM WF8 TOH WFSN TOH DTLF TOM STCD TOH COMS TOH STE TOM TOD.TOM TT!.TOM LTTI~ToH SSLT,TOH WF4D.TOH WF4,TOH WF4N,TOH WFSD,TOH WF8,TO~ WFSN.TOM DTLF,TOM STCD,TOM ** DEPTM = ]50634791 652.800 1122.000 6600,I49 -25 0,795 0 292 83 000 6601 025 o 865 48 o00 TIME.TOH TT2.TOH LTT2.TOH WF1D TOH WFi:TOH WF1N.TOH WF5D,TOH WF5,TOH WF5N'TOM DT.TOH SVEL,TOH NPK,TOM COST TOM WFC:TOM 6700,000 FEET TIME TOH TT2 LTT~ WFID WFIN WF5D WF5 WF5N TOH TOH TOH TOM TOM TOM TOH TOH 13-MAR-lggl 10:04 DT.TOH SVEL' TOH ~PK, TOH CosT, TOH wFc; TO~ 6600.000 FEET TIME. TOH TT2 · TOH bTT 2 ' WF1D'TOH WFI ~ w F 1 ~ · T o.H WFSD, TOH WF5, TOH WFSM' TOH u~,,' o SVEL,TOH 0.972 WF6N.TOH 94 900 DTL,TOH 10537:412 SPMI.TOH 2 PR.TOM 0,766 CHE.TOH 0.000 WFSH,TOH 1350 000 ETIM.TOH 451i200 TT].TOH 88~ 800 LTT3,TOH 6701.000 WF2D.TOH -25 WF2,TOH 0,533 WF2N.TOM 6699.892 WF6D.TOH -25 WF6,TOH 0,239 WF6N,TOH 86,000 DTL,TOH 11627,908 SPHI,TOH 4 PR'TOH 0.486 CHE.TOM 0.000 WFSH'TOH ,$ 1349 000 459 600 921 600 6601 024 -25 !.452 6599.925 -25 0.533 85,000 :!!764,705 3 0.250 0,000 DEPTM =. ** 350635061 !34~ ~00 612'800 44 O0 1034,000 874 §00 -61 6500 8 6500.217 '-25 0,~72 6499 16 ' '25 0 436 0,357 8~ 300 84,500 1i72 328 6500'892 4 ETIM.TOH TT3 TOH LTT3 TOH WF2D TOH WF2 TOH WF2N TOM ~F6D TOB WF6 TOH WF6N TOM DT5 TOH SPHI TOH PR TOM 0.533 95.400 0'256 0.331 35.938 0.000 6203.380 784.000 1209 600 6700:767 ~ ,,25 0.357 6699.675 -25 0.239 84 100 0 ] 8 o 23 578 0 000 6.472.4O0 822'~00 t272 00 6600:800 -25 0.972 6599,~708 -25 0.436 o 13 0!83 4~ O0 674~'695 779,600 1202'400 6500,658 -25 0'651 6499~758 -25 0.292 85,200 0.215 0,333 WFTN.TOH DTLN.TOH ITT.TOM COHC'TOH S~E.TOH STSG.TOM CS.TOH TT4.TOH LTT4.TOH WF3D.TOM WF3 TOH MF3N:TOH WFTD.TOH WF7.TOM WF7N,TOH DTLN.TOH ITT,TOH COHC.TOH SHE.TOM STSG.TOH CS.TOH TT4.TOH LTT4,TOH WF3D,TOH WF3,ToH WF3N TOM WF7D TOH WF7 TOH WF7N TOM DTLN TO~ ITT TOH COHCTOM SHE.TOM STSG,TOH cs':to. TT4.TOH LTT4'TOH WF3D~'TOH WF3.TOH WFSN,TOM WF7D"TOH WF71TOH WF7N,~TOH DTLN'TOH I~T,TOH PAGE: I0 0,533 92.400 0.185 0 918 45:344 176 1337.000 611 200 1050:400 6700,350 -25 669 450 0,195 0,~44 38,563 1339,000 650.800 1118,800 6600,375 ' 0'972 6599'~ 0.533 85',100 0,203 0.826 47,844 176 1335,000 .614.400 1031'600 6500,44I 0,.~72 6499,~ 0'651 84,~00 0, 12 0,976 IS Tare Yerificatlon Listinn CblUmberoer AlasKa Computing Center COHS.TOH 0.570 COST.TOM STE.TOg 43.281 WFC.TOH TOD.TON TTi.TOH LTT1,TOH SSLT.TOH WF4D.TOH WF4'TOH WF4N WFSD TO~ WF8 TON WFSN TOH DTLF D.TOH S~S.TO. CSTE,TO~ ** DEPTH = 6500.000 FEET 350635332 TIME.TOM 642.400 TT2.TOH 5 ~FIN TOH 2,650 WF5D TOH 6399.183 WF51TOH '25 WF5N TOH 1.188 DT TON 87o100 SVEL,TOH 6400.958 NPK.TOH 0.542 COST'TOH 4~,188 WFC,TOM DEPTH = 6400.000 FEET TOD,TON 350635601 T!~E,TOH TT1.TOH 604,800 TT2'TOH LTT1,TOH t025.600 LTT2'TOH $SLT,TOH '61 WF!D,TOH WF4D'TO~ 6300.i83 WFi~TOM WF4'TOH '25 W~IN'TOH ~F4N.TOH 0.533 WFSD~TOH WFSD,TOH 6299.283 WFS,TOH WF~'TOM '~5 WF5N.TOM WFSN~TOH 0 239 DT,TOH DTLF°TO~ 80 800 STC~,TOH 6300 8166 NPK,TO~{ COHS'TOH 0'869 COST'TO~ STE.TO~ 45,1~5 WFC~TO~ TT1,TOH LTT1 TON $$LT TOH WF4D TOH WF4 TOH WF4N T[]~ WFSD TOH WF~TOH DTLF TOM STCD TOH COMS TO~ STE TOH ** DEPTH 6300.000 FEET 13-MAR-X991 10:04 0,574 CHE.TOH 0,000 WFSM,TOH 1360.000 ETIM,TOH 460.000 TT3,TOH 910,000 bTT3,TOM 6400.958 WF2D,TOH -25 WF~.TOH 639 8 8 WF6D.TO~ 5 WF6.TOH ~,774 WF6N,TOH 86,900 DTL,TOH )1507.479 SPHI.TOH 3 PR,TOH 0,433 CHE,TOM 0,000 WFSH,TOH i342,000 435,200 868,000 6300,866 -25 0 436 12048,88 4 0,560 0.000 350635870 TIME.TOH 1361.000 686,000 TT2'TOH 475,600 1169.~0 ~TT~'TO, 972,400 5 F! .'TO~ 6200,88, 6200,217 WFI,ToH ~ -25 WF1N TOH 1,774 ~2 0,972 WF5D TON 6199..25 6199,1~5 WF5 TOH -25 WFSN TOH 0,972 0,436 DT TOM ~0,100 98,700 SVEb TO~ 9~0,01~ 6200,883 NPK TOM 3 0'708 COST,TOH 0,310 38,375 WFC,TOH 0,000 ETIM TOH TT3 TOH LTT3 TOM WF2D TOH WF2 TOM WF2N TOM WF6D TOM WF6 TOg WF6N TOH DTL TOM SPHI.TOH PR,TON C~iTOH WFSH.~TOH ETIM.TOH TT3,TOH ~TT3TOH WF~D~TOH WF2 TOH WF2N TOHi WF6D'TOH ~F6,TOM WF6N,TOH DTL'TOM SPHi~TOM CHE~TOH WFSH'TOM 43.844 o.000 7012 647 ,o 2 oo 1240 800 3.957 6399.633 -25 0 972 87 ~00 2 33 625 0 000 728!.560 768.000 Ii74~00 6300:33 6299:: 33 0 ~9 82~700 0.203 0 o'ooo 7550 958 867 200 1350 ooo 6200 658 -25 i* 8 6!99.$ $ 58 '0,651 99,600 0.275 ,625 000 SME.TOH STSG*TOH CS.TOH TT4.TOH LTT4.TOH WF3D,TOH WF3 TOH WF3N~TOH WFTD TOH WF7 TOH WFTN TOH DTLN TOH ITT TOH COHC TOH SHE TOH STSG.TOH C$ TOH TT4:TOM LTT4 TOH WF3D TOM WF3 TOM WF]N TO~ WFTD TOH WF7 TON WFTN TOH DTLN TOH ITT.TOH COHC,TOH SHE,TOH STSG'TOM C$,TOH TT4,TOH LTT4*TOH WF3D,TOH wr3:2TO~ ~F3N,TOH ~FTD,TOH ~F7'TOH ~F7N,TOH DTLN2TOH ITT'TOH COHC,TOH 8TSG,TOH PAGE{ 11 37,750 176 1336,000 649,400 o, :4oo 640 508 -25 3 957 6399:408 -25 10o 0,221 0,924 39,156 176 1337,000 603,200 1026~400 6300,408 0' 2 9 2 81,,900 4 920 :844 1335,000 684,800 1169.,600 6200,44! '25 1.,77.4 6199,533 -25 0 795 97 900 0 ~39 0 38 45 ~81 76 IS Tare Verification histing Cblumberger AlasKa Computind Center 13-~AR-1991 10:04 PAGE: 12 DEPTH TOD.TOH 350636140 TT1.TOM 700,800 bTTJ,TOH SSLT,TOM -61 WF4D.TOH 6100,191 ~F4.TOM -25 WF4N.TO, 0 436 WFSD TOM 6099:299 WFSiTOH -25 WFSN TOH 0.239 DTLF TOH 92.700 STCD.TOH 6100.875 COHS.TOM 0.930 STF.TOH 40,281 TOD.TOW TT! TOH LTTJ:TOH SLT,TOH ~F4D.TOH WF4 TOH WF4NTOM WFSD TOM WFSTOM wFsN DTLF TOM STCD TOW COHS TOH STM TOM TOD TOM TT1.TOH bTT1.TOM $SbT.TOH WF4D'TOM WF4.TOH WF4N,TOM WFSD.TOH wr 'TO wFS~.T~H DTLF~TOH S'TCD.TOH COH$'TOH ST~.TOM ** DEPTH : 350636410 66~.400 1!