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Home My WebLink About214-183Guhl, Meredith D (DOA) From: Kuck Marc <marc.kuck@enipetroleum.com> Sent: Wednesday, March 01, 2017 2:33 PM To: Guhl, Meredith D (DOA) Cc: Chaudhry Amjad Subject: RE: Expired Permits to Drill Meredith, Thanks for the update on these permits. We currently don't have any plans to perform this work in the future. Regards, Marc From: Guhl, Meredith D (DOA) [mailto:meredith.guhl@alaska.gov] Sent: Wednesday, March 01, 2017 2:21 PM To: Kuck Marc Cc: Bettis, Patricia K (DOA); Schwartz, Guy L (DOA) Subject: Expired Permits to Drill Hello Marc, You already saw this in Joshua's email, but just to make sure it's clear, I thought I'd send it to you directly. Permit to Drill 214-051, for OPI 1A 106, issued 15 April 2014 and permit to drill 214-183, for OP17-02 L1, issued 19 November 2014, have expired under Regulation 20 AAC 25.005 (g). The PTDs will be marked expired in the AOGCC database. If you have any questions, please contact me. Thank you, Meredith Meredith Guhl Petroleum Geology Assistant Alaska Oil and Gas Conservation Commission 333 W. 7th Ave, Anchorage, AK 99501 meredith.guhl@alaska.gov Direct: (907) 793-1235 CONFIDENTIALITY NOTICE: This e-mail message, including any attachments, contains information from the Alaska Oil and Gas Conservation Commission (AOGCC), State of Alaska and is for the sole use of the intended recipient(s). It may contain confidential and/or privileged information. The unauthorized review, use or disclosure of such information may violate state or federal law. If you are an unintended recipient of this e-mail, please delete it, without first saving or forwarding it, and, so that the AOGCC is aware of the mistake in sending it to you, contact Meredith Guhl at 907-793-1235 or meredith.guhl@alaska.gov. This message may contain informatioi . ,nat is confidential, and is being sent exclusively to the Recipient. If you are not the designated Recipient, you are prohibited from utilizing, copying or divulging the information contained in this message,or taking any action whatsoever on the basis of the information herein. If you have received this message by mistake, we ask you to kindly inform the Sender and to delete the message. It is understood that, with regard to messages sent by its network, the Company is not responsible for any statements made or opinions expressed, that are not strictly related to the Company's operations. THE STATE 01A-111-_Z'��"Vls K11-111yi- GOVERNOR SEAN PARNELL Davide Simeone Well Ops Project Manager Eni US Operating Co. Inc. 3800 Centerpoint Dr., Ste. 300 Anchorage, AK 99503 Re: Nikaitchuq Field, Schrader Bluff Pool, OP17-02 L1 Eni US Operating Co. Inc. Permit No: 214-183 Surface Location: 3157' FSL, 1654' FEL, S5, T13N, R9E, UM Bottomhole Location: 1482' FSL, 4076' FEL, S25, T14N, R8E, UM Dear Mr. Simeone: 333 West Seventh Avenue Anchorage, Alaska 99501-3572 Main: 907.279.1433 Fax: 907.276.7542 Enclosed is the approved application for permit to drill the above referenced development well. The permit is for a new wellbore segment of existing well Permit No. 210-125, API No. 50-029- 23431-00-00. Production should continue to be reported as a function of the original API number stated above. 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 a AOGCC order, or the terms and conditions of this permit may result in the revocation or suspension of the permit. Sincerely, Cathy P. oerster Chair DATED this LAd—ay of November, 2014. RECEIVED STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION PERMIT TO DRILL 20 AAC 25.005 NOV 13 2014 A0GC0 1 a. Type of Work: 1 b. Proposed Well Class: Development - Oil Q , Service - Winj ❑ Single Zone Q 1 c. Specify if well is proposed for: Drill ❑ Lateral . 2] Stratigraphic Test ❑ Development - Gas ❑ Service - Supply ❑ Multiple Zone ❑ Coalbed Gas ❑ Gas Hydrates ❑ Redrill ❑ Reentry ❑ Exploratory ❑ Service - WAG ❑ Service - Disp ❑ Geothermal ❑ Shale Gas ❑ 2. Operator Name: 5. Bond: Blanket ❑ . Single Well ❑ 11. Well Name and Number: ENI US Operating Co. Inc. Bond No. RLB0008627 OP17-02 L1 3. Address: 6. Proposed Depth: 12. Field/Pool(s): 3800 Centerpoint Drive Suite 300, Anchorage 99503 MD: 18213 ' TVD: 3494' Nikaitchuq/ Schrader Bluff . 4a. Location of Well (Governmental Section): 7. Property Desi lion Lease um eCrS): 43 Surface: 3157 FSL, 1654 FEL, S5 T13N R9E UM 391283 ADL 0, a (,Qa88572 Top of Productive Horizon: 8. Land Use Permit: 13. Approximate Spud Date: 699 FSL, 2008 FEL, S31 T14N R9E UM ADL 417493 11/23/2014 Total Depth: 9. Acres in Property: 14. Distance to Nearest Propertv: 1482 FSL, 4076 FEL, S25 T14N R8E UM 3780 - 607' to unit boundary 4b. Location of Well (State Base Plane Coordinates - NAD 27): 10. KB Elevation above MSL: 53.25 ft, 15. Distance to Nearest Well Open Surface: x- 516626 y- 6036509 Zone- 4 - GL Elevation above MSL: 12.2 ft to Same Pool: 95' to OP17-02 16. Deviated wells: Kickoff depth: $&1(� -35t7 feet 17. Maximum Anticipated Pressures in psig (see 20 AAC 25,035) Maximum Hole Angle: 94.73 degrees • Downhole: 1579 psig . Surface: 1193 psig . 18. Casing Program: Specifications Top - Setting Depth - Bottom Cement Quantity, c.f. or sacks Hole Casing Weight Grade Coupling Length MD TVD MD TVD (including stage data) Driven 20" 178.89 X-65 Welded 124 36 36 160 160 Pre -Installed 16" 13-3/8" 68 L-80 BTC 2214 35 35 2249 2170 In place / Completed 12.25" 9-5/8" 40 L-80 Hydril 563 8183 33 33 8216 3543 In place / Completed 8-3/4" 5-1/2" 1 15.5 L-80 Hydril 521 10197 8016 3528 18213 3494 Sidetrack - Liner in open hole 19. PRESENT WELL CONDITION SUMMARY (To be completed for Redrill and Re -Entry Operations) Total Depth MD (ft): Total Depth TVD (ft): Plugs (measured): Effect. Depth MD (ft): Effect. Depth TVD (ft): Junk (measured): 18200 3523 Casing Length Size Cement Volume MD TVD Conductor/Structural 124.00 20" 160.00 160.00 Surface 2,214.00 13 3/8" Surface Lead: 470 bbls 2,249.00 2,170.00 12.5ppq Tail: 80 bbls Intermediate 8,472.00 9 5/8" 12.5ppg DeepCrete: 300bbls 8,505.30 3,558.00 Production Liner 9,775.00 5 1/2" Liner / Open Hole 18,040.00 3,519.00 Perforation Depth MD (ft): Perforation Depth TVD (ft): 20. Attachments: Property Plat ❑� BOP Sketch Q Drilling Program ❑✓ Time v. Depth Plot ❑ Shallow Hazard Analysis 0 Diverter Sketch Q Seabed Report ❑ Drilling Fluid Program 20 AAC 25.050 requirements0 21. Verbal Approval: Commission Representative: Date 11/13/2014 22. 1 hereby certify that the foregoing is true and correct. Contact Andrea Lazzari 907-230 7511 Email andrea.lazzari@enipetraleum.com Printed Name avide Simeone Title Well Ops Project Manager 1/ Signature A' Phone (907) 865-3320 Date 11 /13/2014 Commission Use Only Permit to Drill API u r: Permit Approval See cover letter for other Number: - 50- 9 - 3 3 - �p - DO Date: ` Q 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. S , t- Samples req'd: Yes ❑ No [� Mud log req'd: Yes ❑ No [✓]� ✓ H2S measures: Yes ❑ No LJw Directional svy req'd: Yes 19/ No ❑/ Spacing exception req'd: Yes ❑ No [.� Inclination -only svy req'd: Yes ❑ No Q (APPROVED BY Approved by: COMMISSIONER THE COMMISSION Date: -/ LL Form 10 401 (Resed 10% � i 2171 Tj�(s p@(m�t i�val[d or 4 mOn_ths from the dati)�' p Val (20 AAC 25-(�g)/) Attachments in Duplicate 2ni Einli Pear©Ile u rnn� 3800 Centerpoint Drive Suite 300 Anchorage, Alaska 99503 Davide Simeone Phone (907) 865-3320 Email: Davide.Simeone@enipetroleum.com November 13, 2014 Alaska Oil and Gas Conservation Commission 333 West 71h Avenue, Suite 100 Anchorage, Alaska 99501 RE: Application for Permit to Drill Producer OP17-02 Ll Dear Commissioners, RECEIVED NN 13 2014 AOGCC Eni US Operating Co. Inc. hereby applies for a Permit to Drill (Sidetrack Existing Well OP17-02) for the Offshore Producer well OP17-02 L1. This well will be drilled/sidetracked and completed using the rig Nabors 245. The planned spud date could be as early as 11/23/2014. Please find attached for the review of the Commission forms 10-401, the information required by 20 ACC 25.005. If you have any questions or require further information, please contact Andrea Lazzari 907-230 7511. Sincerely, Q. uVA Davide Simed Well Operatio ** Einfi Petroleum 2n-i Application for Permit to Drill OP17-02 L1 Saved: 13-Nov-14 Application for Permit to Drill Document Producer Well OP17-02 L1 Table of Contents 1. Well Name................................................................................................................3 Requirements of 20 AA 25.005 (t)........................................................................................................3 2. Location Summary..................................................................................................3 Requirements of 20 AA 25.005(c)(2).................................................................................................... 3 Please see Attaoment7.• Surface Platt..................................................................................................3 Requirements of20AAC25.050(b)................................................................................-.......................3 3. Blowout Prevention Equipment Information....................................................4 Requirements of 20 AA 25.005(c)(3)....................................................................................................4 4. Drilling Hazards Information................................................................................4 Requirements of 20 AA 25.005(c)(4)...................................................................................................4 S. Procedure for Conducting Formation Integrity Tests......................................4 Requirements of 20 AA C 25.005 (c)(5)...................................................................................................4 6. Casing and Cementing Program..........................................................................5 Requirements of 20 AA 25.005(c)(6).................................................................................................... 5 7. Diverter System Information...............................................................................5 Requirements of 20 AA 25.005(c)(7).................................................................................................... 5 S. Drilling Fluid Program............................................................................................6 Requirements of20AAC25.005(c)(8)....................................................................................................6 LateralMud Program ................................ ........................... --................................................................ 6 (MI fazePro Mineral Oil Base)................................................................................................................. 6 9. Abnormally Pressured Formation Information.................................................6 Requirements of 20 AAC 25.005(c)(9)................................................................................................... 6 10. Seismic Analysis...............................................................................................6 Requirements of 20 AA 25.005(c)(10)................................................................................................. 6 11. Seabed Condition Analysis.............................................................................6 AOGCC PERMIT Document Page 1 of 7 Printed: 13-Nov-14 1119* erns • Enli Pethrolleum Application for Permit to Drill OP17-02 L1 Saved: 13-Nov-14 Requirements of 20 AAC 25.005 (c)(11)................................................................................................. 6 12. Evidence of Bonding........................................................................................6 Requirements of 20 AA 25.005(c)(12)................................................................................................. 6 13. Proposed Drilling Program.............................................................................7 Requirements of 20 AA 25.005 (c)(13)................................................................................................. 7 14. Discussion of Mud and Cuttings Disposal and Annular Disposal .............7 Requirements of 20 AA 25.005(c)(14)................................................................................................. 7 15. Attachments......................................................................................................7 Attachment 1 Drilling Procedure.............................................................................................................. 7 AttachmentDirectional Plan.................................................................................................................7 Attachment 3 Drilling Hazards Summary................................................................................................. 7 Attachment 4 BOP and Diverter Configuration........................................................................................ 7 Attachment 5 Cement Loads and CemCADE Summary........................................................................... 7 Attachment 6 Formation Integrity And Leak Off Test Procedure............................................................ 7 Attachment7 Surface Platt...................................................................................................................... 7 Attachment 8 Casing Design Program..................................................................................................... 7 AOGCC PERMIT Document Page 2 of 7 Printed: 13-Nov-14 ' Cin li Penrolleum en i Application for Permit to Drill OP17-02 L1 Saved: 13-Nov-14 1. Well Name Requirements of 20 AA 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 AA 25. 040(b). For a well with multiple well branches, each branch must s1milany 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: OP17-02 L1 2. Location Summary Requirements of 20 AA 25.005(c)(2) An application for a Permit to Dn/l must be accompanied by each of tie following items, except for an item already on file with the commission and identified in the application: (2) 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 Me surface, referenced to bye state plane coordinate s} stem for this state as maintained by the National Geodetic Survey in the National Oceanic and Atmospheric Administration; (C) the proposed depth of Me well at the top of each objective formation and at total depth, Location at Surface 3157 FSL, 1654 FEL, S5 T13N R9E UM ASP Zone 4 NAD 27 Coordinates RKB Elevation 53.2' AM S L Northing: 6, 036,509' fasting: 516,626' Pad Elevation 12.2' AM SL Location at Top of 699 FSL, 2008 FEL, S31 T14N R9E UM Productive Interval "OA" Sand ASP Zone 4 NAD 27 Coordinates Measured Depth, RKB: 8 549' Northing., 6,039,320' Fasting: 510,978' Total Vertical Depth, RKB: 3 545' Total Vertical Depth, SS., 3 491' Location at Total Depth 1482 FSL, 4076 FEL, S25 T14N R8E UM ASP Zone 4 NAD 27 Coordinates Northing: 6,045,375' Fasting: 503,762' Measured Depth, RKB: 18 213' Total Vertical Depth, RKB: 3 494' Total Vertical Depth, SS.• 3 440' Please see Attachment 7.• Surface Platt 6,,:. (D) other information required by 20 AA 25.050(b); Requirements of 20 AA 25.050(b) It a well is to be intentionally deviated, tie application for a 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 and (2) for all wells within 200 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. AOGCC PERMIT Document Page 3 of 7 Printed: 13-Nov-14 • Eini FkArolleum c�na Application for Permit to Drill OP17-02 L1 Saved: 13-Nov-14 3. Blowout Prevention Equipment Information Requirements of 20 AA C 25.005(c)(3) 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: (3) a diagram and description of the blowout prevention equipment (ROPE) as required by 20 A4C25.035, 20 AAC25.036, or 20 AAC 25.037, as applicable; Please see Attachment 4: BOP and Diverter Configuration 4. Drilling Hazards Information Requirements of 20 AA 25.005 (c)(4) An application for a Permit to Drill must be accompanied by each of b4e following items, except for an 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 Schrader Bluff sand is 0.45 psi/ft, or 8.6 ppg EMW (equivalent mud weight). The maximum potential surface pressure (MPSP) based on the above expected pressure gradient, a methane gradient (0.11), and the planned vertical depth of the OA sand formation is: PSP = (3508' TVDss)(0.45 - 0.11 psi/ft) = 1193 psi (B) data on potential gas zones; The well bore is not expected to penetrate any gas zones. and (C) data concerning potential causes of hole problems such as abnor mally geo pressured strata, lost circulation zones, and zones Mat have a propensity for differential sticking; Please see Attachment 2: Drilling Hazards Summary. S. Procedure for Conducting Formation Integrity Tests Requirements of 20 AA 25.005 (c)(5) An application for a Permit to Dn11 must be accompanied by each of Me 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 20 AA 25.030(t) Please see Attachment 6: Formation Integrity And Leak Off Test Procedure AOGCC PERMIT Document Page 4 of 7 Printed. 13-Nov-14 lrfW EEDn! Pethrolleun-in 2ni Application for Permit to Drill OP17-02 L1 Saved:13-Nov-14 6. Casing and Cementing Program Requirements of 20 AA C 25.005(c)(6) An application for a Permit to Drill must be accompanied by each of tine 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 20 AAC 25.030, and a description of any slotted liner, pre - perforated liner, or screen to be installed, Casing and Cementing Program See also Attachment 4: Cement Summa Hole Top stm Csg/Tbg Size Weight LengM MD/7VD MD/7VD OD in in /b ft Grade Connection R R R Cement Pfoaram 20 Driven 178.89 X-65 Welded 124 36 / 36 160'/ 160' Pre -Installed 13-3/8 16 68 L-80 BTC 2,214' 35 / 35 2,249' / 2,170' Complete 9-5/8 12-1/4 40 L-80 Hydril 563 8,472 33 / 33 8,505'/3,558' Complete 5-1/2 8 3/4" OA Sand 15.5 L-80 Hydril 521 10,197' 8,016/3,528' 18,213'/3,494' New Liner in Open Hole no Lateral cement 7. Diverter System Information Requirements of 20 AAC 25.005(c)(7) An application for a Permit to Drill must be accompanied by each of Me following items, except for an item already on file with the commission and identified in the application: (7) a diagram and description of the diverter system as required by 20 AAC 25.035, unless this requirement is waived by the commission under 20 AAC 25.035(h)(2); Please see Attachment 4: BOP and Diverter Configuration. AOGCC PERMIT Document Page 5 of 7 Printed: 13-Nov-14 �* • Er —di Petroleum 2n� Application for Permit to Drill OP17-02 L1 Saved: 13-Nov-14 8. Drilling Fluid Program Requirements of 20 AAC 25.005(c)(8) An application for a Permit to DWI must be accompanied by each of the following items, except for an item already on file wibi the commission and identified in the application: (8) a drilling fluid program, includin.9 a diagram and description of the drilling fluid system, as required by 20 AAC 25.033; Drilling will be done with muds having the following properties over the listed intervals: Lateral Mud Program (MI FazePro Mineral Oil Base) Value Density 8.7 — 9.4 Plastic Viscosliy CP 15 - 25 Yield Point /b/100 so 15 - 20 HTHP Fluid loss (m//30 min @ <5.0 200 si & 100°F O/// Water 60 / 40 Rat/o Electrical >600 Drilling fluid practices will be in accordance with appropriate regulations stated in 20 AAC 25.033. 9. Abnormally Pressured Formation Information Requirements of 20 AAC 25.005 (c)(9) in 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: (9) for an exploratory or stra6praphic test well, a tabulat7on setting out Me depths ofpredicted 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)(10) Af, appiaanon for a Permrii to 01111 must oc accompanied by each of Me following items, except for an item already on file with the commission and identified in the application: (10) for an exploratory or strabgraphic test well, a seismic refraction or refiecbbn 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 for a Permit to Dn l 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 a well drilled from an offshore platform, mobile bottom -founded structure, jack -up rig, or Abating drilling vessel, an analysis of seabed conditions as required by 20 AAC 25.061(b); Not applicable: Application is not for an offshore well. 12. Evidence of Bonding Requirements of20AAC25.005 (c)(12) An application for a Permit to Dn11 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 Me requirements of 20 AAC25.025 (Bonding}have been met; Evidence of bonding for ENI is on file with the Commission. AOGCC PERMIT Document Page 6 of 7 Printed: 13-Nov-14 PC 2ni ■ • ��n li Pearolle um Application for Permit to Drill OP17-02 L1 Saved: 13-Nov-14 13. Proposed Drilling Program Requirements of 20 AA C 25.005 (c)(13) An application for a Permit to Dn/l must be accompanied by each of the following items, except for an item already on file with the commission and identified in the application: Please refer also to Attachment 1 — Drilling Procedure 14. Discussion of Mud and Cuttings Disposal and Annular Disposal Requirements of20 AAC 25.005 (c)(14) An application for a Permit to DWI must be accompanied by each of the following items, except for an item already on rile with the commission and identified in the application: (14) a general description of how the operator plans to dispose of dri0ing mud and cuttings and a statement of whether the operator intends to request authorization under 20 AAC 25.080 for an annular disposal operation in the well; Waste fluids generated during the drilling process will be disposed of by injection down an Oliktok Point or Oliktok Point Class I disposal well. Alternative disposal method will include hauling the fluids to the Prudhoe Bay Grind and Inject Facility. 15. Attachments Attachment 1 Drilling Procedure Attachment 2 Directional Plan Attachment 3 Drilling Hazards Summary Attachment 4 BOP and Diver ter Configuration Attachment 5 Cement Loads and CemCADE Summary Attachment 6 Formation Integrity And Leak Off Test Procedure Attachment 7 Surface Platt Attachment 8 Casing Design Program AOGCC PERMIT Document Page 7 of 7 Printed: 13-Nov-14 Attachment 1 Drilling Procedure VJ;';* 2nn us operfing WELL OP17-02 L1 Drilling Procedure OP 17-02 L 1 Oliktok Point Conductor slot #17 Reservoir location #02 Producer (Schrader Bluff) Nikaitchuq Project OP17-02 L1Drilling Wellplan Page 1 of25 11/13/14 rri en i us oocrrafing WELL O P 17-02 L 1 Oliktok Point Nikaitchuq Field an° petroleum North Slope - Alaska OP17-02 L1 DIR / LWD DEPTH HOLE USING MUD INFO MWD FORM SIZE SPECS INFO MD TVD Cernent to Surface 20" Hole Angle X-65 0° 20" Conductor Shoe 160' 160' 0 Driven Welded N/A GR / Res Surface Csg 13-3/8" Dir/PWD l y 68# MW (ppg) Wellbore Stability Mud Motor Surface T/ Tail Cerrent 1,745' 1, 712' L-80, BTC 8.8 - 9.5 Lost Circulation - Hole Cleaning - Casing Sections KOP: 300' - Casing Wear DLS: B/ Permafrost 1, 816' 1,780' �1 0-5. °/100' Hole Angle 30.82 Deg 13-3/8" 2 249' 2 170' 16" 50' F WBM GR / RES / PW D Inter. Casing Wellbore Stability 9-5/8" Lost Circulation Xceed 900 40 # MW (ppg) Hole Cleaning L-80, Hydrl 563 8.8 - 9.5 Torque & Drag Casing Sections Tangent Angle: Casing Wear 86.50 Deg BHA Expense Interrrediate TOC 5,872' 3,232' i Pick-up Top of Sand N Top 6,872' 3,396' JJD I I Hole Angle TOL 8,016' 3,528' x --'I 87.86 Deg Base Whipstock 8,216' 3,543' I 1 1 12.25" 1 85° F WBM GR / RES ADN/ PeriSCOPE Wellbore Stability I Lost Circulatior. D a I I ql-- i in a. Hole Cleaning f0 5-1/2" Torque &Drag m 15.5 # MW (ppg) Casing Sections Xceed 675 I L-80, Hydril 521 8.7 - 9.4 Casing Wear BHA Expense - I I I I Liner shoe TD 18,213' 3,494' Hole Angle 89.90 Deg 0 85° F MOBM OP17-02 Ll Drilling Wellplan Page 2 of 25 11/13/14 2no us operraVng WELL OP17-02 L1 WELL PLAN SUMMARY WELL HISTORY ............... Table of Contents ................................................................... 4 ................................................................... 6 DE -COMPLETION SECTION................................................................................................... 7 RIH WHIPSTOCK AND 9 5/8" MILLING OPERATIONS ................................................... 8 Pick Up Production Drilling Assembly....................................................................... 10 PRODUCTION SECTION........................................................................................................ 11 ProductionDrilling........................................................................................................ 13 ProductionLiner........................................................................................................... 14 ATTACHMENTS....................................................................................................................... 18 Recommended Drilling Practices................................................................................. 19 Health, Safety & Environment..................................................................................... 20 SafetyMeeting Topics................................................................................................... 21 Well Shut In Procedure While Running Production Tubing .................................... 23 Conductor Broach — Contingency Cementing Plan ................................................... 24 TAM PORT COLLAR Utilization Decision Tree ...................................................... 25 OP17-02 Ll Drilling Wellplan Page of25 11/13/14 )WA enn us operrfing WELLT_ OP17-02 L1 WELL PLAN SUMMARY Rig: Nabors 245 Type of "'ell: Producer Well Design: 13-3/8" Surface x 9-5/8" Intermediate x 5-1/2" Liner Close Approach and Offset Well Interception Risks It is important to stay as close as practical to the planned directional program. The directional program and a summary of close approaches can be found in the attachments. These close approaches will be in conformance with the minimum well separation criteria detailed by the Drilling Anti -Collision Analysis and Close Approach Guidelines. It is the responsibility of the Directional Driller and the Drilling Supervisor to ensure that the directional plan is executed as planned, that the position of the well as it is drilled is monitored on an anti -collision diagram and that no tolerance line for close approach wells is crossed. It is important that the well bore remains close to the planned well path as any major deviations from the profile may adversely affect the ability to drill future wells and still adhere to the current close crossing guidelines. Survey Program & Procedures Take MWD surveys as frequently as needed, but no less than every 100 ft. Carefully review the anticipated close crossings with existing wellbores and future well paths. Make sure that directional drillers are aware of all drilling close crossing issues, hard lines and no-go lines. If a no-go or hard line has been or will be crossed, stop drilling immediately and contact the Drilling Superintendent to discuss options. Mud Logging Program Mudlogging will be utilized from spud to production hole TD. Refer to the Geological Mud Logging Procedure document. OP17-02 L1 Drilling Wellplan Page 4 of 25 11/13/14 2no WELL O P 17-02 L 1 OBJECTIVES: 1. Drill the well at or under AFE cost and time. Perform work in a safe and professional manner meeting all ENI Petroleum Health, Safety, and Environmental requirements. 2. Cut window in the 9 5/8" casing and drill 2"d lateral per the well plan. Maximum dogleg severity in the landing shall be no greater than 3.5'/100' DLS. 31and Intermediate casing point within 100' radius of the planned directional target. 4. Execute the setting and orientation of the whipstock per the wellplan. 5. Target Greater than 90% within the OA sand Reservoir. 6. 8-3/4" hole LWD Failure Requirements: GR/Res/Dir/PWD— Require GR/Res/Dir to achieve TD. OP17-02 Ll Drilling Wellplan Page 5 of25 11/13/14 eni us operrafing WELLT- O P 17-02 L 1 WELL HISTORY PTD#:210-125 Current Status Well OP 17-02 is currently in production. Scone of Work Scope of this workover is to pull the current TTC-ESP tubing completion, RIH and set a retrievable whipstock, mill a window in the 9 5/8" casing, drill a new 8 3/4" lateral section, RIH a second 5 '/2" slotted liner and run in with a new TTC-ESP system to have a commingle production for both lateral. General Well info Reservoir Pressure/TVD: Reservoir depth is 3,544'TVD and pressure at that depth is: 1595 psi. Wellhead type/pressure rating: Vetco Gray, MB-247/5000 psi BOP configuration: Annular/pipe/blind/Flowcross/pipe OP17-02 L1 Drilling Wellplan Page 6 of 25 11/13/14 2no us operrObg WELLLl-- O P 17-02 L 1 DE -COMPLETION SECTION Procedure: 1. MIRU Nabors 245. 2. Shear lower GLM valve and circulate 9.1 ppg hot water with 3% KCl kill fluid through tree. 3. Set BPV. ND tree and NU BOP and test to 3500 psi.. 4. Pull tubing to lower GLM. Rig up wireline and pull tubing stop check valve. 5. Circulate out remaining production fluid. 6. Continue POOH and lay down ESP assembly. Below the current schematic of the well: Surf- Casing 13-318", 68 # +1- 2,249 MD, 2,170' TVD 310 Inc. Item MD (ft) Tracer Sub #1 16,601 Tracer Sub #2 15,330 Tracer Sub #3 13,911 Tracer Sub #4 12,793 Tracer Sub #5 11.826 Tracer Sub #6 ! 11,016 Tracer Sub #7 ! 9,500 Tracer Sub #8 8.501 Nlkaftnuq Field - OHktok Point Fad Vacuum Insulated Tubing (VIT), 4-14z" x approx 80', two joints 4 'W 12.6 ppf Production Tubing Pni us operating OP17-02 Oil Producer with ESP Lift As Completed 2,57Z MD, 2,42T TVD, 43.5° inc. - GLM, KBMG, 4-'/2" x 1", 12/18/2010 with 1,300 psi STS-1 SOV installed, 31° incl. 4-Y:" cable clamps, for ESP Power Cable, (1) 3/8" Chem Inj Line 7,889 MD, 3,519 TVD, 8& inc.- Bottom of Motor Centralizer Centrilift TTC-ESP, 116-stage 38OP18SXD pump, 513 GSB3DB tandem seals, 126 HP MSP motor 8,265'MD, Baker Liner HanartgeUPacker HAL Zonal Isolation 5-Y= Silver Bullet Ecc. Liner Swell Packers Nose Guide Shoe Interm. Casing I Slotted Liner, 9-5/8", 47 # Resman Prod 5-W 17 ppf 8,506' MD, 3,55T TVD Tracer Carrier 18,040 km, 8r Inc. 3,527 TVD Confidential ovasrr i wok OP17-02 L1 Drilling Wellplan Page 7 of 25 11/13/14 YUM efni uss operrfing WELL OP17-02 L1 RIH WHIPSTOCK AND 9 5/8" MILLING OPERATIONS 1. RIH with a clean out BHA to the top of the liner 8,265' MD 2. Displace a well to LSND mud Mill a window in 9 5/8" 40# casing. Notes: a) It is important that the whipstock assembly be spaced out to ensure that the entire window is milled between casing collars. b) The approximate overall length of the casing window to be milled is 14'-16' ft. c) All measurement and procedures are to be double-checked and approved by Co.Man prior to running the whipstock/window milling assembly in the hole. d) Ensure drill pipe pup joints are available for the correct space out e) After the window is milled, the upper watermelon mill should be gauged. If the upper watermelon mill is more that 1/8" under gauge a cleanup trip is recommended to ensure window is fully open. A back up set of mills should be on location. f) Ditch magnets should be placed in the flow line to recover all metal circulated out of the well Whiustock/Window Milling Guidelines: ➢ Check with Geologist to confirm if there is a concretion at the window milling depth. ➢ Never rotate a bit on the face of the whipstock ➢ Orient the BHA ( if motor is used) above the window before attempting to exit the window. Bit rotation may "catch" the edge of the whipstock and damage the face making recovery operations more difficult. ➢ If at any time during operations a problem is encountered tripping through the window area, a watermelon or string mill should be run in the drilling assembly to clean up the window area ➢ Always trip slowly and carefully ( +/- 90 seconds per stand) with all BHA's through the milled window OP17-02 Ll Drilling Wellplan Page 8 of 25 �� 11/13/14 2n� us operraHng WELL7 OP17-02 L1 Procedure: 1. Prior to mill the window, hold a Tech Planning meeting to discuss this phase of the well. Review the well plan and discuss any discrepancies or concerns with the drilling superintendent 2. RIH the whipstock assembly 3. At surface align the MWD with the whipstock face 4. Shallow test the MWD tools 5. RIH to setting depth 6. 45' above setting depth establish circulation and work torque out of string. 7. Orient the whipstock as per well plan. Once the correct orientation is confirmed, reciprocate the whipstock to confirm that the face has not rotated. Re -check the orientation with an additional survey. 8. Once orientation and depth have been agreed upon by all relevant parties, set the whipstock assembly. 9. Initiate circulation and obtain a survey of the installed whipstock orientation 10. Start 9 5/8" casing milling operation. Establish rotation to begin milling the window. 11. After the window is complete and before POOH, shut pumps and work milling assembly through window several times watching for drag. POOH and L/D milling assembly. OP17-02 L1 Drilling Wellplan Page 9 of 25 11/13/14 WELL us werafin OP17-02 L1 Pick Up Production Drilling Assembly 1. PU the 8-3/4" bit and the BHA assembly as per the BHA diagram. ➢ 8-3/4" PDC ➢ Rotary Steerable ➢ Flow rate: 550 GPM ➢ 120 — 140 RPM Oil Based Mud Fluid Displacement 2. Displace casing to new Oil Based Reservoir Drilling Fluid ➢ Do not contaminate new OBM in rig pits 3. Drill 20'-50' of new hole usin-a the Oil Based Reservoir Drill -In fluid. 4. Perform Leak Off Test as per AOGCC requirements following the attached LOT Procedure. ➢ PU into casing and perform LOT. ➢ If the pressure continues to rise past 12.5 ppg EMW, shut down and call it a FIT per the FIT Guidelines (attached). ➢ If LOT is unacceptable to drill ahead (less than 12.0 ppg EMW), contact Drilling Superintendent to discuss options. ➢ Do not pump more than 1/2 bbl after leak off is determined. There is no need to pump more than 1 /2 bbl into the leak off and extend the fracture. ➢ Plot on LOT form in N drive OP17-02 L1 Drilling Wellplan Page 10 of25 11/13/14 2no uss operrafing WELL O P 17-02 L 1 PRODUCTION SECTION Surface Formation Markers: (all depths Nabors 245: Schlumbemer Plan (2) Formation Tops Measured Depth, ft True Vertical Depth, ft Comments SV-4 716 715 SV-3 963 959 SV-2 1231 1220 SV-1 1730 1698 U nu To (UG4) 2076 2019 13-3/8" Csg 2249 2170 SCP UG-2 Coal Bed Marker 2614 2457 Lower U nu 5061 3090 Schrader Bluff Top 6437 3324 N Sequence Top 6664 3361 N Top 6872 3396 N Bottom 7102 3435 N Sequence Base 7404 3480 OA Top 8083 3534 OA-2 Top 8208 3542 Base Whipstock 8216 3543 9-5/8" Csg 8506 3558 ICP IN PLACE OA-2 Top 8549 3545 OA-3 Top 10443 3556 OP17-02 Fault A 11124 3537 OA4 Top 11766 3520 OP17-02 Fault B 11801 3520 OP17-02 Fault C 12625 3531 OP17-02 Fault D 15751 3536 OP17-02 Fault E 17182 3492 5-1/2" Liner 18213 3494 Total Depth OP17-02 Ll Drilling Wellplan Page 1 I of25 11/13/14 WELL s C�(�il i US ODDerrafin OP17-02 L1 Production Mud Program: FazePro Electrical Interval Density yp HTHP FL Oil:water Stability (ppg) (ml/30min) mlVolts Production 8.7 14-20 <5.0 65:35 >600 Production Loadng/Formation Evaluation Program: Production: MWD Directional / PWD Pressure While Drilling) LWD GR / Res / ADN/ PeriSCOPE Production Drill Pipe Tool Tool Make Up Joint Body DP Tensile Pipe WT Grade n'e I�Dt Joint �l� Torque rsion Torsional capacity Capacity (PP)I ID (in) ID (ft.lbs) al Yield worm. (kips) in t lbs t.lbs al / t 5" DP 19.5 S-135 TT525 6.50 3.875 4.276 49,600 82,700 74,100 .731 712 Production Section Notes: a. Monitor hole conditions carefully. Be alert for early signs of lost circulation and differential sticking. If any of these problems are observed immediately notify the Drilling Supervisor or Toolpusher (attempt to keep the pipe moving and circulation established). Ensure that all team members are communicating with each other on any observed drilling trends and that everyone understands the potential risks. b. Shallow test MWD tools. c. Good drilling and tripping practices are vital for avoidance of differential sticking. Make every effort to keep the drill string moving whenever possible and avoid stopping with the BHA across the sand for any extended period of time. d. Keep shut down times to a minimum during connections. When surveying in this hole section reciprocate the pipe slowly while the survey is transmitted uphole. Keep the pipe rotating whenever possible. e. Ensure the Top Drive Torque Limit is set below the lowest make up torque in the string. Do not run the risk of further make up to a connection while drilling. Oaenhole Sidetrackine Practices: f. Lowside in a fast drilling interval where the wellbore is heading up and where the ABI's show a good build rate. g. Orient within 15 degrees either side of lowside and trough with high rotary RPM's while reciprocating from the kickoff point back to the first stabilizer. Trough for approximately 30 minutes. h. Time drill at 4 to 6 feet per hour with high flow rates and rotary RPM's for the first 5 feet. Gradually increase the penetration rate as the openhole sidetrack is achieved. i. If any openhole sidetracks are drilled, confer with Drilling Supt. and consider tripping without circulating or without rotating past the sidetrack point. OP17-02 Ll Drilling Wellplan Page 12 of25 11/13/14 WELL 2rn� GIs oro)crraC�n OP17-02 L1 Production Drilling 1. Directionally drill the 8-3/4" hole to TD. ➢ Geosteering will be required to remain in the target boundary 100% of the time ➢ Maintain sufficient flow rate with maximum pipe rotation as needed to bring mud/well properties in line. ➢ Maintain proper Calcium Carbonate concentration per MI mud plan. ■ Ensure Centrifuges are operating effectively to remove fine drill solids 2. Backream at TD: ➢ At TD circulate 50% of calculated TAD cleanup cycle pulling 1 stand per bottoms up. Once the first 50% cleanup cycle is completed circulate the remaining 50% of the calculated cleanup cycle pulling 2 stands per bottoms up. Decrease backreaming speed as torque and pump pressure dictate. ■ 550 GPM ■ 120-140 RPM ➢ Backream into the intermediate casing shoe. ■ 550 GPM ■ 120-140 RPM • Slow backreaming speed when pulling BHA into the Intermediate casing shoe/rathole. Hold parameters steady at 550 GPM and 120 RPM. • Decrease backreaming speed as torque and pump pressure dictate ■ NOTE: once backreaming in the open hole has been started, do not stop backreaming. Do not attempt to pull out on elevators once backreaming has started. 3. Drop rabbit down drill string once bit is above the intermediate shoe: the SLM of landing string portion of the tapered DP ■ Drift OD dependent on Completion ■ COMPLETION DP RABBIT SIZE: 2-3/8" OD ■ All drifting tools will be accounted for and held in one place at all times. 4. Continue backreaming until death at which it is possible to pull out on elevators at >8.6 swab EMW at 2.5 min/stand / ■ 550 GPM ✓ ■ 120-140 RPM • Determine depth at which swab can be kept >9.1 EMW at 2.5 min/stand as per K&M TAD Model. 5. Circulate until shakers are clean as uer K&M. ■ 550 GPM ■ 120-140 RPM 6. Slug DP and trip out of hole on elevators. ➢ Utilize K&M's swab model to control trip speed and avoid swabbing the open hole below 9.1 ppg EMW. OP17-02 L1 Drilling Wellplan Page 13 of25 11/13/14 us operrafing WELLT_ OP17-02 L1 7. Lay down BHA ➢ When out of hole, down load the recorded tool data and send to the Geologist in town 8. RIH w rieving tool assembly to retrieve the whipstock assembly Production Liner Completion DP RABBIT SIZE Will BE: 2-3/8" OD Production Liner OD WT (ppj) Grade Conn. Cplg OD ID (in) Drift (in) Collapse Burst Tensile Field (in) Tye (in) (psi) (psi) (kips) 5-1/2 15.5 L-80 H521i1 5.713 4.950 4.825 4990 7000 242 Production Liner Connection Make Up Torque (ft-lbs) Min. Target Max. OD WT Grade Conn. Type Make Up Make Up Make Up Yield (in) (ppfi Torque, ft- Torque* Torque Torque lbs 5-1/2 15.5 L-80 H dril521 4600 8100 N/A 24,000 X See attached TenarisHydril Guidelines for make-up torque recommendations Production Liner Centralization From To Quantity / Joint Fixed / Floating Type Liner 1 / joint Fixed 5-1/2" x 7" Shoe to - Mid -joint - Crimped on - H droform, Volant (Crimp on) Liner Running Procedure Notes: • Ensure proper crossover from DP to slotted liner is on the rig floor in case of a well control situation. • Liner top should be placed a minimum of 200 ft above the intermediate casing shoe. • Ensure accurate torque and drag data is gathered. Record pick up and slack off weights every stand and free rotating torque every five stands. Data gathered will assist in future liner running operations throughout the project. • Perform visual inspection, measure and caliper all components prior to running any assembly in the hole. Ensure accurate dimensional data is recorded for all equipment run in the well and recorded in WellView. • Ensure all equipment has been hydraulically and operationally tested. Also ensure all equipment to be run is dimensionally compatible with all other equipment. • Review all setting operations and shear pressures with Baker Oil Tools service hand. OP17-02 Ll Drilling Wellplan Page 14 of 25 11/13/14 2rnn o us operrafing WELL OP17-02 L1 • Ensure that all workstring components have been rabbited as ball will be dropped to actuate downhole tools. Rabbit DP on last trip out of prior to running liner. • If any openhole sidetracks have been drilled, monitor sidetrack depths during run in and ensure shoe enters the correct hole. • DO NOT run E-CD subs on drill pipe while running liner string. • Torque ratings for string components: String Components Yield Torque ft-lb 5" 19.5# TT525 Drill Pie 74,100 HRD Running Too] 40,000 7" 29# H dril 563 39,000 5-1/2" 15.5# H dril 521 24,000 • Shear pressures for liner hanger assembly: Item Description Shear Value Shear Range HRD Running Tool, 7" 6795 mch rel, 3 ins Nominal - 3192 psi 15%+ 3671 psi 15% - 2713 psi Pusher Tool Activation Nominal - 1986 psi 15%+ 2284 psi 15% - 1688 psi Pusher Tool Neutriz. Nominal - 3588 psi 15%+ 4126 psi 15% - 3050 si Ball Seat SOLID *****Make-up torque for liner hanger sub -assembly, including running tool connections, should be torqued to 14,000 ft-lbs prior to deliver to rig. Procedure: 1. Hold Pre job safety meeting to ensure all parties understand operation 2. PU the Liner Assembly and Running/Inner String as outlined above. 3. RIH with Liner Assembly. Record PU and SO weights as required. 4. Pick up liner hanger assembly and make up to proper torque. Fill Liner Tieback Sleeve with "pal mix" and ensure mixture is thin enough to travel past the HRD tool and down to the packoff. Wait 30 minutes for mixture to set up. 5. Trip in hole one stand and circulate 5 bbls to ensure all flow paths are free. Record ROTATE, PU and SO of liner assembly. 6. RIH in hole to casing shoe with DP. RIH with Liner Assembly as hole conditions allow, but do not exceed running speed of one stand per minute. Break circulation and fill DP as necessary. 7. Monitor mud flow while running in open hole and slow running speed if necessary. Circulate minimum of one DP volume and record ROTATE, PU and SO weights. 8. Record PU, SO, and Rotating torque in open hole every 500' to ensure friction factors are sufficient to run the liner to bottom successfully. If friction trend indicates liner will not go to bottom then call Drilling Supt. immediately. 9. Rotating liner 20-60 RPM will be necessary to run to bottom. 10. Continue RIH with Liner Assembly to proper setting depth. Liner should be spaced out to locate the liner top approximately 200 feet above 9-5/8" window. 11. Trip slightly deeper than desired liner top location with liner top. Last motion of the liner should be up to ensure it is set in tension. Ensure Liner Hanger assembly does not exit 9-518" Window. OP17-02 L1 Drilling Wellplan Page 15 of25 11/13/14 tl/ y ernn i us operrafing WELLT- OP17-02 L1 12. Prior to setting the hanger & packer, double check all pipe tallies and record amount of drill pipe on location. 13. Rig up to pump down workstring with rig pumps. Pressure test lines. Bleed off test pressure. 14. Drop setting ball down the workstring and pump slowly (1-2 bpm). Slow pump before the ball seats. Do not allow ball to slam into ball seat. 15. Pressure up to 3000 psi and hold for 5-15 minutes to set SLZXP hanger packer. Continue pressuring up in 500 psi increments holding for 5 minutes each up to 4000 psi. 16. Packer can now be pressure tested. Bleed DP pressure to zero, close annular preventer and test annulus to 1,500 psi for 10 minutes and chart. 17. Bleed off pressure and pickup to verify that the HRD running tool has released. If packer did not test, rotating dog sub can be used to set packer. If running tool cannot be hydraulically released, 6,795 ft-lbs of left hand torque can mechanically release the tool. 18. Once running tool is free and packer is tested, Displace mud from liner top to surface with 9.0 ppg KCl brine per Ml recommended program. 19. POOH and LD and inspect the liner running tools. OP17-02 L1 Drilling Wellplan Page 16 of25 11/13/14 2(�1� us operraHng WELL OP17-02 L1 RIH ESP Completion Prepare to RIH ESP completion: 1. MU ESP assembly and RIH to setting depth. 2. Land hanger, RILDS and test hanger. 3. Install BPV and nipple down BOP. 4. NU tubing adapter and tree. 5. Pull BPV, install test plug and test tree. 6. Circulate Freeze protect through tree down IA. 7. Shut in well. 8. RDMO. OP17-02 L1 Drilling Wellplan Page 17 of25 11/13/14 ono Ms operraVng WELL O P 17-02 L 1 ATTACHMENTS 1. Recommended Drilling Practices 2. Health, Safety, and Environment 3. Safety Meeting Topics 4. Well Shut In Procedure While Running Tubing 5. Conductor Broaching Contingency Plan 6. Port Collar Decision Tree OP17-02 L1 Drilling Wellplan Page 18 of25 11/13/14 2no WELL O P 17-02 L 1 Recommended Drilling Practices Hole Cleaning With a deviated well path and potential for losses, hole cleaning will require special practices. Pipe rotation is critical for effective hole cleaning. The maximum string RPM, as determined by the BHA, is specified for each hole section in the detailed procedures. The shakers should be monitored as an indicator of adequate circulating time. If circulation is of long duration, then pipe movement to prevent casing wear is critical and a stand should be laid down occasionally to prevent excess hole erosion over the length of pipe reciprocation. In addition the following practices should be employed at all times: a) Use all available solids control equipment to keep mud as clean as possible. b) Emphasize proper hole cleaning after slides by rotating at maximum allowable RPM c) As the hole angle increases, hole cleaning practices must be altered. Maximum pipe rotating speeds along with maximum achievable flow rates will increase hole cleaning efficiencies. Circulating times prior to trips should be increased accordingly to account for longer times required to remove cuttings from higher angle wells. d) Use good connection practices while drilling. After reaching the bottom of a stand, allow a small amount of circulating time to allow cuttings to get above the BHA prior to picking up off bottom. Be sure to pick up slowly to prevent packing off the cuttings bed around the top of the drill collars. Slower Trip / Connection Speeds High POOH and RIH speeds can aggravate fragile shales/formations due to the pressure variations between surge/swab. PWD data shows that excessive tripping and reaming speeds can exert pressure spikes in excess of 2 ppg equivalent. Effective ROP Strive to find the maximum effective rate of penetration. That is, the maximum rate at which a clean hole can be produced. While on bottom ROPs in excess of 400 fph may be possible, but such ROPs may load a high angle hole with cuttings that are not being removed fast enough. Using torque and drag trends, ECD and the shakers, establish a base line clean hole ROP, and then try to improve it by altering the hole cleaning practices. Slower Initial Pump Rates PWD data has shown that the most significant period for increased ECD occurs when the pumps are brought on at drilling rate while washing a connection to bottom. The study also concluded the least damaging procedure is if pump rates are held at 40% or less of drilling rate while reaming connections. OP17-02 Ll Drilling Wellplan Page 19 of 25 11/13/14 ens us operrafing WELLT_ OP17-02 L1 Health, Safety & Environment The following are part of the mitigation & contingency measures to be put in place in order to complete this project while helping to meet our HS&E goals. It is the Drilling Supervisor's responsibility that these measures are implemented and communicated to the relevant parties on location. Good communication when drilling is essential for increasing the safety of personnel and equipment. H2S Contingency Measures Assume all locations have the potential for H2S. 1. The AOGCC will be notified within 24 hours if H2S is encountered in excess of 20 ppm during drilling operations. 