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Home My WebLink About215-074GLACIER March 14th, 2017 Ms. Cathy Foerster, Chair Alaska Oil and Gas Conservation Commission 333 West 7th Ave., Suite 100 Anchorage, Alaska 99501 RE: Cancelation of Permit to Drill: 215-074 Cook Inlet Energy, LLC: North Fork Unit 14-26 Dear Ms. Foerster, RECEIVE® MAk 14 2017 AOGCC Cook Inlet Energy, LLC, requests the cancelation of Permit to Drill #215-074, for well NFU 14- 26. CIE has determined the well will not be drilled. If you have any questions, please contact me at (907) 433-3808. Sincerely, - �'-' - � (� -1 � � Stephen Ratcliff Sr. Drilling Engineer Cook Inlet Energy, LLC (a Glacier Oil & Gas wholly owned company) 601 W. Sth Avenue, Suite 310 Anchorage, AK 99501 THE STATE ye" I wa's GOVERNOR BILL WALKER Conrad Perry Drilling Manager Cook Inlet Energy 601 W 51h Ave., Suite 310 Anchorage, AK 99501 Alaska Oil and Gas 333 West Seventh Avenue Anchorage, Alaska 99501-3572 Main: 907.279.1433 Fax: 907,276.7542 www.aogcc.alaska.gov Re: North Fork Field, Undefined Gas Pool, NFU #14-26 Cook Inlet Energy Permit No: 215-074 Surface Location: 587' FSL, 1693' FEL, SEC. 26, T4S, R14W, SM, AK Bottomhole Location: 987' FSL, 4343' FEL, SEC. 26, T4S, R14W, SM, AK Dear Mr. Perry: Enclosed is the approved application for permit to drill the above referenced development well. Variance requests: Cook Inlet Energy (CIE)'s request for 14 day flow test and gas flaring will be addressed in the completion/flowback sundry. CIE's request for wavier of diverter system is DENIED. The BHL of the surface casing shoe is greater than 500 feet from the nearest existing well. CIE's request for a two (2) week BOPE testing cycle is APPROVED. Conditions of Approval: 1. 5000 psi 13 5/8" BOPE to be tested to 4500 psi (annular to 2500 psi - min). 2. Casing tests (30 min/charted) as follows: • 9 5/8" surface casing test pressure = 3000 psi (52% of burst) • 7" casing test pressure = 3500 psi (48% of burst) 3. BOP casing rams to be tested as per following: • 7" casing rams to 3000 psi 4. Weekly drilling report to be submitted to AOGCC by email. 5. Surface casing LOT/FIT data to be forwarded to AOGCC for review. 6. CBL required over 7" casing to determine TOC and cement quality. 7. Separate sundry approval required for completion and flowback operations. PTD 2150740 Page 2 of 2 This permit to drill does not exempt you from obtaining additional permits or an approval required by law from other governmental agencies and does not authorize conducting drilling operations until all other required permits and approvals have been issued. In addition, the AOGCC reserves the right to withdraw the permit in the event it was erroneously issued. Operations must be conducted in accordance with AS 31.05 and Title 20, Chapter 25 of the Alaska Administrative Code unless the AOGCC specifically authorizes a variance. Failure to comply with an applicable provision of AS 31.05, Title 20, Chapter 25 of the Alaska Administrative Code, or an AOGCC order, or the terms and conditions of this permit may result in the revocation or suspension of the permit. Sincerely, Cathy P. oerster Chair DATED this &day of August, 2015. '71 V_ %' I_ A V " AJ STATE OF ALASKA ALA OIL AND GAS CONSERVATION COMMI PERMIT TO DRILL 20 AAC 25.005 DN APR 2 0 2015 A G7 i 1a. Type of Work: 1b. Proposed Well Class: Development -Oil ❑ Service - Winj ❑ Single Zone ❑ 1c. Specify if well is proposed for: 1 Drill ' Lateral ❑ Stratigraphic Test ❑ Development- Gas ❑� • Service - Supply ❑ Multiple Zone Coalbed Gas ❑ Gas Hydrates ❑ 1 Redrill ❑ Reentry ❑ Exploratory ❑ Service - WAG ❑ Service - Disp ❑ Geothermal ❑ Shale Gas ❑ 2. Operator Name: 5. Bond: Blanket ❑� Single Well ❑ 11. Well Name and Number: Cook Inlet Energy Bond No. CD61212870 North Fork Unit # 14-26 3. Address: 6. Proposed Depth: 12. Field/Pool(s): 3000 A Street, Suite 410 - Anchorage AK 99503. MD: 9739' TVD: 8850' North Fork. '7 L e� jl & 150 4a. Location of Well (Governmental Section): Surface: 58T FSL 1693' FEL Sec 26 T45 R14W SM AK 4 7. Property Desianation 11 aacJa Number): Dfi l l Z / 1' 4, 1- f > Top of Productive Horizon: 8. Land Use Permit: 13. Approximate Spud Date:,0y , 4 LOCI 10-004 1-Jun-15 9. Acres in Property: 14. Distance to Nearest Property, Leas( Total Depth: 987' FSL 4343 FEL Sec 26 T4S R14W SM AK 4 2520 / 1920 190 1750 4b. Location of Well (State Base Plane Coordinates - NAD 27): 10. KB Elev above MSL: 670.7 feet 15. Distance to Nearest Well Open Surface: x- 199718 y- 2121134 Zone- 4 GL Elev above MSL: 650 feet to Same Pool: 1,570' 16. Deviated wells: Kickoff depth: ±520 feet 17. Maximum Anticipated Pressures in psig (see 20 AAC 25.035) Maximum Hole Angle: ±42 degrees Downhole: 3832 • Surface: 2948 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 16 1/2 N80HC Welded R3 0 0 120 120 Driven 12 1/4 9 5/8 40 /L 80 SP DRF1 BTC R3 0 0 3000 2575 702sx Lead @ 12ppg + 205sx Tail @ 15.4pp 8 3/4 7 26 L80 GEOCONN R3 0 0 9739 8850 409sx Lead @ 13.5ppg + 282sx Tail @ 15.3 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): Casing Length Size Cement Volume MD TVD Conductor/Structural Surface Intermediate Production Liner Perforation Depth MD (ft): Perforation Depth TVD (ft): 20. Attachments: Property Plat ❑✓ BOP Sketch ❑✓ Drilling Program Q Time v. Depth Plot ❑✓ Shallow Hazard Analysis❑ Diverter Sketch Seabed Report ❑ Drilling Fluid Program [✓] 20 AAC 25.050 requirements❑✓ 21. Verbal Approval: Commission Representative: Date 4/16/2015 22. 1 hereby certify that the foregoing is true and correct. Contact Courtney Rust 907 350-0091 Email courtney.rust@cookinlet.net Printed Name onrad Perry Title Drilling Manager Signature �'� / Phone 907-727-7404 Date 4/16/2015 Commission Use Only Permit to Drill -7' / Number: ��5� ! ` API Number: t� 50- 2,5 �� Z-��C i'�-� jPermitApproval Date: IYER I See cover letter for other requirements. Conditions of approval : If box is checked, well may not be used to explore for, test, or produce coalbed methane, as hydrates, or gas contained in shales: Other: �� - }r—Samples req'd: Yes❑ Not Mud log req'd: Yes ❑ No P( H2S measures: Yes❑ No[Directional svy req'd: Yes [ No ❑ �i�( ✓l �P �� Spacing exception req'd: Yes ri� No❑ Inclination--onlnlyy svy req'd: Yes ❑ No R �;� (*.& - 1� Cr_A1__ c P %� jut APPROVED BY Approved by: Oft COMMISSIONER THE COMMISSION Date: 8 Submit Form and For '10-401 (Revised 10/2012) This permit is valid for 24 months from the date of approval (20 AAC 25.005 g Attachments in Duplicate Cook Inlet Energy_ RECEIVED April 16, 2015 Ms. Cathy Foerster, Chair Alaska Oil and Gas Conservation Commission 333 West 7th Ave., Suite 100 Anchorage, Alaska 99501 RE: Application for Permit to Drill Cook Inlet Energy, LLC: North Fork Unit #14-26 Dear Ms. Foerster, APR 20 2015 Cook Inlet Energy (CIE) hereby applies for a Permit to Drill for North Fork Unit #14 26, located on ADL 391211 and land use permit: LOCI 10-004 , in the North Fork Unit. Please find attached for review of the Commission the 10-401 Form, Drilling & Completion Procedures, Geological Information, Proposed Well Schematics, and Hazard Analysis, as required by 20 ACC 25.005. Additional information includes, MASP Calculations, Rig Layout, BOP & Choke Diagrams, as well as Mud, Cement, and Directional Programs. Rig #37 will be used to complete this work, commencing approximately May 25, 2015. CIE is requesting a diverter waiver and two week BOWE tests for this well. If you have any questions, please contact me at (907) 727-7404. Sincerely, Drilling Manager Cook Inlet Energy 601 W. 5th Avenue, Suite 310 Anchorage, AK 99501 1 NFU 14 26 Pri sed Completion 3/4/2015 SSSV @ +/-350' 2 7/8" Chemical Injection mandrel @ _/- 2500' Depths to be determined with lops Sliding Sleeve @ Zone #1 Hydraulic Set Packer @ Sliding Sleeve @ Y Block 2" guns 0 degree phase Zone #2 Hydraulic Set Packer @ Sliding Sleeve @ Y Block 2" guns 0 degree phase Zone #3 Hydraulic Set Packer @ XN Nipple @ 4 5/8" TCP or 2" Wireline Guns L 20" L80 120' TVD 120# BTC 120' MD 12 1/4" Hole 9 5/8" L80 2,575TVD 40# SD BTC 3,000'MD �` � o0d A.--- 2 7/8" 6.5# L80 EUE-M Tubing 8 3/4" hole 7" L80 8850' TVD 26# GEOCON 9,739' MD Cook Inlet Ene, gy_ 1. WELL NAME - North Fork Unit 14-26 Requirements of 20 AAC 25.005(t) Well Summary Current Status: Prospective Development Well Scope of Work: • New Drill • Depth 9,739'MD/ 8,850'TVD Max inc142 degrees General Well Information: Reservoir Pressure / TVD: 3832 psi @ 9,739'MD/ 8,850'TVD • MASP: 2948 psi Wellhead Type/Pressure Rating: 11" Multibowl 5K GE Wellhead BOP Configuration: Annular / VBR / Blind / Kill Line / YRB \)U,- Well Type: Gas Producer Estimated Start Date: May 21, 2015 Drilling Manager: Conrad Perry (907) 727-7404 Conrad.Perry@Cooklnlet.net Drilling Engineer: Courtney Rust (907) 433-3809 Courtney.Rust@Cooklnlet.net Production Manager: David Kumar (907) 433-3822 David.Kumar@Cooklnlet.net 2 _ Cook Inlet Energy_ 2. Location Summary Requirements of 20 AAC 25.005(c)(2) • General Location Kenai Peninsula Borough, Alaska • Ground Elevation 650' above MSL • KB Elevation 670.8' above Ground Elevation • RKB 20.7' above GL I X-Coordinate Y-Coordinate j FNL/FSL FEL/FWL Sec / T / R Surface Location 199718 2121134 587' FSL 1693' FEL I Sec 26 T4S R14W Bottom Hole Location 197077 2121599 987 FSL 4343 FEL Sec 26 T4 T4S R14W i SA See Attachment 1: Location Information See Attachment 2: Rig Schematic & Pad Orientation 3. Blowout Prevention Equipment Information Requirements of 20 AAC 25.005(c)(3) BOP Configuration: - Annular / VBR / Blind / Kill Line / VRB See Attachment 3: BOPE Schematic See Attachment 4: Choke Manifold Schematic See Attachment 5: Wellhead / Tree Schematic 4. Drilling Hazard Analysis Requirements of 20 AAC 25.005(c)(4) Maximum Down Hole Pressure: Expected Reservoir Pressure Maximum Anticipated Surface Pressure: Normal I��f = (0.0 5 2) *(Reservoir EMW)*(TVD) = 3832 psi MASP = MASP = Lessor of Frac Pressure @ (0.052 X (MW + 0.5ppg) X TVD) - GasGRD X TVD)) or (Max Pore Pressure - (GasGRD X TVD) = 2948 psi,. Shallow Gas Analysis: The wellbore is not expected to encounter any shallow gas, a diverter waiver has been submitted. Potential Gas Zones: Expected beginning at 4800' TVD. Potential Hole Problems Lost Circulation, Hole Issues, Stuck Pipe, Coal Drilling, etc 3 Cook Inlet Energy_ S. Formation Integrity Test Procedure Requirements of 20 AAC25.005 (c)(5) Surface casing shoe will be pressure tested to limits set by engineering. Prior to drilling out of casing strings, test BOPS, and casing to the specified pressure listed in the BOP Program section. Plot test and record volume required on the drilling report. Pressure Tests are to be conducted as described below: • Drill 20' to 25' of new formation below the casing shoe and condition the mud to the same properties in and out • Pull drill bit into the casing shoe and close pipe ram preventer. Line up to the choke manifold with a closed choke • Begin slowly pumping fluid down the drill string at 1/2 bpm while recording casing and drill pipe pressures at 1/2 bbl intervals • The Drill Site Manager will keep a running plot of pressure versus volume while the test is in progress • Stop pumping when the pressure curve reaches pre -determined value. For this well the pressure has been set at 12.5 ppg. Record as ppg equivalent mud density in the IADC and morning reports • Monitor and plot pressures and time after shut-in for 10 minutes or until the shut-in pressure stabilizes 6. Casing and Cementing Program Requirements of 20 AAC 25.005 (c)(6) Cementing Summary: Cement plans are to use 80% excess on surface pipe with the use of the plug drop cementing method to ensure cement to surface (assuming freshwater aquifers are covered in our operating area). For subsequent casing sections, the objective will be to have sufficient shoe to drill to the section, to cover any perspective zone and isolate them for protection, and to meet the AOGCC regulation of 500' above the highest known hydrocarbon. See Attachment 6: Casing Design Program See Attachment 7: Cement Program 7. Diverter System Information Requirements of 20 AAC 25.005 (c)(7) Cook Inlet Energy is requesting a diverter waiver for the NFU 14-26 well. I/ 2 Cook Inlet Energy_ 8. Drilling Fluid Program Requirements of20AAC25.005 (c)(8) INTERVAL MUD DEPTH MUD WT PV YIELD i FLUID LOSS cl LGS SYSTEM (ppg) f i I (Ib/100 ft2) POINT (ml/30min) (mg/1) (%) Surface Gel Spud i 120'-3,000' 8.8 9.2 Mud 20 40 25-45 <9 <13 Production I Ma -Shield ; 3,000'-9,739 f 9 0-9.6 10-20 15-25 i <5 14,000-33,000 ( <6 See Attachment 9: Drilling Fluid & Mud Program 9. Abnormally Pressured Formation Information Requirements of 20 AAC25.00S (c)(9) Only applicable for an exploratory or stratigraphic test well, a tabulation setting out the depths of predicted abnormally geo-pressured strata as required by 20 AAC 25.033(f) 10. Seismic Analysis Requirements of 20 AAC 25.005 (c)(10) Only applicable for an exploratory or stratigraphic test well, a seismic refraction, or reflection analysis as required by 20 AAC 25.061(a) 11. Seabed Condition Analysis Requirements of 20 AAC 25.005 (c)(11) Only applicable for a well drilled from an offshore platform, mobile bottom -founded structure, jack -up rig, or floating drilling vessel, an analysis of conditions as required by 20 AAC 25.061(b) 12. Evidence of Bonding Requirements of 20 AAC 25.005 (c)(12) Evidence of Bonding is on file for Cook Inlet Energy with the Commission 13. Proposed Drilling Program Requirements of 20 AAC 25.005 (c)(13) General Note: Full opening Safety Valve will be on rig floor at all times with appropriate crossovers for all pipe being run below rotary table. E _ Cook Inlet Energy_ Drilling Procedure - NFU 14-26 Pre -Spud 1. Stake Well Location 2. Drive 20" conductor to refusal at +/- 120'. 3. Install Mouse hole 4. Install 8' Well Cellar S. Install 20" starting head 6. Clear and prep location Drilling Diverter Waiver: A diverter waiver request has been submitted. If it is not granted we will nipple up and function test the diverter system prior to picking up drill pipe. General Note: Full opening Safety Valve will be on rig floor at all times with appropriate crossovers for all pipe being run below rotary table. Note: The RKB is 20' 7" AGL with the Rig sitting on mats. 1. Move in and Rig Up Rig 37. ((-*?1-t.{-) 2. Pick up and stand back 5" drill pipe. 3. Pick up 12 1/4" BHA w/ GR: 1 12.25" (HCC) VMD-3 2 8" XTreme Motor 12 1/8" UBHS (AKO1.1 °) W/Float 3 8" NM String Stab w/ 12 1/8" Straight Blades 4 8" NMCSDP 5 NaviGamma (Surve /VSS/Gamma) 6 UPA Pulser 7 NM Downhole Filter Sub 8 2 Joints 8" NMCSDP 9 XO 10 18 Joints 5" HW DP 11 Jars 12 12Joints 5" HWDP 13 5" Drill Pipe S. Clean out conductor and spud well. Note time and date in report. 6. Drill 12 1/4" vertical hole to 520' kick off point, per directional plan. rel _ Cook Inlet Energy_ 7. Directionally drill 12 1/4" hole to 3,000' MD/2,575' TVD. (short trips and pump sweeps as necessary and/or directed.) 8. Circulate Hole Clean. Check for Flow. POH. Stand back directional tools. a. Note: If any sign of swabbing, run back to bottom immediately. b. Pump / Rotate out of hole if necessary. c. Condition mud if necessary. 9. Rig up to run 9 5/8" casing. 10. Run 9 5/8", 40# SD L80 Buttress casing to +/- 3,000' with Float Shoe and float Collar on joint up. Land casing elevators on wood blocks close to RT. a. Centralize casing i. One per joint on first 4 joints ii. One per 4 joints to conductor. 11. Circulate bottoms up until clean 12. Install a cement head 13. Install top and bottom plugs inside cement head 14. RU and test cement head and lines to 500/5000psi 15. Pump spacer according to program 16. Drop bottom plug. 17. Pump Cement according to program 18. Drop top plug. 19. Bump plug 20. RD cement 21. WOC for 12 hours minimum. a. Check for flow on both inside and annulus. b. Lift riser & make rough cut on 9 5/8" casing. c. Lay down casing stub. 22. Dress conductor and 9 5/8" casing. Check for cement to surface. Perform top job if cement is not at surface. Notify AOGCC it top job will be required. /a'' i�e6 13.cx)i 23. Install, weld, and test Vetco 5M 11" multi -bowl wellhead. Orient to match existing wellheads on pad. 7 i Cook Inlet Energy_ 24. Nipple up and tes 11" BO E with 3 Y2" x 5" VBR pipe rams, Blinds in middle. a. Test Rams to 4500 psi b. Test Annular Bag to 2500 psi. c. Note: Weekly BOPE test until AOGCC specifies otherwise 25. Set Wear Bushing and Run CBL if required. 26. Condition Mud as necessary. 27. Pick up and stand back sufficient 5" drill pipe if not done already. 28. Pick up 81/2" BHA: 1 8 3/4" PDC 2 6.3/4" Ultra XTreme Motor 8 5/8" UBHS (AK01.1 ° W/Float 3 6 3/4" NM String Stab w/ 8 5/8" Straight Blades 4 6.3/4" NMCSDP 5 NaviGamma (Surve /VSS/Gamma) 6 UPA (Pulser) 7 NM Domhole Filter Sub 8 2 Joints 6.3/4" NMCSDP 9 8 Joints 5" HW DP 10 Jars 11 12Joints 5" HWDP 12 5" Drill Pipe 29. RIH to 1000'. Perform shallow MWD test. <7,r/o'/G� --17 30. Continue RIH. Test Casing to 3000 psi. Drill out float collar, shoe track and float shoe. Drill 20' of new form`ati'i� riplate and condition mud. a. Perform Pr e'test (perform to 12.5 (r ri') _ 31. RU Mug Loggers 32. Directionally drill 8 3/4" hole to 9,739' MD/8,850' TVD, per directional plan. 33. Circulate hole clean with minimum of three bottoms up. Preferred procedure is first circulation on bottom, pull a stand for the next, and same for the third and fourth if necessary. Pull out of hole. Avoid back reaming if possible. Pump out of hole, if necessary. (Pump a Hi VIS sweep if needed.) 34. Lay down all smart iron and expedite back to Baker Hughes. 35. Make wiper trip if needed. 36. RU and run triple combo log on wireline Cook Inlet Energy_ 37. Pull Wear Bushing. yy 38. Rig up to run 7" casing. Change upper rams to 7" and test to 3000 psi. 4 - 39. Run 7", 26#, L80 GeoConn to bottom. a. Centralizer program to be as follows: i. 1 Solid body spiral centralizer every joint through planned TOC. ii. 1 Solid body spiral centralizer every 41h joint thereafter. b. Break circulation at 5000' and 9 5/8" shoe, and every 2000' in open hole. c. Note swab and surge pressures of tripping are excessive with 7" casing in 8 3/4" hole at this depth. 40. Circulate and condition hole. Reciprocate casing while circulating. 41. Rig up and test cementers. Cement 7" casing according to program. Continue reciprocating casing while pumping cement. Land Casing and Bump plugs with 3000 psi. Release pressure and check floats. a. Ensure cement is a minimum of 1000' above top of highest known hydrocarbons.PT " Completion Procedure 3a p Depths are tentative and will be finalized with logs The 7" casing top plug will be displaced with 4% filtered KCL brine (+/- 8.6 ppg) 1) Lay down 5" drill pipe. 2) Make 6" gauge ring run to bottom on slick line. 3) Rig up Schlumberger Electric line 4) Run CBL. Send to engineering ASAP. If bad, a squeeze procedure will be prepared. 5) Perforate the following intervals with 4 '/2" PowerJet 4505 Pure Casing Guns at 3 1/2" SPF. 6) Run 6.1 "Gauge Ring and Junk Basket (clear perfs for packers) M Cook Inlet Energy_ Jr, 7) Pick up Schlumberger TCP assembly to perforate from 9502' to 9518'. a. Mule shoe b. 4 '/2"" TCP guns 6 spf for following intervals i. 9502' to 9518' ii. 9527' to 9541' c. TCP Drop Bar firing head without delay at +/- 9495' d. 2 7/8" XN nipple at 9010' e. 2 7/8" X nipple at 8980' f. Tripoint 7" Hydraulic Packer at 8950' g. 2 7/8" tubing to 2 7/8" Sliding sleeve (closed) at 8150'0 h. Tripoint 7" Hydraulic Packer at 8120' i 2 7/8" tubing to Sliding sleeve at 7190' Z-1 Tripoint 7" Hydraulic Packer at 7160' 2 7/8" tubing to 2 7/8" Sliding sleeve (closed) at 5864' U-� 11. Tripoint 7" Hydraulic Packer at 5934' in. 2 7/8" tubing to 2 7/8" Sliding sleeve (closed) at 5580' l n. Tripoint 7" Hydraulic Packer at 5550' o. 2 7/8" tubing to Sliding sleeve (closed) at 5520' o 6`. �•c, p. 2 7/8" tubing to chemical injection mandrel at 2500' q. 2 7/8" tubing to Tubing Retrievable SSSV at 350'. r. Vetco 11" x 2 7/8" tubing hanger 8) Rig up eLine and run GR CCL correlation log 9) Space out and land hanger. 10) Confirm space out with GR/CCL 11) Test hanger seals. 12) Run plug to XN nipple at 9010'. Pressure up and set all five hydraulic packers according to Tripoint recommendations. 13) Test annulus to 2500 psi for 30 minutes on chart. 14) Set BPV. 15) Nipple Down BOPS. 16) Nipple up Tree and test to 5000 psi. 17) Rig up and test flowlines 18) Recover BPV 19) Recover Plug from XN nipple 20) Rig up slick line. Test lubricator to 4500 psi. 21) Swab well to have 1000 psi underbalance. 22) Drop bar and flow Zone 5 to Test. 23) At completion of Zone 5 test, set plug in XN nipple at 9230' 24) Open Sliding sleeve at 8150' and take Zone 4 to test. 25) Close Zone 4 sliding sleeve at 8150' and open Zone 3 Sliding sleeve at 7190' 26) Take Zone 3 to Test 27) Repeat for Zones 1 and 2. 10 Cook Inlet Energy_ See Attachment 9: Proposed Wellbore Schematic See Attachment 10: Time vs Depth See Attachment 11: Directional Program See Attachment 12: Bit Program See Attachment 13: Bottom Hole Assemblies See Attachment 14: Hydraulics Modeling See Attachment 15: Torque & Drag Modeling Solids Control and Equipment Item Equipment Specifications Shakers 2 SWACO Mongoose Shakers Desander N/A Desilter 1 Derrick Model 0522 Centrifuge 1 Hutchison Hayes 5500 Misc Equipment None 14. Drilling Waste Storage Requirements of 20 AAC 25.005 (c)(14) Drilling wastes will be either granular solids (cuttings), or liquids (drilling mud or water). Cuttings and fluids will be disposed of in: Redoubt/Osprey Wells RU-D1 with the Grind & Inject Facility West McArthur Wells WMRU-D1 with the Grind & Inject Facility West Foreland Wells WMRU-D1 with the Grind & Inject Facility North Fork Wells Fluids will be injected in NFU 34-26, cuttings will be transferred to AIMM or sent to Monofil for disposal CIE has been granted authorization under 20 AAC 25.080 for an Annular Disposal Operation in t116well i%C( ?` Z6 . 15. Geological Formation Tops Requirements of 20 AAC 25.071 CRITICAL FORMATION TOPS Formation Est M.D. TVD Est SSTVD Potential 4900A SD 5743' 4854' (-4175') Gas 11 _ Cook Inlet Energy_ 5300 SD 6148' 5259' (-4580') Gas 6000 SD 6853' 5964' (-5285') Gas 6700 SD 7733' 6844' (-6165') Gas 8000 SD 8983' 8094' (-7415') Gas 8500 SD 9359' 8470' (-7791') Gas Total Depth * 9739' 8850' (-8171') Note: The above tops are estimated from seismic and offset well control structure mapping. Geologic Hazards The current well is offset by several nearby wellbores. Numerous thinly bedded coals are present in the Tyonek section. Coals generally range from two feet up to twenty feet thick and may cause problems with sticking due to sloughing coals during drilling. Mud rheology and water loss should be closely watched in order to prevent drilling problems due to coals. Data obtained from previously drilled wells indicates the productive horizons to be very shaly and susceptible to damage. If possible Water Loss should be maintained as near or below a 4.0 cc/30 min. as possible. No abnormal pressures are expected to be encountered in this well. Several nearby gas wells have produced reserves from reservoirs expected to be penetrated by this well. Some depletion may have occurred. Mud weight should be closely monitored in this well to prevent differential sticking of drill pipe. Permitted TD. Actual Total depth may be shortened due to mechanical hole conditions. Deepest objective expected to be evaluated in this well is the sand encountered at a depth of 8884-8922' MD in the NFU 24-26 wellbore. That sand named 8500' sand is expected to be encountered at a depth of approximately 9359' MD. Sufficient rat hole below the sand will be drilled to evaluate thoroughly. See Attachment 16: Geo-Mechanical Plot 16. Logging Plan Requirements of 20 AAC 25.071 (a) Open Hole Logging • Surface Hole Section • Production Hole Section Gamma Wireline Triple Combo A gamma ray only will be run from surface to base surface casing. In the production section, a triple combo will be run via wireline. No sidewall cores are expected to be taken. Logs consisting of a 1"=100' MD, 2"=100' and 5"=100' Measured depth and True vertical depth to be sent daily to personnel to be provided on a separate lists. Morning logs to be sent each day no later than 5:00 am Alaska time and 2:30 pm Alaska time. Final composite log of all runs in both paper form and digital .las file to be provided on CD at the end of the well to Cook Inlet 12 Cook Inlet Energy_ Energy. If tools are available open hole logs consisting of a triple combo log suite may be run over the production section of the hole after reaching TD. Cased Hole Logging A borehole volume log to be provided to drilling at TD for use in determining cement volumes needed. A Cement Bond log to be run as directed by drilling department after well is cased. Additional Gamma CCL correlation logs and perforating to be conducted as determined after well is cased and during completion. Mud Logging Plan Canrig to provide basic mud logging services consisting of a two man logging unit to be on location and logging when we drill out of surface casing. Daily copies of the 2"=100' MD and TVD mud logs including all lithologic descriptions, mud weights, Total gas and chromatograph readings to be sent twice daily to personnel to be provided on separate lists. Show reports for all zones considered possibly productive will be prepared as zones are encountered and sent immediately to people on the list to be provided. Morning logs and reports to be sent no later than 5:00 am Alaska time and afternoon logs to be sent no later than 2:30 pm Alaska time. Two dry sets (vials) of 30 foot ditch samples to be caught and maintained at the rig until TD. Ten foot ditch samples may be required as needed in show and gas reservoir intervals. One set to be sent after completion of well to Cook Inlet Energy and the second set to be provided to AOGCC, 333 W. 7th Ave, Ste.100, Anchorage, Alaska 99501. A signed copy of the transmittal sheet is to be provided to Ms. Barbra Kruk at Cook Inlet Energy. 17. Regulatory Waiver and Special Procedures Requests AOGCC Regulation 20 AAC 25.235 Gas Disposition CIE requests permission to vent or flare gas from the North Fork Unit 14 26 well test for a period of 14 days according to 20 AAC 25.235 d (6). Maximum anticipated daily flaring is expected to be 10 MMSCF/D with a total expected not to exceed 20 MMSCF over the entire test. If the well is successful, it will be tied into the North Fork production facility. AOGCC Regulation 20 AAC 25.035 Diverter System J�"�� Cook Inlet Energy requests that the diverter requirements in 20 AAC 25.035 be waived for NFU 14 26. There have been 7 wells drilled in the unit so far without encountering shallow gas. The surface casing was designed to the same 2,750' TVD on the two most recent wells NFU 42 35 and NFU 24 26 with no shallow gas present. Also, due to so many wells having been drilled, diverter placement has become difficult. V AOGCC Regulation 20 AAC 25.035(10)(A) Secondary well control: Blowout Prevention Requirements 13 Cook Inlet Energy_ CIE requests permission to perform BOPE tests on two -week intervals for the drilling of this well. CIE has demonstrated and executed proper well control protocol and believe that weekly BOPE tests are excessive. Attachments 1. Location Information 2. Rig Schematic & Pad Orientation 3. BOPE Schematic 4. Choke Manifold Schematic 5. Wellhead / Tree Schematic 6. Casing Design Program 7. Cement Program 8. Drilling Fluid & Mud Program 9. Proposed Wellbore Schematic 10. Time vs Depth 11. Directional Program 12. Bit Program 13. Bottom Hole Assemblies 14. Hydraulics Modeling 15.Torque & Drag Modeling TITLE Engineer - Originator Engineer - Review Superintendent Drilling Manager NAME SIGNATURE Courtney Rust CourtneyRust O Conrad Perry Conrad Perry DATE APPROVED 4/1/15 X 4-20-15 X 14 EDGE OF Fi.O.W• . NORTH FOR ROAD ooR' V Y N 2121143.9950 CP-1 E 1340068.0700 N 2121137.2190 ELEV 666.07: • E 1339704.6100 EDGE OF R•Q•w• • ELEV §56,(y9' i _ -7 x X 0 Tract 18 - V S o 6 s9 GATE I — 23-25 WELL WELLCO 1693 42-35 WELL l 587 FSL Tract 19 0 � Cl 587' FS (NTS) North Fork P'cres Subd. No. 2 x x _— — X__;-- x — 3426 WELL 32-35 WELL 14-25 WELL , LJI 1 v C� 22-35 WEL'� NFU 14-26 WELL AS STAKED POSITION o N:2121134.208 ❑E:199718.031 � LATITUDE: 59°47'46.3589" N LONGITUDE: 151 °3749.6048" W ❑ NAD 27 ASP ZONE 4 ELEV. 658.1' NAVD88 x 1693' FEL '`:`�•-'�.--r,..- `"----� \ � `,\ \ ,i TOP OF BERM I Section 26, T04S, R14W, S.M., AK_ SECT/ONLINE NOT TO SCALE —I- SCALE 0 100 200 FEET *.:.49 Iti� •. * 00 �i 00 00 i,•A ./ oO00 �, . STAN A. McLANE s 4637—S 4/01/15,. III A`fSS . — I I W Q O ti i 21 O 2 W I N 2120505.98 E 201396.26 S26 S25 S35 S36 1. BASIS OF HORIZONTAL COORDINATES ARE ALASKA STATE PLANE NAD 83 ZONE 4 EPOCH 2O03 DETERMINED BY AN NGS OPUS SOLUTION FROM CORS BASE STATIONS 'KEN5" , 'TSEA" AND "KOD5' OBSERVED DEC. 13, 2007 ON NF1 3 1/2" ALUM. CAP SET N: 2121137.137 E: 1339704.533 ELEV. 656.69 2) BASIS OF ELEVATION IS NGS BENCHMARK N86 TT0195 ELEV. 180.84 FT. NAV088 DATUM. 3) SOUTHEAST CORNER SEC. 26 COORDINATES DETERMINED FROM DIRECT SURVEY TIE TO THE TO EXISTING BLM SECTION CORNER TIE PER HM91-57 AND NOT THE PROTRACTED SECTION CORNER VALUES. Cook Inlet Energy PROJECT NORTH FORK UNIT 14-26 WELL AS -STAKED SURFACE LOCATION DIAGRAM REVISION: - DATE: 4/1H5 DRAWN BY: ICS — ta NAD27 FOR INFORMATIONAL PURPOSES ONLY SCALE: V-100' ENGINEERING / MAPPING / SURVEYING / TESTING PROJECT NO. 153002 BOOK NO. - Co Lbn9 Inc P.O. BOX 468 SOLDOTNA, AK. 99669 G VOICE: (907) 283J218 FAX: (907) 283-3265 EMAIL: SAMCLANE@MCLANECG.COM LOCATION SW 1 /4 SE 1 /4 S26 T4S R14W SEWARD MERIDIAN, ALASKA ' SHEET 1 OF 1 EDGE OF R.O.W. NORTH FORK ROADCP-_ — _2 b oo RNV N 2121143.9950 CP1 E1V66.07 N 2121137.2190 ELEV 66:07: • E 1339704.6100 EDGES •9•W' ELEV 656-RA' m X L X i o O' d N m 10 b5' , Tract 18 6s9 o GATEID A3 34-26 WELL 32-35 WELL 14-25 WELL 0,23-255 WELL �\ LA G) V I f� 22-35 WELL X `J NFU 14-26 WELL 1693 (N' 42-35 WELL AS STAKED POSITION p N:2120889.368 w ❑ E:1339743.444 LATITUDE: 59°47'44.1575" N D LONGITUDE: 151"37'57.3739" W NAD 83 ASP ZONE 4 ELEV. 658.1' NAVD88 1 y 1693' FEL I I� 587' FSL Trait 19 x 857' FS (NTS) North Fork AOes Subd. No. 2 i —__.— X x TOP OF BERM �i', I Section 26, T04S, R14W, JS.M., AK._ SECTIONLINE NOT TO SCALE _ I SCALE 0 100 200 FEET PROJECT � ..QF A. #il Q. '• .,SDI Aw �, STAN A. MCLANE : i '111 - 4637—SAM I I WI Q y 0 z �I 0 W I N 2120261.15 E 1341421.67 S26 S25 S35 S36 1. BASIS OF HORIZONTAL COORDINATES ARE ALASKA STATE PLANE NAD 83 ZONE 4 EPOCH 2O03 DETERMINED BY AN NGS OPUS SOLUTION FROM CORS BASE STATIONS "KEN5" , "TSEA" AND "KOD5' OBSERVED DEC. 13, 2007 ON NF1 3 1/2" ALUM. CAP SET N: 2121137.137 E: 1339704.533 ELEV. 656.69' 2) BASIS OF ELEVATION IS NGS BENCHMARK N86 71`0195 ELEV. 180.84 FT. NAVD88 DATUM. 3) SOUTHEAST CORNER SEC. 26 COORDINATES DETERMINED FROM DIRECT SURVEY TIE TO THE TO EXISTING BLM SECTION CORNER TIE PER HM91-57 AND NOT THE PROTRACTED SECTION CORNER VALUES. NORTH FORK UNIT 14-26 WELL _ Cook Inlet Energy_ AS -STAKED SURFACE LOCATION DIAGRAM NAD83 COnwLtltlg �11C ENGINEERING / MAPPING / SURVEYING / TESTING P.O. BOX 468 SOLDOTNA, AK. 99669 LOCATION VOICE: (907)283421S FAX: (907)283-3265 SW 1/4 SE 1/4 EMAIL: SAMCLANE@MCLANECG.COM S26 T4S R14W SEWARD MERIDIAN, ALASKA R.O: .� — NORTH FORK ROAD _ �- -- n ^' CP-2 (rj �1 00 R V V N 2121143.9950 CP 1 1 E 1340068.0700 N 2121137.2190 ELEV 666:07; • E 1339704.6100 EDGE OF W R.O.• .-� ELEV 656,E �- ^ rLE x REDA OCONEX COOELE.,ANEL° BLANTENNA \EDTract 18 s90 GATE NEL ❑ I VAULT VAULT VAULT I NEtffR _ _ TBS&B LDG 11116WWW IIII 1115WW 111 I/�/ 2325 WELL 34-26 WELL 32-35 WELL 1425 WELL i �� x TANK© CA DE-HY NFU 24-26 WELL BLDG. O 5' x 6' TANK ®® ON LINER �1 O 6' TANK ON LINER O ON LINER GARBAGE n ' SKID METER NFU' 2-35 WELL COVERED BLDG. Tract 19 ELE. PANEL Q North Fork Acres Subd. No.'2 x x x TOP OF BERM ------------- I • ��E.�F A�q ��l v! .' 49Iti * 00 00 00 00 01-111 00 00 STAN A. McLANE MIN 4637—S •l0/7/14,. 1. BASIS OF HORIZONTAL COORDINATES ARE ALASKA STATE PLANE NAD 83 ZONE 4 EPOCH 2O03 DETERMINED BY AN NGS OPUS SOLUTION FROM CORS BASE STATIONS "KEN5' ,'TSEA" AND'KOD5' OBSERVED DEC. 13, 2007 ON NF1 3 1/2' ALUM. CAP SET N: 2121137.137 E: 1339704.533 ELEV. 656.69' 2) BASIS OF ELEVATION IS NGS BENCHMARK N86 TT0195 ELEV. 180.84 FT. SCALE NAVD88 DATUM. 0 A 200 3) SOUTHEAST CORNER SEC. 26 COORDINATES DETERMINED FROM DIRECT SURVEY TIE TO THE TO EXISTING BLM SECTION CORNER TIE PER HM91-57 FEET AND NOT THE PROTRACTED SECTION CORNER VALUES. PROJECT REVISION: NORTH FORK 42-35 WELL DATE: 10l7/14 Cook Inlet Energy_ RIG 37 LAYOUT DRAWN BY: BGB SCALE: 11100' _ ENGINEERING/MAPPING/SURVEYING/TESTING PROJECT NO. 143135 BOOK NO. - LOCATION SW 1 /4 SE 1 /4 S26 T4S R14W SEWARD MERIDIAN, ALASKA SHEET °F 1 Ca Lfing Inc P.O. BOX 468 SOLDOTNA, AK. Mft9 VOICE: (907)283-4218 FAX: (907)283-3265 EMAIL: SAMCLANE�MCLANECG.COM CL P8-o�dq —41N 16 �u7nry 045013W 15 14 13 98 i7 21 I2 24 1 19 20 1 20 27 North 25 30 29 Fork Unit �g �i 34 33 35 36 1 31 11 32 4 3 2 2 6 S 1 i 9 North Fork Unit Boundary leased State TrailNorth Fork Units Cook Inlet Region i "= Gas Pool #1 PA Section Grid 44 O Township Grid 0 0.25 0.5 1 Miles Cook Inlet Energy g Rig 37 Formerly Glacier 1 BOP Stack Flow Nipple -____-_ 13 5/8" 5M Annular Preventer 13 518" 5M Double Ram Preventer 2 1116' SM 2 1/16" 5M Manuall 5" pipe Operated Valves 1� U} X; I U � � UU1-L_-XJ� I I Kill 'iLJ� 13 5/8" 5M Cross 13 5/8" 5M Single _A1--► Ram Preventer _ Blind Ram Line 2 7/8" x 5" variable Blind 3 118' SM Manually Operated Valve 3 118" 5M Hydraulically Operated Valve Bottom of Single gate must be 24-45" from ground level for Glacier 1 rig placement. 