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HomeMy WebLinkAbout193-165Pages NOT Scanned in this Well History File XHVZE This page identifies those items that were not scanned during the initial scanning project. They are available in the original file and viewable by direct inspection. File Number of Well History File PAGES TO DELETE Complete RESCAN [] Color items - Pages: [] Grayscale, halftones, pictures, graphs, charts- Pages: [] Poor Quality Original- Pages: [] Other- Pages: DIGITAL DATA /~ Diskettes, No. [] Other, No/Type OVERSIZED Logs of various kinds . Other COMMENTS: Scanned by~ianna~ ~ncent TO RE-SCAN Nathan Lowell Notes: Re-Scanned by: Beverly Dianna Vincent Nathan Lowell Date: /si THE MATERIAL UNDER THIS COVER HAS BEEN MICROFILMED ON OR BEFORE JANUARY 03 2001 M PL A T W E IA L U N D E R T H IS M ARK ER PLUGGIN~ & LocATION CLEAR~CE REPORT State of Alaska Memcrandum To File: Note casing size, wt, depth, cmt vol, & procedure. ~=.r ~ to? 73 / 3o · ALASKA 0IL & GAS CONSERVATION COMMISSION . · . .~_ ~o. 733- Review the well file, and'comment on plugging, well head status, and location cle$Ta~e-jprovide loc. clear. ~arker ~ost or plat~: ~ Location Clear~e: ~~~tF ~ Code Signed JUN-06-96 THU 09:57 fin · , · ,. · · · UNOOfL fNOHORfGE NO, 907 263 7884 · -, ~00 ,. 000 8 212000 17 . + 2ioooo. · ,. 2515000 2,5400'00 ' 2514-000 ., .. .I STATE OF ALASKA ' ALASi OIL AND GAS CONSERVATIG,. COMMISSION WELL COMPLETION OR RECOMPLETION REPORT AND LOG 1. Status of Well Oil: GAS: SUSPENDED: ABANDONED: X SERVICE: Classification of Service Well 2. Name of Operator UNION OIL COMPANY OF CALIFORNIA (UNOCAL) 3. Address P.O. BOX 19-6247 ANCHORAGE, AK 99519-6247 4. Location of well at surface 729' N & 133' W of SE Comer Sec. 17, T9N, R13W, SM ':; .... ' ..... ;' : At Total Depth_.~t 0' [ ~ ~ ~3 ~ ~ r;; ;~' ........ S~. 17, T9N, R13W, SM (approx.) 5. Election in f~t (indi~te ~, DF, etc.) J 6. Lease Designation and Sedal No. 1~' KB a~ve MSL ~ ADL 17594 7. Permit Number 8. APl Number 50- 733-20097-03 9. Unit or Lease Name Trading Bay Unit 10. Well Number K-26 11. Field and Pool McArthur River/Hemlock 12. Date Spudded 13. Date T.D. Reached I 14. Date Comp., Susp. or Aband. 15. Water Depth, if offshore I 16. No. of Completions NA NA I 6/15/1995 73 feet MSLI NA 17. Total Depth (MD+TVD)8682' MD/7723' TVD 18. Plug Back Depth (MD+TVD)8682' MD/7723' TVD I19' Directi°nal SurveyYes: NA No: I20' Depth where SSSV setNA feet MD I21' Thickness °f Permafr°stNA 22. Type Electdc or Other Logs Run NA 23. CASING, LINER AND CEMENTING RECORD CASING SIZE WT. PER FT. GRADE 24" 3-3/8" 9-5/8" '" 9173 SETTING DEPTH MD TOP 13JOTTOM 12571 24. Perforations open to Production (MD+'FVD of Top and Bottom and interval, size and number) No perforations open HOLE SIZE CEMENTING RECORD AMOUNT PULLED None driven 17-1/2" None 12-1/4" qone 8-1/2'' None 25. TUBING RECORD SIZE DEPTH SET (MD) PACKER SET (MD) NA 26. ACID, FRACTURE, CEMENT SQUEEZE, ETC. DEPTH INTERVAL (MD) AMOUNT & KIND OF MATERIAL USED NA 27. PRODUCTION TEST Date First Production I Method of Operation (Flowing, gas lift, etc.) NA ! NA Date of Test Hours Tested PRODUCTION FOR TEST PERIOD --> OIL-BBL Flow Tubing Casing Pressure CALCULATED OIL-BBL Press. 24-HOUR RATE => IGAS-MCF GAS-MCF 28. CORE DATA WATER-BBL WATER-BBL CHOKE SIZE I GAS-OIL RATIO I OIL GRAVITY-APl (corr) Bdef description of lithology, porosity, fractures, apparent dips and presence of oil, gas or water. Submit core chips. RECEIVED Form 10-407 Rev. 7-1-80 MAY 1 0 1996 CONTINUED ON REVERSE SIDE Alaska 0il & Gas Cons. Commissi~bmit in duplicate Anchorage 29. 130. GEOLOGIC MARKERS FORMATION TESTS NAME Include interval tested, pressure data, all fluids recovered and gravity, MEAS. DEPTH TRUE VERT. DEPTH GOR, and time of each phase. . _ OF IGINAL 31. LIST Of A'I-I'ACHMENTS Operations summary, abandoned wellbore sketch. 32. I hereby certify that the foregoing is true and correct to the best of my knowledge INSTRUCTIONS General: This form is designed for submitting a complete and correct well completion report and log on all types of lands and leases in Alaska. Item 1: Classificatior~ 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 space 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 productin 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 recorcJs 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 KING SALMON PLATFORM PRE-ACTIVATION K26RD DAY 1-3 (06109195 - 06/11/95~ MOBILIZE CREWS TO RIG. OFFLOAD EQUIPMENT FROM BOATS. INSTALL BOP'S AND HYDRIL. CHANGE OUT STABBING BOARD. RIG UP SERVICE LINES TO RIG. OFFLOAD EQUIPMENT AND SPOT CEMENT UNIT. R/U CEMENT UNIT. FILL ANNULUS WITH FIW. RIG UP TO TUBING.- DAY 4 (06/12/95) COMPLETED BULLHEADING TWO TUBING VOLUMES BACK INTO FORMATION. R/U SLICKLINE AND RUN IN THE HOLE WITH 2.77" GAUGE RING. POOH WITH SLICKLINE. RIH AND OPEN SLIDING SLEEVE. POOH WITH SLICKLINE. CIRCULATE TUBING AND CASING ANNULUS. SHUT DOWN. MONITOR WELL. ZERO PRESSURES RECORDED. R/U SCHLUMBERGER AND SET BAKER TUBING PLUG AT 9981.5'WLM. POOH. RIH WITH TUBING CHEMICAL CUTTER AND CUT TUBING AT 9925'WLM. DAY 5 (06/13/95) R/D SCHLUMBERGER. INSTALL BPV. REMOVE X-MAS TREE. NIPPLE UP BOP'S. R/U FLOWLINES AND ACCUMULATOR LINES. REPAIR LEAKS TO ACCUMULATOR SYSTEM. TEST BOP'SWITH HALLIBURTON UNIT. P/U LANDING JOINT. DAY 6 (06/14/95) PULL BACK PRESSURE VALVE. INSTALL LANDING JOINT. UNSEAT HANGER CIRCULATE WELL CLEAN. R/U TO PULL TUBING. PULL 3- 1/2" TUBING COMPLETION TO SURFACE AND LAY DOWN SAME. M/U 6" BIT AND RUN IN THE HOLE PICKING UP 3-1/2" DRILLPIPE AND 5" DRILLPIPE. RECEIVED Alaska Oil & ~as O(~n~. Comml~tsion Anchorage DAY 7 (06/15/95) CONTINUE PICKING UP AND RIH WITH 5" DRILLPIPE. R/U HALLIBURTON AND SPOT A 300 FT BALANCED CEMENT PLUG FROM 9,930' TO 9,630' MD-RT WITH 50 SX CLASS G PREMIUM CEMENT. PLUG IN PLACE AT 13.00 HRS. POOH AND REVERSE CIRCULATE AT 8694'MD-RT. NO CEMENT RETURNS DETECTED. POOH. P/U 6" BIT, 3 1/2" DP 9 5/8" CASING SCRAPER AND 8 1/2" STRING MILL. ASSEMBLY STOOD UP ON STRING MILL AT 171'MD- RT. POOH.-REPA1R1R-ON ROUGHNECK. DAY 8 -10 (06/16/95 - 06/18/95) COMPLETE REPAIRS TO IRON ROUGHNECK. P/U 8 1/2' BIT AND RIH TO TOP OF LINER AT 9173'. (HAVING TO PUSH SIGNIFICANT AMOUNT OF SCALE / DEBRIS AHEAD OF BIT). CIRCULATE AT LINER TOP. POOH. RIH WITH TANDEM ASSEMBLY 6" BIT AND 9 5/8" CASING SCRAPER WITH STRING MILL. TAG TOC AT 9601'MD-RT. TEST CASING TO 3000 PSI FOR 10 MINS. POOH. RIH WITH BRIDGE PLUG ON E-LINE. COULD NOT PASS 7065'ELD. POOH. M/U 8 1/2" BIT, CASING SCRAPER ASSEMBLY AND RIH. TOOK WEIGHT AT 8443'MD- RT. P/U KELLY AND WORK DOWN. POOH. PJU SCHLUMBERGER AND RIH WITH BRIDGE PLUG. COULD NOT PASS 6340'MD-RT. POOH. RIH WITH 8 1/2" BIT TO 8800'. POOH. RIH WITH SCHLUMBERGER CCL AND GR TO 6925'ELD. COULD NOT PASS 6925'ELD. POOH. RIH WITH SMALL OD TOOL (1 314" OD) GOT DOWN TO 9000'ELD. POOH. RIH WITH BRIDGE PLUG ON DRILLPIPE TO 6977'MD-RT. STRING STOOD UP. COULD NOT WORK DOWN OR UP. SET BRIDGE PLUG. POOH. P/U MILLING BHA. RIH TO TOP OF BRIDGE PLUG. START DISPLACING THE WELL TO MUD. DAY 11 (06/19/95) CONTINUE DISPLACING THE WELL TO MUD. START MILLING ON THE EZ-DRILL BRIDGE PLUG. RIH WITH TO 8800'MD-RT. CIRCULATE THE WELL CLEAN. POOH. P/U BRIDGE PLUG AND RIH ON DRILLPIPE TO 8712'MD-RT. R/U SCHLUMBERGER AND RIH WITH GR / CCL. PULL BRIDGE PLUG UP TO 8682'MD-RT. SET PACKER AT 8682'MD-RT. -- King Salmon PIQtform Conductor Slot: 25 Well K26 RT to Mud Line: 175' Run Date: Abandonment Drawing Water Depth 73' Date: June !9, 1995 RT to Tbg Hgr: 49' Producing Well 5 1/2" Single String Completion ~t,: ~ ~e~r~ or~ r,r,r,r~e ~ ~ ~ ~ ~pth (RT) OD ID ~C 24"x13 3/8~ I , ~- EZSV 0 868 TOC 9601 ~ EZSV (arS{ed) 9916' B{,ttom~of pix ' 0 8800~ 9925~ TtbSn~cut 9981 ~ Tt~5~ brSd~ T~ ~ ~.~ ~~ / / ~ ~ ~, ~ ~ ~ ~ ~ 9990,17 5,625 ~,25 ~ ~ P~k,r ,~ ~J~ ~ 10,420 7.~ ~ ~ment ~ on t~ P,a, ~ ~ r~ ~. ~, m ~ 10774 ~o.~'-,~;. ~ ~' s~ 10790 0,975'Rr .ug plug MAY 1 0 199G Alaska 0ii & Bas Cons. Oommission Anchorage ._ UNOC · MEI~O OF MATERIAL MOVEMENT N~_ 6O92 RECEIVEO BY: I CARRIER: PERMIT DATA AOGCC Individual Well ~eoiogical Materials inventory T DATa_PLUS Page ' ! Date' 10/13/'95 RUN DATE_RECVD 93-i6~ c~DR ~ Y DITCH 93-165 93-i65 93-i65 ~DiL/SFL 93-165 /~DT/CNL 93-i65 ~DT/CNL 93-165 ~D 93-i65 L/PiL 93 165 T 2938-10956, OH-EDIT S '3300-1098~' SS~90 L 2720~9620, TVD L 2938-~I0922 L 9100-10853 L 2938-10958 L 2960-10950 L 2680-96:0~ , TVD L 2938-10964 L 3300~10984 L 9980-10814 L 9980-10814 L 2720-9650, TVD D MWD DIRECTIONAL i~3 02/17/94 03/16/94 1-3 02/17/94 1-3 02/17/94 ! 02/17/94 1-3 02/i7/9~ 1-3 02/17/94 1-3 02/17/94 '1-3 02/17/94 03/23/94 1 03/11/94 i 03/11/94 1-3 02/17/94 02/17/94 Are dry ditch sampzes required'~ yes ~nd received? y~es~[~ no Was the well cored? Are well tests required? %yes ~eceived? Wei~ is in compiianc~ Initial COMMENTS yes ~Analysis & description receiw--~d~.T.~ yes- no--- yes no STATE OF ALASKA ASKA OIL AND GAS CONSERVATION C6. .,,IlSSION APPLICATION FOR SUNDRY APPROVALS 1. Type of request: Abandon X_ Suspend __ Operations shutdown__ Re-enter suspended well__ Alter casing__ Repair well __ Plugging __ 'rime extension __ Stimulate __ Change approved program Pull tubing Variance_ _ Perforate __ Other_ _ Type of Well: 6. Datum elevation (DF or KB) 2. Name of Operator UNION OIL COMPANY OF CALIFORNIA (UNOCAL) 3. Address P.O. BOX 196247 ANCHORAGE, AK 99519 , , Location of well at surface KING SALMON PLATFORM 725'N & 133' W OF SE CORNER, Sec. 17, T9N, R13W, SM At top of productive interval 4760' N & 2100' W OF SE CORNER, Sec. 17, T9N, R13W, SM At effective depth 4801' N & 2108' W OF SE CORNER, Sec. 17, T9N, R13W, SM At total depth 5083' N & 2214' W OF SE CORNER, Sec. 17, T9N, R13W, SM Development Exploratory Strafigraphio 100' KB feet 7. Unit or Property name TRADING BAY UNIT 8. Well number K-26 9. Permit number 93-165 10. APl number 50-733-20097-03 11. Field/Pool MCARTHUR RIVER/HEMLOCK 12. Present well condition summary Total depth: measured true vertical 10,420' feet 9,163' feet Plugs (measured) Effective depth: measured feet true vertical feet Junk (measured) Casing Length Size Cemented Structural 350' 24" Driven Measured depth True vertical depth 350' 350' Conductor Surface 2938' 13-3/8" 2050 sxs I nte rmediate 9359' 9-5/8" 2700 sxs 2938' 2718' 9359' 8197' Production Liner 10,973' 7" 550 sxs Perforation depth: measured 10148'-10372', 10564'-10814' true vertical 8923'-9238', 9295'-9523' Tubing (size, grade, and measured depth) 3-1/2", 9.2#, L80, TDS to 10,045' MD Packers and SSSV (type and measured depth) 7" Baker SAB-3 packer @ 9990' MD 3-1/2" Baker SSSV ~ 343' MD !3. Attachments 10,973' 9668' Description summary of proposal X_ RECEIVED ^l~ska 0d & Gas Cons. Commission Detailed operations program_ _ BOP sketch X 14. Estimated date for commencing operation June 14 16. If proposal was verbally approved Name of approver Date approved 5. Status of well classification as: Oil X Gas __-- -- Suspended__ Service 17. I hereby certify that the fo-~.e~c~ing is.,.t[ue and correct to the best of my knowledge. Signed G. Russell Schmidt~h,~¢~/~C&,,~itle Brilling Manager FOR COMMISSION USE ONLY Date June 2, 1995 Conditions of approval: Notify Commission so representative may witness Plug Integrity ~ BOP Test ~ Location clearance Mechanical Integrity Test~ Subsequent form required 10- Approved by the order of the Commission Original Signed By David W, Johnston Form 10-403 Rev 06/15/88 Approval No. Approved Copy Re, turnCd j Cbtnmiss~oner · Date SUBMIT IN TRIPLICATE Section Two K26 RD Preliminary Work 2.1 Preliminary Work for K26 Well K26 was drilled into the Heuvos fault block from December 93 to January 94. The well has never pred~ ! si~ificant volumes of hydrocarbons (>100 bbls/day) due to a very poor quality reservoir rock. It is believed that the well was drilled too close to a fault to the north of the target and that the res~a-voir close to this fault has been damaged over time and that this damage has resulted in very poor rock permeability. The objective of this redrill is to abandon the e2dsting K26 wellbore, to redrill the K26 RD wellbore to a bottom hole location closer to the King Salmon platform, ie, away from the zone of poor reservoir quality, and then to complete the well as an oil producer. The King Salmon platform has had a preliminary activation carried out on it. However a number of t~ic.~ will have to be completed prior to the rig being capable of ~ out the work involved with redrill K26 RD. The 13 5/8" ShatTer BOP's have recently been inspected and ~ed and will have to be installed in the King Salmon rig prior to operations commencing. Th~ KinE Salmon stabbing board will have to be installed in the derrick and the remote control panel for the BOP's will also have to be installed prior to the commencement of operations. The cement mt will have to be installed in the activation stage in order to carry out the BOP tests and the beginning of the program. It is not anticipated that the wellbore will encounter any overpressure or lost circulation. A contingency plan for 1-t28 has been draughted and will be in place for both the I(26 RD and the K2 RD workover. It is not anticipated that significant NORM's will be encountered on this well as the tubing has not been in the ground for a significant period of time. It is intended to reuse the tubing from the K26 well on the completion string of the K26 RD well. NORM's will be treated as per Unocal's specifications. Prior to startup, ensure that all equipment lists have been checked and that aH equipment is onboard as required. During the month of June there is only going to be one boat servicing the Cook Inlet field and in order to plan all boat movements as efficiently as possible the logistics dc'pt is requiring 48 hours notice to plan all boat shipments. . . . . Rig up the wireline lubricator with pump in sub and pressure test to 3000 psi for 10 rains. Make a gauge cutter nm to the XN nipple at 10,035'MD and POOH with gauge cutter. Open the Baker sliding sleeve at 9,948' MD. Circulate the well to filtered inhibited seawater with an 8.4 ppg weight. (Number of circulation's to be determined by the drilling foreman). Shut in the well and observe for pressure. If pressure is present circulate the well to a weighted brine at 0.5 ppg over the required kill weight° Make sure that the well is dead at this stage. Close the Baker sliding sleeve at 9,948'MD. ' Set a BPV in the robing hanger. Rig down the wireline and secure the well. Revision One Unocal Alaska Anchorage June 2, 95 Section Two K26 RD Preliminary Work 2.2 Abandonment Procedure for K26 The following procedure has been developed to abandon the K26 wcHbor¢ prior to drilling K26 RD. Once the completion string has been pulled it is intended to set a bridge plug above the T' Baker SAB-3 packer with wireline. Once the bridge plug is in place it is intended to set a 200 ft balanc~ cement plug on top of the bridge plug. Once the plug has been tagged and cement has set up, the K26 well will be effectively abandoned. A BOP test will take place during this part of the procedure. AOC-CC personnel must be notified 24 hours prior to the BOP test in order to witness all test procedures, if required. . Complete all preliminary work procedures and startup procedures prior to skidding thc rig to slot 25 on leg 4. 7. Remove the Christmas tree on well K26. Note: Check the condition Of the tubing hanger threads and ensure that the crossover sub for the tubing hanger will engage properly and is therefore the correct size. . Install the 13 5/8" BOP's with 2 7/8" x 5" variable bore rams in the top, blind/shear rams in the middle and 2 7/8" x 5" variable bore rams on the bottom ram cavity. Test to Unocal specifications. Complete all necessary Unocal and AOGCC paperwork. , Rig up and pull the BPV from the tubing hanger. Fill the BOP cavity with filtered inhibited seawater and observe the annulus for a short period to ensure that the well is static. 10. Make up the landing string and tubing hanger crossover prior to RIH. Install a TlW valve on the landing string. Close the Hydril annular preventer lightly around the landing string and pick up to +/- 30 f[ to ensure that the seals are free from the Baker SAB-3 packer at 9,990'MD-RT. Note: If unable to pull the seals free from the packer bore notify the Anchorage office and adjustments to the procedure will be made. 11. Circulate the well with filtered inhibited seawater. 12. 13. Observe that the well is static, circulate with seawater or weighted .seawater, if necessary. .. Pull out of the hole with all tubing and completiofl assemblies. Check all for NORM's as per Unocal procedure. Note: Revision One Unocal Alaska Anchorage June 2, 95 The 3 1/2" tubing should be set back in the derrick, if possible. All GLM assemblies and completion assemblies should be sent back to the beach for inspection and redress prior to being nm in the hole again as the completion for K26 RD. 9 Section Two K26 RD Preliminary Work 2.2 Abandonment Procedure for K26 (Continued) 14. RIH with 3 1/2" tubing tailpipe and 5" drillpipe and casing semper to 9,990' MD-RT and tag the top of the 7" SAB packer. Circulate bottoms up prior to POOH. 15. RIH with a 7" bridge plug on electric line and set the bridge plug at +/- 9,975'. POOH 16. RIH with the 3 1/2" tubing tailpipe and 5" drillpipe to the top of the bridge plug and set a 300fi balanced cement plug from the top of the bridge plug at +/- 9,975' to 9,675'. Note: Ensure that the pipe is moving all the time while spotting the cement and that there is sufficient freshwater spacer before and after the cement. 17. Pull out of the hole to 9,000' MD-RT and reverse circulate the drillpipe clean. Circulate while waiting on cement. Note: Again move the pipe at all times when circulating. 18. RIH and tag the top of cement with the tubing tail. POOH. Note: The well is now abandoned. Revision One Unocal Alaska Anchorage June 2, 95 RECEIVED 10 k'; n,,,n~ Salmon Platform Conductor Slot: 25 Well K26 RT to Mud Line: 173' Run Date: 1/29/9¢ Final Completion Schematic Water Depth 7,5' Date: Feb 28, 95 RT to Tbg Hgr: 49' Producing Well .5 1/2" Single String Completion Note: N~ dep~, are ~feren~ ~ mta~ robie and Depth (RT) OD ID aU ~sur~ents are ~p ---r---~ ' ~c ~,~ ~ ~/a.~ s/a,. ! i wa~ 24"0 ~ ~ i 8a~wB ~x~S XO ~o'~ t '~ ~ ~ ~.1~ 5.~75 2.81 wRh 8~0 x e~s XO an~ 421~.75 5.625 2.99 ~]~'~ ~ ~, ~ ~s xo ~215.58 5.625 2.99 ~ 5567.58 5.625 2.99 i j 6565.54 5.625 2.99 : 6908.41 5.625 2.99 : ~ 7586.56 5.625 2.99 7929.59 5.625 2.99 ~ 8~09.92 5.625 2.99 ~ j 895~.74 5.625 2.99 9529.69 5.625 2.99 J 9917.96 5.625 2.99 J 3.812 2.99 ~ ~ 1/2.9.2~pf~,~ Tublng i T~ of Dner ha~er ~ 917~'~ -- ~ ~ ~/~" e.~ ~i.e ~ 9948.91 4.437 2.81 t ~d~bn p.~ .~ s- 9990.17 5.625 3.25 Peffa ~ ~ ~ ~'s "~" ~o.~-~o~7~' e,~ ~r o~ ,,~ ,/XO 10145.27 4.500 ~.00 7" Packer wm ~Jet Plug 10,420 7.00 an~ ~ment plug on t~ ' Pe,,~ r~ ~ Two firth one ~' ~ ~ 10774 ~o.~.-,~.L~ ~e ~S* S~,h 10790 ~ ~ 1~4' King Salmon Platform Conductor Slot: 25 Well K26 RT to Mud Line: 175' Run Date: 1/29/94- Proposed Abandonment Drawing Water Depth 73' Date: Feb 28, 95 RT to Tbg Hgr: 49' Producing Well 3 1/2" Single String Completion NOit.' All dept~s ors reflrenciKI tl~ rotary I~l~le ~ncl Depth_ (RT) OD ID all rne~suremant~ F)4C 24~13 3/8"~ 5/8" ! i , I T~ of bner ho~er ~ 9175'~ ~. ~c~ ~ ~" 9990.17 5.625 3.25 P~ ~ 10.1 ~-10~72' 7" Peeker w~ ~Jet'~g 10,420 7.00 ' ~nd ~nt pl~ ~ t~ ' Peds m , 1~o ~h ~, ~ ~ ~ 10774 10.5~'-I~1~' ~, ~a, s~ 10790  BHP ~a~n~ FILL-UP N / ANNULAR BOP 13 YS 3000 psi PIPE RAMS 135/~5000 psi 13%"6000 psi ~ FLOW- ~>- 1 / DRIt.t.tNG | LT-i KILL ~ ~ SPOOL ~ ./TTY-,.k/T'] r~,,,-, LINE ~ ~~5/~ooo p~/~~'~j ~.nuKE 4" 5000 psi I I 4" 5000 psi PIPE RAMS 13%"6000 psi I RISER 13 '%" 5000 psi ,, JUN -5 !995 COOK INLET PLA.TFO-R:MS K-(IP1E 1'3~!: ~:0:0: pi:s-i: Kevin A. Tabler Land Manager Alaska Business Unit Unocal Corporation .... _ Oil & Gas Operations 909 West 9th Avenue, P.O. Anchorage, Alaska 99519-6~.7 196247 UNOCAL ) May 22, 1995 Mr. David W. Johnston, Chairman [ ,t,l Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive i,/ Anchorage, Alaska 99501-3192 ~,~ J Trading Bay Unit State of Alaska Permit to Drill K-26rd Dear Mr. Johnston: Union Oil Company of California (Unocal), as Operator of the Trading Bay Unit, requests your approval to drill Trading Bay Unit K-26rd and fudher requests Administrative Approval, pursuant to Rule 5, for a spacing exception to Conservation Order No. 80. .s pad of this application, pursuant to 20AAC 25.105, we enclose in triplicate, n Application for Sundry Approval (form 10-403) to abandon the existing well K- 26~ Ad~litionally, i-~"~riplicate', is our applicati6'~ for Permit to Drill K-26rd (form 0-401) pursuant to 20 AAC 25.005 and our check No. 0100002912 in the amount of $100.00 as required under 20 AAC 25.005. (c)(1). Also enclosed, is Verification of Application by the undersigned stating that applicant is acquainted with the facts pursuant to 20 AAC 25.055 (b). Unocal intends to drill the K-26rd well from the King Salmon Platform into the Hemlock Oil Pool approximately 480' from the Unit boundary. Unocal and Marathon Oil Company are the Lessees of the lands adjoining the northern boundary of the Trading Bay Unit. K-26rd shall be completed at a crestal withdrawal point which will result in additional recovery of Hemlock Production. The specific location, interval and depth are as follows: 1. Surface Location: 725'FSL & 133'FEL, Section 17, T9N-R13W, SM. RECEIVED JUN -,5 1995 Alaska Oil & Gas Cons. Commission Anchor~ 2. Top of Prod. Interval' 4555'FSL & 1933'FEL, Section 17, T9N-R13W, SM. 3. Total Depth: 4797'FSL & 1985'FEL, Section 17, T9N-R13W, SM. If you require addition information, please contact the undersigned at (907) 263- 7600 or Graham Brander, Drilling Dept. at 263-7671. We appreciate your review and trust that the enclosed is satisfactory. enclosures Very truly yours, Gas Cons. Commission VERIFICATION OF APPLICATION FOR SPACING EXCEPTION TRADING BAY UNIT, COOK INLET, ALASKA KING SALMON PLATFORM WELL K-26RD I, KEVIN A. TABLER, Land Manager, Union Oil Company of California, do hereby verify the following: I am acquainted with the application submitted for the drilling of the Trading Bay Unit, King Salmon Platform Well. I have reviewed the application submitted for the spacing exception, Rule 5, Conservation Order No. 80 and all facts therein are true. I have reviewed the plat attached to said application, and it correctly portrays pertinent and required data. DATED at Anchorage, Alaska this 22n~ day of May, 1995. I~e~in A. Tabler Land Manager STATE OF ALASKA THIRD JUDICIAL DISTRICT ) )ss ) SUBSCRIBED TO AND SWORN before me this 22nd day of May, 1995. .~_~ .. .......... .~>..:~ ( /'~ ~, ...9 ~ .. . NOTARY ~ --_- ~OTARY ~UBLIC IN AND FOR P~LIC; ~ ~ THE STATE OF ALAS~ ~,w~2'... .ck~ ~ My Commission expires:/ '~h~. u~ ~;~x~v- RECEIVED JUN .-5 1995 Oil & 6as Cons. Commission Anchora,:~ ,?· STATE OF ALASKA ALASK "/LAND GAS CONSERVATION CC -/IISSION REPOR' OF SUNDRY WELL OP,-RATIONS Operatlons performed: Operation shutdown Stimulate Pull tubing __ Alter casing__ . . Name of Operator Unocal Address P.O. Box 196247 Anchorage, Alaska 99519-6247 Location of well at surface 725' N & 133' W of SE Cor., Sec. 17, T9N, R13W, SM At top of productive Interval 4878' N & 2102' W ofSE Cor., Sec. 17, T9N, R13W, SM At effective depth 5007' N & 2117'W of SE Cor., Sec. 17, T9N, R13W, SM At total depth 5052' N & 2122' W of SE Cor., Sec. 17, T9N, R13W, SM Plugging __ Perforate X Repair well __ Pull tubing Other t5. Type of Well: Development X_ Ex, oratory __ Stmtigraphic __ ORIGINAL 6. Datum elevation (DF or KB) 100' KB 7. Unit or Property name Trading Bay Unit 8. Well number K-26 9. Permitnumber/approvalnumber 93-165 10. APInumber 50-733-20097-03 11. Field/Pool McArthur River/Hemlock feet 12. Present well condition summary Total depth: measured true vertical 14548 9829 feet feet Effective depth: measured 10420 feet true vertical 9165 feet Plugs (measured) Junk (measured) Casing Length Size Cemented Structural Conductor Surface 350' 24' I nte rmediate 2571' 13-3/8' Production 11376' 9-5/8' Liner 3640' 7' Perforation depth: measured 10148-10372, 10564-10814 7" MPBT @ 10420' Measured depth 350' 2571' 11376' 10908'-14548' True vertical depth 350' 2571' 7689' 7465'-9827' true vertical 8924-9122, 9296-9527 Tubing (size, grade, and measured depth) 3-1/2', 9.2#, L-80 @ 9999' Packers and SSSV (type and measured depth) Baker SSSV @ 294', Baker SAB pkr. @ 9941' RECEIVED 13. Stimulation or cement squeeze summary Intervals treated (measured) Treatment description including volumes used and final pressure AUG 1 0 1994 un & Gas Cons. C0mm Anch0ra~c 14. Prior to well operation Subsequent to operation Representative Daily Average Production or Injec~n Data OiI-Bbl Gas-Mcf Water-Bbl Casing Pressure 0 0 0 0 24 13 0 960 Tubing Pressure 0 100 15. Attachments 16. Status of well classifK~ation as: Copies of Logs and Surveys run Daily Report of Well Operations __ Oil X_ Gas Suspended 17. I her/el~y certify/that the foreaoino is true and correct to the best of my knowledge. Service Form 10-404 Rev 06/15/88 SUBMIT IN DUPUCATE ....... STATE OF ALASKA .... ALASi .~IL AND GAS CONSERVATION COMk ,ION WELL COMPLETION OR REOOMPLETION Rt::PORT AND LOG OIL ~ GAS ~ SUSPENDED 2. Name of Operator 7. Permit Number UNION OIL COMPANY OF CALIFORNIA (UNOCAL) 93-165 3. Address 8. APl Number P.O. BOX 196247 ANCHORAGE, AK 99519 50-733-20097-03 4. Location of well at surface .~ ........ . ...... . 9. Unit or Lease Name i~ ~;~2'¢'-' '~1~";,~'~ TRADING BAY UNIT 725' N & 133' W OF SE CORNER SEC.17, TDN, R13W, SM AtTop Producing Interval .... i '~ :~-~'~'-~ :J-' 10. Well Number At Total Depth ~ ~::-~ ': ~~ 11. Field and Pool 5101' U & 2233' W OF SE CORNER SEC.17, TDN, R13W, SM /~-~-.~,~,~~ MCARTHUR RIVER/HEMLOC K · 5. Elevation100, KBin feet (indicate KB, DF, etc.) 6. Lease DesignationADL 17594 and Serial No. 12. Date Spudded12/14~93 13. Date T.D. Reached01/20/94 114' Date C°mp" Ousp' °r Aband' 115' Water Depth' if °ffsh°re J16' N°' °f C°mpleti°ns02/04/94 100' Feet MSL 1 17' T°tal Depth (MD+TVD) 10' Plug Back Depth (MD+'I'VD) 19' Directi°nal Surve"'"~Y 120' Depth whore SSSV sot 121' Thickness °f Permafr°st10984?9682' 10893'19590' YES ~[ NO LJ 300 feet MD N/A 22. Type Electric or Other Logs Run DIL, BHCS, FMI, GR, CALIPER (4 ARM), CNL, FDT (2938'-10,890') 23. CASING, LINER AND CEMENTING RECORD I FT. SE'I-rING DEPTH MDI' CASINGSIZE WT. PER GRADE TOP ,BOTTOM HOLESIZE CEMENTING RECORD AMOUNT PULLED 24" O' 350' DRIVEN NONE 13-3/8" 68# K55 O' 2938' 24" 474 bbl 0-1-10 + 133 bbl Neat"G" NONE 9-5/8" 53.5# Pl10 O' 9359' 17-1/2" 342 bbl TLW + 139bbl Neat"G" NONE 7" 29# L80 9173' 10973' 8-1/2" 130 bbl TLW NONE 24. Perforations open to Production (MD+TVD of Top and Bottom and 25. TUBING RECORD interval, size and number) SIZE } DEPTH SET (MD) I PACKER SET (MD) 10148'- 10372' MD 12 SPF, 90 deg, 14 gm 8~;' 9123' TVD 3-1/2", 9.2" N80 9998' 9946' 10564'-10814' 12 SPF, 90 deg, 14 gm 26. ACID, FRACTURE, CEMENT SQUEEZE, ETC. 9296'-9527' TVD DEPTH INTERVAL (MD) I AMOUNT & KIND OF MATERIAL USED None 27 PRODUCTION TEST Date First Production Method of Operation (Flowing, gas lift, etc.) Date of Test Hours Tested PRODUCTION FOF OIL-BBL GAS-MCF WATER-BBL CHOKE SIZE GAS-OIL RATIO TEST PERIOD FIowTubing Casing Pressure CALCULATED OIL-BBL GAS-MCF WATER-BBL OIL GRAVITY-APl (corr) Press. 24-HOUR RATE 28. CORE DATA Brief description of lithology, porosity, fractures, apparent dips and presence of oil, gas or water. Submit core chips. .or,~ RECE [VED :,.u: :st,:~). 0~,i & Gas O0,s. (;0remiss A~ch0rage Form 10-407 Submit in duplicate rev. 7-1-80 CONTINUED ON REVERSE SIDE 29. 30. GEOLOGIC MARKERS FORMATION TEST8 · . NAME Include Interval tested, pressure data, all fluids recovered and gravity, MEA$. DEPTM TRUE VERT. 'DEPTH GOR, and time of each phase. 'A' Coal Top 3329' 3055' None 'B' Coal Top 3963' 3599' 'C' Coal Top 4740' ' · '4253' . . 'D' Coal Top 5203 ..... 4662', 'E' Coal Top 7310' 6512' -' : 'F' Coal Top 8302' : 7395' Top 'G' Zone 9443' 8323' Top Hemlock 10148' 8924' Top West Foreland 10822' 9535' 31. LIST OF ATFACHMENTS WELLBORE SCHEMATIC. DIRECTIONAL SURVEY 32. I hereby certify that the foregoing is hue and correct to the best of my knowledge Signed O. RUSSELL$CHMIDT Trtle DRILLING MANAGER Date 02/02/94 _~(~ // ', INSTRUCTIONS General: This form is designed for submitting a complete and correct well completion report and log on all types of lands and leases in Alaska. Item 1' Classification of Service Wells: Gas injection, water injection, steam injection, air injection, salt water disposal, water supply for injection, observation, injection for in-situ combustion Item 5: Indicate which elevation is used as reference (where not otherwise shown) for depth measurements given in other spaces on this form and in any attachments. Item 16 and 24: If this well is completed for separate production from more than one interval (multiple completion), so state in item 16, and in item 24 show the producing intervals for only the interval reported in item 27. Submit a separate form for each additional interval to be separately produced, showing the data pertinept-to such interval. : '. _,. -~ ~ ~-,.