2. The rig will have fully functioning automatic H2S detection equipment meeting the requirements of 20 AAC 25.066. Manual detectors in accordance with 20 AAC 25.065 will also be maintained on location. 3. Self-contained Breathing Apparatus for all rig personnel will be maintained on location. 4. All personnel engaged in the drilling operation will be trained in H2S emergency procedures and the use of proper personal protective equipment. 5. A standard H2S contingency plan will be posted at the rig. All rig personnel should read and familiarize themselves with this document and copies should be posted in the rig floor doghouse and in the camp on location. 6. H2S treating material for the drilling mud system will be available on location in the event that any H2S is encountered. It is expected that the rig and personnel will have the equipment and training to identify and contain a H2S emergency situation. If it becomes necessary to notify the AOGCC of an H,S encounter, drilling will be suspended and will resume only after the development of detailed remedial and contingency procedures, full compliance with 20 AAC 25.065 and the applicable referenced sections of API RP49 and approval of the AOGCC. Lessons Learned Documentation of lessons learned has been proven to reduce downtime and increase efficiency of rig operations. It is expected that planning meetings, daily operations meetings and pre -tour meetings will be held on a regular and consistent basis and that the records of those meetings will be placed on the N drive in the appropriate folder for this well. OPI7-02 Ll Drilling Wellplan Page 20 of 25 11/13/14 Jw-r*, 2rnn � us operraNng WELL OP17-02 L1 Safety Meeting Topics Move In, Rig Up ➢ Prior to spud, a safety meeting should be held with the rig crews to discuss open hole drilling procedures. - Subsidence around wellheads - use of buddy system, - Conductor broaching operations and contingencies, - Shallow gas hydrate drilling practices, - Proper tripping practices and hole fill calculations with various sizes of pipe and tubing. - Well control procedures, - Flow rates and hole cleaning, and - Dvverter operation and crew responsibilities. ➢ A 'Diverting Shallow Gas' drill should be held with rig crews prior to spud, unless each crew on tour has completed this drill within the past 3 months. Document drill and record on morning report. ➢ An 'Accumulator' drill should be held with rig crews prior to spud. Document drill and record on morning report. ➢ Shut-in drills should be held on a regularly scheduled basis. A suggested minimum is once per day on alternating tours. Document and record on morning report. ➢ Check trip tank for leaks and confirm gauges are calibrated. Complete trip sheets and submit to the Drilling Supervisor after each trip. ➢ Perform and document all drills. ➢ Designate crew member to control access at the pad entrance in case of diverter operation. Surface ➢ A 'Stripping' drill should be held with rig crews prior to drill out, unless each crew on tour has completed this drill within the past 3 months. Document drill and record on morning report. ➢ A 'Well Kill' drill should be held with rig crews prior to drill out, unless each crew on tour has completed this drill within the past 3 months. Document drill and record on morning report. ➢ A well kill sheet shall be posted in the doghouse and updated each tour. Intermediate ➢ Prior to picking up the BHA a safety meeting should be held with the rig crews to discuss hole risks and open hole drilling procedures. ➢ Potential formation pressures and mud weight, Well control procedures. ➢ Hole cleaning best practices, flow rates. ➢ Stuck pipe, Lost circulation. ➢ Proper tripping practices and hole fill calculations with various sizes of pipe and tubing. Production ➢ Prior to picking up the BHA a safety meeting should be held with the rig crews to discuss production hole risks and open hole drilling procedures. ➢ Potential formation pressures and mud weight, Well control procedures. ➢ Hole cleaning best practices, flow rates. ➢ Stuck pipe, Lost circulation. ➢ Proper tripping practices and hole fill calculations with various sizes of pipe and tubing. OP17-02 L1 Drilling Wellplan Page 21 of 25 11/13/14 corn i us operrafing WELL O P 17-02 L 1 Completion ➢ Operation of the control line spooler. Pinch points associated with tongs and slips. Proper tripping practices and hole fill calculations with tubing and control line. ➢ Well control practices while running production tubing with control line. Pressure testing and minimizing personnel exposure to pressurized lines. OP17-02 L1 Drilling Wellplan Page 22 of 25 11/13/14 2no Us OperrC ng WELL O P 17-02 L 1 Well Shut In Procedure While Running Production Tubing If well is suspected to be flowing: 1. Install TIW valve and pull back to the first banding point below the BOP stack. 2. Shut off air to control line spool and bleed off line pressure while checking well for flow. 3. If well is confirmed to be flowing, cut control line with bolt cutters directly above a banding point. 4. Slack off until full joint of pipe with no control line attached is spaced out across BOP stack. 5. Close annular and monitor pressure. If well is coming in rapidly and time is not permitted to complete above operations: 1. Install TIW and close annular around pipe and control line. 2. Shut off air to control line spool and bleed off line pressure while picking up a joint of drill pipe and making it up to TIW and top drive. 3. Close IBOP on top drive and open TIW valve. 4. Cut control line and strip the joint of drill pipe across stack for ram closure if needed. 5. If annular does not seal off around tubing and control line and the joint of drill pipe cannot be safely picked up, close blind/shear rams on production tubing. Notes: • Specify location of bolt cutters required to cut control line. • Need to have access to a joint of drill pipe and the appropriately sized elevators at all times. OP17-02 L1 Drilling Wellplan Page 23 of25 11/13/14 Peini us operrfing WELLJ_ OP17-02 L1 Conductor Broach — Contingency Cementing Plan In the event of a broach to surface of drilling fluids during the drilling of the surface interval, the following contingency plan is recommended to remediate the situation. Conductor Hole Diameter Conductor Casing Size 20" Conductor Setting Depth +/- 120' MD DP / Conductor Annular Volume 5" DP x 18.25" ID: 36 bbls Conductor Pipe Volume 39 bbls 16" Open Hole Capacity 0.2487 bbls/ft 1. Upon establishing that a broach of the conductor casing has occurred, POOH and stand back BHA. 2. RIH with open -ended drill pipe to 20' below the base of the conductor pipe. 3. Establish circulation with mud at normal drilling rate. Begin circulating and establish rate of flow through broach with drilling fluid. 4. Circulate up to 120 bbls of water or until water returns are seen from the broach. 5. RIH to 200' below the base of the conductor. If mud viscosity is <300sec/qt., spot a 150' pill of 150K cp polymer (Biozan) to 50' below the conductor. POOH to 20' inside the conductor. 6. Mix and displace +/- 80 bbls of Artic Set 1 cement at 15.8 ppg. Cement may U-tube with no ability to obtain squeeze. Do not over displace DP. Monitor and gauge all returns. 7. POOH and WOC for 8 hours. 8. PU 16" bit and BHA and RIH to clean out cement to 40' below conductor. Establish normal circulating rate and evaluate broaching. If no broaching is seen, continue with planned operations. If additional broaching occurs, repeat steps 6, 7 and 8. OP17-02 LI Drilling Wellplan Page 24 of25 11/13/14 2ni us operrafing WELL O P 17-02 L 1 TAM PORT COLLAR Utilization Decision Tree TAM Port Collar Utilization Decision Tree Begin Primary One Stage Cement Job Jement to Drilling Foreman and Engineer determine the I, - Top of Cement Top of Cement above Port Collar 0000' TVD)/ Perform Top Job as per - - - - - -- - -A► requirements of If Top Job is ineffective or AOGCC unacceptable to AOGCC I ♦_ Up and Circulate Cement Nipple Test Up an to Surface and close Port Collar I -- -- Continue with Nipple Up and Completion Test BOP's L k- V- Continue with Completion iw Indicators of Cement Top 1. Observation of Tracers in Spacer ahead of lead cement 2. Calculated Displacement 3. Displacement Pressures during Primary Cement Job 4. Other indications that cement is near surface OP17-02 Ll Drilling Wellplan Page 25 of25 11/13/14 Attachment 2 Directional Plan 9400.OD 89.78 315.22 3488.75 354200 6942.79 U72.42 6117.10 HS 0.00 6.58 8583 6039967.60 510 105 C 13 100 9447.65 8978 31522 3488.93 3542.18 699031 350624 621067 88.82R O W 659 W83 6040001.34 510408.41 95DDW 89.82 31705 3489,11 3542.36 7042.44 W43.98 -6246.94 W81R 3.50 66) 85.62 W0 39.00 51W72.06 9600.00 was 3W.55 3489.37 3542.62 7141.47 361921 6312.80 WeR 3.50 661 85,21 604D11407 5103W 04 Ta14 9612.84 89.W 321.00 3489.39 3542.64 7154.12 3629.16 6320.92 STAR 3.50 662 85.16 BMI2400 510297.90 Ertl Cry 9678.14 W.W 323,28 3489.44 9942.% 7218,16 3580.71 6360.99 HS 350 663 U97 604017548 510257.71 9700.OD 90.00 323.28 3488.4d 9942.69 7239.51 3699.23 6374.W HB O.W 663 U97 W40192.95 510244.61 %D0.00 90.00 323.28 34BS 44 3532.69 7337.18 3778,n 6433.84 HS O.W 664 84.97 6040272.97 51018l,65 9900.00 WW 323.28 3489.43 354268 7434.85 3858.% 6493.63 HS 0.00 6.85 84.97 6040352.99 510124% I ODD3.00 Woo 323.28 3489.42 3542.67 753252 3938.71 {55,i42 HS OW 666 a4.97 6040433.01 510064,73 Crv3.511W 10046.67 90.00 323.28 3489.42 3542.67 7578.09 M76.12 -658132 113.74L 000 ew 84.97 E040470.35 510036.]5 101WW 89,25 32157 3489.77 3543,02 7630.35 Q1839 -6613.63 113.73E 350 6.67 6445 604051254 510004,14 Tw5 10117.W 89.W 321.00 Wool 35Q 29 7647.96 4032.38 4i625.04 11162E 3.50 6.68 84.27 8040526.50 50H992.W 10200.00 8]94 318.33 9492.23 3545.48 7729.0 4094.91 6678,14 11155E 3.50 6.69 8358 604058891 509939.67 Ertl Cry 10241.33 6741 316.98 3493.90 3547.15 77)O.W 412543 670596 HS 350 6.70 83.24 604W1936 50991179 103.W 8741 316.W 34W.55 W`49.80 7828.34 4168.28 6745.94 HS 0.00 670 83.24 604W62.12 509671.71 1Womoo 8741 316.95 3501.07 MUM792767 4241.32 6814,10 HB OW 6.71 83.24 6040735.W W9B0340 Cry 251100 104M 78 87.41 316.98 3505.26 3558.51 801983 4309,08 45B7/ 37.WR 000 8.72 83.24 W40802.61 50974002 1 o5WW . 87.M 317.09 35W.57 35W 82 8027.01 431437 -6882.25 37.98R 2.50 6.n W37 W40807.W 509735M I Woo 00 89,53 31863 3508.12 3561.37 8126.23 ON 49 4i9/9.31 37.94R 250 6,73 88.11 604W8185 50995787 Tate 1W2400 Moo 319.00 35W.22 3561.47 8150,03 4406.58 8W65.14 32.49R 250 674 85.53 6340899.90 509652.00 lom..00 91.W 3W.02 17.16 36W.41 8225.13 448 4.34 -701446 32.5R 2.50 6.75 86.98 W40 T55 5D9W256 Ertl Cry 107N Be W43 321.19 350334 35W 59 8310.65 453139 -7069n HS 2W 6.76 8864 604102447 50954735 10WO.W 93.43 321,19 350296 3555.81 am 56 4541.62 -70n.75 HS OW 6,76 88.64 6041034.67 509539.10 'Moon o43 321.19 3496.57 3549.82 8421.77 4619.40 -714031 HS OW 6,77 88.64 W41112.31 50947637 11000.00 93.Q 321.19 Woes 3543.83 8519.98 4697.18 -720288 HS 0.00 6.78 88.64 8041189.94 5094138/ Cry 211OD 11083.53 W.43 321.19 3485.58 M38.83 6602.02 4762.15 -7255,14 132.58L O.W 6.79 88.64 6041254.79 509361.24 111W.W W.21 320.95 3484.63 3537.88 86/820 4774.94 -7265.47 132.6E 2.00 6.79 88.45 W4126T55 509350.BB To 11.26 92.W 320.50 3d83.04 3536.29 8647.98 4798.33 -n 60 13991E 2W 6.n WAo W412WW 509331.70 Ertl Cry 111W92 92.33 3W.10 348167 3534.92 8678.19 482120 -7304.16 HS 200 6.W 8769 60,l131442 509312.W 11200.00 92.33 3W.10 3480.08 MM 33 8716.74 4851,w -732921 HS OW 6.80 8769 6041344.32 509286.W 113W.W 92.33 320,10 347601 3529.26 8915.36 492852 -7 .29 HS 0.00 6$1 8769 GD41420.83 50=2.n 11400.00 92.33 32010 347194 35M 19 8913.99 sow is -7457.38 HS O.W 6.82 87W W41487.33 50915848 crvvl00 11488..30 92.33 320.10 68..4 35218E am to 5071...33 -7512.68 140.87R o 6..83 87....69 6041563.36 509103.03 5 9212 320.28 8790 352115 W1262 5W785 -7521.45 0.87R 200 6.83 8746 W4153.85 50009424 11 W57 31.50 346556 351881 811106 5159.4 -`48 2 6" 8575 604165129 50903184 11WOW 6W.49 9000 322.W 346.38 3516 1WeR 20 W 68 813 60416]9W 50IB dOTO Ertl Cry 1 65 8. 9180, W 2 6..85 845. 01]W. 5OW731 16 7DO.00 W9 322.46 .78 65W 3519W 920914 5337 -7645.87 HS 0.00 685 8456 60473008 5089WQ 118W.W W49 322.46 3488.69 3519.94 93D7.10 5317.66 -7/08.81 H6 O.W 6.86 84.56 604180oM 5089W 37 11900.00 89.49 322.46 3467.59 W2084 9405.07 539694 -7767.74 HS O.W 6,87 u56 604188836 508047.27 120W.W M49 32246 UN 49 3521.74 95MD3 5476.23 -78M 68 HS O.W 6.87 84.56 6041967.50 5W786.16 1210oW 89.Q 3n.46 3469.38 3522.63 9601.00 5555.51 -7889.61 HS oW 6W 84.56 604204664 5Wn5.W C 211W 12104.10 89.49 32246 3469.42 3522.67 96W.02 5559.76 -7892.11 1W.22L OW 688 84.56 6042049.89 SWn255 Ta19 121424] 8935 321,70 3469.81 W23.W 9642.66 5589.03 -791569 103.nL 2.W 6.89 84.53 W420W.10 50�.W Ertl Cry 12176.64 8919 321.04 34]025 3523.50 967625 561571 -793702 H6 2.W 689 8445 6042106.73 50667752 12200.W 89.19 32184 U70.58 3523.83 9899.24 5633.88 -7951.71 He O.W 689 84.45 WC12486 508662.79 WW 123, W.19 321.04 3471,99 3525.24 9797.67 5711.0 4101459 HS OW 6.W 84.45 W42202.46 508599 .74 12400.00 89.19 321W 3473.41 3526.66 98W.10 578937 60n.46 HS O.W 6.91 84.45 604MM06 508536.10 125WW 89.19 321.04 U74.W 3528.08 9994.52 5867.12 6140.34 HS O.W 692 84.45 604235766 SW47365 Cn 100 12560.86 89.19 32194 3475.69 3528.94 1054.42 591444 6178.61 16485R OW 692 u4 60424o W 50843529 126DDW B8.43 321.24 347650 3529.75 10092.93 5944.91 62W.16 16".64R 2.00 6.53 83.68 W424W30 50641067 TN l0 12648.39 87.50 321.5D 347622 W31.47 10140.48 5982.6E 623335 162.95R 2.00 693 82.n 60424n,W 50 WO 40 Ertl Cn 12 7.82 88.94 321.67 U79.65 3532.9D 10169.36 60571 625161 HB 2W 6.93 62.14 6042495.W 50B382 o 127WW W94 321.87 348 1 MU06 10191.12 6023 9 41265.35 HS o.W 6.94 82.14 6042513.33 508W 31 12WOoo 88.94 321.87 3486.16 3539.43 10289.22 6101.43 4l32].2B HB O.W 6.94 $2.14 604259152 W8286.m 129W00 Be.94 321.67 3191.52 3544.P 10387.31 6179,76 -M89.20 HS O.W 6.95 82.14 604266971 508224.12 130W.W 85.94 321.67 3496.86 550.11 10485.41 6258.10 6451.13 H6 O.00 6% $2.14 6042747W 508162.02 Crv2/lW 13072.32 MN 32167 35W.73 3553.W 1o556.W 6314.75 64W.91 27.85L OW 6% K14 604280445 50811712 13100.03 87.0 32141 350209 3555.34 10583.52 fi338.40 -8513.11 27.83E 2.00 6.97 82.66 -28XW 5080A.Be TN 11 13155.02 88.40 =90 MUM 3557.34 10637.62 637923 -8547.59 27.58E 2.00 6.97 83.69 604286880 508065.30 132MOD W20 320.48 3505.03 3558.28 10681.93 6414.02 - 6.08 2757E 200 6W 8464 W42W3.53 W8036.74 Ertl Cry 13225.37 89.65 WO 350529 355834 107W.96 6433.56 4592.26 HB 200 B.W 6501 6042923.W SOBOW.51 13i00.W 89.65 320.25 350575 3559.00 1078D 59 649094 -863.998 H8 OW 6.99 8501 6042OW.29 507972,67 1340M 89.65 320.25 3506.36 3559.61 IW79.26 6557.82 6703.93 HS OW 6.99 a501 W4305702 51379W58 13500.00 89.65 320.25 35W.98 3560.23 lo9n.92 6644.70 6767,87 HS O.W 7.W 85.01 6043133.75 507W4 13600.W 8D.65 3W.25 350].W WW.65 110]6.59 :721.58 683182 HS O.oD ].Ol 85.01 604321048 507/80.34 C 2.5/1W 13WE.94 89.65 3W.25 3507.65 35W.90 11065.41 8728.45 6857, 4 74.ML OW 7.01 85.01 6043217.34 5DM4W Ta112 13660.84 Woo 31918..W 35D781 3561.W 11IM71 6767.99 41871.16 54.WL 2.50 7 85.53 W43256.W 50n4o.W 137WW . 90,57 321 3507.61 35W.86 11175.51 6797.36 6B97W We 2W To2l M21 W 43286.11 507714.W 13BDO 00 92.04 316.18 350533 35W.58 1127467 6870.71 d98488 54.14E 2.50 7.03 87.N W43359.29 507646.86 13WO.W W.W 31d.15 wooW 3553.75 1137447 6941.53 -90W 3' 54 ML 2.50 704 8967 W0 29.W 50757629 Ertl C. 13977.65 94.64 312.57 3 99 W48.24 11451 85 6994.n -9091 ]0 HS 2,50 70 88.98 6013483.01 50751987 14000.W 94.84 312.6/ 3493.18 3546.43 11474.11 ]009.]8 -91W.11 HS O.W 7.W 88.W 603498.0d 5075WQ Crv25riW 14W1.59 9/84 31257 U90.63 3543.88 115W.59 703108 -9131.30 130.WL O.W 7. BB.W W43519.28 5072D 14 9351 , 31128 35.76 353901 , 115n.8/ 7076.67 .918206 143107E 2 ].W 8991 Y.75 507429.3 13 41. 1W775 oW 3482,27 353552 1141.47 712074 -920 1]41L 2W 707 W17 604608.70 5073]7WTat 142W.W 91.n W9.57 34 81.11 35U 36 116T3.W 71413 46 58.17 147.43L 2,50 ].07 88.56 6043629.26 50n53.W Ertl Cry 14281.19 9ool 3W47 34]888 MW.13 11754.82 7192.47 -9321.24 HS 2.50 7W 87.W 604.i6W.23 W7289.91 ,00 9ool 3W.47 .79.88 3533.13 11Ti3.62 7W4.17 -903 5.97 HB O.W 7,W 87.W 496 W91.89 Wn75.16 144W.W 9ool We47 U79.Be 3533.11 11873.53 n66.39 -9114.26 HS OW 7W 87.W 604375 93 W719674 00 145 WOt Me 47 U79.855 3533.10 119n. me. -9492.55 H6 GM 7.10 8].03 W43815.% W7118.32 Crv2.511W 14534.78 W.Oi 30847 34 79.84 35M09 12"19 7-24 -9519.78 B1.B1L oW 7.10 8703 W4383753 5070DIW 14WOOD W96 306.84 3479,86 3533.11 12073.30 7390.08 -9571418 91.B/L 2.W 7.10 8722 6043877.26 507W9.33 Tat 14 14673n w90 We0D 3479.95 35M 20 12146.79 7d33.W -8631.15 108.95E 260 7,11 8744 6043920.40 50[d MS0 147W.00 w69 30438 34W.04 3533.29 12172.87 7448.29 -9W2.71 1W.95L 2.W 712 8732 W43935.28 50695710 14800.00 .88 3 of 3481.30 3534.55 12271.0 7503.03 -9736.38 108.92L 250 7.13 B6.W 6043989 83 506874.1788.12 14900.0D 88.07 2W.65 3483.97 3537,22 12370.37 7554.26 4382221 10985E 2W 7.14 W.44 6044040.86 5W9 Ertl Cry 14844.98 87.70 2W.58 3485,63 3538.88 12414.37 7576.13 -9851.47 HS 2.50 7.14 66.24 6044062.64 5W748W Crv2/100 14967,07 87.70 298.58 3486,51 3539.76 124W495 7586.70 -9880.86 57.38E O.W 7.14 86.24 W44073.16 50 M47 1500).W 88.06 298.Do 3487.n W40.98 12468.0S 7602.30 -9909.83 57.36E 2.W 7.15 86.68 6044OM 70 5W70o47 151 W W 89.14 2W u 3490.18 3543,43 125018 7647 97 -9998.75 57.32E 2 W 7 woo fiO4/134.16 506611.45 Ta[15 15179.87 MOD 2B5.W 3490.78 35.,03 12642.25 7682.57 -1W7073 63.88E 2.W 7.18.16 89.07 W441sew 506539.40 152W.W W.18 294.84 3490.75 3 00 12661.59 7691.02 -10089.W 088L 2.00 717 89.30 60 17701 506521.11 EM Cry '527698 W.87 2W.22 3490.03 3543.28 1273713 7n3.05 -10161,19 HS 2.00 ].17 W.W 604420887 506448.86 15300.00 W.87 29322 3489.71 3542.95 12757.15 ml.34 -1018050 HS O.W 7.17 89.W 6044217.12 506429.W W 154.W 90.87 293.22 3488.18 354143 128W.43 7770.76 -10272.39 H8 O.W 7,18 89W 6W256.33 506337.56 15500.W 90.87 293.22 3498.66 W39.91 12197.70 7810.18 -1036428 HS 0W 7.19 89W 60642W5. 506245W I Woo oo W.87 293.22 3485,14 35 38.39 1304297 7849.61 -10456.17 HS O.W 7.19 W 99.44334.75 W 5W153.63 c'vI00 15679.61 90.87 283.22 3483.92 3537.17 13119.01 789107 -10529.51 91.21E OW 720 8980 60443M05 506W0.23 Tot 16 15685.82 W.87 293.10 3483.83 3537.W 13124.n 7883.43 -1053593 110.41E 2.W 7.20 89.78 W44369.40 50W7470 End Cry 15694.w W.81 29293 348370 3536.95 131W..32 7686.86 -1054334 HS 200 72D 89.82 W44311.91 W606638 15700.OD 90.81 mm 3483.W 3536.88 13138.22 7888.97 -10548.W HS O.W 7.20 sow 6044373.91 506W1.64 158W.W well 292,93 34B2.n 3535.47 13233.34 792793 -10640.17 HS OW 7.20 89.82 60 412.65 50596947 159W.W W.Bt 282.W 34W.81 W34.W 13328.46 7988.08 -10732.26 HS No ]21 89.82 SW45140 505877.30 16000.W W.81 292.93 U79.40 3532.65 13423.58 WD5.84 -1082d.n H8 O.W 7.22 89.82 44 60490.15 W5785.14 16100.00 W.81 292.W 34n.99 W31.24 13518.]0 80 80 -1091644 HS O.00 7.22 89,82 604452BW 505892.97 Cry 100 16174,91 90,81 292.93 U76.94 W30.19 13589.95 8073.9B -10985.42 7922E O.00 723 89.82 6044557.92 5U582393 TO 17 16191.74 W87 2B260 3176.69 3529.9d 136059 8080.W -11000.94 82.71E 2.W 7.23 B9.70 6044'84.90 505W8.40 16200.W W89 292. 34]6.56 3529.81 13613.78 8083.66 -1100ti.57 82.71L 2.W 723 8966 W4456755 5056.76 W rtl ECry 1621052 W.92 M23 347640 3529.65 13623.75 8W766 -11018.30 HS 200 7.23 89.60 604457152 50E69103 16300.00 90.92 292.23 34]4.96 3528,21 1370852 8121.50 -11101.12 H8 G. 7.23 89.W 6046D518 505508.14 184W.W W.92 292.23 U73,36 3526.61 13W3.25 :159.32 -i11W68 HS O.W 7.24 89W 60N6 39 50541551 Cry 25/1W IU92.75 9092 282.23 3471.88 3525.13 13B91.11 8194.40 -11279.52 MAR O.W T 8960 60446n 67 5MW9.59 165W.W goes 292.40 3471.76 3525.01 1389798 819716 -11286.23 WAR 250 7.25 89.56 6044690.41 505 2.88 16600.0D 91.90 294.72 3469.24 3522.49 13W340 8237.11 -113n.W 68d6R 2.50 726 89.01 6064720.15 50523117 Ta116 16%7W 92.W 297.W 85 34.22 3518.47 1487.83 827976 -11d65.84 66.16R 2W 7.27 88.48 6044762.60 50514310 1670D W 92.82 2975.12 3485.12 3518.37 14089.91 8280.73 -1146774 0,16R 150 7.27 88.46 6w763.56 505141.20 6B i00W . 0.87 29932 3459.26 3512.53 14187,28 =787 -1'W5:73 6529R 2.W 7.28 87.78 SD4481051 505053.12 End Cry 16382,06 94.73 301.19 3453.13 350.3E 14267.71 8369.10 -11626.41 HS 2,50 7.28 87.n W44B5158 50498235 1 Moo 00 96.73 301,19 3451.65 3504.W 14285.33 8376.36 -11841.70 H8 OW 7.28 87.T1 60448W.W 504W7.04 Crv25r1W 16W8.99 94.73 301.19 345091 3504.16 14294.16 8363.00 -1164936 129.57L No T28 8722 604496542 504959.37 17000.OD W.27 293.44 3444.56 349781 t4383.40 642e82 -Iln7.74 129.7E 250 729 8a.36 604,91106 5048W.W 171W.W 91.6E 29751 3b0.24 3493.49 14480.96 847645 -11815.55 128.78L 2W 7.W 89.67 Sw958.49 504792.W 1nW.W W.W 295.59 3138,71 U91.96 1457 W 8521.14 41904.W 12981L 250 7.31 89.W 60454702.96 5047W.46 Ta119 1720 72 Woo 295.W 3438.71 3491.96 14562.38 8523.17 -11WB.24 91.41E 250 7.31 Be.W 604500 oo 504899.20 173W.W B9.61 293.12 3438.7E 3492.01 14873.8E 8562.40 -11896.07 91.4E 2.50 7.32 89.30 W450. 02 50461229 Ertl Cry 17372.68 89.90 291.30 343886 3d92.11 14742.54 85898] -12MW HS 2.50 7.33 69.54 6045071.34 504544.96 17400.00 89.W 291.33 3438.91 3492.16 14768.28 8599.79 -12068.61 HS O.00 7.W 89.54 6945W1.21 5045194E 175DDW 89.W 291.30 3439.W 3d9234 14662.49 8636.12 -1218198 HS O.W 7.33 Se.6OZ117.33 504426.24 17600.W 89.W 291.30 3439.27 3492.52 14956.71 867245 -12275,14 HS O.W T 89.54 60451W4d 504 00 I n000D 0 90 291.30 3439.45 3492.70 15050.92 8708.78 -12368.31 HS OW 7.34 89.54 W45189.W 50423976 17800.W 89,W 29130 343963 3492.88 15145.13 8745.11 -12461.48 HS O.00 7.35 89.54 W4522567 504146.53 17900,00 89.90 291,30 3439.81 3493.06 152M 35 878144 -12554:65 HB OW 7,35 89.54 60361.79 W4053.29 18om.W 89.W 291.30 3439.W 34W.24 15333.56 8817.77 -1264781 HS ow ].36 89.54 6045297.81 5039W.W 181W.W 89.W 291.30 344017 3493.42 15d27.77 8854.10 -127ao98 HS Goo737 89.54 604583 W 503866.81 ,00 M90 291.W 34d0.35 349360 1552199 8890.42 -12634.15 HS OW 7.37 8954 6045370.14 50377357 Drilling Office 2,6.1166.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P1) 11/13/2014 7:45 AM Page 2 of 3 eni scmmftw OP17-021-1 (P2) Proposal Geodetic Report (Def Plan) Clint: ENI Veniral Sel,_Ai lh: 310.889'(I-Nadh) Field: Niui " VeHlol Section Ongin: DODO n, 00008 ONeck-PL11 OPt] OPW��,Qi�\��f -Yl TGVr 90retak:75b1: WOW n,l EOeclirutbin:�� 2.200 RaC *MSL M'11t 5002923431fi0 Survey Name: OP17-021.1 (P2) Totel Gravity FkM Strenglh: 1 W19893rrlpn (e.S0665 Beaed) Survey Data: Novem6el 10. 2014 Gmvily Model: DOX Ton I MB) I M I ERD Retlo: 281.783' 116146.9038I 1.371 I4534 Total Magnetic Field Stren88r: 57585.5M nT Coordinate Refer Sy4t4m: NA 27B ka$We Pere, Zane N. US Feel Magrenc Dip Anale: : 832 81' or Len- tat I Lo : N M'W W.35735. 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W7.10 6505 7193R 4W 639 0 SO 10,87 51111556 &Wm WW 3M.M 393.61 354686 5966.76 8.72 W721 7188P 4W 641 84WWW18235 511064 BSWW 9114 327%3492.70 95 663.H 276827 . W362 7191R 4W 644 856 6039264.76 510705 85W00 9221,.W 3490.IS 4 614U4 2B42W 6®6764 117.4L 4W 6.45 S6.M WW3B8 :10952.87 BO.W 91.95 3303 967 354292 6158.21 25427 -5674.51 117.4L 4 6.46 W 60393M0 W45.97 SM,M W.11 3M.78 3487W 3541,13 6253.46 2939.W -5R6.66 117.49E 4W 6.48 84.63 8039 SO 510883.64 Ertl Cry 8703.62 SON M6. 30787 3541.12 6256N 2W258 -5m 64 HS 4.W 648 84.58 W3B438.83 51099165 BW 00 SON 326.65 SIB SO 3541Q5 634970 302.10 -5MI 62 HS OW 6.49 84.56 63951921 510838.49 Crv351W BB16.61 SON =665 3487.79 354104 6365.68 3036.9] -5M0.75 W.Z3L OW 6.49 BI.58 W395MW 510629.33 %w.W WW M3.73 3487.74 3540.99 6446.a 31043 -583835 0 3W 6.51 84.93 W39W1.41 5,078159 90001 0W W 3R M 348].]O M40.95 6459 3IM21 68%93 W.23L 3W 6.53 55.38 6W%WN 51071984 91WW W.W 31:,n 3487W 3540.94 6643.70 9259.07 -59W.M W.23L 3W 6.56 W84 SOMM4.75 510653.41 Te 91W.69 SOm 316.W 3487as 354 W 6BW.M 326393 -5970.W W9 3W 8.55 8587 BD39759.00 510848.W Ertl Cry M43.81 San 315.22 3487M 3541.01 668734 32W.57 -59%65 HS 350 8.55 85.83 W397W.18 510S2209 92W.W 93W.W Will W78 315.M 31SM 3487N 3488.36 3541.M 356161 6743.37 6843.W 3330.46 340144 603622 6106.66 HS HS OW 0.W 6.56 6.57 a5.83 W83 8038825.97 8039896.78 513.23 058 510512.64 Drilling Office 2.6.1166.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P1) 11/13/2014 7:45 AM Page 1 of 3 TD Survey Error MOEeI: survey vro9ram: De -ptm 18212.62 899D 29130 344037 361.62 15511.8B 8895.01 -12M91 ISCWSA Re 0'-3-095W0%Confld-279W sigma Part MD From rB1 MO To rlit SOU Fnq IB1 Nok Size lint C.hg DlamZ lint Survey Tool Type 1 41.W0 1116470 Ad 5tns 1fi.000 13375 SLB GYRO-MWD 1 1116470 2182.500 Act St. 16(M 13375 SLB_MWDMWG 1 2182.500 8174.7W Act St. 12.M) 9.625 SLB—MWD.GMAG 1 8174730 8200.000 11100.0DO 12.M) 9.625 SLB—MWO.GMAG 1 8200.000 856 ,= 1/100.000 8.75D 5500 SLB MWD-ING ONLY F 1 2 am 000 am 000 10050.000 18212623 1/100.000 1/100.W0 8.750 8.750 550D 5.50D SLB—MWD>SAG SLB_MWD4GMAG O00 7,37 8orelwk/Survey OPl7-02PB1/OP1 -02 B1 OPt]-02PB1/OP17-02PB1 OP17-02PB1/0 P1742PB1 OP17V L1 /OP17-02L1 (P2) OP17-021.1 I OP17-02L1 (P2) OP17-02L1/OP17-ML1)P2) OP17-02L1/OP/7-02L1 tP2j 89.54 fiD45374.70 503761.80 Drilling Office 2.6.1166.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P1) 11/13/2014 7:45 AM Page 3 of 3 Attachment 3 Drilling Hazards Summary Drillin! Hazards Summary 8-3/4" Open Hole 15-1/2" Liner Interval Hazard Risk Level Mitigation Strategy Abnormal Reservoir Pressure Low Stripping drills, shut-in drills, increased mud weight. Stuck Pipe Low Good hole cleaning, PWD tools, hole opener runs, decreased mud weight Lost Circulation Low Reduced pump rates, mud rheology, LCM Hole Swabbing on Trips Moderate Trip speeds, proper hole filling (use of trip sheets),pumping out, backreamin Drilling Hazards Summary 71912014 11. 58, 00 AM Attachment 4 BOP & Diverter Configuration ! � � §) �� J ` « �||!2 ; ƒ §� §K § IcE R |§k || [�� §% ■| 51 §§■ IT ¥ % »e■ § | z ©�� B� ® / ---� 0- ■ k�§ o §eIL % U) L $A k k\\ & n � | ~0 �� - - _ - _ 7 MTi I I id,# §3 ,,• _<■ _ K h d ■x o ■ 3§` \ 6§ ` p-A ( §$ § j � \ � » k , ! } fr \ G &� � � lit, 22 - % ? , ! - � � y / | - �■ ; � ■ � !�§\ §|§ o 3 � 2§ § ■ b\o\co f/\\ ku\\ / fS;- 5Q- la, | k\\%� \�\�\®�� =z® |. %C5 »Z 2%may �G2± \y■3� \^ \� \ U) /2 § | §§ �/§ \k \� k§■ . as �asZE kk G� � � � � O g N 2 T1 z e�0 @ C.) V O M & 49 O z «u � \ > > m > Fz > Y 0 c0 (D c0 U O o Fz a c ca U cz c6 N c O c o c o U) �- O U M m m J U U U CO am g o o 0 0 m CL C •L V GO T C� T C� T :L% T N T T T T 4 N 4 M m — o T m U T Q Attachment 6 FIT & LOT Procedure f -2 S P E O "IN ENI S.p.A. Eni UP Division IDENTIFICATION CODE STAP-P-1-M-6140 PAG 206 of 338 REVISION 0 11 15. LEAK OFF TEST PROCEDURE A Leak -Off Test (LOT) will be performed On Wild -Cat wells at each casing shoe after setting the surface casing. LOTs are also recommended to be carried out on both appraisal and development wells. Leak Off Test and Formation Integrity Test (FIT), also termed the Limit Test, are for formation strength pressure tests made just below the casing seat prior to drilling ahead. These tests are carried out to: • Investigate the cement seal around the casing shoe which should be at least as high as the predicted fracture pressure for the area. • Investigate the wellbore capability to withstand pressures below the casing shoe in order to allow proper well planning with regard to the setting depth of the next casing, mud weights and alternatives during well control operations. • Collect regional information on formation strengths and stress magnitude for different applications including optimisation of future well planning, hole stability analysis and modelling, reservoir application. Prior to a test, a decision should be made to either increase the pressure until leak off occurs (as in the LOT) or to stop at a predetermined pressure for a (FIT). It should be noted that: • FIT does not obtain information on stress magnitude. • A LOT is designed and should be performed to determine, in a better way, the desired data without breaking down the formation. When a Formation Integrity Test is required, the maximum pumping pressure is often expressed in terms of `Equivalent Mud Weight' (EMW): Imperial units EMW = P + MW 0.052 x TVD where: P = Pumping Pressure (psi) TVD = True Vertical Depth (ft) MW = Actual Mud Weight (PPG) Metric units EMW = P x 10 + MW TVD where: P = Pumping Pressure (kg/cmz) TVD = True Vertical Depth (m) MW = Actual Mud Weight (kg/1). S P E O ENI S.p.A. Eni E&P Division IDENTIFICATION CODE STAP-P-1-M-6140 PAG 207 of 338 REVISION 0 11 LOTts or FITs can be carried out in any open hole section and at any time while drilling the hole, even if it is customary to have it performed some metres (6-15 metres) below the casing. For instance, the casing seat can be in a shale and the first sand formation may be encountered several hundred feet deeper. This will certainly be more permeable than the shale, and a test can be performed to ascertain the maximum pressure this sand can hold. If it is lower than the shale just below the casing seat, this sand becomes the limiting factor. Note Information obtained from leak -off tests in straight holes is not applicable to deviated holes in the same field and vice versa. 15.1 TEST PROCEDURE Prior to performing a formation strength test, prepare a sheet of graph paper to record pressure, versus cumulative mud volume. 1) Drill out the float equipment, clean the rat hole and drill 5m of new hole. 2) Circulate a mud quantity equal to the internal string volume plus the new hole plus 50m internal casing volumes. This mud shall be cleaned and conditioned to the density and filtrate as indicated in the Mud Programme to be used for the next drilling phase. 3) Pull the bit back into the casing shoe. 4) Rig up the cementing unit to the drill pipe. The unit shall be equipped with high precision, low pressure gauges. The range of the pressure gauge shall be selected based on the actual mud weight and the estimated (LOT) or predetermined (FIT) pressure. A pressure recorder should be used during the test. The use of the rig pumps for making these tests is unsuitable. 5) Fill and test the lines with mud. 6) Break circulation with the cementing unit to make sure that the bit nozzles are clear. Stop pumping when circulation is established. 7) Close the top pipe rams or the annular. 8) In surface well head both flanged and multistage wellheads, open the annulus of the previous casings. In sub sea well head pay attention to not excide the burst pressure of the previous casing. 9) Pump slowly and in continuous way, until pressure builds up to approximately half the anticipated maximum surface pressure. 10) Once pressure is established, pump uniform volumes of mud and wait for the time required for the pressure to stabilise. The flow rate range is from bbl/min (20 I/min) up to a maximum of 1 bbl/min (160 I/min), however values of 0.25 bbl (121/4" and smaller holes) or 0.50 bbl (171/2" hole) are commonly used. 11) Note the cumulative mud volume pumped, the final pumping and final static pressure. 12) Repeat steps (9) and (10) above and plot pressure versus cumulative mud volume for each increment of pumped volume. 1 S P E O IDENTIFICATION CODE PAG 208 OF 338 ENI S.p.A. Ed UP Division REVISION STAP-P-1-M-6140 0 11 13) Continue this procedure until: • Two or three points on the plot are reached where the pressure deviates and falls below the approximate straight line (or if the pressure does not increase with the injected volume). The point on the plot where the curve begins to bend away from the straight line is called Leak Off Point (Refer to Figure 15-1) • Or the predetermined test pressure is reached. 14) Stop pumping, shut in the well, record and plot pressure versus time until stabilisation (usually it takes 15-20min). In the early stage (2-3min) one value every 15-30sec should be collected while for the remaining a value of pressure every 30- 60sec may be sufficient. The use of PACR or an equivalent device, if available, is preferred. 15) Bleed off the pressure and record the quantity of fluid returned into the cementing unit. Compare it to the volume used for the test to obtain the amount of fluid lost to the formation. 16) Open the BOP and calculate the formation strength in terms of `Equivalent Mud Weight' using the lowest between leak off point pressure and stabilised pressure. 17) Collect the data recorded during the test in a data sheet together with the following information: borehole diameter, depth of test, depth and type of the last casing, mud density, plastic viscosity, filtrate and gels (refer to the example on the next page). Note: The LOT pressure doesn't exceed the pressure which the casing was tested. Note: When a good zonal isolation behind the casing is imperative, the Leak - off test should be carried out with a retrievable packer to avoid pressurising the casing which may cause possible permanent damage to the cement bond by the creation of micro annuli in the cement. Note: The pumping rate should be kept within the limits described in step 9). If the rate is too low, filtration losses will mask any leakage loss, or, if the rate is too high the formation may suddenly break and the leak off pressure will not be determined. Also, the longer the open hole section, the higher should be the injection rate. If the initial pumping rate is not sufficient, the well should be depressurized and the test restarted with a higher rate. Note: If a float valve is used in the drilling string, the test can not be carried out by pumping down the drill pipe. In this case rig up the cementing unit to the choke or kill line, fill and test the lines against the fail-safe and establish circulation through the riser. Close the BOP and perform the formation strength test pumping down the annulus. i' S P E O E N I S. p.A. CW� UP Division IDENTIFICATION CODE STAP-P-1-M-6140 PAG 209 of 338 REVISION 0 11 LEAK —OFF TEST REPORT Pep°rtN' Date: WELL NAME: WELL CODE: CONTRACTOR: RIG NAME: RIG CODE: Open hole de h rn : 825 Mud T e: FWGELS Ri t e: J.UPs HoleElameter(in): 12"114 Weight(KgA): 1.3 R.K.B.eleiation(m): 26 Last Cs , Shoe m : 797 Marsh Mscos secl0t : 44 Water De h m : 24 Csg. diameter (in): 13'3B P .V. c s : 19 Pump s: 12-P- 160 Grade: S55 Y.P.011100 ): 5 Uners(in): 6.6" WeightObit): 61 Gels bi100 t : 218 Flow Rate 1b I : 0.25 Max. Buret pres (psi), 3103 W.L cOO min): 10.5 Litholo Shale Expected EMW 1.68 Kglcm !10 In Time min Volume btAl Pressure Psi Time Volume min bbl Pressure Psi Time min Vdume Pressure bbl F'si 1 025 50 9 2 490 16 2 435 2 060 100 95 2 480 3 0.75 200 10 2 470 4 1 DO 300 10.5 2 463 5 125 400 11 2 455 6 150 600 11.5 2 460 7 1.75 570 12 2 445 8 2D0 600 13 2 440 8 2D0 1 550 14 `L 1 437 8.5 2D0 1 605 1 15 2 1 435 Note: Pumped with a constant low rate of(bbl): Wume pumped (bbl): 1Polume retumed (bbl): (psi) 1000 900 800 P 700 stop pump r e soo e 600 shut in curve S U 400 r 300 8 minutes e 200 100 0 0 0,25 0,5 0,76 1 1,25 1,5 1,75 1 2 3 4 5 6 7 8 9 10 11 12 Cumulative Volume (bbl) Time mins RESULTS: (Press. m + Press. Lo. )x101Depth=[(1.3 x 797 J 10) + (430 x 0.07)] x 10 1797 = 1.68 (Kgfcm2A 0 m) Note I CDmp any Re resentatiUe Figure 15-1 - Leak -Off Test Report Attachment 7 Surface Platt 1 12/16/08 MRT I AJR I I Add New Well Conductors 4-24 1 2 12/23/0JFC I JMS I jAdd New Well Conductor OP26 Oliktok OLIKTOK 0 Point INTAKE MODULE DOCK R\ OPP S THIS PRE P SURVEY O N v TANK „?�^�} DS-3R 0 DEW Llk 9 SITE STP TANK OUKTOK QINT MODULES N c STAGING RE A , T13N, R9E DS-3Q `rk s• 1 1 � �� •.11 ?5 SCALE: ' ` { Ds 30 1 " = 150' 19 2� �? S TP PAD ` VICINITY MAP o SCALE: 1" = 1 Mile 000 009 `'-�ocv \ oqo°o o0 dQ / O \ OZ OLIKTOK POINT PAD 0 \. 03 \ is \ \ , \ o '\ SEE SHEET 3 FOR NOTES 1� \ Existing Conductor �� / LOUNSBURY & ASSOCIATES, INC. • Conductor Asbuilt this survey / SURVE YORS ENGINEERS PLANNERS AREA: MODULE: UNIT: Ott — Cin ! Pethrolleviinn� OLIKTOK CONDUCTOR INT D Clnll( ASBUILT LOCATIONS CADD FILE NO. DRAWING NO: PART: REV: LK680D1 10/9/08 1 NSK 6.80—d1 1 1 OF 3 2 REV I DATE I BY CK I APP DESCRIPTION REV I DATE I BY .K I APP DESCRIPTION 1 12/16/08 MRT I AJR I I Add New Well Conductors 4-24 1 2 12/23/0 JFC I JMS I Add New Well Conductor OP26 PROTRACTED SECTION 5, T. 13 N., R. 9 E., UMIAT MERIDIAN WELL NO. AK STATE PLANE (NAD83) 'Y' x LATITUDE(N) NAD83 LONGITUDE(W) NAD83 SEC. LINE OFFSET PAD ELEV. O.G. ELEV. F.N.L. F.E.L. OP-11 6,036,332.70 1,656,791.89 70° 30' 39.015" 149' 51' 57.587" 2,052 1,519 12.1 4.0 OP-12 6,036,328.85 1,656,784.83 70' 30' 38.977" 149° 51' 57.795" 2,056 1,526 12.2 4.0 OP03-PO5 6,036,325.10 1,656,777.76 70' 30' 38.940" 149° 51' 58.004" 2,059 1,533 12.2 4.0 OPO4-PC7 6,036,321.43 1,656,770.69 70' 30' 38.904" 149' 51' 58.212" 2,063 1,541 12.2 3.8 OP05 6,036,317.71 1,656,763.67 70° 30' 38.868" 149° 51' 58.419" 2,067 1,548 12.2 3.7 OP06 6,036,313.96 1,656,756.55 70' 30' 38.831" 149' 51' 58.629" 2,070 1,555 12.2 3.6 OP07 6,036,306.41 1,656,742.45 70° 30' 38.757" 149' 51' 59.045" 2,078 1,569 1 12.2 3.5 OP08 6,036,302.66 1,656,735.36 70° 30' 38.720" 149' 51' 59.254" 2,082 1,576 12.2 3.5 OP09 6,036,298.90 1,656,728.32 70° 30' 38.683" 149' 51' 59.462" 2,085 1,583 12.2 3.5 OP10 6,036,295.16 1,656,721.26 70° 30' 38.647" 149' 51' 59.670" 2,089 1,590 12.2 3.7 OP11 6,036,291.38 1,656,714.21 70° 30' 38.610" 149' 51' 59.878" 2,093 1,597 12.2 3.8 OP12 6,036,287.63 1,656,707.14 70° 30' 38.573" 149° 52' 00.086" 2,097 1,604 12.2 4.0 OP13 6,036,276.37 1,656,685.97 70' 30' 38.463" 149' 52' 00.711" 2,108 1,626 12.2 3.6 OP14 6,036,272.66 1,656,678.89 70° 30' 38.426" 149' 52' 00.920" 2,112 1,633 12.2 3.5 OP15 6,036,268,88 1,656,671.79 70° 30' 38.389" 149° 52' 01.129" 2,115 1,640 12.2 3.4 OP16 6,036,265.11 1,656,664.75 70' 30' 38.353" 149' 52' 01.337" 2,119 1,647 12.2 3.3 OP17 6,036,261.36 1,656,657.70 70' 30' 38.316" 149' 52' 01.545" 2,123 1,654 12.2 3.2 OP18 6,036,257.62 1,656,650.62 70° 30' 38.279" 149' 52' 01.753" 2,127 1,681 12.2 3.1 OP19 6,036,250.09 1,656,636.50 70° 30' 38.205" 149° 52' 02.170" 2,134 1,675 12.2 2.5 OP20 6,036,246.31 1,656,629.41 70' 30' 38.168" 149° 52' 02.379" 2,138 1,682 12.2 2.2 OP21 6,036,242.57 1,656,622.39 70' 30' 38.132" 149° 52' 02.586" 2,141 1,689 12.2 1.9 OP22 6,036,238.82 1,656,615.39 70- 30' 38.095" 149° 52' 02.793" 2,145 1,696 12.2 1.7 OP23 6,036,235.05 1,656,608,27 70° 30' 38.058" 149° 52' 03.003" 2,149 1,703 12.2 1.5 OP24 6,036,231.36 1,656,601.27 70- 30' 38.022" 149' 52' 03.209" 2,153 1,710 12.2 1.3 DISPOSAL WELLS WELL NO. AK STATE PLANE (NAD83) 'Y' X LATITUDE(N) NAD83 LONGITUDE(W) NAD83 SEC. LINE OFFSET PAD ELEV. O.G. ELEV. F.N.L. F.E.L. OP25 6,036,004.35 1,656,510.91 70' 30' 35.791" 149° 52' 05.885" 2,380 1,802 12.2 -2.7 OP26 6,036,012.10 1,656,525.47 70° 30' 35.867" 149' 52' 05.456" 2,372 1,787 1 12.2 -2.7 & ASSOCIATES, INC. 10 LOUNSBURY SURVEYORS ENGINEERS PLANNERS =lnlil ��tIrOII�LIinn CIn1Ii AREA: MODULE: UNIT: POINT D WELOLIKL CONDUCTOR ASBUILT LOCATIONS CADD FILE NO. LK680D1 10 9 08 DRAWING NO: NSK 6.80-d1 PART: 2 OF 3 REV: 2 1 12/16/08 MRT I AJR I Add New Well Conductos 4-24 1 2 12/23/0 JFC I JMS I jAdd New Well Conductor OP26 NOTES 1. COORDINATES SHOWN ARE A.S.P. ZONE 4, NAD 83. DISTANCES SHOWN ARE TRUE HORIZONTAL DISTANCES. 2. GEODETIC COORDINATES SHOWN ARE NAD 83. 3. BASIS OF LOCATIONS ARE DERIVED FROM OPUS SOLUTIONS. 4. CONDUCTORS ARE LOCATED WITHIN PROTRACTED SECTION 5, TOWNSHIP 13 NORTH, RANGE 9 EAST, UMIAT MERIDIAN. 5. ALL ELEVATIONS SHOWN ARE B.P.M.S.L. DATUM. 6. SEE LOUNSBURY DOCUMENT L-2539 FOR NAD27 INFORMATION. SURVEYOR'S CERTIFICATE I HEREBY CER77FY THAT I AM PROPERLY REGISTERED AND LICENSED TO PRAC77CE LAND SURVEYING IN THE STATE OF ALASKA AND THAT THIS PLAT REPRESENTS A SURREY DONE BY ME OR UNDER MY DIRECT SUPERVISION AND THAT ALL DIMENSIONS AND OTHER DETAILS ARE CORRECT AS OF DECEMBER 23, 2008. OF h •A. J. ROOKUS .; ...... j LS-803 ��i 317 i 0 LOUNSBURY & ASSOCIATES, INC. SURVEYORS ENGINEERS PLANNERS AREA: MODULE: UNIT: OLIKTPOINT Celli " Wtirollmum n WELL COK ONDU TOR D Celli ASBUILT LOCATIONS CADD FILE NO. DRAWING NO: PART: REV: LK680D1 10 9 08 NSK 6.80-d1 1 3 OF 3 2 Attachment 8 1/4 Mile Scan Report N O m a a U) 0 J o O o O O o _ O a o o� mod, o O o N O o 2 0 o p 0 o 0 0 0 o v o m o 0 a0 qlt 0)m ao lk�f m a uO N � 0 0 19 o QQ{�pJ��f�.. COJ B( m � IL Y 8 C) 0 e - t Y m 0 Go o (i4,10 a M O m O O t u o c Y Z o I jz_ LL d ° p ( y y u O) �. pay " Cl ¢ I u I T y 0 p� '!L. N i o ( 2 O + C. J p Qu QI� tl Q1[so-Or Q1[ O o d O¢ti �p v O O I ( k N nN I O g o Q1t a i p � m � t2 ` $ <' a LL oo CD v m f4l (bu T oA N I I „ O N d ' In QA1 O n, aLL7 pOczu N I I vi r a' d -N o o c? O V O (f m ocoa c � O 4 I` 7 N ( I m° 5 I - o `co 0 0 0 0 CCD 0 0 0 CD 0 M a 0 m N I-- (D V M N (WOOOZ l = a1e0S (4) SN J > d M � a m 0 0 0 0 0 O O O N O Cl m 0 0 0 a O O O O 0 0 0 tr o C9 o C) N O II O U O 0 --- o w 0 0 0 0 O O - O 0 Cl 0 M 0 v O O O O O O O O 0P17-02L1 (P2) Anti -Collision Detailed Report Analysis Method: 3D Leaner Distance Depth Interval: Ewry 50.00 (tt) Measured Depth Shpdoem Trefectory: Reference Trajectory Analysis Date-24hn Time: Nowmber 13. 2014-07:40 Analysis Machine: AKA-DEC-9010 Database 1 Pro)ect: IocalhostWrilbrp-NikaM1chuq 2 8 572 Distance Unit It Azimuth Unit deg TC Azimuth Reference: North NO Reference: True Client ENI Vealon I Patch: 285720 NOTE: Measured Depth is rafeanced to individual borehole elewtion. TVD, INS, EW are referanaxd to the reference trajectory. wellhead 1—ton and borehole elewtion A rrimmum of 0.300 in s ehwys included for borehole diameters. All local minima Irrdlea4d. Results it red: Depth $174.73R<=MD<=19212.62 It, CtCt separation<=1600.00 It Results hlghiighted: EOU-EOU separation <=1320.00 it AndColllslon Rules Used Rule Set Name D&M AnbColl— Stendam S002 v5. 1/52 Level Exemption Risk Level: Minor Rule Tvce Ruie Label Rule Name Risk SLB Alert Zone Threshold OSF=5.0$002 v5.1/5.2 Nert Rado OSF=5.00 SLB Minor Risk Threshold OSF=1.5 S002 r5.115,2 Minor RaSo OSF= 1.50 SLB Major Risk Threshold OSF=1.0 S002 ,5,1/5.2 Major Re. OSF = 1.W SLB Surface Rule$002 v5.1/5.2 Major CTCT MAS=32.81(it) SLB Alert Zorn Threshold CtCt<=15m S002 V5.115 2 Alen CT_CT MAS = 49.21(ft) Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 1 of 39 Rehrence Trajectory Summary Flaid Mkedchuq yell: OP17-02 Structure: Ohldok Point Borehole: OP17-02LI Slot OP17 Trajectory. OP17-02L1 (P2) Ciknt: ENI Type: De1P/en Coordinate System: NAD27 Alaska State Piano, Zone 04. US Feet North Reference: True Grid Convergence Angle: 0.12825768° Grid Scale Factor. 0999900314 Magnetic Declination: %0/6° Magnet, Decllnadon Date: January 15, 2015 Magnetic Model: BGGM 2014 Reference Point Northing Elevatio" 6036509370 (ftUS) Ilium 516626.280 (ftUS) 53.250 (ft) MSL Struchae Unc. 0.000 (ft) (1 sigma) Slot Unc. 0000 (ft) (1 sigma) Trelectory Error Model: ISCWSAO 3-0 95.000% Confidence 2.7955 sigma Survevina Proa: While Drilling Description Part MD Front (ft) MD To (ft) EOU Freq(R) Survey Tool Type Nola Size 0n) Casing Diameter Qn) Borehoh/Survey 1 0000 41.050 ActSms SLB GYR0-MWO-Depth Only -No Global 16 ODD 13,375 OP17-02PB7/OP77-02PB1 1 47 050 1116,470 ActStns SLB GYRO-MWD-No Global 16.000 13,375 OP17-02PB1 I OP17-02PB1 1 1116.470 2182.500 ActSM SLB MJJD+GMAG-No Global 16000 13.375 OP17-02PB1I OP17-02PB1 1 21825DO 8174.730 A&Sms SLB MWD+GMAG-NO Global 12.250 9.625 OP17-02PB7/OP17.02PB1 1 8174.730 82DO.000 11100.ODD SLB_MWD+GMAG-No Global 12250 9.625 OP17-0211 / OP17-021.1 (P2) 1 82DD.000 8550DOO 11100-ODO SLB_M WV-INC_ONLV_FILLER-No Global 8,750 5.500 OP17-021-1 / OP17-0217 (P2) 1 8550.ODD 10050.000 1/100.000 SLB_MWD+SAG-No Global 8,750 5.500 OP17-02LI OP17-02LI (P2) 2 8wDD0 18212,623 1/100.000 SLB MWD+GMAG-No Global 8.750 5.500 OP17-02LI / OP17-02LI (P2) Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7,40 AM Page 2 of 39 Offset Trajectory Summary Offset Selection Crtlanda: Offset Selection Cntena'. Definitive Surveys- Definitive Pars- DefinNve aurveys exclude definitive plans - All Non-Def Surveys when nc Def-Survey is set in a borehole - All Non-Def Plans when ro Def-Plan is set in a borehole Offset Selection Summary Wells Selected B—boas Selected 13 Dell Surveys Selacted:l l N—Nf Surveys Selected.0 Definitive Plays Selected:2 Non-Def Plans Selected Total Trajecloriss:13 OSF filler in detailed report Nana • ExcludedThe trajectory was analyzed and fully Passed all cntena so the detailed results Kaye been excluded from this report for clenry Trajectory Borehole Welt Type Passing ExGuded OP77-02 OP17-02 OP17-02 Dar Survey OP 17-02PBI OP17-02PBI OP17-02 Def Survey 0124-08 0124-08 0124-08 Def Survey 0 idol, Point 1-2 Oliklok Pont 1-2 OlikGk Pont I-2 Def Survey OP10-08 OP10-08 OPTS-06 Der Survey OP18-08PB2 OP18-06PB2 OP18-M Def Survey 0P10-ML1 OP18-08LI OP18-08 Def Survey OGklok Point I-2PB2 Olik4k Point I-2PB2 Oliklck Pont 1-2 Oaf Survey SP31-W7 (P8b) SP31-W7 SP31-W7 Def Plan SP31-W7LI (P3b) SP31-W71-1 SP31-W7 Def Plan 012007PBI 0I20-07PB1 0120-07 Def Survey 012007 012D07 0120-07 Def Survey 0120-07PB2 0120-07PB2 012007 Def Survey Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7A0 AM Page 3 of 39 Field: SmucNre: Clk Slot nt Coordinate System North Reference: Magnetic Declination: Reference Point Northing 6036509.370 (fIUS) Mlkadchuq Well: OP17-02 OLldok Point Borehole: OP17-02 OP17 Trajectory- OP17-02 EN/ Type: Def Survey NAD27 Alaska State Plana. Zone 04, US Fast TNe Grid Cwvergance Angle: 0.12825768' Grid Scale Factor: 21.347' Magnetic Declination Date: December 07. 2010 Magnetic Model Easting Elevation 516626,280 (ftUS) 53.250 (ft) MSL Structure Unc. 0.000 (ft) (1 sigma) 0999900314 BGGM 2010 Slot Une. O.ODD (ft) (1 signs) Traieetory Emor Model: ISCWSAO YD 95.000% Confidence 2.7956 sigma Sumevlrm Pros: As Drilled Description MD From (ft) MD To (it) EOU Freq Survey Tool Type Role Si- (In) Casing Diameter on) Borehole I Survey O f%)0 41,050 119B.425 SLB GYRO-MWD-0epth Orly -No Global 16000 13.375 OP17-02PBI 1OP17-02PB1 41050 41.D50 AtSms SLB GYRO-MWD-0epm Only -No Global 16.000 13,375 OP17-02PBI IOP17-02PB1 41,050 1116,470 ActSms SLBGYRO-MWD-No Global 16.000 13,375 OP17-02PBI/OP17-02PBI 1118,470 2182.500 AGStre SLB MVUD+GMAG-No Global 16 ODD 13.375 OP77-02PB7 I OPI7-02PB1 2182.5DO 8441650 Act-Sms SLB MWD+GMAG-No Global 12,250 9,625 01`17-021`81 /OP17-02PS1 8441.650 9433.930 ActStrs SLB_MWD+GMAG-No Global 8.500 8.500 OP17-02PB1/OP17-02PB1 9433.930 18200000 ActStns SLB_MWD+GMAGNo Global 8.750 550D OP17-021OP17-02 All Relerenca MDIReference TVD l Referenda NS JRete.- EWj Offset MO I Offset TVD I Offset NS I OR VV ITreNoM At im lirg rlCt-Cl Distance) Separation IAl webl.DRa Oran- Cleamnm I OSF I �Rlelrng l SbM All local minima indicated Results Allred: Depth 8174.73 ft <- MD <_ 18212 62 ft Resufis filtered: Ct-Ct separation <= 1500.00It RI-ft highlighted Ct-Ct separation <= 1320 00 ft 8174.73 354037 251440 8200.00 354209 753260 8216 CO 3542 92 2544 28 8250.00 35. 