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HomeMy WebLinkAbout192-095Samuel Gebert Hilcorp North Slope, LLC GeoTechnician 3800 Centerpoint Drive, Suite 1400 Anchorage, AK 99503 Tele: 907 777-8337 Fax: 907 777-8510 E-mail: sam.gebert@hilcorp.com Please acknowledge receipt by signing and returning one copy of this transmittal or FAX to 907 777.8510 Received By: Date: DATE: 03/29/2021 To: Alaska Oil & Gas Conservation Commission Natural Resource Technician 333 W 7th Ave Suite 100 Anchorage, AK 99501 DATA TRANSMITTAL PBU P2-30 (PTD 192-095) PPROF INTERPRETATION REPORT 02/24/2021 Please include current contact information if different from above. PTD: 1920950 E-Set: 34840 Received by the AOGCC 03/30/2021 03/30/2021 Samuel Gebert Hilcorp North Slope, LLC GeoTechnician 3800 Centerpoint Drive, Suite 1400 Anchorage, AK 99503 Tele: 907 777-8337 Fax: 907 777-8510 E-mail: sam.gebert@hilcorp.com Please acknowledge receipt by signing and returning one copy of this transmittal or FAX to 907 777.8510 Received By: Date: DATE: 03/15/2021 To: Alaska Oil & Gas Conservation Commission Natural Resource Technician 333 W 7th Ave Suite 100 Anchorage, AK 99501 DATA TRANSMITTAL PBU P2-30 (PTD 192-095) PPROF 02/24/2021 Please include current contact information if different from above. PTD: 1920950 E-Set: 34779 Received by the AOGCC 03/15/2021 03/15/2021 • • 19 2095 WELL LOG TRANSMITTAL #904699601 29292 To: Alaska Oil and Gas Conservation ComntlEcEivED June 1, 2018 Attn.: Makana Bender 333 West 7th Avenue, Suite 100 Anchorage, Alaska 99501 JUN Ni AOGCC RE: Production Profile: P2-30 Run Date: 3/15/2018 The technical data listed below is being submitted herewith. Please address any problems or concerns to the attention of: Fanny Sari, Halliburton Wireline &Perforating, 6900 Arctic Blvd., Anchorage, AK 99518 P2-30 Digital Log file, Interpretation Report 1 CD Rom 50-029-22289-00 Production Profile (Final Field Print) 1 Color Log 50-029-22289-00 PLEASE ACKNOWLEDGE RECEIPT BY SIGNING AND RETURNING A COPY OF THE TRANSMITTAL LETTER TO THE ATTENTION OF: Halliburton Wireline & Perforating Attn: Fanny Sari 6900 Arctic Blvd. Anchorage, Alaska 99518 Office: 907-275-2605 FRS_ANC@halliburton.com&AKGDMINTERNAL@bp.com � I Date: tP/i /oF Signed: • bp BP Exploration (Alaska) Inc. Attn: Well integrity Coordinator, PRB -20 Post Office Box 196612 Anchorage, Alaska 99519 -6612 ¢;w May 20, 2012 Mr. Jim Regg MAW AUG - 8 2012. Alaska Oil and Gas Conservation Commission 333 West 7 Avenue 101 9 Anchorage, Alaska 99501 3a Subject: Corrosion Inhibitor Treatments of GPMA PM -2 e g,-- Dear Mr. Regg, Enclosed please find multiple copies of a spreadsheet with a list of wells from GPMA PM -2 that were treated with corrosion inhibitor in the surface casing by conductor annulus. The corrosion inhibitor is engineered to prevent water from entering the annular space and causing external corrosion that could result in a surface casing leak to atmosphere. The attached spreadsheet represents the well name, API and PTD numbers, top of cement depth prior to filling and volumes of corrosion inhibitor used in each conductor. As per previous agreement with the AOGCC, this letter and spreadsheet serve as notification that the treatments took place and meet the requirements of form 10 -404, Report of Sundry Operations. If you require any additional information, please contact me or my alternate, Gerald Murphy, at 659 -5102. Sincerely, L( Mehreen Vazir BPXA, Well Integrity Coordinator • • BP Exploration (Alaska ) Inc. Surface Casing by Conductor Annulus Cement, Corrosion inhibitor, Sealant Top-off Report of Sundry Operations (10 -404) GPMA PM -2 Date: 04/30/2012 Corrosion Vol. of cement Final top of Cement top Corrosion inhibitor/ sealant Well Name PTD # API # Initial top of cement pumped cement off date inhibitor date ft bbls ft na gal P2 -01 1970730 50029227610000 0.3 NA 0.3 NA 1.70 6/22/2009 P2 -03 1970440 50029227490000 2.0 NA 2.0 NA 10.20 6/22/2009 P2-04 1981560 50029229070000 1.0 NA 1.0 NA 5.10 6/22/2009 P2 -06 1931030 50029223880000 4.0 NA 4.0 NA 30.60 6/22/2009 P2 -07 1940580 50029224690000 2.0 NA 2.0 NA 13.60 6/22/2009 P2 -08A 2061690 50029228960100 0.8 NA 0.8 NA 4.30 6/21/2009 P2-09 1980660 50029228760000 0.3 NA 0.3 NA 0.85 6/21/2009 P2 -10 1980970 50029228860000 0.3 NA 0.3 NA 1.70 6/21/2009 P2 -11A 2060260 50029229230100 3.5 NA 3.5 NA 69.70 6/21/2009 P2 -12 1931150 50029223950000 Sealed conductor NA NA NA NA NA P2 -13 1970600 50029227570000 0.5 NA 0.5 NA 2.60 6/21/2009 P2 -14 1981050 50029228880000 1.5 NA 1.5 NA 10.20 6/21/2009 P2 -15A 2070320 50029224090100 Sealed conductor NA NA NA NA NA P2 -16 1931230 50029223970000 3.0 NA 3.0 NA 28.10 6/20/2009 P2 -17 1981370 50029229020000 0.8 NA 0.8 NA 3.40 6/20/2009 P2 -18 1940600 50029224710000 0.8 NA 0.8 NA 2.60 6/20/2009 P2 -19A 2070120 50029227650100 0.3 NA 0.3 NA 0.90 6/20/2009 P2 -20 1960590 50029226640000 0.5 NA 0.5 NA 2.60 6/20/2009 P2 -21 1940530 50029224670000 0.8 NA 0.8 NA 3.40 6/20/2009 P2 -22 1972490 50029228500000 1.0 NA 1.0 NA 7.70 6/20/2009 P2 -23 1940320 50029224530000 1.3 NA 1.3 NA 11.10 6/20/2009 P2 -24 1980080 50029228540000 1.5 NA 1.5 NA 1020 6/15/2009 P2 -25 1971110 50029227760000 1.8 NA 1.8 NA 17.90 6/10/2009 P2 -27 1971250 50029227850000 1.3 NA 1.3 NA 8.50 6/10/2009 P2 -28 1950440 50029225510000 3.3 NA 3.3 NA 37.40 4/18/2012 P2 -29 1931470 50029224070000 10.3 NA 10.3 NA 71.40 6/15/2009 -- m> P2 -30 , 1920950 50029222890000 2.8 NA 2.8 NA 1720 6/10/2009 P2-31 1940360 50029224560000 2.2 NA 2.2 NA 21.30 6/20/2009 P2 -32 1951350 50029225930000 Surface casing leak NA NA NA NA NA P2 -338 1972310 50029228120200 2.0 NA 2.0 NA 16.60 6/9/2009 P2 -34 1950660 50029225580000 1.5 NA 1.5 NA 11.50 6/9/2009 P2 -35 1951790 50029226200000 1.0 NA 1.0 NA 13.60 6/9/2009 P2 -36A 2060220 50029228010100 1.1 NA 1.1 NA 6.00 6/9/2009 P2 -37A 2050570 50029225760100 2.0 NA 2.0 NA 23.00 6/9/2009 P2 -39 2111230 50029234540000 0.8 NA 0.8 NA 10.20 4/30/2012 P2-40 1972260 50029228370000 0.5 NA 0.5 NA 5.10 6/9/2009 P2-41 1952050 50029226330000 1.5 NA 1.5 NA 17.00 6/9/2009 P2-42 1931430 50029224050000 19.3 NA 19.3 NA 121.60 6/20/2009 P2-43 2050240 50029232500000 0.8 NA 0.8 NA 6.00 6/8/2009 P2-44 1960630 50029226660000 2.3 NA 2.3 NA 23.80 6/8/2009 P2-458 2080210 50029227690200 0.8 NA 0.8 NA 5.10 6/8/2009 P2-46 1931320 50029224010000 2.3 NA 2.3 NA 25.50 6/8/2009 P2 -47 1951900 50029226280000 0.0 NA 0.0 NA NA NA P2-48 1921260 50029223090000 0.2 NA 0.2 NA 1.70 4/18/2012 P2-49 1920240 50029222520000 2.5 NA 2.5 NA 18.70 6/7/2009 P2 -50B 1950960 50029222610200 2.0 NA 2.0 NA 23.00 6/8/2009 P2 -51 1920380 50029222620000 0.3 NA 0.3 NA 0.85 6/7/2009 P2 -52 1972010 50029228260000 3.8 NA 3.8 NA 47.60 6/7/2009 P2 -53 1960410 50029226560000 2.0 NA 2.0 NA 21.30 6/7/2009 P2 -54A 2030300 50029224700100 0.8 NA 0.8 NA 3.40 6/7/2009 P2 -55 1920820 50029222830000 4.0 NA 4.0 NA 79.90 6/22/2009 P2 -56 1951620 50029226100000 2.8 NA 2.8 NA 17.90 6/7/2009 P2 -57A 2022140 50029221830100 15.5 NA 15.5 NA 77.40 6/22/2009 P2 -58 1900080 50029220000000 Sealed conductor NA NA NA NA NA P2 -59A 1982010 50029220960100 Sealed conductor NA NA NA NA NA P2-60 1910910 50029221920000 8.3 NA 8.3 NA 56.10 3/13/2012 e 0 og escnpllon ae o or 17-14 N/A JEWElRY/5BHP MIl¥\- /~4 -, løt.. 08/17/07 1 MPC-10 11767137 MEM INJ PROFilE I >Tl' /"Je, _~ < 08/13/07 1 17-01 11824337 5BHPS/JEWElRY lOG /'11(') -OS,~ 08/15/07 1 P2-30 11686776 PRODUCTION PROFilE ¡~~ -Óc,,~ 08/25/07 1 l1-31 11865639 lDl ,0.'::'- .<' 08/14/07 1 P2-10 11846804 PRODUCTION PROFilE 1Cj>?f -tA'7- 08/17/07 1 17-03A N/A JEWElRY/SBHP JC '+-- /J.¡I_ 08/17/07 1 C-26 11824342 lDl Iq"jç - 11..J~ 08/22/07 1 15-07C 11594517 SBHP SURVEY .:=II"'I?<. - Oq-::¡ 08/23/07 1 D-04B 11591451 SBHP SURVEY ;)ö3 - II ö 08/24/07 1 P2-24 11865643 PRODUCTION PROFilE IctiC - (v-.'1< 08/21/07 1 P2-03 11855502 PRODUCTION PROFilE ICj ~ - t:I-I t../ 08/19/07 1 09-44 11855501 SBHP/JEWElRY ¡OJ I') - QI .ð 08/16/07 1 09-23 11824337 SBHP/JEWElRY I~-~ 08/16/07 1 2-52/5-41 11846807 PRODUCTION PROFilE j~-: - f'\~ ~ 08/18/07 1 F-08A 11638646 U51T {)Ö~ -0 06/28/07 1 02-16C 11628790 SCMT dbr-()'7t5 08/24/07 1 l2-32 11695060 RST 1\-r(\.I-sr~_I~":} .. /l'íl¿¡~ OS/23/07 1 1 l5-09 11492259 RST IC}l1-I::J'-I 'iI. I<~/-::J. 11/11/06 1 1 02-12B 11767132 MCNl f)o~-~'X .. ,,-,n 06/21/07 1 1 18-09B 11366500 MCNl IOt'1l-- rr+-1r #- L...-4.IC) 10/23/06 1 1 G-14A 11485777 MCNl I~"ð -()~~ 'it ISLJQ-ò 11/27/06 1 1 05-20B 10942220 MCNl :J nLI - !:J':< it it- I"'<'/::J 06/26/05 1 1 Schlumberger Alaska Data & Consulting Services 2525 Gambell Street, Suite 400 Anchorage, AK 99503-2838 ATTN: Beth WII J b# 09/10/07 {)CAMMED SEP 1 8 2007 NO. 4406 Company: State of Alaska Alaska Oil & Gas Cons Comm Attn: Christine Mahnken 333 West 7th Ave, Suite 100 Anchorage, AK 99501 l D . f Field: Prudhoe Bay Endicott C I CD . D t Bl . PLEASE ACKNOWLEDGE RECEIPT BY slg~I~<?"",'JjPrf~~lrf...\ NE COpy EACH TO: BP Exploration (Alaska) Inc. ,,,., (~ n I)""" \\ \¡t Ii..".. \¡~ß Petrotechnical Data Center LR2-1 ,¡~" '.,( "'-~ - 900 E. Benson Blvd. Anchorage, Alaska 99508 Date Delivered: SEP L\' D07 Alaska Data & Consulting Services 2525 Gambell Street, Suite 400 Anchorage, AK 9'. "~'~ ATTN: Beth £. Received bY:C/~, ^----- . -h~ /\'h:JBkn t)¡! ;rt~ C~np Con::). t!l)I\\lli\,)d,'.,' ons "^, 1. Operations Performed: AnChor~erD '" Abandon 0 Repair WellŒ Plu : PerforationsD Stimulate 0 Alter CasingD Pull TubingD Perforate New PoolO WaiverD Time ExtensionD Change Approved ProgramD Operation ShutdownD Perforate 0 Re-enter Suspended wellD 2. Operator BP Exploration (Alaska), Inc. 4. Current Well Class: 5. Permit to Drill Number: Name: Development [!] ExploratoryD 192.nGsn 3. Address: P.O. Box 196612 6. API Number Anchorage, Ak 99519-6612 StratigraphicO ServiceD 50-029-22289-00-00 7. KB Elevation (ft): 9. Well Name and Number: 49.00 P2-30 8. Property Designation: 10. Field/Pool(s): ADL-034624 pt Mcintyre Oil Field / pt Mcintyre Oil Pool 11. Present Well Condition Summary: Total Depth measured 10826 feet true vertical 9338.7 feet Plugs (measured) 4-1/2" PXN Plug set @ 10095' (05/26/2006) Effective Depth measured 10739 feet Junk (measured) None true vertical 9263.1 feet Casing Length Size MD TVD Burst Collapse CONDUCTOR 77 20" 91.5# H-40 38 - 115 38.0 - 115.0 1490 470 SURFACE 43 13-3/8" 68# K-55 37 - 80 37.0 - 80.0 3450 1950 SURFACE 3759 13-3/8" 68# N-80 80 - 3839 80.0 - 3488.2 4930 2270 PRODUCTION 10245 9-5/8" 47# L-80 35 - 10280 35.0 - 8866.2 6870 4760 LINER 748 7" 26# 13Cr80 10078 - 10826 8689.6 - 9338.7 7240 5410 Perforation depth: Measured depth: 10246-10256,10308-10328,10348-10378,10432-10452 f"'(fI\NNED gf-P 2 t5 2005 ,) .. ,:. ... - True vertical depth: 8837-8845,8890-8908,8925-8951,8998-9015 Tubing ( size, grade, and measured depth): 4-1/2" 12.6# 13Cr80 @ 29 - 10134 Packers & SSSV (type & measured depth): 9-5/8" TIW HBBP Packer @ 10065 4-1/2" Camco TRDP SSV @ 2229 12. Stimulation or cement squeeze summary: Intervals treated (measured): RBDMS BFL SEP 2 5 2006 Treatment descriptions including volumes used and final pressure: 13 Representative Dailv Averaae Production or Iniection Data Oil-Bbl Gas-Met Water-Bbl Casina Pressure Tubing Pressure Prior to well operation: 1849 4286 1812 --- 1134 Subsequent to operation: 921 6787 3225 .0. 1117 14. Attachments: 15. Well Class after proposed work: ExploratoryO DevelopmentOO ServiceD Copies of Logs and Surveys run _ 16. Well Status after proposed work: Daily Report of Well Operations _ ~ OilŒJ GasD WAG 0 GINJD WINJD WDSPLD Prepared by DeWayne R. Schnorr (907) 564-5174. 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. SUndry Number or N/A if C.O. Exempt: Contact DeWayne R. Schnorr N/A Printed Name DeWayne R. Schnorr Title Petroleum Engineer Signature ~~ K~I! Phone 564-5174 Date 9/13/06 Form 10-404 Revised 4/2004 (lR\G\NAL .RECE/VED ALASKA Oil AND GAS CONSERVATION COMMISSION SEP 1 9 2006 REPORT OF SUNDRY WELL OPERA"ACÐlrIS Gas C . ~ ftl/ePG STATE OF ALASKA . . P2-30 DESCRIPTION OF WORK COMPLETED NRWO OPERATIONS EVENT SUMMARY 09/12/2006 T estEvent --- BOPD: 1,459 BWPD: 5,430 MCFPD: 11,410 AL Rate: 09/03/2006 T/IIO=940/2400/750. Temp=125*. Bleed OAP and Eval "Popping" noise. (FO call-in). Bled 08/14/2006 T/I/O= 2000/1680/40. LOAD TBG W/10.1 PPG BRINE. (Pre SSV Repair) Pump 10 bbls neat, 230 bbls 10.1 PPG brine, and 40 bbls of crude down the TBG. F.P. F/L with 5 bbls neat. Final WHP= Vac/1640/40. 08/14/2006 SET 4" CIW BPV-REPLACE PACKING ON SSV- TESTED - PULLED BPV. 08/13/2006 Load well to secure. Load and transport 230 bbls of 10.1 PPG Brine. 06/11/2006 T/I/O=1120/2350/230. Temp=129*. IA FL. (Post BH weld). IA FL @ 5021' sta#2 (269 bbl). 06/09/2006 T/I/O= 1020/1010/20. Temp= Hot. IA FL (post-BH weld). AIL line removed from service. Integral installed on IA. IA FL @ 474' (25 bbls). 06/06/2006 PULLED 4.5 PX PLUG BODY FROM 10097' SLM WELL LEFT SII & TURNED OVER TO DSO 06/05/2006 ***WELL S/I ON ARRIVAL *** PULL P-PRONG @ 10093' SLM SET 1.5" DGL V IN STA # 7 @ 7175' SLM 06/04/2006 TII/O=150/150/0 Load lA, MIT x OA to 2000 psi.**PASS on 2nd Try** (Post Braidenhead weld) Pumped 10 bbls neat meth down IA. Pumped 4.9 bbls crude to pressure up OA to 2000 psi. OA lost 20 psi in 15 min and 20 psi in second 15 min for a total pressure loss of 40 psi over 30 min. PASS, Bled OAP. Final WHP's=260/220/0 06/03/2006 T/I/O =SSV/120/0. Temp = SI. Installed plug in brad en head viewport. Drilled and tapped the viewport hole, installed plug. 06/01/2006 T/I/O = 320/70/2. Temp = SI. Welded Bradenhead. Made 15 passes on upper and lower Bradenhead. Insatlled and welded plugs in lock ring. 05/31/2006 T/I/O=500/140/10. Temp=SI. Prep for BH Weld. TBG FL @ 666'. Bled TBG Pressure from 500 psi to 0 psi in 1 hr. During bleed lAP decreased to 0 psi. Bled S-Riser from 500 psi to 0 psi with TBG. Bled OAP from 10 psi to 0 psi in 15 min. Removed cellar boards, and staged hoses for weld. Final WHP's = 0/0/0. 05/30/2006 TIO = 380/300/10. Temp = SI. BH Weld INCOMPLETE. TBG FL @430'. IA FL @ 170'. OA FL @ 36'. Bled WHP's to 0 psi. Applied continuous N2 purge on OA. Unable to reach 0% LEL. RDMO. FWHP's = 0/0/0. Page 1 . . P2-30 DESCRIPTION OF WORK COMPLETED NRWO OPERATIONS 05/29/2006 TIO = 200/220/10. Temp = SI. Install N2 caps, assist wI BH weld prep. Displaced 8 bbls of fluid from TBG & IA while using 2 bottfes of N2 and installing N2 caps on both TBG & IA. Final TBG FL @ 84'. FinallA FL @ 144'. Bled OAP from 10 psi to 0 psi in 2 mins. DSM installed blind in flow line. AIL line is disconnected from tree and blinded. Cleaned tree. FWHP's = 340/340/0. 05129/2006 CIRC-OUT (Braiden Head Weld) Pumped 280 bbls 1 % kcl down tubing, up the IA through a jumper loop taking returns down flowline. Bled pressures down to 0 psi. Final WHP's= 0/0/0 05128/2006 TIIIO= 100/010 CIRC-OUT (Braiden Head Weld) Pumped 5 bbls neat, 400 bbls 1 % kcl down tubing, up the IA through jumper line taking return down flowline. 05/28/2006 CMIT TXIA 2500 psi PASSED F-protect F-Line (Wellhead Repair)Temp=cold Pumped 4 bbls of crude down IA pumped 42.3 bbls of crude down TBG to reach 2500 psi for CMIT TXIA 1 st test 1 st 15 min lost 60/60 psi 2nd 15 min lost 20/20 psi for a total of 80/80 psi in 30 min bleed TXIA psi down F-Line F-protect F-Line W/1 0 bbls meth shut IGV psi to 1500 psi Final Whp;s=300/300/0 05/27/2006 T11I0=280/280/0 CMIT TxlA @ 2500 psi. (Shut)(Wellhead Repair) Loaded 102 bbls of 50* diesel followed by 348 bbls of 110* crude into IA job in progress 05/27/2006 PULL S/O" FROM STA#7 @ 7167' SLM (RK LATCH, 22/64). LEFT POCKET EMPTY. SET PRONG IN PXN PLUG BODY @ 10081' SLM( 96" OAL, 1 3/4" FN) ***WELL LEFT SII, NOTIFIED DSO OF STATUS*** 05/27/2006 TIO = 193012130/10. Temp = SI. BH Weld Prep. AIL line disconnected from tree. Integral flange installed on IA. Truck connection valve installed on flowline downcomer. Five empty screw ports on ACME ring, four are 7/8" and one is 1/2" from inside edge to inside edge. TBG FL @ 3870'. IA FL @ 4790'. OA FL near surface. Bled TBGP & lAP simultaneously down flowline to 250 psi in 2 hrs. Final TBG FL @ open pocket (sta-7) @ 7184' (110 bbls). FinallA FL also @ 7184' (385 bbls). Bled OAP from 10 psi to 0 psi in 5 mins (all gas). OA FL near surface. Bled AL line from 1700 psi to 0 psi in 20 mins. FWHP's = 250/250/0. 05126/2006 *** WELL FLOWING UPON ARRIVAL *** RAN 3.5" SWAGE,TEL, S.B., LOC IT @ 10111' SLM + 12' = 10123' ELM. SO @ 10293' + 12' CORR. = 10305' ELM. BTM PERF @ 10452' MD. SAMPLE BAILER EMPTY. SET 4.5" PLUG BODY @ 10087' SLM FLUIDS PUMPED BBLS 102 Diesel 25 Neat Methanol 680 1 % KCL Water 230 10.1 PPG Brine 490 Crude 1527 TOTAL Page 2 TREE " S~ES: CHROMETBG & LNR Wa.LHEAD = FMC P2-30 ) ACTUATOR = BAKER C KB. a.EV " 49' BF. a.EV = 12' KOP= 1086' Max Angle = 38 @ 3199' I 2229' 1-14-1/2" CAMCOTRDPSSSV, 10= 3.812" I Datum MD " 10260' . I Datum TVD = 8800' SS GAS LIFT MANDR8.S ~ ST MD TVD DEV TYÆ VLV LA TCH PORT DATE 113-3/8" CSG, 68#, K-55/L-80, 10 = 12.415" I 3839' .. 1 4025 3641 35 TGPD DMY RK 0 2 5021 4476 33 TGPD DOME RK 16 3 S783 5119 33 TGPD DMY TG 0 4 6199 5470 32 TGPD DMY TG 0 L S 6502 5724 33 TGPD DMY TG 0 Minimum ID = 3.725" @ 10114' 6 6805 5976 35 TGPD DMY TG 0 7 7184 6283 36 TGPD SO TG 26 OTIS XN NIPPLE 8 10009 8629 29 TGPD DMY TG 0 09/16/05 . I 10047' 1-14-1/2" OTIS X NIP, 10 = 3.813" I 18 ~ I 10065' H 9-S/8" X 4-1/2" TIW HBBP A<R I I~ I 10095' -f4-1/2" OTIS x NIP, ID = 3.813" I I TOP OF 7" LNR I 10096' I II -,.. -, 10095' 1-14-1/2" PXN PLUG (OS/26/06) I . I I 10114' 1-14-1/2" OTIS XN NIP, ID = 3.72S" I I I 14-1/2" TBG, 12.6#, 13-CR. .0152 bpt, 10 = 3.958" I 10134' 10133' t-14-1/2" TUBING TAIL WLEG I I 10123' Ha.MDTT LOGGED 03/31/01 I 19-5/8" CSG, 47#, N-80, ID" 8.681" I 1 0242' l----A1 .. ÆRFORA TION SUMMARY ~ REF LOG: A WS DIUGR ON 11/03/92 ANGLEAT TOP ÆRF: 30@ 10239' Note: Reter to Production DB tor historical pert data SIZE SPF INTERVAL Opn/Sqz DATE 3-3/8" 1 10239 - 10249 S 02/22/01 3-3/8" 6 10240 - 10320 S 09/26/99 II 3-3/8" 6 10246 - 10256 C 07/02/04 3-3/8" 6 10308 - 10328 C 10/10/99 I¡ 3-3/8" 6 10348 - 10378 C 10/10/99 3-3/8" 6 10430 - 10530 S 09/26/99 3-3/8" 6 10432 - 10452 0 03/31/01 3-3/8" 6 10350 - 10410 S 09/26/99 I PBTD I 10710' I 7" LNR, 26#, 13-CR. .0383 bpf, ID = 6.276" I 10826' I DATE REV BY COMMENTS DATE REV BY COMMENTS POINT MCINTYRE UNIT 01/16/94 ORIGINAL COMPLETION Wa.L: P2-30 07/02/04 MDClKAK ADÆRFS ÆRMIT No: ~ 920950 09/23/05 KSBITLH GLV CO (9/13/0S & 9/16/05) API No: 50-029-22289-00 04/25/06 ALHlPJC WELLHEAD CORRECTION SEC 14, T12N, R14E, 4070.46' Fa. & 74.24' FNL OS/26/06 TBJPJC SET PXN PLUG OS/29/06 DFRlDTM CSG CORRECTIONS (11/24/04) BP Exploration (Alaska) STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION REPORT OF SUNDRY WELL OPERATIONS ~ ~ 1, Operations Performed: Abandon 0 Alter CasingD Change Approved ProgramD RepairWeliD PluQ PerforationsD Pull TubingD Perforate New PaolO Operation Shutdown 0 Perforate ŒJ 49.00 8, Property Designation: ADL-Q34624 11. Present Well Condition Summary: 4. Current Well Class: Development Œ] StratigraphicO 9, Well Name and Number: P2-30 10. Field/Pool(s): Pt Mcintyre Oil Field / Pt Mcintyre Oil Pool ExploratoryD ServiceD Stimulate 0 OtherD WaiverD Time ExtensionD Re-enter Suspended Well 0 5. Permit to Drill Number: 1 2 0 6. API Number 5~29-2228g.o0-Q0 2. Operator BP Exploration (Alaska), Inc. Name: 3, Address: P.O. Box 196612 Anchorage, Ak 99519-6612 7. KB Elevation (ft): Total Depth measured 10826 feet true vertical 9338.7 feet Effective Depth measured 10739 feet true vertical 9263.1 feet Plugs (measured) Junk (measured) None None Casing Conductor Liner Production Surface Surface Length 77 748 10245 43 3759 Size 20" 91.5# H-40 7" 26# 13Cr80 9-5/8" 47# L-80 13-3/8" 68# K-55 13-3/8" 68# N-80 MD TVD Burst Collapse 38 115 38.0 - 115.0 1490 470 10078 - 10826 8689.6 - 9338.7 7240 5410 35 - 10280 35.0 - 8866.2 6870 4760 37 80 37.0 - 80.0 3450 1950 80 - 3839 80.0 - 3488.2 4930 2270 Perforation deDth: Measured depth: 10246 -10249,10249 -10256,10308 -10321,10321 -10328, 10348 -10350,10350 -10378,10432 -10452 True vertical depth: 8836.64 - 8839.25,8839.25 - 8845.34,8890.49 - 8901.76,8901.76 - 8907.83,8925.14 - 8926.87.8926.87 - 8951.08 8997.72 - 9014.98 R~ Tubing (size. grade, and measured depth): 4-1/2" 12.6# 13Cr80 @ 29 10134 cCE/VED Packers & SSSV (type & measured depth): 4-1/2" Camco TRDP SSV 4-1/2" TIW HBBP Packer 7" Baker H Packer @ 2229 @ 10065 @ 10085 ...'.:. i": ,', n . " /:f\14 Aiaslca on & Gas Con s. 12. Stimulation or cement squeeze summary: Intervals treated (measured): Treatment descriptions including volumes used and final pressure: ReDresentative Dailv Averaae Production or Iniection Data 13 Prior to well operation: Subsequent to operation: Oil-Bbl Gas-Met Water-Bbl Casing Pressure TubinQ Pressure 965 3.5 8868 1950 295 880 6.6 9666 1950 866 14. Attachments: Copies of Logs and Surveys run - Daily Report of Well Operations - ! 15, Well Class after proposed work: ExploratoryD 16. Well Status after proposed work: Oil[!] GasD Development[! Service D Printed Name WAG D GlNJD WINJD WDSPLD Prepared by Garry Catron (907) 564-4657, Sundry Number or N/A if C,O. Exempt: NIA 17, I hereby certify that the foregoing is true and correct to the best of my knowledge. Contact Title Production Technical Assistant Signature Phone 564-4657 Date 9/8/04 Form 10-404 Revised 4/2004 ORIGINAL RIIIIS Sf l SEP 1 3 ?On~ ~ ~ P2-30 DESCRIPTION OF WORK COMPLETED NRWO OPERATIONS EVENT SUMMARY 07/02/04 Perforate 10246'-10256' 6 SPF BBLS 0 FLUIDS PUMPED : TOT AL No Fluids Pumped Page 1 ~ ~, TREE = WB.LHEAD = erN A Cn.1A. TOR - BAKER e KB, ELEV = 49' BF. ELEV = 12' KOP- 1086' Max Anaie = 38 @. 3199' Datum MD = 10260' Datum TVD = 8800' SS P 2 -3 0 . 13-3/8" CSG. 68#. L-80. ID = 12.415" TOP OF 7" LNR Minimum 10 = 3.725" @ 10114' OTIS XN NIPPLE 4-1f2"lBG. 12,6#. 13-CR ,0152 bpI. ID= 3,958" 10134' 9-518" eSG. 47#, N-80. ID = 8,681" ÆRFORA TON SU~ARY REF LOG: A WS DILIGR ON 11103/92 ANGLE AT TOP PERF: 30 @ 10239' Note: Refer to Production DB for historical perf data SIZE SFF INTffiVAL Opn/Sqz DATE 3-3/8" 1 10239 - 10249 S 02/22/01 3-3/8" 6 10240 - 10320 S 09/26/99 3-3/8" 6 10246 - 10256 0 07/02/04 3-3/8" 6 10308 - 10328 0 10/10/99 3-3/8" 6 10348 - 10378 0 10/10/99 3-3/8" 6 10430 - 10530 S 09/26/99 3-3/8" 6 10432 - 10452 0 03/31/01 3-3/8" 6 10350-10410 S 09/26/99 10710' 10826' I, SAFETY NOTES: CHROME lBG & LNR. 2229' 4-1/2" CA f\CO TRDP SSSV , ID = 3,812" ST MD TVD 1 4025 3641 2 5021 4476 3 5783 5119 4 6199 5470 5 6502 5724 6 6805 5976 7 7184 6283 8 10009 8629 GAS LIFT MANDRELS DEV lYPE VLV LATŒi 35 TGPD RK 33 TGPD RK 33 TGPD TG 32 TGPD TG 33 TGPD TG 35 TGPD TG 36 TGPD TG 29 TGPD TG PORT DATE 1oo4T 4-1/'Z' OTIS X NlP,ID = 3,813" 10065' 9-5/8" X 4-1/2" TrN HBBP PKR 10095' 4-1I'Z' OTIS X NIP, ID = 3,813" 10114' 4-1/2" OTIS XN NIP, ID = 3,725" 10133' 4-lI'Z'1UBNG TAL WLEG I 1 0123' H B.MHTLOGGED03131/01 I DATE REV BY CO~ENTS I)ð. TE RBI BY eO~8IITS 01/16/94 ORIGINAL COMPLETION 07/18/01 RNiKAK CORRECTIONS 07/02/04 MXïKAK ADÆRFS POINT MaNlY RE Lt-JIT WB.L: P2-30 PERMIT No: 1920950 API No: 50-029-22289-00 SEC 14, T12N, R14E, 4070.46' FB. & 74,24' FN... BP Exploration (Alaska) STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION REPORT OF SUNDRY WELL OPERATIONS 1. Operations performed: Operation shutdown_ Stimulate _ Plugging _ Perforate _X Pull tubing _ Alter casing _ Repair well _ Other _X (Cement Sqz WSO) 2. Name of Operator BP Exploration (Alaska), Inc. 3. Address P. O. Box 196612 Anchorage, AK 99519-6612 5. Type of Well: Development _X Exploratory__ Stratigraphic_ Service_._ 4. Location of well at surface 188' FNL, 3897' FEL, Sec. 14, T12N, R14E, UM At top of productive interval 42' FSL, 4224' FEL, Sec. 12, T12N, R14E, UM At effective depth (asp's 681623, 5998395) (asp' s 686858, 5993477) At total depth 74' FNL, 4070' FEL, Sec. 13, T12N, R14E, UM (asp's 686724, 5998635) 12. Present well condition summary Total depth: measured true vertical 10826 feet Plugs (measured) 9339 feet 6. Datum elevation (DF or KB feet) RKB 49 feet 7. Unit or Property name Point Mclntyre Unit 8. Well number P2-30 9. Permit number / approval number 1 92-095 10. APl number 50-029-22289 11. Field / Pool Point Mclntyre Oil Pool Tagged PBTD @ 10531' MD 3/28/2001. Effective depth: measured true vertical 10531 feet Junk (measured) 9083 feet Casing Length Conductor 75' Surface 3790' Production 10193' Liner 730' Size Cemented 20" 11 yards Arcticset 13-3/8" 1468 Sx CS III & 400 Sx Class G 9-5/8" 460 cubic ft Class G 7" 235 cubic ft Class G Measured Depth True Vertical Depth 75' 75' 3839' 3488' 10242' 8833' 10826' 9339' Perforation depth: measured 10310'- 10330'; 10350'- 10380'; 10432'- 10452'. true vertical 8892' - 8910'; 8927' - 8953'; 8947'; 8998' - 9015'. Tubing (size, grade, and measured depth) 4-1/2", 12.6#, 13CR80 Tbg @ 10134' MD. Packers & SSSV (type & measured depth) 9-5/6" X 4-1/2" TIW HBBP PACKER @ 10065' MD. 4-1/2" CAMCO TRDP SSSV, ID=3.812" @ 2229' MD. 13. Stimulation or cement squeeze summary Intervals treated (measured) (see attached) Treatment description including volumes used and final pressure 14. Prior to well operation Subsequent to operation OiI-Bbl 1371 Representative Daily Average Production or Injection Data Gas-Md Water-Bbl 902 4679 1612 986 5438 Casing Pressure Tubing Pressure 791 784 15. Attachments Copies of Logs and Surveys run __ Daily Report of Well Operations __X 16. Status of well classification as: Oil __X Gas __ Suspended __ ~ervice 17. I hereby ce. rti~that the/foregoing is true and correct to the best of my knowledge. ~ '""Y~ :~!;' .... '='Titie: GPMA Surveillance Engineer BilIM~h~ws .... - ' ' Date April 10, 2001 Prepared by Paul Rauf 564-5799 ~ Form 10-404 Rev 06/15/88 · SUBMIT IN DUPLICATE P2-30 DESCRIPTION OF WORK COMPLETED CEMENT SQUEEZE FOR WSO & PERFORATING OPERATIONS Date Event Summa~ 2/04/2001 - 2/06/2001: 2/11/2001: 2/12/2001: 2/13/2001: 2/15/2001: 2/16/2001: 2/21/2001: 2/22/2001: 2/25/2001: 3/01/2001: 3/02/2001: 3/28/2001: 3/31/2001: Dummied off GLV's. MITIA to 2000 psi - passed. MIRU CTU. PT'd equip. RIH & driftedto 10116' SLM. RIH w/Scale Blaster Tool & jetted perfs f/10200' - 10400' w/Sterling Beads & Kelzan Gel. FTP increased f/740 to 950 psi. POOH w/Scale Blaster Tool. RIH w/CT & tagged fill @ 10265'. FCO'd to 10524'. Pumped a gelled sand slurry consisting of 3800 lbs of 20/40 mesh sand to place an isolation plug over the following perf intervals: 10310'- 10330' MD (UB1 Zone) Reference Log: AWS DIL/GR 11/3/1992. 10350' - 10380' MD (LC4 & LC3 Zones) Pumped an additional 1300 lbs of sand & PUH to safety. Made a final TOS tag @ 10295'. POOH. FP'd well to 2500'. RD CTU. RIH w/slickline & TOS @ 10293'. RIH & dump bailed 10 gal of liquid sand cap on sand plug. Performed a CTU Cement Squeeze for Water Shutoff as follows: MIRU CTU. PT'd equip. Killed well w/2% KCL Water. RIH w/CT & tagged TOS @ 10295' MD. Pumped 40 bbls of 50% Diesel - 40% Xylene - 10% Musol across the perf intervals below: 10239' - 10249' MD (UB4 Zone) (open perforations) 10249' - 10295' MD (UB3 Zone) (leaking previously squeezedperfs) Pumped 45 bbls of LARC w/20 ppb Aggregate. Squeezed incrementally to 3500 psi & held it for 1 hr. Contaminated cement w/Biozan & cleaned out to 10292'. Unable to jet through liquid cap. Placed TEA across perfs. POOH. Left 1475 psi on well. RD CTU. RIH & tagged TOC @ 10287' ELM. PT'd to 1000 psi for 30 min - passed. MIRU CTU. PT'd equip. RIH & UR'd through the cement/sand interface to 10300'. POOH w/UR. RIH w/CT Nozzle & washed down to hard BTM @ 10520'. POOH. RD. RIH w/3-3/8" dummy gun to PBTD @ 10531' ELM corrected. Ran PDS Mem PPROF. MIRU SWS Wireline Unit. PT'd equip. RIH w/3-3/8" perforating gun & shot 20' of add perforations from: 10432' - 10452' MD (LC2 Zone) All shots @ 6 SPF. POOH w/guns - ASF. RD. Placed well BOL & obtained a representative welltest. Page 1 MEMORANDUM State of Alaska Alaska Oil and Gas Conservation Commission TO' Dan Seamount, ~o.:'~ DATE' Commissioner THRU: Blair Wondzell, ~ P. I. Supervisor FROM' John Crisp, ~'~/~4~ ~. SUBJECT: Petroleum Irl4pector July 17, 2000 Safety Valve Tests Pt. Mclntyre Field Pt. Mclntyre P-2 July 17, 2000: I traveled to Pt. Mclntyre field's Pad 2 to witness the Safety Valve System tests on Wells P2-30 & P2-53. Low pressure pilot on well P-30 failed to trip. This pilot was replaced & tested OK. Well P-53's Subsurface Safety Valve is being repaired @ this time. The AOGCC test report is attached for reference. SUMMARY: I witnessed SVS tests on Pt. Mclntyre wells P-30 & P-53. Pt. Mclntyre 2 SVS, 2 wells, 5 components, one failure. 20% failure rate. Attachments' SVS Pt. Mcintyre 2 7-17-00jc cc; NON-CONFIDENTIAL SVS Pt. McIntyre 2 7-17-00jc Alaska Oil and Gas Conservation Commission Safety Valve System Test Report Operator: Phillips Alaska Inc Operator Rep: Rob Enderbrock AOGCC Rep: John Crisp ., Submitted By: John Crisp Date: Field/Unit/Pad: Pt. Mclntyre Field PM-2 Separator psi: LPS 440 HPS 7/17/00 Well Permit Separ Set L/P Test Test Test oil, WAG, GIN J, Number Number PSI PSI Trip Code Code Code GAS or CYC,LE P2-01 1970730 P2-03 1970440 P2-04 1981560 D2-06 1931030 P2-07 1940580 P2-08 1981230 P2-10 ! 980970 P2-11 1981920 P2-12 1931150 P2-13 1970600 'P2-14 1981050 P2-17 1981370 P2-18 1940600 P2- ! 9 1970790 P2-20 1960590 P2-21 1940530 P2-22 1972490 P2-24 1980080 P2-25 1971110 P2-27 1971250 ~.~3~0:ii:.i¥.'i,?.:,::- :"!;.:'":1920950 440 350 100 3 p p OIL D2-31 1940360 P2-32 1951350 ,P2-33B 1972310 P2-35 1951790 P2-36 1971600 P2-37 1951060 P2-40 1972260 P2-41 1952050 P2-44 1960630 P2-45A 1971440 P2-48 1921260 P2-49 1920240 P2-50B 1950960 7/20/00 Page 1 of 2 SVS Pt. Mclntyre 2 7-17-00jc Well Permit. Separ Set L/P Test Test Test oil, WAG, GIN J, Number Number PSI PSI Trip Code Code Code ~ASor P2-51 1920380 P2-52 1972010 P2-53 1960410 440 350 340 p p O. IL P2-54 1940590 P2-56 1951620 P2-57 1910790 P2-58 1900080 P2-59A 1982010 P2-60 1910910 Wells: 2 Components: 5 Failures: 1 Failure Rate: 20.0%[~ 9o var Remarks: Well P2-30 LPP was replaced & retested OK. SSSV on P2-53 is out for repair. 7/20/00 Page 2 of 2 SVS Pt. MClntyre 2 7-17-00jc STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION REPORT OF SUNDRY WELl OPERATIONS  ...... IIIII Ii~1 llll in · l¥111klf 1. Operations erformed: Operation shutdown_ Stimulate_ Plugging_ Perforate_X Pull tubing _ Alter casing Repair well Other _ 2. Name of Opeiator 5. Type of Well: 6. Datum elevation (DF or KB feet) ARCO Alaska,,Inc. Development_X RKB 49 feet 3. Address Exploratory__ 7. Unit or Property name P. O. Box 100360 Stratigraphic_ Anchorage, AK 99510-0360 Service Point Mclntyre Unit 4. Location of well at surface 8. Well number 188' FNL, 3897' FEL, Sec. 14, T12N, R14E, UM (asp's 681623, 5998395) P2-30 At top of productive interval 9. Permit number / approval number 42' FSL, 4224' FEL, Sec. 12, T12N, R14E, UM (asp's 686858, 5993477) 192-095-0 At effective depth 10. APl number 50-029-22289 At total depth 11. Field / Pool 74' FNL, 4070' FEL, Sec. 13, T12N, R14E, UM (asp's 686724, 5998635) Point Mclntyre Oil Pool 12. Present well condition summary Total depth: measured 10826 feet Plugs (measured) Tagged PBTD @ 10590' MD (10/01/1999) true vertical 9339 feet Effective depth: measured 10590 feet Junk (measured) true vertical 9134 feet Casing Length Size Cemented Measured Depth True vertical Depth Conductor 75' 20" 11 yards Arcticset 75' 75' Surface 3790' 13-3/8" 1468 Sx CS III & 400 Sx Class G 3839' 3488' Production 10193' 9-5/8" 460 cubic ft Class G 10242' 8833' Liner 730' 7" 235 cubic ft Class G 10826' 9339' Perforation depth: measured 10239' - 10249'; 10310' - 10330'; 10350' - 10380'. true vertica18831' 8839'; 8892'-8910'; 8927'-8953'; 8947'. EEEIVED Tubing (size, grade, and measured depth) 4-1/2"12.6#, 13CR80 Tbg @ 10134' MD. DEC 1 6 Packers & SSSV (type & measured depth) 9-5/8" X 4-1/2" TIW HBBP PACKER @ 10066' MD. Na~ 0{I & ~ Co~s, 4-1/2" CAMCO TRDP SSSV @ 2230' MD.Anchorage 13. Stimulation or cement squeeze summary Intervals treated (measured) (seeattached) ORIGINAL Treatment description including volumes used and final pressure 14. Representative Daily Average Production or Injection Data OiI-Bbl Gas-Md Water-Bbl Casing Pressure Tubing Pressure Prior to well operation 1742 1588 4737 - 771 Subsequent to operation 1398 1282 4566 766 15. Attachments 16. Status of well classification as: Copies of Logs and Surveys run __ Daily Report of Well Operations .__X Oil __X Gas __ Suspended __ Service 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. SignedErin Oba ~~¢~ ~ Title ARCO EngineeringSupervisor Date __ Prepared by Paul t~auf,263-4990 Form 10-404 Rev 06/15/88 · SUBMIT IN DUPLICATE P2-30 DESCRIPTION OF WORK COMPLETED PERFORATING OPERATIONS Date Event Summary 11/20/1999: MIRU ELU. PT'd equip to 3000 psi. RIH w/perf guns &shot 10' of add perforations @: 10239'- 102490' MD Reference Log: AWS DIL/GR 11/3/1992. Used 3-3/8" carriers and all shots at 1 SPF, 180° phasing, and random orientation. POOH w/ guns. ASF. RD ELU. Returned well to production & obtained a valid welltest. RECEIVED .P ~C 16 1999 STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION REPORT OF SUNDRY WELL OPERATIONS .... ~ . l- i~1 il mvlIv 1. Operations performed: Operation shutdown_ Stimulate _ Plugging _ Perforate _X Pull tubing Alter casing Repair well Other _X(sqz) 2. Name of Operator 5. Type of Well: 6. Datum elevation (DF or KB feet) ARCO Alaska, Inc. Development_X RKB 49 feet 3. Address Exploratory__ 7. Unit or Property name P. O. Box 100360 Stratigraphic__ Anchora~le, AK 99510-0360 Service__ Point Mclntyre Unit 4. Location of well at surface 8. Well number 188' FNL, 3897' FEL, Sec. 14, T12N, R14E, UM P2-30 At top of productive interval 9. Permit number / approval number -' 42' FSL, 4224' FEL, Sec. 12, T12N, R14E, UM 92-95 At effective depth lO. APl number 50-029-22289 At total depth 11. Field / Pool 74' FNL, 4070',FEL, Sec. 13, T12N, R14E, UM Point Mclntyre Oil Pool 12. Present well condition summary Total depth: measured 10826 feet Plugs (measured) Tagged PBTD @ 10590' MD (10/01/1999) true vertical 9339 feet Effective depth: measured 10590 feet Junk (measured) true vertical 9134 feet Casing Length Size Cemented Measured Depth True vertical Depth Conductor 75' 20" 11 yards Arcticset 75' 75' Surface 3790' 13-3/8" 1468 Sx CS III & 400 Sx Class G 3839' 3488' Production 10193' 9-5/8" 460 cubic ft Class G 10242' 8833' Liner 730' 7" 235 cubic ft Class G 10826' 9339' Perforation depth: measured 10310'- 10330'; 10350'- 10380'. vertical 8892' 8910'; 8953'; 8947'. true - 8927' - . . Tubing (size, grade, and measured depth) 4-1/2"12.6#, 13CR80 Tbg @ 10134' MD. " ' "'" Packers & SSSV (type & measured depth) 9-5/8" X 4-1/2" TIW HBBP PACKER @ 10066' MD. 4-1/2" CAMCO TRDP SSSV @ 2230' MD. 13. Stimulation or cement squeeze summary Intervals treated (measured) (see attached) Treatment description including volumes used and final pressure 14. Representative Daily Average Production or Iniection Data OiI-Bbl Gas-Md Water-Bbl Casing Pressure Tubing Pressure Prior to well operation 1549 1477 8315 778 Subsequent to operation 1742 1588 4737 771 15. Attachments 16. Status of well classification as: Copies of Logs and Surveys run __ Daily Report of Well Operations __X Oil __X Gas __ Suspended __ Service __ 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. S ignedErin Oba ~'~'~~ ~ Title ARCO Engineering Supervisor Date -- Prepared by Paul t~ uf 263-4990 ~ \ Form 10-404 Rev 06/15/88 · SUBMIT IN DUPLICATE P2-30 DESCRIPTION OF WORK COMPLETED CEMENT SQUEEZE FOR WATER SHUTOFF & PERFORATING OPERATIONS Date Event Summary 9/16/1999: 9/20/1999: 9/26/1999: 10/01/1999: 10/10/1999: RIH &tagged PBTD @ 10512' SLM. RIH w/side/down jet rotating scale blaster nozzle & jetted f/9400' - 10120' MD w/2% KCL Water. Jetted w/calcium carbonate beads f/10120' - 10300' & f/10400' - 10570'. Repeated bead pass f/10300' to 10210'. RIH & tagged PBTD @ 10574' SLM. MITIA to 3000 psi - passed. Loaded IA w/Crude. Dummied off GLM's. Performed a CTU Cement Squeeze for Water Shutoff as follows: MIRU. PT'd to 4000 psi. Killed well w/2% KCL Water. RIH w/CT & tagged PBTD @ 10571' MD. Pumped the following fluid schedule across the perforation intervals listed below: 10241' - 10321' MD (UB4, UB3,UB2,& UB1) Reference Log: AWS DIL/GR 11/3/1992. 10350' - 10410' MD (LC4 & LC3) 10430' - 10530' MD (LC2,1, & LB1) Pumped: (a) 36 bbls 50% Diesel - 40% Xylene - 10% Musol @ 1.6 bpm, followed by (b) 32 bbls 2% KCL Water @ 0.7 bpm, followed by (c) shutdown. Pumped 25 bbls of Neat LARC, followed by 50 bbls of LARC w/20 ppb Aggregate, followed by 7 bbls Neat LARC. Placed 20 bbls of Cement behind pipe at a max sqz press of 2700 psi for I hr. Contaminated Cement w/Biozan and cleaned out to 10577' CTM. POOH w/CT. Left 1900 psi WHP. RD. RIH & tagged TOC @ 10590' MD. MIRU ELU. PT'd equip. RIH w/perf guns & shot 50' of reperforations @: 10310' - 10330' MD (UB1) Reference Log: AWS DIL/GR 11/3/1992. 10350'- 10380' MD (LC4 & LC3) Used 3-3/8" carriers and all shots at 6 SPF, 60° phasing, and random orientation. POOH w/ guns. ASF. RD ELU. Returned well to production & obtained a valid welltest. !.'3'7 0 5 i999 Oil & Gas O~ns. Commissior~ An¢hom§e STATE OF ALASKA ALASKA. . AND GAS CONSERVATION COMMISS REPORT=`` ,JF SUNDRY WELL OPERATIL'~IS 1. Operations performed: Operation shutdown __ Pull tubing __ Alter casing __ _ 2. Name of Operator ARCO Alaska, Inc. 3. Address P.O. Box 100360, Anchorage, AK 99510 4. Location of well at surface Stimulate__ Plugging__ Perforate Repair well __ Other __ 5. Type of Well: Development Exploratory Stratigraphic Service Datum elevation (DF or KB) KB 49 feet 7. Unit or Property name POINT MCINTYRE UNIT 8. Well number 188' FNL, 3897' FEL, Sec. 14, T12N, R14E At top of production interval 42' FSL, 4224' FEL, Sec. 12, T12N, R14E At effective depth At total depth 74' FNL, 4070' FEL, Sec. 13, T12N, R14E P2-30 9. Permit number/approval number 92-95 / 10. APl number 500292228900 11. Field/Pool Point Mclntyre 12. Present well condition summary Total Depth: measured: 10826 feet true vertical: 9339 feet Effective Depth: measured: 10689 feet true vertical: 9220 feet Casing Length Size Cemented Conductor 72' 20" 245 CU ft CS II Surface 3839' 13 2819 CU ft CS III & Intermediate 460 CUft 'G' 10242' 9 5/8" 440 cu ft Class G Liner 730' 7" 188 CU ft Class G Perforation depth: measured 10241-10321 ', 10350-10410', 10430-10530' true vertical 8783-8852', 8877-8929', 8947-9033' Tubing (size, grade, and measured depth) 4 1/2 in. 12.6# 13CR80 @ 0-10134' MD, Packers and SSSV (type and measured depth) 3 7/8 X 9 5/8 PKR @ 10065' MD, 3 4/5 × 4 1/2 TRSSSV @ 2229' MD 3. Stimulation or cement squeeze summary Plugs (measured) Junk(measured) None. None. Measureddepth Truevedicaldepth 110' 110' 3839' 3488' 1O242' 8833' 10826' 9339' RECEIVED JUL 22 A~aska 0il & das Co~'~s. Cor~mission Intervals treated (measured) Treatment description including volumes used and final pressure 0 P, i 6 i N A L 14. OiI-Bbl Gas-Mcf Prior to well operation 8306 6186 443 Subsequent to operation 10028 20322 163 5. Attachments Copies of Logs and Surveys run Daily Report of Well Operations Representative Daily Average Production or Injection Data Water-Bbl Casing Pressure Tubing Pressure 637 727 631 1178 I 16. Status of well classification as: Oil ~x Gas __ Suspended .. 17. I hereby certifyJhat the fore~loigg is true and correct to the best of my knowledge. Signe Title '~_¥v~--'l/V.C./~Z./¢,..._' Date Form 10-404 Rev 06/15/88 Service SUBMIT IN DUPLICATE P2-30 DESCRIPTION OF WORK COMPLETED ADD PERFORATIONS Date Event Summary 08-18-1995 RIH w/3 3/8" guns and added perforations at: 10241' - 10321' MD All shots at 6 SPF, 60 deg phasing and random orientation. Well-P2-30 GPMA TRSSSV -- NIP ~ PKR ~ NIP ~ NIP ~ TT~ Per[ Per[ · Per[ .... WEB Date-4/14/99 P2-30 Well Type: PROD Orig Compltn: 11/7/92 Last W/O: Ref Log Date: 11/3/92 Angle @ TS: deg @ Angle @ TD: 30 deg @ 10826 Rev Reason: PULL TTP Last Update: 7/28/98 APl: 500292228900 SSSV Type: CAT I~ SSSV Annular Fluid: LIFT GAS Reference AWS DIL/GR Log: Last Tag: 10070' SLM TD: 10826 ftKB Last Tag Date: 7/11/98 Max Hole 38 deg @ 3199 Angle: i Safety Notes _j Date Note 1/16/94 Minimum ID: 10114' Otis XN (3.725") General Notes ] Date Note ID 3.812 3.813 3.875 3.813 3.725 3.992 1/16/94 Well Status: ACTIVE 1/16/94 Tubing Hanger: FMC IV @ 29' MD Last Tag Depth @ 10826 Top Of Fluid Depth @ 10240 Other (plugs, equip., etc.) - JEWELRY Depth TVD Type Description 2229 2166 TRSSSV 4-1/2" CAMCO TRDP SSSV, ID=3.812" 10047 8662 NIP OTIS X NIPPLE, ID=3.813" 10065 8678 PKR 9-5/8" x 4-1/2" TIW HBBP PACKER 10095 8705 NIP OTIS X NIPPLE, ID=3.813" 10114 8721 NIP OTIS XN NIPPLE, ID=3.725" 10132 8737 TT TUBING TAIL, WLEG (ELMD) Casing .Strings. - All Size Weight Grade Top Btm Feet Description 13.375 68.00 L-80 0 3839 3839 SUR. CASING 9.625 47.00 N-80 0 10242 10242 PROD. CASING 7.000 26.00 13CR80 10096 10826 730 LINER TUbing strings All Size Weight Grade Top Btm Feet Description 4.500 12.60 13CR80 0 10134 10134 TUBING Gas Lift Mandrels/Valves Stn MD TVD Man Man VMfr VType VOD Latch Port TRO Date VIv Mfr Type 1 4025 3641 iRLA-TG TE RDO-20 2 5021 4476-'RLA-TG TE RD 3 5783 5119-'RLA-TG CA RD 4 6199 5470"RLA-TG TE D-14R 5 6502 5724!RLA-TG TE D-14R 6 6805 5976!RLA-TG TE D-14R 7 7184 6283iRLA-TG TE D-14R 8 10009 8629!RLA-TG CA RD Run Comment 1.5 TG 0.500 0 4/29/98 GLM 1.5 RK 0.000 0 4/29/98 GLM 1.5 RK 0.000 0 4/29/98 GLM 1.5 TG 0.000 0 GLM 1.5 TG 0.000 0 GLM 1.5 TG 0.000 0 GLM 1.5 TG 0.000 0 GLM 1.5 TG 0.000 0 4/29/98 GLM Perforation:s Summary : h~terval TVD Zone StatUs Feet sPF Date Type Comment 10241 - 8832 - 8902 80 6 8/18/95 10321 10350 - 8927 - 8979 60 61/18/94 10410 10430 - 8996 - 9082 100 6 1/18/94 1 O53O 8/25/95 NO. 9667 GeoQuest 500 W. International Airport Road Company: Alaska Oil & Gas Cons Comm Anchorage, AK 99518-1199 ~'/ Attn: Larry Grant ATTN: Sherrie .~ 3001 Porcupine Drive 0 ~~ -'/ /i f,~ Anchorage, AK 99501 . f--,~ /' /~ ~b ~ Field: Greater Point Mclntyre Area ~! ~. ~~L~ Lv[~/ [Lisburne, L6-26, Pt. Mclntyre, and West Niakuk (NK-27)] Well/ Floppy b og Description Date BL RF Sepia Disk P2-30 s j PERF RECORD 95081 8 1 1 P2-34 z/ PERF RECORD 950801 I SIGNED: Please sign and return one copy of this transmittal to Sherrie at the above address. Thank you. Alaska Oil & Gas Ce-ns. Anchora,qo DATE: GeoQuest 500 W. International Airport Road Anchorage, AK 99518-1199 ATTN: Sherrie NO. 9656 P2-30 95267 E~UAL BURST TDT-P 950729 I I I A  J~ Company: Alaska Oil & Gas Cons Comm / Attn: Larry Grant  3001 Porcupine Drive ~,,~. ~ Anchorage, AK 99501 .~'~ U/~ Field: Greater Point Uclntyre Area / [Lisburne, L6-26, Pt. Mclntyre, g and West Niakuk (NK-27)]  Floppy Well Job # Description Date BL RF Sepia Disk 8/23/95 Please sigh and return one copy of this transmittal to Sherrie at the above address. Thank you. DATE: RECEIVED Oil & Gas Cons, Commission Anchorage 8/22/95 NO. 9653 GeoQuest 500 w. International .Airport Road Anchorage, AK 99518-1199 ATTN: Sherrie Well ~Job ~g Description Company: Alaska Oil & Gas Cons Comm Attn: Larry Grant 3001 Porcupine Drive Anchorage, AK 99501 Field: Greater Point Mclntyre Area [Lisburne, L6-26, Pt. Mclntyre, and West Niakuk (NK-27)] Floppy Date BL RF Sepia Disk P2-30 /' 952~6 CNTG 950729 I I I SIGNED ~ Please sign and return one copy of this transmittal to Sherrie at the above address. Thank you. DATE: i, STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION WELL COMPLETION OR RECOMP I ETLON REPORT AND LOG 1. Status of Well Classification of Service Well OIL [] GAS [] S1JSPEI',i3ED [] ABANDONED [] SERVICE [] 2. Name of Operator 7. Permit Number ARCO Alaska, Inc. 92-95 3. Address 8. APl Number P. O. Box 196612, Anchorage, Alaska 99519-6612 50- 029-22289 4. Location of well at surface 9. Unit or Lease Name Point Mclntyre 191'SNL, 1383'EWL, SEC. 14, T12N, R14E, UM ';~";~:~ ":' i"';""""i~:~'~'~ 10. Well Number At Top Producing Interval : ......... "" '~' 12' SNL, 924' EWL, SEC. 13, T12N, R14E, UM~ q! ~";r~hL~ .~.~ 11. Field and Pool At Total Depth ~ Point Mclntyre 76'SNL, 1211'EWL, SEC. 13, T12N, R14E, UM 5. Elevation in feet (indicate KB, DF, etc.) 16. Lease Designation and Serial No. KBE = 49' I ADL 34624 12. Date Spudded 13. Date T.D. Reached 14. Date Comp., Susp. or Aband. 115. Water Depth, if offshore 116. No. el Completions 10/14/92 11/2/92 1/19/94~ N/A feet MSL I One 17. Total Depth (MD+TVD)18. Plug Back Depth (MD+TVD 19. Directional Survey 120. Depth where SSSV set 12 i Th,ckness of Permafrost 10826' MD/9331' TVD 10739' MD/9256' TVD YES [] NO [] 2229' feet MD 750' (Approx.) 22. Type Electric or Other Logs Run Run #1 DIFL/ZDEN/NEUTRON/GR Run #2 MAC 23. CASING, LINER AND CEMENTING RECORD SE'I-I'ING DEPTH MD CASING SIZE WT. PER FT. GRADE TOP BO'I'rOM HOLE SIZE CEMENTING RECORD AMOUNT PU~ 20" 91.5# H-40 Sudace 75' 30" 11 yds Arcticset 13-3/8" 68# N-80 37' 3839' 16" 1468 sx CS 111/400 sx Class "G" 9-5/8" 47# N-80 26' 10242' 12-1/4" 460 cufl Class 'G" 7" 26# 13CR80 10096' 10826' 8-1/2" 235 cuft Class "G" 24. Perforations open to Production (MD+TVD of Top and Bottom and 25. TUBING RECORD interval, size and number) SIZE DEPTH SET (MD) PACKER SET(MD/ Gun Diameter3-3/8" 6 spf MD TVD (subsea) 4-1/2", 13CR80 10134' 10065' 10350'-10410' 8878'-8930' 10430'- 10530' 8947'-9033' 26. ACID, FRACTURE, CEMENT SQUEEZE, ETC. DEPTH INTERVAL (MD) AMOUNT & KIND OF MATERIAL USED 27. PRODUCTION TEST Date First Production IMethod of Operation (Flowing, gas lift, etc.) 7/19/94 I Flowing Date of Test Hours Tested PRODUCTION FOR DIL-BBL GAS-MCF WATER-BBL CHOKESIZE. IGAS-OIL RATIO TEST PERIOD I Flow Tubing Casing Pressure CALCULATED OIL-BBL GAS-MCF WATER-BBL OIL GRAVITY-APl (corr) Press. 24-HOUR RATE 28. CORE DATA Brief description of lithology, porosity, fractures, apparent dips, and presence of oil, gas or water. Submit core chips. /kt~s~a, Git & Gas Cons, Commiss'to~ ~chora~~, Form 10-407 Submit in duplicate Rev. 7-1-80 CONTINUED ON REVERSE SIDE '~ 30. GEOLOC-.-.-.-.-.-.-.~3 MARKEn.~ FORMATION TESTS NAME Include interval tested, pressure data, all fluids recovered and gravity, MEAS. DEPTH TRUE VERT. DEPTH GOR, and time of each phase. Colville Group 7796' 6782' Shale Wall 9825' 8470' HRZ 10016' 8635' Kalubik 10239' 8830' Kuparuk 10240' 8831' Miluveach 10572' 9118' R£C[IV[D /XU( .... 5 1994 Atasks Oil & Gas Cons. Commission Anch0ra.~. 31. LIST OF ATTACHMENTS 32. I hereby certify that the foregoing is true and correct to the best of my knowledge Signed ~~~ TitleOrillingEngineerSuoervisor Date INSTRUCTIONS General: This form is designed for submitting a complete and correct well completion report and log on all types of lands and leases in Alaska. Item 1: Classification of Service Wells: Gas injection, water injection, steam injection, air injection, salt water disposal, water supply for injection, observation, injection for in-situ combustion. Item 5: Indicate which elevation is used as reference (where not otherwise shown) for depth measurements given in other spaces on this form and in any attachments. Item 16 and 24: If this well is completed for separate production from more than one interval (multiple completion), so state in item 16, and in item 24 show the producing intervals for only the interval reported in item 27. Submit a separate form for each additional interval to be separately produced, showing the data pertinent to such interval. Item 21: Indicate whether from ground level (GL) or other elevation (DF, KB, etc.). Item 23: Attached supplemental records for this well should show the details of any multiple stage cement- ing and the location of the cementing tool. Item 27: Method of Operation: Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water In- jection, Gas Injection, Shut-in, Other-explain. Item 28: If no cores taken, indicate "none". Form 10-407 Date: Subject: From: To: ARCO Alaska Inc. Greate~' Point McIntyre Engineering April 19, 1994 Transmittal Number 720 ARCO Alaska, Inc. Bob CrandaLl AOGCC 3001 Porcupine Drive Anchorage, AK 99501 The following Greater Point McIntyre Area data are enclosed. and your cooperation in maintaining confidentiality is appreciated: NK-26 FINAL DISKETTE: MWD w/Sub-Surface 3-17-94 qq-'~ Directional Survey epol~.W (z) This information is confidential Pl-17 '/FINAL LOG: Production Profile 1 3-7-94 P1-21 ~ FINAL LOG: Perf Record 3 3/8" HSD - 6 SPF 1 2/5/94 P2-06 ct7o--105 P2-06 P2-06 P2-12 P2-12 P2-15 P2-15 P2-15 ~INAL LOG: Perforation Record 2 1/8" Phased Enerjet '~//INAL LOG: Static Pressure Survey Press-Temp-Gr / CCL /FINAL DISKETTE: GCT -Surface w/SuJ Directional Survey ~FINAL LOG: Perf Record 3 3/8" H~, 6 SPF '4INAL LOG: Static Pressure Survey Press-Temp-Gr/CCL ~/~AL TAPE: DIZFL/CN/ZDL/GR w/LIS Ver Anadrill Schlumberger Schlumberger 1 1/30/94 Schlumberger 1 1/31/94 Schlumberger 1 1-7-94 Schlumberger 4INAL LOG: Sub-Sea Vertical Depth (MWD Directional Survey) INAL LOG: Borehole Profile "/FINAL LOG: Z-Densilog Comp NEUTRON GR/Caliper 1 1/29/94 Schlumberger 1 1/29/94 Schlumberger 1 3-5-94 Atlas P2-15 1 3-5-94 Atlas 1 3-5-94 Atlas Wireline 1 3-5-94 Atlas Well _Name P2-15 P2-15 P2-15 P2-15 P2-15 P2-16 P2-16 P2-23 P2-29 P2-29 P2-29 P2-29 P2-29 ?2-29 ?2-29 ?2-29 Data Description "~AL LOG: Dual Induct/on Focused Log GR/SP FINAL DISKETTE: MWD Survey w/LIS Vet V~FINAL LOG: Cement Evaluation (CET-GR) / FINAL LOG: Cement Bond Log (CBT-GR) '-'FINAL DISKETTE: GCT w/Sub-surface Directional Survey LIS Vet FINAL LOG: Perforating Depth Control Powered Gun GR INAL LOG: Perforation Record 3 3/8"H-J II, 6 SPF ~/FINAL DISKETTE:,, MWD Survey w/LIS Ver '/'FINAL TAPE: DIFL/CN/ZDL/GR w/LIS Ver 1 /FINAL LOG: Borehole Profile v~INAL LOG: Sub-Sea Vertical Depth (Directional Drillers Data) //FINAL LOG: Z-Densilog Comp NEUTRON GR/Caliper *'"FINAL LOG: Dual Induction Focused Log 1 GR/SP t'- 'd~INAL DISKETTE: ~ Survey w/LIS Ver 1 X,'~INAL DISKETTE: Electronic Multi-shot 1 Survey w/LIS Vet / v~'FINAL LOG: Cement Evaluation Log (CET-GR) Run # 1 Date Run 3-5-94 3-9-94 3-26-94 3-26-94 3-26-94 1/26/94 1/27/94 3-23-94 2/12/94 2-12-94 2-12-94 2-12-94 2-12-94 2-10-94 2-10-94 3-25-94 Company Atlas Sperry Sun Schlumberger Schlumberger Schlumberger Schlumberger Schlumberger Sperry-Sun ATLAS Atlas Atlas Atlas Atlas Sperry-Sun Sperry Sun Schlumberger ransmittal Number: 720 Page: 2 . . Well Name P2-29 P2-29 P2-30 P2-30 P2-30 P2-31 P2-31 P2-31 P2-31 P2-31 P2-31 P2-42 P2-42 P2-42 P2-42 P2-42 Data Description v'f'~AL LOG: Cement Bond Log (CBT-GR) V/FINAL DISKETTE: Sub-Surface Directional Survey (GCT) ~ "/FINAL TAPE: CH Edit 3 Pass CNT-G with Average Pass w/Ver List /FINAL TAPE: CH Edit TDTP 3 Passes and Average w/Ver List LOC.' C.~O~-r~ / Be_. SFINAL LOG: TDTP Depth Corrected FINAL DISKETTE: MWD w/Sub-Surface Directional Survey ?-~a/ dINAL -DISKETTE: Electronic MultiShot w/LIS Vet et,e/  FINAL LOG: Sub Sea VD (Multi-shot Directional Survey) // 7FINAL LOG: Dual katerolog/GR/SP INAL LOG: Borehole Profile FINAL LOG: Z-Densilog / Comp Neutron / GR / Caliper '~AL LOG: Dual Induction Focused Log/GR/SP '~FINAL LOG: Formation Multi-Tester/GR ~FINAL LOG: Sub-Sea Vertical Depth (MWD Directional Survey) V/FINAL LOG: Z-Densilog/Compensated Neutron/GR/Caliper /FINAL LOG: Borehole Profile Run # 1 Date Run 3-25-94 3-20-94 1-8-94 1-8-94 12-8-93 04-08-94 4-10-94 4-10-94 4-10-94 4-10-94 4-10-94 1/9/94 119194 1/9/94 1/9/94 1/9/94 Company Schlumberger Schlumberger Schlumberger Schlumberger Schlumberger Sperry Sun Speri:y Sun Atlas Wireline Atlas Wireline Arias Wireline Atlas Wireline Atlas Atlas Atlas Atlas Arias Transmittal Number: 720 Page: 3 Well Name P2-42 P2-5i P2-51 P2-51 P2-57 P2-57 Data Description FtNAL DISKETTE' MWD Survev w/LIS Vet v/FINAL LOG: TDTP Depth Corrected 1 'd~INAL TAPE: CH Edit 3 Pass TDTP w/Average 1 Pass w/Ver List / I~INAL TAPE: CH Edit 3 Pass CNTG and 1 Average w/Ver List '/FINAL LOG: 2.5" CNT-~Depth Corrected 1 FINAL TAPE: CH Edit 2.5 CNT-D 3 passes 1 w/Average w/Ver List Run ,4 Date Run ~ 1/8/94 Sperry-Sun 1-11-94 Schlumberger 1-11-94 Schlumberger 1-11-94 11-14-93 11-14-93 Schlumberger Schlumberger Schlumberger Please sign ,,/~__~~ and return to' Elizabeth R. Barker, ATO-415 ARCO Alaska, Inc. P.O. Box 100360 Anchorage, Alaska 99510-0360 Transmittal Number: 720 Page: 4 Date: Subject: From: To: ARCO Alaska Inc. Greater Point McIntyre Engineering March 7, 1994 Transmittal Number 703 ARCO Alaska, Inc. Bob Crandall AOGCC 3001 Prokupine Drive Anchorage, AK 99501 The following Greater Point McIntyre Area data are enclosed. This information is confidential and your cooperation in maintaining confidentiality is appreciated: qW?Pl_12 q%'q~P1-20 q "~ ' P2-06 Final Log: CDR~ry Enhaneod Resis~vi~ LW D/._~_d_~_~Eth Corrected__ Final Log: C~DR LWD/Depth Correc_,ted Final Log: CDN LTD/Depth Corrected i t~ oo - ~%%oO FINAL Log: CDR* Very Enhanc___ed Resistivit_y b~3~ t~90 --- lot%O FINAL Log: ~ru, e Vertical Depth3CDPs x..ut> tea.~o - ~'~tt t3 Tape: ~-~~i~ Edit~~~Only in 5 bit runs w/Verification Listing ~ tc13~,t0 Tape: ~ Edit ~~n 2 ST bit runs (with original Well) LDWG Format P~ Log: EBS./TEMP / PR RqS/GRADIO/_HI JM Eroduction Log: F._B_S / TEMP / Log: P_r_oduction Log FB__SS.ZTemp/Press/Gradio/HUM LOG:Production Log F,BBS/TEMP/PRESS/Gradio/HL~., Final Log: GYRO Directional Survey (GC__C_~ 7/8-9/93 Schlumberger/ ~-- ~ :; ~0 5 7/8-9/93 Schlumberger/ txqSo - t%%0o 2, 4- ~c · (~ 7/8-9/93 Schlumberger/ ~ 7/18-28/93 Schlumberger st &~c~ ~ 7/18-28/93 Schlumberger st o~ * 7/24/93 Schlumberger 7/18/93 Schlumberger 12/11/93 Schlumberger ~ %50 -- I u.~% (~ 6 '' 12/11/93 Schlumberger ~ 12/12/93 Ciao --' 10~ oO $" Schlumberger 12/12/93 ~q o 5" Schlumberger 1/7/94 Schlumberger Well Name 'P2-30 P2-30 P2-30 P2-42 P2-42 P242 P2-42 p2 P2-51 -51 Data Description FINAL LOG: Compensated Neutron Log (Dual Porosity - CNT-G) FINAL LOG: Dual Burst TDT-P v/ "FINAL LOG: Perf Record 3 3/8 .... HI II, 6 SPF" Run 4/ Date Run Company (~ 1/8/94 Schlumberger ~ 1/8/94 Schlumberger 1/17/94 Schlumberger "FINAL LOG: Perf Record 270'3 3/8 .... 6 SPF" /~IS Tape:~: 7500-10564 w/lis verification FINAL LOG: W~ement Bond Log (CBT-GR) FINAL LOG: Cement Evaluation Log (CET-GR) v"Compensated Neutron Log (Dual Porosity - CNT-G) {)ual Burst TDT-P Log 1/16-17/94 Schlumberger 1/9/94 Atlas (1~) 1/15/94 Schlumberger 1/15/94 Schlumberger ~b~ L~%$e s ,, 1/11/94 Schlumberger ~%~- t%%%o s" 1/11/94 Schlumberger Please sign 4df~Z~~ and return to: Elizabeth R. Barker, ATO-415 ARCO Alaska, Inc. ] P.O. Box 100360 i"C~"/,~,, ,. Anchorage, Alaska 99510-0360 ,. '-'ti/,,,,,. PLEASE SIGN ONE COPY AND RETURN Transmittal Number: 703 Page: 2 PERMIT DATA AOGCC Individual Well Geological Materials Inventory T DATA_PLUS Page: 1 Date' 03/03/94 RUN DATE_RECVD 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 92-095 . 92-095 92-095 92-095 92-095 92-095 CORE GCT SURVEY BD/GR BHP DIL/GR DPR/GR DPR/GR EPM GCT MAC/XDIP/BHCSC MAC/XDIP/FWF MUD (IFM) MUD (IFM) NP/DP/DPR/GR NP/DP/DPR/GR NP/DP/GR NP/DP/GR PDT SBT/GR/CCL SSTVD ZDL/CNL/GR/CAL 407 CORE ANALYSIS DAILY WELL OP. MWD SURVEY C 10243-10653 SS#857 D FINAL D MWD L 9800-10803, MD L 10236-10754 L 10236-10774 L 9800-10803, MD L 9800-10803, TVD L 7400-10820 L 50-10707 L 10236-10774 L 10236-10774 L 7440-10826, MD L 7440-10826, TVD L 9800-10803, MD L 9800-10803, TVD L 9800-10803, MD L 9800-10803, TVD L 6500-9300 L 9100-10704 L 6700-10774 L 6700-10753 m COMP DATE:01/19/94 R 10244-~ 105'7~.~W R 10/13-01/17/94 R 0-10756 02/05/93 12/31/92 12/31/92 6-7 12/31/92 1 12/31/92 1 12/31/92 6-7 12/31/92 6-7 12/31/92 04/14/93 1 12/31/92 1 12/31/92 1 12/31/92 04/14/93 04/14/93 6-7 12/31/92 6-7 12/31/92 6-7 12/31/92 6-7 12/31/92 04/14/93 1 12/31/92 1 12/31/92 1 12/31/92 02/02/94 06/07/93 02/02/94 12/31/92 PERMIT DATA 92-095 SS DIRECTIONAL 92-095 DRY DITCH 92-095 5496 92-095 5497 92-095 5585 AOGCC Individual Well Geological Materials Inventory T DATA_PLUS R 0-10826 S 7440-10820 T 9698-10820, OH-LWDG X DIP T 6700-10774, OH-DIFL/CNL T 9800-10803, OH-DPR Page: 2 Date: 03/03/94 RUN DATE_RECVD 12/31/92 11/20/92 12/31/92 12/31/92 04/14/93 Are dry ditch samples required? yes no And received? Was the well cored? yes no Analysis & description received? Are well tests required? yes no Received? yes no Well is in compliance Initial yes no yes no Comments STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION WELL COMPLETION OR RI:COMP ! I:TION RFPORT AND LOG 1. Status of Well Classification of Se~ice Well OIL ~ ~S D ~ ~ ~N~ED ~ SER~CE 2. Name of O~rator 7. Pe~it Numar ARCO Alaska, Inc. 92-95 3. Address ~. APl Number '"'~'" ' . P. O. ~x 196612, Anchorage, Alaska 99519-6612 5o- 029-22289 ~' 4. L~ation of well at surface .... ~.~;~-~..~ 9. Unit or Le~e Name ~.~ 191' SNL, 13~' EWL, SEC. 14, T12N, R14E, UM'-','4: '-';.-' .~ ~~:t~. ~.r' .~., ~ ~~ ~ Point Mclntyre ~""..'