~ . ~ .! Item 21: Indicate whether from ground level (GL) or other elevation (DF, KB, etc.). Item 23: Attached supplemental records for this well should show the details of any multiple stage cement- ing and the location of the cementing tool. Item 27: Method of Operation: Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water In- jection, Gas Injection, Shut-in, Other-explain. Item 28: If no cores taken, indicate 'none'. "'W, . :_..',.._.- '7-) . . _ :ece.-weD ..... ;~.~,.:~a u. ~ Gas Cons. Comm[ss[on ....... ~n~i~orag~ K-26'We!lbore Schematic 1/31/94 1000 2OO0 3000 4000 5OO0 6OOO 7OOO 8000 9000 10000 10 3 1/2" tbg 0'-300' 24" @ 350' 13 3/8" @ 2938' 7" TOL @ 9173' 9 5/8" @ 9359' 3 1/2" tbg 0'-9998' 11000 PBTD =10893' TD =10984' Pe~orations: 10148-10372' MD 1056~10814' MD Shot with Sclum 2 1/8" thru tbg Enerjet 3 strip gun, 14 gm deep penetrating charges, 12 spf (two runs @ 6 spf), 90 degree phasing. Casin'g ~'4" Drive ~ipe to 350' 33/8" 61# K55to2938' 5/$" 53.5# Pl10 to 9359' 7" 29# LB0 Liner 9173' to 10973' '-~' Tubing (top down) ~- 4 1/2" BTC tbg hanger 4 1/2" * 3 1/2" BTC * 3 1/2" TDS crossover 3 1/2" 9.2# LBO TDS to 294' 1 Baker "TE-5" tubing retrievable" SSSV @ 300" two x/o's 3 1/2" EUE * 3 1/2" TDS 67 its 3 1/2" 9.2# LBO TDS two x/o's 3 1/2" EUE * 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 2 Camco SP GLM @ 2380' MD ( 2240' TVD) two x/o's 3 1/2" EUE * 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 58 jts 3 1/2" 9.2# LBO TDS two x/o's 3 1/2" EUE * 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 3 Camco SP GLM @ 4167' MD (3760 ' TVD) two x/o's 3 1/2" EUE * 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 37 its 3 1/2" 9.2# L80 TDS two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 4 Camco SP GLM @ 5334' MD ( 4750' TVD) two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 32 jts 3 1/2" 9,2# LB0 TDS two x/o's 3 1/2" EUE * 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 5 Camco SP GLM @ 6331' MD ( 5643' TVD) two x/o's 3 1/2" EUE * 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 16 its 3 1/2" 9,2# LBO TDS two x/o's 3 1/2" EUE * 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 6 Camco SP GLM @ 6854' MD (6103 ' TVD) tWO x/o's 3 1/2" EUE "3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 15 jts 3 1/2" 9,2# LB0 TDS two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 7 Camco SP GLM @ 7337' MD ( 6529' TVD) two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 17 its 3 1/2" 9.2# L80 TDS two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 8 Camco SP GLM @ 7880' MD ( 7009' TVD) two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 1 5 its 3 1/2" 9,2# LB0 TDS two x/o's 3 1/2" EUE "3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 9 Camco SP GLM @ 8361' MD ( 7446' TVD) two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC "3 1/2" TDS 17 its 3 1/2" 9,2# LBO TDS two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 10 Camco SP GLM @ 8905' MD ( 7890' TVD) two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 18 jts 3 1/2" 9.2# LB0 TDS two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 11 Camco SP GLM @ 9481' MD ( 8357' TVD) two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 12 its 3 1/2" 9,2# LB0 TDS two x/o's 3 1/2" EUE ' 3 1/2" BTC and 3 1/2" BTC ' 3 1/2" TDS 12 Camco SP GLM @ 9869' MD ( 8695' TVD) two x/o's 3 1/2" EUE * 3 1/2" BTC and 3 1/2" BTC * 3 1/2" TDS 16' ' 3 1/2" TDS pup jts (2) XA sleeve with x/os to TDS 1 jt 3 1/2" TDS tbg · * Baker Anchor 9900' MD · * Baker "SAB-3" Packer · * Baker Millout Extension 9940' MD · * two x/o's 3 1/2" LTC * 3 1/2" BTC and 3 1/ 9941' MD · * tbg pup · * 1 jt3 112"TDStbg · * Otis XN nipple · * Tbg pup · * Baker shear out sub w/xo 2.81" profile RECEIVED APR -4 1994 Ai~sk~ UJl & Gas Cons. Commission Anchorage 2.81" profile/2.68" NO GO TBG TAIL @ 9998.7' MD 9996' MD All measurements are tbg measurements KING SALMON PLATFORM WELL K26 DAY 0 (11/24/93) ACCEPTED RIG @ 00:01 HRS 11/24/93. DAY 1-5 (11/24-28/93) COMMENCE OPERATIONS ON AT 00:01 HRS. ON 11/24/93. KILL WELL CUT TUBING AT 13492'. N/D TREE, N/U BOP. TEST SAME HAD PROBLEMS WITH BLIND RAMS REPAIR AND TEST. TESTED OK. POOH AND L/D TUBING STRING. SET EZSV ON WL AT 13500'. RIH W/DP STINGER TESTED CASING TO 1500 PSI. CEMENT SQUEEZE AND ABANDON PERFORATIONS WITH 35 BBLS OF CEMENT TO 3200 PSI. LAY 6 BBL PLUG ON TOP OF EZSV. POOH. DAY 6 (11/29/93) PUMPED 12 BBL BALANCED CEMENT PLUG F/11000' TO 10800'. PERFORATED 2600-2602 4 SPF (SQZ PERFS). SET EZSV @ 2553'. PUMPED 30 BBL CMT INTO SQZ PERFS. PLACED 2 BBL CMT ON TOP OF EZSV. LAY DOWN DP. DAY 7 (11/30/93) LAYED DOWN DRILL PIPEo CUT 9-5/8" CSG @ 1000'. SPEARED 9-5/8" & POOH. DAY 8 (12/01/93) EQUALIZED CEMENT PLUG F/1100'-900' ACROSS 9-5/8" CSG STUB AT 1000'. POOH. WOC. RAN CBL IN 13-3/8" CSG F/780'-SURFACE; INDICATES PROBABLE TOC AT 400'. NIPPLED DOWN 13-5/8" BOPE. DAY 9 (12/02/93) NIPPLED UP 20" DIVERTER. RECEIVED APR -4 1994 ~ail & Gas Cons. Commission Anchorage DAY 10-12 (12/03-05/93) CUT CASING AT 375'. POOH. RIH W/SPEAR Aq-FEMPT TO JAR FREE NO SUCCESS. CUT CASING AT 175'. POOH. RIH W/SPEAR ATTEMPT TO JAR FREE NO SUCCESS. CUT AT 65'. RIH W/SPEAR LATCH AND PULL FREE. RIH W/STINGER. TAG CEMENT AT 928' DISPLACE HOLE TO 8.7 PPG MUD. RIH W/13-3/8" METAL MUNCHER PILOT MILL. MILL 13-3/8" CASING FROM 67' TO 160', LOST 17,000 WEIGHT. POOH. LOST D.C. FISH FROM BOTTOM OF MILL IN HOLE. CLEAN OUT METAL CUTTINGS IN HOLE. RIH RETRIEVE FISH POOH L/A SAME. DAY 13 (12/06/93) SPEARED CASING ~ 160'. PULLED & RECOVERED 17' OF 13-3/8" CSG. MILLED CMT & CSG F/160'-219'. POOH AND DRESSED MILL. RIH MILLED F/219'-240'. DAY 14 (12/07/93) MILLED 13-3/8" CASING F/234'-307'. DAY 15 (12/08/93) MILLED 13-3/8" CASING F/307'-363'. POOH W/MILLING ASSEMBLY. RAN SPEAR. SPEARED 14' CSG. POOH. RIH W/MILL REAMED CMT F/377'-385'. DAY 16 (12/09/93) MILLED 13-3/8" CASING F/385'-407'.POOH W/MILLING ASSEMBLY. CHANGED MILLS. AND STABILIZATION. MILLED F/407'-442'. DAY 17-19 (12/10-12/93) MILLED 13-3/8" CASING F/442'-550'. POOH & LAYED DOWN MILLING ASSEMBLY. MADED UP & RIH W/17.5" BIT (DRILLING ASSEMBLY). REAMED CMT F/42'-550'. POOH. RI TO PLACE GEL PLUG. COULD NOT ENTER 13-3/8" CSG STUB @ 550'. MIX & PUMPED 58 BBL CMT KO PLUG. CIP @ 6:12 HRS 12-12-93. RI. TAGGED CMT @ 402'. (19:30 HRS 12-12-93). CEMENT STILL GREEN. CLEANED MUD PITS. DAY 20 (12/13/93) WOC. RIH W/MUD MOTOR. W/MOTOR TO 703'. KICKED OFF CEMENT PLUG @ 440'. DRILLED RECEIVED Gas Cor~s. Commission Anchorage DAY 21 (12/14/93) DRILLED F/703'-1245'. DAY 22 (12/15/93) DRILLED F/1245'-1708'. SHORT TRIPPED. DRILLED F/1708'-1730'. DAY 23 (12/16/93) DRILLED F/1708'-2160'. PLATFORM GENERATOR DOWN. TRIPPED OUT TO 350'. CIRCULATED & WAITED ON GENERATOR REPAIR. DAY 24-26 (12/17-19/93) WAITED ON GENERATOR REPAIRS. POWER RESTORED 05:00 HRS. 12/18/93. RIH. CIRCULATED & CONDITIONED MUD. DIRECTIONALLY DRILLED TO CASING POINT. CIRCULATED & CONDITIONED MUD & HOLE PRIOR TO RUNNING CASING. POOH TO RUN CASING. DAY 27 (12/20/93) DRILLED TO SFC TD (2941'). RAN & CEMENTED 13-3/8" CASING TO 2935'. WOC. NIPPLED DOWN DIVERTER. DAY 28 (12/21/93) RIGGED DOWN DIVERTER. CUT CASING. WELDED BOWL ON TO 13-3/8" CASING. NIPPLED UP & TESTED BOP'S. TESTED OK. DAY 29-33 (12/22-26/93) DRILLED & SURVEYED F/2,705' - 5,646'. DAY 34 (12/27/93) DRILLED & SURVEYED F/5646'-6574'. DAY 35 (12/28/93) DRILLED & SURVEYED F/6574'-6727'. SHORT TRIPPED. DRILLED F/6727'- 7223'. DAY 36 (12/29/93) DRILLED & SURVEYED F/7223'-7662'. RECEIVED APR .-4 1994 uii & Gas Cons, CoBmissJori Anchorage DAY 37-39 (12/30-01-02/94) DRILLED & SURVEYED F/7662'-8063'. CBU. TRIPPED FOR BIT. TESTED BOP'S; ALL OK. MADE UP MOTOR BHA. RIH. REAMED 7983'-8063'. DRILLED F/8063'-8753'. TRIPPED FOR BHA. CHANGED BHA TO ROTARY ASSEMBLY. RIH. DAY 40 (01/03/94) REAMED 8600'-8753'. DAY 41 (01/04/94) DRILLED & SURVEYED TO 9085'. DRILLED & SURVEYED TO INTERMEDIATE CASING POINT (9366'). POOH. LAYED DOWN MWD. RIH. RECEIVED APR -d. 1994 u~l & 6as Cons. cornrnJssiori Anchorage CBU. DAY 42 (01/05/94) RIH. REAMED9184'-9366'. CBU. PERFORMED SHORT TRIP. WORKED TIGHT HOLE AT 9190'. RAN BACK TO BO'I-I"OM AND INCREASED MUD WEIGHT TO 9.7 PPG° PERFORMED 20 STAND SHORT TRIP. CBU. POH TO LOG. DAY 43 (01/06/94) POOH TO LOG. R/U & RAN E-LOG #1 QUAD-COMBO. LOG #2 FMI NO PROBLEMS. RIH FOR WIPER TRIP. DAY 44-46 (01/07-09/94) CIRCULATED, CONDITION MUD POOH. RUN 9-5/8" CASING TO 9359'. CIRCULATE & CONDITION MUD. RECIPROCATE CASING AND CEMENT CASING. BUMPED PLUG W/500 PSI. CIP 20:30 ON 1/8/94. SET PACK OFF BUSHING. TEST BOP'S, OK. P/U BHA AND RIH. DAY 47 (01/10/94) RIH. TEST CASING TO 3000 PSI. CLEAN CASING. DRILLED 8-1/2" HOLE TO 9376'. PERFORM F.I.T. TO 15.7 PPG EMW. DIRECTION DRILLED TO 9599'. DAY 48 (01/11/94) DIRECTIONALLY DRILL 8-1/2" HOLE 9878' PERFORM SHORT TRIP. HOLE IN GOOD SHAPE. DRILL 9878' TO 9909'. DAY 49 (01/12/94) DIRECTIONALLY DRILL 8-1/2" HOLE TO 9940'. POOH FOR BHA CHANGE. RIH W/8-1/2" BIT ON PENDULUM ASSY. DRILLED FROM 9940' TO 10039'. DAY 50 (01/14/94) DIRECTIONALLY DRILL 8-1/2" HOLE FROM 10,039' TO 10,052'. GOT STUCK AT 10,052' WHILE PICKING UP. JARRED FREE. DRILLED TO 10,164'. DAY 51-53 (01/14-16/94) DIRECTIONALLY DRILL TO 10,287'. SHORT TRIPPED. HOLE IN GOOD CONDITION. DRILLED TO 10,457. TRIPPED FOR BIT. HOLE GOOD ON TRIP. DIRECTIONALLY DRILLED AHEAD TO 10,629'. SHORT TRIPPED. CBU PRIOR TO POOH TO LOG. DAY 54 (01/17/94) LOGGED W/SCHLUMBERGER. RUN #1 QUAD COMBO. RUN #2 DIPMETER. RIGGED OUT LOGGERS. WAIT ON PROCESSING OF LOG DATA. DAY 55 (01/18/94) WAITED ON ORDERS. RECEIVED ORDERS TO RESUME DRILLING. RIH. DRILLED F/10629'-10738'o DAY 56 (01/19/94) DRILLED F/10738'-10897'. CBU. SHORT TRIPPED. DRILLED F/10897'-10974'. DAY 57 (01/20/94) DRILLED F/10974'-10984'. CBU. TRIP FOR BIT. POH-ALL THREE CONES FROM BIT Cf10 LEFT IN HOLE. RIH W/TOOTH BIT. REAMED 50' TO BO'I-I'OM WORK ON JUNK. POOH TO PICKUP REVERSE CIRCULATING JUNK BASKET. ALL THREE CONES & SHANKS FROM BIT #11 LEFT IN HOLE. Gas f3ons. Anchorage DAY 58-60 (01/21-23/94) RIH W/REVERSE CIRCULATING JUNK BASKET, WORKED JUNK BASKET. POOH. NO JUNK RECOVERED. DECISION MADE THAT 10984' WOULD BE TD. RIGGED UP LOGGERS. LOGGED RUN #1, OK. RUN #2-HUNG UP WHILE POOH @ 9910'. RIH FOR WIPER TRIP. CIRCULATED & CONDITIONED HOLE. POOH 30 STANDS. WELL STARTED TO FLOW. RAN BACK TO BO'rTOM. CIRCULATED. POOH. RAN LOGGING RUN #3. POOH. RIG OUT LOGGERS. RIH TO CONDITION HOLE PRIOR TO RUNNING 7" LINER. SURVEYED BO'II-OM 1000' OF HOLE. CIRCULATED & CONDITIONED ON BOTTOM. POOH. LAYED DOWN HWDP & BHA. RIGGED UP TO RUN 7" LINER. MADE UP & RAN 7" LINER. DAY 61 (01/24/94) RIH W/7" LINER. SPACE OUT LINER. LINER TOP PACKER @ 9173' MD. SHOE @ 10973' MD. RIGGED UP CEMENTERS. PUMPED 50 BBL DUAL SPACER, FOLLOWED BY 10 BBL WATER, FOLLOWED BY 130 BBL TLW CEMENT. BUMPED PLUG. SET LINER, AND LINER TOP PACKER. BACKED OFF RUNNING TOOL. PULLED 5 STANDS. REVERSE CIRCULATED. POOH. MADE UP 8-1/2" BIT & 9-5/8" CSG SCRAPER. RIH. DAY 62 (01/25/94) RIH W/8.5" BIT. TAGGED CEMENT @ 8875'. P TESTED CSG TO 1500 PSI FOR 10 MIN. DRILLED OUT CEMENTTO TOL @ 9173'. TEST CSG TO 1500 PSI FOR 10 MIN. POOH. DAY 63 (01/26/94) MADE UP 6" BIT, 7" SCRAPER ON 3-1/2" DP, 9-5/8" CASING SCRAPER. RIH TO 9180'. TAGGED CMT. CHASED CEMENT DOWN THE HOLE. DRILLED CEMENT F/10800' TO FLOAT COLLAR @ 10893'. CIRCULATED HOLE OVER TO COMPLETION FLUID. DAY 64 (01/27/94) POOH. LAYING DOWN DRILL PIPE. RAN CBL/VDL. RIGGED UP TO RUN TBG. RECEIVED APR - 4 1994 i,..iaska 0il & Gas Cons. Commission Anchorage DAY 65-67 (01/28-30/94) RAN COMPLETION STRING, INCLUDING GLM'S & SSSV & HANGER. SPACE OUT & LAND COMPLETION. PACKER @ 9946'. TBG TAIL ~ 9998.7'. NIPPLE DOWN BOP'S. NU WELLHEAD. P TEST TREE TO 5000 PSI, OK. RIGGED UP WlRELINE & RAN 1.75" SWEDGE TO 10890'. RIGGING DOWN RIG. RIGGED UP TO PERFORATE W/STRIP GUNS. UNABLE TO GET STRIP GUNS BELOW GLM'S. DAY 68 (01/31/94) DEMOBLIZING RIG. ADDED SINKER BARS TO STRIP GUNS. RIH TO PERFORATE. REDUCE HYDROSTATIC TO PERF 1000 PSI UNDERBALANCED. PERFORATED 10780'-10814' W/THRU-TBG 2-1/8" ENERJET 3, 12 SPF, 14 GM DEEP PENETRATING CHARGES (2 RUNS). DAY 69 (02/01/94) PERFORATED 10746'-10780' (2 RUNS). PERFORATED 10712'-10746' (1 RUN). POOH. RIH W/GUN #5. STUCK IN GLM @ 6317'. WORK GUN UP TO 114'. DAY 70 (02/02/94) FISHED FOR PERFORATING GUN ~ 114'. RECOVERED 40' OF 70' OF WlRELINE. MOVED FISHDOWN TO 925'. DAY 71 (02/03/94) WORKED ON FISH. APPEAR TO BE HUNG UP IN SSSV ~ 300'. WILL SWITCH OVER TO WlRELINE FROM SLICKLINE & CONTINUE FISHING. DAY 72 (02/04/94) RECOVERED FiSH W/SLICKLINE. RAN GAUGE RING TO TBG TAIL, OK. RESUME PERFORATING OPERATIONS. FINAL FORMAL REPORT. DAY 73-75 (02/05-07/94) RESUMED THROUGH TUBING PERFORATION OPERATIONS. PERFORATED 10678'-10712', 10644'-10678', 10610'-10644', 10576'-10610', 10564'-10576', 10338'-10372', 10364'-10338', 10270'-10304', 10236'-10253', 10202'-10236', 10168'-10202', 10148'-10168', 10253'-10270' @ WITH 2-1/8" ENERJET 3, 6 SPF, 14 GM DEEP PENETRATING CHARGES. PERFORATED W/SEPARATE GUN RUNS. PLACED WELL ON PRODUCTION. WELL BLOWING AROUND DRY. SUSPECT GAS LIFT PROBLEM. RECEIVED APR a!asl~a. 0i! & Gas Cons. Commission Anchorage DAY 76-77 (02/08-09/94) RAN GAS LIFT SURVEY. LOST PRESSURE GAUGES IN HOLE. ESTIMATED TOP OF FISH @ 10790' __.+. DAY 78 (02/10/94) FLOWED WELL. SHUT WELL IN & RIGGED UP TO RUN BHP SURVEY. DAY 79-80 (02/11/94-02/12/94) WORK ON GAS LIFT VALVES. ALL APEAR TO BE FINE. SHUT DOWN OPERATIONS. FINAL REPORT. PRESENTLY EVAULATING WELL & BHP SURVEY DATA TO DETERMINE FUTURE WORKOVER POSSIBILITIES ON THE WELL. NOTE: BOP TEST PRESSURES 250 PSI LOW, 5000 PSI HIGH, ANNULUR 3500 PSI RECEIVED i~,~ska. 0il & Gas Cons. Commission Anchorage _,~RAL DATA: COMPANY: WELLNAME: LOCATION: CONTRACTOR: SURVEY TYPE: MAGNETIC INCUDECL: DATE: KICK OFF DEPTH Unocal K-26 King Salmon PAA 58 Gyrc~TaWD 0.00 1 SURVEYS ENTERED 94/01/23I 80 TARGET DATA: MEASURED DEPTH: TRUE VERTICAL DEPTH: INCLINATION: (Degrees) BEARING (Degrees): NORTH / SOUTH COORDINATE EAST / WEST COORDINATE VERTICAL SECTION: TARGET RADIUS: DOG LEG FACTOR (30 or 100): 10411.00 9153.00 17.50 335.74 4150.00 -1970.00 4593.84 125.00 100 SURV MEASURED INCL. HOLE DIRECTION COURSE TRUE VERT. VERTICAL TOTAL COORDINATES DOG LEG # DEPTH: ANGLE AZIMUTH QUAD LENGTH DEPTH SECTION E(+) / W(-) N(+) / S(-) SEVERITY TIE-IN 440.00 0.00 0.00 0 0.00 0 0.00 440.00 0.00 0.00 0.00 0.00 # 1 492 0.75 104 S 76.00 E 52.00 492.00 -0.211 0.330 -0.082 1.442 # 2 554 1.5 195 S 15.00 W 62.00 553.99 -1.090 0.514 -0.964 2.724 # 3 613 2.5 223 S 43.00 W 59.00 612.95 -2.186 -0.564 -2.651 2.323 # 4 675 4.75 232 S 52.00 W 62.00 674.83 -3.318 -3.509 -5.221 3.732 # 5 765 6.25 249 S 69.00 W 90.00 764.42 -3.925 -11.020 -9.272 2.446 # 6 855 11 267 S 87.00 W 90.00 853.39 -0.530 -24.178 -11.478 6.014 # 7 981 12.7 292.6 N 67.40 W 126.00 976.78 13.946 -48.988 -6.781 4.370 # 8 1077 13.7 304.8 N 55.20 W 96.00 1070.26 31.401 -68.070 3.765 3.100 # 9 1172 14.1 319.8 N 40.20 W 95.00 11 62.51 52.183 -84.782 19.029 3.842 # 10 1287 15.4 330.4 N 29.60 W 115.00 1273.74 80.863 -101.370 43.010 2.623 # 11 1361 17.9 332.5 N 27.50 W 74.00 1344.63 102.003 -111.476 61.644 3.477 # 12 1459 21.7 330.1 N 29.90 W 98.00 1436.83 135.082 -127.468 90.720 3.968 # 13 1581 24.4 330.1 N 29.90 !W 122.00 1549.08 182.614 -151.277 132.125 2.213 # 14 1711 27.2 330.8 N 29.20 :W 130.00 1666.11 238.948 -179.163 181.349 2.167 # 15 1838 29.5 329.7 N 30.30 W 127.00 1777.87 298.969 .209.104 233.691 1.861 # 16 1964 30.9 328 N 32.00 W 126.00 1886.77 361.883 -241.902 287.916 1.319 , # 17 2092 31 328.3 N 31.70 W 128.00 1996.54 427.135 -276.640 343.833 0.149 # 18 2312 31.3 329.4 N 30.60 W; 220.00 2184.82 540.111 -335.501 441.226 0.304 # 19 2403 31.9 329.4 N 30.60 W 91.00 2262.33 587.502 -359.773 482.268 0.659 # 20 2495 32.2 329.7 N 30.30 W 92.00 2340.31 636.038 -384.514 524.355 0.374 # 21 2568 31.7 328.3 N 31.70 W 93.00 2419.22 684.909 ..409.856 566.539 0.997 # 22 2678 31.5 328.5 N 31.50 W 90.00 2495.87 731.681 -434.567 606.705 0.254 # 23 2771 30.8 330.4 N 29.60 W 93.00 2575.47 779.492 -459.023 648.125 1.342 # 24 2834 31.2 330.8 N 29.20 W 63.00 2629.47 811.809 -474.951 676.394 0.722 # 25 2884 31 330.1 N 29.90 W 50.00 2672.28 837.525 -487.668 698.861 0.859 # 26 3725 31.70 331.80 N 28.20 W 841.00 3390.49 1273.489 -700.062 1081.341 0.138 # 27 3825 32.30 332.90 N 27.10 W 100.00 3475.29 1326.386 -724.649 1128.282 0.859 # 28 3941 32.80 332.90 N 27.10 W 116.00 3573.07 1388.721 -753.081 1183.842 0.431 # 29 4065 33.40 333.20 N 26.80 W 124.00 3676.95 1456.363 -783.769 1244.205 0.504 # 30 4189 34.30 333.40 N 26.60 W 124.00 3779.93 1525.370 -814.802 1305.910 0.732 # 31 4434 32.30 333.20 N 26.80 W 245.00 3984.69 1659.752 -875.232 1426.075 0.818 # 32 4558 31.30 333.20 N 26.80 W: 124.00 4090.08 1725.029 -904.693 1484.398 0.806 # 33 4682 30.70 334.30 N 25.70 W 124.00 4196.36 1788.853 -932.943 1541.671 0.682 # 34 4836 29.40 334.30 N 25.70 W 154.00 4329.66 1865.943 -966.384 1611.156 0.844 # 35 4991 27.90 3,33.60 N 26.40 W 155.00 4465.68 1940.220 -999.010 1677.926 0.994 # 36 5148 27.60 333.20 N 26.80 W 157.00 4604.62 2013.260 -1031.740 1743.290 0.227 # 37 5272 27.80 332.90 N 27.10 W 124.00 4714.41 2070.536 -1057.864 1794.670 0.199 # 38 5427 28.00 332.50 N 27.50 W 155.00 4851.40 2143.263 -1091.130 1859.120 0.180 # 39 5611 28.20 331.80 N 28.20 W 184.00 5013.71 2229.757 -1131.61 7 1935.745 0.216 # 40 5828 28.70 331.80 N 28.20 W 217.00 5204.50 2332.889 -1180.468 2026.851 0.230 # 41 6139 28.50 331.50 N 28.50 W 311.00 5477.55 2481.382 -1251.159 2157.869 0.080 # 42 6447 29.10 331.50 N 28.50 W 308.00 5747.45 2629.354 -1321.959 2288.266 0.195 # 43 6692 29.00 331.10 N 28.90 W 245.00 5961.63 2747.962 -1379.088 2392.616 0.092 # 44 6938 29.10 331.10 N 28.90 i W 246.00 6176.68 2867.021 -1436.817 2497.191 0.041 # 45 7188 28.10 330.80 N 29.20 W 250.00 5396.17 2986.275 -1494.921 2601.809 0.404 # 46 7434 27.90 329.70 N 30.30 W 248.00 6613.38 3101.230 -1552.224 2702.074 0.233 # 47 7557 27.20 329.70 N 30.30 W 123.00 6722.43 3157.804 -1580.926 2751.193 0.569 # 48 7681 26.40 329.40 N 30.60 W 124.00 6833.11 3213.386 -1609.258 2799.391 0.655 # 49 7805 26.10 329.00 N 31.00 W 124.00 6944.32 3267.873 -1637.339 2846.500 0.284 # 50 7932 25.80 328.70 N 31.30 W 127.00 7058.52 3323.045 -1666.086 2894.061 0.259 # 51 8028 25.80 328.30 N 31.70 W 96.00 7144.95 3394.494 -1687.917 2929.685 0.188 # 52 8121 26.90 334.30 N 25.70 W 93.00 7228.30 3405.602 -1707.679 2965.870 3.192 # 53 8216 28.60 339.60 N 20.40 W 95.00 7312.38 3449.783 -1724.929 3006.556 3.239 # 54 8312 29.30 345.20 N 14.80 W 96.00 7396.41 3495.889 -1738.941 3050.813 3.035 # 55 8408 30.10 345.20 N 14.80 W 96.00 7479.79 3542.806 -1751.091 3096.798 0.833 # 56 8596 34.50 347.00 N 13.00 i W 188.00 7638.67 3641.575 -1775.123 3194.304 2.402 # 57 8693 36.60 347.30 ---, N 12.70 i W 97.00 7717.58 3696.854 -1787.661 3249.287 2.173 # 58 8758 37.30 347.70 N 12.30 W 65.00 7769.53 3735.106 -1796.117 3287.433 1.1 48 # 59 8849 37.00 347.00 N 13.00 W 91.00 7842.06 3788.935 -1808.150 3341.054 0.598 GENERAL DATA: COMPANY: WELLNAME: LOCATION: CONTRACTOR: SURVEY TYPE: MAGNETIC INCL/DECL · DATE: KICK OFF DEPTH 60 8939 61 9038 62 9133 63 9228 64 9321 65 9415 66 9510 67 9603 68 9698 69 9822 70 9880 71 9979 72 10074 73 10202 74 10437 75 10544 76 10608 77 10733 78 10829 79 10956 80 ------ 1O984 Unocal K.26 King Salmon PAA 58 Gyro/MWD 0.00 94/01/23 440.00 SURVEYS ENTERED 80 37,00 346.60 36.70 345.50 37,10 344.50 37.60 344.10 37.70 343.10 32.40 340.30 31.40 343.80 32.50 349.80 32.30 352.90 32.90 352.90 32.30 351.20 31.00 350.80 29.00 349.40 25.30 343.80 23.50 342.40 21.70 339.60 23.00 335.00 23.70 331.10 24.80 323.40 25.10 322.50 13.40 14.50 15.50 15,90 16.90 19.70 19.70 16.20 10.20 7.10 7.10 8.80 9.20 10.60 16.20 17.60 20,40 25.00 28.90 36.60 37.50 TARGET DATA: MEASURED DEPTH: TRUE VERTICAL DEPTH: INCUNATION: (Degrees) BEARING (Degrees): NORTH I SOUTH COORDINATE EAST / WEST COORDINATE VERTICAL SECTION: TARGET RADIUS: D<:X~ LEG FACTOR (30 or 100): 90.00 gg.00 95.00 95.00 93.00 94.00 95.00 93.00 95.00 124.00 58.00 99.00 128.00 235.00 107.00 125.00 223.00 28.00 7913.94 7993.16 8069.13 8144.65 8218.28 8294.18 8373.40 8452.36 8532.99 8637.69 8686.56 8769.96 8961.68 9170.78 9268.19 9327.25 9442.87 9531.06 9672.24 3842.093 3900.504 3956.799 4013,792 4070.065 4125.191 4177.456 4226.287 4275.563 4339.538 4369.395 4420.561 4468,670 4530.658 4635.785 4679,701 4704.234 4751,71 5 4789,724 4841.026 4852.544 10411.00 9153.00 17.50 335.74 4150.00 -1970.00 4593.84 125.00 -1820.519 - 1834.829 -1849.594 -1865.191 -1881.230 -1898.588 -1916.262 -1931.422 -1 942.650 -1952.845 -1956.707 -1964.077 -1971.872 -1982.851 -2007.352 -2020.208 -2028.207 -2046.585 -2063.847 -2092.913 -2100.030 3393,786 3451.4O6 3506.500 3561,983 3616.478 3669.122 3718.484 3765.213 3814,112 3879.779 3910.788 3963.610 4012.844 4075.888 4180.157 4222.532 4245.836 4289.634 4323.546 4366.718 f~376.144 0.287 0.776 0.798 0.594 0.715 3.795 2.316 2.355 3.705 1.423 1.034 1.150 1.388 1.664 1.936 1.684 3.435 1.772 1.809 2.310 1.763 Unocal Energy Resources ':- ~ -.~ion Unocal Corporation 909 West 9th Avenue, RO, Bo....~6247 Anchorage, Alaska 99519-6247 Telephone (907) 276-7600 UNOCAL Alaska DOCUMENT TRANSMITTAL March 21, 1994 TO: Larry Grant FROM: Kirk Kiloh LOCATION: 3001 PORCUPINE DRIVE ANCHORXGE, AK 99501 ALASKA OIL & GAS CONSERVATION COMM. LOCATION: P.O.BOX 196247 ANCHORAGE AK 99519 UNOCAL TRANSMI'IWING AS FOLLOWS TRADING BAY UNIT K-26 Mudlog (Formation Log) ::z~' .-32o co 12/04/93 PLEASE ACKNOWLEDGE RECEIPT BY SIGNING AND RETURNING ONE COPY OF THIS DOCUME~ TRANSMITrAL TO: RECEIVED BY: DATED: DEBRA CHILDERS C/O UNOCAL P.O. BOX 196247 AN~HORA?E, AK 99519 i Unocal Energy Resource~ Division Unocal Corporation 909 West 9th Avenue, P.C ,196247 Anchorage, Alaska 99519-b~-47 Telephone (907) 276-7600 UNOtJ%L Alaska DOCUMENT TRANSMITTAL March 11, 1994 TO' Larry Grant FROM: Kirk Kiloh LOCATION: 3OOl PORCU-PINE DRIVE LOCATION: P.O.BOX 196247 ANCHORAGE, AK 99501 - ANCHORAGE AK 99519 ALASKA OIL & GAS CONSERVATION COMM. UNOCAL ........ .-_._~ ...... ._._._.~. ...... _. ...... _._-_, .... .._.._ _ _ _ , ._ .... _ ..................... ~ ..... ~:~ ___~___ ~:~_~__~__~: _ :..:_ ~ _ ~ ___~____~-____~-:_:___: ...... ~ TRANSMITTING AS FOLLOWS TRADING BAY UNIT K-26 Perforating Depth Record Measurement While Perforating TRADING BAY UNTr D-4RD Spinner Survey-Production Profile ¢.\ lo~;Oo'"'t 12..'~ ~ v4 1/31/94 1/31/94 2/15/94 PLEASE ACKNOWLEDGE RECEIPT BY SIGNING AND RETURNING ONE COPY OF THIS DOCUMENT TRANSMITTAL TO: RECEIVED BY: DATED: DEBRA CttlLDF~S C/O UNOCAL P.O. BOX 196247 /- o .. Unocal Energy Resou. 'ivision Unocal Corporation 909 West 9th Avenue, RO. Box 196247 Anchorage, Alaska 99519-6247 Telephone (907) 276-7600 UNOCAL Alaska DOCUMENT TRANSMITTAL February 17, 1994 TO' Larry Grant FROM: Kirk Kiloh LOCATION: 3001 PORCUPINE DRIVE LOCATION' P.O.BOX 196247 ANCHORAGE, AK 99501 ANCHORAGE AK 99519 ALASKA OIL & GAS CONSERVATION COMM. UNOCAL '- [[0~ TRANSM1TrlNG AS FOLLOWS EACH BLUELINE AND SEPIA P._HA_SOR IND 2"~ COMPOSrrE L_D-T/CNL 2" .T%.¢D COMPOSITE B~C 2_/_'_'_'_'_'_'_'_--~ COMPOSITE C~EME_NT BOlxID LOG JAN 27, 1994 BOREHOLE COMP SONIC ~, %--- MSD~p_.Q.~S 5'_.' COMPOSITE ~, ~-- LIS TAPE AND LISTING ~ (~o0~ FLOPPY OF MWD DIRECTIONAL WASHED AND DRIED CUTTINGS 3300- 10984 · MVD LOG WILL BE SUBMI2TED AFTER BEING RECIEVED FROM VENDOR PLEASE ACKNOWLEDGE RECEIlYr BY SIGNING AND RETURNING ONE COPY OF THIS DOCUMENT TRANSMITTAL TO DEBRA CHILDERS. THANK YOU DATED: Unocal Energy Resources --- ~sion Unocal Corporation 909 West 9th Avenue, P.O. Bo.. ~96247 Anchorage, Alaska 99519-6247 Telephone (907) 276-7600 Facsimile 263-7698 UNOCAL Kevin A. Tabler Land Manager Alaska January 11, 1994 Mr. Bob Crandall Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive Anchorage, Alaska 99501-3192 Cook Inlet Area State of Alaska Trading Bay Unit K-26 Dear Mr. Crandall' Enclosed in triplicate, for your approval, is an Application for Sundry Approval (form 10- 403) incorporating a change in the bottomhole location of well K-26. This previously permitted well's bottomhole location will now be within 500' of the Unit boundary. Although the well will be approaching the section line, there is no change of ownership across the section line. In accordance with Rule 5, of Conservation Order No. 80, we ask for Administrative Approval of our new bottomhole location as specified on the Sundry Notice. Enclosure Very truly yours, / / . _.;' / . / ? '"' · .Kevin A. Tabler -'-' STATE OF ALASKA ALA_E OIL AND GAS CONSERVATION COMMI, .~N APPLICATION FOR SUNDRY APPROVALS 1. Type of request: Abandon __ Suspend Alter casing__ Repair well Change approved program M 2. Name of Operator UNION OIL COMPANY OF CALIFORNIA (UNOCAL) 3. Address P.O. BOX 196247 ANCHORAGE, AK 99519 5. Type of Well: Operations shutdown Re-enter suspended well Plugging __ Time extension M Stimulate __ Pull tubing Variance X Perforate Other 6. Datum elevation (DF or KB) 4. Location of well at surfaceKING SALMON PLATFORM 725'N & 133' W OF SE CORNER, Sec. 17, T9N, R13W, SM At top of productive interval 4878' N & 2102'W OF SE CORNER, Sec. 17, T9N, R13W, SM At effective depth 5007' N & 2117'W OF SE CORNER, Sec. 17, T9N, R13W, SM At tolal depth 5052' N & 2122'W OF SE CORNER, Sec. 17, T9N, R13W, SM Development X Exploratory Stratig raphic Service 12. Present well condition summary Total depth: measured true vertical 14,548' feet 9,829' feet Plugs (measured) 7. Unit or Property name TRADING BAY UNIT 8. Well number K-26 9. Permit number 93-165 10. APl number 50 -733 -20097-03 11. Field/Pool MCARTHUR RIVER/HEMLOCK feet Effective depth: measured true vertical feet feet Junk (measured) Casing Structural Conductor Surface Intermediate Production Liner Length 350' 2571' 11376' 3640' Perforation depth: measured true vertical Size 24" 13-3/8" 9-5/8" 7" Cemented Measured depth Driven 350' 2571' 11376' 10908'- 14548' 13734'-13776', 13870'-13890', 14115'-14195', 14320'-14353' 9251 '-9281 '; 9346'-9360'; 9518'-9575'; 9664'-9688' True vertical depth 350' 1650' 7689' 7465'-9827' RECEIVED Tubing (size, grade, and measured depth) Packers and SSSV (type and measLred depth) ,j.,'-~;N 1 4. 1994- ~,.~ ,,~ a Gas Cons. ComrnJ: Anchorafle 13. Attachments Description summary of proposal _ _ Detailed operations program_ _ BOP sketch 14. Estimated date for commencing operation 15. 16. If proposal was verbally approved J Oil _ _ Gas Name of approver Date approved Service 17. I her~ ce~ tb~e~ and correct to the best of my knowledge. Signed,~L. ~~.G. I~ssell Schmidt Title Drilling Manager FOR COMMISSION USE ONLY Status of well classification as: Suspended Date January 12, 1994 Conditions or approval: NoUty Commission so representaUve may witness Plug Integrity __ BOP Test Location clearance Mechanical Integrity Test__ Subsequent form required 10- Approved by the order of the Commission Original Signed By David W. Johnston Approval No. Approved Oop¥ Returned Comm--~sioner Y,~e--///'z- °/' ~' ~' Form 10-403 Rev 06/15/88 SUBMIT IN TRIPLICATE ~ion 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 January 10, 1994 Russell Schmidt Unocal P O Box 196247 Anchorage, AK 99519-6247 Dear Mr Schmidt: The Commission is compiling statewide drilling statistics for 1993. Attached is a list of outstanding Permits to Drill issued to your engineering group (permits for which no form 10-407 has been received by this office). Please review this list to determine if any of the wells were drilled in 1993. If so, please note the well name, total measured depth, and class (development, service or exploratory). If any wells were drilling as of 12/31/93, estimate the depth at 12:00 midnight. We would appreciate your reply by the end of January if possible. Thank you for your cooperation with this project. If I may be of any assistance, please call me at 279-1433. Yours very truly, Robed P Crandall Sr Petr Geologist encl jo/A:RPC.