16 25693 8300.00 3545 60 260710 835000 354650 264589 8400.DO 3546.86 2685.72 8407 % 3546 87 2692 17 :450.00 3546.68 2726.53 500 Oc 3545.95 2768.27 8550.00 3544.68 281088 86W DO 3562.92 2854 27 6650.00 354162 289731 8700.00 354113 2939.56 8750.00 354109 298133 80000 3541 05 302310 8850. DO 354102 306467 8900. DO 354099 3105.43 8950.00 3540 97 314529 900000 3540.95 3184.21 9050.00 3540.94 322214 9100.00 3540.90 325907 9150.00 35d 1.04 3294.96 20000 3541 23 333046 9250.00 3541 42 3365 95 93D0.00 354161 340144 9350 00 3541 80 343693 9400.00 3542.00 347242 945000 354219 350791 950000 3542.36 354398 9550.00 3542.51 3581.09 9600.00 3542.62 361921 9650.00 3542.69 3658.30 :700.00 3542 69 369623 750.00 354269 37M 31 980000 354269 3778.39 9850.00 3542.68 381647 9900. DO 354268 38585 9950.00 3542.68 389B.63 1000O. DO 354267 393871 10050.00 3542.67 397879 10100W W4302 C1839 10t 5000 354397 405711 10200.00 3545.46 4094 91 10250.00 3547 55 4111.216 1 D300.00 3549. SO 4168.28 10350 00 3552.06 4204.80 10400.00 355432 4241 32 10450.00 355657 4277 84 10500. DO 35M 82 431437 10550.00 356053 4351 19 1 0fi(IO.DO 356137 438849 1065000 3561.35 6426.22 10700 00 356041 4464 34 10750 00 3558.65 4502 82 10800.00 355581 4541 fi2 10850 00 355281 4580.51 10900.00 354982 4619 40 10950.00 35d6.83 4658.21 11000.00 354383 4697 18 -542143 817473 354037 251440 -542143 231 - -154.9 6.01 OSF150 Fail -5438.8] 8200. DO 354209 253260 -543887 000 758] -75.87 -5091 -0.0 051`150 Fall 5 -19.78 8216 DO 354312 25"18 -5.987 17116 021 ib4 J -001 OSF150 Fell 547268 824999 354513 256889 -547312 17231 118 14530 -1.12 -96.02 000 OSF150 Fail -550546 829996 3 1775 2605.47 -5507.07 18665 313 173S5 -17071 -113.09 002 05F150 Fail 553699 834986 3550.23 264213 554082 196.85 654 19095 -18442 -12109 0.04 OSF150 Fail -556721 839957 3552.65 267871 -557439 20353 1159 20D 62 -189.03 -122.48 0.DB 0SF150 Fail -557191 840747 355303 268450 557975 20445 1258 20229 -1 7 - 1 0.09 OSFl 50 Fail -559610 844901 355504 271487 -560802 208.74 1865 209 61 1 -12166 0.13 OSF150 Fail -562362 849855 355734 275128 -564150 21258 2]19 21600 -1 8. 1 -11714 Ole OSF150 Fail -564973 854800 355948 2]BB 04 56]4.55 21562 3684 22458 -1877411321 0.24 OSF150 Fall 5674.51 859731 356102 282495 570720 21784 4750 22962 -18213 -1 D591 031 OSF150 Fall -569992 8646.92 356154 286222 -5739.94 21792 56.83 23205 -17521 -9819 0.36 OS 50 Fail -572666 869536 356118 2898.3, 5T224 21853 6466 23689 -172.23 -9359 040 OSF150 Fail 575414 874358 356007 293356 -580513 22125 7241 24191 -16950 -8919 0.. OSF150 Fail 5]8162 879224 3558.68 2968.68 -5838 ]8 22387 80.86 24553 -16467 63.15 0.69 OSF150 Fail 58093 8640 N 355751 3003 fi2 -5872 fi2 224 72 89 43 24833 -158 91 -7fi.4fi 0 54 OSF1 50 Fail -5838 35 BB8B 3d 355683 3037.33 -59D6.01 224 26 9730 251 42 -154 12 -70.64 058 OSR 50 Fail -586854 093571 355686 307036 593995 22317 10472 25410 -149.38 -6 00 061 OSF150 Fall -589993 898376 355728 310330 59]493 22175 11152 25617 -14d.65 -5959 065 OSF150 Fall -593249 9031W 355754 313586 601045 22032 11146 25B 25 -14078 -5060 0.68 OSFt 50 Fail -596620 908607 355742 317269 -6 10 21893 12156 25773 -13618 -5003 070 OSF150 Fail 6001 01 9141 33 3556 49 3212 00 6088 92 21793 121 8fi 256 56 13-4 69 <9 50 0 71 OSF1 50 Fad 6036.22 9190 54 3555 52 3247 59 6122 89 21842 120 75 2585 13779 -51 94 0 70 0SF1.50 Fail 6071.44 9239.66 3554.86 329308 66 5714 21679 119.96 260.47 -14050 -5401 069 0SF150 Fail 6106.66 9290.% 3554.50 3319.% 6192.52 21901 119.07 26133 -14227 -5548 068 OSF1.50 Fail 614188 934181 3554.45 335699 -M 36 219.05 11771 26236 -1 a464 -5752 067 OSF1.50 Fail -617710 9390.91 3554.40 339272 626104 21911 11641 26441 14800 6019 0.66 OSFt 50 Fail 621232 9.014 355415 342828 629509 219 1154 26648 151.00 1 65 0SF150 Fail 624694 949011 355458 346432 632969 22096 115 1 26806 -15 35 OSF150 Fail 6280.44 9539.53 355563 3499.91 636396 22236 11721 269. -1 63 2 OSF150 Fail 631280 958918 355696 353554 6398.52 22369 12065 2]143 -1 8 6063 066 OSF1.50 Fail 6343.97 964056 355832 357263 643404 22509 I2528 27212 -146.84 -5646 0.69 OSF150 Fail 637406 .398 355948 361176 6470.39 22587 13054 27173 -14119 -50.N 072 OSF150 Fail 6403 95 9754 35 3559 57 36W 25 6506 88 22599 133 06 26703 -133 97 d5 29 07 0SF1.50 Fall 643384 980954 355E 58 3]0293 65ai 26 22638 13224 26516 -13292 -4486 075 OSF150 Fall 6463.74 986126 355813 3745.40 -6 70.75 22648 13050 26565 -13515 4693 073 OSF150 Fall 649363 991205 355810 378747 6599. 21 226.37 128.22 26676 13855 -4995 072 OSF150 Fall 652352 9962.46 355]90 MN 31 662731 22632 12573 268.27 -14254 -53.45 0]0 OSF150 Fall 655342 1001052 3557.54 386913 665425 226.36 123 di 27181 -148.40 -58.1 0.65 OSF150 Fail 658331 1005784 355717 390775 668159 22636 122.13 2760 -15. 21 0. 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OSf1.50 Fail 684818 1043970 355430 415618 693116 22803 11644 282 -t6 -72.1 062 OSF150 Fail 6882.25 1 0488 61 355316 42MM 696568 229.75 118.22 283.57 -16535 -7116 0.62 OSF150 Fail 6916.02 10539.28 355143 426677 -700133 23213 12037 28368163.31 -6908 063 OSF150 Fail 6949.31 10590.40 3549.12 430334 -70W97 23434 122.82 283.47 -160.65 66.49 0.65 OSF1.50 Fail 6982.11 1064215 354664 d34085 -707253 23613 12521 283.05 -15783 6381 0.66 OSF1.50 Fail -701446 10693.68 35. 17 437872 -710739 23742 12740 282W -15554 -6155 0.67 0SF1.50 Fail �704634 1074502 354197 441662 -714174 23817 12950 28327 153 ]7 5955 068 OSF150 Fail -]07775 1079E 58 353998 445715 J17693 238.20 13123 28258 -15135 -5748 069 OSF1 S0 Fail ]10903 1085339 353816 449963 -721150 237.54 13135 28095 -14959 -562] 0.70 OSF150 Fail -]140.31 1090460 353627 d54014 -72427] 23703 130.24 28149 -15125 -5]]5 0.69 OSF150 Fail 717159 10955.24 353340 4580.39 -7273.36 237.08 12886 28218 -153.32 -59.59 068 OSF150 Fail 720288 1100570 353019 462064 730362 237.24 12726 28289 15563 6166 0.67 OSF150 Fail Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 4 of 39 Tmpdory: ON 7.02LI (P2) Vs. ON 7.02 Reference MD Reference TVD Reference NS JReference E Offset MD Ok^ t TVD Ofleet NS Okset EW Tmveinp Cylinder NwM Azen Ct-Ct DsUL Minimum 'MI.-ba SepsmWn Albeade DBVUEon from Reference EOU{pU Cba.- OSF Conlydling RWe Status 11050.00 3540.84 47M 07 -723416 1105613 352748 4fifi097 -733378 23719 12547 28373 -158.26 -6401 066 OSF1W Fail 11100.00 3537 88 477494 -7265 47 11104 71 3525.54 469970 -7363 05 23658 123.83 286 14 -162 31 67 25 0.65 OSF1 50 Fa4 7115000 3535.36 4813.52 -729717 11 /5325 352446 473802 -739281 235.30 122.34 268.63 -16629 -7041 063 OSF1 50 Fail 1120000 3533.33 4851 W -7329.21 11202.87 352395 477695 -7423.58 234.49 12086 29041 -16955 -7307 062 OSF150 Fail 112500D 353129 489019736125 1125254 352373 4815.83 -745450 233.68 11951 29224 -17274 -7565 061 OSF150 Fail 1130000 352926 492852 -7393.29 1130202 352367 485445 -748542 232 ]7 118.34 29423 -17589 7815 Ofi0 OSF150 Fail 1135000 352723 4966.85 -742533 1135149 352367 489295 -751649 231801 29619 -1 ]879 -80.39 059 OSF150 Fail 1140000 352519 50D518 -745738 1139864 352354 492940 -754670 230 9 7 29957 -18 4 -8 90 0. 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DO 355961 656782 470393 1340197 3540.53 6489.88 z80105 238.97 12598 395.23 -219.25 -104.50 0.54 OSF150 Fail 13450. DO 355992 66M 26 673590 13450.57 354017 652774 .883152 2393234719 � -22190 -106.50 0.54 OSF50 Fail 13500 00 MW 23 66447 -8767 87 1 U9814 3539 71 6564.25 981V 01 239 66 125.52 3.4973 -224 21 OSF! 50 Fan 13550.00 3560 54 6683 14 -8799 85 13545 W 353912 660031 -8893.29 23998 126.69 35204 -2 5 3 - 0. OSF1 50 Fail 13fi0000 356085 672158 -883182 1359372 353841 663592 -8925.23 240.28 128 ]t 3541 -225.4 -10 3 0.54 OSF150 Fen 13650.00 356105 6759.79 -886406 13642.31 353]]0 667158 A958.21 2.52 13112 355.95 -22484 -10651 0.55 OSF150 Fail 13700.00 356086 679736 -889705 1369165 353783 670149 -899205 238. 22 13279 35797 -22518 -10619 0.55 OSF150 Fail 13750.00 356004 683434 -8930.69 13740.36 3538.89 6]42.62 -902578 23632 13380 WI -227.20 -10720 0.55 OSF160 Fan 13800.00 3558 58 687071 -8964 98 13788 44 3540 81 6T]6 76 -9059 56 233.81 134.50 36480 -230.29 .109 02 0.55 0SF1 50 Fan 138M 00 355648 69064 .8999 86 1383746 3543 41 6811 08 -9094 48 230 74 13496 36850 -233.53 -111 03 0.55 OSF1 50 Fail 13900.00 355375 694153 -9035.39 1388; 64 3545, 6846.30 913017 22768 13462 37137 -236.75 -11329 0.54 OSF150 Fail 1395000 355037 6975.96 -907149 1393771 354645 688161 -9165.65 22468 13336 37382 -240.47 -11619 0.53 OSF1 50 Fail 1400000 354643 7W978 -910811 1398754 354750 6916.80 -9200.92 22191 13138 376.D3 -244.64 -119.63 0.52 OSF150 Fail 1405000 354244 704346 -9144.85 140M% 3548.42 694936 923400 21949 129.76 378.82 -249.05 A2311 051 OSF1 50 Fail 14100.00 3539.01 7076.67 -9182 D6 1 Q78 34 3548.85 697920 -928684 216. 129_ 38132 -25176 -124. 0,51 0SF150 Fail 14150.00 353631 7109.30 -9219.85 1412415 354882 7008.57 330198 21489 7 382.94 -25237 -1 051 OSFI 50 Fail 1420000 3534.36 ]741W -925817 1417219 354875 703865 -933944 213.33 13176 38423 -25247 -124 2 051 OSFI 50 Fail 14250 DO 353332 7172.97 -9296.89 1422092 354875 7068.64 -937785 21224 13296 385.55 -252.59 -12440 051 OSFI 50 Fail 14300.00 3533 13 ]204 1 ] -9335 97 14271 44 3548 63 7099.67 -9417 71 211 81 133 58 387 05 -253 48 -124 79 0.52 OSF1 50 Fan 14350 00 35M 12 7235.28 -937511 14322.33 354833 7131 10 -9457 74 211 95 133.84 3W 70 -254 W -125 62 0.51 OSFI 50 FaA 14400.00 353311 726fi.39 -9414 26 14373 97 354790 7163 40 -9498 03 21212 133 58 390.29 -256 71 -126.94 0.51 OSFt 50 Fail 14450.00 353311 729749 -945340 1442448 354736 7195.39 -953711 21231 13280 39193 -25913 -128.82 0.51 OSFt 50 Fail 1450000 353310 732860 -9492.55 1447349 354674 ]22627 957517 21255 132.23 39367 -26114 -130.55 0.50 OSF150 Fail 14550.W 353309 735967 -953172 14522.21 354603 72566fi 961324 21247 132.00 39540 -263.40 -13193 0.50 OSF150 Fail 14600.00 M3311 739008 -957141 14570.53 354522 728633 -965137 21156 13155 39708 -26554 -13350 0.49 OSF1 Fall 14fi50.00 353316 741963 -9fi1174 /4617 ]9 354436 731482 9689.06 21068 1i 39859 -26787 -135.3d 049 OSF150 Fall 147WW 353329 744829 -965271 1466338 354399 ]34123 -9726.22 20967� 130.3 39962 -269.31 -13644,,� 04!9� OSF150 Fail 14760.00 353374 747609 -969426 1470942 35"18 7366.67 -976459 20860 13049 40030 -269.80 -13670® OSF150 Fall 148M 00 353455 7503.03 -9736.38 1475701 3544.67 739206 -9804.84 20757 13078 40117 -27039 -13699 0.49 OSF150 Fail 14850.00 3535 71 7529 09 -9779 03 148N 86 3545 W 7416.85 9845 76 208 63 130.94 402.04 -271 10 -137 42 0 49 OSF1 50 Fan 1490000 353722 7554.26 -9822 21 14854 36 3545 28 7442.07 .98B8 36 206 14 13049 403 52 -273.02 -138 85 048 OSF1 50 Fad 1495000 353908 7578.53 -9865.88 1490342 354415 7466.63 -9930.69 206.40 129.25 40475 -27550 -14091 048 0SF150 Fail 15000.00 M4096 7602,30 -99D983 1495102 3542.83 7490.30 -997209 20724 12816 40510 -27695 -142.24 0.47 OSFI 50 Fan 1505000 354244 762546 -995412 1499870 354171 751307 -1001396 20753 12733 4052/ -2 9 -1 4 047 OSF150 Feil 1610000 354343 764797 -999$75 1504638 3540.20 753510 -1005621 20781 12612226...666��§§§9.., 405.03 -278.34 -143.8 0.47 OSF150 Fail 1515000 354395 766983 -1004372 1509395 353790 755633 -1009872 208.2 40437 -27810-143.64 .4 OSF150 Fail 15179 87 354403 7682 57 -1 D070 73 15121 78 353fi 38 7568.32 -10123 79 208 4 126 2 403 40 .27720 -14306 0.47 05F1 50 Fail 1 520000 354400 7691 02 -10089 00 1514054 3535 39 757617 -10140 79 208 55 1 6 28 40271 -276 43 -142.52 047 DSFt 50 Fail Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 5 of 39 TrajectoryOP17-02L1 (P2) Vs. OP17-02 Reference MD (ft) Reference ND (R) Reference NS (ft) Reference E (ft) Offset MD (R) ORset ND (ft) ORset NS (ft) Offset EW (ft) Traveling Cylinder NOM Aaim V) Ct-Ct Distance (ft) Minimum Allov4rDle Separation (ft) Albvable Deviation Rom Reference (R) EOU{OU Clearenoe (ft) OSF Comr011ing Rule Stall l t5250.01 3543.65 1711.51 -10134.61 15', r. 353306 759489 -1018342 20B.54 12686 400.88 -27402 -14072 047 OSF150 Fail 15300.00 354296 T73134 -1018050 1523� 7i 353070 761352 -1022818 208.75 12]69 4DO 57 -272 as 3968 046 OSF150 Fail 1535D.00 354219 T75105 -1022645 152M 35 352826 7631.74 -10273.23 2D9 45 12891 40028 -27137 -13827 048 0SF150 Fail 15400.00 3541.43 7]70.76 T027239 1533493 3525.W 765051 -1032014 21013 13032 40165 -27133 137 T, O.d8 OSF150 Fail 1545000 354067 779047 -10318.34 1538572 352360 7669.63 -1036].14 21070 13144 403.26 -27183 -13773 0.49 OSF1.50 Fall 1550000 353991 7810.18 1036428 154M 74 352169 768914 1041424 21115 13221 40515 -P294 -138.22 049 OSF150 Fail 1555000 353915 7829.89 -1041023 15487W 352010 77D304 -1046132 21148 13259 40724 .27465 -13923 049 OSF150 Fail 156W.W 353839 784961 -1045617 1554025 351661 7730 D6 -10509.27 21181 13230 410.23 27793 -1d152 048 OSF1.50 Fail 15650.00 3537.63 786932 -1050212 15592.29 351713 775180 -10556.53 21219 13112 41278 -28166 -144.40 047 OSF7.50 Fail 15700.00 3536.88 7888.97 -1054809 15642.90 3515.61 7T/3.38 -t060228 21236 129d2 41418 -2647] -14703 047 OSF150 Fail 15750.00 353617 1908.95 -1059413 15693. 11 351399 779503 -1064755 212.94 12732 41513 -287.82 -149 ]7 046 OSF1.50 Fail 15B00.00 353547 ]92]93 1064017 1574208 351254 78159d -1069180 213.44 125.42 41526 -28984 15174 045 OSF1.50 Fail 15850.00 353476 794741 -1168622 11790.15 351132 783638 107.07 21382 41538 --144 -15331 045 OSFt 50 Fail 15900.00 3534.06 7966881073226 1583883 351075 785576 -1077995 213 415.36 29221154.D9 044 OSF150 Fe4 1:95000 353335 ]98636 1O78.31 1588689 3510.95 787d 32 10824.29 21342 123.17 41599 4 04 OSF1.50 Fail 1600000 3532.65 8OD5.84 -1M 435 1593535 351128 789237 -1086925 212.89 12389 417 - -154.48 0.44 OSF1.50 Fail 16050.00 3531.95 802532 -1087040 1598409 351137 7910.01 -1091469 21242 125.22 41824 -29302 -15393 045 OSF1.50 Fail 16100.00 3531.24 8044.80 -1091644 1603534 351144 79280 �10962" 21195 126.51 42173 -295.22 -15497 045 OSF1.50 Fail 16150.00 3530.54 606428 �1096248 1608628 351164 ]94758 -1100972 2114E 12]31 42488 -29757 -1562 0.4 OSF150 Fail 16200.00 3529.81 808366 -1100857 161M 04 351184 ]96618 -1105588 21052 12]91 426% -29904 -15705 045 OSF150 Fail 16250.00 3529.01 B102.591105484 161 B5.89 351201 ]984.75 -/110214 20986 12811 42906 -30095 -15826 045 OSF1.50 Fail 16300.00 3528.21 812150 -1110112 1623603 351184 8003.47 -11148.65 209.57 128.29 431.22 -302.93 159.52 0.44 OSF1.50 Fail 16350.00 3527.41 8140.41 -11147.40 16286.04 351717 8022.25 -1119500 21N 12842 43299 -304.58 -16057 �4d OSF1.50 Fail 164300.00 3526.61 815932 11193.68 16335.66 350995 8040.87 -11240.98 2M 68 12864 43410 -305 `6 -16109�0t�4 OSF150 Fail 16450.00 3525.81 817523 -11239.96 1638545 350816 805947 1128712 21010 12900 43502 -30602 16134 04a OSF150 Fail 16500.00 3525.01 819716 1128623 1643569 35M 51 80782] -1133369 21063 12934 43642 -W7.06 6193 0.d4 OSF150 Fail 16550.00 3523.95 :216.67 -11332.25 16487.01 350530 809756 -11381.23 21183 13013 43919 309.06 -16299 0. OSF150 Fail 16600.00 3522.49 8237 11 -11337 86 1654074 3504 93 8118 76 -11430.60 21246 130.75 444 54 -313 79 -165 94 0.. 0SF1 50 Fail 16650.00 3520.63 825846 1142303 16593.28 35054a Bt4066 -1147834 212.57 13102 44936 -318.33 -168.8E 0.4d OSF1.50 Fail 16]0000 3518.37 82W 73 1146774 166.59 350582 816268 -1152469 21257 13166 453.26 -32160 -170.84 0.43 OSF1.50 Fail 16750.OD 351567 8303.87 1151198 16696.W 350605 618542 -115i113 21243 13275 45731 -32456 -1724 04 OSF150 Fail 1680000 3512.53 832787 11555.73 1674822 350663 820894 1161]41 21197 13411 46143 - ] -173. Oda OSF150 Fail 1685000 350893 835273 1159896 1679806 350756 623196 -1166160 21127 13604 464 -3 1 -1737] 044 OS 50 Fail 169W 00 350490 8378 36 .11641 70 1684672 3508 75 8254 22 11 ]04 86 209 % 13934 466 00 -3. 6 -171 65 0.45 OSFT 50 Fail 16950.00 3501 01 8403 94 -11684 49 16099 1 t 3510 04 8278 23 -11751 41 20695 142 70 469.12 -326 43 -170.65 045 OSF1 50 Fail 17000.00 369781 842882 1172774 1695416 3510.35 830498 -117-51 20d 40 14369 4]270 -329.01 -1717] 0.45 OSF150 Fail 1705000 3495.30 8453.0011P143 1]00517 3510.01 8330 ]9 -1184351 2024] ta26d 47445 -331.81 -17399 0.45 OSF150 Fail 171 D0 00 3493 49 U7645 -11815 55 17055 46 35097 8356 38 11886 80 200 75 140 57 47592 -335.35 MN 0 44 OS 1 50 Fail 1715000 349238 8499.17 1186008 1710385 35M 49 838056 1192855 19935 13776 47684 -33908 18046 043 OSF150 Fail 1720000 349196 852114 1190499 1715197 350867 640459 -1197040 19844 134.69 47782 -34313 -18419 042 OSF150 Fail 1 ]25000 349197 854226 1195030 171WM 350768 842759 -1201237 197 t8 13133 47875 -34742 -18816 041 OSF150 Fail 17300.00 U92.01 $56240 -1199607 1724770 350707 844996 -12D54.66 19633 12766 47946 -35180 -192.30 0.40 OSF150 Fall t]350.00 3492.07 858152 -12042.27 17298.38 350679 8d7341 12D9960 19498 12326 46162 -356W -198.15 0.38 OSF150 Fail 174W 00 3492.16 8599 79 -12088 81 17349 70 3506.73 8497.77 121" 194 12 117 27 484 09 _366 01 -205 78 0 36 OSF 1 50 Fail 17450.00 3492.25 MI796 -1213539 17398.07 350712 852092 -1218724 19356 Ill 02 48480 -373.78 -212.51 0.34 OSF150 Fail 175W W 3492 34 8636 12 12181 98 1744609 3508 39 8543 37 -12229 67 192 52 10552 484 73 -379 21 -217 96 032 OSF1 50 Fail 1755000 3492.43 865429 -12228.56 17493.21 3510.24 856465 -1227166 19113 tot 04 48321 -382.17 -22143 031 OSF150 Fail 17600 00 3492 52 B6]2 45 -12275 14 17540.31 3512 16 8584 76 -12314 21 189 73 97 99 480 -382. -222.93 0 30 OSF1 50 Fail 17650.00 3492 fit 86IM 62 -12321.13 175W 2 351412 860410 -12358.M 18838,�� 9625 47877 -382.53 -223. 30 OSF150 Fail 11700.00 3492]0 870878 -1236831 1763648 351598 867273 -12d024B 1871'I�Y."� d]681 -38135 -22274 0. OSF150 Fail 1]]50.00 3492.79 8726.94 -1241489 1768518 35t].62 8640 ]3 -1244]70 1862d 9552 4]545 -37993221.77 0.30 OSF150 Feil 178 (X 3492 88 6745 11 -12461 48 1 T734 11 3518 75 8658 15 -12493 41 185 69 96 18 474 90 -378 72 220 75 0.30 OS 50 Fail t ]85000 3492 97 8763 27 -12508 D6 17783 49 3519 31 8675 13 -12139.71 185 59 9731 475 65 78 34 -220 12 0 30 0SF1 50 Fail 179 W 3693M 8781 a4 12554.65 1783310 351915 8613 9 -12586.50 18595 9865 47]. -7B.B1 -219.99 031 0SF150 Fail 1795000 349315 8799.fi012601.23 1788196 351852 8]07781263267 1B664 100.32 4]872 8 21915 031 OSF1.50 Fail 180D0.00 349324 W17n -1264781 17930.47 351811 8723.05 -1267670 18]26 10268 47932 -3]6.64 -21720 0.32 OSF150 Fail 1805000 U9333 893593 1269440 1797808 351809 873736 -12724.11 18773 10588 47839 -37250 -21337 033 OSF150 Fail 1810000 U9342 885410 -12740.98 1802511 351887 8]5052 -1276926 18788 1103d 47615 -36581 -20742 035 IDS 50 Fail 50.00 3493.51 887226 -12787.56 18072 12 35M 29 8762 66 1281465 187 83 116 04 47370 -357 67 -200 D9 0.37 0SF1 50 Fail is 1B200.00 349360 8890.421283415 18119.03 3521 40 8773.651286024 /8806 12284 47164 -34879 -191.91 0.39 0SF150 Fail 18212.62 349362 889501 -1284591 1813083 352162 877624 -1287175 18816 12474 47116 34642 -18970 039 OSF150 Fail End of msufts Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 6 of 39 Field: Structu e: Slot "em. Coordinate System: North Reference: Magnetic Declination: Reference Point 6036509.370(RUS) NIkaRMuq Well: OP17-02 01iktok Point Borehole: OP17-02PB7 OP17 TmjeCtorY: OP17-02PB7 ENI Type: Del Survey NAD27 Alaska State Plane, Zone 04, US Feat True Grid Convergence Angle: 0.12825768' Gntl Scele Factor: 21.399' Magnetic Declination Data: November 01. 2010 Magi Mood Eeennn El-fion 516626.280(ftUS) 53250(it)MSL Structure Une. 0000 (R) (1 sigma) 0,9999M314 BGGM 2010 Slot Une. 0.ODO (R) (7 Si Traiectory Error Model: ISCWSAO 3-0 95.000 % Confidence 2.7955 sigma Survevino Proo: As Drilled Description MD From (it) MD To(ft) EOU Freq Survey Tool Type Hote St. (in) Casing Diameter on) Borehole/Survey 0,000 41.050 1/98,425 SLB_GYRO-MWD-Dpth Only -No Global 16000 13,375 OP17-02PB1/OP17-02PB1 41,050 41,050 AdSbs SLB_GYRO-MNA-0epth Only -No Global 16000 13.375 OP17-02PB11OP17-02PBI 41050 1116470 ActStrls SLB_GYRO-MVr9-No Global 16,000 13.375 OP17-02PB1/OP17.02PBI 1116.470 2182.500 Acti SLB_MVVD+GMAG-No Global 18000 13,375 OP17-02PB7/ OP17-02PB1 2162.500 8441,650 AdStits SLB_MWD+GMAG-No Global 12.250 9.625 OP17-02PB110P17-02PB1 8441.650 18940.ODO At-Sma SLB_MM+GMAG-NO Global 8.500 8.500 OP17-02PB7/OP17-02PB1 Reference MD (it) Refererroe TVD (ft) Reference NS (fl) JReference ORsat MD Offset TVD Offset NS Offset EW Traveling Cylinder North A yl' CtCt Distence Minimum Alto-bie Separation Albvacle Damtion hom Reference EOU{OU Cbarance (R) OSF Controllirp We Sit - All 1-1 imni Fd.-tad. Resuhs fifth Depth 8174.73It <- MD r- 18212.62 It R:Zks filter i Ct-Ct Separation <=15W 00 ft Results highlighted: CtCt separation <= 13211.00 R 8174 73 3540 37 251440 -5421 43 617473 3540.37 2514 4D -5421 43 0.0 231 8 - -1 1 -0.01 OSF1 50 Fail 8200.00 3542.09 2532.60 -543887 82D0.00 354209 253260 -5438.87 000 75.87 .115, -50.91 -(1.0 Os 50 Fail 821600 3542.92 25"28 -544978 8216W 354312 254418 -544987 17116 0.24 1440 -143.8 -96.1 -0.01 OSF150 Feil 825000 354416 25M 38 -5472.68 824999 354513 256889 547312 172.31 118 145.29 -14411 -W of 000 0SF150 Fail 8300.00 354560 2607 10 -5505 4fi 8299.96 354775 26054 -5507 07 186.65 313 173 83 -170 70 -11308 002 OSF1 50 Fail 8350.00 354650 264589 -5536.99 834986 3550.23 264213 554082 196.85 6.54 190.94 -18440 -12108 0.04 0SF150 Fail 8400.00 354666 268572 -556721 8399.57 3552.65 267871 -5 74.39 20353 1159 20060 -18901 -122.47 0.08 0SF150 Fall 8407.98 354687 2692 17 -5571 91 8407 47 3553.03 268450 5579 75 2D4 45 12.58 202.28 -109.70 -122. 009 Os 50 Fall 8450.00 3546.68 2726.53 -559610 1544901 3555 D4 271487 5608.02 20874 18.65 2099 -1 1.31 -12165 013 OSF150 Fall 850D00 354595 2768.27 -5623.62 8498.55 355734 275128 -564154 212.58 2719 21598 -188.7 -11713 O18 OSF150 Fad 8550.00 3544.68 281088 -564973 8548.00 3559.48 2788.04 -567455 21562 36.84 22456 -18772 -113.20 0.24 OSF150 Fail 8600.00 3542.92 285427 -5674 51 859731 3561 02 2824 95 5707 20 217 84 47 50 22961 -182.11 105 90 0.31 OSF1 50 Fail Bfi50.00 354162 289731 -569992 8646.92 356154 2862.22 -573994 21792 56.83 232.03 -17520 -9818 0.36 0SF150 Fail 8700.DO 354113 293956 -572666 8695.36 356118 289E 31 -577224 21853 6466 236.88 -17221 -93,58 040 0SF150 Fail 875000 354109 298133 -575414 8743.58 3560.07 2933.56 580513 22125 7241 24189 -16948 .8918 044 0SF150 Fail 8000. DO 354105 302310 -578162 879224 355868 296868 -583878 223.87 8086 245.51 -1(PI 65 -8314 049 0SF150 Fail B5 B0.00 354102 3064.67 -580939 8840.89 355751 30D362 5872.62 22472 8943 24831 -15889 -7644 0.54 0SF150 Fail 354099 3105.43 -5838.35 888834 3556.83 303733 5906.01 224.26 9730 25140 -15410 -7063 058 OSF150 Fail 5900.00 895000 354097 3145.29 -5868.54 893571 355686 307036 -5939.95 22317 10472 25408 -149.W 64.99 0.61 OSF150 FaA 9000.00 354095 318421 -sm 93 898376 355728 3103.30 -5974.93 22175 11152 25615 -14463 -5957 0.65 OSF150 Fail 9050.00 3540.94 3222.14 -5932 49 9031 94 355754 3135 86 6010 45 22032 117 46 258.23 -140 77 -55.02 0.68 OSF1 50 Fall 9100.00 35QN 325907 -5%6.20 90B6.07 355742 3172.69 605010 21893 12154 25771 -13617 -50.59 070 OSF150 Fall 9150.00 3541 04 329496 6001 01 9141 33 355649 3212.00 6088.92 21793 121 86 256.54 -134 68 .949 071 OSF7 50 Fail 9200.00 3541 23 333046 6036.22 9190 54 355552 324759 6122 89 218 42 120 75 258 53 -137 78 -51 93 070 OSF1 50 Fall 9250 00 3511 42 3365.95 -6071 44 9239.86 3554.86 3283.08 6157 14 218 79 719 96 260 45 740 48 -54 00 0 89 0 F1 50 Fail 9300.00 354161 340144 6106.66 9290.96 355450 331995 -6 2.52 21901 11907 26132 -142.25 -55.47 0.68 0SF150 Fail 9350.00 354180 3436.93 61d188 934181 355445 335699 622736 21905 11771 26234 -144.63 -5751 067 OSF1 50 Fail 9400.00 354200 347242 617710 9390.91 355440 339272 626104 21911 11641 264.39 -14798 6018 066 OSF150 Fail 9/50.00 354219 350791 6212.32 9440.22 355414 342833 629514 219.36 26642 -150.95 62.47 0.65 OSF150 Fail 9500.00 354236 3543.98 624694 9490.:9 355367 346494 63W 17 2214 26774 -1 40 63. B OSF150 Fail 9550.00 3542.51 35B109 628044 95411 3553.01 350178 1365.03 22361 269. -152. 1 6326 0.65 OSF150 Fail 9600.00 3542.62 3619.21 6312.80 9592.59 3551 98 353905 6399.80 226 Ot 27021 -151 54 61 BO 0.66 OSF150 Fall 9650.00 3542.69 36M 30 6 1397 9643.52 355046 3576.56 643421 22863 12201 27141 -14941 -59.26 067 OSF150 Fall 9700.00 354269 3698.23 637d 06 969445 354866 3614.W 646829 2?056 126.29 27255 -146,26 -5574 069 OSFt 50 Fail 975000 M4269 373831 640395 974396 354674 365135 650114 23150 13048 27d 57 -144.09 -52.90 071 OSF150 Fall 9800 00 354269 3778 39 6433 84 979007 3545.27 368525 6532 37 23219 135 61 278.22 -142.61 -50.20 0 73 OSFt 50 Fail 9850 00 354268 381847 6463 74 983649 3544 26 371854 6564 71 232 64 /42 07 281 45 -139 38 45.89 0 75 Os 50 Fail 9900 00 354268 3858 55 6493.63 988531 3543 22 3753 14 6599 13 23307 14914 28354 -134 41 -10,22 079 OSFt 50 Fail 9950 00 3542 fib 389863 6523 52 993421 354198 3787 64 6633 76 233.54 156 44 285 63 -12919 -34 31 0.82 OSFi 50 Fail 10000.00 3542 67 393871 6553 42 9983.84 35409 382263 6668 94 233.89 163 78 28743 -123 65 2817 085 OSF1 50 Fail 1005000 3542 67 3978 79 6583.31 10033 77 3540 41 3857 88 6704 30 233 94 171 07 28923 -118 16 -22.08 089 08F1 50 Fail 10100.00 3543 02 401839 6613.83 1008511 3539 57 389d 37 6740 40 232 61 17723 274 98 -97 75 454 2 096 OSF1 50 Fail 10150.00 3543.97 4057 11 6645 45 1013601 3538 22 39W 89 67 5 83 231 68 161 56 27548 -93 92 -2 42 0.99 OSH 50 Fail 1020000 354548 409491 667814 1018541 353802 396634 681023 23056 18448 27658 -92. D9 -0.23 100 0SF150 Fail 1025000 354755 413176 671187 1023677 353958 4003.09 684607 22940 186.10 27714 -91 D5 100 101 0SF150 Fail 1 D30000 3549.80 416528 6745.94 1029263 354163 4043.93 -6 U13 22954 18608 27605 -8996 172 101 OSF150 Fad 10350 00 3552.06 4204 80 6780 02 1034625 354337 4084 15 6919 53 229 78 184 65 275 62 -90.% 057 1 00 OSF1 50 Fad 104DODO 355432 424132 681410 1039775 354433 412322 695308 230.24 182.66 27592 -93.26 -161 099 OSF150 Fad 10450.00 355657 427784 6848 18 1044892 3544 63 4162 32 6986 08 230.92 180.29 276.22 .9593 -0 18 098 OSFt 60 Fad 10500 00 355862 4314 37 6882.25 10499 88 354480 4201 48 -7018 69 231 76 17764 276 53 -98.88 -7 04 096 OSF1 50 Fall 1055000 356053 435119 6916.02 1055194 354510 424175 -705169 233.01 17499 27632 -10133 -9.55 095 OSF1 50 Fail 10600.00 35fi137 438849 694931 1060453 354619 428287 -7084.46 23373 172.20 2760fi -10386 -1217 093 OSF150 Fail 1 0fi5000 356135 M2622 698211 1065384 3 1776 432161 -711492 233.93 16960 27778 -10817 15.91 091 0SF150 Fad 1070000 3560 41 4464 34 -7014 46 1070239 3549 42 4359 52 -7145 20 23374 167 93 280 08 112 14 -19 11 0.90 OSF1 50 Fail 1aJ50.00 3558.55 450282-7046.34 1075742 355076 440277 -717919 233.26 16649 27891 -1 41 -1977 0.89 0SF150 Fail I OB0000 3555.81 454162-707775 1OB1401 355013 4448.69-7212.24 23293 163.57 27619 -11282 -20.88 089 OSF150 Fail 10850 00 3552.81 4580 51 -7109 03 10864 07 3548 96 4489 91 -7240.63 2323 15981 277 33 -117 51 -25 40 086 OSF1 50 Fail 1090000 354982 461940-7140.31 10913W 354824 45W 79-726872 23152 156.02 278 T7 -12275 3016 0.84 0SF150 Fail 1095000 354683 4658.29-717159 109W 61 354768 456917 -729573 23066 15282 28203 -12921 -3553 0.81 OSF150 Fail 11000.00 3543 83 469718 -7202 88 1100766 3547 03 4607 12 -7323 53 229 85 15059 28512-134.53 -39 82 079 OSF1 W Fad 11050 00 354084 473607 -7234 16 1105642 3546 54 4645 17 -7352 38 228.93 14923 28773 -138 50 42 92 078 OSFt 50 Fail Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 7 of 39 Traps ry, 0P17-02L1 (P2) Vs, OP17-02PB1 Reference MD Ift) Reference ND (R) Reference NS (ft) ReferenceE (fl) ONsat MD (ft) ORsot TVD (ft) Offset NS (ft) Ofleet EVJ (ft) Traveling CyliMer North Azim C) CFCt Distance (ft) Minimum Allowable Separation Ifl) Allowable Deviationfrom Reference (ft) EOU{OU Clearance (ft) OSF Controlling Rd. Sbtrn. 11100. DO 353788 47]49 -726547 11103.18 354643 468282 -738177 22761 14861 .21 -14160 4519 0.77 OSF1.50 Fail 11150.00 353538 4813.52 7297.17 1115197 354584 472093 -741224 226.16 14807 29197 -14390 4690 076 OSF150 Fail 1120000 3533.33 Q5186 732921 11200.84 3563.96 4758.7] -744310 22595 14749 29381 -14633 4872 075 OSFl 50 Fail 11250.OD 3531.29 489D 19 736125 1125024 354087 4796.73 447456 22636 14720 29549 14830 -5013 0.74 0SF1.50 Fail 11300.00 3529.2fi 492852 -7393.29 1129966 353678 483450 -750617 22718 14710 297.22 -15012 -5137 074 0SF1.5D Fail 1135000 352723 496685 742533 1135065 353199 487345 -753873 22823 14698 29800 15102 -5201 0.74 OSF150 Fail 1140000 3525.19 500518 ]45738 1140180 M2728 491280 -757106 22926 14650 29858 -15208 -5288 073 OS 1.50 Fail 11450.00 352316 504350 748942 1145159 352301 495124 760241 2" 2998] -153.99 .5436 0.73 OSF1.50 Fail 1150000 3521.15 508185 -752145 1150141 351927 498970 -763385 231 14 3 30107 -15571 -55.68 7 OSF150 Fail 11550.00 3519 64 5120.46 7553 17 11550.83 3516 22 5027 61 -7665.17 232.27 145 39 302 38 -156.99 -55 5 0.7 OSF1 50 Fail 11600.I]0 3518 81 5159 44 -]584 48 11600.22 3513 93 5065 80 -7696 64 233 47 146 19 303 66 - 4 - 0 12 OSF7 50 Fail 11636 49 3518 63 5186 10 7607.06 11635 42 3512 63 5092 74 -7719 27 234 33 147 38 305 0 -56 31 0 72 OSF1.50 Fail 11650.00 3518 65 519876 -7615 36 11648 46 3512 19 5102 66 -7727 71 23d 68 147 98 305 53 157 55 -56 04 0 72 OSF 1.50 Fall 1170000 3519.05 523837 764587 1169666 3510.74 513914 -715919 235.59 15005 30731 -156.46 -5435 073 OSF150 Fail 1175001 3519.4' 527801 -767634 1174630 350991 517648 -7791.88 236.00 15412 30854 -15442 -5191 075 OSF1.50 Fail 11800.00 3519.94 5317. -770681 1t]9597 3510.10 521376 -782471 236.01 15746 30993 -15247 49.49 0.76 Os FI 50 Fail 11850.00 3520.39 5357.30 -, 27 1184fi.35 351099 525157 -785799 23578 16075 31112 -150.36 46.99 0.77 OSF150 Fail 1190000 3520.84 53%.94 -7]6774 118%60 351230 528936 -789109 23542 16390 31243 -14853 4472 0.]8 OSF150 Fail 1195000 352129 5436.58 -7798.21 1194526 351438 532580 �792326 23479 16720 31459 -14738 t285 080 OSF150 Fail 12000.w 352174 547623 -7828 fib 1199383 351754 536187 -7955.63 23383 17091 31665 -14594 4065 081 OSFI 50 Fail 12050.00 3522.19 5515.87 785915 1204374 352052 539885 -798902 232% 17d 82 31848 -14366 -37.82 082 OSF1.50 Fail 12100.00 3522.63 555551 -788961 12094.06 352211 543623 802267 23259 17870 3197fi -141.06 3480 OB4 OSF150 Fail 12150.D0 3523.15 559493 792037 1214719 3522.77 547609 805778 23165 18167 319.82 -13815 -31.87 085 OS F150 Fail 12200.00 3523.83 563388 � 95171 12199.57 3522.77 5515.99 A09171 23135 18303 320.08 -13705 -3069 0.86 OSF150 Fail 12250 00 3524.54 5672 75 -7983 15 12249 45 352255 55541 6123 85 231 64 184 04 321 43 -30 5B 0.86 OSF1 50 Feil 12300 00 3525.24 5711 63 801459 1229966 352226 559253 8156 21 231 94 18507 322 6 1 7 -30 34 0.96 OSF1 50 Fail 1235000 3525% 5750.50 8046.03 42350.83 352186 563180 818901 232.29 18588 32339 -13 52 _30.05 0.86 OSF150 Fail 72400.00 352666 5789.37 W7746 12402.03 352132 567131 822156 23267 18638 324.11 -13774 -30.03 0.86 OSF1.50 Fail 12450.00 352737 5828.25 810890 12453.27 352080 571106 8253.90 23306 18655 32479 -138.24 -3030 066 OSF1.50 fail 12500.00 3528.08 5067.12 8140.34 12505.18 352030 575158 620634 233.44 186.35 32512 -13877 -3072 OB6 OSF150 Fail 12550.00 3528.79 590599 817178 1255].91 3519 76 579319 8318 74 23385 18549 32a 98 -13949 31 50 065 as 50 Fail 1260p00 352975 5944 91 .8 316 12608.53 3519 14 5833 48 8349 37 23459 184 13 325 71 -141 57 -33 33 085 OS 50 Fail 1265000 353154 598394 823435 1265759 351821 587246 837915 23572 183.23 32687 :14364 -3501 0.84 OSF150 Fail 12700.00 3534.08 602309 826535 1270732 351722 591185 8d0947 23699 182.84 32749 14465 -35.82 0.84 OSF150 Fail 12750.00 35M 75 6062.26 A296.31 1275772 3517 63 5951 76 -8 4025 23772 18246 328.10 -145 64 -36.60 0 83 OSF150 Fail 128W 00 3539.43 6101 43 -8327 28 128W 23 351963 5991 71 88 71 D9 23796 181 97 329 02 -147 04 -37 70 0 83 08F1.50 Fail 12850.00 354210 6140.60 8358.24 12W 75 352320 603158 850191 23771 18133 33036 14902 -3923 082 OSF1.50 FeiI 1290000 354477 617976 838920 1290870 352798 607090 853234 23706 18062 33232 -t5170 41.26 081 OSF1.50 Fail 12950.00 3547 44 6218.93 8420 16 12958 41 353306 6109 95 8562 68 23629 17998 334 48 -154 50 43.33 081 OSF1 50 Feil 1300000 355011 625810 -845113 1W10.68 353817 615117 859441 235.58 17919 335.27 -156.OB -65 0.80 OSF150 Fail 13050 w 355278 629727 848209 13063.97 3541 58 6193 94 8626 01 235 43 177 52 335 02 -157 50 46 15 0 ]9 OSF1 50 Fail 13100.00 3555.34 6336.40 851311 13110.37 354378 623130 8653.45 235.26 17572 33834 -162.62 -5017 078 0SF150 Fail 1315000 3557 20 6375.33 8544 43 13156 Ot 3546 44 626] 31 8681 35 234 50 174 73 342 17 -16] 44 -53 71 0.76 08F1 50 Fail 1320D OD 355528 U14.02 857608 13202.90 354961 630363 871084 23334 174 d2 Us 51 -17109 -5625 0.76 OSF150 Fail 1322537 3558.54 643356 859226 1322693 355134 632206 872616 23261 174.4 34711 -17272 -5734 0.75 OSF1.50 Fail 13250.00 355B.69 6a52.49 860801 1325024 355307 633982 874116 23209 1f4 1 34867 -17415 -5626 075 OSF1.50 Fail 133C0.00 355900 649094 -863998 1330053 355670 63T798 877372 23100 1]507 35047 -17540 -58.91 075 08F1.50 Fail 13350.00 3559.31 6529.38 867196 1335248 3559.36 641778 880700 230.23 175.19 35136 -176.17 -5938 a75 OSF150 Fail 13400.00 3559.61 656782 8703.93 1340181 3560.95 645576 883840 229.61 1750 35325 -17822 60.60 074 OSf150 Fail 13450.00 355992 6606.26 8735.90 1345023 356202 6492.84 686954 229.56 1]5.30 35548 -18018 6202 074 OSF150 Fail 1350000 3560.23 664470 876787 1349981 356265 653058 -8 170 22946 1]590 357166 -18126 62.54 074 OSF150 Fail 13550.00 356054 668314 879985 1354988 356285 6568.68 -83418 22949 17650 35862 -18212 6291 0]4 OSF150 Fail 1360000 3560.85 672158 883182 13599.02 356275 660603 69fi611 22963 17718 36045 -18327 6345 0]4 OSF1.50 Fail 1365000 3561. D5 675979 8864.06 1364].85 356269 664294 88 09 22873 177.82 36237 -18455 6409 073 OSF150 Fail 1370000 3560.86 679736 -8897.05 1369264 356272 667637 -9027.89 22762 178,22 36573 -18751 -65.93 073 O6F1.50 Fail 13750.00 356004 6834.34 893069 137M5 3562.9] 670747 -9057P 22631 179.59 369.27 -18 66.9 OS' Fall 1380000 355858 6870.71 -8964.98 1378222 356339 673983 -909108 22475 18100 371 -1B9. 66. 0 073 05F1.50 Fail 13850.00 3556 48 6906 d4 8999.88 13833 1 d 356341 6775 26 9127 65 223 05 16325 37302 -189 ]] 65 76 0 73 OSF 1.50 Fad 13900.00 3553 75 6941 53 -9035 39 13883 45 356292 681042 -91(0 64 221 28 183.64 374 46 -190 82 86.33 0.73 OSFt 50 Fail 13950.00 35`A 37 697596 -9071 49 1 393307 3562 34 6845 W 9199.15 219 31 183 24 37596 -192.74 67 74 0.73 OSF1.50 Fail 1d000 DO 356643 700978 -9108.11 1390418 356166 688076 -9235]2 21]62 18211 37703 -19491 695] 072 as 50 Fail 14050. DO 3562 d4 7043.46 -914485 140w 3 356061 691792 -9272.87 21619 18022 3T -19735 -7182 071 OSF1.50 Fail 14100.00 3539.01 707667 -9182.06 14086.81 355926 6953.68 -930791 214.44 17713 3786] -20155 -7565 0.70 OSF1.50 Fail 1415000 35W31 710930 -921985 14135.52 355763 698826 -834218 21302 17341 3B01B -20677 803] O68 OSF1.50 Fall 1420000 3534.36 714136 -925817 t418222 355578 702104 -93]538 21214 16934 38231 -21297 -85 B6 0.66 OSf150 Fail 14250.00 3533.32 7172 97 -929fi 89 14227 71 3553 68 7052 12 9a08 53 211 78 165 78 384 77 -218 99 -91 06 0 6d OSF 1 50 Fail 14300 00 3533 13 7204.17 -9335 97 1427432 3551 19 7083 06 -9443 30 212.09 162 83 3B7 08 -224 24 -95 55 0.63 OSF 1 50 Fail 1435000 353312 7235.28 :937511 1432228 3548.21 711434 -947953 213.07 160.49 38925 -22876 -99.34 062 OSF1.50 Fail 14400.00 353311 7266.39 -9414.26 14369.80 354489 ]1.85 -951581 214.22 15882 39133 -23251 10240 0.61 OSF150 Fail 14450.00 353311 7297.49 -945340 1441669 354195 717434 -955214 215. 158.1 39320 - 3510 �10437 0.60 OSF150 Fail 14500.00 353310 7328.60 9492.55 1446216 353959 720228 -9587% 21612 15844 3947 - 3 OSF1.50 Fail 14550.00 3533.09 735967 -953112 1450385 353]SJ 722644962186 21649 16092 39541 2 4 10302 1 as 50 Fall 14600.OD 3533 11 7390 08 -%71 41 14545 29 3535 58 7248 69 -9656 74 215 96 165 17 394 94 229 78 -98 46 0 63 OSF 1 50 Fail 14650 00 3533.16 741963 -9611 74 14593 15 353359 727307 -9697 88 215.40 17000 11174 -225 75 -94 16 0.64 OSF1 50 Fa4 14700.00 3533.29 7448.29 -965271 14641 74 353228 729753 -9739 85 214 69 174 13 396 75 -222 62 -90 70 0.66 0SF1.50 Fail 14J50.00 353374 7476.09 -969426 14686.46 353143 732058 -978048 21389 17783 39712 -21929 -8725 067 OSF150 Fail 1480000 353455 750303 -973638 1473482 353052 734267 -9B2122 213.21 18147 39717 -21570 -8364 068 OSF150 Fail 14850 00 3535 71 7529 09 -9779.03 I4783.76 352945 7365 39 -9864 56 212.69 18481 396 04 -213 24 -80.88 0.69 OSFi 50 Fail 14900 00 3537 22 7554.26 -9825 14833.61 3528 22 7388 50 -9908 71 212.33 18719 39912 -211 92 -79 21 070 OSF1 50 Fail 14950.00 3539.08 757853 -9B6588 88 1d8B338 352692 741156 -9952 79 21223 18863 39999 -21136 -]8.36 071 OSF150 Fail 15000.00 354098 7602.30 -590983 1493314 352573 743458 -999689 212.62 189.58 40081 -21122 -7795 0.71 OSF150 Fail 15050.00 35d2." 7625 $6 -995412 14983.46 352464 745787 1004149 21257 18983 40186 -21203 -78.41 0.71 Os F150 Fail 15100.D0 35d3.43 764]97 -999B75 1503393 352368 74813.4 -1008616 21236 18920 40306 -213.86 -7984 0.70 OSF150 Fail I5150.00 3543 95 766983 -10043 72 15084 25 3523 02 7504 82 -10130 66 211 92 18766 404 37 21669 82 23 0.69 OSF 1 50 Fail 1520000 354400 769102 1008900 1513453 3522% 752 w -1017512 21116 18530 40597 22067 8568 068 OSF150 Fail Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 8 of 39 Trajill OP17-020 (P2) Vs. OP17-02PB7 Reference MD Reference ND Reference NS ReferenceE Oflcat MD Olfset TVD Onset NS Ofket EW Traveling Cylintler NoM Azvn CILt DicUnce Minimum Allowade SeParaeon A,a ble DeviaEon Rom Referarce EOU-EOU Cl...- OSF Controllvg Rule Status 1:250.00 354365 771151 -1013461 15183.18 352324 755091 -10218.20 210.15 182.19 d0718 -22499 -0.959 067 OSF150 Fail 15300.00 354296 773134 -1018050 1523160 352346 7573.07 -1026125 20944 17874 408W -22962 -93.83 0.65 OSF150 Fail 153W.00 354219 775105 -1022645 15283.21 352345 759668 -1030714 20931 17519 410.84 -23561 -99.03 064 OSF1 W Fail 15400.00 354143 MI 76 -10272.39 1533535 352290 762120 -1035315 20939 17098 413.32 -242.34 -10490 0.62 OSF150 Fall 154W.00 354067 779047 -10318.34 15383.90 3522.09 7644.20 -1039589 20957 166.60 414.25 -24765 -10989 060 OSF1 W Fail 15500.00 353991 7810 18 -10364.28 15432.32 3521 26 766678 -10438 72 209.76 162 65 415 06 -252 41 -114 39 059 OSF1 W Fall 15550,00 353915 762989 -1041023 1547812 3520.62 7W745 -10479.59 209.86 159.51 41460 -25509 -11722 057 08F150 Fall 15600.00 35M 39 784961 -1045617 1552377 3520.35 770690 -10520.88 20977 15773 413.91 -25618 -11654 057 0SF150 Fail 15650.00 353763 7869.32 .1050212 1557319 3520.62 772706 -1056600 20943 15686 41557 -25871 -12051 056 0SF150 Fail 157pp.00 3536.W 788897 -1054809 15623.83 352777 774779 -1061219 208.47 155.78 418.27 -26249 -12339 OW OSF1W Fail 15750.00 353fi 17 790845 -1059413 1567292 352346 776785 -1 D65697 207663�3 15453 42015 -265.62 -12590 055 OSF150 Fail 158W 00 3:35.47 792793 -1064017 1572170 352514 778744 -1D70160 206'M'1 42174 -268.06 -12781 0.54 OSF150 Fail 15850.00 353476 7W741 -10686.22 15770.32 3526.58 7806.63 -10746.26 206 153.2 42308 - 8 -129.12 0.54 OSF150 Fail 15900.00 3534 06 7966 88 -10732.26 1 W 18.96 3527 36 7825 d7 -10791 0B 205 44 153 30 424 1 -270.8 -129.81 0.54 OSF1 50 Fall 15950. D0 353335 798636 -1077831 15866.05 352766 784319 -1083471 205.07 15399 42398 -26999 -128.99 054 OSF150 Fail 16000.00 353265 8005.84 -70824.35 15912W 352793 785979 -10878.26 20471 15576 423.28 -26752 -12676 055 0SF150 Fail 16050.00 353195 802532 -10870.40 1596139 3528.20 787637 -1092409 2D433 15838 424.20 -26582 -12475 056 0SF1 W Fall 16100.00 353124 804480 -1091644 1601125 3528.48 7893.27 -1097100 20396 16108 42601 -26493 -12325 057 0SF150 F., 161 W.00 35W.54 8064.28 -10962.48 1606521 352878 791199 -1102161 203.57 16338 43090 -26752 -124.22 057 0SF1 W Fail 1620000 352981 808366 -110D8.57 1612110 3529A9 793314 -11073.33 20267 16386 43672 -272.87 -12762 056 0SF150 Fail 162W 00 352901 810259 -11054.84 16172.60 352958 795377 -11120.52 202.00 16267 439.51 -276.84 -130.67 0.55 0SF150 Fail 16300.00 3528.21 812150 -1110112 16223.66 3530.51 797454 -1116715 20138 16112 44204 -280.91 -133.89 0.54 0SF150 Fail 16350.00 352741 814041 -1114741 16272.49 353161 799441 -1121170 20070 15960 44319 -293.59 -13619 0.54 0 F150 Fall 16400.00 3526.61 815932 -11193.68 1632130 353264 801396 -1125646 20003 15845 44424 -28579 -138W 0.53 0SF150 Fail 1645000 352581 817823 -11239.96 16372.50 3533.16 803445 -1130336 19952 15732 44677 -28945 _I 053 0.53 0SF1 W Fail 1650D.00 3525.01 819716 -11286.23 1642376 353263 805531 -11350.21 19956 15580 449.30 -293.50 -14406 0.52 OSF1 W Fail 16550 00 3523 95 821667 -11332.25 16475.80 3531 35 8076.95 -11397 50 29090576 154 39 452.20 -297 81 -147 41 051 OSF1 50 Fall 166M 00 352249 823711 -1137786 1652765 3529.56 8099.10 -1144435 20204 15335 454.93 -30157 -150.26 050 OSF150 Fail 16650.00 3520.63 825846 -11423.03 16578.69 3526.80 612126 -11490.24 203. 1 i 45712 -304.21 -1 2. OSF150 Fail 16697.86 351847 827976 -1146584 1662714 352294 8142.50 -11533.62 205.36 15315 458.89 -305.7 -1. 1 0. OSFt W Fail 16700.00 351837 828073 -1146774 16629.24 352276 814342 -1153549 20544 153.18 458. -305.7 -15311 u OSF150 Fail 16750.00 351567 SW3.87 -1151198 1 W78 37 351883 8164.87 -11579.52 20715 15458 460.01 -30543 -15243 0W OSF1So Fail 16800.00 3512.53 832787 -1155573 16728.49 351533 818657 -11624.56 20853 157.20 46172 -3D4.52 -15094 051 OSF150 Fail 16650.00 M08.93 835273 -11598.96 1678154 351172 821016 -1167193 20972 16018 46492 - 474 -150.09 051 OSF150 Fail 16882.06 3506.38 836910 -11626.41 1681543 350937 622572 -1170195 21042 16210 4W B4 3047 -149.46 052 OSF150 Fail 16900 00 350490 8378 36 -11641 70 1683348 3508.04 823409 -11717 89 210 37 16318 46752 -304 34 -148.83 0.52 OSF1 50 Fail 169W 00 350101 840394 -1168449 16883.84 350373 825751 .11762.26 20963 165.82 46932 -30350 -14739 0.53 0SF150 Fail 17000.00 U97 81 6428 62 -11727 74 1 W32 80 3498 85 8280.27 -11805.33 209 19 167 60 47035 -302 75 .146.29 0.53 0SF1 50 Fall 170W.00 349530 8453.DO -1177143 1697997 UN 55 830165 -11B4716 20881 169.24 47047 -30123 -14474 0.54 OSF150 Fail 17100.00 3493 49 8476 45 -11815.55 17027 30 3490.90 8322.44 -11889.52 208 43 170 87 47051 -299 64 -143 13 0.54 0SF1 W Fail 17150.00 349238 849917 -1186008 17074.93 3488.05 834277 -11932.W 20801 17241 d7061 -298.27 -741.66 0.55 OSF1 W Fall 17200W U9196 852114 -1190499 1712238 348617 8362." -1197564 20750 173.81 470.56 -29675 -t4o.22 055 OSF1 W Fail 77250.00 349197 8542.26 -1195030 17169.38 348499 BW122 -1201871 20665 17511 470.22 -29511 -13870 0.56 08F150 Fall 17300.00 349201 856240 -11996.07 17216.06 348449 839911 -121M182 20556 17618 469.67 -29349 -13726 0.56 OSF150 Fail 1735000 349207 8%152 -10M 27 1726130 3485.00 841542 -1210400 20415 17735 46818 -290.83 -13510 0.57 0SF150 Fall 17400.00 U9216 859979 -120B881 1730663 348666 8430,57 -1214670 20306 178.94 46569 -28775 -13252 0.57 OSF15D Fail 17450.00 349225 861796 -1213539 173W 70 346869 8448.56 -1219764 20243 180.49 47188 -29140 -13443 0.57 OSF150 Fail 17500.00 349234 863612 -1216198 174/493 3489.55 846782 -1224822 20219 18090 47664 -29574 -13719 0.57 OSF150 Fail 175W.IX1 349243 8654.29 -12228.W 1716673 3490.03 -1229816 20207 18020 480.96 -30076 -14077 0.56 OSF1 W Fail 17600.00 3492.52 8672.45 -1227514 17520.90 349056 :488.09 8508.67 -1234610 201 94 178.51 48410 -305.59 -14456 0.55 OS Fi W Fail 17650.00 349261 869062 -1232173 17570.26 349180 852819 -1239142 20157 W674 48565 -308.91 -14735 0.54 OSF750 Fail 17700,00 349270 870878 -1236831 1761886 349397 854722 -12436.09 20089 175.20 486.80 -31160 -14966 0.54 OSF150 Fail 17750.00 349279 8726.94 -1241489 1766620 M9744 856520 -7247974 199]7 17432 48706 -31274 -15071 0.53 OSF1 W Fail 17B00.00 349288 874511 -1246148 1771502 350236 858313 -1252488 19818 17420 488.01 -31381 -15147 053 OSF150 Fail 17850.00 349297 8763.27 -12508.06 177W 92 350707 860249 -1257279 19665�139�0 490.60 -16.90 -153.63 0. OSF150 Fail 1790000 349306 876144 -1255465 1781645 351068 862133 -1261845 1954 173.2 491 - 1 -154.9 0.5 OSF150 Fail 179W.00 N9315 879960 -1260123 1786341 351397 863862 -1266199 19440 173.32 49093 -317W -I4 0. OSF1W Fail 1800000 349324 881777 -1264781 1791110 351728 865545 -12706.50 19337 174.27 49031 -316.IN -152.93 0.53 OSF150 Fail 180W.00 U9333 8835.93 -1269440 179W.35 3520.60 8672.50 -12752.58 19236 17561 49074 -31513 -15188 053 OSF150 Fall 18100.00 349342 885410 -12740.98 1801167 352378 869076 -1280066 1 91 42 17709 49268 -31560 -15170 0.54 0SF150 Fail 181 W. DO 349351 887226 -1278756 1806753 3524.57 871026 -1285276 19122 17736 4%37 -32101 -155.21 053 OSF150 Fa4 18200.00 3493 W 8890 42 -12834 15 18121 33 3522 36 87W 64 -12902 W 191 90 16 50312 -326.97 -159.59 0.5 0SF1 50 Fei1 1921262 349362 889501 -1284591 1813450 352159 87M 71 -1291463 1921 1757 504 -328.36 -1 W. 0.5 OSF1 W Fail E. of results Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 9 of 39 Fleld: Structure: Slot Client Coordinate System: Norm Reference: Magnetic Declination: Reference Point Nwmina W36577 310 (MS) Idkedchuq Well: Ol/kok Point 1-2 Ofildok Point Borehole: Ohldok Point 1-2 OP02 Trajectory. Chinni, Point 1-2 ENI Type: Del Survey NA027 Alaska State Plane, Zone 04, US Feet True Grid Canvergence Angle: 0.12924264' Grid Scale Factor: 23.572' Magneto Declination Date: January 27. 2D07 Magn.N. Model EasBni Elevation 516753 790 (ftUS) 53.650 (f) MSL struauae unc. 0.000 (it) 0 sigma) 0.9999D0319 BGGM 2006 SlotUnc. 0.000 (it) (1 signs) Tralectory Effor Model: ISCWSA03-D 96.000% Confidence 2.7955 sigma Survevino Proa: As Drilled Description MD From (it) MD To (ft) EOU Freq Survey Toot Type Hole Sin (in) Casing Diameter Qn) Borehole / Survey 0.000 41.450 1198.425 SLB NSG+SSHOT-Depth Only -No Global 9875 9.875 Oliktok Point 1-2PB1 / Olikok Point 1-2PB1 41.450 41 450 AdStns SLB NSG+SSHOT40epth Only -No Global 9.875 9.875 Olikok Point I-2PB7 / Olikok Point 1-2PB1 41.450 326.000 ActSos SLB NSG+SSHOT-No Global 9.875 9.875 Olikok Point I.2PB1 / Olikok Point I-2PB1 326.DDO 4124.950 Ac1Sms SLB MVVD+GMAG-No Global 9.875 9.875 Oliktck Point k2PB1 / Olikok Point 1-2PB1 4124.950 6667.850 ActSme SLB MWD+GMAG-No Global 9875 7.625 Oli Mok Point t-2PB2/ Olikok Point k2P132 6667.850 9.980 046 AlSms SLB_MKO+GMAG-No Global 6500 6.500 Olild kPoint 1-2PB2/Olikok Point l-2PB2 9046980 17711.000 A4Sms SLB MWD+GMAG-No Global 6500 4.500 Olikfik Point 1-2/01 Point 1-2 I Reference MD l fte erence ID I ...- NS lReterenm Ed OBset MD I OBs 1. I O set N6 I .11.1 W I TeNorm Ainn�r l Ct-C[ D s since l Separation I Re eAl wabl. nnce from lCyliCl...n. I OSF I OU Co Ruleling I S aM All ocal minima indicated. Resune filtered: Depth 817473 ft <_ MD <_ 18212 62 it Result finoted'. Ct-Ct separation <= 1500.00 it Results highlighted: Ct-Ct separation r- 132000 it 9174 73 35C 37 251440 8200.00 354209 253260 8216.00 3542 92 254428 8250.00 3544 16 2569 38 8300 00 3545 60 260] 10 8350 M 3 0i K 2645.89 8400 00 3546 86 2685.72 8450 00 3546.68 2726.53 8500 00 3545.% 2768 27 8550.00 354468 28108 8600 00 354292 2854 27 8650.00 354162 2897.31 8700.00 356113 2939.56 875D.DO 354109 2981.33 880000 354105 3023.10 8850 00 3541 02 3 167 :900.OD 3540 99 3105.43 95000 354097 3145 29 9000.00 3540.