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Home My WebLink About189-014THE MATERIAL UNDER THIS COVER HAS BEEN MICROFILMED ON OR BEFORE OCTOBER 24, 2000 P L C:LORBMFILM.DOC E E E W T E R IA L U N D ER I HIS MARKER ARCO ALASKA, INC. DEV. & EXT GEOSCIENCE TRANSMITTAL TO: LARRY GRANT - AOGCC ADDRESS: 30.O..1.PORCUPI.NE DR. ANCHORAGE, A? 9950,1 FROM: DATE: LUCILLE JOHNSTON MAY 23~ 1991 Transmitted herewith are the following: ONE- COPY ARCO: WEST STORKERSEN #1 APRIL 28, 1989 CORE ANALYSIS REPORT CL FILE NO. BP-3-1339 RECEIVED MAY 2 4 t99~ · .,~ ~ ,~ '~iraska Off .&, Gas Cons. Commiss!0.I! ACKNOWLEDGMENT z ~ ~ ~ · ~, - 'RETURN RECEI~:. ARCO A~~ INC. ' -- DEV & EXT GEOSCIENCE ATTN: LUCILLE JOHNSTON P.O. BOX 1OO~60 ANCHO~GE, ALAS~ ~951~ Processed By: L. Johnston . , ARCO Alaska, Inc. Post Oilice-~:~100360 Anchorage. ka 99510-0360 Telephone 90/ 276 1215 SAMPLE TRANSMITTAL TO: state of Alaska Oil & Gas Conservation Comm. 3001 Porcupine Dr. Anchorage, Ak. 99501 Attn: John Boyle DATE: August 29, 1989 AIRBILL #: n/a AFT#: n/a CHARGE CODE# OPERATOR: Arco NAME: West Storkerson #1 and Point Mclntyre #5 SAMPLE TYPE: core chips & dry ditch NUMBER OF BOXES: 38 boxes SAMPLES SENT: _._We'st Sto~:'ke~'son #1~ .... West Storkerson #1 core chips --dry ditch 8519-8.568 8577-8698 140-9140' (30' interval) 8894-8953 (1' interval) SENT BY: TERESA GORUP UPON RECEIPT OF THESE SAMPLES, PLEASE NOTE ANY DISCREPANCIES AND MAIL A SIGNED COPY OF THIS FORM TO' ARCO ALASKA, INC. P. O. BOX 100360 ANCHORAGE, AK. 99510 ATTN: ABV-100 RECEIVED BY' DATE' ARCO Alaska, Inc. Is a Subsidiary ol AtlanticRlchlieldCompany AR3B,6003-C ARCO ALASKA, INC. DEV. & EXT GEO$ClENCE TRANSH I TTAL JOHN BOYLE - AOGC Al)DRESS: 3OOl PORCUP I NE DR. -- ~,N£HORAGF: AK qciso1 .. Ii'ROM:~_CRAIG..MOSELEY - AA! DATE: Transmitted herewlth are the followtr~: ONE COPY EACH ARCO: WEST STORKERSEN #1 MAR 17, 1989 ANADRILL SURVEY PROGRAM MD 2810,TVD 2810 PT MC INTYRE #3-DPN '. 2-24/3-4-89 WELL REPORT/MWD SURVEY 9522-11000 MD RECEIPT ACKNOWLEDGMENT: DATE: Return receipt to: ARCO Alaska, Inc. DEV & EXT GEOSCIE#CE ATTN: Lucille Johnston P. O. Box 100360 Anchorage, Alaska 99510 A~o~ 879E Processed By: · (:;I,.[,C.; AI..A,.:I',A, IF'.r.' 'l' F~'. A N S i'II 'T"T' ~ L " ,~...)SELS'¥'- A. C F: A ]: [., ~ r .. A I ~AY 1~ ~ ,,..,;.' 'I'RANSM!T'T'E!) HF. iREiWII'H ARE: I'HE F'OI..I..OW]iN£;' SEPIAS ,t..: E:L.L/t=:I..INE:S ARCO' °~-' eT ST~'~ ~:' v r'' ~' e'=''''' - w, ...... u,.,,srr-,,;,_:','~d..F'J., 't 0S-2t -8S: 'OS '- 2 ~; '" !i!~ 9 C: 0 H P u'r E I) S T R. R T A COHF'LJ'T'E'!) RECEIPT ACK NOWI..E:DC;HENI' · ______ DATE'_ ................. RETURN RECEIF'T 1'0' ARCO ALASKA, !NC. :,E,,E,..O,'MEN1 GEOSCIENCE ATI'N: L. UCILLE JOHNSTON P,, O. BOX t'00360 ANCHORAGE, ALASKA 995~ ANO-879E ARCO AL.A~'I<A, Ii',!:'). DEVE;L[)F:'i"~EN'T GEG£:CIENCE TRANS'MI I'TAI.. ,JOHN D. RE,.:.,;. ~C.,,.,.,.. ...,~. ~t F'ORCLJF'INE: ANCHORAC~.E~ AK 995(.)1 I'RAN,S'MI'T'TED HEREW!I"FI ARE: 1'HE F'OL.L. OWING' t BL. LJE:L.:I'NIE & I ,S'F':PIA ARCO ' ~ . ursi: EF.:,~;EN NO., t 03-05/3-2t-89 MUD~,.. OG I 1 0-9t 46 ,:.'"'" RECEIPT ACKNOWLED[MENT' . ..................................................... DATE: .......................... RE:TURN RECEIPT TO: ARCO ALASKA, INC. DEVELOPMENT GEO$CIENCE ATTN: I..LJCII..LE'JOHN~I'ON F'~ O. BOX teO360 ANCHORAGE, ALASKA 99510 ANO-8'79E ,., F'ROCE,S,~E.][. BY I..LJCII..LE ,JOHNS'TON r :~ STATE OF ALASKA -~' ALASKA UIL AND GAS CONSERVATION CC,,,MISSION WELL COMPLETION OR RECOMPLETIOI REPORT AND LOG 1. Status of Well Classification of Service W-II OIL ~ GAS ~ SUSPENDED ~1 ABANDONED ~'] SERVICE [] ..... 2. Name of Operator 7. Permit Number ARCO Alaska, Inc. 89-14 3. Address 8. APl Number P. 0. Box 100360, Anchorage, AK 99510-0360 50- 029-21913 · 4. Location of well at surface 9. Unit or Lease Name 857' FSL, 1770' FWL, Sec.15, T12N, R13E, UM ~LOCA-i-!Or~Si .. Gwydyr Bay Unit l' f.~/~3 ~ "' At Top Producing Interval l VEF, IFIF~D i 10. Well Number N/A Sur .. West Storkersen No, 1 At Total Depth m.H.~/~i 11. Field and Pool 1569' FSL, 943' FWL, Sec.15, T12N, R13E, UM " - -~'~ Wildcat 5. Elevation in feet (indicate KB, DF, etc.) I 6. Lease Designation and Serial.No. RKB 52'I ADL 363450 12. Date Spudded 13. DateT.D. Reached 14. Date Comp.,Susp. or Aband. 15. Water Depth, if offshore 116. No. of Completions 03/05/89 03/21/89 03/25/89 N/A feet MSLI N/A 17. Total Depth (MD+TVD)9146 'MD/8977 'TVD18.Plug Back Depth (MD+'IA/DSurface YES19' Directional Survey[] MWD NO [] I 20. Depth where SSSV setN/A feet MD ] 21. Thickness of PermafrostN/A 22.':l-ype Electric or Other Logs Run - D I L/BHC-AL/GR, D I L/SFL/GR/SP/BHC-AL~ ZDL/CNL/Spectral og/Temp log, Di pl o.q, VSP, MWD 23. CASING, LINER AND CEMENTING RECORD SETTING DEPTH MD CASING SIZE WT. PER FT. GRADE TOP BOTTOM HOLE SIZE CEMENTING RECORD AMOUNT PULLED 20" 91.5# H-40 Surf 110' 30" 40 .~x C. nld~t~ 13-3/8" 68.0# L-80/K-55 Surf 2789' 17-1/2" 1250 sx PF E & F;O0 .~x ~F C Tn.n_ jc~b w/l?7 24. Perforations open to Production (MD+TVD of Top and Bottom and 25. TUBING RECORD interval, size and number) SIZE DEPTH SET (MD) PACKER SET (MD) None N/A · .. ,. 26. ACID, FRAcTuRE, CEMENT SQUEEZE, ETC. DEPTH INTERVAL (MD) AMOUNT& KIND OF MATERIAL USED - Plug @ 8360' 400 sx Class G " Ret @ 2719' 2~)0 sx PFC Below - 100 sx PFC Abo~ BP (~ 205'-Surf F~ l led w/PF C cmt 27. N/A PRODUCTION TEST Date First Production I Method of Operation (Flowing, gas lift, etc.) _ I Date of Test Hours Tested PRODUCTION FOR OIL-BBL GAS-MCF WATER-BBL CHOKE SIZE IGAS'OILRATIO 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. core description. See attached Form 10~407 Submit in duplicate Rev. 7-1-80 CONTINUED ON REVERSE SIDEWC6/031 :DAN GEOLOGIC MARKERS N/A 30. FORMATION TESTS NAME MEAS. D F. PTH TRUE VERT. DEPTH Include interval tested, pressure data, all fluids recovered and gravity, GOR, and time of each phase. N/A 31 wLe~S~T OF ATTACHMENTS Activity Summary, We11 Schematic, As-builts (3), Core Description, MWD (2 copies) 32. I hereby certify that the foregoing is true and correct to the best of my knowledge Title Area Drilling Engineec['ate ,~/.5'/~ff , 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- lng 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 Western Atlas InternBtional A L],on ! Dresser Company CORE LABORATORIES ARCO ALASKA, INC. CORE ANALYSIS REPORT WEST STORKERSEN #1 EXPLORATORY NORTH SLOPE, ALASKA CL FILE NO. BP-3-1339 Performed by: Core Laboratories 8005 Schoon St. Anchorage, AK 99518 (907) 349-3541 Final Report Presented April 28, 1989 hese 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 Street. Anchorage..z, as-:~ ..... - : , ,' .:~,.-.'~:.; ~ INTRODUCTION Core Laboratories was requested to perform a core analysis study on behalf of Arco Alaska, Inc. for samples recovered from the West Storkersen #1 exploratory well, North Slope, Alaska. Presented herein are the results of this study. Conventional cores cut with a bland mud were submitted. A service description with methodology is presented in section 1. The core analysis results, core statistical data, and surface core gamma log are presented in sections 2 and 3. Section 4 contains a shipping transmittal and core box inventory. In conjunction with the report, the tabular results of the analysis are supplied on an IBM PC compatible diskette. Also two sets of visible spectrum flash, and two sets of ultraviolet light photographs are provided 'in separate binders. We sincerely appreciate this opportunity to be of service and hope these data prove beneficial in your exploration efforts. Section TABLE OF CONTENTS CONVENTIONAL CORE ANALYSIS, SERVICE DESCRIPTION AND METHODOLOGY CONVENTIONAL CORE ANALYSIS, TABULAR RESULTS CONVENTIONAL CORE STATISTICAL DATA AND SURFACE CORE GAMMA LOG SECTION 1 CONVENTIONAL CORE Field Procedures Conventional coring equipment in conjunction with a bland based drilling fluid was used to extract four inch diameter core samples from West Stokersen #1 well during April of 1989. Two hundred and twenty-nine feet of core from West Storkersen #1 arrived at Core Laboratories Anchorage facility. The core was shipped in three foot long fiberglass barrels sealed with rubber caps and clamps. Core Processing Surface Core Gamma Log A surface core gamma log was performed on the recovered core samples upon arrival at the Anchorage laboratory. The gamma response is graphically presented in Section 3. Sample Preparation Dean-Stark Plug Samples When the gamma log was completed the core was extruded from the fiberglass barrels onto tables. Horizontal one-inch diameter plug samples were drilled with water from each foot of core. Plugs were taken from the center of each section and parallel to the bedding strike. The plug samples were trimmed into right cylinders using water and prepared for fluid saturation measurement. Plug ends were saved and stored according to depth for each sample. Vertical Plug Samples Vertical one inch diameter plugs were drilled from every tenth foot of core. The plug samples were drilled and trimmed with water and prepared for analysis. The vertical plugs were analyzed for permeability only. Oil Gravity Samples An oil gravity sample was taken from every tenth foot of the core. Approximately one inch of whole core was selected and cut dry with a cut-off saw. The core section was then broken up into peanut sized pieces and placed into a retort bomb for retorting. Slabbing At the completion of plug sampling the whole core was slabbed in one-third and two-third sections using water as a blade coolant. Appropriate depths were marked on the slabbed faces of both slabbed sections. The one-third sections were put in protective plastic sleeving material. The two-third sections were prepared for photography. State Chips One set of state chips were taken to represent every foot of core. The chips were marked and boxed according to depth. Analysis Techniques Dean-Stark Fluid Saturation Measurements Water was extracted from the plug samples by Dean-Stark technique using toluene. Samples were left in Dean-Stark for 24 hours. Recovered water readings were measured and the samples were removed. The samples were then placed in a toluene centrifuge for hydrocarbon extraction a minimum of two days, or until no fluorescence was visible. Extracted samples were dried in a convection oven at 220 degrees F. for a minimum of 24 hours, and cooled in a desiccator to room temperature before porosity and permeability was measured. Saturations by Dean-Stark methods were calculated using Equations 1 and 2. Where: So = [((W1 - W2 - H20)/Do)/Vp] x 100 Sw = [H20/Vp] x 100 (2) So = Oil Saturations, Percent Sw = Water Saturation, Percent W1 = Natural Weight W2 = Extracted and Dried Weight H20 = Extracted Water, Density Assumed 1.0 gm/cc Do = Density of Oil Vp = Pore Volume Grain Density Grain volume determinations were performed according to Boyle's Law utilizing the Heise Gauge Helium Porosimeter. Grain density was calculated using Equation 3. Dg = Mg/Vg (3) Where: Dg = Grain Density Vg = Grain Volume Mg = Grain Mass Atmospheric Porosity The samples were measured for bulk volume by mercury displacement at ambient conditions. Porosity was calculated using Equation 4. P = [(Vb-Vg) / Vb)] x 100 (4) Where: P = Porosity, Percent Vb = Bulk Volume Vg = Grain Volume Atmospheric Permeability to Air Samples were loaded into a Hassler type core holder at a confining pressure of 400 psig. Permeability calculations were performed as defined by Darcy's Equation for compressible fluids, Equation 6. Pa x v x 1000~ Qa x L x L K = x --- (6) (Pl - P2) (Pl +P2) VD Where: K = Permeability v = Gas Viscosity P1 - P2 = Differential Pressure P1 + P2 = Mean Pressure Pa = Atmospheric Pressure Qa = Flow Rate L = Length Vb = Bulk Volume Oil Gravity Analysis The retort bombs containing the oil gravity samples were loaded into ovens and retorted up to 1200 degrees F. The retorted oil was recovered in glass recovery tubes. The refractive index of the retorted oil was measured using a refractometer. The API gravity (60 deg. F.) was 'determined using correlation charts derived from previously analyzed Kuparuk River Unit crude samples, North Slope, Alaska. Special Conditions At the request of Arco personnel, eleven chip type samples were removed from various' intervals in the well. These samples were hand delivered to Arco Alaska, Inc. (see transmittal section). Core Photographs The two-thirds slabbed section of each core was photographed. Approximately 15 feet of core appears in each photograph. Two sets of visible spectrum flash light and two sets of ultraviolet light photographs are provided in separate binders. Sample Disposition Both core slabs of West Storkersen #1 along with plugs ends and state chips were delivered to Arco's Bayview facility, Anchorage. The plug samples are currently being stored at Core Laboratories Anchorage facility. DEAN-STARK ANALYSIS RESULTS Company Well : ARCO ALASKA, ]NC. : NEST STORKERSEN #1 ANALYTICAL ROC CORE LABORATORIES Field : EXPLORATORY Formation : EXPLORATORY EDURES AND QUAL IT Y ASSU File No.: BP-3-1339 Date : 27-APR-1989 RAN C E HANDLING & CLEANING ANALYSIS Core Transportation Solvent Extraction Equipment Extraction Time Drying Equipment Drying Time Drying Temperature : AIR FREIGHT : TOLUENE : CENTRIFUGE : 24 HOURS : CONVECTION OVEN : 24 HOURS : 220 DEG. F. Grain volume measured by Boyle's Law in a matrix cup using He Bulk volume by Archimedes Principle Water saturations by Dean Stark Oil saturations by weight difference in Dean Stark Permeabilities measured on I in. diameter drilled plugs REHARKS Mercury was used as the imnersion fluid for Archimedes bulk volumes. Oil gravities were measured by retorting the oil and measuring the refractive index. A correction is applied for coking of the oil. Company : ARCO ALASKA, INC. Wel 1 .- WEST STORKERSEN ~1 Location : Surf. Sec15 T12N R13E Co,State .. NORTH SLOPE, ALASKA CORE L~ i~RATORIES Fi el d : EXPLORATORY Formation : EXPLORATORY Coring Fluid : BLAND MUD Elevation : CORE ANALYSIS RESULTS File No.: BP-3-133g Date : 27-APR-1989 API No. : 500-2921913-O0 Anal ysts: PLB, GAC SAMPLE NUMBER PERMEABILITY (HORIZONTAL) (VERTICAL). Kair Kair . 101 8568.4 14.6 201 202 204 205 206 207 208 210 211 212 214 215 216 217 218 219 220 221 222 223 224 POROSITY ~ Core ~1 (8519.0 - 8587.8) DESCRIPTION 12.7 28.1 42.8 2.67 SS-yelgY,vfgr,wsrtd,sbrd-rd,wcons,calc cmt,tr grn min,tr lams. Core 8577.3 216. 244. 24.0 41.8 37.3 2.66 8578.4 15.0 16.2 20.7 46.0 3.02 8580.6 6.26 9.4 TRACE 94.1 2.71 8581.8 13.0 TRACE 94.5 2.71 8582.6 2.97 10.9 TRACE 96.1 2.72 8583.3 0.29 5.8 2.0 94.6 3.42 8584.2 14.7 TRACE 97.7' 2.75 8586.6 8587.4 5.79 18.9 4.0 95.7 3.25 8588.5 7.49 0.01 15.0 4.2 95.3 3.29 8590.1 2.37 18.3 3.9 95.4 3.23 8591.1 2.29 14.8 2.4 96.5 3.22 8592.1 0.95 20.0 1.0 95.5 3.14 8593.2 2.35 19.1 4.4 80.8 3.29 8594.4 1.94 16.4 5.5 92.6 3.49 8595.1 4.60 17.2 2.5 94.5 2.85 8596.6 2.95 19.4 2.0 96.5 2.91 8597.2 1.01 0.13 13.0 7.3 82.5 3.47 8598.5 13.0 4.8 92.6 2.76 8599.5 0.53 14.0 5.0 94.3 2.89 8600.2 <.01 7.3 8.9 82.8 3.48 (8577.0 - 8638.5) 29. SS-yelgy, vfgr, wsrtd, sbrd-rd, s lfr i-wcons ,tr carb frags. SS-ltolvgy, vfgr,wsrtd,sbrd,vwcntd,poss sid,tr grn min. MDST-n~l(gy, slty,mic,wcons,1% grn min,tr m-cgr sd,,** MDST-clkgy,slty,mi¢,wcons,1-2% lam min,1% m-cgr sd, (broken) MDST-clkgy,slty,nnr mic,wcons,1% grn min,tr m-cgr sd,tr pyr,** MDST-ltolvgy,sdy, vwcmtd,dnse,poss sid cnt,2% grn min. MDST-dkgy,slty,mic,wcons,1-2% grn min,tr m-cgr sd, (broken) No Plug Sample SS-lltOlvgy, f-cgr,arg,psrtd,sbang-sbrd, slfri-wcmtd,poss sid,lO% grn min.** SS-olvgy,f-cgr,arg,psrtd,sbang-sbrd,slfri-wcmtd,poss sid, 10% grn min.** SS-olvgy, vf-mgr,arg,psrtd, sbang-sbrd,wcntd,poss sid,lO% grn min. 14DST-olvgy, vsdy,wcntd,poss sial,5-10% grn min. SS-olvgy,vf-mgr,arg,mod w~rtd,sbrd, abnt patchy cnt,poss sid,lO% grn min. MDST-olvgy, vsdy,wcntd,clnse,poss sid,vug,2% grn min. SS-grgy,vf-cgr,arg,psrtd,sbrd,patchy cmt,poss sid,20% grn min. SS-ckgrgy,vf-cgr,arg,psrtd,sbrd,nnr patchy cmt,poss $id, 20% grn min. SS-ckgrgy,vf-cgr,arg,psrtd,sbrd,slfri,n~r patchy cmt,poss sid, 30% grn min. SS-ltolvgy, vf-mgr,psrtd,sbang,wcmtd,~se,poss sid cnt,7% grn min. MDST-dkgy,slty.mic,wcons,1-2% grn min, (broken) MDST-dkgy,$1ty,mic,wcons,1-2% ngr sd,l% grn min. MDST-ltolvgy,slty,vsdy,vwcmtd,dnse,poss $id cnt,2-3% grn min. ~- Oil gravity was measured one month later than the rest of the gravities. This may haNe affected the value. 1 - 1 Company : ARCO ALASKA, INC. Nell : NEST STORKERSEN #1 Location : Surf. Sec15 T12N R13E Co,State : NORTH SLOPE, ALASKA CORE CORE LABORATORIES Fi el d : EXPLORATORY Formation : EXPLORATORY Coring Fluid : BLAND HUD Elevation : ANALYSIS RESULTS File No.: BP-3-1339 Date : 27-APR- 1989 AP1 No. : 500-2921913-00 Anal ysts: PLB, GAC PERMEABI L ITY SATURATION SAMPLE DEPTH ' POROSITY GRAIN OIL DESCRIPTION NUMBER (HORIZONTAL) (VERTICAL) (HELIUM) (PORE VOLUME) DENSITY GRAVITY Kair Kair OIL WATER ft md md % % % gm/cc deg API Core #1 (8519.0 - 8567.6) 101 8568.4 14.6 12.7 28.1 42.8 2.67 SS-yelgy,vfgr,wsrtd, sbrd-rd,wcons,calc cmt,tr grn min,tr lams. Core ~2 (8577.0 - 8638.5) 201 8577.3 216. 244. 24.0 41.8 37.3 2.66 SS-yelgy,vfgr,wsrtd,sbrd-rd,slfri-wcons,tr carb frags. 202 8578.4 15.0 16.2 20.7 46.0 3.02 SS-ltolvgy, vfgr,wsrtd,sbrd,vwcmtd,poss sid,tr grn min. 204 8580.6 6.26 9.4 TRACE 94.1 2.71 HDST-mdkgy, slty,mic,wcons,1% grn min,tr m-cgr sd,** 205 8581.8 13.0 TRACE 94.5 2.71 MDST-dkgy,slty,mic,wcons,1-2% §rn min,1% m-cgr sd, (broken) 206 8582.6 2.97 10.9 TRACE 96.1 - 2.72 MDST-dkgy,slty,nnr mic,wcons,1% grn min,tr m-cgr sd,tr pyr,** 207 8583.3 0.29 5.8 2.0 94.6 3.42 MOST-ltolvgy,sdy,vwcmtd,clnse,poss sid cnt,2% grn min. 208 8584.2 14.7 TRACE 97.7 2.75 MDST-dkgy,slty,mic,wcons,1-2% grn min,tr m-cgr sd, (broken) 210 8586.6 29. No Plug Sanlole 211 8587.4 5.79 18.9 4.0 95.7 3.25 SS-ltolvgy, f-cgr,arg,psrtd,sbang-sbrd,slfri-wcmtd,poss sid, lO% grn min.** 212 8588.5 7.49 0.01 15.0 4.2 95.3 3.29 SS-olvgy,f-cgr,arg,psrtd,sbang-sbrd,slfri-wcmtd,poss sid,lO% grn min.