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218-127
DATA SUBMITTAL COMPLIANCE REPORT 711/2019 Permit to Drill 2151270 Well Name/No. HANSEN H-04-1-01 Operator Bluecrest Alaska Operating LLC API No. 50-231-20064-60-00 MD 17200 TVD 6793 Completion Date 3/22/2019 Completion Status 1 -OIL f Current Status 1 -OIL UIC No REQUIRED INFORMATION lJ Mud Log tyle Swe P�O� Samples tw DATA INFORMATION List of Logs Obtained: GR/Res/DEN/Neu/PWDI ✓YU e4 f -'j 5 Well Log Information: Log/ Electr Data Digital Dataset Log Log Run Interval OH/ Type Med/Frmt Number Name Scale Media No Start Stop CH ED C 30740 Digital Data 15400 17250 ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data ED C 30740 Digital Data AOGCC Pagel of 3 Directional Survey Yes (from Master Well Data/Logs) Received Comments 5/10/2019 Electrornic Data Set, filename: 1104-wuas hut, j 5/10/2019 Electronic File: Hansen H04 Nabors AM Report Monday, July I, 2019 01-28-2019.1>df 5/10/2019 Electronic File: Hansen H04 Nabors AM Report 01-29-2019.pdf 5/10/2019 Electronic File: Hansen H04 Nabors AM Report 01-30-2019.pdf 5/10/2019 Electronic File: h04-101 (2).hdr 5/10/2019 Electronic File: H04-L01.dbf 5/10/2019 Electronic File: h04-101.hdr 5/10/2019 Electronic File: H04-L01.mdx 5/10/2019 Electronic File: h04-101 r.dbf 5/10/2019 Electronic File: h04-101r.mdx 5/10/2019 Electronic File: H04 -L01 SCL.DBF 5/10/2019 Electronic File: H04-L01_SCL.MDX 5/10/2019 Electronic File: BLUE CREST ENERGY H-04 FINAL REPORT.pdf 5/10/2019 Electronic File: 1104-1-01 - Drilling Dynamics Log MD.pdf 5/10/2019 Electronic File: H04-1_01 - Formation Log MD.pdf 5/10/2019 Electronic File: 1-104-1-01 - Gas Ratio Log MD.pdf 5/10/2019 Electronic File: H04 -L01 - LWD Combo Log MD.pdf Monday, July I, 2019 DATA SUBMITTAL COMPLIANCE REPORT 711/2019 Permit to Drill 2181270 Well Name/No. HANSEN 11-04-1-01 Operator Bluecrest Alaska Operating LLC API No. 50.231-20064-60-00 MD 17200 TVD 6793 Completion Date 3/22/2019 Completion Status 1 -OIL Current Status 1 -OIL UIC No ED C 30740 Digital Data 5/10/2019 Electronic File: 1104-1-01 - Drilling Dynamics Log MD.tif ED C 30740 Digital Data 5/10/2019 Electronic File: H04-1-01 - Formation Log MD.tif ED C 30740 Digital Data 5/10/2019 Electronic File: H04-1-01 - Gas Ratio Log MD.tif ED C 30740 Digital Data 5/10/2019 Electronic File: H04-1-01 - LWD Combo Log MD.tif ED C 30740 Digital Data 5/10/2019 Electronic File: H04-1-01 Show Report #1 16090- 16500.pdf ED C 30740 Digital Data 5/10/2019 Electronic File: H04-1-01 Show Report #1 16090- 16500.x1sm ED C 30740 Digital Data 5/10/2019 Electronic File: 1-104-1-01 Show Report #2 16722- 17200.pdf ED C 30740 Digital Data 5/10/2019 Electronic File: H04-1-01 Show Report #2 16722- 17200.x1sm Log C 30740 Log Header Scans 0 0 2181270 HANSEN H-04-1-01 LOG HEADERS ED C 30909 Digital Data 15420 17164 6/24/2019 Electronic Data Set, Filename: BlueCrest_H04- 1-01_EcoScopelmages_RM_LAS.las ED C 30909 Digital Data 15339 17200 6/24/2019 Electronic Data Set, Filename: BlueCresl_1-104- L01_EcoScope_RM_LAS.Ias ED C 30909 Digital Data 6/24/2019 Electronic File: BlueCrest_1-104-1-01_EcoScope Images_RM_DLIS.dlis ED C 30909 Digital Data 6/24/2019 Electronic File: BlueCrest_1-104- L01 _EcoScope_RM_DLIS.dlis ED C 30909 Digital Data 6/24/2019 Electronic File: BlueCrest_1-104- L01 _EcoScope_2in_RM_15420-17200ftMO. Pdf ED C 30909 Digital Data 6/24/2019 Electronic File: BlueCrest_1-104- L01 _EcoScope_2in_RM_I nvertTVD. Pdf ED C 30909 Digital Data 6/24/2019 Electronic File: BlueCrest_H04- LO1_EcoScope_5in_RIM _15420-17200ftMD.Pdf ED C 30909 Digital Data 6/24/2019 Electronic File: BlueCrest_H04- L01_EcoSoope_5in_RM_InvertTV D. Pdf ED C 30909 Digital Data 6/24/2019 Electronic File: BlueCrest_1104- L01 _EcoScope_Image _5in_RM_15420- 17200ftMD.Pdf ED C 30909 Digital Data 6/24/2019 Electronic File: 1104-1-01_Surveys to surface_final.pdf AOGCC Page 2 of 3 Monday, July 1, 2019 DATA SUBMITTAL COMPLIANCE REPORT 711/2019 Permit to Drill 2181270 Well Name/No. HANSEN H -04-L01 Operator Bluecrest Alaska Operating LLC API No. 50-231-20064-60-00 MD 17200 TVD 6793 Completion Date 3/22/2019 Completion Status 1 -OIL ED C 30909 Digital Data Log C 30909 Log Header Scans ED C 30909 Digital Data ED C 30909 Digital Data Well Cores/Samples Information Name Cuttings INFORMATION RECEIVED Completion Report 6 Production Test Informatior©Y / NA Geologic Markers/Tops O COMPLIANCE HISTORY Completion Date: 3/22/2019 Release Date: 11/19/2018 Description Comments: Compliance Reviewed By: 0 0 Interval Start Stop Sent Received 16040 17200 3/26/2019 Directional / Inclination Data 0Y Mud Logs, Image Files, Digital Data&/ NA Current Status 1 -OIL UIC No 6/24/2019 Electronic File: 1-104-1.01_Surveys to surface_final.xlsx 2181270 HANSEN H-04-1-01 LOG HEADERS 1-104-1.01 ASP Final Survey Excel 1-104-1-01 ASP Final Survey PDF Sample Set Number Comments 1704 — Mechanical Integrity Test Information Y / NA Composite Logs, Image, Data FileslUr Daily Operations Summary Y Cuttings Samples V NA Date Comments Date, Core Chips Y /Ji� Core Photographs Y /(�A),� Laboratory Analyses Y /U AOGCC Page 3 of 3 Monday, July 1, 2019 2 18 127 R'E"C E EPoT D 30 9 0 9 J UN 2 C 2 18 127 30909 Schlumberger -Private tSlueNe$t Energy BlueCrest Alaska Operating LLC 3301 CStreet, Suite 202 Anchorage, AK 99503 Tel: (907) 754-9550y Fax: (907) 677-0204 rs MAY 10 2013 Transmittal A.OGCC 21 g1 27 30 740 1 Today's Date 5/10/2019 Final Well Data for Well Transmittal #: 2019-08 _..—---------- — To I Ms Meredith Guhl Company AOGCC Final Well Data for Well From: Company Andrew Buchanan BlueCrest Alaska Operating LLC Re: Final Well Data Final Well Data for Well Well: H04 CD's contain the Final Well Data for H04: Final Well Data for Well H04 Main Final Well Data for Well H04 1-03 Final Well Data for Well H04 L02 Final Well Data for Well H04 L03 Final Well Data for Well H04 L04 Final Well Data for Well H04 L05 Final Well Data for Well H04 L06 Final Well Data for Well H04 L07 Regards Andrew Buchanan BlueCrest Energy 1-1a41.11,C1 V CLQ' STATE OF ALASKA MAY 0 9 2019 ALASKA OIL AND GAS CONSERVATION COMMISSION WELL COMPLETION OR RECOMPLETION REPORT AN 1a. Well Status: Oil Q Gas ❑ SPLUG ❑ Other ❑ Abandoned ❑ Suspended❑ tb. Well Class: 20AAC 25.105 20AAC 25.110 Development ❑ Exploratory ❑ GINJ ❑ WINJ ❑ WAG❑ WDSPL ❑ No. of Completions: Service ❑ Stratigraphic Test ❑ 2. Operator Name: 6. Date Comp., Susp., or 14. Permit to Drill Number/ Sundry: BlueCrest Alaska Operating LLC Comp: 3/22/2019 218.127 - 3. Address: 3301 "C" Street, Suite 202, Anchorage, AK 99503 7. Date Spudded: 12/27/2018 15. API Number: 50-231-2006460.00 4a. Location of Well (Governmental Section): I 8. Date TD Reached: 16. Well Name and Number: Surface: 2089' FSL, 1541' FEL, Sec 2, T4S, R15W, SM 1/31/2019 L01 H04 L01 Top of Productive Interval: 9. Ref Elevations: KB: 180.5 17. Field / Pool(s): 584' FSL, 3862' FEL, Sec 33, T3S, R15W, SM GLA45.8 13FIA41.4 Hansen,Undefined Cosmopolitan Oil Total Depth: 10. Plug Back Depth MD(rVD: 18. Property Designation: 1196' FSL, 4749' FEL, Sec 33, T3S, R15W, SM 17200' MD / 6793' TVD Fee Hansen,ADL18790,ADL 384403 4b. Location of Well (State Base Plane Coordinates, NAD 27): Surface: x- 168804 y- 2144597.65 Zone- 4 11. Total Depth MD/rVD: 17200' MD / 6793' TVD 19. DNR Approval Number: LOCI 14-007 TPI: x- 156047.05 y- 2148669.5 Zone- 4 12. SSSV Depth MDlrVD: 20. Thickness of Permafrost MD/TVD: Total Depth: x- 155176.67 y- 2149306.03 Zone- 4 488' MD / 488' TVD N/A 5. Directional or Inclination Survey: Yes ✓ (attached) No 13. Water Depth, if Offshore: 21. Re-drill/Lateral Top Window MD/rVD: Submit electronic and printed information per 20 AAC 25.050 N/A (ft MSL) 16,060' MD / 7127' TVD KOP L01 22. Logs Obtained: List all logs run and, pursuant to AS 31.05.030 and 20 AAC 25.071, submit all electronic data and printed logs within 90 days of completion, suspension, or abandonment, whichever occurs first. Types of logs to be listed include, but are not limited to: mud log, spontaneous potential, gamma ray, caliper, resistivity, porosity, magnetic resonance, dipmeter, formation tester, temperature, cement evaluation, casing collar locator, jewelry, and perforation record. Acronyms may be used. Attach a separate page if necessary ALL LOGS WERE SLB LWD: GR -Res -Den -Neu -PWD Final Mudlogging Report / Mud Log / Lithology Log (Nabors-CanRig) Formation Log / LWD Combo Log / Gas Ratio Log / Drilling Dynamics Log 23. CASING, LINER AND CEMENTING RECORD WT. PER GRADE SETTING DEPTH MD SETTING DEPTH TVD AMOUNT CASING FT TOP BOTTOM TOP BOTTOM HOLE SIZE CEMENTING RECORD PULLED 20 0.500" wall A525 41 115.5 41 115.5 Driven N/A - Rotary Drilled/Driven N/A 13.375 72 L-80 40.5 5800 40.5 3593 17.5" 787 bbls Lead 1176 bible Tail N/A 9.625 47 P-110 37.8 15406 37.8 7055 12.25" 139 bbls 15.8 ppg G -Tail N/A 4.5 15.2 P-110 15211 20864 6988 7127 8.5" Slotted Liner - no cement N/A 3.5 9.3 L80 10.61 15246 10.61 6988 N/A Production Tubing String N/A 24. Open to production or injection? Yes Q No ❑ 25. TUBING RECORD If Yes, list each interval open (MD/rVD of Top and Bottom; Perforation SIZE DEPTH SET (MD) PACKER SET (MD/TVD) Size and Number; Date Perfd): 3.5" 15246' MD 15211' MD / 6988' TVD Well completed with 4-1/2" slotted liner in mainbore; see attached lower liner tally for set depths and details. There are no perforations since a slotted liner 26. ACID, FRACTURE, CEMENT SQUEEZE, ETC. was run in the well. L01 is completed as a barefoot lateral with KOP of 16060' MD (7127' TVD) and TO of 17200' MD (67(MWtflf*ction from fishbone laterals drains into slotted liner in mainbore. • DZ 2 Zoe V IED Was hydraulic fracturing used during completion? Yes No L Per 20 AAC 25.283 (i)(2) attach electronic and printed information DEPTH INTERVAL (MD) AMOUNT AND KIND OF MATERIAL USED 27. PRODUCTION TEST Date First Production: Method of Operation (Flowing, gas lift, etc.): 3/25/2019 gas lifted 3/25/2019 Hours Tested: Production for Oil -Bbl: Gas -MCF: Water -Bbl: (.w., Choke Size: Gas -Oil Ratio: 12 hours ITest Period PW (,oY 699<05 3570W 137 500 Flow Tubing I Casinq Press: Calculated Oil -Bbl: Gas -MCF: Water -Bbl: Oil Gravity - API (corn): Press. 1575 24 -Hour Rate 1200 16QQND &00 15 27 Form 10-407 Revised 5/2017 j //6/e &4,S -�(e `I CONTINUED ON PAGE 2 1BDMS-14A;u' MAY 9 9 2019 Submit ORIGINAL or¢y 28. CORE DATA Conventional Corers): Yes ❑ No ❑✓ Sidewall Cores: res ❑ No ❑✓ If Yes, list formations and intervals cored (MD/rVD, Fromrro), and summarize lithology and presence of oil, gas or water (submit separate pages with this form, if needed). Submit detailed descriptions, core chips, photographs, and all subsequent laboratory analytical results per 20 AAC 25.071. N/A 29. GEOLOGIC MARKERS (List all formations and markers encountered): 30. FORMATION TESTS NAME MD TVD Well tested? Yes ❑ No ❑� If yes, list intervals and formations tested, briefly summarizing test results. Starichkof 17158 6812 • Attach separate pages to this form, if needed, and submit detailed test information, including reports, per 20 AAC 25.071. TPI (matches 4a & 4b) 16,060 7,127 BPI (TD) 17.200 6,793 Formation at total depth: IStarichkof 31. List of Attachments: Operations Summary, Actual Wellbore Diagram, List of Formation Tops, Mud Wt vs. Depth Data, Final Definitive Directional Surveys, Slotted Liner String Tally (4-1/2"), Tubing String Tally (3-1/2"), Wellhead & Tree Schematic, Pressure Test Results Information to be attached includes, but is not limited to: summary of daily operations, wellbore schematic, directional or inclination survey, core analysis, paleontological report, production or well test results, per 20 AAC 25.070. 32. 1 hereby certify that the foregoing is true and correct to the best of my knowledge. Authorized Name: Andrew Buchanan Contact Name: Tom McKay Authorized Title: Vice President ka Operations Contact Email: tom.mckay(a)bluecrestenerov.com Authorized Contact Phone: 907-754-9566 Signature: Date: INSTRUCTIONS General: This form and the required attachments provide a complete and concise record for each well drilled in Alaska. Submit a well schematic diagram with each 10-407 well completion report and 10-404 well sundry report when the downhole well design is changed. All laboratory analytical reports regarding samples or tests from a well must be submitted to the AOGCC, no matter when the analyses are conducted. Item 1a: Multiple completion is defined as a well producing from more than one pool with production from each pool completely segregated. Each segregated pool is a completion. Item 1b: Well Class - Service wells: Gas Injection, Water Injection, Water -Alternating -Gas Injection, Salt Water Disposal, Water Supply for Injection, Observation, or Other. Item 4b: TPI (Top of Producing Interval). Item 9: The Kelly Bushing, Ground Level, and Base Flange elevations in feet above Mean Sea Level. Use same as reference for depth measurements given in other spaces on this form and in any attachments. Item 15: The API number reported to AOGCC must be 14 digits (ex: 50-029-20123-00-00). Item 19: Report the Division of Oil & Gas / Division of Mining Land and Water: Plan of Operations (LO/Region YY -123), Land Use Permit (LAS 12345), and/or Easement (ADL 123456) number. Item 20: Report measured depth and true vertical thickness of permafrost. Provide MD and TVD for the top and base of permafrost in Box 29. Item 22: Review the reporting requirements of 20 AAC 25.071 and, pursuant to AS 31.05.030, submit all electronic data and printed logs within 90 days of completion, suspension, or abandonment, whichever occurs first. Item 23: Attached supplemental records should show the details of any multiple stage cementing and the location of the cementing tool. Item 24: If this well is completed for separate production from more than one interval (multiple completion), so state in item 1, and in item 23 show the producing intervals for only the interval reported in item 26. (Submit a separate form for each additional interval to be separately produced, showing the data pertinent to such interval). Item 27: Method of Operation: Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water Injection, Gas Injection, Shut-in, or Other (explain). Item 28: Provide a listing of intervals cored and the corresponding formations, and a brief description in this box. Pursuant to 20 AAC 25.071, submit detailed descriptions, core chips, photographs, and all subsequent laboratory analytical results, including, but not limited to: porosity, permeability, fluid saturation, fluid composition, fluid fluorescence, vitrinite reflectance, geochemical, or paleontology. Item 30: Provide a listing of intervals tested and the corresponding formation, and a brief summary in this box. Submit detailed test and analytical laboratory information required by 20 AAC 25.071. Item 31: Pursuant to 20 AAC 25.070, attach to this form: well schematic diagram, summary of daily well operations, directional or inclination survey, and other tests as required including, but not limited to: core analysis, paleontological report, production or well test results. Form 10-407 Revised 5/2017 Submit ORIGINAL Only lye st Energy 3301 C Street, Suite 202, Anchorage, AK 99503 Thomas McKay, PE Phone: (907)754-9566 Email: tom.mckay@bluecrestenergy.com April 9, 2019 Alaska Oil and Gas Conservation Commission 333 West 7th Avenue, Suite 100 Anchorage, Alaska 99501 Cosmopolitan Project RE: Well Completion Report Form 10-407: Horizontal / Multilateral "Fishbone" Production Well H04 Rev 1 Lateral L01 PTD No. 218-127 API No. 50-231-20064-60-00 Dear Commissioners, BlueCrest Alaska Operating LLC hereby submits a completed Form 10-407 Well Completion Report with Attachments for the onshore horizontal / multilateral production well H04 Rev 1 Lateral L01. This well was drilled and completed using BlueCrest Rig #1. The well is currently undergoing an extended flow test on gas lift after installing the 4-1/2" slotted liner completion. Note that the flow test results, etc., as per AOGCC request, will be covered under a subsequent 10-407 package, along with other required well production tests and reports. Please find attached for the review of the Commission, the completed Form 10-407, and the information required by 20 ACC 25.070 for this wellbore, covering the drilling and completion of the "fishbone" multilateral, and the running of the upper 3-1/2" tubing string. If you have any questions or require further information, please do not hesitate to contact Tom McKay at 907-754-9566 (office phone). Sincerely, Larry Burgess Alaska Manager BlueCrest Energy Alaska nue St Energy H04 Rev 1 — Lateral L01 Form 10-407 Well Completion Report List of Attachments Cosmopolitan Project AOGCC Item No. Description A Cover Letter w/ Attachment Headers 1 AOGCC Form 10-407 Well Completion Report (2 pages) 2 Operations Summary (Daily Running Summary / Recap) 3 Actual Wellbore Schematic (as Completed) 4 Detailed List of Formation Tops / Geologic Markers (Box 29) 5 Mud Weight vs Depth Data 6 Definitive Wellbore Survey (Directional Survey) H04 Lower Lateral ACTUAL Completion with Slotted Liner in 20" Conductor to beset @82' Mainbore and Seven (7) Open Hole BGL Fishbone Ribs Ilu est Energy 13-3/8" 72# 1.80 BTC @ 5800' M D 3-%" 9.3# IBT-MOD Production Tubing 4-W' ' x 9-5/8" Liner Hanger & Liner Top Packer T. McKay, 22March2019 9-5/8" 47.0# P110 H563 @ 15406' MD Fishbone ribs are 8'h" open holes spaced approx every 800' with 4-%" slotted liner run in the mainbore after the seven ribs were drilled; ribs were drilled in order from 1.01 to L07 using open hole sidetracks to initiate each rib; ribs penetrate all layers of Starichkof and Hemlock pay sands L01 L02 11)3 L04 L05 Lob L07 474" 15.2# H563 Slotted Liner @ 20867' MD H-04 As Built Schematic 4-3-2019 26" Hole 20" 0.50" Wall A252 Conductor @ +l. 187" MD I TVD SCSSV @ 48T MD Rig 1 RKB: 34.65' H -16A Elevation: 145.8' KB to MSL: 180.46' 171/2" Hole , 13.3/8" 72# LAO BTC Casing @ +/-4195' MD - 3-%" 9.3# LA0 Tubing GLM 3 w/ IPO Valve @ 4,698' MD, 3,197' TVD XNlpple2@ 5,097-MD,3,340'TVD GLM 2 WI IPO Valva @ 10.661' MD, 5,346' TVD 12-%" Hole L-01 L-02 L43 L -O. 9-5/6•• SIN P-1 10 Casing KOP isOOP MD KOP 10,880' MD KOP IT690'MD KOP 18,440' MD TD 17100'MD TD 182M MD TD 19.017 -MO TD .'094 Me @ 15,406 MD +I- 71055' TVD X Nlppl 14,458'MD. M0.6,Tt7'TVD DCIN Chemical Injection Sub@ - - - - } 13,596' MD,6,40T TVD Locator Seal Assembly@ 15,207'MD I GLM i W/ 114. Orifice Valve a 14,288- MD, 6,656'TVD SGMW/DHGauge @ 15,116' MD, 6,952' TV D 8 1/2" Hole L.s L -OB KOP 19,220MD KOP 20.034' MD TO ID715-MD TD 211311'MO Y 4 %" 15.2# LA0 TSH -563 Slotted / Blank Liner tae St Ea&V Prepared By D. Ross 4.3.19 H-04 Formation Tops SSTVD MD TVD H-04 Add -180.5' Beluga -1978.18 2330 2158.68 Upper Tyonek A -3308.35 5510 3488.85 Lower Tyonek -6020.31 13024 6200.81 Starichkof -6853.97 15342 7034.47 Hemlock -6945.3 16786 7125.8 H-04-1-01 Starichkof -6631.02 17158 6811.52 H-04-1-02 Hemlock -6904.77 17179 7085.27 Starichkof -6544.78 18186 6725.28 H-04-1-03 Hemlock -6832.52 18287 7013.02 H-04-1-04 Hemlock -6800.62 19146 6981.12 Starichkof -6485.96 19922 6666.46 H-04-1-05 Hemlock -6791.27 20028 6971.77 Starichkof -6510.86 206971 6691.36 H-04-1-06 Hemlock -6823.52 20671 7004.02 Starichkof -6569.83 21320 6750.33 H-04-1-07 Hemlock 1 -6885.621 213081 7066.12 Starichkof 1 -6651.921 219321 6832.42 WellView Well Name: H04 BC - Dally Recap Dally Operations Rpt9 awl RIM Ek Oele Summary 38.0 - 112=019 1/21/2019 - Back ream out of hole F111,219' T/ 8,400' as per K&M instructions - 1000/gpm - 3500/psi - RPm/140 - Max gas 285 units - 110-150 back ground gas - Back ream one stand slowly to allow shakers to clean up F/ 8,400' T 8,310'- Continue back reaming F/ 8.310'; 716,700' as per D&M Instructions -1000/gpm - 3250/psl - RPM1140 - 12k/torque - ECD 11.06 - Max gas 183 knits - Started packing o6 ® 6,633'- Slacked off to 6,702'and worked pipe ® 2 FVMm until shakers cleaned up - Back reamed out of hole F/6,812' 715,920' (@ 5 -15 Fl/Min as hole dictated -1000/gpm - 4250/pal - RPM/140 - 7-10k/Torque - String Wt 150k - Max gas 183 units - ECD 10.91 ppg - Stopped @ 5,920'and took strings Wfs, P/U Wt 170k - 810 Wt 130k - Rot Wt 150k - Began pulling BHA through shoe @ 100/gpm & 180/pal F15,920' T/ 5,818'- Hole packed of with 20k overfull and pressured up to 570 psi - Stopped pump and slacked string to 5,950' - Circulated and reciprocated pipe F/5,950' 715,910 ® 1000/gpm - 2800/psi - Pulled BHA into casing F/5,910' T/ 5,778' no problems - Performed dean up cycles 39.0 1212019 1222019 - Performed clean up cycle, rack back one stand each bottoms up to 5,3D5'- 1000 gpm - 2750 psi - 120 RPM - alk Torque - Flow checked 15 minutes - Blew down mud line and top drive - FII trip tank - Clean rig floor - Cul and slip 110' of drilling line - Monitor well on Trip tank - 12 bb.8v losses - Service rig - Pumped dry job, blow down Imes and TD - POOH on elevators F/ 5305' T/ 3,863'- ObservedlOk overpull and trending upwards to 20k @ 3,900'- Make up top drive and RIH to 3,996 - upon establishing circulation,observed packoff - Worked pipe and established full circulation and rotary - Reamed Into hole T14,182' - Back reamed out of hole F14,182' T/ 1,837'(D 20 FtfMin as per K&M instructions -1000 gpm - 1800 psi - RPM 120 - String Wt 13Dk - Circulate and reciprocate pipe F/ 1,83T T/ 1,748' C 5 FUMin -1000 gpm - 2000 psi -120 RPM - 4k Torque - Circulated bottoms up x 6 - Back reamed FI 1,746' T/995' a 20 Ft/Min 1000 gpm - 1800 psi - RPM 120 - POOH on elevators to 340'- PJSM - Lay down BHA with crane assist - Monitor well on trip tank 40.0 1222019 1232019 -Lay down BHA with crane assist - Gear oor of all BHA tools ai equipment - Bring rasing tools and equipment to dg floor with crane - Monitor well on Trip tank - Drain stack, dosed blinds and changed top rams to 9 518', changed wash pipe to Chevron style - Monitored well on Trip tank - Make up test joint, xo, and wear bushing running tool and retrieved wear bushing - Set test plug, filled stack and lines with water and tested rams 205/3500 for 5 minutes - Rigged down test equipment, removed test joint and plug - Changed out drilling bales and elevators to casing bales and elevators - Safety meeting with crews - Run 9 518" casing with Volam tool - Tanana inspecting threads and GBR confirming torque with torque graph - Filling pipe on the fly and topping off every 20 joints 41.0 123/2019 1242019 Run 9.625" 47# P110 HYD 563 casing. From joint #62 toFilling each joint, top off every 20 joints. Good metal displacement. 42.0 1242019 11252019 Run 9.625" 47# P110 HYD 563 casing. From joint #256 to # 338. Filling each joint, top off every 20 joints. Good metal displacement. Land hanger on depth. Shoe Q 15406. Circulate and condition mud system, wellbore. Rig up camenters. MU plug launcher and hardline, SLB loaded Imes with 5 bbls water and checked for leaks. SLB pressure tested lines at 300 low 350D high, good tests. Dropped first plug. Rig pumped 98 bola 13 ppg MudPush 11 at 4 bpm and shut down. SLB dropped 2nd bottom plug and pumped 139.3 bbks (678 sx) 15.8 ppg Class G cement at 3.5 bpm.SLB dropped top plug, then displaced with 10 bbks water. The rig pumped 10 BBLS 13 ppg MP2 with no fiber ® 4 BPM 400 psi, followed by 1105 BBLS 10.5 PPG OBM. Slowed to 3 bpm with 40 bbl to go. (Rig pumped 12.068 strokes) Pumped hall the shoe track. Did not bump the plug. Held 400 psi (FCP of 580 psi) for 5 minutes, bled off and floats held. Bled back 114 bbl Into trash can on rig floor. Mix water temp at 70 deg. Pumped 50%excess. Did not attempt to reciprocate the stnng.CIP at 21:54 hm, 01-24-2019. RD and released Schlumberger. 43.0 1/252019 11262019 Lay down landing joint. Change out casing bales and elevators to drilling bales and elevators. P/U a stand, make up running tool to pack off. Set pack off in well head profle. LLDS. Test to 5000, 10 mins. good. Strap & lally 210 JTS 5" XT50 DP with pre-instaled WWT super sliders, pick up via mousehole and stand back. Cleaning pits, transfer 891 BBLS 10.5 ppg OBM to mud plant for centrifuging and storage in uprights 14,16,20. Change out casing rams to VBR's In upper pipe ram. 44.0 1,12612019 1;27/2019 Change out top pipe rams to VSR's (3.5" x 5.5y. Change out washpipe on top drive from Chevron style to Mechanical. Clean pits in active system and reserve module. Rig up to test ROPE. Test with State witness. One faillpass, miscellaneous sensor went flat. Rig down teat equipment. PJSM: P/U BHA#5 with Cruz crane assist. 45.0 1/27/2019 128/2019 TIH with BHA#5 to 2530' MD. Test MWD tools. TIH to 8765' MD. crew change. TIH to 15209'. Tag up on cement stringers. Stage pumps up to 465 GPM, 2400 PSI, Ream down to 15283'. One joint above float collar. Circulate and condition to achieve even MW In/out. Rig up test casing to 3500 PSI, 30 mins. Charted. Begin drilling shoe track. 46. 1 0 9 112W2019 Drill shoe track, and clean out to TD of 12%" hole. 15420. CBU. Clean pits 1,5. Displace out 10.5 ppg OBM with 9.4 ppg MOSM. Clean pits, build volume. Drill 20 feet of fnew hole. CBU. Perform FtT to 13.5 PPG EMW. Build volume. 41.0 0 __T 9_ Build volume of 9.4 ppg CaCO3. Build base mud in Mud plant, ship to reserve module, add Megamul emulsifier,w ' t up to 9.4 ppg, ship 280 BBLs to active. Fill shaker pits. Dill 814' hole from 15440'to 16,828'M L01 48.0 1/30/2019 1 9 reono n production hole LOI from 16,828'to 17,200. BROOK Install 48 NRDPP on stands 166 to 181.Open hole klaback L01 back into Mother bore @ 16,060' drill 90" tangent to 16,455' MD. 4 . 11311 019 12019 redionalI L rom 15,455' to U,23V. 515 M, 2700 PP, 25k TO, 1 PM, 280k Up , 120k Dn W[, 200k Rot , 1.9 ECD, 9.5 PPG a4W. www.peloton.com Pae 5110 Page ReportPrinted: 3/2012018 WellView Well Name: H04 BC - Daily Recap Daily Operations Rpl# Sten Data Ene0ete Sw Vy 019 113ROOH to 1684. Trench trom 1684o, to n to 76 0'. egtn drillin17M. Drill L03 to 17,957' MD. 51. 2/212019 2/32019 Directional drill 8W hole with rotary steerable system from 17957' to 19,017'. Lost 15 BBILS In 4 mine, 225 BPH. Slowed pumps down. Staged pumps back to 400 GPM. 25 BPH loss rale. Pump 50 BELS LCM, 30M/BBL, slowed losses to 12 BPH. BROOH to 16,625'. Placing NRDPP on each stand coming out 5 . 2131 019 2142019 Service Rig. BROOH from 18625' to 17,310' MD. Repair top drive, cylinder on compensator. Pumping 350 GPM, well static. Complete repairjob. BROOH from 17,310' to 15,354' MD. Inside rasing. 