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191-026
· XHVZE Pages NOT Scanned in this Well History File 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 El Color items - Pages: Grayscale, halftones, pictures, graphs, charts Pages: Poor Quality Original - Pages: Other - Pages: DIGITAL DATA [3 Diskettes, No. Other, No/Type OVERSIZED Logs of various kinds -El' Other COMMENTS: Scanned' by: Seve~ D~~~n Lowen TO RE-SCAN Notes:- Re,Scanned by: Beve~y aanr= Vincent Nathan Lowell Date: Is/ ~ S BEEN ON OR BEFORE 0 NOX/EMBER 2 200 PLUGGING & LOCATION CLEARANCE REPORT State of Alaska ALASKA OiL & GAS CONSERVATION COMMISSION Memorandu_m To File: Spud: Note casing s~ze, wt, Perf in:e~ais - tops: 115 · a-'13 ~ 60 I0 depth, cmt vol, & procedure. Review the well file, and' comment on plugging, well head status, and location c!ear.ance - orovide loc. ~/b, C~' ~ ~ D-'777'- 300 7 clear, code. Well head cut off: Marker post or plate: Location Clearance: Conclusions: Code mP STATE OF ALASKA ALASK~ OIL AND GAS CONSERVATION COMMISSION WELL COMPLETION OR RECOMP LETION REPORT AND LOG 1. Status of Well Classification of Service Well OIL I-I GAS [] SUSPEFa3ED [] ABANDONED E] SERVICE [] Plugged back for redrill 2. Name of OperatOrconoco, Inc.~'~.. ~iGi~~L 7. Permit Number91.26 3. Address ' - 8. APl Number 3201 "C" Street, Ste. 200, Anchorage, Alaska 99503 50- 029-22141 4. Location of well at surface 9. Unit or Lease Name 3176'SNL, 3459'WEL, SEC 27, T13N, RIOE i Milne Point At Top Producing Interval / DALE. I~ .i~'~;~ ~"?~ '~''~I~ 10.G.aWell Number 543' SNL, 4323' WEL, SEC. 27, T13N, RIOE , .... :~_.~---.~1 ~~V£~IFt~'D -- i ~~ Schrader11' Field andB/uffPool At Total Depth ~ - 93' SNL, 4410' WEL, SEC. 27, T13N, RIOE 5. Elevation in feet (indicate KB, DF, etc.) ~6. Lease Designation and Serial No. KBE = 35' ! ADL 25906 12. Date Spudded 13. Date T.D. Reached i14. Date Comp., Susp. or Aband. 115. Water Depth, it offshore 116. No. of Completions I 5/24/91 5/28/91 7/14/93 N/A feet MSL I Zero 17. Total Depth (MD+TVD) 18. Plug Back Depth (MD+TVD) 19. Directional Survey ]20. Depth where SSSV set ~1. Thickness of Permafrost I 5765' MD/4507' TVD 2779' MD/2399' TVD YES [] NO [] None feet MD ! 1800' (Approx.) 22. Type Electric or Other Logs Run SP, DIL, NGT, CNL, LDT, MSFL 23. CASING, LINER AND CEMENTING RECORD SE'I-rING DEPTH MD CASING SIZE WT. PER FT. GRADE TOP Bo'FrOM HOLE SIZE CEMENTING RECORD AMOUNT PULLED 13-3/8" 54.5# K-55 Surface 115' 36" 452 sx AS IV 9-5/8" 36# L-80 Surface 2736' 12-1/4" 900 sx "E'Y300 sx "G" 7" 26# L-80 Surface 5010' 8-1/2" 260 sx "G" w/ECP @ 5000' 4-1/2" Screen 4771' 5429' 12" Gravel packed open hole Liner 24. Perforations open to Production (MD+TVD of Top and Bottom and 25. TUBING RECORD interval, size and number) SIZE DEPTH SET(MDI PACKER SET (MDt None None ;)6. ACID, FRACTURE, CEMENT SQUEEZE, ETC. DEPTH INTERVAL (MD) AMOUNT & KIND OF MATERIAL USED 4648'-4752' 22.5 cuft Class "G" -squeezed to 1500 psi ~\ ~''~' ~ '~ ;! '~¥ :~'! ~ ~ 4752;5430' 416 cuft C/ass "G" 2779;3007' 140 cuft Class "G" 27. PRODUCTION TEST Date First Production IMethod of Operation (Flowing, gas lift, etc.) Not on production I N/A Date of Test Hours Tested PRODUCTION FOR OIL-BBL 3AS-MCF WATER-BBL CHOKESlZE ]GAS-OIL RATIO I ]'EST PERIOD Flew Tubing Casing Pressure 3ALCULATED OIL-BBL GAS-MCF WATER-BBL DIL GRAVITY-APl (corr) Press. 24-HOUR RATE Brief description of lithology, porosity, fractures, apparent dips, and presence ol oil, gas or water. Submit core chi~k.~.. ~ ~ ~.~" Form 10-407 Submit in duplicate Rev. 7-1-80 CONTINUED ON REVERSE SIDE 29. 30. GE-OLOC-~ MARKERo FORMATION TESTS NAME Include interval tested, pressure data, all fluids recovered and gravity, MEAS. DEPTH TRUE VERT. DEPTH GOR, and time of each phase. Schrader Bluff "NA" Sand 5051' 3994' "NB" Sand 5098' 4027' "OA" Sand 5283' 4158' "OB" Sand 5415' 4250' 31. LIST OF ATTACHMENTS 32. I hereby certify that the foregoing is true and correct to the best of my knowledge Signed ~~'~¢~..~ Title Drillino_Enc~ineerSuoerv[sor Date ~/~-)~../(~L~ INSTRUCTIONS General: This form is designed for submitting a complete and correct well completion report and log on all types of lands and leases in Alaska. Item 1' Classification of Service Wells: Gas injection, water injection, steam injection, air injection, salt water disposal, water supply for injection, observation, injection for in-situ combustion. Item 5: Indicate which elevation is used as reference (where not otherwise shown) for depth measurements given in other spaces on this form and in any attachments. Item 16 and 24: If this well is completed for separate production from more than one interval (multiple completion), so state in item 16, and in item 24 show the producing intervals for only the interval reported in item 27. Submit a separate form for each additional interval to be separately produced, showing the data pertinent to such interval. Item 21' Indicate whether from ground level (GL) or other elevation (DF, KB, etc.). Item 23: Attached supplemental records for this well should show the details of any multiple stage cement- ing and the location of the cementing tool. Item 27: Method of Operation' Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water~lr~"~ jection, Gas Injection, Shut-in, Other-explain. Item 28: If no cores taken, indicate "none". Form 10-407 Detailed Activity Report 07/09/1993 I PIB lA 18.00 06:00 00:00 0.0 MOVE PIPESHEDS, PUMP,MOTOR, BOILER AND SUBBASE COMPLEXS TO G PAD 07/10/1993 I PIB 1C 11,00 00:00 11:00 0.0 PIN GOOSE NECKS, MOVE SUB OVER HOLE, SET MUD COMPLEX, SET BOILER AND MOTOR COMPLEX, INSTALL SKATE AND GERONIMOE LINE 11 P6 5 1.00 11:00 12:00 0.0 RU UP TO KILL WELL I PIB 1C 0.50 12:00 12:30 0.0 LEVEL SUB 11 P6 5 4.50 12:30 17:00 0.0 RU TO KILL WELL, CIRCULATE OUT GAS AND OIL, HAD 1000# GAS PRESSURE ON ANNULUS 11 P6 45 1.00 17:00 18:00 0.0 REMOVE TREE 11 P6 45 3.00 18:00 21:00 0.0 NU BOP 11 P6 15A 0.50 21:00 21:30 0.0 PULL BPV, INSTALL 2 WAY, RU TO TEST 11 P6 15A 2.50 21:30 00:00 0.0 TEST BOP's , ~ , , , CONOCO Detailed Activity Report 07/11/1993 07/12/1993 07/13/1993 11 P6 15A 2.50 00:00 02:30 5430.0 11 PlO 23 10.50 02:30 13:00 5430.0 11 PlO 28 1.50 13:00 14:30 5430.0 11 P6 28 1.00 14:30 15:30 5430.0 11 P6 28 1.00 15:30 16:30 5430.0 11 P6 45 2.50 16:30 19:00 5430.0 11 L6 42A 2.00 19:00 21:00 5430.0 11 L6 42A 2.50 21:00 23:30 5430.0 11 P6 45 0.50 23:30 00:00 5430.0 11 P6 15F 1.00 00:00 01:00 5430.0 11 P6 15A 1.00 01:00 02:00 5430.0 11 P6 24 0.50 02:00 02:30 5430.0 11 P6 9 1.00 02:30 03:30 5430.0 11 P6 28 0.50 03:30 04:00 5430.0 11 P6 28 0.50 04:00 04:30 5430.0 11 P6 23 3.50 04:30 08:00 5430.0 11 P6 28 1.00 08:00 09:00 5430.0 11 P6 31B 1.00 09:00 10:00 5430.0 11 P6 45 2.00 10:00 12:00 5430.0 11 P6 15B Gas Cons. Commission 11 P6 6F 2.00 12:30 14:30 5430.0 11 P6 6F 1.00 14:30 15:30 5430.0 11 P6 45 1.50 15:30 17:00 5430.0 11 P6 5 1.50 17:00 18:30 5430.0 11 P6 45 1.00 18:30 19:30 5430.0 11 P6 45 0.50 19:30 20:00 5430.0 11 P6 11 P6 11 P6 11 P6 11 P6 11 P6 11 P6 6F 1 .oo 20:00 21:00 5430.0 45 1.50 21:00 22:30 5430.0 15A 0.50 22:30 23:00 5430.0 45 1.00 23:00 00:00 5430.0 45 0.50 00:00 00:30 4648.0 28 0.50 00;30 01:00 4648.0 45 1.00 01:00 02:00 4648.0 11 P6 28 1,00 02:00 03;00 4648,0 11 P6 6F 3.50 03:00 06:30 4648.0 11 P6 28 1.00 06:30 07:30 4648.0 FINISH TESTING BOPE. PULL 2-WAY Cl~ P/U HANGER 4', & ClRC OUT OIL POOH W/ESP WHILE L/D 2-7/8" TBG. CK ESP & MOTOR, L/D EACH. CLEAR FLOOR & CHANGE OVER TO 15', 500 TON. ATTEMPT TO PULL PACK-OFF, CHANGE OUT PACK-OFF RET TOOL, PULL PACK-OFF. R/U TRISTATE 7"' CASING SPEAR W/ ESTENSION. R/U DRESSER ATLAS W/L UNIT & M/U APRS FREE POINT TOOL & RIH -- FREE POINT 7" @ 2100' & 2700' (SHOWS FREE PIPE). RIH TO 3500' & FREE POINT 100' INCREMENTS WHILE POOH -- SHOWS STUCK PIPE. RECHECK FREE POINTS @ 2100' & 2700' TO CK TOOL -- SHOWS STUCK PIPE. FREE POINT TOOL FAILURE -- POOH W/FREE POINT TOOL CHANGE OUT SPRINGS & PADS ON FREE POINT TOOL PERFORM SURFACE CK-- GOOD. RIH TO 2700' & ATTEMPT TO FREE POINT -- SHOWS STUCK PIPE. CHECK FREE POINT @ 2100' AND 1000' -- SHOWS STUCK PIPE. POOH FOR FAILED FREE POINT TOOL ADJUST SPRINGS TO STIFFER SE-I-FING & CHANGE OUT JARS. PERFORM SURFACE TEST -- GOOD TEST. RIH TO 2700', 2000' & 1000' -- SHOWS STUCK PIPE. POOH W/FREE POINT TOOL & PULL 200K TO 260K (60K OVER) W/8.5" STRETCH. TALKED TO APRS, FELT THAT FP READING @ 2700' ON FIRST TOOL BEFORE FAILURE WAS GOOD & STRETCH TEST INDICATES FREE PIPE TO SHOE. R/D TRISTATE, APRS, & DRESSER ATLAS FREE POINT EQUIPMENT. INSTALL 7"' PACKOFF & TEST TO 5000 PSIG. CHANGE TOP SET PIPE RAMS TO 3.5", RUN TEST PLUG & TEST DOOR SEALS TO 3000 PSIG. PULL TEST PLUG & RUN SHORT WEAR BUSHING. SLIP & CUT DRILL LINE. CHANGE OUT BAILS. MU EZSV & 3.5" WIPER DART CATCHER. RIH W/F_ZSV WHILE PU 3.5" DP. CHANGE OUT BAILS, SET EZSV @ 4752', & MU CMT HEAD. DISPLACE 9.5 PPG NaCl BRINE OUT OF HOLE W/8.4PPG LSND DRILLING FLUID. PUMP 32 BBLS H20, STING INTO EZSV, TEST CMT LINES TO 4500 PSIG. PuMP 10 BBLS H20 WHILE EST INJ RATES THROUGH PRE-PACK GP SCREENS. MIX & PUMP 78 BBLS (375 SXS) 15.8 PPG G CEMENT, DROP 3.5" WIPER DART & DISPLACE W/RIG PUMPS. PUMP 74 BBLS BELOW EZSV, UNSTING AND DUMP 4 BBLS (104') OF CEMENT ABOVE EZSV. POOH DRY 4 STDS & REVERSE CIRCULATE 60 BBLS. NOTE: Ca++ TRACES IN CLOSE ANNULAR AND TEST 7"' CASING TO 1500 PSIG FOR 30 MINUTES -- BLED OFF 50 PSIG -- GOOD TEST. POOH W/3.5" DP & EZSV SE3TING TOOL & WIPER PLUG CATCHER. MU 7" CSG CUTTER & RIH TO 2850'. LOCATE COLLAR @ 2866', PU TO 2836', & CUT CASING (100' BELOW 9-5/8" CSG SHOE). CLOSED BAG AND ATTEMPTED TO ESTABLISH ClRC FROM 7" CASING INTO 7"3(9-5/8" ANNULUS THRU CUT -- UNSUCCESSFUL. PULL UP TO 2704' & MAKE CUT BELOW COLLAR @ 2700'. CLOSE HYDRIL, PRESSURE UP ON 7" CASING & MONITOR CORRESPONDING PRESSURE INCREASE ON 7"~(9-5/8" ANNULUS -- COMMUNICATION ESTABLISHED. BLED OFF PRESSURE & MONITOR WELL -- DEAD. POOH W/7" CASING CLFI'FER. CHANGE TOP RAMS F/3.5" TO 5" AND INSTALL 7" RAMS INTO LOWER RAM BODY. PULL SHORT WEAR BUSHING, INSTALL TEST PLUG, & TEST RAM DOORS TO 3000 PSIG. BACK OUT LOCK DOWN PINS & PULL 7"' PACK-OFF. FINISH PULLING 7"' PACK-OFF. CHANGE OUT BAILS FOR LONG BAILS. STAB INTO 7"' CSG W/SPEAR, GRAPPLE, & PACK-OFF. PUMP HI-VIS PILL & ClRC 2 CSG ANNULAR VOLUMES, RECIPROCATE PIPE 10' STROKES WHILE PUMPING 2ND BU. RUT' CSG EQUIPMENT. POOH LiD 63 JTS 7"' 26# L80 BTRC CSG + 1 5' CUT OFF PIECE. RD CSG PULLING EQUIPMENT & CLEAR FLOOR. CONOCO Detailed Activity Report 07/14/1993 11 P6 6F 3.00 07:30 10:30 4848.0 11 P6 28 2.00 10:30 12:30 4648.0 11 P6 45 0.50 12:30 13:00 4648.0 11 P6 6F 1.50 13:00 14:30 4648.0 11 P6 6F 1.50 14:30 16:00 4648.0 11 P6 45 0.50 16:00 16:30 4648.0 11 P6 6F 1.50 16:30 18:00 4648.0 11 P8 28 1.00 18:00 19:00 4648.0 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 P6 29C 0.50 19:00 19:30 4648.0 P6 6F 1.50 19:30 21:00 4648.0 P6 45 1 .oo 21:00 22:00 4648.0 P6 6F 1.50 22:00 23:30 4648.0 P6 28 0.50 23:30 00:00 4648.0 P6 45 1.00 00:00 01:00 4752.0 P6 45 0.50 01:00 01:30 4752.0 P6 5 0.50 01:30 02:00 4752.0 P6 6F 1.00 02:00 03:00 4752.0 P6 28 1.50 03:00 04:30 4752.0 P6 15A 1.00 04:30 05:30 4752.0 P6 6F 1.00 05:30 06:30 4752.0 P8 5 1.00 06:30 07:30 4752.0 P6 6F 0.50 07:30 08:00 4752.0 P6 45 1.00 08:00 09:00 4752.0 0.00 09:00 09:00 4752.0 P6 6F 1.50 09:00 10:30 4752.0 P6 6F 1.50 10:30 12:00 4752.0 P6 45 9.00 12:00 21:00 4752.0 P2 2A 1.00 21:00 22:00 2720.0 P2 2A 1.00 22:00 23:00 2729.0 132 5 0.50 23:00 23:30 2744.0 MU 7" CSG SPEAR & GRAPPLE W/PACKOFF & RIH WHILE P/U 5". CHANGE OUT SAVER SUB AND STAB-IN GUIDE F/3.5" TO 5" ON TOP DRIVE. STING INTO 7" LATCH FISH, PULL 220K (95K OVER PU) JARS HIT AND GRAPPLE RELEASED FROM FISH. ATTEMPTS TO LATCH FISH AGAIN FAILED. POOH W/FISHING ASSY (NO FISH). CHANGE OUT DAMAGED GRAPPLE. PACK-OFF DAMAGED ALSO. MU GRAPPLE W/O PACKOFF, RIH W/5" DP & LATCH FISH. RELAXED JARS & PULLED ON FISH W/255K OVER TOP DRIVE & PU. REPEATED 5 TIMES -- NO MOVEMENT. COCKED JARS & P/U W/ lOOK OVER & 150K OVER -- SET OFF JARS BOTH TIMES -- NO MOVEMENT. PU W/200K OVER, SET OFF JARS, GRAPPLE UNLATCHED. ATTEMPTS TO LATCH FISH AGAIN FAILED. POOH W/FISHING ASSEMBLY -- GRAPPLE BROKEN -- LEFT HALF OF GRAPPLE IN HOLE. L/D SPEAR & MU 7" CASING CUTTER ON 1 STAND OF 3.5" DRILL PIPE. STAND CASING CUTTER BACK & MU OVERSIZED 7" CASING GRAPPLE & PACK OFF ON 5" DP. WAITING ON ORDERS. RIH W/7" CASING CUTTER ON 1 STD OF 3.5" DRILL PIPE. SPACE OUT & MAKE CUT @ 2789' (60' BELOW THE 9-5/8" CSG SHOE). POOH W/7" CASING CUTTER. STAND BACK STD OF 3.5" DP W/CSG CLFI-~ER. M/U 7" CASING SPEAR W/ OVERSIZE GRAPPLE AND PACKOFF. IJD 7" CSG CUTTER, P/U GRAPPLE, SPEAR, & RIH. STING INTO FISH & JAR LOOSE. CBU. POOH. L/D 7" CASING FISH. (1 JT 41.5', I CUT PIECE 50.4' W/PIN END, & 1 CUT PIECE 11.5' W/COLLAR. CHANGE BOTTOM RAMS F/7" TO 3-1/2" & INSTALL WEAR BUSHING. RIH W/3-1/2" DP OPENENDED. CBU & SPOT HI VIS PILL F/3313'-3013'. POOH TO 3007'. TEST CEMENT LINES TO 2500 PSIG. PUMP 30 BBLS H20. PUMP 25 BBLS G CEMENT W/ADDITIVES. PUMP 3 BBLS H20. DROP 3.5" WIPER DART, PUMP 11 BBLS 8.6 PPG LSND MUD. CEMENT BLEND: CLASS G + 1.35%BW0C D013 + O.2%BWOC D046 + IO0%BWOC D053 + 0.8% BWOC D065. PERTINENT DEPTHS: CALC TOP OF CEMENT (~ 2607'. 9-5/8" CSG SHOE IS @ 2729'. TOP OF 7" FISH IS ~ 2789'. CALC BOT OF CEMENT @ 3007'. POOH SLOWLY 7 STDS TO 2350' (PIPE PULLED DRY) & CBU -- NO SIGN OF CEMENT RETURNS @ BOTTOMS UP. POOH & CHANGE BAILS TO 10' 350 TON & CHANGE BOTTOM PIPE RAMS TO 5". P/U & STAND BACK DIRECTIONAL STEERING BHA. M/U & STAND BACK ENOUGH 5" TO DRILL TO TD WITH STDS. CONTINUE TO WAIT ON CEMENT TO DEVELOP 1000 PSIG COMPRESSIVE STRENGTH @ 40 DEGREE BO'TI'OM HOLE TEMPERATURE AS PER FIELD BLEND TEST. PUMP 5 BPM & ROTATE 30 RPM WHILE SLACKING OFF F/2400' TO 2720' -- NO HARD CEMENT. CBU & OBSERVE FOR CEMENT. GREEN CEMENT & BOTTOMS UP. PUMP ~ 5 BPM W/30 RPM ROTARY F/2720' TO 2739' (10' OUT OF 9.;5/8" SHOE). DID NOT TAKE ANY WEIGHT. PU INSIDE SHOE, TURN PUMPS AND ROTARY OFF. SLACK OFF TO 2744' (15' OUT OF SHOE). DID NOT TAKE WEIGHT. PU & SPACE BIT OUT OF SHOE 5' & CBU -- GREEN CEMENT AT BO'I-rOMS UP HAS CONSISTENCY OF FUDGE BUT NO HARDNESS. DISCUSS OPTIONS W/DRLG MANAGER -- DECISION MADE TO CUT TROUGH IN LOW SIDE OF HOLE AND UNDERCUT OLD HOLE lO' ABOVE THE 7" CSG STUB ALLOWING CEMENT ABOVE 7" CSG STUB MORE TIME TO CURE. 1. CEMENT RETURNS INDICATE PLUG DID NOT FALL OUT INTO RATHOLE. 2. CONSULTED DS ABOUT CEMENT RECIPE TO GET GOOD SET AT 40 DEG. THEY SPENT 1 MONTH ON THIS BLEND 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 AUGUST 10, 1994 BRUCE J. POLICKY MILNE POINT EXPLORATION MANAGER BP EXPLORATION (ALASKA)INC. P O BOX 196612 ANCHORAGE, ALASKA 99519-6612 RE: 91-0026 MILNE POINT UNIT G-8 P & a REPORT · DEAR MR. POLICKY: OUR RECORDS INDICATES THAT BP EXPLORATION ISTHE OPERATOR OF THE REFERENCED WELL. WE RECEIVED THE COMPLETION REPORT FOR THE REDRILL OF WELL G-8A AND HAVE NOT RECEIVED THE PLUG AND ABANDONMENT REPORT FOR THE ORIGINAL WELL. THIS P&A REPORT SHOULD HAVE ACCOMPANIED THE REDRILL COMPLETION REPORT. I HAVE LEFT SEVERAL PHONE MESSAGES FOR PETE MICHAEL AND' CONVERSED WITH MARION SLOAN CONCERING THIS MATTER OVER THE ' LAST SEVERAL MONTHS WITH NO RESPONSE. OUR POLICY IS ONLY ONE PERMIT CAN BE ACTIVE SO THAT PRODUCTION IS ALLOCATED TO THE CORRECT APl NUMBER. I AM FORWARDING THIS LETTER AS A RECORD FOR YOU AND ME. THANKS FOR THE QUICK RESPONSE ON THIS MATTER. SINCERELY, STEVE MCMAINS STATISTICAL TECHNICIAN WALTER J. HICKEL, GOVERNOR ALASKA OIL AND GAS CONSERVATION COMMISSION 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 276-7542 FEBRUARY 7, 1994 MS. MARION SLOAN BP EXPLORATION ALASKA INC. P O BOX 196612 ANCHORAGE, ALASKA 99518-6612 RE: 91-0026 MILNE P;~INT UNIT G-08 DEAR MARION SLOAN, · / OUR FILES INDICATE THAT BP EXPLORATION ALASKA INC. IS THE OPERATOR OF THE REFERENCED WELLS. THIS WELL CHANGED OWNERSHIP IN JANUARY AND THE WELL REPORTS ARE NOT COMPLETED TO DATE. WHEN POSSIBLE, WE NEED A 407 COMPLETION REPORT TO PLUG AND ABANDON THIS WELL. CONOCO SUBMITTED A 403 SUNDRY REPORT TO P&A THIS WELL IN MAY 1993 AND REDRILLED G-08A WELL AND COMPLETED IT IN SEPTEMBER 1993. I MISSED THE REDRILL AND DIDN'T FOLLOW UP ON THIS WELL. I AM FORWARDING THIS LETTER AS A RECORD FOR YOU AND ME. THANKS FOR YOUR QUICK RESPONSE ON THESE REPORTS. SINCERELY, STEVE MCMAINS STATISTICAL TECHNICIAN MEMORANDUM STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION to: David W. Johnst~ date: Commissione~>'~ file: ~_.-~ thru; Blair E Wondzell ~~ subject: Petr Insp Supervisor from: ,~oo~n Spaulding Petr Inspector July 14,~1993 071093-1 .doc BOPE Test Nabors 22E CONOCO MPU G-~ Kuparuk River Field PTD ~ _oaturaay, July I0, 1993: I traveled to Conoco MPU we,i ~-o ~o witness a BOP test on Nabors 22E. The rig was in very tight qua.rters]but access for emergency was still maintained, ^.s the ^OGCC BOPE test report indicates, one valve on the choke manifold failed. Leonard Schiller, Nabors tool pusher, assured me this would be repaired as soon as parts arrived from town. The rig will be slacked after this well and Mr. Schiller indicated that Nabors was going to do quite a bit of maintenance & repairs. Summary: I witnessed a BOPE test on Nabors 22E, I failure, 5 hours. attachments STATE OF ALASKA OIL AND GAS CONSERVATION COMMISSION BOPE Test Report OPERATION: Drlg: . Drlg Contractor. Operator. Well Name: ~ -~<::~ caang size: set G J - Feet' ' Test: Initial ~ Weekly Other Workover. ~ DATE: RioNo. ~? ~ PTD#q~-//O RigPhm Rep. ~~~.~,.,~-.:,:::;. .......... · .......... ; ......... ::.:-.:.-.:.. ............... ..:.,:~.:-.... ........... : ......... ~i~T..l~~~. ~'.:.'.'.',-.'.-~-.'.?.;,.".';,:.~' :::~' ':':.'; ';.' ":" "::*'ri" '.'.'...r ". ....... ... ..... '~,.,. ..... .'-" .,. '.; .'..%~".'t,' _ " .,w._,~t.....~,.~-':.~_?_~:,_~::t:::..',.'..'.~':.:':" Test MISC. INSPECTIONS: I.ecmion Gen.: ~ / Housekeeping: ~ (Oen) Resewe Pit ~/~ Well Sign ,~' -- DH. Rig Test Qu~. Pressure P~F /..,~ BOP STACK: Ann. Preventer Blind Rnrm ChMn Valves HCR Valves Kill Line Valves Check Valve MUD SYSTEM: Light Alarm Trip Tank Pit Level Indicators ~--~' !~' , -~--, Flow Indicator Gas Detectom · ., FLOOR SAFETY VALVF.8: Qu~n. Presm~re P/F UpperKelly I:;-:~-~/",~-..~ ,:;! / ' ! ,~F' , ' i' "- /' Ball Type /' I,: ,,, ,:::~ ;i No. Flanges Manual Chokes Hydraulic Cholom .' , -' ~i~.~.........:.~~..i~ ~.~.::.~.:.':~'..'::;...'~.~....~:~:~: ........... ~r""':"~':i,~::?.~~~~~';*::' ........ ."~ ..... :'"'"'; ".:~:~'";";-:~ - ,~ "- .:.. '"""~ .................................................................... ~Num~rofFallu~ / T~~ , ~, Houm Nu~of~~ ~ ~~Re~mm~ofF~l~ 'Eq~me~'~ll.~m~e~ ~- d~. No~l~rond~~~~~n~F~~~n~ ~e'AOGCC Com~n ~ ~' F~ ~. ~T~ ~~r ~ ~ P~r No. ~7 ~ ~ur mil ~ n~ m~m~ ~ ~ ~r ~ ~2 ho~ ~e~ ~~ ~ P. I. 8~~ ~ I I I II I I III I I I I I . ;" I I ]/ I' I ' I I I I I II JII II II I I I II II _ I I I I I I III I III III II I ]1. II II I I II I I ~11 I I I I I IIII I I III _ III II . II IIII II IIII II I I I ~on: 'STA~'~E~ ~OUI~? ' W~ B~ , ? ............. o~Well ~ ~S :;~ - ......... NO ~" / ~ c - O~r~ ' -- ~~ B~ ' ~-~.. . . ~..~. ::~.,;~ , '/ ~. t~ i , ' . , . . c - Da~ 24 HOUR NO~CE O~ '' ' ..... ' "'-- ' c - T~ R~ ~e ~S ,- ...... NO ~, ' Fk0211_XLT Rev. 1,93 May 10, 1993 Conoco Inc. 3201 C Street, Suite 305 Anchorage, AK 99503-3999 (907) 564-7600 Mr. Mike Mender Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive Anchorage, Alaska 99501 RE: MPU G-8; SUPPLEMENTAL INFORMATION FOR APPLICATION FOR SUNDRY APPROVAL Dear Mr. Mender, In response to our telephone conversation, attached are three copies of the procedure for sidetracking and recompleting Milne Point Unit well G-8. This information was previously submitted to the Commission as an attachment to the Permit to Drill for MPU G-8A. Included in this procedure are detailed steps for plugging MPU G-8. Please direct any questions regarding this matter to me at 564-7660. Sincerely, Tom Yeager SHEAR Specialist Attachment CC: CVL, BGA, TJY G-8 Well File RECEJVED M AY 1 2 199, Alaska 0il & Gas Cons. CommissiOn Anchorage STATE OF ALASKA ALAS~,,~ OIL AND GAS CONSERVATION COMMISolON 1. Type of Request: Abandon ~ Suspend Alter casing __ Repair well Change approved program __ Operation shutdown m Re-enter suspended well Plugging X Time extention __ Stimulate __ Pull tubing __ Variance __ Perforate Other __ 2. Name of Operator .. Conoco Inc. 3. Address 3201 C Street, Suite 200 Anchorage, AK 99503 4. Location of well at surface 3176' FNL, 3459' FEL, Sec. 27, T13N, R10E, U.M. At top of productive interval 543' FNL, 4323' FEL, Sec. 27, T13N, R10E, U.M. At effective depth At total depth 93' FNL, 4410' FEL, Sec. 27, T13N, R10E, U.M. 5. Type of Well: Development X Exploratory __ Stratigraphio __ Service __ NSB AK NSB AK NSB AK 6. Datum elevation (DF or KB) KB 35' (AGL) Unit or Property name Milne Point Unit feet 8. Well number G-8 9. Permit number 91-26 10. APl number 50-029-22141 11. Field/Pool Kuparuk River/Schrader Bluff 12. Present well condition summary Total depth: measured 5765 feet true vertical 4507 feet Effective depth: measured 5430 feet true vertical 4264 feet Plugs (measured) None Junk (measured) None Casing Length Size Structural Conductor 80' 13-3/8" Surface 2373' 9-5/8" Intermediate Production 4975' 7" Uner 654' 4½" Perforation Depth: measured Cemented Measured depth Surface Surface True vertical depth TOC@ ± 3870' Openhole gravel-packed true vertical Tubing (size, grade, and measured depth) 2-7/8", 6.5#, L-80, 8rd EuE, 4756' MD Packers and SSSV (type and measured depth) None 115' 115' 2408' 2144' 5010' 3959' 5425' 4260' IVtAY 'i 0 199 &!as .Ull & Gas Cons, 13. Attachments Description summary of proposal Refer to Form 401 filed for the Milne Point Unit G-8A. Detailed operations program __ BOP sketch 14. Estimated date for commencing operation June 15, 1993 16. If proposal was verbally approved Name of approver Date approved 15. Status of well classification as: Oil X Gas__ Service 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. Signed ~ B.G. Augustine Title Sr. Production Engineer FOR COMMISSION USE ONLY Suspended __ Date Conditions of approval: Notify Commission so representative may witness Plug integrity _~ BOP Test Location clearance __ Mechanical Integrity Test Subsequent form required 10- ,~_~' Approved by order of the Commission Original Signed David W. donnston Commissioner Approval No.~:=~,,~-~ __/// C) A.¢~¢oved ~opY ' R¢,urne Form 10-403 Rev 06/15/88 SUBMIT IN TRIPLICATE G-8 PROPOSED SIDETRACK & RECOMPLETION PROCEDURE MILNE POINT UNIT ** OPEN HOLE GRAVEL PACK ** 143~RCH 15, 1993 OBJECTIVE: -- To achieve an openhole gravel pack completion and optimize production rates by minimizing both formation and ~ompletion related damages. An openhole gravel pack type well would reduce the drilling and completion costs for future Schrader Bluff Wells. The SBPRMTfeels that the G-8 openhole gravel pack can be performed to achieve a +2 skin for which the corresponding calculated flowstream is 600 BOPD. DISCUSSION: This procedure involves plugging the original G-8 wellbore through the production interval and sidetracking the well. This sidetrack could follow either of two scenarios dependant upon the free point results of the 7" casing. SCENARIO ~1 (Preferred) The 7" casing string in G-8 should be free from surface to the 9-5/8" casing shoe (@ 2736'md) since the well has not yet been arctic packed. If the 7" casing is free above 3100'md (Estimated TOC @ 3870'md), then it will be cut and pulled below the 9-5/8" shoe and the well will be sidetracked to a new bottomhole location 300 feet west of the original wellbore and will be vertical through the "N" and "0" sand production intervals. The 8.5" pilot hole will be underreamed to 12" while reverse circulating with a clear brine -- Reverse Circulating Underreamer (RCU). The reverse circulating is intended to prevent the drill cuttings from being exposed to the underreamed hole section thereby eliminating plugging and subsequent formation damage. Since the clear brine will not form a wallcake, the need for clean-up and the damage associated with a wallcake are eliminated. However, without a wallcake, borehole stability risk increases; therefore, a vertical wellbore has been designed through the production interval. In the absence of a wallcake, two possible problems may arise if fluid losses become excessive: 1) The first problem would be lost production due to a water block or relative permeability change as a result of the excessive water losses. Hysteresis tests will be performed and a single well radial floW simulation model will be constucted in an attempt to answer this concern before the G-8 work is performed. ~ECEIVED PAGE 1 ~as Cons. ,C. omr~'~ Anchorage 2) The second problem would be failure to maintain sufficient returns up the drill pipe (> 2 BPM) to clean the cuttings out of the hole. In this case, plans will be to spot HEC/CaC03 pills (mix HEC with 12 hour breaker) across the production sands. These CaC03 pills would be cleaned up with HCL once the pre-packed gravel pack screens are in place prior to pumping the gravel pack. - If this underreaming technique is unsuccessful, the c6ntingency will be to change over to a CaC03/Xanvis drilling fluid system, circulate conventionally, and finish underreaming from TD up toward the 7" casing shoe -- DB Underreamer. This method should minimize formation damage since the newly underreamed hole is not exposed to the circulation of the drill cuttings which are circulated away from and above the newly underreamed hole section. Also, the underreamed hole section is not exposed to tool joint rotation and subsequent wellbore deformation. Each underreamer technique employs a different type underreamer of which both the "RCU" and "DB" underreamers are being designed, built, and tested by Baker Tristate. If the 7" casing is not free below the 9-5/8" casing shoe, then the contingency will be to cut and pull the 7" casing at 2725'md. Set a 9-5/8" EZSV at 2675' and pump 150' of lineal cement below and 50' of cement above. Then cut a se6tion in the 9-5/8" casing shoe from 2520'md to 2580'md. Sidetrack the well at 2550'md to the new bottom hole location 300' west of the original wellbore. The underreaming method would be determined based on the above mentioned conditions. SCE RZO If the 7" casing is not free above 2725' md, then a decision will have to be made to either burn over or mill the 7" casing to 2700'md (Return to Scenario 1) or pull the gravel pack screens. The well would then be sidetracked below the 7" casing shoe using a 6-1/8" bit to drill the pilot hole which will then be undereamed to 8-1/2". The reverse circulating underreamer (RCU) method using clear brine will still be the primary plan with the DB underreamer method using CaC03/Xanvis as a contingency. The completion will involve running pre-packed gravel pack screens across the N and O sands in the openhole and performing a free water/sand slurry gravel pack. Prior to working on the well hold a pre-job safety meeting with all rig personnel to discuss the general safety hazards of the operation (completion fluids, frac treatment, gravel pack, etc.). The current plan is to perform this work with the Nabors 22-E Rig (Top Drive) after completion of the drilling program on L-Pad. PAGE 2 Prepared by' openhole Gravel Pack Stage: Wellbore Preparation Stage: Bruce Augustine, Anchorage Jack Burman, PER Walter Martin, PER Joe Polya, Anchorage PAGE 3 RECEIVED' MAY 1 2 199;~ Alaska Oil & Ga'.; Oor~s. Oommissio~" Anchorage Milne Point Well G-8 Well Completion Procedure (Cont'd) Contents Page 4 Well Information Page 5 Completion Fluids Page 6 G-8 Sidetrack & Wellbore Preparation Stage Page 22 Open Hole Gravel Pack Stage Page 28 ESP Installation Procedure PAGE 4 Milne Point Well G-8 Well Completion Procedure (Cont'd) Well Information Casing: 7" 26 # L-80 -- ID = 6.276" Capacity = 0.03826 bbl/ft = 0.2148 ft3/ft Set @ +/-5010 ft MD (3984 ft TVD) ' PBTD: 5430 ft MD (4261 TVD) Existing Open hole: 5010 - 5430 MD Underreamed from 8-1/2" pilot hole to 12" 5014 - 5428 ft MD (3987 - 4259 ft TVD) Deviation: 48.2° maximum hole angle at 2715 ft MD. +/-45° in open hole section KB: 28 ft (Nabors 22-E) Workstring: 3-1/2" 15.5# IF Drill Pipe (2" API Drift) Inner Diameter: 2.602"; Minimum ID: 2.125" Tensile Strength = 323,000 lbs. Torsional Strength 21,000 ft. lbs. Capacity = 0.00658 bbl/ft (152.05 ft/bbl) Annular Capacity = 0.0264 bbl/ft (37.93 ft/bbl) Note: No allowance for upsets Fluids: 8.6 ppg NaCl (to be used as the completion fluid). Diesel will be used for freeze protection after landing hanger and nipple up operations are complete. Underream fluid is a 8.5 ppg NaCl system to be maintained to incorporate ~ 20% drill solids versus total solids. Disposal: Ail contaminated brine, diesel, produced fluids, frac fluids, etc., will be disposed of by injection down the 9 5/8" by 7" annulus or will be transported to the central reserve pit or the facility for disposal. NOTE: During this workover, the 7" will be pulled and until the 7" is rerun and cemented, the 7"x9-5/8" annulus will not be unavailab~~.