~,. At Top Producing Interval /~m ~,~' ~'~~ 10. Well Number ,=.-' ......? 12' SNL, 924' EWL, SEC. 13, T12N, R14E, UM : ~ ~:,':~~ 11. Field and P~I ........ : ..... Point Mclntyre At Total D~th ~ '~-'~ ....... 76'SNL, 1211'EWL, SEC. 13, T12N, R14E, UM 5. Elevation in feet (indicate KB, DF, etc.) j6. Le~e Designation and Serial No. KBE = 49' ~ ADL 34624 12. Date Spudded 13. Dae T.D. Re~d 14. Date Comp., Su~. ~ Aband. ~15. Water Depth, if offshore ~16. No. of Completions 10/14/92 11/2/92 1/19/94 N/A feet MSL ] One 17. Total Depth (MD+TVD) 18. Plug Back Depth (MD+TVD 19. Directional Survey J20. Depth where SSSV set ~21. Thickness of Permafrost 10826' MD/9331' ~D 10739' MD/9256' TVD ~ ~ ~ ~ 2229' feet MD ~ 1750' (Approx.) 22. Type Electric or Other Logs Run Run ~1 DIF~ZDEN/NEUTRON/GR Run ~2 MAC 23. CASING, LINER AND CEMENTI~ R~D S~ ~ ~NG DEP~ MD CASING SIZE ~. PER ~. G~DE TOP ~OM ~LE SIZE C~~ R~ORD A~UNT ~1 LED 20" 91.~ H-40 Suffa~ 75' 30" 11 yds Arcticset 13-3/8" 68~ N-80 37' 3839' 16" 1468 sx CS 111/400 sx Class "G" 9-5/8" 4 7~ N-80 26' 10242' 12-1/4" 460 cu fl Class 'G" 7" 26~ 13CR80 10096' 10826' 8-1/2" 235 cu fl Class "G" 24. PeHorations open to Production (MD+TVD of Top and Bottom and 25. ~BINGR~ORD interval, size and number) Gun Diameter 3-3/8" 6 spf S~ZE DEP~ SET (MD) PACKER SET (MD) MD ~D (subsea) 4-1/2", 13CR80 10134' 10065' 10350~10410' 8878~8930' 10430~10530' 8947~9033' 26. ACID, FRAC~RE, CEMENT~UE~, ~C. DEPTH INTERVAL (MD) AMOUNT & KIND OF MATERIAL~ 27. PRODUCTION TEST Date First Production lMethod of Operation (Flowing, gas lift, etc.) Not yet on production J N/A Date of Test Hours Tested PROD~TIONFOR OIL-BBL SAS-MCF WATER-BBL C~KES~E IGAS-OIL RATIO TEST PERIOD ~ I Flow Tubing Casing Pressure CALCU~TED OIL-BBL GAS-MCF WATER-BBL OIL GRAVITY-APl (corr) Press. 24-HOUR RATE ~ 28. CORE DATA Brief description of lithology, porosity, fracture, apparent dips, and pr~ence of oil, gas or water. Submit core chips. ., - '~ ~t~ & G~,s Cons. Fnrm i Submit in duplicate Rev. 7-1-80 CONTINUED ON REVERSE SIDE zg. 30. GEOLOGIC MARKERS FL,'HMATION TESTS NAME Include interval tested, pressure data, all fluids recovered and gravity, MEAS. DEPTH TRUE VERT. DEPTH GOR, and time of each phase. Colville Group 7796' 6782' Shale Wall 9825' 8470' HRZ 10016' 8635' Kalubik 10239' 8830' Kuparuk 10240' 8831' Miluveach 10572' 9118' 31. LIST OF ATTACHMENTS 32. I hereby certify th3t tl~e foregoing is true and c~,rrect to the best of my knowledge Signed " , . J " Tit le Drillino Enoineer SuDell/isor Date INSTRUCTIONS General: This form is designed for submitting a complete and correct well completion report and log on all types of lands and leases in Alaska. Item 1: Classification of Service Wells: Gas injection, water injection, steam injection, air injection, salt water disposal, water supply for injection, observation, injection for in-situ combustion. Item 5: Indicate which elevation is used as reference (where not otherwise shown) for depth measurements given in other spaces on this form and in any attachments. Item 16 and 24: If this well is completed for separate production from more than one interval (multiple completion), so state in item 16, and in item 24 show the producing intervals for only the interval reported in item 27. Submit a separate form for each additional interval to be separately produced, showing the data pertinent to such interval. Item 21: Indicate whether from ground level (GL) or other elevation (DF, KB, etc.). Item 23: Attached supplemental records for this well should show the details of any multiple stage cement- ing and the location of the cementing tool. Item 27: Method of Operation: Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water In- jection, Gas Injection, Shut-in, Other-explain. Item 28: If no cores taken, indicate "none". ~ E C E IV E ~ ~.',..~;,,.,~.i~',:~ t.:a & Gas Cons. Commission Form 10-407 BP/AAI SHARED SERVICE DAILY OPERATIONS PAGE: 1 WELL: P2-30 BOROUGH: NORTH SLOPE UNIT: POINT MCINTYRE FIELD: POINT MCINTYRE LEASE: API: 50- PERMIT: APPROVAL: ACCEPT: 10/13/92 07:30 SPUD: 10/13/92 07:00 RELEASE: OPERATION: DRAG RIG: AUDI 2 WO/C RIG: AUDI 2 10/13/92 (1) TD: 110'( 0) SKID RIG. SKID RIG 375' F/ P2-55 TO P2-30. MW: 8.5 VIS: 0 10/14/92 ( 2) TD: 800' ( 690) 10/15/92 (3) TD: 2000' (1200) 10/16/92 ( 4) TD: 3885' (1885) DRAG. MW: 8.6 VIS: 93 MOVE RIG. RIG ACCEPTED @ 07:30 HRS, 10/13/92. N/U DIVERTER. MIX SPUD MUD. RIH W/ BHA %1. SPUD WELL @ 19:00 HRS, 10/13/92. DRAG TO 380' POOH. RIH. DRAG F/ 380'-800' DRAG. MW: 9.3 VIS:ll0 DRAG F/ 800'-1101' W/L SURVEY. SLIDING F/ 1101'-1131'. W/L SURVEY. SLIDING. POOH. CHECK MWD, MTR. OK. RIH. DRAG TO 2000'. SHORT TRIP. DRAG F/ 2000'-3885' MW: 9.4 VIS: 76 CBU. SHORT TRIP TO HWDP. 10/17/92 (5) TD: 3885'( 0) 10/18/92 (6) TD: 4185' ( 300) 10/19/92 ( 7) TD: 6393' (2208) 10/20/92 (8) TD: 7685' (1292) FINISH TOP JOB. MW: 9.5 VIS: 46 SHORT TRIP TO HWDP. CBU. POOH. R/U WOTCO. RIH W/ 13-3/8" CSG. CIRC. R/U BJ. PUMP 100 BBLS WATER, 1468 SX LEAD CMT, 400 SX TAIL CMT. DISP W/ MUD. BUMP PLUG. N/D DIVERTER. TOP JOB. DRAG. MW: 9.0 VIS: 32 N/U BOPE. TEST BOPE. RIH W/ BHA #2. TAG FC @ 3757' CIRC. TEST CSG. DRAG FC, CMT, FS, 10' NEW HOLE. CIRC. LOT (12.5 PPG EMW). DRAG TO 4185'. SHORT TRIP. MW: 9.4 VIS: 41 DRAG F/ 4185'-4910' CBU. SHORT TRIP TO SHOE. DRAG TO 6393'. CBU. SHORT TRIP. DRAG. SHORT TRIP. DRAG F/ 6393'-7685'. MW: 9.4 VIS: 43 10/21/92 (9) TD: 8261' ( 576) DRAG. DRAG TO 7843' 7843' -8261' MW: 9.5 VIS: 43 CIRC. POOH. CHANGE BHA. RIH. DRAG F/ WELL : P2-30 OPERATION: RIG : AUDI 2 PAGE: 2 10/22/92 (10) TD: 9085' ( 824) DRLG. DRLG F/ 8261'-9085' MW: 9.9 VIS: 46 10/23/92 (11) TD: 9520' ( 435) DRLG. DRLG F/ 9085'-9097' MW:10.1 VIS: 48 CBU. SHORT TRIP. DRLG TO 9520'. 10/24/92 (12) TD:10100' ( 580) POOH. MW:10.1 VIS: 49 DRLG TO 10100' CIRC. POOH TO P/U LOGGING TOOLS. 10/25/92 (13) TD:10242' ( 142) 10/26/92 (14) TD:10242' ( 0) 10/27/92 (15) TD:10242' ( 0) 10/28/92 (16) TD:10243' ( 1) 10/29/92 (17) TD:10302' ( 59) 10/30/92 (18) TD:10391' ( 89) 10/31/92 (19) TD:10569' ( 178) 11/01/92 (20) TD:10652'( 83) CIRC. MW:10.1 VIS: 47 POOH. L/D BHA. TEST BOPE. RIH W/ BHA. LOG F/ 9800'-10100' DRLG F/ 10100'-10242' CIRC. SHORT TRIP TO 7800' CIRC. RIH W/ CSG. MW:10.1 VIS: 41 CIRC. SHORT TRIP 10 STDS. REAM F/ 9585'-10242' CIRC. POOH. R/U WOTCO. RIH W/ 9-5/8" CSG. DRLG CMT. MW:10.1 VIS: 45 RIH W/ 9-5/8" CSG. CIRC. R/U BJ. PUMP 20 BBLS ARCO PREFLUSH, 50 BBLS ARCO 11 PPG SPACER, 400 SX (82 BBLS) 15.8 PPG CMT. DISP CMT. NO BUMP PLUG. N/D BOPE. SET SLIPS. CUT CSG. N/U BOPE. TEST BOPE. L/D BHA. P/U BHA. RIH. TAG CMT @ 10052' DRLG CMT F/ 10052'-10113' TEST CSG. DRLG CMT, FLOAT EQUIP. FINISH TOP DRIVE INSTALL. MW:10.1 VIS: 0 DRLG FS, 1' NEW HOLE. CBU. LOT (12.5 PPG EMW). CIRC. INSTALL TOP DRIVE. PREP FOR OBM DISP. POOH. MW: 9.8 VIS: 68 DISP WELL W/ VERSA-CORE OBM. POOH. RIH W/ CORE ASS'Y. CBU. CORE F/ 10243'-10302' CBU. POOH. RIH W/ CB #3. MW:10.1 VIS: 69 POOH. L/D CORE #1. RIH W/ CB. CBU. CORE F/ 10302'-10391' CBU. POOH. INCORRECT FILL. RIH. CIRC. RAISE MW TO 1~.1 PPG. POOH. L/D CORE. RIH W/ CB. RIH W/ CORE ASS'Y 5. MW:10.3 VIS: 75 RIH. CIRC. CORE F/ 10391'-10480' CBU. POOH. L/D CORE #3. RIH W/ CB. CIRC. CORE F/ 10%80'-10569'. CBU. POOH. L/D CORE #4. POOH W/ CORE #6. MW:10.3 VIS: 84 RIH. CIRC CORE F/ 10569'-10622' CBU. POOH. L/D CORE #5. RIM W; CB. CIRC. CORE F/ 10~22'-10652'. CBU. POOH. WELL : P2-30 OPERATION: RIG : AUDI 2 PAGE: 3 11/02/92 (21) TD:10652' ( 0) 11/03/92 (22) TD:10826' ( 174) 11/04/92 (23) TD: 10826' ( 0) 11/05/92 (24) TD:10826 PB: 0 11/06/92 (25) TD:10826 PB: 0 LOG W/ MWD. MW:10.4 VIS: 88 POOH. L/D CORE #6. TEST BOPE. RIH TO FISH FOR WRENCH. CIRC. POOH. RETRIEVE WRENCH. L/D FISH ASS'Y. RIH. LOG F/ SHOE @ 10242' CBU. MW:10.2 VIS: 70 MAD RUN W/ MWD F/ 10242'-10655' DRLG F/ 10655'-10826'. TD WELL @ 01:15 HRS, 11/03/92. CIRC. POOH TO SHOE. LOG F/ 10450'-10242' RIH. CBU. RIH. MW:10.2 VIS: 72 POOH. R/U ATLAS. LOG RUN: DIFL/ZDL/CN/GR. LOG RUN: MAC/GR. R/D ATLAS. RIH W/ BHA. REV CIRC. MW:10.3 OBM CBU. SHORT TRIP TO SHOE. CBU. POOH. L/D BHA. R/U WOTCO. RIH W/ 7" 13CR LNR ON DP. CIRC. RIH TO 10242' CBU. RIH. CBU. R/U BJ. PUMP 20 BBLS PREFLUSH, 50 BBLS SPACER, 40 BBLS 15.8 PPG CMT. DISP W/ MUD. BUMP PLUG. SET HGR & PKR W/ 4200 PSI. RELEASE F/ LNR. REV CIRC. POOH. MW: 9.8 NaCl REV CIRC. POOH. RIH W/ BHA TO LC. CBU. TEST CSG. OK. DISP WELL TO BRINE. TEST WELL. OK. 11/07/92 (26) TD:10826 PB: 0 N/U TREE. MW: 9.8 NaCl POOH. L/D DP. F/P CSG. L/D DP. N/D BOPE. N/U TREE. 11/08/92 (27) TD:10826 PB: 0 RIG RELEASED. MW: 9.8 NaCl N/U TREE. TEST TREE. SECURE WELL. RIG RELEASED @ 12:00 HRS, 11/7/92. MOVE RIG TO AGI PAD. SIGNATURE: (drilling superintendent) DATE: BP/AAI SHARED SERVICE DAILY OPERATIONS PAGE: 1 WELL: P2-30 BOROUGH: NORTH SLOPE UNIT: POINT MCINTYRE FIELD: POINT MCINTYRE LEASE: API: 50- PERMIT: APPROVAL: ACCEPT: 01/14/93 08:00 SPUD: RELEASE: 01/16/94 11:00 OPERATION: DRLG RIG: WO/C RIG: DOYON 14 01/15/94 ( 1) TD:10826 PB: 0 01/16/94 ( 2) TD:10826 PB: 0 RUN COMPLETION MW: 0.0 MIRU. ACCEPT RIG 1-14-94 @ 0800 HRS. ND, NU & TEST BOPE. CHG RAMS. RIH, POH. RU & RUN COMPLETION TUBING. PUMP DIESEL MW: 0.0 CONT RUNNING COMPLETION TBG. ND, NU & TEST TREE. RU, PUMPING DIESEL. 01/17/94 ( 3) TD:10826 PB: 0 CLEAN PITS MW: 0.0 CONT PUMP DIESEL. SET PKR, TEST ANNULUS. CLEAN OUT PITS. RELS RIG 1-16-94 @ 1100 HRS. SIGNATURE: (drilling superintendent) DATE: Date: Subject: From: To: June 4, 1993 ARCO Alaska, Inc. Lisburne/Point Mclntyre Engineering Transmittal #326 ARCO Alaska Inc. Bob Crandall AOGCC 3001 Porcupine Drive Anchorage, AK 99501 The following Point McIntyre data are enclosed. This information is confidential and your cooperation in maintaining confidentiality is appreciated. Logs Well (one blueline one sepia) I~(Pl-14 P~~rforating Record & Jewelry Log (GR/CCL) \P1-14 DR Enhancement (LWD/Depth Corrected) ~'g ~0~ P1-02t "P1-G1 IP1-G1 kPl-G1 ( P2-48 ~ { P2-48 ~"t~7 ~P2-48 kP2-48 Production Profile Gamma Ray Survey Integrated Forma2ion Log-MD Integrated Formation Log-TVD Engineering Parameters Pressure Data Log Integrated Formation Log-MD Integrated Formation Log-TVD Engineering Parameters Log Pressure Data Log Run # Run Date Company 5/1293 Schlumberger 3/5/93 Schlumberger 1/26/93 Camco 11/8-17/92 Exlog 11/8-17/92 Exlog 11/8-17/92 Exlog 11/8-17/92 Exlog 12/2-27/92 Exlog 12/2-27/92 Exlog 12/2-27/92 Ex, log 12/2-27/92 Exlog Tapes w/Verification Listing [.&...%~ Well ~ ~ ~ta'71 Run # P1-11 tEdit- Bit Runs 1-7 in LDWG Format cmpst :;rbAko P1-14 ~.Edit-CDN/CDR in LDWG Format & QRO I Run Date 10/3/92 03/05/93~ PLEASE SIGN ONE COPY AND RETURN Company Schlumberger Schlumberger june 4,1993 Page 2 Reports Well ~'~ P2-55 ~,~,~ P2-30 ,,~\ PI-ll ',~l~lt~ P1-20 ~ .,.~% P2-51 ~.~'[ P2-50 c~" \\"~P1-G 1 Final Well Report Final Well Report Final Well Report Final Well Report Final Well Report Final Well Report Final Well Report Final Well Report Run Date 9/8-10/10/92 10/19-11/5/92 9/11-10/4/92 12/2-27/92 10/13-28/92 7/3-26/92 5/22-6/18/92 11/8-12/8/92 Company Exlog Exlog Exlog Exlog Exlog Exlog Exlog Exlog Please t Formerly PM#3 Transmittal #326 and return to' Laura S. Lahrson, ATO-409 ARCO Alaska, Inc. P.O. BOX 100360 Anchorage, Alaska 99510-0360 PLEASE SIGN ONE COPY AND RETURN Date: June 4, 1993 ARCO Alaska, Inc. Lisburne/Point McIntyre Engineering Subject: Transmittal #325 From: ARCO Alaska Inc. To' Bob Crandall AOGCC 3001 Porcupine Drive Anchorage, AK 99501 The following Point McIntyre Equity Well Core Analysis Reports are enclosed. These are being sent in response to Larry Grant's request of 4/19/93. This information is confidential and your cooperation in maintaining confidentiality is appreciated. Report Core Analysis Report Core Analysis Report Core Analysis Report Core Analysis Report Core Analysis Report Core Analysis Report Core Analysis Report Core Analysis Report Core Analysis Report Run Date Company 1/8/93 Core Labs 2/10/93 Core Labs 2/24/93 Core Labs 1/12/93 Core Labs 2/11/93 Core Labs 7/7/92 Core Labs 7/22/92 Core Labs 8/12/92 Core Labs 11/24/92 Core Labs Please si~ and return to: Laura S. Lahrson, ATO-409 ARCO Alaska, Inc. P.O. BOX 100360 Transmittal #325 Anchorage, Alaska 99510-0360 PLEASE SIGN ONE COPY AND RETURN ARCO Alaska, Inc. Lisburne/Point McIntyre Engineering Date: Subject: From: To' April 13, 1993 Transmittal #299, ARCO Alaska Inc. Bob Crandall AC)GCC 3001 Porcupine Drive Anchorage, AK 99501 RECEIVED APR 7 4 1995 Alaska 0ii & Gas Cons. Commission Anchorage The following Point Mdntyre Equity Well data are enclosed. This information is confidential and your cooperation in maintaining confidentiality is appreciated. Log Well .- 1 blue line, 1 sepia ,~P2-55'/_ Integrated Formation Log-MD "I pP~-~55~,,,, Integrated F°rmati°n L°g-TVD - Engineering Parameters ~-P2-55-" Pressure Data Log rP1-20 ~"Integrated Formation Log -MD P1-20 ~/'Integrated Formation Log -TVD o P1-20'/' Engineering Parameters o P1-20/ Pressure Data Log° P1-20 .-" PFC Log P1-20,/"Gamma Ray Log ~P1-20 ~Completion Record F2-30~ Integrated Formation Log-MD ~ )P2-30~ Integrated Formation Log ~TVD IP2-30 ~/Engineering Parameters kP2-30 v- Pressure Data Log ~'Pl-ll~Integrated Formation Log -MD Run # Run Date Company - 9/8-10/9/92 Exlog - 9/8-10/9/92 Exlog - 9/8-10/9/92 Exlog - 9/8-10/9/92 Exlog - 9/12-10/2/92 Exlog - 9/12-10/2/92 Exlog - 9/12-10/2/92 Exlog - 9/12-10/2/92 Exlog 1 1/3/93 Atlas I 1/4/93 Atlas 1 1/22/93 Schlumberger - 10/20-11/5/92 Exlog - 10/20-11/5/92 Exlog - 10/20-11/5/92 Exlog - 10/20-11/5/92 Exlog - 9/12-10/2/92 Exlog Exlog Exlog Exlog Atlas Atlas Atlas Haliburton P1-11 ,/"Integrated Formation Log -TVD ~,~'/12-10 ~2~92 P1-11,-" Engineering Parameters ~D.°''- . 9/12-10/2/92 PI-llv' Pressure Data Log ~2~ ''~ {~-k-'S~'°~/12-10/2/92 PI-ll ~' Gamma Ray (Position Packer Assy)~, .~ ~ 1 . 12/31/93 PI-Il',-' ~ Gamma Ray (Perforatip. g Rcccrd~) 1 12/30/93 ~P1-11 "Perforating Record 3 3/8" 4 spf I 1/26/93 -~ Perforating Record I 1/28/93 Please sign 1 copy and return TAPE/DISKETTE w/printout Well ~-~q~- P2-30 q~..$t[ .. P2-49 ~p~.--3%-- P2-51 Run # Dual Prop aesis/Neutron Dens Por/Ga-kS , REVISED: Dual Prop Resi$/GR~ 5%~t[ o~ 3-14 REVISED: Dual Prop Resis/GR~~ t~'~ 4-8 REVISED: Dual Prop Resis/GR -i~ ~%~ ~ 5-7,12 Run Date Company 11/03/92 Teleco 5/7/92 Teleco 6/17/92 Teleco 7/24/92 Teleco Please note that the tapes designated REVISED supersede previousely-sent tapes. Please sign__~~ and return to: Transmittal #299 Laura S. Lahrson, ATO-409 ARCO Alaska, Inc. P.O. BOX 100360 Anchorage, Alaska 99510-0360 Please sign I copy and return STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION WELL COMPLETION OR RECOMP ! ETLON REPORT AND LOG "~...¢" i['~[' ~' (S": ":i' ,",~.~ ~ Classification of Service Well OIL [] GAS [] St.E:4:'Eiki::)ED [] ABANDONED [] SERVICE [] X C~rnr)lctcd 2. Name of Operator 7. Permit Number ARCO Alaska, Inc. 92-95 3. Address 8. APl Number P. O. Box 196612, Anchorage, Alaska 99519-6612 50- 029-22289 4. Location of well at surface 9. Unit or Lease Name 191' SNL, 1383' EWL, SEC. 14, T12N, R 14E, UM'-;::':... "' .... ::":' ~--="::'-"::~:" "~i: 1 ~~-~ Point Mclntyre ^, To, ,ro .o,n 12' SNL, 924' EWL, SEC. 13, T12N, R14E, UM --//z'/ .... % ' !~..,,.~;"-4' .i P2-30 ,..~,-~,. ......... .........~.,...,-,/~ ),: ~ ~. ~ie,d and P~, ........... ~ , --" ,,; , Point Mclntyre 76'SNL, 1211'EWL, SEC. 13, T12N, R14E, UM ........ . ............ ~ ......... ~. Elevation in feet (indicate KB, DF, etc.) 6. Lease Designation and Sedal No. KBE = 49' ADL 34624 12. Bate Spudded 13. Date T.D. Reached 14. Bate Comp., Susp. or Aband. 115. Water Depth, it ottshore 116. No. of CompLetions 10/14/92 11/2/92 11/7/92I N/A feet MSL I Zero i7. TotaIDepth(MD+TVD) 18. Plug Back Depth (MD+TVD 19. Directional Survey I0. Depth where SSSV set I1. Thickness of Permafrost 10826' MD/9331' TVD 10739' MD/9256' TVD YES [] ND [] N/Afeet MD 1750' (Approx.) 22. Type Electric or Other Logs Run Run #1 DIFL/ZDEN/NEUTRON/GR Run #2 MAC 23. CASING, LINER AND CEMENTING RECORD SETTING DEPTH MD CASING SIZE WT. PER FT. GRADE TOP BOTTOM HOLE SIZE CEMENTING RECORD AMOUNT PUt ~ FI') 20" 91.5# H-40 Surface 75' 30" 11 yds Arcticset 13-3/8" 68¢t N-80 37' 3839' 16" 1468 sx CS 111/400 sx Class "G" 9-5/8" 47# N-80 26' 10242' 12-1/4" 460 cufl Class 'G" 7" 26# 13CR80 10096' 10826' 8-1/2" 235 cu ft Class "G" 24. Perforations open to Production (MD+TVD of Top and Bottom and 25. TUBING RECORD interval, size and number) Not Perforated SIZE DEPTH SET (MD) PACKER SET (MD) None 26. ACID, FRACTURE, CEMENT ,SQUFF71=. ETC. DEPTH INTERVAL (MD) AMOUNT & KIND OF MATERIALUSED 27. PRODUCTION TEST Date First Production jMethod of Operation (Flowing, gas lift, etc.) Not yet on production I N/A Date of Test Hours Tested PRODUCTION FOR OIL-BBL SAS-MCF WATER-BBL C HOKESIZE IGAS-OIL RATIO TEST PERIOD I~ I Flow Tubing Casing Pressure 3ALCULATED OIL-BBL GAS-MCF WATER-BBL OIL GRAVITY-APl (corr) Press. 124-HOUR RATE I~ 28. CORE DATA ~¢'rief description of lithology, porosity, fractures, apparent dips, and presence of oil, gas or water. Submit core chips. Please see attached core description. ......... .j, ,..~, , .... rm 10-407 Submit in duplicate Rev. 7-1-80 CONTINUED ON REVERSE SIDE 29. 30. GEOLOGIC MARKERS FORMATION TESTS NAME Include interval tested, pressure data, all fluids recovered and gravity, MEAS. DEPTH TRUE VERT. DEPTH GOR, and time of each phase. Colville Group 7796' 6782' Shale Wall 9825' 8470' HRZ 1 O016' 8635' Kalubik 10239' 8830' Kuparuk 10240' 8831' Miluveach 10572' 9118' 31. LIST OF A'i-rACHMENTS 32. I hereby certify that the loreg~ng is true and correct to the best of my knowledge Signed Tit ~e Drilling Engineer Suoervisor Date ~"- f/"- , · 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 interva! reported in item 27. Submit a separate form for each .additional interval to be separately produced, showing the data pertinent to such interval. Item 21' Indicate whether from ground level (GL) or other elevation (DF, KB, etc.). Item 23: Attached supplemental records for this well should show the details of any multiple stage cement- ing and the location of the cementing tool. Item 27: Method of Operation' Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water In- jection, Gas Injection, Shut-in, Other-explain. Item 28: If no cores taken, indicate "none". Form 10-407 BP/AAI SHARED SERVICE DAILY OPERATIONS PAGE: 1 WELL: P2-30 BOROUGH: NORTH SLOPE UNIT: POINT MCINTYRE FIELD: POINT MCINTYRE LEASE: API: 50- PERMIT: APPROVAL: ACCEPT: 10/13/92 07:30 SPUD: 10/13/92 07:00 RELEASE: OPERATION: DRLG RIG: AUDI 2 WO/C RIG: AUDI 2 10/13/92 ( 1) TD: 110'( 0) SKID RIG. SKID RIG 375' F/ P2-55 TO P2-30. MW: 8.5 VIS: 0 10/14/92 ( 2) TD: 800'( 690) 10/15/92 ( 3) TD: 2000' (1200) 10/16/92 ( 4) TD: 3885' (1885) DRLG. MW: 8.6 VIS: 93 MOVE RIG. RIG ACCEPTED @ 07:30 HRS, 10/13/92. N/U DIVERTER. MIX SPUD MUD. RIH W/ BHA #1. SPUD WELL @ 19:00 HRS, 10/13/92. DRLG TO 380' POOH. RIH. DRLG F/ 380'-800' DRLG. MW: 9.3 VIS:ll0 DRLG F/ 800'-1101'. W/L SURVEY. SLIDING F/ 1101'-1131' W/L SURVEY. SLIDING. POOH. CHECK MWD, MTR. OK. RIH. DRLG TO 2000' SHORT TRIP. MW: 9.4 VIS: 76 DRLG F/ 2000'-3885' CBU. SHORT TRIP TO HWDP. 10/17/92 ( 5) TD: 3885' ( 0) 10/18/92 ( 6) TD: 4185'( 300) 10/19/92 ( 7) TD: 6393' (2208) 10/20/92 (8) TD: 7685' (1292) FINISH TOP JOB. MW: 9.5 VIS: 46 SHORT TRIP TO HWDP. CBU. POOH. R/U WOTCO. RIH W/ 13-3/8" CSG. CIRC. R/U BJ. PUMP 100 BBLS WATER, 1468 SX LEAD CMT, 400 SX TAIL CMT. DISP W/ MUD. BUMP PLUG. N/D DIVERTER. TOP JOB. DRLG. MW: 9.0 VIS: 32 N/U BOPE. TEST BOPE. RIH W/ BHA %2. TAG FC @ 3757' CIRC. TEST CSG. DRLG FC, CMT, FS, 10' NEW HOLE. CIRC. LOT (12,5 PPG EMW). DRLG TO 4185'. SHORT TRIP. MW: 9.4 VIS: 41 DRLG F/ 4185'-4910'. CBU. SHORT TRIP TO SHOE. DRLG TO 6393' CBU. SHORT TRIP. DRLG. SHORT TRIP. DRLG F/ 6393'-7685' MW: 9.4 VIS: 43 10/21/92 ( 9) TD: 8261' ( 576) DRLG. MW: 9.5 VIS: 43 DRLG TO 7843'. CIRC. POOH. CHANGE BHA. RIH. DRLG F/ 7843'-8261' WELL · P2-30 OPERATION: RIG : AUDI 2 PAGE: 2 10/22/92 (10) TD: 9085' ( 824) DRLG. DRLG F/ 8261'-9085' MW: 9.9 VIS: 46 10/23/92 (11) TD: 9520' ( 435) DRLG. MW:10.1 VIS: 48 DRLG F/ 9085'-9097' CBU. SHORT TRIP. DRLG TO 9520' 10/24/92 (12) TD:10100' ( 580) POOH. DRLG TO 10100' MW:10.1 VIS: 49 CIRC. POOH TO P/U LOGGING TOOLS. 10/25/92 (13) TD:10242' ( 142) 10/26/92 (14) TD:10242' ( 0) 10/27/92 (15) TD:10242' ( 0) 10/28/92 (16) TD:10243' ( 1) 10/29/92 (17) TD:10302' ( 59) 10/30/92 (18) TD:10391' ( 89) 10/31/92 (19) TD:10569' ( 178) 11/01/92 (20) TD:10652' ( 83) CIRC. MW:10.1 VIS: 47 POOH. L/D BHA. TEST BOPE. RIH W/ BHA. LOG F/ 9800'-10100' DRLG F/ 10100'-10242' CIRC. SHORT TRIP TO 7800'. CIRC. RIH W/ CSG. MW:10.1 VIS: 41 CIRC. SHORT TRIP 10 STDS. REAM F/ 9585'-10242' CIRC. POOH. R/U WOTCO. RIH W/ 9-5/8" CSG. DRLG CMT. MW:10.1 VIS: 45 RIH W/ 9-5/8" CSG. CIRC. R/U BJ. PUMP 20 BBLS ARCO PREFLUSH, 50 BBLS ARCO 11 PPG SPACER, 400 SX (82 BBLS) 15.8 PPG CMT. DISP CMT. NO BUMP PLUG. N/D BOPE. SET SLIPS. CUT CSG. N/U BOPE. TEST BOPE. L/D BHA. P/U BHA. RIH. TAG CMT @ 10052' DRLG CMT F/ 10052'-10113' TEST CSG. DRLG CMT, FLOAT EQUIP. FINISH TOP DRIVE INSTALL. MW:10.1 VIS: 0 DRLG FS, 1' NEW HOLE. CBU. LOT (12.5 PPG EMW) . CIRC. INSTALL TOP DRIVE. PREP FOR OBM DISP. POOH. MW: 9.8 VIS: 68 DISP WELL W/ VERSA-CORE OBM. POOH. RIH W/ CORE ASS'Y. CBU. CORE F/ 10243'-10302' CBU. POOH. RIH W/ CB %3. MW:10.1 VIS: 69 POOH. L/D CORE %1. RIH W/ CB. CBU. CORE F/ 10302'-10391' CBU. POOH. INCORRECT FILL. RIH. CIRC. RAISE MW TO 15.1 PPG. POOH. L/D CORE. RIH W/ CB. RIH W/ CORE ASS'Y 5. MW:10.3 VIS: 75 RIH. CIRC. CORE F/ 10391'-10480' CBU. .POOH. L/D CORE %3. RIH W/ CB. CIRC. CORE F/ 10480'-10569' CBU. POOH. L/D CORE %4. POOH W/ CORE %6. MW:10.3 VIS: 84 RIH. CIRC. CORE F/ 10569'-10622' CBU. POOH. L/D CORE %5. RIH W/ CB. CIRC. CORE F/ 10~22'-10652' CBU. POOH. WELL ' P2-30 OPERATION: RIG · AUDI 2 PAGE: 3 11/02/92 (21) TD:10652' ( 0) 11/03/92 (22) TD:10826' ( 174) 11/04/92 (23) TD:10826' ( 0) 11/05/92 (24) TD:10826 PB: 0 11/06/92 (25) TD:10826 PB: 0 LOG W/ MWD. MW:10.4 VIS: 88 POOH. L/D CORE #6. TEST BOPE. RIH TO FISH FOR WRENCH. CIRC. POOH. RETRIEVE WRENCH. L/D FiSH ASS'Y. RIH. LOG F/ SHOE @ 10242' CBU. MW:10.2 VIS: 70 MAD RUN W/ MWD F/ 10242'-10655' DRLG F/ 10655'-10826' TD WELL @ 01:15 HRS, 11/03/92. CIRC. POOH TO SHOE. LOG F/ 10450'-10242' RIH. CBU. RIH. MW:10.2 VIS: 72 POOH. R/U ATLAS. LOG RUN: DIFL/ZDL/CN/GR. LOG RUN: MAC/GR. R/D ATLAS. RIH W/ BHA. REV CIRC. MW:10.3 OBM CBU. SHORT TRIP TO SHOE. CBU. POOH. L/D BHA. R/U WOTCO. RIH W/ 7" 13CR LNR ON DP. CIRC. RIH TO 10242' CBU. RIH. CBU. R/U BJ. PUMP 20 BBLS PREFLUSH, 50 BBLS SPACER, 40 BBLS 15.8 PPG CMT. DISP W/ MUD. BUMP PLUG. SET HGR & PKR W/ 4200 PSI. RELEASE F/ LNR. REV CIRC. POOH. MW: 9.8 NaCl REV CIRC. POOH. RIH W/'BHA TO LC. CBU. TEST CSG. OK. DISP WELL TO BRINE. TEST WELL. OK. 11/07/92 (26) TD:10826 PB: 0 N/U TREE. MW: 9.8 NaC1 POOH. L/D DP. F/P CSG. L/D DP. N/D BOPE. N/U TREE. 11/08/92 (27) TD:10826 PB: 0 RIG RELEASED. MW: 9.8 NaC1 N/U TREE. TEST TREE. SECURE WELL. RIG RELEASED @ 12:00 HRS, 11/7/92. MOVE RIG TO AGI PAD. SIGNATURE: (drilling superintendent) DATE: Core # 1 Pt. McIntyre P2-30 Core Description 10,243'- 10,302' Cut 59', recovered 59' Litholot~y: 10,243'-10,244', Mudstone, sandy and pebbley, tight. 10,244'-10,250.8' Sandstone, fine grained, well sorted, faintly oil stained, good to excellent porosity and permeability, glauconitic, bioturbated. 10,250.8'-10,302' Sandstone, fine grained, well sorted, glauconitic, oil stained, excellent porosity and permeability, burrowed, cross bedded. Core #2 Core #3 Core #4 Core #5 10,302'-10,391' Cut 89', recovered 90' Lithology: 10,302'-10,315' Sandstone, fine grained, well sorted, slightly glauconitic, excellent porosity and permeability, oil stained, burrowed. 10,315'-10,378.5' Sandstone, fine grained, moderately to well sorted, glauconitic, oil stained, generally good to excellent porosity and permeability, with both occasional tight, siderite cemented beds, and occasonal highly friable to unconsolidated sandstone. 10,378.5'-10,392' Sandstone, fine grained, well sorted, slightly glauconitic, oil stained, good to excellent porosity and permeability. 10,391'-10,480' Cut 89', recovered 89' Lithology: 10391'-10,438' Sandstone, very fine to fine grained, well sorted, slightly glauconitic, oil stained, good to excellent porosity and permeability, burrowed. 10,438'-10,480' Sandstone, fine grained, well sorted, slightly glauconitic, oil stained, good to excellent porosity and permeability, burrowed. 10,480'- 10,569' Cut 89', recovered 81' Lithology: 10480'-10,522' Sandstone, fine grained, well sorted, oil stained, good to excellent porosity and permeability, bioturbated. 10,522'-10,556' Sandstone, fine grained, well sorted, excellent porosity and permeability, massive. 10,556'-10,561' Sandstone, very fine to fine grained, moderately sorted, glauconitic, argillaceous, tight, bioturbated. 10,569'-10,622' Cut 53', recovered 59' P2-30 Completion Rpt 1/27/93 Page 2 Lithology: 10,563'-10,577' Sandstone, very fine grained, moderately sorted, argillaceous, tight, bioturbated. 10,577'-10,622' Shale, silty, subfissile. Core #6 10,622'-10,652' Cut 30', recovered 31' Lithology: Shale, gray, subfissile to fissile. ~i~/est~rn Atlas International ~ ~.~ IV ~ ~:) ARCO ALASKA, INC. 0 -1 1~¢ORE ANALYSISp2_30 REPORT McINTYRE AlaskaOi~ ~ ~ NORT~ SLOPE, ALASKA ABcho[~: CL FIL NO. BP-3-1486 Performed by: Core Laboratories 8005 Schoon St. Anchorage, AK 99518 (907) 349-3541 Final Report Presented January 12, 1992 Date~_.~ These analysis, opinions or interpretations are based on observations and materials supplied by the client to whom, and for whose exclusive and confidential use, this report is made. The interpretations or opinions expressed represent the best judgement of Core Laboratories (all errors and omissions excepted); but Core Laboratories and it's officers and employees assume no responsibility and make no warranty of representation as to the productivity, proper operations, profitability of any oil, gas or other mineral well or formation in connection with which such report is used or relied upon. 8005 Schoon StreeL Anchorage, Alaska 99518-3045, (907) 349-3541, Fax (907) 344-2823 INTRODUCTION Core Laboratories was requested to perform a core analysis study on behalf of Arco Alaska, Inc. for samples recovered from the Point McIntyre P2-30 well from the North Slope, Alaska. Presented herein are the results of this study. Conventional cores cut with an oil based mud were processed on site by Core Laboratories and ARCO personnel. A service description and methodology are presented in section 1. The core analysis results and lithological descriptions are presented in section 2. A statistical summary and plot are presented in section 3. Appendices can be found in section 4. In conjunction with the report, the tabular results of the analysis are supplied on a IBM compatible diskette. We sincerely appreciate this opportunity to be of service and hope this data prove beneficial in the development of this reservoir. Section 1 2 TABLE OF CONTENTS CONVENTIONAL CORE ANALYSIS, SERVICE DESCRIPTION CONVENTIONAL CORE ANALYSIS, TABULAR RESULTS CONVENTIONAL CORE ANALYSIS, STATISTICAL AND CORE GAMMA DATA APPENDIX DATA DISKETTE SECTION 1 CONVENTIONAL CORE ANALYSIS SERVICE DESCRIPTION SECTION 1 CONVENTIONAL CORE Field Procedures Conventional coring equipment in conjunction with a oil based drilling fluid was used to extract core samples during October of 1992. All cores were taken using aluminum inner core barrels. Core Laboratories~ field personnel assisted with core preservation and handling. Sample points for plugging at Anchorage and disposition of the core was conducted according to ARCO~s instructions. A summary of these procedures can be found in the appendix. CORE LAB PERSONNEL FUNCTIONS 1. Set up and preparation of core trailer, supplies, and equipment. 2. Caught and prepared core for movement from rig floor to core trailer. 3. Fitted together core, marked depths, assisted with the selection of samples. 4. Wrapped, dipped, and boxed preserved core pieces. CORE HANDLING AND PRESERVATION BY CORE LAB PERSONNEL Core Lab representatives were present on the rig floor when the core barrel was disconnected. They ensured that the core was kept in proper order and covered to minimize exposure to the atmosphere during transport to the core trailer. The cores, which were contained in aluminum inner core barrels, were taken to the pipe shed, depth marked and double striped, and cut into three foot sections with tubing cutters. The ends of the sections were then rubber capped and clamped. These sections were taken to the core trailer. Upon arrival of the core at the core trailer a Core Lab representative removed the core from the inner barrel and fit the core together. The core was oriented with the apparent up-dip at the top, and marked. Sample intervals were marked on the core at the wellsite. A three inch section near the foot mark was marked "SC", and a plug sample site was marked on the end nearest the foot mark. No "SC" sample site was allowed within one inch of a fracture in the core. Additional sample sites, designated as "R", were chosen from some intervals not already chosen using the "SC" criteria. Once the samples were designated and marked the entire core was wrapped using Saran Wrap and foil and dipped in CoreSeal. The core was then placed in boxes which were marked, taped, and stacked for shipment to Core Laboratories~ Anchorage facility. Please refer to the appendix for a more complete description of the wellsite procedures. Conventional Core Processing in Anchorage Upon arrival at Core Laboratories~ Anchorage facility, the preserved core pieces were removed from their boxes, placed in depth order, and surface core gamma logged one core at a time. After core gamma logging, the "SC" and "R" samples selected at the wellsite were depreserved and 1.5 inch horizontal plugs were drilled with hexadecane. Were possible, additional plugs were taken from non-wellsite selected intervals to provide a more complete data set. All plugs were immediately loaded into the Dean-Stark apparatuses or, if no Dean Stark units were available for immediate use, were wrapped in Saran Wrap and aluminum foil, placed in jars, and stored chilled. The remaining whole core was then rewrapped in Saran Wrap and foil, and dipped in CoreSeal. The sampling completed, the core was depreserved 10 feet at a time, oriented with the top of the bedding up, and slabbed 1/4 and 3/4. The 3/4 slabbed sections were immediately represerved with Saran Wrap, foil, and CoreSeal. The 1/4 sections were washed with fresh water and allowed to dry for viewing and photography. A more complete description of the core processing procedures can be found in the appendix. Core Photographs Approximately 15 feet of the cleaned 1/4 slabbed sections appears in each photograph. Six sets of visible spectrum flash and six sets of ultraviolet light photographs appear in separate binders. Conventional Analysis Techniques Core analysis methods as specified by ARCO were used throughout the sampling process. Several changes to the procedures were instituted during the process, as noted below. CUTTING AND TRIMMING CORE PLUGS, page 11-13 Original: Calls for placing sample numbers on plug and end pieces. Change: Given the oil mud and chosen solvents, placing marks on the plugs and end pieces would be impractical and/or potentially damaging to the analysis. Foil was labeled for plugs waiting to be loaded into the Dean Stark units. Once unwrapped, the sample bags (and thimbles after Dean Stark analysis) were marked and separate labels were placed with the samples from station-to-station until the samples were dry. At that point, numbering was applied to the sample. Plug ends were placed in numbered bags. Original: Refers to the chloroform-methanol cleaning equipment as Dean Stark glassware. Change: While a few Dean Stark glassware units were used for this step, most samples were cleaned in Dean Stark units made, predominantly, of metal. These systems were approved by ARCO. To assess solvent color, an aliquot was removed and observed in a 250 ml glass beaker. If dirty, the solvent in the boiling chamber was replaced. This was done almost daily, until clean solvent was observed. Original: Calls for cleaning in the chloroform-methanol equipment until clean solvent was observed. Change: Because of time constraints ARCO authorized removal of partially cleaned samples from the cleaning units after fourteen days. Two samples (as noted in the table below) were removed from the cleaning units before the cleaning was completed. These samples were otherwise analyzed in the normal fashion. One sample had permeabilty greater than the 5 millidarcy cutoff specified by ARCO for recleaning. This sample was returned to a cleaning apparatus until fully cleaned, and reanalyzed. Partially Cleaned Samples Removed From Cleanincl Units Core Sample Depth Permeability Days Cleaned Days Cleaned (mds) 1st Run 2nd Run 2 52 10350.20 0.01 16 NA 2 57 10355.15 57.83 16 19 Procedures For Poorly Consolidated Samples At the wellsite it was determined that the portion of core two from 10,310.65 ft. to 10,343.00 ft. was poorly consolidated and not suitable for sampling in the normal manner. This portion of the core was left in the aluminum inner barrels. A layer of Saran Wrap and aluminum foil was placed under the rubber end caps to prevent damage to the cap by long exposure to the oil based drilling fluid. The caps were then reclamped in place and the sections of inner barrel was allowed to freeze before shipment. In Anchorage, the frozen section of core received from the wellsite, and additional section of the core between 10,310 ft. and 10,330.65 ft. found to be poorly consolidated, were placed on dry ice and retained for sampling after work was completed on the remaining core. Following instructions provided by ARCO personel - a copy maybe found in the appendix - frozen plugs were drilled with liquid nitrogen and trimmed on a dry saw. The still frozen plugs were then wrapped in Teflon tape and lead foil with a 120 and 60 mesh screen at each end. Before loading in the Dean- Stark equipment a seating pressure of 1000 psi was applied to secure the mount, then the samples were weighed and the standard procedures were followed for fluid extraction and drying. After a stable dry weight was obtained for a sample, its pore volume and and permeability were measured usinq the overburden confining pressure of 2,560 psi. Following the pore ~olume measurment the samples were desleeved and a grain volume measurments made using standard procedures for the Extended Range Helium Porosimeter. Where: The overburden porosity was calculated using equation (1). P : lO0(Vp/(Vp + Vg)) P = Porosity, Percent Vp : Pore Volume Vg : Grain volume (1) Results from these poorly consolidated samples are in a seperate table following the results of the consolidated samples. Dean-Stark Fluid Saturation Measurements Water was extracted from the samples by the Dean-Stark technique using toluene in cleaned apparatuses. Fresh commercial grade toluene was used for each extraction and the equipment was cleaned between each sample as directed by ARCO. Extraction continued until no change in water volume was observed over a four hour period. Minimum extraction time was twelve hours. Toluene remaining in the Dean Stark flasks was recovered for chemical analysis. Samples were removed from the water Dean-Starks and placed in cleaning Dean Stark units containing 87 volume% chloroform - 13 volume% methanol cleaning solution. Cleaning continued until the cleaning solution showed no crude oil color. Extracted samples were dried in a 180 degrees F. vacuum oven for a minimum of 24 hours and until sample weights were constant to 0.01 grams over a four hour drying period. Samples were cooled in a desiccator to room temperature before porosity and permeability were measured. Saturations by Dean-Stark methods were calculated using Equations 2 and 3. Equation 2a was used for sample 5-57, which was cleaned twice. Where: So : [((W1 - W2 - H20)/Do)/Vpc] x 100 (2) So : [(((W1 - W2 - H20)/Do) + Vo2)/Vpc] x 100 (2a) Sw: [H20/Vpc] x 100 (3) So = Oil Saturations, Percent Sw = Water Saturation, Percent W1 = Natural Weight W2 : Extracted and Dried Weight H20 : Extracted Water, Density Assumed 1.0 gm/cc Do : Density of Oil, .85 gm/cc Vpc : Pore Volume, Corrected for Grain Loss (see below) Vo2 : Oil Volume Extracted During the Second Cleaning Run (see Equation 3d) Corrections for grain loss were applied to the water and oil saturation calculations. The corrections were made using equation 3a and 3b. Where: Vpc = Vp x [(W2 + Wgl)/W2] Vpc = Corrected Pore Volume Vp : Measured Pore Volume of Dried, Clean Sample W2 : Extracted and Dried Weight of the Sample Wgl Weight of the Grains Lost During the Process (3a) Wgl = Wpb - Wb - W2 (3b) Where: Wgl = Weight of Grains Lost During the Process Wpb = Dry, Stable Weight of the Plug plus the ARCO Prescribed Bag W2 : Extracted and Dried Weight of the Sample Grain Loss Correction For Recleaned Samples As previously noted, 1 of the partially cleaned samples had a permeability in excess of 5 millidarcies and therefore required a second cleaning run until completely cleaned. The total grain loss for both runs, as calculated in Equation 3c, was substituted for the value calculated for the first cleaning run. WglT = Wgl + W2 - Wp + Wpt - Wth - W2T (3c) Where: WglT = Total Grain Loss from Both Cleanings Wgl = Weight of Grains Lost from the First Cleaning W2 : Extracted and Dried Weight from the First Cleaning Wp = The Dried Weight before the Second Cleaning Wpt : Stable Weight of Plug and Thimble after the Second Cleaning Wth = Dry Weight of the Thimble before the Second Cleaning W2T : Extracted and Dried Weight of the Sample after Completion of the Second Cleaning Additional Oil Volume Correction For Recleaned Samples The second cleaning extracted additional oil from the samples. This volume, calculated using Equation 3d, was added to the oil volume derived during the first cleaning, and the total was applied to pore volume as in Equation 2a. Vo2 = (Wp + Wth - Wpt)/Do (3d) Where: Vo2 = Volume of Oil Extracted During the Second Cleaning Wp : The Dried Weight before the Second Cleaning Wth : Dry Weight of the Thimble before the Second Cleaning Wpt = Stable Weight of the Plug and Thimble after the Second Cleaning Do = Density of Oil, .85 gm/cc Grain Density Grain volume determinations were measured on all samples according to Boyle~s Law utilizing the Extended Range Helium Porosimeter. The equipment was calibrated to yield a grain density variation of less than .005 gm/cc. Grain densities were calculated using Equation 4. Where' Dg = Mg/Vg Dg : Grain Density Vg : Grain Volume Mg = Grain Mass (4) Atmospheric Porosity of Consolidated Samples The horizontal plug samples were measured for bulk volume by mercury displacement at ambient conditions. Porosity was calculated using Equation 5. P : [(Vb-Vg)/Vb)] x 100 (5) Where: P = Porosity, Percent Vb : Bulk Volume Vg = Grain Volume Atmospheric Permeabilit.¥ to Air Horizontal permeabilities were measured in a Hassler type core holder at a confining pressure of 400 psig after the plugs were cleaned in a sonic cleaner and redried. Permeability calculations were performed as defined by Darcy~s Equation for compressible fluids, Equation 6. Where' Pa x v x 1000 Qa x L x L K= x (P1 - P2)(P1 +P2) Vb K = Permeability v = Gas Viscosity P1 - P2 = Differential Pressure P1 + P2 = Mean Pressure Pa = Atmospheric Pressure Qa = Flow Rate L = Length Vb = Bulk Volume (6) Overburden Permeability to Air Horizontal permeabilities were measured in a Hassler type core holder at a confining pressure of 2560 psig after the plugs were cleaned and dried. Permeability calculations were performed as defined by Darcy~s Equation for compressible fluids, Equation 7. Pa x v x 1000 Qa x L x L K- x (P1 - P2)(P1 +P2) (Vp+Vg) (7) Where: K = Permeability v = Gas Viscosity P1 - P2 = Differential Pressure P1 + P2 = Mean Pressure Pa = Atmospheric Pressure Qa = Flow Rate L = Length Vp : Pore Volume Vg : Grain volume Filtrate Saturation Tracer concentration in plug samples was calculated using tracer concentrations supplied by CPM Laboratories. Filtrate saturations were calculated using Equation 8. Where: Sof = 100*(Wo*Ff/O.82)/Vp (8) Sof = Saturation of Filtrate in Core (% pore volume) Wo : Weight of Oil Phase in the Core Ff = Weight Fraction of Filtrate in the Oil in the Core Vp : Pore Volume of the Core (cc's) Hexadecane Saturation Hexadecane saturations as a percent of pore volume was calculated using data provided by CPM Laboratories in Equation 9. Where: Soh : (Wto*Cht)/(ph*Vp) Soh = Hexadecane saturation in % of pore volume Wto = Weight, in grams, of toluene after the Dean Stark procedure. ph = The density of hexadecane, .777 gm/cc Vp : Pore volume in cubic centimeters (9) Corrected Oil Saturation An oil saturation adjusted mud filtrate and hexadecane invasion using CPM Laboratories' data was determined using Equation 10. So corr = (So-Somf-Soh) (10) Where- So corr = Corrected oil saturation in % of pore volume So : Uncorrected oil saturation Somf = Mud filtrate in core (Equation 8) Soh : Hexadecane saturation (Equation 9) Company Well : ARCO ALASKA, INC. : P2-30 ANALYTICAL PRO C E CORE D U R LABORATORIES Field : POINT McINTYRE Formation .' KUPARUK FORMATION ES AND QUAL I TY A File No.: AR1486 Date : 13-JAN-93 S S U R A N C E HARDLING & CLEANING Core Transportati on Solvent Extraction Equipment Extraction Time Drying Equipment Drying Time Drying Temperature : AIR FREIGHT : CLOROFORM/METHANOL : DEAN STARK : MINIMUM 24 HOURS : CONVECTION/VACUUM OVEN : MINIMUM 24 HOURS : 180 DEGREES F. ANALYSIS Grain volume measured by Boyle's Law in a matrix cup using He Bulk volume by Archimedes Principle Water saturations by Dean Stark Oil saturations by weight difference in Dean Stark Permeabilities measured on 1.5 in. diameter drilled plugs Core Gan~na Cont~osite Dean Stark grain densities clean, dry solid mineral phase are measured SECTION 2 CONVENTIONAL CORE ANALYSIS TABULAR RESULTS CORE SMPL # # CORE LABORATORIES ARCO ALASKA, INC. P2-30 Pt. MdNTYRE UNIT' ' NORTH SLOPE, ALASKA DE~~H PERM EAF! UTY ] POROSITY KAl R I (HEUUM) MD ~.~~ DEAN STARK ANALYSIS I SATURATIONS I GR,NN I 1 MUD I I % ~ % ~ % ~ % ~ % ~ GM/CC PPM PPM % 1 1 1~.25 41 .~ 21.0 ~.6 21.6 42.0 13.7 8.3 2.~ 0.~ ~.4~ 1.1~ 1 2 1~45.05 ~1 .~ 25.8 ~.0 17.5 23.5 ~.0 6.5 2.~ 0.~ ~.4~ 4.2~ 1 3 1~.25 ~1.~ ~.8 ~.1 18.8 ~.5 ~.1 3.2 2.~ 0.1~ ~.4~ 4.7~ 1 4 1~47.05 ~.13 21.9 ~.5 23.8 21.8 ~.9 7.9 2.~ 0.272 ~.~ 3.125 1 5 1~.~ ~.14 19.2 ~.1 25.7 ~.2 24.6 12.9 3.11 0.~ ~.~ 1.913 1 6 1~.~ 7~.~ 27.6 ~.5 19.5 19.7 ~.7 6.3 2.78 0.~ ~.~ 4.472 1 7 1~.~ ~1 .~ 23.1 67.8 31.0 17.3 ~.8 3.9 3.07 0.147 ~.4~ 3.~ I 8 1~51.05 B~EN 18.3 ~.1 16.5 25.2 19.0 28.6 3.18 2.128 ~.~ 3.878 1 9 1 ~.25 ~.~ ~.0 ~.3 ~.6 ~.5 ~.7 0.0 2.72 0.~ ~.4~ 4.~ 1 10 1~.25 ~7.97 ~.3 ~.7 25.2 25.6 ~.5 0.0 2.71 0.~ ~.~ 8.~ 1 11 1 ~.~ ~.~ 27.5 67.0 ~.0 ~.3 ~.0 0.0 2.~ 0.~ ~.4~ 4.191 1 12 1~.85 1~.25 28.2 72.2 37.7 19.3 ~.5 0.0 2.~ 0.~ ~.4~ 4.1~ 1 13 1 ~.05 ~9.61 ~.8 ~.0 ~.7 25.2 ~.3 0.0 2.70 0.~ ~.4~ 3.~4 1 14 1~57.05 ~2.31 25.0 61.1 ~.4 28.6 ~.7 0.0 2.~ 0.~ ~.4~ 3.271 1 15 1~57.95 ~.43 19.5 41.7 ~.1 ~.1 15.7 0.0 2.74 0.~ ~.4~ 1 .~ 1 16 1 ~59.05 ~2.~ ~.5 ~.7 28.8 25.2 ~.9 0.0 2.~ 0.~ ~.4~ 3.~ I 17 1 ~59.95 ~.69 23.0 55.1 ~.4 ~.4 18.7 0.0 2.76 0.~ ~.4~ 1.795 1 18 1~.95 3.~ 6.6 ~.9 ~.4 ~.2 9.0 8.6 3.13 0.115 ~.4~ 0.~1 1 19 1~2.~ ~5.~ 23.0 ~.8 ~.3 ~.1 24.4 0.0 2.~ 0.~ ~.~ 2.~ 1 ~ 1~.~ 211.70 23.1 ~.1 27.0 ~.6 27.9 3.1 2.73 0.137 ~.~ 3.~ I 21 1~.~ 210.71 24.2 ~.2 24.1 ~.8 31.1 0.0 2.71 0.~ ~.4~ 3.7~ 1 . ~ 1~.05 1~.~ ~.5 51.5 31.4 ~.2 ~.1 0.0 2.~ 0.~ ~.4~ 2.~ I ~ 1 ~.~ 425.~ 24.6 ~.9 ~.9 ~.9 ~.0 0.0 2.~ 0.~ ~.~ 4.~7 1 24 1~.95 ~7.~ ~.8 ~.7 ~.8 37.6 21.2 2.7 2.75 0.147 ~.~ 3.187 1 25 1~.05 ~.~ 21.1 ~.8 ~.3 ~.4 19.9 4.6 2.73 0.171 ~.~ 2.~ FILE: BP-3-1486 13-JAN-93 ANALYSTS:PB,DS, FE,TR,DS DESCPJ PTION SS-wcmt,qtz,glau,occ lith pbl,lrac SS-wcmt, qtz,giau,rr lith gr SS-wcmt, qtz,glau,occ wh cht SS-wcmt, qtz,glau,ooc wh cht, occ aid SS-wcrnt,qtz,glau,occ wh cht, occ aid,~ac SS-wcrnt,qtz,glau,occ wh cht SS-vwcmt,qtz,glau,sid,occ wh cht,frac SS-vwcmt,qtz,glau,sid,occ wh cht, brcken SS-wcmt, qtz,glau,occ wh cht SS-wcmt, qtz,glau,occ wh cht SS-wcrnt, qtz,glau,occ wh cht, tr ~id SS-wcmt, qtz,glau,occ wh cht & ad SS-wcmt,qtz,giau,occ wh cht SS-wcrnt,qtz,gtau,occ wh cht SS-wcmt,bnd,qlz,glau,occ wh cht SS-wcmt,qtz,glau,occ wh cht SS-wcmt,qtz,g~au,occ brn cly & wh cht SS-vwcmt,qtz,glau,sid,lrac SS-wcmt,qtz,glau,occ wh cht SS-wcmt,qtz,glau,occ wh cht,~ sid SS-wcmt,cltz,g~au,occ wh cht, lr brn cty SS-vwcmt, qtz,glau,sid,occ wh cht SS-wcmt,qtz,glau,occ wh cht, srnl Irac SS-wcmt,qlz,glau,wh cht,lr aid SS-wcmt,qlz,glau,wh cbt,ccc aid & bm ch/ *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINTS- REFER TO TEXT FOR DETAILS ARCO ALASKA, INC. P2-30 Pt. MdNTYRE UNIT NORTH SLOPE, ALASKA CORE LABORATORIES FILE: BP-3-1486 13-JAN-93 ANALYSTS:PB,DS, FE,TR,DS CORE SMPL 1 1 27 1 28 1 29 1 30 1 31 1 32 I 33 1 34 1 35 1 36 I 37 I 38 1 39 1 40 I 41 1 42 1 43 1 44 1 45 1 46 1 47 1 48 1 49 I 50 DEAN STARK ANALYS~S DEPTH FT PERMEAEIU KAIR '-~ 67.08 20.2 57.6 36.6 31.3 21.1 0.0 2.95 0.00O 34.450 2.529 26 10270.05 10271.05 10272.20 1 0273.00 10274.15 10275.05 10276.05 1 0276.95 1 0278.05 1 0279.05 10280.25 10281.05 10282,05 1 0282.95 10285.00 10287.2O 10288.0o 10289.05 10290.10 10292.05 10293.05 10294.0o 10269.05 304.73 24.4 59.9 23.6 30.7 34.3 1.9 2.73 0.085 34.450 4.166 72.86 19.3 49.0 31.7 32.7 17.3 0.0 2.94 0.000 34.450 1.368 972.13 26.5 69.8 32.8 21.2 35.0 2.0 2.78 0.076 34.450 3.697 1664.53 27.7 74.0 37.9 17.0 36.1 0.0 2.72 0.000 34.450 4,329 1626.87 26.4 72.0 21.5 14.6 31.8 18.7 2.78 0.878 34.450 4.094 3188.54 29.5 75.1 40.1 12.2 35.0 0.0 2.66 0.000 34.450 4.906 2534.58 28.9 71.7 41.1 14.0 30.6 0.0 2.67 0.000 34.450 4.510 2878.55 29.1 74.9 28.7 11.1 48.3 0.0 2.67 0.000 34.450 6.531 1708.30 28.8 67.0 42.6 17.4 24.4 0.0 2.68 0,000 34.450 3.040 2575.78 30.6 74.6 72.3 14.5 2.3 0.0 2.71 0.000 34.450 0.507 1259.05 26.0 69.7 30.3 18.3 39.4 0.0 2.67 0.000 34.450 4.585 1261.02 26.0 68.7 34.0 16.7 34.7 0.0 2.67 0.000 34.450 3.820 1227.49 25.4 65.5 34.6 16.9 30.9 0.0 2.67 0.000 34.450 3.761 74.84 11.2 59.3 39.6 40.3 10.2 9.5 3.12 0.200 34.450 0.592 983.47 25.6 68.2 34.7 19.4 33.6 0.0 2.71 0.000 34.450 4,226 <0.01 3.6 51.0 51.0 48.9 0.0 0.0 3.13 0.000 34.450 ND 2289.84 27.2 69.6 28.7 16.1 39.5 1.3 2.67 0.053 34.450 4.321 686.03 24.5 68.3 37.0 19.8 31.3 0.0 2.69 0.0OO 34,450 2.823 1040.60 25.7 66.7 31.3 19.6 35.4 0.0 2.69 0.000 34.450 5.028 496.83 22.5 64.6 30.7 23.5 33.9 0.0 2.69 0.000 34.450 2.837 812.75 25.5 65.5 27.9 21.7 37.5 0.0 2.69 0.0OO 34.450 4.227 897.00 26.2 65.5 28.7 22.4 36.8 0.0 2.68 0,000 34.450 3.486 549.9,6 24.5 59.4 27.2 23.6 32.2 0.O 2.69 0.0OO 34.450 3.760 ~,3~ .~ L:~.Z 65.5 28.9 20.2 36.6 0.0 2.69 0.000 34.450 3.733 DESCRIPTION SS-vwcmt,qtz,glau,sid,occ wh cht SS-mod cmt,qtz,glau,wh cht, tr sid SS-vwcmt,qtz,glau,sid,occ wh cbt SS-vwcmt,qtz,glau,sid,wh cht,t sid, frac SS-vwcmt,qtz,glau,sid,wh cht,t sid SS-wcmt,qtz,wh cht, glau,lr sid SS-mod cmt,qtz,wh cht, giau SS-mod cmt,qtz,wh cht,giau SS-mod cmt,qtz,wh cht,glau SS-mod cmt,qtz,wh cht,giau SS-mod cmt,qtz,wh cht,glau,frac SS-mod cmt,qtz,wh cht,glau SS-mod cmt,qtz,wh cht,glau SS-mod cmt,qtz,wh cht,glau SS-vwcmt,qtz,glau,wh cht, sid,frac SS-wcmt, qtz,glau,occ wh chtrr brn c¥ lam SS-vwcmt,qtz,glau,sid,ooc wh cht SS-wcmt, qtz,glau,wh cht,frac SS-wcmt,qtz,giau,wh cht SS-wcmt,qtz,glau,wh cht SS-wcmt,qtz,glau,wh cht,occ brn cly SS-wcmt,qtz,glau,wh cht,t brn cly SS-wcmt,qtz,glau,wh cht,t brn ch/ SS-wcmt,qtz,glau,wh cht,t brn cb/ SS-wcmt, qtz,giau,wh cht,t brn cly *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINTS- REFER TO TEXT FOR DETAILS ARCO ALASKA, INC. P2-30 Pt. MciNTYRE UNIT NORTH SLOPE, ALASKA CORE LABORATORIES DEAN STARK ANALYSIS RE S PL D H (HEUUM) OIL COR OI WATER HEXAD # # % . R LTRA, 1 51 10296.05 889.61 26.3 64.1 28.2 23.0 35.9 0.0 2.69 0.000 34.450 3.610 I 52 10300.05 729.15 26.6 73.2 37.8 16.1 35.5 0.0 2.68 O.O(X:) 34.450 3.854 2 1 10302.05 208.56 24.1 ' 56.9 42.5 33.3 13.4 3.0 2,70 0,097 34.700 1.199 2 2 10303.05 BROKEN 7.1 46.7 34.3 48.9 12.4 0.0 3.19 0.000 34.700 0.363 2 3 10304.05 31.06 1 9.6 45.7 35.3 41.2 10.4 0.0 2.71 0.000 34.700 0.884 2 4 10306.00 776.42 26.6 64.5 42.0 20.9 22.5 0.0 2.68 0.000 34.700 2.306 2 5 10307.10 BROKEN 26.3 61.8 45.5 19.9 15.2 1.1 2.67 0.042 34.700 1.610 2 6 10308.25 BROKEN 22,4 60.2 31.9 28.8 21.6 6.7 2.69 0.230 34.700 2.039 2 7 10309.10 0.01 9.2 77.2 64.5 21.8 9.3 3.3 3.05 0.042 34.700 0.323 2 8 10310.05 BROKEN 27.5 83.0 45.8 19.2 17.2 0.0 2.68 0.030 34.700 1.930 2 9 10310.95 LEAD SLEEVE SAMPLE 2 11 10312.05 BROKEN 27.5 71.8 44.8 18,6 24.3 2.8 2.67 0.115 34.700 2.734 2 12 10313.10 26.21 19.9 46.3 23.7 41.8 6.7 15.9 2.73 0.689 34.700 0.787 2 13 10316.20 10.30 11.2 41.1 28.8 57.9 7.0 5.4 3.12 0.107 34.700 0.382 2 14 1 0316.85 LEAD SLEEVE SAMPLE 2.74 0.046 34.700 ND 2 17 10318.85 LEAD SLEEVE SAMPLE 2 19 10322.15 LEAD SLEEVE SAMPLE 0.310 34.700 ND 2 22 10324.90 LEAD SLEEVE SAMPLE 0.499 34.700 ND 2 24 10326.25 LEAD SLEEVE SAMPLE 0.103 34.700 ND 2 25 10326.85 LEAD SLEEVE SAMPLE 1.284 34.700 0.122 2 27 10,327.90 LEAD SLEEVE SAMPLE 0.071 34.700 ND 2 28 10329.10 LEAD SLEEVE SAMPLE 0.295 34.700 ND 2 29 10329.85 LEAD SLEEVE SAMPLE 0.094 34.700 ND 2 31 10332.10 LEAD SLEEVE SAMPLE 0.000 34.700 ND 2 32 1~.00 LF_.AD SLEEVE SAMPLE 0.233 34.700 ND 0.070 34,700 ND FILE: BP-3-1486 13-JAN-93 ANALYSTS:P B, DS, F E,TR, DS DESCRIPTION SS-wcmt,qtz,giau,wh cht,t brn ch/ SS-wcmt,qtz,glau,occ wh cht SS-wcmt,qtz,giau,occ wh cht SS- vwcmt,qtz, glau,sid,wh cht,brok en SS-wcmt,qtz,giau,occ wh cht. b~n cly lam SS-wcmt,qtz,giau,occ wh cbt SS-wcmt,qtz,glau,occ wh cbt. broken SS-wcmt,qtz,glau,occ wh cht, brn cly lam,broken SS-w to vwcmt,qtz,glau,sid,occ wh cht SS-wcmt, qtz,glau,occ wh cht, l~ brn cly,broken SS- mod cmt,qtz,wh cht,glau,frac SS-wcmt,qtz,glau,wh cht,boken SS-wcmt,qtz,giau,occ wh cht. gy cly,t sid SS- vwcmt,qtz.glau,sid,t-ac SS- pcmt, qtz, glau, br ok en SS- pcmt qlz,glau,brok en SS- pcmt, qtz,glau,brok en SS - p - wcrnt, qtz,gla u, b~ ok en SS-wcmt,qtz,glau,wk brn cly lam SS- P- wcrnt,qtz,glau,brok en SS- P- wcrrrt,qtz,glau,brok en SS- P- wcrrrt, qtz,glau,br ok en SS - vwcmt,qtz,sid, glau, I:rok en SS-vwcmt,qtz,glau,occ I:xn cly SS-mod cml,qtz,glau,occ brn cly,broken *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINTS- REFER TO TEXT FOR DETAILS ARCO ALASKA, INC. P2-30 Pt. MclNTYRE UNIT NORTH SLOPE, ALASKA CORE LABORATORIES DEAN STARK ANALYSIS CORE SMPL 2 33 2 34 10335.05 LEAD SLEEVE SAMPLE 0.000 34.700 ND 2 35 10336.00 LEAD SLEEVE SAMPLE 0.170 34.700 ND 2 36 10336.90 LEAD SLEEVE SAMPLE 0.202 34.700 ND 2 37 10,337.90 LEAD SLEEVE SAMPLE 0.000 34.700 ND 2 38 10,3..39.00 LEAD SLEEVE SAMPLE 0.143 34.700 ND 2 39 10339.95 LEAD SLEEVE SAMPLE 0.059 34.700 ND 2 43 10341.00 LEAD SLEEVE SAMPLE 0.003 34.700 ND 2 44 10342.00 LEAD SLEEVE SAMPLE 0.1 43 34.700 ND 0.000 34.700 ND 2 45 10343.10 11 42.12 22.8 55.0 43.1 31.0 10.7 1.2 2.71 0.041 34.700 0.980 2 46 10343.90 20.41 20.4 49.1 41.9 35.7 7.2 0.0 2.70 0.000 34.700 0.647 2 47 10345.25 7.19 19.6 44.7 40.6 37.0 4.1 0.0 2.71 0.000 34.700 0.321 2 48 1 0346.20 12.01 21.6 43.6 38.8 33.6 4.8 0.0 2.71 0.000 34.700 0.420 2 49 10347.05 14.29 21.6 45.4 41.3 37.2 4.1 0.0 2.71 0.000 34.700 0.346 2 50 10348.05 5.53 19.7 38.0 34.1 43.0 3.9 0.0 2.69 0.000 34.700 0.363 2 51 10349.20 5.92 19.6 37.0 31.6 44.5 5.4 0.0 2.70 0.000 34.700 0.510 2 52* 10350.20 0.01 5.5 51.9 51,9 43.1 0.0 0.0 3.15 0.003 34.700 ND 2 53 1 0351.05 12.66 23.7 41.9 32.1 43.4 4.6 5.2 2.83 0.207 34.700 0,507 2 54 10352.25 28.94 19.0 50.9 36.2 39.4 4.4 10.2 2.99 0.315 34.700 0.368 2 55 1 0,353.05 68.72 18.7 52.6 25.9 32.2 9.0 17.8 2.91 0.654 34.700 0.902 2 58 10354.05 358.13 24.1 51.3 37.3 28.0 14.0 0.0 2.69 0.000 34.700 1.280 2 57 1 0355.15 59.47 21.0 44,9 38.2 35.7 6.8 0.0 2,71 0 34.700 0.575 2 58 10356,1 0 62.65 21.9 50,6 38.1 39.8 11.1 1.5 2.71 0.052 34.700 1.072 2 59 10357.05 68.03 22.2 41.5 35.1 35.8 6.4 0.0 2.71 0.000 34.700 0.537 2 60 10358.15 126.81 23.9 47.2 38.7 33.5 8.4 0.0 2.72 0.0'00 34.700 0.813 ~ SATU PA'FI 0 NS ..... . 10334 15 LEAD SLEEVE SAMPLE FILE: BP-3-1486 13-JAN-93 ANA LYSTS: P B, DS, F E,TR, DS DESCRIPTION SS-pcmt, qtz,glau,occ bm cly, broken SS-mod cmt,qtz,glau,wh cly,frac SS-p to vwcmt, qtz,glau,wh cmt,broken SS- vwcmt,qtz, gla u,sid SS-mod cmt,qtz,glau,wh cht, brcken SS-wcmt,qtz,glau,bfn cly SS- vwcmt,qtz, glau,sid SS-wcmt,qtz,glau,brn cly,brc~ en SS- vwcmt,qtz, gla u,sid SS-wcmt, qtz,Cau,occ wh cht, frac SS-wcmt, qtz,glau,occ wh chttr brn cly,frac SS-wcmt, qtz,¢au,occ wh chtJr brn ch/ SS-wcmt,qtz,glau,occ wh chUr brn ch/ SS-wcmt, qtz,glau,occ wh cht, tr brn cly SS-wcmt,qtz,glau,occ wh cht, tr brn cly SS-wcmt,qtz,glau,occ brn cly,t wh cht SS-vwcmt,qtz,glau,sid,lr wh cbt SS-wcmt,qtz,glau,occ wh chtsml frac SS-vwcmt,qtz,glau,sid,t wh cht,lrac SS-vwcmt,qtz,glau,sid,lr wh cht,frac SS-wcmt, qtz,glau,occ brn cly SS-wcmt,qtz,¢au,occ wh cht SS-wcmt,qtz,glau,occ wh cht& brn cl¥,frac SS-wcmt,qtz,¢au,occ wh cht, frac __SS-wcmt, qtz,g~au,occ wh cht& brn cly *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINTS- REFER TO TEXT FOR DETAILS ARCO ALASKA, INC. P2-30 Pt. MclNTYRE UNIT NORTH SLOPE, ALASKA CORE LABORATORIES FILE: BP-3-1486 13-JAN-93 ANA LYSrS :P B, DS, F E,T R, DS DEAN STARK ANALYSIS  PERMEAEIU~------~ POROSITY ~ GRAIN CORE SMPL KAIR / (HEUUM) 2 61 10359.05 54.39 23.7 44.9 37.4 37.9 7.4 0.0 2.72 0.000 34.700 0.904 2 62 10380.05 41.52 21.5 41.0 33.1 40.7 7.9 0.0 2.73 0.000 34.700 0.760 2 63 10361.1 0 42.88 21.1 40.3 30.6 41.8 8.4 1.4 2,71 0.047 34.700 0.787 2 64 10362.00 139.97 25.0 45.6 37.5 37.3 7.0 1.1 2.72 0,047 34.700 0.824 2 65 1 ~.05 249.70 26.5 71.5 58.5 15.4 13,0 0.0 2.70 0.000 34.700 0.769 2 66 1 ~.25 47.66 21.8 42.3 32.8 36.6 9.5 0.0 2.71 0.000 34.700 0.943 2 67 10365.15 59.34 17.9 33.5 21.2 54.2 7.6 4.8 2.74 0.138 34.700 0.596 2 68 10366.05 1.91 9.1 65.6 56.6 19.9 9.0 0.0 3.18 0.000 34,700 0.428 2 69 10,367.05 47.52 22.0 48.5 40.0 34.7 8.5 0.0 2.72 0.000 34.700 0.794t 2 70 10368.25 348.48 24.3 53.8 38.4 26.2 15.4 0.0 2.69 0,000 34.700 1.607 2 71 1 0369.05 99.53 22.6 51.3 43.4 27.8 7.9 0.0 2.69 0.000 34.700 0.689 2 72 1 0370.25 259.21 22.9 51.6 35.5 24.8 16.1 0.0 2.71 0.000 34.700 1.726 2 73 10371.05 3.05 1.7 114.4 114.4 89.7 0.0 0.0 3.14 0.000 34.700 ND 2 74 1 0372.95 142.03 25.0 55.6 40.9 29.5 14.7 0.0 2.74 0.000 34.700 1.521 2 75 1 0374.20 206.81 24.0 56.3 36.4 24.6 20.0 0.0 2.70 0.000 34.700 2.01 5 2 76 10375.05 3.84 12.9 74.3 66.0 18.7 5.2 3.0 3.11 0.072 34.700 0.339 2 77 10376,05 53.57 21.9 51.2 38.7 29.7 12.5 0.0 2.69 0.000 34.700 1.087 2 78 1 0376.95 36.29 18.5 44.4 34.8 32.6 9.6 0.0 2.69 0.000 34.700 0.679 2 79 1 0378.1 0 23.18 18.4 44.0 34.8 34.4 7.0 2.2 2.70 0,059 34.700 0.522 2 80 1 0,,',',',',',',',',~81.05 250.94 24.0 69.9 50.8 17.9 19.1 0.0 2.71 0.000 34.700 1,919 2 81 10382.10 -399.47 26.0 68.8 52.4 15.2 16.4 0.0 2.73 0.000 34.700 1.689 2 82 10383.30 335.20 26.1 67.0 48.6 16.5 18.4 0.0 2.74 0,000 34.700 1.891 2 83 10,,',',',',',',',','~. 05 315.36 25.4 64.8 50.2 16.5 14.6 0.0 2.71 0.000 34.700 1.419 2 84 10385.10 417.46 26.2 68.1 47.8 15.3 20.4 0.0 2.70 0.000 34.700 2.623 2 85 10386.00 3~0.87 25.7 64.1 48.5 16.2 15.6 0.0 2.70 0.000 34.700 1.686 DESCRIPTION SS-wcmt,qtz,glau,occ wh cht & brn ch/ SS-wcmt,qtz,glau,occ wh cht & brn cly,frac SS-wcmt, qtz,giau,occ wh cht. frac SS- wcmt,qtz, glau,frac SS- wcmt,qtz,glau, frac SS-wcmt,qtz,giau,occ bm ch/ SS-wcmt,lam,qtz,giau,occ brn cly,frac SS- vwcmt,qtz,glau,sid, frac SS-wcrnt, qtz,glau,occ brn cly,frac SS-wcrnt, qtz,glau,occ wh chtJr brn cly SS-wcmt,qtz,glau,occ wh cht& brn cly SS-wcrnt,qtz,glau,occ wh cht SS-vwcmt,qtz,glau,sid,t wh cht,t'ac SS-wcrnt,qtz,g~au,occ wh cht. l~ brn cly SS-wcmt,qtz,glau,occ wh cht, ff brn cly SS-vwcmt,qtz,glau,sid,ooc wh cht SS-wcmt, qtz,glau,occ wh cht SS-wcmt,qtz,glau,occ wh cht, tr brn cly SS-wcmt, qtz,glau,occ wh cht & brn ch/ SS-wcrnt,qtz,wh cht. occ glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt,qtz,wh cht, occ glau SS-wcrnt,qtz,wh cht, occ glau *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINTS- REFER TO TEXT FOR DETAILS ARCO ALASKA, INC. P2-30 Pt. MciNTYRE UNIT NORTH SLOPE, ALASKA CORE LABORATORIES CORE SMPL # # 2 2 2 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 87 88 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 DEPTH FT DEAN STARK ANALYSIS 86 10387.05 10388.05 10392.00 10391.20 10392.05 10393.05 10394.25 10395.05 10396.05 1 0,397.15 10398.05 10399.05 10400.15 1 0401.05 104O2.05 10403.05 1 0404.05 1 0405.05 10406.1 5 1 0407.05 10408.05 104O9.05 10410.05 10411.05 10412.05 PERM EAI=I U~----'~ POROSITY KAJ R.