5M x 1 Spool 111" 5M x 13 5/8" 5M DSA I To Gas Buster a Glacier 1 Choke Manifold 4 3" 5M Valves I 2 9/16" 10M Swaco Hydraulically Operated Choke To Blooey Line Bleed off Line to Shakers 0 o 0 x x x x TLU� t kBlock I 3 1/8" 5M Manually Adjustable Choke Ga Choke Hose to HCR 35- q(from BOP Stack) 0 - 6,000 psi Choke Control Pressure Gauge Pressure Sensor GE Oil & Gas 127.2" 30.2' 45.8" 38.8' "dam 2-9/16'5M ® r1 4 poi r� tro � C h �A 2-9/16' SM H 2-9/16' SM MOD. 19.0' t 11" 5M { f 31.7' k t 26.5'tof �r- 2-9116" 5M 2-1116' 5M Base Plate i '9-518" Casing T Casing 7• 2-7/8' Tubing 1/4" Control Lina t%� ALL DIMENSIONS ARE APPROXIMATE This drawing is the property of GE Oil &Gas Pressure Control LP and is considered confidential. Unless otherwise approved in writing, neither it nor its contents may be used, copied, transmitted or reproduced except for the sole purpose of GE Oil 8 Gas Pressure Control LP. 9-5/8" x 7" x 2-7/8" 5M SH2 Wellhead Assembly, With T-M40-CCL Tubing Hanger and M40-CCLAdapter Flange 2-9/16'5M �— I—T 11.4' 2-9/16' SM COOK INLET ENERGY NFU 22 26 DRAWN VJK 19DEC14 APPRV KN 19DEC14 FOR REFERENCE ONLY DRAWING NO. 1001107-1 C �r- 2-9116" 5M 2-1116' 5M Base Plate i '9-518" Casing T Casing 7• 2-7/8' Tubing 1/4" Control Lina t%� ALL DIMENSIONS ARE APPROXIMATE This drawing is the property of GE Oil &Gas Pressure Control LP and is considered confidential. Unless otherwise approved in writing, neither it nor its contents may be used, copied, transmitted or reproduced except for the sole purpose of GE Oil 8 Gas Pressure Control LP. 9-5/8" x 7" x 2-7/8" 5M SH2 Wellhead Assembly, With T-M40-CCL Tubing Hanger and M40-CCLAdapter Flange 2-9/16'5M �— I—T 11.4' 2-9/16' SM COOK INLET ENERGY NFU 22 26 DRAWN VJK 19DEC14 APPRV KN 19DEC14 FOR REFERENCE ONLY DRAWING NO. 1001107-1 C Cook Inlet Energy Casing Plan Well Information WELL NAME: NFU 14 26 ENGINEER: Courtney Rust DATE: 25-Mar-15 Hole Sizes (�n) CasingSize (in) MD (ft) TVD (ft) Max EMW (Pore Pressure) Estimated Frac Grad at Shoe Estimated Range -Mud Weight (ppg) Type Mud T e Comments - 20" -- Conductor pipe 12.25" 9 5/8" 3,000 2,575 8.3 13.6 8.8 9.2 WBM Normal gradient, no shallow gas 8.75" 7" 9,739 8,850 8.33 9 9.6 WBM Norm grad Based on offests Casing Plan JENTER YELLOW CELLS MANUALLY Casing Size (in) Wt (Ib/ft) Grade Connection API rating MD (ft) TVD (ft) Type OD (in) Burst (psi) Collapse (psi) Tension (kips) 20" 120 A-36 N2 -- -- -- -- 0 0 9 5/8" 40 L80 BTC 5750 ` 3090 947 3000 2575 7" 26 L80 GEOCON 7240 5410T 641 9739 8850 Variables & Formulas Wellhead 5,000 Ipsi Gas Gradient 0.10 psi/ft Pore Pressure Gradient 0.430 Ipsi MAWP = (0.80 X CASING BURST) or Limiting Wellhead Pressure MASP = Lessor of (Frac Pressure @ (0.052 X (M W + 0.5ppg SF) X TVD) - GasGRD X TVD)) or (Max Pore Pressure - (GasGRD X TVD)) MASCP = (0.80 X CASING BURST) - (MW - Backup FluidWt.) X .052 X TVD SF Burst = Burst Value/MASP SF Collapse = Collapse Value/((0.052 X Max EMWPore Pressure X TVD)-(gas gradient X TVD)) SF Tension = Tension Value/(Length X lb/ft) Max Allowable Working Pressure MAWP = (0.80 X CASING BURST) or Limiting Wellhead Pressure Hole Sizes Casing Size Safety Wellhead MD (ft) ND (ft) Burst (psi) MAWP (psi) (in) (in) Factor (psi) 12.25" 9 5/8" 3,000 2,575 5750 0.8 5,000 4600 8.75" 7" 9,739 8,850 7240 0.8 5,000 5792 Max Anticipated Surface Pressure MASP = Lessor of (Frac Pressure @ (0.052 X (MW + 0.5ppg) X ND) - GasGRD X ND)) or (Max Pore Pressure - (GasGRD X ND)) Hole Sizes Casing Size Max EMW Frac Grad MW Safety Gas FracMax PP at (in) (in) MD (ft) ND (ft) (ppg) at Shoe Factor Gradient Pressure at Next ND MASP (psi) ) Shoe 12.25" 9 5/8" 3,000 2,575 8.3 13.6 0.50 0.10 1633 2,935 1,633 8.75" 7" 9,739 8,850 8.33 - 14.9 0.50 0.10 6202 2,948 2,948 - Max Allowable Surface Casing Pressure MASCP = (0.80 X CASING BURST) - (MW - Pore Pressure) X .052 X ND Hole Sizes Casing Size Safety Max EMW MD (ft) ND (ft) Burst (psi) MW (Pore MASCP (psi) (in) (in) Factor Pressure) 12.25" 9 5/8" 3,000 2,575 5750✓ 0.8 9.2 8.3 4479 8.75" 7" 9,739 8,850 7240 L 0.8 9.6 8.33 5208 Safety Factors Hole Sizes Casing Size Collapse Tension Liner SAFETY FACTORS MD (ft) ND (ft) Burst (psi) Wt (Ib/ft) Burst Collapse Tension (in) (in) (psi) (kips) Length (ft) 12.25" 9 5/8" 3000 2575 5750 3090 947 40 - 3.5 3.6 7.9 8.75" 7" 9739 8850 7240 5410 641 26 2.5 1.8 2.5 SF Burst = Burst Value/MASP SF Collapse = Collapse Value/((0.052 X Max EMWPore Pressure X ND) -(gas gradient X ND)) SF Tension = Tension Value/(Length X Ib/ft) Casing Cementing Field: North Fork Unit State: AK Date: 3/30/2015 Proposal Number: 1 Contact: Courtney Rust Made By: Stephen Lauper Service from District: Kenai, AK District Phone: Objective: Cement Surface Casing with Cement Returns at surface. Solid shoe for continuation of drilling Acceptance Criteria: Cement mixed with acceptable density and returns seen at surface Disclaimer Notice Schlumberger submits this document with the benefit of its judgment. experience and good oilfield practices This s. imitations, t i n is provided in accordance with generally accepted industry noes that relying t n facts or information provided by Schlumhvgepothers. limitations. mputer sed on pr vided i for assumptions and inferences that are not infallible Calculations ere estimates based on provided information All proposals, recommendations, or predictions ere opinions only NO WARRANTY IS GIVEN CONCERNING ACCURACY OR COMPLETENESS OF DATA, INFORMATION PRESENTED. EFFECTIVENESS OF MATERIAL. PRODUCTS OR SUPPLIES, RECOMMENDATIONS MADE. OR RESULTS OF THE SERVICES RENDERED. Freedom from infringement of any intellectual property rights of Schlumberger or others Is not to be inferred and no intellectual property rights are granted hereby Well Data Summary The cementing program incorporates the following data RigType Land Fluids Return to Rig Floor BHST: 78 degF Mud Line D e th 0.0 ft Mud Return Depth 0.0 ft Section MD 3000.0 ft Section TVD 2575.5 ft All depths take the rig floor as reference Tubulars • Casing Hardware MD i OD i Joint i Weight ID Grade Collapse Burst Thread ft in ft lb/ft inpsi I psi Prev Casing 120.0 1 20 40.0 106.5 1 19 1K-55 770 1 2410 Casing 3000.0 1 9 5/8 40.0 40.0 1 8.835 1 L-80 1 3090 1 5750 Landing Collar 2920.0 1 Serial number Float Shoe MD Oft — Incmat-w ON) Incknawn (deg) 0 10 20 30 40 50 — Moon& DeWA?e (to Honzontai Departure (ft) v All depths take the rig floor as reference Tubulars • Casing Hardware MD i OD i Joint i Weight ID Grade Collapse Burst Thread ft in ft lb/ft inpsi I psi Prev Casing 120.0 1 20 40.0 106.5 1 19 1K-55 770 1 2410 Casing 3000.0 1 9 5/8 40.0 40.0 1 8.835 1 L-80 1 3090 1 5750 Landing Collar 2920.0 1 Serial number Float Shoe MD Oft — Incmat-w ON) Incknawn (deg) 0 10 20 30 40 50 — Moon& DeWA?e (to Honzontai Departure (ft) v 500 i I 10w i I i 15J)� I 1590 2of,e Schlumbepgep Open Hole Total Volume 419.8 b MD rJD Oft Gft e 26OOft 22;6ft 292Oft 2576ft 3O6afl 2576 f, - �- bl Pare Pmssjre ED ra gal __ Frac Pressure ED (: pa b1gal 8 3 10 11 12 13 14 15 Formation Frac Frac Pore Pore Top Botto Bottom Top Botto Top Botto Reservoi MD m TVD ED m ED ED m ED Litholo r Name ft MD ft lb/gal lb/gal lb/gal lb/gal gy Fluid ft 0.0 1 3000.0 j 2575.5 1 14.36 14.36 8.20 8.20 3 of 18 Schlumbrgep Relative Name Top Bottom Bottom Temperatur Gradient Gradient Sea Current MD MD TVD a degF/100 degF/100 ft/min ft ft ft de F ft ft Surface 0.0 0.0 0.0 32 0.00 0.00 Rock 0.0 2933.0 2525.4 77 1.80 1.80 0.00 BHST 2933.0 1 3000.0 2575.5 78 1.80 1.80 0.00 F. 4of18 Geoth ma'tem* (degF; Geothemal PmfO- (degF) 30 40 50 60 73 83 500 1000 ` 1500 2000 2500 34301 SchlumbepUep Fluids Summary Type Name Density K n Ty lb/gal Ibf.s^n/ft2 Ibf/100ft2 Drilling Fluid 9ppg Surface 9.00 2.40E-2 0.42 1.30 Mud Spacer MUDPUSH II 10.50 5.36E-4 1.00 24.88 Slurry Kenai Surface 12.00 3.28E-4 1.00 48.84 Lead zi Slurry Kenai Surface 15.41 2.02E-3 1.00 34.67 Tail Rheology Parameters and Densities are displayed at P=1 atmosphere and T=20 degC (65degF) _ W4409f ➢,;N 5j,%C& r.�u — Rnaoo9> bt u5n ; d-ia7t2i FLW4911 Kea $.esc0:&W ® PnWCgr KNi S RC! T& -Yloon) ryI-M t rxta;rZ 2.,. 2 I j� i ,L 200 400 600 800 Shear Rate hiss 1000 1200 5 of 18 Schlumbepp Mud Circulation Fluid 9ppg Surface Mud Number of Circulation 1.65 Total Volume at Ambient Temperature 960.0 bbl Ambient Temperature 60 de F Correction Sloe 0.00 Pumping Stages Fluid Pump Rate Duration Volume bbl/min hr:mn bbl 9ppg Surface Mud 8.0 02:00 960.0 Pox Pressaye {x'; — Max Allah, PKssare (pti) — Mm kivaa Presswe (3,) Frx Prmve,, Ds. 2Tj 6X 800 %X 120 14 t6a :&70 2G90 J S00 A _ 1500 r 200D — BZOm W! IM 107F) Film L 00 00 0020 0040 0100 0120 0140 Tare (hrmn) 6of,a Schlumhepgep Fluid Placement Fluid Placement in Annulus Fluid Name Top MD Bottom MD Length Volume Surface ft ft ft bbl Density lb/gal 9ppg Surface 0.0 0.0 0.0 0.0 0.00 Mud MUDPUSH II 0.0 0.0 0.0 50.0 10.50 Kenai Surface 0.0 2600.0 2600.0 308.0 12.00 Lead Kenai Surface 2600.0 3000.0 400.0 44.6 15.40 Tail Fluid Placement in Pipe Fluid Name Top MD Bottom MD Length Volume Surface ft ft ft bbl Density Ib/ al 9ppg Surface 0.0 2920.0 2920.0 221.4 9.00 Mud Kenai Surface 2920.0 3000.0 80.0 6.1 15.40 Tail Surface Densities are computed at P=1 atmosphere and T=Surface Temperature (32 degF) MD Oft �7-- 120ft 11 1 1 1 'Keno SulaceLead� Mud i i I� 2600 ft Kenai Swface Td i Kenai Surboe Tal 9m Sorlace Mud 2920ft 3D00 ft of18 Schlumbepp Pumping Schedule Pumping Schedule Pump Injection Cumulat Fluid Name Duratio Volum Rate Temperatur Comment ed Time n e bbl/mi a hr:mn hr:mn bbl n de F MUDPUSH II 00:08 50.0 6.0 68 Pump Spacer Ahead 00:08 Pause 00:10 Drop Bottom Plug 00:18 Kenai Surface 00:51 308.0 6.0 68 Mix/Pump Lead (7 01:09 Lead BPM Max Pause 00:10 Suck Down Tub, 01:19 Start mixing Tail Kenai Surface Tail 00:06 38.1 6.0 68 Mix/Pump Tail (7 01:26 BPM Max Pause 00:10 Drop Top Plug 01:36 9ppg Surface Mud 00:41 221.4 > 9ppg Surface 00:34 206.3 6.0 68 Displace Cement (7 02:10 Mud BPM Max > 9ppg Surface 00:07 15.1 2.0 68 Slow rate for Plug 02:17 Mud Bum I g 00:00 00:20 M 40 O1 00 0120 T'M (hr Tn! 01.40 0200 fUL QQ A r' �QO 0 0000 W 20 00 40 0100 01:20 0140 0200 Tern (hr:rw) 8 of 18 Schlumhepgep m 9of18 a 9 00:00 00:20 00:40 01:00 01.20 01:40 02:00 Ire (hr:rm) schlumbepoep Well Security Well Security Status Description Min Differential Pressure psi At Depth ft At Time hr:mn Success Fracturing 17 120.0 02:17 Success Production/Influx 5 120.0 01:52 Success Burst 5221 0.0 02:17 Success Collapse 2574 3000.0 02:17 N/A Dead -End Collapse 0 0.0 00:00 N/A Dynamic u-tubing in Dead -End 0 0.0 00:00 N/A Balanced u-tubing in Dead -End 0 0.0 00:00 10 of 18 — tax A,t u& Pressure (psi) ,- Frac Pressure(ps) psi v � 500 1000 1500 .. 2000 \ Schlumhepgep Static Temperature. at TOC 32 degF Simulated HCT at TOC 64 degF Max First SK Temperature 68 degF At time 00:00 hr:mn z t s m c 9 A Temperature Outputs Static Temperature at BH 78 degF Simulated HCT at BH 66 degF Max Last SK Temperature 68 degF At time 00:00 hr:mn wo 519u Ta w; — Kea 5.-%m LM. ices Kea IZZWE _ W; 5"A = jj_W C 70 68 66 64 4, 62 61 0090 0523 00:40 0100 0120 0140 0201 Tim (hrr m) C,eotn�rna iem� (W) Tin pie w t,me (oe4F) —Tin anma us at tame [de7Fi degF 30 40 50 60 70 80 11 of 18 Schlumhepgep Centralization Centralizers Commerci Min Max Alias Manufacture alName Type ConfiguratioOD OD Coun r n 710.37 in in t 1233695-9 5/8-8-36E bow_ 13.62 1/8" Houma 1233695 spring 36E 1/8" 9 5/8 4 6 27 Pattern Placement Bottom MD ft Joints Centralizer Alias Pattern Min STO Depth ft 2820.0 70.50 1 1233695-95/8-8-36E 1/8" 1/3 0.00 377.7 3000.0 4.50 1233695-9 5/8-8-36E 1l8" 1/1 0.00 2841.3 _ SLenmaft Geri CGRV3i¢d3 � SL>Plaoff et ce+rtrd"2es 0 20 40 60 61 100 V 500 ; 1000 • • 1500 _. • 2000 s • 2500 M 3000 z�nr, Computation time: Cement Turns 00:50 MD Oft 120ft 3DOOft Kenai Surface Laad� .: Spp9_Surf— Mud _Kenai Surface Tail Kenai surface Tail EiR_ Surface Mud .I 12 of 18 Schlumbepp DISPLACEMENT SIMULATOR Imposed Bottom MD StandOff ft % 3000.0 75.00 13 of 18 Schiumbepgep Average fluid concentration in annulus — 92p; 5j%Ce :tX a.g a-M w cwme at! n %s) LIJD-.S1 a.g win CC-Ce- mm MT�L %J Average Concentratw (%) :14 2500 3000 Average fluid concentration in pipe _ "5,01we UA a.g 0 K CO."namttrt ,%1 61.O;Y.L" i a g G 7e CWCA. 4.'W ff.:'Yte'.1a1 Average Concentramn (9b) 5 20; 251 30( 14of 18 Schlumbepgep FIUICIS Concentrations 9PP9 Si nnuncu 15 of 18 Schiumbepgep wo 1000 Iwo 2 o 29W contact Time (second) Mud On Wail RISK • 0.0 None 216.7 Low 433.5 I. t.. .. Medium 650.2 High 866.9 16of,8 Schiumbepgep Friction Pressure Calculator Fluid rates are calculated at P = 1250 psi and T = 68 degF Flow in Various Size .- Flow Rate: 6.0 bbl/min Pipe Internal Diameter — Minimum : 12.250 in Pipe Internal Diameter — Maximum : 14.250 in _ ?=On PWsj'2 YP'Oe Dp fM0'V PRS3.J4 DA s aon=ESS-E T:* D; G--T) V 9p; 54%. C—TIV;1 "S g.""-I5 . C4hOT.—%i V KM 5J°4. 14 12 i 10 2 41 12 12.5 13 13.5 14 14.5 Pipe 10 (in) 17 of 18 Schlumhepgep Pipe External Diameter : 9.625 in Hole Diameter — Minimum : 12.250 in Hole Diameter — Maximum : 14.250 in Fftcw P*mn (Anu ws Fmon PVSSJI % Us FIZZ Pw&m A IUA Dy GwneV)&r 9M SAU — ui ))W UJMJS^ 5r rJAr Kra 5XW* 41 2: i 18 of 18 Schlumbepgep Casing Cementing Field: North Fork County: Kenai State: AK Date: 3/30/2015 Proposal Number: 1 Contact: Courtney Rust Made By: Stephen Lauper Service from District: Kenai, AKA Objective: Obtain Zonal Isolation for Production of Lower formations Acceptance Criteria: Top of Cement 1000-ft from surface shoe with Cement mixed at correct density. Disclaimer Notice Schlumberger submits this document with the be refit of its judgmentexperience, and good oilfield practices. This information is provided in accordance with generally accepted Industry practice, relying on facts or information provided by others, tons a limitations computer models. measurements, assumptions and inferences that ere not i predictions SchlumbepUep Calculations ere estimates based on provided informalon. All proposals. recommendations, or predictions are opinions only NO WARRANTY IS GIVEN CONCERNING ACCURACY OR COMPLETENESS OF DATA. INFORMATION PRESENTED. EFFECTIVENESS OF MATERIAL PRODUCTS OR SUPPLIES, RECOMMENDATIONS MADE, OR RESULTS OF THE SERVICES RENDERED. Freedom from Infrirgement of any intellectual property rights of Schlumberger or others is not to be inferred and no intellectual Property rights are granted hereby. Well Data Summary The cementing program incorporates the following data : RiqType Land Fluids Return to Rig Floor BHST: 178 degF Mud Line D e th 0.0 ft Mud Return Depth 0.0 ft Section MD 9739.0 ft Section TVD 8849.8 ft All depths take the rig floor as reference Tubulars and Casing Hardware MD I OD Joint Weight ID Grade I Collapse Burst Thread ft in psi I psi I Prev Casing 1 3000.0 1 9 5/8 40.0 1 40.0 1 8.835 1L-80 3090 5750 API Casing 9739.0 7 40.0 26.0 1 6.276 L-80 1 5410 1 7240 Landing Collar i 9659.0 Serial number Float Shoe MO Oft F F7 i fi ! 1 t 2933fl ,9518inCasegl 77ts 4000 fl 7816 fl � _7 � Casing _Open Hde _� i 1 Cakr 1 9fi59fl — — 9739 ft Inc:n51,51 ION, In_imatw Itle„ 0 10 20 D 40 50 '— Mmzanta Dpartme (t4 Honzantal Dapartwe (fl 0 5: 1000 +533 2VX 25X 3C7 2 of 17 Schlumbepoep All depths take the rig floor as reference Tubulars and Casing Hardware MD I OD Joint Weight ID Grade I Collapse Burst Thread ft in psi I psi I Prev Casing 1 3000.0 1 9 5/8 40.0 1 40.0 1 8.835 1L-80 3090 5750 API Casing 9739.0 7 40.0 26.0 1 6.276 L-80 1 5410 1 7240 Landing Collar i 9659.0 Serial number Float Shoe MO Oft F F7 i fi ! 1 t 2933fl ,9518inCasegl 77ts 4000 fl 7816 fl � _7 � Casing _Open Hde _� i 1 Cakr 1 9fi59fl — — 9739 ft Inc:n51,51 ION, In_imatw Itle„ 0 10 20 D 40 50 '— Mmzanta Dpartme (t4 Honzantal Dapartwe (fl 0 5: 1000 +533 2VX 25X 3C7 2 of 17 Schlumbepoep Open Hole Total Volume 501.2 bbl Minimum Diameter 8.750 in Maximum Diameter 8.750 in Mean Diameter 8.750 in Mean Annular Excess 30.00 % Mean Equivalent Diameter 9.210 in MD r o Oft GN 2933ft 2525f: 3139 ft 2679 f: 4ODOft 2223,. 7816ft bbu r; 9659ft 87704 Po ee PressureED (a!ga ; - - F,ac P essu a ED (ib,gajj Ib/gal 6 9 10 11 12 13 14 15 16 3503. 133-33 Formation Frac Frac Pore Pore Top Botto Bottom Top Botto Top Botto Reservoi MD ft m MD TVD ft ED lb/gal m ED lb/gal ED lb/gal m ED lb/gal Litholo gy r Fluid Name ft 30.0 2933.0 2525.4 14.82 14.82 8.90 8.90 Sandstone Water 2933. 1 9739.0 1 8849.8 14.82 15.80 8.90 1 8.90 3of17 SchlumbepUep Temperature Name Top Bottom Bottom Temperatur Gradient Gradient Sea Current MD MD TVD a degF/100 degF/100 ft/min ft ft ft de F ft ft Surface 0.0 0.0 0.0 45 0.00 0.00 BHST 0.0 9739.0 8849.8 178 1.50 1.50 0.00 — Geotnema temp (degF) Geothermal ProW (degF) 40 60 80 100 120 140 160 180 z L 0 L7 t N 4 of 17 Schlumbepp Fluids Summary Type Name Density lb/gal K Ibf.s^n/ft2 n Ty Ibf/100ft2 Drilling Fluid MUD 9.20 7.31 E-3 0.59 7.14 Spacer MUDPUSH 11 11.30 1.54E-1 0.20 0.06 Slurry Production Lead Pilot 13.50 7.19E-4 1.00 29.88 Slurry Production Tail Pilot 15.30 5.02E-4 0.98 4.26 Rheology Parameters and Densities are displayed at P=1 atmosphere and T=20 degC (65degF) — Rneo ogy 61UD yw..'5D3ft� Rneoagy ProOj=n LbW ® Rneo-logy Proajct on Ta — Rneaagy 11UDPUSH it (tbf11M Av gA,S0aft2) Pest (thfr100f12) 200 400 600 800 1000 1200 Shear Rate (1%s) 50f,7 Schlumhepgep Mud Circulation Fluid MUD Number of Circulation 1.73 Total Volume at Ambient Temperature 1200.0 bbl Ambient Temperature 80 de F Correction Sloe 0.00 Pumping ..- Fluid Pump Rate Duration Volume bbl/min hr:mn bbl MUD 10.0 02:00 1200.0 Para Pressuretg-,; — Aga[ Atinvim P essure (ps] — Al Anew a PresSJre Ws) frac pressure ��s } psi D 251D ON 000 ON 0 ,\ I 2000 40H i 6003 - 8033 0000 Baminn !1n, ia-;f; 189 170 ` t 1fi0 � 15D 140 130 120 00:00 0020 0040 01 M 0110 0140 Tee (hrmn) 6of17 Schlumbepp Fluid Placement Fluid Placement in Annulus Fluid Name Top MD Bottom MD Length Volume Surface ft ft ft bbl Density lb/gal MUD 0.0 3138.1 3138.1 89.5 9.20 MUDPUSH II 3138.1 4000.0 861.9 3 11.30 Production Lead 4000.0 7815.9 3815.9 132.8 13.50 Pilot Production Tail 7815.9 9739.0 1923.1 15.30 Pilot Fluid Placement in Pipe Fluid Name Top MD Bottom MD Length Volume a Surface ft ft ft bbl Density Ib/ al MUD 0.0 9659.0 9659.0 369.6 9.20 Production Tail 9659.0 9739.0 80.0 3.1 15.30 Pilot Surface Densities are computed at P=1 atmosphere and T=Surface Temperature (45 degF) MD Oft 2933 fl V MUD f ` .Production Lead Plot 7816 ft Production Tail Pi i ' Production sail Prot MUD §739 ft 7of,7 Schlumbrgep Pumping Schedule Pumping Schedule Fluid Name Duratio n hr:mn Volum e bbl Pump Rate bbl/mi n Injection Temperatur a de F Comment Cumulat ed Time hr:mn MUDPUSH II 00:05 30.0 6.0 68 Pump Spacer (2-7 BPM 00:05 Pause 00:10 Drop Bottom Plug 00:15 Production Lead Pilot 00:22 132.8 6.0 68 Mix/Pump Lead (2-7 BPM 00:37 Production Tail Pilot 00:11 70.0 6.0 68 Mix/Pump Tail (2-7 BPM 00:48 Pause 00:10 Drop Top Plug 00:58 MUD 01:04 369.6 > MUD 00:59 359.6 6.0 68 01:58 > MUD 00:04 10.0 2.0 68 02:03 0000 0020 0040 0100 0120 0140 02:00 Tire Ihrmr) �ovsmaw�a',ps--am nu ¢vsu�t'+�i 2500 2000 A/ 1500 1000 500 -e • ''`—� i ii 0 00.2U 00:40 0100 0120 0140 0200 T.ma (firm) 8 of 17 Schlumbepp I 9of17 - NOW mepvtzAE;O", - 5mc put. m Om. 12 11 10 g ' 8 oD 00 0020 DOAD 01:00 01:20 01:40 02:00 To* (hrw) SchlumbepUep Well Security Well Security Status Description Min Differential Pressure psi At Depth ft At Time hr:mn Success Fracturing 516 3000.0 02:03 Success Production/Influx 54 3000.0 01:53 Success Burst 5279 0.0 02:03 Success Collapse 3511 9739.0 02:03 N/A Dead -End Collapse 0 0.0 00:00 N/A Dynamic u-tubing in Dead -End 0 0.0 00:00 N/A Balanced u-tubing in Dead -End 0 0.0 00:00 10 of 17 —Max AkIM?Pmssure(ps) _,, frrP=wejes:' pti 0 2300 4000 6033 KID ?,M 1333 �� i333 Schlumbepp Static Temperature. at TOC 95 degF Simulated HCT at TOC 103 degF Max First SK Temperature 131 degF At time 01:31 hr:mn F. Temperature Outputs Static Temperature at BH 178 degF Simulated HCT at BF- 131 degF Max Last SK Temperature 131 degF At time 02:03 hr:mn P>Lma M Ti P ¢.. LIM PWJ= LM F C.; P9PARM _ ltS�J$'I i.; PAOYfA� iNC _ "{ 6f.4')Pjrpi I i'@'18'.F 47 14D 130 120 110 10€1 _ t 90 rr 80 (af 70 Rn 00.00 0010 00:40 01:00 0120 01.40 02 00 TV* (hrmn) Geanert s temp (degF) Tin pyre r tome (aW) —Tan ennvWs at tune (ftf) degF 40 60 80 100 120 140 160 180 11 of 17 Schlumbrgep Centralization Centralizers Commerci Casing Min Max Alias Manufacture alName Type Configuratio OD OD OD Coun r n in in in t 1501270- 7-6- Positive Houma 1501270 rigid Positive 7 8.252 8.252 52 Pattern Placement Bottom MD ft Joints Centralizer Alias Pattern Min STO Depth ft 3933.0 98.32 1501270-7-6-Positive 0 0.00 0.8 9000.0 126.67 1501270-7-6-Positive 1 /3 0.00 4019.2 9659.0 16.48 1501270-7-6-Positive 1/2 100.00 9059.0 9739.0 2.00 1501270-7-6-Positive 1/1 100.00 9679.0 _ Slan�Hnwcent+a!zers � SanMNatcentraczes 45 0 20 40 60 80 0 i 2000 4000 6000 8000 0a!t1 100 MD Oft Computation time: Cement Turns 01:17 12 of 17 Schlumhepgep DISPLACEMENT SIMULATOR Imposed. • Bottom MD StandOff ft % 9739.0 80.00 13 of 17 Schlumhepgep Average fluid M.19.2 wr GD'Camstt'r atTt %� _,. ai.2tp.bh n ay a't� caxe'maco� Average Concentration N 0 20 40 60 80 100 14 of 17 _ MO a.g R�VCVW&T.a..m ZSa%, kq"-G� 4a:g aaecoxe'm 'r a. c.me ,*.I Average Concentration (%) 0 20 40 80 80 100 120 0 0 O T 1 I SchlumbepUep OR 2933 R 2000 3138fl MUDP-SH II 4000 0000 fl F s000 _ 'i MUD e000 f Fluids Concentrations ."*I Production Tail Pilot - MUD MUDPUSH II Production TailProduction Tao Pdat_� Pmductlon Lead Pilot 6 MUD i_ Production Tall Pilot 9739 R 15of,7 Schiumbepgep 2000 4000 6000 BOOo 2000 4000 6000 6000 Contact Time (second) Mud On Wall RISK - 00 None 162.5 . 1. 325.0 �. Medium 487-5 High 650.0 16 of 17 SchlumbepUep Friction Pressure Calculator Fluid rates are calculated at P = 4466 psi and T = 185 degF Flow in Various Size Annuli Flow Rate: 6.0 bbl/min Pipe External Diameter: 7.000 in Hole Diameter — Minimum: 8.750 in Hole Diameter — Maximum: 9.150 in FKWPWS6MO!MJJI FMOn PvSSIt`krUj& F-am PWSJ. jATU4S FFCE41 PtSSJt f1IUA � Ge"a y) t, LSM @s ,i�o7tj — g 1 � ma*,� �n, Gmair.})#y Pwxtm 01, G*Ww!-i)fa Pooxeoo i PS,IODOO) "PccPTo37y TS Pa. Pi'1 ) 87 88 8.9 9 91 92 Pipe IG (m) 17 of 17 Schlumhepgep M1 SWAq Cook Inlet Energy, LLC NFU 14-26 Fluids Program DRILLING FLUIDS PROPOSAL Cook Inlet Energy, LLC North Fork Unit 14-26 Fluids Program _ Cook Inlet Energy_ NAME SIGNATURE DATE Prepared: Michael Francis 3/30/2015 Reviewed by: Mark Fairbanks Customer Approval: Version:1.0 NOTE: This program is provided as a guide only. Well conditions will always dictate fluid properties and product additions required for well -bore integrity Ver. 1.0 CONFIDENTIAL Page 1 of 19 Mi SWAGjW Proposal Summary Cook Inlet Energy, LLC NFU 14-26 Fluids Program North Fork Unit 14-26 is a deviated grassroots exploration well that will be drilled utilizing Miller rig #36. It is proposed that a M-1 GEL Spud Mud system be utilized for the 12.25" surface hole section to 3,000' MD. In order to minimize the need of having large quantities of product on hand and also reduce the amount of cuttings that need to be hauled away, it is suggested that a highly inhibitive KLA-SHIELD system be used to drill the 8.75" production interval to 9,739' MD. The KLA-SHIELD system will be comprised of 6% KCL, NaCl and M-1 WATE for mud weight with sized Calcium Carbonate for losses. Contingency products will be on hand to cover events such as mud weight increases and to combat any lost circulation problems that may occur. Footage Casing Size Hale Size Casing Intervals Depth MD Depth of Hole Mud System Mud Weight TVD �ppg) Drilled 13.375" NIA 120' 120' NIA NIA NIA 9.625" OD 12.25" 8.681" ID 0.1458 y 3,000' 2,575' 3,000' Gel Spud Mud 8.8-9.2 bbls/ft • 8.75" 7.0" OD 6.184" ID 0.0744 9,739' 8,850' 7,164' Kla-Shield 9.0-9.6 bbislft a Ver. 1.0 CONFIDENTIAL Page 2 of 19 Cook Inlet Energy, LLC NFU 14-26 Fluids Program Fluid and Drilling Concerns ■ Hole Instability — While drilling through shale take notice of the cuttings size and shape to ensure that there are no hole instability issues or indications of break out i.e. large angled cuttings. • Lost Circulation — Monitor fluid volumes to detect any early signs of lost circulation, if lost circulation is encountered treat appropriately by following the LCM decision tree. • High ECD's — Ensure that the fluid properties are maintained to provide the best possible hole cleaning properties. Maintain mud weights as per program guidelines and or hole conditions and ensure that rheology is optimized to reduce ECD's to a manageable level while drilling. ■ Coal — In the Cook Inlet, area drilling through large coal seams have proven problematic in the past. Increasing the density of the drilling fluid has proven to be effective when any signs of hole instability due to coal are seen. Refer to the "Drilling Coal" section of the program. ■ Surge and Swab — Surge and Swab can increase the potential for wellbore instability, use proper drilling and tripping practices to mitigate this risk. ■ Logistics — Due to the limited amount of room for product and the effort it takes for the product to get to the drill rig, proactive measures need to be taken for logistics. Mud Engineers will take daily inventory and order product ahead of time. ■ pH — Keep pH in the range of 9.0-10.0 as this is essential in mitigating corrosion. ■ Tripping Pipe — Stage into the open hole in several increments breaking circulation each time and circulating for a period of time to ensure adequate fluid movement. Idle pumps when beginning circulation to minimize surge pressures. Work pipe and rotate while circulating to help break up gel strengths. Hole Cleaning Recommendations ■ Rheology and Hydraulics calculations will be run daily and the mud properties will be adjusted as needed to maximize hole cleaning. ■ Use the highest possible annular velocity to maintain good hole cleaning. Annular velocity provides the upward impact force necessary for good cuttings transport. ■ Control drill to manage difficult hole cleaning situations. Penetration rates determine the annular cuttings load. Use the PWD data (if available) to determine when it is necessary to stop drilling and circulate the hole. ■ Keep cuttings concentration less than 5% (by volume) in order to minimize drilling problems. ■ Virtual Hydraulics will be run through each hole section to optimize the fluid for maximum hole cleaning efficiency. Ver. 1.0 CONFIDENTIAL Page 3 of 19 Cook Inlet Energy, LLC NFU 14-26 Fluids Program Sweep Recommendations ■ M-1 SWACO don't recommend the use of sweeps unless hole conditions dictate. • Hi- Vis sweeps are recommended to use if needed. The volume should be enough to cover at least 200- 300' annular volume of the open hole. The recommended rheology of the sweep would have the Yield Point in the 35-40 range and the 6 RPM readings in the 15-20 range. • Weighted sweeps are another option, but Hi-Vis sweeps are preferred for this low angle well. ■ The need to pump LCM sweeps will be dictated by hole conditions. Bit/BHA Balling Recommendations ■ Reactive clay formations can absorb high volumes of water and can be extremely sticky and problematic regardless of the degree of inhibition. ■ The drilling rate should be controlled to keep the concentration of cuttings in the annulus below 5%. ■ Short trips should be made as necessary to minimize buildup of cuttings in areas of hole washout. • During trips, the BHA can accumulate cuttings that will potentially ball it. Recommend circulating for a 2- 3 bottoms up to circulate up any formation that may have adhered to the BHA or bit during the trip. Ver. 1.0 CONFIDENTIAL Page 4 of 19 Mill S1AlAC;p Cook Inlet Energy, LLC NFU 14-26 Fluids Program 12.25" Interval Summary SURFACEINTERVAL Drilling Fluid System M-1 GEL Spud Mud Key Products M-1 GEL, GELEX Bentonite Extender, POLYPAC SUPREME UL & Soda Ash Solids Control Shakers, Centrifuge Potential Problems Hole Stability Shallow Gas Washout Swelling Clays INTERVAL MUD PROPERTIES Depth MD (ft) Mud Wt. (ppg) Funnel Viscosity Plastic Viscosity Yield Point (lb1100ft2) API Fluid Loss (m1130min) LGS (%) 0'-3,000' 8.8-9.2 85-125 2040 2545 < 9 <13% NOTE: This program is provided as a guide only. Well conditions will always dictate fluid properties and product additions required for well -bore integrity. Surface Interval Overview Lithology through this zone is a composite of sand and small pea gravel in the upper intervals with a grading downward to predominately sand and some siltstone in the lower zones of this interval. Based upon work done on previous wells in this area, an M-1 GEL Spud Mud is recommended for the surface interval. Initial Fluid Makeup for M-1 GEL Spud Mud (Use fresh water): M-1 GEL 25 - 27 Ib/bbl Soda Ash 0.25 - 0.5 Ib/bbl or as needed GELEX As needed (do not add until drilling out conductor) M-1 GEL Spud Mud Additions: M-1 GEL Soda Ash Caustic Soda GELEX POLYPAC SUPREME UL 25 -27 Ib/bbl 0.25 - 0.5 Ib/bbl or as needed As needed for a pH of 9.0 — 9.5 As needed for viscosity 0.25 Ib/bbl or as needed to control fluid loss Ver. 1.0 CONFIDENTIAL Page 5 of 19 MI SWACO_ - Cook Inlet Energy, LLC NFU 14-26 Fluids Program Surface Interval Drilling Discussion ■ Lithology — Lithology through this zone is a composite of sand and small pea gravel in the upper intervals with intermittent clay matrix. Carbonaceous material and coal may be noted. Lithology through the bottom of the interval should consist of mostly sand and some siltstone. M-1 GEL Spud Mud is to be used for the surface interval. ■ Bit Balling — If there is any indication of bit balling, pump bit balling sweep with: o 15 ppb PECAN NUT PLUG MEDIUM (do not add SAPP) ■ Rheology/Gel Strengths — 2 lbs. of GELEX per 3,500 lbs. of M-1 GEL EXPORT should be used to maintain viscosity when needed. Do not depend on GELEX additions to provide needed gel strengths; be sure to have a sufficient MBT. ■ Hole Cleaning — Gravel sizes that are larger than normal can contribute to poor hole cleaning. If encountered, increase viscosity to provide good hole cleaning. ■ Washing Out Conductor Shoe — Maintain low flow rates for the initial 200' of drilling to reduce the risk of washing out the conductor shoe. ■ Conditioning Mud for Cement — Conditioning mud per cement contractor's specifications, AFTER casinq is landed. Before cementing the surface casing into place, check that the YP is sufficient per cementers. Utilize CF Desco II, SAPP and Citric Acid to treat any cement contaminated mud if necessary. Surface Interval Fluids Operations ■ Read all MSDS's on products that will be used throughout the conductor interval. ■ Start mixing spud mud with fresh water by adding .25 - .50 ppb of Soda Ash (depending on hardness) to the makeup water before any other product to treat any possible calcium in the makeup water and raise the pH to an acceptable level so the gel can yield properly. ■ After drilling out conductor, add GELEX Bentonite Extender to the M-1 GEL Spud Mud per Mud Engineers instruction to increase the viscosity to 100-150 sec/qt. GELEX concentration should be 1- 2#bag per 70sx of M-1 GEL. ■ After drilling out the conductor, open the active system to all available pits. ■ Maintain funnel viscosity at 85-150 sec/qt while drilling and running casing. If mostly sand and clay are encountered this can be lowered if needed. ■ Watch pit volumes closely for any increase in volume or flow from the well. ■ Utilize POLY PAC SUPREME UL to maintain API fluid loss < 9 in lower section of the hole. ■ If bit balling is an issue while drilling through any clay, pump sweeps with 15 ppb PECAN NUT PLUG MEDIUM. Do not use SAPP as decreased mud viscosity will occur. ■ Maintain MBT no greater than 30 Ib/bbl and add GELEX Bentonite Extender as needed for increased viscosity. Ver. 1.0 CONFIDENTIAL Page 6 of 19 Cook Inlet Energy, LLC NFU 14-26 Fluids Program ■ Keep drill solids as low as possible by running available surface equipment equipped with the recommended screen sizes at the end of this program. Dump and dilute if gel strengths become highly progressive. • Upon reaching TD, watch the bottoms -up cuttings closely. If the well does not readily clean up or if there are any excess of torque, drag, pick-up or slack -off weights, pump a high viscosity/weighted sweep and observe bottoms up again. Mud Engineers to note the results in the One-Trax daily report. • After running casing, break circulation and adjust yield point as necessary per cementers. Lower the yield point with additions of water and CF Desco II. ■ After YP is lowered and the rig is ready to cement, have CF Desco 11, SAPP, and Sodium Bicarbonate along with cement retarder ready for cement returns to surface, Isolate on the suction pit and pre -treat spud mud with SAPP and Citric or Sodium Bicarbonate, but not both as aeration can occur, in preparation to bump the plug. Ensure there is enough fluid volume to bump the plug when preparations are being made. ■ Keep enough treated Spud Mud to drill out the shoe track and 20' +/- of hole. Surface Interval Hole Cleaning ■ Extra time should be spent on circulation prior to connections and trips. ■ Adjust rheology when needed to help with hole cleaning. ■ Make wiper trips every 500' or as hole conditions dictate. ■ High viscosity sweeps may help but should not be used as a primary cleaning strategy. • Maximized RPM while drilling and circulating will greatly aid with hole cleaning. • Monitor wellbore for hole instability. Ver. 1.0 CONFIDENTIAL Page 7 of 19 M1 SWAPw Cook Inlet Energy, LLC NFU 14-26 Fluids Program Mill auvnr� Sdr 009 1 !o M a , CrlHAFrp TV� ALHYDRAUUCS* "'�'d'�"� ' 7 man rxml� awus ASW�w�Depp, Cpipniry — _ �. US�:,�: ate: Wwhia Snapshot* IllM1tyigMk >!'� Caeey LLS1-AYfu -R— YI H*Q ft P.r I)Wblaln Tp,LSITp69WKl fFI RyJ W. A-4 a.m. ES•70a s k ¢ X v I Ili II I ! I I TTI -� ~W wi.i.d" MW.W 1: Wo ukuq 71 7 NIEIII°Fl of 1P 7 ►'lllR LM w k17n4 Sy"M HI.W 11! p1b 111iaSm RY 1{a ner ft"S* M W wrelarlte ! 11116, Yllo� %*U-ILI 1-l-1-1 1 Rri L— wiTdM.L. SASMp 1105 pY 0 pd ■OAM 0 pi Aria IQ 0 sutveEpq III pw Wd.wd /1 p T.WS". .0 BO SM fU Cq 9m 111 &A U Te lH U7 !H YM�Yip1Y iao. M�QiUu8.B1' G.tlY:f MI SWW— O ti0"�00^I srA Opals. Cmli.l�M VIRTUAL HYDRAULICS* �'"�"�- ' M >m a will— 1pU %H j A SrAI'misro..