~~~al.: PAGE 5 MAY 7 2 199;3 Alaska Oil & Gas Cons. Commissio~ Anchorage Milne Point Well G-8 Well Completion Procedure (Cont'd) Page 6 Milne Point Well G-8 Well Completion Procedure (Cont'd) Completion Fluids Brine density for the completion operation is d. esi_gned based on BHP plus minimal overbalance (30 to 50 psi maximum) to prevent fluid loss to the formation. Required brine density is 8.6 ppg. Methanol (at a concentration of 12% by volume) will be used for freezing point suppression in some brine. Recipe for methanol brine mixing is to use 8.9 ppg NaCl brine with 12% by volume methanol, for a final brine density of 8.6 PPg- **** Methanol is a highly flammable liquid and poses a health hazard when inhaled, ingested, or when it contacts the eyes or skin. Maintain adequate ventilation in enclosed areas, and utilize protective clothing, rubber gloves, and safety goggles when handling this material. Consult MSDS for further information. Maintain at least 150 bbl of fluid in the pits at any time. Any less will make it impossible to circulate through the pits and filter unit and have fluid left to pump into the well. Maintain the filtration system during this operation. No fluid goes into the active tanks without passing through the filter unit. The system consist of a DE press and appropriate guard filters. The two micron absolute filter should be the last filter in line before the fluid enters the pit. Turbidity measurements are to be made as a QC check of fluid solids concentration. A reading of 20NTU in the volume tank is acceptable. The well can be assumed to be clean when returns are below a 50 NTU reading. Compensate for diesel content when using NTU readings if necessary. Operators of the filter unit should be given the responsibility of checking brine volume and density during deliveries and maintaining a record of each. Any discrepancy should be reported immediately. Low density or contaminated fluids should not be added to the system. Only clean, filtered brine should be pumped into the well at any time during the completion operation. During the gravel pack pumping, the return rate needs to be monitored closely to detect lost circulation or fracturing occurring. -~C~IVED Page 7 Gas Cons. Oommission Anchorag~ Milne Point Well G-8 Well Completion Procedure (Cont'd) G-8 Sidetrack & Wellbore Preparation Staqe Pre MIRU Operations: ae Coordinate perforating joint of 2-7/8" tubing.above ESP with production prior to MIRU. Be Install BPV in Tree, Remove Wellhouse, Flowlines, Remove Electrical Equipment, and prepare location for MIRU (blade level around well). C. Drilling Foreman will ensure that he has a lockout tag on the G-8 electrical panel in the ESP building. De Arrange to have the 7"x9-5/8" casing annulus pressure recorded. If the pressure is zero, then open the valve to atmosphere to confirm that the backside is dead -- no pressure. If a pressure is recorded, then calculate the Kill Fluid Weight required and coordinate the proper freeze point combination with Baroid to utilize left over brine from the L-ii, L-12, or L-13 completion to kill this backside annulus before moving the Nabors 22-E Rig onto the well. OPERATIONAL NOTE: DURING THIS JOB, DOPE ONLY THE PIN END OF ALL TUBUL~RS (SPARINGLY) AND USE A RAG TO WIPE OFF ALL EXCESS DOPE BEFORE CONNECTIONS GO THRU RoTARy. The openhole .type completion is susceptable to damage from pipe dope. The pipe dope can plug the pore throats of the formation as well as the pre-packed liner screens. Since there is not a treatment to remove this type damage and it is detrimental to production, the best cure is to prevent it by applying dope sparingly on pin ends as stated. This will prevent excess dope from being deposited on the inside of the tubulars which would then be carried to formation and screens during circulation. Also, by wiping off all excess dope from the outside of connections, the dope is not smeared along inside of casing and later deposited on the pre-packed screens. Page 8 Milne Point Well G-8 Well Completion Procedure (Cont'd) 1.0 Ensure BPV is installed in Tree & MIRU Workover Rig on G-8 Well. ENSURE THAT ALIGNMENT PIN IS BACKED OUT. 1.1 Kill Well with 8.6 ppg NaCl Brine with 12~ methanol utilizing Hot Oil Truck (Note: Maximum allowgble Fluid Temperature is 150 degrees Farenheit to prevent damage to the ESP Cable). Pull BPV and set 2 Way Check. 1.2 N/D Tree & N/U BOPE. Install 2-7/8" Pipe Rams. Test BOPE to 3000 psig high/500 psig low with exception of annular preventer to be tested to 1500 psig high/500 psig low. Pull 2-Way Check. 1.3 Pull 2-7/8" tubing while spooling ESP cable. Ensure ESP Company rep is on location to inspect pump as it comes thru rotary. Visually inspect cable as it is POOH and note the tubing joint number (depth) and description of any damage. 1.4 Change Pipe Rams f/2-7/8" to 5". 1.5 Back out lower lock down screws and ensure that the upper lockdown screws are backed out, MU the pack-off running/retrieving tool, and pull 7" pack-off -- this will allow movement of 7" casing hanger for 7" casing free point. 1.6 RU E-line Unit, M/U 7" casing spear and spear top joint of 7" casing with 5" grade "G" drill pipe. RIH w/ strain gauge and determine free point (MAXIMUM ALLOWABLE PULL IS 370,OOO LBS -- see Note below) of 7".casing at ~3700 feet (Estimated Top of Cement). POOH w/ strain gauge. Unlatch 7" casing spear and POOH. ******************************************************* NOTE: The 80% tensile strength values for the 7",26#, NS0, BTRC casing and the 5",19.5#,Grade "G" drill pipe are 483K and 443K, respectively. Total string weight of the ?" casing string is 113K lbs -- this value accounts for buoyancy of a 9.0 ppg fluid. The casing was landed in tension; therefore, 370K pounds of force (483K - 11~K) is the maximum allowable pull to determine the free point of~the ?" casing. 1.7 Change Pipe Rams f/5" to 3-1/2". RECEIVED Page 9 ^¥ 1 2 t993 Alaska Oil a Gas Cons. Commissior' Anchorag~ Milne Point Well G-8 Well Completion Procedure (Cont'd) 1.8 MU pack-off running tool and run 7" pack-off. Tighten lockdown screws and test pack-off to 5000 psig for 10 minutes. RUN SHORT WEAR BUSHING! -- 1.9 If the 7" casing is not free below 2300'md, P~OCEED TO STEP 2.0. 1.10 Rig Down and Release E-Line Unit. 1.10 Build LSND drilling fluid system in pits. 1.11 MU 7" EZSV, TIH while PU 3-1/2" drill pipe,-and set @ 4750'. Pump 76.8 bbls (375 SXS) 15.8 ppg Class G cement thru EZSV, Unsting, Dump 3.8 bbls (19 SXS) 15.8 G Cement on Top of EZSV (100' of cement on top of EZSV). Pull to 4650' and circulate hole clean while watching for cement returns (contaminate w/ sugar and divert to cuttings trough). Displace hole w/ LSND drilling fluid. 1.12 Close pipe rams and test casing to 1500 psig for 30 minutes -- acceptable final pressure is 1350 psig. Record Test results on IADC. 1.13 Finish POOH. NOTE: Rack Pipe in the derrick to accommodate the use of both 3-1/2" and 5" drill pipe. 1.14 If the 7" casing is free above 3100'md, PROCEED TO STEP 4.0. · Note: If the 7" casing free point is between 2900'md and 3100'md, the well can still be successfully sidetracked below the 9-5/8' casing shoe. However, the MWD azimuth reading tool will experience magnetic interference from the resulting 7" casing stub for the first couple hundred feet of the sidetrack. Consequently, this would require either a gyro survey to fulfill the requirement for directional surveys every 100' or a waiver from the state. 1.15 If the 7" casing is not free below the 9-5/8" casing shoe @ 2736'md, but is free inside the shoe @ 2725'md PROCEED TO STEP 6.O. Page 10 Milne Point Well G-8 Well Completion Procedure (Cont'd) 1.16 If the 7" casing is free above 2300'md, PROCEED TO STEP 5.0. 2.0 M/U the Baker Model "S" Retrieving Tool (size 8D-40 which is designed to pull the Baker Model SC-iL 70-40 Packer) w/ 4.75" oil and bumper jars and the Tristat~ Vibrator Tool -- TIH while PU 3.5" Drill Pipe: 1) TIH and latch retrieving tool into packer, about 10,000 pounds set down weight will ensure the catch sleeve and latch of the retieving tool are engaged. 2) Apply 14,000 to 15,000 pounds up-strain to shear screws in the collet support sleeve. Further up-strain allows movement of the packer body to relax the slips and elements. Note: At this point the up-strain is being pulled from the bottom of the packer. 3) Pull a slight strain above neutral weight (1000 to 2000 pounds) and rotate 15 turns to the right. This simultaneously releases the safety sub and the anchor latch of the retrieving tool. 4) Latch retrieving tool back into packer, about 10,000 pounds set down weight. 5) Pick up and vibrate packer and gravel pack screens free. Note: Recommended MaximumA11owable Pull on the 80- 40 Retrieving Tool is 300,000 lbs.) 2.1 If packer and Gravel Pack Screens pull free, POOH and lay down assembly -- Note: Schematic of the Gravel Pack Assembly is included in Attachment #1. PROCEED TO STEP 2.2 If Gravel Pack Assembly does not pull free; Unlatch from packer by pulling a slight strain above neutral weight (1000 to 2000 pounds) and rotate 15 turns to the right; and POOH w/ Retrieving Tool, Oil and Bumper Jars, and Tristate Vibrator. RECE ¥ D Page 11 Alaska & Gas Cons. Anchorag Milne Point Well G-8 Well Completion Procedure (Cont'd) 2.3 RIH w/ chemical cutter to cut 2.875", 6.4#, L-80, Buttress tubing between' pre-pack screens @ 5259' (See Baker Schematic of Pre-pack Screen w/ Pipe_Tally in Attachment #1). POOH w/ chemical cutter. (Note: Keep E- Line Unit on standby.) . Safety Note: See Attachment #6 for Chemical Cutter Safety. 2.4 MU the Baker Model "S" Retrieving Tool w/ 4.75" oil and bumper jars and the Tristate Vibrator Tool, RIH, Latch Packer with 10,000 lbs. of set down weight, and Attempt to Pull the Packer and Gravel Pack Screens. Note: Recommended Maximum A11owable Pullinq Weiqht on the 80-40 Retrieving Tool is 300,000 lbs. 2.5 2.6. If packer and Gravel Pack Screens pull free, POOH, Verify Fish, and Lay Down Gravel Pack Assembly -- Note: Schematic of the Gravel Pack Assembly is included in Attachment ~1. PROCEED TO STEP 3.0. If Packer and Gravel Pack Screens do not pull free, RU the E-Line Unit, RIH w/ chemical cutter* and cut the 4 5" 11.6# N-80 Buttress Casing below Packer @ +4990' (Make cut to ensure that top of fish is ±20' up inside 7" shoe), and POOH w/ chemical cutter. Requires special 3.75" severing head. Safety Note: See Attachment #6 for Chemical Cutter Safety. · 2.7 MU the Baker Model "S" Retrieving Tool w/ 4.75" oil and bumper jars and the Tristate Vibrator Tool, Latch onto Packer with 10,000 pounds set down weight, and POOH w/ Packer and 6 joints of 4.5" casing plus a cut. Verify and Lay Down Fish. If fish does not pull, Repeat Step ~2.6. If fish is recovered, Release the E-Line Unit. Note: Recommended Maxim~A11owable Pullinq Weiqht on the 80-40 Retrieving Tool is 300,000 lbs. (NOTE: If the last fish pulled easily and it is felt the top of fish is free of sand, then Step 2.8 can be skipped and proceed to step 2.9. However, the Tristate Vibrator does not allow circulation thru the tool, and in the event that sand is encountered over the fish, it will require two additional trips to latch the fish.) Page 12 Milne Point Well G-8 Well Completion Procedure (Cont'd) 2.8 RIH w/ 5.75" OD Overshot w/ 4.5" Grapple (Note: Dress overshot with pack-off for circulating since there may be sand on top of the fish), Bumper Sub, Oil Jar, and (6) 4.75" drill collars with Tristate Vibrator. ~atch Fish and attempt to pull Gravel Pack Assembly. If fish is recovered, release E-Line Unit and PROCEED TO'BTEP 3.0. 2.9 RIH w/ Baker Model "S" Retrieving Tool w/ 4.75" oil and bumper jars and the Tristate Vibrator Tool, Latch fish, and Attempt to pull Gravel Pack Assembly. If successful, POOH, Verify and L/D fish, Release E-Line Unit, and PROCEED TO STEP 3.0. 2.10 2.11 RIH w/ ~270' of 5.75" TSS Wash pipe w/ 6" OD burning shoe dressed to 4.875" ID washover to 5" OD flapper valve. Washover blank and pre-pack screen to ±5260'. Pooh and L/D wash pipe and burning shoe. RIH w/ 5.75" overshot w/ the 4.5" Grapple, bumper jar, and oil jar. Latch fish and jar free. Pooh, L/D and tally fish, Clear rig floor of all fishing tools. 3.0 Build minimal amount of LSND drilling fluid to displace hole and drill 350' of 6-1/8" hole. 3.1 RIH w/ 6" bit and displace wellbore fluid with LSND drilling fluid while cleaning out gravel pack sand and fill to 5430' or top of fish -- pump gelled sweeps if necessary. Shut down pumps and wiper trip to shoe to confirm fill is cleaned out. 3.2 Set sidetrack cement plug using balanced plug technique from 5430' or top of fish to extend 50' inside the 7" casing shoe -- calculated TOC at 4960' (Possibly will require 2 plugs due to length of interval.) Pull to +_4850' and circulate hole clean while watching for cement returns (contaminate w/ cement, and divert to cuttings trough). POOH and L/D 6" bit. 3.3 M/U 6-1/8" Steerable Directional Assembly (Directional/Gamma Ray MWD) & RIH to 4800' & WOC -- Total of 12 hrs from time cement was pumped. 3.4 Dress top of cement plug, and begin sidetrack as shallow as possible out of the 7" casing shoe. 3.5 Sidetrack and drill ahead according to directional plan (see Attachment #2). Page 13 MAY 1 2. AJaska Oil & Gas Oons. Oomm~ssto~ Anchorag8 Milne Point Well G-8 Well Completion Procedure (Cont'd) 3.6 Circulate and cut the mud weight back to 8.5 ppg -- make sure returns clean up. 3.7 Make wiper trip to the 7" shoe. When ba6k at TD, displace openhole with 8.5 ppg NaCl brine. Pull up inside 7" Shoe -- Mix and pump (at highest 'allowable rate) two 15 bbl hi-vis HEC sweeps while rotating and reciprocating pipe to clean cuttings bed off low side of hole in preparation to reverse circulate underream. When gelled sweeps return to surface, divert to the cutting trough. 3.8 4.0 Finish POOH, and L/D directional assembly. PROCEED TO STEP 8.0. MU 7" mechanical casing cutter and TIH on 3-1/2" drill pipe to free point of 7" casing verified in Step 5 -- Cut 7" casing and POOH with casing cutter. 4.1 Back out lower lock down screws and ensure that the upper lockdown screws are backed out, PULL SHORT WEAl{BUSHING, MU the pack-off running/retrieving tool, and pull the 7" pack-off -- this will allow the 7" casing hanger and casing to be POOH. 4.2 Change Pipe Rams f/ 3-1/2" to 7". 4.3 Have TIW Valve BU into 4.5" IF Box X 7" BTRC Pin XO, Function Test, and have available on the rig floor in the open position. 4.4 MU 7" casing spear, spear top joint of 7" casing, POOH and verify the 7" casing fish. NOTE: When backing out the 7" casing hanger., DO NOT back the pup out of the 7" casing hanger. Back the pup out of the full joint of 7" and visually..inspect the threads -- if necessary, send in to machine shop to have threads recut or pup backed out and new one bucked up into 7" casing, hanger. Have ready for Step 7.8. 4.5 Change Pipe Rams f/7" to 3-1/2". RUN LONG WEAR BUSHING! 4.6 MU Cementing Sub, RIH to 3200' with 3-1/2" drill pipe and using the balanced plug method, spot a 14 bbl HI-Vis XCD pill mixed to the drilling fluid mud weight. This Hi-Vis Pill is intended to prevent the upcoming sidetrack cement plug from falling out into the rathole. Page 14 Milne Point Well G-8 Well Completion Procedure (Cont'd) 4.7 POOH to 3000'md and set 300' balanced sidetrack cement plug (2700'-3000') using 16.5 ppg Class G Cement w/ sand and sufficient accelerator to account for the shallow depth and low temperature (Have cement company perform cement tests to verify 2.5 hour thickening, time and adequate compressive strength to serve as sidetrack plug). 4.8 5.0 Pull into 9-5/8" casing shoe to 2600' and circulate hole clean while watching for cement returns (contaminate w/ sugar and divert to cuttings trough). PROCEED TO STEP 7.0. MU 7" mechanical casing cutter and TIH on 3-1/2" drill pipe and cut 7" casing @ just above free point. POOH. 5.1 Back out lower lock down screws and ensure that the upper lockdown screws are backed out, PULL SHORT WEAR BUSHING, MU the pack-off running/retrieving tool, and pull the 7" pack-off -- this will allow the 7" casing hanger and casing to be POOH. 5.2 Change Pipe Rams f/ 3-1/2" to 7". 5.3 Have TIW Valve BU into 4.5" IF Box X 7" BTRC Pin XO, Function Test, and have available on the rig floor in the open position. 5.4 5.5 5.6 6.0 MU 7" casing spear, spear top joint of 7" casing, POOH and verify the 7" casing fish. RUN LONG WEAR BUSHING! NOTE: When backing out the 7" casing hanger, DO NOT back the pup out of the 7" casing hanger. Back the pup out of the full joint of 7" and visually inspect the threads -- if necessary, send in to machine shop to have threads recut or pup backed out and new one bucked up into 7" casing hanger. Have ready for Step 7.8. Change Pipe Rams f/7" to 5". RUN LONG WEAR BUSHING! ******Install Ditch Magnets in the Possum Bellies!******* MU pilot mill and 7" metal-muncher, RIH on 5" drill pipe .to 7" casing stub, and mill to 2725'md, and POOH. PROCEED TO STEP 6.6. MU 7" mechanical casing cutter and TIH on 3-1/2" drill pipe and cut 7" casing @ 2725'md. RECEIVED Page 15 ,.%qA¥ 1 2 1995 Alaska Oil & Gas Cons. Commissio~ gnchorag~ Milne Point Well G-8 Well Completion Procedure (Cont'd) 6.1 Back out lower lock down screws and ensure that the upper lockdown screws are backed out, PULL SHORT WEAR BUSHING, MU the pack-off running/retrieving tool, and p~ll the 7" pack-off -- this will allow the 7" casing hanger and casing to be POOH. . 6.2 Change Pipe Rams f/ 3-1/2" to 7". .6.3 6.4 Have TIW Valve BU into 4.5" IF Box X 7" BTRC Pin XO, Function Test, and have available on the rig floor in the open position. MU 7" casing spear, spear top joint of 7" casing, POOH and verify the 7" casing fish. NOTE: When backing out the 7" casing hanger, DO NOT back the PUP out of the 7" casing hanger. Back the pup out of the full joint of 7" and visually inspect the threads -- if necessary, send in to machine shop to have threads recur or PUP backed out and new one bucked up into 7" casing hanger. 6.5 Change pipe rams f/7" to 5". RUN LONG WEAR BUSHING! 6.6 MU 9-5/8" EZSV, TIH w/ 5" drill pipe and set at 2720', Pump 5.1 bbls (25 sks) of Class G Cement below EZSV, Unsting and Dump 3.9 bbls (19 sks) on top EZSV. Pull up to 2650' and circulate hole clean while watching for cement returns (contaminate w/ sugar and divert to cuttings trough). 6.7 Close pipe rams and test casing ~o 1500 psig for 30 minutes -- acceptable final pressure is 1350 psig. Record Test results on IADC. 6.8 Finish POOH. NOTE: Rack Pipe in the derrick to accommodate the use of both 3-1/2" and 5" drill pipe. 6.9 MU 9-5/8" Metal Muncher, TIH w/ 5" drill pipe, and mill a section from 2520' to 2580'md, POOH. (Note: 2520'md is the shallowest that a window can be cut in the 9-5/8" casing since the Schrader Bluff Pool Rules require a cemented surface casing shoe to 500'md permafrost base -- 1860' tvd for this well). Page 16 Milne Point Well G-8 Well Completion Procedure (Cont'd) 6.10 MU cementing sub and RIH w/ 5" drill pipe to 2650'. Mix and pump 14.3 bbls (70 sks) 16.5 ppg cement Class G Cement Plug using balanced plug technique. (Hgve cement company perform cement tests to verify 2.5 hour thickening time and adequate compressive st.rength to serve as sidetrack plug). 6.11 MU 8.5" steerable directional assembly with LWD tools (Directional/Dual Gr/EWR Resistivity Real-Time, Surface Read). 6.12 RIH to 2470' with .5" drill pipe and WOC total of 12 hours since cement plug was spotted. 6.13 Dress off top of cement plug while watching returns -- contaminate any cement and cement contaminated mud with sugar and divert to cuttings trough. 6.14 Sidetrack and drill ahead as per proposed directional plan see Attachment ~3). PROCEED TO STEP 7.5. 7.0 POOH, Change 3-1/2" pipe rams to 5", RUR LONG WEAR BUSHING, & MU 8.5" steerable directional assembly with LWDtools (Directional/Dual Gr/EWRResistivity Real-Time, Surface Read). 7.1 RIH to 2600' while PU 5" drill pipe and WOC total of 12 hours since cement plug was spotted. 7.2 Dress off top of cement plug while watching returns -- contaminate any cement and cement contaminated mud with sugar and divert to cuttings trough. 7.3 Sidetrack and drill ahead as per proposed directional plan (see Attachment #4). 7.4 At TD, Circulate hole clean. Short trip into the 9-5/8" casing and based on the hole condition either POOH or TIH to TD and circulate hole clean. POOH laying down 5" drill pipe. 7.5 Change Pipe Rams f/5" to 7" and PULL WEAR BUSHING! RU CaSing Crew and Equipment. 7.6 Have TIW Valve BU into 4.5" IF Box X 7" BTRC Pin XO, Function Test, and have available on the rig floor in the open position. R~CEIVED Page 17 Milne Point Well G-8 Well Completion Procedure (Cont'd) 7.7 7.8 MU 7" Float Shoe, Baffle Plug Catcher Collar, 7" ECP, 7" ES Cementer and run 7" casing -- BAKER LOCK ALL CONNECTIONS INCLUDING PIN END OF 1ST two JOINTs OF CASING above ES CEMENTER AND TACK WELD ALL CONNECTIONS to the collar on the 2nd joint of casing. Ensure that the ECP and ES Cementer are pinned according to the job application with the ES cementer MAXIMUM ALLOWABLE pressure setting less than 5000 psig -- this is 80% of burst of the 7" casing minus a 1000 psig safety cushion for the cement line test. MU 7" hanger, Cementing Head w/ Baffle Plug, and Cementing Lines. Pressure test Cementing Lines to 1000 psig above the opening pressure of the 7" ES Cementer. 7.9 Pump a minimum of 1.25 times the 7" casing volume. 7.10 OPTION A (Fill ECP w/ Cement): Pump 50 bbls of 11.0 ppg Sepiolite Spacer, Drop the Baffle Plug, Mix and Pump 30 bbls (146 sx) 15.6 ppg Class G Cement. Drop the closing plug. Clear Cement out of lines with 5 bbls H20. Displace and bump baffle plug -- Note: if pipe is reciprocated, ensure that hanger is landed before the ECP is inflated. Pressure activate the ECP inflating it w/ Cement. Continue to pressure up and open the ES Cementer. Pump ±30 bbls of mud to close the ES Cementer. OPTION B (Fill ECP w/ LSND Drilling Fluid): Drop the Baffle Plug and displace w~ LSND drilling fluid until Baffle Plug seats on Baffle Plug Catcher Collar -- Note: if pipe is reciprocated, ensure that hanger is landedbefore the ECP is inflated. Pressure activate the ECP inflating it w/ LSND drilling fluid. Continue to increase the pressure and open the ES Cementer. Mix and Pump 30 bbls (146 sx) 15.6 ppg Class G Cement. Drop the closing plug. Clear Cement out of lines with 5 bbls H20. Displace and bump the closing plug to close the ES Cementer. 7.11 Test casing to 1500 psig for 30 minutes -- acceptable final pressure is 1350 psig. Record Test results on IADC. 7.12 RD Casing & Cementing Crews and Equipment. ND BOPE and install and test 7" pack-off to 5000 psig for 10 minutes. Page 18 Milne Point Well G-8 Well Completion Procedure (Cont'd) 7.13 Clean pits, RU DE Filter Unit, and line up pits to be able to isolate the filtered clean brine from the unfiltered return brine. 7.14 7.15 Change Pipe Rams f/ 7" to 3.5", RUN SHORT WEA~. BUSHING, & MU 6-1/8" bit and 6 or 8 4-3/4" drill collars. TIH with 3-1/2" drill pipe and drill out ES Cementer, Latch Down Baffle.Collar, and Float Shoe while cutting density of fluid back to 8.6 ppg. TIH to TD and displace the openhole with 8.5 ppg NaC1 brine. POOH inside 7" Shoe -- Mix and pump (at highest allowable rate) two 15 bbl hi-vis HEC sweeps while rotating and reciprocating pipe to cutting bed off low side of hole in preparation to. reverse circulate underream. When gelled sweeps return to surface, divert to the cuttings trough. 7.16 Finish POOH. Page 19 RECEIVED A~aska Oil & Gas Coi'~s, Commissio~ Anchoraga Milne Point Well G-8 Well Completion Procedure (Cont'd) 8.0 UNDERREAMING PROCEDURE Summary: a. (REVERSE CIRCULATING UNDERREAMERUTILIZING CLEA~FILTERED BRINE -- STEPS 8.1 - 8.6) This is the preferred method of underreaming for the G-8 well. The primary intent is to minimize formation damage by preventing the drill cuttings from coming in contact with the underreamed portion of the hole. Since it may be necessar~..to spot a pill in order to control fluid losses, it is highly recommended that the pill be spotted by pumping down the drill pipe as opposed to the annulus to achieve more precise placement. In this event, it is essential that the drill pipe be circulated clean of cuttings before any conventional circulating is done to prevent exposure of the undereamed portion of the hole to drill solids (formation damage). This preferred underreaming method may not be possible either due to high fluid losses or borehole instability -- in either case, the contingency will be as follows. Be (UNDERREAMING FROM TD TO THE 7" CASING SHOE WITH A TRISTATE "DB" UNDERREAMER UTILIZING A CaC03/XANVIS DRILLING FLUID SYSTEM-- STEPS 9.0 THRU 9.5) This is the next best fit method for underreaming the G-8 well. To minimize formation damage, the hole is underreamed from TD back toward the 7" casing shoe. Circulation is conventional to minimize the exposure of the underreamed portion of the hole to drill cuttings laden fluid (formation damage). It is essential that drill solids be maintained at or below 20% of the total solids content. Page 20 Milne Point Well G-8 Well Completion Procedure (Cont'd) REVERSE CIRCULATE UNDERREAM (RCU] WITH CLEAR BRINE: NOTE: It is essential that the brine be kept ~lean and filtered. Utilize all solids control equipment. In the event it becomes necessary to pump lost circulation pill.s, ensure that the returns are monitored and that the pills are diverted to the cuttings trough upon returning to surface. 8.1 MU reverse circulating underreamer with 8-1/2" blades or 12" blades for 6-1/8" or 8-1/2" hole, respectively. MU a 5~ 3-1/2" drill pipe pup and a 6-1/8" stabilizer below that on the bottom of the underreamer, and TIH w/ 3-1/2" drill pipe. Drop the ball 1-7/8" composite rubber ball and pressure up down drill pipe to extend underreamer blades, pull up against the 7" shoe w/ 5K pounds to verify arms are open. Note: Underreamer blades will close by pulling up against casing shoe with 10-15,000 lbs. overpull. 8.2 Underream from the 7" shoe to TD according to the following criteria: 1. Maintain a minimum return flow rate of 2 bpm. · Keep track of losses via pump rate (bpm) versus return rate (bpm). 3. Pump only filtered fluid downhole. · Circulate until returns are cleaned up before shutting down pumps to make connections. · If losses become too great to. maintain sufficient returns to clean the cuttings out of the hole, then be prepared to pump LCM pill. Use only sheared and filtered HEC (add breaker) with CaC03 bridging material. Spot pill down the drill pipe, let sit 20 minutes, and then reverse out diverting any gelled fluid returns to the cuttings trough. · If efforts to utilize the reverse circulating method fail (for whatever reason), PROCEED TO STEP 9.0. Page 21 RECEIVED [ AY 1 A, laska 0il & Gas Co~s. Anchom!~a Milne Point Well G-8 Well Completion Procedure (Cont'd) 8.3 At TD, continue to reverse circulate until returns clean up, short trip to the 7" casing shoe, and TIH to TD and tag for fill -- if fill is above the OB base attempt to reverse circulate to deepen hole; however, d~e to the extension, it may be necessary to trip out of hole and go in open ended or with a saw tooth circulating sub to reverse circulate the fill out to the desired depth. Remember, any conventional circulation to clean fill will expose the underreamed portion of the hole to drill solids plugging and consequent formation damage. 8.4 POOH with underreamer -- Note: It will be necessary to pull against the 7" casing shoe w/ 10-15,000 lbs overpull to collapse the undereamer blades. 8.5 R/U E-Line Unit and run 4-arm caliper w/ GR from TD to 7" casing shoe for use in sand volume calculations. POOH with the 4-arm caliper and R/D the E-Line Unit. (If portions of hole are undergauge, consider underreaming these hole sections utilizing the same reverse circulating method.) 8.6 If the underreaming operation was completed with the clear brine system, then Proceed to Step 10. Page 22 Milne Point Well G-8 Well Completion Procedure (Cont'd) CONVENTIONAL CIRCULATION "DB" UNDERREAMER WITH CaC03 9.0 Clean pits, Build and displace the hole wi~h 9.0 ppg CaC03/Xanvis mixed according to the following, recipe: Xanvis/CaC03 System: 6.7 ppb KCL Salt 1.5 ppb Xanvis 4.0 ppb Dextrid 41 ppb Baracarb 9.1 MU Tristate "DB" Underreamer and TIH to TD. Underream the openhole section upwards toward the 7" casing shoe. All fluid density maintenance will be done with CaC03 additions. Circulate openhole section of the hole clean before shutting pumps off to make connections. 9.2 9.3 Maintain CaCO3/Drill Solids ratio of 80/20 with out allowing drill solids content to become any greater than 20% -- the system will be replaced as a maintenance method. Utilize the Acid/Versenate test developed by Baroid to monitor the CaC0/Drill Solids ratio (See Attachment #4). Underream upwards to the 7" casing shoe. Circulate the hole clean. Pull into the shoe to collapse arms and RIH to tag for fill -- if fill is above the OB base, TIH and Underream to achieve at least 10' of rathole below the OB base at 4254' tvd. 9.4 R/U E-Line Unit and run 4-arm caliper w/ GR from TD to 7" casing shoe for use in sand volume calculations. POOH with the 4-arm caliper and R/D the E-Line Unit. (If portions of hole are undergauge, consider underreaming these hole sections.) 9.5 RIH to TD and circulate while cutting the fluid density back to 8.6 ppg. Displace the openhole with 25% by volume excess 8.5 ppg NaCl brine. Pull inside 7" Shoe -- Mix and pump (at highest allowable rate) two 15 bbl hi- vis HEC pills while rotating and reciprocating pipe to clean cuttings bed off low side of hole. When gelled sweeps return to surface, divert to the cutting trough. Pull up into the 7" casing shoe and finish displacing the hole with 8.5 ppg NaCl brine -- Mix and Pump two 15 bbl Hi-Vis HEC pills while rotating and reciprocating drill pipe -- circulate at maximum rate to clean cuttings bed off low side of hole. ~ ~~ l~.~ Page 23 MAY ] 2 Alaska Oil & Gas Coils. Cornmissiol'~ A,,~chora~a Milne Point Well G-8 Well Completion Procedure (Cont'd) sweeps return to surface, divert into cuttings trough. POOH. Page 24 Milne Point Well G-8 Well Completion Procedure (Cont'd) 10.0 Open Hole Gravel Pack Staqe Clean all pits and fill with 8.6 NaC1 brine; filter to 2 microns absolute. Fill frac tank with +/-500 bbls of same for g~avel pack. Secure tank for temporary storage of pickle and neutralizer. 10.1. Hold pre-job meeting to discuss the running of the gravel pack screens. 10.2. Pick up and slowly (90 sec/stand) RIH with the gravel pack assembly on drill pipe as follows (have as much of this equipment picked up before this time to minimize time M/U BHA): ae 4-1/2" Set Shoe/Perforated Sub/Flapper Valve Assembly. be 20 ft of 4-1/2" Single Screen Pre-pack (2-7/8" 12 gauge all welded stainless steel wire wrap screen base, 20-40 mesh gravel pre-pack, and 4-1/2" perforated outer pipe base). Ce O-ring Sub. (a, b, and c picked up as one unit) de Necessary length of 4-1/2" Single Screen Pre- pack to cover from Na Top to Ob Base based on the outcome of sidetrack operation (2-7/8" 12 gauge all welded stainless steel wire wrap screen base, 20-40 mesh gravel pre-pack, and 4-1/2" perforated outer pipe base). e. Crossover. f. 155 ft of 4-1/2" blank pipe, welded centralizers lowest joint (directly above pre-pack screen) in casing. g. Polished stinger/I-i/4" CSH tubing (length as required) inside screen as washpipe. h. Crossover. SC-iL Gravel Pack Packer with extensions and port closure sleeve. (Items h and i are picked up as one unit) RECEIVED Page 25 Alaska Oil & Gas Cons. Commissio~ Anchora§~ Milne Point Well G-8 Well Completion Procedure (Cont'd) 10.3 10.4. Use screen table and dog collar when running pre- pack screen. -- Hang off blank pipe in rotary table wi~h 4-1/2" slips. NO EXCESS PIPE DOPE ON ANY CONNECTIONS. DOPE PIN ENDS ONLY. Rabbit all pipe as RIH. Be certain space-out of washpipe is correct before RIH with assembly. Fill the drill pipe every 5 stands with 8.5 ppg KCL brine. Run the gravel pack assembly into the well slowly, 90 sec/stand. At casing shoe record the pick up and slack off weights. DO NOT set down weight on bottom or on fill. If unable to get to bottom of underreamed section, wash as necessary and condition hole. If it becomes necessary to wash down the screen assembly, be certain not to exceed 1000 psi pump pressure (to prevent prematurely setting the packer). Hang off assembly in tension with end of assembly one (1) foot above TD. Prior to positioning the workstring space out to obtain a safe working height at the rotary table. Do not space out any connections in the BOP stack. Move workstring slowly! Rig up D/S pumping equipment on location. High pressure lines on all but the return line. The line from the manifold to the pit can be a high pressure hose (5000 psi RWP). All valves off the rig floor should be lined out prior to starting the treatment. This includes valves on the choke manifold and disposal tank. Flag these valves prior to starting the job. They should not be operated during the job. Attempt to hook up in a manner that will allow only valves on the rig floor to be operated during the job. · A ball catcher will be made up in the treating line off of the lead off chicksan. The ball catcher and the squeeze manifold are supplied by the tool service company. Page 26 Milne Point Well G-8 Well Completion Procedure (Cont'd) 10.5. A densitometer, pressure sensor and flow meters must be installed in the line between the workstring and high pressure pump. A flow meter must be installed in the line from the manifold to the pits. A pressure sensor must be installed between the manifold and the casing side. This equipment and the data recorder must be installed and checked out as soon as possible. Hold a pre-job safety meeting for all personnel on location that could be exposed to hazards of the treatment. The two main points of concern to be stressed are material hazards (acids, bases, oxidizers, solvents) and pumping pressures. Discuss general safety precautions and first aid procedures (location of eye wash, responsible personnel, etc). 