** 214 8590.1 2.37 18.3 3.9 95.4 3.23 SS-olvgy,vf-mgr,arg,psrtd, sbang-sbrd,wcntd,poss sid,lO% grn min. 215 8591.1 2.29 14.8 2.4 96.5 3.22 MDST-olvgy,vsdy,wcntd,poss sid,5-10% grn min. 216 8592.1 0.95 20.0 1.0 95.5 3.14 SS-olvgy,vf-mgr,arg,mod wsrtd,sbrd,abnt patchy cnt,poss sid,lO% grn min. 217 8593.2 2.35 19.1 4.4 80.8 3.29 MDST-olvgy,vsdy,wcntd,dnse,poss sid,vug,2% grn min. 218 8594.4 1.94 16.4 5.5 92.6 3.49 SS-grgy,vf-cgr,arg,psrtd,sbrd,patchy cmt,poss sid, 20% grn min. 219 8595.1 4.60 17.2 2.5 94.5 2.85 SS-dKgrgy,vf-cgr, arg,psrtd,sbrd,mlr patchy cmt,poss sid, 20% grn min. 220 8596.6 2.95 19.4 2.0 96.5 2.91 SS-cl(grgy,vf-cgr,arg,psrtd,sbrd,slfri,nmr patchy cmt,poss sid, 30% grn min. 221 8597.2 1.01 0.13 13.0 7.3 82.5 3.47 SS-ltolvgy,vf-mgr,psrtd,sbang,wcmtd,c~se,poss sial cnt,7% grn min. 222 8598.5 13.0 4.8 92.6 2.76 MDST-dkgy,slty,mic,wcons,1-2% grn min,(broken) 223 8599.5 0.53 14.0 5.0 94.3 2.89 MDST-dkgy,slty,mic,wcons,1-2% mgr sd,l% grn min. 224 8600.2 <.01 7.3 8.9 82.8 3.48 MDST-ltolvgy,slty,vsdy,vwcmtd,dnse,poss sid cmL,2-3% grn min. 1 - I Company : ARCO ALASKA, INC. Well : WEST STORKERSEN #1 CORE CORE LABORATORIES Field .. EXPLORATORY Formation : EXPLORATORY ANALYSIS RESULTS File No.: BP-3-1339 Date : 27-APR- 1989 PERMEABI L ITY SAT URAT I ON SAMPLE DEPTH POROSITY GRAIN OIL DESCRIPTION NUMBER (HORIZONTAL) (VERTICAL) (HELIUM) (PORE VOLUME) DENSITY GRAVITY Kair Kair OIL WATER ft mci ~d % % % gm/cc deg API 225 8601.2 0.23 11.9 1.G 96.0 2.79 MDST-dkgy,slty,sdy,wcons,2-3% n~jr sd,tr grn min. 226 8602.4 0.46 13.6 2.2 93.8 2.87 MDST-dkgrgy,vsdy,wcons,nl~r patchy cnfc,poss sid,3% grn min. 227 8603.2 0.09 13.1 1.1 95.5 2.84 MDST-olvgy,vsdy,wcons,mr patchy cnfc,poss sid,3% grn min. 229 8605.4 0.14 12.2 0.9 96.0 2.84 MDST-olvgy,slty,m~r f-n~jr sd,wcons,poss mir sid,1% grn min. 230 8606.2 0.05 14.1 1.6 95.6 2.88 15. MDST-dkgrgy,vsdy,wcons,mr patchy cnfc,poss sid,3% grn min. 231 8607.6 0.15 <.01 9.8 2.6 86.6 3.16 MDST-olvgy,vsdy,vwcmtd,dnse,poss sid cmt,3-5% grn min. 232 8608.8 0.24 11.6 0.9 94.9 2.82 MDST-dkgy,vsdy,wcons,poss sid cmt,3-5% grn min. 233 8609.1 1.03 11.7 0.8 96.7 2.77 MDST-dkgy,vsdy,wcons,poss sid cmt,5% grn min,** 234 8610.2 0.18 14.6 1.0 95.7 2.80 SS-dkgrgy,vf-cgr,pred vfgr,arg,mod wsrtd,sbrd,wcons,poss sid,5% grn min. 235 8611.8 2.04 15.4 0.9 96.2 2.75 SS-dkgrgy,vf-cgr,pred vfgr,arg,mod wsrtd,sbrd,wcons,7% grn rain, {broken) 236 8612.3 0.18 16.7 5.4 93.4 3.15 SS-grgy,vf-cgr,pred vfgr,arg,psrtd,sbrd,vwcnfcd,poss sid,7% grn min. 237 8613.3 0.16 17.9 3.9 93.7 3.31 SS-grgy,vf-cgr,psrtd,sbrd,vwcmtd,poss sid,lO% grn min. 238 8614.8 1.57 14.9 0.9 95.0 - 2.78 SS-olvgy,vf-cgr,pred vfgr,psrtd,sbrd,mod cons,lO% grn min. 239 8615.5 0.75 12.7 4.2 92.9 3.05 SS-olvgy,vf-cgr,pred vfgr,psrtd,sbrd,vwcmtd,poss sial,lO-15% grn min. 240 8616.3 0.01 <.01 14.0 6.4 78.4 3.24 SS-dkgrgy,f-cgr,psrtd,sbrd-rd,vwcmtd,poss sid,20% grn min. 241 8617.7 17.3 12.6 18.2 71.7 3.45 SS-ltolvgy,vf-cgr,pred f-mgr,psrtd,sbrd,vwcmtd,cnse,poss sid,xln frac,** 242 8618.7 11.9 9.4 12.4 85.2 2.66 SS-olvgy,vf-cgr,pred vfgr,arg,n~d wsrtd,sbrd,slfri,lO% grn min,** 243 8619.2 <.01 10.7 7.9 83.1 3.23 SS-ltolvgy,vf-mgr,mod wsrtd,sbang-sbrd,vwcmtd,dnse,poss sid,lO% grn min. 244 8620.3 0.39 19.9 8.0 83.6 2.80 SS-grgy,vf-fgr,wsrtd,sbrd,wcons,poss mr sid,15% grn min. 245 8621.3 0.14 15.5 4.8 86.9 2.78 SS-ckgrgy,vf-fgr,pred vfgr,arg,wsrtd,sbrd-rd,wcons,mqr sid, lO% grn min. 246 8622.3 0.17 17.4 4.6 87.1 2.74 SS-ckgrgy,vf-fgr,pred vfgr,arg,wsrtd,sbrd-rd,wcons,15-20% grn min. 247 8623.2 0.05 12.4 5.0 86.0 2.73 SS-ckgrgy,vfgr,varg,wsrtd,sbrd,wcons,5% grn min. 248 8624.2 0.14 17.3 10.5 82.0 2.70 SS-olvgy,vfgr,wsrtd,rd,wcons,5% gm min,tr arg lams 249 8625.5 0.26 18.6 11.8 81.5 2.72 SS-ltolvgy,vfgr,wsrtd,rd,wcons,3-5% grn min,tr-1% pyr 250 8626.3 0.39 19.0 12.0 76.5 2.68 22. SS-ltolvgy,vfgr,slty,rd,wcons,tr grn min. 251 8627.3 0.68 O.GG 19.3 10.7 75.1 2.67 SS-ltolvgy, vfgr, s lty, wsrtd, rd, wcons. 252 8628.4 0.63 19.0 14.0 73.5 2.67 SS- ltolvgy, vfgr,s lty,wsrtd, rd, wcons,tr pyr. 253 8629.3 0.16 14.8 13.2 77.7 2.68 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,mic, arg lams. 254 8630.4 0.76 16.1 13.1 70.8 2.66 SS-ltolvgy,vfgr,mqr s lt,wsrtd, sbrd-rd, wcons. I -2 Company : ARCO ALASKA, INC. Well : WEST STORKERSEN #1 CORE CORE LABORATORIES Fi el d : EXPLORATORY Formation : EXPLORATORY ANALYSIS RESULTS File No.: BP-3-133g Date .' 27-APR- 1989 PERMEABI L ITY SATURATION SAMPLE DEPTH POROSITY GRAIN OIL DESCRIPTION NUMBER (HORIZONTAL) (VERTICAL) (HELIUM) (PORE VOLUME) DENSITY GRAVITY Kair Kair OIL WATER ft nd n~l ,, · % % % gm/cc deg API 255 8631.3 1.33 16.7 10.1 74.7 2.66 SS- ltolvgy, vfgr,s lty, wsrtd, sbrd-rd, wcons, nnr bioturb. 256 8632.3 3.54 17.0 10.7 70.3 2.67 SS-ltolvgy, vfgr, s lty,wsrtd, sbrd-rd, wcons, mir bioturb. 257 8633.2 1.21 15.6 8.8 72.6 2.69 SS- ltolvgy, vfgr,~ lt¥,wsrtd, sbrd-rd, wcons, nmr bioturb. 258 8634.2 14.4 8.6 79.4 2.70 SS-ltolvgy, vfgr,$ lty, arg,wsrtd, sbrd-rd,wcons, mic, (broken) 259 8635.8 1.03 14.7 6.6 74.8 2.66 SS- ltolvgy, vfgr,~ lty,wsrtd, sbrd-rd, wcons, nmr bioturb. 260 8636.5 2.86 16.0 13.6 66.5 2.66 22. SS-ltolvgy, vfgr,nnr slt,wsrtd,sbrd-rd,wcons,nmr bioturb. 261 8637.2 2.37 0.38 16.1 8.1 71.9 2.65 SS-ltolvgy, vfgr,nnr slt,wsrtd,sbrd-rd,wcons,nmr bioturb. 262 8638.2 2.04 16.2 10.9 68.0 2.65 SS-ltolvgy, vfgr,nnr slt,wsrtd,sbrd-rd,wcons,tr arg lams. Core f3 (8638.7 - 8698.6) 301 8639.3 1.10 15.4 7.2 71.3 2.68 SS-ltolvgy,vfgr,nnr slt,wsrtd,sbrd-rd,wcons,rmr bioturb. 302 8640.3 0.86 14.6 10.5 68.2' 2.67 SS-ltolvgy,vfgr,nnr slt,wsrtd,sbrd-rd,wcons,nmr bioturb. 303 8641.4 1.14 15.7 10.5 69.7 2.66 SS- ltolvgy, vfgr,s lty,wsrtd, sbrd-rd, wcons, nnr bioturb. 304 8642.4 0.95 13.6 9.3 73.4 2.66 SS-ltolvgy,vfgr,n~r slt,wsrtd,sbrd-rd,wcons,nmr bioturb. 305 8643.3 0.77 14.8 7.7 74.3 2.66 SS-ltolvgy, vfgr,n~r slt,wsrtd,sbrd-rd,wcons,nmr bioturb. 306 8644.3 0.40 14.7 6.0 78.4 2.68 SS-ltolvgy,vfgr,nmr slt,wsrtd,sbrd-rd,wcons,tr pyr. 307 8645.1 0.15 9.3 17.4 58.5 2.95 SS- ltolvgy, vfgr,s lty,wsrtd, sbrd-rd, vwc~d, poss sid. 308 8646.2 1.44 16.5 6.5 73.5 2.67 21. SS-ltolvgy,vfgr,mr slt,wsrtd,sbrd-rd,wcons,tr bioturb. 309 8647.2 0.87 1.36 16.6 3.8 75.3 2.66 SS-ltolvgy,vfgr,nnr slt,wsrtd,sbrd-rd,wcons,tr bioturb. 310 8648.4 0.40 15.7 8.1 75.0 2.66 SS-ltolvgy,vfgr,nnr slt,wsrtd,sbrd-rd,wcons,tr bioturb. 311 8649.2 0.97 15.6 6.5 76.3 2.66 SS-ltolvgy,vfgr,nnr slt,wsrtd,sbrd-rd,wcons,tr bioturb. 312 8650.2 0.15 10.9 7.9 91.1 2.66 SS-ltolvgy,vfgr,arg,wsrtd,sbrd-rd,wcons,mic,tr arg lams. 313 8651.2 0.57 14.0 8.1 77.2 2.66 SS-ltolvgy, vfgr,mr $ lt,wsrtd, sbrd-rd,wcons, bioturb. 314 8652.3 0.13 11.3 13.0 84.9 2.66 SS-olvgy, vfgr, arg, wsrtd, sbrd-rd, wcons,tr bioturb. 315 8653.2 0.45 13.3 5.2 83.2 2.66 SS-ltolvgy,vfgr,nnr s lt,wsrtd, sbrd-rd,wcons, bioturb. 316 8654.2 0.59 13.5 18.4 71.1 2.65 SS-ltolvgy,vfgr,nnr s lt,wsrtd, sbrd-rd,wcons, bioturb. 317 8655.5 0.61 14.1 17.6 GG.6 2.67 SS-ltolvgy,vfgr,nnr slt,wsrtd,sbrd-rd,wcons,nmr bioturb. 318 8656.2 0.78 14.7 17.4 G4.G 2.66 22. SS-ltolvgy, vfgr,mr slt,wsrtd,sbrd-rd,wcons,mqr bioturb. 1 -3 Company : ARCO ALASKA, INC. Well : WEST STORKERSEN /~1 CORE CORE LABORATORTES Field Formation : EXPLORATORY : EXPLORATORY ANALYSIS RESULTS File No.: BP-3-1339 Date : 27-APR- 1989 PERMEABILITY SATURATION SAMPLE DEPTH POROSITY GRAIN OIL DESCRIPTION NUMBER (HORIZONTAL) (VERTICAL) (HELIUM) (PORE VOLUME) DENSITY GRAVITY Kair Kair OIL WATER ft md md % % % gm/cc deg API 319 8657.2 0.97 0.19 13.7 15.9 73.7 2.66 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,(no bioturb). 320 8658.5 0.35 13.2 13.9 76.5 2.65 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,(no bioturb). 321 8659.2 0.50 14.4 15.G 69.5 2.65 SS-ltolvgy, vfgr,slty,wsrtd,sbrd-rd,wcons,tr pyr. 322 8660.6 1.88 16.5 8.9 71.3 2.66 SS-ltolvgy,vfgr,mr slt,wsrtd,sbrd-rd,wcons,tr arg lam. 323 8661.2 2.98 17.2 10.3 66.6 2.66 SS-ltolvgy,vfgr,mr slt,wsrtd,sbrd-rd,wcons,tr pyr. 324 8662.5 3.33 17.5 5.2 70.5 2.67 SS-ltolvgy,vfgr,m3r slt,wsrtd,sbrd-rd,wcons,tr pyr,mqr bioturb. 325 8663.2 2.G0 17.0 6.0 71.2 2.65 SS-ltolvgy,vfgr,mnr slt,wsrtd,sbrd-rd,wcons,tr bioturb. 326 8664.3 1.20 14.8 7.9 75.8 2.66 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,tr pyr,nmr bioturb,** 327 8665.3 0.67 12.8 8.8 78.0 2.67 SS-olvgy,vfgr,arg,wsrtd,sbrd-rd,wcons,tr pyr,bioturb. 328 8666.3 0.48 13.5 7.4 80.4 2.66 20. SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,tr pyr,bioturb. 329 8667.3 1.02 2.21 13.0 7.8 73.2 2.65 SS-olvgy,vfgr,arg,wsrtd,sbrd-rd,wcons,bioturb,** 330 8668.5 0,63 12.6 2.5 82.8 2.65 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,bioturb, 331 8669.2 0.37 12.6 9.5 81.2- 2.66 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,tr carb frags,n~r bioturb. 332 8670.4 0.39 12.6 8.4 82.3 2.66 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,tr pyr,nnr bioturb. 333 8671.3 0.26 12.8 8.9 81.9 2.66 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,tr pyr,tr carb frags. 334 8672.2 0.49 13.9 7.9 76.3 2.67 SS-ttolvgy, vfgr,slty,wsrtd,sbrd-rd,wcons,tr pyr,bioturb. 335 8673.4 0.35 13.3 13.5 74.7 2.66 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,tr pyr. 336 8674.3 1.79 17.0 3.1 73.2 2.66 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd, slfri-wcons,1% grn min,tr bioturb. 337 8675.3 1.78 17.0 7.8 70.2 2.66 SS-ltolvgy, vfgr,nnr slt,wsrtd,sbrd-rd,slfri-wcons,nnr bioturb. 338 8676.5 2.38 17.1 3.8 72.7 2.67 19. SS-ltolvgy,vfgr,mir slt,wsrtd,sbrd-rd,slfri-wcons,1% grn min,tr bioturb. 339 8677.3 8.05 2.35 19.1 3.0 72.6 2.66 SS-ltolvgy,vfgr,mlr slt,wsrtd,sbrd-rd,slfri-wcons,tr bioturb. 340 8678.2 4.52 17.7 2.1 72.9 2.66 SS-ltolvgy,vfgr,nmr slt,wsrtd,sbrd-rd,slfri-wcons,tr bioturb. 341 8679.4 0.75 14.6 6.9 76.2 2.67 SS-ltolvgy, vfgr,mqr slt,wsrtd,sbrd-rd,wcons,tr carb frags,nnr bioturb. 342 8680.3 0.59 14.9 8.1 71.1 2.66 SS-ltolvgy,vfgr,~nr slt,wsrtd,sbrd-rd,wcons,tr carb frags,nmr bioturb. 343 8681.2 0.58 14.2 5.0 76.4 2.66 SS-ltolvgy, vfgr,slty,wsrtd,sbrd-rd,wcons,bioturb. 344 8682.3 0.18 12.1 10.8 79.1 2.67 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,area of pyr cnt,bioturb. 345 8683.3 0.24 13.3 10.5 76.5 2.65 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons. 346 8684.3 0.52 13.7 10.8 73.2 2.65 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,n~r bioturb. 347 8685.3 0.28 12.4 15.7 73.1 2.66 SS-ltolvgy,vfgr,slty,wsrtd,sbrd-rd,wcons,bioturb. I -4 Company : ARCO ALASKA, INC. Well : WEST STORKERSEN #1 CORE CORE LABORATORIES Field Formation : EXPLORATORY : EXPLORATORY ANALYSIS RESULTS File No.: BP-3-1339 Date : 27-APR- 1989 PERMEABI L ITY SATURATION SAMPLE DEPTH POROSITY GRAIN OIL DESCRIPTION N~BER (HORIZONTAL) (VERTICAL) (HELIUM) (PORE VOLUME) DENSITY GRAVITY Kair Kair , OIL WATER ft md md % % % gm/cc deg API 348 8686.3 0.40 13.6 11.7 73.6 2.66 22. SS-ltolvgy,vfgr,slty,~srtd,sbrd-rd,wcons,tr pyr. 349 8687.3 1.57 0.16 14.0 7.4 79.3 2.69 SS-ltolvgy, vfgr,s lty,tmrtd, sbrd-rd,wcons,mic,** 350 8688.3 1.76 15.2 5.9 72.1 2.66 SS-ltolvgy,vfgr,mr slt,wsrtd,sbrd-rd,wcons,mqr bioturb,** 351 8689.1 0.80 14.2 11.7 70.5 2.65 SS-ltolvgy,vfgr,nnr slt,wsrtd,sbrd-rd,wcons,m~r bioturb. 352 8690.2 0.92 15.0 6.1 75.3 2.66 SS-ltolvgy,vfgr,mr slt,wsrtd,sbrd-rd,wcons,tr arg lam. 353 8691.2 3.32 17.3 6.7 69.6 2.66 SS-ltolvgy,vfgr,mr s lt,wsrtd, sbrd-rd, s lfri-wcons. 354 8692.3 7.50 18.9 2.3 27.4 2.65 SS-ltolvgy,vfgr,nnr slt,wsrtd,sbrd-rd,slfri-wcons,nmr bioturb. 355 8693.3 2.12 16.6 8.5 69.0 2.65 SS-ltolvgy,vfgr,nnr slt,wsrtd,sbrd-rd,slfri-wcons,mr bioturb. 356 8694.4 0.94 15.4 6.2 71.2 2.65 SS-ltolvgy,vfgr,mnr slt,~srtd,sbrd-rd,wcons,tr bioturb. 357 8695.5 0.86 13.5 6.0 78.1 2.65 SS-ltolvgy,vfgr,mlr slt,wsrtd,sbrd-rd,wcons,m~r bioturb. 358 8696.4 0.44 13.7 8.3 73.3 2.66 SS-ltolvgy, vfgr,mlr slt,wsrtd,sbrd-rd,wcons,tr bioturb. 359 8697.2 0.48 O. 50 13.9 9.9 71.7 2.65 SS-ltolvgy,vfgr,rmr slt,wsrtd,sbrd-rd,wcons,bioturb. 360 8698.3 0.80 14.1 8.5 67.5. 2.65 SS-ltolvgy,vfgr,mr slt,wsrtd,sbrd-rd,wcons,hvy bioturb. Core if4 (8894.0 - 8953.5) 401 8894.4 0.45 0.21 23.7 3.3 94.3 3.00 SS-ckgrngy,vf-cgr,pred fgr,mod wsrtd,sbrd-rd,fri,poss sid,15% gygrn mtx. 402 8895.3 0.17 26.5 2.9 96.3 3.09 SS-ltolvbm,fgr,wsrtd,rd,fri,15% yelorn min,poss sid, 15% gygm mtx. 403 8896.2 0.15 23.4 6.7 91.6 3.06 21. SS-ltolvbm,fgr,wsrtd,rd,fri,15% yelorn min,poss sid, lO% gygm mtx. ~ 404 8897.3 0.15 21.8 6.2 92.4 3.03 SS-ltolvbrn,fgr,wsrtd,rd,slfri,20% yelorn min,poss sid,lO% gygrn mtx. 405 8898.3 0.18 23.1 3.7 94.7 3.09 SS-ltolvbm,fgr,wsrtd,sbrcl,slfri,20% yelorn min,poss sid,lO% gygrn mtx. 406 8899.3 0.17 20.2 2.2 96.6 3.01 SS-ltolvbrn,fgr,wsrtd,sbrd,fri,calc,30% yelorn min,poss sid,5% gygm mtx. 407 8900;3 0.30 26.2 2.5 95.7 3.15 SS-ltolvbm,fgr,wsrtd,sbrd,fri,30% yelom min,poss sid,7% gygrn nfcx. 408 8901.3 0.30 26.2 1.2 96.5 3.04 SS-gygm,fgr,wsrtd,sbrd,fri,15% yelbm min,poss sid,lO% gygrn mtx. 409 8902.3 0.37 27.6 1.2 97.5 3.12 SS-gygm,fgr,wsrtd,sbrd,fri,15% yelbrn min,poss sid,lO% gygrn mtx. 410 8903.2 0.34 28.1 3.3 96.5 3.07 SS-gygm,fgr,wsrtd,sbrd,fri,15% yelorn min,poss sid,lO% gygrn mtx. 411 8904.3 0.39 0.40 26.4 3.0 89.9 2.97 SS-gygm,f-mgr,pred fgr,wsrtd,sbrd,fri,15% yelorn min,poss sid,lO% gygrn mtx. 412 8905.2 0.63 26.4 3.3 92.8 3.05 SS-gygrn,fgr,n~r cgr sd,wsrtd,sbrd,fri,lO% yelorn min,poss sid,15% gygrn mtx. 413 8906.3 0.SG 25.9 2.1 92.5 2.96 SS-gygrn,f-mgr,mod wsrtd,sbrd,fri,lO% yelorn min,poss sid,15% gygrn mtx. 1 -5 CORE LABORATORIES Fi el d .' EXPLORATORY Formation .' EXPLORATORY ANALYSIS RESULTS Company : ARCO ALASKA, INC. Well : WEST STORKERSEN #1 CORE File No.: BP-3-1339 Date : 27-APR-1989 PERMEABILITY SATURATION SAMPLE DEPTH .... POROSITY GRAIN OIL DESCRIPTION NUMBER (HORIZONTAL) (VERTICAL) (HELIUM) (PORE VOLUME) DENSITY GRAVITY Kair Kair OIL WATER ft n~l md % % % gm/cc deg API ,,, 414 8907.3 1.08 27.7 2.4 88.6 2.99 SS-molvbrn,f-cgr,psrtd,sbrd,vfri,15% yelorn min,poss sid,15% gygrn mtx. 415 8908.2 0.04 12.4 3.5 87.1 2.94 SS-ltolvgy, vfgr,wsrtd,sbrd,vwcntd,calc,poss sid,lO% §ygrn nfcx. 416 8909.4 0.87 22.7 4.6 90.1 3.06 SS-gygm,vf-mgr,psrtd,sbrd,vfri,10% yelorn min,poss sid, 15% gygm mtx. 417 8910.4 0.85 27.2 3.2 92.5 3.08 SS-gygm,vf-ngr,mod wsrtd,sbrd,vfri,20% yelorn min,poss sid,15% gygrn mtx. 418 8911.7 0.71 25.6 4.0 91.5 3.10 SS-gygm,vf-cgr,mod wsrtd,sbrd,vfri,20% yelorn min,poss sid,lO% gygrn mtx. 419 8912.3 0.56 27.9 2.3 95.0 3.16 SS-gyolvgrn,vf-cgr,pred fgr,mod wsrtd, sbrd,vfri,20% yelorn rain,lO% gygrn nfcx. 420 8913.3 1.03 24.3 2.9 94.6 3.06 SS-gygrn,f-cgr,psrtd,sbrd-rd,vfri,15% yelorn min,poss sid,lO% gygrn mtx. 421 8914.3 0.07 0.08 10.5 4.0 87.5 3.05 24. SS-ltgmgy, vf-cgr,pred fgr,psrtd,sbrd,wcmtd,dnse,poss sid cmt. 422 8915.3 0.58 27.3 1.6 94.3 3.22 SS-gygm,vf-mgr,pred vfgr,wsrtd,sbrd,fri,15% yelorn min,poss sid,lO% gygm mtx 423 8916.3 0.68 26.9 2.4 93.6 3.21 SS-gyolvgm,vf-cgr,pred fgr,psrtd,sbrd,fri,20% yelorn min,lO% gygrn mtx. 424 8917.5 0.80 26.9 0.4 95.8 3.21 SS-gyolvgm,vf-cgr,pred fgr,psrtd,sbrd,fri,20% yelom min,lO% gygrn mtx. 425 8918.3 0.87 25.5 2.5 95.7 3.12 SS-oyolvgm,vf-cgr,psrtd,sbrd,fri,20% yelom min,poss sid,15% gygrn mtx. 426 8919.5 0.26 17.1 2.7 93.4 * 3.16 SS-gygm,f-cgr,psrtd,sbrd,wcons,lO% yelorn min,poss sid,15% gygm ntx. 427 8920.8 0.79 23.0 6.0 91.9 3.04 SS-gygrn,vf-cgr,pred fgr,psrtd,sbrd,fri,15% yelom min,poss sid,15% gygrn mtx. 428 8921.3 0.75 21.1 2.5 95.3 3.10 SS-gygm,vf-cgr,psrtd,sbrd,fri,20% yelorn min,poss sid,15% gygrn mtx. 429 8922.4 0.63 24.9 2.9 96.3 3.06 SS-gygrn,vf-cgr,pred fgr,mod wsrtd,sbrd,fri,20% yelorn min,15% gygm m~x. 430 8923.5 0.53 23.8 2.5 94.2 3.06 SS-gyolvgm,vf-nlgr,pred fgr,mod wsrtd, sbrd,fri,20% yelorn min,15% gygrn m~x. 431 8924.2 0.46 0.62 25.0 1.4 94.5 3.10 SS-gyolvgm,pred fgr,wsrtd,sbrd,fri,15% yelorn min,poss sid,15% gygrn mtx. 432 8925.2 0.33 21.4 1.0 94.0 2.99 SS-gyolvgm,pred fgr,wsrtd,sbrd-rd,fri,15% yelorn min,poss sid,15% gygrn mtx. 433 8926.3 0.30 22.3 1.9 92.7 3.00 SS-gygm,pred fgr,wsrtd,sbrd,fri,15% yelorn min,poss sid,lO% gygrn mtx. 434 8927.3 0.37 22.9 1.3 93.9 2.94 SS-gygm,vf-cgr,pred fgr,mod wsrtd,sbrd,fri,15% yeom min,15% gygrn mtx. 435 8928.6 0.32 22.4 1.1 93.7 2.91 SS-gygrn,pred fgr,wsrtd,sbrd-rd,fri,lO% yelorn min,poss sid,15% gygrn mtx. 436 8929.5 0.27 21.6 1.4 90.8 2.89 SS-gyolvgrn,f-mgr,rmd wsrtd,sbrd,fri,lO% yelom min,poss sid,lO% gygrn mtx. 437 8930.5 0.26 19.9 1.2 92.3 2.91 SS-gyolvgm,f-mgr,m~dwsrtd,sbrd, slfri,7% yelom min,poss sid,lO% gygrn mtx. 438 8931.3 0.13 19.8 1.0 91.5 2.92 SS-gyolvgrn,pred fgr,wsrtd,sbrd,slfri-,7% yelorn min,poss sid, lO% gygm m~x. 439 8932.3 0.57 24.5 2.0 93.0 3.00 SS-gyolvgm,vf-cgr,psrtd,sbrd,fri,15% yelom min,poss sid,lO% gygrn mtx. 440 8933.3 0.36 23.7 2.0 93.7 2.97 SS-gyolv,vf-fgr,wsrtd,sbrd,fri,20% yelorn min,poss sid,15% gygrn mtx. 441 8934.2 0.23 0.29 22.8 2.4 91.3 3.01 SS-gyolv,vf-fgr,wsrtd,sbrd,slfri,15% yelorn min,poss sid,15% gygrn mtx. 442 8935.3 0.29 24.1 2.1 91.9 2.98 SS-gyolvgm,vf-fgr,wsrtd,sbrd,fri,lO% yelom min,poss sid,20% gygrn mtx. 1-6 Company : ARCO ALASKA, INC. Well : WEST STORKERSEN #1 CORE CORE LABORATORIES Fi el d : EXPLORATORY Formation : EXPLORATORY ANALYSIS RESULTS File No.: BP-3-1339 Date : 27-APR- 1989 PERMEABI L ITY SATURATION SAMPLE DEPTH POROSITY GRAIN OIL DESCRIPTION NUMBER (HORIZONTAL) (VERTICAL) (HELIUM) (PORE VOLUME) DENSITY GRAVITY Kair Kair OIL WATER ft md n~l % % % gn~/cc deg API 443 8930.3 0.41 15.2 2.2 80.5 3.07 SS-cmkgrngy, pred vfgr,wsrtd,rd,fri-w¢on$,poss sid cmtd, 10% gygrn mtx. 444 8937.2 0.27 22.0 1.3 78.9 2.89 SS-olvbrn,vf-fgr,wsrtd, rd,fri,20% yelorn min,poss sid,lO% gygrn mtx. 445 8938.3 0.10 22.3 3.4 80.9 2.'88 SS-gyolvgrn,vf-fgr,wsrtd,sbrd,~lfri,5% yelorn min,pos~ sid,15% gygrn m~x. 440 .8939.2 0.25 18.3 1.9 91.0 2.99 SS-gyolvgrn,fgr,wsrtd,$brd,~lfri,7% yelorn min,pos~ sid, 20% gygrn m~x. 447 8940.3 0.18 10.0 2.4 90.1 2.88 SS-gyolv,fgr,vwsrtd,rd,slfri,lO% yelorn min,poss ~ide,15% gygrn mtx. 448 8941.3 0.34 21.0 2.2 85.0 3.02 SS-gyolvgrn,fgr,vw~rtd,sbrd-rd,slfri,7% yelorn min,pos~ ~id,15% gygrn ~x. 449 8942.3 0.40 23.9 0.3 85.9 2.80 SS-gyolvgrn,fgr,wsrtd,sbrd-rd,~lfri,po~ m~r sid,20% gygrn ~x. 450 8943.3 0.44 17.8 3.4 73.7 2.75 SS-gygrn,vf-fgr,wsrtd,~brd-rd,~lfri,3% gygrn ~lty mtx. 451 8944.:3 0.92J 2.10 17.1 4.1 77.3 2.79 20. SS-gygrn,vf-fgr,w~rtd,~brd-rd,~lfri,pos$ m~r ~id,5% gygrn ~lty n~x. 452 8945.4 0.10 11.9 8.9 78.2 3.01 SS-gygrn,vf-fgr,wsrd,~brd-rd,wcn~d,poss ~id cm~d,7% gy§rn ~x. 453 8940.8 0.81 0.7 0.2 84.9 2.80 CGL-ltolvgy,40% vf-fn plbs,m~x vf-mgr,posrtd,po~$ sid cmt. 454 8947.5 3.33 25.5 3.0 90.4 2.83 SS-gygrn,vf-mgr,mod wsrtd,~brd,vfri,poss nmr ~id,5% gygrn slty ntx. 455 8948.3 0.15 14.9 4.4 73.9 3.08 SS-ltolvgy,vf-fgr,w~rtd,sbrd-rd,wcmtd,poss ~id,2% gygrn ~lty mtx. 450 8949.3 3.55 24.4 9.1 85.2 2.75 SS-ltolvgy,vf-fgr,nnr slt,w~rtd,~brd,fri,1% grn min. 457 8950.3 0.00 11.0 5.1 80.4 3.08 SS-ltolvgy, vf-fgr,wsrtd,$brd,wcn~d,pos~ sid ¢m~,2% grn min. 458 8951.8 0.05 8.7 11.0 70.9 3.09 SS-ltolvgy, vf-mgr,m~d wsrtd,~brd,wc~d,poss sid cmt,2% orn min. 1 - 7 SURFACE CORE GAMMA LOG Gr in Density Histogrem tOO 9O BO 7O 6O 5O 4O 3O 2O ,10 0 2.60 90 BO 7O 60 5O 4O 3O tO 2.75 2.90 3 . 05 3.20 3.35 0 3.50 Grain Density: gm/cc ARCO ALASKA. ]~NC. WEST STORKERSEN EXPLORATORY Exploratory (85L9.0 - 8953.5 feet) Core Labora~ortee 27-APR-Lgsg - LE6END - Hedten Value (2.78) ............ Art~h. Average (2.86) CumuZe~tve Frequency t76 SampZee ..;J C Q~ U Company : ARCO ALASKA, INC. Wel 1 .' WEST STORKERSEN #1 CORE LABORATORIES Field Formation : EXPLORATORY : EXPLORATORY File No.: BP-3-133g Date : 27-APR-lg8g TABLE I SU##ARY OF CORE DATA ZONE AND CUTOFF DATA ZONE: Identification Top Oepth ................ Bottom Depth Number of Samples Exploratory 8519.0 ft 8953.5 ft 177 DATA TYPE: Porosity Permeability (HELIUM) (HORIZONTAL) Kair CUTOFFS: Porosity (Minimum) Porosity (Maximum) Permeability (Minimum) --- Permeability (Maximum) --- Water Saturation (Maximum) Oil Saturation (Minimum) - Grain Density (Minimum) -- Grain Density (Maximum) -- Lithology Excluded 0.0% 100.0 % O. 0000 md 100000. md 100.0 % O.O% 2. O0 gm/cc 4. O0 gm/cc NONE CHARACTERISTICS REMAINING AFTER CUTOFFS ZONE: Number of Samples Thickness Represented - POROSITY: Storage Capacity Arithmetic Average .... Minimum Maximum Median Standard Oeviation .... GRAIN DENSITY: Arithmetic Average .... Minimum Maximum Median Standard Deviation 176 176.0 ft 3008.1 ~-ft 17.1% 5.8% 28.1% 15.8 % +5.0 % 2.86 gm/cc 2.65 gm/cc 3.49 gm/cc 2.78 gm/cc · _0.22 gm/cc PERMEABILITY: Flow Capacity 447.4 md-ft Arithmetic Average .... 2.60 md Geometric Average 0.60 md Harmonic Average 0.19 md Minimum 0.01 md Maximum 21B. md Median 0.58 md Standard Dev. (Geom) -- K.IO*0''600 md HETEROGENEITY (Permeability): Dykstra-Parsons Var. -- Lorenz Coefficient .... 0.657 0.809 AVERAGE SATURATIONS {Pore Volume): Oil Water 5.9% 83.7 % Stat 1 - 1 r' N .H iO00.0 Permeability vs. Porosity iO0.O iO.O i.O 0.! O.Oi 0.00! + + + + + ++ + + -t- + + -I- -I- + -t-t' +"~ i- .