~9,600 -45 6000,142 '~5 1,774 5999,233 -~5 0.795 89.400 600~,009 0'585 37,406 ** DEPTH : 350636685 727,600 t210,800 '61 5900,241 '25 ,10.786 5899,175 2,:168 101,300 5900,943 0,834 6200.000 FEET TIME.TOM TT2 TOH LTT2 TDH WF1D TOH WFI TOH WF1N TOH WF5D.TOH WF5 TOM WF5N:TOH DT,TOH SVEL,TOM NPK,TOM COST,TOM WFC.T~H 6100.000 FEET TIME'TOH TT2 TOH LTT2 TOH WF!D TOW WF1TOH WFIN TOM WF5D TOH WF5 TOM WF5N TOH DT TOH SVEL TOM MPK TOM COST,TOH WFC.TOH 6000,000 FEET TIME,TOH TT2,TOH W~ ! O' TOH WF!'TOH WFIH,TOH WFSD'TO~! WFS'TOH WFSN'TOH ~T.'TOH SVEL,TOH NPK'TOH CoS~,TOH WFC.TOH 5900,000 FEET 1363.000 ETIM.TOM 506.400 TT3.TOH 990,000 LTT3,TOH 6100.875 WF2D,TOM -25 WF2,TOM 1.188 WF2N,TOM 6099.975 WF6D,TOM '25 WF6,TOH 0,436 WF6N,TOH 94,900 DTL~TOH 10537,406 SPHI.TOH ~ PR,TOH 0,519 CHE,TOH 0,000 WFSM,TOH 1342 000 ETiM.TOH 474i400 TT3,TOH 945 200 LTT3'TOH 6001,009 WF2D'TOM -25 WF2,TOH 3,238 WF2N;TOM . 5 WF6'TOH 1.45~ WF6N,TOH 91'700 DTL'TOM 10905,125 SPH!'TOH 2 PR,TOH 0,310 CHE,TOH 0,000 WFSH,TOH 5 ,800 102 '942 590§'000 2'650 5900,~09 !.188 98 1, 34 2 ,334 ~,000 ETI~iTOH TT3 TOH LTT3 TOH WF2D TOH WF2 TOH WF2N TOM WF6D TOM WF6 TOM WF6N:TOH DTL. TOH SPHI,TOH 'TOH CHE,TOH WFSH~TOH 7821.374 888.800 1362.400 6100.648 -25 0 436 6099~740 0.292 95.200 0 256 O" .353 33,406 0.000 8091.140 852,000 i315,600 6000,783 2,650 5999,683 0 972 92 600 0 243 0 ~ 3 000 8 "~000 i407,200 5900'708 .786 -25 3.957 i00'400 0.280 2so 000 CS.TOH TT4.TOM LTT4.TOM WF3D.TOH WF3 TOH WF7 TOM WF7.TOH WF7N.TOH DTLN.TOH ITT.TOM COHC.TOM SHE.TOM STSC.TOM CS,TOM TT4,TOH LTT4'TOM WF3p,TOH '~F3,TOH 'WF3N,TOH WF7D,TOM wFI,TOH WFTN'TOH DTLN'TOM ITT'TOM CO~C.TO~ SHy'TOM STSG,:TOH CS.TOH TT4.TOH TT4,TOH F3D'TOH WF3.TOH WF3N'TOH WF7D,TOM WF7.'T'OH WF7N,TOH DTLN~TOM iTT;ToH CO~C;TOH SHE,TOH STSG,TOH 1331,000 698,400 1181,600 6100,424 '25 0.651 6099,516 '25 0,357 94,500 0,248 0,9i2 45,063 176 4.000 1128,000 6000,366 -25 2, 0 5999;~8 -25 257 :28! !76 105t,000 717.200 1215,600 5900,476 -25 .2,650 5899,408 0.,972 99.700 0.266 0'938 46'313 t76 ** DEPTH = ** IS Ta~e Verification Listing CblUmberger Alaska Computing Center TOD.TOH 350637058 TT1.TON 734.000 LTT1~.TOH 1243,600 SSLT.TOH -45 WF4D TOM 5800.258 WF4:TOH -25 wF4N.TOH 0 195 WFSD.TOM 5799:!58 WFS.TOH -25 WFSN.TOH 0.239 DTLF.TOH 99,700 STCD TOH 5800,933 COH$:TOH 0,654 STE.TOH 42,844 TIME.TOIl TT2 TOH 5TT2 TOH WF1D TOH WF1 TOM WF1N TOH WF5D,TOH WF5,TOH WF5N.TOH DT TOH SVELiTOH NPK TOH COST TOH WFC TOH ** DEPTH = 5800.000 FEET TOD.TOM 350637334 TIME.TOM TT1.TOH 633.200 TT2.TOH LTTI.TOH 1!03.200 LTT2.TOH SSLT.TOH '61 WF1D.TOH WP4D.TOH 5700,258 WF1,TOM WF4.TOH '~5 WFIN'TOH WF4N,TOg 0,357 WFSD,TOH WFSD~TO~ 5699,15@ WFS*TOH WF~'TO~ '25 wF5N.TOH WPSN,TO~ 0.195 DT*ToH DTLF~TOH 87.100 $¥EL.TON STCD.TOH 5700,942 NPK,TOH COHS'TOH 0~250 COST.TOH STE~TO~ 3~'813 WFC,TOH DEPTH= 5700.000 FEET TOD.TOH 350637 SSLT'TO~ WFAD.TOH 5600, WF4.TOH WFAN~TOg 0 WFSD'TOH 5599: WFS,TOH WFSNiTOH 0 DTLF,TOH 9~ STCD.TOH 5600 COHS,TOM 0 6O8 40O 000 -45 258 795 '15 8 357 70O 933 938 TIME TOH TT2 TOH 5TT2 TOH WFIDTOH WF1TOH WF!N T0H WF5DTOH WF~ TOH WF5 TOH DT,TOH SVEL,TOH NPK,TOH COST,TOM DEPTH = 5600.000 FEET TOD,TOH 350637880 TI~E,TOH TTI~T'OH 703,600 TT2~TOM LTTI'TOH 1202,800 LTT2'TOH SSLT,TOH -6:! WF1D'TOH 13-MAR-199! 