10.6. Using D/S pump, test lines to 5000 psi. treating lines, gauges, manifold, etc. with warm diesel, if necessary. Includes all Pressure test 10.7. Drop the setting ball and allow time for the ball to gravitate down (5 min per 1000 ft). Set the packer by pressuring up the tubing. Pressure up to 500 psi using rig pump and 8.5 ppg KCL fillup fluid, hold for two minutes, switch to D/S pumps (using 8.6 brine) and finish setting packer by pressuring up to 2000 psi, hold for five minutes. Pressure up to 2500 psi, hold for five minutes. Bleed Pressure off. 10.8. Pressure test the annulus with D/S at 300 psi, 500 psi and 1000 psi to insure the packer is set properly. This procedure should release the running tool from the -packer. (Rotate 12 turns to the right to release running tool from the SC-iL Packer if hydraulic release fails) 10.9. Pickup to reverse position, blow out ball seat by pressuring up to 4500 psi using D/S. 10.10. Pump the 25 bbl of neutralizer solution to the disposal tank. Staying in the reverse position, pump the following using D/S to within 3 bbl of the crossover: a. Acid/solvent mixture (220 gal Super Pickle mixed in 300 gal 15% HCl with inhibitor, iron sequestering agent,surfactant) Page 27 RECEIVED MAY I 2 1993 Alaska Oil & 6as 6ons. OornmissiO~ Milne Point Well G-8 Well Completion Procedure (Cont'd) b. Water (or 2% KCL) from transport. Page 28 Milne Point Well G-8 Well Completion Procedure (Cont'd) Reverse circulate acid back to surface disposal tank with the rig pump at maximum rate. Divert flow to the pits after 1.5 workstring volumes pumped. Continue reversing until 70 bbl pumped while monitoring returns. Do not flow acid/solvent or gel int9 the pits during this operation. **** Super Pickle is a combustible liquid and poses a health hazard when ingested, inhaled, or when it contacts the eyes or skin. Maintain adequate ventilation in enclosed areas, and utilize protective clothing, rubber gloves, and safety goggles when handling this material. Consult MSDS. **** HCl is a corrosive liquid and poses a health hazard when ingested, inhaled, or when it contacts the eyes or skin. Maintain adequate ventilation in enclosed areas, and utilize protective clothing, rubber gloves, and safety goggles when handling this material. Consult MSDS. 10.11. Wellbore ready for gravel pack. Continue circulating at 2 bpm and begin adding 1.5 ppg .of 20-40 Mesh gravel to brine with blender. Pick-up to lower circulate position (taking returns through lower tell-tale) after pumping 50 bbl of "slurry". Monitor return rate and brine density; continue to dispose pill/mud/bleach or filter brine returns from the well. Be aware of return of bleach solution. Keep away from rotary - possible exposure to reaction products of bleach with mud. Monitor return fluid rate. If return rate (+/-) same as pump rate, increase pump rate to +/- 3 bpm in 0.25 bpm increments. If returns are same as pump rate, increase slurry loading in 0.25 ppg increments and monitor returns to maximum of 4 ppg. Be sue that pressure surges are not indicated in system, which indicates insufficient transport of gravel. At pressure increase or decrease in returns shift the tool to take returns through the main pre-pack screen (upper circulate position). Note amount of gravel pumped to this point. Complete pumping gravel pack until a 1000 psi over initial circulating pressure on main screen or a decrease in return rate change indicates that the screen is covered. (Theoretical Total gravel: +/-28700 lbs) Page 29 RE~E~VE~ Milne Point Well G-8 Well Completion Procedure (Cont'd) Page 30 Milne Point Well G-8 Well Completion Procedure (Cont'd) 10.12. Immediately close annular, trap +/-500 psi on annulus, pick up to reverse circulate position and reverse workstring clean with 8.6 ppg brine (minimum of two hole volumes) at maximum rate using rig pumps.- Monitor returns and divert gel/gravel into the junk p~t. Flush out surface treating lines st same time. Insure top of packer is free of debris by manipulating service tool port above packer while reverse circulating. 10.13. After hole is reversed clean, place tool in main screen circulation position and pressure up. If rate/pressure indicate the screen is still covered then rig down treating equipment and prepare to POOH. If rate/pressure indicates exposed screen then repeat steps 10.11 and 10.12, keeping the tool in the main screen position. 10.14. POOH with running tool. Lay down drill pipe as POOH. Fill hole when POOH to compensate for the drill pipe removed from the well only. Do not attempt to keep the hole full to surface. This may result in large volumes of fluid lost to the formation. Page 31 Alaska Oil & (~a$ f;o~ls. Commission Milne Point Well G-8 Well Completion Procedure (Cont'd) 11.0 ESP Installation Procedure 11.1. 11.2. 11.3. 11.4. 11.5. 11.6. PULL THE WEAR BUSHING. GIH with ESP, picking up and drifting 2-7/8" tubing as follows: a. ESP Assembly b. 2 Jts. 2-7/8" 6.4~ Production tubing c. 2" Check Valve d. 2 Jts. 2-7/8" 6.4# Production tubing e. 1" GLM w/ 2'7/8" pups BU into each end f. 2-7/8" 6.4~ Production Tubing to surface g. 2-7/8" Tubing Hanger w/ 2 ft pup RIH with ESP no faster than 30 ft/minute. Before start-up of ESP the appropriate item will be run on wireline. Cut approximately 18" off of the lower pigtail before making the splice to ensure sufficient cable length in the event the lower pigtail must be replaced. Attach two cable bands per tubing joint. Attach additional cable bands above and below cable splice. Locate the bottom of the ESP assembly to maintain +/-30 ft between assembly and the gravel pack packer. Do not space out with pup joints at surface. Ensure that alignment pin is backed out after landing tubing hanger. Pump sufficient diesel down annulus and tubing to fill to a depth of 2000 ft for freeze protection. ND BOP stack. NU production tree. Rig down to move. Page 32 3201 C Slmet, Suite 2(X) March :27, 1992 Mr. Blair Wondzell Alaska Oil & Gas Conservation Commission 3001 Porcupine Dr. Anchorage, Alaska 99501 Dear Blair Wondzell, Please find attached the casing and cementing reports for J-~nd several other Schrader Bluff wells. Unfortunately, the foreman that completed the fOrm did not Indicate that there were full returns during the c,~ment job. However, I contacted the foreman, Joe Polya, that did the cement job and he informed me that it was an oversight on his part. We have fever had a problem with loss circulation on the 7" jobs on Schrader Bluff wells primarily due to the fact that we do not bring cement high enough in the wells to exceed the fracture gradient. Additionally, I contacted the foreman opposite Mr. Polya and he confirmed that loss returns uti this r~tsing string in the Schrader Bluff wells is not a problem, I have attached other casing/cementing reports from Schrader Bluff wells to provide you with additional support. Allow me to apologize for the delay in providing you with this infmtnation and if is anything I can do in the future do not hesitate to call (564-7~), Best Regards, Steve Bolt Division Drilling Superintendent RECEIVED MAR 2 7 ]992 AlaSka (Jil & Gas Cons. Commission Anchorage ,4R ~7 FROM CONOCO ANCHORAGE TO ,/..-% l,egsers ?.I}, 14axt~ua Rg{grihlil Tfmperal'nre frn~ T,~ggt.g B,,~..?_,..~.'E C~g= ~ TOTAL SCHLUMBERGER WELL SERVICES 500 W. INTERNATIONAL AIRPORT ROAD ANCHORAGE, ALASKA 99518 COMPANY ' LOCATION · ATTENTION · ~.~'~. (itL & GAS CONSERVAI'!O~ COHI'~ISSIO~'~ 300i ?CRCUviNE DRIVE J,~,hh BOYLE COMPUTING CENTER PRINT CENTER WELL NAME SERVICES · WELL NAME · SERVICES · NO. OF BOXES' JOB NO. · ADD'L TAPES · CNE 74590 *SEE ABOVE NO. OF BOXES' JOB NO. · ADD'L TAPES · WELL NAME · SERVICES · WELL NAME · SERVICES ' NO. OF BOXES' JOB NO. · ADD'L TAPES ' WELL NAME · SERVICES ' NO. OF BOXES: JOB NO. ' ADD'L TAPES · WELL NAME · SERVICES · NO. OF BOXES: JOB NO. · ADD'L TAPES ' SCHLUMBERGER COURIER: ,/' DATE DELIVERED: NO. OF BOXES' JOB NO. · ADD'L TAPES ' REC.E!_VED I~.~ 577'I ZIP TIME STATE ZIP ~ ONE HOUR ONE HOUR $ SAME .DAY $ 2~ ~OuR $ ......... TOTAL $ ~ '/ DATE TIME .... ' STATE OF ALASKA 0 ~'"l 6~, ALASKA OIL AND GAS CONSERVATION COMMISSION '; WELL COMPLETION OR RECOMPLETIOH REPORT AND LOG 1. Status of Well Classification of Service Well OIL ~. GAS [] SUSPENDED [] ABANDONED [] SERVICE []__~ 2. Name of Operator [~/AI iron'51 l I rEtortED i I Conoco, Inc. i ,~" ,,~..-, I 1 3201 "C" Street, Suite 200, Anchorage, Alaska 9950~~ ] 4. Location of well at surface 3,176' FNL, 3,459' FEL, Sec. 27, T13W, R10E, U.M. At Top Producing Interval 543' FNL, 4,323' FEL, Sec. 27, T13W, R10E, U.M. At Total Depth 93' FNL, 4,410' FEL, Sec. 27, T13W, R10E, U.M. 5. Elevation in feet (indicate KB, DF, etc.) KB 35' AGL ~1 r~,. Ti- i VER,FtEP, I Lease Designation and Serial No. ADL 259O6 12. Date Spudded 113. Oat. e T.D. Reached 5/24/91 I 5/28/91 17. Total Depth (MD+TVD) ]18. Plug Back Depth (MD+TVD) 5~765' MD J 5~430' MD 22. Type Electric or Other Logs Run-- SP, DIL, NGT, CNL, LDT, MSFL 23. 7. Permit Number 91-26 8. APl Number 50-029-22141 9. Unit or Lease Name Milne Point 10. Well Number G-8 11. Field and Pool Schrader Bluff 14. Date Comp., Susp. or Aband. j 15. Water Depth, if offshore ] 16. No. of Compteti'ons 6/6/91 I feet MSLIi 1 19. Directional Survey I 20. Depth whereSSSV set 21. Thickness of Permafrost YES [~ NO [~] I feet MD -J- 1800! CASING, LINER AND CEMENTING RECORD CASING SIZE 13-3/8"' 9-5/8" ,, 4-1/2" WT. PER FT. 54.5 36.0 26.0 Screen Liner GRADE K-55 L-80 L-80 SETTING DEPTH MD TOP BOTTOM Surf 115' Surf 2408' Surf~ 5010'" 4771' 5425' 24. Perforations open to Production (MD+TVD of Top and Bottom and interval, size and number) Open-Hole 5,010' MD - 5,425' MD 3,960'TVD - 4,262' TVD HOLESIZE CEMENTING RECORD 36" 452 Sacks Arctic IV 12-1/4" 900sx"E'' 300sx"G" 8-1/2"1260sx"G" w/ECP@5',000 12" Gravel Packed Open-Hole AMOUNTPULLED 25. TUBING RECORD · SIZE DEPTH SET (MD) PACKER SET (MD) 2-7/8" 4756' N.A. 26. ACID, FRACTURE, CEMENT SQUEEZE, ETC. DEPTH INTERVAL (MD) AMOUNT& KIND OF MATERIAL USED 4,771' - 5,425' Gravel packed with 29,320 # 20-40 Sand Date First Production'- ': - F, stlmated 7/1/91 Date of Test Flow Tubing Press. Hours Tested Casing Pressure PRODUCTION TEST t Method of operation (Flowing, gas lift, etc.) I ]PRODUCTION FORIOIL-BBL "GAS-MCF CALCULATED ~ I OIL-BBL GAS-MCF 24-HOUR RATE WATER-BBL WATER-BBL ICHOKE SIZE I GAS-OIL RATIO OIL GRAVITY-APl (corr) 28. CORE DATA Brief description of lithology, porosity, fractures, apparent dips and presence of oil, gas or water. Submit core ch~us. .. ._ _ Encounteredhydro-carbon bearing.sands throughout the Schrader Bluff "N" and-"O!' series sands. No fu%l cores or side-wall cores were taken.. ., . · · - ~. ~ : Form 10-407 Rev. 7-1-80 CONTINUED ON REVERSE SIDE ,Cjubm~t in duplicate NAME Schrader Bluff "NA" Sand "NB" Sand "OA" Sand "OB" Sand GEOLOGIC MARK~:, ,,5 MEAS. DEPTH 5,051' 5,098' 5,283' 5,415' TRUE VERT. DEPTH 3,994' 4,027' 4,158' 4,250, ~' , 30. o o FORMATION TESTS 1'~'61ude interval tested, pressure data, all fluids recovered and gravity, GOR, and time of each phase. · Pending Production Hookup 31. LIST OFATTACHMENTS GCT, Summary of Operations 32. I hereby certify that the foregoing is true and correct to the best of my knowledge . Drilling Eng. June 7, 1991 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 andi24: If this well is completed for separate production from more than one interval (hfl01tiple completion), so state in item 16, and in item 24 show the producing intervals for only the interval reported in item 27. Submit a separate form for each additional interval to be separately produced, showing the data pertinent to such interval. Item 21' Indicate whether from ground level (GL) or other elevation (DF, KB, etc.). Item 23: Attached supplemental records for this well should show the details of any multiple stage cement- ing and the location, of the cementing .tool. Item 27: Method of Operation: Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Wa{er In- jection, Gas Injection, Shut-in, Other-explain. Item 28: If no cores taken, indicate "none": Form 10-407 05/25/91: Move rig from G-7 to G-8~ Rig up. Accept rig on G-8 at 0300 hfs 05/24/91. Mix mud. N/U diverter and test same. M/U steerable BHA. Spud well at 0900 hrs on 05/24/91. Drill from 115' to 1323'. 05/26/91: Drill from 1323' to 2782'. C & C. Short trip. C & C. POOH and L/D BHA. R/U and Run 4 Arm caliper. 05/27/91: Run 63 joints 9-5/8", 36 ppf, K-55, BTTS casing. FS at 2736'.FC at 2646'. Circ. Pump 50 bbls water, 324 bbls (900 sx) Permafrost "E" cement at 12.3 PPG, 61.5 bbls (300 sx) class "G" cement at 15.8 PPG, and displace with 204 bbls 9.4 PPG mud. N/D diverter and N/U wellhead and BOP's. Test BOP's to 300/3000 psi. -P/U 8-1/2" BHA and TIH to 2650'. C & C. Test casing to 1500 psi for 30 min. 05/28/91: Drill float eqpt. Drill from 2782' to 2792'. Ran LOT to 15.3 PPGe. Drill from 2792' to 5724'. 05/29/91: Drill from 5724' to 5765'. C & C. Short trip. C & C. POOH L/D BHA. Run SP-DIL-NGT-CNL-LDT-MSFL from 5766' to 2736'. Attempt to run lIFT - Tool Failed. TIH with DP to set plug. 05/30/91: Make up cement plug catcher. RIH to 5,765' TD. Spot 37.2 bbl. class~- "G" plug from TD to 5,280'. POOH with cementing string. Picked up packed BHA. RIH and tagged green cement at 5,280'. Dressed off plug to 5,430' and stacked 15,000 lbs on bit. Circulated hole clean. POOH laying down 5" drill pipe. Changed rams to 7" and prepared to run 7" casing. 05/31/91: Ran 116 joints of 7", 26 #/ft, L-80 Buttress casing with ECP. FS at 5010'. FC at 5005'. ECP at 4980'. Set ECP, open HOS tool and CBU. Mix and pump 50 bbls Sepiolite spacer at 11.0 PPG, 5 bbls water, 53 bbls (260 sx) class "G" cement at 15.8 PPG, 5 bbls water, and displace with 183 bbls mud at 9.4 PPG. Shear~and check HOS closing sleeve - OK. Install and test packoff to 5000 psi. Change rams from 7"'ito 3.5". Change kelly to 3.5". P/U 6"~BHA and P/U 3.5" S-135 DP and RIH to 4915'. Test casing to 1500 psi for 30 min Drill cement, HOS tool, and float equipment. C & C. POOH. NOTE: Released rig from drilling AFE No. 10-61-1382 to completion AFE No. 10-61-1383 at 1200 hrs on 05/30/91. Above cost represents AFE No. 10-61-1382 total cost of . The cnmmulative cost for AFE No. 10-61-1383 is as of 2400 hfs 05/30/91. 06/01/91: RIH with tandem casing scrapers and clean casing to the shoe. POOH and layed down scrapers. Pick up bit and fully packed BHA;- RIH to HOS cementer and pressure test casing to 1,500 psig for-30 minutes. Drill out cement and float equipment. Circulate and inject mud. Displace 9.4 ppg LSND system with sized salt mud. POOH and lay down l9 joints. Make up underreaming asssembly. RIH and underream from 5,014' to 5,186'. 06/02/91: Underream from 5,186' to 5,430'. Circulate and POOH to . the shoe. RIH to T.D. and check for fill. POOH and rig up Schlumberger. Run four arm caliper from 5,010' to 5,430'. Tagged fill at 5,405'. POOH and rigged down Schlumberger. Picked up underreaming assembly and RIH. Underreamed from 5,400' to 5,430'. POOH. Layed down HW and DC. 06/03/91: Reverse circulate and displace the top 650' of hole with 10.6 NACL/NABR brine. Pick up 4-1/2" screen and gravel pack assembly. Pick up 1-1/4" CS Hydril wash pipe. RIH filling string every 5 joints. Well began flowing up drill pipe last stand. Space out, drop ball, rig up surface lines to gravel pack and pressure test to 5,000 psig. Pressure up to 1,600 psig and attempt to set packer. Pull test. failed. Pressured to 5,000 psig and pull test failed. Surged to 4,500 psig in final attempt to set packer. Pull test failed. Unable to set packer. Rig down D.S. and prepare to perforate drill pipe and POOH. 06/04/91: Perforate 3.5" DP at 4782' with 2 shots. POOH and L/D Baker SC-iLR setting tool, pkr seal assy, and washpipe - No packer (setting tool had released from packer). M/U pkr retrieving tool and TIH to 4830'. Latch pkr and gravel pack screen. POOH with same. L/D pkr and retrieving tool. Wash screen with brine solution. Inspect screen - OK. 06/05/91: Pull wear bushing, install test plug and test BOP's to 5,000 psig. Make up gravel pack assembly and RIH. Drop ball to seat packer, rig up D.S. and pressure test surface lines to 5,000 psig, Circulate and attempt to seat ball. The ball did not seat. Currently waiting on ' slicklineunit. ~. ~- 06/06/91: RIH with 2" impression bloCk to 4768' ~ (X/O sub above ball seat) - ball did not seat. POOH. RIH with 1.375" bar to 4784' WLM and attempt to pressure up - no success. POOH and R/D slickline unit. Drop 1.75" B/U ball and set packer with 1600 psi. Pull test packer to 40,000#. Reverse circ. DiSplace .hole from 4771' to surface with --' .7 8.6 PPG brine. Pickle work string with acid. Pump 40 bbls HEC pill (spot 10 bbls above packer), 90 bbl bleach solution, displace with 90 bbl brine, pump 31,500#' of . sand at a 2 PPG conc,., screen out in both low.er and Upper ~'~ position, reVerse out 2,180# sand. Pumped-' ~100%' ~ h°le volume in place-with 260' of sand in the blank p~i~e, Unsting from packer and monitor well - OK. POOH and L/D seal assembly and washpipe. 06/07/91: Finish L/D washpipe. L/D 3-1/2" DP and kelly. Change rams from 3-1/2" to 2-7/8". M/U ESP and run on 148 (4683') joints of 2-7/8", 6.5 #/ft, L-80, EUE tubing. Land hanger and set ESP at 4756'. Change rams from 2-7/8" to SR. 06/08/91: Nipple down BOp's, mousehole, bell nipple and flowline. Nipple up tree. Install two way check valve and test flange connection to 5,000 psig. Test tree to 5,000 psig. Install BPV and freeze protect. Released rig at 0:600 hours on 06\07~91. SUB - S URFA CE DIRECTIONAL SURVEY ~-~ UIDANCE ~'~ ONTINU.OUS ~ OOL Company CONOCO INC. Well Name MPU G-8 (3176' FNL, 3459' FEL, SEC 27, T13Nf R10E) Field/Location SCHRADER BLUFF, NORTH SLOPE, ALASKA Job Reference No: .. 74608 Loqcjed By* CHENEVEY Date 01 -JUN-91 Computed By DEES GCT DIRECTIONAL SURVEY CUSTOMER LISTING FOR CONOCO, INC. MILNE POINT UNIT G-8 SCHRADER BLUFF NORTH SLOPE, ALASKA SURVEY DATE: 01-JUN-1991 METHODS OF COMPUTATION TOOL LOCATION: TANGENTIAL- f INTERPOLATION: LINEAR VERTICAL SECTION: HORIZ. DIST. ENGINEER: CHENEVEY Averaged deviation and azimuth PROJECTED ONTO A TARGET AZIMUTH OF NORTH 1 8 DEG 32 MIN WEST CONOCO, INC. mI,LNE POINT UNIT G-8 SCHRADER BLUFF ' NORTH SLOPE, ALASKA COMPUTATION DATE; 4-JUN-91 PAGE 1 DATE OF SURVEY; O1-JUN-1991 KELLY BUSHING ELEVATION: 65,00 ~T ENGINEER; CHENEVEY INTERPOLATED VALUES FOR EVEN 100 FEET OF MEASURED DEPTH · 'TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN 0.00 i00.00 100.00 200.00 2O0.00 300.00 300.00 400.00 400.00 500.:00 499.96 600:'00 599.72 700.00 698.99 800.00 797.72 0.00 -65.00 0 0 35.00 0 13 135.00 0 11 235.00 0 8 335.00 0 37 434.96 2 28 534.72 5 27 633.99 8:1 732.72 10 6 900.00 895.86 830.86 17 53 1000 O0 993.23 928.23 14 49 1100 O0 1088.97 1023.97 18 37 1200 O0 1182.92 1117.92 21 31 1300 O0 1274.60 1209.60 25 28 1400 O0 1363 24 1298.24 29 23 1500 O0 1449 02 1384.02 31 59 1600.00 1533 53 1468.53 33 11 170.0.0'0 1616 75 1551.75 34 6 )800.00 1697 31 1632.31 38 52 '1900.Q0 1773 39 1708.39 41 14 2000 O0 1848.69 1783 69 40 56 2100 O0 t923.76 1858 2200 O0 1996.74 1931 2300 O0 2067.99 2002 2400 O0 2i38.83 2073 2500 O0 2209.22 2144 2600 O0 2278.29 2213 2700 O0 2345.77 2280 2800.00 2412.61 2347 2900.00 2479.84 2414 3000 O0 2548 22 2483 22 46 37 3100 3200 3300 3400 3.500 3600 3700 3800 3900 O0 2617 O0 2688 O0 2758 , O0 2828 O0 2899 O0 2968 O0 3036 O0 3104 O0 3173 I 50 2552 03 2623 15 2693 61 2763 88 2834 59 2903 61 2971 73 3039 35 3108 N 0 0 E N 86 59 E N 84 8 E S 67 48 E N 1 57 E N 17 23 W N 25 27 W N 25 1W N 26 25 W N 26 38 W VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ, DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/IO0 FEET FEET FEET DEG MIN 0 O0 -0 23 -0 30 -0 44 -0 2.2 2 39 9 O2 20.92 36.68 55.65 "0 00: 0 O0 0 O0 0 O0 1 35 1 93 4 04 1 97 ~' 1 84 1 21 N 26 45 W 78.16 4.01 N 26 17 W 106.67 3.60 N 25 49 W 140.60 3.43 N 25 46 W 180.16 3.68 N 24 55 W 226.08 3.06 N 24 23 W 277.18 0.27 N 24 21 W 330.35 2.11 N 24 10 W 385.52 2.23 N 24 27 W 44~.40 4.63 N 24 0 W 508.96 0.44 N 23 52 W 574.48 76 42 22 N 23 56 W 640.25 74 44 9 N 23 46 W 708.31 99 44 42 N 23 36 W 778.20 83 44 58 N 23 32i'W 848.50 22 45 40 N 23 8 W 919.29 29 47 2 N 22 40 W 991.39 77 47 59 N 22 21 W 1065.01 61 48 14 N 21 55 W 1139,26 84 47 0 N 21 9 W 1213.17 ; 1 0 88 2 15 2 13 0 79 012 1 11 1 32 0 62 0 38 29 50 45 41 03 44 55 15 46 3 61 44 18 88 45 35 59 47 6 61 47 1 73 47 8 35 46 12 N 19 21 W 1286.10 N 18 41 W 1358.21 N 18 4 W 1429.10 N 16 37 W 1500.37 N 16 0 W 1571.27 N 15 24 W 1641.32 N 14 16 W 1713.82 N 14 12 W 1786.91 N 14 5 W 1859.90 N 13 6 W 1932.37 1 82 1 73 0 67 2 O2 1 24 3 O6 0 25 0 34 0 42 0 57 0.00 N 0.00 E 0.00 N 0 0 E 0.09 S 0.46 E 0.46 S 79 18 E 0.04 S 0.80 E 0.81 S 86 54 E 0.09 S 1.11 E 1.11 S 85 29 E 0.21 N 1.31 E 1.32 N 81 2 E 2.76 N 0.71 E 2.85 N 14 26 E 8,88 N 1,90 W 9.08 N 12 5 W 19,74 N 6,95 W 20,93 N 19 24 W 34,04 N 13,85 W 36,75 N 22 9 W 51, 18 N 22,43 W 55,87 N 23 40 W 32 69 W 78.59 N 24 35 W 45 57 W 107,38 N 25 7 W 60, 62 W 141,60 N 25 21 W 71 47 N 97 22 N 127 96 N 163 2O5 252 301 351 405 464 86 N; 77 66 N 97 40 N 119 08 N 141 65 N 163 56 N;188 72 N 214 99 W 181,48 N 25 27 W 78 W 227,72 N 25 26 W 13 W 279,10 N 25 16 W 20 W 332,54 N 25 8 W 94 W 387,98 N 25 0 W 36 W 447,16 N 24 55 W 99 W 512,04 N 24 50 W 524.87 N 241 67 W 577 84 N 24 43 W 585.29 N 268 647.78 N 296 712.06 N '.324 776.74 N 352 841.97 N 380 908.59 N 408 976.79 N 436 1045.71N 464 1114.51N ~92 39 W 643 10 W. 712 22 W 782 47 W 852 58 W 923 69 W 996 90 W 1070 88 W 1144 17 W 1218 89 N 24 38 W 24 N 24 34 W 40 N 24 29 W 97 N 24 24 W 99 N 24 19 W 28 N 24 13 W 04 N 24 6 W 39 N 23 58 W 35 N 23 5O W 1182 95 N 517 47 W 1291 18 N 23 38 W 1251 1318 1386 1454 1522 1592 1663 1734 1805 19 N 540 44 N 563 46 N 584 57 N 6O4 12 N 623 35 N 641 41N 659 40 N 677 10 N 694 79 W 1363 21W 1433 56 W 1504 43 W 1575 33 W 1644 90 W 1716 90 W 1789 78 W 1862 90 W 1934 06 N 23 23 W 70 N 23 8 W 65 N 22 52 W 16 N 22 34 W 81 N 22 16 W 86 N 21 57 W 53 N 21 38 w 13 N 21 21 W 24 N 21 3 W CONOCO, INC. ,i MILNE POINT UNIT G-B SCHRADER BLUFF NORTH SLOPE, ALASKA COMPUTATION DATE: 4-JUN-91 PAGE 2 DATE OF SURVEY: O1-JUN-1991 KELLY BUSHING ELEVATION: 65.00 F'T ENGINEER: CHENEVEY INTERPOLATED VALUES FOR EVEN 100 FEET OF MEASURED DEPTH ~TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN 4000.00 3242 82 3177.82 45 56 4100.00 33t:2 46 3247.46 45 46 4200.00 3382 33 3317.33 45 34 4300.00 3452 67 3387.67 45 2 4400.00 3523 46 3458 46 44 43 4500.:00 3595 47 3530 47 43 34 4600.00 3666 61 3601 61 45 44 4700.00 3736 44 , 3671 4,4 45 25 4800.00 3807.04 3742 04 44 32 4900.00 3879.27 3814 27 ,4~ 18 VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTION SEVERITY ,NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/IO0 FEET FEET FEET DEG MIN N 12 47 W 2003,95 N 12 47 W 2075 36 N 12 44 W 2146 53 N 12 39 W 2217 24 N 12 48 W 2287 5.1 N 12 23 W 2356 51 N 11 44 W 2426 34 N 11 13 W 2497 36 N 10 56 W 2567.59 N 10 5 W 2636.07 0 05: 1875.23 N 710.91 W 2005.46 N 20 46 W 0 0 0 1 1 0 0 1 18 45 2014 38 2084 65 2153 02 2220 86 2289 54 2359 87 2429 12 2497 1945 21 N 726,80 W 2076,56 N 20 29 W 99 N 742.60 W 2147.47 N 20 14 W 33 N 758.21 W 2217.95 N 19 59 W 22 N 773.79 W 2288.04 N 19 46 W 96 N 788.82 W 2356.88 N 19 33 W 67 N 803.53 W 2426.57 N 19 20 W 82 N 817.72 W 2497.49 N 19 7 W 32 N 831.36 W 2567.64 N 18 54 W 31 N 844.00 W 2636.08 N 18 40 W 5000.00 3951.98 3886.98 43 32 N 10 21W 2704.01 0.00 2564.88 N 856.2~ W 2704.01 N 18 28 W 5100.00 A02~,47....~9~7 ...... ~.._~2_,__hL_!~21_,~ .... 2~Z,_[.9 ..... -",,.-Q..,.Q,~ .....~632.65 N ..,~68~6~-.,W.,--27,72~,,.23--,,.N,.~i~.,~16, W ~'260--66 4096.96 4031.96 43 32 N 10 21 W 2840.37 0.00 ~TO~".~'T"'~~ 880 94 W 2840.47 N 18 Z~ 5300 O0 4169.45 4104.45 43 32 N 10 21W 2908 56 0 O0 2768.18 N 893 31W 2908 74 N 17 53 W 5400 O0 4241.94 ,4176.94 43 32 N 10 21W 2976 74 0 O0 2835.94 N 905 67 W 2977 05 N 17 43 W 5500 O0 4314.43 4249.43 43 32 N 10 21W 3044 92 0 O0 2903.71N 918 04 W 3045 38 N 17 33 W 5600 O0 4386.92 4321.92 43 32 N 10 21W 3113 10 0 O0 2971.47 N 930 41W 3113 73 N 17 23 W .. 5700 O0 4459.41 4394.41 43 32 N 10 21 W 3181 28 0 O0 3039.24 N 942 77 W 3182 11 N 17 14 W ~765 O0 4506.53 4441.53 43 32 N 10 21 W 322~ 60 0 O0 3083.29 N 950 81 W 3226 56 N 17 8 W CONOCO. INC. MILNE POINT UNIT SCHRADER BLUFF i ': NORTH SLOPE, ALASKA COMPUTATION DATE: 4-JUN-91 PAGE 3 DATE OF SURVEY; 01-JUN-I,991 KELLY BUSHING ELEVATION: 65.00 FT ENGINEER: CHENEVEY INTERPOLATED VALUES FOR EVEN 1000 FEET OF MEASURED DEPTH , ' , TRUE SUB-SEA COURSE VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH SECTION SEVERITY ,NORTH/SOUTH EAST/WEST DIST. AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN FEET DEG/IO0 FEET FEET FEET DEG MIN 0.00 0.00 ~65.00 0 0 N 0 0 E 0.00 1000;00 993,23 928.23 14 49 N 26 45 W 78,16 2000.00 1848.69 1783.69 40 56 N 23 52 W 574.48 3000.00 2548.22 2483.22 46 37 N 19 21W 1286.10 4000;.00 3242.82 3177.82 45 56 N 12 47 W 2003.9'5 · 5000.90 3951,.98 3886.98 43 32 N 10 21 W 2704.01 5765.00 4506.53 4441.53 43 32 N 10 21 W 3225.60 : . ,: , 0,00 0.00 N 0.00 E 0.00 N 0 0 E 4.01 71.47 N 32.69 W 78.59 N 24 35 W 0.88 524.87 N 241,67 W 577.84 N 24 43 W 1.82 1182.95 N 517.47 W 1291.18 N 23 38 W 0.05 1875.23 N 710,91 W 2005.46 N 20 46 W 0.00 2564.88 N 856.20 W 2704.01 N 18 28 W 0.00 3083.29 N 950.81 W 3226.56 N 17 8 W CONOCO, INC. MILNE POINT UNIT SCHRADER BLUFF NORTH SLOPE, ALASKA COMPUTATION DATE: 4-JUN-91 PAGE 4 DATE OF SURVEY: 01-JUN-1991 KELLY BUSHING ELEVATION: 65.00 P,T ENGINEER: CHENEVEY INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA DEPTH TRUE SUB-SEA COURSE VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH SECTION SEVERITY,NORTH/SOUTH EAST/WEST DIST, AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN FEET FEET FEET FEET DEG MIN 0.00 65.00 165.00 265.00 365.00 465.;02 0.00 -65 O0 65.00 0 O0 165.00 lO0 O0 265.00 200 O0 365.00 300 O0 465.00 400 O0 0 0 0 9 012 0 11 0 15 1 47 565.'15 565.00 500 O0 4 15 665.70 665.00 , 600 O0 7 19 766.79 765.00 ' 700 00 9 31 868.49 865.00 800 O0 ,1] 24 970.87 965.00 900.00 13 41 1074.77 1065.00 1000.00 17 38 1180.78 1165.00 1100.00 20 50 1289.37 1265.00 1200.00 25 4 1402.02 1365.00 .1300.00 29 27 1518.84 1465 O0 1400.00 31 56 1637.7.2 1565.00 1500.00 33 39 1759.05 '1665.00 1600.00 36 42 ]888.85 1765.00 1700.00 41 13 ~021.5,7 1865.00 1800.00 40 51 2156.1'3 1965.00 1900.00 434 2295.79 2065.00 2000 O0 44 40 2437.04 2165.00 2100 2580.54 2265.00 2200 2728.72 2365.00 2300 2878.17 2465.00 2400 3024,37 2565.00 2500 3167;48 2665.00 2600 3309.86 2765.00 2700 3450.77 2865.00 2800 3594 73 2965 O0 2900 O0 47 5 3741~ 3887 4,031 4175 4317 4457 4597 4740 488O 64 3065 93 3165 88 ,3265 23 3365 44 3465 94 3565 70 3665 61 3765 3865 I O0 3000 O0 3100 O0 3200 O0 3300 O0 34O0 O0 3500 O0 3600 O0 3700 O0 3800 O0 45 8 O0 46 45 O0 47 59 O0 47 18 O0 46 22 O0 44 57 O0 45 58 O0 44 17 O0 47 2 O0 46 14 O0 45 55 O0 45 38 O0 44 57 O0 43 42 O0 45 43 O0 45 13 O0 43 26 N 0 0 E S 89 20 E N 81 16 E 575 9 E N 32 55 E N 15 5 W N 24. 27 W N 24 49 W N 26 OW N 26 40 W 0 O0 -0 19 -0 28 -0 38 -0 44 1 09 6 12 16 38 31 07 49 35 N 26 53 W 71.06 N 26 31W 98.87 N 25 58 W 133.72 N 25 47 W 175.63 N 24 54 W 227,06 N 24 26 W 287.10 N 24 14 W 351.04 N 24 28 W 41~.38 N 24 2 W 501.65 N 23 52 W 588.53 N 23 57 W 678.16 N 23 35 W 775.25 N 23 22 W 874.62 N 22 44 W 977.21 N 22 12'W 1086.31 N 21 28 W 1197.17 N 18 59 W 1303.77 N 18 21 W 1406.13 N 16 28 W 1507.46 N 15 35 W 1606.63 N 14 18 W 1709.97 N 14 9 W 1817.28 N 13 11 W 1923.70 N 12 49 W 2026.74 N 12 46 W 2128.93 N 12 40 W 2229.52 N 12 26 W 2327.68 N 11 45 W 2424.70 N 11 9 W 2526.00 N 10 15 W 2622.73 DEG/1 O0 0 00: 0 58 0 O0 0 27 0 89 2 23 2 99 2 O0 ;'2 05 1 96 3 33 391 3 64 3 64 3 04 0 27 0 65 611 0 58 0 17 2 23 0 76 0 83 1 72 061 2 35 1 35 0 87 .. 