___._ J (HEUUM) HEXAD. MD % 277.85 24.8 63.8 52.0 16.3 11.8 0.0 2.70 0.000 34.700 1.1 59 351.28 25.4 67.8 45.9 15.6 22.0 0.0 2.70 0.000 34.700 2.346 16.25 24.8 69.8 12.8 18.2 9.5 47.5 2.69 1.689 34.700 0.923 137.29 21.3 57.8 38.2 22.1 19.6 0.0 2.70 0.000 34.650 2.053 216.23 24.1 64.7 45.5 18.0 19.2 0.0 2.75 0.000 34.650 1.849 166.72 22.2 61.3 43.8 21.7 17.5 0.0 2.73 0.000 34.650 1.538 200.45 21.8 55.5 32.0 23.7 23.6 0.0 2.78 0.000 34.650 2.159 241.40 23.9 59.9 38.4 18.1 21.5 0.0 2.70 O.(X)O 34.650 2.299 348.97 24.4 59.8 38.8 1 7.4 23.0 0.0 2.67 0.000 34.650 2.218 200.88 23.5 56.1 40.4 21.2 15.7 0.0 2.69 0.000 34.650 1.384 424.05 20.9 58.2 38.6 23.7 21.6 0.0 2.69 0.000 34.650 2.623 51.33 18.4 49.0 41.7 26.9 7.2 0.0 2.68 0.000 34.650 0.543 301.94 24.1 56.7 44.7 18.3 11.9 0.0 2.67 0.000 34.650 1.1 83 134.62 22.4 54.3 45.3 22.3 8,1 0.0 2.68 0.000 34.650 0.820 129.23 21.7 68.9 45.6 19.3 13.3 0.0 2.84 0.000 34.650 1.199 10~.52 22.3 52.3 37.2 23.5 15.1 0.0 2.67 0.000 34.650 1.515 393.95 25.2 60.4 37.4 18.9 23.0 0.0 2.87 0.000 34.650 2.416 202.41 23.1 51.4 34.6 19.4 16.8 0.0 2.67 0.000 34.650 1.641 BROKEN 15.6 65.0 40.4 19.1 11.1 13.5 3.06 0.393 34.650 0.879 71.34 20.7 49.5 38.1 24.3 11.4 0.0 2.67 0.000 34.650 1.1 61 119.99 22.3 48.8 37.7 22.2 11.2 0.0 2.68 0.000 34.650 1.096 99.31 22.3 52.8 41.1 24.2 11.7 0.0 2.67 O.(:X)O 34.650 1.21 6 135.12 21.4 52.1 39.2 22.3 12.9 0.0 2,67 0.000 34.650 1.262 1589.55 17.5 64.1 49.3 19.4 14.7 0.0 2.9~ 0.000 34.650 1.218 128.16 21.4 55.0 42.9 22,7 12,1 0.0 2.68 0,000 34.650 1.259 FIIF: BP-3-1486 13-JAN-93 ANALYSTS: PB, DS, F E,T R, DS DESCRIPTION SS-wcmt,qtz,wh chtocc glau SS-wcmt,qtz,wh cht. occ glau SS-wcmt,qtz,wh chtocc glau,t' brn cly SS-wcmt, qtz,wh chtocc glau,lr brn ch/ SS-wcmt,qtz,wh cht, occ glau.t brn ch/ SS-wcmt,qtz,wh cht, occ glau,t brn ch/ SS-wcmt,qtz,wh chtocc glau,t brn ch/ SS-wcmt,cCz,wh cht. occ glau SS-wcrnt,qtz,wh cht, occ glau SS-wcmt,qtz,wh cht. occ glau,lr brn ch/ SS-wcmt,qtz,wh chtocc glau,t brn ch/ SS-wcmt,qtz,wh cht, occ glau,lr brn ch/ SS-wcrnt,qtz,wh cht. ff glau SS-wcmt,qtz,wh cht, occ glau,t brn ch/ SS-vwcmt,qtz,wh cht,t glau,frac SS-vwcmt,qtz,wh cht,t glau & brn ch/ SS-vwcmt,qtz,wh cht,t' glau & brn cly SS-vwcmt,qtz,wh cht.lr glau SS-vwcmt,qtz,wh cht,sid,t glau,brcken SS-vwcmt,qtz,wh cht,lr glau & brn cly SS-vwcmt,qtz,wh cht,t glau & brn cly SS-vwcmt,qtz,wh cht,t glau & brn cly SS-vwcmt,qtz,wh cht,t' glau & brn cly SS-vwcmt,qtz,wh cht,sid,pyr nod,t glau,frac SS-vwcmt,qtz,wh cht,f glau & brn ch/ *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINTS- REFERTO TEXT FOR DETAILS CORE LABORATORIES ARCO ALASKA, INC. P2-30 Pt. MdNTYRE UNIT NORTH SLOPE, ALASKA ~.~ ~ ...... DEAN STARK ANALYSIS DE~ PERMEABUTY~ POROSITY ~RATiONS / I I # MD ' TRACER HEXAD. 23 1 0413.05 107.25 21.9 48.5 38.8 23.9 9.7 0.0 2.67 0.000 34.650 1,038 24 1 0414.05 1.49 7.4 57.2 .~).3 23.3 6.9 0.0 3.09 0,000 34,650 0.359 25 10415.05 145.48 23.3 52.0 39.2 21,5 12.8 0.0 2.67 0.0OO 34,650 1,168 26 10416.15 118.77 22.5 50.4 38.5 24.1 13.9 0.0 2.67 0.000 34.650 1.337 27 1 0417.15 33.81 19.2' 44.7 37.2 29.3 7.5 0.0 2.67 0.000 34,650 0.643 28 1 0418.05 101.88 21.9 49.5 39.3 24.3 1 0.2 0.0 2.67 0,000 34.650 1.118 2:>9 1 0420.05 139.55 22.6 52.8 39.7 23.5 13.1 0.0 2.67 0,000 34.650 1.254 30 1 0420.95 48.29 19.4 53.5 45.3 30.8 8.2 0.0 2.68 0.000 34.650 0.679 31 10422.25 55.13 18.2 52.7 40.7 28.9 12.0 0.0 2.67 0.000 34.650 0.8.53 32 10423.05 18.09 18,0 42.4 37.5 31.9 4.9 0.0 2.68 0.000 34,650 0.411 33 1 0424.05 15.70 16.8 48.0 39.0 34.4 7,0 0.0 2.67 0.(:X)O 34.650 0.501 34 10425.20 181.84 23.5 52.7 39.8 21.6 12,9 0.0 2.67 0.000 34.650 1.305 35 10426,15 132.62 20.5 53.1 42.0 18.8 11.1 0.0 2.85 0.000 34.650 0,946 38 10427.05 21.26 18.2 45.4 39.4 31.4 6.1 0.0 2.67 0,000 34.650 0.618 37 1 0428.25 39.41 20.2 47.6 38.8 29.7 8.8 0.0 2.67 0.(:X)0 34.650 0,835 38 10429,05 29.25 18.8 47.4 38.5 32.2 10.9 0.0 2.68 0.000 34.650 0.845 39 10430,05 5.58 14.5 38.9 31.7 41.4 5,2 0,0 2.67 0.0OO 34,650 0.374 40 10431.20 19.09 18.2 42.3 35.2 33,0 7.1 0.0 2.68 0.000 34,650 0.587 41 10432.05 24.53 18.8 44.3 37.5 29,3 6.8 0.0 2.87 0.000 34,650 0.614 42 104.33.05 7.13 16.7 37.7 32.6 36.9 5.1 0.0 2.67 0,000 34,650 0.322 43 1 0434.25 46.53 18.8 47.5 40.2 32.7 7.3 0,0 2.68 0,0OO 34.650 0,339 44 10435.05 11.39 16.1 39.0 34.4 38,0 4.6 0.0 2.68 0.O00 34.650 0.316 45 1 04.38.05 6,08 16.3 41.5 38.1 37.6 5.4 0.0 2.68 0.000 34,650 0.370 48 1 0437.15 41.35 19.8 49.3 41.9 27.9 7.4 0.0 2.70 0.000 34.650 0.592 47 10438.25 1243.68 28.4 75.O 5O,9 10.8 24.1 0.0 2.66 0.000 34,650 2,971 FILE: BP-3-1486 13-JAN-93 ANALYSTS:PB,DS, FE,TR,DS DESCRIPTION SS-vwcmt,qtz,wh cht,t glau & brn cly SS-vwcmt,qtz,wh cht,sid,occ glau SS-vwcmt,qtz,wh cht,lr glau & brn cly SS-vwcmt,qtz,wh cht,t glau & brn cly SS-vwcmt,qtz,wh cbt,W< brn cly lam,t glau SS-vwcmt,qtz,wh cht,t glau & brn ch/ SS-vwcmt,qtz,wh cbt,vt< brn cly bm,ir glau SS-vwcml,qtz,wh cht,wk brn ch/lam,ir glau SS-vwcmt,qtz,wh cht,v¢< brn ch/lam,t glau SS-vwcmt,qtz,wh cht,v~ brn ch/lam,t glau SS-vwcmt,qtz,wh cht,wk brn ch/bm,ir glau,pyr nod SS-vwcmt,qtz,wh cht,W< brn ch/bm,ir glau SS-vwcmt,qtz,wh cht,sid,glau SS-vwcrnt,qtz,wh cht,v~ brn cly lam,ir glau SS-vwcmt,qtz,wh cht,wk SS-vwcmt,qtz,wh cht,wk SS-vwcmt,qtz,wh cht,,ck SS-vwcmt,qtz,wh cht,W< SS-vwcmt,qtz,wh cht,wk SS- vwcmt,qtz,wh cht,v~ SS-vwcmt,qtz,wh cht,wk SS-v'wcmt,qtz,wh cht,v,k SS-vwcmt,qtz,wh chi,W( brn ch/lam,ir glau brn cly lam,pyr,tr glau brn ch/lam,Ir glau brn cly lam,pyr,lr glau brn cly lam,ir glau brn cly lam,otc glau brn cly lam,occ glau brn ch/lam,occ gbu brn cly lam,occ glau SS-v'wcmt,qtz,wh cht,v,k brn ch/[am,occ glau SS-wcrnt, crtz.wh cht, occ glau *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINTS- REFERTO TEXT FOR DETAILS ARCO ALASKA, INC. P2-30 Pt, MdNTYRE UNIT NORTH SLOPE, ALASKA CORE LABORATORIES DEAN STARK ANALYSIS I PERM EAEI 1 ITy--~~"~_ SATURATiONS ¢.~,u ~J ..... : CORE SMPL DEPTH KA, IR I (HE._U..UM)I OIL I COR OI~ WATERI HEXAD.I FILTRA. I D;~"~I TRACER I T~U~R I HEXAD # # FT MD %Pr %Pv %Pv %Pv %Pr % ' 3 48 10439.05 657.32 25.8 66.2 49.3 14.4 17.0 0.0 2.67 0.000 34.650 2.368 3 49 10440.05 751.92 26.5 64.7 48.2 15.2 16.5 0.0 2.67 0.000 34.650 1.852 3 50 10441.00 1273.88 26.5 61.2 50.6 15.7 10.5 0.0 2.72 0.000 34.650 1.119 3 51 10442.05 BROKEN 26.4 64.1 53.6 15.4 10.5 0.0 2.75 0.000 34.650 1.214 3 52 10443.15 599.40 25.7 66.0 50.6 17.4 15.3 0.0 2.73 0.000 34.650 1.585 3 53 1 0444.05 636.06 25.8 63.3 47.3 16.6 16.0 0.0 2.73 0.000 34,650 1.51 4 3 54 1 0445.05 855.52 27.5 70,2 50.1 14.8 20.1 0.0 2.74 0.000 34,650 2.269 3 55 10446.25 212.15 22.9 63.9 43.6 22.4 20.3 0,0 2.70 0.000 34.650 2.558 3 56 10447.05 800.79 27.0 67.5 45.5 1 5.2 22.0 0.0 2,74 0.000 34.650 2.215 3 57 1 0448.05 348.94 22.4 60.7 43.3 20.3 17.4 0.0 2.73 0,000 34.650 1.764 3 58 10449.20 421.52 25.4 68.3 49.1 13.9 19.2 0.0 2.80 0.000 34.650 2.093 3 59 1 0450.20 27.75 18.3 42.8 34.7 30,8 8.1 0.0 2.67 0,000 34.650 0,643 3 60 10451.05 12.48 16.9 43.2 36.7 33.0 6.5 0.0 2.72 0.000 34.650 0.502 3 61 10452.05 25.36 15.9 39.7 35,1 35.7 4.6 0.0 2.68 0,000 34.650 0.360 3 52 1 0453.25 287.43 22,7 62.0 40.1 20.1 21.9 0.0 2.67 0.000 34.650 2.315 3 63 10454.15 574.24 23.6 63.2 42.1 17.8 17.8 3.3 2.68 0.150 34.650 2.187 3 64 10455.05 539.39 25.2 64.6 46.5 14.6 18.1 0.0 2.75 0,000 34.650 1.953 3 55 1 0456.05 154.86 20.6 57.1 41.7 24.7 15.4 0.0 2.69 0.000 34,650 1.434 3 68 10457.05 204.40 20.6 61.4 43.2 21.0 18.2 0.0 2.67 0,000 34.650 1.422 3 67 1 0458.05 448.01 25.5 66.2 37.1 16.8 29.1 0.0 2,70 0.00(3 34.650 3.204 3 68 10459.25 90.05 22.8 58.0 48.9 20.9 6.5 2.7 2.70 0.109 34.650 0,715 3 69 10460.05 319.72 23.4 59.2 42.1 19.6 17.1 0.0 2.67 0.000 34.650 1.518 3 70 10461.05 263.23 22.6 58.5 41.4 19.9 17,1 0.0 2.70 0.000 34,650 1.840 3 71 1 0462.05 340.33 23.7 62.4 42.5 18.1 19.9 0.0 2.72 0.000 34.650 1.893 3 72 10463,05 324.35 23.1 58.9 37.9 1 9.9 21.1 0.0 2.67 0.000 34,650 1.987 FILE: BP-3-1486 13-JAN-93 ANALYSTS:PB,DS, FE,TR,DS DESCRIPTION SS-wcml,qtz,wh chtocc glau SS-wcmt,qtz,wh chtocc glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt, qtz,wh cht, occ glau,brcken SS-wcmt,qtz,wh chtocc glau,frac SS-wcmt,qtz,wh chtocc glau & brn cly SS-wcmt,qtz,wh cht, occ g[au,frac SS-wcmt,qtz,wh chtocc glau & brn ch/ SS-wcmt,qtz,wh chtocc glau SS-wcmt,qtz,wh cht, occ glau & brn cly,t bit SS-wcmt,qtz,wh cht, occ glau,frac SS-wcmt,qlz,wh cht, v,k brn cly lam,occ gtau SS-wcmt,qtz,wh chtv¢~ brn c¥ lam,occ glau SS-vwcmt,qtz,wh cht,v~ brn cly lam,occ glau SS-vwcmt,qtz,wh cht,~k brn cly lam,occ glau SS-vwcmt,qtz,wh cht,wk brn cly [am,occ glau SS-wcmt,qtz,wh chtocc glau SS-vwcmt,qtz,wh cht,v~ brn cly lam,occ glau SS-vwcmt,qtz,wh cht,wk brn cly lam,occ glau SS-vwcmt,qtz,wh cht,wk brn cly lam,occ glau SS-vwcmt,qtz,wh cht,wk brn ch/tam,occ glau SS-vwcmt,qtz,wh cht,~k brn ch/[am,occ gbu SS-wcmt, qtz,wh cht. occ glau SS-wcmt,qtz,wh cht. occ glau SS-wcmt, qtz,wh cht. occ glau,t brn ch/ *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINTS- REFER TO TEXT FOR DETAILS ARCO ALASKA, INC. P2-30 Pt. MclNTYRE UNIT NORTH SLOPE, ALASKA CORE LABORATORIES FILE. BP-3-1486 13-JAN-93 ANALYSTS:PB,DS, FE,TR,DS DEAN STARK ANALYSIs # # M D % % Pv % Pv % Pv % Pv % Pv PPM % 3 73 10464.05 577.86 25.1 67.1 45.3 15.5 20.5 1.4 2.76 0.053 34.650 2.179 3 74 10465.05 122.02 20.1 56.0 45.3 24.0 10.8 0.0 2.67 0.000 34.650 1.083 3 75 10466.05 1 02.47 19.9 59.2 45.5 24.0 13.7 0.0 2.73 0.000 34.650 1.162 3 76 10467.05 128.90 20.6 53.1 37.0 25.1 18.0 0.0 2.67 0.000 34.650 1.475 3 77 10468.05 234.0~ 22.2 56.5 42.1 19.6 14.4 0.0 2.67 0.000 34.650 1.292 3 78 10469.05 294.16 23.0 64.6 40.1 16.6 24.5 0.0 2.76 0.000 34.650 2.107 3 79 1 0470.05 193.93 21.8 56.0 38.5 20.9 17.4 0.0 2.67 0.000 34.650 1.593 3 80 1 0471.05 51.15 17.8 48.7 40.8 27.0 7.9 0.0 2.67 0.000 34.650 0.549 3 81 1 0472.05 76.49 18.2 51.0 34.4 29.9 16.6 0.0 2.70 0.000 34.650 1.429 3 82 1 0473.05 169.27 21.9 57.4 37.7 22.4 19.7 0.0 2.67 0.000 34.650 2.065 3 83 1 0474.05 161.37 21.0 53.3 37.5 22.1 1 5.9 0.0 2.67 0.000 34.650 1.380 3 84 1 0474.85 117.29 20.6 51.7 39.8 22.0 11.8 0.0 2.67 0.000 34.650 0.934 3 85 10476.05 48.12 18.7 49.7 38.5 28.5 13.2 0.0 2.68 0.000 34.650 0.892 3 86 1 0477.05 1 34.1 8 21.2 53.8 42.2 22.9 11.6 0.0 2.70 0.000 34.650 1.009 3 87 10478,05 149.47 21.4 53.1 39.5 22.5 13.8 0.0 2.67 0.000 34.650 1.120 3 88 1 0479.05 1 04.58 19,7 53.8 42.6 26.1 11.2 0.0 2.68 0.000 34.650 0.813 3 89 1 0479.15 3,76 13.9 39.6 31.6 38.4 6.0 2.0 2.87 0.051 34.650 0.410 4 1 1 0480,25 1 05.02 20.2 48.8 35.6 24.8 11.7 1.5 2.87 0.041 34.800 0.891 4 2 1 0481.05 376.54 24.1 56.6 41.4 18.5 17.3 0.0 2.69 0.000 34.800 1.770 4 3 10482.05 232.87 22.5 53.2 38.9 21.3 14.3 0.0 2.68 0.000 34.800 1.246 4 4 10482.95 362.64 23.8 56.0 39.2 19.1 18,9 0.0 2.67 0.000 34.800 2.185 4 5 1 0484.05 427.68 24.4 60.2 39.2 1 9.1 21.0 0.0 2.70 0.000 34.800 2.161 4 6 10485.05 217.21 22.3 55.4 44.8 21.8 10.6 0.0 2.70 0.000 34.800 1.044 4 7 10486.25 549.76 24.7 60.1 39.4 16.7 20.7 0.0 2.67 0.000 34.800 2.3.39 4 8 10487.05 582.69 25.2 79.0 59.9 17.4 19.1 0.0 2.69 0.000 34.800 2.034 DESCRIPTION SS-wcmt,qtz,wh cht, occ glau SS-vwcmt,qtz,wh cht,~ brn cly [am,occ glau SS-vwcml,qtz,wh cht,wk brn cly lam,occ glau SS-vwcmt,qtz,wh cht,~k brn cly lam,occ glau SS-vwcmt,qtz,wh cht,occ g[au & brn c¥ SS-vwcmt,qtz,wh cht,o<:~ giau & sial SS-vwcmt,qtz,wh cht,occ glau & brn c¥ SS-vwcrnt,qtz,wh cht,wk brn cly lam,occ glau SS-vwcmt,qtz,wh cht,wk brn cly [am,occ glau,t' pyr SS-vwcmt,qtz,wh cht,'~k brn cly [am,occ glau SS-vwcrnt,qtz,wh cht,wk brn cly [am,occ glau SS-vwcmt,qtz,wh cht,v~ brn cly [am,occ glau SS-vwcmt,qtz,wh cht,wk brn cly [am,lr g[au SS-vwcrnt,qtz,wh cht,v~ brn cly [am,occ glau SS-vwcmt,qtz,wh cht,wk brn ch/[am,occ glau SS-vwcmt,qtz,wh cht,wk brn cly lam,occ glau SS-vwcmt,qtz,wh cht,brn cly [am,occ glau SS-vwcmt,qtz,wh cht,v~ brn ch/[am,occ glau SS-vwcmt,qtz,wh cht,occ glau,pyr nod SS-vwcmt,qtz,wh cht,wk brn cly bam,occ glau SS-vwcmt,qtz,wh cht,occ g[au SS-vwcmt,qtz,wh cbt,otc g[au SS-vwcrnt,qtz,wh cht,occ glau,tr brn ch/ SS-vwcmt,qtz,wh cht,occ glau SS-vwcmt,qtz,wh cht,occ g[au,tr sid *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINS- REFER TO TEXT FOR DETAILS CORE LABORATORIES ARCO ALASKA, INC. P2-30 Pt. MdNTYRE UNIT NORTH SLOPE, ALASKA DEAN STARK ANALYS~S FILE: BP-3-1486 13- JAN - 93 ANALYSTS:PB,DS, FE,TR,DS 4 9 10488.05 62.82 18.0 48.6 41.2 28.7 7.4 0.0 2.68 0.000 34.800 0.611 SS-vwcmt,qtz,wh cht,v¢< brn cly lam,t glau 4 10 10489.20 578.95 25.2 60.1 39.6 16.1 20.5 0.0 2.69 0.000 34.800 2.530 SS-vwcmt,qtz,wh cht,ooc g[au 4 11 10490.05 81.58 18.9 46.9 39.1 25.8 7.8 0.0 2.71 0.000 34.800 0.780 SS-vwcrnt,qtz,wh cht,v~k b~n cly lam,occ glau 4 12 10491.05 292.45 22.5 55.3 41.6 21.5 13.7 0.0 2.73 0.000 34.800 1.347 SS- vwcmt,qtz,wh cbt,oct glau 4 13 10492.25 126.92 21.0 49.9 42.2 24.4 7.7 0.0 2.72 0.000 34.800 0.579 SS-vwcmt,qtz,wh cht,occ glau 4 14 10493.05 259.03 22.2 56.3 43.3 21.8 13.0 0.0 2.70 0.000 34.800 1.084 SS-vwcmt,qtz,wh cht,v~ brn ch/lam,Ir glau 4 15 10494.05 347.70 23.7 58.4 44.5 20.4 11.9 0.0 2.69 0.000 34.800 1.047 SS-vwcmt,qtz,wh cht,occ glau,tr brn cly 4 16 10495.25 36.65 18.0 49.1 43.2 29.7 5.9 0.0 2.70 0.000 34.800 0.555 SS-vwcmt,qtz,wh cht,ooc glau,tr brn cly 4 17 10496.05 344.84 23.7 58.5 45.4 20.2 13.1 0.0 2.67 0.000 34.800 1.114 SS-vwcmt,qtz,wh cht,occ glau 4 18 10497.05 652.46 25.9 61.1 45.9 16.7 15.3 0.0 2.68 0.000 34.800 1.739 SS-vwcmt,qtz,wh cht,occ glau 4 19 10498.25 411.48 23.9 58.3 46.0 18.0 12.4 0.0 2.69 0.000 34.800 1.225 SS-vwcmt,qtz,wh cht,ooc glau 4 20 10499.05 237.83 21.8 58.7 49.3 21.6 9.4 0.0 2.71 0.000 34.800 0.936 SS-vwcmt,qtz,wh cht,occ glau 4 21 10500.05 88.61 19.0 45.5 35.0 26.5 10.4 0.0 2.69 0.000 34.800 0.887 SS-vwcrrlt,qtz,wh cht,v~ brn cly lam,otc glau 4 22 10500.95 260.98 21.8 54.7 42,7 22.2 12.0 0.0 2.67 0,000 34.800 1,181 SS-vwcmt,qtz,wh cht,ooc glau,tr brn cly 4 23 10502.05 69.28 19.3 51.4 41.8 27.9 9.6 0,0 2.72 0.000 34.800 0.690 SS-vwcmt,qtz,wh cht,occ glau,tr brn cly 4 24 10503.00 108.91 20.7 51,9 44.4 23.6 7.5 0.0 2.67 0.000 34,800 0.566 SS-vwcmt,qtz,wh cht,ooc glau,tr brn cly 4 25 10504.05 229.73 22.3 58.6 41.5 22.9 15.1 0.0 2.69 0.000 34.800 1.51 1 SS-wcmt, qtz,wh chtocc glau,t brn cly 4 26 10505.05 107.82 19.9 52.5 44.0 25.9 8.5 0.0 2.68 O.O(X) 34.800 0.798 SS-wcmt,qtz,wh cht, occ glau,t brn cly & pyr 4 27 10506.20 135.37 20.9 52.6 44.8 24.7 7.8 0.0 2.70 0.000 34.800 0.724 SS-wcmt,qtz,wh cht, occ glau,t brn cly,pyr nod 4 28 10507.05 388.91 24.2 62.0 47.4 18.0 14.7 0.0 2.67 0.000 34.800 1.728 SS-wcmt, qtz,wh cht, occ gIau 4 29 10508.05 251.57 22.8 57.7 44.0 21.9 13.7 0.0 2.70 0.000 34.800 1.236 SS-wcmt,c[tz,wh cht, occ glau 4 30 10509.20 53.65 18.8 46.5 39.2 29.8 7.3 0.0 2.68 0.000 34.800 0.648 SS-wcmt, qtz,wh cht, wk brn cly lam,occ glau 4 31 10510.05 331.72 23.8 55.6 40.3 20.0 15.3 0.0 2.68 0.000 34.800 1.700 SS-wcmt, qiz,wh cht,~- brn cly & glau 4 32 10511.05 1 92.66 21.2 55.2 40.3 25.2 14.9 0.0 2.70 0.000 34.800 1.473 SS-wcmt,qlz,wh cht, lr brn cly & §lau 4 33 10512.20 128.61 20.4 54.8 43.9 25.0 10,9 0.0 2.68 0.000 34.800 0.874 SS-wcmt,qtz,wh chtvCx brn cly lam,occ glau *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINTS- REFER TO TEXT FOR DETAILS CORE LABORATORIES ARCO ALASKA, INC. P2-30 Pt. MdNTYRE UNIT NORTH SLOPE, ALASKA CORE SMPL~ DEAN STARK ANALYSIS 4 34 10513.05 4 35 10514.05 591.72 25.0 63.7 44.9 17.2 18.8 0.0 2.67 0.000 34.800 1.784 4 36 10515.25 120.73 19.9 60.2 49.5 '28.7 10.7 0.0 2.67 O.O(X) 34.800 0.847 4 37 1 0516.05 359.92 24.0 61.8 42.3 19.7 19.8 0.0 2.67 0.000 34.800 1.924 4 38 10517.05 49.43 20.7 54.8 43.0 27.1 11.9 0.0 2.68 0.000 34.800 0.994 4 39 1 0518.25 53.68 14.6 45.3 37.2 37.9 5.9 2.2 2.74 0.050 34.800 0.354 4 40 10519.20 136.57 22.2 54.9 45.5 23.8 9.4 0.0 2.68 0.000 34.800 0.885 4 41 1 0520.05 236.82 23.6 58.4 48.1 22.5 10.4 0.0 2.68 0.000 34.800 0.965 4 42 1 0521.25 259.66 23.3 58.9 47.3 22.9 9.5 0.0 2.68 0.000 34.800 0.802 4 43 10522.05 795.22 28.0 68.9 48.1 19.9 20.8 0.0 2.68 0.000 34.800 2.291 4 44 10523.05 857.92 27.2 65.3 46.9 20.6 18.4 0.0 2.68 0.000 34.800 1.972 4 45 10524.20 501.71 26.3 62.9 48.5 22.1 14.4 0.0 2.72 0.000 34.800 1.852 4 46 10525.02 354.68 25.1 53.5 41.5 22.1 12.1 0.0 2.74 0.000 34.800 1.166 4 47 1 0526.05 541.98 25.9 61.5 44.4 23.1 17.1 0.0 2.70 0.000 34.800 1.81 9 4 48 1 0527.20 31 5.02 24.8 57.8 45.9 23.4 11.9 0.0 2.75 0.000 34.800 1.238 4 49 10528.05 322.83 24.6 60.5 49.1 22.6 11.4 0.0 2.76 0.000 34.800 1.107 4 50 1 0529.05 429.45 25.7 60.9 48.1 23.4 12.8 0.0 2.70 0.000 34.800 1.851 4 51 105...'.'.'.'.'.'.'.~). 15 505.47 26.5 61.5 50.7 23.7 10.8 0.0 2.69 0.000 34.800 1.114 4 52 10531.05 605.34 27.0 64.6 43.1 23.4 21.4 0.0 2.67 0.0'00 34.800 2.326 4 53 105,32.05 614.58 27.0 62.5 47.4 23.4 15.1 0.0 2.68 0.000 34.800 1.680 4 54 10533.15 717.93 27.5 65.6 49.9 22.9 15.6 0.0 2.67 0.000 34.800 2.876 4 55 1 0534.05 481.91 25.2 57.7 44.7 25.2 12.9 0.0 2.67 0.000 34.800 1.745 4 56 10535.05 979.90 29.0 65.2 45.6 22.8 19.5 0.0 2.67 0.000 34.800 2.230 4 57 105,36.15 1091.47 29.9 61.6 48.2 22.0 8.7 4.7 2.67 0.241 34.8O0 1.231 4 58 105,38.95 BROKEN 15.7 24.4 17,5 85.3 4,6 2.2 2.99 0.068 34.800 0.384 PERMEABUTY~ SATURATIONS I GRAIN ~ I I Ioo. q I MD % % Pv % Pv % Pv % Pv % Pv GM/CC 381.54 21.8 60.2 48.8 23.8 13.4 0.0 2.68 0.000 34.800 2.236 FILE: BP-3-1486 13-JAN-93 ANALYSTS:PB,DS, FE,TR,DS DESCRIPTION SS-wcmt,qtz,wh chtwk brn cly lam,ccc glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt,qtz,wh chtv~ brn cly lam,ccc glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt,qtz,wh cht, wk brn cly lam,ccc glau SS-cmt,qtz,brn cly lam,ccc glau SS-wcmt,qtz,wh chtocc glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt,qtz,wh chit glau SS-wcmt,qtz,wh chit glau SS-wcrnt,qtz,wh chtt~ glau SS-wcmt,qtz,wh cht, tr glau SS-wcmt,qtz,wh chtt~ glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt,qt:z,wh cht, occ glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt,qtz,wh chtocc glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt,qtz,wh cht, occ glau SS-wcmt,qtz,wh chi, ccc glau SS-wcmt,qtz,wh chtocc glau SS-wcmt, qtz,wh cht, occ g[au SS-wcmt,qtz,wh cht, occ glau,frac Sltst- vwcrnt,slt- vfsd,qtz,sid,occ glau,broken *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINTS- REFER TO TEXT FOR DETAILS ARCO ALASKA, INC. P2-30 Pt. MdNTYRE UNIT NORTH SLOPE, ALASKA CORE SMPL I DEPTH # # FT PERM E. AB UTY KAIR MD CORE LABORATORIES DEAN STARK ANALYSIS POROSITY I SATURATIONS % %Pv %Pv %Pv %Pv ~~ 4 59 10538.05 31 3.24 25.7 59.4 46.8 24.8 11.4 1.1 2.76 0.041 34.800 1.200 4 60 10539.10 BROKEN 25.2 58.3 47.8 25.6 10.5 0.0 2.78 0.000 34.800 1.126 4 61 10540.05 297.18 25.2 54.6 46.3 26.3 8.3 0.0 2.75 0.000 34.800 0.912 4 62 1 0541.00 525.05 26.7 58.5 47.5 25.8 9.1 0.0 2.69 0.000 34.800 0.894 4 63 1 0542.00 BROKEN 27.3 63.3 51.2 24.8 12.1 0.0 2.71 0.000 34.800 1.420 4 64 1 0543.05 754.53 26.6 59.5 47.4 25.7 12.0 0.0 2.67 0.000 34.800 1.302 4 65 10544.05 103.92 23.9 57.2 49.5 31.7 6.0 1.7 2.89 0.058 34.800 0.552 4 66 10545.05 499.33 26.3 60.3 50.0 24.4 1 0.3 0.0 2.70 0.000 34.800 1.402 4 67 10546.05 630.28 27.4 58.9 48.7 25.0 1 0.2 0.0 2.68 0.000 34.800 1.057 4 68 10547.25 565.35 27.1 55.3 48.6 25.2 6.8 0.0 2.69 0.000 34.800 0.703 4 69 10548.05 BROKEN 20.4 40.0 31.4 34.8 8.5 0.0 2.94 0.000 34.800 0.678 4 70 10549.25 643.00 27.9 59.6 49.0 26.1 10.6 0.0 2.69 0.000 34.800 1.207 4 71 10550.20 662.95 28.0 59.7 49.3 26.2 10.4 0.0 2.6'9 0.000 34.800 1.096 4 72 ' 10551.15 606.71 27.5 55.9 44.0 26.6 11.9 0.0 2.69 0.000 34.800 1.452 4 73 10552.00 700.32 26.6 59.9 44.1 26.5 15.8 0.0 2.68 0.000 34.800 1.703 4 74 10553.05 331.34 25.3 55.4 42.2 27.4 13.2 0.0 2.73 0.030 34.800 1.300 4 75 1 0554.10 505.39 25.5 58.1 48.1 25.6 13.0 0.0 2.70 0.000 34.8(X) 1.402 4 76 10555.05 421.16 22.5 53.1 40.5 22.5 12.6 0.0 2.68 0.000 34.800 1.057 4 77 105,56.10 11.65 18.0 25.9 22.8 53.3 3.1 0.0 2.70 0.000 34.800 0.234 4 78 10557.00 0.04 9.4 20.3 18.9 73.4 1.4 0.0 2.89 0.000 34.800 0.082 4 79 10558.25 0.13 11.0 -14.0 -16.5 65.9 2.5 0.0 2.72 0.000 34.800 0.234 4 80 10559.05 0.05 10.4 21.0 18.7 73.1 2.3 0.0 2.70 0.000 34.800 0.166 4 81 10560.05 0.17 9.1 20.0 18.0 75.2 2.1 0.0 2.69 0.000 34.8(X) 0.11 1 4 62 105~1.00 0.47 14.2 22.5 20.7 63.3 1.8 0.0 2.70 0.000 34.800 0.132 5 I 10561.25 0.06 9.5 28.9 19.8 74.4 6.8 2.3 2.77 0.041 34.2130 0.337 TRACER ~ HEXAD. PPM FILE: BP-3-1486 13-JAN-93 ANALYSTS:PB,DS, FE,TR,DS DESCRIPTION SS-wcmt,qtz,wh cht. occ glau,frac SS-wcmt, qtz,wh cht. occ g[au,brcken SS-wcmt.qtz.wh cht. occ glau.frac SS-wcmt,qtz,wh chtocc gbau,frac SS-wcmt.qtz.wh chtocc glau,brok en SS-wcrnt,qtz,wh cht. occ glau SS-wcmt,qtz,wh chtocc glau,filled jt SS-wcmt,qtz.wh chtocc glau.f~ac SS-wcrrrt,qtz,wh cht. occ glau SS-wcmt,qtz,wh chtocc glau SS-vwcmt.qtz.wh cht,sid,occ glau,brck en SS-wcrnt,qtz.wh chtocc glau,frac SS-wcmt.qtz,wh chtocc glau,frac SS-wcrnt,qtz,wh chtocc glau,lrac SS-wcmt,qtz,wh cht. occ glau,brcken SS-wcmt.qtz,wh chtocc glau,frac SS-wcmt,qtz.wh chtocc glau.frac SS-vwcmt,qtz,wh cht,occ glau SS-wcrnt,qtz,glau,brn cly,wh chl SS-wcmt.qtz,g~au,brn cly.wh cht SS-wcmt.qtz.glau,brn cly,wh cht SS-wcmt.qtz,glau.brn cly SS-wcmt,qtz,glau,br n cly SS- vwcmt,qtz, glau,br n cly SS- vwcmt,qtz,glau *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINTS- REFER TO TEXT FOR DETAILS ARCO ALASKA, INC. P2-30 Pt. MdNTYRE UNIT NORTH SLOPE, ALASKA CORE LABORATORIES FILE: BP-3-1486 13-JAN-93 ANALYSTS:PB,DS, FE,TR,DS CORE SMPL DEPTH K,NR~(HEUUM) · · ,.,,:,. ,,,,,:., .,:,v ,,,,:.v ,,,,.., .,.v 5 2 10582.0~ 0,15 11.0 14.1 12,0 75.2 2,2 0.0 2.67 0.000 34.200 0,121 5 3 10~.05 0.12 10.5 19.2 14.5 74.7 4.7 0.0 2.70 0.000 34.200 0.240 5 4 1 0584.25 0.08 10.2 27.1 2S.O 89.1 2.1 0.0 2.70 0.000 34.200 0.097 5 5 1(~.0~ 0.08 9.2 20.3 20.3 77.7 0,0 0.0 2.69 0.000 34.200 ND 5 6 10588,05 0.13 10.6 21.1 19.1 74.6 2.0 0.0 2.71 0.000 34.200 0.116 5 7 10~.9~ 0.12 10.5 22,6 20.6 75.3 2.0 0.0 2.70 0.000 34.200 0.110 5 8 10¢::~8.05 0.15 10.2 20.8 17.8 74.9 3.0 0.0 2.68 0.000 34.200 0.169 5 9 10~.05 0.08 9.4 13.8 12.0 80.5 1.8 0.0 2.70 0.000 34.200 0.087 5 10 10570.00 0.21 10.7 20.6 18.5 70.8 2.0 0.0 2.69 0,000 34.200 0.107 5 11 1 0571.05 0.25 12.1 20.8 18.9 70.4 1.9 0.0 2.70 0.000 34.200 0.097 5 12 10572.05 0.33 12.0 19.2 17.1 70.7 2.0 0.0 2.70 0.000 34.200 0.108 5 13 1 0573.10 0.07 9.6 15.2 9.3 80.9 5.9 0.0 2.70 0.000 34.200 0.254 5 14 10574.05 0.04 8.8 21.5 19.5 73.8 2.1 0.0 2.70 0.000 34.200 0.175 5 15 10575.05 0.02 7.2 19.2 19.2 75.7 0.0 0.0 2.75 0.000 34.200 ND 5 16 10576.25 0.03 7.2 20.5 20.5 75.5 0.0 0.0 2.71 0.000 34.200 ND DESCRIPTION SS-vwcmt,qtz,gbu,brn cly SS- vwcmt,qtz,glau, br n cly SS- vwcmt,qtz,glau,br n cly SS- vwcrnt,qtz, glau,br n cly,pyr SS- vwcmt,crlz, glau, br n c~y,pyr SS- vwcrnt,qtz,glau,br n c¥,pyr SS- vwcmt,qlz,glau,br n cly SS- vwcmt,qtz,glau,br n cly SS- vwcmt,qtz, glau, br n cly SS- vwcrnt,qtz, glau,br n cly SS- vwcmt,qtz, glau,br n cly SS- vwcrnt,qtz, glau, br n cly SS- vwcrnt,qtz, glau,br n cly SS- vwcrnt,qtz, gbu,br n cly SS-vwcrnt,qtz,gbu,brn cly *-DENOTES SAMPLE WAS REMOVED BEFORE CLEANING WAS COMPLETED BECAUSE OF TIME CONSTRAINS- REFER TO TEXT FOR DETAILS CORE SMPL # # 2 9 2 14 2 17 2 19 2 22 2 24 2 25 2 27 2 28 2 29 2 31 2 32 2 33 2 34 2 35 2 36 2 37 2 38 2 39 2 43 2 44 CORE LABORATORIES ARCO ALASKA, INC. P2-30 Pt. MdNTYRE UNIT NORTH SLOPE, ALASKA LEAD SLEEVED OVERBURDEN DATA DEAN STARK ANALYSIS I I I I' I co, d I TR C , I I FT % Pv % Pv % Pv % Pv % Pv GM/CC PPM PPM[__.~__~.~ 10310.95 2560 603.24 28.3 57.5 53.8 19.7 0.0 3.8 2.68 0.196 34.700 ND 1 0316.85 2560 798.85 10318,85 2560 1081.18 10322,15 2560 421.90 10,324.90 2560 276,28 10326.25 2560 1.78 10326.85 2560 283.57 10327.90 2560 594.85 10329.10 2560 503.79 10329.85 2560 0.03 10332.10 2560 27.42 10,333. O0 2560 127.52 10334.15 2560 132.28 10,335.05 2560 129.31 10336.00 2560 83.93 10336.90 2560 0.00 10337.90 2560 270.09 10339.00 2560 13.58 10,339.95 2560 0.01 10341.03 2560 169.12 10342.0O 256O 0.02 29.3 42.5 41.9 29.4 0.0 0.6 2.74 0.046 34.700 ND 31.8 42.2 36.8 28.4 0.0 5.3 2.74 0.310 34.700 ND 26.9 46.1 36.9 29.3 0.0 9.2 2.73 0.499 34.700 ND 28.2 49.9 47.9 33.1 0.0 1.9 2.81 0.103 34.700 ND 23.1 46.1 32.3 35.5 0.5 13.4 3.02 1.284 34.700 0.122 25.6 44.2 42.7 33.8 0.0 1.5 2.73 0.071 34.700 ND 26.5 50.0 44.2 31.4 0.0 5.8 2.77 0.295 34.700 ND 26.8 42.9 40.6 30.7 0.0 2.4 2.74 0.094 34.700 ND 7,9 48.0 48,0 22.6 0.0 0.0 3.23 0.000 34.700 ND 25.3 37.3 31.3 51.5 0.0 6.0 2.75 0.233 34,700 ND 27.9 54.0 52.4 32.5 0.0 1.6 2.76 0.070 34.700 ND 28.9 46.0 46.0 40,5 0.0 0.0 2.71 0.000 34.700 ND 26.3 31.3 27.3 52.3 0.0 4.0 2.87 0.170 34.700 ND 22.7 38.5 33.0 46.3 0.0 5.5 3.13 0.202 34.700 ND 7.8 27.8 27.8 49.1 0.0 0.0 3.35 0.000 34.700 ND 28.4 42.6 40.2 42.4 0.0 2.4 2.79 0.143 34.700 ND 23.9 23.2 22.2 59.2 0.0 1.0 2.81 0.059 34,700 ND 9.7 23,1 23.1 48.9 0.0 0.0 3.36 0.000 34.700 ND 23.3 42.2 38.3 37.0 0.0 3.8 2.70 0.143 34.700 ND 10.4 39.4 39.4 32.7 0,0 0.0 3.08 0.000 34.700 ND FILE: BP-3-1486 13-JAN-93 ANALYSTS:PB,DS, FE,TR,DS DESCRIPTION SS-mod cmt,qtz,wh cht,glau,frac SS- pcmL qtz, glau, brck en SS- pcmL qtz,gtau,brck en SS- pcmt, qtz,gtau, br ok en SS- p- wcmt,qtz,glau,brck en SS-wcmt,qtz,glau,wk brn ch/lam SS- p - wcrnt, qtz,glau, br ck en SS- p-wcrnt,qtz,glau,brok en SS- p - wcrnt, qtz,gla u, br ok en SS- vwcmt,qtz,sid, gla u,br ok en SS-vwcmt,qtz,glau,occ brn cly SS-mod cmt,qtz,glau,occ brn cly,broken SS-pcmt, qtz,glau,occ brn cly, broken SS-mod cmt,qtz,glau,wh cly,frac SS-p to vwcmt,q~z,glau,wh crrrt,broken SS-vwcmt,qtz,glau,sid SS-mod cmt,qtz,glau,wh cbt, broken SS-wcmt,qtz,glau,brn cly SS- vwcmt,qtz, glau,sid SS-wcmt,qtz,glau,brn cly,brok en SS- vwcmt,qtz,glau ,sid SECTION 3 CONVENTIONAL CORE ANALYSIS STATISTICAL AND CORE GAMMA DATA Company Well : ARCO ALASKA, INC. : P2-30 CORE LABORATORIES Field : POINT McINTYRE Formation : KUPARUK FORMATION File No.: AR1486 Date : 13-JAN-93 TABLE I SUMMARY OF CORE DATA ZONE AND CUTOFF DATA ZONE: Identification NOT SPECIFIED Top Depth 10240.0 ft Bottom Depth ............. 10577.0 ft Number of Samples 327 DATA TYPE: Porosity {HELIUM) Permeability ....... {HORIZONTAL) Kair CUTOFFS: Porosity (Minimum) 0.0 % Porosity (Maximum) ....... 100.0 % Permeability {Minimum) --- 0.0000 md Permeability (Maximum) --- 100000. md Water Saturation (Maximum) 100.0 % Oil Saturation (Minimum) - 0.0 % Grain Density (Minimum) -- 2.00 gm/cc Grain Density (Maximum) -- 4.00 gm/cc Lithology Excluded ....... NONE CHARACTERISTICS REMAINING AFTER CUTOFFS ZONE: Number of Samples ..... Thickness Represented - POROSITY: Storage Capacity Arithmetic Average .... Minimum Maximum Median Standard Deviation .... GRAIN DENSITY: Arithmetic Average .... Minimum ............... Maximum ............... Median ................ Standard Deviation .... 315 315.0 ft 6813.6 ~-ft 21.6 % 1.7% 31.8 % 22.7 % ±5.5 % 2.74 gm/cc 2.66 gm/cc 3.36 gm/cc 2.70 gm/cc ±0.12 gm/cc PERMEABILITY: Flow Capacity ......... Arithmetic Average .... Geometric Average ..... Harmonic Average ...... Minimum ............... Maximum ............... Median ................ Standard Dev. (Geom) -- 102417.6 md-ft 340. md 88.4 md 0.44 md 0.01 md 3187. md 202. md K'IO±1'145 md HETEROGENEITY (Permeability): Dykstra-Parsons Var. -- Lorenz Coefficient .... 0.776 0.521 AVERAGE SATURATIONS (Pore Volume)' Oil ................... Water ................. 55.5 % 27.0 % Stat 1 - 1 SECTION 4 APPENDIX POINT MC~E SERVICE COMPANY LABORATORY CONTRACTOR ON-SITE AND LABORATORY CORE ANALYSIS REQUIREMENTS August 3,1992 TABLE OF CONTENTS CORING OBJECTIVES ................................................................................................................... 1 GENERAL GUIDELINES ............................................................................................................... 1 WELL SITE CORE HANDLING AND SAMPLING ......................................................................... 2 Recommended Tools and Materials .....................................................................................2 Material and Site Preparation .......................................................................................... 3 Samples of Coring Mud for Tracer Analysis ......................................................................... 4 Inner Barrel Laydown, Cutting, Capping and Transportation ............................................... 4 Core Lay-Out in Trailer 1 ................................................................................................... 4 Quality Control Wells ....................................................................................................... 4 Core Handling Procedures ................................................................................................... 6 Core Preservation ............................................................................................................... 7 Core and Mud Sample Transportation to Anchorage ............................................................. 8 ROUTINE CORE ANALYSIS ......................................................................................................... 8 General Core Handling ....................................................................................................... 8 Mud Filtrate Samples ........................................................................................................ 9 Surface Core Gamma Log .................................................................................................... 10 Cutting and Trimming Core Plugs ........................................................................................ 10 Routine Horizontal Core Plugs ............................................................................................ 11 Quality Control Well ............................................................................................. 11 All Other Cores ..................................................................................................... 12 Dean Stark Analysis .......................................................................................................... 12 Timing ............................................................................................................................... 13 Porosity ............................................................................................................................. 14 Grain Volume ......................................................................................................... 14 Bulk Volume .......................................................................................................... 14 Correction for Grain Loss .......................................................................................... 14 Permeability to Air ............................................................................................................ 15 Tracer Analysis .................................................................................................................. 15 Core Slabbing ...................................., ................................................................................. 15 Future Uses of the Preserved Core ....................................................................................... 16 Appendixes .................................................................................................................................... 19 Tracer Analysis In Drilling Fluids, Core Extracts ................................................................. 20 Scope ............................................ ~ ........................................................................ 20 I ns tm men ta tion--Ha rd wa re .................................................................................. 20 Reagents ................................................................................................................ 20 GC---Conditions ..................................................................................................... 21 Analytical Procedure ............................................................................................. 21 Calculation of Filtrate Saturation and Plugging Fluid Saturation ........................................ 23 Flow Charts ............................................................................................................. : ......... 26 , . 7~ August 3,1992 CORING OB_]-E CTIVES The coring involves mineral oil base cores in 4-13 wells. These cores will provide in-situ water saturation, rock properties and lithology for the use of the Point Mclntyre Working Interest Owners. GENERAL GUIDELINES , This procedure is for well site sampling and laboratory core analysis. Core Laboratories must be able to mark, lay-out, cut core barrels and preserve on-site. They must be able to plug on-site. Laboratory sampling and routine core analysis will be conducted in Anchorage. Tracer will be conducted elsewhere. Early cored wells might require plugging on-site while other wells may not require plugging on- site. Earlier wells are more likely to have extensive well site sampling. All wells will involve the following: A. Core preservation (Saran wrap and aluminum foil on-site). B. Core Diameter - 4-inches C. Inner Barrels - Aluminum, 30-foot, 60-foot D. Low invasion core bits and coring procedures E. Expedited core processing Timing will be between March 1, 1992 to March 1, 1993. Estimated well site timing and estimated volume could vary significantly depending on rig schedules and data requirement needs. The first well may begin coring April 21, 1992. Other wells will follow in one-month intervals until a second rig becomes available later in 1992. Two well coring operations might occur at the same time dependant on rig schedule. WELL ESTIMATED AMOUNT OF CORING A-1 605 MD bT B- 1 250 MD bT C-1 160 MD bT D-I 310 MD FT E-I 150 MD FT A-2 150 MD FT B-2 220 MD bT C-2 160 MD FI' D-2 50 MD FT E-2 130 MD bT F-2 211 MD let G-2 322 MD bT H-2 400 MD FT (Actual 261 ft., cored May, 1992) Core Laboratories should have more materials/supplies on-site than might be initially estimated from estimated footage of coring due to the preservation of many small pieces. Well site personnel requirements per job will vary from 8-24. Personnel number requirements will vary depending on whether plugging is conducted on-site. Core Labs will provide 2-16 people per well depending on well site activities. Laboratory staffing and equipment must be adequate to meet core analysis timing requirements. August 3,1992 . 10. Materials that Core Labs must be able to supply on coring jobs are listed below. Quantifies will vary depending on amount of projected coring for each individual well. The procedures outlined in this contract proposal may vary significantly from well to well. ARCO will provide details of revisions prior to conducting th~ work. Iodonapthalene drilling mud tracer will be used in all wells to quantify filtrate invasion. WELL SITE CORE HANDLING AND SAMPL~C Recommended Tools and Materials Quantifies will vary depending on amount of projected individual well cored interval. (* = supplies needed only for on-site plugging) ' Aluminum foil ~' Bailing wire Bottles for routine plugs (500) must hold 1 1/2" x I 1/2" routine plug or 1 endpiece approximately 1 1/2" x 1 1/4" after Saran wrap and foil* "Bottle sealing tape* Bubble wrap Cold weather clothing Containers for mineral oil, 10 gallon, 300 psi pressure limit (4)* Copper tubing, fittings, and valves for mineral oil (for 2 drills)* Core boxes (quantity varies from well to well) Core drills for routine plugs, with 1.5" diameter core bits (2)* Core Seal, 1 lb/foot of core Coveralls for personnel Cut-off saw motor (spare, depending on preapproved rental charges) Cut-off saw spare blades (2, depending on preapproved rental charges) Cut-off saw with vacuum for dust collection (depending on preapproved rental charges) Drill press motor (spare)* Dust masks for personnel ¥/Ear plugs -, Face shield for use during rock saw work Glass strapping tape / Gloves, cloth · ,/Gloves, rubber "Hard hats/safety glasses ." Heat Sealer for Protec Core ~ Hexadecane for cutting plugs, 70 gal* Ice chests and blue ice to ship samples to Anchorage (8 large)* t Labels, white stick-on, for core depth (400)* '~ Large chisel "' Lumber crayons, white and yellow (2 dozen each) Markers, waterproof, black and red (2 dozen each) ':~. Metal bucket ,~ Nitrogen regulators(2)* "Note pads and pens/pencils ' Nutdriver )/Plastic bottle for cleaning ruler y~lP~lastic sample bags, large (1000), small (1000) liers August 3, 1992 ' Pump and base for core drill* Refrigerator for sample storage at well site* "Rock hammer Sa£e .ty boots and glasses for personnel x Sample bags for state chips Saran wrap Screw driver (rechargeable) Screw drivers and nut drivers , Stapler ,, Strapping tape 'Tape gun (3) Tape measure (100 ft) Thermometer for Core Seal, metal dial type ,. Trim saw for routine plugs, I 1/2" long* x Trim saw motor (spare)* Trim saw spare blades (2)* ? Visquene Wire Wire cutters (2) Wood block spacers (300) Wood rulers (3) Zip Lock bags, large (50)/small (50) Flow Chart of Wellsite Operations A flow chart of wellsite operations is attached. Material and Site Preparation Upon arrival at the well site, the required preservation materials will be set up in the core trailer by Core Lab personnel. The melting pot will be filled with Core Seal and turned on. The pot temperature will be adjusted according to the length of time before the core is recovered, place on low (180 °F) if more than 48 hours is anticipated. It is recommended that the melting pot be checked at regular intervals when turned on and never exceed the recommended dipping temperature for Core Seal (320 o _ 330 °F). The dip pot temperature must be monitored and recorded for each core preserved. All personnel will be H2S certified and will need to familiarize themselves with the areas on the well site that they will be working in while retrieving the core such as the rig floor, pipe shed, and core trailer location. Contractor will provide safety equipment for their own personnel. This includes, but will not be limited to, steel toed boots, safety glasses, hard hats, dust masks, etc. Also, all personnel should be aware of their areas of responsibility in the preservation operation. Two coring trailers will be required for wells with on-site plugging. ARCO will provide trailers. Trailer I will be used for core layout, depth marking, sampling and preservation of whole core. Trailer 2 will be used for core plugging and represervation of plu~ and enciniooo ~ .... : .... August 3, 1992 Samples of Coring Mud for Tracer Analysis At the start and end of each core, the mud man will collect a mud sample from the suction pit. This sample will be ] gallon, collected in a metal DOT approved container with screw cap and fiber lid seal. The label on the can will include well name, core number, core depth and date. This mud sample will be shipped with the core when it is sent to Anchorage. Inner Barrel Laydown, Cutting, Capping and Transportation The aluminum inner barrel will be laid down in 30-foot lengths on the skate and transported to the catwalk. Use a sling and hoist to carry the inner barrel to the inner barrel cutting cradle and cut it up. Wipe down the outer surface of the inner barrel to remove mud. Locate the top of the core and mark inner barrel. Double stripe red and black, red on fight looking up-hole. Mark depths each foot on outer barrel starting from core top. Using pipe cutters, cut the inner barrel into 3-foot lengths. Place rubber caps on each end of core. Secure caps with hose clamps tightened by an air driven nut driver. Load inner barrel sections on fork lift and transport to core trailer for layout. Core Lay-Out in Trailer 1 The core should be laid out on the counter in 5- or 10-foot lengths by a Service Company Lab representative. Core barrel is layed on bench with red marking nearest the core trailer wall. Dump core out of inner barrel sections onto lay-out bench. Uphole is always to the left. Core pieces are wiped with dry rags to remove mud, fitted together, oriented with the apparent up dip at the top, depth marked and double striped for orientation. Depths shall be marked below the corresponding foot line and orientation lines marked with white on the right and yellow on the left using waterproof markers. It is recommended that lumber crayons be used for marking core surface and Marks-A-Lot markers (red and black, red on right) for foil wrapped core. . . While. the.core, is laid out, routine analysis samples (3" marker and 'extending' three inches below the marker. X 4") are marked every foot starting at the foot If this location is not suitable for plugging, the sample top may be moved down by 2.4 inches below the foot marker or the sample top may be moved 2.4 inches above the foot marker. These samples are identified with the initials SCF (Service Company, Field Sample) and must be dry sawed to separate them from the core. At 90° clockwise from the white and yellow double stripe while looking up hole, mark the plug location with a circle as close to the foot marker as possible. The SCF whole core samples are preserved separately from the remaining core for ready identification once they reach Anchorage. Slabbing on-site will be done only when plugs are taken on-site. While core is marked, core inventory and descriptions can be performed providing the exposure of the core is kept to a minimum. State chips will be taken in Anchorage. Quality Control Wells Overview of Approa~_h Well site core sampling is planned for quality control purposes. This type of sampling might be more intense in the early wells and may decrease in later wells if it is shown that sampling in Anchorage provides similar water saturation and tracer distribution to that obtainable in the field. It is also possible that all wells may be sampled at the wellsite. This decision will be made after two wells are cored. August 3, 1992 Below are the procedures which are planned for the quality control wells. These procedures will apply for the first two wells: ]. Conduct coring in the usual manner in order to achieve low invasion. Core bits appropriate to the rock type will be selected for coring. Mud tracer, iodonapthelene, will be used to indicate the level of invasion by the mud filtrate. 2. The core handling for these cores will be the similar to all other cores as specified under Core Handling Procedures detailed below. 3. When the core is laid out and marked at the well site, dry saw a 3-inch full diameter section of core every foot for routine analysis. Mark it with the initials SCF. 4. Immediately preserve all core, including the dry sawed sections, in Saran wrap and aluminum foil as described later in more detail. Mark the location of the SCL (Service Company, Laboratory Samples) section (2-inch full diameter; once every third foot) on the foil for ready identification in Anchorage. This two-inch section will be cut in Anchorage. Proceed with normal core preservation for all samples except the dry sawed 3-inch sections. 5. Routine horizontal core plugs will be cut at the well site from the SCF samples in each foot. These core plugs will be 1.5-inch diameter cut parallel to bedding planes completely through the core after a l-inch slab has been removed from the face where the plugging bit enters. This will prevent driving tracer into the core center if the core plugging fluid invades the core. The routine plug will be trimmed and preserved as discussed below. Double stripe the 1-inch slab for orientation. The remnant core/slab will then be represerved in Saran wrap and foil. Additional routine core sampling later in Anchorage can provide quality control on core preservation and tracer diffusion. 6. Once in Anchorage, identify SCL sections as marked at the well site every third foot. Routine core plugs are cut from these sections immediately after the core arrives. Cut the two-inch section. These core plugs will be 1.5-inch diameter and cut parallel to bedding planes:' completely through the core after a l-inch slab has been removed from the .face where the plugging bit enters. Double stripe the l-inch slab for orientation. The remnant core/slab will then be wrapped together in Saran wrap. The routine plug will be trimmed and preserved as discussed below. This sample will be analyzed for water saturation and tracer content for comparison to the well site samples. August 3, 1992 Core Handling Procedures Core lay-out will proceed as described under Core Lav-out in Trailer 1 procedures. SCF samples are identified and the core is marked. SCF samples will be'taken every foot. Whole core sections for SCF samples are dry cut on the rock saw to separate them from the core. The sawing operation requires a dust mask. A 1-inch slab is then cut at 90° clockwise looking up hole to the double mark. The double stripe is always on the most updip side of the core. This slabbed face will be the side where plugging starts. The circle indicating the plug location should always be on the one- inch slab. ROUTINE CORE SAMPLE 11 SLABBED FAC 1.5" X 1.5" PLUG Please note: If plugs are not cut at the well site, then the SC samples will not be slabbed at the well site. This face is immediately covered with Saran wrap and the 1-inch slab is placed on top so the Saran separates slab and butt portions. The 1-inch slab should be double striped for orientation. This section is then replaced in the core at the appropriate depth. The samples removed are replaced with wood block spacers containing the appropriate depth and sample marking. These samples are then wrapped in their normal depth sequence in heavy duty impermeable Saran (6 layers) and heavy duty aluminum foil (3 layers). SCF samples from every foot are taken to Trailer 2 for on-site plugging. Place a wooden block to hold the sample space until it returns from Trailer 2. Depth orientation lines are to appear on both the core itself and foil wrapping. A routine core plug will be cut at the well Site from each foot of core; therefore, two core plugging devices are needed. A 1.5-inch horizontal core plug will be cut parallel to bedding completely through the whole core section at its center starting at the saw-cut face from which the slab was taken. Care should be taken to ensure the core drill is perpendicular to the slab face. Use hexadecane driven by nitrogen from a 10-gallon, 300 psi container. The SCF or SCL plug will always be cut as close to the foot marker as possible. If the sample is below the foot marker, plug at the top of the sample. If the plug is above the foot marker, plug at the bottom of the sample. Dab core plug, if necesary, with an Oilsorbent tissue to remove excess oil immediately after plugging. Use a fresh tissue for each plug to avoid tra¢_er_ August 3,1992 contamination. Trim one end of the core plug with a dry saw so the final plug is 1.5 inches long. If the plugging bit was not perpendicular to the slab face, first trim the slab side of the plug 1/8 inch (the width of the saw blade) and then trim off the endpiece so that the resulting plug is 1.5 inches long. The diagram below shows the trimmed plug. SC SAMPLE 1.25" END PIECE IROUTINE CORE PLUG The plug is passed on for preservation immediately in Saran wrap (6 layers), aluminum foil (3 layers), weighed and sealed in a labeled glass bottle with a teflon-lined plastic lid and sealing tape. Bottle label should specify well, core number, depth, and preserved plug weight. These plugs will be kept cold in a refrigerator or on ice until analyzed in Anchorage. These plugs will be used. for'routine saturation measurement. . The plug endpiece will be preserved immediately and separately from the plug as. it is generated. The ' endpiece must be marked with depth on the rock, identified as an endpiece (SCFEP) and wrapped with Saran wrap (6 layers) and aluminum foil (3 layers) and weighed (+ 0.01 g). The endpiece from each plug is then placed in a glass bottle, sealed and taped. The endpieces will be kept cold in a refrigerator or on ice until analyzed for tracer content as specified in Table 2 in Anchorage. Bottle label should specify well, core number, SCFEP depth, tare and total weight. The routine core sample 3/4 remnant could be used to obtain a vertical core plug later on. This sample and the slab will be Saran and aluminum foil wrapped as one piece, depth marked and identified SCT in Trailer 2. The l-inch slab should be double striped for orientation. The samPle and the slab are then returned to Trailer I for Core Seal coating and placed in depth sequence with the rest.of the core. Remove the wooden block when the sample is replaced in depth sequence. If geological samples are needed and the plug endpiece is still preserved, the slab may be used to obtain geological samples for thin sections, etc. The plug itself will not be used for geological sampling since it must be saved for. possible future remeasurement of permeability or porosity as a part of quality control procedures. Core Preservation The core is placed with the top to the left on the bench in Trailer 1. This will help insure that the proper core orientation is maintained. When moved across to the other bench for wrapping this orientation is maintained. The wrapping stations must be covered with Oilsorbent tissue to provide a soft surface which will not damage Saran and foil. Wrapping should begin as soon as possible following SC sample identification and separatiOn. The core August 3,1992 . o is then wrapped with Saran wrap (6 lavers), then wrapped with aluminum foil (3 layers) and marked. Wrapped core will be marked with depth using a black Marks-A-Lot and with red and black (red on right) orientation lines. Glass strapping tape is placed on the foil under the wire to prevent puncture of the foil. Wire is wrapped tightly around the center of the core to facilitate the dipping of the samples in Core Seal. The core should be completely submerged in the dip tank for 1-2 seconds and then hung on the cooling rack. After the Core Seal has cooled (3-5 minutes), the sample should be redipped to insure a proper seal and to help protect the core from damage during shipment. After the second dip, the wire is cut at a point just above the preserved piece and a small amount of Core Seal should be placed over the exposed wire to eliminate a wicking effect. As the core is preserved, the core is then placed in oil absorbent tissue or bubble wrap lined core boxes. Then, the core is checked for proper preservation and markings. Occasionally the Core Seal will be too thick to read the markings. Therefore, if possible, a waterproof marker should be used to mark the appropriate designations on the outside of the sample. The core is placed in the core boxes and the boxes are labeled on the outside with well name, equity well name core number and box number. Then, the boxes are sealed. A well site inventory shall be completed for each core and the boxes are placed in shipping crates. Core and Mud Sample Transportation to Anchorage Tracer analysis data will be most valid immediately after coring as an indicator of invasion and degrades with time due to diffusion. The transportation of the cores and associated mud samples will be expedited. Immediately upon completing the boxing of the preserved core, the core, mud samples, routine core plugs and endpieces will be transported by airplane to Anchorage. Ice chests and blue ice will be used to transport routine core plugs and endpieces to Anchorage. Place the jars in holes cut in styrofoam to prevent breakage in the ice chests. The service company personnel will meet the flight and pick up the core. Core processing will begin immediately upon arrival at the laboratory. ROUTINE CORE ANALYSIS There will be a designated representative of the Operating Company who will act as the point of contact for all matters relating to routine core analysis. All communications with the Service Company will be through that point of contact. The point of contact will also be notified if other Working Interest Owners wish to observe ongoing analysis operations. The operating company will provide a list of personnel who have access to 'the slabbed core. General Core Handling . Core sampling will be conducted with minimum elapsed time since the core was cut and preserved. Tracer diffusion stops once routine plugs are isolated from the more invaded outer part of the core. Sample the core immediately upon arrival at the service laboratory regardless of the time of day. The service company personnel will be notified when the core leaves Prudhoe Bay and will pick-up the core shipment at the airport once the freight company releases it. The service company can expect to receive up to two 60-foot cores in a single 24-hour period. In straighter holes and good sandstone pay, it may be possible to cut as many as three cores a day. The primary objective is to obtain true connate water saturations with consistent analytical techniques. Laboratory procedures and core handling should always be done consistently. Exposure to air should be minimized to avoid evaporation of fluids and wettability changes. August 3~ 1992 . A tracer will be used to identify those routine core plugs that have significant mud filtrate invasion. The tracer chemical is iodonaphtha]ene which is analyzed chromatographically with an electron capture detector. It will be found in the flask witl~ the toluene and extracted crude after Dean Stark analysis. LVT-200, the base oil of the mud, can be used as a back-up tracer. Care should be taken to ensure that there is no inadvertent contamination with other chlorinated hydrocarbons, such as chloroform, which will be used in core cleaning. The analysis procedure used to detect the tracer is extremely sensitive with detection limits of 50 ppb. Large concentrations of chloroform may obscure the tracer which is expected to be present in the Dean Stark toluene at less than 1 ppm. Chlorinated solvents must never be used to clean glassware or core drill equipment. Glassware used for chloroform-methanol cleaning must never be used for the Dean Stark. Each new container of toluene must be sampled and analyzed prior to its use. . . o . . The quality control cores are needed to ensure water saturation and tracer distribution are the same in the laboratory as they were at the well site. Well site routine core plugs will be taken once per foot in at least the first two wells. In these wells, a routine horizontal plug and an endpiece will also be cut once every three feet later in the Anchorage lab. These contiguous samples will be analyzed for tracer concentration, porosity and water saturation. Some endpieces will also be analyzed for water saturation and tracer to provide inside and outside sample data. Tables 1 and 2 identify sample types, sample and data frequency. All plug drilling will be done with hexadecane. The containers of hexadecane must be sampled at the time they are opened for use. These samples will be sent to the outside laboratory with the toluene before use to analyze for materials which may give a response on the electron capture detector. A record will be kept by Core Laboratories concerning the well core and plug numbers cut with a given container of hexadecane. Sawing will be done with a dry saw for small samples such as plugs or when cutting out full diameter core sections. Slabbing can be conducted with cooled nitrogen gas to cool the saw blade. Slabbing will only be done after sampling for saturation measurement is finished so the small amount of contamination from condensed moisture which may occur here should not be a problem for any additional tests. All core will be 114 slabbed at a later time. The core will be kept in a preserved state until it is slabbed. Any samples which are depreserved for the purpose of sampling and analysis will be represerved as quickly as possible to prevent loss of fluids from the remnant. After slabbing, the 3/4 butt end will be immediately represerved with minimum exposure. The 1/4 slab will become a library sample and should be double striped and placed in a slab box. Chips will be taken for the State of Alaska at the time of core plugging, if not already taken at the well site. 10. Calibrations will be performed on all balances using standard weights at least once before every core. Weights used should approximate sample weights. l;'l~,~ I~k ..,,4 ~: v --L_ · August 3,1992 essential to the calculation of filtrate concentration in the cores. Therefore, it must be collected and sent with the toluene samples from a given core in order to obtain the filtrate concentration. M.I. Drilling Fluids is providing a high pressure, high temperature filter press to filter these mud samples. Core Laboratories will filter the samples. The filter press should be cleaned with naphtha and dried at 300 °F between samples. Conduct the filtration at 500 psi and 150 °F until 2 cc of filtrate are collected. This will take about 1 hour. Collect filtrate in a 5-10 cc glass container; seal and tape when finished. Identify core number, core depth, well name, and date on the label. Surface Core Gamma Log The core is laid out on tables in depth order. The core remains preserved while it is gamma logged. The core gamma unit is calibrated with a 200 APl gamma ray emitter before every core. The core is placed on a conveyor belt (beginning with the bottom of the core) which moves the core at a constant speed under the gamma detector. The pieces are butted tight to one another, with no breaks in measurements, until the core is completely logged. Now the recorded gamma ray response is digitized and plotted. Cutting and Trimming Core Plugs Core plugs will be cut with hexadecane. New containers of the oils should be analyzed chromatographically before use so that inadvertent interference with tracer analysis does not occur. If LVT-200 is needed as a tracer, the hexadecane will not interfere with its analysis. To ensure there is no contamination with tracer from previous plugging operations, the oil will be driven with regulated nitrogen from a 10-gallon container. The hexadecane will be used only once. Cut the 1.5-inch diameter horizontal routine plugs parallel to bedding plane. Look for yellow and white double stripe on top of the core, rotate core 90° clockwise while looking up hole and dry saw a 1- inch slab from the whole core. Double stripe the 1-inch slab. The plug will be cut from the butt portion starting at this saw-cut face. The diagram below illustrates the slab and plug locations. ROUTINE CORE SAMPLE SLABBED FACJ 10 August 3,1992 Note: This diagram will apply to any plug cut in Anchorage or at the well site. However, the SCL samples are two inches in length instead of three inches. If core plugs are not cut at the well site, the three inch section, cut with a dry saw at the well site, will be used in the laboratory for plugging. A circle will indicate the direction for the cutting the core plug. The plug will always be cut as close as possible to the foot marker as possible. If plugs are not cut at the well site, then slabbing before plugging will be done in Anchorage. The plug should be cut completely through the center of the core and as close to the depth mark as possible. Take care to be sure the plugging bit is perpendicular to the slab face, otherwise the plug may need to be trimmed. Dab core plug, if necesary, with an Oilsorbent tissue to remove excess oil immediately after plugging. _Id,se fresh tissue for each plug to avoid tracer contamination from other plugs. Trim one end of the core plug with a dry saw so that the final plug is 1.5 inches long. If the plugging bit was not perpendicular to the slab face,, first trim the slab side of the plug 1/8 inch (the'width of' the saw blade) and then trim off the endpiece so that the resulting plug is 1.5 inches long: Identify well and plug number on the core plug and endpiece. Preserve plug and endpiece separately in Saran wrap (6 layers) and aluminum foil (3 layers). Take preserved weight of the plug or end piece. Relabel with plug/EP number on the foil. Place wrapped plug and endpiece in separate bottles, seal and tape. Label the bottles with well name, depth, plug number and total weight. Indicate endpiece with EP following plug number. Store the plug and endpiece at 50 °F in refrigerator. The figure below shows the plug and trimmed end. SC SAMPLE '~--2 7/8" ~ 1.25" 1.5- END JJ ROUTINE PIECE IICORE PLUG Routine Horizontal Core Plugs Ouality Control Well If the core is from a quality control well, a routine horizontal core plug and endpiece 1.5 inches in diameter are cut, one per three feet, in the lab immediately below the field sample location in that foot. The SCL section should have been identified and marked at the well site. Depreserve the appropriate whole core sample and cut the 2-inch whole core section with a dry saw. A 1-inch slab is August 3, 1992 cut 90" clockwise looking up hole to the double mark. The 1-inch slab is double striped for orientation. All routine horizontal plugs and end pieces must be cut as rapidly as possible and plugging should be completed within 24 hours after the core reaches the surface at the well site. Weigh the plug or piece, and preservation materials. Preserve the whole core sample in Saran wrap and aluminum foil before it is moved to core plugging. Place Saran wrap between slab and butt portion; then, wrap them together. The cutting of the Anchorage core plug and endpiece in a quality control well will be exactly as described above except that a 2-inch long core segment is used rather than a 3-inch long whole core segment. The core plug is cut through the center of the 2-inch core segment. No vertical core plugs will ever be needed from these samples. Routine core plugs will also be cut at the well site in quality control wells. These will be transported from Prudhoe Bay in ice chests with blue ice to maintain low temperature and prevent loss of water from the plug. Routine core plugs cut at the well site will be taken immediately to the Dean Stark station for analysis. If a Dean Stark apparatus is not available, the plugs should be maintained at 50 °F' until analysis can be performed.. Both wellsite and Anchorage lab routine core plug endpieces will be analyzed once every 6 feet in quality control wells. Endpiece analysis will alw___/_/_/_/_/_/_~ be done on immediately adjacent samples from the wellsite and the Anchorage lab. The analysis procedure for the endpiece will be the same as for routine core plugs except air permeability will not be determined. ~Ali Other Core~ If the well is not designated quality control, the routine core:plugs Will be cr~t'0nCe evety..foOt.. Whole core samples for routine analysis have been dry-sawed each foot from the core and preserved separately atthe well..If, core plugs are taken at the well site then none Will'be" taken in AnChorage.': ~ Immediately after completing the core gamma, separate SC sections. Depreserve these samples one at a time and cut a 1.5-inch diameter routine horizontal plug as close to the upper end of the sample as possible. The technique for plugging, trimming and preserving this plug and endpiece has been described above. Routine core plugs will be analyzed one per foot. Core plug endpieces will be analyzed one per 6 feet. All routine horizontal plugs and endpieces must be cut as rapidly as possible and plugging should be completed within 24' hours after the core reaches the surface at the well site. Mark depth, orientation, and represerve the 3/4 whole core remnant in Saran wrap (6 layers), aluminum foil (3 layers) and Core Seal (two coats). The 3/4 remnant could possibly be Used for cutting a vertical plug later on. Replace the preserved sample and the slab in depth sequence in the core. When plugs are cut in Anchorage, there will be no need to preserve the l-inch slab taken prior to plugging. This was done in the field to avoid :lost identification and breakage of the slab during shipping. Later, this routine sample slab can be placed in depth sequence with the rest of the slab, when slabbing of the Dean Stark Analysis Weigh the preserved core plug or endpiece after removing form the bottle and record this weight on the data sheet. This weight will be compared to the well site weight or the earlier Anchorage weight. Filtrate saturation in the core plug as indicated by a tracer will be used for quality control of water saturation. Anchorage plugs should be preserved in saran and aluminum foil, and weighed immediately after cutting. The plug should then be refrigerated until Dean-Stark analysis. Prior to loading, plugs should be reweighed to ensure preservation was adequate. 