10104 1409,000 532,400 1055,600 5800,933 '25 0.972 5800'033 '25 0.357 101,500 9852,217 2 0,250 0.000 136 000 44~:600 914,400 5700,941 -25 5700, 3 -25 88, 0 11248,594 I 0 250 0~000 1357.000 48 ,600 !60~,800 5600,933 -25 .1'774 5600'~33 ~ 25 0.972 100'600 9940,357 0,665 0,000 I3066.000 5 o;ooo i ;600 5~20~).9~3 ETI~.TOH TT3 TOH LTT3:TOM WF2D.TOH WF2.TOH WF2N,TOH WF6D,TOH WF6 TOH WF6N TOH DTL TOH SPHI TOH PR TOH CHE.TOH WFSH,TOH ETIM.TOH TT3,TOM LTT3,TOM' WF20,TOM WF2,TOH WF2N.TOM WF6D,TOM WF6'~0. WF6N,~OH DTL,TOH SPHI,TOH PR,TOH WFSH'.TOH ETIM.,TOM TT].TOH LTT3,TOH WF2D,TOH WF2,TOH WF2N,TOH WF6D,TOH WF6,TOH WF6M~TOH DTL.TOM SPMI TOH PR TOM CHE TOM WFSH TOH ETiM',TOH TT3 TOM LTT3 TOH WF2D TOH 8739.156 936,800 144~.200 5800.708 0.533 5799.6~6 -25 0 292 100:600 0.280 0.290 32844 0:000 9015.055 806,000 1277.200 5700.717 -25 0.533 5699,616 -25 0:195 87 100 0 231 0 348 50:375 3 ooo 9288 742 899 600 1360 400 5600 708 ~ "' 25 0- :53 3 100,800 0., 277 o .; :'3 3 i 37,188 o ;ooo 9561.063 -901,200 ~399.600 5500.758 CS.TOH TT4.TOH LTT4.TOH WF TOM WF3N.TOH WF7D,TOM WF7.TOH WF7N.TOH DTLN.TOH ITT.TOM COH~ TOH SH ~TOH STSG.TOH CS.TOH TT4'TOH LTT4.TOH WF3D TOH WF3 TOH WF3N TOH WF7D TOM WF7 TOH WF7N TOH DTLN TOH ITT TOH COHC TOH SHE TOM STSG:TOH CSTOH TT4 TOM TT4 TOM F3D TOH WF3 TOH WF3N TOH WF7D TOM WF7 TOM WF7N TOH DTLN.TOH IT'T.TOM COHC.TOH SHE,TOH STSG'TOM CS.:TOM TT4'TOH bTT4'TOM WF3D,TOH PAGEI 13 1207.000 720.400 1246,000 5800,483 -25 0,651 5799,392 '25 0,436 99,500 0,276 0,593 41.000 1314,000 631.600 1098.400 5700,483 0,795 5699,~92 32'906 176 692,800 !202,400 5600.483 'I..774 5599,392 o : S oo 972 48:;969 176 1310,000 70., 400 ~519 ;800 5008,524 Tape Verification Listing ~ch].umberger Alaska Computing CeDter WF4D.TOH 5500.116 WF1.TOH WF4.TOH -25 WFIN,TOH WF4N.TOH 0,795 WF5D.TOH WFB~ TOM 5499,208 WF5 TOH WFS TOH -25 fS iTO. WFS".TOH 0.239 DT TOM · DTLF,TOg 97,200 STC~,TOH 5500,984 NPK,TOM COHS,TOH 0,742 COST,TOM ~0~ 45,2.50 WFC TOH ST~, .... , ** DEPTH = 5500,000 FEET TOD,TOM 350638154 TIME,TOH TTI.TOH 684.800 TT2,TOH bTXl TOM 1175,200 LTT2,TO~ sSLT:TOH -45 WF1D TOH 5400.208 WFI[TOH WF4D,TOH WF4,TOH -25 WF1N.TOH WF4N.TOH 1.~88 WF5D TOH WFSD,TOH 5399 300 WF5:TOH WFS~TOH '-25 WFSN.TOH WFSN TOM 0,533 DT,TOM DTLF:TO~ 88,000 SVEL,TOH STCD.TOH 540~.883 NpK,TOH COM$.TON ~.872 COST.TOH ST~',TON 45,250 WFC"TOH TOD.TOH TTI.,T'OH SSLT,TO~ WF4D.TOM WF~,TOH WF4.;.iTOH WFSD TOH WF8 TOH WFSN TOH DTLF STCD,TO~ COHS,TOM STE.TOH ** DEPTH 35063~4~8 68~.000 ti9 ,400 -61 5300.283 0 436 5299 0239 97 7OO 530O 967 0,836 45~50 ** DEPTH = 35063~702 656,800 iI57,.