% 3184.21 9050.00 354) iM 3222 14 9100.00 3540 94 325907 9150.00 3541 04 3294 % 920000 3541 23 33M 46 925000 354142 3365.95 9300.00 354161 340144 9350 00 3541 80 3436 93 9400.00 3542 W U7242 9450.00 354219 3507 91 95W 00 3542.36 354398 9550.00 354251 3581 D9 9600.00 354262 %19 21 9650.00 354269 3658.30 9]00. D0 M42.69 36%.23 9750 OD 354269 3738.31 9800.00 3542.69 3778 39 985000 354268 M18.47 9900 00 M42.68 3858 55 995000 3542.68 38%.63 10000.00 3542.67 3938 71 10050.00 3542.67 3978.79 10100.00 3543 02 401839 10150.00 3543 97 4057 11 102W 00 354548 409491 1025000 3547.55 413176 10300.00 3549 80 4168.28 10350.00 3552.06 4204.80 10400.00 355d.32 424132 10450 00 3556.57 42n 04 1 050000 3558.82 431437 1 055000 3560.53 4351 19 10tM x 3561 37 438849 10650 00 3561 35 .2622 107woo 3560.41 4d64.34 10750.00 3558.55 450282 1 OB00 00 355581 4541 62 10850.OD 3552.81 458051 10900.OD 354982 4619.40 10950 00 3546.83 465829 1100000 354383 469718 11050 00 354084 47W 07 5421 43 7428 B1 3590 58 33 lX) -0650.51 4844 11275 10 223 80 %3 30 977 57 7 58 OSF1 50 Pass 543887 7443 50 359086 334518 i661 18 48 68 1125 82 22397 901 84 97617 757 OSF 1 50 Pass 5449 78 7452 81 3590.99 3351 63 4667 89 49 84 1124.14 223 94 90100 975 32 7 5 OSF1 50 Pess 5472 68 747258 359103 3365 48 -0682 01 5033 1123 00 22355 899 45 9]3 64 756 0SF1 50 Pass -550546 750165 35%63 338616 -070242 5217 111975 22298 89677 970.7] 756 0SF1.50 Pass -5536.99 7531 91 358964 3409 09 4723 25 5401 1115 78 22332 892.47 96658 7 52 OSFt 50 Pass -556721 756514 358843 343253 -074574 55% 111098 22383 88]15 %143 7.4] OSF 50 Pass -559610 75se 38 358726 345730 -0767 86 5784 110528 227 33 877 % 9534 7.32 OSF1 50 Pass -5623 62 763537 3586 06 3485.22 4892 09 5984 109867 231 28 867 38 944 15 7.15 OSF1 50 Pass 564973 7677 89 3585 43 351753 4 1974 61 94 109081 239 W 851 02 93062 685 OSF 1.50 Pass 5674 51 7]27 56 3585 75 3555 41 4851 85 63 01 1081 76 2.37 83] 39 91851, 666 OSF 1 50 Pass -5699 92 7810.99 3585 81 361799 490702 61 16 107239 247 77 624 62 90688 6.51 OSF1 50 Pass -5726 66 7B46 65 3585 52 3644.54 -0930.83 5921 1064 11 247 60 816.50 89871 6 47 OSF 50 Pass -575414 7882.55 356522 367158 495445 5907 105731 24749 80981 891% 643 OSF 50 Pass -5781 62 791770 3584 92 3698.34 4977 23 5907 1051 16 247 26 803 % 885 99 640 OSF1 50 Pass -580939 795190 358449 372471 A99901 5788 104607 24694 79913 88111 6.37 OSF 750 Pass 583835 79W 26 358389 375152 5D2048 5609 104315 24659 7%56 87843 636 OSF150 Pass 5%854 W3102 358295 378678 -5048.D5 54 10423 24723 751 8 OSF1.50 Pass -SB99.93 808046 358187 382575 50]845 5248 104311 2482 794 8712 6.3 OSF 50 Pass -5932 49 8119 34 3581 00 3856 49 -5102.23 50.68 1045 63 24849 797 14 879 64 6 33 OSF1 50 Pass -596620 815461 35W 21 388465 -5 2342 4889 1050.34 24836 8019i 88443 636 OSF150 Pass 3001 01 8189 73 35794 391303 -5144 13 47 W 1057 22 24829 80893 891 37 6 41 OSFi 50 Pass E036 22 8231 92 3578 43 394734 -5168 fib 4728 1065 18 24891 81627 89891 6 44 OSF 50 Pass 6071 44 8274 W 3577 34 3%1 73 -5192 89 4720 1073 47 24957 823 90 905 77 6 47 OS50 Pass -6106.66 8320.05 357621 401950 -521920 4712 108203 25061 83142 91463 650 OSF150 Pass 614188 BW755 35]5.56 4058.52 -524630 4706 109068 25188 83880 92243 6.51 OSF1.50 Pass £177 10 8427 27 3575 46 410745 -52M 52 4702 1099.20 25430 844 90 929 34 650 OSF t 50 Pass -621232 848912 3576W 415769 -5316.60 4711 110]10 256% 85014 93546 6.48 OSF150 Pass 6246.94 854612 357627 420371 -535023 4883 t1137] 25919 BSA 58 9a065 6.46 OSF150 Pass 628044 B597 % 3576 d4 424541 -5381.02 5056 1118 67 260 94 857 73 944 38 6 45 OSF1 SD Pass -6312 80 8647 34 3577 83 d285 09 -5410.37 52 % 1122 D5 262 45 85960 946 76 643 OSF 50 Pass 634397 868747 357982 431739 -543411 5419 112411 26317 860% 94834 643 OS Pass 6374.06 8725 68 3582 22 4348 34 -5456 39 55.30 1125 31 263 71 861 60 949 18 6 42 OS F1.50 Pass 3403.95 8765.22 3555.19 4380.58 5479 09 5545 112680 264 47 862 32 95015 6 41 OS F1.50 Pass 4 3384 Ml266 355761 441945 -550615 5558 112855 26598 8625i 9W% 6.38 OSF1 50 Pass 5463 74 886047 358866 4458 79 -5533 31 55 62 1130 40 26763 862578 951 66 6.35 OSF 1 50 Pass b19363 091042 358926 449992 -556164 5564 113231 26946 86285 952.34 632 OS 50 Pass -6523 52 8%2 93 3590 68 4543 11 -5591 46 5571 1134 20 271 59 862.61 95261 6 28 OSFt 50 Pass 655342 9026.20 359141 459493 -562]77 5574 113570 27472 860.% 6. 2 OSF1 50 Pass 4i58331 9091 66359005 464809 -5%592 55.57 1136.58 2781 4 950. 6.1 OSF1 50 Pass 6613.83 914039 3587 81 4687 37 -5694.67 53 86 113772 .168 674 04 1 49 OSF1 50 Pass -6645 45 923845 358871 4765 45 -5753 96 522 113952 268 n 870 7 1 6 38 OSF 150 Pass -6678 14 930555 3591 W 4817 55 5796 14 5073 1141 17 271 1 04 960 09 6 33 05F 1 50 Pass E71 t 87 9364 ]7 35% 59 4%2 95 -5833 % 49 54 1143.5d 2l2 % 67 %1 30 6.30 OSF 1 50 Pass -645.94 941797 360044 490347 -586807 4965 11461E 27414 8]204 96309 6.29 OSF150 Pass -6780 02 9475 05 3605 % 4946 7] -5904 86 49 79 1148 62 275 74 8]2 88 964.47 6.27 OSF1 50 Pass G814.10 9530.92 360905 498 10 -594118 4982 115072 27730 8]342 %5.53 624 OSF1 50 Pass -684818 957687 361062 502399 -5971W 4979 115282 27816 87466 96705 6.23 OSF150 Pass 6882.25 %2514 361171 506152 -600295 4983 115507 279.28 87579 968.56 622 OSF `A Pass -691602 969241 W1228 511169 -6 24 5045 1/5653 28163 87490 W845 618 OS so Pass 6 931 974781 361216 515328 808285 5115 1156.83 28318 87365 %]72 614 OSF150 Pass 698211 979932 361205 519187 511695 5187 1156.42 28444 871 % 966.46 611 OSF150 Pass 701446 9843 69 3611 97 5225 16 3146 28 52 61 1155.52 28517 870 36 96508 6 09 OSF1 50 Pass -7046.34 988726 3611 86 5258 01 8174 90 5341 115d 37 28583 868.53 %3 48 6.07 OSF1 50 Pass 707775 993089 3611 55 5291 07 520338 54 D6 1152 96 28648 B66 d8 961 65 6 D5 OSF50 Pass 7109.03 W7461 W1057 532437 523170 5415 115169 28714 86455 959.93 6.03 OSF! 50 Pass 1001571 360916 535583 825810 5420 115071 28761 863.11 9%65 6.02 OSF150 Pass :7140.31 -717159 1005473 36M 1 5365.93 628292 5427 115020 287% 862.30 957.W 6.01 OSF1 50 Pass -720288 10094276 360744 541548 630684 54. 1150.1 2W 862. 7 05F150 Pass 723416 1012258 360] 12 543892 8325 27 54 42 1150.85 287 58 %3 28 958 81 602 OSF1 50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7 40 AM Page 10 of 39 Trgeaory. OP17-02L1 (P2)Vs. 01,Mok P-t 1-2 Reference MD I Referen a ND I Refire ¢e NS IRe erence EWI Ofset Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 11 of 39 Trajectory', OP17-02L7 (P2) Vs. 011ktok Point 1-2 Rafarer�ce MD (fil Referenn TVD IN Reference NS ,.,are-E 08set MO OBset TVD Offse[NS ORseIEW Traveling Cylinder North Azim CI-Ct Distance Minimum Albwabls Separatbn AIbv2We Deviation from Raterenco EOU-EOU Clearance OSF Controlling Rule Staius 15300.00 3542,96 7731.34 -1018050 12717,00 3599.02 7410.42 -7997.94 25.61 2206.74 212.67 1994.13 2064.57 15.63 OSF1.50 Pass 15350-00 3542.19 7751,05 -1022845 12711.00 3599.02 7410.42 -799794 25.61 2255,10 211,10 2044.00 2114.04 16.09 OSF7.50 Pass 15400'00 3541.43 777076 -10272.39 12711.00 3599.02 741042 -7997,94 25.61 230354 209AS 2093.88 2163,44 16.55 OSF7.50 Pass 15450,00 3540.67 T790.47 -10318.34 12711.00 3599,02 741042 -7997,94 25.61 235204 208.27 2143.T7 221286 17,01 0SF1,50 Pass 15500.00 3539.91 7810.18 -10364,28 12711.00 3599.02 7410.42 -7997.94 25.61 2400.60 206.94 2193.66 2262.31 17.48 OSF1,50 Pass 1555000 3539.15 7629,89 -10410.23 12711.00 359902 7410.42 -799794 25.61 2449,21 205,65 2243.56 2311.78 17,94 OSIF Peas 15600.00 3538.39 7849.81 -10156.12 12711.00 359902 741042 -7997,94 25.61 249789 204.42 2293.47 2361.28 18.41 OSF7.50 Pass 16650.00 353763 78%.32 -10502.12 12711.00 359902 7410,42 -7997.94 25.61 254661 203.23 2343.38 2410.80 18,88 OSF7.50 Pass 15700.00 3536,88 7888.97 -'0548.09 1771100 359902 7410,42 -7997,94 25.67 2595.40 202.09 2393.31 2460.34 19,35 OSF 7.50 Pass 15750,00 3536.17 79M 45 -10594.13 17711.00 3599.02 741042 -7997.94 25,67 2644.27 20102 2443.25 25M 93 19.82 0SF1.50 Pass 15800.00 3535.47 7927.93 -10640.17 12711.00 3599D2 7410,42 -7997.94 25.67 2693.18 199.98 2493:21 2559:54 20.29 OSF 1.50 Pass 15B5000 3534.76 794741 -1068622 12711.00 3599.02 7410.42 -7997.94 25.67 2742.13 198-97 2543.21 2W9.16 20.77 OSF1.50 Pass 159W 00 3534:06 7966.88 -1073226 12711.00 3599.02 7410.42 -799794 25.67 2791.12 19800 2593.12 2658.79 21.24 OSF1.50 Pass 15950.00 3533.35 790636 -10778.31 12711.00 3599,02 7410.42 -799794 2667 2840.15 19707 2643.08 2708.44 21.72 OSF1,50 Pass 16000.00 3532:65 800584 -10624,35 12711,00 3599.02 7410A2 -799794 25.67 2889,21 196.16 2693.04 2758.10 22.20 OSF1.50 Pass 16050.00 3531.95 8025.32 -'0870.40 12711.00 3599.02 7410.42 -7997.94 25.67 2938.30 19529 274301 2807.77 22-68 OSF7.50 Pass 16100.00 3531.24 804480 -10916.44 12717.00 359902 7410,42 -7997.94 25.67 2987.42 194.44 2792.97 2857.46 23.16 OSF7.50 Pass 16150.00 3530.54 8064.28 -10962.46 12711.00 3599.02 7410A2 -7997.94 25.67 303656 19363 2842.94 2907,15 2364 0SF7.50 Pass 16200.00 3529.81 am 66 -17008.57 12711.00 3599,02 7410.42 -7997.94 24.82 30B5.76 192.84 2892.92 2956.87 24.12 08F1.50 Pass 16250.00 3529.01 8102.59 -71054.57 12711.00 359902 7410A2 -7997,94 24.50 3135.06 192.12 294194 3006:65 24.60 OSF7.50 Pass 16300.00 3528.21 8121.50 -11101.12 12711.00 359902 7410.42 -7997,94 2450 3184.39 19143 2992.97 3056.45 25.07 05F1.50 Pass 16350.00 3527.41 8140.41 -11147.40 12711.00 3599.02 7410.42 -7997.94 24.50 3233.74 190.75 3042.99 3106.24 25.55 OSF1.50 Pass 16400.00 3526.61 8159.32 -11193.68 17711.00 3599.02 741042 -7997.94 24.50 3283.11 190.10 3093.01 3156.05 26.03 0SF1.50 Pass 16450,00 3525.81 8178.23 -11239.96 12711.00 3599.02 7410.42 -7997,94 2450 3332.50 la!)A7 3143.03 3205.86 26.51 0SF1.50 Pass 16500,00 3525.01 8197:16 -1128623 12711.00 3599:02 7410.42 -7997,94 24.21 338190 1SS85 3193:05 325567 26.99 0SF1.50 Pass 16550.00 3523.95 8216.67 -11332.25 12711.00 3599.02 7410.42 -7997,94 22.58 3431.22 188.20 3243.02 3305.42 27.48 OSF7.50 Pass 16600.00 3522.49 8237.11 -11377.86 12711.00 359902 7410.42 -7997.94 21.53 3480.39 18748 3292.91 3355.07 27.98 OSF1,50 Pass 16850.00 3520.63 825846 -1142303 12711.00 3599.02 7410.42 -7997.94 20,90 3529.38 186.71 334287 3404.56 28.60 0SF1.50 Pass 16700.00 3518.37 8280.73 -11467.74 1271700 3%9-02 741042 -799794 2057. 3578.19 1858E 3392.31 3453,94 29.02 0SF1.50 Pass 16750.00 3515.67 830387 -11511.98 127/1.00 3599.02 7410.42 -799794 2021. 3626.80 185.00 3441.B0 3503.13 29.56 OSF1.50 Pass 16800.00 3612,53 8327.87 -1 i555.73 1271100 3%9.02 7410.42 -799794 2008. 3675,19 184.06 3491.13 3552.15 30.10 0SF1.50 Pass 16850.00 3508.93 8352.73 -71598.96 12711.00 3599.02 7410.42 -799794 20.14 372336 183.09 3540.27 36W 7 30,66 OSF Pass 1890000 3504.90 837836 -11641,70 12711,00 3599.02 7110.42 -799784 2027. 377130 18206 3589.24 3649.60 31.23 OSF1.50 Pass 16950.00 3501.01 8403,94 -11694.49 12711.00 359902 7410.42 -7997,94 21.18 3819.33 181.08 3638,25 3698:28 31.80 OSF1.50 Peas 17000.00 3497.81 8428.82 -1172774 12711.00 3599.02 7410.42 -7997.94 22.62 3867.65 180.19 3687,46 3747,19 32.36 OSF7.50 Pass 17050,00 3495.30 8453.00 -11T71.43 12711.00 3599:02 741042 -7997.94 24.51 3916.24 179.36 3736.88 3796.33 32.92 OSF7.50 Pass 17100.00 3493,49 8476.45 -/1815.55 12717.00 359902 74110.42 -7997,94 26.96 3%506 178.62 3766.44 3845.65 33.47 0SF7.50 Paas 17150.00 3492.38 8499.17 -11860.08 12711.00 3599.02 7410.42 -7997.94 30.08 4014,08 177.94 3836.13 3895,12 34.02 0SF7.60 Pass 17200.00 3491.98 8521.14 -11904.99 12717.00 3599.02 7410.42 -7997,94 34.03 4063.27 177.35 3865.92 3944.71 34.55 OSF 1.50 Pass 77250.00 3491.97 8542.26 -71950.30 12711.00 35M 02 7470.42 -7997.94 3467 4112:62 17682 3935.80 3994.42 35.07 OSF1.50 Pass 17250.00 34:2.01 856240 -11996.07 12711.00 3599.02 7410.42 -7997.94 35.41 4162.15 176,39 3985.76 4044.23 35.58 OSF1.50 Pass 173W.00 3492,07 858152 -12042.27 12711.00 3599.02 7410.42 -799TN 37.00 421182 17603 4035.79 4094.14 36.08 OSF1.50 Pass 17400.00 3492.16 8599.79 -12088.81 1Z711.00 3599.02 7410.42 -7997.94 38.15 4261.60 17575 40S5.64 41"10 36.57 0SF1.50 Pass 17450.00 3492,25 861796 -12135.39 12711.00 3599:02 7410.42 -799794 38.15 431138 175.48 4135,90 4194.07 37.05 OSF 7.50 Pass 17500.00 3492.34 8636.12 -1218198 12711,00 3%9.02 7410.42 -799794 38.15 436118 175.22 4185,96 4244.03 37.54 OSF7,50 Pass 17550.00 3492.43 8654.29 -72228.56 12711.00 3599.02 7410.42 -799794 38.15 4410.97 174,96 4236.01 4291.00 38.02 OSF7.50 Paas 17600.00 3492.52 8872.45 -77275.14 12711.00 359902 741042 -7997.94 38.15 4460.77 174.71 1288.06 4343.97 35.51 OSF1.50 Pass 17850.00 3492.61 8890,62 -1232173 12711.00 3599.02 741042 -799794 38.15 451058 17447 4336,11 4393.94 38,99 OSF1.50 Pass 1770000 3492.70 8708.78 -12368.31 12711.00 3599.02 7410.42 -7997.94 38.15 456039 17423 43%.16 4443.91 39.48 OSF1.50 Pass 17750.00 3492.79 872694 -12414.89 12711.00 3599.02 741042 -7997.94 38.15 4610.20 173.99 443621 4493.88 39.96 0SF1.50 Pass 17800.00 3492,88 8745:11 -72461A8 12711.00 3599.02 7410.42 -7997.94 38.15 4660.02 173.76 4488.26 4543,85 40.45 06F1.50 Pass 17850.00 3492,97 8763.27 -12508.06 12711.00 3599.02 7410,42 -7997.94 38.15 4709.84 17154 4536.30 4593,82 40.93 OSF1.60 Pass 17900.00 3493.06 8781.44 -12554.65 12711.00 3599.02 741042 -7997.94 38.15 4759.67 173.32 4586.35 4643.79 41.42 OSF7.50 Pass 17950.00 3493.15 8799.60 -12601.23 72711.00 35%,02 7410.42 -7997.94 38.15 4809.50 173.11 4636,39 469377 41.91 OSF7.50 Pass 18000.00 3493.24 8817.77 -12647.81 1 Z711 00 35W 02 7410.42 -7997.94 38.15 4859.33 172.90 468643 4743.74 42,39 OSF1.50 Pass 18050.00 3493.33 am 93 -12694.40 12711,00 3599.02 7410.42 -7997.94 38.15 4909.17 17269 4736.48 479371 42.88 OSF1.50 Pass End of msu8s Drilling Office 2 8,572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 12 of 39 Field: W.R.I ur Well: 0124-08 Sttucture: dildok Point Borehole: 0124-08 Slot OP24 Trakatorr. 01244l client EN/ Type: Del Survey Coordinate System: NA027 A,s State Plane, Zone 04, US Feer North Re%_.: Tme Grid Convergence Angle: 0.12782172' Grid Scale Factor: 0.999900312 Magnetic Declination: 20.579' Magnetic Deellnabon Data: April24, 2012 Magnetic Model: BGGM 2011 Reh once Point Northlna Eastina El-tical St-tum Unc. Slot Unc. 6036479380(ftUS) 516569W MUS) 52,200 (ft) MSL 0.DOD (ft)(I aigme) 0000(ft)(1 sigma) Tnieetory Error Model: ISCWSAO 3-0 95.000% Confidence 2.7965 sigma Sumevina Pr- As Drilled Description MD Fran (ft) MD To (ft) EOU Freq Survey Tool Type Hole Site (In) Casing Diameter pn) Borehole/Survey O.ODD 40.000 1f98.425 SLB_GYRO- Wvt}Depth Or11y-No Global 16.000 13.375 0124-08 f 0124-08 40.000 40.ODO ActSlns SLB GYRO-MWD4).pth ONy-No Global 16 ODD 13375 0124-0810124-08 40.0D0 718,200 Act-Stns SLB_GYR0-MW6No Global 16.0DO 13.375 0124-08 0124-08 718200 2345.960 ActSbla SLB MVD+GMAG-No Global 16.000 13.375 0124-08 0124-08 2345.960 8936090 ActStns SLB MWD+GMAG-No Global 12.250 9625 0124-08/0124-05 89N 090 18607260 ActSms SLB MWOaGMAG-No Global 8750 5,500 0124-0810124-OB 18607.260 18970 DDO ActSM SLB_BLIND+TREND-No Global 8.75D 5.500 0124-08 0124-00 Rarerenca MD (ft) Reference TVD lftl Reference Na IR) Rehrance Ifl) Oftsst MD (ft) 011sat TVD (it) Offset NS (a) Offset EW (a) Tnvetirp Cylinder North Azim CI CICt Distance (fl) Minimum Albvnde SapanBon (ft) Wbwade Deviation from Reference (ft) EOU{OU Clearance (it) OSF Controlling Rule Shuts All local mama Minted. Rawl s fiHared: Depth 8174,73 ft <= MD c 18212.62 ft Resufis filhalad: CI-Ctseparation <= 1500,00 It Result Ngdighted: CtCt separe0o l - 1320.00 ft 8174 73 3540 37 251440 542143 5121 11 344347 175B 53 6133.88 231 1043.2 218191 825.0 8974 7. OSF1 50 Pass 820000 354209 253260 -5438.87 8177.92 344992 179743 617471 23134 1D44.29 216.90 827.38 899.35 7.25 OSF150 Pass 8250.00 354416 256938 -547268 8260.08 3458.37 1655.67 623210 23271 104569 215.56 83013 90166 730 OSF150 Pass 8300.00 354560 260710 -5505.46 8330.70 346571 1906.95 -6i280.09 23428 104720 219.% 832.24 90356 733 0SF150 Pass 8350.OD 3546.50 264589 -553699 840898 347436 1964.81 633210 23577 404942 21454 834.89 90607 736 OSF150 Pass 8400. DO 3546.86 266572 -5567 21 8497 06 3483.83 2032 17 -6 05 23719 1051 13 213.07 M 05 90876 743 OSR W Pass 8450 00 3546 68 272653 -5596 10 8547 41 3488.9E 2071 17 6419 47 238.84 105393 21816 835.6 90B.1 727 0SF1 50 Pass 85M 00 3545.95 2768,27 -562362 859982 3494.22 211182 645214 24049 105.32 22338 8 94 909.0 713 0SF150 P- 3544.W 281068 -564973 8653.94 349995 215390 648568 24212 116 .:8550.00 232 1. 908.7 689 03F150 Pass 8600.00 3542 92 285,127 -5674 51 869571 35044 218638 6511 55 24272 1071 54 23812 833.42 912 46 6 77 OSF1 50 Pass 8650.00 3541 62 2897 31 -5699 92 8734 53 3508.23 2216 38 -6535 90 24049 1078 72 23996 83B.76 918.42 6 76 0SF1 50 Pass 870000 354113 2939.56 -572666 8778.57 351197 225021 656385 23834 1084.87 24136 843.51 923.63 6.7 OSF150 Pass 8750.00 354109 298133 -575414 883583 351553 229439 660009 2W 01 1090.03 24178 848.25 928.51 678 OSF1 50 Pass 8800 00 354105 30231 -5781 62 889740 351 ] 54 2342 32 6638 69 237 89 1D94 79 241 80 852.99 933.26 6.81 OSFI 50 Pass 885000 354102 306467 -5W939 8961 78 351]69 239299 667840 23670 1098.58 241 W 856.98 93718 6.84 OSF150 Pass 8900.00 354099 310543 -593835 900,103 351723 N2634 670433 2349] 110076 243.27 85749 938.25 6.81 OSFt 50 Pass 8950.00 3540 97 3145.29 -5868.54 9045.28 351711 245870 -6 2991 233.23 1101 79 24512 856.67 938.05 676 OSF7 50 Pass 9000.00 3540 95 318421 -5899.93 9D56.25 3517 67 2490.62 -6 55.59 231 45 7101 70 24700 85471 93671 671 OSFi 50 Pass 9050.00 3540.94 322214 -593249 913075 351897 2525.06 678375 22963 110047 248.70 85178 93435 666 0SF150 Pass 9100.00 3540.94 3259.07 -5966.20 918224 3520.33 256488 681635 22781 109776 24985 84791 9W 66 6.61 OSF150 Pass 915000 354104 329496 -60010141 923219 352136 2W357 684793 226.28 1W348 25119 842.29 92569 fi55 0SF150 Pass 92DO DO 3541 23 333046 -6036.22 9280 51 352296 2640 94 6878 52 226 21 1088.68 25269 835 99 919 90 6 48 OSF1 50 Pass 925000 3542 336595 607144 9326. T7 3524.93 267665 690786 22612 108397 25440 829.57 91404 641 OSF150 Pass 93W 00 3541 61 34D1 44 6106 66 9371 04 352545 271073 6936 10 226 10 107949 256.26 823 24 SIDS .33 634 06F1 50 Pass 9350.00 354180 U36.93 614188 941493 352444 274438 696426 22617 1075,28 25822 817M 90280 6.26 OSF150 Pass 9400.00 3542 00 347242 6177 10 945B 14 3523.07 2777 35 6992 16 226.25 1071 36 26024 811 12 897 54 6 19 OSF1 50 Pass 9450.00 3542 19 3507 91 6212 32 95M 50 352168 2809 49 -7019 71 22642 106775 262.38 805 37 892.50 6 12 OSF1 50 Pass 9500.00 M42.36 3543.98 6246 94 953713 352060 2837 05 -7043 S3 228 22 1065.48 264.94 BW 55 888.53 6.05 OSF1 50 Pass 9550 00 3542 51 358109 6280 44 957384 3520.03 2864 36 -7068 34 23001 ®1 267 46 797.90 886.7 599 OSF1 50 Pass 9600.00 3542.62 W1921 631280 961708 351958 2B%.21 -709759 23178 106731 269.51 8731 596 OSF1 50 Pass 965000 3542.69 365830 634397 966643 351875 2932.51 -713102 23358 107088 27118 79970 8B97] 5.94 OSF150 Pass 9700.00 354269 3698.23 -6374 06 971614 351726 2969.05 -7164 W 23465 1075.84 27284 803.00 89362 5 93 OSS0 Pass 9750 DO 3542.69 3738 31 6403 95 9765 93 3514 44 3005 63 -7198.32 234 79 1081 04 274.59 W6 45 897 65 5.92 OSF1 50 Pass 980000 3542.69 37839 6433.84 961632 351041 3042.64 -723229 235 OD 1OB6.23 27628 809.95 90171 591 OSF150 Pass 985000 354268 381847 -646374 986683 350574 307974 -7266.26 23523 109139 27B 02 813.37 90571 5.90 OSF1 S0 Pass 990000 354268 355855 6493.63 992341 3500.35 312141 -730414 23551 109641 27934 81707 909.85 590 OSF150 Pass 9950.00 3542.68 389863 652352 997933 3495.65 316288 -734136 23574 110109 28076 B20.33 91359 590 OSF150 Pass 10000.00 354267 3938 71 6553 42 1002908 3491 66 3199 87 -7374 40 23594 1105 67 28258 82309 916 9�,6,6� 5.8�8rB OSF1 50 Pass 1005000 354267 3978 79 6583.31 1007851 34877 32M 61 -7407 23 236.02 1110.26 26447 82579 920.`>� .,.o,. OSF1 50 Pass 10100.00 354302 401839 6613.83 1012718 348413 327278 -7439.59 234.56 111413 27053 84360 93345 619 OSF150 Pass 50.00 354397 405711 664545 1017577 3480.94 330886 -747198 23314 111669 27156 84514 93533 679 OSFi 50 Pass to 10200.00 3545 48 4094 91 -667814 1022412 347879 3344 73 -7504 33 231 73 111795 272 63 845 32 935 87 6 17 OSFi 50 Pass 10250.00 354755 413176 661187 1027041 34P 84 337900 -753543 230.56 27387 84406 93502 614 OSF150 Pass 1030D.00 M49 80 4168 28 6745.94 10312 24 347730 340979 -7563 73 2307 1117.7 27543 842 31 93379 610 OSF1 50 Pess i D350 00 3552 D6 4204 W 6780.02 1035445 3476 84 3" 65 -7592 53 230 83 1 7 2 - 98 840.94 932 94 6.07 OSFt 50 Pass 10400.00 3554 32 4241 32 681410 1040706 M76 47 3479 D4 -7628.51 2W 97 1118.21 27] 88 840 34 932 63 6.05 OSFi 50 Pass 10450 00 3556.57 427 84 6848 18 10462 21 347637 351936 -7666 12 231 10 1118.38 27862 83975 932 30 6.04 OSF1 50 Pass 1050000 3558.82 431437 688225 1052559 347638 3566.09 -7708.94 23135 1118.09 27850 83929 93189 6.03 OSF150 Pass 1055000 356053 435119 -691602 1058388 347677 360946 -774789 23217 1117,67 279.33 838.34 93112 6.02 OSF150 Pass 10600 00 3561 37 4388 49 6949 31 10640 11 3478 41 3651 43 -7785 27 232. 1117.5 280.05 83751 93054 600 OSFt 50 Pass 1065000 356135 4426.22 -698211 1069351 3480.89 369137 -7820.62 23398 111 84 28104 836.80 9 D.1 598 OSF150 Pass 10700 DO 356041 446434 -701446 1074392 3483.80 372913 -785390 23398 111852 28226 836.24 930. 596 OSF150 Pass 10750.00 355855 4502 82 -704fi 34 1078497 3486.21 3759 73 -7881 14 234 50 1119 96 284.2 835. 930 17 5 93 OSFt 50 Pass 10800.00 355581 454162 -707775 1082592 348848 379007 -790856 23483 112232 28611 a36.21 93125 590 OSFi 50 Pass 10850.00 355281 458051 -7109.03 1087899 349177 382926 -7944.20 23449 112499 28726 83772 93315 589 OSF150 Pass 10900.00 3649.82 461940 -714031 1093112 3496.05 386780 -797903 23410 112750 288 SO 839.00 93483 588 OSF150 Pass 10950.00 354683 4658.29 -717159 1096B.94 3499.80 389557 -800442 23379 1130.29 29066 KG 63 93619 585 OSFi 50 Pass 11000 00 3543 83 469718 -7202.88 11006 51 3504.08 3922 86 6029 91 233 46 1133.64 292 so W 84 938 11 5.82 OSF1 50 Pass 110 w 354084 4736.07 -723416 1105044 350936 395446 605996 233 OS 113748 294% S4292 94078 Sal OSF150 Pass 11100 00 3537 88 4774 94 726547 1109918 351401 398959 -8093 41 23239 1141 42 29601 845 41 94375 580 OSF1 50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 13 of 39 Trepc y. OP17-02LI(P2)Vs. 0124.08 Rotor— MID Reference ND I Reference NS Reference EW Onset MD 08sM TVD Offsel NS Ofhat EW Traveling Cylinder NoM lon, Ct-Cl Distn Minimum Nbwade Separation Albvnde Deviation from Raterence (ft) EOUfOU Cbannce (f) OSF Cormolling Rde Sb14rs 11150.00 3535.38 4813.52 -729717 1115125 351764 402725 812919 23129 11 N.90 29716 84773 946.46 5.79 OSF1.50 Pass 11200. DO 3533.33 485196 ;329.21 11205.24 352071 406646 816617 23087 114783 29822 84962 94869 579 0SF150 Pass 1125000 3531.29 489019]36125 11245.77 352251 409589 819399 23070 115094 30008 85076 950 db 577 OSF1.50 Pass 11300.00 3529.26 492852 7393.29 11284.09 3523 64 4123 47 8220.57 230.56 115434 302 03 85232 952 fib 5 75 OSF 1 50 Pass 11350 00 3527 23 4966 85 -7425 33 1132411 352 26 4152 01 -8 4861 23045 1158 34 303 86 954 48 955 44 5.73 0SF1 50 Pass II400.W 352519 5005.16 �745738 1136742 44 352461 418270 82]916 23034 116266 30551 85715 95866 5]2 O5FI 50 Pass 11450.00 3523 16 5043 50 748942 11414 61 3524 74 421597 .831263 23024 116726 306 97 860.29 962 2� OSF1 50 Pass 11500.00 352115 508185 -752145 1148738 352561 426779 836370 23022 117137 30i 10 86427 966.31 5.73 OSF150 Pass 11550 00 3519.64 5f 20 46 -7553 17 11540 56 352696 4306 13 841X 54 23066 117525 309 10 86715 9695 74 08 F1.50 Pass 11600.DO 3518.81 5159." -7584.48 115B9.22 352850 434119 8434.25 23112 117971 30933 670.39 9731 57 0SF1.50 Pass 11650 00 3518.65 51987 761536 11639 45 3530 50 43T7 36 Z469.04 231 58 118474 31049 87d.25 97742 5 74 OSF 1 50 Pass 11700 00 3519.05 52383 -7645 87 11 SB9 92 353315 441370 8503 96 231 72 1190 20 311 69 878.52 98208 5 74 OSF1 50 Pass 11750 00 3519 49 52]8.01 7676 34 t 1740 29 3536 21 4449 99 8538 76 231 59 1195 69 313 00 882 69 9B6 69 5 ]4 OSF 1 50 Pass 11 BOO 00 351994 5317% -770681 1179156 353948 d48694 657415 23146 12011d 314.26 886W 99131 575 OSF150 Pass 11850 00 3520 39 5357 30]73] 27 11856 03 3542 98 4533 75 8618 35 231 33 1206.25 31482 891 43 996. D4 5 76 OSF 1 50 Pass 119D0.00 3520.84 5396.94 -776774 1191884 354561 457987 866091 23123 121077 315.43 89534 100016 5.77 0SF150 Pass 11950.00 352129 543558 T798.21 119M 33 3549.C18 462541 8702.07 231.10 1214.80 31610 8%70 100374 578 OS F150 Pass 12000 00 3521 74 5476 23 -7828.68 1202554 3552 O4 46M 97 8732 21 230 98 1218 69 317 74 900.94 1006 53 5 77 OSF 1 50 Pass 12050 00 3522.19 5515 87 785915 12070 69 3555 00 4692 38 8762 44 230.87 1222 77 319 39 9033 1009 51 576 OSF1 50 Pass 12100.00 3522.63 5555.51 788961 1211639 355786 472608 879317 23076 122703 32102 90601 101269 5.75 OSF 50 Pass 1215000 352315 559493 -792037 1216217 356047 475976 8824.08 22976 123110 322.59 9D8.51 101571 5.74 OSF150 Pass 1220000 3523.83 5633.88 795171 12214 ]0 356247 479836 885964 22919 12344] 32377 91070 1018.29 573 OSF150 Pass 12250.00 3524 54 5672 75 7983 15 12268.89 3562.29 483E 30 88% 26 229.24 123] 55 324 91 912 63 1020 61 573 0SF1 50 Pass 12300.00 3525.24 5711.63 8014.59 12322.33 3560.53 487774 893227 229W 12404] 32606 91441 102277 5.72 OSF150 Pass 12350 00 352595 5750 50 8046.03 1237605 355] 76 4917 45 8968 36 229 52 12432 327 19 91606 1024.80 571 OSF1 50 Pass 12d00 W 3526.66 5]89 37 8077 46 124W 90 3554 38 49M 09 -9005 03 22972 1245 86 32825 91762 1026 70 571 08F1 50 Pass 12450 00 3527 37 58282 41108 90 12481 75 355095 4995 86 -9036 90 22991 1248 33 329 54 918 78 1028.30 569 OSF t 50 Pass 1 250000 3528.00 5867 12 8140 34 1252875 354772 50W 73 -9070 26 230.09 125087 331 06 919 81 1029.84 568 OSF1 50 Pass 12550.00 352879 59D5.99 817178 12572.30 35"79 5062.95 -9099.40 230.26 1253.58 33278 920.79 103139 5.66 OSF150 Pass 126W.00 W 75 594491 8203 16 12611 83 3542 76 5M2 04 -9126 09 230 54 125672 33464 922.08 1033 30 _ 5,g$ 06F1 50 Pass 12648.39 M31 47 5982.68 8233 35 12651 18 3541 46 512080 -9152.:1 230 84 126036 33625 924 12 1035 8 `^ 0SF1 50 Pass 1265000 3531 54 5983 94 8234 35 12653 44 3541 41 512245 -9154 45 2W 86 126049 3364235 92d 24 103600 5.64 OSF1 50 Pass 127D0.00 353408 6023.09 41 535 1272365 3541 06 5174 09 -9202 02 231 15 1264 21 336 43 9P ]8 1039 59 5.65 OSF 50 Pass 12750. DO 353675 606226 -8 631 1277135 M4201 520949 -9233.98 23122 126747 33794 92952 104184 5.64 OSf 1.50 Pass 1280000 3539.43 610143 8327.28 12809.61 354266 523767 -9259.85 23129 127113 339.94 93119 104417 56 OSF750 Pass 1285OW 354210 6140.60 835824 1285200 3543.16 526864 -928078 23137 127523 34172 Sin 52 104746 OSF150 Pass 129DO 00 3544.77 617976 8W920 12910.68 3 1342 531160 -932876 23150 127925 34269 936.56 1050, 561 OSF150 Pass 12950.00 3547 44 6218.93 8420 16 12964 01 3543 20 535085 -9364 86 231 63 128298 343 91 93907 l M3 36 561 OSF 1 50 Pass 13000.00 355011 625810 845113 1301338 354262 538719 939827 23178 128670 34532 94138 105616 560 OSF150 Pass 13050.00 355278 6297.27 848209 13061M 3 1177 542284 -943107 23193 129046 34678 !M 6B 105694 559 0SF150 Pass 13100.00 355534 6336.40 851311 13109.77 354095 545808 9463.57 23187 129423 34827 945.96 106172 559 OSF150 Pass 13150. 00 3557.20 637533 8 1443 1315648 354021 5492.35 -9495.29 23159 129772 349.83 94790 106418 5.58 0SF150 Pass 13200.00 3558.78 U14.02 857608 13202.51 353969 552604 952666 23125 130095 35143 9a952 106633 OSFl 50 Pass ,3 3225.37 355854 6433.56 9592.26 13228 11 353949 5544 74 -9544 14 231 07 1302 48 352 14 95034 1067 3" 06F 1.50 Pass 13250.OD 355869 6452.49 860801 132M 10 353904 557412 '57125 23110 130375 35210 95165 106869 557 0SF150 Pass 13300.00 355900 649094 8639.98 13358.04 353712 564144963087 231 X1 35134 95402 10]0Bt 5.58 OSF150 Pass 13350.W 355931 6529.38 867196 1343080 M 32 569730 -967746 231� 35138 9539E 107079 5.58 OSF; Pass 13400.00 355961 656782 870393 1346597 353465 5725.05 -97Wm 23134 130550 353.65 95185 1069.d1 555 OSFI 50 Pass 13450W 3559.92 660626 873590 13503.15 353426 575255 -972415 23137 130618 35590 9W2 1 5 5.52 OSF150 Pass 13500.00 3560.23 fi644 70 17678 1355587 353338 579245 -9758.60 231 42 1307 13 35719 949 94 106668 550 0SF1.50 Pass 356054 668314 879985 1361019 35W 85 583370 -9793.84 23154 130]84 358.38 W946 1WS 6O 548 OSF 150 Pass :355000 13600.00 3560 85 6721 58 8831 82 13603 27 3529 08 5858 70 -9815 43 231 63 130884 360 76 94B 08 1068 01 5 45 OSF 1 50 Pass 13650 00 3561 05 6759 79 8B6a O6 13676 38 3527 66 51M 45 9837 38 230 72 131013 363 06 94] 07 176 5 42 OSF1 50 Pess 13700.00 3560 86 6797 36 8897 05 13709 89 352656 5908.21 -9859.93 229 72 131 1 07 W 28 94579 1067.22 5 39 Cis 50 Pass I37M X 3560.04 6834 34 8930.69 13744 50 3525.34 593351 9883 52 22672 1311 71 36743 944 28 1066 43 537 OSF1.50 Pass 13800.00 3558.58 687071 896498 13T7911 3523.84 5958.52 -990740 22771 131204 36954 94250 106535 534 OS 50 Pass 13850.00 3556.48 6906.44 899988 1381378 352210 598329 -993159 226.66 131205 37161 94043 106398 5.31 0SF150 Pass 13900.OD 355375 6941 53 -9035 39 13848.54 3520 31 6W7 84 -9956.13 225.58 1311 74 373 65 93809 1062 31 5.26 OSF 1 50 Pass 13950 00 3550 37 6975 % -9071 49 13883 29 351685 3 603210 9980.95 224 46 1311 11 37566 935 46 106035 5 25 OSF 1 50 Pass 140DO 00 3546 43 70D978 9108 11 1391573 3591 6D54 46 1000439 223 81 131028 3T7 70 93259 105816 5 21 OSF 1 50 Pess 14050.00 354244 7043.46 9144.85 1394i 06 351549 607573 IW27.35 223.39 1309.97 37971 93026 105651 518 OSF150 Pass 14100.00 353901 7076.67 918206 1397839 3514.21 609668 -10050.61 22234 130972 38160 92812 105500 5168 OSF150 Pass 14150.00 3536.31 71M 30 -9219.85 14014 87 3512 95 612071 1007803 221.33 f W9 32 383.29 926.03 105346 5 13 OSR 50 Pass 14200.00 3534.W 714136 -925817 1405447 351201 614656 -/010802 22052 130656 38490 92367 1D51.65 5.11 OSF1.50 Pass 14250.00 3533 32 ]172 9] 929689 14091 80 3511 52 6170 70 101 W 49 21984 130765 3B6 50 921 15 1049 65 508 0SF1 50 Pass 14300. DO 353313 720417 933597 141M% 351135 618926 10159M 21943 ] 38814 91873 104778 506 0SF150 Pass 1435000 353312 723528 -937511 1415017 351129 620747 -1018182 219.4 1306.7 389 ]9 91698 1 4 51 504 OSF150 Pass 14400.W 3533.11 7266.39 �941426 1417936 351136 622530 -1020492 219.43 130747 391 91 1 1046. 502 OSF150 Pass 1445000 3533 11 7297.49 -9453 40 14208 48 3511 50 624273 -1022826 219.42 130897 392 81 916 16 104 5 01 OSFt 50 Pass 14500 00 3533 10 7328 60 -9492 55 14237 57 3511 61 6259 76 10251 83 219.41 1311 26 394 18 918708 1048 14 5 00 OSF1 50 blaming 14550.W 3533 09 7359 67 9531 72 14266 61 3511 71 6276 39 -10275 64 219 03 1314 30 395 45 985 1 D50 34 4 99 OSF 1 50 Warning 14600.00 3533.11 7390.08 -95]141 1429945 351176 6294781030284 21]77 131]25 39668 9205] 105246 499 OSF150 Warning 146W 00 3533 16 ]419 63 �9611 71 143W W 3511 67 6313 72 -10331 57 216 52 1319 71 397 87 921 84 1054 13 4 98 SF 50 blaming 14700,00 3533.29 7448.29 -965271 14368.26 351143 6332.32 -10360.51 215.32 132168 399.00 MISS 1055.35 4.98 OSF1.50 blaming 14750.00 3533,74 7476.09 -969426 14415.70 3510.75 6357.66 -10400.60 214.18 1322.98 400.47 922.52 1055.35 4.96 OSF7.50 blaming 14800.00 3534.55 7503.03 -9736.38 14464.46 35D%7 6383.71 -104d1.82 213.10 1323.31 401.96 921.35 1055.01 4.95 OSF7.50 Naming OD 3535.71 7529.09 -9779.03 14519.44 350757 6413.12 -10458.22 212.09 1322,55 403.61 918.95 1053.15 4.92 OSF1.50 Warning ,4 14900.00 3537.22 7554.26 -9822,21 14578.84 350459 6445.12 -10538,17 211.17 7320.58 40534 916.22 105001 4.90 OSF1.60 Warning 14950 00 3539 08 757853 986588 14656 17 35 M 6487 t9 10601 74 210 48 1316 82 40740 909 42 10" a9 4 W OSF 1 50 Warning 1500000 354098 ;60 30 990983 1473215 3a9B 16 6530921066500 21016 131150 40937 90213 1038.26 4.81 DSF150 Nammg 1505000 3542." 762546 -995412 14T 6 349793 655478 -1069B.76 20935 1W 93 410.7] 89416 1OW 75 4.77 0SF150 blaming 15100.00 3543.43 764797 -9998.75 148WM 349809 657005 -1072115 208.48 129839 411W 1W 50 102347 474 OSF150 Naming 15150.00 354395 ]66983 1004372 1482774 U9848 658498 -1074386 20758 129197 41292 87904 1016.36 470 0SF150 Warning f 5200.00 354400 ]69102 -1008900 1485598 349912 660005 �1076773 2W 63 128565 41388 87177 100940 467 OSF1 SD Mming 1525000 354365 771151 1013461 14890% 3d9991 6618w 1079]49 20564 127923 41501 86422 100222 463 OSFI 50 Warning Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 14 of 39 Trajectory. ON 7-02L1 (P2) Vs 0124-08 Reference MD Reference TVD Reference NS JReferee E Offset MD Onset TVD Ofket NS OflsetEW TreveNtg CyliMer NoM Aun Ct-Ct Distance Min'vnwn Albxede Sepam n A'*-bl* Deweon hum Reference EOU{OU CIO-OSF Controlling Rft Status 15300.00 3542 % 7731 34 -1018050 14925.87 35W 55 663624 -10827 50 205.03 127265 41610 8W 56 1141 460 OSF1 50 Weming 1535000 354219 T 105 -1022645 14959.31 350101 6653.07 -1085640 204.99 1266.53 41707 B49.46 9B816 4.56 OSF150 Warning 15400.00 354143 7 0.76 -1 D27239 14990.37 350120 666832 -1088345 20497 1 261 11 41784 84327 982.22 453 OSF150 blaming 15450.00 354067 779047 -1031834 15021.53 350114 6663.22 -1091061 20495 125642 41853 83789 97707 451 OSF1 50 Warning 1550000 353991 781018 -1036428 1505882 3500.83 670059 -1094381 20495 125243 47947 832.96 97246 049 OSF150 Warning 15550.00 353915 782989 -10410,23 1510915 3500.90 672390 -1098B 42 20491 1248.60 42117 82743 96749 445 OSF150 Warnmg 15600.00 3538 39 784961 -10456 17 1515163 3501 56 674353 -11026.09 20486 1244.82 42242 62240 96288 443 OSF1 50 Wermng 15650.00 353763 7869.32 -1050212 1518337 3502.28 675784 -1105441 20481 1 241 64 42297 81867 95934 441 OSF150 Warning 15700.00 3536.88 788897 -10548.09 1527515 350313 6P1 ]4 -1108298 20446 123913 42342 81570 95652 440 OSF150 Warning 15750.W 353617 790845 -1059413 1525663 350434 6789.38 -1112049 204.37 123708 42453 81255 95373 4.38 OSF150 Warning 15800.00 353547 792793 -1064017 1531198 3505.21 681303 -11170.53 20430 123499 42663 80835 950.24 4.35 OSF150 Warning 1585000 353476 794741 -10686.22 1536778 35D549 683711 -11220.86 204.25 123266 42874 803.92 946.51 432 OS F150 Warning 15900.00 353406 796688 -10732.26 1542373 350639 686748 -1127122 20418 1230.10 43086 79924 94253 4.29 OSF1 50 blaming 1595000 3533.35 798636 -1077831 15462.82 350716 687845 -1130643 20412 122763 43181 79581 93942 427 OSF150 Warning 16000.00 353265 8005.84 -1082435 1550150 350767 6894.92 -1134142 20407 122561 43269 792.92 936.82 426 OS 50 Warning 1:050 DO 353195 8025.32 -1087040 1554674 350785 -1138250 20403 122400 43404 78996 93431 424 OSF1 Warning 16100.00 353124 804480 -1091644 15598,92 3506.89 :91387 693576 -1142986 20405 1222.36 43589 78647 93144 421 OSF150 Warning 16150.00 3530 54 8064.28 -10962 48 15645 97 3505 22 6955 52 -11472 52 204 09 1220 70 437 32 783.38 928 83 4 19 OSF1 50 Warning 16200.00 352981 808366 -11008.57 1569049 3504.01 697405 -1151298 203.62 121915 43856 78059 92645 418 OSF150 blaming 16250.00 352901 81D259 -11054.84 1573805 350314 699368 -115-16.30 203.41 121730 "004 T7726 92361 416 OSF150 blaming 163Ww 3528.21 812150 -1110112 15788:5 350223 701451 -11602.29 20342 121543 44175 773.68 92060 413 OSFt 50 blaming 163W 00 3527 41 814041 -11147 40 15841 83 350090 7036 555 -11610 78 203 44 1213.51 .3 69 76982 91739 4 11 OSF1 50 Warnm' 16400.W 352661 615932 -11193.68 158%57 349808 705939 -1170044 203.54 121140 44569 76571 91395 408 OSF150 Warning 16450.00 352581 0178.23 -11239.96 1594305 3494.60 7078.82 -11 ]42.52 20367 1209.24 44701 762.23 91091 4.W OSF150 Warning 16500.00 352501 819716 -11286,23 15988.21 349049 709753 -1178342 20400 120729 448.20 75909 90817 4.05 0SF150 blaming 16550.00 3523.95 8216.67 -11332.25 16051 92 349431 7124 06 -11841 01 20541 1205.90 45074 75516 905 m 402 OSF1 50 Wamin' 16600.00 352249 823711 -1137786 16112.97 347935 715026 -11895.93 20675�p4.]� 453W 75170 902.40 3.99 OSF1 50 Warning 16650.00 35M 63 8258.46 -1142303 16158.90 347630 7170.00 -1193728 208021 1 46 45439 750.25 R. 901 3.98 OSF150 Waming 1669786 351847 827976 -11,465.84 1620217 3473.93 ]18848 -1197fi.35 209.21 1205.61 4556 90153 397 OSF150 Wemin' 16700.00 3518.37 828073 -1146774 162D4.01 3471 718926 -1197801 209.26 120568 45567 750.01 '0157�i.7 O6F150 Warning 16750.00 351567 830367 -1151198 1624710 347157 720744 -1201700 21048 120795 4%82 75113 9030 39 OS F1 W Wamin' 1680000 351253 832787 -1155573 1629120 346918 7225.83 -1205702 21170 121147 45895 75342 90578 3.97 OS F150 Warning 16850.00 350893 835273 -1159896 1634590 3465.64 724865 -1210660 212.95 121596 460.D9 75587 908.90 397 OSF150 Warning 16900.00 350490 B378.36 -1164170 1640062 346115 727167 -1215604 21377 122115 46211 759.04 91275 3.97 OSF150 Warning 169W W 350101 840394 -1168449 1645549 345549 ]29497 -1220540 212.90 122606 46410 76197 91634 397 OSF150 Warning 17000.00 349781 842882 -1172774 1650775 344939 731731 -1225224 21193 123001 465.83 76418 91913 3.97 OSF15D Warning 17050.00 349530 845300 -1177143 1655819 344496 7338.91 -1229760 210.95 123312 46744 765.67 92116 3.96 OSF150 Warning 17100.00 3a9349 847645 -11815.55 16W572 344225 735925 -1234047 20996 123543 46889 766.83 3.96 OSF150 blaming 17150.00 349238 849E 17 -1186008 1665189 344068 7378.87 -1238224 20897 123709 47026 766.B3 '2251 92326 3.95 OSF150 Warning 172(I0W 349196 852114 -1190499 1670198 343983 7400.03 -1242763 2MW 1238.04 47193 76'11 92310 3.94 OSF150 WYming 1725D.00 349197 854226 -1195030 1676484 343870 7422.46 -1247548 206.83 123799 47381 76418 92179 3.92 OSF150 blaming 17300.00 349201 SM240 -11996.07 1682531 343718 7453.34 -12539,91 20567 123643 47699 75944 91811 3.89 OSF150 Warning 1735000 349207 858152 -1204227 1689727 3436.94 748519 -12W333 20445 1232.80 480.06 75274 91243 386 OSF160 Warning 1740000 349216 859979 -1208881 1696347 343956 7515.61 -1266206 20379 122754 48283 74471 90532 3.82 OSF150 WHrning 17450 00 3492 25 8617 96 -12135 39 17032.58 344505 754609 -12722.81 20355 1221 44 48578 735 66 89726 378 OSF1 50 W -g 1750000 349234 86M 12 -12181 so 17M264 345134 7576.90 -127]513 203.27 121469 48B.21 72647 888.88 374 OSF150 Wammg 17550.00 U92 43 8654 29 -12228 56 17149 01 3456 97 7604.28 -12824 08 203.02 1207 65 490 43 717 22 BW 36 3.70 OSF1 50 V g n' 1760000 349252 B6]245 -1227514 1720435 346146 763149 -12872.05 20282 1200.36 492.56 70779 871 fi5 3fi6 OSF150 Warning 17650.00 3492.61 8690.62 -1232173 1726048 3464.34 7659M -1292064 20269 1192.82 49468 69814 86271 362 OSF150 Warning 1770090 349270 870878 -1236831 1731830 346573 7688.62 -1297054 20264 118496 496.80 68816 85343 358 OSF150 Warning 17]50.00 349279 8726.94 -12414.89 1737549 346548 771787 -1301969 20267 117676 498.81 67795 843.89 354 OSF150 Warning 17800.00 3492 88 8745 11 -12461 48 17432 17 3463 31 7747 18 -13068 15 202 79 1168.24 500 72 667 51 634 09 3.50 OS50 blaming 1785000 349297 -12508 06 1754704 3455 47 7809 77 -13164 11 20323 11 5801 503.58 654 43 821 96 345 OSF1 50 blueing 17900.00 U9306 :763.27 878144 -1255465 1761365 3452.26 784799 -13218.56 20343 1146.20 505.23 640.97 809.05 3.41 OSF150 M§ ng 1795000 349315 879960 -1260123 1773348 3450.22 792054 A3313.89 203.62 113246 505.97 62649 794.82 3W DSF150 Warning 18DW W 3493 24 8817 77 -1264] 81 17 89 26 3450 49 7955 82 -13357 09 203 64 111708 50736 60971 7]8 51 331 OSF1 50 Warning 1BOW00 U93.33 883593 -1269440 1783762 345177 798657 -1339438 203.61 110142 509.W 592.42 76176 3.25 OSF150 Warning 1a 10000 349342 BB5410 -12740.98 1787794 345243 8012 D9 -1342560 203.61 IMS98 51086 57512 74508 319 OSF150 blaming 18150.00 349351 887226 -12787.56 17920.68 3452.W 803895 -1345885 203.64 1070.85 51263 55822 72877 314 OSF150 Warning 182(10.00 3493.60 889042 -1283415 17977 DB 345012 807455 -13502.53 20382 1 559 5139D 541.E 712 fib 306 OSF150 Warning 1821262 349362 889501 -1284591 1799121 344909 808352 A351339 203 1051.E 514. 537. 708.55 3.07 OS 50 Warning Ertl of resutls Drilling Office 2.8.572.0 N ika itch uq\Ol iktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 T40 AM Page 15 of 39 Field: Niked hnq Wall: OP18-08 Struc Wre: 011ldok Point Borehole: OP78-08L7 Slot ant OP18 Trajectory. OP18-08LI Cl ENI Type: De/Survey Coordinate System: NAD27 Alaska Stare Plana, Zone 04. US Feet North Reference: True Grid Convergence Angle: 0.12820300' Grid Scale Factor. 0999900314 Magnetic Declination: 19.443' Magnetic Declination Data: March 10, 2014 Magnetic Model: BGGM 2013 Rtlerence Point NOMIna EaeBne Ef-don Structure Unc. Slot Unc. OD36505.630 (ftUS) 516519.200 (fiUS) 53.740 (fi) MSL 0.000 (it) (1 aghta) 0.000 (it) (1 sigma) Traiectory Error Model: ISCWSAO 3-D 95.000% Confidence 2.7966 sights Sumevino Proa: As Drilled Description MD From(ft) MD To(ft) EOU Freq Survey Tool Type Hole Sim (in) Casing Diameter on) Borehole l Survey 0.000 41.540 1MA25 SLB_NSG+MSHOT-Deph Only -No Global 16.000 13.375 OP1 B-08PS1 I OPIS-08PBI 41.540 41.540 Act-SNs SLB NSG+MSHOT-Depth Only -No Global 16DD0 13.375 OP18-08PBI 1OP18-08PBI 41.640 917.000 Act -Stirs SLB NSG+MSHOT-No Global 16.000 13.375 OP18-MPBI 1OP18-MPBI 917000 2685990 Act-Shs SLB MVVO+GMAG-NO Global 15000 13.375 OP1S-08PB2 IOP18-08PB2 2685.990 12681.040 Act-Stna SLB M410+GMAG-No Global 12250 9.625 OP7 S4DBPB2 I OPIS-0BPB2 12681.040 12737.000 ActStns SLB MWD+GMAG-No Global 1225D SIM OP18-0BLI IOPI8-08L1 12737.OD0 12896,070 ActStns SLB MWO-INC_ONLY_FILLER-No Global 8-750 5.5DD OP18-0BL1 I OP16-081.1 12896070 18830.760 AclStre SLBMVA)+GMAG-No Global 8,750 5.500 OP18-08LI/OP78-08L7 18530.760 18899.OD0 Ac1Stns SLB BLIND+TREND-No Global 8.750 5.500 OP184)801OP18-08LI Reference MD (fi) Reference TVD (it) Reference NS (it) Refer.-E I tt) Offset MD (n) 111.1. (fi) Offset NS (it) Offset EW (it) TrsvildrC,.-r North Azim (') Ct-Cl Distence (tt) Minimum Alloxable Separation (it) AI.-ble Deviation from Reference Ifil EOU.EOU Clearance (fi) OSF Controlling Rule Status All beat minima indicated. Rewlts filtered' Depth8174,73 it c MD - 18212.62 itRewks filof ad: Ct-Ct separation-150D00 It Rewlts highlighted'. CtCt separation <= 1320.00 it8174.73 35C 37 2514.40 1: 43 7444 94 28N 94 2712 88 5440 46 325 60 757 15 9456 662 59 693 ]� OSF 1.50 Pass 820000 3542 09 253260 -5438 87 7467 50 28128 2121 51 -5461 10 325 17 753 67 9314 660 52 691 24 1225 OSFi 50 Pass 8250.00 35441E 2569 38 547268 751178 281845 273861 550155 32520 74574 9014 65561 68532 12.53 OSF1.50 Pass 630D 00 354560 260710 550546 755925 2824.59 2757.26 -554477 32520 73753 8698 65055 67922 12.85 OS 50 Pass 8350.00 3546.50 2645.89 -553699 760656 283099 2T76.28 -558762 325W 72906 8391 64516 672.80 13.17 OSF 150 Pass 840000 3546.86 268572 556721 7649 31 2836 88 279372 -56X 20 325.07 720 57 8090 63967 66631 13.51 OSF1 50 Pass 8450 00 35d6.68 2726.53 -5596 10 7690 92 2842 55 281076 5663 73 324.98 712 36 7820 634 16 659.90 13 82 OSF1 50 Pess BSt%).00 3545 95 2]68 275623 62 Tl28 12 284752 282607 -5697 27 325 W ]D4 67 75 99 628 69 653.69 1407 OS 50 Pass 855000 3544 68 2810.88 564973 7]62 54 2851 81 2840 31 -5728 31 325.09 697 93 74 74 623 19 647 ]8 14 17 OSF 1 50 Pass 860000 3542 92 285427 -5674 51 779636 285571 2854 37 -57M 82 32423 69236 74 75 617 fit 642 21 1406 OSF1.50 Pass 8650.00 354162 289731 -569992 7841 B6 2860.83 287348 579979 32039 68849 7642 61207 63721 13.67 OSF 50 Pess 6700.00 '41 13 29395 -5726.6E ]891 41 2866 67 2894 68 -5844 17 316 45 685 89 7943 606 46 632 61 13.10 OSF 1 50 Pass 8750.00 3541 09 2981 33 -5754 14 7933.8E 2872 28 291307 5882 05 314 47 68434 83 13 601 21 628 60 12 48 OSF 1.50 Pass 88W 00 3541.05 302310 -578162 797515 287745 293103 -591887 312E 683. 8769 59619 625.09 1181 OSF150 Pass 885000 354102 306467 -580939 W1678 2882.57 294915 55 599 30969 68439 9296 59142 62208 1114 OSF150 pass 8900 00 354D.99 3105.43 5838 35 8058 94 2887 74 2%7 W -5%3 70 306 16 685.53 98.66 5S6 87 61943 10.51 OSF 1 50 Pass 8950 00 3540 97 3145.29 5868 54 8102 W 2893 10 2985 85 6032 86 302 62 687 14 104 61 582 53 617 07 9 93 OSF pass 900000 '40.95 3184.21 -589993 8149.64 28%01 3005.69 -6 75.09 29905 68894 11073 578.21 61479 9C OSF150 Pass 9050.00 3540.94 322214 -593249 81%01 29D505 302514 611675 29559 69074 11678 57396 6125E 894 OSF150 Pass 9100.00 3540 94 3259 07 -5966 20 823923 2910 74 3042.97 6155 70 292 32 69265 122.58 57006 61061 8 53 OSF 1 50 Pass 9150 00 W 1.04 329496 6001 01 828263 2916 46 306050 -6 95.00 28935 694 77 128 27 56651 6089 818 OSF1 50 Pass 9200.00 3541 23 3330 46 6036.22 832551 2922 00 3077 63 6233 91 284100 69146 133 92 56353 60785 ] B6 OSF 1 50 Pass 9250 W 3541.42 3W6 95 6071 44 8368 d4 292732 3094.79 6272.90 28667 700.87 139 62 561 25 607 46 7.57 OSFt 50 Pass 9300.00 3541.61 3401 44 6106 66 041961 293365 311529 6319 35 285 10 704 79 145 78 55901 607727 7.29 OSF/.50 Pass 9350.00 3541 80 343E 93 6141.88 8472 86 2940.72 313676 6367 57 283.48 70815 152 11 556 64 607 01 7 02 OSF7 50 Pass 940p.00 354200 U7242 617710 552771 294865 315894 641711 28182 71269 1585E 55413 606.6E 6.n OSF150 Pass 9450 W 3542 19 3507.91 6212 32 8580. 31 295E 9d 3180 18 .6 64 50 280.29 716 59 164 99 551 606.27 6 54 OSF1 50 Pass 9500 00 3542 36 3543 98 624E 94 862680 2964 49 3198 98 650E 36 280 71 721 30 171 26 55003 606 79 635 OSF 1 So Pass 955000 3542.51 358109 628044 867137 297174 321701 65464E 28116 72739 177.68 54971 608.61 617 OSF150 Pass 9600.00 3542 62 361921 6312 80 87M 62 2977 73 3232 47 65S0 93 2B1 83 73523 18392 551 30 612 28 602 OSF i 50 Pass 9650.00 3542.69 365830 6343.97 8747.33 2983.27 3247 68 6614 99 282 53 744 98 190 24 55474 617 83 5.90 OSrt 50 Pass 9700.00 36 2.69 3698.23 6374.06 8785.86 298863 3263.15 6649.67 282.31 75654 1%64 55990 62511 579 OSF150 Pass 9750.00 35d2 69 373831 -W 95 882487 2%3 % 3278 64 A685.27 280 93 769 12 20298 56615 633 a8 5 70 OSF1 50 Pass 9800.00 3542 69 3778.39 6433 84 BB65 So 2999 46 3294 70 6722 52 279 50 782 55 20921 573 34 642 75 5 63 OSF 1 50 Pass 9B50.00 3542.68 381847 646374 891547 300637 331423 6]6766 27782 79641 21581 58060 652.21 555 OSF150 Pess 9900.00 354268 3868.55 649363 896170 301312 333256 68095E 27629 81050 22199 56852 66218 549 OSF150 P.- 9 00 354268 3898.63 6523 52 899800 301838 33 lKI 6fi 252 275 12 82531 22739 59791 67338 5.46 OSF1 50 Pass 1 DODO 00 3542.67 393871 6553.42 9034.07 W2345 336080 -6 7538 27399 84098 23255 60843 68562 5.44 OSF150 Pass 10050 00 3542.67 N78 79 15583.31 9076 42 3029.20 3377 09 6914 06 272 55 857 38 23792 61946 6S6 44 5 42 OSF1 50 Pass 10100 00 3543.02 4018 39 6613.83 912265 303530 3395 14 695E 18 269 13 8737 23251 641 22 71840 565 OSF t 50 pass 1015000 3563.97 C5711 664545 917063 304149 341418 45 78 26586 88960 2355E 65304 ]3157 566 OSF150 Pess 1020000 3545.48 409491 667814 9219.W 304E 01 34M 92 -70.54 26272 90478 24030 66448 74425 5.66 OSF150 Pass 10250.00 3547.55 41317E 671187 926788 305453 345317 -708791 26012 91922 24368 67554 756.44 5.68 OSF150 Pass 10300.00 3549.80 41W28 6]45.94 931443 306108 347179 -7130.06 25923 93354 24687 68666 7w(Kl 569 OSF1.50 Pass 10350. DO 3552.06 420480 6780 02 935937 305747 34 76 -7170 76 2598 40 9480 24993 698 13 781 11 5.71 OSF1 50 Pass 1040000 355432 4241 32 6814 10 9403 47 W 99 35077 -7210 64 25766 962 84 252 73 710 11 79402 573 OSFI 50 Pass 10450 00 3556 57 4277 84 6848 18 9453 06 30]8.35 3528 43 -7255 39 256 90 977 83 25557 722 25 807 11 576 OSF 1 50 Pass 10500.00 3558 82 4314 37 188225 951089 3085 24 35527 -7307 41 256 18 992 53 258 72 ]33 81 819 72 5.77 OSFt 50 Pass 10550.00 356053 435119 691602 955746 309147 357231 -734921 25654 100713 26152 74561 83246 579 OSF1.50 Pass 1 D60000 3561.37 438849 6949.31 %5 08 3037.40 358947 -738666 256.% 1022.24 26425 75799 84574 5.82 OSF150 Pass 10650 00 3561.35 442622 6982 11 9640 70 310359 3606 33 -7424.20 25728 1037 88 26709 77080 859 50 584 OSFI 50 Pass 070000 3560.41 4464.34 701446 968285 3109 72 362337 -7462 26 25755 1053 98 269.99 784 00 87366 5.87 OSF1 50 P.- 1 0750 00 3558 55 4502 82 -7046.34 9725 75 311575 3640 73 -7501 03 25781 1070 52 27293 797 59 888 2,f 5.90 OSFI 50 Pass 10800.00 3555 81 4541 62 7077 75 977391 312246 3E60 33 -7544 50 257 66 1087 3d 276 10 811 24 90294 5 92 OSF 1.50 Pass 10850.00 355281 4580.51 710903 982259 312929 365033 -758836 25666 110429 27922 82507 917.81 5.95 OSF 50 Pass 10900.00 3549.82 4119.40 -]14031 987388 313645 370170 -763443 2556E 112125 28230 83894 93272 597 OSF150 Pass 10950. D0 3546.83 a658.29 -]17159 992317 314322 372259 -7678.56 254.73 11381E 28520 05298 94772 6.00 OSF150 Pass 11000 00 3543 83 469] I B 7202 88 9967 61 314900 3741 63 -7718 30 25393 11 5526 28780 867 46 96307 6 04 OSF 1 50 Pass Drilling Office 2.8.572.0 NikaRchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 16 of 39 Trap-y. OP17-02L1 (P2) Vs. OP18-0BL1 Mininum Albwade Traveling Cylinder Ahi-bla Deviation fiam EOU{pU Controlling Rehrence MD Rehrence ND Rehrence NS RehrenceE OBsa[MD OBset T. 01het NS ORaetEW N.M AmCt-Ct Dhdnce-Paratbn Rehreraz Cl= I OSF I Riga Status 1105000 11100 W 3S4D tl4 3537 88 11 4774.94 -/1341ti -7265 47 10055.79 3159 97 3719 61 -7797 11 252 07 1190 02 292 70 897 32 994 56 6 11 OSF1 50 Pass 1115000 3535 38 4813 52 -7297 17 1009920 3166 14 3798 DO -7835 95 250 28 1207 44 294 % 912 45 101045 616 OSF1 50 Pass 11200.00 3533 33 4851 86 -7329 21 1013969 3171 86 381507 -7872 22 249 d3 1224 92 29709 927 83 1026.53 620 05F1 50 Pass 112K W 3531 29 4890 19 7361 25 1018047 3176.98 383237 -7908 79 248 85 1242 71 299 13 943.58 1042.96 6 25 OSF 1 50 Pass 11300.00 352926 492812 � 393 29 1021976 3181 46 3849 O4 -7944 08 248.32 1260 79 30103 959 76 105977 6.30 OSF1 50 Pass 11350.00 352723 4966 85 -7425 33 1025784 31859 3864 % -7978.37 24781 1279 23 30286 976 37 107699 635 OSF 1 50 Pass 11400.00 3525 19 5005 18 -7457 3B 1029695 319070 3881 11 8013 68 247 28 1298.03 3047 993 33 109457 641 OSF1 50 Pass 11 45000 3523 16 5043 50 748942 10345 19 3196 62 39M 99 8057 24 24665 1316 96 306.85 101011 111207 645 OSF1 50 Pass 11500.00 3521.15 5081.85 -752145 10392.61 3202.35 3920.68 .8100.00 246.17 133592 308.91 1027.01 1129.65 650 OSF1.50 Pass 11550.00 3519.64 512D 46 -7553.17 10434.68 3207.45 3938.14 813793 246.07 1355.47 310.61 1044.87 1148.08 6,56 OSF1.50 Peas 17600.OD 3518.81 5159,44 -7584.48 10476.49 3212.60 3955.40 8175.67 24597 1375.86 31223 1063.63 1167.37 6.63 OSF1.50 Pass 11650.00 357865 5198.76 -7615.36 10522.36 321827 3974.31 -821707 24595 139698 31397 108302 1187,35 669 OSF1.50 Pass 1170D.00 3519.05 523837 -7645.87 1056835 3223,93 3993.52 6258.91 245.55 141665 315.70 1102.94 1207.85 6,76 OSF1.50 Pass 11750.00 3519.49 527801 -7676.34 10619,37 3230.08 4014.64 -8 .50 245.07 1" 30 317.64 7722.66 122821 6,82 OSF1.50 Pass 11 SOD 00 3519.94 5317.66 -7706,81 10671.08 3236.43 403E 43 -8350.96 24d.OD 1461.79 31959 1142.20 1248.40 6,88 OSF1.50 Pass 11850.00 3520.39 5357.30 -7737.27 10720,54 324260 4057.47 8395.30 244.16 148315 321.44 1167.71 1268.53 6,94 OSF1.50 P.