\drlstats 1/o3/94 OPERATOR U~IO~ OIL CO OF C. ALI U~=ON OIL CO OF CALX UNION OIL CO OF CALI U~ION OIL CO OF C. ALI U~ION OIL CO OF 'CALI U~ION OIL CO OF CALX ~ION OIL CO OF C. ALI UNION OIL C.O OF C~LI UNION OIL CO OF C. ALI UNION OIL CO OF C. ALI ALASK2~ W]~LLS BY Ln~IOCJ~L PERMIT 92-0152-0 93-0073-0 93-0118-0 93-0119-0 93-0120-0 93-0127-0 93-0129-0 93-0165-0 93-0182-0 93-0190-0 WELL NAME IVAN RIVER UNIT 14-31RD1 GRANITE PT ST 18742 42 C/~AKACHATNA MGS B-29 CHAKAC~ATNA MGS B-28 C~A~ACHATNA MGS GPt~NITE PT ST 17586 3~D TRADING BAY U14IT K-24~D TRJ~DING BAY U~IT K-26 AMETHYST STATE 1 T~-ADING BAY UNiT M-31 MEMORANDb..i State o, Alaska Alaska Oil and Gas Conservation Commission TO: David Joh~ Chairman-,,,>----- DATE: December 31, 1993 THRU: FROM: Blair Wondzell, P. I. Supervisor ~ou Grimaldi, Petroleum Inspector FILE NO: A59JL4AD.doc SUBJECT: BOP test Rig #58 Well # K-26 Unocal King Salmon platform PTD # 93-165 Thursday, December 30, 1993: I traveled to Unocal's King Salmon platform in the Trading Bay field of Cook Inlet to witness the weekly BOP test on rig #58. The test went well with one failure observed, this being a flange leak on the upstream side of the #1 hydraulic choke isolator valve. The "O" ring on this flange was replaced and held its retest. All other equipment tested functioned properly and held its pressure test. I found Paul Barr (Pool tool pusher) to perform a good BOP test. Special attention was paid to the proper function of the BOPE. The rig was in fair shape and I found evidence of regular maintenance. Summary: I witnessed the weekly BOP test on Unocal's King Salmon platform in the Trading Bay field of Cook Inlet. One failure. Test time three hours. Attachment: A59JL4AD.XLS STATE OF ALASKA OIL AND GAS CONSERVATION COMMISSION BOPE Test Report OPERATION: Drlg: X Workover: Drlg Contractor: Pool Arctic Alaska Operator: Unocal (King Salmon platform) Well Name: K-26 Casing Size: Set @ Test: Initial Weekly X DATE: 12/30/93 Rig No. #58 PTD# 93-165 Rig Ph.# 776-6698 Rep.: Jim Harvey Other Rig Rep.: Paul Bahr Location: Sec. 17 T. 9N R. 13W Meridian Seward MISC. INSPECTIONS: Location Gen.: OK Housekeeping: OK (Gen) Reserve Pit N/AI Well Sign OK Drl. Rig OK BOP STACK: Annular Preventer Pipe Rams Pipe Rams Blind Rams Choke Ln. Valves HCR Valves Kill Line Valves Check Valve Test Quan. Pressure P/F 1 250/3500 P 1 250/5000 P 1 250/5000 P I 250/5000 P 1 250/5000 P 1 250/5000 P 1 250/5000 P N/A N/A N/AI MUD SYSTEM: Visual Alarm Tdp Tank P P Pit Level Indicators P P Flow Indicator P P Gas Detectors P P Test Quan. Pressure P/F 1 250/5000 P 1 250/5000 P 1 250/5000 P 1 250/5000 P FLOOR SAFETY VALVES: Upper Kelly / IBOP Lower Kelly / IBOP Ball Type Inside BOP CHOKE MANIFOLD: No. Valves 14 No. Flanges Manual Chokes 1 Hydraulic Chokes 2 Test Pressure P/F 250/5000 P 36 250/5000 F P ACCUMULATOR SYSTEM: System Pressure Pressure After Closure 200 psi Attained After Closure 0 System Pressure Attained 3 Blind Switch Covers: Master: Nitgn. Btl's: Four Bottles 2500 Average 2,900 I P 1,600 P minutes 16 sec. minutes 30 sec. OK Remote: OK Psig. Number of Failures: 1 ~ ,Test Time: 3 / Hours. Number of valves tested 26 Repair or Replacement of Failed Equipment will be made within N/A days. Notify the Inspector and follow with Written or Faxed verification to the AOGCC Commission Office at: Fax No. 276-7542 Inspector North Slope Pager No. 659-3607 or 3687 If your call is not returned by the inspector within 12 hours please contact the P. I. Supervisor at 279-1433 REMARKS: Small leak at flange on upstream sideof #1 choke isolater valve, Replace "O" ring and retest "OK" ood test procedures Distribution: orig-Well File c - Oper./Rig c- Database c - Trip Rpt File c -Inspector FI-021L (Rev. 2/93) STATE WITNESS REQUIRED? YES X NO I 24 HOUR NOTICE GIVEN YES X NO Waived By: Witnessed By: A59JL4AD.XLS Louis R. Grimaldi WALTER J. HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 276-7542 November 3, 1993 G. Russell Schmidt Drilling Manager Unocal P O Box 196247 Anchorage, AK 99519 Re: Trading Bay Unit K-26 Unocal Permit No. 93-165 Sur. Loc. 725'N & 133'W of SE Cr, Sec. 17, T9N, R13W, SM Btmnhole Loc. 5091'N & 2199'W of SE Cr, Sec. 17, T9N, R13W, SM Dear Mr. Schmidt: Enclosed is the approved application for permit to redrill the above referenced well. The permit to redrill 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. Blowout prevention equipment (BOPE) must be tested in accordance with 20 AAC 25 035. Sufficient notice (approximately 24 hours) must be given to allow a representative of the Commission to witness a test of BOPE installed prior to drilling new hole. Notice may be given by contacting the Commission at 279-1433. Chairman BY ORDER OF THE COMMISSION dlf/Enclosures cc: Department of Fish & Game, Habitat Section w/o encl. Department of Environmental Conservation w/o encl. -.STATE OF ALASKA ALASK/ IL AND GAS CONSERVATION CO? 'ISSION PERMIT TO DRILL 20 AAC 25.005 la. Type of work Drill ~ Redrill E~ 1 lb. Type of well. Exploratory E] Stratigraphic Test ~ Development Oil Re-Entq/0 Deepen ~]I Service [-I Development Gas ~ Single Zone [] Multiple Zone 2. Name of Operator 5. Datum Elevation (DF or KB) 10. Field and Pool Union Oil Company of California (UNOCAL) 100' KB feet Mc. Arthur River/Hemlock 3. Address 6. Property Designation P.O. Box 196247, Anchorage, AK 99519 ADL 17594 4. Location of well at surface 7. Unit or property name 11. Type Bond 725'N & 133'W of SE Corner Sec. 17, T9N, R13W, SM Trading Bay Unit United Pacific Ins. Co. At top of productive interval 8. Well number I Number 4875' N & 2103' W of SE Comer, Sec. 17, T9N, R13W S.M. K-26 U62-9269 At total depth 9. Approximate spud date Amount 5091'N Comer, Sec. 17, T9N, R13W, S.M./~~/~r 15, 1993 $200,000 & 2199'W SE 12. Distance to nearest 13. Distance to nearest well 14. Number of acres in property 15. Proposed depth e~D ~d'rvo) property line 405 feet 4' (at surface) feet 5116 11279'/9950' feet 16. To be completed for deviated wells 17. Anticipated Pressure(.~, ~o~uc~.m,~ (elm) Kickoff depth 800 feet Maximum hole angle 32.4 M~mum,,,~=. 995 p~g,~to~d,p~, (WO) 9950' p,~ 18. Casing program Setting Depth size Specifications Top Bottom Quantity of cement Hole Casing Weight !Grade Coupling Length MD TVD MD TVD (include stage data) 17-1/2' 13-3/8' 68.0 K55 BTC 2125 0 0 2925 2700 4065 cu. ft. 12-1/4' 9-5/8' 53.5 Pl10 BTC 11279 0 0 11279 9950 1840cu. ft. 19. To be completed for Redfill, Re-entn/, and Deepen Operations Present well condition summary Total depth: measured 14548 feet Plugs (measured) r~ .,*'~'~- 2 t993 true vertical 9829 feet .,~iask.~ 0il & Gas C0~s. bomrnission Effective depth: measured feet Junk (measured) Anchorage true vertical feet Casing Length Size Oemented Measured depth True vertical depth Structural Conductor Driven Surface 350' 24' 350' 350' Intermediate 2571' 13-3/8' 2571' 1650' Production 11376' 9-5/8' 11376' 7689' Uner 3640' 7' 10908'- 14548' 7465'-9827' Perforation depth: measured 13734'-13776', 13870'-13890', 14115'-14195', 14320'-14353' true vertical 9251'-9281', 9346'-9360', 9518'-9575', 9664'-9688' 20. Attachments Filing fee ~; Property plat ~ BOP Sketch[~ Dive,er Sketch ~ Drilling program ~ Drilling fluid program ~ 'l'~ne vs depth plot ~ Refraction analysis r-] Seabed report ~] 20 AAC 25.050 requirements 21.1 hereb~e~and correct to the best of my knowledge Signed ~'~; Russell Schmidt - - Title Drilling Manager Date 10/19/93 Commission Use Only Permit Number-. ' APl number Approval d.~te See cover letter I~ ?~ for other requirements Conditions of approval Samples required ~ Yes '~ No Mud log required ~ Yes .~ No Hydrogen sulfide measures ~ Yes ~' No Directional survey required {~ Yes ~ No Required working pressure for DOPE [~ 2M; ~ 3M; [~ 5M; [--] 10M; ~ 15M Other: Origins.! :?;?ned By by the order of Approved by P;4vid W, johnston Commissioner the commission Date////,~//,¢ Form 10-401 Rev. 12-1-85 Submit in triplicate K26 Well Plan Revised 1 O- 18-93 A. Pertinent Info. Tubing: 3.5", 9.2# N80 BTC Landed in packer @ 13560' Note: Bottom gas lift mandrel @ 13308' Packer(s) #1 Baker FHL w/miilout extension @ 13560' #2 Baker FB-1 w/tubing tail @ 14295' Tubing Restrictions: 06/92 2.7" gauge ring to 14273' Previous wireline tags were all at similar depths. 07/93 Gyro well to 2000' with 2.5" OD tool. No problems. Bottomhole Pressure: 4280 psig (.43 psi/ft 8.3ppg) H2S: present 1000-1400 ppm. New zone in Huevos Block is expected to be H2S free. Well's present status: Producing 350 bpd gross fluid. KOP: The optimal KOP has been determined to be 650'. If we kicked off any lower, ie below the 13 3/8" shoe @ 2571', we would have to drill a wellpath with some unacceptably high doglegs. If we kicked off higher than 650 feet we ran the risk of interference with existing wells. Casing Program- Background & Proposal Surface Casing: The King Salmon platform has been set in an area that is structurally North west of the Grayling gas sands. This fact coupled with research of the historical surface casing programs of the King Salmon wells and a review of existing top hole mudlogs is the basis for our casing program. The King Salmon platform presently has 23 wells drilled from it. All of these wells had similar casing programs in that none of them had an intermediate casing string between the Drive Pipe (driven, not cemented to 350'+) and the surface casing. Surface casing depths ranged from 2384' to 5493'. Surface hole was drilled with mud weights ranging from 9.2-9.9 ppg. None of the wells reported any kicks or background gas to speak of, however the reports were not very detailed on any aspect of the drilling operations. I also reviewed the only two mud logs (K-1 & K-2) that were run in the top hole sections. Both of these had very Iow mud gas levels, above 3000'. Background gas was 5 units, with highs of 80-100 units upon penetration of several of the coal seams. Based on this information we are proposing to set 13 3/8" surface casing at 2925'+. This appears to be competent, conglomerate rock at this depth. Casing Program- Background & Proposal (cont.) Production Casing: 9 5/8" production casing is proposed, from surface to TD. However we have seen numerous hole problems in the past that have caused casing to be run earlier than expected. I am proposing that we drill 12 1/4" hole to the top of the "F" zone (8600' MD) and evaluate our hole condition, number of trips, days from drill out, et¢. This evaluation will determine whether we continue on with 12 1/4" hole, or stop and set 9 5/8" intermediate casing. If we did set the 9 5/8" intermediate casing we would drill out with 8 1/2" bits and set a 7" liner. The plan is to drill 12 1/4" hole to TD, and set 9 5/8" casing at TD. The 7" liner option is merely a contingency. B. Prior to rigging up over the well. 1. Rig up slickliners. Run 2.5" gauge ring to 13560'. POOH. This will ensure that we can run a jet cutter (OD-2 7/16"). 2. Rig up and attempt to pump down backside of 9 5/8" casing. 3. Attempt to feel for cement top in 24" * 13 3/8" annulus. (200% excess cement was pumped, but no mention of returns) 4. Prepare to kill well with FIW. FIW density is 8.5 ppg. 5. Kill well by bullheading kill fluid down tubing. Pump 150 bbls of kill fluid 6. Monitor well for 30 minutes to ensure dead. 7. Run jet cutters and cut tubing as deep as possible. If can get all the way to tubing tail then cut in second joint above packer @ 13,560'. 8. Circulate well over to FIW. 9. Set tubing plug. Set BPV. C. Abandonment Procedure. 1. Nipple down tree. Nipple up 13 5/8" BOP's. Test BOP's 2. Pull BPV and tubing plug. 3. Monitor well. Fill hole with FIW. 4. Pull tubing as per Laura Hammond's NORM criteria. Lay down tubing as you come out. 5. Send tubing to APl for inspection. Mark any joints as junk as you can determine. 6. Run and set cement retainer on E line. Set EZSV at 13550' (right above packer) 7. RIH with drill pipe. Pressure test EZSV to 1500 psi. Sting in to EZSV. Pump cement. Pull out of stinger and reverse circulate drill pipe clean. Hole volume between packer at 13550' and PBTD (14524') is 37 bbl. + 8. Spot cement plug on top of EZSV. Plug should cover 75 lineal feet of casing. WOC. 9. Pull up, reverse circulate drill string clean. 10. Pull up to 11000' (100 feet below liner top) Spot balanced cement plug from 11000' to 10800'. 11. Reverse circulate drill pipe clean. WOC. 12. Rig up to perforate 9 5/8" and 13 3/8" casing (circulating charges). Perforate at 2600' + (first shale below shoe @ 2571'). 13. Rig up and attempt to establish a feed rate. 14. Rig up cementers to conduct block squeeze. Conduct squeeze. 15. Reverse circulate excess cement from drill pipe. WOC. 16. POOH. Pick up casing cutters. 17. Run in and cut 9 5/8" casing. Cut casing at 1000' +. Spear into and pull casing. (top of cement is calculated to be at 8600'). 18. Pull and lay down approximately 1000' of 9 5/8" casing. 19. Mix and pump balanced cement plug. Place cement from 1100' (10_0' below casing stub) 900'(10,,_0' above casing stub). Cement volume = 25 bbl +. WOC. 20. Reverse circulate excess cement from drill pipe. 21. Nipple down 13 5/8" BOP's. Nipple up 20" Diverter System. Strip external valves and flanges from Unihead. Test BOP's. 22. Make up landing joint and screw into top of Unihead. Cut 13 3/8" casing to facilitate removal of Unihead. Remove Unihead. 23. Run CBL to evaluate cement behind 13 3/8" casing. This will help determine if we mill or cut and pull the 13 3/8" casing. 24. The casing to be removed is 13 3/8" 61# J55 casing. , 25. Cut and pull or mill 13 3/8" casing from top to 800' +. 26. Spot cement plug from 900' to 400'. Approximately 80 bbl. WOC. 27. Pick up 17.5" bit and rotary assembly. Tag cement. 28. Polish plug to 650'. K26 Well Plan D. Drilling Procedure ~,- 2¢ Notes: A. 20" Diverter system, previously installed and used in Abandonment portion of program. B. See proposed Directional Well Path for details. 1. RIH to 650' with 17.5" Angle build assembly. Directionally drill to 2940' +. 2. Circulate and condition prior to running 13 3/8" casing. 3. POOH lay down 17.5" drilling assembly. 4. Prepare to and run 13 3/8" casing. 5. Circulate and condition hole prior to cementing. 6. Rig up Halliburton. Mix and pump cement as per detailed Halliburton program. WOC. 7. Nipple down 20" Diverter. Nipple up 13 5/8" BOP's. P. test and function test BOP's, choke manifold and all related equipment. 8. Make up 12 1/4" drilling assembly. 9. RIH. Test pipe rams. Continue in hole. 'rag float collar @ 2890' +. Drill out float, cement, shoe and 5 to 10 feet of new formation. 10, Conduct leak off test. 11, Directionally drill to base of E zone (9700 ' MD/8500' TVD). This is the potential early casing point. Evaluate hole conditions, number of trips, days from drill out, anticipated days to completion etc. 12, Based on results of Step #11, log, run and cement casing, change and test BOP's appropriately. 13, Directionally drill to 11260' ('rD). 14. Circulate and condition hole prior to logging. 15, Log as per detailed logging program. Steps 16 and 17 may not be necessary. If casing was set in Step 12 we may run MWD/LWD over the bottom portion of the hole. This would eliminate the need for open hole logs over this section. 1 6. RIH and condition prior to running casing. 17. Rig up and run 9-5/8" casing if not previously run in Step 12 or 7" liner if casing was-run in Step 12. 18. Circulate and condition hole prior to cementing. 19. Rig up Halliburton. Mix and pump cement as per detailed Halliburton program. 20. Nipple down BOP's. Nipple up wellhead. End of Drilling Operations. K26 Well Plan E. Completion Plan 1. Run Gyro and CBL/CET 2. Make up perforating guns (Number of feet, and gun type to be determined) and permanent packer (FB-1) on 3.5" tubing. 3. RIH. 4. Space out. Nipple down BOP's. Button up wellhead. 5. Reduce hydrostatic to attain 700 psi underbalance prior to perforating. 6. Perforate, 7. Monitor well. Turn over to production &iask~. OiJ & Gas C0~'ls, C0n~rr.!isst~,J~' Anchorage KILL LINE FLOW FILL-UP ~ ~ " ANNULAR BOP 1~%"8000 psi PIPE RAILS 13%"5000 psi BLIND RAMS 13%"5000 psi [~22 t ] DRILLING] i [¢x.~~ SPOOL 4" 5000 psi ii II 4" 5000 psi PIPE RAMS 135,/1'5000 psi RISER 5000 psi CHOKE LINE-uP;> Ar~chora.qe ENERGY RESOURCES, ALASKA BOPE STACK 13 s/s" 5000 psi NOTE, All changes must have prior written approval of the drilling manager FIGURE 6 0" VENT LINE FLEX HOSE TARGETED TURN 10" VENT LINE ANGLED FILL UP LINE °500U PSI~ [ANNULAR 10" HYDRAULIC~ VALVE NOTES: ONE 10" DIVERTER LINE WITH A 10" HCR VALVE HYDRAULICALLY ATTACHED TO THE ANNULAR IN A FAIL-SAFE MANNER SO HCR WILL OPEN UPON CLOSURE OF THE ANNULAR. THE VENT LINE WILL BIFURCATE USIN6 A TAROETED TEE INTO AN EAST (PRIMARY) AND NORTH DIRECTION. EACH LINE WILL BE EQUIPPED WITH A VALVE DESIGNED IN A FAIL-SAFE MANNER THAT ENSURES ONE OF THE BIFURCATED VENT LINES IS ALWAYS OPEN. ENERGY RESOURCES, ALASKA 20" OR 30" DIVERTER COOK INLET DRILLING NOTE, All changes must have prior written approval of the drilling manager. TO 10" CROWN VENT GAS [3USTER TO CHOKE PANEL SWAC O~ CHOKE' 10" TO SHAKER .... .. ,~.: ~'~! i~J~,~ NOTE: SWACO CHOKES · ~, ,. isF~CH HYDRAULICALLY ~ Gas Cons. C:On~tf~ ~"'~UATED VIA REMOTE. Anchorage BLOW DuW~l ! TO [3OPE MANUAL CHOKEI CHOKB MANIFO Unocal PMTFOI~ RIP.,[ q3JON anJI s~ q3JoN a9uaJe~e~ M ~S'~£L N L~'g~Z aJe sa3eu!pJoo9 leoot 3OlS £~6'~9Z~L~ 3 ~O~'66Z~L~ N eJe se3eu~pJooo P~J9 ggO'L~ 9£ L§LM'~£6'~g L§ 09u s! uo~3eoo1 3olS £0~'9L 9£ LgLM'~6Z'9~ Lg 09u uo paJ~ueo si eJn~onJ~S 9LO'gL 9£ LgLM'£09'~ Og ogu uo paJ~Uaa SL pla~J £6-~o0-6L : pes~ASJ £6-~30-~ : pa~eaJ3 £6-~30-6~ : pe~u~Jd a~eO : asuaD!q ~L6doJd : ~aJ JnO E# uo~$JaA 9~-~ : ~eJ Jnok O3iNI saqBnH Ja~es Xq 9 N I I S I -1 -I ¥ S 0 d 0 ~ d eMSel¥ 'laluI ~oo3 'NS± pla~j JaA~ Jnq~J¥9N ~2-~# iOlS 92-~ mJo~3eld NOHqVS 9NI~ 3¥30NR UNOCAL KING SALMON PLatform,K-26 McArthur River FieLd,TBU, Cook inlet, ALaska PROPOSAL LISTING Page 1 Your ref : K-26 Version #3 Last revised : 19-0ct-93 Measured IncLin. Azimuth True Vert. R E C T A N G U L A R Dogleg Vert Depth Degrees Degrees Depth C 0 0 R D ! N A T E S Deg/lOOFt Sect 650.00 7.47 211.30 649.13 16.48 S 3.16 W 0.00 700.00 6.68 219.18 698.75 21.51 S 6.69 W 2.50 800.00 5.62 240.54 798.19 28.43 S 14.63 W 2.50 900.00 5.57 266.38 897.73 31.14 S 23.74 W 2.50 1000.00 6.56 288.35 997.18 29.65 S 34.00 W 2.50 -13.53 KOP - Sidetrack Point -16.56 -19.41 -17.96 -12.21 1100.00 8.21 303.08 1096.36 23.96 S 45.40 W 2.50 1200.00 10.21 312.52 1195.07 14.07 S 57.92 W 2.50 1300.00 12.39 318.78 1293.13 0.01 S 71.52 W 2.50 1400.00 14.67 323.15 1390.35 18.19 N 86.19 W 2.50 1500.C0 17.02 326.36 1486.55 40.51 N 101.89 W 2.50 -2.17 12.12 30.66 53.40 80.29 1600.00 19.40 328.80 1581.54 66.90 N 118.60 W 2.50 1700.00 21.80 330.73 1675.14 97.31 N 136.28 W 2.50 1800.00 24.23 332.29 1767.17 131.68 N 154.91 W 2.50 1900.00 26.66 333.58 1857.46 169.95 N 174.44 W 2.50 2000.00 29.11 334.67 1945.84 212.04 N 194.83 W 2.50 111.30 146.35 185.39 228.33 275.10 2100.C0 31.57 335.60 2032.14 257.87 N 216.06 W 2.50 2116.50 31.97 335.74 2046.16 265.78 N 219.63 W 2.50 2500.C0 31.97 335.74 2371.48 450.93 N 303.07 W 0.00 3000.C0 31.97 335.74 2795.63 692.32 N 411.85 W 0.00 3500.C0 31.97 335.74 3219.77 933.71 N 520.63 W 0.00 325.61 334.29 EOC 537.33 802.05 1066.76 4000.00 31.97 335.74 3643.91 1175.10 N 629.41 W 0.00 4500.00 31.97 335.74 4068.06 1416.50 N 738.18 W 0.00 5000.80 31.97 335.74 4492.20 1657.89 N 846.96 W 0.00 5500.00 31.97 335.74 4916.34 1899.28 N 955.74 W 0.00 6000.00 31.97 335.74 5340.49 2140.67 N 1064.52 W 0.00 1331.48 1596.20 1860.91 2125.63 2390.35 6500.00 31.97 335.74 5764.63 2382.06 N 1173.30 W 0.00 7000.00 31.97 335.74 6188.78 2623.45 N 1282.08 W 0.00 7500.00 31.97 335.74 6612.92 2864.84 N 1390.86 W 0.00 8000.00 31.97 335.74 7037.06 3106.23 N 1499.64 W 0.00 8500.00 31.97 335.74 7461.20 3347.62 N 1608.42 ~ 0.00 2655.06 2919.78 3184.50 3449.21 3713.93 9000.00 31.97 335.74 7885.35 3589.01 N 1717.20 W 0.00 9401.49 31.97 335.74 8225.93 3782.84 N 1804.54 W 0.00 9500.00' 30.50 335.74 8310.16 3829.42 N 1825.53 W 1.50 9600.00 29.00 335.74 8396.98 3874.65 N 1845.91 W 1.50 9700.00 27.50 335.74 8485.06 3917.80 N 1865.36 W 1.50 3978.65 4191.21 Begin Angle Drop 4242.28 4291.88 4339.20 9800.00 26.00 335.74 8574.36 3958.82 N 1883.85 W 1.50 9900.00 24.50 335.74 8664.81 3997.71 N 1901.37 W 1.50 10000.00 23.00 335.74 8756.34 4034.42 N 1917.92 W 1.50 10100.00 21.50 335.74 8848.89 4068.94 N 1933.47 W 1.50 10200.00 20.00 335.74 8942.41 4101.23 N 1948.02 W 1.50 10300.00 18.50 335.74 9036.81 4131.28 N 1961.56 W 1.50 10366.44 17.50 335.74 9100.00 4150.00 N 1970.00 W 1.50 10500.00 17.50 335.74 9227.38 4186.62 N 1986.50 W 0.00 11000.00 17.50 335.74 9704.24 4323.69 N 2048.28 W 0.00 11257.69 17.50 335.74 9950.00 4394.34 N 2080.11 W 0.00 4384.20 4426.84 4467.10 4504.95 4540.36 4573.32 4593.84 TARGET (Huevos) 4634.00 4784.32 4861.80 TD ALL data is in feet unless otherwise stated Coordinates from slot #4-25 and TVD from wellhead (100.00 Ft above mean sea Level Vertical section is from wellhead on azimuth 334.61 degrees. Declination is 0.00 degrees, Convergence is -1.40 degrees. Calculation uses the minimum curvature method. Presented by Baker Hughes INTEQ UNOCAL KING SALMON Platform~K-26 McArthur River Field~TBU, Cook Inlet~ Alaska PROPOSAL LISTING Page 2 Your ref : K-26 Version #3 Last revised : 19-0ct-93 Comments in wellpath MD TVD Rectangular Coords. Comment 650.00 649.13 16.48 S 3.16 W KOP - Sidetrack Point 2116.50 2046.16 265.78 N 219.63 W EOC 9401.49 8225.93 3782.84 N 1804.54 W Begin Angle Drop 10366.44 9100.00 4150.00 N 1970.00 W TARGET (Huevos) 11257.69 9950.00 4394.34 N 2080.11W TD Targets associated with this wellpath Target name Position T.V.D. Local rectangular coords. Date revised HUEVOS not specified 9100.00 4150.00N 1970.00W 13-May-93 All data is in feet unless otherwise stated Coordinates from slot #4-25 and TVD from wellhead (100.00 Ft above mean sea level Bottom hole distance is 4875.35 on azimuth 334.78 degrees from wellhead. Total Dogleg for wellpath is 51.14 degrees. Vertical section is from wellhead on azimuth 334.61 degrees. Declination is 0.00 degrees, Convergence is -1.40 degrees. Calculation uses the minimum curvature method. Presented by Baker Hughes INTEQ UNOCAL PROPOSAL LISTING Page 1 KING SALMON Platform,K-26 Your ref : K-26 Version #3 McArthur River Field,TBU, Cook Inlet, Alaska Last revised : 19-0ct-93 Measured Inclin. Azimuth True Vert. R E C T A N G U L A R Dogleg Vert Depth Degrees Degrees Depth C 0 0 R D I N A T E S Deg/lOOFt Sect 650.00 7.47 211.30 649.13 708.63 N 135.98 W 0.00 700.00 6.68 219.18 698.75 703.60 N 139.51 W 2.50 800.00 5.62 240.54 798.19 696.68 N 147.45 ~ 2.50 900.00 5.57 266.38 897.73 693.96 N 156.56 W 2.50 1000.00 6.56 288.35 997.18 695.46 N 166.82 ~ 2.50 -13.53 KOP - Sidetrack Point -16.56 -19.41 -17.96 -12.21 1100.00 8.21 303.08 1096.36 701.15 N 178.22 g 2.50 1200.00 10.21 312.52 1195.07 711.04 N 190.74 W 2.50 1300.00 12.39 318.78 1293.13 725.10 N 204.34 g 2.50 1400.00 14.67 323.15 1390.35 743.30 N 219.01 g 2.50 1500.00 17.02 326.36 1486.55 765.62 N 234.71 g 2.50 -2.17 12.12 30.66 53.40 80.29 1600.00 19.40 328.80 1581.54 792.01 N 251.42 g 2.50 1700.00 21.80 330.73 1675.14 822.42 N 269.10 W 2.50 1800.00 24.23 332.29 1767.17 856.79 N 287.73 g 2.50 1900.00 26.66 333.58 1857.46 895.06 N 307.26 g 2.50 2000.00 29.11 334.67 1945.84 937.15 N 327.65 g 2.50 2100.00 31.57 335.60 2032.14 982.98 N 348.88 g 2.50 2116.50 31.97 335.74 2046.16 990.89 N 352.45 W 2.50 2500.00 31.97 335.74 2371.48 1176.04 N 435.89 g 0.00 3000.00 31.97 335.74 2795.63 1417.43 N 544.67 ~ 0.00 3500.00 31.97 335.74 3219.77 1658.82 N 653.45 g 0.00 111.30 146.35 185.39 228.33 275.10 325.61 334.29 EOC 537.33 802.05 1066.76 4000.00 31.97 335.74 3643.91 1900.22 N 762.23 4500.00 31.97 335.74 4068.06 2141.60 N 871.00 5000.00 31.97 335.74 4492.20 2383.00 N 979.78 5500.00 31.97 335.74 4916.34 2624.39 N 1088.56 6000.00 31.97 335.74 5340.49 2865.78 N 1197.34 6500.00 31.97 335.74 5764.63 3107.17 N 1306.12 7000.00 31.97 335.74 6188.78 3348.56 N 1414.90 7500.00 31.97 335.74 6612.92 3589.95 N 1523.68 8000.00 31.97 335.74 7037.06 3831.34 N 1632.46 8500.00 31.97 335.74 7461.20 4072.73 N 1741.24 9000.00 31.97 335.74 7885.35 4314.12 N 1850.02 9401.49 31.97 335.74 8225.93 4507.96 N 1937.36 9500.00 30.50 335.74 8310.16 4554.52 N 1958.35 9600.00 29.00 335.74 8396.98 4599.76 N 1978.73 9700.00 27.50 335.74 8485.06 4642.91 N 1998.18 9800.00 26.00 335.74 8574.36 4683.94 N 2016.67 9900.00 24.50 335.74 8664.81 4722.82 N 2034.19 10000.00 23.00 335.74 8756.34 4759.53 N 2050.74 10100.00 21.50 335.74 8848.89 4794.05 N 2066.29 10200.00 20.00 335.74 8942.41 4826.34 N 2080.84 0.00 1331.48 0.00 1596.20 0.00 1860.91 0.00 2125.63 0.00 2390.35 0.00 2655.06 0.00 2919.78 0.00 3184.50 0.00 3449.21 0.00 3713.93 0.00 0.00 1.50 1.50 1.50 3978.65 4191.21 Begin Angle Drop 4242.28 4291.88 4339.20 1.50 4384.20 1.50 4426.84 1.50 4467.10 1.50 4504.95 1.50 4540.36 10300.00 18.50 335.74 9036.81 4856.39 N 2094.38 ~ 1.50 10366.44 17.50 335.74 9100.00 4875.11 N 2102.82 W 1.50 10500.00 17.50 335.74 9227.38 4911.73 N 2119.32 g 0.00 11000.00 17.50 335.74 9704.24 5048.80 N 2181.10 W 0.00 11257.69 17.50 335.74 9950.00 5119.45 N 2212.93 W 0.00 4573.32 4593.84 TARGET (Huevos) 4634.00 4784.32 4861.80 TD RECEIVED All data is in feet unless otherwise stated Coordinates from SE Corner of Sec. 17, T9N, R13W SM and TVD from wellhead (100.00 Vertical section is from wellhead on azimuth 334.61 degrees. Declination is 0.00 degrees, Convergence is -1.40 degrees. Calculation uses the minimum curvature method. Presented by Baker Hughes INTEQ .,.: 2 G~s Cons. Cornmissio~ Anchorage UNOCAL PROPOSAL LISTING Page 2 KING SALMON Platform,K-26 Your ref : K-26 Version #3 McArthur River Field,TBU, Cook Inlet, Alaska Last revised : 19-0ct-93 Comments in wellpath MD TVD Rectangular Coords. Comment 650.00 649.13 708,63 N 135.98 W KOP - Sidetrack Point 2116.50 2046.16 990,89 N 352.45 W EOC 9401.49 8225.93 4507.96 N 1937.36 ~ Begin Angle Drop 10366.44 9100.00 4875.11N 2102.82 ~ TARGET (Huevos) 11257.69 9950.00 5119,45 N 2212.93 ~ TD Targets associated with this wellpath Target name Position T.V.D. Local rectangular coords. Date revised HUEVOS not specified 9100.00 4875.11N 2102.82W 13-May-93 All data is in feet unless otherwise stated Coordinates from SE Corner of Sec. 17, T9N, R13g SM and TVD from wellhead (100.00 Bottom hole distance is 4875.35 on azimuth 334.78 degrees from wellhead. Total Dogleg for wellpath is 51.14 degrees. Vertical section is from wellhead on azimuth 334.61 degrees. Declination is 0.00 degrees, Convergence is -1.40 degrees. Calculation uses the minimum curvature method. Presented by Baker Hughes INTEQ ,-qlaska Uii & Gas Cons. Gorm'r~issiol'~ Anchorage Created by : lanes For: J RESSLER Date 21aired · 19-Oct-93 ~iot Reference is h-2G ';ers sn ~5. Coordinates are ~n feet reference stat True vertic:m Depths are Ce:e-eqce ,',,eilhe,3:3. Structure : KING SALMON Plmtform Well : K-26 Bcker Hughes iNTEQ --- 2550 ~O~ ~5C0 'C.:~G] AVERAGE ANGLE 31.97 DEC Field : McArlhur :~iver Fieid N 25.39 DEG tV -1594' (TO TARGET) Location : TBU, Cook Inlet, Alaska WELL PROFILE DATA .... ;._rant .... ~OP (50 '.47 21120 E~.~ of Hold }401 3~ }7 }_:5,74 ',]rget 15366 : ' ~0335.74 End of Hold_. 11253 2800 2460 26~O 1600 12'20 800 400 , : , . . =.'O z7'-. - :]] ~ 27 , '. ] 2]*.'_-_. [ --.--.-: '--- '---*4-,}3 ~coie i : Z]] Vertical Sectio~ on 334.61 azimuth with reference 0.09 ~, 0.O0 ~ f'cm slot ~4-25 :49 -:6 -3I 2046 266 -220 5226 3783 -1804, ;lO-] 4150 -IgTOI 2950 z394 -2080~ r 44c<) k m]O0 "_ 3200 I A ' t- O Fl200 F i ° .. ° , Alaska 0il & Gas ()0ns. Anchorage TAR(lET ANGLE 17.5 DEG Unocal North Americar, - ' Oil & Gas Division Unocal Corporation P.O. Box 190247 Anchorage, Alaska 99519-0247 Telephone (907) 276-7600 UNOI:AL October 19, 1993 Alaska Region Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive Anchorage Alaska 99501-3192 Attention: Mr. David Johnston, Commissioner Dear Sir: .Re: King Salmon Platform ,Well K-8RD/K-26 Unocal Energy Resources Division hereby makes application to plug and abandon the existing well (K-8RD) back to 650' MD. This depth (650' MD) is the kick off point for the new well (K-26). In other words, 1(-26 will utilize the top 650 feet of the existing K-8RD wellbore and then deviate from there on a new well path. We are submitting our application in two parts. The first part is the Sundry application. This will cover the plugging and abandonment operations. The second part is the Permit to Drill. The permit covers the drilling portion of the proposed operations. We are proposing to conduct the two operations consecutively, in support of the Sundry application please find the following enclosed; a) completed "Application For Sundry Approvals" b) an outline of our proposed Abandonment program c) well schematic of the present completion status d} diagram of our proposed BOPE configuration e) diagram of our proposed Diverter configuration RECE Vt:.D 0 C'T 0 Alaska Od & Gas Cons. Anchorage In support of the Permit to Drill app,,cation please find the following enclosed; a) completed "Permit To Drill" b) cheque for $100.00 (application fee) c) an outline of our proposed Drilling program d) Property plat e) Plot of the Projected Days vs Depth for this project f) diagram of our proposed BOPE configuration g) diagram of our proposed Diverter configuration h) schematic of the choke manifold i) copy of the proposed directional plan j) calculation of Anticipated Pressures k) copy of the mud program that was filed with EPA I) schematic of the King Salmon mud system m) inventory of the King Salmon mud system and related equipment All-of tl~ aforementioned documentation is submitted in triplicate, with the exception of the full well path view of the proximity plot. Due to its size we only included only one copy. Also enclosed is a letter requesting AOGCC approval to drill the well within 500' of a Section line. If you have any questions or comments with regards to our application(s) please do not hesitate to call Jamie Ressler, at 263-7800. RECEIVED OCT 2 0 1995 ,~lask.a Uil & L-~as Cons. Anchorage Very truly yours, G. Russell Scmidt Drilling Manager KING SALMON K26 10/19/93 Anticipated Pressure: Maximum Surface Pressure Calculation; Mud Weight ................................................................ 