12 August 3,1992 The Dean Stark method is used to determine water saturation. The tracer in the core will be removed in the Dean Stark extraction and will be found in the flask with the toluene, filtrate, hexadecane plugging oil and crude oil. Fresh commercial grade toluene must be used for each plug analyzed. New containers of toluene must be sampled and analvzed before use. The flasks and glassware must be cleaned from the previous use to insure there is no residual water or tracer. Rinse condenser, core chamber and flask five times with 20cc of fresh toluene and discard the rinses. Weigh a clean, drv Dean Stark flask. Measure 100cc (+ 1 cc) of preboiled toluene and add to a preweighed flask. Toluen~ must be preboiled external to the glassware and within two days before use. To keep toluene loss to a minimum, keep the system closed except when adding or removing sample. The same person should always assemble the glassware. The core plug is removed from its preservation materials. The core plug is weighed to an accuracy of _+0.001 g, placed in a predried and prelabeled cloth core bag to trap lost grains and reweighed to the same precision. If core plugs are soft or poorly consolidated in some intervals, then encase them in Teflon tape, aluminum or lead foil and screens prior to the last weight. Obtain individual weights on Teflon, foil, and screens. The plug is then loaded into the Dean Stark apparatus without further delay. Then, seal the apparatus. Perform all tasks for one plug at a time. Toluene is refluxed until no further change in the water volume in the receiver is observed for four hours. Minimum extraction time is twelve hours. Use a wire or a wire with a teflon swab to scrape off water droplets from the neck of the condenser so they fall into the receiver. Do not use soap. Record the volume of the water to within +0.025cc (1.2% PV @ 10% porosity). If water volume is less than 0.5 cc, pull water from receiver with a syringe and weigh it. Remove plug from bag. Place the plug on top of the bag in a pre--dried, pre-labeled and pre-weighed thimble. Remove the flask and its contents from the Dean Stark. Remove toluene in the side arm with a syringe and add it to the flask. Weigh the flask + toluene mixture. Using a funnel that has been rinsed five times in toluene, pour flask contents into a D.O.T. approved shipping bottle. Be sure the cap is tightly closed so it will not loosen in shipping. In addition, seal the bottle with tape. Label bottle with well, core number, core depth and plug number (with SCF or SCL, and EP designation, if endpiece). These samples will then be shipped in one core lots (approximately 60 feet) to ARCO Exploration and Production Technology in Plano, Texas. The address can be found in the appendix. The packaging will be according to DOT regulations. The plug, bag and thimble should then be placed in a second piece of Dean Stark glassware for 87 vol% chloroform-13 vol% methanol azeotrope extraction. The chloroform will interfere with tracer analysis, if it should be present in the toluene extract in high concentration. Glassware used for azeotrope extraction should never be interchanged with glassware used for the Dean Stark. Change azeotrope after the first forty-eight hours; then, change it every twenty-four hours. Continue azeotrope extraction until clean azeotrope shows no crude oil color after eight hours. Streaming fluorescence with methylene chloride will be checked to monitor cleaning progress. Extraction time should be a minimum of two days. ' Dry core plug, bag and thimble in a convection oven at 180 F for 4 hours. Then, dry the core plug, bag and thimble in a vacuum oven for at least 24 hours at 180 °F and then to constant weight, +0.01 grams, after four hours additional drying. Cool the plug, bag and thimble over desiccant. Weigh the plug, bag and thimble within _+0.001 g. Remove plug from thimble. Brush plug to remove fines and weigh again. Timing Glassware requirements should be based on two 60-foot cores per day with a 12-hour Dean Stark cycle and a 48- to 96-hour cleaning cycle. This means we need at least 80 sets of Dean Stark equipment for water measurement. The additional 20 sets will be required for the quality control cores. With these 80 13 August 3, 1992 sets of water determination equipment, 80 plugs could be generated for cleaning per day. Since the probable cycle time for cleaning is 2 to 4 days, we need 320 sets of equipment for chloroform-methanol extraction. The timing for cleaning is hardest to predict, since Iow permeability plugs will undoubtedly · require more time. 400 separate pieces of Dean Stark glassware are required. This will permit ~ completion time for Dean Stark and cleaning of approximately 7 to 9 days for a 4 core well. The tracer analysis lab will finish up in about 9 days, or 1 to 3 days later, allowing 1 day shipping time to receive the first batch of samples. The tracer analysis time might be cut to 5 days with two chromatographs. Porosities should be complete about two d~ys after the last samples are clean. Data processing time for saturations and tracer data is estimated as three days. The four core, well cycle time for water saturation, porosity, and tracer should be 14 days. Air permeability will l~robably lag water saturation, porosity and tracer data by about 5 days. In normal operations (one well drilled, cased and cored), all data on a given well could be complete before coring operations begin on the next well, assuming 20 days to drill and case, 5 days to core, 2 days to log, 1 day to skid the rig. For wells that require more than 4 cores, the time for completion of analyses will then be extended proportionately. For wells with fewer cores, there will be' more flexibility on timing but these should be complete in the same time frame. Table 2 also indicates timing for data turnaround. Additional equipment will be required when two rigs are coring. Core Laboratories will provide an estimate of man power and equipment requirements for two rigs. Porosity Porosity is calculated from the difference in bulk volume and grain volume divided by the bulk volume. The pore volume is the difference between bulk volume and grain volume. That is the value used to calculate saturations. _Grain Volume The helium porosimeter will be used to determine the grain volume.of all samples. Plugs 'from drying are kept over desiccant until ready for grain volume measurement. If the plugs are exposed to laboratory air for more than 30 minutes, they should be redried and reweighed. The helium porosimeter should be recalibrated to _+0.1% twice a day. The porosimeter should be checked with a steel cylinder with a known volume to _+0.1% after every five samples and after a break in instrument usage of greater than one hour. If drift between successive calibrations will cause grain density to vary _-_+0.005 g/cc, calibrate before every plug. _Bulk Volume Bulk volume for all 1.5-inch diameter plugs will be measured using the mercury porosimeter. Bulk volume will be measured within _+0.01 cc (_+0.05% BV). Maximum depth of immersion in mercury will be the minimum required to yield an accurate bulk volume. The plug must be weighed within +0.001 g before and after the mercury immersion to check for mercury intrusion. Any weight gain greater than 0.04 g (0.0030 cc out of 42 cc approximate bulk volume) will be significant intrusion. Bulk volume will be increased to correct for the calculated mercury intrusion. _Correction for Grain Loss Grain loss is being measured and corrections for this will be made. The ratio of weight to pore volume is assumed to be constant for the grains lost. The correction will be made using the following equation: Vpc Ws +sWg! Vp W Wgl =Wd -Wthi-Wbi-Ws 14 August 3, 1992 where \! P Vpc Wbi Wd Wgl Ws Wthi Pore Volume in cubic centimeters Pore Volume corrected for grain loss in cubic centimeters Initial weight of bag in grams Dryweight of sample, bag and thimble in grams Weight of grain loss during analysis in grams Weight of sample used in pore volume calculation in grams Initial weight of thimble in grams This corrected pore volume will be used to calculate both oil and water saturations. Permeability to Air Permeability to air is measured on all routine horizontal core plugs (not measured for endpieces). The fine materials generated while ~sawing should be cleaned from the plug faces before this measurement is made. Use 2% sodium chloride brine and a sonic cleaner. Clean each end of the cOre plug and then dry the plug overnight in a vacuum oven at 180 °F. Samples will be weighed to stability following the same procedures specified after cleaning. Then proceed with measurement of permeability. Permeability is measured with 400 psi net overburden pressure. Complete recalibration of permeameter will be performed every two wells. Check plugs of known permeability will be used to check calibration daily. Permeability should be measured with a stable air flow rate. Routine horizontal core plugs will be used in this measurement only after the completion of bulk volume. Tracer Analysis All on-site routine core plugs and off-site routine core plugs will be analyzed for tracer. Routine core plug endpieces will be analyzed for tracer once every 6 feet for both on-site and off-site samples..The tracer analysis will be conducted on routine core plugs and endpieces to provide an indication of filtrate invasion. The drilling mud filtrates .generated above will also be analyzed to determine filtrate saturation. Iodonaphthalene will be the tracer. An alternate tracer (LVT-200) would be used in the event of a problem with analysis for iodonaphthalene. Gas chromatography with an electron capture detector (ECD) will be used to detect the iodonaphthalene. The flame ionization detector (FID) will be used to detect LVT-200 and plugging oil. A splitter before the detector will be used in the analysis so that the ECD and FID analyses are generated simultaneously. An injection port splitter is being used to separate the toluene so that rotary evaporation is not required to analyze for plugging oil and LVT-200. The plugging oil analysis will be quantitative. The LVT-200 analysis will be only qualitative but can be made quantitative if needed. The LVT-200 will be readily apparent on the chromatogram any time its concentration in the oil exceeds about 5%. The procedures for quantitative analysis of iodonaphthalene and plugging oil are in Appendix I. Chromatographic analyses will be performed by an outside lab. Tightly capped and taped containers of the toluene will be transfered to that location from ARCO's Plano lab cold storage. The address for shipping and analysis is in the appendix. The outside lab will conduct analYses for tracer in the toluene mixture and in the drilling mud filtrates. The outside lab will provide for each sample a sample description, weight of sample upon receipt, tracer concentration (ppm) from analysis, dilution factor, total tracer concentration (ppm), and weight percent plugging fluid. The data will be provided by the outside lab to Core Laboratories in the form of an IBM PC floppy disk. The appendix contains a calculation procedure for filtrate saturation, plugging fluid saturation and corrected oil saturation in the routine core and endpieces at the surface. 15 .August 3, 1992 Core Slabbing Core slabbing ma>, be conducted when the schedule permits and ,.','hen the Operating Company representative decides. The core '.,.'ill be depreserved ]0 feet at a time. The core pieces ,,,,,ill be fit together so that the same side of the core is always presented in the slab. The core will be slabbed 1/4- 3/4 so that the bedding and dip angle are clearlv observable. The 3/4 slab should retain the white and yellow stripe and depth markings made at the '.~,,ell site. Rotate the core 90° clockwise looking up hole from these markings and cut the slab. The white and velIow markings are on the updip side of the core. Plugs cut from 3/4 section on the slab side will be pJrallel to bedding. Slabbing should be conducted using cooled nitrogen to cool the saw blade. Double stripe the 'l-inch slab for orientation. The 3/4 butt end of the core will be immediately represerved in order to minimize exposure. The preservation procedure used will be identical to the initial preservation in the field: six layers of Saran wrap, three layers of aluminium foil, and two dips of Core Seal. The routine core analysis sample was slabbed at the time of plugging. This slab should be placed in a slab box in styrofoam inserts to prevent breakage and in depth sequence with the rest of the slab. The routine core analysis 3/4 section should remain preserved. This section could be used to obtain a vertical core plug adjacent to the horizontal plug for permeability measurement. Preservation of the core will make it easier to extract the crude oil since the sample will not be dried out. The slab will be placed in slab boxes with styrofoam inserts after slabbing. Future Uses of the Preserved Core The 3/4 butt end of the core which has been preserved will provide a future source of core for formation damage, vertical permeability, chloride measurements, relative permeability, etc. It is not known at this time how much of these data can be justified for reservoir engineering purposes, so data acquisition will be delayed until the needs are better defined. A 3/4 slab is called for above since it will allow a 2- to 2.5-inch long plug to be obtained parallel to bedding. A 2/3 slab will only allow a !.5- to 2-inch long plug which may not be adequate for some lab tests. 16 SCF SCL SCFEP SCLEP Table 1 Sample Identification Field routine horizontal core plug, 1 1/2" x I 1/2" Laboratory routine horizontal plug 1 1/2" x I 1/2" End piece of field routine horizontal plug, I 1/2" x 1" End piece of laboratory routine horizontal plug, 1 1/2" x 1" August 3,1992 17 Sample SCF SCL SCFEP SCLEP Table 2 Sampling and Analysis Frequency *** August 3,1992 Sample Sample Data Data Location Freq Type Freq Turnaround Field 1/IT c~,S,T 1/IT 2 Weeks Lab 1/3FT* o,S,T 1/3FT 2 Weeks Field 1/FT o,S,T 1/6FT 2 Weeks Lab 1/3FT* o,S,T 1/6FT** 2 Weeks In later wells field samples may not be taken and lab sample frequency will increase to one per foot. May be increased or decreased in later wells since samples will be stored. This sampling and analysis frequency will hold for at least two wells after which the data will be reviewed for establishing amount of field versus laboratory sampling in future wells. 18 August 3,1992 Appendixes 19 August 3,1992 Tracer Analysis In Drilling Fluids, Core Extracts (Revised Method) Scope: The purpose of this procedure is to provide accurate quantification of drilling mud and cutting fluid in Point Mclntyre core. To accomplish this, a halogenated tracer (1-iodonaphthalene) is added to the drilling fluid at a concentration of ~30 ppm ancl a "pure" component (hexadecane) is used as a cutting flUid. Each core sample is extracted with approximately 125 mi of reagent grade toluene. The subsequent core extracts are analyzed by gas chromatography (GC) utilizing an electron capture detector (ECD) and a Flame Ionization Dector (FID). The degree of core invasion by the drilling mud is based on the concentration of tracer contained in the toluene extract and the pore Volume of the extracted core plug. In a similar fashion, the cutting fluid (hexadecane) invasion: is based on the concentration of the hexadecane in the toluene extract. Instrumentation--Hardware (1) HP-5880A Gas Chromatograph--Level 4 (2) HP Model 7364 Autosampler (3) HP Model 19312 Nickel 63 Electron Capture Detector (4) PE/Nelson 25 m X .53 mm ID--0.5 m Film #N931-2689 (5) Valco Three Port Valve High Temp (6) Valco 1/16" 304 ss Tee (7) HP Auto Sampler Vials and Caps. (8) I ml Glass Disposable Pipettes or Equivalent Eppendorf Pipettes (1) (2) (3) (4) (5) (6) (7) 1-lodonaphthalene; Eastmar Part #2256 Reagent Grade Toluene l-Iododecane; Aldrich Part #23,825 -2 2 ppm lododecane and !.0 % Squalane in Toluene Standards of l-lodonaphthalene (0.02 ppm to 2.0 ppm) in Toluene and Crude Oil (20:1) Point Mclntyre Crude Oil Squalane; Aldrich Part #23,431 - ] 20 August 3, 1992 GC---Condition,~ _ Oven Profile Initial Temp Initial Time Program Rate Final Temp Detector and Injector Detector Temp Injector Temp Detector Attenuation Injection Volume: Gas Flows Column Flow Nitrogen Makeup Splitter Flow Septum Purge 75° C 2.00 min. 20°/min. 300° C = 325° C = 300° C = 28 = 5.0 ~tl = 9.5 cc/min. = 100 cc/min. = 50 cc/min. = 3.5 cc/min. Analytical Procedur~ (1) (2a) (2b) (3) Upon receipt each sample bOttle is weighed, to the nearest tenth of.a' gram and: 'recorded-ina~sarnp.le.. log book. The samples will be refrigerated at ali times when not being processed. A 0.5' mi aliquOt of each sample is diluted 1:1 by volume with the internal standard solution (i.e~, 2 · ' ppm Iododecane and !.0 % Squalane in Toluene). · . In the case of the concentrated drilling fluid solutions it will be necessary to predilute them ~0.4 g of sample to 10.00 gm with reagent toluene. Actual weights are recorded to the nearest milligram along with the respective dilution factor. 5.0 Itl of the sample/internal standard blend is injected into the GC splitter via the auto sampler and data acquisition is initialized. (4) After the internal standard: and tracer have eluted the three-port valve is actuated and the oven temperature allowed to proceed to. its maximum setting. , (5) From the ECD, the concentration of the tracer is determined using the 1 ppm iododecane peak'as an internal standard along with the resoon~o fat-t,-,,-,...~,.; ......... (9) percent cutting fluid. August 3, 1992 A three-point calibration curve of tracer in toluene and crude oil will be run daily. Response factors will be calculated from the calibration curve and a running log of the calculated response factor versus time will be maintained daily. Shipping Address for Toluene/Mud Filtrate Samples Mr. WaYne Kriel ARCO Exploration and Production Technology 2300 Piano Parkway Plane, Texas 75075 (214) 754-6069 Toluene samples will be placed in cold storage in ARCO's core storage facility and transfered for analysis in lots of 50 to 60 samples to: Mr. Wayne Britton CPM Laboratory 1548 Valwood Parkway,. Suite 106 Carrolton, Texas 75006 (214) 241-8374 August 3,1992 CALCULATION OF FILTRATE SAT~~ON~A~~LUGGING FLUID SATURATION DEFINITION OF TERMS Gm - Cht Ff SO - SO COIF Sol Soh Vp Wcd Wci Wfl Wloss Wo WOe Wof Wop Wtl Wt2 Wtc Wti Wto Ww C~mcentratic~n of tracer in the coring mud. This value will be supplied daily on a floppy disk from CPM Lab (ppm) conc~n!:ration of tracer in the toluene from the Dean Stark This value will be supplik~d daily on a floppy disk from CPM Lab (ppm) concentration of plugging fluid, hexadecane, in the toluene from the Dean Stark Thi~_ value will be supplied daily on a floppy disk from CPM Lab (weight percent) weight fraction of filtrate in the oil in the core saturation of oil phase in core, including reservoir oil, mud filtrate and plugging fluid (%pv) saturation of oil in core corrected for mud filtrate and plugging fluid invasion(%pv) saturation of filtrate in core (%pv) saturation of plugging fluid, hexadecane, in core (%pv) pore volume of the core (cc) weight of dry core (g) weight of core before Dean Stark (g) weight of core after Dean Stark (g) weight of dry Dean Stark flask (g) weight of toluene lost as vapor (g) weight of oil phase in the core (g) weight of crude oil extracted from core into toluene (g) . . weight of filtrate extracted from core (g) weight of plugging oil extracted from core (g) weight of residual oil left in core after Dean Stark (g) weight of fla~;k and toluene before l~an Stark (it) weight of toluene, crude oil, filtrate, plug~ng 0il and flask after Dean Stark (2) weight of toluene left in core after Dean Stark (g) weight of toluene charged to flask before Dean Stark (g) weight of toluene and other oils remaining in the flask after Dean Stark (g) weight of water distilled from core (it) The underlined terms are measured in the analysis. The other terms may be calculated, but not all these calculated terms will be needed for the final report. Those which are needed will be identified below. EOUATION 1 gives the weight of toluene charged to the flask wti = wt~ - wf~ (1) EC)UATION 2 gives the weight of toluene plus other oils in the flask after Dean Stark extraction is complete. (includes the toluene in side arm) Wto = Wt2 - Wti (2) August 3,1992 EOIdATION 3_ gives the weight of toluene as the sum of all fluids in the flask after Dean Stark extraction. Wto = Wti + Woe + Wop + Wof _ Wios$ . Wtc (3) EOIdATION 4_ gives the total weight of oil phase in the core before Dean Stark extraction. Wo = Wci - Wcd - Ww (4) E~OUATION 5 gives the total weight of the components in the oil phase in the core. Wo = Woe + Wor + Wop + Wof (5) _EOUATION 6 gives the toluene Vapor lost from the Dean Stark extractor in terms of the other weights which are measured. This equation is the result of combining equations 1 through 5. Wloss = Wt! - Wt2 + Wci - Wco - Ww (6) EOUATION 7' giveS the calculatiOn°i~¥iit~ate'w~ight:fraction in the °il in the' core. · Ff = Ctt/Cm.{Wto/Wo} ':' ' (7) EOUATION ~ gives the saturation of filtrate in the core. This value will be printed out with the routine core data. Sof = 100*(Wo*Ff/0.85)/Vp (8) The value, 0.85 g/cc, is an average value for the density of the oil which is a combination of plugging oil, 0.77 g/cc, filtrate, 0.82 g/cc, and crude oil, 0.875 g/cc. the composition assumed is 20 % plugging 0il, 10 % filtrate and T0 % stock tank oil by weight; This value can be refined, if needed, since the oil phase will be chromatographically analyzed. There are n° Significant assumptions in the calculations except that recovery of the traCer is quantitative and no losses when cutting plugs, Tests Conducted with 'Point Mclntyre core used for damage testing indicate tracer recovery from the core is quantitative. 99.6% of the traCer was recovered by the Dean stark procedure. ~ The traCer could show up in the side arm and could also be found in the tOluene in the core. The retained toluene volume in the core is usually a small fraction of the total :toluene so that is not a significant error. 24 August 3,1992 _EOIdATION 9 gives the saturation of plugging fluid in the core. This value will be printed out with the routine core data. $oh = (Wto*Cht/0.77)/Vp (9) The value, 0.777 g/cc, is standard value for the density of plugging oil, hexadecane. Contamination of cores by plugging fluid was 18.1% and 18.7% of the oil phase weight in two tests. These lab tests indicate there is some replacement of in-place oil by plugging fluid, but 75% of the oil originally present remained in the core after .plugging. This is very consistent with Exxon's findings for Prudhoe. EOIdATION 10 gives the oil satUration:corrected for mud filtrate and plugging fluid in the core. This value will be printed out with the routine core data. So corr ='So - Sol - Sob (10) Core Labs should provide a spread sheet of all weights measured in the core analysis. August 3,1992 Flow Charts ANCHORAGE PROCEDURES (WITH WELL SITE PLUGGING) CC~'~E SCF PLUGS/SCFEPS LAYOUT DEPTH ORDER, .L GAMMA LOG MUD SAMPLES ~ PREBOILITOLUENE FILTER PRESS ~ 500 SEPARATF_/DEPRESERVE SCF SECTIONS V PSI & 150°F (1 HR 2~ WEIGHiLASK OR 2cc CCLLECTED) DRY SAW "WHOLE CORE ~' ~ WEIGH PRESERVED PLUG/EP SEAL/TAPE GLASS 1" SLAB, DOUBLE STRIPE DRILL SCL PLUGS DRY TRIM SCL?ENDPIECE (SCLEP) PRESERVE SCL/SCI FP IN SARAN & FOIL ~ WEIGH SCL/SCLEP, SARAN & FOIL SEAL&TAPE IN GLASS CONTAINERS (MAINTAIN @ 50°F UNTIL USE) -- REPRESERVE 3/4 WHOLE CORE REMNANT I(elaPsod time) TAKE STATE CHIPS (IF NOT TAKEN ON THE SLOPE) SLAB 1/4 3/4 DOUBLE STRIPE REPRBSERVE PHOTO CORE SEAL BOX BOX CONTAINER DEPRESERVE SCL/SCF PLUG OR EP ~ SCIJSCF PLUG OR EP WEIGHT DEAN-STARK SCL/SCF PLUGS & SCLEPS (MIN.12 HRS) WATER ~OLUME PLACE PLUG CREEP & BAG INWEIGHED AND PREDRIED THIMBLE ? CHLOROFORM/METHANOL, 87/13 CLEAN SCL/SCF PLUG OR EP (2-4 DAYS) : DRy FOR 4 HRS VACUUM OVEN DRY @ 180°F PLUG OR EP TO:CONSTANT WEIGHT WEIGH PLUG/EP, BAG & TIMBLE REMOVE PLUG/E~WEIGH PLUG/EP HEMUM GRAIN VOLUME , . SCL/SCF PLUG OR EP WEIGHT MERCURY POROSIMETER BULK VOLUME SCIJSCF PLUG OR EP WEIGHT 12% BRINE SONIC CLEANING OF PLUG f. , vACuUM OVEN DRY @ 180°F SCL/SCF PLUG OR EP TO CONSTANT WEIGHT PERMEABILITY TO AIR (EXCEPT FOR EP) ? REpRESERVE PLU P IN SARAN/FOIL REpLAcE/SEAL I~~Tiq_E FOR STORAGE TOLUENE WEIGHT IN FLASK LABEL W/CORE NO., CORE DEPTH, WELL NAME & DATE ? PLANO (1 DAY SHIPPING) SEAL/TAPE GLASS CONTAINER LABEL W/CORE NO., CORE DEPTH, WELL"' NAME & DATE ' . . PLANO (1 DAY SHIPPING) ANCHORAGE PROCEDURES (NO WELL SITE PLUGGING) CO, IL LAYOUT DEPTH ORDER, GAMMA LOG SEPARATE/DEPRESERVE SCL SECTIONS 1" SLAB, DOUBLE STRIPE DRILL SCL PLUGS DRY TRIM SCL ENDPIECE (SCLEP) PRESERVE SCL PLUG & SCLEP, SEAL/TAPE IN GLASS CONTAINER (MAINTAIN @ 50°F UNTIL USE) t WEIGH SCL/SCLEP PLUG, SARAN & FOIL REPRESERVE 3/4 WHOLE CORE REMNANT (elapsed time) TAKE STATE CHIPS (IF NOT TAKEN ON SLOPE) SLAB , I PR EBOI L TOLU EN E WEIGH FLASK WEIGH PRE~=R~D PLUG DEPRESERVE PLUG OR EP wEIGH PLUG/EP AND PLUG/EP+BAG t DEAN-STARK SCL/SCF PLUGS .& SCLEPS (MIN.12 HRS) · WATER VOLUME ? PLAC'E PLUG/EP & BAG IN PREDRIED & PREWEIGHED THIMBLE TOLUENE WEIGHT IN FLASK CHLOROFORM/METHANOL, 87/13 CLEAN SCL/SCF PLUG OR EP (2-4 DAYS) 'cONvECTION OVEN @180°F FOR 4 HR: VACUUM OVEN DRY @ 180°F PLUG OR EP TO CONSTANT WEIGHT WEIGH PLUG/EP, BAG & THIMBLE BRUSH PLUG/EP, WEIGH PLUG/EP HELIUM GRAIN VOLUME "scL/SCF PLUG OR EP WEIGHT MERCURY POROSIMETER BULK VOLUME ' SCL/SCF PLUG OR EP WEIGHT 114 3/4 ~' f ~ _20.'/0 BRINE SONIC CLEANING OF PLUG DOUBLE STRIPE ~ f f VACUUM OVEN DRY@ 180°F SCL/SCF PHOTO CORE SEAL f f BOX BOX f BAYVIEW BAYVIEW PLUG OR EP TOfCONSTANT WEIGHT PERMEABILITY TO AIR (EXCEPT FOR EP) REPRESERVE PL,~~P IN SARAN/FOIL REPLACE/SEAL IN BOTTLE FOR STORAGE 8/3 2 SAMPIS FILTER PRESS ~ 500 PSI & 150°F (1 HR OR 2cc COLLECTED) SEAL/TAPE IN A GLASS ~AINER ? LABEL-W/CORE NO., CORE DEPTH, WELL NAME & DATE PLANO (1 DAY SHIP~ING) SEAL/TAPE GLASS CONTAINER LABELW/CORE NO:,- .... CORE DEPTH, WELL NAME & DATE PLANO (1 DAY SHIPPING) WELL SITE OPERATIONS WITH ON-SITE CORE PLUGGING WELL SITE PRESERVATION SET UP PRESERVATION MATERIALS IN TRAILER 1 (1 GALLON) LABEL (WELL NAME, ~ ANCHORAGE WITH CORE CORE NO., DEPTH, DATE) LABEL (WELL NAME, ~ ANCHORAGE WITH CORE CORE NO., DEPTH, DATE) MUD SAMPLE (1 GALLON) LAYDOWN INNER BARREL WIPEDOWN/DEPTH MARK INNER BARREL CUT INNER BARREL (3' LENGTHS) CAP/CLAMP CORE ENDS TRANSPORT TO TRAILER 1 LAYOUT CORE ? DEPTH MARK CORE SURFACE (STATE CHiP SAMPLES/CORE DESCRIPTIONS IF TIME PERMITS) MARK SCF SECTIONS (3" X 4') 1/FT AND SCL SECTIONS (2' X 4") 1/3 FT ' DRY SAW SCF SECTIONS (3" X 4") 1" SLAB SCF SECTION; DOUBLE STRIPE PRESERVE ALL CORE IN SARAN WRAP & FOIL LABEL W/DEPTH, SCF/SCL & DOUBLE STRIPE TRANSPORT SCF SECTIONS TO TRAILER 2 CORE SEAL COATING -"-.. ' PLACE ALL IN DEPTH SEQUENCE IN CORE BOXES .... MARK BOXES WITH CORE DEPTH SEAL BOXES WELLSITE INVENTORY CRATE CORE BOXES WELLSITE PLUGGING DRill SCF PLUG LABEL PLUG OR EP WITH DEPTH WRAP PLUG & EP SI~ARATELY IN SARAN WRAP & FOIL LABEL FOIL WITH p~I_UG OR EP DEPTH SEAL/TAPE SEPARATELY IN GLASS BOTTLES ~ · WEIGH SARAN, FOIL + SAMPLE (:~0.Olg) KEEP BOTTLES COLD (~50°F) ~ ~G~ REPRESERVE SCF REMNANT/SLAB AS ONE PIECE ...... IN SARAN WRAP & AL FOIL LABEL WITH DEPTH MARK, SCF & DOUBLE STRIPE RETURN REPRESERVED SC:F RE~/SLAB TO TRAILER 1 ANCHORAGE, 1 CORFJSHIPMENT WELL SITE OPERATIONS WITHOUT ON-SITE CORE PLUGGING ~ELL SITE PRESERVATION SET UP PRESERVATION MATERIALS IN TRAILER 1 (1 GALLON) MUD SAMPLE (1 GALLON) LABEL (WELL NAME, CORE NO., DEPTH, DATE) LAYDOWN INNER BARREL WIPEDOWN/DEPTH MARK INNER BARREL CUT INNER BARREL (3' LENGTHS) CAP/CLAMP CORE ENDS TRANSI::~RT TO TRAILER 1 LAYOUT CORE DEPTH MARK CORE SURFACE (STATE CHIP SAMI:::q_ES/CORE DESCRFrrK)NS IF TIME PERMITS)"' MARK SCL SECTIONS (3" X 4") lIFT DRY SAW SCL SECTIONS (3" X4") PRESERVE CORE IN SARAN WRAP & FOIL LABEL DEPTH, SCL & DOUBLE STRIPE CORE SEAL COATING PLACE ALL IN DEPTH SEQUE~E IN CORE BOXES MARK BOXES WITH CORE DEPTH SEAL BOXES WELLSITE INVENTORY LABEL (WELL NAME, CORE NO., DEPTH, DATE) ANCHORAGE WITH CORE ~ ANC~RAGE WITH CORE ANCHORAGE, 1 CORE/SHIPMENT 8/3/92 SECTION 5 DATA DISKETTE SUB - S URFA CE DIRECTIONAL SURVEY [~] UI,DANCE [~] ONTINUOUS ~ OOL ~ECEIVED Company Well Name imm Field/Location ARCO ALASKA) INC. Afaska Oil & Oas Cons. [;oI'rirnissior~ Anchorage P2-30 (191' FNL) 1383' FWL, SEC 14, T12N, R14E) POINT MCINTYREa NORTH SLOPEt ALASKA Job Reference No. 92674 Lo~lqed By: Date 12-NOV-g2 Computed By' JOHNSON SINES SCHLUMBERGER GCT DIRECTIONAL SURVEY CUSTOMER LISTING FOR ARCD ALASKA INC. P2 - 30 POINT MCZNTYRE NORTH SLOPE, ALASKA SURVEY DATE' 12-NOV-Z992 ENGINEER' G. JOHNSON METHODS OF COMPUTATION TOOL LOCATION' TANGENTIAL- Averaged deviation and azimuth INTERPOLATION' LINEAR VERTICAL SECTION' HORZZ. DIST. PROJECTED ONTO A TARGET AZIMUTH OF NORTH 88 DEG 32 MZN EAST COMPUTATZON DATE' 19-NOV-92 PAGE I ARCO ALASKA ZNC. P2 - 30 POZNT MCZNTYRE NORTH SLOPE, ALASKA DATE OF SURVEY KELLY BUSHING ELEVATION ENGINEER 12-NOV-1992 49.00 FT G. JOHNSON INTERPOLATED VALUES FOR EVEN 100 FEET OF MEASURED DEPTH TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MZN DEG MZN VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/IO0 FEET FEET FEET DEG MZN 0 O0 100 O0 200 O0 300 oo 400 O0 500 O0 600 O0 700 O0 800 O0 900 oo 0 O0 100 O0 200 O0 300 oo 400 O0 499 99 599 97 699 85 799 50 898 97 -49 O0 51 O0 151 O0 251 O0 351 O0 450 99 550 97 650 85 750 50 849 97 0 0 N 0 0 E 0 14 S 57 13 W 0 4 S 23 47 W 0 5 S 64 51W 0 12 S 55 38 E 0 52 S 68 14 E 1 41 S 69 19 E 4 3 S 76 53 E 5 18 S 76 6 E 6 28 S 71 44 E 0 O0 -0 12 -0 45 -0 53 -0 56 0 41 2 31 6 79 14 88 24 65 0 oo 0 oo 0 48 0 oo 0 75 0 27 I o6 2 82 I 15 0 98 0 O0 N 0 07 S 0 22 S 0 31S 0 41S 0 81 S I 56 S 2 89 S 4 77 S 7 64 S 0 O0 E 0 12 W 0 45 W 0 53 W 0 55 W 0 43 E 2 35 E 6 87 E 15 01 E 24 86 E 0 O0 N 0 0 E o 0 o o o 2 7 15 26 14 S 59 33 W 5o S 63 42 W 61 S 59 32 W 69 S 53 21W 92 S 27 53 E 82 S 56 27 E 45 S 67 12 E 75 S 72 22 E O0 S 72 55 E 1000 O0 1100 1200 1300 1400 1500 1600 1700 1800 1900 998 21 O0 1096 O0 1194 O0 1291 O0 1388 O0 1485 O0 1581 O0 1677 O0 1772 O0 1866 949 21 93 1047 87 1145 97 1242 77 1339 54 1436 96 1532 75 1628 50 1723 26 1817 7 47 93 10 37 87 12 37 97 14 29 77 14 34 54 14 53 96 16 1 75 17 36 50 19 19 26 21 19 S 69 49 e S 72 15 E S 78 39 E S 88 40 E N 89 3 E N 87 0 E N 86 13 E N 84 0 E N 81 34 E N 81 51E 36 12 51 O1 70 32 94 O0 119 08 144 30 170 80 199 46 231 23 265 72 2 16 2 57 3 69 1 18 0 08 0 79 1 16 2 79 0 97 1 11 11 76 S 16 22 24 24 23 21 19 15 10 94 S 51 46 E 54 18 S 70 91E 74 46 S 94 66 E 97 32 S 119 74 E 122 52 S 144.95 E 146 95 S 171 42 E 172 64 S 200 02 E 200 40 S 231 69 E 232 32 S 266 07 E 266 36 43 E 38 28 S 72 6 E 18 S 71 47 E 30 S 72 38 E 77 S 75 31 E 18 S 78 31 E 84 S 80 47 E 82 S 82 42 E 99 S 84 24 E 21 S 86 12 E 27 S 87 47 E 2000 O0 1958 81 1909 81 23 10 2100 2200 23OO 24OO 2500 2600 2700 2800 2900 oo 2050 O0 2140 O0 2228 oo 2314 O0 2400 O0 2485 O0 2569 O0 2653 O0 2734 52 2001 74 2091 28 2179 66 2265 62 2351 84 2436 88 252O 23 2604 24 2685 52 23 55 74 27 22 28 30 5 66 30 25 62 31 3 84 32 14 88 33 4 23 34 29 24 36 47 N 82 32 E N 83 38 E N 86 16 E N 82 54 E N 82 6 E N 82 15 E N 82 3O E N 8256 E N 82 58 E N 82 6 E 303 35 343 02 386 04 434 22 484 31 535 09 587 10 641 O1 696 02 754 28 0 92 1 76 3 41 1 70 0 60 0 77 2 10 0 89 3 50 0 89 5.15 S 303 58 E 303 63 S 89 2 E 0 34 S 343 3 7 14 21 28 35 41 49 14 E 343 31N 386 08 E 386 81 N 434 16 E 434 55 N 484 10 E 484 55 N 534.71E 535 43 N 586.57 E 587 41 N 640.31 E 641 94 N 695.18 E 696 79 N 753.25 E 754 14 S 89 57 E 09 N 89 31E 23 N 88 58 E 32 N 88 17 E 15 N 87 42 E 25 N 87 13 E 29 N 86 50 E 44 N 86 33 E 90 N 86 13 E 3000 O0 2814 12 2765.12 37 9 3100 3200 3300 340O 3500 3600 3700 3800 3900 O0 2893 O0 2973 O0 3052 O0 3132 O0 3212 O0 3293 O0 3375 O0 3456 O0 3538 75 2844.75 37 19 10 2924.10 37 39 42 3003.42 37 19 12 3083 12 37 0 61 3163 61 35 39 86 3244 86 35 47 07 3326 07 35 36 36 3407 36 35 32 19 3489 19 34 51 N 83 10 E N 83 50 E 874 N 83 12 E 935 N 83 27 E 995 N 84 56 E 1055 N 85 24 E 1115 N 86 24 E 1173 N 84 36 E 1231 N 84 3 E 1289 N 82 29 E 1346 814 13 38 02 64 86 09 34 61 70 91 0 47 0 44 0 79 0 95 1 05 1 37 0 16 0 83 1 05 0 59 57 48 N 812 93 E 814 96 N 85 57 E 64 71 78 84 89 93 97 103 110 30 N 873 04 N 933 32 N 993 43 N 1054 36 N 1113 41 N 1171 88 N 1229 67 N 1287 55 N 1344 03 E 875 51E 936 97 E 997 06 E 1057 18 E 1116 34 E 1175 51E 1233 47 E 1291 53 E 1349 39 N 85 47 E 21 N 85 39 E 05 N 85 30 E 43 N 85 25 E 76 N 85 25 E 06 N 85 26 E 4O N 85 27 E 64 N 85 24 E O6 N 85 18 E ARCO ALASKA INC. P2 - 30 POINT MCINTYRE NORTH SLOPE, ALASKA COMPLFFATZON DATE: 19-NOV-92 PAGE 2 DATE OF SURVEY: 12-NOV-1992 KELLY BUSHZNG FI EVATZON: 49.00 FT ENGZNEER: G. JOHNSON ZNTERPOI_ATED VALUES FOR EVEN 100 F~ OF MEASURED DEPTH TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MZN VERTZCAL DOGLEG RECTANGULAR COORDZNATES HORZZ. DEPARTURE SECTZON SEVF_RZTY NORTH/SOUTH EAST/WEST DZST. AZZMLrrH FEET DEG/IO0 FEET FEET FEET DEG MZN 4000 O0 3620 26 3571 26 34 37 4100 4200 4300 4400 4500 4600 4700 4800 4900 O0 3702 O0 3785 O0 3868 O0 3952 O0 4036 O0 4120 O0 4205 O0 4289 O0 4373 63 3653 40 3736 88 3819 47 3903 48 3987 96 4071 56 4156 90 4240 90 4324 63 34 35 40 33 35 88 33 24 47 33 1 48 32 37 96 32 10 56 32 13 90 32 53 90 32 47 N 82 27 E 1403 72 N 82 31E 1460 N 82 47 E 1515 N 82 51E 1570 N 83 14 E 1625 N 83 26 E 1679 N 83 46 E 1732 N 83 28 E 1785 N 84 54 E 1839 N 85 14 E 1893 10 92 7O 34 35 67 78 34 51 1 11 0 34 0 81 0 18 0 28 0 62 0 38 0 23 0 74 0 33 118 05 N 1401 17 E 1406 13 N 85 11 E 125 132 139 146 152 158 164 170 174 49 N 1457 69 N 1513 55 N 1567 24 N 1622 52 N 1676 43 N 1729 42 N 1782 O0 N 1835 58 N 1889 38 E 1462 03 E 1518 66 E 1573 14 E 1628 O1E 1682 20 E 1736 17 E 1789 61 E 1843 67 E 1897 77 N 85 5 E 84 N 84 59 E 86 N 84 55 E 72 N 84 51 E 93 N 84 48 E 44 N 84 46 E 74 N 84 44 E 46 N 84 43 E 72 N 84 43 E 5000 O0 4458 05 4409 05 32 39 5100 5200 5300 5400 5500 5600 5700 5800 5900 O0 4542 O0 4626 O0 4711 O0 4795 O0 4880 O0 4964 O0 5049 O0 5133 O0 5217 3O 4493 70 4577 13 4662 56 4746 09 4831 68 4915 29 5000 50 5084 87 5168 30 32 30 70 32 21 13 32 27 56 32 20 09 32 18 68 32 10 29 32 26 50 32 36 87 32 25 N 85 7 E 1947 44 N 84 59 E 2001 N 85 43 E 2054 N 86 41E 2108 N 86 50 E 2161 N 87 25 E 2215 N 87 41E 2268 N 87 13 E 2321 N 87 8 E 2375 N 86 56 E 2429 21 76 31 86 28 60 90 81 47 0 16 0 o8 1 08 0 6O 0 14 0 31 0 20 1 24 0 29 0 24 179 11 N 1943 51 E 1951 74 N 84 44 E 183 188 191 194 197 199 201 204 207 78 N 1997 26 N 2050 70 N 2104 71N 2157 42 N 2210 62 N 2264 89 N 2317 64 N 2371 40 N 2424 17 E 2005 63 E 2059 11E 2112 60 E 2~66 97 E 2219 25 E 2273 5O E 2326 37 E 2380 97 E 2433 61 N 84 45 E 25 N 84 45 E 82 N 84 48 E 37 N 84 51E 76 N 84 54 E 03 N 84 58 E 28 N 85 1E 18 N 85 4 E 83 N 85 7 E 6000 O0 5302 32 5253 32 32 22 6100 6200 6300 6400 6500 6600 6700 6800 6900 O0 5386 O0 5471 O0 5555 O0 5639 O0 5722 O0 5806 O0 5889 O0 5971 O0 6053 73 5337 16 5422 35 5506 04 5590 74 5673 41 5757 43 5840 71 5922 60 6004 73 32 26 16 32 20 35 33 3 04 33 11 74 33 14 41 33 13 43 34 30 71 34 47 60 35 12 N 86 57 E 2483 O0 N 86 51E 2536 N 86 4O E 259O N 87 27 E 2644 N 88 5 E 2698 N 88 17 E 2753 N 88 17 E 2808 N 88 41E 2864 N 89 11E 292O N 89 34 E 2978 60 17 10 84 56 31 O6 9O 28 0 28 0 09 0 O9 1 12 0 18 0 48 0 68 0 67 0 39 0 68 210 29 N 2478 45 E 2487 36 N 85 9 E 213 216 219 221 222 224 226 227 227 15 N 2531 20 N 2585 08 N 2639 12 N 2694 89 N 2748 51N 2803 11N 2859 14 N 2916 73 N 2973 99 E 254O 50 E 2594 38 E 2648 O8 E 27O3 77 E 2757 50 E 2812 23 E 2868 06 E 2924 44 E 2982 95 N 85 11E 52 N 85 13 E 46 N 85 15 E 14 N 85 18 E 79 N 85 22 E 48 N 85 25 E 15 N 85 29 E 89 N 85 33 E 15 N 85 37 E 7000 O0 6134 69 6085 69 36 29 7100 72O0 73OO 7400 7500 7600 7700 7800 7900 O0 6215 O0 6295 O0 6376 O0 6457 O0 6539 O0 6621 O0 6703 O0 6785 oo 6868 02 6166 65 6246 65 6327 89 6408 35 6490 16 6572 23 6654 65 6736 36 6819 02 36 26 65 36 3 65 35 47 89 35 31 35 35 15 16 35 0 23 34 41 65 34 22 36 34 0 N 88 37 E 3036 79 N 88 21E 3096 N 88 22 E 3155 N 88 10 E 3214 N 88 5 E 3272 N 87 55 E 3330 N 87 36 E 3387 N 87 9 E 3445 N 86 57 E 3501 N 87 3 E 3557 35 SO 14 45 45 95 O7 69 87 1 03 0 30 0 84 0 11 0 39 0 71 0 37 0 73 0 28 0 14 228 56 N 3031 95 E 3040 55 N 85 41 E 230 231 233 235 237 239 242 245 248 18 N 3091 84 N 3150 62 N 3209 53 N 3267 51N 3325 74 N 3382 33 N 3440 26 N 3496 19 N 3552 48 E 3100 61E 3159 23 E 3217 51E 3275 48 E 3333 94 E 3391 01 E 3448 57 E 3505 70 E 3561 04 N 85 45 E 13 N 85 47 E 72 N 85 50 E 99 N 85 53 E 95 N 85 55 E 43 N 85 57 E 54 N 85 58 E 16 N 85 5g E 36 N 86 0 E ARCO ALASKA INC. P2 - 30 POINT MCINTYRE NORTH SLOPE, ALASKA COMPUTATION DATE: 19-NOV-92 PAGE 3 DATE OF SURVEY: 12-NOV-1992 KELLY BUSHING ELEVATION: 49.00 FT ENGINEER: G. JOHNSON INTERPOLATED VALUES FOR EVEN 100 FEET OF MEASURED DEPTH TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICALDEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN VERTICAL DOGLEG RECTANGULAR COORDINATES HORZZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/iO0 FEET FEET FEET DEG MZN 8000 O0 6951 26 6902.25 33 53 8100 8200 8300 8400 8500 8600 8700 8800 8900 O0 7034 O0 7117 O0 7201 O0 7284 O0 7368 O0 7451 O0 7534 O0 7618 O0 7701 39 6985 39 33 37 86 7068 43 7152 92 7235 35 73~9 51 7402 70 7485 11 7569 56 7652 86 33 17 43 33 22 92 33 27 35 33 34 51 33 49 70 33 37 11 33 21 56 33 39 N 87 22 E 3613 78 N 87 7 E 3669 N 87 24 E 3724 N 88 25 E 3779 N 89 30 E 3834 S 89 3 E 3889 S 86 45 E 3944 S 84 32 E 4000 S 82 15 E 4054 S 83 16 E 4109 34 40 31 35 46 88 O9 7O 11 0.19 0 91 0 68 0 60 0 44 1 5O 1 19 1 28 1 09 0 55 250 94 N 3608 56 E 3617 27 N 86 1 E 253 256 258 259 259 257 253 246 239 63 N 3664 37 N 3719 40 N 3773 41N 3828 33 N 3884 26 N 3939 O2 N 3994 64 N 4049 38 N 4104 07 E 3672 08 E 3727 95 E 3782 98 E 3837 11E 3892 61 E 3948 94 E 40O2 73 E 4057 35 E 4111 84 N 86 2 E 9O N 86 3 E 79 N 86 5 E 76 N 86 7 E 76 N 86 11 E O0 N 86 16 E 95 N 86 23 E 23 N 86 31E 32 N 86 40 E 9000 O0 7784 80 7735.80 33 43 9100 9200 9300 9400 9500 9600 9700 9800 9900 O0 7867 O0 7950 O0 8032 O0 8115 O0 8198 O0 8281 O0 8365 O0 8449 O0 8534 45 7818.45 34 41 04 7901.04 34 13 60 7983.60 34 23 20 8066.20 34 9 29 8149.29 33 37 54 8232.54 33 34 21 8316.21 32 42 56 8400.56 32 10 85 8485.85 30 48 S 82 53 E 4163 91 S 85 45 E 4219 78 S 87 56 E 4275 94 N 89 31E 4332 33 S 88 41 E 4388 67 S 87 10 E 4444 19 S 87 2 E 4499 46 S 86 14 E 4553 99 S 86 14 E 4607 49 S 84 22 E 4659 39 1 58 0 96 2 O9 0 69 1 08 0 67 1 72 1 05 1 02 1 73 232 54 N 4159 33 E 4165 83 N 86 48 E 227 223 223 222 220 218 214 211 207 09 N 4215 75 N 4271 29 N 4328 99 N 4384 76 N 4440 28 N 4495 67 N 4550 43 N 4603 18 N 4655 36 E 4221 62 E 4277 04 E 4333 41E 4390 Ol E 4445 36 E 4500 oo E 4555 60 E 4608 63 E 466O 47 N 86 55 E 48 N 87 0 E 80 N 87 3 E 08 N 87 5 E 50 N 87 g E 65 N 87 13 E 06 N 87 18 E 45 N 87 22 E 23 N 87 27 E 10000 O0 8621 34 8572 34 29 19 10100 10200 10300 10400 10500 10600 10700 10800 10826 O0 8709 O0 8796 O0 8883 O0 8970 O0 9056 O0 9142 O0 9229 O0 9316 O0 9338 O1 8660 67 8747 56 8834 09 8921 36 9007 64 9093 17 9180 12 9267 73 9289 O1 28 7 67 29 36 56 29 50 09 30 14 36 3O 25 64 30 18 17 29 40 12 29 36 73 29 36 S 81 33 E 4709 02 S 79 1E 4756 17 S 77 30 E 4803 O0 S 77 39 E 4851 03 S 77 20 E 4899 67 S 77 52 E 4948 74 S 78 S E 4997 91 S 77 10 E 5046 60 S 77 4 E 5094 46 S 77 4 E 5106 90 1 95 1 56 1 14 0 65 0 38 0 47 0 3O 0 79 0 O0 0 oo 200 99 N 4705 43 E 4709 72 N 87 33 E 192 182 172 161 150 139 129 118 115 71N 4752 79 N 4799 07 N 4848 21N 4897 27 N 4946 72 N 4995 13 N 5044 09 N 5093 21N 5105 81 E 4756 90 E 4803 22 E 4851 15 E 4899 52 E 4948 97 E 4997 95 E 5046 11E 5094 62 E 5106 71 N 87 41 E 38 N 87 49 E 27 N 87 58 E 80 N 88 7 E 80 N 88 16 E 92 N 88 24 E 60 N 88 32 E 47 N 88 40 E 92 N 88 42 E ArCO ALASKA INC. P2 - 30 POINT MCINTYRE NORTH SLOPE, ALASKA COMPUTATION DATE: 19-NOV-92' DATE OF SURVEY KELLY BUSHING ELEVATION INTERPOLATED VALUES FOR EVEN 1000 FEET OF MEASURED DEPTH TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN -49 O0 0 0 21 7 47 81 23 10 12 37 9 26 34 37 05 32 39 32 32 22 69 36 29 26 33 53 80 33 43 PAGE 4 12-NOV-1992 49.00 FT ENGINEER G. JOHNSON 0 O0 0.00 VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/IO0 FEET FEET FEET DEG MIN O0 998.21 949 O0 1958 81 1909 O0 2814 12 2765 O0 3620 26 3571 O0 4458 05 4409 O0 5302 32 5253 O0 6134 69 6085 O0 6951 26 6902 O0 7784 80 7735 lOO0 2000 3ooo 4000 5000 6000 7000 8000 9000 0 O0 12 35 13 72 44 O0 79 78 91 N 0 0 E S 69 49 E 36 N 82 32 E 303 N 83 10 E 814 N 82 27 E 1403 N 85 7 E 1947 N 86 57 E 2483 N 88 37 E 3036 N 87 22 E 3613 S 82 53 E 4163 10000.00 8621.34 8572.34 29 19 10826.00 9338.73 9289.73 29 36 S 81 33 E 4709.02 S 77 4 E 5106.90 O. O0 2 16 0 92 0 47 I 11 0 16 0 28 1 O3 0 19 1 58 000 N 11 5 57 118 179 210 228 25O 232 76 S 36 15 S 303 48 N 812 05 N 1401 11N 1943 29 N 2478 56 N 3031 94 N 3608 54 N 4159 43 E 38 58 E 303 93 E 814 17 E 1406 51E 1951 45 E 2487 95 e 3040 56 E 3617 33 E 4165 0 O0 E 0 O0 N 0 0 E 28 S 72 6 E 63 S 89 2 E 96 N 85 57 E 13 N 85 11E 74 N 84 44 E 36 N 85 9 E 55 N 85 41E 27 N 86 I E 83 N 86 48 E 1 . 95 O. O0 200.99 N 4705.43 E 4709.72 N 87 33 E 115.21 N 5105.62 E 5106.92 N 88 42 E ArCO ALASKA INC. P2 - 30 POINT MCINTYRE NORTH SLOPE, ALASKA COMPUTATION DATE: 19-NOV-92 TRUE SU~-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN 0 O0 49 O0 149 O0 249 O0 349 O0 449 O0 549 O0 649 O0 749 O0 849 O0 DATE OF SURVEY KELLY BUSHING ELEVATION ENGINEER 0 O0 49 O0 149 O0 249 O0 349 O0 449 O0 549 01 649 06 749 30 849 74 PAGE 5 12-NOV-1992 49.0O FT G. JOHNSON INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA DEPTH VERTICAL DOGLEG RECTANGULAR COORDINATES HORZZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/IO0 FEET FEET FEET DEG MIN 0 0 N 0 0 E 0.00 0 4 N 40 49 E 0.00 0 14 S 67 55 W -0.31 0 4 S 40 50 W -0.48 0 4 S 38 31W -0.59 0 39 S 68 39 E -0.25 1 8 S 68 10 E 1.17 2 34 S 72 52 E 3.97 4 52 S 77 13 E 10.54 5 54 S 73 49 E 19.53 950.38 1051.34 1049 1153.08 1149 1255.64 1249 1358.91 1349 1462.22 1449 1565.75 1549 1669.90 1649 1775.12 1749 1881.49 1849 -49 O0 0 O0 100 O0 200 O0 300 O0 400 O0 500 O0 600 O0 700 O0 800 O0 900 O0 7 2 O0 9 11 O0 11 42 O0 14 8 O0 14 32 O0 14 34 O0 15 34 O0 16 56 O0 19 5 O0 21 3 S 70 10 E S 70 53 E S 74 34 E S 85 39 E N 89 11 E N 87 54 E N 86 29 E N 85 4 E N 81 44 E N 81 44 E 949 O0 O0 1000 O0 1100 O0 1200 O0 1300 O0 1400 O0 1500 O0 1600 O0 1700 O0 1800 1989.34 1949 O0 1900 O0 23 4 2098.33 2049 2209-.31 2149 2323 96 2249 2439 87 2349 2556 62 2449 2675 09 2549 2794 86 2649 2918 43 2749 3043 78 2849 30 19 43 13 60 79 83 04 108 75 134 70 161 48 190 56 223 11 259 07 O0 2000 O0 2100 O0 2200 O0 2300 O0 2400 O0 2500 O0 2600 O0 2700 O0 2800 N 82 25 E 299.19 O0 23 54 N 83 36 E 342.34 O0 27 40 N 86 10 E 390.32 O0 30 15 N 82 25 E 446.19 O0 30 40 N 82 4 E 504.43 O0 31 34 N 82 29 E 564.33 O0 33 2 N 82 41 E 627.49 O0 34 18 N 83 4 E 693.11 O0 36 54 N 82 16 E 765.25 O0 37 12 N 83 29 E 840.48 916 53 04 53 11 97 47 39 39 67 66 3169 58 2949 O0 2900 O0 37 34 70 3049 12 3149 75 3249 93 3349 97 3449 17 3549 89 3649 19 3749 19 3849 O0 3000 O0 3100 O0 3200 O0 3300 O0 3400 O0 3500 O0 3600 O0 3700 O0 3800 O0 37 20 O0 36 52 O0 35 37 O0 35 38 O0 35 39 O0 34 52 O0 34 29 O0 34 5 O0 33 22 3295 3421 3544 3667 3790 3913 4034 4156 4276 N 83 34 E N 83 23 e 993 N 85 10 E 1068 N 86 2 E 1141 N 85 15 E 1212 N 84 10 E 1284 N 82 30 E 1354 N 82 24 E 1423 N 82 39 E 1491 N 82 51E 1557 0 O0 0 O0 0 38 0 O0 0 O0 0 93 0 62 3 40 1 03 1 47 1 O3 4 O6 2 05 3 34 0 16 0 95 1.41 2.04 1.00 1.86 1 17 1 64 3 56 0 79 0 67 1 15 0 62 3 37 0 90 0 5O 0 76 0 95 1 28 1 02 1 61 0 45 0 65 0 58 1 61 0 2O 0 O0 N 0 O0 N 0 17 S 0 27 S 0 34 S 0 56 S 1 11 S 2 14 S 3 73 S 6 03 S 0.00 E 0.00 E 0.31 W 0.47 W 0 58 W 0 23 W 1 20 E 4 03 E 10 64 E 19 69 E 0 O0 N 0 0 E 0 0 0 0 0 1 4 11 20 O0 N 0 0 E 35 S 61 45 W 54 S 60 9 W 67 S 59 54 W 6O S 22 34 W 64 S 47 9 E 56 S 62 1E 27 S 7O 4O E 59 S 72 57 E 9 58 S 14 19 23 24 23 22 2O 16 11 30.44 E 31 91 S 72 32 30 S 43.51 E 45 80 S 71 48 89 S 61.31 E 64 46 S 72 2 93 S 83.67 E 87 03 S 74 2 48 S 109.41 E 112 12 S 77 23 95 S 135.36 E 137 46 S 79 58 55 S 162.11E 163 67 S 82 5 49 S 191.14 E 192 24 S 83 53 58 S 223.60 E 224 22 S 85 45 27 S 259.44 E 259 69 S 87 31 5 69 S 299 44 E 299 49 S 88 55 0 3 9 17 25 33 41 51 60 41S 342 59 N 390 34 N 446 33 N 504 45 N 563 71N 626 58 N 692 30 N 764 56 N 839 47 E 342 47 S 89 56 36 E 390 37 N 89 28 10 E 446 19 N 88 48 16 E 504 45 N 88 2 87 E 564 44 N 87 25 84 E 627.75 N 86 55 28 E 693.52 N 86 34 19 E 765.91 N 86 10 21 E 841.39 N 85 52 68 90 N 915 07 E 917 66 N 85 42 78 85 91 96 103 111 120 129 137 03 N 991 53 N 1066 32 N 1139 23 N 1210 12 N 1282 53 N 1351 66 N 1420 60 N 1488 92 N 1554 38 E 994 70 E 1070 16 E 1142 91 E 1214 26 E 1286 99 E 1356 78 E 1425 85 E 1494 66 E 1560 44 N 85 30 12 N 85 25 81 N 85 25 72 N 85 27 40 N 85 24 58 N 85 17 89 N 85 9 48 N 85 2 76 N 84 56 COMPUTATION DATE' 19-NOV-92 PAGE 6 ARCO ALASKA INC. P2 - 30 POINT MCINTYRE NORTH SLOPE, ALASKA DATE OF SURVEY' 12-NOV-1992 KELLY BUSHING ELEVATION' 49.00 FT ENGINEER' G. JOHNSON INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA DEPTH TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MZN VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/IO0 FEET FEET FEET DEG MIN 4395 86 3949 O0 3900 O0 33 3 4514 4633 4751 4870 4989 5107 5226 5344 5463 85 4049 13 4149 40 4249 37 4349 25 4449 94 4549 39 4649 87 4749 22 4849 O0 4000 O0 4100 O0 4200 O0 4300 O0 4400 O0 4500 O0 4600 O0 4700 O0 4800 O0 32 32 O0 32 13 O0 32 29 O0 32 52 O0 32 40 O0 32 29 O0 32 18 O0 32 25 O0 32 17 N 83 13 E 1623 09 N 83 29 E 1687 N 83 35 E 1750 N 83 59 E 1813 N 85 14 E 1877 N 85 8 E 1941 N 84 59 E 2005 N 86 9 E 2O68 N 86 48 E 2132 N 87 11E 2195 31 26 16 48 65 47 85 35 64 0 44 0 57 0 38 1 46 0 20 0 10 0 O1 0 73 0 12 0 38 145 97 N 1619 90 E 1626 46 N 84 51 153 160 167 173 178 184 189 193 196 43 N 1683 37 N 1746 44 N 1809 25 N 1873 62 N 1937 15 N 2001 26 N 2064 07 N 2128 95 E 1690 74 E 1754 49 E 1817 67 E 1881 73 E 1945 42 E 2009 70 E 2073 13 E 2136 92 N 84 48 08 N 84 45 22 N 84 43 66 N 84 43 94 N 84 44 88 N 84 45 36 N 84 46 86 N 84 49 5 =_ _-- _-- E E r _-- 49 N 2191 34 E 2200 13 N 84 53 E 5581 47 4949 O0 4900 O0 32 12 5699 5818 5936 6055 6173 6292 6411 6531 6651 66 5049 40 5149 87 5249 29 5349 77 5449 42 5549 90 5649 40 5749 09 5849 O0 5000 O0 5100 O0 5200 O0 5300 O0 5400 O0 5500 O0 5600 O0 5700 O0 5800 O0 32 25 O0 32 32 O0 32 24 O0 32 26 O0 32 23 O0 33 0 O0 33 10 O0 33 14 O0 33 56 N 87 42 E 2258 74 N 87 13 E 2321 N 87 8 E 2385 N 86 53 E 2449 N 86 57 E 2512 N 86 42 E 2576 N 87 21E 2639 N 88 6 E 2705 N 88 19 E 277O N 88 15 E 2836 71 72 22 63 14 97 36 77 53 0 16 1 24 0 61 0 28 0 oo 0 24 1 29 0 07 0 3O 1 97 199 22 N 2254 39 E 2263 18 N 84 57 E 201 2O5 2O8 211 215 218 221 223 225 88 N 23~7 14 N 2381 47 N 2444 85 N 2508 38 N 2571 90 N 2635 34 N 2700 40 N 2765 37 N 2831 32 E 2326 26 E 2390 71E 2453 05 E 2516 48 E 258O 24 E 2644 59 E 2709 97 E 2774 71E 2840 10 N 85 1 E 08 N 85 5 E 58 N 85 8 E 98 N 85 10 E 49 N 85 13 E 32 N 85 15 E 65 N 85 19 E 98 N 85 23 E 66 N 85 27 E 6772 37 5949 O0 5900 O0 34 42 6894 37 6049 7017 80 6149 7142 20 6249 7265 9O 6349 7389 08 6449 7511 82 6549 7633 96 6649 7755 58 6749 7876 64 6849 O0 6000 O0 6100 O0 6200 O0 6300 O0 6400 O0 6500 O0 6600 O0 6700 O0 6800 O0 35 11 O0 36 36 O0 36 18 O0 35 52 O0 35 33 O0 35 11 O0 34 53 O0 34 28 O0 34 2 N 89 4 E 2905 15 N 89 34 E 2975 N 88 28 E 3047 N 88 24 E 3121 N 88 13 E 3i94 N 88 5 E 3266 N 87 54 E 3337 N 87 29 E 34O7 N 87 I E 3476 N 87 3 E 3544 O3 38 36 18 10 27 4O 6O 81 0 37 0 59 0 55 0 34 0 39 0 40 0 65 0.46 O. 52 0.01 226 90 N 2900 31 E 2909 17 N 85 32 E 227 228 230 232 235 237 240 243 247 71 N 2970 82 N 3042 89 N 3116 99 N 3189 32 N 3261 76 N 3332 57 N 3402 94 N 3471 51N 3539 19 E 2978 91 N 85 37 E 54 E 3051 13 N 85 42 E 49 E 3125 03 N 85 46 E 28 E 3197 78 N 85 49 E 17 E 3269 64 N 85 52 E 30 E 3340 77 N 85 55 E 38 E 3410 87 N 85 57 E 51 E 3480 07 N 85 59 E 65 E 3548 29 N 86 0 E 7997 28 6949 O0 6900 O0 33 53 8117 53 7049 8237 8356 8476 8596 8717 8836 8956 9077 25 7149 95 7249 79 7349 98 7449 17 7549 97 7649 99 7749 58 7849 O0 7000 O0 7100 O0 7200 O0 7300 O0 7400 O0 7500 O0 7600 O0 7700 O0 78O0 O0 33 31 oo 33 17 O0 33 24 O0 33 28 O0 33 49 O0 33 33 O0 33 20 oo 33 38 O0 34 38 N 87 22 E 3612 27 N 87 6 E 3679 N 87 44 E 3744 N 89 1E 3810 S 89 35 E 3876 S 86 49 E 3943 S 84 8 E 4009 S 82 3 E 4074 S 82 41E 4140 S 85 19 E 4207 O2 84 62 66 21 52 74 34 10 o 2o o 32 0 52 0 98 1 2O 1 19 I 37 1 o6 1 oo 1 61 250 87 N 3607 05 E 3615 76 N 86 1 E 254 257 259 259 257 252 243 235 228 12 N 3673 24 N 3739 10 N 3805 48 N 3871 35 N 3937 08 N 4004 84 N 4069 57 N 4135 O9 N 4202 74 E 3682 52 N 86 3 E 50 E 3748 33 N 86 4 E 26 E 3814 07 N 86 6 E 30 E 3879 99 N 86 10 E 93 E 3946 33 N 86 16 E 40 E 4012 32 N 86 24 E 85 E 4077 15 N 86 34 E 68 E 4142 39 N 86 44 E 65 E 4208 84 N 86 54 E COMPUTATION DATE: 19-NOV-92 PAGE 7 arco ALASKA INC. P2 - 30 POINT MCINTYRE NORTH SLOPE, ALASKA DATE OF SURVEY: 12-NOV-1992 KELLY BUSHING ELEVATION: 49.00 FT ENGINEER: G. JOHNSDN INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA 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 9198 74 7949 O0 7900 O0 34 13 9319 9440 956O 9680 9799 9916 10031 10145 10260 87 8049 77 8149 92 8249 71 8349 33 8449 45 8549 65 8649 43 8749 20 8849 O0 8000 O0 8100 O0 8200 O0 8300 O0 8400 O0 8500 O0 8600 O0 8700 O0 8800 O0 34 24 O0 33 51 O0 33 42 O0 32 54 O0 32 11 O0 30 34 O0 28 58 O0 28 37 O0 29 37 S 87 53 E 4275 23 N 89 40 E 4343 S 87 47 E 4411 S 87 45 E 4477 S 86 0 E 4543 S 86 14 E 4607 S 83 59 E 4667 S 80 32 E 4724 S 78 2 E 4777 S 77 31E 4831 55 42 87 58 14 72 17 18 87 2 08 1 16 1 54 0 39 1 47 1 O1 2 24 2 54 1 37 0 85 223 78 N 4270.91E 4276 77 N 87 0 E 223 37 N 4339.26 E 4345 222 27 N 4407.19 E 4412 219 27 N 4473.73 E 4479 215 38 N 4539.57 E 4544 211 45 N 4603.25 E 4608 206 33 N 4663.98 E 4668 198 62 N 4720.64 E 4724 188.42 N 4773.93 E 4777 176.31 N 4828.95 E 4832 Ol N 87 3 E 79 N 87 7 E 10 N 87 12 E 67 N 87 17 E 10 N 87 22 E 54 N 87 28 E 82 N 87 35 E 65 N 87 44 E 16 N 87 55 E 10375.59 8949.00 8900.00 30 12 10491.46 9049.00 9000.00 30 26 10607.37 9149.00 9100.00 30 17 10722.81 9249.00 9200.00 29 36 10826.00 9338.73 9289.73 29 36 S 77 23 E 4887.75 S 77 49 E 4944.54 S 78 5 E 5001.52 S 77 4 E 5057.54 S 77 4 E 5106.90 0.19 0.53 0.15 O. O0 O. O0 163.90 N 4885.16 E 4887.91 N 88 5 E 151.19 N 4942.29 E 4944.60 N 88 15 E 138.95 N 4999.61 E 5001.