53 0 2142019 2!52019 BR H m 1 3354, to 14849'. Attempt to pull on elevators from 14849 to 14655, drag increased 35k, would not break over. Continue BROOH from 14,655' to 8100' MD. Good hole fill. Well static. Some of the XT54 will have to be laid down. 54.0 2/52019 216/2019 BROOH from 8100' to 7081'. POCH on elevators to the BHA. Lay down BHA with pane assist. clear and dean dg floor, adjust Baylor brake, hang two SLR's In derrick. TIH w/ 25 stds. 5" DP, Prepare to come out Bide ways. Wom hard bantling. 55.0 2/62019 2!7/2019 - PJSM - Lay down 5" DP - assist W WT with removal of NRDPPs on each joint, dean each joint with passing of sponge bail with Magtec Vac assist - Repair alignment of pipe skate and beaver slide with shims - Lay down 5" DP(tolal 75 jnts), Monitor well on trip tank - Remove XOs from TD, change Inserts on elevators to 5.5" - RIH with 51 stands of 5.5" DP - Service Rig - POOH laying down 153 joints of 5.5" DP cleaning pipe in pipe shed with sponge ball with Magtec Vac Truck assist - RIH with 41 Stands 5.5" DP from derrick - POOH 11 Stands Inspecting with Premium - Continue POOH laying down 5.5" DP and cleaning in pipe shed with sponge and Magtec Vac Truck assistance 560 2/72019 2/82019 - PJSM - POOH and leyed down 71 joints of 5.5" XT -54 DP(total 249 XT -54 LID). - Washed each joint In mouse hole and cleaned Inside of joints with sponge ball using Maglec Vac Truck In pipe shed - Cleaned rig floor - Prepared test tools, removed wear bushing, and installed test plug - Tested BOPE with 5" & 5.5" DP 250/3500 psi low/high for 5 minutes - Performed accumulator draw down test and check Nitrogen x 6 bottles (1j) 2400 psi - Removed test plug and installed wear bushing, layed down test equipment - Placed tree into cellar with pane - PJSM with crane pew and picked up BHA 116 to 161'- Cleaned rig floor and readied tools for picking up 5" X7.50 DP - RIH picking up (75) joints of 5" XT -50 DP to 2,530' monitoring well on trip tank - Filled pipe every 20 stands - ( Performed shadow test with Directional tools @ 1,774', good test) - Serviced rig - RIH with 5" XT50 DP from derrick removing NRDPPs to 2,721' monitoring well on Trip tank 019 Ot - P - WIH with 5' X 50 DP from derrick removing all NRDPPs from each stand F/ 2,721' TI 6,800', monitoring displacement on trip tank and filling every 20 stands - Service Rig - CIO elevator inserts to 5.5" and RIH picking up 5.5" HT -55 DP from Pipe shed F/ 6,800' T/ 13.624', drilling each joint - Monitor well on trip tank and filling pipe every 20 stands ( NRDPPs were installed before picking up DP on pipe racks and pipe shed as per pre -job plan of placement depths) - RIH picking up (36) joints of5.5" XT -54 F/ 13,624'T/ 14,755' monitoring well on trip tank - Fill pipe every 20 stands - RIH with 5.5" XT -54 DP from derrick Fl 14,755'T/ 15,315' monitoring displacement on trip tank - Circulate and condition unfit Mud Wt intout the same, 9.5 ppg - Hang blocks - Slip and ctri drilling line 56.0 2192019 2/10/2019 - Repaired hydraulic line cutter - Monitored well on trip tank - Cut and slipped 100' of drilling line - Tightened deadman damp, installed drawworks guard. installed SLM took load sensor - Calibrated Rlgminder block height and observed starting wrap on drum was not properly seated - Unpooled wraps on drum and respooled OK - Calibrated Rigminder block height and SLM hook load sensor - Monitored well on trip tank - __ Performed Mad Pass and confirmed depth correlation to be correct and all smart tools functioning properly - RIH F/ 15,472' TI 17,570'- Filled pipe every 10 stands - SOW 135k - Circulated and conditioned mud while reciprocating and rotating pipe F/ 17,670'71 17,850' with 400/gpm - 1900/psi - 22-28k torque - Trenching F/ 17,670 TI 17.690'- Kick off and time drilling F/ 17,690'T/ 17,716'- Drilling L04 F/ 17,716' T/ 17,865' as per DO parameters 59.0 2/102019 2/112019 - DrillinL 117,865' T/ 19,635' as per Directional Driller and K&M parameters - 180/RPM - 470/440/gpm - 230022 i - WO611 O125k - 24-26k/Torque - P/U Wt 310k - S/O Wt 135k - Rot Wt 21 Ok ECD 11.68 ppg - Max gas 255 units Take SCRs every 500' drilled, serviced rig while perfomning SCRs .0 2/1112019 2112/2019 - Drilled L04 F1 19,635-94' (TD) as per Directional Driller & K&M parameters cud 4 pm - 2100/psi - WOB/10-12k-160/RPM - 26k/Torque - P/U Wt 300k - Rot Wt 210k - ECD 11.65 ppg - Max gas 126 units - Pidked up off bottom, stopped rotary, recycled pumps, and look final survey - BROOH F20,094' T/ 18,320' as per K&M parameters with 430Igpm - 2100/psi-160/RPM - 24k/Torque ( 5lymin F/ 20,094'T/19,91& & 15 tVmin F/ 19,918'T/ 18,320') - Reamed F/ 18,320'T/18,420'- Trenching F/ 18,420'T/ 18, h 1601RPM - 24k/Torque - 450Igpm - 2150/psi - 0-8kNJOB -ECD 11.26 ppg - Time drilling for sidetra L05 ! 18,440' TI 18,454'- continue drilling original hole F/ 18,454' T/ 18,650' as per DO & K&M parameters 160IRPM .24 -28k/Torque - 4501gpm - 2150/psi-1523k1WOB - ECD 11.44 EGD - PIU Wt 330k - S/O 135k - Rot Wt 218k 61.0 211 OT019 2/ 3 019 - Drilled ahead in L05 F/ 18,550'T/ 19,071' as per DD & K&M parameters - 180/RPM - 24-26k/Torque - 440/gpm - 2150/psi - WOB/10-15k - PIU Wt 330k - SIO Wt 135k - Rot Wt 215k - ECD 11.55 - Max gas 200 units - Changed oil and fitters in lube oil pump on Top Drive - Drilled F/ 19,071'T/ 19,888' as per DO & K&M .t parameters -180IRPM - 24-28krForque - 440/gpm - 2200/psi - WPBI10-15k - P/U Wt 310k - Rot Wt 215k - ECD 11.71 ppg - Max gas 256 units - Mud Wt In 9.2 ppg - Mud Wt out 9.3 ppg ( The L05 build section started IQ 19,197' wkh 3"/100' build rate) 6 . —2113/2010 21142019 - Drilled LOS F/ 19,888' T/ 20,664" as per DD & K&M parameters - t 80IRPM - 24-28kfTorque - 430/gpm - 2230/psi - WOB/10-15k - PN Wt 320k - ROT Wt 208k - Max gas 193 units - 11.60 - Changed tube oil pump discharge filer- Drilled L05 FI 20,664' T/ 20,735' (TD) as per DO & K&M parameters - 18O/RPM - 26k/Torque - 4401gpm - 2250/psi - WOB/8-14k - P/U Wt 305k - Rot Wt 208k - ECD 11.84 ppg - Max gas 193 unha - BROOH Fl 20,735 T/ 19,541' as per K&M parameters - RPWI50 - 24-26k/torque - 440/gpm - 2200/psi - ( Pulled TI 19,440' Q 3 fl/Min & pulled TI 19,541 Q 10 it/Min) - Inspect NRDDPs while coming out of hole www.polaton.com Page 8110 Report Printed; 32012018 WellView Well Name: H04 BC - Daily Recap Dally Operations Rpt# San DMO EM Date summary 63 n 2N 0 9 2!15/2019 - BROOH F/ 19,54 ' ,1 as per K&M parameters - 140-150/RPM - 28krrorque - 44 gpm -ps - Rotating P/U Wt 200k - Adding 8.0 ppg pre mix mud into system to maintain 9.2 ppg - Blow down TD and rig up to circulate @ 2001gpm with FOSV & side entry sub - Remove wash pipe and change out upper quill seals, change oil and fitters and install new wash pipe - R/D circulating assembly, establish circulation and rotary, work pipe 60r- R/U circulating assembly and circulate a 200/gpm - Change out saver sub - Rig Service- W circulating assembly ---6-4-6-2/15/2019 2/16/2019 - Dri IngjLu5jF1 19,51 TT/ 20,855' as per DD & K&M parameters -170-1901RPM - 24-28krrorque - 440- 450/_. I - 425Ipsi - WOB - 10-ISk - PIU W1330k - Rot Wl 205k - ECD 11.76 ppg - Max gas 1 Bt units - Took SCRs every 500' 65.0 2116/2019 72019 - Drilled LOB FI 20,855' T/ 21,358' (rD) as per DD & K&M parameters TAP—M/190 - 2WTorque - 4501gpm - 2445/psl - WOB110-15k - PN Wt 325k - Rot Wt 21 Ok - ECD 12.8 ppg - Max gas 135 units - BROOH F/ 21,358' T/ 21,172' ® 3 fVmin & F/ 21,172'T/ 19,917'@ 15 ft/min-160/RPM - 440/gpm - 2400/psl - Ream bads to 20,009'- Flushed Top Drive gear box with HD32, Drain, and changed suction screen and discharge fitter- Filled with 75W-90 new oil - Cleaned washpipe and lubricated quill seals - Circulated @ 20OIgpm while servicing - Reamed down F120,009' T/ 20,018'- Trenched F/ 20,018' T/ 20,038' as per DD parameters - 440/gpm - 2200/psi-160/RPAL.Time drilled F120,038' TI 20,050' - WOB/15k - 1601RPM - 26krrorque - 4401gpm - 2200/psi - Drllin L07 / 20,050' T/ 20,080' - 160IRPM - 26-28k/Torque - WOB/15k - 440/gpm - 2200/psi - PIU Wt 3251 -Rot 21Ok - ECD 11.34 ppg - Pumps shut down, Picked up off bottom, cycled pumps, found plugged jet, alternated parameters and cleared bit 660 2/17/2019 2J1a12O19 - Drilled L07 FI 20,087' TI 20,394' as per DD & K&M parameters - - 24krrorque - 460/gpm - 2330/psl - WOB/15k - PIU Wt 315k - Rot Wt 21 Ok - ECD 11.68 ppg - Max gas 62 units - Low lube oil psi shut down TO, - Changed discharge filter & serviced rig white circulating @ 200 gpm - Drilled L07 F120,394' T/ 20.760' as per Dd & K&M parameters - 190/RPM - 26kltorque - 450/gpm - 2350/psi - WOB/10-16k - P/U Wt 325k - ROT Wt 21Ok - ECD 11.7 ppg - Max gas 154 units - Took SCRs every 500' drilled - Drained oil out of TD, Replaced lube oil pump and fitters, filled with new 75W-90 of & circulating @ 200/gpm - Serviced rig - Drlled L07 F/ 2D,760'IT/ 20,872' as per DD & K&M parameters - 190/RPM - 23-26krrorque - WOBI10-17k - 450/gpm - 2400/psl - P/U Wt 320k - Rot Wt 210k - ECD 11.63 ppg - Max gas 122 units 67. 19 1 1 - Drilled L07 FI 20,872' T/ 21,148' as per DD & K&M parameters-1901RPM - 24krrorque - WOB/15-30k - 460-475/gpm - 24252625/psi - PIU W1335k - Rot Wt 220k - ECD 11.82 ppg - Max gas 117 units - TDS shut down due to low oil pressure - Stand bads one stand and drain oil in TO - checked lube oil flow sensor - Filled with new oil and changed filters - Drilled L07 F/ 21,148'T/ 21,260' as per DD & K&M parameters - 190/RPM - 27krrorque - WOB/15-22K - 475/gpm - 2650/psi - PN Wt 340k - Rat Wt 230k - ECD 11.94 ppg - Max gas 116 units - Drilled L07 F/ 21,148' Tr 21,830' as per DD & K&M parameters - 190/RPM - 24- 26k/Torque - WOB115-20k - 475/gpm - 2600 psi - P/U Wt 335k - Rot Wt 205k - ECD 12.11 - Max gas 127 units - Took SCRs every 500' drilled. Goo 2/19/2019 2 O19 - Drilled L07 F/ 21,830' (TD) as per DD & K&M parameters -180/RPM - 24-26krrorque - WOB112-20k - 465/gpm - 2650/psl - PIU Wt 345k - Rot Wt 210k - Max gas 70 units - ECD 12.11 ppg - Took surveys and SCRs - BROOH L07 F/ 21,966' 7/20,758 as per K&M parameters - 1601RPM - 281krrorque - 465/gpm - 2650/psi - Service Rig - Establish parameters and begin Trenching as per DD F/ 20,800'T/ 20,820' as per DD parameters - I SOIRPM - 24k/Torque - 465/gpm - 2525/psi - Tin79.gnlling FI 20,820'T/ 20,834' as per DD Parameters -1 SOIRPM - 24krrorque - 465Igpm - 2525Ipsi - Dnllin LO F/ 20,834' T120,853' as per DD & K&M parameters -180/RPM - 26krrorque - WOBI15k - 4851gpm - /psi - P/U Wt 33Ok - Rot Wt 205k - ECD 11.67 ppg - Take SCRS - Top Drive shutting down - Change Flow paddle on TD lube system & circulate C 200/gpm - Drilling LOB F/ 20,853'T/ 20,867' as per DD & K&M parameters - 18O/RPM - 26k/rorque - WOB/16k - 466/gpm - 2600/jpsi - P/U Wt 330k - Rot Wt 205k - TDS continued shutting down - Swttehed spare wires in service loop - Serviced Rig - TDS persisted to shut down - TD L08 was called 20,867'- Changed oil and filters on TDS and BROOH F20,867' T/ 20,830' (8 1 12 fl/min dreulating bottoms up each stand reamed - 160/RPM - 29krrorque - 465/gpm - 26001psi - BR PIU Wt 210k - ECD 11.65 ppg 9.0 2/20/2019 22112019 TO of H04 Mother bore C 20867'. BROOH from 2083V to 20385'. 470 GPM, 160 RPM, 29k TQ, 15 to 207min. slight pack off seen a 20385'. Drop back in 10 feet, pulled slower, and it cleaned up. BROOH from 20365' to 17,106 MD. Maintain 470 GPM, 160 RPM, 22k TQ. Encountered minor cuttings beds from 17,556' to 17,105'. Shakers unloaded. 100% Increase in cuttings load seen on shakers. 7U.-0 2212019 22212019 BROOH from 17,105'to 5,668'. Varying pulling speeds with downhole conditions. Full drilling parameters. CBU two stands below shoe from 15,668 to 15,595'. Pulled Into casing with no rotary. No drag seen. Baric ream out 3 stands Into the casing from 15,408 to 15,130. Monitor well, static. Make up Halliburion storm packer and hang string aff 65 feet from floor. Rig up and test ROPE. Witness waived by AOGCC. 71.02/2212019 2232019 Complete Koomey draw down test. Blow down choke manifold. Rig down test equipment. Drain stack Pull test plug. Set wear ring. Retrieve storm packer. Rig up fitter can, and pump TO gear oil through for one hour. (New filters were dirty after job). R/D cart. BROOH from 15,128'to 10,060' MD. Monitor well on active pit system. Good hole fill. 72.0 21232019 2242019 Continue to BROOH from 10, 'to stand #11. 1203' b8 depth. CBU. Monitor well. Static. Drop Gyro. POCH can elevators to 634' MD. 73.0 2/242019 2252019 Trip out of hole on elevators. Gym surveys recorded each stand to shrink the ellipse of uncertainty or future well planning. Lay down BHA#6. Bk grade 2 -3 -BT -A -X -1 -CT -TD. Clean and clear rig now of BHA components. Prepare to run 4M" liner. Load pipe shed with hanger and PBR with crane. Set GSR power tongs and graphing system on floor. Rig up. Remove drilling bales and elevators. Install casing bales and elevators. Install HT55 saver sub. Pick up first joint and baker loo silver Bullert shoe. Run 145 joints of 4W P110 HYD 563 15.2# liner. AVG torque=8200 Wine. Remove casing bales and elevators. Install drilling bales and elevators. Pick up hanger/PBR,XO. Make up to casing string. Mix up 5 gallons of "palmix", pour Into top of hanger, let set up for 20 mins. Trip In hole to 5686.22' (Length of liner and running tools). www.peloton.com Page 7110 Report Printed: 312012019 lluelCfest Energy H04 -L07 Survey Geodetic Report (Det Survey) Schlumherger Client BlueCresl Adm True 1'1 Vertical Soother Azimuth: 300.000 -(Two North) Field: Cosmopolitan Unit Closure fm Vertical Section Origin: 0.000 R 0.000 R Structure/Slot: Cosmopolitan Pad/H44(3) Easting (Mai TVD Reference Datum: RotaryTable Well: F104 + TVD Reference Elevation: 179.650 R above MSL Borehole: APW H04.1-01 ��n11pp''� 502312006460 NfL{il`ry ii `v Ground Elevation: Magnetic Decimation: 145.200 It above MSL 14.474' Survey Name: 1104-L01 Total Gravity Field Strength: 10012613mgn (9.80665 Based) Survey Date: January 30,2019 34.45 Gravity Model: DOX Tort / AND I DDI / ERD Ratio: 190.051 ° 114479.985 it / 6.822 / 2.031 0.00 Total Magnetic Field Strength: 55079.653 nT Coordinate Reference System: NAD27 Alaska State Plane, Zone 04, US Feet 0.00 Magnetic Dip Angle: 72.870' Location W / two: N 59' 51' 29.48652', W 151° 48' 6.02209' Declination Data: January 15.2019 Locafbn Grid RE YM: N 2144597.860 ItUS, E 168803.610 flUS 86.50 Magnetic Declination Model: HDGM 2018 CRS Grid Convergence M91e: .1.5582' -0.11 North Reference: True North Grid Scale Factor: 1.00002484 .151.80167340 Grid Convergence Used 0.0000 ° Version / Patch: 2.10.544.0 1.35 Total Corr Mag North>True NoM: 14.4741 ° Comments MD Ift) Incl 1') Adm True 1'1 TVDSS IR) TVD Ilii VSEC (In AHD f n Closure fm NS Hit EW 1ft1 DLS 1°1100R1 Northing /ftUSI Easting (Mai I.atiluds 1.1 Longthrde P1 RTE 0.00 0.00 0.00 -179.65 0.00 0.00 0.00 0.00 0.00 0.00 N/A 2144597.86 168803.61 59.85819070 -151.80167280 34.45 0.00 0.00 .145.20 34.45 0.00 0.00 0.00 0.00 0.00 0.00 2144597.86 168803.61 59.85819070 .151.80167280 86.50 0.31 231.44 .93.15 86.50 0.05 0.14 0.14 -0.09 -0.11 0.60 2144597.78 168803.50 59.85819046 .151.80167340 181.00 0.54 255.22 1.35 181.00 0.46 0.83 0.82 -0.36 -0.74 0.30 2144597.52 168802.86 59.85818971 -151.80167683 275.30 0.64 258.14 95.64 275.29 1.17 1.80 1.78 -0.58 .1.69 0.11 2144597.32 168801.91 59.85818911 -151.80168197 370.20 0.75 267.35 190.54 370.19 2.09 2.95 2.92 -0.72 -2.82 0.16 2144597.22 168800.77 59.85818873 -151.80168817 465.00 1.40 285.54 285.32 464.97 3.73 4.72 4.58 -0.44 4.56 0.77 2144597.55 168799.04 59.85818950 -151.80169761 560.40 2.21 281.40 380.67 560.32 6.60 7.72 7.49 0.24 -7.49 0.86 2144598.30 168796.13 59.85819135 -151.80171352 655.00 3.45 281.82 475.15 654.80 11.04 12.39 12.12 1.18 -12.06 1.31 2144599.37 168791.59 59.85819393 -151.80173840 749.60 5.14 279.75 569.48 749.13 17.72 19.47 19.18 2.48 .19.02 1.79 2144600.86 168784.66 59.85819749 .151.80177627 844.20 7.23 277.39 663.53 843.18 27.19 29.66 29.37 3.97 -29.10 2.23 2144602.62 168774.62 59.85620155 -151.80183110 938.50 9.21 278.18 756.85 936.50 39.67 43.15 42.85 5.80 42.46 2.10 2144604.82 168761.32 59.85820658 -151.80190374 1037.30 11.65 281.60 854.02 1033.67 56.48 61.03 60.72 8.93 -60.06 2.55 2144608.42 168743.81 59.85821514 -151.80199947 1080.14 12.65 282.32 895.90 1075.55 65.05 70.04 69.72 10.80 .68.88 2.36 2144610.53 168735.05 59.85822026 .151.80204744 1173.22 15.15 285.88 986.24 1165.89 86.56 92.39 92.00 16.31 -90.54 2.84 2144616.62 168713.54 59.85823532 -151.80216525 1268.32 17.56 290.15 1077.49 1257.14 112.76 119.16 118.56 24.65 -115.97 2.83 2144625.66 168688.35 59.85825814 -151.80230353 1359.79 20.00 289.70 1164.09 1343.74 141.75 148.61 147.78 34.68 -143.65 2.67 2144636.43 168660.95 59.85828558 A51.8r -'It 1453.88 22.48 287.92 1251.78 1431.43 175.17 182.69 181.74 45.64 .175.92 2.72 214464827 168628.99 59.85831556 -151.8 32 1548.73 24.84 288.69 1338.65 1518.30 212.45 220.75 219.74 57.61 .212.05 2.51 2144661.21 168593.20 59.85834829 -151.80......613 1641.68 27.12 286.59 1422.20 1601.85 252.20 261.46 260.42 69.91 .250.86 2.64 2144674.57 168554.74 59.85838196 -151.80303719 1733.26 29.37 285.75 1502.87 1682.52 294.28 304.79 303.75 81.97 -292.48 2.49 2144687.76 168513.46 59.85841494 -151.80326358 1826.71 31.94 285.49 1583.26 1762.91 340.43 352.44 351.39 94.79 338.36 2.75 2144701.82 168467.94 59.85845003 -151.80351315 1922.88 34.33 284.53 1663.78 1843.43 391.20 405.00 403.95 108.39 -389.14 2.54 2144716.80 168417.55 59.85848723 .151.80378930 2015.47 36.71 284.76 1739.14 1918.79 443.07 458.79 457.74 122.00 441.18 2.57 2144]31.81 168365.90 59.85852444 -151.80407235 2108.74 39.00 284.62 1812.78 1992.43 498.27 516.02 514.96 136.51 496.54 2.46 2144747.82 168310.95 59.85856413 -151.80437347 2201.34 41.18 285.38 1883.62 2063.27 555.87 575.65 574.59 151.95 -554.14 2.41 2144764.83 168253.80 59.85860637 -151.80468673 2296.96 43.25 284.99 1954.43 2134.08 617.98 639.90 638.84 168.77 -616.14 2.18 2144783.33 168192.27 59.85865239 -151.80502396 2392.33 45.34 285.09 2022.69 2202.34 682.32 706.50 705.43 186.06 -680.46 2.19 2144802.36 168128.45 59.85869966 .151.80537378 2486.29 47.92 285.43 2087.21 2266.86 748.37 774.79 773.73 204.04 -746.34 2.76 2144822.12 168063.07 59.85874884 -151.80573215 2580.05 50.27 285.60 2148.60 2328.25 816.98 845.65 844.59 222.99 -814.62 2.51 2144842.93 167995.34 59.85880069 -151.80610351 2673.36 52.32 285.41 2206.94 2386.59 887.47 918.46 917.40 242.46 -88438 2.20 214486429 167925.73 59.85885392 -151.80648513 2767.32 54.71 285.77 2262.81 2442.46 960.64 994.00 992.94 262.76 .957.54 2.56 2144686.57 167853.55 59.85890945 -151.80688088 2861.77 57.11 285.57 2315.74 2495.39 1036.42 1072.22 1071.15 283.88 -1032.85 2.55 2144909.73 167778.84 59.85896723 -151.80729049 2955.87 59.59 285.06 2365.12 2544.77 1113.90 1152.32 1151.25 305.03 -1110.10 2.68 2144932.98 167702.19 59.85902507 -151.80771069 3047.49 62.75 284.97 2409.29 2588.94 1191.42 1232.57 1231.50 325.83 .1187.62 3.45 2144955.87 167625.26 59.85908193 -151.80813230 3142.03 65.32 285.33 2450.68 2630.33 1273.57 1317.56 1316.49 348.04 -1269.65 2.74 2144980.30 167543.86 59.85914268 -151.80857851 3235.83 67.47 285.30 2488.24 2667.89 1356.71 1403.51 1402.44 370.74 -1352.55 2.29 21450D5.25 167461.61 59.85920476 -151.80902939 3329.87 68.90 284.85 2523.18 2702.83 CosmoKiWUnMCosmb)R61A2n Pad\Hf34 R1 L01\H049M -1436.85 1.58 2145030.24 167377.96 59.85926685 .151.80948791 Drilling office 2.10.544.0 . Schlumberger -Private 4/3/2019 1:52 PM Page 1 of 4 Comments mo IMI A 1. hoe TVDSS TVD VSEC MD C1ose4e NS EW DLS Nd ft Eeseng Le8W4e Longitude 3423.43 68.82 284.82 2556.92 2736.57 1525.29 1578.07 1577.00 415.79 -1521.20 0.09 2145054.87 167294.24 59.85932795 -151.80994673 3518.65 68.84 285.45 2591.31 2770.96 1611.11 1666.87 1665.79 438.97 -1606.91 0.62 2145080.38 167209.19 59.85939134 -151.81041295 3611.54 66.94 285.77 2624.77 2804.42 1695.05 1753.52 1752.45 462.29 -1690.37 0.34 2145105.95 167126.39 59.85945510 -151.81086691 3706.36 68.83 285.60 2658.93 2838.58 1780.76 1841.98 1840.90 486.20 -1775.53 0.20 2145132.18 167041.91 59.85952049 -151.81133013 3799.24 68.97 286.24 2692.36 2872.01 1864.81 1928.63 1927.55 50997 -1858.86 0.66 2145158.20 166959.26 59.85958548 -151.81178338 3895.80 68.92 285.92 2727.05 2906.70 1952.28 2018.74 2017.65 534.93 -1945.45 0.31 2145185.51 166873.38 59.85965373 -151.81225436 3988.29 69.10 286.09 2760.18 2939.83 2036.06 2105.09 2104.00 558.74 -2028.46 0.26 2145211.57 166791.05 59.85971883 -151.81270586 4082.16 68.88 285.70 2793.84 2973A9 2121.05 2192.72 2191.63 582.74 -2112.73 0.45 2145237.85 166707.45 59.85976445 -151.81316428 4175.59 68.40 286.24 2827.87 3007.52 2205.47 2279.74 2278.64 606.68 -2196.39 0.74 2145264.05 166624.48 59.85984990 -151.81361931 4269.08 68.86 285.77 2861.94 3041.59 2289.94 2366.80 2365.69 630.68 -2280.08 0.68 2145290.33 166541.48 59.85991553 -151.81407452 4362.79 68.51 285.89 2896.00 3075.65 2374.59 2454.10 2452.99 654.50 -2364.06 0.39 2145316.42 166458.16 59.85998064 451.81453138 4456.71 W93 285.74 2930.11 310976 2459.49 2541.67 2540.56 678.36 -2448.32 0.47 2145342.56 166374.58 59.86004588 -151.81498969 4549.96 69.16 286.39 2963.43 3143.08 2543.95 2628.70 2627.58 702.45 -2531.95 0.70 2145368.91 166291.64 59.86011172 -151.81544458 4642.29 68.46 286.00 2996.81 3176.46 2627.55 2714.78 2713.86 726.46 -2614.62 0.85 2145395.16 166209.65 59.86017736 451.81589427 4739.52 68.70 286.09 3032.32 3211.97 2715.40 2805.30 2804.17 751.47 -2701.61 0.26 2145422.54 166123.37 59.86024575 -151.81636745 4832.43 69.07 286.17 3065.79 3245.44 2799.54 2891.97 2890.84 775.55 -2784.87 0.41 2145448.87 166040.80 59.86031157 -151.81682035 4925.35 68.99 285.67 3099.04 3278.69 2883.70 2978.73 2977.61 799.35 -2868.30 0.51 2145474.93 165958.04 59.86037663 -151.81727421 5018.79 68.98 285.81 3132.55 3312.20 2968.24 3065.96 3064.83 823.01 -295226 0.14 2145500.87 165874.76 59.86044131 -151.8 39 5113.10 69.21 286.40 3166.20 3345.85 3053.76 3164.06 3152.93 847.45 -3036.90 0.63 2145527.60 165790.81 59.86050811 -151.810 i A32 5207.20 69.28 286.60 3199.55 3379.20 3139.32 3242.05 3240.91 872.45 -312127 0.21 2145554.88 165707.15 59.86057643 -151.81865027 5300.71 68.88 286.34 3232.94 3412.59 3224.25 3329.40 3328.25 897.21 -3205.03 0.50 2145581.91 165624.09 59.86064412 -151.81910590 5395.25 68.84 286.34 3267.03 3446.68 3309.93 3417.58 3416.42 922.02 -3289.65 0.04 2145609.01 165540.17 59.86071192 -151.81956619 5488.48 68.T 285.67 3300.74 3480.39 3394.27 3504.50 3503.34 945.98 337320 0.67 2145635.24 165457.30 59.86077743 -151.82002070 5583.10 68.94 285.49 3334.87 3514.52 3479.74 3592.75 3591.59 969.69 -3458.21 0.25 2145661.25 165372.97 59.86084221 -151.82048311 5675.86 68.87 285.90 3368.26 3547.91 3563.60 3679.29 3678.13 993.10 3541.53 0.42 2145686.92 165290.32 59.86090619 -151.82093634 5772.62 68.81 286.00 3403.19 3582.84 3651.14 3769.53 3768.37 1017.89 362829 0.11 2145714.06 165204.26 59.86097396 -151.82140830 13-M" 5800.00 69.08 286.20 3413.02 3592.67 3675.94 3795.08 379392 1024.98 -3652.84 1.21 2145721.82 165179.91 59.86099332 -151.82154185 5826.98 69.35 286.40 3422.60 3602.25 3700.45 3820.31 3819.14 1032.06 3677.05 1.21 2145729.55 165155.90 59.86101267 -151.82167355 5920.43 68.84 286.44 3455.94 3635.59 3785.31 3907.60 39D6A3 1056.74 -3760.79 0.55 2145756.50 165072.86 59.86108011 -151.82212907 6014.44 68.84 286.87 3489.88 3669.53 3870.61 3995.28 3994.09 1081.86 -3844.78 0.43 2145783.90 164989.58 59.86114878 -15182258598 6107.26 68.24 287.60 3523.83 3703.48 3954.86 4081.66 4080.45 1107.46 3927.29 0.98 2145811.73 164907.80 59.86121873 -15182303480 6201.26 68.29 287.53 3558.64 3738.29 4040.13 4168.98 4167.72 1133.81 -4010.53 0.09 2145840.33 164825.30 59.86129075 -15182348766 6295.03 68.41 286.20 3593.24 3772.89 4125.00 4256.13 4254.86 1159.09 4093.94 1.32 2145867.88 164742.61 59.86135984 -151.82394137 6389.10 69.26 285.07 3627.21 3806.86 4209.98 4343.86 4342.58 1182.73 4178.41 1.44 2145893.81 164658.81 59.86142444 -151.82440092 6482.85 68.91 284.92 3660.67 3840.32 4294.56 4431.43 4430.14 1205.39 4263.00 0.40 2145918.76 164574.86 59.86148634 -151.82486108 6577.63 68.98 285.97 3694.72 3874.37 4380.18 4519.88 4518.59 1228.95 4348.26 1.04 2145944.62 164490.28 59.86155070 -151.82532487 6672.26 68.79 285.62 3728.81 3908.46 4465.75 4608.16 4606.87 1252.98 4433.20 0.40 2145970.95 164406.02 59.86161636 -151.82578696 6765.96 68.79 285.50 3762.71 3942.36 4550.35 4695.51 4694.22 1276.41 4517.35 0.12 2145996.66 164322.53 59.86168038 -151.82624474 6859.42 68.76 286.06 3796.55 3976.20 4634.80 4782.63 4781.34 1300.10 4601.19 0.56 2146022.63 164239.37 59.86174511 -151.82670082 6953.87 68.66 285.60 3830.84 4010.49 4720.12 4870.63 4869.34 1324.11 4685.86 0.47 2146048.93 164155.39 59.86181069 -151.827.141 7047.00 68.93 285.84 3864.53 4044.18 4804.26 4957.46 4956.17 1347.63 4769.43 0.38 2146074.72 164072.48 59.86187496 -151.8' '07 7140.85 68.80 284.74 3898.37 4078.02 4888.93 5044.99 5043.70 1370.71 4853.87 1.10 2146100.09 163988.70 59.86193802 -151.8 41 7234.40 68.48 285.00 3932.44 4112.09 4973.03 5132.12 5130.81 1393.07 4938.08 0.43 2146124.73 163905.13 59.86199910 -151.82853350 7328.43 68.57 285.04 3966.87 4146.52 5057.56 5219.62 5218.31 1415.75 -5022.59 0.10 2146149.70 163821.26 59.86206104 -151.82899326 7421.15 68.91 285.23 4000.49 4180.14 5141.08 5306.03 5304.71 1438.31 -5106.00 0.41 2146174.52 163738.49 59.86212267 -151.82944703 7515.10 68.82 284.32 4034.36 4214.01 5225.63 5393.66 5392.33 1460.66 -5190.73 0.91 2146199.16 163654.40 59.86218371 -151.82990798 7608.79 68.% 284.33 4068.11 4247.76 5309.79 5481.06 5479.71 1482.28 -5275.42 0.15 2146223.08 163570.33 59.86224277 -151.83036868 7703.55 68.78 284.40 4102.27 4281.92 5394.91 5569.45 5568.07 1504.21 3361.04 020 2146247.33 163485.33 59.86230266 -151.83083449 7797.02 69.07 284.77 4135.88 4315.53 5478.99 5656.67 5655.27 1526.17 5445.45 0.48 2146271.58 163401.55 59.86236264 -151.83129368 7890.70 68.45 285.38 4169.81 4349.46 5563.35 5743.99 5742.59 1548.88 -5529.76 0.90 2146296.58 163317.89 59.86242466 -151.83175235 7984.07 69.00 286.16 4203.69 4383.34 5647.69 5830.99 5829.59 1572.53 -5613.49 0.98 2146322.49 163234.83 59.86248925 -151.83220787 8077.30 68.79 285.90 4237.26 4416.91 5732.09 5917.97 5916.57 1596.55 5697.09 0.34 2148348.77 163151.92 59.86255485 -151.83266264 8170.90 68.84 286.4 4271.09 4450.74 5816.84 6005.24 6003.84 1620.85 -5780.91 0.54 2146375.35 163068.78 59.86262124 -151.83311866 8265.20 68.72 286.80 4305.22 4484.87 5902.36 6093.15 6091.73 1646.00 5865.14 0.38 2146402.77 162985.26 59.86268991 -151.83357692 8360.83 68.84 286.51 4339.83 4519.48 5989.10 6182.29 6180.86 1671.55 5950.55 0.31 2146430.64 162900.58 59.86275970 -151.83404157 8452.79 68.63 286.44 4373.19 4552.64 6072.42 6267.99 6266.55 1695.85 5032.73 0.24 2146457.17 162819.09 59.86282608 -151.83448866 8547.93 68.90 286.41 4407.65 4587.30 6158.62 6356.67 6355.23 1720.92 5117.79 0.29 2146484.55 162734.74 59.86289456 -151.83495143 8641.51 68.61 287.33 4441.56 4621.21 6243.56 6443.89 6442.43 1746.23 5201.25 0.97 2146512.12 162651.99 59.86296369 -151.83540552 8735.44 68.45 287.55 4475.94 4655.59 6328.88 6531.31 6529.80 1772.43 5284.65 0.28 2146540.58 162569.34 59.86303524 -151.83585923 8827.61 68.55 288.43 4509.72 4689.37 U911HH2�.