2 35 ; 1 56 0 43 0 25 0 75 019 016 0 60 1 43 091 0 55 1 11 0 O0 N 0 09 S 0 06 S 0 06 S 0 04 S 1 51 N 6 24 N 15 59 N 28 96 N 45 49 N '65 07 N 9O 121 159 2O6 261 32O 382 458 537 0.00 E 0.33 E 0 0.69 E 0 1.03 E 1 1.26 E 1 1.08 E 1 0.65 W 6 5.02 W 16 11,35 W 3'1 0 O0 N 0 0 E 35 S 75 6 E 69 S 85 5 E 03 S 86 50 E 26 S 88 5 E 86 N 35 24 E 27 N 5 59 W 38 N 17 52 W 11 N 21 24 W 19.57 W 49 52 N 23 17 W 29.4~) W 71.43 N 24 21 W: 18 N 42.08 YV 99.51 N 25 1 W 72 N 57.59 W 134.66 N 25 19 W 75 N 76.01 W 176.92 N 25 27 W 56 N 98.19 W 228.71 N 25 26 W 48 N 123.25 W 289.07 N 25 14 W 03 N 149.75 W 353.34 N 25 5 W 66 N 177.95 W 422.01 N 24 56 W 01 N 212.00 W 504.70 N 24 50 W 78 N 247.38 W 591.95 N 24 42 W 620 09 N 283.86 W 681.97 N 24 36 W 709 800 895 996 1099 1199 1296 1393 1488 35 N 323 04 W 779 44 N 24 29 W 79 N 362 48 N 403 54 N 444 60 N 486 65 N 523 62 N 556 26 N 586 65 N 614 90 W, 879 20 W 982 99 W 1091 35 W 1202 26 W 1308 04 W 1410 58 W 1511 04 W 1610 18 N 24 23 W 07 N 24 14 W 37 N 24 4 W 35 N 23 52 W 80 N 23 34 W 82 N 23 13 W 70 N 22 50 W 32 N 22 25 W 1588 61 N 640 94 W 1713.04 N 21 58 W 1692 1796 1897 1997 2096 2192 2288 2388 2484 95 N 667 61 N 692 56 N 715 73 N 738 37 N 760 64 N 782 06 N 803 15 N 823 04 N 841 35 W 1819.73 N 21 31 W 93 W 1925.61 N 21 5 W 98 W 2028.15 N 20 40 W 70 W 2129.92 N 20 18 W 91 W 2230.19 N 19 57 W 59 W 2328.11 N 19 39 W 19 W 2424.94 N 19 21 W 32 W 2526.09 N 19 1 W 62 W 2622.75 N 18 43 W CONOCO, INC. MILNE POINT UNI~ G-8 SCHRADER BLUFF '~' NORTH SLOPE, ALASKA COMPUTATION DATE: 4-JUN-91 PAGE 5 DATE OF SURVEY: 01-JUN-1991 KELLY BUSHING ELEVATION: 65.00 FT ENGINEER: CHENEVEY INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA'DEPTH 'TRUE SUB-SEA COURSE VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN FEET DEG/100 FEET FEET FEET DEG MIN 5017.96 3965.00 3900 O0 43 32 N 10 21 W 2716 26 5155:.91 4065.00 4000 5293.86 4165.00 4100 5431.81 4265.0Q 4200 5569.76 4365.00 4300 5707.71 4465.00 4400 5765.'00 4506.53 4441 O0 43 32 N 10 21 W 2810 O0 43 32 N 10 21 W 2904 O0 43 32 N 10 21 W 2998 O0 43 32 N 10 21 W 3092 O0 43 32 N 10 21 W 3186 53 43 32 N 10 21 W 3225 31 37 43 48 54 60 0 00: 2577.05 N 858.43 W 2716 27 N 18 25 W 0 O0 2670.54 N 875.49 W 2810 38 N 18 9 W 0 O0 2764.02 N 892.55 W 2904 55 N 17 54 W 0 O0 2857.50 N 909.61 W 2998 78 N 17 39 W 0 O0 2950.98 N 926.67 W 3093 06 N 17 26 W 0 O0 3044.46 N 943.73 W 3187 38 N 17 13 W 0 O0 3083.29 N 950.81 W 3226 56 N 17 8 W ,, CONOCO, INC. , MILNE POINT UNIT G'8 SCHRADER BLUFF NORTH SLOPE, ALASKA MARKER GCT LAST READING DRILLER'S DEPTH ,, COMPUTATION DATE: 4-JUN-91 INTERPOLATED VALUES FOR CHOSEN HORIZONS DATE OF SURVEY: KELLY BUSHING ELEVATION: ENGINEER: PAGE 6 01-JUN-1991 65.00 F~ CHENEVEY SURFACE LOCATION = 3176' FNL, 3459' FEL,, 5EC27 T13N RIOE MEASURED DEPTH TVD RECTANGULAR COORDINATE5 BELOW KB FROM KB SUB-SEA NORTH/SOUTH EAST/WEST 4962.09 3924.50 3859.50 2539.18 N 851,51 W 5765.00 4506.53 4441.53 3083,29 N 950.81 W CONOCO, INC. MILNE POINT UNIT G-8 SCHRADER BLUFF NORTH SLOPE, ALASKA MARKER DRILLER'S DEPTH COMPUTATION DATE: ************ STRATIGRAPHIC SURFACE MEASURED DEPTH BELOW KB 5765,00 4-JUN-91 KELLY SUMMARY ************ LOCATION = 3176' FNL, TVD FROM KB SUB-SEA , 4506.53 4441.53 3459' FINAL WELL LOCATION AT TD: TRUE SUB-SEA MEASURED VERTICAL VERTICAL DEPTH DEPTH DEPTH 5765.00 4506.53 4441.53 HORIZONTAL DEPARTURE DISTANCE AZIMUTH FEET DEG;' MIN 3226,56 N 17 8 W DATE OF SURVEY: BUSHING ELEVATION: ENGINEER: PAGE 7 01-JUN-1991 65,00 F~ CHENEVE¥ FEL,, SEC27 T13N RIOE RECTANGULAR COORDINATES NORTH/SOUTH EAST/WEST 3083.29 N 950.81 W SUB - S URFA CE DIRECTIONAL SURVEY ~'~ UIDANCE ~'~ ONTINUOUS ~ OOL Company CONOCO INC. Well Name MPU G-8 (3176' FNL, 3459' FEL, SEC 27, T13N, R10E) Field/Location SCHRADER BLUFF, NORTH SLOPE, ALASKA Job Reference No. 74608 Logged CHENEVEY Date 01-JUN-91 Computed By DEES SCHLUMBERGER * GCT DIRECTIONAL SURVEV CUSTOMER LISTING FOR CONOCO, INC. MILNE POINT UNIT G-8 SCHRADER BLUFF NORTH SLOPE, ALASKA SURVEY DATE: 01-JUN-1991 METHODS OF COMPUTATION TOOL LOCATION: INTERPOLATION: VERTICAL SECTION: TANGENTIAL- LINEAR HORIZ. DIST. ENGINEER: CHENEVEY Average~ Oeviation anO azimuth PROJECTED ONTO A TARGET AZIMUTH OF NORTH 18 DEG 32 MIN WEST COMPUTATION DATE: 4-JUN-91 PAGE 1 CONOCO, INC. MILNE POINT UNIT G-8 SCHRADER BLUFF NORTH SLOPE, ALASKA DATE OF SURVEY: 01-JUN-1991 KELLY BUSHING ELEVATION: 65.00 FT ENGINEER: CHENEVEY INTERPOLATED VALUES FOR EVEN 100 FEET OF MEASURED DEPTH TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH 'FEET DEG/IO0 FEET FEET FEET DEG MIN 0.00 0.00 100.00 100.00 200.00 200.00 300.00 300.00 400.00 400.00 500.00 499.96 600.00 599.72 700.00 698.99 800.00 797.72 900.00 895.86 -65.00 0 0 N 0 0 E 35,00 0 13 N 86 59 E 135.00 0 11 N 84 8 E 235.00 0 8 S 67 48 E 335.00 0 37 N 1 57 E 434.96 2 28 N 17 23 W 534.72 5 27 N 25 27 W 633.99 8 1 N 25 1 W 732.72 10 6 N 26 25 W 830.86 11 53 N 26 38 W 0.00 -0.23 -0.30 -0.44 -0.22 2.39 9.02 20.92 36.68 55.65 0 O0 0 O0 0 O0 0 O0 1 35 1 93 4 04 1 97 1 84 1 21 0.00 N 0.09 S 0.04 S 0.09 S 0.21 N 2.76 N 8.88 N 19.74 N 34.04 N 51.18 N 0 oo E 0 46 E 0 80 E 1 11 E 1 31 E 071 E I 90 W 6.95 W 13.85 W 22.43 W 0.00 N 0 0 E 0.46 S 79 18 E 0.81 S 86 54 E 1.11 S 85 29 E 1.32 N 81 2 E 2.85 N 14 26 E 9.08 N 12 5 W 20.93 N 19 24 W 36.75 N 22 9 W 55.87 N 23 40 W 1000.00 993.23 928.23 14 49 1100.00 1088.97 1023.97 18 37 1200.00 1182.92 1117.92 21 31 1300.00 1274.60 1209.60 25 28 1400 O0 1363.24 1298.24 29 23 1500 O0 1449.02 1384.02 31 59 1600 O0 1533.53 1468.53 33 11 1700 O0 1616.75 1551,75 34 6 1800 O0 1697.31 1632.31 38 52 1900 O0 1773.39 1708.39 41 14 N 26 45 W 78.16 N 26 17 W 106.67 N 25 49 W 140.60 N 25 46 W 180.16 N 24 55 W 226.08 N 24 23 W 277.18 N 24 21 W 330.35 N 24 10 W 385.52 N 24 27 W 444.40 N 24 0 W 508.96 4.01 3.60 3.43 3.68 3.06 0.27 2.11 2.23 4.63 0.44 71 47 N 32.69 W 78.59 N 24 35 W 97 22 N 45.57 W 107.38 N 25 7 W 127 96 N 60,62 W 141.60 N 25 21 W 163 86 N 77.99 W 181.48 N 25 27 W 205 66 N 97.78 W 227.72 N 25 26 W 252 40 N 119.13 W 279.10 N 25 16 W 301 08 N 141,20 W 332,54 N 25 8 W 351 65 N 163,94 W 387.98 N 25 0 W 405 56 N 188.36 W 447.16 N 24 55 W 464.72 N 214.99 W 512.04 N 24 50 W 2000 O0 1848 69 1783 69 40 56 2100 2200 2300 2400 2500 2600 2700 2800 2900 O0 1923 O0 1996 O0 2067 O0 2138 O0 2209 O0 2278 O0 2345 O0 2412 O0 2479 76 1858 74 1931 99 2002 83 2073 22 2144 29 2213 77 2280 61 2347 84 2414 76 42 22 74 44 9 99 44 42 83 44 58 22 45 40 29 47 2 77 47 59 61 48 14 84 47 0 N 23 52 W N 23 56 W N 23 46 W 708 N 23 36 W 778 N 23 32 W 848 N 23 8 W 919 N 22 40 W 991 N 22 21W 1065 N 21 55 W 1139 N 21 9 W 1213 574.48 640 25 31 20 50 29 39 O1 26 17 0 88 2 15 2 13 0 79 012 1 11 1 32 0.62 0.38 1 .29 524.87 N 241 67 W 577.84 N 24 43 W 585.29 N 268 647.78 N 296 712.06 N 324 776.74 N 352 841.97 N 380 908.59 N 408 976.79 N 436 1045.71N 464 1114.51N 492 39 W 643.89 N 24 38 W 10 W 712.24 N 24 34 W 22 W 782.40 N 24 29 W 47 W 852.97 N 24 24 W 58 W 923.99 N 24 19 W 69 W 996.28 N 24 13 W ,90 W 1070.04 N 24 6 W 88 W 1144.39 N 23 58 W 17 W 1218.35 N 23 50 W 3000 O0 2548 22 2483 22 46 37 3100 3200 3300 3400 3500 3600 3700 3800 3900 O0 2617 O0 2688 O0 2758 O0 2828 O0 2899 O0 2968 O0 3036 O0 3104 O0 3173 5O 2552 03 2623 15 2693 61 2763 88 2834 59 2903 61 2971 73 3039 50 45 41 03 44 55 15 46 3 61 44 18 88 45 35 59 47 6 61 47 1 73 47 8 35 3108.35 46 12 N 19 21 W 1286.10 N 18 41 W 1358 21 N 18 4 W 1429 10 N 16 37 W 1500 37 N 16 0 W 1571 27 N 15 24 W 1641 32 N 14 16 W 1713 82 N 14 12 W 1786.91 N 14 5 W 1859.90 N 13 6 W 1932.37 1 .82 1 .73 0.67 2.02 1 .24 3.06 0.25 0.34 0.42 0.57 1182.95 N 517,47 W 1291 18 N 23 38 W 1251.19 N 540 1318.44 N 563 1386,46 N 584 1454.57 N 604 1522.12 N 623 1592.35 N 641 1663.41N 659 1734.40 N 677 1805.10 N 694 79 W 1363 21W 1433 56 W 1504 43 W 1575 33 W 1644 90 W 1716 ,90 W 1789 78 W 1862 90 W 1934 06 N 23 23 W 70 N 23 8 W 65 N 22 52 W 16 N 22 34 W 81 N 22 16 W 86 N 21 57 W 53 N 21 38 w 13 N 21 21 W 24 N 21 3 W CONOCO, INC. MILNE POINT UNIT G-8 SCHRADER BLUFF NORTH SLOPE, ALASKA COMPUTATION DATE: 4-JUN-91 PAGE 2 DATE OF SURVEY: 01-JUN-1991 KELLY BUSHING ELEVATION: 65.00 FT ENGINEER: CHENEVEY INTERPOLATED VALUES FOR EVEN 100 FEET OF MEASURED DEPTH TRUE SUB-SEA COURSE VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN FEET DEG/IO0 FEET FEET FEET DEG MIN 4000 O0 3242.82 3177.82 45 56 N 12 47 W 2003.95 4100 4200 4300 4400 4500 4600 4700 4800 4900 O0 3312.46 3247,46 45 46 N 12 47 W 2075.36 O0 3382.33 3317.33 45 34 N 12 44 W 2146.53 O0 3452.67 3387.67 45 2 N 12 39 W 2217.24 O0 3523.46 3458 46 44 43 N 12 48 W 2287.51 O0 3595.47 3530 47 43 34 N 12 23 W 2356.51 O0 3666.61 3601 61 45 44 N 11 44 W 2426.34 O0 3736.44 3671 44 45 25 N 11 13 W 2497,36 O0 3807.04 3742 04 44 32 N 10 56 W 2567.59 O0 3879.27 3814 27 43 18 N 10 5 W 2636.07 · 0.05 1875 23 N 710 91 W 2005 46 N 20 46 W 0,18 1945 21 N 726 80 W 2076 56 N 20 29 W 0.45 2014 99 N 742 60 W 2147 47 N 20 14 W 0.38 2084 33 N 758 21 W 2217 95 N 19 59 W 1.65 2153 22 N 773 79 W 2288 04 N 19 46 W 1.02 2220 96 N 788 82 W 2356 88 N 19 33 W 0.86 2289 67 N 803 53 W 2426 57 N 19 20 W 0.54 2359.82 N 817.72 W 2497 49 N 19 7 W 1.87 2429.32 N 831.36 W 2567.64 N 18 54 W 1.12 2497.31 N 844.00 W 2636.08 N 18 40 W 5000.00 3951.98 3886.9.8 43 32 N 10 21 W 2704.01 O.QO ...... 25.64,88. N 856.20 W 2704.01 N 18 ~~7 3959.47 ~--~; ...... ~200.00 4096 ~ 4'~"~'~'~ 43 32 N 10 21 W 2840.37 0.00 27007-91--N 880.94 W 2840.47 N 18 4 W 5300.00 4169 45 4104.45 43 32 N 10 21 W 2908.56 0.00 2768.18 N 893.31 W 2908.74 N 17 53 W 5400.00 4241 94 4176.94 43 32 N 10 21 W 2976.74 0.00 2835.94 N 905.67 W 2977,05 N 17 43 W 5500.00 4314 43 4249.43 43 32 N 10 21 W 3044.92 0.00 2903.71 N 918.04 W 3045.38 N 17 33 W 5600.00 4386 92 4321.92 43 32 N 10 21 W 3113.10 0.00 2971.47 N 930.41 W 3113.73 N 17 23 W 5700.00 4459 41 4394,41 43 32 N 10 21 W 3181.28 0.00 3039,24 N 942.77 W 3182.11 N 17 14 W 5765.00 4506 53 4441.53 43 32 N 10 21 W 3225.60 0.00 3083.29 N 950.81 W 3226.56 N 17 8 W COMPUTATION DATE: 4-JUN-91 PAGE 3 CONOCO, INC. M[LNE POINT UNIT G-8 SCHRADER BLUFF NORTH SLOPE, ALASKA DATE OF SURVEY: 01-JUN-1991 KELLY BUSHING ELEVATION: 65.00 FT ENGINEER: CHENEVEY INTERPOLATED VALUES FOR EVEN 1000 FEET OF MEASURED DEPTH TRUE SUB-SEA COURSE VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN FEET DEG/IO0 FEET FEET FEET DEG MIN 0.00 0.00 -65 O0 0 0 N 0 0 E 0.00 1000.00 993.23 928 23 14 49 N 26 45 W 78.16 2000.00 1848.69 1783 69 40 56 N 23 52 W 574.48 3000.00 2548.22 2483 22 46 37 N 19 21 W 1286.10 4000.00 3242.82 3177 82 45 56 N 12 47' W 2003.95 5000.00 3951.98 3886 98 43 32 N 10 21 W 2704.01 5765.00 4506.53 4441 53 43 32 N 10 21 W 3225.60 0.00 0 O0 N 0.00 E 0.00 N 0 0 E 4.01 71 47 N 32.69 W 78.59 N 24 35 W 0.88 524 87 N 241.67 W 577.84 N 24 43 W 1.82 1182 95 N 517.47 W 1291.18 N 23 38 W 0.05 1875 23 N 710.91 W 2005.46 N 20 46 W 0.00 2564 88 N 856.20 W 2704.01 N 18 28 W 0.00 3083 29 N 950.81 W 3226.56 N t7 B W COMPUTATION DATE: 4-JUN-91 PAGE 4 CONOCO, INC. MILNE POINT UNIT G-8 SCHRADER BLUFF NORTH SLOPE, ALASKA DATE OF SURVEY: 01-JUN-1991 KELLY BUSHING ELEVATION: 65.00 FT ENGINEER: CHENEVEY INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA DEPTH TRUE SUB-SEA COURSE VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH. SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN FEET DEG/IO0 FEET FEET FEET DEG MIN 0 O0 65 165 265 365 465 565' 665 766 868 0.00 -65.00 0 0 N 0 0 E O0 65.00 0.00 0 9 S 89 20 E O0 165.00 100.00 0 12 N 81 16 E O0 265.00 200.00 0 11 S 75 9 E O0 365 O0 300.00 0 15 N 32 55 E 02 465 O0 400.00 1 47 N 15 5 W 15 565 O0 500.00 4 15 N 24,27 W 70 665 O0 600.00 7 19 N 24 49 W 79 765 O0 700,00 9 31 N 26 0 W 49 865 O0 800.00 11 24 N 26 40 W 0.00 -0.19 -O.28 -0.38 -0.44 1.09 6.12 16.38 31.07 49.35 0 O0 0 58 0 O0 0 27 0 89 2 23 2 99 2.00 2.05 1 .96 0 1 6 15 28 45 0 O0 N 0 09 S 0 06 S 0 06 S O4 S 51N 24 N 59 N 0.00 E 0.00 N 0 0 E 0.33 E 0.35 S 75 6 E 0.69 E 0.69 S 85 5 E 1.03 E 1.03 S 86 50 E 1,26 E 1.26 S 88 5 E 1.08 E 1.86 N 35 24 E 0.65 W 6.27 N 5 59 W 5.02 W 16.38 N 17 52 W 96 N 11.35 W 31.11 N 21 24 W 49 N 19.57 W 49.52 N 23 17 W 970.87 965.00 900.00 13 41 N 26 53 W 1074.77 1065 O0 1000.00 17 38 N 26 31 W 1180.78 1165 1289.37 1265 1402.02 1365 1518.84 1465 1637.72 1565 1759.05 1665 1888.85 1765 2021.57 1865 71.06 98.87 O0 1100.00 20 50 N 25 58 W 133.72 O0 1200.00 25 4 N 25 47 W 175.63 O0 1300.00 29 27 N 24 54 W 227.06 O0 1400.00 31 56 N 24 26 W 287,10 O0 1500.00 33 39 N 24 14 W 351.04 O0 1600.00 36 42 N 24 28 W 419,38 O0 1700.00 41 13 N 24 2 W 501.65 O0 1800.00 40 51 N 23 52 W 588.53 3.33 3.91 3.64 3.64 3.04 0.27 0.65 6.11 0.58 0.17 65 . 07 N 29 . 46 W 71 . 43 N 24 21 W 90. 18 N 42.08 W 99.51 N 25 1 W 121,72 N 57.59 W 134.66 N 25 19 W 159.75 N 76.01 W 176,92 N 25 27 W 206.56 N 98.19 W 228.71 N 25 26 W 261.48 N 123.25 W 289.07 N 25 14 W 320.03 N 149.75 W 353.34 N 25 5 W 382.66 N 177.95 W 422.01 N 24 56 W 458.01 N 212.00 W 504.70 N 24 50 W 537.78 N 247,38 W 591.95 N 24 42 W 2156 13 1965.00 1900.00 43 4 N 23 57 W 678 16 2295 2437 04 2165.00 2100 2580 54 2265.00 2200 2728 72 2365.00 2300 2878 17 2465.00 2400 3024 37 2565.00 2500 3167 48 2665.00 2600 3309.86 2765.00 2700 3450.77 2865.00 2800 79 2065.00 2000 O0 44 40 N 23 35 W 775 O0 45 8 N 23 22 W 874 O0 46 45 N 22 44 W 977 O0 47 59 N 22 12 W 1086 O0 47 18 N 21 28 W 1197 O0 46 22 N 18 59 W 1303 O0 44 57 N 18 21 W 1406 O0 45 58 N 16 28 W 1507 O0 44 17 N 15 35 W 1606 25 62 21 31 17 77 13 46 63 2.23 620.09 N 283.86 W 681.97 N 24 36 W 0.76 709.35 N 323.04 W 779.44 N 24 29 W 0.83 800,79 N 362,90 W 879.18 N 24 23 W 1,72 895,48 N 403.20 W 982.07 N 24 14 W 0.61 996.54 N 444.99 W 1091.37 N 24 4 W 2.35 1099.60 N 486.35 W 1202.35 N 23 52 W 1.35 1199,65 N 523.26 W 1308.80 N 23 34 W 0.87 1296.62 N 556.04 W 1410.82 N 23 13 W 2.35 1393.26 N 586,58 W 1511.70 N 22 50 W 1.56 1488.65 N 614.04 W 1610.32 N 22 25 W 3594.73 2965.00 2900 O0 47 5 N 14 18 W 1709 97 3741 64 3065,00 3000 3887 4031 4175 4317 4457 4597 4740 488O 93 3165.00 3100 88 3265.00 3200 23 3365.00 3300 44 3465.00 3400 94 3565.00 3500 70 3665.00 3600 61 3765.00 3700 37 3865.00 3800 O0 47 2 N 14 9 W 1817 O0 46 14 N 13 11 W 1923 O0 45 55 N 12 49 W 2026 00 45 38 N 12 46 W 2128 O0 44 57 N 12 40 W 2229 O0 43 42 N 12 26 W 2327 O0 45 43 N 11 45 W 2424 O0 45 13 N 11 9 W 2526 O0 43 26 N 10 15 W 2622 28 7O 74 93 52 68 70 O0 73 0.43 1588.61 N 640.94 W 1713 04 N 21 58 W 0.25 1692.95 N 667.35 W 1819 0.75 1796.61 N 692.93 W 1925 0,19 1897.56 N 715.98 W 2028 0.16 1997.73 N 738.70 W 2129 0.60 2096.37 N 760.91 W 2230 1.43 2192,64 N 782.59 W 2328 0.91 2288,06 N 803,19 W 2424 0.55 2388.15 N 823.32 W 2526 1.11 2484.04 N 841.62 W 2622 73 N 21 31W 61 N 21 5 W 15 N 20 40 W 92 N 20 18 W 19 N 19 57 W 11 N 19 39 W 94 N 19 21W 09 N 19 1W 75 N 18 43 W COMPUTATION DATE: 4-JUN-g1 PAGE 5 CONOCO, INC. MILNE POINT UNIT G-8 SCHRADER BLUFF NORTH SLOPE, ALASKA DATE OF SURVEY: 01-JUN-1991 KELLY BUSHING ELEVATION: 65.00 FT ENGINEER: CHENEVEY INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA DEPTH TRUE SUB-SEA COURSE VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN FEET DEG/IO0 FEET FEET FEET DEG 5017.96 3965.00 3900,00 43 32 N 10 21 W 2716,26 5155.91 4065,00 4000.00 43 32 N 10 21 W 2810.31 5293.86 4165.00 4100.00 43 32 N 10 21 W 2904.37 5431.81 4265.00 4200.00 43 32 N 10 21 W 2998.43 5569.76 4365,00 4300.00 43 32 N 10 21 W 3092.48 5707.71 4465.00 4400.00 43 32 N 10 21 W 3186.54 5765.00 4506.53 4441.53 43 32 N 10 21 W 3225,60 0.00 2577.05 N 858.43 W 2716 27 N 18 25 W 0.00 2670.54 N 875.49 W 2810 38 N 18 9 W 0.00 2764.02 N 892.55 W 2904 55 N 17 54 W 0.00 2857.50 N 909,61 W 2998 78 N 17 39 W 0.00 2950,98 N 926,67 W 3093 06 N 17 26 W 0.00 3044.46 N 943,73 W 3187 38 N 17 13 W 0.00 3083.29 N 950,81 W 3226 56 N 17 8 W CONOCO, INC. MILNE POINT UNIT G-8 SCHRADER BLUFF NORTH SLOPE, ALASKA MARKER GCT LAST READING DRILLER'S DEPTH COMPUTATION DATE: 4-JUN-91 PAGE 6 DATE OF SURVEY: 01-JUN-1991 KELLY BUSHING ELEVATION: 65.00 FT ENGINEER: CHENEVEY INTERPOLATED VALUES FOR CHOSEN HORIZONS SURFACE LOCATION = 3176' FNL, 3459' FEL,, SEC27 T13N RIOE MEASURED DEPTH TVD RECTANGULAR COORDINATES BELOW KB FROM KB SUB-SEA NORTH/SOUTH EAST/WEST 4962,09 3924.50 3859,50 2539,18 N 851,51W 5765.00 4506.53 4441,53 3083,29 N 950.81W CONOCO, INC. MILNE POINT UNIT G-8 SCHRADER BLUFF NORTH SLOPE, ALASKA MARKER DRILLER'S DEPTH COMPUTATION DATE: 4-JUN-91 STRATIGRAPHIC SUMMARY MEASURED DEPTH BELOW KB 5765.00 DATE OF SURVEY: KELLY BUSHING ELEVATION: ENGINEER: PAGE 01-JUN-1991 65.00 FT CHENEVEY SURFACE LOCATION = 3176' FNL, 3459' FEL,, SEC27 T13N RIOE TVD RECTANGULAR COORDINATES FROM KB SUB-SEA NORTH/SOUTH EAST/WEST 4506.53 4441,53 3083.29 N 950.81 W FINAL WELL LOCATION AT TD: TRUE SUB-SEA MEASURED VERTICAL VERTICAL DEPTH DEPTH DEPTH HORIZONTAL DEPARTURE DISTANCE AZIMUTH FEET DEG MIN 5765.00 4506.53 4441.53 3226.56 N 17 8 W SCHLUMBERGER O I RE C T I ONAL SURVEY COMPANY CONOCO, I NC. WELL . MILNE POINT UNIT 0-8 FIELD SCHRADER BLUFF COUNTRY USA RUN ONE DATE LOOOEO Oi - JUN - 9i REFERENCE 74608 WELL: MPU G-8 ~-", , (317t~' FNL. 3459' FEL, SEC 2). 13N, R10E) VERTICAL PROJECTION 161 . -2000 -1000 0 0 1000 2000 3000 4000 5000 · -...?*!---?~*-.f-.-.~.--?'---*:--. ,, ...... HH-?'--+*--[--*t*---;.--,?' ..- .* ...... 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SCHLUMBERGER WELL SERVICES Pouch 340069 Prudhoe Bay, AK 99734-0069 Attn: Bernie/Shelley CONOCO, Inc. 3201 "C" Street, Suite 200 Anchorage, AK 99503 Attention: Van Ltneberger Gentlemen: BGT, Run 2, 6/01/91 Enclosed ore 2 BLprints of the GCT, Run 2~, 6/01/91 Company CONOCO, Inc. ..~..: ../,~, ... Well Milne Point Unit G'8 Field Milne Point/Schradar B]_,ff C~unty~°rth Slope Additional prints ore being sent to: I BL nrints CONOCO, Inc. 600 North Dairy Ashford Houston, TX 77079 Attn: George Lamb - OF 2018 PER <;tote_. Alaska 1 BL prints, 1 RF Sepia CONOCO, Inc. 1000 South Pine Ponca City, OK 74603 Attn: Glenn Welch 7360RDW on: ,o 1 BL prints, 1 RF Sepia OXY U.S.A., Inc. 6 Desta Drive Midland, TX 79710 Attn: John Carrol *(915/685-5898) 1BL prints, 1RF Sepia Chevron U.S.A. 11111 South Wilcrest Hosuton, TX 77099 Attn: .priscilla..MacLeroy *(713/561-3652) BL 'n s, 'a A~k~ OiI & GasGonse~~ Commission .. ( 3OO1 Porcupine Drive ~ .. ~Ancho'~a~e. - AK 99501 ~ .. lktt.~__n: John Boyle ~ / The film is returned to CONOCO, Ponca City. We oppreciote the privilege of serving you. -0- prints 1 BGT Reel Chevron U.S.A. P 0 Box 5042 San Ramon, CA 94583-0942 ATTN: Norm.Stone prints prints Received by: JUN 11 1991 .. A/aska 0ii & Gas Cons. Comm!$s!0r. Da t e: Anch0rage Very truly yours, SCHLUMBERGER WELL SERVICES Raymond N. Dickes DISTRICT MANAGER E~W$-- t 327-F SCHLUMBERGER WELL SERVICES A DIVISION OF SCHLUMBERGER TECHNOLOGY CORPORATION HOUSTON. TEXAS 77251-2175 PI. EASE REPLY TO Pouch 340069 Prudhoe Bay, AK 99734-0069 Attn.' Bernie/Shelley CONOCO, Inc. 3201 "C" Street, Suite 200 Anchorage, AK 99503 Attention:_ Van Lineberger / I" / Gentlemen: D~TE.: CNL(RAW), CNL(PORO), Enclosed ore 2 BLprints of the. C'~berlook, Run l; 5/28/9! Compony CONOCO, Thc. Milne Point Unit G-8 Well Field Milne Point/Schrader Bluff Additionol prints ore being sent to: 1 BL nrints CONOCO, Inc. 600 North D~i~y Ashford Houston, TX 77079 Attn: George Lamb - OF 2018 PER on: County North Slope Stote_. Alaska _ 1BL prints, I RF Sepia CONOCO, Inc. 1000 South Pine Ponca City, OK 74603 Attn: Glenn Welch 7360RDW 1 BL prints, I RF Sepia OXY U.S.A., Inc. 6 Desta Drive Midland, TX 79710 Attn: John Carrol *(915/685-5898) 1BL prints, I RF Sepia Chevron U.S.A. 11111 South Wilcrest Hosuton, TX 77099 Attn: Priscilla MacLeroy *(713/561-3652) .Alaska Oil & Gas Conservation ~ Commission ~ - /30'01 porcupine Drive /Anchorage;- AK 99501 / \Attn: ~o~n Boyle ~~ to CONOCO,, Ponca City. We oppreciote the privilege of serving you. 0 prints 1 Reel Chevron U.S.A. P 0 Box 5042 San Ramon, CA 94583-0942 ATTN: Norm Ston~ prints prints Received by; · . o Very truly yours, SCHLUMBERGER WELL SERVICES Raymond N. Dickes DISTRICT MANAGER SWS-- ! 327-F CONOCO, Inc. 3201 "C" Street, Suite 200 SCHLUMBERGER WELL SERVICES A DIVISION OF ~CHLUMBEFIGER T~CHNOLOGY CORPORA~ HOUSTON. T~XA$ 77251-2175 ~CHLUMBERGER WELL ~ERVICES ~.:~Y ~ 9 ~.q. 1 Pouch 340069 Prudhoe Bay, AE 99734-0069 Attn: Bernie/Shelley Rnchorase :. .AK .. 99503 Attention: .. Van Llneberger Gentlemen: Enclosed ore 2 BLprints of the. Company CONOCO, Inc. BGT, RUn 1,.5/25/91 on: Well Milne Point Unit G-8 Field Mllne Point/Schrader Bluff Additional prints ore being sent to: I BL nrints cONOGS, Inc. 600 No____~rth. Dairy Ashford Houston, TX 77079 Attn: George Lamb - OF 2018 PER County North Slope State Alaska I BL prints, I RP Sepia CONOCO, Inc. 1000 South Pine ..... Ponca City, OK 74603 Attn: Glenn Welch 736ORDW I BL prints, I RF Sepia OXY U.S.A., Inc. 6 Desta Drive Mid]and, TX 79710 Attn: John Carrol *(915/685-5898), I BL Prints, I R~ Sepia Chevron U.S.A. 11111 South Wllcrest Hosuton, TX 77099 Attn: Priscilla MacLeroy *(713/561-3652) I BL ~ KF e A~a~ Oil ~ Cas. Conservation~'~ 3'C°mmtssi°n j 001 Porcupine Drive )' ~ Anchorage.- AK 99501 /f ~Attn: Jo~n Boyle .. ' - The film is returned to CONOCO, Ponca City. We oppreciote the privilege of serving you. prints prints prints .ECEiVFD JUN 0 ~ 199t Received by: A;aska O~l & Sas Cone- CnmmissioII Date: Very truly yours, SCHLUMBERGER WELL SERVICES Raymond N. Dickes DISTRICT MANAGER SWS-- 1327-F ALASKA OIL AND GAS CONSERVATION COMMISSION April 8, 1991 WALTER J. HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 276-7542 R. S. Rossberg Senior Drilling Engineer Conoco Inc. 3201 C Street, Suite 200 Anchorage, AK 99503 Re: Milne Point Unit G-8 Revised Conoco Inc. Permit No. 91-26 Rev Sur. Loc. 3176'FNL, 3459'FEL, Sec. 27, T13N, R10E Btmhole Loc. 44'FNL, 4443'FEL, Sec. 27, T13N, R10E Dear Mr. Rossberg: Enclosed is the approved revised application for permit to drill the above referenced well. The provisions of the original approved permit dated February 22, 1991 are in effect for this revision. Sincerely, Alaska Oil ~s Conservation Commission dlf Enclosures CC: Department of Fish & Game, Habitat Section w/o encl. Department of Environmental Conservation w/o encl. Conoco Inc. Suite 200 3201 C Street Anchorage, AK 99503 (907) 564-7600 April 4, 1991 David W. Johnston Commissioner Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive Anchorage, Alaska 99501-1433 RE: Milne Point Unit Wells G-5, G-6, G-7, and G-8 Revised Applications for Permit to Drill RECEIVED APR - 5 t991 Alaska Oil & Gas Cons. CommissiOn Anchorage Dear Mr. Johnston: Attached are revised Applications for Permit to Drill (Forms 401 and attachments) requesting approval to drill Milne Point Unit wells G-5, G-6, G-7 and G-8, located in tract 14 of the Milne Point Unit. The Commission had previously issued permits to drill these wells on February 22, 1991. The proposed revisions are being submitted to reflect changes in surface location. In addition to the surface location, the target and bottom- hole location was changed for well G-6. Surface location changes were necessary to minimize modifications to the flowlines and to more readily accommodate future workover operations on the existing pads. The changed bottom-hole location in well G-6 is based on revised structural interpretation. If there are any questions pertaining to these wells please call me at 564-7637 or Mike Stockinger at 564-7609. Very truly Yours, Sr. Drilling Engineer RSR/jcd cc: MPS file: 500.21.08 C :\data\wp51 \rsr\revgpad ~,.,,. b IAi 1-- UP ALASKA ALASK~ )IL AND GAS CONSERVATION ¢~'MMISSION PERMIT TO DRILL 20 AAC 25.005 la. Type of work Drill X Redrill _--] lb. Type of well. Exploratory ~_ Straticjraphic Test ~ Development Oil Re-Entry - DeepenEZ~ Service - Developement Gas ~ Single Zone ~ Multiple Zone ~:: 2. Name of Operator 5. Datum Elevation (DF or KB) 10. Field and Pool Conoco Inc. KB 35' AGL feet ~uparuk River Field 3. Address 99503 6. Property Designation ~chrader Bluff Pool 3201 C Street, Suite 200, A~chorage, Alaska ADL 25906 4. Location of well at surface 7. Unit or property Name 11. Type Bond(see 2o A^c 25.02m 3176' FNL, 3459' FEL, SEC. 27, T13N, RIOE, Milne Point Unit Blanket At top of productive interval U.M., NSB, AK 8. Well number Number 500' FNL, 4300' FEL, SEC. 27, T13N, RIOE G-8 8086-15-54 At total depth 9. Approximate spud date Amount 44' FNL, 4443' FEL, SEC. 27, T13N, RIOE MaY 1, 1991 $200,000 12. Distance to nearest 13. Distance to nearest well 14. Number of acres in property 15. Proposed depth (MD and 'rvo) property line 6260 feet 60 feet 2560 5796'M~/4494'TV~ feet 16. To be completed for deviated wells 17. Anticipated pressure (see 20 AAC 25.035 Kickoff depth 500 feet Maximum hole angle 46 0 Maximum surface 1850 ps~g At ,o,a~ depth rrvD) 1950 18. Casing program Settincj.. D..epth size Specifications Top Bottom Quantity of cement Hole Casing Weight {, ,G,r, ade]Couplingl'Length MD ! TVD 1 MD 1 TVD (include stage data) I3-5' I it-5'I115' 600 SX Permafrost "C" 30" 13-3/8" 54.'5 IK-55 I Weld I 80' 35' + 12-1/4" 9-5/8" 36 ~K-55 ! BTTS !2~54' 35' ! 35" I 2789~t 2400' + 700 SX Permafrpst "E'; 30.0.~ 19. To be completed for Redrill, Re-entry, and Deepen Operations. Downsqueeze Present well condition summary _+ 400 SX Permafrost "( Total depth: measured feet Plugs (measured) true vertical feet -+ 60 bbl Diesel/Crude Effective depth: measured feet Junk (measured) true vertical feet Length Size Cemented Measured depth True Vertical depth RECEIVED APR - § t99! AJaska 0il & Gas Cons. Commission Anchorage Casing Structural Conductor Surface Intermediate Production Liner Perforation depth: measured true vertical Pit Sketch 20. Attachments Filing fee ~ Property plat ~ BOP Sketch I~ Diverter Sketch X: Drilling programZ~ Drilling fluid program I~ Time vs depth plot ~ Refraction analysis [] Seabed report ~ 20 AAC 25.050 requirements 21. I hereby certify that the foregoing is true and correct to the best of my knowledge "C Signed ~ 5 ~/-'-~/ R.S. Title Sr. Rossberg Drilling Engineer Commission Use Only Date4/3/91 Permit Number I APl number I Approval date _ ~/---Z.~' [ 50--~,z~?,., ~ z/'~7//J 02/22/91 Conditions of approval Hydrogen sulfide.measures ~ Yes ~ No Directional survey required ~t/Yes Required working pressure for BOPE ~2M; ~ 3M; ~ 5M; [] 10M; [] 15M Other: .,,,.____~__~~~ Approve~ ~[ 1~..~ Commissioner Form 10-401 E~ Yes /~ No Mud log required ~ Yes No Samples required ~ No See cover letter for other requirements by order of the commission Date ,, Submit i~ t'ripliCata NOTES: 1. STATE PLANE COORDINATES ARE ZONE 4. 2. ALL GEODETIC POSITIONS ARE BASED ON N.A.D. 1927. OFFSETS TO SECTION LINES ARE COMPUTED BASED ON PROTRACTED VALUES OF THE SECTION CORNER POSITIONS. G PAD 8'5'42" db (.:) LOCATION IN G PAD BAY N° //?' MILNE PT. VICINITY MAP 0 3 6 MILES SEC. 27, T. 13 N., R 10 E., U.M. ~8 PROPOSED et'"? EXPANSION L E C E N D EXIST1N6; WELL WELL FROM NORTH LINE FROM EAST LINE 6;-5 6;-6 (;-7 G-8 3354' FNL 3294' FNL 3235' FNL 3176' FNL 3435' FEL 3443' FEL 3451' FEL 3459' FEL STATE PLANE COORDINATES-ZONE 4 WELL NORTH (Y) EAST (X) G-5 G-6 0-7 G-8 Y 6,01%561.26 Y 6,01 4,420.66 Y 6,01 4,480.06 Y 6,014,539.45 X 557,168.77 X 557,160.33 X 557,151.88 X 557,143.45 GEODET!C POS!TIONS NAD 1927 WELL NOR~FH LATITUDE WEST LONGITUDE G-5 0-6 G-7 0-8 70' 26' 59.541" 70' 27' 00.126" 70' 27' 00.710" 70' 27' 01.295" 149' 32' 00.916" 149' 32' 01.150" 149' 52' 01.385" 149' 52' 01.620" PROPOSED WELL 3335 AAC,"2C BL','~. S~,'FE 201 A~ CHOR ^C:C. ,.,LA SK2, PROPOSED WELL LOCATIONS G-5, G-6, G-7 & G-8 SU~V~~O'~.'-- CHECKED: HERRING ~o~ ~o.: ~ CONOCO Structure ' Pad G Field · Milne Point Unit Well' 8 Location ' North Slope, Alaska IrureOted by : jones For: S ROSSBERG ate plotted : 27-Mar-g1 lot Reference is 8 Version 12. oordinotes ore in feet reference slot e VerticoI Depths ore reference wellheod J-~JlEASTMAN IZ~CHRISTENSEN N 17 DEG 27 MIN W 2805' (TO TARGET) <-- West I I I I I I I I I I 8 0 400 - 16ooi _ 2200 - - - - 32~ - 34~-- _ _ TD LOCATION: J 4¢' FNL. 4443' FEL SEC, 27. T13N. RIOE KOP 1¥D=500 TMD=500 DEP=O [ TARGET LOCATION: /soo' FNL, 4300' FEL 3.00 [sEc. 27. T~3N, mO£J [3/ 0[3 SNDS 1¥D=4285 TMD=5496 DEP=3068 ~. 44001 , lO/ 7"LINER tl/D=4494 TMD=5796 DEP=3283 , z 2cc, z,7,l 6(~3 ~,(~ ]000 ~200 1400 1600 ~800 2000 2200 2~00 2 ~L': k' 2800 ~{Wl ~ 3;'~0 540P Scce ~ ' ~$0.00 VerHcol Sec}ion on 342.55 ozimu~h wHh reference 0.00 N. 0.00 E from slo} ~8 O0 DEP=2805 27.00 33.00 39.00 ~ 45.00 EOB ~D=1871 TMD=2029 DEP=580 , ~ , R EIVED AI~ Oil &?i~ ~on~. -32OO 26O0 ~2200 -=o00 A 1800 ! 6OO 1400 1200 IOO0 ~00 O0 3500 I~llO0 - ~ 900 I ;00 ~00 ;00 ;00 '00 300 3400 I 3300 / / / ~ 1~0 / / / ! 1100 1900 1700 3200 I 3100 I 3000 I PAD G "90'0° $00 1300 / 17'00 . RECEIVED 2900 I APR - ,5 t991 ~..00 Alaska,O, & Gas Cons. Commission " 0 Anchorage ~,$00~ ll 500 ......... ~ I I I I 3500 3400 3300 3200 31 O0 3000 2900 _ :3000 3100 3200 3300 3400 3500 3600 3700 3800 ALASKA OIL AND GAS CONSERVATION COMMISSION February 22, 1991 WALTER J. HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 276-7542 R. S. Rossberg Sr. Drilling Engineer Conoco Inc. 3201C Street, Suite 200 Anchorage, AK 99503 Re: Milne POint Unit G-8 Conoco Inc. Permit No. 91-26 Sur. Loc. 3228'FNL, 3401'FEL, Sec. 27, T13N, R10E, UM Btmhole Loc. 35'FNL, 4453'FEL, Sec. 27, T13N, R10E, UM Dear Mr. Rossberg: Enclosed is the approved application for permit to drill the above referenced well. The permit to drill does not exempt you from obtaining additional permits required by law from other governmental agencies, and does not authorize conducting drilling operations until all other required permitting determinations are made. The Commission will advise you of those BOPE tests that it wished to witness. Sin~cerely, __ ~/l'.~0~nie C' ~R~O~h, Commissioner Alaska Oil and Gas Conservation Commission dlf/enclosures cc: Department of Fish & Game, Habitat Section w/o encl. Department of Environmental COnservation w/o encl. Conoco Inc. Suite 200 3201 C Street Anchorage, AK 99503 (907) 564-7600 February 13, 1991 David W. Johnston Commissioner Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive Anchorage, Alaska 99501-1433 RE: Milne Point Unit Wells G-5, G-6, G-7 and G-8 Applications for Permit to Drill Dear Mr. Johnston: Attached are the Applications for Permit to Drill (Forms 401 and attachments) requesting approval to drill Milne Point Unit wells G-5, G-6, G-7 and G-8, located in tract 14 of the Milne Point Unit. The rig to be utilized to drill these wells is the Nabors Alaska 27-E. Drilling of these wells is scheduled to commence in early April 1991 and continue through mid May 1991. If there are any questions pertaining to these wells please call me at 564- 7637 or Mike Stockinger at 564-7609. Sr. Drilling Engineer RSR:jcd CC: file: MPS 500.21.08 RECEIVED FEB 1 4. 1991 Naska 0ii & Gas Cons, C0.mmlssi0.a Anchorage STATE OF ALASKA ALASK ')iL AND GAS CONSERVATION CMMISSION PERMIT TO DRILL Re-Entry - Deepen 2O AAC 25.OO5 lb. Type of well. Exploratory ~ Stratigraphic Test ? Development Oil 3~ Service _- Developement Gas '.-- Single Zone ~ ~ 2. Name of Operator Conoco Inc. 3. Address 99503 3201 C Street, Suite 200, Anchorage, Al.asEa 4. Location of well at surface 3228' FNL, 3401' FEL, SEC. 27, T13N, RIOE, At top of productive interval U.M., NSB, AK 500' FNL, 4300' FEL, SEC. 27, T13N, RIOE At total depth 35' FNL, 4453' FEL, SEC. 27, T13N, RIOE 12. Distance to nearest property line 6260 feet 13. Distance to nearest well 60 feet 16. To be completed' for deviated wells Kickoff depth 500 feet Maximum hole angle 46 o 5. Datum Elevation (DF or KB) KB 35' AGL feet 6. Property Designation ADL 25906 7. Unit or property Name Milne Point Unit 8. Well number G-8 9. Approximate spud date May 1, 1991 14. Number of acres in property 2560 10. Field and Pool Kuparuk River Field Schrader Bluff Pool 11. ~pe Bond(see20AAC25.025) Blanket Number 8086-15-54 Amount $200,000 15. Proposed depth (MD and TVD) 5850'MD/4491'TVD feet 17. Anticipated pressure (see 20 AAC 25.035 (e)(21) Maximum surface 1850 psig At total del3th ('rVD) 1950 18. Casing program size Hole Casing 30" 12-1/4" Specifications Coupling I Length Weld I 80 ' BTTS 12766' BTTS [5815 ' Setting Depth Top Bottom Mo ! v°l ! 35' 135' 1280t'12400' )orations. 19. To be completed for Redrill, Re-entry, and Deepen O Quantity of cement (include stage data) + 600 SX Permafrost "C" + 700 SX Permafrost "E'; 300 X + 300 5X "G" Downsqueeze Present well condition summary Total depth: measured true vertical feet Plugs (measured) feet Effective depth: measured feet Junk (measured) true vertical feet Casing Size Structural Conductor Surface Intermediate Length Cemented Measured depth ± 400 SX Permafrost "( ± 60 bbl Diesel/Crude True Vertical depth ¢EIVED Production FEB 1 4 t 91 Liner Perforation depth: measured ~Ja~_ .0JJ .