$4 N 88 24 E 126.63 N 5055.95 E 5057.54 N 88 34 E 115.21 N 5105.62 E 5106.92 N 88 42 E ARCO ALASKA TNC. P2 - 30 POTNT MCTNTYRE NORTH SLOPE, ALASKA MARKER GCT LAST READING TD COMPUTATION DATE: 1g-Nov-g2 PAGE 8 DATE OF SURVEY: 12-NOV-1992 KELLY BUSHZNG ELEVATZON: 49.00 FT ENGZNEER: G. JOHNSON ZNTERPOLATED VALUES FOR CHOSEN HORZZONS SURFACE LOCATZON = 191' FNL ~ 1383' FWL, SEC14 T12N R14E MEASURED DEPTH TVD RECTANGULAR COORDZNATES BELOW KB FROM KB SUB-SEA NORTH/SOUTH EAST/WEST 10707.40 9235.60 9186.60 128.33 N 5048.54 E 10826.00 9338.73 9289.73 115.21N 5105.62 E ArCO ALASKA INC. P2 - 30 POINT MCINTYRE NORTH SLOPE, ALASKA MARKER COMPUTATION DATE: 19-NOV-92' DATE OF SURVEY KELLY BUSHING ELEVATION ENGINEER MEASURED DEPTH BELOW KB 10826.00 PAGE 9 12-NOV-1992 49.00 FT G. JOHNSON STRATIGRAPHIC SUMMARY ************ SURFACE LOCATION = 191' FNL ~ 1383' FWL, SEC14 T12N R14E TVD RECTANGULAR COORDINATES FROM KB SUB-SEA NORTH/SOUTH EAST/WEST 9338.73 9289.73 115.21N 5105.62 E FINAL WELL LOCATION AT TD: TRUE SUB-SEA MEASURED VERTICAL VERTICAL DEPTH DEPTH DEPTH HORIZONTAL DEPARTURE DISTANCE AZIMUTH FEET DEG MIN 10826.00 9338.73 9289.73 5106.92 N 88 42 E DIRECTIONAL SURVEY coa~,A~r~ ARCO ALASKA INC. ;]£u~ POINT MCINTYRE WELL 1>2 - 30 COUNTRY USA RUN o~T; LOGGED 12 - NOV - 92 OEi~l' H UNIT FEET REFERENCE 92674 WELL- P2-30 (191' FNL, 1383' ~lL, SEC 14, T12N, R14E) HORIZONTAL PROJECTION - 1000 0 t000 2000 3000 4CIO0 SO00 8000 7000 WELL- P2-30 (191' FNL, 1383' F~L, SEC 14, TI2N, R14E) VERTICAL PROJECTION -1000 0 0 1000 2O0O ~X)O 40O0 I~Q~EGT~ONONYE]~IGmd. PI.N~ ~le.~e N.~ EC,,~.EDI, IVER'TIGN. DEi:'I'HGI.IORIZ~C;:,I"~LE- 1 ] 1000 FINAL WELL REPORT PRUDHOE BAY DRILLING GROUP POINT MACINTYRE P2-30 NORTH SLOPE, ALASKA 19 OCTOBER 1992 TO 05 NOVEMBER 1992 THE INFORMATION, INTERPRETATIONS, RECOMMENDATIONS, OR OPINIONS CONTAINED HEREIN ARE ADVISORY ONLY AND MAY BE REJECTED. CONSULTANT DOES NOT WARRANT THEIR ACCURACY OR CORRECTNESS. NOTHING CONTAINED HEREIN SHALL BE DEEMED TO BE INCONSISTENT WITH, NOR EXPAND, MODIFY OR ALTER CONSULTANT'S OBLIGATION OF PERFORMANCE AS PROVIDED FOR IN A WRITTEN AGREEMENT BETWEEN THE PARTIES, OR IF NONE, IN CONSULTANT'S MOST RECENT PRICE LIST. EXPLORATION LOGGING OF USA, INC. ORIGti' AL COMPILED BY: GARY HAMBURG BILL STEVENS JOHN MALYON DAVE FREEBURG SAM HEWITT RALPH WINKELMAN APPROVED BY: LARRY SHIELDS TABLE OF CONTENTS PAGE INTRODUCTION ............................................ 1 PROLOGUE ................................................ 2 SUMMARY OF DATA ......................................... 3 METHODS OF: ............................................. 4 MUDLOG .......................................... 4 DRILL DATA ACQUISITION .......................... 4 COMMUNICATIONS .................................. 4 SAMPLING PROCEDURES AND INTERVALS ............... 4 FORMATION EVALUATION K15 LITHOLOGY ............................... ~ DRILL AND GAS DATA ...................... 5 OIL AND GAS SHOWS ....................... 5 WEST SAK LITHOLOGY 6 eeeeeeeeeeeeeeeelee.eeeleeelele DRILL AND GAS DATA ...................... 6 OIL AND GAS SHOWS ....................... 7 HUE SHALES (K10, HRZ,) LITHOLOGY ............................... 8 DRILL AND GAS DATA ...................... 8 OIL AND GAS SHOWS ....................... 8 KUPARUK LITHOLOGY ............................... 9 DRILL AND GAS DATA ...................... 9 OIL AND GAS SHOWS ....................... 9 MILUVEACH LITHOLOGY ............................... 10 DRILL AND GAS DATA ...................... 10 OIL AND GAS SHOWS ....................... 10 APPENDIX I · II. III. IV. V. VI. SAMPLE DISTRIBUTION SHOW REPORTS BIT RECORD CORE PRINTOUTS DAILY DRILLING SUMMARY INTEGRATED FORMATION LOG (MD), LOG (TVD), INTEGRATED FORMATION DRILLING DATA LOG, AND PRESSURE DATA LOG INTRODUCTION THE P2-30 WELL IS ONE OF A SERIES OF POINT MCINTYRE DELINEATION WELLS, DRILLED ON THE WEST DOCK PAD, APPROXIMATELY 12 MILES NORTH WEST OF PRUDHOE BAY, ALASKA. COORDINATES FOR THE SURFACE LOCATION OF THE WELL ARE: 191' FNL & 1383' FWL, IN SECTION 14, T12N, R14E UMIAT MERIDIAN. PROPOSED BOTTOM HOLE COORDINATES WERE TO THE EAST AT: 54' FSL & 3975' FEL, IN SECTION 12, T12N, R14E UM. THE MAIN OBJECTIVE OF THIS WELL WAS TO TEST THE KUPARUK RIVER FORMATION, A LOWER CRETACEOUS AGE MEMBER OF THE UGNURAVIK GROUP, AT A PROJECTED DEPTH OF 8835' SUB SEA TRUE VERTICAL; THROUGH, THE RECOVERY OF LOW INVASION CORES OVER THE ZONE OF INTEREST AND BY ELECTRIC LOG ANALYSIS UPON THE COMPLETION OF DRILLING. PROJECTED TARGET (KUPARUK RIVER) COORDINATES WERE: 42' FSL & 4224' FEL, IN SECTION 12, T12N, R14E UM. THE PROPOSED TARGET WAS REACHED BY DRILLING A DEVIATED HOLE; THROUGH THE USE OF DIRECTIONAL DRILLING TOOLS AND TECHNIQUES, SUCH THAT THE PROPOSED BOTTOM HOLE LOCATION WOULD BE EAST AT AN AZIMUTH OF 87.31 DEGREES AND WITH A DEPARTURE OF 5204', WITH RESPECT TO SURFACE LOCATION. PROGNOSED BOTTOM HOLE COORDINATES WERE: 54' FSL & 3975' FEL, IN SECTION 12, T12N, R14E UM. THE WELL PROGRAM WAS DESIGNED FOR THE KICK-OFF TO START AT ABOUT 500' MD AND TO GRADUALLY BUILD ANGLE TO ABOUT 34.66 DEGREES FROM TRUE VERTICAL AT ABOUT 2811' MEASURED DEPTH AND HOLD THAT ANGLE UNTIL THE MEASURED DEPTH OF APPROXIMATELY 10120'. THE ANGLE WOULD THEN BE ALLOWED TO DROP TO A FINAL WELL BORE ANGLE OF 30 DEGREES FROM TRUE VERTICAL AT ABOUT 10348' MEASURED DEPTH. THE PROGNOSED TOTAL DEPTH OF THE WELL WAS 10872' MD, 9305' TVD. THE PROGRAM CALLED FOR THE 9-5/8 INCH CASING SHOE TO BE SET JUST ABOVE THE TOP OF THE KUPARUK AND TO CHANGE OUT THE FRESH WATER BASED DRILLING MUD TO LVT 200, A MINERAL OIL BASED DRILLING FLUID WITH LESS THAN 2% WATER CONTENT, DESIGNED FOR THE RETRIEVAL OF LOW INVASION CORES. THE PROJECTED STRATIGRAPHIC SEQUENCE PENETRATED BY THIS HOLE INCLUDED THE PERMAFROST, K-15, WEST SAK, K-lO, , HRZ, KALUBIK, AND KUPARUK RIVER FORMATIONS WITH PROPOSED FINAL WELL T.D. IN THE LOWER CRETACEOUS MILUVEACH FORMATION. -1- PROLOGUE THE WELL WAS STARTED WITH AN INITIAL GROUND LEVEL OR PAD ELEVATION OF 9 FEET ABOVE SEA LEVEL. THE RIG ROTARY KELLY BUSHING WAS 37 FEET ABOVE PAD LEVEL FOR A TOTAL RIG KELLY BUSHING ELEVATION OF 46 FEET ABOVE SEA LEVEL. DEPTHS ON THE MUD LOGS ARE IN REFERENCE TO RIG KELLY BUSHING. -2- SUMMARY OF PERTINENT DATA WELL NAME: API NUMBER: OPERATOR: PARTNERS: CONTRACTOR' LOCATION: ELEVATION: CASING' DATE SPUDDED: DATE TOTAL DEPTH REACHED: FINAL TOTAL DEPTH: CONVENTIONAL CORES: FORMATION TESTS: HYDROCARBON SHOWS: COMPANY GEOLOGISTS: EXLOG GEOLOGISTS: FINAL WELL STATUS' POINT MACINTYRE P2-30 50-029-22289 PRUDHOE BAY DRILLING GROUP ARCO ALASKA, BP EXPLORATION, AND EXXON ALASKA UNITED DRILLING CO. AUDI RIG #2 191' FNL, 1383' FWL SEC 14, T12N, R14E UMIAT MERDIAN GROUND LEVEL 9' ABOVE SEA LEVEL ROTARY KELLY BUSHING 35' ABOVE GROUND 13.375" AT 3839' RKB 9.625" AT 10242' RKB 7.00" AT 10826' RKB 13 OCTOBER 1992 03 NOVEMBER 1992 10826' RKB 9332' TVD CORE #1 10243' - 10302' CORE #2 10302' - 10391' CORE #3 10391' - 10480' CORE #4 10480' - 10569' CORE #5 10569' - 10622' CORE #6 10622' - 10652' NONE RUN AT THIS TIME SEE SHOW REPORTS - APPENDIX II. KEVIN FRANK, ARCO ALASKA BOB HUNTER, BP EXPLORATION DEBRA VON GERICHTEN, BP EXPLORATION GARY HAMBURG, DAVE FREEBURG BILL STEVENS, JOHN MALYON SAM HEWITT, RALPH WINKELMAN E-LOGS AND RUN 7" LINER TO T.D. -3- METHODS GEOLOGIC AND DRILLING DATA WAS COLLECTED AT THE WELLLSITE USING EXLOG'S DRILL MONITOR SYSTEM (DMS). THE SYSTEM IS A COMPUTER BASED DATA COLLECTION UNIT, USED IN ACQUISITION, COMPILATION AND OUTPUT OF DATA. ADDITIONAL LITHOLOGIC AND HYDROCARBON EVALUATION WAS PROVIDED BY EXLOG'S ONSITE GEOLOGISTS. METHODS OF ANALYSIS USED FOR EVALUATION ARE PRESENTED IN EXLOG'S MANUAL "MUDLOGGING: PRINCIPLES AND INTERPRETATIONS" (MS-196). ~' % MUDLOG ,,~. ..,...~ ii,, THE MUDLOG FORMAT WAS PREVIOUSLY ESTABLISHED ON FORMER POINT MACINTYRE ,~' ! WELLS LOGGED BY THIS CREW. DATA DISPLAYED ON THE LOG INCLUDES: ~ ..' LITHOLOGY, RATE OF PENETRATION, TOTAL GAS, CUTTINGS GAS, ~' % CHROMATOGRAPH DATA, RESISTIVITY AND GAMMA RAY DATA WAS IMPORTED FROM (':~... TELECO AT THE END OF EACH BIT RUN. TOTAL GAS, RATE OF PENETRATION, (~==~) CUTTINGS GAS AND GAMMA RAY ARE PLOTTED LINEARLY, WHILE ALL OTHER PARAMETERS ARE PLOTTED LOGARITHMICALLY. LOGS WERE PLOTTED AS 2 INCHES PER 100 FEET (1'600), WITH THE EXCEPTION OF THE PRESSURE DATA LOG. DRILL DATA DRILLING DATA MONITORED INCLUDED: RATE OF PENETRATION (ROP) USING THE BLOCK HEIGHT SYSTEM, ROTARY SPEED, HOOKLOAD, WEIGHT ON BIT, TORQUE (MINIMUM, MAXIMUM, AND AVERAGE), MUD FLOW IN AND OUT, MUD TEMPERATURE IN AND OUT, STANDPIPE PRESSURE, PUMP STROKES, AND ALL PITS WERE MONITORED. ALSO THREE H2S STATIONS WERE MONITORED AT ALL TIMES. THIS DATA WAS PLOTTED ON THE LOGS AS WELL AS BEING DISPLAYED ON REMOTE TERMINALS. COMMUNICATION EXLOG PROVIDED ONSITE AND OFF LOCATION REMOTE TERMINALS FOR THE DISPLAY OF ALL DRILLING PARAMETERS. THERE WAS A RADIO MODEM CONNECTION WITH A REMOTE TERMINAL IN THE DRILLING OFFICE OFF LOCATION IN THE LIVING CAMP, AS WELL AS A REMOTE TERMINAL IN THE GEOLOGIST'S OFFICE AT THE WELLSITE. AN EXPLOSION PROOF DRILL MONITOR (HAD) WAS PROVIDED FOR THE DRILLER ON THE RIG FLOOR. SAMPLING SAMPLES WERE COLLECTED AS PER THE DIRECTIONS RECIEVED FROM BOB DAWSON IN THE ARCO ALASKA OFFICES. THREE WET AND FIVE DRY SAMPLES WERE COLLECTED. 7440' - 9600' MD 9600' - TD 30 FOOT SAMPLE INTERVALS 10 FOOT SAMPLE INTERVALS ALL SAMPLES WERE SHIPPED TO THE BAYVIEW GEOLOGIC FACILITY WAREHOUSE IN ANCHORAGE, IN CARE OF M.V. STANFORD. A COMPLETE LISTING OF SAMPLE SHIPMENTS CAN BE FOUND IN THE APPENDIX. -4- FORMATION EVALUATION COMMENCED LOGGING AT 01:20 HOURS, OCTOBER 10, 1992 AT 6487 FEET TVD (7440 FEET MD) IN THE LATE CRETACEOUS IN THE K-15 INTERVAL. ALL DEPTHS UNLESS OTHERWISE SPECIFIED, ARE FROM K.B. WHICH WAS 46 FEET ABOVE SEA LEVEL. FORMATION TOPS ARE UNCONFIRMED AND VERY APPROXIMATE. K15 INTERVAL LITHOLOGY LOGGING COMMENCED IN THE K15 INTERVAL AT 6487 FEET TVD (7440 FEET MD) AND THIS INTERVAL CONTINUED DOWN TO ABOUT 6980 FEET TVD (8038 FEET MD). THIS INTERVAL CONSISTED MOSTLY OF MULITCOLOURED TO GRAY SAND AND SANDSTONE WITH MINOR AMOUNTS OF CLAY, CONGLOMERATE AND COAL. THE SAND TENDED TO BE GRAY TO MULTICOLOURED, AND MEDIUM TO COARSE GRAINED. IT WAS PREDOMINATE IN THE UPPER 100 FEET OF THE INTERVAL AND OCCURRED IN VARYING AMOUNTS OVER THE REST OF THE SECTION. THE SANDSTONE TENDED TO BE LIGHT GRAY, VERY FINE TO FINE GRAINED, AND FRIABLE TO MODERATELY WELL CEMENTED. IT OCCURRED THROUGHOUT THE SECTION. LIGHT BROWN TO BROWN CLAY OCCURRED THROUGHOUT THE SECTION AND TENDED TO WASH OUT OF THE SAMPLES, THUS THE AMOUNT OF CLAY MAY BE SOMEWHAT UNDERREPRESENTATIVE ON THE LOGS. MINOR AMOUNTS OF COAL OCCURRED AT ABOUT 6840' TVD (7872' MD), AND 6890' TVD (7933' MD). THE CONGLOMERATE CONSISTED OF MULTICOLOURED UNCONSOLIDATED GRANULES AND FRAGMENTS OF QUARTZ AND CHERT WITH SOME DARK MAFICS, AND OCCURRED TOWARD THE BOTTOM OF THE SECTION. DRILL RATE AND GAS DATA THE DRILL RATES RANGED FROM 20 TO 270 FEET PER HOUR FOR THE MAJORITY OF THE SECTION AVERAGING ABOUT 65 FEET PER HOUR. THE DRILL RATE IN GENERAL WAS QUITE ERRATIC. AT ABOUT 6780' TVD (7800' MD) THE DRILL RATE SLOWED TO ABOUT 20 - 40 FEET PER HOUR, DUE TO THE DULLING OF BIT #2. AFTER A BIT CHANGE AT 6817' TVD (7843' MD), THE DRILL RATE AGAIN RANGED FROM 20 TO 250 FEET PER HOUR. DITCH GAS DITCH GAS RANGED FROM 10 TO 65 UNITS, AVERAGING ABOUT 20 UNITS. THE DITCH GAS INCREASED SOMEWHAT AT ABOUT 6940' TVD (7994' MD) TO ABOUT 50 UNITS AND THE FIRST CONNECTION GAS OF 40 UNITS APPEARED AT ABOUT 6950' TVD (8006' MD) WITH A MUD DENSITY OF 9.5 PPG. THERE WAS ONE TRIP GAS OF 190 UNITS AT 6817' TVD (7844' MD). C! WAS THE ONLY GAS PRESENT. OIL AND GAS SHOWS THERE WERE TRACES OF OIL SHOWS WITH A TRACE DULL GOLD TO YELLOW SAMPLE FLUORESCENCE AND A FAINT SLOW LIGHT YELLOW CUT FLUORESCENCE WITH NO VISIBLE CUT OR VISIBLE RESIDUE. -5- WEST SAK INTERVAL LITHOLOGY THE WEST SAK INTERVAL OCCURRED FROM ABOUT 6980' TVD (8043' MD) TO ABOUT 8620' TVD (10009' MD). THE ESTIMATION OF THE TOP OF THIS SECTION IS VERY APPROXIMATE. THE WEST SAK INTERVAL CONSISTED PREDOMINATELY OF LIGHT TO MEDIUM GRAY BROWN SILTSTONE AND MEDIUM GRAY TO GRAY BROWN CLAY WITH SOME SOME SAND AND CONGLOMERATE AT THE TOP OF THE SECTION AND MINOR SAND THROUGHOUT THE SECTION. COAL OCCURRED FROM 7115' TVD (8208' MD) TO 7170' TVD ( 8275' MD) AND AT 7415' TVD (8575' MD) AND 7960' TVD (9219' MD). THE SANDS AT THE TOP TENDED TO BE MULTICOLOURED TO GRAY WHITE, VERY FINE TO FINE GRAINED AND UNCONSOLIDATED. THE CONGLOMERATE WAS GENERALLY MULTICOLOURED AND CONSISTED OF GRANULES AND FRAGMENTS OF QUARTZ AND CHERT WITH SOME DARK LITHIC FRAGMENTS. THE SILTSTONE TENDED TO BE LIGHT TO MEDIUM GRAY BROWN, FAIRLY SOFT, MICRO MICACEOUS, CARBONACEOUS, AND GRADING TO CLAY AND CLAYSTONE. THE CLAY WAS LIGHT BROWN TO GRAY BROWN, VERY SOFT AND TENDED TO WASH OUT OF THE SAMPLES. THUS THE CLAYSTONE MAY HAVE BEEN UNDERREPRESENTATIVE IN THE SAMPLES AND ON THE LOGS. THE FIRST TRACE OF INOCERAMUS OCCURRED AT 7321' TVD (8460' MD) TO 7345' TVD (8490' MD) AND APPEARED IN TRACE AMOUNTS THROUGHOUT THE REST OF THE SECTION. THE INOCERAMUS WAS CREAM BROWN TO IVORY WHITE IN COLOUR. TRACE AMOUNTS OF PYRITE OCCURRED THROUGHOUT THE WHOLE INTERVAL. AT ABOUT 8440' TVD (9800' MD) A RED TO RED BROWN GLASSY CRYSTALLINE TUFF OCCURRED. THIS TUFF TENDED TO BE HARD, BRITTLE, AND FRAGMENTAL AND MAY HAVE BEEN A BEDDED TUFF. IN GENERAL THE SANDS AND SILTSTONES OF OF THE WEST SAK UNIT TENDED TO HAVE A TRACE DULL GOLD SAMPLE FLUORESCENCE, WITH A WEAK BLUE GREEN TO WHITE YELLOW STREAMING CUT FLUORESCENCE. THERE WAS ONLY THE OCCASIONAL EVIDENCE OF OIL STAINING, AND GENERALLY NO VISIBLE CUT AND ONLY THE OCCASIONAL BROWN RESIDUE RING. DRILL RATES AND GAS DATA THE DRILL RATES WERE QUITE FAST IN THE SAND AT THE TOP OF THE SECTION RANGING FROM 30 TO 280 FEET PER HOUR AND GENERALLY AVERAGING ABOVE 100 FEET PER HOUR. AT ABOUT 7100' TVD (8190' MD) THE DRILL RATES SLOWED DOWN AND RANGED FROM 20 TO 90 FEET PER HOUR, AVERAGING ABOUT 40 FEET PER HOUR FOR THE REST OF THE SECTION. THE RATES OF PENETRATION IN SECTIONS WHERE THE DRILL PIPE WAS ALLOWED TO SLIDE TO ADJUST THE HOLE ANGLE, WERE GENERALLY SLOW AT ABOUT 20 FEET PER HOUR. DITCH GAS VALUES RANGED FROM 10 TO 200 UNITS AND AVERAGED ABOUT 100 UNITS. CONNECTION GASES OF 15 TO 60 UNITS WERE COMMON THROUGHOUT THE SECTION EVEN AS THE MUD DENSITY WAS GRADUALLY INCREASED FROM 9.5 PPG TO 10.2 PPG. A SHORT TRIP GAS OF 580 UNITS OCCURRED AT ABOUT 7860' TVD (9096' MD). THE GAS WAS ONLY C1 DOWN TO ABOUT 7080' TVD (8165' MD) WHERE C2 AND C3 STARTED TO OCCUR. IC4 AND NC4 STARTED TO APPEAR AT ABOUT 7160' TVD (8263' MI)), AND C1 THROUGH NC4 WERE PRESENT FROM THAT DEPTH TO THE END OF THE WEST SAK SECTION. -6- OIL AND GAS SHOWS ONE LONG, YET INTERMITTENT TRACE OIL SHOW CHARACTERIZED THE SANDS AND SILTSTONES OF THE WEST SAR. THE SAMPLES GENERALLY HAD FROM TRACE TO 5% DULL GOLD SAMPLE FLUORESCENCE WITH A WEAK BLUE GREEN TO WHITE YELLOW STREAMING CUT FLUORESCENCE. THERE WAS GENERALLY NO VISIBLE CUT AND ONLY AN OCCASIONAL BROWN RESIDUAL RING AFTER EVAPORATION OF THE CUTTING AGENT. THE WEST SAK IS GENERALLY NOT CONSIDERED TO BE AN ECONOMICALLY PRODUCTIVE ZONE IN THIS AREA AND THE SHOW WAS RATED AS TRACE TO POOR. HUE SHALE SECTION (K10, HRZ) LITHOLOGY THE HUE SHALE, CONTAINING THE K-10 AND HRZ, COMMENCED AT ABOUT 8620' TVD (10009' MD) AND GRADED INTO THE KUPARUK AT ABOUT 8829' TVD (10244' MD.) THE TOP OF THE HUE SHALE IS VERY APPROXIMATE AND BASED ON AN INCREASED GAMMA RAY SIGNATURE AND THE GENERAL APPEARANCE OF LIGHT BLUE GRAY BENTONITIC TUFF. THE HRZ, A ZONE OF HIGH RADIOACTIVITY OCCURRED TOWARD THE BASE OF THE SECTION. THIS INTERVAL CONSISTED OF SHALE WITH UP TO 40% SILTSTONE AT THE TOP OF THE SECTION. THE SILTSTONE TENDED TO BE LIGHT GRAY TO GRAY BROWN AND FIRM TO SLIGHTLY HARD. TIlE SHALE WAS DARK GRAY TO DARK BROWN, BECOMING DARKER AND HARDER WITH DEPTH. IT BEC~ddE FISSILE AND VERY FLAKEY WITH ABUNDANT FLAKES AND LAMINATIONS OF CARBONACEOUS MATERIAL TOWARDS THE BOTTOM OF THE SECTION. SAMPLES DRYING IN THE OVEN EXHIBITED A CHARACTERISTIC BURNT RUBBER SMELL. SOFT GRAY WHITE TO BLUE GRAY TUFF AND BENTONITE WAS COMMON, UP TO 10%, THROUGHOUT TilE SECTION, BUT GENERALLY BECOMMING MORE ABUNDANT TOWARDS THE BASE OF THE SECTION. TAN BROWN TO CREAM BROWN INOCERAMUS FRAGMENTS WERE COMMON THROUGHOUT THE SECTION. A TRACE OF DARK BROWN SIDERITE WAS NOTED AT THE BASE OF THE SECTION. THE SECTION EXHIBITED FAIR SOLVENT CUTS AND FAINT SAMPLE FLUORESCENCE AS THE HUE IS CONSIDERED TO BE A MAJOR SOURCE ROCK FOR THE NORTH SLOPE AREA. DRILL RATES AND GAS DATA DRILL RATES RANGED FROM 10 TO 70 FEET PER HOUR AND AVERAGED ABOUT 50 FEET PER HOUR. THE DRILL RATES TENDED TO BE SOMEWHAT SLOWER TOWARD THE BOTTOM OF THE SECTION. DITCH GAS RANGED FROM 60 TO 150 UNITS WITH AN AVERAGE OF ABOUT 110 UNITS. THERE WAS A SWAB GAS OF 260 UNITS AT ABOUT 8690' TVD (10093' MD) AND A CONNECTION GAS OF 204 UNITS AT ABOUT 8807' TVD (10221' MD). TRIP GASES OF 1100 UNITS AND 970 UNITS OCCURRED. C1 THROUGH NC4 OCCURRED THROUGHOUT THE SECTION. OIL AND GAS SHOWS TRACE TO 10% DULL GOLD FLUORESCENCE WITH A WEAK BLUE GREEN STREAMING CUT FLUORESCENCE OCCURRED IN THE SHALE THROUGHOUT THIS SECTION. THERE WAS GENERALLY NO VISIBLE CUT AND GENERALLY A FAINT MEDIUM TO DARK BROWN RESIDUE RING. A SHOW RATING OF POOR WAS GIVEN TO THIS INTERVAL DUE TO TIlE POOR PERMEABILITY AND LITHOLOGY OF THE ROCK, ALTHOUGH THIS SECTION IS GENERALLY REGARDED AS A SOURCE ROCK FOR THE NORTH SLOPE AREA. -8- KUPARUK SECTION THE 9 5/8 INCH CASING SHOE WAS SET JUST ABOVE THE KUPARUK AT 8827' TVD (10242' MD) AND THE KUPARUK STARTED AT ABOUT 8829' TVD (10244' MI)). THE SAMPLES CONTAINED A MIXTURE OF SANDSTONE, SILTSTONE, AND SHALE AT THE VERY TOP OF THE SECTION, GIVING WAY TO ONLY SANDSTONE AND THEN A MIXTURE OF SANDSTONE, SILTSTONE, AND SHALE, OVER THE LAST 20 FEET OR SO OF THE SECTION. THE SAMPLE QUALITY AT THE TOP OF THE SECTION WAS QUITE POOR, DUE TO THE OIL BASED CORING FLUID, CEMENT SLOUGHED IN FROM THE CASING SHOE, AND THE POSSIBLE LOSS OF SAMPLE THROUGH THE SHAKER SCREENS. AFTER CHANGING OUT THE SHAKER SCREENS AT ABOUT 8956' TVD (10391' MD) THE SAMPLE QUALITY WAS MUCH IMPROVED AND A LOT MORE SANDSTONE WAS EVIDENT IN THE SAMPLES. THE SANDSTONE WAS CLEAR TO WHITE TRANSLUCENT AND OCCASIONALLY FROSTED. IT WAS VERY FINE TO FINE GRAINED AND GENERALLY UNCONSOLIDATED TO VERY WEAKLY CEMENTED. THE SANDSTONE WAS SUBROUNDED AND OCCASIONALLY SUBANGULAR, AND WELL SORTED. IT EXHIBITED LIGHT AND DARK BROWN OIL STAINING, WITH EVEN DULL GOLD SAMPLE FLUORESCENCE , AN INSTANTANEOUS BLUE WHITE TO BLUE YELLOW CUT FLUORESCENCE, WITH A DARK TEA TO MUDDY BROWN VISIBLE CUT AND A DARK BROWN TO MUDDY BROWN RESIDUE RING. DRILL RATES AND DITCH GAS THE ENTIRE SECTION WAS CORED WITH AN 8 1/2 INCH CORING ASSEMBLY. THE FIRST CORE BIT USED, FROM 8828' TVD (10243' MD) TO 8879' TVD (10302' MD) WAS DESIGNED TO BE USED IN BOTH SHALE AND SANDSTONE AND THE PENETRATION RATES FOR THIS BIT RANGED FROM 6 TO 50 FEET PER HOUR WITH AN AVERAGE OF 20 FEET PER HOUR. THE REST OF THE SECTION WAS CORED WITH A BIT DESIGNED TO BE USED IN SANDSTONE, AND THE PENETRATION RATES WERE MUCH HIGHER RANGING FROM 20 TO 140 FEET PER HOUR AND AVERAGING ABOUT 65 FEET PER HOUR. BELOW 9100' TVD (10557' MD) THE DRILL RATE SLOWED DOWN DUE TO INCREASED SILTSTONE AND SHALE IN THE FORMATION. DITCH GAS UNITS AVERAGED ABOUT 40 UNITS DOWN TO ABOUT 8880' TVD (10303' MD) WHERE THEY INCREASED TO OVER 200 UNITS AND RANGED BETWEEN 300 TO 500 UNITS DOWN TO ABOUT 9080' TVD (10534' MD) WHERE THE GAS UNITS BEGAN TO TAPER OFF, REACHING ABOUT 50 UNITS AT THE END OF THE SECTION. C1 THROUGH NC4 GASES WERE ALL PRESENT. A VERY LARGE TRIP GAS OF 6800 UNITS OCCURRED AT 8880' TVD (10303' MD) WITH A MUD DENSITY OF 9.8 PPG. THE MUD DENSITY WAS SUBSEQUENTLY RAISED TO 10.2 PPG AND AND TRIP GASES WERE IN THE RANGE OF 100 TO 150 UNITS FROM THEN ON. OIL AND GAS SHOWS THE KUPARUK SECTION IN GENERAL EXHIBITED A GOOD OIL AND GAS SHOW WITH HIGH DITCH GAS VALUES AND OIL STAINING IN THE SANDSTONE THROUGHOUT THE MAJORITY OF THE INTERVAL. %HE OIL SHOW WAS MASKED SOMEWHAT BY THE OIL BASED CORING FLUID. IN GENERAL 80 - 100% OF THE SANDSTONE EXHIBITED LIGHT BROWN TO DARK BROWN OIL STAINING WITH A FAIRLY EVEN DULL GOLD SAMPLE FLUORESCENCE. THE SANDSTONE HAD A BLUE WHITE TO BLUE YELLOW INSTANTANEOUS CUT FLUORESCENCE WITH A DARK TEA TO MUDDY BROWN VISIBLE CUT AND A MEDIUM TO DARK BROWN RESIDUE RING. -9- APPENDIX I. SAMPLE DISTRIBUTION SAMPLE SHIPMENTS FROM P2-30 DRY SAMPLES POI NT MACI NTYRE UNIT 250 AUDI RIG #2 --- BOX ---- # DEPTHS DATE SHIPPED D1-A 8760-9820 10/27/92 D1-B D1-C D1-D D2-A 9820-10242 10/27/92 D2-B D2-C D2-D D4-A 10242-10650 D4-B D4-C D4-D D5-A D5-B D5-C D5-D D1-E D2-E D3-E D4-E 11/03/92 10650-10826 11/03/92 8760-9450 9450-9900 9900-10242 10242-10570 D5-E 10570-10826 10/27/92 11/03/92 ENTIRE FLIGHT # SHIPPERS INITIALS WHS WHS WHS WHS WHS SAMPLEX TRAY SET SENT 11/03/92 BY WHS SAMPLE ..SH!PME.N.~.S'i"_~ROM P2-30 WET SAMPLES POINT MACINTYRE UNIT 250 AUDI RIG #2 BOX # DEPTHS DATE SHIPPED FLIGHT # SHIPPERS INITIALS W1-A W1-B W1-C W2-A W2-B W2-C W3-A W3-B W3-C W4-A W4-B W4-C WS-A W5-B W5-C W6-A W6-B W6-C 7440-8640 8640-9570 9570-10000 10000-10242 10242-10620 10620-10826 10/27/92 10/27/92 10/27/92 10/27/92 11/03/92 11/03/92 WHS WHS WHS WHS WHS WHS APPENDIX I I. SHOW REPORTS OIL COMPANY' PRUDHOE BAY DRILLING DATE: 10/21/92 -10/23/92 TIME: --- SHOW REPORT # 1 WELL#: P2-30 SHOW INTERVAL: 9940' 6960' LOCATION: POINT MCINTYRE NORTH SLOPE, ALASKA TO 12740' (MD) TO 8805' (TVD) BIT SIZE: 12.25" BIT TYPE: #3 SEC SE315LJ4 #4 SEC SE315J4 #5 STC M1SL #6 STC F1C #7 STC MFDSHC MUD WEIGHT: 9.6+ - 9.8 ppg WOB:25-65 klb VISCOSITY: 42 - 50 RPM: 228 - 245 LOGGING COND: GOOD FILTRATE: 4.0 - 6.9 PUMP PR: 2450 - 3400 EST. PORE PRES: 9.2-9.4 ppg PUMP SPM: 148 - 152 BEFORE DURING AFTER ROP ft/hr 15 -220 15 - 60 15 - 90 TOT GAS units 10 -25 15 -50 20 -40 C1 ppm 300 -3000 600 - 10K 2O0O -70O0 C2 C3 ppm ppm 0 0 9 7 -250 - 95 90 30 -300 - 110 C4 ppm 0 - 18 7 - 45 C5 ppm CHL ppm 1100 1100 -800 8OO OIL IN MUD: GENERALLY NONE, LOC TRACE DK BN FLUOR: LOC TR PALE YEL UNWASHED CUT FLUOR: TR DUL YEL WASHED CUT FLUOR: TR DUL YEL - GLD STAIN: TR DK BN, GENERALLY NONE LITHOLOGY 20% CLAYSTONE, 20% SILTSTONE, 60% SAND 20% CLAYSTONE, 60% SILTSTONE, 20% SAND & LOCAL SANDSTONE 20% SHALE, 50% SILTSTONE, 30% SAND SOLVENT CUT FLUOR: PALE YEL - YEL GN INTENSITY: WEAK TYPE & SPEED: DELAY CUT, TR INSTANT NAT COLOR & RESIDUE: AMBER, TR STRAW VISUAL POROSITY: TIGHT, LOCAL TRACE CUTTINGS DESCRIPTION: SLTST: M - OCC DK GY, SFT - FRM, SBBLKY, NON - LOC CALC, CARB, VF - M SDY, LOC COALS, M GY CLY MTX, LOC INOC, LOC SHELL FRAGS, CHT, LOC TUFF, LOC DUL YEL - GLD FLOR, WK PALE YEL - YEL GN CUT FLOR, NON - LOC ;d~tBER VIS CUT & FNT RES STN, TR STRAW. SAND: GY - LT GY, VF - CRS GR, UNCONS, SBANG - SBRDD, MW SRTD, CRS CHT - QTZ FRAGS, LOC ABNT PYR, INOC, SHELL FRAGS, R GLAUC, NON - LOC GLD FLOR, TR WK PALE YEL - YEL GN CUT, NON - LOC WK AMBER VIS CUT, NON - LOC FNT AMBER RES STN. COMMENTS: WEST SAK - NOT TYPICALLY CONSIDERED AS AN ECONOMICALLY PRODUCTIIVE RESERVOIR, POOR CUTS, LACK OF STAINING. RATING' POOR ( 1 ) LOGGING GEOLOGIST: MALYON, HAMBURG, STEVENS ..... ~ ............. ~ ..... ~ .................................. ' ~,'S~)W REPORT # 2 OIL COMPANY: PRUDHOE BAY DRILLING WELL#: P2-30 LOCATION: POINT MCINTYRE NORTH SLOPE, ALASY~ DATE: 11/28/92 TIME: ...... 11/31/92 SHOW INTERVAL: 10244' TO 10581' (MD) 8827' TO 9120' (TVD) BIT SIZE' 8.50" MUD WEIGHT: 9.8 - 10.2 ppg WOB: 5-17 klb LOGGING COND: GOOD BIT TYPE: #6 ET SC712A VISCOSITY: 68-75 #7 ET RC412 RR7 ET RC412 FILTRATE: 6.5-7.0 RR7 ET RC412 #8 ET SC712G EST. PORE PRES: 9.8 ppg RPM: 77 - 100 PUMP PR: 930 - 1160 PUMP SPM: 72 - 81 BEFORE DURING AFTER ROP ft/hr 10 -140 8 -35 TOT GAS units 2OO -500 10 -60 C1 ppm 20.5K -71K 85OO C2 ppm 1650 -6533 83O C3 ppm 540 -2991 300 C4 ppm 105 -306 65 OIL IN MUD: OIL BASED MUD FLUOR: OIL BASED MUD UNWASHED CUT FLUOR: OIL BASED MUD WASHED CUT FLUOR: EVEN DULL GOLD STAIN: LT - DK BROWN 80 - 100% C5 CHL ppm ppm -- LITHOLOGY CASING 80 - 100 % SANDSTONE 0 - 20 % SILTSTONE 40% SHALE, 40% SILTSTONE 20% SANDSTONE SOLVENT CUT FLUOR: BLUE WHITE - BLUE YELLOW INTENSITY: STRONG TYPE & SPEED: INSTANT AND FAST NAT COLOR & RESIDUE: DK TEA TO MUDDY BROWN VISUAL POROSITY: UNCONSOLIDATED SANDSTONE CUTTINGS DESCRIPTION: SS: WH, CLR, FRSTD, TRNSL, UNCONS, VF - F GR, SBRDD, OCC SBANG - RDD, W SRTD, LT - DR BRN OIL STN ON 80 - 100% OF SMPL, EVEN DULL GLD SMPL FLOR, INST BL WH - BL YEL CUT FLOR, DK TEA - MUDDY BRN VIS CUT, DR TN - M BRN RESID COMMENTS: KAPARUK - GOOD UNCONSOLIDATED SAND IN SAMPLES, SHOW MASKED BY OIL BASED MUD RATING: VERY GOOD ( ) LOGGING GEOLOGIST: HEWITT, MALYON, STEVENS -- APPENDIX III. BIT RECORD BIT DATA RECORD __ :UN, ~i% : MFR: TYPE I SIZE I IADC : JET :START : DRILLED : AVG : WOB I RPM :PU%/P :SPM/GPM : BIT t : ~ : : : : CODE : SIZE : DEPTH: FT. : HRS : ROP :X1000: :PRESS: : CONDITION '--+ ..... + ....+ .......... + ...... * ...... 4 + ...... + .....% .....+ ...... + ..... + ..... + .....+ ........ 1 : 1 : STC: A1JSL : 16.00: :TFA=.6933: 60: 3825:35.3:108.4:10-35:155 : 2800: 220/780: '--% ..... % ....+ .......... % ...... % ...... 4 + ...... % .....+ .....% ...... % ..... % ..... % .....+ ........ 2 : 2 : STC: MFDSHC : 12.25: :TFA=.7040: 3885: 3958: 31.0:127.7 :35-60: 158 : 3050: 224/790:7:7:WT:A:E:4:NO:PR 3 : 3 : STC: F1C : 12.25: :TFA=.7040: 7843: 2257: 53.5:42.2:60-65:164 : 3900: 230/815:2:4:BT:Z/3:E:I:NO:B~ ---% ..... % ....+ .......... + ...... % ...... + % ...... + .....% .....% ...... % ..... + ..... + .....+ ........ 4 4 : 4 : STC: MFDSHC : 12.25[ [TFA=.6994: 10100: 142: 3.8:37.4 : 50 : 115 : 3950: 220/780:l:l:NO:A:E:I:NO:TD ---% ..... % ....+ .......... + ...... + ...... % % ...... + .....+ .....+ ...... % ..... % ..... % .....+ ........ 5 : 5 : STC: MFDSH : 8.5 : :TFA=.4954: 10242: I:USED TO DRILL OUT CEMENT AND SHOE AND 1 FOOT NEW FOR~TION ---% ..... % ....+ ~ ...... + ...... + ......... + ...... + .....% .....% ...... % ..... % ..... + .....+ ........ %- __ 6 : 6 : ET : SC712C : 8.5 :CORE :TFA=.9500: 10243: 59: 2.9: 20.0:6-11 : 100 : 1100: 80/280: 10% WORN ---% ..... % ....% ~ ...... % ...... % ......... % ...... % .....% .....+ ...... % ..... % ..... % .....% ........ 7 : 7 : ET : RC 412 : 8.5 :CORE :TFA=.80 : 10302: 891 1.9: 65.0[7-9 : 91 : 10501 80/2801 ---% ..... + ....+ % ...... + ...... % ......... + ...... % .....+ .....+ ...... % ..... % ..... % .....% 8 [RRT.I: ET : RC412 : 8.5 :CORE [TFA=.80 : 103911 891 1.3: 76.9[7-9 [ 77 : 927 : 72/2561 .--% ..... % ....% f ...... % ...... + ......... % ...... + .....+ .....% ...... % ..... % ..... + .....+ ........ 9 :RR7.2: ET : RC412 : 8.5 :CORE :TFA=.80 : 10480: 89[ 1.4: 57.0[10-12: 93 : 1099: 81/288: 20% WORN .--% ..... % ....% ~ ...... % ...... + ......... % ...... % .....% .....+ ...... + ..... % ..... + .....% ~ ..... 101 8 : ET : SC712G : 8.5 :CORE :TFA=.95 : 10569: 53: 5.41 10.4:17 I 91 : 1160: 81/2881 Il:RRB.l: ET : SC712G : 8.5 :CORE :TFA=.95 : 10622: 30: 2.6: 12.3:9-10 : 85 : 1180: 81/288: 20% WORN --~ ---+ .... % .......... % ...... + ...... % ......... % ...... % .....% .....% ...... % ..... + ..... + .....+ ........ 12i~UNK BASKET TO RECOVER A WRENCH : 10652: 3: 0.4: 7.5:12 : 50 : 605: 74/263: ---% ..... % ....~ .......... % ...... % ...... % ......... % ...... : .....% .....% ...... % ..... % ..... + .....% 13: 9 :SEC : S82F : 8.5 : :TFA=.61 : 10655: 171: 11.9[ 14.4:31-34[ 95 : 2000: ll6/412:2:2:NO:A:E:I:NO:TD ---% ..... + ....~ % ...... % ...... % ......... % ...... : .....+ .....% ...... % .....% ..... + .....+ % .... 14:RR9 :SEC : S82F : 8.5 : :TFA=.61 : 10826[ 01 01 0: 0 : 0 : 2000: llS/409:WIPER TRIP F/ LINER -.-% ..... % ....% .......... + ...... % ...... % ......... % : ~ .....% ...... + ..... + ..... + .....% ........ % ---% ..... + ....~ % ...... % ...... % ......... 4- ......: .....% .....% ...... % ..... + ..... + .....% % ---% ..... % ....4 + ...... + ...... % ......... % ...... 4' ..... 4' ..... 4' ......% ..... 4' .....4' ..... % % APPENDIX IV. CORE PRINTOUTS APPENDIX V. DAILY DRILLING SUMMARY MILUVEACH SECTION LITHOLOGY THE TOP OF THE MILUVEACH WAS ENCOUNTERED AT ABOUT 9120' TVD (10580' MD) AND THE WELL WAS ENDED IN THE MILUVEACH AT A DEPTH OF 9332' TVD (10826' MD). THE INTERVAL CONSISTED MOSTLY OF SILTSTONE AND SHALE WITH SOME SANDSTONE AT THE TOP OF THE SECTION AND CLAY TO CLAYSTONE TOWARDS THE BOTTOM. THE SHALE TENDED TO BE DARK BROWN AND FAIRLY HARD TO BRITTLE BECOMING HARDER WITH DEPTH. IT ALSO TENDED TO BE SOMEWHAT SILTY. THE CLAY TENDED ~O BE LIGHT GRAY IN COLOUR, FAIRLY SOFT AND SOMEWHAT GLAUCONITIC. SAMPLE QUALITY WAS QUITE POOR FOR THIS SECTION, GENERALLY DUE TO THE OIL BASED MUD, AND THE SANDSTONE LOGGED AT THE TOP OF THE SECTION MAY HAVE BEEN SLOUGHED IN FROM THE KAPARUK ABOVE IT. DRILL RATE AND GAS DATA THE DRILL RATE WAS FAIRLY CONSISTENT RANGING FROM 8 TO 37 FEET PER HOUR AND AVERAGED ABOUT 13 FEET PER HOUR. THE DRILL RATE WAS MUCH SLOWER THEN THE CORING RATES IN THE KAPARUK ABOVE IT, ALTHOUGH THE UPPER PART OF THE SECTION WAS DRILLED WITH A CORE BIT THE RATES WERE THE SAME AS THOSE OBTAINED WITH AN INSERT BIT. THE DITCH GAS DROPPED FROM ABOUT 60 UNITS AT THE TOP OF THE SECTION TO ABOUT 10 UNITS AT ABOUT 9185' TVD (10656' MD) AND REI~t~INED AT ABOUT 10 UNITS FOR THE REST OF THE SECTION. C1 THROUGH NC4 WERE PRESENT THROUGHOUT THE SECTION, OIL AND GAS SHOWS THE SAMPLES GENERALLY EXHIBITED A FAINT DULL GOLD SAMPLE FLUORESCENCE WITH A SLOW DULL WHITE YELLOW CUT FLUORESCENCE, A LIGHT BROWN VISIBLE CUT AND A MUDDY BROWN RESIDUE. THE SHOW GENERALLY DECREASED IN INTENSITY WITH DEPTH. IT WAS THOUGH THAT THE FLUORESCENCE AND CUT WERE AS A RESULT OF THE OVERLYING KUPARUK FORMATION AND THE OIL BASED CORING FLUID. -10- OCTOBER 19, 1992 6015' - 7365' DRILL AHEAD FROM 6015' - 6393'. CIRCULATE BOTTOMS UP AND PERFORM A WIPER TRIP, HOLE TIGHT FROM 5154' - 4700'. DRILL AHEAD FROM 6393' - 7300'. SERVICE RIG AND REPAIR PUMP #2. DRILL AHEAD FROM 7300' - 7365'. EXLOG STARTED DATA COLLECTION AT 6741' WITH SAMPLE COLLECTION AND LOGGING TO BEGIN AT 7440' MD, 6487' TVD. UNIT 250 TOTALLY OPERATIONAL WITH A CREW OF 5. OCTOBER 20, 1992 7365' - 7905' DRILL AHEAD FROM 7365' - 7905'. TRIP OUT OF HOLE TO PICK UP NEW BIT #3. RUN IN HOLE WITH NEW BIT #3, TRIP GAS = 190 UNITS. DRILL AHEAD TO 7905'. EKLOG COMMENCED SAMPLE COLLECTION AND LOGGING AT 01:20 HRS, AT 7440' MD, 6487' TVD. OCTOBER 21, 1992 7905' - 8870' DRILL AHEAD FROM 7905' - 8472'. REPAIR #2 PUMP. DRILL AHEAD FROM 8472' - 8870'. CONNECTION GASES STARTED TO APPEAR AT 8000'. INCREASED MUD WEIGHT FROM 9.5 PPG TO 9.7+ PPG AT 8500'. INCREASED MUD WEIGHT FROM 9.7 PPG TO 9.9 PPG AT 8750'. OCTOBER 22, 1992 8870' - 9460' DRILL AHEAD FROM 8870' - 9097'. CIRCULATE BOTTOMS UP. WIPER TRIP FROM 9097' - 7364' HOLE TIGHT FROM 7897' - 7647' WIPER TRIP GAS , ' = 540 UNITS, INCREASED MUD WEIGHT FROM 9.9 PPG TO 10.2 PPG. DRILL AHEAD FROM 9097' - 9460'. OCTOBER 23, 1992 9460' - 10084' REPAIR PUMP #1. DRILL AHEAD FROM 9460' - 9471'. REPAIR BLOWN POP OFF VALVES ON MUD PUMPS. DRILL AHEAD FROM 9471' - 9594'. REPAIR #1 PUMP. DRILL AHEAD FROM 9594' - 10,084'. OCTOBER 24, 1992 10084' - 10195' DRILL AHEAD FORM 10084' TO 10100'. CIRCULATE HIGH VISCOSITY SWEEP. TRIP OUT OF HOLE. LAY DOWN TELECO SURVEY TOOL, MUD MOTOR, LEAD COLLAR AND BIT SUB. PICK UP BIT NO. 4, AND NEW BOTTOM HOLE ASSEMBLY, INCLUDING TELECO MWD TOOL. RUN IN HOLE, TEST TELECO MWD TOOL. LOG FROM 9800' TO BOTTOM AT 10100' WITH TELECO MWD TOOL. TRIP GAS 1100 UNITS. DRILL AHEAD FROM 10100' TO 10195' (LOGGING WITH MWD WHILE DRILLING). OCTOBER 25, 1992 10195' - 10242' '" ""r'!~ DRILL FROM 10195' TO 10242'. CIRCULATE~ B0~TOMS UP AND MAKE WIPER TRIP TO 7800'. TIGHT HOLE FROM 9585' TO 10025'. CIRCULATE BOTTTOMS UP. WIPER TRIP GAS 970 UNITS. SHORT TRIP 10 STANDS. LAY DOWN 21 SINGLES. REAM TO BOTTOM FROM 9585'. CIRCULATE AND CONDITION HOLE FOR CASING. PULL OUT OF HOLE AND PREPARE TO RUN CASING. RAN 97 JOINTS 9 5/8" CASING AT MIDNIGHT (L-80, 47 LB.). OCTOBER 26, 1992 10242' CIRCULATED CASING CONTENTS AT 3840'. CONTINUE RUNNING CASING. BROKE CIRCULATION AT 7000'. COMPLETED RUNNING CASING TO 10242'. CIRCULATED CASING (442 UNITS GAS MAXIMUM), RIGGED UP BJ, AND CEMENTED. CHANGED OUT AND TESTED BOP'S. PICKED UP BOTTOM HOLE ASSEMBLY AND BIT NO. 5 (8.5" STC MFDSH) AND RAN INTO HOLE TO DRILL OUT CEMENT. OCTOBER 27, 1992 10242' - 10243' RAN INTO HOLE TO 10052'. REAM CEMENT IN 9 5/8" CASING TO 10241'. DRILL OUT SHOE TO 10242'. DRILL ONE FOOT OF FORMATION TO 10243'. PERFORM F.I.T. TO 12.5 PPG EMW ( 1239 PSI). CIRCULATE AND CONDITION MUD. MAXIMUM GAS 26 UNITS WHILE DRILLING OUT CEMENT. AVERAGE GAS 5 - 6 UNITS. CIRCULATE AND CONDITION MUD. CLEAN PITS AND DISPOSE OF SURFACE FLUID. OCTOBER 28, 1992 10243' - 10255' CLEAN PITS. TAKE ON CORING FLUID. DISPLACE HOLE WITH OIL MUD CORING FLUID. TRIP OUT OF HOLE TO PICK UP CORE BARREL. LAY OUT HWDP AND BHA. PICK UP NEW BHA AND CORE BARREL. RUN IN HOLE WITH CORE BARREL. CIRCULATE AND CONDITION MUD. START CUTTING CORE NO. 1 AT 23:24 HOURS. CORE TO 10255' AT 24:00 HOURS. OCTOBER 29, 1992 10255' - 10391' CORED TO 10302' AT O2:18 HOURS. CICULATED BOTTOMS UP. TRIPPED OUT AND LAID DOWN CORE NUMBER ONE. PICKED UP NEW BIT NO.7 (ET RC 412) AND 90 FOOT CORE BARREL. RAN BACK INTO HOLE. CIRCULAT- ED BOTTOMS UP (6800 UNITS TRIP GAS). CUT CORE NO. 2 FROM 10302' TO 10391'. AVERAGED 350 UNITS OF GAS WHILE CORING. STARTED OUT OF THE HOLE, RAN BACK TO BOTTOM AND CIRCULATED AND RAISED MUD WEIGHT FROM 9.8 PPG TO 10.1 PPG AT 2400 HOURS. OCTOBER 30, 1992 10391' - 10569' CIRCULATED AND RAISED MUD WEIGHT. PULL OUT OF HOLE WITH CORE #2. LAID DOWN CORE #2. RUN IN HOLE WITH RR BIT #7 (ET RC 412). SLIP CUT LINE. RUN IN HOLE TO BOTTOM. CIRCULATE. CUT CORE NO. 3 FROM 10391' TO 10480'. TRIP GAS 92 UNITS. AVERAGED 300 UNITS OF GAS WHILE CORING. CIRCULATED BOTTOMS UP. TRIP OUT OF HOLE WITH CORE NO. 3. LAID DOWN CORE NO. 3 AND PICKED UP INNER CORE BARREL FOR CORE NO. 4. RUN IN HOLE WITH RR BIT #7 (ET RC 412). CIRCULATE. CUT CORE NO. 4 FROM 10480' TO 10569'. TRIP GAS 164 UNITS. AVERAGED 350 UNITS OF GAS WHILE CORING. CIRCULATED BOTTOMS UP. OCTOBER 31, 1992 10569' - 10622' CONTINUE CIRCULATING BOTTOMS UP. TRIP OUT WITH CORE NO. 4. LAID DOWN CORE NO. 4. MAKE UP AND RUN IN HOLE WITH NB #8 (ET SC 712G) AND 60 FT CORE BARREL FOR CORE NO. 5. CIRCULATE. CUT CORE NO. 5 FROM 10569' TO 10622'. TRIP GAS 149 UNITS. AVERAGED 50 UNITS OF GAS WHILE CORING. CIRCULATE BOTTOMS UP. TRIP OUT WITH CORE NO. 5. LAY OUT CORE NO. 5 AND PICK UP 60 FT INNER CORE BARREL FOR CORE NO. 6. SLIP AND CUT DRILL LINE. RUNIN HOLE WITH RR BIT #8 (ET SC 712G) TO CUT CORE NO. 6. CIRCULATE. NOVEMBER 1, 1992 10622' - 10652' CORED TO 10652'. TRIP GAS 48 UNITS. AVERAGED 14 UNITS OF GAS WHILE CORING. CIRCULATED BOTTOMS UP. TRIPPED OUT AND LAYED DOWN CORE NUMBER 6. LAYED DOWN BHA. TEST BOPS. RIH WITH FISHING ASSEMBLY. FISH FOR PIPE CLAMP WRENCH. PULL OUT OF HOLE WITH FISH. PICK UP NEW BHA WITH TELECO TOOLS. NOVEMBER 2, 1992 10652' - 10806' RIG IN HOLE WITH 8 1/2" DRILLING ASSEMBLY. PUT TELECO BACK IN DRILL STRING. RIH TO 10242'. REAM TO BOTTOM AND LOG WITH TELECO. DRILL NEW HOLE TO 10806'. NOVEMBER 3, 1992 10806' - 10826' DRILL TO 10826' AND TD THE WELL. CIRCULATE BOTTOMS UP AND SHORT TRIP TO THE CASING SHOE, THE LAST 3 STANDS OF SHORT TRIP TELECO EXPERIMENTED WITH ONE OF THEIR TOOLS. TRIP TO BOTTOM AND CIRCULATE BOTTOMS UP, SHORT TRIP GAS WAS 10 UNITS. PULL OUT OF THE HOLE TO E-LOG. RUN E-LOGS. NOVEMBER 4, 1992 10826' CONTINUE TO E-LOG UNTIL 01:30, RIG DOWN LOGGING TRUCK AND RUN IN THE HOLE WITH RERUN BIT #9 FOR A WIPER TRIP. TRIP GAS WAS 85 UNITS. SHORT TRIP TO THE SHOE AND CIRCULATE BOTTOMS UP, SHORT TRIP GAS WAS 15 UNITS. PULL OUT OF HOLE AND RIG UP TO RUN 7 INCH LINER. RUN 7 INCH LINER, CIRCULATE BOTTOMS UP AT THE SHOE. NOVEMBER 5, 1992 10826' TAG BOTTOM WITH 7 INCH LINER AND CIRCULATE BOTTOMS UP TWICE, MAXIMUM GAS FROM BOTTOMS UP WAS 58 UNITS. PUMP CEMENT, DISPLACE, PRESSURE UP AND SET HANGER, BACK OFF OF 7 INCH LINER AND CIRCULATE, AND REVERSE OUT FLUID. P2-30 CORE #1 BOX #1 aox #2 ,p CORE #2 BOX #1 ~[ BOX #2 ~~ ~.~(~ CORE #3 BOX ~1 BOX ~2 BOX ~3 CORE ~4 BOX ~1 BOX ~2 BOX ~3 CORE ~5 BOX ~1 BOX ~2 CORE ~6 BOX ~1 P1 -Gl 10243'-10273' 10274'-10300' 10302'-10352' 10353-10392' 10391 -10424' 10425 10459 10480 10510 10549 10561 10597 -10458' -10480' -10509' -10548' -10560' -10596' -10620' 10622-10653' CORE #1 BOX #1 8610'-8646' BOX #2 8647'-8668' CORE #2 BOX #1 8669'-8698' BOX #2 8699'-8729' CORE #3 BOX #1 8730'-8737' SENT BY: Dan Przywojski UPON RECEIPT OF THESE SAMPLES PLEASE NOTE ANY DISCREPANCIES AND SEND A SIGNED COPY OF THIS TRANSMITTAL TO: ARCO ALASKA, INC. BAYVIEW GEOLOGIC FACILITY P. O. BOX 100360 ANCHORAGE, AK. 99510-0360 · L. Przywojski ABV-100 RECEIVED BY: ARCO Alaska, Inc. Lisburne/Point McIntyre Engineering Date: December 30, 1992 Subject: Transmittal #247, P2-30 From: ARCO Alaska Inc. To' Bob Crandall AOGCC 3001 Porcupine Drive Anchorage, AK 99501 The following Point McIntyre Well P2-30 data are enclosed. This information is confidential and your cooperation in maintaining confidentiality is appreciated. Log 1 blue line, 1 sepia Gyro Directional Survey Segmented Bond Log-GR-CCL Z-Densilog Cmpnstd NEUTRON GR-Caliper Dual Induction Gamma Ray--'"" Sub-Sea Vertical Depth (Single Shot Data) Borehole Profile,,-'"' MAC Crossed Dipole BHC Slowness Curves MAC Crossed Dipole Filtered Waveforms '''''/ Neutron Porosity, Density Porosity DPR-GR-TVD Neutron Porosity, Density Porosity DPR-GR-MD Neutron Porosity, Density Porosity-GR-TVD Neutron Porosity, Density Porosity -GR -MD Bulk Density, Gamma Ray-MD -" Dual Propagation Resistivity -GR-TVD Dual Propagation Resistivity -GR-MD ~- Run # Run Date Company I 11/12/92 I 12/12/92 I 11/03/92 1 11/03/92 I 11/03/92 I 11/03/92 I 11/03/92 I 11/03/92 - 10/22-11/3/92 - 10/22-11/3/92 - 10/22-11/3/92 - 10/22-11/3/92 - 10/22-11/3/92 - 10/22-11/3/92 - 10/22-11/3/92 TAPE/DISKETTE w/printout Run # 7'Diskette, Sub-Surface Directional Survey (GCT) 1 ~/Diskette, MWD Survey LIS Tape, LDWG Crossed Dipole Waveforms ~,/LIS Tape, DIFL/CN-ZDL/GR, MAC/GR Please sign and return to:-~'~ka~ Laura S. Lahrson, ATO-409 ARCO Alaska, Inc. P.O. BOX 100360 Anchorage, Alaska 99510-0360 " RECEIVED DEC 3 't 19SZ' Run Date 11/12/92 11/3/92 11/3/92 11/3/92 Oil & Gas Cons, Commission ,. Anchorage Transmittal /4247 PLEASE SIGN ONE COPY AND RETURN Schlumberger Atlas Atlas Atlas Atlas Atlas Atlas Atlas Estmn Teleco Estmn Teleco Estmn Teleco Estmn Teleco Estmn Teleco Estmn Teleco Estmn Teleco Company Schlumberger Estmn Teleco Atlas Atlas ARCO Alaska, ~nc. Post Office Bo:. ~00360 Anchorage Alaska 99510-0360 Telephone 907 276 12'~5 TO: STATE of ALASKA OIL/GAS CONSER. COMM. 3001 PORCUPINE ANCHORAGE, ALASKA OPERATOR: ARCO SAMPLE TYPE: WETS & DRIES DATE: 3 NOVEMBER, 1992 AIRBILL: AL 511 AFT#: 2-11-03- _~'7 CHARGE CODE: 2C0013 FJ NUMBER OF BOXES: 4 SAMPLES SENT: DRIES: 744O'-834O' 8340'-9450' 9450'-9900' 9900'-10242' SENT BY: Dan Przywojski UPON RECEIPT OF THESE SAMPLES PLEASE NOTE ANY DISCREPANCIES AND SEND A SIGNED COPY OF THIS TRANSMITTAL TO: ARCO ALASKA, INC. BAYVIEW GEOLOGIC FACILITY P. O. BOX 100360 ANCHORAGE, AK. 99510-0360 ABV-100 ~'~ . ? ATTN: D. L. Przywojski TE: .~, ., ,. RECEIVED ARCO A~@sAa, ~nc. is ~ Subsidiary of A~an~ic RichfieOd Company ARCO Alaska, Inc. Post Office Bc 0360 Anchorage Alaska 99510:0360 Telephone 907 276 1215 TO: STATE of ALASKA OIL/GAS CONSER. COMM. 3001 PORCUPINE ANCHORAGE, ALASKA OPERATOR: ARCO SAMPLE TYPE: DRIES SAMPLES SENT: DRIES: DATE: ("NOVEMBER, 1992 AIRBILL: AL 646247 AFT#: 2-11-O~-- CHARGE CODE: 2C0013 NUMBER OF BOXES: 2 10242'-10650' 10650'-10820' SENT BY: Dan Przywojski UPON RECEIPT OF THESE SAMPLES PLEASE NOTE ANY DISCREPANCIES AND SEND A SIGNED COPY OF THIS TRANSMITTAL TO: ARCO ALASKA, INC. BAYVIEW GEOLOGIC FACILITY P. O. BOX 100360 ANCHORAGE, AK. 99510-0360 ATTN: D. L. Przywojski ABV-100 RECEIVED ARCO Alaska, Inc. is a Subsidiary of Atlantic Richfield Company MEMORANDUM ALASKA STATE OF ALASKA OIL AND GAS CONSERVATION COMMISSION to: Leigh A Griffin/' Commissioner date: file: November 12, 1992 JER11011.DOC thru: Blair E Wondzell 1,/~.~ Sr Petr Engineer from' Jerry Herring Petr Inspector subject: BOP Test Audi 2 Pt. Mclntyre Well P2-30 Prudhoe Bay Field Sunday, November 1, 1992: John Spaulding and I witnessed a B.O.P. Test on Audi Rig 2. Rig is coring Point Mclntyre Well P2-30. Rig had pulled out of hole and completed B.O.P. Test. B.O.P. Test was conducted by tool pusher, Dan Hebert. All equipment functioned properly and the test was completed in 2 1/2 hours. The B.O.P. Test was organized and completed without any failures. Dan and the driller worked with me patiently and took the time to explain things as the B.O.P. Test progressed. The crew worked fluently together. In summary: B.O.P. Test was completed satisfactorily. Attachment STATE OF ALASKA, ~ ALASKA OIL AND GAS CONSERVATION coMM~o$10N BOP Test ,Report OPERATION: Drlg J Wkvr , , , .. Operator Dr~g contrctr Location (general) Housekeeping (general) TEST: Permit # ?~ "f~ Well sign Rig "'"- Initial Rig#, ., ACCUMULATOR SYSTEM: Full charge pressure Press after closure //~5~) Weekly ~ Other Rig phone # ~5'~F- ~'- Location: Sec /~,,. T/i/V R/Vg: pstg ,. 'p$ig Rsrve pit MUD SYSTEMS( Trip tank ~ Pi t gauge / F1 ow monitor ~ Cas detectors ~"~' BOPE STACK: Annular preventer Pipe rams Blind rams Test Pressure 25'0- ~SOC7 ~; 14F~- ._4'o00 ~; Choke line valves HCR Valve Kill line valves Check valve Pump tncr clos press 200 psig min /,~ sec Full charge pcess attained // min ~' sec · / ,''/ / /~. Controls: Master ~ m F m Remote ~ Blind switch cover ~ ,m m KELLY AND FLOOR SAFETY VALVES: Upper Kal ly , Lower Kelly Bal 1 type I nsi de BOP Choke mani fold Number va1 ves Number flanges Test pressure Test pressure Test pressure Test pressure_ Adjustable chokes Hydraulically operated choke TEST RESULTS: Failures Test time hrs Remarks: Repair or replacement of failed equipment to be made within ..... days. Notify the ,Inspector, and follow with written/FAXed [276-7542] verification to Con~nission offt~q~J Distribution: orig - AOGCC c - Operator c - Supervisor C.004 (rev 03/92) STATE WITNESSJ~EQUIRED? yes ~, no ..... 24-HR NOTICE yVEN? yes &~ no_ .. Waived by: Witnessed by: JO8 AO G C~'t. GEOLOGICAL - - ~JA I r--tt, lALb iNVENTOP&' LiST PERidiT~' /4~¢,?. - ~..C' WELLNAiviE //~/,~Z/ COUPLET!ON DATE Il ! ~ I.. q~ CO. CONTACT check off or list data 407 { ' ,~}it I 'h'~ I drillin~ hisio~- cored interval's ; core analysis as it is received.*list s,rvey j.~J '.elf tests dry, ditch intervals received date for 407, if not required list as NR J core descfiptio di~oitai data ~'?&~ ~-~'~? ¢ ~H) 101 ,v plz~PI z~?t¢ I 0/¢ ( TV~ ) ., ('. Tv/)) ~11111 IIII I II w! ~ L MEMORANDUM STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION to: Leigh A Griffin ~" Commissioner date: file: October 29, 1992 LOU10241.DOC thru: Blair E Wondzell Sr Petr Engineer from: Lou Grimaldi Petr Inspector ,/ subject: Rig/BOPE Inspection AUDI Rig #2 6594605 ARCO PT Mclntyre #P2-30 Prudhoe Bay Unit Permit 92-95 Sunday, October~""~ 1992: John Spaulding and I traveled to AUDI Rig #2, which was drilling ARCO's Well #P2-30 at Pt. Mclntyre in the Prudhoe Bay Unit, to make a rig BOPE Inspection. Upon arrival, the company representative apologized for not giving notification for his last BOP test. However, in my dealings with Gene Cooper (ARCO representative), he has given plenty of proper notification of upcoming BOP tests and has always been cooperative with me during the execution of my responsibilities. I found the rig to be in fairly good shape and all BOP equipment to be in place and operating properly. This is an older rig, but regular maintenance is apparent throughout. The top drive had been removed due to a mechanical failure, but the crew did not seem to be hindered by this and continued drilling with their kelly. The area surrounding the rig was clean and orderly with good access provided. In summary, the Rig/BOPE Inspection I made on AUDI Rig #2 revealed all to be in compliance. Attachments ALAS KA OIL CONS E RVAT I ON AND GA s COMMI S SION TO- David W Johnston Chairman THRU' FROM' Blair E Wondzell P.I. Supervisor Lou Grimaldi Petr Inspector DATE SUBJE CT' OPERAT i ON: D rl g X Compl Wkvr~ U Operator /Z~ ~ ~ Permit # Location: Sec /~ T /'~) R //~ M Drlg contr ~~ ) Rig~ Location (gen'l) ~ ~ Well sign I N COMPL I ANCE t yes n__~o n/a A. DIVERTER 1.() () 2. ( ) ( ) 3.() () 4. ( ) ( ) s.() () 6.() () 7.() () 9.~J () lO.(/~ () ll.g~ () ~2.~Q () 13. f~J () ~.~, ~- ( ) 15. {~} ( ) 16. (~ ( ) ~7.(~ () ~8.~) () ~9. ~<) () 2o. J>O () 21. b4 () 22. (.~, ( ) 2:~. (~ () 2~. (,kO'" ( ) 2s.~ () 26 ( ) 27 ( ) 28. ~/) () zg. b~) () ~o. (,x/ () 31. ()~ ( ) 32. C)~' ( ) STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION Rig/BOPE inspection Report DATE: /dD--~ ~/--7 ~ Representative ~ ~'-'C..,)~--~:"~ CIO O~ ~ ~ Representative ( ) line sz & length ( ) line conn& anchored ( ) bifurcated & dwn wi nd ( } 90° targeted turns ( ) vlvs: auto & simultaneous ( ) annul ar pack-off ( ) condition B. BOP STACK ( ) wellhead flg wkg press ( ) stack wkg press ( ) annul ar preventer ( ) pipe rams ( ) blind rams ( ) stack anchored ( ) chke/kill line sz ( ) 90° turns targeted (chke & kill In) ( ) HCR vlvs (chke & kill) ( ) manual vlvs (chke & kill) ( } connections (flgd, whd, clmpd) ( ) drl spool ( ) flow nipple ( ) fl ow monitor ( )' control lines fi re protected C. CLOSING UNITS ( ) wkg press ( ) fluid level ( ) oprtg press " ( ) press gauges ( ) sufficient vlvs ( ) regulator bypass ( ) 4-way vlvs (actuators) ( ) blind handle cover ( ) driller control panel ( ) remote control panel 3~. FS.) ( ) 3s. ~) ( ) 36. ("~ ( ) 37. ('~ ( ) 38. (,~ () 39. (7~ ( ) ~0.9~ () ~1. C. xQ () ~2. (,~0 () ~3.~) () ,,~. (;,o-() ~s. ~) ( ) 46. (~~) ( ) ~+?. ,(,,0() 48.~ ( ) 49. ( ) 5o. ~c)" () 51. (/~ () IN COMPLIANCE; yes no n/a ( ) firewall ( ) nitrogen power source (back-up) ( ) condition (leaks, hoses, etc) D. MUD SYSTEM ( ) pit level floats installed ( ) flow rate sensors ( ) mud gas separator ( ) degasser ( ) separator bypass ( ) gas sensor ( ) chke In conn ( ) trip tank E. RIG FLOOR ( ) kelly cocks (upper,lower,lBOP) ( ) floor vlvs (dart vlv, ball vlv) ( ) kelly & floor vlv wrenches ( ) driller's console (flow monitor flow rate indicator, pit leve' indicators, gauges) ( ) kill sheet up-to-date ( ) gas ~etection monitors (H S & methane) ( ) hydr chke panel ( ) chke manifold F. MISC EQUIPMENT 52. ~) ( ) ( ) flare/vent line 53. (70 ( ) ( ) 90° turns targeted (dwn strm choke lns) 54. ( ) ( ) ~ reserve pit tankage 55. ~) ( ) . ( ) personnel protective equip avai' 56~-'(~' ( ) ( ) all drl site suprvs trained for procedures 57. ( ) ( ) ()O H2S probes 58. ~) ( ) ( ) rig housekeeping REMARKS: RECORDS: Date of last BOP inspection: Resulting non-compliance: Date of last BOP test: Non-compliances not corrected & why: Date corrections will be completed.' BOP test & results properly entered on daily record? ~ ..... Kill sheet current? STATE OF ALASKA ALASKA 0IL AND GAS CONSERVATION COMMISSION BOP Test Report TEST: ,, Rep ~'~'~ ,~ ~,~,~ · Location (general) ~-~ Well sign Housekeeping (general)__.___._ Rig Rsrve pi t MUD SYSTEMS Trip tank Pit gauge Flow monitor Cas detectors Vi sual I Audio BOPE STACK: Test Pressure Annular preventer ~- ~ ~:>~ Pipe rams ~-J~ ' im~ ~'% B1 i nd rams 2~ ~ ~ ~ Choke line valves HCR valve Kill line valves Check val ve TEST RESULTS: Initial Weekly Z.~ Other Rig phone #_~) '~ ~0..~' Location: $.o/~., T/~ R~ N~ ACCUMULATOR SYSTEM: Full charge pressure Press after closure _ Pump tncr clos press 200 pstg Full charge press attained psig ,i , 'pstg mi n ~_~..~sec ~.. mtn ~ sec N.Z/~S/'&/~J'/~/~/)/~'~/~ Psig 2~/~ Condec]s: Has~e~ Remo~e ~ Bl~nd sw~ch cover KELLY AND FLOOR SAFETY VALVE~: Upper Kelly ~ Test pressure ~ ~,~ - Lo.er Kelly ~ Test pressure Ball type ~ Test pressure ~~) . Inside BOP ~ Test ·pressure , Choke manifold ~ Test pressure. Number valves _~ . Number flanges _., ~ Adjustable chokes_. ~ m Hydraul ical 1 y operated choke ~ _ 2 hrs · __ Fai 1 ures~x~ Test time Repair or replacement of failed equipment to be made within ~ ,, days. Notify the Inspector, and follow with written/FAXed [276-7§42] verification to Commission,office. Remarks: Distribution: orig - AOGCC c - Operator c - 'Supervisor STATE WITNESS REQUIRED? yes no ,. 24-HR NOTICE GIVEN? yes ,,, no Waived by: Witnessed C.004 (rev 03/92) ALASKA OIL AND GAS CONSERVATION COMMISSION October 2, 1992 WALTER J. HICKEL, GOVERNOR 3001 PORCUPINE DRIVE ANCHORAGE, ALASKA 99501-3192 PHONE: (907) 279-1433 TELECOPY: (907) 276-7542 Michael Zanghi Drilling Engineer Supervisor ARCO Alaska,Inc. P O Box 196612 Anchorage, AK 99519-6612 Re: ~ P2-30 ARCO Alaska, Inc. Permit No: 92-95 Sur. Loc. 191'SNL, 1383'EWL, Sec. 14, T12N, R14E, UM Btmhole Loc. 54'NSL, 3975'WEL, Sec. 12, T12N, R14E, UM Dear Mr. Zanghi: Enclosed is the approved application for permit to drill the above referenced well. This well was approved for a spacing exception in CO Order No. 298 as well P2-47. As requested in James R. Winegarner's letter of September 14, 1992, it is approved that the well name be changed to P2-30. 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. Blowout prevention equipment (BOPE) must be tested in accordance with 20 AAC 25.035. Sufficient notice (approximately 24 hours) of the BOPE test performed before drilling below the surface casing shoe must be given so that a representative of the Commission may witness the test. Notice may be given by contacting the Commission petroleum field inspector on the North Slope pager at 659-3607. S' Chairman BY ORDER OF THE COMMISSION dlf/Enclosures cc: Department of Fish & Game, Habitat Section w/o encl. Department of Environmental Conservation w/o encl. P2-,30CXSG.XL,S 9/'? TM "' ''~ ,'/9¢.. M. Minaret Casing Int Iht Si'~e Bottom 'Fop LenGth 1A 20 110 38 72 2A 13. S75 66 37 68 ~ 13.375 3500 103 371 & 4A 9.625 88)~' 36 1031 '7 ~ -7 9305 8632 '789 GA 0 0 0 0 7A 0 0 0 0 8,~ 0 0 0 0 9A 0 0 0 0 1 GA 0 0 0 0 Desc [)esc [Deso 'Tension Lbs Grade 'Thread Lbs 94-. 5 I.-t.-40 We.I d 0 ES I(-55 DT'C 0 68 l_:.SO B'T'C 0 4.7 N'TS0,-S 26 13CR Fox 0 0 0 0 0 0 0 0 0 (] 0 0 0 0 O 0 0 0 0 0 0 1 B 2J~ 3B 4.B 5B 6B '7E~ 8B 9B 't 0B M u d H y d Wieght Cir.~die. nt PPG psi/ft 9.5 0.4~4. 9.5 0.4.94, 9,5 0,4.,94. 10, ~ 0,54.6 10,2 0,530 O. 0 O. OOO 0.0 0.000 0.0 0,00G 0,0 0,000 0,0 0.000 Sulff.~ce Press Minimum psi Yield 3330 3330 37'18 37'18 0 0 0 0 0 Tension Strength 5C 20,51,~ 6C 0 7C 0 8C: gC 0 10C 0 K/Lbs TIt)F 0 1069 '1556 '8. I G 1088 604. 29.44 0 # D~V~'O~ # DIIV,¢OI{ Pressure Colla, pse I~]ot-PSI Resist. C~t)F 54. 0 33 'f 950 59.1!~09 1729 2,260 4,8&7 4:750 0.9~0 &g;35 54"10 I 0 0 # D~VyO~ 0 0 0 0 #1)~V'/O~ Page STATE OF ALASKA ALASKA UIL AND GAS CONSERVATION COI¥,,vllSSION PERMIT TO DRILL 2O AAC 25.005 la. Type of work Drill [] RedrillDIlb. Type of welI. Exploratoryl-I Stratigraphic Test[] Development Oil[] Re-Entry [] DeepenF'II Service [] Development Gas [] Single Zone [] Multiple Zone [] 2. Name of Operator 5. Datum Elevation (DF or KB) 10. Field and Pool ARCO Alaska, Inc. KBE = 46feet Point Mclntyre 3. Address 6. Property Designation P. O. Box 196612. Anchoraoe. Alaska 99519-6612 ADL 365548 4. Location of well at surface 7..JJnit.0r~.rop. erLy Name ' 11. Type Bond(~e,, 20 AAC 25.025) 191' SNL, 1383' EWL, SEC. 14, T12N, R14E, UM ........ ! ~ At top of productive interval 8. Well number Number 42'NSL, 4224' WEL, SEC. 12, T12N, R14E, UM P2-30 U-630610 At total depth 9. Approximate spud date Amount 54' NSL, 3975' WEL, SEC. 12, T12N, R14E, UM 10/10/92 $200,000.00 12. Distance to nearest 13. Distance to nearest well ~4. Number of acres in property15. Proposed depth (MO and TVD) property line ADL 34624/54' feet P2-49 @ 80.6'/2042 feet 2560 10842'MD/9305'TVDfeet 16. To be completed for deviated wells 17. Anticipated pressure (s,~ 2o Mc 25.o35 (e)(2)) Kickoff depth 5oofeet Maximum hole angle 34.660 Maximum surface 3330pslg At total depth (TVD) 8~O0'/4390Pslg 18. Casing program Setting Depth s~ze Specifications Top Bottom Quantity of cement Hole. Casing Weight Grade Coupling Length MD TVD MD TVD (include stage data) 30" 20" 94.5¢t H-40 Weld 72' 38' 38' 110' 110" 245 cu ft CS II 16" 13-3/8" 68# L-80 BTC 3780' 37' 37' 3817' 3500' 2819 cu fl CS III & 460 cu ft "G" 12-1/4" 9-5/8" 47# NT80-S NSCC 10317' 36' 36' 10353' 8877' 440 cu fl Class "G" 8-1/2" 7" 26# 13CR Fox 789' 10053' 8632' 10842' 9305' 188 cuft Class "G" 19. To be completed for Redrill, Re-entry, and Deepen Operations. Present well condition summary Total depth: measured feet Plugs (measured) true vertical feet Effective depth: measured feet Junk (measured) true vertical feet Casing Length Size Cemented Measured depth True Vertical depth Structural P EEEiVED Conductor Surface Intermediate SEP '! 7' 1992 Production Liner Alaska .0il .& Gas Coils, C0mmi$sior~ Perforation depth': measured Anchorage true vertical 20. Attachments Filing fee [] Property plat [] BOP Sketch [] Diverter Sketch [] Drilling program[] !Drilling fluid program [] Time vs depth pict [] Refraction analysis D Seabed reportD 20 AAC 25.050 requirements E] 2/~ hereby certify,/that_th,~ foregoing is true and correct to the best of knowledge my igned111/'7/1~,(. '~ Title Drilling Engineer Supervisor Date'¢~- / 2-¢,~ Commission Use Only Permit Number IAPI number IApproval d_ate ISee cover letter 4::~.~__.- ~,D~- ~ 150-0~_.¢-- 2-~_-2_. ~ I /&---o~-~,,~Z~ Ifor other requirements. Conditions of approval Samples required [] Yes ..l~rNo Mud Icg required []Yes,~NO Hydrogen sulfide measures [] Yes ~ No Directional survey required ~1~ Yes [] No Required working pressure for BOPE EI2M; f-13M; 1~5M; r-IIOM; D15M; Other: / by order of Approved by Commissioner tne commission Date Form 10-401 Rev. 12-1-85 Submit in triplicate PI UDHOE BAY DRILLING POINT MCINTYRE WELL' 1ooo--I~ 267~ VERTICAL VIEW SCALE 1000 f'%, / O.O0' ~ 0 MD ~.K.B. ELFVAT]ON 46' 678 0.00'8 500 MD KDP 3.00'8 700 MD 6,00'8 900 ND 9 00' e 1100 MD ]2 00' @ 1300 MD 15,00' e 1500 HD 18,00' e 1700 MD 21,00' e 1900 MD 24.00' e 2100 MD 27,00' ~ 2300 MD 30,00' @ 2500 MD 33.00' ~ 8700 MD 34.66' @ 2811 MD END DF 3UILD 35 1250 8395 6000-- 6901 7000-- 8000-- 8684 8700 8881 9000 -- 9818 9305 10000 #P2-30 DIVISION 34.66' 8 3817 MD 13-3/8' CASING PDINT 1000 HBRIZONTAL VIEW (TRUE NORTH) SCALE 1000 Pt, / DIVISION 3G02 ! 000 2000 3000 40 O0 500 0 GO00 SURFACE LDCATIDN: ASP-X: 681,623 ASP-Y: 5,998,395 191' FNL, 1383' F~/L SEC. 14, T12N, R14E, U.M. TARGET LOCATION'. ASP-X~ 686,569 ASP-Y: 5,998,750 34,66' ~ 5830 MD K - 15 42' FSL 4224' FEL k SEC. 12,' T12N, R14E, U.M.  ASP-Y: 5,998,767.61 sEP 1 ? 1998 ~ Alaska Oil, & Gas Cons. Comm~sion ~ ~ ~,~, ,o,~o .~ =~.