�557�6� 197988.5962 6366.21 0.89 2148589.27 162488.53 59.86310759 -151.83630298 8921.59 68.74 288.39 4543.94 4723.59 COSH i an 6666177..5096 866615..449 Unit\COSm 74!ln PaMFff 4-LO1\Hdff( -6449.26 0.21 2146599.16 162406.26 59.86318309 -151.83675481 Ddiiing Office 2.10.544.0 . Schlumberger -Private 4/3/20191:52 PM Page 2 of 4 Comments MD MCI Asim True TVDSS ND VSEC AHD Closure NS EW OLS a Northing Easdw Latitude Longitude 9016.64 68.86 287.42 4578.30 4757.95 6585.16 6793.21 6791.49 1853.81 .6533.59 0.96 2146628.69 162322.70 59.86325750 -151.83721362 9110.41 69.26 286.29 4611.79 4791.44 6670.44 6880.79 6879.06 1879.20 -6617.41 1.20 2146656.35 162239.60 59.86332685 -151.83766964 9204.05 68.54 286.28 4645.50 4825.15 6755.31 6968.16 6966.42 1903.70 -6701.26 0.77 2146683.12 162156.44 59.86339374 -151.83812587 9297.30 69.19 286.11 4679.13 4858.78 6839.78 7055.13 7053.39 1927.96 -6784.79 0.72 2146709.64 162073.60 59.86345998 -151.83858030 9392.40 68.98 286.97 4713.08 4892.73 6926.17 7143.97 7142.22 1953.24 -6869.95 0.87 2146737.24 161989.16 59.86352903 -151.83904361 9486.21 69.00 286.48 4746.71 4926.36 7011.40 7231.54 7229.78 1978.45 -6953.81 0.49 2146764.71 161906.01 59.86359785 -151.83949991 9580.37 69.07 285.09 4780.40 4960.05 7096.63 7319.47 7317.71 2002.36 -7038.42 1.38 2146790.92 161822.08 59.86366315 -151.83996023 9673.75 69.12 284.59 4813.72 4993.37 7180.83 7406.70 7404.93 2024.71 -7122.75 0.50 2146815.55 161738.39 59.86372414 -151.84041900 9767.11 69.41 284.78 4846.78 5026.43 7265.04 7494.01 7492.22 2046.84 -7207.21 0.36 2146839.97 161654.56 59.86378456 -151.84087852 9861.17 68.93 284.97 4880.22 5059.87 7349.91 7581.92 7580.12 2069.41 -7292.17 0.54 2146864.84 161570.24 59.86384616 451.84134079 9955.01 68.98 285.60 4913.92 5093.57 7434.62 7669.50 7667.70 2092.50 -7376.65 0.63 2146890.22 161486.42 59.86390918 -151.84180043 10050.17 69.05 285.81 4948.00 5127.65 7520.72 7758.35 7756.54 2116.55 -7462.19 0.22 2146916.59 161401.57 59.86397483 -151.84226578 10144.92 68.97 285.70 4981.94 5161.59 7606.46 7846.81 7845.01 2140.57 -7547.33 0.14 2146942.92 161317.11 59.86404040 -151.84272900 10237.19 69.39 285.51 5014.74 5194.39 7689.99 7933.06 7931.25 2163.77 -7630.39 0.49 2146968.37 161234.71 59.86410373 -151.84318095 10331.88 69.31 285.22 5048.13 5227.78 7775.73 8021.67 8019.85 2187.24 -7715.83 0.30 2146994.16 161149.93 59.86416781 -151.84364580 10425.43 69.25 285.54 5081.23 5260.88 7860.39 8109.17 8107.35 2210.45 -7800.20 0.33 2147019.65 161066.23 59.86423115 -151.84410482 10517.11 68.66 285.78 5114.15 5293.80 7943.29 8194.73 8192.91 2233.55 -7882.58 0.69 2147044.98 160984.50 59.86429419 -151.8 08 10610.84 69.16 285.05 5147.88 5327.53 8027.92 8282.18 8280.36 2256.79 -7966.89 0.90 2147070.51 160900.85 59.86435763 -151.8 77 10704.56 68.92 283.16 5181.41 5361.06 8112.09 8369.70 8367.84 2278.12 -8051.76 1.90 2147094.14 160816.59 59.86441583 -151.84547355 10798.48 68.82 282.74 5215.26 5394.91 8195.85 8457.30 8455.34 2297.75 -8137.14 0.43 2147116.08 160731.77 59.86446938 -151.84593806 10891.67 68.79 283.27 $248.95 5428.60 8278.94 8544.19 8542.12 2317.30 -8221.80 0.53 2147137.93 160647.68 59.86452272 -151.84639866 10987.27 68.83 284.24 5283.51 5463.16 8364.51 8633.33 863120 2338.50 4308.38 0.95 2147161.47 160561.71 59.86458054 -151.84686972 11081.24 68.93 284.91 5317.37 5497.02 8449.01 8720.98 8718.84 2360.56 -8393.21 0.67 2147185.83 160477.50 59.86464072 -151.84733130 11175.49 68.84 284.90 5351.32 5530.97 8533.90 8808.91 8806.76 2383.17 .8478.18 0.10 2147210.75 160393.18 59.86470243 -151.84779358 11267.45 68.41 284.56 5384.84 5564.49 8616.51 8894.54 8892.38 2404.94 -8561.00 0.58 2147234.77 160310.98 59.86476184 -151.84824420 11363.23 68.75 284.36 5419.82 5599.47 8702.42 8983.70 8981.52 2427.21 4647.34 0.40 2147259.37 160225.28 59.86482259 -151.84871397 11456.53 68.79 285.26 5453.60 5633.25 8786.35 9070.67 9068.48 2449.44 -8731.41 0.90 2147283.88 160141.83 59.86488324 -151.84917143 11550.64 69.17 284.81 5487.36 5667.01 8871.21 9158.52 9156.32 2472.23 -8816.25 0.60 2147308.97 160057.64 59.86494541 -151.84963305 11644.31 66.78 284.69 5520.97 5700.62 8955.57 9245.95 9243.74 2494.49 4900.81 0.43 2147333.52 159973.72 59.86500614 -151.85009310 11739.27 69.03 285.54 5555.15 5734.80 9041.19 9334.55 9332.34 2517.59 -8986.34 0.88 2147358.94 159888.85 59.86506917 -151.85055847 11833.52 68.89 285.07 5588.98 5768.63 9126.28 9422.51 9420.30 2540.81 -9071.18 0.49 2147384.46 159804.67 59.86513252 -151.85102013 11924.32 68.69 285.57 5621.83 5801.48 9208.16 9507.16 9504.95 2563.17 -9152.82 0.56 2147409.04 159723.66 59.86519354 -151.85146434 12018.53 69.13 285.54 5655.73 5835.38 9293.28 9595.06 9592.85 2586.75 -9237.50 0.47 2147434.90 159639.65 59.86525785 451.85192510 12112.53 68.95 285.54 5689.36 5869.01 9378.28 9682.84 9680.63 2610.26 -9322.07 0.19 2147460.71 159555.75 59.86532201 -151.85238526 12206.16 68.92 284.96 5723.01 5902.66 9462.78 977022 9768.00 2633.24 -9406.37 0.58 2147485.98 159472.11 59.86533471 -151.85284393 12300.16 69.02 285.34 5756.75 5936.40 9547.59 9857.95 9855.73 2656.17 -9491.06 0.39 2147511.20 159388.07 59.86544726 -151.85330474 12392.91 68.99 285.30 5789.98 5969.63 9631.35 9944.55 9942.32 2679.05 -9574.57 0.05 2147536.34 159305.21 59.86550967 -151.85375917 12487.08 68.76 285.34 5823.92 6003.57 9716.33 10D32.39 10030.16 2702.26 -9659.29 0.25 2147561.85 159221.15 59.86557298 -151.85422015 12581.22 68.96 286.08 5857.87 6037.52 9801.41 10120.19 10117.97 2726.04 -9743.82 0.76 2147587.91 159137.30 59.86563784 -151.85468007 12673.95 68.89 286.51 5891.21 6070.86 9885.48 10206.72 10204.49 2750.31 -9826.87 0." 2147614.44 159054.94 59.86570407 -151.85ti3198 12769.34 68.96 286.09 5925.51 6105.16 9971.95 10295.73 10293A9 2775.30 -9912.30 0.42 2147641.74 158970.22 59.86577223 -151.8 -94 12864.42 67.47 286.22 5960.80 6140.45 10057.67 10384.02 10381.78 2799.86 -9997.10 1.57 2147668.60 158886.11 59.86583924 A51.85605828 12958.37 68.16 286.67 5996.27 6175.92 10142.25 10471.01 10468.76 2824.49 -10080.54 0.86 2147695.49 158803.38 59.86590643 -151.85651228 13051.65 68.67 287.28 6030.59 6210.24 10226.75 10557.75 10555AS 2849.81 -10163.50 0.82 2147723.06 158721.14 59.86597552 -151.85696370 13145.08 68.44 287.28 6064.75 6244.40 10311.58 10644.71 10642.40 2875.64 -10246.53 0.25 2147751.14 158638.83 59.86604600 -151.85741555 13238.01 68.91 286.44 6098.54 6278.19 10395.88 10731.28 10728.95 2900.75 -10329.38 0.98 2147778.49 158556.70 59.86611449 -151.85786636 13330.79 69.06 286.33 6131.82 6311.47 10480.05 10817.89 10815.55 2925.18 -10412.47 0.20 2147805.17 158474.30 59.86618113 -151.85831850 13424.91 68.78 286.04 6165.67 6345.32 10565.33 10905.71 10903.37 2949.66 -10496.81 0.41 2147831.94 158390.65 59.86624791 -151.85877744 13519.24 67.93 285.63 6200.46 6380.11 10650.35 10993.39 10991.05 2973.59 -10581.16 0.99 2147858.15 158306.98 59.86631316 -151.85923643 13613.88 68.26 285.58 6235.77 6415.42 10735.40 11081.19 11078.86 2997.21 -10665.73 0.35 2147884.06 158223.08 59.86637758 -151.85969662 13707.64 68.32 286.06 6270.53 6450.18 10820.03 11168.49 11166.15 3021.01 -10749.72 0.48 2147910.13 158139.77 59.86644248 -151.86015365 13803.25 69.15 285.40 6305.13 6484.78 10906.20 11257.40 11255.06 3045.11 -10835.30 1.08 2147936.55 158054.87 59.86650821 -151.86061935 13895.49 69.72 286.15 6337.53 6517.18 10989.91 11343.76 11341.42 3068.59 -10918.41 0.98 2147962.29 157972.43 59.86657224 -151.86107159 13989.32 69.30 285.95 6370.38 6550.03 11075.22 11431.66 11429.32 3092.89 -11002.88 0.49 2147988.87 157888.65 59.86663851 -151.86153123 14082.76 69.28 286.12 6403.42 6583.07 11160.03 11519.06 11516.72 3117.03 -11086.88 0.17 2148015.29 157805.34 59.86670435 -151.86198834 14175.69 69.35 286.11 6436.25 6615.90 11244.43 11606.00 11603.65 3141.16 -11170.40 0.08 2148041.69 157722.50 59.86677016 -151.86244285 14269.92 69.31 286.29 6469.51 6649.16 11330.05 11694.16 11691.81 3165.76 -11255.07 0.18 2148068.58 157638.54 59.86683724 -151.86290356 14364.39 68.87 285.58 6503.22 6682.87 11415.65 11782.41 11780.06 3189.99 -11339.92 0.84 2148095.11 157554.37 59.86690331 -151.86336533 14457.05 69.20 285.27 6538.38 6716.03 11499.40 11868.94 11866.59 3213.00 -11423.33 0.47 2148120.38 157471.61 59.86696605 -151.86381921 14551.66 69.52 285.16 6569.73 6749.38 11955.12 3236.24 -11508.76 0.36 2148145.93 157386.84 59.86702940 -151.86428411 14645.17 69.17 285.17 6602.71 6782.36 C08OIO�OIrtan 111 Rw55..w t1>1 p965g7.y4�7 Unit\Gcsn' polNan Pad\ 4-L01\H034-i01i -11593.22 0.37 2148171.11 157303.04 59.86709180 -151.86474368 Drilling Office 2.10.544.0 . Schlumberger-Private 4/3/2019 1:52 PM Page 3 of 4 Comments MD Incl MmTrue TVDSS ND VSEC AHD Closure NS EW DLS Northing EasBng UbWde Longitude 14739.31 69.60 285.32 6635.86 6815.51 11754.79 12133.08 12130.72 3282.30 -11678.23 0.48 2148196.58 157218.69 59.86715496 -151.86520628 14833.52 68.94 285.50 666920 6848.85 11840.06 12221.19 12218.83 3305.71 .11763.17 0.72 2148222.30 157134.41 59.86721879 -151.86566852 14926.82 6900 285.94 6702.69 6882.34 11924.45 12308.28 12305.92 3329.30 -11847.00 0.44 2148248.16 157051.26 59.86728312 -151.86612470 15021.03 68.39 286.02 6736.92 6916.57 12009.61 12396.05 12393.69 3353.47 -11931.38 0.65 2148274.61 156967.56 59.86734900 -151.86658388 15115.49 68.20 286.08 6771.85 6951.50 12094.78 12483.81 12481.45 33n.73 -12015.72 0.21 2148301.16 156883.91 59.86741515 -151.86704286 15208.61 68.48 286.58 6806.22 6985.87 12178.88 12570.36 12567.99 3402.07 -12098.77 0.58 2148327]4 156801.55 59.86748150 -151.8 83 15302.47 69.06 287.22 6840.21 7019.86 12264.09 12657.85 12655.46 3427.50 -12182.48 0.89 2148355A5 156718.56 59.86755085 -151.86/n5038 15370.97 70.07 288.19 6864.12 7043.77 12326.81 12722.04 12719.61 3447.02 -12243.63 1.98 2148376.62 156657.96 59.86760409 -151.86828315 9-SB' 15406.00 71.14 288.34 6875.76 7055.41 12359.16 12755.08 12752.62 3457.36 -12275.01 3.09 2148387.83 156626.88 59.86763234 451.86845390 15448.73 72.45 288.53 6889.11 7068.76 12398.92 12795.67 12793.16 3470.22 -12313.51 3.09 2148401.71 156588.73 59.86766735 -151.86866347 15541.01 75.96 291.02 6914.22 7093.87 12486.29 12884.45 12881.72 3500.27 -12397.05 4.61 2148434.02 156506.05 59.86774933 .151.86911809 15634.62 80.24 293.63 6933.52 7113.17 12577.04 12976.03 12972.69 3535.06 -12481.74 5.32 2148471.11 156422.32 59.86784429 -151.86957908 15727.90 84.46 294.37 6945.94 7125.59 12668.96 13068A5 13064.18 3572.66 -12566.18 4.59 2148510.99 156338.94 59.86794691 -151.87003865 15823.82 89.91 296.64 6950.65 7130.30 12764.43 13164.22 13158.60 3613.90 -12652.61 6.15 2148554.57 156253.66 59.86805948 -151.87050909 15919.64 90.40 297.46 6950.39 7130.04 12860.12 13260.04 13252.64 3657.47 -12737.95 1.00 2148600.45 156169.54 59.86817845 -151.87097361 16011.79 90.97 298.11 6949.29 7128.94 12952.20 13352.18 13342.86 3700.43 -12819.46 0.94 2148645.60 156089.22 59.86829572 -151.87141736 16106.01 93.96 299.21 6945.24 7124.89 13046.29 13446.31 13434.74 3745.57 -12902.05 3.38 2148692.97 156007.88 59.86841897 -151.87186695 16199.31 97.34 300.51 6936.05 7115.70 13139.12 13539.14 13524.96 3791.78 -12982.56 3.88 2148741.36 155928.66 59.86854518 -151.87230523 16293.07 99.96 301.59 6921.95 7101.60 13231.79 13631.83 13614.60 3839.59 .13061.97 3.02 2148791.31 155850.58 59.86867572 -151.87273751 16387.15 102.41 302.84 6903.70 7083.35 13324.01 13724.11 13703.41 3888.78 -13140.05 2.91 2148842.61 155773.87 59.86881007 -151.87316260 16479.76 103.98 304.54 6882.56 7062.21 13413.98 13814.27 13789.56 3938.79 -13215.07 2.46 2148894.84 155700.23 59.86894665 -151.87357104 16573.97 105.66 305.40 6858.47 7038.12 13504.71 13905.35 13876.02 3990.98 .13289.70 1.99 2148948.84 155627.05 59.86908922 -151.87397739 16668.01 108.08 305.79 6831.18 7010.83 13594.26 13995.33 13961.20 4043.36 -13362.87 2.60 2149003.19 155555.33 59.86923229 -151.87437581 16761.88 111.42 306.62 6799.46 6979.11 13682.08 14083.67 14044.57 4095.53 -13434.15 3.65 2149057.28 155485.49 59.86937480 -151.87476394 16856.07 115.14 307.60 6762.24 6941.89 13767.92 14170.17 14125.81 4147.71 .13503.14 4.06 2149111.32 155417.94 59.86951736 -151.87513962 16948.57 115.83 308.39 6722.44 6902.09 13850.61 14253.67 14203.83 4199.11 -13568.95 1.07 2149164.49 155353.56 59.86965777 -151.87549795 17042.39 115.85 307.42 6681.55 6861.20 13934.25 14338.11 14282.85 4250.99 -13635.57 0.93 2149218.16 155288.37 59.86979949 -151.87586075 17125.90 115.81 306.57 6645.16 6824.81 14008.85 14413.28 14353.64 4296.22 -13695.61 0.92 2149265.01 155229.58 59.86992304 -151.876-1 765 17200.00 115.81 306.57 6612.90 6792.55 14075.12 14479.99 14416.68 4335.96 -13749.18 0.00 2149306.20 1551n.11 59.87003161 -151.8 39 Survey Error Ill ISCWSA Rev 0 " 3-D 95.000%Confidence 2.7955 sigma Survey Program: Desedption Pan MD From MD To EOU Freq Hole Sin Casing Diameter Survey Taal Type Borelw4l Surrey IR1 lift) till (in) fill 1 0.000 1037.300 Act Stns 16.000 13.375 SLB NSG-SSHOT H04-LOI IH04-LOI 1 1037.300 5772.620 Act Stns 16.000 13.375 SLB MWD+GMAG HO41-01I HO41-01 1 5772.620 15302.470 Act Stns 12.250 9.625 SLBMWD+GMAG H04-L01/1-1041-01 1 15302.470 17125.900 Act Stns 8.500 0.000 SLB MWD+GMAG H04-LOt/14041-01 1 17125.900 17200.000 Act Stns 8.500 0.000 SLB BLINDHREND H04-LOI IH04-LOI Cosmopolitan Unit\Cosmopolitan Pad\HO4\HO4-LO1\H04L01 Drilling Office 2.10.544.0 Schlumberger -Private 4/3/2019 1:52 PM Page 4 of 4 H04 Rev 1 Actual Mud Weight vs. Depth Data Table Days Depth MW From MD ppg Operational Notes Spud 0 8.6 PU DP / Prepare BHA / fill conductor 0 267 8.8 Spud well / drill to 308' for RSS BHA 1 758 9.0 Drill to 310'/ TOH for RSS BHA / TIH & Drill 17-1/2" 2 2430 9.8 Drill 17-1/2" surface section / 68 deg angle 3 3860 10.2 Drill 17-1/2" surface section / 68 deg angle 4 4910 10.25 Drill 17-1/2" surface section / 69 deg angle 5 5810 10.45 Drill 17-1/2" surface section to 5810' MD / BROOH 6 5810 10.4 BROOH for casing / LD BHA / RU to run 13-3/8" 7 5810 10.2 Run 13-3/8" surface casing 8 5810 10.3 Run 13-3/8" surface casing 9 5810 10.0 Run & cement 13-3/8" surface casing 10 5810 10.0 Displace cement / bump plug / install starter head 11 5810 9.6 NU & test BOPE / clean pits / build OBM / top job 12 5810 9.6 Work on top drive / MU BHA #3 cleanout BHA / PU DP 13 5810 9.6 TD rail alignment / RIH w/ singles & cleanout BHA 14 5810 10.5 Test casing to 3K; drill out shoe track / swap to OBM 15 5810 10.5 POOH for RSS BHA / Test BOPE 16 5810 10.5 Test BOPE / Dummy Run 9-5/8" Hgr / RIH w/ RSS BHA 17 5963 10.5 RIH / Drill out shoe / FIT 13.2 ppg / Drill ahead 18 8590 10.5 Drill intermediate section w/ RSS BHA 19 11031 10.55 Drill intermediate section w/ RSS BHA 20 12790 10.55 Drill intermediate section w/ RSS BHA 21 14394 10.6 Drill intermediate section w/ RSS BHA 22 15420 10.55 Drill intermediate section w/ RSS BHA to Csg Point 23 15420 10.55 Circ & Cond at TD / Backream out for Casing 24 15420 10.55 Backream out for Casing 25 15420 10.5 POOH for casing / LD BHA / Test csg rams / RU to run csg 26 15420 10.55 Run 9-5/8" casing 27 15420 10.5 Run 9-5/8" casing 28 15420 10.6 Run 9-5/8" casing; land at 15406' MD; cement same 29 15420 10.65 Cement 9-5/8" / clean pits / chg rams/ MU drill pipe 30 15420 10.65 Test BOPE / MU BHA 5 for production section 31 15420 10.2 RIH / test csg to 3500 OK / clean out shoe track 32 15440 9.3 Swap mud systems/ drill 20'/ run FIT to 13.5 ppg EMW 33 16828 9.4 Drill 8-1/2" section to LOl / TD in L01 lateral / BROOH 34 16445 9.4 lTrench & timedrill to L02 lateral 35 18230 9.5 TD in L02 lateral / BROOH 36 17957 9.5 BROOH L02 / Trench - ST - Drill L03 37 19017 9.5 TD in L03 lateral / BROOH / spot LCM pill 38 19017 9.5 BROOH to inspect / change BHA / chk Super Sliders 39 19017 9.5 BROOH to inspect / change BHA / chk Super Sliders 40 19017 9.S Inspect BHA / LDDP / remove worn out Super Sliders 41 19017 1 9.5 1 Manage drill pipe /test BOPE 42 19017 1 9.5 1 PU DP / MU BHA/ RIH to drill L04 43 17690 9.55 RIH / Circ and condition mud / Prep to drill L04 44 17865 9.3 Trench & timedrill to L04 lateral / reduce MW 45 19635 9.2 Drill L04 lateral / seepage mud losses ongoing 46 20094 9.2 Finish & Backream L04 / Trench & drill L05 lateral 47 19888 9.25 Drill LOS lateral 48 20735 9.3 Drill LOS lateral / BROOH in L05 49 19513 9.2 Drill L06 lateral 50 20855 9.2 Drill L06 lateral 51 21358 9.2 Finish L06 / BROOH / Trench & ST to L07 52 20872 9.2 Drill L07 lateral 53 21830 9.2 Drill L07 lateral 54 21966 9.2 ITrench & ST to L08 / Drill L08 lateral partially / top drive issues / BROOH 55 20867 9.2 TD of LOS Mother Bore is 2086T MD / BROOH to shoe 56 20867 9.2 Hang Off & Test BOPE - 14 days / BROOH 57 20867 9.2 BROOH 58 20867 9.2 BROOH / POOH on elevators 59 20867 9.2 LD BHA / MU 4-1/2" slotted liner / RIH 60 20867 9.2 Run 4-1/2" slotted liner / enter LOi wrong lateral BROOH 61 20867 9.25 IBROOH / Pump out with 4-1/2" slotted liner 62 20867 9.2 Lay down 4-1/2" liner 63 20867 9.2 Lay down 4-1/2" liner/ Repair Top Drive 64 20867 9.3 Service rig / wait on Top Drive parts and Tech 65 20867 9.3 Tesco Tech arrived / tear down Top Drive / repair same 66 20867 9.3 Complete Top Drive repairs / MU Cleanout BHA -7 / RIH 67 20867 9.3 Manage drill pipe / RIH w/ cleanout BHA -7 68 20867 9.3 RIH w/ cleanout BHA -7 / hang off on RTTS packer at shoe 69 20867 9.25 ITest BOPE / Release RTTS / Ream in hole clean out L01 junction 70 20867 9.25 Clean out open hole / dress junctions for liner / clean to TD 71 20867 9.3 BROOH and dress each junction area 72 20867 9.3 BROOH and dress each junction area / BR & Pump Out 73 20867 9.3 Pump out for liner 74 20867 9.4 LD Cleanout BHA / MU 4-1/2" slotted liner / RIH on 5-1/2" DP 75 20867 9.4 Run liner to TD / set hanger & packer/ circ well to brine 76 20867 9.2 lCirc Well to Completion Brine / POOH / LDDP 77 20867 9.25 LDDP / RU and run 3-1/2" tubing upper completion 78 20867 9.25 RIH w/ 3-1/2" tubing upper completion & accessories 79 20867 9.25 RIH w/ 3-1/2" tubing / land same / shear valve / test SSSV - OK 80 20867 9.25 LD landing joint / set TWC / clean BOP stack / remove BOP 81 20867 9.25 Remove adapter spool / NU & pressure test tree / Slickline work 82 20867 9.25 Turn well over to production / install GLV / cold stack rig 83 20867 1 9.25 1 Set Top Drive in shipping cradle / cold stack rig 84 H04 Fishbone Well Naming & Numbering Index Well Name PTD No. from AOGCC API No. from AOGCC Final TD (MD) Notes H04 Mainbore 218-126 50-231-20064-00-00 20867 Final completed wellbore with 4-1/2" slotted liner in 8-1/2" hole H04-LOI 218-127 50-231-20064-60-00 17200 8-1/2" Open Hole completion H04-1-02 218-128 50-231-20064-61-00 18230 8-1/2" Open Hole completion H04 -L03 218-129 50-231-20064-62-00 19017 8-1/2" Open Hole completion H04 -L04 218-130 50-231-20064-63-00 20094 8-1/2" Open Hole completion 1404-1.05 218-131 50-231-20064-64-00 20735 8-1/2" Open Hole completion 1-104-1-06 218-132 50-231-20064-65-00 21358 8-1/2" Open Hole completion 1-104-1-07 218-133 50-231-20064-66-00 21966 8-1/2" Open Hole completion KOP TD Actual Lateral Lateral Planned Actual Actual Footage Volume (bbls) H04 Mainbore 15479 20867 5388 378 1O1 16382 16060 17200 1140 80 L02 17180 16860 18230 1370 96 L03 17980 17690 19017 1327 93 L04 18780 18440 20094 1654 116 L05 19580 19220 20735 1515 106 L06 20382 20038 21358 1320 93 L07 21180 20820 21966 1146 80 Total 14860 1043 Top Prod Interval TPI NAD 27 TD NAD 27 MD X Y Govt Sect MD X Y Govt Sect H-04 15406 156626.45 2148387.65 318' FSL, 3275' FEL, Sec. 33, T3S, R15W SM 20867 152064.83 2151357.51 3158' FSL, 2634' FEL, Sec. 32, T3S, R15W SM H-04-LO3 16060 156047.05 2148669.5 584' FSL, 3862' FEL, Sec. 33, T3S, R15W SM 17200 155176.67 2149306.03 1196' FSL, 4749' FEL, Sec. 33, T3S, R15W SM H -04-L02 16860 155369.4 2149093.85 989' FSL, 4551' FEL, Sec. 33, T3S, R1SW SM 18230 154323.31 2149854.92 1720' FSL, 335' FEL, Sec. 32, T3S, R15W SM H -04-L03 17690 154696.95 2149580.21 1456' FSL, 5236' FEL, Sec. 33, T3S, R15W SM 19017 153688.88 2150327.54 2175' FSL, 982' FEL, Sec. 32, T3S, R15W SM H -04-L04 18440 154082.59 2150009.61 1868' FSL, 580' FEL, Sec. 32, T3S, RSSW SM 20094 152790.62 2150874.58 2696' FSL, 1895' FEL, Sec. 32, T3S, R15W SM H-04-LO5 19220 153431.59 2150438.89 2279' FSL, 1242' FEL, Sec. 32, T3S, R15W SM 20735 152250.73 2151247.85 3054' FSL, 2445' FEL, Sec. 32, T3S, R15W SM H-04-LO6 200381 152750.511 2150891.73 2712' FSL, 1936' FEL, Sec. 32, T3S, R35W SM 21358 151719.8 2151598.67 3390' FSL, 2985' FEL, Sec. 32, T3S, R15W SM H -04-L07 20820 152104.11 2151331.71 3134' FSL, 2594' FEL, Sec. 32, T3S, R15W SM 21966 1;17n6.781 2151953.08 3729' FSL, 3508' FEL, Sec. 32, T3S, R15W SM �1M�r�"�TrV 00A 1 : 2-113- 17--f- fill NABORS / CAINRIG RECEIVED MAR 2 6 2019 SAMPLE MANIFEST Operator: BSC Crest Alaska Operating Date: 2/20/2019 Well Name: H04 - Main, L01, L02, L03, prepared By: Benjamin Handley/ Barbara Delaney L04. 1-05. 1-06. 1-07 Kenai Peninsula Borough, Location: Alaska Hansen Field 333 W 7th Ave, Suite 100 Shipping: Anchorage, AK 99501 Attn: Meredith Guhl (907)739-1235 Well: H04: (Shipping Box #1 - 6 Dry Sample Boxes) Main, Jr API: 50-231-20064-00-00 (Shipping Box #2 - 5 Dry Sample Boxes) Main, API: 50-231-20064-00-00 (Shipping Box #3- 7 Dry Sample Boxes) 1-01, 1-02, 1-03, 1-04, 1-05, 1-06, L07 API: 50-231-20064-60-00, 61-00, 62-00, 63-00, 64-00, 65-00 66-00_, TD: 2/19/2019 Set Type Frequency Interval (Feet / MD) Main (11 Boxes, 504 Envelopes) Washed and Dried 30' 5810'- 20867' TD L01 (1 BOX & 39 Envelopes) Washed and Dried 30' 16040'— 17200' TD L02 (1 BOX & 46 Envelopes) Washed and Dried 30' 16850'— 18230' TD L03 (1 BOX & 44 Envelopes) Washed and Dried 30' 17690'— 19017' TD L04 (1 BOX & 55 Envelopes) Washed and Dried 30' 18440'— 20094' TD L05 (1 BOX & 51 Envelopes) Washed and Dried 30' 19220'— 20735' TD Los (1 BOX & 46 Envelopes) Washed and Dried 30' 19988'— 21358' TD L07 (1 BOX & 39 Envelopes) Washed and Dried 30' 20827'— 21966' TD Total Number of Dry Sample Boxes: 18 & Total Number of Envelopes: 824 Number of Dry Sample Boxes: 18 Packaged into 3 Large Shipping Boxes 'Shipping Box #1: H04 Main Well Bore (6 Dry Sample Boxes) 0 Number of Envelopes: 283 Selo, To 1,4300 Shipping Box #2: H04 Main Well Bore (5 Dry Sample Boxes) Number of Envelopes: 221 Shipping Box #3: 1-1041-01, 1-1041-02, H041-03, 1-1041-04, 1-1041-05, 1-1041-06, H041-07 (7 Dry Sample Boxes) Number of Envelopes: 320 BLUECREST RIG #11 JOB #: A1744 / WELL: H04 - Main, L01, L02, L03, L04, L05, L06, L07 13-03 ley -405 qol, qo-+ 1Im qo9 V0 THE STATE GOVERNOR BILI. WALKER Larry Burgess Alaska Manager BlueCrest Alaska Operating, LLC 3301 C Street, Suite 202 Anchorage, AK 99503 Alaska Oil and Cas Conservation Commission Re: Hansen Field, Undefined Oil Pool, H04-LO1 BlueCrest Alaska Operating, LLC Permit to Drill Number: 218-127 Surface Location: 2173' FSL, 1552' FEL, SEC. 2, T4S, RI 5W, SM Bottomhole Location: 1286' FSL, 4928' FEL, SEC. 33, T3S, RI 5W, SM Dear Mr. Burgess: 333 West Seventh Avenue Anchorage, Alaska 99501-3572 Main: 907.279.1433 Fax: 907.276.7542 www.00gcc.claska.gov Enclosed is the approved application for the permit to redrill the above referenced development well. The permit is for a new wellbore segment of existing well Permit 218-126, API No. 50-231-20064-22- 00. Production should continue to be reported as a function of the original API number stated above. Per Statute AS 31.05.030(d)(2)(B) and Regulation 20 AAC 25.071, composite curves for well logs run must be submitted to the AOGCC within 90 days after completion, suspension or abandonment of this well. This permit to drill does not exempt you from obtaining additional permits or an approval required by law from other governmental agencies and does not authorize conducting drilling operations until all other required permits and approvals have been issued. In addition, the AOGCC reserves the right to withdraw the permit in the event it was erroneously issued. Operations must be conducted in accordance with AS 31.05 and Title 20, Chapter 25 of the Alaska Administrative Code unless the AOGCC specifically authorizes a variance. Failure to comply with an applicable provision of AS 31.05, Title 20, Chapter 25 of the Alaska Administrative Code, or an AOGCC order, or the terms and conditions of this permit may result in the revocation or suspension of the permit. Sincerely, Hollis S. French Chair k� DATED thisII 9 day of November, 2018. STATE OF ALASKA ALJ' A OIL AND GAS CONSERVATION COMMIS iN PERMIT TO DRILL 20 AAC 25.005 Ia. Type of Work: 1 b. Proposed Well Class: Exploratory -Gas ❑ Service - WAG ❑ Service - Disp ❑ 1c. Specify if well is proposed for. Drill Lateral lretigraphic Test Q Development -Oil ❑Service- Winj ❑ Single Zone Q• Coalbed Gas F] Gas Hydrates Redrill Reentry ploralory - Oil Development - Gas Service -Supply ❑ Multiple Zone ❑ Geothermal ❑Shale Gas 2. Operator Name: 5. Bond: Blanket O Single Well ❑ 11. Well Name and Number: BlueCrest Alaska Operating LLC Bond No. 5511251547 • H04 -L01 - 3. Address: 6. Proposed Depth: 12. Field/Pool(s): 3301 "C" Street, Suite 202, Anchorage, AK 99503 MD: 17,414' TVD: 6,713' Hansen, Undefined Oil Pool 4a. Location of Well (Governmental Section): 7. Property Designation: Surface: 2173' FSL, 1552' FEL, Sec. 2, T4S, R15W SM ADL 18790, ADL 384403, Fee -Hansen Top of Productive Horizon: 8. DNR Approval Number: 13. Approximate Spud Date: 583' FSL, 3819' FEL, Sec. 33, T3S, R15W SM LOCI 14-007 11/15/2018 9. Acres in Property: 14. Distance to Nearest Property: Total Depth: 1286' FSL, 4928' FEL, Sec. 33, T3S, R15W SM 14423 4866' (YO1664) 4b. Location of Well (Stale Base Plane Coordinates - NAD 27): 10. KB Elevation above MSL Ill): 180.5 15. Distance to Nearest Well Open Surface: x-168813 y- 2144623.035 Zone- 4 GL / BF Elevation above MSL (ft): 145.25 to Same Pool: 2590'- H1AL1 16. Deviated wells: Kickoff depth: 16021 feet 17. Maximum Potential Pressures in psig (see 20 AAC 25.035) Maximum Hole Angle: 115 degrees Downhole: 3,549 psi Surface: 2,842 psi (using 7,070' TVD) 18. Casing Program: Specifications Top - Setting Depth - Bottom Cement Quantity, c.f. or sacks Hole Casing Weight Grade Coupling I Length MD TVD MD TVD (including stage data) Driven 20 0.5" wall A252 Welded 152 41 41 193 193 N/A - Rotary Drilled / Driven 17.5 13.375 72 L-80 BTC 5583 40 40 5623 3531 Lead: 715 bbls, 12.0 ppg Tail: 167 bbls 15.8 ppg Class G 12.25 9.625 47 Pilo Hyd 563 15443 38 38 15481 7067 Tail: 132 bbls, 15.8 ppg Class G TOC: 13,981' MID /6,546'TVD LI /7Y13 6,7/3 8.5 4.5 1 15.2 Pilo Hyd 563 6741 15381 7042 22122 7063 Slotted Liner- No Cement; 100' lap 19. PRESENT WELL CONDITION SUMMARY (To be completed for Redrill and Re -Entry Operations) Total Depth MD (ff): Total Depth TVD (ft): Plugs (measured): Effect. Depth MD (ft): Effect. Depth TVD (ft): Junk (measured): Casing Length Size Cement Volume MD TVD Conductor/Structural Surface Intermediate Production Liner Perforation Depth MD (it): N/A Perforation Depth TVD (ft): N/A Hydraulic Fracture planned? Yes ❑ No (] 20. Attachments: Property Plat O BOP Sketch v Drilling Program Time v. Depth Plot Shallow Hazard Analysis Div. Sketch Seabed Report Drilling Fluid Program 20 AAC 25.050 requirements 21. Verbal Approval: Commission Representative: Date 22. 1 hereby certify that the foregoing is true and the procedure approved herein will not be deviated from without prior written approval. Contact Name: Thomas McKay Authorized Name: Larry Burgess Contact Email: to ri mckavCdbluecrestenerov.com Authorized Title: Alaska Manager Contact Phone: 907-754-9566 Authorized Signature: Date: 11 -Oct -18 Commission Use Only Permit to Drill API Nu to 76,'�-� Permit Approval See cover letter for other Number: ,' j L / 50-�3/ Date: I( l requirements. Conditions of approval : If box is checked, well may not be used to explore for, test, or produce coalbed methane, gas hydrates, or gas contained in shales: Other: Y �� S` �j (� f St' n Samples req'd: Yes ❑ No � Mud log req'd: Yes 0 H 2 measures: Yes ❑ No Directional svy req' es Spacing exception req'd: Yes [-, No [.� Inclination -only svy req' o Post initial injection MIT req'd: Yes QJo APPROVEDBY Approved by: COMMISSIONER THE COMMISSION Date: t' I i 4 I t (+ ,,,jjj��� Q� �/ r / Submit Form and ,�\����`Form 10301 Revised 512017 Phis p0rmit i valid for 24 mopl�is(gnytly.Qa�a pf ap v41 per 20 AAC 25.005(g)� Attachments /��t� 4 UKI(r L nue est Energy 3301 C Street, Suite 202, Anchorage, AK 99503 Thomas W. McKay, P.E. Phone: (907) 754-9566 Email: tom.mckay@bluecrestenergy.com October 11. 2018 Alaska Oil and Gas Conservation Commission 333 West 7th Avenue, Suite 100 Anchorage, Alaska 99501 Cosmopolitan Project RE: Application for Permit to Drill: Horizontal Production Well 1-1104-1-01 Fishbone Multilateral Producer Form 10-401; Fishbone Multilateral Well Design Dear Commissioners, BlueCrest Alaska Operating LLC hereby applies for a Permit to Drill for the onshore horizontal production well H04 -L01— Fishbone Lateral Producer. This well will be drilled and completed using BlueCrest Rig #1. The planned spud date could be as early as 15 Nov 2018. H04 -L01 will be a multilateral producer, drilled as a "fishbone" style rib drilled off the mainbore up into the full section of reservoir present on this Lease. The 1-104-1-01 lateral well will be part of a grass roots producer drilled from the H04 slot. The H04 Fishbone Producer well will not be fracture stimulated but instead will rely on the seven (7) rib wellbores like 1-104-1-01 to drain the hydrocarbon fluids, etc. into the main bore which will be cased with a 4-1/2" slotted liner. The well will be completed with 3-1/2" upper completion tubing and lifted using gas lift as needed. Please find attached for the review of the Commission form 10-401, and the information required by 20 ACC 25.005 for this well. Please note that the eight (8) total Spacing Exceptions for this H04 well and its laterals have already been submitted to the AOGCC. Also note that seven (7) additional APD packages such as this one attached for 1-104-1-01 will be submitted for each well "rib" numbered 1-01 through L07, which are proposed to be open hole sidetracks off the mainbore. As per AOGCC regulations, each rib requires its own unique name and APD. If you have any questions or require further information, please do not hesitate to contact Tom McKay at 907-754-9566 (office) or 907-350-9544 (cell). Sincerely �/ Larry Burgess Alaska Manager BlueCrest Alaska Operating LLC lNest Energy Cosmopolitan Project H04 BlueCrest H04 Fishbone APD Package - Main Bore + Fishbone Lower Laterals Section Topic A Cover Letter B APD Table of Contents C Form 10-401 1 Well Name 2 Location Summary 3 BOPE Information 4-a Drilling Hazards Information 4-b Pressure Model Plot 4-c Drilling Hazards Summary 5 LOT/FIT Procedure 6 Casing & Cementing Program 7 Diverter System Information 8 Drilling Fluid Program 9 Abnormally Pressured Formation Information 10 Seismic Analysis 11 Seabed Condition Analysis 12 Evidence of Bonding 13 Proposed Drilling Program 14 Discussion of Mud & Cuttings Disposal and Annular Disposal 15 Attachments 15-1 Drilling Procedure - Proposed Drilling Program 15-1a Wellbore Schematic - Cross Sectional Color View 15-1b Wellbore Schematic - Excel Section Review 15-1c Wellbore Schematic - Visio Version 15-2 Directional Plan 15-3 Casing Design & Cement Volume Calculations 15-4 Formation Integrity & LOT Procedures 15-5 BOP & Choke Manifold Configuration 15-6 Wellhead & Tree Configuration 15-7 Diverter Configuration & Schematics 15-8 H04 Lease Map 15-9 H04 As -Built Surface Slot Location 15-10 H04 New Well Rig Elevation Form Well Identifier Surface X Y Depth MD Legal Coordinates H04 (131) Surface Location 168812.804 2144623.035 2173' FSL, 1552' FEL, Sec. 2, T4S, R15W SM H04 (Pl) SCP 165349.46 2145687.06 -3353.43 5623.05 3143' FSL, 5044' FEL, Sec. 2, T4S, R15W SM H04 (Pl) ICP (Top of Production) 156564.79 2148421.8 -6889.98 15481 350' FSL, 3337' FEL, Sec. 33, T3S, R15W SM H04 (Pl) TD 151037.26 2152075.44 -6886.54 22122.01 3847' FSL, 3680' FEL, Sec. 32, T3S, R15W SM H04 -L01 (Pl) KOP (Top of Production) 156089.35 2148667.44 -6951.6 16021.46 583' FSL, 3819' FEL, Sec. 33, T3S, R15W SM H04-LOI (PS) TD 155000.35 2149401.42 -6536.55 17413.75 1286' FSL, 4928' FEL, Sec. 33, T3S, R15W SM 1-104-1-02 (131) KOP (Top of Production) 155462.09 2149089.34 -6951.32 16777.86 987' FSL, 4458' FEL, Sec. 33, T3S, R15W SM 1-104-1-02 (Pl) TD 154213.31 2149933.44 -6466.66 18379.17 1796' FSL, 447' FEL, Sec. 32, T3S, R15W SM 1-104-1-03 (Pl) KOP (Top of Production) 154774.06 2149555.27 -6951.58 17608.87 1433' FSL, 5158' FEL, Sec. 33, T3S, R15W SM 1-104-1-03 (131) TD 153496.35 2150416.47 -6436.55 19250.37 2258' FSL, 1177' FEL, Sec. 32, T3S, R15W SM 1-104-1-04 (Pl) KOP (Top of Production) 154113.81 2149999.68 -6951.51 18404.82 1859' FSL, 548' FEL, Sec. 32, T3S, R15W SM 1-104-1-04 (Pl) TD 152833.34 2150864.47 -6436.55 20050.65 2687' FSL, 1852' FEL, Sec. 32, T35, R15W SM 1-104-1-05 (Pl) KOP (Top of Production) 153450.87 2150447.6 -6951.55 19204.9712288' FSL, 1223' FEL, Sec. 32, T35, R15W SM 1-104-1-05 (P1) TD 152223.29 2151275.44 -6466.63 20779.65 3081' FSL, 2473' FEL, Sec. 32, T3S, R15W SM 1-104-1-06 (131) KOP (Top of Production) 152787.44 2150894.87 -6951.55 20005.16 2716' FSL, 1899' FEL, Sec. 32, T3S, R15W SM 1-104-1-06 (P1) TD 151648.29 2151662.49 -6516.66 21461.68 3451' FSL, 3058' FEL, Sec. 32, T3S, R15W SM 1-104-1-07 (131) KOP (Top of Production) 1 152129.131 2151338.82 -6951.54 20799.25 3141' FSL, 2569' FEL, Sec. 32, T3S, R15W SM 1-104-1-07 (Pl) JTD 1 151145.251 2152002.44 -6606.641 220483213777' FSL, 3570' FEL, Sec. 32, T3S, R15W SM Wellbore Nearest Producing Well Distance To Nearest Producer (ft) Nearest Property Line Distance (ft) H04 Hansen 1ALl 2590 Y01664 543 H04 -L01 Hansen 1AL1 2590 Y01664 4866 H04-LO2 Hansen 1AL1 2590 Y01664 4010 H04-LO3 Hansen 1AL1 2647 Y01664 3216 H04-LO4 Hansen 1AL1 2842 Y01664 2493 H04-LO5 Hansen 1AL1 2964 Y01664 1831 H04-LO6 Hansen 1ALl 2955 Y01664 1209 H04-LO7 Hansen 1AL1 2951 Y01664 660 IuS eClest Energy Application for Permit to Drill Document Cosmopolitan Project H04 -L01 10-101 APD Discussion Sections Horizontal Multilateral Producer H04 — L01 Fishbone Lateral Table of Contents 1. Well Name...................................................................................................................3 Requirements of 20 AAC 25.005(f).............................................................................................................. 3 2. Location Summary........................................................................................................3 Requirements of 20 AAC 25.005(c)(2).......................................................................................................... 3 Requirements of 20 AAC 25.050(b).............................................................................................................. 3 3. Blowout Prevention Equipment Information..................................................................4 Requirements of 20 AAC 25.005(c)(3).......................................................................................................... 4 4. Drilling Hazards Information.........................................................................................4 Requirements of 20 AAC 25.005 (c)(4)......................................................................................................... 4 DrillingHazards Summary. ... .................................................................................................................. 6 S. Procedure for Conducting Formation Integrity Tests.......................................................7 Requirements of 20 AAC 25.005 (c)(5)......................................................................................................... 7 6. Casing and Cementing Program.....................................................................................7 Requirements of 20 AAC 25.005(c)(6).......................................................................................................... 7 7. Diverter System Information.........................................................................................7 Requirements of 20 AAC 25.005(c)(7).......................................................................................................... 7 8. Drilling Fluid Program...................................................................................................8 Requirements of 20 AAC 25.005(c)(8).......................................................................................................... 8 9. Abnormally Pressured Formation Information................................................................8 Requirements of 20AAC25.005 (c)(9).........................................................................................................8 10. Seismic Analysis...........................................................................................................8 Requirements of 20 AAC 25.005 (c)(10)....................................................................................................... 8 11. Seabed Condition Analysis............................................................................................8 Requirements of 20 AAC 25.005 (c)(11)....................................................................................................... 8 12. Evidence of Bonding.....................................................................................................9 Requirements of 20 AAC 25.005 (c)(12)....................................................................................................... 9 13. Proposed Drilling Program............................................................................................9 Requirements of 20 AAC 25.005 (c)(13)....................................................................................................... 9 1lPage H04 -L01 10-401 APD Discussion Sections 1S1 ueNesr Energy Cosmopolitan Project -+2,1-1 01 10-401 APD Discussion Sections 14. Discussion of Mud and Cuttings Disposal and Annular Disposal.......................................9 Requirements of 20 AAC 25.005 (c)(14)... ........... I ..................... I ................... .............................................. 9 15. Attachments................................................................................................................9 Attachment 1 Drilling Procedure................................................................................................................. 9 Attachment 2 Directional Plan.................................................................................................................... 9 Attachment 3 Casing Design Calculations.................................................................................................... 9 Attachment 4 Formation Integrity And Leak Off Test Procedure..................................................................... 9 Attachment 5 BOP & Choke Manifold Configuration..................................................................................... 9 Attachment 6 Wellhead & Tree Configuration.............................................................................................. 9 Attachment 7 Diverter Schematics.............................................................................................................. 9 Attachment8 Lease Map....................................................................................................................................... 9 Attachment 9 As -Built Slot Survey.......................................................................................................................... 9 Attachment 10 New Well Elevation Form..............................................................................................................9 2 1 P a g a H04-LOl 10-401 APD Discussion Sections lueNest Energy Cosmopolitan Project H04-LOt 10-401 APD Discussion Sections 1. Well Name Requirements of 20 AAC 25.005 (f) Each well must be identified by a unique name designated by the operator and a unique API number assigned by the commission under 20 AAC 25.040(6). For a well with multiple well branches, each branch must similarly be identified by a unique name and API number by adding a suffix to the name designated for the well by the operator and to the number assigned to the well by the commission. Well Name: H04-LO1 Fishbone Lateral To include the H04-LO1 fishbone lateral drilling and completion only. NOTE: This well will be proposed as a "fishbone" design with a mainbore named as H04, and seven (7) open hole "barefoot" laterals drilled by open hole sidetrack from the mainbore to be named as: H04-1-01, H04-1-02, H04-LO3, H04 - L04, H04-1-05, 1104-1-06, and H04-1-07. The seven (7) laterals or "ribs" will be drilled upward into all the Hemlock and Starichkof reservoir layers at an inclination of 115 degrees, and each will have its own APD package to be submitted. This particular package (H04-1-01) is for the H04 -L01 drilling and completion operations only. 2. Location Summary Requirements of 20 AAC 25.005(c)(2) An application for a Permit to Drill must be accompanied by each of the following items, except for an item already on file with the commission and identified in the application: (1) a plat identifying the property and the property's owners and showing (A)the coordinates of the proposed location of the well at the surface, at the top of each objective formation, and at total depth, referenced to governmental section lines. (B) the coordinates of the proposed location of the well at the surface, referenced to the state plane coordinate system for this state as maintained by the National Geodetic Survey in the National Oceanic and Atmospheric Administration; (C) the proposed depth of the well at the top of each objective formation and at total depth; (D) other information required by 20 AAC 25.050(6); Location at Top of Productive Interval Location at Surface 2173' FSL, 1552' FEL, Sec. 02, T45, R15W SM Measured Depth, RKB: 16,021' ASP Zone 4 NAD 2 7 Coordinates Northing: 2,144,623.035' Easting: 168,812.804' RKB Elevation 180.50'AMSL ' Pad Elevation 145.25'AMSL Location at Top of Productive Interval 583' FSL, 3819' FEL, Sec. 33, T3S, R15W SM ASP Zone NAD 27 Coordinates Northing: 2,148,667.44' Easting: 156,089.35' Measured Depth, RKB: 16,021' Total Vertical Depth, RKB: 6,916' Total Vertical Depth, SS: 6,952' Location at Total Depth 1286' FSL, 4928' FEL, Sec. 33, T3S, R15W SM ASPZone4 NAD27Coordinates Northing: 2,149,401.42' Easting: 155,000.35' Measured Depth, RKB: 17,414' ' Total Vertical Depth, RKB: 7,019' Total Vertical Depth, SS: 6,537' Requirements of 20 AAC 25.050(b) If a well is to be intentionally deviated, the application for o Permit to Drill (Form 10-401) must (1) include a plat, drawn to a suitable scale, showing the path of the proposed wellbore, including all adjacent wellbores within 200 feet of any portion of the proposed well; Please see Attachment 2: Directional Plan Please see Attachments 7-8: Diverter Schematics / Lease Map (2) for all wells within 100 feet of the proposed wellbore (A) list the names of the operators of those wells, to the extent that those names are known or discoverable in public records, and show that each named operator has been furnished a copy of the application by certified mail; or (B) state that the applicant is the only affected owner. The Applicant is the only affected owner. 3lPage H04-LOt 10-401 APD Discussion Sections lust Energy Cosmopolitan Project H04 -L01 10-401 APD Discussion Sections 3. Blowout Prevention Equipment Information Requirements of 20 AA 25.005(c)(3) An opubcation jor a Permit to Drill must be accompanied by each of the following items, except for an item already on file with the commission and identified in the application: (3) a diagram and description of the blowout prevention equipment (ROPE) as required by 20AAC 15.035, 10AAC25.036, or 20AAC 25.037, as applicable; Please see Attachment 5: BOP & Choke Manifold Configuration 4. Drilling Hazards Information Requirements of 20 AAC 25.005 (c)(4) An application for a Permit to Drill must be accompanied by each of the following items, except for on item already on file with the commission and identified in the application: (4) information on drilling hazards, including (A) the maximum downhole pressure that may be encountered, criteria used to determine it, and maximum potential surface pressure based on a methane gradient The expected reservoir pressure in the Starichkof / Hemlock Sands is 0.472 psi/ft, or 9.07 ppg EMW at 6,951' TVDss taken per MDT's on Cosmopolitan 1. The maximum known pressure in the upper Kenai sands is 9.66 ppg @ 3,841' TVDss per MDT's taken on Cosmopolitan 1. To be conservative, the highest pressure gradient of 9.66 ppg or 0.502 psi/ft will be used to determine MPSP at the production interval of 6,900' TVDss. The maximum potential surface pressure (MPSP) based on the above maximum pressure gradient, a methane gradient (0.10), and the planned vertical depth of the Starichkof / Hemlock formation is: MPSP=(6,900TVDss) (0.502 - 0.1 psi/ft) =2,774 psi MPSP=(7,070TVD) (0.502 — 0.1 psi/ft) =2,842 psi (using TVD instead of TVDss for this calculation) MAX BHP=(7,070TVD) (0.502 psi/ft) =3,549 psi (using TVD instead of TVDss for this calculation) (B) data on potential gas zones; The Sterling, Beluga and Tyonek sands within the Kenai group have been known to contain gas. The intermediate section Y will be drilled with a minimum mud weight of 10.5 ppg, the maximum known pressure through these sections is 9.66 ppg @ 3,841' TVDss per MDT's taken on Cosmopolitan 1. ` (C) data concerning potential causes of hole problems such as abnormally geo pressured strata, lost circulation zones, and zones that haven propensity for differential sticking, Please see the Drilling Hazards Overview below. 41 Page H04 -L.01 10-401 APD Discussion Sections 1ueC,fest Energy 111 2000 3000 H 4000 CA O �1 p 5000 U_ Cosmopolitan Project H04 -L01 10-401 APD Discussion Sections Pressure Model (EMW) Upper Tyonek, 3292.44 Lower Tyonek, 6059.01 Starichkof, 6874-84 Hemlock, 6902.77 8000 i 1 1 1 1 1 1 1 1 1 j. I 1 -1 8 9 10 11 12 13 14 15 16 17 18 19 20 EMW (PPG) Lithostatic Stress • MDT Data —Frac Gradient —Moving Average —Planned Mud Weight 51 Page H04 -L01 10-401 APD Discussion Sections lue st Energy Drilling Hazards Summary: 17-%" Hole Section / 13-%" Casing Cosmopolitan Project H04 -L01 10-401 APD Discussion Sections Event Risk Level Mitigation Strategy Maintain planned mud parameters, Increase mud weight, use Clay Balling Low weighted sweeps, reduce fluid viscosity, control ROP. Abnormal Pressure in Low Diverter drills, increased mud weight. Surface Formations Reduced trip speeds, mud properties, proper hole filling, real time Directional Control Low BHA design, on -sight geologic review, avoid "drilling the line". Directional Control Low Reduced pump rates, mud rheology, lost circulation material, use Lost Circulation Low of low density cement slurries, control running speeds. 12-Y4" Hole Section / 9-%" Casing Event Risk Level Mitigation Strategy Reduced pump rates, reduced trip speeds, real time equivalent Lost Circulation Low circulating density (ECD) monitoring, mud rheology, Pre -planned LCM pills, lost circulation material. Hole swabbing on Reduced trip speeds, mud properties, proper hole filling, real time trips Low equivalent circulating density (ECD) monitoring, weighted sweeps. Directional Control Low Increased mud density and fluid composition according to plan, Sloughing Coals, Low controlled trip speeds, ECD monitoring, optimized hydraulics for Tight Hole hole cleaning. Abnormal Reservoir Low Well control drills, increased mud weight. Pressure Low practices, mud scavengers. HZS drills, detection systems, alarms, standard well control Hydrogen Sulfide Gas Low practices, mud scavengers. 8-w%" Hole Section / 5-%" Slotted Liner Event Risk Level Mitigation Strategy Fluid density according to plan, reduced pump rates, reduced trip Lost Circulation Low speeds, real time equivalent circulating density (ECD) monitoring, mud rheology, lost circulation material. Hole swabbing on Reduced trip speeds, mud properties, proper hole filling, real time trips Low equivalent circulating density (ECD) monitoring, weighted sweeps. Directional Control Low BHA design, on -sight geologic review. Abnormal Reservoir Low Well control drills, increased mud weight. Pressure H2S drills, detection systems, alarms, standard well control Hydrogen Sulfide Gas Low practices, mud scavengers. 61Page H04 -L01 10.401 APD Discussion Sections Ilue('iest Energy Cosmopolitan Project H04-LOl 10-401 APD Discussion Sections 5. Procedure for Conducting Formation Integrity Tests Requirements of 20AAC25.005 (c)(5) ;; pplicotion for a Permit to Drill must be accompanied by each of the following items, except for an item already on file with the commission and identified in the application: (5) a description of the procedure for conducting formation integrity tests, as required under 20AAC25.030(f); Please see Attachment 4: Formation Integrity and Leak Off Test Procedure — N/A for Fishbone Open Hole Laterals 6. Casing and Cementing Program Requirements of 20 AAC 25.005(c)(6) An application for a Permit to Drill must be accompanied by each of the following items, except for an item already on file with the commission and identified in the application: (6) a complete proposed casing and cementing program as required by 20AAC 25.030, and a description of any slotted liner, pre -perforated liner, or screen to be installed; NOTE: INFORMATION IN THIS SECTION REFERS TO THE H04 MAINBORE ONLY Casing and Cementing Program See also Attachment 4: Cement Volume Calculation Summary Csg/Tbg Hole Size Weight Grade Conn Length TOP MD/TVD Stm MD/TVD Cement Program OD (in) (in) (Ib/ft) (it) fft) (ft) 20" N/A .5001 A525 Weld 152' 41'/41' 193'/ 193' N/A Wal 5,623'/ 882 TOTAL BBIS 13-3/8' 17-1/2" 72 L-80 BTC 5,583' 40'/40' LEAD: 572 bbls 12.00 ppg Kenai Lead 3,531' TAIL: 167 bbls 15.8 ppg Class "G" 9-5/8" 12-1/4" 47 P-110 Hydril 563 15,443' 38'/38' 15,481'/ 132 TOTAL BBLS "G" 7,067' TAIL: 132 bbls 15.8 ppg Class TOC: 13,981' MD/ 6,546' TVD No cement required 4-1/2" 8-1/2" 15.2 P-110 Hydril563 6,741' 15,381'/ 22,122'/ Slotted liner completion 7,042' 7,063' 100' liner lap Please see Attachment 3: Casing Design Calculations NOTE: Due to the high inclination at the 9-5/8" intermediate shoe, a tractor would be required to run a CBL/USIT log on this shoe. In addition, since the H04 well is not to be hydraulically fracture stimulated, it is requested that the AOGCC waive the CBL /USIT requirement on the 9-5/8" cement job on the H04 well. ,[ 7. Diverter System Information ��A l J�� D(vc2' r L d - «' /-if Requirements of 20AAC25.005(c)(7) An application for a Permit to Drill most be accompanied by each of the following items, except for on item already on file with the commission and identified in the application: (7) a diagram and description of the diverter system as required by 10 AAC 25.035, unless this requirement is waived by the commission under 20 AAC 25.035(h)(2); Please see Attachment 5: BOP and Choke Manifold Configuration. NOTE: A request and justification to waive the requirement for a diverter system while drilling the H04 surface section will be submitted under a separate cover letter. 