~00 -45 5200,233 -~5 0,972 5199'133 TOO TO. , · :, TT1,TOH 5TT1; ToH WF4D,TOW WF4, TOH WF4~, TOH ~FSD,TOH 5400.000 FEET TIME.TOH TT2, TOH LTT2 ' ToH WFID.TOH WF1 ~OH WF1N WF5 DT SVEb NPK C~ST WFC TOH TOM TOM TOH TOH TOH TOH TOM 5300.000 FEET ~IME,TO,J TT2,~OH LTT2.~'OH WFI,TOH WF1N'TOH WF5D,TOH WFS,TOH 13-MAR-1991 10:04 -25 ~F2,TOH 1 ~88 WF2N,TOH 5499:83 WF6D,TOH -25 WF6.TOg 0.533 WF6N.TOH 102.500 DTL.TOH 9756.098 SPHI,TOH 5 PR,TOH 0,669 CHE.TOH 0,000 WFSM,TOH 1372 000 468i800 995 200 5400 883 -25 1 2 -25 0,9~2 91,2 0 10964,914 0,669 0,000 1371,090 486,800 992~000 5300,967 -25 O, ~,800 9 ~.357 10224,947 2 0,669 0,000 ** 1366,000 462,400 965,600 5200,908 -25 0,972 5200,008 ETIM,TOH TT3.TOH bTT3 TOH WF2D TOH WF2 TOH WF2M TOH WF6D TOH WF6,TOH WF6N,TOH DTL,TO'H SPHI,TOH PR,TOH CHE,TOH WFSH,TOH ETIM TOH TT3 TOH LTT3 TOM WF2D TOH WF2 TOH WF2M TOH WF6D TOH WF6, TOH WF6N::TOH DTL~TOH 'SPHI TOM PR TOH CME TOH WFSH'TOH ETI~..,TOM TT3,TOH LTT3.~TOH WF2D,TOH WF~'TOH wF2N'.TOH WF6D'TOM WF6,TOM -25 WF3.TOH 549 658 WF7D.TOH -25 WF7,TOM 0.436 WF7N.TOM 97.100 DTLN.TOH 0.284 ITT.TOM 0,337 COMC,TOM 34.688 SHE.TOH 0.000 STSG.TOH 9835.168 C$.TOH 879.200 TT4,TOH 1372.000 LTT4.TOH 5400,658 WF3D,TOH -25 WF3,TOH 1.774 WF3N,TOH 5399.750 WF7D.TOH · -25 WF7,TOH 0 651 WF7N,TOM 89 000 DTLN,TOH 0 24~ ITT,TOM 0 .362 COMC,TOM 39 031 SME,TOH 0 000 STSG,T'OH 0.533 WF3N · 5299.1~~ WFTD WF7 O:IO2 WF7N 99 0 DTLN 0 ~7 iTT co.c 35'656 SHE 0,000 STSG TOH TOH TOM TOH TOM TOH TOM TOH TOM 10382 908 CS.TOH . 851:200 TT4'TOH 1349,200 5TT4~TOH 5 WF3'TOH 188 WF3N,TOH -25 WF7.TOH PAGE: 14 -25 0,972 5499.433 0.292 93,500 0,305 0,836 46.094 176 1314,000 680,800 ~76,000 5400,433 -25 1. 774 5399:524 -25 0,533 88,300 0, 9 45,688 176 13!~,000 68 ,4OO 1!91'200 5300;508 -25 0,533 52991408 99,400 ~05 4 219 !76 131.4,000 653'600 1153o600 5200,458 0,972 5199,366 IS Taoe Verification Listing CblUmberger AlasKa Computinu Center WFS.TOH -25 WFSN.TOH WF~ TOH ~i357 DTiTOH DTLF:TOH 9 300 SVEL TOH STCD.TOH 5200 908 NPK TON COH$.TOH 0.277 COST.TOt! STE.TOH 33.875 NFC.TOH ** DEPTH = 5200.000 FEET TOD.TON 350638976 TT1.TOH 670 400 LTT1 TOH 1!70:000 SSLTiTOH -45 WF4D TOH 5100.200 WF4 TOH -25 WF4N:TOM 0,972 WFBD,TOH 5099,29! WF$,TOH WFBN.TOH 0 533 DTLF.TOH 97:500 STCD.TOH 5100.875 COH$.TOH 0.681. STE.TOH 48'094 TOD TOH TT1TOH LTT1 TOM $LT TOH F4D TOM WF4 TOH WF4N TOg WFSD Tog WF8 TOH WFBN.TON DTLF'TOH STCD.TOH COi~$~To~ ST~,TOH TOD.TOH TTI TO}{ LTT! TOH ~SSLT TOM WF4D. TON WF4 TOH WF4N TOH WF8D TOH WF~ TOH WFBN TOM DTLF TOH STCD TOg ** DEPTH = 350639250 676,000 1177,600 -45 5000,208 -~5 ~.774 4999,!16 -~5 9~'795 ~300 5000,892 0'879 45,9.69 DEPTH 3506395~1 69~,000 12! ,800 -61 4900,267 0,533 4899,158 0.239 97,200 4900,942 TIME.TOH TT2.TOH LTT2 TOH WF1D TOH WF1TOH WF1N TOH WFSD TOH WF5 TOH WF5N TOH DT TOH SVEL TOH NPK:TOH COST,TOH WFC.TOM 5100,000 FEET TIME.TOH TT2 TOH LTT2 TOH WFiD TOH WFI TOM WF1N TOH WFSD TOH WF5 TOM