~ o~ ~.o. Anchorage, 49~94~4--959 4957 ~k~ 31~0,00' . 10353 .D TA~GET-KUPARUK-9-5/8' CASING PDINT 5154 5204 30.00' 8 10848 HQ TOTAL DEPTH lO00 2000 3000 4000 5000 6000 VERTICAL SECTIE]N PLANE: 87,31 ° BHL TVI) 9304,60 MD 10841,71 VS 5203,60 North 244,55 East 5197,85 P P PFRUDHEIE ]}AY ]3R]'LLiNG PL--]]NT Mc]'NTYI:R'E STIRUCTURE FiLe: MCIN] .§TR Tue Sep 08 ~0:48:45 199B TVD: 0 Feet -> 9305 Feet IntervaL: 100,00 Feet MD: 0 Feet -> 10842 Feet LabeLs reF, weLL TVD Hopizont~[ Rodius ScoLe: 200 Feet/inch Method = Norm~[ Pt~ne Reference X/eLI: POINT MCINTRYE WELL: ~P2-30 Fi[e: P2-3OWP P?__-49 Siot: P~- 5 PB-60 0 J, 08'[ RECEIVED c~gS S E P '1 ? 199~ Alaska Oil & 6as Cons. Commi.~ Anchorage 3O Surface Casing Depth: Surface Casing Size: Surface Casing Weight: Bit Diameter: Excess Factor Intermediate Casing Depth: Intermediate Casing Size Intermediate Casing Weight: Top of Cretaceous Bit Diameter: Excess Factor: Liner Size: Liner Weight: Hole TD Bit Diameter: Excess Factor: P2-30 Cement Volumes Surface String 3817 13 3/8 68 16 2 LEAD Yield Density # sacks TAIL Yield Density # sacks TOP JOB # sacks Intermediate String 10353 9 5/8 47 7952 12 1/4 1.3 Liner LEAD TAIL Yield Density # sacks # bbls Yield Density # sacks # bbls 7 26 10842 8.5 1.4 TAIL Yield Density # sacks 1.92 12.2 1468 1.15 15.8 4OO 25O 1.98 15 288 102 1.15 15.8 383 78 1.15 15.8 163 (2819 Cu. Ft.) (460 Cu. Ft.) (571 Cu. Ft.) (440 Cu. Ft.) (1 88 Cu. Ft.) MUD PR(~A-~RAM - P2-30 ~PLID MUD PROPERTIE~ Don~lty M~mh Vie SpL~ 8,7 ~ 4~-6~ 30-60 9.5 ~00 2o 4o 15-2o iNTERMEDIATE HOL~ MUD Sudaoo casino shoe m Top 'K.10' si~alu (8800 Mud ~i0h~ Yield Pnint ~[~ n~ ~1 I0 rain 9.5 · ~O.0 ~0. ~5 5 - ~O ~ - 2U TOp 'K' s~ale to Section TD. Mud Weight Y~ld Point '10 sec Gel I0 rain Gel Weight PV YP ~,8-1o..2 15.20 7,12 Yiaid Pi, 10 ~u<; g**l !0 rain ael ~ 80-80 g-10 20-30 ~-I0 APl Fluid L~ 412 SeC Gel 10 rain Gel .r;,, g 15-20 ~.5 - I H'rHP F.L. .-200 Hardno~ 200 Pt. Mc Intyre P2-30 Casing Design Specifications SURFACE CASING 13-3/8" 68#/FT K-55 & L-80 BTC CASING BURST COLLAPSE K-55 3450 1950 L-80 5020 2260 PBYS (#) TJYS (#) 1069000 1300000 1556000 1585000 Burst Pressure Calculation Burst rating based on shutting in the well on a gas kick equivalent to the LOT (14.0 ppg) at the surface casing shoe. Worst case will be in the K-55 casing, which has no back up gradient. LOT (ppg) TVD (FT) SIPRESSURE 1 4 3500 2548 Burst S.F. 1.35 Collapse Calculation Collapse rating based on losing returns until the fluid level is below the surface casing shoe Mud weight behind the surface casing is 9.5 ppg Mud Wt. (ppg) TVD (FT) Collapse press 9.5 3500 1729 Collapse S.F. 1.31 Tension Calculation Based on full string weight in mud Casg Wt. (#/ft) MD (FT) 68 4388 PBYS Tension S.F. 4.1 9 Mud Wt. 9.5 ppg TJYS 5.10 String Wt. (#) 255059 RECEIVED $ E P 1 7 1992 Alaska 0il & Gas Cons. CommiSSiOn ~,nchorage Pt. Mc Intyre P2-30 Casing Design Specifications Production Casing 9-5/8", 47#,L-80,NSCC Casing GRADE BURST L-80 6870 COLLAPSE PBYS (#) TJYS (#) 4750 1086000 1161000 Burst Pressure Calculation Burst rating based on have a tubing leak on top of full column of fluid Worst case will be at the surface, which has no back up gradient. SfTP 3420 Burst S.F. 2.01 Collapse Calculation Collapse rating based on annulus being evacuated due to gas lift Mud weight behind the casing is 10.2 ppg. Gas Grad. Mud Wt. (ppg) TVD (FT) (psi/ft) Collapse press 10.2 8800 0.1 3788 Collapse S.F. 1.25 Tension Calculation Based on full string weight in mud Casg Wt. (#/ft) MD (FT) 47 14811 PBYS Tension S.F. 1.85 Mud Wt. 10.2 TJYS 1.98 String Wt. (#) 587592 SEP 1 ? 1~. Alaska 0it & Gas Cons, Anchorage E, EF' 18 "'aZ 18:47 ~Ip DIR, tLL.!HC, Pt. Mc Intyre P2-30 Casing Design Specifications PRODUCTION LINER 7", 26#,L-80,NSCC C~i,g Gl;lADE ~ COLLAI~SE PBY$ (#) '[JY$ {#) L-80 7240 5410 604000 667000 IBur~ Pressure Calculation Fluid wt (ppg) back up (p~) Bur~t Pru~ure S~ 9.7 9.5 3512 3420 2.06 Burst S.F, Collapse Calculation C, ollal~e retin~ based on annulus b~ing evacuated due to §~ lift Mud wnlght behind thR r'.~$1n0 la t ~.~ ppg G~ Grad, TVD (FT) (p$i/ft) cJolla~s~ F~'~SS Mud Wt, (P¢~i) 8800 0.1 8788 10.2 1.48 Coll&p~e S.F. Tension Ca,~eulatlon Based ~,'m lull [bing w[~ight in mud O~g Wt. (#~t) MD (~) M~d Wt, String Wt. 26 8~ 10.~ 18567 Tension S,F, P~IYE TJY~ 32.53 $5.$2 . . . . . . . . . 10. 11. 12. P2-30 Operations Summary MIRU drilling rig. Spud well and drill 16" hole to 3500' tvd. Set 13 3/8" casing and cement same. Test casing to 2500 psi for 30 minutes. Nipple up BOPs (blind rams) and test same to 5000 psi. Freeze protect well to 600'. Close Blind rams. Move rig to P2-55 to complete operations. When finished, MIRU to continue on P2-30. Pick up 12 1/4" BHA and drill 10' of new hole and perform leakoff test. Continue drilling to 8871'tvd. Run open hole logs. Set 9 5/8" casing and cement same. PU 8 1/2" BHA and test casing to 3000 psi. Drill 10' of new hole and perform formation integrity test to12.5 ppg EMW. Displace well to mineral oil core fluid. to top of sand. Core to 50' below WOC (9165' tvd) and drill 8 1/2" hole to 100' md below top Miluveach (9218'tvd). Run open hole logs. Set 7" liner and cement same. Clean out 9 5/8" casing. PU 6" BHA and clean out 7" liner; test to 3000 psi for 30 minutes. Circulate well to 9.8 ppg inhibited brine with oxyg,en scavenger. Recover core fluid. Run cased hole logs. Freeze protect well with 600 of diesel. NU dry hole tree and test to 3000 psi. Release rig. Run tubing string at later date with workover rig. RECEIVED SEP 1 ? 199 Alaska Oil & Gas Cons. Anchorage RUDHOEBAYDRILLINGG' )UP 20" DIVERTER SCHEMA]' lC POOL 7 FILL UP LINE FLOWLINE 2O" 2OOO PSI DIVERTER 10" B ALL VALVE jl 10" BALL VALVE CONDUCTOR NOTE: ONLY ONE VALVE OPENS AUTOMATICALLY WHEN THE DIVERTER CLOSES. THE SECOND VALVE WILL REMAIN CLOSED UNLESS 'CONDITIONS REQUIRE THE USE OF THE SECOND DIVERTER LINE. THE SECOND VENT LINE CAN BE REMOTELY OPENED TO ACHIEVE DOWNWIND DIVERSION. THIS IS A VARIANCE FROM 20AAC25.035. RECEIVED S E P 1 ? 1992 Alaska 0ii & 6as Cons, 6om~lis$i(m Anchorage H~RIL ~ 5 5/~'-50007Sl OK ANNULAR BOP LATCHED HEAD ~ ~ 5/8'- l o, ooo?sl HU~ CONNECTION HYDRIL 15 5/8"- 10, O00PS[ MPL RAM BOP HUB CONNECTIONS 4 1/I5'-10,000PSI SIDE OUTLETS HYDRIL ~.5 5/8'- 10, O00pS! bfPL RAM BOP HUB CONNECTIONS 4 1/16"-lO, O00PSi SIDE OLFFL~S CHOKE WING BCR AA~IUAL AANUAL TrPE £ ~ATE VALVE 5/~' . l o, ooo?sI HUB X FLANGE ADAPTOR BLOW-OUT PREVE~R STACK PAA RIG 7. HCR LYNN INTERNATIONAL 3 1/~6'-I0,000PS1 CHECK VALVE KILL WING /~c~o¥ 3 ~/l¢'-lo, oooPsl TYPE E GATE VALVE HYDRIL 15 5/8'- l O, O00PSI MPL RAM BOP HUB CONNECTIONS 4 I/~5"-~O, O00PSI SIDE OUTLETS RECEIVED AU G 2 0 1992 Alaska Oil & Gas Cons. bu~wnissiul~ Anchorage RECEIVED gEP 1 ? Alaska Oil & Gas Co~ls, Anchorage RE' E. IVt s 17 D Alaska 011 ~s Cons. ARCO Alaska, inc. Post Office 5',o× 100350 Anchorage Alaska 995i0-0360 Telephone 907 278 1215 September 14, 1992 Alaska Oil and Gas Conservation Commission 30001 Porcupine Drive Anchorage, Alaska 99501 Attention: Russell A. Douglas Fax: (907) 276-7542 RP_ Name and Surface Location Change Pt. Mclntyre Well No. P2-47 Gentlemen' Alaska Oil and Gas Conservation Commission ("AOGCC") Conservation Order No. 298 provided for the exception to 20 AAC 25.055 for the purpose of drilling Pt. Mclntyre Well No. P2-47. ARCO Alaska, Inc. hereby respectfully requests approval from the AOGCC to change the surface location to 191'FNL, 1383'FWL, of Section 14, T12N, R14E, U.M., and change the name of said well to Pt. Mclntyre Well No. P2-30. The bottomhole location described in Order No. 298 will not change. Gravel installation at the new surface location on Pt. Mclntyre Drill Site P2 was completed earlier than anticipated. By moving the surface location, ARCO may drill the objective bottomhole location and avoid wellbore crossings by future Pt. Mclntyre Development Wells. If the above described name and surface location change is acceptable to the AOGCC, please indicate such by executing this letter in the space provided below. .~Senior ~8 m a/-'~m es R'~engarner AGREED TO AND ACCEPTED this day of September, 1992. ALASKA OIL AND GAS CONSERVATION COMMISSION RECEIVED S E P 1 6 1992 Alaska Oil & Gas Cons. CommiSsion Anchorage By: Title: ARCO A~aska, ~nc. is a Subsidiary of Atlantic Richfield Company STATE OF ALASKA AI.ASKA OIL AND GAS CONSERVATION COMMISSION 3001 Porcupine Drive Anchorage Alaska 99501-3192 Re: THE APPLICATION OF ARCO ) ALASKA, INC. for an order ) granting an exception to ) spacing requirements of ) Title 20 AAC 25.055 to provide ) for the drilling of the ARCO Pt. ) McIntyre Well Nos. Pl-il, P1-21,) P2-31, P2-47 and P2-56. ) Conservation Order No. 298 ARCO Alaska Inc. Pt. McIntyre Wells August 14, 1992 IT APPEARING THAT: I · ARCO Alaska, Inc. submitted applications dated July 16, 1992 requesting exception to 20 AAC 25.055(a)(3) to allow drilling the ARCO Pt. McIntyre Well Nos. PI-ll, P1-21, P2-31, P2-47 and P2- 56 closer than 500 feet to a quarter section line. , Notice of hearing was published in the Anchorage Daily News on July 25, 1992 pursuant to 20 ACC 25.540. 3. No protest to the applications was received. FINDINGS: I · The ARCO Pt. McIntyre No. PI-ll well as proposed will be directionally drilled from a surface location 1428' from the south line (FSL), 781' from the east line (FEL) of Section 16, T12N, R14E, Umiat Meridian to a bottom-hole location 1882' from the north line (FNL), 2606' from the west line (FWL) of Section 10, T12N, R14E, Umiat Meridian. 2, The ARCO Pt. McIntyre No. P1-21 well as proposed will be directionally drilled from a surface location 1378' FSL, 922' FEL of Section 16, T12N, R14E, Umiat Meridian to a bottom-hole location 2367' FNL, 2368' FWL of Section 9, T12N, R14E, Umiat Meridian. Conservation Order No. 298 Augmst 14, 1992 Page 2 , The ARCO Pt. Mclntyre No. P2-31 well as proposed will be directionally drilled from a surface location 205' FNL, 1376' FWL of Section 14, T12N, R14E, Umiat Meridian to a bottom-hole location 81' FNL, 123' FWL of Section 18, T12N, R15E, Umiar Meridian. . The ARCO Pt. McIntyre No. P2-47 well as proposed will be directionally drilled from a surface location 425' FNL, 1286' FWL of Section 14, T12N, R14E, Umiat Meridian to a bottom-hole location 55' FSL, 1360' FWL of Section 12, T12N, R14E, Umiat Meridian. . The ARCO Pt. McIntyre No. P2-56 well as proposed will be directionally drilled fr®m a surface location 579' FNL, 1223' FWL of Section 14, T12N, R14E, Umiat Meridian to a bottom-hole location 2328' FSL, 2578' FWL, Section 14, T12N, R14E, Umiat Meridian. . An exception to drill the P2-56 well to a different bottom hole location was issued as Conservation Order No. 294 on March 20, 1992. . Offset operators/owners Exxon Corporation and BP Exploration (Alaska) Inc. have been duly notified. , An exception to 20 AAC 25.055(a)(3) is necessary to allow drilling of these wells. CONCLUSION: Granting spacing exceptions to allow drilling of the ARCO Pt. McIntyre Well Nos. PI-ll, P1-21, P2-31, P2-47 and P2-56 as proposed will not result in waste nor jeopardize correlative rights. NOW, THEREFORE, IT IS ORDERED: ARCO Alaska, Inc.'s applications for exception to 20 AAC 25.055 for the purpose of drilling the Pt. McIntyre Well Nos. PI-ll, P1- 21, P2-31, P2-47 and P2-56 are approved as proposed. 2. Conservation Order No. 294 is hereby revoked. Conservation Order No. 298 August 14, 1992 Page 3 DONE at Anchorage, Alaska and dated August 14, 1992. I~ei~gt{ G~iffir~, -~om~'~ioner Alaska Oil and Ga~Conservation Commission Russell A. Douglass, Co~issioner Alaska Oil and Gas Conservation Commission ** CHECK LIST FOR NEW WELL PERMITS ITEM APPROVE DATE (1) Fee ,. ..;., ... _ (2) Loc P · hru 8 ] Company ,..~:', ....... C..n, .~_~ 13] 10. Is a conservation order needed ....................................... t,--×'f ' .~).~Z'-/R-/~-~ 11. Is administrative approval needed .................................... __ [10 & 13] 12. Is lease n~rnber appropriate .......................................... 13. Does well have a unique name & number ................................ K-'"" ,.,~ 14. Is conductor string provided ......................................... [14 thru 22] 15. Will surface casing protect all zones reasonably expected to serve as an underground source of drinking water .................. //~'. 16. Is enough cement used to circulate on conductor & surface ............ 17. Will cement tie in surface & intermediate or production strings ...... 18. Will cement cover all known productive horizons ..................... 19. Will all casing give adequate safety in collapse, tension, and burst. 20. Is well to be kicked off from an existing wellbore ................... .. 21. Is old wellbore abandonment procedure included on 10-403 ............. 22. Is adequate wel l bore separation proposed ............................. /~. (5) BOPE ,/~.,L~4'~ ~]~/7-~g:~ 23. Is a diverter system required ........................................ thru :28] 24. Is drilling fluid program schematic & list of equipment adequate ..... [23 /~.~.. (6) Other :~j ..... :9? [29 thru 31] (7) Contact [32] (8) Add] ~<',.~.~'~ 25. Are necessary diagrams & descriptions of diverter & BOPE attached .... 26. Does BOPE have sufficient pressure rating -- test to ~'~ psig ..... ~. 27. Does choke manifold comply w/API RP-53 (May 84) ...................... 28. Is presence of H2S gas probable ...................................... FOR EXPLORATORY & STRATIGRAPHIC WELLS: 29. Are data presented on potential overpressure zones ................... 30. Are seismic analysis data presented on shallow gas zones ............. 31. If offshore loc, are survey results of seabed conditions presented... 32. Name and phone number of contact to supply weekly progress data ...... 1. Is permit fee attached ............................................... 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 & is wellbore plat included ................... ~.-~ 7. Is operator the only affected party .................................. 4-'/. 8. Can permit be approved before 15-day wait ............................ 9. Does operator have a bond in force ................................... ~/' geology: engineering: DWJ~~ MTM//./~4' RAD ~ _ LAG · 08/18/92 .-1 1 // ', ,d"" 33. Additional requirements ............................................. INITIAL GEOL UNIT ON/OFF POOL CLASS STATUS AREA ~ SHORE '" (.' ~" .... ~ ..... /~c._~....,;, /' ........ ' , , YES ,/ 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 simp!ify finding information, information of this nature is accumulated at the end of the file under APPENDIX. No special effort has been made to chronologically organize this category of information. ALASKA COMPUTING CENTER SCHLUMBERGER COMPANY NAME : ArCO ALASKA, INC. WELL NAME : P2-30 FIELD NAME : POINT MCINTYRE BOROUGH : NORTH SLOPE STATE : ALASKA API NUMBER : 50-029-22259-00 REFERENCE NO : 95267 LIS Tape Ver|fica%ion Lis%Jng Schlumberger Alaska Computing Cen%er 15-AUG-199S 12:19 **** REEL HEADER ***' SERVICE NAME : EDIT DATE : 9S/08/15 ORIGIN : FLIC REEL NAME : 95267 CONTINUATION # : PREVIOUS REEL : COMMENT : ARCO ALASKA INC, P2-30, POINT MCINTYRE, AP1 #50-029-22289-00 PAGE: **** TAPE HEADER SERVICE NAME : EDIT DATE : 95/08/15 ORIGIN : FLIC TAPE NAME : 95267 CONTINUATION # : 1 PREVIOUS TAPE : COMMENT : ARCO ALASKA INC, P2-30, POINT MCINTYRE, API #50-029-22289-0e TAPE HEADER POINT MCINTYRE CASED HOLE WIRELINE LOGS WELL NAME: P2-$0 API NUMBER: 500292228900 OPERATOR: ARCO ALASKA, INC. LOGGING COMPANY: SCHLUMBERGER WELL SERVICES TAPE CREATION DATE: 15-AUG-g5 JOB NUMBER: 95267 LOGGING ENGINEER: D.WARNER OPERATOR WITNESS: L.BAKER SURFACE LOCATION SECT[ON: TOWNSHIP: 12N RANGE: 14E FNL: ~91 FSL: FEL: FWL: 1383 ELEVATION(FT FROM MSL KELLY BUSHING: 49.00 DERRICK FLOOR: 49.00 GROUND LEVEL: 12.00 WELL CASING RECORD OPEN HOLE CASING DRILLERS CASING BIT SIZE (IN) SIZE (IN) DEPTH (FT) WEIGHT (LB/FT) IST STRING 13.375 3839.0 2ND STRING 9.625 ~0242.0 3RD STRING 7.000 ~0826.0 PRODUCTION STRING 4.500 10134,0 CURVE SHIFT DATA - ALL PASSES TO STANDARD(MEASURED DEPTH) 68.00 47.00 26.00 12.60 LIS Tape Verification LJst|ng Schlumberger Alaska Computing Center BASELINE CURVE FOR SHIFTS LDWG TOOL CODE: BCS LDWG CURVE CODE: GR RUN NUMBER: PASS NUMBER: DATE LOGGED: 03-NOV-92 LOGGING COMPANY: WESTERN ATLAS BASELINE DEPTH GRCH 88888.0 88886.5 10617.0 10595.0 10593.5 10576.0 10575.5 10566.0 10565.5 10544.0 10543.0 10513.5 10513.5 10480.0 10480.0 10461.5 10461.5 10446.5 10446.0 10356.0 10356.0 10332.0 10332,5 10329.0 10329.0 10319.5 10319.5 10296.0 10295.0 10284.0 10284.0 10266.0 10266.0 10239.0 10239.0 10238.5 10233.0 10234.0 10223.0 10223.5 10208.0 10208.5 10199.0 10199.5 100.0 100.5 $ REMARKS: 15-AUG-1995 12:19 EQUIVALENT UNSHIFTED DEPTH, TDTP 88887.0 10616.0 10593.5 10575.5 10565.5 10543.0 10513.5 10480.0 10461.5 10447.0 10356.0 10332.5 10329.0 10319.5 10295.0 10284.0 10266.0 10239 10234 10223 10208 10199 100 The depth adjustments shown above reflect cased hole GR to open hole GR and cased hole SIGM to open hole GR. All other TDTP curves were carried with the SIGM shifts. PAGE: **** FILE HEADER FILE NAME : EDIT .001 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX RE£ SIZE : 1024 FILE TYPE : LO LAST FILE : FILE HEADER FILE NUMBER: LIS Tape Verification Listing Schlumberger Alaska Compu%ing Center ~-AUG-1995 12:19 EDITED CURVES Depth shifted and clipped curves for each pass in separa%e files. PASS NUMBER: 1 DEPTH INCREMENT: o.5ooe FILE SUMMARY LDWG TOOL CODE START DEPTH STOP DEPTH GRCH 10612.0 10196.0 TDTP 10626.0 10196.0 $ CURVE SHIFT DATA - PASS TO PASS(MEASURED DEPTH) BASELINE CURVE FOR SHIFTS LDWG CURVE CODE: PASS NUMBER: EQUIVALENT UNSHIFTED DEPTH BASELINE DEPTH REMARKS: This file contains TDTP Pass #1. shif%s were applied to this da%a. $. LIS FORMAT DATA No pass to pass PAGE: ** DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB ** TYPE REPR CODE VALUE I 66 0 2 66 0 3 73 96 4 66 5 66 6 73 7 65 8 68 0.5 9 65 FT 11 66 10 12 68 13 66 0 14 65 FT 15 66 68 16 66 1 0 66 0 LIS Tape Verifica%ion Lis%lng Schlumberger Alaska Compu%ing Cen%er SET TYPE - CHAN ** 15-AUG-1995 12:~9 PAGE: NAME SERV UNIT SERVICE APl AP1 APl AP1 FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOg TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 0 ! 1 ! 4 68 000~000000 SIG~ TDTP CU 505964 ~0 000 00 0 ! 1 1 4 68 e000000000 TPHI 'rDTP PU-S 505964 00 000 00 0 1 ! ! 4 68 000~00000 SBHF 'rDTP CU 505964 00 000 00 0 1 1 1 4 68 ~00000000 SBHN 'rDTP CU 505964 00 000 00 0 1 1 ! 4 68 0000000000 SIGC TDTP CU 505964 00 000 00 0 ! ! 1 4 68 0000000000 SIBH TDTP CU 505964 00 000 00 0 1 ! ! 4 68 0000000000 TRAT TDTP 505964 00 000 00 0 ! 1 1 4 68 0000000000 LC03 TDTP 505964 00 00~ 00 0 ! 1 ! 4 68 0000000000 SDSI TDTP CU 505964 00 000 00 0 ! 1 1 4 68 0000000000 BACK 'rDTP CPS 505964 00 000 00 ~ ! ! ! 4 68 000000~000 FBAC TDTP CPS 505964 00 000 00 0 1 ! 1 4 68 0000000000 TCAN TDTP CPS 505964 00 000 00 0 1 ! ! 4 68 0000000000 TCAF TDTP CPS 505964 00 000 00 0 ! ! ! 4 68 0000000000 TCND 'TDTP CPS 505964 00 000 00 0 ! ! ! 4 68 0000000000 TCFD TDTP CPS 505964 00 000 00 0 ! 1 ! 4 68 0000000000 TSCN TDTP CPS 505964 00 000 00 0 ! ! ! 4 68 0000000000 TSCF TDTP CPS 505964 00 000 00 0 1 1 ! 4 68 0000000000 INND 'rDTP CPS 505964 00 000 00 0 1 ! ! 4 68 0000000000 INFD TDTP CPS' 505964 00 000 00 0 ! 1 ! 4 68 0000000000 GRCH TDTP GAPI 505964 00 000 00 0 1 ! ! 4 68 0000000000 TENS TDTP LB 505964 00 00~ 00 0 1 ! 1 4 68 0000000000 CCL TDTP V 505964 00 000 00 0 ! ! ~ 4 68 0000000000 GR BCS GAPI 505964 00 000 00 0 1 1 1 4 68 0000000000 DATA ** DEPT. 10650.000 SIGM.TDTP -999.250 TPHI.TDTP SBHN.TDTP -999.250 SIGC.TDTP -999.250 SIBH.TDTP LCO1.TDTP -999.250 SDSI.TDTP -999.250 BACK.TDTP TCAN.TDTP -999.250 TCAF,TDTP -999.250 TCND.TDTP TSCN.TDTP -999.250 TSCF,TDTP -999.250 INND,TDTP GRCH.TDTP -999.250 TENS.TDTP -999.250 CCL.TDTP -999 250 -999 250 -999 250 -999 250 -999 250 -999 250 SBHF.TDTP TRAT.TDTP FBAC.TDTP TCFD.TDTP INFD.TDTP GR.BCS DEPT. 10170.000 SIGM.TDTP -999.250 TPHI.TDTP -999.250 SBHF.TDTP SBHN.TDTP -999.250 SIGC.TDTP -999.250 SIBH.TDTP -999.250 TRAT.TDTP LCO1.TDTP -999.250 SDSI.TDTP -999.250 BACK.'FDTP -999.250 FBAC.TDTP TCAN.TDTP -999.250 TCAF.TDTP -999.250 TCND,TDTP -999.250 TCFD.'rDTP TSCN.TDTP -999.250 TSCF,TDTP -999.250 INND.TDTP -999.250 INFD.TDTP GRCH.TDTP -999.250 TENS,TDTP -999,250 CCL,TDTP -999.250 GR.BCS -999.250 -999.250 -999.250 -999.250 -999.250 106.491 -999.250 -999.250 -999.250 -999.250 -999.250 92.393 ** END OF DATA LIS Tape Verification List|ng Schlumberger Alaska Comput|ng Center · ,,, FILE TRAILER ,,,, FILE NAME : EDIT .00[ SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX RE¢ SIZE : 1024 FILE TYPE : LO LAST FILE : 15-AUG-1995 12:19 PAGE: **** FILE HEADER **** FILE NAME : EDIT .002 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : FILE HEADER FILE NUMBER: 2 EDITED CURVES Depth shifted and clipped curves for each pass in separate files. PASS NUMBER: 2 DEPTH INCREMENT: 0.5000 FILE SUMMARY LDWG TOOL CODE START DEPTH STOP DEPTH GRCH 10612.0 10197.0 TDTP 10626.0 10197.0 $ CURVE SHIFT DATA - PASS TO PASS(MEASURED DEPTH) BASELINE CURVE FOR SHIFTS LDWG CURVE CODE: GRCH PASS NUMBER: 1 EQUIVALENT UNSHIFTED DEPTH- BASELINE DEPTH GRCH TDTP 88888.0 88888.5 88887.5 10616.5 10616.0 10612.5 10612.5 10608.5 10608.5 10604.5 10605.0 10600.5 10600.0 10596.5 10596.5 10592.5 10591.5 10588.5 10587.5 10584.5 10585.0 10584.0 10580.5 10580.0 LIS Tape Verification Listing Schlumberger Alaska Computing Center ~-AUG-~99S ~2:~9 PAGE: 10576.5 10~72.g 10568.5 10564.5 10560.5 10544.5 1054~.5 10536.5 1~532.5 10528.5 10524.5 1~52~.5 1~516.5 10508.5 10504.5 1050~.5 1~496.5 1~492.5 1~488.5 1~484.5 1~48~.5 1~476.5 10472.5 10464 5 1046~ 5 10456 5 10452 5 1~448 5 1~444 5 1~44~ 5 1~436 5 1~432 5 10428 5 1~424 5 1~420 5 1~416 5 10412.5 10408.5 1~4~4.5 1~400.5 10396.5 1~392.5 10388.5 1~384.5 10380.5 10376.5 10372 5 10368 5 1~364 5 1036~ 5 10336 5 10332 5 10324 5 1~32~ 5 10316 5 lZg73.0 10568.$ 1~544.5 10541.0 10536.5 10524.5 10521.5 10509.5 10505.0 10485.0 1048~.5 10460.5 10453.5 10449.0 10433.0 10428.5 10416.5 10413.0 1~406.5 10402.5 10398.0 10390.0 10385.5 10369.5 10365.0 10361.5 10337.5 10333.0 1~321.0 10316.5 10577.0 10~72.$ 10S68.5 10565.e 10560.5 10532.5 10529.0 10525.~ 10520 5 10517 0 10509 0 10506 0 10501 0 10498 0 10493 5 10489 5 10484 5 10480 5 10477 0 10473 0 10464 5 10461 0 10457 5 10453 0 10450 ~ 10445,5 10441,0 10437,5 10429.5 10426.5 10421.5 10416.5 10412.5 10409.5 10397.5 10394.0 1039~.0 10386.5 10382.5 10378.0 10373.5 10369.0 10325.0 10321.5 10317.5 LIS Tape Verifica%ion Lis%ing Schlumberger Alaska Compu%ing Cen%er 15-AUG-J995 [2:[9 10312.5 10313.0 10513.0 10308.~ 10308.g 1~309.0 10304.5 1~304.5 10300.5 1~300.0 10296.5 10296.5 10296.0 10292.5 10293.0 10292.5 10288.5 10289.0 10284.5 10285.0 10280.5 10281.0 1~280.5 10276.5 10277.5 10277.0 10268.5 10269.0 10264.5 10265.5 10265.5 10260.5 10261.0 10261.5 10256.5 10257.0 10252.5 10253.5 10240.5 10241.0 10236.5 10237.5 10237.5 10232.5 10234.0 10228.5 10230.0 10212.5 10215.0 100.0 101.0 102.5 $ REMARKS: This file con%ains TDTP Pass #2. The dep%h shif%s shown above relec% GRCH pass #2 %o GRCH pass #! and SIGM pass #2 %o SIGM pass #1. $ LIS FORMAT DATA PAGE: DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB ** TYPE REPR CODE VALUE 1 66 0 2 66 0 3 73 92 4 66 5 66 6 73 7 65 8 68 0.5 9 65 FT 1L 66 12 68 13 66 0 14 65 FI 15 66 68 16 66 0 66 1 LIS Tape Verifica%ion Lis%ing Schlumberger Alaska Computing Cen~er 15-AUG-1995 12:19 PAGE: SET TYPE - CHAN *. NAME SERV UNIT SERVICE AP1 AP1 APl APl FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 0 2 I 1 4 68 0000000000 SIGM TDTP CU 505964 00 000 00 0 2 I I 4 68 0000000000 TPHI TDTP PU-S 505964 00 000 00 0 2 I I 4 68 0000000000 SBHF TDTP CU 505964 00 000 00 0 2 1 1 4 68 0000000000 SBHN TDTP CU 505964 00 000 00 0 2 I 1 4 68 0000000000 SIOC TDTP CU 505964 00 000 00 0 2 I ! 4 68 0000000000 SIBH TDTP CU 505964 00 000 00 0 2 1 1 4 68 0000000000 TRAT TDTP 505964 00 000 00 0 2 1 1 4 68 0000000000 LC01TDTP 505964 00 000 00 0 2 1 1 4 68 0000000000 SDSI TDTP CU 505964 00 000 00 0 2 1 1 4 68 0000000000 BACK TDTP CPS 505964 00 000 00 0 2 1 1 4 68 0000000000 FBAC TDTP CPS 505964 00 000 00 0 2 1 1 4 68 0000000000 TCAN TDTP CPS 505964 00 000 00 0 2 1 I 4 68 0000000000 TCAF TDTP CPS 505964 00 000 00 0 2 1 1 4 68 0000000000 TCND TDTP CPS 505964 00 000 00 0 2 1 1 4 68 0000000000 TCFD TDTP CPS 505964 00 000 00 0 2 1 ! 4 68 0000000000 TSCN TDTP CPS 505964 00 000 00 0 2 1 1 4 68 0000000000 TSCF TDTP CPS' 505964 00 000 00 0 2 1 1 4 68 0000000000 INND TDTP CPS 505964 00 000 00 0 2 ! 1 4 68 0000000000 INFD TDTP CPS 505964 00 000 00 0 2 1 1 4 68 0000000000 GRCH TDTP GAPI 505964 00 000 00 0 2 1 1 4 68 0000000000 TENS TDTP LB 505964 00 000 00 0 2 1 1 4 68 0000000000 CCL TDTP V 505964 00 000 00 0 2 1 1 4 68 0000000000 DATA DEPT SBHN TDTP LCO1 TDTP TCAN TDTP TSCN TDTP GRCH TDTP DEPT SBHN TDTP LCO1 TDTP TCAN TDTP TSCN TDTP GRCH TDTP 10625.500 SIGM.TDTP 46.338 TPHI.TDTP 48.574 SBHF.TDTP 97,696 SIGC.TDTP 0,252 SIBH,TDTP 167,815 TRAT,TDTP 2,710 SDSI.TDTP 0.937 BACK.TDTP 186,706 FBAC.TDTP 34128.945 TCAF.TDTP 10827,256 TCND.'T'DTP 10510.428 TCFD.TD'f'P 562.767 TSCF.TDTP 207.686 INND.TDTP 2505.811 INFD.TDTP -999.250 TENS.TDTP 3210.000 CCL.TDTP 0.000 10198.000 SIGM.TDTP -999 -999.250 SIGC.TDTP -999 -999.250 SDSI.TDTP -999 -999.250 TCAF.TDTP -999 -999.250 TSCF.TDTP -999 61.781 TENS.TDTP -999 250 TPHI.TDTP -999.250 SBHF.TDTP 250 SIBH.TDTP -999.250 TRAT.TDTP 250 BACK,TDTP -999.250 FBAC.TDTP 250 TCND,TDTP -999.250 T£FD.TDTP 250 INND,TDTP -999,250 INFD.TDTP 250 CCL.TDTP -999.250 89.288 1.303 44.037 2828.180 433.388 -999.250 -999.250 -999.250 -999.250 -999.250 END OF DATA LIS Tape Verification Listing Schlumberger Alaska Computing Center · *.* FILE TRAILER **** FILE NAME : EDIT .002 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/i5 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : 15-AUG-lg95 12:19 PAGe: **** FILE HEADER FILE NAME : EDIT .003 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : FILE HEADER FILE NUMBER: 3 EDITED CURVES Depth shifted and clipped curves for each pass in separate files. PASS NUMBER: 3 DEPTH INCREMENT: 0.500~ FILE SUMMARY LDWG TOOL CODE START DEPTH STOP DEPTH GRCH 10612.0 10197.0 TDTP 10626.0 1~197.0 $ CURVE SHIFT DATA - PASS TO PASS(MEASURED DEPTH) BASELINE CURVE FOR SHIFTS LDWG CURVE CODE: GRCH PASS NUMBER: 1 EQUIVALENT UNSHIFTED DEPTH BASELINE DEPTH GRCH TDTP 88888.0 88887.5 10616.5 10612.5 10604.5 10600.5 10596.5 10584.5 1058~.5 10576.5 10576.0 10572.5 10572,5 10568.5 1~568.0 88887 5 10616 0 i0612 5 10604 0 1~601 0 i0596 0 10584 0 10579 5 10576 5 LIS Tape Verification Listing Schlumberger Alaska Computing Cen~er 1S-AUG-199S 12:19 PAGE: 10 10564 5 10556 5 10552 5 10544 5 10540 5 10536 5 10532 5 10528 5 10524 5 10520 5 10516.~ 10512.5 10508.5 10504.5 10500 5 10496 5 ~0492 5 10488 S 10472 ~ 10468 5 10464 5 10460 ~ 10456 ~ 104~2 5 10448 5 10444 ~ 10440 5 10436 5 10452 5 10424 5 10420 5 10416.S 10412 5 10408 5 10404 5 10400 5 10396 5 10392 5 10388 5 10384 5 10380 5 10376 5 10372 5 10364 ~ 10360 5 10352 5 10348 5 10344 5 10340 5 10336 5 10332 5 10328 5 10324 5 10320 5 10564.5 1~5S7.0 10552.5 10544,5 10541.0 10536.5 10524 10521 10517 10513 10509 10504 10500 10497 10493 10488 10444.5 10440.0 10437.0 10432.5 10404.5 10401.0 10397.0 10393.5 10365.5 10361.0 10353.0 10349.5 10345.~ 10321.~ 10564.5 10gSZ.~ 10552.0 10S40.0 10536.5 10533.0 10529.0 10524.5 10520.0 10517.0 10512.5 10509.0 10473.0 10468.0 10465.0 10461.0 10457.5 10453.5 10450.0 10445.5 10441.0 10437.5 10425.5 10421.0 10417.0 10412.5 10409.5 10393.5 10388.0 10385.0 10381.0 10378.0 10373.0 10345 0 10340 5 10337 5 10333 5 10329 0 10325 0 1032! 5 LIS Tape Verif|cation Lis~|ng Schlumberger Alaska CompuCing Cen~er 15-AUG-lgg5 12:19 i0316.5 10312.5 10304.5 i0300.5 i0296.5 10292.5 10288.5 10276,5 10272.5 10268,5 10264,5 10260.5 10256.5 10248 5 10244 5 10236 5 10232 5 10228 5 $ REMARKS: 10316.5 10308.g 10305.0 lo277.e 10273.5 10265 5 10261 0 10257 10249 10245 10237 10233 10230 101 10317.5 10312.5 10304.5 10300.0 102gs.5 10292.5 1~289.0 10269.0 10264.5 10261.0 10257.5 10249.5 10246.0 101.5 This file contains TDTP Pass #3. The depth shifts shown above relect GRCH pass #3 to GRCH pass #1 and StGM pass #3 to SIGM pass #1. $ LIS FORMAT DATA PAGE: 11 ** DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB ** TYPE REPR CODE VALUE 1 66 0 2 66 0 3 73 92 4 66 5 66 6 73 7 65 8 68 0.5 9 65 FT 11 66 12 68 13 66 0 14 65 FT 15 66 68 16 66 0 66 1 LIS Tape Verification Lis~ing Schlumberger Alaska Comput|ng Center SET TYPE - CHAN ** 15-AUG-1995 12:19 PAGE: 12 NAME SERV UNIT SERVICE API API AP[ API FILE NUMB NUMB SZZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 0 3 1 i 4 68 0000000000 SIGM TDTP CU 505964 00 000 00 0 3 1 1 4 68 0000000000 TPHI '*rDTP PU-S 505964 00 000 00 0 3 1 1 4 68 0000000000 SBHF TDTP CU 505964 00 000 00 0 3 1 1 4 68 0000000000 SBHN TDTP CU 505964 00 000 00 0 3 1 1 4 68 0000000000 SIGC TDTP CU 505964 00 000 00 0 3 1 1 4 68 0000000000 SIBH TDTP CU 505964 00 000 00 0 3 1 1 4 68 0000000000 TRAT TDTP 505964 00 000 00 0 3 1 1 4 68 '0000000000 LC01TDTP 505964 00 000 00 0 3 1 1 4 68 0000000000 SDSI TDTP CU 505964 00 000 00 0 3 1 1 4 68 0000000000 BACK TDTP CPS 505964 00 000 00 0 3 1 1 4 68 0000000000 FBAC TDTP CPS 505964 00 000 00 0 3 1 1 4 68 0000000000 TCAN TDTP CPS 505964 00 000 00 0 3 1 1 4 68 0000000000 TCAF TDTP CPS 505964 00 000 00 0 3 1 1 4 68 0000000000 TCND TDTP CPS 505964 00 000 00 0 3 I 1 4 68 0000000000 TCFD TDTP CPS 505964 00 000 00 0 3 1 1 4 68 0000000000 TSCN TDTP CPS 505964 00 000 00 0 3 1 1 4 68 0000000000 TSCF TDTP CPS 505964 00 000 00 0 3 1 1 4 68 0000000000 INND TDTP CPS 505964 00 000 00 0 3 ! ! 4 68 0000000000 INFD TDTP CPS' 505964 00 000 00 0 3 1 1 4 68 0000000000 GRCH TDTP GAPI 505964 00 000 00 0 3 ! 1 4 68 0000000000 TENS TDTP LB 505964 00 000 00 0 3 1 1 4 68 0000000000 CCL TDTP V 505964 00 000 00 0 3 1 1 4 68 0000000000 DATA DEPT SBHN TDTP LCO1 TDTP TCAN TDTP TSCN TDTP GRCH TDTP DEPT SBHN TDTP LCO1 TDTP TCAN TDTP TSCN TDTP GRCHTDTP 10625.500 SIGM.TDTP 45.416 TPHI.TDTP 45.865 SBHF.TDTP 97.018 SIGC.TDTP 0.996 SIBH.TDTP 166.278 TRAT.TDTP 2.553 SDSI.TDTP 0.996 BACK.TDTP 207.049 FBAC.TDTP 31440.871 TCAF.TDTP 9974.600 TCND.TDTP 9799.461 TCFD.TDTP 503.570 TSCF.TDTP 197.267 INND.TDTP 2256.082 ZNFD.TDTP -999.250 TENS.TDTP 3255.000 CCL.TDTP 0.000 10198.500 SIGM.TDTP 36.395 TPHI.TDTP 76.523 SBHF.TDTP 49.233 SIGC.TDTP 0.000 SIBH.TDTP 57.877 TRAT.TDTP 4.088 SDSI.TDTP 0.652 BACK.TDTP 207.388 FBAC.TDTP 69911.313 TCAF.TDTP 16992.012 TCND.TDTP 18874.738 TCFD.TDTP 2662.859 TSCF.TDTP 651.408 INND.TDTP 2496.331 INFD.TDTP 81.250 TENS.TDTP 3180.000 CCL.TDTP 0.000 92.247 1.269 47.668 2664.091 387.892 45.912 2.232 41.858 4525.216 419.873 ** END OF DATA LIS Tape Verification Listing Schlumberger Alaska Computing Center · ~,~ FILE TRAILER **,* FILE NAME : EDIT .003 SERVICE : FLIC VERSION : OOLC01 DATE : g5/~8/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : 15-AUG-lg95 12:19 PAGE: 13 **** FILE HEADER **,* FILE NAME : EDIT .004 SERVICE : FLIC VERSION : 001C01 DATE : 95/~8/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : FILE HEADER FILE NUMBER: 4 AVERAGED CURVES' Pulsed Neutron: Unaveraged edited Pass ! Gamma Ray and backround counts; arithmetic average of edited static baseline passes for all other curves. DEPTH INCREMENT 0.5000 PASSES INCLUDED IN AVERAGE LDWG TOOL CODE PASS NUMBERS TDTP 1, 2, 3, $ REMARKS: The arithmetic average of passes 1,2 ~ 3 was computed after all depth shifts and clipping was applied. $ LIS FORMAT DATA ** DATA FORMAT SPECIFICATION RECORD ** SET TYPE - 64EB ** TYPE REPR CODE VALUE I 66 2 66 3 73 4 66 5 66 6 73 0 0 84 1 LIS Tape Verification List|ng Schlumberger Alaska Computing Center ~-AUG-~99~ PAGE: 14 TYPE REPR CODE VALUE 7 8 68 0.5 9 65 FT 12 68 13 66 0 14 65 FT 15 66 68 16 66 0 66 SET TYPE - CHAN ** NAME SERV UNIT SERVICE AP1 AP1 AP1 AP1 FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 SIGM PNAV CU 505964 00 000 Oe TPHI PNAV PU-S 505964 00 000 00 SBHF PNAV CU 505964 00 000 00 SBHN PNAV CU · 505964 00 000 00 SIGC PNAV CU 505964 00 000 00 SIBH PNAV CU 505964 00 000 00 TRAT PNAV 505964 00 000 00 SDSI PNAV CU 505964 00 00e 00 BACK 'rDTP CPS 505964 00 e00 Oe FBAC TDTP CPS 505964 00 000 Oe TCAN PNAV CPS $05964 00 0e0 00 TCAF PNAV CPS 505964 00 000 00 TCND PNAV CPS 5~5964 00 000 00 TCFD PNAV CPS 505964 00 eeo 00 TSCN PNAV CPS 505964 00 e00 00 TSCF PNAV CPS 505964 00 000 00 INND PNAV CPS 505964 00 eeo 00 INFD PNAV CPS 505964 00 000 00 LC01 PNAV 505964 00 000 00 GRCH TDTP GAPI 505964 00 000 00 0 4 1 ! 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 I 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 I 1 4 68 0000000~00 0 4 1 1 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 1 4 68 0000000e00 0 4 I I 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 I 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 1 4 68 0000000000 0 4 1 1 4 68 0000000000 DATA DEPT. 10625.000 SBHN.PNAV 97.564 SDSI.PNAV 0.936 TCAF.PNAV 10491.012 TSCF.PNAV 191.594 GRCH,TDTP -999.250 SIGM.PNAV 46.070 TPHI.PNAV SIGC.PNAV 0.376 SIBH.PNAV BACK.TDTP 76.591 FBAC.TDTP TCND.PNAV 10497.924 TCFD.PNAV INND.PNAV 2395.675 INFD.PNAV 50.139 SBHF.PNAV 91.350 167.521 TRAT.PNAV 1.333 28.399 TCAN.PNAV 33765,414 2790,866 TSCN,PNAV 547,840 417,947 LCO1.PNAV 2,859 LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-1995 12:19 DEPT. 10196.500 SIOM.PNAV -999.250 TPHI.PNAV -999.250 SBHN.PNAV -999.250 SIGC.PNAV -999.250 SIBH.PNAV -999.250 SDSI.PNAV -999.250 BACK.TDTP 158.902 FBAC.TDTP 31.686 TCAF.PNAV -999.250 TCND.PNAV -999.250 TCFD.PNAV -999.2S0 TSCF.PNAV -999.250 INND.PNAV -999.250 INFD.PNAV -999.250 GRCH.TDTP 45.063 SBHF.PNAV TRAT.PNAV TCAN.PNAV TSCN.PNAV LCO1.PNAV PAGE: -999.250 -999.250 -999.250 -999.250 -999.250 END OF DATA **** FILE TRAILER ***. FILE NAME : EDIT .004 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : **** FILE HEADER FILE NAME : EDIT .005 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : FILE HEADER FILE NUMBER 5 RAW CURVES Curves and log header data for each pass in separate files; raw background pass in last file PASS NUMBER: DEPTH INCREMENT: 0.5000 FILE SUMMARY VENDOR TOOL CODE START DEPTH STOP DEPTH TDTP 10626.0 $ LOG HEADER DATA DATE LOGGED: SOFTWARE VERSION: TIME LOGGER ON BOTTOM: TD DRILLER (FT): TD LOGGER(FT): TOP LOG INTERVAL (FT): BOTTOM LOG INTERVAL (FT): 10196.0 29-JUL-95 CP42.2 1404 2g-JUL-g5 10675.0 10634.0 10200.0 10630.0 LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-1995 12:19 LOGGING SPEED (FPHR): DEPTH CONTROL USED (YES/NO): TOOL STRING (TOP TO BOTTOM) VENDOR TOOL CODE TOOL TYPE 9B0.0 NO TOOL NUMBER TDTP TDTP SONDE GENERATOR TDTP TDTP SONDE DETECTOR TDTP TDTP CARTRIDGE CCL COLLAR LOG TCC TELEMETRY CARTRIDGE TNG-P-21 TND-P-78 TNC-P-50 CAL-UB-S97 ATM-AA-36~ BOREHOLE AND CASING DATA OPEN HOLE BIT SIZE (IN): DRILLERS CASING DEPTH (FT): LOGGERS CASING DEPTH (FT): BOREHOLE CONDITIONS FLUID TYPE: FLUID DENSITY (LB/G): SURFACE TEMPERATURE (DEGF): BOTTOM HOLE TEMPERATURE (DEGF): FLUID SALINITY (PPM): FLUID LEVEL (FT): FLUID RATE AT WELLHEAD (BPM): WATER CUTS (PCT): GAS/OIL RATIO: CHOKE (DEG): NEUTRON TOOL TOOL TYPE (EPITHERMAL OR THERMAL): MATRIX: MATRIX DENSITY: HOLE CORRECTION (IN): 3539.0 PRODUCED FLUIDS THERMAL SANDSTONE 2.65 BLUELINE COUNT RATE NORMALIZATION IN OIL ZONE TOP NORMALIZING WINDOW (FT): BASE NORMALIZING WINDOW (FT): BLUELINE COUNT RATE SCALES SET BY FIELD ENGINEER FAR COUNT RATE LOW SCALE (CPS): 0 FAR COUNT RATE HIGH SCALE (CPS): 12~00 NEAR COUNT RATE LOW SCALE (CPS): 0 NEAR COUNT RATE HIGH SCALE (CPS): 30000 TOOL STANDOFF (IN): REMARKS: TIED INTO TDTP (SWS) LOGGED ON 08-JAN-g4 AND THEN DEPTH CORRRECTED AND PROCESSED ON 05-MAR-94. MADE LOG SCALES THE SAME AT THIS LOG FOR COMPARISON PURPOS USED SHOP CALIBRATION FOR RGAI = .9305 $ LIS FORMAT DATA PAGE: 16 LIS Tape Verification Listing Schlumberger Alaska Compu%ing Center ~-AUG-~995 ~2:~9 PAGE: 17 DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB *. TYPE REPR CODE VALUE I 66 0 2 66 0 3 73 92 4 66 5 66 6 73 7 65 8 68 0.5 9 65 FT 11 66 12 68 13 66 0 14 65 FT 15 66 68 16 66 0 66 SET TYPE - CHAN ** NAME SERV UNIT SERVICE AP1 AP1 AP1 AP1 FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 0 5 1 1 4 68 0000000000 SIGM PS1 CU 505964 00 000 00 0 5 I I 4 68 0000000000 TPHI PS1 PU 505964 00 000 00 0 5 I I 4 68 0000000000 SBHF PS1 CU 505964 00 000 00 0 5 1 1 4 68 0000000000 SBHN PS1 CU 505964 00 000 00 0 5 1 1 4 68 0000000000 SIGC PS1 CU 505964 00 000 00 0 5 1 ! 4 68 0000000000 SIBH PS1 CU 505964 00 000 00 0 5 1 I 4 68 0000000000 TRAT PS1 505964 00 000 00 0 5 1 1 4 68 0000000000 LC01 PS1 505964 00 000 00 0 5 1 ! 4 68 0000000000 SDSI PS1 CU 505964 00 000 00 0 5 I 1 4 68 0000000000 BACK PS1 CPS 505964 00 000 00 0 5 I 1 4 68 0000000000 FBAC PS1 CPS 505964 00 000 00 0 5 I 1 4 68 0000000000 TCAN PS1 CPS 505964 00 000 00 0 5 1 1 4 68 0000000000 TCAF PS1 CPS 505964 00 000 00 0 5 I 1 4 68 0000000000 TCND PS1 CPS 505964 00 000 00 0 5 1 1 4 68 0000000000 TCFD PS1 CPS 505964 00 000 00 0 5 1 I 4 68 0000000000 TSCN PS1 CPS 505964 00 000 00 0 5 1 1 4 68 0000000000 TSCF PS1 CPS 505964 00 000 00 0 5 1 ! 4 68 0000000000 INND PS1 CPS 505964 00 000 00 0 5 I 1 4 68 0000000000 INFD PS1 CPS 505964 00 000 00 0 5 1 1 4 68 0000000000 TENS PS1 LB 505964 00 000 00 0 5 I 1 4 68 0000000000 GR PS1 GAPI 505964 00 000 00 0 5 1 1 4 68 0000000000 CCL PS1 V 505964 00 000 00 0 5 1 1 4 68 0000000000 LIS Tape Verifica%ion Lis%ing Schlumberger Alaska Computing Cen%er 15-AUG-1995 12:19 PAGE: 18 DATA DEPT. SBHN.PS1 LCO1.PS1 TCAN.PS1 TSCN.PS1 TENS.PS1 10649 500 179 222 0 000 0 000 0 000 2495 000 SIGM.PSZ SIGC.PSZ SDSI.PS1 TCAF.PS1 TSCF.PS1 GR.PS1 DEPT. 10195.500 SIGM.PS1 SBHN.PS1 53.424 SIGC.PS1 LCO1.PS1 4.181 SDSI.PS1 TCAN.PS1 66983.203 TCAF.PS1 TSCN.PS1 2606.036 TSCF.PS1 TENS.PS1 3150.000 GR.PS1 21.906 TPHI.PS1 0.000 SIBH.PS1 4.239 BACK.PSZ 0.000 TCND.PS1 0.000 INND.PS1 60.719 CCL.PS1 35.108 TPHI.PS1 0.000 SIBH.PS1 0.715 BACK.PS1 16011.990 TCND.PS1 623.275 INND.PS1 40.906 CCL.PS1 0.000 231.888 23.079 -282.247 -0.785 0.000 81.108 67.385 157.218 17914.926 2436.447 0.000 SBHF.PS1 TRAT.PS1 FBAC.PS1 TCFD.PS1 INFD.PS1 SBHF.PS1 TRAT.PS1 FBAC.PS1 TCFD.PS1 INFD.PS1 113.812 0.000 27.660 -318.717 -0.940 49.290 2.301 31.556 4159.884 385.917 END Of DATA **** FILE TRAILER **** FILE NAME : EDIT .005 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : **** FILE HEADER FILE NAME : EDIT .006 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : FILE HEADER FILE NUMBER 6 RAW CURVES Curves and log header da%a for PASS NUMBER: 2 DEPTH INCREMENT: 0.5000 FILE SUMMARY VENDOR TOOL CODE START DEPTH each pass in separa%e STOP DEPTH files; raw background pass in las% file LIS Tape Verifica%ion L|s%ing Schlumberger Alaska Compu%|ng Cen%er 15-AUG-1995 12:19 PAGE: 19 TDTP $ LOG HEADER DATA 10626.0 DATE LOGGED: SOFTWARE VERSION: TIME LOGGER ON BOTTOM: TD DRILLER (FT): TD LOGGER(FT): TOP LOG INTERVAL (FT): BOTTOM LOG INTERVAL (FT): LOGGING SPEED (FPHR): DEPTH CONTROL USED (YES/NO): TOOL STRING (TOP TO BOTTOM) VENDOR TOOL CODE TOOL TYPE 10196.0 29-JUL-95 CP42.2 1658 29-JUL-95 10675.0 10634.0 10200.0 10630.0 900.0 NO TOOL NUMBER TDTP TDTP TDTP CCL TCC $ TDTP SONDE GENERATOR TDTP SONDE DETECTOR TDTP CARTRIDGE COLLAR LOG TELEMETRY CARTRIDGE TNG-P-21 TND-P-78 TNC-P-59 CAL-UB-597 ATM-AA-369 BOREHOLE AND CASING DATA OPEN HOLE BIT SIZE (IN): DRILLERS CASING DEPTH (FT): LOGGERS CASING DEPTH (FT): 3839.9 BOREHOLE CONDITIONS FLUID TYPE: FLUID DENSITY (LB/G): SURFACE TEMPERATURE (DEGF): BOTTOM HOLE TEMPERATURE (DEGF): FLUID SALINITY (PPM): FLUID LEVEL (FT): FLUID RATE AT WELLHEAD (BPM): WATER CUTS (PCT): GAS/OIL RATIO: CHOKE (DEG): PRODUCED FLUIDS NEUTRON TOOL TOOL TYPE (EPITHERMAL OR THERMAL): MATRIX: MATRIX DENSITY: HOLE CORRECTION (IN): THERMAL SANDSTONE 2.65 BLUELINE COUNT RATE NORMALIZATION IN 0IL ZONE TOP NORMALIZING WINDOW (FT): BASE NORMALIZING WINDOW (FT): BLUELINE COUNT RATE SCALES SET BY FIELD ENGINEER FAR COUNT RATE LOW SCALE (CPS): 9 FAR COUNT RATE HIGH SCALE (CPS): 12009 LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-1995 12:19 NEAR COUNT RATE LOW SCALE (CPS): 0 NEAR COUNT RATE HIQH SCALE (CPS): 30000 TOOL STANDOFF (IN): REMARKS: TIED INTO TDTP (SWS) LOGGED ON 08-JAN-94 AND THEN DEPTH CORRRECTED AND PROCESSED ON 05-MAR-94. MADE LOG SCALES THE SAME AT THIS LOG FOR COMPARISON PURPOS USED SHOP CALIBRATION FOR RGAI = .9305 $ # LIS FORMAT DATA PAGE: 20 DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB ** TYPE REPR CODE VALUE 1 66 0 2 66 0 3 73 92 4 66 5 66 6 73 7 65 8 68 0.5 9 65 FT 11 66 12 68 13 66 0 14 65 FT 15 66 68 16 66 0 66 1 SET TYPE - CHAN ** NAME SERV UNIT SERVICE API AP1 API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 0 6 I I 4 68 0000000000 SIGM PS2 CU 505964 00 000 00 0 6 1 1 4 68 e000000000 TPHI PS2 PU 505964 00 000 00 0 6 1 I 4 68 0000000000 SBHF PS2 CU 505964 00 000 00 0 6 I 1 4 68 0000000000 SBHN PS2 CU 505964 00 000 00 0 6 1 1 4 68 0000000000 SIGC PS2 CU 505964 00 000 00 0 6 1 1 4 68 0000000000 SIBH PS2 CU 505964 00 000 00 0 6 1 1 4 68 0000000000 TRAT PS2 505964 00 000 00 0 6 1 1 4 68 0000000000 LCO1 PS2 505964 00 000 00 0 6 1 1 4 68 0000000000 SDSI PS2 CU 505964 00 000 00 0 6 1 1 4 68 0000000000 BACK PS2 CPS 505964 00 000 00 0 6 1 1 4 68 0000000000 LIs Tape Verif|catJon Listing Schlumberger Alaska Computing Center 15-AUG-1995 12:19 PAGE: 21 NAME SERV UNIT SERVICE API API API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) FBAC PS2 CPS 505964 00 000 00 0 6 1 1 4 68 0000000000 TCAN PS2 CPS 505964 0~ 000 ~0 0 6 I 1 4 68 000000000~ TCAF PS2 CPS 505964 00 000 00 0 6 I 1 4 68 0000000000 TCND PS2 CPS 505964 00 000 00 0 6 1 1 4 68 0000000000 TCFD PS2 CPS 505964 00 000 ~0 0 6 1 1 4 68 0000000000 TSCN PS2 CPS 505964 00 000 00 0 6 I I 4 68 0000000000 TSCF PS2 CPS 505964 00 000 00 0 6 1 1 4 68 0000000000 INND PS2 CPS 505964 00 000 00 0 6 I 1 4 68 0000000000 INFD PS2 CPS 505964 00 000 00 ~ 6 I I 4 68 0000000000 TENS PS2 LB 505964 00 000 00 0 6 1 I 4 68 0000000000 GR PS2 GAPI 505964 00 000 00 0 6 1 1 4 68 00000000~0 CCL PS2 V 505964 00 000 00 0 6 I 1 4 68 0000000000 DATA DEPT. SBHN.PS2 LCO1.PS2 TCAN.PS2 TSCN.PS2 TENS.PS2 DEPT SBHN PS2 LC01 PS2 TCAN PS2 TSCN PS2 TENS PS2 10644 500 53 424 4 181 66983 203 2606 036 2435 1~197.000 53.270 4.253 67852.063 2565.827 3090.000 SIGM.PS2 35.108 TPHI.PS2 81.108 SBHF.PS2 SIGC.PS2 0.000 SIBH.PS2 67.385 TRAT.PS2 SDSI.PS2 0.715 BACK.PS2 157.218 FBAC.PS2 TCAF.PS2 16011.990 TCND.PS2 17914.926 TCFD.PS2 TSCF.PS2 623.275 INND.PS2 2436.447 INFD.PS2 GR.PS2 81.125 CCL.PS2 0.00~ SIGM PS2 SIGC PS2 SDSI PS2 TCAF PS2 TSCF PS2 GR PS2 36.601 TPHI.PS2 81.238 SBHF.PS2 0.000 SIBH.PS2 67.035 TRAT.PS2 0,712 BACK.PS2 188,684 FBAC,PS2 16151.586 TCND.PS2 18217,410 TCFD,PS2 603.257 INND,PS2 2320,953 INFD,PS2 61.781 CCL.PS2 0.000 49.290 2.301 31.556 4159.884 385.917 48.732 2.262 39.398 4366.738 398.166 END OF DATA **** FILE TRAILER FILE NAME : EDIT .006 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 UAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : LIS Tape Verification Listing Schlumberger Alaska Computing Center **** FILE HEADER **** FILE NAME : EDIT .007 SERVICE : FLIC VERSION : eOlCO! DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : 15-AUG-1995 12:19 PAGE: 22 FILE HEADER FILE NUMBER 7 RAW CURVES Curves and log header data for each pass in separate files; raw background pass in last file PASS NUMBER: 3 DEPTH INCREMENT: 0.5000 FILE SUMMARY VENDOR TOOL CODE START DEPTH STOP DEPTH TDTP $ LOG HEADER DATA 10626.0 10196.0 DATE LOGGED: SOFTWARE VERSION: TIME LOGGER ON BO'I-TOM: TD DRILLER (FT): TD LOGGER(FT): TOP LOG INTERVAL (FT): BOTTOM LOG INTERVAL (FT): LOGGING SPEED (FPHR): DEPTH CONTROL USED (YES/NO): TOOL STRING (TOP TO BOTTOM) VENDOR TOOL CODE TOOL TYPE 2g-JUL-g5 CP42.2 1702 29-JUL-95 10675.0 10634.0 10630.0 900.0 NO TOOL NUMBER TDTP TDTP TDTP CCL TCC $ TDTP SONDE GENERATOR TDTP SONDE DETECTOR TDTP CARTRIDGE COLLAR LOG TELEMETRY CARTRIDGE BOREHOLE AND CASING DATA OPEN HOLE BIT SIZE (IN): DRILLERS CASING DEPTH (FT): LOGGERS CASING DEPTH (FT): BOREHOLE CONDITIONS FLUID TYPE: FLUID DENSITY (LB/G): SURFACE TEMPERATURE (DEGF): TNG-P-21 TND-P-78 TNC-P-50 CAL-UB-597 ATM-AA-360 3539.0 PRODUCED FLUIDS LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-1995 12:19 BOTTOM HOLE TEMPERATURE (DEGF): FLUID SALINITY (PPM): FLUID LEVEL (FT): FLUID RATE AT WELLHEAD (BPM): WATER CUTS (PCT): GAS/OIL RATIO: CHOKE (DEG): # NEUTRON TOOL TOOL TYPE (EPITHERMAL OR THERMAL): THERMAL MATRIX: SANDSTONE MATRIX DENSITY: 2.65 HOLE CORRECTION (IN): BLUELINE COUNT RATE NORMALIZATION IN OIL ZONE TOP NORMALIZING WINDOW (FT): BASE NORMALIZING WINDOW (FT): BLUELINE COUNT RATE SCALES SET BY FIELD ENGINEER FAR COUNT RATE LOW SCALE (CPS): 0 FAR COUNT RATE HIGH SCALE (CPS): 12000 NEAR COUNT RATE LOW SCALE (CPS): 0 NEAR COUNT RATE HIGH SCALE (CPS): 30000 TOOL STANDOFF (IN): REMARKS: TIED INTO TDTP (SWS) LOGGED ON 08-JAN-94 AND THEN DEPTH CORRRECTED AND PROCESSED ON 05-MAR-94. MADE LOG SCALES THE SAME AT THIS LOG FOR COMPARISON PURPOS USED SHOP CALIBRATION FOR RGAI = .9305 $ LIS FORMAT DATA PAGE: 23 DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB ** TYPE REPR CODE VALUE 1 66 0 2 66 0 3 73 92 4 66 5 66 6 73 7 65 8 68 0.5 9 65 FT 11 66 12 68 13 66 0 14 65 FT LiS Tape VerJflcat|on Listing Schlumberger Alaska Comput|ng Center 15-AUG-1995 12:19 PAGE: 24 TYPE REPR CODE VALUE 15 66 68 16 66 0 66 SET TYPE - CHAN ** NAME SERV UNIT SERVICE AP1 AP1 AP1 AP1 FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 0 7 I 1 4 68 0000000000 SIGM PS3 CU 505964 00 000 00 0 7 1 ! 4 68 0000000000 TPHI PS3 PU 505964 00 000 00 0 7 ! 1 4 68 0000000000 SBHF PS3 CU 505964 00 000 00 0 7 1 1 4 68 0000000000 SBHN PS3 CU 505964 00 000 00 0 7 ! 1 4 68 0000000000 SIGC PS3 CU 505964 00 000 00 0 7 1 1 4 68 0000000000 SIBH PS3 CU 505964 00 000 00 0 7 1 1 4 68 0000000000 TRAT PS3 505964 00 000 00 0 7 ! 1 4 68 0000000000 LCO! PS3 505964 00 000 00 0 7 I 1 4 68 0000000000 SDSI PS3 CU 505964 00 000 00 0 7 1 ! 4 68 0000000000 BACK PS3 CPS 505964 00 000 00 0 7 1 ! 4 68 0000000000 FBAC PS3 CPS' 505964 00 000 00 0 7 1 ! 4 68 0000000000 TCAN PS3 CPS 505964 00 000 00 0 7 1 I 4 68 0000000000 TCAF PS3 CPS 505964 00 000 00 0 7 1 1 4 68 0000000000 TCND PS3 CPS 505964 00 000 00 0 7 1 ! 4 68 0000000000 TCFD PS3 CPS 505964 00 000 00 0 7 1 1 4 68 0000000000 TSCN PS3 CPS 505964 00 000 00 0 7 1 ! 4 68 0000000000 TSCF PS3 CPS 505964 00 000 00 0 7 1 1 4 68 0000000000 INND PS3 CPS 505964 00 000 00 0 7 1 1 4 68 0000000000 INFD PS3 CPS 505964 00 000 00 0 7 1 1 4 68 0000000000 TENS PS3 LB 505964 00 000 00 0 7 1 1 4 68 0000000000 GR PS3 GAPI 505964 00 000 00 0 7 1 1 4 68 0000000000 CCL PS3 V 505964 00 000 00 0 7 1 1 4 68 0000000000 DATA DEPT SBHN PS3 LC01 PS3 TCAN PS3 TSCN PS3 TENS PS3 DEPT. SBHN.PS3 LCO1.PS3 TCAN.PS3 TSCN.PS3 TENS.PS3 10649 500 53 270 4 253 67852 063 2565 827 2030 000 10196.500 49.400 4.118 68760,172 2619.967 3165.000 SIGM.PS3 36.601 TPHI.PS3 81.238 SBHF.PS3 SIGC.PS3 0.000 SIBH.PS3 67.035 TRAT.PS3 SDSI,PS3 0.712 BACK.PS3 188,684 FBAC,PS3 TCAF,PS3 16151,586 TCND,PS3 18217.410 TCFD,PS3 TSCF.PS3 603.257 INND,PS3 2320,953 INFD,PS3 GR.PS3 83.063 CCL.PS3 0.000 SIGM PS3 SIGC PS3 SDSI PS3 TCAF PS3 TSCF PS3 GR PS3 36.442 TPHI.PS3 77.298 SBHF.PS3 0.000 SIBH.PS3 58.256 TRAT.PS3 0.677 BACK.PS3 207.504 FBAC.PS3 16594.742 TCND.PS3 18610.473 TCFD.PS3 636.273 INND.PS3 2519.460 INFD.PS3 84.875 CCL.PS3 0.000 48.732 2.262 39.398 4366.738 398.166 46.509 2.245 41.089 4442.209 414.930 ,. LIs Tape Verifica%ion List,ing Schlumberger Alaska Comput,ing Cent, er 15-AUG-1995 12:19 PAGE: 25 ** END OF DATA **** FILE TRAILER ***. FILE NAME : EDIT .007 SERVICE : FLIC VERSION : 001C0! DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : · *** TAPE TRAILER ..*. SERVICE NAME : EDIT DATE : 95/08/15 ORIGIN : FLIC TAPE NAME : 95267 CONTINUATION # : 1 PREVIOUS TAPE : COMMENT · ARCO ALASKA INC, P2-30, POINT MCINTYRE, API #50-029-22289-00 REEL TRAILER ***. DATE : 95/08/15 ORIGIN : FLIC REEL NAME : 95267 CONTINUATION # : PREVIOUS REEL : COMMENT : ARCO ALASKA INC, P2-30, POINT MCINTYRE, API #50-029-22289-90 ALASKA COMPUTING CENTER · ........ SCHLUMBERGER COMPANY NAME : ARCO ALASKA, INC. WELL NAME : P2-30 FIELD NAME : POINT MCINTYRE BOROUGH : NORTH SLOPE STATE : ALASKA API NUMBER : 50-029-22289-00 REFERENCE NO : 95266 ~ 15-AUG-1995 14:20 PAGE: LIS Tape Verificat|on Listing Schlumberger Alaska Computing Center **** REEL HEADER ...* SERVICE NAME : EDIT DATE : 95/08/15 ORIGIN : FLIC REEL NAME : 95266 CONTINUATION # : PREVIOUS REEL : COMMENT : ARCO ALASKA INC., POINT MCINTYRE, P2-30, API# 50-e29-22289-00 **** TAPE HEADER SERVICE NAME : EDIT DATE : 95108/15 ORIGIN : FLIC TAPE NAME : 95266 CONTINUATION # : 1 PREVIOUS TAPE COMMENT : ARCO ALASKA INC.~ POINT MCINTYRE~ P2-30, API# 50-029-22289-00 TAPE HEADER POINT MCINTYRE CASED HOLE WIRELINE LOGS WELL NAME: P2-30 API NUMBER: 500292228900 OPERATOR: ARCO ALASKA~ INC. LOGGING COMPANY: SCHLUMBERGER WELL SERVICES TAPE CREATION DATE: 15-AU0-95 JOB NUMBER: 95267 LOGGING ENGINEER: D.WARNER OPERATOR WITNESS: L.BAKER SURFACE LOCATION SECTION: TOWNSHIP: RANGE: FNL: 191 FSL: FEL: FWL: 1383 ELEVATION(FT FROM MSL 0) KELLY BUSHING: 49.00 DERRICK FLOOR: 49.00 GROUND LEVEL: 12.0e WELL CASING RECORD OPEN HOLE CASING DRILLERS CASING BIT SIZE (IN) SIZE (IN) DEPTH (FT) WEIGHT (LB/FT) 1ST STRING 13.375 3839.0 2ND STRING 9.625 10242.0 3RD STRING 7.000 10526.0 PRODUCTION STRING 4.500 10134.0 CURVE SHIFT DATA - ALL PASSES TO STANDARD(MEASURED DEPTH) 68.00 47.00 26.00 12.60 LIS Tape Verification Listing Schlumberger Alaska Computing Center BASELINE CURVE FOR SHIFTS LDWG TOOL CODE: BCS LDWQ CURVE CODE: GR RUN NUMBER: PASS NUMBER: DATE LOGGED: e3-NOV-92 LOGGING COMPANY: WESTERN ATLAS BASELINE DEPTH GRCH 88888.0 10574.0 10554.0 10532.5 10513.5 10479.5 10474 5 10474 0 10438 5 10362 5 1~355 5 10354 5 le331 5 1033e.5 10320.0 10319.0 10297.5 10297,0 10265.5 10238.5 10238.0 10207.5 10202.5 10199.0 1~198.~ REMARKS: 15-AUG-1995 14:20 EQUIVALENT UNSHIFTED DEPTH CNTG 88887.5 10553.5 10531.5 10514.0 10480.0 10475.e 10439.5 10363.0 10356.0 10331.0 10319.5 10297.0 10266.0 10238.5 10208.5 10203.5 10199.5 88887.0 10573.0 10553.5 10531.5 10514.0 10480.0 10475.0 10439.5 10363.0 10354.0 10331.0 10319.5 10297.0 10266.0 10239.0 10208.5 10203.5 1~199.5 10~.5 1~1.~ The depth adjustments shown above reflect cased hole GR to open hole GR and cased hole NPHI to open hole GR. All other CNTG curves were carried with the NPHI shifts. $ PAGE: · *** FILE HEADER **** FILE NAME : EDIT .001 SERVICE : FLIC VERSION : OOlCO! DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : LIS Tape Verification Lis~ing Schlumberger Alaska Compu%ing Cen~er 15-AUG-1995 14:20 FILE HEADER FILE NUMBER: EDITED CURVES Depth shlf~ed and clipped curves for each pass in separate files. PASS NUMBER: DEPTH INCREMENT: FILE SUMMARY LDWG TOOL CODE START DEPTH STOP DEPTH CNTG 10628.0 10198.0 $ CURVE SHIFT DATA - PASS TO PASS(MEASURED DEPTH) BASELINE CURVE FOR SHIFTS LDWG CURVE CODE: PASS NUMBER: # EQUIVALENT UNSHIFTED DEPTH BASELINE DEPTH $ REMARKS: This file contains CNTG Pass #1. shifts were applied ~o ~his data. $ # LIS FORMAT DATA No pass to pass PAGE: DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB ** TYPE REPR CODE VALUE 1 66 0 2 66 0 3 73 68 4 66 1 5 66 6 73 7 65 8 68 0.5 9 65 FT l! 66 15 12 68 13 66 0 14 65 FT 15 66 68 16 66 0 66 0 LIS Tape Verif|cation Listing Schlumberger Alaska Computing Center 15-AUG-lg95 14:20 PAGE: SET TYPE - CHAN ** NAME SERV UNIT SERVICE API APl AP[ AP[ FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 0 1 1 I 4 68 0000000000 NPHI CNTG PU-S 505964 00 000 00 0 1 ! I 4 68 0000e00000 ENPH CNTG PU-S 505964 ~0 000 00 · 1 1 1 4 68 0000000000 CPHI CNTG PU-S 505964 00 000 00 0 ! 1 I 4 68 0000000000 NRAT CNTG 505964 00 000 00 0 1 1 1 4 68 0000000000 CRAT CNTG 505964 00 000 00 0 ! 1 1 4 68 eeeeeeeeee ENRA CNTG 505964 00 000 00 0 ! 1 1 4 68 eeeeeeeeee NCNT CNTG CPS 505964 00 000 00 0 ! [ [ 4 68 0000e00000 FCNT CNTG CPS 505964 00 00e 00 0 [ ! 1 4 68 0e00000000 CNTC CNTG CPS 505964 00 000 Oe 0 I I I 4 68 eeeeeeeeee CFTC CNTG CPS 505964 00 000 00 ~ I 1 1 4 68 0000000000 CNEC CNTG CPS 505964 00 000 00 0 I 1 I 4 68 0000000000 CFEC CNTG CPS 505964 00 000 00 0 I I 1 4 68 0000000000 GRCH CNTG GAPI 505964 00 000 00 0 1 I 1 4 68 0e00000000 TENS CNTG LB 505964 00 00e 00 0 I 1 1 4 68 ee00000000 CCL CNTG V 505964 00 000 00 0 I I I 4 68 0000000000 GR BCS GAPI 505964 00 000 00 0 I I I 4 68 0000000000 DATA DEPT. 10640.000 NPHI.CNTG -999.250 ENPH.CNTG -999.250 CPHI.CNTG NRAT.CNTG -999.250 CRAT.CNTG -999.250 ENRA.CNTG -999.250 NCNT.CNTG FCNT.CNTG -999.250 CNTC.CNTG -999.250 CFTC.CNTG -999.250 CNEC.CNTG CFEC.CNTG -999.250 GRCH.CNTG -999.250 TENS.CNTG -999.250 CCL.CNTG GR.BCS 106.858 DEPT. 10180.000 NPHI.CNTG -999.250 ENPH.CNTG -999.250 CPHI.CNTG NRAT.CNTG -999.250 CRAT.CNTG -999.250 ENRA.CNTG -999.250 NCNT.CNTG FCNT.CNTG -999.250 CNTC.CNTG -999.250 CFTC.CNTG -999.250 CNEC.CNTG CFEC.CNTG -999.250 GRCH.CNTG -999.250 TENS.CNTG -999.250 CCL.CNTG GR.BCS 74.064 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 -999.250 END OF DATA · *** FILE TRAILER ***~ FILE NAME : EDIT .001 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : LIS Tape Verifica%ion Lis%ing Schlumberger Alaska Computing Cen%er ===, FILE HEADER *=,, FILE NAME : EDIT .002 SERVICE : FLIC VERSION : OO1CO1 DATE : 95/~8/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : [5-AUG-1995 14:20 PAGE: FILE HEADER FILE NUMBER: 2 EDITED CURVES Dep%h shifted and clipped curves for each pass in separate files. PASS NUMBER: 2 DEPTH INCREMENT: 0.5000 FILE SUMMARY LDWG TOOL CODE START DEPTH STOP DEPTH GRCH 10610.0 10196.0 CNTG 10628.0 10196.0 $ CURVE SHIFT DATA - PASS TO PASS(MEASURED DEPTH) BASELINE CURVE FOR SHIFTS LDWG CURVE CODE: GRCH PASS NUMBER: 1 # EQUIVALENT UNSHIFTED DEPTH BASELINE DEPTH GRCH CNTG 88888.0 10586.5 10575.5 10571.5 10567.5 10562.5 10558.5 10554.5 10550.5 10546 5 10538 5 10534 5 10527 5 10523 5 10518 5 10514 5 10511 5 10510 5 10507 5 10506 5 10502.5 88887.5 88887.5 10586.0 10575.0 10571.5 10567.0 10527.0 10523.5 10511.5 10507.0 10503.5 10562.0 10559.0 10554.5 10550.0 10545.5 10537.5 10533.0 10517.0 10514.0 10510.5 10507.0 LIS Tape Verification Listing ,Schlumberger Alaska Computing Cen~er 15-AUG-1995 14:20 PAGE: 10502.5 10499.5 10486.5 10483.5 10479.5 10463 5 10462 5 10459 5 1~458 5 10454 5 10450 5 10446 5 10443 5 10442 5 10439.5 10435.5 10422.5 10419.5 10418.5 10415.5 10414.5 10410.5 10406.5 10394.5 10390.5 10378.5 10374 5 10355 5 10354 5 10351 5 10350 5 10342 5 10338 5 10326 5 10322 5 10314 5 10311 5 10310 5 10307 5 10306 5 1~303 5 10302 5 10295 5 10291 5 10287 5 10283 5 10282.5 10278.5 10270 5 10266 5 10263 5 10259 5 10255 5 10254 5 10251 5 lO484.e 10480.5 10464.5 10460.0 10444.0 10440.B 10436.0 10420.0 1~416.5 10356.5 10352.0 10312.0 10307.5 10304.0 10292.0 10287.5 10284.0 10264.0 10259.5 le255.5 10252.0 10503.0 10487.5 10463.5 10459.0 10455.5 1~451.e 10447.0 10443.5 10423.5 10418.5 10414.5 10411.0 10407.5 10395.5 10391.0 10379.0 10374.5 10354.5 10350.0 10342.0 10338,5 10326.5 10322.0 10314.0 10310.5 10306.0 10302.0 10298.5 10282.5 10279.0 10271.0 10267.5 10255.5 LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-lg95 14:20 10247.5 10248.0 10246.5 10243.5 10243.5 10231.5 10233.5 10227.5 10228.0 10226.5 10222.5 10218.5 100.0 100.5 $ REMARKS: 1o251.e 10247.5 10227.5 10224.0 10219.5 lol.o This file conta|ns CNTG Pass #2. The depth shifts shown above relect GRCH pass #2 to GRCH pass #1 and NPHI pass #2 ~o NPHI pass #1. $ LIS FORMAT DATA PAGE: DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB ** TYPE REPR CODE VALUE 1 66 0 2 66 0 3 73 64 4 66 5 66 6 73 7 65 8 68 0.5 9 65 FT 11 66 16 12 68 13 66 0 14 65 FT 15 66 68 16 66 0 66 I SET TYPE - CHAN ** NAME SERV UNIT SERVICE API API API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 0 2 1 I 4 68 0000000000 NPHI CNTG PU-S 505964 00 000 00 0 2 I 1 4 68 0000000000 ENPH CNTG PU-S 505964 00 000 00 0 2 1 1 4 68 0000000000 CPHI CNTG PU-S 505964 00 000 00 0 2 1 1 4 68 0000000000 LIS Tape Verification Listing Schlumberger Alaska Comput|ng Center 1B-AUG-1995 14:20 PAGE: NAME SERV UNIT SERVICE APl API API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) NRAT CNTG 505964 00 000 00 0 2 1 I 4 68 0000000000 CRAT CNTG 505964 00 000 00 0 2 I 1 4 68 0000000000 ENRA CNTG 505964 00 000 00 0 2 I 1 4 68 0000000000 NCNT CNTG CPS 505964 00 000 00 0 2 1 [ 4 68 0000000000 FCNT CNTG CPS 505964 00 000 00 0 2 1 I 4 68 0000000000 CNTC CNTG CPS 505964 00 000 00 0 2 1 1 4 68 0000000000 CFTC CNTG CPS 505964 00 000 00 0 2 1 1 4 68 0000000000 CNEC CNTG CPS 505964 00 000 00 0 2 I 1 4 68 0000000000 CFEC CNTG CPS 505964 00 000 00 0 2 [ 1 4 68 0000000000 GRCH CNTG GAPI 505964 00 000 00 0 2 1 1 4 68 0000000000 TENS CNTG LB 505964 00 000 00 0 2 1 I 4 68 0000000000 CCL CNTG V 505964 00 000 00 0 2 1 [ 4 68 0000000000 DATA DEPT. 10627.500 NPHI.CNTG 35.439 ENPH.CNTG 33.827 CPHI.CNTG NRAT.CNTG 3.512 CRAT.CNTG 3.347 ENRA.CNTG 5.044 NCNT.CNTG FCNT.CNTG 341.252 CNTC.CNTG 1135.334 CFTC.CNTG 336.666 CNEC.CNTG CFEC.CNTG 584.992 GRCH.CNTG -999.250 TENS.CNTG 3400.000 CCL.CNTG DEPT. 10196.500 NPHI.CNTG -999.250 ENPH.CNTG -999.250 CPHI.CNTG NRAT.¢NTG -999.250 CRAT.CNTG -999.250 ENRA.¢NTG -999.250 NCNT.CNTG FCNT.CNTG -999.250 CNTC.CNTG -999.250 CFTC.CNTG -999.250 CNEC.CNTG CFEC.CNTG -999.250 GRCH.CNTG 53.594 TENS.CNTG -999.250 CCL.CNTG 36.084 1202.142 2950.774 -0.002 -999.250 -999.250 -999.250 -999.250 END OF DATA **** FILE TRAILER FILE NAME : EDIT .002 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : ***, FILE HEADER ***, FILE NAME : EDIT .003 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : LIS Tape VerificaSion Listing Schlumberger Alaska Computing Center 15-AUG-1995 14:20 FILE HEADER FILE NUMBER: 3 EDITED CURVES Depth shifSed and clipped curves for each pass in separate files. PASS NUMBER: 3 DEPTH INCREMENT: 0.5000 FILE SUMMARY LDWG TOOL CODE START DEPTH STOP DEPTH GRCH 10610.0 10196.0 CNTG 10628.0 10196.0 $ # CURVE SHIFT DATA - PASS TO PASS(MEASURED DEPTH) BASELINE CURVE FOR SHIFTS LDWG CURVE CODE: GRCH PASS NUMBER: 1 EQUIVALENT UNSHIFTED DEPTH BASELINE DEPTH GRCH CNTG 88888.0 88888.5 88888.5 10618.5 10619.0 10586.5 1~586.0 10583.5 10584.0 i0579.5 i0580.5 i0575.5 i0575.5 10570.5 1057e.0 i0567.5 i0567.5 10566.5 i0565.5 10563.5 10563.0 10562.5 10562.0 10554.5 10554.0 10550.5 10550.5 10546.5 19546.5 19542.5 19542.0 19539.5 19539.9 10535.5 10536.5 10531.5 10532.5 10527.5 10528.9 19523.5 10524.5 10522.5 19522.0 19519.5 19529.0 19518.5 10518.5 19514.5 19514.9 19519.5 1~510.5 10506.5 19596.5 10503.5 10504.9 19502.5 10593.9 10499.5 19590.5 19494.5 10495.5 10478.5 19479.5 10474.5 19476.0 10470.5 19471.5 PAGE: LIS TaFe Verification Listing Schlumberger Alaska Computing Center 15-AUG-199S 14:20 PAGE: 10 10463.5 19447.5 19443 5 10439 5 19434 5 19431 5 19439 5 19427 5 19426 5 Z9422.5 ~941~.5 ~9407.5 ~0387.5 ~9383.5 ~9379.5 ~9375.5 [9374.5 ~9379.5 [9367.5 10366.5 19363.5 19362.5 19358.5 19339.5 ~9335 5 ~9326 5 ~0322 5 ~93~9 5 193~5 5 ~9314 5 19311 5 19319 5 10307 5 19306 5 1~302 5 19298 5 19294 5 1~291 5 19287 5 19286 5 19283 5 19279 5 19278 5 1~262 5 19258 5 19251 5 19247 5 19243 5 19231 5 10227 5 19226 5 1~222 5 1~214 5 10464.$ 19460.0 19448.9 ~444.5 19441.0 19433.0 19428.5 19412 10409 10389 10384 10381 19376 10368.5 10364.0 10340.0 10336.5 19320.5 10316.0 10312.5 10308.0 19292.0 10287.5 10283.0 10280.0 10252.0 10247.5 10244.0 10232.0 19228.5 101.0 10435.5 10432.0 19428.0 10423.5 19375.5 19371.0 10366.5 19363.9 19358.9 10326.9 10322.5 10314.5 10310.0 19306.5 10392.5 19298.9 10294.5 10286.5 19279.9 10263.9 10259.5 10227.5 10222.5 19216.9 101.5 LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-1993 14:20 $ REMARKS: This file con%ains CNTG Pass #3. The dep%h shif%s shown above relec% GRCH pass #3 %o GRCH pass #1 and NPHI pass #3 %o NPHI pass #1, $ LIS FORMAT DATA PAGE: DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB *, TYPE REPR CODE VALUE 1 66 ~ 2 66 0 3 73 64 4 66 1 5 66 6 73 -7 63 8 68 0.3 9 63 FT 12 68 13 66 ~ 14 63 FT 15 66 68 16 66 1 0 66 1 SET TYPE - CHAN ** NAME SERV UNIT SERVICE API API API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 503964 00 000 00 NPHI CNTG PU-S 503964 00 000 00 ENPH CNTG PU-S 505964 00 000 00 CPHI CNTG PU-S 505964 00 000 00 NRAT CNTG 505964 00 00~ 00 CRAT CNTG 505964 00 000 00 ENRA CNTG 505964 00 000 00 NCNT CNTG CPS 503964 00 000 00 FCNT CNTG CPS 303964 00 000 00 CNTC CNTG CPS 505964 00 000 00 CFTC CNTG CPS 505964 00 000 00 CNEC CNTG CPS 503964 00 000 00 CFEC CNTG CPS 505964 00 000 00 GRCH CNTG GAPI 505964 00 000 00 0 3 1 1 4 68 0000000000 0 3 1 1 4 68 0000000~00 0 3 1 [ 4 68 0000000000 0 3 1 1 4 68 0000000000 0 3 1 ~ 4 68 0000000000 0 3 1 1 4 68 0000000000 0 3 1 1 4 68 0000000000 0 3 ~ 1 4 68 0000000000 0 3 1 1 4 68 0000~00000 0 3 ~ 1 4 68 0000000~00 0 3 1 ~ 4 68 0000000000 0 3 ~ ~ 4 68 0000000000 0 3 1 1 4 68 0000000000 0 3 1 1 4 68 000000~000 LIS Tape Verification Lis%lng Schlumberger Alaska Computing Center 15-AUG-i995 14:20 PAGE: ~2 NAME SERV UNIT SERVICE API API API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) TENS CNTG LB 505964 00 000 00 CCL CNTG V 5¢5964 00 000 00 0 3 1 1 4 68 0000000000 0 3 ~ 1 4 68 0000000000 DATA ** DEPT. 10628.500 NPHI.CNTG NRAT.CNTG 3.610 CRAT.CNTG FCNT.CNTG 330.363 CNTC.CNTG CFEC.CNTG 578.436 GRCH.CNTG DEPT. [0197.0~0 NPHI.CNTG NRAT.CNTG -999.250 CRAT.CNTG FCNT.CNTG -999.250 CNTC.CNTG CFEC.CNTG -999.250 GRCH,CNTG 36.839 ENPH.CNTG 3.423 ENRA.CNTG li07.631 CFTC.CNTG -999.250 TENS.CNTG -999.250 ENPH.CNTG -999.250 ENRA.CNTG -999.250 CFTC.CNTG 60.531 TENS.CNTG 34.255 CPHI.CNTG 5.086 NCNT.CNTG 33[.747 CNEC.CNTG 3260.000 CCL.CNTG -999.250 CPHI.CNTG -999.250 NCNT.CNTG -999.250 CNEC.CNTG -999.250 CCL.CNTG 36.436 1115.407 294[.748 -0.002 -999.250 -999.250 -999.250 -999.250 END OF DATA **** FILE TRAILER FILE NAME : EDIT .003 SERVICE : FLIC VERSION : 00~C0~ DATE : 95/08/~5 MAX REC SIZE : ~024 FILE TYPE : LO LAST FILE : **** FILE HEADER FILE NAME : EDIT .004 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : ~024 FILE TYPE : LO LAST FILE : FILE HEADER FILE NUMBER: 4 AVERAGED CURVES Compensated Neutron: Arithmetic average of edited passes for all curves. DEPTH INCREMENT 0.5000 PASSES INCLUDED IN AVERAGE LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-IS95 14:20 LDWQ TOOL CODE PASS NUMBERS CNTG 1, 2, 3, $ REMARKS: The arithmetic average of passes 1,2 & 3 was computed after all depth shifts and clipping was applied, $ LIS FORMAT DATA PAGE: 13 DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB ** TYPE REPR CODE VALUE 1 66 0 2 66 0 3 73 56 4 66 1 5 66 6 73 7 65 8 68 0.5 9 65 FT 12 68 13 66 0 14 65 FT 15 66 68 16 66 1 0 66 1 SET TYPE - CHAN ** NAME SERV UNIT SERVICE API API API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 0 4 1 1 4 68 0000000000 NPHI CNAV PU-S 505964 00 000 00 0 4 1 1 4 68 0000000000 NEAT CNAV 505964 00 000 00 0 4 1 1 4 68 0000000000 CPHI CNAV PU-S 505964 00 000 00 0 4 1 I 4 68 0000000000 CRAT CNAV 505964 00 000 00 0 4 1 1 4 68 0000000000 ENPH CNAV PU-S 505964 00 000 00 0 4 1 1 4 68 0000000000 ENRA CNAV 505964 00 000 00 0 4 1 I 4 68 0000000000 NCNT CNAV CPS 505964 00 000 00 0 4 I 1 4 68 0000000000 FCNT CNAV CPS 505964 00 BBB 00 0 4 I 1 4 68 0000000000 CNTC CNAV CPS 505964 00 000 00 0 4 1 1 4 68 0000000000 CFTC CNAV CPS 505964 00 000 00 0 4 1 1 4 68 0000000000 CNEC CNAV CPS 505964 00 000 00 0 4 1 1 4 68 0000000000 CFEC CNAV CPS 505964 00 000 00 0 4 1 1 4 68 0000000000 LIS Tape Verifica%ion Lis%ing Schlumberger Alaska Computing Cen~er 15-AUG-lgg5 14:20 PAGE: NAME SERV UNIT SERVICE API API API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) ~RCH CNTG GAPI 505964 00 000 00 0 4 1 1 4 68 0000000000 ** DATA ** DEPT. 10627.000 NPHI.CNAV CRAT.CNAV 3.389 ENPH.CNAV FCNT.CNAV 334.752 CNTC.CNAV CFEC.CNAV 591.259 GRCH.CNTG DEPT. 10198.500 NPHI.CNAV CRAT.CNAV -999.250 ENPH.CNAV FCNT.CNAV -999.250 CNTC.CNAV CFEC.CNAV -999.250 GRCH.CNTG ** END OF DATA ** 36.213 NRAT.CNAV 33.762 ENRA.CNAV 1137.124 CFTC.CNAV -999.250 -999.250 NRAT.CNAV -999.250 ENRA.CNAV -999.250 CFTC.CNAV 40.813 3.363 CPHI.CNAV 5.038 NCNT.CNAV 340.568 CNEC.CNAV -999.250 CPHI.CNAV -999.250 NCNT.CNAV -999.250 CNEC.CNAV 35.854 1181.994 2978.786 -999.250 -999.250 -999.250 ***, FILE TRAILER **** FILE NAME : EDIT .004 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : **** FILE HEADER **** FILE NAME : EDIT .005 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : FILE HEADER FILE NUMBER 5 RAW CURVES Curves and log header da%a for each pass in separa%e files; raw background pass in las% file PASS NUMBER: 1 DEPTH INCREMENT: 0.5000 FILE SUMMARY LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-1995 14:20 VENDOR TOOL CODE START DEPTH STOP DEPTH CNTG $ LOG HEADER DATA 10628.0 DATE LOGGED: SOFTWARE VERSION: TIME LOGGER ON BOTTOM: TD DRILLER (FT): TD LOGGER(FT): TOP LOG INTERVAL (FT): BOTTOM LOG INTERVAL (FT): LOGGING SPEED (FPHR): DEPTH CONTROL USED (YES/NO): TOOL STRING (TOP TO BOTTOM) VENDOR TOOL CODE TOOL TYPE 10198.0 2g-JUL-95 CP42.2 1404 29-JUL-95 10675.0 10634.0 10200.0 10630.~ 900.0 NO TOOL NUMBER CCL TCC GR CNTG CNTG COLLAR LOG TELEMETRY CARTRIDGE GAMMA RAY COMPENSATED NEUTRON TELEMETRY CARTRIDGE CAL-YA-30 TCC-B-840 SGC-SA-60 CNC-GA-125 TCM-AB-217 BOREHOLE AND CASING DATA OPEN HOLE BIT SIZE (IN): DRILLERS CASING DEPTH (FT): LOGGERS CASING DEPTH (FT): $839.0 BOREHOLE CONDITIONS FLUID TYPE: FLUID DENSITY (LB/G): SURFACE TEMPERATURE (DEGF): BOTTOM HOLE TEMPERATURE (DEGF): FLUID SALINITY (PPM): FLUID LEVEL (FT): FLUID RATE AT WELLHEAD (BPM): WATER CUTS (PCT): GAS/OIL RATIO: CHOKE (DEG): PRODUCED FLUIDS NEUTRON TOOL TOOL TYPE (EPITHERMAL OR THERMAL): MATRIX: MATRIX DENSITY: HOLE CORRECTION (IN): EPITHERMAL SANDSTONE 2.65 BLUELINE COUNT RATE NORMALIZATION IN OIL ZONE TOP NORMALIZING WINDOW (FT): BASE NORMALIZING WINDOW (FT): BLUELINE COUNT RATE SCALES SET BY FIELD ENGINEER FAR COUNT RATE LOW SCALE (CPS): 0 PAGE: 15 LIS Tape Verifica%ion Lis%ing Schlumberger Alaska Compu%ing Cen~er 15-AUG-199~ 14:20 FAR COUNT RATE HIGH SCALE (CPS): 4000 NEAR COUNT RATE LOW SCALE (CPS): 0 NEAR COUNT RATE HIGH SCALE (CPS): 20000 TOOL STANDOFF (IN): REMARKS: TIED INTO TDTP (SWS) LOGGED ON 08-JAN-g4 AND THEN DEPTH CORRRECTED AND PROCESSED ON 05-MAR-94. MADE LOG SCALES THE SAME AT THIS LOG FOR COMPARISON PURPOS USED SHOP CALIBRATION FOR RGAI = .930~ $ LIS FORMAT DATA PAGE: 16 DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB ~* TYPE REPR CODE VALUE 1 66 0 2 66 0 3 73 76 4 66 5 66 6 73 7 65 8 68 0.5 9 65 ft 11 66 13 12 68 13 66 0 14 65 FT 15 66 68 16 66 0 66 ** SET TYPE - CHAN ** NAME SERV UNIT SERVICE API API API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 0 5 1 1 4 68 0000000000 NPHI PS1 PU 505964 00 000 00 0 5 1 1 4 68 0000000000 ENPH PS1 PU 505964 00 000 00 0 5 1 1 4 68 0000000000 TNPH PS1 PU 505964 00 000 00 0 5 1 1 4 68 0000000000 TNRA PS1 505964 00 000 00 0 5 1 1 4 68 0000000000 RTNR PS1 505964 00 000 00 0 5 1 1 4 68 0000000000 ENRA PS1 505964 00 000 00 0 5 1 1 4 68 0000000000 CFEC PSI CPS 505964 00 000 00 0 5 1 1 4 68 0000000000 CNEC PSI CPS 505964 00 000 00 0 5 1 1 4 68 0000000000 RCEF PSI CPS 505964 00 000 00 0 5 1 1 4 68 0000000000 LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-1995 14:20 PAGE: 17 NAME SERV UNIT SERVICE API API API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) RCEN PS1 CPS 505964 00 000 00 0 5 1 I 4 68 0000000000 RCNT PS1 CPS 505964 00 000 00 0 5 1 1 4 68 ~000000000 RCFT PS1 CPS 505964 00 000 00 0 5 i 1 4 68 0000000000 CNTC PSi CPS 505964 00 000 00 0 5 1 1 4 68 0000000000 CFTC PS1 CPS ~05964 00 000 00 0 5 1 1 4 68 000~00000 NPOR PS1 PU 505964 00 0~0 00 0 5 1 1 4 68 0000000000 GR PS1 GAPI 505964 00 000 00 0 5 1 1 4 68 0000000000 TENS PS1 LB 505964 00 000 00 0 5 1 1 4 68 0000000000 CCL PS1 V 505964 00 000 00 e 5 1 1 4 68 0000000000 DATA DEPT. 10640.000 NPHI.PS1 36.554 ENPH.PS1 36.436 TNPH.PS1 TNRA.PS1 3.408 RTNR.PS1 3.442 ENRA.PS1 5.295 CFEC.PS1 CNEC.PS1 2808.692 RCEF.PS1 548.488 RCEN.PS1 2690.208 RCNT.PS1 RCFT.PS1 337.521 CNTC.PS1 1115.528 CFTC.PS1 340.708 NPOR.PS1 GR.PS1 73.563 TENS.PSi 2785.000 CCL.PS1 -0.0~i DEPT. 10197.500 NPHI.PS1 58.378 ENPH.PS1 46.662 TNPH.PS1 TNRA.PS1 4.605 RTNR.PS1 4.783 ENRA.PS1 6.183 CFEC.PS1 CNEC.PS1 2807.029 RCEF.PS1 455.399 RCEN.PS1 2643.683 RCNT.PS1 RCFT.PS1 321.783 CNTC.PS1 1480.663 CFTC.PSi 328.825 NPOR.PS1 GR.PS1 44.000 TENS.PS1 3265.000 CCL.PS1 -0.012 34.522 530.630 1163.017 34.283 58.691 453.958 1505.026 59.903 ** END OF DATA ** **** FILE TRAILER FILE NAME : EDIT .005 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : **** FILE HEADER FILE NAME : EDIT .006 SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : 1024 FILE TYPE : LO LAST FILE : LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-1995 14:20 PAGE: [8 FILE HEADER FILE NUMBER 6 RAW CURVES Curves and log header data for each pass in separate files; raw background pass in last file PASS NUMBER: 2 DEPTH INCREMENT: 0.5000 FILE SUMMARY VENDOR TOOL CODE START DEPTH STOP DEPTH CNTG $ LOG HEADER DATA 10628.0 10198.0 DATE LOGGED: SOFTWARE VERSION: TIME LOOGER ON BOTTOM: TD DRILLER (FT): TD LOGGER(FT): TOP LOG INTERVAL (FT): BOTTOM LOG INTERVAL (FT): LOGGING SPEED (FPHR): DEPTH CONTROL USED (YES/NO): TOOL STRING (TOP TO BOTTOM) VENDOR TOOL CODE TOOL TYPE 2g-JUL-g5 CP42.2 1042 29-JUl-95 [0675.0 10654.0 10630.0 900.0 NO TOOL NUMBER CCL TCC GR CNTG CNTG $ COLLAR LOG TELEMETRY CARTRIDGE GAMMA RAY COMPENSATED NEUTRON TELEMETRY CARTRIDGE BOREHOLE AND CASING DATA OPEN HOLE BIT SIZE (IN): DRILLERS CASING DEPTH (FT): LOGGERS CASING DEPTH (FT): BOREHOLE CONDITIONS FLUID TYPE: FLUID DENSITY (LB/G): SURFACE TEMPERATURE (DEGF): BOTTOM HOLE TEMPERATURE (DEGF): FLUID SALINITY (PPM): FLUID LEVEL (FT): FLUID RATE AT WELLHEAD (BPM): WATER CUTS (PCT): GAS/OIL RATIO: CHOKE (DEG): NEUTRON TOOL TOOL TYPE (EPITHERMAL OR THERMAL): MATRIX: MATRIX DENSITY: CAL-YA-$O TCC-B-840 SGC-SA-60 CNC-GA-125 TCM-AB-217 3839.0 PRODUCED FLUIDS EPITHERMAL SANDSTONE 2.65 LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-lg95 14:20 HOLE CORRECTION (IN): BLUELINE COUNT RATE NORMALIZATION IN OIL ZONE TOP NORMALIZING WINDOW (FT): BASE NORMALIZING WINDOW (FT): BLUELINE COUNT RATE SCALES SET BY FIELD ENGINEER FAR COUNT RATE LOW SCALE (CPS): 0 FAR COUNT RATE HIGH SCALE (CPS): 4000 NEAR COUNT RATE LOW SCALE (CPS): 0 NEAR COUNT RATE HIGH SCALE (CPS): 20000 TOOL STANDOFF (IN): REMARKS: TIED INTO TDTP (SWS) LOGGED ON 08-JAN-g4 AND THEN DEPTH CORRRECTED AND PROCESSED ON 05-MAR-g4. MADE LOG SCALES THE SAME AT THIS LOG FOR COMPARISON PURPOS USED SHOP CALIBRATION FOR RGAI = .g305 LIS FORMAT DATA PAGE: 19 DATA FORMAT SPECIFICATION RECORD SET TYPE - 84EB ** TYPE REPR CODE VALUE 1 66 0 2 66 0 3 73 76 4 66 5 66 6 73 7 65 8 68 ~.5 9 65 FT 11 66 12 68 13 66 0 14 65 FT 15 66 68 16 66 0 66 ** SET TYPE - CHAN ** NAME SERV UNIT SERVICE API API API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 e 6 1 1 4 68 0000000000 NPHI PS2 PU 505964 00 000 00 0 6 1 1 4 68 0000000000 LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-1995 14:20 PAGE: 20 NAME SERV UNIT SERVICE AP1 AP1 AP1 AP1 FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) ENPH PS2 PU 505964 00 000 00 0 6 1 1 4 68 0000000000 TNPH PS2 PU 505964 00 000 00 0 6 1 1 4 68 0000000000 TNRA PS2 505964 00 090 99 9 6 1 1 4 68 9099099999 RTNR PS2 595964 99 999 99 9 6 1 1 4 68 0990009999 ENRA PS2 595964 99 999 99 9 6 1 1 4 68 0009009999 CFEC PS2 CPS 595964 99 999 99 9 6 I 1 4 68 0909099999 CNEC PS2 CPS 595964 09 999 99 9 6 1 1 4 68 9999999999 RCEF PS2 CPS 595964 99 999 99 9 6 1 1 4 68 0999099999 RCEN PS2 CPS 595964 99 999 99 9 6 1 1 4 68 9999999990 RCNT PS2 CPS 595964 90 990 99 9 6 1 1 4 68 0099090999 RCFT PS2 CPS 595964 90 999 99 9 6 1 1 4 68 9909099999 CNTC PS2 CPS 505964 90 999 99 9 6 1 1 4 68 0000099999 CFTC PS2 CPS 595964 90 990 90 9 6 I 1 4 68 9099999999 NPOR PS2 PU 595964 99 999 09 9 6 1 1 4 68 9999999999 GR PS2 GAPI 595964 90 999 99 9 6 I 1 4 68 0~99090099 TENS PS2 LB 505964 90 999 99 9 6 1 1 4 68 0909909009 CCL PS2 V 505964 90 999 90 9 6 1 1 4 68 0990909000 DATA ** DEPT. 10640.900 NPHI.PS2 34.751 ENPH.PS2 34.694 TNPH.PS2 TNRA.PS2 3.309 RTNR.PS2 3.318 ENRA.PS2 5.119 CFEC.PS2 CNEC.PS2 2767.313 RCEF.PS2 549.129 RCEN.PS2 2668.323 RCNT.PS2 RCFT.PS2 336.868 CNTC.PS2 1988.788 CFTC.PS2 338.414 NPOR.PS2 GR.PS2 89.125 TENS.PS2 2825.000 CCL.PS2 -9.002 DEPT. 19196.900 NPHI.PS2 57.392 ENPH.PS2 49.192 TNPH.PS2 TNRA.PS2 4.551 RTNR.PS2 4.523 ENRA.PS2 6.378 CFEC.PS2 CNEC.PS2 2845.490 RCEF.PS2 446.337 RCEN.PS2 2751.931 RCNT.PS2 RCFT.PS2 313.846 CNTC.PS2 1471.671 CFTC.PS2 319.657 NPOR.PS2 GR.PS2 53.594 TENS.PS2 3175.000 CCL.PS2 -0.020 ** END OF DATA ** 33.625 549.564 1144.757 33.059 63.274 446.156 1565.058 61.723 **** FILE TRAILER **** FILE NAME : EDIT .906 SERVICE : FLIC VERSION : 091C01 DATE : 95/08/15 MAX REC SIZE : I024 FILE TYPE : LO LAST FILE : LIS Tape Verification Listing Schlumberger Alaska Computing Center **** FILE HEADER **** FILE NAME : EDIT .00? SERVICE : FLIC VERSION : 001C01 DATE : 95/08/15 MAX REC SIZE : ~024 FILE TYPE : LO LAST FILE : 15-AUG-[g95 [4:20 PAGE: 21 FILE HEADER FILE NUMBER 7 RAW CURVES Curves and log header data for each pass in separate files; raw background pass in last file PASS NUMBER: 3 DEPTH INCREMENT: 0.5000 FILE SUMMARY VENDOR TOOL CODE START DEPTH STOP DEPTH CNTG $ LOG HEADER DATA ~0628.0 10~98.0 DATE LOGGED: SOFTWARE VERSION: TIME LOGGER ON BOTTOM: TD DRILLER (FT): TD LOGGER(FT): TOP LOG INTERVAL (FT): BOTTOM LOG INTERVAL (FT): LOGGING SPEED (FPHR): DEPTH CONTROL USED (YES/NO): TOOL STRING (TOP TO BOTTOM) VENDOR TOOL CODE TOOL TYPE 29-JUL-95 CP42.2 1~6 29-JUL-95 10675.0 [0634.0 10630.0 900.0 NO TOOL NUMBER CCL TCC GR CNTG CNTG $ COLLAR LOG TELEMETRY CARTRIDGE GAMMA RAY COMPENSATED NEUTRON TELEMETRY CARTRIDGE BOREHOLE AND CASING DATA OPEN HOLE BIT SIZE (IN): DRILLERS CASING DEPTH (FT): LOGGERS CASING DEPTH (FT): BOREHOLE CONDITIONS FLUID TYPE: FLUID DENSITY (LB/G): SURFACE TEMPERATURE (DEGF): CAL-YA-30 TCC-B-840 SGC-SA-60 CNC-GA-125 TCM-AB-217 3839.0 PRODUCED FLUIDS LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-1995 14:20 BOTTOM HOLE TEMPERATURE (DEQF): FLUID SALINITY (RRM): FLUID LEVEL (FT): FLUID RATE AT WELLHEAD (BPM): WATER CUTS (PCT): GAS/OIL RATIO: CHOKE (DEG): NEUTRON TOOL TOOL TYPE (EPITHERMAL OR THERMAL): MATRIX: MATRIX DENSITY: HOLE CORRECTION (IN): EPITHERMAL SANDSTONE 2.65 BLUELINE COUNT RATE NORMALIZATION IN OIL ZONE TOP NORMALIZING WINDOW (FT): BASE NORMALIZING WINDOW (FT): BLUELINE COUNT RATE SCALES SET BY FIELD ENGINEER FAR COUNT RATE LOW SCALE (CPS): 0 FAR COUNT RATE HIGH SCALE (CPS): 4000 NEAR COUNT RATE LOW SCALE (CPS): 0 NEAR COUNT RATE HIGH SCALE (CPS): 20000 TOOL STANDOFF (IN): REMARKS: TIED INTO TDTP (SWS) LOGGED ON 08-JAN-94 AND THEN DEPTH CORRRECTED AND PROCESSED ON 05-MAR-94. MADE LOG SCALES THE SAME AT THIS LOG FOR COMPARISON PURPOS USED SHOP CALIBRATION FOR RGAI = .9305 $ LIS FORMAT DATA PAGE: 22 ** DATA FORMAT SPECIFICATION RECORD SET TYPE - 64EB ~ TYPE REPR CODE VALUE 1 66 0 2 66 0 3 73 76 4 66 1 5 66 6 73 7 65 8 68 0.5 9 65 FT 11 66 13 12 68 13 66 ~ 14 65 FT [LIS Tape Verification Listing Schlumberger Alaska Computing Center 15-AUG-1995 14:20 PAGE: TYPE REPR CODE VALUE 15 66 68 16 66 0 66 ** SET TYPE - CHAN ** NAME SERV UNIT SERVICE API API API API FILE NUMB NUMB SIZE REPR PROCESS ID ORDER # LOG TYPE CLASS MOD NUMB SAMP ELEM CODE (HEX) DEPT FT 505964 00 000 00 0 7 1 1 4 68 0000000000 NPHI PS3 PU 505964 00 000 00 0 7 I 1 4 68 0000000000 ENPH PS3 PU 505964 00 000 00 0 7 1 1 4 68 0000000000 TNPH PS3 PU 505964 00 000 00 0 7 1 1 4 68 0000000000 TNRA PS3 505964 00 000 00 0 7 1 1 4 68 0000000000 RTNR PS$ 505964 00 000 00 0 7 1 1 4 68 0000000000 ENRA PS3 505964 00 000 00 0 7 1 1 4 68 0000000000 CFEC PS3 CPS 505964 00 000 00 0 7 1 1 4 68 0000000000 CNEC PS3 CPS 505964 00 0~0 00 0 7 1 1 4 68 0000000000 RCEF PS3 CPS 505964 00 000 00 0 7 ~ ~ 4 68 0000000000 RCEN PS3 CPS 505964 00 000 00 0 7 1 1 4 68 0000000000 RCNT PS3 CPS' 505964 00 000 00 0 7 1 1 4 68 0000000000 RCFT PS3 CPS 505964 00 000 00 0 7 1 1 4 68 0000000000 CNTC PS3 CPS 505964 00 000 00 0 7 1 1 4 68 0000000000 CFTC PS3 CPS 505964 00 000 00 0 7 1 1 4 68 0000000000 NPOR PS3 PU 505964 00 000 00 0 7 1 1 4 68 0000000000 GR PS3 GAPI 505964 00 000 00 0 7 1 1 4 68 0000000000 TENS PS3 LB 505964 00 000 00 0 7 1 1 4 68 0000000000 CCL PS3 V 505964 00 000 00 0 7 1 1 4 68 0000000000 DATA ** DEPT. 10640.000 NPHI.PS3 31.626 ENPH.PS$ 32.404 TNPH.PS$ TNRA.PS$ 3.137 RTNR.PS$ 3.167 ENRA.PS$ 4.904 CFEC.PS3 CNEC.PS3 2786.504 RCEF.PS3 572.028 RCEN.PS3 2661.356 RCNT.PS3 RCFT.PS3 360.309 CNTC.PS3 !110.544 CFTC.PS3 363.769 NPOR.PS3 GR.PS3 79.250 TENS.PS3 2700.000 CCL.PS3 -0.002 31.944 568.187 1151.168 31.944 ** END OF DATA ** UIS Tape Verification Listing Schlumberger Alaska Computing Center 1S-AUG-1995 14:20 PAGE: 24 **** FILE TRAILER **~ FILE NAME : EDIT .007 SERVICE : FLIC VERSION : 00~C01 DATE : 95/05/15 MAX RE¢ SIZE : 1024 FILE TYPE : LO LAST FILE : **** TAPE TRAILER SERVICE NAME : EDIT DATE : 95/08/~5 ORIGIN : FLIC TAPE NAME : 95266 CONTINUATION # : ~ PREVIOUS TAPE : COMMENT : ARCO ALASKA INC,, POINT MCINTYRE, P2-30, API# 50-029-22289-00 **** REEL TRAILER SERVICE NAME : EDIT DATE : 95/05/~5 ORIGIN : FLIC REEL NAME ': 95266 CONTINUATION # : PREVIOUS REEL : COMMENT : ARCO ALASKA INC., POINT MCINTYRE, P2-30, API# 50-029-22259-00 ch~ -99::~. 250 -999. 250 250 -999o25V · r r. i0 11 ..,_ -~,:~ ~metj. o .sverege 12 -999. ::'~ F,, 0 -9q9 ,. 250 226, : ! · last. !B , r i : ,. PP ~) ~ 571.(1-77 · fi 19 0 1 5,3 ? '? 52, O0 i [ r- ~0 it CH i ' rI · r ? T ': r , 1 0 1i ~2 0 'q L.; (' (, 0 (, (: 'd C.'.' i f!(iO t! 0 () t'~ (, C.' 0 0 (., (~ .~ 1495.7 t 9 27 . .., ~ - ~' "" :.¢ 2 q 0 ? [ '~:' r~ : ,. ,, . ,, ! ,e ~.. ~ , ;~.; 1_. 4 ,,C71 ;;~Tx ¢"!.,1 L ,-,.:~- ~ ~ ~. 32!.970 2~ .~77 0. ('900 1,30.'429 ~.~o 3 3/4.. 2 o 1 ~4.768 248.5t2 2(,70. 0(~0 1'7 i -' ~9 .. f'C ()-0 0 ("~ ':) ."'- '~ (.-' ,"i C' 0 -L," r-, 0 r~ 52. 330 c:'3. I .~i7 -,.~, 2.-'2-0 j.. :04 7029. f~ ! 0 ! ~-(~ ~,,79 ~,4. $~ 46i PP. ;'4. 75 '7 ;-.~ q f) , .;:.. ";' ~ 2'? CO~':~IDENT.IAL LIS VERIFICATION LISTING FOR: ARCO ALASKA WELL P2-30 POINT MCINTYRE HIC OFILHE RECEIVED APR 1 4 Anchorage BELOW ARE THE MNEMONICS THAT CAN BE FOUND ON THE LIS TAPE GENERATED FOR ARCO ALASKA WELL P2-30 ATBM ATB1 ATCM ATC1 BDCM BDC1 BDEM CAAM CAA1 CACM CAC1 CPAM CPA1 CPCM CPCM DCCM DCC1 DPDM DPD1 DPEM DPE1 DPLM DPL1 DPSM DPSl DRHM DRH1 GRAM GRA1 NFBM NFB1 NNBM NNB1 NPDM NPEM NPLM NPL1 NPSM NPS1 PDBM Attenuation Base [RWD] Attenuation Base - Relog 1 [RWD] Attenuation Borehole Corrected [RWD] Attenuation Borehole Corrected - Relog 1 [RWD] Bulk Density Bulk Density Bulk Density Conductivity Conductivity Conductivity Conductivity [RWD] Conductivity Conductivity Conductivity Conductivity [RWD] Compensated [RWD] Compensated - Relog 1 [RWD] Time Since Drilled [RWD] (AT) Apparent [RWD] (AT) Apparent- Relog 1 [RWD] (AT) Borehole Corrected [RWD] (AT) Borehole Corrected - Relog I (PD) Apparent [RWD] (PD) Apparent- Relog 1 [RWD] (PD) Borehole Corrected [RWD] (PD) Borehole Corrected - Relog 1 Calculated Dielectric Constant Calculated Dielectric Constant - Relog 1 Density Porosity (DOL) [RWD] Density Porosity (DOL) - Relog 1 [RWD] Photoelectric Cross Section [RWD] Photoelectric Cross Section - Relog 1 [RWD] Density Porosity (LS) [RWD] Density Porosity (LS) - Relog 1 [RWD] Density Porosity (SS) [RWD] Density Porosity (SS) - Relog 1 [RWD] Delta RHO - Density Correction [RWD] Delta RHO - Density Correction - Relog 1 [RWD] Gamma Ray MEMORY (APl) [RWD] Gamma Ray MEMORY (APl) - Relog 1 [RWD] Neutron Far Base [RWD] Neutron Far Base - Relog 1 [RWD] Neutron Near Base [RWD] Neutron Near Base - Relog 1 [RWD] Neutron Porosity (DOL) Borehole Corr [RWD] Time Since Drilled (NPSM) [RWD] Neutron Porosity (LS) Borehole Corrected [RWD] Neutron Porosity [RWD] Neutron Porosity Neutron Porosity [RWD] Phase Difference (LS) Borehole Corrected - Relog 1 (SS) Borehole Corrected [RWD] (SS) Borehole Corrected - Relog 1 Base [RWD] -dB -dB -dB -dB g/cc g/cc mins mmho/m mmho/m mmho/m mmho/m mmho/m mmho/m mmho/m mmho/m p.M. B/e B/e p.u. p.u. p.u. p.u. g/cc g/cc MWD-API MWD-API cps cps cps cps pu pu pu pM pu deg PDB1 PDCM PDC1 PDDM PDEM RAAM RAA1 RACM RAC1 RADE RAD1 ROPS RPAM RPA1 RPCM RPC1 RPDE RPD1 TCDM TCD1 WBCS Resistivity Resistivity Resistivity Resistivity [RWD] Resistivity [RWD] Phase Difference Base - Relog 1 [RWD] Phase Difference Borehole Corrected [RWD] Phase Difference Borehole Corrected -Relog 1 [RWO] Phase Difference Data Density [RWD] Phase Difference Elapsed Time [RWD] Resistivity (AT) Apparent [RWD] Resistivity (AT) Apparent- Relog 1 [RWD] Resistivity (AT) Borehole Corrected [RWD] Resistivity (AT) Borehole Corrected- Relog 1 [RWD] Resistivity (AT) Corrected for Dielectric Effect [RWD] Resistivity (AT) Corrected for Dielectric Effect - Relog I [RWD] Rate of Penetration (PD) Apparent [RWD] (PD) Apparent-Relog 1 [RWD] (PD) Borehole Corrected [RWD] (PD) Borehole Corrected - Relog I (PD) Corrected for Dielectric Effect Resistivity (PD) Corrected for Dielectric Relog I [RWD] CDS Temperature [RWD] CDS Temperature- Relog I [RWD] Surface Weight On Bit Effect - deg deg deg pt/ft mins ohm-m ohm-m ohm-m ohm-m mmho/m mmho/m fi/hr ohm-m ohm-m ohm-m ohm-m mmho/m mmho/m deg F deg F klbs Note: AT is Attenuation PD is Phase Difference RWD is Recorded While Drilling Copyright 1987,1988,1989,1990,1991 By WESTERN ATLAS INTERNATIONAL, INC. Ail rights reserved. PROGRAM: TAPESCAN REVISION: 2.64 Start of execution: Tue 12 JAN 93 2:17p ! = = E C H O I N G I N PARAMETERS INPUT PARAMETER FILE: TAPESCAN.INP I 2 3 4 5 6 7 123456789012345678901234567890123456789012345678,9012345678,90123456789012 I AUTOCURV = 0 , ! Automatic Curve renaming: 0=OFF, I=ON 2 AUTOFILE = 0 , ! Automatic FILE= generation: 0=OFF, I=ON 3 COMMENTS = I , ! Decode LIS Comment records: 0=OFF, I=ON 4 INFORECS = 1 , ! Decode LIS Information records: 0=NO, I=YES 5 LISTMETHOD = 0 , I Listing Method: 0=depth units 1=tape units 6 LISTFREQ = 25, ! Listing Frequency: Every n units 7 LISTMAX = 0 , ! Usting Maximum (0=no limit, value=list limit) 8 STATS = 0 , ! Statistics generation' 0 =OFF, 1 =ON 9 FORCETYP = 0 , ! (1 =BIT,2=LIS ... thru 35=Array Accoustic) (see table) 10 WRITEASCll = 0 , ! If 1, all ascii files will be written (file0001.dat,etc.) 11 WRITETAP = 1 , ! Write Tape-Image File: 0=NO, I=YES 12 SPLITLIS = 1 , ! If 1 and WRITETAP on, split LIS logical files to physical 13 SUBFILES = /1,2,3,4,5,6,7,8/, ! Tape Subtile write selection (WRITETAP must be 14 INTERPOLATE ="YES' ! Set up for TAPE2WDS to interpolate datums ("YES'or'NO') 15 END = = U S E R I N P U T P A R A M E T E R S ! AUTOCURV = 0 , AUTOFILE = 0 , COMMENTS = 1 , INFORECS = I ! LISTMETHOD = 0 , LISTFREQ = 25, LISTMAX = 0, STATS = 0 FORCETYP = WRITEASCII = 0 , WRITETAP = 1 , SPLITLIS = 1 , SUBFILES /1,2,3,4,5,6,7,8/, INTERPOLATE = YES' END !-- PROCESSING INTERVAL FROM 0.0(~ TO 0.0(~ ............. CONSTANT PARAMETERS AUTOCURV= 0.~E+00 AUTOFILE= 0.~E+00 COMMENTS = 1.00000 FORCETYP=0.~E+00 INFORECS= 1.0(X)00 LISTFREQ= 25.00(~ LISTMAX = 0.~E + 00 LISTMETH = 0.~E + 00 SELFTEST= 0.~E + 00 SPLITLIS = 1.~ STATS = 0.~E + 00 WRITEASC = 0.~E + 00 WRITETAP= 1.~ dpcoef = 1.~ dpcte = 1.00000 drlength = 0.~E + 00 listwave = 0.~E + 00 maxrecln = 0.~E + (30 minrecln = 0.~E+ 00 nsamples = 0.~E + 00 numcurvs = 0.0000(~E + 00 numdatar = 0.~E + 00 numrecfl = 0.~E + 00 tfendep = 0.0(XXX~E + 00 tflevsp = 0.~E+00 tfstdep = 0.0(XXX~E+00 wcrbot = 0.~E+00 wcrlevsp = 0.000000E + 00 wcrtop = 0.~E + 00 !-- ARRAY PARAMETERS SUBFILES( 1)= 1.~ SUBFILES( 2)= 2.~ SUBFILES(3) = 3.~ SUBFILES(4) = 4.00000 SUBFILES(5) = 5.00000 SUBFILES(6) = 6.00000 SUBFILES( 7) = 7.00000 SUBFILES( 8) = 8.0(XX~ SUBFILES(9) = -9999.00 SUBFILES(10) = -9999.00 SUBFILES(11) = -9999.00 SUBFILES(12) = -9999.00 SUBFILES(13) = -9999.00 SUBFILES(14) = -9999.00 SUBFILES(15) = -9999.00 SUBFILES(16) = -9999.00 SUBFILES(17) = -9999.00 SUBFILES(18) = -9999.00 SUBFILES(19) = -9999.00 SUBFILES(20) = -9999.00 SUBFILES(21) = -9999.00 SUBFILES(22) = -9999.00 SUBFILES(23) = -9999.00 SUBFILES(24) = -9999.00 SUBFILES(25) = -9999.00 SUBFILES(26) = -9999.00 SUBFILES(27) = -9999.00 SUBFILES(28) = -9999.00 SUBFILES(29) = -9999.00 SUBFILES(30) = -9999.00 SUBFILES(31) = -9999.00 SUBFILES(32) = -9999.00 SUBFILES(33) = -9999.00 SUBFILES(34) = -9999.00 SUBFILES(35) = -99cJ9.00 SUBFILES(36) = -9999.00 SUBFILES(37) = -9999.00 SUBFILES(38) = -9999.00 SUBFILES(39) = -9999.00 SUBFILES(40) = -9999.00 SUBFILES(41) = -9999.00 SUBFILES(42) = -9999.00 SUBFILES(43) = -9999.00 SUBFILES(44) = -9999.00 SUBFILES(45) = -9999.00 SUBFILES(46) = -9999.00 SUBFILES(47) = -9999.00 SUBFILES(48) = -9999.00 SUBFILES(49) = -9999.00 SUBFILES(50) = -9999.00 SUBFILES(51) = -9999.00 SUBFILES(52) = -9999.00 SUBFILES(53) = -9999.00 SUBFILES(54) = -9999.00 SUBFILES(55) = -9999.00 SUBFILES(56) = -99cJ9.00 SUBFILES(57) = -9999.00 SUBFILES(58) = -99cJ9.00 SUBFILES(59) = -9999.00 SUBFILES(60) = -9cJ99.00 SUBFILES(61) = -9999.00 SUBFILES(62) = -9999.00 SUBFILES(63) = -9999.00 SUBFILES(65) = -9999.00 SUBFILES(67) = -9cJ99.00 SUBFILES(69) = -9999.00 SUBFILES(71) = -9999.00 SUBFILES(73) = -9999.00 SUBFILES(75) = -9999.00 SUBFILES(77) = -9999.00 SUBFILES(79) = -9999.00 SUBFILES(81) = -9999.00 SUBFILES(83) = -9999.00 SUBFILES(85) = -9999.00 SUBFILES(87) = -9999.00 SUBFILES(89) = -9999.00 SUBFILES(91) = -9999.00 SUBFILES(93) = -9999.00 SUBFILES(95) = -9999.00 SUBFILES(97) = -9999.00 SUBFILES(99) = -9999.00 SUBFILES(101) = -9999.00 SUBFILES(103) = -9999.00 SUBFILES(105) = -9999.00 SUBFILES(107) = -9999.00 SUBFILES(109) = -9999.00 SUBFILES(111) = -9999.00 SUBFILES(113) = -9999.00 SUBFILES(115) = -9999.00 SUBFILES(117) = -9999.00 SUBFILES(119) = -9999.00 SUBFILES(121) = -9999.00 SUBFILES(123) = -9999.00 SUBFILES(125) = -9999.00 SUBFILES(127) = -9999.00 SUBFILES(64) SUBFILES(66) SUBFILES(68) SUBFILES(70) SUBFILES(72) SUBFILES(74) SUBFILES(76) SUBFILES(78) SUBFILES(80) SUBFILES(82) SUBFILES(84) SUBFILES(86) SUBFILES(88) SUBFILES(90) SUBFILES(92) SUBFILES(94) SUBFILES(96) = -9999.00 = -9999.00 = -9999.00 = -9999.00 = -9999.00 = -9999.00 = -9999.00 = -9999.00 = = - -9999.00 = -9999.00 = -9999.00 = -9999.00 = -9999.00 = -9999.00 = -9999.00 SUBFILES(98) = -9999.00 SUBFILES(100) = -9999.00 SUBFILES(102) = -9999.00 SUBFILES(104) = -9999.00 SUBFILES(106) = -9999.00 SUBFILES(108) = -9999.00 SUBFILES(110) = -9999.00 SUBFILES(112) = -9999.00 SUBFILES(114) = -9999.00 SUBFILES(116) = -9999.00 SUBFILES(118) = -9999.00 SUBFILES(120) = -9999.00 SUBFILES(122) = -9999.00 SUBFILES(124) = -9999.00 SUBFILES(126) = -9999.00 SUBFILES(128) = -9999.00 !-- STRING PARAMETERS INTERPOL= YES Input Tape Device, LU (1) is: TAPEC: Output Tape-Image tile, LU (2) is: C:\LISAF\1138.TAP (Output Tape-Image tile will be created) Tape subtile 1 selected for writing... Tape subtile 2 selected for writing... Tape subtile 3 selected for writing... Tape subtile 4 selected for writing... Tape subtile 5 selected for writing... Tape subtile 6 selected for writing... Tape subtile 7 selected for writing... Tape subtile 8 selected for writing... Usting Method ("LISTMETH") = 0, Depth Unit oriented listing. Listing Frequency ("LISTFREQ") is every ( 25) units of Depth. Listing output limiting (LISTMAX) not enabled... (to enable list limiting set LISTMAX positive) Data Statistics reporting ("STATS") has not been enabled. (Specify STATS= 1 to enable this feature) Automatic curve renaming has been disabled by user input (AUTOCURV=O). Automatic "FILE =n" card generation is disabled. (This is the program default, AUTOFILE=0) (Specify AUTOFILE= 1 to enable this feature) LIS comment record decoding (COMMENTS= 1) has been enabled by user input. LIS information record decoding (INFORECS= 1) has been enabled by user input. The WRITEASC option has not been enabled... (to write ASCII subtiles specify WRITEASC= 1) Tape Subtile I is type: LIS **** REEL HEADER **** MWD 93/1/12 1138 01 **** TAPE HEADER **** MWD 93/1/12 1138 01 Tape Subtile: I Minimum record length: Maximum record length: 2 records... 132 bytes 132 bytes Tape Subtile 2 is type: LIS LIS COMMENT RECORD(s): 1234567890123456789012345678.9012345678901234 56789012345678.901234 56 78901234567890 TAPE HEADER PRUDHOE BAY UNIT MWD/MAD LOGS WELL NAME: APl NUMBER: OPERATOR: LOGGING COMPANY: TAPE CREATION DATE: JOB DATA BIT RUN1 JOB NUMBER: 1138 LOGGING ENGINEER: OPERATOR WITNESS: SURFACE LOCATION SECTION: 12 TOWNSHIP: 12N RANGE: 14E FNL: 191 FSL: FEL: FWL: 1383 ELEVATION(FT FROM MSL 0) KELLY BUSHING: DERRICK FLOOR: GROUND LEVEL: # WELL CASING RECORD P2-30 500292228,900 ARCO ALASKA EASTMAN TELECO 09 JAN 93 BIT RUN2 BIT RUN3 1138 J. BURTON T. BROCKWAY G. COOPER S. WALLS 49.00 8.00 OPEN HOLE CASING DRILLERS BIT SIZE (IN) SIZE (IN) DEPTH (FT) 1ST STRING 30.000 20.000 60.0 2ND STRING 16.000 13.375 3839.0 3RD STRING 12.250 9.875 10242.0 PRODUCTION STRING 8.500 REMARKS: $ THE DATA ON THIS TAPE HAS BEEN DEPTH SHIFTED° **** FILE HEADER **** MWD .001 1024 LIS COMMENT RECORD(s): 1234 5678,901234567890123456789012345678,9012345678901234 5678,901234 5678901234567890 F{LE HEADER FILE NUMBER: 1 EDITED MERGED MWD Depth shifted and clipped curves; all bit runs merged. DEPTH INCREMENT: 0.5000 FILE SUMMARY PBU TOOL CODE START DEPTH STOP DEPTH MWD 9769.0 10828.0 $ BASELINE CURVE FOR SHIFTS: GRMAC CURVE SHIFT DATA (MEASURED DEPTH)' EQUIVALENT UNSHIFTED DEPTH ......... BASELINE DEPTH $ MERGED DATA SOURCE PBU TOOL CODE MWD 5 MWD 6 $ # REMARKS: $ CN WN FN COUN STAT BIT RUN NO MERGE TOP 98OO.O 1O232.O 10232.0 10828.0 MERGE BASE THIS FILE CONTAINS DEPTH SHIFTED DATA. :ARCO ALASKA : P2-30 : PT. MCINTYRE : NORTH SLOPE :ALASKA LIS COMMENT RECORD(s): 12345678901234567890123456789012345678901234567890123456789012345678901234567890 THIS FILE CONSISTS OF EDITED MERGED MWD DATA THAT HAS BEEN DEPTH SHIFTED. * FORMAT RECORD (TYPE# 64) Entry Type(4) Size(1) Repcode(66) Logging direction is down (value= 255) Entry Type(12) Size(4) Repcode(68) Null data value is: -999.250000 Entry Type(16) Size(1) Repcode(66) Datum Specification Block Sub-type is: Entry Block terminator. Summary of entry types encountered: 1 2 3 4 5 6 7 8 910111213141516 0 O0 1 0 0000 O0 1 000 1 Rep Code Count Bytes Sum: 34 136 136 fndun a [F] 1.00000000 3 ONE DEPTH PER FRAME Tape depth ID: F 34 Curves: APl APl APl APl Log Crv Crv Name Tool Code Samples Units Size Length Typ Typ Cls Mod I ATBM MWD 68 I -dB 4 2 ATCM MWD 68 I -dB 4 3 RHOB MWD 68 1 G/C3 4 4 BDEM MWD 68 1 MINS 4 5 CAAM MWD 68 1 MMHO 4 6 CACM MWD 68 1 MMHO 4 7 CPAM MWD 68 1 MMHO 4 8 CPCM MWD 68 I MMHO 4 9 DCCM MWD 68 1 4 10 DPDM MWD 68 I PU 4 11 PEF MWD 68 I BN/E 4 12 DPLMMWD 68 I PU 4 13 DPSM MWD 68 I PU 4 14 DRHO MWD 68 1 G/C3 4 15 GR MWD 68 I GAPI 4 16 FCNT MWD 68 I CPS 4 17 NCNTMWD 68 1 CPS 4 18 NPDM MWD 68 1 PU 4 19 NPEM MWD 68 I MIN 4 20 NPLM MWD 68 1 PU 4 21 NPHI MWD 68 I PU-S 4 22 PDBM MWD 68 1 DEG 4 23 PDCM MWD 68 1 DEG 4 24 PDDM MWD 68 I PTFT 4 25 PDEM MWD 68 1 MINS 4 26 RAAM MWD 68 1 OHMM 4 27 RACM MWD 68 I OHMM 4 28 RA MWD 68 1 OHMM 4 29 ROP MWD 68 I FPHR 4 30 RPAM MWD 68 I OHMM 4 31 RPCM MWD 68 1 OHMM 4 32 RP MWD 68 1 OHMM 4 33 TCDM MWD 68 1 DEGF 4 34 WOBS MWD 68 1 LB 4 498660 71 6 498660 71 6 4 9866071 6 498660 71 6 498660 71 6 498660 71 6 4 98660 71 6 4 98660 71 6 4 98660 71 6 4 98660 71 6 4 98 660 71 6 4 98660 71 6 4 98660 71 6 4 98660 71 6 4 98660 71 6 4 98660 71 6 4 98 660 71 6 4 98 66O 71 6 4 98 660 71 6 4 98660 71 6 4 98 66O 71 6 4 98660 71 6 4 98 66O 71 6 4 98660 71 6 4 98660 71 6 4 9866O 71 6 4 98660 71 6 4 98 66O 71 6 4 98 660 71 6 4 98660 71 6 4 98660 71 6 4 9866O 71 6 4 98660 71 6 49866O71 6 136 4;, : '' ** Routine LEVONE detects data discrepancy' DSB indicates: I FRAMES Data Record Length indicates: 7 FRAMES * DATA RECORD ~'YPE# 0) 986 BYTES * Total Data Records: 303 Tape File Start Depth = 9769.000(030 Tape File End Depth = 10828.~ Tape File Level Spacing = 0.5000(X) Tape File Depth Units = Feet ! I NOTE: max curves transferable to WDF per tape subtile reference is: I 32 **** FILE TRAILER **** LIS representation code decoding summary: Rep Code' 68 13748 datums Tape Subtile: 2 Minimum record length: Maximum record length: 374 records... 62 bytes 986 bytes Tape Subtile 3 is type' LIS **** FILE HEADER **** MAD .002 LIS COMMENT RECORD(s): 12345678901234567890123456789012345678.90123456789012345678.9012345678901234567890 FILE HEADER FILE NUMBER: 2 EDITED MERGED MAD Depth shifted and clipped curves; all MAD runs merged using earliest passes. DEPTH INCREMENT: 0.5000 FILE SUMMARY PBU TOOL CODE START DEPTH STOP DEPTH MAD 10217.0 10450.0 $ MERGED DATA SOURCE PBU TOOL CODE MAD RUN NO. MAD PASS NO. MERGE TOP MERGE BASE MAD 1 I 10217.0 10450.0 $ REMARKS: THIS FILE CONSISTS OF MAD PASS DATA THAT HAS BEEN DEPTH SHIFTED. $ CN :ARCO ALASKA WN : P2-30 FN :PT. MCINTYRE COUN : NORTH SLOPE STAT :ALASKA LIS COMMENT RECORD(s)' 1234567890123456789012345678.90123456789012345678.90123456789012345678901234567890 THIS FILE CONSISTS OF EDITED MERGED MAD DATA THAT HAS BEEN DEPTH SHIFTED. * FORMAT RECORD 0'YPE# 64) Entry Type(4) Size(1) Repcode(66) Logging direction is down (value = 255) Entry Type(12) Size(4) Repcode(68) Null data value is: -999.250000 Entry Type(16) Size(1) Repcode(66) Datum Specification Block Sub-type is: 1 Entry Block terminator. Summary of entry types encountered: 1 2 3 4 5 6 7 8 91011 12 13 14 15 16 000 I 0000000 I O0 0 1 Rep Code Count Bytes 68 29 116 Sum: 29 116 116 fndun a [F ] 1.00000000 3 ONE DEPTH PER FRAME Tape depth ID: F 29 Curves: APl APl APl APl Log Crv Crv Name Tool Code Samples Units Size Length Typ Typ CIs Mod 1 WOBSMAD 68 I LB 2 ATB1 MAD 68 1 -dB 3 ATC1 MAD 68 I -dB 4 RHOB MAD 68 I G/C3 5 CAA1MAD 68 1 MMHO 6 CAC1 MAD 68 1 MMHO 7 CPA1 MAD 68 1 MMHO 8 CPC1 MAD 68 I MMHO 9 DCC1 MAD 68 1 10 DPD1 MAD 68 I PU 11 PEF MAD 68 12 DPL1 MAD 68 13 DPSIMAD 68 14 DRHO MAD 68 15 GR MAD 68 16 FCNT MAD 68 17 NCNT MAD 68 18 NPB1 MAD 68 19 NPL1 MAD 68 20 NPHI MAD 68 21 PDB1 MAD 68 22 PDC1 MAD 68 23 RAA1 MAD 68 I BN/E 1 PU 1 PU 1 G/C3 1 GAPI I CPS I CPS I PU 1 PU I PU-S 1 DEG 1 DEG I OHMM 24 RAC1 MAD 68 I OHMM 25 RA MAD 68 1 OHMM 26 RPA1 MAD 68 I OHMM 27 RPC1 MAD 68 1 OHMM 28 RP MAD 68 1 OHMM 29 TCD1 MAD 68 I DEGF 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 116 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 4 33821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 4 33821 00 0 433821 00 0 433821 00 0 4 33821 00 0 433821 00 0 433821 00 0 4 33821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 ** Routine LEVONE detects data discrepancy: DSB indicates: 1 FRAMES Data Record Length indicates: 8 FRAMES * DATA RECORD (TYPE# 0) 966 BYTES * Total Data Records: 59 Tape File Start Depth = 10217.(:X:X:XX)0 Tape File End Depth = 10450.(:XXX:X~ Tape File Level Spacing = 0.500(X~ Tape File Depth Units = Feet **** FILE TRAILER **** LIS representation code decoding summary: Rep Code: 68 2498 datums Tape Subtile: 3 85 records... Minimum record length: Maximum record length: 62 bytes 966 bytes Tape Subtile 4 is type' LIS **** FILE HEADER **** MAD .003 1024 -,I LIS COMMENT RECORD(s)' 12345678,901234567890123456789012345678,9012345678901 '2345678901234 5678901234567890 FILE HEADER FILE NUMBER: 3 EDITED MAD PASSES Depth shifted and clipped curves for each pass of each run in separate files. MAD RUN NUMBER: 1 MAD PASS NUMBER: 1 DEPTH INCREMENT: 0.5000 FILE SUMMARY PBU TOOL CODE START DEPTH STOP DEPTH MAD 10217.0 10450.0 $ BASELINE CURVE FOR SHIFTS: GRMAC CURVE SHIFT DATA (MEASURED DEPTH) EQUIVALENT UNSHIFTED DEPTH .......... BASELINE DEPTH $ REMARKS: ONLY ONE MAD PASS WAS PERFORMED. THIS DATA IS DEPTH SHIFTED. $ CN : ARCO ALASKA WN : P2-30 FN · PT. MCINTYRE COUN : NORTH SLOPE STAT :ALASKA LIS COMMENT RECORD(s)' 1234567890123456789012345678,901234 5678901234 567890123456789012345678901234567890 THIS FILE CONSISTS OF EDITED MAD PASS 1 DATA THAT HAS BEEN DEPTH SHIFTED. * FORMAT RECORD (TYPE# 64) Entry Type(4) Size(1) Repcode(66) Logging direction is down (value= 255) Entry Type(12) Size(4) Repcode(68) Null data value is: -999.250000 Entry Type(16) Size(1) Repcode(66) Datum Specification Block Sub-type is: Entry Block terminator. Summary of entry types encountered: I 2 3 4 5 6 7 8 91011 12 13 14 15 16 000 I 0000000 I 000 I Rep Code Count Bytes 68 29 116 Sum: 29 116 116 fndun a [F ] 1.00000000 ONE DEPTH PER FRAME Tape depth ID: F 29 Curves: APl APl APl APl Log Crv Crv Name Tool Code Samples Units Size Length Typ Typ CIs Mod 1 WOBS MAD 68 2 ATB1 MAD 68 3 ATC1 MAD 68 4 RHOB MAD 68 5 CAA1 MAD 68 6 CAC1 MAD 68 7 CPA1 MAD 68 I LB 1 -dB I -dB I G/C3 1 MMHO I MMHO 1 MMHO 8 CPC1 MAD 68 I MMHO 9 DCC1 MAD 68 1 10 DPD1 MAD 68 1 PU 11 PEF MAD 68 I BN/E 12 DPL1 MAD 68 I PU 13 DPSIMAD 68 14 DRHO MAD 68 15 GR MAD 68 16 FCNT MAD 68 17 NCNT MAD 68 18 NPB1 MAD 68 19 NPL1 MAD 68 20 NPHI MAD 68 21 PDB1 MAD 68 22 PDC1 MAD 68 23 RAA1 MAD 68 24 RAC1 MAD 68 25 RA MAD 68 26 RPA1 MAD 68 27 RPC1 MAD 68 28 RP MAD 68 29 TCD1 MAD 68 1 PU I G/C3 1 GAPI I CPS 1 CPS 1 PU I PU I PU-S 1 DEG I DEG I OHMM 1 OHMM 1 OHMM 1 OHMM 1 OHMM I OHMM 1 DEGF 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 4 33821 00 0 433821 00 0 4 33821 00 0 433821 00 0 4 33821 00 0 433821 00 0 433821 00 0 4 33821 00 0 433821 00 0 4 33821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 433821 00 0 4 33821 00 0 433821 00 0 433821 00 0 4 33821 00 0 116 ** Routine LEVONE detects data discrepancy: DSB indicates: 1 FRAMES Data Record Length indicates: 8 FRAMES * DATA RECORD (TYPE# 0) 966 BY'I'ES * Total Data Records: 59 Tape File Start Depth = 10217.00(X3(O Tape File End Depth = 10450.~ Tape File Level Spacing = 0.50(X300 Tape File Depth Units = Feet **** FILE TRAILER **** LIS representation code decoding summary: Rep Code: 68 16246 datums Tape Subtile: 4 88 records... Minimum record length: Maximum record length: 62 bytes 966 bytes Tape Subtile 5 is type: LIS **** FILE HEADER **** MWD .004 1024 LIS COMMENT RECORD(s): 123456789012345678,9012345678,901234567890123456789012345678901234 5678901234567890 FILE HEADER FILE NUMBER: 4 RAW MWD Curves and log header data for each bit run in separate files. BIT RUN NO: 5 DEPTH INCREMENT: 0.2500 # FILE SUMMARY VENDOR TOOL CODE START DEPTH MWD 9769.0 10232.0 $ LOG HEADER DATA DATE LOGGED: SOFTWARE SURFACE SOFTWARE VERSION: DOWNHOLE SOFTWARE VERSION: DATA TYPE (MEMORY OR REAL-TIME): TD DRILLER (FT): TOP LOG INTERVAL (FT): BOTTOM LOG INTERVAL (FT): BIT ROTATING SPEED (RPM): HOLE INCLINATION (DEG) MINIMUM ANGLE: MAXIMUM ANGLE: TOOL STRING ClOP TO BO'I-i'OM) VENDOR TOOL CODE TOOL TYPE MWD DUAL PROPAGATION $ BOREHOLE AND CASING DATA OPEN HOLE BIT SIZE (IN): DRILLER'S CASING DEPTH (FT): BOREHOLE CONDITIONS MUD TYPE: STOP DEPTH 25 OCT 92 M1.33 M1.33 MEMORY 0.0 9769.O 1O232.O 0 28.4 29.8 TOOL NUMBER 763-51 12.250 10242.0 LTLY DISP MUD DENSITY (LB/G): MUD VISCOSITY (S): MUD PH: MUD CHLORIDES (PPM): FLUID LOSS (C3): 10.10 0.0 0.0 1300 0.0 RESISTIVITY (OHMM) AT TEMPERATURE (DEGF) MUD AT MEASURED TEMPERATURE (MT)' 0.000 MUD AT MAX CIRCULATING TEMPERATURE: 1.061 MUD FILTRATE AT MT: 0.000 0.0 MUD CAKE AT MT: 0.000 0.0 0.0 138.0 NEUTRON TOOL MATRIX: MATRIX DENSITY: HOLE CORRECTION (IN): SANDSTONE 2.45 12.250 TOOL STANDOFF (IN): EWR FREQUENCY (HZ)' 0.0 0 REMARKS: 9 5/8" CASING DEPTH OF DRILLER 10242 FT MD -8226 FT TVD 9 5/8" CASING DEPTH OF LOGGER 10239 FT MD - 8824 FT TVD $ CN · Arco Alaska Inc. WN · P2-30 FN 'Pt. Mclntyre COUN · North Slope STAT 'Alaska LIS COMMENT RECORD(s): 12345678901234567890123456789012345678901234567890123456789012345678901234567890 THIS FILE CONSISTS OF RAW MWD DATA FROM BIT RUN 5 THAT HAS NOT BEEN DEPTH SHIFTED. * FORMAT RECORD (TYPE# 64) Entry Type(4) Size(1) Repcode(66) Logging direction is down (value= 255) Entry Type(12) Size(4) Repcode(68) Null data value is: -999.250000 Entry Type(16) Size(1) Repcode(66) Datum Specification Block Sub-type is: Entry Block terminator. Summary of entry types encountered: 1 2 3 4 5 6 7 8 910111213141516 000 1 0000000 1 000 1 Rep Code Count Bytes 68 34 136 Sum: 34 136 136 "~dun a [F ] 1.00000000 ONE DEPTH PER FRAME Tape depth ID: F 34 Curves: APl APl APl APl Log Crv Crv Name Tool Code Samples Units Size Length Typ Typ CIs Mod 1 ATBM MWD 68 1 -dB 2 ATCM MWD 68 1 -dB 3 BDCM MWD 68 1 G/C3 4 BDEM MWD 68 1 MINS 5 CAAM MWD 68 I MMHO 6 CACM MWD 68 1 MMHO 7 CPAM MWD 68 1 MMHO 8 CPCM MWD 68 1 MMHO 9 DCCM MWD 68 1 10 DPDM MWD 68 1 PU 11 DPEM MWD 68 1 MINS 12 DPLM MWD 68 1 PU 13 DPSM MWD 68 1 PU 14 DRHM MWD 68 1 G/C3 15 GRAM MWD 68 I GAPI 16 NFBM MWD 68 I CPS 17 NNBM MWD 68 I CPS 18 NPDM MWD 68 1 PU 19 NPEM MWD 68 1 MINS 20 NPLM MWD 68 1 PU 21 NPSM MWD 68 1 PU 22 PDBM MWD 68 1 DEG 23 PDCM MWD 68 1 DEG 24 PDDM MWD 68 1 PTFT 25 PDEM MWD 68 1 MINS 26 RAAM MWD 68 1 OHMM 27 RACM MWD 68 1 OHMM 28 RADE MWD 68 I OHMM 29 ROPS MWD 68 1 FPHR 30 RPAM MWD 68 1 OHMM 31 RPCM MWD 68 1 OHMM 32 RPDE MWD 68 1 OHMM 33 TCDM MWD 68 1 DEGF 34 WBCS MWD 68 1 KLBS 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 498660 71 6 4 49866071 6 4 49866071 6 4 49866071 6 4. 4 98660 71 6 498660 71 6 49866071 6 49866O71 6 4 98660 71 6 4 98 660 71 6 4 98 660 71 6 4 98 660 71 6 4 98660 71 6 4 98660 71 6 4 9866O71 6 4 9866O 71 6 4 98660 71 6 4 98660 71 6 4 98 660 71 6 4 98 660 71 6 4 98 660 71 6 4 98 660 71 6 4 98 66O 71 6 4 98660 71 6 4 98660 71 6 4 98 660 71 6 4 98660 71 6 4 98 660 71 6 4 98660 71 6 4 98 660 71 6 4 98 660 71 6 4 98660 71 6 4 98 660 71 6 4 98660 71 6 136 ** Routine LEVONE detects data discrepancy: DSB indicates: 1 FRAMES Data Record Length indicates: 7 FRAMES * DATA RECORD (TYPE# 0) 986 BY'rES * Total Data Records: 265 Tape File Start Depth = 9769.000000 Tape File End Depth = 10232.000000 Tape File Level Spacing = 0.250000 Tape File Depth Units = Feet NOTE: max curves transferable to WDF per tape subtile reference is: 32 **** FILE TRAILER **** LIS representation code decoding summary: Rep Code: 68 14008 datums Tape Subtile: 5 331 records... Minimum record length: Maximum record length: 62 bytes 986 bytes Tape Subtile 6 is type: LIS **** FILE HEADER **** MWD .005 1024 LIS COMMENT RECORD(s): 12345678901234567890123456789012345678901234567890123456789012345678901234567890 FILE HEADER FILE NUMBER: 5 RAW MWD Curves and log header data for each bit run in separate files. BIT RUN NO: 6 DEPTH INCREMENT: 0.2500 # FILE SUMMARY VENDOR TOOL CODE START DEPTH MWD 10232.0 10828.0 $ LOG HEADER DATA DATE LOGGED: SOFTWARE SURFACE SOFTWARE VERSION: DOWNHOLE SOFTWARE VERSION: DATA TYPE (MEMORY OR REAL-TIME): TD DRILLER (Fl'): TOP LOG INTERVAL (FT): BO'I-I'OM LOG INTERVAL (FT): BIT ROTATING SPEED (RPM): HOLE INCLINATION (DEG) MINIMUM ANGLE: MAXIMUM ANGLE: TOOL STRING (TOP TO BOTTOM) VENDOR TOOL CODE TOOL TYPE MWD NEUTRON/POROSITY $ BOREHOLE AND CASING DATA OPEN HOLE BIT SIZE (IN): DRILLER'S CASING DEPTH (FT): BOREHOLE CONDITIONS MUD TYPE: STOP DEPTH 03 NOV 92 M1.33 M1.33 MEMORY 0.0 10232.0 10828.0 0 29.3 30.3 TOOL NUMBER 1768-15 12.250 10242.0 VERSACORE MUD DENSITY (LB/G): MUD VISCOSITY (S): MUD PH: MUD CHLORIDES (PPM): FLUID LOSS (C3): 10.20 70.0 0.0 0 0.0 RESISTIVITY (OHMM) AT TEMPERATURE (DEGF) MUD AT MEASURED TEMPERATURE (MT): 0.000 MUD AT MAX CIRCULATING TEMPERATURE: 0.955 MUD FILTRATE AT MT: 0.000 0.0 MUD CAKE AT MT: 0.000 0.0 0.0 152.0 NEUTRON TOOL MATRIX: MATRIX DENSITY: HOLE CORRECTION (IN): TOOL STANDOFF (IN): EWR FREQUENCY (HZ)' SANDSTONE 2.45 12.250 0.0 0 REMARKS: INTERVAL FROM 10239 TO 10653' MD (9310 TO 9335' TVD) WAS LOGGED WHILE REAMING FOLLOWING CORING OPERATIONS. RATE OF PENETRATION DATA FOR THIS INTERVAL INDICATES REAMING SPEED. INTERVAL FROM 10799 TO 10828' MD (9310 TO 9335' TVD) WAS NOT LOGGED DUE TO BIT TO SENSOR OFFSET AT WELL TD. $ CN · Arco Alaska Inc. WN ' P2-30 FN 'Pt. Mclntyre COUN · North Slope STAT 'Alaska LIS COMMENT RECORD(s)' 12345678901234567890123456789012345678901234567890123456789012345678901234567890 THIS FILE CONSISTS OF RAW MWD DATA FROM BIT RUN 6 THAT HAS NOT BEEN DEPTH SHIFTED. * FORMAT RECORD (TYPE# 64) Entry Type(4) Size(1) Repcode(66) Logging direction is down (value= 255) Entry Type(12) Size(4) Repcode(68) Null data value is: -999.250000 Entry Type(16) Size(1) Repcode(66) Datum Specification Block Sub-type is: Entry Block terminator. Summary of entry types encountered: 1 2 3 4 5 6 7 8 910111213141516 000 1 0 0 0 O0 0 0 1 0 0 0 1 Rep Code Count Bytes 68 34 136 Sum' 34 136 136 fndun a [F ] 1.~ ONE DEPTH PER FRAME Tape depth ID: F 34 Curves: APl APl APl APl Log Crv Crv Name Tool Code Samples Units Size Length Typ Typ Cls Mod 1 ATBM MWD 68 1 -dB 4 2 ATCM MWD 68 1 -dB 4 3 BDCM MWD 68 1 G/C3 4 4 BDEM MWD 68 1 MINS 4 5 CAAM MWD 68 1 MMHO 4 6 CACM MWD 68 I MMHO 4 7 CPAM MWD 68 I MMHO 4 8 CPCM MWD 68 1 MMHO 4 9 DCCM MWD 68 1 4 10 DPDM MWD 68 1 PU 4 11 DPEM MWD 68 I MINS 4 12 DPLMMWD 68 I PU 4 13 DPSM MWD 68 1 PU 4 14 DRHM MWD 68 I G/C3 4 15 GRAMMWD 68 I GAPI 4 16 NFBM MWD 68 1 CPS 4 17 NNBMMWD 68 1 CPS 4 18 NPDMMWD 68 1 PU 4 19 NPEM MWD 68 I MINS 4 20 NPLM MWD 68 I PU 4 21 NPSM MWD 68 1 PU 4 22 PDBM MWD 68 1 DEG 4 23 PDCM MWD 68 I DEG 4 24 PDDM MWD 68 1 PTFT 4 25 PDEM MWD 68 1 MINS 4 26 RAAM MWD 68 1 OHMM 4 27 RACM MWD 68 I OHMM 4 28 RADE MWD 68 I OHMM 4 29 ROPS MWD 68 I FPHR 4 30 RPAM MWD 68 I OHMM 4 31 RPCM MWD 68 1 OHMM 4 32 RPDE MWD 68 I OHMM 4 33 TCDM MWD 68 1 DEGF 4 34 WBCS MWD 68 I KLBS 4 49866071 6 49866071 6 49866071 6 49866071 6 49866071 6 498660 71 6 498660 71 6 49866071 6 49866O71 6 4 98660 71 6 4 98 660 71 6 4 98 660 71 6 4 9866O 71 6 4 98660 71 6 4 98660 71 6 49866O71 6 4 98660 71 6 4 98 66O 71 6 4 98660 71 6 4 98 660 71 6 4 9866O 71 6 4 98 660 71 6 4 98 660 71 6 4 98660 71 6 4 98660 71 6 4 9866O 71 6 4 98 66O 71 6 4 98660 71 6 4 98660 71 6 4 9866O 71 6 4 98 660 71 6 4 98 66O 71 6 4 9866O 71 6 4 98660 71 6 136 ** Routine LEVONE detects data discrepancy: DSB indicates: I FRAMES Data Record Length indicates: 7 FRAMES * DATA RECORD (TYPE# 0) 986 BYTES * Total Data Records: 341 Tape File Start Depth = 10232.0(X3000 Tape File End Depth = 10828.(X)0(X30 Tape File Level Spacing = 0.2500(30 Tape File Depth Units = Feet ! ! NOTE: max curves transferable to WDF per tape subtile reference is: 32 **** FILE TRAILER **** L;$ representation code decoding summary: Rep Code: 68 30974 datums Tape Subtile: 6 412 records... Minimum record length: Maximum record length: 62 bytes 986 bytes Tape Subtile 7 is type: US **** FILE HEADER **** MAD .006 1024 LIS COMMENT RECORD(s): 12345678901234567890123456789012345678901234567890123456789012345678901234567890 MAD RUN NUMBER: MAD PASS NUMBER: DEPTH INCREMENT: FILE SUMMARY FILE HEADER FILE NUMBER: 6 RAW MAD Curves and log header data for each pass of each run in separate files. 1 1 0.5000 VENDOR TOOL CODE START DEPTH MAD 10217.0 . 10450.0 $ LOG HEADER DATA DATE LOGGED: SOFTWARE SURFACE SOFTWARE VERSION: DOWNHOLE SOFTWARE VERSION: DATA TYPE (MEMORY OR REAL-TIME): TD DRILLER (FT): TOP LOG INTERVAL (FT): BOTTOM LOG INTERVAL (FT): BIT ROTATING SPEED (RPM): HOLE INCLINATION (DEG) MINIMUM ANGLE: MAXIMUM ANGLE: STOP DEPTH TOOL STRING (TOP TO BO'I-I'OM) VENDOR TOOL CODE TOOL TYPE MWD NEUTRON/POROSITY $ BOREHOLE AND CASING DATA OPEN HOLE BIT SIZE (IN): DRILLER'S CASING DEPTH (FT): BOREHOLE CONDITIONS 03 NOV 92 M1.33 M1.33 MEMORY 0.0 10217.0 10450.0 0 29.3 30.3 TOOL NUMBER 1768-15 12.250 10242.0 MUD TYPE: MUD DENSITY (LB/G): MUD VISCOSITY (S): MUD PH: MUD CHLORIDES (PPM): FLUID LOSS (03): VERSACORE 0.00 0.0 0.0 0 0.0 RESISTIVITY (OHMM) AT TEMPERATURE (DEGF) MUD AT MEASURED TEMPERATURE (MT)' MUD AT MAX CIRCULATING TEMPERATURE: MUD FILTRATE AT MT: 0.0(30 MUD CAKE AT MT: 0.000 0.000 0.000 0.0 0.0 0.0 0.0 NEUTRON TOOL MATRIX: MATRIX DENSITY: HOLE CORRECTION (IN): SANDSTONE 2 45 12.250 TOOL STANDOFF (IN)' EWR FREQUENCY (HZ): 0.0 0 REMARKS: A MAD PASS WAS MADE OVER THE INTERVAL FROM 10398 TO 10239' MD (8962 TO 8824' TVD) WHILE PULLING UP DURING THE SHORT TRIP AT WELL TD. $ CN · Arco Alaska Inc. WN · P2-30 FN 'Pt. Mclntyre COUN · North Slope STAT 'Alaska LIS COMMENT RECORD(s): 12345678,.9012345678,9012345678,9012345678,901234567890123456789012345678901234567890 THIS FILE CONSISTS OF RAW DATA FROM MAD PASS 1. * FORMAT RECORD (TYPE# 64) Entry Type(4) Size(1) Repcode(66) Logging direction is down (value= 255) Entry Type(12) Size(4) Repcode(68) Null data value is: -999.25(XXX) Entry Type(16) Size(1) Repcode(68) Datum Specification Block Sub-type is: Entry Block terminator. Summary of entry types encountered: 1 2 3 4 5 6 7 8 910111213141516 000 I 0000000 I 000 1 Rep Code Count Bytes 68 27 108 Sum' 27 108 108 fndun a [F ] I ONE DEPTH PER FRAME Tape depth ID: F 27 Curves: APl APl APl APl Log Crv Crv Name Tool Code Samples Units Size Length Typ Typ CIs Mod 1 ATB1 MAD 68 2 ATCl MAD 68 3 BDC1 MAD 68 4 CAA1 MAD 68 5 cac1 MAD 68 6 CPAIMAD 68 7 CPC1 MAD 68 8 DCCIMAD 68 9 DPD1 MAD 68 10 DPE1 MAD 68 11 DPL1 MAD 68 12 DPS1MAD 68 13 DRH1MAD 68 14 GRA1MAD 68 15 NFB1 MAD 68 16 NNB1 MAD 68 17 NPLIMAD 68 -dB -dB G/C3 MMHO MMHO MMHO MMHO PU S/e PU PU G/C3 GR CPS CPS PU 18 NPS1 MAD 68 1 PU 19 PDB1 MAD 68 1 DEG 20 PDC1 MAD 68 1 DEG 21 RAA1MAD 68 I OHMM 22 RAC1 MAD 68 1 OHMM 23 RAD1 MAD 68 1 OHMM 24 RPA1 MAD 68 1 OHMM 25 RPC1 MAD 68 I OHMM 26 RPD1MAD 68 1 OHMM 27 TCD1 MAD 68 1 DEGF 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 108 433821 O0 0 433821 O0 0 433821 O0 0 4 33821 (30 0 4 39 921 74 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 433821 O0 0 ** Routine LEVONE detects data discrepancy: DSB indicates: 1 FRAMES Data Record Length indicates: 9 FRAMES * DATA RECORD (TYPE# O) 1014 BYTES * Total Data Records: 104 Tape File Start Depth = 10217.000(XX) Tape File End Depth = 10450.~ Tape File Level Spacing = 0.250000 Tape File Depth Units = Feet **** FILE TRAILER **** LIS representation code decoding summary: Rep Code: 68 18020 datums Tape Subtile: 7 172 records... Minimum record length: 62 bytes Maximum record length: 1014 bytes Tape Subtile 8 is type: LiS **** TAPE TRAILER **** MWD 93/ / 2 1138 01 **** REEL TRAILER **** MWD 93/1/12 1138 01 Tape Subtile: 8 Minimum record length: Maximum record length: 2 records... 132 bytes 132 bytes End of execution' Tue 12 JAN 93 2:19p Elapsed execution time = I minute, 47.7 seconds. SYSTEM RETURN CODE -- 0 Tape Subtile 1 is type: LIS Tape Subtile 2 is type: LIS DEPTH ATBM ATCM RHOB CAAM CACM CPAM CPCM DPDM PEF DPLM DPSM GR FCNT NCNT NPDM NPLM NPHI PDBM PDCM PDEM RAAM RACM RA RPAM RPCM RP TCDM BDEM DCCM DRHO NPEM PDDM ROP WOBS 9769.0(300 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 9769.5000 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 129.1101 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 9775.0000 6.6922 1.5867 462.3412 462.6577 466.7778 -999.2500 -999.2500 -999.2500 136.1956 -999.2500 -999.2500 -999.2~ -999.2500 25.8750 -999.2500 2.1629 2.1614 2.1423 2.1416 2.2049 -999.2500 466.~ -999.2500 -999.2500 17.1838 2.0546 -999.2500 -999.2500 153.9681 -999.2500 -999.2500 0.O929 -999.2500 ·-999.2500 9800.O900 7.1953 2.0961 667.1892 667.4379 684.7870 -999.2500 -999.2500 -999.2500 136.1048 -999.2500 -999.2500 -999.25(X) -999.2500 30.1223 -999.2500 1.4995 1.4989 1.4604 1.4601 1.4978 -999.2500 684.8987 -999.2500 -999.2500 21.4509 1.4381 136.8596 -999.2500 185.O903 -999.2500 -999.2500 0.3,996 -999.2500-999.2500 9825.0000 6.4874 1.3945 392.5489 392.8501 401.9329 -999.2500 -999.2500 -999.2500 153.5142 -999.2500 -999.2500 -999.2500 -999.2500 24.0684 12.4190 2.5484 2.5465 2.4887 2.4875 2.5640 -999.2500 402.1151 -999.2500 -999.2500 15.7246 2.4066 117.8873 -999.2500 143.3347 -999.2500-999.2500 0.4104 62.9851 39.4035 DEPTH CAAM DPDM GR NPLM PDEM RPAM ATBM CACM PEF FCNT NPHI RAAM RPCM ATCM CPAM DPLM NCNT PDBM RACM RP RHOB CPCM DPSM NPDM PDCM RA TCDM BDEM DCCM DRHO NPEM PDDM ROP WOBS 9850.0000 221.3388 -999.2500 164.8792 -999.2500 7.8821 5.7683 5.9559 221.5851 -999.2500 -999.2500 -999.2500 4.5181 5.7598 0.8649 173.3763 -999.2500 -999.2500 17.6739 4.5130 5.9975 -999.25O0 173.6304 -999.25OO -999.2500 9.2986 4.1984 114.3039 -999.2500 96.4541 -999.2500-999.2500 0.1858 57.1763 28.7022 9875.00(X) 517.9540 -999.2500 121.0054 -999.2500 5.7000 2.1043 9900.0000 523.8319 -999.2500 124.0081 -999.2500 13.5667 1.7151 6.8229 518.2598 -999.2500 -999.2500 -999.2500 1.9307 2.1036 6.8368 524.1365 -999.2500 -999.2500 -999.2500 1.9090 1.7146 1.7324 475.2108 -999.2500 -999.2500 25.7500 1.9295 2.1656 1.7474 583.0731 -999.2500 -999.2500 27.9688 1.9079 1.7617 -999.2500 475.3687 -999.2500 -999.2500 17.3657 1.8434 115.0250 -999.2500 583.2106 -999.2500 -999.2500 19.5623 1.8168 116.4125 -999.2500 155.2937 -999.25(X)-999.2500 0.1858 57.1129 22.9270 -999.2500 171.3072 ,999.2500 -999.2500 0.2787 100.2253 28.5067 9925.0(X~ 399.2064 -999.2500 126.0914 -999.2500 5.8500 2.1851 6.5017 399.5102 -999.2500 -999.2500 -999.2500 2.5050 2.1843 1.4134 457.6543 -999.2500 -999.2500 25.4219 2.5031 2.2488 -999.2500 457.8176 -999.2500 -999.2500 16.9850 2.3614 117.7250 -999,25(X) 152.5200 -999.2500-999.2500 0.2323 107.3030 27.7663 9950.(XXX) 547.4044 -999.2500 113.8384 -999.2500 6.28,93 1.8384 6.8945 547.7~2 -999.2500 -999.2500 -999.2500 1.8268 1.63~ 1.8071 543.9805 -999.25(X) -999.2500 27.2604 1,8258 1.8893 -999.2500 544.1204 -999.25O0 -999.2500 18.7920 1.7446 119.3661 -999.2500 165.6821 -999.2500-999.2500 0.2323 83.9885 27.6177 DEPTH CAAM DPDM GR NPLM PDEM RPAM ATBM CACM PEF FCNT NPHI RAAM RPCM ATCM CPAM DPLM NCNT PDBM RACM RP RHOB CPCM DPSM NPDM PDCM RA TCDM BDEM DCCM DRHO NPEM PDDM ROP WOBS 9975.0000 310.2425 -999.25OO 91.7449 -999.25OO 5.8310 4.8600 6.2389 310.5009 -999.2500 -999.2500 -999.2500 3.2240 4.8542 1.1519 2O5.8988 -999.2500 -999.2500 18.8848 3.2213 5.0415 -999.2500 206.1485 -999.2500 -999.2500 10.3941 3.0484 120.6500 -999.25OO 104.4760 -999.25OO-999.25OO 0.2212 104.3960 23.3917 10300.