- 11 90000 3520.84 539694 -776774 10770.28 324891 4078.75 .8439.81 243.72 1504.41 323.27 1181.14 1288.57 7.0D OSF1.50 Pass 11950.OD 3521.29 5436,58 -T798.21 10826.69 3255,54 4103.30 8490.16 243,27 1525.47 325.29 1200.77 7W8.28 705 OSF 1.50 Pass 12000.OD 352174 547623 -7828.68 10878,06 326D 67 4726.19 43535.86 242.91 1546.24 327.06 1219.16 7327.86 7.11 OSF7.50 Pass 1205000 3522.19 5515.87 -7859.15 10918.35 3264.78 4144.11 -8571.71 242.63 1567.08 328.52 1238.56 134774 7.17 OSF1.W Pass 12700.00 3522.63 555557 -7889.61 1095040 326921 4161.74 8607.39 242.35 158809 329.96 1258.13 1367.79 7.24 OSF1.50 Pass 12150.00 3523.15 5594.93 -7920.37 11005.25 3274.68 4182.28 8649,15 240.9E 1608.86 331.57 1277.30 1387.49 7.30 OSF1.50 Pass 1220D.00 3523.83 563388 -785171 11052.97 328038 4203.24 869164 240.05 1628.95 333.17 1295.78 1406.51 7.35 OSF7.50 Pass 12250.00 3524.54 567275 -7983.15 11096A3 3285.66 4222.19 8730.05 239.78 164896 334.68 1314.27 1425.51 7.41 08F1.50 Pass 12300.00 3525,24 571163 .8014.59 11138.77 3291.01 4240,83 8768.03 239.50 1669.07 336.17 1332.90 14 ,63 7.46 OSF1.50 Pass 12360.00 3525.95 5750.50 8046.03 11178,51 3296.11 4258.10 48BM.45 239.24 1689.31 337.56 1351.75 1463.94 7.52 OSF1.50 Pass 1240D.00 3526,66 5789.37 8077.46 11 216.89 3301.12 4274.64 -M7.73 238.99 1709,76 338.90 1370.85 1483.49 7.59 OSF1.50 Pass 72450,00 3527.37 5828.25 -8 0890 1125493 3306.16 4290.89 .6871.75 238.74 1730,42 340.23 1390.19 150327 7.65 OSF1.50 Pass 12500.00 352808 5867.12 -8 40,34 11292.02 3311.22 4306.56 8904.99 238.50 1751.30 341.51 1409.79 152330 7.71 OSF1.50 Pass 12550.00 3528.79 59M 99 8171.78 11328.89 3316.43 4321,96 8938.07 238,26 1T7242 34278 1429.64 1543.57 7.77 OSF1.50 P- I 26DO OD 3529.75 5944.91 8203.16 11367.07 3321.99 4337,74 8972.40 237.87 179365 344.03 1449.82 7561.77 7.84 OSF7.50 Pass 12650.00 3531.54 598394 -8234.35 11406.23 3327.70 4353.80 -9(107,65 237,45 1015.74 345.20 1470.53 7585.27 7.91 OSF7.50 Pass 12700.00 353408 602309 -8 5,35 11446.22 3333.54 4370.11 -9043.69 237.15 183804 346.42 1491.62 1606.77 798 OSF1.50 Pass 12750.00 3536,75 606226 829631 11491.94 3340.31 4388.71 -9w 91 236.92 1860.44 34796 1512.48 1628.14 8,04 0SF7.60 Pass 12800.00 3539A3 6101.43 8327.28 11537,53 3347.24 4407.27 -9125.96 236.69 1882.82 349,49 7533.33 1649.SO 8.10 OSF1.50 Pass 12850.00 3542.10 6140.60 8358.24 11579.57 3353.55 4424.38 -9163,84 236.49 79D5.24 35089 1554.35 1670,99 8.16 OSF1.50 Pass 12900.00 3544.77 6179.76 -M9.20 11621.63 335961 4441.50 .9201.78 238.3D 1927.73 352.27 1575.45 1692.55 0.23 OSF1.50 Pass 12950.00 3547.44 6218,93 8420.16 11680.17 3367.68 4465.50 -9254.56 236.06 1950.15 35430 1595.85 1713,62 8,28 OSF1.50 Pass 13000.00 3550.11 6258.10 8451.13 1173829 337543 4489.83 -9306.77 235.84 1972.16 356.27 1615.89 173432 8,32 0SF7.50 Pass 1305000 3552.78 6297.77 848209 1177967 3380.86 4507.23 -9343.92 235.68 1994.13 357.63 1636.50 175538 8.38 0SF7.50 P.- 1 310000 3555,34 633640 -8513.11 1182100 338625 4524.56 -9381.06 235.51 2016.11 358.98 1657.13 1776.46 8.44 OSF1,50 P.- 1 31 5000 3557.20 6375.33 85N43 1186706 3392.27 4543.84 -9422.45 235.28 2037.77 350.60 1677.26 1797-10 8.50 OSF1.50 P.- 1 320000 3558.28 6414.02 857808 11913.44 3398.39 4563.28 -9464.11 235.02 2056.98 362.05 1696.93 1817.29 8.55 OSF7.50 Pass 13250.00 3558.69 6452,49 -8608.01 11962.24 3404.64 4583.81 -9507.93 234.76 2079.80 363.69 1716.10 183701 8.60 OSF7.50 Pass 13300.OD 3559,00 6490.94 8639.98 12011.61 3410.38 4604.75 -9M2.28 234.54 2100.49 365.35 1735.14 1856.59 8.64 OSF7.50 Pass 13350.OD 3559.31 6529.38 8671.96 12045.81 3414.11 4619.25 -958303 23441 2121.26 366.d8 1754.78 787fi.61 8.70 OSF1.50 Pass 13400.00 3559.61 6567.82 870393 12079.01 3417.68 4633.15 -961297 234.28 2142.30 367.55 1774.74 1896.93 8.76 OSF730 Pass 13450.00 355992 6OD6.26 8735.90 12113.80 3421.39 4647.55 .964441 234.14 2163,59 368.68 1794.92 191748 8.62 OSF150 Pass 1350D 00 3560.23 6644.70 -8 7.87 12189,07 342730 4670.44 -9694,37 233.93 2184.89 37056 1814.33 1937.52 8.86 OSF7.50 Pass 13550.00 3560.54 6SB3.14 8799,85 12218,06 343263 4690.92 .9 38.56 233.75 2206.01 37221 1833.90 1957.54 8.91 OSF7.50 Pass 1360D.00 356D.85 672158 883182 12254.21 3436.54 470597 8771.19 233.62 2227.23 37338 1853.85 1977.90 8.97 OSF1.50 Pass 13650.00 3561.05 6759.79 8864.06 12290.34 344039 4720.88 -9803.87 232.61 2248.32 374.53 1873.80 19%,31 9.02 OSF1.50 Pass 13700.00 3560.86 679736 -W7.05 12323.63 3443.88 4734.50 8834.06 231.89 2268,72 37554 1893.17 2018.03 9.06 OSF1.50 Pass 13750.00 3560.04 MU 34 8930.69 12355.64 3447.15 4747.43 -9863.15 230.82 2288.54 376.52 1912,02 2037.20 9.14 OSF150 Pass 13800.00 3558.58 687071 896498 12407.84 3452.22 4768.43 -9910.67 229.85 2307.64 378.29 1929.35 2055.12 9.17 OSF1.50 Pass 13850.00 3556.48 6908.44 12458,66 3456.74 4789.05 8956.90 228.85 2325.76 300,01 1945.75 2W2.09 9.20 OSF1.50 Pass 13900.00 3553,75 6941,53 03-899988 -9539 12529.BD 3462.57 4818.27 -10021.50 227.73 234286 382.48 1960.38 2087.54 OSF1.50 Pass 13950.00 3550.37 697595 -907149 12604.89 3468.67 4850.10 -10089.23 226,55 2358.34 38505 1973.29 2101.3, 1 OSF1.50 Pass 1400000 3546.43 7009.78 -9108,11 12652,03 3472.52 4870.27 -10131,67 225.85 2372.90 386.62 198626 211482 9.23 OSF7.50 P.- 1 405000 3542.44 704346 -9144.B5 12894.67 3476.02 4888,50 -10170.05 225.19 2387.32 38803 1999.29 2728.30 9.25 OSF7.50 Pass 14700.00 3539.01 7076.67 -9182.06 1273D 16 347095 49D3.54 -10202.06 223.78 2401.36 389.16 201220 2141.59 928 OSF7.50 Pass 14750.00 3536.31 7109.30 -9219.85 17749,46 34B0.55 4:11.60 -70219,53 222A7 2415.02 389.48 20M 54 2155.04 9.32 OSF7.50 Pass 1420000 3534,36 714136 -9258,17 1Z764.87 348782 4917.84 -10233.56 221.34 2428.62 389.55 2039.07 2168.59 9.37 OSF7.50 Pass 142DO 00 3533.32 7172.97 -9296.89 12780.25 3483,10 4923.88 -70247.64 220.31 2442.31 389.54 205278 2182,29 9A2 OSF1,50 Pass 143DO 00 3533.13 7204.17 -9335.97 12795.58 3484.37 4929.71 -1026176 219 fib 2456.15 389.47 2066.68 2196.17 9AS OSF7.50 Pass 14350.00 3533.12 7235.28 -9375.11 12812.10 348568 4935,79 -10277.07 21963 2470.51 389.40 2081.11 2210,58 9.54 OSF1.50 Pass 1440D 00 3533.11 726639 -9414.26 12829,22 3486.78 494191 -10293.02 219.60 2485.47 389.25 2096.22 2225.64 9.60 OSF1.50 Pass 14450.00 3533.11 7297.49 -9453.40 12846,24 3487.59 4947.51 -10308.96 219.5E 250101 38905 2;11.96 2241,32 9.66 0SF7.50 P.- 1 4500.00 3533.10 7328.60 -9492.55 12863.15 3488.12 4953.49 -10324,88 219.56 2517.13 388.79 2128.34 2257.61 9.73 OSF1.50 P.- 1 4550.00 3533.09 7359.67 -9531.72 1287993 3488.38 4858.94 -10340,76 219.16 2533.78 388.47 2145.30 227447 9.80 OSF1.50 Pass 14800.00 353311 7390.OB -9571.41 1289646 3488.37 4964.12 -10356.45 217,89 25W 21 388.08 2162.13 2291.16 9.88 08F1.50 Pass 14fi50.00 3533,16 741963 -961174 12907.03 3488.26 4967,31 -10366,52 216.62 256624 387.40 2178.84 2307.64 9.96 OSF1.50 Pass 14700.00 3533.29 744E 29 -9652.71 1291757 3488.12 4970.34 -10376,62 215.33 258192 38664 2195.28 2323,83 10.04 OSF1, 50 Pass 1475000 3533.74 747609 -9694.26 129M 08 3487.95 4973.22 -10306.73 214.03 2597.31 385.80 221151 2339,78 10.12 OSF1.50 Pass 14800.00 3534,55 75M 03 -9736,38 12938.57 3467.74 4975.94 -10396.85 212,74 261239 384.88 2277.51 2355,48 10.20 0SFV50 Pass 14BW.00 3535,71 7529-09 -9779.03 12949.02 3487.50 497852 -10406.98 211.46 2627.18 383.89 2243,29 2370.93 10.29 OSF7.50 Pass 149WOO 3537.22 7554.26 -9522.21 12959.45 3487.23 4980.94 -10417.12 210,20 2641.66 382.82 2258.85 238612 10.37 OSF1.50 Pass 14950.00 3539.08 7578,53 -9865.88 12971.92 3486.91 4983.68 -1 D429.28 209.08 2655,63 381.70 2274.13 240104 1OA6 OSF7.50 Pass 1500D 00 354098 76D230 -9909.83 12984.34 3486.65 4986.23 -10441.43 208.97 2670.08 380.54 2289,54 241606 10,55 OSF1.50 Pass 15050.00 3542.44 7625.46 -9954.12 13D05.36 348631 499028 -10462.06 208.03 2684.27 379.75 2304.52 243D 78 10.63 OSF7.50 Pass 15100.00 3543.43 7647.97 998 -9.75 13037.36 348587 4996,25 -10493.49 207.37 2698.09 379.45 2318.64 24 M 1069 OSF1.50 Pass 15150.00 3543.95 7669.83 -1004372 13786,79 3476.98 5231.67 -11201.82 2.92 06 7700.15 401,82 2298.33 2431.94 10.10 OSF1.50 Pa ss 15200.00 44 3500 7691.02 -10089,00 13024.16 347631 5247.53 -11235.60 20607 2699.98 402.26 2297.72 2431,48 10.09 OSF7.50 Pass 15250.00 3543,65 771151 -10134.61 138.61 60 347568 5262,95 -1126663 205.17 269926 402.69 2296.58 243D.48 10.08 OSF7.50 Pass Drilling Office 2.8.572.0 Nikaitch uq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7.40 AM Page 17 of 39 Trajectory'. OP17-021.1 (P2) Vs. OPIS-08L1 RefarerKe MD (tt) Reference TVD ffll Reference NS III) Reference E Ifl) Offset MD (ftl OBsa[ TV" (ft) Oflsat NS Iftl OHset "V (fl1 Traveling CyltrMar NorM Azim (') Ct-Ct Disbnce (ft) Minimum Albxade Separation lft) Albxada Deviation from Reference (tt) EOU{OU Clearance (tt) OSF Controlling Rule Sbtus 15300.00 3542,% T731.34 -10180.50 3475.12 5277.OD -11299.17 204,64 269B.11 403.07 229504 2429.07 10,06 OSF1.50 Peas 15350.00 3542.19 7751.D5 -1022645 13894.23 3927.86 3474,58 5290-87 -113298D 204,64 2697.12 40344 2293.68 2427.83 10.05 OSF1.50 Pess 15400.00 3541.43 7T70.76 -10272.39 1395863 347409 530338 -11357.91 2D4.64 269645 403.75 2292.fi9 42 10.04 OSF7.50 Pass 15450.00 3540.67 7790.47 -1031834 13985.14 3473.67 5313.96 -1136221 204. 26%.1 403.97 229Z 2426. 10.03 OSF1.50 Pass 15500.DO 3539.91 7810.18 -10364.28 14011.65 3473.26 5324.32 -11406.60 204.64 2696% 404.1 29 i 2428.W 10.03 OSF7.50 Pass 15550.D0 3539.15 7829.89 -10410.23 14038.16 3472.85 5334.48 -11431.09 204.64 2696.97 404.32 2292.fi6 2427,10 10N OSF1.50 Peas 1560&00 3538.39 7849,61 -10456.17 14073,90 3472.26 5347.92 -11464,20 204.64 269795 404.67 2293.28 2427.84 70.02 OSF1.50 Pass ISm 00 3537.63 78M 32 -10502.12 14111,97 3471.49 536208 -11499.53 204.65 2MAS 40507 2294.08 2428.78 10.02 0SF1,50 Pass 15700.00 3536.68 7888.97 -1054809 14155.94 3470.39 5378.27 -11540.40 204.36 2700.50 40561 2291.88 2429.76 10.01 OSF1.50 Pass 15750.00 3536.17 7908.45 -10594.13 14214.08 3468.45 5399.76 -11594.38 204.38 2701.60 4D6-51 2295.09 243CI 26 9.99 OSF7.50 Pass 15800.00 3535,47 7927.93 -10640.17 14295.13 3465.53 5430-19 -11669.45 204.42 270241 40795 2294.46 2430.11 9.96 OSF7.50 Pass 15850.OD 3534.76 7947.41 -1068fi22 14355,95 3464.43 5453.60 -11725,57 20443 2702.64 408.92 2293.72 2429.71 9.93 0SF7.50 Pass 15900.00 3534.06 798888 -10732.26 14396S4 3464.43 5469.30 -11713:43 204.41 2702.97 409.46 2283.51 4 6 9.92 0SF7.50 Paas 75900.00 3533,35 7986:36 -10778.31 14439,31 3465,07 5485:39 -1180262 204.39 270347 41004 2293.43 2429.73 9.91 OSF1.50 Pass 18000.00 353285 BDOS.B4 -10824.35 14485.75 3466.15 5502.70 -11845.05 204.35 2704.06 410.71� 2429,93 990 OSF1, 50 Pass 16D50.00 3531.95 8025.32 -10870.40 14527.46 3467.37 5518,62 -11884,24 204.31 270474 411.30 2293.44 2430.27�_�8 OSF1.50 Pass 16100.00 3531,24 8044.80 -1091644 14555,42 3468.03 5528.97 -11910.20 204.29 270572 41153 2294.20 2431 9 OSF1.50 Pass 16160.00 3530,54 8064.28 -10962.48 14583.38 3468.38 5539.13 -11936.25 204.27 7707.11 41172 2295.39 2432.30 9.88 OSF7,50 Pass 16200.00 3529.81 8083.66 -11OD8.57 74611.35 3468.42 554909 -11982.38 203.76 2708.80 411.88 2296.81 2433.88 9.88 OSF7.50 Pasa 16250:00 3529.01 8102.59 -11054.84 15368.83 345724 5899.28 -12630.05 203.57 2709A3 41969 2289.74 24239.381 8.70 OSF7.50 Pa. 16300.00 3528.27 1121:50 -11101.12 15417.74 3456.27 592773 -12669,82 203.56 2697.89 420.52 2277.37 2417,22 9.64 OSF7.50 Pass 16350.00 352741 8140.41 -11147.40 15469,21 345562 5967.70 -12711.65 203.58 268632 421.35 226496 2405.08 9.58 OSF1.50 Pass 16400.OD 3526.61 8159.32 -1119368 16523.67 3455.09 5989.48 -1275588 203.5E 2674.66 422.17 2252.50 239289 9.52 OSF1.50 Pass 16450.00 3525.81 8178.23 -1123996 15578.35 3454.19 6021.50 -12800.20 203.59 2652.90 422.98 2239,92 236058 9.46 OSF1.50 Pass 1:500.00 3525.01 8197.16 -17286,23 1562047 3453.35 6050.89 -12840.77 203.75 265107 42384 2227.23 2368.18 9.40 OSF1.50 Pass 16550,00 3523.95 :216,67 -11332.25 15678.25 3452.73 6080.12 -12881.07 2D4.82 263984 42469 2215.15 2356.39 9.34 OSF7.50 Pass 16600.00 3522.49 8237.11 -11377,86 15726.08 3451:90 6708.19 -12919,77 205.91 2629.60 42557 2204.03 2345:56 9.29 OSF7.50 Pass I6650.00 3520.63 8258.46 -11423.03 15773.68 345083 6136.13 -1295831 207.02 2620,36 426.46 2193.90 2335.72 9.23 OSF1.50 Pass 16700.00 3518.37 8280,73 -11467.74 15819.60 344863 6163.04 -1299547 208.16 2612.17 427.38 2184.79 2326.92 9.19 OSF7.50 Pass 16750.00 3515.67 8303.87 -1151198 15M 27 3445.50 6191.50 -13034.82 209,29 2605.01 428.27 2176,75 2319.17 9.14 OSF1,50 Pass 168W 00 3512.53 8327.87 -11555.73 15943.58 344079 623586 -13095.50 210.44 2598.57 428.27 216949 MUM 9.11 OSF1,50 Pess 16850.00 3508.93 835273 -11598.96 15989.88 343864 6263.34 -13132.70 211.57 259284 428984 216300 2305.96 9.07 OSF1.50 Pass 18900.00 3504.90 8378.36 -11641.70 16029,62 3437.58 6286.80 -13164.75 212.57 258821 43D.89 2157.32 2300.62 9.03 OSF1.50 Pass 1695000 3501,01 $40394 -11684,49 16076.24 3437.13 6314.20 .13202.46 21128 258367 43790 2151.77 2295.41 8.99 OSF7.50 Pass 170DO 00 3497.81 842882 -11727,74 1613287 3436.38 6347.55 -13248.22 21042 257824 432.60 2145.44 2289.36 8.95 OSF1.50 Pass 17050.00 3495,30 8453.00 -11771.43 762TT76 3433.92 :435,10 -13363.64 209.43 257"5 432.50 2136.65 2282:49 8.93 OSF1.50 Pass 17100.00 3493,49 847645 -11815.55 16381,35 3433.30 6500.21 -13444.20 208.53 2561.57 432.49 2129.09 2272.92 8.90 OSF1.50 Pass 17150.00 3492.38 8499.17 -11860.08 16464,50 3433.68 8553.51 -1350601 207,69 2650.44 432.74 2117.69 2261.61 8.86 OSF1.50 Pass 17200,OD 3491.96 6521.14 -119D4.99 165M 83 3434.83 6601,87 -13564,46 206.91 2537.86 433.13 2104:73 2248.78 8.81 OSF1.60 Pass 17250.00 3491.97 8642.28 -77950.30 16575.74 343587 8825.92 -13592.d3 205.70 2524.31 434.35 2089.96 2234.41 8.73 OSF1.50 Pess 17300.DD 3492.01 8562.40 -71996.07 1661249 3437314 6649.72 -13620.39 204.44 2509.93 43556 2074.36 2219.22 8,66 OSF1.50 Pass 17350.00 3492.07 8581.52 -12D4227 16658.87 3439.67 6679.63 -1365576 203.17 2494.66 436.58 2058.08 2203.28 8.59 0SF7.50 Pass 17400.00 3492.16 8599.79 -12088.81 1671193 344243 6713,91 -13696.17 202.55 247643 43745 204098 2186.47 8.51 OSF1.50 Pass 17450.00 3492.25 8617.96 -12135.39 16761.40 3445.10 :745.94 -13733,78 202.50 2462.02 438.42 2023.59 2169.40 8,44 OSF1.50 Pass 17500.00 3492.34 am 12 -1218198 16809.85 3447.92 8777.31 -13770.59 202.44 2445.57 439.42 2008.15 2752.30 8.36 0SFt_50 Pass 17550.00 3492.43 8654.29 -12228.56 16846.76 3449.92 6801.19 -1379&67 202.40 2429,20 44066 1968.52 2135.09 8.28 OSF1.50 Pass 17600.00 3492.52 8872.45 -12271 ;611.42 345104 6823.50 -13825.17 202.38 241308 441.98 1971.10 2118.10 820 OSF1.50 Pass 17850.OD 3492.61 S690.62 -12321.73 16919.17 3451.40 6847.66 -13854.17 202-38 239720 443.20 1954:00 2101.40 8,13 OSF1.50 Pass 17700.00 3492.70 8708.78 -1236831 17OD4.15 3448.28 6902.50 -1391699 202-47 2387.01 44330 193711 2085.15 8.07 OSF7.50 Pass 17750.00 3492.79 872694 -1241489 17063.44 3443AS 6941AS -1396163 202.62 2364.31 44395 1920.37 2088.02 8.00 OSF7.50 Pass 17800,00 3492,58 874511 -12461.48 17140,51 343436 6991.75 -14021.12 202.86 2347.38 444.06 1903-32 2D51.01 7.94 OSF1.50 Pass 17850.00 3492.97 8763.27 -12508,06 17257.09 3423.51 7070.44 -14106.42 203.19 2329.22 442.S0 1886.42 2033.69 7.90 OSF7.50 Pass 179DO 00 3493.06 8781.44 -12564,65 17322.11 3421.03 7115.39 -14153.33 203.28 2310.13 443.13 1867.00 2014.36 7.83 OSF1.50 Pass 1700.00 3493.15 8799.60 - '2601.23 17363,71 3420.08 71" 17 -1418334 203.32 2291.04 444.30 1846.74 1994,51 7.75 OSF1.50 Pass 18000.00 3493.24 881777 -12647.81 1740226 3419" 7170.79 -14211.23 203.35 227206 44558 1826.47 1974,67 7.66 OSF1.50 Pass 1:050.OD 3493.33 8835.93 -12fi9440 17433.67 3419.12 7192.34 -1423407 203.38 2253.33 447.13 1806.20 1954.91 7.57 OSF1.50 Pass 1100.00 3493.42 8654.10 -1274098 17465.24 341698 7213.86 -14257,18 203.39 2234.90 44866 1786.24 1935.47 7.49 OSF1.50 Pass 418150.D0 3493.51 887226 -12787,56 17501.11 3419.04 7238A1 -14283.80 203.41 2216.78 45006 1766.72 1916.41 7.40 OSF7.50 Pass 21D000 3493.60 8890.42 -12834.15 17548.87 341958 727042 -74318.90 203.41 1 7 451.07 1747. �7.37.3 OSF1.50 Pass 18212,62 3493.62 B895.01 -12845.91 17561.05 341981 7278,58 -14327.81 203.41 41 4513 _174283 _ 189295_�.it OSF1.50 Pass 6M of msufts Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 18 of 39 Field: Nikaschuq Wall: OPIB-08 Structure: OliMok Point Borehole: OP18-08 Slot OPiB TraJeetory. OP18-08 Cllent: ENI Type: Def Survey C oordlnak System: NAD27Aaske State Plane, Zone 04, US Feet North Reference: True Grid Convergence Angle: 012820300' Grid Scale Factor. 0999900314 Magnetic Declination: 20.962' Magnetic Declination Date: August 20. Ml l Magnetic Model: BGGM 2011 Reference Point Northing Eastlna Elevation Structure Unc. Slot um: 6036505.630(f1US) 516619.200(ftU5) 53740(ft)M5L 0000(k)(1 Ngma) O OOO(it)(l sigma) Tralectory Error Model: ISCWSA0 3-0 95.000% Conlldence 2.7966 sigma Survevino Proo: As Drilled Description MD From (tq MD To (fy EOU Fraq Survey Tool Type Hok Stu (in) Casing Diameter On) Borehole / Survey 0.0DD 41540 1/98.425 SLB_NSG+MSHOT-Dpth Only -NO Global 16.000 13.375 OP18-08PBI/OP18-0BPB1 41,540 41.540 AdStns SLB_NSG+MSHOT-Depth Only -No Global 16000 13.375 OP18-06PBI 10P18-WPB1 11.540 917.000 Act -Sins SLB_NSG+MSHOT-No Global 160D0 13.375 OP18-08PBI 10P18-08PB1 917.000 2SW 990 AdStna SLB_MWD+GMAG-NO Global 16.000 13,375 OPIBOBPB2/OP1B-0BPB2 2685,W990 13005.730 ActStres SLB_MW9+GMAG-No Global 12250 9,625 ON 608PB2 I OP18-08PB2 130.730 15974.620 ActStils SLB_MWO+GMAG-NO Global 8750 6750 OP18-08PB2/0P1848P82 15974.620 18858 ODD ActStns SLB_MK9+GMAGNO Global 8.750 5.500 ON 6.001 OP18-08 Rate,. -MD (k) Refererce TVD lrt) Referenoe NB (kl 111.161a;oaa ) Offset MD () DIFse1 TVD (ft) Offset NS (it) OkeetEW (it) TrawYnp Cylinder North Aeim (') Ct-Ct Disgnm (it) M'mimum Albvnbi- Separation (rtl Allowabb Deviation from Reference (ftI EOU{pU Cie..- (ftl OSF Co RmA.'p ula Sktus Al 1-1 ninima SWinted. Results fiibred: Depth 8174.73 it r- MD - 18212 62 itResuts fik4red: Ct-Ct eeparabon r- 15D0.00 fl Results highlighted: Ct-Ct separation <- 1320 00 it 8174.73 3540 37 251440 -5421 43 74" 94 28N 94 2712 88 -5440 46 325 60 75715 94.58 662.56 693 7 12.1 OSFI 50 Pass 35421N 2532.60 -543887 746750 2818282 2]2151 -546110 32517 75367 9318 660.49 69122 12.25 OSF150 Pass :200.00 825 W 354416 256938 -W268 751178 281845 273861 -550155 32520 74574 9016 655.59 68531 1253 OSF; 50 Pass 8300.00 3545 60 2607 10 -5505 46 7559.25 282459 275726 -5544 77 325 20 73] 53 8699 650 54 679 21 12 85 OS Ft 50 Pass S3 w 3546.50 2645.89 -5536.99 760656 283099 277628 -556762 32510 72906 8392 64514 67279 1317 OSF150 Pass 840000 3546.86 268572 -5567 21 764931 2836.88 279372 5626.20 32507 7205 8091 639 66 66630 13 50 OSFt 50 Pass 8450.00 354668 272653 -559610 769092 264255 2810.76 -566373 32498 71236 7820 63d 16 659% 1382 OSFI 50 Pass 85W 00 35d5 95 2768.27 -5623,62 772812 2847 52 282607 -5697 27 32500 704 67 75 99 628 69 653.69 140 OSF1 50 Pass 855000 354468 2810.88 -564973 7762.54 285181 2840.31 -5728. 31 32509 69793 7474 62319 64778 1417 OSF150 Pass 86D0.00 3542 92 2854 27 -5674 51 779636 28557 2854 37 5758 82 324 23 692.36 74 74 617 62 642 21 14.06 OSF 1 50 Pass 8650.00 3541 62 289731 -5699.92 7841 86 21M 83 287348 -57W 79 320.39 688.49 76 42 612 07 637 21 13.67 OSFl 50 Pass 8700 00 3541 13 2939 56 -5726 66 7891 41 286687 2894.68 -5844 17 31645 685 89 7943 W6 d6 632 61 13 10 OSF1 50 Pass 8750.W 354109 298133 -575414 793386 2872.28 291307 588205 31447 68434 8313 60121 62859 1248 OSF150 Pass 8800 00 3541 OS 3023 10 -5781 62 7975 15 2877 45 2931 03 -5918 87 312 67 3 8 87 69 5% 18 625 D9 11 81 05F1 50 Pass 685000 354102 306467 580939 W1678 288257 294915 -595599 30969 68439 9299 5914D 62207 1114 OSF 50 Pass 89W 00 3540 99 310543 -5838.35 8058.94 2887 74 2967 W -5993 70 306 16 685 53 9868 586 85 61941 1051 OSFI50 Pass 8950.00 3540 97 3145.29 -5868 54 8102 W 2893 10 298585 6032 % 302 62 68] 14 10463 582.51 617 06 99 OSF1 50 Pass 900000 354095 3184.21 -SB9993 8149.64 2899.01 30D569 607509 299.05 68894 11075 57818 61477 940 OSFI 50 Pass 9050.00 3540.94 322214 5932.49 81%01 290505 302514 611675 29559 69074 11681 573.93 61254 893 OSF1 50 Pass 9100 W 3540.94 3259.07 -5966.20 823923 2910 7d 3042 97 6155 70 29232 602 65 122 61 570 04 61058 853 OSF 50 Pass I150.00 354104 3294.96 6001 Ot 828263 291646 306050 All%00 28935 69477 12830 56647 608.91 817 OSFi 50 Pass 920 w 3541 23 3330 46 6036.22 8325 51 2922 W 30776 6233.91 28800 6974 13397 56349 W7 82 786 OSF 50 Pass 9250.W 354142 336595 607144 836844 292732 309479 627290 2W 67 70087 13967 56120 60743 757 OSF150 Pass 9300.00 3541 61 3401 44 -6106.66 M19 61 2933.65 3115 29 -6 1935 285 10 704 79 145 63 558 % 60724 7 29 OSFI 50 Pass 935000 3541W 343693 -614188 647286 294072 31W76 636757 2Kt8 70875 15217 55658 606.98 702 OSF150 Pass 9400.00 3542W 347242 617710 852771 2948.65 3158.94 66 1711 28182 71269 15862 55407 60662 677 OSF150 Pass '450.00 3542 19 3507 91 6212 32 8580 31 2956.94 3180 18 6464. 50 280 29 716 59 1 6506 551 54 606.23 654 OSFt 50 Pass 95DOW 354236 3543.98 -624694 8626.80 296449 31%98 -6 36 28071 72130 17133 54996 60675 6.34 OSF150 Pass 9550.00 3542.51 358109 528044 867137 297174 321701 654646 28116 72739 177 75r 549. 60856 61fi OSF150 Pass 960000 354262 361921 -631280 8709.62 297773 323247 6580.93 28183 73523 1m00 55123 61223 6.02 OSF 150 Pass 9650.00 3542 69 365830 6343.97 874733 2983.27 3247 68 6614 99 282 53 ]44.98 190.32 554.W 617 77 5.89 OSF1 50 Pass 9700 00 3542 69 3698 23 637106 8785 W 298863 326315 6649 87 282 31 756 54 19673 559.81 625 O6 579 OSFI 50 Pass 9]50 D0 3542 69 3738.31 140395 W24 87 299396 3278 64 6685.27 280 93 76912 203 06 566.06 633 42 570 OSFI 50 Pass 9800 00 3542.69 3778 39 643384 8865 80 29994 329470 6722 52 279 50 782 55 20931 573.25 642 69 5 63 OSFl 50 Pass 9850 w 3542 68 3818 47 6463 74 8915 47 30063 331423 6767 66 277 82 796 41 215 90 580.51 652 15 5 55 OSF1 SO Pass 9900 00 3542 68 385855 6493 63 8961 70 3013 12 3332 56 180956 276 29 810 50 222 09 588 42 66212 549 OSFI 50 Pass 9950 00 3542 68 389863 6523 52 899800 301 a 38 3346 83 6842.52 27512 825 31 227 49 597 81 673 32 5 46 OSF1 50 Pass 10000.00 3542.67 3938 71 6553 42 9034 0i 302345 3360 W 6875 38 27399 840 98 23265 608.32 68555 544 OSFI 50 Pass 10050 w 354267 39]8 79 -6583 31 907642 W29 20 337709 5914 O6 272.55 857 38 23802 619 35 698.37 5.42 OSFI 50 Pass 10100 W 3543 02 401839 E613 83 9122 65 3035 W 339514 6956 18 269 13 87374 23263 641 11 71832 5.65 OSF `A Pass 10150 00 354397 4057 11 6645 d5 9170 63 3041 49 3414 18 6999 78 26586 889 60 23667 65293 731 49 566 OSFt 50 Pass 10200 00 3545 48 4094 91 6678 1 d 9219 99 3048 01 3433 92 -7044 54 262 72 904 78 240 42 664 w 744 17 5 66 OSFI 50 Pass 10250.00 3547 55 4131 76 -6 11 87 9267 88 3054 53 3453 17 -]087.91 260 12 919 22 243 80 675 42 756 35 5 67 OSF 50 Pass 103(%).00 3549 W 4168 28 6745 94 9314 43 3061 OS 3471 79 -7130.06 259 23 93354 24700 636 54 76854 5 69 OSF1 50 Pass 035000 3552 O6 420480 -6780 02 935937 3067 47 3489 76 -7170 76 258 40 948.05 250 05 6%00 ]81 02 570 OSF1 50 Pass 10400 00 355432 4241 32 6814 10 940.3 47 307299 3507 74 -7210 64 257 66 962.84 252 Bfi 70998 793 94 573 OSF1 50 Pass 10450 00 3556.57 4277 84 684818 N53 06 3078 35 3528 43 -7255 39 25690 97753 25571 722 12 W 03 575 OSF1 50 Pass 10500 00 355882 4314 37 6882 25 9510 89 3085 24 3552 74 JW7 41 25618 992 53 25886 733 6] 819 63 577 OSF1 50 Pass 10550.00 356053 435119 691602 955746 3091 47 357231 -734921 256.Sd 100713 26166 74547 832.37 579 OSF SO Pass 1 D600 w 3561 37 438849 -6949 31 9599.08 3097 40 3589 47 -7386 66 256 95 1022 24 264 39 757 85 84565 5 82 0SF1 SO Pass 10650.00 3561 35 4426 22 6962 11 9660 70 3103 59 3606 33 -7424 20 257 28 1 D37 88 267 23 T/0 65 859 40 5 84 OSF1 50 Pass 10700 W 3560 41 4464 3d -7014 46 9682 85 31 M 72 3623 37 7462 26 257 55 1053.98 270 13 783 85 873 5] 5 87 OS 50 Pass 1075000 0 W 3558 55 4502 82 70d6 34 9725 75 3115 75 3640 73 -7501 03 257 81 I070 52 273 W 797 44 W8 14 590 OSFI SO Pass 10800 00 3555 81 4541 62 70777 9773 91 312246 3660 33 -7544 50 257 % I OB7 34 27625 811 09 90284 5 92 OSF1 5C Pass 10850.00 3552 81 4580 51 -7109.03 9822 59 312929 3680 33 -7588.W 25666 1104 29 279 37 824 92 917 71 5 94 OSF i 50 Pass 10900 w 354982 461940 -7140 31 9873 88 31W 45 3701 70 -7634 43 255 % 1121 25 282 46 8367 932.61 5 97 OSF1 50 Pass 10950.00 354683 465829 -7171 59 9923 17 3143 22 3722 59 -7678 56 25473 1138 18 285 W 852.82 94761 600 OSF 1 50 Pass 11 ODD 00 354383 469718 -720288 996761 3149W 3741.63 -7718 all 25393 115526 28796 86730 962.% 603 OSFi 50 Pass 1105000 354084 47M 07 -723416 1001218 315440 3760.89 -775813 25317 1172.55 29046 88208 97858 607 OSF1 50 Pass 11100 w 353788 4774 94 726547 1005579 315997 3779 61 -7797 11 25207 11 9002 29267 897 15 994 44 11 61 1 OSF1 50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7.40 AM Page 19 of 39 Trajectory'. OP17MLI (P2) Vs. OPi&OB Re(®rence MD (ft) Reference TVD (R) Reference NS (k) Reference E IRI Offset MD (ft) O0.1 TVD (ft) Offsst NS (R) Ofset EW Ifl) Travalirg C7lirger N li Azim () Ct•Ct D'nfaras (k) Minimum Allovnde SeParaaon (ft) de aviation Deviationfrom Reference Ift) EOU-EOU Clearance (k) OSF CorNolling Rule 6latus 11150 00 3535 30 4813 52 -7297 1 ,(n9 20 3166 14 379800 -7635 95 250.28 120744 295 16 91227 1010.33 615 OS F1.50 Pass 11200 00 353333 4851 86 732921 1013969 3171.86 3815.07 -7072 22 24943 1224 92 297.27 927 66 102642 6.20 OSF1 50 Pass 11250.01 113121 489019 -736125 101.47 31113.90 3.237 -7.79 248.85 124271 299.31 94340 1042.84 6.24 OSF1.50 Pass 1130D.00 352926 4928.52 -7.3.29 1021976 318146 3 1904 '9440' 248.32 126079 301.21 959.58 105965 629 OSF150 Pass 11350.01 352723 4966.65 -742533 1025784 318593 386499 -7978.17 24781 127923 30304 97619 107687 6.35 0SF150 Pass 1140D 00 3525.19 5005 18 7457 38 102W 95 319070 3881 11 8013 68 24728 129fl 03 304.68 99315 1094 45 640 OSF 150 Pass ;145000 352316 504350 -748942 1034519 3196.62 390099 805724 20165 131696 30704 100993 111194 645 OS FI 50 Pass 11500,00 3521 AS 506185 -7521.45 10392.61 3202.35 392068 8100.OD 246.17 1335.92 309.10 1026.82 1129.53 6.50 OSF1.50 Pa sa 11550.OD 3519.64 5120.46 -7553.157 10434.68 320745 393E 14 8137.93 246.07 1355.47 31079 7044.68 1147.95 6.56 OSF7.50 Pass 11600.00 3518.81 5159.44 -7584.48 10476.49 3212.60 3955.40 817567 245.97 1375.86 31242 1063.44 116725 6.62 03F1.50 Pass 11650.00 3518.65 5198.76 -7615.36 10522.36 3218.27 3974.31 -8 17.07 245.85 1396.98 314,16 1052.83 1187,22 6.69 0$F1.50 Pass 11700.00 3519.05 5238,37 -764587 10568.75 3223.93 3993.52 8258.91 245.55 1418.65 37589 1102.75 1207.72 6.75 OSF1.50 Pass 11750.00 3519.49 5778.01 -7676.34 10619.37 3230.08 401464 8304.50 245.07 1440.30 31784 1122:46 1228.08 6.81 OSF1.50 Pass 11800.00 3519.94 531766 -7706.81 10871.08 3236.43 4036.43 8350,96 244,80 1461.79 319.79 114200 1248,27 187 06F1.50 Pass 11850.00 3520.39 5357.30 -7737.27 1072D.54 3242.60 4057.47 8395.30 244.16 1483.15 321.64 1161.51 1268.40 893 OSF7.50 Peas 11900.00 352).84 539694 -T767.74 10770.28 3248.91 4078.75 443961 243.72 1504.41 323.47 1160.94 12B8.43 6.99 OSF7.50 Peas 11950.00 3521.29 5438.58 -7798.21 10826.69 3255-56 4103.30 849D.16 243.27 1525.Q 32550 1199.97 1308.14 7.05 OSF1.50 Pass 12000,00 3521.74 5476.23 -7828.68 10878.06 3280.67 4126.19 -8 86 242.91 1548.24 327.29 121895 1327.72 7.10 OSF1.50 Pass 12050.00 3522.19 5515.87 -7859.15 1091635 3264,78 41" 1 8571.71 242.63 156708 328.74 1238.34 1347.58 7.17 OSF1.50 Pass 12100.00 3522.63 SSSS.51 -788961 10958.40 3289,21 4161.74 .8 7,39 242.35 158809 330.17 1257.92 1341564 7.23 OSF1.50 Pass 12160.00 3523.15 5594.93 -7920.37 11005.25 327468 4182.28 -8 9,15 240.98 16D8.86 331.78 1277.08 1387.35 7.29 OSF1.50 Pass 12200.00 3523.83 5633,88 -7951.71 11052:97 3280.38 4203.24 8691.64 240.06 1628,95 333.39 1295.56 1408.36 7.35 OSF1.50 Pass 12250.00 352454 5672.75 -7983.15 1109613 328566 422219 8730.05 239.78 1648,96 334.90 1314,05 1425.36 7.40 OSF7.50 Pass 1230000 3525.24 5711.63 8014.59 11138.77 329101 4240.83 8768.03 239.50 1669.07 336.39 1332.68 1444.48 7.46 OSF7.50 Pass 12350:00 3525.95 5750.50 8046.03 11178.51 3296.11 4258.10 8803.45 239.24 1689.31 337.79 1351.52 1463,79 7.52 OSF7.50 Pass 12400,00 3528.66 5789.37 8077.46 11216.89 3301,12 427464 8837.73 23699 1709.76 339.13 137063 1483,34 7.58 OSF1.50 Pass 124WOO 3527.37 5828.25 8108.90 11254,93 33D6.16 4290.89 8871.75 238.74 173042 340.45 1389.95 1503.12 7.64 OSF1.50 Pass 12500.00 3528.08 5867.12 8140.34 11292.02 3311.22 4306,56 -8 99 238,50 175120 341.74 1409.57 1523.15 7.70 OSF1.50 Pass 12550.00 3528.79 5905.99 -6171.78 11328.89 331843 4321.96 8938.07 238.26 177242 34300 1429.41 1543.42 7.77 OSF1.50 Pass 12600.OD 3529.75 5944:91 -M3.16 11367.07 3321.99 4337.74 8972.40 237.87 179385 34426 1449.59 1564.02 7.83 OSF1.50 Pass 12850.00 3531.54 5983.94 -8234.35 11406,23 3327.70 4353.80 800765 237.45 181574 34543 1470.31 1585.12 7.90 OSF1.50 Pass 12700:00 3534.08 6023,09 8265.35 11446.22 3333.54 4370.11 8043.69 237.15 t838.04 34664 1491.40 180882 7.97 OSF7.50 Paas 12760.00 3536.75 6062.26 829831 17491.94 3340,31 4388.71 8084.91 238.92 1860.44 348.16 1512,25 162799 8.03 OSFI,SD Paas 128M 00 3639,43 6101.43 43327,28 11537.53 3347.24 4407.27 4125.96 236.69 188282 349.72 1533.11 1UiX 8.09 OSF1.50 Pass 12850.00 3542.10 6140.60 8358.24 11579.57 3353.55 4424.38 -9163,84 236.49 1905.24 351.11 1554.12 1670,84 8.16 OSF1.50 Pass 12900.00 3544.77 6179.76 8389.20 1162163 335961 4441.50 8201.78 23630 192773 352.50 1575.22 1692.40 8,22 OSF1.50 Pass 12950.00 3547.44 621823 8420.16 11680.17 MTN 444150 -9254,56 236.06 195015 354.53 1595.62 1713.47 8.27 OSF1.50 Pass 1300D.00 3550.11 6258.10 -6451.13 11738.29 337543 446550 -9306.77 235.84 1972.16 356.51 161566 173d.16 8.32 OSF1.50 Pass 13050.OD 3552.78 8297.27 -8182.09 71778.67 3380.86 4507.23 8313.82 235.66 1984.13 357.88 1638.Z6 1755.22 8.38 OSF7.50 Peea 13100.00 3555.34 6336.40 8513.11 11821,00 3386.25 4524.56 4381.06 235.51 2016.11 359.22 1656.90 1776.31 8.44 OSF1.50 Pass 13150.00 3557,20 6375.33 454443 11667.06 3392:27 4543.84 842245 235.28 203777 360.74 1677.03 1796.95 6.49 OSF7.50 Pass 13200.00 3558.28 6414,02 8576.08 11913.44 3398.39 4563.28 -9464.11 235.02 2058.90 362.29 1696 1817:13 8,54 OSF1.50 Pass 13260.00 3558.69 6452.49 -8608.01 11962,24 3404.64 4583.81 -9507.93 234,76 207980 363.93 1715:70 1836.85 8.59 OSF1.50 Pass 13300.00 3559.00 6490.94 8.98 639 12111.61 3410.38 4604.75 .9 52.20 23454 2100.49 365.59 1734,87 1856.43 864 OSF1.50 Pass 13350,00 355931 652938 8671.98 12045.81 3414.11 4619.25 -9 03 234.41 2121.26 386,72 1754.54 1$76.4' 8.70 OSF1.50 Pass 13400.00 355961 6567.82 8703.93 1217901 3417.68 4633,15 -9612.97 234.28 214230 367.79 1774.50 1896.77 8.76 OSF1.50 Pass 13450.00 3559,92 6606.26 873590 12113,80 342139 4647.55 -9644.41 234.14 216359 35892 1794.67 1917.372 8.82 OSF1.50 Pass 13500.00 3560.23 6644.70 8767.87 12169.07 342730 4670.44 1694.37 233.93 2184.89 370.80 181409 1937.36 8.86 OSF1.50 Pass 13550.00 3560.54 6SB3.14 8799.86 12218.06 3432:63 4690.92 -9738.56 233.75 2216.01 372.45 1833-55 1957.38 8.90 OSF7.50 Pass 136DO 00 3560.85 6721.58 8831.82 1225421 3436.54 4705.97 -9771.19 233.62 2227.23 37363 185360 1977.82 8.96 OSF1.50 Pass 13650.00 3561,05 6759,79 886406 12290.34 3440.39 4721.88 880387 232.61 2248.32 374.77 1873.55 1998.15 9.02 OSF1.50 Pass 13700.00 3560.86 6797.36 -8897.05 1232363 344388 4734.50 581406 231.69 2268.72 375.79 189193 2017.86 9.08 OSF1,50 Pace 1375000 3660,04 SS34:34 4W0.69 1235564 3447.15 4747.43 8863.15 230.82 2288.54 37677 1911.78 2037.04 9.13 OSF1.50 Pass 13WO 00 3558.56 6870.71 8964.8: 12407.84 3452.22 4768.43 -9910.67 229.85 2307.64 378.53 1929.11 2054.96 1 6 OS 50 Pass 13850.00 3556.48 6906.44 4M9.88 12458.66 3456,74 4789.05 -9956,90 228.85 232576 38026 1945.50 2171.93 9.19 OSF7.50 Pass 139DO 00 3553.75 694153 -9035.39 12529.80 3462.57 481827 -1002150 227.73 2342.86 382.73 196D 13 2087.38 OSF1.50 Pass 13950.OD 3550,37 697596 -9071.49 1260489 346867 4850.10 -10089.23 226.55 2358.34 365,30 1973:03 2101.1 9 OSF7.50 Pass 14000.00 3546,43 7009:78 -9108.11 12652,03 3472.52 4870.27 -10131.97 225.85 2372.90 36688 86 19.02 2114,65 9.22 OSF1.50 Pass 14050.00 3542.44 7043.48 -914465 12894,66 3476.02 4888.50 -1017004 225.19 238732 398.29 1989.03 2128.13 9.24 OSF1.50 Pass 14100.00 3539.01 7076.67 -9182.06 12730.13 3478.95 4903.53 -102D2.04 223,78 240136 389.42 201194 214142 9,27 OSF1.50 Pass 14150.00 3536.31 7109.30 -921985 12765.75 3481,89 4916.46 -10234.24 222.42 241489 39048 2024.41 2154.25 9,30 0SF1,50 Pass 142%1.00 3534,36 7141.36 .9258.17 12B04.91 3485.13 4934.72 -10269.72 221,23 242794 39166 2036.29 2166.51 9.32 OSF1.50 Pass 14250.00 3533.32 7172.97 4296.89 12845.96 3488,53 4951.65 -10306.96 221.15 2440.60 39289 2047.70 2178.34 9.34 OSF1.50 Pass 1430000 3533.13 7204.17 -9335.17 12884.01 3491.64 4967.24 -1034152 219,48 245290 394.02 2058.88 2189.B9 9.36 0SF7.50 Pass 14350.00 3633.12 7235.28 -9375.11 12915.07 3493.63 4979.62 -10369.66 219,42 2465.39 39494 2070.45 2201.77 9.38 OSF7.50 Pass 14 OD 3533.11 7266 -9414,26 12946.11 3494.90 4992.22 -10398.28 219.39 2478.23 395.84 MUM 2214.01 9.41 OSF1.50 Pess 14450.00 3533.11 7297:49 -9453.40 8039 129.39 349551 5005.71 -10429,79 219.37 2491.39 39685 2094.54 2226.49 944 OSF1.50 Pass 14 OD 3533.10 732860 -MZ55 13020.57 3495.88 5021.41 -10466.77 2%36 504 273 398,08 2106.65 2239.01 9.46 OSF1.50 Pass 14550.00 3533.09 7359.67 -953172 13D56.94 3495.77 503548 -10500.32 21897 2510.22 399,14 211908 2251.8D 9.48 OSF1.50 Pass 14600.00 3533.11 739D 00 -9571.41 1309339 3495.90 5049.42 -10533.99 217.70 2531.14 400.17 2130.97 2264.03 9.51 OSF1.50 Pass 14650.00 3533.16 7419.63 -961774 13165,63 3496,38 5076.95 -10600.78 216.43 2543.16 402,67 2140.49 227438 4 OSF1.50 Pass 14673,77 3533.20 7433,36 8631.15 13228,58 3497,54 5101.95 -10658,54 215.60 254800 404.98 2143002 2277.E 94 0SF7.50 Pass 14700,00 3533.29 7" 29 -9652.71 13250.15 349802 5110.62 -10678.29 215.13 258299 405.63 2147.36 2262.24 9.46 OSF1.50 Pass I475000 3533.74 7476.09 -9694.26 13291,38 349891 5127.11 -10716.06 21387 256184 40686 2154.97 2290.27 9.46 OSF1.50 Pass 1480D.00 3534.55 7503.03 -9736.38 13334.88 3499.79 5144,39 -10755.97 212.63 256982 408-18 2161,64 2297.37 9.46 OSF7.50 Pass 14850.O0 3535.71 7529.09 -9779.03 13383.28 3500.76 5163.57 -1080D.40 21141 257624 409.71 167.14 9.45 OSF1.50 Pass 14900.00 3537.22 7564.26 -9822.21 13617.21 3496.19 5283.79 -1101t57 210.49 2581,19 41741 9.29 OSF1.50 Pass 14950.00 3539.08 757853 -986568 1363768 3495.75 5273.13 -11029.79 209.47 256292 418./0 2164.81 2303.85 9.28 OSF1.50 Pass I SODD 00 3540.98 7602,30 -990943 13WS 17 3495.44 5282.26 -11048.12 208.87 2584.64 418.77 2i65.87 2305.13 9.28 OSF1.50 Pass 1:050.00 3542.44 7625,46 -9954.12 13678.66 3495,25 5291.18 -11066.57 208./9 2586.24 419.40 2166.84 2306.3t 9.27 OSF1.50 Pass 15100.00 3543.43 7647.97 -9998.75 13699.17 3495.19 5299.90 -11085.13 207.39 2587.66 41997 2167.69 230835 9.26 0SF7.50 Pass 15150.00 3543,95 7669.83 ION 72 13719.23 3495.25 5308.22 -11103.38 206.57 2588.91 421.49 216842 2308.26 925 OSF1.50 Pass 15200.00 3544.00 7691:02 -10089.00 13738.55 3495.32 5316,02 -11121.05 205.72 2590DO 420.93 216907 2309.05 9.25 OSF1.50 Pass 15250.OD 3543,65 7711:51 -1013461 13757.86 3495,40 5323.61 -11138.81 204.82 259091 421.32 2169,59 2309.70 9.24 OSF1.50 Pass 153 OD 3542.96 7731.34 -10180.50 13777.17 349547 5330.99 -11156.6E 2D4.29 2591.68 421.66 2170.02 2310.25 9.24 OSF1.50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 20 of 39 Tmj,M,y OP17-02L1 (P2) Vs OP16-06 Reference MD (tt) Re(ere(mTVD Rotor-NS JReferenmE Onset MD ( Onset- -1 NS ORmtEW Tnvebg Cyfintler North Azim Ct-Ct Drshnm Mbenum AlbvnWe Separation Albxabb Deviallon Rom Reference EOU-EOU Cbaranm OSF CoRLde p We Status 15350.00 3542.19 7751.05 -10226.45 13796,47 3495.55 5338,15 -11174.58 204.2E 2592.91 421.94 217097 231129 9,24 OSF7.50 Pass 1540D 00 3541.43 7T70.76 -10272.39 138M 13 3495.64 5347.39 -11196,52 204.77 2594.72 422.47 2172.25 2312.74 9,23 OSF1.50 Pass 15450.00 3540.67 7790.47 -1031834 13861.07 3495.59 5361,21 -1123492 204.25 2596.82 423.60 2173.22 2314.10 9.21 OSF150 Pass 15500'00 353991 7810.18 -10364.28 13900.00 3495.30 5374.88 -1727137 204.25 259914 42471 2174.42 2315.67 9.20 OSF1,50 Pa- 1 5550.00 3539.15 7829.89 -10410.23 13966.96 3194.16 539642 -11 SUDS 204.25 2601.45 427AS 2174,30 2316.35 9.15 OSF1.50 Pass 156DO 00 3538.39 7849.61 -10456.77 14070.17 3490.62 543596 -11430.12 204,29 2603.1E 431.16 2172,02 231541 9.07 OSF1.50 Pa- 1 5650,00 3537.63 7869,32 -10502.12 14117:So 34B8.34 5453.67 -11473.87 204,32 2604.D6 432. 171 1 OSF1.50 P.- 1 5700.00 3538.88 7888.97 -70548.09 14134.51 M8741 5460.12 -11489,66 204,04 2605.44 43280 2172.63 2316.57 9.05 OSF7.50 Pass 1575000 3536.17 7908.45 -10594.13 14151,50 34B641 5466,17 -11505.50 20405 2607.26 432.89 2174.37 2315.34 9.05 0SF1.50 Pass I5B00.00 3535.47 7927.93 -10540.17 14168,46 3485.36 5472.01 -11521.40 20408 26D9.71 432.91 2176.80 2320,78 9.06 OSF7.50 Pass 15850.OD 3534.76 794741 -10586,22 14185.40 3484.24 5477.64 -11537.33 204.10 261280 43286 2179.94 2323,90 907 0SF7.50 Pass 16900.00 3534.06 795668 -1073226 14202,30 3483.06 5483.05 -11553.30 2D4.72 251651 43274 2783.77 2327.69 809 OSF1.50 P.- 1 5950.00 3533,35 798636 -10778.31 14280.39 3477.02 5507,90 -11627.0E 204.22 2620.37 435,78��`�y9� 2329.52 804 OSF1.50 Pass 16000.00 3532.65 SODS .84 -10821.35 14400.79 3466.79 5518.44 -11739.9E 204.41 262327 140 2182.% 2329.091 8.94 OSF7.50 P.- 1 6050.00 353195 8D25.32 -10870.40 14430.40 3464.24 5558.70 -1176765 204.45 2825.62 441.40 2184.22 233103 894 OSF1.50 P.- 1 6700.00 3531.24 8D44.80 -10916.44 14459.99 3461.62 556873 -11795.36 204.50 2628.36 442.00 2186.37 233337 8.94 OSF1,50 Pass 16150.00 3530.54 8064.2E -10962.4E 14489.53 3458.93 5578.53 -11823.10 20/.55 263149 41257 2188.92 2336.12 8.94 OSF1.50 Pass 16200.00 3529,81 am 66 -110D8.57 15416.52 3425.13 6015.07 -12633.74 204.55 2632.72 464,41 2168.30 2322.78 8.52 OSF1.50 Pass 16250.00 3529.01 8102.59 -1105484 15440.39 3423.96 6029.75 -12652.53 204,36 2619,22 466,09 2153.13 23DB.16 a"o5F1.50 Pass 16"D0 3528.21 6121.5D -11101.12 15464.38 3422.72 6044.32 -12671.54 204.38 2606.15 467.74 2138.41 2294.00 8.37 OSF1.50 Pass 16350.00 3527.41 8140,41 -11147.40 1549247 3421,18 6061,18 -72693.96 204.42 2593.52 469.35 2124.17 2280.29 8.30 OSF1.50 Pass 16400.OD 3526,61 8159.32 -111936E 155M 69 3418.89 6085.77 -12726.96 20446 2581.12 47095 2710.17 2266.83 824 OSF7.50 Pass 16450.OD 3525,81 817823 -17239.96 15574.97 341661 6110.30 -12760.07 204.51 256886 472.54 2096.32 2253,50 8.17 0SF1.50 Pass 16500.OD 3525,01 -1728623 15607.10 341509 -12785.95 204S9 2556.81 474.14 2082.67 2240,39 8.10 OSF7.50 Pass 16550.00 3523,95 :197.16 8216.67 -11332,25 1563781 3474.39 :129.29 6147.25 -12810.85 205.77 2545.73 475.72 2070.01 2228.25 8.04 OSF7.50 Pass 16600.00 3572.49 8237.11 -11377.B6 1566873 3414.43 6765.14 -12836.07 206.85 253597 477.31 205866 2217.43 7.98 0SF7.50 Pass 16650.00 3520.63 8258.46 -1142303 15705,15 3415.30 6185.97 -12865.93 207.93 2527,51 478.93 2048.57 2207.89 7.93 OSF7.50 Pass 1:700.00 3518.37 8280.73 -1146774 15741.61 341677 6208.50 -12898.53 209.00 2520.24 480.59 2039.66 2199.52 7.88 OSF7.50 Pass 1750.00 3515,67 8303.87 -11511.98 15787.11 3416.89 6232.37 -12933.39 210.03 2514.14 482.28 2031.86 2192.29 7.83 OSF1.50 Pass 16800.00 3512.53 327 8.87 -11555.73 16014.4E 3429,00 6366.88 -13116.2E 210.63 2507,55 483,95 2023.60 2184.58 7.78 OSF7.50 Pass 16850.00 3508.93 835273 -11598.96 16M 46 3430.55 6382.77 -13135.89 211.69 2500.20 48583 2014.37 2175.98 7,73 OSF1.50 Pass 16900.00 3504.90 B37836 -1164170 16064.45 3432.40 6397.46 -13155.66 212,35 249425 487.69 2OD6.56 216B.SD 7.68 OSF1.50 Pass 16950.00 3501,01 8403.94 -11684.49 16096.55 343500 641671 -13181.20 21146 2488.89 489.53 1999,17 2162.01 7.64 OSF7.50 Pass 170DO 00 3497.81 8428.82 -1172774 16134,97 343745 6439.66 -1321192 210.42 248259 491.31 1991.27 2154,71 7,59 OSF1.50 Pass 17050.00 3495.30 845300 -1177143 16286.88 3439,85 6532.31 -13332.21 209.31 2475.51 49237 1983.15 2146,94 7,55 OSF1.50 Paas 17100.00 3493,49 847645 -11815.55 16340.73 3439.63 6566.31 -13373.97 208.44 246580 49394 1971.86 2136.18 7.50 OSF1.50 Pass 17150.00 3492.3E 8499.17 -11060.08 16396.73 3439.92 6601. T7 -/3417.32 207.61 2455.18 495.49 1959st) 2124,53 744 OSF7.50 Paas 17200.00 3491.96 8521.14 -1190499 16455.09 3440,14 6638.87 -13462.36 206.82 244357 496.96 1946.59 211122 7.39 OSF7.50 Pass 1725000 3491,97 854226 -11950.30 16544,90 3439.07 6696.67 -13531.09 205.68 2430.61 497.93 1932.68 2098.33 7.33 0SF7.50 Pass 17300.00 3492.01 8562.40 -11996.07 16591.97 343747 672738 -1356673 204.49 2416.04 499,51 1916.53 208270 7.27 OSF7.50 Pass 17360.00 3492.07 8581.52 -12D42.27 16625.13 343662 6748.87 -1359196 203.29 2400.68 50132 1899.36 2066.13 7.19 OSF7.50 Pass 17400.00 3492.16 6599,79 -12068,81 16658.24 34360E 6770.18 -13617.30 202.76 2364.72 5MA 1881.60 2048.9E 7.12 OSF1.50 Pass 1745000 3492.25 8617.96 -12135.39 16703,32 343522 6799.06 -13651.90 202.79 2368.85 504.75 1864AD 2032.02 7.05 OSF1.50 Pass 1750000 3492.34 8636.12 -12181.98 16750,78 3433,17 SIM 46 -13688.29 202.86 235297 50632 1846.65 2015.10 6.98 OSF1.50 Pass 17550.00 3492.43 8654.29 -1222856 16835.33 3427.38 6884.04 -73752.60 203.03 2336.82 507.16 1829,66 1998.39 6.92 OSF1.50 Pass 17600.00 3492.52 8672.45 -12275.14 16986,17 3414,56 6985.30 -13863.64 203,42 231859 505.91 1812.68 19W 99 6.88 OSF1.50 Pass 17650.OD 3492.61 8690.62 -1232173 17023,52 3411.90 7010.85 -13890.75 203,51 2299.99 50767 1792.32 1961.21 6.81 OSF7.50 Pass 1770DOD 3492.70 8708.78 -12368.31 17063.63 340966 703616 -13920.01 20359 2281.57 50936 1772.21 194167 6.73 OSF7.50 Pa- 1 7750.00 3492.79 872694 -12414.89 1712661 340706 70B7.24 -13965,89 203.69 2263.02 510,35 1752.66 1922.45 6.66 OSF7.50 Pass 17800.00 349288 8745.11 -124611E 17170.6E 3405.12 711154 -13997.87 2D3-74 22"24 511.96 1732.2E 1902.60 6.59 OSF7.50 Pass 178SO 00 3492.97 8763.27 -1250006 1719791 3405.4, 7130.12 -14017.78 203.76 2225.7E 514.11 1711.67 1882.71 6.50 OSF1.50 Pess 17900.00 3493.06 8781.44 -12554.65 17225.35 34D5.32 7148.66 -14D38.00 203.78 220771 51824 1891.47 1863.22 6.42 OSF7.50 Pass 17950.00 3493.15 879960 -12601.23 17252.9E 3405.53 7167.14 -14058.54 203.79 219005 518.35 167170 18M.16 6.35 OSF7.50 Pess 18000.00 3493.24 881777 -12647.81 1727362 3405,86 7180.79 -14074,02 203.79 217288 520.63 1652.25 1825.46 6.27 OSF1.50 Pass 18050.00 3.493,33 883593 -1269440 17294.10 340627 7194.13 -14089,55 2D3.79 2156.28 522.87 1633.41 1807.37 6.19 OSF7.50 Pass 18100.00 3493.42 8854.10 -12740.98 17314.75 3406,76 7207.39 -14105.36 203.7E 2140.27 525.05 1615,22 1789.91 6.12 OSF7.50 Pass 18150.00 3493.51 8872.26 -72787.56 17335.57 340735 7220.55 -14121.51 203.77 2124.85 527.17 1597.68 1773.07 605 OSF1.50 Pass 18MOM 3493.60 8890.42 -12834.15 17359,95 3408.14 7235.70 -14140.59 203.76_ 211002 529.19 1 OSF150 Pass 18212,62 3493.62 889501 -12845.91 17369.78 3408,49 7241.78 -14148.31 2037 106. 529. 15787 17 OSF1.50 Pass Er of r-Ita Drilling Office 2.8.572.0 Nikaitch uq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 21 of 39 Field: Nikedchuq Well: OPIS-08 Stru<ture: Ofildok Point Borehole: OP18-08PB2 Slot OP18 Tra(eetory. OP7e-08PB2 Olknt EN/ Type: Daf Survey Coordinate Sys": NAD27 Alaska State Plana, Zone 04. US Feet North Reference: T- Grid Convergence Angle: 012820300' Grid Seale Factor. 0.999900314 Magnetic D-lination: 21.001' Magnetic Decllnaeon Date: July 25, 2011 Magnetic Model: BGGM 2011 Reference Paint NoMlno Eastlna Ele-flon StrucNre Une. Slot Unc. 6D36505.630 (ttUS) 516619.20D (ftUS) 53.740 (ft) MSL 0,000 (ft) (1 sigma) 0.000 (ft) (1 sigma) Tralectory Error Model: ISCWSA034) 25.000% Confidence 2.795S sigma Surveying Proa: As Drilled Description MD From (tt) MD To (ft) EOU Freq Survey Tool Type Hole Sim (In) Casing Diameter Qn) Borehole / Survey 0.000 41.540 1/98.425 SLB NSG+MSHOT-Depth Only -No Global 16,000 13.375 OP18-0BP81 IOP1808PB1 41.540 41.540 AdSb. SLB_NSG+MSHOT-0epth Only -No Global 16000 13,375 OP1S-08PS1/OP18.08PB1 41.640 917.000 Ad -Sins SLBNSG+MSHOT-No Global 18000 13.375 OP18-08PS1/OP18-08PS1 917.000 2SS5.990 ActStrla SLB MVVD+GMAG-NO Global 16000 13,375 OP1808PB2/OPIS.WPB2 2685.990 13005.730 AotSels SLB MVVD+GMAG-No Global 12.250 9.625 OP18-08PB2/ OP1808P82 13005.730 17197000 ActSNs SLB MVVD+GMAG-No Global 8750 8,750 OP18-08PB2/OP18-08PB2 Refermlcs MD (h) Reference TVD (ft) Reference NS (lb 110-nosE (ft) Offset MD (ft) Offset TVD (ft) Offset NS (ft) Offset EW Trovelirg Cylinder NorNAzim Ct-Cl Distance Minimum AlbvaNe Separa n Albv44ble DeWaEon ham Referer¢e EOU{OU Cbaronce OSF Controlling Rule Status All local minima indicated. Resuf filtered: Depth 8174.73 k <- MD �= 18212 62 ft Resuto filtered: Ct-Ct sap..t.n c 1500 W It R.-Its highlighted: C[Ct sepamb,, - 1320.00 It 8174 73 3540 37 2514.40 542143 7444 94 21 W 94 2712.88 -5440 46 32560 757 15 9458 662.57 693 12 1 OSF 1 50 Pass 820DW 354209 253260 -5436.87 746750 281282 272151 -546110 325.17 75367 9317 660.50 69123 12.25 OSF150 Pass 8250.00 354416 256938 -547268 751178 281845 273861 -550155 32520 74574 9015 65559 68531 1253 OSF1 50 Pass 83W 00 354560 2607 10 -5 W5 46 7559 25 2824 59 2757 26 -5544 P 325 20 ]3] 53 8699 65054 6]9 21 1285 OSF 1 50 Pass 83SO 00 354650 2645 89 -55W 99 760656 283099 2776 28 5587 62 325 10 729 06 839 645 15 67279 13 1 ] OSF1 50 Pass 84W 00 3546.86 2685.72 -5567 21 764931 2836 88 2793 72 -56M 20 32507 720.57 8091 63966 66630 13 51 OSF1 50 Pass 84w W 354668 2726 53 -559610 7690.92 2842 55 2810 76 -5663 73 324 98 712 36 78 20 634.16 659 90 13.82 OSF1 50 Pass :500.00 3545% 2768.27 -562362 772812 284152 28M 07 -5697.27 325W 704.67 75.99 62869 653.69 1407 OSFI 50 Pass 8550 00 3544 68 281088 -5649 73 776254 2851 81 2040 31 -5728 31 325 09 697 93 7d 7a 623 19 647.78 14 17 OSFt 50 Pass 86W.00 3542 92 285427 -567451 7796 36 28557 2854 37 -5758 82 324 23 69236 ]4 74 617 62 642 21 14 06 OSF1 50 Pass 8650. W 3541 62 289731 569992 7841 86 2860 83 2873 4B -5799 79 320 39 688 49 7642 612 07 637 21 1367 OSF1 50 Pass 8700.00 354113 2939.56 572666 789141 286687 289468 -584d 17 31645 68589 7942 60646 63261 1310 OSFI 50 Pass 875000 354109 298133 -575414 793386 287228 291307 -588205 31447 66434 8313 60121 62859 1248 OSF150 Pass 880000 354105 W2310 -578162 797515 287]45 293103 -5918.87 3126 683. 87 S9 596.19 62509 1181 OSF150 Pass 8850 00 3541.02 306467 -5809 39 801678 2882 57 2 19 15 -5955.99 3D9 684.39 9298 591 41 622 07 11 14 OSF1 50 Pass 89W W 354099 3105.43 -5838 35 8058 94 2887 74 296730 -5993 70 306 16 685 53 9667 586 86 619.42 10 51 OSF1.50 Pass 895000 3540.97 3145 29 -5868 54 8102 W 2893 10 298585 6032 86 30262 687 14 10463 58251 617 06 9 93 OSF1 50 Pass 9000. W 35d0.95 31M 21 5899 93 8149 64 289901 300569 6075 09 2W 05 688 94 11075 578 19 614 78 9 40 OSF1 50 Pass 905000 3540 94 3222 14 593249 819601 2905 05 3025 14 6116 75 2955 690 74 11680 57394 612 55 6 93 OSF1 W Pass 910000 . 3540 94 3259.07 596620 823923 291074 304297 6155 70 292 32 692 65 122 60 570 W 610.59 B 53 OSF1.50 Pass 950.00 354104 329496 6W101 8282.63 2916.46 3060.50 6195.00 28935 69477 12829 566.48 60891 817 OSF1 Pass 92W.00 3541 23 3330 46 6036.22 832551 292200 30T 63 6233.91 2B8 00 697.46 133 95 563 50 60763 786 OSF1 50 Pass 9250 W 3541.42 3365.95 6071 44 8WI 2927 32 3094 79 627290 2B6 67 70087 139 66 561 22 607 d4 757 OSF1 50 Pass 93W W 3541 61 3401 44 61 W 66 U19.61 293365 3115 29 -6 1935. 