�Y I �1ft 4"T � =.a*. VRDH* /ft reslS � ISA.ALLI I Pressure vs Flow Rate CookIdd Erwg NRI 142E Flow Rate (gaftln) Ver. 1.0 CONFIDENTIAL Page 8 of 19 Mi SWACO Cook Inlet Energy, LLC NFU 14-26 Fluids Program 8.75" Interval Summary PRODUCTION INTERVAL Drilling Fluid System KLA-SHIELD Key Products POLYPAC SUPREME UL, FLO-VIS PLUS, KCL, KLA-STOP, Busan 1060, DEFOAM- X, ASPHASOL SUPREME, LOTORQ, DRILLZONE, SAFE CARB-20, SAFE CARB-40, M-1 WATE, SACK BLACK, CONQOR 404WH, NaCL & RESINEX Solids Control Shakers & Centrifuge Potential Problems Hole cleaning Loss circulation / Differential sticking Hole stability IRunning coals INTERVAL MUD PROPERTIES Depth MD (ft) Mud Wt. PV Yield Point API Fluid Loss Cl- LGS (ppg) (lb1100ft2) (lb1100ft2) (m1130min) (mg/0 (%) 3,000'-9,739' 9.0-9.6 10-20 15-25 <5 14,000-33,000 <6% NOTE: This program is provided as a guide only. Well conditions will always dictate fluid properties and product additions required for well -bore integrity. Production Interval Overview The production interval will be drilled to a depth of 9,739' MD using an 8.75" bit with the highly inhibitive KLA- SHIELD system at 9.0-9.6ppg containing 6% KCL. Wellbore stability is crucial to the interval as several coal seams will be drilled. A well maintained mud system supplemented with good solids control equipment for maximum solids removal will minimize fluid invasion. Proper drilling practices and properly engineered fluid will minimize wellbore instability. Any new fluid that is required should be built to the below specs. KLA-SHIELD Initial Drilling Fluid Formulation: Fresh Water 0.88 bbls FLO-VIS PLUS POLYPAC SUPREME UL 6% KCI KLA-STOP CONQOR 404 WH NaCl Busan 1060 RESINEX ASPHASOL SUPREME Ver. 1.0 1.0 ppb (as needed for Rheology) 1.5 — 3.0 ppb 21.8 ppb (in base brine) 8.0 -12 ppb/2.0 — 3.0 % v/v 0.15 gals/bbl As needed for 9.0 ppg mud weight 0.4 ppb 1 ppb* 1 ppb* CONFIDENTIAL Page 9 of 19 Mi SWACO Cook Inlet Energy, LLC NFU 14-26 Fluids Program Before drilling though reactive shales, additions are recommended as follows: ASPHASOL SUPREME 4 — 6 ppb RESINEX 2 — 4 ppb Production Interval Drilling Discussion ■ Lithology for this interval is expected to consist of sand, shale, siltstones, and coal. ■ Ensure that the fluid properties are maintained to provide the best possible hole cleaning. Maintain mud weights as per program guidelines and or hole conditions and ensure that rheology is optimized to reduce ECD's to a manageable level while drilling. Monitor for any fluid losses and flow back closely. ■ If additional mud weight increases are required outside of plan, control the ROP and flow rates as needed to avoid inducing a breakdown of any formations while drilling in the lower portion of this interval. Reduce pump rates immediately if packing off occurs. Run back to bottom and establish circulation. Pump high viscosity sweeps and ream carefully to clean the hole before proceeding with further drilling. ■ Adjust rheology, pipe rotation speed, pipe running speeds and pump rates as needed to balance hole cleaning and ECD. Use good drilling and tripping practices. Break circulation slowly — Reduce pump speed 15 to 20% while reaming down. Back reaming should not be utilized if possible to minimize the risk of coal seam instability. ■ Upon reaching casing point, watch the bottoms -up cuttings closely, If the well does not readily cleanup or if there are any excess of torque, drag, pick-up or slack -off weights pump a high viscosity /weighted sweep and observe bottoms up again. ■ Minimize dilution rates as much as possible by utilizing the rigs solids control equipment. Monitor screen condition closely. Ensure centrifuge is running properly and that all de-sander/de-silter cones are "Spraying" and not "Roping". Interval pore pressures may vary. Shale stability and pore pressures could require a higher or lower mud weight. Any fluid weight adjustments should be performed in 0.1 — 0.2 ppg increments using Safe Carb-40 as a weighted "spike" fluid. Production Interval Fluid Operations: ■ Ensure all MSDS sheets are available for the rig crews and have been reviewed. ■ Run corrosion ring in the drill string per M-1 SWACO's corrosion mitigation program. ■ When building the KLA-SHIELD drilling fluids system, follow the fluid recipe and make changes as necessary to target a yield point of 15-25 (Ib/100ft2). ■ The initial makeup will consist of 1 ppb of RESINEX and 1 ppb ASHPASOL SUPREME. This will be increased while drilling ahead for hole stability and fluid loss. ■ Use only Busan 1060 for bacteria control. DO NOT use Myacide GA25 (Glutaraldehyde). Ver. 1.0 CONFIDENTIAL Page 10 of 19 M� S1AiAICC� s _ Cook Inlet Energy, LLC NFU 14-26 Fluids Program ■ Always be aware of the condition of the cuttings as they go over the shaker. If cuttings become soft or mushy, these are signs of insufficient inhibition. Test the KLA-STOP and KCI concentrations in the system and adjust accordingly. ■ Maintain 2% v/v KLA-STOP in the system; monitor the concentration using the titration method. Add additional KLA-STOP as needed to maintain the proper concentration needed for inhibition. ■ CONQOR 404 WH additions should be made daily when drilling with KLA-SHIELD drilling fluid system in order to prevent any oxygen corrosion. Maintain a CONQOR 404 WH concentration of +/- 2000 ppm or 0.15 gal/bbl. ■ Monitor the HTHP (@165°F) and keep below 8.0 cc/30 min (using paper). ■ Maintain a low API fluid loss of < 5 ml/30 min. Make the necessary additions of RESINEX, Calcium Carbonate, ASPHASOL SUPREME and POLYPAC SUPREME UL. ■ Keep MBT values below 12.5 ppb. ■ If any high torque is seen and suspected to be initiated from the formation, add LOTOTQ. Note — Be careful not to let addition of tubes mask hole cleaning problems. Also ensure that the amount being added complies with any compliance regulations. ■ If the mud weight needs to be increased past 11.5 ppg, barite sag could become an issue. (Barite sag is a reduction in the MW out due to the dynamic and static settling of barite) If the mud density is weighed up past 11.5 ppg, avoid low pump rates and low drill string rotation. Make sure and run the VSST barite sag test. ■ Upon reaching TD, watch the bottoms -up cuttings closely. If the well does not readily clean up after 3 — 4 bottoms up, or if there are any excess of torque, drag, pick-up or slack -off weights, pump a high viscosity / weighted sweep and observe bottoms up again. Continue pumping while rotating and reciprocating until the wellbore is clean. ■ Run casing to TD and do not alter the YP. After casing is landed, isolate on one pit and condition fluid in preparation for cementing per the cementing program with additions of water and CF Desco II. Be sure to isolate on one pit so only the necessary amount of fluid is being treated. ■ Keep track of water and whole mud additions and record daily in One-Trax. Ver. 1.0 CONFIDENTIAL Page 11 of 19 M SWAp ,'F Cook Inlet Energy, LLC NFU 14-26 Fluids Program "'"'Emw VIRTUAL HYDRAULICS* A Sc.umGr.e GOnglnY—mod`~.. Tw..=A Wdv—. WUMI e1 Taa 171a Iwix A.1.W Sna Shot �vlr mro us,.,,., w MD7W cq= k 6! { ¢ rn 4. �. IYuienhl.Ibe W-V oc.f ? 3 F F MoRdd WARP a. Wdp. U .IN T.dT.p to 4 NiOtlp`FI ■ r Tr a b1w OF / b1W %W-Do F-RA. w pr® WFjtl.M 1 W&F apadr SUSSn bld-1.1 h—L— aeR /p_M as AMy RI pd 403 pd Wloan to pd A .ie M pd SA. E* a pd WT.e®Fa a pd T.dllr. au pd BD SM Qt CRY- !N Ra ilg iD to%a Tlv Mil s AOLIC IM; VIRTUAL HYDRAULICS* .,.�.m nna. Ver. 1.0 Pressure vs flow Rate Cook Idd Enam NRJ %26 FkTW Rate (pWnIn) CONFIDENTIAL Page 12 of 19 M i SWAsCQ_ 4 Cook Inlet Energy, LLC NFU 14-26 Fluids Program Drilling Coals: Introduction Coal is commonly encountered in gas -bearing Carboniferous. The associated drilling problems include tight hole, wash outs, stuck pipe, lost circulation, sloughing and pack off and gas influxes. Most of the problems occur when the coal is encountered at depth (i.e., is present as primarily anthracite rather than lignite). Coal formations have low density and are typically brittle, with low compressive strength, and often highly fractured. They can collapse into the borehole in areas of high tectonic stress resulting to stuck pipe. Other drilling problems in the Carboniferous include slow ROP, high torque, drag and BHA shock severity (especially if using water -based fluids) and stick -slip. These are due to the hard, abrasive nature of the sands. In some areas, both the inter- bedded shales and sands can be fractured, leading to lost circulation. Recommendations for Drilling Coal The use of Oil Based Mud (OBM) is generally preferred although water -based fluids have been used. In both cases the addition of wellbore plastering agents such as Gilsonite/ Soltex/ Asphasol Supreme/ Resinex is recommended. The fluid rheology should also be considered. It is essential to maintain adequate hole cleaning especially in high -angle wells. If the hole is not being properly cleaned, the larger coal particles may have a tendency to pack off. Coal has a low density (range 1.1-1.5 with pure anthracite = 1.5) and weighted sweeps may be very effective due to the buoyancy effect. Mud Weight Adequate mud weight should be maintained to ensure stability of the formation. The coals in the Cook Inlet area have a very "Plastic" characteristic and coal stability can be enhanced by increasing the drilling fluid weight. Care must be taken when using high mud weights to avoid exceeding the fracture gradient. Most importantly, good drilling practices should be employed together with the suggested drilling fluid solutions to achieve optimum results. The first sign of coal is normally a significant drilling break. If this occurs, the driller must pull off bottom with the pumps on and perform a flow check. Swab and surge pressures should be minimized as should the amount of time the drill string is kept static. Coal seams are notorious for washing out and this can lead to ledges developing. Care is required when tripping to avoid kicking off a new hole from the ledges. If a pack -off does occur, running back into the hole and circulating will normally clear it. Operations As with any unstable formation, it will be beneficial to minimize trips, reaming and back reaming if possible. Drilling with low WOB and high RPM and with the minimum number of stabilizers may help. Control the drilling rate to prevent overloading of the annulus if the coal is tending to break out. In extreme cases, it may be necessary to drill the coal seam in short intervals, reaming each new hole section before progressing. Experience shows that it is best to avoid sliding through coal seams and also best to maximize the angle at which the wellbore penetrates the coal seam. However the solubility of lignite is much reduced in saline fluids and no problems are seen in KCl/polymer of salt/polymer systems. Ver. 1.0 CONFIDENTIAL Page 13 of 19 Cook Inlet Energy, LLC NFU 14-26 Fluids Program Minimum Time to Circulate Prior To POOH This model simply predicts the minimum flow rate required for adequate cuttings transport. No predictions are available for the rate at which cuttings are removed. Because the cuttings move more slowly than the circulating mud, it is essential that sufficient bottoms -up are circulated prior to tripping. A SINGLE BOTTOMS -UP IS NEVER ENOUGH! The minimum on bottom circulation time prior to tripping will be influenced by hole size, inclination and flow history (i,e. mud properties and flow rate). These factors will affect the height of any residual cuttings beds. Recent work by Exxon has indicated that the volume of cuttings left behind during normal drilling operations can be considerable. They recommend selection of bits/BHAs with large bypass areas to facilitate tripping out of the hole. Before tripping, monitor the shakers to ensure the cuttings return rate is reduced to an acceptable background level. The figures in the table below are guidelines based on simple slip velocity considerations and field experience: WELL INCLINATION RANGE SECTION LENGTH FACTOR 17-1/2 inch HOLE 12-1/4 inch HOLE 8.1/2 inch HOLE 00 -100 1.5 1.3 1.3 10o - 30o 1.7 1.4 1.4 300 - 60o 2.5 1.8 1.6 60o + 1 3.0 2.0 1.7 Procedure 1. Effective length = Section length x section length factor. 2. Circulation time = E Effective Length x B/U Measured depth at Bit Example Since in practice not all of the section back to surface will be deviated at the same angle, the overall minimum circulation time prior to tripping should be apportioned in direct relation to the relative lengths of section at each angle. Ver. 1.0 CONFIDENTIAL Page 14 of 19 MI SWACO Solids Removal Equipment Recommendations Cook Inlet Energy, LLC NFU 14-26 Fluids Program The recommended SCE for this well are: Mongoose Shakers and Variable Speed Centrifuge. Recommended shaker screens sizes are as follows: Interval Recommended Screen Sizes 120'— 3,000' Surface 110 -165 mesh 3,000'— 9,739' Production 200 — 230 mesh ■ Run all solids control equipment when drilling ahead. ■ Monitor LGS and sand content closely. ■ Screen up as much as possible. ■ Monitor screens for holes and wear. Replace screens if holes occur. Lost Circulation / Seepage Action plan ■ Have sufficient sized LCM on rig to begin loss interval. It takes 40 ppb of sized calcium carbonate to make a filter cake with this plugging material. Use in combination with 5 ppb ASPHASOL SUPREME and MIX II at 5 ppb, ■ Recommend hourly addition of LCM to keep a concentration in the system at all times. The addition of SAFE-CARB (40,250,500), MIX II (cellulosic fiber), ASPHASOL SUPREME (treated Gilsonite) and G-SEAL (sized graphite) can be adjusted as needed to combat losses. ■ The particle size of the LCM is important. If the expected loss zone particulars are known, then plan to have LCM to offer a particle size distribution so the majority of the LCM has a D50 to cover 1/3 the expected pore throat size and a D90 of cover the pore throat size. The D90 material should make up 10% of the total LCM ppb pumped. ■ Coordinate spotting and wait time for LCM pills if losses are over 60 bph. ■ The majority of losses can happen when running casing, circulating before cementing and while cementing which should be monitored closely. The use of Virtual Hydraulics Surge Calculations is recommended to establish safe casing running speeds. The use of open -float and M-1 SWACO WELL COMMANDER should be considered to help minimize surge pressures to formation. ■ OPTIBRIDGE Software will be run while on location to develop the specific particle size distribution for the LCM materials to be used for any formations with the known tendencies for lost circulation. Ver. 1.0 CONFIDENTIAL Page 15 of 19 M1 sw'�P---Q�- Cook Inlet Energy, LLC NFU 14-26 Fluids Program Lost Circulation Recommendations The following proactive lost circulation decision tree can be modified to include any contingencies that Cook Inlet Energy requires. The flowchart allows for planning of lost circulation material needs. Seepage losses 5 - 20 bbl/hr If fault related drill across fault 1-1.5 times the length of the throw before treating losses Spot 50 ppb pill*: G-SEAL Plus 10 ppb M-I-X II Med 10 ppb SAFE CARB 40 10ppb SAFECARB 250 15 ppb SAFECARB 500 5 ppb Pump thru BHA Losing fluid while drilling Measure rate of loss Partial losses 20 -60 bbl/hr If fault related drill across fault 1-1.5 times the length of the throw before treating losses Spot 80 ppb pill*: G-SEAL Plus 15 ppb M-I-X 11 Med 10 ppb SAFE CARB 40 15 ppb No SAFECARB 250 25 ppb No success SAFECARB 500 15 ppb success Pump thru Well Commander or BHA Severe losses 60 — 200 bbl/hr or Total loss of returns If fault related drill across fault 1-1.5 times the length of the throw before treating losses Contact Drilling / Asset Engineer for approval * Indicates that the particle sizing of these products are smaller than NUT PLUG MEDIUM Spot 100 ppb pill*: M-I-X II - C 10 ppb G-SEAL Plus 15 ppb M-I-X II Med 10 ppb SAFE CARB 40 15 ppb SAFECARB 250 30 ppb SAFECARB 500 30 ppb Pump thru Well Commander Squeeze high -fluid -loss pill*: FORM -A -BLOCK 35 ppb Pump thru Well Commander or BHA Ver. 1.0 CONFIDENTIAL Page 16 of 19 HSE Concerns Health and Safety Cook Inlet Energy, LLC NFU 14-26 Fluids Program • Drilling crews should be instructed in the proper procedures for handling fluid products. • Personal Protective Equipment (PPE) charts should be posted in the pit room, the mud lab, and the office of the Drilling Forman. • PPE must be in good working order and be utilized as recommended by the PPE charts. • Product additions should be made with the intent to use complete unit amounts of products (sacks, drums, cans), as much as possible in order to minimize inventory of partial units. • Ensure all MSDS sheets are up to date and readily available for workers to access for information. Environmental • Ensure that all products stored outside are protected from the weather. • Do not store partial units (sacks) outside if possible. • When transferring fluids and/or cuttings from the rig to tanks, ensure all hoses are properly secured. Perform a transfer checklist as needed in order to avoid spills. Ver. 1.0 CONFIDENTIAL Page 17 of 19 Cook Inlet Energy, LLC NFU 14-26 Fluids Program I-- Product Health and Safety Reference I HMIS HAZARD RATINGS Product Function Health Flammability Reactiviltv PPE ASPHASOL SUPREME Inhibitor 1 1 0 E Busan 1060 Biocide 3 1 1 X Caustic Soda H Modifier 3 0 1 X CF Desco II Thinner 1 1 0 E Citric Acid pH Modifier 1 0 0 E CONQOR 404 Corrosion Control 1 1 0 J DEFOAM-X Defoamer 1 1 0 J DRILZONE Surfactant 1 1 0 E EMI-2009 Inhibitor 3 1 0 X FLO-VIS PLUS Viscosifier 1 1 0 E FORM-A-BLOK Lost Circulation Material 1 1 0 E GELEX Viscosifier 1* 1 0 E G-SEAL Lost Circulation Material 1 1 0 E KLA-STOP Inhibitor 3 1 0 X LOTORQ Lubricant 1 1 0 J LUBE 776 Lubricant 1 1 0 J M-1 GEL Viscosifier 1* 0 0 E M-1 WATE Weighting Agent 1*1 0 0 E PECAN NUT PLUG Lost Circulation Material 1* 1 0 E POLYPAC SUPREME UL Fluid Loss Additive 1 1 0 E POLYPLUS RD —Cuttings encapsulation 1 1 0 E Potassium Chloride Inhibitor 1 0 0 E RESINEX Fluid Loss Control 2* 1 0 E SACK BLACK Filtration Control 2 1 0 E SAFECARB —Bridging Agent 1* 1 0 E SAPP Thinner 1 0 0 E Soda Ash Ikalinity Control 0 1 0 0 E Sodium Chloride jInhibitor 0 0 0 E (HMIS) HAZARD RATING 4 - Severe hazard 3 - Serious hazard 2- Moderate Hazard 1- Slight Hazard 0-Minimal Hazard An asterisk next to the health rating indicates that a chronic hazard is associated with the material. Ver. 1.0 HMIS PERSONAL PROTECTIVE EQUIPMENT INDEX A - Safety Glasses B - Safety Glasses, Gloves C - Safety Glasses, Gloves, Synthetic Apron D - Face Shield, Gloves, Synthetic Apron E - Safety Glasses, Gloves, Dust Respirator F - Safety Glasses, Gloves, Synthetic Apron, Dust Respirator G - Safety Glasses, Gloves, Vapor Respirator H - Splash Goggles, Gloves, Synthetic Apron, Vapor Respirator I - Safety Glasses, Gloves, Dust and Vapor Respirator J - Splash Goggles, Gloves, Synthetic Apron, Dust and Vapor Respirator K - Air Line Hood or Mask, Gloves, Full Suit, Boots X- Consult your supervisor for special handling directions. CONFIDENTIAL Page 18 of 19 MISW - Cook Inlet Energy, LLC NFU 14-26 Fluids Program Responsibilities • M-1 Project Engineer and will coordinate daily between operator's office, rig, warehouse, and the M-1 SWACO field engineers. • Well progress will be monitored to look for any changes, which will improve the efficiency of the operation or avert trouble. • Field Engineers will monitor and supervise product inventory to include re -palletizing any products for shipment to other locations at the end of the well. • Field Engineers will communicate with office personnel (Operator & M-1 SWACO) for approval of any changes in the mud program (including introduction of new products). • Field Engineers will produce a recap per hole section and at the end of the well based on daily activities. Recap should include any lessons learned that may be used to provide better service on future wells. Lessons learned can include changes in procedures, product additions, equipment usage, and/or utilization of any third party service. Ver. 1.0 CONFIDENTIAL Page 19 of 19 Ian as aIa�OJ C 0 L p rx N dOe O � I u q Z 0 II WOW Cook Inlet Energy Cook Inlet E n e rg y Location: Cook Inlet, Alaska (Kenai Peninsula) Slot North Fork # 1426 (Plan) Field. North Fork Well: NFU #14-26 Plan Facility: North Fork Una NAD27 WeObore: NFII#14-26 Plan Plot reference wellpath is NFtI#14-26 Ver#1 True vertical depths are referenced to Miller 37 (RT) Grid System: NAD27 / TM Alaska SP, Zone 4 (5004), US feet Measured depths are referenced to Miller 37 (RT) North Reference: True north Miller 37 (RT) to Mean Sea Level: 678.9 feet Scale: True distance Mean Sea Level to Mud line (At Slot: North Fork # 14-26 (Plan)): 0 feet Depths are In feet Coordinates are in feet referenced to SW Created by: ulricard on 27/Feb/2015 Well Profile Data Design Comment MD (ft) Inc (° Az TVD (ft) Local N ft Local E (ft) DLS (°/10oft) VS (ft) Tie On 20.80 0.000 278.584 20.80 0.00 0.00 0.00 0.00 End of Tangent 400.00 0.000 278.584 400.00 0.00 0.00 0.00 0.00 End of Build XS 1786.45 41.593 278.584 1667.84 71.87 -476.13 3.00 481.52 End of Tangent XS 4372-87 41.593 278.584 3602.16 328.13 -2173.87 0.00 2198.49 Drop XS 5759.31 0.000 278.584 4870.00 400.00 -2650.00 3.00 2680.02 End of Tangent XS 9739.31 0.000 278.584 8850.00 400.00 -2650.00 0.00 2680.02 BAWMA FAIc� Nuys ipm-750ft Easting (ft) 0 Tie On -3000 -2625 -2250 -1875 -1500 -1125 -750 -375 0 s - End of Tangent 161 750 6 4900 SD Za2 l2 2T 750 U 1q.2 15) NFFU 14-26 TD Targl - o 3.00°I100ft 7in Casing Production 375 0 9.625in Casing � 5 0 7500 p- End of Build (XS) North Fork # 14-26 (Plan) v 2250 300 t 4500 O c� r j 5250 (D 2 H 6000 6750 7500 9.625in Casing NFU 14-26 4900' SD Targ(2-27-15) of Tangent (XS) 3.00°/100ft I Drop (XS) End of Tangent (XS) NFU 14-26 TD Targ(2-27-15) 7in Casing Production Z' 1 ' C A I N ' ° -0 1 d I 50 150� 2250 3000 3750 e cal Sec ton (ft) �b_4 Azimuth 278.58' with reference 0.00 N, 0.00 E W N N O O m O O co O O 00WOD N N m N 0 0 0 o 0 0 0 0 0 0 0 0 0 0 o o ri o ri o � O r ao o O O o W 0 0 o 0 0O 0 o n r ul N ul N J N Z O O Go 0 0 O O ^ N] CD 00 0 f0 0 oGo 00 o 00 o 0 Q > n7 O r N 0 0 F N O CO co co a o v v v a v v N m 6 m 6 6 N r N rn N In N r N r N r N O O N O O U 0 0 0 0 o 0o u� v r ro io co O O oo aJ N r O O c m c (A X X E al X _ c v 0 x aci 0 0 O~ m m rn c X a rn c ccof c `o `o H o W W c C W W Northing ll,! n O N O O O N O r ill N N 0 r N N O � 1 I 2 2 NFU#W235 0 S �51 c`; o SIN N �o 500 V 4 O O N O N 0 1250 0 n rn c o 1 W v 00 1 !s/, 6 o �ryry:L �FJ r I O 0 I N I 5�1 F r d; a NON O y� Z sz aF*NyN i 00 00 .. m o� X o_ c O d H F o i o to o o 0 G 0 0 C tI O r 99COD r O p N f O OCSSm OpTInN pO pm m C Cmm'� pVppp m f�V_ N NOfOr�^ aW A O M a N {OO_ rA A �p C D p F N Oni. 0 0 mm^ Q 0 ci6, � n N N n N N n n N N N N ^ ^ N N ArAA N N N N Arn N N A N N N N N N N —(y —�{ —{p —�p — O f 7 nnn A IOC, r A A r m m pfp C p Owl OO1 O N R I n fO0 m O 1 S O S S S W G {� I7 G ��forof6fri�fo�fli f6 f6n �nnnnnnrmmiti ad m(ri ai of (Dioo @ SfgN NNNNN cl!N'04cl! 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N<�NQOm� pmfmNt(NON'pp0ONIF.VVy-iI QNNnEN�D �pSptGpp1D(NI°'aVJ NSNvO'm.- pO�Nppr�� m1(m1SN�.�nf1JJ7-i NfNpEroN�D7} RNNC�pmmEcp)l (y p m O�II�O AnC0ENE� {lNepO�aA pTEfNAp�p�f AVON NNOCvrI NO�NS� N0OeC�]Q0NQt�7 <RNee�<NNe<0"� <IS�evNOmAO QANa�pIrn�A{OmNNNeE"m�+�� CONpNern�O Qt{NIa�rn�A� <ICftNN'Vrn��DD� 1�OANCm�7 PAmppt0NemLI <{m'f�fO0rn�O6 <0A�aQ0A�I0wA VnmQmS QrONmm OOV<R<O <l0A'O5cimh�d-� CiVNAccirn76��- 'SAaN-rnlhAAeBIOS8-�fi NQaMN�O�MfV(GONaN�ppyD Nt(NONOm1NIf.VVi- �f��EAfOErN�DO7 SO p'Ump� fel7Qy�VVi epM�8(pI VWCS�I <OOOQN NQQOQS0d VNO�e(I aVNAaSOm� tfINaC'em�pAJ (O(CQm.OyI- tO1t7mNQrnAO tmSO�@Nm0 Wm((tO0OYmyyDI A{N{tVQSrnppO NSQA iAmO7O0cm��MOASQrn CNO�NV0I nNpN l�rOQ�NmMUM A ArSmGNpS�mmON(O ttA7YNQQ7-m76 tNOfAV5ci-rn6�� tt7NA8S1�-mO1nr1aSmm- l'SOmSS- (�mOOa�Srn�p °NNNN8N-6.8NNNNNNBNNNNNN�NN8NN88N88NNNNN88NN8N�N8�NN8NN888NNNNNNN88NN CG CGm C[i CDm mGD AN AN Nn nN rN NA AN CC CG CD NA NA NA N CO CC N rN CC OG NA NA m nN ENG ANNN m N N N N� N—A ND N N N N00NC GNp ND Nm CNO NGOmNA .N .N .NA N.A NA NG-AN mAN ND -A AD -0A0 mA mA NGAC N mA G..A N N mA W GrG.A GGGAD wA GAp GAD mA co w A NNN N N N N N N N N N N N N N N N N N N N N N N N N N uO'1 NNNN 0 o 0 0 0 0 IN 0 0 0 0 0 0 DO N m O S 0 0 0 S O O S O 0 0 0 0 G O S 00 O O O O O O pp O S 00000 pp pp O O 0 S SOOS 0 O S O SO O pp O e e a Q e Q e e O Q V y Q m t7 [p7 N [y fqV N CF tG � tMO e- e O o C O G O O 6666 6666 OGG o 66 6666 6p 0 66 o G G o o G O G o C G C C O C C O O 000 o O O S o mISA p p Sf((VVOSm p m 0o� mmSmS poN WW o mN p mIA pA 0IA0 mI l'IA7 0IA p p (I GND o 0L p 0N mGOD o m mI Sm o mnmm mODm 000D p p p W (O O mm 0 W S mEmyiDm0S0m p p p o GODTm p m M f(myp f 7 t �IGQO�DI GmpSm 7 C I f h S O O< O Q V< 0 RI A ��NV A NS AO I tD tyS C I DN0OA NOm.ON N mgood N0 N(O ONIOA mt7 OAi OAi C�0 Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 1 of 53 we P F—"- 'A as BAKER NY6ME5 N17ELLPATH IDENTIFICATION Operator Cook Inlet Energy !Slot North Fork # 14-26 (Plan) Area Cook Inlet, Alaska (Kenai Peninsula) Well _ NFU #14-26 Plan _ Field i North Fork Wellbore NFU#14-26 Plan Facility _ North Fork Unit (NAD27) --T WELLPATH LOCATION �Sioaocation _ Local coordinates North[ft] - East[ft] _ Grid coordinates Easting[US ft] Northing[US ft] Geographic coordinates Latitude Longitude !Facility Reference Pt Field Reference Pt 587.00� -1693 09 _ f I _ 199718.03 2121134.21� 201396.26 __2120505.98 v 201396.26 2-50-i .98 59047'466359"N—151037'49.605"W 59047'40.579"N 151°37'16.516"W 59_ 47'40.579'N _ _151°37'16.516'W DATUM +Calculation method Minimum Curvature Miller 37 (RT) to Facility Vertical Datum _ 67_8.90ft Miller 37 (RT) to Mean Sea Level �678.90ft _ ;Horizontal Reference Pt Slot _ _ Vertical Reference Pt _ (Miller 37 (RT) Miller 37 (RT) to Mud Line at Slot (North Fork # 14-26 (Plan)) 678.90ft MD Reference Pt Miller 37 (RT) jField Vertical Reference IMean Sea Level POSITIONAL UNCERTAINTY CALCULATION SETTINGS Limit 0.00 Std Dev lEllipse Start MD oration16.38°East of TN �Dtp Angle �72.86° _ Surface Uncertainty @ 1 SD honzontal 2.000ft li Surface Uncertainty @1 SD Hortzontal 20.000ft tonal Uncertainty values in the WELLPATH DATA table are the projection of the ellipsoid of ui ice Position Uncertainty Field Strength ertical onto the vertical and horizontal nT Ea oeB Clearance Report wr.. NFU#14-26 Ver#I Cook Inlet Enemy_ Closest Approach BAKER Page 2 of 53 HUGHES ANTI -COLLISION RULE (Rule Name �— E-type Closest Approach w/Hole&Csg Limit:0, StdDev:3.00 Rule Based OnEllipsoidSeparation w/Surface Uncert Plane of Rule _ -- Closest Approach _-- —_ Threshold Value — �0-60ft — S2tract Casing & Hole Size yes Apply Cone of Safety no HOLE & CASING SECTIONS - Ref Wellbore: NFU#14-26 Plan Ref Wellnath: NFlJ#14-26 Vrr#1 [String/Diameter Start MD [ft] End MD— [ft] 3231.79 Interval [ft] 3210.99 Start TVD [ft] 20.80 End TVD,- [ft] i 2750.00 T Start N/S IN 0.00r Start E/W [ft] 0.00 -'End N/S I [ft] End E[W [ft] 12.25in Open Hole 9.625in Casing_ 20.80 209.09 _— 1-3-8-5.23 8.75in Open Hole 20.80� 20.801 3231.79� 9765.42 3210.99 9744.62 20.80 20.80 2750v001 NA 0.00 0.00� —_i0_00 209.09� _ 1385.23 Casing Production —i � � 0.00 _ N_A NA _7in 20.80. 9765.42 9744.62 _ 20.80 NA 0.00 0.001 NA� NA SURVEY PROGRAM - Ref Wellbore: NFU#14-26 Plan Ref Wellpath: NFU#14-26 Ver#1 Start MD End MD Positional Uncertainty Model �— Log Name/Comment __� ._. ift] — [ft] -- - --- — --- 20.80 3231.79 NaviTrak (MagCorr) l___- 3231.79` 9765.42�4av4Trak (MagCorr) Wellbore 14-26 Plan 14-26 Plan Ea Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach BAKER Page 3 of 53 HUGHES REFERENCE NAIELLPATH IDENTIFICATION !Operator lCook Inlet Energy Slot North Fork # 14-26 (Plan_) - _ - (Area ;Cook Inlet, Alaska (Kenai Peninsula) _ Well' NFU #14-26 Plan [Field No_rth_Fork _ -- Facility North Fork Unit (NAD27) Wellbore NFU#14-26 Plan CALCULATION RANGE & CUTOFF From: 20.80ft MD To: 9765.42ft MD C-C Cutoff. (none) OFFSET WELL CLEARANCE SUMMARY (10 Offset Wellpaths selected) Ellipse separations calculated in Closest Approach plane C-C Clearance Distance I ACR Ellipse Separation Distance Ref Min C-C Diverging Ref MD of Min Min Ell Sep ACR Offset Offset Offset Offset Offset MD Clear Dist from MD Min Ell Sep ED Sep Dvrg from Statue Facility Slot Well Wellbore Wellpath [ft] [ft] [ft] [ft] [ft] [it] ---.-___ North Fork Unit North Fork NFU NFU#32-35 (NAD27) #32-35 #32-35 OnTrak MWD<196 - 120701> 807.23 28.79 9765.42 814.631 13.20 9765.42 PASS North Fork Unit North Fork- NFU T PGMS GyroData<100 - 2500'>MWD - (NAD27) #34-26 #34-26 NFU#34-26 (HAL)<2550 - 90215 912.70 47.71 8020.80 917.47 33.70 8520.80 PASS North Fork Unit North Fork # NFU V (NAD27) 22-26 (Plan) #22-26 NFU #22-26 NFU #22-26 Ver#4-- 20.80 60.08 5920.80 504.44I 46.68 6220.80 PASS - North Fork Unit INorth Fork A NFU NFU #14-25 OnTRAK MWD<204 - 11700'> 20.80 110.32 9765.42 s 20.80I 97.13 9765.42I PASS (NAD27) #14-25 #14-25 North Fork Unit ;North Fork NF #22- NF ``NaviTrAMWD<181- 514.75' 117.34; 9720.80 518.12 103.85 9720.80 PASS (NAD27) f#22-35 35 #22-35 l2945'>OnTrakMWD<3044-10700'> North Fork Unit North Fork NFU (NAD27) #24-26 #24-26 NFU #24-26 1OnTrak MWD<179-9750'> 320.80 160.27 8520.80 324.75 147.11 8520.80 PASS North Fork Unit North Fork NFU NFU #31-3 (NAD27) #31-3 (Plan) #31-3 Wellplan jNFU #31-3 Ver#2 20.80 180.04 500.00 505.02` 166.53 505.02 PASS North Fork Unit North Fork NFU NaviTrak MWD<177- NFU #23-25 20.80 218.85 9765.42 20.80 205.67 9765.42 PASS (NAD27) #23-25 #23-25 3045'>OnTrak<318310785'> North Fork Unit !North Fork NFU NFU#42-35 NFU#42-35 500.001 239.56 9765.42 507.15 226.15 ! 9765.42 PASS (NAD27) 1#42-35 #42-35 NF #41-35 'North Fork 'NF #41- ; G oData PGMS<100-9932'>lnclination �500.00 1636.64' 9765.42 502.28 1514.94 9765.42 PASS (NAD27) 1#41-35 :35 NF#41-35 ;ONLY<10070-12334'> Ea C�B _ Cook Inlet Energy_ Operator Cook Inlet Energy Area Cook Inlet, Alaska (Kenai Peninsula) _ Field North Fork ----- - ._..---.__-_.------ Facility North Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 4 of 53 CLEARANCE DATA - Offset Wellbore: NFU#32-35 Facility: North Fork Unit (NAD27) Slot: North Fork #32-35 Ref MD Ref TVD Ref North Ref East Offset MD IN IN IN Iftl Iftl 20 80 20.E 120.80fi 120.E 326.80f 320.801 500.00 ; 500.001 Y 620 80 f j 620 72 720 80 f j 720 31 j 807.23fi 805.91! 81463f� �813.21' 820 80f j 8_19.29 920.80f F i 917.40 -1 20. ] 080 f F- _ 1014.371 1120.80t! 1109.93' of North Fork # 14-26 (Plan) ell NFU #14-26 Plan ellbore NFU#14-26 Plan BAKER NYGMES Offset Wellpath: OnTrak MWD<196 - 120701> Well: NFU #32-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Offset TVD Offset North Offset East Horiz C-C ACR Elfipse ACR IN Iftl lftl Bearing Clear Dist MASD Sep Status -� -... -- I°1 - Iftl - Iftl Iftl 0.00� 0.001 20 66 21.06 _ 61.60� 31341 27.01 69.14 13.19 55 95 PASS --.-. - - -- - -- - __. _-- 0.00 6.00 12144 122.321 60.78 30 06l� 26.32 67.82 13.43 54.39I PASS 0.00 0 00 222.80 223.12 58.84 26.90� _24 57 64.74 33.32 51.41 PASS -_ ___ _� _ . _ _ -. -_---__.- 0.00 0 00 322.65� 322.87 56.64 23.1 8( 22.26 61.24 13.51 47.73+ PASS 0.00 0.66 423 361 J 423 4Ek� 53 76 1.55v I9 98j _ 57 27 13 64 43.63 PASS -. -_ _ 503.23� 503.22�-i---50,25 16.71 i 18.39( 53 6i-13.77C� 39.28� PASS 0.02I -0 11 524.39 524 33 49.08 15.90` 18 08i 51.73, 13 82 37.91j PASS 0.57� _ -3 78 _ 625.93� 625 45, 41 10 _ 11.56; - 20 72� 43.59j _ 14.091 N-50 PASS 1.90� 12 61 726.51 f 725 24; 29.70' 14 571 19 38 PASS 6.25� 34.15� 33 95 3.68 -24 38 812.16.. 809 69' 16.43 1 15` 63.4728 79' 15 54j 13.25 PASS 3.86 -25 57, _ 819.42 816.83C 15.17; _ 0.711 66.71 28.84 _ 15.64�_ 13.20 PASS 4.01 [ -26 581 _ 825 4_6 822.76 _ 14.11 r 0.35r 69.44 28.27 _ 15.73 _ 13 2_4 PASS _6.89[ -45 65l 921 81 f_-_ 917.06 _ -4 81 I-5.36{� 106.20 _ 41 96 16.81 �_ 25 15 PASS 14,93' 98.89 1104.60i 1092.77� -_� - �- �- 53.83-150.76 129.59( 70.96, 17.54� 53.42 PASS 10.53; 69 89 -q11 4.83 1092.77' 109.23 18.37 90.87' , PASS 1220.80f 1320.8 1203.81 1295.77 _ 20.06 25.92 132 91 f _ 171 73 _ 1190 62� _ 1173 66 1273.44 1250 41 i -- 82 49!' '- 112 97' 21.594 132.651 154.331 _ - 19.37I_ --" 134.961 PASS - 1520.80f 16420.80f 1385 54, � 1472 89� - -_ 32.49� -215 27 - 39.76+ 263 39 ]352:49 1426.43 �_ 1322 52`-- 1388 78 . -144.61 34N73( 176.61 41.94 13 4.45 13 33 _ 05.11 _ 260.63 320.82 20.55� 21.88 184.56�PASS 238 75; PASS � - 23.34�_ 297.491 PASS 0.80f; 1557 57' 47.69 315.96 1495.50• 1449.53 -208.66 49.16 134 3.86+ _ 385 45 _ 24.91. 360.54 PASS 1720.80f 1820.80f 1639 35! 1718 61 �" 56.28 - 65.49 372 84l 88 1558.191 1617.86i 1554 67 03' _ 1554 19 -239 54i _55.85� 133 02I 454 32j 26.53 427 79 PA_SS 1920.80f _ 1793.33� - - -- -433 Y 270 601 �.._._+_--__._. -62.43� _ 132 14 _ _�_ 527 04I _28.27 -_ 498.76 PASS �i 75.31 498 91; -- 1676.60; 1602.96 302 59� -69.381 131.34J 602.94�` 30.20f 572.74� PASS 1937.97 r 1805 91 r 77.05 510 46 1686.38j _ 1611.00 308 03! --70.59I 131.20� 616 25� 30.54j 585.71 PASS 2020.80f' - 1866.35 85.50 -566 46'. 1732.35 __. 1648.49 -333 99' - -76.43! 130.57� 680.87j 32.15� 648.71, PASS 2120.SOf; 1939 32 95 71 634 07 1782.31+ 1688 60; -- -363 03 -82 97; 129.77j 759 611 33 96r 725 65 PASS 2220.80f i 2012 29� 105 91 701 69 - 1828.57 1725 02 - - -390 901 89 041 129.04 __ 839 46� 35 69 - 803 76� PASS 2320.80f 2085 26 --s 116.12 __ + 769 301 _._ 1873.691- 1759 86j� -418.96- 94.97 7 128.43 920.28 37.43 i _ .�82.841 I-P-AV- PASS 2420.80f� 2158.23; 126.331 836.91j 1927.15� _ r- 1800.53� - 452.92�� 102.081 _d.._. 128.25 100172 39.55� _.__._. __v 962.16i PASS 2520.80f 1 6Sx3 -904.52' 1982.88 1842.68' -488.59, -109.59 128.18 1083.34' 41.801 1041.54 PASS 6a ceB _ Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 5 of 53 MAN bw BAKER NU6NES CLEARANCE DATA - Offset Wellbore: NFU#32-35 Offset Wellpath: OnTrak MWD<196 - 120701> Facility: North Fork Unit (NAD27) Slot: North Fork #32-35 Well: NFU #32-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR Ift] Ift] Ift] Ift] lft] Ift] Ift] IN Bearing Clear Dist MASD Sep Status 2620.80t1 2304.17[ 146.74, _972.131i2040.81!1886.421-525.761 �117.44_128.20r _ 1165.0_2[ 44.i7(�1IN 5 PASS 2720.80t 2377.R 156.94 _1039.74 2096.08! 1928.03 561.33-125.06 128.14 1246.70 46.47 1200.23 PASS 2820.80t 2450.111�167.15-1107.35 _ 2149.541 1968.23f-595.82-132.27 128.04 r 1328.58 48.71 F 1279.87 PASS 3120.801 3220.80t 3320.80t 3420.80 f 3520.80f 3620.80t - 3720.80t 3820.80t 3920.80t 4020.80t 4120.80t 4220.80t 4320.80t 4347.45 44�0_80t 4820.80t, 4920.80t i 5020.80t1 I 5120.80t 25 .071 177.35-1174.97 2206.15! 