+ +:1: + + j. fi+++ + + + ~: + + ++ + ++ + '~. ++ + + +++ + + ++ + + + 4. + + i- ++ + + + + + + + + + 5.0 iO.O i5.0 aO. Helium Porosity: 25.0 ARCO ALASKA. ]::NC, HEST STORKERSEN EXPLORATORY Exploratory (8519.0 - 8953.5 feet) Core Leboratortee 27-APR-t989 - LE6END - Exploratopy 3O 0 I I I I I I I I I I I k tOO 9O Permeability Histogram tO0 BO 7O 6O 50 4O¸ 3O 2O KO 0 · 006 .02 .09 .35 Honizon~a~ Permeability ARCO ALASKA. lNG, WEST STORKERSEN EXPLORATORY / t.4t 6. 23. (Air'): md I I _ 9O I Bo / / 70 / / 50 40 30 20 KO 0 I 362. Exploratory (85t9.0 - 8953.5 feet) Care Laboratoriae 27-APR-tgB9 - LEGEND - Hadian Value (0.575) ............ Geom· Average (0.59E) ~Cululattve Frequency -- -- -Cumulative Capacity Lolt t72 galWlae 4J C [J [.. f.J O. I i I tOO Porosity Histogram _ 9O GO 70 GO 5O 4O 3O 2O tO 5.0 ? // / / t3.0 t7.0 2t. 0 25.0 90 GO 7O 60 50 40 3O 20 Helium Porosity: % LO 0 29.0 c~ ARCO ALASKA. ]:NC. WEST STORKERSEN #i EXPLORATORY Exploratory (85t9.0 - 8953.5 feet) Cora Laborator~aa 27-APR-t989 - LEGEND - Midian VI[ua (t5.8) ............ Arith. AvirIOI (t7.t) ~Cumu[attva Frequency -- -- - Culu[ativa Capacity Loat III I I I II I I I II II I m m m m m m m m m CORES I ~ AND 3 WEST STORKERSEN #1 EXPLORATORY Core 1, 2, and 3 (8519.0 -8898.8 feet) Core Laboratorlee 2?--APR--1888 Vertical Scale 5.00 In = 100.0 ft Sand.tone - Llthology Legend - Mud.tone ~ Cong 1 omo rat · Ge Core Gamma lO0 m I I Horlz Kalr md 500 0.~1 . . . Depth Feet 8500 8550 eeeeeeeeeeeeeeeee 'e*eeeeeeeeeeeeee eeeeeeeeeeeeeeeee eeeeeee®eeeeeeeee eeeeeeeeeeeeee®ee eeeeeeeeeeeee®eee eeeeee®e'ee.ee'ee eeeeeeeeeeeeeeeee eeeeeeeeeeee'eeee eeeeeeeeeeeeeeeee eeeeeeeeeeeeeeeee eeeeeeeeeeeeeeeee 'eeeeeeeeeee®e~ee eeeeeeeeeeeeeeeee ee~eeeeeeeeeeeeee '.:.:.:.:.:.:.:.: eeeeeeel eeeeeeeeeeeeeeeee eeeeeeeeeeeeeeeee eeeeeeeeeeeeeeeee esee®eeeeeeeeeeee .'.8850.'.' lee. Ieee eeeeeeeeeeeeeeeee eeeeeeeeeeeeeeeee eleeeeeeeeeeeeeee 'Ieee.'.eel. Ieeee eleeeeeeeeeeeeeee eeeeeeeeeeee®elee eleeeeeeeeeeeeeee eleeeeeeeeee®eeee eeeeeeeeeeeeeeele eeeeeeeeeeeeeeeee eleeeeeeeeeeeeeee eeeeeeeeeeeeeeeee eeeeeeeeeeeeeeeee eeeeeeeeeeeeeeeee eeeeeeeeeeeeeeeee eeeeeeeeeeeeeeeee eeeeeeeeeeeeeeeee eeeteeeeeeeeeeeee eeeeeeeeeeeeeeeee eeeeeeeeeeeeeeeee ,:.:.:.:.:.:.:.:.: "~¥o'o'.:.: 0 · Cum. Cu rye Hel lum Poros!t¥ 30JO. , Water Sat: X 011 Sat: ~ Grain Den 100 2.80 gm/oo a.5O r IO' CORE 4. · WEST STORKERgEN itl EXPLORATORY Core & (8894,0 - 8953.5 feet) Care Laboratorlae 27-APR-18a$ Care Laboratorle. 27--APR-1888 Sand.tone - LJthology Legend - Hud.tone ~ Vertical ScQJe 5.00 in = 100.0 ft Cong J ornerat · Care Gamma Horiz Kair md $00 , , 7OOlO-O,' Cum. Cu rye Watar Sat: X Depth Helium Porosity Oil Sat: X Grain Den Feet O. ~ 30lO.' , , 100 2.80 gm/cc ~.50 · · , I I I .~:- _ · · · · · e e e '.®,lee'el.'®leee ,, ~-~%.~. :... :: S'S . . . , . eeO.eeO.ese.eeOe eeeeeeeeeeeeeeee eeeeeeeeeaeeeeee eeo.eel.'lee'eeo· eeee®eeeeeeeee®e eeeeeeeeeeeeeee. eeeeee®®eeeeeeee® eeeeeeeeeeeeee'e eeeeeeeeeeeeee'e eeeeeeeeeee®eeeee eeeeeeeee~e~eeeee eeeeeeeeeee®eeeee eeeeeeeeeeeeeeee eeeeleeeeeeeee®ee :.:.:.:.:.:.:.:. .eeeeeeeeeeeeeee .:.:.:.;.:.:.:.:. eeeeeeeeeeeeSeeee eeo.eeO®'eel'Il®® eeeeeeI eeee.e · lee ee®eeeee®eeelee®e eeeeeee· eeeee · eeo "~'~'o':::: eeeeeeemleeel®e', CO ,IFIDENTIAL WEST STORKERSEN #1 CORE DESCRIPTION Core #1 - 8519-8577 - cut 58', recovered 48.5' -45' black, pyritic shale, 3.5' siltstone to very fine sandstone Core #2 - 8577-8638.5 - cut 60', recovered 61.5' - poorly sorted sandstone to siltstone, pyritic and glauconitic in part Core #3 - 8638.5-8699.7 -.cut 60', recovered 61.2' - well-sorted fine-grained sandstone ' Core #4 - 8894-8953.5 - cut 60', recovered 59.5' - mottled, fine-grained sandstone WEST STORKERSEN #1 20"@ 110' 13-3/8", 68#, L-80 & K-55 SET @ 2789', CMTD W/ 1250 SX PF E & 600 SX PF C, TOP JOB W/127 SX PF 10.4 PPG BP SET@ 205'W/PFC CMT TO SURFACE TOP TAGGED @ 2606' W/100 SX (50') PFC crv' RET SET @ 2719' 200 SX PFC CMT BELOW BOTTOM OF CMT PLUG @ 2900' POTENTIAL HYDROCARBON ZONE F/ 8567'-8640' TOP TAGGED AT 8360' CEMENT PLUG- 400 SX CLASS G MIXED TO 15.8 PPG 8690' 10.4 PPG 12 114" HOLE DRILLED TO 9146' 1. THERE WERE NO FRESH WATER ZONES ENCOUNTERED BETWEEN SURFACE CASING & TD. 2. THERE WERE NO HIGH PRESSURE ZONES ENCOUNTERED. 3. THERE WERE NO ADDITIONAL HYDROCARBON ZONES OTHER THAN THE INTERVAL F/8567'-8640'. (MWD LOG DEPTH). DM O3/29/89 CONFIDENTIAL West Storkersen #1 Well Activity Summary 02/28/89; Moving; 20" @110' Moved rig from L5ol to location and rigged up. 03/01/89; Moving; 20"@110' Moved rig from L5-1 to location and rigged up. 03/02/89; Moving; 20" @110' Moved rig from L5-1 to location and rigged up. 03/03/89; Moving; 20" @110' Moved rig from L5-1 to location and rigged up. 03/04/89; Day-1; TD: 110'; Progress' 00; 20"@110' Moved rig from L5-1 to location and rigged up. ,Accepted rig at 1630 hours on 3/4/89. NU diverter. Function test same. Mixed spud mud. PU BHA. 03/05/89; Day-2; TD: 1384'; Progress: 1274; 20"@ 110' Spud at 0500. hours on 03/05/89. Spud and Drilled and surveyed 17-1/2" hole to 1384'. Angle: 0° @ 500'; N00W 0.5° @990'; S31W 03/06/89; Day-3; TD: 2810'; Progress: 1426'; 20"@ 110' Drilled and surveyed 17-1/2" hole to 2810'. Circulated bottoms up. Began shod trip. Angle: 0.5° @1478'; S42W ~ "" ~'~ ~ 0° @1980'; N00W r,~.:' 1°~2481'; S12E , ' POH. RU Atlas Wireline and ran DIUBHC-AUGR from 114' to 2802'. RD Atlas Wireline. RIH and conditioned hole for casing. POH. Ran 71 joints of 13-3/8", 68¢, L-80 BTC R-3 and 2 joints of 13-3/8", 68¢, K-55 BTC R-3 casing to 2789'. with float collar at 2707' and float shoe at 2789'. 03/07/89; Day-4; TD: 2810'; Progress: 0'; 20"@ 110' CONFIDENTIAL West Storkersen #1 Well Activity Summary Preceded cement with 50 Bbl of water, mixed and pumped 1250 sx of Permafrost E cement mixed to 12.3 ppg, followed by 600 sx of Permafrost C mixed to 15.6 ppg. Had full returns but did not get cement back to surface, reciprocated the casing. Angle' 0.75° @2780'; S10W 03/08/89; Day - 5; TD: 2810'; Progress: 0'; 13-3/8" @ 2789' Bumped the plug with 2000 psi. CIP at 0330 hours on 03/08/89. Did a top job to 129' with 127 sx of Permafrost cement mixed to 14.9 ppg. ND diverter. Welded on starting head and tested. NU BOP and tested. PU 12-1/4" BHA. 03/09/89; Day-6; TD: 4105'; Progress: 1295'; 13-3/8"@ 2789' RIH. Tested casing. Drilled FC, cement, FS and 10' of new hole. Drilled and surveyed 12-1/4" hole from 2820' to 4105'. Angle' 1° @3170'; S33° 6'W 0.3° @3565'; S14W 1° @ 4013'; S56W 03/10/89; Day-7; TD: 5291'; Progress: 1186'; 13-3/8"@ 2789' Drilled and surveyed 12-1/4" hole from 4105' to 4854'. Trip for bit #6. Drilled and surveyed 12- 1/4" hole from 4854' to 5291' Angle' 4.4°@ 4229'; N62W 9.8°@ 4417'; N49W 15.2° @ 4604'; N45W 19.6° @ 4791'; N41W 24.5° @ 4979'; N50W 25.5° @ 5189'; N49W 03/11/89; Day-8; TD: 5991'; Progress: 700'; 13-3/8"@ 2789' Drilled and surveyed 12-1/4" hole from 5291' to 5823'. POH with bit #7. Pulled tight from 5186' to 4657'. Angle: 24.8° @ 5439'; N49W 24.1 ° @ 5725'; N48W CONFIDENTIAL West Storkersen #1 Well Activity Summary 03/12/89; Day-9; TD: 7123'; Progress: 1132'; 13-3/8"@ 2789' Drilled and surveyed 12-1/4" hole from 5991' to 7123'. Angle: 21.3° @ 5974'; N48W 17.8° @ 6253'; N47W 15.9° @ 6471 '; N48W 14.2°@ 6692'; N48W 12.6° @ 6915'; N58W 03/13/89; Day-lO; TD: 7674'; Progress: 551'; 13-3/8"@ 2789' Drilled and surveyed 12-1/4" hole from 7123' to 7630'. Circulated and tripped for bit #8. Drilled and surveyed 12-1/4" hole from 7630' to 7674'. Angle: 10.7° @ 7102'; N52W 8.8° @ 7353'; N58W 6.8°@ 7579'; N52W 03/14/89; Day-11; TD: 8495'; Progress: 821'; 13-3/8"@ 2789' Drilled and surveyed 12-1/4" hole from 7674' to 8495'. Angle: 4.6°@ 7898'; N56W 3.2° @ 8116'; N50W 03/15/89; Day-12; TD: 8554'; Progress: 59'; 13-3/8"@ 2789' Drilled and surveyed 12-1/4" hole from 8495' to 8519'. Circulated and POH. PU core barrel and RIH. Cut core #1 from 8519' to. 8554', Angle: 4° @ 8491'; N49W 03/16/89; Day-13; TD: 8602'; Progress: 48'; 13-3/8"@ 2789' Continued cutting core #1 from 8554' to 8577'; cut 58', recovered 48.5'. Circulated and POH. PU core barrel #2-and RIH. Cut core #2 from 8577' to 8602'. 03/17/89; Day-14; TD: 8637'; Progress: 35'; 13-3/8"@ 2789' Continued cutting core #2 from 8602' to 8637'.. Circulated and POH. RIH and opened 8-1/2" hole to 12-1/4". PU core barrel #3 and RIH. CONFIDENTIAL West Storkersen #1 Well Activity Summary 03/18/89; Day-15; TD: 8829'; Progress: 92'; 13-3/8"@ 2789' Continued RIH for core #3, cut from 8637' to 8697'; cut 60', recovered 61-1/4'. Circulated and POH. Tested BOP. RIH and drilled from 8697' to 8729'. 03/19/89; Day-16; TD' 8954'; Progress' 225'; 13-3/8"@ 2789' Drilled 12-1/4" hole from 8729' to 8894'. Circulated and POH for core barrel #4. RIH and cut core #4 from 8894' to 8954'; cut 60', recovered 59-1/2'. 03/20/89; Day -17; TD:9100'; Progress' 146'; 13-3/8"@ 2789' Circulated and POH for bit #11. RIH and drilled 12-1/4" hole from 8954' to 9100'. 03/21/89; Day- 18; TD'9146'; Progress: 46'; 13-3/8"@ 2789' Drilled 12-1/4" hole from 9100' to 9146'. Made short trip. Circulated and POH. RU Atlas Wireline and ran DII../SFL/GR/SP/BHC-AL from 9120' to 2789'. Ran ZDL/CNL/Spectralog/Temp logs. 03/22/89; Day -19; TD:9146'; Progress' 0'; 13-3/8"@ 2789' Finished running ZDL/CNL/Spectralog/Temp logs from 9084' to 2784'. Ran Diplog from 9116' to 7400'. RD Atlas Wireline. RIH and conditioned hole for VSP survey. POH. RU Atlas Wireline and ran VSP checkshot survey. 03/23/89; Day - 20; TD: 9146'; PBTD: 8360'; Progress: 0'; 13-3/8"@ 2789' Finished running VSP checkshot survey. RD Atlas Wireline. RIH with DP to 8690', break circulation. RU Halliburton. Pumped 10 Bbls of water, mixed and pumped 400 sx of Class G cement mixed to 15.8 ppg, followed by 2 Bbls of water. POH and LD collars and HWDP. RIH and tagged cement plug at 8360' with 25,000#. Witnessed by AOGCC representative. POH and LD DP. 03/24/89; Day - 21; TD: 9146'; PBTD: Surface; Progress: 0'; 13-3/8"@ 2789' Finished LD DP from 8360' to 2700'. POH. PU EZ drill retainer and RIH. Set retainer at 2719'. Stabbed into the retainer, mixed and pumped 200 sx of Permafrost C cement mixed to 15.5 ppg through the retainer. Pulled out of the retainer and dumped 100 sx of Permafrost C cement mixed to 15.5 ppg on top of the retainer. CIP at 1230 hours on 03/24/89. Calculated bottom of cement at 2900', top at 2606'. POH LD DP. Pressure tested cement and retainer to 1200 psi for 30 minutes. Witnessed by AOGCC representative. Finished POH LD DP from 2700' to 200'. CONFIDENTIAL West Storkersen #1 Well Activity Summary PU bridge plug and RIH. Set BP at 205'. POH LD DP. Cut off 13-3/8" and 20" casing 3' below ground level. RU Halliburton. Filled the 13-3/8" casing from BP to sudace with Permafrost C cement mixed to 15.5 ppg. Welded on P & A marker. Rig released at 0200 hours on 03/25/89, CONFIDEN1'IAL (301'IF'~ ARCO ALASI~ INC WELL I,IAI'H3 W, STDFC:H3RSO~ LOCATI~ 1 HORTH SLOPE ~TIOH 2 Pt~dD~F BAY, I'IAGNL~TIC DHCLIlqATI~ 31,50 DATE~ 21-1'!~-8 ~ WELL hUqBER 0 WELL HF, AD ~TION: LAT:H/-$) 0.00 AZII'IUTH FRO~ ROTAi~ T~].-3 TO T~ET IS TIE IN lq]It, CI'(TIP) I'[F.A..AtEdD DEPi'H 2810,00 TRU]3 UERT DEPTH 2810,~, INCLINATI~ 0,00 AZII'LrI'H LATITUDE(N/-S) O,O-D D]ZPARTURH(~/-W) 0,¢C, D~(HY-W) 310.~0 MEASL..REI) TNTERV~L V~TICAL 2810,C0 0,0 2810,~ 4013,C~ 447,9 ~12.92 4135,~0 1~,9 41~.80 4322.~3 44i7,07 4510,16 4604,19 4759,07 4855.C[ 4916.27 4979,~9 5.1.89,¢3 5438,68 5725,16 5974,5~ 6471,3I 6691,~a 6915.~D 7102,~} 7353,11 7b'78,77 78~8,02 8115,74 ~26,24 8607,76 8795.51 9145,00 93,1 4~-~o~ ?3,9 4322,23 94,1 4415,~ 93,I 94,0 4596.31 93,0 4687,44 61,9 4746,00 95,9 48.36,19 61.3 ~93.07 63,6 4~i,~ 115,7 .~g6,07 73,4 5140,47 249,7 5367,25 286,5 5628,5? 249,3 .5858,53 278,5 612t),88 218,3 6329,80 220,6 6542,87 223,! 6759,8~ I87,6 6943,55 250,5 7190,42 225,7 7413,~ 319,2 7731,62 217,7 7948,83 18&,l 8136,71 122,4 8258,~5 181,5 8440,16 187,8 8627,40 ~9,5 8975,89 W, STORI(~S:~ .i SUaVe' CALCULATIONE **.**.* RADIUS OF TARGET STATIDR AZI~JTH LATITUDE SECTION ft deg deg ft 0.00 0,00 0.00 1.29 1,02 213.56 -0.69 -0,06 0,35 173.84 -4,98 -0,52 0,97 2"'~.,64 -9,08 1,76 1,45 274.48 -8,44 DF.F'~:T~E DI~LACB~E~NT at AZI~ ft ft d~ 0.00 0.00 0.~ -2.27 2.~ ~3.~ -4.17 6.49 219.95 -7,~ 11,50 217,90 -9.52 12,73 ~8.44 6,07 4,41 298,21 -7,11 -14,05 15,75 243,15 15,17 6,81 309,22 -2,02 -21,68 21,78 264.67 28,70 9,7i 311,~3 6.74 -31,~ 32,69 281.90 45,93 11,62 312,47 18,27 -44.79 48,38 292,19 67,72 15.24 315,04 33.37 -60,57 69,15 298,85 94,07 17,97 320,83 53,09 113,71 19,60 319,34 68,37 146,12 20,27 317,22 92,79 166.79 Z3,32 312,~ 1~,85 194,56 24.49 309,73 125,82 DLE, deg/ l~,ft 0,~ 0,2~. 0,18 0,17 0,74 243,53 25.59 311.i3 157,~ 283,59 25,20 311,39 184,00 387.95 24,22 310,61 2:52,47 505.25' 24,14 311,74 329.73 601,6i 21.33 3t2,67 394,46. 3.37 2,79 3,10 2.06 3,90 694,87 17,~ 313,18 458,04 758.14 15,87 311,06 500,49 815,36 14,20 311.53 53~,25 867,08 12,62 312,23 572,79 ~5,01 10,71 308,03 597,23 -78,36 94,66 304.12 3,43 -91,14 113,94 306.87 2,75 -112,91 146,14 309.41 1,03 -129,0! 168.79 310,15 5,68 -148,40 194,56 310,29 2,62 947,26 8,82 301,11 621,34 977,81 6,83 307,59 638,68 1009,40 4,57 303,79 6b'7,17 1024,17 3,~ 310,45 6&6,10 I033,8~ 2,68 315,:35 672,70 '185,68 243.53 310.32 -215,79 283,59 310,45 -294,56 387,95 310,60 -382,89 505,30 310,73 -454,26 601,63 310,97 1039,37 2,49 308,07 676,37 1049,98 4,21 306,95 682,84 1063,77 4,24 314,42 691,84 1090,04 4,41 317,20 710,74 1,08 · 0,43 0,41 0,16 1,14 -522.62 694,93 311,23 1,25 -569,57 758.~ 311,31 0,95 -612,56 815,44 311.31 0,76 -651,06 867,17 311.34 0,71 -680,08 905,10 311.29 1.11 -715,06 947,30 310.99 -740,42 977,82 310,78 -766,17 100~,40 310,62 -777,97 I024,17 310,57 -785,07 1033,86 310,59 -789,19 1039,38 310.60 -797,6! 1049,98 310.57 -808,09 1063,79 310,57 -826,46 1090,04 310,70 0,89 0,96 0,72 0,65 0,33 0,31 0.95 0,29 0,08 CONFtDEI T AL WELL HEAD LOCATION: L~T[N/-$) ~IMtFi~ 1~ I:~P~Y T~LE TO T~ET IS TIE IN POINT(TIP) : D~(~/-W) 0.00 310.~0 4228, ~9 4322,93 44i7.07 4510,16 4~4,17 4697,2[ 4759,07 4855.¢[ 4916.77 4979.~9 5189,C:3 5725,16 5974.50 6253,~:, 6471,31 6691,~ 6915,~D 7102,~} 7353,11 7578.79 7878,02 8115.7~ 83D3,$7 ~26,2; 86~7,76 8795.51 9145,00 ~.9 4~,.2,23 94,I 4415,3I' 93,1 4506,86 94,0 4596,31 93,0 4687.44 61,9 4746,00 95.9 4836,19 61,3 4893,07 63,6 49~i.23 115,7 ~.56,07 ~.4 5140.47 249,7 5367,25 2~5.5 5628,57 249.3 5858,53 278.5 6120.88 218.3 6329.80 220.6 6542.87 ~2'J.! 6759.8~ 187.6 6943.55 250.5 71~0.42 225.7 7413.99 319.2 7731.62 217.7 7948.83 18&.1 8136.71 122.4 181.5 8440,16 187.8 ~27,40 ~9.5 8975.89 W. s'rDPJ(BRS'.~ ,i ************* AN~Z,~iLL :~**.~** ~m CACCULATIDNE RADIUS O? ?~EFGET STATIOh' AZI~]TH LATI?UD~ $~CTION IHCLN. N/-$ ft deg deg ft O.OO O,OO 0,00 0,,~ 1,29 1,02 213,5~. -0,69 -0.52 0,97 236,64 -9,08 1.76 1,45 274.48 -8.44 D~'~T~E DISPLACEMENT at F~-W ft ft 0.00 0.00 -2.29 2.39 -4.17 6.49 -7.06 11.50 -9,52 12,73 AZIMU~ deg. 0,00 253,22 219 217,~0 228,44 6,07 4,41 298,21 -7,11 15,17 6.81 3(79,22 -2,02 26,70 9.7i 311,53 6,74 45.93 11.62 312.47 18.27 67.72 15.24 315,04 33.37 DLS deg/ 0,00 0,28, 0.18 0.17 0.74 94.07 17,97 320,83 53.09 113,71 19,60 319,34 68,37 146.12 20,27 317.22 92.79 166,79 ~,32 312,66 108,85 194.56 24.49 309.73 125.82 -14.05 15.75 243.15 3.37 -21.68 21.78 2~.67 2.79 -31.99 32.69 281.90 3.10 -44,79 48.38 292.19 2.06 -60,57 69,15 298,85 3,90 243.53 ~.59 311.i3 157.58 283.59 25.20 311.39 387.95 24.22 310.61 252,47 505,2'7 24,14 311.74 329,73 601.61 21,33 312,67 3~4,44 -78.36 94.66 30.1.12 3.43 -91.14 113.94 306.87 2.7~ -112.91 146.14 309.41 1.03 -129.01 168.79 310.15 5.68 -148.40 194,56 310.29 2.62 694.87 17.~4 313,18 458.04 758.14 15.87 311,06 500.49 815.36 14.20 311,53 538.25 867.08 I2.62 312.23 572.79 905.01 10.71 308.03 597,23 -185.68 243.53 310.32 -215.79 283.59 310.45 -294.56 387.95 310.60 -382.89 505,30 310.73 -454.26 601.63 310.97 947.26 8.82 301.11 621.34 977.8t 6.83 307.59 638.68 100~.40 4.57 303.79 657.17 1024.17 3.23 310.45 656.10 1033.86 2.68 315,35 672.70 1.08 . 0.43 0.41 0.16 1.14 1039.37 2.49 308.09 676.37 1049.98 4.2I 306.95 682.64 1063.79 4.24 314.42 691.84 I090.04 4.41 317.20 710.74 -522.62 694.93 311.23 1.25 -569.57 ~.22 311.31 0.95 -612.56 815.44 311.31 0.76 -651.08 867.17 311.34 0.71 -680.08 ~05.10 311.29 1.11 -715.~ 947,~ 310.9~ 0,89 -740.42 977.82 310.78 0~96 '766,17 100~.40 310.62 0,72 -777.97 1024.17 310.57 0,65 '785,07 1033,86 310,59 0,33 -789.19 10~9.38 310.60 -797.6! 1049.98 310.57 -808.09 1063.79 310.57 -826,46 1090.04 310,70 0.31 0.95 0.29 0.08 WEU, ~ LOCATIOH: I~T;M/-$) 0.00 ~IMLrl~H FRNDM RO'I'~Y T~L£ TO TAJ~G~ IS TIE IN ~IhrI'(TIP) : ~ DtDvTH 2810.00 ~ ~ DIDD"I'H 2810.¢0 I~LI~TI~ 0.00 ~II')LrTH 0.~ I, ATITU1)£(I,V-$) 0.0~ DEPAR'II..IU~(E/-W) D~(F./-W) 310,.50 TAR1;ET STATIOH AZII'LITH lATITUDE SIal'ION It,~H. I,i/-S ft (leg deg 0,00 O,(X) 0.00 0.00 1.29 1,02 213,56 -0,67 -0,06 0.35 193,84 -4,98 -0.52 0.97 236,64 1,76 1.45 -. 7.74,~ -8,44 · 6,07 4,41 298.21 -7.11 15,17 6.81 309.22 -2,02 2&.70 9,7I 311,53' 6.74 45.9'3 11,62 312.47 18,27 67,72 15,24 315.04 33.37 i)EPAReTLIR:E DISPLPCEMB~ at E/-W ft ft 0,00 0,00 -2,29 2,39 -4.17 6,49 -7,06 11,50 -9.52 12,73 -14.05 15.75 -21,68 21,78 -31,79 32,6? -44,77 48,38 -60,9 69,15 deg 0,00 253.22 219.95 217,90 228.44 243.15 264.67 281 .~ 292.19 298.85 lOOft 0,00 0.2a 0,18 0.17 0,74 3.37 2,79 3,10 2.06 3.90 4697,21 4759,11 4716.27 4979.89 93.0 46~7.44 61.? 4746.03 95,9 4836,17 61,3 4893.05 63,6 4951,20 ?4.07 17.97 320.83 53.09 113.76 19.65 318.72 68.3:3 146.22 0.27 3 .22 2.m 312. 1 .70 19q. 24,49 .73 5095,60 115.7 5056,05 243,63 25,59 311,13 5189.03 ~,4 5140,44 283,69 25,20 311,39 .5438.68 249,7 5367,23 38~,05 24.22 310.61 5725.16 2&6,5 5/~,57 ~)5,39 24,14 311,74 5974.50 249.3 5858.51 ~1,71 ' 21.33 312,67 - 6253,¢~ 278.5 6120.86 694.97 17,84 313,18 6471,31 218,3 6329.78 751,24 15,87 311,06 6691.94 220.6 6542.85 815.46 14.20 311,53 6915,00 223.1 6759.83 867.18 12,62 312.23 7102.60 187,6 6943.53 905,11 10,71 308,03 7353,11 7578,79 78~,02 8115.74 8303.87 250,5 7190,40 225,7 7413,97 319,2 7731,60 217.7 7948,81 188,1 8136,69 181,5 8440,13 187.8 8627.38 8426,24 8607,76 8795,51 -78,36 94,~ 304,12 3,43 -91,25 114,00 306,83 2,9'2 ·-113,17 146,25 309,30 0.84 -129,26 168,89 310,06 5,68 -14~,66 174,66 310.21 2,62 157.44 -185.93 243,63 310,26 183.85 -216.05 283.69 310,40 2~2o33 -294.81 388,05 310,56 329°59 -383,14 505,40 310.70 394.32 -454,52 601.72 310,94 457,89 -522.87 695,03 311.21 500.34 -569,82 758,31 311.29 538,10 -612.62 815,~I 311.29 572,64 -651,34 867,27 311,32 597,0? -680,34 905,19 311.27 947,36 8,82 301,11 621.19 977,?1 6,83 307,59 638.53 1009,50 4.5"/ 303,79 657,03 1024,27 3,23 310,45 665,96 1033,96 2,68 315.3~ 672,56 103%47 2.49 308.09 676,~ 1050,08 4,21 306.95 682,69 1063,89 4.24 314.42 691,70 -715,31 947,39 310,97 -740.68 977,92 310,76 -766,42 1009,50 310,61 -778,23 1024,27 310.55 -785,~ 1033,96 310,58 -789,45 1039,48 310.58 -797,~7 1050.08 310,55 -808,34 1063,89 310,55 1,08 0,43 0.41 0,16 1.14 1,25 0,95 0,76 0,71 1,I1 0,89 0,96 0,72 0,65 0,33 0,31 0.95 0,29 I! I. BA, SIS OF HORIZONTAL LOCATION IS PAD T MONUMENTS PER NANA SURVEYING AND U.SGS. MONUMENTS KUPAR 8 STARKER. 2 BASIS OF ELEVATION IS PAD T MONUMENTS PER NANA SURVEYING. $. COORDINATES SHOWN ARE ALASKA STATE PLANE ZONE 4, N.A D. 27. ARE M.S.L. DATUM. CONDUCTOR NO. I Y= 5,995'375. 89 X= 645,655.66 LAT. = 70°25'21.519'' LONG. = 148°48'55.080" 857' F.S.L. 17TO' F,W.L. WEST STORKERSEN 15'12'IS;WELL NO.I IS LOCATED WITHIN PROTRACTED SEC. 15, T. 12N.,R. 15E.,U. M. TOP OF CONDUCTOR ELEV.