(:XXX3 642.1104 -999.25OO 124.0771 -999.25OO 5.7246 1.6252 10025.0000 432.1210 -999.25OO 168.7479 -999.2500 14.5856 2.0861 7.1244 642.3722 -999.2500 -999.2500 -999.2500 1.5576 1.6248 6.5918 432.4,337 -999.2500 -999.2500 -999.2500 2.3147 2.0855 2.0375 615.6522 -999.2500 -999.2500 28.6949 1.5570 1.6676 1.5049 479.5323 -999.2500 -999.2500 25.9773 2.3130 2.1455 -999.2500 615.7820 -999.2500 -999.25O0 2O. 1826 1.4942 121.8848 -999.2500 479.6890 -999.2500 -999.2500 17.4574 2.1893 123.0125 -999.2500 175.7985 -999.2500-999.2500 0.2139 108.4945 21.8738 -999.2500 155.9390 -999.2500-999.25OO 0.1858 99.5308 23.4179 10050.0000 328.9721 -999.2500 143.0212 -999.25OO 6.1667 2.8228 6.2960 329.2369 -999.25O0 -999.25O0 -999.25O0 3.~ 2.8212 1.2089 354.2613 -999.2500 -999.2500 23.1146 3.0373 2.9132 -999.2500 354.4625 -999.2500 -999.2500 14.5761 2.8491 123.8000 -999.2500 134.9907 -999.2500-999.2500 0.2787 101.2538 24.0324 10075.(XXX) 354.1108 -999.2500 176.8948 -999.2500 5.9149 3.4136 6.3710 354.~ -999.25OO -999.2500 -999.2500 2.8243 3.4110 1.2836 293.3919 -999.2500 -999.2500 21.5384 2.822'~ 3.5246 -999.2500 293.6157 -999.25O0 -999.2500 12.9873 2.6704 124.3625 -999.2500 123.3614 -999.2500-999.2500 0.2522 101.7898 26.0651 DEPTH CAAM DPDM GR NPLM PDEM RPAM ATBM CACM PEF FCNT NPHI RAAM RPCM ATCM CPAM DPLM NCNT PDBM RACM RP RHOB CPCM DPSM NPDM PDCM RA TCDM BDEM DCCM DRHO NPEM PDDM ROP WOBS 1O1OO.OO00 359.2213 -999.2500 135.0558 -999.25OO 15.3036 2.4306 6.3896 359.5085 -999.2500 -999.2500 -999.2500 2.7839 2.4295 1.2986 411.46,.33 -999.2500 -999.25O0 24.5632 2.7816 2.5042 -999.25OO 411.6421 -999.250O -999.2500 15.9463 2.6146 126.3080 -999.2500 144.9575 -999.2500-999.2500 0.7000 42.2665 58.2216 10125.0(XX) 450.5593 -999.2500 227.0586 -999.2500 24.1233 1.9725 10150.00OO 395.7337 -999.2500 214.1845 -999.2500 17.1489 2.7166 6.6487 450.8749 -999.2500 -999.25O0 -999.2500 2.2195 1.9719 6.5021 396.0362 -999.2500 -999.2500 -999.2500 2.5270 2.7152 1.5551 506.9711 -999.2500 -999.2500 26.6776 2.2180 2.0281 1.4036 368.1019 -999.2500 -999.2500 23.5859 2.5250 2.8018 -999.2500 507.1201 -999.2500 -999.2500 18.0367 2.1023 131.9220 -999.2500 368.29~ -999.25(X) -999.2500 14.9173 2.3927 134.1500 -999.2500 160.1800 -999.2500-999.2500 0.3807 46.6329 49.3437 -999.2500 137.4737 -999.2500-999.2500 0.6503 65.3948 50.3274 10175.0000 497.4008 -999.2500 168.4886 -999.2500 71.3&33 2.0726 6.7691 497.7098 -999.2500 -999.2500 -999.25(X3 2.0105 2.0719 1.6793 482.4826 -999.2500 -999.2500 26.1250 2.0092 2.1321 -999.2500 482.6385 -999.2500 -999.2500 17.5213 1.9158 135.9500 -999.2500 156.4274 -999.2500-999.2500 0.2323 39.3775 49.9497 10200.(ZX:X) 431.4620 -999.2500 111.0739 -999.2500 14.6491 2.9192 6.6041 431.7747 -999.2500 -999.2500 -999.2500 2.3177 2.9175 1.5031 342.5559 -999.2500 -999.2500 22.9609 2.3160 3.0134 -999.2500 342.7615 -999.2500 -999.2500 14.2823 2.2072 133.9250 -999.2500 132.85,33 -999.2500-999.2500 0.4645 34.0758 50.0426 DEPTH CAAM DPDM GR NPLM PDEM RPAM 10225.OOO0 521.6527 -999.2500 -999.2500 -999.2500 24.1500 2.3466 10250.0000 1.3502 26.7875 43.0231 25.9221 -999.2500 36.5038 10275.O000 -999.2500 33.5522 29.2851 23.5953 -999.2500 58.0275 10300.~ 10.7937 31.5381 46.2188 23.0334 -999.2500 28.2475 1O325.0000 46.7264 22.7897 64.9317 26.9452 -999.25OO 10.9977 ATBM CACM PEF FCNT NPHI RAAM RPCM 6.8497 521.9578 -999.25OO -999.2500 -999.25OO 1.9170 2.3457 5.6087 1.3502 2.6374 32.7106 29.6771 812.0908 36.5085 5.5697 -999.2500 2.3111 36.4296 27.2735 -999.2500 58.0323 5.6348 10.7937 2.2816 36.3218 26.6913 92.6648 28.2518 5.8048 48.7264 6.2478 31.7015 30.7299 20.5237 11.0004 ATCM CPAM DPLM NCNT PDBM RACM RP 1.7418 426.1431 -999.25OO -999.25OO 24.9792 1.9159 2.4173 0.00O6 27.4072 20.7936 7028.5283 8.8037 812.0908 42.5440 -999.25OO 17.2337 28.1121 7296.5479 8.1981 -999.2500 64.3221 0.0262 35.4014 25.933O 7144.40.33 9.5812 92.6648 29.2785 0.1957 91.0215 16.4684 7009.1348 12.2581 20.5237 12.4716 RHOB CPCM DPSM NPDM PDCM RA TCDM -999.25OO 426.3167 -999.2500 -999.2500 16.2827 1.8349 136.8500 2.3~~. 27.4O36 17.9133 20.5390 2.2501 59.2226 -999.25OO 2.2293 17.2323 25.4980 18.4394 1.6040 -999.2500 120.9875 2.2665 35.3960 23.2397 17.9361 3.0115 42.8394 119.9812 2.4284 90.9994 13.4309 21.4700 5.6762 15.6474 120.6500 BDEM DCCM DRHO NPEM PDDM ROP WOBS -999.2500 147.4084 -999.2500-999.2500 0.7432 20.3451 50.2537 -999.2~42.4118 -0.0,.3,.33 -999.2500 0.3463 37.4858 0.4253 -999.2500 35.0986 0.0466 -999.2500 0.1858 73.6051 0.4253 -999.2500 47.263O 0.0022 -999.2500 0.2787 126.4541 0.4253 -999.2500 71.6383 -0.1432 -999.2500 0.3820 76.3556 0.4253 DEPTH CAAM DPDM GR NPLM PDEM RPAM ATBM CACM PEF FCNT NPHI RAAM RPCM ATCM CPAM DPLM NCNT PDBM RACM RP RHOB CPCM DPSM NPDM PDCM RA TCDM BDEM DCCM DRHO NPEM PDDM ROP WOBS 10350.00(X) 36.8782 24.4778 64.4661 22.0706 -999.2500 13.4821 5.7568 36.8782 2.9565 37.4931 25.6921 27.1803 13.4851 0.1458 74.1781 18.2947 7141.2744 11.8149 27.1803 14.1514 2.3972 74.1616 15.3236 17.0769 5.1802 19.2198 120.3125 -999.25OO 65.3546 -0.0132 -999.25OO 0.4645 50.7738 0.4253 10375.0(X30 -999.2500 33.6742 34.2864 25.5423 -999.25O0 71.7729 10400.00(X) 1.7023 29.0014 41.3746 20.1356 -999.2500 29.6634 5.5693 -999.2500 2.3407 33.8169 29.2855 -999.2500 71.7772 5.6166 1.7023 2.6810 40.60.39 23.6777 587.4249 29.6677 -999.2500 13.9329 28.2440 7186.9922 8.1007 -999.2500 75.2983 0.0039 33.7116 23.1886 7214.7793 9.4453 587.4249. 32.7958 2.2270 13.9321 25.6347 20.1946 1.4043 -999.2500 118.8500 2.3135 ' 33.7066 20.3955 15.3627 2.7613 53.7649, 117.2750 -999.2500 32.2830 0.0221 -999.2500 0.2987 44.7657 0.4253 -999.250046.2884 0.0229 -999.2500 0.3716 57.2183 0.4253 10425.0000 37.0884 24.0938 57.0036 17.8958 -999.2500 13.9622 5.7514 37.0884 2.2156 44.8131 21.3355 26.9645 13.96,53 0.1391 71.6333 17.8793 7281.6621 11.5716 26.9645 15.3065 2.4043 71.6176 14.8931 13.3995 4.9000 19.8347 117.5(X)0 -999.2500 64.3382 0.0149 -999.2500 0.4181 53.7446 0.4253 10450.0000 -999.2500 32.4330 34.9636 19.9481 -999.2500 43.1117 5.5878 -999.2500 2.3385 40.7424 23.4820 -999.2500 43.1165 -999.2500 23.1969 26.9012 7188.0674 8.7721 -999.2500 45.5339 2.2500 23.1942 24.2431 15.1975 2.1251 -999.2500 117.7626 -999.2500 39.5857 0.0330 -999.2500 0.4646 52.2759 0.4253 DEPTH CAAM DPDM GR NPLM PDEM RPAM 10475.(:XX:X:) 7.9600 25.2495 56.0171 18.5009 -999.2500 25.9258 10500.~ 6.3969 29.4791 37.4915 19.6707 -999.2500 27.9436 1O525.OOO0 -999.25OO 33.5083 27.1204 23.6759 -999.2500 60.7775 10550.0000 72.0535 27.8350 38.2063 16.5,340 -999.25OO 8.0136 1O575.O000 3,.33.2896 18.1787 115.2714 30.2933 ~ ~,9~.2500 2.3378 ATBM CACM PEF FCNT NPHI RAAM RPCM 5.6,.331 7.9600 2.0295 44.0377 21.9694 125.6282 25.93OO 5.6352 6.3969 2.2962 41.8380 23.1925 156.3255 27.9479 5.5563 -999.2500 1.9872 36.0542 27.3570 -999.25O0 60.7822 5.8853 72.0535 3.0032 47.5348 19.9059 13.8924 8.0158 6.8189 333.2401 3.O832 ' 28.5975 34.1596 3.I:XX)5 2.3,.389 ATCM CPAM DPLM NCNT PDBM RACM RP 0.0225 38.5716 19.1296 73,38.4619 9.9375 125.6282 25.8141 0.0257 35.7864 23.7054 73O3.7363 9.5625 156.3255 29.8557 -999.2500 18.4584 28.0645 7240.0859 8.0424 -999.2500 71.4507 0.2776 124.8231 21.9267 7274.6406 13.7513 13.8924 8.8225 1.2126 427.7640 11.4778 6887.0576 22.80,39 3.0010 2.4134 RHOB CPCM DPSM NPDM PDCM RA TCDM 2.3829 38.5654 16.1888 13.9277 3.3150 43.37O9 118.5125 2.3046 35.7809 20.9311 14.9534 2.9685 42.9218 119.1875 2.2301 16.4572 25.4487 18.5117 1.4726 -999.2500 119.9750 2.3351 124.7881 19.0877 12.2170 7.2O57 11.9080 120.6500 2.5137 427.5648 8.2588 24.5490 16.2983 2.8250 121.4375 BDEM DCCM DRHO NPEM PDDM ROP WOBS -999.25OO49.0315 -0.0210 -999.25OO 0.3716 50.1264 0.4253 -999.250047.4819 0.03O0 -999.2500 0.3716 63.2322 0.4253 -999.2500 34.4588 0.0122 -999.2500 0.3681 58.3664 0.4253 -999.2500 82.7746 0.07O0 -999.2500 0.4181 58.1785 0.4253 -999.25O0 147.6141 0.0336 -999.2500 0.3716 57.1808 0.4253 DEPTH CAAM DPDM GR NPLM PDEM RPAM ATBM CACM PEF FCNT NPHI RAAM RPCM ATCM CPAM DPLM NCNT PDBM RACM RP RHOB CPCM DPSM NPDM PDCM RA TCDM BDEM DCCM DRHO NPEM PDDM ROP WOBS 10600.~ 320.1152 18.3047 119.4423 30.9824 -999.25OO 2.5727 6.7783 320.0723 3.1786 28.4084 34.8624 3.1239 2.5738 1.1730 388.7004 11.6162 6953.1191 21.8731 3.1243 2.6592 2.5114 388.5263 8.4022 25.1889 15.3914 2.9411 122.4500 -999.2500 141.0213 0.0382 -999.2500 0.3716 61.0819 0.4253 10625.0000 343.2841 18.2070 122.9194 28.1545 -999.2500 2.4713 10650.0(X)0 301.3754 17.6599 118.7126 27.6458 181.3843 2.6969 6.8455 343.2286 3.1148 30.0649 31.9717 2.9130 2.4724 6.7104 301.3395 3.0496 30.8777 31.4497 3.3182 2.6981 1.2424 404.6443 11.5105 6865.5947 22.1901 2.9135 2.5525 1.1156 370.7945 10.9186 6957.5371 21.1774 3.3185 2.7892 2.5132 404.4600 8.2927 22.5762 15.7667 2.7521 123.2375 2.5233 370.6318 7.6793 22.1099 14.9605 3.1152 125.6976 -999.2500 143.7504 0.0287 -999.2500 1.5293 55.90,.33 0.4253 267.7656 137.8880 0.0245 302.7656 1.1635 8.4862 0.4253 10675.~ 456.1014 16.7671 146.0938 26.9565 129.2152 1.7412 7.1363 455.9644 3.0737 31.2619 30.7416 2.1925 1.7421 1.5600 574.3087 9.9527 6914.5020 25.1781 2.1932 1.7911 2.5398 574.0127 6.6782 21.4801 19.3743 2.0881 131.6614 215.0000 169.9992 0.0275 246.0000 1.7733 12.4502 0.4249 10700.(X:X)O 434.0662 16.6550 130.2278 22.3008 125.7282 2.0223 7.0713 4,33.9409 3.1986 36.3416 25.9313 2.3038 2.0233 1.5(X)4 494.5509 9.6315 6976.2549 23.4513 2.3045 2.0838 2.5419 494.3075 6.5526 17.2820 17.7571 2.1959 144.0500 202.3008 158.2175 0.0898 234.6016 1.7594 11.9578 0.4247 DEPTH CAAM DPDM GR NPLM PDEM RPAM ATBM CACM PEF FCNT NPHI RAAM RPCM ATCM CPAM DPLM NCNT PDBM RACM RP RHOB CPCM DPSM NPDM PDCM RA TCDM BDEM DCCM DRHO NPEM PDDM ROP WOBS 10725.0000 511.8107 15.8647 121.9423 24.O473 120.4646 1.6460 7.2736 511.6608 4.5203 33.~21 27.7414 1.9539 1.6469 1.7063 607.5472 8.9764 6839.0674 25.6,,3,39 1.9545 1.6921 2.5565 807.2283 5.6665 18.8454 20.0140 1.8695 147.8750 171.3750 174.6595 0.0386 195.0000 1.8855 11.1397 4.1934 10750.0000 516.7941 17.4704 126.7234 29.5345 81.8O94 1.7467 7.2863 516.6423 4.5114 28.7254 33.~5 1.9352 1.7476 1.7191 572.5415 10.7136 6792.2686 24.9596 1.9358 1.7973 2.5268 572.2467 7.4669 23.8467 19.3397 1.8546 150.8000 107.0000 169.7450 O.O2O3 122.0000 0.8053 16.5602 4.2330 10775.0(X30 775.0088 18.7675 142.6,.331 -999.2500 50.2924 1.0373 10800.(X)(X) -999.25O0 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 7.8965 774.7140 3.2256 -999.2500 -999.25OO 1.2903 1 .O379 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 2.3284 964.0514 12.1169 -999.2500 31.6246 1.2908 1.0617 -999.2500 -999.2500 -999.2500 -999.25O0 -999.2500 -999.25O0 -999.2500 2.5028 963.4623 8.9212 -999.2500 25.9863 1.2460 150.5750 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 149.9000 93.4844 218.3205 0.0189 -999.2500 0.6503 25.9258 2.6796 -999.2500 -999.25O0 -999.25(X) -999.25O0 -999.25(30 35.5423 0.5415 10825.0(X)0 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.25(X) -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.25O0 -999.25(X) -999.2500 -999.25(X) -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.25(X) 149.4500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 20.0693 0.4678 DEPTH A'I'BM ATCM RHOB BDEM CAAM CACM CPAM CPCM DCCM DPDM PEF DPLM DPSM DRHO GR FCNT NCNT NPDM NPEM NPLM NPHI PDBM PDCM PDDM PDEM RAAM RACM RA ROP RPAM RPCM RP TCDM WOBS 10828.0000 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2~ -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 Tape File Start Depth = 9769.00(XX)0 Tape File End Depth = 10828.00(X3(30 Tape File Level Spacing = 0.500(X)O Tape File Depth Units = Feet Tape Subfile 3 is type: US DEPTH WOBS ATB1 CAA1 CAC1 CPA1 DPD1 PEF DPL1 GR FCNT NCNT NPHI PDB1 PDCl RA RPA1 RPC1 ATC1 CPC1 DPS1 NPB1 RAA1 RP RHOB DCC1 DRHO NPL1 RAC1 TCD1 10217.0300 50.4900 -999.2500 0.7381 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.25(X) -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 10.9362 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.25(X) -999.2500 10217.5000 50.5357 -999.2500 0.7350 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 119.8593 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 10.7073 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 10225.0000 50.2537 -999.2500 0.6690 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 160.2982 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.25(X) 9.8048 -999.2500 -999.2500 -999.25(X) -999.2500 -999.2500 -999.25(X) -999.2500 10250.(XX~ 0.4253 5.5929 0.4738 2.3351 2.8978 2.8978 18.4788 18.4771 38.0920 27.8,,',,',,',,',,',,'~O 4.1033 21.9257 19.0867 -0.0440 50.2789 34.3005 7116.5967 23.8021 24.7314 28.4487 7.7656 7.9201 345.0913 345.0913 49.2866 54.1160 54.1209 60.1504 -999.2500 10275.00(X) 0.4253 5.5516 1.4924 2.1791 -999.2500 -999.2500 15.6161 15.6150 33.7403 36.2649 1.9594 31.0468 28.5395 -0.0276 38.0940 36.9997 7219.1299 21.9731 22.7868 26.4357 7.5005 16.6038 -999.2500 -999.2500 -999.2500 64.1082 64.1128 72.5791 136.4000 10300.~ 0.4253 5.6209 1.6414 2.3927 9.9646 9.9646 34.4540 34.4488 46.7037 24.7195 3.6103 18.5562 15.5946 -0.0242 48.0835 39.4431 7021.6221 19.5088 20.1846 23.7288 8.8664 18.2127 103.8938 100.~ 36.8507 29.0473 29.0516 30.9866 137.4972 DEPTH WOBS ATB1 CAA1 CAC1 CPA1 DPD1 PEF DPL1 GR FCNT NCNT NPHI PDB1 PDC1 RA RPA1 RPC1 ATC1 CPC1 DPS1 NPB1 RAA1 RP RHOB DCC1 DRHO NPL1 RAC1 TCD1 10325.CXX:X) 0.4253 5.7831 -999.2500 2.6247 50.9491 50.9491 77.2364 77.2189 66.5483 12.1774 5,4515 4.9873 1.5323 -0.0051 66.7971 33.3117 7190.0186 25.0645 26.0801 29.8398 11.2722 -999.2503 19.6285 19.6285 15.3015 12.9492 12.9521 13.6049 137.8825 10350.0000 0.4253 5.7508 -999.2500 2.4085 39.0047 39.0047 75.1251 75.1083 65.7297 23.8645 2.8662 17.6312 14.6360 0,0071 66.1696 39.9176 7145.1299 19.6508 20.3340 23.8846 11.1562 -999.2500 25.6380 25.6380 18.4003 13.3111 13.3141 14.1448 138.6500 10375.0000 0 ' '~53 5.5541 -999.2500 -999.2500 -999, ~.5(:X:) 15.9117 15.9106 31.8780 2.5227 26.3007 23.6208 42.0882 38.3513 7170.4785 20.7902 25.1356 7.4141 -999.2500 '999.2500 -999.2500 62.8466 62.8513 68.9434 10400.0000 0.4253 5.6058 -999.25(X) -999.2500 6.3228 6.3228 28.8748 28.8709 43.3567 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 68.5466 42.1507 7121.5352 18.2354 18.8481 22.3326 8.3437 -999.2500 158.1567 158.1567 47.0656 34.6323 34.6369 37.5127 141.1700 10425.00(X) 0.4253 5.6338 -999.2500 -999.2500 16.4863 16.4863 35.7984 35.7930 47.4885 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 47.1222 -999.2500 '999.2500 '999.2500 -999.2500 -999.2500 8.8177 -999.2500 60.6799 60.6799 33.0073 27.9344 27.9387 30.1283 142.5875 10450.0(XX) 0.4253 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999,2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 38.8865 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999,2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 Tape File Start Depth = 10217.0(XXX)0 Tape File End Depth = 10450.(XXXX:X3 Tape File Level Spacing = 0.50(ZX30 Tape File Depth Units = Feet Tape Subtile 4 is type: LIS DEPTH WOBS ATB1 CAA1 CAC1 CPA1 DPD1 PEF DPL1 GR FCNT NCNT NPHI PDB1 PDCl RA RPA1 RPC1 ATC1 CPC1 DPS1 NPB1 RAA1 RP RHOB DCC1 DRHO NPL1 RAC1 TCD1 10217.0000 50.4900 -999.2500 0.7381 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 10.9362 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 10217.5000 50.5357 -999.2500 0.7350 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 119.8593 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 10.7073 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 10225.0000 50.2537 -999.2500 0.6690 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.25(X3 -999.2500 -999.2500 160.2982 t.-999.25(X) -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 9.8048 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 10250.~ 0.4253 5,5929 0.4738 2.3351 2.8978 2.8978 18.4788 18.4771 36.0920 27.~ 4.1033 21.9257 19.0867 -0.0440 50.2789 34.3005 7116.5967 23.8021 24.7314 28.4487 7.7656 7.9201 345.0913 345.0913 49.2866 54.1160 54.1209 60.1504 -999.2500 10275.0000 0.4253 5.5516 1.4924 2.1791 -999.2500 -999.2500 15.6161 15.6150 33.7403 36.2649 1.9594 31.0468 28.5395 -0.0276 38.0940 36.9997 7219.1299 21.9731 22.7868 26.4357 7.5005 16.6038 -999.2500 -999.2500 -999.2500 64.1082 64.1128 72.5791 136.4(XX) 10300.0000 0.4253 5.6209 1.6414 2.3927 9.9646 9.9646 34.4540 34.4488 46.7037 24.7195 3.6103 18.5562 15.5946 -0.0242 48.0835 39.4431 7021.6221 19.5088 20.1846 23.7288 8.8664 18.2127 103.8,9,38 103.8,9,38 36.8507 29.0473 29.0516 30.9866 137.4972 DEPTH WOBS ATB1 CAA1 CAC1 CPA1 DPD1 PEF DPL1 GR FCNT NCNT NPHI PDB1 PDCl RA RPA1 RPC1 ATC1 CPC1 DPSl NPB1 RAA1 RP RHOB DCC1 DRHO NPL1 RACl TCD1 10325.(30(30 0.4253 5.7831 -999.2500 2.6247 50.9491 50.9491 77.2364 77.2189 66.5483 12.1774 5.4515 4.9873 1.5323 -0.0051 66.7971 33.3117 7190.0186 25.0645 26.0801 29.8398 11.2722 -999.2500 19.6285 19.6285 15.3015 12.9492 12.9521 13.6049 137.8625 10350.(XX)0 0.4253 5.7508 -999.2500 2.4085 39.0047 39.0047 75.1251 75.1083 65.7297 23.8645 2.8662 17.6312 14.6360 0.0071 66.1696 39.9176 7145.1299 19.6508 20.3340 23.8846 11.1562 -999.2500 25.6380 25.6380 18.4003 13.3111 13.3141 14.1448 138.6500 10375.0(X30 0.4253 5.5541 -999.2500 2.2603 -999.2500 -999.2500 15.9117 15.9106 34.0057 31.8780 2.5227 26.3007 23.6208 0.0008 42.0882 38.3513 7170.4785 20.7902 21.5352 25.1356 7.4141 -999.2500 -999.2500 -999.2500 -999.2500 62.8466 62.8513 68.9434 138.9875 10400.0000 0.4253 5.6058 -999.2500 -999.2500 6.3228 6.3228 28.8748 28.8709 48.3567 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 68.5466 42.1507 7121.5352 18.2354 18.8481 22.3326 8.3437 -999.2500 158.1567 168.1567 47.0656 34.6323 34.6,369 37.5127 141.1700 10425.0000 0.4253 5.63,39' -999.2500 -999.2500 16.4863 16.4863 35.7984 35.7930 47.4885 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 47.1222 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 8.8177 -999.2500 60.6799 60.6799 33.0073 27.9344 27.9387 30.1263 142.5875 10450.0000 0.4253 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.25(X) .., -999.2500 -999.2500 -999.2500 38.8865 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.25(:X) -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 Tape File Start Depth = 10217.0(X3(X~ Tape File End Depth = 10450.000000 Tape File Level Spacing = 0.500000 Tape File Depth Units = Feet Tape Subfile 5 is type: US DEPTH CAAM DPDM GRAM NPLM PDEM RPAM ATBM CACM DPEM NFBM NPSM RAAM RPCM ATCM CPAM DPLM NNBM PDBM RACM RPDE BDCM CPCM DPSM NPDM PDCM RADE TCDM BDEM DCCM DRHM NPEM PDDM ROPS WBCS 9769.0000 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 9769.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 9775.OO0O 462.7442 -999.2500 136.6200 -999.2500 -999.2500 2.1248 9800.0000 585.7350 -999.2500 120.3603 -999.2500 -999.2500 1.6630 9825.~ 630.5216 -999.2500 132.1298 -999.2500 14.0822 1.5350 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 6.6932 463.~7 -999.2500 -999.2500 -999.2500 2.1611 2.1241 7.0038 586.0215 -999.2500 -999.2500 -999.2500 1.7073 1.6626 7.1018 630.7891 -999.2500 -999.2500 -999.2500 1.5860 1.5347 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 1.5878 470.6343 -999.2500 -999.2500 25.9583 2.1596 2.1886 1.9021 601.3206 -999,2500 -999.2500 28.5938 1.7O64 1.7077 2.0101 651.4795 -999.2500 -999.2500 29.2109 1.5853 1.5751 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 470.7937 -999.2500 -999.2500 17.2671 2.0694 -999.2500 -999.2500 601.4539 -999.2500 -999.256O 19.9126 1.6452 136.9452 -999.2500 65'~.6003 -999.2500 -999.2500 20.8492 1.5312 121.3250 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 154.5730 -999.2500 -999.2500 0.3716 -999.2500-999.2500 -999.2500 173.8642 -999.2500 -999.2500 0.0929 -999.2500-999.2500 -999.2500 180.6978 -999.2500-999.2500 0.5574 24.6103 69.0474 DEPTH CAAM DPDM GRAM NPLM PDEM RPAM ATBM CACM DPEM NFBM NPSM RAAM RPCM ATCM CPAM DPLM NNBM PDBM RACM RPDE BDCM CPCM DPSM NPDM PDCM RADE TCDM BDEM DCCM DRHM NPEM PDDM ROPS WBCS 9850.0000 3O5.6920 -999.2500 190.6470 -999.2500 10.0167 3.1641 6.2291 3O5.9490 -999.2500 -999.2500 -999.2500 3.2713 3.1619 1.1379 316.0489 -999.2500 -999.2500 21.9688 3.2685 3.2774 -999.2500 316.2644 -999.2500 -999.2500 13.5980 3.O847 113.5625 -999.2500 127.8745 -999.25OO-999.25OO 0.2787 37.3685 28.1397 9875.O0OO 451.5919 -999.2500 116.8531 -999.2500 13.1496 3.0510 9900.~ 696.7627 -999.2500 112.5509 -999.2500 13.6500 0.9272 6.6487 451.9076 -999.2500 -999.2500 -999.2500 2.2144 3.0490 7.2541 696.9929 -999.2500 -999.2500 -999.2500 1.4352 0.9272 1.5579 327.7602 -999.2500 -999.2500 22.2813 2.2128 3.1579 2.1644 1078.5500 -999.2500 -999.2500 36.0625 1.4347 0.9463 -999.2500 327.9714 -999.2500 -999.2500 13.9037 2.1296 115.3906 -999.2500 1078.5361 -999.2500 -999.2500 27.6626 1.3804 116.2250 -999.2500 130.0999 -999.2500-999.2500 0.2787 98.3611 28.9054 -999.2500 230.6121 -999.2500-999.2500 0.1858 107.3904 27.4971 9925.0000 383.4083 -999.2500 124.5367 -999.2500 5.6663 3.2548 6.4570 383.7061 -999.2500 -999.25(X) -999.2500 2.6082 3.2525 1.3686 307.2395 -999.2500 -999.2500 21.7969 2.6062 3.3718 -999.2500 307.4583 -999.2500 -999.2500 13.3643 2.4921 117.3875 -999.2500 126.1730 -999.2500-999.2500 0.1858 107.0518 30.4908 9950.0000 626.5448 -999.2500 111.2002 -999.2500 6.9500 1.8670 7.0881 626.8142 -999.2500 -999.2500 -999.2500 1.5961 1.8665 2.0006 535.6139 -999.2500 -999.2500 27.0859 1.5954 1.9203 -999.2500 535.7557 -999.2500 -999.2500 18.6238 1.5441 118.9625 -999.2500 164.45,98 -999.2500-999.2500 0.1858 93.9002 26.3996 DEPTH CAAM DPDM GRAM NPLM PDEM RPAM 9975.0000 358.6884 -999.2500 95.99,33 -999.2500 5.7996 3.3007 10O00.~ 442.6993 -999.2500 110.6705 -999.250O 12.6167 2.3000 10O25.OOOO 394.9641 -999.2500 149.7838 -999.2500 14.5667 2.7101 10O50.000O 288.7058 -999.2500 178.9295 -999.2500 5.9500 3.2527 1OO75.O000 325.9262 -999.2500 170.3159 -999.2500 5.900O 2.9564 ATBM CACM DPEM NFBM NPSM RAAM RPCM 6.3842 358.9753 -999.2500 -999.2500 -999.2500 2.7879 3.2983 6.6207 443.0139 -999.250O -999.250O -999.2500 2.2589 2.2991 6.4884 395.2664 -999.250O -999.2500 -999.2500 2.5319 2.7O87 6.1721 288.9586 -999.2500 -999.2500 -999.250O 3.4637 3.2504 6.2870 326,1899 -999.2500 -999.2500 -999.2500 3.0682 2.9546 ATCM CPAM DPLM NNBM PDBM RACM RPDE 1.2971 302.9657 -999.2500 -999.2500 21.7344 2.7857 3.4198 1.5338 434.7909 -999.250O -999.250O 24.9844 2.2573 2.3723 1.4014 368.9904 -999.2500 -999.2500 23.4531 2.5299 2.8005 1.0850 307.4,384 -999.2500 -999.2500 21.9O63 3.4607 3.3693 1.1997 338.2518 -999.2500 -999.250O 22.7188 3.0657 3.0596 BDCM CPCM DPSM NPDM PDCM RADE TCDM -999.2500 303.1860 -999.250O -999.2500 13.2497 2.6565 120.4250 -999.250O 434.9617 -999.250O -999.2500 16.4780 2.1616 121.7750 -999.2500 369.1848 -999.250O -999.2500 14.9390 2.4156 122.8437 -999.2500 307.6571 -999.250O -999.2500 13.3696 3.2544 123.5750 -999.250O 338.4590 -999.2500 -999.2500 14.1730 2.9013 124.O813 BDEM DCCM DRHM NPEM PDDM ROPS WBCS -999.2500 125.3397 -9cJ9.2500-999.2500 0.1858 107.3904 22.5487 -999.2500 148.8288 -999.2500-999.2500 0.1858 95.9682 24.2665 -999.2500 137.6307 -999.2500-999.2500 0.3716 103.8078 22.9204 -999.2500 126.2117 -999.2500-999.2500 0.1858 101.7253 24.3494 -999.2500 132.0579 -999.2500-999.2500 0.1858 104.6317 25.7526 DEPTH CAAM DPDM GRAM NPLM PDEM RPAM ATBM CACM DPEM NFBM NPSM RAAM RPCM ATCM CPAM DPLM NNBM PDBM RACM RPDE BDCM CPCM DPSM NPDM PDCM BADE TCDM BDEM DCCM DRHM NPEM PDDM ROPS WBCS 101OO.O000 326.7689 -999.2500 256.3612 -999.2500 13.4833 2.8633 6.2911 327.0329 -999.250O -999.250O -999.2500 3.0603 2.8616 1.2022 349.2483 -999.25OO -999.2503 23.0391 3.0578 2.9609 -999.25OO 349.4514 -999.2500 -999.2500 14.4509 2.8906 125.0375 -999.2500 134.0809 -999.2500-999.2500 0.4645 82.4159 42.4688 10125.0000 457.7252 -999.2500 152.23.33 -999.2500 34.4.3.33 1.7775 10150.0000 452.3097 -999.2500 213.56&9 -999.2500 15.78,33 2.2323 6.6666 458.0414 -999.250O -999.250O -999.250O 2.1847 1.7770 6.6576 452.6255 -999.2500 -999.2,500 -999.2500 2.2109 2.2315 1.5744 562.6002 -999.2500 -999.2500 27.7917 2.1832 1.8268 1.5598 447.9703 -999.2500 -999.2500 25.4375 2.2093 2.3010 -999.2500 562.7422 -999.2500 -999.2500 19.1624 2.0828 131.2250 -999.2500 448.1367 -999.2500 -999.2500 16.7718 2.1151 133.7000 -999.2500 168.3881 -999.25OO-999.2500 0.6039 35.0880 49.9439 -999.2500 150.9679 -999.2500-999.2500 0.3716 43.7517 50.4,389 10175.0000 493.1454 -999.2500 143.7494 -999.2500 16.6667 1.9453 6.7712 493.4550 -999.2500 -999.2500 -999.2500 2.0278 1.9447 1.6682 514.0685 -999.2500 -999.2500 26.8687 2.0265 2.0015 -999.2500 514.2157 -999.2500 -999.2500 18.1838 1.9441 135.3875 -999.25O0 161.2519 -999.2500-999.2500 0.5574 39.3765 50.2318 10200.0000 475.9036 -999.2500 155.9281 -999.2500 15.&333 1.9304 6.7222 476.2203 -999.2500 -999.2500 -999.2500 2.1013 1.9299 1.6228 518.0166 -999.2500 -999.2500 26.9375 2.0999 1.9863 -999.2500 518.1627 -999.2500 -999.2500 18.2651 2.0112 132.2375 -999.2503 161.8440 -999.2500-999.2,500 0.3716 43.5965 49.7317 DEPTH ATI3M ATCM BDCM BDEM CAAM CACM CPAM CPCM DCCM DPDM DPEM DPLM DPSM DRHM GRAM NFBM NNBM NPDM NPEM NPLM NPSM PDBM PDCM PDDM PDEM RAAM RACM RADE ROPS RPAM RPCM RPDE TCDM WBCS 10225.(:XX30 6.6192 1.5130 435.0693 435.3826 426.3837 -999.2500 -999.2500 -999.2500 222.6908 -999.2500 -999.2500 -999.2500 -999.2500 24.9813 27.85O0 2.2985 2.2968 2.3453 2.3444 2.4195 -999.2500 426.5572 -999.2500 -999.2500 16.2881 2.1986 135.6125 -999.25OO 147.4474 -999.25OO-999.25OO 0.6503 27.4720 50.1189 10232.(ZX:X) 8.6747 -999.2500 -999.2500 -999.2500 458.6108 458.8838 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 , -999.2500 -999.2500 -999.2500 1.0219 -999.2500 2.2525 2.2510 -999.2500 16.6460 -999.2500 -999.2500 -999.2500 137.3563 50.4242 Tape File Start Depth = 9769.0(X:X:X~ Tape File End Depth = 10232.(X:)(X:X~ Tape File Level Spacing: 0.250000 Tape File Depth Units = Feet Tape Subtile 6 is type: US DEPTH ATBM ATCM BDCM BDEM CAAM CACM CPAM CPCM DCCM DPDM DPEM DPLM DPSM DRHM GRAM NFBM NNBM NPDM NPEM NPLM NPSM PDBM PDCM PDDM PDEM RAAM RACM RADE ROPS RPAM RPCM RPDE TCDM WBCS 10232.0000 8.6747 -999.2500 -999.2500 -999.2500 458.6108 458.8838 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 1.0219 -999.2500 2.2525 2.2510 -999.2500 16.6460 -999.2500 -999.2500 -999.2500 137.3563 50.4242 10232.2500 9.7072 -999.2500 472.4666 ' 472.7199 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 2.2185 2.2169 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 137.4125 -999.2500 -999.2500 -999.2500 -999.2500 0.4645 18.5528 50.4365 10250.00~ 5.6353 0.0271 2.1900 -999.2500 9.3014 9.3014 18.1175 18.1159 35.8074 35.6767 3.7413 30.4105 27.88(X) -0.0048 43.3121 42.4371 7091.5479 13.9875 -999.2500 18.5693 22.0410 8.2448 1.6871 0.1858 -999.2500 107.5102 107.5102 46.8279 56.3401 55.1951 55.20(~ 60.3652 -999.2500 0.4253 10275.0000 5.5849 -999.2500 2.5065 -999.2500 -999.2500 -999.2500 16.5957 16.5944 34.5766 18.5651 2.8164 11.8979 8.6942 -0.0985 28.9456 40.3042 7384.6455 16.0971 -999.2500 20.9669 24.5442 8.2031 1.6334 0.7432 -999.2500 -999.2500 -999.2500 -999.2500 69.0964 60.2567 60.2614 68.0527 120.9875 0.4253 10300.0000 5.6408 0.0321 2.3621 -999.2500 10.75,33 10.7533 44.9434 44.9356 52.3808 26.3728 3.2395 20.3449 17.4483 0.0,391 53.3422 34.0845 7135.2207 19.7303 -999.2500 25.0291 28.7561 10.1198 3.5500 0.2787 -999.2500 92.9950 92.9950 37.0955 40.2430 22.2502 22.2541 23.8832 120.6500 0.4253 DEPTH CAAM DPDM GRAM NPLM PDEM RPAM 10325.0(X~ 27.0245 11.5284 53.4412 23.4929 -999.2500 16.5570 10350.0(X~ 44.8660 15.5270 55.8488 21.6923 -999.2500 18.3908 1O375.000O -999.2500 25.1994 45.8696 21.3,995 -999.25OO 38.6351 10400.(XX~ -999.2500 29.0441 39.5763 22.2346 -999.2500 36.0708 10425.0000 27.5560 25.4697 55.4011 19.5311 -999.250O 17.1353 ATBM CACM DPEM NFBM NPSM RAAM RPCM 5.69,33 27.0245 3.7149 38.1047 27.1676 37.0034 16.5603 5.7791 44.8660 5.3621 38.66O7 25.2990 22.2886 18.3944 5.6005 -999.2500 2.7918 38,5931 24.9944 -999.2500 38.6399 5.5967 -999.2500 2.3205 37.9328 25.8624 -999.2500 36.0754 5.7068 27.5560 2.4762 41.9641 23.0466 36.2897 17.1387 ATCM CPAM DPLM NNBM PDBM RACM RPDE 0.0842 60.3975 4.2851 7607.4141 10.8477 37.0034 17.6646 0.1693 54.3749 8.6110 7268.1777 10.9883 22.2886 19.6654 -999.2500 25.8832 19.0754 7181.2715 9.0990 -999.2500 41.9561 -999.2500 27.7233 23.2349 7265.5713 9.0521 -999.2500 39.1082 0.0943 58.3590 19.3678 7286.2695 10.9792 36.2897 18.2968 BDCM CPCM DPSM NPDM PDCM RADE TCDM 2.6367 60.38,.53 0.8046 18.3476 4.2658 23.6595 120.6500 2.5628 54.3644 5.2878 16.7404 4.3861 17.2959 120.3125 2.3838 25.88OO 16.1327 16.4804 2.3,943 -999.2500 119.5250 2.3127' 27.7197 20.4434 17.2229 2.3639 -999.2500 116.9375 2.3788 58.3474 16.4357 14.8306 4.3034 23.5680 117.3875 BDEM DCCM DRHM NPEM PDDM ROPS WBCS -999.2500 59.6358 -0.236O -999.2500 0.3716 77.9172 0.4253 -999.2500 56.9324 -0.0140 -999.2~ 0.5110 50.6269 0.4253 -999.2500 41.4209 -0.0628-999.2500 0.3716 44.6599 0.4253 -999.25O0 42.6239 -0.0144-999.250O 0.4645 60.0346 0.4253 -999.2500 58.7364 0.0424 -999.2500 0.3716 59.0663 0.4253 DEPTH CAAM DPDM GRAM NPLM PDEM RPAM ATBM CACM DPEM NFBM NPSM RAAM RPCM ATCM CPAM DPLM NNBM PDBM RACM RPDE BDCM CPCM DPSM NPDM PDCM RADE TCDM BDEM DCCM DRHM NPEM PDDM ROPS WBCS 10450.0000 -999.25OO 26.6849 51.0365 18.0793 -999.2500 28.7212 5.5893 -999.2500 3.1072 44.5962 21.5278 -999.2500 28.7255 -999.25O0 34.8175 20.6825 7302.7939 9.7070 -999.2500 30.9866 2.3563 34.8123 17.7982 13.5595 3.0600 -999.25O0 117.7250 -999.2500 46.9289 0.O897 -999.2500 0.4645 51.5790 0.4253 10475.0000 12.1585 27.9815 42.6789 19.7589 -999.25O0 26.8498 10500.0000 2.8216 30.0006 38.3505 20.8725 -999.2500 30.7064 5.6418 12.1585 2.3917 41.9588 23.2845 82.2471 26.8538 5.6165 2.8216 2.1397 40.0729 24.4459 354.4046 30.7108 0.0308 37.2445 22.0852 7349.6992 9.6815 82.2471 28.9340 0.0070 32.5665 24.2697 7317.2275 9.3073 354.4046 33.1767 2.3323 37.2386 19.2520 15.0309 3.0267 37.0861 118.5125 2.2950 32.5618 21.5159 16.0135 2.7133 53.7957 118.9625 -999.2500 48.3003 0.0146 -999.2500 0.3716 47.5599 0.4253 -999.250045.6142 0.0227 -999.2500 0.3716 63.2836 0.4253 10525.0000 -999.2500 32.4427 24.6474 22.8360 -999.2500 66.5429 5.5657 -999.2500 2.4740 36.9088 26.4867 -999.2500 66.5475 -999.2500 15.0279 26.9117 7213.1406 8.0104 -999.2500 73.1136 2.2498 15.0269 24.2540 17.7596 1.4326 -999.2500 119.9750 -999.2500 33.2499 0.0325 -999.2500 0.3716 60.0658 0.4253 10550.0000 3.5149 35.6234 27.1621 23.9515 -999.2500 48.3841 5.6165 3.5149 2.0219 35.6878 27.6423 284.5037 46.3890 0.0086 21.5591 30.3528 7229.0127 8.4688 284.5037 50.5636 2.1910 21.5568 27.8202 18.7593 1.9191 60.8067 120.5375 -999.250038.4167 0.0464 -999.2500 0.3716 58.0492 0.4253 DEPTH CAAM DPDM GRAM NPLM PDEM RPAM A'I'BM CACM DPEM NFBM NPSM RAAM RPCM ATCM CPAM DPLM NNBM PDBM RACM RPDE BDCM CPCM DPSM NPDM PDCM RADE TCDM BDEM DCCM DRHM NPEM PDDM ROPS WBCS 10575.(:X)00 123.8959 13.1970 77.3692 13.1746 -999.2500 6.3836 6.1105 123.8980 3.7983 58.1738 16.3620 8.0713 6.3856 0.5038 156.6517 6.0903 7517.6875 15.1875 8.0712 6.6934 2.6059 156.6024' 2.6754 9.3353 8.6699 7.1471 121.2125 -999.2500 91.9,.393 0.0137 -999.2500 0.2787 53.6952 0.4253 lo600.~ 330.4072 18.3136 118.0946 28.8283 -999.25OO 2.5O92 6.8095 33O.3592 3.2OO7 29.8648 32.6621 3.0266 2.5104 1.2040 398.529O 11.6259 6838.668O 22.1094 3.0270 2.5934 2.5112 398.3486 8.4123 23.1955 15.6237 2.8545 122.2531 -999.2500 142.7093 0.0263 -999.2500 0.4181 59.O647 0.4253 1O625.O0OO 39O.1529 17.1811 129.0497 29.8442 -999.25OO 1.8845 10650.0000 311.2468 16.2894 123.3492 28.6501 -999.25OO 2.2789 6.9825 390.0550 3.2375 28.7202 33.7011 2.5631 1.8855 6.7325 311.2O75 3.1790 29.9203 32.4796 3.2129 2.2800 1.3782 530.6355 10.4006 6842.5527 24.9583 2.5637 1.9396 1.1460 438.8O73 9.4359 692O.2OO2 22.5734 3.2133 2.3516 2.5322 530.3677 7.1424 24.1330 18.5043 2.4285 123.1250 2.5486 438.6008 6.1426 23.0315 16.5471 3.0128 124.0250 -999.2500 163.6627 0.0455 -999.2500 0.3716 55.4865 0.4253 -999~2500 149.4242 0.0425 -999.2500 2.3226 54.6583 0.4253 1O675.13000 460.1773 16.6189 143.3520 26.3159 160.9000 1.8630 7.1489 460.0384 3.1247 32.0397 30.0827 2.1731 1.8640 1.5710 536.7625 9.7924 6955.2119 24.4687 2.1737 1.9176 2.5425 536.49O6 6.5121 20.8967 18.6285 2.0766 137.0750 248.0(XX) 164.5671 0.0402 284.0000 1.5794 9.0200 0.4241 DEPTH CAAM DPDM GRAM NPLM PDEM RPAM ATBM CACM DPEM NFBM NPSM RAAM RPCM ATCM CPAM DPLM NNBM PDBM RACM RPDE BDCM CPCM DPSM NPDM PDCM RADE TCDM BDEM DCCM DRHM NPEM PDDM ROPS WBCS 10700.00OO 485.7852 16.7140 140.2340 26.0013 128.8500 1.7817 7.2106 485.6351 3.0720 31.8911 29.7587 2.0585 1.7826 1.6388 561.2578 9.8953 6867.9639 24.8312 2.0592 1.8328 2.5408 56O.9707 6.6188 20.6109 19.1180 1.9700 142.9250 211.0000 168.1326 0.0076 243.0000 1.9510 13.8193 0.4250 10725.OO00 431.0146 12.1704 111.4630 24.1674 121.5833 1.8861 10750.0OO0 580.5419 13.7853 112.2585 25.5779 100.3167 1.3029 7.0599 430.8911 5.4971 33.9320 27.8656 2.3201 1.8870 7.4461 580.3651 4.7006 32.5253 29.3222 1.7225 1.3037 1.4920 530.2037 4.9797 6919.7148 24.1276 ~ 3208 1.9412 1.8789 767.5073 6.7268 6919.6582 28.4896 1.7231 1.3355 2.6248 529.9363 1.5244 18.9534 18.4955 2.2092 147.2000 2.5950' 767.0719 3.3350 20.2268 22.8697 1.6545 150.1250 185.(X:X:X3 163.5988 0.0950 211.0000 1.2077 14.6369 3.0418 132.0000 195.5036 -0.0547 145.0000 0.1394 19.1733 4.4944 10775.00O0 734.8584 18.4199 137.6837 31.8749 49.0000 1.1985 7.8075 734.5905 3.1430 27.8427 35.7710 1.3608 1.1992 2.2397 834.3997 11.7408 6954.3281 29.6042 1.3613 1.2268 · 2.5092 633.9103 8.5314 26.0210 23.9720 1.3173 150.5750 91 .OOO0 203.5657 0.OO49 109.00OO 0.7432 75.9.335 1.1617 10800.00OO 643.2771 -999.2500 -999.2500 -999.2500 64.93.33 1.1114 7.5984 643.0704 -999.2500 -999.2500 -999.2500 1.5545 1,1121 2.0296 899.7415 -999.2500 -999.2500 30.6562 1.5550 1.1372 -999.2500 899.2014 -999.2500 -999.2500 25.0057 1.4953 150.1250 -999.2500 211.1349 -999.2500-999.2500 1.0219 28.1701 1.0276 DEPTH ATBM ATCM BDCM BDEM CAAM CACM CPAM CPCM DCCM DPDM DPEM DPLM DPSM DRHM GRAM NFBM NNBM NPDM NPEM NPLM NPSM PDBM PDCM PDDM PDEM RAAM RACM RADE ROPS RPAM RPCM RPDE TCDM WBCS 10825.0000 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 19.0735 -999.2500 -999.2500 -999.2500 149.4500 0.4258 10828.~ -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999,2500 -999,2500 -999.2500 -999.2500 -999.2500 -999.2500 20.2508 -999.25(X) -999.2500 -999.2500 149.4500 0.5146 Tape File Start Depth = 10232.(XX)(XX) Tape File End Depth = 10828.~ Tape File Level Spacing = 0.2~ Tape File Depth Units = Feet Tape Subfile 7 is type: US DEPTH ATB1 ATCl BDCl CAA1 CAC1 CPA1 CPC1 DCCl DPD1 DPE1 DPL1 DPS1 DRH1 GRA1 NFB1 NNB1 NPL1 NPS1 PDB1 PDCl RAA1 RACl RAD1 RPA1 RPC1 RPD1 TCD1 10217.(ZX30 6.0992 0.6888 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 11.9687 10.0982 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 10217.2500 6.1099 0.6996 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.25(X) -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 12.0391 10.1684 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 10225.0000 6.0050 0.5949 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 186.7613 -999.2500 -999.2500 -999.2500 -999.2500 10.4375 8.5624 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 10250.0000 5.8688 0.4578 2.3234 8.0587 8.0587 18.1812 18.1796 39.0162 28.4624 3.2899 22.6056 19.7912 -0.0349 43.3578 35.1539 7044.6846 23.6406 27.3193 10.1771 8.3010 124.0901 124.0901 57.5850 55.0017 55.0066 59.5080 -999.2500 10275.(X)(X) 6.9070 1.4968 2.1751 -999.2500 -999.2500 15.1315 15.1305 36.1208 36.4784 1.9079 31.2779 28.7789 0.0082 37.0551 37.2883 7190.8164 22.4357 26.0713 18.5937 16.7190 -999.2500 -999.2500 -999.2500 66.0871 66.0917 -999.2500 135.4000 10300.0000 7.0925 1.6826 2.3477 12.7769 12.7769 34.8166 34.8113 51.2557 27.1507 3.0709 21.1865 18.3205 -0.1109 50.4752 38.8725 7047.5117 20.6766 24.2418 20.5104 18.6301 78.2665 78.2665 164.9470 28.7220 28.7263 36.9880 137.5089 DEPTH ATB1 ATC1 BDC1 CAA1 CAC1 CPA1 CPC1 DCC1 DPD1 DPE1 DPL1 DPS1 DRH1 GRA1 NFB1 NNB1 NPL1 NPSl PDB1 PDCl RAA1 RACl RAD1 RPA1 RPCl RPD1 TCD1 10325.0(XX) 5.7809 -999.2500 2.6247 50.6285 50.6285 78.0453 78.0275 71.9388 12.1774 5.4882 4.9873 1.5323 -0.0051 68.1042 33.3117 7190.0186 26.0801 29.8398 11.3125 -999.2500 19.7517 19.7517 14.1610 12.8131 12.8160 12.8720 137.8625 10350.~ 5.7508 -999.2500 2.6346 39.0047 39.0047 75.1251 75.1083 70.7959 11.6444 4.7537 4.4106 0.9346 0.0563 66.1696 41.6481 7529.4365 20.5997 24.1616 11.1562 -999.2500 25.6380 25.6380 16.9270 13.3111 13.3141 12.7350 138.6500 10375.0000 5.5541 -999. 2500 2.2477 -999.2500 -999.2500 15.9117 15.9106 36.8916 32.5565 2.1573 27.0348 24.3816 -0.(3089 42.0882 39.6001 7172.7568 20.6513 24.2153 7.4141 -999.2500 -999.2500 -999.2500 -999.2500 62.8466 62.8513 -999.2500 138.9875 10400.~ 5.6058 -999.2500 -999.2500 6.3228 28.8748 28.8709 47.3819 -999.2500 -999.2500 -999.2500 -999.2500 42.4244 7125.2080 18.7045 22.1822 -999.2500 158.1567 158.1567 117,9240 34.6369 37.8540 141.1700 6.3228 -999.2500 68.5466 8.3437 34.6323 10425.0(X~ 5.6,3,39 -999.2500 -999.2500 16.4863 16.4863 35.7984 35.7930 51.8576 -999.2500 -999.2500 -999.25(X) -999.2500 -999.2500 47.1222 -999.2500 -999.2500 -999.2500 -999.2500 8.8177 -999.2500 60.6799 60.6799 40.9420 27.9344 27.9387 31.3320 142.5875 10450.0000 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 38.8865 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 -999.2500 Tape File Start Depth = 10217.0000(X) Tape File End Depth = 10450.O(X)(XX) Tape File Level Spacing = 0.250(XX) Tape File Depth Units = Feet Tape Subtile 8 is type: LIS ARCO ALASKA INC P2 - 30 ~"~'~ POINT MCINTYRE I I RECEIVED DEC b 1 1992 Run 1: 03 - Nov. 1992 DIFLICN-ZDL/GR MACIGR ~700 10774 &?~&$ R E C E IV E D n,~s Cons. CommiJsio~ Anchorage Tape Subfile 2 is type: LIS TAPE HEADER POINT MCINTYRE UNIT OPEN HOLE WIRELINE LOGS WELL NAME: API NUMBER: OPERATOR: LOGGING COMPANY: TAPE CREATION DATE: JOB DATA JOB NUMBER: LOGGING ENGINEER: OPERATOR WITNESS: SURFACE LOCATION SECTION: TOWNSHIP: RANGE: FNL: FSL: FEL: FWL: ELEVATION(FT FROM MSL 0) KELLY BUSHING: DERRICK FLOOR: GROUND LEVEL: WELL CASING RECORD RUN1 5742.00 J. DAHL J. KNOCK OPEN HOLE 1ST STRING 2ND STRING 3RD STRING PRODUCTION STRING REMARKS: P2 - 30 500292228900 ARCO ALASKA INCORPORATED ATLAS WIRELINE SERVICES 16-NOV-92 RUN2 G. COOPER RUN3 14 12N 14E 191 1383 49.00 49.00 12.00 CASING DRILLERS BIT SIZE (IN) SIZE (IN) DEPTH (FT) 8.500 9.625 10242.0 DIFL/CN-ZDL/GR & MAC/GR CIRCULATION STOPPED: 06:00 03-NOV-92. SP & FOCUS CURVES NOT AVAILABLE DUE TO OIL BASE MUD. NEUTRON IS CALIPER CORRECTED IN OPEN HOLE & CASING CORRECTED IN CASING; CASING THICKNESS = 0 472" · CEMENT THICKNESS = 1 313" & CHISM FILTERING NOT ACTIVE. CN BEFORE LOG VERIFICATION PERFORMED IN CASING. MAC TOOL IS CONFIGURED IN THE CROSS DIPOLE MODE. $ FILE HEADER FILE NUMBER: 1 EDITED OPEN HOLE MAIN PASS Ail tool strings with depth shifted and clipped curves; (including cased hole). DEPTH INCREMENT: 0.5000 FILE SUMMARY LDWG TOOL CODE START DEPTH GR 6700.0 DIL 10236.0 2435 9830.0 SDN 10236.0 STOP DEPTH 10730.0 10774.0 10736.0 10753.0 all runs merged GR 9662.0 MAC 9679.0 $ BASELINE CURVE FOR SHIFTS: GR CURVE SHIFT DATA (MEASURED DEPTH) BASELINE DEPTH 6688.0 9767.5 9841.0 9842.0 9845.0 9847.5 9856.5 9864.5 9869.5 9870.5 9887.5 9898.5 9923.5 9934.0 9938.5 9962.5 9969.0 10000.5 10003.0 10016.0 10029.5 10039.0 10045.0 10053.5 10066.5 10068.5 10072.0 10074.0 10086.5 10098.5 10108.5 10129.0 10130.5 10141.0 10149.5 10157.0 10172.0 ILM 6688.0 10784.0 10813.0 EQUIVALENT UNSHIFTED DEPTH ILD NPHI RHOB 6688.0 6688.0 6688.0 9840.5 9844.5 9856.0 9871.0 9899.0 9923.5 9933.5 9938.5 9962.5 10000.0 10002.5 10016.0 10030.0 10045.0 10053.5 10068.0 10074.0 10086.5 10129.0 10131.0 10142.0 10150.0 10157.0 DTC 6688.0 9767.5 9841.0 9847.5 9865.0 9870.5 9887.0 9970.5 10039.5 10067.5 10074.0 10087.5 10100.0 10109.0 10172.5 10176.0 10180.0 10185.5 10189.5 10194.5 10197.5 10198.5 10206.5 10226.5 10237.5 10238.0 10238.5 10241.5 10243.0 10251.5 10252.0 10252.5 10255.5 10256.5 10269.5 10279.0 10279.5 10280.0 10293.5 10297.0 10306.5 10307.0 10317.5 10318.0 10319.0 10323.5 10325.0 10327.5 10329.5 10330.0 10330.5 10345.5 10346.0 10351.5 10357.5 10358.0 10362.5 10364.5 10365.0 10366.0 10368.5 10369.0 10373.5 10401.0 10433.0 10445.0 10446.0 10446.5 10474.0 10474.5 10475.5 10478.5 10479.0 10510.0 10510.5 10238.5 10252.0 10279.0 10294.0 10307.5 10318.5 10346.0 10365.0 10368.0 10372.5 10445.0 10475.0 10479.5 10239.0 10243.0 10252.0 10280.0 10307.5 10327.5 10345.5 10365.0 10368.5 10373.0 10432.5 10446.0 10478.5 10510.5 10176.5 10185.5 10189.0 10195.0 10199.0 10206.0 10226.5 10239.0 10252.5 10255.5 10269.5 10323.5 10329.0 10346.0 10358.5 10445.0 10475.0 10239.0 10252.0 10256.0 10279.5 10318.5 10325.5 10330.5 10351.5 10365.0 10446.0 10475.0 10511.0 10181.0 10199.0 10238.5 10297.0 10319.0 10330.5 10358.5 10363.0 10364.5 10400.5 10445.0 10513.0 10532.5 10542.5 10543.5 10547.0 10553.5 10559.0 10568.0 10569.0 10573.0 10579.5 10589.0 10612.5 10613.0 10621.0 10622.5 10649.5 10662.0 10665.0 10671.0 10672.5 10675.5 10686.0 10687.0 10689.5 10705.5 10706.5 10708.5 10713.0 10713.5 10718.0 10720.5 10727.0 10746.0 10820.0 $ BASELINE DEPTH 6688.0 9666.5 9688.0 9727.0 9766.5 9806.0 9826.5 9840.0 9845.5 9870.5 9886.0 9919.0 9938.5 9960.5 9967.0 9986.0 9999.0 10029.0 10044.0 10048.0 10052.5 10066.5 10085.5 10514.0 10543.0 10553.5 10573.0 10714.0 10820.0 GRMAC 6688.0 9667.0 9689.0 9728.0 9767.5 9807.0 9826.5 9840.5 9846.5 9871.5 9886.5 9920.0 9939.0 9961.0 9968.0 9987.0 10000.0 10030.0 10044.5 10049.0 10053.0 10067.5 10086.5 10533.0 10547.0 10568.0 10622.5 10713.5 10746.5 10820.0 10558.5 10579.0 10589.0 10612.0 10620.0 10649.5 10662.0 10671.5 10675.0 10686.5 10689.5 10706.5 10714.0 10820.0 10542.5 10612.5 10671.5 10686.5 10706.5 10709.0 10718.5 10728.0 10820.0 10543.0 10568.5 10664.5 10714.0 10720.5 10820.0 10100.0 10108.5 10126.0 10137.5 10143.0 10157.0 10172.0 10184.5 10198.5 10233.0 10238.0 10255.0 10265.5 10295.0 10319.0 10332.5 10346.0 10356.0 10434.0 10446.5 10474.0 10514.0 10553.0 10559.0 10572.5 10592.0 10664.0 10670.5 10720.0 10820.0 $ MERGED DATA SOURCE LDWG TOOL CODE GR DIL 2435 SDN 10100.5 10109.5 10126.5 10138.5 10144.0 10157.5 10173.0 10185.5 10199.0 10234.0 10238.5 10255.5 10265.5 10295.0 10319.0 10332.5 10346.5 10356.0 10434.0 10446.5 10474.5 10514.0 10553.5 10559.0 10572.5 10591.5 10664.0 10671.5 10720.5 10820.0 RUN NO. PASS NO. MERGE TOP MERGE BASE 1 4 6700.0 10730.0 1 4 10236.0 10774.0 1 4 9830.0 10736.0 1 4 10236.0 10753.0 GR MAC $ REMARKS: 1 3 9662.0 10784.0 1 3 9679.0 10813.0 MAIN PASS. TENS, TEND, & MTEM WERE SHIFTED WITH ILM. VILD SHIFTED WITH ILD. FUCT, NUCT, & CN WERE SHIFTED WITH NPHI. DRHO, PEF, & CALl WERE SHIFTED WITH RHOB. "GRMAC" REFERS TO GAMMA RAY RECORDED WITH MAC TOOL. CROSS DIPOLE MAC TOOL: DTSX, DTSY, SCRX, & SCRY WERE SHIFTED WITH DTC. DEV, AZ, AZX, & RBX WERE SHIFTED WITH THE GR FROM THE MAC TOOL. DTC ... COMPRESSIONAL CURVE DTSX ... SHEAR RECORDED IN "X" DIRECTION. DTSY ... SHEAR RECORDED IN "Y" DIRECTION. SCRX ... SHEAR/COMPRESSIONAL RATIO FROM "X" DIRECTION. SCRY ... SHEAR/COMPRESSIONAL RATIO FROM "Y" DIRECTION. THE FOLLOWING CURVES WERE RECORDED USING ORIENTATION SYSTEM INCLUDED WITH CROSS DIPOLE MAC TOOL: DEV ... BOREHOLE DEVIATION. CN WN FN COUN STAT AZ AZX RBX $ ... DRIFT AZIMUTH (CORRECTED FOR MAG. DEC.). · .. AZIMUTH OF "X" RECEIVER DIRECTION (CORRECTED FOR MAGNETIC DECLINATION). · .. RELATIVE BEARING OF "X" RECEIVER DIRECTION. : ARCO ALASKA INCORPORATED : P2 - 30 : POINT MCINTYRE : NORTH SLOPE : ALASKA * FORMAT RECORD (TYPE# 64) ONE DEPTH PER FRAME Tape depth ID: F 25 Curves: Name Tool Code Samples Units API API API API Log Crv Crv Size Length Typ Typ Cls Mod 1 GR 2435 68 1 GAPI 4 2 NPHI 2435 68 1 PU-S 4 3 CN 2435 68 1 PU-L 4 4 FUCT 2435, 68 1 CPS 4 5 NUCT 2435 68 1 CPS 4 6 TEND 2435 68 1 LB 4 7 TENS 2435 68 1 LB 4 8 RHOB SDN 68 1 G/C3 4 9 DRHO SDN 68 1 G/C3 4 10 PEF SDN 68 1 BN/E 4 11 CALl SDN 68 1 IN 4 12 ILM DIL 68 1 OHMM 4 13 ILD DIL 68 1 OHMM 4 14 VILD DIL 68 1 MV 4 15 MTEM DIL 68 1 DEGF 4 16 GR MAC 68 1 GAPI 4 17 DTC MAC 68 1 US/F 4 18 DTSX MAC 68 1 US/F 4 19 DTSY MAC 68 1 US/F 4 20 SCRX MAC 68 1 4 21 SCRY MAC 68 1 4 22 DEV MAC 68 1 DEG 4 23 AZ MAC 68 1 DEG 4 24 AZX MAC 68 1 DEG 4 25 RBX MAC 68 1 DEG 4 4 08 501 10 0 4 98 211 23 1 4 88 101 47 5 4 98 211 23 1 4 98 211 23 1 4 98 211 23 1 4 98 211 23 1 4 22 779 91 0 4 22 779 91 0 4 22 779 91 0 4 22 779 91 0 4 50 746 76 1 4 50 746 76 1 4 50 746 76 1 4 50 746 76 1 4 41 695 68 1 4 41 695 68 1 4 41 695 68 1 4 41 695 68 1 4 41 695 68 1 4 41 695 68 1 4 41 695 68 1 4 41 695 68 1 4 41 695 68 1 4 41 695 68 1 100 * DATA RECORD (TYPE# 0) 942 BYTES * Total Data Records: 919 Tape File Start Depth = 10820.000000 Tape File End Depth = 6688.000000 Tape File Level Spacing = 0.500000 Tape File Depth Units = Feet ~*** FILE TRAILER **** LIS representation code decoding summary: Rep Code: 68 214891 datums Tape Subfile: 2 1215 records... Minimum record length: 62 bytes Maximum record length: 942 bytes Tape Subfile 3 is type: LIS FILE HEADER FILE NUMBER: 2 RAW OPEN HOLE MAIN PASS Composite of all curves and log header data from all tool strings for a single run; Run #1 presented first followed by separate files for any other subsequent runs. RUN NUMBER: 1 TOOL STRING NUMBER: 1 PASS NUMBER: 4 DEPTH INCREMENT: 0.2500 FILE SUMMARY VENDOR TOOL CODE START DEPTH GR 6700.0 DIFL 10232.0 2435 9830.0 ZDL 10236.0 STOP DEPTH 10730.0 10784.0 10736.5 10754.0 GR MAC $ LOG HEADER DATA DATE LOGGED: SOFTWARE VERSION: TIME CIRCULATION ENDED: TIME LOGGER ON BOTTOM: TD DRILLER (FT): TD LOGGER (FT): TOP LOG INTERVAL (FT): BOTTOM LOG INTERVAL (FT): LOGGING SPEED (FPHR): TOOL STRING (TOP TO BOTTOM) VENDOR TOOL CODE TOOL TYPE CHT MODL GR CN PCM ZDL CAL KNJT KNJT TEMP PCM DIFL 9662.0 10784.0 9645.0 10813.0 CABLEHEAD TENSION MODAL SUB GAMMA RAY COMPENSATED NEUTRON PULSE CODE MODULATOR Z-DENSITY 1-ARM CALIPER KNUCKLE JOINT KNUCKLE JOINT TEMPERATURE PULSE CODE MODULATOR DUAL INDUCTION 03-NOV-92 FSYS REV. J001 VER. 1.1 600 03-NOV-92 1603 03-NOV-92 10826.0 10822.0 6700.0 10774.0 1800.0 TOOL NUMBER 3974XA 3517XA 1309XA 2435XA 3508XA 2222EA 2222MA 3921NA 3921NA 2806XA 3506XA 1503XA CHT COMR GR ACC MAC $ CABLEHEAD TENSION COMMON REMOTE GAMMA RAY ACOUSTIC COMMON MULTIPOLE ACOUSTILOG BOREHOLE AND CASING DATA OPEN HOLE BIT SIZE(IN): 3974XA 3510XA 1329XA 1667EA 1668XA 8.500 DRILLER'S CASING DEPTH (FT): LOGGER'S CASING DEPTH (FT): BOREHOLE CONDITIONS MUD TYPE: MUD DENSITY (LB/G): MUD VISCOSITY (S): MUD PH: FLUID LOSS (C3): MAXIMUM RECORDED TEMPERATURE (DEGF): RESISTIVITY (OHMM) AT TEMPERATURE (DEGF) MUD AT MEASURED TEMPERATURE (MT): MUD AT BOTTOM HOLE TEMPERATURE (BHT): MUD FILTRATE AT MT: MUD FILTRATE AT BHT: MUD CAKE AT MT: MUD CAKE AT BHT: NEUTRON TOOL TOOL TYPE (EPITHERMAL OR THERMAL): MATRIX: MATRIX DENSITY: HOLE CORRECTION (IN): TOOL STANDOFF (IN): REMARKS: MAIN PASS $ CN WN FN COUN STAT : ARCO ALASKA INCORPORATED : P2 - 30 : POINT MCINTYRE : NORTH SLOPE : ALASKA 10242.0 10236.0 VERSACORE / LVT 200 10.20 0.0 0.0 0.0 160.5 0.000 0.0 0.000 0.0 0.000 0.0 0.000 0.0 0.000 0.0 0.000 0.0 THERMAL SANDSTONE 2.65 12.250 1.5 FORMAT RECORD (TYPE# 64) ONE DEPTH PER FRAME Tape depth ID: F 28 Curves: Name Tool Code Samples Units API API API API Log Crv Crv Size Length Typ Typ Cls Mod 1 2 3 4 5 6 7 8 9 10 11 12 13 GR 2435 68 1 GAPI CNC 2435 68 1 PU-S CN 2435 68 1 PU-L LSN 2435 68 1 CPS SSN 2435 68 1 CPS CHT 2435 68 1 LB TTEN 2435 68 1 LB SPD 2435 68 1 F/MN ZDEN ZDL 68 1 G/C3 ZCOR ZDL 68 1 G/C3 PE ZDL 68 1 BN/E CAL ZDL 68 1 IN SHR ZDL 68 1 4 08 501 10 0 4 98 211 23 1 4 52 326 75 5 4 84 023 70 1 4 83 368 34 1 4 19 912 29 5 4 19 912 29 5 4 54 376 29 5 4 52 443 33 1 4 09 884 61 1 4 76 731 33 1 4 24 115 90 6 4 76 731 33 1 14 RILM DIFL 68 1 15 RILD DIFL 68 1 16 VILD DIFL 68 1 17 CILD DIFL 68 1 18 TEMP DIFL 68 1 19 GR MAC 68 1 20 DTC MAC 68 1 21 DTSX MAC 68 1 22 DTSY MAC 68 1 23 SCRX MAC 68 1 24 SCRY MAC 68 1 25 DEV MAC 68 1 26 AZ MAC 68 1 27 AZX MAC 68 1 28 RBX MAC 68 1 * DATA RECORD (TYPE# 0) Total Data Records: 2067 OHMM 4 OHMM 4 MR; 4 MMHO 4 DEGF 4 GAPI 4 US/F 4 US/F 4 US/F 4 4 4 DEG 4 DEG 4 DEG 4 DEG 4 934 BYTES * 112 4 06 213 78 4 04 903 06 4 04 522 10 4 34 704 23 4 40 467 34 4 41 695 68 4 41 695 68 4 41 695 68 4 41 695 68 4 41 695 68 4 41 695 68 4 41 695 68 4 41 695 68 4 77 831 86 4 41 695 68 Tape File Start Depth = 10820.000000 Tape File End Depth = 6688.000000 Tape File Level Spacing = 0.250000 Tape File Depth Units = Feet **** FILE TRAILER **** LIS representation code decoding summary: Rep Code: 68 479342 datums Tape Subfile: 3 2158 records... Minimum record length: Maximum record length: 62 bytes 934 bytes Tape Subfile 4 is type: LIS FILE HEADER FILE NUMBER: 3 RAW OPEN HOLE REPEAT PASSES Composite of all curves and log header data from all tool strings for a single run; Multiple repeat passes for individual tool strings, if they exist, follow in a separate file. Run #1 presented first followed by separate files for any other subsequent runs. RUN NUMBER: 1 TOOL STRING NUMBER: 1 PASS NUMBER: 3 DEPTH INCREMENT: 0.2500 FILE SUMMARY VENDOR TOOL CODE START DEPTH STOP DEPTH GR 10233.0 10725.0 DIFL 10234.0 10769.0 2435 10234.0 10731.5 ZDL 10233.0 10748.0 $ LOG HEADER DATA DATE LOGGED: SOFTWARE VERSION: TIME CIRCULATION ENDED: TIME LOGGER ON BOTTOM: TD DRILLER (FT): TD LOGGER (FT): TOP LOG INTERVAL (FT): BOTTOM LOG INTERVAL (FT): LOGGING SPEED (FPHR): TOOL STRING (TOP TO BOTTOM) VENDOR TOOL CODE TOOL TYPE CHT MODL GR CN PCM ZDL CAL KNJT KNJT TEMP PCM DIFL $ CABLEHEAD TENSION MODAL SUB GAMMA RAY COMPENSATED NEUTRON PULSE CODE MODULATOR Z-DENSITY i-ARM CALIPER KNUCKLE JOINT KNUCKLE JOINT TEMPERATURE PULSE CODE MODULATOR DUAL INDUCTION BOREHOLE AND CASING DATA OPEN HOLE BIT SIZE(IN): DRILLER'S CASING DEPTH (FT): LOGGER'S CASING DEPTH (FT): BOREHOLE CONDITIONS MUD TYPE: MUD DENSITY (LB/G): MUD VISCOSITY (S) : MUD PH: 03-NOV-92 FSYS REV. J001 VER. 1.1 600 03-NOV-92 1509 03-NOV-92 10826.0 10822.0 6700.0 10774.0 1800.0 TOOL NUMBER 3974XA 3517XA 1309XA 2435XA 3508XA 2222EA 2222MA 3921NA 3921NA 2806XA 3506XA 1503XA 8.500 10242.0 10236.0 VERSACORE / LVT 200 10.20 0.0 0.0 FLUID LOSS (C3): MAXIMUM RECORDED TEMPERATURE (DEGF): RESISTIVITY (OHMM) AT TEMPERATURE (DEGF) MUD AT MEASURED TEMPERATURE (MT): MUD AT BOTTOM HOLE TEMPERATURE (BHT): MUD FILTRATE AT MT: MUD FILTRATE AT BHT: MUD CAKE AT MT: MUD CAKE AT BHT: NEUTRON TOOL TOOL TYPE (EPITHERMAL OR THERMAL): MATRIX: MATRIX DENSITY: HOLE CORRECTION (IN): TOOL STANDOFF (IN) : REMARKS: REPEAT PASS. $ CN WN FN COUN STAT : ARCO ALASKA INCORPORATED : P2 - 30 : POINT MCINTYRE : NORTH SLOPE : ALASKA 0.0 160.5 0.000 0.000 0.000 0.000 0.000 0.000 THERMAL SANDSTONE 2.65 12.250 1.5 0.0 0.0 0.0 0.0 0.0 0.0 FORMAT RECORD (TYPE# 64) ONE DEPTH PER FRAME Tape depth ID: F 18 Curves: Name Tool Code Samples Units API API API API Log Crv Crv Size Length Typ Typ Cls Mod 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 GR 2435 68 1 GAPI CNC 2435 68 1 PU-S CN 2435 68 1 PU-L LSN 2435 68 1 CPS SSN 2435 68 1 CPS CHT 2435 68 1 LB TTEN 2435 68 1 LB SPD 2435 68 1 F/MN ZDEN ZDL 68 1 G/C3 ZCOR ZDL 68 1 G/C3 PE ZDL 68 1 BN/E CAL ZDL 68 1 IN SHR ZDL 68 1 RILM DIFL 68 1 OHMM RILD DIFL 68 1 OHMM VILD DIFL 68 1 MV CILD DIFL 68 1 MMHO TEMP DIFL 68 1 DEGF 4 08 501 10 0 4 98 211 23 1 4 52 326 75 5 4 84 023 70 1 4 83 368 34 1 4 19 912 29 5 4 19 912 29 5 4 54 376 29 5 4 52 443 33 1 4 09 884 61 1 4 76 731 33 1 4 24 115 90 6 4 76 731 33 1 4 06 213 78 0 4 04 903 06 0 4 04 522 10 6 4 34 704 23 6 4 40 467 34 0 72 DATA RECORD (TYPE# 0 ) Total Data Records: 180 994 BYTES * Tape File Start Depth = 10795.000000 Tape File End Depth = 10211.000000 Tape File Level Spacing = 0.250000 Tape File Depth Units = Feet **** FILE TRAILER **** LIS representation code decoding summary: Rep Code: 68 259295 datums Tape Subfile: 4 262 records... Minimum record length: 62 bytes Maximum record length: 994 bytes Tape Subfile 5 is type: LIS 01 **** REEL TRAILER **** 92/11/15 01 Tape Subfile: 5 2 records... Minimum record length: 132 bytes Maximum record length: 132 bytes End of execution: Sun 15 NOV 92 1:45p Elapsed execution time = 2 minutes, 32.0 seconds. SYSTEM RETURN CODE = 0 'rape Subfile 1 is type: LIS **** REEL HEADER **** X-MAC 92/11/16 AWS 01 **** TAPE HEADER **** X-MAC 92/11/16 LISTAPE 01 Tape Subfile: 1 2 records... Minimum record length: 132 bytes Maximum record length: 132 bytes Tape Subfile 2 is type: LIS **** FILE HEADER **** X-MAC .001 4096 CN WN FN COUN STAT : ARCO ALASKA INC. : P2-30 : POINT MCINTYRE : NORTH SLOPE : ALASKA LIS COMMENT RECORD (s): MONOPOLE WAVEFORMS - 8 XMTR-RCVR PAIRS FOLLOWING IS A DEFINTION OF CURVES WAV0 = TlR1 WAVEFORMS ; WAVl = TlR2 WAVEFORMS WAV2 = TlR3 WAVEFORMS ; WAV3 = TlR4 WAVEFORMS WAV4 = TlR5 WAVEFORMS ; WAV5 = TlR6 WAVEFORMS WAV6 = TlR7 WAVEFORMS ; WAV7 = TlR8 WAVEFORMS TIME = START TIME FOR EACH XMTR-RCVR PAIR GAIN = GAIN CODE FOR EACH XMTR-RCVR PAIR GR = MAC GAMMA RAY RECEIVED Alask~ Oil & ~g ~ons, Commis~lo~ FORMAT RECORD (TYPE# 64) ONE DEPTH PER FRAME Tape depth ID: F 12 Curves: Name Tool Code Samples Units 1 DEPL LIS 2 WAV0 LIS 3 WAV1 LIS 4 WAV2 LIS 5 WAV3 LIS 6 WAV4 LIS 7 WAV5 LIS 8 WAV6 LIS 9 WAV7 LIS 10 TIME LIS 11 GAIN LIS 12 GR LIS 68 1 F 79 1 AMP 79 1 AMP 79 1 AMP 79 1 AMP 79 1 AMP 79 1 AMP 79 1 AMP 79 1 AMP 79 1 USEC 79 1 EXP 68 1 GAPI *W denotes waveform curve API API API API Log Crv Crv Size Length Typ Typ Cls Mod 4 4 99 995 99 2 500 62 995 99 2 500 62 995 99 2 500 62 995 99 2 500 62 995 99 2 500 62 995 99 2 500 62 995 99 2 500 62 995 99 2 500 62 995 99 2 16 62 995 99 2 16 62 995 99 4 4 62 995 99 1 1 *W 1 *W 1 *W 1 *W 1 *W 1 *W 1 *W 1 *W 1 *W 1 *W 1 4040 RECEIVED D~£ ~'~ t '1992 * DATA RECORD (TYPE# 0) 4050 BYTES * Total Data Records: 2382 Tape File Start Depth = 9639.500000 Tape File End Depth = 10830.000000 Tape File Level Spacing = 0.500000 Tape File Depth Units = Feet **** FILE TRAILER **** LIS representation code decoding summary: Rep Code: 68 Rep Code: 79 Tape Subfile: 2 Minimum record length: Maximum record length: 7147 datums 23820 datums 2387 records... 62 bytes 4050 bytes Tape Subfile 3 is type: LIS · ~*** FILE HEADER **** X-MAC .002 3072 CN WN FN COUN STAT : ARCO ALASKA INC. : P2-30 : POINT MCINTYRE : NORTH SLOPE : ALASKA LIS COMMENT RECORD(s) : X DIRECTION DIPOLE WAVEFORMS - 4 XMTR-RCVR PAIRS FOLLOWING IS A DEFINTION OF CURVES WAV0 = TlR1 WAVEFORMS ; WAVl = TlR2 WAVEFORMS WAV2 = TlR3 WAVEFORMS ; WAV3 = TlR4 WAVEFORMS TIME = START TIME FOR EACH XMTR-RCVR PAIR GAIN = GAIN CODE FOR EACH XMTR-RCVR PAIR GR = MAC GAMMA RAY * FORMAT RECORD (TYPE# 64) ONE DEPTH PER FRAME Tape depth ID: F 8 Curves: Name Tool Code Samples Units 1 DEPL LIS 2 WAV0 LIS 3 WAVl LIS 4 WAV2 LIS 5 WAV3 LIS 6 TIME LIS 7 GAIN LIS 8 GR LIS 68 1 F 79 1 AMP 79 1 AMP 79 1 AMP 79 1 AMP 79 1 USEC 79 1 EXP 68 1 GAPI *W denotes waveform curve API API API API Log Crv Crv Size Length Typ Typ Cls Mod 4 99 995 99 1 720 62 995 99 1 *W 720 62 995 99 1 *W 720 62 995 99 1 *W 720 62 995 99 1 *W 8 62 995 99 1 *W 8 62 995 99 1 *W 4 62 995 99 1 2904 * DATA RECORD (TYPE# 0) 2914 BYTES * Total Data Records: 2382 Tape File Start Depth = 9639.500000 Tape File End Depth = 10830.000000 Tape File Level Spacing = 0.500000 Tape File Depth Units = Feet **** FILE TRAILER **** LIS representation code decoding summary: Rep Code: 68 Rep Code: 79 Tape Subfile: 3 Minimum record length: Maximum record length: 7147 datums 14292 datums 2387 records... 62 bytes 2914 bytes Tape Subfile 4 is type: LIS **** FILE HEADER **** X-MAC .003 3072 CN WN FN COUN STAT : ARCO ALASKA INC. : P2-30 : POINT MCINTYRE : NORTH SLOPE : ALASKA LIS COMMENT RECORD (s) : Y DIRECTION DIPOLE WAVEFORMS - 4 XMTR-RCVR PAIRS FOLLOWING IS A DEFINTION OF CURVES WAV0 = TlR1 WAVEFORMS ; WAV1 = TlR2 WAVEFORMS WAV2 = TlR3 WAVEFORMS ; WAV3 = TlR4 WAVEFORMS TIME = START TIME FOR EACH XMTR-RCVR PAIR GAIN = GAIN CODE FOR EACH XMTR-RCVR PAIR GR = MAC GAMMA RAY * FORMAT RECORD (TYPE# 64) ONE DEPTH PER FRAME Tape depth ID: F 8 Curves: Name Tool Code Samples Units 1 DEPL LIS 2 WAV0 LIS 3 WAV1 LIS 4 WAV2 LIS 5 WAV3 LIS 6 TIME LIS 7 GAIN LIS 8 GR LIS 68 1 F 79 1 AMP 79 1 AMP 79 1 AMP 79 1 AMP 79 1 USEC 79 1 EXP 68 1 GAPI *W denotes waveform curve API API API API Log Crv Crv Size Length Typ Typ Cls Mod 4 99 995 99 1 720 62 995 99 1 *W 720 62 995 99 1 *W 720 62 995 99 1 *W 720 62 995 99 1 *W 8 62 995 99 1 *W 8 62 995 99 1 *W 4 62 995 99 1 2904 * DATA RECORD (TYPE# 0) Total Data Records: 2382 2914 BYTES * Tape File Start Depth = 9639.500000 Tape File End Depth = 10830.000000 Tape File Level Spacing = 0.500000 Tape File Depth Units = Feet **** FILE TRAILER **** LIS representation code decoding summary: Rep Code: 68 Rep Code: 79 14294 datums 38112 datums Tape Subfile: 4 2387 records... Minimum record length: Maximum record length: 62 bytes 2914 bytes Tape Subfile 5 is type: LIS **** TAPE TRAILER **** X-MAC 92/11/16 LISTAPE 01 END OF THE TAPE **** REEL TRAILER **** X-MAC 92/11/16 AWS 01 END OF THIS REEL Tape Subfile: 5 2 records... Minimum record length: 132 bytes Maximum record length: 132 bytes End of execution: Mon 16 NOV 92 9:19a Elapsed execution time = 1 minute , 39.2 seconds. SYSTEM RETURN CODE = 0