2010.75--632.42-139.85 128.04i 1410.5651.09; 1359.46; PASS _ 1242.58 _ 2266.93 2056.65',-671.47;-147.76 128.12 _ 1492 48 53.67 1438.81 PASS __.. _i _ 2669.01[ 197.761310 19 2329.46 -v 2104.57(-711.52 _ 155.77� 128.23 - 1574.19 56 33 ` 1517.86� PASS 2741 981 207.97_ 1377 80 -_ 2384542146 22, -746 2] ]62.66 128.14 1655.89 58.65 17.23 PASS 2814 95� _ 218.18�_ 1445 411_ 2439.78�_ 2188 28� __-781 35 169.58 _ 128.08 1737.67 _ 66. 66�59 1677.01`PASS y 228.38; 1513.02, 2505.38j 2238.14�-823.15j-178.01( 128.23 1819.39 63.091 1756.30( PASS 2960 8g( 2---- 1580 63 2569.45 2286.63 _ -864 09, 186.80E 12 : 5 ]96b.8b 65.50� 1835.361 PA 3033.86 248 79 1648 24 _ 2626 14" 232_9.43--900.39 194 791 128.33 1982.261- 67.64� 1914.621 PASS 3106.83 259 00 17 ] 5 86� 2678 63 2369.04-934.04 202.12 128.24 - 2063.75 69.64� Y994.11 [ PASS 3179.80 269.20 -1783 47 - 2749 71 � �2422.63 -979.66 212.11 128.48 2145.26� 72.45( 2072.81I PASS r- ...__._�_ _ A 129.11, 2225.79i 76.34 2149.45 PASS 3252.77) 279.41, 1851.08( 2846.36(-2495.76' ]041 06 227.06 -ftl �- 289.61 -1918 69, 2903 30 2538.86 1077 ] 1 236.22 129.09 2306.04 78 63 2227.41 PASS 3325.74, -- - � -- --- -- --__ -- - 3398 71 j 1-299 82 1986 30 _ 2962 32 2583 43 1114 60f 245.84 129.10 _ 2386 31 7 81 02 2305.291 P S 3471 681_ fi- 02i 2053 91 _ 301409i` 262244 _-1147.56i 254.241 129.00�,2466 70;_ 83.121 2383.57 PASS 3544 657 _ 320.23( -2121 52 - -- S 3071.84�-_ 2665.88f 1184: 6� 263.60 129.00 2547 20[ 85.50� 2461.69 PASS _T - - - -1 -- 3564.09j 322.95j 2139.54 3086.0512676.55�--1193.56-265.92 1-ffT 2568.65[ 86.09( 2482.56, PASS 3618 57; 330.28 2188.11 3123.38` 2704 55' -1217 50-271.96 128.93 2627.29' 87.61 2539.68 PASS t 3695 791 339.76 2250 91 - _ .. _-_� _ ' _-- _ 3181.92 2748 41 1255.11 281 33 129 00 2705.63 89.87 2615.76 PASS 3776 23 348.62� _ 2309 64� - 3249.571 2799 22 1298.46 __ 292 05� 129 231 __ 2781.74� 9-2 22 2689.53 PASS 385967�� 356.85� 2364.12j - 3318 23i 2851.01�_-1342.25-302,76f 129.50 2855 43 44.5_2 2760.911 PASS _ 3945.88; 364.41' 2414.211 3374.42- 2893.47J 1378.04( 3] 1.36� 129.65' 2926.711 96.23' 2830.47i PASS 4034.62 371.29-2459.76, 3428.05' 2933.75-1412.47-319.55, 129.81 2995.70 97.76 2897.94 PASS 4125 65; 377.46-2500.6T 3492.95 2982.41 -1454 3Z -329.4 130.15. 3062.29, 99.64 2962.64, PASS 4218 72i - 382.91 i 2536.80 3569 20j3039 79� 1503 28 340 401 130.66 3125.99 _ 101.86 3024.13� PASS 4313 57 387.63� 2568.07 3_650 301 _ 3101 17 __ _ - --5` -I555 00 351 99 131.24 3186.65 104.15 3082 5_0� PASS 4409.95� 391.61( -2594 391 3733.24(Wv 3164.32(�- 1607.49 363.62� 131.871 3244.12 -106.42 3137.70� PASS 394.82'-2615.69 3816.49� 3227.98;-1659.88' 375.16! 13252! 3298.36( _-' Ea 0A Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 6 of 53 M P ja BAKER NuGHEs REFERENCE P, u FO rator Cook Inlet Energy Slot North Fork # 14-26 (Plan) Area Cook Inlet, Alaska (Kenai Peninsula)_ _ jField North Fork_ Well Wellbore JNFU #14-26 Plan NFU#14-26 Plan jFacility North Fork Unit (NAD2'n CLEARANCE DATA - Offset Wellbore: NFU#32-35 Offset Wellpath: OnTrak MWD<196 - 120701> Facility: North Fork Unit (NAD27) Slot: North Fork #32-35 Well: NFU #32-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ftl 1111 [ttl [ftl [ftl [ftl [ftl [ftl Bearing Clear Dist MASD Sep Status 5520.80t1 4606.23 397.271-2631.901 3922.161 3308.241-1726.691-391.28 133.47j _ 3349,09 111.48l-3237.60PASS 1 5626.iCfF 4705.59 398.94 2642.99 4008.73 3374.08 1781.20-405.06 134.25 3396.21 113.59 3282.62 PASS 1 5720.80t 4805.40 399.84-2648.92 4094.48 -_ 3438.73-1835.57-419.78 135.08 3440.04 115.60 3324.44 PASS 5785.42 4870.00(� 400.00 2650.00 4135.23f 3469.36( 1861.49 426.91 135.49 3466.731-116.30� 3350.43 PASS 5820.80t �4905 381 400-00� -2650 001 -- 5773.47 34§4971 971 51 188033 - ry431.9 - 135.79. _-3489 46 145.93 3343.53 PASS 5920.80t 5005.38d 400.00 _-2650 00 5773.47 4971.51-2381.03 542.62 142.85 -- 6020.80t 5105.38� 400.00 -2650. 00 _ 5871.43 5069.45r-2382.89-543.41 142.88 349649 146.051 3344.44 PASS 6120.80t _ 5205.381400.00 _ 2650.00 _ 5990.16 5188.16 2384.95 544.471_ 142.91 _ 3491.35 146 191 3345.16� PASS _..__ _.� 6320.80j- 54+5 38� 400.00; 2650.00 6277.04` 5474.481-2383.29)-546.00� 142.915 3489.731 146.25; 3343.491 PASS 1 1 -2381 39; 546.81 142.91 348-7.75-1 146.281 3341.46 0A& 6420.80tr 5505.38� 400 00 2650 001 6378.431 - 5576.35-2379.46� _547.79� _ 14290 3485.641 146.331 3339 32 P_A_S_S !. _ __._ 6520 80t1 5605 38 _ 400 00 2650 00 6472.26 5670 17-2377.86 548.65 142.89 3483 73 146 38 3337 34 PASS r- 6620.80Y 5705.38 400.00 2650 00 6570.96 5768 85-2376.11 549.40 142.89 3481.86� 146 43�- 3335 43 PASS -_ fi� _ _-_ - -[-- - - ! - - 6720.80t�5805.38, 400.00 2650.001 6644.68 5842.55(-2374.60i 549.23 142.87, 3480.38! 146.47, 3333.91�PASS 6920.80t -6005 38--400.00 261 650 0- 6801 721 5999 56( 2372.54( 5-4-6.-7- 51 142.82 3480.04` 146.48. 3333.56; PASS 7020.80t1- 610538-_ 400.00� 2650 OOI 6906.25� _ 6104.06j-2371.12�-544.70i 142.78[ - 3480.14 `146.471 3333.67 PASS 7120.80t1_ 6205 381_ 400.001 265000! 7001.25� 6199.03� 2369.851 542.77i 142.741'_ 348030 14646 3333 84 PASS 7220.80t1 6305.38{ 400.00 2650.001 7099.61, 6297.361 2368.63� 540.8 Si 142.7013480 50F 146 48 3334 02 PASS ?320.80t; 6405.38 400.00 -2650 00; 7197.94, 6395 6T-2367.411-538.83, 142.6611 3480 76: 146 461 3334 30 PASS 7426.80t1 6505.381 400 00, 2650.00 _.___.__ -- -. __ _ _ - -__ __ -_ _--538.41j 142.651 3480.90� 14656: 3334.34(PASS -__�__.. - � 7304.601 _ i6502.32�-2367.29i � `, _ 1 7520.80t 660538 i-400:00(- 2650.0)D _ 7409.42(_ 6607 14 2367 591^_ 538 711 142.66� 3480.96F 146 65' 3334.31 PASS 7620.80t 6705.38J_ 400.00' 2650.001 _ 7518.10' 6715 82f 2367 501 538 971 142.66 3480.75 146 %j 3333.99 PASS 7720.80t+, 6805.38; 400.00-2650.001 7610.92 6808.64 2367.25 539.04 142.66; 3480.49146.85; 3333.65 PASS 7920.80t? M5- .38 460. 0 2650.00 78 j 7 85 i 6905.56' -2367.01-538.63 142.66 3480.55 146.93 3333.62 PASS t _ - 5 .00 770 - - - � -�� 4.07� _ 701 1.78 2366.37` -_--- -- - --- --- - - - - _ _-538.11; 142.64 3480.36 147.01 3333.35 PASS 8020 80t 7105.38j 400.00 2650 001 7923.47 7121 18 2365 43 537.471 142.62' 3480.04 147.09 3332 951 PASS . i - _ - . r. -- - 8120 80t 7205.38 400 00, 2650 00 _ 8020.29 �� 7217.99 2364 57 536.951 142.61 3479.65, 147.16, 3332 48 PASS 8220.80t 7305.38, 400.00;-2650.001 8120.71 7318.41s 2363.81---536.67! 142.60i 3479.22 147.26' 3331.971PASS 8320.80t` 7405.38 400.00'-2650.00 9224.42 7422.11 -2362.98-536.21 142.58 3478.86 147.35 3331.51 PASS €a 06 Clearance Report w�.■ Cook Inlet EnergyNFU#14-26 Ver#1 BAKER Closest Approach Page 7 of 53 HUGHES CLEARANCE DATA - Offset Wellbore: NFU#32-35 Offset Wellpath: OnTrak MWD<196-12070'> Facility: North Fork Unit (NAD27) Slot: North Fork #32-35 Well: NFU #32-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] IN [ft] 1111 [ft] [ft] [ft] IN Bearing Clear Dist MASD Sep Status [°]. Y_ [ftl Y [ft]_ [ftl _ _ 8420 80t' 7505.38( _ 4_00.00(-2650.00� _ 8334.81 7532.49 -2361 57)--535.51 142.56� 3478.22C-147.43 3330.80 PASS 8520 80t 7605.38 _ 400.00 _-2650.00 842_2.17 7619.84r�-2360.64-535.14� 142.55 3477.64 147.52 �_3330.13 PASS 8620.80t 7705.38 400.60-2650.00 8516.09 7713.76-2360.55-535.51 142.55 3477.32-147.64 3329.68 PASS - _...._ _ _. - ._,_ _-_,..___ .. _� _ �._ 9. �_._. 8720.80 7805.38 400.00-2650.0018607.47 7805.14-2360.52,-535.65 142.55 34� 77.21 i 147.77, 3329.44 PASS t 8820 80t; 7905 38' 400.00 2650.00 _ 8697 93• _ 7895 601 -2361.02 _ 536.12 142.56 3477 33, 147.9.2 3329.41 PASS 8920.80t 8005.38 400 00 2650.00 8793 28' 7990.94 2362 04 _ v _ 536.87 142.58 v 3477.70 148.09 3329.61 PASS 9020.80t 8105 38 ^-400.00 2650.00 _ 8895 04(- 8092.69 -2363 05( 537.49�142.60 _ 3478.12 148.26 3329.86 PASS i__ ___ _ __ 9120.80t 8205.38 _ 400.00(-2650.00 _ 8993.23 8190.88 2363.831 _ 537.80� 142.61 3478.56 �148.42-3330.14 PASS _ -, - - _ 9220.80t 8305.38 400.001 -2650.00j 9093.49 8291.141 2364.381-537.94 142.62, 3478.901 148.57 3330.33(PASS 9320.80t` 8405 38; 400.00` -2650 00` 9195.21; 8392.86 -2364 85-537.92' 142.62 3479.29 148.73 3330.56` PASS 9420 80t�_ 8505 38i 400.00� 2650 OOr 9327 28 8524 92' 2364 95 _- 538 06 142.63 43479 32 148.91 3330.41 PASS -- -- _ - _ ___. _ �_ -- -__- - 9520.SOt� 8605 38 -- ---I 2650.00[ 9442 74 8640 37j Y _ 2364 92j 539.71 142.65 3478 41 149.11 3329.30 PASS �__v_ _ 9620.80t�8705.38 400.00j_-2650.00 _ 9552.84 8750.46� 2364.al--541.43� 142.67 _ 3477.291 149.32� 3327.97 PASS _. --i -_ __68 �-_ - __ �_ _ �- _ 9720.80tF 8805.3 �400.00' 2650.00 9627.32 8824.94( 2364.35 542.40 142.68� 3476.20, 149.48, 3326.71 PASS 9765.42 8850.00 400.00 2650 00, 9651.95 8849.56 2364.47 542.67 142.68 3476.08 149.55, 3326.53 PASS POSITIONAL UNCERTAINTY - Offset Wellbore: NFU#32-35 Offset Wellpath: OnTrak MWD<196 - 120701> Slot Surface Uncertainty @1SD Horizontal 2.000ft Vertical 11000ft Facility Surface Uncertainty (a,1SD Horizontal 120.00 Vertical I-_nnoft� Ea oB Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 8 of 53 FePP1__ 'A kv BAKER NU6HES perator Cook Inlet Energy _ _ Slot _ North Fork # 14-26 (Plan) rea Cook Inlet, Alaska (Kenai Peninsula) Well [RF FU #14-26 Plan ~ - eld North Fork - Wellbore U#1426 Plan icility (North Fork Unit (NAD27) -�- - - - - HOLE & CASING SECTIONS -Offset Wellbore: NFU#32-35 Offset Wellpath: OnTrak MWD<196 - 12070'> String/Diameter Start MD End MAD Interval Start TVD End TVD r Start N/S Start E/W ]ftl [Dl I [ftl [ftl _ IN I _ [ft] [ftl �16in Conductor 0.00 _ 178.00 178.00 - -20.40 157.56 _37.56 - 19.16 9.625in Casing Surface - 0.00 3212.00 3212.00 -20.40 2750.18 37.56 19.16 7Casing Intermediate 0.00 5570.00 5570.00 -20.40 4747.27 - 37.56 19.16 m 4 Casing Production 0 00 11635.00 11635.00 -20.40 10811.61 37.56 19.16 WELLPATH COMPOSITION -Offset Wellbore: NFU#32-35 Offset Wellpath: OnTrak MWD<196-12070'> F S-tart MD End MD Positional Uncertainty Model Y - --- Log Name/Comment [ft] [ft] 0.00 3159.00 _OnTrak (Standard) 6nTrak_MWD<196 - 3159> 3159.00-- 5754.00 [OnTrak (Standard) OnTrak MWD<3266-5754'> 5754.00 �� 12070.00 OnTrak ! _- (Standard ) OnTrak MWD<5822 - 120705 End NIS End E/W - [ft] [ftl 37.02 18.27 -369.66 - 77.62 705.96-155.32 -701.05-160.93 Wellbore NFU#32-35 NFU#32-35 OFFSET WELLPATH MD REFERENCE - Offset Wellbore: NFU#32-35 Offset Wellpath: OnTrak MWD<196-120701> r------- MD Reference: Glacier #1 (RKB) Offset TVD & local coordinates use Reference Wellpath settings' (See WELLPATH DATUM on page 1 of this report) Ellipse Start MD �10.00ft @d oeb Clearance Report FMA.'■ NFU#14-26 Ver#1 Cook inlet Energy Closest Approach BAKER Page 9 of 53 HUGHES IDENTIFICATION Dperator lCook Inlet Energy - _ Slot North Fork # 14-26 (Plan_) Area -Cook Inlet, Alaska (Kenai Peninsula) Well NFU #14-26 Plan - North Fork North Fork Unit (NAD27) Wellbore jNFU#14-26 Plan CLEARANCE DATA -Offset Wellbore: NFU#34-26 Offset Wellpath: PGMS GyroData<100 - 2500'>MWD (13AL)<2550 - 90211> Facility: North Fork Unit (NAD27) Slot: North Fork #34-26 Well: NFU #34-26 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR Ift] Ift] Ift] Ift] Ift] [ft] Ift] Ift] Bearing Clear Dist MASD Sep Status I'1_ 1ft� _.._._.... _- Ift] + 11t] . 20.80 20.80 0.00 0.00�-14.92�_ _-20.82� 61.621 _-28 3_81 335.271 67.84( 12.91j 54.93 PASS _120.80f 120.80' 0.00 _0.00 115.03 _ 120.93 _ 61.4 _ -28.43 335.17 67.72� 12.93 54.79TPASS f_Y_-- i-- -- 220.80t 220.80 0.00 0.00 215.06 220�9'6 - 61.19 --_28.58 334.97 67.54 12.97 - 54.571 PASS 320.80t 320.80 0.00 0.00 315.29 321.19 60.58 -28.88 334.51 67.12; 13.03, 54.091 PASS 333.-3j 66.48 13.11 _ 53.37 PASO 500.00 500.00 _ 0.00 0.TV _494.62 500.51 58.91� -29.54 333.37j _ 65 90; 13.19 52.71T PASS 520.80t _ 520.80 0.02� _-0.515.44 521.33 58.67� -29.64 2333 8 65.67� _ 13322;� 52 461 PASS 620 80t _ _ 620.72C 0 57 3 - 615.45 _ 621.33 _ 57.47i_ -30 07j-335_.22 62.69`_ 13.38 _ 49 3_01 PASS 720 80ti 720.31 1 907 12 61 715.09� 720.96� 56 26( 30 35� 341.92 57.19i 13.63� 43.56� PASS 820 SOt 819.29 4.01 26.58i _ 814.42 _ 820.27 54.651 -30.66 355.39, _ _ 50_.81 ' 13.77 37.04 PASS 912 70t 409 491- 6 63 -43 92' 904.96 910 79' 52.58 -31 13 _ v - y _��. _. _ __-_j�_ _- _ _ J_ 15.55� 47.71 14.00 _ 33.71 PASS r 917.47t 914.1 6 78 -44 94 909.60 915 43 52.46 3 ] 161 ` 16.78 47.72114.02 33.70 PASS 920.80t 917.40 6.89 -45.65 912.87 -_ _ [_ 918.69 52.371-31.18I_ 17.65 47.74r 14.04 33.70 PASS 1020.80tr 10110.537 69.78 1010.05 1015.83 49.60 31.87 44.141 54.46� 14.92` 39.54 1120 80f, 1109.93i 14 93 48 89, 1105.54 1111 28 46.73'E _ -32.50 _ 64.41 _ 73 62 15.95 57.67: 1220 80t' 1203.81 30 06 132 91: _ 1199.68, 1205 384 43.91F_ 33 19: 76.55: 102 54; 16 74; _ 85.80j 1320.80t1 1295.77 25.92 17173 1291.90ff 1297.55 41.06 _ 1 F __..-�_._ ._.J I0- �-34 021 - - 83.73j - 138.55� 17.37 - _ __ j_ 121.9j 1420 80t 1385.54 _ 215.27 _ _ _ ..__ i _- 88.19 -- 180 52 32 49 _ 17 92� _ 162.601 �1469.69 1475.24 35.36, -35 691 �-263.39 _ , 9].H[ 227 76( 18 45 � 209.31 1381.71 1387 31 38.18 34 84 1620.80t' 1557.89 47 64-315.96 _ 155515 1560 65 32.51 _ , 93.1 t 279.67 18.95 260.72` r j_ j-__ 1717 4441_ _7 2T 2 26.87f-- 39.04 . ^ - - - u -t a- f 1720.80tr 1639.35 56.281 372.841 1637.78_ j_94 54r 336.08 19.45 _ 316.64 1820.80t 1718.01 _ - 65-49 433 88 _ _ _ (- _ 95 59� 396 76� - 19.93J _ 376.83j 192080t 1793.33j-_75.31� 498.91l 1793.66 179898 24.18-40.25; 9636( 46153i20.41� 1937.97 1805.9110.46: 1806.42 181173 23.73 40.46' 96.471 473.051 20.491 452.561 2020 80f 1866.35' 85,50-566.46 1867.88 1873 15 21.59, 528 89! 20.76: 508.13! _ 9--5.71 _ _ _42.78 _ 97.387- _ . _. _ - _ 96.94 .07 tl 1 f�-7 ._ __ .__2_._ �--- _ 59628; 21 09i 642.19 2220 80t� 2012.29 10591 70�.69 2016.100' 2021 26 16.75 44.10i 97 72,' 663 67 21 45� 642.22� '� 2320.SOt; 2085.26 116.12 769.30 2090.12 2095.24 14.41 45.44' _ 98 00��- 731.04j 21.82[_ 709 221 2- _ !.,_.. i _...__ ., r__.._-..-...1-- _--_.1 2420 80t 2158.23 126.33 836.91 f 2163.74, 2168.81 12. ] 6 46.76 98.22� 798 42; 22.20 776.22, 2520.80t 2231.20 136.53-904.52 2236.24 2241.27 10.08 -48.00 98.40, 865.87 22.60 843.27 PASS PASS, PASS_ PASS PASS PASS PASS PASS PASS a PASS PASS PASS_ PASS PASS 7 Ea oeB Clearance Report FMA.■ Cook Inlet EnergyNFU#14-26 Ver#1 �� Closest Approach Page 10 of 53 HUGHES CLEARANCE DATA - Offset Wellbore: NFU#34-26 Facility: North Fork Unit (NAD27) Slot: North Fork #34-26 Ref MD Ref TVD Ref North Ref East Offset MD Ift] Ift] Ift] IN Ift] Offset Wellpath: PGMS GyroData<100 - 2500'>MWD (HAL)<2550 - 90211> Well: NFU #34-26 Threshold Value=0.00 ft f = interpolated/extrapolated station Offset TVD Offset North Offset East Horiz C-C ACR Ellipse Ift] Ift] Ift] Bearing Clear Dist MASD Sep 101 Ift] Ift] ]ft] (_- 2620.80t[- I 2720.80t 2820.80t 2920.80t 2304.17�_ 2377.14 2450.11 2523.07 146.74� 156.94 167.15 177.35 --972.13 -1039.74 -1107.35 1174.97 - 2307.47 2378.06 2452.05 2525 65 2312,47 2383.03 _.4 l2456.99 2530.57 8.20 6.40 4.56 2.82 -49.021 --- -49.82 50.52 51.32 98.54 98.65 �98.75 98.83 �- 3020.80t, 2596.04 187.56 -1242.58 3120.80t �66 197.3220.80t 207.97 1377.80 3320.80t _ 2814.95 218 18 _-1445.41 3420.80t 2887.92 228.38 1513.02 8 RTM9'0t, 2960.89 238.59! -1580.63 Y -- W 3033.86�_ 248.79 --1648.24 3720.80t 3106.83� 259 00-1715.86 3820.80t 3179.80 269 20-1783.47 _ 3920.80t 3252.77 279.41 { I i-51.08 3325.74; 289.61-1918.69 1.15 -51.99 -0.431-52.65' -53.31 -5.621-54.921 94.12' ACR Status 1001.331 23.401 977.921 PASS 1069.29 _ 23.84 1045.451 PASS 1137.151 23.30 _ 1113.84( PASS 1205.11 1 24.74 1180.37, PASS 1273 081 -25 21 1247.871 PASS 1341 09 - 25.70�, 1315 38 PASS 1409 031_ 25.74j_ 1383_291PASS 1476M-1 25.851 1450.97 PASS 1544.53' 25.95' 1518.58 PASS 1612.29 26.09 _ 1586.20 PASS 1679.97 26.27 _ 1653.70 PASS _ 1747.511- 26.49 1721.01 PASS 1814.93 j- 26.71( 1788.22i PASS _ _ 1882.4_4 _ 26.95 1855.49 PASS __ �� 3 00.02 2053.91� 3490.3011 3494 93 -_ 17.51(-63.42{ 99 34� 1949 91 ` 27 23; 1922.68 PASS I 4120.80t 3398 71 299 82 _ 1986 30 3418.461 _ 3423 10 16.25, 62 34 _ 99 33, _ _ .. �- 4220 80t 3471 68 - _ _ 2017.40 27.51{ 1989.89J PASS 4320.80tr 3544.65� 320.23� _ -2121 52� 3564.86( 3569.47 _18 81 - -64.51 99.36E 2084.92 27 83 2057.08 PASS 4347.45 3564.09[ 322 951 -2139 54( 3584;88I 3589.4864.81 { 99.36{- 2102.90 27.921 2074.981 PASS 4420 80t' 3618.57 330.2& -2188 11 3640.34 3644.93E-20.00� -65.63 99.3T 2151.34 28.18, 2123.16 PASS - 4520 80tj 3695 79i 339.76, 2250 911 _ 3718.67j 3723 24-21.23j -66.82 9-39 2213 90� 28 60' 2185 3011 PASS .� _ - -F- - i - i- - 4620 80t 3776 23 348.62 _230 64 3799 631 3804 18 22.52 w -- - 243.21 - _ -- 9 --� - - -68 05 99402272 28�� 29.07 2243.211 PASS 4720 80t 3859.67� 356 85( 2364 12�- 3885.61 3890.13� 24.04� -69 40� 99 42� 2326 31 29.59 2296.731 PASS -- ,_ . - _ __. 4820.80t 3945.88 364.41! 2414.217 3967.41 3971.91: 25.58 70.65 99.45 2375.92 30.08 2345.84' PASS 4920.80t 4034.62 371.29-2459.76 4051.41 4055.89 -27.18 -71.76 99.47 2421.11' 30.59 2390.52 PASS 5020.80t 4125.65; 377.46 2500 67{ 4143.83; 4148.28 29.11 72.90 99.51; 2461.68` 31.15: 2430.53 PASS 5120 80t 4218.72 382 91j 2536 80C 4222.56{ 4226.99` 30 87 73 76 99 54 2497 57 31 61' 2465.96 PASS -. �--. 1----- 5220 80t 4313.57 387 63 2568 07 - - - - - -_ _( 4315 855� 4320.25� -33 02' 35.41 =74 25( 99 57{ 2529.06 32 16: 2496.90, PASS 5420.80t, 5320.80tr__07.59� 394.82 2695.69r-- 09.88 4514.22 37.51 75.65 99.66 2576.58`� 32.73� 2522.59E PASS 33.27 2543.31 PASS 2670.86) 2675.74 2744.17 _ 2749. 22 2819.48 _ 2824.31 2896.95; 2901.75 2969.25' 2974.03 3043.33 - 3048.08 3119.01� 3123.74 3197.42 3202.13 3270.481� 3275.16� 3343.33 3347.99 -7.21 -55 84 99 16` -8.92 -56.75. 99.20 -10.54 __-57.73 99.23 -12.11 -58.89 _ 99.26 -13.53j 60.09` _ 99.29( -14.93; -61.18 99.31 €a aeB Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 11 of 53 BAKER NU61#S REFERE,NCE NVELLPATH IDENTIFICATION' (Operator (Cook Inlet Energy _ sArea +Cook Inlet, Alaska (Kenai Peninsula)Y IF1eldINorth Fork Slot Well Wellbore North Fork # 14-26 (Plan) NFU #14-26 Plan NFU#14-26 Plan Facility North Fork Unit (NAD27) CLEARANCE DATA -Offset Wellbore: NFU#34-26 Offset Wellpath: PGMS GyroData<100 - 2500'>MWD (E AL)<2550 - 90211> Facility: North Fork Unit (NAD27) Slot: North Fork #34-26 Well: NFU #34-26 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ftl lft] [ft] IN [ft] [ft] jftl lftl Bearing Clear Dist MASD Sep Status - ____._ --- �.- 01 �[ftl _ IN __ 5520.80t 4606.23� 397.27-2631.90 4605.43�-4609.75�-39.59� 76.201 199.701 _ 2592.771 33.79T 2558.98[ PASS 5620.80t 4705.59 398.94 2642.99�4703.76f A4708.05 41.87 -76.69 99.75 2603.88` 34.31 2569.57 PASS -______._�._� 5720.80t 4805.40 399.84 i-2648.92 4802.73 _4806.99 -44.27 -77.19 �99.80 _-_ 2609.80 _ 34._82j`_ 2_57_4.98 PASS 5785.42�4870.00 400.60-2650.00 4872.661 4876.90( -45.83 77.55 99.83 2610.80( 35.15� 2575.65�PASS 5820 80t 4905.38 400.06-2656.00 4909.38 4912 61,-46.58: _ _-7_7.810 99.85 2610.69 35.28 2575.41 PASS 5920 80t 5005.38 400.00 2650.00( 5003 47 5007 67 -48.88� 78.261 99 90 2610 63�- 36 fl 2574.15, PASS w � 35.6 1, 2575.02; PASS 6120.80t 5205.38 400.00 2650.00 5205.1-- -5109 14 51 _59� -79 - 99 96 2610 17 i v �_ 5209 27 _ 54.091 _ -7 83 _ 100.02 _ 2609.98;_ 36_J7�_ 2573.60, PASS 6220 80t, 5305.38� 400.00� 2650.00( 5321.06 5325.091 56.98; -80 87� 100.09� 2609.53 36.871 2572.66 PASS -_ 6420 80 5505.3.8 400`00 2650 00�_ 5527.081_ _ 5531 10, 6.21 i 81 i V-83 65j 100.20 2608.70 _ 37.29` 25_71.41' PASS 6320 80 5405.38 � _ _ rV--___-'- 1 ( 260769i_37.71�2569.98j PASS _ �___.._.__ _ __ __ 6520.80t _56_05.38 400.001-2650.00 5624.96 5628.93' -64.19 -84.95 _ 100.26 _ 2606.82 38.11�_ 2568.7IT PASS 6620.80t 5705.38 400.00 2650.00 5724.21�i 5728.14 -66.84 -86.45 100.32 2605.81 38.52� _ 2567.29r PASS P6720.80ti5805.38 400.00 2650.00 5822.01 5825. !- � 89 69.74 87.64( 100.39 2605.14 38.94� 2566.20+ PASS 6820 80t 5905.38 400.00-2650.00 _ 5927.32 _5_931.13,-72.881 -89 30 _ 100.46: 2604.12 39.42 2564.70, PASS 6920 80t�� 6005.38 _ 400.00(-2650.00 6025.44 60.29.21 �_ 75.801 -90 75; 100 53( 2603 21 39 85 2563 3.-6 PASS 7020 80 f 1 6105.38 400.00-2650.00 _ 6136._76 _ 6140.47 _ 78.95 -92 55 100 61 _ j 2602 14i 40.38 _ 2561.76 PASS _� - 2650.00[ _ 6231.06 6234.71;_ 94.31 _ _ - � 7120 80j��-��6205 38� 400.00 - � _ �� _g1.59 � 100.67 2600.83j_ 40.801 2560.03! PASS 7220 80f 6305 38! 400.00 2650.00; 6324.78 6328.38; 84.30F 95.77� 100.74 2599.84; 41.221 2558.62PASS 7320 80t 6405.38 400.00'-2650.60 6422.37' 64_25.9_2 -87.21 97.14" 100.81 2599.02' 41.68 2557.34 PASS _:._ _ _ I 7420 80j 6505.381 400 OO1 2650 001 6512 14r 6515 64 89.95j 98.24i 100.87 2598 39F_ 42 09; 2556 31, PASS j 7520 80t I _ 6605.38 400 00� -.2 0 _ 6616 60� - 6620 039 93.64i ` 100 95 2598 00�_ 42 61, S 7620 80t 6705.38 400.00. _ -2650 00(_ 6705.32� - 6708.69 -96.0 100.36� 101.03� 2597.60 43.02� 2554.58� PASS - _., - - 7720.80t 6805.38� 400.00 2650.00! 6804.77� 6808.051-100.78� ]01.19 101.12i 2597.54' 43.53' 2554.02' PASS Ff 7820.80t 6905.38; 400.00-2650.00 6896.45 6899.65-104.73-102.04, 101.21 2597.47 4398 2553.49 PASS 4 8020 80t� 7/05-38_400�00�-2650.001_ 71001.64 _! 710464j _-11133.431- _-103 89j 101.40i_ 2597.361_45.07i2552.- PASS ' _., - 1 8120.80tF 7205.38� 400.00 2650.00 7197.88[ 7200.78{�-117.75r 104.66��1OL50� 2597.47� 45.581 2551.89! PASS ,._ - _-__...._.....__ f 8220 80j; 7305.381 400.00 2650.001, 7294.18(� 7296.97T-122.32 105.35i 101.60� 2597.72! -46.10 2551.62' PASS 1 U20 80t` 7405.381 400.00 -2650 00` 7391.94 7394.61 127.13 105.98 101.71 2598.08 46.64 2551.44 PAS ` Ea 00 Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 12 of 53 BAKER NuGHEs IDENTIFICATIONREFERENCE NVELI�PATH !Operator Cook Inlet Energy _ _ _ ea Cook Inlet, Alaska (Kenai Peninsula) Slot Well North_Fo_r_k # 14-26(Plan) NFU #14-26 Plan - -- _V !F _ (Field (North Fork Wellbore NFU#14-26 Plan 1Facility North Fork Unit (NAD27) CLEARANCE DATA -Offset Wellbore: NFU#34-26 Offset Wellpath: PGMS GyroData<100 - 2500'>MWD (HAL)<2550 - 9021'> Facility: North Fork Unit (NAD27) Slot: North Fork #34-26 Well: NFU #34-26 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [ft] [ft] [ftl IN [ft] [ft] Bearing Clear Dist MASD Sep Status __ _ _ _ __ [°] It] _ [ft] [ft] 8420 80t) _ 7505.38�-400.00-2650.00(_- 7491.22� - 7493.76 132.15�-106.SSj�101.82�- _2598.551 47.19� 2551.36rPASS 8520.80t 7605.38 400.00--2650.00 -� 7590.43r 7592.85� 137.00-107.16 101.93 2598.96 47.75 2551.21� PASS 8620.80t 7705.38 - 400�00-2650.00 7684.02_7686.33 - 141.50 107.58 102.02 _ 2599.52 -_ 48 27� 2551.25i PASS _ 8 - 6 L_ .-_. -..__. . 8720 80t 7805 38 400.002650 00 7778.37� 7780 58 145.88 ] 07.66� 102 12 2600.40 48.80 2551.61; PASS 8920 80t - 8005.38 _ 400 ©0 -2650 Q0, 7872.49 7874.60' 150 24i 107 59! 1Q2 21 2601_46,_49.32 2552.13 PASS --.. _ - �_ _ m_ .._._ _ - -- t, 00 -2650 00� 7963.16 7965.18 -1 4.35 107.20� 102 30 2602 84 49.83 _ 2553 001 PASS _ 90_20 80t 1 8105.381 400.00 _-2650 00 8060.51 _ 8062.42 _ 158.78 106.58 _ 102 39'_ 2604.43� 50.39 2554.041 PASS _ 9120 80t 8205.38 400.00-2650.00� 8151 41i- 8153.22 _-162.90 105.80 - 102.48I 2606.25 _ 50.91 2555.34' PASS r 9220 80t 8305.38 400.00!-2650.00� 8235.68� 8237.39�-166.75 104.58� 102.55! 2608 64 51.39 2557.25 PASS _____-_' __ f ! I 2611.3T _51._94 2559.37 PASS � 9420.80t� 8505.38�400�OQ -2650 00 8329.73 8331.33E 171.ZQ( 1Q3 Ot. 102 641_� , t� 05.38,- 400.00 _-2650.001 8418.04 _ 8419.51! 175 45� 101.18!_ 102.72[_ 2614.38 52.45 _ 2561 93 PASS 9520.80t! _ 860_5.38 _ 400.00-2650.001_ 8508.77 _ 8510.11 179.85 _ -98.96 _ 102.81 _ 2617.85 _ 52.98�_ 2564 86! PASS 9620.80t 8705.38} 400.00 2650.001 8598.85 8650.04�-184.33� -96.46-`102_89` 2621.66� 53.52� 2568.14 PASS-9720.80t8805.38�400.00-2650.00f-8686.06 8 10� ]88.86�-93.69j 102.971 2625.93i 54.04j 2571.881 PASS 970,42 8850.00 400.00 -2650 00 8725.2T 8726 23' 190.85-92.29, 103.01 2627.98 54.28 2573.70 PASS , POSITIONAL UNCERTAINTY - Offset Wellbore: NFU#34-26 Offset Wellpath: PGMS GyroData<100 - 2500'>MWD (HAL)<2550 - 9021'> _ Slot Surface Uncertainty @1SD -_-.- Horizontal -- - 2.000ft -- _-- Vertical I1.000ft Facility Surface Uncertainty @1SD Horizontal 20 OOOft Vertical Oft WELLPATH COMPOSITION - Offset Wellbore: NFU#34-26 Offset Start MD End MD Positional Uncertainty Modely-_---- _.._. _ _ 0.00 250_0_.00 ( Gyrodata standard -Continuous 2500.00-9021.00 ISCWSA MWD, Rev. 2 (Stand, PGMS GyroData<100 - 2500'>MWD (HAL)<2550 - 90211> Log Name/Comment I -Wellbore GyroData PGMS <100 - 2500'> _ NFU#34-26 MWD (HAL)<2550 - 90211> Ea O�B Clearance Report Cook Inlet Ener NFU#14-26 Ver#1 9Y- MKER Closest Approach Page 13 of 53 HUGHES OFFSET WELLPATH MD Offset Wellbore: NFU#34-26 Offset Wellpath: PGMS GyroData<100 - 2500'>MWD (HAL)<2550 - 90211> MD Reference: Rig on slot: 34-26 (RKB) Offset TVD & local coordinates use Reference Wellpath settings (See WELLPA TH DA TUM on page 1 of this report) Start MD Ea (ra Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 14 of 53 BAKER NuGHEs - - Dperator Cook Inlet Energy - Area lCook Inlet, Alaska Slot North Fork # 14-26 (Plan) (Kenai Peninsula) Field North F - ork _ _ Well NFU #14-26 Plan Wellbore NFU#14-26 Plan _ - Facility North Fork Unit (NAD27)-- CLEARANCE DATA - Offset Wellbore: NFU #22-26 Offset Wellpath: NFU #22-26 Ver#4 Facility: North Fork Unit (NAD27) Slot: North Fork # 22-26 (Plan) Well: NFU #22-26 Threshold Value=0.00 ft Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz IN IN Iftl IN Iftl IN Iftl Ittl Bearing 26.80 ( 20.80( _ 0.00(_ 0.66 i " 20.80'-"- 20.80 -__--_ 0.71-- 60.081 89.3 120 80f 220 80t - 320.80t 420 80f 500 00 120.80 220.80 320.80� 420.80; 500.w 0.00 0.06 _ - - 0 00 0 00, _ 0.00 0.66 0.00 - 0.00 0_00 0.00 ----- -- 120.80[ 220.80 ---- 120.80 220.80 ----- - _ _ 0.71 0.71 _ 0.71r 0.71! 0 71 1 - 60.0 60.0 _ 60.0 60,0 60.0 - 320.80 320.80 420.$01 420.8 500.00�i , 500 OOf t = interpolated/extrapolated station C-C ACR Ellipse ACR Clear Dist MASD Sep Status Iftl Iftl Iftl 31 60.08 _ 12.91 `_ 47.171 PASS 3 60 08I 12 93( 47.15i PASS 3 60.08( 13.001 47.091 PASS 89.33) 60.08� 13.10� 46.98E PASS 89 33I 60.08 13.25 46.83 PASS _ _ __ 89.33 _ 60 08� 13 40 46 69� PASS 50444f _504.44 0.00 001 _ 504.46j� 504.46[ 0.71 60.08 89.32 - 60.OT 13.401-46.68° PASS 52080t�520.80 0.02 011 520.87�- 520.87j- 0.781 _ 60.07��89_27 _ 60 18� 13.44j 46.751 PASS 620.80f1 620.72f 0.571 3.78j -621.1-11 621.073.23, 59.64� 87.60� 63.41 13.80; 49.67+ PASS F 720 $Of _ 720.31 1 90 12 61 - 720.441-- - 720 72 ` _ 9 09 58.60 84.23 _ 71 57 14.53` 57.041 PASS __ 820 86-t 819 29i- -- 4.01 _-26 58 (- -- "- `� - F - -- -- _ 821.36; 820 71 E - � 18 13. _ 56.43' -- 80.34� 84 21 15.23' 68.98I PASS 920 80f r 917.41 6 89�i-45 651 - 922.011 920.59 29.49j 51.62 76.92 _ 99 91 15.98 83.93� PASS __._.__ _ __� _ 1020 80f� 1014.37 10.53 69 78 _ 1022.351 1019.73 43.02 44.14 74.08 _ 118 58 _ 16.80 101.78 PASS 1120.80t� 1109.931 14.93 ( -W- -98.89 1122.36i 1117.98�-- 58.71 34.01 71 77 140.15� 17.67� 122.48 PASS 1220 80 f L 120181 20.06 -132.9E 1222 00 1215 18 76 48� 21.28, 69 90 164,58 18.65t 145 92 PASS _ _ _ _ - --� 1320 80ti 1295 77 25.92� 171 73' 1321 2-4 1311 21 _ 96 31 r -i - - --- -_ -_ � i_ 6.00E _ 68 40� 191 79i 19.79, 171.99; PASS 1420.80t 1385 54) 32.49j 215 27� _ 1420.04(i _ 1405 91( 118 11; _ 11.77 67 18� 221 72j 21.13E 200.58 PASS 1520.80f 1472 89; _ 39.76E 263.39)_ 1518.39j _ 1499 18j 141.85; _ 31.9_7 66.19i_ 254.30�-22.71� 231.59! PASS 1620.80t; 1557.57( 47.69i 315.96j 1616.25 _ 1590.901 167.451 54.55 65.391 289.47� 24.531 264.0 PASS 1720.80t; 1639.35 56.2& -372 84; 1713.61 1680 95! 194.86 79.43 - 64 72' 327.15i_ 26.63 300._52 PASS 1820.80f; 8.011 65.49 -433 88 1810.49 1769 26, 224.00 106.54367.3 29.01 338.281 PASS . . 1920.80f _ 1793 33( 75.31 498911 _ 1906.84` 1855 73 _ 254 82 _ 135.82� 63 69� - -409 82 31.69j 378.14 PASS 1937.97 _1805 91 f -` 77.05�_-510.461� 1923.341 -_ 1870 38 2_60 28 1_41.06� 63 62I _ ` 417 36 32 161 385.201 PASS i - -1 2020.80t� 1866.35 85.50� 566.46� 2003.33i 1940.83{ 287.48 - 167.41� 63 16; 453.41 34.571 418.851 PASS 212080t 1939.32� 95.71 -634 07 2100.41 2024,89 322.10 -201.45 62 3& 495._72t 37 74 457.98 PASS -r--- -. _ F--2i-208-0t 2220.80f _2012.29j_]05.91i 701 69"2191.15 2102.82 355 16- 234.17; 61 94 53749! 4096496.53 PASS 2320.80f 2085 26 116.12j 769 30( 2281.90 2180.74�388 23' 266.88i 61 56 579 29 44 27 535.03, PASS - 2158 231 126.331 836 911 2372.65 2258.66i - 421.29-299.60� 61.24 621 12 47.66 573.47, PASS _. ®_v.. a_.. _�- 2520.80t 2231 20 136.53I -904 52; 2463.40 2336.58j 454.36-332.31i 60.95 662.98i 51.11 611.87! PASS L,,,,-2620.80f 2304.17E 146.74 -972 13 2554.15 2414.50 487.42-365.03 60.70 704.85 54.61 650.24. PASS Ea MB Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 15 of 53 BAKER NuGHEs ' !Operator Cook Inlet Energy___ Slot -`North Fork # 14-26 (Plan) !Area !Cook Inlet, Alaska (Kenai Peninsula)4 Fleld North Fork Well Wellbore NFU #14-26 Plan _ - NFU#14-26 Plan Facility North Fork Unit (NAD27) Ij_ CLEARANCE DATA - Offset Wellbore: NFU #22-26 Offset Wellpath: NFU #22-26_Ver#4 Facility: North Fork Unit (NAD27) Slot: North Fork # 22-26 (Plan) Well: NFU #22-26 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [ft] IN [ft] [ft] [ft] [ft] Bearing Clear Dist MASD Sep Status r_ 2720.86t� 2377 14 156 94� 1039 74 - __ _ _ _ 2644.89� 2492.42f ____ 520 48�_�397.74 60.48! 746.741*1 �_ 58.15' 688.59 PASS 2820.80t - 2450. j 167 15 1107 35l �- 2735.64 2570.34( 553 55 430.46� 60.28 _ _ _ _ _ _ _ �788.64 61.72� 726.91 PASS 2920.80t 2523.07r 177.35 - 1174.97� 2826.39 2648.26 586.61 463.171- 60.1Or- 830.55 65.33 765.22 PASS ``�j _- _-__. ____ _ - _-____..._. _. ___._...._..___ _-�_..____ 3020.80t 2596.04 187.56!-1242.58� 2917.14 2726.18 619.68-495.89i 59.94r 872.47(- 68.96 803.51 PASS 3120.80t, 2669.01 197.76-1310.19, 3007.89` 2804.11 652.74-528.61 59.80' _ 914.40 72.29 842.11 PASS (- 3220.80t 2741.98 207.97 1377 80(� 3098 64 2882.03 __ 685 80 561.321 59.66j_ 956 33, _ 75 57' 880.76, PASS 3320.80t 2814.95 _ 218.18 1445 41 m M- -- __ __ 3189 38 1 �_ _- i 2959.95 718 87f _ 594.04 _ 59.54 998.28 ` 78.43+ 919 84PASS 3420.80t� 2887.92� 228.38�1513.02!_ 3280.13 3037.87 751.93! -626.75 59.431 1040.22 !81 231 958.99 PASS - (- 3520.80t1 N60 8 238.59j 1; 785.001 659.47 59.331- 1082.18 84.10� 998.08� PASS 3620.80f 3033 86' 248.79i 1648 24(_ 34611.631 - 3193 711' 818.06-692.18' 59.23' 11N.13s 81.03! 1037.10, PASS 3720 80t 3106 83j _ 259.00 1715 86 3552.38.63 851.13 _3179.80_1_0_7_6..0_.7_ PASS 594 1166.091 90.02 I 3820.80t! 26.20( 1783 473643.13 3349.55 1208.06 _ 114.PA-7560.� 3920.80tF-252 727941f-18A8( 733.7 3427.47 97.25--NU-3 _58.98 1250.021 96.16 115386rPASS 3325.74_9.62_3505.40-82.051 8.91F'4020.80f[ 261-1918.693241 ..S 1192.69i PASS 4.120.80t 3398 71. 299.82 1986 30 _ 3915.37 3583.32 983.38 _-855.76 58.84 1333.96 102.49 1231.4_7' PASS 4320.80t! 3544 65 _ 320 23 2121 52 4096 871 3739 16� _ 1049 51 --- - - ----_._�-_._ _.� _ - € -1 ]08.97 1308 951 PA_S_ S_ _ 921 19 58.72 1417 91 _ _ 4220.80tf 3471 68 310 02 2053 91 4006 12 3661 24 _ 1016 45. 888 48 58.78 1375.94 105.71 ] 308 95 PAS_S !-- 322.95�-2139.54=-_4121.05�- 3759.92� 1058.32�V-929.9158.70 1429.10( 109.84 1319.26 PASS �4420.80t 3618 57' 330.28�-2188.11j 4188.00i 3817.41� ]082.72�-954.o5� 58.63� 1458.971 112.26' 1346.711 PASS 4347.45 3564 09 4520.80t 3695 79! 339.76 2250 91 _4280.41 3896 76 11 I6 38! 987.36 _ 58.42' 1496.69 _ 115.65 1381.05 PASS 4620 801 3776 23, 348.62i _ 2309 64' _ 4373.88 3977 Ol 1150 44� 1021.06!_ 58.11 - 1530.90' 119.11 1411 79` PASS JJ1_- 356.85 2364 12� _� i -- - 1 !_ -,. _ _ 4720 80t-r_ 3859 67 C - � _ 4468 16 4057 97� - 1184 79i 1055.05l- 57.69 1561.56 122.63 1438.93 PASS 4820.80tr 3945.881 _ 364.41(--2414 211 4562 99 _ 4139.40_[1219 341 _-1089.231 57.17� 1588 68I 126 21 j 1462 471 PASS 4920.80t 4034.62i 371.29` 245976' 4658.12� 4221.08� 1254.00` 1123.53i 56.55� 1612.29 129.84; 1482.45, PASS 5020.80t 4125.65 377.46-2500.67 4753.28 4302,79 1288.67-1157.83 55.84 1632.45 133.51 1498.94' PASS 5126.80t 4218,72, 382.91 -2536 80 4848.21 4384.30j_- 1323 26; _ -1 192.06; 55.64, 1649 25 137.20; 1512.04 PASS r - 5220 80t 4313 57 387,63 2568 071 - 4942 651 _! 465.39 _ 1357 671 1226.10� 54.14 1662 80j 140 911 1521.891 PASS 1 5320 80t[ 4409 95� 391.61 i 2594 39d 5036 34j 4545 84� 1391 81 j-1259.88� 53.15� - 1673 2~6at 144 61 1528.65j PASS _ __. _- �_. - 5420.80t 4507.59i 394.82�� 2615 69j 5129.03, 4625.43[ 1425.581 1293.30i 52.071 1680.79; 148.28i 1532.52! PASS f; 1458.89'-1326.26 50.84 1685.62 151.91 1533.71 PASS 4606.23 397.27'-2631.90 5220.46` 4703.93' Ea Ceb - Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 16 of 53 'A its BAKER NuGHEs REFERENCE WELLPATH IDENTIFICATION E ,Operator ;Area (Cook Inlet Energy Cook Inlet, Alaska (Kenai Peninsula) _ Slot Well -__ North Fork # 14-26 (Plan) NFU #14-26 Plan - jField __ - - 'North Fork Wellbore NFU#14-26 Plan ;Facility _ North Fork Unit (NAD27) CLEARANCE DATA - Offset Wellbore: NFU #22-26 Offset Wellpath: NFU #22-26-Ver#4 Facility: North Fork Unit (NAD27) Slot: North Fork # 22-26 (Plan) Well: NFU #22-26 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [ftl [ftl [ft] [ftl [ft] [ftl Bearing Clear Dist MASD Sep Status 5620.80t- 4705.59 398 94 _ _- i-- [o] _ 1688.001- 155 32� - 1532.68� PASS L _ �-_�. �--2642.99 5307 61�4779.011 1490.35 1357.38 49.67 __ �_ 1538.2i=1404.73 - 47 57 -- 168i.4�� 160.44' 1526.97 PASS. 1 5720.80t 4805.40 399.84 2648.92 5393 45 4854 14 _ -1-386.57 F5785.42 4870.00 400.00 2650.06 - 5449 36l- 4903 731 5820.80t 4905.38 400.00 2650.00 5480.24. 4931.33j ]548.06 -1414. 66, 47.101 1686.79'; 161.47 1525.32� PASS 5920.80ti 5005.39 400.00-2650.00'- 5569.30' 5011 76 1575.26: _ 1441.36 45.80 1685.85 164 26, 1521.59 PASS 1 - 6020.80t 5105.381 400.00i -2650 00' 5660.9 5095 74 _ 1601 3_9r 1467.19j 44 55- 1685.96 166 85! 1519 11 PASS �6120- 5205.38 400.00-2650.00 - 5755 15 5183.20 _ 1626.23- -N 1491 _ 43.37 1686.92� 169.25 1517.67 PASS 6220.80t 5305 381 - 400.00 2650 00 5851.75 5274.05 _ _ 1649.58-1514.80 _42.25 _ 1688.53 - 171.441 1517.09 PASS r-'' 6320.80t 5405 38 400.001 2650 00; 5950.63 5368.14 1671.22-1536.16` 41.23 1690.57 173.421 1517.151 PASS - - _, W 6420.80fi 5505.38 400.00 -2650 00', 6051.64 546527, 1690 93 1555.60f 40.29 16okt 175 19i 1517.69, PASS 6520.80t. 5605 381 400.00 2650 00 _ 6154.57 _ 5565.19 1708.50 1572.92 39.46� 169_5� 25r 176.731_ 1518.52 PASS 6620.80t� 5705 38 400.00� 2650- 6259.22- 5667.63 _ 1723.74-1587.93 38.74 i 1697.56 178.06! 1519.51 PASS e_u tr.. y1------�- - --- - - --_ _ �. _.._ 6820.80t - i.-- i 1 1520 SOCPASS 6720.80 5905.38, 400.00 2650.00. b46�34 5772.23 1736.48 1600.44 38.14 1699.66 179.16, -- 66, 5878 61 1746 55 1610 31 37.67 1701.43, 180.05 1521.381 PASS 6920.80t 6005.38 _ 400.00-2650.00i 6573.82 _ 5979.20 1754.23 1617 8_l 37.32 _ 1702.95 180.73 152_2.22 PASS 7020 801 6105.381 466. 