WF5N TOH DT TOM SVEb TOH NPK TOH COST.TOH WFC'TOH 5000,000 FEET TIME TOH TT2 TOH bTT2 TOH WFID TOH WFi TOH WF1N TOH WF5D TOH WF5 TOH WF5N TOM DT. TOH $'VELTO}i NPK TOH 13-~AR-1991 10104 0.651 WF6N.TOH 96 600 DTL.TOH 10351:965 SPMI.TOH I PR,TON 0.266 CHE.TOH Oe000 WFSH.TOH 1363.000 ETIM.TOH 468 000 TT3,TOH 971i600 LTT3,TOH 5100 875 WF2D,TOH -25 WF2,TOH 2.1~8 WF2N.TON 5099.:25 WF6D,TOH 5 WF6.TOH WF6N. 0,795 TOH 96,700 DTL,TOH 10341'264 SPHI.TOH 3 PR.TOg 0.656 CHE;TON 0.000 WFSH~TOH 76.000 bT 3.TOH 5000.~92 WF2D.TOH 25 WF2.TOH ~..~38 WF2N.TOH -25 WF6,TOH 1'774 WF6N,TOH 10193, 0 SPHI,TOH ~ PR,TOH 0.715 CHE'TO~ 0,000 WFSH,TOH t343 000 484 80O 1025 2OO 4900 941 -25 0,2~2 4900,01 0.239 99,600 i0040,164 5 ETIMTOH TT3 TOH bTT3 TOH WF2D,TOH WF2'TO~ WF2N,TO'H WF6D,TOH ~F6,TOH W~6N'TOH DTL,TOH SPHI.TOH PR,TOH 0.357 8 O0 90 163 0 335 29 359 3 000 10656 713 862:800 1366,800 5100,649 ~ 774 5099~741 -25 0.651 97.100 0,263 0,353 32.281 0.000 10930,660 863.600 1372'800 5000'658 2.168 4999,758 i :774 98 4.00 0 268 0 344 26:734 0 000 2 37 141~'~oo 4900~717 0.533 ~00o200 0,274 0.342 WF7N.TOH DTLN.TOH ITT.TOM COHC.TOH SHE.TOH STSG.TOH C8.TOH 'TT4 TON 5TT4:TOH WF3D.TOH WF3 TOH WF3N TOH WF7D TOH WF7 TOH WFTN TOH DTLN TOH ITT TOH COHCiTON SHE TOH STSG.TOH C8 TOH TT4 TOM LTT4 TOH WF3D TOM WF3 TOH WF3NTOH WF7D TOH wr7 TOH WF7N TOH DTLN TOM ITT TOM COHC TOM SHE TOM STSGTOM C$ TOM TT4'TOH LTT4 TOH WF3D TOH WF3 TOM WF3N TOH WF7D TOM WF7 TOM WF7N TOH DTLN TOM ITT'TOM CONC,TOH PAGE: 15 0,436 98,900 0,335 0,963 34,035 176 1314 000 667:600 {166,800 5100,425 -~5 1,774 5099,5~4 0.651 96,300 0.,345 469 I76 13'15,000 674,800 1177,200 5000,~33 '25 2,650 4999,533 88 1'100 0 04' 46!:~94 176 i343.,0:00 69!,600 i214,400 0,651' 4899'39~ 0,239 97,200 0~364 0.917 ,IS Tape Verification Listing ~ChlUmberger Alaska Computing Center COH$.TOH 0.937 COST TOH ST~.~OH 42,688 WFC;TOH DEPTH = TOD.TOH 350639789 TT1.TOH 683.200 hTT1.TOH 1210.000 SSLT.TON -61 WF4D TOM 4800.283 WF4:TOH -25 WF4N.TOM 0 160 WFSD.TON 4799:183 WFS.TOM -25 WF8N,TO~{ 0,107 DTLF.TOH 101 000 STCD,TOM 4800,958 COMS.TOH 0.591 STE.TOH 39,875 TOD.TOH TT1.TOH L?TI'TOH $SLT'TOH W~4.TOH WF~D~TOH WFSN DTLF TOM STCD TOH COHS TOH STE TOH TOD TOH TT1TOH LTT1TOH 'SSLT WF4D TOM WF4 TOM WF4NTOH WFSD TOM WF8 TOH WFSN TOM DTLF.TOH STCD,TOH CO~.TON MTE,TON ** DEPTH 350640057 633 200 1138:400 -45 4700,208 0.160 4699,100 -25 0,088 94~300 3~.281 DEPTH 350640325 630.400 11~8,000 -61. 