= 20.6 i 20 2t 28 16 15 21 22 1770' SCALE: I: 1800 _ SCALE: I: I00,0-00- I TOP PAD= 19.1 SURVEYOR'S CERTIF'ICATE I HEREBY CERTIFY THAT I AM PROPERLY REGISTERED AND LICENSED TO PRACTICE LAND SURVEYING IN THE STATE OF ALASKA AND THAT THIS PLAT REPRESENTS A SURVEY MADE BY ME OR UNDER MY DIRECT SUPERVISION, AND THAT ALL DIMENSIONS AND OTHER DETAILS ARE CORRECT A9 OF FEBRUARY 22 1989. POtNT STORKERSEN 33 VI¢INtTY . . . WEST STORKERSEN '"~,' i 26 '" '25 r~. ~ ",.,'" ' 56 ("-" 31 , ~ TI2N'% "' ~,.X. TIIN N.. MAP BEECHEY PT. (B.SB4) ARCO ALASKA,INC. DWG. NO.: CEA-MIXX-601d55 SHEET 201 ARCO Alaska, Inc. WEST STORKERSEN WELL NO. I CONDUCTOR AS BUILT Dr. l~.y.' O.C.S. $,~t. I ~ I D~te.' 2-22-89J D~g. ~o..' NSK 6.01-d~ Date Deecr/pt/on Teshekpuk UFORT FI IAL- SEA Borter IS. -- L_~.~"'"..'"" :: ~ .--' -'*,'"',' 5'/ G,~,, ~ 5'/ / ~ ~,~. OF At _~ · ff~,..' ~ '.~_-. W~T ~eeeeeeeeeeeee,e~eeeeeeeeee~ ., ~ , ~:~..............:~ ,. ~ ~s. )a' '"' "ARCO ~~ka', M~ ~= /I ' ' ' · ~ ,~ ~o WEST sTORKERS~N WELL I · ' .,.~ ~ ~~~ ' /C~ ROAO LOCATION II , .'ST STORK£RSEN '~ *~ EXPLORATORY DRILl. I. BASI~KOF ~OCA~IO~ IS U.S.C. ~ G.S. MON. ..UPAR' AND DRILL PAD T ~O.R~ SITE (ICE ROAD 8 PAD) MON. T.2 PER NANA SURVEYING. 15 14 ~. GOORDIN~VES SHOWN ARK A~ASKA 16 15 ~ ,~G S~A~ PLANE ZONE 4~ ~A.D. 2?. '. ICE ROAD ALIGNMENT ~O.B. Y= 5,9~9,29E X= 647, 964 ~...~ RI.'3 Y=5, gE/~ 697 X =6~7~ ~6/ . ~/..~ Y=5,985~37/ X =6~5~ 603 ~ ~1.'5 Y=5,~Eg,739 X=G46, 138 ~l.'G Y=5, gDO, 916 X=64 5,484 E.O.~ Y =5,9 92,963 X= G 4 THE ~CE ROAD /S CONSTRUCTED AVERAGE ~/DTH OF 3B FEET. ? ~ I I~ su~v~ro~ C~/~/CA ~ ~1 ~ ~ ~ ~ ): ~[~ ~--~ ~~eeeleeeeeeeeeeeeeeeeeeeee~ I ~~ X ~ ~ ~ ~/ ~. ~amD. /"-/'=~' ~[ ~ ~ ~~ ~( L~ 'e~". ~-6299 . ~ "I~~ ' ~ ~(~ 4' ARCO Alaska, Inc. ~ · ' ......... o,,. ,o..., [OUNSBURY & ASSOCIATES. INC. NS~K .W~O0' C~/.W~XX' ~010~7 ~HT PO~ ~ TW~ I~ N. ~E~ · ~A~ · ~ev. By Dot~ Description Dote.'3.P$.89~ Dw9. No..'NSKG. OI AOGCC GEOLOGICAL MATERIALS INVENTORY LIST PEFIMIT # ~,,~ - COMPL_E-riON DATE '-~ I ~"-! ¢PY CO. CONTACT & NO. . ~/~C~ form received received da~e comments ~ , 407 y.~~ _.. no ~/,~/~~ completion report 403 yes no sundry application 404 yes no report of sundry application Open required received Cased requi~'d--r~ceived ProdUctior required received' hole lo~ hole log . lo~ .. , MUD ~ '~'" GCT TE~P DIUS~ ~/ ~ / CNL P~OD D~ CBT ...... pRE~ B~cIsL 'C~ SPINNER '-B~~- ' ~ ~ ~ -~ ~ " OTHER DATA ' LSS PERF Su~ey nEC sss " Data , ~C- Well CNL Te~t~ ..... m ~ required received SAMP~S required received MWD ..... , ~ , LDT!CNL m m ML core CYBER core LOOK ~Analysis . I AOGCC DETAILED WE~,L LOG INVENTORY PERMIT NO. y ? - / f~/ LOG TYPE RUN # INTERVAL SCALE · , 05) ., ,, 6 / o~/// .. 07) , , 09) ~t~ ~ yr~ /- Y//~' ~" 13) 15) 16) 17) 18) , , ARCO ALA,S'KA, Iix!r.,'~ DEVELOPMENT GEO$CIENCE I'RAN~MITTAL TO' JOHN BOYLE ADDRESS' AOF=C SOOi F'ORCUF'INE ANCHORAGE.. AK 995.~I FROM' CRAIG F~ MOSELEY-- AAI APRIL 7,1989 TRANSMITTED HEREWITH ARE THE F'OI..I..OWINC~' 1 BI..,I SEPIA EACH & i TAPE & LISI'INC, ARCO' W. ~TORKERSEN NO,t 0S--2t--89 DIFL/TVD 0S-2t-'89 BHC/TVD ~S--~2--89~ _, ,S"2 t -89 2t -89 Z-DN$--NEU/TVD SF'ECTRAL. G/TVD 4-ARM DIPLOG 0-8948 2' & 5" RUNS t,2 0.-8916 ~..~' & .= ~=" RUNS t,2. 2784-89~8 2' & 5" RUN 2 72S6-89t4 2' & 5' RUN 2 7398-913t 2" & 5" RUN TAPE & I..ISTING 2735-9127 OPEN HOLE RUNS i,2 ~~.. RECEIPT ACKNOWLEDGMENT' RE:TURN RECE:IF'T TO: ARCO ALASKA, INC, DEVELOPMENT GEO$CIENCE ATTN: I_UCIL. LE JOHNSTON F'. O. BOX t~es6e ANO-879E ANCHORAGE, ALA£KA' 995~) F'ROCESSED BY' I..UC,'II..I_E JOHN,S'TON .i .. aRCO ALASKA. INC, DEVELOPMENT GEO~°C IENCE TRANSMITTAL TO: JOHN BOYLE - AOGC ADDRESS: 3OO1 PORCUPINE DR. ANCHORAGE, AK 99501 FROM: CRAIG G. MOSELEY- AAI APRIL 6~ 1989 TRANSMITTEI) HEREWITH ARE THE FOLLOWING: 1 BL & 4 SEPIA EACH ARCO: WEST STORKERSEN NO. 4 0;3-08-89 . GR-RE$IST/TVD 2800-9t 48 2" 0~-08-89 GR-RE$I ST/MD 2800-94 48 2 · 03-2~-87 Z-DN$/NEUTRON 2784-9408 03-2t-89 DIFL-GR 0-74t8 8;3-2~-89 BHCA-GR ~-9086 8;3-22-89 SPECTRALOG 2784-9084 03-22-8~ DIPLOG 7488-9416 2" & 5" 2I & 5l 2' & 5' 2' & 5' 5' RECEIPT ACKNOWLEDGMENT: RETURN RECEIPT TO: ARCO ALASKA, INC. DEVELOPMENT GEO$CIENCE ATTN: LUCILLE JOHNSTON P. O, BOX t0~);364') ANO-8?gE PROCESSED BY: LUCILLE JOHNSTON -MEMORANDUM TO: THRU: State uf Alaska A2~AStiA OIL AND GAS CO!~SERVATION COt¢.~ISSION Lonnie C Smi Commissioner Michael T Minder Sr Petroleum Engineer DATE: March 30, 1989 F~LE NO: D. HP~H. 94 TELEPHONE NO: SUBJECT: Wel lbore Plugs AAI W Storkersen Permit No. 89-1 Exploratory Sec 15, T12N, R13E, FROM: Harold R Hawkins Petroleum Inspector · rzday, ~arch 24, 1989: i witnessed tagging of the bottom hole plug ane wztnessed the pressure test of the 13 3/8 x open hole plug on W Storkersen #1. I filled out an AOGCC field report which is attached. In summary, of the two plugs I witnessed on this well, the plugging of AAI W Storkersen #1 was performed satisfactorily. At tachment 2-001A (Rev. 8/85) 4Y80 Lease No.i~-~P ~ Well No ~ Total Depth ///~. Elevation .//~ /, A/ 'A OIL & GAS CC;.SERVATION CO.~::{I ON Plug & Abandor~nent Report Drilling Pe=it / / . Cas ing: Drive Pipe ~/P~ "O.D. Set at Conductor ~ ~ "O.D. " Intermediate. ~///~ "O.D. @ Plugging Data: Ft. w/ ~///z~ Pene. Ft. Surface /~ "O.D. @~~ Ft. ~ 2. Open hole isolation plug: -/~//~ 3. Perforation plugs (if any):, /[./~ . 4. Annulus plugs (if any): -" s...ca~.i~.g st,,.b plugs-: ~.~'~..~ ~/h:,,p Z 4?5,/-/'~f- ~.B ?~ //~-/,~ l~ ~Z~z/? I Casing removal: ~/~ "casing cut at ' / / ? "casing cut at ' TEL NO: ~?P2~3ar~'~a #~ A8¢0 Alaska, Ino. 'i' .r. TELECOPIER COVER LETTER DAT~ TO: FAX FROM: WE ARE TRANSMIITINO ~ PAOB$ (t~X~INO THIS COVER LETrER) YOU Do ~ ~ Au, ~j,. ~a~?~~£ CALL SACX A~ soo~ AS General Purpose WorkIheet DRILLING 1 1 . Mud weighing at leasl 10,4 I~Pg ( tf that ts the maximum we!ght aohlevecl) wilt be left between all plug~. Note; Notify the A(:X3CC prtor to beginning the plugging operation. After logging, prepare, to plug end a~on the welt. Refer to the AOGCC regulations for aclditlonal information, Them am no fresh water zones, so the only zone of concern will be the l~tenttal hydma~on bearing zone at 8557' to 8640' (based on the MWO Plan to place a balanced oement plug from at least 8~90' to 8467', Cement blend is Class (3 with 0.25% CFR-3 and 0,1% HR,7 mixed to 15.8 ~ with a yield of 1.15 fi3/sx and $.0 gal H20/$x. Have. Halliburton ~k the prol~rtlea and adjust the ad. lye, aa needed. For ~rbett zones: a contlnuous plug must be plaoe¢l from 50' ~Iow the zone to 100' above the zone, Example calculation: Volume In 12-t/4" open hole 2~$'X 1,1'467 ft3/ft · 258,01 ~ (aaau~ t4,1/2' hole) 258,01 ft3 cllvfdecl by 1,15 ft3/$x - ~4,31li 8x 1 .1 WOO, RIH and tag the pl~ after setting, The legation and Integrity of the plug mu~t be ~nflrmecl by setting sufficient weight on the plug to Confirm its k:~ation, and that the ~ment nas set and a competent plug Is in place, Thio Is a~3~[~1.~igtJJJlJ~ In the ^OGCO regulations and should be done,The AOGC~ ma), or may not choose to oend a witne;~ for the tbandonment, If the plug I~ not tagged at the de~imd depth, place another plug and re- tag, The Interval above the plug must have mud with a 0enslty equal to the density that tt wa8 drilled v~h. PO.H laying down DP to approximately 2e00', Continue POH anti pick up a ~ment retainer, RIH with a cement retafner on DP and set no lower than 273g' ancl no higher than ID:PT~-~ORKERSDN DOYON9 TEL ~1J9 P02 7~ RolE)as~ from the retainer, re-sting and weight test, Pre~re to . ~ n aueeze a ~ment pl~ The lu volume i~ to be cal~ulateO ~aseo exten~ 100 felt below the ~t~ sh~ plu~ leave 50 feet on top of the retai~r, Ce~nt blond i~ Po~afm~ G mlxod to 15.5 p~ with a yJe~ of 0.94 fl3/ex Example Calculation: Assume retainer is s~t ~ ~73F. Volume In t3-3/8" ~.a~ing ~'X 0.8406 fl:aR - 42.03 fl3 42.09 frs dlv~ by 0,94 fie/ex · 44,71 Sx In !2-1/4" open hole 100' X 1.1467 ft3/ft ,, t 14,67 ft3 14-1/2' hot~) 114.67 fts dtvided by 0.94 ft3/eX - 121.99 Sx div~ by 0.~4 ft~/~x., 44.71 ~ ., Adj~mt the a~nount of cement a~ necel~r,/if the depth changeS. ~n.g Into the retainer &n~ cl~plaoe sufficient volume to fill the 13-3/8" c,~~ be~w the re~ne~' and 100 loot of o~n hole. Leave enough cement to pla~ SO feet on top of the ~'etaJner. Un~ng from the retainer and place the remaining cement on top of the retainer. Oi~ar DP of oement, lO, 11. Recoil_and report ceJcu~ f~p of the plug ancl the_ reteJ, nor s.etting depth. Procure te~t ~e plug to 500 p~! prior to setting the surface plu~. POH anti LDDP to approximately 150'. In order to drop the fluicl level, do not fill the hole, this ,~ould clmp the fluid level ~uffictentl~ to allow p~ment 'of me outface plug. Oontlnue POH and pick up a cement r~n~r. RIH with I~ cement retainer on DP and set no higher than 1~ .. Release from the retainer, re.sting and weight test. Prepare to place the surface plug in the 13-3."8" casing. POH, 2 H1~-24-' 9, ~:t: 40 r ID:PT~z(~ DOYOH~ Note; All casing heacls and wellhead equipment will be remove~ leaving just enough of a oa~lng ~tub to attach an abandonment marker. !4, Cut the 13.3/8' c.a~ng suoh that the ca,rig 8tub Is below pad level ancl an abandonment ~r can be attachecl. ND BOP and all ~sing ~0oels. Fluah ~,n.v remtdt,lal cement from the_wellhead. Note: A plug of et leaet 150' will be met In the 13-$/8'. tf there has been any settiing in the 13-3/8' X 20' annulus this should be topped off with ~e .ment also. 15. RIH with DP and pi~ce a oement plug In the '13-3/8' =asing, from the retainer to the au~a~, Cement blend Is Permafrost C mix~ to 15.5 ppg with a yield Of 0.94 ft3/~x and 3.75 gal 18. In~all ~ aba,,~3ement marker as ~pe0ifl~ in the AOGOG reguiatic)n~, a oopy of the al~proprtale I=~l;le Is atlached. KKL MEMORAN DU M State of Alaska TALASKA OIL A~.~ GAS CO~SERVATION CO~-~.~ISSION TO: Lonnie C Smith ~.~-~-~/'¢ April 12, 1989 * -t, .... /-- DATE: Commissioner,~ ~ FILE NO: D. BDF. 038 THRU: FROM: Michael T. Minder Sr. Petroleum Engineer Bobby D. Fos ' ' te~-~. Petroleum Inspector TELEPHONE NO: SUBJECT: BOP Test AAI - West Storkersen ~½1 Permit No. 89-14 Exploratroy Sec. 15, T12N, R15E Thursday, March 9, 1989, The test began at 2:00 am and was concluded at 4:30 am, i As the attached BOP test report shows, there was one failure. This is to be corrected and the AOGCC office notified. In summary, I witnessed the BOP Test on Arco's West Storkersen #1. Attn: I was notified by Ron Wilson, that the valve had been repaired and tested ok. ~j~.~ ? 02-001A (Rev. 8/85) 5/84 STATE OF ALASKA ALASKA OIL & GAS CONSERVATION COMMISSION B.O.P.E. Inspection Report D a t e - - ,',2:~ ". Representative Location: Sec Drilling Contractor~~t~n~ j Rig ~ "Representative ~),'/~/- Location, General ~ Well Sign~ ACC~LATOR SYST~ , General ltousekeep~ng ~- ~ig. ~ Full Charge Pressure ~0~ psig ~//~ Pressure After Closure / ~0 psig Reserve Pit Mud Systems Visual Audio Trip Tank Pit Gauge Flow Monitor Gas Detectors BOPE Stack Annular Preventer Pipe Rams · Blind Rams Choke Line Valves H.C.R. Valve Kill Line Valves Check Valve Pump incr. clos. pres. 200 psig. -- min~,~ sec. Full Charge Pressure Attained: ~ mtn ~ sec. Controls: Master ~c-~ ~ /- Remote ~,~ Blinds switch cove~,~,~ ~ , Kelly and Floor Safety Valves . Test Pressure" Upper KellM / Test Pressure ~/,_~--~ Test Results: Failures / Lower Kellz / Test Pressure Ball Type /' Test Pressure Inside BOP / Test Pressure Choke Manifold No. Valves No. flanges Adjustable Chokes / Hydrauically operated choke Test Time ~/~. hrs. Repair or Replacement of failed equipment to be made within / day~ and Inspector/ Commission office notified. ,~1 .- ~.- ../~.~ ' Distribution orig. - AO&GCC cc - Operator cc - Supervisor ARCO Alaska, ''~ ' Post Oft... Box 100360 Anchorage, Alaska 99510-0360 Telephone 907 276 1215 October 20, 1988 Mr. W. D. McGee Regional Environmental Supervisor Northern Regional Office Alaska Department of Environmental Conservation 1001 Noble Street, Suite 350 Fairbanks, AK 99701 Re: Permit Application for Disposal of Solid Drilling Waste at ExPloratory Drill Site West Storkersen #1 Dear Mr. McGee: ARCO Alaska Inc. hereby makes application for a solid waste disposal permit at the proposed exploratory drill site West Storkersen #1, located on an ice pad in the North Prudhoe Bay area as shown on the attached maps. An aerial photograph has been submitted which shows the area of proposed activity. The West Storkersen #1 drill site will contain only one below-grade drilling waste reserve pit as indicated on Figure 4-3, and only drilling wastes from this exploratory well will be disposed of at this location. It is estimated that up to 15,000 cubic feet of drilling waste may be generated while drilling the well, but no other drilling or domestic waste will be disposed of in this pit. ~ ~ This application provides for burial of the drilling waste at a depth of at least eight feet below tundra level, as stipulated by ADEC. This depth is submitted for approval only ~,~~l~~,,C E IV [ [~because this is an exploratory well and its permitting is time-critical. ARCO still maintains ~that freezeback (i.e., crystallization) of the solid waste will occur and be maintained at a depth of four feet or less below tundra. ARCO only agrees to incur the additional cost of OCT 2 '? l~c'~ constructing this pit with eight feet of freeboard in order to gather additional data to support the geotechnical calculations that show four feet of freeboard is adequate. Therefore, this 0i! & ~ t_:0ns~ ¢~r';~-~,~6~t application is not intended to, nor should it be construed to, waive ARCO's position " ~,~'~,,,,;--'.~-,~.-~ that it is unnecessary to bury the waste eight feet below tundra to achieve freezeback. An ice pad accessed by ice road was selected in an attempt to minimize any adverse land surface impact and still serve the objectives of searching for and evaluating new hydrocarbon accumulations. Total personnel at the proposed location at any given time during drilling operations is not expected to exceed 50 employees and contractors. There are no residents within two miles of the proposed location and no below-grade fresh water sources exist because of permafrost. As the operator of both the eastern half of the PBU and the KRU since inception, ARCO hereby certifies that it is familiar with applicable local ordinances, zoning requirements, and the Alaska Coastal Zone Management Program requirements in 6AAC50. JPG/88-035 ARCO Alaska, Inc. is a Subsidiary of AtlantlcRichfieldCompany Mr. W. D. Mc¢'t-- October 20, 198,, Page 2 This request contains the following items in accordance with 18AAC60.210: , 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. Cover Letter ADEC Solid Waste Disposal Permit Application Location Map Site Plan Development Narrative Physical Environmental Conditions Geotechnical Information Leachate Generation Evaluation Fluid Management Plan and Certifications Monitoring Plan Closure Plan Landowner Notification Coastal Project Questionnaire and Certification Statement If you have any questions about this application, please call Joseph P. Green at 265-6239. Sincereky~. /t ..'/-~J~.l ,q D. A. Hea~ole Vice ~e~dent Extem~ Aff~ ~ DAH//PG/sw Attachments cc w/o attachments: G. Akers, COE, Anchorage R. Cannone, ADEC, Fairbanks D. Germann, NSB, Barrow P. Gertler, USFWS, Fairbanks C. Johnson, NMFS, Anchorage W. Kakel, COE, Anchorage W. Mammeak, NSB, Barrow A. Ott, ADFG, Fairbanks B. Ross, EPA, Anchorage L. Smith, AOGCC, Anchorage J. Wharam, ADNR, Anchorage P. Wightman, ADGC, Fairbanks G. Zimmerman, ADNR, Fairbanks JPG/88-035 ARCO Alaska, Ir Post office 6ox 100360 Anchorage, Alaska 99510-0360 Telephone 907 276 1215 October 20, 1988 Mr. W. D. McGee Regional Environmental Supervisor Northern Regional Office Alaska Department of Environmental Conservation 1001 Noble Street, Suite 350 Fairbanks, AK 99701 Re: ARCO Alaska, Inc. West Storkersen #1 Liquid Waste Disposal Permit Request Dear Mr. McGee: ARCO Alaska, Inc. plans to drill the West Storkersen #1 exploratory well beginning in January 1989. It is also planned that all activities should be completed by May 1, 1989. The well will be located on an ice pad in the North Prudhoe Bay area. Site location maps are provided in the attached Plan of Operation. We propose to dispose of the drilling solids and liquids generated by the exploratory drilling activity on site. Dri~r~g waste liquids such as spent drilling mud, rig wash waters, snow melt, and other common drilling waste liquids will be hauled to an approved site or injected down the well annulus. The mud solids, drill cuttings, etc., will be buried in a pit for freezeback disposal. We will set the 13-3/8" casing at about 4000 feet SS and the fluids will be discharged down the deeper 9-5/8" annulus (between the 9-5/8" and 13-3/8" casing strings), as shown on Exhibit 1. The proposed injection zone is the Tertiary Sagavanirktok Formation sands as indicated on Exhibits 2 and 3. These subsurface formations are not now nor will they ever be used as a source for drinking water. By this letter we request that ADEC issue written approval to conduct the planned liquid disposal activities. If you have questions or need additional information, please call me at 265-6239. cc: L. Smith, AOGCC, Anchorage, w/o attachment JPG/88-034 ARCO Alaska, Inc. is a Subsidiary of AtlanticRichfieldCompany ARCO Alaska, Inc. P. O. Box 100360 Anchorage, AK 99510-0360 APPENDIX A PLAN OF OPERATION WEST STORKERSEN gl Approximately 857' FSL, 1770' FWL Sec. 15, T12N, R13E, U.M. WEST STORKERSEN #1 This Plan of Operation describes ice road and ice pad construction and other procedures necessary in drilling the exploratory oil/gas well West Storkersen #1 (Exhibit A). ARCO Alaska, Inc. (ARCO) will act as the Operator for the well. All support and services will be supplied out of Deadhorse, Alaska. The entire project should last from January 15 to April 15, 1989. 1. Existing Roads There are no existing roads in the area. 2. Planned Access Road ARCO will construct an ice road from this existing gravel pad to the West Storkersen location as shown on Exhibit B. The ice road will be approximately 4-6 in. thick depending upon topography and a minimum of 24 ft wide. The grade will be essentially flat (approximately 9 ft in 13,000 ft) except entering and exiting the frozen lakes, where gentle rises of up to 12 in. may occur. The ice road system will be maintained by ARCO. Location of Proposed Well Exhibit A shows the relative location of West Storkersen #1 to be in a remote area some 2000 ft east of the easternmost distributary of the Kupan~ River. 4. Well Site Layout. The proposed layout qf.t'he~ drill site is shown in Exhibit C. The project will utilize an ice drill pad with dimensions of 400 x 500 ft. A cross-section of the drilling location is shown on Exhibit D. 5. Location and Type of Water Supply Fresh water is needed for construction, drilling operations and camp usage. The primary source of water will be from approved lake sources in the area as indicated on Exhibit A. Water will not be taken from any rivers in the area. For ice road and pad construction, approximately 850,000 gallons (20,000 bbls) of water will be used. Ice road and pad maintenance will require approximately 20,000 gallons (500 bbls) of water per day. Approximately 50,000 gallons (1200 bbls) of water per day will be required for drilling operations. The camp will need about 5000 gallons per day (120 bbls). Total water usage for the access road and drilling is'estimated at 3.5 million gallons (85,000 bbls). Potable water will be processed through the drilling contractor's water purification system which meets the requirements set by the Alaska Department of Environmental Conservation. 