00 2656.0_0�-6673 26 6078 09 T 1761 71 _ 1625.13j- 36.9T 1704 52 18 - ------------ PASS r 7120 80t 6205 381 400.00 2650 000� 6772 71 _ 6176 981 1769 20j 1632.441 36.6.2_1- 1706.151 182.02. 1524.131 PASS 1 7220.80j 1- 6305 381 400.00�-2650.00 - 6872 15i 6275.881 1776.69-1639.76 16:�2 _ _ 1--'- ----- 71-1707.851 182.66j ]525.191 PASS 7320.80t) 6405 388�-400.00 2650.00j 6971.60 v 1 i 183.291 1526.31PASS 7420.80 � - 6505 381 400. - 650.001, 7071.64`_ `6473.66�- 1791 66 �16�439f 35.58 a- 17019 43 183.92 _ 1527.50 PASS t _ 7520.80t 6605.381i 400.00 2650.00� 7170.49� 6572.55 __ 1799.15�-1661.70 35.24i_ ]713.311 184.SSC - 1528.76 PASS- 7620.80t 6705.38 400�001 2650 00� 7269.93i 6671.44 _- 1806.64 _-1669.02 34.89 _ 1715.26� 185 171 1530.09j PA_S_S _ _ _ 7720.80t 6805 38 �400 001 2650 00� 7369.371 6770 34 1814 13� 1676.33,� 34.55 1717.271 185.791 1531.481 PASS 78208pt; -.I -- I --- 7 - - 2650.00 6905.38i 400.00 2650 00 - 7468.82r- - 6869 23, 1821.61 ` 1683.65' 34.21 1719.34 186.40 1532.94 PASS i 8020.80j 7105.38tl 400.00-2650.0Q 7667.71 i _ - 7067 01 _ 1836.59i-1698.28. 33.52 1723 67; 187.61 1536 06 PASS 7920.80t 7005.38 400.00 ! 7568.26 6968 12 1829.10 1690.96 33.87 1721 47 187.00' 1534.47 PASS 1 8120.80t _ 7205.38_i 400A0 2650.00 _ 7767 15i 7165 90i _ 1844.08i 1705 59j- 33.18 17125.93 188.20 1537.721 PASS 8220.80tl 7305.381- 400.00 2650.00 - 7866 60� 7264 80(- 1851.561� 1712 911- 32.85� -- 1728.24 188.80 1539.45` PASS _ _u._ - v w..._ _ -_ _...__- .. 8420.80t 7505.38 400.00 2650.00�-_ 7966.04' 736369' 1859.051 1720.22� 32.S1r 1730.621 189.39 1541.24 PASS 8320.80 7405.38� 400.00 2650.00 t� 8065.49 7462.58 1866.54 1727.54 32.17 1733 06 189.97 1543.09 PASS ' 0 CeB Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 17 of 53 BAKER HUls'NES REFERENCE WELLPATH IDENTIFICATIONP Operator Cook Inlet Energy Slot �_ North Fork # 14-26 (Plan) __ _ _ _ -J Area Cook Inlet, Alaska (Kenai Peninsula) Well_ _ _ NFU #14-26 Plan - -_ Fie1d- �North For -eY------_-_.._..._____.____.__.-- _--- - jFacility North Fork Unit (NAD27) Wellbore NFU#14-26 Plan an CLEARANCE DATA - Offset Wellbore: NFU #22-26 Offset Wellpath: NFU #22-26_Ver#4 Facility: North Fork Unit (NAD27) Slot: North Fork # 22-26 (Plan) Well: NFU #22-26 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR Ift] Ift] ]ft] [ft] IN Ift] Ift] Ift] Bearing Clear Dist MASD Sep Status F01 1N1 IN1 1Nl i 8520.80t1 8620.80t 7605.381 400.00 _2650.00 8164.93� 7561.4j7 1874.03 73 -14.85 31.831i 1735.56 19_0.5_5 _15_45.011PA 8720.80t 7705.38 7805.38 400.00 400.00 _-2650.00 8264.377660.36=1881.52 -2650.00 8363.82 7759.26j 1889.00 -1742.17 1749.48 31.50 _ 1738.12 191.12 31..17 1740.74 191.69 1547.00 -1549.05 PA PA 05.3 400.0 2650.00I 846267858.5i 19649)_-1756.80-3083 . 1743.42�1_92.26 6_8820.80t . PA 0 4v.0vj ovvi.00 9020.8of _ 8105.38 9120.80t v8205.38 9220.80t _ 8305.38 1 9320.80t 8405.38 9420.80t 8505.38 9520.80t 8605.38 (- 9620.80t1-8703.38 9765.42 SS SS SS SS wvv.vv _ 400.00 -LoDv.vv _ 2650.00 _ 630L. / 1 8662.15" � /.u4 _ 8055.93� -_ 19vs.98 _ _ 1911.47�_Y __ -1 /64.11. 30 50 W - 1771.431 30.17 1746.W _ 1748.96 192.82 1553.34 PAS_ S ' 193.381 ] 555.58 PASS 400.00 -2650.00Ei 2650.00� A 8761.60 8861.04E 8154.8_2 _ 8253 72{ 1918.95C 1926.4, -1778.74 - 1786.06 29.84 1751.82 �_ 193.93 1557.8_9 PASS _400.00�_ _ 29.51 _ 1754 73' 194.47� 1560.26E PASS 400 W -2650.00 I 8960.49; 8352.61 1933 93, -1793.371 29.181i 1757.71I 195.621 -_ 1562.691 PASS _ 400 00 -2650.06 _ --__ _ 9059.93 8451.50 1941 42' -1800.69: 28.861 1760.74, 195.551 1565.18' PASS W. 400.00�- -2650 00(- 9159 371 - 8-550 39' _ _ _ - 1948.90, _ 1808.00; 28.53 _ _ :_. 1763 831 196 09'v -. _ _ -- 1567.7_ PASS 400.00 400.00�-2650.00[- -2650 00 _ 9258 82� _ 9358 26 8649.28j- 1956.39 1815.32 _28.20� _ 1766.97 _196._62 _ 1570 36 PASS -1822263 27.88-17 00.18' 197.14� 1573.04E PASS �400.00 --2650 00[ i8748.181--_1963.88 9402.63E 8792.30j 1967.22� _=1825.90[i 27.74E- 1771.62 197.37 - 1574.25 PASS PO_SITIO_NAL UNCERTAINTY - Offset Wellbore: NFU #22-26 Slot Surface Uncertainty @1SD - Facility Surface Uncertainty @ 1 SD Offset Wellpath: NFU #22-26_Ver#4 _._...__ "0 --._ [orizontal �2.000ft -Vertical _ 1.000ft [orizontal 20.0(Vertical 3.000ft Ea a�B Cook Inlet Energy_ Inlet Energy Inlet, Alaska (Kenai Peninsula) Fork Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 18 of 53 i Fork # 14-26 (Plan) #14-26 Plan V14-26 Plan f p P__ BAKER Nuys HOLE & CASING SECTIONS - Offset Wellbore: NFU #22-26 Offset Wellpath: NFU #22-26 Ver#4 String/Diameter Start ] End MD Interval Start TVD End TVD Start N/S Start E/W _ [ft] [ft] -- [ft] IN -_ [ft]]ft] -�__ [ft]__.__. 12.25in Open Hole 20.80 2933.00 2912.20 —20.80 _ 2739.80� 0.43 _ _ 36.63 9.625in Casing Surface 20.80 2933.00 2912.20 20.80 2739.80 0.43 36.63 ---.. 8.75in Open Hole 2933.00 10365.99 7432.99 2739.80 9750.30 190.85 134.58 _ __ __..._-_ - -__— Tin Casing Production 20.80 10365.99� 10345.19 20.80 9750.301 0.43. 36.63 SURVEY PROGRAM - Offset Wellbore: NFU #22-26 Offset Wellpath: NFU #22-26 Ver#4 D Start MD End MPositional Uncertainty Model Log 1111 1 [ft-] _-_( ..__ _ _ _ 20.801 2933.00) aviTrak (Standard) 2933.00 10365.99OnTr�--ak (Standard)- - OFFSET WELLPATH MD REFERENCE - Offset Wellbore: NFU #22-26 Offset Wellpath: NFU #22-26_Ver#4 MD Reference: Miller 37 (RT) Offset TVD & local coordinates use Reference Wellpath settings -- _ (See WELLPATH DA TUM on page 1 of this report) Ellipse Start MD 20.80ft End N/S End E/W [ft] [ft] 190.85 -134.58 190.85 -134.58 621.93 -559.82 621.93 -559.82 Wellbore FU #22-26 FU #22-26 — Ea a0 Cook inlet Energy Cook Inlet Energy Alaska (Kenai Peninsula) Fork Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 19 of 53 of North Fork # 14-26 (Plan) _ ell NFU #14-26 Plan ellborei NFU#14-26 Plan BAKER NY6*IES CLEARANCE DATA - Offset Wellbore: NFU #14-25 Offset Wellpath: OnTRAK MWD<204-11700'> Facility: North Fork Unit (NAD27) Slot: North Fork #14-25 Well: NFU #14-25 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [ftl [ftl [ft] [ft] [ftl [ftl Bearing Clear Dist MASD Sep Status r- --- - _ - - - -- - -------- [�] - [ft] Iftl ..._ [ft] 0.00 --91.59E - 56.12�_ 110V321 `13.19) 97.13rPASS �V220.80t 220.80 OAO1 0 00 217.47 21i 54 _ _ 63.33 92.391 94.32� 56.13) 111.30 13.31 _ 97.99 PASS ---_ _ _ _ _ -__ __ v __. _�._ -- v 1 13.64 13.251 100.391 PASS 320.80f( 320.80� 0.00, 0.00 317.25( 317.27( 64.88 96.79i 56.17 116.57� ]3.46, 103.11(PASS 420.80t 420.80 0.00 0.00 _ 417.03�-_ 417.0.1, 66.44 _ 99.47 _ 56.26 119.6_8j 13.61 106.07' PASS 500.00 [ __ 506.00; 0.00(0.00 - -496.61E --- 496.55� 67.59�_ 101.66r 56 38, 122.13 13 75' 108.38, PASS 520.80tr 520.80(- 0.02j� -0.11 517.76 517.69( 67.73 102.26 _ 56.521 122.78 _13.80�_-108 98j PASS 620.80t� 620.72 0.57( 3.78 �618.27 618.17 67.54 104.57 58.281 127.39 14.11 _ 113.28 PASS - _ _ _ _ _ _ 720.80t[ 720.31; 1.90 ( 6702�� 107.12 61.46( 136.31�-14.701 121.61(PASS 920.80t 91 40 6.89 4�.65 817.17� 816.99' I O_9 63 _ 65_7I': _ 149.46j 15.35j 134104 PASS - _ _ 12 61 718.09 717.95 - 65.49 L_ t _ _ _ , _ 914.41; _914.18 63.80 112.20� 70.18r - 167 83r 16 06 _ 151.77 PASS 1020.80f 1014.377� _ 10.53 _v-6. 9 78(-1008.43 1008.14� 62.15 115.06 74.40� 192 01 r-16.79 _ 175.22 PASS 1120., 0 1109.93 _- _ 1 _ _[� _i _ �_78.20-- - 4.0 - t r 14.93-98.89i 1094.76 ]094.32 60.63 119.91 224.07� 17.49( 206.58! PASS 1220.80t 1203.81( 20.06r--132.91j 1176.07� 1175.24� 58.78� 127.56 81.54! 264.87� 18.24i 246.63(PASS', 1320.80t 12,95 77 _ 25.92 -171 73 1252 70 _ 1251 17 56.08 137.54 84 43 _ 313.93' 18 90'_ 295.02. PASS 1420.80t� 1385 54 32.49 215 27' ] 323 81 1321 27 - 52 81 149.02 _ 86.81 370 47_ 19 49(_ 350.98 PASS _ 1520480t� 1472 89j 39.76� 263 391 1389 52i__1385 711 49 581 _ 161.451 88.68j 433.80j 20.03�_ 413.77� PASS F 1620.80tr� 1557 57� i 47.69�_-315 96r 1450 91 j_ 1_445.63j�_ 46.56( 114.46r- 90.13� 503.0420.53 482 5 -PASS f1718.01 9 -433 88 - 1554 42i _ 1_545.9-7! _ 41.81( 1_99.37 92.14 656.63 21.36� 635.27 PASS ] 1720.80 1639 35� 56.28 372 84j� 1506 15 1499.30 43.98 187.27( 91.26 577.49 � 1820.80 ' 1718 O1 65.49 _� _ _ _ _ 21 36� 635 27 PASS 1920 80f 1793 33 _ 75.31 498 91 j _ 1596 31 j v 1586.28 39.90 - 210.63( 92 86r i - 37.97 1805 91 _ 77.05 510 4 6 -1592.56_ 3 739 98 21 70 718 28 PASS ( 1602 87, 1592 56 - 39 58 -� 212 46 92.W_,971 754.67 21. 66 - 732.92 PASS 2020.80t( 1866 351 85.501 - -566 46� 1633.341 1621 72 38 07 221.20 93.45j, 826.14 21.94 804.21 PASS -- -. -- 2120.80t; 1939.32, 95.711 634.67s 1665.93( 1652.74' 36.33j 231.04( 93.93 913.27; 22 12(- 891.15 PASS 2220.80 2012.29 105.91 701.69' 1696.10 1681.28 34.60 240.65 94.33i 1001.32' 22.301 979.02 PASS -- fi-- -- - -- 2320.80ti 208556� 116.12 769 30. 1725.90 1709 32j _ 32 79 250 61 94.67 1090 171 22.501 1067.67 PASS 2420.80t _ 2158 23�� 126 33E -836 91 1 - 1754.44 1736 02 31.02 260 51 94.96 1179.69( 22.701 1156.99 PASS r 2520.80t 2231.20�-136.531 904 52( 1781.46 1761 17( 29 32r� 270.23 95.21 1269.83 4 22 90r 1246.93, PASS �- 2620.80t� 2304.17� 146.74, ( _i.___ (- -972.13 ]807.06' 1784.89 27.70! 279.75: 95.43 1360.52,E 23.09 1337.43 PASS 4(--1039.74i� 1831.29 1807.21 4 L-26.17 289V01v 9562 1451.72 23.27�1428.45 PASS Ea oeB Cook Inlet Energy_ Inlet Energy Inlet, Alaska (Kenai Peninsula) Fork Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 20 of 53 i Fork # 14-26 (Plan) #14-26 Plan f14-26 Plan Few 0 a"-'- a BAKER NYGNES CLEARANCE DATA - Offset Wellbore: NFU #14-25 Offset Wellpath: OnTRAK MWD<204-11700'> Facility: North Fork Unit (NAD27) Slot: North Fork #14-25 Well: NFU #14-25 Threshold Value--0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [ft] [ft] [ft] [ft] [ft] [ft] Bearing Clear Dist MASD Sep Status 820.80f(- 2450.-1 10.107.351853.63 1827.71 920.80f 1_ D20.80f 2523.07 2596604 _ _ 177.35-1174.97 187_4.83 . 187.56-1242.58 1895.09 1847.05 1865.45 G' 120.80 1 2669.01 fi 197.7 --___ 6 -1310.19E 1914.87, -. _ 1883.33i 220.80 f , 320.80f i 2741 98 2814 95� _ 207.97-1377.80i 1933.71 218.18�--1445.41 1951.71; 228.38-1513.021 1968.92� 1900.30 1916.4311 1931.78 $20.80tj 2887.92 24.75 297.81 0 95 79f i 543.41 23.45� 1519.961 PASS 23.40 306.37 95 93 1635 56 23 63r 1611 93r ASS 22.10 314.74 96 07i 1728.12 _ 23 80! 1704 31 j PASS 20.83 323.10�� 96.18' 1821.05� 23.99! 1797.07; PASS 19.61 331.23 96.29; 1914 34 24.171 1890.17 PASS 18 43i _� 17.31 339.13 _ 346.81� 96 39 96.48E 2007.94 2101.84 24.11 1983.83 PASS 24 13 2077 71i PASS 78_7j 227599 3520.80 f 3620.80t 2960 89 _- 3033 86 238.59� -1580 63 _ 448.24 248.79�! _ 1985.38 2001.13 1946.41 16.23 _ .. - 1960.35 15.20� _ 354.28 361.54 96.56 2196.02 24.17 2171.86 PASS {�- 96.63 2290.47 24.21 2266.25 PASS 3720.80t 720.80f 3215026 . . . . 2 6 51 08 2052.091 2005.041 ]1.385.61 4020.3325 70-20140. 88 93.94f� .71 29087.8� 036..2840.94120.3398 4220.80f, 3471.68 310.02-2053.91 2110.02 2055.59 7.89' 413.81 4320.80 f ; 3544.65 320.23-2121.52, 2131.85 2074.541 - - - --_ __ _ _ _ �_ _ -.-4. _ 6 37� _ 42.54 4347.45 j 3564 09I 322.95 -2139 541- 2137.601 2079 53' 5 97427.37 4420.80tI 3618.57[2151. _ 330.28 _ --.02__ -2188�11� 15j 2091.27 51 434.06 r-4-526.96-tF 3695.79 339.76(-2250.91 -2105.73. -..� � 442.39 C 2167.88� 3.83 4620.80f 3716.23348.62 -2309 _64 21 MJ8 2121 66: _ 2.49 451.70 C 4720 80f 3859 67; 356.85 2364 122206.49i 2138 91- 1 011 461 931 �4820 80t 3945 88 _ 364.41 -2414 21 2225.732155 33 -0 45 _ 471.84� 4920 80 f 4034 62! _ 371.29 -2459 76� - 2246.211 2172.73 -2 04� i 482.541 5020.80fi1 4125.651 377.46; 2500.67 2267.84,2190.99 -3.77i 494.00� 5120.80f 4218.72 382.91 -2536 80 2304.8& 2222 11' -6 79 _ 513.86 5220.80f 4313 57; 387.63 2568 07; 2350.26 _ 2260 l0i 10 53j _ 538-.40' 5320.80 f i 4409 95 391.61 2594 39j - 2410.09' W_ 2310.10 - -15 53' 570.88 5420 80f� 4507 59�- 394.82 -2615 692476 471 _ 23655.53 21.24666.94 5520.80f;r 4606231�397.27t 263190; 254177j 2420.60i-26.81642.53 5620.80t 4705 59 398.94 2642 99 8�1 2483.69`: -33.58 684.17. w-, 96.82 2575.111 24.481 2550.631 PASS _ 96.88 2670.33� _ 24 60 2645.7- 31 PASS - 96.93! _ 2765.70 24.75j 2740.95' PASS 96.98 �97,03i 2861.1T 24.94 2836.23 PASS 2956.71j 25.131 2931.581 PASS 97.04 2982.18 25.18� 2957.00� PASS 97.071 3051.92 25.30� 3026.621 PASS _ 97.11 3145 64� _ 25 44 3120.r PAS 19S 97.15 3237 65, 25.61 3212.04, PASS 97.18 3327 79 25 781 3302.001 PASS 97.21 3415 91 25.96[ 3389.95 PASS 97.23 _ 3501.88 26.14 3475.74, PASS 97.26 3585.56 26.33j 3559.23' PASS 97.28 3666.7 26.6T 3640 06 PASS 97.30 3745 061 27.081 .t 3717 99i PASS 97.33l 38 20 22J 27 60[-_ PASS 97.36 _ 389] 90 28 18' 3863 72(PASS 97.38 3959.97i 28.75 3931.22! PASS 97.41 4024.16' 29.42: 3994.75; PASS ] Ea Ce13 Clearance Report Fe�'r Cook Inlet EnergyNFU#14-26 Ver#1 BAKER Closest Approach Page 21 of 53 HUGHES Operator Cook Inlet Energy Slot North Fork # 14-26 (Plan) Area lCook Inlet, Alaska na (Kei Peninsula) Well - NFU #4-26 Plan _ Field North Fork I_ Wellbore _1 NFU#14-26 Plan _rk Facility North Fork Unit (NAD27) --- CLEARANCE DATA - Onset Wellbore: NFU #14-25 Offset Wellpath: OnTRAK MWD<204-11700'> Facility: North Fork Unit (NAD27) Slot: North Fork #14-25 Well: NFU #14-25 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD [ftl [ftl (ftl Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ftl 110 [ftl [ftl [ftl Bearing Clear Dist MASD Sep Status 5720.80t� 4805.40 (-2648.92 �- _ - ___) _ _2694.41� _ --2650.00 _ [°1 _ lftl 725.74r 97.43� 4084.30� _ [ftl [ftl 3_0.081 4054.22 PASS 5785.42 4870.00_399.84400.462736.71 - 5820.80t 4905.38 400.00[-2650.00 _ _2547.23 __40.5144� _ 2582.45 -.36 748.851 97.45 4120.98 2599.81 46.26 .31 760 30.411 4090.571 PASS 30.541 4110.111 PASS _-2757.60 5920.80tj 5005.38 400T6 2650.00 2833.85 - - _'97.46 --4140.65 2663.07 5331� 802.30! 97.483 4196.46 31.091 4165.371 PASS 6020 80t;�5105.38 400.00+ -2650 00;- 2906�38 6120 80t� 5205.38 400.001 2650.00 2998.28 272320s� _68 83 -- 893.09 _ 97 54 4308.43� 2799.28 32.00 422.0.75 PASS 4276.43 PASS 6220 80t 5305.38 400.00-2650.00 _ 3098.69�_ 2882.67 77 63 948.32� 97.56` 4364.13 32.321 4331.81� PASS 6320 80t 5405 38 _ 400.00 2650.00 _ 3207.44 - "- -�- _ -� 2973.31 -87 15 1007.63 _ 97.591 4419.34 32.6G 438_6.68 PASS 642080tr550538! 400.00 265000t 3301.32i 3051.74� -95.17 1058.61� 97.61� 4474.30 32.97� 4441.33 PASS 6520 80 5605 38 400.00-2650,00 3406.95 _ 3140.21 _ 1 _�.._ _W�� -- i-- - �� t _ _ _ 104 00 __ 1115.65. 97 62 4528.93, 33 36` 4495.57 PASS r 6620 80t 5705.38� 400.00 2650.00 3497.12 3215.89 111 32 1164.12 97.64' 4583.29 33 72 4549.58 PASS - - -- 672080t5805.38�400.00r-2650.00 _ 3709.20 3303.47-119.48 1219.95 97.65 _4_637.45�_ 34 17j4603.28�PASS 6820.80 5905.38 t. _ 3394.43-128.00 _ 1277.37 97.66[ 4691.26 34.67( 4656.59�PASS 6920.80tl 6005.38' 400.00.-2650.00 3809.75? 3479.43 _ w �� -135.50; 1330.56 97 66 4744 68) 35 17�4709.52 PASS 7020 80t; 6105 38, 400.00 -2_650 00 3920.32 3573.20 -143 79 1388.57 97.67 4797 i � 7120 80tj 6205 381 400.00 2650 00' 4011.41 _ 3650 63 150 74 �1436.03. 97 68, _ 4850.33 36.23r 4814.10 PASS 722_0_80t1 6305.38 - 400.001 2650 00, 4074.62; 3704.30 -155 96 1469.011 97 &1 4903.16 36.58�-4866.58 PASS 7320 80tj 6405 38J- 400.00� 2650.00T_ 4136.82� 3756.94 _-161.21 _1501.72� 97.70 4956.41 36.94 4919.47 PASS 7420.80fij 6505.38l 400.00� 2650001 4225.76� 3832.13�-168.69� 1548.64(- 97.715009.81 37.48� 4972.33, PASS 7620.80t 6705.383� 400.00(-2650 OOj - 43217 27( 3909.15 -176 69 1597.39' 97.732j 5067.79 38.09 5025.70 PASS 1 �t(� - _ � 79(a ` 5079.711 PASS 7720.80t _ 6805 38 _ 400.00� 2650 00 4390 52[ 3970.36 _ -183 58 _ 1637.04` 97 75� 5172.68f 38 58� 5134.09�PASS 7820.80t� 6905 38�_ 400.00 -2650 00� - 4484 48� 4049.06 _ -192 08 1687.66� 97 77(a 5227 27( 39.23 � 5188.05 +PASS 2650.00. 4531.31 j 4088.19 196.39� 1713.03' .21 - v_ - 7920.80t - 7005.38 400.00` . i 97.78! 5282.21r 39.581 5242.6Y PASS 8020.80t, 7105.38 400.00'-2650.00 4580.18 4128.83' -200.94 1739.77' 97.80' 5337.71 39.9'7 5297.73 PASS 8120.80t�- 7205.38! 400.00 -2650 OOi �4688.18i 4218.521 -210 99 1799.09 97 82 5393.43 40.76j 5352.67 PASS 8220 80t' 7305.38E 400.00 -2650 00 8074.99( 7377 74� -365 40� 2712 92 98.12 _ 5417.7- 51.83� 5365.92 PASS r 8320 80ti 74 55.38 400.00 -2650 00 8149.79( i 7452 51 _ _ _ - _ _ _ -366 93� 2711.85� 98.14 - 5416 63r 52 08w 5364.55� PASS 8420.80t� 7505.38j� 400.00 2650.00� - 8247.M5 _ 7550.05�-368.351 - 2710.77' 98.16 5415 74) 52 38� 5363.36 PASS 8520.80t 7605.38' 400_.00-2650.00 8318.25 7620.94-369_.4_8_�27-10.1798.17 5415.-14u' 52w.6_.�4 5362.50, PASS _ €a M _ Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 22 of 53 ook Inlet Energy _ - Slot _ North Fork # 14-26 ook Inlet, Alaska (Kenai Peninsula) - Well �1NFU #14-26 Plan orth Fork Wellbore NFU#14-26 Plan or--- tor--k -Uni_...-..t- (- NAD-- 27)---2-76 ---- --- --h F BAKER NY61#S CLEARANCE DATA - Offset Wellbore: NFU #14-25 Offset Wellpath: OnTRAK MWD<204 - 117001> Facility: North Fork Unit (NAD27) Slot: North Fork #14-25 Well: NFU #14-25 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ftl [ftl [ft] [ft] [ft] [ft] [ft] [ft] Bearing Clear Dist MASD Sep Status 101 -- [ftl Iftl [ft] 8620.80jr-7705.38�_400.001-2650.00�� 8377.39T 7680.08-369.94�-2710.15�- 98.17�5415.22[ 52.89 5362.33 PASS + 8720.80t) 7805.38 400.00-2650.00 8471.43 7774.12 -370 23 _ 2710.64 98.18 5415 83 53.22 5362.61 PASS - _ 8820.80f 7905.38 400.00 _-2650.00 8537.65 __ 7840.33-370.56J- 2711.2 98.18 - 5416.70 53.50 5363.2SS __. _ _ _ __ 8920.80f 8005.38 400.00; 2650.00 8601.68 7904.35 370.49� 2712.28 98.18; 541-Ei- 53.77 5364.52; PASS f 9020.80 8205.38 400.00 -2650 00, _ 8706.13, 8008.79-370.181 2714.19 98.17: 5420.06 54.15 5365.91 PASS .___..�r__-- -._ ._. ___:� _ _ t 400.00�-2650.00I 8780.82[- 8083.451 --369.35, 2715 811 98.16[_ 5422.06 54 46 5367 60� PASS r 9220.80t 8365 38 400.00 2650 00 _ 8863.97 _ 8166.55f -367 55 _ 2718.10 98.14�_ 5424.47 54 79 5369.68� PASS 9320.80t _ 8405 38 40011.00 -2650 00 _ 8999.05[ 8301.55 -364 62� 2721.80-98.10� 5426.94 55.26 5371.69C PASS - __ _.�__ 9420.80t� 8505.38C 400.00j-2650.00j 9229.30 8531.70 359.81 2724.05 98 O5 5427.57 55 94 5371.63 PASS 9520 80t' 8605.38 400.00i-2650.00` 9331.27 8633 G7,-359.09 2723.63' 98 04� 5427 0 56.30 5370J5 PASS 9620 80t8705.38400.001 2650 00l _ 946_5.22 8767.61 _ 359.06 2722.51 98.04�_ 5426.22) 5_6.74F5369.48 PASS 9720.80t-8805.38 400.00 2650 6-( 9615. 66 8918'02-358.75 7720.25 98.04[ 5424.75 57.24 5367.51 PASS 9765.42 8850.00 400.00-2650.00[ 9655.81� 8958.16--357.94 2719.54 - 98.04� 5423.84 57.40[-5366.44 PASS POSITIONAL UNCERTAINTY - Offset Wellbore: NFU #14-25 Offset Wellpath: OnTRAK MWD<204 - 117001> Slot Surface Uncertainty @1SD Horizontal 22 000ft Vertical 11.000ft Facility Surface Uncertainty @1SD Horizontal 20 OOOft ;Vertical �3.000ft HOLE & CASING SECTIONS -Offset Wellbore: NFU #14-25 Offset Wellpath: OnTRAK MWD<204 - 11700'> String/Diameter Start MD End MD Interval Start TVD End TVD Start N/S Start E/W End N/S End E/W [it] [ft] [ft] [it] I [ft] [ft] [it] [ft] r [ft] - __.. - _..___ I - �.. 16in Conductor 0.00 178.00 178.00-20..70[- 157.28 37.48 55.82 37.8556.38 10 75in Casing Surface 0.00 2977.00 2977.00 -20.70 2760.84 __ 37.48 55.82 1.66 296.54 7 625in Casing Intermediate O.00i 5297.00 5297.00 20.70 4707.06r 37.48 55.82 -61.34 676.69 Ea ceB Clearance Report _ Cook Inlet NFU#14-26 Ver#1 Energy Closest Approach Page 23 of 53 BAKER NY6HES 10perator Area IF 1 _ CATION f Cook Inlet Energy�� _ __y _ Slot North Fork # 14-26 (Plan) f Cook Inlet, Alaska (Kenai Peninsula) Well NFU #14-26 Plan North Fork - �...-______—_�.___.. _..._.-....—Wellbore �FU#14-26 Plan Facility North Fork------ WELLPATH COMPOSITION -Offset Wellbore: NFU #14-25 Offset Wellpath: OnTRAK MWD<204 - 11700'> _ _W.._ ---.. ___—_-______...--------- Start M_D End MD Positional Uncertainty Model Log Name/Comment Wellbore IN _ [ft] 0.00 5249.00 OnTrak (Standard) OnTRAK MWD<204-2992'> NFU #1_ _ 2------ 5249.00 OnTrak_(Standard)_ _ _ OnT_RAK MWD<3016_- 5306'> _ NFU #14-25�_ 5249 00 , 11700.00 1 OnTrak (Standard) OnTRAK MWD<5314 - 117005 i NFU #14-25 OFFSET WELLPATH MD REFERENCE - Offset Wellbore: NFU #14-25 Offset Wellpath: OnTRAK MWD<204 - 117001> MD Reference: Glacier #1 (RKB) Offset TVD & local coordinates use Reference Wellpath settings (See WELLPA TH DATUM on page I of this report) Ellipse Start MD n_nnf* Ea W8 Cook Inlet Energy_ rator Cook Inlet Energy Cook Inlet, Alaska (Kenai Peninsula) d North Fork lity lNorth Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 24 of 53 Slot W-(North Fork # 14-26 ell- NFU_#14-26 Plan Wellbore NFU#14-26 Plan Fe P W-- MKER NuGNEs CLEARANCE DATA - Offset Wellbore: NF #22-35 Offset Wellpath: NaviTrakMWD<181-2945'>OnTrakMWD<3044-107001> Facility: North Fork Unit (NAD27) Slot: North Fork #22-35 Well: NF #22-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR IN Ift] Ift] Ift] Ift] Ift] Ift] Iftl Bearing Clear Dist MASD Sep Status .�. _ _�_----_-_---. _._.______ M __ In] Iftl Iftl _ 20.80OAO _ 0.00� 20.25jY- 20.80 _-_ OA8 _- 120.011 _89.77 _ 120.02( 6.91 _113.10( PASS I 120.80t 120.80 0.00 0.00 120.60 121.15 0.95 119.86 89.55 119.87 12.99 106.88 PASS F'..____ _ _ 6.00 ^ __.__ _ m _ - _ -_ �- - 220.80t 226.80 0.00 0.00 221.071 221.61 _ 2.24 119, 88.931� 119.421 13.05 106 37 PASS -- _..-I -.�- --- -. �- _ - _ _ j 320.80t 320.80 0.00 0.00; 321.14j 321.67( - 3.34 118.54; 88.39, 118.59 13.16 105.43I PASS 420.80t 420,80 _ 0.00 _ _ 0.00 421.08; 421.60 _ 4.58 117.8 _87.77 - 117.96 13.31 _ 104.65 PASS 500 00 - 500.00 0 00 - 0 00( 500.351 500 86( 5.571 _ 117 251� 87.28 1 17 39, - 13.45 103.0 PASS 514 75tF-5 514 75 0 01 0 06� 515.21� 515 72 - 5472 _ 117.141 87.21 117341-13.48 _ 103.851 PASS 518.12t18.12 _ 0.01 _ -0.08( 518.47 _ 518.9� 5.75 117.11 _ 87.20� 117.34� 13.49 103.85 PASS 620 80t _ 620,7Z 0,57I 0.1 1 521.14 521.651 5.77 117.09[ 87.19( 117.35� 13.49( 103.85 PASS _ _ 520 80t 520.80� 0 02 3 78 620.08 620.58 5.55 116.71 87.63 120 59� 13.93 106.66 PASS 720.80t 720.31 j 1.90i -12 61 j 719.86( 720 35i 3.441- 1 16 92�_ 89.32� �129.54' 14_92�_ 114. 221 PASS ___ _ _ _ r-820.80t 8l9 29( 4.01 - -26 581 825.17 825 5--6(-0.04 114 41 91.65 - 141.18 15.82 125.36 PASS II v.w r 920.80t _ 917.40, _ 6.89 _ _ _ -- �- _ -45 65( 927.14 _ 927.20( -5.50 108 46 _ 94.60� _ 154.92T_ 16.94-137.98 PASS 1020.80t 1014.37( 10.53 69.78! 1026.43 1025.771 -14.67 101.06 98.39 ] 73.07` ] 7.71 ( 155.367 PASS 1120 80t 1109.93 14.93 -98 89_ 1126.40 1124.17 -29.33 91.30 103.10 195.78 18.46 177.32 PASS _ 1220.80ti 1203.81 - 20 06' 132 91� 1223.77, 1219 00 47.55 78.921 107.70 222 87'4 19.34 _ 203 53, PASS _ 1320 80t 1295.77 25 92 171 73 _ 1315.47 1 67.71i_ _ 66 46 _ 111.461256 21 _ _ _ 1307 58i�j 20 31( 235.89� PASS _ 1420 80t 1385.54(i_ 32.491 -215 27(i1408.19( ]396.46 90.36 - 52 90�- 114 61 295 17 21.41 273.77 PASS 1620.80 1472 89C 39,76=263.39( 1502.46� 1485 95� 115.36 36.97� -- �V `u t! 117.31 338 30 22 73 315 57 PASS 0 80t 1557.5 �47 69 315.96 I S_95.60' 1573.3��-141.77; _ 18 58, 119.52, 384.791 24 29 360 50( PASS - r-- - _ _. _. _ 1720 80t 1639 351� 56 281 372.84�-1683.04 1654.45j 168.25�-0.551- 121 09i --435.02 26 02( 409 00 PASS 1820 80t I _ 1718 Ol � 65 49 _ � -433 88 � 1764 46 - 1729 00 194.95 __Y -v� 1--- 19.51(-122.15i 489.55 27.87 461.68 PASS 1920 80t 1793 33 _ 75 31 - 498 91�-- _ 1842 87; _ 1799 57� - 223.05 -38.88( - -- 122.97, - -- 548.34 _ _ 29 92 -_.. 518.42 PASS 1937.97 1805.91( 77 O5; 510.46 1856.12! 1811.36! -228,051 42.28� 123 09� 558.85( 30291 528.56( PASS 2020 80t 1866.35 - _ ... 85.50. 566.46' 1928.06 I874.71 256.02, 61.76 124.09 609 46' 32.33 577.13 PASS 2120 80ti 1939.32 95 711 -634.07 2017.461 1952.08- -292.10, -88.31' - 125.40; 669.641 35.12 634.52 _ PASS 2220 80t A 2012.241 105.911v701.69 2098.98(- 2021 52( 325.94(- -114.36 126.33; 729 071 37 93( 691.13j PASS 2320 80t _ 2085.26 ] 16.12 --836.91 769.36 2173.45( 2083 581_ - 139.23 127.00 788 96� 40 7_31- 748.23 PASS 2420 80t 2158.23, 126.33 2244.901 __ 2141 96i - _358.7_21 -391.87i -163.69, 127.59 849.72( 43.58� 806.14` PASS 2520 80t 2231.20 136.53' -904.52 2318.67 2201.54 -427.16 -189.18 128.24 911.20 46.65 864.55 PASS Ed oa Cook Inlet Energy_ Operator Kook Inlet Energy Area Cook Inlet, Alaska(Kenai Peninsula Fork Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 25 of 53 Slot INorth Fork # 14-26(Plan) Well NFU #14-26 Plan Wellbore NFU#14-26 Plan WAS P lk- a BAKER NY6NE5 CLEARANCE DATA - Offset Wellbore: NF #22-35 Offset Wellpath: NaviTrakMWD<181-2945'>OnTrakMWD<3044-107001> Facility: North Fork Unit (NAD27) Slot: North Fork #22-35 Well: NF #22-35 Threshold Value--0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [ftl ]ft] [ft] IN [ftl IN Bearing Clear Dist MASD Sep Status r . t 2304.17 _ 146.74-972.13 _ 2397.28 _ 2264.76 465.02� -216.46� 128.99� 973.06�- 49.99 923.07j PASS I _2720.80t 2377 14 156.94 _-1039.741 2479.98 2331.17 504 86-245.48 129 80 1034.87 _ 53.56 _ 981.31f PASS �2820.80t 2450 11�--167.15 --1107.35 - 2558.775 _ 2394.28 542.72� 273.57� 41 1096 46 _ 57 04 _ 1039.42I PASS 2920.80t1 2523.07 177.35-1174.97 2632.30 2453.19� 578.22� 299.64' 130.80; 1158.43 66- - 1098.10 PASS 3020.80g 2596.04, 187.56-1242.58 2710.80 2516.09-616.11-327.38 131.29 1220.60 63.86 1156.74 PASS 3120 80 2 - - t 669 01 197.76 -1310 19� 2799.27� - 2586 86 658.69 -359 07, 132.00, 1282 53j 67.8 6j1214.67 PASS 3220 80t 2741 98 207.97-1377.80j 2877.98j _ 2649.47 696.66� 387.94 132.42 1344.15 71.49 1272.651 PASS ----- ---- - . - - 3320 80t 2814.95 218.18=1445.41 _ 2958.07 2712.84 735 60f 417.65 132.86 1405.84 74.78 1331.06` PASS I 3420 80tj 2887.92 228.381 1513.021 3039.51 2777.51 774.87� 447.81 133.28 1467.44 77.72 1389.72 PASS 4 352080t 2960.89 238 59 1580 63' 3126.02 _ 2946.56 -815.97' -479 84 133.77' 1528 70 80.89 1447.81 PASS 3620 80 i 3033 86 248.79i-1648.241_ 3203.00�--2908.181-852.33-508.23j 134.01 1589.941 83.72' 1506.221 PASS _._ _ ' 3720 80t, 3106.83 259.00 1715.86 3278 241 2968 57-887.80-535.73 13418 1651.35 86.53 1564.82 PASS - 1 ----- §7-- __ _ _ 3820 80fj 3179.80 269.20 1783.47 3335.231 3014 27j--914.97 556.28;_ 133 98 _ 1713.3- _ 88.67 1624.70i PASS 4020 80t 3325 74 289.661-1918.69 3475.57' 3126.32 -- 983.37'--605.86r 134.12r 1839.50I 94.14 1745.37: PASS 1685 2S ------ PASS .__�'�_ 1 1 _ 1---_ - !-- 96.261 1806 94i I_ t) 310 02 2053.91 3589 68 3217 20 - 1040.10 _ 645.15 133.78 1967 801 PASS 4120 80t 3398 71 299.82 1986.30 3529 96 3169 72 1010.14' 624 77. 133.89 1903 1 4220 80 3471 68; 1 � __� � �� I 98 64� _ 1869.16 PASS_ 4320.80tr 3544.65 320.23[-2121.52C- 3661.1 if _ 3274.06�_ ]076.03i-669.20� _ 133.87� 2032 73' 101 53 _� _ __ __ I 1931.20 PASS 4347 45 3564.09 322.95-2139.54� 3679.81 3288.981 1085.43; 675 45-( 133.89�� 2050.07 102.29 1947.78 PASS 4420 80t 3618.57 330.28`-2188.11 3731.68, 3330.39, -11 ll.48i -692 66' 133.95` 2097.16 104.37� 1992.7_9 PASS - -- ! .R� i 4520 80t� 3695 79 339 76 2250.91 , 3804.721 3388 86 1148 121~ 716.601 1341 2j 2159.20 107.23�2051 97� PASS _ 4620 80t� 3776 23 348 62 2309 64 3897.41 3463.2 _ l 194 471 746 77134 642218.48 110.861 _ 2107 62� PASS 4720 80t 3859.67 356.85 2364 12 4013 98I- 3556.04I _ 1252 501 _ 786 91 - 135 58 2273 71T 115 471 2158 24 PASS r 1 .__ 4820.80t; 3945.88,� 364.Tfl 2414.21i - 4097.42( 3622.55-1293.51;-816.1711 136.05( 2325.29j 118.62; 2206.67; PASS 1- _ -�---__..._� 2252.75 PASS _ 4920 80t' 4034 62 371.29 2459 76 4173 99 3683 87 1331.05 842 52'' 136.47 2374 13 121 38: 5020 80fi 4125 65 377.46i 2500 67 4255.90 3749 58 1371.20 870 43 _ 137 01 -_ 2420 l0i 124 27i 2295.83' PASS 5120 80ti-4218 721 382.91�-2536.80 _ 4346.371 3821.9_31_--1415.68 901 58, _ 137.721 2463 001 127.46 - 2335.53, PASS_ _ 5220 86f 4313 57i� 387.631 2568.0p 4449.171 3904.031 y--1465.99j 937 57 138 661 2502 441_ 131.101 2371.34 PASS - .... 5320.80t, 4409.95 391.611-2594.391 4546.221 3981.271-1513.311-972.4Y 139.59! 2538.36 134.42( 2403.94! PASS 5420.80t4507.59 394.82-2615.69 4630.38 4048,34-1554.14-1002.72 140.39: 2571.19, 137.12 2434.08 PASS €a CeB Cook Inlet Energy_ ;Operator Cook Inlet Energy Area (Cook Inlet, Alaska (Kenai Peninsula) Field 1North Fork ;Facility 'North Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 26 of 53 Dt jNorth Fork # 14-26 (Plan) ell INFU #14-26 Plan ellbore INFU#14-26 Plan BAKER MYGNES CLEARANCE DATA - Offset Wellbore: NF #22-35 Offset Wellpath: NaviTrakMWD<181-2945'>OuTrakMWD<3044-107001> Facility: North Fork Unit (NAD27) Slot: North Fork #22-35 Well: NF #22-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR ltt] IN lftl IN IN IN ]ft] lft] Bearing Clear Dist MASD Sep Status -- -- II ---- lft] [ft] IN 5520 80t 4606.23� 397.27I-_-- 90�-_ 4704. 4107 231-1589.861 -1028 89; 141.111 2601 41, 139.27 2462.14' PASS 5620 80j r 4705 591 398 94; 2642 99� 4804.381 4187 401 _-1638.421 1064 65 142 241 2628.781 F_ 142.401 2486.381 PASS _.... _ i - 2 5720 80t� 4805 40� 399.84� 2648.92� _- 4885.85) 4252 19 1677.89 1094 35 143.20i 2653 24 144 68i - 2508.56 PASS _ ._ __ _ _. 5785.42 4870.00� 400.00� 2650.001 4929.S11 428675-1699.18;-1110.431 143.74j 2667.78 145.73i 2522.04i, PASS 5920 80t�- 5005 38 400.00� 2650 OOr_ 5019,79�� 4358 08i 1743.63 1143 0 144.90! 2698.89` 146.23i 2529.39 PASS 5820 80 f 4905 38 400.00 2650 00 4951.91 4304 46 r _r r _ - - +64 03 -._ G- -.-_1 +_ i 14775, -2551 141 PASS ,r- - �_--_ [_ _ 21 1828.68, _- 1205 73; 147.061 2748 99 - _ _ _ _ (723.411_149 63[ 2573 841 PASS t, i - _._r- �..- 6120 80 5205.38+ 400.00 2650 00 51192.950 4495 42 1782.60 1171 82' 145.89 2_ 152.021 2596.97� PASS -_ _i 1 _ 1 2619.35' PASS 6220 80 5305.38. 400.00� 2650.00) 5308.95 4587.81 1884.40 1248.35i 148.47 2774.53 155.18 632080f'_ 5405.3&, 400.00 2650.00 5374.85 4640.121 1916.08; 1272.88 149.27' 2801.12 156.31, 2644.81' PASS -- - - _._. v _ ___.. 6420 80f l!; 5505 38! _ 400.00 2650 00T_ 5442.24� 4693.32{ _ 1948.84! _-1298 15; 150.08": 2829.14 157.45; _ 2671.69j PASS fiF-_ _ i - �_ .._._ -'- �_ -1 -- _ _ 2699 44` PASS 6520 80 5605.38; 400.00 2650 00 5521.63 4755.82 1987.68� 1327 97 151 03 2858 4- Y 158 98 6620 80j - 5705.38j-400.00� 2650.00 5604.33� 4821.11�- 2027.93j 1358 89; _ 152 001 2888 56 160 56; 2727 99 PASS - - 6720 80tj 5805.38i 400.00 2650.00� 5687.39 - - 4886.93� 2068.23� 1389.59 152.951 2919.64 162.07�i 2757.58 PASS 6820 80j 5905 38; 400.00`.-2650.00; 57$1.81 4962 24; 2113.55-1424.06' 154.00' _ 2951.34 163 91 2787.42 PASS -- _ __ 2 - 7 - _ _ _ _ _ _ 6920 80j; 6005 38; 400.00� 2650.00 5861.12i 5025 53 2151.41; -1453 4 154 87 2983.63'-165 14! 2818.50 PASS - - 7020 80j�` 6-105 38 400.00; -2650 00 _ 5908.691 5063.341 _ 2174.39; -1470 60 155.391 _ 3017 32 165 15 2852.17 PASS 7120 80f -_ 6205 38 400.00�_-2650.00j 5966.25; 5109.0812202.691 1491.21 156 00 3052 651 165.48i 2887.17 PASS 7220.80j ! 6305 38 400.00_ -2650.00j 6050.871 5176.57� --2244.21� 1520 891 156.88 3088.84j 166.73i 2922.11 PASS - - _ 7320 80t. 6405.38 400.00 -2650 00 6117.54 5229 66; 2277.04 . -1544 331 157 56 3125 92 167.28 2958.64 PASS 7420 80f 6505 38i 400.00` 2650.001 6207;83iA 5301 30r 2321.66 1576 39, 158 47 3163 831 168 63i 2995.20 AS PS �- 7520 80t 6605 38(_ 400.00j 2650.001 _ 636291.56� 5368 03� - 2362.721-1605.961 159.30' 3202.14 169.69; 3032.45` PASS 7620 80t 6705.38; 400.0065 1 20.00' 85.50I 5443 151- 2408.61 1638 72 160.201 3241.0211 171.051 _ 3669.97, PASS 772080f�� 6805.38! 400.00+-2650.00; 6461.401 5504.051 2445.41! 1665.15' 160.91 3280.20j 171.75 3108.45 PASS 7820 80t- 6905.38; 400.00 -2650 00` 6523.49 5553 37' 2475.88 -1687 38 161.49' 3320.43 171.96 3148.46; PASS - - _ - 7920 7005 38 400.00I 2650 00; 6611.84j 5623 34! 2519.32� 1719 36' 162.32, 3361 34, 173.031 3188 31 PASS 8020 SOtj 7105 3& 400.001-2650.00; 6674.66j 5673 12 2550.27 1741 96! 162 89 3402.94 173 21 3229.73; PASS - -- 26 8120 80t 7205 38 400.00' 50.00 6747.661 5730 94`-2586.48 -- 47761.93 163.55 3445.45 173.701 3271.75 PASS 73 _. 8220.80t 05.38 400.00-2650.00; 6845.06E 5808.40; 2634.64, 1802.10i 164.39j 3488.40; 174.94: 3313.46 PASS 8320 80f 7405.38 400.00-2650.06 6964.28 5903.96 2692.59-1843.60 165.39; 3531.10 176.81 3354.29 PASS Ea ab _ Cook Inlet Energy_ Cook Inlet Energy Cook Inlet, Alaska (Kenai North Fork North Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 27 of 53 i Fork # 14-26 (Plan) #-IZ 6 Plan v 114-26 Plan FA BAKER NYGHES CLEARANCE DATA - Offset Wellbore: NF #22-35 Offset Wellpath: NaviTrakMWD<181-2945'>OnTrakMWD<3044-107001> Facility: North Fork Unit (NAD27) Slot: North Fork #22-35 Well: NF #22-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR Ift] Ift] Ift] lftl (ftl IN Ift] Iftl Bearing Clear Dist MASD Sep Status 7505.3 8720.80tj 7805.381 400.001 -265 8820.80t' 7905.38 400.00 -265--- 8920 80t1 F 8005.381 400.00 - -265 9020 80f 8105.38r 400.00 -265 9120.80t 8205 381 400.00 265 9220.80f 8305 38! 400.00 _ -2651 9320.80fi 8405.38 400.001 -265 9420 80t� 8505.38i 400.00[ -265i 9520.80tj 8605.38 _ 400.00� -2651 9620 80 f ; 8705�38 (- 9720.80t 8805.381 9765.42 8850.00 _ 7073.251 _ 5991.97 __-2_744.63-1881.281_ 166.26 3573.52! 178.29[-3395.23� PASS 7175.00 CCN.70-2792.60-1916.04 167.05 3615.85� 179.501 3436.36 PASS 14 6 8893.781.44-3208.88-2204.93 172.97 3636 29 204.42 _ 3431.88 PASS - - -. - - - Y--22172.97 - 3636.89, 204.55� 3432.33 PASS 8997.52 7785.82 3209.51 05.06 9101.10 7889.39-3210.03.-2205.14 172.98 3637.37 204.69 3432.69: PASS - _� - 9200 97' 7989 271 3210.47 2205.10' 172.98 3631 81 F 204 81 j 3432.99[ PASS 9367.93 8096 22 33 10 81 2204.85' 172 97 3638 16(- 204.92 3433.241 PASS -- _. - _ 9410.80 8199 09 _ 3210 99 -2204 49�_ 172.97 _ 3638 38 205.02 3433.36 PASS 951 -- 8 _ __-_ _ _ - 1 _ 172.96 363 � ---- -2203 13� � _ 8 47 205.11 3433.36� PASS 9621.641 84 9.93i -3210 88> 2203 94 172 953638 43` 205 19 3433 24 PASS _9730.1 9842.1 400.00!-2650.001 10010.90 400.00'-2650.00 10052.15 _- 8518.38r 1-3209.76� 3210.50 -2202 13` 172 93j 3638 19r 205.27 - 3432.92 PASS 8630 41 -.- -2200 82 172 91 3637 68 205 34 3432.34 PASS 8717.631 - -.---- _ -3209.05� - 2199.72 _ _ 172.89 3637.06 - - - -- 205.45 - 3431 61 PASS 8799.16, 3208.96�-2199.08 172.88, 3637.03. 205.56! 