285 10 704 79 145 81 558 97 607 25 ] 29 OSFt 50 Pass 9350. W 3541 W 3436 93 61 dt 88 6472 86 294072 313676 76 6367 57 283 48 708 I5 152 15 556 60 606.99 7 02 OSFt 50 Pass 9dWW 3542W 347242 617710 852771 294855 315894 641711 28182 71269 15860 554.D9 60663 677 OSF150 Pass 9450W 354219 350]91 621232 8580.31 295694 318018 646450 2So 29 71659 16504 551 606.2d 654 OSF/.50 Pass 95W.00 364236 3543.98 624694 W2680 296449 319698 65W 36 2W 71 72130 17131 54998 606.76 63d OSF1 50 Pass 9550.00 354251 3581.09 626044 867137 29]174 321701 6546.46 28116 72739 1]774® 60857 616 OSFl.50 Pass 96WW 35d262 3619.21 631280 870962 29P 73 323247 658093 26183 73523 18398 55125 61225 602 OSF150 Pass 9650 W 3542.69 36% 30 6343 97 874733 2983 27 324768 S614 % 28253 744 98 1 W W 55468 61779 589 OSF1. S0 Pass 970000 3542.69 3698 23 6374 06 8785 86 2988 63 3263 15 66 987 28231 756 54 19670 55983 625 07 579 OSFt 50 Pass 97Ww 3542.69 3738.31 6 395 W2487 299396 327864 -6 27 28093 76912 20304 56608 63343 570 OSF150 Pass 98W. W 3542.69 377839 6433 84 S865 80 2999 46 3294.70 6722.52 27950 762 55 20928 5732 64270 5 63 OSF1 50 Pass Sew 00 35d2 68 381847 6463 74 891547 3006 37 3314.23 66 67 M 277.82 796.41 215 W 58053 652 16 555 OSF1 50 Pass 99W. W 3542.68 38585 6493 63 8961 70 W0 3 12 3332 56 6809 56 27629 810 50 22206 588 d4 662 14 549 OSF1. W Pass 9950. W 3542 6B 389863 6 23 52 8998. W 3018 38 3346 83 6842 52 275 12 82531 227 47 597 e4 67333 5 46 OSF1 50 Pass 10000. W 3542 6] 3938.71 6553 42 9034.07 W23 45 3360.80 16 75 38 273 99 840 98 232 63 606 35 685.56 5.44 OSF 1 50 Pass 10050 W 3542 67 3976 79 6583 31 9076.42 302920 33n W 6914 W 27255 657 38 237 % 619 38 698 5.4 OS F 1 50 Pass 1010000 354302 4018.39 661383 9122.65 W35W 3395.14 695618 26913 87374 232.60 64114 71034 5.65 OSF150 Pass 10150.W 3543.97 405711 6645.45 9170.M 304149 341418 6999 ]8 26586 88960 23664 652% 73151 566 OSF150 Pass 102W W 3545 48 4094 91 66]8 14 921999 3048 01 3433 92 -7044 54 262 72 W4 78 240 39 66439 744 19 5.66 OSF1 50 Pass 1025000 3547.55 413176 6]1187 926788 305453 345317 708791 26012 91922 24377 67545 75638 567 OSF150 Pass 103W W 3549.80 416826 -6]d594 931443 W6108 3471 79 -71W W 25923 93354 24696 68657 76857 569 OSFI 50 Pass 10350 W 3552 X 420480 6780 02 935937 3067 47 3489 76 7170.76 25840 948 OS 25002 693.03 761 04 5 70 OSFI 50 Pass 104W.W 3554.32 424132 681410 940317 30]299 350774 -721064 257% %284 252.S3 71001 793% 573 OSFI S0 Pass 1 N50.00 3556.57 4277.84 68d818 9453.06 3078,35 352843 -7255.39 256.90 97783 25567 722.15 W].OS 5.75 OSF1.50 Pass 10500. W 3558.62 431437 -6882 25 9510 89 3085 24 355274 -7307 41 25618 99253 25882 733 71 81966 5 77 OSFI50 Pass 10550. W 3560 53 4351 19 6916 02 955746 3091 47 3572 31 �7349 21 25654 1 W 713 261 62 745 51 83239 579 OSF50 Pass 106W. W 3561 37 438849 6949 31 959908 3097.40 3589 47 -7386 % 2% % 102224 26435 75788 845 67 5 82 OSFI 50 Pass 106 W 3561 35 d426 22 6982 11 964070 3103 59 360633 -7424 20 25728 103788 267 19 77069 S59 43 5.84 OSFt 50 Pass 107W. W 3560.41 4464 34 -7014 46 9682 85 31 09772 36233 -7462 26 25755 105398 270 10 78389 87359 587 OSF1 50 Pass 10750.W 3558.55 450282 -704634 972575 31155 3640.73 -750103 257.81 107052 27304 79748 88817 SW OSF1 Pass 10BW.00 3555.81 4541.62 -707775 977391 3122A6 3660.33 -754450 25766 108]34 27621 81113 90287 592 OS 50 Pass 10850 W 3552.81 4580 51 -7109.03 9822 59 3129.29 368033 -7588 36 25666 1100 29 279 33 824.95 917 74 5.95 OSF1.50 Pass 109W W 3549 82 4619.40 7140 31 9873 86 3136 45 3701 70 7634 43 255 W 1121 25 282 42 838 83 932 64 5 97 OSF1 50 Pass 10950. W 3546.83 4658.29 7171 59 9923 17 3143 22 3722 59 -7678 56 254 73 1138 18 28532 852 66 947.63 600 OSF1 50 Pass 110W W 3543 83 469718 -7202 88 9967 61 3149 W 3741 63 7718 30 253.93 1155 26 287 92 86] 3d 962.99 6.03 OSF1 W Pass 11050.00 3540.84 4736.0] 723416 1W1218 315440 3760.89 -7]5813 25317 117255 2W 42 B8212 97860 6.07 OSF150 Pass 111 00 00 353788 d774.94 726547 10055.79 315997 3779.61 -779711 2520] 1190.02 29283 B9719 994.47 611 OSFI Pass SOW 3535 38 4813 52 -7297 17 10093 20 3t66 14 379800 -7835 95 25028 1207 44 295 12 91232 101036 6 15 OSFI 50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 22 of 39 TmjeU ry, OP17-02LI (P2) Vs. OP18-08PB2 mg (Reference MD lRefererlce NDl Reference NB lRe(eronce EWl Offset MD I Offset ND I Offset NS I OflsetEW ITroNNoM Aiim�r lCt-Ct Dmta-1 Sep.W. I Refem-erol CbararweD I OSF I Rde I Status 11250.00 3531 29 4B90 19 -7361 25 10180 47 3176.98 3832 37 -7908 79 248 85 124271 29927 94344 1042 87 624 0SF1 50 Pass 11300 00 3529 26 492852 -7393.29 10219 76 3181 46 384904 -7944 08 248.32 1260 79 301 17 95962 1059 68 630 OSF1 50 Pass 1135000 352723 4966.85 -742533 1025784 3185.93 3864.99 -797837 24781 127923 303.DO 97623 107690 635 OSFi 50 Pass 1140000 352519 S00518 -745738 1029695 319070 388111 801368 24728 129803 30483 993.20 109448 640 OSF150 Pass 11450 00 3523 16 5043 50 -7489 42 10345 19 3196 62 3900 99 8057 24 246.65 1316 96 306 99 1009 97 1094 97 11 645 OSFi 50 Pass 11500.00 3521.15 508185 -7521.45 10392.61 3202,35 3920.68 -20.00 246.17 1335.92 30905 1026.87 /129.55 650 OSF1.50 Pass 11550.00 3519.64 5120.46 -7553A 10434.68 3207,45 393B.14 -8 37.93 246.07 1355.47 310.75 1044.73 1147.98 6.56 OSF1.50 Pass 11600.00 3518.81 5159" -7594.48 10476.49 3212.60 3955.40 8175.67 245.97 137586 312.37 1083.48 1167.28 6.62 OSF1.50 Pass 11650.OD 3518.65 519E 76 -761536 10522.36 3218.27 3974.31 821707 245.85 139698 314.11 1OB2.07 1187.25 6.69 OSF7.50 Pass 11700.00 3519.05 523B.37 -7645.87 10568.75 3223.93 3993.52 8258.91 245.55 1418.65 315.B5 1102.90 1207.75 6.75 OSF1.50 Pass 11750.OD 3519.49 527801 -767634 10619.37 3230.08 4014.64 -8304,50 245.07 1440.30 317.79 1122.51 1228,11 6.81 OSF1.50 Pass 118D0.00 3519.94 5317.66 -7706.81 1067108 3236.43 4036.43 8350.96 244.60 146179 31974 1142.05 1248.30 6.87 OSF1.50 Pass 11850.00 3520.39 5357.30 -7737.27 10720.54 3242.60 4057,47 8395.30 244.16 1483.15 321.59 1161.56 1268,43 6.93 06F1.50 Pass 1190D.00 3520.84 539694 -7767.74 10770.28 3248.91 4078,75 8439.81 243.72 1504.41 323.43 1180.98 1288.46 699 OSF1.50 Pass 11950.00 3521.29 5436.58 -7798.21 10826.69 3255.54 4103.30 8490.16 243.27 1525.47 325.45 12(0.02 1308.17 705 OSF7.50 Pass 12000.00 3521.74 547623 -7828.68 10678.06 3260.67 412519 8535,86 242.91 1546.24 327.24 1219.00 1327.75 7.10 OSF1.50 Pass 12050.00 3522.19 5515.87 -7859.15 10918,35 3264.78 4144. 11 8571.71 242.63 156708 328.69 1238.39 1347.63 7.17 OSF7.50 Pess 12100.00 3522.63 5555,51 -788961 10958.40 3269.21 4161.74 -BW7.39 24235 158809 330.12 1257.96 1367.68 7.23 OSF1.50 Pass 1215000 3523.15 5594.93 -7920.37 110D5.25 3274.68 4162.28 8849.15 24098 160886 331.73 1277.13 1387.38 7.29 OSF7.50 Pass 122DO OD 3523.83 5633.88 -7951.71 11052.97 32W 38 4203.24 8691.64 240.05 162895 333.34 129561 1406.39 7.35 OSF7.50 Pass 12250.OD 3524.54 5672.75 -7993.15 11096,13 3285,66 4222.19 8730.05 239.78 1648.96 33485 1314.10 1425.39 740 OSF7.50 Pass 1230000 3525.24 5711.63 8014.59 11138,77 3291.01 4240.83 8768.03 239.50 1669.07 336.34 1332.73 1444,51 7.46 0SF7.50 Pass 12350.00 3525.95 5750.50 804603 11178.51 3296.11 4258.10 88D3.45 23924 168931 337.74 1351.57 1463.82 7.52 OSFT50 P ass 4000 120 3526.66 578937 8077.46 11216.89 3301.12 4274.64 -M7.73 238.99 1709.76 33908 1370.68 1483.38 7.58 OSF1.50 Pass 12450.00 352737 5828.25 810B.90 11254.93 33D6.16 4290.89 8871.75 238.74 1730.42 340.40 139D.01 1503.15 7.64 0SF7.50 Pass 1250D OO 3528,08 586712 .8 40.34 11292.02 331122 4306,56 -S 99 238.50 1751,30 341.68 1409.62 1523.18 771 OSF1.50 Paas 1255D.00 3528,79 5905.99 8171.78 11328.89 331643 4321.96 893807 23B.26 1772.42 342.95 1429.46 154345 777 OSF1.50 Peas 126DO 00 3529,75 5944.91 -M3.16 11367,07 3321.99 4337.74 8972.40 237.87 1793.85 344.20 1449.64 156405 7.84 OSF1.50 Pass 12650.00 353154 5903.94 823435 114 23 3327.70 4353.80 "7.65 237.45 1815.74 34538 1470.36 1585A6 7.90 OS IS Pass 12700.00 3534.08 Sm 09 825535 11446.22 3333.54 4370.11 -9043.69 237.15 1838.04 346.59 1491,45 1606.85 7.97 0SF7.50 Pass 12760.00 3536.75 6062.26 829631 11491.94 3340.31 4388.71 -9084.91 236.92 1860.44 348.13 151231 1628,02 8.03 OSF1.50 Pass 12800.OD 3539.43 6101.43 8327.28 11537.53 3347.24 440727 9125.96 236.69 188282 349fi6 1533.16 1649.39 810 OSF1.50 Paas 12850.00 3542.10 6140.60 4M8.24 11579.57 3353.55 4424.38 .0163.84 236.49 19D524 35106 1554.1: 1670.87 8,16 OSF750 Pass 1290000 35"77 6179.76 -M9.20 11621.63 3359.61 444150 9201.78 236.30 1927.73 352.45 1575.28 1692.43 8.22 0SF7.50 Pass 12950.00 3547.44 6218.93 8420,16 116W.17 3367.68 4465.50 9254.56 236.06 1950.15 354.47 1595.67 1713.50 8.27 0SF7.50 Pass 1300D.00 3550.11 6258.10 8451,13 11738.29 3375.43 4489.83 930577 235.54 1972.16 35645 1615.71 1734,20 8.32 OSF1.50 Pass 13050.00 3552.78 6297.27 8462 D9 11779.67 3380.86 4507.23 -934392 235.68 1994.13 357.81 1636.32 1755.26 8.30 0SF150 Pass 13100,00 3555,34 6336.40 8513.11 11821.00 338625 4524,56 938106 235.51 2016,11 359.16 1656.95 1776,34 8.44 OSF150 Pass 13150.00 3557,20 6375.33 85M.43 11867.06 339227 4543.84 9422.45 235.28 2037,77 360.68 1677.06 17969E 8.49 0SF1.50 Pass 13200.00 3558.28 6414.02 857608 11913.44 3398,39 4563.28 9464.11 235.02 2D58.98 362.23 1696.75 1817.17 8.55 OSF1.50 Pass 13250.00 3558.69 645249 -860801 11962.24 3404.64 4583.81 8507.93 234.76 2079.80 36388 171692 1836.89 8.59 OSF1_SO Pass 13300.00 3559.00 6490.94 863990 12011,61 341038 4604.75 9552.28 234.54 2100.49 36554 1734.95 1856.47 8.64 OSF1.50 Pass 13350.00 3559,31 652938 8971.96 12D45.81 3414.11 4619.25 9583.03 23441 2121.26 36666 1754.60 1876.49 8.70 OSF1.50 Pass 13400.OD 3559,61 6567.82 8703.93 12079,01 3417.68 4633,15 9612.97 234.28 2142.30 36774 1774.56 1896.81 8.76 OSF1.50 Pass 13450.OD 3559,92 66D6.26 873590 12113.80 3421.39 4647.55 9644.41 234.14 216359 36887 1794,73 1917.36 8.82 0SF7.50 Pass 13500.00 3560.23 6644.70 -8 6787 12169.07 3427,30 497044 9694.37 233.93 2184.89 370.75 1814.14 1937.40 8.86 OSF7.50 Pass 13550.OD 3560.54 66B3.14 8799.85 1221806 3432.63 4690.92 9738,56 233.75 22D601 372.40 1833.61 1957.41 8.91 OSF750 Pass 136W 00 3560.85 6721.58 8881.82 1225421 3436.54 4705.97 8771.19 233.62 2227.23 373.57 1853.66 1977.86 8.96 OSF7.50 Pess 1365000 3561.05 6769.79 8864.06 12290,34 3440.39 472D 88 9803.87 232.61 2248.32 374.71 1873,61 1996,19 9.02 OSF1.50 Pass 13700.00 3560.86 6797.36 -M705 12323.63 3443,88 4734.50 4)SM 06 231.69 2268.72 375.73 1892.99 2017.90 9.08 OSF1.50 Pass 13750.00 35WN 6834.34 8930.69 12355.64 3N7.15 4747,43 9863A5 230.82 2268.54 376.71 1911,83 2037,08 9.13 0SF7.50 Pass 1390D 00 3558.58 6870.71 896498 12407.84 345222 4768.43 -M 0.67 229.85 2307.64 378.48 19MA7 2055.00 9.17 OSF7.50 Pass 13650.Do 3556,48 69D6.44 8999.88 1245066 3456.74 4789.05 8956.90 228.85 2325.76 38020 1945.56 2071,97 9.20 OSF7.50 Pess 139M 00 3553,75 694153 -9035.39 12529.80 346257 4816,27 -10021.50 227.73 2342.66 382.67 196D.19 2087.42 0SF7.50 Pass 13950.00 3550,37 697596 -9071.49 12604.89 3468.67 4850.10 -10089.23 226.55 2358.34 385.24 1973.09 21011 OSF1.S0 Pass 140DO 00 3546,43 7009.78 -9108.11 12652.03 347252 4870,27 -10131.67 225.85 2372.90 386.82 88 19.OB 2114.69 9.22 OSF7.50 Pass 14050.00 3542.44 7043.46 -91N 85 12694,66 347602 4888.50 -1017004 225.19 2387,32 38823 1999.09 2128.17 9.24 OSF1.50 Pass 14100.00 3539.01 7076.67 -918206 12730.13 3478.95 49M 53 -'0202.04 22378 2401.36 38936 201 .00 214146 9.27 OSF1.50 Pass 14150.00 3536.31 7109.30 -9219.85 12765.75 3481,89 4918.46 -1023/.24 222.42 241489 390A2 2024.47 2154.29 9.30 OSF1.50 Pass 14200.00 3534,36 7141.36 -9258.17 129D4.91 3485.13 493472 -10269.72 221.23 242794 39160 2036,35 21 &55 9.32 OSF1.50 Pass 14250.OD 3533.32 717297 -929689 12645,96 3488.53 4951.65 -10306.96 220.15 2" 60 39283 2047.77 2178.38 9.34 OSF7.50 Pass 14300.OD 3533.13 7204.17 -933597 128B4.01 3491.64 4524 -10341,52 219.48 245290 39396 2058.94 2189.93 9.36 OSF1.50 Pass 14350.00 3533.12 7235.28 -9375.11 12915.07 3493.63 4969797,82 -10369.86 219.42 2465.39 3S4.88 2070.51 2201,81 9.38 OSF7.SO Pass 14400.00 3533.11 7266.39 9414.26 12946.11 3494.90 4992.22 -1039628 219.39 247823 395.78 2002.45 2214.05 9.41 OSF7.50 Pass 14450.00 3533.11 7297.49 9453,40 12980.39 3495.51 5OD571 -10429.79 219.37 2491.39 396.79 2094.60 2226.54 9.44 OSF1.50 Pass 1450000 3533.10 7328.60 -9492.55 1302D 57 3495.68 5021.41 -10466.77 219.36 2504.73 398.01 210671 2239.05 9.46 OSF1.50 Pass 14550.00 3533.09 7359.67 -953172 13056.94 3495.77 5035.48 -1050032 217191 2518.22 39907 2119.14 2251,84 9.48 OSF1.50 Pass 146W 00 3533.11 739008 -9571.41 13093.39 3495.90 504942 -10533.99 217.70 2531.14 400.11 2131.03 2264.07 9.51 0SF7.50 Pass 14650.00 3533.16 7419.63 -9511.74 13165.63 3496.38 5076.95 -10600.78 216.43 2543.16 402.61 2140.55 2774.42 949 OSF7.50 Pass 14673.77 3533.20 7433.36 -9631.15 13228.58 349754 5101.95 -1065B.54 215.80 2548.00 404.91 2143.09 2277.73 � OSF7.50 Pass 1170D.00 3533.29 7448.29 -9652.71 13250.15 3498,02 5110.62 -10678,29 21513 255299 405.56 2147.42 2282.26 9.46 OSF1.50 Pass 14750.00 3533,74 7476.09 -989426 13291.38 3496.91 5127.11 -10716.06 213.87 2561.84 406.80 215504 2290.31 9.47 0SF7.50 Pass 14800.00 3534.55 7503.03 -973638 13334.88 3499.79 5144.39 -1075597 212.63 2569.62 408.12 2161.71 2297,42 9.46 OSF1.50 Pass 14850.00 3535.71 7529.09 -977903 13383.28 35110.76 5163,57 -10B00.40 21141 2576,84 409.64 9.45 OSF1.50 Pass 14900.00 3537.22 7554.26 -9622.21 13617,21 3496.19 5263,79 -11011.57 210.49 2581,19 417. 1 9.30 06F1.50 Pass 14950.00 3539.06 7578.53 -9865.88 1363768 3495.75 5273.13 -11029.79 209.47 2582,92 418.04 164.8 230390 9.29 08F1.50 Pass 15000.OD 354098 7602.30 -9909.83 13658.17 3495.44 528226 -11048.12 208.97 84 25.64 418.71 2165.93 23D5.17 9.28 OSF1.50 Pass ISm 00 3542.44 7625.46 -9954.12 13678.66 3495,25 5291.18 -11056.57 208.19 2586.24 419.33 2166,90 230635 927 OSF1.50 Pass 15100.0D 3543,43 764797 -9990.75 13899.17 3495,19 5299.90 -11095.13 207.39 2587.66 41991 2167.75 2307,39 9.26 0SF7.50 Pass 15150.00 3543.95 7669.83 -1004372 13719,23 3495.25 5308,22 -11103.38 206.57 2588.91 420.43 2168,49 23DB.30 8.25 OSF1.50 Pass 15200-00 3544.00 769/02 -10OB9.00 13738,55 3495.32 531602 -11121.05 205.72 259000 420.87 2169.14 2309.10 9.25 OSF1.50 Pass 15250.00 3543.65 7711.51 -10134.61 13757.86 3495,40 5323.61 -11138,81 20462 2590.91 421.26 2169,65 2309,74 9.24 OSF1.50 Pess 1530000 3542.96 7731.34 -10180,50 13777.17 3495.47 5330.99 -11156,66 204.29 259168 421.59 2170.09 2310.29 9.24 OSF1.50 Pass 1535000 3542.19 7751.05 -10226.45 13796A7 3495.55 5338.15 -11174.58 204.28 2592.91 421.88 2171,04 2311.33 9.24 OSF1.50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 23 of 39 Trajecbry. OP17-Ml (P2) Vs. OP18408PS2 Reference MD (ft) Reference NO (ft) Reference NS Ih) RehrenceE (ft) 05sel MD fft) ORseI TVD (h) Oftset NS (ft) OffsetEW (ft) Traveling Cyia der North Azim () Ct-Ct DismrKa (ft) Mnimum A.i= Separation (ft) Albwdble Deviatlon from Reference (ft) EOU-EOU Clearance (ft) OSF Controlling Rule Status 1540000 3541.43 777076 -1027239 1382213 349564 5347.39 -11198.52 204,27 2594.72 422A0 217232 2312,79 923 OSF1.50 Pass 15450.00 3540.67 7790.47 -10318.34 13861.07 349559 5361,21 -11234.92 204.25 2596.82 423.53 2173.29 2314.14 9,22 OSF1.50 Pass 155DD.00 3539.91 7810.18 -10364.28 13900.00 3495.30 5374.88 -11271.37 204.25 2599.14 42465 217449 2315.71 9.20 0SF7.50 Pass 15 00 3539.15 7829.89 -1 D41023 13966.% 3494.16 5398.42 -1133405 204.25 2601.45 42709 2174,36 2316,40 9.15 OSF7.50 Pass 15600'00 3538.39 7849.61 -10456.17 14070.17 3490.62 543596 -71430,12 204.29 260318 43109 72.09 1 46 9.08 OSFt.50 Pass 15650.00 3537.63 7869.32 -10502.12 14117,50 3488.34 5463.87 -11473.87 204,32 2604.06 432. 171.4 2 15.34 9. OSF7.50 Pass 15700.00 3536.88 Me 97 -10648.09 14134.51 348741 5460.12 -71489.66 204.04 260544 432.74 2172.70 2316.62 9.05 OSF1.50 Peas 15750.00 3536.17 7908,45 -10594,13 14151.50 3486.41 5466.17 -1150550 2DC06 2607.26 432.82 2174.44 2318.3E 9.05 OSF1.50 Pass 15800.00 353547 7927.93 -10640.17 1416SA6 348536 547201 -11521.40 204.08 2609.71 43284 217887 2320.82 906 OSF1.50 Pass 1S650.00 3534.76 7947.41 -10686.22 14185.40 34S424 5477.64 -11537.33 204.10 2612,80 432.79 21800D 2323.94 9.07 OSF1.50 Pass 15900'00 3534.05 79M 86 -10732.26 14202.30 3483.06 5493.05 -11553.30 204.12 2616.51 432.68 218364 2327.73 9.09 OSF1.50 Pass 759WM 3533.35 7986.36 -10776.31 14280.39 3477.02 5507.90 -11627,08 204.22 26M 37 435.71 2184. 6¢�77 9.04 0SF7.50 Pass 16000.00 3532.65 8005.64 -70024.35 1440f1.79 3466.79 5548.44 -11739.86 204.41 2823,27 440.7 2329.1 6.95 OSF7.50 Pass 16050.00 3531.95 6025.32 -10870:40 14430.40 3464.24 5558.70 -11767.65 204.45 282662 44133 2154.29 2331.07 8.94 OSF7.50 Pass 16100.00 3531.24 60"80 -1091844 14459.99 346162 5SW,73 -11795,36 204.50 2628.36 441.93 2186.44 2333.42 8.94 OSF7.50 Paas 16750.OD 3530.54 8064.28 -10962.48 14489.53 345893 5578.53 -11823.10 204-55 263149 44250 218099 2336,16 8.94 OSF1.50 Pass 16200.00 3529.81 808366 -1/008.57 15416,52 3425.13 MEN -12633.74 204.55 2632.72 464.34 2168.38 2322.83 8.52 OSF1.50 Pass 16250,00 35. 01 8102.59 -11 p54.84 15440.39 342396 6029.75 -12652:53 204.36 2619.22 466.02 2153.20 2308:21 8.45 OSF1.50 Pass 16300.00 3528,21 8121.50 -77101.12 15464.38 3422,72 6044.32 -12671.54 204.38 2606.15 467.67 2138.48 2294.04 8.37 OSF1,50 Pass 16350.00 3527.41 8140,41 -11147.40 1549247 3421.18 6061.18 -12693.96 204.42 2593.52 469,28 2124:24 2280.34 8.30 OSF1,50 Pass 16400.00 3526.61 8159.32 -11193.68 15533.69 341889 6085T7 -1272625 204.46 2581.12 470.87 2110.25 226688 8.24 OSF1.50 Pass 16450.00 3525,81 8178.23 -11239.96 15574.97 3476.61 6110:30 -1276007 204.51 2%&86 472,47 2096.39 225155 8.17 OSF7.50 Pass 16500.00 3525.01 8197.16 -11286.23 15807.10 3415.09 6129.29 -72785.85 204.69 255687 474.07 208275 2240.44 8.70 OSF7.50 Pass 16550.00 3523.85 8216.67 -1133226 15637.81 341439 6747.25 -12810.05 205.77 2545.73 475.65 207008 2228.30 8.04 OSF7.50 Pass 16600.00 3522.49 8237.11 -1137786 15668.73 3414:43 6165.14 53 -126.07 20B85 2535.97 477.24 2058.73 2217,48 7.98 0SF7.50 Pass 16850.00 3520,63 8258.46 -11423.03 15705,16 341530 6185.97 -12865,93 207.93 2527.51 478.86 2048.64 2207.90�iy 0SF7.50 Pass 16700.00 3518.37 6280:73 -11467.74 15744.81 3416,77 6208.50 -12898.53 209.00 2620,24 480.52 2039.72 2199. 78 OSF1.50 Pass 16750.00 3515.67 8303.87 -11511,98 16289.52 342634 6558.52 -13312.88 209.28 2509A7 475.43 2034,04 2192.19 7.93 OSF1.50 Pass 16BDD 00 3512.53 8327.87 -11555.73 1630754 3425.69 6571.39 -13325.47 210.29 2494.95 477.95 201700 2175.99 7.80 OSF1.50 Pass 16850.00 3508.93 8352.73 -1159896 16325,78 3425,08 6584,27 -13338.38 211.35 248194 480.44 200150 2161.32 7.76 OSF1.50 Pass 16900.00 3504,90 8378:36 -1,641.70 16344,21 3424.52 6597A2 -13351.58 212.04 2470.42 48290 1987.52 2148.16 7.69 OSF1.50 Pass 169M 00 3501.01 8403.80 -11884.19 16362.73 342402 8609.67 -13365.00 217.32 2459.41 48532 1974.10 2135.54 7.67 OSF1.50 Pass 17000.00 3497,81 8428,82 -11727.74 16385,25 342347 6625,18 •1336151 210.46 2448.19 487.58 19W 61 2122.81 7.54 OSF7.50 Pass 17050.00 349530 5453.00 -1777143 16409.51 342292 6641.49 -13399.46 209.63 2436.65 489,72 1946.93 2109.84 7.48 OSF1.50 Pass 17100.00 3493.49 8476.45 -1181555 16433,79 342242 665764 -13417.56 208.83 2424.79 491,82 7932:96 2096.59 7.41 OSF7.50 Pass 17150.00 3492,38 8499.17 -11860.08 16458.10 3421.86 6673.62 A3435.89 206.05 241263 493.86 1915.77 2083.06 7,34 OSF1.50 Pess 17200.00 3491.96 8521,14 -11904.99 16486.62 3421,58 6692.16 -13457.56 207.31 2400.12 495.79 1904.33 2069.27 7.27 OSF1.50 Pa- 1 7 00 3491.97 8542.26 -11950.30 16517.19 342167 6711,86 -1348094 206,13 2387.08 49767 1889.42 2054.98 7.21 OSF1.50 Pass 17300.00 3492.01 8562.40 -11998.07 16647.70 342229 6731.33 -1350442 204.89 2373.35 499.53 187382 2040.01 7.14 OSF1.50 Pass 17350,00 3492.07 SW1.52 -12042,27 16580.79 3423.48 6752,23 -13530.04 203.64 235892 50135 1857.57 2024.36 7.07 OSF1.50 Pass 17400.00 3492.18 8589.79 -/2088.81 16617.45 3421.69 6775.25 -13556.50 20306 2343.84 503.12 1840.72 2008.10 7.00 OSF1.50 Pass 17450.00 3492:25 861796 -12135,39 16654.20 3425.29 6798.19 -13557.22 203.03 232889 504.91 1623.98 7991.95 6.93 OSF7.50 Pass 17500.00 3492.34 8636.12 -1218198 16692.12 342778 :821.72 -13616.92 20301 2314,15 506.68 1807.47 1976.03 6.86 OSF1.W Pass 17550.00 3492.43 8654.29 -12228.56 16730.50 3429.51 6845.41 -13647.07 202,97 2299.61 50845 1791.15 1960.31 6.79 OSF7.50 Pass 17600.00 3492.52 $67245 -12275.14 16769.71 343151 6SS9.46 -13677.97 202.93 2285.26 51022 1775.04 1944,78 6.73 OSF7.50 Pass 17850.00 3492,61 S89D.82 -12321.73 1681322 343385 689806 -13712.32 202,86 227104 51196 1759.08 192941 6.66 OSF1.50 Pass 17700.OD 3492.70 8708.7E A2368.31 16856.77 343624 6922.62 -13746.76 202,83 2256.92 513.70 1743.22 1914A2 6.60 OSF1.50 Pass 17750.00 3492,79 8726.94 -1241489 18914.93 3438.47 6958.17 -13792.72 202.78 2242.75 515.31 172744 1898.SB 6,54 OSF1.50 Pass I78W 00 3492.88 8745,11 -1246148 1697234 3438.43 6993.55 -1383792 202.80 222834 516 1711.48 1883.44 6.48 OSF1,50 Pass 178W 00 3492,97 8763,27 -12508.06 17023.20 3436.51 7025.02 -13677.84 202.86 2213.82 51842 1895.39 1867.87 6.41 OSF1.50 Pass 17800.00 3493.06 8781.44 -12554.65 17155.02 3421.38 7108.07 -13978.94 203.31 2198.61 578.33 1680.28 185273 837 OSF1.50 Pass 17MOO 3493.15 8799.60 -12601.23 1719700 3414.38 7135.07 -1401031 203.52 218229 51988 1682.41 1835.37 6.31 OSF7.50 Pass i800D.00 3493.24 8877.77 -12817.87 17197.00 3414.38 7135.07 -1401037 203.52 2166.58 52236 1644.22 1816.07 8.23 OSF7.50 Pass 18050.00 3493.33 S83593 -1269440 17197.00 3414.36 7135.07 -14010.31 203.52 2151.93 524.63 1627.29 7801.64 6.16 OSF7.50 Pess 18100.00 3493.42 8854.10 -1274098 17197.00 341436 7135.07 -14010.31 203.52 213830 526.67 1611.86 1786.88 8.10 OSF7.50 Pass 18150,00 3493,51 8872.26 -12787.56 17197.00 341436 7135.07 -14010,31 203,52 2125.84 528.48 1597.36 1773.19 6.04 OSF1.50 Pass 18200.00 3493.60 8M 42 -12834.15 17197.00 3414.36 7135.07 -14010.31 203.52 211445 530.03 1584.42 1760.77 5. OSF1.50 Pass 18212.62 3493.62 SB95.01 -12845,91 17197.00 3414.36 7135.07 -14010.31 203.5 21117 530. OSF1.50 Pass End of results Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 24 of 39 FINE: Nikedchuq Well: 01i Point 1-2 =W.: 0111d.k Point Borehole: Olikbk Pont L2PB2 Slot OP02 Trajectory. OIAEok Pont 1-2PB2 Cilent ENI Type: 0.ts ey Coordinate System: NAD27 Alaska State Plane. Zone 04. US Fear North Referenre: True Grid Convergence Angle: 012924264` Grid Seat. Factoir, 09999W319 Magnetic Decllnatim: 23.5W' Magnetic Declination Date: January 20, 2007 Magnetic Model: SGGM 20D6 Reference Point Notion, Eastlno Elevation Struill-us, Slot Une, 6036577.310(ftUS) 516753.790(f[US) 53.650(ft)M51- 0W0(ft)0 iew-) 0.00(it)(1 sigma) Tralectory Error Model: ISCWSA0 34) 95.000X Conildence 2.7955 sigma Su-1na Proa: As Drilled Description MD From (it) MD To (18 EOU Freq Survey Tool Type Hole Sire (in) Casing Diameter Qn) Borehole I Survey 0.000 41.450 1198.425 SLBNSG+SSHOT4)epih Only -NO Global 9875 9.875 Oliktok Point 1-2PB1/01hkbk Point 1-2PB1 41.450 41450 AdStm SLB NSG+SSHOT-Depth ONy-No Global 9.875 9.875 Olikbk Point 1-2PB1 I Olikbk Point l-2PB1 41450 326.ODO ActShrt SLBNSG+SSHOT-No Gobal 9.875 9.875 ON Mok Pant 1-2PB1 I Olikbk Point 1-2PB1 326.OD0 4124.950 ActSM SLkMWD+GMAG-N. Gcixil 9875 9875 Olildok Pant 1-2PB11Olikbk Potent l-2P81 4124.950 6667+850 Ad -Sim SLB_MVD+GMAG-No Global 9.875 7.625 Oliktok Point 1-2PB2I Olikbk Point 1-2PB2 6667,850 9747.OW ActStns SLB MVO+GMAG-NO Gobai 6.5W 65W Oliktok Point l-2PB2 101iktok Point 1-2PB2 Reterarnce MD (R) Reference ND (ft) . Reference NS Reterence (ft) OFlset MD (M1) Onset ND (fl) ORcet NS (R) ORsetEW (R) Trawkrng Cylinder North Azkn (') Ct-Ct Dletaxe (N) Mnimum Albwable Separation (R) Albveble Donation hom Reference (k) EOU{OU clean- (N) ICorrtrolling OSF Rule Status Al local mkvma wtheated. Rewlls filtered: Deptin 8174.73 ft - MD - 18212.62 R Results fihered. Ct-Ct wpamWn <= 1500.00 ft Rewfts highlighted: C1Lt separation <= 1320.00N 8174 73 3540 37 251440 -5421 43 7428.81 3590.58 3335 w .65051 48 44 1127 10 223.79 903 31 9T7 5B 7 58 OSFt 50 Pass 820000 6216.00 3542.09 3542.92 253260 254428 -543887 -544978 744350 7452.81 359088 3590% 334518 335163 466118 .66789 48.68 49,84 1125.82 112494 22397 223.93 90185 90101 97618.,9� 7.57 OSF150 97532® OSF150 Pass Pass 8250.00 3544 16 2569 38 -5472.68 7472 58 359103 336548 4 2.01 5033 1123 W 22354 89946 973.64 756 OSF1 50 Pass 8300.00 3545.60 260710 -550546 750165 359063 338616 4 0242 5217 1119 ]5 222.98 89577 97077 756 OSF150 Pass 8350.OD 354650 26468 -5536 99 7531 91 3589 64 3408.09 4723.25 5401 1115 78 223.31 892.47 966.58 7 52 OSFI 50 Pass 8400.OD 354686 268572 -556721 756514 3588.43 343253 174574 5590 111096 223.83 88715 96143 747 OSFI 50 Pass 84M W 3546.SO 272fi 53 -5596 10 7598 38 3507 26 U57 30 A767 86 57 84 1105 26 227 32 8T 96 953 41 ] 32 0SF1 9J Pass 85w 00 354595 2768.27 -562362 763537 3586,06 348522 1792.09 59.84 1W8.67 23128 867. 39 94415 715 OSFI 50 Pass 8550.00 35" 68 2810.88 -6649 73 767789 35854 351753 -0819 74 61 94 1090.81 23979 85102 93062 605 OSF1 50 Pass 86DO W 354292 2854.27 -5674 51 7727 56 3585 75 355541 485185 63.01 1081 76 2" 36 837 39 91852 666 OSFi 50 Pass 8650.00 3541 62 2897 31 -5699 92 7810.99 3585.81 3617 99 -0907 02 61 16 1072 39 24776 824 63 906 89 6.51 OSFt 50 Pass 8]OO.w 3541 i3 2939.56 -5726.66 7846.65 3585.52 3614.54 -093083 5921 1W411 247w 81651 89871 6.47 OSF150 Pass 675000 354109 290133 -575414 788255 358522 367158 -095445 5907 105731 24749 BW.82 89199 643 OSFi 50 Pass 8800.00 354105 3023.10 -576162 791770 3584.92 3698.34 497723 5907 1 051 16 247.25 80391 88599 6.40 OSF150 Pass BBw.w 354102 306467 -580939 795190 358449 372471 -499901 5788 104607 24693 79913 88112 637 OSFi W Pass 8900.00 89M 00 354099 3540 97 310543 3145 29 -583835 -5868.54 7986.26 8031 02 3583.89 3582 95 375152 378678 502048 6048 05 56.09 104315 24659 54 1042.34 247 22 ]9657 79512 8].4 SO M 6.w 34 OSF150 OSF1 50 Pass Pass 9WOW 3540.95 318421 -589993 8080.46 358187 382575 -5078.45 5248 104311 248.2 794.85 8772 6.3 OSF150 Pass 905000 354094 322214 -593249 811934 358100 385649 5102.23 50.68 1045.63 24848 79715 87965 6. 3 OSF150 Pass 91 W. 0000 3540.94 3259 07 -5966.20 8154.61 3580.21 388468 -5123 42 48.89 1 MO 34 248.36 601 96 884 44 636 0SF1 so Pass 91 W.00 3541 04 3294 96 GW i 01 818973 35794 391303 51" 13 4736 1057 22 248.29 80894 891 37 6.41 OSF1 50 Pass 920000 354123 33W46 603622 823192 357843 394734 5168.66 4728 106518 248.90 81628 89B 92 6.44 OSF150 Pass 92W W 354142 336595 607144 827400 357734 390173 5192.89 4]20 107347 24956 82391 90677 647 OSF1 so Pass 93DO00 354161 340144 610666 832005 M76.21 401950 5219.20 4712 1DB2.03 250.60 83143 9140 6.50 0SF150 Pass 9350.00 3541 W 343693 614188 896755 357556 4058.52 5246.30 47W 1w068 25188 83880 92243 6.51 OSF1 W Pess 94W.W 354IDO 347242 617710 842727 357546 410745 -5 80.52 4702 1099.20 254.W W90 929.34 650 OSF150 Pass 9450DO 364219 360791 621232 848912 3576.W 415769 -5316.SO 4711 110710 256.96 85014 935.47 648 OSF150 Pass 95W W 3542.36 3543.98 624694 B54612 3576.27 420371 535023 4883 111377 25918 85459 940.65 646 OSF150 Pass 9550.00 3512.51 3581 09 6280 44 659796 357644 424541 5381 02 5056 1118.67 26094 8577 944.39 645 0SF1 50 Pass 96. Ww 3542.62 361 9.21 6312.80 S64734 3577.83 4285.09 -510.37 52M 112205 26245 659.61 94676 643 0SF750 Pass 9650.DO 354269 3658.30 1343.97 868747 357982 431739 -5 3411 5419 112411 26316 86095 94834 643 OSF150 Pass 97w.w 354269 3698.23 637406 87256E 3582.22 4348.34 5456.39 39 5530 '1 26371 86161 949 is 642 08F150 Pass 9750. W 3542.69 373831 -6403 95 8765 22 358519 4380.58 5479. W 5545 1126 80 264 47 862.33 95016 641 OSF1 50 Pass 98w.w 354269 37783 6433.84 8812.66 358781 441945 -5506 15 5558 1128.55 2659 862.57 95090 638 0SF1 50 Pass 9850 w 3542 68 W18 47 6463 74 886047 35M 66 4458 79 553331 5562 1130 40 2676 86278 95166 635 OSFi 50 Pass 99W.W 354268 385855 -649363 8910.42 35"26 449992 556164 5564 1132.31 26946 862.85 95234 632 08F/SO Pass 3542 68 389863 6523.52 8962.93 359068 454311 5591 46 55 71 1134.20 27159 86261 95281 6.28 0SF1 50 Pass 1995000 100w. W 3542 67 393871 -6553.42 902620 3591 41 4594 93 -5627 77 55.74 1135 70 274 72 98 95 6.22 OSFI 50 P.- 1 0050.w 354267 397879 6583.31 9W762 35W.05 4648.06 566590 55.57 1136.58 274. 6.15 OSF150 Pass 101 W.00 3543 02 Q18 39 6613 83 915319 358658 469757 5702 32 5379 1137 5fi 264 83 872 72 9W 67 646 OSFt 50 Pass 10150.W 354397 405711 664545 919949 3583.83 473474 -52 W 52. D5 1139.82 26555 87427 %246 646 OSFt 50 Pass 102W. W 354548 40949 6678 14 9258 46 3581 32 4782 11 5764 82 50.30 1147314 26738 8761 96496 6 43 OSFI SO P.- 1250.00 0 3547 55 4131 76 6711 87 9341 01 3581 12 4847 36 -SB15 3B 48 86 1147 56 271 13 e 6 43 966 48 .37 OSFI 50 Pass 103w.w 354980 416828 674594 942252 358280 4910.27 -586716 4875 1150.61 274 8 5. 96720 630 0SF150 Pass 10350.00 3552. W 4204 80 -6780 02 N78 33 358457 4952 78 -5903 30 4871 1152.90 276 16 6 96846 6.28 0SF1 50 Pass 10100.00 M54 32 4241 32 -6814 10 95326 358E 92 499393 -5938 66 4870 115494 277 57 871 36 96956 626 OSFi 50 Pass 1045000 355657 427784 -684818 958411 359000 503281 -5972.24 4874 1156.87 27879 878.08 97068 6.24 OSF150 Pass 10500.00 3558.82 431437 6882.25 963271 359366 506t)" 6W396 48.91 115877 279.80 87897 97191 6.23 OSFI 50 Pass 1 D550 W 3560 53 4351 19 -6916.02 967777 35967 5103.53 6033 26 4970 116042 28057 879.86 973.05 622 OSF1 50 Pass 1 D60000 1 M2404 356137 356147 438849 440658 694931 696 14 972445 974700 359957 36W 87 513900 515614 606349 607807 50.52 50 so 116164 1162.02 28144 8W.19 97368 28188 t4 97377 6. 1 OSF150 OSFim Pass Pass I D650W 356135 4426.22 698211 974700 36W 87 515614 607807 5128 1162.60 28049 88210 97527 6.23 OSF150 Pass 107W. W 3560 41 4464 34 -7014 46 974] W 3600 87 5156 14 -6 78 07 51 92 1164 92 277.46 887 46 979 62 6 31 OSF1 50 Pass 10750 W 3558 55 4502 82 -7D46 34 9747 W 36008 5156 14 6078 07 5253 1168 83 273 9B 894 85 985 85 6 42 OSFi 50 Pass 10800W 3555.81 4541 62 -707] 75 9747 W 36008] 515514 6078.07 52.97 1174.32 27005 904.27 99396 6.54 OSF1 50 Pass 10850 W 3552 81 45BO 51 -7109 03 974700 36008 515614 6078 07 52.97 1181 75 265 75 916 01 1004 26 6.69 OSF1 50 Pass 109W00 3549.82 461940 -714031 9747W 36W 87 515614 6078.07 5297 119124 26109 93015 1016.85 6.86 OSF150 Pass 10950 W 3546.83 4658.29 -7171 59 974700 360087 515614 6 78 07 5297 1202 73 256 13 946 60 1031 65 ] w OS F1 50 Pass 11WOW 354383 469718 -720288 974700 36W.87 515614 607807 5297 121617 25092 96526 1048.5] 729 OSF150 Pass 11050 W 354084 47M 07 -7234 16 9747 W 36W 87 5156 14 6078 07 5297 1231 50 24550 98600 t 06751 755 0SF1 50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 25 of 39 Trajectory'. OP174721.1 (P2) Vs. Oliktok Poft 1-2P62 Reference MD (fi) Reference ND (ft) Reference NS (tt) Refinance it Offset MD (R) Onset TVD (RI OiFset NS IR) ORsetEW (ft) Tnvelirg Cylinder North Pzim (') Ct-Ct Diafance Ifi) Mini111 Albvrdble Separation (RI -iav=o de Deviation from Reference (tt) EOU-EOU Clearance (tt) OSF Controlling Rule Status 11100W 3537.W 477494 -726547 974700 36W 87 515611 607807 5280 124867 23990 1W877 1tM 41 783 OSF150 Peas 1115000 3535.38 4813.52 -729717 974700 36D0.87 515614 -607807 52.37 126802 23416 103386 111159 815 OSF150 Pass 11200.00 3:33.33 485186 -7329.21 974700 3600.87 515614 -6 7807 5230 128937 228.40 106097 113678 6.50 OSF 1.50 Pass 11250.00 353129 4890.19 -736125 9747W 3600.87 515614 .6078.07 5230 131229 22267 1089.62 1163.52 887 OSF150 Pass 11300.W 3529.26 4928.52 -7393.29 9747.00 360087 5156.14 -6 .07 52.30 1336.69 21694 1119.75 1191.73 9.28 OSF1.50 Pass 11350.00 3527.23 4966.85 -7425.33 9747,00 3600.87 5156.14 -6078.07 52.30 1362.49 211.77 1151.22 1221.31 9.71 OSF7.50 Peas 11400.0D 3525.19 5005.18 -7457.38 9747.00 36DO 87 5156.14 -6078.07 52.30 1389.60 2D5.65 1183.95 7252.17 10.18 OSF1.W Pass 11450.00 3523.16 5043.50 -7489.42 9747.00 3600.87 5156.74 -6078.07 52.30 141796 200.14 1217.83 1284.21 10.67 OSF1.W Pass 115W.W 3521.15 W81,85 -752145 9747.00 3600,87 5156.14 -6078.07 52.64 1447.48 194.71 1252.77 1317.35 11.20 OSF/.50 Pass 11550.00 3519.64 5120.46 -7553.17 9747.00 3600.87 5156.14 .6078.07 53.85 1477.76 189.25 /288.51 1351.27 1177 OSF1.50 Pass 11600.00 3518.81 5159,44 -7584.48 9747.00 36D0.87 5156.14 -6078.07 55.08 1508.64 183.89 132475 1385.72 12.36 OSF1.W Pass 11650.00 3518.65 5198.76 -7615.36 9747.00 36M.87 5156.14 .6078,07 56.30 1540.0E 17864 1361.44 1420.65 1300 0SF1.50 Pass 117D0,00 3519.05 5238,37 -7645,87 974700 3800,87 5756.14 .6078.07 56.82 15/2.08 173.55 13M 54 1456.06 13,86 OSF1.50 Pass 117so 357949 5278.01 -7676.34 9747,00 36W.87 5156.14 -6078,07 56.82 1604.97 168,71 1436.26 1492:17 74,34 OSF1,W Pass 11800.00 3519,94 5317.66 -7706.81 9747.00 3600.67 5156.14 .607807 56.82 1638.72 16403 147469 1529.04 15.07 OSF1.50 Peas 11850.00 3520.39 5357.30 -7737.27 9747,00 3600.87 5156.14 -6078.07 56.82 167329 159.53 1513.76 1566.61 15.82 0SF1.50 Pass 11900.00 3520.84 5396.94 -776774 9747.00 MOW 5156.14 -6078,07 56.82 1708.62 155,19 1553.43 1604.83 OSF7.5D Pass 11950.00 3521.29 543658 -T798.21 9747.00 3fiW.87 5156.14 .6078.07 5682 1744.86 15103 1593.64 1643.65 461 17.43 0 F1.50 Pass 12000.00 3521.74 547623 -7828.68 9747.00 36M 87 5156,14 $078.07 5682 1781.38 14703 1634,35 168301 18.29 OSF1.W Paas 12050,00 3522.19 5515.87 -7859,15 9747.00 3600.87 5166.14 $078.07 5662 1818.74 143,21 1675.S3 172Z904 19.17 OSF1.W Paas 352263 S655.61 -7889.61 9747.00 3SW87 5156.14 .607807 56.82 1856.69 139,55 1717.14 1763.33 2009. OSF1.50 Pass 12100.00 2150.OD 352115 559493 -7920.37 9747.00 360.87 5156.14 $078.07 5622 189542 136.05 1759,37 7804.39 2104 OSF1.50 Pass 12200.00 3523,83 5633.88 -7951.71 974TOO 360087 5156.14 .6078.07 55.93 1935.12 132.7fi 1802.36 7846.29 22.02 OSF1.W Pess 12250.00 3524,54 5672.75 -7983.15 9747.00 36W.87 5156.14 -6 8,07 55,93 1975.35 129.68 1845.67 1888.57 23,01 OSF1.W Pass 12300.00 3525,24 5711.63 -8014.59 974700 36W.87 51%14 -6078,07 55.93 201603 126.75 1889.28 1931.20 24,03 OSF1.50 Pess 12350.00 3525.95 5750.50 -8046,03 9747.00 3600,87 5156.14 $078.07 65.93 2057.11 12397 1933.15 1974.14 25.08 OSF7.50 Pasa 12400.00 3526.W 5789.37 .8077.46 9747.00 36W.87 5156,14 -6078.07 55.93 2098.58 12131 197727 2017.38 26.15 OSF1.50 Paas 12450.00 3527.37 5828:25 -8 W.90 974700 3600.87 5156.14 $078.07 55.93 2140.42 118W 2021:62 2DS0.89 27.24 OSF1.50 Pass 12500.00 3528.08 586712 .84034 974700 38W.87 SIM 14 -6078.07 55.93 2182.60 116.41 2066,19 2104.66 28.35 OSF1.50 Peas 12550.00 3528.79 5905.99 -8171.78 9747.00 3WO.87 5156.14 -607807 55.93 2225.10 114.14 2110.96 2148.68 29.48 OSF1.50 Pass 12600.00 3529.75 594491 -8 3,16 9747.00 36W.87 5156.14 -6078 U7 57.34 226786 111.93 2155.93 2192,91 30.85 OSF1.50 Pass 128W,W 3531,54 5983.94 -8234,35 9747.00 36W.87 5156.14 $078.07 59.14 231075 109.73 220102 2237.27 31,86 06F1,50 Pass 12700.00 3534,08 6023.09 -8265.35 9747.00 360067 5156.14 .607807 60.14 2353.77 107.66 2246.11 228167 3308 OSF1.50 Pass 127W.W 3536,75 6062.26 -8M 31 9747.00 36W87 5156.14 $076.07 W.14 239703 1D5.80 2291.23 232617 3429 OSF1.50 Pass 12800.OD 3539.43 6101.43 -M7.28 9747.00 36W.87 5156.14 .607807 60.14 2440.54 104,03 2336.51 237086 35.51 OSF1.50 Pass 12850.00 3542.10 6W60 .8358.24 9747 DO 3600.87 5156.14 -6078.07 60.14 2464.30 102.36 2381.93 2415,73 36.74 OSF1.W Pass 12900.00 3544.77 617976 -8389.20 974700 3600.87 5756,14 -6078.07 60.14 2528.29 100.79 2427.50 2460.77 3798 OSF1.W Pass 129M 00 3547.44 6218.93 -8420.16 9747.DO 36W.67 5156.14 .6078,07 60.14 2572:50 99.30 2473:20 2505.97 39,23 OSF7.50 Pass 13000.00 3550.11 6258.10 41451.13 9747.00 36D0.87 5756.14 -6078,07 60.14 2616.92 97.90 2519.02 2551,33 40,49 OSF7.50 Pess 13050.00 3552,78 6297.27 -848209 9747.00 35W:7 5156.14 .8078.07 60,14 266154 96S8 2564.96 2596.82 41.75 OSF1.50 Pass 13100.00 3555.34 6336.40 -8513.11 9747.00 3600.87 5756.14 $W8.07 58.98 2706.38 95.33 2611.05 2642.49 43.01 08F1,50 Pass 13150.00 3557.20 6375.33 $544.43 9747.00 36M,87 5156.14 .6078.07 56.79 2751.59 94.17 2657.42 2688.48 44.28 OSF1.50 Pass 13200.00 3558.28 6414.02 .8576.08 9747.00 3600.87 5156.14 $078.07 54.47 279716 93.10 2704.06 2734.77 45.53 OSF1.50 Pass 132W.00 3558.69 6452.49 $608.01 9747.00 3600.87 5156.14 -6078.07 53.24 254304 92.12 2750.92 2781.30 4678 0SF1,50 Pass 133W,W 3569.00 6490.94 -8639.98 9747.00 3W0.87 5156.14 $078.07 53.24 2889.D8 9120 2797.80 2827.95 48,02 OSF1.50 Pass 13350.OD 3559.31 6529.38 -0671,96 974700 360D 87 5156.14 -6078,07 53.24 2935.25 9D.34 284491 2874.70 49.25 OSF7.50 Pa. 13400.00 3559,61 6567,82 -870393 9747.00 36W 87 5156.14 .6078.07 53.24 2861.55 89.54 2892.01 2921.53 50.49 OSF7.50 Paas 13450.00 3559.92 6606.26 -8735.90 9747.00 36D0.87 5156.14 .607807 53.24 W2796 88,79 2939.17 2968.44 51.71 OSF7.50 Pass 13500.00 3560.23 6644.70 -8767.87 9747.00 3600.87 5156.14 .607807 53.24 3074.48 880E 2986.40 301543 52,93 0 F7.50 Pass 13550.00 3560.54 6683.14 -879985 974700 3W0.87 5156.14 $07807 53.24 3121.12 8742 3033.69 3062.51 54.14 OSF1.50 Pass 13W0.00 3560.85 6721.5E -MI 82 9747.00 36W.87 5156.14 .6078.07 5124 316785 0681 3081.05 3109,65 55.35 OSF1,W Pass 13650.00 3661.05 9769.79 -8M 06 9747.00 360D 87 5156.14 .6078,07 51.61 3214.81 8623 3128.58 3156,99 56.55 OSF1.W Pass 137W.00 35W.86 6797.36 -M 05 9747.W 36W.87 5156.14 $078.W 48.71 3282.18 85.71 3176.47 3204.71 57.74 OSF1.50 Pass 13750.W 35W.04 6834.34 $930.69 9767.W 36W.87 5156.1/ $078.07 45.30 3309.90 85.26 3224.84 3252.73 58.W OSF7.W Pass 13800.00 3558.58 687071 -8964.98 9747.W 36W.87 5156.14 -6078.07 41.53 335793 9487 3273.06 3301.02 60.03 OSF1.W Pass 13850.0D 3556,48 6906.44 -M9.88 9747.00 36W 87 5156.14 $07807 37.33 340624 84.53 3321.71 3349.56 61.14 OSF1.W Pass 13900.00 3553.75 6941,53 -9035,39 9747.W 36W,87 5156.14 -6078.U7 32.64 3454.79 84.25 3370,54 3398.30 62.22 OSFi.50 Pass 13850.00 355037 6975.96 -9071.48 9747.W 360047 5156.14 -6078,07 27.38 3503.55 84.00 3419.54 3447.22 63.29 OSF7.50 Pass 14950 3546.43 7009.78 -9106.11 9747.00 38W 87 5156.14 -6078.07 24.20 3552.47 83.80 3468.06 3496.27 64.32 0 F1.50 Pass 11050.W 3542.44 7043.48 -9144.85 9747.W 36W.87 5156.14 $07807 21.72 3W7.45 8381 3517.84 3545.38 85.38 OSF1.W Pass 7410DOO 3539.01 7076.67 -918206 974700 3WO 87 5156.14 -607807 26.55 3650.62 83.44 356718 359466 66,39 OSF1.50 Pass 14150.00 3536.31 7709.30 -9219.85 9747 W 3600,87 5156.14 .6 78.07 29.18 3699.97 83,28 3616.E 36" 12 67.42 OSF1.50 Pass 142W.00 35314.36 7141.36 -925817 9747W 38W.87 5156.14 -6078.07 34.36 3749.47 83,14 3%6.33 3693.71 68,44 OSF1.50 Pass 14250.00 3533.32 717297 9296.89 9747.00 3600.87 5156.14 -6 7807 41.89 379907 83.01 3716.W 374341 69.46 OSF1.50 Paas 143W.W 3533.13 7204.17 -9335.87 8747.W 36W.87 5156.14 $078.07 4747 381875 8290 3765.85 3793.15 70.46 OSF1.W Pess 14350.00 3533.12 7235.28 4i375.11 9747.00 36W.87 5156.14 .6078.07 4747 3898.44 8281 3815.63 3842.90 77.44 OSF1.W Paces 144W.00 3533.11 7266.39 -9414.26 9747.00 360087 5156,14 -6078.07 47.47 3948,14 82.73 3865.41 3892.66 7243 OSF1.50 Pess 14450.00 3533.11 729749 -945340 9747.00 36W.87 5156,14 $078.07 47.47 3997.85 82.65 3915.20 3942.42 73,41 OSF150 Pess 145W.0) 3533.10 7328.60 -9492,55 9747.00 36W.87 5156.14 $078.07 4747 404756 82.57 3964.99 3992.19 74.40 OSF1.50 Pass 14550.00 3533.09 7359.67 -953172 9747.00 36W.87 5156,14 -6078.07 47.81 409729 82.W 4014.79 4041.96 75.38 OSFIM Pass 14fiW.00 3533.11 7390.0E -957141 9747.00 360087 5166.14 -6078,07 49.83 4147.10 B2.40 4064.66 4091.81 76.35 OSF7.50 Pass 14650.00 3533.16 7419.63 -9617.14 9747.W 36W87 5156.14 $078.07 54.41 4196.99 8240 4114.W 4141:1 77.31 OSF1,W Pass 147W.00 3533.29 7448,29 -9652.71 9747.00 36W.87 5156.14 -6078.07 69.9E 4246.94 82.38 4164.56 419169 78.25 OSF1.W Pass 147W.W 3533,74 7476.09 -9694.26 9747.00 3600-87 5156.14 -6078.07 105,48 4296.92 82.37 4214.55 4241.68 79.18 OSF1.50 Pass 14800.00 3534,55 7503.W -973638 9747.00 3600.87 5156.14 $078,U7 140.45 4346,89 82.38 4264,51 4291.64 $009 OSF1.50 Pass 14850.00 3535.71 7529.09 -979.03 9747.00 36W.87 5156.14 .6076.07 158.49 439684 8240 4314.44 4341.58 8099 0SF1.50 Pass 149W.00 3537.22 7554.26 -982221 9747W 36DO47 5156.14 -607807 167.03 444675 82." 4364.30 4391 AS$1.86 OSF7.50 Pass 149W.W 3539,08 7578.53 -9565.88 9747.00 36W.87 5156.14 -6078.07 171.10 4496.58 82.50 4414.09 4441.26 82.73 OSF1.W Pass 150DO,00 354098 760 30 -9909.83 9747.00 36W.87 5156,14 .6078.07 m.77 4546,38 82.55 4463.63 4491.02 63.59 OSF1.W Pass 150W00 3542.44 7625.46 -9954.12 9747.00 3600.87 5156.14 $07807 185,37 4596.15 82.62 4513.54 4540.75 64.43 OSF1.W Pass 1510OW 3543,43 7647.97 -9998.75 9747.W 36W87 5156.14 -607807 191.91 464588 82.71 4563.17 4590.41 85.26 OSF1.W Pass 151 50.W 3543.95 7689,83 -10043.72 9747.00 380087 5156.14 .6 8.07 19707 4695.55 8280 4612.75 4640.02 86.07 0SF1.W Pass 152W.0) 3544.00 7691.02 -100B9.W 9747.03 36W.87 5156, 14 4078.07 20081 474514 8291 4662.23 4689.54 86.86 0SF1,50 Pass 15250.00 3543,65 771151 -'0134.61 9747.00 36W 87 5156.14 -6078,07 20324 4794.65 83W 471161 473E 96 87.64 OSF160 Pass 153W.W 3542.96 7731:34 -10180.W 9747.00 36W.87 5156.14 .6078.07 204,36 4944.06 83.17 47W.89 4788.26 8839 06F1.50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7 40 AM Page 26 of 39 Trajectory'. OP17-02L1 (P2) Ve Oliktok Point 1-2PB2 ^6 Y I I M N. I Albwabte I I I o Traveti C linter A1bwdNe DeNeuon kom EOUfOU Contrdlin Reference MD Reference 1. Reference NS Reference E Ofhat MD Onset T. OReet NS Oflset EVJ North Azkn "" Distance Se tan Reference Cleam-e OSF Rule SbM End of results Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 27 of 39 Field: Sweture: Slot Client Coordinase System North Reference: Magna Declination: Reference Point: Northing 6DS3614950 (ftUS) Nllu4dru9 Well: SP31-W7 spy /alend Borehole: SP31-W7 SP31 Trajectory'. SP31-W7(P8b) Era Petmleum Type: Del Plan NAD27 Alaska State Piano, zone 04. US Feet Tma Grid Convergence Angle: 0.08855791- Grid Scale Factor. 19D07' Magnetic Declination Date: January 15, 2015 Magnetic Model E-tin, Elevation 511450. 170(ftUS) 54.10D (it) MSL Structure Unc. 0.000 (ft) (i agora) 0.9999900149 BGGM 2014 Slot Unc. 0.000 (ft) (/ sigma) Trajectory E nor Model: ISCWSA0343 95.000% Canftdence 2.7955 sigma Survevino Prog: While Drilling Description Part MD From (11) MD To (ID EOU Freq (it) Survey Tool Type Hole Sim Qn) Casing Diameter 9n) Borehole I Survey 1 0.000 41.000 111000DO SLB_NSG+SSHOT-Depth Only -NO Global 16,000 13,375 SP31-W7I SP31-W/ (P8b) 1 41.000 1100.OD0 1/100.000 SLB NSG+SSHOT-No Global 16.000 13.375 SP31-W7I SP31-W7(PBb) 1 1100.000 2850.132 1/100000 SLB MWD+SAG-No Global 18.000 13.375 SP31-W7/SP31-W7(PSb) 2 1100.000 2850,132 1/100,000 SLB MWD+GMAG-NO Global 16000 13.375 SP31-W7 I SP31-W/(P81b) 2 2850.132 4350GOD 11100000 SLB MWD+SAG-No Global 12.250 9.625 SP31-W7/SP31-W7(P8b) 3 2850.132 13207.309 11100,000 SLB_MWD+GMAG-No Glgbal 12250 9,625 SP31-W7/SP31-W7(PBb) 3 13207.309 14700.000 1/100.000 SLB_MWD+SAG-No Global 8.750 5.500 SP31-W7I SP31-W7(P8b) 4 13207.309 22950.592 1/100-ODD SLB MWD+GMAG-NO Global 8750 5.500 SP31-W7 / SP31-W7 (P8b) Reference MD (ft) Reference ND (ft) Reference NS (it) Reference E (it Offset MD (it) O6set TVD (it) Offset NS (ft) Offset EW (ft) Traveling Cylinder North Azim (°) Ct-Ct Distance (ft) Minimum Albvwde Separation (ftl Albvada Deviation from Reference 00 EOU-EOU Cbarence (ft OSF Cormolling Rule Status All locel mininn indice d. Results filtered: Depth 8174.73 it <= MD c 18212.62 ft Results filtered: Ct-Ct separation <= I500OD it Results highlighted'. Ct-Ct separation c 132000 it 13800.00 3568.58 6870.71 R%498 11621.01 3313.14 10496.02 -12242,58 2000. 489345 28101 461244 4703.68 26.72 OSF1, 50 Pass 13OW.00 3558.48 8908.44 -899 as 11621.57 3313.26 10495.66 -12242.99 42.86 484349 281.04 4562 da 4653.89 26.45 OSF1, 50 Pass 13900.00 3553.75 6941.53 -9035.39 11622,36 331341 7G495.15 -12243.57 53.52 4793.57 28109 4512.40 46M 93 26.17 OSF1,50 Pass 73950.00 3550.37 6975.98 -9071.49 11623.37 3313.61 10d94.49 -122" 31 58.89 4743.72 281.13 4462.59 4554.04 25.90 OSF1.50 Pass 14000.00 354643 7009.78 -9108.11 11824.59 3313.85 10493.70 -12245.21 60.73 169395 281.19 4412.76 4504.23 25.62 OSF1.50 Pass 1405000 3542,44 7043AS -9144.85 11625,87 331410 10492.86 -1224615 56.66 4644.20 281.24 4362.96 4454.44 25.35 OSF7.50 Pass 1410D.00 353901 7076.67 -9182.06 11627.41 331140 10491,87 -12247.28 47.05 4594.52 281.30 4313.22 4404,71 25.07 OSF1.50 Pass 14150.OD 3536.31 7109.30 -9219.85 11629.25 331476 10490,66 -12248.64 39.40 454492 28137 4263.56 4355.07 24.80 OSF1.50 Pass 14200.00 3534.36 7141.36 -9258.17 11631,39 3315.18 10489.29 -12250.22 32.32 449544 28144 4214.00 4305,53 24.52 OSF7.50 Pass 14250.00 3533.32 7172.97 -9296.69 11633.80 331565 1048774 -12251.99 25.94 4446.08 28152 4164.56 4256.10 24.25 08F1.50 Pass 14300.00 3533.13 7204.17 -9335.97 11636.15 3316.17 1048603 -12253.96 22.47 439685 28161 4115.24 4208.8G 23.97 OSF1.50 Pass 14350.00 3533,12 7235.2a -9375,11 11639.20 3316,71 10484.26 -12255.98 22-46 434766 28110 4065.96 4157.54 23.70 OSF1.50 Pass 14400.00 3533.11 7266.39 -941426 11641.98 3317,25 10482.47 -12258.05 22.44 4298.48 281.79 4016.69 41 D8.29 23.42 OSF1.50 Pass 1445000 3533.11 7297.49 -9453.40 11644,82 3317.80 10480.65 -12280.15 2242 4249.32 281,89 3967.43 4059.06 23.15 0SF1,50 Pass 14500.00 3533.10 732860 -9492.55 1164769 3318,36 1047881 -12262.29 22.41 4200.16 281.98 3918.18 400963 22.88 OSF7.50 Pass 14550,00 3533.09 7359.67 -9531.72 11850.63 3318.93 10476M -12264.47 22.49 415103 282.08 386865 3960.63 22.60 OSF7.50 Pass 14600.OD 3533.11 7390.08 -957141 11653.67 3319,56 10474.86 -122BB.B9 22.59 410208 282.19 381989 3971.59 Z2.33 OSF7.SO Pass 14650.00 3533,16 7419.63 -9611.74 11657,51 3320.26 10472.54 -12269.60 22.45 4053.37 282.30 377107 3862.80 2206. OSF1.50 Pass 14700,00 3533,29 7448.29 -965271 11651.54 3321.03 10469,97 -12272.61 21.42 4004.94 28243 3722,51 3814.27 21,78 OSF1.50 Pass 1475G00 3533.74 7476.09 -9694.26 11665.99 332189 1046716 -12275.94 19.8D 3956.82 282.56 367425 3766.05 21.51 OSF1.50 Pass 14800.00 3534.55 7503.03 -9736.38 11670.85 332282 10464.06 -12279.59 10.25 390904 28271 3626.33 3718.16 21.24 OSF1.50 Pass 14850.00 3535.71 7529.09 -9779.03 11676.13 3323.83 10460.75 -12283.57 ISIS 3361.63 28287 3578.76 367D63 20.98 OSF1,50 Pass 149000O 3537,22 7554.28 -9822.21 11681.85 3324.91 10457.16 -1228788 15.32 3814.63 28304 3531,58 38M 51 2071. OSF1.50 Pass 1495000 3539.08 757E 53 -966 88 11688.00 3326.08 10453.30 -12292.53 1405 3768.06 283.23 3484.83 3576A0 2045. OSF1.50 Pass 15000.00 3540.98 7602.30 &90983 11694.43 332729 1044929 -1229741 14.87 3727.76 283.42 3438.34 3530.37 2018. OSF7.50 Pass 15D50.00 354244 762546 -9954.12 11701.16 3328.56 10445.11 -12302.52 1551 367575 283.63 3392.12 3484.21 19.92 OSF7.50 Pass 15700.00 3543.43 7647.97 _--8.75 11708.20 3329,88 10440.75 -1230789 1624 363006 28365 3346.21 3438.36 19.66 OSF1.50 Pass 16 50.00 3543,95 7669.83 -10043.72 17715.56 3331.25 10436.22 -12313.53 16.86 3584.71 28408 330D.63 3392.84 19.40 OSF1.50 Pass 15200.OD 3544.00 7691.02 -10089.00 1172324 333267 10431.51 -72319.42 17.28 3539,73 264.33 3255.40 3347,68 19.14 OSF1.50 Pesa 15250.OD 3543,65 7711:51 -10134.61 11731.26 3334.15 70426.61 -7232561 17.47 3495.16 254.59 3210,57 3302,93 18.88 OSF1,50 Pass 15300,00 3542,96 7731.34 -10180.50 11739.62 3335.69 10421.54 -/2332.07 17.56 3450,99 284.86 3166.13 3258.57 18,63 OSF1.50 Pa- 1 5350.00 3542.19 775105 -10226.45 11748.15 3337.24 10416.39 -12338.69 17.59 3406.99 285.15 3121.84 3214,36 18,37 05F1.50 Pass 154DD 00 3541.43 7770.76 -10272.39 11756.83 333882 10411.18 -1234544 17.62 3363.09 285,44 307766 3170,26 18.12 OSF1,50 Pa- 1 5 50.00 3540.67 7790.47 -10318,34 11765.65 3340,41 10405.91 -12352,34 17.65 3319.31 285.74 3033.57 3126.26 17.66 OSF7.50 Pass 15500.00 3539,91 7810,18 -10364.28 11774.62 334202 1040D.59 -12359.38 17.69 327563 28605 2989.58 3082.37 17,61 OSF7.50 Paas 15550.00 3539.15 7829.89 -10410.23 11783.74 3343.64 10395.21 -12386'56 17.72 323207 28637 2945.70 3039.59 17.36 OSF1.50 Pass 15600.00 3538.39 7849.61 -10456.17 11793.02 3345.29 10389.77 -12373,90 17.76 318863 286.70 2901.94 2994.92 17,10 OSF7.50 Pass 15650.00 3537.63 7869.32 -10502.12 118M 46 334695 10384.27 -12381.39 17.79 3145.31 28704 2858.28 2951.36 16.85 OSF1.50 Pass 15700.00 3536.88 7888.97 -10548.D9 11812.09 3348.63 10378.70 -12399.05 1747 3102.15 287.39 2814.76 290795 16,60 OSF1.50 Pass 15750.00 3536.17 7908.45 -10594.13 11821.94 3350.34 10373,03 -12396.94 17.50 3059:21 287.76 277146 2064.76 16.35 OSF1.50 Pass 1 SSW OD 3535.47 7927.93 -10640.17 11831,97 335207 10367.30 -12404,99 17.54 301641 288.14 2728:27 2821.69 16.10 OSF1, 50 Pass 15850.OD 3534,76 7947.41 -10686.22 11842A8 335381 1036151 -12413,21 17.58 2973.75 288.53 2655.22 2778.75 15.85 OSF1.50 Pass 15900.00 3534.06 796688 -10732.26 11862.57 3355.58 10355.67 -12421.61 17.62 2931.22 288.93 2642.29 273595 15.61 08F1.50 Pass 159W 00 3533.35 79BG 36 -/0778.31 11863.14 3357.36 1034977 -12430.20 17,65 2888.84 289.35 2599A9 2693:28 15.36 OSF1.50 Pass 160DO 00 3532.65 8005.84 -10824.35 11873,90 3359.15 10343,80 -1243898 1769 2846,61 289,78 255683 2650.75 15.11 05F7.50 Pass 16050.00 3531.95 802532 -f087040 11884,85 33M 97 10337.78 -12447.94 17.73 2804,53 290,22 2514,31 260136 74.87 OSF1.50 Pass 16100.00 3531.24 8044,80 -70918.44 11896.00 3362.80 10331.70 -12457,11 17.77 2762.60 290,67 2471.93 2566.12 14.62 OSF7.50 Pass 18150.00 3530.54 BD64.28 -10962,48 119D7.36 336465 10325,56 -12466.48 17.82 2720.83 291,14 2429.69 25264.03 14.38 OSF7.50 Pass 16200.00 3529,81 SOBS .66 -11008.57 11918.95 336652 10319.35 -12476.09 17.64 2679.29 29163 2387.66 2482.18 14.13 OSF7.50 Pass 16250,00 3529.01 8102.59 -11054.84 11930.92 3368,43 10313.OD -12486.06 17." 