& Gas Cons, C0mmissi0.~ true vertical ~ilC~lOrag~ Pit Sketch 20. Attachments Filing fee ~ Property plat ~ BOP Sketch ~ Diverter Sketch ~ Drilling program~ Drilling fluid program ~ Time vs depth plot ~ Refraction analysis ~ Seabed report ~ 20 AAC 25.050 requirements 21. I hereby certify that the foregoing is true and correct to the best of my knowledge Signed~ 5 ~,~--~ R. S. Rossberg Title Sr. Drillin$ Engineer Commission Use Only Date2/13/91 Permit Number APl number Approval date c]/- 26 50-- O,?. <) - ,E ~/Z/'/ 02/22/91 Conditions of approval Hydrogen sulfide measures ?, Yes IB~'No Directional survey required ~es Required working pressure for BOPE j~I~'2M; ~ 3M; ~ 5M; ~ 10M; ~ 15M o he. Approved by ~,,,,~~ .~~~ Commissioner Form 10-401 Rev. 12-1-85 ISee cover letter for other requirements Samples required ~ Yes ~'~No Mud log required ~ Yes ~ No by order of the commission Date 'Z - ~'~ -'~f/ Submit in triplicate SUPPLEMENTAL DATA SHEET APPLICATION FOR PERMIT TO DRILL CONOCO MILNE POINT UNIT G-8 Conoco Inc. 3201 C Street, Suite 200 Anchorage, Ak 99503-3992 I. Casing and Cementing Program CASING PROGRAM Hole Size Casing Size Depth Weight Grade (Inches) (Inches) (ft) (DDf) Conn 30" 13-3/8" 115 ' 54.5 ppf K-55 WELD 12-1/4" 9-5/8" 2,801 ' 36 ppf K-55 BTTS 8-1/2" 7" 5,850' 26 ppf L-80 BTTS A® The 13-3/8" conductor will be set at 80' below ground level then cemented to the surface with ±600 sacks Permafrost type IICI! . Bo The 9-5/8" surface casing will be set approximately 500' below the base of the permafrost at 2,801' MD/2,400' TVD and cemented to surface. The cement slurry will consist of a lead slurry of approximately 700 sacks Permafrost Type "E" followed by a class "G" tail of approximately 300 sacks. A top job utilizing Permfrost Type "C" cement will be performed if cement is not circulated to surface. C® The 7" production casing will be set at 5,850' MD/4,491' TVD or approximately 300' below the base of the Schrader Bluff "0" series sands. Class "G" cement (approximately 300 sacks) will be circulated from the 7" shoe to 500' above the top of the Schrader Bluff "K" series sand. After the 7" casing is set, the drilling rig will move off and the well will be completed using a work over rig. II. Drilling Fluid Program A. 0 - 500' 9.0 ppg freshwater spud mud. B. 500'- 2,801' 9.0 ppg - 9.2 ppg freshwater spud mud. C. 2,801' - T D 9.2 ppg - 9.4 ppg dispersed. FEB 1 4 t~I Alaska 0il & Gas Co]]$, Commissio[] Anchorage Conoco Inc. Supplemental Data Sheet Well G-8 February 1991 Page 2 III. Drilling Program Conoco Inc. proposes to drill MPU well G-8 to continue development of the Schrader Bluff Pool at Milne Point. The mud system will consist of a fresh water spud mud (9.0 - 9.2 ppg) from the surface to the 9-5/8" casing point at approximately 2,801'. A low solids, non-dispersed system (9.2 - 9.4 ppg) will be used from 2,801' to the 7" casing point at 5,850' T D. Single shot surveys will be taken at the 9-5/8" and 7" casing points. MWD surveys will be taken every 30' in the build interval and every 100' in the vertical and slant sections. A gyro survey will be run from T D to surface at the completion of the well. All surveys will be referenced to the Section Grid System and corrected for magnetic declination. A complete set of open hole logs will be run from T D through the top of the Schrader Bluff interval. A 20", 2,000 psig diverter will be installed on the 13-3/8" conductor for drilling surface hole. A 13-3/8", 5,000 psi RSRRA BOPE stack will be nippled up to the surface casing for drilling the production hole. Pressure tests and function tests will be performed on the pressure control equipment as per State Regulations. Maximum downhole pressure is estimated at. approximately 1,950 psig and based on initial reservoir pressure. Maximum surface pressure is estimated at 1,850 psig, based on an unexpanded gas bubble with temperature effects not taken into account. The closest wellbore is MPU well G-7 with 60' of closure at the surface. Approximately 400 sacks of Permafrost Type C cement displaced with dead crude and/or diesel will be pumed down the 7" x 9-5/8" annulus for final arctic pack and freeze protection after disposing of excess drilling fluids. RECEIVED Conoco Inc. Supplemental Data Sheet Well G-8 February 1991 Page 3 WELL PROGNOSIS AND DRILLING PROGRAM ,TVD MD FORM 500 500 GRAVEL 994 1000 SAND/SHALE 2400 2801 CASING PT 3540 4463 K TOP 3775 4806 M TOP 4030 5178 NA TOP 4185 5404 OA TOP 4250 5499 OB TOP 4285 5550 OB BASE 4491 5850 T.D. BIT TYPE WT Yp PV vIsc FL 5-1-5 SPUD 9.0 100 20 100 15 5-1-5 SPUD 9.0 100 20 100 15 5-1-5 SPUD 9.0 25 15 60 15 4-3-7 LSND 9.2 25 15 60 15 4-3-7 LSND 9.2 15 12 45 8 4-3 -7 LSND 9.4 12 8 35 6 4-3-7 LSND 9.4 12 8 35 6 4-3-7 LSND 9.4 12 8 35 6 4-3-7 LSND 9.4 12 8 35 6 4-3-7 LSND 9.4 12 8 35 6 True vertical depths are based on a sub-surface datum. The proposed depth is an estimate only. If the actual depth exceeds the permit depth by over 300' TVD a Sundry Notice will be submitted. RE( EIVE D FEB, I 4 Oil & Gas Cons. Comm" ssio Anchorage o~ ~J )~ cz: + + &8 II, " " ~ '" "'' I I I NOUA3'H~ IIII I I '.NlOd 3N"IIIN 3 I.I, UN Cl. I :3 01 U NCl. I :3 0 UN Cl. RE(EIVED FEB t 4 1991 D.iI.& Gas Cons. 0omm'tss~o~ .... chorags NOTES: I. STATE PLANE COORDINATES ARE ZONE 4 2. ALL GEODETIC POSITIONS ARE BASED ON N.A.D. 1927 3. OFFSETS TO SECTION LINES ARE COMPUTED BASED ON PROTRACTED VALUES OF THE SECTION CORNER POSTIONS 08* O5'42" LOCATION IN SEC, MILNF: POINT UNIT ~G1NYD yII BAY Mt~ ,o~r t ~ MILNE PT. VICINITY MAP o 6 ~2 MIL ~ $ 27, T13N, R1OE, UMIAT MERIDIAN WELL 6-1 6'-2 $-3 6-4 G-5 G-6 G-7 FROM NORTH LINE 3645' 3585' 3526' 3466' 3407' 3347' 3288' 3228' FROM EA8T LINE 3346' 3353 3362' 3377' 3385'. 3393' 3401' 30' STATE PLANE COORDINATES-ZONE 4 WELL NORTH (Y) EAST (X) 6'-1 6-2 6'-3 '6-4 G-5 G-6 G-7 G-8 6,014,071.65' 6, 014, 130.44 ' 6, 014,190.03' 6,014,249. 92' 6,014,308.91' 6,014,368. 6,014,427.70' 6,014,487.10' 557, 260.11' 557, 252.51' 557, 243.78' 557, 235. 15' 557. 226.72' 557.21B. 28' 557,209.84' 557. 201.39' 290' PAD GEODETIC POSITIONS NAD 1927 WELL NORTH LATITUDE WEST LONGrrUDE 6-1 6'-2 6.-3 6-4 tO' 26 '56.686" tO' 26 '57. 269" to' 26 '57. 851" to' 26 '58.44 7" ~. lO' G - 5 g-6 ~_ 290' .._I L_ G-7 ~ I _? l_1_5=' ! MIN. 2 I .....: '.'...:. v .' '-'...: 2-,'; :-. . - .:... '. v ,' ...... v :- :.... '5- .'.'; ..... v... :. 1 I 70'26'59.022' 70°26'59.607' 70°27'00.192' 70'27'00.777' 149' 31 '58.280" 14 9' 31 '58.5O8" 149' 31 '58. 751" 149' 37 '58. ))1" *J, Il ~RB. 84OOZ JW~-LLOC: G?ADEX~ 149031'59.222' 149'31'59.453' 149031'59.685, 149'31'59.916' LEGEND (~)TYPICAL ~ECTION o PROPOSED NE'W WELL NO ,SCALE · EXISTING WELL CONDUCTOR (LOCATION AS-BUILT) PROPO~SED PA~D EXTENSIO~N , NEW WELL LOCATIONS ~ ~'~; r. ROBERT BELL .'~ DATE DEC. 10, 1990 ~~ ~ ~ ~ ~ ~'~'. No. 3252-8 .'~ CHECKED JHH ~~l I~~~ CONOCO INC,--NABORS RIO 27E 3-5/8" 5808a BOP SYSTEM, Fill Line Flow Line Annubr Preventer APl I~5/8' ~ APl APl 13-~¢'g' 5H APl 13-~ZB' ~ APl 13-5/1~ ~1 x 11" 5H APl 11' 5M TITeaded Correction Ram Ram Ram C'hoke Line: 3" 5000~ Manual Gate VaLve -' & 3" HCR VALVE Kilt Line: Two 3" 5000~t Manual Oate VaLves Tubing Spool w/ 2"-5000~t Side Outlets Casing Spool w/ 3"-5000~t Side Outlets 9-5/8" SurFace Casing i3-3/8" Conductor Casing ,~ 9-~ --- 1,BOP STACK SiZE RATING MEETS APl RP53 & SPEC 6A FOR CLASS 5M :,,.~ ~ ~ <C 2, BOPE TO BE OPERATED EACH TRIP AND TESTED 'w'EEKLY, ~_. ~ 3, BOP HYDRAULIC CONTROL SYSTEM TO INCLUDE (5) STAT]ON CONTROL ¢¢ MAN]FOLD LOCATED REHOTE WITH 160 GALLON ACCUMULATOR, RESERVOIR = UNIT, & AUXILIARY ENERGY SOURCE FOR SYSTEM ACTIVATION, q-, HINIHUH ONE SET BLIND RAHS & TWO SETS APPROPRIATE PIPE RAHS, 5, CHOKE & KILL MANIFOLDS SHOWN SEPARATELY TO MEET APl RP 53 CLASS 5M REOU]REHENTS, . KILL MA~:IFOLD FRC*W R£~,~OT£ HIGH ~.-..---,FT'I,,~ ~ ~ ~ RF_~OTE PRC~'~,'~~* .... ~,~ . PRESSURE PU~P ~ ~1 ~ '~ ~ u-~ NOTE: ~ ~i~LlC CONTROLLED ~ r~L ~ CN~ k~k~FOtOS ~ MEET ~ ~P~3 ~ DRILLING . ~ ~RJULIC CONTR~LED ' ' &R~OTE OPIATED ' ~II~I~I~IW ~I~~ C~KE ADJU~ ~ ~ ~ ~ ~ ~ ~ gDJU~AB~ UA~IFOLD . ' ' ~ TO SH~ t BLeD LINE TO /T~OSPHERI~ AJ~ Oi~ & Gas GoDs, Gore Rnchorage ........... I ~ -~ cuc[[ s ~L ~;I~OLDS FOR ~/~' S 7" OD C~S~U~ ~OP ST:C~ BOP UANIFOLD LAYOUT-CO OCO, I C. , _ ................ ,. . ,,, ~ , , ~_~, , , , . . . . . . , . , ,. CONOCO, INC. MIt. NJ POINT UNIT DIVERTER STACK FOR 13 3/8' CONDUCTOR IrLow klJdl - Ol¥(af(ll QUICK COlqNCCT ASS[MILT ,.,,.",,. ,,,,,.,-,RECEIVED STAR1' Ikl) X(&D 1. The hydraulic contpol syste~ will b~ in ac~z-orda~e with API specifications and ~ p~uire~ents. ~. The HCR valve ~ill open ~en the pr~ventep closes. A single 10" relief line ~ill pun off of th~ dpilling s~ol HC~ valv~ and ~ill hive a ta~-~eted downstream ~ee fo~ downwind dive. ion. Valves on ~th sides of the t~ ~ill be full opening a~ l~nked to~ethep to enab]~ one to al~ays be o~n a~ the othep to ~ closed- Id~ Ir IIO~G# ' ''1 [ ; t- · MILNE POINT UNIT WE~ G-8 DEPTH vs. TIME W Ld TIME (DAYS) CONOCO, Inc. Structure · P~d g Well · 8 Field · Milne Point Uni! Location "North Slope, Alaska o o cD cD · · 200 40O Oeated by : ~ For: S ROSSBERG te plotted : 6-,.~n-91 t Reference is ' version tl. ~oordinote~ ore in fee~ reference slot ri'rue Vertical Oepths ore reference wellhead. / J-'~I1EASTMAN J L/J~CHRISTENSEN N 18 DEG 14 MIN W 2872' (TO TARGET) TO Location: [ .35' FNL, 4455' FEL Sec. 27, T15N, RIOE <-- West ..... 1200 11XlO800 600 400 200O I I I I I I I I I I I I I RKB Elevation: 5g.27 J Target Location: J KOP Tvd=500 Trod=500 Dep=O 500' FNL, ¢500' tEL 3.00 Sec. 27, T13N, R1OE TARGET / N Snd$ 15.00 Dep'2872 Build 3 Deg/lO0 F't N, orth 2728 west899 21.00 27.00 55.00 39.00 B Tvd=1890 Tmd=2057 Dep=600 AVER_A_GE ANGLE 46 DEG 43 MIN K Snds Tvd=3540 Trod=4465 Oep=2552 M Snds Tvd=3775 Tmd=4806 Dap=2602 TARGET / N Snds Tvd=4030 Tmd=5178 Dap=2872 aA Snds Tvd=4185 Trod=5404 Dap=3037 ~ Anchorage OB Snds Tvd=4250 Trod=5499 Oep=3106 B/ OB Snds Tvd--4285 Trod=5550 Dap=3143 TD / 7 Liner Tvd=4491 Trod=5850 Dep=3361 220(]2000 1800 1800 1400 1200 1000 800 600 400 200 0 200 400 600 800 1000 1200 1400 Vertical Section on 341.76 azimuth with reference ,:3228.00 N, 5401.00 E from slot Scale 1 ' 100.00 -3200 - Iooo 600 Surface Location: gEiVED Aiaskr., ,,.0ii & Gas Cons. Commissior., 3500 3400 3300 3200 3 ] O0 30013 2900 ~000 I ' '"- I ~oo ~9oo~,soo ,~ . .-, I ~oo .,, ~ - -. ~c~~ I I ~xllO0~ 1~00 '200 ~ . ~900 _.~q ~ZO0 I ' : / 900 ~oo ~,~oo _..~,, I ;600 _] ; _ I ~,oo - ~oo .........~~ ' ' - I I I I I I I 3;500 3400 3300 3200 3; 1 O0 3000 2900 3000 3110 32~0 3300 3400 3500 3600 3700 3800 --ITEM (1) Fee (2) Loc APPROVE DATE '['2 -~hru ' ** CHECK LIST FOR NEW WELL PERMITS ** '[9 ~h_ru 13] [10 & 13] [14 thru 22] (5) BOPE ~(~,~.. ~-~'-?f [23 thru 28] ~g thr~ :~1] (6) Other (6) Addl 2. 3. 4. ge¸ 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. Company Lease & Well YES Is permit fee attached ............................................... Is well to be located in a defined pool .............................. ~ Is well located proper distance from property line ................... Is well located proper distance from other wells ..................... 5. Is sufficient undedicated acreage available in this pool ............. ~ 6. Is well to be deviated & is wellbore plat included ................... 7. Is operator the only affected party.~ ................................. ~ 8. Can permit be approved before 15-daytwait ............................ ~ Does operator have a bond in force ................................... Is a conservation order needed ....................................... Is administrative approval needed .................................... Is lease nL~nber appropriate .......................................... Does well have a unique name & n~nber ................................ Is conductor string provided ......................................... Will surface casing protect all zones reasonably expected to serve as an underground source of drinking water .................. ~ Is enough cement used to circulate on conductor & 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. ~ Is well to be kicked off from an existing wellbore ................... Is old wellbore abandonment procedure included on 10-403 ............. Is adequate wellbore separation proposed ..... . ................. ; ...... ~ Is a diverter system required ........................................ ~ Is drilling fluid program schematic & list of equipment adequate ..... ~ Are necessary diagrams & descriptions of diverter & BOPE attached .... ~ Does BOPE have sufficient pressure rating -- test 'to ~~ psig ..... ~ Does choke manifold comply w/API RP-53 (May 84) ...................... /~ Is presence of H2S gas probable ...................................... .. FOR EXPLORATORY & STP~ATIGRAPHIC 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... NO REMARKS Additional requirements ............................................. 0 -rZ ~0 geology' eng i neer i ng' D~ MTM ~-~ LC~ RPC~(~i~-- BEW_~ RAD / JH-U rev 03/29/91 jo/6.011 I N I T IAL GEO 1 UN I T ON/OFF POOL CLASS STATUS AREA ~ SHORE Additional remarks' CHECK LIST FOR NEW WELL PERMITS Company ,~O~OCO Lease & Well No. ~ i~ ITEM APPROVE DATE YES NO ' '~I' ?~' '"' '"' · e · · · · · · . · · · · · e ,, · . · · . . · · · . · · · · · · · · · · · e ~ · · · ~ (1) Fee ~!~,~JL:L ~.~'~::i..:~'<"i~ 1. Is the pe~it fee attached (2) Loc (2 thru (8) (9 thru 13) 10. (10 and 13) 12. 13. (14 th~ 22) (5) BOPE '~-': .v; ":' -~"~- z~ (23 thru 28) 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 2. Is well to' be located in a defined pool ............................. 3. Is well located proper distance from property line .................. 4. Is well located proper distance from other wells .................... 5. Is sufficient undedicated acreage available in this pool 6. Is well to be deviated and is wellbore plat included ................ 7. Is operator the only affected party ................................. 8. Can permit be approved before fifteen-day wait ...................... Does operator have a bond in force .................................. ,,~:: Is a conservation order needed ...................................... Is administrative approval needed ................................... Is the lease number appropriate ..................................... ~ Does the well have a unique name and number .........................~i Is conductor string provided ........................................ /~ Will surface casing protect all zones reasonably expected to serve as an underground source of drinking water ..................... Is enough cement used to circulate on conductor and surface ......... /.z~ .. Will cement tie in surface and intermediate or production strings ... .~'~ Will cement cover all known productive horizons ..................... Will all casing give adequate safety in collapse, tension and burst.. Is this well to be kicked off from an existing wellbore ............. Is old wellbore abandonment procedure included on 10-403 ............ Is adequate wellbore separation proposed ............................ Is a diverter system required ....................................... Is the drilling fluid program schematic and list of equipment adequate zf~_ Are necessary diagrams and descriptions of diverter and BOPE attached. Does BOPE have sufficient pressure rating - Test to ~OC>O psig .. Does the choke manifold comply w/API RP-53 (May 84) .................. Is the presence_of H2S gas probable ................................. , (29 thru 31) (6) Add: Geology: DWJ ~ P.PC Engineering: rev: 01/30/89 6.011 For 29. 30. 31. 32. exploratory and Stratigraphic wells: Are data presented on potential overpressure zones? ................. Are seismic analysis data presented on shallow gas zones ................. If an offshore loc., are survey results of seabed conditions presented Additional requirements ............................................. Additional Remarks: INITIAL GEO. UNIT ON/OFF POOL CLASS STATUS AREA NO. SHORE Well History File APPENDIX Information of detailed nature that is not particularly germane to the Well Permitting Process . but is part of the history file. To improve the readability of the Well History file and to simplify finding information, information, of this nature is accumulated at the end of the file under APPENDIXi No special'effort has been made to chronologically ... : .. organize this category of information. WELL NAME Z MILNE POZ~T UNIT FIELD NA~E : SCHRADER BLUFF BOROUGH : NORTH SLOPE STATE ~ ALASKA AP1 NUMBER : 50-029-2214! REFERENCE NO : 74590 RECEIVED JUN 2 4 1991 ::S Tame Verification Listing :hlumberoer Alaska Computing Center 21-JUN-!ggl 08:00 **** REEL HEADER S~RVICE NAME : EDIT DATE : 91/06/2! OPI~IN : FLIC REEL NAME : 74590 CONTINUATION # : PREVIOUS REEL : COMMENT : CONOC©, SCHRADER BLUFF,MIbNE POINT UNIT G-8,50-029-22141 **** TAPE HEADMR **** SERVICE NAME : EDIT DATE : 91/06/~! ORIGIN ,' FLIC TAPE NA~E : 74590 cONTINUATION # : PREVIOUS TAPE COMMENT : CONOCO, SCHRADER BLUFF,~ILNE POIN'~ UNIT. G-8,50-029-22141 **** FILE HEADMR **** FILE NAME : EDIT .001 S~RVICE : FLIC VERSION : 001A06 DATF : 91/06/~1 ~AX REC SIZE : ~.024 F~LE TYPE ~ LO L~ST FILE PAGE: ******************************************************************************* ******************************************************************************* ** ** ** SCHLUMBERGER WELL SERVICES ** ** ** ******************************************************************************* ******************************************************************************* COMPANY NAME: CONOCO, INC. WELL: MILNE POINT [INIT FIELD: SCHRADER OLUFF BOROUGH: NORTH SLOPE STATE~ ALASKA API NUMBE~: 50-029-2~141 bOC~TION: 3176' ww~, 3459' FEb SEC?ION: ~7 TOWNSHIP: RANGE: iOE PERMAWENT DATUM: MLL LOG ~EASURED FROb~ ~KM 65 ELEVATION: 0 ABOVE PER~ANENT DATUM Tape Verification Llsting :hlumberger AlaSka Com.~.utinc Center 21-JUN-1991 08:00 PAGEI ELEVATIONS KB: 65 DF: 64 GL: 3! OATE LOGGED: 28-~AY-1991 RUN NUNBER: ONE TD DRILLER: 5765 TD LOGGER: 5770 CASING: 9 5/8" ~ DRILLER DEPTH OF 2736 AND LOGGER DEPTH OF 2734 BIT SIZe: 8 l/2" TYPE FLUID IN HOLE: LSND DENSITY: 9,5 PM: 9,1 ~UD RESISTIVITY: 2*8 FILTRATE RESISTIVITY: ~UD CAKE RES1STI¥ITY: TI~E CIRCULATION ENDED: 02:30 TIME LOGGER ON BOTTOM: 08:30 ~AXIMU~ TE~P RECORDED: 95 LOGGING DISTRICT: LOGGING ENGINEER: WITNESS: TOOL NUMBERS: A~ AA 774 NGD 756 SRE D 797 CNC HA 1675 DRS 4847 DIC 27~ FIELD REMARKS: VISCOSITY: 42 FLUID LOSS: 7 (a 62 0 62 PRUDHOE BAY CMENEVEY DECKERT/NOUNTJOY TCC B 839 NGC 1935 SRT C 4852 NSC E 760 PGD lB00 DIS 276 TOOL STRING(BOT-TOP): DITE-LDT-CNL-MSFb-NGT-TCC-AM$ RUN WITH 1.4" TEFLON STANDOFFS AMD 2' HOLE FINDER, , HOLE CORRECTION : IPER, N~UTRON MATRIX': SAND CAb DENSITY MATRIX : ~.65 ~/CC, FLUID DENSITY = ~.0 G/CC. NGT LOGGED USING LEAST-SQ(!ARE$, PLAYBACK USES KALMAN: HIGH RES(~,2") SAMPLE RAIE ON REPEAT BUT NOT PRESENTED. ANGLE THRU ZONE 44 PEG, CNL RUN WITH BOWSPRING, COMPUTING CENTER RE~ARKS: THIS LIBRARY TAPE ALSO INCLUDES THE FOLLOWING COMPUTING CENTER PROCESSING ~HICH IS LOCATED IN FILE #3 ON THIS TAPE: 1) PHA$OR PROCESSED LITE 2) ALPHA PROCESSED LDT/CN[, 3) KAL~AN FILTERED MGT 4) ALPHA FILTERED NGT DATE JOB STARTED: 20-jUN-g! JOB REFERENCE NO: 74590 Tape Verificat.~.on I.,istimo 2~-JU~'-1991 08:00 :hlomberger Alaska Computing Center LDP/ANA; KOHRING PAGE~ FILE CONOCO, I .C. SCHRADER BLUFF .~ILNE POINT UNIT 50-029'22~ 41 ~AI~ PASS RUN2 LOG DATA FROM FIELD FILE F06 RUN! BGT FROg FIELD FILE F04 RU~2 BGT FRON FIELD FILE FOB DATA SAMPLED EVERY -.5000 FEET DATA INCLUDED TOOL EXTENSION TOOL TYPE USED NAME D!T-E ,DTE LDT .LDT CNT-G ,CNL NGT ,NGT BGT ,BGT ~SFL ,NSF PHASOR DUAL INDUCTION SFL LITMO DENSITY COMPENSATED NEUTRON r NATURAL GAMMA SPECTROSCOPY (LEAST SOUARES FILTER) BOREHOLE GEOMETRY TOOL (RUN! MERGED TO RUN2) CALS FROM MICRO-SFL ****************************************************************************** TABLE TYPE : CONS TUNI VALU DEFI C~' C~ O, INC, _ Company Name FN SC ADER BLUFF Field Name WM MILNE POINT UNIT APIM 50-029-22141 FL 3176' FNL, 3459' FEL, SECT 27 TOWN 13N R~NG IOE COUN NORTH SLOPE STAT ALASKA NATI USA WIT~ DECKERT/~OUNTJOY SO~ 548277 PDAT MSL EPD FT 0, Well Name API Serial Number Field Location Section~ Township Range Countv State or Province Nation Witness' Name Service Order Number Permanent datum Elevation of Perm, Datum Tape Verification Listing ~'hlumberger Alaska ComPuting Center 21-JUN-!991 08:00 PAGE~ 4 · L~F RKB APD FT 65, EKB FT 65, EDF FT 64, EGD FT 3 TDL FT 57~0, BbI FT 5~ TLI FT 2.~4.. DFT LSND ~D ~/C3 9.5 DFL F3 ~'8 R~S 4 ~CST DEGF 6~ TCS 02:30 LOg ~easured From ABOVE PER~ANENT DATU~ Elevation o~ Kelly Bushin~ Elevation of Derrlc~ Floor Elevation of Ground Level Total Depth - Driller Total Depth - Logger Bottom 5og Interval Top Log Interva~ Dril!ihg FlUid TYPe Drilling F~uid Densit~ Drlllin~ FlUid Ph · ~rilling Fluid Viscosity Drilltn6.~Fluid ResiStigitY Of ~ud. Sample ~ud~Sample Temperature ResiStivitY of'mud filtrate s ~.ud~Filtrate SamPle Temperatu Resistivity of MUd Ca~e samD.! Mud Ca~e Sample Temperature Time Circular.ion StOpPed BHT DEGF 95, Bottom Hole Temperature T~BLE TYPE ~ CIjRV D~PT CIDP IDP~ CI~P ClLD IFRE IDO~ I~OW IIRD IIXD IIR~ SFbU SP S~R CG~ TE~S ~PES HTE~ Depth Channel Name INDUCTION DEEP PHASOR CONDUCTIVITY INDUCTION DEEP PHASOR RESISTIVITY INDUCTION gEDIU~ PHASOR CONDUCTIVITY INDUCTION gEDIUM PHASOR RESISTIVITY Deed Induction Standard Processed Conduct~v~tv Deed Induction Standard Processed Resistivity Medium Ind~]ctlo~ Standard Processed Conductivity Medium Induction Standard Processed Resistivity Induction Calibrated Freauency ID~F DEEP INDUCTION QUALITY FACTOR IMOF gED INDUCTION OUAhITY FACTOR Deep InductIon Real Intermediate Conductivity Deep Induction Quad Intermediate Conductivity ~edium Induction Real Intermediate Conductivity ~edium IndUCtiOn O~]ad Intermediate Conductivity SFL Resistivity (unaverafled) Spontaneous Potential Spectroscopy Gamma-Ray Computed GR from Thorium, Uranium, Potassium Tension ~ud ~emperature ~UO Resistivity ~ead Tension iS Tape Uerification LiSting ~hlumberger Alaska Computing Center 21-JUN-!991 08:00 PAGE: 5 DEFI PEF LS LU L!TM SS1 SS2 bSHV $$HV bSR~ Cab! CgR HT~M MPMT TNPH TN~A RTMR N~O~ RCNT RCFT CNTC CFTC CGR CALl C~L$ TENS HTEw C~R THOP URAN W1NC W4N~ W5N~ MTE~ Oenstty Pprosltv Bulk Density Delta RHO Photoelectric· Factor Oualtt¥ control of lon~ spacing for bDT O~]alltV control on short Spacing ~or bDT LOng Spacing CoDPuted Count Rate Lono Upper 1-2 Window Count Rate (LUI+LU2) Lon~ bower Window Count Rate Lltholog Window Count Rate ShOrt Spacin~ ! Window Count Rate Short Spacing ~ window Count Rate Long Spacing NiGh VoltaGe Output Short Spacing High Voltage Loop []utput Short Spacing ~ Densltv LOng spaclng RHOB (UnCorrected) Lon Upper Cal~ per SDectroscopy.Gamma~Rav COmputed GR~from TboriuI~, Uranium, Potassiu~ Tension ~ud Temperature MUD Resistivity Mead Tension Neutron Porosity Thermal Neutron Porosity Cal brated Thermal Ne tron Ratio ~aw Thermal Neutron Ratio Neutron Porosity Out,ut From an APplication Pro,ram ~CNT RCFT CNTC CFTC Spectroscopy Gamma-Ray Computed GR from Thorium, Uranium, Potassium Caliper Sonic Caliper Tension ~ud Temperature MUD Resistivity Head Tension Spectroscopy Gamma-Ray Computed GR ~rom Thorium, Uranium, Potass{um Thorium Potassium uranium window 1 (.15o - .5 window 2 (.5 - ~.1MEV) Window ] (~.! - ~.6 MMV) window 4 (1.6 - 2 Window 5 (2 - 3 ~EV) Tension Mud Temperature Tape Yer~:fication Listing ~hlumberger Alaska Computing Center 2!-jU~-1991 08:00 DEF! MRES MUD ResistivitF C8 Cable Speed MTEM Mead Tension Gamma Ray ~i Caliper i - 3 C2 Caliper 2 - 4 T~NS Tension CALS So, lc Caliper PAGE ** D~TA FORMAT SPECIFICATIO~ RECORD ** ** SET TYPE TYPE REPR CODM V~LUE ~ 66 0 2 66 0 3 73 340 4 66 5 66 6 73 7 65 8 68 0.5 9 65 11 66 13 66 0 14 65 FT 15 66 68 16 66 0 66 0 .mmmmmm~m.mmmmmmmmmmmmmmmmmmm-- .** SET TYPE - CHAN ** ~ SERV UNIT R ICE API APl API A ! FILE N B NI,J~B SI REPR P 0 E ID ~RDER # LOG TYPE CbASS ~OD NUMB SAMP EbEM CODE (HEX) '~;'''''''''''''''~. T FT 548 ....77 '''''''''''''''''''''''''''''''''''''''''~''''~''''''''~'00 0 00 0 I ~.. 1 4 8 .00000 00 CIDD DTF M~HO 548277 O0 000 00 0 1 ! 1 4 68 0000000000 IDPg DTF Og~ 548277 00 000 00 0 CIMP DTE ~MHO 548277 00 000 00 0 1 I~P" DTE OH~M 548277 O0 000 O0 0 1 CILD DTE ~HO 548277 00 000 00 0 1 ILD DTE OHMM 548277 00 000 00 0 1 C/L~ DTE MMHO 548277 00 000 O0 0 IbM DTF OHMM 548277 00 000 00 0 1 IFRE DTE HZ 548277 00 000 00 0 1 IDOF DTE 548277 00 000 00 0 1 1 1 4 1 1 4 1, 1 4 1 1 4 ! ! 4 1 I 4 1 1 4 1 1 4 1 ! 4 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 68 0000000000 0000000000 Tape verification bisting ~hlUmberger AlasKa ComPutlnq Center 2!-JUN-1991 08:00 PAGE{ IMOF DTE 548277 O0 000 00 0 1 i I 4 68 0000000000 !IRD DTE MMHO 548277 O0 IIXD DTE MMHO 548277 00 IIRM DTE MMHO 54827'7 O0 IIX~ DTE MMHO 548277 00 SFLU DTE OHM~ 548277 00 SP DTE MV 548277 O0 SGR DTE GAP! 548277 00 CGR DTE GAPI 548277 O0 TENS DTE bB 548277 00 MTEM DTE DEGF 548277 00 ~RES DTE O~MM 548277 00 HTEN DTE LB 548277 OO DPH! LDT PU 548277 00 RMOB LDT G/C3 548277 00 DRHO LDT G/C3 548277 00 PEF LDT 548277 00 OL$ LDT 548277 00 OSS LDT 548277 00 LS LDT CPS 548277 00 LU bDT CPS 548277 00 LL LDT CPS 548277 00 LIT~ LDT CPS 548277 00 SS! LOT CPS 548277 00 SS2 LDT CPS 548277 00 5$Hv LDT V 548277 00 SBNV LDT V 548277 00 $1RM LDT G/C3 548277 00 LSRM LDT G/C3 548277 00 LUR~ LDT G/C3 548277 00 CALI LDT IN 548277 00 S~R LDT GAP! 548277 O0 C~R LDT GAPI 548277 00 T~N$ LDT LB K48277 00 MTE" LDT DEGF 548277 O0 MRES LDT OHMM 548277 OO MTEN 5DT LB 548277 NPHI CNL PU 548277 00 TNpN CNL PU 548277 00 TNR~ CNL 548277 00 RTNR CNL 548277 00 NPO~ CNL PU 548277 00 RCN? CNL CPS 548277 00 PCFT CNL CPS 548277 CNTC CNL CPS 54~277 00 CFTC CNL CPS 548277 00 SGR CNL GAPI 548277 00 CGR, CNL GAPI 548277 00 C~L! CNL IN 54~277 00 CALS C~L I~ 548277 O0 TENS CNL LB 548277 00 000 O0 000 O0 000 O0 000 O0 000 O0 000 O0 000 O0 000 O0 000 O0 000 O0 000 O0 000 O0 000 00 000 00 000 00 000 O0 000 O0 000 O0 000 OO 000 O0 000 O0 000 O0 0o0 00 000 O0 000 00 000 O0 000 00 000 00 000 O0 0o0 O0 00o O0 000 O0 000 O0 o00 00 0o0 O0 000 O0 000 00 000 O0 000 00 000 00 000 00 000 O0 000 00 000 00 o00 OO 000 00 000 00 o0o O0 000 00 0o0 O0 0 1 ! I 4 68 0000000000 0 1 1 I 4 68 0000000000 0 I 1 I 4 68 0000000000 O I 1 1 4 68 0000000000 0 ! 1 1 4 68 0000000000 0 i 1 I 4 68 0000000000 0 ! 1 I 4 68 0000000000 0 ! ~ 1 4 68 0000000000 0 I I I 4 68 0000000000 0 1 1 1 4 68 0000000000 0 1 ! I 4 68 0000000000 0 1 ! 1 4 68 0000000000 0 I ! 1 4 68 0000000000 0 ~ I 1 4 68 0000000000 0 1 1 1 4 68 0000000000 0 I 1 I 4 68 0000000000 O I I 1 4 68 0000000000 0 1 1 1 4 68 0000000000 0 1 1 I 4 68 0000000000 0 ! ! I 4 68 0000000000 0 I 1 i 4 68 00000000:00 0 1 1 1 4 68 0000000000 0 1 1 1 4 68 0000000000 0 i 1 1 4 68 0000000000 0 1 I 1 4 68 0000000000 0 1 I 1 4 68 0000000000 0 1 I 1 4 68 0000000000 0 1 1 1 4 68 0000000000 0 1 1 ! 4 68 0000000000 0 I 1 1 4 68 0000000000 0 I 1 1 4 68 0000000000 0 1 ! I 4 68 0000000000 0 1 1 1 4 68 0000000000 0 1 1 ! 4 68 0000000000 0 I 1 1 4 68 0000000000 0 1 ! 1 4 68 0000000000 0 1 1 1 4 68 0000000000 0 ! I 1 4 68 0000000000 0 1 1 1 4 68 0000000000 0 1 1 1 4 68 0000000000 0 I 1 1 4 68 0000000000 0 1 1 1 4 68 0000000000 O 1 i 1 4 68 0000000000 0 I 1 1 4 68 0000000000 0 1 ! 1 4 68 0000000000 0 I I 1 4 68 0000000000 U I 1 1 4 68 0000000000 0 1 I ! 4 68 0000000000 0 1 1 1 4 68 0000000000 0 1 1 1 4 68 0000000000 iS Tame Verlfl, catlon Listlnq :hlumberqer AlasKa Computinq Center 21-dVN-!g9t 08:00 P a GE: ID ORDER ~ LOG TYPE CLASS MOD MUMO SA~P EbEM CODE (HEX) ~TE~ CML DEGF 548277 O0 00~ O0 0 I 1 i 4 68 0000000000 ~RES CML OHMM 548277 OO 000 O0 0 I 1 1 4 68 0000000000 HTEN CNL LB 548277 O0 000 O0 0 1 1 1 4 68 0000000000 SGR NGT GAPI 548~77 O0 000 O0 0 1 1 1 4 68 0000000000 CgR NGT GAPI 548277 00 000 O0 0 I 1 I 4 68 0000000000 T~OR NGT PPM 54~277 00 000 O0 0 1 ! 1 4 68 0000000000 POT~ ~GT PU 548277 00 000 O0 0 i 1 1 4 68 0000000000 URAN NGT PP~ 548277 00 000 O0 0 1 1 1 4 68 0000000000 W~.NG NGT CPS 548277 00 000 O0 0 1 1 1 4 68 0000000000 W~NG NGT CPS 548277 O0 000 OO 0 1 1 1 4 68 0000000000 W3NG ~GT CPS 548277 O0 000 O0 0 i 1 ! 4 68 0000000000 W4N~ NGT CPS 548277 O0 000 O0 0 i I 1 4 68 0000000000 W5NG NGT CPS 548277 00 000 O0 0 I I 1 4 68 0000000000 TENS ~GT LB 548277 00 000 O0 0 ! ~ 1 4 68 0000000000 E..~ NGT DEGF 548277 O0 000 OO O 1 I 1 4 68 0000000000 ~ES NGT OH~ '548277 O0 000 O0 0 1 1 1 4 68 0000000000 CS NGT F/HR 548277 O0 000 O0 0 I 1 1 4 68 0000000000 HTEN NGT bB 548277 O0 000 00 0 1 I ! 4 68 0000000000 GR BGT GAPI 548~77 O0 O00 00 0 1 1 1 4 68 0000000000 C! BGT IN 548277 O0 000 00 0 I I 1 4 68 0000000000 C~ BGT IN 548277 O0 000 O0 0 1 I 1 4 68 0000000000 TENS BGT LB 548277 00 000 00 0 I 1 X 4 68 0000000000 CAL~ ~SF IN 548277 00 000 00 0 1 1, 1 4 68 0000000000 * * D A T A * * DEPT. I~PH.DTE !L~,DTE I!RD.DTE SFLU.DTE TEN$.DTE DPHI,LDT OLS.LDT LL.LDT LSHV,LDT LUR~.LDT T~N$,LDT NPHI.CNL CFTC.CNL CAbS CNL HTEN~CNL POTa. NGT W3NG.NGT MTE~.NGT GP.BGT CAL$.MSF 5825 3 3 285 3 1060, 20. 0 193~ 1247, 2. !060. 43. 43, 532. 9, 502. 3. 51. 87. -999. 9. 500 CIDP.DTE 336 500 IDPH'DTE 2 969 CI~P,DTE 523 CILD'DTE 343]000 ILD,DTE 21914 CIL~,DTE 500 IFRE,DTE 20'000 IDOF,DTE 3,000 IMOF,DTE 750 !IXD.DTE 34 813 IIRM,OTE 267.000 IIXM,DTE 379 SP,DTE -36~125 SGR,.DTE 95.433 CGR,DTE 000 MTEM.DTE 87' 875 MRES,DTE ~,143 HTEN,DTE 258 ~HOB.LDT 2,316 DRHO,bDT 0' 033 PEF.LDT 0$$.LD'C 0.049 LS,LDT 359,.750 LU,LDT 027 875 LITH.LDT 112 375 SSI,5DT 219.250 SS2,LDT 000 SSHV,LDT 1309[000 S1RH,bDT 2.189 LSRH,LDT 299 CALl.bDT 10 250 SGR,bDT 95,433 CGR.bDT 000 ~TEM,BDT 87:875 ~RES.LDT 2.143 HTEN.LDT 415 ~NPH CNb 43,149 TNRA!CNL 3[654 RTNR.CNL 149 CNT:CNL 2044,545 RCFT CNL 518 699 CNTC,CNL 914 SGR.CNL 95 43] CGR CNb 88 402 CALI.CNL 547 TENS.CNL ~060:000 NTEM,CNL 87.875 MRES.CNL 500 SGR.NGT 95,433 CGR.~GT 88 402 THOR,NGT 016 URAN.NGT 1.556 WlNG,NGT 277~650 W2NG.NGT 843 W4NG.NGT 6.912 W5NG.NGT 8.065 TENS NGT 875 MRES.~GT 2.143 CS,NGT 724.500 HTEN:NGT 250 C1.BGT -099.~50 C2.BGT -999.250 TEN$.BGT 547 283 75O 285 500 2 000 6 020 88 402 50) 500 662 332 000 291 250 2 281 88 402 5O2 50O 1917.654 ~0'250 2,143 9652 1551530 1060 000 5O2 5OO -999 250 Tape Verification bistinq lhlumberger AlasKa ComPuting Center 21-jUN-lg91 08:00 DEPT, 5800.000 CIDP,DTE IMPH.DTE 3.523 CILD,DTE .5oo I!RD,DTE 285,750 IIXD,DTE SFLU.DTE ~, 379 SP. DTE T~NS.DTE 2925,000 MTEM.DTE DPHI.LDT 20,258 RHOB'LDT 0 L $. L D T 0,027 Q S $ ' 1, D T _. ' 5L,LDT !93.875 LITH.LDT LSHV,LDT !248,000 SS~v,LOT ~UR~LDT 2.299 CAI I,LOT TENS,LOT ~925.000 ~TEM,LDT NPHI,CNL 43.416 TNPH.CNL NOO~.CNL 43,i49 ~CNT'CNL CFTC. CML 532,914 SGRiCNL CALS'CNL 9,547 TENS,CNL POTA :~GT 3'205 URAN · NGT W3NG.NGT 51,843 ~4NG,b. GT~ MTMM, NGT 87,875 MRES'NGT GR.BGT -999.250 Ci,BGT CALS.MSF 9,547 T DEPT. 5700,000 ¢IDP,DuE IMPH.DTE 2,602 CILO.DTE IL~,DTE 2.605 IFRE,DTE IIRD.DTE 319.750 IIXD,DTE SFLI.!.DTE 2.4!.0 SP,DTE TENS.DTE 2640,000 ~TEM.DTE DPHI,LDT 23,226 RHOB.LDT OLS.LDT 0,014 OSS, LDT LL.LDT 198,375 LITH.LDT LSHV LDT 1247,000 SSHV.LDT 5URH:hDT 2'277 CALI.LDT TENS.LDT 2640 000 MTEM.L[)T NPHI.CN!.