6. Source of Construction Matefial~; Water and snow will be the only material required for road and pad construction. Sources are described in Item #5. No gravel will be required. . , Methoq!~ for Handling Waste Disposal a~ Solid non-burnable waste: Large enclosed containers will be delivered to and picked up from the drillsite by the North Slope Borough. Disposal will be at the NSB landfill. b, Solid burnable wasto: Solid burnable waste will be burned on site in a contractor-supplied incinerator in accordance with 18AACS0. This activity is necessary to reduce the frequency of hauled trash removal. Ashes will be buried in the reserve pit or hauled away. C. Camp waste water dispo,al: Camp waste water will be processed through the drilling contractor's waste water treatment system. This system will meet the requirements set forth by the Alaska Department of Environmental Conservation. Liquid by-products created by this system have been approved for discharge by the Department of Environmental Conservation. About 4000 gallons of domestic "grey" water is estmated to be discharged daily. Wastes produced by drilling operations are described below. Disr~sal of Dfillin~ Wastes - During normal exploratory well operations, drilling wastes generated consist of the following: drill cuttings, drill mud, cement and washdown water. Almost all of these wastes are conveyed to and stored in the "reserve pit" excavated below grade. At the end of the project, any pumpable liquids in this pit will be disposed down the well just drilled via underground injection if feasible. Liquid waste disposal via underground injection .wiI1 be possible by the approval of the AOGCC and an ADEC Liquid Waste Disposal Permit. The solid wastes remaining in the reserve pit will be disposed of by burial. These wastes should be contained in the pit by remaining frozen and should not pose any hazard to potential drinking water sources. a. Pit .Design The reserve pit will be excavated and shall have the dimensions shown in Exhibit B. The volume of the pit shall be approximately 20,000 bbls. Since the pit excavation will be done during the winter, the pit walls will have adequate structural stability to contain the intended solid and liquid wastes. Approximately 3500 bbls of solid and liquid wastes are expected to be generated during the 60-80 days of this project with most of it being injected down the well or hauled to an approved site. The liquid/solid level in the pit shall be monitored every 12 hours by rig personnel'tO maintain a minimum of 3 ft freeboard. At the end of the project, the wastes shall be buried under a minimum earth cover of 8 ft to allow freezeback and achieve permanent containment. b. Wastes Drill cuttings come from the wellbore being drilled. These solids, consisting mainly of clay and silt, are circulated from the bottom of the well to the surface where mechanical equipment separates and conveys them to the reserve pit. The solids control equipment is typically comprised of shale shaker, desander, desilter, conveyor belt, and mud cleaner. These pieces of equipment separate the liquid phase from the drill cuttings and the overall goal is to discharge as little liquid phase of the mud along with the solids as possible. It is estimated that about 1500 bbls of drill cuttings will be generated during the project. Normally, the drill cuttings discharged to the reserve pit are coated with drill mud. In addition, occasionally some drill mud is discharged to the reserve pit when the solids control equipment is overloaded. During the course of these projects, it is estimated that about 2000 bbls of mud will be discharged. The drilling mud proposed for these wells is a fresh water base with additives to maintain certain rheological and density properties. Tabulated below is a list of possible materials to the used and their application in the mud. These additives and their concentrations are included on the EPA approved mud list for OCS drilling. Oil-based muds will not be used. Additives Application Barite Bentonite clays and extenders Chrome free lignosulfonate Caustic soda Soda ash (sodium carbonate) Bicarbonate of soda Polyanionic cellulose polymers Aluminum stearate Biodegradable lubffcant Sodium carboxymethycellulose Partially hydrolized polyacrilimide copolymer Weighing agent Viscosifier Dispersant/thinner pH control Calcium removal/pH control Calcium removal/pH control Filtrate control/shale inhibition Defoamer Torque and drag reduction Filtrate control pH control/shale inhibition Viscosifier Occasionally, fresh water is used to wash down the solids control equipment as well as other rig mechanical equipment and this "washdown" water will be collected and pumped to the reserve pit. Attempts will be made to minimize this washdown water amount and, at the same time, allow for a safe and clean working environment. Additional amounts of water are used to wash the drill cuttings before analyzing them for geoscience purposes. In drilling operations, cement is used to grout the steel casing used in the wellbore. It is estimated that, at the most, about 1 O0 bbls of cement would be discharged to the reserve pit. Hydrocarbons, mostly in the form of diesel fuel and hydraulic oil, are used to run the rig equipment and machinery. These fuels and occasional lubes and greases will all be in containers; transfer will be done through secure hoses and under strict supervision so that spillage will be avoided at all cost. Due to the proximity of the well to Deadhorse and Prudhoe Bay, it is not anticipated that bulk fuel storage tanks will be needed on site. Very little hydrocarbon should find its way to the reserve pit. , 10. 11. 12. 13. c. Fit Closure At the end of the project, the solid and liquid wastes in the reserve pit will be buried by backfilling the pit with the native sandy silt excavated. The ren~nlng liquids and any solids in the pit will be frozen before burial after being exposed to cold ambient temperatures. Once buried under a n'dnimum earth cover of 8 ft, the wastes will continue to freeze and thus be permanently encapsulated. Since the wastes will be below the "active layer", the layer of soil that thaws out each short summer, the frozen wastes will not be mobile nor form any leachate. A thermal analysis has been performed to substantiate this condition. If required, a soil temperature monitoring pro.am will be installed to verify that all wastes buried will remain frozen. A site visit during the fa'st, third and fifth year is planned to inspect the integrity of the earthen cap and to perform any remedial work needed for site restoration. Disposal of Produced Fluids - Oily Wast~ Should drill stem testing occur, produced fluids will be disposed of in an approved manner. Associated gas will most probably be flared in the bum pit. Petroleum liquids/oil will be trucked to the nearest flow station processing center. Ancillary F,acilifie$ All equipment necessary for drilling and formation evaluation will stay on the drill site. The camp facility will have the capability to accommodate up to 60 people. No other camps will be necessary. No aircraft landing or service facilities will be necessary. Plan for Site Closure Upon completion of drilling and evaluation operations, all muds, cuttings and burned solid waste will be covered over and frozen in place. All other debris will be hauled to an approved disposal site. The well will be plugged and abandoned according to Alaska Oil and Gas Conservation Commission regulations. A site visit will be conducted during the f'u'st, third and fifth summer following operations to verify the integrity of the pit cap and to pick up any remaining trash. Final site closure will be approved by all appropriate state agencies. Wildlife Access The only wildlife that could be around the location during the winter are owls, ravens, Arctic fox, and possibly an occasional over-wintering caribou. These animals frequent all locations on the Slope. The wastes to be discharged to the pit should hold no attraction for these animals; therefore, wildlife concern is not a significant factor. On-site personnel will be instructed not to feed the wildlife, thereby further reducing the wildlife atlracfion concern. Safety Hazards The only disposal site safety concern possible would be the potential for a vehicle driving into the pit. This possibility is remote due to pit siting, away from the access route to the location. It is common knowledge to those employed in these 14. 15. operations where the pit is located and that no traffic is allowed there. The fact that the public will not be allowed access to the site also minimizes the potential for a safety violation. The methane gas generation concern associated with public landfills is not a logical probability for a reserve pit. Contingency Plans Re An approved spill control package will be kept on site at all times for use in controlling accidental discharge of fuels and lubricants. be Fire, safety and medical emergencies will be handled through available resources at Prudhoe Bay and/or Deadhorse, Alaska. Well control problems will be handled in a manner commonly accepted as safe oilfield practice utilizing the reserve pit and other resources as necessary. Commu. nication and Supervision An ARCO representative will be on site at all times during operations. The following people are designated as contacts. Name Title ~ Phone Keith Bullard Drilling Superintendent Doug StoRz Drilling Superintendent Jeff Kewin Regional Drilling Engineer Mike Winfree Area Drilling Engineer Bill Penrose Sr. Drilling Engineer ARCO 24 hour Securit~'switchboard ARCO 659-7743 ARCO 659-7743 ARCO 263-4970 ARCO 263-4603 ARCO 263-4511 276-1215 EXHIBIT E ARCO ALASKA, INC. WEST STORKERSEN #1 PROPOSED WELLBORE DIAGRAH 857' FSL, 1770' FWL, SEC. 15, T12N, R13E, UM 20' CONDUCTOR · 50' 3-3/8° SURFACE CA~II~ O 4000' TVD 9-5/8' PROTECTIVE CASINO · 8700' TVD 7' PROTECTIVE LINER 5500'- I 0,000' TVD NOT TO SCALE 10141 4 · ,eee' W£$T S/'O/l'#K/l~$&'~ Wt'/.A , EXHIBIT A & N II 14 t3 II :' 11' ', i- I1-11 , ZI I? ftI ~00' I 7'W~./R iV., ~ /$ £, SAMPLING POINT THERMIS~R$ WlNT'~lt OtI~L& IN~ ~M~ EXHmlTE II II ~1 II iiii STORAGE AREA ARCO ALASKA INC. [~- 40' 0"__.~ 12'0' ~t0;' ~ UNIT47.. .~ 24' 0' 50' O" I WEST STORKERSEN #1 RIG AND LOCATION L/~YOUT ; .... EXHIBIT C TURN 54.0 ' AREA B E~ L .... '. MUD AND 42' O" f~ 30' 0" 10,600 BBL RESERVE PIT NOT TO SCSI_ -"" 200' 0" :' ' STORAGE AREA 5oo' o I AR(~O ALASKA INC. I WEST STORKERSEN CROSS - SECTIONS ICE PAD DEVELOPMENT CROSS- SECTIONS EXHIBIT D ,,~40'0 ER[SERVE PIT 6'0 CELLAR 6' DEEP 400' 0' ~ CROSS SECTION EAST- WEST 200' 0" ~ -" ' 260' 0" ~ .~:~: 2 ICE:~:~:~:~:~=~i:~:~:~:~ ..................................................... i ............................................................... ,", ......... , ............. 12' 500' O" ~ CROSS SECTION NORTH - SOUTH ~ 125'± ~-- -~J= .~.- 8'? 2':!: Active Layer 3' SECTION EAST-' WEST : AFTER RECLAMATION FILL MATERIAL WASTE DRILLING ClJTn~ ~ FROZEN TUNmA ~ F~SERVE Prr I---I EXHIBIT D ~1~9 Note: All casing he,,ds and wellhead equipment will be removed leaving just enough of a ¢.,a$1ng stub to attach'an abandonment marker. !4. Cut the 13-3/8" casing such that the casing stub I~ below pad level and an abandonment marker can be attached. ND BOP and all casing spools. Flush any residual cement from the_y~elih.ead. Note: A plug of at least 150' will be set in the 13-3/8". tf there has been any settling tn the 13-3/8" X 20" annulus this should be topped off with ce.ment also, t5. RIH with DP and place a cement plug In the 13-3/8" casing, from the retainer to the sudace, Cement blend is Permafrost C mixed to 15.5 ppg with a yield Of 0,94 ft:~/~x and 3,75 gat H20/sx, t5. Install an abandonment marker as specified in the AOGCC regulations, a ~py of the appropriate page is attached, 15. Release rig, KKL ARCO Alaska, Inc. P. O. Box 100360 Anchorage, AK 99510-0360 APPENDIX B WEST STORKERSEN #1 WEST STORKERSEN #1 WASTE WATER DISPOSAL NOTIFICATION October 20, 1988 APPENDIX B . Well Designation/Name Ix>cation/Map List of Materials Description Volum~ Source 3. Total Volume Injected 4. Zone Description 5. Depth of Injection 6. Start/Stop Dates 7. Well Schematic 8. Sealing Method 9. Plug Date West Storkersen # 1 See Exhibit A and Appendix A, Exhibits A and B. Only those authorized by Exhibit B. The mud system to be used for the well is most accurately described as a bland fresh- water/clay system. The additives that may be used have been approved by the EPA for offshore discharge and are included in Exhibit B. The estimated volume should not exceed those volumes provided in Appendix A. As specified by the permit, the fluids will be limited to those generated by the explora- tory well activities. Hazardous waste will not be injected. Less than 15,000 barrels The Tertiary Sagavanirktok Formation is the zone to receive the injected fluids (see Exhibits C and D). The depth of these zones will be verified when the logs are available. At or below 4000 feet, subsea depth (SS) The earliest date to begin injection is January 15, 1989. Injection should be completed by April 30, 1989. See Exhibit E. Cement plugs will be set at various depths within the well as needed to comply with existing AOCK2C regulations. Ara mini- mum, cement plugs are placed above and below any hydrocarbon zone(s) and from 100 feet below the casing shoe to 100 feet above it. AOCA2C requirements state that plug placement must be physically verified by an AC)GCC witness. The latest plug date is expected to be between May 10 and May 25, 1989. EXHXB~ B - TABLE 1 EPA AUTHORI77~D DRIIJ-ING MUD TYPES Table 1 may be updated by EPA, Region 10, during the effective period of the permit. If so, the latest updated version will supersede all earlier versions. Updated versions will be mailed to permittees at the time that the updates become effective. They will be available to other parties upon request. . Components Allowable Concentration (lb/bbl) Seawater/Freshwater/Potassium/ Polymer Mud KC 1 50 Starch 12 Cellulose Polymer 5 Xanthan Gum Polymer 2 Drilled Solids 100 Caustic 3 Barite 575 Seawater or Freshwater As needed 2. Lignosulfonate Mud e Bentonite* 50 Lignosulfonate, Chrome or' Ferrochrome 15 Lignite, Untreated or Chrome- Treated 10 Caustic 5 Lkne 2 Barite 575 Drilled Solids 100 Soda Ash/Sodium Bicarbonate 2 Cellulose Polymer 5 Seawater or Freshwater As needed Lime Mud Lirae 20 Bentonite* 50 Lignosulfonate, Chrome or Ferrochrome 15 Lignite, Untreated or Chrome- Treated 10 Caustic 5 Barite 575 Drilled Solids 100 Soda Ash/Sodium Bicarbonate 2 Seawater or Freshwater As needed Components Maximum 4. Nondispersed Mud e Allowable Concentration (lb/obi) Bentonite* 50 Acrylic Polymer 2 Lime 2 Barite 180 Drilled Solids 70 Seawater or Freshwater As needed Spud Mud Lime 2 Bentonite* 50 Caustic 2 Barite 50 Soda Ash/Sodium Bicarbonate 2 Seawater As needed 6. Seawater/Freshwater Gel Mud Lime 2 Bentonite* 50 Caustic 3 Barite 50 Drilled Solids 100 Soda Ash/Sodium Bicarbonate 2 Cellulose Polymer 2 Seawater or Freshwater As needed *Attapulgite, sepiolire, or montmorillonite may be substituted for bentonite. WEST STORKERSEN #1 EXHIB IT B - TAB!.R 2 EPA AU'I~ORr~:~D MUD COMPONENt/SPECIALTY ADDITIVES The following additives have been approved by EPA in their general Permit #AKG285000 as acceptable in Alaska. Not all of these additives will necessarily be used, but those which are used will be of the non-toxic variety. Pr0ctuct Namo Genetic Description Maximum Allowable Concentration (lbf0bl) Aktaflo-S Aqueous solution of non-ionic modified phenol (equivalent of DMS) Aluminum stearate 0.2 200 mg/1 nitrate or 0.05 Ib/bbl Agua-Spot Sulfonated vegetable ester formulation 1% by volume Bara Brine Defoam Dimethyl polysiloxane in an aqueous emulsion 0.1 Ben-Ex Vinyl acetate/maleic anhydride - ~ ~opolymer Bit Lube II Fatty acid esters and alkyl phenolic sulfides in a solvent base Calcium carbide As needed Cellophane flakes As needed Chemtrol-X Polymer treated humate Con Det Water solution of anionic surfactants 0.4 D-D Blend of surfactants 0.5 DMS Aqueous solution of nonionic modified phenol Desco CF Chrome-free organic mud thinner containing sulfo- methylated tannin 0.5 Maximum Allowable Prodogt Nam~ Duovis Durenex Flakes of silicate mineral mica Gelex Glass beads LD-8 Lube-106 Lubri-Sal Milchem MD Mil-Gaul Nut hulls, crushed granular Phosphoric acid esters and triethanolamine Plastic spheres Poly RX Resinex Selec-Floe Sodium chloride ' Sodium nitrate Sodium polyphosphate Soltex Generic Description Xanthan gum Lignite/resin blend Sodium polyacrylate and polyacrylamide Aluminum stem'ate in propoxylated oleylalcohol Oleates in mixed alcohols Vegetable ester formulation Fatty acid ester Ethoxylated alcohol formulation Basic zinc carbonate Polymer treated hum~t¢ Reacted phenol-formaldehyde- urea resin containing no fi'cc phenol, urea, or formaldehyde High molecular weight poly- a6wl~de polyrn~ packaged in light mineral oil Sulfonated.asphalt residuum · - Concentration (lb/bbl) 2 6 45 1 8 10 gal/1500 bbl 2 2.0% (by volume) 0.25 0.04 gal/bbl or 0.3 lb/bbl As needed As needed 0.4 0.25 50,000 mg/1 chloride 200 mg/l nitrate or 0.05 lb/bbl 0.5 6 Maximum Allowable Product Nam~ Sulf-X ES Therma Check Generic DescriptiQrl Zinc oxide Sulfono-acrylamide copolymer Polycarboxylic acid salt Concentration (lb/bbl) As needed 1 4 Torq-Trim H V¢~¢mbl¢ plus polymer fibers, flakes, and granules VG-69 XC Polymer XO2 Zinc carbonate and lime Liquid triglycerides in vegetable Organophilic clay Xanthan gum polymer Ammonium bisulfite 5O 12 2 0.5 As needed EXHIBIT C GIJ4~qALIZIO STP. ATIGI~APH~ ~I4~YION K~IOS?: lnter~#d# trivels, sindl Md s~iles. ~KI ~JEU: later~d4e4 col,se ~ tine s4m4s Md ~41#. I I! EXHIBI ' - ;- I SPONTANEO~ I::O;EIitTI~L .. i · t i ;' · · General Purpose Worksheet tEL N0:907~6~4600 ~70~ PO~ ARCO Alaska, Inc, TELECOPIER COVER LETTER DATE: TO: FAX NO: ATTN: FROM: WE ARE TRANSMITTING / PAOF..~ (EXCLUDING THIS COVER LETI'ER) IF YOU DO NOT RE(~IVE ALL THE PAOF.,S, PLEASE CALL BACK AS SOON AS POSSmLE TO TELEPHONE (907~ ,.-~-Z~ --4th X,~ 3~ ~ud wetghtng at least 10,4 ppg (if that io" the maximum ,.,~..~."'"'