4600,283 -25 0,292 4599,t83 0,292 96,100 460'0.958 0,386 37,406 4900.000 FEET TIME.TOM TT2.TOM LTT2.TOH WF1D TOH NFl TOH WFIN TOM WFSD TOM WF5 TOH WF5M TOH DTiTOH SVEL TOH NPK.TOH COST.TOH WFC.TOH 4800.000 FEET TIME,TOH TT2~TOH LTT2"TOH WF~D'TOH WFI,TOH WF1N'TOH WF5D TOM WF5 TOM WF5N TOH DT TOM SVEL TON NPK TOH COST TOH WFCiTOH 4700.000 FEET TIME. TOM TT2 TOH LTT2 TOH WFiD TOH WFI WF1N TOH WFSD TOH WF5 TOH WF5NTON DTTOH SVEL TOH NPK TOM COST,TOM WFC.TOH 13-~AR-1991 1.0:04 0.669 CHE,TOM 0.000 WFSM.TOH 1338 000 ETIM.TOH 475i600 TT3.TOH 1004 800 LTT3,TOH 4800 958 WF2D,TOM -25 WF2.TOM 0 239 WF2N.TO~ 4800:058 WF6D,TOH -25 WF6,TOH 0 160 WF6N,TOH 102i700 DTL,TOH 9737 096 SPHI,TOH 2 PR,TOH 0.250 CHE,TOH 0.000 WFSM,TOH 1337.000 ETIN.TOH 436 000 TT3.TOH 4.70 .875 WF~D,TOH -25 WF~,TOH 0 495 WF2N,TOH 4699: 8~ W~6D;TOH '25 WF6,TOH 0.160 WF6N'TOH 96'200 DTL,TOH !0395'008 SPHI,TO~ 2 P~.TOH 0,396 CHE.TOH 0.000 WFSH,TOM !339,000 442,000 942,800 4600.958 -25 460~,7 5 ,0~8 0,357 9~,000 1030 ,275 2 0,250 0,000 ET!N TOH TT3 TOH [,TT3 TOH WF2D TOH WF2 TOH WF2N TOH WF6D TOH WF6 TOH WF6N TOH DTL TOM SPHI TOM PR TOH CHE TOH WFSH TOH 14.617 0.000 !1470.131 882 800 1422:400 4800.73] -25 0.195 4799.633 -25 0.160 102'400 0.284 0 316 33!281 0 000 11738.178 830.800 1334.000 4700'658 0.292 4699'750 0o0 95.500 0,261 0.344 38.781 0,000 12006 76 823 60 1320 4600 ~0 -2 0.79 4599.63 9 $0 0'34 39'21 3'00 SHE.TOH STSC.TOH CS TT4 hTT4 WF3 WF3N WF7D WF7 WF7N DTLN ITT COHC STSG .TOH .TOH .TOH .TOH TOH :TOH TOM :TOH ,TOH 'TOH .TOM ,TOM ,TOM CS TT4 LTT4 WF3D WF3 WF3N WF7D WF7 WFTN DTLN ITT COHC SHE STSG .TOH .TOM .TOH 'TOH ;TO~ .TOH .TOM ,TOH ~Xo. .TOM .,TOM ~TO~ .TOH cs TT4 LTT4 WF3D WF3 WF3N WFTD WF7 WF7N DTbN ITT COHC STSG ,TOM 'TO~ ~TO~ ,TOH ;TOH 'TOH 'TOH ,TO~ iTOH ,TOH ,TOM ,TOH PAGE{ 16 46.781 176 1342.000 677.6OO 1212.000 4800.508 0,195 4799,408 0 160 100 300 0 375 0 950 4O 156 176 1342.000 632,800 1141,600 0,~92 4699, 24 o 131 95 0oo o 385 0 965 40 469 1340.000 625,200 11:28,800 4600,508 0'972 4599,408 0.239 96~900 0~394 0;9~0 33,9~8 176 .IS Tape verification Listinq .chlumberger lasKaA Computing Center 13-MAR-1991 10:04 PAGE~ 17 DEPTH = 4600.000 FEET TOD.TOM 350640594 TIME.TOH TT1.TOH 647.200 TT2.TOH LTT1.TOH 1163.600 LTT2 TOH SSLT.TOH -61 WF!D:TOH WF4D.TOH 4500.250 WFI.TOM WF4 TO~ -25 WFIN,TOH WF4N~TOH o 292 WFSD.TOH WFSDoTOH 4499~!49 WF5.TOH WF8 TOM '25 WFSN,TOH WFSN' _ .TGH 0.i95 DT.TOH DTLF.TOH 95,100 SVEL TOM STCD.TOH 4500.925 NPK:TOH CONS.TOg 0,396 COST.TOH STE,TOH 33,406 WFC'TOH TOH TOH TOH TOH TO~ TOM TOH TOH TOH TOM TO~ TOH TOM TOH TON TOH TOH TOH TOH TOM TOH TOH TO~ TOg TOD TT1 LTTI ssL WF4D WF4 WF4N WFS~ DTLF STCD COHS ** DEPTH = 4500.000 FEET 350640862 640,800 1144.000 -45 4400,200 -25 0 357 4399:100 -25 0 i60 97 600 4400 875 0 418 31 688 DEPTM= 350641132 714.000 1226,400 -61 4300,125 '25 0.160 4299,225 '25 0 195 10i 700 4301 000 0 382 30 984 TOD. TT1 . LTTI., SSI'T. WF4D. WF4. WF4~. 'WFSD. WFSN DTLF STCD COHS TIME.TOH TT2,TOH LTT~TOH WFID TOH WF1 WFIN TOH ~F5D TOH WF5 TOH WFSN TOH DT T0H SVEL TOH MPK,TOH TO~ COST. WFC,TOM 4400.000 FEET TIME TOH TT2 TOH LTT2 TOH WF!DTOH WF1TOH WF1N TOH WFSD TOH WF5 TOH WFSN TOH DT TOH SVEL TOH NPK TOH COST TOH wFC 1332.000 ETI~ TOH 454.800 TT3:TOH 959.600 LTT3.TOH 4500,925 WF2D,TOH -25 WF2 TOM 0 651 WF2N:TOH 4500~024 WF6D,TOH -25 WF6.TOH 0,239 WF6N,TOH 97.000 DTL,TOH 10309.279 SPHI,TOH 2 PR,TOH 0.346 CHE,TOH 0.000 WFSH.TOH 1340 000 444:000 954,800 4400,875 '25 4399, 25 5 0,357 9~,500 1005 ,250 2 0,367 0o000 1342.000 494~400 430 0,357 4299,899 -25 0,~60 ~03,000 9708,?38 2 0,250 0,000 ETIM,TOH TT3 TOH LTT3 TOH WF2D TOH WF2 WF2M TOH WF6D TOH WF6 TOH WF6N'TOH r)Tb~TOH SPHI'TOH PR'TOH CHE,TOH WFSH,TOH ETI~,TOH TT3,TOH LTT3,TOH WF2D,TOH WF2.TOH WF2N.,TOH WF6D,TOH WF6,TOM WF6M.TOM DTD,TOM SPHI.TOM PR'TOH CHE'TOH WFSH,TOH 12275 119 843i200 1348 400 4500 700 0.53] 4499.800 -25 0.239 95 800 0 264 0 346 44 594 0 000 12543,47{. 838.800 1331.600 4400,649 01.436 4399.750 0.292 98'600 273 340 !88 000 12812.406 924.000 1435,200 4300.767 -25 0 .239 4299:675 -25 0.131 10~'400 ..285 0,314 44,719 0,000 CS.TOH TT4.TOH LTT4.TOH WF3D.TOH WF3.TOH WF3N.TOH WF7D.TOM WF7.TOH WF7N.TO~ DTLN.T~H ITT.TOH COHC.TOH SEE.TOH STSG,TOH CS,TOM TT4.TOH LTT4,TOM WF3D,TOH WF3,TOH WFTD.TOH WFT,TOH WF7N;TOH DTIjN,TOH ITT,TOM COHC,TOH SH~iTOH STSG.TOH CS,TOM TT4.TOH TT4 TOH F3D TOM WF3 TOM WF3N TOH WF7D TOH WF7 TOM ~F7N TOM DTLN TOH ITT~TOH COHC,TOH SHE TOH STSG TO~ 1342 6461 1166 4500 O. 4499, 1341, 64 , 1147, 4400, 0 97 0 0 31 000 000 000 475 -25 357 375 -25 239 8OO 4O4 974 563 176 o0o 4o0 200 425 436' 524 -25 9OO 4 ! 4 972 453 1335,000 71~,600 122 ,400 4300,54~ 4299,450 °oo 928 ] 4~ t76 ** DEPTH = 4336.000 FEET ** IS Tape Verification Listing chlumberger Alaska Computing Center 13-~AR-lg91 10:04 TOD.TOM 350641303 TIME.TOH TT1.TOH 706.000 TT2.TOH LTT1.TOH 1240,000 LTT2,TOH SSLT.TOH -61 WF1D,TOH WF4D.TOH 4236,217 WF1,TOH WF4,TO~ -25 WF!N,TOM WF4~.TOH 0,160 WF5D,TOH WFSD,TOH 4235,125 WFL,TOM WFS,TOH -25 WF5N,TOH WFSN,TOW 0,107 DT,TOH DTLF,TOM 1019,600 SVEL,TOH STCD,TOH 4236,900 NPK,TOH COHS,TOg 0,286 COST,TOH STF,TOH 38,375 WFC,TOH 1359,000 ETIM,TOH 492 ~00 TT3,TOH 1030i400 bTT3,TOH 4236 899 WF2D,TOH -25 WF2,TOH 0,436 WF2N,TOH 4235.99~ WF6D,TOH -25 WF6.TO~ 0 195 WF6N,TOH 100:800 DTL,TOH 9920,635 SPHI,TOH 2 PR,TOH 0,64! CHE,TOH 0,000 WFSH,TOH ** END OF DATA ** **** FILE TRAILER **** FILE NA~E : SPLICE,O01 SERVICE ~ SPLICE VERSION : 32 4 DATE : 9!~02/10 ~Ax ~EC size : FILE TYPE : LAST FILE **** TAPE TRAILER **** SERVICE NAME DATE ~ 91/3 /9 ORIGIN ~ CSU TAPE NA~E : SPLICE CONTINUATION ~ : O! PREVIOUS TAPE : CO~EMT ~ SCHLUMBERGER WELL SERVICES CSU TAPE **** REEL TRAILER **** DATE : 91/3 /9 ORIGIN : CSU REEL NA~E ~ : SPLICE CONTINUATION # : O1 PREVIOUS REEL ~ CO~ENT : SCHLUMBERGER WELL SERVICES CSU TAPE 12984.432 CS.TOH 912.000 TT4.TOH 1457.200 LTT4.TOH 4236.675 WF3D.TOH -25 WF3 TOH 0 239 ~F3N:TOH 4235:767 WFTD.TOH -25 WF7 TOH 0.195 wF7N:TOH !00,100 DT6N,TOH 4 06] SHE.TOM 000 STSG,TOH PAGE: 1339 000 710,~00 1232,000 4236,450 0,292 4235,54~ 0,160 102,800 0,431 0,888 32,063 176 1¸8