3431.47 PASS 8840.42: -3209.02 -2198.80 172.87` 3637.13 205.61 3431.52 PASS POSITIONAL UNCERTAINTY - Offset Wellbore: NF #22-35 Slot Surface Uncertainty @ 1 SD _ Facility Surface Uncertainty @1SD Offset Wellpath: NaviTrakMWD<I81-2945'>OnTrakMWD<3044-10700'> Vertical HOLE & CASING SECTIONS - Offset Wellbore: NF #22-35 Offset Wellpath: NaviTrakMWD<181-2945'>OnTrakMWD<3044-107001> String/Diameter 10 75in Casing Surface Start MD Ift] 20.551 End MD Interval IN �- Ift] 2992.00(- 2971.451 Start TVD - [ft] 20_85i 20.85 End TVD �- [ft] 2739.49 9460.98 Start N/S [ft] 0.29) 0.29 Start EEnd N/S Ift] /WI Ift] - 73.16I -229 07 73.16 r-979.51 End E/W Ift] 94 56 Tin Casing Production- _ 20.55� 10673.00 10652.45 I-- 633.96 Ea WB _ , Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 28 of 53 'Operator (Cook Inlet Energy _ _ _ _ _ Slot Area _ No ' Cook Inlet, Alaska (Kenai Peninsula)^ Well eld rth Fork — ,___ _ _ _ Wellbore ,Facility North Fork Unit AD2 WELLPATH COMPOSITION - Offset Wellbore: N_F #22-35 Offset Start DID M2945.00 J i Positional Uncertainty Model [ftj 20.55NaviTrak (MagCorr) 2945.001 10700.001 OnTrak (Ma¢Corr) OFFSET WELLPATH MD REFERENCE - i Fork_# 14-26 (Plan) #14-26 Plan 114-26 Plan FKA 0 &,-"- a BAKER HY6NES Ilpath: NaviTrakMWD<181-2945'>OnTrak_MWD<3044-107001> Log Name/Comment _._. _ W¢jjbore N_aviTrak MWD<181-2945'> NF #22-35 OnTrak MWD<3044 - 107001> NF #22-35 Offset Wellbore: NF #22-35 Offset Wellpath: NaviTrakMWD<181-2945'>OnTrakMWD<3044-10700'> MD Reference: Nabors 99 (RTE) _ e Offset TVD & local coordinates use Reference Wellpath settings _ (See WELLPATHDATUM on page 1 of this report) Ellipse M Start D 2n ccfr� -" ---' Ea Ceti - Cook Inlet Energy_ Inlet Energy Inlet, Alaska (Kenai Peninsula) orth Fork - orth Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 29 of 53 of North Fork # 14-26 (Plan) ell -` NFU #14-26 Plan _ ellbore NFU#14-26 Plan U p W-- BAKER NY6NES CLEARANCE DATA - Offset Wellbore: NFU #24-26 Offset Wellpath: OnTrak MWD<179-97501> Facility: North Fork Unit (NAD27) Slot: North Fork #24-26 Well: NFU #24-26 Threshold Value--0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] ]ft] rft] ]ft] ]ft] [ft] [ft] [ft] Bearing Clear Dist MASD Sep Status - r°1 rftl f 20.80 20.80� _ �0.001_ 0.0 20.50� 20.80�_ 61.02 156.93 6033 150.77` -- 58.40 150.26 _ _ 67.99 68.19 68.76 _ _ __ [ tl _ Iftl 162.80� 6.91 155.89j PASS 162.40�12.94j 14920.80t 161.23' � [Eil20.80t120.80 220.80 000 0.00 _ 000�-12182 0.00�- 222.85 122 12 -223.12 _. -__ . _ -- _,__ 13.03i 148.19 PASS 32080t 320.80 0.00 0.001 320.67 320.93� 56.87 149.85) 69.22j _ _ ]60.27i 13.15 147.12 PASS 324. 0T 324.75, 0.00 _ _0.0_0 32_4.18, 32_4.4_4' 56.86 149.85 69.22 160.27' 13.16 147.11 PASS [_ 420.80f 420.80 _ 0.00 i _ 0.001 _ 415.73r415.96 _ _-- 58 79: 150.31 68 64' 161 47' 13.33 148.14 PASS 00.00 _ 500.00 ___ 0.00 0.00 492.93C-492.94 64 48�_ 151.18 _ 66_90f - 164 51 13 49 151.02 PASS 520.80t 520.80 0.02 -0.11 513.31� 513.24 66.20 151.42� 66.41 165.53 13.53� 152.00� PASS [- ---- ---. - i 620.80 - - 720.80 720.3 t i 1.90 12.61 612.32 75.31 152.60[64.46 173.53� 13.84� 159.69� PASS t 620 72� 0.57� -3 78i` 612.81! - 82 -- -- 4.01 -�81 -_. .51102.161 -�60 73f-` 200 94�_ 14.441 185.881PASS 1; _ 713.37 _ 712 21; 86.841 151.87 62 69 185 29, 14 44 170.85 PASS 920.80t 917.466.89l-45.65r 911.12 907.35 1107.88� 144.54 + 59.73 ^ 220.44 15.73� i674-J PASS 1020.SOt 1014.37� 16.531i-69.78� 1024.76 - 1019.53 134.32[ 137.2059.12�+ 441.23�16 63f 22-4-6 -0 S 1220.80t�1109.93 14.93i 98.89 1140.14- 1133.54( 144.73, 123.08� 59.68! 258.22, 17.70! 240.51(PASS j 1320.80 1295.77 25.92 171 73 1245.60 1237.99 146.61 108.82 62.37 274.98 18.62 256.36 PASS f : 1203.81 20.06. 132 9I t ]-_ 32.49 215 27� 1480.591�_ 1468.1411 ASS 139 81.58 0 63.03� 68 91� 293 24; 19.51 273.72i PASS_ 1420.80 1385 54� __ ---- - . - _ 309 50� 20 51 288.9§rP 1520.80t _ 1472 89I 39.76 263.39 1586.64[-- 1569.601 _ 134.51 32.68 72.25i_ 325 56� 21.461 304.l0TPASS -' -- --. - - 1620.80t 1557.57I 47.69C 315.96I 1682.461 1661.01, 124.811 5.68 76.52� 346.55! 22.26� 324.29TPASS 1720.80t; 1639.3_S 56.28-372.8_4 1791.4_1 1764 01' 108.78 _ 26.00 81.39 372.29 22.88 349.41 PASS r- 1820.80t 1718.01i 65.49�-433.88r - 1900.55 1865.28 ` _ - - - __- _ __._! �- - -- 91 25 _ 62.66ii 86.03 _ _ 400.20� 23 58i 376.62, PASS 1920.O 1793.33 - 75i31 498.91 -- 1996.44� _ - 1953.75 - 79 18 - 97.62� - 89.45 _ 432.18� 24 43j 407.75rPASS 1937.97 1805.91 _ 77.05 _-51_0.4 2012.75 1968.794 77 30�-103.63� 89.97 438.23� 24.571 413.661 PASS 2020.80t- 1866.35 � 85.50 566.46 _ 2091.38' 2041 18! 68.13 132.931 92.301� 467.78! 25.15� 442.63` PASS 1, 2120 80 1939.32 95.71 634.07 2187.13 2128.97 56.23-169.25 94,85 503.58' 25.96� 477.62 PASS r - - t•- - - - 2220.80ti 2012 29; 105.91 701 69; 2279 27' 2212 88 _ 43 10; _ 204.99 97.211539 34_ 26.93 512.42 PASS --. _ __- 2320.80t� 2085.26 116.12+ 769 301 2366 141 2291 991 _- 29 501 238.181_ 99.26 576.481 NMI 548.42 PASS 2420.80t� 2158.23 836 91�tl 2459.70 2376.9_8.� 14 171� 274.171- 101.27, 614.10I - 29.39, 584.71, PASS 2520.80t� 2231.20136.53� 904.52; 2548.05 2457.55� 0.59-307.791 102.83; 652. -3! 30.82 621.71! PASS _2620'80t� 146.74 -02.13 2646.26! 254163; -13.18-343.05 10426 691.17! 32.41 658.76 PASS Ea O�0 Clearance Report werl-1- � Cook Inlet -Energy NFU#14-26 Ver#1 gpKER gY- Closest Approach Page 30 of 53 HUGHES Inlet Energy _ _ - -_ -_ _ Slot North Fork # 14-26 (Plan) Inlet, Alaska (Kenai Peninsula)- Well NFU #14-26 Plan i Fork_ _ _ Wellbore_ NFU#14-26 Plan . Fork Unit (NAD27) I- -- - - CLEARANCE DATA - Offset Wellbore: NFU #24-26 Offset Wellpath: OnTrak MWD<179-97501> Facility: North Fork Unit (NAD27) Slot: North Fork #24-26 Well: NFU #24-26 Threshold Value--0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ftl [ft] [ft] [ft] Iftl [ftl [ftl [ftl Bearing Clear Dist MASD Sep Status 10I _ _ [ftl _ _ _[nl [it] _ �272080t� 2377.14r 156.94{-1039.74 {i2722.57� 2616.86 25.77�-373.98r10535-730.8134A1�69680jPASS 2820 80t 2450.11 `167.15-1107.35 2813.70 2700.27 -39.93�-407.86 106.49 771.20 35.82 735.38 PASS 2920.80t 2523.07 177.35-1174.97 _ 2910.91 2788.93 � -__ _-55 28 - -444.63 _ 107 671 _ 811.29 37.68� --- 773.61 PASS 3020.80t 2596.04 187.56-1242.58-479.76� 108.64 851.15; 39.461 811.09 PASS I 3002.64 2872 441 -69.67 _ 2669.01 197.76_ 13_10.M 3090.74- 295277, -83.26-513.30, 109.43 891.36 41.15 850.21 PASS 3220080t-_-2741.98 207.977780 3180.74{^ i-13.-� -_- _ �� 3034 87 97 20 - 547.42 110.18 931.901 42 96 888.93 PASS 3320.80t 2814.95 218.18� -1445 4_1 -_ 3270.3_8{ 31 ] 6.73-110.91 -581.5 1 10.85 972.67 _ 44.40 928 27 PASS 34�0.80t - 2887.92� 228.38 1513 02 �_ �� - 11.4 ---- -'-_ 3358.45r 3197.26 124 25 614.36 111.43 1013.72 45.74 96_7.98 PASS - __.. - - 5 0.80t� 2960.891 238.59;-1580.63j 3446.77j 3278.08{--137.63 647.35 111 961 1055 07 47 18 1007.89 PASS ( 3620.80t'; 3033.86 248.79` -1648 24 3536.38 3360.12'-I51.37-680.69 112.47" 1096.69 48.7 104796' PASS 3720.80tj 3106.83 259.001 1715 86 �3621.16 3437.81'--164.29 - 712.07 112.86� 1138.55 50 26` 1088. 9 ASS 3820.80t _3179.80 269.20 178347 3704. 7 - _ --1 ---18 -- --- __ a �� 3514.10-177.33 742.34 _ 113.21 1181.14 -i51 83� 1129.30 PASS F3920.80t1- 3252.77 279.41�-1851.08� 3792.76 3595.43-191.16 774.34 _ 113.61 _ 1224.02 53.561 1170.46 PASS -462-080t - 3325.74 __ - ' - ---_._-(--`-- 4120.80t; 3398.71�299.82'-1986.30( 3955.97� 3669.74-203.84( -803.14! ]13.86` 1267.391 55.181 1212.20{PASS; _ _ 3745 86 _ 216.91 _ 832,20 114 12 1311.29 ` 56 W 1254.41 PASS 4 20 80ti 3471 681- 316.02� 2053 91 1- 4045 39 3828 48' 231 14 - _ 863.30 114.44i 1355 63; 58 77 1296.86; PASS I 4320.80t 3544 65-1 ` 320.23 _ 2121 52 _- _ _- _ _--4152.17j 3926 75j _ -247 82 901.59`_ 114 97i _ 1398.90�` 61 09; 1-337 81{_P_AS_S_ 4347.45 3564.09�322.95�--2139.54{_ 4174.24 _ 3947.07-251.19 _-909.511_ 115.02{_ 1410.42 _61.57_i 134_8 851 PASS _ _-- 4420.80t' 3618.57 330.28 -2188 11T 4238.29 4006 10 260.95{-932.38i 115.21; 1441.04 62.99; 1378.05, PASS . . ., '- _ 4520.80t 3695 74 339.76'-2250.91; 4324.62 4085.78-274.00 _-962.93' 115.48: 1479.08 64.96. 1414.12 PASS_ ~4620 80t1W3776.23� 348.62{ `-2309 64 4411.65j 4166 27 -287 11-993.32{ 115.78j 1512.94( 67.021 1445.91{PASS 4720 80t1 3859m67{- 356.85 -2364 12i -_ 4496.31 - 4244 77 299 79 ] 022.39� 116.08( 1542 63ffi 69.06 1473.57� PASS -- _ - _ �..._. 482080t� 344588� 364.41-241421� 4582.96� 4325.36 312.62� ]051.51� 116.42 1568.221 71.161 1497.061PASS .32 PASS 5020.80t 40125.65' 377.46 -2500 677 47783.40' 45112.40� -341 68! -1 1 17 44' - 1177.47 1606.25 76.03 1530.22 PASS 5120.80t, 4218.72. 382.91 2536.80 _ 4880.65, 4603.W _-355.36; _ 1150.04 118.03 1617 36i 78 50 1538.86' PASS 5220 80t 4.313.57' 387.63� A-2568 071 - 4972 341 4688.64' -368 05(-1180.24 118.57 1624 141 80 881 1543.25J PASS 5320 80t-4409.95 391.61 2594.39 - _ 1626 53;` 83.28 1543.251 PASS 1- 1- 5062 541 � 4773.04.-380.39 1209.55 119.14 - 1 394 82� 2615.69; 5151.241 4856.29•; --392.43 1237.73, 119.741 1624.85 85.69, 1534.16 PASS �5420.80tr 4507 59R `�fy, -2631 90 5242.24 4941.92-404.44 ` -- -- _ _ , , ,a 1266.07� 120�41 1618.93 88.18i 1530.75 PASS Ea ocB - Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 31 of 53 wrpp-- AA as IMKER NU6NES REFERENCE NVELLPATH IDENTIFICATION Operator Cook Inlet Energy _ Area Cook Inlet, Alaska (Kenai Peninsula) _ Field _ North Fork _ _ Facility lNorth Fork Slot _ Well Wellbore North Fork # 14-2_6 (Plan) NFU #14-26 Plan NFU#14-26 Plan CLEARANCE DATA - Offset Wellbore: NFU #24-26 Offset Wellpath: OnTrak MWD<179-97501> Facility: North Fork Unit (NAD27) Slot: North Fork #24-26 Well: NFU #24-26 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [ft] [ft] [ft] [ft] [ft] [ft] Bearing Clear Dist MASD Sep Status - 101 - - _ 5620 80t� 4705.59 - 398.94� 2642.99� 5333.84 _ 5028.28�� 416 35�=1294.19 121.15�_1608.75�� 90 74j_ 1518.01 PASS 5720.80t 4805.40 399.84 2648 92 5419.75� 5109 46 _ - 27 50 _ 1319.98 121.91 1594 68 93 26� 1501.42 PASS - - _ _ - __.._.a.. ._ _� .a..Y_ _ ____ 5785.42 i 4870.00I _400.00 -434`49 _ 1335.71 122.41 1583 58 94 88y 1488.70 PASS 5820.80t 4905.38 4O6.00,-2656.66 5501.5i� l5186.93,-438.25T 1344.02� 122.70 1577.19` 95.75 1481.431 PASS 5920.80t 5005.38, 400.00-2650.00 5581.24 5262,63-448.65- 1 366.56123.47, 1560.00 98.16, 1461.84 PASS 6020.80t 5105.38 400.00� 2650 00i Sb61 54� 5339 28 _ -458 93 1388.17� 124.24� 1544 24; 100.5 1443.70' PASS 6120.80 5205.38 400.00 2650 00 i 5754 1 ] - _ _ _ - 5427.841 -470 61 1412.46 125.13 _ 1529 36 103.18 1426.19� PASS 6220.80t 5305.38 400.00 2650.00 5842.63 - -' _ -e _ _ -.. _ _ _ .. - ... -5512.611-481.821-143533 _ 125.98 i 1515.25 - 10.5 74i-.1409.51 PASS . 1 200.8Ofr 5405.38 400.00 2650.00 5934.76� 5601.00� 493.361-1458.68 126.87 1501.87 108.38� 1393.49f PASS Ot, WF5391 400.00 -2650 00 6022.861 5685.67 -504.2E _ 1480.44 127.71 1489.29 _ 110 90`_ 1378.3_9 PASS _._ _ ___ _ 6520.80t�5605 381 400.00 2650 00 _ 6096 221 i 5756.74 _ �512 15j--1496.78 128.34 1478.121 112.88 _ 1365.251 PASS _ _ _ _ - �__--6176 52 5835.25 -Sl9 36 -15] 1.98 _ 128.93 _ 1468.74114.69� 1354.05� PASS j 6620.80t(� 5705.381 400.00 2650 00 6720.80t� 5805.38 _ 400.00f--2650.001� 6267,131_ 5924 47j_ 525.15 = 1526.64 - 129.47 1460.14 1 16 34(Y 1343.80�PAS5- - - -- - 6820.80t� 5905.38i 400.00r-2650.00! 6341.90; 5998.52I-528.49i-1536.48 129.82' 1452.82 117.48 1335.35; PASS . 6920.80t' 6005.38 400.00 2650.00 6424.69 6080.76-531.68-1545.3& 130.15j 1447.03 118.51 1328.52 PASS 712080 - 6205 38 400.00 2650.00 -- 6585.61�,-6241.07� -__ 536.93!_ 1558.24�_ 130.641 - 1439 1i, 120.121 1319.00� PASS 7220.80t� 6305.38 �400.00�-2650.00�_ 6670.77�` 6326A9�-539.18[�1562.36--130.81! _ 1437.17� 120 71� 1316.46 PASS 7320.80t� 6405.38 400.000 265000 6760.82 6416.09(�-541.01� 1565-! 130.94C 1436.18 121.19 1314.99 PASS 1 - _ - .. 7420.80t 6505 M 400.00 2650 00; 6856 34' 6511 59! -542 08 -1566 7$ 131.61 1435.5-9, 121 56 1314'.04'PASS 7520.80tj 6605 381 400.001 2650 00! 6954.15 6609 38 543 131 _ 1-568 16j-131.08j� 1435 231 121.911 1313.321 PASS r 7620.80t 6705.38r� 400.00[--2650 007065.91� 6721.13�_-543.618 _ 1569 67j` 131.14, 1434.541 122.28! 1312.25� PASS __ _ 7820.80t _ 6905.38 400.00 2650.00I 7263.54 6918 74 � -542 941 1571 87j 131.17 1432.36 122.74 7720.80t 6805 38(� 400.00� 2650 00 _ 7166.29i 682] 50 543 25�_ _ 1570 85 131.16 1433.37 122.52, 1310 85� PASS - 1309 62 PASS _. 7920.80t 7005.38 400.00 2650.00 7362.06 7017.25 -542 741-1572.86 131.19 1431.48 122.98 1308.49J PASS _ - 8020.80t 7105.38 400.00 2650 00 7460.55 7115 74• 542 48 1573 641 131.21 1430.71 _ ,_ _. __ __ 123 21 1307.50 PASS 8120 80t 7205.381i 400.00 2650 00, 7558 40� 7213 59 -542 21 -� 1574.19 131.21� 1430 101 123.41_ 1306.68_1 PASS . t-__� __. 8220.80 7305.38[� 400.00 _ 2650 001 7658 43� 7313 62� -541 83i�1574.70� 131.21j1429.471123 62 1305 85' PASS 8320.80 ! 7405.38r 400.00 - �-._�___ .....,_�.-n._W.. _ t, 2650.00, 7755.78 7410.97e 541.62;-1575.22, 131.21 1428.93� 123.83' 1305.10 PASS 8420.80t' 7565.38 400.00-2650.00 7853.37 7508.56 -541.68-1575.60131.23 1428.68; 124.07 1304.61 PASS Ea o0B _ Cook Inlet Energy_ ook Inlet Energy ook Inlet, Alaska (Kenai Peninsula) orth Fork -i orth Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 32 of 53 i Fork # 14-26 (Plan) #14-26 Plan ----- 114-26 Plan WE P A a BAKER NY6ME5 CLEARANCE DATA - Offset Wellbore: NFU #24-26 Offset Wellpath: OnTrak MWD<179-97501> Facility: North Fork Unit (NAD27) Slot: North Fork #24-26 Well: NFU #24-26 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR lft] lftl lftl lftl lftl Ift] [ft] IN Bearing Clear Dist MASD Sep Status ift] [ft] Iftl 8520.80t7605.3g� 400.00C--265_0.00! _ 7947.98_.r 7603.17� _-542.00� 1575.97 131.25(-14224.3304.291 PASS 8620.80f 7705.38 400.00 -2650 00 8042.72�^ 7697.90[_-542.55 1576.00 131.27 1428 96 124 52 1304 441 PASS - _Y -- -- _ _ __._ _ _ _ 8720.80t 7805.38 400.00 -2650 00 8135.64( 77_90.82-543.5_2 1575.80 131.29 _ 1429 80�124 74 1305 061 PASS _265(1-00 R4299(. 7QRSW cec on __� ,o� ,nr 8820.80t 7905.38 400.00 2650.00 8235.53j 7890.70, 544.67 1575.48( 131.32. 1430.81 124.99' 1305.8E PASS 8920.80t 8005.38 400.00 147n �'2 11, 1 L 9020.80t 8105 38ja 400.001 2650.00 9120.80t 8205 38 _ 400.00- -2650 00 9220.80t, (8T65.38 8428 62 8083 77 8522.11 8177--B -547 20 1574.19( 131.36 -548 50 1573.20 131.38 1433.54 1435.25 125 43, 125.61 1308.1]' 1309.64 PASS PASS 400.00�-2650.00 _ 8616.67 8271.79 550.08 1571.84 131.39 1437.43 125.79 1311.64 PASS 9320.80t 8405 38 400.00 2650.001 8713.93� 8369.01 -551.76� 1570.21r 131.39 1439.83 125.98 1313.86 PASS 9520.80 8605 38 400.00 2650 00 __ 9620.80t� 7703.38 400.00 _-2650.00 __ _ __ �- 9720.80t 8805.38 8818.2 L 8473 26 - 8934LL93 8589Y96 9036.52 8691.56 _ _ -553.60` 1568.14 131.39` 554.84� 1567.07 _ 131.40j� _- 555.72�-1566.4_3 131.41 _._ 1442 4g{ 1443 85 _ 1444.89�a 126.19' 126.491 126.72 1316 3t�; 1317.361PASS __ 1318.17rPASS PASS 4_00.00-2650.00 9765.42 8850 400.00�-2650 _ 913_3.43 8788.45 -556.38�-1565.66 131.41 -131.41 _ 1445.94j�_ 126.91 _ 1319.04 PASS _ J00 00 9175.96 8830.98 -556.62J-1565.17 1446.49[ 126.97C 1319.52 PASS POSITIONAL UNCERTAINTY- Offset Wellbore: NFU #24-26 Offset Wellpath: OnTrak MWD<179-97501> Slot Surface Uncertainty @1SD Horizontal 2.000ft_ Vertical Facility Surface Uncertainty @1SD Horintalzo 20.000ft VVertical ER ab Cook inlet Energy_ :rator Cook Inlet Energy a Cook Inlet, Alaska (Kenai Peninsula) d �JNorth Fork ility North Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 33 of 53 i Fork # 14-26 (Plan) #14d6 Plan 114-26 Plan W P P _P_ JA its BAKER NY61#S HOLE & CASING SECTIONS - Offset Wellbore: NFU #24-26 Offset Wellpath: OnTrak MWD<179-97501> Stringy-- g/Diameter Start MD End MD Interval Start TVD End TVD Start N/S Start E/W` End N/S En ---- - [ft] ]ft] - [ft] - [ft] [ft] _ --I IN I [ft]�[ft] d E/W [ft] 9.625in Casing Surface _ _ _20.80 2881.00 2860.20 _ 21.10 _ 2761.69 37.20 92.01 _ 3.19 -86.04 Tin Casing Production _ 2881.00 9750.00 6869.00 2761.69 _ 9404.83 _ 3.19 86.04-153.89 427.73 12.25in Open Hole �20.80 2881.00 2860.20 21.10 2761.69 �37.20 �92.01 3.19 -86.04 4.__ _�,_� 2. - 8.75in Open Hole 2881.00 9750.006869.00 2761.69 9404.83 3.19j 86.04-153.891 -427.73 WELLPATH COMPOSITION - Offset Wellhore: NFU 024-26 nffept Wau.,a*16. n."Ir eU rrcxm-,,n Start MD 11t] End MD [ft] Positional Uncertainty Model Log Name/Comment - I Wellbore v _ 20.80 2881.00 J 2881.00 9750.00 OnTrak (Standard) j OnTrak (Standard)-- -� _ OnTrak MWD<179-28871> NFU #24-26 -- - �OnTrak MWD<2968-97501>I NFU #24-26 OFFSET _WELLPATH_MD REFERENCE - Offset Wellbore: NFU #24-26 Offset Wellpath: OnTrak MWD<179-97501> MD Reference: CIE 37 (RT) Offset TVD & local coordinates use Reference Wellpath settings _ (See WELLPA TH DA TUM on page 1 of this report) Mft Ellipse Start D 20.80- _ -- Ea Mb Cook Inlet Energy_ ook Inlet Energy ook Inlet, Alaska (Kenai Peninsula) orth Fork orth Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 34 of 53 Slot __ North_Fork # 14-26 (Plan) Well - NFU #14-26 Plan Wellbore JNFU#14-26 Plan f p P__ BAKER MY6NE5 CLEARANCE DATA - Offset Wellbore: NFU #31-3 Wellplan Offset Wellpath: NFU #31-3 Ver#2 Facility: North Fork Unit (NAD27) Slot: North Fork #31-3 (Plan) Well: NFU #31-3 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [ft] [ft] [ft] [ft] [ft] [ft] Bearing Clear Dist MASD Sep Statu3 01-- -_ [ftl Ift1 [ftl 120.80 320.80tj 320.80 420.0 f 420.80 500.00 405 00.00 505.02t .02 620.80 f 1120.80t 1220.80 f 620.7211 720.311 819.29I _917.40 1014.37 1109.93[ i�n� of 0.001 0.001 320.8 0.00 _ 0.00 420.8 0.00 0.57 1.90 4.01 6.89 10.53 14.93 ---0.01 1 505. 0.11 j- 521. --3.781 622. 12.6E 723. 20.80 0.24i180,04� 89.92� 180.04�- 13.02r 167.02I PASS 120.80 _ 0.24 180 04� 89 92 _ 180 04 13 04�-167.00 PASS 220.80 0 24� - 180.04� 89 92 - 80 1041- 13.11 �_ 166.93 PASS 320.80 0.24 ] 80.04 89.92[ 180.041 13.211 166.831 PASS 4200 0.24,- 180.04 89.92 180.04 13.36 166.68„PASS - 100.00 _��_ 0.24 180.64, 89.92' __ 180 04 13.511 166 53� PASS 505.12 - 0.23 180.041 - -- 180.02 _ 89.93 89.96 180.04 - 180 13 13.52 13.55 _ r. 166.53 PASS 166.58 PASS -- __ 521.20 _ - 0.14 _ 622.88 -2.961 179.25¢ _ 91.11l 183.08T-13.92 169.15 PASS 723.5& - 10.3W 177.43 93.76 196.46 14.11 175.75 PASS 26.581 823.61�-- 921.40 822.54'- 919.03 _Y 21.91j- 174.60; 97.34�_ 202.86 15.SOi_ _ 187.361 PASS -45.65j - -37.28 �- 170.82 101.53 220.94 16.33 204.61 PASS __69.78 i 1016.81 _ 1012 44 `56v1 I _ 166.20[ _ 105 77f V245.21 _ 17.20�_ 228.01 PASS -98.89 1109.39� I]02.23 77.98� 160.82: _ ]09.681 275.94` 18.16 257.78, PASS i -132,91' 1198.76 1187.98 -102.41 154.82 113.06 313.11 1919 293 91 PASS 1320.80f 1420.80t 1295.77 1385 54 25.92,- -- 171.73 1184.621 1269.39 128.93 148.31�- 115.82 - 356 51: 20 33! - 336.18 PASS F1520.80f - 1472 891 32.49 39.76 215 27 _f -263 39 ` 1366.73i_ 1444.92 1346 22{ 1418.37 -157.03' � -- 186 27 141.40� _ 134.22� 117.99, 119.62T 405.81 460 60 _ 21.61I_ 22 87� 384.19� 437.73 PASS PASS 1620.80t� 1557 57 47.69 315 96 1519.06� 1485 81� 216 18[ 126.8_ � 120.79l _+ 520.46 24.30 __ 496.16 PASS 1720.80 f' 1639 35: _ 56.28 3_72 84; 1589.09 1548.5 -246 37. 119.454 - 21.58[ 5844 1820.80 f 1718 O1 `- 65.49 -433 88 - 1654 98� _ 1606 71 I -276 Q v 112.06 v 653.74 27.45 _ 626.28 PASS 1920.80t 1937.97 1793 33 1805.91 75.31 498 91 _� 1716 76�~ - _ _ I660 40 -306 13 -W(-122.06� 104 77� - 122.29 726 36 29.13 _ _ 697.22 PASS F2020.80t 77.05 510 46 1726 96[ 1669 18 -311 16( 103 53� 122.30 739 19 29 44 709 75 PASS 1866 35� 85.50 f---- 566.46 1775.34f ] 710.54 -335 56' - 97.54� __.__ 122.38 _ 801 54 _ __-_ 30.85 _ . _ 770.69 PASS . Ot, --r 1939.32; - - 95.71 634,07 1832.40 1758 61 -365 41 90.21 1 122.4SI VIA! � 2 6U T 844.821 PASS_ 2220.80 _t� 2320.80t 2012.29 _[ 2085 26 ]05.91 116.12 -701 69 769 30� 1887 97j 1942 02 i 1804 661 1848 74� �- -395 59; ' -_ 981 82.79i y 75 331 122.59� 122 69 -- 953.951_ __ 1031.12� _ 34 43 ( 36 29 I- _919.52 994 82 PASS PASS 2420.80t�2158 - - -.-._____ 23 _.. 126.33 836 91 t 1994 58j _ _.. , --425 1890.88� 456 49[ 67.83 122.79� 1108 92 38 20f 1070.72� PASS 2520.80t� 2231.20 136.53 904.52 2045 65 1931 12 [ - r.�` 487 02i -'.__. 60.33. 122.87, 1187.35 40.1 1147.23 PASS i 2620.80f; 2304.17 146.74 -972.13 2095.24 1969.51 -51 7 50 52.84 122.95 1266.40 42.05 _1224.35 PASS Ea I Clearance Report NFU#14-26 Ver#1 Cook Inlet Energy_ Closest Approach Page 35 of 53 Operator Cook Inlet Energy Slot North Fork # 14-26 Area Cook Inlet, Alaska (Kenai Peninsula) Well NFU #14-26 Plan Field North Fork Wellbore _ NFU#14-26 Plan Facility North Fork Unit Ed, I &P,-,- 2 BAKER NYGNES CLEARANCE DATA - Offset Wellbore: NFU #31-3 Wellplan Offset Wellpath: NFU #31-3 Ver#2 Facility: North Fork Unit (NAD27) Slot: North Fork #31-3 (Plan) Well: NFU #31-3 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [ft] [ft] [ftl [ftl [ftl IN Bearing Clear Dist MASD Sep Status - - -- - - - - 1°1 Iftl IM [ft 2720.80t 2377.141 1 r_-- _._i 2820.80t _ 2450.11( 1 _ .80t2523 202 0711 80t 2596 04{� 1 1346.06 43.981 1302.081 PASS 1426 32{-45 91 [ 1380.4I PASS 1507161 47821 145934 PASS { ---C-.._- . _ _.. _ _ 1588 58 51.58 1618.97 PASS 3120 80t 2669 Ol _ 197.76-1310,19 2321.82, 2135.92 666.69 16.19 123.09 1670 5�; 51.58 1618.97 PASS 3220.80ti 2741.98{ 207.97 1377.80 2367 03 _2167.31 _ 698 30 8.421 123 18 1753.05 53 60; 1699.45i PASS 3320.80t 2814 95 218.18 1445.41 t _ R - - - - -_-_ - _ C_I 2421.95�-2205.26 ` -736 85 1.05 123.47) 1835.75 55.73 1780 02 PASS __ _ 3420.80t 2887 921 228.38�- 1513 02{ 2476.87� _ 2243.21 775.41 _ 10.52 123.75 _-_ . _._._.._. {- 4 . - -�{ _.-_..-._ �- 1918_53 �57.86 _ 1860.67` PASS 3520.80ti 2960 89 238.59 1580.631. 2531.79i 2281.16{ 813.96� 19.99 124.00{ 2001.37� 60.02 1941.351 PASS 3620.80f 3033.86 248.79-1648.24 2586.71 230.11a-852.51-29.46' 124.23' 2084.27 62.23' 2022.05' PASS _ -- _ - _ 3720.80t! 3-106 83 259.00 -1715 86. 2641.63i 2357.06 -891 061 38.93; 124.44 2167.22j 64.46 - 2102.77 PASS 3820.80tj 3179 801i 269.20l--1783 47 2696.55 i 2395.01 929 61 48.41F124k 124.64 2250.22 66 72 2-I 3.36 PASS 3920.80tN _ 3252 77 279.41 18-51. 88 _2751.4_7 -_ _-T - _ �_- 1{ ��__��2432.96 968.16 57.882333.26� 69. 11 2264 25 PASS 4020.80t� 3325.74, 289.61�-1918.69�2806.39�-2470.91[-1006.711-67.35+ 125.00 2416.331 71.33 2345.01PASS _2508.86_ _ 76.82 125.16 2499.44 73.66 2425.78 PASS 4120 80t; 3398.711 299.82 -1986 30 2861.31 1045 27 I 4220 80t _ 3471.688 310.02 _ 2053 91 ! 2916.23 2546 81 1083 82` 86 29; 125.31 _ 2582 58 _ 76 02 2506 56i PASS 4320.80t(_ 3544 65� J 320.23 -2121 52 2971.15i 2584.76 - { _-1122 37L__ 95 76�_._ 125.46� 2665.751 78.40j 2587.35 PASS 4347.45 _ _ ___.. -� { 3564 09{ 322.95-2139.54 2985.78� 2594.87{ _ -1132 64j 98.29 _ 125.49_ __ 2687.91 � 79.03� 2608.88 PASS 4420.80t, 3618 57j 330.28 2188.11; 3026.65 2623.11 - -__ ' _- -1161.33�-105.33 125.61 2748.41 80.79 2667. 33{ PASSy 4520.80t 3695 79'; _ 339.76-2250.91' 3084.19 2662_87-1201.7i _ _ 115.26 125.82' 2829.15 83.18 2745.97 PASS 4620.80t 3776 23j 348.0 2309 64r_- 3143.68 2703.981 1243.481-125.52{� 126.09i- _ 2-907 73!_ 85 58� 2822.15 PASS �4720.80t� 3859 67� 356.85� 2364 121 3204.961 27, 33 i -1286 50-136.09f 126.41 { �- T-- .------- - 23098547.08- 03 9870.972896.03 PASS 3945.88' 364.41 4 1 ]26.78� - 4820.21 32678634 2967.49 PASS 80l4926.4034.621 371.29 59.761 3332.21; 375 83 158.03[ 127.20' 3129.0992.68 3636.41 PASS 5020.80t' 4125.65; 377.46-2500.67 3397.84 2879.61 -1421 89 _ 169.35 127.66 3197.71 94.99! 3102.71 PASS 5120.80 T-4218.72 i- - -- _ _ _ _ -1468 72 _-180.85' 128.17' 3263 5& 97.26 3166._321 PASS 5320.80 4409.95� 391.61 2594 07� 3532.18t 2972 44 t; 382.91 2536 80 3464.55 2925 71 3660.5j _ __ -1516 20i 192 52 128.71] 3326 63j 99.471 3227 16 PASS 1564 18{ 204 30 129.291 3386 81 161.61 3285 20 PASS �_ 5420.80t 456 301-394.82 --2615.693669.42i 3067.27 --- t { 9 _-.! _.- t� � i N 1612.53i 216.18� 129.92 3444.07 103.691 3340.38 PASS 5520.80t 4606.23; 397.V -2631 90 3738.65 3115.11 1661.13-228.12 130.57 3498.37' 105.67 3392.70 PASS - _ .-.._, _._ a «_ 56.94-1039.74- 2143.37{ _ 200_6.12{-_ - -547 84�� 45.39 _ 123.00 ,7.15-1107.35 - 2190.07 2041.00 -577 99� 37.98f 123.051 77.35-1174.97 2235.35 !- 2074.22 _-607.88 -A 30.641 123 08 -{= 87.56 1242.58 2279.26i-�2105.84{-637.46( 23.371 123.091 Ea Ea 0e6 - Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 36 of 53 M P ja as MKER NY6NE5 CLEARANCE DATA - Offset Wellbore: NFU #31-3 Wellplan Offset Wellpath: NFU #31-3 Ver#2 Facility: North Fork Unit (NAD27) Slot: North Fork #31-3 (Plan) Well: NFU #31-3 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] Ift] Ift] Ift] Ift] Ift] Ift] Ift] Bearing Clear Dist MASD Sep Status 562080t� 4705.591 398.94_-2642.99�i 3808.051 _3163.07�-176979. 240.09 131.27��3549.69`-107.56� 3442.12 PASS 5720.80t 4805.40 399.84-2648.92 3877.41 3211.00 1758.54 252.05 132.00l 3598.01 109.35�3488.65 PASS 5785.42 _ 4870.00 400.00 _-2650.00 3922.13 3241.90 1789.93 259.77 - 133 - 3627.63f 110.44� 3517LL19 PASS 5820.80tI 4905.381 400.00C-2650.00 �3946.58 3258.79 186109!~-263.98 132.77! 3643.57; 111.02; 3532.55 PASS 5920.80t _ 5005.381 _ 400.00-2650.00, 4015.68 3306 54-1855.60 _-275.90 133.53 3689.19 112.60 3576.59 PASS _ _ 6020.80j 5105 381-1460 00 - 2650 - 4153.88 3402.04' 19502 610j 299.i3�_ 135 03 _ 3782.93 115 64 - 3621.51 PASS 0t _ 1 _ 3354.29 _ 6120.80t 5205 38 __ 3667.29 PASS 6220.80t� 5305 38; 400.00 2650.00 4222.98 3449.79� 2001.12�-311.65 135.76f 3830.99E 117.09 3713.90 PASS - _ t _I _ - - -- -; --- - 1 - �� 3879.79( 118.50 _ _.. _.r _ _.__ - 3761.30 PASS 6320.80t 5405 38 400.00 2650 00 4361.18 3545 29' 2098 13_ 335.49 137 19 3929.33' 1�19.86 _ 4292.08i 3497 54� 2049 62 323.57 136 48 6420.80 5505 38',• _ 400.00 2650 00 3809.46 BASS r- --- - _ 6520.80t1 5605 38 400.00) 2650 00' _ 4430.29 3593.041 W 2146 64� �347.40 137.88 3979.55i 121.19 3858.36 PASS 6620.80� 5705 38�� 400.00 2650 00 4499.39 3640.79 2195 14-359.32 138.57 4030.45 122.48' 3907.97 PASS _ _ _ __. _ _ _ _ _ tl ___ 6720.80 5805 38 400.00-2650.00 4568 49 3688 54� 2243.65-371.24 139.24 4081 99 123 74� 3958.26 PASS _ _- _ - 6920.80 r r� 3736 291 2292 16�i 383.15 139.90� 4134 16! 124 96' 4009.20, PASS P- - -- � _ 3784.04 2340 67 395.07 140.55 4186.92 126.15 4060.77 PASS 6820.80�' 6005 3F;; 400.00 -2650 00`4606.69 _ - _- _ _ _ . __._. _ ._ _ _ _ ` F7020.80t1 6105.381 _ 400.00 _ 2650.00 4775.79, _ 3831.79, -2389 17-406.99� 141.19 _ 4240 26; 127.31, 4l 12.96� PASS 7-1-26g-of6205-38�460.00 _-2650001_ 4844.89�_ 3879 541_ -2437 681_ 418.90` - 141.82I`4294.151_ 128.43f 4165.7- PASS I 7220.80t� 6305 38� 400.00 2650 00 4914.00I - 3927.29� _-2486.19�-430.82 142.44I 4348.58 129.531 4219.05 PASS 7320.80t 6405 38, 400.00 2650 00 4983.10 3975.04 _� - i - - _.__� _ -2534.69 442.74 143.V 4403.521 130.61 4272.91 PASS 7420.80t' 65_05 38' 400.0_0 2650 00 5052.20 4022.79 -2583.20 454.66 143.65 4458.96 131.65 4327.310 PASS_ ~ 7520.80t� 6605 38' 400.001 -2650 00' 5121.30j _4_070 54' _ 2631.71 466.57( 144.24j� 4514 871 132 68; 4382.19, PASS 7620.80t 6705.38 400.00 2650 00 5190.40( _ 4118 29 2680 21-478.49 144.82� 4571.241-133.68 4437.56 PASS 7720.80 6805.38j� 400.00 2650 001 _ 5259.50 4166 04 272_8 72�-490.41 145.39j 4628 O51 134.66; 4493 39 PASS t_ 1 7820.80t� 6905.38r� 400.001 -2650.00 5328.60 4213.79' -2777 23-502.32, 145.94, 4685 29` 135.62� 4549.68, PASS 7920.80t 7005.38 400.00-2650.00 5397.70 4261.54-2825.73'-514.24 146.49 4742.94 136.56 4606.39! PASS 8020.80t, 7105.38 400 00, 2650 00; 5466.81 i 4309.29 2874 24' _-526.1& 147,03:_ 4800.99 137.48 4663.511 PASS 8120.80t) 7205.38 400.001 2650.005535.91 4357 04 2922.751 538.08' 147.56 _4859 42 138.38 4721.k PASS 8220.80t 7305 38 400.00 2650.00 5605.01 4404 79 2971.26 549.99 148.081 4918 211 ] 39.27 4778.95 PASS ' "--Okl�6f ,__ __�� _�..,_� s1 7405.38i 400.00-2650.001� 5674.111 4452.541 -3019.763�-561.91( 148.59. 4977.371 140.14' 4837.23CPASS 1 7505 38'; ----- - 2650.00 5743.21� 4500 29` 3068 27; 573.83 149.09 Y 5036.86 `141_00 4895.86 PASS , . . T �, Ea O�a Cook Inlet Energy_ 'OperatorlCook Inlet Energy 'Area Cook Inlet, Alaska (Kenai Peninsula) jField --FNorth Fork _ iFaciIit, v North Fork Unit QVAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 37 of 53 i Fork # 14-26 (Plan) #14-26 Plan V14-26 Plan tP PP-1- AA Fag BAKER HYGHES CLEARANCE DATA - Offset Wellbore: NFU #31-3 Wellplan Offset Wellpath: NFU #31-3 Ver#2 Facility: North Fork Unit (NAD27) Slot: North Fork #31-3 (Plan) Well: NFU #31-3 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [tt] [ftl [ftl [ftl [ftl IN Bearing Clear Dist MASD Sep Status ____ M ` __ [ftl _ Iftl Iftl _ 8520.80 j 7605.38� 400.00-2650.00� 5812.31-3116.781-585.74� 149.59C _ 5096.69w 141.841 4954.851 PASS 8620.80t� 7705.38 400.00--2650.001 5881.41 4595. 99-3165.28)-597.66 150.07� 515 883 142.67 _ 5014.16 PASS 8720.8_Ot 78-6J 400.00E-22-6��0.00 - 5950.52 4643.54-3213.79 609.58 _ 156.55 5217 28�_ 143.49 5073 79�PASS - 8820.80t 7905.38 400.002650.00 6019.62 4691.29 -3262.30;-621.50 151.02, 5278.03, 144.30, 5133.74 PASS 8920.80 f 800538 _ 400.00-2650.00' _ 6088.72 _ 4739.0_4 _-3310.80 _ 633 41 151.48. 5339.07, 145.10 5193.98, PASS 1 9020.80t 8105 38 400.00j -2650 00� 6157 82. 4786.79j 3359.31j 645 33� 151.93 5400.39L 145.88 5254.501 PASS 9120.80t _ 8205.3 400.00-2650.00�� 6226.92 -�4834.54 _-3407.82 657 251 152.38� 5461.971 146.66� 5315.31 PASS 9220.80t 8305.38 400.00 _-2650.00�_ 6296.02 488229 -345632}� 669.161 152.81 5523.81[147.43�_ _5376_.381'PASS _-r - -- ._..- _ _ _ _ 9320.80t1 8405.38 400.00�-2650.00j 6365.-1 4930.04�-3504.83�-681.08� 153.24 5585.911 148.19 5437.72� PASS 9420.80f' 8505.38 400.00-2650.00 64344i 4977.79-3553.34i_-693.00; 153.6fi! 5648.24 148.94� 5499.30 PASS 9520.80f' _ 8605 38' 400.001 265_0.00 6503.33, 5025.5_4 _-3601.85� 704.92 154 08 5710.811 149.69 5561.121 PASS 9620.80t� 005 38 _ 400.001 _ 2650.00�_ 6_572.43 5073.29 _ -3650.35�- 716.83 154.49 5773.61�_-150.43. 5623.18j PASS 9720.80t�- 88053_ 400.00-2650.00�-6641.53� 5121.04� - 3698.86�-728.75 154.$9_ 5836.63 151.16 _ 5685.46 PASS 9765.42 8850.00� 400.00-2650.00j- 6672.36� 5142.34�-3720.50(�-734.07(-155.06( 5864.81� 151.49� 5713.32�PASS POSITIONAL UNCERTAINTY - Offset Wellbore: NFU #31-3 Wellplan Offset Wellpath: NFU #31-3 Ver#2 Slot Surface Uncertainty @1SD Horizontal 2.000ft _Vertical1'000ft Facility Surface Uncertainty @1SD Horizontal 20.000ft �IVertical 13.000ft HOLE & CASING SECTIONS - Offset Wellbore: NFU #31-3 Wellplan Offset Wellpath: NFU #31-3 Ver#2 String/Diameter Start MD End MD Interval Start TVD End TVD Start N/S Start E/W End N/S End E/W Ift] - - - IN IN - . [Dl IN Iftl IN [ft] [ft] 12.25in Open Hole 20.80 14350.821 14330.02 20.80 11474.30� 0.15 109.75 -2140.951 416.24 €a 0 >8 _ Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 38 of 53 Fe PP-1- jj as BAKER NY6NES jOperator jCook Inlet Energy _ jSlot (North Fork # 14-26 (Plan) Area Cook Inlet, Alaska (Kenai Peninsula) — Well NFU #14-26 Plan — i — Field North Fork Wellbore rNFU#14-26 Plan 'Facility North Fork Unit (NAD27) SURVEY PROGRAM - Offset Wellbore: NFU #31-3 Wellplan Offset Wellpath: NFU #31-3 Ver#2 Start MD _ r�End MD� Positional Uncertainty Model Log Name/Comment Wellbore ift] I _ [ft] 20.80i 14350.820nTrak (MagCorr)NFU #31-3 Wellplan OFFSET WELLPATH MD REFERENCE - Offset Wellbore: NFU #31-3 Wellplan Offset Wellpath: NFU #31-3 Ver#2 Reference: Miller 37 (RT) Offset TVD & local coordinates use Reference Wellpath settings (See WELLPA TH DA TUM on page 1 of this report) use Start MD Ea MB _ Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 39 of 53 Fe P W-- JARN BAKER NUGNES IDENTIFICATIONREFERENCE WELLPATH Operator Cook Inlet Energy -- ---- ----- Slot North Fork # 14-26 (Plan) ---Area Cook Inlet, Alaska (Kenai Peninsula)-- Field North Fork Well NFU #14-26 Plan Wellbore NFU#14-26 Plan Facility North Fork Unit (NAD27)- �e CLEARANCE DATA - Offset Wellbore: NFU #23-25 Offset Wellpath: NaviTrak MWD<177-3045'>OnTrak<3183-107851> Facility: North Fork Unit (NAD27) Slot: North Fork #23-25 Well: NFU #23-25 Threshold Value=0.00 ft f = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ftl lft] lftl Ift] IN ]ftl lft] IN Bearing Clear Dist MASD Sep Status - 1*1 - - �ftl- -- Ift] ._ _ lftl _ 20 80 �- 20.8b�- 0.00� _ 0.00[_ 24.64 _ 20.71 60.56 210 30 73.94 _218.85�� 13 18� 205.67j PASS 120 80fi 120 80 0.00� 0 00 122 54 118.60 _ 60.28 210.91 74.05 219.37 13 23 206.14( PASS 220 80f 220.80 -- 6.6-6 ----. 0.00 221.05 217.10 - _ __ _-__v __ �~ 59.52 _- 212.58 - 74.36 220.79 13 10 207.691 PASS e�_.- 320 80f 320 80� O.00I 0 OOJ 321.40� 317 42� 58.75� 214 57 74 69 222 49� f 13.23r 209.26! PASS 420 80f 420 80 _ 0.0p - 0 Op 420.96` 416 97t 58.48 216.17j 74 86' 223 98, 13 38' 210 59 PASS - - ._ -- -- -._ _�.��.__.__ - -- L 500 00 500 00) 0.00 0.00 497 22� 493.21�_ 58.26 217.99� 75.04 _ 225 74i _ 13.54 _ 212.20 PASS _ _ 520 80f 520.80 0.02 -0.11 _ 517.01 512 99 _ 58.31 _ 218.63 _ 75.08 _ 226.51�_ 13.58� 212.93 PASS �� _ _ 620.80f 620.72 _ 0.57 _ 3.78 __ 606.22� 602.05 59.33� _ 223.38 _ 75.50� - 235.38i _ 14.01j- 221.37 PASS 720 80f j 720 31 1.90�-12.61( 693.22� 688.59� 62.08� 231.89� 76.171 253.79 14-.94 238.85 PASS 820 80f _ 819.29� 4.01 _ 26 58, _ 777.93` _772.36 66 641 243 52 76.95� 281.21 _15.82 265.39' PASS 920.80f�- 91740 6.89 _4_565' 859.25� y852.23j . . ---317.18i�- - _ _ - _ -_ _ _ 72OSj 257�84 - 77�88 16 81 300.36� PASS _.-- _ 1020 80f 1014.37 10.53 -69.78 935.85 926.85� 77.93 274.10 78.91 361 19� 17 42 343.77 PASS_ -- Y -_ _ _ 1120 80f 1109.93 _ 14.93� _98.89 1006.89 -291.67 _ 79.91 412 90j�_ 18.12�_ 394.78 PASS 1220.80f� 1203.81 20.06 132.91 1073.79 ]059.25j 91.37� 310.28 80.86 471.59� 18.8052.791 PASS 1320 80t! 1295.77 492 _ -171 73: _ 1134 5l,98.19 328 5' 81.V 536 55i 19.46 517.15 PASS L 1420.80tj 1385.54i - 32.49 -215 27 1189.16 1167.77 104.-9F 346.98 82.671 - 07 7; 1 - _ i_ 607 27� 19 95� 587.33, PASS F 1520.80f 1472.89 39.76 -263 39 1238.66 1213 60 111.251 364.54 _ 83.51 _ 683 11;_ 20 46j _ 662.65, PASS f 1620.80f � 1557.57� 47._ -315 96�_i 1282.62� 1253 93 117.25; 3 - .01 84.30�_ 763 42�� 20.961 742.45j PASS 1720.80f� 1639.35, 56.28j 372.84J 1320.94� 1288.75� 122.70, 396.03 85.06[847.64; 2141[ 826.231 PASS 1820 80f' 1718 O1; -65_49 _-433.88' 1354.03 1318.581 127.58 409.50 85.74! 05.251 21.81 913.44' PASS 192080fa 1793.33i 75.31r 498.91, 1382.21 _1343.79 13185 421.34;_86.48r 102574j 22.21� 100353, PASS - _ (__- 1- 1937 97 f 1805 91 j 77.05� - -510 46� 1386 61 1347 71 132.53 423.22i 86 60 1041.53- _ 22.28 1619.25j PASS 2020 80f 1866 351 85.SOj-566.46 1407.43 1366 21 135.77 432.21 87.12 1118 04' 22.54! 1095.50; PASS�.._ . 2120.80f1 1939.32j 95.71;-634.071--1431.36 1387.35 139.56� 442.75� 87.67� 1210.84 22.85; 1188.00j PASS 2320 80f: 2085.26! 116.12 -_ 30F dr - -k_ ._ - : PASS 2220 80 2012 29. 105.91, 701 69: _ 1454.06 _ 14.07 X _ 143.23 452 95 _ 88 15 1304 07! 23 16 1280 91 f �� 769 30r 1475.631 1426 14° 146.78 462 83, 88 58; 1397 68i 23.4711 1374 21 PASS _.. _._.._ -� _ _I-- - - - -- _4v1- 1491 64 23.76� 1467 8 - PASS ; r 2420 80f 2158 23 126.331 836.91 1495.90 1443.761_ 150.18 472 27` - 88 96 _ 1 - y' �^ �.___ 156.74� 490.18� 8961 168051 2433!�165618 PASS 2520 80f 2231 20; 136.53 904 52 1515.14 ] 460 37( 153.50 481 38 89 30 1585 93 _ 24 OS 1561 88 2620 80fi 2304 171 146.741 972.13� 1533.46� 1476 11 r- ; PASS 272080fi 237714 156.941-1039.74 ; 149103, 159.91, 498.69 89.89I 1775.37; 24.62' 1750.761 PASS €a oeB Clearance Report WME'Re Cook Inlet Energy_ NFU#14-26 Ver#1 BAKER Closest Approach Page 40 of 53 HUGHES 3perator 11Cook Inlet Energy Slot North Fork # 14-26 (Plan) krea lCook Inlet, Alaska (Kenai Peninsula) -- Well NFU #14-26 Plan_- - ieldNorth Fork _ _ _ Wellbore_ NFU#14-26 Plan acility lNorth Fork Unit (NAD27) -- - CLEARANCE DATA -Offset Wellbore: NFU #23-25 Offset Wellpath: NaviTrak MWD<177-3045'>OnTrak<3183-10785'> Facility: North Fork Unit (NAD27) Slot: North Fork #23-25 Well: NFU #23-25 Threshold Value=0.00 ft f = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR Iftl IN IN Iftl IN IN [ft] IN Bearing Clear Dist MASD Sep Status 2820 80t -- 2450.1E 167.15 `- � i - -- - - N -_ IN _ [ftl_ Iftl _ _ _-1107.35 1567_60� �1505.20� 163.00�i 506.92 90.15 _ 1870 49�_ 24.89(- 1845.60� PASS 2920 80f 2523.07 3_177 35_-1174.97 1583.69 1518 80 166.0_4j 514.95 `90.38 1965.84 25 17 1940.67PASS2502080960418756--_1242.58 599.24_-53E89t 169.0E 522.8E __ 90.60 _ 206E 40 25.45�-_ 2035.95 PASS 3120 80f 262669 O1 197.76 --1310.19 - 1614.14 1544.37 171.86 530.42 _ -� 90.8E 2157 16 25 72 213E-44 PASS 3220 80t 274E 9$, 207 97E 1377 80! 1628.40 15 78,' 174.6I 537.79>_ 91.00 2253.10:. 25.99 2227 12 PASS 3320 80t - 2814.95 218.1 -1445 41 1642.09t�1567.65 _ 177.26� _- 544.92 `"- _-_ _ -_� i 91.18� ! 2349.221 r 26 04; 2323 18, PASS 3420 80t 2887.92 228.38-1513.02 1 --- - _ j 1655.22 1578.52 _ 179.82 i 551.83 91.35 24_45 51 �_ 26.18 2419.32 PASS_ 3520 80t 2960.89 238.59 _-1580.63 1667.83 1588 92 182.29 558.52 _! 91.5E 2541.941_ --- _.. _ -----�� - ��- __ 26.33 2515.6E PASS ' ` v - - 2612.04 PASS F -_ 3620 8 0 t' 3033.86 248.79 1648.24 1679.47 1598 48 184.58 564.75 91.66 2638.52 26 48 3820 80f 3179.80 269-TO -1783.47E 1701.06j1616.111 188.87j 576.45-�91.95 2832 10;' _ 26 g0._-2708.60 PASS -_ ---_r- - ----- { _ 2805 30j PASS . r 3920 80t 3252.77 279.41� 185E-08 _1711.23 1624.38�_ 190.9E 582.02 92.0 2929.07j _ 26.96 2902.1E PASS 4020 80f _ 3325.74 0 289.61__-1918.69 1721.02E _ 1632.30E 192.89 587.42 92.21 - _ _ _ �_ 3026.17 27.13� 2999.041 PASS 4120.80t� 3398.71 �� 299.82� 1986.30 1730.45� 1639.90 194.8E �- 592 66� 92 33� 3123 38 21J f F 3096 07ASS 4220 80t, 347E 68 310.02� -2053 91 ! 1739.54 1647,20 196.66, 597 74' 92.451:` 3220 69' _27.49 3193 20 PASS_ _s --- _ �4320 80t� 3544 65� 320.23i 212E 52i - 1748.29; 1654 22 -- 4- _ _ _ 4 .. s _ j _ 198.46� 602 66f 92.561 -3318 1 OJ- 27 67 3290.43 PASS 347 45 1 3564.09j 32295E 2139.54I _ 1750.57� 1656 04 198.93j 603.95 92 59 3344 071 _ 27 72) _ 3316 35j PASS 4420.80tj 3618.57 330.28 2188.11 1757.24! 166E 36� 200.30�_ 607.73 - 92 66� 3415.301_ 27.85�_ 3387 44� PASS _ _ r 4520.80E 3695.79 339.76 -2250.9E 1768.04� 1669.95� 202.55613.88 92.743511.39; 28..34� PA 05� 3483SS 4620.80f 3776.23E 348.62-2309.64; 1788.28 1685.99; 206.76 625.47'• 92.77 36061E 28_39_ 3577.72' PASS �_-- -j _ _ - __-_ - _ nr �_ - _ -..__ _ � 4720 80f�- 3859.67� 356.85; 2364.127 - 1811.04 _ 1703 99r(- ._- 211.53 _ 638.56 _-. 92.77�- 3699 21 � _29.14i 376E-35 i PASS � _ 4820 80f 3945.88 364.4E 2414.21� 1836.20 1723.82 216.8E 653.12 92.76 _ 3790.49 -6 __ _.______ �_ 92 � _ . - - - _`- 29 561 3850.19! PASS I 1863.87 1745 SSi 222.66 669 22 92.72 3879 75i i ._ 4920.80t 4034.62 371.29 2459.76 5020.80t�4125.65 377.46 2500.67� 1904.16 177711a 231.19E 692.77� 92.62 3966.74� 30.12 3936.62E PASS 5120 80t _ 4218.72E _ 382.9E -2536 80� 1947.62 BMW 240.41' 718.24, 92.51;_ 4051.21 _ 30 72, _ 4020.49 PASS 5220 80t� 4313.57E 387.63 -2568 07; 1989 111 1843 45E 249.29' 742 65 u 92 39 - --I _ _- !_ E - -�_Y 413298a_ 31 28, - 4101.71 PASS 5320 80tj _ 4409 951 391.6E 2594.39�- 203E 23� 1876 15 258 52� 767 55 92_27 _ 4211.95_�_ 31.84� 4180.1 E PASS 1 5420 80 f 4507 59j 394.82 2615.69 2080.96 1914 58 - 269.65 797 08 92.10 4287 94 32 51 _.._ _ 5520.80t� 4606.23� 397.27-2631.96 213§_.4§ 3 v - ( f r 4255.43! PASS 1960 ]O! 282.94� 832.2"J 91.89 W_ 4360.65! 33.31E 4327.33 PASS 1 5620 80t; v 4705.591398.4 -2642.9 2003.82• 295.69; 866.14 91.69 4429.92 34 07 4395.85; PASS _ - m E _ @a O >B Clearance Report Cook Inlet Energy_ NFU#14-26 Ver#1 Closest Approach Page 41 of 53 3perator Cook Inlet Energy _ Slot North Fork # 14-26 krea Cook Inlet, Alaska -(Kenai Peninsula) i Well__ NFU #14-26 Plan ieldNorth Fork - Wellbore NFU#14-26 Plan facility North Fork Unit (NAD27) MKER NuGHEs CLEARANCE DATA -Offset Wellbore: NFU #23-25 Offset Wellpath: NaviTrak MWD<177-3045'>OnTrak<3183-107851> Facility: North Fork Unit (NAD27) Slot: North Fork #23-25 Well: NFU #23-25 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR lft] lft] lft] lft] lft] lft] ]ftl lft] Bearing Clear Dist MASD Sep Status 101 [ft] ft f 5720.80t 5785.42 5820.80t _ 4905.38 _ 400.000E - 5926.80t 5005.38 400.00i _ 6020.80t 5105.38 400.00 6120.80t� 5205.381 400.00[ 6220.80t 5305.38 400.00 6320 80t __ 5405.3� 400.00 i 6420.80tF 5505.381 400.06 6520.80t 5605.38' 400.00 r 6620.80 r _ _ t� - 5705.38 400.00j - 6720.80t 5805.38 400.00 _ 6_820.80t 5905.38 400,00� 6920.80t_ 6005.38 400.06 702080 6105 38 400 fill 7120.80 _ j' _ 7220.80t 7320 80t A 6205.38 6305.38� 6405 38 1- 400.00 400.00 400.00i 7420 80t 6505.38 460.001 7520 Wi 6605.381 406.00 762080�6705J38 _ 406660 7720 80t] 6805 38 400.00� 7820 80tr _ 6905 38 400.00[ 7920.80tr 7005. 5 38: 4 1 00.00 r-- 8020.80t, 7105.38 { 8120 80ti 7205.38 I U20 80t� 7305 38 t 83_20 80t� 7405.38 8420 80 7505.38 L 8520 80t; 7605.38 - --_ -_--- 1 ]--- 1t] 2254.88� 2048.47 _ 308.61--__ _- �v� 34.83�+_4460 84. PASS (_ 901.02 9147� 4495.67 2650.00 _ 2294.47 2_078.82 317 35 _92 87 91.32 _ 4536.21 35 32 4500 89! PASS 2650.00 2316.37( 2095.60 322 18 938 10 �_ 91.24� 4558.00 35 57 -_ 4522.T3 ! PASS 2650.00 2376.56 2141.63 335.42 974.56i 91.02i 4619.82 36.26� 4583.55! PASS -2650.00 2537.57 2264.89 371.18, 1071.78 90.44 4681.98 38.50 4643.48 PASS 2650.00� 2605.77 2317 61!_- 386.55 11 ]2 22 90.21 4742 761-- 39 33j 4703 42 PASS -�i-�- -2650 00�_ 2669.03� 2366 41�, 460 87 1149 83( 89 99 4803 78 40 09 4763 69) PASS -2650 fill 2729.87 2413.23 - -^ --�- �_ 4824 31 _ - __) �e 414 63 _1186.17I _ 89 78 4865.12 40.81 1 PASS 2650.00` 2794 H 2462.69 429.14 ]224.19`` 89.57� 4926.75� 41.594885.16 PASS _ 2650.00 _2861.21 _ 2514.04 444.17i 1265.10 _ 89.35 4988.62 42.41 4946.21 PASS 2650 00 2935.23 _ 2570.64E _ 460.93 1-309� ` 89.121 _ 5050 67�- 43 34! _ 5007 34; PASS -2650.001 2650 001_ 3134.66 _ 2723�87 504.78 _ 1429.54�-- 88.53s_ 5174.52� _ 45.621 51128.911 PASS -2650 00; 3209.81 2781 96! 521.40� 1474.2 1r 88.31' 5235.86; 46.1411 5189 73i PASS -2650 00' 3248.62 2811.82 529.98 1497.47 88.21 5297.73. 46.32 5251.41 PASS -2650 00 3290.96i 2844 21' 539.33; 1523 10; 88 09 5360 19; 46.541 5313.65r PASS - -_ --.._ -2650.00 3344.13 2884.71 _ S S 1.l Oj 1555 47) _ 87 94�__ 5423.08 _ 46.87�- 5376 22 PASS ----�_ -2650.00 _ 3411.78 2936 07 566.18�-1596 84�_ 87.761_ 5486.29 47.3315438.96! PASS -2650 00� 3500.67 3003 57� 586.24, 1651 09{ 87.52[ 5549.48 48.01 5501.48; PASS -2650 0Q 3590.16 3071 66, 606 59: 1705.47� 87.28 5612.48 48.70 5563.78 PASS 2650.00r- 3744 99� _ 3189 52� _ 642.23 1799 35I 86 88�� 5738 46 49.92�- 5688.54 PASS 2650 00� 3667 12� 3130 25 624 24 1752 15 87 08 5675 46; _ 49 30 5626.16, 2650.00 3826.32 _ 3251.53 666.43 1848.72�- 86.69� - 5801 46 50.57�- 575Qg9 PASS _ -- -� PASS_ -2650 fill 3904.01 [ 3310.921 677.04� 1895.97� 86.51 5864.44: 51.19+ 5813.25: PASS _-- 400.00 -2650 fill; 3973 6S; 3364.11' 692.19' 1938 301 86.36 5927.48, 51.75 5875.73 PAS 400.00 2650 OOr _ 4041 351 3415 75 - 706 80� _T 1. 979 57k 86 21 5990 69 52 30; 5938.39 PASS 400 fill 2650 fill 4133 241 3485 88� 726 72f 2035.50 _ - -I- 86.01 - - - 6053.87i -- 53.09 _ . 600 - 77� .. -_. PASS 400.001 2650.00 4224 66 3555 78 746.68_ - 2090.93��85 82 _ i6116.87, 53 89; 6062.981 PASS 400.001 -2650.001 4304.721 3617.04 764.33i 2139 36; 85.65 - 6179.8Q 54.601" 6125.20' PASS 400.00 -2650 001 4395.89' 3686 861 784.65 2194.36 85.46 6242.65 55.43 6187.22, PASS E ca 008 Cook inlet Energy_ 'Operator ICook Inlet Energy ,Area ICook Inlet, Alaska (Kenai Peninsula) ;Field f North Forki� 'Facility-rNorth Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 42 of 53 Slot North Fork # 14-26 (Plan) Well NFU #14-26 Plan Wellbore NFU#14-26 Plan BAKER NY6NES CLEARANCE DATA - Offset Wellbore: NFU #23-25 Offset Wellpath: NaviTrak MWD<177-3045'>OnTrak<3183-107851> Facility: North Fork Unit (NAD27) Slot: North Fork #23-25 Well: NFU #23-25 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [ft] [ft] [ft] [ft] [ft] [ft] Bearing Clear Dist MASD Sep Status _ _ _ M _ [ftl IN _ [ft) 8620.80t 7705.38� 400: 0� 2650.00� 8975.22�_ 7807 . 1288 884 3582 891__ 81.88 6296.78 i 82.76r_6214.03.r PASS 8720.80t 7805.38� 400.00-2650.00 _ 9064.24 7896 83 1287 70 _ 3581 64� 81.89� 6295.21 82.98 6212.24r PASS 8820.80t 7905.38-400.00-2650.00 9143.89 7976.47C 1287.08�_ 3580.68(_ 81.90r_ 6293.911 83.21 6210.70� PASS _ __ _ _- __._ _. f 8920.80t 8005.38� 400.00-2650.001 9240.22� 8072.79; 1286.56:, 3579J _ 81.901 6292.89; 83.45� 6209.44 PASS 9020 80t, 8105.38 400.00-2650.00 9325.14 8157.71 1285.72 3578.971 81.91 6291.84 83 69 6208.15 PASS 9120 80t 8205 38t 400.00 2650 00 9395.82 8228 37` 1284 88� 3578 69 _ 81.91 6291 27� 83 93 6207 34 PASS __ _ . _ 7.__ __ ..__ 9220.80t�� 8305.38� 400.00 2650 00 9489.54( 8322 09 1283.56 3578.61 81.93i 6290.98 84.18 6206.80 PASS -� _- ._ -- -- -- - _ - -._.._-_ __. - __ _ -_ __ - - _ __ ____ 9320 80t 8405 38; 400.00-2650.00 _ 9714.41�-8438 95 1281 79 _ 3578.38 81.94 6290.58 84.45 _ 6206.13 PASS 9420 80t� 8505 38' 400.00 2650.00I 9714.52( 85, 7 05 1281 20 3577.78 - 81.95 6289 95 84.72� 6205.23 PASS 9620.80t 8705.38 400.00 2650.00 9831.40 8663 92` 128Q.68 3576 9T 81.95 6$9,22v85.0120`4F PASS 650.00 _ _� -_�v (- 994831 _ 8780.82) 1279.78 _3575.82 81.9 6288.131 -85.30 6202.83 PASS - 9720.80t� 8805 38 400.00 _-2_650.00 10053 06 _ 8885.57 �_ 1278.78 _ 3574.65 81.96 _ 6286.89 85.58 i_ 2_01.31 P_AS_S _3 9765.42 8850.00�-400.00�-2650.00�i 1009669�� 8929.19_ 1278.3� 3574.151 81.97- 6286.32 85.70 6200.62 PASS POSITIONAL UNCERTAINTY - Offset Wellbore: NFU #23-25 Offset Wellpath: NaviTrak MWD<177-3045'>OnTrak<3183-107851> Slot Surface Uncertainty @1SD -[Horizontal 2.000ft Vertical 11.000ft� Facility Surface Uncertainty @1SD Horizontal j20.000ft ;Vertical----13.000ft HOLE & CASING SECTIONS -Offset Wellbore: NFU #23-25 Offset Wellpath: NaviTrak M WD<177-3045'>OnTrak<3183-10785'> String/Diameter Start MD End MD Interval Start TVD End TVD Start N/S Start E/W End N/S End E/W IN J- [ft] [ft] ]ft] IN ]ft] ]ft) [ft] IN _--- - -- _ _.._.r 1 ii nductor 20.55 � 137.00 116.45 � 16.37 132.82 36.92 128 20 36.81 I A 128.44 10 75in Casing Surface 20.55 3102.00� 3081.45f - �- 16.372698.431 36.92! 128.20! 170.131 493.87 Ea O�B Cook Inlet Energy_ Inlet Energy Inlet, Alaska Fork Fork Unit V Clearance Report NFU#14-26 Ver#1 Closest Approach Page 43 of 53 i Fork # 14-26 (Plan) #14-26 Plan t14-26 Plan Z P ja as BAKER HYGNES WELLPATH COMPOSITION_ -Offset Wellbore: NFU #23-25 Offset Wellpath: NaviTrak MWD<177-3045'>OnTrak<3183-10785'> Start MD End MD Positional Uncertainty Model ---'---'---Log __ — _.__. Log Name/Comment � � Wellbore 20.55 3045.00 NaviTrak (MagCorr) NaviTrak MWD< 177-30451> NFU #23-25 j 3045.00 10785.00 , OnTrak (Standard) a _ g �OnTrak MWD<3183-10785'> NFU #23-25 t OFFSET WELLPATH MD REFERENCE - Offset Wellbore: NFU #23-25 Offset Wellpath: NaviTrak MWD<177-3045'>OnTrak<3183-10785'> MD Reference: Nabors 99 (RTE) Offset YT75& local coordinates use Reference Wellpath settings (See WELLPATHDATUM on page 1 of this report)_ Ellipse Start MD 7n_4Gft ed aeB Clearance Report r�`'. NFU#14-26 Ver#1 BAKER Cook Inlet Enemy_ Closest Approach Page 44 of 53 HHGHES REFERENCE WELLPATH IDENTIFICATION Operator Cook Inlet Energy_ _ _ _ul_ v Slot North Fork # 14-26 (Plan) !Area Cook Inlet, Alaska (Kenai Peninsa) Well- #14-26 Plan -- - Field North Fork Wellbore NFU#14-26 Plan -- - _ -- - - - -- -- - (Facility 'North Fork Unit (NAD27) CLEARANCE DATA - Offset Wellbore: NFU#42-35 Offset Wellpath: NFU#42-35 Facility: North Fork Unit (NAD27) Slot: North Fork #42-35 Well: NFU #42-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ftl [ftl IN IN IN IN [ft] IN Bearing Clear Dist MASD Sep Status _ 1*11 _ _ [ftl [ftl _ [ft] 20 80 �_� 20 SOj _ -0�00( 0 OOi _ 20.50 _ _ 20.80` - 0.061 240.08( 90 01I 240.08 6.91 233.17� PASS 120 80fi� 120 80( _ 0.00 - 0 0 _ 120 47 _ 120.77 0.28 240.09 89 93 __ 240.09 12.94 227.15 PASS _ 220 80fi 2201 _ i 0.00 _ 0.00 220.83 d 221.12 - 1.28 240.07 _ 89.70 240.07 -13.00 227.07 PASS 320 80` 320.80fi 0.00( 0.00) 321.11 321.39; 2.85� 239.88, 84.32 239.90; 13.10� 226.80I PASS 420 80fi 420.80; 0.00; 0 00 42f1,72 420 98 4 50; _ 239.60> 88.92 88 60_ 239 65'_ 13.25 226.39i PASS 5010 506fi r 500 06�--OAO - 0 00-5 070- _ 502.30 5020 56j _ 5 91 239.48�_ 88.591 239.561 13.40i 226.16( PASS j _-0- 507.30 _ 56-7 _ 6.00 239.47 I 567.15- j-� 507 15 OAO i �__ v� 88.57 239 56i 13.411 226.15 PASS r- 520.80fi - 520 80,521.00 521 25! 6.24� 239.441 88.51 239.63� 13.44� 226.19 PASS 620 80 620.72 0.571, -3.7& 619.91 620.15 _ 7 67` _ 234.34' 88.33 243.22 13 80' 229 42, _PASS -- fi - - - - 22 - .8 _,__ ._. 720 80fii _ 720.31 �- 1'90�-12.61j_ 718.65� 718.88 8 171_ 239.85, _ 88.- 8j 252.54i 14.53� 238.01�PASS 80t� 819.29 4�01(� 26 58�- 817.84 818 08i 8-70 Y 24034r 88.99 -- 266 96f -15.26 - 251. PASS 6.89 45 65 916.65 916.821 8.97 240.69 89.58 286 35 15.96 270.39 PASS i0�00.80fir 1014 37(- 10.53! 69.781 ]011.87( 1012.10 7.89� 24I.12� 90.49j 310.92( 16.621 294.30 PASS 80fi. 1109 93, 14.93. -98 89 1104.44, 1104.59 _ 4.44 242.02; 91.76� 341.11; 17 26 323.85' PASS --- : - - - - _ 1220.80fi _ 1203.81 20.06 132 91 1192.76t 1192 __ -1 16 _ 243.781 93.221 _ 377.4_5i 179 0i 359.551 PASS _ 1320 80fi 1295 77� 25.92(_V215 27�_-1364.76' - _ 1363.74I_ 18 38� 249.07� 96.25I 467 63 `19.19� 448.43(PASS 1420.80fi� 1385 54i _ 32.49I �1279.25 1278_8�5 8 60 246.21 94.72 419 71 _18 54 -_ 401.17 PASS ' 1520.80t 1472 891 39.76I-263.39, 1446.3 - 1 444. 221 30.3 - 251.59( 97.75� 520.51 19.85 500.661 PASS 1620.80fi _ 155_7.5_1; 47.69 315.96 1516.60 1513.58 _ 42.31 254.36 98.97 _ 579.0_5 20.47 558.59PASS 1720.80j i 1639.35[ - 56.28i --372 84 1582.48 _ ®._._ .-___ _ _ 1578 22� --54 48 25802; 99.96(_ 643.43� 21 09(- 622.34j PASS 1820.80fi� 1718.01 65 49 433 88� _ 1646 37 1640 61 -_ -67 591_� 262.11�_ 100.83 712.82 _ 21 73 69L09 PASS 1920.80t 1793 33r 75.31 498 91 _ 1707 951 1700.43 -81.61 [ _ 266.34� 101.59( 786 68� 22 39j 764.291 PASS ;_ __._ _ 1937.97 1805.91 77.05 510.46i 1718.52� 1710.66� 84.14; 267.07 101.711 799.76; 22.31C 777.25j PASS 2020 80fi� 1866 35 85.50 566 46 1769.71 1760 13 -96 86 270.54 102.29' 863.20i 23.00` 840.20 PASS 2120.80fij_ 193932_ 95.71 - - ___.-_ ------ - -- _:. _ ~-- r-634 07, 1828.98 1817 09 _ -112 78 274.37 102.93 _ 940.04�_ 23 63� 916.41(PASS 2220.80fi( 2012.29� 105.91 701 69' 1882 92j 1868 6_3 128 26�_ 277.98� 103.44 1017 45� 24 26� 993.20i PASS 2320.80fi� 2085.26� 116.12� 769 30f _ 1933 83i 1917 Ol 143 68( 281 64 103.89 1095 57 _ - I W -- 2420.80 2158 23i 126.331 836 91� 1979.92i 1960.571 -158 29 285.30( 104.23� 1174 49C 25.54f 1148.941 PASS or___-2231 20` 13633`-904.52; 2030.83 2008.41-175 141 �289V69 1`04�63 ^ 1254 15j 26.31 1227.84; PASS Ea C�0 Clearance Report Fr.'■ Cook Inlet Ener NFU#14-26 Ver#1 �� Y- Closest Approach Page 45 of 53 HUGHES IDENTIFICATION Dperator lCook Inlet Energy - v _ Slot _ North Fork # 14-26 (Plan) Area - Cook Inlet, Alaska (Kenai Peninsula)_ Well NFU #14-26 Plan ?ield�North Fork 117.11h rA IMVTT441A o4 ni-- ;acility North Fork Unit (NAD27) CLEARANCE DATA - Offset Wellbore: NFU#42-35 Offset Wellpath: NFU#42-35 Facility: North Fork Unit (NAD27) Slot: North Fork #42-35 Well: NFU 442-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR Iftl [ftl [ftl [ftl IN [ftl [ftl [ftl Bearing Clear Dist MASD Sep Status ! 2620.80f 2304.17 1111 v 146.74� -972.13 - ��5.11 --[3 [ftl 30 r �� 2088.93 - 2062.66-195.34r-- 294.61C 105.11 _ 1334.16 27.27 1306.89I PASS i2720.80f 2377.14 156.94-1039.74 2143.92 2113.66 -215 4 93 22 8.90 105 55 1414 22 28 24 1385.99 PASS F__ _ 2820.80f 2450.11 167.15-1107.35 2189.16 - 2155 39 -232 55 302.55��105 83 _ 1494.80�- 29.08 1465.72 PASS 1174.97 ^ 2229.90 - 2192.72-248.47 306.07; 106.04: 1576.04� 29.88': 1546.1 P 2920.80f 2523.07 177.35 ! 6� ASS 3120 _6- _.. _ - _ -- _. �_ �_ _ - 1657 95 30 74 1627.21 PASS 227133 43 - f �- ._.._._ �- . 1740.4031 66{ 1708.74` PASS r - 1 _. r __ 3220.80 f � 2741. 8 207.97-13707.801 2360.91 2318 61 282 80' 309.90 ] 06.49,I__ , W - ,. ____�._ _.27___ ___.97I__�_ � ,.- - � .03� 303.34 318.401 106.781 1823.25 _ 32.74 _ 1790.511 PASS 3320 80 f 2814.95�_ 218.18� _ 1445.41 _ 2400.29� _ 2346.05 _ - 320.96 __ 322.12�_ 106.961 - 1906.49 _ 3337 - 1873.12� PASS 3420.80ti 2887.92; 228.38;-1513.021 2436.07[ 2377.63j-337.40 325.651 107.]Ofi 1990.29 33.94 1956.34jPASS 3520.80f 2960.89 238.59-1580.631 _ 2472.37 2409.42-354.53` 3_29.36` 107.25' 2074.60' 34.59 2040.01 PASS 3620.80f _ 3033.86' 248.79j 1648.24r_2512.38(- 2444 16' _ -373 93�J 333.53I 107.44j 2159 39' _ 35.38 2124.01 PASS 3720.80f 3I .8 269.20-1783.47[ 2603.89� _ 2522.98' '-419.52� 342.65� 4107.95 2329.40 37.43 6 �1 - 2207 67EPASS F3820.80 f 3179.80 --{--- ---- - 6 - - _ 3 2291.97� PASS 3920.80tj 3252.771 279.41'-1851.08{ 2636.41 { 2550.73 436.16j 345.93; 108 04' 2414 90j 38.16, 2376.74 PASS 4020.80t 3325.74 289.61-1918.69 2662.34 2572.74 -449.57 348.74 108.06 _ 2500.91 38.74' 2462.18 PASS 4120.80f! 3398.71' _ 299.82 1986.30 2687.40 2593 921 -462 64 _ 351.64 108 06 2587 47j 39.32' 2548.15j PASS 4220.80fI 347L68+_ 310.02j--2053.911 2722.971 2623.851 _.481.391 _ M5 ._O� 108.181 2674.41 40.23 2634.18f PASS_ 4320.80fr 3544W6 320.23�-2121.52� 2757.65� _ 2652.87 _ 499 90� 36O.14� 108 291 2761.62 41.15( 2720 47� PASS - 4347.45 �3564.09�i 322.95(-2139.54 2764.31r 2658.431 503.48� 360.96{ 108.29j 2784.91 41.32{ 2743.591 PASS 4420.80ti 3618.57330.28-2188.11' 2782.89 2673.88 513.52 363.30; 108.30 2848.53 41.80 2806.73 PASS r 4520.80f20.80f ! - 3695 23;- 339.76 2250 91 v 2809.181 2695 64 v 527 88 _ 366.73' 108 34� _ 2933.45( 42 47j _2890.98! PASS 348.62 2309 64 2850.71I 2729 79 550 85 _ 372.29 108.54� - r . � [_ �_ 3016.091 _ 43 61f 2972.49� PASS 4820. ( - -- {_ 3096 07I 449014720.80f _ 3859.67 356.85 2364 12 2900.74 277076 -578 76� - 378.98� � ]08.83 � 3051.18 PASS > 80f 3945.88 364.41 2414.21, 2958.94 2818.50 611.09; 386.94 109.20' 3173.17 46.17 3127.00! PASS I 5020.8pt 4034.62 371.29 -2459 76 3007.39 2858.12-638.19 393.49 109.48 3247.19 47.23 3199.96 PASS _ ___L__ 1.__„2924 23j--- 684 851_ - 405.02 109 95i 3386 761- 48.93 _ ; 3270.43' PASS 4125.65� 377.46, 2500 67 3044.59 2888 34 659 27 398.67 109 68 3318 42� 47.98 �' 5120.80f _4218.72 382.91 2536,803089.12 3337.83 PASS 5220.80#�_4313.57r-387.63� 2568.07�Ml3139.57i s 2964.60�- 714J22! 412.30' 110.29 3452.021 50.03; 3401.99 PASS i 5320.80f1 4409.95r 391.61. 2594.39; 3193.07 3007.17�-745.67{ 420.08 110.67 3514.61i 51.19 3462.82' PASS 5420.80f 4507.59 ` 394.82-2615.69 3250.58 3052.72'-779.71 428.63 111.10' 3572.6852.45; 3520.23 PASS Ea CeB Cook Inlet Energy_ Operator I Cook Inlet Energy Area ICook Inlet, Alaska (Kenai Peninsula) Field INorth Fork Facility T14orih Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 46 of 53 i Fork # 14-26 #14-26 Plan V14-26 Plan BAKER NYGNES CLEARANCE DATA - Offset Wellbore: NFU#42-35 Offset Wellpath: NFU#42-35 Facility: North Fork Unit (NAD27) Slot: North Fork #42-35 Well: NFU #42-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR Iftl Iftl Iftl Iftl 11tl Iftl Iftl Iftl Bearing Clear Dist MASD Sep Status - - - _ M Iftl _ _ Iftl _ __ Iftl 5520.80t 4606.23T� 397.27�-2631.90(_ 3334 35 �`3118 78 829.79i-- 440.68( 111.77�_ 3627 53 54.45 3573.08( PASS �5720.80t 4805.40 _ 399.84 2648.92 3463.57( 3220 Si+�909.24 - _ 459.42 112 81+ 3725 87 57 26 - 3668.60 PASS 1 5785.42 4870.00, 400.00 2650.00 3519.83 3264.90 940.72( 467.99 113.271 3754.43 58.531 3695.90 PASS 5820 80 4905 3&W400.0 400.00 2650.00'3702.13; 3341.28� 996.27 482.57 114.02 _ 3769 48; 61.03 3708.45 PASS f3615.39 5920.80t400.00, 26503411.24j 1045-.9-5� 495.30 114.69; 38', . 62.85 3748.32; PASS 6020.80t400.002650.00T 3780.47 _ 1 __3474 77)-1090.24 507.08` 115 27� 3853 16 64.40 3788.77� PASS 6120.80t400.00500 3869.24 3546 92-1140.08 520.82115.91� 3895 69 66.20 3829.49 PA6220.80t0-2650.00 3927.99 3594.721 -1172.97 530.05( 116 32 ( 3938 70 67.16 387I.53� PASS 6320.80 f 5405.38400.0"-2650.0_6f 4039.57' 3685.67' -1235 11r 547.81 117 08 3982.09 69.53' 3912.56' PASS _6420.80t 5505.38[�400.00Cv-2650.00F 4140.49-_ 3768.33 _-1290.891 563.36 117.75� 4025.19(-71.5_8 3953.61 PASS 6520.80t 5605.38 _ 400.001 -2650.001� 421434 3828.97� 13_31.47 574.82 118.23 4068.55 72.88 3995.67 PASS r __ _� _ _ _ __ 6620.8Qt 5705.38 _ 400.00(- 2650.001 _ 4309.78 3907.27-1_383.93 589.80 118 84 4112.4i 4.73(`4037.68 PASS 6720 80r -- . __� - _ -_._, _.____� T7__ �..- 5805.38( 400.00 - 2650.00I 4396.77; 3979.000-1431.22� 603.45 119.37, 4156.20; 76.32( 4079.88� PASS ( 6820.80t 5905.38 400.00-2650.00 4468.59 4038.10-1470.44 614.67 119 81 4200.40; 77.51. 4122.8_91 PASS . - - 6920 80t 6005 38I _ 400.00. -2650 00 454935 _ 4104 44'.-1514.75 627.29 120 30 4245 OSr 78.91 166.14 PASS 7020 -- _ 6105.381400.001-2650.00 4651 60� 4188 261 1571 34 642.33� 120.91j 4289 641 80.8_8 4208.75j PASS 7120.80tr 6205.38( 400.00-2650.00� 4707.71 _ _( �_ (� 4234.08 1602 69 650.44( 121.25( i4334.71 81 66 4253.06( PASS 7220.80t� 630538 400.00 _ S -2650 00 4762.15 4278.41 ,�- .�( ( _ _ -1633 22(� 658.63(� 121.57 4380.60 82.38 4298.22 PASS 7320.80t 6405.38' 400 Q0; -2650 0' _ 4827.27 4331.26 1669.9-3' _ 6.6.8.66 121 45;_4427_.MR 7420 80t 6505.38 400.001 2650 00[� 4900 81 j _ 4390 66 - - 1711.82 679.79j 122 38j_ 4474.30 84.56 4389.74 PASS 1 7520 80t� 6605 38 400 0 2650 00t 5040.47 - _- 4 5 ASS ._._.- V... . I--- _ 1__ _450373-1791.34 699.70 12319 _ _ i_ ____. -_---� + W� - ( 4520 99 87.45 4433.55 PASS 7620.80t� 6705.38( 400.00-2650.00 5218.64 4649.28-1891.41 723.01 124.19 7720.80�- 6805.38�-� 400. - - I- - - � _ . �_ 4566.761 91.23 - 4475.531 PASS , f, 00,-2650.00 5284.74' 4703.65 1927.99( 731.61 124.55:. 4612.17 92.17� 4520.W PASS t 400.00 2650.00 5373.04 4776.26 -1976.95 742.91 125.01. 4657.78 93.64 4564.14 PASS t05425.33 400.002650.005425.33_4819 212006 06( �749.72 125.29 �. 4_ 703 86(; 94 21 4609.65 PASS 2047_ 455.57 PASS8020.80t 7105.38 400.00 -260.00i 5489.441 772.5.62 95.01 8120.807205.38 400.00 -2650.001_ 5578634944.2 770.41 126.071 4797 7] 9650 4701.21 PASS 2650004747.52 PASS822.80tF 30538-400.00 i .2(3.9. Aa Q �i 0r{l0l a 5746r 6(, 5082.08-2184.5& 793.74 126.89: 4892.56 99.07 4793.49 PASS Ea ae13 Cook Inlet Energy_ Operator Cook Inlet Energy Area Cook Inlet, Alaska (Kenai Peninsula) Field North Fork Facility North Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 47 of 53 CLEARANCE DATA - Offset Wellbore: NFU#42-35 Facility: North Fork Unit (NAD27) Slot: North Fork #42-35 Ref MD Ref TVD Ref North Ref East Offset MD [ft] [ft] [ft] [ft] [ft] 8420 80t - 7505 381 400.001 -2650 001 _ 5802 49 8520.80t 760538 400.00j -2650 00 5869.17� 8620 80t 7705 38 400.00I-2650.00( 6046.25' 8720.80t 7805.3$ 400.001 -2650.00 6111.91 i 8820.80t 7905 38. 400.00 -2650 M 6185.29; � of 8005.38 400 00 2650 00 8995.72� 9020.80t 8105.38 400 00 2650 00 9106.99 9120.80t 8205.38 -_ 400.'66 _- 9228.01 F- 9220.80t� 8305.38j 400.00( _-2650.00� -2650.00' 9444.561 1 9320.80t8405.38i 400.00, -2650.06 9498.34 9426 ' 80tj 8505.38 400.00i -2650.00i 9546.81 9520.80t 8605.38 400.00 -2650 00 9620.80t 8705.38 400.00 0 00 9857.39 9720.80t1- 8805.38� 400.00 _ -2650.00j� 9968.00r 9765.42 8850.00 400.00 2650 00, n 9968.00 Slot_ North Fork # 14-26 (Plan) Well i- NFU #14-26 Plan Wellbore NFU#14-26 Plan MA I P Pilo MKER NY6HE5 Offset Wellpath: NFU#42-35 Well: NFU #42-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ft] [ft] [ft] Bearing Clear Dist MASD Sep Status M [ftl _ [ftl _ [ftl _ 5128.401-2215 59�- 801.87; 127.15j 494633` 99.68i 4840.651 PASS 5183.05 2252 49�811.75� 127.46 4988 70 100.52) 4888.18FPASS 5329.25-2349.16�- _ 837.6Y- 128 25 5036.19 103.8_4 _ 4932.36 PASS _ 5383.59,--2384.871 846.10� 128.54�- 5083.63' 104.62! 4979.01! PASS 5444 18;-2425.00 _ 856.21 128.86 5131.44 105.57, 5025.87 PASS 8075 26, 3178 07 1043.64;- 134.09 5143.00' 136 73j 5006.27 PASS s _ -- 8186 49 3174 721 1044.39� 134.06 5141 37' 136 79 5004.58� PASS 8307.45 3171.34 1044.87 134.03 5139.74 136.85 5002.89 PASS 8523.75-3161.10 1044.82 133.94 5136.23 136.72 4999.50; PASS 104 8577.44-3158.03 4.84 133.92 5132.35 136.85 4995.50 PASS 8625.87 3155.91 1045.04 133.90' S129.55 136.99 4992.561 PASS 8754.67-3150.64 1045.82 133.85 5127.22 137.02H486.�79,r _.__ -.-- . -- -__ - _.___8936.04 3]4041 1046.16 133.77 5123.41 136.92PASS 9046.381-3132.701 1045.78 133. -1 i 5118.28i 136.93-4981.351 PASS 9046.38-3132.70 1045.78 133.71 5116.37 137.04 4979.33 PASS POSITIONAL UNCERTAINTY - Offset Wellbore: NFU#42-35 Offset Wellpath: NFU#42-35 Slot Surface Uncertainty @1SD lHorizontal 2.000ft Facility Surface Uncertainty @ 1 SD � � zo Horintal 20 00ft - HOLE & CASING SECTIONS - Offset Wellbore: NFU#42-35 Offset Wellpath: NFU#42-35 String/Diameter Start MD End MD Interval Start _ TVD End TVD Start N/S [ft] [ft] [ft] [ft] [ft] IN 9 625in Casing Surface 20.80 2920.00 2899.20; 21.102786.56 -0.03 1.000ft Start E[W End N/S End E/W [ft] [ft] - IN 146.36 179.68 189.50 Ea X8 Clearance Report FA.■ NFU#14-26 Ver#1 Cook Inlet Energy Closest Approach BAKER REFERENCE WELLPATH IDENTIFICATION Page 48 of 53 NUGHES 'Operator Cook Inlet Energy Slot North Fork # 14-26 (Plan) Area Cook Inlet, Alaska (Kenai Peninsula) _ _ Well NFU #14-26 Plan — IF ei ld�—North Fork — Y Wellbore NFU#14-26 Plan --- — — !Facility iNorth Fork Unit (NAD27) - WELLPATH COMPOSITION -_Offset Wellbore: NFU#42-35 Offset Wellpath: NFU#42-35 Start MD End MD Positional Uncertainty Model J Log Name/Comment Wellbore L—[ftl [ftl 20.80 2863.00 NaviTrak (MagCorr) _ NaviTrak MWD<0-2863> NFU#42-35 2863.00 9968.00 OnTrak (Standard) I OnTrak(Standard)<2863'-99685 (NF[J#42-35 OFFSET WELLPATH MD REFERENCE - Offset Wellbore: NFU#42-35 Offset Wellpath: NFU#42-35 MD Reference: CIE 37 (RT) Offset TVD & local coordinates use Reference Wellpath settings (See WELLPATHDATUMon page 1 of this report) Ellipse Start MD 20.80ft Ea MB Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 49 of 53 WE P aw 2 BAKER NuGHEs REFERENCE'•IDENTIFICATION Operator Cook Inlet Energy Slot North Fork # 14-26 (Plan) Well NFU #14-26 Plan Area Cook Inlet, Alaska (Kenai Peninsula) Field North Fork IFacility INorth Fork Wellbore `NFU#14-26 Plan Unit (NAD2'7) CLEARANCE DATA - Offset Wellbore: NF#41-35 Offset Wellpath: GyroData PGMS<100-9932'>Inctination ONLY<10070-12334'> Facility: NF #41-35 (NAD27) Slot: North Fork #41-35 Well: NF #41-35 Threshold Value=0.00 ft f = interpolated/extrapolated station Ref MD Ref TVD Ift] IN -- 20.80 I 20.8 - 120.80t i 120.8 220.80t 220.8 - 320.80t 320.8 500.00 503.12t' 503.1 J 520.80tj 520.801 620 80t J _ _ 620.72; 1i 720.80fC 720 P 820.80t� 819291 _ 920.80t 917 40' 1.620.801014.37 s 1120.80t1109 93; 1220 80t I 1203.81 1 1320 80tj 1295. 771 _ 1420 80t 1385.54, 1520 80t 1472.89' 1620.80f 1557.57'. j 1720.80t� 1639.35 I 1937.97 2020.80t' 2120 80tj- 2220 80t I _ _ F 2320 80t; 2420 80t� - y 2520.80f 1718.01 Ref North -� Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR IN Ift] Ift] IN IN IN Bearing Clear Dist MASD Sep Status 0.00 0 001-_ 0 00( 125.55 24 45i 125 20 1266.96j M _ 1037.93�_ 140 68 1037 74j 140.681_ IN 1637 84j 1637 591 [ft] 121 94T__ _ _ 121.94 [ftl 1515.89 PASS 1515.65 PASS 226.30 1266.80 0.00 0 00� 326.84 � _ 225.74 _ 1266.66 1037 44 140.68[ 1637 30 121.67 1515.63j PASS 0 00 O.00j 426.26 325.16� -1266.61 J 1037 06! 140.69� 1637 02; 121.68� 1515.341 PASS 0_00 0 00 0 00 0 0-0, 525 41: 602 62 424.30 501 _ 1266.60 1036 68' _ 140.70 1636 77J 121,69 1515.08 PASS ; 51,f 1266 67j 1036.40� 140.71 166.4 121 70 1514.941 PASS 0.00 __ 0 00 604 63� _ 503.53I_ _ 1266.671- 1036.40� _ 140.71 - 1636 64�-121.70� 1514.94; PASS 0.00! 0.021 0 00 -0 ] 1' 605.00T _- I 621.00j 503 90 _ _ 519.90 1266 67 _ 1266 71 1036 39 I_ 140 71 1636 64� 121.70 1514 941PASS_ _�_ 1036 35 140 71 1636 72 121.70 1515 02j PASS 0.57; -3 781 709 94 23 1036 29_ 140 64 163_9 87' 121 72`_1518 16 PASS 1,90 ---4.01 12 61 - - _ 804 091 _608.83 702.981 _1267 1268 18, 1036 46 _ ` 140 44! 1647 4F 121 76 _ 1525 6- PA_SS --_ _ -26 58 902 63 - 801 51 1269.32 1036 72(_ 140 14; 115 9 01 121.81 1537.20 PASS 6.89 -45 65 _ 1003 5- - --- 902 41 j - = 1270.521 1036 84 - 139 72; - _ 1674 46 _ 121.88 1552.58 PASS _ _ 10.53 1102.75j ]001-&2 -I271.67t 103675( 139.21� 1643.7 121.95 1571.76 PASS 14,93; -98.89 1202.75' 1101.62 -1272.74' 1036.47 138 60, 1716.74j 122.03 1594.70; PASS 20.06) --_._ 132 91 13 I 1295.56� J 1194.42 1273.701_ 1036. i l j- 137.90 1743.70 122.14i_ I6i- 7i PASS 25_921 171 73J_ 1389.171 1288 02 1274.58` I ] 035 82� 137 12; - 1774.70j 122.26� 1652.44' PASS 32.49 215 27j- 1479.96 1378 81 1275.30� 1035 59j� _ 136 28' 1809 70j _ 122 40 1687.30� PASS 39.76 -263 39 1566 20j 1465 O5, 1275.97� 1035.37[ 135 37J 1848 78 122.58j - ._ 1726 20� PASS 47.69 -315 96 1649.29 1548 13 1276.60 1035.29. 134 42 1892 02, 122 78, 1769.23PASS _ 56.28 372 84j -- 1731 75i - --_.._ 1630 59f - 1277.17; 1035 33f_-_ 133 44 _ 1939 36� - 123 02 _; .--� 1816.34 PASS 65.49� - 433 88 _ 1814.54i _ 1713 38; _.. 1277.57 1035 341 132 43�® .__ 1990 59� _. _._._ 123.291 _ -- f . __- 1867 29; PASS 75.31 -498.911 1892.50j- 1791 34 1277.70! 1035.39� _ 131.41 - 2045 65, 123 611 1922.0 1 PASS 77.05� 510.46 1905.36j 1804.20; 1277.69! ]035.41 131.231 2055.49 123 67E - 1931 83j PASS 1866 35 85.50 566 46. 1966.16' 1865.00 1277.71 1035 46' 130.401 210 45 123 93j 1979 52 PASS 1939 h; 95.71 634 07; 2038.44, 1937 M; _ 1277.80 1035 44 129.44 2163 1 90 124.111_ 2037 79 PASS 2012 29 105.91 i -701 69j _ 2 ] 09 48; 2008.3Z - - -1277.851 1035.52 128.54 2220.97j 124.46i 2096.511 PASS 2085 26 116.12 769 30 i 2180.12� 2078 961-- T--_.-,- 1277.91 J- 1035 68 - 127 68` -- 2280 64f- 124 82�- 2155.82 PASS 2158 23 126.33 836.91' 2253 23i -- 2152 07, 1277.991 1035.88, ' .. 126.87; _. 2340.83, G 2215.64; PASS 2231.20 20 1 ,36.53 -904.52 2328.07 2226.91 --1278816 ]036.01' = 126.09' T 2401 43 125 57' Y2275.87; PASS 0 (rB Cook inlet Energy_ erator Cook Inlet Energy ea Cook Inlet, Alaska (Kenai Jd North Fork ility North Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 50 of 53 Slot lNorth Fork # 14-26 (Plan) nsula) Well NFU_#14-26 Plan Wellbore INFU#14-26 Plan Fe III P _p- 'A as BAKER HY6NE5 CLEARANCE DATA - Offset Wellbore: NF#41-35 Offset Wellpath: GyroData PGMS<100-9932'>Inclination ONLY<10070-123341> Facility: NF #41-35 (NAD27) Slot: North Fork #41-35 Well: NF #41-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR [ftl [ftl [ftl [ftl [ftl 1$1 [ftl [ftl Bearing Clear Dist MASD Sep Status - M [ftl [ft1 [ft] 2620.8 2720.80 - 2820.8 2920.8 2336.42 PASS _ 2397 38 PA-S S- 2458.751 PASS 2520.331 PASS t --0-1278.15 1036.28 122.75 2709.53 127.48 2582.05 PASS_ 3020 80 2596.04 187.56 -1242 58, 2704.61 2603 45 3120 80t� 2669 O11 197 76 1310 19 2775.38' 2674 22,-1278.011 - 1036 18' 122.17' 2771 88 ] 27.861 2644.021 PASS __-- . _-__ . _. _ _ 3220 80t1 2741 98 _ 207.97 1377.80 2847 80� 2746.64'=1277.88�- 1036.11� 121.611 2834 561_ 128.24 - 27&.h PASS - __ __ --- - 3320.80 _- �- - - - t� 2814 95 218.18 1445 411 2921 85� 2820.69 1277.69 1036.08 _ 121 08� 2897 49 128.36 2769.12 PASS 3420.80t 2887 92228.381-1513.02, 2997.73j 2896.571 1277.38 1036.05 120.57� 2960 60{ 128.52 2832.07f PASS . 3520 80t 2960.89 238.% -1580 63) _ 3061.74: 2960 58 1277 09; _ 1-036 11 120.081 3024.00i 128.68 2895.32 PASS _� - __. --_ _ .._ 3620 80t;- 3033 86j 248.79j -1648 24` _ 3127.53 3026.36 _ 1276.86j- 1036 3_6E_ 119 61� 3087 84� 128.85'_ 2958.99 PASS 3720 80t 3106 831 259 00 -1715 861 3196.90 i 3095.7� 1276.62 �1036.73 119 16 3151 98� 129.02� - 3022.95� PASS _ _ _ PASS 80tj 3179.80� 269 20 1783.473264.30 3163.131�1276.33 1037.22 _ 118.72 3216.401_ 129.20� 3087 201 PASS 3920.SOt1 3252.771 279.41 1851.081 3334.61�i3233.441 1275.961 1037.89 118.30[ 3281.111 129.39, 3151.72` PASS 4020.80ti 3325.74' 289.61 1918.69' 3409.30 3308.12-1275.64 1038.54 _ 117 W _ 3345.97,_ 129.58 3216.39 PASS - - - - - -- - IT7 .71 41 PASS 1 4220.80t�- 3498.68� 3i0 02 _ _ 2053 91� 3568 77�-- 3467.59�_ 1275.20 _ 1 39 351 _ 117.131 _ 34750 81! 129 99 _ 3345 82) PASS 1 F- 43200.86t1 3544.65 _ 320.23 = 2121.521_ 3646.42[ 3545.24�-1274.72 1039.63(- 116.771, 3540 73 130.191 3410.53 PASS �4347 45 3564 09 322.95 -2139 541 3666.69� 3565 51 1274.60 1039 68 116 68� 3558 04 ] 30 25 3427.79 PASS _ ..� 4420 80t _ 3618 ST 330.28 _2188.11 3720.57� 3619 39 1274.31 _1039 79+ 116.43' 3604 73' 130 40! 3474.31 PASS 4520 80t� 3695 79 339.76 2250 91 3790.W 3689 71 i_ 1274 04 1039.98� 116.12 3665.29�� 130.591 3534.71 PASS �� d 4620 80t1- 3776.23 348.62 2309 64 3868.85i_ 3767 66 1273 81 1040.27 115 84{ 3722 13 130.78[ 3591.35 PASS_ 4720 80tr 3859.67 - _- _. ._ 1..__ 356.85 _ - f ._ - t ) 2364 121 3952.611 3851 43 �_�- _.e.. �----- � I 3692.49; PASS 4920.80t 4034.62` 371.29 2459.76 4122.32 4021.1 1273.65 1040.78 115.37` 3823.64' 131.14 3945.88 364.41 2414 2] 4037.01. 3935.83, 774 98 130.97 3644.01 PASS 4820 80 ) t 3-1273.53 1041.15 115.17' 3868.07 131.31 3736.76 PASS 5020 80t 4125 65f 377.46 -2500 67 - 4222.79 4121 60; 1273.79; 1641.30', 1 15 6 1 3907.97 131.47 _ 3776 49! PASS F 5120 80t'-4218 72 382.91 -2536 861 4327.871- 4226.69 _ 1273.931 1041.10 114.85i 3942.92 131.641 3811 28' PASS _ - 5220 80t 4313 57 387.63' -2568 07 _ 4414.491 4313.30; 1274 441 1040.76 114.73: 3973 18ff' __ 131.77' 3841 411 PASS 5320 80tI 4409 95[ 391.61; -2594 391 4497.90` - 4396.7I!� 1274.99; _ 1040.66, 1 14.63 3998 92! 131.90 3867.021 PASS 5420 80t 4507 59' 394.82-2615.69 4582.90 4481.71 1275.32 1040.97 114.55 4020.10 132.01 3888.09 PASS Otl 2304.171_ 146`74l= 972�13�-2403.72�2302.56[ 1278.17 1036.07r 125.36� 2462.37I_ 125 94_ tl-Y2377.14 156.94-1039.74 2472.97f 2371.81 1278.21 1036.16 124.66 2523 70 _ 126 32 Ot� 2450,11 167.15-1107.35 2547.40 _ 2446.24 1278.25 1036 33 123.99 2585 461 126.711 Ot; 2523.07 - 177.35-1174.97 2625.83) 2524,67 1278.26, 1036.37i 123.36 2647.42 127.09 €a €a C�b _ Cook Inlet Energy_ Operator ;Cook Inlet Energy Area Kook Inlet, Alaska (Kenai Peninsula) Field !North Fork ;Facility iNorth Fork Unit (NAD27) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 51 of 53 !Slot �North Fork # 14-26 (Plan) Well iNFU #14-26 Plan �Wellbore INFU#14-26 Plan WE P Pk 2 BAKER NYGMES CLEARANCE DATA - Offset Wellbore: NF#41-35 Offset Wellpath: GyroData PGMS<100-9932'>Inclinatlon ONLY<10070-123341> Facility: NF #41-35 (NAD27) Slot: North Fork #41-35 Well: NF #41-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR ]ft] ]ft] Ift] IN IN Iftl ]ft] IN Bearing Clear Dist MASD Sep Status 11t) IN -- - _ - lft1 5520 80t; 4606.23j 397.27j-263L90' _ 4675.63 4574 44i-1275.43 1041 66 114.481 4036 59 132.111 39.04.48j PASS -- 5620 80ti 4705 591 398.941 -2642 991 4785.31; 4684 111 _ 1275.191 1042 62' 11, 43 4048 07j _ 132 224 3915.85j PASS __ e __. _ 5720 80t� 4805 40 399.841 _ _ 4890.38i 4789 18; - 1274.8.61 1043.31 114.40 4654 29j 132 31 - 3921.981 PASS_ -- 2648 92 4954.06 4852 86i 1274.65 5785.42 4870.001 400.00 2650.00I 1 - 1 ` 1043.671 114.39 4055 601 132 35, 3923.251 PASS 5820 80t, 4905 38f 400.00; -2650 00 4988.631 4887.0 -=1274.65' _ 1043.83: 114.39 _ 4055.76 132.37 3923.39 PASS 5920 80tT 5005 38T 400.00( 2650 00, 5085 84, 4984.61 j 1274.78 ] 044 281 114 39, - 4056 23 132 40 3923.831 PASS `- _ .5-4 -- 1_- -132.441 3924.30, PASS6020 80tj5105.3845186.51 50830-12.f 4057 2[- 32.491-- 24731 PASS _]6 -12-4-7( 11600tT_ 5205.381 400.001i 2650.0I 288.5880 7.6045.38j 14. Of5305.384406.S304.91_-274.44581 114.371 4057.4632.541-6220 8..921 PASS 6320 80t; 5405.38i 400.06-2650.M 5502.44: 5401 23 1274.251 1045.99 114.37! 4057.52; 132.58' 3924.94 PASS 6420 80t! 5505 38i 400.00! 2650 00� 5610.54 5509 33 `i 1273.94� 1046 15 114.37 4057.54�_ 132.63 v 3924.90 PASS _ --- -- _ _. __. 6-20 80t� 5605.381 400.00� -2650 00, 5726.06i 5624 851_ 1273.12' 1046 12 114.36j 4057 22i 132 69 _ 3924.53 PASS - - - - 6620 80t- 5705.38j 400.00 2650 001 5829.38i 5728 16� _ 1271.66; 1046 16 ] 14.34� 4056 67 132 73r 3921. 74 PASS 6720 80t 5805.38 400.00 2650 OOr - - 1- 6820.80t; 5905.38j 400.00' -2650 00! J � 1 4056 17i ] 32 763923.41PASS - - _ 6019.47' 5918 23' 1269.04� 1046 441 114,301 _ 4055.80 132 80; 3923.00 PASS F---- - - - -r - _ _ - -- 6920 80t; 6005.38j 400.001-2650.00r 6115.94 6014 69.-1268.28, 1046.51 114.29� -4055 55 132 85 i 3922.70; PASS - - - - . ,1- -- -- --. - __.. F 7020 80t, 6105.38� 400.00j _ 2650 OOj 6216.79 6115.551267.761 1046.41 � 114.281 4055 24� 132 901 3922.34( PASS 7120 80t 6205.381 400.061 -2650 001 6292.98 6191.71 1267.501 1046 56. 114.281 4055 28; _ 132 94 3922.351 PASS -- - 7220.80 I 6305.38 400.00 2650.00` 6377.23 6275 98 1267.23` 1047.19, 114.271 4055.82 132.981 3922.851 PASS 7320.80t 6405.38j 400.001 2650 00' 6490.101 6388 84. --1266.46' v1048`33' 114 26; 4056 48' 133 04 3923._44_, PASS i __ __ _ _ .-- 7420 80tr 6505 38` 400 OOr 2650 001 6586.50�6485 24, 1265.74j 1049 I 1 114.24j 4056 91' 133 09 3923.81 j PASS 7520 80ti 6605 38� 400 001 2650 00� 6769.00 6667 73' 1264.74 1048 06 114.24 4055 971 133 22 3922.75 PASS 7620 80t; _ 6705 381 460.001 -2650 601 6855.791 6754 50 1263.811 __ 1047 08! 114.23 4054 51 133 27` 3921.241 PASS - __. _ - 7720.80t( 6805.38! 400.001 2650.00j 6940.70 6839.41i-1263.131 1046.49i 114.221 4053.54; 133.33 3920.211 PASS E 7820 80t! 6905.38! 400 00' -2650 M 7038.44' 6937 14: 1262.83: 1045.78 114.22! _ 405175, _ 133AG 3919.35 PASS F 7920 fit - 7005 381 400.00 -2650 OO 7140.75 7039 45 1262.65 1044 94; 114 23j 4051 93 133 48 - 3918.45� PASS - - _. - 8020 80t 7105.381 400.001 -2650 601 7239.50 7138 20 1262.33i 1044 17 114 231 4-051 09: 133 55 3917.54; PASS .. -- - - - 80t 7205.38 400.00` 2650.00 7334.94, 7233 64,-1262.19; 1043.45, 114.231 4050.341 133.63 3916.71 PASS [----82g2286tj'--7305.38 400.00; 2650.00':, 7435.77; 7334.47! -1262.47; 1042.59 114.24! 4049.67; 133.71: 3915.96! PASS 8320 80f' 7405.38 400.00,-2650.00± 7540.54 7439.23' -1262.67 1041.55', 114.25, 4048.84; 133.801 3915.04" PASS Ea M8 Cook Inlet Energy_ Clearance Report NFU#14-26 Ver#1 Closest Approach Page 52 of 53 Fr P P _I- JA Re BAKER MU6HES REFERENCE P, 1 �Operator Cook Inlet Energy _ _ _ Area Cook Inlet, Alaska (Kenai Peninsula) _ Slot Well North Fork # 14-26 (Plan) NFU #14-26 Plan_- - Field North Fork Facility North Fork Unit (NAD27) Wellbore NFU#14-26 Plan CLEARANCE DATA - Offset Wellbore: NF#41-35 Offset Wellpath: GyroData PGMS<100-9932'>Inclination ONLY<10070-12334'> Facility: NF #41-35 (NAD27) Slot: North Fork #41-35 Well: NF #41-35 Threshold Value=0.00 ft t = interpolated/extrapolated station Ref MD Ref TVD Ref North Ref East Offset MD Offset TVD Offset North Offset East Horiz C-C ACR Ellipse ACR Iftl Iftl Iftl I111 IN Iftl Iftl Ift] Bearing Clear Dist MASD Sep Status 101 Iftl INl FAl 8420 80t( 15639 8520 80t� 7605 38 7705.38 8720.80t� 7805.38 400.00 _400.00 400.00 400.00 2650.00 i_ 7635.78�_ 7534.46�-1263.-06 _ 2650.00 7736.47 7635 14 _-1263.58 A -2650.007843.45 7742 11 �_1264.08 _ - -2650.00 7939.50, 7838.16�-1264.38 10_40 561 _ 114.26 -_ 4048 07� 133.89 1039.57 114.271,4047 39� 133.98 1038 35 _ 114 28 4046 53; 134.08 - 1037.27i 114.29 4045.64: 134.1 -3914.18� PASS 3913 40[ S8620.80t- 3912.45S_ 3911.46! W PASS ,; a-c.a j; /vu:.ja, 4UU.UU-Zb�U.UU 8029.48.. v7928i 13, 1264.59 - 1036`50 114.30 ` _ 4044.95 Y134 26 _ 3910.69 PASS _ .._ _ __ W _ _ - .�f _ __ .i�_ _._[- �__'_ LL .- 8920.80t� 8005 38� 400.00f 2650.00 8121.11� 8019 76� 1264.68� 1036 O1( 114.31� 4044.511 134 35 3910.15; PASS 9020.80t 8105 38 400.00 -2650 00 8214.63( 8113 28 1264.95 1035.58 114.31 4044.21 134.44 3909.77 PASS 9120 80t _ 8205.38 400.00 -2650 OOa_ 8298.74(_ 8197.39�1265.20�_ 1035.47 114.32 4044.21�- 134.53� 3909.68f PASS 1265.34 1035 50 114.32 9220.80t; 8305.38 400.00 2650.00 8408.36i 8307.01 _ 4044.29i 134.63� 3909.65�PASS 9320_ 80t 8405.38 400.00'-2650.00 8510.99, 8469.64'-1265.33, 1635.44" 114.32', 4044 23' 134.62` 3009.61 PASS 9420.80t 8505 38� 400.00 _ 2650 00! 8624 05 8522 70� �1265 32 1035 07i 114 32� -_ 4043 92 134 73 3909.19` PASS - --_- - 9520.80t _ 8605 38 400.00 -2650 00 - __ _- -_� -_ !_ �_ �_ 8724.24 8622 89 1265 23 _ 1034 65�- 114 32i`4043.50! 134.83� 3908.67 PASS 9620.80� 8705.38f 400.00 �2650.00� 8826.22 _ 8724.87 ` 1265.07�- 1034.19�- ] 14.32�_4043.031 134.94�_ 3908.10 PASS -� _ _ _ 9720.80t� 8805.38� 400.00(-2650.00� 8922.00� 8820.64 1264.83{ 1033.82( 1 14.32! 4042.57 135.04 3907.53� PASS 06- 5 42 ; 8850 00 400.00'-2650.00 8960.43 8859.08 1264 79 1033.71, 114.32 4042.44 135.08 3907.36 PASS POSITIONAL UNCERTAINTY - _Offset Wellbore: NF#41-35 Offset Well Slot Surface Uncertainty @1SD _ ...._....._.__...___-- Facility Surface Uncertainty @1SD PGMS<100-9932'>Inclination ONLY<10070-12334'> -- Hn ozontal - 2.000ft Vertical it 000_11 �1Horizontal ;20.000ft�--Vertical �3.000ft Ea C�B Area Cook Inlet Energy_ Cook Inlet Energy Cook Inlet, Alaska (Kenai North Fork North Fork Unit (NAD27) HOLE & CASING SECTIONS - Peninsula) Clearance Report NFU#14-26 Ver#1 Closest Approach Page 53 of 53 F PP-1- IMKER Nu6HEs of _ (North Fork # 14-26 (Plan) ell _NFU #14-26 Plan _ ellbore FNFU#14-26 Plan Offset Wellbore: NF#41-35 Offset Wellpath: GyroData PGMS<100-9932'>Inclination ONLY<10070-123341> String/Diameter Start MD End MD Interval Start TVD End TVD Start N/S Start E/W End N/S End E/W _ __ _ [ft] _ [ft] ]ft] _ 11t]_ _ ]ft] ]ft] _ [ft] [ft] [ft] 20in Conductor _ 0.00 246.00-246.00-121.90 124.10 772.39 632.82-772.29 632.71 13.375in Casing Surface 0.00 2000.00 2000.00-121.90 1878.04 772.39 632.82-775.64F 632.03 9.625in Casing Intermediate 0.00 8451 00 8451 00 121.90 8328.85-772.39—632.82 771.86 632.04 7in Liner 8330 00 109851 00 101521 00 8207.85 NA;'-771.83 632.05 NAT NA WELLPATH COMPOSITION - Offset Wellbore: NF#41-35 Offset Wellpath: GyroData PGMS<100-99321>Inclination ONLY<10070-12334'> Start MD End MD Positional Uncertainty Model Log Name/Comment Wellbore ]ft] ]ft] -_-_ _ _ __ f __ _ _ ��_.�_ 0.00 i 9932.00 Gyrodata standazd -Continuous gyro —� GyroData PGMS<100-9932'>V I NF#41-35 9932.00E 12334.00 Custom Drift Indicator (7° Maximum Inclination)Inclination ONLY <246-123341> rNF#41-35� OFFSET WELLPATH MD REFERENCE - Offset Wellbore: NF#41-35 Offset Wellpath: GyroData PGMS<100-9932'>Inclination ONLY<10070-123341> Keterence: Rig on North Fork #41-35 (RKB) Start MD vjiset 1 vu at iocat coorainates use Kejerence Wellpath settings (See WELLPA TH DA TUM on page 1 of this report) Ea Product Report 12 '/411 E4686PC (TC10PC) Design Features of this bit RockForce" Premium journal bearing insert and tooth bits in sizes 3 3/4" through 12 1/4". Key to the product line is the completely new RockForce" bearing system, re -engineered from the ground up to provide consistent, superior performance in the constantly increasing demands of directional and vertical drilling. Additional technologies include SuperTuff" inserts, MatchFit" insert retention and industry -leading MudPick® hydraulics. TuffCutter" Bits Powder Forged technology expands the applications range and boosts performance beyond traditional tooth bits. Premium Journal Bearing Precision finished journal bearing with silver plated bushing, silver plated thrustwasher and stellite inlay. Includes precisely ground ball bearings, fully encapsulated in cone and journal for maximum cone retention at higher energy levels. DuoLock" Premium Seal MudPick® Hydraulics Direct nozzle flow for cleaning of the gauge and interlock rows just prior to entering the formation providing improved cleaning and faster drilling. Center Jet Nozzle port positioned in the bowl of the bit to reduce balling especially in bit center. TuffJacket" Coating Patented tungsten carbide coating on the cone shell dramatically reduces cone shell erosion that is common on conventional tooth bits. Bilt-In" Hardmetal Patented premium multi -modal tungsten carbide caps instead of welded tooth hardmetal provide superior wear and abrasion resistance. P (KPR) Premium Shirttail Protection Protruding round top inserts for added wear resistance and improved stability without limiting annular flow area. © 2011 ReedHycalog, L.P. ® and I" are trademarks of ReedHycalog, L.P. it Reed Hycaloge Bits All U.S. and foreign rights reserved. Serial Number L53161 General Data IADC Code 117 Bearing Type Friction - Bushing Seal Type RADIAL - LIP - HNBR Journal Angle 33, Cone Skew 5° Cutting Structure Gauge Row Inserts Count 28 Shape Straight A Main Row Inserts Shape Straight A Total Count 60 API Pin Size 6 5/8" (ins) Maximum 32000 make-up Torque (ft-Ibs) Shipping Weight (Ibs) Nozzle Code D Center Jet Y Recommended Operating Parameters Weight on Bit Range Max (klbs) Min (klbs) Max (tonne) Min (tonne) Rotary Speed (RPM) Additional Information Min Annular Area (in2) Bit Breaker 138788 In some applications this bit is run successfully beyond these parameters. Contact your NOV Downhole Representative for recommended operating parameters in Your application. NOV Downhole reserves the right to revise these specifications, based on advances and improvements in technology. This report is valid for 30 days from 14-Jun-2011 ref 5HOF719-0611 Product Report 8 %" SKH519M-B1C Design Features of this bit Seeker'rm Directional Drill Bits - This design is one of the extensive range of products offered for steerable motors or RSS tools in a range of directional applications. The Seeker product line matches the bit to the specific well profile, drive type and lithology by using a comprehensive range of products in the industry coupled with proprietary bit selection software providing a SystemMatchedTm solution for each drilling challenge. Helios"" Cutters - Advanced Thermostable PDC cutters designed specifically for maximum thermal toughness. The cutter combines high -density polycrystalline diamond material specifically selected for impact toughness, abrasion resistance and enhanced thermal toughness. The patented deep leach technology provides this thermal toughness to reduce cutter degradation significantly, allowing the bit to drill considerably further and faster to improve overall bit performance. DAG' - DAG components provide the bit with backreaming capabilities and moderate side cutting ability when required. The DAG design also gives excellent steerability on both push and point -the -bit RS tools. SmoothTorqueTM Torque Control Components - Insert configurations that provide a predictable torque response to applied weight on bit and reduction in torque variance. Torque Control Components deliver a reduced risk of torsional vibration and improved toolface / directional control. Insert configuration set behind the PDC cutters that act as instantaneous torque reducers, damping out torque spikes that may be encountered while drilling. SmoothSteer® - The SmoothSteer® gauge delivers maximum gauge contact, lowers resistance to steer and reduces torque, leading to improved ROP and extended bit and tool life. This arrangement improves borehole quality while rotating and smoother steering in sliding mode when on a steerable motor. Impact Arrestors - High impact resistant insert configuration placed directly behind the primary cutting structure provide impact damage protection to the shoulder cutters, protecting the primary cutting structure from impact damage allows the bit to drill further intervals at higher penetration rates. SmoothTorque Laterals - (AKA Kick off elements) Insert configuration placed near the gauge diameter in the shoulder/gauge transition controls lateral engagement by the gauge cutters, protects the gauge cutters from impact damage, allows the bit to maintain a gauged hole in high abrasive application, and also provides a low friction bearing surface for improved sliding when drilling with a positive displacement motor. TSP Gauge Protection - Thermally Stable Product (TSP) tiles and welded hardmetal gauge protection give both a highly durable and ultra -smooth gauge. This Matrix CC bodied PDC bit features computer aided cutter placement and hydraulics ® 2013 NOV ReedHycaloge Bits Aland TM are trademarks of NOV 41 ReedH calo Bits All U.S. and foreign rights reserved. 7 Design Specifications Make up Length (ft): .78 Shank Bore (ins): 2.250 Shank Diam (ins): 6.500 Connection std: Y Connection Size(ins): 4.500 Connection Type: Api Reg Pin Make up Torque (ft-lbs): 20000 IADC Code92: M332 Diameter:(ins) 8 W Body Material: Matrix CC JSA(in2): 16.78 Face Volume:(in3) 72.75 Normalised Face vol: 51.34% Blade Qty: 5 Gauge Length:(ins) 2.000 Gauge Geometry: Spiral -Trailing Gauge Protection: TSP Tiled Profile: Short Taper - Shallow Cone Recommended Operating Parameters Max Operating WOB (klbs): 39 TFA Range (ins2): .3437-2.5984 Max Flow (gpm): 700 Pressure Drop(psi): 700 - 2000 HSI: 2-7 In some applications this b@ is run successfully beyond these parameters. Contact your NOV Downhole Representative for recommended operating parameters in your application. NOV Downhole reserves the right to revise these specifications, based on advances and improvements in technology. This report is vafd for 30 days from 12-F pr-2013 ref 10064518-0413 Product Report optimized by nozzle location to deliver high performance and longer bit life. Cutting Structure Type oty Location Diameter Shape Primary 22 FACE 19 mm CYLINDER Primary 10 GAGE 16 mm CYLINDER Primary 5 GAGE 13 mm CYLINDER TCC 5 FACE 11 mm FLAT TOPPED Impact Arrester 10 FACE 11 mm FLAT TOPPED SmoothTorque Laterals 5 GAGE 13 mm FLAT TOPPED Nozzles & Ports oty Type Size 7 TNZ VARIABLE © 2013 NOV ReedHycaloge Bits 0 and TM are trademarks of NOV Reed H V All U.S. and foreign rights reserved. l calo. i Bi ref 10064518-0413 Cook Inlet Energy Cook Inlet EnergyNorth Fork #14-26 RIG:Miller 37 BOTTOM HOLE ASSEMBLY #2 8.75" Hole OBJECTIVE: ri.i BAKER H ES DEPTH IN 3,233- DEPTH OUT 9,739- TOTAL 6,506- ITEM EQUIP. GAUGE BODY BODY DOWN UP UNIT ACCUM. NO. DESCRIPTION PROVIDER OD OD ID CONN CONN LENGTH LENGTH 1 8 3/4" PDC 8.750 4 1/2 Reg Pin 1.20 1.20 2 6.3/4" Ultra XTreme Motor 8 5/8" UBHS AK01.1 ° W/Float BH1 8.625 7.30 2.500 4 1/2 Reg B 4 112 IF B 23.00 24.20 3 6 3/4" NM String Stab w/ 8 5/8" Straight Blades BHI 8.625 1 6.75 2.810 4 1/2" IF P 4 1/2 IF B 5.00 29.20 4 6.3/4" NMCSDP BHI 6.75 2.810 4 1/2" IF P 4 1/2 IF B 10.00 39.20 5 NaviGamma Surve /VSS/Gamma BHI 6.75 2.813 14 1/2" IF P 4 1/2 IF B 20.00 59.20 6 UPA Pulser BHI 6.75 2.810 14 1/2" IF P 4 1/2 IF B 5.00 64.20 7 NM Downhole Filter Sub BHI 6.75 2.875 14 1/2" IF P 4 1/2 IF B 5.27 69.47 8 2 Joints 6.3/4" NMCSDP BHI 6.75 2.813 14 1/2" IF P 4 112 IF B 62.00 131.47 9 8 Joints 5" HWDP RIG 1 5.00 3.000 4 1/2" IF P 4 1/2 IF B 248.00 379.47 10 Jars WFD 6.25 2.250 4 1/2" IF P 4 1/2 IF B 32.23 411.70 11 12Joints 5" HWDP RIG 5.00 3.000 4 1/2" IF P 4 1/2 IF B 372.00 783.70 12 5" Drill Pie RIG 5.00 4.276 4 1/2" IF P 4 1/2 IF B 1 8955.30 9739.00 13 14 Totes an omments Technical and Mechanicalpecl Ica Ions FLOW RATES: 6.75 Ultra X-treme (265-660) Standard Flow Pulser (350-800) BHA AIR WEIGHT: MUD WEIGHTS: BHA WEIGHT IN MUD: MUD TYPE: BELOW JAR IN MUD AT 0°: RPM: BELOW JAR IN MUD AT 0°: WOB' BELOW JAR IN MUD AT 0°: Sensor (stance Information Survey: 44.8' Acoustics: None ECD: None VSS: 44.8' Density: None Gamma Ray: 41.4' NonMag Below: 20.6' Neutron: None Resistivity: None NonMaq Above: 86.7' Caliper None NFU#14-26 (Apr 6th 2015) BHA's.xlsx Cook Inlet Energy ,'.. North Fork #14-26 BAKER Cook Inlet Energy_ HUGHES RIG:Miller 37 BOTTOM HOLE ASSEMBLY #1 12.25" Hole DEPTH IN 0' DEPTH OUT 3,233' TOTAL 3,233' OBJECTIVE: ITEM EQUIP. GAUGE BODY BODY DOWN UP UNIT ACCUM. NO. DESCRIPTION PROVIDER OD OD ID CONN CONN LENGTH LENGTH amam 12.25" (HCC) VMD-3 BHI 12.25 6 5/8 Reg P 1.10 1.10 1 2 8" XTreme Motor 12 1/8" UBHS AK01.1 ° W/Float BHI 12.125 8.11 6 5/8 Reg B 6 5/8 Rea B 28.71 29.81 3 8" NM Strino Stab w/ 12 1/8" Straight Blades BHI 12.125 8.00 2.88 6 5/8 Reg P 6 5/8 Reg B 6.39 36.20 4 8" NMCSDP BHI 8.00 2.75 6 5/8 Reg P 6 5/8 Reg B 10.00 46.20 5 NaviGamma Surve /VSS/Gamma BHI 8.25 2.88 6 5/8" Rea P 6 5/8" Reg B 20.43 66.63 6 UPA Pulser BHI 8.25 2.81 6 5/8 Rea P 6 5/8" Reg B 5.05 71.68 7 NM Downhole Filter Sub BHI 8.00 3.00 6 5/8 Reg P 6 5/8 Rea B 5.11 76.79 8 2 Joints 8" NMCSDP BHI 8.00 2.75 6 5/8 Re P 6 5/8 Reg B 62.00 138.79 9 XO BHI 8.00 2.75 6 5/8 Reg P 4 1/2 IF B 3.00 141.79 10 8 Joints 5" HWDP RIG 5.00 3.00 4 1/2" IF P 4 1/2" IF B 248.00 389.79 11 Jars WFD 6.25 2.25 4 1/2" IF P 4 1/2" IF B 32.23 422.02 12 12Joints 5" HWDP RIG 5.00 3.00 4 112" IF P 4 1/2" IF B 372.00 794.02 13 5" Drill Pie RIG 5.00 4.28 4 1/2" IF P 14 1/2" IF B 1230000 3094.02 14 15 Note s an omments Technical and MechanicalSpecifications FLOW RATES: 8" X4reme Motor 395-900 gpm--8.25" NaviTrak MWD (low Flow config) 350-850 gpm BHA AIR WEIGHT: MUD WEIGHTS: BHA WEIGHT IN MUD: MUD TYPE: RPM: BELOW JAR IN MUD AT 0°: WOB: BELOW JAR IN MUD AT 0°: BELOW JAR IN MUD AT 0°: Sensor (stance Information Survey: 51.4' ECD: no VSS: 51.4' Gamma Ray: 49.6' NonMag Below: 21.6' Resistivity: no NonMag Above: 341.9' NFU#14-26 (Apr 61h 2015) BHA's.Asx 3 z E 0 Schwartz, Guy L (DOA) From: Schwartz, Guy L (DOA) Sent: Tuesday, May 12, 2015 3:57 PM To: 'Stephen Ratcliff' Subject: RE: NFU 14-26 (215-074) I would rather have the completion section as a separate sundry. That way you can have the perf zones and completion finalized before submitting. The PTD will only cover the drilling up to step 41... new sundry required after that to perf and complete/ flowtest. Regards, Guy Schwartz Senior Petroleum Engineer AOGCC 907-301-4533 cell 907-793-1226 office 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 Guy Schwartz at (907-793-1226) or (Guy.schwartz@alaska.gov). From: Stephen Ratcliff fmaiIto: Stephen. Ratcliff(abcookin let. net] Sent: Tuesday, May 12, 2015 3:06 PM To: Schwartz, Guy L (DOA) Cc: Courtney Rust; Conrad Perry Subject: Re: NFU 14-26 (215-074) Guy, I have asked Baker to put together the spider plot and will forward it over to you once I review it. In regards to the completion section, there may have been some confusion between the procedure that was submitted and the wellbore schematic. The completion procedure showed 5 zones while the wellbore schematic was planned for 3 zones. We should have held consistency with the two, however, we will have to finalize the total number of zones after we analyze our logs and mug logs. IF you prefer, we can hold off on the completion sundry approval until we are able to submit what we will be running or we can move forward with the 3 zone completion and modify if we add or subtract any zones. Either way will be fine for us. We are not planning on running any Y-blocks. Let me know if you have any other questions. Regards, Stephen Ratcliff Senior Drilling Engineer Cook Inlet Energy 601 W. 5th Avenue, Suite 310 O - (907) 433-3808 C - (907) 433-9738 From: <Schwartz>, "Guy L (DOA)" <guy.schwartz@alaska.gov> Date: Tuesday, May 12, 2015 at 2:08 PM To: Stephen Ratcliff<stephen.ratcliff@cookinlet.net> Subject: NFU 14-26 (215-074) Please provide a spider map showing surface casing points for the whole pad relative to the new well (14-26) in order to determine if a diverter waiver will be granted. Schwartz, Guy L (DOA) From: Schwartz, Guy L (DOA) Sent: Tuesday, May 12, 2015 2:09 PM To: 'Stephen Ratcliff' Subject: NFU 14-26 (215-074) Please provide a spider map showing surface casing points for the whole pad relative to the new well (14-26) in order to determine if a diverter waiver will be granted. Please elaborate on the completion stategy. I see 3 packers in the completion sketch but there are 5 zones in the written procedure . Are you running Y-block perf guns? Guy Schwartz Senior Petroleum Engineer AOGCC 907-301-4533 cell 907-793-1226 office 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 Guy Schwartz at (907-793-1226 ) or (GuY.schwartz@alaska.gov). NFU 14 26 Prof .ed Completion 3/4/2015 l 1 -c--�7L-f SSSV @ +/-350' 2 7/8" Chemical Injection mandrel @ _/- 2500' Depths to be determined with lows Sliding Sleeve @ Zone #1 Hydraulic Set Packer @ Sliding Sleeve @ Y Block 2" guns 0 degree phase Zone #2 Hydraulic Set Packer @ Sliding Sleeve @ Y Block 2" guns 0 degree phase Zone #3 Hydraulic Set Packer @ XN Nipple @ 4 5/8" TCP or 2" Wireline Guns 4 ky L 20" L80 120' TVD 120# BTC 120' MD 12 1/4" Hole 9 5/8" L80 2,575 TVD _ 40# SD BTC 3,000'MD .i t! 2 7/8" 6.5# L80 EUE-M Tubing 8 3/4" hole 7" L80 8850' TVD 26# GEOCON 9,739' MD Cook Inlet Energy Location: Cook Inlet, Alaska (Kenai Peninsula) Slot North Fork 0 14-26 (Plan) Cook Inlet Energy Field: Nod For Well: NFU014-26Plan RAKER Facility: North Fork Unrt NAD2 WNlbore: NFU014-26 Plan HUGHES Data 1 Well Profile MeareE �aa rtcerreJ � IR�n—. _ _+ � True mM __ D: 5n C ant Mn (R>�nc C) ! �) ND (ft) 1.. Local N (R) _ I_ _ I.acel E (R) OLS u Ni 3r(T) - - Saki T On 2080 o. P8584 208D 000 ow T.N 40000 a000 278584 COD 00 000 _ o00 000 000 Mrzn sra LevNm N.un lmaW am rake ta2r lPmnl)O,ee IOeW�s aremren EM otT nGm[ � - I � 1 Coereumles are n tea iMner.caro SM— _-- amm4 wYaU EM of BriE (X8) 1]86 C5 41503+2]8.594 I 166]84� ]18] -4I613 300 48152 on ,3lMe 15 - _.� — - - _- EM ofT X6) d3TL8] 41 `.B3 2]a 584 360216 328,3 r 21 T3 B] _ 000 _ 219849 Drop(%8) 1 5]59.31 0.000 21a 680 4B]O DO..J_— 400.00 _I_265D00 30D _ 2680.M EM&Ta 8 9T3931 0000 2]8.584 885a00 I 40o.00 285000 O.oOi Mom scala,kch "ft Easting (ft) 75060110 -450 -300 -150 0 150 300 450 600 750 900 1050 1 �9.625in Casing Surface 600 °22� 2 %tea io° �J 0 ry d .� h i3`. h 1.0 # ryry #ry 1 50 j o'h5,c NFU%4_2b P(an = �626]�Cas�o 0 S lr 0 Qua o a ti6� mayA r5oo o N s —150 i ,sodF. rsop -' -300 0) _C .0 0 0 Z -450 -600 -900 4�* -1050- - 1200 g62, -1350 M h y� Tk 1540600 -450 -300 -1' Scale , indr = 30D R 0 25oo 2000 9 6251n Casing Surface 3� S Z ?t 9 p Casrn9r 0 ''QOj'ea N %are Nor1Cr 1-35 Z 13 3g5in Cy v 450 600 750 900 1050 Easting (ft) 1350 150050 600 NFL #2g.26 '0 J 450 TR 7 dN. 7 9 c 300 150 0 -300 Z 0 7 r0 -450 -600 -750 -1050 -1200 -1350 1350 15001500 Cook Inlet Energy Location: Cook Inlet, Alaska (Kenai Peninstda) Slot. North Fork K 14-26 (Plan) _ Cook.lnlet_Energy- Fleld: No th Fwk Well: NFU f14-26 Plan BAKER fadr NoM Fwk UnR NAD27 Wetlbwe: NfUS14-26 Plan Ht11GHES Flog rtlaM,ane4�aa�®rswl�zsvwl "__ Trvevaeml ameeaem m Mrar (n0 r.M syema: NnD3>/ tr uwm sv. rana41s9o4), usr.M rk MEe9asue,elnare0m Mi9er3r MT) NwN nYae�m'Tiuemib MM3i 0+11 b Mr4n 6m le'.tl:87a9 bet 9mb: T,ue4vYbne M®n Sea teM b MW me W 9bt: NMb FMea 16MIP1ap)' aMel Oeph elan M1ef Caar�firWea®ebMMmaoam SLI Creebd 'Woeon 131Ya 15 Well Profile Data Cammat MD Inc C Az TVO lnol N Laol E ) DISC/1 VS h Cll 20.B0 0AW Z7a.590 208D am O.00 OD0 OOO ErMar Ta 4W.40 0.000 27a594 4DO.OD 0.00 0.00 am 0.00 EM ar au4a OQ) 179645 41-993 279.584 1GUM 71.a7 3 3A0 48152 EndarTa ) 437267 41.MlZ7fl 3W21a 328.13 87 OA0 21WQ Drop Ora) 5759.31 0.000 2/a.59/ 4U O0 4M D0 i 3.00 26 W 9739.31 279584 9a50.m 400A0 o0 OAO 26MI02 scale kc„=300O Easting (ft) 750b —4JU —JUU —1JU U 1SU SUU 45U bUU /5U 9OU 1USU 1 �G �9.625in Casing Surface 500 2 �A is�J M1 NFJ�2325 � .. t50 'a n 7 )00 c 50 0 0 o ag d _U 4-26 Plan_; 5 � NFWnc. 2}% n. 0 9 0 r 50 2� co '6c y C N U ,00 26 0 zsOs SO z000 zroo 7q �f. 7 Cas; 9, 3 g 625it1 Cas1119 Suffice 1� 3ODo 00 + e, 50 ZmO 250, z 7; S 9625 w 3 7 C N ds./,9/,e - Uog 00 9.625/n Casing Surrace'l \�. No 1-35 h 375 Casm95U1a� h J J Z S 600 —450 —300 —150 0 150 300 450 600 750 900 1050 4el� =Mft Easting (ft) 1 1 1200 1350 15nr 750 600 450 300 150 3 150 300 Z 0 3 7 450 600 750 300 1050 1200 1350 1500 � � � � { \\\ }\ �\ \M } \ |s J r + ; a > /\ /\ \ \ n \ \ 77 /^® ® \/ \ \ j \ \ �\ \\ /\ j }U, �« /2cn tom* g � C, @ \ cn �\ j \/ m � �m- f3» \/® TRANSMITTAL LETTER CHECKLIST WELL NAME: PTD: v/ Development _ Service _ Exploratory _ Stratigraphic Test _ Non -Conventional FIELD: < 4�`� �'�- 6' ��K— POOL: Cbeck Box for Appropriate Letter / Paragraphs to be Included in Transmittal Letter CHECK OPTIONS TEXT FOR APPROVAL LETTER MULTI The permit is for a new wellbore segment of existing well Permit LATERAL No. , API No. 50- - - - (If last two digits Production should continue to be reported as a function of the original in API number are API number stated above. between 60-69) In accordance with 20 AAC 25.005(f), all records, data and logs acquired for the pilot hole must be clearly differentiated in both well Pilot Hole name ( PH) and API number (50- - - -� from records, data and logs acquired for well (name onpermit). The permit is approved subject to full compliance with 20 AAC 25.055. Approval to produce/inject is contingent upon issuance of a conservation Spacing Exception order approving a spacing exception. (Company Name) Operator assumes the liability of any protest to the spacing exception that may occur. All dry ditch sample sets submitted to the AOGCC must be in no greater Dry Ditch Sample than 30' sample intervals from below the permafrost or from where samples are first caught and 10' sample intervals through target zones. Please note the following special condition of this permit: production or production testing of coal bed methane is not allowed for Non -Conventional (name of well) until after (Company Name) has designed and Well implemented a water well testing program to provide baseline data on water quality and quantity. (Company Name) must contact the AOGCC to obtain advance approval of such water well testing program. Regulation 20 AAC 25.071(a) authorizes the AOGCC to specify types of well logs to be run. In addition to the well logging program proposed by (Company Name) in the attached application, the following well logs are also required for this well: Well Logging Requirements Per Statute AS 31.05.030(d)(2)(B) and Regulation 20 AAC 25.071, composite curves for well logs run must be submitted to the AOGCC within 90 days after completion, suspension or abandonment of this well. Revised 2/2015 WELL PERMIT CHECKLIST Field & Pool _ Well Name: NORTH FORK UNIT 14-26_ Program DEV Well bore seg ❑ I PTD#: 2150740 Company COOK INLET ENERGY LLC Initial Class/Type DEV / PEND GeoArea 820 Unit On/Off Shore On Annular Disposal ❑ Administration 17 Nonconven. gas conforms to AS31.05.030(j.1..A),Q.2.A-D) - - - NA_ 1 Permit fee attached NA- 2 Lease number appropriate_ - - - - - Yes - - - - - Entire well will lie within ADL-391211. CIE is_ WIO for all leases with in- 4400' of this well. 3 Unique well_nameandnumber- - - - - - Yes_ - - - - - - - - - - -- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 4 Well located in_a- defined -pool ----- - - - - - No_ - - - - - _ - North_Fork_Undefined Gas Pool - - - - - - - - - - - - - - - - - - -- - - - - - 5 Well located proper distance from drilling unit -boundary - . . - - - - - - - - - .. - Yes - - - - - - _ - - _ - - 6 Well located proper distance_ from other wells_ - - - - - - - - - - - - - - No_ . - - _ _ - _ SPACING EXCEPTION -REQUIRED: Other active gas producers- lie within the same gov't section and 7 Sufficient acreage.avail_able in -drilling unit_ - - - - - - - - - - - - - - - - - - - _ _ No_ - _ - - - - _ within_3000'._State of Alaska and -CIE are_the only -affected owners, landowners, and operators._ 8 -If-deviated, is_we_llbore plat -included - _ _ _ - - - - - Yes - - - - - _ - Public comments -due 5/18;_hearing scheduled for 5/28. - - . - - - - 9 Operator only affected party- - - - - - - - - . Yes _ _ . _ _ _ _ _ 10 Operator has- appropriate bond in force - - - _ - - - - - - - - - - - - - Yes - . - - - - - - Appr Date 11 Permit -can be issued without conservation order_ - - - - Yes - - - - - - _ - - - . - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 12 Permit_canbeissued withoutadministrative-approval _ ________ ___ __ _____ _ ___ _ _ Yes__ -___ - - -- ---- - - - - -- - -- -- -------.------------- -- -- SFD 5/14/2015 13 Ca permit be approved before 15-day wait- - - - - - - - - - - - - - - - - - - - - - - - - - . Yes - - - - - - - - - - - - . - - - - - - - - - - - - - 14 Well -located within area and -strata authorized by Injection Order# (put 10# in_comments)-(For_ Yes - - - - - - - - - - - - - - - - - - - - - - - - - . - - - - - - - - - - - - - . - - - - - 15 All wells within -1/4-mile_area_of review identified (For service well only) - - - - NA_ - - - _ . - - - - - _ .... - - - - - - - - - - - - 16 Pre -produced injector: dur_ation_of pre production Less than 3 months _(For _service well only) - NA_ - - - - - - - - - - - - - - - - - - - - - - - - - - .. - - - - - - - - - - ... - 18 Conducctor string -provided - - - - - - - - - - - - - - - - --- - - - - - - - Yes - - - - - - - 20" conductor set. at 120 ' md_ - _ - _ - - - - - - - - - .. . - - - - - - - - - - Engineering 19 -Surface-casing- protects all -known USDWs - - - - - - - - - - - - - - - - - - - - . Yes - - - _ _ - - Surface casing set below all freshwater -and fully cemented._ 3000 fanda- 20 CMT_v_ol_ adequate -to circulate -on conductor & surf _csg - _ Yes - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 21 CMT_v_ol_ adequate to tie -in -long string to -surf csg_ _ - - - - - - - - No_ - - - - - 7"_production casing -will- have cement top at 4000 ft md._ 22 C_MT_will coverall -known -productive horizons_ _ - _ - _ - - - - - Yes - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --- - 23 Casing designs adequate for C,_T, B &_ permafrost _ _ . - - - - - - - Yes _ - - - - - BTC calc provided and meet industry standards. _ - 24 Adequate -tankage -or reserve pit - - - . - . - - - - - - - - - .. Yes - - - - - - - Glacier Rig has -steel- pits .. All waste to approved disposal well._ - - - - - 25 If_a_ re -drill, has- a 107403 for abandonment been approved NA_ - _ - - - - Grassroots gas development well-- - - - - -- - - - - - - - - - - 26 Adequate wellbore separation -proposed - - - - - - - - - - - - - - - - - Yes - - - - - - Proximity analysis provided. No issues. - - _ - - - - . - - - - - - - 27 If_diverter required, does it meet regulations_ ------------------------- Yes - - Diverter waiver request denied.- Rig_has 16" diverter system. Appr Date 28 Drilling fluid_ program schematic_& equip list_adequat_e_ _ _ _ _ - _ - - - Yes - - - - - _ _ Max formation_ pressure = 3832 psi (8.33 ppg EMW)_ Will drill with 9-9.6 ppg_ mud- _ - - - GLS 5/18/2015 29 BOPEs,_dotheymeetregulation- - - -- - - - - - - - - - - - -- - - - - - - - - - - - - - - Yes_ - - - - - - Glacier -Rig 37has 135/8"5000psi BOPE_ - - - _ _ - - - _ - - - - - - - - - - . - - - 30 BOPE_press rating appropriate; test to -(put psig in comments)_ - - Yes - - - MASP=2948 psi (will test_BOPE_4500 psi ) - - - - . - - - - - - - - - - - - - - - 31 Choke -manifold complies w/API- RP-53 (May 84)--------------- - - - - - - - - Yes - - - _ - _ - - _ _ _ - - - - _ _ _ - - - - _ _ _ - _ - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 32 Work will occur without operation shutdown- - - - - - - - - - - - - - - - Yes _ - - - - - Sundry -required for Completion operations and flowback. 33 Is presence- of 112S gas probable _ _ _ _ _ - . _ _N_o_ - - - - _ _ - 112S not expected. - Rig has -sensors- and alarms. - - - 34 Mechanical -condition of wells within AOR verified (For service well only) - - - - - - N_A------------------------------------------------- - - - - - - - - - - - - - - - - - - - 35 Permit -can be issued w/o hydrogen_ sulfide measures - - _ - - - . _ - _ - - - Yes _ _ - - - - _ None anticipated based on wells_ previously drilled from the same pad through the_same geologic_ Geology 36 Data_presented on potential oyerpressur_e zones- - - - - - - - - - - - - Yes _ section, Proposed mud program appears_ adequate to contain_ operator's forecast pore pressures. Appr Date 37 Seismic_analys_is_ofshallow gas -zones----------------- - - - - - - - - - - - - - - NA_ --- - - --- - - - - - - - - - - - -- - - - - - - - -- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - SFD 4/21/2015 38 Seabed condition survey (if off -shore) - - - - - _ - - - - - - - - - - - - - - - - NA- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 39 Contact-name/phone for weekly -progress reports_ [exploratory only] - - - - - - - - - - - - - - - NA- - - - _ _ - - - Geologic Engineering Public Grassroots Gas Development well. Sundry required for completion and flowback. GIs Date: Date Date Commissioner: C mmissioner: Commissioner