2638.19 292.14 2346.05 2440.70 13.89 OSF1.50 Pass 1830000 3528,21 8121.50 -11101.12 11943.12 3370.36 1030658 -12496,25 17.49 259728 292.67 2304,62 2399.43 13.65 OSF1.50 Pass 16350.OD 3527,41 8140.41 -1114740 11955.54 3372.31 1030DIl -12506,67 17.54 255656 29321 2263.35 2358.34 13.41 OSF1.50 Pass 16400.OD 3526,61 8159.32 -11193,68 11968.19 3374,77 1029359 -12517.33 17.58 251603 29377 2222.26 2317.42 13.18 OSF1.50 Pass 18450.00 3525.87 8178.23 -11238.88 17801.07 337624 10287.02 -12528.24 1763 247569 294.35 2181.34 2276,69 12.94 OSF1.50 Pass 165D)00 3525.01 8197.16 -11286.23 11994.19 3378.23 10280.40 -12539.39 17.93 2435.54 29494 2140,60 2236.13 12.70 OSF7.50 pass 16550,00 3623.95 :216.67 -11332.25 12DD7.31 3380.20 10273,86 -12550.59 19.68 2395.21 295,53 2099.67 2185.39 12.47 OSF1.50 Pass 7660300 3522.49 8237.11 -11377.86 120M 29 338212 1026745 -12561,71 21.48 235447 296.14 2058.33 2154.24 12.23 0SF7.50 Pass 18650.00 3520.63 8258.46 -1142303 12033.12 338400 10261.20 -12572.75 23,34 2313.32 296.74 201&58 2112.68 11.99 OSF1.50 Pass 16700,00 3518.37 8280.73 -11467,74 12045,79 3385.83 10255.09 -7250369 25.25 22'7179 297,34 197444 2070,74 11.75 OSF1 SO Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 28 of 39 Trajectory'. OP17-021 (P2)Vs. SP31-VV7 (P8b) Reference MD (fl) Reference ND (R) ".,a m NS Ift) Reference E (N) -1 MD (ft) OReet ND (fl) -1 NS (fl) Offset EW (RI Trawirq Cylinder North Azan (`) Cl-Ct Dista a (ft) Minanum A I.= Sepam n (ft) Albwade Devi.bon from Reference (ftl EOD{OD clearances (R) OSF Controlling Rub Status 16750.00 3515.67 8303.87 -1151195 12068.29 3387.62 10249.12 -12594.54 2T30 2229.87 297.94 1931.93 2028,42 11.51 0SF1.50 Pass 1680D OD 351253 832787 -11555.73 12070.64 3389,36 10243.3D -12W5.29 29.43 2187.60 298.54 1889.06 1965.74 71.27 OSF1 50 Pasa 16850.OD 3508.93 835273 -11598.96 12082.81 3391.06 10237.63 -12615.12 31.64 214498 299.13 1845.85 1942.71 71.03 OSF1 50 Pass 3504.90 8378.36 -11641,70 12094.84 3392,72 10232.08 -12626.46 33.15 210205 299.73 1802.32 1899.38 1079 OSF1 .50 Pass 16900.DO 6950.00 3501.01 840394 -11684.49 12107,17 3394AI 10226.47 -12637.31 31.32 2D5833 30035 175899 1856.24 10.54 0SF1.50 Pass 17000.00 3497,81 8428.82 -11727.74 12120, 17 3396.16 1022062 -12648.79 29.16 2017.23 30700 1716.23 1813.69 10.30 OSF1.W Pass 170W.00 3495.30 8453.00 -11771.43 12133.85 3397.97 10214.54 -12WO12 27.09 197578 3D 68 1674.09 171.77 10.07 OSF1.50 Pass 17100.00 3493.49 8476.45 -1181555 1274823 339965 10208.25 -12673.70 25.10 193502 302.40 1632.63 1730.54 9.84 OSF7.50 Pass 171 W.W 349238 8499.17 -11BW.08 1216331 3401.80 10201.75 -12687.17 23.19 189501 303.16 1591.85 1h90.W 9.61 OSF1.W Pass 172W.00 349196 8521.74 -1190499 12179,09 3403,79 10195.05 -1270131 21.36 1855.77 303.96 1551.82 1650.23 9.38 0SF1.50 Pass 172W.W 349197 8542.26 -11950.30 12195.60 3405.85 10188.16 -12716. to 20,17 1817.41 3D4.80 1512.61 1611.29 9.16 OSF7.50 Pass 17300.W 349201 B562.40 -119%.07 12212.88 3107.96 10181.1H -12731.W 1805 17W.04 305� 107434 1573.31 895 OSF7-W Pass 773W.00 3492.07 W87.52 -1204227 1223D.93 3410.12 10173.84 -12748.19 17.92 174371 306.64 1437.07 1536.35 834 OSF1 50 Pass 17400.00 3492.16 6599.79 -12088.81 12249.69 341231 10166.47 -12765.30 17.44 1708.36 307.63 140073 150032 8.53 OSF1.50 Pass 174W.00 3492.25 861796 -12135.39 12268.86 341450 10159A -12782.87 17.50 1673.43 308.66 1364.77 1464.70 8.33 OSF1.W Pass 175W.00 3492,34 8636.12 -1218198 12288.41 3416.68 1015176 -128W.85 17.56 IM87 309.72 1329.15 1429,43 8.13 OSF1.W Pass 175W.00 3492,43 8654.29 -12228.56 12308.34 3418.85 10144.45 -12819.27 17.62 1604.67 31080 1293.86 1394.49 7.93 OSF1.W Pass 17W0-W 3492.52 8672.45 -12275.14 12328.67 342100 10137.20 -1283B 13 17.68 1570,64 311.92 1250.92 1359.92 7.73 OSF7.50 Pass 17650.00 349261 8690.62 -12321.73 12349.38 3423,13 10130.00 -12857.44 17.74 1537.41 31307 1224.34 1325.71 7.54 OSF160 Pass 1770D.OD 3492,70 8708.78 -1236B.31 12370,51 3425.24 10122.86 -12877.21 17.80 1504.38 314.24 1190.14 1291.89 7.35 OSF150 Pass 17750.00 3492.79 6726.94 -12414.89 12392.04 3427,32 10115.W -12897.45 17-87 147176 315.44 1756.32 1258.46 7.16 OSF7.50 Pass 17800.00 3492.88 8745.11 -1246148 12413.99 342937 10108.83 -12918.16 17.93 1439.56 31868 1122.88 1225.44 6.97 OSF1.50 Pass 178W.00 3492.97 8763.27 -1250606 12436.36 343139 10101.97 -12939.35 17.99 1407.80 317.94 108966 1192-82 6.79 OSF1.50 Pass 17900.00 3493.06 8781.44 -12554,65 1245916 3433.38 10095.21 -12951.04 1805 137649 319.23 1057.25 1160.64 6.61 OSF1.W Pass 179W.00 3493,15 879960 A2601.23 12482.39 343532 10088.58 -12983.22 18.11 1345.63 320.56 102508 112890 6.44 OSF1.W Pass I8000 W 3493 24 8817 77 -12647 61 12506.06 3437 22 10082 09 -13005 91 18 16 131525 321 90 9933 1097 62 626 OSF1 50 Pass 18050 W 3493 33 883593 -12694 40 12530 18 3439 06 1007576 -13029 10 18 22 1285 36 323.29 962.07 106680 609 OSF1 50 Pass 18100. W U93 42 885410 -12740.98 12554 75 344086 10069 59 -13052 82 18 28 125596 3246 931 27 103646 59 OSF1 50 Pass 18150W 3493.51 8812.26 -1271756 1258978 3443.30 1006114 -130B673 7835 122697 32601 9W.96 100659 5.76 OSF150 Pass 1820000 3493.W 8690.42 -1283415 126W.52 344615 1 0051 34 -1312616 1844 119802 32737 87064 97672 5.60 OSF150 Pass 18212 62 349362 '95 01 -12845 91 1264080 3446 W 1 OW 86 -13136 12 18 4 11 W.71 327 73 W2. 969.1 5.561 OSF1 50 Pass End of results Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 29 of 39 Field: Structure: Slot Client: Coordinate System: North Reference: Magnetic Declination: Reference Point NON11na 6053614.950 (ftUS) Mkaifdluq Well: SP31-W7 Spy Island Borehole: SP31-W7L1 SP31 TmjecWry'. SP31-0170 (P3b) Ent Petroleum Type: Daf Plen NAD27 Alaska State Plane, Zone 04, US Fast hue Grid Convergence Angle: 0.08855791' Grid Scale Factor. 19.007' Magneto Deollnabon Date: January 15. 2015 Magnebc Model Easbnd Elevation 511450.170 (ftUS) 54.100 (ft) MSL Structure Unc. 0DD) (ft) (1 sigma) 0.9999W749 BGGM 2014 Sloes 0,000 (ft) (1 sigma) Traleclory Emor Model: ISCWSA034) 95.000% Confidence 2.7955 sigma Survevind Prod: Whlle Drilling Description Part MD From(B) MD To(ft) EOU Freq(It) Survey Tool Type Hole Sim Bn) Casing DI ameter (in) Borehole/Survey 1 DODO 41.000 1/100.OW SLB_NSG+SSHOT-Depth Only -NO Global 16000 13.375 SP31-W7 / SP31-W7 (P8b) 1 41.00O 1100.000 1/100.000 SLB_NSG+SSHOT-No Global 16000 13,375 SP31-W7/SP31-W7(P8b) 1 11000DO 28WA32 11100.0DO SLB MWD+SAG-NO Global 16000 13,375 SP31-W7I SP31-W7(P81b) 2 1100.000 2850.132 1/10DODO SLB MAD+GMAG-NO Global 16.OD0 13,375 SP31-W7/SP31-W7(PSb) 2 2850.132 4350.ODD 1/100.ODO SLB_MWD+SAG-No Global 12.250 9,625 SP31-W7/SP31AWp8b) 3 2B50.132 13100.000 1I700.000 SLB MWD+GMAG-NO Global 12250 9.625 SP31-W7/SP31-Mp8b) 3 1310D.000 1350 OD0 MOOD00 M SLB WD-INC_ONLV_FILLER-No Global $ 750 5.500 SP31-W7L1 / SP31-W7L7 (P31b) 3 13500.000 150DO.ODO 11100.ODO SLB_MWD+SAG-NO Global 8.750 5.500 SP31-W7L7/SP31-W7L1(P3b) 4 13500.OW 22821.271 11/00.000 SLB MWD+GMAG-No Global 8,750 5.500 SP31-W7L1 / SP31-W7L1 (P3b) Rafererxx MO lftl Refaranos TVD (ft) Rare- NS (ft) Reference E (ff) Offset MD (ft) Offset TVD (ft) Of(sal NS (ft) Offset EW (ft) Travel CyliMer North Azan (') Ct-Ct Distance (h) Minimum A110VAbla Separation (ft) Allov2ble Deviation from Rate-. (ft) EOU-EOU Clearance (ft) OSF Conrcolling Ruie SteNs All 1-1 minima indicated. Rewits filtered: Depth 8174.73 ft m MD a 18212.62 ft Rewbs filtered: CtCt separation a 1500 OD ft Rewire highlighted: CtCt separation <= 1320.00 ft 13800.00 3558.58 6870,71 43964.98 11621.01 3313.14 t049602 -12242.58 2D.00 489345 281.01 4612.44 4703.88 26.72 OSF1.50 Pass 13850.00 3556.48 6906.44 -8999.88 11621.57 3313.26 10495.66 -12242.99 4286 484349 28104 4562.44 4653.89 2645 OSF1.50 Pass 13800.00 3553.75 6941.53 -9W 39 11622.36 3313.4; 10495.15 -12243,57 5352 479357 28109 4512.48 4603,93 26.17 OSF1.50 Pass 139W 00 3550.37 6975.96 -9071.49 11623,37 331381 10494.49 -12244,31 58.89 4743.72 261.13 4462.59 4554.04 25.90 OSF1.50 Pass 14950.00 3548.43 7009.78 -9108.11 11624.59 3313.85 1D493.70 -12245,21 60.73 469395 281.19 4412.76 4504.23 25.62 OSF1.50 Pass 14D50.00 3542.44 7043.46 -9144.85 11625.87 3314.10 10492.86 -12246.15 56.66 464420 28724 4362.96 4454.44 25.35 OSF1.50 Pass 00.00 3539.01 7076.67 .918206 11627.41 3314.40 10491.87 -12247.211 47.05 4594.52 281.30 4313,22 4404.71 25.07 OSF7.50 Pass I4 14150.00 3536.31 710930 -9219.85 t7629.25 3374.76 1049D.68 -12248.64 39.40 4544.92 28137 4263.56 435507 24.80 OSF1.50 Pass 14200.00 3534.36 714136 A258.17 11631.38 3375.18 10989.29 -12250.22 32.32 4495.44 281.10 4214.00 1305.53 24.52 OSF7.50 Pass 14250.00 3533.32 7172.97 4)296.88 11633.60 3315,65 10487.74 -12251.99 25.94 444608 281.52 4764.56 4256.10 2425 OSF1.50 Pass 143D0.00 3533.13 7204.17 -933597 11636.45 3316.17 10486.03 -12253.96 22.47 43%85 28161 4115.24 420680 23.97 OSF1.50 Pass 14350.00 3533,12 7235.28 -9375.11 11639.20 331671 10484.26 -1225598 22.46 434766 281.70 4065.96 420680 23.70 OSF1.50 Pass 14400.00 3533.11 7266.39 -9414.26 11641.98 3317.25 10482.47 -1225605 22.44 4298.48 281.79 4016.69 4108.29 23.42 OSF1.50 Pass 14d50.00 353311 7287.49 -945340 11644.82 3317.80 10480.65 -12260.15 22.42 4249.32 281.89 396743 4059.06 23.15 OSF1.50 Pass 14500.00 3533.10 732860 -9492.55 1164769 3316.36 10478.81 -12262.29 2241 4200.16 28198 3918.18 4009.83 22,88 OSF7.50 Pass 14550.00 3533.09 7359.67 -9531.72 11650.63 3318.93 1047693 -12281.47 22.49 415103 26208 386895 3960.63 22,60 OSF7.50 Pass 1460000 3533.11 739008 -9671.41 11653.87 331936 1047486 -12266.89 22.59 4102:08 282.19 3819.89 3911.59 22.33 OSF7.50 Pass 1465000 3533,16 741963 -9611.74 11657.51 332D 26 10472.54 -12289.60 22.45 4053.37 282.30 3771.07 3862:80 2206. OSF1.50 Pass 14700.00 3533.29 7448.29 -965271 11661.54 3321.03 10469.97 -12272,61 2142 4004.94 282A3 3722.51 3814.27 21.78 OSF1.50 Pass 14750.OD 3533,74 7476.09 -9694.26 11665,99 3321.89 10467.16 -12275.94 1980. 3956.82 262.56 3674.25 378605 21.51 OSF1.50 Pass 1480D.00 3534,55 7503,03 -9736,38 11670,85 3322.82 10464.08 -12279.59 18.25 390904 28271 3626.33 3718.16 21.24 OSF1.50 Pass 14850.00 3535,71 7529,09 -977903 11676.13 3323.83 10460,75 -12283.57 16.76 386163 28287 3578.76 3670.63 20.98 08F1.50 Pass 14900.00 3537.22 7554.26 -982221 1168185 3324.91 10457.16 -12287.88 15.32 381463 28304 3531.58 3623,51 20.71 OSF1.50 Pass 14950.00 3539.08 7578.53 -9965.88 11688.00 3326:08 10453.30 -12292-53 1405 3788.06 283.23 3484,83 3576.80 20.45 OSF1.50 Pass 150W 00 3540.98 7602.30 -9909.83 11�43 3327.29 10449.29 -12297.41 14.67 372176 28342 3438.34 3530.37 20,18 OSF7.50 Pass 15050.00 3542.44 7625.46 -9954.12 11701.16 3328.56 10445.11 -12302.52 15.51 3675.75 283.63 3392.12 3484.21 19.92 OSF7.50 Pass 15100.00 3543.43 764797 -9993875 11708.20 3329,88 10440.75 -12307.89 16.24 3630.06 28385 3346.21 343036 19.66 OSF1.50 Pass 15150. DD 3543.95 76W.83 -10043.72 11715.56 33311 10436.22 -12313.53 1888 3584.71 28408 3300.63 3392.84 19.40 OSF7.50 Pass 1520000 35"DO 769102 -IOD89.00 11723.24 3332.67 10431.51 -12319,42 17.28 3539.73 284,33 3255.40 3347.68 19.14 OSF7.50 Pass 15250.00 3543.65 771151 -1013461 11731.26 3334,15 W426.61 -12325.61 17.47 349SA6 284.59 321057 3302.93 18.88 OSF1.50 Pass 1530000 3542.96 773134 -10180.50 11739,62 3335.69 1D42754 -12332.07 17.56 3450.99 284.86 316513 3258.57 18.63 OSF1.50 Pass 15350.00 3542.19 7751.05 -10226.45 11748.15 3337.24 10416.39 -12338,69 1759 340699 285.15 3121.84 3214,36 18.37 09F1.50 Pass 15400.OD 354143 777076 -1027238 17756.83 333882 10411,18 -12345.44 17.62 3363.09 285.44 3077,66 3170.26 18, 12 OSF1, 50 Pass 15450.00 3540.67 7790,47 -10318.34 11765,65 3340.41 10405.91 -12352.34 17,65 331931 285.74 3033.57 3126,26 17.86 OSF150 Pass 15500.OD 3539.91 7810,18 -1038128 11771.82 3342.02 1040D.59 -12359.38 17.69 3275.63 28605 2889.58 3082.37 17.61 OSF1.50 Pass 15550.00 3539.15 7829.89 -1000.23 11783.74 3343.64 10395.21 -12366.56 17.72 323207 286.37 2945,70 3038.59 17.38 OSF7.50 Pass 15600.00 3530.39 7849.61 -10456.17 11793.02 3345.29 10389,77 -1237390 17.76 318863 286.70 29D1.94 2994.92 17.10 OSF7.50 Pass 15650.00 3537.83 7869.32 -10502-12 118@.46 334fi 95 10354.27 -12381.39 17.79 3145,31 28704 2858.20 2951,36 16.85 OSF1.50 Pass 15700.00 3536.88 7888:97 -10548.09 11812,09 334863 10378.70 -12389.05 17.47 3102.15 28739 2814.76 2907.95 16.60 OSF1.50 Pass 15750.00 3538.17 7906.45 -10594.13 17821.84 3350.34 10373.03 -1239694 17.50 3059.21 28776 2771.46 2864.76 18.35 OSF1.50 Pass 1580D.00 3535.47 7927.93 -10640,17 11831,97 335207 10367:30 -1240499 17i4 3016.41 288.14 2728.27 2821.69 16.10 06F1.50 Pass 15M 00 3534.76 7947.41 -10886,22 11842.18 3363.81 10381.51 -12413.21 17.58 2973.75 288,53 2685:22 2778.75 15.85 OSF1.50 Pass 15900.00 3534.05 71W' -10732.26 11852.57 3355.58 1035& -12421.61 1762 293122 25893 264229 2735.95 15.61 OSF1.50 Pass 159M 00 3533,35 798636 -10778.31 11863.14 3357.36 70349.77 A2430.20 17.65 2888.84 289.35 2599.49 2693.28 15.36 OSF1.50 Pass 1:000.OD 3532.65 8005.84 -10824.35 11873.90 3359,15 1034380 -12438,98 17.69 2846.61 289.78 2556.83 2650.75 15.11 OSF1.50 Pass 16050.00 3531,95 802532 -10870.40 11884.85 3380.97 10337.78 -12447.94 17.73 280453 290.22 2514.31 2608.36 14,87 OSF1.50 Pass 16100.00 3531.24 8044.So -70916.44 11896.00 336280 10331.70 -12457.11 17.77 276260 290.67 2471.93 2586.12 14,62 OSF7.50 Pass 18150.00 3530.54 8064.28 -10962.48 11907.36 3364.65 10325.56 -12466.48 17.82 272083 291.14 2429.69 2524.03 14.38 OSF7.50 Pass 162W 00 3529.81 808366 -1100857 1191895 3386.52 10319.35 -12476.09 17.54 267929 29163 2387.66 2482.16 14.13 OSF7.50 Pass 16250.00 3529.01 8102.59 -1105484 11930.92 3368.43 10313.00 -12486.06 1744 2638-19 292.14 2346.05 2440.70 13.89 OSF7.50 Pass 16300.00 3528.21 8121.50 -11101.12 11943.12 337036 1030658 -12496,25 17.49 2597.28 292.67 2304.62 2399.43 13.65 06F1.50 Pass 16350.00 3527.47 8140.41 -11147.40 11955.59 337231 103DDII -125D&W 17.54 2556.56 29321 2263.35 2358.34 13.41 06F1.50 Pass 16400.D0 3526.61 8159.32 -11193.68 11968.19 3374.27 10293.59 -1251733 17.58 2516.03 29377 2222.26 231742 13.18 OSF1.50 Pass 16450,00 3525,81 8178.23 -7,239.96 11981,07 337624 10287.02 -1252824 17.63 2475.69 29435 2222:34 2276.69 12.94 OSF1.50 Pass 16500,00 3525,01 8197,16 -11286.23 11994.19 337123 10280,40 A2539.39 17.93 2435.54 294.94 2140.60 2236A3 12.70 OSF1.50 Pass 18550.00 3523.95 821667 -11332.25 12007.31 3380.20 1027386 -12550.59 1988 2395.21 29553 2089.67 2195.39 12.47 0SF7.50 Pass 166w 00 3522.49 8237.11 -11377.86 12020.29 3382.12 10267.45 -1256171 2148 2364.47 29614 2059.33 2154.24 12.23 OSF1.50 Pass 16650,00 3520.63 825846 -1142303 12033.12 3384.00 10261,20 -12572.75 23.34 2313.32 296.74 2016.58 211268 11,99 OSF7.50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 30 of 39 T,.pa ry OP17-020 (P2) V. SP31-VV7L1 (P36) Reference MD (tt) Reference ND (ft) Rafara- NS (tt) Reference (ft) Ofleet MD (ft) Onset TVD (ft) Offset NS (ft) Oftcet EW (ft) T.-kg CoiM , North'', C) Ct-C, Disbnce (ft) Mintrnum AlbwaWe Separation (ft) A"'-"* Deviation from Reference (ft) EOU�OU Clearance (ft) OSF ConSo ng RWe Sbtus 16700.00 351837 B2B0.73 -11467.74 12045.79 3385.B3 10255.1Y3 -12583.69 25.25 227179 297.34 197444 2070.74 1175 OSF7.50 Pass 16750.00 3515.67 8303.87 -1151198 12058,29 338762 10249A2 -12594.54 2730 2229.87 297.94 1931.93 2028.42 11.51 05F1.50 Pass 16800.00 3512.53 6327.B7 -1155573 12070.64 3389.36 10243.30 -12605.29 29.43 2187.60 298.54 1B89.06 1985.74 11.27 OSF1.50 Pass 1685000 350893 835273 -11598,96 120B2.81 3391.06 10237.63 -12615.92 31.64 214498 299.13 1845.85 1942.71 1103 0SF1.50 Pass 16900.00 3504.90 8378.36 -1164170 12094.84 3392.72 10232.08 -12626.46 33.15 2102.05 299.73 1802.32 1899.38 10.79 0SF1.50 Pass 16950.00 3501.0; 840394 -116114.49 12107.17 3394.41 10226.47 -12637.31 31.32 2D59.33 3D0.35 1750.99 1856.24 10.64 OSF7.50 Pass 1700000 3497.8 8428.82 -1172774 12120.17 3396,16 10220,62 -12618.79 29.16 2017.23 30100 1716.23 1013.69 10.30 OSF7.50 Pass 1705000 3495.30 8453.OD -11771.43 12133.85 3397.97 10214.54 -12880.92 27.09 197578 301.88 1674.09 1771.77 10.07 OSF150 Pass 17100.0D 3493.49 847645 -11815.55 12148.23 3399.85 10208.25 -12673.70 25.10 1935.02 302.40 1632.63 1730.54 9.84 05F1.50 Pass 17, 50:00 3492.38 8499.17 -11819060.08 12163.31 3401.SD 10201.75 -12687.17 23.19 1895.01 303.16 1591.85 1690.00 961 OSF1.50 Pass 17200.00 3491,96 8521.14 -14.99 12179.09 3403.79 10195,05 -12701,31 21.36 1855.77 303.96 1551.82 1650.23 9.38 0SF1.50 Pass 17250.00 3491,97 854226 -1195030 12195.60 3405.85 10188,16 -12716.18 2017. 1817.41 304.80 1512,61 1611.29 9.16 OSF1.50 Pass 17300.00 3492.01 8562.40 -11996.07 12212.88 34W.96 10181,09 -12731,80 1905. 1780.04 305.69 1474,34 1573.31 8,95 OSF1.50 Pass 17350.00 3492.07 858152 -12D4227 1223D 93 3410.12 10173.84 -12748.19 17.92 1743.71 3D6.64 143707 1536.35 8.74 OSF1.50 Pass 17400.00 3492.16 8599.79 -1208881 12249.69 3412.31 10166.47 -12765.30 17,44 1708.36 307.63 1400.73 7500.32 8.53 05F1.50 Pass 17450.00 34K 25 861796 -12135.39 12268,86 341450 10159.10 -12782.87 17.50 1673.43 30866 1354.77 1464.70 8.33 OSF1.50 Pass 17500.00 3492.34 8636.12 -121S 98 12288.41 3416.68 10151.76 -12800.85 17.56 1638.87 309.72 1329.15 1429.43 813 OSF1.50 Pass 17550.00 3492.43 865429 -12228.56 12308.34 3418.85 10144,45 -12819.27 17,62 160167 31080 1293.86 1394.49 7.93 OSF750 Pass 176M 00 3492.52 867245 -1227514 12328,67 342100 10137.20 -12838.13 17.68 1570.84 311.92 1258.92 1359.92 7.73 OSF1.50 Pass 17650.00 349261 SM 62 -1232173 12349,38 3423.13 10130.00 -12857.44 17.74 1537.41 313.07 1224.34 1325.71 7.54 OSF1.50 Pass 17700.00 3492.70 8708.78 -12368.31 12370.51 3425.24 10722.86 -12877.21 17.80 150438 31424 1190.14 1291.89 7.35 OSF7.50 Pass 17750.00 3492.79 872594 -1241489 12392.04 3427.32 1011580 -12897,45 17.87 147176 315.44 1156.32 1258.46 7.16 OSF1.50 Pass 17800.00 3492.88 8745.11 -12461.48 1241399 3429.37 10108.83 -12918.16 17.93 143956 316.68 1122.88 1225, 44 6.97 OSF7.50 Pass 17850.00 3492.97 8763.Z7 -12508.06 12436.36 3431.39 10101.97 -12939.35 17.99 140780 31794 1089,86 1192.82 6.79 0SF1.50 Pass 17900.00 3493.06 8781.44 -12554,65 12459.16 343338 10095.21 -12961.04 18.05 137649 319.23 1057.25 116D.64 6.61 0SF1.50 Pass 17950.00 3493.15 8799.60 -12601.23 12482.39 3435.32 10088,58 -12983.22 18.11 134563 32056 1D25.08 1128.90 6.44 0SF7.50 Pass 349324 8817T -1264781 1250606 343722 1008209 -13005.91 1816 1315.25 32190 993.35 109762 626 OSFt 50 Pass 1:DD0.00 18050.00 349333 883593 -1269440 1253018 3439.06 1007576 -1302910 18.22 1285.31 32329 962.07 1066.80 609 OSF150 Pass 18100.00 349342 885410 -1274090 1255475 3440.86 1006959 -13052.82 1828 12559fi 32469 93127 103646 5.93 OSF150 Peas 18150.00 349351 887226 -1278756 1258978 344330 1006114 -1308673 1835 1226.9] 32601 90096 1006.59 576 OSF150 Pass 1820000 18212 62 349360 U93 62 889042 889501 -1283415 -12845 91 12630.52 12640 60 M4615 3446 86 1005134 10048 % -1312616 -13136 12 1844 1198.02 32737 18 4 1 990 7-1 327731 87064 862.98 1112 969. 18 51 5.56 OSF150 OSF1 50 Pass Pass End of reslAs Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 31 of 39 Field: Mkedchuq Weil: 0120-07 Structure: 0111d kPoinf Borehole: 0120-07PBI Slot OP20 T-Jectory- 0120-07PBJ CBent: EN/ Type: Del Survey Coordl'ab System: NAD27 Alaska State Plena, Zone 04, US Feet North Reference: Titre Odd Com,ergence Angle: 0.12SOMW Grid Scale Factor. 0.999900313 Magnetic Declined,,: 20.497' Magnetic Declination Date: June 15, 2012 Matti Model: BOOM 2011 Warren- Point Northlna Easgna Eldon Structure Une. Slot Unc. 6036494.320 (ftUS) 516597,990 (ftUS) 53.100 (ft) MSL 0.000 (ft) (1 sigrre) 0.000 (ft) (1 sigma) Traleotory Error Model: ISCWSA034) 95.000% Confidence 2.7955 signal Surveyina Proa: As Drilled Description MD Frain (fl) MO To (h) EOU Freq Survey Too[ Type Note $Ue (In) Casing Diameter tin) BorNtele I Survey 0.OD0 40.900 IMBA25 SLB GYRO-MWD-Depth Only-Na Global 16.000 13.375 0120-07PBI 10120-07PBI 40.900 40.900 ActSt- SLB GYRO-MVv1}Deplh Only -No Global 16.000 13.375 0120-07P6110120-07PBI 40.900 450,460 ActStns SLB GYRO-MWD-No Global 16.000 13375 012D-07PB110120.07PS1 450460 567000 Act-Sms SLB MWD+GMAG-No Global 16.000 13.375 012D-07PBI 10120-07PBI 567.000 784.620 A 1Stre SLB GYRO-MVW-No Global 16000 13.375 0120-07PB7 I0120-07PB1 764,520 26M270 A4Sms SLB_MWD+GMAG-NO Global 16000 13.375 0120-07PBI 1012D-07PB1 2688.270 5995240 Act-stns SLB_MWD+SAG-No Global 12,250 9.625 0120-07PB11012D-07PB1 5995.240 9143.570 AaSNs SLB_MNA+GMAG-No Global 12.250 9,625 0120-07PBI 1012D-07PB1 9143.570 9MG40 ActSms SLB MWDSTO-No Global 12250 9.625 0120-07PBI 10120-07PBI 9446.040 9514000 AdS.. SLB BLIND+TREND-No Global 12.250 9.625 0120-07PB110120-07PS1 Reference MD (it) Reference TVD (it) Reference NS (k) Refe-II IS) Offset MD (ft) Offset TVD (it) Offset NS (it) Off., EW (ft) Traveling Cylinder North Atim (') Ct-Ct Diabnce (ft) Minimum Allowable SBWratian (it) Allowable Deviation from Reference (ft) EOU-EOU Cbamnce (ft) OSF Comrolling Rae Sbtus All 1-1 minima indireted. Rewft filtered: Depth 8174.73 ft r_ MD <_ 18272.62 it Results filb ad, Ct-Ct wpamWn c 1SW.W ft Results highlighted Ct-Ct sepambon c= 1320.00 It 8174.73 3540.37 251440 542143 732847 280865 158297 -574825 264.48�l 239 99923 106871 7.72 OSF1.50 Pass 8200.00 3542.09 2532.60 -543887 7349 64 2811 40 158] 96 5768.64 26450 1238.95 241 05 .190 1077 92 7 74 OSF1.50 Pass 825000 3544 16 2569.38 -5472.68 739099 2816 66 1 59779 -5809 46 266 34 1259.3' 243.85 1015 51 1096.47 7 77 OSF1 50 Pass 830D.00 354560 260710 -5505.46 7431.58 2821.65 160].56 584754 26811 1280.71 246.58 103413 11 /6.W 782 0SF150 Pass 8350.00 354650 264589 -5536 99 7471 W 2826 41 1617 11 5865 55 26993 130324 249 69 105355 1136 45 7 85 0SF1 50 Pass 8400.00 354686 2685.72 -5567.21 75M 56 28M98 1626.46 -5922.61 271.81 1326.96 252.78 1074.18 1158.11 7.90 OSF1.50 Pass 8450.00 3546.68 2726,53 -5596.10 755667 283669 1637.99 5967.93 273.52 1351.75 257.32 1094.43 1179,88 7.90 06F1.50 Pass 3545,95 2768,27 6623.62 7603.57 2842.77 1649.63 6012.96 275.25 1377.46 281.95 1115.50 120249 7.91 OSF7.50 Pass :500.OD 8550.OD 3544.68 2810.88 -5649.73 7638.92 284754 1658.46 6046.85 277.32 140421 268.09 1136.12 1225.15® OSF1.50 Pass B6W.W 3542.92 2854.27 567451 767078 285181 1666.36 6077.40 27].80 1432.16 272.22 1159.94 1250.35 7.91 OSF7.50 Pass 0650.00 354162 2897.31 -5699.92 T703.04 28%, 1674,34 6108,38 27393 1460,29 27451 1185.78 8.00 OSF1.50 Pass 8700.00 3541.13 293956 -572666 7738.29 286D11 1682.99 514223 270A3 7488.11 278.62 1211A9 1276.95 1303.37 8.09 OSF1.50 Pass :750.00 3541.09 2981.33 -5754.14 7774.48 286569 1691.84 -6 76,98 269.13 1516.83 27862 1237.21 1329.78 8.18 OSF1,50 Pass 8S00.00 3547.05 302310 -5781.62 7813.66 287104 1701.3E -6214.60 288.30 154310 28059 128321 73526.41 8.28 OSF1.50 Pass 8850.00 3541.02 3064.67 -58.39 7868.45 2878:43 1715.19 .6267.10 265.63 157150 282.85 1288,65 1382.611 8.36 OSF1.W Pass 8900.00 3540.99 3105,43 -5838,35 7914$3 268453 172737 5311.23 262,50 159600 2E4.74 1313.26 1407.85 844 OSF7.50 Pass 8950.00 3540.97 3145.29 -58S&S4 7950.97 288937 173694 634595 259.65 1623.56 286.34 1337.22 1432,34 0.53 0SF7.50 Pass 9DD0.OD 3540.95 3184.21 -5M 93 798798 2894.34 1746.59 -6381.33 256,97 1648.20 28785 1360.35 1455,97 8.81 OSF1.50 Pass 9050.00 3540.94 3222,14 -593249 8028.76 289986 1757,17 6420.33 254.12 167187 289.42 1382.45 1478.59 8,69 OSF1.50 Pess 91W.W 3540.94 325907 -5966.20 807075 2W552 1768,06 646D.48 251.43 169446 290.92 1403.54 SW IS 8.76 OSF1.50 Pess 91060.W 3541.04 3294.96 6W701 8117,73 2911.82 1780.31 6S 40 248.95 171596 MAI) 1423.46 1520.63 8.82 OSF1.50 Pass 92W.W 354123 33W 46 6036.22 8168.72 2918.63 1793.83 .6 09 248.36 1736.96 294.11 1442.86 1540.56 8.88 OSF1.50 Pess 9250.00 354142 3365.95 6D71.44 8211.57 2924.31 1805.34 -6 97 247.89 175795 295.54 1462.41 i560AD 8.95 OSF1.50 Pass 9"00 3541.61 3401.44 610666 8250.26 2929.41 1815.66 .6 1.91 24746 1779.15 296.85 148230 15W.92 9.02 OSF1.50 Pass 9350.00 3541,80 3436.93 6141,88 8250.04 2934.36 1825.65 -6 '00 247.06 180056 298.16 1502.40 1601.46 9.08 0SF7.50 Pass 94DD.00 3542.00 3472.42 6177.10 8321.76 2938.80 1(34.42 -6 29 246.70 1822.25 299,35 1522.90 1622,35 9,16 OSF7.W Pass 9450.00 3542.19 3507.91 6212.32 8365.29 2943.25 1842.94 .6 32.38 246.44 164427 30D55 1543.71 1643.57 9.23 OSF1.50 Pass 9500.W 3542.36 3543.9E 6246,94 8399.32 2949,14 185395 6774.81 248.06 1867.23 30200 1565.23 1665.57 9.W OSF 1.50 Pass 9550.00 3542.51 3581.09 62B0.44 $459.08 295698 186937 6831.g1 249.51 1891.25 303.82 158743 1688.38 9,36 OSF1.50 Pass 960000 3542.62 3619.21 631280 8499.80 296226 1860.15 6870.72 251.19 1916.36 305.18 1611.19 1712,58 944 OSF1.50 Pass 9650.00 3542.69 3608.30 6343.97 8534.66 2966.84 7SB9.26 6904.05 252.96 1942.88 306.42 1636.46 1738.2E 9,54 OSF1.50 Pass 97W.W 3542.69 3698.23 6374.06 8569.12 297145 1898.15 .6 703 253,79 1970.68 30767 1663.01 1765.24 9.63 OSF1.50 Pass 9750.00 3542.69 3738.31 640395 861779 297795 1910.77 6983.58 253.22 199870 309.30 1689.40 179217 9.72 OSF1.50 Pass 98M)00 3542.69 3778.39 6433.84 8666.33 296436 1923.63 -702995 25267 202663 310.90 1715.73 1819.04 9.80 OSF1.50 Pass 9M 00 3542.66 3818,47 -6463.74 8696.12 2988.52 1932.07 -731 252.32 2054.63 312.11 1742.52 1846.23 9.90 OSF7.50 Pass 99W.Do 3542.68 3858.55 6493,63 8729.74 2992.62 194027 -709055 251.98 208286 31330 1769.56 1873.67 1O.W OSF 1.50 Pass 9950.00 3542.68 3698.E 6523.52 $76175 299575 1948.65 -7121-19 251.65 2111.32 314.51 179681 190132 10.10 OSF7.50 Pass 1000D.W 3542,67 308.71 -6553.42 8816.29 3OD3.87 1962.87 -7173.36 251.09 2i 3877 31627 1823.50 1928.60 10.18 OSF1.50 Pass 10050.W 3542.67 397879 6563.31 8867,71 3010.74 1976.58 -7222,44 250.41 2169.02 31796 1850.06 1955.72 10.26 0$F7.50 Pass 101W.W 3543.02 4018.39 6513.83 8910.54 3016.41 1988.14 -726328 24768 2195.68 310.10 1885.5E 1988.62 1OAS OSF1.50 Paas 10150.00 3543.97 4057.1; 6645AS 8954.76 3022.12 200DIS -7305A5 245.W 2222.36 31093 1911.43 2014.75 10.75 OSF1,50 Pass 102W.W 3545.48 409491 6678.14 9003.54 3028.49 2013.56 -7351.93 242,51 224795 31180 1936.15 2D39.76 10,84 OSF1.50 Pass 10250.W 3547.55 4131.76 .671187 9050.61 3D34.85 2026.56 -7396.72 240.45 2272.39 31260 195979 2063.66 10.93 OSF1.50 Pass 103W.W 3549,80 4168.28 -6745.94 9081.52 3038.78 2035.09 -7426.17 240.27 229660 313.11 ISM 49 2087,53 1103 OSF1.50 Pass 10350.W 3552.06 4204.80 6780.02 9112.43 30422E 2043.58 -7455.68 240.10 2321.05 313.59 2W7.46 2111.66 11, 13 OSF1.50 Pas. 104W.W 3554.32 4241.32 6814.10 9252.96 3049.44 2086.62 -7589.14 239.63 234485 315.07 2029.78 2134.48 11.19 06F1.50 Pass 10450.OD 3556,67 4277,84 6848,18 9310.63 3050.40 2106.08 -784342 239.51 2367.53 315.46 2052 W 2158.89 11.29 0SF7.50 Pass 10500.00 3558.82 4314.37 6882.25 9378,55 3051.71 2129.48 -7707.17 239.56 2389.85 315.97 2073.88 2178.80 11.38 OSF1.50 Pass 10550.W 3560,53 4351.19 691602 9469.35 3053.91 2162.06 -7791.8E 240.63 241765 32E.92�( 4 2192.05 11 OSF/.50 Pass 106W.OD 3561.37 4388A9 6949.31 9513.99 3055.06 217642 -7833.41 24181 2433.W 353. 079. 2197 70. OSF1.So Pass 10850.00 3561.35 4426.22 6.982.11 9514.00 3D55.06 2178,42 -7833.42 2/3.12 245636 353.95 2102.40 2220.06 10.43 OSF1.50 Pass 107W.00 35W.41 4464.34 -7014.46 9514.00 3055.06 2178.42 -783342 244.45 2480.23 35420 212603 2243. T7 10.53 OSF1.50 Pass 10750.00 3558.55 4502.82 -7046.34 9514.00 3055.06 2178.42 -7833.42 245.83 2505.16 35a37 2150.79 2268.59 10.63 0BF1,50 Pass 10800,00 3555.81 4541,62 -7077.75 9514W 3D55.06 2178.42 -7833,42 246.89 2531.11 35447 2176.64 2294.47 10.74 OSF1.50 Pass IDS50.W 3552.81 45W 51 -7109.03 9514.W 3055.06 2178.42 -7833.42 246.89 255784 35448 22W.36 2321.19 10,85 OSF1.50 Pass 109W.W 3549.82 4619.40 -7140.31 9514.W W5506 2178A2 -7833.42 246.89 258526 354.41 2230.86 2348.66 10.97 0SF7.50 Pass 10950.W 3546.83 4658.29 -7171.59 9514.00 305506 217842 -7833.42 246.89 261335 354.25 2259.10 2376.86 1109 OSF7.50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 32 of 39 Trajectory: OP17-02LI (P2) Vs. 012007PB1 Reference MD Reference ND Reference NS JR.f.,.(,- E Oflset MD (1) OlfaetTVD (ft) Oftset NS (ft) ORset EW (ft) Traveling Cylinder NorthAzam (') Ct-Ct DiMa-a (ft) Minimum Albxaba Separation (ft) ""'E"e Deviation Gam Reference (ft) EOU E " ClarenceOSFRub(ft)(f)(ft)) (ft) Controli»9 11000.OD 3543.83 4697,18 -7202.88 9514.00 305506 2178,42 -7833.42 246,09 2642.09 354.01 225808 2405.75 11.22 OSF1,50 Peas 11050.00 3540.84 4736.07 -7234.16 9514.00 305506 2176,42 -7833.42 246.89 267146 353.71 2317.75 2435.32 11.36 OSF1.50 Pass 11100.00 3537.88 477494 -7265.47 9514.00 305506 2178.42 -7833.42 246.42 270141 353.33 234809 2465.53 11.W OSF1.50 Pass 11150.00 3535.38 481352 -7297.17 957400 3055.0E 2178.42 -7833.42 245.02 273167 352.83 2378.84 2496.12 11.64 OSF1.50 Pass 11200.00 3533.33 4851.86 -7329.21 9514.00 305506 2178.42 -7833.42 244.72 2762.29 35228 24%01 2527.11 11.79 OSF1.50 Pass 71250.00 3531.29 4890.19 -7361,25 9514.00 3055.0E 2178.42 -7833.42 244.72 279346 351.70 2441,77 2558.67 1194 OSF7.50 Pass 71300.00 3529.26 4928.52 -7393,29 951400 305506 277842 -7833.42 244.72 2825.18 351.06 2474.12 259081 12.10 OSF7.50 Pass 71350.00 3527.23 4966.85 -7425.33 9514.OD 3055,0E 277842 -7833.42 244,72 2857.41 350.38 2507.04 262350 72.26 OSF7.50 Pass 11400.00 3525.19 50D5.18 -7457,38 951400 3055.0E 2178.42 -7833.42 244.72 2890.15 349.65 2540.50 2856,72 12 43 0SF1.50 Pass 114W.00 3523,16 5043.W -7489.42 9514.00 3055.06 2178.42 -7833,42 244.72 2923.38 34890 257449 2690.46 1160 OSF750 Pass 11500.00 352115 5081.65 -7521.45 9514.00 3055.06 2178.42 -783342 244.75 2957.11 34809 2609.02 272472 1277 OSF1.50 Pass 1155000 351964 5120.46 -7553,17 9514.00 305506 2178.42 -7833.42 2"83 2991.66 34720 2644.46 2759.86 12.96 OSF7.50 Pass 1Iaw 00 3518,81 5159.44 -7594.48 9514.00 305506 2178.42 -7833.42 244,86 3027.13 346.28 2680.85 2795.95 13.15 OSF7.50 Pass 1165000 351865 5198.76 -761536 9514.00 30550E 2178.42 -7833.42 2"86 3063.48 345,35 2718.14 2832.92 13.34 OSF1.W Pass 17700.00 3579.05 523E 37 -7645.87 9514.00 305506 2178.42 -7833.42 2"87 310061 3"42 2756.19 2870.67 13.54 OSF7.50 Pass 3519.49 527801 -7676.34 9514.00 305506 2178.42 -7833.42 244.87 3138.13 343.51 2794.62 2908.80 1374 OSF7.50 Pass I7750.00 11 am 00 3519.94 5317.66 -7706.81 9514.00 305506 2778.42 -7833.42 2"87 317600 3425E 2833.41 2947.28 13.94 OSF7.50 Pass 11&10.00 3520.39 535730 -7737.27 951400 30550E 217842 -7833.42 244.87 3214.20 341.65 2872.54 2986.10 14.15 OSF1.50 Pass 1190000 3520,84 5396.94 -7767.74 951400 3055,06 2178.42 -7833.42 2"87 325272 340,71 2912.00 3025.25 14.36 OSF1.50 Pass 119W 00 3521.29 5436.58 -7798.21 951400 3055.Ofi 277842 -7833.42 244.87 3291.54 339.7E 2951.78 3064.71 14.57 OSF1.50 Pess 120DO 00 3521.74 5476.23 -7828.68 9514.OD 3055.0E 2178.42 -7B33.42 244.87 3330.67 338.81 2991.8E 3104,47 14.78 OSF1.50 Pass 12050.00 3522.19 5515.87 -7859,15 9514.OD 3055.06 217842 -7B33.42 24/.87 337008 337.85 3032.23 3144.52 15.W OSF1,50 Pass 121 W.W 3522.63 5555.51 -7889.61 9514.OD 3055.0E 2178.42 -7833,42 244.87 3409.77 336.89 3072.88 3184.85 15,22 OSf1.50 Pass 12150.00 3523,15 5594.93 -79M 37 9514.00 3055-06 277842 -7833,42 243.57 3449,53 335.90 3113.62 3225.26 15,45 OSF1.50 Pass 72200.00 3523,83 5633.88 -7951.71 9514.00 3055.0E 2178.42 -7833.42 2d230 3489.12 33468 3154.24 3265,54 15.67 OSF1.50 Pass 12250.00 3524.54 567275 -7983.15 9514.00 305506 2178.42 -783342 242.70 3528,91 333.88 3195.03 330600 15.90 OSF7.50 Pass 12300.00 352524 5711.63 -8014.59 9514.00 3055.06 2178.42 -7833,42 24270 3%8.96 33267 323fi.09 3346,71 16.13 OSF7.50 Pass 1235000 352595 5750,50 -8D4603 9514.00 3055.06 2178.42 -7833.42 242.70 3609.25 331.87 3277.38 3387.58 16.38 0SF1.50 Pass 12400.00 3526.66 5789.37 -807746 9514.00 305506 2178.42 -7833.42 242,70 364979 33067 3318.92 3428.88 16.59 OSF/.50 Pass 12450.00 3527.37 5828.25 -8108.90 9514.00 3055.06 2178.42 -7833,42 242,70 3690.56 329.88 3360.68 3470.31 16.83 OSF7.50 Pace 1250000 3528,08 5897.12 -8140.34 9514,00 305506 2178.42 -7833.42 212,70 373155 32888 3402.66 3511.97 17.07 OSF7.50 Pass 12550.00 3528.79 5905.99 -817178 9514,00 3055.06 2178,42 -7833.42 24270 377276 32790 3444.86 3553.83 17.31 OSF7.50 Pess 12ODDW 3529,75 59"91 .8203.16 9514.00 305506 277842 -7833.42 241,06 3814.25 32689 3487.35 3595.99 17.55 OSF1.50 Pads 1265000 353154 598394 -8234.35 951400 30550E 2178.42 -7833.42 240.73 3856.14 325.86 3530.28 3638.57 17.80 OSF1.50 Paas 12700.00 3534.08 6023.09 -M5.35 951400 305506 277842 -7833.42 240.10 3898.40 324,85 3573.56 3681.51 18.05 OSF1.50 Pass 12750.00 3536.75 B052.26 .8M 31 9514.00 3055,062178.42 -Ma,42 24010 394088 323.BB 3617.00 3724.63 18,30 OSF1.50 Pass 12800.00 3539.43 610143 .6327.28 9514.00 3055.0E 2178.42 -7833.42 240.10 3983.53 322.92 3660.61 3767.92 18.56 OSF1.50 Pass 1285000 3542,10 6140.60 -8358.24 9514.00 3055AE 2178.42 -7833,42 240.10 4026,35 321.97 3704.38 3811,37 18.81 OSF1.50 Pass 12900.00 3544.77 6179.76 -838920 9514.00 3055.06 2178.42 -7833.42 240.10 4069.33 321.03 3748.30 365498 19,07 OSF1.50 P.- 1 295000 3547,44 6218,93 -8420.16 9514.00 3055.06 2178.42 -7833.42 240.10 4112,48 320,10 3792.38 3898.75 1933 OSf1.50 Pass 13000.W 3550.11 6258.10 -W113 9514.00 305506 2178.42 -7833.42 240.10 4155.77 319.18 3836.60 3942.66 19.59 OSF7.50 Pass 13050.00 355278 6297.27 -848209 9514.00 305506 2178.42 83 -73.42 240.10 4199.22 31826 3880.95 3986.71 19,85 OSF150 Pass 13100.W 3555-34 6336.40 41513.11 9514.00 3055.06 2178.42 -763342 240.64 4242,77 31736 3925.41 4030.87 2011. OSF750 P.- 1 31 WOO 3557.20 6375.33 854443 9514.00 3055.0E 2178.42 -783342 241.58 4286.23 31645 3969.78 407494 2038. OSF7.50 Pass 13200.00 3558.28 641402 8576.08 9514.00 3055.06 2178.42 -7833.42 242.48 4329.56 315.54 4014.02 4118.87 20.64 OSF1.50 Pass 13250.00 3558.69 6452.49 -860801 9514.00 3055.06 217842 -7833,42 242,91 4372.80 31464 4058.16 4162.71 2091. OSF1.W Pass 13300 OD 3559.W 6490,94 4E39.98 9514.00 305506 2178.42 -7833.42 242.91 4416.14 31375 4102.39 420E 65 21.17 OSF1.50 Pass 1335000 3559.31 652938 -867196 9514,00 305506 2178.42 -7833.42 242,91 4459.62 312,87 4146.75 425072 2141 OSF1.W Pass 134W 00 35%,61 656722 -8703.93 9514,00 305506 2178.42 -M142 242,91 4503.24 31200 4191.24 4294.91 21.71 OSFt50 Pass 13450.OD 3559.92 6B06.26 -873590 9514,00 3055.0E 2178,42 -M142 242,91 454699 371.14 4235.B5 4339,24 21.99 OSFI50 Pass 13500.OD 3560.23 664470 -876787 9514,00 3055.0E 277842 -7833.42 242,91 4590.87 31028 42B0.58 4363.68 22.28 OSF1.W Pass 13550.OD 356054 6683.14 -8799.85 9514,W 305506 277842 -7833.42 242,91 4634,87 309.44 4325.43 4428.25 22.53 OSF1.W Pass 136WOD 35W.85 6721.58 -MI,82 9514.00 30550E 2178.42 -7833.42 242.91 467899 30861 4370.38 4472.92 22.81 0SF1.50 Pecs 13650.DO 3561.05 6759.79 -8864.06 9514.00 305506 217842 -M3.42 24203 4723.05 307,76 4415.29 4517.55 23.09 OSF1.50 Pass 13700.00 3560.86 6797.36 -M705 951400 3D55.OB 2178,42 -7833.42 241.68 4766.74 306,89 4459.85 4561.82 23.37 OSF1,50 Pass 1375000 3560.04 BB34.34 -8930.69 951400 30550E 2778.42 -7833.42 241.4E 481006 30600 4504.05 4605.72 23.65 OSF7 W Pacs 13800.00 3558.58 6870.71 8964.98 9514 OD 305506 277842 -7833.42 241.18 485299 305.10 4547.89 4649.26 23.93 OSF1.50 Pass 13850.00 35W 48 6906.44 43999,88 9514 O 3055,06 2178.42 -7833,42 240.83 4895.54 304.19 4591.35 4692,42 24,21 OSF7.50 Pass End of ro fts Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 33 of 39 Field: Mlostchu9 Well: 0120-07 Structure: OliMok Point Borehole: 0120-07 Slot OP20 Trajectory'- 0120-07 Client ENi Type: Def Survey Coordinate System: N4027 Alaska State Plane. Zone 04. US Feet North Reference: True Grid Convergence Angle: 0 12803916' Grid Scale Factor: 0999W313 Matins c Declination: 20.497' Magnetic Declined- Date. June 15. 2012 Magnetic Model: BGGM 2011 Reference Point Northing Easting Mayas. Structure Unc. Slot Unc. 6036494.320 (ttUS) 516597.9W (ftUS) 52,200 (it) MSL 0.000 (it) (1 sigma) 0.000 (1t) (1 Sigma) Trajectory Error Model: ISCWSA03-D $5.000% Confidence 2.7956 sigma Sumevina Proa: As Drilled Description MD From (M MD To (M ECU Fre9 Survey Tool Type Hole Sim (in) Casing Diameter On) Borehole I Survey 0.000 40.ODD WMA25 SLBGYRO-WD-Depth Only -No Global 16DOD 13.375 0I20-07PB1 10120-07PB1 40000 40DDD At-Sm. SLB_GYRO-MWD-Depth Only -No Global 16.ODD 13,375 0120-07PB11012D07PB1 40.ODO 449.560 Act-Stns SLB GYRO-MW4No Global 1SDD0 13,375 0120-07PBI 10120-07PBJ :9.560 566.100 ActStns SLB MWD+GMAG-No Global 16000 13.375 0120-07PBI 10120-07P81 588. too 763620 AaSbrs SL8 GYRC-MWD-No Global 18000 13.375 0120-07PBI 10120-0.7PBI 763,620 2687.370 ActStns SLB_MVVD+GMAG-No Global 16.000 13.375 0120-07P8110120-07PB1 2687.370 5994.340 ActSlns SLB_M[M+SAG-NO Global 12250 9.625 0t20-07PBl 1012D-07PB1 5994.340 8855.070 ActStrls SLB MVVD+GMAG-No Global 12.250 9.625 012007PB7 1012007PB1 8855.070 11780.900 ActSbis SLB MWO+GMAG-NO Global 12250 9.625 0120-07P62 I Ot20-07PB2 11780.900 14916670 Act -Sims SLB MWD+GMAG-No Global 8750 8,750 012D-07P8210120.07PS2 14918.670 1S883.440 ActStrls SLB MWD+GMAG-No Global 8.750 4.500 0120-07 0120-07 18883.440 18952000 Act-Sms SLB BLIND+TREND-No Global 8.750 45M 0120-07I 0120-07 Reference MD (n Re/erence ND (n Reference NS Reference E 011sat MD ORsel ND OHset NS OHsat EW Travel iig Cylmd. h North Azim Di Ct-CI Datanca Minimum Alla"We Separation Separation AJ10"ble Deviation from Reference (N) EOU-EOU Clearance (k) OSF Connolling Rule Stets All 1-1 minima indicated. Results fiftered: Depth 8174 73 ft <= MD - 1821162 itResult filtered: Ct-Ct separation 1500,00 it Results highlighted. CtCt separation - 1320,00 it 817473 354037 251440 -542143 732757 2808.65 1502.97 -574825 264. 12287 239 989. 1068.7 77 OSF1.50 Pass 82M 00 3542 09 2532 60 -5438.87 7348 281140 1587.96 -5768 64 264.50 123895 241 05 997.90 1077.92 7 14 0SFt.50 Pass 8250,00 35" 16 25M 38 -5472 68 09 7390 09 2816 fib 1597 79 -SBOB 46 26634 1280 36 24385 1015 51 109647 7.77 0SF7 50 Pass 830000 3545.60 260710 -5505.46 743068 282165 160756 � 84754 26811 125971 24656 103413 111600 782 OSF150 Pass 8350.00 3546.50 264589 -5536.99 747016 282641 1617 ii SIBS 26993 130324 24969 105355 11W 45 785 OSFi 50 Pass 840D.OD 3546.86 2685.72 -5567.21 750866 283098 1626.46 5922.61 271,81 132896 252.78 1074.18 1158.17 7.90 OSF1.50 Pass 8450.00 3546.68 2726.53 5.596.10 75W 77 283669 1637.99 5957.93 273.52 1361.75 257.32 1094.43 1179.88 7.90 OSF1.50 Peas 85D0.00 3545.95 276027 -562362 760287 284277 1649.63 -601296 275.25 1377.46 26195 1115.50 1202.49 OSF7.W Pass 8550.00 3544.68 2810.88 5649.73 7638.02 2647.54 1658.46 5046S5 277S2 1404,21 26B 09 113512 1225.1 OSF1.50 Pass 8%0.00 3542.92 2854.27 -567451 7669.86 2B51.81 166636 6077,40 277.80 1432.16 27222 1159.94 1250,35 91 OSF1.50 Pass 86SOM 3541.62 289731 -5899.92 7702.14 2856.11 1674.34 6108.38 273.93 1460.29 27451 1185.78 1276.95 8.00 0SF1.50 Pass :700.00 3541,13 2939.56 -5726.66 T737.39 28W 81 1682,99 6142.23 270.13 1488.11 27662 1211.49 1303.37 8.09 0SF1.50 Pass 8750.00 3541.09 2981.33 -5754.14 7773.58 286569 1891.84 6176.% 269.13 1515.83 27862 1237.27 1329.76 8.18 OSF1.50 Pass 8800.00 3541,05 3023.10 5781,62 7812,76 2871.04 1701.38 6214.60 268.30 1543.80 280.59 126321 1356.41 8.28 OSF1.50 Pass :850.00 3541.02 306467 -5809.39 7867,55 2878.43 1715,19 6267.10 265.63 1571.50 28285 1288.65 1382.61 836 0SF1.50 Pass 90000 3540.99 3105.43 5838.35 7913.73 288453 1727.37 6311.23 262.50 159800 254,74 7313.26 1407,85 8.44 0SF1.50 Pass 8950.00 3540.97 314529 -5868.54 79W 07 2889.37 1736.94 .6 5.% 259,65 1.3,56 286.34 1337.22 143234 8.53 0SF1.50 Pass 9000.00 3540.95 318421 -5899,93 7987.08 289434 1746,59 6381.33 256.87 7648.20 28785 1360.35 145597 6.61 OSF1.60 Pass 9050,00 3540,94 3222.14 -583249 8027.86 2899.86 1767.17 6420.33 254.12 167187 28942 1382.45 1478.59 8.69 OSF1,50 Pass 8100.DO 3540.94 3259.07 -59B 20 8069.85 2905.52 176806 6460.48 251.43 169446 29D22 1403.54 15WAS 8.76 OSF1.50 Pass 9150DO 3541.04 3294.96 401.01 8116.83 291182 1780.31 65D5.40 248.95 171596 292.49 1423.46 1520,63 8.82 OSF7.50 Pest. 9200.OD 3541.23 3330.46 603622 8167,82 2918.63 1793.83 -6 09 248.36 1736.% 294,11 1442.86 1540.56 8.88 08F1.50 Pass 9250.00 3541.42 3365.95 6071.44 8210.67 2924.31 1805.34 6594,97 247,89 175795 295.54 1462.41 1580Z 8.95 0SF1.50 Pass 930D.00 3541.61 340144 -6 06.66 8249.38 292941 1815.66 6631,91 247,46 1779.15 29615 1482.30 1580.92 9.02 0SF1.50 Pass 9350.00 3541.80 3436.93 6141.88 8287.14 293436 1825.65 -6 DD 247.06 1B00.56 298.16 1502.40 1Sin 41 9.06 0SF1.50 Pass :400.00 3542.00 347242 6177.10 8320.as 29M 80 1S34.42 6700.29 246.70 182225 299.35 1522.% 1822.35 9.18 0SF1.50 Pass 9450.00 3542.19 3507.91 -621232 8354.39 294325 1842.94 .6732.38 246,44 1844.27 30055 1543.71 1643.57 9.23 OSF1.50 Pass 9500D0 3542.36 3543.98 624694 83%.42 2949.14 185395 677461 24806 1867,23 30200 1565.23 1665.57 9.30 OSF1.50 Pass 9550DO 3542.51 3581.09 6280.44 8458.18 295698 1869,37 683181 249SI 189125 30382 1587.43 1688.38 9.36 OSF7.50 Pass 9600.00 3542.62 3619.21 6312.80 64%.% 2962.26 1880.15 6870.72 251.19 191636 305.18 1611.19 171258 9.44 OSF7.50 Pass 9650.00 3542.69 3658.30 6343.97 8533.76 2956.84 1W9.26 690405 252.96 194288 306.42 1638.48 1738.28 8.54 OSF1.50 Pass 97OD.OD 3542,69 3698.23 6374,06 8568.22 2971.45 18%.15 6937.03 253.79 1970.68 307.67 166301 1765.24 863 OSF1.60 Pass 9750.OD 3542.69 3738.31 6403,'5 861689 2977.95 1910.77 6983,58 253.22 1%870 309.30 1689.40 1792,17 9.72 OSF1.50 Pass 9800.00 3542.69 3T78.39 6433.84 8655.43 298436 1923.63 -7029.95 252.67 2026A3 310.% 1715.73 1819.04 9.80 OSF1.50 Pass 9850.00 3542.68 381847 646374 869722 29N 52 1932.07 -7060.31 252,32 2054A3 312.11 1742.52 1846,23 9.% OSF1.50 Pass 9900'00 3542.68 3858.55 6493.63 8728.84 299262 1940.37 -7090.55 251.98 208286 313.30 1769.56 1873.67 10,00 0SF7.50 Pass 9950.00 3542.68 389863 6523.52 8760.85 2996.75 1948.65 -7121.19 251.65 2111.32 31451 17%.81 1901.32 10.10 08F7.50 Pass 1ODW 00 3542.67 3938.71 M3.42 8815,39 30M07 1962.8'7 -7773.36 251.09 2139,77 316.27 1823,50 1928,60 1O.10 0SF1.So Pass IOD50.00 354267 3978.79 6583.31 8061.99 3010.09 1975.28 -7217.84 250,46 2168.03 317.84 1S50.19 1955.81 10.28 OSF7.50 Pass I010000 3543.02 4018.39 661383 8887.07 3013,32 198192 -724181 247.87 2195.94 309.66 1S%.29 198SAS 10.67 0SF1.50 Pass 10150DO 3543.97 4057.11 -6645.45 8979.72 3026,42 2006.93 -7330.05 244.83 222256 311.42 1911.14 2014.62 10.73 0SF1.50 Pass 10200.00 3545.48 4094.91 66 8.14 9019.86 3033.13 2017.92 -7368.05 24233 2247.74 312.18 1935.57 2039.30 10.83 OSF1.50 Pass 10250.00 3547,55 413176 6711 S7 9057.47 3D39.64 20M 11 -7403.68 24029 2271.99 312,86 1959.13 2063,09 1092 0SF1.50 Pass 1030D DD 3549.80 4168.28 674594 9095.15 3046,31 2038,19 -7439.36 240,02 2296,00 373.54 198246 20%.65 11,01 OSF1.50 Pass 10350.00 3552.% 4204.80 6780.02 9136.03 305368 2049.04 -747608 239.73 2320.13 374.29 20WS4 2; 10.27 11.10 0SF7.50 Pass 10400.00 3554.32 4241.32 6814.10 9177,37 3061A9 2059,97 -7517:24 239.44 234433 315.05 2029.28 2133.97 11.19 OSF7.50 Pass 10450,00 3556.57 4277.54 6848.18 9206.13 3066.43 2%753 -7544.48 239.24 2368,66 31555 2053A1 2157.97 11.29 0SF1.50 Pass 10500.00 3558,82 4314,37 688225 9224A3 3069.69 2072.19 -7561.87 239.31 2393.43 315.81 2077.62 2182.56 11.40 OSF1.50 Pass 10550.00 35M 53 4351.19 602 91fi 9242,40 307222 2076.61 -757901 240.59 2418.92 31605 2102.87 2207.89 11.51 0SF1.50 Pass 10600.00 3561.37 4388,49 6949,31 9259.96 3075,79 209078 -759581 24192 2445.26 316.27 2128.98 2234,08 11.63 OSF1.50 Pass 10650.OD 3561.35 4426.22 6%2.11 9277.12 3078.63 208/.71 -761227 243.25 2472.41 31648 2155.93 2261.09 11.75 05F1.50 Pass 10700A0 3560.41 4464.34 -7014.46 9301,22 3082.50 2090.02 -763546 244.52 2500.29 31687 218342 2288.71 11,87 OSF7.50 pass '0750.00 355B.55 4502.82 -7046.34 9375.35 3094S2 21%.77 -7706.66 245.33 252832 318.52 220980 2315.65 7194 OSF7.50 Pass 10800.00 3555.81 4541,62 -7077.75 945032 310732 2124.61 -7778,34 245.732 255SA5 320.15 2236,00 2342,39 12,01 0SF1.50 Pass 10850.00 3552.81 45W 51 -7109.03 9495,37 3115.44 2135.69 -7821,24 245,28 2583,73 321,10 2262.64 2369.34 12.10 0SF1.50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 34 of 39 Trajectory: OP17-020 (P2) Vs 0120-07 Reference MD Reference ND Reference NS JReference Offset MD Onset TVD Offset NS Oflsat EW Traveenp Cylinder NOMAzim CI-Ct Distance Min'unun Albvnble Separation Allowable Deviationfrom Refs.