8.Sppg = 0.44 psi/ft Shoe (13 3/8") depth ......................................................... 2925'MD/2700' TVD Estimated fracture gradient (13 3/8" shoe) ........................................... 1.1 psi/ft Total Depth ................................................................. 11 280'MD/9950' TVD Bottom hole pressure gradient ....................................................... 0.43psi/ft Gas gradient (assume worst case) .....................................................0.0psi/ft Wellbore volume with gas kick situation: 3/4 mud & 1/4 gas Maximum surface pressure = Bottom hole pressure-hydrostatic pressure MSP = BHP- (3/4 mud + 1/4 gas) MSP = (9950 fi * 0.43 psi/ft)-((0.75*(9950 fi * 0.44 psi/ft))+ (0.25*(9950 fi * 0 psi/ft))) MSP = (4278) - ((3283) + (0)) MSP = 995 psig Therefore the greatest hydrostatic pressure at the 13 3/8" shoe (HPsh) is when the gas bubble reaches the shoe, if a constant BHP is applied. A conservative estimate would be the maximum surface pressure plus the hydrostatic pressure at that casing depth (HPcsg). HPsh = MSP + HPcsg HPsh = 995 + (2700 ft * 0.44 psi/fi) HPsh = 995 + 1188 HPsh -- 2183 psig This (HPsh = 2183 psig) is less than the fracture pressure at the same shoe. (FPsh = 1.1 psi/fi * 2700 fi = 2970 psig) and thus sufficiently adequate to handle a well kick. This scenario is considered extreme since actual well kicks have seen macdrums of 300 psig on the shut in casing. ,.~laska Oii& G~s Con,,-;. ,,.~mm~s',~" .~\nchorage OF J = Drilling Fluids Co. ~ Magcobar/IMCO A Dresser/Halliburton Company DEPTH INTERVAL MUD TYPE MUD ADDITIVES POTENTIAL PROBLEMS UNOCAL DRILLING FLUID PROPOSAL K-26 650' - 2,940' 17~" PILOT HOLE 13-3/8" CASING GENERIC MUD #2 M-I GEL/M-I BAR/SODA ASH/ CAUSTIC/LIME/GELEX/ AQUAPAC HOLE CLEANING/GRAVEL/ GAS KICK/LOST CIRCULATION ~'I'ME~S/PROCD~S 1) Build spud mud system with bentonite and Gelex in fresh water. a) Treat drill water with Soda Ash as required to reduce calcium content to 40± ppm. 2) Clean out existing casing to 800'. 3) Drill to 3,600'. Use all solids control equipment. Raise viscosity if gravel sections are encountered. Be prepared to run large size shaker screens. Run 13-3/8" casing. 4) Build additional volume as required. Use Aquapac for fluid loss reduction only if necessary because of hole conditions. DM-139 .WP ....A~ICIPATED MUD PROPERTIES Mud Density Funnel Viscosity Plastic Viscosity Yield Point Gels Fluid Loss (API) pH 8.8 - 9.0 ppg 40-100 sec/qt 10-15 cps 15-30 #/100ft2 8-20 N.C. - 15 cc 8.5 - 9.5 MI-377 NOTE: SEE REVERSE SIDE FOR LIABILITY CLAUSE OF / " Drifling Fluids Co. ~ Magcobar/IMCO A Dresser/Halliburton Company UNOCAL DRILLING FLUID PROPOSAL K-26 DEPTH INTERVAL MUD TYPE MUD ADDITIVES POTENTIAL PROBLEMS 2,940' - 11,280' 12%" HOLE 9-5/8" CASING GENERIC MUD #2 M-I GEL/M-I BAR/SODA ASH/ AQUAPAC/GELEX/TANNATHIN/ SODIUM BICARBONATE/ CAUSTIC/SPERSENE CF/ RESINEX/SOLTEX/ XCD POLYMER HOLE CLEANING/TIGHT HOLE/BIT BALLING/ HOLE ENLARGEMENT/GAS KICKS/COAL SLOUGHING/ SEEPAGE LOSS TREATMENTS/PROCEDURES 1) Use the spud mud to drill the 13-3/8" collar, cement and shoe. Treat this fluid as required to avoid excessive cement contamination. Drill 10' of new hole, perform leak off test. 2) Build additional volume as required. 3) Pump viscous sweeps as required. 4) Control density with barite, fresh water, inlet water, and solids control equipment. Dump all sand traps as required. Increase mud weight only if required by hole conditions. DM-139. WP (8/93) M1-377 NOTE: SEE REVERSE SIDE FOR LIABILITY CLAUSE OF ' Drilling Fluids Co. ~ Magcobar/IMCO A Dresser/Halliburton Company 5) Report drill solids analysis on mud check sheet. 6) Report hydraulics calculations on mud check sheet. 7) Use Defoam-X if foaming becomes a problem. 8) Add Soltex and Resinex as required. 9) Drill to 11,280'. Run 9-5/8" casing. ANTICIPATED MUD PROPERTIES Mud Density Funnel Viscosity Plastic Viscosity Yield Point Gels API Fluid Loss pH MBT Drilled Solids 9.2-10.0 ppg 42-75 sec/qt 10-15 cps 10-20 #/100ft2 6/12/18 8-12 cc 8.5 - 9.5 < 25 lbs/bbl < 75 lbs/bbl Note: This mud program is a guideline only. should dictate actual mud properties. Hole conditions DM- 139. WP (8/s~) MI-377 NOTE: SEE REVERSE SIDE FOR LIABILITY CLAUSE KING SALMON MUD TANKS To Rig Pumps Flowline ~[it¢,, ',,,¢ h King Salmon Mud System & Related Equipment The mud system being provided (see attached diagram) is equipped with the following; Two (2) National N-1300 triplex mud pumps with 5000 psi fluid ends Two (2) Derrick Plus Flow Line Cleaners Desander with two (2) 12" cones Desiiter with twelve (12) 4' cones Degasser, rated at 800 gpm Centrifuge, rated at 175 gpm 808 barrels of active mud tank capacity a) 140 bbl desander tank c/w sand trap b) 172 bbl settling tank c) two (2) 248 bbi mud tanks 74 barrel pill pit The pit system will be equipped with pit level indicators using visual and audio warning devices, fluid flow sensor, methane and Hydrogen Sulfide detection units. There is 2500 barrels of fresh water storage on the platform. Storage for mud products on the platform is limited to sack storage on the drill deck. K-8RD/K-26 Days vs Depth Plot .~Jaska Oii& Gas Coi'~s. ~.r.,n,,[-r~iss[o' Anchorag~ 16000 - 140O0 - 12000 - 10000 8000 6000 -- 4000 2000 I I I I End of P&A. Start of Drlg End of Drlg. Start of Compl Days from Start ALASKA O~L AND GAS CONSERVATION COMMISSION October 20, 1993 WALTER J. HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 276-7542 ADMINISTRATIVE APPROVAL NO. 80.67 Re: The application of Union Oil Company of California, operator of the Trading Bay Unit (TBU), to drill, complete and produce the TBU K-26 well. Mr. G. Russell Schmidt Regional Drilling Manager UNOCAL Corp. P. O. Box 190247 Anchorage, Ak 99502-0247 Dear Mr. Schmidt Your application of September 15, 1993 for a permit to drill the TBU K-26 development oil well indicates that the drilling and completion of the TBU K-26 well will provide additional oil recovery from the Hemlock Oil Pool. The Alaska Oil a~d Gas Conservation Commission hereby authorizes the drilling and completion of the TBU K-26 well pursuant to Rule 5 of Conservation Order No. 80. Sincerely, Russell A. Do Commissioner BY ORDER OF THE COMMISSION Unocal Energy Resour.~ ~ivision Unocal Corporation 909 West 9th Avenue, RO. t- ._,x 196247 Anchorage, Alaska 99519-6247 Telephone (907) 263-7602/276-7600 Facsimile 263-7698 UNOCAL Kevin A. Tabler Land Manager Alaska September 15, 1993 State of Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive Anchorage, Alaska 99504 Trading Bay Unit State of Alaska Permit to Drill K-26 Gentlemen: Union Oil Company of California (Unocal), as Operator of the Trading Bay Unit, requests your approval to drill Trading Bay Unit K-26 well pursuant to Rule 5, Conservation Order No. 80. Unocal intends to drill the K-26 well from the King Salmon Platform into the Hemlock Oil Pool. The well bore at the producing interval will be located 405' FNL and 2103' FEL of Section 17, Township 9 North, Range 13 West, S.M.. Unocal and Marathon Oil Company are the Lessees of the lands adjoining the northern boundary of the Trading Bay Unit. K-26 shall be completed at a crestal withdrawal point which will result in additional recovery of Hemlock Production. Enclosed please find our check No. 011105 in the amount of $100.00 as required under 20AAC 25.005(c)(1). We trust the enclosed to be satisfactory and remain, CC: Mr. Jamie Ressler Very truly yours, .~. ---~: ~,-- Elizabeth A.R. Shepherd Landman Anch0ratie STATE O F ALASKA .... ALA ,-t OIL AND GAS CONSERVATION COME. JION APPLICATION FOR SUNDRY APPROVALS 1. Type of request: Abandon X_ Suspend__ Operations shutdown __ Re-enter suspended well__ Alter casing__ Repak well__ Plugging __ Time extension __ Stimulate __ Change approved prog ram Pull tubing Variance Perforate Other 5. Type of Well: 6. Datum elevation (DF or KB) 2. Name of Operator UNION OIL COMPANY OF CALIFORNIA (UNOCAL) 3. Address P.O. BOX 196247 ANCHORAGE, AK 99519 4. Location of well at surface 725'N & 133' Wof SE corner, Sec. 17m T9N, R13W, SM At top of productive interval 4875' N & 2103 Wof SE Comer, Sec 17, T9N, R13W, SM At effective depth At total depth 5091 ,.N & 2199'W of SE corner Sec. 17, T9N, R13W, SM Development X Exploratory Stmtig raphic 100' 7. Unit or Property name Trading Bay Unit 8. Well number K-8RD 9. Permit number 84-184 10. APl number 50-733 -20097-01 11. Field/Pool McArthur River/Hemlock feet 12. Present well condition summary Total depth: measured true vertical 14548' feet Plugs (measured) None 9829' feet Effective depth: measured true vertical 14524' feet Junk (measured) feet Casing Structural Conductor Surface Intermediate Production Liner Perforation depth: Length Size Cemented Measured depth True vertical depth 350' 24" Driven 350' 350' 2571' 13-3/8" 1750 sx 2571' 1650' 11376' 9-5/8" 750 sx 11376' 7689' 3640' 7" 620 sx 10908'- 14548' 7465'-9827' measured 13734'-13786', 13870'-13890', 14115'-14195', 14320'-14353' REC[IVED true vertical 9251 '-9281 ', 9346'-9360', 9518'-9575', 9664'-9688' OCT 2 0 1995 Tubing (size, grade, and measured depth) 4-1/2", 12.6#, NSO, BTC to 10863' MD .'~las~(a, 0it & Gas Cons. Commissi~ 3-1/2", 9.2#, N80, BTC 10864'-13604' MD Packers and SSSV (type and measured depth) Baker ~'B-I' packer @ 14295'. Bker ~'HL' packer @ 135e~ch0rage Camco TROP-1 SSSV @ 267'. 13. Attachments Description summary of proposal x_ Detailed operations program__ BOP sketch x_ 14. Estimated date for commencing operation ~15. November 5, 1993 16. if proposal was verbally approved Oil x_ Gas Name of approver Date approved Service 17. ! herel~tce~e f~nd correct to the best of my knowledge. Signed G. Russell Schmidt Title Drilling Manager FOR COMMISSION USE ONLY Status of well classification as: __ Suspended __ Date 10/19/93 Conditions of approval: Notify Commission so representaUve may witness Plug Integrity __ BOP Test Location clearance Mechanical Integrity Test Approved by the order of the Commission',: ~V_l~ johnston ~-~bsequent form[r, equired ~-~- Form 10-403 Rev 06/15/88 Commissioner SUBMIT IN TRIPLICATE ** CHECK LIST FOR NEW WELL PERMITS ** ITEM APPROVE DATE ( 1 ) Fee /~,P~__ /c.,/~///q. ~; 1. (2) Loc '/~--- ~ 2. [2 thru8] 3. 4.' . (3) Admi n [/~9~t ~ 9. hru 13]/¢~,,.~ 10 :. ~ 11 [10 & 13] 12. [ 14 thru 22-1 16. 17. 18. 19. 20. 21. f.. 22. ~ 23. [23 thru 2 24. 25. 26. 27. 28. (5) BOPE 33. (6) Other ~t~ ~ 29. [29 thru 31] 30. 31. (8) Addl ogy' eng i nee r i nq: w-~'----TA~~/~; -- ~ /' rev 6/93 jo/6.011 Company (/~/./~/0(-~ / Is permit fee attached ............................................... Is well to be located in a defined pool ............................. Is well located proper distance from property iine ................... Is well located proper distance from other wells ..................... Is sufficient undedicated acreage available in this pool ............. Is well to be deviated & is wellbore plat included ................... Is operator the only affected party .................................. Can permit be approved before 15-day wait ............................ Does operator have a bond in force ................................... Is a conservation order needed... Is administrative approval needed Is lease ntmber appropriate .......................................... Does well have a unique name & number ................................ Is conductor string provided ........ Will surface casing protect ali zones reasonably expected Lease & Well YES to serve as an underground source of drinking water .................. Is enough cement used to circulate on conductor & surface ............ Will cement tie in surface & intermediate or production strings ...... Will cement cover all known productive horizons ..................... Will all casing give adequate safety in collapse, tension, and burst. NO REMARKS ~- i _ - r ' -- - ~ ~.~ ~- ~ Il ;/~.. ~/! ~4 ~ ~~ ) ,,, .~ , // 0 --I -r' z ~0 u'~ --I IS Is old wellbore abandonment procedure included on 10-403 ............. Is adequate wellbore separation proposed ............................. Is a diverter system required ........................................ Is drilling fluid program schematic & list of equipment adequate ..... Are necessary diagrams & descriptions of diverter & BOPE attached .... Does BOPE have sufficient pressure rating -- test to ~5"~O psig ..... Does choke manifold comply w/API RP-53 (May 84) ...................... Is presence of H2S gas probable ...................................... well to be kicked off from an existing wellbore ................... ~ FOR EXPLORATORY & STRATIGRAPHIC WELLS: Are data presented on potential overpressure zones ................... Are seismic analysis data presented on shallow gas zones ............. If offshore loc, are survey results of seabed conditions presented... Name and phone number of contact to supply weekly progress data ...... Additional requirements ............................................. Additional INITIAL GEOL UNIT ON/OFF POOL CLASS STATUS AREA ~ SHORE ,, , MERIDIAN: remarks' UM WELL TYPE' Exp D~ Red ri 11 ~' In j. Rev Well History File APPENDIX Information of detailed nature that is not particularly germane to the Well Permitting Process but is part of the history, file. To improve the readability of the Well History file and to' simplify finding information, information of this nature is accumulated at the end of the file under APPENDIX. , No special effort has been made to chronologically organize this category of information. * AbASKA COMPUTING CENTER , ****************************** *------- $CHh~MBERGER ****************************** COMPANY NA~E : UNOCAL WELL NAME : !!NOCAL T,B,U K'26 "HUEVO$" FIELD NAME : MCARTHUR RIVER BOROUGH : KENAI STAT~ : ALASKA AP! NUMBER : 50-733-20097-03 REFERENCE NO : g4035 RECEIVED FEB 1 7 1994 bis Tape Yerl~fi.~catlon Listing .~chlumberqer AlasKa Computlr}~ Center **** TAPE HCA. OMA **** SMRV!CE NA~'~iR ~ MDT1~ DAT~ ~ g4/3P/ 6 ORIGIN : WLIC TAP~ NAME : 94035 PREVIOUS TAPE : COM~{ENT : ~NOC~L,MCARTHU~ RIVER, T,B.U K-26 "HUEVOS",50-733-~O097-03 PAGE{ **** FIbM ~qEA, DMR **** FILM MA~C : EDIT .001 SERVICE VERSION ~ 001A07 DATE : 94/0~t 6 M~X REC FIbM TYPE : ******************************************************************************* ******************************************************************************* ** ** $C~bUMBERGER ~MbL SERVICES ** ** ******************************************************************************* ******************************************************************************* cni~iPAN Y N Ai, iE: UNOCAL MmLL: iINOCAL T.6.U K-26 "HUEVOS" FIELD: MC~RTH{IR RIVER BORr~LJGH: K~N~%I STATE: ALASKA Ami NU;qBK~: 50-7.~3-20097-03 LOCATION: SURF bOCATION LEG #4 SLOT {25 SECTi[)N: 17 TOWNSHIP: ON RANGE: bOG ~MAS~]RED FRr}~i ~<B 100' ABOV~ PERMANENT DATUM LIS Tape '$er:ificati, on [,ist~.nrl Schlumberger AlasKa ComptltiD.~ Center 6-FEB-1994 08:~9 PAGE1 EI,EV~TIONS KB: DF: 99' RUN ~g!tMBER: 3 DaTF LOGGED: 21-jAN-94 TD DRIbLEP: 109B4' TD LOGGER~ !.0065' C~SING 2: 13 3/8" ~ ORILLER DEPTH OF O' TO 2038' 9 5/8" @ DRILLER DEPTH OF O' TO 9359' BIT SIZE BIT SIZ~ 2: 12.25" TYPE FL~!ID IN HOLE: POLY PLUS G DEMSTTY: 9.9 VISCOSITY: 51 PM: 10.5 FhHID LOSS: 5 ~0 RESISTIVITY: FILTRA'FE RESISTIVITY: g[~D C~KE ~ESIST!VITY: 1,27 2 64 DEGF 1,34 ~ 64 DEGF TT~E CIRCULATION E~DED: 10:30 21-JAN-g4 ggXIN!lg TE~P RECBROED~ 163 OEGF 5nGGING DISTRICT: bOGGInG ENGINEER: WITNESS: T!~ DaTE LOGGED: Tm DRTbbCm: ~.0629' 106 :t ~ ' C~SING 1: C~S!~'~ 2: 13 3/8" M DRIL, LER DEPTH OF O' TO 2038' 9 5/..q" 0 DRILLER DEPTH 0~' O' TO 9359' B?T SIZE 1.: 17.5" BIT SIZE 2: 12.25" TYP~. ~'bUID IN MOLE: PObY P!,!~S G DENS!IY: q.9 glSCOSIT¥: 52 P~t: I0.1 FLUID LOSS: 5 MUD RESISTIVITY~ FILTRATE ~ESIST!VITY: ~!~[, CAK~ RESISTIVITY: 2.17 ~ 82 DEGF 2,32 a 82 DEG? 2.0~ ~ 82 bEG? TIME CIRC~ILATIOW ENDED: 00:30 17-JAM'94 M~XIi41~ TMMP PECO~OMO: 164 DEGF LOGGI~G DISTRICT: ~TTNESS: KFN~I TIM S~ITH LIS Tape V~rtflcation Listing Schlumberger AlasKa Computing Center 6-FEB-~gg4 0~:~9 PAGE{ TD DRI~[~ER: g366' TD LOGGER: 0355' CASIigC ~: ~33/8''' 7~ L.B ia ~)RILLER DEPTM OF 0' TO 2938' BIT SIZE 1~: ~7.5" TYPE PLUID Ii~ }{OLE: PObY PLUS G DE~]SITV: 9.7 VISCOSITY: 57 P~$ 9.4 ,,Wi~!.]IO ~..OSS: 5 MUD RESISTIVITy: FILTRATE RESISTIVITY: MUD CAKE RESISTIVI~Y: 2,gl ~ 70 DEGF 2,49 9 60 DEGF 2,12 g 60 DEGF TIME CIRC!JbAT!ON E{~DED: 19:00 5-jAN-g4 ~XIMUM TEMP RECORDED: 144 DEGF LOGGING DISTRICt: LOGGING ENGI~MER: WITMESS: KENAI 'rim SMITH M~.KILOH DATE JOB STARTED: l-WEB-g4 jOB REFERENCE NO: 94035 LDP/ANA~ R. KRUWELL UNOCAL MCARTNUR RIVER U~;O~AL,,. T.B.~{! K-267 "wUEVO$" 5n-733-20097-03 "gERGE Of' ~AI~! P~$$ LOG DATA PRO~ R';NS 1, 2, A~JD 3" OAT~ SA~P[~ED EVERY -.5000 FEET TYP~ !ISED NAME PNASOR DUAL INQUCTION SFb BOI{EHOL~ COaPENSATED SONIC LIS Tame Verification bistloo Schlumberger alaska Comp~ting Center 6-FEB-J994 08:19 PAGE: * LDT ,LOT ~ITNt30ENSITY * CNT-A/D/H ,CUb COMPENSATED NEUTRON Ta8[.E TYP~ : CONS VALU DEFI UNOCAL Company Name ~CARTHUR RIVER Field Name UNOCAL T,~ U K-26 "HUEVOS" Well Name 50-733-~0~7-03 API Serial Number SURF LOCATION 5EG ~4 SLOT #25 Field Location Section FM APIN FL S~C? TOWN 9N R~N~ 13W 6,;q, COUN KEN&I STAT ALASKA NATT USA WIT~ MR KILOH POAT MSb EPD WT 0 APD FT i00. E~B ~T 100. EGL ~T 9 TDD WT 10984. TDn WT 10965. BLI FT 10958. T[,I FT 2938. DFT POLY PSU$ DFD G/C3 9 9 D~¥ S 5~. DFL F3 5o R~S OH~i 1.2~ MST DECF 8~ R~FS nHM~..~ I ~7 M~S· P~ 6~ R~CS OH.~ 1 ~4 TC$ Township Range County State or Province Nation Witness Name Service order Number Permanent datu~ Elevat on of Permanen~ Datum Log .easured From Above Permanent Datum Elevation of Kell~ Bushing Elevat on of Derr cK Floor Elevat On of Ground Level Total Depth - Driller Total Depth - Logger Bottom Log Interval Loq Interval T°~ll FlUid Type Drill ~g' Drlili~Fluid Fluid phDensit~  Fluid Viscosity DrnOrllli Fluid boss ~ud Sample Temperature Resistivity of ~ud Filtrate Mud Filtrate SamPle Temperatu Resistivity of Mud CaKe Sampl 04. Mud Cake Sample Temperature 10:30 2t-JAN-94 Time Circulation Stopped B~IT DEGF 163. .B.O:.,tO.~. Hole Temperature sblS Tame Verlfication LlstJ. n~ chlumberqer Alaska Computln. Center 6-FEB-1994 08:19 DET~ P Depth CIDP !NDUCTIDN D~]EP PHASOR CONDUCTIVITY IDPM CTMP IMP~ IFR~ IIRD IIR~ GR T~NS MTEP HTE~! DT TI1 TI2 TT4 GR MTE~ M~ES HTEM DPH! RMO~ DRHO PEF LU $81 LSHV SSHV hSR~ bUR~ Phasor Deed ResistJ~v,it~ I~IDLtCTIOM gEDIU~ P~ASO COMDUCTIVITY Phasor Medium ~esisttv~t¥ Conductivity Ib Deep Standard Processed Deep Induction Standard Processed Resistivity Condt]ctivit¥ IL ~edium Standard Processed ~edium Indt~ctioF] Standard Processed Resistivity Induction Calibrated Frequency Induction nee~ Quallt~ Factor Induction ~ed ~.)m Qual ~y Factor Deep Induction Real In[ermediate Conductivity Dee~ Indt~ctlon guad Intermediate Conduct]~vitv ~edi~ Induction Real. Intermediate Conduct!~ ~editlm Induction Ouad Intermediate Conductivity SFL Resistlvitv Unaveraged Spontaneous Pofentlal API-Corrected Gam~a Ray Surface Tension ~od Temperg~ure ~OD Reslstl~ItV Head Tension Delta-T compress~onal TRANSIT TI~E 1 TRANSIT TIME 2 TRANSIT TI~E 3 TRANSIT TIME q APT-Corrected Gam~a Ray Surface Tens~o~ Mud Temperature ~UD Resistivity Head Tension Density Porosity Bul~ Density melta R~O P~otoelectric Factor ~ualJtv control of long spacing for LOT Oualit¥ control on short spacin~ ~or bDT I, ong Spacing Computed Cot]nt Rate Long Upper i-2 window Count Rate (LUI+LU2) Long bo~er w~ndow Count Rate Litholog ~lndow Count ~ate Short Spacing ! window Count Rate Snort Spacing ? ~indow Count Rate I, onq Spacing itiqh Voltage S~ort Spacing ~ti~h Voltage Short $~aclnq ! Density f,ong Ssacin~ b,]lk Density Long Upper Sulk Density Caliper PAGE{ [,IS Tape Verlf~.cation LlstinQ Schlumberger AlasKa CompuEJnQ Center 6-FEB-1994 08:19 DEF! G~ AP!-Corrected Gam~a Ray T~NS Surface MTE~ ~u~ Temyerature M~ES ~U~ ~es stlvtty HTEN ~ea~ Tension NPHI Compensated ~eutron Porosity, SS Matrix, cal!& dead time corr, RTNR Raw Thermal Neutron Ratio T~P~{ T~ermal Meutron Porosity T~R~ Thermal Neutron Ratio Calibrated NPO~ ~eutron Porosity from an Application Proqra~ RCNT RAW ~EAR CaT COUNTS RCFT RAw FAR CNT COUNTS CMTC Corrected Meat Detector Count Rate CFTC Corrected Far Detector Count Rate GR ~PI-Corrected ~a~ma Ray T~NS Surface Tension aRES MUD Reslst~.vl~w MTE~ ~ud Temperature HTEM ~{ead Tension G~ API-Corrected Gamma Ray PAGE= ** DAT~ F~R~AT SPECIFICATION RECORD ** ** SET TYPE TYPE REPR CODE VALUE I 66 0 2 6~ 0 3 73 284 4 66 !. 5 66 6 73 7 65 8 68 0,5 9 65 FT 11 66 3 i~ 68 13 66 0 14 65 FT 15 65 68 16 66 I 0 66 0 mmm#~mmmmmm~mmmm~mmmmmmmmmmmm LIS Tape verification Listin~ Schlumberger AlasKa Computing Center 6-FfB-Igg4 08:19 PAGE: ** SET TYPE - CHAN N~MM SERV UNIT SERVICEAPI APl AP1 APl FILE NUMB NUN SIZE E ID ORDER ~ bOG TYPE CbASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 62g~05 O0 000 00 0 1 1 ! 4 68 0000000000 CIDP DTE gMHO 629405 O0 OOO O0 0 1 1 1 4 68 IDPN DTE OHMg 629405 O0 000 O0 0 I 1 t 4 68 CIMP DTE M~HO 629405 O0 000 O0 0 1 I 1 4 68 I~P~ DT~ OHM~ 6294o5 O0 000 O0 0 1 ~ i 4 68 CILD DT~ ~MH{] 62~05 O0 000 O0 0 I 1 1 4 68 ILD DTE OHN~ 629q05 O0 000 O0 0 i 1 1 4 68 Clb~ DTE ~HO 629405 O0 000 O0 0 1 1 !. 4 68 IbM DTE OHN~ 629405 O0 000 O0 0 I 1 ! 4 68 IFR~ DTE HZ 629405 O0 000 O0 0 I 1 1 4 68 IDQF DTE 629405 O0 000 O0 0 1 ! ~ 4 68 I~QF DTM 620~05 00 000 00 0 I I 1 4 68 IIRD DTF M~ao 620405 oo 000 oo 0 1 1 ! 4 68 IIXD DTE g~MO 629~05 O0 000 O0 0 1 1 I 4 ~8 IIR~ DTE MMHO 629405 O0 000 O0 0 1 1 1 4 68 I!X~ DTE M~HO 620405 O0 000 O0 0 1 1 I 4 68 SFLI.! DTE OHM~ 629405 O0 000 O0 0 1 I l 4 68 SP DT~ ~v 629405 O0 000 O0 O. I I 1 4 68 G~ DTE GAPI 620405 O0 000 O0 0 1 I I 4 68 TENS DTE LB 629405 O0 000. O0 0 1 1 I 4 68 MTEU DTE DEGF 629405 O0 000 O0 0 1 1 1 4 68 MRES DTE OHMM 629~05 O0 000 O0 0 I 1 1 4 68 HTE~ DTE bB 629405 O0 000 O0 0 1 ! 1 4 68 DT 8HC U$/F 629405 O0 000 O0 0 1 1 1 4 68 TTi BHC OS 629405 O0 000 O0 0 1 I 1 4 68 TT2 BHC US 629405 O0 000 O0 0 i I 1 4 68 TT3 BHC US 629405 O0 000 O0 0 I 1 1 4 68 TT4 BHC US 629905 O0 000 O0 0 1 1 1 4 68 GR BHC GAPI 629~05 O0 000 OO 0 1 ! 1 4 68 T~NS BEC LB 629~05 00 000 00 0 1 1 I 4 68 MTE~ BMC DEGF 629405 O0 000 O0 0 I 1 1 4 68 MRES BHC OHMM 629405 O0 000 O0 0 I I 1 4 '68 HTE~ BHC LB 620405 O0 000 00 0 I 1 ! 4 68 DPHI LOT P!J 620~o5 O0 O00 O0 0 1 1 1 4 68 RH0~ LOT G/C3 629405 00 000 00 0 1 1 I 4 68 DRam h~? G/C3 629405 00 00o 00 0 1 1 1 4 68 PEF bDT 629405 O0 o00 OO 0 1 I 1 4 68 OL$ bDT 629405 O0 mO0 O0 0 I 1 I 4 68 OSS LOT 629405 O0 000 O0 0 1 I 1 4 68 LS LD? CPS 629~05 O0 000 O0 0 I 1 1 4 68 LU bDT CPS 620405 O0 o00 O0 0 I 1 1 4 68 LL LDT CPS 620405 O0 000 O0 0 1 1 1 4 68 bIT~ bDT CPS 629~05 O0 OOO O0 0 1 1 I 4 68 SSI LDT CPS 629405 O0 000 O0 0 1 1 I 4 68 $S2 LOT CPS 62~405 O0 000 O0 0 1 1 1 4 68 ~SHV LOT V 62~405 00 o00 00 0 1 1 1 4 68 SSHW LD$ V 620~05 O0 000 O0 0 1 1 1 4 68 S1R{.~ LDT G/C] 62o~n5 O0 o00 om 0 1 1 1 4 68 LSR~ /,DT G/C3 620405 O0 000 O0 0 1 I 1 4 68 LUR~ LDT G/C3 629q05 00 000 O0 O 1 1 1 4 68 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000~000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 bis Tape VerlfJ, catJon Listing Schlumberger AlasKa Computind Center 6-FEB-t994 08:19 PAGE{ '''''''''CALT LOT .... GR LOT GAPI 629 TENS LOT bB 629405 O0 000 MTE~ LOT DEGF 629405 O0 000 M~ES LOT OHa~ 629405 O0 000 HTEN LDT bB 629405 O0 000 NPH! CNL PU 629405 O0 OOO RTN~ CML 6294a5 O0 000 TMPN CML pi! 629405 O0 000 TMRA CNL 629405 00 000 NPOR CNL PI! 629405 00 000 RCNT CNL CPS 629405 00 000 RCFT CNL CPS 629405 00 000 CMTC CNL CPS 62~405 O0 000 CFTC CML CPS 629405 00 000 G~ CNL GAP! 629~05 00 000 TENS CNL ~B 629405 O0 000 EWES CNL OHa~ 629~05 O0 000 MTE~ CNL DEGF 620405 O0 000 HTEN CNL LB 629405 O0 000 G~ CS~ GAPI 62~405 O0 000 !C~ APl AP! APl APl FILE U~ N ~S. SIZE REPR. PROCESS ER ~ bOG TYPE CLASS ~OD NUmB SA~P ELEA CODE (HEX) ... ...... ......................,.,...,.........................,,. 4o5 O0 000 O0 0 I 4 68 00000000 ~05 OO 000 O0 0 1 1. ~ 4 68 0000000000 O0 0 1 t I 4 68 0000000000 O0 0 I 1 1 4 68 0000000000 O0 0 1 1 ~ 4 68 0000000000 O0 0 1 1 1 4 68 0000000000 O0 0 1 1 I 4 68 0000000000 O0 0 1 ~ 1 4 68 0000000000 OO 0 1 1 1 4 68 0000000000 O0 0 1 I 'I 4 68 0000000000 O0 0 1 I 1 4 68 0000000000 O0 O 1 I I 4 68 0000000000 O0 0 1 t 1 4 68 0000000000 00 0 1 1 1 4 68 0000000000 O0 0 I 1 1 4 68 0000000000 O0 0 1 I 1 4 68 0000000000 O0 0 1 1 1 4 68 0000000000 00 0 i 1 1 4 68 0000000000 O0 0 1 ~ ! 4 68 0000000000 O0 0 1 1 1 4 68 0000000000 O0 0 1 I 1 4 68 0000000000 DATA ** DEPT. 10964,000 CIDP.DTE I~PM,DTE -999.250 CILD,DTE ILu DTE -999,250 IFRE,DTE IIRD~DT~ -999.25~ IIXD,DT~ SFLU.DTE -999.250 SP.DTE MTE~.DT~ -999.25o MRE$,DTE TT1.BMC -999.250 TT2,BHC G~,RHC -999,256 TENS,BEC HTEN.BHC -999.25p DPHI.LDT PEF.LDT 4,75~ QL$.DDT L!!.LDT 305.75{; Lb.bDT MS?.LDT 3~1,250 LSHV.~DT LSRW.I,D? 2.449 LURH.LOT TENS,LOT 6305.000 MTEM.LDT NPHI.CNL -999.25(~ RTNR,CN[, NPOP.CNI, -999,250 gCNT.CNL CFTC.CNL -999.25(~ GR.CNL ~TE~.CNL 166.663 DFpT. lng00.oOt~ CIDP.DTE I~PM.DTF 24.50~ CILO.DTE Ib~,DTF 23,344 .IFRE.OTE I]RD,DTE 33.406 IiXD.DT5 SFLIJ.DT~ 39.3!.3 SP.DTE -999.250 IDPH,DTE -999,250 -999,250 ILD.DTE -999,250 ClL~.DTE -999.250 7DQF.DTE -999.~50 I~QF.DTE -999.250 IIP[~,DTE -999.~50 IIX~.DTE -999,250 GR, DTE -999 ~50 TENS,DTE 999 250 HTEN D..E 999~250 DT,BHC -999,250 TT3.BHC -999.250 TT4.BHC -999.~50 ~TEM,BHC -999.250 MRES,BHC 13.48~ RHOB b~..C 428 DRHO.I, DT 157 750 LITH.~tL~ 6~:438 SSI.LDT 1261~000 SSHV.h6~' 129 000 S1RH.LDT ,. bDT -99 250 GR.LDT 166.6~3 ~RES.LDT 0~95 HTEN,[,DT -999.250 TNPH,CNb -999.~50 TNRA,CN5 -999.250 RCFT,C~b -999.250 CNTC.CNL -999.250 TENS,Cg~ 6305.000 MRES.CNL 628,500 GR. CSG -999. 250 3] ~o~, :DPH.DT{: 2~.922 CIMP.DTE 362656 II, D.DTE 2..250 CIb~.D1E 1.442 IIR~.DT~ 40.688 IIX~.DZE -61.813 GR.DTE 40,875 TENS.DTE 0,4~. HTE~.DTC 795,000 DT.BHC -999,.250 -999.250 -999 250 -999 250 -999 250 -gg9 250 50 -999 ~50 -999 0 002 ~0 ?5O 240 000 2 441 '999 250 628 ~00 -999 50 -999 250 0 495 40,625 42.813 0,000 '8,125 6620.000 64.900 LIS Tape Verification Listlnq Schlumberger AlasKa Computing Center T~.gMC q30.400 TT2,BHC ,BHC 40.875 TEN$.BtlC HTEN,BHC 795.000 DPHI.bDT DEW.LDT 3,137 QLS.LD¥ LIJ.LDT 284,000 LL,i~DT $S~,LDT 316,000 LSHV.LDT LSRH.LDT 2.500 LURH.I,DT TENS.!,DT 6480.000 ~TEM.h[)T NPH!.CNL 10.345 RTNR.CNh NPO~.CNL !!.567 RCNT.CNL CFTC CNL 438i,003 Ga.C~b ~TE~CNI,, 166.775 HTEN.CNL DEPT. 10800.000 CIDP,DTE I~P~.DT~ 41,594 CiLDoDTE IL~.DTE 33,~44 IFRE.DTE IIRD.DTE ~.469 IIXD.DTE SFLU.DTE 46,469 SP.D~E MTE~,DTE 163.5t3 ~RES,DTE TT~.BHC 440.400 TT2.BMC GR.BH¢ 42,563 TE~$.BHC HTE~.BHC 804.000 DPHi.LDT PEF.LDT 3.26~ OLS, LDT LI.! LDT 264.25(, LB,LDT $$9'LDT. 304.5~'00' LSHV.LDT LSR~.LDT 2.541 LURH.t, DT TENS,LDT 6205.000 ~TE~.LDT NPHI.CN5 1.1,643 RT~R,CNL NPO~,CNL 11.618 RCNT,CNi, CFTC,CNb 4051,045 GR.CNb ~TE~,CNL 166.775 HTEN.CML DEPT 10700.000 CIDP.DTE I~P~:DTg '39.6~6 CILD.DTE Tb~.DTE 36.1~ IFRE.DTE IIRD.DT~ ~3.656 IIXD.DWE SFLU.DTE 47.000 SP.DTE MTE~.DTE 163.400 MRES. DTE TTI.BHC q23.20~ TT2.BHC G~.BH¢ ~3,250 TENS.BUC HTEN.BHC 819.5o0 BPHI.LDT PEF.LDT 3.639 i~LS,LDT LU.LDT 257.750 LL.LDT S$~.LDT 302.750 LSHV.LDT LSR~.LDT 2.559 LURH.LDT T~N$.LDT 6280.00~ ~TEM.LDT NPHI.CNL 7.592 RTNR.CNL NDOD.CNL 8.546 RCNT.CNI, CFTC.CNL 4828.766 GR.CNb MTEu.CNL i66.3~5 HTEN.CNL DEPT. 10600.000 CIDP.DTE I~P~.OTE ~5.3gl CIBa.b~g ILU.DTE ~4,531 IFRE.DT~; IIRn.DTE 31,375 !IXO.DTE 6-FEB-1994 08119 299,600 TT3.BHC 6620.0~0 ~TEM,BNC 6.a71 RHOB,LDT '0.025 OSS,hDT 149.000 LITH,LDT 1261.000 $$~V.L~T 2.496 CA[,I.LD? 166,775 ~RES,LDT t.543 TNPH.~.Np 6~3~.131 RCFT~ 50.156 TE~$.CNb 67~ 000 20.406 IDPH,DTE 23,047 ILD.DTE 20,000 IDOF.OTE 3,2'79 IIRN,DTE '43.906 GR,OTE 0.4~9 HTEN,DTE 306,000 TT3..O~C 6500.000 ~TE~BHC 5.713 RHOB,hDT . 130.0~t OSS,DDT 5.8 5 ~ITH,LDT 126~,000 SSH~,~DT 2,543 CALI.b~T 1.632 TNPM,CNb 6004,624 RCFT,CNL 40,7i9 TEN$.CNb 700.500 GR.CSG 24 656 IDPH.DTE 26:047 ILD.DTE 20,000 IDOF.DTE 2,689 IIRM,DT~ '32.938 GR'DTE 0,464 HTEN,DTE ~94,800 TT3,BMC 6335.000 MTE~.B~C 4,q73 RHOBebDT '0.021 QSS,LDT 133.625 5ITH.bDT 1262.000 SSHV,bDT ~.55g CALI,L '~ 166.325 MRES,LDT t.37~ TNPH.CNL 6687.~t~ RCFT.CNb 40.9~9 TENS.CNb 737.500 ~R.CSG 33.409 IDPH.DTE 34.~t3 ILD,DTE 20.000 IDOF,DTE 1.358 IIRM.DTE 431 600 1631400 2 537 0 047 85 125 1298 000 8 773 0 488 40 ,557 6480.000 -999,250 48,969 43,375 0.000 28,078 42,563 804,000 438 800 t63 513 2 556 0 034 63 469 1298 000 8 852 0,460 11,670 3869.842 ~205.000 999,250 40 531 38:34't :ooo 2 ~81 81 .500 42 200 163.400 2,568 0.019 69 375 98 9.311 4513.360 6280.000 -999.~50 29.859 28.70] 0.000 38.719 TT4 BHC MRE$:BHC DRHO,LDT ~S,5DT S$1,LDT $1RM,LDT GR.LDT HTEN.LDT TNRA.CNL CNTC.CN~ ~RES.CNL CIMP.DTE CILM.DTE IMaF,DTE IIX~.DTE TENS.DTE DT,BHC TT4.BHC MRES,BHC DRHO,LDT hS LDT S$1~LDT SIRH,LDT GR,LDT HTEN,LDT TNRA.CNL CNTC.CN5 MRE$.CNL CIMP.DTE CILM.DTE IIXM,DTE TENS.DTE DT.BHC TT4.BHC MRES.BHC DRHO.LDT LS,LDT SSI.LDT $1RH.LDT GR,[,DT HTEN,I, DT TNRA.CNL CNTC.CNL MRES.CNL CIMP.DTE CIL~.DTE I~OF,DTE IIXM.DTE PAGE: 303.100 O, 81 000 50'~00 672, 6290, 0.4~8 2,4016 29 516 0 000 ,-1~ 070 650 000 65' 300 305600 0 469 00lO ,719 700,500 ,544 ,460 25 203 27 625 0 000 -12 227 6335 000 58 800 298 800 0 464 0,004 262,500 233,125 2,543 40,969 737,500 1.319 6404,843 0,452 39,344 40,750 0,000 '8,313 LIS Tame Verification T~istJnq SChlumberger Alaska Computinq Center SFLU.DT~ 27.766 SP.DT~: MTEU.DTE 163.4oQ MRES.DTE TTJ.BHC 458.800 TT2.SHC GP.BHC 45.71~ HTEN.SHC 825.000 DPHI.LDT PEF.LDT 2'924 O~S.LDT Lt.l. LO? 28i .500 LL LOT SS~.L[)T 3~.7. 000 LSHV.LDT 4SRW.LDT 2.4~4 LURH.4DT TENS.LOT 6195.0o0 MTEM.LDT NPHI.CNL 12.5~$ ~T~R.CNb NPOR.CNL 14.195 ~CNT.CN4 CFTC.CML 3157.023 ~R.CNL MTE~.CNL 165.875 HTEN.CNL DEPT. 10500.0o0 CIDP.DT5 ~ DTE 36.i56 I~:DTE 35.344 IFRE.DT5 IIRD.~T~ 23.3~3 IIXD.DTE SFLU.DT~ 35.875 SP.DTE MTE~.DT~ 164.525 ~RES.DTE TT~.BHC 4~7.200 TT2.BRC GR.BHC ~1.375 HTEN.BHC 1348.000 DPHI.LDT PEP.LOT 3.111 OLS. LDT LU.LDT 263.750 LL.LDT SS~.LDT 322.750 LSH¥.LDT LSR~.LDT 2.545 T~NS LOT 6945.000 ~TEM.LDT NPHI:CNL 9.b69 RTNRoCNb NPO~.CNL 10.653 RCNT.CNL CFTC.CNL 4612.046 GR.C~L ~TE~.CNL 164.525 HTEN.CNL DEPT 10400. ~00' CIDP. nT~ I~P~:DT~ ~3.563 CILD.DTE I4~.DTE 23.~84 IFRE.DTE IIRD.DT~ 30.109 IIXD.~TE SFLU.DTE 22.186 SP.DTE MTE~.DTE 16g.b]8 ~RE$.DTE TT~.BHC 45!.600 TT2.BHC GP.BHC 50.969 TEN$.BHC HTE~.BHC 1366.090 DPHI.~DT PEW.LOT 5.2]8 LU.LDT 335.000 I~b. LDT SS?.LOT 324.090 LSHV.LDT LSRH.LDT 2.3g3 LUSH.LOT TENS.LOT 7105.00C MTEM.LDT NPHT.C~I. 1t.~62 RTNR.CNb ~PO~.C~L 13.30~ ~CMT.CML CFTC.CwL 31~6.996 GR.CNb MTE".CNL 164.63b MTEN.CML 6-FEB-~994 08:19 '125 0 319 b290 0 153 1262 2 165 I 5390 46 725 . 188 GR.OTE .464 HTEN.OTE .600 TT3.SHC .~3q RHOO,GDT .004 QSS.bDT .500 LITM.LDT .000 SSHV.hDT .5~2 CALI.LDT ,875 MRES.bDT . 827 TNPH.CNb .715 R. CFI'.CML' ' .094 TENS.CML .500 GR,CSG 24.172 25.453 20.000 '114.500 0.573 30~.400 6945.000 -0.018 137.750 1260,000 2.545 164.525 1 454 38.6~8 32 -123. O. 3~6. 7195. 14. mO. 182. 1261. 2. 1~4. 1 5270: 50. 1366, 406 23O 000 393 625 501 000 000 63O 016 375 000 ] 96 638 67O 969 0 O0 IDPH,OTE ILO,OTC ID~F~OTE IIRM.DTE GR.DTE HTEN,DTE TT3 B C MTEM.BMC RHOM.L~T QSS.LDT LITH.50T SSMV.LDT CALI~hDT MRES,LDY TNPH.CNL RCFT.CMb TEM$.CND GR.CSG IDPH.OTE ILO,OTC IDQF,DTE IIRM,DTE HTEN,DTE TT3.BNC MTEM,SMC RHOB.LDT OS$.LDT LITH,LDT SSHV.LDT CALl.bDT MRE6.LDT TNPM.CNb RCFT.CML GR.CSG 45.719 TENS DTE 825.000 DT:BHC 46t.600 TT4.BHC 163.400 MRES.BHC 2.516 DRHO.LDT 0.0]~ bS.LDT 88.56] SSI bDT 1298.000 $!RH:LDT ~:.859 GR.LDT 450 ~TE~.LOT 14.250 TNRA.CNb 2950,599 CNTC.CNL ~195.000 MRES.CN5 999.250 41.:344 CIMP.DTE 39.250 CIbM.DTE .0.000 IMQF.DTE 26.89I IIXM.DTE 41.375 TENS.OTC 1348 000 DT.BHC 434 800 TT4.BHC 164 525 MRES.BHC 2 615 DRHO.LDT 0 040 LS.LDT 75 375 $$1,LDT 1297.000 $1RH.LDT 8.539 GR.LDT 0.573 HTEN LDT 10.~24 TNRA:CNL 212.605 CNTC.CNL 945.000 MRES.CNL 999.~50 3~,~I] CIMP.DTE 3 . CIbM .DTE IIX~,DTE D? BH~ 1~:600 TT4:BMC 2.409 DRHO.LDT  , $S1.LDT 12 7.000 S1RH.LDT 10.516 GR.LDT 0.561 HTEN,LDT 13.505 TNRA.CNL 2895.19~ CNTC.CNL 7195.000 MRE$.CNL -999.250 PAGE: 6290,000 70,000 319,600 0,464 0,015 294,250 245,250 2 436 46 09:4 725 500 I 685 5347 488 0 450 27,656 28,266 . :ooo 6945' 573 0066 269,750 256 500 3~396 1348 000 628~ 387 983 0 573 -4 6 3 7195 0~0 66 000 318000 0 561 0 017 35O000 254375 2 320 50 969 1366 000 519~ 642 547 0 561 10 Tame Verlficatlon Listino ~chlumberger AlasKa Computln0 Center DEPT. 10300.0o{.; CiDP DTE 17 IMP,.DTF 35.9i)b ClLo~orE 18 Ib~.~TE 34.2~9 IFRE.DTE 20 IIRD.DTE ~7.25~ IIXD.DTE 2 SWLU. DTg 47.5fi0 SP. DTE -142 MTEU.DTE 163,738 ~RMS.DTE 0 TT~ .BHC 513.200 TT2. gMC 320 G~. SHC ~7. b63 T~NS. BNC 7005 HTE~]. B~{C ~403.00Q DPMI.LOT 6 LU.LDT 2o0. O00 L~{~. LOT ~ 52 SS2.LDT 324.00(~ LSHV.bDT 1261 LSRW.LDT 2.48~ LURH,L~T 2 TENS.LDT 7005.00U ~TEM, bDT i63 NPHT.C~L 9.831 RTNR.CNL . ...~ L ~.1.580 RCNT. C~.~b 5628 CFTC.C~L 4052,827 GR.CNL 37 MTE~. C.NL 163.738 N~EN.C~L DEPT. 10200-009 CIDP.DTE I pu. [E 44.4~8 CILD DTE · .L~.DTF 42.400 IFRE.DTE IIRD.DTE ~3.734 IIXD.DTE $~L~.D~E 57.750 SP.DTE MTE~.DT~ 162.8)7 ~RES,OTE TTI.BHC 4~.000 TT2.BHC G~.BMC 49.~75 TEN$.BNC HTEN.BMC ~428.000 DPHI,LDT PEF.LDT 4.465 ~L$.LDT L!~.LOT 295.250 LL.LDT SS~.LDT 325.750 LSHV.L~T LSR~! LDT 2.459 LURH.LDT TENS'bDT 7045.909 STEM.bDT NPH!:CNL 13.141 RTNR.CNh NPO~.CNL 1~.077 RCNT.C~L CFTC.CML 3168.~5b GR.CNL MTE~.CNL 162.837 HTEs.C~ DFPT. 10100.~00 CIDP.DTE I~PW.DTR ~5.078 CILD.DTE Ibv. DTM 15.781 IFRE,DTE IIRD.DTF 42.313 IIXD,DTE SFLU.DTE 20.297 SP.DTE TT1.B~C 481.200 TT2,BHC GP.BHC 88.750 TEN$.BHC HTE~.~MC ~399.000 DPHI.LDT PEF.LDT 5.6~4 LU.LD? 262.0OU $S?.LQT 309.75(~ LSWV.LDT LSR~.LQT 2.549 LURH.LDT TENK.LOT 6770.000 ~TE~,LDT NDHT.C~L 29.~5b NPO~.C~. ~3.250 RCNT.C~b CFTc.CS[, 959.4~1 GR.CNL 6-FEB-1994 08:1.9 .875 IDPH.DTE .81~ ILQ.DTE , DTE .000 IDOF,D~~ .566 IIR~. .625 GR,DT~ .558 HTEN,DTE .800 TT3.BHC .000 ~TE~,SHC .330 RHOB,bDT .022 QSS,~DT .875 LITH,LDT 000 SSHV,LDT ~484 CALI*LDT .738 MRE$.LDT .599 TNPH,CNL ,870 RCFT'CNL ,563 TENS~CNh ,000 GR,CSG 14.~41 15.070 20.000 '1,387 -137.000 0.558 314.800 7o4 :ooo !54 -0.017 157.500 1261.000 2.473 ~6~.837 5122 383 49:875 1428.000 49 20. 1. -!07. O. 342. 6770. 3. 133. 1261. 162. 3. 2834. 88. 219 75O 000 528 438 558 O00 000 842 034 625 000 549 750 IDPH,DTE IbD,DTE IDOF,DTE IIR~'DTE GR,DTE HTEN'DTE TT3.BHC ~TEM,BNC RHOB,bDT QSS,LDT LITH,LDT SSHV.bDT CALl,bDT MRES'bDT TNPH.CNL RCFT,CNb TENS,CML GR,CSG IDPH. ILO, IDQF. IIRM, HTEN. TT3, RHOB, Q$$. bITH, SSHV. CALI. ~RES. TNPH. RCFT. TENS. DTg DTE DTg DTE DTE DTE BHC b D T bDT bDT bDT bDT bDT CHh CNh 5 25 0 O0 27.781 37,563 1403.~00 460 800 163:7~8 2.546 0.047 88.4~8 1297,O00 9.70~ 0.558 10,692 3788.304 !005.000 999,~50 70-688 66.313 0.000 22.422 49 875 1428!0O0 452 400 162,837 2~515 0.055 60.;469 i~97'.000 9.367 0.558 13.688 2855,445 7045.000 -999,~50 20.297 20.500 0.000 60,125 88.750 1389.000 478.400 162.163 2.587 0.039 60 281 1297:000 10.188 0.558 32.959 907.578 6770.000 CIMP DTE CIbM:DTE IMQF,DTE IIXM.DTE TENS.DTE DT.BHC TT4.BHC MRES,BHC DRHO,LDT bS,LDT 8SI,L, DT $1RH,LDT GR.LDT HTEN.LDT CNTC NL MRES.~NL CIMP.DTE CIbM.DTE IMOF.DTE IIXM.DTE TEN$.DTE DT.BHC TT4,BHC MRES.BHC DRHO.LDT LS LDT SSI:bDT SIRH LDT HTEN.LDT TNRA.CNL C~TC.CNL MRES.CNL CIMP.DTE CXb~.DTE IMQF.DTE IIX~.DTE TENS.DTE DT.BHC TT4.BHC MRES.BHC DRHO.LDT kS,bDT SSI.bDT SIRH,{.DT GR.LDT HTEN.LDT TNRA.CNL CNTC.CNL MRES.CNL 27,8~8 29,2 3 0,000 '6 516 7005.000 68800 321 600 0 558 0 051 298 000 256 750 2 .365 37 563 1403 000 1 493 5823 894 0,558 22,484 23,5 3 .0,0~0 8,828 7045,000 64'100 3t4,800 0,558 0,051 305~250 259;000 2'336 49,875 1428,000 !,,686 5173,970 0,558 66,313 63,344 ,000 -~,992 6770,000 68,900 339,200 0,558 0.029 264,750 245,250 2,465 88,750 1389,000 2 68 2838:~44 0,558 11 IS Tape Verification List~r~ chlumberger AlasKa Co~putin Center MTEu.CNL i62.163 HTEN.CNb DEPT. 10(;0o.00(> CiDP.OTE IMP~ DTF 18 OO© CILD DTE lh~" ' ' IIRD:DT~ 17,1~ !F~E.DTE D'rE 66~313 IIXD.DTE SFL!~.DT~ 48.938 SP.DTE MTE~.D:rE 161,150 ~RE$.DTE TT~.B~C 463,600 TT2.BHC G~.BdC 42.688 HT~.BHC ~92.000 DPHI'LDT PE~.LDT 3.303 ~LS.LDT LU.LOT 284o75t~ 1.5.LDT SS?.LDT 317.500 LSHV,LDT 5SR~ GDT 2.496 LURH,LDT TENS'LOT 65]0 000 MTFM LOT · . NDHI.CNL ]2.107 RT~R.CNL NPO~,CNL ~2.903 RCNT.CNL CFTC.C~L 3881.7~1 GR.CML MTE~.CNL 161.150 HTEN.CNb DFPT 9900.000 CIDP,DTE I~PH[DTE I7.422 CILD~DT~ IL~.DTE 15,477 IF~E,DTE IIRD.DTE 6].3t3 IIXO,DTE SFL{!.DT~ 17.297 SP. .. DTE ~TE~.DTE 160.138 ~RE$.DTE TT~.BMC 500,800 TT2,BHC G~.BHC 95.93S TEN$.BMC HTE~.BHC 1343.00o DPHI.LDT PEW GDT 4.660 OL$.LDT LU~LO? 260.750 LL,LDT SS~.LOT 306,250 LSHV,LDT LSRH.LDT 2.545 LURH.LDT TENS.LDT 6655 600 gTEM.LDT NPHI.CNL 29~J 8 RTNR.CNL NPO~ CN[.. 3i,229 RCNT.CNb CFTC'CNG. . 1133.184 CR.CNL ~TE~.CNI. 160.138 HTE~4.CN5 DEPT. 9800.000 CIDP.DmE I~P~.DTE ~0.734 CILD,DTE IL~.DTE 10.695 IF~E.DTE IIRD.DTF 94.750 I1XD.DTE SWL!~.DTF 19.578 SP.DTE MTEV.DTE 159.1~5 MRF$.DTE TT~.BHC 474.~0~ TT2.B~C G~.BHC ~0.i5~ TENS.B~C HTE~.RHC 12BL.0Ot~ DP~I.LDT PEP.LDT 3.504 OLS.LDT L{,.I.OT ~g2.750 bL.LDT $S~.LOT 3~6.60%~ bS~V.LDT bSR~.LDT 2.477 LURH.LDT TFNS.LDT 6305.00u ~TE~.LDT NPHT.C~{L 14.~K9 RTNR.CNL 6-FEB-1994 08:19 1389.000 G~.CSG 7i.500 IDPH,DTE 73.875 ILD.QTE 20.000 IDOF,DTE 6.~37 IIR~,DTE -183.~25 GR,OT~ 0.560 HTMN.DTC 322.000 TT3.LHC 6530.000 ~TEa,BMC 7.8~3 RHOB.LDT -0,020 O$$.LDT !50,500 LITH,LDT I~60.000 $$MV,LDT 2.496 CAbI.bDT 1~1.150 MRES.bDT I 673 TNPH.CMb ~045:99] RCFT.CNb 4~.688 TENS,CML 1~92,000 GR,CSG 20.000 6.559 IIRM.DTE '111.625 GR,QTE 0.560 HTEN.OTE 3~4.000 TT3.BHC 665~,000 ~TE~.S~C , ,492 RHOB,LDT '0.013 OSS.LDT 137.000 LITH.LDT 1261.000 S$~V,LDT ~.553 CALl,GDT 160.138 MRES,LDT 3.164 TNPH,CNb 3115 ~B7 RCFT,CNL 95:938 TENS.CML 1343.000 GR.CSG 10t.250 IDPH.OTE 105.313 ILD.DWE 20.0~0 IDOF,DTE 8.594 IIRM.DTE -149.875 GR.OTE 0.56] HTEN.DTE 329.200 TT3,S~C 6305.000 ~TEM,~HC 10.331. RHOB,LDT -0,013 Q$S,LDT 156.875 LITH,LDT 1261.000 SSHV.LDT 2.470 CALI.LDT 159.125 ~RES.LDT 1.78] TNPH.CN~ -999.250 13.977 13.523 0.000 55,~.88 42.688 1292.000 469 600 161:!50 2.520 0 5 1296'000 8.578 0.560 3690. ~530..000 999,250 15 o30 14 992 0 000 61 281 95 150. O0 0 38 0.023 63 44 9.9bl .753 6655.000 -999.250 9.875 9.484 0.000 88.500 40.156 1284.000 475.600 159.125 2,480 0.011 87.250 1297.000 8.820 0.563 14.706 ClMP.DTE CILM.DTE I~OF,DTE TENM,DTE DT,BHC TT4,BHC MRE$.BHC DRHO.LDT LS.LDT $$1,LDT S1RH,LDT GR.LDT HTEN,LDT TNRA CNG MRES,CNL CIMP.DTE C~LM,DTE IMQF,DTE IIX~,DTE TENS~DTE DT,BHC TT4,BHC MRE$.BHC DRHO.LDT LS.LDT S$1,LDT $1RH:~DT GR DT HTEN.LDT TNRA.CNL MCNTC Nb ClMP.DTE ClLM.DTE IMOF DTE IIXM:DTE TENS.DTE DT.BHC TT4.BHC MRES.BHC DRHO.LDT LS.LDT $S1.LDT $1RH.LDT GR.LDT HTEN.LDT TNRA.CNL PAGE{ 12 55,531 58,~t25 0,000 0,177 6530,000 69;700 330*000 0,560 29~ °21 000 247;000 4~i 426 688 1292.000 3 6003:~9 0 560 57.344 -2~828 6655'000 73-200 35~ O0 o 0 008 .00 267 ~50 236 9~':514 1343;000 2.847 315~,363 .560 93 125 93 ~38 0 O0 '4 852 630 000 72 ~00 34O 4OO 0 563 0 000 303 250 237 000 2 477 40 A56 1284 O0 1.743 ~I$ Tape Verification I, lstin~ ~chlumberger AlasKa Computin6 Center NPOR C~I~ 1 5.:~5t CFTC: C~[. ]O87.60O DMPT 9700.000 CIDP.OTE I~PH: DTF.. 6.i~9 CiLD.DTE Ibu.. DTE 6.i45 IFR~.DTE IIRD.DTE I~7.500 IIXD.DTE $~LU. DT~ ~2,344 gP. DTE NTE~.DTE 158.000 MRES.DTE TT1.B~{C 493.20() HTEM.B~C 1301.00o PEF. bDT 3. 598 OLS. LD'f b}~. LOT 303. OOU Lb. LDT SS~.LDT 315.750 hSHV., i~T LSRH.LDT 2.457 TFNS.LD~ 6235.000 ~TE~. b... N~HT. CNI.. t7.127 RT~R.CN5 NPO~.Ci~I. 17.948 RCNT.CNL CFTC C~I. 2557.604 NTE~iC~L 158.000 HTEN. C~:L DEPT. 0600,0~0 CIDP I~PN.DT~ 4.9~0 CILD,.DTE IL~.DTE 4.902 IFRE.DTg IIRD.DTE 250.375 IIXO.OTE SFLU.DTE 19.20] SP.DTE M?E~.DTE 157.550 ~RE$.DTE TT~.BHC 514.000 TT2.~HC GR.BHC 45.344 HTEM.BHC 1347.00u DPHI.LDT PEW.LDT ].662 QL$.LDT LU.LDT 332.500 Lb. LDT SS2.LDT 330.75~ bSHV.bDT LSRH.LDT 2.3~3 LURH.LDT TENS.bDT 6350.000 ~TEM.LDT NPHI.CN[. ~0.2~0 RTNR.CNL NPO~.CNL 21 0~4 RCNT.CNb CFTC.CNL 2236[709 MTE~.C~L 157.b50 HTEN.CNb DEPT. 9500.o0~ CIDP.DTE I~PW.DTF 51.875 CILD.DTE IL~.DTF 22.375 IFRE.OTE IIRD.DT~ 45.406 IiXO.~T£ SFLU.DTE 199.375 SP.[)TE MTE~.DTE 157.43~ MRES.DTE TT1.RHC b02.~O0 TT2.bHC GP.BHC 63.375 TE~!$.f~MC HTE~.BMC 1337.000 DPMI.LDT PEF.LDT 3.775 UbS.bDT LU.LDT 369.U00 LL.LQT SSa. LOT 331.900 LSHV.LDY LSRg.LOT 2.322 L~RH.LDT 6-FE~-1994 08:19 5126.688 RCFT.CNL 40. 156 ~'_ENS.CNb~ !284.000 UR.CSG 231 125 IDPH.DTE 232~375 ILD.DTE 20.000 IDOF,DTE 32.~19 IIRM.DTE -169.375 GR,DTE 0.567 HTEN.OT~ 333.~00 TT3,SH~ 6P35.000 ~TEM.BHC 11.000 RHOB.bDT '0.036 OS$,LD~ 157.875 LITM.LDT 1261.000 SSHV.LDT 2.457 CALI.LD'~ 158.000 ~RES.LDT 2.093 TNPH.CML 4980.813 RCFT.CML 38.938 TENS,CML 1301.000 GR.CSG 303 000 IDPH~DTE 302~250 ILD.DT£ 20.000 IDOF.DTE '186:]75 GR.OTE 0.569 HTEN.DTE 360.000 TT3.BHC 6350.000 MTE~.BHC 14.262 RHOB.~DT -0.014 QSS.LDT 181.~50 LITH.LDT 1259.000 S$~V.LDT 2.400 CALI.~Dr t57.550 ~RES.LDT 2 221 TNPH.CNL 4652~888 RCFT.CN~ 45.344 TENS.CN~ 13i7.000 GR.CSG 43.406 IDPH.DTE 48.969 ILD.DTE 20.000 IDQF+DTE 4.484 IIRM.DTE -96.313 GR.DTE 0.568 HTEN.DTE 392.800 TTS.BHC 6120 000 MTEM.BHC 20129~ RHO~,LD'r 0.015 QS$.bDT 212.500 4ITH.~DT 1260.000 SSHV.bDT 2.338 CALI.LDT 911oi23 CNTC.CNL 305 O0 ~RES.CNb 999~ 50 ' 4:~24 4 O1 0.~00 153.]75 38'938 1301.000 499.600 158.000 2.468 0.036 72.250 1296.000 9.000 0.567 18 ,133 2392 276 6235 000 -999 250 CIMP.DTE CILM.DTE IMQF.DTE IIX~.DTE TENS.DTE DT.BMC TT4.BHC MRES.BHC DRHO.LDT ES.bDT S$1.LDT $1RH.LDT GR.LDT HTEN.LDT TNRA CN5 CNTC:CNL MRES.CNL 3 ,299 0 191 625 45 344 1347 000 518 400 t57 550 2 415 0 042 ClNP DTE CXSM:DTE IMQF.DTE IIXM DTE TENS DTE DT BHC TT4 BHC MRES BHC DRHO.LDT 5SLDT SSI!SDT StRH LDT 91938 129~!000 648 GR.LDT 0 ~ HTEN.~DT TNRA.CNL 635 MRES.CNL -999.250 23.016 CIMP.DTE 20.406 CXLM.DTE 0.000 IMQF.DTE 42.438 IIXN.DTE 63.375 TENS.DTE 1337.000 DT.BHC 574. 800 TT4.BHC 157.438 ~RES.BHC 2 315 DRHO.LDT -0:001 5S.LDT 120.875 SS!.LDT i296.000 S1RH.[,DT 11.445 GR.LDT PAGE: 13 563 163 125 16226 5 0.000 14,156 35.000 62?0,500 343.200 0'567 o* o8 30 ~00 2,42~ 49t9. o,567 6350'000 -78;400 0~018 347,500 254,125 1347~ O0 099 553 19,266 44!656 0 000 -24 563 6120,000 92 062 395 200 0 568 -o 397 236.750 2,389 63,375 LIS Tape Veri~icat~on Listing Schlumberger AlasKa Comput~.ng Center, TENS,LOT 6120,000 M'rEMoI, OT NPOR,CNL 24,033 CFTC,CNL 11R7,282 MTE~.CNL 157,~8 HT~,C~L DEPT, 9400.000 CIDP, [>T.E I~P~4, DT~ 6.~09 C,[LD,DTE IL~.DTE 6.527 IFRE.DTE IIRD.DT~ 172.250 IIXD,DTE SFL~, DTF ~ 8,6~5 SP,DTE MTE~,DTE 156.65v TTI,BHC 528,~0b TTT2,BhC G~.BHC 42.375 ENS HTEN,BHC 1274.000 DPHI:'uDT PEF. LOT 3, OOt) OLS, LDT LU LDT 343.250 LL.LDT SS~:LDT 325,750 LSRH.LDT 2,391 LURH,LDT TENS.LDT 5990.00U NPHI',CNL 20.549 NPO~ CNL ~2,490 RCNT.C CFTC:CNL 2137,387 GR.CNb MTE~.CNI. 156,b50 HTEN.CNL DEPT, g300,000 CIDP,DTE IMP~{.DTE 6.148 CILO,~TE IL~.DTE 5,922 IFRE,DTE IIRD.DT~ 182,375 IIXD,DTE SFL{!.DTE ~5.301 SP.DTE ~TE~.DTE 14~,2t9 ~RES.DTE TT1,BHC 5~2,800 TT2.BHC GP,BHC '999,250 TEN$.BHC HTEM,BHC 1319,000 DPHI,LDT PEF.LDT 3.195 OLS.LDT LU.LDT 4]7.250 Lb.bDT S$?,LQT ~01.250 LSHV.LDT LSR~.LDT 2,244 LUPH.LDT T~NS.LDT 6175.000 ~TEM.LOT NPHI.CNL -999.250 RTNR.CNb NPO~..CNL -999.250 ~CNT.C~L CFTC.CNL -999,250 GR,CNL NTE~.CNL 14~.219 HTEN.CNL D~pT ~200.00(, CIDP Z~P~:DT~ 9,156 ILM.DTF 9,0~3 IFRE.DTE ITRD.DTE 104.125 II×D,DTE SFLU.DI~ 8.395 SP,DTE MTE~.DTM 144.55U TT{,BHC §0~.209 TT2.B~C G~.B~C 86.6~5 TENS.BHC HTE~.¢hC 1432.~00 ~PgI.LDT PEF.LDT 3,523 0L$.LDT LIJ.LDT 266.750 LL.L~T 6-FEB-J994 08119 157 2 3500 63 1337 195 1.98 2O 26 -181 0 364 5990 15 -0 180 1262 2 156 465~ 42 1~74 .438 ~RE$.LDT ,685 TNPH,CSL .926 ~CFT,C~5 .375 TENS,CUb .000 GR,CSG .000 IDPil. DTE 250 ILD,[Ts. ') ,*000 IDOF,DTE ,.297 IiR~,i)TE ,750 GR.D?E ,570 HTEN,DTE .400 TT3.OHC ,000 ~TEg,BHC ,484 RHOB*bDT 041 OSS.hOT :625 LITH,t~DT .000 SSHV,LDT 381 CAbI.bDT 650 ~61 TNPH,CN~ 888 RCFT,CN~ 375 ,000 GR,CSG 207,750 208,375 20,000 2!.313 -62.438 0.949 359.~00 6125,000 12.109 -0,042 235.875 1259.000 2.240 144.?1g -999.75o -999.250 -999.250 1319.000 !16. 118. 20. 4 Oo 362. b210. 4. ~42. 000 926 875 045 000 000 302 004 125 IDPH,DTE ILD.DTE IDOF,DTE IIR~.DTE GR.DTE HTEN,DTE TT3,BHC MTEM.B~C RHOB,LDT QSS,L~T LITH.~DT SSHV,LDT CALI,LDT MRE$.LDT TNPtI.CNL RCFT,CN5 TEN$.CNL GR*CSG IDPH.DTE ILD,DTE IDQF,DTE IIRM.DTC GR,DTE HTEN.DTE TT3.BHC MTEg.BHC RHOB.LDT QSS,LDT blTH,bDT 0 568 27!448 1177 638 6120 000 -999:250 5 125 5:039 0 O00 1.44:375 42.375 1274,000 532.000 156.650 2.395 0,023 106,000 1302.000 8 0 22 160 1992 O03 5990 000 -999,250 4.809 4.797 0'000 159.000 -999,250 1319.000 516.000 144.219 2.450 0.109 128,875 129~ 000 3:125 0.949 -999.250 612 000 25.609 8,609 8.445 0,000 104.750 86.625 1432.000 499.200 144.556 77.500 EN,LDT RA.CNL CNTC.CNL MRES.CML ClMP.DTE CILM.DTE I~OF.DTE IIXM,DTE TENS,DTE DT,BHC TT41BHC ~RE$,BHC DRHO,LDT LS.LDT $$1.LDT $1RH,LDT GR,bDT H. TEN.LDT TNRA.CNL CMTC.CNL MRES,CNL CIMP.DTE CILM.DTE IMOF.DTE IIXM DTE TEN$:DTE DT.BHC TT4.BHC MRES.BHC DRHO.I,,DT ~S.LDT $$1.LDT SIRH,LDT GR.LDT HTEN.LDT TNRA.CNL CMTC.CNL MRE$.CNL CIMP.DTE CILM.DTE IMOF.DTE IIXM.DTE TENS.DTE DT.BHC TT4,BHC MRES.BHC DRHO.LDT LS,I, DT SS1.LDT PAGE: 000 3150.272 0,568 15t,250 153,000 0,000 7,266 5990,000 83,000 368,000 ~50 243'.87 .?5 1274,~00 46.7 57O ~68~750 6125,000 77,100 360.000 0.949 0 454:500 3~4.250 .99~'845 13~9 ''250 ,000 '999.250 '999.250 0.949 109 1 5 0,000 '0,839 ,700 347,600 0,945 0,030 275,500 246,875 14 518 Tane V'eriflcat~on Listln~ Schlumberger ^las~a Co~Puti. no Center SSP.LDT 317.750 LS~V.LDT LSRN LDT 2.533 TENS.LDT 621u.000 NPHI.CNL ~9.332 ~T~R.C NPO~.CN[~ 29.~75 RCNT.CNh C~TC.CNL 8~1.33~ ~TE~.CN[. 144.556 HTEN.CNL DEPT. 9100.000 CIDP.DTE IMP~.DTE 22.625 CILD,DTE IL~.DTE 21.7~7 IF~E.DTE IIRD.DTE 55.40b IIXO.DTE SFLU.DTM 62.125 SP.DTE ~TE~.DTE 144.331 MRES. DTE TT~..BHC 7~0.8o0 TT2.BNC GR.BHC 53.563 TENS.BEC HTE~,~.Bi~C 1370.000 DPHI.bDT PEW.LOT 2.521 ~L$.LDT L~.LDT 912.000 LL.LDT SSP.LDT 40i.750 LSHV.LDT LSR~.LDT 1.823 LURH.LDT TENS.[.DT 6035.000 ~TEM.LDT NPH?.CNL 56.3]7 RTNR.CN~ NPO~.CNL 64.108 RCMT.CNL CFTC.C~L 355.747 GR.CNL MTE~.CNL 144.331 HTEN.CNL DEPT. 9000.000 CIDP.DTE IMPH.DTE 9.4?7 CILD.DTE IL~.DTE 9.242 IFRE.DTE IIRD.DTE q5.438 IIXD.DTE SFL~.DTE 9.65~ SP.DTE ~TE~.DTE i43.7~2 MRES.DTE TT~.RHC 5~2.400 TT2.SMC GR BHC 94 o00 TEN$.OHC HTEN' ' ' ' .BHC 1372.00o DPMI.LDT PEW.LOT 3.869 QL$.LDT LU.LDT 258.25~ LL.LDT SS?.LDT 3~0.500 LSMV.LOT LSR~.LDT 2.545 LURH.LDT TENS.LDT 59q0.000 ~TEM.LDT NPHI.CNL 32.~34 RTNR.CNL NPOR.CNL 36.3~9 RCNT.CNL CFTC.CNL 827.~70 GR.CNL MTE~.CNL 143.712 ~TEN.CNL DFPT. 8900.000 CIDP.OTE IMP~.DTE 7.7~5 CILD.DTE ILU.DT~ 7.305 IFRE.DTE IIRD.DTE 128.500 II×D.OTE SFLI~.DTF 8.055 SP.DTE MTE".DTF 143.150 ~RE$.DTE TT!.BHC 512.b00 TT2.BNC GP.BHC 85.9~6 TENS.SHC HTEN.BMC 1.395.(;O0 DPHI.LDT 6-FEB-1994 08:19 1257.000 $$Hq.LDT 2.539 CALI.LDT 1%4.556 ~RES.LDT 3.007 TNPM,CMb 2506.733 RCFT,CNh 86.625 TEN$.CNL 1432.000 GR.CSG 49.406 57.531 ILD.OTE 20.000 IDOF.DTE 7.508 IIRM.OTE 23.438 GR.DTE 0.949 ~TEN.OTE 563.600 TT3,BHC 6035.000 MTEM.BHC 49.055 RHOB.LDT 0.012 523.000 bITH.bDT 1258.000 1.846 CAL~'LDT ~44.331 5.018 TNPH.C~L ~628.749 RCFT.CMD 53.563 TEN$.CNL 1370.O00 GR.CSG 105.438 IDPH.DTE 107.750 ILD.DTE 20.000 IDOF.DTE 23:672 GR,DTE 0.949 HTEN.OTE 358.800 TTB.BHC 5990.000 MTEM.BMC 3,339 RHOB,LDT 0 011 ~SS,LDT 139~750 LITH.LDT 1258.000 8$HV.LDT ~.55q CALI.LDT 143.712 ~RES.bDT 3.359 TNPH.CN~ 2634.01~ RCFT.CN~ 94.000 TENS.CNL 1372.000 GR.CSG 142.125 IDPH.DTE !43.~75 ILD.DTE 20 000 IDQF~DTE 13:000 6.6~8 GR.DTE 0.953 HTEN.DTE 354.400 TT3.BHC 5960.000 MTE~.BHC 2.856 RHOB.LDT 1292 000 0.945 29.367 796.535 6210.000 44.438 20.234 17.3 9 0,0 6 43.563 53.563 370,000 1829.600 144.331 1841 0 046 000 20 078 0 949 455 6035 000 -999250 9 ~77 102 75 94 00 3722~00 143 12 2.595 67 75 1293 ~00 13:73 0.949 35.405 5990 O0 -999.250 .27 . 45 . 25 . oo 14~' 00 . 50 $!RM.I. DT GR.LDT HTEN.LDT TNRA.CNL CNTC CNL M'RES:CNL CIMP.DTE ClLM.DTE IMOF.DTE IIXM.DTE TENS.DTE DT.BHC TT4.BHC MRES.BHC DRHO [,DT SSI.LDT S1RH.LDT GR.LDT HTEN.LDT TNRA.CNL CNTC.CNL MRES.CNL ClMP.DTE CXbM.DTE IMOF.DTE IIXM.DTE TENS.DTE DT BBC TT4:BHC ~RES.BMC DRHO.LDT bS.bDT SS1.LDT $1RH.LDT GR.LDT MTEN.LDT TNRA.CNL CNTC.CNL M~ES.CNL CI~P.DTE CILM.DTE I~OF.DTE IIXM.DTE TENS.D~E DT.BHC TT4.BHC ~RES,BHC DRHO.LDT PAGE: 15 4 :ooo ~44 4 88 0,~00 5,000 51~i.,, 00 , ~00 ,949 000 5 ~63 1370~ 00 643 454 105'435 108,188 0,000 1,870 5990,000 80,600 360,800 0949 0;035 268 750 247 50O 2 449 94 000 1372.000 3~t62 2675:524 0 949 128375 136:750 0,000 5,281 5960,000 77,300 353,200 0,953 0.022 bis Tame verlflcatton Listino Schlumberger AlasKa ComPutina Center PEF.!~OT 3.717 OhS.bDT bU,LDT 253.250 LL,LDT SS~.LDT 306.750 LSHV.IjDT LSR~,LDT 2.566 LURH.bDT TENS.LOT 5960,000 ~TEM.LDT NPMT.CNb 3i.426 RTNR.CNL NPOR.CNL 31.748 RCNT.CNL CFTC,CML 851,717 GR.CML MTE~.CML 143.150 HTEN.CML DEPT 8800.000 CIDP.DTE I~P~:DTE '8.984 CILD.DTE IL~,DTE $.77~ IF~E.DTE IIRD.DTE 113,81~3 IIXD,OTE SFLU.DTM 14.695 SP.DTE MTE~.DTM 142.9~5 MRE$,DTE TT~.BHC 530.00() TT2.SMC G~.BMC 62.844 TEM$,BMC HTEN B~C ~426.000 DPH~.LDT b!!.LDT 307.000 Lb,bDT SS~.LDT 348.000 LSHV.LDT LSRH.LDT 2.449 LURH,LDT TENS.bDT 5865,000 NPHI.CNL 2.4.049 RTNR,CNL NPOP.CNI. ~I.435 RCNT,CNL CFTC.CNL 1176,975 GR.CNL MTE~.CNL 142.925 HTEN,CNL DFPT 8700.000 CIDP,OTE IMPH:DTE 11.922 CILO.DTE IL~.DTE t2.27] IFRC.DTE ITRD. [)TM~ 84. 188 IIXD.DTE SFL~!.DTE 11.492 SP.DTE MTE~.DTE 142,47~ ~RE$.DTE TT~.BHC 491.200 TT2.BHC G~.BHC 64.438 TEN$.BHC HTEN.BHC 1304.{~0U DPHI.LDT PEW,LDT ~.305 OhS.bDT LU,LD'? 236.500 L~.LDT S$2.LDT 3J0.500 LSHV.LDT bSRH.LDT 2,~11 LU~H.LDT TEN$.LDT 5520.00:3 ~TE.q. LDT NPHI.CNL 17.995 RTNR.CNb NPO~.CNL 15.~;63 RCNT.CNL CFTC.CNL ~.709.449 GR.CNb MTEM.CNL 142.475 ~TE~.CNL DEPT. ~o~.~00 CIDP.DTE IMPU.DTE 4.U70 CII. D.OTE IL~.DTE 3.9~0 IFRE.DTE IIRm.DTE 2~0.75U IIXO.DTE SFL~.DT~ 15.703 SP.DTE MTEU.DTE 142.5817 · T~.BHC 478.400 TT2.SHC 6-FEB-1994 08:19 3 1258 2 3 2613 1395 126 !27 20 -8 0 352 5~65 5 -0 1258 2 14~ 2 3394 6~ 1426 89 9~ 20 5 -19 0 338 5520 -0 0 124 1257 2 142 2 41~9 64 1304 ]33 .336 2O 46 -77 0 348 .008 OSS.LDT .000 LITM,bDT .O00 $$}{V.bDT · 572 CALi.bDT .150 MRE$.LDT .263 TNPH.CNL .155 RCFT,CMb .938 TENS,CMb .000 GR,CSG .625 IDPH.OTE .938 ILD.DTE ,O00 IDOF,DTE .422 IIRM,DTE · 633 GR,DTE .957 HTEN,DTE '800 TT3.BHC .000 MTEM.BMC .269 RHOB,t~DT .023 OSS,'LDT .250 bITH'LDT .000 SSMV,LDT .449 CALI~LDT .925 MRES,LDT ..737 TNPH'CNb .g73 RCFT,CNL ,844 TENS-,CN5 ,000 GR,CSG 625 IDPH,OTE i ~.88 ILD'DTE 000 IDOF,DTE 723 IIRM.DTE :422 GR.DTE ,954 HTEN'DTE .800 TT3.BMC .000 P. TEM.MHC .426 RHOO.LDT 005 QSS,LDT :688 LITH, D' .000 SSHV,LDT 619 CALI.LDT :475 ~RE$.bDT .360 TNPH,CNb 195 RCFT,CNL .' 438 .000 GR.CSG .O00 IDPH.DTE .250 ILD.DTE .000 IDOF,DTE 188 IIRM.DT£ :625 GR.DT~ .944 HTEN,DTE .800 TT3.BHC 033 :625 1293.000 13,031 0.95.3 32.1.50 768 123 5960i000 -999.250 L~.LDT *b T S1RH,LDT GR,LDT TNRA NL MRES NL 7.8 0.00o 107,688 44 62'~0 1426' 0 5 600 563 0~4 1293.000 3 2 25.046 1143,670 ~865.000 999'~50 ClMP,DTE CILM.DTE IMQF,DTE IIXM.DTE TENS DTE DT BHC TT4 BHC MRES BHC DRHO bDT ~SLDT S$1LDT S1RH LDT GRLDT HTEN,LDT TNRA,CNL CNTC,CNL MRES.CNL 10. 44 CILM TE 0.000 IMOF.DTE 77.188 IIXM.DTE 64.458 TENS.DTE 1304.000 DT.BHC 492.400 TT4.BHC 14~.475 MRES,BHC .657 DRHO,LDT . GR,LDT 0.954 HTEN.LDT 18.43~ TNRA.CNL 1676.557 CNTC.CNL 5520.000 MRES.CNL -999.250 3.000 CIMP.DTE 2.973 CILM.DTE 0.000 I~OF.DTE 234.750 IIX~.DTE 45.375 TENS.DTE 1357.000 DT.BHC 483,600 TT4,BHC PAGE~ 16 259'500 241-750 8~,494 ,938 1~395.000 257 1583 953 i! Zl~ 250 875 000 5865 77 486 352 800 0 957 0 099 316 750 84 62 0040 1426 589 30 ! ~ ,0S3 0,957 0 72i 5520 000 70 ,00 338 ~00 94 00 0]9 243 000 ,500 24~,525 64°438 1304 0 0 2 3638 838 0 954 245 500 250:500 0,000 16,453 5745,000 80.800 355.200 [.IS Tape Verification Listino Schlumberger Alaska Comput.~no Center GR.BHC 45.375 TENS.BHC HTEN.BMC 1357.000 DPHI,bDT DEF. LDT 2. 877 OLS. LOT L~{, LDT 358. 500 LL, LDT SS2.LOT 339.750 LSHV,LDT LSRH.LDT 2,355 LURH,LDY TENS.L[)T 5745.000 ~fES.LDT NDHI.CNL 24.5~6 RTNR.CNL NPO~.C~L 24,48i RCNT,CNb CFTC. C~L 1280. 305 GR,CNL MTE~. C'~L 142.587 HTEN.CNL DEPT. 8500,000 CIDP.DTE IMPH.DTF 8.555 CILO,DTE IL~.DTE 8.367 IFRE,DTE IIRD.DTE I00.06.3 IIXD,DTE SFLU.DTE ~0.008 SP,DTE MTE~.DTE 142,475 MRE$.DTE TT1.RHC 518.400 TT2.BHC G~.BHC 7~,063 TEN$,BHC PEF,LDT 4,008 OLS,LOT L(~.L~T 278'750 Lb.LDT $$2.LOT 320.000 LSHV,LDT bSRH LDT 2,504 LURH.LDT TENS~LDT 5835.000 MTEM.LDT NPHI.CNL 32,198 RTNR.CNb NPO~.C'NL 31.914 RCNT.CNL CFTC.C~L 906.5~6 GR.CNL MTEU.CNL 142.475 MTEN.CNL DEPT. 8400.000 CIDP,DT£ I~PM,DTE ~0.117 CILO,DTE IL~.DTE 9.859 IFRE'OT~ IIRD DTE 91.56~ IIXD DTE 9.930 MTE~.DT~ 140.519 M'RE$,DTE TT1.BHC 500.400 TT2,BHC GP.BHC 91.938 TENS.BBC HTEN.BMC 1393.000 DPHI.LDT PEF.I~T 3,518 OL$.LDT LU.LDT 255,375 L~.LDT $S~.[.OT 308,500 bSHV.LDT LSRM.I~OT 2.576 LURH,LDT TENS.LOT 5685,000 MTEM-LDT NDHI.CNL 29.801 RTNR.CML NPOR.CNL 30,448 RCNT.CNb CFTC.CML 1003.539 GR.CND MTE~.C~L 140.619 HTEN.CNb DEPT. 8300.000 CIDP.DTC IMP~.DTE 9.484 ClLD.DTE IL".DTE 9.328 IFRE.OTE IIRD.DT~ P3.438 ~iXO.DTE SFb~.nTE 9.~72 SP.DTE 6-FEB-1994 08:1.9 5745. 14. ~0. ~96, 1256. 142. 1357. 116. 116. 20, 5. O, 359. 5835, 6. ~0~ 148. 1258. 2, 142, 2724. 78, 1455. 101, 02 120: 5, '6. O, 347. 5685 o: ~0. 128. 1257. 2. 140, 3. 2895. 9~. 1393. 95. 95. 20. 7. -27. 000 MTE~.B~C 773 RHOO,LDT 019 OS$~bDT 000 LITM,bDT 000 SSHV,bDT 355 CALI,LDT 587 MRES,hDT 717 TNPH,CNL 029 RCFT,CN~ 375 TENS,CML 000 GR.CSG 625 IDPH'DTE 438 ILD,DTg 000 IDOF,DTE 504 IIRM,DT£ 271 GR,DTE 927 MTEN,OTE 600 TT3,BWC 000 ~TEM,BHC 036 RHOB,LDT 010 OSS,LDT 625 LITH.~ D'b ~ 000 $$HV,LDT 510 CALI,LDT 475 ~RE$.LDT 318 TNPH,CNL 893 RCFT,CN~ 063 TENS.CML 000 GR,CSG 06] IDPH.DTE 563 ILD,DTE 000 IDOF,OTE 867 IIRM,DTE 875 GR.DTE 995 HTEN.DTE 600 TT3,BHC 0~0 MTE~.SHC 9 9 RHOB,bDT 042 OS$,LDT 000 LITH,LDT 000 SSHV.LDT 566 CALI,bDT 619 ~RES,LDT 318 TNPH.CNb 34~ RCFT.CNL 938 TENS,CML OOO GR.CSG 625 IDPH.DTE }25 II.D,DTE 000 IDOF,DTE 418 IIRM.~TE 656 GR.DTE 142 ~87 ~: 06 0 i49 116i 63 i292 00 3.094 10'944 24.094 45.000 999,250 8.563 8,586 0,000 1455 000 516 800 142 475 76.~25 1293.000 1~,375 .927 3~.462 83 .586 ~835000 999:250 g 891 91742 0 000 96 000 91 938 5O2 00 140 9 0 039 1292.O00 14.094 0.995 29.878 946.014 5685.000 -999.~50 10.453 !0.508 0.000 101.313 72.063 MRES.BHC DRHO.LDT LS,LDT $$!,LDT $1RH.LDT GR.LDT HTEM LDT TNRAiCNL CNTC CNL MRE$,CNL CIMP DTE C!LMiD?E IMOF DTE IIXM.DTE TEN$,DTE DT,BHC TT4,BHC MRE$.BHC DRHO.LDT L$,LDT SSi .GDT $1RH:LDT GR LDT HTEN:LDT TNRA CNL CNTC:CNL MRE$.CNL CIMP.DTE CIbM DTE IIXM.DTE TENS.DTE DT.BMC TT4.BHC MRES,BHC DRHO,LDT bS.LDT $SI.I,DT SlRH.LDT GR.LDT HTEN.bDT TNRA.CNL CNTC,CNL MRES,CNL CIMP.DTE CILM.DTE IMOF.DTE IIXM.DTE TENS.DTE PAGE: 17 250 262,750 O0 o ° 0,000 o[o 83,~100 358*400 4S~$0 78,063 I455,000 2740, 0'927 3 271 5685,000 77,900 6O o 2'473 13 000 995 2922,161 0,995 105.375 000 -0 386 5575:000 '-,IS Tare Verification Listl. nq ~cblumberger AlasKa Computi. n0 Center MTE~'. DTF. 140.169 gRE~ DTE TT1 .BHC 541.200 TT~: BHC G~,B~C 72.063 TENS.B~C HTE~. B?~C 1381 ,~00 DP~I,LDT PEF, LOT 3,258 QLS. bDT b!l, LOT 263,000 Lb.LDT SS2.LOT 3~5,750 58HV,LDT LSR~,LOT 2,547 LURM,LOT TENS,L~ ' , ~ D ~ NPH!,C~'qL 30.338. RT~qR,CNb NPO~.CNI~ 32.682 ~CMT,CNL C~TC. CML 835.497 GR.CML . MTE~,CNL 14. O,169 HTEN,CNL DF~PT. 8200.000 CIDP,DTE I~Pg. DTE 7,055 CILO.DTE IL~.DT~ 7.410 IFRf,PTE !IRD.DTF 116,418 II.Y.D,DTE SFDU. DT~ 7,758 SP, DTE MTE~.DTE 119.381 ~RES. i~;TE TT~ .BHC 580,000 TT2,BHC GP.BHC ~3,250 TE~.~S, BMC HTE~.BMC ~356,000 OPHI,LDT PEW, LOT 3. 301 OLS. bDT GU. LOT 31 I. 75'J Lb,LDT SS2,LOT 350,750 LS~V.hDT LSRH.LOT 2.44i LURH,[.DT TENS.LOW 5455,000 ~TE~,,LDT NPHT,CNI, 37,927 RTNR.CNL NDO~,CNL 39.441 RCMT,CNL GR, CNb MWE~C~L i39,38~ 'IEi~ CNL D~PT 8100.0o0 CiDP,.DTE I~P~DTE 7,00.i CILD.DTE ID~.DTE 7,273 !FRE,DTE I!RD.DT? i30.125 IIXO.DTE SFbU.~TE 6.297 SP.~TE MTE~.DTF 138.763 MRE$,DTE ?T1.BHC 564.000 ~T2.8~C G~,BHC 58.750 TEM$.BHC HTE~3.BhC 1390.000 OPHI.LDT PE~.!,OT 3,0~ OLS.LDT L~.I,DT 355.5~0 Lb. LDT SS?.LDT 338.250 I,$HV.bDT GSRH.LD? 2.355 [.URH.LDT TENS,bDT 5510.000 ~TEM.LDT NPH?.CNL ~8.755 RTNR.CML NPO~.CaL 29.927 RCb~T.CNb CFTC.CNI. 1049.206 GR.CNL MTE",CN5 138.76] gTEN.C~L 6'FEB-1994 08:19 1,0~5 HTEN,DTE 353.600 TT3,B~C 5575,000 ~TEM,~HC 4,380 RHOS,LDT '0,O17 0SS.bDT !37,375 LITH,i~DT 1257.000 SSHV,LDT 2,547 CALl,bDT 140.169 MRE$,LDT 3.149 TNPH,CML 2716.~45 RCFT,CNL 72,053 TEM$,CNb 138t,000 GR,CSG 127.313 XDPH.DTE !.30.125 ILD'DTE 20.000 IDOF,DTE 8,156 IIRM'DT£ '18,859 GR,DTE !,017 ~TEN,DTE 393,600 TT3,BMC 5455,000 MTEM,BHC 5.821 RHOB,I, DT -0,018 OSS,LDT ~67.250 LITH,LDT 1257,000 SSH~.LDT 2,439 CALI,~DT 139.381 3.827 2193,995 RCFT.CNL ~3.250 TENS.CNG 13561000 GR,CSG 146 250 IDPH.DTE 148i000 ILD,DTE 20 000 IDQF,DTE 1~.086 IIRM,OTE '~8.781 GR,DTE 1.018 HTEN,DTE 385,600 TT],BHC 5510,O00 MTEM,BHC 15,438 ~HOB,I, DT -0.015 QSS,LDT 195.250 blTH.bDT 1256.000 $SHV.LDT 2.361 CALI,hDT 138,763 MRES,bDT 3,2~1 TNPH,CNL 2904.385 RCFT.C~L 58.750 TENS,C~L 1390.000 GR.CSG 381 000 1528i800 140 169 2.578 0.o12 71 5 .00 14 I! 45 33 79 785..916 575,000 ~999.250. DT BHC TT~:BMC MRES.BHC DRMO,LDT DS,bDT SSI.bDT $1RH.LDT GR.LDT HTEN,LDT TNRA,CNL CNTC,CNL MRES,CNL 7.848 7 8O o: oo 127.375 83 250 1356~.000 576,:000 139.381 2,554 0,039 98.688 1292,000 13 758 1 O17 38 i85 623 427 455,OOO ~999.250 CIMP,DTE CIL~,DTE IMQF,DTE IIX~,DTE TENM,DTE DT.BHC TT4 BBC MRES~BHC DRHO,LDT LS,LDT SSI..LDT $1RN,LDT GR,LDT HTEN,LDT TNRA CNG CNTC:CNL MRES.CNL 6 832 CIMP,DTE IIX~.DTE lI~.395 DRHO.LDT . MRES,BHC 0.042 107.188 ~92 000 1 018 28:045 977,844 5510.O00 -999,250 LS,LDT SSi,bDT SIRH.LDT GR.LDT MTEN.LDT TNRA.CNb CMTC.CNL MRES.CNL PAGEt 18 78,400 354.'400 1,045 0,015 268,~50 241, 50 2.~86 72, 63 O45 141,625 O~ 0oo 908 5455,000 60O 017 0~097 323,000 85,~$0 ~242~ 472 966 1.OI7 142.6~5 1 t7,375 0 000 4i348 5510 000 386, 0 8 I 015 0 37 000 2593 000 2 2"/7 58;;750 1390 000 2 907 296~,513 1.018 bis TaD, Yertflcation Listina ~chlumberger AlasKa Comput.i.n~ Center DF. PT. 80O0,00O CIDP,DTE I~PF~,DTE 11,U16 CILD.[}TE Ib~'. DTE 10.27~ IFRE.DTE IIRD.DTE !02.56~.~ IIXQ.OTE SFLU. DTE ~ 9.7~7 SP. DTE ~TE~.DTE 138.594 ~<RES.DT~ TT1 .BHC 529.~00 TT2.SHC G~. 8HC 37.156 HTE~.BHC I379,600 DPgI.LDT PEW, LDT 3, { ] 9 ~LS. bDT LU.LDT 2~3.50:J LL.LDT SS~,LDT 330.250 LSR~.LDT 2.486 · LURH.LDT TEN~.LDT 5415.000 ~TE~.bDT NPHI.CNL 24.342 RTMR.CNL NPO~.CNL 25.614 RCNT.CML CFTC.CNL % 209. 922 GR.CML ~TEU.CNL 138 594 . DF~T 7900.000 CIDP.DTE I~ ~'BTE 4.'7~) CILD DTE L~.OTE ~.727 I~E.DTE IIRD.DTE i85,375 IIXO.DTE SFL{~.DTE 4.367 SP,DTE ~TE~.DT~ 138.650 ~RE$.DTE TTI..BHC 582.000 TT2.BHC G~.BHC 64-813 TEN$.BMC HTE~.BHC 1452.000 DPHI.LDT ~EF.LDT 3.082 QLS.LDT bU,LDT 382,500 LL.LDT SS~.LD~ 351,500 L$~V.LDT LSRH.I. DT 2.320 LURH.bDT TEN$,LDT 5490,000 ~TE~.LDT NPHT.CNL ]0.31] ~T~R.CNb NPO~.CNL 31,~60 RCNT.CNL CFTC.CML 874,154 GR.C~}L MTE'.CNL 138.650 ~TEN,CMb DEPT. 7800.000 CIDP.DTE I~PH.DTE 4.855 CII. O.DTE Tb~.DTE 4.766 IF~E.DTE IYRD.DTE i79.750 XIXD.DTE SFLU.DT~ 5.082 SP.DTE MTE~.DTE 137.800 MRES.DTE TTI.BHC 588.800 TT2.BHC GR.BHC 85.438 TENS.BHC HTEM.BHC t]g3.000 DPH.I.LDT PEF.LDT 3.1CO QL$.LDT L'I.L~T 332.000 L~.LDT SS2.LDT 331.750 LSHV.b~T LSR~.LDT 2.4n0 LUSH.bDT TENSe/DT 5255.000 MTE~.LDT NPHT CNX. 40.325 RT~R.C~L NPO~:CNL 42.037 RCNT.C~b CFTC.CNL 674.400 GR.C~L 6-Ff]B-~.994 08:{9 111, 113. 20, t0. -58. 1. 364. 5415. 7. 15i, 1257, . 3321. 37. 1379. 218 222 20 16 -2] 1 402 5490. 16. '0. 208. 1258. 2. t38, 3. 2669. 64. 1452. 210. 209. 20. 19. '9. 1. 394. 5255. 12. 178. 1257. 2. 137. 3. 2130. 85. 938 IDPH,DTE 250 ILD,OTE 000 IDOF.OTg 266 iIRM.DTE 906 GR.OTE 0i7 HTEN.OTE 800 TT3.BHC OOO ~TEM,BHC 074 RHOS,bDT 010 055,.£~DT 375 LITH.bDT 000 SSHV,LDT 500 CALI.bDT 594 MRES.bDT 760 TNPH.CNb 22] RCFT.CML 156 TENS,.CNL 000 GR,CSG 500 IDPH.OTE 750 ILD,DTE 000 IDOF,DTE 20] IIR~.OTE 438 GR,OTE 022 HTEN.DTE 000 TT3.BMC 000 688 RHOB,bDT 027 OSS,nDT ~25 LITH.bDT 000 SSHV,LDT 318 CALl.bDT 650 ~RES,LDT 279 TNPH.CML 4~3 RCFT,CNL TES,CNL 000 GR,CSG {25 XDPH,DTE 125 ILO,OTE 000 XDOF.DTE 7Sl IIRM.OTE 945 GR.OTE 025 HTEN.DTE 000 TT3.BHC 000 MTEM.BHC 448 RHOB.bDT 022 O$S.4DT 750 LITH.LDT 000 SSMV.LDT 402 CALI.LDT 806 MRES.LDT 989 TNPH.CUL 7b! RCFT.CNL 438 TENS.C~4 8 o: oo 2 63 1~79i O0 533:O0 138 ~94 2i 3.3 0 18 63,000 1291.O00 12.523 1.017 26~86 1186~ 29 5415.000 -999.250 4 574 4 484 0 000 198.625 641~13 145~ O0 58 400 138 65O 2 375 0 038 125 000 1292 O00 31,733 812,906 ~490.000 999.250 4 754 4:777 0.000 197.125 85.438 1393.000 591,200 137.806 2.445 0.042 99.000 1291.000 13.797 1.025 38.098 597.467 5255.O00 CIMP.D~ CILM.DT... IMOF,DTE IIXM,DTE TENS.DTE DT.BHC TT4.BHC MRES.BHC DRHO.LDT $$1.LDT S1RM.LDT GR,LDT HTEN.LDT TNRA.CNL CNTC,CNL CIMP,DTE CIbM.DTE IMOF IIXM~ TE TENS!~TEDT HC DRHO,LDT nS'bDT S$~,LDT SIRH,LDT GR,LDT EN'nDT RA .CNL CNTC-CNL MRES.CNL CIMP.DTE CIbM,DTE IMOF.DTE IIXM.DTE TENS.DTE DT,BHC TT4.BHC MRES.BHC DRHO.LDT nS,LOT SS1.LDT S1RH.LDT GR.LDT HTEN.LDT TNRA.CNL CNTC.CNL MRES.CNL PAGE{ 19 97, .0,~000 9,258 54~5,000 79.600 369'200 07 1'0~4 0, 293~000 251,625 2.395 37.I~6 t379 0 0 2: o 3201 225 I 017 21 I, 625 21 ~ 375 000 8 992 5490 000 89 000 409 600 t 022 0 040 399 250 266 250 2 2t7 64 0~0 1452 205.875 2, 5255,000 92,200 4o : oo 025 0.0~8 344,75O 1393,000 1,025 gtg'E 0~ 98 000 000 68: 9[0 0 £{,0 ~ 00~ 00~ O0 06 000 g£;~ 089 9 000 0 ooo:se SL8 L8 ~ S 0 0~, OOS ~ 0 000 '68 000~0¢t~ 00S"~I6t 9~0 ~t ~,£ 906i~ 960 ~ 0 9 ~ ~ '1: O0 000 6~ 6~0 0 ~0 ~ 000 000 0 O~ 13DVd 'IND*V~N& &O OHUO 3HS'ZQ ~Qq'N3~H &Oq*gq &Oq*OHUO DH8 3&O axil 3~O 3~O'dWiJ ~oq 8D ~Oq~gg DHB'g~H 3&O~gN3& 9~0~L£ 000' 6~I 9~U,O 0O9 O00'SS~ '9 000°0 6~0°~ 980'S 0S~'666- 9;0.9£ 90~'~I 000~6~t OS Lg~ ELo O00oLs 00o 90~ ~9 000 0 980'S 0g~666- ooo g~O'I 0£~ 000 ~6~1 ~£00 000 000 Ego EgO 000 0 060'L OEE'L 0~g'666' £Oq'H&Iq Z~q*9~O 800'0' Diig*E££ 00~66E ~&O'NJ$H EgO '[ ~q'JOOI 0oo'o~ ~O*HdQI 9/E°96I DDD.~D 000 qN3 N3& 90) ~g qaD,'$JDa )qB ~T~l qND'HdN& ~'E $Oq'~gO 800'0' ~Oq*SOH~ S~6'9 DHS*H3~H O00°09tg ~O*N3£H g~O'I ~Q*~II ~60 8T ~&O'AOGI O00'OE ~£O*qqi 9L8'L6I ~O'HdOI 009'96I DWD'~D O00'9I~T qND'gN~$ Ego'6E qND'~JDa qND'HdN~ Egt'~ Sqq'I~VD 68E'~ DH8*~ O00*OGgS 31t~'E&~ OOS'~LE ~£0'~9 ~LE'~L- 3£G'W~It L6L'OE 3id'~OGi O00'OE N£d'oqI O00'I~i 3~O*HdOI O0~'9EI DgD'aD 000 'E6EI qND'HN~a 1~¥'0~ qND'IHdN ~oq'AHS'I OOg'O~E £~q'qq O~'6LE £dq'gqO S~I'~ M£O'g~ OOe'gEI ~£q'd~ ~09'~ ~id'OXII §19'69I J£d'd~lI 3iO'3a~I L~O'~ 2i~'~qI ~lq'OqlD OlE'~ 3£G'Hd~I qND'N3$H 56L*gEI qND:~D E~O'Ii/ qND'D&~D qND £ND~ 86T'gE qND'UOdN qNg'~N~ 819'9E 'IND'IHdN iOq'N3£~ O00'09T§ £Gq'IHdO OOO*T~I DHS'NM&H DHH'gN~& 90~'E9 DNS'aD 3~0'~3H~ ~6L'gEI ~£G~dS ~96'~ 2~O'flq~ ~£O'OXlI SL8'O£; ~&O*~jI OE~'g ~&O'dGID 000'009£ '~djO qND'J~ND~ S68'L[ qNj'aOdN qND~HNSH 696'9I qND'IHdN $dq' ri'l O0~"6EE &Gq I'lq ~q'gqO g89'g £~q' ~£d"aqlO 98G'6 3$O~Hd~I M,LO*dQID ()O0'OOLL £d3G [,IS Tame Verification Listing Schlumberger AlasKa Computing Center NPOP CNL 36.8~1 RCNT.CNL CFTC: CNL 7 ~ 4. 875 GR. · MTE~.. .C~'~L. 136.400 HTEN.CTqL D~PT. 7400.0o0 CIDP.DTE I~PH.DTE 2.36i CILD.DTE IL~.OTE 2.373 !FRE.DT~ IIRD.DTE 391.500 IIXD,DTE SFLH DTE 5.~68 SP.DTE MTE~' .DTE 135,781 , R~a,,~TE TT1.BHC 596.800 TT2,BHC GD.BHC ~5.469 TE~$,B~C HTEM.B~C ~369,00§ DPHI,LDT PEF.LDT 2.5'72 QLS, LDT LU.LDT 417.250 Lb,LOT $S~.LDT 352.500 LSHV.LDT LSR~ LOT 2,260 LURH'LDT TENS~LDT 5070,000 ~TEM.LDT N~{?.C~[, 26,155 RTNR.CNL NPOR'C~L ~7,!03 RCNT,C~L CFTC.CNL t20i.291 N,,GR'CNL MTE~,CNL 135.781 IEN.CNL D~PT 7300,000 CID?,DTE I~P~'DTF 4 477 C R-' DTE IL~' . ILO, DT~ 221.875 II×D,DTE SFL(!.DTE 4.73Q SP,DTE ~TE~,DTE 135,3~8 NRES,DTE TT~,BHC 5~2o000 TT2,~HC G~,BMC 52.250 TEN$.[~HC HTE~{.BHC 1387,000 DPHI,i, DT PEF.LDT 3.3~3 ~LS, LDT LU,LDT 366.500 Lb,.LDT SS~.LDT 338.500 L$~v. LDT LSRH.LDT 2.336 LURH.LDT TENS,LOT 49J0,000 MTK~.LDT NPHI.CNL ~8.~7! RTNR.CMb NPO~ CML 29.430 RCNT,CNL CFTC~CNL ~168,785 GR.CNL MTE~.CNL 135.3~$ HTEN.CN~ D~PT. 7200.00U CIDP.DT£ I~P~.DTF 40.625 CILD.OTE IbU.DT~ 36.40~ IFRE,DTE IIRD.DT~ ]2.9~8 II×D,DTE SFL!.!.DTE 75,50~ SP,DTE MTE~.DTE 134.65~ ~RES,~TE TT~.BHC 760.000 TT2.BNC G~.BHC 32.625 TEN$.SHC HTEN.B~C 1392,000 DPHi. I. DT PEW.[.DT 1.79~ L{~. LOw 1476, OOO Lb. i. DT S$~.LDT 431.500 bSRN. LIYT I .5~2 LU~H,LDT 6'F~B-!994 08:19 2439. 86. i355. 489. 506. 20. 61, -75. 1. 405, 5070, 22. O. 240. 1257, 35. 1369, 256, 25 1o 380. 4910, 3143. 52. 1387. 15. 27. 20. 8. -21. 514. 504O. ~4. 777. 1256. 1. 570 RCFT.Ct{L 664 275 ~50 'I'EN~.,CNL .5135!000 OOO GR,CSG 999 250 000 IDPH.DTE 500 ILD,DTE 000 IDOF,DT£ 688 IIRM,DTE 063 GR,DT~ 049 HTEN,DTE 200 TT3,BMC 288 RHOB,LDT 004 OSS,LDT 000 LITH,,I, DT 000 SSHV,hDT  b8 CALI.hDT 81 MRES.I~DT ~3 TNPH~CNb 5 RCFT.CNL 4b9 TENS,~Nh 000 GR. SG 750 IDPH,DTE 750 ILD.'DTE 000 IDOF,DTE ]59 IIRM.DTE 547 GR,DTE  5! HTEN.DTE O0 TT3.BHC 000 091 RHOB.bDT 003 OSS.[,DT 500 LITH,bDT 000 MSHV.LD~ 342 CALl.bDT 388 MRES,LDT 020 TNPH,CNb 924 RCFT.CNL 250 TENS.CNL 000 GR,CSG gL9 IDPH.DTE 875 IbD.DTE 000 IDQF.DTE 719 XIRM.DTE 703 GR.DTE 061 HTEN.DTE 000 TT3.~HC 000 MTEM.BHC 450 RHO8.bDT 012 OS$,LDT 500 bITH.LDT 000 SMHV.bDT 601 CALl.bDT 2.043 1.974 0 000 390 ~50 35 469 1369 000 591 200 135 781 2 282 0 031 157..125 1291.000 1~.39 27,164 1123.885 5070.000 -999.250 0.000 201,000 52,250 1387.000 535.600 135,388 2.368 0 O44 123 813 1291 000 12 813 1.051 28.266 1022.149 4910.000 -999.250 62.594 35.844 0.000 26.109 32.625 1392.000 761 200 134:656 1.587 0.041 481.250 1292.000 15.633 CNTC.CNI,, MRES,CNL CIMP.DTE ClLM.DTE IIX~ DTE TENS DTE DT BHC TT4 BHC MRES.BHC DRHO.LDT bM,LOT SSI,bDT SIRH.LOT GR.bDT HTEN.LDT TMRA,CNL CNTC,CNL MREM.CNL ClMP DTE CIbM DTE IMOF DTE IIXM DTE TENS DTE DT BHC TT4 BHC MREM BBC DRHO,LDT bS.t,,,DT SS1.LDT $1RH.LDT GR LOT HTEN bDT TNRI CNL CNTC CN5 MRES.CNL CIMP.DTE CILM.DTE IMOF.DTE IIXM.DTE TEN$.DTE DT.BHC TT4,BHC MRE$.BHC DRHO.LDT US.bDT $S1.LDT S1RH.LDT GR.I, DT PAGEI 21 O6 423,250 421,000 :ooo 50:70,~ 47 O0 91.~295 409,200  , 049 260:, 0 1369~000 1,.049 223, 250 214.000 070 4910~,000 9" oo 2oo 0 ~ 388;740 258~500 ;}'270 52,~250 1387,000 l'O5& 24,594 27,438 000 5040,000 127~00 515,600 1',061 '0.003 1516,000 285.500 I 593 32:625 LIS Tape Yerlficatlon bistfno Schlumberger AlasKa Computlnq Center TENS.bDT 5040.000 MTEM.L, DT NDHI.C~L 61,619 RTNR.CNL NPOR.CNL 8i.359 RCNT.CNL CFTC.CNL 3!0.781 GR.CNL MTE~,CNL ~34,656 MTEN.CNL DEPT. 7100.0o0 CIDP.OTE I~P~,DTF 5.039 ClY.,O.DTE IL~.DT~ 4.898 IFR~,DTE IIRDoDTE 203,6~5 II×D.DTE SFLU.DTE 10,695 SP,DTE MTE~.DTF 134,375 ~RES.DT'E TT{,BHC 579,200 TT2,BHC G~.BHC 44,094 TENS,BHC HTEW.BHC 1401.000 DPHi. LDT DEF,LDT 2,803 QL$.LDT LU.LDT 374,000 LL.LDT $S~,LDT 335,500 LSHV.LDT LSR",LDT 2,3~8 LURH,LDT TENS.bDT 4970,000 ~TE~,LDT NPMI.CN[, ~5,749 RTNR,CNL NPOP,CML ~4,903 RCNT,CNL CFTC,CNL 1290,276 GR.CNL MTEU.CNL i34,375 MTEN.C~L DEPT. 7000.000 CIDP.DTE I~PH.DTE 8.438 CIbO,DTE IL~.DT~ 8.141 IFRE~DTE IIRD. DTF 99.875 IIXD,~T~E SFLU. DTE ~. O. 266 SP, DTE MTE~.DTK 133,475 ~REB,DTE TT] .EHC b96,000 TT2,BHC G~. B~{C ~ i. 563 TENS, BHC HTE~I. B~JC !407,000 DPHI.LDT PEF. LDT 3, ~3b (ILS.bDT LU, LOT 323. 250 LL,LDT SS~, [..DT 3'39.750 LSFIV, LDT LSRM. [.OT 2.418 LUSH,bDT TENS.bDT 4830.000 ~TEM,LDT NPHI.CNL 34,000 RT~R,CNL NPOP.CaL 34,539 RC~T.CNL CFTC.Cab 757.0~ GR.CN~ MTE~.CNL 133.475 HTEN.CNL DEPT. 6900.000 CIDP.DTE IMP~.DTE 14.250 CILD.DTE IL~,D~E ~0.898 IFRE.DTE IIRD.DfE 6~.0~4 II×D.OTE SFb{~.DT~ 23.203 SP,DTE MTEU.D~E 133.0~! ~RE$,DTE TT~.~C 672.400 TT2.BHC GP.B~C 66.~75 TEN$,BHC HTEM.BHC 1405.0o0 DpMI.LDT mEW.bDT 2.7P5 Qb$.LDT LU.LDT 592.0o0 [.L.LDT 6-FEB-1994 08:19 1.34, 5. i537. 3~, 1392. 238 24O 2O 25 -65° 1. 395. 4970. 18- ~0. 208. 1256. 3344' 1401. 111. 112. 20. 8. '9. 1. 414, 4830. 175. ~254 133. 3 2546~ 81. 1407. 67. 20. 1. i. 449. 4795, 3l. 335. 656 MRES.LDT 050 TNPH.CMb 548 RCFT.CNh 625 TEMS,~Nb 000 GR, SG 500 IDPH,DTE 500 ILD,DTE 000 IDQF.OTE 359 IIRM,DTE 938 GR,DTE 064 HTEN,DTE 600 TT3,BHC 000 MTEM,BHC 560 RHOB :~DT 010 QSS~ DT 125 LITM,LDT 000 SSHV,LDT 330 CALI,LDT 375 MRE$,LDT 8~ TNPH~CNb 006 RCFT,CNL 094 TENSe~N~ 000 GR,CSG 938 IDPH.DTE 875 ILD,DTE 000 IDQF,DTE 016 XIRM,DTE 6~1 GR,DTE 071 ~TEN,DTE O00 TT3.B~C 000 MTE~.~HC 487 RHOB.bDT 013 OSS,LDT 625 LITH,LDT 00o SSHV.LDT 4. i8 CALl.bDT 475 ~RES.L. DT ~34 TNPH.CNL 729 RCFT'CML 563 TEN$.CNb 000 CR.CSG 563 IDPH,DTE 625 ILD.DTE 000 IDQF.DTE 438 IIRM,DTE 503 GR,DTE 074 HTE,~.DTE 600 TT3.BMC 000 ~TE~.BMC 042 RHOB.~DT 028 OSS.LDT 000 LITH.[.DT 1.061 80.879 297.879 ~040.000 999.250 4 188 4.:156 0000 191~875 44,094 1401,000 580 800 !34 375 2344 0 O27 133 O00 1291000 12 .242 J 064 25 .384 1176 782 4970000 -999250 8 930 8 852 0 000 116 06~ 81 563 1407 000 600 800 133 475 2 477 0 028 108 125 1290.000 15.445 1.071 35,186 7171783 830.000 ~999.250 14.789 14.570 0,000 86.875 66,875 1405.000 672,400 133.08! 2.138 0.O5O 285.750 HTEN.LDT TNRA.CNL CNTC,CNb MRES,CNL CIMP.DTE CILM,DTE IMOF..DTE IIXM.DTE TENS.DTE DT,BHC TT4.BHC MRES,BHC DRHO,LDT LS.LDT $$1obDT SIRH.LDT GR,LDT HTEN,bDT TNRA,CNL CNTC,CNL MRES.CNL ClMP.DTE CILM,DTE IMOF,DTE IIX~,DTE TENS,DTE DT.BHC TT4.BHC MRES.BHC DRHO.LDT LS.LDT SSl.LDT SlRH.LDT GR.I,DT HTEN,I,D~ TNRA,CNb CNTC.CNL MRES,CNL CIMP.DTE CILM.DTE IMOF.DTE IIXM.DTE TEN$.DTE DT.BHC TT4.BHC MRES.BHC DRHO,LDT LS,LDT SSI.i, DT PAGE~ 22 1392.000 4,815 1537,830 1', 061 198,250 204,000 0.000 8 406 4970 000 9O 6OO 4OO 8O0 1,064 0,003 395.250 249 750 2 44 09 140~ 00~ 2 76 3289 ~89 1,064 oo 41 0 071 0,041 337.250 259,000 $63 1,071 70.125 91.688 0.000 -1683 4795!000 105 60O 455,600 1,074 0,042 631,000 283.750 LIS WaDe verification Llstlnq Schlumberger AlasKa Computino Center $$2.LDT 386.250 LSHV.LOT LSRH.LDT 2.0R~ LURH.LDT TEN$,L~T 4795.000 ~T~M.LDT NPHT.C{qL 41.973 RTNR.CNL NPO~.CNL 40.497 RCNT.CND CFTC.C~L 543.545 GR.C~L MTE~.C~L i~3.081 RTEN.CNL DEPT. 6~00.000 CIDP.DTE I~Pg. DT~ 6,609 CILD.DTE IL~.DTE 6,]44 IFRE.DTE II~D.QTE 141.1~5 II×D.DTE SFLU.DTE 7.020 SP.DTE MTE~,DTE 132.575 ~RE$.DTE TT~.~HC 599.200 TT2.BHC GR.BHC 53.53! TEN$,~HC HTEM.B~C 1422.000 DPHi.LDT PE~.LOT 2.934 aLS.LOT LU.LOT 395.500 I.b. LDT $$~.LQT 357.250 LSHV.LDT LSRH.LDT 2.297 LURH.LDT TENS.LOT 4910.000 MTEM.LDT NPHI.CML ~9.030 RTNR,CNL NPO~.CN~. 31.527 RC~T.CNL CFTC.CNL ~05i.510 GR.C~D MTE~.CaL 132.575 HTEN.CNL DEPT. 6700.000 CIDP.DTE I~ DTF 5.273 CILD.DTE ' I~:DTE' 5,199 IFRE.DTg IIRD.DTE 149,375 IIXD~DTE SFb~! DTE 5.270 SP,DTE MTE~:DTF 132.1~5 ~RE$'DTE TTI.BHC 677,200 TT2.BHC GR.BHC 76.625 TEN$.BHC HTEW.BHC 1473.000 DPHI.LDT PEF,LDT 2.840 OL$.bDT LII.LOT ~08.000 Lb,LOT $$~.LDT 370.000 L$~V.bDT LSRH.LOT 2.273 bURH.aOT TMN$.L~T 4935.000 STEM.bDT NPHI.Ci~L 45.488 RTNR.CML NPOg.CaL 46.203 RCNT.CML CFTC.CML 532.064 GR.CNb MTE~oCaL 132.1~5 MTEN.CqL DMpT 6600.000 CID".DTE I~PH:DTE 5,344 CI[.b.DTE IL~.DT~ 5.4~b IFR£.DTE IIRD.DT~ 169.250 IIXD.DTE SFbU.DTM 6.359 SP.DTE MTE~.DTE 131.~7~ ~RE$.OTE TT1.BHC 546.000 rT2.0HC G~.RHC 43.125 TEN$.SHC HTE~.BHC 1412.000 DPHI.LDT 6-F~B-1994 08:19 1256 2 1.33 3 2103 66 1405 159 161 20 12 -18 1 412 4910 220 1255 3027 53 1422 170 174 20 14 -21 1 449 4935 -o 225 1256 2 4 2031 76 1473 193 196 20 17 -41 1 394 4720 19 ,000 SSHV.bDT .072 CALI.LOT .081 MRE$,LDT .744 TNPH,CNh .378 RCFT.C~L ,875 TEN$,CNL ,000 GR,CSG 5 ILD.DTE O0 IDQF,DTE .398 IIRM.OT~ · 01~ GR,DTE .0' MTEN.DTE ,800 TT3,BHC .~00 MTEM,B~C .134 RHOB, LDT .015 OS$.b~T .000 LITH,LDT .000 $SHV.LDT ,299 CALl,bDT ,575 MRE$,LDT !80 TNPH CML .3il RCFT,CNb .531 TENS.~CNb .000 GR.CSG .750 IDPH.DTE .625 ILD,DTE ,000 IDOF,DTE .359 IIRM,DTE .125 GR,DTE .090 HTEN.DTE .600 TT3.BMC :000 MTEM.BHC 028 RHOB.bDT ..022 OSS,4DT .250 LITH.4DT ,000 SSHV...) bDT .279 CALI,L~T .125 MRES.LDT .2~I TNPH,CNL .388 RCFT,CNb .625 TEMS.CNb .000 GR.CSG 750 IDPH,DTE .CO0 IDOF.DTE ,438 IIRM,DTE .219 GR.DTE .093 MTEm.DTE .400 TT3,BHC .000 MTEM.~HC .665 RHOBeLDT i29! 000 14~031 1,074 42!425 526 205 4795.000 -999.950 6 2:58 0 000 1.481625 53.:531 1422.000 598.400 132.575 2,.3 1 o.o~g ~352625 1290.O00 1~.891 .081 30,722 1002,564 ~910,000 999.250 °°° 875 76,625 147 000 671: oo 132.125 2,353 1291o000 13.148 1.090 45 564 490i959 4935 000 -999.~50 5.156 5.098 0 O00 43.125 1412.000 548.000 131.675 2.326 S1RH.bDT GR-I. DT HTEN,LDT TNRA.CNL CMTC.CNL MRES.CNL CIMP DTE CILM:DTE IMQF,DTE IIXM,DTE TENS,DTE DT.BHC TT4.BHC MRE$.BHC DRMObDT LS:LDT SSI.bDT $1RH,LDT UR.bDT HTEN,LDT TNRA.CNL CNTC.CNL MRES,CNb CIMP.DTE CXLM.DTE IMOF.DTE IIXM.DTE TENSiDTE DT.BHC TT4,BMC NRES.BHC DRHO,LDT LS LDT $SI~LDT SIRH.LDT UR.bDT HTEN,LDT TNRA.CNL CNTC.CNL MRES.CNL CIMP.DTE CILM.DTE IMQF.DTE IIXM.DTE TENS DTE DT:BHg TT4.BH MRES.BHC DRHO.LDT PAGE: 23 I 978 66 875 1405 000 3 700 2007 1. 74 I · -,500 0 000 5 426 4910 000 94-, 000 411'~ 2.00 1. 081 0 042 417 750 268 500 2 189 53 53 1422 0~ 92 I 081 189 500 'i25 1920 000 ! 5!9 I ~o0 4 ! 09O 0 067 429 250 278 500 7t 123 625 147~ 000 ~0~8 771 1 090 187 000 184 250 0 000 5 547 4720 000 8OO 1,093 0.007 bis Tape Verification LiStiDq Schlumberger AlasKa Computlnq Center PEF LDT 2.979 Q55. bDT LU." LOT 385. 250 LL, bDT ~S2,LDT 3~8,000 LSHV.LDT LSR~.LOT 2,307 LURH,LDT TENS bDT 4720.000 MTEM.LDT NPHI:CNL ~5,631 RTNR.,CN~ NPO~,C ' , ~ab 29234 RC~T,CNb C~ ~C Cr~L 13o4.9~5 GR Nb MTE~ CML 131 675 ~rE~ Nb DEPT 65o0.000 CIDP.DTE I~P~DTE 8.84.~ CILD.OTE Ib~.DTE 9,156 IFRE.DTE IIRD.DTE 112,688 IIXD.DTE SFLU.DTE 8.406 SP.DTE MTE~.DTE 130,94~ MRE$.DTE TT1.BMC 568.400 TT2.BMC G~.B~C 56.219 TENS. B~C HTEM.BttC 1406.000 DPHI,LDT PEF,LDT 2,688 aLS-gDT bU,LDT 360,250 Lb,bDT SSP.LDT 342.000 LSHY.LDT LSRM.LDT 2,]42 LURH.LDT TENS.bDT 4710.000 ~TEM.LDT NPHI.CNL ~6,316 RTMR,CML NPO~.CNL ?9.302 RCNT.CNb CFTC.CML 1193.667 GR.CNL MTE~.CNL 130.942 HTEN.CML DEPT. 6400.000 CIDP.DTE I~P,.DTE 4.020 CILD.DTE IL~.DTE 3,910 IFRE.DTE IIRD DTE 233.375 IIXD,DTE SFL[~DTE 6.699 SP.DTE MTE~.DTE 130.506 MRES,DTE HTE~.BaC 1426,000 DPH bDT PEF,LOT 3.031 OL$,LDT L~].LDT 4~2.750 Lb.bDT S$2.L!)T 351.250 t. SMV.bDT LSRg. LDT 2.2]4 LORfl.bDT CFTC.Ci';L 1127.7~7 D~PT, 6300.0n0 CIDP,OTE IgPW.DTF 4.379 CILO,DTE Ib~.DTE 4.06~ IFRE.DTE IIRD.DTE 200.500 IIXD.OTE SFLU.DTE 4.164 SP.DTE MTE~.DTF 130,212 ~RE$.DTE TT].BHC 598.000 TT2.BNC 6-FEB-1994 08:19 -0 2t7 1257 2 13t 3212 1412 125 126 20 8 -13 1 393 4710 16 0 2O2 1256 130 3140 56 1406 274 276 20 29 1 433 46i5 24 -0 246 1256 2 130 3 3237 62 1426 235 2O 27 4 1 390 ,002 OSS,bDT ,500 L1TH.,bOT ,000 SSHV,LDT .313 CALI,LOT .6~5 ~RES,bDT ,8 5 TNPH.,CNb .227 RCFT,CNb ,125 TENS,CML .000 GR,CSG ~750 IDPH,DTE 813 ILD.DTE .000 IDOF'DTE ,680 IIRM,OTE .500 GR,DTE T~ .099 MTEN,D~E .200 TT~,B~C ,~00 MTEM,BHC , 67 RHOB'bDT ,001 OS$,bDT .625 LITH.bOT ,000 $$HV~bDT 354 CALl,bDT ~944 ~RES,LDT .856 TNPH.CMb .081 RCFT,CMb ,219 TENS,CML ,000 GR,CSG .250 IDPH.DTE .500 ILO,DTE .000 IDOF.DTE 688 IIRM,DTE :750 GR,OTE .103 HTEN.DTE .200 TT3.BHC .000 MTEM BHC ,566 RHOB:LDT :02! OSS.GDT 875 LITH,bDT 000 $$HV,bDT 234 CALl,bDT 606 MRES,bDT .007 TNPH,CNb 525 RCFT,CML :28! TENS,CML ,000 GR,CSG 0 037 132 125 1291 .000 1~ 555 093 26 540 1116740 4720000 -999 ~50 7.949 7.883 0.000 103.250 56~19 1406000 574400 130944 2377 0 036 114 375 1291 .000 12648 1 099 27,.809 1073.895 ~710.000 999.,~50 3,64:3 3 ,615 0 000 239 500 62 281 1426 000 639 200 13~ 606 245 0 016 159 875 1290 000 12 523 2~' 103 391 1055 892 4615 000 -999 250 ~750 IDPH.OTE 4.238 875 ILD,OTE 4.309 .000 IDOF,DTC 0.000 · 922 IIRM,DTE 201250 .855 GR.DT£ 69i813 .108 HTEN.DTE 1419000 .800 TT3.BHC 606.400 bS bDT SSI:LDT SIRH,LDT GR.LDT HTEN.LDT CNTC NL MREB.CNL CIMP.DTE ClbM.DTE IMOF.DTE IIXM'DTE TE'NS.DTE DT'BHC TT4,BHC MRES,BHC DRHO.LDT bS,LDT S$1,LDT S1RH,LDT GR,LDT HTEN,LDT TNRA,CNL CNTC.CNL MRES,CNL CXLM.DTE IMOF.DTE IIX~.DTE TEN$,DTE DT.BHC TT4.BHC ~RES,BHC DRHO,LDT L$,LDT SS1.LDT $1RH,LDT GR-LDT HTEN.LDT TNRA.CNL CNTC.CNL MRES.CNb CIMP.DTE CILM.DTE IMQF.DTE IXXM.DTE TENS.DTE DT.BHC TT4.BHC PAGE{ 24 410,250 254,000 2277 43125 141~677000 3441~565 1 093 10~ 063 :25 0 A00 -2 4710 000 87900 396 800 ~ 099 382 750 258..70 ,2~1 5~,219 1.40~,000 ,886 3251'725 ,099 248,625 255,625 0 000 9 461~ 00 10 800 o~ '0 01 468;250 252,875 2,240 14 .000 2,828 3183,736 1,103 228,125 214,250 458 000 40 200 LIS TaPe Yeriflcation Listing Schlumberger AlasKa Computin~ Center G~ BHC 69.813 TENS.BHC HTE~:Bi~C 1.419.000 6~I.LDT PEF,LDT 5,359 QLS.[~OT 5U,50T 350,500 LL,~DT $S~.LDT 335.250 LSHV.LDT LSRH.LDT 2.369 bURH.LDT TENS.bDT 4585.000 ~TEM.LDT NPHI.CNL 30.100 RTNR.CNL NPOR.CNL 29.7~1 RCNT.CNL CFTC.CNL ~009.i02 GR.C~L MTE~.CNI. 130.21~ ~TEN.CNL DEPT, 6200.000 IMPM.DTE 3.I00 Ib~.DTE 3.!72 IIRD.DTM 301.000 SFLU.DTE 6.648 MTE~.DTE 129.931 TT1.BHC 643.200 G~.BHC 48.781 HTEM.BHC 1433,000 PEF.LDT 2.'727 ~U.I. DT 417.250 SS?.I. DT 346.750 LSR~.LDT 2.270 TENS.bDT 4590.000 NPH?.CNL 26.774 NPO~.CNL ~8.45~ CFTC,CNL 1243,835 MTEM,CNL 129.93! CIDP.DTE CILD-OTE IFRE.DTE IIXD.DTE SP.DTE DPBI.bDT QLS,bDT Lb,bDT LSHV.bDT LURH.LDT STEM bDT RTNR CNb RCNT CNL HTEN.CNb DEPT. 6100.0o0 I~PM.DTE 7.844 IL~.DTE 8.250 IIRD.DT~ 113.250 SFL~].DTE 7.691 MTEM.DTE 129.481 TT~.RHC 642.000 GR.BHC 6~.500 HTE~.BHC 1464.000 PEF.LDT 3.14~ LU.LDT 445*250 SS~.LDT 363.250 LSR~.LDT 2.234 TEN$.LDT 4485.000 NPH!.C~L 38.0~7 NPO~.C~L 31.195 CFTC,C6~I, 724.014 MTE~.CNI. 129.481 CIDP,OTE CILD.OTE !FRE*DTE IIXD.DTE SP,DTE MRES,DTE TT2.BHC TEN~.BHC DPHI.LDT Lb.bDT LSM¥,LDT LURH.LDT ~TEM.LDT RTNR.CNL RCNT.CNL GR.CNb WTEN.C~b DEPT. 6000.000 I~PW.DTE 6.516 IL~.DTE 6.445 IIRm.DTE 128.500 SF~!~.DT~ 5.~44 CIDP.OT5 CILD.DTE IFRE.DTE IIXD.DTE SP.DTE 6-FEB-1994 08:19 ~585.000 MTEM.BHC 15.38~ RHOB~5DT -0'019 QMS.bDT !.90.875 bITH,bDT 1256.000 SSHV.LDT 2.3~9 CALl.bDT 130.2i2 ~RES,~DT 3,443 TNPH,CMb 3!9~.726 RCFT*CNL 69.81~ TENS,CML 14i9,000 GR,CSG 365.500 374.~50 20.000 38.7~9 -50.469 1.106 437.600 4590.000 21.584 -0.021 2~1,125 1255.000 ~2 931 3.049 3420.6~1 48.781 1433.000 19.000 22.438 20 000 -5,363 I 112 442 800 4485 000 23 751 -0 040 241.500 1256.0u0 2.2~0 129.481 3.418 2978.689 66.500 ~464.000 144.375 146.125 20.000 9,680 5.691 IDPH.DTE IbD,DTE IDQF,.DTE IIRM,DTE GR,DTE TT3,BHC ~TEM,S~C RHOB*bD'r QMS.bDT bITH,bDT SSHV bDT CALf bDT MRES bDT TNPH,CNb RCFT.CNL TENS.CN~ GR.CSG  2 130-1 916 0.031 111.875 1291 '000 13,695 1.108 31.496 986.568 .4585. 000 999. 250 MRES.BHC DRHO.LOT bM.bDT SS1.LDT SI~,LDT ,bDT HTEN.LDT TMRR.CNL CNTC.CNL MRES.CNL ~,734 2.670 0.000 294,000 48.781 1433.000 645 .200 129 931 2 294 0 041 154 250 1290 000 12 461 1,I06 28- 73 1193.482 4590~000 -999.250 CIMP.DTE CIbM.DTE i~OF.DTE IIXM DTE TENS DTE DT BHC TT4 BHC MRE$,BMC DRHO.LDT bM.gDT SSi.bDT SiRH.LDT GR.LDT HTEN bDT TNRAiCNL CNTC tnb MRES,CNL IDPH.OTE 8 ~98 CIMPoDTE ILD.DTE 8:,64 CILM.DTE !DQF~DTE 0.000 IMQF.DTE IIRM.DTE !14.563 IXXM.DTE GR.DTE MTEM,BHC ~ , MRES.BMC RHOB.LDT ~,~ DRHO,LDT QMS.bDT . bM.bDT , . 0 $$1.LDT 0 $1RN . ~ .LOT SSHV bdt 1 .bDT TNPH.CNb . CNTC.CNL TENS.¢~L 448~:000 MRES.CNb GR.CSG -99 ~50 TDPH,DTE ILD,DT£ IDOF,DTE IIRa,DTE GR,DTE 6.922 CIMP.DTE 6.840 CILM.DTE 0.000 IMQF.DTE 146.'250 IIXM.DTE 80.063 TEN$.DTE PAGE: 25 366. 253.250 6~ .318 ,813 1411'000 ,005 3029'328 1.108 315,000 0,000 !4,500 4590,000 106'800 438,800 1:,I06 0 012 439 750 259 750 ~433 00~ I',106 127.438 121, 8 199 000 96,400 447.600 464 ~$0 260 500 2 197 66 SO0 1464,000 3.497 2500.~83 1,112 15 375 5 :ooo 0,000 2 709 4405:000 988'86£~ 000 69£ et 000 0 8E6 06 88; ~9 oooeeo),; 000*9/. oos: s *06~ O~L ~98g 00g'98~ 0 S~ * 00~ 80~ 006 E6 qND*D&ND qND'VBN~ ~0'~I~ Oo 3~"dWID q~J°D~ND &Oq'S9 ~Oq'gq 0o~ ~£) 000'06~; ~£0'0 000°)8) O00°6E~I 999'9) 000 0 gL8 9 0~ 666- 000 06[) E; L£ 089 E; ggE,0 000~80~1 O009L 000' 000.~89~o OE O~g 666- 000 §0)~ 000 ~LE L8 ~£0 0 ~og ~ LBO 00[ OOO 80Ut qND*gN3% q~D*HdN~ ~dq'ggO ~q'9OH~ 3&O'AOOi 3&~'HdOI OOO'6E~I 999'9~ [[£'8L~) S60'~ 8EL*L~i ETg'~ O00!~gt eto o SL~'O OOE~[~E L~) [ 000'0[ SLE'S~; D~3*a9 000'80~; qND'g~3& O00'9L qHD'HdN& 9gS'E ~Qq'~3HW 69~'8~t I~q'IqVD 69['~ ~q'AHgg O00'SS~; ~Oq'ggO /~O'O- DHg°~W 000'06~ M~'M'O~I O00'Og 3~O*GqI 000'00[ 3~O*HdOI 000'86~ DDD'HD 000'80~1 qND'DNM~ E90'08 qND'IMDH qND'HdN£ tgE'E ~q'g3H~ LSO'6g! £qq'lqVO 6~"~ ~q'AHgS O00:9gg/ ~Qq'~OHM 098!8 DHg*££& O0i 6l:80 966;-a3A-9 qNJ'~D ELg'E9~g 'INO'O£mD qND'&ND~ qbe'g[ qNO'oOdN qND'HN~ ~'P~ 'lNO'lHdN £Gq'WM~M O00'§~b ~Q'I'SN3~ £~q'AHgq 09~'86g ~O'l'qq 0~'8[~ £O'l'iiq £oq*~"lO LOL*~ ~q"l*a3d z~q'lHdO C~O*6E~ DH~'N3£H 3£0'3~jI ~56'0[ Mlfl'~qI 3~O'OqlJ ~90'q[ 3,~0'80~0 OOO'OOR§ '£d30 ~NO'SD EE~'66L q~O'&~3~ OgZ'SE qNO'~OdN %Qq'N~flq LV~'~ £Oq'HH~q ~,(]q' iHd~ OOO'80~l DHg'SN3~ ~90'08 JHa'~fi ~I~ TaPe Verification Listln~ 5cmlumberger AlasKa Computin~ Center DEPT 5700.000 CIDP.DTE IMP;4:DTE 3.201 CILO.OTE Ib~.DTE 3.018 IFRE.OTE IlRD.DTE 326.250 IIXD.DTE 8FLU.DTE 5.671 SP.DTE MTE~.DTE 127.175 ~RES.DTE TT~.BHC 605.600 TT2.B~C GP.BHC 61.063 TEN$.B~C HTEM.BhC !425.o00 DPHI.LDT PEF.LDT 3.45~ OLS.LDT LU.LDT 379.~00 Lb,bDT SS?.LD? 339.500 LSHV.bDT LSR~.LDT 2.3~8 bURH.LDT TEN$.LDT 4280.0C0 ~TES.DDT NPHI.CNL 33.819 RTMR.C~L NPO~.CNL 38.245 RCNT.CNb CFTC.CNL 87~.973 GR.CND MTE~.CNL I27.175 HTEN.CNb 6'F~B-t 994 20 0 11.1 1.1 435.2 4280.0 19.0 208.5 1255.0 2.3 127.1 3.5 2695.5 61.0 1425.0 DEPT. 5600.000 ClDP.DTE 513.5 I~p~.DTE 2.746 ClLD.D?E 505.7 lb~. .DT~ 2.570 IFR~..DTE 20.0 IIR~ ~T~ 4,1.250 IIX~.~TE 93.0 $FbI.!~DTE 9.258 SP.DTE -51.0 MTE~.DTE 126.6~3 aRES.DTE ! 1 ~ RHC 610 400 TT2.BNC 444 8 GP BHC 32.094 TENS.BHC 4235.0 HTENiBHC 1455.000 DPHI.LDT 15.4 PEF.LDT 2.~90 OL&,LDT -0.0 LU.LDT 375.500 LL.LDT 210.6 SS2.LDT 342.250 LSHV~LDT 1255.0 LSR~.LDT 2.328 LURH.LDT 2.3 TENS.bDT 4235.000 ~TEM.LDT 126.6 NPHI.CNL 22.131 RTNR.CNL 2.5 NPO~.CNL 24.092 RCNT.CNL 3673.B CFTC.Cab 1478.314 GR.CNb 32.0 MTE~.CNL 125.6~3 HTEN.CNL 1455.0 DEPT. 5500.00U CIDP.DTE 249.8 I~P~.DT~ 3.8~0 CILD.bT~ 253.6 lb~ DTE 3.771 IFRE.DTE 20 0 IIRD:OTE 212.695 IIXO.DIE 2410 SFLI.'.DTE 3.801 SP.DTE 34.1 MTE~.DT~ !~6.059 MRE$.DTE 1.1 TTI.BMC ~83.~00 TT2.B~C 472.8 HTEN.~HC ~405.009 DpHI.bDT 15.9 PEF.LDT 3.539 QI.$.b~T -0.0 L!I.!.DT 360.000 Lh.bPT 195.~ S$~.I. DT 339.000 LSNV.bDT 1255.0 LSR~.LDT 2.354 LU~H.bPT 2.3 TENS.I.DT 41~0.000 MTE~.bDT 126.0 NPHI.C~L 42.!,20 RTNR.CNL 4.0 NPOP.CNL 43.163 RC~T.C~:L 2181.4 CFTC.C~,L 531.701 GR.C~I, 56.6 50 IDPH.OTE O0 ILP.DTE O0 IDOF.DTE 38 IIRM..DTE 09 GR.:DTE 30 O0 TT3.0HC O0 MTE~.B~C 72 RHOO.bDT 19 OSS.LDT O0 5ITH.LDT O0 $$HV.LDT 22 CALI.~DY 75 ~RES.bDT 46 TNP~.CN5 82 RCFT.C~L TEN$.C~L O0 GR.C.G 2.561 2.580 O. O0 308.~b0 61.0~3 1425.000 609600 12~ 175 0 023 113 313 1290 000 12 523 1 130 35 855 773~591 4280.000 -999~50 O0 IDPH.DTE 1.946 50 ILD'DTE 1.977 O0 IDQF . ~E 0.000 0 IIRM,DT£ 361,000 ~1 GR'DTE 32.094 41 HTEN.DTE 1455.000 O0 TT3.B}'{C 633.600 O0 ~TEM.B~C 23 RHOB.bD~ ~.346 05 OSS.LDT 0.019 25 LITH.~DT 147.750 O0 SSHV.LDT 1290~000 13 MRES.hDT 1~1 33 TNPH.CD~b 24.145 59 ~CFT.CD!L 1362.540 94 TENS.CNL 4235.000 O0 GR.CSG -999.250 75 IDPH.DTE 25 ILD.DTE O0 IDQF.DTE 78 IIRM.DTE 25 GR.DTE 47 HTEN.DTE O0 TT3.B~C ~TE~.BHC 43 RHOB.LL~ 24 QSS.L[.T 5O LITH.bDT O0 54 CALI.LDT 50 ,RES.bDT TNPH.C~b 35 RCFT.C~h 25 TENS.CN4 4.000 3.939 0.000 248.125 56 625 1405~000 694.800 126.050 2.387 0.035 110.!25 1290.000 14.523 1.147 45.496 525.284 4140.000 P E I~OF.DTE IIX~ DTE TENS DTE DT BHC TT4.BHC MRES.BHC DRHO.LDT bM.bDT SS1.LDT S1RH'LDT G~.LDT HTEN.LDT TNRA CNL CNTC CNL MRES.CNL CI~P.DTE CILM.DTE IMOF.DTE IIXM.DTE TENS.DTE DT.BHC TT4.BHC MRE$,BHC DRHO.LDT bS LDT SSI~LDT $1RH.LDT GRoLDT HTEN.LDT TNRA.CNL CNTC.CNL MRE$.CNL CIMP.DTE CILM.DTE IMOF.DTE IXXM.DTE TENS.DTE DT BHC TT4:BHC MRES.BHC DRHO.LDT LS.I.,DT SSI.bDT $1RH.LDT GR.LDT HTEN.LDT TNRA.CNL CNTC.CNL MRES.CNL PAGE: 27 lili°°° 000 21~000 4280°000 102'.000 439'600 1.I30 0,004 398,000 251.125 2 30t 000 3 215 2831,155 1,130 364,000 -7O 388'0~0 4235,000 104,800 449'200 398 500 252 250 2 299 3 094 1451 000 3641 64'~ I 141 265,000 0.070 7.9 7 4140,000 I08,600 469,200 1,147 O. 8 375.~I0 1.147 5IS Tape Verification bistlnq ~chlumberger AlasKa Computing Center MTE~,CNL 1~.050 HTEN,CND DEPT. 5400.000 CIDP.DTC I~PH.DTE 1.867 CIbO.OTE IL~.DTE 1.~66 IFRE.DTE IIRD.DTE 512.500 IIXO.DTE 5FbU.DTE 5,734 SP,DTE MTE~.DTE !25.938 MRE$.DTE TT1,BHC 651.200 TT2,BHC GR.BMC 43.438 TEN$.MMC HTE~.BHC ~413.000 DPHI.LDT PEF.LDT 2.697 QL$,LDT LU,LDT 4]7.250 Lb.LDT SS~.LDT 349.500 LSMV,bDT LSRN,LDT 2.242 bORH.bDT TENS,bDT 4075.000 STEM.bDT NPHI.CNL 29.365 RTMR.CNL NPOP.CNL 30,389 RCNT.CNL CFTC.CNL ~070.352 GR,CNb MTE~.CNL 125.938 MTEN,CML DEpT 5300.000 CIDP,D%"g IMPH[DTE 6,395 CII. D'DTE IL~.DTE ~.242 IFRE.DTE IIRD.DTE 139.000 II~D.DTE SFLU.DTE 6,098 SP,DTE ~T .DTE 125,2.6 MRE$.DTE T ..BHC 634.400 TT2.0MC G~.BHC 82.9]8 TEM$.BMC HTEN.BHC ~417.000 DP~I,LDT DEF.LDT 3.2!5 QL$.LDT b;I.LDT 342.50b LL.LDT S$~.LDT 336.500 LSHV.L~T bSR~.I.DT 2.]87 LDRH.bDT TENS LDT 40~5.000 STEM.bP? NPHI:CNL 33.83~ RTNR.CNb NPO~.CML 35.383 RCNT.CNL CWTC.CNL 814.6~! GR.CMb MTE~.CN[. 1~5.206 HTEN.CML DEPT. 5200.000 CIDP.DTE I~P~.DTE 3.287 CILD,DT£ IL~.DTE 3.248 IFRE.DTE IIRD.DTE 242.375 IIXD.DTE SFLU.DTE 3.367 SP.DTE MTE~.DTE 124.419 MRE$.DTE TT~.BHC 678.40~ TT2.8~C GP.BMC 70.43~ TEN$.BMC HTEN,BHC 1473.000 DPH£,LDT PE~.LDT 3.551 QL$.bDT LII.LDT 38~.000 L~.bDI M$~.LDT 384.75~ LS~V.LDT LSR~.LDT 2.307 LURM.LDT T~N$.LDT 4035,000 MTEM.LDT NPHT.CNL 42.797 RTNR.CNL 6-F~::B-1994 08:19 1405. 658. 673. 20. 107. -32. 1, 444. 4075. 23, -0 . 244, 1256, 2. 125, 2. 3063. 43. 1413. 155. !57. 20 1, 436, 4015. 12. 182 2. 125. 3. 2636. 1417. 296. 300. 20. 2~. 32. 1. 405. 4035. 12. '0. 212. 1256. 124. 4. 000 GR,CSG -999,250 000 IDPH.DTE 500 Ibo. DTE 000 IDOF.DTE 875 IIRM,DT£ 500 GR.DT£ 140 HTE~.DT~ 800 TT3.~HC 000 MTEM.B~C 902 RHOBohDT 019 QS$*LDT 375 BITH,bDT 000 SSH¥.bDT 240 CALI.LDT 938 MRES.LDT 9~7 TNPH.CNL 842 RCFT,CN~ 438 TEN$,CN~ 000 GR, S~ 500 IDPH.DT~ 625 ILD,DTg 000 IDOF,DT~ 891 II~M.OTE 594 GR,DTE 154 HTEN,DT~ 000 TT3.BHC 000 ~TE~.BHC 489 RHOB,4DT 033 OSSbDT 125 LITH:~DT 000 SSHV.L~T 383 CALl,bDT 206 MRES.UDT 448 TNPH.CNL 868 RCFT,C~h 938 TENS.CN4 000 GR.CSG 250 IDPH,DTE 250 ILD.DTE 000 IDQF.DTE 219 IIR~,DTE 094 GR.OTE 163 HTEN.DTE 200 TT3.BMC OOO ~TEM.B~C 025 RHOB,LDT 02~ QSS.b~T 250 LITH.L~T 000 SSM~.bDT 313 CALl,bDT 410 MR~S,bDT 277 TNPH.CNb 1 519 1:48] 0.000 492.500 43,438 1413.000 654.800 125.938 2.256 0.026 160'875 1290.O00 12.39! 998.325 ~075,000 999.~50 6,426 6.. 3'~0 0.000 151 000 82 .938 4 7 1614 000 800 125 206 2 444 0 046 I01 438 1290 000 14 891 I 154 35 430 756 4015 00 -999.250 3 371 3 328 0 000 287 250 70 438 1473 000 678. 107.125 1290.000 14.!88 1.163 42.569 ClMP.DTE CILM.DTE IMOF.DTE IIXM.DTE .BHC TT4.BHC MRE$.BHC DRHO.LDT ~$.LDT SS!.LDT S1RH.LDT GR.LDT HTEN BDT TNRA CNb CNTC CNb MRES.CNb CIMP.DTE CI~M.DTE IMOF.DTE IIXM,DTE TENS,DTE DT'SUC TT4'BHC MRES.BHC DRHO,LDT bS,LDT SSI.BDT S1RH.LDT GR.LDT HTEN bDT TNRAiCNL CNTC CNL MRES CNb CIMP.DTE CIbM.DTE IMOF.DTE IIXM.DTE TEN$.DTE DT.BHC TT4.BHC MRES.BHC DRHO.LDT bS.LDT S$1.LDT SIRH.LDT OR.bDT HTEN.LDT TNRA.CNL PAGE: 28 515 000 535:.500 4~.:000 O94 40'75,000 106,200 446,800 1.140 0,003 463,00'0 255,375 2,230 43'438 1413,000 ,921 306~,168 1,140 !0 1'5 .~ 5 16~, o0 0 4~0 ooo 600 435 200 1. ~54 35 5 0 26~ 000 1417~000 3,278 o :ooo 30 500 , :ooo 461 4035,000 106,900 466,800 t,~63 0, 0 405,20 297-500 - 149 LIS Tape Yerification Listing Schlumberger Alaska Computing Center NPO~ C~45 41.332 RCNT.CNb CFTC :CNb 558.32q GR. MTE~.CNb 124.419 DEPT. 5iOO.000 C~DP.DTE IgPH.DTE 2.520 CILO,DTE IL~oDT~ 2.57~ IFRE.DTE IIRD.DTE ~32.750 %IXD,DTE SFLU.DTE 3.752 SP,DTE MTE ~,' ~ DT~ 123.7~4 ~RE$,DTE TT~.BHC 609.209 TT2.BHC GR.BMC 37.844 TEN$,BHC HTE~.BHC ~41,000 DPHI.LDT PEF,LDT 2.848 QLS,LDT LU,LDT ~01.250 Lb. LDT SS2,LDT 343.250 LSHV.LDT LSR~.I,DT 2,28~ bURH.LDT TENS,bDT 401.5.000 MTEM.'LDT NPHI.CNL ~9.0~8 RTNR.CNb NPO~.CNL 33.917 RCNT.CNE CFTC.CNL 1206.457 GR.CNb MTEg.CNL 123.744 NTEN.CNb DEPT 5000.000 CIDP,DTE I~P~iDTE 3.1~ ClLD.DTE Ib~ DTE 3.145 IFRE,DTE IIRD.DTE 255,375 IIXD,DTE SFLU.DTE 2.971 SP.OTE MTE~.DTM 123.40b ~RE$.DTE TT~.BHC 696.800 TT2.BHC GR.SHC 65-31.~ TEN$.BHC HTEM.BHC ~432.000 DPHI.LDT PEF.bDT 3.547 UbS.bDT LI{.LDT 349.250 Lb.bDT $S2.LDT 339.750 LSH~.EDT bSRN,LD? 2.363 bURH,LDT TENS.bDT 4065.000 STEM.bDT NPHI.CNL 37.843 RTMR.CNL NPO~.CNL 38.96t~ RCNT.CNL CFTC.CNL b80.221 GR.CNb MTE~.CNL 123.400 HTEN.CNL D~pT 4900.000 CID~ DTE IMP~:DT~ '4.5~6 CILb:DTC Ib~.DTF 4.539 IFRE.DTE IIRD.DTE 197,175 IIXO,OTE SFbU.DTE 4.~36 SP.DTE MTE~.DTE 122.675 ~RE6,0T~ TT3.BHC 639,200 ~T2.8HC G~.RHC 79.438 TEN$.BHC HTEW.BHC 14a7.000 DPHI,LD~ PEF.LOT 3.633 Qb$.LDT LU,LOT 349.00U LL.L~T $S~.LDT 3]8.500 b$~V.LDT hSRH.I.DT 2.~61 LUSH.bDT 6-FER-lg94 05:~9 2136. 70. 1473. 410. 418. 20. 49. 22. 1 420': 4015. 2~. 227. 1255. 2. 1.23, 3, 3101, 37. 1441, 299, 3~4, 20, 32' 43. 4~6. 4065, 15. -0 . 193, 1255, 2. 123. 3. 2467. 65. 1432. 227. 227. 20. 21, 43. 1. 446, 38U5. 14. 194. 1255. 2. 448 RCFT.CNb 438 TEN$,CNL 000 GR.CSG 750 IDPH,DTE 750 ILO,DTE 000 IDOF,OTg 500 IIRM.OTE 500 GR,DTE ~66 HTEN,DTE 400 TT3,BHC 000 MTEM.BHC 099 RHOB,bDT 000 bITH 000 ~89 CAbI'bDT 744 MRES,bDT i22 TNPH.CNL 559 RCFT,CNL 844 TENS.CNL 000 GR-CSG 500 IDPH,DTE 250 ILO.DTE 000 IDOF*DTE 844 IIRM,DTE 594 GR.DTE 170 HTEN.DTE 400 TT3,BHC 000 ~TE~BHC 07{ RHOB.~DT 008 OSS.bDT 375 LITH,LDT 000 SSHV.LDT 371 CALI.~DT 406 ~RES.LDT 833 TNPH,CNb 636 RCFT*CNb 313 TENS.CNb 000 GR.CSG 500 IDPH.D3£ 875 ILD,DTE 000 IDOF.DTE 031 IIRM.DTE 688 GR.DTE 178 HTEN.DTE 40O TT3.BMC 000 MTE~.B~C 250 RHOB.bDT 005 QSS.bDT 000 LITH.LDT 000 SSHV.bDT 371 CALl.bDT 543 562 CM".fo CNb 4035:000 MRES:CNL -999. 250 2 434 2i387 0 000 360.000 37 844 1441 000 61~ 60.0 12 744 2 302 0 024 152125 1289 000 12 672 1 166 29 683 1032 353 4015 000 -999 250 CIMP.DTE CIb~.DTE IMOF.DTE IIXM.DTE TENS DTE DT:BHC TT4.BHC MRES.BHC DRHO.LDT b$,LDT S$1,LDT S1RH,LDT GR.LDT HTEN,LDT TNRA CNL CNTC:CNL NRES.CNL 3 0 000 296 500 65 313 3i 000 1~9 800 123 406 2 401 0 031 106 875 1290 000 15 586 1 .170 39 499 640 957 065 000 ~999:250 IL~ DTE IMOF DTE IIXM DTE TENS DTE DT BHC TT4 BBC MRES.BHC DRHO,LDT LS*LDT SSl.LDT S1RM.LDT G~,LDT HTEN,LDT TNRA.CNL CNTC.CNL MRES,CNL . IIXM.DTE TENS.DTE 12 . ES.BBC DRHO.LDT 10~.313 SSt.LOT ooo 14Z820 PAGE{ 29 2069,520 1,163 39 ,500 oo 18; 88 4015, ~0 93,I 0 425, 0 1.1~6 4~7 0 3 844 1441 000 343~ '906 '1t6 1,1 6 '!° 0 0 !3,4 7 4065,0 0 I06,500 466.400 1;'170 0,020 368'000 256,500 2,295 65,313 1432,000 3,515 2424,2~96 1.170 217.895 220,00 0 000 6 9?7 3865 000 102 000 446 000 1 178 0,036 368,500 262.000 2,2~4 79.4 8 ~IS Tape Verification I. Isting ~chlumberger AlasKa Computing Center TENS,bDT R865,000 ~TEM,LDT NPMI.CNL 34.763 RTNR,CN5 NDOR.CN5 34.83i RCNT.CNL CFTC.CML 755,867 GR.CNL MTE~.CNL i~2.675 MTEN.CNL DEPT 4800.000 CIDP,DTE I~P~:DTE 4.156 CfL$,DTE IbM,DTE 4,160 IFRE,QTE IIRD,DTE 221.875 IIXD,QT£ SFLU.DTE ~,359 SP,DTE MT£~,DTE 12 .25! ~RE$,DTE TT~,BHC 658,400 TT2,8~C G~ BHC 68 813 TENS,BBC HTE ~ BBC 1444,000 DPHI,bDT PEF.LD~ 3.711 QS$.LDT ~U,LDT 362,500 $$~,LDT 33~.750 LBHV,LOT LBRH,LDT 2,350 LURH.LDT TENS,bDT 3880,000 ~TE~,LDT NPHI.CNh 37,034 RTNR.C~D NPO~,CNL 36,879 RCNT,CML CFTC,CML 762,002 GR.C~b MTE~,CNL 122,2~1 HTEN,CNL DEPT. 4700,000 C[DP,OTE I~PW,DT¢ 7.484 CILO,OTE IL~,DTE 6,4~0 IFRE,DTE IIRD.DTE 125,250 II×D DTE $~LU,DT~ 7.75~ BP:DTE MTE~.DTE 121,887 ~RF$.DTE TT~,BHC 773,600 TT2.BHC G~,BMC 61.6~5 TEM$.B~C HTEM.BHC ~444.000 DPHI.LDT PEF.LDT 3.932 ~bS.bOT LU.LD~ 470.75~ [,G,LDT S$~.LOT 380.500 LSHV,LDT bSRH,LDT 2.191 LURH.LDT T~N$,LDT 3805.000 MTEM.LDT NPHI.CNL 50.149 RTNR,CNL NPO~.CNL 44.094 RCNT.CNL CFTC,CML 455.01~ GR.CNL MTE~.C{~L 121.887 HTEN,CML DEP~ 4bOo.000 CIDP,DTE IMp :DTE 3,480 CILO.OT£ IL~.DTE. 3.314 IFRE.DTE IIRD.DTE 266.750 !IXO.DTE BFLU.DTE 2.979 SP.DTE MTE~.DTE 121,212 ~RE&.DTC TTI.SHC 707,200 TT2,bMC GE.BBC 66,750 TENS.aMC HTE~.BHC 1392.000 DPHI.LDi PEF.LDT 3.455 ~LS.LDT LU.LDT 38b.750 LL.b~f 6-F[,8-1994 08:~9 122.675 BEES.bDT 3,518 TNPH.CNL 2.466.027 RCFT,CNL 79,438 TENS,CML 1447,000 GR,CSG 257,750 IDPH,DTE 26!,250 IbO.OTE 20,000 IDQF.DTE 26,4~6 !IRM,DTE 41,031 GR,DTE 1.176 HTEN~DTE 448,800 TT3.BHC 3860,000 MTEM.BHC 17,~54 RMOB,hDT -0,029 QS$,bDT 195.375 kITH,bDT 1~54,000 $BHV,bDT 2,350 CALI,LDT 122,281 BEES'bDT 3,424 TNPH,CNL 2576,289 RCFT,CNL 68.813 TENS,CML 1444.000 GR,CMG 135.125 IDPH,.DTE 138.375 ILD,DTE o.ooo 53 75 GR.DT~ 1,184 HTEN.DTE 518.400 TT3.BMC 38051000 MTE~.B~C -O 015 QSS.LDT 266~750 LITH~LDT 1~55.000 $BHV.LDT 2.199 CA5I.LDT 121.887 ~RE$.LDT 4.421 TNPH.C~L 1996.527 ECFT.CNL bl.625 TENS,CML 1444.000 GR,CSG 313.000 IDPH.DTE 314.750 ILD.DTE 20,060 IDOF.OTE 39.125 IXRM.DT5 58,625 GR,DTE 1.1~6 HTEN.DTE 472,800 TT3.BMC 3630oO~0 MTEM,BhC 18,753 RHOB.LDI '0.00! QS$.bDT ~18.875 L1TH.bDT 1. 178 :777 681.003 3865.000 -999,250 3.877 3.824 0 000 225 25O 68 813 1444 000 662 400 122 281 2 365 o 028 13 383 I t76 37 07! 696 070 3880 000 -999 ~50 7 398 7 0 000 147 125 61 625 1444 000 780 000 0.001 148.125 1290.000 14'727 1 !84 47 977 440 517 3805 000 -999 250 HTEN.bDT TNRA.CNL CNTC,CNL BEES.CML IMPDTEIL~:DTE IMQF.DTE IIXM.DTE TENB.DTE DT.BMC TT4.BMC MRES.B~C DEMO,bDT LB'bDT M$1.LDT $1RH'bDT GR.L~T HTEN:~T TNRA Nb CNTC.CN~ MRES,CNL CIMP.DTE CIbM,DTE IMQF.DTE IIXM.DTE TEN$,DTE DT.BMC TT4'BHC MREB,BHC DRHO.LDT bM.bDT SSI.bDT S1RH bDT GE:bDT HTEN.LDT TNRA.CNL CNTC,CNL MRES.CNb 3.193 CIMP.DTE 3.174 CIbM.DTE 0.000 IMQF.DTE ~81.750 IIXM.DTE 66.750 TENS.DTE 1392.000 DT.BHC 703.200 TT4.BHC  DRHO.LDT 03 LB.bDT 117.625 S$1oLDT PAGE: 30 2454~865 1,178 40, 5 40'~ 0 :ooo 008 3880'000 105,700 451'200 ~ 176 002 376750 1444 254~ 133.500 155'875 0.000 16,031 3805,000 116,900 518,000 1.184 00i4 50 ! 00 2 1444,000 4,165 1839,176 1.184 287.000 301,500 0,000 15,398 3630.000 110.300 471.200 ,186 0,0~8 412,2 0 264'000 Tame Verification Listin~ ~chlumberger AlasKa Computing Center SS2.LDT 352.000 LSHV.bDT DSRH.I. DT 2.299 LdRH.hDT TENS.bDT 3630.000 ~TE~,LDT NPHT.CNL 43.898 RTNR.CNL NPOR.CNL 43.466 RCNT.CNL CFTC.CML 678.957 GR.CNL MTE~.CNL 121.2~2 ~TEN.CN~ DE~T 4500.000 CIDP,DT~ I~ ~:DTE B,~71 CII. D.DTE IL~.DT~ 3.4~ IFRE.D~E IIRD.DT~ 266.000 II×D.DTE SFLU.DT~ 3,064 SP.DTE MTEM,DTE 120,8~9 ~RE$.OTE TT1,Bt{C ~74,000 TT2,B~C G~,BHC 77,938 TEN$,SHC HTEN,BHC 14~4,000 DMHI,bDT PEF,LDT 3,650 LU.LD~ 353.250 LB.LDT $S~.LD ~ 337.500 [.SHV.bDT bSRH bDT 2.359 L~RH,LDT TENS:bDT 3~35.000 M~E~,LDT NPHI.CNb 4!.968 RTNR.CNL NPOR.CNL 42.065 RCNT.CNL CFTC.CML 629.$4~ GR.CNL MTE~.CNL 1~0.819 HTEN'C~L DEPT. 4400.000 CIDP.DTE I P~.DI'.... ~ 162 CILD.DTE L~.DTE 3.2~9 IFR£,DT£ IIRD.DTE 255.000 II×D.DT~ SFL!!.OTE 2.389 SP.OTE M~E~,DTE 120,706 ~RES,DTE TT1.BHC 7i0.800 TT2.:~HC GR.BRC 68.875 TENS.BRC HTEN.BHC 1419.000 DPHI.LDT PEF,LDT 3.4~0 ~L$,LDT LU.LDT 441.500 LL.LOT SS~.LDT 396.750 LSHV.LDT LSRH.LDT 2.238 LURH.bDT TMNS.LD~ 3560.000 gT~M.LDT NDHT,CNL 43.092 RTNR.CNL N~O~.CNL 43.278 WCNT.CNb CFTC.CML 538.~3 GR.C~L DEPT 4300.000 CIDP.DTE I~PH:DTE 3.254 CILD.DTE E~ DTE 120.256 M~TI:BHC 72~,800 HT~.BHC 142~o0~0 ~PHIohDT 6-F~'.B-1994 08:19 1255.000 SSH¥,LD'I 2.311 CALi,b t 121.212 MRES,LDT 3.988 TNPH.CNL 2320'495 RCFT.CNL 66.750 TENS.CML ~392.000 GR.CSG 314.500 IDPH,DTE 316,000 IbD.DT~ 20.000 IDOF,DTE 37.~25 IIRM,DTE 53,906 GR.DTE 1,1.93 HTEN'DTE 465 ~O0 TT~,BHC 3635: 00. 15,705 1~.500 [,,ITH.*LDT 12 ,000 8$HV,bDT 2 ~&5 CALI.hDT 120 19 ~RES,bDT 3 9~3 TNPH.CNL ~9 565 ~cFz'c~ 2277:938 TENS.CML 1424.000 GR.CSG 301.500 IDPH,DTE 96.500 ILD,DTE 220.060 IDOF,DTE 44'250 IIRM.DTE 46.625 GR-DTE 1.195 HTEN,DTE 502.400 TT3.BHC 3560.000 MTEM.B~C 16.326 RHOB,bDT '0.039 OS$.LDT 239.625 LITH.bDT 1253.000 SSHV,LDT 2.234 CALl.bDT 120,706 MRES,bDT 4.226 TNPH,CML 2012.000 RCFT,CNb 68.875 TENS.C~{L 1419.000 GR.CSG 8.250 IDPH.DTE 22.500 ILD,DTE 0.000 IDOF,OTE 28.469 IIRM,DTE 37.6~8 GR.DTE 1,1.96 HTEN.DT£ 494.4U0 TT3.B~C 3555.000 MTEM.BH¢ 25.7~6 RHOB.LDT 1289 000 S1RH.LDT 13:094 GR'.LDT 1.186 HTEN.LDT 41.025 TNR~.CNL 588.491 CNTC.CNL ~630999:250000 MRES.CNL 0 000 272 750 77 938 142~ 000 67 200 0038 101 375 1289000 41.809 568,138 ~635.000 999,250 3.314 3,371 0.000 289,000 68.875 1419.000 716.400 120 7O6 2:,381 o: 45 134 75 1289ii00 13 48 1 95 43 166 !ii : 'goo 9912 o 3 139 3 098 0 000 292 250 58 344 1423 000 727 200 120 256 2.226 CIMP.DTE CIb~.DTE IMOF.DTE IIX~.DTE TENS,DTE DT.BHC TT41BMC MRES.BHC DRHO.bDT bS.LDT SSI,BDT S1RH,LDT GR,LDT HTEN.LDT TNRA.,CNb CNTC,CNL MRES,CNL CIMP.DTE CILM..DTE IMOF.DTE IIXM,DTE TEN$.DTE DT.BHC TT4.BHC MRES.BHC DRHO.LDT bS.LDT SSI.bDT S1RH.bDT GR.LDT HTEN.LDT TNRA.CNL CNTC.CNL MRES.CNL CIMP.DTE ClLN.DTE I~OF.DTE IlXM.DTE TENS.DTE 114. MRES.BHC DRHO.LDT PAGE{ 33, 66, ,. 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DT LU.[.DT ~10.750 LL.LDT SS2.LDT 358.250 LSHV.LDT LSRH.LDT 2.275 LURH.bDT TENS.I.~T 3415.000 ~TE~.hDT NPH!.CNL 44.500 RTMN.C~L NPOP.CNL 43.584 RCNT.CMb CFYC.CNL 558.040 GR.C5~L MTE~4.CNL 11.8.b~1 MTFN'CNL DEPT. 3900.0C0 CIDP.DTE IMP~.DTE 4.16~ CILD,DTE IL~.DTE 4.051 IFRE.DTE IIRD.DTE 190.1~5 II×D-DIE SFbU DIE 3.754 SP-DTE MTE~:DTE 1!8.175 ~RES.DTE TT~.BHC 766.400 TT2.BMC GR.BHC 72.563 TEN$.M~C HTEN.BMC 14~5.000 DPMI.bDT PEF'.LOT 3.3~6 QL$.LDT bU.LDT 461.000 L~.bDT SS~.LDT 367.000 bSHV.LDT bSRM.LDT 2.201 LURH bDT TENS.LDT 3395.000 ~TEM:bDT NPHI.CNL 46.246 RTNR.CNh NPO~.CNL 48.327 RCNT~CNb CFTC.CML 505.699 GR CML MTE~.CNL 1~8.175 HTEN[CNL oo.ooo SFb[!,DTE 47,094 SP,DTE TT~,~HC 807.600 TT2.BHC LU.LDT 3016.000 Lb. LDT $$~.LDT 465.000 LS~V.LDT LSRW.LDT 1.261, bURg.bDT TENS.LOT 3435.00~ ~TEM.bDT NPHI.CNT 69.981 RTMR.CNL NPOR.CNL 96.295 RCNT.CNb CF~'C,CNL 278.533 GR,CNL MTE~.CN[. 11'7.894 ~TEN.CNb DEPT. 3700.000 ClOP.DIE I~PM.DTF 4.379 CILD.DTE IL~.DTF 4.309 [FRE.DTE IIRD.DTF 199.875 II×D.DTE SFL~.DTE 3.980 SP.DTE 6-FEB-1994 08:1,9 3415 19 -0 228 1254 2 118 4 2104 63 14i0 220 220 20 19 64 1 532 3395 25 -0 263 1252 2 118 4 i927 7~ 1415 ~746 ~HOS.LDT .017 QSS.LDT .625 hlTH,bDT ,000 SSMV,LDT .277 CALI,hDT .6~1 MRES,bDT .!0I TNPH.CNh .063 RCFT.CML .~44 TENS,CML .OOO GR'CSG .500 IDPH.DTg .250 ILD.DTE .000 IDOF~DTE .688 IIRM.DTE .938 GR.DTE .217 MTEN.DTE .000 TT3-B~C .000 MTEM.BMC .542 RHOB.LDT .007 QSS,bDT .500 LITH.bDT .000 SSHV.bDT .211 CAbI,LDT .~75 ~RES.bDT .167 TNPH*CNL .734 RCFT,C~L ,563 TENS*CML · 000 GR.CSG 39.906 IDPH.DTE 46.906 ILO.DIE 20.000 IDOF.DTE 9.789 IIRM.DTE 69,000 GR,DTE 1.219 HTEN,DTE 528.800 TT3.BNC 3435.000 ~TEN.BHC 85.101 RHOB.bD~ '0.089 QSS.LDT 1299.000 LITH.LDT 1254.000 $$~V.bDT 1.240 CALl.bDT 117.894 MRES.LDT 5.563 TNPH.CNb i~91.960 ~CFT.CNb 10.406 TENS.CML 144!.000 GR.CSG 227 229 2O 24 63 ,125 IDPH.DTE .250 ILO,DIE .000 IDOF.DTE .047 IIR~.DTE .406 GR.DTE 1i8 681 2~324 0.034 140.250 1289.000 14.664 :]lo 43 40 341 -999.250 MRES.BHC DRHO.LDT bS.t, DT SS1.LDT S1R~.LDT GR.LDT HTEN.LDT TNRA.CNL CNTC.CNL MRES.CNL 0 500 23t ,250 72 563 1415:000 769. 200 11~. 175 229 0 026 147 625 1289 000 13 828 1 217 46 472 478 .377 3395 000 -999~250 CIMP.DTE C!L~.DTE IMOF.DTE IIXM.DTE TEN$.DTE DT..BHC TT4.BHC ~RES,BHC DRHO.LDT 5SeLDT S$1.LDT S1RH.LDT GR,LDT HTEN,LDT TNRA.CNL CNTC~CNL MRES.CNL 25 047 21 313 0 000 44 906 10 406 1441 000 8101400 117 894 1 246 0.001 1290.000 1288.000 13.086 1.219 93.254 268,347 3435.000 -999.250 CIMP DIE CILMiDTE IMOFDTE IIXM.DTE TENS,DIE DT.BHC TT4.BHC ~RES.BHC DRHO bDT SS1.LDT SiRH,LDT GR,LDT HIgH bDT TNRA:CNL CNTC.CNL MRES.CNL 4.398 CIMP.DTE 04.~05~ CILM.DTE . IMQF.DTE . . TENS.DIE PAGE: 33 1 210 0 034 434 000 267 500. 1410 000 3 860 2102 329 I 210 240.125 75O 000 123~700 532.400 1~ 217 0 015 494250 266 ?~0 2 141 7 56 141~ O0 ~ 92~ 1986 05 t 217 13 800 53~ 0 40 2806 000 27~ 000 1~ 327 406 1441,000 5,205 14~0926 I 219 228 125 231 875 0 000 7 418 3385 000 .IS Tape Verification Listinq ichlumberger ;~laska Computtnq Center . ~ ' DTE MTE~ DTE 1~7,444 TTI.BHC 830,000 TT2.BHC 49.344 TEN$.BHC G~,BHC HTE~.!.BMC 1~36.000 DPMI.LDT PEF.LDT 2.799 QLS.LDT ~U.LDT 801.500 LL.LDT SS2.LDT 399.250 LSHV,LDT LSR~.LDT 1.901 LURH.LD~ TEN$.LDT 3385.000 ~TEM.LDT NPH~.CNL 54,898 RTNR.CNL NPOR,CNL 61,443 RCNT.CML CFTC.CNL 377,444 GR.CML MTE~,CNL 1~7.444 NTEN.CNL DEPT. 3~00.000 CIDP,DTE I~P~.DTE 5.809 CILD.DTE ID~.DTE 5,660 IFRE.DTE IIRD.DTE 177.500 IIXD.DTE SFLU.D~E 5.9~6 SP.DTE G~,BMC 44.250 TENS'BHC HTENiBHC 1433,000 DPHI.LDT PEF,LDT 3.217 aLS'bDT L~,LDT 369,000 Lb. LDT SS' .LOT 341.500 LSHV.LDT bSRH.LDT 2,328 LURH.LDT TENS.bDT 3315.000 ~TEM.bDT NPHI.CNL 32,153 RTNR.CNL NPOP.CNL 34 259 ~CNI.C~L CFTC,CNL 865.267 GR,CNb MTEg.CNL 116.93~ HTEN.CNL DEPT. 3500.000 CIDP.DTE I~P~.DTE 3.678 CILD.DTE IL~.DTE 3,639 IFRE.DTE IIRD.DTE 256.750 IIXD.DTE SFLU.DTE 5.672 SP.DTE MTE~ DT~ 116 713 ~RES.DTE TT~:~HC 717:200 TT2.BHC GR.BHC ]7.78t TENS.BHC aT~..~MC ~501.000 ~P.~.~DT bU.~T 4~.000 bb.~PW TENS.LD~ 34~5.0o0 ~TE~.LDT 6-F~B-~994 08:19 1.226 gTEN.DTE 563*600 TT3.BHC 3385.000 MTEM,BNC ~4.759 RHOB.,~DT -0.0~2 O$S,hDT 456 750 LITe.bDT 1254~000 SSHV,4DT Ii7.4~4 ~RES.LDT 4,65~ TNPH,CNL 1643.730 RCFT,CN~ 49.344 TENS,CN5 1436.000 GR,CSG 198.125 IDPH,DTE 197,750 ILD.DTE 20,000 IDOF.DTE 25.563 IIRM,OTE 61.7~ GR.DTE 1.229 HTEN,DTE 470.000 TT3.0HC 3315.000 ~TEM,8NC 18,414 RHOO.~DT 0.007 ~SS.GDT 210,250 ~ITH,LDT 1255.000 SSHV,4DT 2.338 CALf,DDT 116,938 MRES,LDT 3.304 TNPH,CNL 2724.065 RCFT,CNL 44,250 TENS,CN~ 1433.000 GR,.CSG 300.000 iDP~:DTE 304.500 IL DTE 20.000 !DQF,DTE 35.2~9 GR:DTE 1 22~ HTEN,DTE 502!000 TT3,BHC 3425'000 ~TEM.BHC 23.087 RHOB.bDT 240.500 blTH,SDT 1254.000 SSH¥.LDT 2.262 CALI.SDT 1~6.7i3 PRES,5DT 3.090 TNPH.CNL 3083.614 RCFT'CNh 37.781 TE~S.CNL 150~.OuO G~.CSG 1436.000 832.800 117.444 1.9 1 ,o; 5o 293 1290,000 13. 422 1 , 226 59.53~ 34]. ! 34 3385..000 -999,250 DT.BHC TT4.BHC ~RES.BHC DRHO,LDT 5S,LDT SSI.LDT $1RH,LDT GR.LDT HTEN,LDT TNRA.CNL CNTC.CNL ~RES,CNL 5 043 5 055 0 .000 166 250 44 250 1433000 696 000 1~ 938 346 0,019 128000 1290 000 12,523 34.222 796,559 ° 0 CIMP DTE CIL~DTE I~QFDTE IIXM DTE TENS.DTE DT.BHC TT4 BHC NRE$ BHC DRHO LDT ~S LDT SSi LDT $~RM LDT GR LDT HTEN,LDT TNRA~CN5 CWTC,CNL MRES,CNL 3 330 CI~P,DTE 000 XMQF,DTE 257.000 IXX~,DTE 37.781 TENS.DT~ iS01,O00 DT.BHC 719.600 TT4,BHC 713 MRES*BHC 11!i269 DRHO.LDT 025 LS,LDT 155.500 SSi,bDT 1290.000 S1RH.LDT 12.52] GR.LDT 1.228 HTEN.LDT 30..924 TNRA.CNb 993.513 CNTC.CNb 3425.000 MRES.CNb -999.250. PAGE{ 34 0 1436:000 4390 1684707 1' 226 172,000 176,500 0,000 6~406 3315;000 i~O*800 4 2;800 I 229 0 006 394 50 1433~ 0 27i'7~0 7 0 27 4, 0 000 34295 281 000 oo 1 228 o 002 51 00o ~53 625 2 250 37 ~ I 89~ 3041. 500 1 228 LL~ £ 8~LS tO0'O 6C~'1 009*689 000 OLOE 000,0 000 [t~ 00~ £ 000 906 L~ OS~Z OOS 900 0 00~ oo : i 000 t ooolo f'£ :3DVd rlND'~38N O00'OLO£ qND*~aNi 06I'I~ &Oq'H. tg ~gO'~ I O. &Oq'OHSfl 2ZQ'~N3~ ;8 L O' 3iQ'jOri 006.0 ~io*~qI3 LLo.: qND'D$ND ~aq~sq OS~ 666= OOU t96 000 9~0 0 009 00~ 000 000 0 t~L ~gL rIND D$ND $Oq Haig M~Q'dWID O~'666- ~L9*SE8 9Lg'if 9~*1 ooo168 O00'L~t 8ZO!O ~6[ ~ 69L 00~ fOL 000~t£~ 906,L£ 00fo9§~ 000 qND'~dNi £Oq'IqVO L6C'[ ~Oq*H£Iq S~9'L~ lQq*gSO 900'0 ~H9'£$& 009't6~ ~O*HD O~L*bq ~£aiNalI 6TL*i~ 3$O*MOQI O00'Og ~&a*aqI O~L'~i 9~D'89 O00'fg~I qN~eHdN$ LO9*i ~0q*S38~ 009'91I iflq'AH~ O00'i~gi £Qq*H£Iq O00'O~g Saq,gSO i~O'O- OHg~£~& 008'91~ M&O ND~H Lgg'I ~£O'*~OOI 000'0~ ~&O*HddI O~L'tO~ D~3'aD O00't£~I qND'gNM~ 906'Lf qND*HdN~ &aq'Iqvo I8~'~ ~Oq*lH~ ioq*gsO EO0'O ~Clq*~oHa 8PL'I~ 3H9'~25~ 3~G'89 8~9'~§ ~&G'~OQi 000 OZ ~£O'OqI OgL]66~ 6~:80 9661-S3~-9 qND*HD 8LI*L~O qND'&aDa §~9'0~ 'l~!b'aOdW qND'MNiH IfO'O~ qN~' $Q9'~3£~ O00*OLO[ £Qq'H~Qq ~8~'~ ~{lq'HH~q $oq'qq <')S/'gb£ iOq'ilq ~Uq'IHdG O00'£E~[ DH~'~N~& IS~'LS 3&O'OXli O00*~L~ 3IO*GHII 3&O'dQIO O00'OOgE qND'$NDa /80'8[ 'IHD'aOdN qaD:~Nt8 ~96'~i qND'IHdN %uq'sqO 080' £ &Gq' 31LO dOID tlO0*O0~ qND'~NDM qLg'gE ']NO'aOdN ']ND*MN~ O~8'l[ q~qD'IHdN zoq *qq 000 ' LO~ ~ :3"I ' iaq'ISda OOO'l[~I DHg*~NRi 906' LE O'H~* DHg' Ei,I 00~* E OL OHS* 9&O'dGIO O00'O05E bis TaLe Verlficatlon Listlno Schlumberger A]asKa ¢om~utlaq Center MTE~. C{VL 116.206 HTEN.C~b DFPT 310(),000 CIDP.DTE I-~PM;DTE 3.033 CILD.DTE Ib'~. DTE 3.029 IIRD.OTM 261.500 IIXD.DTE 8FLU. DYE 3.109 SP. UTE MTE~.DTE 116.038 MRES.DTE TT1 .BHC 730.400 TT2.SHC G~.BHC 53.594 HTEN,BMC ~6.000 DPHI.bDT PEF. I, DT 3.252 OLS.gDT LU, LOT 4~.~,750 Lb, bDT S82.LDT 352.500 LSHV,LDT 5SR~.LDT 2.277 LURH.LDT TENS.LOT 2990.000 MTM~4. LOT NPHI~CNL 46,671 RTNR.CNL MPOR.CNL 44 193 RC..~ CML CFTC,CML 568 ~2~ 2 GR ~TE~.CNL 116.038 HTEN.CNL DEPT. 3000,000 CIDP.DTE I~PH,DTE 4,137 CILD.DTE ., ]g 211:375 IlXP DTE S~WL[!. DTE 4, lo5 SP.DTE MTE~.DTE 115.9~ 1 MRES, DTE TT]. BHC 930,400 TT2.BHC GP.BHC 41.563 TEMS.E~HC HTE~].BHC ~384.000 DPHI.LDT PEF. [.DT 2.443 QLS.LOT bI~. LDT 1804. 000 Lb. bDT SS~.LDT 439.000 LSHV,LDT LSRW.LDT I .4q4 LURH.bOT TENS.LOT 2915.000 ~TEM.I~DT NPHT.CNI. 62.73~ RTNR.CML NPO~.CNL 77.933 RCNT. Cc;L CFTC.CNL 298. 291 GR. CNL MTg,.CML 115.981 HTE~q.CNL DEPT. 9900.000 CIDP OTE IMPW.DTE -999.250 CILD:DTE TLM.DTE -999.250 TFRE.DTE T IIRD.DTE -999.250 IIXD.D.E SFL{~.DTE -999.250 SP.DTE MTE~.DT~ -999.2~6 mR~S.OTE TTI.RHC -999.250 TT2.BHC GR.BHC -999.250 TEN$.B~C HTEM.BHC -999.250 DPHI,LDT PEF.LDT -999.250 OL$.LDT LU.LDT -909,250 LD.LDT $S?.LOT -999.250 LS~V.bDT LSRg. LDT '999.250 LURH.LDT TENS.LOT '999 250 ~TE~4 NPHT.CNL '999.25U RTMR.CNL 6'FEB-1994 08:19 1437. 000 GR,CSG -999,250 3i7.000 320.250 20,000 29.484 74.688 1.228 510 000 o:ooo 20.710 -0.045 221.500 1253.000 2.27~ ~16.03 4.1~7 2t73.205 53.594 1426,000 242.875 247,375 20.000 26 281 57:344 1.235 615,600 2915.000 70.880 '0,033 899.000 1257.000 1.501 115.9~1 5.306 1521.510 41.563 1384.000 ~g99 250 99: 5o 29 o 2so 99g:250 -999.250 -999.250 -999.250 -999.250 -999.~50 -999.250 -999.250 -999.260 -999.250 -999.250 -999.250 IDPH,DTE ILD,DTE IDOF,DT~ IIRM,DTE GR DTE ~TEN DT5 TT3~B~C MTEM,BHC RHOB,bOT OSS,bDT LITH~bDT SSHV,LDT CALI,bOT MRES,LDT TNPH,CNL RCFT,CWb TENS,CML GR,CSG IDPH.DTE ILD.DTE IDOF.DTE IIRM,OTE GR,DTE HTEN,DTE TT3,BHC ~T~M,BHC RHOB,bDT QSS,bOT LITH.hDT 8SHV.LDT CALI,bD~ MRES,LDT TNPH.CML RCFT.CNL TENS.CML GR,CSG IDPH,DTE ILD,DTE IDOF.DTE IIRM,DTE GR DTE HTEN:DTE TT3.B~C ~TE~.BHC RHOB.LDT OSS.LDT LITH.DD~ SSHV.LO~ CALl. LOT TNPH.CML 3.150 3.121 0 000 o 15oo 53 594 1426 000 736 000 116 038 2 308 0 030 126 000 1289 000 14 633 I 228 44 084 508 398 2990 000 -999 250 4 4 39 0 000 235 750 4! 563 1384 000 926,:000 115 981 1 480 0 0 1294 000 14 570 1 235 80,145 301.264 2915.000 -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 -999.250 -999.250 -999.250 ClMP.DTE CILM.DTE IMQF.DTE IIXM,DTE TENS,DTE DT,BHC TT4.BHC MRES'BHC DRHO,LDT LS,LDT SSI,LDT SIRM,LDT GR.LDT MTEN.LDT TNRA,CNL CNTC,CNL MRES.CNL CIMP.DT£ CILM,DTE IMQF~DTE IIXM,DTE TENS.DTE DT,BHC TT4,BHC MRES,BHC DRHO.LDT LS.LDT $S1,LOT SIRM,LDT GR,LDT HTEN,LDT TNRA,CNL CNTC,CNL NRES.CNL CIMP.DTE CXLM,DTE IMOF.DTE IIXM.DTE TENS DTE DT:BHC TT4.BHC MRES.BHC ORHO,LDT bS.LDT SSI.LOT SXRH.LDT GR.LDT MTEN.bDT TNRA,CNL PAGEI 36 329,500 330.000 o ooo 9 469 2990 000 119 O0 515 I00 i 228 o 5 261 250 '53 4 1426 000 241,625 25 l', 500 0 0 OO oo I 235 -0~ 019 180! .ooo 274 750 4~: 5'7 ! 384 000 1470 1. 235 -999,~0 -999, 0 -999,250 -999,250 -999,250 -999.250 -999.250 :999.250 999~250 '999,250 '999.250 '999,250 23,181 '999. 50 '999,250 [O-L6OOg-£~L-O~ ******************************************************************************* iO~l¢)O : 9 /gO/PO : ~¥0 0f~:'666- 0.q~'666- qND'DIND 0Bg'666- ~SD'H9 O~g'666- 0~g'666- qND'gNMi tSL't~ 0~'666- qND'£JDa 0~'666- L£ l~D~d n~e~edme~ eTd~eg e~e~TT& ssoq pTnT~ ~TSUea PTnT3 6u~TTl~0 PlnT3 bu ed~e^ieluI go~ o& Te~elu! 6o~ ~eTTT~g - q~deq Te~O£ ~Te~e~o ~uno~g ~o uo;~e~eT3 ~o T3 ~aT~e~ ~o ~UTqS~g ATTe~ ~o uoT~eAeT~ mn~ea ~u~uem~e~ e~o~v ~o~ pa~nsee~ boq mn~ep 3ueue~a~ ~aq~nH ~eP~O e~ea sseu~ ~uno~ dTqSU~O~ '~960T £~ '~860T Z~ S0~6~9 HOql~'aW N$IM N~ a~eN ~UedmOD 'lYJON~ ND I~30 ['t'l VA i N ~IS TaDe Verification Listlno ;chlumberqer AlasKa Computinq Center 6-FEB-J994 08:J9 TAB[cE TYPE : CORY DEFT Depth CIDP IOPN CT~ I~PN CIbD ILO CIb~ IFR~ IDQF I%RD II×P IIX~ SFL~ SP TE~S MTE~ M~ES HTE~3 TT2 TT4 GR MTE~ M~ES HT~M DPH? R~Om bS LU LL LITU SS1 $$2 LSHV SSHv $1R~ CALT INDUCTION DEEP PHASOR COND~CTIVITY Phasor Deep Reslstlvlt~ IhDUCTIOM MEDIUM PMASOR CONDUCTIVITY P.asor Me~J.u~ Resistivity Conductivity Ib Deep Standard Processed Deep Induction Standard Processe~ ~esistivitv Conductivity lb ~ediu~ Standard Processed ~edlum Induction Standard Processed Resistivity Induction Calibrated Frequency Induction Deep ~ualit~ Factor Induction ~edium Quality Factor Deed Induction Resl Intermediate Conductivity Deep Induction Quad Intermediate Conductlvit~ ~ediu~ In~octlon Real !~ntermediate Conductlv ~ediuiB Induction Quad I~]termediate Conductivity SFL Resistivity Unaveraoed Spontaneous Potential API-Corrected Gamma Ray Surface Tension ~ud Temperature ~UD Res st~.v]~tV Mead Tension Delta-T compresslonal TRANSIT TI~E 1 TRANSIT TI~E 2 TRASSiT TI~E 3 TRANSIT TIME 4 API-Corrected Gam~a Ray Surface ~ud Temperature ~UD Resistl¥ttv Head Tension Dens~tW Porosity Bulk Density Delta Photoelectric Factor OualitV control of lon~ spacin~ for bDT Oual~¥ comtrol on short s~aclng ior bDT £,ono ~bacin9 Co~uted Coun Rate Lom~ O~per 1-2 W~Ddow Count Rate Long ~ower mlndow Count Rate Litbolog ~in~ow Count Rate Short Spac~n~ ! wl~dow Count Rate Short Spac~n6 ? window count Rate Lom9 SDacln~ Hlqh Voltage Snort Spacln~ ~i~h Voltaoe Snort SPacln~ 1 DensltYtv~ ;,on~ $oacimg ~ul~ Dens Lon~ ODper ~ulk Density Caliper PAGE: ]9 mmmmmmmmmmmmmmmmmmmmmmmmmmmmmm 89 g9 0 99 89 &~ ~9 6 ~'0 89 g9 99 99 0 ~9 0 99 I 3~l~A ~OrlD ~d~8 m~m~~m~m~~mm~mmm~ O~ 6~:80 966~-8~d-9 0000000000 89 ~ ! ~ ~ 0 0000000000 89 ~ ~ ~ ~ 0 0000000000 89 ~ I ~ ~ 0 0000000000 89 ~ ~ I ~ 0 0000000000 89 ~ T I ~ 0 0000000000 89 ~ ~ ~ ~ 0 0000000000 89 ~ ~ I ~ 0 0000000000 89 ~ ~ ~ ~ 0 0000000000 89 ~ ~ I ~ 0 0000000000 89 ~ ~ ! ~ 0 0000000000 89 ~ I t ~ 0 0000000000 89 ~ ! I ~ 0 0000000000 89 ~ ~ t ~ 0 0000000000 89 ~ t T g 0 0000000000 89 ~ I T g 0 0000000000 89 ~ T t g 0 0000000000 89 ~ I T g 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ T ~ ~ 0 0000000000 89 ~ ~ ~ ~ 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ t T ~ 0 0000000000 89 ~ I T g 0 0000000000 89 ~ T T g 0 0000000000 89 ~ T T g 0 0000000000 89 ~ ~ T ~ 0 0000000000 89 ~ ~ t ~ 0 0000000000 89 ~ T T g 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ ~ ~ g 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ T ~ ~ 0 0000000000 89 ~ T ~ g 0 0000000000 89 ~ ~ T g 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ ~ I ~ 0 0000000000 89 ~ ~ t g 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ ~ T g 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ T T g 0 0000000000 89 ~ T t ~ 0 0000000000 89 ~ T T ~ O 0000000000 89 ~ T T ~ 0 0000000000 89 ~ ~ T ~ 0 0000000000 89 ~ I T ~ 0 0000000000 89 ~ T I ~ 0 0000000000 89 ~ I T ~ 0 0000000000 89 ~ T T g 0 0000000000 89 ~ I T g 0 ~O~d ~d3~ ~gI~ ~flN ~N 3'113 Id~ jJJmJJJ.mmmmmmJJJ~mmmjmmmmmJJJJmmJmJmmJmJmjmlm oo 000 O0 q0~6~9 ED/D ~(l'] HHilq O0 000 O0 SU~o~9 £D/9 8Gq O0 0oo O0 g0~6~9 A ~({q AHa9 O0 000 O0 S0~o~9 A ~05i AH~q O0 000 O0 g0~6~9 ~dO aOq ZS9 O0 000 00 ~090~9 gdD ~Oq O0 000 O0 g0~6~9 ~dD ~Oq 'lq O0 000 O0 gOP6g9 ~dO 80q O0 000 O0 ~0~0~9 ~da Sa'l O0 0o0 O0 §0~6~9 aoq O0 000 Ou g0~6~9 8GQ 9qO O0 000 O0 ~0~6~9 ~'1 ~d O0 000 O0 §0~6~9 ~/~ ~1 O0 O00 O0 S0~6E9 [D/~ 80q dOH8 O0 000 O0 §0~6~9 lid aOq iHdO O0 o00 Oo gO~699 ~'1 8H~ O0 000 O0 g0~6~9 ~HO ~N~ O0 000 O0 ~0~6~9 ~D30 ~}~ O0 000 O0 ~OP699 8q ~ O0 000 O0 §0~6~9 Id¥9 8HH 89 O0 000 O0 ~0~6~9 ~fl ~'H~ O0 OOO O0 §0~6~9 ~ aHH O0 0o0 O0 ~OPOE~ gfi ~ g£~ O0 000 O0 ~0~6~9 S~ 8H~ O0 OvO O0 ~0~6~9 ~/~g a}.!~ O0 000 O0 g0~6~9 ~q ~Q O0 000 O0 §0~6E9 ~NHO ~ O0 0o0 O0 gO~699 ~DMO ~&Q O0 000 O0 §0~6~9 8q ~O O0 000 O0 g0~6~9 idV9 ~Q 00 000 00 ~0~6~9 AW ~£Q d~ O0 000 O0 ~O~Og9 ~HO ~£0 ilq~9 O0 000 O0 ~0~6~90H~ ~O AXil O0 000 O0 §0~6~90~w ~G O0 000 O0 g0~6~90H~N a£Q QXiI O0 000 O0 g0~6~9 ~g ~O~I O0 ()00 O0 ~OPbg9 8~U 2OQI O0 000 O0 q0~6~9 ZH ~ 00 000 00 ~09699 NMHO ~ 00 000 00 §0%6g90M~W ~G AqlD O0 000 O0 g0~6~9 ~WHO 8~G O0 000 oo q096~90N~M H£d ~qlD O0 000 O0 §0~6~9 NWHO ~ Hd~I O0 000 O0 q0~6~90H~W ~Q O0 000 O0 §0~6~9 ~aO ~$Q adQI O0 000 OO §OP6~9 &3 T~ 13DVd 6t:80 .IS Tape Veriflcatlon Listina ;chlumberger AlasKa Computing Center 6-FE8-1994 08:19 PAGE~ 42 NAME SE~ T $ ID OR CALT I..D~ IN 62o~05 O0 GR [.DR GAPI 629405 O0 0(')0 TENS LDR bM 629405 O0 000 MTEM LDP DEGF 629405 O0 O00 ERgS L~R OHMM 62Q405 O0 HTEN LDR aB 629405 O0 000 NPHI CNR p!! 629t05 O0 000 RTNR CNR 629405 OO TNPM CNR PU 629405 O0 GO0 TNRI CNR 629405 O0 NPOP CNR PU 629405 O0 000 RCNT CN~ CPS 629405 RCFT CNR CPS 629~05 O0 000 CMTC CNa CPS 629~05 O0 CFTC CNR CPS 629405 O0 000 G~ CNR GAPI 629405 O0 T~NS CaR LB 629405 O0 000 MRE$ CNR Oga~ 629405 O0 000 MTE~ CN~ OEGF 629105 O0 000 HTEN CNR hB 629405 O0 000 O0 0 2 I 1 4 68 0000000000 O0 0 2 I 1 4 68 0000000000 O0 0 2 I 1 4 68 0000000000 oo o ~ I 1 4 68 ooooooo00o oo o 2 1 1 4 68 oooooo0ooo oo o 2 I ~ 4 68 oooooooooo oo o 2 I 1 4 68 oooooooooo O0 0 ~ 1 1 4 68 0000000000 oo o 2 1 1 4 68 0000000000 oo 0 2 I I 4 68 oooooooooo oo 0 2 I 1 4 68 0000000000 oo 0 2 1 t 4 68 0000000000 O0 0 2 1 1 ~ 68 ooooooooo0 O0 0 2 1 i 4 68 0000000000 O0 0 2 I I 4 68 0000000000 O0 0 2 1 I 4 68 0000000000 O0 0 2 1 I 4 68 0000000000 O0 0 2 1 I 4 68 0000000000 O0 0 2 1 i 4 68 0000000000 O0 0 2 1 t 4 68 0000000000 DEPT. 11093.000 ClDP.DTR I~PM.DTR 19.109 CILD.DTR I5~.DTR 18.6~5 IFRE.DTR IIRD.DTR 42.094 IIXD.DTR SFLU DTR ~9.969 SP.bTR MTE~DT~ 162..950 NRE$.DTR TT~.BHR 475 200 TT2.SHR G~*BHR 42~219 TEN$.BHR HTEN.BHR -40.1~5 DPHI.LDR DEF LDR 999.250 QI.$.LDR L~!:LD~ :999.250 $$~ LDR -999.250 LSNV.LDR LSRNi[.DR -999.250 LURH.LDR TFNg.LO~ -999.250 NPHT.CNR -999.250 RTNR.CNR NPOR,CNR -999.250 RCNT,CNR CFTC.CNR -999.250 GR.CNR MTEu.C~R -999.250 HTEN.CMR DFPT. ltOOO.O00 CIDP.DTR I~PW.DTP 19.109 CILD.~TR IbU.OT~ 18.625 !FRE.OTR IIRD.DTR 42.094 IIX~.DTR SFLU.Dq~R ~9.969 MTE~.DT~ 162.950 '~RE$.DTR TT~,~HR ~75.2fl0 TT2.~MR 44.750 IDPH.DTR 46.531 ILD,DTR 20.000 IDOF,DTR 9.227 IIRM ~TR -51.813 GR~DTR 0 ~77 HTEN.DTR 329i600 TT3,BHR 3470 000 MTEM~BHR '999 250 RHOB~bDR -999i250 ~SS.hDR -999 250 LITH.bDR -999.250 SSHV.LDR -999.250 CALI.LDR -999 250 MRES,LDR -999~250 TNPH'CNR -q99.250 RCFT*CMR -999.250 TENS.CNR -999.~50 44.750 IDPH.DTR 46.531 ILD.DTR 20.000 IDOF.DTR 9.227 II~.M.DTR ~51!813 GR.DTR 0 477 HTEN.DT~ 29 600 TT3.B~R 22.328 2~,484 50:000 969 42.~19 ~40, 25 78.800 162.950 CIMP.DTR CILM DTR IMQF:DTR IlX~ DTR TENS DTR DT BHR TT4 BHR MRE$ BHR . 50 DRHO.LDR SS1 ,L, DR TNR~.CNR -999 50 CNTC,CNR -999.250 MRES.CNR 22.328 CIMP.DTR 21.484 CIhM.DTR 3.000 IMOF.DTR 50.969 IIXM.DTR 42.219 TENS.DTR 714.500 DT.BHR 478.800 TT4.BHR 52,281 53,6,~6 . 2,0 0 31,219 3470'000 71,'300 3~9,200 0 477 0999= 250 2 0 -999 -999 '.999 2.50 -999 250 -999 250 -999 250 -999 25O -999 250 52.313 53.656 2,000 '31,219 6395,000 71,300 339,200 ~,IS Ta~e Verification Listlnq C ;chlumberger AlasKa Computing enter PEF, LDR -999. 250 ~LS. LDR LU, LDR -999' 250 LG, bDR LSR~.LDR -909,25U LURH.LDR T~NS. !,[')R -999,250 ~4TE~.~. LDR NPHI,CN~{ -999,250 RTNR.CNR NPO~,C~ -999.~50 RCNT.CNR CFTC,CN~ -999,250 GR.CNR NTE~.C~R -999.~50 NTEN,CNR DEPT. 10900,000 CIDP.DTR I~PH,DT~ 24,938 CILD,DTR ILM,DT~ 23.73~ IFRE,DTR IIRD,DTR 33.438 IIXD,DTR SFLU.DTR 39,281 SP.DTR MTE~.DY~ 162.950 MRES.OTR TT~,BHR 4]0.400 TT2.BMR G~,BHR 46,~75 TENS,BMR HTEN BMR 80i.000 DPM~,LDR PEW:LDR 3,315 QL$.LDR LU.LD~ 288,250 Lb,LDR MS~,LDR 3~1,750 bSHV,LDR LSR~.LDR 2.495 LURH.LDR T~NS,LDR 6440.000 M~EM.bOR ~PHI.CNR ~0,387 RTNR,CMR CFTC.CN~ 4408,489 ~GR2CNR ~TE~.C~R 166,100 ~TEN.CNR OEP? 10800,000 I~PH: DTR 36. 094 YL~.DTR 32.344 IIRD.DTR 22.938 SFL{!.DTR 44.~56 MTEU.DTR 162.950 TT1.BHR 442.800 G~.BHR 46.250 HTEN.BHR 795.500 PEF.LDR 3.012 LU.LDR 276.750 $S~.LDR 309.500 DSR~ LDR 2.5~$ TENS!LOR 6495,000 NPMI CN~ 13.254 NPO}.C~R 12,323 CFTC.C~'~R 3695.01 l ~TF~ CaR 166 2~2 CiDP,DTR CII.,D,OTR IFRE,DTR IIXD.DTR SP.DTR MRES.DTR TT2.BHR TENS BNR D~MI LDR Lb LDR LSHV.LDR LURH.LDR MTEM LDR RTNRiCNR RC~T C~R GR.CNR HTE~.CNR DEPT. ln700,O00 CIDP.DTR I~PH.DTR 38.750 CILD.DTR !L~.DTR 34.2~1 IFRE.OTR IIRD,DT~ 23.719 IIXD.DTR SFL!'.PTR 48.594 $p. DTR 6-FEB-1994 08:19 395 000 MTEi~.~HR -999.250 QSS.LDR :99g,250 blTH.hDR 999.250 SSHV,LDR -999,2~0 CALi,~DR -999.250 MRE$.LDR -999.~50 TNPH~CMR -999,2~0 RCFT,CNR -999.250 TEN$.CNR -999.2~0 33,469 IDPH'.DTR 36,688 I[,D,DTR 20.000 IDOF,DTR 1.128 II~M,DTR 094 ,R,DTR '5~'480. HTEN,DTR 300 000 TT3,BHR 6540:000 MTEM,BHR 6.28~ RHOB,LDR -0,042 OS$,LDR 148.000 bITH,LDR i260.O00 SSHV,PDR' 2.486 CALi-hDR !66,100 MRE$,LDR ~,502 TNPH,CMR 6206,561 RCFT,CNR 5~,594 TENS,CMR 665.000 19,922 IDPH,OTR 2§.531 ILD,DTR 2 ,000 IDOF,DTR 1.423 IIRM.DTR -39.219 0.472 HTEN.DTR 306.800 TT3.BHR 6500,000 MTEM.BMR 7.750 RHOS,LDR '0.030 OSS.LDR 143,375 LITH.LDR ~260 000 $SH~,LDR 2~5~4 CALI.LDR 166,212 1 663 TNPH.CNR 5850:646 RCFT.CNR 46 594 TENS,CNR 697~000 24.719 IDPH.DTR 26.1%1 iLD,OTR 20.000 IDOf',DTR 1.338 IIRM,DTR '33.938 GR.OTR 16~ 950 .999. 50 ,999 ~50 -999.250 -999,~50 -999,~50 -999.~50 ~999.250 29.859 27.234 0,000 40 031 46 875 801 000 430 800 162 95O 83 938 1298 000 766 ~ 490 11.031 4091,384 6440.000 50 156 44 344 0 000 29 375 46 250 795 500 439 600 162 950 2 522 0 013 77 625 1298 000 773 .126 6495.000 40.438 38.219 0.000 27.719 43.250 MRES.BHR DRHO.LDR LSLDR $1RH.LDR GR,LDR HTEN.LDR TNRA CNR CNTC CNR MRE$ CNR CILM.DTR IMGF.DTR TENS,DTR DT,BHR TT4,BHR MRES.BHR DRHO.LDR bS,*bDR S1RH,[DR GR.LDR HTEN,LDR TNRA,CNR CNTC,CNR MRES,CNR CIMP.DTR CIbM.DTR IMQF,DTR IIXM,DTR TENS.DTR DT,BHR TT4.BHR MRES BHR DRHO LDR bS LDR SSi bDR S1RH LDR GR.bDR HTEN,LDR TNRA,CNR CNTC,CNR MRE$.CNR ClMP.DTR CILN.DTR IMOF.DTR IIXM.DTR TENS.DTR PAGE~ 43 0 477 -999 250 -999 250 -999 2 0 -999 2~0 -999 250 -999 250 -999 250 -999 250 -999 250 40,094 ,~94 4§, O0 '8;797 6540~000 65 ~00 303,600 0 480 0 046 292:250 254 250 2 385 51,594 66~,000 0~490 t 7O3 0 000 s[s5: soo 30~), 000 ~ 4'/2 0 001 281. 750 234 625 5 2 2'544 46- 697,000 1,623 5684,516 0,459 ]5,781 9,141 0,000 -! . :ggOo 0~ 666- 0~ 666- 0~ 666" OS~ 666- 0~ 666- OS~ 666" 666'. $~' 666- O&9~ 0 OB 60£ 000 ~9 000 0L£9 0~ o~- 000' '0 0 6'0~ LO~ o~,~ ~ 9~ 6[0 0 ~9~ 0 00~ 00~ ~6 a£Q'~OWI ofa.666- of~;666 os : 6f- 0G~:666' 0~666- 0S~:666' 0~o666- O~'~666- L~8.~gt ooa;6a~ 00~;0t8 000'0 906.8[ ~60 t~ O00'ot~g O9 6 [~ 0 ~g 6 000 66~ ~0 0 88S ~ L~8 ~9t 00~ OOg [08 8O9'~0H~ 0~'666- 0§~'666- 0~"666- 0f~'666- 0~g'666- 0~'666- 0~'666- · 0~ 666- 0§~'666- ooo:o 00~ £0~ 8L9'[ 000'0~ O0~'9~L ~N3'£~DU 66~'tI~9 ~ND*HdN$ 09E't aOq'H£Iq ~LE'~EI 801:~'990 L~O'O- ~Oq'gOHa ~qL*E ~H'~3I~ O00'~g 61:80 966I-8~J-9 ~OI : 9 /~0/96 : LOV[OO : Dlq~ : ~00' ~I03 : ~Olga3A ~ND MN&a (.)S~'666- ~JO'lHdN ~O~'SqO OS~':666- ~'l'IHd~ OOg'Ot8 ~O'dS E~80~ ~ND'~NDa EOt'6 a~!D'aOdN ~:ND~aNiM ~'8 ~ND'iHdN ~Oq'H~q E9~'I H~'AHSq ~'OIE MO9'9'tO IOE'E mis Tape ~er~,f~,cation t, lstinq ;chlumberqer AlasKa Computing Center **** FTLE HEADER FTLM M~E : EDIT .003 SERVIC~ : FbIC VERSION : O01A07 DATK : 94/02/ 6 MAX RMC SIZE : FILF TYPE : LO LAST FILE : 6-FEB-1994 08:19 PAGE~ 45 ****************************************************************************** FILE U~UCAL u OCaL u " U VOS" 50'733-200~7-03 "RU~~} #2 RMPMAT PASS DATA" D~T~ SAMPLED EVERY -.5000 FEET OATA I~CL~DED - TO{3[, EXTENSION TOOL TYPE OTT-E B~C bDT CWT-A/Q/M .CMR PMASOR DUAL INDUCTION SFb 8OREHOLE COMPENSATED SONIC DITMO DENS1TY COMPENSATED NEUTRON ****************************************************************************** TABLE TYPE : CONS CM APIN FL SECT TOW~ COUW UNOCAL Compan~ Name ~CARTHOR RIVER Field .ame UNOCA5 T ~&U K-~6 "MUEVOS" Well Name 50-73]-26~=7-03 APl Serial Number SUrF LOCATION bEG ~4 SLOT #25 Field Location 17 section 9N Township 13w S.M, ~ange KE~AI County ~A'[~npuo~ a~e~Pa~a~ui Iea~ uoT~onpu! mn~pa~ ~^~npuo0 a~Pa~u~a~ul P~n0 uo~snpuI ~A~npuo~ a~e)Pa~a~ui I~a~ uo~npuI daa~ ~o~De~ ~Ien0aaaG uo~npul Aouanba~,~ pa~q~l~0 uo~lonpuI passaoo~d pJ~pu~l~ ~unIpa~ qI '~ Pa~aOo~d pJRpu~29 daaO qI ~OuI w q I ~qlO dNiD ~dOI ez~e~ed~a~ aTOH ~03~08 ~a'~n%e~e~ma& eldm~ a~e~ pnw ~ ele~ITT~ pnw ~o . le~n3e~edma~aTowe~ pn~ aTdmes pnH ~o , . qd Plni~ ^~Sueo P~nt~ leA~al~I bog dO£ zoolj ~oT~eO ~o uol~eneT~ BUTqSnB ATTe~ ~o uoT%eAeT~ · n~eo 4ueuemsad anoq~ mo~3 pa~n~eaW boq mn%aa ~ueuem~ad ~o uoT~eneT~ mn~ep ~eqmnN ~ap~O amen SSaU~TM O~ 6 6 EO/~ D g~lqd AqOd '9§60] J;~ Iq~ '§960] id ~'666- ~J '66 £J 6~:80 966~-8~-9 Jaquaj 6u~lnd~oj ~s~'~ JIS Taoe Verl~icatton Listing ;chlumberger AlasKa Computin~ Center 6-FEB-~994 08:19 PAGE: 47 DEF! ..... ........ .......................... G~ A o rected .~ m~ ~av TKN$ Surface Tension MTE~ ~ud Temperature HTEM Head Tension DT Delta-T compressional TTJ TRANSIT TIME 1 TT2 TRanSIT TI~E 2 TT3 TRANSIT TI~E ~ TT4 TRANSIT TI~E 4 GR API-Corrected Gamma Pay TMNS Surface Tension MTE~ ~ud Temperature M~ES ~UD Resistivity HTE~ Head Tension DPH? Density Porosity RW08 ~ulk Density D~Ho Delta RHO PEF Photoelectric Factor OLS Oualit¥ control of lon~ spacing for LDT QSS oualitV control on short Spacing for ~DT LS Long Spacing Computed Count Rate (LL+LU/2) LU Long Upper 1-2 ~].ndow Count ~ate (LI~I~LU2) LL Long Lower ~indow Count ~ate LITE Litnolog ~]ndow Count Pate SS1 Short SpacJ. n~ ! Window Count Rate SS2 Short SpacJ~n~ 2 Window Count Rate LSH¥ Long Spacing High Voltage SSHV $~ort Spac~nQ Hig~ Voltage $1RH Short Spacin~ ~. Density LSR~ Long Spacingu~Ul~~ Density LUR~ Long Upper lk Density C~bl Ca].iper G~ ~PI-Corrected Gamma Ray TFN$ Surface Tension M~E~ ~ud Temyerature M~E$ ~UD Res stJvtty HTE~ Head Tension NPHI Compensated Neutron Porosity, SS Satrix. call & dead t~me curt, RTN~ Raw ~nermal Heutron Patio TMPW Thermal Neutron Porosity TNR~ Thermal Neutron Ratio Calibrated NPO~ ~eutron Porosity fro,, an Application ~'roqra~ RENT RAW NEAR CMl' COONTS REFT RAW FAR CNT COUNTS CNTC Corrected Near 0etector Count Rate CWTC Corrected Far Detector Count Rate GR API-Corrected Gamma Ray TEN~ Surface Tension M~ES ~UD Resistivity MTE~ ~Ud Temperature HTE~; Head Tension 0000000000 8g ~ I ~ [ 0 Ou 0o0 O0 ~o~o~ a/~O ~H~ 0000000000 8q ~ T ~ [ 0 O0 000 O0 ~0~6~9 8q ~£G 0000000000 89 ~ ~ I [ 0 O0 gO0 O0 g0~6~9 ~HO ~O 0000000000 89 ~ T I E O O0 oO0 Oo gO~6~ .~O~O ~0 0000000000 8q ~ I [ g 0 O0 OOO O0 ~0~o~9 ~q 8,~0 0000000000 89 ~ I I E 0 Oo 000 O0 §O~o~9 IdVD 8£G 0000000000 89 ~ t I [ 0 O0 OOO O0 §o~6~9 A~ ~ZQ 0000000000 89 ~ ! ~ E 0 O0 O00 O0 ~0~6~9 ~W~O ago 0000000000 ag ~ '[ ~ E 0 O0 O00 O0 gO~90~W 8&d ~XlI 0000000000 89 ~ I I [ 0 O0 000 O0 ~u~6~90S~ ~£O a~II 0000000000 89 ~ I I E 0 O0 000 O0 §O~Og90N~ 8~O dllI 0000000000 89 ~ I [ E o O0 000 O0 §0~699 OH~ ~gu 0811 0000000000 89 ) I ] [ 0 O0 000 O0 ~O~bg9 ~£0 aO.I 0000000000 89 ~ I I E O O0 000 O0 ~0~6~9 ~O ~OOI 0000000000 80 ~ t I E 0 O0 000 O0 ~O~bg9 g~ ~%G 0000000000 80 ~ I I E 0 O0 000 O0 ~0~6~9 dWHO 8ZO 0000000000 89 ~ T I E 0 O0 000 O0 ~0~6E9 d~ ~ZQ ~qI3 0000000000 89 t I I E 0 O0 000 O0 ~O~ogg ~WHO ~Id O'lI O000000OO0 80 ~ I I E 0 O0 000 O0 ~0~6E90HW~ ~ZG 0000000000 89 ~ I I E 0 O0 O00 O0 §O~bg9 ~WHO ~£O Hd~I 0000000000 89 ~ t I [ 0 O0 000 O0 ~0~9 OH~ 8iQ dNID 0000000000 89 ~ t ~ E 0 O0 0o0 O0 ~0~699 ~N}tO ~&O HdOI 0000000000 89 ~ I ] E 0 O0 OoO O0 ¢0~699 ON~N ~,L~ ~OiD 0000000000 89 ~ t I E 0 O0 000 O0 ~0~6E9 &.~ (X3H) ~QOD W3q3 dWV~ 8~flN OO~ ~9~qD ~dX& DOq # ~O~O ~2DO~d ~d2~ 2ZI~ ~N~N ~flN ]qlM Ia~ IdV Id~ IdV MDIA~ ~I~ A~2~ ~ 99 0 T 99 9T 89 09 &a ~9 VT 0 99 89 ~T ~ q9 6 ~'0 89 ~9 £L 9 99 i 99 0 99 T ~[lqVA ~QOD ~dR~ ~m~~m~m~m~~m~m~ 8~ 6[:80 ~66T-SgJ-9 0000000000 89 ~ ] ~ E 000000 nO 0000000000 8~ ~ ~ I £ 0 O0 000 oo 0000000000 8q ~ t ~ £ 0 O0 0o0 O0 0000000000 89 ~ [ ] E 0 Oo 0o0 O0 0000000000 89 ~ ~ I [ 0 O0 000 O0 0000000000 89 ~ I t [ 0 Oo 0o0 O0 0000000000 89 ~ I i E 0 O0 000 O0 0000000000 89 ~ I I ~ 0 O0 000 O0 0000000000 89 ~ ~ I E 0 O0 000 O0 0000000000 89 ~ I ~ [ 0 O0 000 O0 0000000000 89 ~ ~ I E 0 O0 000 oo 0000000000 89 ~ I T [ 0 O0 000 O0 0000000000 89 ~ I I E 0 O0 COO O0 0000000000 89 ~ ~ ~ E 0 O0 000 O0 0000000000 89 ~ ~ T E 0 O0 000 O0 0000000000 89 ~ T ~ [ 0 O0 000 O0 0000000000 8q ~ ~ T [ 0 O0 000 O0 0000000000 89 ~ T T E 0 O0 0o0 O0 0000000000 89 ~ i ~ [ 0 O0 000 O0 0000000000 89 ~ T T E 0 O0 00o O0 0000000000 8g ~ T T E 0 O0 OoO O0 0000000000 89 ~ T T E 0 O0 000 O0 0000000000 89 ~ T T E o O0 0o0 Oo 0000000000 89 ~ T t E 0 O0 0o0 O0 0000000000 89 ~ T t E 0 O0 000 O0 0000000000 89 ~ T t E 0 O0 OOO O0 0000000000 89 ~ ~ ~ E 0 O0 000 O0 0000000000 8q ~ T ~ ~ 0 Oo 000 O0 0000000000 89 ~ I T E 0 O0 000 O0 0000000000 89 ~ t I [ 0 O0 000 O0 0000000000 89 ~ i T £ 0 O0 000 O0 0000000000 89 ~ T ] E 0 O0 000 O0 0000000000 89 ~ T T E 0 Oo O00 O0 0000000000 89 ~ ! [ E 0 O0 000 O0 0000000000 8g ~ ~ l E 0 oo 000 O0 0000000000 89 ~ T T E 0 O0 000 O0 0000000000 89 ~ I T E 0 O0 000 O0 0000000000 89 ~ t t [ 0 O0 000 O0 0000000000 89 ~ T t [ 0 O0 000 O0 0000000000 89 ~ t T [ 0 O0 0o0 O0 0000000000 80 ~ I T [ 0 O0 000 O0 0000000000 89 ~ T l E 0 O0 000 O0 0000000000 89 ~ t T E 0 O0 000 O0 0000000000 89 ~ T I [ 0 O0 0o0 O0 0000000000 89 ~ I I E 0 O0 000 O0 0000000000 89 ~ I T ~ 0 O0 000 O0 ~0~6~9 ld~D ~qO q0~6~9 ~flD ~ND §0~699 ~dO dNO ~OP699 ltd ~HD ~dNZ §U~bg9 fid 8ND IHdN ~0~0~9 AD30 aO'l ~0~6g9 ~q ~Oq ~0~6E9 Id~S ~oq ~0~6~9 ~ ~Gq ~0~6~9 EO/S ~oq ~0~6~9 A 8Gq AHS9 ~0~6~9 A ~q AHSq §0~699 SdO ~Gq ~0~699 SdD ~dq ~0~699 9d3 ~dq qq ~0~699 gdD BOq [iq ~0%6~9 9aD ~Oq S0~6~9 ~dq 9S0 ~0~699 ~Oq 90~6E9 ~"1 A~d ~0~699 EDtD 80q §OPbg9 [D/D ~d"I ~OH8 90~bg9 ~q 8~ §0~6~9 ld~ 8HM aD ~0~6~9 WP ~H~ §OP699 Sfl 8H~ 830~0 DIA~S &I~tl A83~ bis Tape Ver~f.tcation l..istJn~ {chlumberger AlasKa Computlnd Center 6-F~B-1994 08:19 PAGE 5O DEPT 10668.~00 CIDF DTR Ib~DTR 31.2R1 IFRE.DT~ IIRD.DT~ 28.i72 IIXD.DTR SFLU D~ 31.5,.6 ~P.OTR MTE~:D . 164,300 TT1.BH~ 431,b00 TT2.BHR GR,BHR g3.750 TENS.BHR HTENoBMR 431,255 DPHI.LDR PEF LDR 4,891 QI.I$.LDR LU~LDR 264.50{) LhoLDR $S~.LDR 310.250 LSMV.LDR LSRH LDP 2.547 LURH,LDR TENS:LDR 4340.00o NPHT.CNR 14,450 RTNR.C~R NPOP.CNR 9.202 RCNT.CNR CFTC.CNR 4962.458 GR.CNR MTE~.CN~ ~6g.300 DEPT. 10600,000 CIDP.DTH I~P~.DT~ 3i.016 CILD.DTR IL~.DTP 30.078 IFRE.DTR IIRD.DTR 27.359 II×D,DTR SFL~'DT~ 30.938 SP.DTR MTE~.DTR 164.300 MRES.DTR TT~.BHR 431,600 TT2.BNR G~.BR~ 9~.750 TENS.BMR HTEN.BH~ 1355.000 DPHI,LDR PEF.LD~ 3.553 QL$.~DR LU.LD~ 264.500 LS.LDR S$~.LDP 3!0.250 LSH~.LDR LSR~.LDR 2.547 LURM LDR TENS.LDR 7120.000 ~TEg[LDR NPHI.CN~ ~4.450 RTN~.CNR NPO~.CNR 9.202 RCNI.CNR CFTC.CNR 4962.458 GR.CNR ~TEm.CNR 164.300 HTEN.CNR DEPT. 10500.000 CIDP.DT~ I~Pg.DTR 37.750 CILD.DTR IL~.DTR 34.7~9 IFRE.DTR IIRD.DTR 23.828 IIXD.DTR SFL~t. DTR 31.8~ SP.DTR MTE~.DT~ 164.75~ ~RE$.DTR TT~.BHR 4~9.60~ TT2.BMR GP.BMR 5'1,344 TE~S.b~R HTEN.BHR ~404.000 DPHI.LDR PEF.I.,D9 3.199 ~L$.LDR LU.LD~ 269.500 LL.LDR SS~.LOR 318.50~ LSH¥.L£~R LSR~.LDR 2.5~9 LURM.L~d T~NS.LD~ 7305.000 ~T~ NPM!.CNR ~.65q RTNR:CS~R NPOP.CNR 9.2~g RC~T.CNR 29.625 IDPH.DTR 3~..000 ILD.DTR 20.000 IDOF.DTR 6.676 IIRM.D?R -1.19.503 GR.DTR 0.,571 HTEN.DTR 306.800 TT3.BHR 4340.000 ~TE~.BNR 6.446 RHOB.LDR '0.037 QSS.bDR 134,625 blTH,hDR 1263.000 SSHV.bDR 2.543 CALI.LDR 164.3U0 MRE$,LDR 1.374 TNPH.CNR 6400 ~15 RCFT.CNR 93~ 50 TENS,CUR 431,250 29.078 IDPH,DTR 30.~25 ILD,DTR 20, 00 IDOF.DTR 6.586 IIRM,DTR -123.375 GR,DTR 0.571 HTEN,'DTR 3~6.800 TT3,B~R 71 0.000 MTEM,B~R 6.446 RHOB,LDR '0.037 Q$S,LDR ~34.625 LITH.SDR ~26~.000 SSHV.L~R 2.543 CALI.LDR 164.300 MRE$,LDR ~,374 TNPH,CNR 6400.015 RCFT.CNR 93.750 TENS,C~!R 1355.000 24 859 ~DPH. DTR 26:094 ILD,DTR 20.000 IDOF,OTR 2.240 IIRM,DTR '103.750 GR.DTR 0 573 HTEN.DTR 303~600 TTB.BHR 7305.000 MTEM.6~4R 3.321 RHOB.LDR -0.0i7 ~SS.LDR 141.625 LITH-LDR 12bl,O00 SSHV.LDR 2.531 CALI.LDR 164.750 MRE$.LDR 1.3~4 TNPH.C[~R b648.468 RCWT.C~R 33 750 32 219 3 000 30 391. 93 750 431 250 437 600 164 300 2 544 o 64 3 1296 000 2 098 0 571 g:~02 4610.463 4340.000 34,344 33,156 0.000 .750 1355,000 437,600 164.300 2,544 0.052 64'563 1296,000 2.098 0.571 9 202 4610i463 7120 000 40 188 38 281 0 000 27 375 57 344 1404 000 433 200 164 750 2 595 0.054 74.500 1296 000 8 461 0 573 9 344 4747 698 CIMP,DTR CILM,DTR IMQF.DTR IIX~.DTR TENS,DTR DT,BHR TT4.BHR MRES.BMR DRHO,bDR bS.bDR $$1.LDR $1RH.LDR GR.bDR HTEN,LDR TNRA,CNR CNTC,CNR MRES,CN~ CIMP,DTR CIb~.DTR I~QF.DTR IIX~,DTR TENS.DTR DT,BMR TT4.BHR MRES,BHR DRHO.LDR LS.LDR SSi.[.DR $tRH.LDR GR.LDR HTEN.LDE TNRA.ChR CNTC.CNE MRES,CNR ¢I~P.DT~ CIb~ DTR IiX~ DIR TENS DTR DT BMR TT4:BHR MRES.BHR DRHO.LOR LS.LDR SS1.LDR $1RH.LDR GR.LDR HTEN.LDR TNRA.ChR CNTC.CMR II ,ioo 53 2 0 6~ .~0 309~600 0.5~1 0:0,36 266~750 247500 2~451 93 750 431 250 1,303 636~,817 ,571 32,219 33-2!9 0,000 0'000 63200 30~ 600 571 0,036 266~750 247.500 0 1355,000 1,303 571 26,484 28.766 0.000 730 000 64,200 30~,800 ,573 27 250 25 000 7'387 !40 000 1,313 6592.624 ~IS Tape Verification t. istinc~ .chlu.~berger Alaska Computin0 Center CFTC.CNR 5101.871 GR.CN~ MTEM.CNR i64.75u HTEN.CNR D~PTo 10400.0©0 CIDP.DTR I~.PT~ 23.51.6 CILD.DTR . .DTR 23.281 IFRE,DT~ IIRD.OTP ~9.859 IiXD,DTR 8FbU.DTR ~2.53i SP.OTR MTE~~ DTR 164,5~5 ~RES, DTR TTJ~BH~ 456'400 TT2.5~R GR,BHR 55.969 TENS,bHR MTEM.BMR 1390,000 DPHI.LDR LU.LDR 3~ 4.500 5b, S$2.LDR 3~9.750 bSHV.LDR bSRH.LD~ 2.R~ ~ LU~M,LDR TENS,LDR 7130,00~ ~TEM.bDR NPHI.CNR !0.977 RTNR.CNR NPOR.CNR ~2,90~ RCNT,CNR CFTC.CNR 3292,06~ GR.C~R MTE~.CNR 164,525 MTEM.CNR DEPT i0300,O00 CIDP,DTR I~PH' , .DTR 36.84.4 CILD.OTR IL~.DTR 33.511 IFRE.DTR IIRD.DT~ 17,500 II×D.DTR SWL~I.DTR 50,84~ SP,OTR MTE~.DTR 163,962 ~RES'DTR TT~.BMR 463.600 TT2.BHR G~.BHR 41.344 TENS.BMR HTEN.BMR 13~3.000 DPHI'bDR PEW.LDR 3.94~ OLS.~DR LU LDR 291.250 Lb. LDR ss~:~D~ 3~8.ooo bs~v bOR LSRH.LD~ 2,490 LURH:LDR TENS LD~ 7000 000 MTE. bDR NPHI CNR 9.083 RTNR.CNR NPOPlCNa 11.260 RCNT.CNR CFTC CNg 4087.16~ GR,CNR MTE~:CNP 163.962 NTEN.CNR DEPT. 10200.0o0 CIDP.DTR I~PW.DTR 43.781 CILD.DTR IL~.DTR 42.90b IF~E.DTR IIRD.DT~ !3,9~.t TIXD.OTR $FL~!.DT~ 57.375 SP.DTR MTE~.DTR 162.500 MRES.DTR TTJ.BHR 446,800 TT2.bHR GR.BMR 48.011 TE~S.BHR HTE~.BM~ 1432.00u DPHI.LD~ PEF.LD~ 5.230 QLS.DDR b~i. LDg 313.500 LL.LDR SS?.LD~ 331'75~ [,SHV.LDR LSRW.LOR 2.424 LURH.LDR TEN$.LDR 7140.0~9 6-FEB-1994 08:19 57 344 TE~IS,CPR .094 20,000 2,230 -118.188 0.561 ~15,200 7~30.000 13 010 0 006 174 875 1202.000 2,434 1~4.525 1.730 5 9~9 1390,000 18.109 19,094 20,000 2.295 -134.500 0,558 321.600 7OOO.0OO 6,662 -0.033 151.250 12~i000482 163962 ! 514 4~.34~ 1393.000 14.4~5 15.273 20.000 -2.287 -131.000 0,558 ]i2.800 7140.000 7.936 -0.02g 165.750 126~.000 2.436 162.500 IDPH.DTR ILO, DTR IDQF g~ R IIRM,DTR GR.DTR MTEN.OTR TT3,BHR ~TEa'BHR RHOB.LDR QSS,bDR LITH.LDR SSHV,DDR CALI,bDR MRES,LDR TNPH,CPR RCF~, CNR T~ ENS,CNR IDDH,DTR IbD,DTR IDQF.DTR IIRM.DTR GR,DTR HTEN,DTR TT3.BMR ~TEM,BMR RHOB~bDR QSS.bDR LITH.LDR SSHV.LDR CALI.LDR MRES.bDR TNPH,CNR RCFT,CMR TENS.CNR IDPH,DTR ILD.DTR IDQF,DTR GR.OTR HTEN,DTR TT3.B~R MTEM,B~ RHO~.LDR OS$,LDR I..ITH.LDR SSHV.LDR CAbI.bDR ~RES.LDR 7305.00'0 31 125 30 375 0000 40.781 55,969 1390,000 456.000 164,525 2.435 0.055 74.625 1297,000 10.289 0561 12!633 3051516 7130 000 55 0.000 28.344 41.344 1393,000 461.~00 16~.962 .540 0 1296000 o 558 10!424 3669 317 7000.000 69,188 65,438 0,000 22.!72 48.031 1432 000 1~2.500 2.519 0.087 60,251 1296 000 9:352 0.558 MRES.CNR CIMP.DTR IMQF.DTR IIX~.DTR TEN$.DTR DT.BHR TT4,BMR MRE$.BHR DRHO.LDR bS,LDR SSI,LDR SIRH,LDR GR.LDR HTEN,LDR TNRA,CNR CMTC,CNR MRES.CNR CI~P,DTR CI5M.D?R TENS.DTR DTBMR TT4 BMR MRES BHR DRHO,LDR b$.LDR SS1.LDR S1RM.LDR GR.LDR HTEN.LDR TNRA.CNR CNTC,C~R MRE$.CNR CIMP.DTR CILM.DTR TENS,DTR DT.BMR TT4.BMR MRES.BMR DRMO.LDR b$.LDR S1RH LDR GR:LDR HTEN.LDR PAGE~ 5! 0,573 42 500 42 906 0000 -5480 7130 000 66 100 320 000 0 561 0 0t4 332,000 250,875 2,357 55 969 1390 000 i 6!7 5259 097 0 561 .0,000 5,035 7000,000 67,800 322,800 0,558 0,044 297.000 254,.250 41, 4 1393.,000 0.558 22.828 23,297 0 000 '14 609 7140 000 64 500 316 400 0 558 0,090 321,500 27 ,000 2.234 48,031 1412,000 ,,IS TaPe Verification Listing ;chlumherger AlasKa Computing Center NPHI,CNR 12.511 RI~R,CNR NPOR,CNR 13,77~ RCNT.CNR CFTC,CNR 314i,418 GR,CNR NTEM.CNR 162,500 HTEN.CNR DMPT. I0100,005 CIDP.OTR IMPH,DTR 29,103 CILD,OTR Ib~,DTR 32,5gq IFRE.DTR IIR~,DTR 19.75~ IIXD.DTR SFLU,DT~ 27,155 SP,DTR MTEM,DTR 161.825 ~RES,DTR TT~,BHR 457.200 TT2.BHR G~,BMR 85,43~ TEMS,BH~ HT£W,BHR 1402,000 DPHI.bDR PEF,LDR 5,273 LU,LDR 290.250 Lb,LDR S$~.LDR 321'000 LSHV.LDR LSRH,LDR 2,469 LURH.LDR TENS,LDR 6870,000 MTEi~.bDR NPH7,CNR 30,762 RTNR,CNR CNR NPO~,CNR 30.990 RCNT,..t.' CFTC,CMR 1026.336 GR,Ch.R MTEg.CNR 161,8~5 MTEN,CNR DEPT i0047,~00 CIDP,DTR I~PH:DTR 30, 5~ CILD.DTR IL~.DTR 30.U31 !FR~,DTR ItRD,DTR 19,438 IIXD,DTR SFLU,DTR 27,156 SP.OTR MTE~,DT)~ 16i.488 MRES,DTR TT~.BMR 457.200 TT2.BHR G~,BHR 43,719 TEN$.~R HTEM.BMR 1351,000 DPHI.LDR PEF.LDR 3.545 QLS.LDR LU.LDR 272,750 LL.LDR $$~.LD~ 314,500 LSHV.LDR LSRH,LDR 2,521 LURH.LDR TENS.LD~ 6870.000 MTEM.LDR NPHI,CNR 13.494 RTNR.CNR NPO~.CNR 14,374 ~CNT,CNR CFTC.CNR 24~2.202 GR.CNR MTE~.CNR i61.48~ HTEN.CNR ** ENO Om DATA ** 6-FEB-1994 08119 1,714 TNPM,CNR 5014,816 RCFT,CNR 48,031 TENS,CNR 1432.000 20.609 IDPM.DTR 21,766 ILO,DTR 20.000 IDOF,DTR 0.938 IIRM,OTR -1i4,688 GR,OTR 0,559 HTEN,OTR 325.200 TT3,BMR ~870,000 MTEM.BHR 8,776 RHO~,LDR '0,017 Q$S,hDR 154,250 LITH,bDR 1261,000 SSHV.LDR 2,484 CALI,bDR 161,825 MRES,LDR 3,000 TNPH,CMR 2756 310 RCFT,CNR B5~4 8 TENS,CNR 140~,000 20 250 IDPH,OTR 21~28 20,000 IDQF DTR 0,251 IIRM DTR -I14.688 GR OTR 0,559 ~TEN DTR 325,200 TT3,BHR 6870,000 MTEM,BHR 4,02~ ~HOO.hDR -0,016 OSS.LDR 143,625 LITH,LDR 1258,000 SSHV,bDR 2.523 CALI,LDR 161,488 MRES,bDR 1,7B7 TNPH.CNR 4075.341. RCFT,C~R 43'719 TENS,C~R 1351.000 13 396 29151313 7140,000 48,459 45,906 0,000 29,156 _85,438 1402~.000 533.200 161 825 2505 0 ~44 58 O0 1296000 9 766 0 ~59 30 09 983 ~37 6870 O0 49.344 46 875 0 000 31 65~ 43 71 1351 000 2 584 0 062 75 38 0 59 14 374 2250~392 6870,000 TNRA,CNR CNTC,CNR MRE$,CNR ClMP,DTR CILM,DTR I~OF,DTR IIX~,DTR TEN$,DTR DT,BHR TT4,BhR MRES,BHR DRHO.LDR LS.LDR S1RH.LDR GR,LDR HTEN,bDR TNRA.CNR CNTC.CNR MRES.CNR CIMP.DTR CILM,DTR IMQF.DTR TENS.DTR DT.BMR TT4.BMR MRES.BMR DRHO,LDR LS.LDR SSI.LDR SIRH.LDR GR.LD~ HTEN.LDR TNRA.CNR CNTC.C~R MRES.C~ PAGE~ 52 1,643 5063,958 0,558 34,333 30,656 0,000 -15 8~8 6870 000 60 100 424 800 0559 0 O3O 299 50O 5O 85 438 1402 000 2 894 2821 817 0 559 32,2 1 33,'2~1 0,000 -10 961 6870 000 60 100 424 800 0 559 0057 280 000 255 875 2 389 43 719 t351 000 · 1 695 4051 655 0 559 ~iNOS Q~£¥~N~d~O3 ~qOP~O~ ~H~' DH~ 9~S NOI&DiiQNZ q~flQ ~OS~Hd N~Q' ~-il~ EO-£6OO~-EK£-vg 9 tgOl~6 : /0~[00 : MOIS~A PO0' IIG~ : 3~VN EO0' ~lO3 : MNVN 6 '[: 80 ~66 dd~I 1~30 A~D : AdAi e~n~e~aama& eTdme~ e~eD pnw aT~me~ pnw ~o sgo9 P~nT3 9UTTTT~O qd P~nT3 ~uTTT~aO P~nT3 ~a~§oq - q~da~ Ie~o£ ~eTTI~O - q~daO Te~e~ puno:D ~o .~oo'[3 ~T::aO ~o uo~eAaT3 ~UTqSn~ TTe~ ~o uo~e eT3 mo:3 pe~nsea~ bo~ mn~eO ~uauem~ea ;o Uot~eAaT3 mn~ep ~ueuem~ed 2aqmnN ~eplo amen ssau~TM UOT~eN eDuT^o:~ 2o abue8 d~qsu~o£ uoT~aa~ £DID '8E6Z Z~ '8~60t ~ 1'18 *~960! t~ OOi £J SO~ ~9 ~Og N6 L~ N~ uol~enoq pTaTj ~# ~Oq9 ~ D~q NOIZVDOq ~NAg ~aq~N '~T~a~ IaV £O-C600~-E££-OG amen AUedmoD QYDONA 6*il:: 80 966 OT~ uo~na~ Ie~aqj~ *~o~ a~T~ peap 3 TT~ ~XT~e~ ~B ~Tso~od UO~aN pa~suad~oD UOTSUa~ P~aM a~n~e~adma& Al[~uao ~lnP 6UTO~o~ 6uo,] ou D d ~ US ebellOA q ~ UTOe~g buOq a%~a ~unoo ~opuI~ bOTOq~Tq a~e~ ~unoD ~opu~ Ia~Oq~uoq (~g~+I~g) a%ea ~unoo ~opui~ Z=T ~eaag 5uo~i (l/fl~+qq) a~a 7unoD p~na~oo6ulo~d~ buoq J~Oq ~o; ~uloea~ laoqs uo loaluooA £3q ~0~ bUl~eds bUOl 1o Io/3uoo AlIlenO OHH A~lso~od A~lsueo uo~sue~ P~eH Aa'IAI1$~SO~ uotsue£ a~e~n9 '[euotss~idmoo uotsuai P~aH uo~uai ase~ns lel~ua~od snoeu~uSd~ pabeaaaeu~ A~tAt~STSa~ IIAI]DnpooD alelpamle~uI pea~ uol'lonpuI f%IAT~OapUOD a~gIpa~a'~uI Iea~ UOT%Dnpu~ daaG io%oe~ A~T[enO ,~olpa~ uoI~onpuI AouanOa~ pa~e~q'lleO uoT~onpul A~TAT~ST~a~ passasold plepue~ uol~DapuI ~nTpa~ pas~aDOld pI~pUe%~ mnTpa~ "IT A~TAT~D[~DuoD I~20 61]:80 966'[ 0000000000 89 ~ I t ~ 0 ~0 000 ou ~of6~9 ~wNO a~ ~qI 0000000000 89 ~ ~ T ~ 0 O0 00o O0 §o~6~90N~ ~£O nqI3 OOOO000000 89 ~ ! ~ ~ 0 O0 0o0 pO go~o~9 ~WHO ~£O 0000000000 89 ~ ~ ~ ~ 0 Oo 000 Ob ~0~6E90N~W a~Q 0000000000 89 ~ I I 9 0 O0 000 O0 ~0~6~9 mWHO ~O hd~I 0000000000 89 9 I I 9 0 O0 000 O0 §0~6~90~NW ~Q ~NID 0000000000 89 5 I t ~ 0 O0 00o O0 qO~oZ9 ~NHO a£Q HdOI 0000000000 89 9 t ! ~ 0 O0 000 O0 ~0~6~9 0~;~ ~Q dOlD 0000000000 89 9 ! t ~ 0 O0 O00 O0 ~0~699 £~ (X~M) ~QOD N~q~ dN~ ~NfiN QON ~qD ~d~ DOq # ~Q~O OI 89 99 0 99 £ 99 99 0 99 0 99 g~ 0000000000 89 ~ ~ t ~ 0 0000000000 89 ~ ~ I ~ 0 0000000000 89 ~ T ~ ~ 0 0000000000 8~ ~ ~ [ ~ 0 0000000000 89 ~ T ~ ~ 0 0000000000 89 ~ T I ~ ~ 0 0000000000 89 ~ I t ~ 0 0000000000 89 ~ T I ~ 0 0000000000 89 ~ ! t ~ 0 0000000000 89 ~ T I ~ 0 0000000000 8~ ~ T I ~ 0 0000000000 89 ~ I I ~ 0 0000000000 89 ~ ~ I ~ 0 0000000000 89 ~ ~ t ~ 0 0000000000 89 ~ ~ T ~ 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ I T ~ 0 0000000000 89 ~ ! I ~ 0 O0000OO000 89 ~ T T ~ 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ T t ~ 0 0000000000 89 ~ T T ~' 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ T t ~ 0 0000000000 89 ~ ~ T ~ 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ T I ~ 0 0000000000 89 ~ ~ T ~ 0 0000000000 89 ~ T ~ ~ 0 0000000000 89 ~ T ~ ~ 0 0000000000 89 ~ I T ~ 0 0000000000 89 ~ T ~ ~ 0 0000000000 89 ~ I T ~ 0 0000000000 89 ~ t T ~ 0 0000000000 89 ~ ~ T ~ 0 0000000000 89 ~ ! T ~ 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ ~ T ~ 0 0000000000 89 ~ T ~ ~ 0 0000000000 89 ~ I T ~ 0 0000000000 89 ~ I t ~ 0 0000000000 89 ~ T I ~ 0 0000000000 89 ~ T ~ ~ 0 0000000000 89 ~ t I '~ 0 0000000000 89 ~ T t ~ 0 0000000000 89 ~ I I ~ 0 0000000000 89 ~ T T ~ 0 0000000000 89 ~ I T ~ 0 O0 000 O0 ~0~6Z9 O0 000 O0 O0 000 O0 g0~6~9 O0 000 00 g0~6~9 fid ~NO iHdN O0 000 O0 ~056~9 ~q O0 000 O0 O0 000 O0 §0~6~9 O0 000 O0 g0~6~9 ~q ~q'l SN3£ O0 000 O0 §O~bg9 IdV9 aO'l aD O0 000 O0 ~O~b~9 NI 8(iq Iq~D O0 000 O0 §0~6E9 [D/D ~qq ttHflq O0 000 O0 §0~6~9 ED/D O0 000 O0 ~096g9 00 000 00 §0~'6g9 O0 000 00 ~O~b~9 O0 000 O0 ~Ot6g9 ~dD O0 000 O0 ~0~619 9dD ~Q~i O0 000 Or) ~0~6~9 ~dD ~Gq qq O0 000 O0 §0~6~9 ~dD O0 000 O0 O0 000 00 ~0~699 M~i O0 000 O0 ~0~699 ~Oq ~d 00 000 00 §0~6~9 O0 000 O0 §0~6~9 [D/D ~Orl ~OHH O0 000 O0 O0 000 O0 §0~6~9 O0 000 O0 ~0~6Z9 ~WHO O0 000 O0 ~0~699 MD30 O0 000 O0 g0~6~9 Hq 00 000 00 g0~699 IdVD O0 000 O0 §0~699 OO 000 O0 ~0t, 699 gO ~H~ 00 000 O0 ~0~6~9 O0 000 O0 §0~6~9 O0 000 O0 O0 000 O0 O0 000 O0 90%6~9 ~HO O0 000 O0 gO+6Z9 O0 000 O0 O0 000 O0 ~0~6~9 id~D ~£0 aD 00 000 O0 ~0%699 A~ 00 000 00 ~0~699 NWHO MZ~ flq~9 O0 000 O0 ~0~619 OHKW aiO ~HII O0 (~00 O0 q0~'6~90HNW ~%G Q'×II 00 000 00 §0~:'6~9 0~ ~d O~II O0 000 O0 §0~6~9 O0 000 O0 ~0~0~9 aZ~ aOQI O0 000 O0 §0~6g9 ZH (X~H) ~GOD W3q3 d~ ~N~N OQW ~rlO ~dX£ DOq ~ a2OMO ¢ti L~ 6[:80 PUT]Slq UOTleOTllaoA oa~£ SI~ ,IS Tane Verification Lls'tlnq ;chlumberger AlasKa Computing Center 6-FEB-1994 08:I9 PAGEt 58 ID ORDER # bOG TYP NDO~ CNR PU 629.405 O0 000 RCNT CN~ CPS 629405 O0 000 RCFT CNR CPS 629405 O0 000 CNTC CNR CPS 629405 O0 000 CFTC CN~ CPS 629405 O0 000 GR CNR GAPI 629405 00 TENS CNR LB 629405 O0 000 M~ES CNR OH~M 629~05 O0 000 MTE~ CNR DEGF 629405 O0 000 HTEN CNR ~B 629405 O0 OOO I AP1 AP F O0 0 4 O0 0 4 O0 0 4 O0 0 4 O0 0 4 O0 0 4 O0 0 4 O0 0 O0 0 4 O0 0 i i 4 68 0000000000 1 I 4 68 0000000000 1 i 4 68 0000000000 1 1 4 68 0000000000 I i 4 68 0000000000 1 1 4 68 0000000000 1 I 4 68 0000000000 1 1 4 68 0000000000 I i 4 68 0000000000 1 1 4 68 0000000000 mm DEPT, 9404.000 CIDP,DTR I~PH DTR 1.2.055 CILD,DTR 5~TR ~1.797 IFRE,DTR IIRD ~TR 69,938 IIXD.DTR SFL!~DTR 13,48~ SP.DTR MTEM,DT~ 144.275 MRE$.DTR TT~.BHR 494,400 TT2.BHR GR.BHR 106,875 TEN$.BHR HTEN.BHR 518,009 DPNI.LDR PE~.LDR 2.484 OLS.LDR 4~.LDR 387,750 Lb,4DR S$ ~.LD~ 355.00~ L$HV.LDR LSRH LDR 2.3~8 DURH LDR T~NS:LDR 3905.00~ ~TE~q:LDR NPHI.CNR 31.502 ~T~R,C~R NPOR.CNR 24.21[ CNT.CNR CFTC.CNR ~151.955 GR.CNR ~TE~.CNR 144.275 HTEN.CNR D~PT. 9400.00~ CIDP.DTR I,P~.DTR 12,055 CIBD.DTR ILN.DT~ 11.791 IFRE.DTR IIRn. DTR 69.938 !IXD.DTR SFLU.DT~ 13.48~ SP.DTR ~TE~.DTR 144.275 MRES.DTR TTI.~HR 494,400 TT2.BHR G~.BRR I0~,875 TEPJS.BHR HTEN.BHR 582.0o~ DPHI.DDR PEF.LOR 2.744 QLS.~DR b!!.[,O~ 387.75~ LL.hDR SS~.LDR 355.u00 5SH~.LDR LSR~.LD~ 2.31~ LURH.bDR TENS.LDR 5085.000 ~TEi~.LDR NPHT,CNR 31.5o2 RTNR.CNR NPOR.CNR 24.21i RCNf.CNR CWTC.CN~ t15~.955 GRoCHi{ 75.81] IDPH.DTR 78.063 ILO.DTR 20.000 IDOF,OTR 4,086 IIRM,DTR 55.063 ~R.DTR 0 94] ~TEN'DTR ]36~400 TT3,BHR 3905,000 ~TEM,B~R 18.434 RHOB.bDR -0 042 OSS.bDR 206i875 LITH,hDR 1258 000 SSHV.~QR 2.309 CALI,SDR 144.275 MRES.LDR 2..63~ TNPH.CNR 2863 334 RCFT'C~R 1063875 TEN$.C~R 518.000 75.~3 IDP~.DTR 78.063 ILD.DTR 20.000 IDOF.DTR 4.086 IIRM.DTR 54.875 GR,DTR 0.943 HTEN.DTR 336.400 TT3.B~R 5085.000 MTEM.BHR 18.4~4 RHOB.~DR -0.0~2 OSS.~DR 206.875 LITH.~DR 1258.000 SSHV.bDR 2.309 CALI.bDR 144.275 MRES.DDR 2.638 TNPH.CNR 2863.334 RCFT.CNR ~06.875 TENS.CNR Ii,180 80!50 ~06! 75 518 O0 532 800 144 275 2 346 0 044 126 188 000 1291 125 0 943 24 i070 245 3905 000 CIMP,DTR CILM.DTR IMQF.DTR IIXM.D~R TENS*DTR~ DT.BHR TT4.BHR MRES~BHR DRHO.LDR hS.LDR S$1.LDR $1RH,LDR GR,LDR HTEN.LDR TNRA.CNR CNTC.CNR MRES.CNR 13.180 CIMP.DTR 12.805 CISM.DTR 3.000 IMOF.DTR 80.250 IIXM.DTR ~06.875 TEN$.DTR 582.000 DT.BHR 532.800 TT4.BHR 144.275 MRES.BHR 2.346 DRHO.LDR b$ LDR , $$1!LDR GR LDR 0.9~] HTEN.LDR 24.21! TNRA CNR 1070.245 CNTC:CNR 5085.000 MRE$.CNR 82,875 84 688 2 000 3905,000 392,800 0,943 0,050 400,~7S0 250 ~99 106,,875 5t8,000 692 0,943 82 875 ,000 1,125 5085.1~0 74, 0 **g: oo 0.050 400 750 269 250 2 199 106 875 582 000 2 501 2846 692 0 943 ~IS TaDe Yerlfication Listing ~chlumberger Alaska Computlnq Center MTE~.CNR 144,275 HTEN.CNR DEpT, 9300,000 CIDP.DTR IMPg,DTR 5,090 CILD.DTR ID~,DTR 4,906 IFRE.DTR IIRD.DTR 1182.875 IIXD.DTR SFLU.DTR ~2,891 SP.DTR , ' T MTE~,DTR 144,275 TT~,BH~ 5~2,80~ TT2.BMR GP BHR I06.875 TENS,S~R HTE~:BM~ ~417,000 DPHI.LDR PEF.LDR 2.74~ LU.LD~ ~87.750 $S~.LDR 355.000 LS~V.&DR LSRH.LDR 2.318 LURH.LDR TENS.LDR 6375.000 MTE~,LDR NPH!.CNR 31,502 RTNR.CNR NPOP,CNR 24.2~1 RCNT.CNR CFTC.CNR 1151.955 GR.CNR MTE~.CNR 144.275 HTEN.CNR DEPT. 9200.00~ CIDP.DTR I~P~ DTR 8.992 CILD.DTR L~DTR 9.06] IFRE.DTR IIRD.DTR 103,1~5 IIXD.DTR SFLU.DTR 8.!56 SP.DTR MTE~.DTR 144,500 MRES.DTR TT~,BHR 501.600 TT2.SHR GP.BHR 81.000 TENS.BMR HTE~.BHR 1354.000 DPMI.LDR PE~.LDR 3.33~ QLS.LDR LU.LDR 269.500 Lb.bDR SS? LDR 3~8.50t3 LSHV LDR LSRH:i, DR 2.53i LURH:bDR TE~$.LDR 6120.000 ~TEM.LDR NPHT.C~ . NR 29 458 RTNR,CMR NPOP.CNR 31.8~7 RCN'~.CNR CFTC.CNR 862.53i GR.CNR MTE~.CNR 144.500 HTEN.CNR DFPT. 9100.0~o CIDP.DTR I~PH.DTR 20.828 CILD.OTR Ib~.~. DTR ~2.~34 IFRE,DTR IIRD.DTR 57,094 IIXO.DTR 6FLU. DTR 61.531 SP.OTR NTEM.DTR 14~.05U ~4RES.DTR TT~ .BMR 833.20<3 TT2.BHR G~.B~R 40.188 TENS.BHR HTEN.BMR 1391 000 DPHI.~ R PE~, LOR 2. 934 (~LS. bDR bl]. LDR ~ 032. OOO bb.bDR 8S~.bDR 427.759 LSHV.bDR LSRM. LDR 1,75~ LURH.bDR TENS.LD~ 6075.000 .TE~4,LD~ NPHT.CNR 53.20b RTNR.CNR 6-FEB-1994 5S2. 000 207.750 IDPH,DTR 208'750 ILD,DTR 20.000 IDOF,DTR 19.922 !IR~i,DTR -31,3i3 GR,DTR 0.9%3 HTEi~,OTR 359.200 TT3,BHR 6375.000 MTE~iiHR IB.434 RHO,~ D~ -0.042 OS5 DR 206.875 LITH~DDR i259.000 SSHV,~DR ~.309 CALi,~DR 144,275 ~RES~bDR ~.638 TNPH,CMR 2863.334 RCFT.CNR ~06,875 TENS,CNR 1417,000 114.875 IDPH,OTR 117.188 ILD,OTR 20,000 ID~F'OTR 4,281 IIRM'DTR 59.625 GR,DTR 0 947 HTEN~DTR 357:600 TT3'BHR 6120.000 ~TEM,BMR 4.570 RHOB,~DR '0.012 OSS'LDR 142.250 bITH,LDR 1258.000 SSHV,LDR 2.531 CALi,LDR 144.500 MRES.LDR ].~74 TNPM,CNR 25~0.506 RCFT.CNR 81.000 TEN$.CNR 1354.000 50 875 IDPH,DTR 59:594 ILD,DTR 20.000 IDOF,DTR 6 977 IIRM.DTR 45:250 GR.DTR 0.954 HTEN,DTR 5%8.400 TT3.BHR 6075.000 MTE~.BHR 50.8b0 RHO~.LDR 0.O01 QSS,~DR 581.500 LITH.LDR 1259.000 $$HV.LDR 1.7~1 CALI,LDR 144.050 ~RES,LDR 5.072 TNPH,CNR :813 · 785 106 875 1417 000 514 800 144 275 2 346 0 044 126 188 1~9] O00 125 0 943 241~ 1070 6375,000 8 703 B 523 0 000 104 ~ 1354 000 492,000 144,500 2.575 0.023 81.188 1293.000 t3 242 31 433 808!203 6120 000 19,641 16.766 o'o0o 42.719 46.188 1391.000 829.600 144.050 1.811 0.063 314.250 1293.000 22 797 55.814 CIMP.DTR CILM,DTR IMOF.DTR IIXM.DTR TEN$.DTR DT,B}{R TT4.BHR MRES,BHR DRHO LDR bS LDR SSl [,DR SIRH LDR GR LDR HTEN.LDR TNRA,CNR CNTC,CNR MRES,CNR CIMP.DTR IMQF TR IIXM,DTR TENS,DTR DT.BHR TT4.BHR NRES,BNR DRHO.LDR bS.LDR SSI.LDR S1RM LDR GR:LDR HTEN.LDR TNRA.CNR CNTC.CNR MRES.CNR CIMP DTR CIbM:DTR IMQF,DTR IIXM.DTR TENS,DTR DT.BHR TT4.BHR MRES.BHR DRHO.LDR b$.LDR SSI.LDR SIRH.LOR GR.LDR HTEN.LDR TNRA.CNR PAGE: 59 196 375 ,000 20~' ,000 5,113 6375,000 79,700 359i200 0~943 o 050 400 750 269 250 2 106 75 1417 000 2 50! 2846 69 0,94 111,11~5 110,25 0 0 .o 0 0 - 1 538 61~I O00go0 347 600 0 947 0 8 0 0~0 277 246 2 49 81' 000 1354 000 2 g50 37,250 ooo o0o 111,900 6 :ooo 954 0,038 1098.000 301,500 1,657 46.188 1391.000 4.543 :IS Tape Verification Listing chlumberger AlasKa Computing Center 6-F[SB-1994 08:19 PAGE~ 60 NDOR.CNR 55.712 RCNT.CNR 1692 602 RCFT,CNR 37~,133 CNTC.CNR 1679.841 CFTC,CNR 375.790 GR.CNR 46~188 TEN$,CNR 607~,000 MRES.CNR 0,954 MTE~.CN~ 144.05~ HTEg.CN~ 139~.000 DEPT. 9095,500 CIDP.DTR 77.{.25 IDPH,DTR 12.953 CIMP.DTR I~P~,DT~ 10,539 CILD, DTR 8~,625 ILD. DTR i2,094 CIS~ DTR ILM DTR 10,188 IFRE,DTR 20,000 IDQF.DTR 0000 IMQF:DTR IIRD.DTR' 75.31~" IIXD.DTR ~, 391 IIR~.~TR, 9~[938 IIXM. SFLU DTR 11.789 SP.DTR 47.813 GR.OTR 98.~88 TENS.DTR MTE~'[DTR 144,275 ~,~RES'DTH 0.954 HTEN.DTR 1475..~00 DT,BHR TT~ .RHR 599.200 TT2. BHR 42~ .200 TT3. B~{R 628.000 TT4. BMR 7 ,000 DPH: . RHOB.G )R DRHO. DR LU.I, DR 303.250 LD,LDR 1673.35 LITM,LDR 9~,063 SSI.LDR SS~ LDR 330 OOD LSHV LDR 1259.000 SSHV.&DR 1293,000 LSRH LDR 2.45~ LURH.LDR 2,457 CALI.LDR 13.336 GR.LDR TENS~LDR 62~5,000 ~.~TEM,bDR 144,275 MRES.LDR 0,954 HTEN.LDR NPHI.CNR 33,033 R~NR.CNR 3.138 TNPM.CNR 32.895 TNRA.CNR NPOR,CNR 31.405 RCNT.CN~ 2606,838 RCFT.CNR 773,021 CNTC.CNR CFTC,CNR 8~0.838 GR,CNR 98,688 TENS,CN~ 6925.000 MRES.CNR ~TE~.CD~D 144,275 HTEN,CNR 1475.000 94,875 98,1~5 0,000 622~iTM 90 ~00 O0 38~,200 954 0.029 ~15 000 252 500 98 688 1475 000 2495 828 0 954 ~*~ FILE TRAILER FILE NAME : EDIT .004 SERVICE : FSIC VERSION : O01AO7 DATK : 94/02/ 6 M~X R~C SIZE : FILE TYPE : LO h~S· FILE : $*~* TAPE TRAILER SERVICE NAME : EDIT DATF ~ g4/O?/ 6 O~IClN : FLIC TAPE NA~E : CONTINUATIDh~ # : ~. P~EVIOU$ TAPE : COMMENT : UNt]C~L,MC~RTHUR RIVER, T,S,U K-26 "HI3EVOS", 50-733-20097-03 t9 6%:80