71Paga H04-LOt 10.401 APD Discussion Sections g)ue(.fest Energy Cosmopolitan Project H04 -L01 10-401 APD Discussion Sections 8. Drilling Fluid Program Requirements of 20 AAC 25.005(c)(8) An application for a Permit to Drill must be accompanied by each of the following items, except for on item already on file with the commission and identified in the application: (8) a drilling fluid program, including a diagram and description of the drilling fluid system, as required by 10AAC25.033; Drilling fluid practices will be in accordance with appropriate regulations stated in 20 AAC 25.033. Drilling will be done with drilling fluids having the following properties over the listed intervals in the following Table. NOTE: the base case drilling fluid program is to drill the surface section with a fresh water conventional barite based system. The intermediate section will be drilled with a oil based conventional barite mud system. However, based on the results seen in the H14 and H12 flowback production test histories, it is planned to drill the H04 production section using a solids free oil based mud system with no barite, using only salt and calcium carbonate for weighting and bridging material, in order to minimize near wellbore formation damage in the reservoir section. Since the well design does not allow for any type of well stimulation or acid clean up after completion, it is vital for well productivity to drill the reservoir with as light a mud weight as possible, and with as few solids as possible, in an effort to minimize formation damage. Parameter Surface Intermediate Production Type W BM OEM 0 BM Name Spud Mud VersaPro VersaPro Density (ppg) 9.8 10.5 8.8-9.7 ✓ Oil: Water Ratio N/A 80:20 75:25 6/3 RPM 17-20 12-14 8-10 PV (lbs/100ft') <28 <28 API Fluid Loss (cc/30min) NC HTHP Fluid Loss (cc/30min) <5.0 <5.0 Electric Stability (mlVolts) >600 >600 pH 8.5-9.5 Chlorides <2,000 9. Abnormally Pressured Formation Information Requirements of 20 AAC 25.005 (c)(9) An application for a Permit to Drill must be accompanied by each of the following items, except for on item already on file with the commission and identified in the application: (9) for on exploratory or stratigraphic test well, a tabulation setting out the depths of predicted abnormally geo-pressured strata as required by 20 AAC25.033(f); Not applicable: Application is not for an exploratory or stratigraphic test well. 10. Seismic Analysis Requirements of 20 AAC 25.005 (c)(30) An application for a Permit to Drill must be accompanied by each of the following items, except for an item already on file with the commission and identified in the application: (10) for an exploratory or stratigraphic test well, a seismic refraction or reflection analysis as required by 20 AAC 25.061(a); Not applicable: Application is not for an exploratory or stratigraphic test well. 11. Seabed Condition Analysis Requirements of 20 AAC 25.005 (c)(11) An application fora Permit to Drill must be accompanied by each of the following items, except for an item already on file with the commission and identified in the application: (11) for o well drilled from on offshore platform, mobile bottom -founded structure, jack-up rig, or floating drilling vessel, an analysis of seabed conditions as required by 10 AAC 25.061(6); Not applicable: Application is not for an offshore well. 8 1 P a g a H0440110-401 APD Discussion Sections t lue(.'fest Energy Cosmopolitan Project H04-LOl 10-401 APD Discussion Sections 12. Evidence of Bonding Requirements of 20 AAC 25.005 (c)(12) An application for a Permit to Drill must be accompanied by each of the following items, except for an item already on file with the commission and identified in the application: (12) evidence showing that the requirements of 20 AAC 25.015 (Bonding have been met; Evidence of bonding for BlueCrest Alaska Operating LLC is on file with the Commission. 13. Proposed Drilling Program Requirements of 20 AAC 25.005 (c)(13) A copy of the proposed drilling program; the drilling program must indicate if a well is proposed for hydraulic fracturing as defined in 20AAC 25.283(m); to seek approval to perform hydraulic fracturing, a person must make a separate request by submitting an Application for Sundry Approvals (Form 10- 403) with the information required under 20 AAC 25.280 and 10 AAC 25.283; (13) a copy of the proposed drilling program; Please refer to Attachment 1— Drilling Procedure. Note: The H04 well will NOT be hydraulically stimulated. 14. Discussion of Mud and Cuttings Disposal and Annular Disposal Requirements of 20 AAC 25.005 (c)(14) An application for a Permit to Drill must be accompanied by each of the following items, except for an item already on file with the commission and identified in the application: (14) a general description of haw the operator plans to dispose of drilling mud and cuttings and a statement of whether the operator intends to request authorization under 20 AAC 25.080for an annular disposal operation in the well.; Solid and liquid wastes generated during the drilling process will be disposed of at Hilcorp Alaska, LLC's Kenai Gas Field (KFG) Grind & Injection (G&I) Facility or AIMM Technologies' (hydrokinetics) facility in Kenai. Dried water base cuttings from the surface section are planned to be properly disposed of in a local landfill after being tested using the filter paint test. No annular disposal is planned for this well. 15. Attachments Attachment 1 Drilling Procedure with Wellbore Schematics Attachment 2 Directional Plan Attachment 3 Casing Design and Cement Volume Calculations Attachment 4 Formation Integrity And Leak Off Test Procedure Attachment 5 BOP & Choke Manifold Configuration Attachment 6 Wellhead & Tree Configuration Attachment 7 Diverter Schematics Attachment 8 Lease Map Attachment 9 As Built Slot Survey Attachment 10 New Well Elevation Form 9 1 P a g e H04-LOf 10-401 APD Discussion Sections l3lueNest Energy Attachment 1 Cosmopolitan Project H04-LOl 10-401 Fishbone APD Attachments H04-LOt 10.409 Fishbone APD Attachments H04 Fishbone Multilateral Well — Skeleton Procedure for Drilling Reservoir Section The seven (7) ribs of the fishbone production section will be drilled in the following sequence using a 8.8-9.4 ppg low -solids OBM starting mud weight: o Drill the first fishbone rib "LOl" up into the Hemlock and Starichkof pay sands as per the APD and directional plan for H12 -LOS. o Circulate cuttings to a point past the BHA. o Backream LOl rib back to mainbore. Circulate hole clean. o Once back in the mainbore, position the bit and RSS BHA at the open hole sidetrack depth for L02 as directed by the Operations Geologist. o Trench and open hole sidetrack the mainbore to the low side and drill ahead to the kickoff point for the L02 rib. o Repeat the LO3 drilling procedure above to drill the L02 rib, and the subsequent ribs L03, L04, LOS, L06 and L07. o The last rib could be designated as L08 which will simply be a continuation to TD of the mainbore to be drilled under the H04 Mainbore APD. o NOTE: more than one bit run is expected to be required to drill the multiple ribs, and the two-week AOGCC BOP test frequency will also need to be incorporated into the Daily Operations Plan. o Drill the H04 mainbore to TD, and circulate the well clean. o Backream to the 9-5/8" shoe. o Circulate hole clean and cap well as required; prepare to POOH for the 4-1/2" slotted liner. o Backream / POOH on elevators, and lay down BHA. 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N Fact Rule MD N TVD ft Alert Minor Major Maw I Major Hanan #IA (Def Survey) H04 -L01 (P1) Anti -Collision Summary Report Analysis Data-24hr Tima: September24, 2018-1600 Analysis Method: 3D Least Distance Client: BlueCrest Reference Trajectory: H04-L01(P1)(Def Plan) Field: Cosmopolitan Unit Depth Interval: Every 10.00 Measured Depth (fl) Structure: Cosmopolitan Pad Rule Set DBM AmOollislon Standard 5002 v5.115.2 Slot: H-04 Min Pts: All local minima indicated, Well: H04 Version/Patch: 2.10.544.0 Borehole: 1104101 Database t Project: IccalMSDdrilling-Cook Inlet Scan MD Range: 0.00k -17413.75N 30.09 33.54r Tralectory Error Modal- ISCWSA03-D 95.000% Confidence 2.7955 sigma, for subject well. For 500.00 499.99 Mir% Offset Trajectories Summary 3].35 Offset Selection Crlte da 3344 7.25 13.76 MAS =9.17(.) Wellhead distance scan: Not performed! MINPT43-EOU Selection fliers: Definitive Surveys - Definitive Plans- Definitive surveys exclude definitive plans 30.09 36.60 11.2 iL - All Non -Def Surveys when no Dat -Survey is set in a borehole - All Non -Def Plans when no Def -Plan Is set in a borehole 73000 Offset Trajectory Se ntlon Allow Sep, Controlling Reference Trajectory Risk Leval /Vert Status C4Ct N MAS N EOU N reDes. N Fact Rule MD N TVD ft Alert Minor Major Maw I Major Hanan #IA (Def Survey) Warning Alert 37.58 30.09 36.29 748 WA MAS =9.1)un) 0.00 0.00 C1CK=15m05.00 EnterAkn 37.30 30.09 36.01 7.20 WA MAS =9.17(m) 35.25 3515 WRP 37.27 30.09 33.54r 7.181 14.71 MAS =9.17(.) 500.00 499.99 Mir% 3].35 30.09 3344 7.25 13.76 MAS =9.17(.) 540,00 539.99 MINPT43-EOU 41.39 30.09 36.60 11.2 iL MAS =9.17(.) 73000 729.73 MlaP143SF 48.78 30.09 43.62 18.67 12.30 MAS -9.17(m) 850.00 849.10 CICK=15.15.00 Exit Alan 10625 30.9 97.55 76.16 1415 MAS =9.17(art 1500.00 1473.75 MlnPt4 F 695.33 186.57 570.52 508.76 5.62 OSF1.00 5070.00 3330.96 MInPI-0 F 1075.10 237.27 916.54 83703 6821 OSF1.50 7050.00 4045.30 MlnPI-0 F 1374.00 278.87 1187.72 1095.14 741 OSF1.W 8570.00 4593.66 MI RP F 1615.36 331.36 1394.10 1284.02 OSF1.w 9730.00 W12.15 WnPI-OSF 1661.15 342.13 1432.69 1319.02 7.30 OSF1.W 9950.00 5091,52 MinPI-0 F 1692.36 349.26 1459.14 1M3.09 7.29 OSF1.50 10100.00 5145.63 MInPI-0 F 1754.78 363.17 1512.n 1391.61 7.27 QSF1.50 10390.00 5250.26 MInPI.OSF 2044.73 441A7 1750.03 160325 6.96 OSF1.50 11890.00 5]8].80 MInPs0SF 2083.09 448.52 1783.70 1634.57 6.98 OSF1.W 12070.00 5856.34 MinPt-0SF 211523 456,44 1810.56 16587 8 OSIF W 12220.00 5910.46 Mxlot-0SF 2163.93 466.]2 1862.41 169].21 6.9 OSF1.50 12440.00 5989.83 Min%-0SF 226304 492.15 1939.56 1775,89 6.0 OSF1.50 12900.00 8155.78 MmP1-0SF 2311.90 502.05 1976.82 1809.85 &R.O5F1.50 13100.00 6227.93 MlnPt4 SF 2392.50 522.96 2043.48 1869.54 6.87 OSFL50 13460.00 6357181 MInPt43SF 2459,49 536.11 2100.37 1W1.3a 687 OSF1.50 13]]0.00 6469.65 MInPt-0 F 2547.66 564.53 2170.93 1W.14 878 OSF1.50 14190.00 6621.17 MInPI.OSF 2592.64 575.23 2208.78 2017.41 677 OSF1.50 14410.00 6700.54 M.NP F 2630.17 585.18 2239.67 2044. 375 OSF1.50 14590.00 6765.48 MInPt-0SF 26]6.3] 599.67 227622 20]8] 670 OSF1.50 14810.00 61144.84 MInRt ADP 2731.90 621.66 2317.06 2110.24 6.60 OSF1.50 15140.00 6983.90 Mlri`t- SF 2886.92 700.24 219972 1968.6 5.72 OSF1.50 16500.0 7089.14 MInP1s 2553.1] 7418 2058.25 1811.2 5.17 OSF1.50 17413.75 671325 Minft Haven MALI (Def Survey) Warning Alan 37.53 30.9 38.24 7.43 NIA MAS =9.17 (m) 0.00 0.00 C1CK=15m�15.0 Enler Alen 3730 30.09 not 7.20 NIA MAS =9.17nn) 3525 35.25 WRP 37.27 30.09 33.54 7.10 14.71 MAS -9.17(m) 500.00 499.99 Minft 37.35 30.0933.40 7.25 13.76 MAS=9.17 (m) 510.00 539,99 MINPT-O£OU 41,39 3009 36.60 11.2 11.84 MAS=9.17 (m) 730.00 729.73 Mlnl`[ - F 48.76 30.9 43.62 18.67 12.30 MAS =9.17(.) 650.00 849.10 CtCK=1SmN5.00 ExitAlart 106.25 30.09 97.55 76.1 14,15 MAS =9.17(m) 1500.00 1473.75 MinPt-0 F 695.33 186.47 570.59 508.88 5.82 OSF1.W 5070.00 3330.98 MinPt-0SF 1075.10 237.15 916.62 837. 883 CSF1.50 ]050.00 4045.30 MInPtOSF 1374.00 270.68 118].04 'Og523 742 0SF1.50 8570.00 4593.66 MInPrOSF 1615.38 331.11 1394.26 1284.27 7.34 OSF1.W 9730.00 5012.15 MinPt-0-SF 1661.15 341.8] 1432.86 1319.28 7.31 OSF1.50 9950.00 5091.52 MInPI-0SF 6chlumber9er Private Hansen 61 (Def Survey) H12 (Def Survey) 16W.36 349.00 1459.31 134336 7291 OSF1.W 10100.00 5145.0 MhR-0SF 1]54.]8 362.89 151248 1391,89 7.27 OSF1.0 10390.00 5250.26 Min%-0SF 2044.73 441.14 1750.26 160359 6.97 OSF1.0 11860-00 5]8].80 MhRASF 2083.09 446.18 1783.93 1634.91 6.99 OSF1.0 12070.00 5056.34 MhR-04iF 2115.23 456.09 1810.79 1659.14 6.97 OSF1.W 12220.00 5910.46 MInR-0SF 2163.93 4W.35 1052.0 1697.5 6.97 OSF1.0 12440.00 5989.83 MInR-0SF 2288.04 491.75 1939.82 177&28 6.93 OSF1.50 12900.00 6155.78 Min%-0SF 2311.90 5111.60 197].09 1810.25 6.93 OSF1.0 131W.W 6227.93 Min%-0SF 2392.50 522.53 2043.]] lW9.97 6.08 O8F1.W 13460.00 6357.81 Min%ASF 2459.49 537.66 2100.67 1921.82 6.07 OSF1.00 13]]090 6069.65 WRF 2547.66 564.5 217125 1983.81 6.79 OSF1.50 14190.00 6621.17 Mi.Mt F 2592.64 574.74 2209.10 2017. 6.7 OSFIOD 14410.0 6]00.54 Min%ASF 2630.1] 580.89 2240.00 2WSA 6.7 OSF1.5D 14590.00 6]65.48 MMR-0SF 2676.37 599.17 22]6.55 207].21 6.71 OSF1.50 10810.00 6844.84 MhR-0-ADP 2731.90 621.15 231742 2110.75 6.61 OSF1.5D 15140-00 69fi3.W Min%ASF 2660.08 690, 2208.14 1978.3 1 5. OSF1.50 16500.00 7069.14 MInPm 2606.86 WON 2146.07 1 916201 5.8 0SF1.50 17080.00 6855.17 MhNP F 2804.76 WON 2144.64 1915.10 5.67 OSF1.5D 17160.0 6U1.15 MInNt ADP 2 1.63 W9.51 21".61 1915.13 5.67 OSF1.50 1]1]0.00 6816.90 MINT EOU 2804.44 668.83 2140.88 1915.61 5.68 OSF1.50 17210.0 6799.89 MmPtAlCt 2611.12 60.93 2154.82 1927.19 573 OSF1.50 17413.75 671325 TD Wemin9 Alert 3770 30.09 36.41 7.61 N/A MAS =9.17(m) 0.00 0.00 cct-15m<15.W Enter Alert 3730 30.09 36.01 7.20 NIA MAS =9.17(m) 35.25 35.25 WRP 37.2] 30.09 33.54 7.16 1472 MAS =9.17 (ml 500.00 499.99 Min% 3].35 30.09 33.44 7.25 13.77 AS M=9.17 (m) 540.0 539.99 MINPT-0-EOU 41.39 30.09 36.80 11.29 tu5 MAS =9.17 (m) 730.0 729.73 MhPt- F 48.76 30.09 43.62 18.67 1231 MAS =9.17 (m) 850.0 849.10 cn,-1Sm>15.0 Exit Nert 1W.25 30.09 97.55 76.16 14.15 MAS =9.17 (m) 1500.00 1473.75 Ming-0SF 895.33 188.59 570.51 58.74 562 OSF1.50 5070.0 3330.98 MhNR F 1075.10 237.30 916.53 07.80 6.2 OSROO 7050.00 4045.30 Ming-0SF 1374.W 278.0 1187.70 1035.11 741 OSF1.50 857D.W 4593.0 MinRA-SF 1615.38 331.39 1394.0 1283.99 7.3 OSF1.50 9730.W 5012.15 MMNP SF 1W1.15 342.17 1432.0 131808 7.3 OSF1.0 990.0 501.52 WR-0SF 1692.36 349.30 1459.11 1343,06 72 OSF1.50 101W.W 5145.63 MinRASF 1]54.]8 383.21 1512.27 1391.57 T2 OSFtW 103W.W 52026 MMR -0 -SF 204433 441.52 1750.W 1603.20© OSFtw 1180.0 5787.0 MhRP SF 2085.22 449.03 1785.49 1636.19© OSFtW 12080.0 5859.95 Min%ASF 2415.23 4513.49 1810.52 1650.]4© OSF1.0 12220.W 5910.46 MhR-04iF 2163.93 40.77 1852.37 1897.16 6.9A 0SFIO0 12440.W 5909.83 MinkSF 2288.00 49220 1939.52 1775.83 6.92 OSF1.0 1290.W 6155.78 MhRASF 2311.90 02.11 1976.78 109.7 6,9A 0SF1.W 131W.W 8227.93 Mink-0SF 2392.50 52392 2043.44 18N 48 6.8 MF1.W 13080.0 635].81 MhPt-0SF 2459.0 538.17 21W.33 1921.31 6.87] OSF1.0 13770.W 6089.65 MmR-0SF 2547.66 Wil.59 2170.89 1963.07 6.78 OSF1.5O 14190.0 6821.17 MhRASF 2592.60 575.29 22033 201735 87 0SF1.W 14410.00 6700.54 MInRASF 2630.17 505.25 2239.62 204492 67 OSF1.0 14590.00 676548 MinR-0-SF 26]8.3] 599.74 2276.1 2Ws.3 6.70 OSF1.0 14810.00 6840.84 MinRA DP 273190 621.73 231704 2110171 6.0 OSF1.0 15140.W 6W3.W MhR-0SF 2666.92 70.32 2199.67J 196661 532 OSF1.0 16500.D 7W9.14 Mine 2554.11 738.22 2061.62 1815A9 5,19 OSF1.0 17413.75 671325 Mins P®ef 15805 3281 15676 12524 N/A MAS =1000Imt 0.00 000 Surtace 158.05 3201 1% 76F 125.24 N/A MAS =10.W(m) 30.0 30.0 Min% 10.05 32.81 156.76 125.24 185W8.W MAS =10.W (m) 35.25 35.25 WRP 150.97 32.81 156.18 126.16 104.97 MAS =10.W (m) 330.W 3W.W MINPTA-EOU 163.29 32.81 157.14 130.48 33.35 MAS=10.W (m) 100D.W 1036.37 Mlhl"-0EOU 182.77 32.81 172.80 1490 20.92 MAS =10.W(m) 100.014n.75 MmPt-0 F 20.70 32.81 193.85 1]0.0 23.82 MAS=10.0(m) 1670.W 1627.W MhNR F 209.88 32.81 199.]]71.0 23.64 MAS•10.0(m) 1710.W 1682.24 Ming-0SF 1249.80 W.W 1196.08 1189.]] 23.i OSF1.50 5700.W 3558.26 Mln%-0SF 1590.12 118.39 1510.82 14]9.]4 20.43 0SF1.60 7050.0 4045.30 MlnNA F 1850.05 107.04 1]]9.11 1743.8 28.2 OSF1.50 700.W 4373.59 MMR-04iF 1904.05 110.16 1830.23 1793.8 28.1 OSF1.50 8150.0 4442.14 MhNPt F 2049.90 118.32 1970.89 101.621 OSF1.50 W60.W 4626.13 Min%A4iF Schlumberger-Privrte 1112-104 (Def Survey) H12A01(Oaf Survey) 2140.35 123.36 205).)2 2016.97 26,25 OSF1.50 697000 4)3).97 MInPt4}SF 209).09 162.07 2568.67 253502 25A3 OSF1.50 10960.00 5483.11 MI.Rt F 2851.13 171.96 2138.12 W79.17 25.03 OSF1.50 11510.00 5654.32 MmRP F 3389.01 210.72 3226.15 3158.29 24.10 OSF1.M 1332000 637.30 MlnPt4 F 34)1.0) 217.07 3325.90 MM 00 24.10 OSF1.M 1370.00 8433.01 MmPI4 F UN.79 MIN 3543.43 M65,82 23.63 OSF1.M 14430.00 707.75 MInP143.SF 387021 24707 3705.12 3623.14 2360 OSF1.M 1502000 8920.61 MMMF 3927.82 25039 3760.05 376.03 23.59 OSF1.M 15220.00 092.17 Min!N-0 F 3991.51 25431 3821.32 3736.80 23.60 OSF1.M 15480.00 7068.40 Min!R SF 3995.74 254.99 3825.37 3740.75 2360 OSF1.M 15500.00 770.94 WR-OSF 408202 274.43 3878.6 377.5 22.29 OSF1.9 1657.00 '!089.14 Min 08 41.80 27.91 1 3082.61 3793.8 1 22.83 0SF1.W 16530.00 7081.54 MlnPta 4061.72 27.77 388288 3793.95 22,831O5F1.W 16540.00 70.50.91 WnPt-0SF 477,68 267.71 3882. 1 3793.95 2204 OSF1.W 16550.00 7056.22 Minmt p 4061.56 27. 388284 3)93.97 2265 OSF1.50 16570.00 705031 MINPT-0-EOU 406151 27.41 388291 3794.10 22.06 OSF1.W 16800.00 7"ZIM MMPlCtCt 4063.18 267,14 OSF1.W 1770.00 098431 MinPts 4064.]] 208.82 3686.57 3]9).96 2293 OSF1.50 169W.W 6893.44 MInPI-0-SF 4073.16 266.71 3895.03 3606,45 2299 OSF1W 17380.0 72760 MtnPtOSF 474.07 266.71 M9593 387.36 2299 OSF1.50 1741375 6713.25 TO 15805 32.81 15676 12524 NIA MAS =10.00(.) OW 0 D SULace 15005 32.81 156.76 12524 NIA MAS =10.00(m) 30.W 307 MmPta 156.05 3281 156 76 125.24 165668 00 MAS =10.00 (m) 35.25 35.25 W RP 156.97 32.81 15618 126.16 104.97 MAS=10.00 (m) 330.00 330.W MINPTOEOU 163.29 3281 17.14 130.48 33.35 MAS =10.W (m) t040.W 1038.37 MINPT-0EOU 162.77 32.81 172.80 149,% 20.92 MAS =10.W(m) 15W.W 1473.75 Mi.Rt F 20.70 32.81 10.05 17G.W 2362 MAS =10.00(.) 170.W 1627.W MI NP F 2W.W 32.81 199.77 177,07 2364 MAS =10.00(m) 17%W 1662.24 Min%-OSF 1249.84 80.W 1198.00 1169.)] 23.73 OSF1.W 700.00 3558.28 MinPt4 F 1596.12 118.39 1518.82 147914 20.43 O6F1.W 7M.00 4045.30 MinP143SF 1850.85 10204 1.49.11 114380 26.20 OSF1.M 7960.00 437359 MmPt-OSF 104.05 110.16 1630.23 17938 2 ,18 OSF1.M 8150.00 4442.14 MlnPt4}SF 2049.94 118.32 1970.69 193162 MM O9F1.M 6880.00 4626.13 MhPt- F 2140.35 12328 2057.72 W169] 2625 OSF1.M 870.00 4737,97 Minlat TSF 267.W 162.07 2568.7 2535.02 25.13 OSF1.W 10960.0 5463.11 MInPI-0 F 2851.13 171.90 2736.11 M79.17 25.03 OSF1.W 11510.0 WM12 Min!R-0 F 3369.01 210.]2 3226.15 3158.29 24.10 OSF1.W 13320.00 837.30 MinP147SF 3471.7 217.07 3325.98 325400 24.10 OSFI.W 1370.00 6433.57 MlnPt434F 369939 233.98 3543.43 346582 23.83 OSF1.M 1443000 707.75 MmPt-0 F 3870.21 24).7 370.12 M23.14 239 OSF1.M 1920.00 6920.61 Min!N-0 F 3927.82 29.79 3760.05 367682 2359 OSF1.M 152M.W 0992.9 WnPt4 F 3991.51 254.71 3821.32 3]36.)9 23. OSFI.W 154W.0 ID Al) MlnPt434F 3995.74 255.00 3825.36 3740.74 23.M OSF1.W 155W.W 770.94 MInPt-0SF 4082.02 274.44 38]8.8 3]875 22. OSF1.W 165W.W 7089.14 Mine 4081.7 267.911 220 OSF1.W 165M.W ]71.54 Mine 4W1.72 267.77 30820 3]93.9522. OSF1.50 16540.7 7050.91 MMM% F 471.66 267.71 308285 3793.94 22.84 OSF1.50 165W.W 705822 MhPt-0 P 4W1.56 267.5ML 308264 3793.97 229.5 OSF1.50 16570.W 4050.71 MINPTOEOU 471.51 267.41 388291 3794.10 22.68 OSF1.50 1660.7 7042.W MlnPt43 t 4W3A8 27.143604.]5 3793.04 22. OSF1.50 17]0.0 698431 Min% 4064.)] 28682 3666.7 377.90 22. OSF1.50 169W.W 6893.44 Mln!N4 F 4073.16 266.71 3695.02 380.4 22. OSF1.50 173W.W 72).9 MmPt43SF 474.07 266.71 3119593 380)36 22.93 OSF1.50 17413.75 6713.25 TO 15805 3281 15 76 125.24 NIA MAS =10.00(.) 000 0.00 SURane 156.05 3281 156.78 12524 NIA MAS =10.00(m) 3000 W.W MinPb 156.05 32.81 19.76 12524 185W&W MAS =10.00(m) 35.25 35.25 WRP 19.97 32.81 155.18 126.16 104.7 MAS=10.00 (m) 330.W 330.00 MINPTOEOU 163.29 32.81 151.14 130.40 33.35 MAS =10.00 (m) 1040.W 108.31 MINPT4 EOU 1W.77 3281 172.80 14996 20. MAS=10.00(m) 15W.W 1413.75 MNIR10 F 2W.70 32.81 193.85 1711. 23.62 MAS=10.00 (m) 170.W 1027.0 MInP143.9F 27.88 32.81 199.77 1717 23.7 MAS=10.0(m) 1710.W 1682.24 MInPt-0SF 1249.84 007 1196.08 1169] 23.73 OSF1.50 700.W 3558.26 MInPI-0 F 1596.12 118.39 15157 14]9.74 2043 CSF1.50 70M.W 4045.30 Minmt F SNlunn erger-Prirvate Paw Peas H12iO3 (OMSumW) H12 -106(1W Survey) 1850.85 107.04 1]]9.11 1743.80 25.a OSF1.50 7960.00 437389 MINI F 1904.05 110.16 1830.23 im.89 26.1 OSF1.50 8150.0 4442.14 MI.Nt F 2049.94 118.32 1970.89 1931.62 2522 OSF1.50 890.0 4628.13 MIn%-0SF 2140.35 123.30 2057.72 2016.97 262 OSF1.50 8970.0 473].9] MIn%43SF 207.09 162.07 2588.67 2M.02 25.13 OSF1.50 10980.00 5463.11 Min%-0SF 2&51.13 171.W 2736.11 2879.1 25.03 OSF1.50 11510.00 5654.32 Min%-0SF 3389.01 210.72 3228.15 3158. 24.10 08F1.50 13320.00 6307.30 Min%4JSF 3471.07 217.07 3325.98 3256.M 24.1 OSF1.50 13870.00 8433.57 MIn%-0SF 3898.]9 233.98 3543.43 U65.0 2383 OSF1.50 1"30.00 6707.75 MmR% F 3870.21 247.07 3705.12 N23.14 2366 OSF1.50 15020.0 6920.61 MInN4 F 3927.62 250]9 3780.05 W?B.0 23.5 OSF1.50 15220.0 6892.17 Min!N SF 3891.51 254.71 3821.32 3736. 23.60 OSF1.50 15480.00 7066.0 Min%40SF 3M.74 255.00 3825.36 3]40]4 23.60 OSFI.SD 15500.0 7070.94 MIn!N SF 4082.02 27404 3878.8 3787.59 222 OSFI.SD 16500.00 7089.14 Mins 4061.80 07911 22.83 OSFI.SD 18530.00 7081.54 Min%e 406172 07.77 3W2,W 3793.95 22.83 08F1.W 16540.0 7058.91 MIn%40SF 4061.66 28].]1 38828 3793.94 22.84 OSF1.W 190.0 7056.22 MIn!N4 DP 40619 287.5 3882.84 379397 22.05 MF1.W 165]0.0 7050.71 MINPT43SOU FF 4061.51 267.41 3682.91 3794.10 22.86 OSF1.W 16600.00 7042.6 WnRgn 4063.18 287.14 3804.] 3]96.04 22.89 OSF1.W 16770.00 004.71 MIn%e 40".]] 266.82 3666.5] 3]9198 2293 OSF1.W 1690.0 6093.44 Min%43SF 0603.16 266.71 3895.02 3006.45 22. OBF1.50 1739.0 6727.W MhRP F 4074.07 26E.71 3895.93 3807.36 22.99 OSF1.50 17413.75 6713.25 TO 15805 32.81 19.76 12524 NIA MAS =10.00(.) 0.00 000 3urta<e 158.05 32.81 1%16 12524 NIA MAS =1000(.) 30.00 30.00 MIn% 19.05 32.81 158.78 125.24 105668.00 MAS =10.0 gym) 3525 35.25 WRP 158.97 32.81 158.18 126.16 104.97 MAS =10.W (m) 330.00330,W MINK-O-EOU 183.29 32.81 157.1 13040 33.35 MAS =10.W (m) 1040.00 1036.37 MINK- EOU 182.77 3281 Im.W 149.M 20.92 MAS =10.W(m) 150.00 147175 Min!N3 F 203]0 32.81 10.65 171).W 23.62 MAS =10.00 (m) 1670.00 1627.00 MIn%-0SF 209.80 32.81 199.]] 177.07 23.64 mm=10.00 (m) 1710.00 1662.24 MIn%435F 1249.64 W.06 1196.08 1169.77 23.73 OSF1.W 570.00 3558.28 MIn%-0SF 150.12 118.39 1518.82 147974 2043 OSF1.W 790.00 4045.30 MIn!N SF 1850.65 10704 1779.11 1743.0 26.20 OSF1.W 790.00 4373.59 MIn%-0SF 19".05 110.16 1830.23 1793.8 26.18 OSF1.W 810.00 4"2.14 Min%-0SF 2049.96 118.32 1970.0 1931.62 26.22 OSF1.W 8660.0 4826.13 MIn%-0SF 2140.35 123.38 2057]2 016.97 26.25 OSF1.W W70.00 473].97 Min%-0SF 2897.0 162.07 259.8] 2535.02 2513 OSF1.W 1080.0 5463.11 MinR0.F 2851.13 171.6 2738.11 W79.17 25.03 OSF1.W 11510.00 054.32 Min% F 3389.01 210.72 3228.15 3158.2 24.10 WF1.W 13=.W60].30 MMR -0 -SF 3471.07 21].07 3325.98 U54.W 24.10 OSF1.W 13670.00 6433.57 Min%-0SF 3693.79 233.98 3543.43 3"5.02 23.63 OSF1.W 1"W.W 6]0].75 Min%-0SF 3870.21 247.07 3705.12 303.14 23.0 OSF1.W 15020.00 WW.61 Min% F 3927.62 20.79 3760.05 3876.82 23.0 09F1.W 152W.W 6992.17 MIn%ASF 3981.51 254.71 3821.32 37M.79 23.60 OSF1.W 1540.0 709A0 MIn%-0SF 3995.74 255.0 3825.35 3740.74 23.0 OSF1.W 1550.W 7070.94 Min%-0SF 402.02 274.4 3878. 378].5 2229 OSF1.W 1650.0 4089.14 Mins 401.W 2671111 3W2,81H 3793.8 22.83 OSF1.W 18530.0 701.54 Min% 401." 267.]] 3882.08 3793,9511 22.831 OSFI.W 16540.0 T09.91 Min% -0 -SF "61.66 267.71 3882,8511 3793.94 2284 OSF1.W 165W.W 7058.22 MinR- ADP 40158 267.59 3793.97 22.65 OSFI.W 165/0.0 70W.71 MINK-0-EOU 408151 267.41 3882.91 3794.10 22.W OSF1.W 18600.0 7N2.9 ml.R 9 t 403.18 267.14 3884.7 3]96.00 22.8 OSF1.50 16770.W 6964.71 Minft 404.77 285.82 3686.57 3n7.Nll 22,%l OSFI.W 16990.0 093." Wn%4SF "73.16 29.71 305.02 3 A!5 22.991 0SF1.W 1730.00 6]2].60 Min%-0SF 4074.07 266.71 3895.93 3W7.36 22% 0SF1.W 17413.75 6713.25 TD 15805 32.81 156.76 125.24 NIA MAS =10.0(.) 00 0.00 SuHe 158.05 32.81 156.76 125.24 NIA MAS =10.W(m) 300 30.00 MinP1e 158.0 32.81 156.76 125.24 18589.03 M -I(D.W(m) 35.25 35.25 WRP 158.97 32.81 156.16 128.16 104.97 MAS•10.0 (m) 330.W 330.00 MINPT-O-EOU 16129 32 .81 157.14 IWAS 33.35 MAS =10W(m) 1040.00 1038.37 MINK-O-EOU 18237 32.81 172.W149.98 20. MA8=10.00(.) 15W.W 14]3.]5 MInR{-SF 20370 32.01 193.85 1]0.90 .0 23=10.0(.) MAS 1870.0 10L00 Min% -0 -SF Schlumber8er-Priate Paes Peso 209.88 32.81 10.]] 177.07 2384 MA6=1000(.) 1710.00 1662.24 Mft,N 33F 1519.84 BOAR 1196.06 1169.]] 23.73 OSF1.W 5700.00 3558.26 MmR-0SF 1598.12 118.39 1518.82 14n.74 20.43 OSF1.W 7050.0 4045.30 MMR4 F 1850.85 107.04 1]]9.11 1743.80 2620 OSF1.60 7%0,W 4373.59 MInPI-OSF 1904.05 110.16 1830.23 1793.89 26.18 OSF1.W 8150.00 4442.14 MmR-0-SF 204994 11632 1970.69 1931.62 2622 OSF1.50 8860.0 4626.13 MinR-0SF 2140.35 123.38 2057.72 2016.97 2625 OSF1.W 8970.00 4737.97 MmR4-SF 2697.09 162.07 2588.67 25W.02 OSF1.50 10980.00 5483.11 MInR43SF 2851.13 171.96 2738.12 28]9.1] 25.03 OSF1.50 11510.00 5654.32 Min%-0SF 3369.01 210]2 3228.15 3168.29 OSF1.50 13320.00 6307.30 MmR-OSF 371.07 217.07 3325.98 325400 OSF1.W 13WD.00 6433.57 Mln%4 F 36W.79 233.98 31W.43 3465.82 23.83 O5F1.W 14430.00 6]0].75 Minfn[ SF 387.21 27.07 375.12 W23.14 2360 OSFI.W 15020.00 020.61 MMR -0 F 307.62 250.79 370.05 36]683 23.5 QSF1.W 15220.00 602.17 MmR-0 F 3991.51 254.]1 3821.32 3]3660 23.60 OSF1.W 1540.0 706.40 MhPt- SF 3M.74 254.99 3825.37 374075 23. O3F1.W 15500.00 7070.94 Ming-0SF 002.02 2]4.43 38756 3]8]59 22,22 QF1.W 16500.W 7069.14 Min% 40LW 287.91 3882.81 3]93.89 22.83 OSF1.W 16530.0 7061.54 Min% 401.72 267.77 3682.88 3]93 .9522.8 OSF1.W 16540.0 700.91 Min!N 3SF 40186 26].]1 3882. 3793.95 22.84 OSF1.W 16550.0 7056.22 MMR4 DP _ 401.58 M7.5jL__W82.8A 3793.97 22.85 OSF1.W 16570.0 7083.71 MINPT-0-EOU 406151 287.41 3882.91 374.10 22.86 OSF1.W 100.0 70420 Min%,CICI 403.18 26].143884.7 3796.0 22. OSF1.W 16770.W 8904.]1 M,,% 40477 286.82 3886.57 3n79fi 22. OSF1.W 16990.0 6893.44 MInPI-OSF 4073.16 288.71 3895.03 3806.45 22. OSF1.W 173W.W 8727.60 MInR-0-SF 4074.07 288.71 3895.0 3W7.36 22.W OSF1.W 17413.75 6713.25 TD H12-LM(Def Survey) Pass 158.05 32.81 15676 12524 NIA MAS=1000(m) 000 0.00 SURace 15605 32.81 158.76 12524 WA MAS =tOW(m) 30.00 30.00 MinPts 158.05 32.81 156.76 125.24 185868.0 MAS =10.0 (m) 35.25 35.25 WRP 158.97 32.01 156.18 126.16 104.97 MAS =ID.W (m) 330.0 330.00 MINI)-0-EOU 163.29 32.811 130.48 33.35 MAS =t0.W(m) 1040.0 1038.37 MINPT-0-EOU 182.77 32.81 172.W 149.96 20.W MAS =10.W(m) 150.0 14]3.]5 MMIN 6F W3.70 32.81 193.85 17O.W 2362 MAS =10.00 (m) 1670.0 1627.0 MMR43 F 209.86 32.81 199.77 177.07 2364 MAS =10.00 (ml 1710.0 166224 MInN1 F 1249.84 W.0 1196.06 110.]] 2373 OSFL50 5700.0 3558.28 MinR-0 F 1590.12 118.39 1518.82 179.74 2043 OSF1.50 7050.W 400.5.30 Min43SF 18W.85 107.04 17]9.11 1743.0 2626 OSF1.50 780.0 43n.W MInR-"F 1904.05 110.16 100.23 170.89 2618 OSF1.50 6150.0 4442.14 Minm�SF 2(149.94 118.32 1970.69 lMl.W 26.22 OSF1.50 BW0.0 4626.13 MInN1 F 2140.35 123.38 20].]2 2016.97 2625 OSF1.50 W70.W 4]37.9] MinN SF 2697.09 162.07 250.67 2M.02 25.13 OSF1.50 10980.0 54W.11 MinR-0 F 201.13 171.