- EOU{pU Cbarance OSF CarNdlinp RNe Scotus 10900.OD 3549.82 4619.40 -714U 31 952077 3119.74 214191 -7645.50 245.04 2611.55 321.59 228896 2396.83 1221 08F1.50 Pass 10950.D0 3546.83 4658,29 -7171.59 9546.22 3123.71 2148.09 -7869.87 244.81 263964 32206 2317.58 2424.61 12.33 OSF1.50 Pass 11000.D0 3543.83 4697.18 -7202.88 9571.71 312735 2154.22 -7894.34 244,60 266800 322.51 2345.50 2452.67 1244 0SF150 Pass 11050.00 3540.84 4736.07 -7234,16 9596,10 3130.55 216D.01 -7917.82 244,40 269663 322.91 237372 2481.03 12.56 OSF1,50 Pass 11100.00 3537.80 4774.94 -7265.47 9620.02 3133,49 2165.59 -7940.88 243.76 2725,51 323,28 2102.23 250966 12.68 OSF1.W Pass 1115000 3535.36 481352 -7297.17 9644.07 3136,27 2171.11 -7964.12 24226 7754.35 323.60 2430.76 2538.29 12,80 OSF1,50 Pass 11200.00 3533.33 485186 -7329.21 96N 20 3138.87 2176.55 -7987.50 241.82 2783.21 323,90 2459,31 2566.95 12.92 OSF7.50 Pass 11250.00 3531.29 4890.19 -7361.25 3142.41 2154.10 8020.50 241.60 2812.25 32447 2487.78 2595.61 13.04 0SF1.50 Pass 1130000 3529.26 4928.52 -7393.29 :702.25 737,88 314625 2191.94 8055.05 241.37 284138 32507 2516,31 2624.34 13.15 OSF7.50 Pass 11350.00 3527.23 4966.85 -742533 9772,74 3150.13 2199,55 4iOM 85 241.15 2070,61 32566 254494 2653.17 13.26 OSF1.50 Pass 114DD.D0 3525,19 5005.18 -745738 98W.91 3153.24 220562 -0116.18 240.97 2899.98 32608 2573.90 268226 13,38 OSF7.50 Pess 11450.00 3523.16 5043.50 -7489.42 982E 97 315622 2211.58 -8 43.43 240.80 2929.53 326.49 260304 2711,54 13.50 OSF7.50 Pass 115W.00 3521.15 5081.85 -752145 985692 3159.07 2217.44 .817061 240.69 2959.28 32688 2632.40 2741.D3 1362 08F1.50 Pass 11550.00 3519,64 5120.46 -7553.17 990187 3163.62 2226.79 -8214.34 240.59 N89.53 327.64 2661.89 2770,77 1372 0SF1.50 Pass 11600.00 3578.61 5159.44 -7564.48 9954.56 3169.2' 2237.91 -8265,53 240.44 W20.15 328.59 2691.56 2800.76 13.82 OSF1.50 Pass 11650.00 3518.65 5198.76 -7615,36 10066.88 3162,51 2263.14 -8374.18 240.00 305068 330.98 271971 2829.70 13.86 OSF1,50 Pass 11700,00 3519.05 523837 -7645.87 10105.50 3187.37 2272.21 -8411.40 239.68 3081.26 331.59 2749.67 2859.88 13.98 OSF7.50 Pass 11750.00 3519.49 5278.01 -767634 10144.01 3192.40 2281.22 .8448.50 239.70 3111.92 33226 2779,65 2890,06 14,09 OSF7.50 Paas 11800.00 3519.94 5317.66 -770681 10168.46 3195.63 228690 -8472.07 239.59 3142.66 332.60 28MOB 2920.60 14.21 OSF7.50 Pass 11850.0D 3520.39 5357,30 -7737.27 10188.96 319824 2291.56 -8491,86 239.49 3173.64 33284 2810.79 295141 14.34 OSF1.W Pass 1190D OD 352064 5396.94 -776774 10209.31 3200.73 2296.08 -8511.54 239.40 3206.85 W307 287178 2982.47 14.47 OSF7.50 Pass 11950.00 3521.29 5436.58 -7798.21 10229.51 32D309 2300.47 -8531.12 239.32 3236.29 333.29 2903.OD 301377 14.60 OSF1.W Pass 12000.00 352174 5476.23 -782868 1025200 32D5.61 2305.25 .8 295 239.22 3267.96 33356 2934.41 3D45.77 1474 OSF1,50 Pass 12050.00 3522.19 5515,87 -7859.15 10294.12 3210.33 2314.15 -8593.85 239.05 3299.70 331433 2965.37 W76.49 14.84 0SF7.50 Pass 12100.00 3522.63 555551 -7889.61 10336.W 3215.16 2323.10 -8634.78 238.88 333141 335.11 2996.30 3107.68 1495 OSF7.50 Pass 1215000 3523.15 5594.93 -7920.37 10411.95 3223.87 2339.58 -8708.10 237.49 3362.65 336.70 3025.95 313786 1502 06F7.50 Pass 122DO 00 3523.83 SM88 -7951.71 10456,91 322895 234975 -8751.60 236.69 3392.98 337.50 3065.48 316765 15.12 OSF1.50 Pass 12250.00 3524.54 5672.75 -7983.15 10484,29 323204 2355.88 44778.10 236.59 3423.33 337.92 3085.41 319772 15.24 0SF1.50 Pass 12300.00 3525.24 5711.63 -801459 10511.51 3235.13 2361,88 -8804.48 23650 3453B3 33832 3115.50 3227.95 15.35 OSF1.50 Pass 123W00 3525.95 5750.50 43046.03 10540.58 3238,43 2368,18 -8832.65 23fi.40 348447 338.78 3145.69 3258.29 15.47 OSF7.50 Pass 124W.O0 3526.65 5789.37 -8077.46 10579.35 324275 2376.56 -8870,27 236.28 3515.17 339.49 3175.68 3288.52 15.57 OSF1.50 Paas 12450.00 3527.37 5828,25 -810890 10518.16 324696 238496 -M7.92 236.15 3545.68 340.19 32D5.69 3318.78 15,68 OSF1.W Pess 12500.00 352808 5867.12 -8140.34 1065100 325045 2392.05 .8 39.80 236.05 3576.63 340.75 3235.88 3349.14 15,79 OSF7.50 Pass 12550.00 352879 59D5.99 -6171.78 10681,45 325376 2398.55 -8969.36 235.96 3607.48 34126 3266.23 3379,65 15.90 0SF1.50 Pass 126DO 00 3529.75 594491 -8203.16 10711.74 325711 2404.94 -6998.78 235,49 363850 34171 3296.79 3410.37 16.01 0SF1.50 Pass 12650.00 353154 598394 -8234,35 10755.10 326204 2414.02 -9w89 234.88 3669W 34244 3327,37 3441.18 16.12 0 F150 Pass 12700.00 3534,08 602309 -M5.35 1OWS,43 3268,33 2425.34 -92 092 23450 3701.19 343.45 335774 3471.90 16,21 0BF1.50 Pass 127W.00 3536.75 6062.26 -829631 10838.18 3271.97 2431.70 -9121.45 23443 3732.55 343.94 3380.62 3502.93 16.32 0SF150 Pass 12800.00 3539.43 6101.43 -832728 10860.22 3274.77 2436,30 -9142.83 234.38 3764.08 3"23 3419,85 3534,27 16,45 OSF1.50 Pa- 1 2850D0.00 3542,10 6140.60 {35824 10882.08 3277.65 2440.76 -9 UO3 234.33 3795.79 344.51 3451.27 3565,78 1:57 OSF1.50 Pass 129.00 3544.77 617976 44389.20 10903.75 32W60 2445.09 -9185.06 234.27 3827.66 344.79 3482.87 3597.47 16.70 OSF7.50 Pass 12950 OD 354744 B21893 -8420.16 1CM 81 3286.62 2453.53 -9 .85 234.17 385967 34565 3514.02 362B.91 1679 OSF1.W Pass 13000.00 35W.11 6258.10 43451.13 1101644 329605 246767 -9 38 234.01 3891,40 34721 3544.19 3659.60 16.85 OSF7.50 Pass 13050.00 3552,78 6297.27 -W2.09 1703205 3298.10 2470.85 -9 52 233.97 3923.13 34735 3575.78 389124 16.99 OSF7.50 Pass 13100.00 3555,34 6336.40 -8513.11 11 D47.52 3300.10 2473.92 -9 24.56 234,09 3955.04 34747 3W7.57 3723.06 17.12 OSF7.50 Pass 13150.00 3557.20 6375.33 4'44.43 11062.93 330206 2d762D -9339,54 234.31 3986.86 347.57 3639,29 3754.82 17.25 OSF7.50 Pass 132(p.00 3558.26 641402 -857608 1107626 33D3.99 2479.77 .9354.48 234.51 4018.57 347.68 3670.89 3786.46 17.38 OSF7.50 Pass 1325000 3558,69 645249 {WB.01 11093.52 33D587 2482.55 -9369.36 234.59 4050.19 347.78 3702.41 381801 17.51 OSF7.50 Pess 13300.00 3559.00 6490.94 -8639.98 11108.65 3307.71 2485.23 -9364.14 234.54 408199 347.87 3734.12 3849.75 17.65 OSF1.50 Pass 1335000 3559.31 6529.38 -8671,96 111 8D.59 331379 2494.35 -943492 234.39 4113.85 349.03 3764.53 38W.84 17.73 0 F1.50 Pass 13400.W 3558.61 6567,82 .870393 11215.12 3319,81 2504AS -9488.21 234.24 414557 350.25 3795.32 391174 17.80 OSF1.50 Pass 1345000 3559,92 6606.26 -8735.90 11265.SD 3325,16 2513.46 49537.54 234.12 4177.17 351.37 3625.80 3942.6D 17.88 0SF1.50 Pass 1350D.00 3560.23 664d.70 -876787 11313.32 333D 09 2522.37 -9584.16 234.00 4208.67 352,41 3856.26 3973.40 17.96 0SF1.50 Pan 13550.OD 35W.54 6683.14 -8799.85 11353.63 3334.30 2529,94 -9623.53 23390 4240.13 353.24 3886.89 4004.31 18.05 08F1.50 Pass 13600.OD 3560.85 6721.58 -0831.82 11393.93 3338.61 2537,52 -9662.87 233.80 4271.58 354.08 3917.50 4035,20 18.14 OSF1.W Pass 13650.00 356105 6759,79 -8864.06 11420.00 334134 2642.39 -9688.34 232.93 4302.81 354.51 394029 4066.14 18.25 OSF1.50 Pass 13700.00 356086 6797.36 -8897.05 11445.15 3343.74 2547,04 .9712,94 232.25 4333.37 354.89 3978.48 4096.45 18.36 OSF1.50 Paas 1375000 3560D4 6434 83 4%M 69 11846,31 337520 2637.41 -10102,33 230.85 436132 36491 399641 4117.72® OSF1.50 Pass 13800.00 355858 6870.71 -896498 1192827 3381.63 2659.44 -10181,01 230.03 4386.90 36669 40M 20 4142.11 17.99 OSF1.W Pass 13850.00 3556.48 6906.44 -8999,88 11979.73 338566 2673.63 -102W.32 229.23 "1133 367.81 4043.51 4165.79 18.03 OSF1.50 Pess 13900'00 3553,75 694153 -9D35.39 1200681 338778 2681.04 -10256.28 228.45 443507 368.40 4066.67 418915 18.10 OSF1.W Pass 139W.00 35W.37 6975,96 -9071.49 12033.99 338991 2686.38 -10292.35 22763 4458.17 369.00 4089.18 4211.65 18.17 OSF1.W Pass 14000.00 3546.43 7009.78 -9108.11 12061.24 3392.04 2695.64 -10308.54 22713 448070 369.59 4111.11 4233.98 18.23 0BF150 Pass 1405000 3542.44 7043.46 -914485 12087.74 339404 2702,61 -1033403 226.52 4503.24 370.17 4133,06 4256.13 1B.29 OSF1.50 Pass 1410000 3539.01 707667 -918206 12114.41 3395.87 2709.53 -10359.72 225.02 4525.40 370.71 4154.69 4277.93 18.36 0SF1 W Pass 141 W.W 3536.31 7109.30 -921985 12141.30 3397.55 2716.42 -10385,66 223.55 4547.06 371.21 4175.85 4299.26 18.42 0SF1.50 Pass 14200.OD 3534.36 7141,36-9258.17 12M 41 3399.55 2725.54 -10420.53 222.22 4568.23 371.93 4196.30 43%95 1847 OSF150 Pass 14250W 3533.32 717297 -929689 12234.41 3402.37 2740,02 -10475.59 220.98 4588.65 373.14 4215.71 4339.76 1849 OSF1.50 Paas 143(%1.D0 3533.13 7204.17 -9335.97 12279.06 3404.29 2751.46 -10518.72 220.23 4608,92 374.07 4234,86 435922 18,53 OSF1.W Paas 143W.00 3533.12 7235.28 -9375.11 12314.71 340562 27W.53 -1055317 22D 20 4626,98 374.86 4254.12 437675 18.57 0SF150 Pass 14400.00 3533,11 7266.39-9414.26 12350.31 3406.76 2769.52 -1 D587.59 220.16 4649.14 375.66 4273.48 4398.38 18.61 OSF1.50 Pa- 1 4450 00 3533.11 7297,49-945340 12415.86 340830 2786.14 -10650.98 220.15 4669,27 377.19 4 4174 18.61 0 F1.50 Pass 1450000 3533.10 7328.60 -9492.55 13959.50 3407.31 3414.18 -12048,36 220.02 467661 396. 4 .7 4411.7 17.72 OSF1.W Pass 145W.00 3533,09 735967 -9531.72 13979.13 340798 3424,84 -12064.83 219.63 4681.36 398.07 4203.29 4415.65 17.68 OSF1.W Pass 14W0.00 3533.11 73W.08-9571,41 13998.77 340663 3435.40-12081.38 218.37 4685.62 39928 4266.34 4419.10 17.64 OSF1.W Paas 146W.00 3533.16 711963-9611.74 14018.43 3409.26 3445.86-12098.02 217.11 4689.10 400.44 4288.66 4421.82 17.60 OSF1.W Pass 147W.00 3533,29 7448.29-965271 14044.89 3410.01 3459.80-12120.49 215.87 4691.82 40161 429022 4423.76 17.56 OSF1.W Paas 1475000 3533.74 7476.09-9694.26 14083.50 341D49 34W.06-12153.35 214W .68 4368 402.79 42W.88 44 24.82 17.52 OSF1.W Pass 1480.00 35853455 7503.03-9736,38 14122.10 3410.16 3500.26-1218625 213.52 4694.63 403.97 4290.66 4424.99 1747 OSF1.W Pass 140.OD 3535.71 752909-9779.03 14308,13 3404 SD 3599.99-12343.17 212.49 469359 405.46 4288.13 4422.96 17.40 OSF1.50 Pass 149W.OD 3537.22 7554.26-982221 14362.36 3402W 3629.71 -12388.50 211.41 469105 405.69 4284.36 4419.W 17.34 OSF1.W Pass 14950 OD 3539.08 7578.53-9865.80 14406.78 3401,76 3654.02-12425.66 210.45 4687.55 40792 4278.63 4415.27 17.27 OSF1.W Pass 540 1500D D0 3.98 7602.30-9909.83 14446.70 3401,13 3675,81 -12459,09 209.91 4683.54 409.18 427436 4410.43 17.21 0SF1.50 Pass 1505000 3542.44 7625.46-9954.12 14483.48 3400.32 3695.82-12489.95 20907 4678.97 410,44 4268.53 44D5.01 17.14 OSF1.W Pass 15100.00 3543.43 7647.97-9998.7, 14925,30 339060 3952,20-1284941 208.33 466968 410,99 4258.69 4395.36 17.08 OSF1.50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 35 of 39 Tmj&Mry: OP17-02LI (P2) Vs. 0120-07 Reference MD (ft) Reference ND (R) Reference NS (ft) RaferanceE (tt) Offset MD (fl) OnsetD (R) N Offset NS (fl) OHsetEW (k) Traveling Cylinder NoM Azim (°) D Ct-Ct Distance Minimum Nlovnde Separkatron () alovsde Deviation from Reference (tt) EOU-EOU Clearance (k) 0." Controlling Rule Status 15150.00 W43.95 7669.83 -1004372 1494626 339957 3964.91 -128B6.04 207.38 4659.70 41243 4247.26 d384.41 16.98 OSF1.50 Pass 15200.00 35" 00 7691.02 -t00B9.00 14967.19 3400.65 3977.50 -12882.73 206.41 464927 413.06 4235.40 4373.03 16.89 OSF7.50 Peas 15250.00 3543.65 771151 -1013461 14988,09 3401.81 3989.96 -12899.46 205.40 463836 415.2E 4223.08 4361.18 16.79 OSF7.50 Pass 15300.00 3542.96 7731.34 -'0180.50 15008.95 3403.07 4002.30 -72916.23 204.80 462704 41668 4210.36 4348.92 16.fi9 OSF7.50 Pass 15350.00 3542,19 7751,05 -10226,45 15020.37 3403.80 4009.DO -12925,45 204,79 4fi15.92 418.11 4197.81 433665 16.60 OSF7.50 Pass I54DO 00 354143 7770.76 -10272,39 15028.27 3404,29 4013.57 -12931 Be 204.78 4605,23 419.52 4185.71 4325.22 16.50 OSF1,50 Pass 1545000 3540.67 779D.47 -10318.34 1SOW 20 3404.78 4018.11 -1293837 204,77 4594.97 420.91 4174.06 4314.04 16.41 OSF1.50 Paas 15500.00 3539.91 7810.18 •10364.28 150"17 340526 4022.60 -12944.93 2D4.76 4585.16 422.27 416288 4303.31 1:32 OSF1.50 Pass 15550.DO 3539.15 7829,89 -10410.23 15052.16 3405.74 4027:05 -1295155 204,76 4575.78 42361 4152.17 4293.04 18.24 OSF1.50 Pass 15600.00 3538.39 7849.61 -10456.17 1506018 340621 4031.46 -129M 23 204.75 4566.84 424.92 414192 4283.24 16,16 OSF1.50 Pass 15650.00 3537.63 7869.32 -10502.12 1506822 3406.67 4035.82 -1296498 204.74 4558.35 426.20 4132,15 4273.89 16, OSF1.50 Pass 15700.00 3536.88 7888.97 -1054809 15076.29 3407.13 4040.13 -12971.78 204.45 4550.24 42744 4122,80 4264:95 16.00 OSF7.50 Pass 1575000 3536.17 7908,45 -10694.13 1S084.38 3407.58 40"39 -12978.64 204.45 4542.40 42866 4; 13.73 425629 15.93 OSF1.50 Paas 158W 00 3535.47 7927.93 -10640.17 15092.49 3408.02 4048.60 -12985.56 204.44 453500 429.86 4105.15 4248.10 15.86 OSF1.50 Pass 15850.00 3534.76 794741 -10688.22 15100.63 3408.46 4052.76 -12992.54 204.43 452806 431.01 4087.04 4240.39 15.79 OSF1.50 Peas 1590000 3534,06 7956.88 -/0732.26 15108.79 3408.88 4056.87 -12999,57 204.43 .1.57 432.14 40aR42 4233,14 15.73 OSF1.50 Paas 159W 00 3533.35 7986.36 -10778,31 15123.43 3409.62 4064.12 -13012.28 20C42 4515.52 43329 4082.23 4226.33 15.66 OSF1.50 Pass 160DO 00 3532,65 8005.84 -106 4,35 15151,84 341081 407808 -13036.99 204.40 4509.76 434.52 408223 4219.75 1560 0SF7.50 Pass 16060.00 3531.95 S025.32 -10870.40 15180.31 341170 409197 -1306182 2D4.38 d504.23 435.75 4058.48 4213,40 15.54 OSF7.50 Paas 16100.00 3531.24 8D4480 -10916.44 15208.82 341227 4105.77 -130W877 2W 37 4498,94 436.96 4061.97 4207.30 7548 OSF7.50 Pass 1:150.0D 3530.54 S064.28 -1096248 15379,72 3409.03 4190,65 -13235.03 204.39 4492 S6 439.21 4D53,48 4189.55 15.387 OSF1.50 Pess 16200.00 3529.81 808366 -1IODB.57 15512.51 340434 4258.90 -13348.84 203.92 448569 "100 4044.69 4199:55 15.29 OSF1.60 Pass 1fi250.00 3529.01 8102.59 -1105484 15632.30 3 .63 4322.34 -1345034 203.75 4477.21 44262 403459 418/.81 15.20 OSF1.50 Pass 16300,00 3528.21 8121,50 -11101,12 15706.60 3397.68 4362.36 -13512.91 203.76 4468.21 444.06 4024,15 4171.85 15.12 OSF150 Pass 16350.00 3527.41 8140.41 -11147.40 15727,44 339726 4373.56 -13530.48 203.76 4459.28 445.39 4013.89 4162.02 15,05 OSF7.50 Pass 16400.00 3526.61 8159.32 -11193.68 15748.33 339683 4389.60 -13548.16 203.77 4450.65 446.70 4003.95 4152.53 14,97 OSF7.50 Pess 16450.00 352581 8178.23 -/1239.98 15789.28 3398.4/ 4395.71 -13565.80 203.77 444235 44800 3884.34 4143.35 1d.90 0SF7.50 Pass 16500.00 3525.01 8197.16 -11288.23 15790,24 3395.99 4406.65 -13583.83 203.93 4434.36 449.29 3995.07 4134.51 14.83 OSF1.50 Pass 16550.00 3523.95 8216.67 -11332.25 15816.27 3395,45 442D.09 -73606.13 205.05 442731 450-56 3976.75 4126.61 14.77 OSF1.50 Pass 16600.00 3522.49 8237.11 -11377.86 1S848.0B 3394.69 4436,39 -13633.43 20619 .2147 451.86 3969.61 4119,91 1471 05F1.50 Pass 166W 00 3520.63 0258:46 -11423.03 15M 98 339381 445263 -13660.87 207.35 '1683 453.16 3963.68 4114.40 74.65 OSF1.50 Pass 16700.OD 3518.37 8260.73 -11467.74 15925.88 3392.W 447585 -13700.43 208.52 441337 45454 3958.83 4110.02 14.58 OSF1,50 Pass 16750.00 3575.:7 8303.87 -1151198 15996.09 3389.50 4511.57 -137S0.82 209.68 4410,75 456.06 3954.69 4106:38 14.54 OSF1.50 Pass 16800:00 3572,53 8327.87 -11555.73 16D37.54 338763 4532,70 -13796,42 270.86� 457.43 3951,61 4103,76 14.49 OSF7.50 Pass 16850.00 3508.93 8352,73 -1159896 16078,16 336584 4553.34 -13831,36 212 440 11 458.79 3949,62 4102.22 14." OSF7.50 Pass 169DO 00 35DC90 8378.36 -11641.70 16M.84 33828D 4586.70 -1388787 212.82 4408,73 460.31 3948.41 4101:52 14.39 0SF7.50 Pass 1695000 3501,01 8403.94 -11684,49 16215.65 337932 4623.53 -13949.40 211.94 4408.64 46188 3946.76 4100.39 14.34 OSF1.50 Pess 17OD0.00 3497.81 8428.82 -11727,74 16265,55 337741 4649.21 -13992.75 21091 440767 463.34 3944.34 4098.45 14.30 OSF1.50 Pass 17050.00 3495.30 6453:00 -11771.43 16307.72 3376.38 4670.69 -t 402821 209.92 4405.91 46472 3941.18 4095.76 74.25 OSF1.50 Pa. 17100.00 3493.49 8476.45 -11815.55 16340.28 3375,94 4887,52 -14056.29 208.95 440319 46605 3937.43 4092.46 1120 OSF1.50 Pass 77150.00 3492,38 8499.77 -11860.08 18372.82 337578 470404 -74054.33 20801 4400.4: 46738 3933.07 40M 53 14.15 OSF1.50 Pass 77200.00 3491.96 8521.14 -119D499 16514.11 3374.53 4776.79 -14205.43 20712 4396.13 469.34 392680 4082.91 14.08 OSF7.50 Pass 17250.00 3491,97 8542.26 -1/950.30 16727.76 3366.52 4891.64 -1438537 206.03 4390,02 47118 3918.84 4075.67 14.00 OSF1.50 Pass 17300.00 3492.01 8562,40 -1199607 16765,08 3365.55 4912,32 -14416.41 2D4.81 4381.45 47261 39M 84 406605 13.93 OSF7.50 Pass 17350.00 3492.07 8581.52 -12D42.27 16799,41 3364:96 4931,26 •14445,03 203.59 4371.94 47404 3897.90 4055.59 13.88 OSF1.50 Pass 17400.00 3482.16 8599.79 -12DS8.81 16831.11 3364.11 4948.66 -14471,53 203.04 4361.71 475.45 3886.26 404442 11" OSF150 Paas 17450.00 3492.25 8617.96 -12135.38 17307.05 3340.21 5227.31 -14855.75 203.43 434971 475.29 3874.41 4032.52 13.75 OSF1.50 Pess 3492.34 8636:12 -12181.98 17341.07 334157 5248.51 -148S233 203.42 4334.81 476.86 3857.95 4016,58 1366 OSF1.50 Pass 17500.00 17550.00 3492.43 8654.29 -12228,56 17663.55 3363.49 5456,30 -15127.56 203.17 431833 475.25 384308 4001.17 13.65 OSF1.50 Pass 17600.00 3492.52 8872,45 -12275.14 17683.85 3365.00 5469.81 -75142.64 203.16 430D.66 477.07 3823.59 3982.29 13.55 OSF7.50 Pass 17650.OD 3492.61 8690.62 -1232173 17706.0D 3366.30 5484.49 -15759.78 203.14 4283,26 478.85 38D4.41 3963.70 1344 0SF7.50 Pass 17-700.OD 3492.70 8708.78 -12368.31 1772B.28 3367.21 5499.17 -7517581 203.13 4266,14 480.63 3785.51 3945.39 13.34 OSF1.50 Pass 17750.00 3492.79 8726.94 -12414.89 17750.66 3367.73 5513.84 -1579280 203.13 4249.29 48240 3766.89 3927,36 1124 OSF1.50 Pass 17800.00 3492.68 8745.11 -12461.48 17T79.46 3367.82 5532.61 -1521465 203. 11 4232.70 484.07 3748.63 390966 13.14 OSF1.50 Pass 17850.00 3492.97 8783.27 -125WO6 17825.06 3366.61 556229 -15249.24 203.16 4216.20 48557 3730.68 3892.19 13.05 OSF1.50 Pass 17900.00 3493.06 8781.44 -12554.65 17W8.91 3363.87 5590.81 -15282.43 203.20 4199.71 486.97 3712.74 3074.74 12.96 OSF1.50 Pass 17950.00 3493,15 8799.OD -12601,23 17893.70 3361.74 56D6.86 -1530121 203.24 418339 488.68 3694.70 3857147 12.86 OSF7.50 Pass 180DO 00 3493.24 8817,77 -12647.81 17918.52 3359.27 SIM 81 -15320.05 203,28 4167:32 49D.39 3676.93 3840,06 12,77 OSF7.50 Pass 18050.OD 3493,33 S83583 -12694.40 17943.34 335646 5638.66 -15338.96 20133 4151.50 49208 385942 3823.12 12.66 OSF7.50 Pass 18100.00 349342 8854.10 -12740.98 17970.04 3353.07 6665:56 -15359.34 203.38 413595 493.75 3642.20 3806.46 12.59 OSF1.50 Pass 18150.00 3493.51 887226 -12787.56 1SD12.21 3347.03 5682.14 -1539152 20348 4120.54 495.21 3625.34 3790.08 12.50 OSF1.50 Pass 1:200.00 3493.60 8890.42 -12834.15 18054,15 3340,27 5708.48 -15423." 203.58 410521 49667 3 54 3773.77 1 42 05F1.50 Pass 18212.62 3493.62 8895.01 -12845.91 18064.59 33384fi 571502 -15431.38 203.61 4101.3 497. 3604.31 12. OSF1.50 Pass End of -ft Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 36 of 39 Field: Mw4choq We": 012007 Structure: 07Idok Point Borehole: 0120-07PB2 Slot OP20 T.Jesmry. 0/20-07PB2 Client: EN/ Type: Def Sunray Coordinate System: NAD27 Ales*a Stare Plane. Zone 04, US Feet North Reference: Tma Grid Convergence Angle: 0.128039W Grid Scale Factor: 0999900313 Magnetic Decllndon: 20.481' Magnetic Declination Date: -erne 15. 2012 Magnetic Model: MDGM 2011 Reference Point NoMina Easting Elevation Structure Una Not Unc. 6036494. 320(ftU5) 516597990(ftUS) 53.100(ft)MSL 0,000(ft)(I ug-) 0.000(ft)(l ugma) Tralectory Error Model: ISCWSAD 3-0 95.000%Confldenu 2.7855 slgma Survevina Proa: As Drilled Description MD From (M MD To (Il) EOU Freq Survey Tool Type Hole Sim (In) CasMg Diameter lin) Borehole I Survey -0.9D0 40DD0 AdS- SLBGYRO-MWD4)epth Only-Na Global 16000 13.375 012007PB7/ 0120-07PB1 40.000 45D460 AdSta SLB_GYRO-MWD-No Global 16000 13.375 012D07PB1/0120-07PB1 450.460 567.ODD AdtStns SLB_MNO+GMAG-No Global MOOD 13.375 012007PBI I0120-07P81 567.ODD 764.520 MtStns SLB_GYRO-MWD-No Global 18000 13.375 0120-07PBI 012D 07PBI 764.520 2668.270 ActStnt, SLB_MAD+GMAG-No Global 16.000 13.375 012007PBI 0120-07PB1 2668.770 5995.240 Act-Sbia SLB_MWD+SAG.No Global 12.250 9.625 0121-07PB11012D-07PB7 59%240 8855.970 ArtStns SLBMAD+GMAG-No Global 12.250 9,625 0I20-07PB1/012D-07PB7 6855.970 11781900 AdSbts SL8 MAO+GMAG-No Global 12,250 9.625 0120-07PB2/01204Y7PB2 11781.800 16390.930 AtS- SLB MWD+GMAG-No Global 8750 8.750 0120-07PB2/0120O7PB2 16390930 16462.ODD AclSIns SL8_BLIND+TREND-No Global 8.750 8.750 0120-07PB2 / 0120-07PB2 I EOU Reference MD l Reference 11)11.fere- S IRaference Ed Offset MD I .1-1I'D I .IIS I .1.1 EW I TreNoM) Atim�r l Ct Ct D s an e) Separabon I Reference, Cka= I OSF I CoRulel1ng I Status All l i mirilma indicated. Results fihereQ Depth 8174,73It <= MD - 18212.62 ft Results filtered: Ct-Ct separation <= 1500.OD ft Results highlighted'. CtCt separation <= 1320.00 ft 817473 3540.37 251440 8200 00 354209 2532 60 8250.00 354416 2569.38 8300.00 354560 2507 10 835000 354650 264589 8400.00 3546.86 2685.72 8450.00 3546,65 2726.53 8500DO 354525 276827 855000 3544.68 281088 860D 00 3542.92 285427 8650.00 354162 28913l 8700.00 3541A3 2939.56 8750.00 3541.09 2981.33 68W 00 3541,05 3023.10 B850.OD 3541.02 3064.67 89W 00 3540.99 3105.43 8950.00 3540.97 3145.29 9000.00 3540.95 3154.21 9050.00 3540.94 322214 :100.00 3540,94 3259:07 150,00 3541.04 329496 9200.00 3541.23 333046 9250.00 354142 336595 9300.00 3541.61 3401.44 9350.00 3541.80 3436 93 940D.00 354200 3472.42 945D.OD 3542,19 3507.91 9500.OD 3542.36 3543.98 9550.00 3542.51 358109 96W 00 3542.62 3619,21 9650.00 3542,69 36W 30 9700.00 3542.69 36982 9750.00 3542.69 373831 99W 00 3542.69 37783 9850.00 3542.68 381847 99t1000 9542.W 3858.55 9950.00 3542.68 38986 10000.00 3542,67 3938.71 10050.00 3542.67 397879 10100.00 3543 D2 4018.39 10150.00 3543.97 4057.1; 102(10.00 3545.48 4094.9 10250.00 3547.55 4131.76 10300.00 3549.80 4168 28 10350.00 355206 420480 10400.00 3554,32 424132 10450.00 3556.57 4277.84 105M 00 3558,02 431437 10550.00 356053 4351.19 1 DOW 00 3561.37 438849 1065000 3561,35 4426.22 10700.00 3560.41 4464.34 10750.00 3558,55 45D2.82 10800.00 3555.81 454162 10850.00 3552.81 4580.51 1090D.00 3549.82 4619.40 10950.00 3546.83 4658.29 -542143 732769 2W776 1583.00 5]4336 26,15 1229.2 23913 990.11 1069.5 7.74 OSF150 Pass -5438.87 734885 2810.52 158799 -5768 75 26454 123948 24068 998.81 1078 10 775 0Sf1 50 Pass -5472.68 73M 20 2815 77 159782 5805 57 26fi 38 1259.88 24347 101641 1 09724 77 OSF1 50 Pass -5505.46 743079 2820 76 160759 -5B47 65 268 14 1281 22 246.20 103502 1 11676 783 0SF1 50 Pass -5536.99 7470.27 282552 161714588566 2306996 130374 24931 105443 113720 787 OSF150 Pass -5587.21 7508.76 28.09 7628.49 -5 71 271,85 1327.45 25241 1075.04 1150.85 7.91 OSF7.50 Pass -559610 7555.91 28W.81 1638.03 59B8.07 273.55 1352.23 25694 1095.28 1180.60 7.92 0SF1.50 Pass -562362 7B02.83 284189 1649.67 -6013.11 275.29 1377.92 261.58 1116.31 1203.2,a,0�� 7.93 0SF7.50 Pass -564973 7638.13 284666 1658.48 -604696 277.35 1404.66 267.72 1136.94 1225. OSFlSD Pass 5674.51 768997 2850.93 169339 -6077,50 277S3 1432.59 27IS4 1160.75 1251.04 1 93 OSF7.50 Pass -5699.92 7702.25 2855,23 1674.36 -6108,49 27396 1460.71 274.13 1186,67 1277.62 8.02 0SF1.50 Pass -5726.66 7737.51 2859.92 1SS3.02 -6142.34 270.16 1488.53 276,25 1212.28 1304-03 8.11 OSF7.50 Pass -5754A4 7773.70 2864.81 1691.87 8177.10 269.16 1516.23 278.24 1237.99 133D41 820 OSF1.50 Pass -578162 781294 2870.16 1701.42 .6214.77 268.33 1544.19 290.22 1263,98 1357.05 8.29 OSFT50 Pass -5809.39 7867,73 2877.55 1715.24 -6267.27 265.66 1571.88 292.48 12B9.40 1383.24 8.37 0SFIS0 Pass -5838.35 7913.84 288365 1777.40 -6311.34 262.53 1598.37 28436 7314.01 1408A7 8.46 0SF1.50 Pass -586854 7950.18 28M48 1736.97 -6346.05 259.68 1623.92 285,97 7337.96 1432.95 6.54 OSF1.50 Pass -5899.93 7987.19 289346 1746.62 -6381.44 256,90 164856 287.48 1361.OB 1456,58 8.63 0SF1.50 Pass 593249 6027.98 2W8.97 1757.20 .6420.44 254.15 167221 289.04 1383.17 1479.19 8.70 OSF7.50 Pass 5966.20 80W.97 2904fi3 176B.09 646DSD 251,46 1694.79 29054 1404.25 15W 77 8.77 0SF150 Pess -600101 8716.97 291094 1780.34 -6505.54 248.98 1716.29 29212 1424.17 1521.22 8.84 0SF1.50 Pass -603622 8167.98 291775 1793,87 -6554.23 248.39 1737.29 293.73 1443.56 154114 8.90 0SF7.50 Pass -W7144 8210.78 2923,43 18D5.36 -6595.07 247.91 1758.27 295.16 1463.11 1561.17 8.96 0SF1S0 Pass -6106.66 8249.47 2928.53 1815.68 8632.01 247.49 1779.46 296.47 1482.99 1581.48 9,03 0SF1.50 Pass -6141.88 8287.23 2933.47 1825.67 8668.09 247.09 180D.06 29778 03 1S.08 1602.01 9.10 0SF1.50 Pass 8177.10 832097 2937.91 1834.44 .6700,38 246.73 1822.55 29897 1523.58 1622.91 9,17 OSF7.50 Pass -6212.32 8354.48 2942.36 1642.96 -6732,47 24fi.47 1844.56 300.17 1544.39 1644.12 9,24 0SF1.50 Pass -6246.94 8398.6D 2948.25 1854.00 8774.78 248.00 1867.52 301.62 1565.90 1668.11 S31 OSF1.50 Pess -6280.44 6458.35 2956,10 186942 5831.97 249.54 1891.53 303.44 1588.09 1688.91 9,38 OSF7.50 Pass -6312,80 8499.01 2961 S7 18W 17 -6870.82 251,22 1916.64 30479 1611.84 1713.11 SAS 0SFIS0 Pass -6343.97 653346 2965.96 1889.28 .9D4.15 252.99 1943.15 306.04 1637.11 773880 9.55 0SF1.50 Pass -6374.06 8588.37 297057 7898.19 -M7.18 253.82 197094 307.28 166365 7765.75 9.65 OSF1,50 Pass 5403.95 8617.04 2977.07 1910.81 8983.72 253,25 1991396 308.92 1690.04 179288 9.73 OSF1.50 Pass -643384 8665,53 298347 1923.65 -703D.04 252.70 2D26.88 31051 1716.37 1819.54 9.82 OSF1.50 Pass .6463.74 SM7.32 298763 1932.10 -7050.47 25235 205487 311.73 1743,15 1846.73 8.91 OSF1 SO Pass 849363 8728.94 2991.74 1940.39 -7090,64 252.01 2083.10 31291 1770.19 1874.16 10.01 OSF7.50 Pass -6523.52 8761.01 2995.87 1948.69 -7121.34 251,67 2111.55 314,12 1797,43 1901.81 10.11 OSF7.50 Pass 1553.42 8815.35 3002.95 1962.86 -7173.32 251.11 2140.00 315.88 1824.12 1929.08 10.19 0SFI30 Pass 8583.31 8862.40 3009.24 1975.38 -7218.23 250-48 2166.26 317.46 1850.OD 1956.29 10,27 0SF1.50 Pass M13.83 S88747 3012.48 1982.02 -7242,20 247.90 2196.16 309.27 1886.89 1989.65 10,68 0SF7.50 Pass -6645.45 8979.85 3025.51 2006.95 -7330,18 244.96 2222.79 31102 191177 2015.12 10.75 OSF7.50 Pass .6678,14 9020.09 31M 24 2017.98 -736829 242.35 2247.97 371,78 1936,19 2039.79 10.94 OSF7.50 Pass -6711.87 9057.71 3038.74 2028.17 -7403.91 240.32 2272.21 312,46 1969.75 2063.57 10.94 OSF7 50 Pass -674594 9095.39 3045,41 2038.25 -743960 240.05 2296.21 313,14 1993.08 2087A3 11.03 OSF1.50 Pass -6780.02 9136.21 3052.77 2049.08 -747826 239.75 232D34 31389 2006.45 2110.75 11.72 OSF7.W Pass 8814.10 9177.56 3060.28 2060.02 -7517.42 239,46 2344.53 31464 202989 2134." 71.21 OSF1.W Pass -6848.18 9206.71 3065.59 2067.69 -7545.04 239.26 2368.85 315,15 2053.71 215843 11.31 OSF1.50 Pass 588225 9225.00 306886 2072.35 -7562.43 239.33 239361 315.41 2078.20 2183.01 1141 OSF1.50 Pass 891602 9242.96 3071.98 2076.77 -7579.56 240.62 2419,09 31565 2103.44 220633 11.53 0SF1.50 Pass 8949.37 9260.54 3074.96 2080.94 -7596,36 241,94 2445.41 31587 2129,54 2234.51 11.64 OSF1.50 Pass -6982.17 92T7.70 3077.79 2084.87 -7612,82 243.27 2472.56 31609 2156.47 226151 11.77 OSF1.50 Pass -701446 9" 70 3081.49 2088.94 -7634,95 244.55 250D43 316.45 2183.98 2289.14 11.88 0SF7 60 Pass -7046.34 937482 30M 50 2106.67 -7706.15 245.36 2528.46 31809 221038 231608 11.96 0SF1.50 Pass -7077.75 9449.79 3106.28 2124.49 -T777.84 24575 2556.30 319.72 2236,58 2342.83 1203. OSF1.50 Pess -7109D 9495.78 3114,58 2135.W -782164 245.30 258368 320.69 2263.20 2369.76 12,12 OSF7.50 Pass -7140,31 9521.18 3118.88 2142.03 -7845.89 245.06 261168 32117 2290.51 2397.24 12,23 0SF7.50 Pass -7171.59 9546,62 312296 2148.21 -787025 2"83 2639,77 321.65 2318,12 2425,01 12.34 OSF7.50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 37 of 39 TrajectoryOP77-02L7 (P2) Vs. 012007P82 fteferenoa MD (ft) Rekrerce ND (ft) Reference NS Ift) Reference E (ft) Ofl�t MD (ft) Olfsei ND (ft) Offset NB (ft) O6set EW (ft) Traveling CNintlar Nor61 Av. (') Ct-Ct Dismnce (ft) Minimum All-ble Separation (1) Albvnde Deflation ftom Reference (to EOU-EOU Clearance (ft) OSF Controlling Rule Status 11000,00 3543.83 4697.18 -720288 9572.11 3126.50 2154.33 -789C71 244.62 2W8.12 322.09 23d6.03 245307 12.46 OSF7.50 Pass 11050.00 3540.84 4736.07 -7234.16 9596.52 312971 2160,13 -7918.21 24442 2W6.74 32250 2374.24 2481 Al 12.58 OSF7.50 Pass 11100.00 3537.88 4T74.94 -7265.47 9MA3 313265 2165.72 -7941.27 243.78 272561 322.87 24D2,74 2510.04 12.70 OSF7.50 Pass 11150,00 3535.38 481352 -7297,17 9644.48 313543 2171.23 -7964.61 242.28 2754.45 323.18 2431,27 2538.66 12.82 OSF1.Sl1 Pass 11200,00 3533.33 485186 -7329,21 9668,61 3138.04 2176.67 .798788 241,84 278329 323.48 2459.81 2%7.31 12.94 OSF1.50 Pass 11250.00 3531.29 4890.19 -7361.25 9702.42 3141.55 2184.18 8020.66 24162 281233 324.05 2488.29 259597 13.05 OSF1.50 Pass 11300.00 3529.26 492852 -7393.29 9738.06 314539 2192.02 8D55.21 241.39 2WA6 32465 2518.81 2624.70 13.16 OSF1.50 Pass 11350.00 3527.23 4966.85 -7425.33 977307 3149.28 2199.66 -8089.15 247.17 287068 325.24 2545.44 2653.53 13.28 08F1.W Pass 11400.00 3525.19 5005.18 -745738 9801.23 3152.39 2205.73 8116.48 24099 2900.05 325.66 2575439 268261 13.39 OSF1.50 Pass 11450.00 3523.16 5043.50 -748942 98M 29 315538 221170 8143.73 240,82 2929.59 326.07 2603.52 2711.88 13.51 OSF7.50 Pass 11500.00 3521.15 5081.85 -7521.45 9857.24 3159.24 221755 -8 70.91 24070 2959.34 32646 2632.88 2741.37 1163 OSF1.50 Pass 11550.00 3579.64 5120.46 -7563.17 9Wl67 3162.72 222639 -8214.13 240.61 2989.58 327.20 2W2.38 2771.12 13,74 0 F7.50 Pass 71600,00 3518.81 5159.44 -7564.48 9954.37 3168.39 2237.92 8265.33 240.46 3020.21 328.14 2WZ06 2801.11 13,84 OSF1.50 Pass 1185000 3518.65 51%.76 -7616,36 MUM 3181.63 2283.19 -8374.28 240.02 3D50.75 330.54 2720.22 2830.07 13.88 OSF1.50 Pass 11700.00 3519.05 5238.37 -7645.87 101%.62 318649 2272.26 8411.57 239.90 308133 33115 2750.19 2860.2/ 13.99 OSF1.50 Pass 11750.00 3519.49 5278.01 -7676.34 10144.13 3191.51 228127 8448.62 239.72 3111.98 331.82 2780.17 2890.44 14,11 OSF1.50 Pass 11800.00 3519.94 5317.66 -7706.81 10168.95 319460 2287.04 -8472.53 2396D 314272 332.17 2810.55 2920.95 14.23 OSF1.50 Pass 11850.00 3520.39 5W7.30 -T737.27 10189." 319741 2291.70 8492.32 239.51 3173,69 332.41 2841.28 2951.76 14.36 OSF1.50 Pass 11900.00 352084 539694 -7767.74 1020979 3709.90 2296.22 .8 1200. 239.42 32D4.90 332.63 2872.26 2982.81 14.49 0SF1,50 Pass ;1850.00 3521.29 5436.58 -7796.21 10229.99 3202.26 2300,62 8531.57 239.33 3236.34 332.85 2903.48 3014.17 14.62 0SF7.50 Pass 12000.OD 3521.74 5476.23 -7828.68 1025201 3204.73 2305.30 -8552.95 239.24 3268,00 333.11 2934,90 30456D 14.76 OSF1.50 Pass 12050.00 3522.19 5515.87 -7859.15 10294.14 32MA5 2314.20 -8593.85 239.07 3299.74 333.88 2965.86 3076.82 14.86 OSF1.50 Pass 12100.00 3522,63 5555.51 -7889.61 10336.32 3214,28 2323A5 8634.78 238.90 333145 33465 299679 310802 14.97 OSF1.50 Pass 12750,00 3523.15 5594.93 -792037 1D411.16 322209 2339.43 8707.32 237.51 336269 336.22 3026.47 3138.22 15,04 OSF1.50 Pass 12200.00 3523.83 5.88 633 -7951.71 104ST25 3228.10 2349.06 875192 236.70 339302 337.05 3055.97 3167.99 16,14 OSF1.50 Pass 12250,00 3524.64 567275 -7983.15 10484.63 3231.20 2355.99 8778.42 236.61 342337 337.46 3085.90 3198.06 15.28 OSF7.50 Pass 12300.00 3525.24 5711.63 -W14.59 10511:86 323428 2361.99 -88(A So 236.52 3453.86 337.87 3115.99 3220.28 1137 O6F1.50 Peas 12350,00 3525.95 5750.50 8046.03 10540.69 323756 2388.25 -8832.75 236.42 3494.50 338.32 3148.18 3258.62 15.49 OSF1.50 Pass 12400.00 3526.66 5789.37 -8077.46 10579,46 3241.89 2376.63 .887036 236.29 3515.20 339.02 3176A7 3288.85 15.59 OSF 1.50 Pass 12450.00 3527.37 5828.25 87%.90 1%11126 3246.09 2385.02 8900.01 2%.17 354591 339.73 3206.18 3319.10 15.70 OSF1.50 P.- 1 2500.00 352808 586712 -8140.34 10651.27 324N9 2392.15 -8940,05 238.07 357666 340.29 323637 3349.47 15.81 OSF1.50 Pass 12550.00 3528.79 5905.99 -817178 1068772 325291 2398.65 -898961 235.98 3607,60 340.79 3266.71 3379.98 15.92 OSF1,50 Pass 12600.00 3529.75 %",91 -8203.16 10712.02 3256.26 2105.05 -8999.03 235.51 3638.52 341.25 3297.27 3410.09 76.01 OSF1.50 Pass 1265000 3531.54 sm 94 -823435 10764.91 3261.13 2414,03 -9(WI 9 234,90 3669,82 341.96 3327% 3440 18.14 OSF1.50 Pass 1270D00 3534.08 6023LE) 826535 1CSW 24 326742 2425,35 9092,42 234,51 370121 34296 3358,24 3472,242 16.23 OSF7.50 Pass 12750.OD 3536.75 606126 -8296.31 10838.63 3271.13 2431.84 912188 234.45 3732.57 343.47 3389.10 3503.26 16,34 OSF7.50 Pass 128W 00 3539.43 6101.43 8327.28 10560:67 3273.93 2436,45 -9143.25 234.40 3764.09 34376 3420.33 3534.59 16.47 0SF1,50 Pass 12850.00 3542.10 6140,60 8358,24 10882.54 3276.81 2440.91 9164.46 234.34 379579 3"04 3451.75 3566.10 16.59 OSF7, 50 Pass 12800 OD 3544.77 6179.76 8389.20 10904.21 3779.76 2445.24 -9185,50 234.29 382767 344.32 3483.34 3597.79 16.72 OSF1,50 Pass 12950.D0 354744 6218.93 8420.16 10946.12 3285.62 2453,45 9226,17 234.19 3859.67 345.15 3514.53 3629.25 1882 0SF1.50 Pass 13000.00 3550.11 6258.10 -8451.13 1101702 3295,23 2467,84 -9294.93 231.02 3891.41 346,74 3544.53 3659.92 16.88 OSF1.50 Peas 13050.00 3552.78 6297:77 8482.09 11032.63 3297.28 2471.02 9310.07 233.99 392313 34688 357626 3691.56 77.01 OSF1.50 Pass 13100.00 3555.34 6MAO 8513.11 11048.11 3299.28 2474.10 9325.11 234A0 3955,03 347.00 3608.04 3723.38 17.14 OSF1.50 Pass 13150.00 3557.20 6375.33 854443 11063.51 330124 24T7.07 9340.09 239.32 3986.85 347.10 3639.75 3755.13 17.27 OSF7.50 Pass 13200.00 3558,28 6414.02 8576.08 11078.85 3303.17 2479.% 9355.03 231.53 4018.55 347.20 3671.35 378676 17.41 OSF1.5O Pass 13250.00 3558.69 6452.49 88%.01 11094,11 33D5.05 2482.73 9369.92 234.60 4060,17 347.30 3702.87 3818,30 17.54 OSF1.50 Pass 13300.00 355900 6490:94 -M 98 11109.24 33%.89 2485.41 9384.70 234.56 4081.96 34739 3734.57 3850.04 17.67 OSF1.50 Pass 13350.00 3559,31 6529.38 4W1.% 11160.34 331288 2494.38 943465 234.41 411383 34853 3765.30 3881.15 17.75 OSF1.50 Pass 1340D.OD 3559.61 656782 8703.93 1121497 331891 2504.22 9488,04 234.26 4145.55 34975 37%.80 3912.05 17.83 08F1.50 Pass 13450.00 3559.92 6606.26 8735.90 11265,44 3324.26 2513.50 953737 234.13 4177.15 35086 3826.28 3942.91 1790 OSF1.50 Pass 13500.00 3560.23 664470 8767.87 11313.38 3329.22 2522,45 -9 20 234.01 420865 351.90 3856.74 3973.71 17,99 08F1.50 Pass 13550.00 35W,54 6693.14 8799.85 11353.69 3333.43 2530.02 -9623.57 233.91 4240,11 352,74 3887.37 4004.62 78.08 OSF7.50 Pass 136W 00 3560,85 6721,58 -8831.82 11393 3337.74 2537.60 9%2.92 233.81 427156 353.58 391798 4035.51 18.17 OSF1.50 Pass 1365OLD 3561.05 6759.79 886406 11420.38 3340.51 2542.53 9688.69 23294 4302.78 35401 3948.76 4066.44 18.28 OSF1.50 Pass 1370000 35W,86 679736 -MT 5 11445.52 334291 2547,18 971328 232.27 433334 35439 3978.95 4096.75 1 9 OSF1.50 Pass 13750.OD 3560.04 6834.34 893069 11846.06 3374.32 2637.34 -10102.09 230.86 4361.36 364.37 3996,99 41181 1B. 03F1.50 Pass 138W 00 3558.58 6870.71 896498 11977,34 3380.71 2659.17 -10180,12 23004 4386,94 366.14 4020.80 4142.52 18,02 OSF1.50 Pass 138W OD 3556.48 69D6.44 -M 68 11980.11 338484 2673.73 -10230.68 229.24 "11,37 367.28 40"09 4166.19 18.06 OSF1.50 Pass 13900.00 3553.75 6941.53 -9035.39 1200720 330696 2681.14 -10256.64 228AS 4435.11 367.87 4067.24 4189.54 18.13 OSF7.50 Pass 13950.00 3550,37 6975.96 9071.49 12034.38 3389.09 268848 -10282.72 227,64 4458.21 368.46 4089.74 4212.24 18A9 OSF1.50 Pass 14000.00 3546.43 700978 .9 08.11 12061.63 3391.22 269574 -10308.% 227,14 448073 369.06 4111.67 4234.36 18.26 OSF1.50 Pass 14050.00 3542.44 7043:46 9144.85 12088.14 3393.22 2702.72 -10334.41 226.54 450326 36964 4133.62 42%.51 18.32 OSF1.50 Pass 14100.00 3539.01 7076.67 -918206 12114.81 3395.06 2709.64 -10350.09 225.03 4525.43 370.18 4155.25 4278.31 1838 OSF1.So Pass 14150.00 3536.31 7109.30 -9219.85 1214169 339674 2716,52 -10386.03 223.56 454708 370,68 417840 4299.63 18.45 OSF1.50 Pass 14200.00 3534.36 7141.36 -8258.77 12177.24 3398.72 2725.51 -10420.36 222.23 4%821 371.37 419587 4320.33 18.50 OSF1,50 Pess 14250,00 3533.32 7172.97 -9296.89 12234.23 340153 2739.99 A0475.41 2A1.99 458886 372.58 4218.28 4340.15 18.52 OSF1.5D Pass 14300.0D 3533.13 720d.17 -933597 12279.29 34.48 03 2751,52 -10518.93 220.24 4608.94 373.52 4235.42 4359:650 15.55 OSF1.50 Pass 14350.OD 3533.12 723528 -9375.11 12314,94 3404.82 276D 59 -10553,38 220.21 4628,99 374.31 4251.68 4379.13 18.60 03F1.50 Pass 14400.OD 3533.11 72%.39 -941426 1235054 3405.96 2769.58 -10587.80 220A9 464915 375.10 4274.05 4395.75 18.64 OSF7.50 Pass 14d50,00 3533.11 7297,49 -9453.40 12415,40 3407,49 278602 -10650.53 220,16 4669.29 376.67 4 2.68 4477.89 18.64 OSF7.50 Pass 14500.00 3533.10 732060 -9492.55 13960.07 34%.52 3414.24 -1204895 220.03 467690 3%.27 4 17.75 OSF7.50 Pass 14550.00 3533.09 7359.67 9531.72 73978.71 3407.19 34249D -12085,42 219,64 4681.65 1145 4-:1 d418.36 17.71 OSF1.50 Pass 14600.00 3533.11 739008 9571.41 13M 35 340784 3435,46 -12081.97 218.38 468590 39865 4287.25 4419.SD 77.67 OSF1.50 Pass 14650.00 3533.16 741963 -9611.74 14019.01 3408.46 34a5.93 -120%.60 217.12 4689.3E 399.81 428957 4422.51 17.63 OSF1.50 Pass 7470000 3533.29 7448.29 -965271 14045.14 3409.21 3459.69 -12120.80 215.88 4692.10 400.98 4291.12 4424,45 17.59 OSF1.50 Pass 14750.00 3533.74 7476.09 -9694.26 14083.74 3409.71 3479.% -12153.65 214.69 469395 402.16 4291.79 4425.51 17.55 OSF1.50 Pass 14800.00 3534.55 7503.03 -9736.38 14122.33 3409.39 350D.14 -12186.54 213.53 4694.95 403.34 4291.56 4425.68 17.50 OSF1.50 Pass 14850.OD 3535.71 752909 -977903 14307.31 3404.09 3599,29 -12342.W 212.50 469389 404.82 428907 4423.68 17.43 OSF1.50 Pass 14900.00 3537.22 7554.26 -9622.21 14362.48 3402.07 3629.52 -12388,70 211,42 4691.35 406.04 4285.30 4420.32 17.37 OSF1.50 Pass 14950.00 3539. DS 7578.53 -9865.88 14406.91 3400.99 3653.83 -12425.87 210.46 4687,84 407.27 428D.57 4418.00 17.30 OSF750 Pass 1500D.00 3540.% 7602.30 9909.83 14446.% 3400.36 367570 -12459-02 209.92 4883.84 4%.53 427531 4411.16 1721 OSFI.SD Pass 15050.00 3542.44 7625.46 9954.12 14403.73 3399-56 3695.70 -12490.27 209.08 4679.26 409,79 4269.47 4405.74 17.77 OSF1.50 Pass 15100.00 3543.43 7647.97 9998.75 14927.34 339785 3953.13 -12851.17 20834 467005 410.32 4259.73 439617 17.11 OSF1.50 Pass 15150.00 3543.95 7669.63 -10043.72 14953.11 3398.86 3968.79 -12871.61 207.39 466001 417.73 4248.28 4385.19 77,01 OSF1.50 Pass 15200.OD 3544.00 7891.02 -tOD6900 14978.85 3399.77 3984.33 -12892,10 206.42 464948 413.14 4236.34 4373.73 16.92 OSF1.50 Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 38 of 39 Trajectory. OP17-02LI (P2) Vs. 0120-07PB2 Reference MD (R) I Reference TVD (ft) Reference NS (ft) jRsfera� fl) Olfsel MD (ft) Olfset TVD (ft) Onset NS (ft) Onset EW (R) Trave-Cylintler North Azin (') Ct-Ct Distance (fl) Mmmum Alblwde Separa8on (ft) Albwade DeWaeon fmm Reference (ft) EOU{OU Cbaronce (ft) OSF CorNding Rule Status 15250.00 354365 771151 -10134.61 15004.55 340D.59 3999.76 -12912.65 205.41 4638.43 414.54 4223.89 4361.74 16,82 OSF1.50 Pass 15300.00 3542,96 7731.34 -10180.50 15025.30 3401.18 4012,13 -129M,29 20482 4626.93 415.94 421D.99 4349.31 16.72 OSF1.50 Pass 1535000 3542.19 775105 -1022645 15042.89 3401.63 4022.52 -12943.48 20481 461562 417.36 4198.28 433705 1662 OSF1.50 Pass 15000.W 3541.43 7770.76 -1(127239 150W.54 3402.02 4032.05 -1295778 204.W 4801.64 418.75 41BS.B8 4325.14 1653 OSF1.W Pass 15450 OD 3540.67 7790.47 -10318,34 15076.24 3402.37 4043.12 -12972.20 204.80 459399 420.14 4173,84 4313.56 18.44 0SF7.50 Pass 1550D.00 3539.91 7810.18 -10364.28 15096.00 340266 405333 -1296673 2D4.79 458367 421.51 4162.15 4302.33 16.35 0SF1.W Pass 15550.00 3539.15 7829.89 -10410.23 15114,33 340290 4063.76 -13001.79 204.79 457368 422.87 4150.80 4291.43 1626 OSF7.50 P.- 1 560D 00 3530,39 784961 -10456.17 1514620 3403.22 4081.77 -13028.09 204.78 456395 424.22 4139.73 42W.81 16.17 OSF7.50 Pass 15650 OD 3537.63 7869.32 -10502.12 15178.13 3403,40 4099.72 -13054.49 204.T7 455440 42556 4128.84 4270.36 16.09 OSF1.50 Pa- 1 5 00.00 3536.88 788897 -1054809 1521009 3403,45 4117,59 -13081.00 204.49 454497 426.89 411&OB 42W.05 16.00 OSF7.50 Pa- 1 5750.00 3536,17 7908.45 -10594.13 15241.19 3403.44 4134.87 -13106.84 204,48 4535.55 428.23 4107.32 4249.74 15.92 OSF7.50 Pass 15800.00 3535.47 7927.93 -10640.17 15272.30 34D3.47 4152.06 -13132.78 204,48 4526.33 429,56 4096,76 4239.62 15,84 OSF7.50 Pass 1585000 3534.76 7947.41 -10686.22 15303.46 34M 53 4169.18 -13158.81 204.48 4517.30 430,90 4096.40 4229.70 15.76 OSF7.5D Pass 15900.00 353405 796688 -10732.26 15339.99 340360 4189.13 -13189,41 204.47 4508.44 432.24 4076,20 4219,95 15,68 OSF7.50 Pass 15950.00 3533.35 7986.36 -10778.31 15377.93 3403.57 4209.78 -13221.25 204.47 4499.71 433.59 4D66.12 4210.32 15.60 OSF7.50 Pass 16000.00 353265 8005.84 -10824.35 15419,77 3403.42 4232.46 -13256.40 204.46 4491.10 43494 4056.16 42W.81 15.52 OSF1.W Pass 16050.00 353195 8025.32 -10870.40 15476.64 340299 4263.33 -133D4.17 204.46 448247 43633 4046.14 4191.25 15.44 OSF1.50 Pass 16;0000 3531.24 8044.80 -1091644 15552,97 3402.11 43D495 -13368.14 204.47 447370 43775 403585 411154 75.36 0SF1.50 Pass 16750.00 3530,54 8064.28 -1096248 15615.27 3401.39 4339.28 -13420.12 204.47 4464.56 439.15 4025.41 4171.46 15.2E 0SF1.50 Pa- 1 62W 00 3529.81 B0W 66 -11008.57 1563858 3401,17 4352.07 -13439,61 203.95 4455.4E 440.50 4014.98 4161,48 15.20 0SF1.50 Pass 16250.00 3529.01 8102.59 -11054,84 1566191 340100 4364.75 -13459.19 203.73 444620 44183 4004.37 4151.32 15.12 0SF7.50 Pass 163( Do 3528.21 8121.50 -11101.12 156a5.27 3400.88 4377.33 -13478.88 203.73 4437.20 443.16 3994.0-4 414143 15.05 OSF1.50 Pa- 1 6350.00 3527,41 8140.41 -11147.40 1570757 3400.81 4389.24 -13497.73 203.73 4428.48 44448 3984.00 4131.83 14.05 0SF1.50 Pass 164W.00 3526.61 8159.32 -11193.8E 15726.49 340D.70 4399.23 -13513.W 203.73 4420.0E 445.77 3974.31 4122.57 14.90 OSFi.W Pass 16450.00 3525.81 8178.23 -11239,96 15745,46 340D 50 4409.14 -13529,97 203.73 441202 44705 3964.98 4113.67 14.83 OSF1.50 Pass i6500.W 3525.01 8197.16 -11286.23 15764.46 3400.27 4418.95 -13546.24 203.89 4404.32 448.W 3956.01 4105.12 11.T7 OSF1.W Pass 16550.00 3523,95 821667 -11332,25 15968.15 3396.13 4526,93 -13718.85 205,01 9 43.1E 450.22 3945.95 4095.70 14.68 OSF1.50 Pass 16600.00 3522.49 8237.11 -11377.86 15999.88 3396.36 4544,10 -13745,53 208.12 4388,63 451,59 3937,04 4087.24 14,61 OSF7.50 Pass 76650.00 352063 825846 -1142303 16024.54 339669 4557.35 -13766,33 207.25 4382.32 452.93 3929.3E 4000.03 14.54 OSF7.50 Pass 1:700 OD 3518.37 82W.73 -1146774 16049,27 339705 4570,51 -13787,27 206.40 4377.29 45427 3923.01 4074.11 14.4E OSF1.W Pass 1750,00 3515.67 830387 -1151l 98 16074.06 3397.45 4583.58 -13808,32 2D9.53 437353 455.60 3917.92 4089,46 14.43 OSF7.50 Pass 16BOD.OD 3512.53 $327.67 -11555.73 16099,23 3397.89 459G.72 43829.78 210.68 4371.04 456.93 3914,11 4066.09 14,38 OSF1.50 Pass 168W.00 350093 8352.73 -11598,96 1:129.66 3398.55 4612.49 -13855.81 211.65 458.27 3911.50 406393 74.33 OSF1,50 Pass 16882.06 3506.3E 83E9.10 -11626.41 1614916 339908 4622.52 -13872,51 212. 9.f9. 459.13 391047 4063.19 14.30 OSF1.W Pass 169M 00 3504.90 8378.36 -1164170 16160.05 3399,40 4628.10 -13881.86 212.W 4369,66 459.62 3910.04 4062.92 14.29 OSF1.50 Paas 189W.00 3W1.01 8403.94 -'1614.49 16190.39 340044 4643.57 -13907.94 21064 4369.69 460,97 39DB.72 4062.05 14.25 OSF1.W Pass 17000.00 3497.81 842882 -11727.74 16224,26 340187 46W.71 -13937A2 210.84 4369.12 462.34 3906.7E 4OW.57 14.20 OSF1.50 P.- 1 7 .00 3495,30 8453.00 -11771.43 16258.84 3403.70 4878.09 -13966,96 209.60 4367.91 463,69 3904.22 405046 14.16 OSF1.50 Pass 17100.00 3493.49 847645 -1181655 16293.39 3405.69 4695.33 -13996,81 208.59 4366.05 465.03 3901.03 4055.71 14.11 OSF1.50 Pass 17150.00 3492.38 8499.17 -718W.08 16331.56 34OB52 4714.27 -14029.B5 207.W 4363.53 466.40 389713 4052.27 14,06 OSF7.50 Pass 172W.W 3491.96 852114 -719D499 16389.76 3411.18 4733.13 -14062.96 206.65 4360.32 467,76 3892,56 4048.15 14.01 OSF7.50 Pass 17250.00 3491.97 8542,26 -1195030 16413.07 3414.23 4754,43 -14100.56 205.40 4356.29 477.64 3878,45 4037.40 13.70 OSF1.50 Pass 173W.00 349201 8562.40 -1199607 16462.00 341768 477847 -14143.03 204.11 435121 498.86 3852,35 4018.31 13.11 OSF7.50 Pass 173W 00 349207 8581.52 -1204227 16462,00 341768 477847 -14143,03 202.87 4345,34 499,82 3645.51 4011.79 13.06 OSF1.50 Pass 174W.OD 349216 8599.79 -12088.81 16462.00 3417 fib 477E 47 -14143.03 202.31 4339.11 500.73 38M,38 4004.96 13.02 OSF7.50 Pass 17450.00 3492.25 8617.96 -12135.39 16462,00 341768 4778.47 A414303 202.31 433334 50158 3831.75 3%8.62 12.9E OSF1.W Pass 17WD.DD 3492.34 806.12 -1218198 16462.00 3417.68 477647 -1414303 202.31 4328.14 502.38 3825.76 3992.89 12.95 OSF7.50 Pass 17550.00 3492.43 84.29 65 -12228.56 16462.00 341768 477847 -14143.03 202.31 432351 53,11 3820,40 3987.77 12.91 OSF7.5D Pass 17600.00 3492.52 8672.45 -12275.14 1646200 3417.68 4778.47 -14143.03 202.31 4319.45 SMIS 3815.67 398327 12.88 OSF7.50 Pass 17650.00 U92.61 80410.62 -12321.73 16462.00 341768 4778.47 -14143.03 202.31 431597 504.38 381159 3979.39 12.86 OSF7.W Pass 177W.00 3492,70 870878 -12368.31 16462.00 3417.68 4778.47 -14143.03 202.31 4313.07 504.93 3808.14 3978.12 12.84 0SF7.SO Pass 17750.00 3492.79 872E 94 -12414.B9 16462.00 3477.68 4778.47 -11143.03 202.31 431074 SMAD 38D5.34 3973.4E 12,82 OSF1.50 Pass 17W0.00 3492.88 8745.11 -12481.48 16462.00 341768 4778.47 -14143.03 202.31 43D9.00 W582 38WAS 3971.46 12.80 OSF7.50 Pess 17850.00 3492.97 8763.27 -12W8.06 16462.00 341768 4778.47 -14143.03 202.31 430783 506.17 3801.67 3970.06 12.79 OSF1.50 Pass 17900.00 3493,06 8781,44 -12554.65 16462.OD 3417.68 4778.47 -14143.03 202.37 50845 00. 0 12.78 OSF1.50 Pass 179W.00 3493.15 8799.60 -1260123 16462.00 3417.6E 4778.17 -14143.03 202.31 7. 44, 7. 506.613800.57 3969.1 12.77 0SF1,50 Peas 18000.00 3493,24 881777 -12647.81 1646200 3417.68 4778.47 -14143,03 202.31 4W7.81 SO6.B2 3W1.W 3%961 1 OSF1.50 Pass 180W.W 3493.33 8835.93 -12694.40 16462.00 3417.68 4778.47 -14143.03 202.31 4308,97 5D6.91 3802.06 397070 12.77 OSF1.50 Pass 1:100.00 3493.42 8854.10 -12740.98 16462.DO 3417.68 4778.47 -14143.03 202.31 431070 50693 38M.78 3972.43 12.78 OSF1.W Pass 115000 3493.51 8872.26 -12787.56 16462.00 3417.6E 4778.47 -14143.03 202.31 4313.02 506.88 3W6.14 3974.77 12.79 OSF1.W Pass 18200.00 3493.60 8890.42 -12834.15 16462.OD 341768 4778.47 -14143.03 202.31 4315.91 5WT7 3W9.14 3977.73 12.W OSF1.W Pass 1821262 3493.62 8895.01 -12845.91 16462,00 U1768 4778.47 -14143.03 202.31 431673 W6.73 3810.W 3978.5E 1Z80 OSF1.W Pass Drilling Office 2.8.572.0 Nikaitchuq\Oliktok Point\OP17-02\OP17-02L1\OP17-02L1 (P2) 11/13/2014 7:40 AM Page 39 of 39 TRANSMITTAL LETTER CHECKLIST WELL NAME: 0217 - 02,0 PTD: Development Service _ Exploratory _ Stratigraphic Test _ Non -Conventional FIELD: POOL: Check Box for Appropriate Letter / Paragraphs to be Included in Transmittal Letter CHECK OPTIONS TEXT FOR APPROVAL LETTER MULTI LATERAL (If last two digits The permit is for a new wellbore segment ofexistingwell Permit No. a]0 - I�JAPI No. 50- Off- o3y3) -00 - 0Q . in API number are Production should continue to be reported as a function of the original between 60-69) API number stated above. In accordance with 20 AAC 25.00S(f), all records, data and logs acquired for the pilot hole must be clearly differentiated in both well name Pilot Hole ( 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 2S.055. Approval to produce / inject is contingent upon issuance of a Spacing Exception conservation 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 4/2014 WELL PERMIT CHECKLIST Field & Pool NIKAITCHUQ, SCHRADER BLUFF OIL - 561100 PTD#:2141830 Company ENI US OPERATING CO INC Initial Class/Type Well Name: NIKAITCHUQ OP17-02L1 Program DEV Well bore seg DEV / PEND GeoArea 890 Unit 11400 On/Off Shore On Annular Disposal Ll Administration 1 Permit fee attached NA 2 Lease number appropriate Yes ADL0355024, well passes thru, ADL0373301, Surf Loc; ADL0391283, Top Prod Intery & TD. 3 Unique well name and number Yes Nikaitchuq OP17-021_1 4 Well located in a defined pool Yes NIKAITCHUQ, SCHRADER BLUFF OIL - 561100, governed by Conservation Order No. 639. 5 Well located proper distance from drilling unit boundary Yes CO 639 has no spacing restrictions with respect to drilling unit boundaries. 6 Well located proper distance from other wells Yes CO 639 has no interwell spacing restrictions. 7 Sufficient acreage available in drilling unit Yes 8 If deviated, is wellbore plat included Yes 9 Operator only affected party Yes Wellbore will be more than 500' from an external property line where ownership or landownership changes. 10 Operator has appropriate bond in force Yes 11 Permit can be issued without conservation order Yes Appr Date 12 Permit can be issued without administrative approval Yes 13 Can permit be approved before 15-day wait Yes PKB 11 /17/2014 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 Pre -produced injector: duration of pre -production less than 3 months (For service well only) NA 17 Nonconven. gas conforms to AS31.05.030(j.1.A),(j.2.A-D) NA 18 Conductor string provided Engineering 19 Surface casing protects all known USDWs 20 CMT vol adequate to circulate on conductor & surf csg 21 CMT vol adequate to tie-in long string to surf csg 22 CMT will cover all known_ productive horizons 23 Casing designs adequate for C,_T, B & permafrost 24 Adequate tankage or reserve pit 25 If a re -drill, has a 10-403 for abandonment been approved 26 Adequate wellbore separation proposed 27 If diverter required, does it meet regulations Appr Date 28 Drilling fluid program schematic & equip list adequate GLS 11/17/2014 29 BOPEs, do they meet regulation 30 BOPE press rating appropriate; test to (put psig in comments) 31 Choke manifold complies w/API RP-53 (May 84) 32 Work will occur without operation shutdown 33 Is presence of H2S gas probable 34 Mechanical condition of wells within AOR verified (For service well only) 35 Permit can be issued w/o hydrogen sulfide measures Geology 36 Data presented on potential overpressure zones Appr Date 37 Seismic_ analysis of shallow gas zones PKB 11 /17/2014 38 Seabed condition survey (if off -shore) 39 Contact name/phone for weekly_ progress reports_ [exploratory only] NA Conductor set in OP17-02 NA Surface casing set and cemented in OP17-02 NA NA Intermediate casing set in OP17-02 No Slotted 5.5" liner is planned for the lateral. Yes Yes Rig has steel pits.. All waste to be injected into the onsite Class 1 disposal well. NA Well is lateral.. Motherbore still capable of flowing. Yes parallel to motherbore OP17-02 .. By about 300 ft. N_A Wellhead in place ... BOP will be used. Yes Max form press = 1579 (8.6 ppg EMW) will drill well with 8.7 -9.4 ppg mud. Yes No MASP = 1193 psi- Will test BOPE to 3500 psi Yes Yes No H2S not expected.. Rig has sensors and alarms. NA Yes H2S is not expected. Rig has sensors and alarms. H2S sequestering materials are onsite. Yes Expected reservoir pressure is 8.6 ppg EMW; lateral will be drilled using 8.7 to 9_.4 ppg mud. NA NA NA Development well to be drilled from onshore pad. Geologic Engineering Public Date: Date Date Commissioner: Commissioner: Commissioner C's //J flN' 54' �) s \,\ k\ i %CAI) N