~ 41:701 TNPH CNL NPOP CNL 41 996 RCNTiCNL CFTC:CNL 640!509 SGRoCN5 C~LS.CNL 9 383 TENS,CNL HTEN.CNL !.622,000 SGR,NGT POTA.NGT 3,205 URAN.NGT W3NG.NGT 51.843 ~4NG.NGT ~TE~.NGT 87,875 NRE$,NGT GR.BGT -999,250 Cl.BGT C~LS.MSF 9,383 DEPT. 5600.000 CIDP.DTE I~PH.DTE 3.076 CILD,DTE IL~.DTF 3.059 IFRE.DTE I/RD.DTE 278,750 IIXO.DTE SFLU.DTE 2.9~4 SP.DTE T~N$.DTE 2705.000 ~TE~.DTE DPH!.LDT 21.288 RHOB.LDT OLS.LDT 0.008 QSS.LDT ooo 000 ~4 -36 125 87 875 2.316 0,049 1~2;375 i309,000 10,250 ~7'875 43 149 20~5. 34 2925 000 95 434 0,569 6,912 999' ~0 38~:,000 3~8,000 0, O0 48,~31 -15,625' 87.875 2,267 0.017 111.875 .1309,000 9,398 87.875 40 717 2267 989 95 436 2640 000 95 436 0.569 6.912 2,143 -999.250 326.250 331,250 20 000 -16.o31 88.813 2,299 0.009 IDPH,DT$ IDOF.DTE I!RM.DTE SGR'DTE MRES,DTE DRHO.LDT LS,GDT SSI,LDT S1RH'LDT SGR'LDT ~RES.LDT THRA,CNL RCFT,CNL CGR.CNL ~TE~,CNL CGR'NGT W1NG,NGT wSNG'NGT cS~N¢~ C2.BGT IDPH,DTE ILD,DTE IDQF.DTE IIRM,DTE SGR,DTE MRES,DTE DRH0.LDT L$,LDT SS1,LDT SI~..LDT .bDT MRKS,LDT TNRA,CNL RCFT.CNL CGR,CNL ~TEM.CNL CGR.NGT W1NG,NGT W5NG.NGT CS.NGT C2,BGT IDPH,OTE ILD.DTE IDOF.OTE IIR~,DTE SGR,DTE MRE$.DTE DRHO.LDT LS,LDT ~.969 3'000 267000 95 434 2 143 0 033 359 750 219 250 2:189 95 434 2 .143 3 654 518 699 91,016 87,.875 9!'016 277,650 8.065 171~:~000 '99 ~50 2'615 35g. °°° 250 95.436 2-t43 0'003 370.250 2O8 5OO ~ 254 95 436 2 143 3 491 655 788 91 016 87 875 91 016 277~650 8 065 1818[000 -999.250 3 063 3:018 0.000 3O4 750 98:815 2.!33 -0'001 347.500 CIMP DTE Clb~ DTE IMOF DTE IIXM DTE CGR.DTE HTEN.DTE PEF'LDT L.~,LDT SS 'LDT L RH~LDT GR~LDT HTEN.~LDT RTNR.CNL CNTC,CNL CALI,CNL MRE$.CNL TMOR'NGT W2NG'NGT TENS,NGT HTEN NGT TENS:BGT CIMP:,DTE ClLM'DTE IMOF,DTE IXM.,DTE CGR,DTE HTEN.,DTE PEF,LDT LU,LDT $S2.LDT LSRH bDT CGR:LDT HTEN. bDT RTNR:CNL CNTC CNL CA :CNn MRES.~CNL TNOR NGT W2NG:NGT TEN$,NGT HTEN,NGT ~fN$.BG? CIMP.DTE CIL~.DTE IMQF.DTE IIXM.DTE CGR.DTE HTEN.DTE PEF,bDT hU.LDT 6,020 gl,Ol6 1606,,000 2-6!9 332'000 29!'250 2,281 91,016 1606;000 3'893 1917654 lo 25o 14 2 ~9~ 000 ~6 °°° 2.50 383'000 91'016 1622,000 41:: ° ooo 290 750 2.264 91. 016 1,622 000 3 877 2185764 9 398 2 143 9 530 155 530 2640 000 1622 000 -999 25O 324 750 3261750 0 000 13 531 81'024 1595,000 3.008 325,750 S Tame Yerlfication Llstf. nO blumberger, lasKaA Computing Center Lb,bDT LMHV.LDT b~R~ LDT TgN$'LDT MPHI..CNL CFTC,CNL C~LS.CNL HTEN.CNL POTA.'NGT W3NG.MGT MTE~.NGT GR,BGT CALM,MSF !84.750 ]247.00o 2,3~1 2705,000 46,262 44,255 579.108 9.211 1595 000 2 304 43 925 -999 250 LITH.LDT SSHV.LDT CALI.LDT TNP~.CNL RCNT,CNL SG~C~b SGR,NGT URAN,NGT W4NG.NGT MRE$.NGT Cl.BGT DEPT, I~PM.DTE IL~.DTE IIgD,DTE SFLU,DTE TENS.DTE DPHI,LDT OLS,LDT LL,LDT LSHV,LDT LURH,LDT TENS,bDT NPHI.CML NPOR CNL CFTC:CNL CALS.CNL HTEM.CNL POTA~NGT W3NG.NGT MTE~.NGT G~,BGT C~L$.~SF 5500,000 3,369 3,361 256 ~50 2780'000 18.289 -0.007 !7!,000 1247,000 342 43;!66 42,203 598,846 9,367 ~704,000 2 196 471952 90,125 '999,250 9,367 DEPT. I~PM.DTE IL~.DTE IIRD.DTE SFLU.DTE TEN$.DTE DPHI,LDT OLS.LDT LL.LDT LSHV.LDT LURH.LDT TENS.bDT NPHI,CNb NPOR.CNL CFTC.CNL C~L$.CNL HTEN.CNL 5400.000 15.258 14.402 69,563 16.484 26!5.000 34.407 -0.015 268,000 1247,000 2.096 ~5.00~ 48.26-3 44.657 604 049 ~650.000 CIDP.OTE CI50 DTE IFRE:DTE IIXD.DTE SP.DTE MTEM.DTE ~HOB,LDT OS$.LDT LITM,LDT SSMV.bDT CALI.LDT MTE~.LDT TNPH.C~IL ~CNT.CNL SGR.C~L TEMS.CNL SGR.NGT 21-JUN-199i 99,625 SSI,bDT i, 309,000 SIR~.LDT B 3 43.392 TNRA,CNh 2169.312 RCFT.CNL 98,8 5 CGR,CNL 2705 000 MTE~,CNb 98' ' ...8!5 CGR,NGT 2.3i3 W1NG~NGT 7,4'77 W5NG, NG'T 2,133 CS..,NGT -999,250 C2,BGT 298 750 000 34 188 -11 453 90 125 2.348 0 031 91 250 13!0 000 90. 5 41'452 2t76'752 2~ 03,215 80,000 103.215 2 740 12~987 2.066 -999,250 IDPH'DTE !DQF.DTE IIRM,DTE SGR.DTE MRES,DTE DRHO'LDT S~ $'bDT I,LDT $1RH,bDT SGR:,LDT ~RES,LDT TNRA ~Nb CG,,CNL MTE~.CNL CGR,NGT WbNu,NGT CS NGT C2:BGT 71 813 761438 20.000 9,563 -49.438 90,500 2.082 O.OOl 165.875 1310,000 8.703 9O 5OO 44~254 2300 465 2615 000 59:772 IDPH,DTE ILD.DTE IDOF.OTE IIRM,DTE SGR.DTE ~RES,DTE DRHO,bDT LS,bDT SSi.bDT S~R}{,LOT SGR.bDT MRES,LDT TNRA,CNL RCFT.CNL CGR.CNL ~TEM.CML CGR,NGT 204,625 2 ~0~ 98[ 15 2.133 3 6 88 13 81'16 4 304.673 1507 0 -999.250 ].346 316 o.ooo 277'75O 10~:215 O: '066 012 326,250 209.750 2'287 !03,215 '066 ~,582 5~7.6'91 4.t18 90,125 329. 0 15.984 !806.000 999.250 13.914 13.078 0.000 65 375 59i772 2 145 -0,014 500'75O 207.750 2.152 59.772 2 145 3i793 584 940 55.226 90.500 55.226 SS2.LDT bSRM.LDT CGR.LDT HTEN.LDT RTNR.CNL CNTC.CNL CALI.CNL MRES~CNL T~OR,NGT W2NG..NGT TENS.NGT HTEN,NGT TENS'BGT .I...P,DTE CILM, DTE IMOF.DTE IIXM.DTE CGR. DTE HTEN, DTE PEF;LDT LU, bDT S82 *bDT LSRH * bDT CGR,LDT HTEN.LDT RTNRoCNb CNTC 'CNL CALI 'CNL MRE$,CNL THOR.NGT W2NG.NGT TENS,NGT HTEN, NGT TENS.BGT CI~PDTE CILM:DTE I~OF.DTE IIXM.DTE CGR.DTE HTEN.DTE PEF.bDT LU.LDT SS2.LDT bSRM,LDT CGR.LDT HTEN.LDT RTNR.CNL CNTC.CNL CALI,CNb MRES.CNL TMO~.NGT PAGE: 10 299 81.024 1595 000 3 836 2070 798 9 352 2 10 729 155 ,140 2705 000 1595 000 -999 250 296 ~50 2971 50 0 000 19~344 84~118 1704 000 2 930 310. 500 · 283 000 2 336 84 118 1704 000 3 649 2074 243 9531 2 06~ 1 941 15~ 849 2780 000 1704 000 -999250 65,500 68,938 . :ooo 564 55.226 1650,000 2.516 465.500 305,750 2,096 55,226 1650.000 3.948 2175.289 8,703 2,145 6.195 Tape Verification Listing :hlumberger Al. asEa Computing Center POTa.NGT W3NC.MGT ~TEW.MGT GR.BGT C.~LS. EPT. ~P~,DTE Ib~,DTE SFLU,DTE TEMS,DTE DPHI,LDT OLS,LDT LL,LDT LSHV,LDT LURH, LDT TENS, LDT NPH!, CN L NPOR'CNL CFTC,CNL CALS,CNL HTEN,CNL POTA,NGT W3NG'MGT CALS'~SF DEPT, I~PM,DTE Ib~,DTE I ! RD DTE SFLU ~ DTE T~N$ DTE DPHI:LDT OLS,LDT LL,LDT LSHV.LDT LURM.LDT TENS.LDT NPHI,CNL NPO~,CNL CFTC,CNL C~LS,CNL HTEN,CNL POTA.NGT ~]NG.NGT ~TE~.NGT G~.BGT CALS.MSF 37, 90, 64. 8, 5300, 7' 7, lo3. 1248, 2, 2500, 43. 43 606 8 1619 39, 90, 72, 5200, 4, 4, 190, 4, 9400, 22, O, 198, 1248. 2. ~400. 41, 43. 609, 9, !623, 1. 43, 90, 59. 9, 500 MRES. NGT 5 6 3 C I. 648 000 CIDP E~E 688 CILD,DTE 82 IFRE,DTC 50 I!XD,DTE 168 SP'DTE 000 ~TEM,DTE 451 ~HOB,LDT 009 OSS,LDT 750 LITH'LDT 000 SSHV;LDT 252 CAbI,LDT 000 MTE~,LDT 130 TNPH,CNL 467 RCNT~CNL 322 SGR,CNL 930 TENS,CNL 000 SGR'NG~ 950 URAN'NO 500 MRES,~.GT 813 CI,BGT 930 000 CIDP,DTE 4 2 IFRE,DTE 000 IIXD,DTE 2!9 SP,DTE O00 MTEM,DTE 820 RHOB,LDT 004 OSS,LDT 750 LITH,LDT 000 SS~V LDT 270 CALI~LDT 000 MTEM.LDT 837 TNPH,CNb 69~ RCNT,CNL 259 SGR.CNL 352 TENS,CNL 000 SGR NGT 648 URANiNGT 781 w4~G NGT 313 MRES.~GT 156 C1.OGT 2.1 ~,J O ~-, 1. 99 :[ 08100 0.5~9 W!NG,NGT 185.259 2.988 W5NG.NGT 4,980 2.145 CS.NGT 1785,000 10.922 C2,BGT 11.047 1.17.5b] IDPH.DTE 8,188 ILD.DTE I~'0,000 IDQF,DTE 1,~21 IIRM,DTE -33, 13 SGR,OTE 90,500 ~RES,DTE 2.247 DRHO,LDT 0.021 LS.bDT 117,000 SSI,bDT 1310.000 S1RH,LDT 8.859 SGR.bDT 90,500 ~RES,LDT 2247, 6 RCFT,CNL 81.950 CGR.CNL 2500 O00 ~TEM,CNL 81~950 CGR,.NGT 3.186 WING,NGT 4 975 W5NG.NGT 2i~60 C$,NGT 10 38 C2.BGT 219.250 IDPH.DTE 2~,500 ILD,DTE 18,000 IDOF,DTE .703 IIR~,DTE -29,047 SGR DTE 90,3~3 ~RESiDTE 2,2 3 DRHO ~DT 0,037 LS,LDT 115.063 $SI,LDT 1310.000 S1RH,LDT 9,383 SGR,bDT 90.313 MRES,LDT 42 000 TNRA,CMb B9i728 RCFT,CNb 2178 428 CGR.C~L 2400 000 MTEM.CMb 78,428 CGR,NGT 2,884 WlNG.NGT 9,950 W5NG,NGT 2 193 CS,NGT 10~797 C2,BGT 8 5OO 8~453 0 000 124 5O0 81 95O 2 160 0.006 386.000 ~1! 75O 2 215 81 950 2 160 3 525 609 738 56 508 90 5OO 56 5O8 256 716 4 975 1839!000 11 039 213:125 78..428 ~.193 3731°12 000 214.250 2.211 78.428 497 617.714 55.866 9~.313 55 866 242:786 8,955 1839,000 10.492 ~2NG.NGT TENS NG'T HTEN:NGT TENS.BGT CIMP,DTE CILM. DTE I~OF:D'TE IIXM,DTE CGR.DTE HTEN.DTE PEF bDT LU bDT SS2 bDT LSRH bDT CGR bDT HTEN LDT RTNR CNL CNTC CNL CAb! CML MRES CNL THOR~NGT W2NGoNGT T .... NGT ...ENS, HTEN,NGT TENS,BGT CIMP DTE CILMiDTE IMOF DTE IIXM,DTE CGR,DTE HTEN DTE PEF:LDT bU,LDT S$2,LDT LSRH.LDT CGR,LDT HTEN,LDT RTNR.CNL CNTC,CNL CALI,CNL MRES,CNL THOR,NGT W2NG,NGT TENS,NGT HTEN,NGT TENS.BGT PAGE: t! 82. 669 2615.~ 000 2370. 13~ ~50 000 6O 9 1619 600 35~ 025 25O 295 250 2 240 56 508 1619 000 3 658 2135,051 8 859 2 160 6 080 000 1619 000 2270 000 2 ooo 2~ 000 o 00o 2,~65 55 66 1623 000 2 645 348 250 291 25O 2 ~60 55 66 1623 000 212 113 383 154 128,358 240~ 000 162 .~000 2280,000 Tape Verification Listinc4 hlU~berqerA!aska Computfng Center 21-JUN-1991 0B:0o 12 DEPT.. 5!00.000 I~PH.DTE 8,18@ !L~.DTE 7.41@ IIRD.DTE 116.435 SFLU.DTE 5,500 ',rEMs. DTE 2345.000 DPHI.LDT 31,035 QLS,hDT -0.024 LL.LDT 253.375 LSHV.LDT 1248,000 LURH.LDT 2,12! TENS.LDT 2345.000 NPHI.CNL 39,473 NPOR.CNL 36,321 CFTC,CNL 636,872 CALS'CNL 9.930 HTEN.CNL !710~000 POT~ MGT 1,549 W3NG:NGT 30.846 MTEM'NGT 90.125 GR.BGT 48.531 CALS,~SF 9,930 DEPT. 5000,000 I~PH,DTE 4.285 IL~.DTE 4.230 I!RD,D E 21 ,375 SwI. U.DTE .,082 TENS.DTE ~440.000 DPH!.LDT 18,925 QLS,LDT 0,001 LL.LDT 184.750 LSHV,LDT 1249,000 LURH.LDT 2.305 TENS bDT 2440.000 NPHI:CNI, 41,~50 NPOP.CNL 41,193 CFTC CNb 613.0,1 CAL$iCNL 9,2~9 MTEN.CNL 1774.000 POTA.NGT 2,172 W3Na. NGT 49.145 ~TE~.NGT 89.750 GP.BGT 50,906 CALS.MSF 9.289 DMPT. ~900.000 I~PW.DTE 4,164 !L~.DTE 4.055 IIRD,DTE 208,375 SFLII.DTE 3,727 TENS.DTE 2490.000 DPHT,LDT 15.816 OL$.LDT -0.005 LL.LDT 1~0.000 CIDP DTE GILD DTE IFRE DTE IIXD DTE SP..DTE ~TEM'DTE RHOB~DT QS$.GD~ LITH.bDT SSHV,LDT CALI.LDT MTEM,bDT TNPH,CNb RCNT.CNL 8GR,CNL TENS'CNL -~ NGT URAN,NGT W4NG,NGT MRES.NGT C!.BGT CIDP,DTE CILD~DTE IFRE,DTE IIXD.DTE SP.DTE MTE~,DTE RHOB,LDT QSS.LDT LITH.LDT SSHV LDT CALI bDT ~TEM LDT TNPH CNL RCNT CNL SGR.CNL TENS. CNb SGR.NGT URAN.MGT W4NG.NGT ~RE$,MGT C1,BGT CIDP.DTE CIhD.DTE IFRE.DTE IIXD.DTE SP.DTE ~TEM.DTE RHOB.LDT O$$.LDT I. ITH.LDT 121.~13 i 6.125 ,000 1~.42~ 90.1 5 2,138 0.045 ~56 625 1310 000 10 094 9O 1.25 40 294 2536 005 23~8'751 51ooo ,152 1.990 2.2.23 i0.859 244 250 245 500 20 000 33 89 750 2 338 0 O39 103!25O 1310 000 9 445 89 75O 41 416 2271 051 91 486 2440.000 91.486 3,164 4.274 2,254 6.355 243.625 244.875 20.000 23.531 -54.938 89.168 2.389 0.047 94.938 IDPH,DTE ILD,DT[ IDQ.F,.DT IIRM.DTE SGR.DT~ ~RES,DTE DRHO,LDT 5$~bDT SSI,bDT S~RH,LDT SGR,bDT ~RE$.bDT TNRA,CNL RCF.,CNL CGR'CNib MTE~,CNL CGR,NGT W1NG,NGT W5NC NGT · ,~ ~, CS,NGT C2,8GT IDPH,DTE ILD,DTE IDQF;DTE IIRM,DTE SGR DTE MRES DTE DRHO bDT LS.,LDT SSI,bDT S1RH,bDT SGR.LDT ~RE$,LDT TNRA,CNb RCFT,CNL CGR,C~b MTEM.CNb CGR,NGT W!NG,NGT W5NG.NGT CS,NGT C2,BGT IDPH,DTE ILD,OTE IDOF.DTE IIRM.OTE SGR.DTE MRES.DTE DRHO.LDT LS.LD~ SS1.LDT 8.203 7.~73@ 0,000 !27.250 ! 476 150 222~ 25 48 51 ~ 23 3'426 609'11'9 46,919 90'125 46~919 I~4~'289 .970 1822.000 10.539 4.090 4'070 0,000 221.500 91.~486 o 349 000 219 750 2 t95 91 486 2 254 3 50] 601 661 66 800 89 750 66.800 278.846 7.479 1794.000 6.246 4.102 4.082 0.000 230.875 99.359 2.307 0.081 341.750 229.875 CIMP.DTE ClLM,DTE IMOF,DTE IIXM.DTE CGR.DTE HTEN,DTE PEF.LDT 5I).LDT LSRH,LDT CGR,L~T MTEN,LDT RTNR'CNL CMTC,CNL CALI,CNL MRE$.CNL THOR,N~T W2NG,NGT TEN$-NGT MTEN.NGT TENS.BGT CIMP.DTE CILM.DTE I~QF,DTM IIXM.DTE CGR.DTE HTEN.DTE PEF.LDT bU,LDT $$2.LDT LSRH LDT HTEN LDT RTNR!CNL CNTC CNb CAGI'CNL MRES.CNL THOR,NGT W2NG.NGT TENS.NGT HTEN.NGT TEN$.BGT C!MP'.DTE CILM.DTE IMOF.DT£ IIXM.DTE CGR.DT£ HTEN.DTE PEF.bDT LU.LDT $S2.LDT 122.00'0 134,750 0.,000 -1,977 46.9:19 17!0.,000 2'506 445,750 307'2~0 2,'123 46'919 17!.0'000 2!75 10.094 2 22~ 7~ 333 617 345 000 ~710 000 2230 000 233 !25 236 ~25 0 O0 9 2O3 66 B00 [774 000 2 807 328 500 294 75O 2297 66-800 !774'000 3~7.46 2120,008 9,445 2,254 7'732 133,547 2440'000 1774,000 2210'000 239'875 246.375 0 000 4:121 78,460 1895.000 2.885 323.500 303.250 Tape Verification Listing ~h!umberger AlasKa ComPuting Center 2!-JUN-~991 0~:00 bDT 1247.000 SSHV,~DT L!.!R~.Lt.r 2.314 CALI,LDT TENS.bDT 2490 000 ~TE~,LDT NPHI'CNL 42 197 TNPM,CNL NPOR.CNL 44:1.04 RCNT,CNL CFTC,CNL 587,939 SGR.CNL HTEN,C~L 1895 00 SGR'NGT POTA.NGT 2..011 W3NG.NGT 37-886 WbNG'NGT MTE~,NGT ~9,1~8 MRES~NGT G~,BGT -999.250 C1.SGT CAbS"NSF 9,930 DEPV, 4800,000 CIDPi'D!E i~PM,DTE 5,949 CILD'D~E IL~.DTE 5,922 IFRE,DTE IIRD.DTE IIXD,DTE 150'000 SFLU,DTE ~ 738 SP,DTE TENS,DTE 2271,:000 ~TEM,DTE DPHT'LDT 28,;21~ R{{OB'LDT OLS,LDT -0,010 ' QSS,LDT L~.LDT 227,375 LITH'LDT LSH¥,.LDT 1247..000 SSHV,LDT LUR~,LDT 2'188 CALI bDT TENS,LDT 2275~000 ~TE~ LDT NPHi.CNL 39.013 THPH CML NPG~"CNL 30'586 RCNT,CNL CFTC,CML 641,901 SGR,CML CAbS,CML 9,859 TEN$,CNL HTEN.CNL ~797,000 SGR,NGT OTg,NGT 1,750 I..!R~.NGT ]NG.NGT 35,892 W4MG.NGT MTE~.NGT 88,688 MRE$.NGT GR.BGT -999,250 CI.BGT CALS.MSF 9,859 DEPT. 4700.000 CIDP DTE I~P~'D~ ' .~.E 5 1,7~ CILD DTE IL~..DTE 5,145 IFRE DTE IIRD.DTE 170.500 IIXD,DTE SFLU,DTE 4.828 SP.DTE TEN$.DTE 2270.000 MTEM.DTE DPMI.LDT 26,247 ~HOB,LDT OLS.LDT -O.018 OMS.LDT LL,LDT 219.875 LITH.LDT LSHV.LDT 1247.000 SSHV.LDT LURH.LDT 2,199 CALI.LDT T~NS.LDT 2270,000 MTEH.LDT NP~I.CNI, 42.369 TMPM.CNL NPO~,CNL 39.854 RCNT,CNL CFTC.CML 659.736 SGR,CNL CAbS.CML 9.242 TENS.CML HTE~.CNL ~833.000 SGR.NGT POTA,~GT 1,943 URAN.NGT ~310,000 9 516 89 188 43 258 2202 457 99 359 2490 000 99 359 2,584 9,970 2,307 -999.250 171,750 172'125 20 000 15.234 -66'8 5 88,6 B 2.185 148.~, 5 1310.000 9 969 88~688 39 5~4 2354 099 53 844 2275 000 53 844 0,83~ ~.994 2,490 -999,~50 190.875 50O 17.266 -56.844 88.125 2.217 0 029 1431125 1310.000 9.234 88 125 391729 2345 522 88:001 2270.000 89.001 2.692 $IRH,LDT SGR,LDT MAES,bDT TNRA,Chh RCFT,CNL CGR,CNL MTEM,CNL CGR,NGT W1NG.NGT W5NG.NGT CS,,MGT C2,BGT IDPH,DTE ILD,DTE IDOF,DTE II~,DTE SGR,~DTE MRES,DTE DRHO'LDT LS,~DT SSI,bDT S1RH~bDT SGR,bDT MAES,bDT TNRA"CNL ~CFT,CNL CGR,CN5 MTEM,C.L CGR,NGT w1NG,NGT W5NG,NGT CS.NGT C2.BGT IDPH.DTE ILO.DTE IDOF.DTE IIRM.DTE SGR.DTE MRES,DTE DRMO.LDT LS.LDT SSI.bDT S1RH,bDT SGR.bDT ~RES.bDT TMRA.CNL RCFT,CNb CGR.CNL STEM.CML CGR.NGT WING.NGT 2.135 307 576.43.4 7a,46o 89 188 78 460 309 073 13 958 1775 000 -999250 5 i6 159 O0 53 44 2"490 -0.,:004 426.500 209.000 2.20'3 53,844 2.'490 3.391 669.698 48,791 88.688 48,791 !68~495 3 988 825!000 1999 250 . 5 234 5ii37 0 000 182.750 88.001 2 516 0:013 415.000 218.125 2.148 88.001 2.516 3.515 592.998 65.882 88.125 65 882 249' .252 LSRM, bDT CGR, I,DT HTEN.LDT RTNR.CNL CNTC' CNL CALl.CML MRES.CNL ~T THOR,NG ' ~2NG.NGT TENS. NGT HTEN, NGT TENS i BGT TCIMP,D,~E CIblM~DT~ IMQF.DTE IIXM,DTE CGR.DTE HTEN'DTE PEF'LDT LU.LDT $$2,,LDT bSR. H,LDT CGR,LDT HTEN.LDT RTNR,CNL CNTC.CNL CALI CNI,, gRESiCN'b TMOR NGT W2NG.NGT TENS,NGT HTEN.NGT TENS.BGT CIMP.DTE CILM.DT£ IMQF.DTE IIXM:DTE CGR DTE HTEN.DTE PEF.LDT LU,LDT S$2.LDT LSRH bDT CGR:LDT HTEN,LDT RTNR,CNL CMTC,CNL CAI.,I.CNb MRE$.CNL THOR NGT W2NGiNGT 2 307 78.460 18951000 3818 5 ~ 307 11 291 161 515 2490,000 1895 000 -999 250 l :ooo . 750 16 0 000 2 293 48 791 1797 000 ,~ 311 39 000 297 750 2,188 48,791 ~797'000 3,707 2160.720 9,969 2 49O 4 976 90 728 2275000 1797' 000 -999 250 193,250 194,250 0.000 0.703 65'882 18i :ooo 2 313 390~000 3O2,750 2'203 65,882 1813,000 3,740 2~TM 8,440 140.578 iS Tane Veri. ficatlon Listing :hlumbergerAlaska Computing Center DEPT. IMPM DTE I~RD,OTE D.PHX'I, DT OL$ DT LSHV,LDT LURH,LDT T~NS,LDT NPH!,CNL CFT¢,¢NL C~LS~CNL HTE~,CNb PO~A..~GT W3 G,NGT MTE~,NGT GR.BGT DEPT, I~PM,DTE IL~,DTE IIRD,DTE SFLU,DTM TENS,DTE DPHI.bDT OLS,LDT LL.LDT LS~V,LDT L[!R~ LDT TEN$:LDT NPH~.CNL NPOR.CNL CFTC.CNL CAL$.CNL HTEM.CNL PGTA.NGT W3NG,NGT ~TE~,NGT GP.BGT C~I.S.~SF DEPT. I~PH.DTM ILM.DTE ITRD.DTE 4600,000 '7~4 179'875 5,211 2345,000 24,334 0,018 206,500 ~247,000 2'258 2345,000 40 443 37 700 649 312 9,!41 1856,000 1,316 26'652 87.625 -999,250 9,141 4500.000 15.672 ~5,383 6~'435 1!,094 23'70,000 30,509 0,001 2~0,625 1247,000 2,~45 2370.000 44,624 45,386 649,531 9,156 1914,000 0.935 22,388 87.1~5 -999.250 9.156 4400.000 10.3!3 10.289 74.938 CIDP.DTE CILD.DTE IFRE,DTE IIXD,DTE SP,DTE ~TEM,DTE RHOB,LDT OSS,LDT bITH,LDT SSMV.LDT CALI.LDT MTEM'LDT TNPH,C~L ~C~T~CN5 SGR,CNL TENS,CNL SGR,NGT URAN'~!GT W4NG..NGT ~RES.,NGT Cl'BGT CIDP.D~E CILD,DTE IFRE.DTE IIXD,DTE SP.DTE MTEM.DTE RHOB.LDT OSS. LDT LITH.LDT SSHV.LDT CAL!"LDT ~TEg. LDT TNPH.CNL RCNT.CNL SGR,CNL TENS.CNL SGR,NGT URAM.NGT W4NG.NGT ~RES.NGT CI.BGT C!DP.DTE CILD.DTE IFRE.DTE IIXD.DTE 21-JUN-1991 08:00 PAGE: 10,967 2 516 -g99 250 08,250 209.500 220.000 !5.680 '59.094 87.625 2.248 0 124 ~ 1309 000 9 266 87 625 3 37 227~ 2 324 7 23~ 729 000 7! 729 ,821 .595 2 525 67,563 67.563 20,000 1 270 -65 125 87 125 2 147 0 024 162"500 1310,000 9.234 87 125 44 115 2440 789 50 436 23~0 000 0 436 2.4~0 7.463 2.549 -999.250 87 813 '.5oo 20.00O 0.124 .~5NG, NGT 9.970 TENS*NGT 2270,000 CS,NGT 18t3.000 HTEN.MGT 1813,000 C2,BGT -9991250 TENS*BGT .999,.250 IDPH O.'E 4 79'7 .. ., T ~ IL[,DTE 4 770 D~F'D~E 0:~000 l R.~4, DT~ 198* 375 $C,~..DTE 71. ~RES,DTE 2.525 DRHO.LDT I:002 L S, b D T 38 750 SSl ,~DT 209,375 S1RH.~ DT 2.236 8GR bDT 7~'729 ~RES b f 2.525 TNRA CNL 3.41~ RCFT CNL 644.302 CGR.CNL 52.6 MTE~.CNL 87.625 WS~G,NGT 330 C S, N G T 1868 ' 000 C2, BGT '999. 250 IDPH*DTE ILD,DTE IDOF,DTE IIRM.,DTE SGROTE ~RES:DTE DRHO,LDT LS,bDT MS1.LDT S1RH,LDT bDT ~RES:bDT TNRA,CNb RCFT,CML CGR,CNL MTEM,CNL CGR.NGT W1NG.NGT W5NG.NGT C$,MGT C2.BGT IDPH DTE II.D:DTE IDOF.DTE II~.OTE I4 789 14 789 0 000 6t 656 50 436 2 549 0.007 465.000 2~7.750 50 436 2 549 3.638 626.345 30.753 87.~25 30.753 170.576 3'198 1868.000 -999.250 11.383 11.555 0.000 92.000 CI~P,DTE CIbMoDTE IMOF,DTE IIXM.DTE CGR.DTE HTEN,DTE PEF,LDT LU.LDT $$2,LDT LSRH,LDT CGR bDT HTEN bDT RTNR~CNL CNTC CNL CALI CNL MRES CNL THOR~NGT W2NGNGT TENSNGT HTEN,NGT TENS.BGT CIMP,DTE CILM.,DTE IMOF,DTE IIX~.DTE CGR.DTE HTEN.DTE PEF bDT LU:LDT SS2,LDT LSRH.LDT CGR.LDT HTEN.LDT RTNR.CNL CNTC.CNL MRES NL TMOR.NGT W2NG.NGT TENS.NGT HTEN.NGT TENS.BGT CI~P.DTE CILM.DTE I~OF*DTE IIX~.DTE 6!3' 1856,000 · 2'691 354,250 295;250 2.246 52.613 1~56 000 3610 2111 211 9:266 2 525 7 7O5 I05 544 2345 000 IS56 000 -999'250 63,781 64,938 0 000 -6 105 30 753 1914 000 2 137 428 750 308 000 2 139 30 753 1914 000 4 078 2348 9 234 2 549 3 825 69 296 2370 000 1914 000 -999 25O 96,938 97'125 0,000 -6,051 Tape verification bisting lumberger Alaska Computimg Center ~T SFLiI.DTE 8,'16,4 SP,D,.E TENS DTE 2390,000 DPH! LDT 29.753 RHOB.I...~DT OLS LDT '0.014 OSS,bDT bL'LDT 235'625 L!TH.bDT LSH¥.LDT !247;000 SSH¥~bD~ TEN BDT ~390,000 ~TE~,LDT .NPHI,CN[. 46;350 TNPH,CNL NPOR.CNL 44'972 RCNT..CNb CFTC,CNL 588,248 SGR'CNb CALS.CNL '9.234 TEN$.CNL [tTEN.CNL 1880.000 SGR.NGT pOTA.NGT 1,943 URAN.NGT W3N~.NGT 28,856 W4NG,NGT ~TE~;NGT 86,500 ~RES,NGT GP.BGT '999,250 Ci.BGT CA!~S,~SF 9,234 D~PT. 4300,000 CIDP.DTE 'i~PN.DTE !5-289 CILO'DTE I!.,"'DTE I5'078 IFRE,OTE I~RD,DTE 60'156 IIXD~TE SFLI. I,DTE ~3,406 SP ~TE TEN$.DT~ 2275,000 ~TE~ DTE DPHI.LDT 34.3~1 RHOB LDT OL$.LDT '0.00! QSS.bDT LL.bDT 274,250 LITH.LDT LSHV,LDT 1247,000 SSHV,LDT LUR~ bDT 2.096 CAbI,LDT T~N$:LDT 2275 000 MTEM.LDT NP~!.CNL 40,694 NPO~.CNL a0,565 RCNT CFTC,CN[, 648.116 CALS,CNL 10.742 ENS.CNL }~TEN.CNL 1906.000 SGR .NGT POTi,NGT 1 802 URAN.NGT W3~!C NGT 31:841 W4NG,NGT ~TE~:NGT ~6.000 ~RES,NGT G~.BGT -999.250 CI.BGT CAL$.MSF 10.742 DEPT. 4200.000 CIDP.DTE I~P~.DTE 18.750 CILD.DTE Ib~.DTE 18.3~8 IFRE.DTE IIRD.DTE 53.063 IIXD,DTE SFLU.DTE 17.828 SP.DTE TEN$.DTE 2255.000 MTE~.DTE DPHI.LDT 34.9~3 RHOB.LDT OLS.LDT 0.002 OS$.LDT Lb.bDT 280.500 LITH.LDT LSHV.LDT 1247.000 $SH¥.LDT LUR".LDT 2.0~4 CALI bDT TENS.LDT 2255.000 MTE~:LDT NPHI.CNL 43.4~9 T~4PH.CNL 21-JUN-1991 08:00 -59, 2. 45, 2325, 64. 2390. 64, 3, 999. 64 66 2O 0 86, 2. O, 188, 309. ~0 86 4O 24i3 5O 2275 50 O. i. 2, -999, 594 SGR,DTE 500 MRES.QTE .{~59 DR~O'bDT 000 LS.bDT 1.25 SSi,bDT 000 S1RH.LDT 1 SGR.LDT ~0 MRES'bDT 217 TNRA,'CNL 201 RCFT,CNL 773 CGR~CNL 000 MTEM,CNL 773 CGR.NGT 123 WING,NGT 980 W5NG,NGT 3 CS.NGT ~0 C2'BGT 3!3 IDPM,DTE ~0 IbD'DTE 0 IDOF,DTE 930 IIRM,DTE 969 SGR,DTE 000 MRES,DTE 084 DRHO'LDT 004 LS,LDT 625 $$1.LDT 000 S1RH,bDT 992 SGR,LDT 000 MRE$ bDT 736 TNRA:CNL 245 RCFT,CNL 970 CGR,CNL GO0 MTE~,CNL 970 CGR,NGT 443 WlNG,NGT 990 W5NG.NGT 605 CS.NGT 250 C2.BGT 52 563 IDPH.DTE 56!906 ILD.DTE 20 000 IDQF.DTE 2,150 IIRM,DTE -34.813 SGR.DTE 85.563 MRES.DTE 2.074 DRHO.LDT 0.008 LS.LDT 186.375 SSI.bDT 13~9.000 S1RH.bDT 10.180 SGR.LDT 85.563 MRE$.LDT 43.459 TNRA.CNb 64.773 2i563 .-0 007 441750 2O8 50O 2 19! 64 773 2 563 3744 592:998 73 487 86 ,5OO 73,487 ~72.139 9.950 1823,000 -999,250 I~,547 1 ,969 0,000 62,906 970 s -0 009 5O7 5.OO 210 750 2 129 50 970 2 6O5 3 550 632 042 48 169 86 000 48 169 159 2O4 7 960 1851,000 -999.250 19 016 17~563 0.000 51.781 56.048 2 ~84 -0~ 07 518.000 212.875 2.107 56 O48 22484 3.649 CGR.DTE HTEN.DTE PEF.LDT LU.LDT SS2.LDT bSRH.LDT CGR,I~DT HTEN,LDT RT iC.U CNfC.CNL CALI.CNL MRES.'CN5 T~OR,NGT W2NG.N'GT TENS.NGT HT.EN,NGT TENS,BGT CI. MP,DTE CILM~DTE !~OF,DTE ilX~DT£ CGR,DTE HTEN'DTE PEF,LDT LU,LDT SS2,LDT 5SRH,LDT CGR,LDT HTEN.bDT RTNR,CNL CNTC.CNL CALl CNL MRES:CN.L THOR,NGT W2NG.NGT TEN$.NGT HTEN.NGT T£NS.BGT ClMP.DTE CILM.DTE IMOF.DTE IIX~.DTE CGR.DTE HTEN,DTE PEF.LDT LU LDT SS2:LDT LSRH.LDT CG~.LDT MTE~.LDT RTNR.CNL 15 73 487 1880 000 2 459 412 500 303 500 2 t64 73 487 1880000 3 899 2170 298 ~9~391 2.563 10,332 96'517 2390,000 1880,000 -999'250 65.175 66. 50 0 O0 -I.:~93 48'169 1906,000 75O 309,000 169 000 2255 193 .605 4 610 86 567 2275 000 ~906 000 -999 250 53,281 54.531 0.000 -8.352 43.330 1895,000 2 285 475 250 311 25O 2 080 43 330 1895.000 4'074 Tape Yer~,flcation Listin~ ~blumberoer Alaska Computing Center NPOR,CML 43 322 RCNT.CNL CFTC.CML 625 704 SGR.CI~L CAbS.CML 9 992 TENS'CML HTEN.CNL 1895 000 SGR'~GT POT~.NGT i 829 URAM'NGT W3N~ NGT .33 898 W4NG.NGT MTE~NGT 85.563 ~RES.NGT GR.BGT -999,250 CI,BGT CALS.MSF 9,992 DEPT. 4100,000 CIDP.DTE I~PH.DTE ~1'953 CILD'DTE !L~.DTM 1.2.117 !FRE~DTE IIRD,DTE 81'938 IIXD,DTE SFLU DTE 10,867 SP,DTE TENA'DTE 2120~000 ~TE~'DTE DPHI:LDT 61,600 RHOB,LDT OLS.LDT 0'023 QS$,LDT LL.LDT 595~500 L!TH,LDT LS}{V,LDT !247~000 SSHV,LDT bURH,I~DT !,664 CALI,LDT TENS.LDT 2120'000 ~TE~,LDT NPHI,CNL 63'607 TNPH.CML NPO~.CNL g0,878 RCMT,CNL CFTC.CML 282,579 SGR,CNL CALS CML 9,906 TENS.CML MTE:.CNL 1907,000 SGR'MGT POTA NGT 1,214 ORAN,NGT W3NG:NGT ~0.937 W4NG,NGT ~TE~.NGT 84,875 MRE$.NGT GR.BGT -999.250 CI,BGT CALS,MSF 9.906 DEPT. 4000.000 CIDP.DTE I~P~.DTE 5,402 CILD,DTE IL~ DTE 5 203 IFRE,DTE I!RD:DTE 155:375 I!XD.DTE SFLU.DTE 5 266 SP,DTE TENS.DTE 2085i000 ~TF~.DTE DPHI.LDT 28 557 RHOB,LDT OLS.LDT -0.018 Q$S. LDT LL.LDT 248.500 LITH.LDT LSHV.LDT ~247.000 SSHV.LDT LURH.LDT 2.137 CALI.LDT TENS.LDT 2085,000 ~TEM.LDT NPH!,CNL 43.220 THPH.CNL NPOR.CML 43.804 ~CNT.CNL CFTC.CML 541.781 SGR.CNL C~LS.CNL 10,086 TENS.CML HTEN.C~I. ~914 000 S~R.NGT POT~.NGT !:547 I.IRAM NGT w3~.NGT 42.735 MTE~.NGT 81.418 GR.BGT -999.250 C1.BGT CaL$.~SF 10.086 2].-JUN-].991 OB:O0 24t, 8 157 RCF!.CNL 56' 048 CG~, CML 2255.000 56,048 CGR~NGT 1.7~5 W1NG'NGT 7. ~ 6 W5NC NGT 2. 484 CS,NGT '999. 250 C2, BGT 85.500 90.750 20.000 5,531 -28,969 84,875 ~..634 0 1 !~10 000 10 352 84 875 85 794 i4~0 q43 o 979 2120 000 70 979 2.125 5.982 2.432 -999.250 IDPH'DTE ILD.DTE 0 ~' ~ ID ~ ,DrE IIRM'QTE SGR, DTE MRES.DTE DR~O · bDT L $, LDT S$~,LDT $1RH. bDT SGR. LDT MRES'LDT TNRA, CNb RCFT,CNL CGR,CNb MTEM CML CGR NGT W1NG NGT W5NG NGT CS NGT C2,BGT 176,625 17~.750 20.000 12,008 -42.438 8~..438 2.179 0 026 ~49~000 1310,000 9,820 81 438 43:786 2090.392 83.191 2085,000 83.i91 1.358 7.479 2.389 -999.250 IDPH.DTE ILD~DTE IDOF DTE IIRM DTE SGR.DTE ~RES,.DTE DRHO.LDT LS,LDT SS!,LDT S1RH,LDT SGR.LDT MRES'LDT TNRA,CNb RCFT.CNb CGR.CNL MTE~.CML CG~.NGT WING,NGT WLNG,NGT C$.NGT C2.BGT 6.41.375 43.330 85.563 43,330 158.524 2.991 1899.000 999,250 11.688 11 08 'o 78 88 70'~79 2'432 -0 014 1~!4 000 225 750 1 701 4'765 295.427 52'303 84.875 52.303 982 !911'000 999,250 5.660 5594 0:000 180.750 83.191 2.389 0.043 465 750 2.025 83,191 2,389 3.609 515,911 74.016 81,438 74.016 252.137 14.957 1886.000 =999.250 C~TC,CNiI.. CALI.CNL MRES.CNL THOR'NGT W2N NGT HTEN,NGT TENS.BGT CIMP~DTE CILM,DTE I~QF~DTE IIX~ DTE CGR DTE HTEN DTE PEF bDT LU bDT SS2 LDT LSRH'LDT CGR,LDT HTEN'LD~ RTNR,CN[ CNTC,CNL CALI,CNL MRES,CNL THOR.NGT W~NG.NGT TEN$,NGT HTEN,NGT TEN$.BGT CIMP.DTE CIL~.DTE IMOF.DTE IIXM.DTE CGR,DTE HTEN DTE PEF:LDT LU.LDT 882.LDT LSRH.LDT CGR.LDT HTEN.LOT RTNR,CNL CNTC.CNL CALI.CNI, MRES.CNL THOR.NGT W2NG.NGT TENS.NGT HTEN.NGT TENS.BGT PAGE: 16 226i.$94 3 294 76 770 2255 000 1895 000 -999 250 83,625 82,500 0,000 ~4,430 2,303 1907.000 1:420 1037 000 350 000 i 646 1907 0 5226 1414254 10 352 2 432 8 045 110 668 2120 000 ~907 000 999 250 185 000 192 125 0 000 1 319 74 016 1934,000 1 660 43 500 323750 2 135 74 016 1934 000 3 776 1961 367 9 820 2 389 12 084 122 863 2085 000 1934 000 -999 250 Tape Verification Ltstl, na 21-JUN-1991 08:00 ;b!umberoer A],aska Computlnq Center PAGE: 17 D~PT. 3900.000 CtDP.DTE 149 750 !DPH. DTE I~P~'DTE 6..582 CILD DTE 152 375 ILD,DTE IL~.DT~ 6,492 I RE,DTE 20 000 IDOF~DTE IIRD,DTE 134,375 IIXD"DTE il 523 I~RM;DTE SFLU DTE 6 641 SP.DTE -50 ~50 SGR,DTE TENS~DTE ~070 000 ~TE:~. DTE B!,~5~3 MRES'DTE DPHI.LDT 35 483 RHOB~ LDT ~.065 D~HO,GDT OLS,LDT '0 020 QSS,bDT 0,006 LS.'LDT LL,LDT 278,000 LITH'LDT 178,00 SS1 b ~ LS~V'LOT 1247'000 SS~V.LDT 1309.00 S1RH,LDT LUR~'LDT 2,092 CALI,LDT 8'977 SGR,LDT TENS,LDT 2070~000 MTE~'LDT 8~ ,~] ~RES,LDT NPH!.CNL 48,330 TNPH,CN5 48~.0~5 TNRA,C.NL NPOR.CNL 48,913 RCNT.CNL 2223.540 RCFT,CNL CFTC CNL 550,641 SGR,CNL 67,872 CGR, CN5 C~LS CNL 8,930 T~NS,CNL 2070~000 ~TE~, CNL HTEN:CNL 1867,000 oGR.NGT 67,872 CGR,NGT POTA'NGT 2,:~79 URAN.NGT 0.648 W!NG,NGT ~3NG.NGT 45.989 W4NG'NGT 7,487 W5NG.NGT ~.TE~, NGT 81'563 MRES.NGT 2't05 CS,NGT GR,BGT '-999.250 C1.BGT -99g.250 C2,BGT CALS,~SF 8,930 DEPT. 3800,000 CIDP.DTE I~P~ DTE 11 563 CISD'~TE IL~:DT~ ,'1 ~58 IFRE,DTE IIRD'DTE 82 000 IIXD,DTE SFLU,DTE ~1,000 SP.DTE TKNS..DTE 2125,000 ~TE~,DTE DPHI LDT 31'060 RHOB,bDT OLS'LDT. 0.01© QSS,LDT L[.oLDT 256,250 LITH.LDT LSHV.LDT ~247.000 SSMV.LDT LU~H,LDT 2,141 CALI,LDT TEN$.LDT ~1~5,000 ~Tg~.LDT NPHI.CNL 42,107 TNPH.CNL C~LS.CNL ' 8~7~7 HTEN.CNI.. 19~0~000 SGR NGT PO~,NGT 2.077 URAN:NGT W3NG NGT 32.869 W4NG,NGT ~TE,:NGT 80.375 MRE$.NGT G~.BGT -999,250 CI,~GT CILS.~$F 8.797 87.813 91.t88 20.OO0 5,473 -~7.438 80'375 2,138 0.031 16~ 875 131 000 8 78! 80 375 40 2606 5 369 212~ 000 59 369 0.503 6.972 2.381 -999.250 IDPH,DTE IDOF,DTE IIR~,DTE SGR,~TE MRES,DTE DRHO,LDT LS,LDT S$X,5DT $1RH,bDT SGR,LDT MRES,LDT TNRA,CNL 8CFT.CNL CGR.CNL ~TE~,CNL CGR,NGT W1NG.NGT W5NG,NGT CS,NGT C2,B~T DEPT. 3700,000 CIDP.DTE 148.875 IDPH.DTE I~P~.DTE 6.449 CILD.DTE 151.000 ILD.DTE IL~.DTE 6.316 IF~E.DTE 20.000 IDQF.DTE II~D.DTE 130.500 IIXQ.DTE 7.668 IIR~.DTE SFLU.DT~ 5.695 SP.~TE -59.031 SGR.OTE TFNS.DTE 1950.00.0 ~TEH.OTE 78.188 MRE$.DTE DPH!.LDT 34.408 RHOB.LDT 2,062 DRHO.LDT OLS.LDT -0.016 QS$.LDT 0.010 L$.LOT 6.676 CI~P,DTE 6'.559 CILM.DTE 0.000 I~OF.DTE 145 .125 IIXM,DTE 67 872 CGR.DTE 2 105 HTEN,DTE -0 011 PEF.LDT 521 000 LU:,LDT 210 625 SS2,5DT 2 119 LSRH,I~DT 67 .872 CGR'LDT 105 HTEN'LDT 9 RTNR'CNL 541 ~9 CNTC,CNL 63 96 CALI.CN5 81:563 ~RES'CNL 63 ~996 THOR,NGT 206 41~ W2NG,MGT 4 27 , TEN$,NGT 819.000 HTEN,NGT 999.250 TEN$.BGT 11.383 Ci~P,DTE 1~ 953 CI.LM,DTE 000 IMQF,DTE 84 .125 I!XM,DTE 59 369 CGR,DTE 2 381 HTEN.DTE 0 007 PEF,LDT 472.000 LU.LDT 218.125 S$~,LDT 2.104 LSRH,LDT 59.369 CGR,LDT ~.38! HTEN'LDT 3 3 RTNR.CN .46 b 6o~ ~ C~.CN~ 80.375 MRE$.CNL 60.562 THOR,NGT 176.295 W2NG.NGT 3.984 TEN$.NGT 1846.000 ~TEN.NGT -999.250 TENS.BGT 6.711 CI~P DTE 6.621 CIL~iDTE IMQF DTE 0.O00 149.125 IIXM.DTE 88.694 CGR.DTE 2.348 HTEN.DTE 0.001 PEF,LDT 5!2.500 I,U.LDT I51 750 153 875 0 000 -1 396 63 996 1867 000 2 4i0 486 000 30~2.50 074 6.3 996 1867 000 4 8 5 21t8 977 2 105 .1011:004 743 2070 000 1867 000 '999 250 86 375 88 750 0 000 -3 525 60 562 1940 000 2 500 431 500 306 250 2 129 60 562 1940 000 3 700 2 381 6 566 107 570 2125 000 1940 000 -999 250 155.000 158.250 0.000 -1 922 701689 !.90~ 000 2 850 476.000 Tape verification btst].nq .hlumberger Alaska Computing Center LL.LDT 274,750 LIT~{.. LDT LSHV,LDT 1. 247,000 SSHV,LDT LURH.LDT 2,084 CALI.LDT TENS,LDT ~.950,000 ~TE~'LDT N P H !. C N 1, 53,93'6 T N P'H · C N b NPOR'CNL 56,486 RCNT,CNL CFTC.CML 377,937 SGR,CNB CAbS,CML ~0,469 TENS,CML HTEM,CNL 1903,000 SGR, . POTA,NGT ~.,240 URAN,NGT W3NG NGT 33,084 W4NG,NGT STEM' .MGT 78,188 MRES,NGT G~.BGT -999,250 C1,BGT CAbS,NSF !0,469 DEPT, 3600,000 CIDP,DTE I~P~.DTE 7,109 C'ILD:~-DTE L~,DTE 7,023 !FRE'DTE iIRD,DTE 1~8,625 IIXD,DTE SFLU.DTE 6't09 SP.DTE TFNS'DTE 1990'000 ~TEM.DTE DPHI,LDT 31,.164 RHOB,LDT OLS,LDT 0,003 OSS.LDT Lb,bDT 253,.500 LITH,LDT $HV,LDT 1247,000 SSHV,LDT URn'bDT 2,i41 CALI,I.~DT TENS.'LDT !990,000 STEM,bDT NPHI..CNL 47'401 TMON'CML NPO~.CNL 47 810 RCNT.CNL CFTC.CML 475 365 SGR.CNL CAbS,CML 10 313 TEN$.CNL HTE~,CNL 1905,000 SGR.NGT POTA.NGT 1,898 URAN,NGT W3NG.NGT 37,313 W4NG,MGT GP.BGT '999 50 Ct~BGT C~LS,NSF 10.3~3 DEPT, 3500,000 CIDP DTE ~PH,DT~ 9,539 CILD~DTE IL~.DTE 9.3~8 IFRE.DTE I!RD.DTE 90.625 II×D,DTE SFLU.DTE 7.973 SP.DTE T~N$.DTE 1560.000 ~TEM.DTE DPHI.LDT 30.3?8 RHOB.LDT OhS.bDT -0.007 OSS.LDT Lb,bDT 245.625 I. ITH.LDT LSHV.LDT 1247,000 SSHV.LDT LURH.LDT 2.150 CAbI.bDT TENS.bDT !560,000 MTE~.LDT NPH~.CN[, 53,865 TNPH.CNL NPO~.CNI. 56.310 RCNT,CNL CFTC.CML 435.256 SGR.CNL CAbS.CML 9.820 TENS.CML HTEN.CNL 1922.000 SGR.NGT 21-JUN-!.99~. 0B:00 1.57 !309 10 78 56 1728 !950 88 2 6 -999 !25 SSi,bDT 000 SIRH,bDT 867 SGR.bDT 188 M~ES,LDT 215 TN~A,CNb 810 RCFT*C~L 6.94 CGR,CNL 000 ~TEM~CNL 694 ,.300 W1NG,NG~ ,403 W5NG'N~I .348 CS,NGT · 250 C~,BGT 133,~25 ~34, 75 20,000 6,410 -57.469 77.500 ~,136 0.004 153,750 1309,000 10 539 77 500 47 757 1968 814 99 139 1990,000 99,139 2 420 9:595 2.~77 -999,250 IDPH,DTE IbD,DTE IDQF.OTE I!RN,DTE SGR,OTE ~RES,~DTE DRHO,LDT LS,.LDT SSl,bDT SIR}{,LDT 8GR,LDT MRES,LDT TNRA,CNL RCFT~CNL CGR,CNL STEt'CML CGR,NGT W1MG,NGT WLNG,NGT C$,NGT C2.BGT 99,750 ~01,938 20,000 3,646 -58,438 76,938 2,1~9 0 023 1.36!500 1309 000 9,586 76,938 54 O36 1871~874 103,363 1560.000 103.36~ IDPM,DTE IDD,DTE IDQF.DTE IIRM.DTE SGR.DTE ~R~S.DTE DRHO.LDT LS,bDT S$1.LDT SI~H,LDT $~R.LDT ~ES,LDT TNRA.CNL RCFT.CNL C~R,CNb STEM.CML CGN.NGT PAGE: !8 217.625 SS2,LDT 3~7 250 2.074 bSRH.LDT 2 080 88.694 CGR,LDT 70 689 2,348 HTEN.LDT 190~ 000 4,270 RTNR*CNL 4,698 359.830 CNTC.,CNb 1628,855 70,689 CALI,CNL 10,867 78,..~88 MRES,CNL 2~348 70*689 THOR,NGT 12'513 28!,750 W2NG,NGT t29,~36 18,14] TE~S.NGT !950'000 1922'.000 HTEN.,NGT ~903,000 -999,250 TENS.BGT 999,250 7.504 7,410 0.000 !34.250 99.139 2,277 0 OO3 469 000 216 000 2.:1~9 99 I 9 2 277 3 896 428 .192 79 585 77.500 79.585 299.574 !4 925 1866~000 -999.~50 0 016 19:805 0,000 101.375 103.363 2,701 0.006 458.000 ~17.125 2.117 103.363 2.701 4.171 439.659 60.346 76.938 60.346 C!MP'DTE CILM,.DTE IMQF'DTE IIXM,DTE CGR,DT~ HTEN'DTE PEF'LDT 'L~.