% 2736.11 267917 25.03 OSF1.50 11510.W 5654.32 MinNO F _ 3389.01 210.72 3228.15 3168,29 24.1 OSF1.50 13320.0 6307.30 MInR43SF 3471.07 217.07 3325.98 3254. 24.1 OSF1.50 13WO.W 6433.5] MIOR-0 F 360.]9 233.0 3543.43 341]5 82 23.1;3 OSF1.W 14430.0 6707.75 MmR4 F 387.21 247.07 375.12 3823.1 23.6 OSF1.W 15020.0 020.61 MIn!N-0 F 307.62 250.79 37W.05 3676.0 23.5 OSFI.W 15220.0 6992.17 MMR -0 F 301.51 25411 3821.32 3735. 23.60 OSF1.W 154W.0 706.40 MInPIOSF 3995.74 255.00 3825.36 374074 2360 O5F1.W 1550.0 ]0]0.94 MInln( SF 402.02 274A4 38]569 318]. 22.29 O3F1.W 1650.0 709.14 Mina 401.0 287.91 302.01 3793.8 22.03 OSF1.W 1650.0 701.50 Mina 4061.72 267.77 3882.88 37939 2283 QSF1.W 16510.00 7058.91 MhR-0 F 401.86 267.71 38W.85 3]9394 22.04 OSF1.W 16550.0 7056.22 MinR-0-ADP 401.56 26].5 3882.84 379397 2285 OSF1.W 18570.0 ]050.]1 MINPT-0 OU 401.51 07.41 3882.91 3794.10 22.86 O5F1.50 16WO.W 70420 MlnPl431C4 403.18 28].14 3884.]5 3796.04 22.8 OSF1.W 16770.00 N8471 Min% 4064.]] 20.82 380.57 379)98 22.93 O5F1.W 18990.0 6093.4 MhR-0 F 40n.16 266.]1 305.0 300A5 220 MF1.W 17283.0 6727.W MIn"4 F 4074.07 28871 3895.93 380]36 22.99 OSF1.W 1741375 6713.25 TD 1112.L05(Def Survey) Pace 158.05 3281 156.76 12524 NIA MAS =10001m) 0.00 000 Sutlace 15805 32.81 1W.76 125.24 NIA MAS =10.W 1m) 30.00 300 Min%s 19.05 32.81 19.76 125.24 18580.07 MAS •10.W(m) 3525 35.25 WRP 158.97 32.81 19.18 126.16 104.97 MAS =10.00 (m) 330.0 330.W MINPT4 OU SCNlumbeMer-Private H14PB1(W Survey) 163.29 32.81 157.1 130.48 33.35 MAS =t0.W (m) IM.00 1036.37 MINnT -EOU 182.]] 32.81 172.00 149M 20.92 MAS: t0.W (m) 1500.00 14]3.]5 M RnP F 203.70 32.81 193.05 170. 23.62 MAS =10.001m) 1670.00 1627.00 MmRPt F 209.68 32.81 199.77 177.0 23.84 MAS = low (m) 1710.00 1862.24 MMRF 1249.84 00.06 1198.09 110.]] 23.73 OSF1.W 5700.00 3550.26 MhRPt F 1598.12 118.39 1518.82 14]9.]4 20.63 OSF1.W 7050.00 4045.30 Mine[ -0 F 1850.65 107.04 1779.11 1743.80 28.20 OSF1.W 7980.00 4373.59 MlnRtg F 1904A5 110.16 1830.23 M3.89 26.18 OSF1.0 0150.00 4442.14 Mink -0 F 2049.94 118.32 1970.69 1931.63 26.22 OSF1.W 8660.00 46M.13 MlnRt -SF 2140.35 123.37 2057.72 2016.98 26.25 OSF1.W 8970.00 4737.97 MInRt-0 F 2697.09 182.07 2588.67 2535.03 25.13 OSF1.W 10980.00 5163.11 M RnP F 2851.13 171.95 2736.12 2679.18 25.03 OSF1.W 11510.00 5854.32 MMRF 3369.01 210.71 3228.15 3158.29 24.10 OSF1.W 13320.00 6307.30 Mine[ -0 F 3471.07 217.07 3325.98 UKOO 24.10 OSF1.W 13870.00 8433.57 MhRPt F 3699.]9 233.97 3543.44 3465.82 23.83 OSF1.W 14430.00 6]07.]5 MinRt -SF 3870.21 2.47.07 3705.12 3623.14 23.0 MF1.W 15020.00 8920.81 MhRPt F 3927.62 2W.79 3760.05 36]6.83 23.59 OSF1.W 15220.0 092.17 MInRt -SF 3991.51 254.71 3821.33 373880 23.60 OSF1.W 15467.0 7067.40 WnRt -SF 3995.74 254.99 3025.37 3]40.]5 23.60 OSF1.W 15500.0 7070.94 MhRP F 4672.02 274.43 38]8]0 3]6].60 22.29 OSF1.67 1650.W ]069.14 Mine 4081 w 267.90 3082.02 3]93.8 22.83 OSF1.W 16530.67 7061.54 MInPN 4061.72 26].]6 3882.88 3793.WL____22.8j3j OSF1.W 16510.0 7058.91 MinRtA F 406166 28].]1 38K,Wl 3]93. 1 22.84 OSF1.W 16567.00 7067.22 MinPt-0-AOP 4061.56 26].5 3882.04 3]93.98 22.85 OSF1.W 16570.00 ]050.]1 MINK.EOU 40fi1.51 26]40 388291 3794 11 22.88 OSF1.W 1860.00 7042.0 MinMIC 4063.18 287.13 3884.76 3796.04 22.0 OSF1.67 16770.00 6904.71 MInft 4064.77 20.81 3886.57 3797 %H 22.93 OSF1.W 1fi .00 6893.44 MhRP -SF 4073.16 266.]0 3895.03 3006A 22.99 OSF1.W 17360.00 6727.60 MhRP F 4074.07 MID 38.45.94 3007.36 22.99 OSF1.W 1]413.]5 6713.25 m P.. 198.09 32.81 196.81 16529 NIA MAS =MOO Im) 000 000 Surtace 198.09 32,81 196.81 165.2 NIA MAS =100)m) 30.00 3000 Mi ft 198.09 32.81 1W.81 165.29 152204.12 MAS =IOM (m) W25 35.25 WRP 198.32 32.81 196. 165.51 529.79 MAS=10.0Im) 120.0 120.0 MINPT43-EOU 192.5] 3281 18].67 159.]8 4669 MAS =10.00Im) 90.W 957.84 MMP16 192.82 32,811 MMJ 160.01 41.26 MAS=1000(m) 10".00 1026.58 MINPT-O-EOU 212.94 32.81 202.73 180.13 23.73 AMS -1000Im) 150.0 1473.75 MinR1 F 3W.40 32.81 333.13 317.0 21.64 MAS =IOM (m) 244.W 2222.37 MhRP F 357." 32.81 339.85 324.84 21.84 MAS =10.0 )m) 2467.0 2242.88 MinRt F M.W 57.07 82182 M3.21 23.10 OSF1.W 4070.00 27D.21 MIMRF 120.85 73.15 1160.70 11361 25.17 OSF1.W 5120.00 3349.02 MIOPI-0SF 1861.60 117.13 170.42 1744.75 24.06 OSF1.W 7067.00 4045." MI R4D4F 2801.11 12.4.10 2518.67 2477,01 31.71 OSF1.W 9"0.00 4857.02 MhRP F -� 2874.57 127.48 250.20 2W 08 31.14 OSF1.W 9520.00 4936.39 Mlnk1 F 2800.08 1MA0 2710.91 2676.48 31.51 MF1.W 9900.00 W73AB WnR4-0 F 2928.91 141A0 2834.27 2787.51 31.31 OSF1.W 10267.00 5214.18 MI RP F 3072.83 148.70 29!3.32 292413 31.22 OSF1.W 10MOO 5369.31 MhRP F 3509." 174.96 3392.42 3334,48 W27 OSF1.67 120".0 5041.91 MhRP F 3587.34 179.00 3467.63 340834 ".24 OSF1.67 12270.0 5928.W MhRP F 3846.42 192.0 3717.42 W53 49 OSF1.67 130W.W 8202.0 MmRP F 4182.87 214.83 4039.27 39680429.35 OSF1.W 14040.W 6W7 MMRSF 4390.34 22].334M.40 41710 2916 OSF1.W 146".W 6801% WRF 440.61 232.25 433840 426136 29.16 OSFIM 14970.0 002.57 MMRF 460.07 250.14 449].99 "14.94 28.08 OSF1.W 1%10.W 7073.15 Mlnft 4M.45 250.22 4499.31 "1fi2 28.08 OSF1.50 15520.67 ]0]5.31 MI RP F 4704.24 254.04 4534.55 445020 27.88 OSF1.50 16190.W ]120.88 MInR4-ADP 4704.67 254.3] 4534.0 4450.20 2784 OSF1.5D 18230.W 7116.90 MbRP ADP 4707.55 257.2] 453570 "50.2] 27.55 OSF1.50 18670." 7069.14 Minft 470.61 250.65 4541.18 4457,96 28.28 OSF1.50 16750.W 6992.18 MlnPt43.SF 4700.W 250.63 4541.15 4457.93 28.29 OSF1.50 1676D." 8966.47 MinR4-ADP 470849 250.5 j§Ll 13JI 445794 28.29 OSF1.50 167W.W 6900.67 MINPT4 EOU 4]0845 2W.42 4541.17 449.03 28.31 OSF1.50 18010.0 690.18 WnRtC t 4713.99 249.69 454].20446.4 28.4 OSF1.5D 17120.0 6838.16 Min%434F 4]1].54 20.49 456721 "8].04 28.35 OSF1.50 1724D.W 6787.13 MInPt4 P 4720.21 251.23 4552.39 4468.98 282 OSF1.50 17M.W 6723.35 MMRF 4720.60 251." 4552.80 4469.40 28.29 OSF1.50 1]413.]5 6713.25 TO Schlumberger-PNe H14(Def Survey) H14PB2(Det Survey) H14PB3(Oaf Survey) Paes 198.09 3281 1%81 16529 NIA MAS =10.00Im) 0.00 0.00 Surface 198.0 32.81 1%.81 1652 NIA MAS=10001m) 30.00 3000 Wi 199.09 32.81 19681 165.29 152204.12 MAS =10.00 (m) M25 3525 WRP 198,32 32.8119666 165.51 529.79 MAS =10.00 (m) 120.00 120.00 MINPT-0 OU 192.5] 32.81 187,09 159.761 45.69 MAS =10.00 (m) 960.00 957.84 WN. 192.82 32.811 1W.891 160.01 4127 MAS =IOM (m) 1030.00 1028.58 MINPT- OU 212,94 32.81 202.73 180.13 23.73 MAS = low (m) 1500.00 14]3.]5 MhRA F 350.40 32.81 333.13 317.59 21.84 MAS =10.00 (m) 2420.00 2222.37 MInR�04F 357.44 32.81 339.85 324.84 21.85 MAS =10.00 (m) 2450.00 2242.08 MMR -O -SF WO.30 57.04 021,64 803.26 23.11 OSF1.W 4070.00 2970.21 MhROSF 1209.85 73.12 1160]2 1136.73 25.18 OSFI.W 5120.00 3349.02 MI M D1 F 1861.88 117.09 1783.45 17"J9 24,07 0SFIM 7050.00 4045.30 WnRt -SF 2801.11 124.02 2518.05 24]].09 3174 OSF1.50 9300.00 48.9.02 MhR434F 26]4.5] 127.40 2509.26 254].1] 31.]6 OSF1.50 9520.00 4936.39 MhROSF 2800.88 134.31 2]10.9] 2866.58 31.53 OSF1.50 9900.00 5073.48 WMn F 2928.91 141.30 2834.34 2]8].61 3133 OSF1.50 10290.0 5214.18 MMNR F 3072.83 148.60 2973.39 2824.23 3124 OSF1.50 10720.00 5369.31 MmR OSF 35W.d0 174.03 3392.51 3334.61 30.3 OSF1.50 12030.05&1.91 WMF 358234 178.86 3 7.72 3408.4] 3027 OSF1.60 1227000 5928.50 MI.R1 F 3846.42 192.'/9 3]1].52 3853.63 30.10 OSF1.50 13030.062M.68 MMR4 SF 4182.87 214.67 4039.38 3968.20 293] OSF1.50 1404D.%6567.05 MI MR SF 4390.34 22].16 4248.52 417117 29.18 OSF1.50 14690.00 6801.55 MlnRl F 4493.61 232.08 4338.52 4261.54 29.18 OSF1.50 14970.00 6902.57 MmNR F 4643.55 243.81 4480.69 4399.74 2868 OSF1.W 15420.00 ]051.]] MmR434F 4]91.82246M 4626.65 454486 29.22 O.SF1.W 16120.0 ]125.]3 MmR-0 F 4837.36 2W.2 4666.19 4581.10L 28.42 OSF1.W 16400.00 7091.19 Minns 4841.91 257.00 4670.25 458491 28.36 MF1.W 16500.00 7089.14 WR -0 F 4874.13 251.1 4706.36 4622 9] 29.22 OSF1.W 170M.OD MOM MinPN 48]6.5] 252.26 4]08.0] 4624.31 19.11 OSF1.W 1]100.0 6029.% MMR4 DP 4876.W 252.34 4]08.11 462432 291 OSF1.W 17100.00 882501 MmR-O-SF 4883.32 251.54 4715.30 463179 29.23 OSFI.W 1]413.]5 671325 TO Pasty 198.09 3281 196.81 16529 WA MAS =1000 (m) 0.00 000 Surtaw 198. 32.81 196.81 165.2 WA MAS = IOW Im) 30.00 30.00 mmn 198.9 32.81 198.81 165.29 152204.12 MAS =IO.W (m) 35.25 3525 WRP 198.32 32.81 196. 165.51 529]9 MAS =10.00 (m) 120.W MOO MINPTO-EOU 192.5] 32.81 18].09 159]6 45,69 MAS = MOO lm) 980.00 957.84 Min% 192.82 32.811 1U.Ni 160.01 41.27 MA6=10.W (m) 1030.W 109.58 MINT EOU 212.91 32.81 202]3 180.13 23.73 MAB =10.00 (m) 15W.W 14]3.]5 MlnM D-0 F 350.40 32.81 333.13 317.% 21.84 MAS=10.00 (m) 2420.0 2222.37 MMMO-SF 357,9 32.81 339.85 32464 21,F5 MAS =1D.00(m) 2450.00 2242.88 MMMSF BW.30 57.04 821.84 803.25 2311 OSF1.50 OWO.W 29]0.21 MhMR F IM9.85 73.13 11WJ2 1136.7 25,18 OSF1.5O 512D.W 3349.02 Mi.Mt SF 1861.88 117.10 1783.4 1744. 24.0] OSF1.5D 7050.W 4045.30 MMN.OSF 2W1.11 124.03 2518.04 2477.M 31.]3 0571.50 9300.00 4857.02 MmR4 F 28]4.5] 127.41 258925 2547.1 3176 OSF1.W 959.00 4936.39 MMR -0 F 2800.88 13432 2710.96 2666.M 31.53 OSF1.W 9900.0 5073.48 MMR434F 2928.91 141M 2834.32 2787.60 31.33 OBF1.M 10200.0 5214.18 MMR434F 30]2.83 148.61 2973.38 292421 3124 OSF1.50 107M.00 5369.31 MMMF 3 50944 1]485 3392.50 3334.5 302 OSF1.W 12030.00 5841.91 MInR-0 F 39].34 178.89 348].]0 M08.45 OSF1.50 122]0.00 5928.00 MIOR434F 3846.42 192.81 3]1].50 365381 30.0 OSF1.50 13030.00 6202.88 MmR-0 F 4182.87 214.89 4MS36 3%8.17 OSF1.50 14040.00 6567.05 MlnR0 F 439834 227.19 4246.50 4171.14 29.1 OSF1.50 14690.00 6801.55 MInR-0 F 4493.61 232.11 4330.% 428151 M.R O.SF1.50 149]0.00 6M2.57 MMR -0 F 4593.28 258.8449.4 4334. 974 0.4F1.W 18500.0 7069.14 MInRe 4580.83 250.48 4421 9338. 27.59 O3F1.W 16]90.00 %77.04 MmR43-ADP 45W.W 2WA 4421.4] 4338.35 27.60 OSF1.W 16800.00 M73.13 MINPT-O{OU 4588.] 2033 4421.W 4338.42 27.61 OSF1.W 16830.00 W61.13 MmRCI 4597.24 251.00 4429.01 4345.44 27, OSF1.W 171W.00 6812.65 Ming -04F 459140 2WA5 4425.94 434225 27.44 OSF1.W 17390.00 6723.35 MlnR-O.SF 4594.11 25211 4425. 4342.00 27A5 OSF150 17413.75 671125 MIn Peas Schlumberger -Private H16A-LO?(P3)(Dai PWn) H16(Def Survey) 198.09 3201 196.81 165.29 WA MAS=10.00(.) ON 0.00 Surface 198. 32.81 1m.81 1652 WA MAS=10.00 (m) 30.00 30.00 mlti N 19809 32.81 19681 165.29 152204.12 MAS =10.00(.) 35.25 35.25 WRP 19832 32.81 196 165.51 529.79 MAS =10.W(m) 120.00 120.00 MINPT-O-EOU 192.57 32.81 187NI 159.76 45.69 MAS=10.00 (m) 960.00 95].84 Mlnhle 192.82 K.811 imml 180.01 41.27 MAS=10.00 (m) 1030.00 1026.58 MINPT-O-EOU 212.94 32.81 202.73 180.13 23. MA3=1O.W (m) 1500.00 14]3.]5 MhPt-6SF 380.40 32.81 333.13 317.59 21.84 MAS=10.00 (m) 2420.00 2222.37 MInPt-0-SF 357.44 32.81 339.85 324.64 21.85 2450.00 2242.88 MinRl F 860.30 57.04 821.84 803.25 23.11 OSF1.50 40]0.00 2970.21 mjrim-0SF 1209.85 73.13 1160.72 1138.72 25.18 OSF1.50 5120.00 3349.02 WnRt-0 F 180t80 117.10 1783.44 V".79 24.0 OSFt50 7050.00 4045.30 MInRt 4F 2601.11 124.03 2518.04 2477.08 31.73 OSF1.50 9300.00 4857.02 MinPt-0SF 2674.57 127.41 2589.25 2547.1 31.76 OSFi.W 9520.00 4936.39 MInR4 F 280088 134.32 2710.96 2656.% 31.53 OSF1.50 992.2 W73.48 MhRPt F 2928.91 141.32 2834.32 278T59 31.33 OSF150 10290.00 5214,18 MhPt-0SF 3072.83 148.62 2973.37 2924.21 31.24 OSF1.50 10720.00 5369.31 M RnP F 3509.1 174.86 $392.49 nU.59 30, OSF1.50 12030.00 5041.91 WnM-OSF 3587.34 178.89 3467.70 3408.4 3026 OSF1.50 12270.00 5928.50 MhRPt F 3 6.42 192.02 3717.50 365160 30.09 O9F1.W 13030.00 8202.68 MInkt-0 F 4182.87 214.70 4039.36 3966.17 29.3> OSF1.W 14040.00 8567.05 MhRP SF 4398.34 227.20 4246.49 4171.14 29.18 OSF150 14690.0 8801.55 MhPI-PSF 4493.61 232.11 4338.50 4261.50 29.1] OSF1.W 14970.00 6902.57 WnR-0-SF 4663.51 246]0 4498.66 4416.80 284] OSF1.50 15500.00 7070.94 MmPt-0-SF 4714.07 246.28 4549.56 446779 28. OSF1.W 15740.00 7112.04 WnR4-0 F 4722.71 24].44 4557.42 44]52] 28.7 OSFi.W 15790.00 7117AS MMPI -0 -SF 4745.48 251.36 49z5 a49a.t2 2842 OSF1.50 15960.00 7127.67 MInPN 4761.46 25].]3 4589.31 4503.13 2].81 OSF1.50 16507.00 7069.14 Minfhs 4761.34 2WA64594.@ 451086 28.62 OSF1.W 16530.007W1.5,4 MION1 ADP 4761.29 260.42 a5940t 4510.87 2863 OSF1.60 16560.00 7056.22 MINPT-0-EOU 4761.2 260.32 459405 451093 2864 OSFLW 16580.00 704].8] MInmI t 4]81.38 250.46 4614.05 4530.89 2B.I4 OSF150 1]280.00 07]0.13 mints 478459 250.40 461742 4534.28 2877 OSF150 1741375 6713.25 TO 238.13 3181 23884 205.32 WA MAS=ION(.) 0.07 0.00 Sudace 238.13 32.81 236.84 20542 144748.39 MAS =10.W(m) 35.25 3515 WRP 237.31 32.81 234.95 204.50 219.92 MAS =10.N(m) 220.00 220.00 MInPN 23135 32.81 234.88 20/.54 199.69 MAS=10.W(m) 240.00 240.W MINPT-0-EOU 2650] 32.81 258. 232.26 53.52 MAS=10.W(.) 980.00 95].84 MWft 26509 32.81 258. 232.29 52.97 MA3=10.07 (m) 970.00 987.89 MINPT-0-EOU 30363 32.81 293.23 270.82 33.16 MAS =10.W(m) 15W.N 1473.75 MmPt-0SF 749.15 61.67 707.68 687.48 18.53 OSFt50 4320.00 3080AD MinPt-0SF 812.30 66.32 ]6].71 745.98 18.66 OSF1.50 MON 31]9.48 MmRP SF 1331.96 119.63 1251.85 121235 168 OSF1.50 7050.00 4045.30 MhPt-0-SF 1429.87 NIS 1362.99 1307.11 21.]3 OSFt60 7530.00 4218.46 Mr,Rt-0 F 1484.62 072.16 1396.14 1382.47 21.] OSF1.50 ]]10.00 4283.40 WPI -0 -SF 1526.57 108.30 1466.32 1420.27 21 ] OSFt50 8020.00 439524 WnPI-0SF 1565.24 109.131492.11 1456.11 21]2 OSFt50 8210.00 4463.]9 MmPt-0-SF 1592.05 110.92 151].73 1481.13 21.]4 OSFLW 8340.00 4510.69 Minh-0SF 2833.81 235.302678.56 2590.51 18.1 OSF1.0 14650.00 678].12 MInPt-0SF 3047.16 286.82 2055. 2707.35 15.99 OSF1.W 15470.00 7064.07 MINPT-0-EOU 3049.57 289.49 2856.25 2707.0 158 OSF1.60 15480.00 7068.40 mmft 31]9.35 302.]9 2977.16 2876.56 1580 OSF1.50 16500.00 7069.14 MInRt F 3206.85 304.00 3073.81 2902.] 15.8] OSF1.60 1]010.07 6884.94 MInPt-0SF 3210.83 291.30 301830 2919.5 1050 OSF150 1]080.00 8855.1] MhRPt F 321TA8 293.6 )021.03 29234 16.4 OSF1.50 17190.00 fi800.40 MInP6 3221]9 293.38 3025.87 292840 16.52 OSF1.50 1]413.]5 6713.25 TO 238.13 32.81 236.84 205.32 N/A MAS =1000(.) 0.00 0.00 3udace 238.13 32.81 236.84 205.32 144748.39 MAS =1000 (m) 35.25 3525 WRP 23>.31 32.81 234.95 204.50 219.92 MAS =10.N (m) 220.00 220.07 mwr 32.81 234.86 193.69 MAS=10.N (m) 240.00 240.00 MINK-0-EOU 2850 32.81 258. 23216 53.52 MAS=%W(m) MN 957.84 MinPN 285.09 32.81 258. 13229 52.97 MAS=TO.N(m) MOO 96769 MINPT-0-EOU 303.63 32.81 293.23 1]0.82 33.1 MAS=10.00(.) 152.00 14]3.]5 WRSF Scblumberpe Private Pass Schlumber8er-FUyate 749.15 61.72 ]0].63 607.4 18.52 OSF1.W 4320.00 3060.40 MmPt-0SF 012.30 66.3] ]6].60 145. 18.65 OSF1.W 4650.00 31]9.46 MmPt-0-SF 1331.98 119.70 1251.81 1212.29 16.84 OSF1.W 1050.00 4045.30 WnPt-0-SF 1429.87 99.00 1362.93 1330.02 21.71 O.SF1.W ]530.00 4218.46 MlnPt-0SF 1464.62 102.28 1398.08 1362.37 21.]1 OSF1.W ]]10.00 4283AO Mlnkt F 1526.9 nW.40 145516 1420.18 21.]4 OSFt50 8020.00 4395.24 Minh-0SF 1565.24 109.24 1492.04 1456.00 21.7 OSF1.50 8210.0 4463.]9 MInPt-0SF 1592.05 111.03 1517.65 1481.02 24 ]1 OSF1.50 8340.00 4510.69 Min%-0SF 2906.25 246.72 2741.44 2859.53 17.73 OSF1.50 15010,0 6917,00 MMPI-0SF 3095.46 255.1] 2925.02 2840.29 18.26 OSF1.50 16500.00 1089.14 Mii,R-0SF 3100.9 250. 2941.62 2058.59 1371 OSF1.50 18000.00 8913.13 Minft 3109.02 250, 2941. 2858.39 18.67 OSF1.50 1607000 69q.47 Minft 3120.52 24932 2954.04 291.30 1865 OSFt50 17260.0 677883 MInP1-0-SF 3128.06 249.05 2961.]0 299.01 1091 OSF1.50 1]413]5 671325 TD H 16A -L02 (P3) (Def Plan) Pay ---" 238.13 32.81 23684 205.32 N/A MAS =10.00(m) 000 000 Surface 236.13 3281 23604 205.32 144]48.39 MAS =10.00Im) 35.25 35.25 WNP 23].31 3281 234.95 204.50 219.92 MAS =1000 (mI 22000 220.0 Mir -R. 23]35 32.81 230.88 20d64 199.69 MAS=10.00 (m) 240.00 240.0 MINPT-0 OU ' 265.0] 32.81 250.85 232.28 53.52 MAS =10.00 (m) 960.0 95].04 Minft 26509 32.81 256.83 232.29 9.9] MAS=10.00 (m) 9]0.00 96].69 MINPT-0£OU 303.63 32.81 293.23 270.82 33.1 MAS =1O00(m) 1500.00 1473.75 MhP1-0SF 749.15 61.67 ]0].86 687.48 18,5 O F1.W 4320.00 3080.40 MlnR-"F 812.30 0.32 767.71 745A 18.0 OSF1.W 4650.00 3179.46 Mlrv!R SF 1331.98 119.83 1251.85 1212,M 16.85 OSF1.W 1050.00 4045.30 MI RP F 1429.87 99.75 1362.99 1330.11 21.7 OSF1.W 7530.00 421BAS Min% -0 -SF 1484.62 102.16 1396.14 1382.41 21.T OSF1.W 7110.00 4283.40 MhPI-0SF 1526.57 106.30 1455.32 1420.27 21.7 OSFLW 8020.00 439524 MMR -0 -SF 1585.24 109.13 1492.11 14WA1 21,T OSFt50 8210.00 p0.79 Ming-0SF 1592.05 110.92 1517.73 1481.13 21.74 OSFLW 8340.00 4510.69 MinN-"F 2833.81 235.30 2876,58 2596.51 18.1 OSF1.50 14850.04 6787.12 Mfi,N SF 3047.16 2W.821 M55.63 2760.35 1599 OSF1.W 15470.0 7064.07 MINPT-0-EOU 3049.9 289.9 2858.2 27W. 15.8 OSF1.50 15400.070M.0 Minft 3179.35 302.19 2917.18 296.58 15.04 OSF1.50 165W.0 7069.14 MMNP F 3206.85 304.6 W0381 29021 1587 OSF1.50 17010.W 6884.94 MmPI413F 3210.83 291.30 3016.30 2919.5 F-16,58 OSF1.50 17080,W 6855.17 MMNI F 3217.08 293.601 V21.021 2W3.AI 16.49 OSF1.50 171W.W 6804.40 lal 3221 79 293.38 3025.87 2928.60 1652 OSF1.50 17413.75 671325 TD H16PBI(Def Survey) Dasa 238.13 3281 236.64 205.32 NIA MAS =ID.W (m) OW 0.0 SUUace 238.13 32.61 235.84 205.32 144740.39 MAS =10.W (m) 35.25 35.25 WBP 231.31 219.92 32.81 234.95P232.2% MAS=10.0 (m) 2211.W 220.W Minft 237.35 32.81 234. 199.89 MAS=10.W(m) 2W.W 240,W MINPT-0EOU ' 285.0] 32.81 2558 53.52 MAS =10.W (m) 9W.00 957.84 Minft 20.W 32.81 258.83 52.97 MAS=10.0 (m) 970.00 99.69 MINPT-0 OU 30.63 32.81 293.23 270.W 33.16 MAS =10.W(m) 1040.00 1473.75 MinPt-0SF 749.15 61.72 79.63 687.43 18.52 OSF1.W 4320.00 304040 MInN SF 812.30 W.31 767.60 74&W 18.65 OSF1.W 48W.00 3179.46 MinPo-0SF 1331.98 119.70 1251.81 1212.29 16.84 O9F1.W 70W.00 4045.30 MmPt-0SF 1429.9 99.84 1362.93 1330.02 21,71 OSF1.W 75W.W 4218.46 MinPt-0SF 1484. 82 102.26 13W.W 1352.3 2171 OSF1.W 7710.00 4283AD Minta-0SF 1526.57 104.40 1455.26 1420.16 21]4 OSF1.W 8020.00 439524 MInP1-0SF 1585.24 IM.24 1492.04 1456.00 21.70 OSF1,W 0210.W 4483.79 WnPt-0-SF 1592.04 111.03 1517.04 1481.02 21.71 OSF1.W 634000 4510.69 Mlnlat-0SF 2906.25 246.]2 2741.44 2659.53 17.73 p F1W 15010.04 W1ZOO MinPt-0SF 309546 255.7 2925.02 2MO,29 18.26 OSF1.W 1650.00 7W9.14 MMPI-0SF 3108.67 204.0 2941.62 2858.5 1.871 OSF1.W 1fi8W.W W73.13 MMPIs 3109.04 2W.64 2941. 2858.3 106] OSF1W 1890.04 6944.47 Mi.ft 3120.52 249.22 295404 2871301 OSF1.W 172W.W 6778.63 MmP1-0-SF 312&N 249.05 2961,70 2879.01 18.91 OSFt50 1741375 6713.25 1D H16A-LM(P3)(00 Plan) Pay 238.13 32.81 23684 205.32 N/A MAS =10.W(m) O.W O.W Surface 230.13 32.81 236.84 205.32 140740.39 MAS =10.W (m) 35.25 35.25 WRP 23].31 32.81 230.95 201.60 219.92 MAS=10 W(m) 220.W 220.00 Minft Schlumber8er-FUyate 237.35 32.81 23486 204.54 198.% MAS=t0.0(m) 240.00 240.00 MINPT-0-EOU 285.0 32.81 258.8 232.2 0.52 MAS =10.W (m) 980.00 957.84 MlaP 265.0 3281 258.8 232.29 52.97 MAS =ION (m) 970.00 967.89 MINPT-0-EOU 303.0 32.81 293.23 270.82 33.1 MAS =law (m) 15W.00 1473.75 Miala- -SF 749.15 61.67 707.86 W7A 18.53 OSF1.W 4320.00 WWAO MiaPt-0SP 812.30 8632 787.71 74598 18. OSFI.W 4850.00 3179.46 Mli,R SF 1331.96 119.63 1251.8.5 1212.3 16.85 MFI.W 7050.00 4045.30 MmPt. SF 1429.87 "IS 1362.99 1330.11 21.]3 0SF1.W 7530.00 4218.46 MInR1 F 1484.82 102.16 1398.14 1362.47 21.73 0SF1.W 7710.00 4283.40 Mlnlat D F 1526.57 1W.30 1455.32 1420.2 21.76 0SF1.W 8020.00 4395.24 MMPt43SF 1585.24 109.13 1492.11 1456.11 21.]2 0SF1.W 8210.00 4483.79 Mlnlai- 3F 1592.0 110.92 1517.73 1461.1 21.74 OSF1.W 6310.00 4510.69 MinPt-0SF 2833.81 235.30 2876.58 2598.51 1B.td 0SF1.W 146W.0 6787.12 MhPt-0SF 3047.16 2W.822855. 2760.35 15.99 OSF1.W 15470.00 7064.07 MINPT-0-EOU 3049.57 20.49 280. 2]60.0 15.85 WF1.W 15480.00 7W6.40 mi.% 3179.35 302.79 2977.16 2876.561 15.80 0SF1.W 165W.00 709.14 MlnPt-0SF 32W.W 304.0 30381 202.7 15.8,7 0SF1.W 17010.00 8684.91 MinfnO F 3210.83 291.30 3016.30 2919.5 1658 0SF1.W I p N 6855.17 MinlnO F 3217.0 293.80 3021.02 2923. 16.49 0SF1.W 17190W 6808.40 Miami 3221.79 29336 3025.87 2928.40 16.52 0SF1.50 17413.75 6713.25 TD Hl6A-L05(P3)(Def Plan) Pas 238.13 3284 236.84 20532 N/A MAS =10001m) 0.00 000 Sar3ace 238.13 32.81 236.84 205.32 144748.39 MAS =10.0 (m) 35.25 35.25 WRP 237.J1 32.81 234.95 204.0 219.92 MAS =10.00 (m) 220.W 220.0 Min% 237.35 32.81 234.88 204.54 10.69 MAS=low (m) 2W.W 240.0 MINPT-O-EOU 265.0] 32.81 25085 232. 53.52 MAS=10.0 (m) 9W.W 957.84 Minis 26509 32.61 25883 232.29 52.97 MAS =10.00(m) 970.W W7.0 MINPT-O-EOU 303.63 32.61 293.23 270.82 33.16 MAS =10.00(m) 1WO.W 1473.75 MinR-"F 749.15 61.67 707,0 687.48 18.53 0SF1.50 4320.0 30W.W MinPt-0SF 812.30 66.32 76].]1 745.N 18.66 0SF1.50 4650.0 3179.46 MInmt F 1331.98 119.0 1251.85 1212.M 16,85 0SF1.50 705D.W 4045.30 MI.N1 F 1429.87 W.75 1332.99 1330.11 217 0SF1.50 7530.W 4218.48 MIOPI-0SF 1464.62 102.16 130.14 13K.47 21.75 0SF1.50 7710.W 4263.0 MmP143SF 150.57 106.30 1455.32 1420.27 21,76 0SF1.50 W20.W 430.24 Min%-0SF 1W5.24 109.13 1492.11 1456.11 21.72 0SF1.50 8210.0 "W.78 MInPt4 SF 102.05 110.92 151].]3 1481.13 2174 0SF1.50 834O.W 4510.69 MmPt-0SF 2833.81 235.30 2676.0 250.51 18.14 0SF1.50 14650.00 6767.12 MIOPI-0SF 3047.16 2W. 2855.62 27035 1599 0SF1.50 15470.0 7084.07 MINPT43.E0U 3049.57 289.49 2858.2 27WA6 1585 0SF1.50 154W.W 708.40 Mlnft 3179.35 302.79 2977.16 2878.56 1580 OSF1.50 165W.W 700.14 MinPt-0SF 3208.0 304.08 3003.81 202.79 t5B OSF1.50 17010.0 6884.94 MMPI4SF 3210.83 291.30 3016.30 291953F---16,5 OSF1.W 17 0.W 8&55.17 WnPt-0SF 3217.W 293.60 3021.0 292346 1649 0SF1.W 171W.0 8W AO Mine 322179 293.38 302507 292840 16.52 OSF1.W 17413.75 8713.25 TD H16A.L03(P3)(Def Plan) Peas 238.13 32.81 236.64 205.32 WA MAS =10.00 (m) 0.00 0.00 SORaca 238.13 32.81 236.84 20532 144746.39 MAS=10.0 (m) 35.25 35.25 WRP 237.31 32.81 234.95 204.50 219.92 MAS=ION (m) 220.0 220.W Mins 237.35 32.81 234.0 204.54 10.69 MAS =10.0 (m) 240.0 2W.W MINPT.-EOU 265.0 32.81 2WA 2322 53.52 MAS =10.W(m) 960.0 957.84 MInPq 265.0 32.81 258.83 232.29 52.97 MAS = ION (m) 970.0 W7.69 MINPT-0-EOU 303.0 32.81 20.23 270,82 33.16 MAS =10.W(m) 150.00 147375 MlaP1-0SF 749.15 61.67 707.W NT48 18.53 0SF1.W 4320.00 WNAO MInRt -SF 812.30 0.32 767.71 74598 18.66 0SF1.W 4650.00 3179.46 MinPt-0SF 1331." 119.63 1251.85 121235 16.85 0SF1.W 70W.OD 4045.30 MlnPt-MF 1429.87 99]5 1362.99 1330.11 21,73 0SF1.W 7530.00 4218.46 MhP1-0SF 1484.82 102.18 130.14 1M2,47 2173 0SF1.50 7710.00 4283.40 MmPt-0SF 1528.57 10.30 1455.32 142027 217 0SF1.50 W20.00 43W.24 MinRt F 1565.24 1W.13 1492.11 1456.11 21.72 0SF1.W 8210A0 446379 MInPI-0SF 1592.05 110.92 1617.73 1481.13 21.74 0SF1.50 flUDA0 4510.0 MiaPt4 F 2633.81 235.30 2676.56 259851 18.14 0SF1.50 14850.00 6787.12 MlnPt-0 F 3047.16 2W. 205.62 2780.35 15.99 0SF1.W 15470A0 7084.07 MINPT4E0U Rialum0erpr.Prisate 349.57 289.49 2856.252]60.08A O5F1.50 15480.00 7066.40 Mine 31]9.35 302.79 29]].16 2876.56 OSF1.50 1650000 ]069.14 MIOI-0 F 3206.85 34.06 3003.81 2902.] OSF1.50 1]010.00 6664.84 MmPt4JSF 3210.83 291.30 301630 291953 OSFf.50 1708000 6855.17 MinPl4YSF 321].08 20,6q3021.02 2923.48 0SF1.50 171W.W 8808.40 Minft 3221.79 293.30 3025.87 2928.40 16.52 OSF1.50 17413.75 6713.25 TO HW-L01(P3)(Def Plan) Page 238.13 32.81 236.84 20532 N/A MAS =10.00 (m) O.W 0.00 Surface 238.13 32.81 236.84 205.32 144748.39 MAS =10.W (m) 35.25 35.25 WRP 237.31 32.81 234.95 204.50 219.92 MAS =10.W (ml 220.4 220.00 Min% 237.35 32.81 234.86 24.54 199.69 MAS =I0.W Im) 240.W 240.W MINPT-0-EOU 26807 32.81 258. 23228 53.52 MAS =10.W (m) 960.4 957.84 Min% 265.09 32.81 258. 232.29 52.97 MAS=10.W (m) 970.4 967,69 MINPT43-EOU 303.83 32.81 293.23 270.82 33.1 MAS =low (m) 1500.4 1473.75 MhP143SF 749.15 61.67 ]0]66 687.40 18.5 0SF1.50 4320.W 3080.40 MInPt-0SF 812.30 66.32 76]]1 745.98 18. OSF1.50 m50.W 317946 MInP143SF 1331.98 119.63 1251.85 1212,35 16. 0SF1.50 7050.4 44530 MlnPt-0SF _ 1429.87 93.75 1362.99 1330.11 21.7 OSF150 7530.W 4218.46 MlaPI40-SF 1484.(12 102.16 1396.14 1382.47 21.7 OSF1.50 7710.0 4283AO MInP1-0-SF 1526.57 106.30 1455.32 1420.27 21.7 OSF1.50 8m0.W 4395.24 MmPt-0-SF 1565.24 19.13 1492.11 1456.11 211 0SF1.4 8210.W 4463.79 MInPt-0SF 1592.05 110.92 1517.73 1481.13 21.7 0SF1.W 8340.4 0.510.69 MInPt43 F 2833.81 235.30 267656 2598.51 18.1 OSF1.W 146W.W 6787.12 NnPt43.SF 347.16 286.02 2055.8 2]80.35 15.99 OSF1.W 15470.00 714.07 MINPTO{01J 3049.57 W. 2056.2 2760.0 15.85 0SF1.W 1544.4 7MA0 Min% 3179.35 30219 2977.16 2878.56 15.W OSFI.W 165W.W 749.14 MInR-OSF 320.4 34.4 3003.81 20239 15.87 OSF1.4 17010.0 6884.94 WnPt4 -SF 321].1 296.03 3019.49 2921.14 16.35 OSF1.m 1741335 571325 MIOPI. HI 6A (P3) DO Plan) page 238.13 32.81 238.64 205.32 NIA MAS =1000 (m) 0.00 000 Surface 230.13 32.81 238.84 205.32 144748,39 MAS =10.00(m) 35.25 3525 WRP 237.31 32.81 234.95 204.50 21992 MAS =10.0 (m) 220.00 220.0 Min% 237.35 32.81 234.88 20454 10.69 MAS=10.W (m) 240.W 240.W MINPT-0 01.1 285.0] 32.81 258.8 232.2 53.52 MAS =10.W (m) 94.00 957.84 Wft 20.W 32.81 258.8 232.29 52.97 MAS =10.W (m) 970.00 07.4 MINPT43{01.1 303.63 32.81 20.23 270.82 33.16 MAS =10.0(9) 154.00 1473.75 MMR-0SF 749.15 61.67 707.66 68748 18.53 0.SF1.W 4320.00 3060.40 MInPt-04lF 812.30 0.32 ]6]31 745. 1866 OBF1.50 48W.W 3179A6 MmPt-OSF 1331.96 119.63 1251.85 121235 0SF1.W 7050.00 445.30 MinPt-0SF - 1429.87 99.75 1382.99 1330.11 21]3 0SF1.W 7530.00 4218.46 Mink -0 F 1464.62 102.16 1396.14 136247 21.73 0SF1.W 7]10.00 4283.40 MlnPH65F 1526.57 14.30 1455.32 1420 27 2176 OSF1.50 800.m 430.24 MinR1 F 150.24 109.13 1492.11 1456.11 21]2 OSF1.W 82t0.W 4483.79 MMRF 1592.05 110.92 1517.73 148113 21.14 0SF1.4 9340.9 4510.69 MmPt-0 F 2833.81 235.30 2676.56 2598.51 18.14 0SF1.4 1464.4 6]8].12 MmPt-OSF 347.16 286.82 285562 2760.35 15.99 0SF1.W 1570.00 ]04.07 MINPT- 01.1 349.5] 289.49 2056.2 2]60. 15.85 0SF1.W 1544.00 7W6.40 MInft 3179.35 302.79 29]].16 2876561 0SF1.50 115 1.00 709.14 WRF 324.85 34.4 3003.81 2902.79 15.87 0SF1.50 17010.00 686494 MinRt F 3210.83 291.30 301630 2919. 16.5 OSF1.50 17WO.W 6855.17 MWRP F 3217.08 293. 3021.02 2923.0 164 0SF1.50 1710.00 6808.40 Min% 3221.79 293.30 3025.87 292840 16.52 OSF1.50 1]413.]5 6713.25 TO HWA-LN(P3)(DO Plan) Pas. 238.13 32.81 236.84 24.32 NIA MAS =10.00 (m) 0.00 0.00 Surface 238.13 32.81 238.84 20.32 144748.39 MAS =10.00 (m) 35.25 35.25 WRP 23].31 32.81 2U.95r 2N.W 2%07 MAS =10.00 (ml 220.W 220.W Min% 237.35 32.81 234.88 2".54 199.69 MAS=10.W(m) 240.W 240.W MINPT43-EOU 265.0] 32.81 250.85 232. 53.52 MAS =10.00 (m) 40.4 957.84 Min% 45.09 32.81 258.8 232.29 52.97 MAS =10.00 (m) 97O.W 967.69 MINPT-0EOU $ hlumberger-Private 303.63 32.81 293.23 2708 33.16 MAS=10.00(.) 1500.00 14]3]5 MmR4 F 749.15 6167 ]0].66 687.0 1&55 OSF1.W 432O.W 3060.0 Mi.Nl4 F 812.30 66.32 767.71 705. 