~'~,t achieved) wJli be left between att plugs. Note; Notify the AOGCC prior tO beginning the plugging operation. After logging, prepare to plug and abandon the well. Refer to the AOGCC regulations for additional information. There are no fresh water zones, so the only zone of concern will be the potential hydrocarbon bearing zone ~t 8567' to 8640' (based on the MWD log). Plan to place a balanced cement plug from at least 8690' to 8467'. Cement blend Is Class (3 with 0.25% CFR-3 and 0,1% HR.7 mixed to 15.8 ppg with a yield of !.15 ft3/sx and 5.0 gal H20/$x. Have. Halliburton check the properties and adjust the additives as needed. For hydrocarbon zones: a continuous plug must be placed from 50' below the zone to 100' above the zone, Example calculation: Volume in i2-t/4" open hole 225' X 1.1467 ft3/ft = 258,01 113 (assume 14-1/2" hole) 258,01 fl3 divided by 1,15 ft3/Sx - ,?,24,35 SX . t WOC.,. RIH and tag the plug after setting, The locat(on and integ~'lty of the plug must be confirmed by setting sufficient weight on the plug to confirm its location, and that the cement has set and a competent plug is in place. This is a SDacific reauireme~t In the AOGCC, regulations and should be done. The AOGCC'may-or may not choose to send a witness for the ebandonment, If the plug Is not tagged at the de,~ired depth, place another plug and tag, The Interval above the plug must have mud wtth a clenslty equal to the density that it was drilled with. POH laying down DP to approximately 2800'. Continue POH and pick up a cement retainer. Rill with ac.merit "' re,amer on DP and set no lower than 2739' and no higher than 2689'. PIgs-~sg-£o6:oN ]Bi ~NOAOfl NDS~B)~O±S id:~I ...... -~-- o= ~_~o~ 1£~:1~I blLli~I~.P_I~UP~. £)UYLINW TEL NO:cJ0~-659-.561~ ~1.]9 P02 ~,ol~s~, from the retainer, re*sting and weight test, Prepare to downsqueeze e cement plug. The plug v.olume is to be calculated based cn sufficient volume to fill tlie 13-3/8" ceslng below the retainer and exten¢l 100 feet below the Casing shoe plus leave 50 feet on top of the retainer, Cement blend is Permafrost C mixed to 15,5 ppg with a yield of 0.94 fl3/ax and 3,75 gal H20/sx. Example calculation' Assume retainer !~ set @ 2739°. ._- .. Volume in !3-3/8" castng 50' X 0.8406 ft3/ft = 42,03 fl3 42.0,3 ft3 divided by 0.94 fl3tsx, 44.71 sx .~-'~------' V~'~me In !2-1/4" open hole 100'X 1.1467 fl3/fl,, 114.67 fl3 .."' . (as~me 14-1/2" hole) 114 67 fl3 divided by 0.94 ft3/sx = 121,99 sx t ~ '~' ~ 42,03 ft3 divided by 0,94 ft3/sx = 44.71 sx . Adjust the amount of cement es necessary if the depth changes, Sting into the retainer and displace sufficient volume to fill the 13-3/8" casing below the retainer and i00 feet of open hole. Leave enough cement to piece 50 feet on top of the retainer. . Unsting from the retainer and place the remaining cement on top of the retainer. Clear DP of cement, 10. 11. 12, Record and report calculated top of the plug and the retainer setting depth. Pressure test the plug to ,500 psi prior to setting the surface plugs. POH and LDDP to epproxlmataly i80'. In order to drop the fluid level, do not fill the hole, this should drop the fluid level sufficiently to allow placement of the surfece plug. Continue POH and pick up a cement r~i~in~r. RIH with e cement retainer on DP and set no higher than 160'. Release from the retainer, re-sting and weight test, Prepare to place the surface plug in the i 3-3.;'-~" c~sing, POH. February 14, 1989 Telecopy: (907)276-7542 Mr. J. B. Kewin Regional Drilling Engineer ARCO Alaska, Inc. Po O. Box 100360 Anchorage, Alaska 99510-0360 Re: Gwydyre Bay Unit/West Storkersen No. 1 ARCO Alaska, Inc. Permit No. 89-14 Sur. Loc. 857'FSL, 1770'FWL, Sec. 15, T12N, R13E, Btmhole Loc. 1578'FSL, 1078'F~.~L, Sec. 15, T12N, R13E, UM. Dear Mr o Kewin: Enclosed is the approved application for permit to drill the above referenced well. The permit to drill does not exempt you from obtaining additional permits required by law from other governmental agencies, and does not authorize conducting drilling operations until all other required permitting d~terminations are made. To aid us in scheduling field work, please notify this office 24 hours prior to commencing installation of the blowout prevention equipment so that a representative of the Commission may be present to witness testing of the equipment before the surface casing shoe is drilled. Where a diverter system is required, please also notify this office 24 hours prior to commencing equipment installation $o that the Commission may witness testing before drilling below the shoe of the conductor pipe. / / / ..; ~~ ....... Chai~an of Alaska Oil and Gas Conservation Co~ission BY ORDER OF THE COld, MISSION dlf Enclosure cc: Department of Fish & Game, Habitat Section w/o encl. Department of Environmental Conservation w/o encl. ALASKA L _ AND GAS CONSERVATION CC,VllSSION PERMIT TO DRILL 20 AAC 25.005 1 la. Type of work Drill ~ Redrill EI lb. Type of well. Exploratory ~ Stratigraphic Test Re-Entry ~ Deepen~1 Service % Developement Gas ~ Single Zone 2. Name of Operator 5. Datum Elevation (DF or KB) 10. Field and Pool ARCO Alaska, Inc. RKB 52' Pad 16' feet 3. Address 6. Property Designation P.O. Box 100360~ Anchorage~ AK 99510 ADL 363450 ALK 2306A Wildcat 4. Location of well at surface 7. Unit or property Name 11. Type Bond(see 20AAC 25.025i 857' FSL, 1770' FWL, Sec. 15, T12N, R13E, UM Gwydyr Bay Unit Statewide At top of productive interval 8. Well nu ,mber Number r..,t - ~,~ ~I 0 1578' FSL, 1078' FWL, Sec. 15, T12N, R13E, UM West Storkersen No. 1 At total depth 9. Approximate spud date Amount 1578' FSL, 1078' FWL, Sec. 15, T12N, R13E, UM February 1, 1989 12. Distance to nearest 13. Distance to nearest well 14. Number of acres in property 15. Proposed depth~MDandTVO~ property line CM/Vaughn Kup Delta #1 857' ~ Surface feet 10,000' West feet 1280 9389'MD-9200'TVD feet 16. To be completed for deviated wells 17. Anticipated pressure Isee 20 AAC 2.5.035 (e)(2)) Kickoff depth 4100 feet Maximum hole angle 30o Maximum surface 1 658 psig At total depth (TVD) 4497 ps,g 18. Gasing program Setting Depth size Specifications Top Bottom Quantity of cement Hole Gasing Weight Grade Goupling Length MD TVD MD TVD (include stage data) 20" 91. H-40 Weld 80 36 -~ 116 116 17-1/2" 13-3/8" 68 K-55 BTC 84 36 36 84 84 72 L-80 BTC 2680 84 84 2800 2800 2000 CF AS III 600 CF Class 12-1/4" 9-5/8" 47 L-80 BTC 9353 36 36 9389 9200 As required to isolate all hydrocarbon zones 19. To be completed for Redrill, Re-entry, and Deepen Operations. Present well condition summary Total depth: measured feet Plugs (measured) true vertical feet Effective depth: measured feet Junk (measured) true vertical feet Casing Length Size Cemented Measured depth True Vertical depth Structural Conductor r S u ri ace Intermediate Production Liner A!aska & 6as 60r s. Commissi0r Perforation depth· measured "'".'"- ~lChOra§¢ true vertical 20. Attachments Filing fee .~ Property plat .~ BOP Sketch ~' DiverterSketch ~ Drilling program Drilling fluid progra__m ~ Time vs depth plot ~ Refraction analysis ~ Seabed report % 20 AAC25.050 requirements 21. I hereby ceMf'f~ t~at/., the forego~c,~g i§/t,[ue and correct to the best of my knowledge / / . . · " - ~ . Regiona S~gned ~ ,, k~_ T t e /" ~- / ~"- ' '~ Commission Use Only PD3/039(AWN) ,' Permit NurSer / I APl number I Approval date I See cover letter ~ 50~ 02. - ~ ! o for other requirements I "z/..z I Conditions of approval Sample. s required /~Yes C No Mud Icg required ]:~¢'Yes ..~ No Hydrogen sulfide measures /~Yes ~ No Directional survey required ./%~'Yes U No Required working p.,r,e~sure f.¢r BoP~r~-h~2M; ~ 3M;. ,~ 5M; ~ 10M; ~. 15M Other: '~"~/~// ////~~----~-/ by order of Approved by L I, /, ( f/~.~~ Commissioner the commission Date~//~//¢~' Form 10-401 Rev. 12-i-85 / Subr~i triplicate Wainwright 3/ Barrow B A U F O t~ T Teshei~ COI Amber Circle S E Barter /S. /°Arctic ; .o, Venetie Chalky H Herschel Is. ~e "~ ARCO Alaska' Inc. WEST $TOBKEBSEN WELL I WIN ~Et~ Dt~ll I lNG P£1~MIT £XHIBIT POINt' STORKERSEN 50 18 i 20 21 i" .; .: 28 PAll 14 13 '"~ DRILL S, 8~ *** ACCESS'ROAD ION v- WES1' ST~RKERSEN ' 15 - 12-1.5 .o I- I APPROX // .~ 18 o, · ~0 · · PAD / (" I" = I ML " 17 · 20 35 36 31 32 ,, · ~/ // Z' fl N 2 . FRail · '~ ARCO "~a, 17 14 g I WEST STORKER~N ~ ~ PERMIT EXHIBIT ¥ WELL I WINTER DRILLING 400' I Il - I~ . . Il '~ ! ill ~ll__ /PO' APPROX. ACR6A~£ , 4. $ [ W~$T s"roRK6B$PN I~-iP.t$~ W6~£ Nt I TWP. IE N,, ,9~ t$ ~.~ ~. ! W/b/T£R flRILL/#~ 13-,5/8" ANNULAR PREYENTER 5000 PSI BOP STACK DIAGRAM A~'CUMI,II~ATOP CAPAI~IT'¢ TEST CHECK AND FILL ACCUMULATOR RESERVOIR TO PROPEP LEVEL WITH HYDRAULIC FLUID ASSURE THAT ACCUMULATOR PRESSURE IS 3000 PSI wroTH 1500 P~I DOWNSTREAM O~ THE ~GU~ATO~. OBSERVE TIME, THEN CLOSE AL~ UNITS SIMULTANEOUSLY AND RECORD THE TIME AND PRESSURE REMAINING AFTER ALL UNITS ~R[ CLOSED WITH CHARGING PUMP OFF, ~[CORDONI~DCR[PORT. TH[ACCEPTABLE LOWER LIMIT 15 45 SECONDS CLOSING TIME AND I ZOO PSI REMAINING PRESSURE 13-5/8" BOP STACK TEST PI PE RAMS BLIND RAMS DRILLING SPOOL PI PE RAMS DRLG SPOO~~,,~ 1 ' L~ ' HEAD · "-',,aska.,..Oil & Gas .,,.,,:... Anchorage 1 FILL BOP STACK AND MANIFOLD WITH A NON-FREEZING LIQUID Z. CHECK THAT ALL HOLI~ DOWN SCREWS ARE FULLY RETRACTED MARK RUNNING JOINT WITH PREDETERMINED PLUG SEATING DEPTH. RUN TEST PLUG ON DRILLPlPE AND SEAT iN WELLHEAD RUN IN LOCK DOWN SCREWS. 3. CLOSE ANNULAR PREVENTER AND UPSTREAM VALVES. 4 FUNCTIONALLY TEST CHOKES. · 5 IN EACH OF THE FOLLOWING TESTS, FIRST HOLD A 25(~ PSI LOW PRESSURE TEST FOR A MINIMUM OF 3 MINUTES, THEN TEST AT THE HIGH PRESSURE 6 INCREASE PRESSURE TO 3000 PSI AND HOLD FOR A MINIMUM OF 3MINUTES. BLEED PRESSURE TO ZERO. 7. OPEN ANNULAR PREVENTER AND CLOSE TOP SET OF PIPE RAMS. INCREASE PRESSURE TO 5000 PSI AND HOLD FOR AT LEAST. 3MINUTES BLEED PRESSURE TO ZERO. 8. CLOSE VALVES DIRECTLY UPSTREAM OF CHOKES AND OPEN CHOKE5 INCREASE PRESSURE TO 5000 PSI AND HOLD FOR AT LEAST 3 MINUTES BLEED PRESSURE TO ZERO. 9 OPEN TOP 5ET OF PIPE ~;M5 THEN CLOSE BOTTOM SET OF PIPE RAMS INCREASE PP. ESSURETO 5000 PSI BELOW THE BOTTOM SET OF PIPE RAMS AND HOLD FOR AT LEAST 3 MINUTE5 10. TEST REMAINING UNTESTED MANIFOLD VALVES (IF ANY) WITH 5000 PSI UPSTREAM OF VALVE AND ZERO PRESSURE DOWN- STREAM 11 BLEED PRESSURE TO ZEPOl OPEN BOTTOM 5ET OF PIPE RAMS 12 BACK OFF PUNNING .JOINT AND PULL OUT OF HOLE CLOSE BL!ND ~AMS AND TEST TO 5000 PSt FOP AT LEAST 5 MINUTES 13 BLEED PRESSURE OFF ALL ECiUIPMENT OPEN BLIND RAMS MAKE SURE MANIFOLD AND LINES ARE FULL OF NON-FREEZING LIQUID AND ALL vALVES ARE SET IN DRILLING POSITION. 14 TEST STANDPIPE VALVES TO 5000 PSI. 1cs TEST KELLY COCKS AND INSIDE BOP TO 5000 PSi. 16. CHECK OPE~ATIONOF DEGA$$ER. 1 7 RECORD TEST INFORMATION ON BLOWOUT PREVENTER TEST FORM SION AND SEND TO DRILLING SUPERVISOR PERFORM COMPLETE BORE TEST ONCE A WEEK AND FUNC- TIONALLY OPERATE DOPE DALLY. JG 8-26- DOYON RIG #9 DIVERTER SYSTEM SCHEMATIC ARCO ALASKA, INC. FILL-UP LINE 20" 2000 PSI DIVERTER RISER JFLOWLINE 10" BALL VALVE 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 VENT LINE. THE SECOND VENT LINE VALVE CAN BE OPENED USING CONTROLS LOCATED AT THE ACCUMULATOR. THIS IS A VARIANCE FROM 20AAC25.035 10" VENT LINE WELL lO" VENT UNE DIVERTER UNES DISCHARGE 100' FROM RIG IGNITION SOURCE. ALL TURNS ARE 90' TARGET TEES. GSW 8/22/88 West Storkersen #1 General Drilling Procedure 1. MIRU. 2. Install FMC diverter system. RU mud loggers. 3. Spud well and drill 17½" hole to 2800'. 4. Run and cement 13-3/8" casing. Install and test BOPE. Test casing to 2000 psi for 30 minutes. 5. Drill 12¼" hole to core point according to directional plan. 6. Core Kuparuk as directed with 8½" X 4" equipment. 7. With coring complete open cored hole to 12¼" and drill to total depth. 8. Run open hole logs. 9. P&A well or run and cement 9-5/8" casing. 10. If 9-5/8" casing is run, complete and test well with 4½" tubing. 11. Plug and abandon well according to AOGCC regulations. 12. Install dry hole marker, release rig. mx/~ ih TYPICAL MUD PIT SCHEMATIC TRIP TANKS SANDTRAP (30 BBLS) ISHAKER J DEGASSER (83 BBLS) DESILTER (g7 BBLS) ISHAKER ! I (9? BBLS) PILL PIT (36 BBLS) (36 BBLS) OESANDER SUCTION PIT (448 BBLS) MIX PiT (122 BBLS) DRAWING IS NOT TO SCALE NOTE: SYSTEM IS EQUIPPED WITH A DRILLING FLUID PIT LEVEL INDIGATOR WITH BOTH VISUAL AND AUDIO WARNING DEVICES AND A FLUID FLOW SENSOR LOCATED IH THE IMMEDIATE AREA, OF THE DRILLER'S CONSOLE. JQ 7/24/87 DRILLING FLUID PROGRAM Spud to 13-3/8" Surface Casing Density 8.8-9.2 PV 15-30 Drill out to Weight Up 8.8-9.2 5-15 YP 40-60 8-12 Viscosity 160-300 Initial Gel 5-15 10 Minute Gel 15-30 Filtrate API 20 pH 9-10 % Solids 10± Drilling Fluid System: 35-40 2-4 4-8 10-20 9.5-10.5 4-7 - Triple Tandem Shale Shaker - 2 Mud Cleaners - Centrifuge - Degasser - Pit Level Indicator (Visual & Audio Alarm) - Trip Tank - Fluid Flow Sensor - Fluid Agitators Notes: - WP1/GDP2 ih Weight Up to TD 10.0 11-16 8-12 35-50 3-5 5-12 9.0-10.5 12-15 Drilling fluid practices will be in accordance with the appropriate regulations stated in 20 AAC 25.033. Maximum anticipated surface pressure is calculated using a surface casing leak-off of 13.5 ppg EMW and a gas gradient of .11 psi/ft. There are no well bores within 200' of this proposed well. Excess non-hazardous fluids developed from well operations and those fluids necessary to control the fluid level in pits will be hauled to an approved disposal site or pumped down the surface casing prior to abandonment. Produced fluids from well tests will be stored on location then injected into the reservoir from which they were produced prior to abandonment. NO] J. 03S 'WO t.L~t3A 000£ 0 : 666=,'1~0 [i~:6=01.11 ......................... '~L-d ~SO ~-e-/~--6--/--O-/. .......................00'136 ........ B~6==r~o L6BB=QNi ~OZ~=OA1 SONS Jfl~ /g E66=~0 L6Eg=QNI ~O~8=OAl SONS JN~ /1 666=d30. LSS)=GNI ~69)-0A1 3qVHS .lV~ VNN¥O /l ~66=d]O 689~=(~1 O0~Z~QAI dO~Q 339H¥ OH3 ............... ~~-~~- EOOg=GAI SGHS-~~-'- ~ .............. NtH 6' '030'-8~ .... - ...... __ ~: ~ . ...... ....................... t2~=a~ .9~g=~l ~tSLg=OAZ ~3 ~ - . . . ........ ' .......................... , .................................... 00~ ' STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION DESIGNATION OF OPERATOR 2O AAC 25.O2O 1. Name of Owner Vaughn Petroleum, Inc. 2. Address 4242 Renaissance Tower 1201 Elm Street Dallas, TX 75270 3. Notice is hereby given of a designation of operatorship for the oil and gas property described below: Property designation: Alaska Oil and Gas Leases ADL No. 363450 and ADL No. 363451 Legal description of property: ADL-363450- T12N, R13E, U.M. Secs. 15 and 16, All ADL-363451 - T12N, R13E., U.M. Secs. 13 and 14, All Property Plat Attached 4. Name of Designated Operator ARCO Alaska, Inc. Address P. O. Box 100360 Anchorage, AK 99510-0360 5. Effective date designation February 1, 1989 6. Acceptance of operatorship for the above described property with all attendant responsibilities and obliga- tions is hereby acknowledged Si Dees Title Vice President Date 7. The owner hereby certifies that the foregoing is true and correct VAUGHN PETROLEUM, INC. // Signed Ber~y__J~. Duncan Title Vice President Datel/26/89 Form 10-411, 12-1-85 Submit in Duplicate WEST STORKERSEN NO. 1 ARCO Alaska, Inc. requests an exception to the requirements of 20 AAC 25.033 (e) (1). The reason for this request is based on the drilling history of the immediate area. The ARCO West Storkersen No. 1 should not encounter abnormal pressure based on observed pressures in several nearby wells. The location is 10,700' southeast of the Mobil Gwydyr Bay South No. 1 (Sec 8, T12N, R13E, UM) drilled in 1975 with maximum mud weight of 10.5 ppg. Shut-in BHP of 4900 psi at 10,050' (9.4 ppg) was recorded during a DST of this well. The ARCO Kup River State No. 1 (Sec 21, T12N, R13E, UM) approximately 7100' to the southwest, was drilled in 1969 to 10,512' with a maximum mud weight of 10.7 ppg. DSTs in this well also show a BHP of 9.4-9.5 ppg. The CM/Vaughn Kup Delta No. 1 (Sec 17, T12N, R13E, UM) approximately 8300' to the west was drilled in 1987 to 10770' with a maximum mud weight of 10.0 ppg. The proposed surface casing setting depth is below the base of permafrost and potable water strata and is above any hydrocarbon zones as determined from the electric logs of the CM/Vaughn Kup Delta No. 1. ARCO Alaska, Inco requests an exception to the requirements of 20 AAC 25.061(a). There has been no high resolution seismic surveys run over the subject area. The three offsets discussed did not encounter shallow gas and it is not anticipated at the ARCO West Storkersen No. 1 location. AWM/ih Ltr01 1/31/89 L~8o. o,o - STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION DESIGNATION OF OPERATOR 2O AAC 25.020 1. Name of Owner CM Oil and Gas Corp. 2. Address 1400 Lincoln Centre Three 5430 LBJ Freeway, Lock Box 6 Dallas, TX 75240 3. Notice is hereby given of a designation of operatorship forthe oil and gas property described below: Property designation: Alaska 0il and Gas Leases ADL No. 363450 and ADL No. 363451 Legal description of property: ADL-363450 - T12N, R13E, U.H. Secs. 15 and 16, All ADL-363451 - T12N, R13E, U.M. Secs. 13-and 14, All Property Plat Attached 4. Name of Designated Operator ARCO Alaska, Inc. P. 0. Box 100~jdb~ress Anchorage, AK 99510-0360 5. Effective date designation February 1, 1989 6. Acceptance of operatorship for the above described property with all attendant responsibilities and obliga- tions is hereby acknowledged 7. Tl~e ~)wner ~'ereby certifies that the foregoing is true and correct Date Signed (-.__rJ,.?--~~ ~ itle . Form 10-411, 12-1-85 LEGAL DESCRIPTION ).2~..z~ UM.- ZSm,,Z~' · , i i m I m mL L~ , !.28o.oo, LEGAL DESCRIPTION · ., ].2N L~,E- UM.' ].5,~.~, ., _ !280.00,, ARCO Alaska, Inc. January 31, 1989 Mr. C. V. Chatterton Commissioner Alaska Oil & Gas Conservation Commission 3001 Porcupine Dr. Anchorage, AK Re: Supplement to Permit to Drill for West Storkersen No. 1 Dear Mr. Chatterton: Attached is a supplement to our Permit to Drill for the West Storkersen No. 1. This supplement includes the requirements of 20 AAC 25.033.(e)(1) and 20 AAC 25.061 (a) which were inadvertantly omitted from our original application. Please include this in our original application. Also, attached are Designation of Operator forms in duplicate designating ARCO Alaska, Inc. as operator. If any additional information is required, please contact Wayne McBride at 263-4962. Your assistance in correcting this matter is appreciated. Sincerely, /Regional, Drilling Engineer AWM/ih LtrO1 1/31/89 cc: W. McBride, ATO/1430 Gas Cons, Commissi~}i'i. ~nohorage .-" CHECK LIST FOR NEW WELL PERMITS ITEM APPROVE DATE (1) .~ee ~t~. ~ 1. (~ thru 8) (8) ( 3 ) Admin k~,?(q //J~!/~,~ 9. (9 thr~ i3) 10. (10 and 13) 12. 13. (4) Cas,~ (14 thru 22) (5) BOPE (23 thru 28) Company J g~O Lease & Well No. _~ ~e~k~.~$~ ~/m, YES NO REMARKS Is the permit fee attached .......................................... ,_~c'J ' 2. Is well to be located in a defined pool ............................. 3. Is well located proper distance from property line .................. 4. Is well located proper distance from other wells .................... 5. Is sufficient undedicated acreage available in this pool 6. Is well to be deviated and is wellbore plat included ................ 7. Is operator the only affected party ................................. 8. Can permit be approved before fifteen-day wait ...................... Does operator have a bond in force .................................. ~ Is a conservation order needed ..................................... Is administrative approval needed ................................... Is the lease number appropriate ..................................... ~ Does the well have a unique name and number ......................... ~ 14. 15. 16. 17. 18. 19. 20. 21. 22. Is conductor string.provided ........................................ Will surface casing protect all zones reasonably expected to serve as an underground source of drinking water ..................... Is enough cement used to circulate on conductor and surface ......... Will cement tie in surface and intermediate or production strings ... Will cement cover all kno~ productive horizons ..................... Will all casing give adequate safety in collapse, tension and burst.. Is this well to be kicked off from an existing wellbore ............. Is old wellbore abandonment procedure included on 10-403 ............ Is adequate wellbore separation proposed ............................ 23. 24. 25. 26. 27. 28. Is a diverter system required .......................................... Is the drilling fluid program schematic 'and list of equipment adequate~f~,~ Are necessary diagrams and descriptions of diverter and BOPE attached.,d~ Does BOPE have sufficient pressure rating - Test to .~Ooo psig .. Does the choke manifold comply w/API RP-53 (May 84) .................. Is the presence of H2S gas probable ................................. (6) OTHER ~ 9 th~" (6) Add: 9..eo~gy: BEW rev: 01/10/89 6.011 Engineering LCS BEW For 29. 30. 31. 32. exploratory and Stratigraphic wells: Are data presented on potential overpressure zones? ................. Are seismic analysis data presented on shallow gas zones ............ If an offshore loc., are survey results of seabed conditions presented~ Additional requirements ............................................. Additional Remarks: INITIAL GEO. UNIT ON/OFF POOL CLASS STATUS AREA NO. SHORE z g?o /o o I-..~ 0 Well Histo.ry File APPENDIX Information of detailed nature that is not particularly germane to the Well Permitting Process but is part of the history file. To improve the readability of the Well History file and to simplify finding information, information, of this nature is accumulated at the end of the file under APPENDIXi No special'effort has been made to chronologically organize this category of information. ,o PROGK~M: LISCAN Start o~ execUtion: TU~ **** REEL HEADER LZS 89/3/21 ATLAS 01 'LIS CUSTOMER FORMAT TAPE' **** TAP~ LIS 89/3/21 3756 01 ':RUN I HEADER **** OmEN HOLE: REVISION: 5.1 APR 89 9:24a PART NUMBER: WE?90-PE32 DIFL, BHC/LS, ZDL/CN, SL, GR ' FILE # Rnl-MN.O01 1024 I **** FILE HEADER **** CN WN FN COUN STAT : ARCO ALASKA INC : WEST STORKESEN : WILDCAT : NORTH SLOPE : ALASKA NO.1 FORMAT ON: DEP T&PE DE RECORD (TYPE# 64) TH PER FRAME mTH UNIT : FT 16 CURVES : NAME 1 CHT 3 R!LM 4 RILD 5 RFOC 6 SPD 7 TTEN ODE SAMPLE# UNIT 68 I LB 68 I ~PI 68 1 OHMM 68 I OHMH 68 1 OHMM 68 1 68 I LBS ~o I T~ BYTES 4 4 4 4 4 1:2 , 13 T2E1 14~ TtR2 - 15 TlR1 16 C 68 68 68 68 68 68 I ~S 4 1 US 4 I US 4 · 1 ~S~ 4 I ~MMO 4 * DATA R.EC~RD DEPTH RFOC SP T1RI' 9135.O00 3.301253 -4.391;562 986.1875 9085,000 3.8/,3296 -5,476873 759,5625 9035. 000 4,884:905 -6.2~0558 7~0. 1875 &985,000 6,1 70'584 --6.873592- 713,7500 8935.000 6 · 26:3015 -10. 94251 701 . 31 2'5 8885.000 3.193678 -4'6,87679 827.7500 8835,000 4.073390 -1.700522 703.6250 8785,000 4.204102 -9.1'24:006 765,6875 35. 000 .96'4791/' -3.116637 682.56-25 8685.000 5. 169281 --10 C~T S PO ~C CtLO 355,3&72 26.99?30 965.6221 4-93.0369 951.4050 1 2' 99870 92, 23976 295.9067 942.3.¢08 1 2,67190 87' 99043 254'0139 931 ~, 659 7 t~. ZO480 82.1'7081 183.4724 932.7825 11,99880 82,50~81 143,5689 945,9399 11-99880 93,52~52 31:9. 4688 95,3,9302 1t,99880 8t,.67068 240.8299 949,6277 11. 99880 89.59706 250,7060 941.8191 11.9988O 79.15562 201 ' 1548 950,3799 11.99880 958 B~TE'S * TTEN 8.7.6'6248 289t · 111 94.7.3?50 87,66248 4400.324 758,1875 90.13452 4391.863 733.4375 80.73996 4385.793 709' 00'00 74.16373 4360.680 699,9375 55,03809 435.9.742 827,0000 87.47336 4321 .~.11 68~.. 1875 72.84959 4314.457 748,2500 87.48488 4286,863 671 , 7500 64.839'3:2 4234.844 RZLN CAL T2R1 2,160688 1. 000000 753,3750 3.252601' 1 - 312~00 939.12:50 4.1103Z2 1. 003600 900.0000 5.658076 1.2~7100 870.0000 6. 776024 1.0':0'71 99 870'5625 2. 991851:,; 2.163001 1014.938 4.150413 1.317101' 850.1875 3,598724 1. 573400 910,6875 4.865944 1. 293900 832.4375 4.703067 0,4289000 RILD TEMP TlR2 2,028246 143,2857 947.0625 3.3794~] 1/+3.2857 9&6,6250 3.936793 144.4177 903.0625 5.450411 146.0654 876.3750 6,965295 146,5042 876.31 25 3.130197 145.7590 1011.125 4.152309 145.4258 863.1250 3,988735 145.1669 923,1875 4.971294 145.1331 840,6250 4.424858 145.0167 8635.000 5.5-.~1 222 -18.97902 683. 8125 85'85.000 5.84:2183 -5.950187 740.6250 8535.000 3.987943 -2.540750 ?76.5625 8485.0O0 5.750811 -0. 8434~229 7-54'.3t25 8435.000 1.9863'96 - 1. 301t 06 964.5625 8385.000 1.841155 0.41 4031,6 946,0625' 8:5.35.000. 2:.851303 -0.3772241 907.5000 8285.000 2.1 51679 -0.281'2'467 968. '2500 8235.000 3.646629 i .'289271 866.8750 8185.000 3.205895 -5.421047 9281.0625 81;35. 000 3-314181 -3.857386 879.4375 80:85. 000, 3.286568 -3.461994 824.7500 8035.000 3.319.443' -4~-626827 946.9880 11.99880 80.40567 220'0942 943.0176 11:.99880 85,06184 183.9966 946.5596 11- 99880 85. 50766 279.194'1 947. 8435 21.71390 77.36198 249.1912 94-9.0144 40'00189 115.04.22 689.1624 951.4'658 39-99599 11:1.14!91 1016.939 948- 6~'60 39.99010 ' 107.9053' 474.3306 948. 5400 39. 83719 118.4113 646.3 254 952-2102 38.99611 107'5678 369.4'475 960.8245 38.99611 11.~'..1664 418.3472 957.7883 39.34589 105.5708 446.9478 959.9587 39.82559 97.47456 543.6458 961.5061 39'69901 103.6205 57.36275 421~7.754 679.6875 67.4472.8 4177.902 736.31.25 90.94234 4175.762.. 760-8750 65.93855 -4175..672 753.3750 11.2. 996'5 4200.64'8 95-2.~:375 88.17789 4187.336 949. 000i0 1 ~9,. 2352 4.157.227 898.8750 133.9436 414:7 · 828 956.8125 36'4.9353 4117.777 871 · 0000 136.6164 4105.285 914.1250 14t.44'09 4075.827 871-6250 95.010.27 4058.751 82:1:. 0.000 121'- 01 40 4049.116 865.1250 4.779556 1.812801' 841.0000 5.243882. 1.718000 890.062:5 3.5437'58 0.84-81001 913.4'375 3.730158 0.8517001 1086.4 38 1.509707 0.60'03000 1t87.250 1.069718 I .318500' 1186.500 2.158793 1~-596701 1132.500 I .599181 1..014600 1181. 500 2.709t'17 1'.000000 1.091.188 2:.401831 1.189600 1136.125 2.412626 0.9696002 1081.250 1.800716 0.32.'10000 1000.813 2.324695 0.7314000 1079.188 4.543509 144.5529 840.62.50 5.434883 144.2.506 902.1250 3.581738 143.3889 931.1250 4.012983 142.1571 1109.000 1.451036 140.7930 1193.375 0.9833429 140.0627 1178.063 2.108234 139.7372 1136.250 1.5472.08 139.4041 1198.938 2.706744 139.1522 1096.063 2.390359 138.9733 1144.125 2.237398 138.7440 1088.625 1.839433 138.5563 1007.875 2.266328 138.3007 1092.438 2,133929 .-1.547620 925,1875 7935.000 2.434?67 -2.584668 906,6875 7885.000 3. 638965 -11.48577 863.3-750 ?835. 000 2,676124 -2,8415'65 891 · 1 2'50 7785.00'0 2.06389'3 1.1237'79 863.3750 7735.000 2.491200 -0'1751798 775.1250 7685.000 -0, 63'725'51 781.5'625 7635.000 2,730265 -1,.969691 759,0000 7585.000 3'023590' -3.139733 916.9375 7535.000 t,716384 -0, 3t14.8577 802.1875 7485.000 2 · 917013 -7.306435 844.2'500 ?4 S.ooo 2,6?2932 -7.009685 853,437~5 7385.000 2,322527 -6,570105 Ri~5. 1875 961 '6?63 39.99010 113.6572 70-8.7024 965.6272 41.12251 107.1024 764.8066 965.1885 40.966-11 98.41737 324.5291 964. 9663 4~0. 995 91 104.3889 520.5881 968.8435 4~.1.17271 99.43391 697.201~+ 975.0688 14.01630 9ta 5986.6 449.01.27 977. 3040~ 2:9. 99701 94.09708 516' 0215 991,9&65 31.6-64 ! 1 8-8,07216 426,3994 983.7876 31. 99681' 97.05183: 366.3701 993.6702 3t-82640 9:6.11594 76,6.4'968 995.7400 31.75291 98.06252 379.1948 997.6299 31.82640 99.68936 987. 6570 31. 99092 100.3175 531 · 9849 1~4.16.97 4042.290 910.1875 127.0146 4021,091 8.86.4375 143.35.54 401'0.71.5 849.8750 155.?746 3994.282 868.2500 1t8.5134 3983.135 834,1875 8.8.09331 3'892.8'15 76t-7500 85. 064'03 3892.549 769.5625 80.74687 3916.005 737.12'50 78.61713 3885.336 753.9375 69.91653 3888.477 79t, 7500 125.&259 3887.991 823-0625 t23-3389 3827.892 841-3125 101,5021 3786. 822.7500 0.9928000 1131,. 500. I .382752 0.9806008 1.098.000 3,066009 -0-1823000' 1054.1~5 t .956118 0.8651000 1087~. 1.409312 I. 296499 ~10~9.375 2. 25208~ O. 99L~7998 936.8125. 2.004268 0.9903004 952.8125 2.361573 1.000000 917.0000 2.751030' 0.7120000 934.8125 1.422708 0.4993000 985.2500 2.612826 1.0t6999 1021.563 2.227715 1 · 405899 1042.063 1.917721 0.7389001 1028.563 I .411030 138.0505 1141.438 1.307520 137.7165 1113.438 3.081388 137.2408 1060.813 1,920904 136,9459 1106,625 1.434306 136.5204 1053.000 2.227109 136.1628 953.1875 1.937903 135.6664 957.2500 2.345219 135.2845 935.7500 2.729481 134.8634 943.2500 1.304637 134.4495 993,6250 2.637167 134.0462 1037.375 2.242O5O 133.6397 1054.188 I .879753 133.3096 1040.250 6!' 4. 30?84. 3 829; 5000 7285.000 2.64'0818 -'7.84'6128 835.9375 7235.000 2.883869 -10.5?'54 9 859.2500 7185.000 3 · 11'50 94~ -7.729569 8 51. 4375 7135'000 2.084286 -2.362457 855.7500 70 85.000 2.84'5318 -4.005006 867. 0000 7035. 000 2.456470 O. 2070331E-O 1 873"..9375 6985.000 2. 645221 3.010985 84.-. 9.7500 6 935. 000 2.518918 5.784903 846.5625 6885.000 2.7.38933 2'4.13864. 861,3125 6835. 000 2.639171 27.3'5048 835.6250 6785.000 3.056368 -17.99989 839.7500 67:35.000 2.893914. -13.25848 84~4.3750 3t~, 59650 98.35684 488.2554 995.9692 31.58250 96.38557 442.6355 1000.135 37.89291 1~01.. 1885 376.4854 1,000.861 39-99599 99.37030 329.4.143 1~005.177 4t., 4;45;91' 102.3221 598 ' 003 9 101 6. 727 41-78981 102.2898 381'-3049 990.162 6 4;2.86908 102.2~'+48 51'5.1;968 996. 9497 43.5953.1 99.93080 397.1941 10:22.386 43'99561 1:00.4664 435.0901 1009. O04 43.23740 1022. 2514 384.9312 101 5..250 44.19571 98.1043 7 · 4.'1 22.1389 1011.08 5 19.00398 96.68785 327.0505 1013.536 24. 87091 100-2171 350. 9631 3746-055 825' 2500 93.21419 3755.2259 819.0625 1022.5589 3754.2?,9 838.8125 9/+.63000 3754.24:6 826.0625 91.56445 3741'.348 8/+11,0625 117.1138 3653'069 851-5000 99.352233 3614.38;3 847.5000 98.65288 3582.743 828.75:00 95.1 5686 364t. 365 831'6875 1 07. 2497 3602.7:04 844.3750 85.47260 3573.346 814.8750 88'96501 351.0.24'2 814.3750 92.23607 351;9. 039 824.5000 1 · 4'74 0 O0 1014.000 2.30.3029 .0.3416000 1 0220.125 2.5'96512 O. 7:532001: 1039,438. ~.951581 0.8163999 10228.500 1.6'59 306 -0.9174000 1050'000 2.578210 I · 000000 1057.438 1.9422827 O. 5588000 1053.625 2.4994223 1.475200 1016.0 O0 2.2223478 1.2211499 1030.000 22.548821 0.5687000 104~4'. 375 22.2266315 1.144600 10222.375 2.955363 O. 7800001 1002.6225 2.755701 1-557601 1027'938 132.9167 1017.375 22.259195 132.5692 1034.438 2.656146 132.2114 1059.188 3.035691 131'7574 1047.250 1.672230 131.3659 1058.750 2.622573 131.0446 1073.313 1.9/+ 1006 130.6138 1070.063 2.517661 130.2185 1037.063 2.298374 129.8583 1042.500 2.597867 129.4597 1056.0.00 2.426367 129.1290 1030.625 3.057631 128.8348 1018.813 2.849302 128.3731 1047.125 '-1.7' 04790 852.4375 6635 · 000 2.793508 -15.41393 818-9375 6585.000 2.682607 -7.674987 853.8750 6535.000 3.012369 -9.9823?.5 828.4375 64.:85. 000 3.1;88005 -11.88350 813.8125 6435.000 3.069496 -2.274.263 833.2500 6385.000 3.177472 -6.6:0635 0 766.0625 6335.000 2.891106 -7.632079 855.3750 6285.000 3.155962 -20.67380 841.9375 6235.000 3.1;38538 -37.0.9705 839.3125 61.85.000 3 · 3 Z9710 -36.97058 840.3750 61i35.000 3.770993 -39.97876 786.5000 6085. 000 3.101'414 -I~0. 77718 873.4'375' 9.75Z~8': 1032-632 25. 20369 97.82083 389.33'23 t023-299 32.07031 1.00.'82t2 409.7'715 1015.967 1 8. 998.09 96.27618 342. 3982. 1 024. 702 28.87050 92. 9711 3 289.50'93 10:59.124 29.18460 95.843.98 307. 5029 990.83!01 ' 29.92351 94.. 35358 287.0188 101 3.9'25 10.99890 9'2.3235'5 359-4045 1008.800 10. 99890 96.7:065;9 286.5249 99 2.6272 30.87032 101 ' 9784 366. 9041 999.3804 19' 99?99 95.03755 367.0337 979.3628 20.05759 91.59500 395.5840 970.0906 1'9. 99799 101,2699 320.3933 8 4,'z5 oo ' 94,8.5425 3,497 · 806 794.5000 93.6652.9 3476.234 830.750.0 72.83849 806.0625 7'9. 25687 3408.891 795.1875 92.71111 3695.499 815.375.0 66.61856 3303.838 754. 5000 77. 28221 3313 · 066 831,3750 89. 18932 3278.122 827:.2500 7'6.16768 32'91.505 824.9375 69.66263 323:3 · 265 834.3t25 71.42522 3154.147 774.7500 89..g02'19 3136.195 870.5625 10, 4.3 T::S 2.562848 1.515200 986.0000 2.399007 0'.9469998E-01 1017.313 2. 888005 1. 329 200 998.3750" 3.272 486 0.5418000 987,6875 3'071569 1,329200 999.3125 3.331416 0.2990000 924.5000 2.697356 0.9998999 1021-125 3.274725 O. 7660001. 1023.375 2.729910 -0.3890000E-01 1032.813 2.923476 ,0.6717000 997'5000 2.822519 I .37050T 963.1250 2.998509 0.6745000 1041./,38 | &l I I ¥'"~' ~' 1050.813 2.568501 127.2947 989.6250 2.440385 126.8791 1032.7.50 2.920576 t26,4:113 1019,000 3.4.54121 125.9525 998.8125 3.252002 125.4893 1017.375 3.484093 125.1996 923.8750 2.782380 124.8050 1033.688 3.490098 124.4833 1033.625 2.725508 123.9673 1048.313 2,724545 123.6393 1012.2.50 2.527908 123.0450 973.5625 3.1~1163 122.6965 1061.938 ~,n'~..nnn 974.7456 58.73~74 2.016911 I .750406 - 7'9'8 '3750 5985~000 4.900287 -4,8.08788 832.8125 5935.000 3.204:720 0.39201'1'9 857.0000 5885. 000 4:.038538 -5,0.46272 862.6875 58 35.000 3.62'0543 -48.28618 843.7'500 5785.000 4'.595934 -52.23035 847.5625 57, 35. 000 4.638074 - g4,3 977 2 826.0625 5685.000 3.629456 -62.1 2608 866. 5625 5635.000 3- $66948 3. 839915 856.0000 5585.000 2.468165 -t3.42805 880.1875 55:35. 000 2. 556023 -0.4980530 925.4375 5485.000 2.584942 -3-292439 904.2500 5435.000 2.893258 -48.4115/+ 899,1'875 5385.000 57t~,~2959 972.0786 19.99799 96.51628 831,7261 974.5398 19,99799 99. 3382 3 545.50~,2 987-.27:93 2'0,02779 105.9045 886.1790 979.6848 19.99'799 103 · 1118 821.. 1 904 981.7'925 19,99799 104,4;789 628.3416 967.5354 19. 997~99 9:7.07925 387.35;72 1:002.391 20.50749 106.95'65 112 6. 105 997.9978 20.67120 1 00. 8979 360.0803 995.3882 20'56449 103.3017 557.2529 987,1045 20.27760 107,7242 362. 8203 999.6&99 20.92439 t06. 2224 365.6733 997.7846 20. 99789 109.41-35 846:* 3550 995.5627 48.66353 31'05.732 818.31~5 79.11'829 3'090.668 821.8750 47.27878 3058,994 843' 93~'5 45.00993 3060, 3t4 827.!250 57.36426 3010.383 832.75~00 64.91328 2956' 184 808. t250 51. 00536 3014 ~ 518 851.1~50 78.25502 2975. 288 61:8. 5000 71.46344 294!t. 196 855.2500' 85.51631' 290'.078 903.7500 81.04295 2927.209 885.0000 53.67078 2929.099 888.8750 77.17439 1.483931 O. 9660000 1021.438 2.185357 1.0000 O0 1023.313 I .304364 1: - 556299' 1053.813 1.463690 1,01'3400 ,1033.688 1.917031 1.1021-00 1023.063 2. 953979 5687000 0,09 · 688 1.126814 O. 76.30000 1053.188 2..833886 0.7532001 1047-000 2.135633 0.6403000 1083. 2.438560 0.9222001' 1103.438 2.618117 1.230901 1103.688 1. 449965 2.397300 1192.063 2.645925 0.&812000 1.202319 121.8572 1035.750 1.833167 121.4787 10/,8.250 1.128440 121.t550 1064.750 1. 217.745 120.8062 1046.438 1.591491 120.4760 1038.688 2.581596 120.1918 1'017.625 0.8880167 119.8606 1066.438 2.777158 119.4818 1060.813 1.794518 1'1 9.1666 1100.688 2.756186 118.9032 1111.625 2.734681 118.6394 1118.313 1.181538 1~1 8 · 307Z: 1100.1,88 2.865366 118.0398 ' . 335'. 000 2.6'3:-717 8 2.755787 894.5625 5285.000 3 · 2 0.1'376 4.262:755 961 ~ 0625 5235.000 2;.428058 -i .303327 937. 3750 5185. 000 3.1'726'75 -2.864525 9'48.5000 5135.000 3.718880 -42.60416 922.5625 '5085.000 4.065775 -34.69139 932.5000 5035.000 3. 7407'83 - 53. 4051'5 955.4375 6985.000 2.778077 -71. 29388 1038..938 4935.000 3.02:94'94 -28.72314 9911.4375 4885.000 4.751407 -26. 71214 886.0000 4835.000 .3.357014 -26.50151 924.6250 4785.000 2.715940 -37' 1'36G4 967.8125 4735 · 000 2.922393 985.2676 20.991';99 109.7511 3-85-4241 1'003.6AI · 20.85889 108-8810 354 ' 6910 1012. 506 27.66449 108.4264 5.25.7107 989.3123 28.87050 106.92:80 305.45? 5 1001.5,51~ [.8.9,9710 1111.2946 596.6765 988.,9771 29-52650 110.0:393 633.3?43' 994.6'065 29. 99701 116.4249 580'6;841 979.3~638 29.99701' 12~6.8139 907.9949 1~!017.835 29. 99701 1 t'0,3819 556' 9~11 942.6130 30-. ~061~- 108.2204 31 3.2637 958.2310 30.52361 '11'2.3486 383.6082 973.,6416 30.65611 1 t~!t':J' 0698 53;6 · 2327 965.9272 30.92342 80- 5110'3 280.7.904 872..06~5 78. 901; 4'6 2877 · 7~31 77.96'802 2 87i0' 668 918- 06,25 77.00995 2802.398 942'6875 63. 72180 2.83.6.89:7 904' 6875 71'96503 277!;9- 06:6 926.37D0 62-20686 2728.8411 938.5625' 49.49474 2682 -'57:4 t022'. 938 68,t 3489 26-41 . 827 978'6875 69. 5651'9 2609.56~5 867.5625 65.38652 2638.024 90.2 · 0000 62.92787 2624.515 95 t · 750;0 82.20767 2565.616 ~7~. ,~'625 2.465146 O. 5878000 1106- 000 2.596201 0.4739000 1193.500 2. t191 84: -0.8 l&-9993E- 01 11;32.813 3.014809 0-. 97t-0000 - 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66 . 5665 112.6~.888 92. 771i77 1067. 938 1 248.31 3 121 2. 250 1032. 750 9-. 305 Z16 1235.000 767.59,67 52. 18866 29.69392 69.41135 40.4.2885 32. 17311 t389. 552 0.1788000 66.14185 -1.12. t152 I05-. 8 573 t 109- 31.3 1- 313. 000 1311 · 188 1107.438 t-4.4,0687 80:4.0146 32.63240 t02.7t21 12.72027 11-85. 000 52.08781 -11t .4986 li~1:67.. 313 135.000 56.66258 1'1t/*. 250 783.2451 32./.9371 88.69379 1.3,t9000 795.6296 31-'23869 101- 18'72 22.15273 085.000 31.99260 1:25.0097 1'187.438 792,7590 32.29381 87.05731 9.337227 035.000 70.65048 128.6129 1107.750 985.000 56. 99908 121'1110 i088,31 3 ~83.1 990 32.17311 87.288-01 12.78631 785.4590 32.19022 110.9064 8. 464;474 935.000 61.24t21 -119.6816 1026.063 798.8950 32.4.8720 '1.12.8514 27.89938 885.000 3-1. 10271 -!12.3'957 1"258.875 799.3591 32.55852 87.72969 7.445260 835.000 68.54892 - 12;7. 3793 1:082.438 44. 90802 1354'- 957 1166, 938 36.63322 1338.8~+2 11 09.625 49.12627 1313.337' 1185. 500 33.66753 1305.160 11'04. 250 39.87344 1278.794 1082.813 63.82835 1272-563 1021;375 55.77220 1235.228 1253.688 41 ' 458t:8 1221.497 1076.563 38.46527 1139.471 1048.188 790.1763 32,51111 88,77161 28.24240 -0. 3760000E-0t 1369.875 23,95610 0,4825001 1263.438 18.65422 -0.360'0000E-0 2 1394.875 28.3.4180 O. 1~191000 1273.750 22,/,4884 -0.2420000E-01 1283.125 39,99980' 0,1021000 1197.938 18.18719 -.0.12160'00 1493,250' 31,91209 0.5080000 12.67.250 27.77504. 0.4120000E-01 1213'188 785. 000 57. 85265 -t 33. 6774 78.61465 65,61514 1372.250 75.81500 65.47615 1268.813 45.141. t7 6.5,69246 1394,875 107.0982 65.70502 1278.063 78.20865 65.89464 1287.188 118.1408 66,00.616 1204.000 35.84308 65.93513 1501.688 13/*.3136 65.61040 1252.125 116.2218 65.35036 1211.563 '6:3. 2:4271 3.2:. 96690 -736.5667 87.1. 421~ 1090-750 7.69691'5 1087.938 o · 1256.37} 685. 000 804. 6353 37.97~762 31 . 8.2837 63.67155 33.1901 1 11 62.2'86 O. 7099997 E-O 2 35.9953 81.717'99 1062'750 1.245.938 064.688 9. 6567t 7 799~.2837 32.996?0 88.16054". 9.862574 635 o-000 58.86548 -126.9834 1-09~. 750 795.9587 33.54.350 102.6:918 ~4. 55875 585.000 34.014~5 -1-32.17242 1:2,06.313 776.0547 33.20871 9.9,.30940 127'4642 535.000 19. 78029 -I25.2383 1:189.000 781 · 63.23 33.1 ~400 69'50357 3. ~61'88'26 .0037 38-431 51370 93404 .4,85.000 1~9.9~23 -132,8193 100.6:. 625 779 33. 71' 4.R 435.000 IR. 3.3138 -133-2t31' 941. 0000 841.1162 26.36569 68.66885 4.829545 385.000 1:39.5313 -146.1774 867.4375 901 ;2427 19. 68059 68. ~17'345 3. 040761 335.0'00 150 .'7235 -139 · 3488 875.6875 854.2686 29.82660 69. 386:43 5.694809 285.000 1'42.1 066 -1'35.09'78 834.3125 770.5378 25.75.681 69.79303 5.644694 235.000 1.43-0806 144.6?34 903.5000 778.3237 26.99730 70. 7048 R 4.010583 185.000 1 41. 874'4 -15t.8078 899.3125 4.5..78699 11'45.&20 1088.5i00 56.03809 1142.94'7 12 05.5.6.3 39.80220 111;3.237 11 88.93 8 27.54370 1084.7t9 999.4375 ~6.67567 1069' 97.7 '935.43Z-5 26.74980 1.072.046 864.1875 29-31259 1045,479 899- 0625 ~7.28226 1031.088 829.2500 24.61938 1020.579 91 2. 7500 27.05124 1003.264 893.2500 31.2402'0 970.0750 1013.063 783.4153 27.50218 71.71301 5.704740 30.30417 O. 7523000 1~89'813 17.:~958 O. 1000017~E-03 1390.813 4.93084~' -0. g880000 135~2.313 30.93355, -0.1~88000 1140.438 31.79060 -0.1021000 '1076.313: 50.5?394 O. 7300001E-02 999.4375 65.57993 O. 1 021000 10,~3.563 69.73199 0.2540000 979.1250 42.66539 -0.336'5000 1049.563 39.37785 0.3:414000 1036.500 30.57968 0.7899001 1158.438 135.000 118.8919 -1.27.7174 t013,313 65.53395 1255.875 103.5549 65.89069 1245'.125 101,3934 65.91711 1293.250 4'0.71 869 65.81461 1393.938 7.845342 65.95366 1358.500 276.3328 66.43564 114t .750 232.9154 66.93855 1076.000 207.0588 66.85452 1003.750 328.8650 6:6.07291 1009.063 175.5985 63.39664 986.5000 177.1575 59.7014~ 1045.375 249.3403 59.18855 1038.688 175.2928 60.74611 1171.313 695.3125 510.5955 35.000 874.2'642 21.45049 2.2~8485 24-99751 1085-692 -133.166'7 214.8824 942.87:50 908 - 2:500 51 0 - ? 825: - O-2 3~00U u 8e83000 1,971836 0,0000000 1315.375 . 000 I ,957781 63.80986 1325,813 TOTAL. DATA RECOROS: 1506 STARTING TAPE DEPTH = 9135.00 **** FILE TRAILER; **** F t!LE # 2 Rn2-MN'003 ****: PIiL~E HEADER ***~* ENO:]:i!NG TAPE DEPTH = 0.00 1024 FORM;AT'RECORD ONE DEPTH PER TiAPE DEPTH ~N~T : FT C:UR¥ E S :: NAME I CAL 68. 1 2 CN 6:8 1. 3 CN,C 68 1 4 GR 68 1 5 SSD 68 1 6 LSN 68 1 ? ":ZC.O R 68 1 8 Z. DEN 68 1 9 SPD 68 1 10 TTEN 6.8 1 11 MR;D1 68 1 12 MRD2 68 1 13 SFT 2 68 1. lZ~ SHR 68 1 15 POR'Z" 6,8 t 16 PE 68 1 1.7 TM 68 1 18 U 68 1 19 K 68 1 20 KT:H 68 1 21 H013 68 1 ~2 HD.24 6.8 I CO:DE: S~MPLE# BYTE S INCH ~:' PCT. 4 PC, T. 4 API 4 CTS 4 GNCC 4 GMCC 4 FT, 4 LBS 4 CTS ~+ CT:S ~ CTS ~+ PCT- ~ BARN~ ~ PPM ~ PCT ~ AP: ~ ~NCH 4 INCH 4 , DATA RECORD ('TYPE# 0 ) 1018 BYTES DEPTH CAL; CN CNC GR .... ?:cna, ZOEN SPD ~:T:~~ HD, 13 H'D24 '91-27; 000 6. 500001 1 5.00000 20. 79800 121 . 2000 t1603.84 4.1. 99582 O. 0000000 2. 500000 18 · 99809 3.098 . 4:90 1 886.812 259.2.7~1 1596. 840 O. 5199482 9 , 090889 3 . 000000 9. 650688 9.1'25393 1r. 118409 59.17630 8 . 544922 8.75 :~4;41 077. O00 9.33 8263 33. 70604 8662.320 35.44~490 -O. 605 492;3E-02 4413.574 1022.243 1 296.O0~4 9.81544 9 2. 846 257 9. 290684 81 . 28142 12 · 84'1:80 13.11035 027~.. 000 12.97 59-3 8599. 219 57. 19771 4496.297 1100.451 9.91'9834 2.6'77300 68.1-'7..351- 1-3.86719 29. 677'31 -0.1031606E-.02 1.328.126 9.26 &:624 13.94043 35.931.05 2.4-8.8045, 853.54,20 4. 726929 29.28557 2,.486322 928.5491 3.224986 111.1916 7.828802 0.5457011 1'.818069 86.16624 30.99692 0.6095468 1.714933 8977.000 1'3..27151 26. 70528 7993.051 53.88509 -'0. 13211'1 7'E-02 4519. 887 941:3.0652 1 t ? 1 · 985 1-1,5691 7 2 · 82-4168 1'2. 758~0 74.75641- 16.97 803 1:4.28223 26.37843 2.459108 80.1.5691 1.100531 81.16998 30. 99692 0.6007949 1.697392 8927. 000 1; 6.68427 7559.398 5'2.9'9962 4325. 250 759.4812 8.34/*942 3.936307 52.79291 1-7.77364 35.70229 -0. 2509886E-02 982.4597 11. 33941 16.74805 34.25089 2.512308 591.'6667 0.2928689 53.20300 7.999202 0.4731739 0.7665961 8877 . 000 16.832'99 4.8. 66246 9368 . 605 2 7. 68660 O. 6813633E- 01 4356.125 1304.31 3 161'8.969 16. 39725 3.721142 12.1187-67 5 6. 9044 2 20. 031'74 19. 3969'7 8827.000 13. 56359 23.52853 7.766 . 367 67 . 39369 -0 . 1'9'53374E-01 4!427.125 924.8923 11 2.2.293 8.510012 2.535891 7.369039. 72 , 18248 t4.84:375 1 5-' 03906 46.3125.2 2.379445 1.022-525 1. 228347 23.33/,93 2.509584 78'0- 91 28 3.~92268 69.75082 7.999202 0.4776440 0.4899867 95.69115 12.99870 0.6162828 1.683729 8777. 000 13. 71927 26.7:7623 26. 22882 81 · 85968 8010.8'91 80.787:90 -0.11557~.1E-'01 2.477789 11 · 99290 4396:. 691 94'5.3t23 1 t94.80-0 803.3945, 0.61 26050 10.43701 2.305975 7./,48.827 2.691067 1. 335936 63. 88750 1. 4.685.06 15 · 00244 8727.000 13.11736 8207.8'55 80. 37642 4'342.648 1096. 289 15- 47126 2.13925'2 58. 25556 13.87939 24.18307 .131.7539E-02 1359.7:3'6 5.469594 13.7'2070 24.13380 2.394724 957.5400 1..632392 23.15091 2.616483 1004.072 2.281808 8677.000 11.78663 22.36:620 8268.410 85.91.811 -0.4 706036 4333.473 117 2.422 1410.152 14:. 15253 1.822814 3.317593 48.851'52 13.72070 14.23340 E-02 66.83348 11.42220 0.6354971 1.429527 66.58743 11.99880 0.6711431 0.9312088 8627.000 1:3,35252 22.27029 22.28806 78.87625 11.99880 ' .63~43114~ · 8577% 000 81703 ' 797 4297.047 23, 00563 67. &3755 14.24017 33.26343 1::395.836 5l. 436885 14.61182 40.9875:5 -0,68584762E-01 188'1.732 1i.38574 1:5.84473 852-7.000 14. 35009 43. 26263 9338.727 34,. 66721 O- 5615 772 E-01 4251 '672 1349. 998 1'65'4.152 2. 307199 3.420052 8.254093 70,200,67 I:;4.. 27002' 16.04004 8 4-77 · 000 1 S. 52003 ~ 9.08238 8503. 086 27. 35521 O. 2t77773 E-O 1 4283.91 4 1,05 t. 937 t 356:. 371 18.2 651 2 4.196880 8. t73 80.8~441 13.81836 18.0~1 99 8427. 000 14. 65767- 58. 22348 9539.555 25.70000 O. 6406230 E-01 ' 4179 · 766 1383. 583 1679.854 118 . 4;7493 3- 361. 670 6. 7931'54 80. 20502 1 6. 78467 18.31055 8377.000 1!3371.96 42f2.688 22.56070 73. ?*8885 16' 3~:81 22.04660 2621.?02 3.289602 18.334'96 8327.000 1l:~3934.59 4136.813 27.56813 100.6288 1:5.21'676 24.39911 26-82.631 3. 562974 18-43262 82:77.000 10544.52 4186.145 23.72719 126.3112 13.63600 31.834T0 1699.815 3. 859929 15.34424 8227 · 000 8969.715 4:135.8~8 19'63165 141:,9346 112.9348A 29.09871' 13'21.187 3.001313 1~.29443 8177.000 8735.610 ~08 tI . 31 6 1 4. 34962 112.5725 1 2. 94766 32.91650 1 t61' 158 3.035951' 14.33105 8127.000 8.783512 96.38~12 12.86315 ~0' 71420 1068.1.77 3.618420 1-4.27002 80,77.000 13.09093 60.92329 ' 1400259 33&0- 796 5.526533 16.1'3770 47- 5629-9 O. 1867507 3515.039 5.783911 14.29 &4'-3 57. 39935 O. 1 ~06~98 2176.678 18.16441 13.42773 43.99738 0,5129010 1663.427 11.6151:2 13.2934'6 E-01 46.77531 O. 2072600E-01 1457-964 9.10~725 1:- 3.80615 40,51671 O, 7/,70101,E-02 1363.903 8.858292 1 3. 671 88 38.89165 39.45906 2.2704'07' 1049.484 2.065211 4t .65323 2.611931 1111.919 2.667980 67.10855 763'6072 1. 588,34.3 56.72894 2.345163 1127.505 2.682423 59.10960 2.277748 2139.0'22 2.820139 45.67009 2.195126 216.8.419 5.783425 56.24980 2.258501 1352.965 5.749938 43.07895 2.3260.77 1069.156 14,34038 45.82856 2.413231 942.6409 5.155440 39.70378 2.505072 83'9.0403 6.011867 37.99762 2-A58513 82.82480 11.99880 0.5199161 1.116772 91.54'733 11.99880 0.6051170 I .177001 93.57423 11.99880 0.4561760 1.397880 97.77083 tl.99880 O. 5879151 1.803563 93.56409 1.1.99880 0.5294361 1.526973 144.4980 11.99880 015084261 2.006947 174.00'27 11.99880 0.4790361 1.772430 256.7737 11.99880 0.5117848 2.549361 150.0253 11.99880 0.5527670 2.264525 125.2610 11.99880 0.54.39091 1.923265 117.0389 11.99880 '8027~.000 8491 -09~ 4088,575 1~1. 57859 118.3433 12.85090 35.33070 1083.108 3,383583 13.56:20t 44.6,879t O. 5808354E-01 14t'0.3,38 10.82626 12.902'83 43.80930 2.458953 862.8584 2.874911 138.3688 26.99730 0.5033349 2.454196 7977.000 80'22.234 4081.737 :20'28403 86.59674 12-36417 · 55.62392 1048.187 3.765281 13,13477 43-0~-7.42 0'* lOA7770E-01 1287.440 11.712:28 1;2.78076 43. ~64.92 2.315313 834.~+631 4.3541'78 120.0775 26.99730 0.4845132 1'-472854 79-27.000 8.481:~. 340 4-0:26.793 10.5:2:262 11:2.5769 12.93750 4~:6 · 95 801 1075.980 3.4:70928 13.6,3 525 41. 0305'2 0'1644304E-0t 1342.638 1, 5.06081 12.80518 40.16364 2.476377 899.9055 4. 350244 140.8086 26.99730 0.5421093 2.370501 7877.000 8332.695 3991.464. 8.987598 123.7728 7827. 000 8594.379 4009'480 17"84424 11'2.1695 13.767'86 36. 99069 993.7688 3.7215~-31 14.72,168 12 - 931:0'7 33.93?88 1:t57.019 3.304062 1:3 .. 97705 37.42375 0.1. 383097 E-01 1279.9.31 7.91 564.~4 1 2' 6831'1 50.98088' -0.8834232E-02 14'94' 442 ::1,5,14634 12- 78076 3.6. 20879 2.501704 798.3911 4'614229 50.06432 2.3.55570. 930.665:8 4.917735 1 55.2447 27.99719 0.5073651 2.745171 149.3270 2'7.99719 0.5477389 1.951445 7777. 000 9255.516 3949-269 1.8. 27721 90. t 9989 li2.78~77 35,25002 1 458' 6!71 3.116976 13.79395 42.07997 O. 2462942E-0t 1782,344 1.1.36740 12,80518 41. ~7669 2.348426: 1187-331 5 · 1.6'3242 137.5596 27.99719 0.5712700 1. 247365 727.000 8000.215 3950.616 13,14649 75.25562 13,36017 66.024'80 1000.6~98 2.706~39 14- 28.2:23 33.4~438 -0. 1752430'E-02 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O0 0 13.26955 42.06491 1313.086 3.104519 t 3 · 9648.4 14.50323 28.64670 -0-1138193 1616.407 8.311037 .13.07373 E-01 34.25407 28.17751 2.419131 1098.294 1.813601 32.92648 2.450652 82.91231 9.999002 0.609:1449 1./+42740 160.0939 10.38670 · 7477.. 000 8549.746 37:56'6'39 10, ;56.332 101. 5882 1~.,99150 45,23909 1052.938' 3. 230939 1' 6,1 & 9'90 7427.000 8562,770 3.694'.288 9.76921:3 98,76997 14.65541 44.1'5789 10~1- 807 3.246037 15' 7:.548'6 7377-000 8581"566 3729,515 10.60787 89..84~576 lZ'.88653 42- $6780 1117-.t'53 3.1 43118 0.0000000 7327.000 8902,992 3733 '12'5 1:1./+:4t'32 91,59593 48785 42.23630 4.4.43 3.003366 0000000 7277 · 000 8984.832 3686.370 11.70488 78.90659 15.. 7;91:21 · 49,7775 t 1';I;06' 1:15 6 2,699040 -999.2500 7227.000 899&.668 3685.979 10'78571" 97.522t7 15.45680 4;9.18141 1166' 1;08 3.043303 -999.25:00 7177,000 8905,262 3610, 271 1;1;. 66&94 81. 3766'5 14.88304 51- 1200'9 1157.609 2.9'86;794 -999.2500 7127.000 8715.355 360;5.917 12.319 80 t09. ~889 14.98.571 43. t4430 ' 1t40.854. 2. 576t-83 -9.99.2'500 7077.000 8801-24'6 3597.907 10.17831 100. 0007 15.86653 4&* 19830 1073.451 3.083601 -999.2500 7027.000 9223.801 3590,6~6 1 ~ · 65.162 9&.93530' 6977,000 16.541~66 ~4. 99570 1:21::7 · 400 2.961609 -999.25.00 15.52975 37,2849/+ 0.,599530~0E'01 1. 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O. 22! 5 792E-01 28t0- 14T6 7.321743 -9'9'9. 2500 43.06586 2.130618 1979. 954 O. 96527'64 61.46,602 31.99681 0.6234071 0.9601417 34~77. 000 10 235 · 34 1971~ 150 35.37404 51.0864`0 12.92539 3t. 88~80 2585.479 2.117591 -999 4:4.6371.3 'o* to9o~3~E-Ol 2895.312' 9.13882;8 -999.2500 43.71:677 2,066328 2 073 · 82 5 O. 784,.3980 57.18353 31.99681 O. 6666839 0-7813337 3427.000 9952. 906 1953.858 24.62381 41'~ 92039 ' 14.201:11 36' 56262 1902-145 2,665551 -999.2500 43.20651 O. 48:7t 8.28E-01 2365.973 2. 97914~4 -999.2500 41.64023 2.243707 1668.032 4.0:71503 76.32159 31.92331 0.6066072 0.7228799 3377.000 10100.0~ 1;947.267 28.20218 61-09897 14. 16227 3t' 17630 Z051 - 825 2.574639 -999.2500 44.327'01 -0. 1858781E-02 2520.985 7.725828 -999, 2500 42.75473 2.18'4664 1.709.345 3.020782 76.62946 31.82642 0.6414918 1-711499 3327.000 1:1092.52 1937.354 27.63576 64.99937 14.22702 25,52000 217-0.727 2'. 575789 -999.2500 45.49785 -0.3037505E-02 2701,26..8 9.,664520 -999-2500 43.89487 2,1:9401:0 · 1844. 148 2 · 187840 81.30080 32.48241 0.607Z'601 1.120797 3277. 000 1021'1.59 1:906.726 28' 1'8050 7~0.53023 1&.08417 29 ' 49879 2086'.615 2,4;4.~422 -999.2500 46.05818 -0.1142683 2556.542 1: 4- 6904:6 -999.2500 E-02 44.49191 2.185021 1745.558 0.9081911 76.00877 32.35471 0.6213131 1.443191 3227.000 1,04`81 · 58 1901 -506 3;5.33191 1:5.67080 32.25 340 2~46.921 2.266512 -999..2500 46.61.04'6 -0 ' 10174 25 301;;1.293 -9'99.25 O0 E-02 44.59000 2.067023 2141,489 1.606124 56.59283 32.37421 0.6596800 1.025495 3177.000 9978.~30 1876-365 35.2108~ 5/,.04027 · 16.36607 33..5~'651 2051'835 2.1,65694 -999.2500 16,89391 O. 1 018377E-01 2509. 659 7. 040560 -999'2500 39.52365 41.64586 2.069021 1730.432 1,069028 37.30029 ~- 139669 64.18477 3Z.40050 0.6315149 0.7068191 52.76312 32.50050 ' 3077~.000 9729.719 1'883.710 1 7. 79002 42.78975 15:. 011:70 28'15959 t713.691 2.1&22~3 -999. 2500 3027.000 101 ;~0' 1~+ t839.735 27.13811 72.14775 1-4-4.5841 27.08121 1 969- 765 2.320593 -999.2500 2977.000 10724.93 11805.610 29.54941 61.99966 14~. 20878 28.17010 2200.003 2.503382 -999.2500 2927.0'00 1'0346.77 1792.335 36.90182 50.48051 1 5. 91596 2'3.64 65 9 2315,320 2.382095 -999.2500 2877.000 1773.663 43.5T640 47.57593 17.85567 20.69569 3431.399 3.360685 -999. :25i00 827.000 10414.82 1774 - 31 2 36.26848 43.9525'0 15.45833 27.33440 2t95.627 2.6985-47 -9'9.9 ' 2500 777. 000 3625.029 1795.98t 59,870:24 48.94348 1:2,851t 8 20.00670 867.2393 13.67011 -999.2500 39.81511 0.4.4.66344E-03 2048. 583 4.443624 -999.2500 &6,00832 0~464.71:69E- 0'2 237.4.085 7.969692 -999.2500 44.69656 -0, 77724 90E-02 2714-250 12.64109 -999,2500 57,69388 O. 5400505E-02 2790,639 7. 5823'38 - 99 9. 25~00 58,29398 O' 1126586 4236,602 5,429379 -999. 2500 42,69765 -0.15~8117E-01 2684.954 4.0131.5:8 --999.2500 77.84932 -0.. 7903712 1~54.8t5 6,885/+90 .-999,2500 2.05~879 38.10559 ,2,356&6& 1400.954 2.79'.16~4' -44.33589 ~.202221 1693.365 1,499139 43.10661 2.162&35 1957.&0~+ 1. 471011 55.83157 Z · 041120 1926.917 1.007263 55.93062 1.931979 2877.239 2.582253 .40.78'583 .051570 1863.284 .806129 78.59158 I .662141' 468,4783 1 · 723930 65,67572 32,29352 0.6471330 0.7160362 81.26140 32.47060 0.6144770 1. 7005.21 75.03650 32.36742 0.6231019 0,7327878 57.05038 32.16721 0.6292311 1.028013 60.45157 32.00272 O. 5172261 1.400382 56.73041 32.19022 0.5999200 0.8955774 61.83995 31..99681 0.1963701 0.8528737 TOTAL OATA RECORDS : 1163 STARTZNG TAPE .DEPTH = 9127,00 ~:L:E TRAILER:'**** E NO I~NG TAPE DEPTH = 2735,00 F~'LE # 3 ***~* FILE Rnl:-RP' 00~ HEADER **** * DAT.~ R'ECORO {TYPE# 0!) 95-8 BYTES * D EP T.H CHT GR.. R Z. bN R, FOC SPD T'T EN C,~ L S P AC T 2 R2 T 2R1 TlR1 C ILO T, EMP TlR2 2 809. 000 -231.1019 71 · 91063 2.49?962 2. 602333 3.231462 23.99::7'62 975.90.2 3 0.-0000000 70.09 302 -77.86620 125.8311 1130·938 1380.250 1354.563 1 t 0.0. $00 384~- 2705 2759.000 638.3308 71.91063 0.1793477 O. 1793532 2.14-927- 2 28.99121 1936.704 -0.11'911'0.00 70.0 9302 -1'4'2.4'138 134.5:031 1099.375 1376.438 1 385 · 1 88 1t09.875 557~5.590 2709. 000 675.4597 63.24'672 2. 381 520 3. 278098 28.9.6730 1929. 767 0 · 7300001 E-02 -194.4T19 1' 29.4903 1096. 000 1361.563 1098.000 417.4050 2659.000 567.2947 3.056511 28.86461 -1 24.9528 132. 219-1 1 095. 000 479.83'96 469.5107 28.87050 136.7059 782' 7683 4.16.9673 28.12379 138.7:26 5 598.8069 447.1118 :)7..99719 5,8.576'64 1919.646 t'090.750 46.10356 1892.647 11 79. 625 47.79991 1 887.1 50 lZ17. 375 42.26431 1 866 . 41 '3 2609.000 2.745976 -lZv5.8448 1179.750 255'9.000 Z .976665 -140.9639 1219.438 2.130076 -0.2078000' 1361.500 1,340816 -0.2540000 1464.313 1:.666440 -0.5334001 1478.000 2.539283 0.0000000 2509.000 2.395755 71.03937 1364.875 2.084030 71.80141 1365.313 1.277517 72.48596 1~+63.063 1.669988 73.03265 1~86.188 2.540497 73.43150 1393.250 · , T.'0T;~,L D~T~A RECORDS : STA:RTZ~N'G TAPE DEPHH = 46 2809.00 TAPE OEPTfl = 2489.0,0 R n'2-R:P. O05 ****~ R~r'~'E HEADER..:.. **** 102~' FORMAT' RECORD :~TYPE# 6'r4~ ONE O"E'PTH PER FR'~NE TAPE B:~T:E S 4 4: 4 4 4' 4 4 4 4: 4 4 4 4 4 ~: * DAT~- REC0~O DEPTH SP 9143.000 3.33,5073 -4,.26'9575 978.8750 9093.000 3-773a42 -3 -74;94'15 753.5'625 CHT SPO 221;,9661 26.99730 948.3428 ~79.8049 900.9675 3~:.76102 93.06.856 31:4.3379 958 BYT'ES * G'R TTE'N T. 2R2 91,086'76 2854.514 941.1875 91.08676 4/+23.680 749.125'0 TZ-R. 1 E.116940 2.000000 676.8750 3.028179 I .-867400 933.6875 /, -610669 RZLD TENP T'IR.Z 2.084180 140.7859 940.9375 3.181290 140.7859 941,3750 4.660055 ~ ,-,, a ,ma ~993~000 6.01/.184 '5.695719 7:88. 2500 89;43- 000 5.649611 -7. 2846.47 726'/,37 5 88;93.000 3.010297 -45.17102 840.8125 8843.000 4.336248 -5.05/,791 87:93. 000 4.97602&: -8.788700 685 · 812'5 8743.000 5. 99289/*: -16. 3792 0 670.811:25 8693.000 5.05~027 -16.76765 671-9375 8643.000 4.77603 4 -12.19919 67'8.3750 8593-000 1:0'20978 -1 6.01;097 652.7500 85~3.0.00 -8.808a77 738.9375 8493.000 3'.5246~2 -7.807221 ' 860.8750 8'9.3.481 4 24.99751 81.03726 1:717.8844 895.2976 24.82710 85.70869 206.708& 913.4426 2/*..67070 87.37422 311..6099 9:14.o52r 24.07701: 8o. 86142 23t 908.63t1' 24.07701 80.11' 3"45 t84.7208 91~t · 377 4 10.99890 78.29 839 150. ~9¢~ 91.9.2607 10.96320 7-7.95660 181 ~ 921'1 91:2.6631 10.99890 78.7t758 196.6704 920.7583 1 o. 99890 66.69551 114- 4R44 937.6877 10.99890 85.85083 2 44' 4427 922,9858 10.99890 88.36615 334.1294 84.96.55;5 4413.586 693. t250 87,,41,383 43~9..391 ?24.125.0 · 63..5114~6 /*!:3'63 · 770 802:- 6875 90.65775 4347.31:3 687.2500 8!~0037,2 4335.1~95 681.6875 76.26248 4269-543 659.5000 69. 96693 42~8. 934 668.25~00 75.76237 · 4217. 793 670.1875 52.037g0 4203.9?7 651!~ 5625 89.63281 4172-922 719. 6875 91.38788 4196.383 .733.2500 5. 704612 0.9709004, 854.1 875 4.983037 0.91,/.8999 886.5000 2.861868 O' 7958000 988.2500 4. 2891:50 0.9927998 848.37"50 5.280830 O. 7 910-000: 758-4375 6.438812 1. 536001 819.0000 5.391738 0.7460001!' 826.7.500 5.06592~ 0 · 9707000 828.875:0 9.7365:19 0.9052000 807.7500 4.5-98456 0.8725001 91~.0625 3.234174 I .000000 916.7500 5.621629 142.3614 864.3125 4.837732 143.7592 893.0000 3.209141 144.1081 990.8125 4.315603 143.8002 8'61 -t'250 .5.413574 1'43.6465 849.0000 6.649197 1 43.6040 825.7500 5.496887 143.7197 829.4'375 5.084648 143.8246 837.1250 8.739397 t43.52t4 817.0625 4.090939 142.6076 915.1250 2.992852 141.5096 1030.875 TOTAL:DATA ~ECORDS ~TARTING TA~E :DEPTH ,.*** ~TCE'TR:AICER ;**** 97 9143.00 END~N:G TAPE DEPTH = 8471.00 1024 , FORMAT RECORD ¢'T!~PE# 64i)i -ONE OEP'TH PER FRAME TAPE DEPTH ~NI~T : FT 20 C'~ES : NA?ME ' CODE' Sa~NPLE# ~N!i~T B¥~TE S 4 ' 4 4 4: 4 4 4 4 4 4 4 * :DATA~ RECORD DEPTH' SSD T':TE N .RTH 9129.000 1:tl 36.89 2915.508 9.090889 65'03848 9079..000 8120.641- 437:~.5~7 1:1.5'5~3~ 6.7,58514 9029.000 (T'YPE~ ' CAL PE 9.708334 4~.99568 1884.812 3.000000 11.74&51 36.23959 976. 6716 3..033~60 1 2. 57291' 54-51291- 1014; $¥:TES '* CN HRD2 TH 15. 00000 · O. 00:00000 2315.769 9.650688 37.21005 0.60:85474E-02 1210.477 6.077968 31-20518 -0.11311 62 E-01 CNC ZDEN SFT2 U 17.52663 2.500000 1505.849 7.153043 37.23215 2 .'59353 817.9153 6.363710 30.92680 2.469328 GR SPO SHR K 1'1 2.8092 9.999002 0.5399460 1.289837 107.8864 8.999100 0.559'9121 1.566107 93.61078 8. 9991 O0 0.5987701 897'9.000 ~ 8450.066 4,377.918 9.7~'2603 6 72. 61008 13.14542' 55.04242 10,54.1.23 2.711'329 29.51, 495 -0.1503568E-01 ,13 41 - 456 8 · 919416 29.04855 2 . 489520. 900,4641' 2.241468 87.47650 8.999100 0.6093822 1.515468 8929.000 8307.785' 4345.930 14.95194 37.87498 15. 54040 39.04970 929- 2937 3 ' 64.6049 34.5978.2 0.1518589 1ti66.902 6;876161 32:.97~24 2.40 3293 .748.6~68 1-897263 54.14600 8.999100 0.4458610 O. 500,0813 8879.000 9727.406 4339.73~ 19.0637 8 42.78140 18.87500 27.01201' t383.1'31' 3.9.74592 50.17226 O. 6500161E-01 1683.690 12' 10253 47.2:5580 1059-'97 2.387650 66.31~058 8.999100 0.4825490 0.3102151 8829- 000 7756. 535 4369. 086 7. 875734 77.87'907 8779.000 7994.590' 4382.246 9.319191 63.68536 87 ;29.00:0 8337i-578 4326.836 1~7' 07661 5 7.361'79 13.8t~25 63.60820 923-7578 2.53~730 1:3.83333 75.59322 983.40'67' 2' 645658 11'3.14542 72.861:40 1;172.0144 2.216988 24-2;2597 1108" 1.94 9.4~83393 25.79639 -0- 21'32398E-01 i 2 t. 4.3:86 7-.231023~ 23.06653 -0- 4428931E-02 144:4.548 5.390128 23. 85442 2.520050 778.9346 1 . 8-011 24 25.2;7641 2.&96233 822.5~89 2.54'1948 23.10231! 2.368236 1021'.060 1,287402 90.21567 8.999100 0.6290731 1.566502 8:0.50653 8.999100 0.612'1140 1,.352906 64.67674 8.999100 0'6453500 1.49371 2 679,000 8318.492 4;322.797 li3-98665 50.86136 12.9t666 7'6.83441 1 t5 6.808 2.101024 21.03490 -0 · 4632180E-03 ' t359- 96t 3. t:43222 21.35762 2.419220 10'28.510 2.560507 68.35982 8.999100 0.6860260 1.129356 8629.000 81'2'7. 473 4233'-973 14.0'0278 61.54727 12.80054 ' 76. 10~-.4.7~91 2.329285 21.90237 -0. 2040996E-01 .13:47.000 5.296828 22.19469 Z.418954 921.8696 1. 5477.51 71.37207 8.999100 0.6379590 1.430511 8579.000 134 69.41 4 2616. t 09 2.824841 45.82378 14.0t:742 35.25360 2412.878 4.899936 35.57729 -0. 3305 924E-01 3167.483 6.368482 34.31213 2.603390 1895.003 3.266743 71.31631 8.999100 0.4653639 0.7590812 8529.000 799t .824 423~ .344 -0.6779760 85.56010 8479.000 13.90023 32.32280 839.622:6 3.944156 15.78:125 ~ 5.99739 35.28831 · O. 8783937'E-01 1'1,1.2. 201 9.1:964t7 47~-06667 O. 3513 20'4E-01 34.09560 2.661186 669.1831 1.8982 83' 45.01346 2'466970 ~a~:o_0138 98.73671 8.999100 0.5372642 1.735006 97.87894 8.999100 0.5099492 TOTA~L :DATA RECQRiDS S-TA"RTZNG T'RPE DEPTH PILE TRA.]:'LE~R **** tlt = 91~9'00 ENDUING ~APE -.":*** T A P'E T R A"Z LEE ***-* 89/~/.2~ 3756 ot' DEPTH = 8465.00 TOTAL' RECORDS ~N' 'T----NJS LOG~C,~:~-i-T.~PE '. 274/+ **** REEL: TRA.~LE'R LIS 89/i3 t21 ~T~S 01' TOT.~L.' RECORDS IN ~H[:$~ L~:-CAL:..REEL : 2745 TO'T~;Li. RECORBS ~ T;N~S: PH~¥~'SZ:C~L REEL: 2745 5YSTEN RETURN CO'DE = 0 /+ ~PR 89 9:36a 35.0 se~cend$.