~LDT SS2,LDT bSRH bDT CGR:LDT HTEN,LDT RTNR'CNL CNTC,CNL CAbI'CNL MRES,CNL TMOR,NGT W2NG,NGT TENS,NGT HTEN N~T TeNS:BGT CI~P.DTE CILM.DTE IMQF.DTE IIXM.DTE CGR,DTE HTEN,DTE PEF,bDT bU.LDT S$2 bDT LSRH~LDT CGR,LDT HTEN,LDT RTNR,CNL CNTC.CNL CALI,CNL MRES,CNL THOR,NGT 140 6'25 142 250 o o0o -2 928 79 585 0~00 ~'90~602 43~ 000 354 250 2 131 79 585 1905 000 4 167 1848 499 lo 539 2 277 12 032 155 650 ~990 000 1905 000 -999 250 104.750 107.125 0,000 -3,779 60.346 1922 000 2:771 424,500 307,250 2,143 60,346 1922,000 4.735 1825,365 9,586 2,701 8.912 Tape Verification Li :hltlmbergerAlaska Comp POTA,NGT 1,49]. W3NG,NGT 46,766 MTE~,NGT 76,93.8 GR,BGT -999,250 CRPS,MSF 9,820 DEPT. 3400,000 I~P~,DTE 18~063 !L~ 'DT~ 17'391 IIRD.DTE 55,656 SFLU.DIE 15,930 TEN$,D E 1795,000 DPHI,LDT 22,805 OLS.LDT 0,022 LL'LDT 201,875 LSHV,LDT 1247,000 LUP~,LDT ~,273 T~NS,.LD~ !795'000 NPHI,CNL 26'886 NPOP,CNL ~6~993 CFTC,CNL !000,427 CAL$.CNL 10,344 HTEN,CNL 1846.000 POTA.NGT 0,~45 W3NG,NGT 26,91'9 ~TE~,NGT 75,063 G~.BGT -999,250 C~LS,~SF 10.344 DEPT, 3300,000 I~P~.DTE 10,430 IL~,DTE 10,344 IIRD.DTE 81,250 SFLII.DTE 8,727 TEN$.DTE !745,000 DPHI,LDT 31.547 OL$.LDT -0,004 5L.LDT 255,625 LSHV LDT 1247.000 I, UR~:LDT 2,13! T~NS,I.,DT ~745,000 NPHI,CNL 47,901 ~POR.CNL 45'034 CFTC,CNL 536,837 C~L$,CNL 9,266 HTE~.CNL 1887.000 POT~,NGT 1,583 W3N~.NGT 29,947 MTE~.NGT 75,81.3 G~.BGT -999.250 CILS.~SF 9.266 sting uti~g Center MREg, NGT CIDP'DTE CILD'DTE IFRE.DTE SP,DTE MTEM'DTE RHOB.LDT LITH'LD~ SSHV bDT CALI LDT MTE~ bDT TNPH CML RCNT CNL SGR.CNL TEMS,CNb SGR,NGT URAN,NGT W4NG.NGT MRES,NGT C!,BGT ClDP.DTE CILD.DTE IFRE.DTE IIXD,DTE SP,DTE MTE~,DTE R[]OB~I.,DT OSS, LDT 5ITH.LDT SSHV'LDT CALI,LDT MTE~,LDT TNPH.CNL ~CNT.CNL SGR'C~L TENS CNL SGR~NGT URAN,N(;T W4NG.MGT MRES,N~T CI,8GT 21-dON-1991 08:00 5. 158 W1NG,NGT 7. w NC- CS,NC, T "999 50 C2,BGT 57, 60, 20, -65, 75, 0. 134' 1308' I0' 75 3070 49 i795 49 2 7. 2, '999, 969 IDP~,DTE 719 IbD,DTE 000 IDOF,DTE 785 IIRM,DTE 625 SGR,DTE 0~3 MRES,DTE 2 4 DRHO,bDT 017 LS,LDT 625 SSI,LDT 000 $1RH,LDT 523 sGR,LDT 063 MRES,LDT 047 TNRA'CNb 444 RCFT.CNL 28 CGR,CNL 00 MTE~,CNL 1.28 CGR,NGT 136 W1NG,NGT 976 WSNG,NGT 604 CS,NGT 250 C2.BGT 89.250 91,688 20,000 3,473 -54'813 75.813 ~ 129 0 014 157 125 1309 000 9,461 75.813 45,133 2114.695 74,429 1745.000 74.429 3,699 6.417 2.5~8 -999.250 IDPH,DTE ILD.DTE IDOF.DTE IIRM,DTE SGR,DTE MRES,DTE DRHO bDT LS LDT S$! LDT S1RH bDT SGR,LDT MRES.LDT TNRA,CNL RCFT,CNb CGR,CNL ~TE~,CNL CGR,NGT WlNG,NGT W5NG,NGT CS,MGT C2,BGT 313 433 , 9.950 1889,:000 -999.250 17 234 16 453 0 000 54 563 49 .128 2604 0:010 374.750 212 875 49 128 2 604 2 698 1032 082 32 310 75,063 32 310 1311605 6.979 !917,000 -999,250 11,1.95 10.898 0 000 91 438 74 429 2 568 0 003 474 750 216 375 2 111 74 429 2 568 3 835 545 759 75.813 45.781 27~,727 4.278 1894 000 -999~250 W2NG.NGT TENS,NGT HTEN,NGT TENS.BGT C:INP,DTE CILN'DTE I~OF.DTE CGRiDTE HTEN.DTE PEF,LDT LU,LDT SS2,LDT bSRH'LDT CGR.LDT HTEN,LDT RTNR CNb CNTC CML CALI CNL MRES CNL THOR NGT W2NG NGT TENS,NGT HTEN,NGT TENS.BGT CINP.DTE CIbM~DTE IMOF.DTE IIX~.DTE CGR.DTE HTEN,DTE PEF.LDT LU'I.DT SS2.LDT LSRH.LDT CGR.LDT HTEN..LDT RTNR CNL CNTCiCNL C~L! CNL MRES,CNL THOR,NGT W2NG.NGT TEN$.NGT HTEN.NGT TENM.BGT PAGE: 19 126 365 156O 000 1922 000 -999 250 55 313 57 469 0 000 '5 492 3~ 310 184 000 2'273 345'750 297,000 2 262 3 i Io 184~ OO 2 933 2720,793 578 56830 1,795 000 !846 000 -999 250 95,813 96.563 0,000 '5'734 45,781 1887,000 2,396 438,250 3112,250 ,125 45,781 1887,000 4.367 1979,549 568 4'913 124,064 1745.000 1887.000 -999.250 S TaDe Verlfication bi. sting hlumbergerAlasKa Computinq Center 21-JUN-199! 08:00 PAGE: 2O DEPT. I~PH'~)TE ! LM. DTE 'IIRD.DTE SFLU,DTE TENS.DTE DPHI.LDT OhS.bDT LL.LDT 5SHV.LDT LU~H..LDT TENS.LDT NPHI,CNL NPDP..CNL .CFTC.CNL CALS.CNL HTEN,CNI., POT~.'NGT G~.BGT CALS,MSF DEPT. I~PM,DTE b~.DTE IIRD.DTF SFLU,DTE TEN$.DTE DPHI~LDT OLS'bDT L[~.LDT LSHV bDT LURM:LDT NPO~.CNL CFTC.CNL CALS.CNb HTEN.CNL POT~.NGT W3NC,NGT ~TE~.NGT GR,BGT CALS.~SF DEPT, I~PM,DTE !L~,DTE IIRD.DTE SFLU.DTE TMNS.DTE DPHI.LDT OLS.LDT bL,bDT 3200 000 8 6O2 8 492 99 063 7 418 1695 000 31 558 -0,002 252.25'0 ~246 000 169~ 1411 000 48.232 45,376 505.942 I!33 !.91 ~000 !.825 28'913 74,813 '999,250 9,133 3100,000 16.406 14.688 61,750 16,641 1675,000 53,2~1 0.,021 675,500 12~7,000 1,791 1675 000 55:047 52 034 393:444 9.484 1793,000 !,185 ~7,916 74.375 -999,950 9.484 3000,000 11.133 1!.1~8 79.3 3 9.258 1555.000 37.333 -0.014 317.750 CIDP,DTE CILO.DTE iFRE'DTE IIXD,DTE SP,DTE MTE~.DTE RHOB,LDT QSp.bDT LITH'LDT SSHV'LDT CALI,LDT MTEM'LDT ~C~T,C~'L 8GR'CNL TENS~CM~ SGR,NGr URAN.NGT W4NG.NGT MRES,NGT CI.BGT ClDP'DTE CILD,DTE IFRE,DTE IIXD,DTE SP,DTE ~TEM.DTE RHOB.LDT OSS.LDT LITH,LDT SSMV,LDT CALI.LDT MTEM.LDT RCNT.CNL SGR.CNL TENS CMl, SGR:NGT []RAN NGT W4NG~NGT ~RE$'NGT C1.BGT CIDP.DTE CILD.DTE !FRE.DTE IIXD.DTE SP.DTE MTE~,DTE RHOB.LDT OSS.LDT LITe.bDT 109,125 20.000 5,391 '70,750 74.813 ~,'!29 0,006 154.750 1308,000 9,289 74,8!3 46'431 2070,408 72.~98 1695.600 72,198 1.396 2,991. 2.889 -999,250 65.500 66 938 2O 000 -2 721 -50 906 74.375 1.772 0,000 385.500 1308 000 74. ~5 53.0 9 1778.942 58.603 1675 000 58:603 2.845 2,991 2.367 -999.~50 ~6.250 89.000 20.000 4.809 -57.250 74.313 2.034 0.033 204.375 IDPM,DTE ILD.DTE IDQF.PTE IIR~.DTE SGR,DTE ERES,DTE DR~O,bDT LS.LDT SSI.,LDT S1R~'LDT SGR,bDT ~RES,LDT TNRA,CMb RCFT,CNL CGR..CNL MTEM'CNL CGR.NGT ~iNG,NGT i'5NG.NGT CS.NGT C2'SGT I DPH, D... E ILD, DTE IDOF.,DTE SGR.DTE ~RES.DTE DRHO,LDT LS,LDT SS1.,LDT S1RH,LDT SGR.LDT MRES.LDT TNRA.CNL RCFT,CNL CGR.CNL MTEM,CNb CGR.NGT W1NG,NGT W5NG,NGT CS,NOT C2.BGT iDPH,DTE ILD.DTE IDOF,DTE IIR~.DT[ SG~.DTE MRES.OTE DRHO.bDT bS.LDT SSI,bDT 9156 0.000 !!1,313 72,!98 .2,889 0.:005 468.,250 21~:375 152 72,.198 2,889 3.839 446.349 59,964 74.813 59,964 222.333 5.982 1920.000 -999.250 15.250 14.922 0,000 64.563 58.603 2,367 -0.o0g 882.000 224,500 1.816 58.603 2.367 4 ~80 36.8~3 74.375 36.813 ~9! 426 !006o000 999.250 11.586 11.227 0.000 84.938 58.570 2.652 0.032 592..000 234.250 CIMP.DTE CILM.DTE IMQF.DTE IIX~.DTE CGR,DTE HTEN,DTE PEF.LDT LU.LDT S$2'LDT LSRH.LDT CGR"LDT HTEN,LDT RTNR.CNL CNTC,CNL CAhI'CN5 MRE$,CNL NG,NGT TENS,NGT HTEN.NGT TENS,BGT CIMP,DTE CILM,DTE IMQF..DTE IIXM,DTE CGR,DTE MTEN.DTE PEF'LDT LU,LDT SS2,LDT bSRH,LDT CGR.LDT HTEN,LDT RTNR,CNL CNTC.CNL CALi,CNL MRES.CNL TMOR,NGT W2NO.NGT TEN$.NGT HTEN.NGT TENS.BGT CI~P.DTE CILM.DTE IMQF.DTE IIX~.DTE CGR.DTE HTEN.DTE PEF.LDT LU.LDT SS2.LDT 16,t25 '~!7,688 .0,000 o,5oo 59~964 ~914~000 2'564 431;750 306.,750 2.133 59,964 1914,000 3 629 1902 020 g 289 2 889 7 450 92 722 !695,000 1914 000 -999 250 60,906 68 063 0 000 't0 047 36 8.13 .179~ 000 846 ?50 31 780 8~3 1793 000 4 929 1639 009 10:133 2,367 8 755 1675,000 1793,000 -999'250 8 813 0o000 12.656 51,492 1855.000 2.207 548,500 335.000 IS, 'TaPe Verification Listlno :hlumberger Alaska Computing Center DEPT. MPH,DTE IILM.DTE IIRD'DTE ~SFLU,DTE TENS.DTE DPHI.LDT OL$.LDT LI~. LDT LMHV, LDT LURH LDT ~ FN.. LDT NPHI,CNL MPOR CML CFTC:CNL C~L$.CNb HTEM.CNL POTA.NGT W3NG,NGT MTE~,NGT G~,BGT CALSo~SF DMPT. IMP~.DTM IYRD.DTE SFLU.DTE TENS.DTE DPHI.LDT OLS.LDT LL.LDT LSMV.LDT LURH.LDT TEN$.LDT NPHI.CML NPOR.CNL CFTC.CML CALS.CNL ~TEN.CMI, POT~,MGT 1247,000 2.004 ~555,000 45. 35 42.594 484.803 11,359 1855,000 1,:753 36~286 74,313 -999'250 11,359 2900.000 13.250 ~2.664 8,6~5 ~1.344 1480,000 35,254 -0,002 292,000 !248,0:00 2,061 1480,000 43.657 41.635 552,45! 101016 1764,000 0,99~ ~9.883 7!..813 '999.250 !0.016 2800.000 10.395 9,992 80.875 lO.078 1505,000 28,755 -0.004 232.500 1249 000 2~182 1505.000 46.527 46.545 455,736 IO.801 !.854.000 1,8~7 SSHV.LDT CALI,LDT · '~LDT THPH.CNL RCNT,CNL TENS'CNb SGR,N~T URA~,NGT W4NG'NGT MRE$,NGT CI'BGT CIDPi'DTE CILD'DTE iFRE,DTE IIXD.,DTE SP,DTE MTMM,DTE RHOB~LDT Q$S,LDT LITHLDT SSHV bDT CALI bDT ~TEM bDT TNPH CML RCNT CML SGR.CNL TEN$,CNL SGR.NGT URAN.NGT W4NG.NGT MRE$.NGT C1.BGT CIOP.DTE ClLD.DTE IFRE.DTE IIXD.DTE SP.DTE MTEM.DTE RHOB.LDT OSS. LDT LITH.LDT SSHV.LDT CALI,LDT MTEH.LDT TNPH.CNL RCNT,C~iL SGR.CNL TEsS.CML SGR,NGT [JRAN.NGT 21,'JUN-1991 08:00 1309.000 $1RM.LDT 1.913 13.352 SGR,bDT 58.570 74.313 MRES,LDT 2.652 42.943 TNRA.CNh 3.855 !926.819 RCFT CML 462.600 58~:~70 CGR:CNL 51'492 155~ O0 ~TE~.CNh 74.313 5~,~70 CGR.NGT 51,492 0,840 Wl~G.NG~ 177.16i 5.336 W5NG,NG~ 6,.403 -999, 0 C2'BGT 999.250 73, 75. 20. 5, 64. 7!, 0 200 1308 10 71 44 2280 52 1480, 2, 6. -999: IDPH,DTE 000 IDQF;DTE 621 IIRM,DTE 188 SGR~.~DTE 813 MRES,DTE 068 DRHO'LDT LS,LDT 000 S1RH.LDT 086 SGR'.bDT 813 MRES,LDT :318 TNRA,CNL 803 RCFT.CNL 912 CGR'CNL 000 MTEM.CNL 912 CGR,~GT 013 W!NG,NGT 403 W5NG.NGT 828 CS.NGT 250 C~.BGT 89. 90. 20, 1, -56, 71, O, 129. 1311. 10 49 2025, !505. ~6. 2. 063 !DPH,DTE 75 ILD,DTE O0 IDOF.DTE 152 IIRg. DTE 844 SGR.DTE 3~3 MRES,DTE 1 6 DRHO.LDT 015 LS,LDT 125 S$X.LDT 000 S!RH.LDT 672 SGR,LDT 313 MRES.LDT 073 TNRA,CNh 504 RCFT.CNL 269 CGR.CNL 000 MTEM.CNL 269 CGR,NGT 498 WJ. NG,NGT 3.680 3.203 0.000 52 12 2.1828 0009 54~,000 223 ,375 2 021 52 912 2 828 3 654 53!:483 36 978 71 813 36978 161 .153 7 471 1952 000 -999 250 11.219 10 992 0~000 94.688 86.269 2.832 0 003 433:750 213.500 2.162 86.269 2,832 3.859 453.996 66.317 7!.313 66.317 264.064 LS'RM,LDT CG~,LDT HTEN,LDT RTNR.CNL CNTC.CNL CALI.CNL MRES,CNL THOR,NGT ~2NG-NGT TENS,NGT HTEN,NGT TE~'S'BGT IMP.DTE IL~,DTE CGR DTE HTEN DTE PEF. LDT sLULDT S25DT LSRH bDT CGR bDT MTEN bDT RTNR CML CNTC CNL CALI CNL MRE8 CML THOR NGT W~NG NGT TENS NGT HTEN NGT TENS.BGT CIMP,DTE CILM'DTE IMOF.DTE XIXM.DTE CGR.DTE HTEN.DTE PEF,LDT bU.LDT SS2,LDT LSRH LDT CGR:LDT HTEN.LDT RTMR.CNL CNTC.CNL CALI.CNb MRES,CNL T~OR.NGT W2NG.NGT PAGE: 21 2~002 51 492 1855 000 3 891 1794206 13~352 80~043 I555:000 I855000 -999 250 o;ooo - 3,195 ]16.'978 1764,000 2,. i 3 96,000 .059 36.978 11764 000 3 788 202:3904 514~ 736'3 148O0O0 1764'000 -999,250 063 0 000 -2 318 66 317 1854,000 3,111 402'750 304,000 2'172 66.317 1854,000 4,055 1810'270 832 9,021 136.625 S Tape Verification Listing ~hlumberger Alaska Comput~n~ Center W]NG NGT 42.480 I{4,MG,NGT '~TE~'NGT. 71 3t3, . MRES,MGT~... GR,BGT -999,250 C!.BGT C~LS,MSF 10,891 DEPT' 2700 000, CIDP,DT.~E IMPH.DT~ t950.000 CILD,DTE Ib~ DT~ 1950.:000 IFRE,DTE IIRD,DTE 97,000 IIXD,.DTE SFLU DTE 9696.000 SP,[ TE TEN$,DTE !465'000 MTEM.DTE DPHI.LDT 53,597 RHOB,LDT OLM,LDT 0,111 QSS,LDT LL,LDT !24'250 LITH.LDT L$MV,LDT ~ 2511,000 $SHV,LDT LURM,I, DT 2,551 CALI,LDT 1465.000 ~MTEM,LDT TMNS,LDT NPMI,CNL 155,854 TNPH,CNL NPOR,CML 52.820 RCNT,CNb CFTC.CNL 322.016 SGR'CN~ CALS,CNL 8.969 TENS.CNL MTEM,CNL ~8~2,000 SGR°MGT POTA,NG? 0,616 URAN,NGT W3NG'NGT 1~.859 W4NG,NGT MTE~,NGT 71 ,563 MRE$,NGT GR.BGT 49 344 Ci-BGT CAL$.MSF 8,969 oo.ooo L~,DTE 1950 000 IFRE,DTE IIRD'DTE 60 063 IIXD,DTE SFLU.DTE 9696,000 SP.DTE TEM$,DTE ~645,000 MTEM,DTE DPMI.LDT 48,871 ~HOB.LDT OLS,LDT 0'073 O$S, LDT LL,LDT 112,938 LITH,LDT LSHV,LDT 1250.000 SSHV,LDT LURM.LDT 2.592 CALI.LDT TENS.bDT 1645.000 ~TEM.LDT NPH~ CNL 55..650 TNPH.CNL NPO~:CNL 52.752 RCNT.CNL CFTC.CNL 3o4,i95 SGR.CML C~L$.CNL 8,992 TENS.CNL HTEN.CNL !888.000 SGR,NGT POTa.NGT O,49! URAN.NGT W]N~.NGT 14.9~5 W4NG.NGT MTEM.MGT 71.938 MRE$.NGT G~.BGT 61,750 CI.BGT CSLS.MSF 8.992 DEPT. 25OO,000 CIDP.DTE I~P[{.DT~ -999,250 CILO.DTE IL~.DTE -999.250 IFRE.DTE IIRD,DTE -999,250 II×D.DTE 21-JUN-199! 08:00 12.629 2'832 -999,250 W5MG,NGT 8.037 TEN'S.N~GT CS,NGT 1922,000 HTEN,NGT C2.BGT -999.250 TENS.BGT 20° -40 1, 1312, 9. 71 1465, 33, . 2~ 11, 50O 0U0 5OO 625 563 766 :132 297 000 094 563 238 800 000 332 420 264 8O5 IDPH,OTE iLD.DTE IDOF'DTE IIRM.OTE SGR.DTE MRES"OTE DRHO,LDT LS,LDT SSl,LDT $1RH,LDT SGR'bDT Ti~RA,CNL RCFT'C~L CGR'CNL CGR,NGT W1NG,NGT WSNG'NGT C$,NGT C2"BGT 9"297 9.195 0.000 -551.500 32 42 -0 730 238 375 72 750 4 070 33.332 2 842 4 239 340 559 2! 864 71 563 2! 864 99 147 3 !198 1957 000 12,281 CI~P..DTE CIL~,DTE I~OF'DTE IIX~,DTE CGR,DTE HTEN.DTE PEF.LDT LU.LDT S$2,LDT bSRB,LDT CGR,LDT HTEN LDT RTNR CNL CNTC CALI CN5 ~RES.CNL THOR,NGT w2NG.NGT TENS,NGT HTEN,NGT TENS,BGT ~4. 66, 20. -411. 1. 4. 1312. 9 71 52 1319 45 1645 45, 3. 6, 2, 1l. 938 625 000 500 227 938 844 129 78 0 4 328 714 955 000 194 397 86'/ IDPH,OTE II~D.DTE IDOF.DTE IIR~DTE SGR,DTE MRES,DTE DRHO,LOT LS,LDT S$1'LDT S~.RH,LDT SGR,LDT ~RES,LDT TNRA,CNL RCFT,CNL CGR,CNL ~TEM,CNL CGR,NGT WlNG,NGT W5NG,NGT CS,NGT C~,BGT 15.383 15.000 o.o0o -413'250 45.955 2.848 -0701 74.125 3 955 4'228 314.~10 21. 55 71.938 21.155 170.576 5,330 1960.000 12,164 CIMP.DTE CILM.DTE IMOF.DTE IIXM.DTE CGR DTE HTEU!DTE PEF LDT LU.LDT S$2.LDT LSRH,LD'T CGR.LDT HTEN.LDT RTNR.CNL CNTC,CNL CALI.CNL MRES.CNL THOR,NGT W2NG.NGT TENS,NGT HTEN,NGT TENS.BGT -999 250 -099i250 -99g 250 -999.250 IDPH.DTE I L D, O T g [)OF, DTE IR',' DTE -999.250 -999.250 -999 ~50 -999:~50 CI~P.DTE CIL~.DTE IMOF.DTE IIXM.DTE PAGE: 22 1505.000 ~854,.000 999,250 '557,000 -556,000 0,000 1430,000 21 864 !842 000 21969 228 250 !~3 1.25 2 494 21864 1842 000 5 091 4 2 ~42 2 ~0 4:2 644 1465 000 842. 000 }385 000 -409,500 -420.750 o ooo 1495 000 21. 1888 000 17 ~75 216 25 21155 1888~000 4,588 1247 177 9.094 ,848 59 '255 ,701 1645,000 1888,000 1275.000 -999 250 -999"250 -999,250 Tape Verification Listing ~h.lumberger AlasKa Computin~ Center SF~!) DTE -999.250 SP DTE TENS[DTE -999.250 ~:TE~:DTE DPHI,t, DT -999,250 RHOB.LDT OLS.LDT -999.250 LL.LDT -999,250 LITN,LDT LSHV.LDT -999,250 SSHV,LDT LUR~{"LDT -999.250 CALI.LDT TENS,LDT -999.250 MTE~'LDy ~PH! CNL -999.250 TNPH,CNL C~LS.CNL -999.250 TE~S,CNL TEN.CNL -999,250 SGR'NGT OTA'NGT -999.250 URAN,NGT W3NG.NGT -999,250 W4NG,NGT MTEM.NGT -999.250 MRES..NGT GR,BGT 32.500 C1.BGT CALS.~SF -999.250 DEPT. 2400,000 CIDP.DTE IMPN~DT~ 999,250 ClLD,DTE IL~DTE :999,250 IFRE,DTE I~RD~DTE 999,250 IIXD,DTE ~FL!), DTE :999,250 SP,DTE T~NS.DTE -999,250 ~TEM,DTE DPHI.DDT -999,~50 RHOB-LDT Ob$.LDT -999.250 OSS,LDT LL,LDT -999,250 LITH,LDT L$~i¥.LDT -999,250 SS~V~LDT - LDT L).)RH,LDT 999,250 CALI. TENS,LDT -999,250 NPHI.CNL -999.250 TNPH.CNL NPOR.CNL -999'250 RCNT.CNL CFTC.CNL -999,250 CALS.C~L -999,250 TEN$,CNL HTEN.CNL -999.250 SGR.NGT POT~.NGT -999 250 URAN.NGT W3NG.NGT -999~250 W4NG,NGT MTE~.NGT -999.250 G~.BGT 53.656 d~.BGT CaL$.MSF -999.250 DEPT. 2300.000 CIDP.DTE I~PM.DTE -999,250 CIDD.DTE IL~.DTE -999.250 IFRE.DTE IIRD.DTE -999.250 IIXD.DTE SFLI.!. DTE -999 250 $P.DTE TENS.DTE -999;250 ~TEM.DTE DPHI.LDT -999.250 RHOB.LDT OL$. LDT -999. 250 0S$. LDT LL.LDT -999.250 5ITH LDT LSH¥*LDT -999,250 $SHV:LDT [.URH. bDT -999.25{) CAbI.LDT S,¢I~DT_ 999 250 MTE~4.I.DT 2t-JUN-199! 08:00 -999.250 SGR.DTE '999.250 ~RES,DTE -999.250 DRHO,LDT '999.250 L$.LDT -999.250 SSI,LDT -999'250 $~RH,LDT -999,250 SGR.LDT "999, 0 RCFT'CNL -999.250 'CGR.CNL -999.250 MTE~.CNL ~999.250 CGR.NGT :999.,250 ~I~G..NGT 999~2~0 W5NG'NGT '999.2 0 CS'NGT !2'.141 C~,BGT -999 250 -999 250 -999 250 -999 250 -999 ~50 -999 250 -999 250 -999 -999 250 -999,~50 -999.250 -999,250 -999.250 -999,250 -999.250 -999.~50 -999.~50 -999.250 999.250 999,250 ~2~070 IDPH.DTE ILDDTE IDOF DTE II~ DTE SGRDTE MRE$,DTE DRHO,~DT L$,LDT SS!,~DT SIRH.LDT SGR.LDT ~RES.bDT TNRA.CNL RCFT.CNL CG~.CNL '~TE~,CNL CGR,NGT W~NG.NGT W5NG,NGT CS,NGT C2,BGT -999.250 -999 250 -ggg:~SO -999'250 -999~250 -999.250 :999.250 999.250 -999.250 -999 250 -999:~50 -999.250 -999,250 IDPH.DTE ILD.DTE !DQF,DTE IIRM,DTE SGR,DTE ~RE$,DTE D~HO.LDT L$.LDT SSi.LDT S1RH.LDT SGR.LDT ~RES.LDT TN~.CNL 999250 -999.250 -999.250 -999.2:50 -999,~50 -999.~50 -999.250 :999.;250 ~999.250 2999' so ~999.250 .999,~50 .999'~50 .999,250 999~250 1~.336 -999.~50 -999 250 -999 250 -999 250 -Egg 250 -999 250 -999 250 -999 ~50 -999 ~50 -999.250 -999.250 -999 250 -999 ~50 -999 250 -999 250 -999 250 -999 250 -999..250 -999 250 -999i250 12 609 -999.250 -999.250 -999.250 -999.250 -999 250 -999:~50 999~250 -999.250 -999.250 -999.250 -999.250 -999.~50 CGR'DTE MTEN.DTE PEF'LDT LU.LDT SS2.LDT LSRH,LDT CGR,LDT HTEN,LDT RTNR,CNL CNTC,CNL CALI,CNL ~R.ES'CN5 THOR,NGT W2NG'NGT TENS,NGT HTE~'NGT TEN$,BGT ClMP-DTE ClLM'DTE I~QF.DTE IIXM~DTE CGR,DTE HTEN.DTE PEF,LDT LU,LDT $S2,LDT LSRM LDT CGR LDT HTEN bDT RTNR CML CNTC CNL CALI CNL MRES,CNh TMOR.NGT W2NG.NGT TENS NGT HTEN:NGT TEN$.BGT CI~P,DTE CIL~.DTE IMOF.DTE IIXM.DTE CGR.DTE HTEN.DTE PEF.LDT LU.LDT bDT LSRH]LDT CGR.LDT HTEN.LDT RTNR.CNL ,999, 999; '999; '999, "999 '999 '999 '999 '999 '999 '999 '999 '999 ~200 -999 -999 '999: .-999~ -999: -999 -999 -999 999 "999 '999 '999 '999 '999 '999 '999 '999.. '999, 1165. -999. 999, 999. 999, -999, -999, -999, -999, -999 -999 -999 -999 -999 23 250 250 0 50 ~0 250 25O 250 250 000 250 0 250 25O 25O ~50 250 ~50 25O 25O 000 250 250 250 250 250 250 250 250 250 250 250 250 250 :hlumberger AlasKa Com~uttng Center ~l-J!JN-1991 08:00 POR C:NL 999,250 RCN?.CNL -999.250 RCFT..CNL -999.250 FTC~cNL ~999.250 SG~.CNL -~99'250 CGR,CML --999.250 CALS.CNL -999'250 TENS'CNg -99911250 ~TEM CML 999..250 HTE~.~.CNL -999 250 SGR,NGT -999.250 CGR'NGT 999.250 POTA,NGT -999 250 URAN'NGT -999 ~50 ~ING:,NGT 999,2'50 G~'BGT 56,875 Cl,.'~..B~T 12 1.95 C2,BGT 12,555 C~LS.~.$F -999.~50 DE~T, !200.,000 CIDP.'DTE IMPH'DTE 999;250 CILD,DTE IL~'DTE 999,~50 IFRE'DTE IiRDiDTE -999,250 II~D~DTE SFLU.DTE 999 256 P,DTE TENS'DTE :999:250 MT~N,DTE DPHI,LDT -999'250 RHOB.LDT OLS,LDT -999,250 OS$oLDT LL.LDT -999,250 LITH,LDT LSHV,LDT -999,250 SSHV.LDT LURM.LDT -999'250 CALI,LDT TENS.LDT -999.~50 MTEM,LDT NPHI,CNL -999,250 TNPH.CNL NPOR.CNL -999.250 RCNT,CNL CFTC,CNL -999,250 SGR.CNL CALS.CNL -9~9 250 TENS'~NL HTEN'CNL -999 250 SGR.NGT POTA.NGT -999 250 URAN.NGT W3NG.NGT -999,~50 W4NG,NGT MTEM.NGT -999.250 GR.BGT 50,656 C'I.BGT C~LS,~SF -999,250 D~P?, 2.100,000 CIDP,DTE IMPH.DTE 999;250 ClLD.DTE ILM.D._ET -999,250 IFRE,DTE iIRD,DTE -999.250 !IXD.DTE SFLU. DTE -999,250 BP.DTE TW-.NS, DTE -999,250 MTEM.DTE DPHI,LDT -999.250 RHOB,LDT OL$.LDT -999 250 OSS., LDT LL.LDT -999:250 LITH,LDT LSHV'LDT -999,250 SSHV.LDT LURH.LDT -999.250 CALI.LDT TEN~,LDT -999.250 ~TE~,LDT NPH!.CNL -999.250 T~PH.CNL NPO~.CNL -999.250 RCNT.CNL CFTC,CNL -999.250 SGR.CNL CALS.CNL -999'250 TENS.C~iL HTEN.CNL -999,250 SGR. NG'I POT.~. NC.T -9~9.250 URAN.NGT W3NG.NGT -999.250 W4NG.NGT MTE~.NGT -999.250 ~RES.N~T GR.BGT 43.625 C1 .HGT CaLS.~SF -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 "999 250 "999 250 "999'250 "999,250 '999,250 11,984 IDPM,DTE ILD,DTE IDOF,DTE IIRM,DTE SGR.DTE DR~O,LDT LS"LDT $$!,LDT S1RH'~DT 6GR~LDT MRES,LDT TNRA,CNL RCFT.CNL CGR,CNL ~TE~i. CNL CGR,~GT WlNG. NGT w5NG,NGT CS,NGT C2,BGT -999. -999. -999. -999, -999, :999. ggg. ~999, .999, 999. -999. :999, 999, -999, -999 -999 -ggg -999 -999 -999. 13. 25O 250 25O 250 25O 25O 25O 250 25O 250 25O 25O 25O 25O 25O 25O 25O 25O 25O 250 8O5 IDPH'DTE ILD,DTE IOOF.DTE IIRM.DTE SGR.DTE MRES.DTE DRHO,LDT LS.LDT SS1.LDT S1RH bDT SGR:LDT ~RES,bDT TNRA.CNL RCFT,CNL CGR.CNL MTEM,CNL CGR,NGT WING.N~T WSNG.NGT CS,MGT C2,BGT ~999,~50 999,250 :999,250 999'250 -999.250 -999,250 -999,250 -999.250 -999,'250 -999.250 -999'250 -999.~50 -999.R50 -999'250 -999'250 -999,250 -999.~50 -999.250 99.250 11,914 -999.250 -999'250 -999'250 -999 ~$0 -999.~50 -999.250 -999.~50 -999.~50 -999.250 -999.~50 -999.~50 -999 ~50 -999~250 -999.250 -999.250 -999.250 -999.~50 -999.250 -999,250 15.281 CNTC,CNL CAhI.CNL ~RES,CNb THOR-NGT ~2MG,NGT TENiS,,NGT HTEN.NGT TENS,BGT INP'DTE IMOF DTE .II×N DTE CGR DTE MTEN DTE ~EF'LDT LU'LDT S$2~LDT LS~H,LDT CGR-LDT MTEN'LDT RTNR'CNL CNTC.,C~L CAbI,CNb MRES,CML THOR,NGT W2NG.NGT T ~ .... :ENS,NGT HTEN,MGT TEN$~BGT CINP.DTE CILM,DTE INQF,DTE IIXMDTE HTEN,DTE PEF,bDT LU.LDT S$2.LDT LSRH.LDT CGR.LDT HTEN.LDT RTNR.CNL CNTC.CNL CALI.CNL MRE$ CNL TMOR:NGT W2MG.NGT TENS.NGT HTEN.NGT TEMS,BGT · PAGE~ 24 '999,250 '999,250 '999,250 '999,250 '999,250 '999,250 -999.~250 ll40,O00 -999250 -9gg .250 -999 250 -999 250 -999 250 -999,250 -999=250 -999.250 -999:250 -999.250 '999~50 -999 50 999 250 '999 250 -999250 '999 250 '999 250 · -999 250 -999 250 1!15~000 -999'250 -999,250 -999'250 -999.250 999~250 -999.250 -999,250 -999,250 -999.250 -999 250 -999 250 -999 250 -999250 -999 250 -999 250 -999 250 -999 250 -999 ~50 ~999,250 .020,000 Tape Verification Listing 21-jU:N-19g! 08:00 :blumberger AlasKa Computing Center PAGE~~ 25 DEPT,~ Ib~.DTE IIRD.DTE SFLU.DTE TEM$,DTE DPHI,LDT OLS.LDT ItL,bDT LSHV.LDT bURH.LDT TENS.bDT NPHI.CNL NPOR.CNL CFTC.CNL CALS.CNL HTEN.CML MTE~,NGT GR,BGT C~b$,~SF DEPT. IMPH.OTE ILM.DTE !!RD.DTE SFLU.DTE TEM$.DTE DPMI.LDT OL$.LDT Lb.bDT LSHV.LDT LURH.LDT TFNS.LDT NPHI.CNL NPO~.CNL CFTC.CNL C~b$ C~L HTE~:CNL POT~,NGT W3HG.NGT MTE~.NGT GR.BGT C~LS.~SF DEPT. I~PM.DTE IL~.DTE IIRD.DTE SFLU.DTE TFNS.DTE DPMI.LDT OL$.LDT 2000,000 '999.250 '999'250 '999,250 '999,250 '999,i~50 '999. 50 '999 250 '999 250 '999 250 '999'250 '999.~50 '999 2!50 '999 250 '999 250 '999 ~50 '999:50 '999,250 '999 250 '999 250 48 969 '999,250 ~900.000 '999.250 '999.250 '999.250 '999.250 '999,25:0 '999,250 '999,250 '999"250 '999'250 '999 250 '999:250 '999.250 '999'250 '999.250 '999.250 '999.250 '999,250 '999.250 '999.250 49.656 '999.250 1800,000 -999 250 -9992250 -999,250 -999,250 -999,250 -999,~50 -999,250 CIDP.DTE CiLD,DTE IFRE.DTE IIXD,DTE SP.DTE MTEM,DT~ R}{OB'L[)~ QS$.LDT LITH.LDT SSHV.LDT CALI,LDT ~TEN.LDT TNPH.CNL ~CNT.CNL SGR,CNL TENS.,CNL SGR..NGT URAN.NGT W4NG.NGT MRE$,NGT C!~B. GT ClDP'DTE CILD'DTE IFRE,DTE IIXD,DTE SP,DTE ~TEM'DTE ~HOB.LDT QSS.LDT LITH.LDT SSHV.LDT CALl.bDT ~TEM'LDT TNPH.CNL RCNT.CNL SGR.CNL TENS.CHh SGR.NGT URAN,NG~~ W4NG,NGT ~RES.NGT C1.BGT CIDP.DTE CILD.DTE IFRE.DT£ IIXD.DTE SP.DTE MTEg.DTE R~OB.LDT ~S$.LDT -999.250 -999.250 -999.250 -999.250 -999.250 -999 250 -999250 -999~50 -999 250 -999 250 -999 250 -999 -999 ~50 -999 ~50 -999 250 -999 250 -999 250 -999 250 -999 250 12 258 -999.~50 -999,250 :999.~50 999.250 -999.250 -999 250 -999!250 -999 250 -999,250 -999,250 -q99.250 -~99 250 -9991250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 ~50 12 172 -999.250 -999.250 -999.250 -999.250 -999.250 -99g.~50 -999.~50 -999.250 tDPM,DTE ILD.DTE IDOF,OTE .IlRM,DTE SGR,DTE ~RES.DTE DRH~.LDT LS.LDT $S!'5DT S1RH'LDT SGR~LDT MRES,LDT TNRA'CNb RCFT,CML CGR,CML MTEM.,CNL CGR,NGT W1NG,NGT WbNG.NGT CS~NGT C2,8GT IDPH.DTE ILD'DTE ID~F.DTE IIRM,DTE SGR.DTE MRES,DTE DRHO,bDT L$,LDT SSI.:LDT SIRH.LDT SGR,LDT ~RES.LDT~ T~RA,CNL RCFT.CNL CGR,CNL MTEM,CNL CGR,NGT WlNG.NGT W5NG,NGT CS,NGT C2,BGT IDPH.DTE ILD.DTE IDOF.DTE !IRM.DTE SGR.DT£ ~RE$.DTC DRHO,LDT LS.LDT ~999.,250 ~999.250 999~250 ~999.250 :999.,250 .999.~50 999.250 -999:250 -999:250 -999 250 -999 ~50 992.50 -999 ~50 -999250 -999 250 -999 250 -999 -999 -999.250 ~999.250 .999.250 .999~i250 999.250 ~999.250 .999.250 999.~50 .999,250 .999.250 999.250 -999 250 -999:250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 13.~95 -999.250 -999.250 -999.250 -999.250 -999.250 999.250 -999.250 CIMP.DTE CILM.DTE iMQF.DTE IIXM,DTE CGR~DTE HTEN,DTE PEF*LDT bU.LDT SS2.LDT LSRH,LDT CGR bDT HTENLDT RTNR CNL CNTC CNL CALI CNL MRES,CNL THOR.NGT W2NG,NGT TENS.NGT HTEN.NGT TEN$.BGT CIMP.DTE CILM.DTE iMQF,DTE IIXM.DTE cGR'DTE HTEN,DTE PEF.LDT bULDT $S2:LDT LSRH,LDT CGR.LDT HTEN.LDT RTNR,CNL CNTC.CNL CAbI CNL MRES!CNb THOR NGT W2NG,NGT TEN$.NGT HTEN,MGT TEN$.BGT CI'~P.DTE CILM.DTE IMOF.DTE IIXM.DTE CGR.DTE HTEN.DTE PEF.LDT LU.LDT ':999.25o .999,250 ~999'250 999,250 -999'~:50 '999i~56 1999~250 .999.250 .999,250 1999~250 ~999'250 ~999,250 999~250 -999~250 '999'250 :999;.250 999":250 -999'250 [999~250 065,000 :999,:250 "~999,250 :999.250 .999,250 ~999.250 '999'250 '999,.250 -999.250 -999250 -999 250 -999.250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 975 000 ~999,250 999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 S Tape Yerlf.lcation bist~i, nq 'hlumberger AlasKa Computing Center LL.LDT -999.250 LITH.LDT bMHV.LDT -999.250 SSHV.LDT LURM.LDT -999'250 CALI.LDT TENS.bDT -999.250 MTEM.LDT MPMI.CNL -999.250 TNPH.CNL NPOR.C~L -999.250 RCNT'CNL C~TC~C~b -999'250 SGR.CN5 CALS.C~L -999,250 TEN'$.CNL HTEN.CNL ~999.250 SGR,NGT POTA.NGT -999..250 URAN.NGT w3NG*NGT -999.250 W4NG'NGT ~TEM.NGT -999.250 MRES.NGT GR,BGT 71,375 CI.BGT C~5S'~$F -999,250 I~P~.DTf IL~.DTE !IRD DTE SFnUiDTE T~NS.DTE DPMI.LDT OLS.LDT LL.LDT LS~¥.LDT LURH.LDT TENS bDT NPMI:CNL NPO~.CNL CFTC.CNL CAbS.CNb HTEN.CNL POT~.MGT W3~G.NGT MTE~.NGT G~.BGT !700.000 999.250 2999'250 999'250 -999,250 -999.250 -999.250 :999,250 999.250 999:250 -999.250 -999.250 -999 250 -999 250 -999 250 -999 250 -999 250 999.250 999.~250 5!,500 -999.250 CIDP.DTE CILD.DTE IFRE.DTE IIXD.DTE SP~OTE ~TEM.DTE RHOB,LDT OSS.LDT LITH,LDT SSHV,LDT CALI.bDT MTEM,LDT TNPH,,CNL RC~T,CNL SGR,CNL TENS,CNL SGR,NGI URAN,N~T ~RES.NGT C1.BGT DEPT I~PH:DTE IL~.DTE !IRD.DTE SFLU.DTE TENS.DTE OPH!.LDT OLS.LDT LL.LDT LSHV.LDT LURH.LDT TENS.LDT N~HI.CNL NPOR.CNL CFTC.CNL CaLS.CNL HTEE.C~L !600.000 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.256 -999.256 -999.250 -999.25o -999.250 -999.250 -999.250 -999.250 CIDP.DTE CILD.DTE IFRE.DTE IIXD,DTE SP,DTE MTEM.DTE RHOB.LDT OSS.LDT LITH.LDT SSHV.LDT CALI.LDT MTEM.LDT TNPH.CNL RCNT.CNL SGR,CNL TENS.CNL SGR.NGT 21-dON-1991 0~:00 PAGE: 26 -999. -999, -999, -999' :999. 999. -999, -999. -999 '999 '999 -999 250 SS~.LDT ~50 S1RH.bDT 50 SGR'LDT ~50 MRES.LDT 250 TNRA.CNL 250 RCFT,CNL 250 CGR.CNL 50 '.1 '~G'NGT 50 ~5~G,NGT 50 CS.NGT 555 C2,BGT -999.250 -999 25O '999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999~50 -999 250 '9991~50 12 86 S$2,LDT LSRM.LDT CGR.bDT HTEN.LDT RTNR,CNL CNTC.CNb CALI.CNL MRES.CNL THOR.NGT W2NG'NGT TENS,NGT HTE~.MGT TENS,BGT -999 250 -999 250 -999 250 -999 250 -999 250 ~-999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 980.000 999. :999. -999. -999. -999. -999. -999. -999, -999. -999 -999 -999 -999 -999 -999 -999 -999. -999~ 250 IDPH.DTE 250 I[.D.DTE 250 IDQF.DTE 250 IIRM'OTE 250 SGR,DTE 250 ~RES,OTE 250 DRHO.LDT 250 LS.LDT 250 SS1,LDT 250 $1RH,LDT 250 SGR.bDT 250 }~RES.bDT 250 TNRA'CNL 250 RCFT,CNL 250 CG~;CNb 250 MTEM,CNb 250 CGR,NGT 250 WlNG,NGT 250 W5NG.NGT ~50 C$.NGT 1~8 C2,BGT ~999,250 .999.250 ~999,250 999.250 -9'99.250 -999250 -999250 -999.250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 14.188 CI~P.DTE CILM,DTE I~QF,DTE IIXM.DTE CGR~DTE MTEN.DTE PEF.LDT LU bDT SS2:LDT LSRH bDT CGR~LDT HTEN,LDT RTNR,CNL CNTC'CNL CALI,CNL MRES,CNL TNOR.NGT W2NG.NGT TENS.MGT HTEM,MGT TENS.BGT '999.250 '999,250 '999~250 '999'250 '999'250 '999.'250 '999,2'50 '999,250 :999,250 :999,250 999,250 2999'250 999.,250 -999"250 -999,250 -999,250 -999'250 .-999,250 -999,250 -999,250 905'000 -999.250 -999.250 -999.250 -999.250 -999 250 -999 250 -999 250 -999 250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 IDPH.DTE ILD.DTE IDOF DTE IIRM:DTE SGR,DTE MRES.DTE DRHO.LDT LS.LDT SSI,bDT S~RH,bDT SGR,bDT ~RES.bDT TNRA.CML RCFT.CNb CGR.CNL MTEM,CNL CGR.NGT -999.250 -999.25O -999.250 -999 250 -999i250 -999250 999]250 -999.250 -999.250 999250 999~250 999.250 -999.250 -999.250 -999.250 -999.250 CIMP.DTE ClbM.DTE IMOF.DTE IIXM.DTE CGR.DTE ~TEN.DTE PEF.bDT LU.LDT SS2,LDT LSRH.LDT CGR.LDT HTEN.LDT RTNR.CML CNTC.CNL CALI.CNL MRES.CNL THOR.NGT 999,250 999,250 -999,250 -999,250 -999,250 -999,250 -999,250 -999,250 -999,250 -999,250 -999,250 -999,250 -999 250 -999 250 -999 25O -999 25O -999 250 [$ Tape VerifY. cation bistinq :hlumberger Alaska Computing Center POTA.NGT -99Q.250 IIRA{~.NGT W3~'NGT -99~ 250 ' '~;NaT -999:, ' ~TE~. . 250 MRE$,NG~ G~.BGT 67,438 C!.B I CAbS.ESE '999.~250 DEPT. ~500 000 C!DP.D:.E IMPM,D. TE '999'250 CILD.DTE IL~'.DTE -999,.250 IFRE.DTE IIRD,DTE -999.250 IIXD.DTE SFLU. DTE -999,250 SP. DTE TENS'DTE -999.250 MTE~DTE DPHi ~I, DT '999.250 RHOB.LDT OLS'LDT -999. 2150 QMS' LDT LL~LDT -999'250 LITM,LDT LS[~V., bDT -999. 250 SSHV.BDT LURN. bDT -999. 2150 CALI'bDT TENM.LDT '999;250 MTEM.L. DT NPH!;CNL '.999.250 ~PH~CNL N 999,250 . NPO~iC..~L RCNT'CNL CFTC, CML '999 ~ 250 SGR' CML CALm. CML -999'250 TENS.CNF ~TEN.CNL -999. 250 SGR' .NGT POT~.NGT -999,250 UR~N,NGT W]N~.NGT '999,250 W4NG'NGT ~TEM,NGT -999,250 ~RE8~ NGT G~. BGT 69. ! 88 C! .BGT C~bM.MSF '999. 250 DEPT, 1400.000 CIDP"DTE I~PM DTE -999.250 CILD,DTE IL~:DTE -999.250 IEPE.DTE IIRD.DTE -999.250 IIXD.DTE SFL!.~.DTE -999.250 SP,DTE TEN$.DTE -999,250 ~TEM.DTE DPHI.LDT -999,250 RHOB,LDT OL$,LDT -999.~5© OSS.LDT LL.LDT -999.250 bITH LDT LSHV.LDT -999 250 SSHV:LDT LUR~,LD? -9991250 CALI.LDT TENS.LDT -999 250 MTEM.LDT NPHI.CNL -999' 250 TNPH.CNL MPO~.CNL -999.250 RCNT,CNL CFTC.CNL -999.250 8GR.CNL CALS.C~L -999,250 TENS.CML HT~N.CNL -999,250 SGR.NGT POTA.NGT -99~.250 I]RAN NGT W]NG.NGT -99~.250 W4NG:NGT NTE~,NGT -999.250 MRES.NGT G~,BGT 81,250 C1.BGT C~L$.MSF -999.250 21-JUN-1991 08:00 -999 250 WING.NGT '999.250 -999 250 W5N'G,NGT -999 250 ~999:250 CS.NGT -999:~50 12 141 C2,BGT 131305 '999.250 IDPH.DTE '999.250 ILD'DTE -999,250 IDQF'DTE -999.250 IIR~'QTE -999.250 SGR'DTE :999.250 MRE$'DTE '~50 DRMO'LDT .999:50 LS,bDT -~99 -999,256 SSI,bDT '999.250 S1RH,LDT '999,~50 SGR,LDT -999.250 MRES.LDT -999'~50 TNRA,CML :999.~50 RCFT,CNb 999'~50 CGR,CNL -999, 50 MTEM,CML :999,250 CGR.NGT 999.250 W1NG'NGT ~'NGT -999.250 -999.~50 CS,NGT 14,070 C~,BGT -999 250 -999i250 ~999 250 -999,250 -999.250 -999 250 -999 250 -999 ~50 -999 250 -999 250 -999 250 :999,250 999.250 '999.250 -999.250 '999.250 -999,250 -999,250 -999.250 -999.250 13.797 I DPH. DTE I LO, DTE IDQF.DTE IIRM,DTE SGR,DTE MRES,DTE DRHO.bDT bM.bDT SSi.bDT S1RH,LDT SGR.LDT MRES, bDT TNRA,CNL RCFT,CNL CGR.CNL MTEM,CNL CGR,NGT W1NG.NGT W5NG.NGT CS NGT C2:BGT -999:'250 -999.250 -999.250 :999,250 999.250 -999 250 -999 ~50 -999 ~50 -999 250 -999 250 -999 ,250 -999.250 -999 250 -999 250 -999 250 -999 250 -999 250 -999.~50 -999 ~50 14,063 -999250 -999!:250 -999 250 :999.250 .999.250 .999.250 .999.250 999.250 -999 250 , -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 999.250 :999.250 999.250 :999,250 12.906 W 2NG NGT TENS:NGT HTE~, NGT TENS, BGT CIMP..DTE CILM,DTE IMQF.DTE IIXM,DTE CGR,DTE MTEN,DTE PEF'LDT LU,LDT SS2,LDT LSRM,LDT CGR'LDT MTEN,LDT RTNR,CNb CNTC.CNL CALI'CNb MRES,CNL THOR,NGT W2NG.NGT TENM,NGT HTEN'NGT TENS.BGT CIMP.DTE CILM.DTE I~OF.DTE IIXM,DTE CGR,DTE HTEN DT£ PEF':LDT LU,LDT SS2.bDT ~SRH.LDT CGR.LDT HTEN,LDT RTMR.CNL CNTC,CNL CALI.CNL MRES.CNL TMOR.NGT W2NG.NGT TENS.NGT MTEM.NGT TEN$.BGT PAGE~ 27 '99'9' 250 -999.250 -999' 250 985'0OO -gg9 250 -999 25O '999 250 'gg9 250 '999250 '999 250 '99~ 250 '99 250 '999 250 '999250 '999 250 '99 250 '99~ 250 "999 250 '999250 '999250 '999250 '999 250 '999'250 '999~250 875,000 -999. 50 -999~0 -999:250 -999-250 -999.250 -999 250 -999250 m999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 815 000 :S Taoe verification Llstinq :hlu.mberqer Alaska Computing Center DEPT. 1300. 000 CIDP'DTE IMPH.DTE -999.250 CILD.DTE IL~.DTE -999'250 IF~E'DTE IIRD,DTE -999,250 IIXD.DTE SFLU.DT~ -999',250 SP.DTE TE~4S.DTE -999~250 ~TE'M. DTE DPMI,LDT -999~250 ~HOS,LDT OLS.LDT -999'~50 OSS,bDT ' ~ LL,LDT -999.250 LI~....bDT LSHV,LDT -999.250 SSHV,LDT LURN.LDT -999,250 CALI"LDT TENS. LDT -999,250 .~4TMM,L. DT NPH! C~L -999. 250 ? ..... NPOR,CNL -999,250 ~CNT'CNL CFTC, CNL -999.~250 SGR.CNL CABS, CNL -999.2:50 .Ff~5 S. CNL HTEN.CNL -999,250 SGR,NGT POTA.' NGT -999 URAN' NGT ,250 W3N~.NGT -999,250 W4NG'NGT MTE~.NGT -999.250 MRES,NGT G~,BGT 551906 CI.BGT CABS. NSF -999,250 DEPT, I~p~,iDTE IIRD.DTE SFLU.DTE TEN$.DTE DPHI,LDT OLS,LDT LL.LDT LSHV.LDT bUSH.LOT TENS LDT NPO~.CNL CFTC,CNL CALS,CNL HTEM,CNL POTA,NGT W3NG,NGT MTE~.NGT G~.BGT CALS.N$F DFpT. I~PM.DTE IL~.DTE IIRD.DTE SFLU.DTE T~NS.DTE DPHI.LDT OLS.LDT LL.LDT !200,000 99,250 -999,250 -999,250 -999 250 -999 250 -999 ~50 -999 250 -999,250 -999,250 -999.250 -999.250 -999,250 -999,250 -999,250 -999.250 -999,250 -999,250 -999.250 53.219 -999,250 1100 000 -999:250 -999,250 -999.250 -999.250 -999.250 -999 250 -9~9:250 -999.250 CIDP,DTE ILD,DTE FRE,DTE IIXO,DTE SP~DTE MTEM.DTE RHOB,LDT O$$,LDT LITH.LDT SSHV,LDT CALI,LDT ~TEM,LDT TNPH.CNL ~CNT.CML SGR.CNL TENS.CNP SGR,NGT URAN,NGT W4NG,NGT ~RE$,NGT C1,BGT CIDP.DTE CILD.DTE IFRE.DTE IIXD.DTE SP.DTE ~TE~.DTE RHOB,LDT ~SS,LDT LITH,LDT 21-JUN-!99i 08:00 -999.250 IDPM,DTE -999. 250 ILD,DTE -999.250 IDOF,'DT~ -999,250 IIRN'DTE -999'250 SGR,DTE -999'250 ~RES,DTE '999,250 DRHO, bDT 2999,250 LS,bDT ,999,250 SSI,LDT -9991250 SlRH,LDT "999.250 8GR,bDT -999'250 MRES,LDT -999':250 rNR. CML -999'~50 RCFT.CNL -999' 50 CGR'CNL -999.250 MTEM,CNL - 999,2 50 C G R, N G .... -999. 250 W1NG' NGT -999,250 W5NG.NGT -999.250 CS,NGT ~4,047 C2.6GT -999 250 -999 250 -999 2!50 -999 250 -999 250 -999 250 -999 250 999 250 2999:250 -999.250 -999 ~50 -999i 50 -999 50 -999,250 -999.250 -999.250 -999.250 -999 250 -999;250 -999,250 13.570 IDPH.DTE iLD,DTE IDQF',,DTE IIRM.DTE SGR.DTE MRES DTE DRHO:LDT b$,LDT $$1,LDT SIRH,LDT SGR 'bDT MRES[LDT TNRA.CNL RCFT,CNb CGR.CNb MTEM,CNL CG~,NGT W!NG.NGT W5NG,NGT C$,NGT C~.SGT -999.250 -999 250 -999:250 -999.250 -999.250 -999,250 -999.250 -999.250 -999.250 IDPH.DTE ILD.OTE IDQF.DTE IIR~.DTE SGR.DTE MRES.DTE DRHO,LDT LS.LDT SSi,bDT '999.250 -999,250 -999.250 -999..250 5O -999 2.50 ~999,250 .999"250 ,.999i~50 -999.~50 -999,~50 -99~; 50 -999.~50 -999.250 -999,250 -999,25o ]999'250 999'250 !4.46! -999.250 -999,250 -999.250 -999.250 -999-250 99.250~ 99,~50 -999.250 -999i250 -999 250 -999 ~50 -9992:50 -999.~50 '999.250 '999.250 '999.250 '999.250 '999.250 '999.250 '999.250 15.430 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 999.250 -999.250 CI~P,DTE CILM.DTE IMQF.DTE IixM,DTE CGR.DTE HTEN,DTE p~ F,LDT bU,LDT SS2,LDT LMRM~bDT CGR,LDT HTEN,LDT RTNR.CNL CNTC,CNL CAb],CN5 NRES,CNL THOR.NGT W2NG.NGT TENS,NGT HTEN.NGT TENS.BGT CIMP.DTE CILM DTE IMOF DTE IIXM DTE CGR DTE MTEN,DTE PEF,LDT LU,LDT $S2..LDT LSRH.bDT CGR,LDT HTEN.bDT RTNR.CNL CNTC.CNL CAbI,CNL MRE$,CNb THOR,NGT W2NG.NGT TEN$.NGT HTEN.NGT TEN$,BGT CIMP,DTE CiL~'DTE IM~F.DTE IIXM.DTE CGR.DTE HTEN.DTE PEF.LDT LU.LDT S$~.LDT PAGE{ 28 -999 ~50 -999 50 9 250 9 -999 25O -999 250 -999 250 -999 250 '999250 ~999 250 '999 -999 250 -999..250 -999.250 -999.250 -999250 -999250 -999250 .-999 250 755 000 '999 250 '999 250 '999 250 '999 250 '999 250 '999 250 '999 250 ;999 250 999 250 '999 250 -999250 '999250 '999 250 '999.250 -999,250 -999,250 '999,250 -999,250 -999,250 -999,250 780,000 -999,250 -999,250 -999 250 -999 250 -999 250 -999 250 -999 25O 999:250 IS Tape Verification I.,istlnq :hlumberger Alaska Computln~ Center 21-jUN-199! 08tO0 PAGE{ ,29 'L~HV,LDT -999'250 SoHV.:bD~ -999.250 $1RH :bDT L!.!RH,LDT -999 250 CALI,L[ C '999,250 SGR.LDT 'rE~ LDm 999,250 ..... nS. ~ . ~ LDT -999,250 ~RE$.LDT NPHI.CNb 999,~50 PH.CN5 -999,250 TNRA,C.NL NPOE.CNL -999. 50 RCNToCNb -999.~50 RCFT.CNL CNCFTC L -999,~50 SGR,CNL -999,250 CG:~,CNL CALS:CNL -999,~50 TENS.CNL -999,~50 MTE~,CNL HTEN:~NL -999, 50 6GR NGT -999,250 CGR.NGT POTA GT -99g,250 URAN NGT -999,~50 W1NG,NGT W~NG'NGT -999~250 '4NG,NGT -999 50 W5NG,NGT MTEM NGT -999'250 ~RE$,NGT -999.250 BGT 63,688 Ci'BGT 1'2,3.!3 C2,BGT CAL$,MSF -999,250 DEPT, !000,000 C!DP,DTE IMPN'DTE 9992250 CILD,DTE IL~.DTE -999 250 IFRE DTE IIED,DTE -999 250 IIXD DTE SFLU.DTE -999 ~50 SP DTE TENS.DTE -999,250 ~TEM.OTE DPH~.LDT -999.~50 RHOB.LDT OLS.LDT -999.250 OS$,LDT LL.LDT ~999,250 LITH.LDT LSHV,LDT 999,250 SSHV.LDT LURH.LDT 999,~50 CALI,LDT T~NS.LDT -999 .250 MTEM.LDT NDHI.CNL -999' NPOR,CNL .999,250 TNPH,CNL ,~50 RCNT,CNL CNL -999,~50 SGR CNL CFTC, ~,CN~ '999°250 T~$.CNh E .... .CNb '999 250 SGR.NGT POTA.NGT -999~250 URAN.NGT W3NG.NGT -999.250 W4NG.NGT ~TE~.NGT -999.250 ~RE$..NGT G~.BGT 67.6~5 C1.BGT CALS.MSF -999.250 -999.~50 -999.2250 -999,250 -999'25O -999~50 -999' 50 ~999 250 -999 250 '999 250 -999 250 -999 250 -999~250 -999,~50 -999.250 -999 250 -999~50 -999.~50 -999.250 -999,250 -999.250 DEPT 900,000 CIDP.DTE -999,250 IMP~'DTE -999,250 CILD"DTE -999.250 IL~DTE -909.250 IFRE,DTE -999~250 IIRD,DTF -999.250 IlXD,DT£ -999.~50 SFLU.DTE -999,250 SP,DTE -999.250 TENS,DTE -999,250 ~TEM DTE -999.250 DPHI.LDT -999.250 RHOB~LDT -999 250 OLS.LDT -999,250 QSS. LDT -999~50 LL.LDT -999,250 LITH.LDT -999.250 LSHV.LDT -999.250 SSHV,LDT -999 250 LU~M.LDT -999.250 CALI.LDT -999~250 TEN$.LDT -999.250 ~TEM.LDT ~999 250 NPHI.CNL -999.250 ~NPH,CNb 999~250 ~PO~.C~L -999.250 ,C~T.C~L -999.250 CFTC.CNL i999 250 SGR.CNL ~999i250 C~h$.CNb 999[250 TEN$.CNL 999 250 NTEN.CNL -999.250 SGR.NGT 999 250 POTa.NGT -999.250 'J~I~.NCT -999.250 IDPH,DTE IbD,DTE IDOF,OTE IIRM,DTE SGR,DTE MRES,DTE DRHO.LDT L$.~DT $$1'LDT S1RH,LDT SGR,LDT ~RES,bDT TMRA,CNL RCFT,CNL CGR,CML MTE~,CN'L WlNG,NGT W5NG,NGT CS,NGT C2.8GT IDPM..OTE ILO,DTE IDQF,DTE IIRM.DTE SGR.DTE MRE$.OTE DRMO.bDT LS.LDT SSI,bDT S1RH.hDT SGR.LDT MRES.LDT TNRA,CNL RCFT,CNL CG~.CNL ~TE~.CNL CGR.NGT W~NG.hGT -999.25~ -999.25C -999,250 -999'250 -999!250 -999 250 -999 250 -999 ~50 -999 ~50 -999 250 -999 250 15 .016 -999 ~50 -99921 50 -999'250 -999,250 -999.250 -999.250 -999.250 ~9'99'.250 .999,250 999.250 -999,250 -999.250 -999,250 -999,R50 -999.R50 -999,250 -999.250 -999 250 -999i250 13 813 -999.~50 -999,250 -999.250 -999.250 -999,250 -999 250 -9992250 -999.250 -999.25O -999 25O -999]250 -999.250 -999o~50 -999.~50 -999.250 -999 250 -999i250 -999 ~50 LSRH.LDT CGR.LDT HTEN.LDT RTNR,CNL CNTC.CNL CALI"CNL MRES,CNL THOR.NGT W2NG'NGT TENS,NGT HTEN,NGT TEN$,BGT CI~P'DTE CISN DTE I~F DTE I!XMDTE CGRDTE HTEN DTE PEF'LDT LU~bDT SS2,LDT LSRH,LDT CGR'LDT HTEM,LDT RTNR,CNL CNTC,CNL CAL!,CNL MRE$,CNL TMOR,NGT W2NG,NGT TENS,NGT HTEN.NGT TENS,.BGT CXMP.DTE CILM.DTE IMQF,DTE IIX~ DTE CGR:DTE HTEN,DTE PEF bDT LU:bDT S$2,LDT LSRH.bDT CGR.LDT HTEN.LDT RTNR~CNL CNTC:CNL CALI.CNL MRES.CNb TMOR.MGT w2NG.NGT -999~ -999~ -999 -999 -999: -999 -999 ~999 999 -999 710 .-999 -999 -99 -999 -gg9 -999 .-999 -999 -999 -999 -999. -999 -999 ~999 -999 -999 -999 -999 -999 655 -999 -999! -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999, -999, -999. -999, -999. 250 250 250 250 0 250 250 250 250 250 0o0 250 250 ~250 250 250 250 250 250 250 2,50 250 250 250 250 250 250 250 250 250 250 000 250 25O 25O 25O 25O 25O 25O 250 25O 250 25O 25O 25O 250 250 25O 25O 25O Tape Verification Listing ~blumberger AlasKa Computing Center W~NG.NGT -999.250 W4NG.NGT MTEM.NGT -999,250 MRES.~GT GR.BGT 2.4,594 CI,BGT CALS.MSF -999.250 DEPT' 800 000 CIDP,D..E I~PH.DTE -999.250 CILD.DTE IL~.DTE -999.250 IFRE,DTE IIRD,DTE -999,250 II×D,DTE sFLU.DTE -999,250 SP.DTE T~NS,DTE -999.250 MTE~,DTE D P H I i L D T - 999,2 !50 OLS, LDT -999,250 QSS.* LL.LDT -999,250 LITH.LDT LSHV,LDT -999,250 SSHV.LDT LURH.LDT -999,250 CALI,LDT TENS,LDT -999,250 MTE~.LD~ NPHI CNL -999.250 TNPH,CNL NDO~CNL -999.250 RCNT~CNL CFTC,CNL -999'250 SGR'CNL CALS,CNL -999,250 TENS*CNL HTEN.CNL -999,250 SGR,N~ POTA.NGT -999.250 URAN,NGT W3NG,NGT -999.250 W4NG'NGT MTE~.NGT ]999,250 ~RE$.NGT GR.BGT 28,547 CI'BGT CALS,MSF 999,250 DEPT. 700,000 CIDP,DTE IMPH.DT~ -999,250 CILD,DTE IL~.DTE . 99,250 IFRE,DTE OLS,LDT 99,250 LL.LDT -999.250 LITH-LDT LSHV LDT -999.250 SSHV,L~T LUR~'LDT '999,250 CALI.SDT TENS:LDT -999,250 ~TEM.LDT NPHI.CNL '999,250 TNPH.CNL NPOP.CNL -9~9~250 RcNT,c~L CFTC.CNL -999,250 SGR,CNL C~LS.C~L -999.250 TENS.CNL HTEN.CNL -999.250 SGR.NGT POT~.NGT -999 250 ~!RAN.NGT W~NG.NGT -999i250 W4NG.NGT ~TE~.NGT -999 250 ~RES,NGT G~.BGT 60.063 C1.BGT C~LS.~SF -999,250 DEPT, 600.000 CIDP.D~E I~P~.DTE -999.250 CILD.DTE ~L~'DT~ -999,250 IFRE.DTE IIRD.DTE -999.250 IIXD.DTE 21-JUN-1991 08:00 -999,250 WS~]G,N:GT -999.250 -9991250 CS..~TGT -999.250 ' 19.82~ C2.5GT 19.156 -999, -999, -999, -999, -999, -999, -999. -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 22 250 I'DPH,DTE 250 250 I60F'DTE 250 IIR~',~TE 50 SGR,DTE '~50 ~RE$'DTS 50 DRHO,LDT 250 LS,LDT 250 ~$1,LDT 250 $I, RH,LDT 250 SGR~hDT ~50 CF~.CNL 0 CGR,CNL 250 gTE~,CNL 250 CGR, NGT 250 W1N( NGT ~50 W5N( NGT 250 CS NGT 703 C2,BGT i999250 999:250 999.250 -999,250 -999.250 -999 250 '999 250 '999 250 -999 250 -999 250 '999.250 -999.250 -999 250 '999 250 9.9'250 -999,250 -999.250 -999.~50 -999.250 13.180 IDPH,DTE ILD'OTE IDQF,OTE IIRM,DTE SGR,OTE ~RES,DTE DRHO,LDT LS,LDT S$1,LDT S1RH,LDT SGR.LDT ~RES,LDT TNRA.CNb RCFT,CNL CGR,CNL ~TEM,CNL CGR.gGT WlNG.NGT W5NG,NGT C$.gGT C2.SGT -999.250 -999.25O -999.250 -999.~50 IDPH.DTE ILD.OTE IDOF.DTE !!R~.DTE -999.250 -999.~250 -999.250 -999.250 -999.~50 -999.2~0 -999~ 0 -999:50 -999'i~50 -999,250 -999.250 -999 ~50 :999'250 999.250 :999.250 ,999,250 ,999'2S0 -999,,250 18-813 2999.:250 ,999,250 :999,250 ,999.250 999.250 -999.250 -999.250 -999.~50 -999..250 -999.250 -~99.250 - 99.250 -999.250 -999.250 -999.250 -999,~50 -999.250 -999.250 -999.250 -999.250 18.14! -999 250 -999~250 -999.250 -999.250 TEMS,NGT HTEN,NGT TENS.BGT CIMP,DTE CILM.DTE IMGF,DTE IIXM,DTE CGRoDTE HTEN,DTE PEF,f, DT 5U,LDT S$2,LDT LSR~'SDT CGR,~DT HTEN,LDT RTNR'CNL CNTC.CNL CALI,CNL MRES,CNb TMOR.NGT W2NG'NGT TEN$'NGT MTEN'NGT TEN$,BGT CX~P~DTE CILM DTE I~QF DTE IIXM DTE CGR DTE HTEN DTE PEF bDT bU bDT SS2LDT LSRH.LDT CGRbDT RTNR Nh CAb! NL MRE$,CNL THOR.NGT W2NG.NGT TEN$,NGT HTEN.NGT TEN$,BGT CXMP.DTE CIL~.DTE IMQF,DTE IIXM.DTE PAGEI 30 -999 250 -999:~250 655,000 -999 250 -999250 -999 250 '999 250 -999 250 -99~ 250 -99 250 "999.250 '999 250 '99~ 250 '99 250 -999 ~50 '999:250 -999 250 -999 -999250 -999~50 -9992'50 -999 250 -999 250 640 000 '999 250 -999 250 -999250 -999 250 99 250 -999 25O -999 250 -999 250 '999,250 '999,250 '999,250 '999,250 '999,250 '999,250 -999.2S0 -999 250 -999 250 -999 250 -999 250 540 000 '999,250 '999,250 '999,250 '999,250 Tape Veriilcatlon Listlnq ;blumber~erAlaska Computing Center 21-JUN-! 991. 08:00 31 SFLU.DTE -999'250 SP'DTE -999. TENS.DTE '999'250 ~TEM'DTE '999. DPH~:.LDT '999'250 RHOB'LDT '999' OLS,LDT ~999,250 QS$.'LDT -99 9~ L[~.LDT 999'250 LITH.LDT -999, bS~V.L~T -999'250 $SHV.LDT -999. LURH,LD? -999.250 CALI,LiDT -999 TENS LDT -999,250 ~M~.LDT -999 NPHI,CNL -999,250 T~4PM,CNL -999 NPO~,CML -999~250 RCNT'CML -999 CFTC~CNL -9991250 ~GR.CNL -999. CAbS,CML -999:2:50 TE.N$~CNL -99q CML -999.250 SGR-MGT -99~i HTE~. , T ":~ ' '999 POTA,NG..' '999.250 URA~,~Gr W~NG.NGT -999,250 ~4NG~ GT -999 ~TEM,N'GT -999~2.50 ~RE$,NGT' -999. GR.BGT 64'563 C!.BGT 12, CAbS,NSF -999.~50 DEPT. I~P~.DTE IL~.DTE IIRD.DTE SFLU,DTE TENS,DTE DPH!.LDT OLS,LDT .SLL,LOT bHV'LDT LUR~.LDT TFMS.LDT N~HI.CNL NPOR.CNb CFTC.CML C~LS,CNL HTEM.CNL POTA.NGT W3NG.NGT MTEM,MGT GR.BGT CAbS.NSF DEPT. IMPW.DTE IL~.DTE IIRD.DTE SFLU.DTE TENS.DTE DPH~.LDT OLS.LDT LL.LDT LSHV.LOT LURH.LD~ TF~S,LDT NDHI.CML 5O0.0OO -999,.250 -999.250 -999, 50 -999., 50 -999,250 -999,250 -999.250 -999..250 :999,250 999.250 :999,250 2~0 999, -999.250 999250 -999.2.50 -999.250 -999 250 -999:250 46.063 -999,250 oo: oo -999 50 -999.250 -999.250 '999,250 -999.250 '999.250 :~99,250 99.250 -999.250 '999.250 '999.~50 '9~0.250 CIDP,DTE -999. CILD,DTE '999. D " IFRE, TE -999' IIXD,DTE -999. SP.DTE '999, ~TE~.DTE '999 ~HOS,LDT '999i QSS.LDT '999 LITH,LDT '999. $SHV.LDT '999' CALI.LDT '999. ~TE~,LDT :999. TNPH,CNL 999. RCNT.CNL '999 SGR.CNL '999 TEN$,CNL '999 SGR.NGT '999 URAM.NGT -999 W4NG.NGT '999 MRES MGT -999 Cl~BGT 12 250 SGR..DTE -999.2:50 250 MRES,OTE -999'.250 250 DRHO.bDT :999,~250 250 LS'LDT 999i2~50 :250 SSi,bDT -999,250 ~.50 S1RM.bDT -999~250 250 SGR,LDT :999.250 2.50 MRES,.LDT .999,250 250 TNRA,CNL ~999,250 ~50 RCFT,CNL 999~250 ~50 CGR,~CML -999,250 250 STEM,CML -999.250 50 CGR'MGT ,999~250 ~50 WING'MGT -999,250 0 WLNG,MGT -999~250 ~0 C$,NGT -999,~50 656 C2,BGT !6,125 950 IDPM,DTE 2999.250 50 ILD'DT~ .999~250 ~50 iDOF~DTE .999.250 0 IIRM,DTE .999.250 250 MRES,DTE ~999..~50 250 DRHO,LDT ~999,250 250 LS,LDT .999.~50 250 $S1,LDT .999.250 250 M1RH'bDT .999,250 250 $GR,LDT 999.250 250 MRE$.LDT -999.250 250 TNRA'CNL -999.250 250 RCFT.CNL ~999.250 250 CGR,CNL .999.~50 ~50 STEM,CML .999~250 2'50 CGR.NGT 999,~50 2§0 WING,NGT -999.250 ~50 W5NG.MGI ~999.~50 250 C$.NGT 999.250 609 C2,BGT 23.672 CIDP.DTE -999 250 CILD.DTE -999i25o IFRE.DTE -999 250 IIXD.DTE -999.250 SP.DTE -999.250 ~TE~.DTE -999.250 RHOB.LDT -999 250 O$S.LDT -9991~50 LITH.LDT -999 250 $SHV.LDT -999 250 CALl.LOT -999.250 MTE~.LDT -999.250 T~PM.CNL -999.~50 CGR,DTE HTEN DTE PEF bDT LU bDT 882 bDT LSRH bDT CGR bDT HTEN,LDT RTNR,CNL CNTC,CMb CALI,CNL MRE$,CNL THOR NGT W2NG:NGT TEN$.NGT HTEN'NGT TEN$,BGT CIMP.DTE CILM'DTE IMQF,DTE IIXM'DTE CGR,DTE HTEN,DTE PEF'LDT bU,LDT SS2,LDT LSRH,LDT CGR,LDT MTEN.LDT RTNR:CNb CMTC,CNb' CAbI CML MRES CML THOR NGT W2NG NGT TENS NGT HTEN N~T TENS BGT IDPM,DTE -999 250 CIMP,DTE ILD.DTE -999:250 CIL~,DTE IDOF.DTE -999.250 IMQF,DTE IIRM.DTE -999.250 IIX~.DTE SGR.OTE '999.250 CGR.DTE ~RE$,DTE -999.250 HTEN.DTE DRHO.hDT ~999.250 PEF,LDT bS,LDT 999.250 LU.LDT $SI.LDT 999.250 SS2.LDT SIRH.LDT -999.250 LSRH.LDT SGR.LDT -999.250 CGR.LDT MRES,LDT -999.250 HTEN'LDT TNR~.CMD -999.250 RTMR.CNL -999.250 -999~250 -999.250 -999 250 .999 -999250 -999250 -999 250 -999 250 -999.~50 -999 ~50 -999.250 -999250 -999250 -999 250 405 000 -999 250 -999250 -999 250 -999 250 -999250 -999 250 '999 250 -999.250 -999 50 -999 250 '999,250 '999 250 -999:250 -999,~50 -999 50 -999250 -999250 -999250 -999 540 000 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999,250 Tape Verification List~n~ :hlumberger Alaska Computing Center 21-JUN-I99~ 08:00 PAGE: NPO~.CI.~L -999.250 RCN'T.CNL CFTC.CNL -999,:250 SGR,CML CALS,CNL -999 ~5o TENS, C~L HTEM, CNL -999: ..... 50 SGR, NGT POTA, NGT -999,250 URaN'NGT W3~G, .... NGT -999,250 W4~VG,NGT ~. N G T ' 999,250 ~ R E S.' N G T MT~. BGT 64.625 C1,BGT CS.LS,MSF -999,250 DEPT 300 C!DP,DTE ,000 IL~,D '~ ' .TE -999, 50 !FRE.'DTE IIRD'DTE -999.250 IIXD,DTE SFLU.DTE -999,250 SP.DTE TENS.DT~ -999,~50 ~TEM.DTE DPHI,LDT -999,250 RHOO.LDT OLS,LDT -999,250 QSS.LDT LL,LDT -999 ~50 LITH,SDT LSMV. bDT -999:50 SSHV* bDT LUR~..LDT '999,~250 CALI,LDT TENS.bDT -999,250 MTE':~:'LDT NPH!,CNL -999,250 ~rNP~g,CNL NPO~,CNL -999.250 RCNT'CNL CFTC,CNL -999,250 SG~,CNL C~5$.CNL -999,250 TEN$,CNL HTEN.CN!. -999,~50 SGR,~GT POTA,NGT -999 250 URAN,NGT W3NG,NGT -999 250 ~4NG,NGT MTE~,NGT -999.250 MRE$,NGT GR.BGT 32 375 C1 BGT CALS.~SF -999~250 ' ~" DEPT. 200.000 CIDP'DTE I~PH.DTE -999,250 ClLD..DTE IL~.DTE -999~25(? IFRE,DTE IIRD.DTE -999.250 IIXD.DTE SFLU.DTE -999,250 SP.DTE TENS.DTE -999.250 MTEM.DTE DPHI.LDT -999,250 RHOB.LDT oLS.LDT -999,250 OS$.LDT Lb.bDT -999.250 LITH.LDT LSHV.LDT -999,250 SSHV.LDT LURM.LDT -999.250 CALI.LDT TFNS.LDT -999,250 ~TEM.LDT NPHI.CNL -999.250 TNPH.CNL NPO~.CNL -999.250 RCNT.CNL CFTC,CNL -999.250 SGR.CN5 C~LS.CNL -999 250 TENS'CNL MTEN.CNL -999~250 SGR.NGT POTS.NGT -999.250 URAN NGT W]N~.NG~ -999.250 w4NG:~iGT NTE~.NGT -999.250 MRE$.NGT GR,BGT 45'156 C1.BGT CaLS.~SF -999,250 -999 250 -999:~50 -999 ~50 -999 250 -999 250 -999 250 -999 ~50 12 617 -999,250 -999.250 - 99'250 '~99~250 -999,250 -999,250 -999 250 -999 250 -999 250 -999 250 -999,250 -999,250 -999,250 99~ 250 250 -999 250 -999 250 -999 250 9 25O 17,000 -999.250 -999.250 -999.250 :99 250 999~250 -999.250 -999.250 -999.250 -999,250 -999 ~50 '9991250 -999'250 -999 250 -999 250 -999,250 -999.250 -999.250 -999.~50 -999.~50 -999.250 17.000 RCFT,CNL CGR.CNL ~TEM,CML CGR,NGT ~ING,NGT W5NG,MGT CS.,~GT C2,BGT IDPMDTE ILD:DTE IDQF,DTE IIR~,DTE SGR,DTE ~RES,DTE DRMO.LDT L$,LDT SSI,bDT S1RH,LDT SGR,LDT MRES,LDT TNRA.CNL RCFT,CNL CG~,C~L MTEM.CNL CGR,NGT W1NG,NGT W5NG.NGT CS,NGT C2'BGT IDPH,DTE ILD, OTE IIR DTE SGR,DTE ~RES.DTE DRHO.LDT LS.LDT SSi,bDT S1RH.LDT SGR,LDT MRES,bDT TNRA,CNL RCFT.CNb CGR,CML MTEM,CNL CGR,NGT W1NG,NGT W5NG.NGT C$,NGT C2,BGT -999'~250 CNTC.CNG .99,250 MRES,CNL '999.250 THOR,NGT W ~ NGT ~999.250 999.250 TENS,MGT -999,250 HTE.. NGT 21,063 TENS.BGT ~999..250 CIMP,DTE ~999,.250 CIbM.DTE 999.250 IMQF.DTE -999.250 IIXM DTE -999'250 CGR:DTE -999 250 HTEN.DTE '999 '2:50 PEF, -999 sbU, -999 S2,LDT -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999'250 17'797 bDT 250 bDT 250 250 LSRH'LDT 250 CGR.LDT 250 HTEN,LDT 250 RTNR,CNb 250 CNTC,.CNL 2'50 CALI CNL ~:5o ~ES:CNL 2'50 TMOR,NGT 250 W2NG.NGT 250 TENM"NGT HTEN'NGT TENS.BGT -999.250 CI~P,DTE -999 250 CILM.DTE -999!250 IMQF,DTE -999 250 IIXM.DTE -999 250 CGR.DTE -999 250 HTEN.DTE -999 250 PEF.LDT -999 250 LU.LDT -999 250 SS~.LDT -999 250 LSRH.LDT -999 250 CGR.LDT -999 250 HTEN.LDT -999.250 RTNR.CNL -999.250 CNTC.CNL -999 250 CALI.CNL -999~250 MRES.CNL -999.250 THOR.NGT -999.250 W2NG'NGT -999.250 TENS.NGT -999.250 HTEN.NGT 16.641 TENS.BGT ~999'250 ,999~250 ~999,250 .999,~50 -999,250 -999,259 -999'25 45'5;000 -999.250 -999~250 -999~250 -999.250 :-999250 -999250 '9991~50 -999~ 50 ~-999 50 :-999 ~50 ~2999,250 999~2150 -999 250 -999250 '999250 -999 ,250 .-999250 -999 250 -999 250 -999 250 4OO 000 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 '999,250 -999,~50 -999, 60 -999,250 -999"250 -999'250 -999.250 -999,250 -999,250 -999,250 -999.250 365,000 Tape Verif!cation Listinn :hlUmberqer Alaska Lom~uting CeDt. er 21-JUN-1991 08:00 PAGE: D~PT. 100.000 CIDP DTE i~PH DTE ~999:250 CILD~ · DTE IL~' . ~ · , R~...) ~ .... · DTE '999.250 !F E LTB, I'IRD,DTE -999.250 II×D.DTE SFLU.DTE :999,:250 SP,DTE TENS.DTE :999..250 MTE~:.DTE DPHI.LDT '999'250 RHOB..LDT OLS.LDT -999,250 QSS'LDI ' 250 LITH.LDT LL,LDT 999, LSHV.,LDT '999.250 SSHV.LDT LURg~LDT -999.250 CALI~LDT T~NS bDT -999.250 ~TEM bDT ..~PH! CNL 999.250 T~PH' NPOR CNL -999.250 RCNT.CNL CFTC C~!L 999,250 SGR CNL C~LS.CN5 999.250 TENS.CNL HTEN.CNL -999.:250 SGR.NGT POTA.NGT 999,250 URAN.NGT W~NG.NGT :999;..250 ~4NG,NGT NTE~,NGT -999.250 ~'RES. NGT GR.BGT 14.063 C1,BGT CALS.MSF -9g9'250 DEPT. 58.000 ClDP.DTE I~PH.DTE -999.250 CILD,DTE IL~.DTE -999.250 IFRE.DTE I'RP.DTE -999.250 IIXD'D~E SFbU.DT~ -999:~50 SP.DTE TENS.DTE -999 50 ~TE~.DTE OLS.LDT 99.~50 OSS,LDT Lb.bDT -999.250 LITH,LDT bSHV.LDT 999:~50 SS,¥.LDT LURH.LDT ~999 50 CALI.LDT TENS.bDT -999.250 MTE~.LDT NPHI,CNL -999.250 TNPH.CNb NPO~.CNL -999 250 RCNT CNL CFTC CNL -9g9:250 SGR~CNL CALS:CNL -999.250 TENS.CNL POTA.NGT 99 50 URAN.NGT W3NG.NGT -999.250 W4NG.NGT MTE~,NGT -999.250 ~RE$.NGT GR.BGT 16.203 CI.BGT CALS.~SF -999.250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 ~50 -999.250 0.414 !DPH.DTE ILD.DTE IDQF.DTE IIRN.DTE SGR,DTE MRESiDTE ORHo. LS.LDT SS!,LDT S!RH'LDT SGR'LDT ~RES,LDT TNRA.CNL RCFT.CNL CGR,CNL ~TE~.CNL CGR'NGT W!NG'NGT W5NG~NGT CS.NGT C2.BGT '999 250 IDPH,DTE '999 250 IbD, DT~ 9 IIRM~DTE -999 ~50 -999 50 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 ~50 -999 50 -999 250 -999'250 2999'250 999.250 -999'250 -999,250 0.418 250 SGR,DTE MRES,DTE DRHO,LDT LS.LDT SSi,bDT S1RH,LDT SGR,bDT MRES,LDT TNRA.CNb RCFT,CNL CGR,CNL ~TE~.C~L CGR.NGT W1NG.~GT W5NG.NGT CS,NGT C2.BGT 999.250 999'250 -999..250 ~999,.250 .999..250 .999.250 1999,:250 999,250 ~999'250 ,999,250 999.250 ClMP.,DTE CILM,DTE IMOF,DTE IIXM,DTE CGR,DTE HTEN,DTE PEF'LDT bU,LDT SS2'LDT LSRH,LDT CGR,LDT HTEN.LDT RTNR~:CNL CN~C'CNL '999,250 :999.~250 999.250 -999,250 %999,250 ~RES'CN[ 999,.~.50 TMOR,NGT -999,250 W2NG,NGT -999-250 TENS~NGT -999,250 HTEN.NGT 0.783 TENS,BGT '999 -999 -999 -999 -999 -999 -999 -999 -999 ;250 C!MP DTE 1250 ClbM DTE 250 IMQF DTE 250 IIXM DTE 250 CGR DTE 250 HTEN:DTE 250 PEF*LDT 250 bU'LDT 250 SS2,LDT -999 250 bSRH.bDT -999.250 CGR.LDT -999.250 HTEN.bDT -999..250 RTNR .CNL -999 250 CNTC.CNL -999 250 CAGI'CN5 -999 250 MRES,CNL -999 ~50 THOR.NGT -999 250 W2NG.NGT -999 250 TENS.NGT -999:250 HTEN.NGT 0.786 TENS.BGT -999 250 -999 250 -999250 -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 -9 2~0 '999 2:50 '999 250 '999 250 '999 250 '999 250 '999 250 '999 250 '999 250 000 -999'250 '999.'250 -999;250 -999;250 '999,'250 '999.250 '999,250 '999'250 '999 250 '999 250 '999 250 '999250 '999 250 '999 250 99 250 -999 250 -999 250 -999 ~50 -999 250 200 000 ** END OF O~TA ** qon£ - QaQI'iqDNI ~9Vd 90¥~00 : NOIS~SA Dlqd : 3DIA~M9 tOO' i~I~3 : aNON 3qi~ 00:80 IS Tape= VeriftcatJ, on Llstin~ .'h!umberger Alaska Comput{,nq Center 21-JON-19gl 08:00 TUNI APlN FL SFCT TOWN RANG COUN STAT NAT! WITN SON pDAT EPD LMF APD EDF EGL TDD TDL BLI TLI DPT DF[) DFpH DFV DFL MST RMF MFS TCS BHT FT FT PT FT FT FT PT FT FT c/C3 CP F3 DEGF T OEGF S T DEGF VALU ~ILNE POINT 50'029-~2141 3176' FNL, 3459' PEL, 27 ~OE NORTH SLOPE ALASKA DECKERT/MOUNTJOY 548277 O,B 5770. 5762. 2734. LSND DEFI Well Name API Serial Number Field Location Section Township Range County State or Province Nation witness' Name Service Order Number Permanent datu~ Elevation of Perm. Datum Lo ~easured From ABOVE PERMANENT DATUM Elevation of Kelly BUsh~n~ Elevation! ot Derric~ Flo Elevat on of Ground beve~r Total Depth - Driller Total Depth - Logger Bottom Log Interval To~ b Interval n~ Fluid Type Dry. lng Fluid Density Drilling Fluid Ph Oril lng Fluid 'ViScosity Drilling. Fluid bOSS Resistivity of Mud Sample ~ud~,,$ample Temperature Reslst~Vlt~ of mu~ filtrate Mud-Filtrate SamPle Temperatu Resistivity of Mud Ca~e Sampl Mud Cake Sample Temperature Time Circulation Stopped Bottom Hole Temperature Mmmmmm~M~mmmmmmm~m~,~mm~m~mmm~ TABLfl TYPE : CURV DEFI ''''''''~;;~'''''OEP* Channel .... ~''''''''ame .... ''''' ..... '''''''''''''' · ~SFI., MSFL Resistivity S~I~! Synthetic ~icro-Inverse Res~stivit¥ S~NO Synthetic ~icro-Normal Re$iSltiv t¥ j~'ON~g gEB'E J~'NI~ 608'E gg~'QMSW 000'00£~ 00000 0000 89 ~ ~ [ ~ 0 O0 000 O0 L~8~§ N~ ON~g 0000000000 89 ~ t I ~ 0 O0 000 O0 LL~8~ N~HO 2S~ Ni~9 0000000000 89 9 T ~ ~ 0 O0 000 O0 AL~8~ ~HO ~9~ 0000000000 89 ~ ~ T ~ 0 O0 000 O0 LLE8~ ~ ~~~~mm~~~m~m~m~~m~m~mmmmmm~e~mm~mmmm~mmmmmmmm~m~m~m~m~e T 99 89 99 0 99 ET 89 ~9 99 99g'0 89 8 ~9 L KL 9 99 T 99 9T t£ 0 99 0 99 ~flq~'A 200D ~d2~ ** qaOOM8 hOlg~OlAiDMd~ 00:80 OUT%STq uoT~eOT~T~aA ouel S] oE6'8 169'~ 99L°£~ ~9'9 ~'6 OLl'9 ~0'9 985'E jSW*ONW~ ~gW:'ONN9 jgW'ON~9 j~N~ONNg jS~'ON~S JSW'ONWg :3DVd 89t'0 6S§'L IBE'OI )86'9 £go')I £OL'OE 881;'9 Etg'g 9g9'9 LSB'L gEE'~ ~'Ol ~8'gt 9ES'SI 80~'Ol EOL'6 £69'8 ~6S'8 699'9 ~ot'g g09'~ ~SW*NI~S ~S~'NiNS j~'NiNS 681'~t J~'qM~ 000'006g 6~'8 ~s~*qj~x · 000°000[ 9~8'L1 ~s~'qjs~ O00'ooTE [qO*OI ~SW'rIJ~ O00'O0~E 9~§'0[ Jsx'qjs~ O00'OOEE 99L'6 ~S~'rljS~ O00'OOSE EIE'/ AgN'qig~ 000'009[ 6£~'9 J~w'qM~ O00'OOL[ EOS'Et M~'qM~ O00'OOgE IE9*S J~'qjS~ 000'000~ [ES'6T Js~'q~9~ 000'00~ 906'91 JSH*qJS~ O00'OOE~ ~1'9[ J~N'qM~ 000'00~ £t8'6 A~'qd9~ 000'0099 9~§'8 A~'qd¢~ 000'001~ 6§8'6 J~'qfi~ O00'O08b 9~'9 J~M'qj~ 000'006~ ES['L J~'qJ9~ 000'000§ 889'9I Jg~'q.J~ O00'OOlg 9gL'S ~sh'q,j9~ O00'OOg§ 00:80 · (02~2£qI~ NV~q¥~) AdOD~O~£D2d~ V~VD ~V~q~V~ q~' iDN qO0~ NOIgN~&%3 rlO0~ 'Q3QflqDNI osq~ 9NISg3DO~d aOgff~d 'g~31qi& VHd~I~ EO0°~I02 - Oq : 3dXi ~qi~ gO~IO0 : NOIS~3A DiQM : 3DIA~M~ ~gOl : 3ZlS 03~ DIqM : 3DIA~S EO0' ii03 : 3NYN TO0'O ~S~'ON~9 6T~'O 00:~0 ~66~'NOP-tg Sg~/q'qS9~ O00'~6§g padd03~ uo~3eIn~T3 n3e~edm~& aTdme~ a3e~3TTJ'PnW s e~O~3TT~ prim ~o a~n3e~,adma~ eTdmeS pnw eTdme~ PaN ~o A3TAT~STsea Ssoq PTnT3"bUT A%TSO~ST^ PTnT3 BuTITT~OTT~O qd Plni~ but ~3TSUe0 PTnT3 "ad~& PTnT~ bUTTT ~a~oq - ~'3daO lg3o~ le~e~ puno~9 ~o UOT3e~eT3 ~OOT~ ~T~;~aa ~e UOT3eAeT3 bUTqSn~ ~TTe~ ~o uoT~e~eT3 mo~ pe~nseaw Boq mn3eQ*m~a~ ~o uoT3eAaZ3 mn~ep 3uauem~aa ~eqmnN ~eP~0 amen ,sseu3T~ "UOT3ea a~UTAO~d ~o e'~e39 aTuno3 ebuea dTqs~ol ~eqanN TeTraS id~ ameNT'ie~ plata 9 ~D3Q 8,~ ~HO L E~ q~Q 6 Hd~O 6 £D/D T£ Z~ q93 '~9 ~d QdV 3dOqg H&HON NaO3 30I N[T N~O£ 00:80 T 66 T-i~iflD,, I ~, bUT~STq uol3eoT~T~aA aae~ gl ; 99 0 ; 99 9; 89 99 §l 0 99 ti 89 ~t &~ g9 6 ~°0 89 8 g9 ~ E£ 9 g9 g ~ 99 ~ 08 ££ ~ 0 99 ~ 0 99 ~ ~I~O~Od uo~fla~ Igm~eqi HdN~ · gaDOld UO~O~IddV Ug mO~ ~n~o A%IgO~Od uo~naN ~OdN OH~ e~leO OHaO zo~Oe~ ~l~elaolO~d ~'~s'~aO uo~n~o~a~ '[go~3~aA paougqu~ OH~N 00:80 ~a~uaj bU~nomoo ~$gl~ ~ao~aqmnlq: IS Taue Verification L1stiDo ."hlu~berqer AlasKa ComputlDq Center 2!-dUN-1991 08:00 PMND SAN PU 5 PFDC SAN PU 5 NWHO PRE G/C3 5 RHOR CRC G/C3 5 PEF CRC 5 DRHO CRC G/C3 5 NPOR SAN PU 5 TNPH SAN PU 5 NPHI SA~ PU 5 $~R KA5 GAPI 5 CGR KAL GAPI 5 THOR KAL PPM 5 POTA KAL PU 5 URAN KAL PP~ 5 SGR ALP ~API 5 CGE ALP GAPI 5 THO~ ALP PPM 5 PmTA ALP PU 5 URAN .ALP PPM 5 mmmmmmmmmm.mmm.m! TY RDE 482 482 482 482 482 482 4~ 411 PE - CHAN ** 7~''X'iD ........ API A;~'''''''API FILE .... ~'~ ................. SIZE REPR PROCESS'''''' D # LOG '~YP.~E CLASS ~OP NUmB SA~P ELEM ..... CODE (HEX) .. ................... ;-............. ..... ......,....,,.......,.. 77 O0 000 O0 ] 1 ~ 4 68 0 0000000 77 O0 000 O0 0 3 ! I 4 68 0000000000 77 00 000 00 0 3 1 I 4 68 0000000000 77 O0 000 00 0 3 I I 4 68 0000000000 77 O0 000 O0 0 3 1 I 4 68 0000000000 77 00 000 00 0 3 I ! 4 68 0000000000 77 O0 000 O0 0 3 ~ I 4 68 0000000000 77 O0 000 O0 0 3 I I 4 68 0000000000 77 O0 000 00 0 3 ! I 4 68 O000000000 77 O0 OOO .00 0 3 1 I 4 68 0000000000 77 00 000 00 0 3 I 1 4 68 0000000000 77 00 000 00 0 3 I I 4 68 0000000000 77 O0 000 O0 0 3 I 1 4 68 0000000000 277 00 000 O0 0 3 1 1 4 68 0000000000 277 O0 000 00 0 3 ! I 4 68 0000000000 277 O0 000 00 0 3 I I 4 68 0000000000 277 O0 OOO O0 0 3 1 I 4 68 0000000000 277 O0 000 O0 0 3 1 1 4 68 0000000000 277 O0 000 O0 0 3 1 I 4 68 0000000000 277 O0 000 O0 0 3 I 1 4 68 0000000000 4'I D~PT. 5825 RHOB.CRC 2 TNpH,SAN 4.3 THOR.KAL 0 CGR,ALP '999 D~PT. 5800 RHO~.CRC 2 TNPH,SAN 43 THOR.KAL 9 CG~.ALP -999 D~PT. 5700 RHOB.CRC 2 TNpH,SAN 40 TNOR,KAL 9 CGD.ALP '999 DEPT, 5600 R~O~,CRC 2 TNPH.SAN 43 T~O~.KAL 9 CGR,ALP 78 ,5 .3 ,1 .0 ,2 0 ! ,2 ,0 .2 '7 .0 ,2 .0 o3 .4 ,4 .2 O0 PHND,SAN 19 872 PFDC,SAN 19..872 NRHO,PRE 22 PEF,CRC '999 250 DRHO,CRC 0.034 NPOR'$AN 50 NPHI.SAN 43 150 SGR,KAL 0.000 CGR,KAL O0 POTA,KAL 0,000 URAN,KAL 0 000 SGR,ALP 50 THOR,ALP '999,250 POTA,ALP '999~250 URAN,ALP 00 PHNO,SAN 19,872 PFDC,SAN {9.872 NRHO,PRE 22 P~F,CRC 2,672 DRHO,CRC 0,034 NPOR,$AN 50 NPHI,SAN 43,150 SGR,KAL 95,433 CGR.KAL 88 POTA,KAL 3,]99 URAN,KAL 0,603 SGR,.ALP 50 THOR.ALP -999,250 POTA,ALP -999.250 URAN.ALP 00 PHND.S4N 23,329 PFDC,SAN 23 053 NRHO,PRE 70 PEF,CRC 2,739 DRHO,CRC 0~00{ NPOR,$~N 67 NPHI.$AN 40,767 SGR,KAL 95.433 CGR,KAL 59 POTA,KAL 3,031 URAN,KAL !,18! 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MPHi..SAN THOR.KAL 8.569 POTA.KAL CGR.ALP 6.~.083 THOR.ALP D~PT. 3200.000 PHND.SAN RMOB.CRC 2..135 PEF.CRC TNP~.SAN 46.729 MPMI.SAN THOR KAL 6.620 POTA.KAL CGR:ALP 59,598 THOR.ALP DEPT. 3100.000 PHMD.SAN OP,.CRC ! 775 PEF.CRC NP~.SAN 53:085 ~PHI.SAN THOR.KAL 4.713 POTA.KAL CGP.ALP 42.470 THOR.ALP DEPT. 3000.000 PHND.SAM RWOB.C~C 2.048 PEF.CRC TNP~.SA~ 44.279 NPMI.SAN T~OR.KAL 5.150 POTA.KAL CG~.ALP 56.607 THOR.ALP DFPT. 2900.000 PHND.SAM RMO~.CRC 2 075 P~F.CRC T~PH.SAN 44:545 MPHI.SA~ THO~.KAL 5.138 POTA.KAL CGR.ALP 43.942 THOR.ALP 34.005 PFDC.SAN 5~,922 DRHO,CRC .~79 SGR.K~L J,,776 URAN,KAL 11,14~ POTA,ALP 3~]866 PFDC,SAN ~:654 DR,0.CRC 4 936 SGR.KAb !.1;020 URAN.KAh 539 POTA.ALP 78 PFDC.SAN 30'~i7 DRHO,CRC I~* 6 {!RAN.KAb .3!6 POTA*ALP 2~.529 PFDC,SAN 2,315 DRHO,CRC 29,113 SGR,KAi.~ 0.855 URAN'KAL 4.804 POT~.ALP 3~.439 PFDC.SAN 2.420 DRHO.CRC 45.081 SGR.KAL ! 7~1 URAN,KAb 7:5 2 POTA.ALP 30.835 PFDC.SAN 4~.594 DRHO.CRC .729 SGR.KAb 1.7o8 7.o o 53.435 PFDC.SAN 846 DRHO,CRC 5 ~085 SGR.KAb 1,280 URAN.KAL 5,248 POTA,ALP 36.494 PFDC.SAN 2 262 DRHO,CRC 44~279 SGR.KA5 !.524 URAN.KAL 6.7~5 POTA.AbP 34.869 PFDC.SAN 2,341 DRHO.CRC 44.545 SGR,KAL 1,203 U~AN,KAL 5.498 POTA.ALP 34.005 0 OO2 88 853 2:740 2 30 866 0 002 99 432 3 077 2 318 30,093 0.006 99*036 2,818 2,165 22.529 0,008 44'32) {,415 1':J48 3t,439 8 545 855 °2 6 1,872 1.891 53.013 -0,008 59,914 2,564 1,291 36.494 0.037 58.218 1.604 1.789 34.869 0,0!1 52.865 1.600 1,318 NRM0.PRE NPOR.SAN CGR.KAL SG~.ALP URAN.AbP NRHO,PRE NPOR,'SAN CGR,KAb SGP,ALP URAN, ALP NRH0.PRE NPOR,SAN CGR,KAb SG~,ALP URAN,ALP NRHO.PRE NPOR.SAN CGR.KAL SGR.ALP URAN.ALP NRHO,PRE NPOR,$AN PGR,~Ab SGR AbP URAN~ALP NRHO,PRE NPOR,$AN CGR,KAL SGR.ALP URAN.ALP NRHOPRE NPOR:$AN PGR KA~ SGR~ALP URAN.ASP NRHO,PRE NPOR.SAN CGR.KAL SGR.ALP URAN,AbP NRHO,PRE NPOR.MAN CGR.KAb SGR.ALP URAN.ALP 412 67,57i 9~:894 . 078 2,141 47.927 75'536 I09~616 '165 2 .154 55 869 77 1.50 1l~ 679 350 26 776 33 332 2,1~1 44,8 5 62,584 78,500 2'224 54,699 36 1.768 51 725 40!001 .896 6~ 608 2 048 45,762 69.~44 1.601 2,075 41.799 40.441 56.855 1,649 [ : # NOit~flNI£No3 06~L : 3WYN )irlM : NIDI~O 90rIO0 : NOIS~3A 0~: 666- 0~, 666' ~90 .~6 L~ ,0 9~L,L9 0~Z~'666' ~88'Z~ *~8'* 89L ~:$0 ~ ~59 86 9~6 99 dq~,~Dg O~g:666' NVg*~OdN ~9~ 0 dqV'NV88 9£6'0 dqV'MDS 0Sg"666' ~ OHSN L~ 8~ dqV]NVH~ 9E'4'0 dQV ~9S 686'0 'IV~'SDJ LLL.g8 dqY'Y~Od 0~['666' q¥~'N{Hfl O~ '666' NVS*DQJd L9 ~O'OHSO 960 8t dqV'~'&Od 9§8"~ qY~'N~8~ ~OL° NVS*OQMd dqY'¥&Od I99"0I q~*;~VSfl 6L6'I N~'DOJd §EL'8g dq¥'HOH£ L~5'O~ dq~'agO NVg'ONHd 000'009~ '&d30 NYS IHdN 9L~'i~ O~O'JMd 8gL'I OaO*~OH~ dqV'~OH£ NVS'IHdN ~8~ a8 C~$ 8 0~8 8b £8I ~ 000'008~ dq¥'~DO 00:80 't66i'NQP-I~ · ~~-6~0~0§'8~9 &INR lNi08 ~N~IW'~Xilq8 ~3QV~HDS 'ODONOD : ~ ~ ~O'IA~d : # NOi~RNI£NOD ~/90/16 : 9~ 00:80 ALASKA COMPUTING CENTER ****************************** ******************************* FIELD NAME :'SCHRADER BLUFF STATE : ALASKA RECEIVED 1991 N£} :dIHSNMO~ £~ :NOI£22S ~dO~S H~ON 8-g 2IN[i ~NiO~ 2NqI~ :qq3M '~NI 'OOONOD :3W~N ******************************************************************************* ******************************************************************************** ** ** ** ** ** ******************************************************************************** ******************************************************************************* 90~'[00 : Olq3 : 2DIA~2~ ~00' £OD : 2~VN MqiM **** MMGVMH MqlM **** ~ : # NOIt~'fiNi£NoO 809~£ : M~N : # NOi~fiNI&NOD D~qJ : NIDI~O :2DVd Ei:EE buT%st,I UOT~e~Ti~i~aA aUe~ S Ol'(, SgL§) H~d3O g,a2qqi~O O[ (,0'g96~) DNIO~3a &~Vq &DD m083 '~O £~D JO ~3N~VA O3£~Od~S&X3 ~3O~q~NI O~q~ 3d~£ 809~L :ON L[ ~ fllJS tSa3~[1N :Sg3N&Ig :~22NIDN2 :DNIDDOq :[ji~i~IO ~DNiDDoq §6 :d2d~OJ3a dN3£ ::~ DNIgV3 §O~S :HMDDOq 0£ ~661~Ni'iP-tO :03DDOq M~6 0 0 0 0 0 l I · · , mammeammmmmmmmm 9 99 99 ~9 99 89 99 ~9 6 89 ~9 99 99 99 <idD~A£> ~uu~q~ se q~aO ieoT';aeA ena£ dM~A Iiim/~ii~Immm~.~iIm~Ii~/I~IiIIi~iIi~mii~mI~Iim~ImIi~~m~. i~3~ d~q~UaO£ N£S NMO~ A~UnOD 3d0~9 H&MON I~30 flq~A 1NflZ ~ : ~ NOlZ~NIZNOD DIq~ : NIgI~O ~OI , ~ZIS D~. ~ t901~6 : 90¥~00 , NOIS~ t00' &D9 : ~N 000'0 . 000'0 000'0 ooo:o ~29'IA20 000 0 IDD 3GA 000 ~9L9 £DD dM(I'D 00~ ~g~§9 &OD' ' 8' ' M~MM O£L 80~ ~DD°BQ~N 0~0.E££ &DO £DD'dMGA O00'6fit &DD'dMOD O0 O0~g iDD*~RM 000'0 ~DD'~OSN 000'0 ZDD'Z~qH 000000000 89 0000000000 89 0000000000 89 ~ I ~ ~ 0 O0 000 O0 8L~SP~ ~ iDD ~GSN 0000000000 89 9 I ~ I 0 O0 000 O0 8£~8~ D~Q £OD Z~qH 0000000000 89 0000000000 89 ~ I ~ t 0 O0 000 O0 8L~89~ &~ &OD dMQA 0000000000 89 0000000000 89 (XMH] MOOD S TaPe Verification [,lst~ng ~blumber~er ~!as~a Compu{in~ Center 4-JUN-l. 99! 23:12 PAGE,' **** REEL TRAILER **** S~RVICE NAME : GCT DAT~ : 91/06/ 4 REEL MANE : 74608 CONTINUATION # : PREVIOUS ~EE5 : COMMENT : GCT, CONOCO, INC,, ~ILNE pOINT UNiT G-8, SCHRADER BLUFF, API #50-0~9-2~945