16.66 OSF1.W 4850.00 3199.48 Min%-0SF 1331.98 119.0 1251.85 1212.35 16.65 OSF1.W 7050.00 4045.30 MhR-0 F 1429.87 W.75 1362.99 1330.11 21.]3 OSF1.50 7530.00 421848 MlnN-0 F 1484.82 102.16 1398.14 1362,47 21.]3 O3F1.W 2110.00 4283.0 MinR1 F 1526.57 108.30 1455.32 1420]] 21.76 OSF1.W 60211.00 430.24 MinFI-0 F 1565.24 109.13 1092.11 14%.11 2172 OSF1.W 8210.Oo 4483.]9 MinR-0SF 1592.05 110.92 151].]3 1481Al 21.]4 OSF1.W 8340.00 4510.0 MMRF 2833.81 235.30 28]8.56 2598.51 18.14 OSF1.W 14850.00 6]8].12 MhR-0 F 3047.16 258.82[2855.8 2]6035 1599 OSF1.W 154]0.00 ]W4.0] MINPT OU 3049.5] 269.49 2856.25 2>600 15.85 OSF1.W 154W.OD 106.0 Minna 3179.35 302.79 29]].16 2876.56 15.80 OSF1.W 16500.Oo ]069.14 WnR-0 F 32W.85 304.08 303.81 2W2 79 15.87 OSF1.W 17010.00 8884.96 MhR-OSF 3210.63 291.30 3016.30 2919.53 16.58 OSFI.W 17060.00 6055.17 MinR-0 F 3211.W 293.6 3D21. 2923.08 1849 OSF1.W 171W.W 850840 Minns 3221.79 293.38 3025.87 292840 16.52 OSF1.W 1]413.]5 6713.25 TD Sladchkof Stale 1(Oef Survey) Pass 1322103 32.81 13219.74 13188.22 NIA MAS =10.W (m) 000 0.00 SURaca 13220.75 32.81 13219.44 1318194 446348.65 MAS =10.W (m) 35.25 35.25 WRP 13220.43 32.81 13218. t31816fi 16316.95 MAS =10.W (m) 20.00 250.W mhsP 13190.33 32.81 131]].80 1315152 11]3.]2 MAS=10.W (m) 910.Oo 08.51 MhR-0 F 130W.W 32.81 1303]1 1304805 526.5 MAS =10.0 (m) 130.00 1362.50 MmR-0 F 12814.21 37.12 12786.95 12]]104 537.85 OSF1.W 190.00 1690.78 MhR4 SF 11366.43 49.39 11354.83 113390 W).6 OSF1.W 360.00 288224 MhR-0SF 9823.32 0.18 9]]8.19 975114 23322 (XF1.W S .Oo 3551.0 WnPt43SF 8895.0 ]9.418640. W15.66 1]2.56 OSF1.W ]oW.OD 4045.30 Mi.ft 7329.52 81.32 ]2]3.86 724820 143.8 OSF1.0 W).W 48]6.64 MinRUSF 5341.83 129.83 5253.33 5212.00 64.5 OSF1.50 1180.0 5]58.94 Ming-0SF 4380.29 187.21 4254.81 4193.08 35.5] OSF1.W 14550.0 8251.05 MhR4SF 4305. 195.28 4215.42 415071 33.57 OSF1.W 15120.0 8958.68 MInmI 4304.57 19938 4211.02 4144.81 32. OSF1.W 155W.W 7010.94 MmR43SF 4338.1] 10.0] 420.0 413910 32.8 OSF1.W 15740.0 7112.04 MMR4341F 4319.W 199.40 4188.29 412020 32.6 OSF1.50 162W.W 2119.98 MhRASF 4318.10 10.84 4184.50 411827 320 OSF1.W 16340.0 7101.98 MInm-0 4318.13 10.924184.47 4118.21 32.57 OSF1 W 1630.0 ]090.59 MINI T-0-EOU 4318.17 10.W 4184.48 4118.20 32.67 OSF150 163]0.W ]096.82 MinPt Aop 4319.97 200.59 41858] 4119.38 3248 OSF1.50 165W.W 709.14 MlnR-0-SF 4404.20 179.02 428448 4225.18 37.13 OSF150 1]413.]5 6713.25 TD CoemopPldan Stale t (Def Survey) Pass 1822316 32.81 1822116 18190.35 NIA MAS =10.00(m) 0.00 0.00 Surface 16223.13 3281 18221.15 18190,32= MAS =1o.W(m) 20.W 20.00 WnR-0,SF 18223.12 32.81 18221.1 1810.31 WA MAS =10.W(m) W.W W.W MINPT43-EOU 18223.12 32.81 18221.14 18190.31 WA MAS =10.W(m) 35.25 35.25 WRP 1W38.12 32.01 18029.46 100581 2722. MAS =t0.W(m) 15W.W 1473.75 MhR43SF 1856.48 0.60 1812. 1350.88 308.2 OSF1.W 70W.W 4045.30 Min% 10771.17 83.12 10713.26 10680.057-27349 OSF1.W 1WW.0 5338.84 MmNRO F 2880.13 158.24 1]]2.11 ]]23.8 ® OSF1.W 147W.W 8837.63 MmR-0SF 6752.43 158.158825.24 656828 51.1 OSF1.W 165W.W ]069.14 MInR-0SF 8156.12 18].99 608.0 506.13 51.8 OSF1.W 1]413]5 871325 Min% Schlumberger -Prints Onset TrajectorySa Allow Sep. Controlling Reference Trajectory Risk Level Alert States Ct-Ct ft MAS R regon EOU ft Des. ft Fact. Rule MDR TVD ft Alert Minor Major Ma or Ma or Hansen#1AL1 (Def Survey) H04 -L01 (P1) Anti -Collision Summary Report Analysis Date-24hr Time: September 24, 2018- 16:01 Analysis Method: Normal Plane Client: BlueCrest Reference Trajectory: 1-104-1.01 (Pi) (Def Plan) Field: Cosmopolitan Unit Depth Interval: Every 10.00 Measured Depth (It) Structure: Cosmopolitan Pad Rule Set: D&M AntiCollision Standard 5002 v5.115.2 Slot: H-04 Min Pts: All local minima indicated. Well: H04 Version I Patch: 2.10.644.0 Borehole: H04-LO1 Database 1 Project: localhostldrilling-Cook Inlet Scan MO Range: O.00ff-17413.75ft 30.08 33.4 Tralectory Error Model: ISCWSAO 3-D 95.000% Confidence 2.7955 sigma, for subject well. For 544.18 544.18 MINPT-O-EOU Offset Trajectories Summary 41.14 Offset Selection Criteria 36.37 1105 114 MAS =9.17(m) Wellhead distance scan: Not performed! MirK-OSF Selection filters. DefmBive Surreys - DegnBiea Plans -Definitive surreys emlude definitive plans 30.09 43.89 18.95 12.36 - Al Non -Def Surveys when no Def -Survey is set in a borehole - All Non -Def Plans when no Def -Plan is set in a borehole 852.18 Onset TrajectorySa Allow Sep. Controlling Reference Trajectory Risk Level Alert States Ct-Ct ft MAS R regon EOU ft Des. ft Fact. Rule MDR TVD ft Alert Minor Major Ma or Ma or Hansen#1AL1 (Def Survey) Warning Alen 37.30 30.09 3601 720 NIA MAS =9.17 (en) 4.17 4.17 Ctct<=15m<15.00 Enter Alen 3].27 30.08 33.52 ].1] 14.60 MAS =9.17 hn) 504.19 504.18 Mlnrt 37.37 30.08 33.4 72 1367 MAS =9.17(m) 544.18 544.18 MINPT-O-EOU 41.14 30.08 36.37 1105 114 MAS =9.17(m) 723.62 723.38 MirK-OSF 49.04 30.09 43.89 18.95 12.36 MAS =9.17led 852.18 851.24 CICv,=15.>15.00 Exit AMn 105.93 30.09 97.37 753 14.3 MAS =9.17(m) 1491.29 1465.76 MinR-OSF 664.25 183.29 581.63 50096 563 OSF1.50 4946.25 3288.33 MinPt-OSF 1081.02 239.37 931.06 8518 6.8 OSF1.50 7041.92 4042.38 MinPt-O-SF 1344.12 274.00 1161.07 1070A2 7.31 OSF1.50 8284.98 4480.83 MinPt-OSF 1750.26 363.57 1507.50 13%.69 7.24 OSF1.50 10170.43 5171.04 MinM-0S1c 645.64 2345.22 2130.38 646 OSF1.50 155T7.51 7086.93 MInR-CtCt 2776.06 6460 2344.99 213002 645 0SF1.50 15870.94 ]102)6 Miapts 2730.26 654.0 2297,62 2079.86 6.2 OSF1.50 16498.34 7069.55 MinPt.OSF 2604. 688.98 2144.79 1915.46 5.68 OSF1.50 17206.83 6801.24 MinPt-CtCt 2804.63 689.51 2144.81 1915.12 5.67 OSF1.50 17221.09 670.18 MINPT-O EOU 2604.84 %9.78 2144.64 19150L 5.67 OSF1.50 17228.18 6792.16 MinPt-O-ADP 2610.72 892.27 2148.% 191646 5.88 OSF1.50 1]298.21 8762.38 MinP1-0SF 2632.11 895.51 2168.08 1936.59 5.68 OSF1.50 1741375 671325 TD Hansen #1A (Def Survey) Waming Alan 37.30 30.09 36.01 7.20 WA MAS=9.17(m) 4.60 450 MCK-15.0500 Enter Alen 3].27 30.09 33.52 ].17 14.59 MAS =9.17(m) 50462 50481 MmPts 37.37 30.0933.44 ].27 13.66 MAS =9.17(m) 544.61 544.59 MINPT-O-EOU 41.16 30.09 36.39 11.07r=--1 1-45 MAS =9.17(.) 724.05 723.80 MMR-OSF 49.07 30.09 43.92 heels 12.36 MAS =9.17(m) 852.58 851.66 CICh<=15m�15.W Exit Alen 105.98 30.09 97.41 75.8 143 MAS=9.17(m) 1491.70 14%.13 MinN-OSF 115.14 30.09 108.]2 85.0 15.9 MAS=9.17(m) 1587.93 1535.64 MmR-O-SF 684.33 183.41 561.63 5008 5.6 OSF1.50 4946.8] 32%.48 MmPt-OSF 1091.10 239.52 931.04 8515 68 OSF1.50 706234 4042.53 MinPt-OSF 1344.21 274.20 1181.03 1070.00 OSF1.50 8286.0 4490.99 MinPt-0SF 1750.36 363.87 1507.40 13%.49 7.2 OSF1.50 10170.85 5171.19 MlnPt 0. !` 2]76.0 848.12 2344.90 2129.90 845 OSF1.50 15573.47 7086.16 MIrPtLct 2776.05 846.5 2344.8 2129.49 OSF1.50 15688.94 7102.16 MinPM 2]34.16 654.96 229].14 2078.20 6.2 OSF1.50 16999.18 ]068.34 MinPt-OSF 2. 558 727.0 2073. 1831.39 5.26 OSF1.50 1741315 6]13.25 MinPts Hansen #1 (Def Survey) Wareing Alen 37.30 30.09 36.01 7.20 NIA MAS =9.17un) 5.50 5.50 Ctct<=15MI1500 Enter Alert 3].2] 30.08 33.51 7.17 1458 MAS =9.17(m) 505.52 505.51 MiePts 37.33 30.091 33.44 7.23 13.86 MAS=9.17(m) 535.51 535.50 MINPT-O-EOU Schlamberger-Private 41.20 30.09 36.43 11.11 11.4 MAS =9.17(.) 724.94 724.69 MInPt-0SF 49.14 30.09 43.98 19.04 12.37 MAS :9,17(no 853.47 852.54 CiCK=15.>15.00 Exit Alert 106.08 30.09 97.51 75.N 143 MAB=9.17 (m) 1492.56 146692 MmM-0SF 115.25 30.09 106.81 .15 85 1595 MAS =9.17 (m) 1568.79 1536.41 MInPt-"F 684.50 183.48 561.75 5010 5.62 OSF1.50 4947.55 3286.80 MMRF 1091.28 239.58 931.16 851 67 6,8 OSF1.50 7043.22 4042.85 MmRP F 1340.39 2]4.2] 1161.17 1070,131 73 OSF1.50 8286.28 4491.30 MInR-0SF 1750.57 363.95 1507.56 138662 OSF1.50 10171.72 5171.51 MlnPt-0SF 27]6.04 646.632344.5 2129.41 6.45 OSF1.50 15658.56 7100.88 Min% 273634 654.48 2299.65 208187 6.28 OSF1.50 16681.41 7073.62 Min% -O -SF 2558.43 727.12 2073.30 1831.31 5.28 OSF1.50 17413.75 6713.25 Mine H12(Def Survey) 150.05 32.81 156]6 12524 NIA MAS=10.00(m) 3467 34.87 Minft 58. 19] 32.81 15618 126.16 104.]] MAS =10.00(.) 330.01 33001 MINPT-O{CU 163.29 32.8115].1 130.48 33.37 MAS =10.00 (m) 1039.31 ID35.70 MINPT-O-EOU 102.88 32.81 173.01 150.07 21.15 MAS =1000 (m) 1492.62 1466.98 Min% -0 -SF 199.04 32.81 189.53 166.2 24. MAS=10.00(m) 1624.20 1586.28 MinPI-O-SF 1286.09 82.82 1230.50 1203.2] 23.59 OSF1.50 5694.56 3558.3D MhR-O-SF 1319.92 84.61 1263.13 1235.31 23.70 OSF1.50 5828.29 3604.54 MInPt-O-SF 1324.73 64.91 1267.75 1239.82 23.] OSF1.50 5847.41 3811.46 MInPI-0-SF 1660.56 124.34 15]7.29 1536.22 20,20 OSF1.50 ]045.92 4043.83 MnPI-O-SF 4068.60 26].]3 3889.74 3800.8] 22. OSF1.50 1566096 7101.25 MInPI-0-SF 4066.34 28]58 3887.5] 3]98.]6 22.8 OSF1.50 15738.26 7111.83 MinRt F 4061.5 2865 3883.6 3]94.98 22.94 OSF1.50 16013.61 7128.25 MlnPts 4082.28 273.5 38]9.52 3]88.]0 22.3 OSF1.50 16490.64 7071.62 Min% 4061.67 267.45 3882.99 3]9422 22.67 OSFL50 16570.17 705086 MINPT-O-EOU 4061.61 267.40 3882.92 3794.11 22.86 OSF1.50 16595.89 704327 MinM-CtCt 4061.53 267.9 3882.91 3784.1 22.86 (MF1.50 16608.65 7039.49 MlnPls 4081.92 267,51 3883.25 37".41jL===2=2=8=6jj OSF1.50 1664210 7028.98 MinN-0-SF 408858 287.47 3887.94 3799.11 22.88 OSF1.50 17073.71 6857.85 MinK0-SF 4075.87 26789 3896.94 3807,97 22.90 OSF1.50 17413.75 671325 TO H12.104 (Def Survey) Pass 158.05 32.81 156]6 125.24 NIA MAS =10.00 (mj 34.87 34.87 MinPls 158.97 32.81 15610 12616 104.]] MAS =10.00(m) 330.01 330.01 MINPT-0-EOU 183.29 32.81 15].1 130.68 33.37 MAS=10.00 (m) 1039.31 1035.70 MINPt-O-EOU 182.88 3281 173.01 150.07 21.1 MAS=1000(.) 1492.82 1466.98 MinPI-O-SF 199.04 32.81 189.53 168.23 26. MAS=1D.0O(m) 1624.20 1586.26 MInPI-O-SF 1286.09 82.82 1230.50 1203.2 23.5 OSF1.50 5694.58 3556.30 MmPt O0.SF 1319.92 84.61 1263.13 1235.31 23. OSF1.50 5828.29 3604.54 MlnR-0-SF 1326.73 84.91 1267.75 1239.82 23.7 OSF1.50 584].41 3811.44 MInPI-O-SF 1660.58 124.34 1577.29 1536.22 2020 OSF1.50 704592 4043.83 MInPI-O-SF 4088.60 26773 3889.74 3800.8 22.8 OSF1.50 15680.96 7101.25 MinPI-O-SF 4066.34 167.58 3887.57 3]98.) E 22.8 OSF1.50 15736.26 7111.83 MlnRt F 4061.5 266.58 3883.48 3794. 2294 OSF1.50 16013.61 7128.25 Minft 4062.28 2]358 3879.52 3788.] 22.31 OSF1.50 16490.84 ]0]1.42 Mln% 4061.67 26].45ILM82. 3794.22 22.87 OSF1.50 16570.17 7050.68 MINPT-O-EOU 4081.51 267.41 3882.92 3794.11 22.86 OSF1.50 16595.89 7043.27 MlnRt tCl 4061.53 267.43 3802.91 3794.1 22.86 OSF1.50 16808.65 7039.69 MlnlNs 406192 267.51 3883.25 3794.41jL===2=28jj OSF1.50 16642.70 7028.98 MinPt-OSF 4066.58 26].47 388].94 3799.11 22.8 OSF1.50 17073.71 6857.85 MinPt-OSF 407587 267.89 3896.94 380]9] 2290 OSF1.50 1741335 6713.25 TO H12 -L01 (Def Survey) Pass 15805 32.61 156.76 125.24 NIA MAS =1000(m) 39.87 34.87 MlnPts 158.97 32.81 156.18 126,16 104.77 MAS=10.00(m) 330.01 330,01 MINP -O-EOU 163.29 32.81 15].1 13048 33.37 MAS=10.00(m) 1039.31 1035.70 MINPT-0-EOU 182.88 32.81173.01 150.0 21.15 MAS = Woo (m) 1492.62 1488.98 MinPt-O-SF 199.04 32.81 189.53 1662 24.0 MAS=10.00(m) 1624.20 1586.26 Min% -O -SF 1288.09 82.82 1230.50 1203.2] 23.5 OSF1.50 5694.56 3558.30 Mi.M-OSF 1319.92 84.61 1263.13 123531 2370 OSF1.50 5828.29 3804.54 MmKP SF 1324.73 84.91 1267.75 1239.82 23]01 OSF1.50 5841.41 3611.44 MIOPI -O -SF Schlumberger -Private 1660.56 124.34 15]].29 1536.22 20.20 OSF1.W 704.5.92 4043.83 Min%-O-SF 406860 26].]3 3889.74 380087 22.8 OSF1.50 15660.96 7101.25 Min%-0-SF 406634 267.58 388].5] 379875 22.89 OSF1.50 15738.26 7111.83 Min%-O-SF 4061.58 266.58 3883.4 3794.9 2294 OSF1.W 18013.61 7128.25 MinM 4062.28 273.58 38]9.5 3788] 22.36 OSF1.N 16490.84 ]0]1.42 Min% 406167 267 4 3882.9 3794.22 2287 OSF1.N 165]0.1] 7050.66 MINPTOEOU 4061.51 267.41 388292 379411 22.86 OSF1.N 16595.89 ]043.2] Min%-C1Ct 4081.53 26].43 3882.91 3]94.1 22.08 OSF1.N 16608.85 ]039.49 Minft 4081.92 267.51 3883.25 379441 22.85 OSF1.W 16642.70 7028.98 Min%-OSF 4086.58 26].4] 3887.94 3799.11 22.081 OSF1.50 17073.71 6857.85 Min%-OSF 4075.84 267.91 3696.90 39793 22.90 OSF1.154, 17413.75 6713.25 TD H42-L03 (Del Survey) Pess 158.05 32.81 156.76 125.24 NIA MAS =10.00 (m) 34.87 3487 MinPte 158.97 3281 156.18 126.16 104.77 MAS=10.00(m) 330.01 330.01 MINPT-0EOU 163.29 32.81 157.15 130.48 33.37 MAS =10.00(.) 1039.31 1035.]0 MINPT-0-EOU 182.88 32.81 173.01 19.0 21.1 MAS =10.00 (m) 1492.62 1466.98 Min%OSF 199.04 32.81 189.53 166.2 248 MAS =10.00 (m) 1624.20 1586.26 Min%-OSF 1288.09 82.82 1230.68 1203.2 23.5 OSF1.50 5694.56 3556.30 Min%OSF 1319.92 84.61 1263.13 1235.31 23.] OSF1.50 5828.29 3804.54 Min%-O-SF 132413 84.91 1267.75 1239. 23l OSF1.50 584].41 3611.4 Min%OSF 16W.56 124.34 15]7.29 1536.22 20.20 OSF1.50 ]045.92 4043.83 Min%-OSF 4088.60 28].]3 3889.74 3800.8 22.8 OSF1.50 156W.N 7101.25 Min%OSF 4066.34 26].58 388].5] 3]98.]5 22.8 OSF1.50 15768.26 7111.83 Min%-OSF 406L56 266.5 3883. 3]94. 22.94 OSF1.50 16013.61 7128.25 Minft 4062.28 273.5 3879.52 3]08. 22.3 OSF1.50 164N9d 7071.42 WPM 4061.67 26]4 3882.99 3794.22 22.87 OSF1.50 185]0.17 7050.W MINPT-O-EOU 4081.51 287.41 388292 3794.11 22.86 OSF1.50 18595.89 ]043.2] MinPt-CtC1 4061.53 2814 3882.91 3794.10 22.86 OSF1.50 18608.65 7039.49 Min% 4061.92 26751 388325 3794411 228 OSF1.50 1942]0 7028.98 Min%-0-SF 4066.58 26]4] 3887.94 3799.11 22.88 OSF1.50 1707311 6857.85 MMR-O-SF 40]5.8] 267.89 3896.94 380].9] 22.90 OSF1.50 17413.75 6713.25 TD H12-106 (Del Survey) Pass 158.05 3281 156.78 125.24 NIA MAS =1000(m) 34.87 34.87 Min%s 158.9] 32.81 15618 126.16 104.77 MAS =10.00 (m) 330.01 330.01 MINPT-O-EOU 163.29 32.81 157.1 130.48 33.37 MAS =10.00 (m) 1039.31 103510 MINPT-O-EOU 182.88 32.81 173.01 150.07 21.15 MAS =10.00 (m) 1492.62 1466.98 Min%OSF 199.04 32.81 189.53 166.23 24.04 MAS =10.00 (m) 1624.20 1586.28 Min%-O-SF 1288.09 82.82 1230.50 1203,27 OSF1.50 5894.56 3556.30 MOM-O-SF 1319.92 84.61 1283.13 1235.31 23]0 OSFi.W 5528.28 3684.54 Min%-O-SF 1324.73 84.91 128].]5 1D9 82 OSF1.W 5847.1 3611.44 Min%-0-SF - 1680.W 124.34 167]29 1536.22 20.20 OSF1.W 7045.92 4043.83 Min%-0.SF 4068.68 28].]3 3889.74 3N087 22.89 OSFi.N 15660.88 7101.25 Min%-0.SF 4066.34 267.58 388].5] 379876 22.89 OSF1.50 15738.28 7111.83 Min%-O-SF 4061. 266.68 3868.48 3794.98 22.94 OSF1.W 16013.61 7128.25 Minft 422.28 273.54 38]9.5 3]88.] 22.36 OSF1.W 164N.64 7071.42 Minft 4061.67 267.45 3882.99 3794.22 2287 OSF1.50 165]0.1] 7050.66 MINPTOEOU 4061St 267.0 3862.92 3794.11 2286 OSF1.50 16595.89 7043.27 Min%-C1a 4061.53 267.4 3882.91 3794.1 22.86 CSF1.50 16W8.65 7039.9 Min% 4061.92 26251 3883.25 3794.1 22861 OSF1.50 16642.70 7028.98 Min%-OSF 4066.58 267.47 3887.94 379.11 2288 OSF1.50 1]0]3.71 6857.85 Min%-0SF 407587 28].89 3896.94 380797 22.90 OSF150 1741375 6713.25 TD HI2-L02(Def Survey) Pass 158.05 32.81 156.76 12524 NIA MAS =1000 (m) 3487 34.87 Mins 158.97 32.81 IW.18 126.16 10477 MAS=10.N(m) 330.01 330.01 MINP7-O-EOU 183.29 32.81 157.1 13048 3337 MAS =10.9 (m) 1039.31 1035.70 MINPT-O-EOU 182.88 32.81 173.01 150.07 21.15 MAS =10.00 (m) 1492.62 1466.98 MinPIOSF 199.04 32.81 189.53 16623 24.04 MAS =10.N(m) 162420 158628 MlnRI SF 1288.09 82.82 1230.50 1203.27 23.591 OSF1.50 5684.68 3556.30 Min%-O-SF 1319.92 84.61 1263.13 1235.31 23.]0 OSF1.50 5828.29 3804.54 MmR% SF 1324.73 84.91 1267.75 1239.82 23.]0j OSF1.50 5847.41 Will.44 Min%OSF Xhlumberger-Private 1660.56 124.34 15]].29 153622 2020 OSF1.50 7045.92 4043.53 MinPt-OSF 4068.60 28].]3 3889.74 3800.8] 228 OSF1.50 15680.98 7101.25 WR-OSF 4088.34 28258 388].5) 3)98.] 228 O6F1.50 15738.26 7111.83 MmM-OSF 4061.5 266.58 3883. 3]949 22.94 OSF1.50 16013.61 7128.25 MinPU 4062.28 273.58 38]9.52 3]88.] 22.3 OSF1.50 16490.64 ]0]1.42 Mins 4061.67 267,451L__2882. 379022 2287 OSF1.50 165]0.1] 7050.66 MINPTOEOU 4081.51 267.41 3882.92 3794.11 2286 OSF1.50 16595.89 7043.27 WRCl 406153 267431 3882.91 3794.1 2286 OSF1.50 16608.65 7039.49 MinPtn 4061.92 27.51 388325 3794.41 228 OSF1.50 16542.]0 7028.98 WRn F 4066,58 287.47 3887.80 3789.11 22.81 DSF1.50 17073.71 6857.85 WNOSF 4075.87 287.89 3896.94 3807.97 2290 OSF1.50 17413.75 6713.25 TD H12-L05(Dot Survey) Pass 158.05 32.81 156,76 125.24 NIA MAS =10.00 (m) 34.87 34.87 MinPts 158.9) 32.81 15618 126.16 104.]] MAS=1000(m) 33001 330.01 MINPT-0-EOU 163.29 32.81 15115 130.48 33.37 MAS =10.00 (m) 1039.31 1035.70 MINPT-O-EOU 182.88 32.81 17301 150.0 211 MAS=1000 (m) 1492.62 1466.98 Minh -O -SF 198.04 32.81 189.53 166.2 24 0 MAS =10.00 (m) 1624.20 1586.26 MmRn F 1286,09 82.82 1230.50 1203.2] 23.5 OSF1,50 5694.56 3556,30 WPI40.SF 1317.51 84.45 1260.83 1233.05 23.7 OSF1.50 5818.73 3801.9 MInM-O-SF 1324.73 84.91 126].]5 1239.82 23.7 OSF1.50 5847.41 3611.44 Minh -O -SF 1660.56 124.34 1577.29 1536.22 20.20 OSF1,50 7045.92 4043.83 MmRn SF 4068.60 267.]2 3889.74 3800.88 22.8 OSF1.50 15660.96 7101.25 MhRP SF 4086.34 257.58 388758 3798,76 22.8 OSF1.50 1573826 7111.83 Minh-0.SF 4061. 266.581 OSF1.50 16013.81 7128.25 Wpts 4062.28 273.57 3879.52 3788.]1 22.36 OSF1.50 16490.64 7071.42 MinMs 4081.87 287. 3883.00 3794.22 22.87 OSF1.50 16570.17 7050.66 MINPT-O-EOU 4081.51 267.40 388292 319912 22.86 OSF1.50 16595.89 7043.27 Minh-aCt 4061.53 267.43 3882.92 37941 22.88 OSM50 16608.65 7039.49 MinMs 4061.92 267.50 388326 3794A2jL__2Zffij OSF1.50 18642.70 7028.98 MInM-O-SF 4066.58 267.46 3887.95 3799.12 22.8 OSF1.50 17073.71 6857.85 MhN-0-SF 4075.87 267.89 3896.95 3807.98 22.90 OSF1.50 1]413.]5 671325 TD H14PB1 (Def Survey) �PO@- 198.09 32.81 196.81 165.29 NIA MAS=10.00(.) 0.00 0.00 Surface 198. 32.81 19681 165.2 NIA MAS=10.00(m) 3478 34.]8 fAmPls 198.32 32.81 1988 1&5.51 526.46 MAS =10.00(.) 119.93 119.93 MINPT-O-EOU 192.5) 32.81 18].12 159.]8 46.03 MAS =%W(m) 954.81 952.73 Mi m. 192.80 32.81 186,89 159.98 41.48 MAS=10.00(.) 1026.04 102210 MINPT-0-EOU 213.00 32.81 202.81 180.1 23.]8 MAS =10.00(m) 1491.73 1486.16 Minh-OSF 300.35 32.81 323.56 37.54 21.8) MAS =10.00(.) 2338.05 2164.90 MmM-OSF 817.91 53.97 781.50 763.9 23.25 OSF1.50 3803.29 2873.99 MmM-OSF - 1965.11 124.40 1881.80 1W.71 23.90 OSF1.50 7009.07 4040.96 Minh-OSF 4445.47 230.34 4291.59 4215.1 29.7 OSF1.50 14008.73 6569.48 Minn-OSF 4700.80 244.61 454100 446019 28.96 OSFL50 15021.55 6921.16 MInM-0SF 0]02.8 252.9 453393 0499.95 2199 OSF1.50 16019.61 7128.25 Minft 470427 254.11 453454 4450.17 2787 OSF1.50 16188.53 7122.79 Minn-OADP 470]]7 257.65 4535.67 4450.12 27.51 OSF1.50 16497.11 7069.85 RAmPU 4)084 250.42 4541.18 445803 28.31 OSF1.50 16816.14 6986.73 MinPts 4]21.8] 252.00 4553.54 4469.8711 28.21 OSF150 1]413.]5 6713.25 Minn -O -SF H14 Def Survey) Pass 198.09 3281 196.81 165.29 NIA MAS =10.00 (m) 0.00 0.00 Surface 198.09 32.81 196.81 16529 NIA MAS =10.00 (m) 34]8 34.78 MinPls 19832 32.8 196.66 1 165.51 528.48 MAS=10.00 (m) 119.93 119.93 MINPT-O-EOU 192.5] 32.81 187.12 159761 4603 MAS=10.0(m) 954.81 952.73 Mi.ft 192.80 N.811 186.89 159.99 41.48 MAS =10.0(.) 1028.04 1022.70 MINPT-O-EW 213.00 32.81 202.81 180.1 23.78 MAS =10.0(m) 1491.]3 1466.16 MInPt-O-SF 340.35 32.81 323.56 307.54 2188 MAS =10.00(.) 2335,05 216480 MinMOSF 817.91 53.94 781.52 ]83.7 2326 OSF1.50 380329 273.99 MinMOSF 1965.11 124.36 1881.83 1840.]5 2391 OSF1.50 7049.7 4044.96 WROSF 4410.01 227.79 4257.83 4188.23 29.16 OSF1.50 13941.68 6531.58 Minh -O -SF 4496.85 233.70 4300.]2 4283.15 28.98 OSF1.50 14164.52 6611.98 MhPt-O-SF Schlumberger -Private H14PS2(Def Survey) H14PB3(Def Survey) H16A-LO7(P3)(Def Plan) 4828.0 254.5 4658.0 45]3.50 2 8.56 OSF1.50 1801].]2 ]128.25 Mine 854 4.38 259.10 4881.31 4595.2] 28.2 OSF1.50 18488.54 ]0]1.82 MinPt-0SF 4881.48 253.09 4712.43 4828.39 29.0 OSF1.50 17280.58 6]]8.39 MinPt-0 F 4889.01 253.53 4719.86 4635.68 290 OSF150 1]413.]5 6713.25 MInN-0-SF 19889 32.81 196.81 165.29 NIA MAS =10.00 (m) 080 0.00 Surface 19899 32.81 19681 165.2 NIA MAS=10.00 (m) 34.78 34.]8 Mini is 198.32 32.81 196.6 165.51 526.46 MAS =10.W(m) 119.93 119.93 MINPT-O.EOU 192.5] 32.81 187.12 159.]6 46.03 MAS =10.00(m) 954.81 952.73 MmRs 192.80 32.81 186.89 159.98 41.0 MAS =1090(.) 1028.04 1022.70 MINPT-O.EOU 213.00 32.81 202.81 180.1 23.]8 MAS =10.0(m) 1491.73 1466.16 MmPt-O-SF 340.35 32.81 323.58 WT54 2188 MAS=10.00 (m) 2338.05 2164.90 MinPt-O-SF 817.91 5395 ]81.52 ]839 23.26 OSF1.50 3803.29 2873.99 MinPt-0.SF 1985.11 124.37 188163 1840.75 23.90 OSF1.0 ]049.0] 4044.96 MinPt-0.SF 4445.4] 230.28 4291.59 4215.1 29.0 OSF1.W 14046.73 6589.48 MinPI-O-SF 4553.78 235.18 4388.82 4318.6 29.1 OSF1.W 14366.00 6884.66 MinPl-0SF 4629.67 242. 448].3 438888 2810 OSF1.0 14911.74 8881.55 MINPT4}EOU 4829.80 243.14 446]. 4388.8 28.88 OSF1.50 14922.18 6885.32 MinPI-O-ADP 4840.9 251.98 4472.57 438894 27.74 DSF1.0 1507.52 083.48 MmPt-QIX 4640.99 252.3 44]2.43 4388.6 27]0 OSF1.50 15498.51 ]0]0.61 Min% 4843.25 25264 44]44] 4390.fi2 2].6 OSF1.60 15655.83 71W.46 MmPl-04iF 480.90 257.5 4428.83 4343.34 269 OSF1.50 18491.66 7071.17 Min% 4588.77 250.32 4421.53 433845 27.61 OSF1.50 16818.58 6965.75 MInPt-0 F 4588.] 250.3 4421.51 4338.4 2761 OSF1.50 18830.49 0W.0 MinPk 45W.11 250.42 442281 4339.6 2761 OSF1.50 16911.89 6928.65 MInP(-OSF 4594.46 251.87 4426.3 4342.82 27.5 OSF1.50 17413.75 6713.25 Miri is 198.09 32.81 198.81 165.29 NIA MAS =10W(in) 0.00 0.00 Surface i BB. 32.81 19681 165.2 NIA MAS =ID.W (m) 34.78 34.78 WPM 198.32 32.81 196.6 165.51 528.46 MAS =10.W (m) 119.93 119.93 MINPT-O-EOU 192.5] 32.81 18].12 159.76 46.03 MAS-%W(m) 954.81 952.73 MinPls 192.W 32.81 18689 159.99 41.68 MAS=10.0(m) 1026.04 1022.70 MINPT-OZOU 213.W 32.81 202.81 160.19 23.78 Mali- 10.W(.) 1491.0 1466.16 Mi.M-0.SF 340.35 32.81 323.56 30].54 21.88 MAS=10.00(m) 2338.05 2164.90 MIaP1.O-SF 817.91 53.95 781.51 763.96 05F1.0 303.29 2873.99 MinPI-O-SF 1965.11 124.37 1881.82 1M 74 OSF1.W 048.07 4044.96 MlnPI-O4iF 4445.47 230.26 4291.58 4215.18 29.0 OSF1.50 14048.73 6569.48 MInPt-OSF 469992 241.61 4538.52 4458.31 29.2 OSF1.50 14832.68 8853.03 Mi MP 4iF 47501 252.71 4581.96 4498.05 28 30 OSF1.50 16016.44 7128.25 MinPts 2574 OSFtSO 164N.12 M70.57 Minft 4761.24 250.3 4594.05 4510.93 2864 OSF1.50 165A59 018.58 MinPts 478852 251.84 4620.30 4536.68 28.63 OSF1.50 1]413.]5 6713.25 MmRP SF 23].31 3281 234.95 204.50 219.99 MAS =10.00 (m) 22006 220.06 MinPts 237.36 3261 234.88 204.55 199.09 MAS =10.00 (m) 240.05 240.06 MINPT-O-EOU 285.0] 32.81 258.8 23226 5313 MAS =10.0 (m) 90.28 04.15 Minft 265.08 32.81 258.8 232.27 53.14 MAS=10.W (m) 90.0 984.34 MINPT-O.EOU 304.18 32.81 M.79 271.37 33.27 MAS =10.W(m) 101.11 1465.59 MinPt-O-SF 574.85 44.94 544.47 529.92 19.71 OSF1.W 3381.84 2723.03 MlnR.&SF 05.02 59.97 WAS 675.05 18.71 OSFI.W 41]5.1] 3W8.16 MinPt-OSF 799.04 64.59 70.61 04.45 18.0 OSF1.W 4W3.W 312611 MinPt-O-SF 840.41 67.89 794.78 772.52 18.0 OSF1.0 4719.87 3204.66 Minh.&SF 1046.11 83.51 989.06 861,60 19.01 OSF1.0 016.]] 3528.23 MinPI-O-SF 1359.30 122.29 12P.40 1237.01 16.81 OSF1.W 7042.21 4042.49 MinPt-0-SF 1494.46 104.64 1424.32 138982 21. OSF1.W 708.53 4282.87 Minlat-043F 27W.69 229.20 2627.56 2551,49 18.2 OSF1.W 14103.40 6589.93 MinPt-0-SF 2904.53 280.42 2]1].25 2624.10 08F1.W 14512.60 6737.55 MinPt-O-SF 3154.52 300.14 2954.10 2854.3 15.81 OSF1.50 15922.57 7126.51 MinR-O-SF 3185.46 306.33 2976.57 281.12 15.54 OSF1.W 16489.62 7071.66 Mine-OSF 3201.76 30.71 2996.84 2895.0 15.]1 OSF1.50 16821.85 8984.43 MMR -SF Schlumberger -Private Pass Pass Pass Schlumberger -Private 3217.11 294.23 3020.62 2922.86 16.45 OSF1.50 17166.42 6818.42 MInPt-O-SF 3223.23 294.54 302654 2928.69 16.47 OSF1.W 1]413.]5 6713.25 TO H16(Def Survey) Paas 23].31 32.81 234.95 20450 21999 MAS =10.00 (m7 220.06 22006 MlnPla 23].38 32.81 234,88 204.55 19909 MAS =10.00 (m) 240.05 240.05 MINPT-0-EOU 265.0] 32.81 258.8 232.26 53.73 MAS =10.0(m) 958.26 954.15 MlnPls 265.08 32.81 258.8 232.2753.14 MAS =1000 (m) 968.80 984.34 MINPT-O-EOU 304.18 32.81 293.78 271 37 33.26 MAS =10.W (m) 1491.11 1465.59 MsPt-O-SF 735.02 60.02 894.63 87500 18.89 OSF1.50 41]5.1] 3008.16 MmRP F 840.41 67.94 794.75 772.48 18.84 OSF1.50 4]19.8] 3204.68 MmR.0-51F 1045.11 83.56 989.03 961.55 19.00 OSF1.50 5616.]] 3528.23 MsPt-0SF 1359.30 122.36 12]].38 1236.95 1681 OSF1.50 ]042.21 4042.49 MlnPt-0-SF 14%.48 104.88 1426.18 1391.60 21.52 OSF1.50 ]]18.32 4286.40 Mii,R-0 F 2876.51 241.42 2715.24 2835.09 17.94 OSF1.50 14587.41 8784.54 MinR-"F 3063.16 255.34 2892.W 2807.82 1806 OSF1.50 15541.40 ]0]9.80 MmPtO F 3099.02 257.99 2B28.W 2841.03 1808 OSF1.50 18491.28 ]0]1.28 MInPt-0SF 3109.04 250.712841.5] 2858.32 18.67 OSF1.50 IN74.38 M42.61 MINPT-0-EOU 3109.07 250.74 2941.58 2858.32 18.87 OSF1.50 1680.39 NW.71 MlnPI-O-ADP 3111.48 251.15 2943.71 2860,32LL 18.65 OSF1.50 17000.79 8868.85 MInPI-O-SF 3134.53 252.29 2966.01 2882.24 1670 OSF1.50 17413.75 6713.25 TO H16A-L02 (P3) (Def Plan) - - -- _ - - - - -- -'- - - - Pass 23].31 3281 234.95 204.W 21999 MAS =10.00 (m) 220.06 220.06 MinPts 237.36 3281 234.88 204.55 199.09 MAS =10.00(m) 240.05 24005 MINPT-O-EOU 265.0 3281 25&8fj 232.26 53.73 IMS =10.00(.) 9%.26 954.15 Minft 285.08 32AIr 2513MI 232.27 53.14 MAS=10.00(m) 9W.60 964.34 MINPT-O-EOU 304.18 32.81 293.79 2]1.3] 33.27 MAS=10.00(.) 1491.11 146S.W MinPt-0SF 5]4.85 44.94 544.47 529.92 19.]1 OSF1.50 3384.84 2]23.3 MinPt-0.SF 735.02 59.97 W4.66 675.05 18.]1 OSF1.50 4175.17 3008.16 MMPIOSF 799.04 84.59 755.61 ]3445 18.88 OSF1.50 4503.W 3128.]1 MsPt-0-SF 840.41 87.89 794.78 7/2.52 18.88 OSF1.50 4]19.8] 3204.66 MsPt-0SF 1045.11 83.51 989.06 WIM 19.01 OSF1.50 5616.71 3528.23 MsPt-0-SF 1359.30 122.29 12]],40 1237.01 18.81 OSF1.50 7042.21 4042.49 MmPIOSF 1494.46 104.64 1424.32 IM9.W 21.M OSF1.50 7]08.53 4282.8] WROSF 2780.89 229.20 2627.56 2551.4 18.2] OSF1.50 14103.0 6589.0 MMPIOSF 2904.53 2W.42 2]1].25 2824.10 15.59 OSF1.50 14512.W 8737.% MmRP SF 3154.52 3W.14 2954.10 2854.311 15.81 OSF1.50 15922.57 7126.51 MInPtOSF 3185.0 308.33 29]9.5] 2877.12 15.54 OSF1.50 18489.82 7071.9 MmPtO F 3201.]5 306.71 2996.94 2895.03 15.7 OSF1.50 16821.85 W64.43 MMROSF 3217.11 294.23 3020.62 2922.88 18.45 OSF1.50 171W.42 M19.42 MinPtO F 3223.23 294.54 3026.54 2928.69 16.47 OSF150 1741375 6713.25 TO H16PB1(Oef Survey) Pass 237.31 219.W 32.81 23495M204.65 MAS=10.00 (m) 220.06 220.W Mine 23].38 32.81 234.88 199.09 MAS=10.W (m) 240.05 240.05 MINPT-O-EOU 32.81 258.8 5373 MAS=10.0 (m) 9%.28 04.15 Minft 32.81 2588 53.14 MAS =10.0 (m) 9M.W 984.34 MINPT-O-EOU 304.18 32.81 293.78 2]1.3] 33.261 MAS =10.W(m) 1491.11 1465.W MsPIOSF 73502 W.02 694.63 675.00 1889 OSF1.50 4175.17 3008.16 MinPIOSF 840.41 67.94 79475 77248 18.84 OSF1.50 4719.87 3204.9 MMPI-0-SF 1045.11 83.58 989.03 961.55 19.00 OSF1.50 5616.7] 3528.23 MmPtOSF 1359.30 122.36 1277.36 1236.95 1s.81 OSP1.50 7042.21 4042.49 MinPtOSF 1498.8 104.9 1426.18 1391.60 21.62 OSF1.50 7718.32 4286.40 MinPIOSF 2876.51 241.42 2715.24 M5,09 OSF1.50 14587.41 6764.54 MInPt-O-SF 3063.18 255.34 2892.60 2W7.82 18.9 OSF1.50 15541.40 7079.W Mint-0-SF 3099.02 257.99 2926.69 2841.03 ISM OSF1.50 18491.28 ]0]1.26 MinPI-O-SF 3109.04 20.712941.5 2858.32 18.87 OSF1.0 1W74.W 8942.61 MINPT-O{OU 3109.07 2W74 2941.58 2M8.32 L 18.67 OSF1.W 1N83.39 893877 WmPt- ADP 3111.48 251.15 2943.]1 290.32 18.851 OSFi.W 17000.79 68W.85 MhPIOSF 3134.53 252.29 2986.01 2882.24 18.70 OSF1.50 1741375 6713.25 TO, H1 6A-LM (P3) (Def Plan) Paas Schlumberger -Private 5 hlumbergenPrivate 23].31 32.81 234.95 204.50 219.99 MAS =10.00(m) 22006 22006 MlnPts 237.36 32.81 234.86 204.55 199.09 MAS =10.00 (m) 240.05 240.05 MINPT-O-EOU 265.0] 32.81 258. 232.2 53.73 MAS =10.00 (m) 956.26 954.15 MmPls 265.08 32.81 258.83 232.27 53.14 MAS =10.00 (m) 988.60 964.34 MINPTOEOU 304.18 32.81 293.79 271.3 33.2 MAS =10.00 (m) 1491.11 1465.59 MmRP F 574.85 44.94 544.47 529.9 1911 OSFI.50 3384.84 2723.03 WPW- SF 735.02 59.97 694.66 675.0 18.71 OSF1.50 4175.17 3008.16 MlnPt-O-SF 799.04 64.59 755.61 734.4 188 OSF1.50 4503.80 3126.71 MInR-"F 840.41 6].89 794.78 772.5 18.8 OSF1.50 4719.87 3204.66 MlnRt F 1045.11 83.51 98906 961.60 19.01 OSF1.50 5616.T 3528.23 MlnPtOSF 1359.30 122.29 1277.40 1237.01 16.81 OSF1.50 7042.21 4042.49 MmRP SF 1494.46 104.64 1424.32 1389.82 21.8 OSF1.50 7708.53 4282.87 MinPt-O-SF 2780.69 229.20 2627.56 25514 18.2 OSF1.50 14103.40 6589.93 MMR-OSF 2904.53 280.42 2717.25 2624.10 15.5 OSF1.50 14512.60 6737.55 MMPI-0SF 3154.52 300.14 2954.10 2854.38 15.81 OSF1.50 15922.57 7126.51 MinPt-0SF 3185.46 308.33 2979.57 2877.12 15.54 OSF1.50 16489.62 7071.66 MmROSF 3201.75 306.71 2996.94 2895.03 15.7 OSF1.50 16821.85 6964.43 MinPt-"F 3217.11 294.23 3020.62 n22.138 16.4 OSF1.50 17186.42 6818.42 MInRt SF 3223.23 294.54 3026.54 2928.69 16.47 OSF1.50 17413.75 6713.25 TO H16A-LOS (P3) (Def Plan) Pass 237.31 3281 234.95 204.50 219.99 MAS =10.00 (m) 220.06 220.06 mm to 23736 32.81 234.88 204.55 199.09 MAS =1000 (ml 240.05 240.05 MINPT-O-EOU 285.0] 32.81 258.8 232. 53]3 IMS =10.00 (m) 956.26 954.15 MinPls 265.08 3281258.8 232.27 53.14 WAS =10.00(m) 966.60 964.34 MINPT-O-EOU 304.18 32.81 29319 271.37 33.2 MAS=1080(.) 1491.11 1485.59 MinPtOSF 574.85 44.94 544.47 529.92 19.71 OSF1.50 3384.84 2723.03 MinPt-O-SF 735.02 59.97 694.86 8]5.0 18.71 OSF1.50 41]5.1] 3008.16 MInPI-O-SF 799.04 64.59 755.61 734.4 18. OSF1.50 4503.80 3126.71 MmPt-OSF 840.41 67.89 784.78 7Y2.52 18.8 OSF1.W 4719.87 3204.66 MInPt-O-SF 1045.11 83.51 989.06 9816 19.01 OSF1.60 5816.77 3528.23 MinP1-O-SF 1359.30 122.29 1277.40 1237.01 16.01 OSF1.50 7042.21 4042.49 MinPt-O-SF 1494.46 104.84 1424.32 1389.82 21.64 OSF1.50 7708.53 4282.87 Mint -O -SF 2780.69 229.20 282].56 2551.4 18.2] OSF1.50 14103.40 6589.93 MlnP1-O-SF 290453 280.42 2717.25 2624.115.59 OSF1.50 14512.60 6737.55 MmPt-0.SF 3154.52 300.14 2954.10 2854.3 15.81 OSF1.50 15922.57 7126.51 MinP1-0-SF 3185.46 308.33 2979.57 287].12 15.54 OSF1.50 16489.62 7071.66 MinP1-O-SF 3201.75 306.71 2996.94 2895.03 15.]01 OSF1.50 16821.85 6964.43 Mint-0.SF 3217.11 294.23 3020.82 292288 1645 OSF1.50 17168.42 6818.42 Mint -0 -SF 3223.23 29454 302654 292869 1647 OSF1.50 1741375 671325 TO H16A-L03(P3)(Df Plan) Pass _ 23].31 32.81 23495 204.50 219.99 MAS =10.00 (m) 220.06 220.06 MInP% 237.36 3281 234.86 204.55 199.09 MAS =10.00(.) 240.05 24005 MINPT-O-EOU 2650 32.61 258.88 232.26 53.73 MAS =10.00(.) 95626 954.15 MhPts 285.08 32.8,r 258.83 232.27 5314 MAS =1000(m) 988.60 964.34 MINPTOEOU 304.18 32.81 293.79 271.37 332 MAS =10.00(m) 1491.11 1465.59 h1lnPt-0SF 574.85 44.94 544.47 529.92 19]1 OSFL50 3384.84 2723.03 MmRP F 735.02 59.97 694.66 675.05 16]1 OSF1.50 4175.17 3008.16 MInPtO9F 789.04 64.59 755.61 734.45 1686 OSF1.50 4503.60 3126.71 MMRF 840.41 67.89 ]94.78 ]]2.52 18.88 OSF1.50 4719.87 3204.86 MmRP SF 1045.11 83.51 989.08 961.80 19.01 OSF1.50 5618.T7 3528.23 MInPIOSF 1359.30 122.29 127].40 1237.01 16.81 OSF1.50 7042.21 4042.49 MlnP1-O-SF 1494.46 104.64 1424.32 1389.82 21.fi4 OSF1.50 ]708.53 4282.87 MInRt SF 2780.69 229.20 2627.56 2551.49 18.27 OSF1.50 14103.40 6589.93 MinPt-O-SF 2904.63 280.42 2717.25 2624.10 15.59 OSF1.50 14512.60 6]37.55 MlnPt-O-SF 3154.52 300.14 2954.10 2854.3 15.81 OSF1.50 15922.57 7126.51 MhPt-O-SF 3185.46 308.33 29]9.57 28]7.12 15.54 OSF1.50 16489.62 7071.66 Minlnt-0.SF 3201.75 306.71 2998.94 2895.0 15.70 OSF1.50 16821.85 6964.43 MinPt-O.SF 3217.11 294.23 3020.62 2922.8 16.45 OSF1.50 17166.42 6818.42 MinPt-O-SF 3223.23 294.54 3026.54 2928.69 18.47 OSF1.50 17413.75 6713.25 TO 1116A-101 (P3)(Oaf Plan) "Peas 5 hlumbergenPrivate HiBA(P3)(Df Plan) Hi6A-L04(P3)(Def Plan) 23].31 32.81 234.95 204.50 219.99 MAS =10.00 (m) 220.08 220.08 MinP1s 23].36 32.81 23488 204.55 199.09 MAS=1000 (m) 240.05 240.05 MINPTOEOU 265.0] 32.81 258. 232.26 53.73 MAS =1000 (m) 956.26 954.15 MinPts 265.08 32.81 258.8 232.27 53.14 MAS =MOO (m) 968.80 964.34 MINPT-O-EOU 304.16 32.81 293.79 271.3 33.2 MAS =10.00 (m) 1491.11 1465.59 WR -O -SF 5]485 44.94 544.4] 529.92 19.]1 OSF1.50 3384.84 2723.03 MmPt- SF 735.02 59.97 694.66 6]505 18.]1 OSF1.50 41]5.1] 3008.16 Min%OSF 799.04 84.69 755.61 734.4 188 MF1.50 4503.80 3126.71 Min%ASF 840.41 67.89 ]94.]8 772.5 18.8 OSF1.50 4719.87 3204.88 Min%ASF 1045.11 83.51 989.06 961.6 1901 OSF1.50 5616.77 3528.23 Mtn%ASF 1359.30 122.29 1277.0 123]01 16.81 OSF1.W 7042.21 4042.49 Min%OSF 1494.46 104.84 1424.32 1389.8 21.64 OSF1.50 ]]06.53 4282.87 Min%OSF 2780.69 229.20 2627.58 2551.4 18.2 OSF1.50 14103.40 8589.93 MIn%-O.SF 2904.53 280.42 2]1].25 2824.10 15.5 OSF1.50 14512.60 6]37.55 Min%ASF 3154.52 300.14 2954.10 2854. 15.81 OSF1.50 15922.57 7126.51 Min%OSF 3185.46 308.33 29]8.5] 287].12 15.54 OSF1.50 16489.62 ]071.86 MmPt-0SF 3201.75 306.71 2996.94 28950 15.] d OSF150 1682185 6964.43 Min%4)-SF 321].60 2M.13= 2922.47 184 OSF150 1]413]5 6713.25 MinPts 237.31 32 Al 234.95 204.50 219.99 MAS =10.00 (m) 220.06 220.06 MinP1s 237.36 32.81 234.88 209.55 199.09 MAS =10.00 (m) 240.05 240.05 MINPT-O-EOU 285.0] 32.61 258.8 232.2 53.73 MAS =10.00 (m) 958.26 954.15 No% 265.08 32.81 256.63 232.27 53.14 MAS =10.00 (m) 966.60 964.34 MINPT-D-EOU 304.18 32.81 293.79 271.37 33.2 MAS=10.00 (m) 1491.11 1465.59 Min%. -SF 574.85 4494 544.47 529.92 19]1 OSF1.50 3384.84 2723.03 Min%OSF 735.02 59.97 694.86 675.05 18 )1 OSF1.50 4175.17 3006.16 Min%ASF 799.04 89.59 755.61 734.45 18.8 OSF1.50 4503.80 3128.71 Min%. -SF 890.41 67.89 794.78 772.52 18.8 OSF1.50 4719.87 320456 Min%OSF 1045.11 83.51 989.06 961.W OSF1.50 5616.77 3528.23 Mtn%ASF 1359.30 122.29 1277.40 1237.01 1881 OSF1.50 7042.21 4042.49 Min% -O -SF 1496.46 10484 1424.32 1389.82 218 OSF1.50 ]]05.53 4282.87 Min%A-SF 2780.69 229.20 2827.56 2561.49 OSF1.50 14103.40 8589.93 MIn%OSF 2906.53 280.2 2]1].25 M24.10 OSF1.50 14512.60 6737.55 MIn%ASF 3154.52 300.14 2954.10 2854.W OSF1.50 15922.57 7126.51 Min%OSF 3185.48 308.33 29]9.5] 2877.12 15.56 OSF1.50 16489.62 ]071.86 Min%OSF 3201)5 308.71 2996.94 2895D 15.]j OSF1.50 18821.85 8964.43 Min%OSF 3217.11 294.23 3020.62 N22,0I OSF1.50 17186.42 8818.42 Min%OSF 3223.23 294.54 3026.54 2928.69 1647 OSF150 1741375 6713.25 TD 23].31 32.81 234.95 204.50 21999 MAS =10.00(.) 220.06 220.06 MinP1s 23736 32.81 234.88 20455 199.09 MAS =10.00(m) 240.06 240.05 MINPTOEOU 2650 32.81 258.88 232.2611 53.73 MAS =10.00(.) 956.26 954.15 mmp% 285.08 32.81 258.83 232.27 53.14 MAS =10.00 (m) 988.60 984.34 MINPTOEOU 304.18 32.81 293.79 271.3 33.2 MAS =10.00(m) 1491.11 146559 Min%-OSF 574.85 44.94 544.47 529. 19.]1 OSF1.50 3384.84 2723.03 Min%-OSF ]35.02 59.9] 694.68 675.0 18]1 05F1.50 4175.17 3008.16 Min%ASF 799.04 64.59 755.61 734. 1886 05F1.60 4603.80 3126.71 Mtn%ASF 840.41 67.89 ]94.]8 772.5 18.8 DSF1.50 4719.87 320488 Mtn%ASF 1045.11 83.51 989.06 981.6 19.01 OSF1.50 5618.77 3528.23 Min%OSF 1359.30 122.29 1277.0 1237.D1 18.81 OSF1.50 7042.21 4042.49 Min%OSF 1494.48 104.84 1429.32 1389.82 21.64 OSF1.50 7108.53 4282.87 Min%OSF 2]80.69 229.20 282].58 2551.4 182] OSF1.50 14103.40 8589.93 Mln%OSF 2904.53 280.42 2717.25 2624.10 15.59 OSF1.50 14512.60 8]37.55 MInPIOSF 3154.52 3W.14 2954.10 2854. 15.81 OSF1.50 15922.5] 7126.51 Min%OSF 3185.68 300.33 29]9.5] 28]].12 15.54 OSF1.50 18489.82 70]1.86 MIn%OSF 3201]5 3W.71 2996.94 2895.0 15.] OSF1.50 18821.85 8984.03 Min%OSF 3217.11 294.23 3020.62 2922. 18. OSF1.50 17186.42 8818.42 MinPIOSF 3223.23 294.54 3026.54 2928.69 1847 OSF1.50 1]413.]5 8]13.25 TD 3281 13216.34 1316].66 15672.44 MAS =10.00(.) 257.50 257.50 MinPts 13220.4] Schlumberger -Private P ss Pass Pass Survey) H18L1(P1)(Def Plan) S18richkof Slate 1 (Def survey) 1322109 32.81 13213.4 13188.28 209196 MAS=1000(.) EtA9 381.49 MINPT-O-EOU 13221.19 32.81 43213.53 13188. 2073. MAS=10.00(.) 407AS 407.45 MmPI-O-SF 1322111 32.81 13213.4 13188.30 2082.21 MAS=10.0(.) 416.20 416.20 MINPT-0-EW 13220. 32.81 13214 7713188.1 2676.99 MAS =10.00 (.) 402.47 442.47 MinPls 4345.96 1952 421541 415069 33.57 OSF1.50 15121.30 8957.15 MInPU 4348.0 195.32 421541 4150. 33.56 OSF1.50 15124.92 6958.46 MmPl-O-ADP 0346.8 19].3] 421473 4149.32 33.22 OSF1.% 15273.90 7009.85 MinPt-C(CI 4346.79 197.Ml 33.17 OSFIM 15294.01 7016.14 MINPT-O-EOU 4346.91 197.78 4214.88 ---4T49-141 33.15 OSF1.M 15303.67 7019.10 MinPI-O-ADP 4360.74 199.88 4227.26 4161.08 32. OSF1.50 1568240 7088.89 MmPI.OSF 6384.36 15].]2 6278.83 6226.6 61.13 OSF1.M 16088.07 712].10 MinPt-OSF 4320.38 199.94 4188.89 4120.4 325 OSFt5 16289.24 7109.67 MInPI-OSF 0318.11 199.85 4184.50 4118.26 32.59 OSF1.50 18302.48 ]101.5] MinPb 4318.44 199.88 6184.81 4118.58 32,581 OSF1.50 16352.39 T0WN MMM-OSF 474572 168.08 4633.29 457764 42.63 OSF1.50 1761315 6713.25 TD 18222.54 32.81 18218.71 18189]3 9845.14 MAS=10.00nn) 395.47 395.47 MinPta 16222.54 32.811 18218,691 18189.74 9733.81 MAS =10.00(.) 402.33 402.33 MINPT-O-EOU 18222.84 32.81 18218.93 18190.0 9408.]8 MAS =10.00(.) 431.09 431.09 MmPI-O-SF 18224.55 32.81 18220.]3 18191.75 98]7.50 MAS =10.0(.) 499.90 499.90 MmPt-O-SF 18228.64 32.81 18224.]2 18195.83 9405.86 MAS=10.0(.) 587.17 587.14 MinPl-0-SF 9948.51 257.39 9776.59 9891 12FF 581911 OSF1.% 15300.49 7077.25 MmPt-6SF 8894.15 256.81 9922. 9fi3].3 58.01 OSF1.50 1M13.13 7077.25 MinPls 10155.88 26392 9979.56 9891.94 57.93 OSF1.M 16159.65 7077.25 MmRP SF 10181.55 264.80 10004.82 991695 57.93 OSF1.% 16214.71 7077.25 MinPt-6SF 10400.01 311 MIL101919811 10068.45 50.22 OSFIM 22297.98 ]0]7.25 Mlnft 278.05 32.81 276.83 245.24 NIA MAS =10.00(.) 0.00 000 Surface 2]8.05 32.81 275.30 245.24 180.92 MAS=1000(m) 349.36 349.36 MlnPts 278.12 32.811 275.24 245.31 167.44 MAS =10.00(.) 399.36 399.36 MINPT4}EOU 435.06 32.81 424.41 402.25 46.06 MAS =10.00(m) 1749.32 1710.07 MlnPt-OSF 813.53 32.81 797.07 7M.7 53.3 MAS =10.00(.) 2631.20 2439.98 MMPI.OSF 878.34 32.81 860.88 84554 53.35 MAS =10.00(.) 2739.57 2518.31 MinPt-OSF 956.71 32.81 937.57 023.W 533 MAS =10.00(m) 2882.09 2603.39 MInPI.O-SF 1016.47 32.81 %6.21 9831M 533 MAS =10.00(m) 2950.25 2662.24 MinPt-O-SF 1072.37 32.81 1051.07 1039.57 53.3 MAS=10.00(.) 3029.19 2713.19 MmPt43-SF 10465.34 232.20 10310.21 1023314 67.8 OSF1.60 13534.39 8615.21 MInR-"F 10632E 241.19 10471.48 10391.41 66.39 OSF1.50 13]8].55 8708.09 MMRF 10653.38 257.80 10481,16 10395.55 62.22 OSF1.50 14596.35 8984.21 MinPt-O-SF 994405 257.2 9P223 9686.81 58.20 OSF1-50 15292.09 7077.25 MlnPls 9948.51 257.39 9]]6.59 91191.12 58.1 OSF1.50 15300.49 7077.25 MinR( SF 9894.15 2%.81 9]22.8 963].3 68.01 OSF1.50 15813.13 7077.25 MR. 10155.% 283.92 9979.58 9891.9 5l. OSF1.50 18159.65 ]07].25 MmPt-0SF 10181.0 264.60 10004.82 9916.95 57. OSF1.50 18214.71 70]].25 MinPt-O-SF 10371.98 272.25 10190.15 10099.73 57.351 OSFi.M 1%54.% 7077.25 MinM-6SF 10448.49 279.74 10281.67 10168.75 56, OSF1.E 1]161.]6 70]].25 MmPt-0-SF 10%3.41 297. 10304.5 10205.5 53.0 OSFIM 18%6.% 7077.25 Minft 10502.23 290.09 10308.50 10212.13 54.8 OSF1.M 195M.43 7077.25 Min% -M 10500.6 302.63 10298.5 101980 52.21 OSF1.E 21181.55 7077.25 Mlnft 13220A] 13221.09 13221.27 13221.12 13221 0 5256A 525643 5386 76 5056]1 Pass Pass MAS=10.00(.) 25425 25425 MinPls MAS =10.00 (m) 378.24 378.24 MINPT-O-EOU MAS =10.00 (m) 401.54 401.54 MinPt43-BF MAS=10.00(m) 419.05 419.05 MINPT-O-EOU MAS=10.00(.) 445.32 445.31 Mlnft OSF1.50 14331.E MIM MInPtCCt OSF1.50 14334.90 M02.59 Mlnft OSF1.50 1M53.59 7077.25 MinPls OSF1.50 18853.E 7077.25 MinPls .Schlumberger -Private Cosmopolitan State 1(Def Survey) 6483.77 5910.05 5684.83 4455.83 4424.97 4426.96 4419 66 4418.25 4418.99 5396.8 6076.7 4550]2 515) 02 481 ].81 47]21 49fi8.7 490].31 8801.41 8518] 590.33 7928.80 251.1 0SF1.50 18222.5 16654.15 7077.25 M1nlst-0 F 0SF1.50 16654.65 7077.25 Minns OSF1.50 16655.88 7077.25 Rana OSF1.50 18655.44 7077.25 Minn. OSF1.50 16656.39 7077.25 Min% -O -SF OSF1.50 18656.43 7077.25 Min% -O -SF OSF1.50 16856.88 7077.25 Minn. OSF1.50 16857.21 7077.25 MinPts OSF1.50 16657.73 7077.25 Min% -O -SF 0SF1.50 16557.39 7077.25 Minna 0SF1.50 16659.14 7077.25 Wine 0SF1.50 16657.47 707].25 Minna 0SF1.50 16657.53 7077.25 Minna 0SF1.50 16657.85 7077.25 MmPta 0SF1.50 16658.42 7077.25 Ms% 0SF1.50 16658.65 7071.25 Wpm 0SF1.50 16659.30 7077.25 Minna OSF1.50 18858.73 7077.25 Minns OSF1.50 16680.07 7077.25 Minna OSF1.50 18659.90 7077.25 Minns OSF1.50 16661.80 7077.25 TD OSF1.50 16661.41 7077.25 MmPN Rhlumberger-PrWate Pass 32.81_182118A91 81897 11113.20 MAS =10.00(m) 39222 39222 Minna 18222.55 32.8118218.97 1818974 10991.89 MAS =10.00(.) 404.00 40400 MINPT-O-EOU 18222.86 32.81 18219.25 18190.051 10737.0 MAS =10.00(m) 432.]8 43216 MinnSF 4720.03 211.60r 4578.421 4508 43 33.71 0SF1.50 21657.85 7077.25 Mins 4720.04 211.62 4578.421 1508 421 33.70 0SF1.50 21657.89 7077.25 Mln%-0-ADP 4721.31 211.74 4579.61 4509.5] 33.89 0SF1.50 21858.07 7077.25 Min%-OSF 4721.21 211.73 4579.51 450947 33.69 0SF1.50 21658.07 7077.25 TO 5124. 204.1 4987.6 4920.18 37. OSF1.50 21655.66 7077.25 Minna Rhlumberger-PrWate Pass Surface hole Traveling Cylinder Plot \w I i Intermediate hole Traveling Cylinder Plot - -;_ g r Production hole l NeS[ Energy Attachn Cosmopolitan Project H04 -L01 10-401 Fishbone APD Attachments H04-LOt 10-401 Fishbone APD Attachments NOTE: The Rib Laterals in H04 are left as open hole completions after drilling, and as such, there are no casing design nor cement volume calculations to present in this section of the respective 1.01 through L07 Lateral APWs. gine est Energy Attachment 4 Cosmopolitan Project H04 -L01 10-401 Fishbone APD Attachments H04-LOf 10-401 Fishbone APD Aftachments NOTE: The Rib Laterals in H04 are left as open hole completions after drilling, and as such, there are no FIT / LOT Procedures to present in this section of the respective L01 through L07 Lateral APD's. 1ueC.fest Energy Attachment 5: Cosmopolitan Project H04 -L01 10-401 Fishbone APD Attachments H04-LOt 10-401 Fishbone APD Attachments fue st / Energy Cosmopolitan Project BOP & Choke Manifold Configuration 5K# WI H 10K# 49 3/32" B070 FLANGE a )° ( J X CO 66 5/8" 1 o \ CL in 27 3/4" 0 41 11/16- 13 5/8"X10K# CAMERON BOP STACK BLUECREST ENERGY 13 5/8-MOK CAXWN BOP STACK 2BY A N71NTHC WEST _ _ F5r I 1 I6 I1PA�IFD MWJ7GFM07f 8/72/15 ML ..,a BSBC7002 z 10-401 APD Attachments BOP & Choke Manifold Configuration W Q c 90 n T 0 m m v 0 h o 3 EL O o N C 9 v O O � 3 M _ ust a VATU 5 M ONE Po _ _ -- �' Inolr ITR War a%FROM - CkKR011 3 116 % IQI RG VIVE It CN48gl Y I t % 10N BC 19D�VK'R 1 � _ FROM ' SitlCO XYD PIO@ 3 116 % Itl( I P0155NE QIWi I8( ] kBOREI 90df5. SPop6, ETC %ION i 1---40'-Bi 5/81--I Lm/ /r CWM 3 O/IS % 10 VALVE AM It p Hm S F ME t/E 1% % WMA / I ma t IE RgA/JN VALVE —SROM - N I o I 1 3-O 1/4' p VIEW p SHAKER LINE SHAKER LINE PANIC LINE POOGR BO POORDEGA PANIC UNE ER CAMERON 3 1/16 X 10K C & K MANIFOLD mm I BLUECREST ENERGY 1. y CWK" 31/16 % INC & K IYQ*W 3. 6 � 1/1-1, I 0 W Q c 90 n T 0 m m v 0 h o 3 EL O o N C 9 v O O � 3 M lueC test Energy Diverter OPEI PORT 9 -- M AS CAST N --.0- — I � � i Cosmopolitan Project BOP & Choke Manifold Configuration E AS CAST —! a U P m AS CAST 'CLOSING PORT T- --- -- i G FLANGED — — 1 7 T— T_ 1 F C CLAMP L AS CAST--- -- _ HUB Nominal Dimensions—Inches—with 2000 psi Bottom Connections A B Hub18 C D E F Hub 18 G H J K L M N 0 P 5214 51 .. 12Y= 23% 6 7* Biu 27% 45% 51% 58% 5254 So 1% H=g Hint Nominal Dimensions—Inches—with 3000 psi Bottom Connections A l B C D I E I F G HJ K L M N 0 I P Hub 17 Hub 1 514% 5054 1215 23541 51s 8�'� 6Yu 2751 I <5'h Sir4 5854 5254 50 114 10-401 APD Attachments BOP & Choke Manifold Configuration IueC,iest Energy Attachment 6: I Cosmopolitan Project H04 -L01 10-401 Fishbone APD Attachments H04-LOt 10-401 Fishbone APD Attachments Dl ueNes[ Energy Cosmopolitan Project Wellhead/Tree •-1/l6lA09K I I I ! ! moi•/ •'J1b 5.900 K1 A 5 MI W/9G- SF/,L MED 631' u les S M vv ] V16's,M9 av MSY z via- S,909051 My II i --- VrM1cK7r 65.9!' I yr C5G M411 M.OS' I 1 _,' I � 15S.b'S.0Y9 G51 y" I 03WFWTM MN1011FL MUWLa I � 1x5a I i i i i i iL•wT , >K ®saac6a !-[71-W RLLXSU S151E6 it 1 n-156 1 9.5/6 1 !-Ir) ODC5�6---E16 — �-i I mo¢ 9El 014-1116 So IEF ulw mot[, 9 L!'ODC -- 6 Sir 0[1 IAIM Wll•IM wr�w 1 10-401 APD Attachments Wellhead/Tree tSlueC test Energy Attachmen Cosmopolitan Project H04 -L01 10-401 Fishbone APD Attachments H04-LOt 10-401 Fishbone APD Attachments NOTE: The Rib Laterals in H04 are to be drilled from an open hole mainbore below the 9- 5/8" casing shoe using the BlueCrest Rig 1 BOP stack and choke manifold for well control (no Diverter system applicable), and as such, there are no Diverter Schematics to present in this section of the respective L01 through L07 Lateral APD's. !flue est Energy Attachment 8: Cosmopolitan Project H04 -L01 10-401 Fishbone APD Attachments H04 -L01 10-401 Fishbone APD Attachments m 21 T35 Hansen SEC 32, T35. H04 and H04 -L01 with Hansen 1A H04-LO1 Surface Location (NAD 27) Northing: 2,144,623.03', Easting 168,812.80' 2173' FSL, 1552' FEL, Sec. 2, T4S, R15W SM Surface Casing Point Northing: 2,145,687.06', Easting 165,349.46' 3,143' FSL, 5,044' FEL, Sec. 2, T4S, R15W SM Kick Off Point Northing:2,148,667.44', Easting: 156,089.35' 583' FSL, 3,819' FEL, Sec. 33, T3S, R15W SM Total Depth Northing: 2,149,401.42', Easting: 155,000.35' 1,286' FSL, 4,928' FEL, Sec. 33, T3S, R15W SM ADL384403 SEC 2B. T3S, R15W. SM $ lan �ol 811 SEC33.T3 R15 M ro�1 .00 c� SEC 4, 005, R15W, SM Cosmopolitan Unit Development Dam 26/092018 Company BlueCrest Energy Radius Around Production Section ADL391903 on idential SEC 27. 13S, R15W, SM SEC 26. T35, R15W. SN 34. T3S. R15W. SM ADL18790 SEC 3. T45. R15W. SM 0 1000 2000 3000 4000 5000flUS 1:30000 SEG 35, SEC 36. SEC 1, T IlueC Pest Energy Attachment 9 Cosmopolitan Project H04 -L01 10-401 fishbone APD Attachments H04-LOl 10-401 Fishbone APD Attachments NOTE: The 20" Conductor and Surface Slot Location as -built schematic for H04, to be prepared by Lounsbury Surveyors, will be provided to include in this APD package when the 20" is set and the as -built schematic is completed. eest Energy Attachmei r Cosmopolitan Project H04 -L01 10-401 Fishbone APD Attachments H04 -L01 10-401 Fishbone APD Attachments NOTE: The New Well Elevation Form for H04, to be prepared by SLB Directional Drillers, will be provided to include in this APD package when the BlueCrest Rig 1 is on the H04 well, actual elevation measurements can be taken, and the surface slot as -built schematic has been completed. TRANSMITTAL LETTER CHECKLIST WELL NAME: T °� h S e_ 1A T (' 0V L(�/ PTD: z_16 `-1 Z 7 ✓ Development _ Service _ Exploratory Sttratigraphic Test _ Non -Conventional FIELD:yC 6_C41L- POOL: Check Box for Appropriate Letter / Paragraphs to be Included in Transmittal Letter CHECK OPTIONS TEXT FOR APPROVAL LETTER MULTI The permit is for a new wellbore segment of existing/well Permit LATERAL No. ` — Z:�, API No. 50-Z'5{- ' 6c)- 1 (If last two digits Production should continue to be reported as a function of the original in API number are API number stated above. between 60-69 In accordance with 20 AAC 25.005(f), all records, data and logs acquired for the pilot hole must be clearly differentiated in both well Pilot Hole name ( PH) and API number (50- - _-_) from records, data and logs acquired for well name on permit). The permit is approved subject to full compliance with 20 AAC 25.055. Approval to produce/inject is contingent upon issuance of a conservation Spacing Exception order approving a spacing exception. (Company- Name) Operator assumes the liability of any protest to the spacing exception that may occur. All dry ditch sample sets submitted to the AOGCC must be in no greater Dry Ditch Sample than 30' sample intervals from below the permafrost or from where samples are first caught and 10' sample intervals through target zones. Please note the following special condition of this permit: production or production testing of coal bed methane is not allowed for Non -Conventional (name of well) until after (Company Name) has designed and Well implemented a water well testing program to provide baseline data on water quality and quantity. (Company Name) must contact the AOGCC to obtain advance approval of such water well testing program. Regulation 20 AAC 25.071(a) authorizes the AOGCC to specify types of well logs to be run. In addition to the well logging program proposed by (Company Name) in the attached application, the following well logs are also required for this well: Well Logging Requirements Per Statute AS 31.05.030(d)(2)(B) and Regulation 20 AAC 25.071, composite curves for well logs run must be submitted to the AOGCC within 90 days after completion, suspension or abandonment of this well. Revised 2/2015 WELL PERMIT CHECKLIST Field & Pool HANSEN, HANSEN UNDEF OIL -290100 - ---- -- --- - -- ---_ Well Name: HANSEN H-04-1-01 _Program DEV _. Well bore seg 66 PTD#: 2181270 Company BLUECRE T ALASKA OPERATING LLC --- __ _ Initial Class/Type _.DEV / PEND GeoArea 820 Unit 10370 On/Off Shore On Annular Disposal ❑ Administration 17 Nonconven. gas conforms to AS31,05:030(j.1.A),Q.2.A-D) _ _ _ _ .. NA. _ .. . . . . ....... . . ........ . .. . . . . . _ _ ..... . 1 Permit fee attached ____ _.. _____..__.. NA_....... ___..._......_........... 2 Lease number appropriate . . . . ...... . . . _ _ _ _ _ _ _ _ _ _ _ _ Yes _ Surface Location ties within Fee -Hansen;.. Portion of Well Passes. Thru ADL0018790; 3 Unique well name and number _ _ _ _ ................. Yes ... _ _ TD lies in ADL0384403. 4 Well located in a_defined pool. _ .. _ _ _ _ _ _ _ _ _ _ _ _ _ _ No _ _ _ Hansen Undefined Oil Pool_ 5 Well located proper distance from drilling unit. boundary. Yes 6 Well located proper distance from other wells _ _ _ _ _ _ _ _ _ _ _ _ Yes _ HANSEN, HANSEN UNDEF OIL -290100, governeil by statewide spacing regulations. 7 Sufficient acreage available in. drilling. unit.. _ _ _ _ _ _ _ _ _ _ _ Yes ..... As planned, this well conforms with statewide spacing requirements._ . 8 If.deviated, is. wellbore plat_ included ....._ Yes_____. 9 Operator only. affected party . . . . . . . . . ....................... . Yes 10 Operator has appropriate. bond in force ....... _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _ Yes Appr Date 11 Permit, can be issued without conservation order . . . . . ............... . .. . . Yes . _ _ _ Well branch does_ not lie with same governmental_ quarter section as. Hansen.lA. 12 Permit can be issued without administrative approval _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Yes _ _ _ SFD 10/17/2018 13 Can permit be approved before 15 -day wait_ _ _ _ _ .. ..... Yes ........... 14 Well located within area and.strata authorized by Injection Order # (put. 10# in comments) (For. NA_ _ _ _ _ . .... . . . . ..... . . . . . . .. . 15 All wells -within 1/4. mile area of review identified (For service well only) _ _ _ _ _ _ _ _ _ _ _ _ _ _ NA_ _ _ _ _ _ .. _ _ . _ _ _ _ _ _ _ _ .............. 16 18 Pre -produced injector; duration of pre production less than 3 months. (For service well only) .. Conductor string_ provided . . . . . . ................. .. _ _ _ _ _ _ _ _ _ _ NA ............................ Yes _ . . . . _ _ _ _ See H-04 drilling permit for details. Engineering 19 Sprface casing. protects all known USDWs _ NA - - - - - - - - - - - - -- - - - - -- - - -- - 20 CMT vol adequate to circulate on conductor & surf csg _ _ _ _ _ . ... . .......... Yes ....................... 21 CMT.vol adequate to tie-in long string to surf csg...... ........ . ... . . . . . . . . . Yes 22 CMT will cover all known, productive horizons_ _ _ _ _ _ _ _ _ _ .......... Yes .......... . . . . . . . . . . 23 Casing designs adequate for C, T, B &_permafrost . - - _ _ _ _ _ _ _ _ .. Yes 24 Adequate tankage. or reserve pit . . . . . ......... _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Yes 25 If_a_ re -drill, has a 10 403 for abandonment been approved . . . . .............. NA... . 26 Adequate wellbore separation proposed_ _ _ .... _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Yes 27 If diverter required, does it meet regulations_ _ _ _ _ _ _ _ _ _ _ _ _ _ ..... NA. Appr Date 28 Drilling fluid program schematic & equiplist adequate_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Yes GLS 11/5/2018 29 BOPEs,.dolheymeet regulation _ _ _ _ _ _ _ ______ _ ... _ _ _ _ _ _ Yes 30 BOPE_press rating appropriate; test to.(put psig in comments)_ _ _ _ _ _ _ _ Yes 31 Choke. manifold complies w/API_RP-53 (May 84)_ _ ___ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Yes _ _ _ _ _ _ . _ _ ...... 32 Work will occur without operation shutdown_ _ _ _ _ _ _ _ _ _ _ _ ___________ _ _ _ _ _ _ Yes ...... 33 Is presence of H2S gas probable . . . ............... . . . . . . . . . . . . . . . No _ _ _ 34 .Mechanical condition of wells within AOR verified (Forservice well only) _ _ _ _ _ _ _ _ _ _ _ _ _ NA _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ . _ . _ _ . _ _ _ _ _ _ _ _ . _ _ _ _ . _ . _ .. _ _ . _ _ _ ................ 35 Permit. can be issued w/o hydrogensulfide measures . . . . .................... Yes ....... H2S not observed in nearby Hansen wells. Rig has sensors and alarms. Geology 36 Data presented on. potential overpressure zones.....- ------------------- Yes _ _ _ _ _ _ "J-shaped' well branch targels.Starichkof sand and Hemlock. Planned mud weights in conjunction with Appr Date 37 Seismic analysis of shallow gas zones_ _ _ _ _ _ _ _ _ _ _____ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ NA_ _ _ _ _ _ _ _ Managed Pressure_ Drilling technique appear adequate. to control.maximum anticipated.downhole. SFD 10/17/2018 38 Seabed condition survey _(if off -shore) _ _ _ _ _ _ _____________ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _NA .... _ pressures of 9.1-_ 9.6 ppg, which are based on MDT measurements of reservoir pressure in nearby well. _ 39 Contact name/phone for weekly. progress reports [exploratory only] . . ............. . . NA Geologic Engineering Public First lateral spoke. Will be left OH. GIs Commissioner: Date: omnission� Date G Date it i1q'iP�
