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HomeMy WebLinkAbout190-088Nolan Vlahovich Hilcorp Alaska, LLC Geotech 3800 Centerpoint Drive, Suite 1400 Anchorage, AK 99503 Tele: (907) 564-4558 E-mail: nolan.vlahovich@hilcorp.com Please acknowledge receipt by signing and returning one copy of this transmittal. Received By: Date: Date: 09/19/2025 To: Alaska Oil & Gas Conservation Commission Natural Resource Technician 333 W 7th Ave Suite 100 Anchorage, AK 99501 SFTP DATA TRANSMITTAL T#20250919 Well API #PTD #Log Date Log Company Log Type AOGCC E-Set# BRU 212-35T 50283200970000 198161 8/10/2025 AK E-LINE PPROF T40899 BRU 223-34T 50283202060000 225059 8/17/2025 AK E-LINE CBL T40900 BRU 234-27 50283202070000 225065 9/12/2025 AK E-LINE CBL T40901 BRU 242-04 50283201640000 212041 6/9/2025 AK E-LINE Perf T40902 KBU 11-08Z 50133206290000 214044 9/8/2025 AK E-LINE Perf T40903 MPU H-03 50029220630000 190088 9/9/2025 AK E-LINE SetPacker T40904 MPU H-11 50029228020000 197163 2/9/2025 AK E-LINE Caliper T40905 MPU M-62 50029237440000 223006 8/31/2025 AK E-LINE LDL T40906 NCIU A-06 50883200260000 169050 8/25/2025 AK E-LINE TubingCut T40907 NCIU A-21A 50883201990100 225075 8/26/2025 AK E-LINE Perf T40908 ODSK-33 50703205620000 207183 9/10/2025 READ Caliper Survey T40909 ODSN-01a 50703206480100 216008 9/8/2025 READ Caliper Survey T40910 ODSN-06 50703207150000 215098 9/9/2025 READ Jewelry Log T40911 PBU C-34C 50029217850300 225068 8/25/2025 BAKER MRPM T40912 PBU Q-06A 50029203460100 198090 8/21/2025 BAKER SPN T40913 TBU M-25 50733203910000 187086 8/31/2025 AK E-LINE Drift T40914 Please include current contact information if different from above. MPU H-03 50029220630000 190088 9/9/2025 AK E-LINE SetPacker Gavin Gluyas Digitally signed by Gavin Gluyas Date: 2025.09.22 13:22:50 -08'00' From:Rixse, Melvin G (OGC) To:AOGCC Records (CED sponsored) Subject:20250912 1646 APPROVAL Request for lighter fluids to prevent losses PTD 190-088 Sundry 325-553 Date:Monday, September 15, 2025 9:14:42 AM Attachments:image001.png image002.png From: Rixse, Melvin G (OGC) Sent: Monday, September 15, 2025 8:59 AM To: 'Erik Nelson' <erik.nelson@hilcorp.com> Subject: RE: [EXTERNAL] 20250912 1646 APPROVAL Request for lighter fluids to prevent losses PTD 190-055 Sundry 325-553 Erik, For the record: AOGCC approves your plan below as discussed yesterday (9-14-2025) on the phone and via text message. Mel Rixse Senior Petroleum Engineer (PE) Alaska Oil and Gas Conservation Commission 907-793-1231 Office 907-297-8474 Cell 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 Mel Rixse at (907-793-1231 ) or (Melvin.Rixse@alaska.gov). From: Erik Nelson <erik.nelson@hilcorp.com> Sent: Sunday, September 14, 2025 12:55 PM To: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov> Subject: RE: [EXTERNAL] 20250912 1646 APPROVAL Request for lighter fluids to prevent losses PTD 190-055 Sundry 325-553 Mel, We completed our cleanout run to the sump packer this morning but we’re still unable to catch returns on MPU H-03 with 8.5 #/gal brine all around. Our ability to achieve returns is critical to a successful gravel pack installation. We would like approval to trip our workstring back to the top of perforations at 2500-ft MD (2230-ft TVD) and displace the well from that point to 8.34 #/gal freshwater to determine whether or not we’ll be able to establish returns while pumping our gravel pack. If we cannot establish returns with 8.34 #/gal around from above the uppermost perforations we would like to trip in the hole to the sump packer at 3213-ft MD (2733-ft TVD) and displace the well to 8.34 #/gal freshwater from that point. CAUTION: External sender. DO NOT open links or attachments from UNKNOWN senders. At either depth, should we establish reliable returns, before tripping out of the hole we will monitor the hole for 30-mins. If the well remains static during this observation period, we will trip out of the hole maintaining x2 pipe displacement with 8.34 #/gal freshwater. If we do encounter flow from the well, we will circulate the well back to 8.5 #/gal brine and ensure we have no flow for 30-mins before continuing to trip out of the hole. If the second scenario above presents itself, the wellbore will stay full with 8.5#/gal brine until we get our screens and lower completion assembly tied in and set. At that time we’ll pump our gravel pack with 8.34 #/gal freshwater as indicated on our original Sundry Submittal and swap the well back to 8.5 #/gal brine after the gravel pack is in place but before we start to trip out of the hole after a 30-min observation period. Thank you very much for your time and consideration of our request. Please let me know if you have any questions or require any additional information. Q From: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov> Sent: Friday, September 12, 2025 4:48 PM To: Erik Nelson <erik.nelson@hilcorp.com> Subject: [EXTERNAL] 20250912 1646 APPROVAL Request for liighter fluids to prevent losses PTD 190-055 Sundry 325-553 Erik, Thanks for the note. Sounds like you are zeroing in on your actual pore pressures. Hilcorp is approved to proceed as you described below. Mel Rixse Senior Petroleum Engineer (PE) Alaska Oil and Gas Conservation Commission 907-793-1231 Office 907-297-8474 Cell 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 Mel Rixse at (907-793-1231 ) or (Melvin.Rixse@alaska.gov). From: Erik Nelson <erik.nelson@hilcorp.com> Sent: Friday, September 12, 2025 4:09 PM To: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov> Subject: RE: [EXTERNAL] 20250909 1608 APPROVAL Request for Verbal Approval of COP on MPU H-03 (PTD# 190-088) operating under Approved Sundry# 325-553... Mel, Very much appreciate the AOGCC turning around our 10-403 COP for MPU H-03. I have noted the AOGCC’s COA on Approved Sundry# 325-553 and have changed the Subject line on this email chain. As we have been preparing for our 2nd TCP run we’ve been monitoring the fluid level in the well and have determined that, with 8.7 #/gal in the hole, our fluid level has remained unchanged at +/- 114-ft MD. This fluid level calculates out to a reservoir pressure of 957 psi (8.28 #/gal equivalent) at our top perforation at 2500-ft MD (2230-ft TVD). Our analysis of offset well data previously anticipated the formation pressure to be 996 psi (8.59 #/gal equivalent) at that depth which we used to anticipate our planned fluid weights for the workover. Given this recently acquired information we would like to change our fluid weight during our perf surge and cleanout runs to as low as 8.5 #/gal rather than the 8.7 #/gal that was stated, and thus Approved, in our latest Application for Sundry Approval. We plan on taking it down to 8.6 #/gal initially to see if we can maintain returns while circulating but we are requesting approval to take it as low as 8.5 #/gal. The 8.7 #/gal fluid weight is specified in the following Steps with Approved Sundry# 325-553: 58. Reverse circulating from +/- 2270-ft MD after allowing the formation to surge up the dry tbg string 66. Displacement of wellbore after cleaning out to the sump packer (3213-ft MD) 78. c) i) This step is displacement of the tbg pickle in preparation for pumping the gravel pack 79. We were already planning to pump the gravel pack with freshwater but the procedure calls for circulating around the heavier fluid before we TOOH We believe this change in fluid weights will help us minimize our fluid losses to the formation while still maintaining appropriate primary well control with our workover fluid. Thank you for your time and consideration of our request. Please let me know if you have any questions and or require any additional information. Q From: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov> Sent: Thursday, September 11, 2025 3:23 PM To: Erik Nelson <erik.nelson@hilcorp.com> Subject: RE: [EXTERNAL] 20250909 1608 APPROVAL Request for Verbal Approval of COP on MPU H-03 (PTD# 190-088) operating under Approved Sundry# 325-487... CAUTION: External sender. DO NOT open links or attachments from UNKNOWN senders. CAUTION: External sender. DO NOT open links or attachments from UNKNOWN senders. Erik, I will push staff to make this urgent. Mel From: Erik Nelson <erik.nelson@hilcorp.com> Sent: Thursday, September 11, 2025 11:43 AM To: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov> Subject: RE: [EXTERNAL] 20250909 1608 APPROVAL Request for Verbal Approval of COP on MPU H-03 (PTD# 190-088) operating under Approved Sundry# 325-487... Mel, I’ve submitted a 10-403 COP today for MPU H-03. This COP will include the changes to the Approved Sundry that were authorized below as well as a request to approve a perf surge run after we get our TCP gun runs completed. After that perf surge run we should be back on our original Approved Sundry but I did make the changes to the final completion that were adjusted due to the changes in the sump packer set depth and perforation intervals. We’re currently running in with our 1st TCP gun run which will be followed by a 2nd TCP gun run. I’m forecasting we will be ready to make our perf surge run tomorrow evening. Thank you for your time and consideration of my request. Please let me know if you’ve got any questions and/or comments. Q From: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov> Sent: Tuesday, September 9, 2025 4:11 PM To: Erik Nelson <erik.nelson@hilcorp.com> Subject: [EXTERNAL] 20250909 1608 APPROVAL Request for Verbal Approval of COP on MPU H-03 (PTD# 190- 088) operating under Approved Sundry# 325-487... Erik, Hilcorp is approved to proceed with perforations and sump packer setting as described below. Mel Rixse Senior Petroleum Engineer (PE) CAUTION: This email originated from outside the State of Alaska mail system. Do not click links or open attachments unless you recognize the sender and know the content is safe. Alaska Oil and Gas Conservation Commission 907-793-1231 Office 907-297-8474 Cell 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 Mel Rixse at (907-793-1231 ) or (Melvin.Rixse@alaska.gov). From: Erik Nelson <erik.nelson@hilcorp.com> Sent: Tuesday, September 9, 2025 3:53 PM To: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov> Subject: Request for Verbal Approval of COP on MPU H-03 (PTD# 190-088) operating under Approved Sundry# 325-487... Mel, We got our E-Line logging done last night and received the processed logs this afternoon on MPU H-03. The Tertiary Undef WTRSP (525130) aquifer came in a little different than our correlations from offset well logs. We are proposing the below new perforations in our pursuit of turning MPU H-03 into a WSW: New Proposed Perfs: Currently Approved Perfs: In our currently approved Sundry# 325-487 we proposed setting our sump pkr at +/- 3295-ft MD (2793-ft TVD). Due to the adjustments in the perforations I would like to set it at +/- 3213-ft MD (2733-ft MD). I am prepping a 10-403 COP but we will be running the sump pkr this evening so I am requesting verbal permission to proceed. Q Erik Q. Nelson Milne Point OE O (907) 777 - 8353 C (907) 903 – 7407 Erik.Nelson@hilcorp.com The information contained in this email message is confidential and may be legally privileged and is intended only for the use of the individual or entitynamed above. If you are not an intended recipient or if you have received this message in error, you are hereby notified that any dissemination,distribution, or copy of this email is strictly prohibited. If you have received this email in error, please immediately notify us by return email or telephone if the sender's phone number is listed above, then promptly and permanently delete this message. While all reasonable care has been taken to avoid the transmission of viruses, it is the responsibility of the recipient to ensure that the onwardtransmission, opening, or use of this message and any attachments will not adversely affect its systems or data. No responsibility is accepted by thecompany in this regard and the recipient should carry out such virus and other checks as it considers appropriate. The information contained in this email message is confidential and may be legally privileged and is intended only for the use of the individual or entitynamed above. If you are not an intended recipient or if you have received this message in error, you are hereby notified that any dissemination,distribution, or copy of this email is strictly prohibited. If you have received this email in error, please immediately notify us by return email or telephoneif the sender's phone number is listed above, then promptly and permanently delete this message. While all reasonable care has been taken to avoid the transmission of viruses, it is the responsibility of the recipient to ensure that the onwardtransmission, opening, or use of this message and any attachments will not adversely affect its systems or data. No responsibility is accepted by thecompany in this regard and the recipient should carry out such virus and other checks as it considers appropriate. The information contained in this email message is confidential and may be legally privileged and is intended only for the use of the individual or entitynamed above. If you are not an intended recipient or if you have received this message in error, you are hereby notified that any dissemination,distribution, or copy of this email is strictly prohibited. If you have received this email in error, please immediately notify us by return email or telephoneif the sender's phone number is listed above, then promptly and permanently delete this message. While all reasonable care has been taken to avoid the transmission of viruses, it is the responsibility of the recipient to ensure that the onwardtransmission, opening, or use of this message and any attachments will not adversely affect its systems or data. No responsibility is accepted by the company in this regard and the recipient should carry out such virus and other checks as it considers appropriate. The information contained in this email message is confidential and may be legally privileged and is intended only for the use of the individual or entity named above. If you are not an intended recipient or if you have received this message in error, you are hereby notified that any dissemination,distribution, or copy of this email is strictly prohibited. If you have received this email in error, please immediately notify us by return email or telephoneif the sender's phone number is listed above, then promptly and permanently delete this message. While all reasonable care has been taken to avoid the transmission of viruses, it is the responsibility of the recipient to ensure that the onwardtransmission, opening, or use of this message and any attachments will not adversely affect its systems or data. No responsibility is accepted by thecompany in this regard and the recipient should carry out such virus and other checks as it considers appropriate. 1. Type of Request: Abandon Plug Perforations Fracture Stimulate Repair Well Operations shutdown Suspend Perforate Other Stimulate Pull Tubing Change Approved Program Plug for Redrill Perforate New Pool Re-enter Susp Well Alter Casing Other: Convert to WSW 2. Operator Name: 4. Current Well Class: 5. Permit to Drill Number: Exploratory Development 3. Address:Stratigraphic Service 6. API Number: 7. If perforating:8. Well Name and Number: What Regulation or Conservation Order governs well spacing in this pool? Yes No 9. Property Designation (Lease Number): 10. Field: 11. Total Depth MD (ft): Total Depth TVD (ft): Effective Depth MD: Effective Depth TVD: Junk (MD): 5,645'N/A Casing Collapse Conductor N/A Surface 2,020psi Intermediate 5,410psi Liner 11,170psi Packers and SSSV Type: Packers and SSSV MD (ft) and TVD (ft): 12. Attachments: Proposal Summary Wellbore schematic 13. Well Class after proposed work: Detailed Operations Program BOP Sketch Exploratory Stratigraphic Development Service 14. Estimated Date for 15. Well Status after proposed work: Commencing Operations: OIL WINJ WDSPL Suspended 16. Verbal Approval: Date: GAS WSW GSTOR SPLUG AOGCC Representative: GINJ Op Shutdown Abandoned Contact Name: Contact Email: Contact Phone: Authorized Title: Wells Manager Conditions of approval: Notify AOGCC so that a representative may witness Sundry Number: Plug Integrity BOP Test Mechanical Integrity Test Location Clearance Other Conditions of Approval: Post Initial Injection MIT Req'd? Yes No APPROVED BY Approved by: COMMISSIONER THE AOGCC Date: Comm. Comm. Sr Pet Eng Sr Pet Geo Sr Res Eng Erik Nelson Erik.Nelson@hilcorp.com 907-564-5277 2-7/8"5,056' Perforation Depth MD (ft): 5,056' See Schematic See Schematic 2-7/8" 4,881MD/ 3,976 TVD & 5,045 MD/ 4,098 TVD 2,871' 5,634' 116' 13-3/8" 9-5/8" 7" 4,182' 5,634' N/A 10,570psi 3,520psi 7,240psi 2,488' 4,532' 4,106' Length Size Proposed Pools: 116' 116' 6.5 / L-80 / EUE 8rd TVD Burst 4,837' MD STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS 20 AAC 25.280 ADL0025906 190-088 3800 Centerpoint Dr, Suite 1400 Anchorage, AK 99503 50-029-22063-00-00 Hilcorp Alaska LLC C.O. 477B AOGCC USE ONLY Tubing Grade: Tubing MD (ft):Perforation Depth TVD (ft): 9/10/2025 Baker SC-IL & Baker Model 'D' Subsequent Form Required: Suspension Expiration Date: Will perfs require a spacing exception due to property boundaries? Current Pools: MPSP (psi): Plugs (MD): 17. I hereby certify that the foregoing is true and the procedure approved herein will not be deviated from without prior written approval. Authorized Name and Digital Signature with Date: Tubing Size: PRESENT WELL CONDITION SUMMARY MILNE PT UNIT H-03 MILNE POINT SCHRADER BLUFF OIL Prince Creek Tertiary 4,541' 5,552' 4,472' 766 N/A Form 10-403 Revised 06/2023 Approved application valid for 12 months from date of approval.Submit PDF to aogcc.permitting@alaska.gov By Grace Christianson at 11:54 am, Sep 11, 2025 Digitally signed by Taylor Wellman (2143) DN: cn=Taylor Wellman (2143) Date: 2025.09.11 11:30:17 - 08'00' Taylor Wellman (2143) 325-553 BOPE test to 2500 psi. 24 hour notice to AOGCC for opportunity to witness. 10-404 DSR-9/11/25MGR11SEP2025A.Dewhurst 12SEP25 * Schrader Bluff hydrocarbon final reservoir abandonment plug has been pressure tested to 1500 psi. * Final abandonment of Prince Creek perforations have little risk of not achieving isolation with down squeeze of cement that would isolate all annuli from surface at Prince Creek water source The plug to be pressure tested at all annuli. * Approved on this well only, for perforating above the surface casing shoe for source water with a reservoir pressure below water gradient. * Verified isolation from upper most hydrocarbons below and 7" X 9-5/8" annulus above by CBL - 09-09-2025 * As this well has surface casing perforations, this well will have no hydrocarbon production utility in the future. *&: Jessie L. Chmielowski Digitally signed by Jessie L. Chmielowski Date: 2025.09.12 12:56:47 -08'00' 09/12/25 RBDMS JSB 091525 ®ôīīϙbÍıôϡ a„˜ϙFϱ͏͒„IϙbŪıæôŘϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ ŪŘŘôIJťϙ‹ťÍťŪŜϡ [“‹Iϙ(‹„ϙ„Řĺî ‡ĖČϡ ‹‡ϙϭ͐ (ŜťĖıÍťôîϙ‹ťÍŘťϙĺċϟi„ϡ ͖͕ϟ‹ôŕϟ͕͚͗͗(ŜťĖıÍťôîϙ"ÍƅŜϟ‡ôıÍĖIJĖIJČϧ ͛ϙîÍƅŜ ‡ôČŪīÍťĺŘƅϙĺIJťÍèťϡ “ĺıϙ>ĺŪťŜ „ôŘıĖťϙťĺϙ"ŘĖīīϙbŪıæôŘϡ ͐͘͏ϱ͏͗͗ >ĖŘŜťϙÍīīϙ(IJČĖIJôôŘϡ (ŘĖħϙ†ϟϙbôīŜĺIJ ϼ͘͏͖Ͻϙ͖͖͖ϙϳϙ͔͗͒͒ϙϼiϽ ϼ͘͏͖Ͻϙ͘͏͒ϙϳϙ͖͓͏͖ϙϼϽ ‹ôèĺIJîϙÍīīϙ(IJČĖIJôôŘϡ “ÍƅīĺŘϙ®ôīīıÍIJ ϼ͘͏͖Ͻϙ͖͖͖ϙϳϙ͓͓͗͘ϙϼiϽ ϼ͘͏͖Ͻϙ͓͖͘ϙϳϙ͔͒͒͘ϙϼϽ @ôĺīĺČĖŜťϡ XÍťĖôϙŪIJēÍ ϼ͘͏͖Ͻϙ͔͕͓ϙϳϙ͓͖͕͗ϙϼiϽ ϼ͘͏͖Ͻϙ͗͏͑ϙϳϙ͏͏͖͗ϙϼϽ ‹èēŘÍîôŘϟīŪƯϟ„ôŘċĺŘÍťĖĺIJŜϟÍæÍIJîĺIJôîϟſĖťēϟ͗͘ϟææīŜϟèôıôIJťϟŕŪıŕôîϟťēŘĺŪČēϟèôıôIJťϟ ŘôťÍĖIJôŘϟŜôťϟÍťϟ͙͙͛͝Ϸċťϟa"ϟĺIJϟ͕͜ϟ‹ôŕťôıæôŘϥϟϟÍīèŪīÍťôîϟ“iϟÍťϟ͙͙͛͜Ϸċťϟa"ϟЂ͘ϥ͚ϟææīŜϟīôċťϟĺIJϟ ťĺŕϟĺċϟŘôťÍĖIJôŘϟĖIJϟ͜ϷĖIJϟèÍŜĖIJČЃϥϟϟôıôIJťϟŕīŪČϟťôŜťôîϟ͚͕͕͗ϟŕŜĖϟЂ͕͘ϟıĖIJŜЃϟĺIJϟ͕͝ϟ‹ôŕťôıæôŘϥ ŪŘŘôIJťϙĺťťĺıϙFĺīôϙ„ŘôŜŜŪŘôϙϼF„Ͻϡ ‹èēŘÍîôŘϙīŪƯϙϼiϠϙbϠϙbϠϙÍIJîϙiϽ ЂťĺϟæôϟÍæÍIJîĺIJôîϟîŪŘĖIJČϟ‡®iЃ ͕͕͐͗ϙŕŜĖϙЬϙ͔͏͒͐ϱċťϙa"ϙϼ͓͏͖͗ϱċťϙ“«"Ͻϙϼ“i„Ͻ ͐͐ϙaÍƅϙ͑͏͔͑ϙиϙ͖ϟ͔͗ϙ(a®ϙϼ͗ϟ͔ϙX®>Ͻ aÍƄϙ„ĺťôIJťĖÍīϙ‹ŪŘċÍèôϙ„ŘôŜŜŪŘôϙϼa„‹„Ͻϡ ͔͐͑͘ϙŕŜĖ @ÍŜϙĺīŪıIJϙ@ŘÍîĖôIJťϙϼ͏ϟ͐ϙŕŜĖϯċťϽ ŪŘŘôIJťϙĺťťĺıϙFĺīôϙ„ŘôŜŜŪŘôϙϼF„Ͻϡ “ôŘťĖÍŘƅϙ˜IJîôċϙ®“‡‹„ϙϼ͔͔͑͐͒͏Ͻ ЂťĺϟæôϟŘôèĺıŕīôťôîϟÍŜϟ®‹®Ѓ ͐͘͘ϙŕŜĖϙЬϙ͔͑͑͏ϱċťϙa"ϙϼ͓͑͑͑ϱċťϙ“«"Ͻϙϼ„īÍIJIJôîϙ“i„Ͻ >ŘĺıϙĺƯŜôťϙ®‹®ϙиϙ͗ϟ͔͏ϙ(a®ϙϼ͗ϟ͖ϙX®>Ͻ aÍƄϙ„ĺťôIJťĖÍīϙ‹ŪŘċÍèôϙ„ŘôŜŜŪŘôϙϼa„‹„Ͻϡ ͖͕͕ϙŕŜĖ @ÍŜϙĺīŪıIJϙ@ŘÍîĖôIJťϙϼ͏ϟ͐ϙŕŜĖϯċťϽ aÍƄϙ"ôŽĖÍťĖĺIJϡ ЂċĺŘϟôIJťĖŘôϟſôīīæĺŘôϟŘôīôŽÍIJťϟťĺϟ„ŘôϷ‡®iϟſôīīſĺŘħϟ ÍIJîϟ‡®iЃ ͓͕ϟ͖еϙЬϙ͖͑͏͏ϱċťϙa" aÍƄϙ"ĺČīôČϡϙ ЂċĺŘϟôIJťĖŘôϟſôīīæĺŘôϟŘôīôŽÍIJťϟťĺϟ„ŘôϷ‡®iϟſôīīſĺŘħϟ ÍIJîϟ‡®iЃ ͔ϟ͗еϯ͐͏͏ϱċťϙЬϙ͓͐͏͏ϱċťϙa" aĖIJϙI"ϡϙ ЂċĺŘϟôIJťĖŘôϟſôīīæĺŘôϟŘôīôŽÍIJťϟťĺϟ„ŘôϷ‡®iϟſôīīſĺŘħϟ ÍIJîϟ‡®iЃ ͑ϱ͖ϯ͗ЋϠϙ͕ϟ͔ϭϙ“æČϙϳ ͑ϱ͖ϯ͗Ћϙ«ϙ„ĺŘťôîϙbĖŕŕīôϙϼ͑ϟ͔͑͘ϱĖIJϙI"ϽϙÍťϙ͓͖͔͔ϱċťϙ a" ͖ЋϠϙ͕͑ϭϙŜČϙϳ bĺϙI"ϙŘôŜťŘĖèťĖĺIJ ‡Xϡ ͑͘ϟ͐ϱċťϙϼ„ĺĺīϙ͐͏͑Ͻ ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͐͏ϙ‹ôŕťôıæôŘϙ͑͏͔͑ ŘĖôċϙ®ôīīϙ‹ŪııÍŘƅϡ a„˜ϙFϱ͏͒ϙſÍŜϙîŘĖīīôîϙÍIJîϙèÍŜôîϙæƅϙbÍæĺŘŜϙ͖͑(ϙĖIJϙièťϙ͐͘͘͏ϙÍŜϙÍϙ‹èēŘÍîôŘϙīŪƯϙЊiЋϙÍIJîϙЊbЋϙŜÍIJîϙŕŘĺîŪèôŘϟϙϙ [Íťôϙ͐͘͘͏ϠϙôÍŘīƅϙ͐͐͘͘ϙ„ĺĺīϙ͐͏͑ϙſÍŜϙæŘĺŪČēťϙĖIJϙťĺϙŕôŘċĺŘÍťôϙÍIJîϙ ŕôŘċĺŘıϙÍϙċŘÍèťŪŘôϙĺċϙťēôϙЊiЋϙŜÍIJîŜϙÍIJîϙ ĖIJŜťÍīīϙÍϙČŘÍŽôīϙŕÍèħϙèĺıŕīôťĖĺIJϙÍèŘĺŜŜϙťēôϙЊbЋϙŜÍIJîŜϙæôċĺŘôϙŕôŘċĺŘıĖIJČϙÍϙċŘÍèϱŕÍèħϟϙϙ“ēôϙſôīīϙſÍŜϙæŘĺŪČēťϙ ĺIJīĖIJôϙÍŜϙÍIJîϙ(‹„ϙŕŘĺîŪèôŘϙĺIJϙ͑͒ϙŕŘĖīϙ͐͐͘͘ϙæŪťϙſÍŜϙŪīťĖıÍťôīƅϙŜēŪťϱĖIJϙîŪôϙťĺϙīĺſϙŕŘĺîŪèťĖŽĖťƅϙĖIJϙŪČŪŜťϙ ͐͘͘͏ϙÍIJîϙēÍŜϙæôôIJϙŜēŪťϙĖIJϙŜĖIJèôϟ bĺťôŜϙ‡ôČÍŘîĖIJČϙŪŘŘôIJťϙ®ôīīæĺŘôϙĺIJîĖťĖĺIJϡ -͐͐ϙaÍƅϙ͑͏͔͑ϙϳϙ"ŘĖċťôîϙťæČϙſϯϙ͑ϟ͒͏ϱĖIJϙČÍŪČôϙŘĖIJČϟϙϙ‡ŪIJϙ‹F„ϙŜŪŘŽôƅϟ iæĤôèťĖŽôϡ FĖīèĺŘŕϙīÍŜħÍϠϙ[[ϙŕŘĺŕĺŜôŜϙŕôŘċĺŘıĖIJČϙŘôŜôŘŽĺĖŘϙÍæÍIJîĺIJıôIJťϙĺċϙťēôϙ‹èēŘÍîôŘϙīŪƯϙЊiЋϙÍIJîϙЊbЋϙŜÍIJîŜϙ ÍIJîϙťĺϙŘôϱèĺıŕīôťôϙťēôϙſôīīϙĖIJťĺϙťēôϙ“ôŘťĖÍŘƅϙ˜IJîôċϙ®“‡‹„ϙϼ͔͔͑͐͒͏ϽϙċĺŘıÍťĖĺIJϙÍŜϙÍϙēĖČēϱŽĺīŪıôϙċŘôŜēſÍťôŘϙ ŜĺŪŘèôϙſôīīϟ “ēĖŜϙŕŘĺèôîŪŘôϙîôťÍĖīŜϙťēôϙæôīĺſϙĺŪťīĖIJôϙĺċϙťēôϙŜèĺŕôϙĺċϙťēĖŜϙŕŘĺĤôèťϡ -„ŪīīϙťēôϙôƄĖŜťĖIJČϙ͑ϱ͖ϯ͗ЋϠϙ͕ϟ͔ϭϙ[͗͏ϙ(˜(ϙ͗ŘîϙťæČϙ(‹„ϙèĺıŕīôťĖĺIJ -‹ôťϙ͖ЋϙèôıôIJťϙŘôťÍĖIJôŘϙÍIJîϙŕŪıŕϙīÍŜŜϙ@ϙIJôÍťϙèôıôIJťϙťĺϙÍæÍIJîĺIJϙťēôϙ‹èēŘÍîôŘϙīŪƯϙЊiЋϙÍIJîϙЊbЋϙ ŕôŘċĺŘÍťĖĺIJŜ -„ôŘċĺŘÍťôϙťēôϙ“ôŘťĖÍŘƅϙ˜IJîôċϙ®“‡‹„ϙϼ͔͔͑͐͒͏ϽϙċĺŘıÍťĖĺIJϙÍIJîϙĖIJŜťÍīīϙÍϙÍŜôîϙFĺīôϙ@ŘÍŽôīϙ„Íèħϙ ϼF@„ϽϙīĺſôŘϙèĺıŕīôťĖĺIJ -IIJŜťÍīīϙÍϙ͓ϱΫЋϙťŪæĖIJČϙ(‹„ϙèĺıŕīôťĖĺIJϙÍæĺŽôϙťēôϙÍŜôîϙFĺīôϙ@ŘÍŽôīϙ„Íèħ ‹ťÍŘťϟĺċϟēÍIJČôϟĺċϟ„ŘĺèôîŪŘôϟċŘĺıϟŕŕŘĺŽôîϟ‹ŪIJîŘƅϟϳ͚͗͘Ϸ͙͜͝ϥϟϟ ‹ťôŕŜϟŕŘôŽĖĺŪŜīƅϟÍŕŕŘĺŽôîϟÍŘôϟŘôıĺŽôîϟÍŜϟťēôƅϟÍŘôϟèĺıŕīôťôϟÍŜϟ ĺċϟ͕͞ϟ‹ôŕťôıæôŘϥϟϟ‡ôŽĖŜôîϟŜŪıŕϟŕÍèħôŘϟŜôťϟîôŕťēϟЂŜôťϟĺIJϟ͕͞ϟ ‹ôŕťôıæôŘЃϟÍIJîϟÍîĤŪŜťôîϟŕôŘċĺŘÍťĖĺIJϟĖIJťôŘŽÍīŜϟÍŕŕŘĺŽôîϟŽĖÍϟ ôıÍĖīϟĺIJϟ͕͞ϟ‹ôŕťôıæôŘϥϟϟ èϽ a˜ϙ͖Ћϙ„ôŘıÍŕÍħϙ‹ôÍīϙĺŘôϙ„ħŘϙťĺϙîôŜĖČIJÍťôîϙ®[XϙÍIJîϙŜôťťĖIJČϙèēÍŘČôϟϙϙ‡IFϙťĺϙŜôťϙŕħŘϙſĖťēϙ ıĖîϱôīôıôIJťϙÍťϙѭϯϱϙ͔͒͑͘ϱċťϙa"ϙϼ͖͑͒͘ϱċťϙ“«"ϽϙѳϵϷϟ͖͗͘͘Ϸċťϟa"ϟЂ͗͘͘͜Ϸċťϟa"Ѓ bi“(ϡϙϙ„ħŘϙŘôŗŪĖŘôŜϙÍťϙīôÍŜťϙÍϙ͒͏ϱŜôèϙæŪŘIJϙĺIJϙťēôϙſĖŘôīĖIJôϙŜôťťĖIJČϙťĺĺ ī ͒͗Ͻ ‡"aiϙ(ϱ[ĖIJô ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͐͏ϙ‹ôŕťôıæôŘϙ͑͏͔͑ „ôŘċĺŘÍťôϙ“ôŘťĖÍŘƅϙ˜IJîôċϙ®“‡‹„ϙϼ͔͔͑͐͒͏Ͻϡ ͒͘Ͻ a˜ϙ͓ϱΫЋϙ͐͑Ŝŕċϙ‹Fϙ‡"³ϙÍIJîϙ͓ϱΫЋϙ͕Ŝŕċϙ͒͒͑͒ϙÍŜĖƄгϙ‹"„ϙ“„ϙČŪIJŜϙſϯϙŜŕÍèôŘŜϙÍŜϙŘôŗЍî ͓͏Ͻ “IFϙĺIJϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙI“ϱaĺîϙſĺŘħŜťŘĖIJČϙťĺϙæŪıŕϙťēôϙŜŪıŕϙŕħŘϙÍIJîϙťĖôϱĖIJϙťĺϙŕôŘċĺŘÍťôϙťēôϙæôīĺſϙ ŜôīôèťôîϙĖIJťôŘŽÍīŜϡ bi“(ϡϙϙaÍĖIJťÍĖIJϙēĺīôϙƱīīϙſēĖīôϙ“IFϟϙϙ®ôϙŜēĺŪīîϙæôϙŜīĖČēťīƅϙĺŽôŘæÍīÍIJèôîϙſĖťēϙ͗ϟ͖ϙϭϯČÍīϙĖIJϙťēôϙ ēĺīôϟ ‡ôŽĖŜôîϟŕôŘċŜϟæôīĺſϧ ͓͐Ͻ ĺIJƱŘıϙſôīīϙĖŜϙîôÍîϙÍċťôŘϙŕôŘċĺŘÍťĖIJČϟϙϙŪīīēôÍîϙ͗ϟ͖ϙϭϯČÍīϙæŘĖIJôϙÍŜϙŘôŗЍîϟ ͓͑Ͻ “iiFϙÍIJîϙīÍƅϙîĺſIJϙ“„ϙÍŜŜƅϟϙϙ(IJŜŪŘôϙÍīīϙŜēĺťŜϙƱŘôîϟ ͙͘Ѓ a˜ϟ͙ϷαБϟ͛Ŝŕċϟ͗͘͘͘ϟÍŜĖƄйϟ‹"„ϟ“„ϟČŪIJŜϟſϵϟŜŕÍèôŘŜϟÍŜϟŘôŗГî ͙͙Ѓ “IFϟĺIJϟ͙ϷαБϦϟ͖͗ϥ͛ϳϟI“ϷaĺîϟſĺŘħŜťŘĖIJČϟťĺϟťĖôϷĖIJϟĖIJϟĺŘîôŘϟťĺϟîĺŪæīôϷŜēĺĺťϟťēôϟŪŕŕôŘϟЂ͗ЃϟŕôŘċϟ ĖIJťôŘŽÍīŜϟϧ ͙͚Ѓ ĺIJƱŘıϟſôīīϟĖŜϟîôÍîϟÍċťôŘϟŕôŘċĺŘÍťĖIJČϥϟϟŪīīēôÍîϟ͝ϥ͜ϟϳϵČÍīϟæŘĖIJôϟÍŜϟŘôŗГîϥ ͙͛Ѓ “iiFϟÍIJîϟīÍƅϟîĺſIJϟ“„ϟÍŜŜƅϥϟϟ(IJŜŪŘôϟÍīīϟŜēĺťŜϟƱŘôîϥ ®ôīī “ĺŕϙa" ÍŜôϙa" “ĺťÍīϙa" “ĺŕϙ“«" ÍŜôϙ“«" “ĺťÍīϙ“«" IIJèϙÍťϙ“ĺŕ ĖIJťôŘŽÍī IIJèϙÍť æÍŜô ĖIJťôŘŽÍī Fϱ͏͔͒͑͑͏ ͕͔͑͐ ͔͘ ͓͑͑͑ ͑͒͏͘ ͕͖ ͓͑ ͓͑ Fϱ͏͖͓͒͑͐ ͖͖͑͘ ͕͔ ͖͖͑͒ ͓͑͑͐ ͓͓ ͓͒ ͓͒ Fϱ͏͒͑͒͐͘ ͔͑͗͘ ͔͓ ͔͑͑͘ ͔͕͑͗ ͒͘ ͓͔ ͓͓ Fϱ͏͒͒͏͓͐ ͒͏͖͕ ͔͒ ͕͑͏͗ ͕͑͒͒ ͔͑ ͓͓ ͓͓ Fϱ͏͔͒͒͐͗ ͒͐͒͘ ͔͒ ͕͑͒͘ ͖͑͐͗ ͔͑ ͓͒ ͓͒ Fϱ͏͒͒͑͐͗ ͖͔͒͑ ͔͖ ͖͕͑͒ ͖͖͑͘ ͓͒ ͓͒ ͓͒ ͓͒͐Fϱ͏͒ϙ“i“[ϙ„(‡>‹ ®ôīī “ĺŕώa" ÍŜôώa" “ĺťÍīώa" “ĺŕώ“«" ÍŜôώ“«" “ĺťÍīώ“«" IIJèώÍť “ĺŕ ĖIJťôŘŽÍī IIJèώÍť æÍŜô ĖIJťôŘŽÍī Fϱ͏͒ ͔͑͏͏ ͔͔͑͘ ͔͘ ͑͑͒͏ ͖͑͑͘ ͕͖ ͓͑ ͓͑ Fϱ͏͒ ͕͑͗͘ ͖͕͑͒ ͕͔ ͕͑͒͗ ͓͑͐͑ ͓͓ ͓͒ ͓͒ Fϱ͏͒͑͒͐͘ ͔͑͗͘ ͔͓ ͔͑͑͘ ͔͕͑͗ ͒͘ ͓͔ ͓͓ Fϱ͏͒͒͏͓͐ ͒͏͖͕ ͔͒ ͕͑͏͗ ͕͑͒͒ ͔͑ ͓͓ ͓͓ Fϱ͏͒ ͒͐͏͏ ͔͒͐͑ ͔͑ ͕͔͑͏ ͕͖͑͏ ͑͏ ͓͓ ͓͓ Fϱ͏͔͒͒͐͗ ͒͐͒͘ ͔͒ ͕͑͒͘ ͖͑͐͗ ͔͑ ͓͒ ͓͒ Fϱ͏͒ώ“i“[ ͒͏͘ ͑͑͏ ®ôīī “ĺŕώa" ÍŜôώa" “ĺťÍīώa" “ĺŕώ“«" ÍŜôώ“«" “ĺťÍīώ“«" IIJèώÍť “ĺŕ ĖIJťôŘŽÍī IIJèώÍť æÍŜô ĖIJťôŘŽÍī Fϱ͏͒ ͔͑͏͏ ͔͔͑͘ ͔͘ ͑͑͒͏ ͖͑͑͘ ͕͖ ͓͑ ͓͑ Fϱ͏͒ ͕͑͗͘ ͖͕͑͒ ͕͔ ͕͑͒͗ ͓͑͐͑ ͓͓ ͓͒ ͓͒ ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͐͏ϙ‹ôŕťôıæôŘϙ͑͏͔͑ ͓͖Ͻ „ŘôŕϙŘĖČϙƲĺĺŘϙċĺŘϙèīôÍIJĺŪťϙŘŪIJϙŕôŘċϟŜŪŘČôϟŘŪIJ „ôŘċϟ‹ŪŘČôϟ‡ŪIJϧ ͙͝Ѓ a˜ϟ„ôŘċϟ‹ŪŘČôϟFϧ èЃ VŪIJħϟaĖīīϟſϵϟŕĺŘťŜϟŜıÍīīôŘϟťēÍIJϟ͖ϷδБϟi" îЃ ͘ϷαБϟ‹ŕÍèôŘϟ³ϷĺŽôŘϟŕŪŕ ôЃ "[“ϟĺıŕŘôŜŜĖĺIJϟ‹ôťϟ‡ôťŘĖôŽÍæīôϟ„ħŘϟċĺŘϟ͜БϦϟ͗͛ϳϟèŜČ ċЃ ͘ϷαБϟ‹ŕÍèôŘϟ³ϷĺŽôŘϟŕŪŕ ČЃ ³³ϟĤťŜϟ͘ϷαБϦϟ͖͕ϥ͘͜ϳϟb͖͘ϟſĺŘħŜťŘĖIJČ ēЃ ͘ϷαБϟ‹ŕÍèôŘϟ³ϷĺŽôŘϟŕŪŕ ĖЃ ͘ϷαБϟ@īÍŜŜϟŪŘŜťϟ"ĖŜèϟŜŜôıæīƅϟЂѳϵϷϟ͙͕͜Ϸċťϟa"ϟċŘĺıϟVŪIJħϟaĖīīЃ ĤЃ ͘ϷαБϟ‹ŕÍèôŘϟ³ϷĺŽôŘϟŕŪŕ ħЃ ͘ϷαБϦϟ͖͕ϥ͘͜ϳϟb͖͘ϟſĺŘħŜťŘĖIJČϟťĺϟŜŪŘċÍèôϟÍŜϟŘôŗГî bi“(ϧϟϟ>ĖīīϟſĺŘħŜťŘĖIJČϟſēĖīôϟ“IFϟŪIJťĖīϟ@īÍŜŜϟŪŘŜťϟ"ĖŜèϟŜŜôıæīƅϟĖŜϟıÍîôϟŪŕϥϟϟ"ĺϟIJĺťϟƱīīϟ ŕĖŕôϟſēĖīôϟ“IFϟÍċťôŘϟťēÍťϟŕĺĖIJťϥϟϟ“ēĖŜϟſĖīīϟèēÍIJČôϟĺŪŘϟîĖŜŕīÍèôıôIJťϟÍIJîϟÍîîϟæŪĺƅÍIJèƅϟťĺϟťēôϟ ſĺŘħŜťŘĖIJČϟÍŜϟſôϟ“IFϟťĺϟťēôϟŕħŘϟťÍŘČôťϟŜôťϟîôŕťēϥ ͙͞Ѓ “IFϟťĺϟŕīÍèôϟVŪIJħϟaĖīīϟÍťϟѳϵϷϟ͕͗͗͜Ϸċťϟa" ͚͕Ѓ ‹ôťϟ"[“ϟĺıŕŘôŜŜĖĺIJϟ‹ôťϟ‡ôťŘĖôŽÍæīôϟ„ħŘϟÍIJîϟèĺIJƱŘıϟſĖťēϟæÍèħŜĖîôϟ„“ϟťĺϟ͖͚͕͕ϟŕŜĖ ͚͖Ѓ a˜ϟ>i‹«ϟťĺϟ͘ϷαБϦϟ͖͕ϥ͘͜ϳϟb͖͘ϟſĺŘħŜťŘĖIJČ ͚͗Ѓ a˜ϟ͘ϷαБϦϟ͖͕ϥ͘͜ϳϟb͖͘ϟſĺŘħŜťŘĖIJČϟŕŪŕϟĺIJϟťĺŕϟĺċϟ>i‹« ͚͘Ѓ īĺŜôϟ>i‹«ϟÍIJîϟŕīÍèôϟ͚ϷċťϟЂ͖ϥ͚͗ϷĖIJϟi"Ѓϟ"ŘĺŕϟÍŘϟĖIJϟſĺŘħŜťŘĖIJČϟϟŕŪŕϟÍæĺŽôϟ>i‹« ͚͙Ѓ a˜ϟ“ĺŕϟ"ŘĖŽôϟťĺϟ͘ϷαБϦϟ͖͕ϥ͘͜ϳϟb͖͘ϟſĺŘħŜťŘĖIJČϟŕŪŕ ͚͚Ѓ a˜ϟXôīīƅϟFĺŜôϟťĺϟťĺŕϟîŘĖŽôϟÍIJîϟôIJŜŪŘôϟĖťϟĖŜϟċŪīīƅϟĺŕôIJϟťĺϟťēôϟŕĖťŜϟÍIJîϟťēôϟŕĺĺŘϟæĺƅϟîôČÍŜŜôŘϟ ĖŜϟæƅŕÍŜŜôî ͚͛Ѓ iŕôIJϟδϟťŪŘIJϟŽÍīŽôϟÍIJîϟÍīīĺſϟæÍŘϟťĺϟîŘĺŕ ͚͜Ѓ iIJèôϟČīÍŜŜϟæŪŘŜťϟîĖŜèϟēÍŜϟæôôIJϟŘŪŕťŪŘôîϟÍIJîϟťēôϟĖIJĖťĖÍīϟŜŪŘČôϟēÍŜϟŜŪæŜĖîôîϦϟ„˜ϟĺIJϟ ſĺŘħŜťŘĖIJČϟťĺϟŪIJŜôÍťϟŕħŘ ͚͝Ѓ ôČĖIJϟŘôŽôŘŜôϟèĖŘèŪīÍťĖIJČϟƄ͗ϟſĺŘħŜťŘĖIJČϟŽĺīŪıôϟЂѳϵϷϟ͙͕ϟææīŜЃϟÍťϟıÍƄϟŘÍťôϟſϵϟ͝ϥ͜ϟϳϵČÍīϟæŘĖIJô ͚͞Ѓ iIJèôϟèĖŘèŪīÍťĖĺIJϟĖŜϟèĺıŕīôťôϦϟıĺIJĖťĺŘϟſôīīϟċĺŘϟƲĺſϟæôċĺŘôϟ“iiF ͕͛Ѓ “iiFϟīÍƅĖIJČϟîĺſIJϟŕħŘϟÍIJîϟôIJŜŪŘĖIJČϟ"ŘĺŕϟÍŘϟĖŜϟŘôèĺŽôŘôîϟċŘĺıϟÍæĺŽôϟVŪIJħϟaĖīī ͖͛Ѓ „ŘôŕϟŘĖČϟƲĺĺŘϟċĺŘϟèīôÍIJĺŪťϟŘŪIJ īôÍIJĺŪťϙ‡ŪIJϡ ͕͑Ͻ a˜ϙīôÍIJĺŪťϙFϡ èϽ ͑ϱ͖ϯ͗ЋϙŕŪŕϙſϯϙıŪīôŜēĺôϙϼѭϯϱϙ͔ϱċťϽ îϽ ³ϱĺŽôŘ ôϽ ‹ıĺĺťēϙi"ϙ‹ťŘĖIJČϙaĖīīϙċĺŘϙ͖ЋϠϙ͕͑ϭϙèŜČϙϼ͕ϟ͖͕͑ϱĖIJϙI"Ͻ ċϽ ͓ϱίЋϙ‹ťŘĖIJČϙaÍČIJôť ČϽ ͙ϟδБϟFƅîŘÍŪīĖèϟVÍŘŜϟÍIJîϟ[ŪæŘĖèÍťôîϟŪıŕôŘϟ‹Ūæ ēϽ ³ϟĤťŜϟ͙ϷδБϟ"ŘĖīīϟĺīīÍŘŜ ĖϽ ³ϱĺŽôŘ ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͐͏ϙ‹ôŕťôıæôŘϙ͑͏͔͑ ĤϽ ³³³ϙĤťŜϙ͘ϷαБϦϟ͖͕ϥ͘͜ϳϟb͖͘ϟſĺŘħŜťŘĖIJČϙťĺϙŜŪŘċÍèô ͕͒Ͻ “IFϙťĺϙ“i„ ͕͓Ͻ īôÍIJĺŪťϙ͖ЋϙèŜČϙæƅϙŘĺťÍťĖIJČϙÍIJîϟŘôŽôŘŜôϙèĖŘèŪīÍťĖIJČϙſēĖīôϙ‡IF ͕͔Ͻ ÍŘôċŪīīƅϙôIJťôŘϙŜôÍīϙæĺŘôϙĺċϙ͖Ћϙ„ôŘıÍŕÍħϙ‹ôÍīϙĺŘôϙ„ħŘϙťĺϙôIJŜŪŘôϙĖťϙĖŜϙèīôÍŘϙċĺŘϙ‹IJÍŕϙ[Íťèē ͕͕Ͻ „˜ϙťĺϙŜĺϙıŪīôŜēĺôϙĖŜϙĤŪŜťϙÍæĺŽôϙŕħŘϙÍIJîϙèĖŘèŪīÍťôϙÍϙ͑͏ϱææīϙČôīϙŕĖīīϙŜŪŘċÍèôϙťĺϙŜŪŘċÍèôϙſĖťēϙ͗ϟ͖ϙ ϭϯČÍīϙæŘĖIJôϙϼѭϯϱϙ͐͐͐ϙææīŜϽ ͕͖Ͻ “iiFϙīÍƅĖIJČϙîĺſIJϙīôÍIJĺŪťϙFϟϙϙbĺťôϙÍIJƅϙîôæŘĖŜϙŘôèĺŽôŘôîϙĺIJϙıÍČIJôťŜϟ ͕͗Ͻ „ŘôŕϙŘĖČϙƲĺĺŘϙċĺŘϙīĺſôŘϙèĺıŕīôťĖĺIJϙŘŪIJ [ſŘϙĺıŕīôťĖĺIJϙ‡ŪIJϡ ͕͘Ͻ a˜ϙ@„ϙ‹èŘôôIJϙŜŜƅϙĺIJϙťēôϙŜèŘôôIJϙťÍæīôϙÍŜϙċĺīīĺſŜϡ bi“(ϡϙϙ‹èŘôôIJϙŜôèťĖĺIJϙŜēĺŪīîϙŜťÍŘťϙѭϯϱϙ͐͏ϱċťϙæôīĺſϙīĺſôŘıĺŜťϙŕôŘċŜϙÍIJîϙŜťĺŕϙѭϯϱϙ͐͏ϱċťϙÍæĺŽôϙ ŪŕŕôŘıĺŜťϙŕôŘċŜ èϽ ‹IJÍŕϱ[ÍťèēϙċĺŘϙ͖Ћϙ„ôŘıÍŕÍħϙ‹ôÍīϙĺŘôϙ„ħŘ îϽ ͑ϱ͖ϯ͗ЋϠϙ͕ϟ͔Ћϙ[͗͏ϙ(˜(ϱ͗ŘîϙŜŕÍèôŘϙŕĖŕôϙÍŜϙIJôôîôîϙċĺŘϙŕĺŜĖťĖĺIJĖIJČϙĺċϙæťıϙĺċϙŜèŘôôIJŜϙѭϯϱϙ͐͏ϱċťϙ æôīĺſϙæťıϙŕôŘċĺŘÍťĖĺIJŜ ôϽ ³ϱĺŽôŘϙ͑ϱ͖ϯ͗ЋϠϙ͕ϟ͔ϭϙ(˜(ϱ͗ŘîϙŕĖIJϙƄϙ͓ЋϠϙ͘ϟ͔ϭϙV>(ϙôÍŘϙæĺƄ ċϽ ѳϵϷϟ͖͝ϙĤťŜϙ͓ЋϠϙ͘ϟ͔ϭϙ[͗͏ϙV>(ϙôÍŘϙæÍŜôŕĖŕôϙŜèŘôôIJŜϙƄ„ϙ‡͒ bi“(ϡϙϙϙ‹èŘôôIJϟ„ŘĺŕôŘťĖôŜϡ ͒ϟ͔͓͗ϱĖIJϙI" ͓ϟ͓͏͏ϱĖIJϙŜèŘôôIJϙi" ͒ϯ͗ЋϙēĺīôŜϙîŘĖīīôîϙÍťϙ͓͗ϙēĺīôŜϯċť ͏ϟ͏͐͑ϱČÍŪČôϙſĖŘôϙſŘÍŕϙϼ͘͏‹Ͻϙϯϙ͘͏«ϙŜèŘôôIJϙŘĖæŜ ͕ϟ͏͕͑ϱĖIJϙi"ϙ͓ϱæīÍîôϙèôIJťŘÍīĖƏôŘϙĺIJϙŕĖIJϙôIJî ČϽ ѳϵϷϟ͝ϙĤťŜϙ͓ЋϠϙ͘ϟ͔ϭϙ[͗͏ϙV>(ϙôÍŘϙæÍŜôŕĖŕô bi“(ϡϙϙ‡ôèĺııôIJîôîϙťĺŘŗŪôϙċĺŘϙ͓ЋϠϙ͘ϟ͔ϭϙV>(ϙôÍŘϡ aĖIJĖıŪı ͓͕͔͒ϙċťϱīæŜ iŕťĖıŪı ͖͓͔͒ϙċťϱīæŜ aÍƄ ͓͏͔͑ϙċťϱīæŜ ͖͏Ͻ ‡˜ϙċÍīŜôϙŘĺťÍŘƅϙťÍæīôϙÍIJîϙèēÍIJČôϙēÍIJîīĖIJČϙôŗŪĖŕıôIJťϙĺŪťϙťĺϙÍèèĺııĺîÍťôϙ͑ϱ͖ϯ͗ЋϙſÍŜēŕĖŕô ͖͐Ͻ „˜Ϡϙa˜ϠϙÍIJîϙ‡IFϙſϯϙ͑ϱ͖ϯ͗ЋϠϙ͕Ϡ͓ϭϙ[͗͏ϙF͔͐͐ϙſÍŜēŕĖŕôϙĖIJŜĖîôϙĺċϙ@„ϙ‹èŘôôIJϙŜŜƅ bi“(ϡϙϙ‡ôèĺııôIJîôîϙťĺŘŗŪôϙċĺŘϙ͑ϱ͖ϯ͗ЋϠϙ͕Ϡ͓ϭϙ[͗͏ϙF͔͐͐ϡ aĖIJĖıŪı ͖͏͏ϙċťϱīæŜ iŕťĖıŪı ͗͏͏ϙċťϱīæŜ aÍƄ ͐͑͏͏ϙċťϱīæŜ ͖͑Ͻ „˜ϙťēôϙF(‹ϙ@„ϙ„ħŘϙŜŜƅϟϙϙa˜ϙťēôϙ͑ϱ͖ϯ͗ЋϙſÍŜēŕĖŕôϙťĺϙťēôϙF(‹ϙ‡ŪIJIJĖIJČϙ“ĺĺīϙÍIJîϙa˜ϙťēôϙæīÍIJħϙ æÍŜôŕĖŕôϙťĺϙťēôϙF(‹ϙ@„ϙ„ħŘϙŕôŘϙF(‹ϙ“ĺĺīϙ‹ŪŕôŘŽĖŜĺŘЍŜϙîĖŘôèťĖĺIJ ͖͒Ͻ ‡"ϙċÍīŜôϙŘĺťÍŘƅϙťÍæīôϙÍIJîϙèēÍIJČôϙēÍIJîīĖIJČϙôŗŪĖŕıôIJťϙĺŪťϙťĺϙÍèèĺııĺîÍťôϙ͓ϱΫЋϙťæČϙſĺŘħŜťŘĖIJČ ͖͓Ͻ “IFϙıÍĖIJťÍĖIJĖIJČϙēĺīôϙƱīīϙťĺϙĤŪŜťϙÍæĺŽôϙ͖Ћϙ„ôŘıÍŕÍħϙ‹ôÍīϙĺŘôϙ„ħŘϟϙϙiæťÍĖIJϙ„˜ϙÍIJîϙ‹iϙſôĖČēťŜϟ bi“(ϡϙϙ‹ŕÍèôϙĺŪťϙŜēĺŪīîϙťÍħôϙĖIJťĺϙèĺIJŜĖîôŘÍťĖĺIJϙťēôϙēôĖČēťϙĺċϙťēôϙ͓ϱΫЋϙťæČϙſĺŘħŜťŘĖIJČϙĺIJϙťēôϙŘĖČϙ ƲĺĺŘϙċĺŘϙŘĖČČĖIJČϙŪŕϙťēôϙ@„ϙŕŪıŕĖIJČϙħĖť ͖͔Ͻ ‹iϙĖIJťĺϙ͖Ћϙ„ôŘıÍŕÍħϙ‹ôÍīϙĺŘôϙ„ħŘϙŪIJťĖīϙŜťÍèħϙĺŪťϙĖŜϙIJĺťôîϟϙϙ„˜ϙťĺϙŜIJÍŕϙĺŪťϙÍIJîϙèĺIJƱŘıϙīÍťèēϟ ͖͕Ͻ ‡ôϱôIJČÍČôϙŜIJÍŕϙīÍťèēϙÍIJîϙ„˜ϙťĺϙIJôŪťŘÍīϙŕĖŕôϙſôĖČēť ͖͖Ͻ ‹ôťϙF(‹ϙF(‹ϙ«ϙ„ħŘϙÍŜϙŕôŘϙF(‹ϙ“ĺĺīϙ‹ŪŕôŘŽĖŜĺŘЍŜϙîĖŘôèťĖĺIJϙЂѳϵϷϟ͖͕͗͞Ϸċťϟa"Ѓ ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͐͏ϙ‹ôŕťôıæôŘϙ͑͏͔͑ ͖͗Ͻ „ôŘċĺŘıϙ@„ϙĺŕôŘÍťĖĺIJŜϙÍŜϙŕôŘϙF(‹ϙ“ĺĺīϯ„ŪıŕĖIJČϙ‹ŪŕôŘŽĖŜĺŘЍŜϙîĖŘôèťĖĺIJŜ èϽ @ôIJôŘÍīϙ‹ťôŕŜϡ ĖϽ aÍIJĖŕŪīÍťôϙF(‹ϙ@„ϙ“ĺĺīϙŜŜƅϙĖIJϙĺŘîôŘϙťĺϙŕĖèħīôϙſĺŘħŜťŘĖIJČϙſĖťēϙ͔͐҇ϙFīϙϼѭϯϱϙ͐͏ϙææīŜϽϙ ÍIJîϙîĖŜŕīÍèôϙĖťϙťĺϙťēôϙF(‹ϙ@„ϙ“ĺĺīϙŜŜƅϙſϯϙ͗ϟ͖ϙϭϯČÍīϙċŘôŜēϙſťŘ ĖĖϽ ‡ôŽôŘŜôϙèĖŘèŪīÍťôϙŕĖèħīôϙċŘĺıϙťēôϙſĺŘħŜťŘĖIJČϙťÍħĖIJČϙŘôťŪŘIJŜϙťĺϙÍIJϙĺŕôIJϙťĺŕϙťÍIJħ bi“(ϡϙϙ(IJŜŪŘôϙIJôŪťŘÍīĖƏĖIJČϙÍČôIJťϙĖŜϙĺIJϙīĺèÍťĖĺIJ ĖĖĖϽ aÍIJĖŕŪīÍťôϙF(‹ϙ@„ϙ“ĺĺīϙŜŜƅϙťĺϙŕôŘċĺŘıϙŜťôŕϙŘÍťôϙĖIJĤôèťĖĺIJϙťôŜťϙÍťϙ͐Ϡϙ͑Ϡϙ͓ϠϙÍIJîϙ͕ϙæŕıϙſϯϙ ͗ϟ͓͒ϙīæϯČÍīϙċŘôŜēſÍťôŘϟϙϙ‹ēŪťϙîĺſIJϙŕŪıŕŜϙÍIJîϙŘôèĺŘîϙťæČϯèŜČϙŕŘôŜŜŪŘôŜ ĖŽϽ „Ūıŕϙ@„ϙſϯϙѭϯϱϙ͔͐XϙīæŜϙ͑͏ϯ͓͏ϙÍŘæĺīĖťô ͖͘Ͻ ˜ŕĺIJϙŜŪèèôŜŜċŪīϙŕīÍèôıôIJťϙĺċϙ@„ϙŜēŪťîĺſIJϙŕŪıŕŜϙÍIJîϙıĺIJĖťĺŘϙſôīīϙċĺŘϙŜťÍťĖèϙèĺIJîĖťĖĺIJŜϟϙϙ ĖŘèŪīÍťôϙ͗ϟ͖ϙϭϯČÍīϙæŘĖIJôϙÍŜϙŘôŗŪĖŘôîϟ ͗͏Ͻ “iiFϙÍIJîϙīÍƅϙîĺſIJϙťēôϙF(‹ϙŘŪIJIJĖIJČϙťĺĺīŜ ͗͐Ͻ ēÍIJČôϙēÍIJîīĖIJČϙôŗŪĖŕıôIJťϙĺŪťϙťĺϙÍèèĺııĺîÍťôϙ͑ϱ͖ϯ͗ЋϙſÍŜēŕĖŕô ͗͑Ͻ “iiFϙ͑ϱ͖ϯ͗ЋϙſÍŜēŕĖŕô ͗͒Ͻ „ŘôŕϙŘĖČϙƲĺĺŘϙċĺŘϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[͗͏ϙ“³„ϱ“ϙ˜ŕŕôŘϙ(‹„ϙèĺıŕīôťĖĺIJϙŘŪIJ ˜ŕŕôŘϙ(‹„ϙĺıŕīôťĖĺIJϙ‡ŪIJϡ ͓͗Ͻ (IJŜŪŘôϙēÍIJîīĖIJČϙôŗŪĖŕıôIJťϙĖŜϙĺIJϱēÍIJîϙċĺŘϙŘŪIJIJĖIJČϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙèĺıŕīôťĖĺIJ ͔͗Ͻ a˜ϙ‹ŕĺĺīôŘϙťĺϙŘŪIJϙ(‹„ϙŕĺſôŘϙèÍæīô ͕͗Ͻ „˜ϙ(‹„ϙÍŜŜôıæīƅϙÍIJîϙ‡IFϙĺIJϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙťæČϠϙıÍħĖIJČϙôīôèťŘĖèÍīϙèēôèħŜϙĺIJϙťēôϙ èÍæīôϙôŽôŘƅϙ͐Ϡ͏͏͏ϱċťϟϙϙIIJŜťÍīīϙèŘĺŜŜϱèĺŪŕīĖIJČϙèīÍıŕŜϙĺIJϙťēôϙƱŘŜťϙ͐͏ϙĤťŜϙťēôIJϙôŽôŘƅϙĺťēôŘϙĤťϙťĺϙ ŜŪŘċÍèôϟ bi“(ϡϙϙ‡ôèĺııôIJîôîϙťĺŘŗŪôϙċĺŘϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϡ aĖIJĖıŪı ͔͔͔͏ϙċťϱīæŜ iŕťĖıŪı ͕͖͐͏ϙċťϱīæŜ aÍƄ ͕͖͘͏ϙċťϱīæŜ èϽ aĺťĺŘϙôIJťŘÍīĖƏôŘϙϳϙ“ÍŘČôťϙŜôťϙîôŕťēϙÍťϙ͑͐͏͏ϱċťϙa" îϽ "Fϙ@ÍŪČô ôϽ ͓͔͏ϙ(‹„ϙaťŘ ċϽ ͓͔͏ϙ(‹„ϙaťŘ ČϽ [ĺſôŘϙ‹ôÍī ēϽ ˜ŕŕôŘϙ‹ôÍī ĖϽ IIJťÍħô ĤϽ ͔͒͗ϙ(‹„ϙŕŪıŕ ħϽ ĺīťϱĺIJϙ"ĖŜèēÍŘČôϙēôÍîϙſϯϙ͒ϱΫЋϠϙ(˜(ϙ͗ŘîϙæĺƄϙŪŕ īϽ ³ϱĺŽôŘϙ͒ϱΫЋϠϙ(˜(ϙ͗ŘîϙŕĖIJϙƄϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ“³„ϱ“ϙæĺƄ ıϽ ϼ͐ϽϙĤťϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙťæČ IJϽ ϼ͐Ͻϙ͓ϱΫЋϙ³bϙIJĖŕŕīôϙŕŘĺƱīôϙϼ͒ϟ͗͐͒ϱĖIJϙĺŘôϠϙ͒ϟ͖͔͑Ћϙbĺϱ@ĺϽϙſϯϙ͐͏ϱċťϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙ ēÍIJîīĖIJČϙŕŪŕŜ ĺϽ ³³ϙĤťŜϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙťæČϙťĺϙŜŪŘċÍèô ŕϽ “æČϙFČŘϙ³ϱĺŽôŘϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙŕĖIJϙƄϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙϙ“ϱIIϙæĺƄ ͖͗Ͻ „˜ϙÍIJîϙa˜ϙťēôϙťæČϙēČŘϟϙϙaÍħôϙƱIJÍīϙŜŕīĖèôϙĺċϙťēôϙ(‹„ϙèÍæīôϙťĺϙťēôϙŕôIJôťŘÍťĺŘϠϙa˜ϙèĺIJťŘĺīϙīĖIJôϙťĺϙ ťēôϙťæČϙēČŘϙÍIJîϙîŪııƅϙĺƯϙÍIJƅϙÍîîĖťĖĺIJÍīϙèĺIJťŘĺīϙīĖIJôϙŕĺŘťŜϙĖċϙIJôèôŜŜÍŘƅϟ ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͐͏ϙ‹ôŕťôıæôŘϙ͑͏͔͑ bi“(ϡϙϙ˜ŜôϙèÍŪťĖĺIJϙſēôIJϙīÍIJîĖIJČϙťēôϙťæČϙēČŘϙŜĺϙÍŜϙťĺϙÍŽĺĖîϙîÍıÍČĖIJČϙťēôϙ(‹„ϙèÍæīôϙĺŘϙ ŕôIJôťŘÍťĺŘϟ ͗͗Ͻ [ÍIJîϙťæČϙēČŘϙÍIJîϙŘôèĺŘîϙ„˜®ϙÍIJîϙ‹i®ϙĺIJϙťæČϙťÍīīƅ ͗͘Ͻ ‡I["‹ϙÍIJîϙīÍƅϙîĺſIJϙīÍIJîĖIJČϙĤť ͘͏Ͻ ‹ôťϙ„«ϟϙϙb"ϙi„(ϟϙϙ‹ôťϙ“‹ϙ„īŪČϟ ͐͘Ͻ b˜ϙťæČϙēôÍîϙÍîÍŕťôŘϟϙϙ„“ϙťæČϙēČŘϙŽĺĖîϙťĺϙ͔͏͏ϯ͔͏͏͏ϙŕŜĖϟ ͑͘Ͻ b˜ϙIJôſϙ͓ϱ͐ϯ͕͐Ћϙ͔aϙťŘôôϟϙϙ„“ϙťŘôôϙ͔͏͏ϯ͔͏͏͏ϙŕŜĖϟ ͒͘Ͻ „Ūīīϙ“‹ϙŕīŪČϙÍIJîϙ„« ͓͘Ͻ IIJŜťÍīīϙČÍŪČôŜϟϙϙ‹ôèŪŘôϙťŘôôϙÍIJîϙèôīīÍŘϟ ͔͘Ͻ ‡"aiϙ‹‡ „ĺŜťϱ‡ĖČϙ„ŘĺèôîŪŘôϡ ͐Ͻ “ŪŘIJϙſôīīϙĺŽôŘϙťĺϙiŕŜϙŽĖÍϙēÍIJîĺŽôŘϙċĺŘı ͑Ͻ ‡˜ϙſôīīϙēĺŪŜôϙÍIJîϙƲĺſīĖIJôŜ ͒Ͻ „i„ϙŕôŘϙF(‹ϙ‹ŪııĖťϙ‹ťÍŘťŪŕϙ„ŘĺèôîŪŘô ťťÍèēıôIJťŜϡ ͐Ͻ ŪŘŘôIJťϙ®ôīīæĺŘôϙ‹èēôıÍťĖèϟŜēĺſĖIJČϟŪŘŘôIJťϟĺIJîĖťĖĺIJ ͑Ͻ „ŘĺŕĺŜôîϙ®ôīīæĺŘôϙ‹èēôıÍťĖè ͒Ͻ ĺŘŘôèťôîϵŕŕŘĺŽôîϟi„(ϙ‹èēôıÍťĖè _____________________________________________________________________________________ Revised By: TDF 9/11/2 025 SCHEMATIC Milne Point Unit Well: MPU H-03 Last Completed: 1/3/1991 PTD: 190-088 TD =5,645’(MD) / TD = 4,529’(TVD) 13-3/8” TOC Calc. @ 4,764 MD 7” 8 7 9-5/8” 4 PBTD =5,634’ (MD) / PBTD = 4,541’(TVD) 1 5 2 3 Orig. KB Elev.: 72’/ Orig. GL Elev.: 35’ (Nabors 27E) CASING DETAIL Size Type Wt/ Grade/ Conn ID Top Btm 13-3/8" Conductor 54.5 / K-55 / Welded N/A Surface 116' 9-5/8” Surface 36 / K-55 / BTRC 8.921 Surface 2,871 7" Intermediate 26 / L-80 / BTRC 6.276 Surface 5,634’ TUBING DETAIL N/A N/A N/A N/A N/A N/A 4” Screens JFE Bear 3.548 4,881’ 5,056’ JEWELRY DETAIL No Depth Item (Depths based on Nabors 4ES RKB) 1 4,846’ Cement Retainer 2 4,881’ Baker SC-IL Packer –4.0” ID 3 5,011’ Bakerweld 2-7/8” 12ga Screen (32’, 2.441” ID) 4 5,045’ Baker Model ‘D’ Packer –3.25”ID 5 5,055’ OTIS XN Nipple –Min ID= 1.791” 6 5,056’ Wireline Re- Entry Guide –1.81” ID OPEN HOLE / CEMENT DETAIL 20" 500 sx of Permafrost ‘C’ in 30” Hole 10-3/4" 1,212 sx ArcticSet IV in 12-1/4” Hole 7-5/8” 260 sx Class “G” in 8-1/2” Hole WELL INCLINATION DETAIL KOP @ 500’ MD Max Wellbore Angle = 40.36 deg @ 4,600’ MD WELLHEAD Tree WKM 2-9/16”, 5,000# w/ 2-7/8” 8rd Treetop Connection Wellhead WKM 2-7/8” Tubing Hanger, w/ ‘H’ Profile BPV GENERAL WELL INFO API: 50-029-22063-00-00 Drilled and Cased by Nobors 27E –10/9/1990 Lower & ESP Completion –1/3/1991 PERFORATION DETAIL Sands Top (MD) Btm (MD) Top (TVD) Btm (TVD) FT Date Status Schrader Bluff 5,031’ 5,038’ 4,085’ 4,090’ 7 12/30/1990 Abandoned Schrader Bluff 5,122’ 5,162’ 4,152’ 4,182’ 40 12/28/1990 Abandoned FRAC STIMULATION DETAIL Stimulation: Frac 5,122’ to 5,162’ Pumped 11,301# of 16/20 Mesh Carbo-Lite. Frac-Pack 5,031 to 5,038, Pumped 11,268# of 20/40 Mesh Gravel. _____________________________________________________________________________________ Revised By: TDF 9/11/2 025 PROPOSED Milne Point Unit Well: MPU H-03 Last Completed: 1/3/1991 PTD: 190-088 TD =5,645’(MD) / TD = 4,529’(TVD) 13-3/8” 7” 16 11 15 9-5/8” Prince Creek PBTD =5,634’ (MD) / PBTD = 4,541’(TVD) 1 13 12 2 14 Orig. KB Elev.: 72’/ Orig. GL Elev.: 35’ (Nabors 27E) TOC @ 4,764’ 2 3 4 & 5 6 7 8 9 10 CASING DETAIL Size Type Wt/ Grade/ Conn ID Top Btm 13-3/8" Conductor 54.5 / K-55 / Welded N/A Surface 116' 9-5/8” Surface 36 / K-55 / BTRC 8.921 Surface 2,871 7" Intermediate 26 / L-80 / BTRC 6.276 Surface 5,634’ TUBING DETAIL 4-1/2” Tubing 12.6 / L-80 / TXP BTC 3.958 Surface ±2,100’ 4” Screens 9.5 / L-80 / JFE Bear 3.548 ±2,190’ ±3,213’ 4” Screens JFE Bear 3.548 4,881’ 5,056’ JEWELRY DETAIL No Depth Item (Depths based on Nabors 4ES RKB) 1 ±X,XXX’ Discharge Head: 2 ±X,XXX’ Pump: 3 ±X,XXX’ Gas Separator: 4 ±X,XXX’ Upper Tandem Seal: 5 ±X,XXX’ Lower Tandem Seal: 6 ±X,XXX’ Motor: 7 ±X,XXX’ Sensor w/ 6 Fin Centralizer –Bottom @ ±2,100’ 8 ±2,190’ 7” Packer 9 ±X,XXX’ Screens –Btm @±X,XXX’ 10 ±3,213’ 7” Packer 11 4,846’ Cement Retainer 12 4,881’ Baker SC-IL Packer –4.0” ID 13 5,011’ Bakerweld 2-7/8” 12ga Screen (32’, 2.441” ID) 14 5,045’ Baker Model ‘D’ Packer –3.25”ID 15 5,055’ OTIS XN Nipple –Min ID= 1.791” 16 5,056’ Wireline Re- Entry Guide –1.81” ID OPEN HOLE / CEMENT DETAIL 20" 500 sx of Permafrost ‘C’ in 30” Hole 10-3/4" 1,212 sx ArcticSet IV in 12-1/4” Hole 7-5/8” 260 sx Class “G” in 8-1/2” Hole WELL INCLINATION DETAIL KOP @ 500’ MD Max Wellbore Angle = 40.36 deg @ 4,600’ MD WELLHEAD Tree WKM 2-9/16”, 5,000# w/ 2-7/8” 8rd Treetop Connection Wellhead WKM 2-7/8” Tubing Hanger, w/ ‘H’ Profile BPV GENERAL WELL INFO API: 50-029-22063-00-00 Drilled and Cased by Nobors 27E –10/9/1990 Lower & ESP Completion –1/3/1991 PERFORATION DETAIL Sands Top (MD) Btm (MD) Top (TVD) Btm (TVD) FT Date Status Prince Creek ±2,500’ ±2,595’ ±2,230’ ±2,297’ ±95 Future Future ±2,698’ ±2,763’ ±2,368’ ±2,412’ ±65 Future Future ±2,931’ ±2,985’ ±2,529’ ±2,5687’ ±54 Future Future ±3,041’ ±3,076’ ±2,608’ ±2,633’ ±35 Future Future ±3,100’ ±3,125’ ±2,650’ ±2,670’ ±25 Future Future ±3,158’ ±3,193’ ±2,693’ ±2,718’ ±35 Future Future Schrader Bluff 5,031’ 5,038’ 4,085’ 4,090’ 7 12/30/1990 Abandoned Schrader Bluff 5,122’ 5,162’ 4,152’ 4,182’ 40 12/28/1990 Abandoned FRAC STIMULATION DETAIL Stimulation: Frac 5,122’ to 5,162’ Pumped 11,301# of 16/20 Mesh Carbo-Lite. Frac-Pack 5,031 to 5,038, Pumped 11,268# of 20/40 Mesh Gravel. CAUTION: This email originated from outside the State of Alaska mail system. Do not click links or open attachments unless you recognize the sender and know the content is safe. From:Rixse, Melvin G (OGC) To:Erik Nelson Subject:20250909 1608 APPROVAL Request for Verbal Approval of COP on MPU H-03 (PTD# 190-088) operating under Approved Sundry# 325-487... Date:Tuesday, September 9, 2025 4:11:10 PM Attachments:image001.png image002.png Erik, Hilcorp is approved to proceed with perforations and sump packer setting as described below. Mel Rixse Senior Petroleum Engineer (PE) Alaska Oil and Gas Conservation Commission 907-793-1231 Office 907-297-8474 Cell 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 Mel Rixse at (907-793-1231 ) or (Melvin.Rixse@alaska.gov). From: Erik Nelson <erik.nelson@hilcorp.com> Sent: Tuesday, September 9, 2025 3:53 PM To: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov> Subject: Request for Verbal Approval of COP on MPU H-03 (PTD# 190-088) operating under Approved Sundry# 325-487... Mel, We got our E-Line logging done last night and received the processed logs this afternoon on MPU H-03. The Tertiary Undef WTRSP (525130) aquifer came in a little different than our correlations from offset well logs. We are proposing the below new perforations in our pursuit of turning MPU H-03 into a WSW: New Proposed Perfs: Currently Approved Perfs: In our currently approved Sundry# 325-487 we proposed setting our sump pkr at +/- 3295-ft MD (2793-ft TVD). Due to the adjustments in the perforations I would like to set it at +/- 3213-ft MD (2733-ft MD). I am prepping a 10-403 COP but we will be running the sump pkr this evening so I am requesting verbal permission to proceed. Q Erik Q. Nelson Milne Point OE O (907) 777 - 8353 C (907) 903 – 7407 Erik.Nelson@hilcorp.com The information contained in this email message is confidential and may be legally privileged and is intended only for the use of the individual or entitynamed above. If you are not an intended recipient or if you have received this message in error, you are hereby notified that any dissemination,distribution, or copy of this email is strictly prohibited. If you have received this email in error, please immediately notify us by return email or telephoneif the sender's phone number is listed above, then promptly and permanently delete this message. While all reasonable care has been taken to avoid the transmission of viruses, it is the responsibility of the recipient to ensure that the onwardtransmission, opening, or use of this message and any attachments will not adversely affect its systems or data. No responsibility is accepted by thecompany in this regard and the recipient should carry out such virus and other checks as it considers appropriate. CAUTION: This email originated from outside the State of Alaska mail system. Do not click links or open attachments unless you recognize the sender and know the content is safe. From:Alaska NS - ASR - Well Site Managers To:Regg, James B (OGC); DOA AOGCC Prudhoe Bay; Brooks, Phoebe L (OGC); Wallace, Chris D (OGC) Cc:Alaska NS - ASR - Well Site Managers Subject:10-426 For MPU H-03 Date:Wednesday, September 10, 2025 7:17:45 AM Attachments:MPH-03 10-426.xlsx Here is the 10-426 for the Pressure test of the 7” casing and cement plug on MPH-03 Thanks, Aaron Haberthur ASR-1 DSM Mobile: 417-230-3077 Office: 907-685-1266 Aaron.haberthur@hilcorp.com The information contained in this email message is confidential and may be legally privileged and is intended only for the use of the individual or entity named above. If you are not an intended recipient or if you have received this message in error, you are hereby notified that any dissemination, distribution, or copy of this email is strictly prohibited. If you have received this email in error, please immediately notify us by return email or telephone if the sender's phone number is listed above, then promptly and permanently delete this message. While all reasonable care has been taken to avoid the transmission of viruses, it is the responsibility of the recipient to ensure that the onward transmission, opening, or use of this message and any attachments will not adversely affect its systems or data. No responsibility is accepted by the company in this regard and the recipient should carry out such virus and other checks as it considers appropriate. 0LOQH3RLQW8QLW+ 37' OPERATOR:FIELD / UNIT / PAD:DATE:OPERATOR REP:AOGCC REP:1900880 Type Inj N Tubing 0 0 0 0 Type Te 3890 BBL Pump 2.1 IA 0 2550 2510 2505 Interva 2500 BBL Return 2.1 OA 0 50 50 50 Resu Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. Type Inj Tubing Type Te BBL Pump IA Interva BBL Return OA Resu Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. Type Inj Tubing Type Te BBL Pump IA Interva BBL Return OA Resu Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. Type Inj Tubing Type Te BBL Pump IA Interva BBL Return OA Resu Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. Type Inj Tubing Type Te BBL Pump IA Interva BBL Return OA Resu Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. Type Inj Tubing Type Te BBL Pump IA Interva BBL Return OA Resu Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. Type Inj Tubing Type Te BBL Pump IA Interva BBL Return OA Resu Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. Type Inj Tubing Type Te BBL Pump IA Interva BBL Return OA Resu ressure test of 7" casing and cement plug. No tubing in the hole. TOC TVD ~3890' 9 9 9 99 999 9 9 9 2,/SURGXFHU2,/SURGXFHUtest of 7" casing and cement plug 1. Type of Request: Abandon Plug Perforations Fracture Stimulate Repair Well Operations shutdown Suspend Perforate Other Stimulate Pull Tubing Change Approved Program Plug for Redrill Perforate New Pool Re-enter Susp Well Alter Casing Other: Convert to WSW 2. Operator Name: 4. Current Well Class: 5. Permit to Drill Number: Exploratory Development 3. Address: Stratigraphic Service 6. API Number: 7. If perforating:8. Well Name and Number: What Regulation or Conservation Order governs well spacing in this pool? Yes No 9. Property Designation (Lease Number): 10. Field: 11. Total Depth MD (ft): Total Depth TVD (ft): Effective Depth MD: Effective Depth TVD: Junk (MD): 5,645'N/A Casing Collapse Conductor N/A Surface 2,020psi Intermediate 5,410psi Liner 11,170psi Packers and SSSV Type: Packers and SSSV MD (ft) and TVD (ft): 12. Attachments: Proposal Summary Wellbore schematic 13. Well Class after proposed work: Detailed Operations Program BOP Sketch Exploratory Stratigraphic Development Service 14. Estimated Date for 15. Well Status after proposed work: Commencing Operations: OIL WINJ WDSPL Suspended 16. Verbal Approval: Date: GAS WSW GSTOR SPLUG AOGCC Representative: GINJ Op Shutdown Abandoned Contact Name: Contact Email: Contact Phone: Authorized Title: Wells Manager Conditions of approval: Notify AOGCC so that a representative may witness Sundry Number: Plug Integrity BOP Test Mechanical Integrity Test Location Clearance Other Conditions of Approval: Post Initial Injection MIT Req'd? Yes No APPROVED BY Approved by: COMMISSIONER THE AOGCC Date: Comm. Comm. Sr Pet Eng Sr Pet Geo Sr Res Eng Erik Nelson Erik.Nelson@hilcorp.com 907-564-5277 2-7/8"5,056' Perforation Depth MD (ft): 5,056' See Schematic See Schematic 2-7/8" 4,881MD/ 3,976 TVD & 5,045 MD/ 4,098 TVD 4,182' 5,634' 116' 13-3/8" 9-5/8" 7" 4,182' 5,634' N/A 10,570psi 3,520psi 7,240psi 3,453' 4,532' 4,106' Length Size Proposed Pools: 116' 116' 6.5 / L-80 / EUE 8rd TVD Burst 4,837' MD STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS 20 AAC 25.280 ADL0025906 190-088 3800 Centerpoint Dr, Suite 1400 Anchorage, AK 99503 50-029-22063-00-00 Hilcorp Alaska LLC C.O. 477B AOGCC USE ONLY Tubing Grade: Tubing MD (ft):Perforation Depth TVD (ft): 9/3/2025 Baker SC-IL & Baker Model 'D' Subsequent Form Required: Suspension Expiration Date: Will perfs require a spacing exception due to property boundaries? Current Pools: MPSP (psi): Plugs (MD): 17. I hereby certify that the foregoing is true and the procedure approved herein will not be deviated from without prior written approval. Authorized Name and Digital Signature with Date: Tubing Size: PRESENT WELL CONDITION SUMMARY MILNE PT UNIT H-03 MILNE POINT SCHRADER BLUFF OIL Prince Creek Tertiary 4,541' 5,552' 4,472' 1,259 N/A Form 10-403 Revised 06/2023 Approved application valid for 12 months from date of approval.Submit PDF to aogcc.permitting@alaska.gov By Grace Christianson at 7:48 am, Aug 19, 2025 Digitally signed by Taylor Wellman (2143) DN: cn=Taylor Wellman (2143) Date: 2025.08.18 20:20:35 - 08'00' Taylor Wellman (2143) 325-487 2,488' * BOPE test to 2500 psi. 24 hour notice to AOGCC for opportunity to witness. * AOGCC to witness jointed pipe tag and pressure test to 1500 psi of reservoir cement plug TOC ~ 4800' MD. Convert to W SW DSR-8/19/25 2,871'SFD MGR20AUG2025 Perforate New Pool 10-404 SFD 8/27/2025JLC 8/28/2025 Gregory C. Wilson Digitally signed by Gregory C. Wilson Date: 2025.08.28 16:36:30 -08'00'08/28/25 RBDMS JSB 082925 ®ôīīϙbÍıôϡ a„˜ϙFϱ͏͒„IϙbŪıæôŘϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ ŪŘŘôIJťϙ‹ťÍťŪŜϡ [“‹Iϙ(‹„ϙ„Řĺî ‡ĖČϡ ‹‡ϙϭ͐ (ŜťĖıÍťôîϙ‹ťÍŘťϙ"Íťôϡ ͘ϯ͏͒ϯ͑͏͔͑(ŜťĖıÍťôîϙ"ŪŘÍťĖĺIJϡ ͐͏ϙîÍƅŜ ‡ôČŪīÍťĺŘƅϙĺIJťÍèťϡ “ĺıϙ>ĺŪťŜ „ôŘıĖťϙťĺϙ"ŘĖīīϙbŪıæôŘϡ ͐͘͏ϱ͏͗͗ >ĖŘŜťϙÍīīϙ(IJČĖIJôôŘϡ (ŘĖħϙ†ϟϙbôīŜĺIJ ϼ͘͏͖Ͻϙ͖͖͖ϙϳϙ͔͗͒͒ϙϼiϽ ϼ͘͏͖Ͻϙ͘͏͒ϙϳϙ͖͓͏͖ϙϼϽ ‹ôèĺIJîϙÍīīϙ(IJČĖIJôôŘϡ “ÍƅīĺŘϙ®ôīīıÍIJ ϼ͘͏͖Ͻϙ͖͖͖ϙϳϙ͓͓͗͘ϙϼiϽ ϼ͘͏͖Ͻϙ͓͖͘ϙϳϙ͔͒͒͘ϙϼϽ @ôĺīĺČĖŜťϡ XÍťĖôϙŪIJēÍ ϼ͘͏͖Ͻϙ͔͕͓ϙϳϙ͓͖͕͗ϙϼiϽ ϼ͘͏͖Ͻϙ͗͏͑ϙϳϙ͏͏͖͗ϙϼϽ ŪŘŘôIJťϙĺťťĺıϙFĺīôϙ„ŘôŜŜŪŘôϙϼF„Ͻϡ ‹èēŘÍîôŘϙīŪƯϙϼiϠϙbϠϙbϠϙÍIJîϙiϽ ЂťĺϟæôϟÍæÍIJîĺIJôîϟîŪŘĖIJČϟ‡®iЃ ͕͕͐͗ϙŕŜĖϙЬϙ͔͏͒͐ϱċťϙa"ϙϼ͓͏͖͗ϱċťϙ“«"Ͻϙϼ“i„Ͻ ͐͐ϙaÍƅϙ͑͏͔͑ϙиϙ͖ϟ͔͗ϙ(a®ϙϼ͗ϟ͔ϙX®>Ͻ aÍƄϙ„ĺťôIJťĖÍīϙ‹ŪŘċÍèôϙ„ŘôŜŜŪŘôϙϼa„‹„Ͻϡ ͔͐͑͘ϙŕŜĖ @ÍŜϙĺīŪıIJϙ@ŘÍîĖôIJťϙϼ͏ϟ͐ϙŕŜĖϯċťϽ ŪŘŘôIJťϙĺťťĺıϙFĺīôϙ„ŘôŜŜŪŘôϙϼF„Ͻϡ “ôŘťĖÍŘƅϙ˜IJîôċϙ®“‡‹„ϙϼ͔͔͑͐͒͏Ͻ ЂťĺϟæôϟŘôèĺıŕīôťôîϟÍŜϟ®‹®Ѓ ͐͘͘ϙŕŜĖϙЬϙ͔͑͑͏ϱċťϙa"ϙϼ͓͑͑͑ϱċťϙ“«"Ͻϙϼ„īÍIJIJôîϙ“i„Ͻ >ŘĺıϙĺƯŜôťϙ®‹®ϙиϙ͗ϟ͔͏ϙ(a®ϙϼ͗ϟ͖ϙX®>Ͻ aÍƄϙ„ĺťôIJťĖÍīϙ‹ŪŘċÍèôϙ„ŘôŜŜŪŘôϙϼa„‹„Ͻϡ ͖͕͕ϙŕŜĖ 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͐͘͘͏ϙÍIJîϙēÍŜϙæôôIJϙŜēŪťϙĖIJϙŜĖIJèôϟ bĺťôŜϙ‡ôČÍŘîĖIJČϙŪŘŘôIJťϙ®ôīīæĺŘôϙĺIJîĖťĖĺIJϡ -͐͐ϙaÍƅϙ͑͏͔͑ϙϳϙ"ŘĖċťôîϙťæČϙſϯϙ͑ϟ͒͏ϱĖIJϙČÍŪČôϙŘĖIJČϟϙϙ‡ŪIJϙ‹F„ϙŜŪŘŽôƅϟ iæĤôèťĖŽôϡ FĖīèĺŘŕϙīÍŜħÍϠϙ[[ϙŕŘĺŕĺŜôŜϙŕôŘċĺŘıĖIJČϙŘôŜôŘŽĺĖŘϙÍæÍIJîĺIJıôIJťϙĺċϙťēôϙ‹èēŘÍîôŘϙīŪƯϙЊiЋϙÍIJîϙЊbЋϙŜÍIJîŜϙ ÍIJîϙťĺϙŘôϱèĺıŕīôťôϙťēôϙſôīīϙĖIJťĺϙťēôϙ“ôŘťĖÍŘƅϙ˜IJîôċϙ®“‡‹„ϙϼ͔͔͑͐͒͏ϽϙċĺŘıÍťĖĺIJϙÍŜϙÍϙēĖČēϱŽĺīŪıôϙċŘôŜēſÍťôŘϙ ŜĺŪŘèôϙſôīīϟ “ēĖŜϙŕŘĺèôîŪŘôϙîôťÍĖīŜϙťēôϙæôīĺſϙĺŪťīĖIJôϙĺċϙťēôϙŜèĺŕôϙĺċϙťēĖŜϙŕŘĺĤôèťϡ -„ŪīīϙťēôϙôƄĖŜťĖIJČϙ͑ϱ͖ϯ͗ЋϠϙ͕ϟ͔ϭϙ[͗͏ϙ(˜(ϙ͗ŘîϙťæČϙ(‹„ϙèĺıŕīôťĖĺIJ -‹ôťϙ͖ЋϙèôıôIJťϙŘôťÍĖIJôŘϙÍIJîϙŕŪıŕϙīÍŜŜϙ@ϙIJôÍťϙèôıôIJťϙťĺϙÍæÍIJîĺIJϙťēôϙ‹èēŘÍîôŘϙīŪƯϙЊiЋϙÍIJîϙЊbЋϙ ŕôŘċĺŘÍťĖĺIJŜ -„ôŘċĺŘÍťôϙťēôϙ“ôŘťĖÍŘƅϙ˜IJîôċϙ®“‡‹„ϙϼ͔͔͑͐͒͏ϽϙċĺŘıÍťĖĺIJϙÍIJîϙĖIJŜťÍīīϙÍϙÍŜôîϙFĺīôϙ@ŘÍŽôīϙ„Íèħϙ ϼF@„ϽϙīĺſôŘϙèĺıŕīôťĖĺIJ -IIJŜťÍīīϙÍϙ͓ϱΫЋϙťŪæĖIJČϙ(‹„ϙèĺıŕīôťĖĺIJϙÍæĺŽôϙťēôϙÍŜôîϙFĺīôϙ@ŘÍŽôīϙ„Íèħ „Řôϱ‡ĖČϙiŕôŘÍťĖĺIJŜϙϼbĺIJϱ‹ŪIJîŘĖôîϙ®ĺŘħϽϙŘôıÍĖIJĖIJČϡ ͐Ͻ >ŪīīæĺŘô ÍϽ īôôîϙÍIJƅϙČÍŜϙĺƯϙĺċϙťæČϙÍIJîϙIϙťĺϙŜīĺŕϙťÍIJħ æϽ XĖīīϙſôīīϙæƅϙæŪīīēôÍîĖIJČϙ͗ϟ͔ϙϭϯČÍīϙŜĺŪŘèôϙſťŘϙϼ͒͏ϙææīŜϽϙîĺſIJϙťēôϙťæČϙťēŘĺŪČēϙťēôϙ(‹„ϙĺŘϙťēôϙ «ϙ„ĺŘťôîϙbĖŕŕīôϟϙϙīĺŜôϙĖIJϙťēôϙťæČϙÍIJîϙèĺııôIJèôϙæŪīīēôÍîĖIJČϙ͗ϟ͔ϙϭϯČÍīϙŜĺŪŘèôϙſťŘϙϼ͕͐͏ϙ ææīŜϽ bi“(ϡ ѭϯϱϙ͓͐͗ϙææīŜϙťĺϙŪŕŕôŘϙ@„ϙŕħŘϙ ѭϯϱϙ͕ϙææīŜϙæôťſôôIJϙŕħŘŜϙĖIJϙŪŕŕôŘϙċŘÍèϱŕÍèħϙèĺıŕīôťĖĺIJ ѭϯϱϙ͒ϙææīŜϙċŘĺıϙīĺſôŜťϙŕħŘϙťĺϙīĺſôŘϙ“i„ èϽ aĺIJĖťĺŘϙſôīīϙċĺŘϙæŪĖīîŪŕϙÍIJîϙæŪīīēôÍîϙÍîîĖťĖĺIJÍīϙƲŪĖîϙĖċϙŘôŗŪĖŘôî ͑Ͻ ®ôīīŜϙ‹ŪŕŕĺŘť ÍϽ īôÍŘϙÍIJîϙīôŽôīϙŕÍîϙÍŘôÍϙĖIJϙċŘĺIJťϙĺċϙſôīīϟϙ‹ŕĺťϙŘĖČϙıÍťŜϙÍIJîϙèĺIJťÍĖIJıôIJťϟ æϽ ‡"ϙſôīīϙēĺŪŜôϙÍIJîϙƲĺſīĖIJôŜϟϙϙīôÍŘϙÍIJîϙīôŽôīϙÍŘôÍϙÍŘĺŪIJîϙſôīīϟ èϽ ĺIJƱŘıϙſôīīϙĖŜϙîôÍîϙſϯϙb>“ϟϙ îϽ ‹ôťϙ„«ϟϙb"ϙťŘôôϟϙb˜ϙi„(ϟ bi“(ϡϙϙ®ôīīēôÍîϙĖŜϙÍϙ͑ϱ͖ϯ͗Ћϙ“æČϙFČŘϙſϯϙЌFЍϙ„«ϙŕŘĺƱīô ŘôϱèĺıŕīôťôϙťēôϙſôīīϙĖIJťĺϙťēôϙ“ôŘťĖÍŘƅϙ˜IJîôċϙ®“‡‹„ϙϼ͔͔͑͐͒͏ϽϙċĺŘıÍťĖĺIJϙÍŜϙÍϙēĖČēϱŽĺīŪıôϙċŘôŜēſÍťôŘ ŜĺŪŘèôϙſôīīϟ 1991 SFD ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͖͐ϙŪČŪŜťϙ͑͏͔͑ ‡®iϙ„ŘĺèôîŪŘôϙϼ‹ŪIJîŘĖôîϙĺŘϙbĺIJϱ‹ŪIJîŘĖôîϙ®ĺŘħϽϡ aI‡˜ϯ“ôŜťϙi„(ϡ ͐Ͻ aI‡˜ϙFĖīèĺŘŕϙ‹‡ϙϭ͐ϙ‡ĖČϠϙÍIJèĖīīÍŘƅϙôŗŪĖŕıôIJťϙÍIJîϙīĖIJôŜϙťĺϙ͔͏͏ϙææīϙŘôťŪŘIJŜϙťÍIJħ ͑Ͻ ēôèħϙċĺŘϙŕŘôŜŜŪŘôϙÍIJîϙĖċϙ͏ϙŕŜĖϠϙŜôťϙ“‹ϙŕīŪČϟϙϙIċϙIJôôîôîϠϙæīôôîϙÍIJƅϙŘôŜĖîŪÍīϙŕŘôŜŜŪŘôϙĺƯϙťŪæĖIJČϙ ÍIJîϙèÍŜĖIJČϟϙϙIċϙIJôôîôîϠϙħĖīīϙſôīīϙſĖťēϙ͗ϟ͔ϭϯČÍīϙŜĺŪŘèôϙſťŘϙŕŘĖĺŘϙťĺϙŜôťťĖIJČϙ“‹ϟ ͒Ͻ “ôŜťϙi„(ϙťĺϙ͔͑͏ϙŕŜĖϙ[ĺſϙϯϙ͔͑͏͏ϙŕŜĖϙFĖČēϠϙÍIJIJŪīÍŘϙťĺϙ͔͑͏ϙŕŜĖϙ[ĺſϙϯϙ͔͑͏͏ϙŕŜĖϙFĖČēϙϼēĺīîϙôÍèēϙťôŜťϙ ĺċϙŘÍıϯŽÍīŽôϙċĺŘϙ͔ϱıĖIJϽϟϙϙ‡ôèĺŘîϙÍèèŪıŪīÍťĺŘϙŕŘôϱèēÍŘČôϙŕŘôŜŜŪŘôŜϙÍIJîϙèēÍŘťϙťôŜťŜϟ ÍϽ „ôŘċĺŘıϙi„(ϙ“ôŜťϙÍŜϙŕôŘϙ‹‡ϙ͐ϙi„ϙ“ôŜťϙ„ŘĺèôîŪŘô æϽ bĺťĖċƅϙi@ϙ͓͑ϱēŘŜϙĖIJϙÍîŽÍIJèôϙĺċϙi„(ϙťôŜť èϽ ĺIJƱŘıϙťôŜťϙŕŘôŜŜŪŘôϙŕôŘϙťēôϙ‹ŪIJîŘƅϙĺIJîĖťĖĺIJŜϙĺċϙŕŕŘĺŽÍī îϽ “ôŜťϙŕĖŕôϙŘÍıŜϙĺIJϙ͑ϱ͖ϯ͗ЋϙÍIJîϙ͓ϱΫЋϙťôŜťϙĤťŜ ôϽ ‹ŪæıĖťϙèĺıŕīôťôîϙ͐͏ϱ͓͓͑ϙīĺſϱiŪťϙ„ŘôŽôIJťôŘϙ(ŗŪĖŕıôIJťϙϼi„(Ͻϙ“ôŜťϙċŘĺıϙſĖťēĖIJϙ͔ϙîÍƅŜϙĺċϙ i„(ϙťôŜť ͓Ͻ „Ūīīϙ“‹ϙŕīŪČϟϙϙīôôîϙÍIJƅϙŕŘôŜŜŪŘôϙťĺϙťēôϙŘôťŪŘIJŜϙťÍIJħϟϙϙXĖīīϙſôīīϙſϯϙ͗ϟ͔ϙϭϯČÍīϙX®>ϙŜĺŪŘèôϙſťŘϙÍŜϙ IJôôîôîϟϙϙ„Ūīīϙ„«ϟ bi“(ϡϙϙIċϙĖIJîĖèÍťĖĺIJŜϙŜēĺſϙŕŘôŜŜŪŘôϙŪIJîôŘIJôÍťēϙ„«ϠϙīŪæŘĖèÍťôϙĺŪťϙ„«ϟ „Ūīīϙ“æČϡ ͔Ͻ aI‡˜ϙ(‹„ϙÍæīôϙ‹ŕĺĺīĖIJČϙ˜IJĖťϙťĺϙŕŪīīϙϭ͑ϙŘĺŪIJîϙ(‹„ϙèÍæīô ͕Ͻ a˜ϙīÍIJîĖIJČϙĤťϙĺŘϙŜŕôÍŘϠϙi["‹Ϡϙ„˜ϙĺIJϙťēôϙťæČϙēČŘ ÍϽ “æČϙēČŘϙĖŜϙ͑ϱ͖ϯ͗Ћϙ®XaϙſϯϙЌFЍϙ„«ϙŕŘĺƱīô bi“(ϡϙϙ“ēôŘôϙÍŘôϙIJĺϙŘôèĺŘîŜϙĖIJîĖèÍťĖIJČϙ„˜ϯ‹iϙċŘĺıϙ„ĺĺīϙ͐͏͑ϙŘŪIJIJĖIJČϙť ēôϙ(‹„ϙèĺıŕīôťĖĺIJ æϽ ͗͏҇ϙĺċϙ͑ϱ͖ϯ͗ЋϠϙ͕ϟ͔ϙ[ϱ͗͏ϙ(˜(ϙ͗ŘîϙƅĖôīîϙĖŜϙ͕͐͐XϙīæċϙċĺŘϙæĺťēϙŕĖŕôϙæĺîƅϙÍIJîϙŪŕŜôťϙèĺIJIJôèťĖĺIJŜ ͖Ͻ ĺIJƱŘıϙēČŘϙċŘôôϙÍIJîϙīÍƅϙîĺſIJϙťæČϙēČŘ ͗Ͻ “iiFϙħĖèħĖIJČϙĺŪťϙĺīîϙ͑ϱ͖ϯ͗ЋϙŕŘĺîϙťæČϠϙĤôſôīŘƅϠϙÍIJîϙ(‹„ϙèĺıŕĺIJôIJťŜϟϙϙ®ÍŜēϙÍIJîϙťŘÍŜēϙÍīīϟ bi“(ϡϙϙĺıŕīôťĖĺIJϙŜèēôıÍťĖèϙĖIJîĖèÍťôŜϙŗťƅϙ͔͐͐ϙĤťŜϙĺċϙ͑ϱ͖ϯ͗ЋϙťæČϙŘŪIJϙÍIJîϙŘôŗŪôŜťôîϙϼ͑Ͻϙ(‹„ϙ èÍæīôϙæÍIJîŜϙæôϙŘŪIJϙŕôŘϙĤť ͘Ͻ „ŘôŕϙƲĺĺŘϙċĺŘϙèıťϙŘôťÍĖIJôŘϙŘŪIJ bi“(ϡϙϙ„ŘĺŽĖîôϙ͓͑ϱēŘϙIJĺťĖèôϙťĺϙi@ϙĺċϙŪŕèĺıĖIJČϙŕīŪČČĖIJČϙĺŕôŘÍťĖĺIJŜϙŕôŘϙ͑͏ϙϙ͔͑ϟ͐͐͑ϙϼēϽ æÍIJîĺIJϙ‹èēŘÍîôŘϙīŪƯϙċĺŘıÍťĖĺIJϡ ͐͏Ͻ a˜ϙ͖ЋϙıôèēϙèıťϙŘôťÍĖIJôŘϙFϙĺIJϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙI“ϱaĺîϙſĺŘħŜťŘĖIJČ bi“(ϡϙϙ(IJŜŪŘôϙIJôſϙ“ôƲĺIJϙŘĖIJČŜϙÍŘôϙĺIJϱēÍIJîϙÍŜϙIJôôîôî ͐͐Ͻ “IFϙťĺϙæŪıŕϙÍħôŘϙ‹ϱI[ϙŕħŘϙϼѭϯϱϙ͓͗͗͐ϱċťϙa"Ͻ bi“(ϡϙϙŽĺĖîϙŘĖČēťϱēÍIJîϙŘĺťÍťĖĺIJϙæôĖIJČϙťŘÍIJŜıĖťťôîϙťĺϙťēôϙıôèēÍIJĖèÍīϙŜôťťĖIJČϙťĺĺīŜϙſēĖīôϙ“IF ͐͑Ͻ iæťÍĖIJϙ„˜ϙÍIJîϙ‹iϙſôĖČēťŜϟϙϙ„˜ϙťĺϙŜôťϙťēôϙèıťϙŘôťÍĖIJôŘϙѭϯϱϙ͓͔͗͏ϱċťϙa"ϟ bi“(ϡϙϙ‹ôťϙîôŕťēϙĺċϙťēôϙŘôťÍĖIJôŘϙèÍIJϙæôϙÍîĤŪŜťôîϙċĺŘϙŕŪıŕϙĖŘĺIJϙťĖôϱĖIJϙĺIJϙťēôϙŘĖČϙƲĺĺŘϙÍIJîϙ ÍŜŜŪŘÍIJèôϙťēÍťϙſôЍīīϙēÍŽôϙÍϙċŪīīϙĤťϙťĺϙ„˜ϙÍċťôŘϙŪIJϱŜťĖIJČĖIJČϙċŘĺıϙťēôϙèıťϙŘôťÍĖIJôŘϙÍťϙťēôϙôIJîϙĺċϙťēôϙ ŜŗƏϙĤĺæϟϙϙ„ôŘϙ͑͏ϙϙ͔͑ϟ͐͐͑ϙϼèϽϙϼ͐Ͻϙϼ"ϽϙťēôϙèıťϙŘôťÍĖIJôŘϙĖŜϙŘôŗŪĖŘôîϙťĺϙæôϙŜôťϙIJĺϙèīĺŜôŘϙťēÍIJϙ͔͏ϱċťϙ a"ϙæŪťϙIJĺϙıĺŘôϙťēÍIJϙ͔͏͏ϱċťϙa"ϙċŘĺıϙ“i„ϙϼ͔͏͒͐ϱċťϙa"ϽϠϙĺŘϙæôťſôôIJϙ͓͗͐͘ϱċťϙa"ϙťĺϙ͓͔͒͐ϱċťϙa"ϟ ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͖͐ϙŪČŪŜťϙ͑͏͔͑ ͐͒Ͻ ‡ĺťÍťôϙťæČϙťĺϙťēôϙŘĖČēťϙťĺϙŜťÍŘťϙťēôϙèıťϙŘôťÍĖIJôŘϙŜôťϟϙϙ>ĖIJÍīĖƏôϙŜôťťĖIJČϙĺċϙťēôϙèıťϙŘôťÍĖIJôŘϙæƅϙŕŪīīĖIJČϙ ťēôϙŘôèĺııôIJîôîϙťôIJŜĖĺIJϟϙϙFĺīîϙťôIJŜĖĺIJϙċĺŘϙŘôèĺııôIJîôîϙŕôŘĖĺîϙťĺϙôIJŜŪŘôϙèıťϙŘôťÍĖIJôŘϙĖŜϙ Ŝôťϟ ͓͐Ͻ ‹ťÍèħϙ͐͏XϙīæċϙĺIJϙèıťϙŘôťÍĖIJôŘ ͔͐Ͻ „īÍèôϙ͓ϱΫЋϙťæČϙĖIJϙѭϯϱϙ͔XϙīæċϙťôIJŜĖĺIJϙÍťϙťēôϙŘôťÍĖIJôŘϙÍIJîϙÍŕŕīƅϙ͔͐͏͏ϙŕŜĖϙťĺϙ͓ϱΫЋϙſĺŘħŜťŘĖIJČϙƄϙ͖ЋϙèŜČϙ ÍIJIJŪīŪŜϙťĺϙôIJŜŪŘôϙŘôťÍĖIJôŘϙĖŜϙŜôÍīĖIJČϟϙϙīôôîϙÍIJIJŪīŪŜϙŕŘôŜŜŪŘôϙæÍèħϙÍťϙŜŪŘċÍèôϙÍċťôŘϙŜŪèèôŜŜċŪīϙ ťôŜťϟ bi“(ϡϙϙ‹ťôŕŜϙ͐͒ϙЭϙ͓͐ϙċŪīƱīīϙŘôŗŪĖŘôıôIJťŜϙċĺŘϙ͑͏ϙϙ͔͑ϟ͐͐͑ϙϼČϽϙϼ͐Ͻ ͕͐Ͻ ‹ťÍèħϙѭϯϱϙ͔XϙīæċϙÍťϙťēôϙŘôťÍĖIJôŘϙÍIJîϙôŜťÍæīĖŜēϙĖIJĤôèťĖĺIJϙŘÍťôŜϙſϯϙ͗ϟ͔ϙϭϯČÍīϙŜĺŪŘèôϙſťŘ ͖͐Ͻ ‡˜ϙôıôIJťϙ„ŪıŕϙôŗŪĖŕıôIJť bi“(ϡϙϙ(IJŜŪŘôϙèıťϙîôīĖŽôŘôîϙĖŜϙÍèĖîϙŜĺīŪæīôϙŜĺϙſôϙèÍIJϙèīôÍIJϱŪŕϙÍIJƅϙŘôıÍĖIJîôŘϙĖIJϙťēôϙťæČϙſĖťēϙ ťēôϙŕŘôϱ@„ϙŕĖèħīô ‡ôťÍĖIJôŘώϼa"ϱċťϽ „ħŘώϼa"ϱċťϽ ˏώa"ώϼċťϽ ıťώ«ĺīώϼææīϽ ͖Гώıťώ‡ôťώťĺώÍħôŘώ‹ϱI[ώ„ħŘ ͓͔͗͏ ͓͗͗͐ ͒͐ ͐ϟ͑ ˜ŕŕôŘώ„ħŘώϼa"ϱċťϽ [ſŘώ„ħŘώϼa"ϱċťϽ ͖ГώŜČώôťſôôIJώ@„ώ„ħŘŜώϱώÍŜŜŪıôώIJĺώ@„ ŜÍIJî ͓͗͗͐ ͔͏͓͔ ͕͓͐ ͕ϟ͒ [ſŘώ„ħŘώϼa"ϱċťϽ ®[(@ώϼa"ϱċťϽ ͑ϱ͖ϯ͗Гώ“æČώ“ÍĖī ͔͏͓͔ ͔͏͔͕ ͐͐ ͏ϟ͐ ®[(@ώa"ώϼa"ϱċťϽ ťıώ„ôŘċώѭώ͐͏͏ώϼa"ϱċťϽ ͑ϱ͖ϯ͗Гώ®[(@ώťĺώ͐͏͏ϱċťώæôīĺſώťıώ„ôŘċ ͔͏͔͕ ͔͕͑͑ ͑͏͕ ͖ϟ͘ “ĺťÍīώ«ĺĖîώ‹ŕÍèôώæôīĺſώıťώ‡ôťÍĖIJôŘϡ ͔͐ϟ͓ “ĺťÍīώ«ĺīŪıôώѭώ͐͏͏҇ώ(ƄèôŜŜϡ ͒͏ϟ͗ „īÍIJIJôîώ“iώa"ώϼċťϽ “ĺŕώĺċώ͖Гώıťώ‡ôťώϼċťϽ ˏώa"ώϼċťϽ ıťώ«ĺīώϼææīϽ „īÍIJIJôîώ“iώĖIJώ͖ГώÍæĺŽôώıťώ‡ôťώϼ͔͏ϱċťϽ ͓͗͏͏ ͓͔͗͏ ͔͏ ͐ϟ͘ “ĺťÍīώ«ĺīŪıôώťĺώæôώ„Ūıŕôîϡ͒͒ ææīϯċť ææīϯ͐͏͏ϱċť ͖ГώŜČ ͏ϟ͏͕͖͒͗͑͑͏ ͒ϟ͕͖͗͑͑ ͑ϱ͖ϯ͗Гώ“æČ ͏ϟ͏͏͔͖͗͗͑͒ ͏ϟ͔͖͗͗͑ ͖ГώƄώ͑ϱ͖ϯ͗ГώIJIJŪīŪŜώϼIϽ ͏ϟ͏͒͏͑͒͒͒͏ ͒ϟ͏͑͒͒͒ ͖ГώƄώ͑ϱ͖ϯ͗ГώIJIJŪīŪŜώϼIϽώѭώ͑ϱ͖ϯ͗Гώ“æČ ͏ϟ͏͕͒͏͔͑͐͒ ͒ϟ͕͏͔͑͐ ͓ϱ͐ϯ͑ГϠώ͐͑ϟ͕ϭώI“ϱaĺîώſĺŘħŜťŘĖIJČ ͏ϟ͏͔͐͑͐͏͏͏ ͐ϟ͔͑͐͏͏ ͖ГώƄώ͓ϱ͐ϯ͑ГώſĺŘħŜťŘĖIJČώÍIJIJŪīŪŜ ͏ϟ͏͔͐͗͐͒͘͏ ͐ϟ͔͗͐͒͘ ‹‡ώ͒ϱ͐ϯ͑ГϠώ͐͏ϟ͖͒ϭώb͒͐ώſĺŘħŜťŘĖIJČ ͏ϟ͏͏͗͒͗͏͔͘ ͏ϟ͗͒͗͐͏ ͖ГώƄώ͒ϱ͐ϯ͑ГώſĺŘħŜťŘĖIJČώÍIJIJŪīŪŜ ͏ϟ͏͕͕͖͑͒͑͏ ͑ϟ͕͕͖͒͑ ®ôīīēôÍîώa"ώϼċťϽ ‡ôťÍĖIJôŘώa"ώϼċťϽ ˏώa"ώϼċťϽ «ĺīώϼææīϽ ͓ϱ͐ϯ͑Гώ®‹ώ«ĺīώċŘĺıώ®Fώťĺώıťώ‡ôť ͏ ͓͔͗͏ ͓͔͗͏ ͖͒ϟ͗ ôıôIJťώ«ĺīŪıôŜ ‡ôīôŽÍIJťώIIJċĺŘıÍťĖĺIJ „ŘĺŕĺŜôîώ„Ūıŕώ‹èēôîŪīô “ĺťÍīώ«ĺīώſÍƅώϼѷææīŜϽ ĺııôIJťŜϡ ͒͒ ıťώÍſÍƅώϱώ‹ſÍŕώťĺώ͗ϟ͘ϭώæŘĖIJô ͖͓ ıťώÍťώŘôťÍĖIJôŘώſϯώ͓͐ώææīŜώ͗ϟ͘ϭώæŘĖIJôώÍſÍƅώæôēĖIJîώèıť ͐͏͓ ͒͏ώææīŜώèıťώťēŘŪώŘôťÍĖIJôŘώϼ͒ώææīŜώŘôıÍĖIJĖIJČώĖIJώ͓ϱ͐ϯ͑ГώťæČϽϠώèĺıôώîĺſIJώĺIJώťēô ŕŪıŕώÍIJîώŪIJŜťĖIJČώċŘĺıώèıťώŘôťÍĖIJôŘϟώώ“ēĖŜώſĖīīώÍīīĺſώťēôώŘôıÍĖIJ ĖIJČώѭϯϱώ͒ώææīŜ èôıôIJťώťĺώċÍīīώĺŪťώťēôώæĺťťĺıώĺċώťēôώŜôťťĖIJČώťĺĺīώīôÍŽĖIJČώѭϯϱώ͗͏ϱċťώĺċώèôıôIJťώĺIJ ťĺŕώĺċώťēôώèıťώŘôťÍĖIJôŘϟ ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͖͐ϙŪČŪŜťϙ͑͏͔͑ ͐͗Ͻ „ŪıŕϙèıťϙÍæÍIJîĺIJıôIJťϙŜŗƏϙŕôŘϙťēôϙÍæĺŽôϙŘôèĺııôIJîÍťĖĺIJŜ bi“(ϡϙϙIċϙIJĺϙŜŗƏϙŕŘôŜŜŪŘôϙîôŽôīĺŕŜϙÍIJîϙèıťϙŘŪIJŜϙÍſÍƅϙċŘĺıϙŪŜϠϙŕīÍIJϙċĺŘϙīôÍŽĖIJČϙÍîîĖťĖĺIJÍīϙ ŽĺīŪıôϙĖIJϙťēôϙťæČϙſēôIJϙſôϙČĺϙťĺϙŪIJϱŜťĖIJČϙċŘĺıϙťēôϙèıťϙŘôťϟ ͐͘Ͻ ŜϙIJĺťôîϙÍæĺŽôϠϙſϯϙѭϯϱϙ͒ϙææīŜϙŘôıÍĖIJĖIJČϙĖIJϙťēôϙťæČϙϼѭϯϱϙ͐͏͓ϙææīŜϙťĺťÍīϙŕŪıŕôîϽϙÍŕŕīƅϙѭϯϱϙ͐Xϙīæċϙ ťôIJŜĖĺIJϙÍIJîϙÍŕŕīƅϙŘĖČēťϱēÍIJîϙťĺŘŗŪôϙŪIJťĖīϙīÍťèēϙŘôīôÍŜôŜϙÍťϙťēôϙŘôťÍĖIJôŘ ͑͏Ͻ „˜ϙ͑ϙĤťŜϙĖIJϙĺŘîôŘϙťĺϙÍīīĺſϙťēôϙŘôıÍĖIJĖIJČϙèôıôIJťϙťĺϙċÍīīϙĺŪťϙĖIJťĺϙťēôϙ͖ЋϙèŜČϙīôÍŽĖIJČϙèıťϙĺIJϙťĺŕϙĺċϙ ŘôťÍĖIJôŘ ͑͐Ͻ ˜ŕĺIJϙŕŪīīĖIJČϙŪŕϙÍIJîϙīÍƅĖIJČϙîĺſIJϙ͑ϙĤťŜϠϙŕŪıŕϙ͗ϟ͖ϙϭϯČÍīϙæŘĖIJôϙϼ“ôŘťĖÍŘƅϙ˜IJîôċϙ®“‡‹„ϙϼ͔͔͑͐͒͏Ͻϙ X®>ϽϙťēôϙīĺIJČϙſÍƅϙÍťϙıÍƄϙŘÍťôϟϙϙĖŘèŪīÍťôϙÍťϙīôÍŜťϙĺIJôϙēĺīôϙŽĺīŪıôϙϼѭϯϱϙ͖͐͏ϙææīŜϽϟ bi“(ϡϙϙŜϙĖIJîĖèÍťôîϙÍæĺŽôϠϙſôϙſĖīīϙŜťĖīīϙēÍŽôϙѭϯϱϙ͔͏ϱċťϙĺċϙèôıôIJťϙÍŘĺŪIJîϙťēôϙŜôťťĖIJČϙťĺĺīϙÍċťôŘϙ ŘôīôÍŜĖIJČϙċŘĺıϙťēôϙèıťϙŘôťÍĖIJôŘϙÍIJîϙŕŪīīĖIJČϙŪŕϙ͑ϙĤťŜϟϙϙĖŘèŪīÍťĖIJČϙĺŪťϙċŘĺıϙťēĖŜϙŕĺĖIJťϙŜēĺŪīîϙīôÍŽôϙ “iϙѭϯϱϙ͓͗͏͏ϱċťϙa"ϙϼ͕͒͐͘ϱċťϙ“«"Ͻϟ ͑͑Ͻ “iiFϙſϯϙèıťϙŘôťÍĖIJôŘϙŜôťťĖIJČϙÍŜŜƅ ͑͒Ͻ ®ēôIJϙŘôèĺııôIJîôîϙťĖıôϙċĺŘϙèıťϙťĺϙŘôÍèēϙ͐͏͏͏ϙŕŜĖϙèĺıŕŘôŜŜĖŽôϙŜťŘôIJČťēϙēÍŜϙŕÍŜŜôîϠϙ„“ϙ͖Ћϙ èŜČϙÍIJîϙèıťϙŕīŪČϙťĺϙ͔͑͏͏ϙŕŜĖϙċĺŘϙ͒͏ϙıĖIJŜϙÍIJîϙŘôèĺŘîϙĺIJϙèēÍŘťϟϙϙ“ēĖŜϙťôŜťϙĺċϙťēôϙèôıôIJťϙÍIJîϙ͖ЋϠϙ ͕͑ϭϙ[͗͏ϙèŜČϙſĖīīϙŜÍťĖŜċƅϙi@ЍŜϙiϙ͒͘͏ϟ bi“(ϡϙϙIċϙſôϙŘôÍèēϙ͐͏͏͏ϙŕŜĖϙèĺıŕŘôŜŜĖŽôϙŜťŘôIJČťēϙÍIJîϙſôЍŘôϙŜťĖīīϙ“iiFϠϙŜťĺŕϙŕĖŕôϙıĺŽôıôIJťϠϙ èīĺŜôϙťēôϙŕĖŕôϙŘÍıŜϠϙÍIJîϙŕôŘċĺŘıϙťēôϙ„“ϟϙϙIċϙſôϙÍŘôϙĺŪťϙĺċϙťēôϙēĺīôϙťēôIJϙèīĺŜôϙťēôϙæīĖIJîϙŘÍıŜϙĺIJϙ ťēôϙi„ŜϙÍIJîϙŕôŘċĺŘıϙťēôϙ„“ϟ ͓͑Ͻ „ŘôŕϙŘĖČϙƲĺĺŘϙċĺŘϙ®ôīīēôÍîϙēÍIJČôϙÍIJîϙIJĺťĖċƅϙ®ôīīēôÍîϙ“ôèēIJĖèĖÍIJŜϙĺċϙŘôÍîĖIJôŜŜϟϙϙbĺťĖċƅϙ i@ϙ͓͑ϱēŘŜϙĖIJϙÍîŽÍIJèôϙĺċϙi„(ϙťôŜťϟϙ ®ôīīēôÍîϙēÍIJČôϡ ͔͑Ͻ a˜ϙÍIJîϙ“IFϙťĺϙŜôťϙ͖Ћϙ"[“ϙ‹ťĺŘıϙ„ħŘϙŜôťŪŕϙċĺŘϙ͖ЋϠϙ͕͑ϭϙèŜČϙſϯϙ‹ťĺŘıϙ«ÍīŽô ͕͑Ͻ iIJèôϙ‹ťĺŘıϙ„ħŘϙĖŜϙŜôťϙÍIJîϙſôЍŽôϙŘôīôÍŜôîϙċŘĺıϙťēôϙ‹ťĺŘıϙ«ÍīŽôϠϙťôŜťϙ‹ťĺŘıϙ„ħŘϙÍIJîϙ͖ЋϠϙ͕͑ϭϙèŜČϙ ťĺϙ͔͑͏͏ϙŕŜĖϟ ͖͑Ͻ īôôîϙĺƯϙťôŜťϙŕŘôŜŜŪŘôϙÍIJîϙĺæŜôŘŽôϙťēôϙſôīīϙċĺŘϙŜťÍťĖèϙèĺIJîĖťĖĺIJŜϙċĺŘϙ͒͏ϙıĖIJ bi“(ϡϙϙťϙťēĖŜϙŕĺĖIJťϙĖIJϙťēôϙŕŘĺČŘÍıϙſôЍŽôϙČĺťϙÍϙıôèēÍIJĖèÍīϙæÍŘŘĖôŘϙϼèôıôIJťϙŘôťÍĖIJôŘϽϙÍIJîϙ èôıôIJťϙŕŘôŜŜŪŘôϙťôŜťôîϙċŘĺıϙÍæĺŽôϙſēĖèēϙèĺIJƱŘıŜϙĺŪŘϙƱŘŜťϙæÍŘŘĖôŘϙťĺϙťēôϙċĺŘıÍťĖĺIJϟϙϙ®ôϙÍīŜĺϙ ēÍŽôϙÍϙŜťĺŘıϙŕħŘϙŜôťϙÍIJîϙťôŜťôîϙċŘĺıϙÍæĺŽôϙſēĖèēϙČĖŽôŜϙŪŜϙÍϙ͑IJîϙæÍŘŘĖôŘϙťĺϙċĺŘıÍťĖĺIJϟϙϙϙŜťÍťĖèϙ ſôīīϙĺæŜôŘŽÍťĖĺIJϙĺċϙĺŪŘϙ͗ϟ͖ϙϭϯČÍīϙƲŪĖîϙèĺīŪıIJϙèĺIJƱŘıŜϙĺŪŘϙ͒ŘîϙæÍŘŘĖôŘϙťĺϙċĺŘıÍťĖĺIJϟ ͑͗Ͻ ‡"ϙÍIJèĖīīÍŘƅϙôŗŪĖŕıôIJťϙĖIJϙĺŘîôŘϙ„˜ϙi„(Ŝ ͑͘Ͻ ťťÍèēϙŜīĖIJČŜϙċŘĺıϙťēôϙèÍŘŘĖÍČôϙťĺϙæôīĺſϙťēôϙÍIJIJŪīÍŘ ͒͏Ͻ b"ϙi„(ϙċŘĺıϙťēôϙſôīīēôÍîϙſĖťēϙťēôϙèÍŘŘĖÍČô ͒͐Ͻ [Ėċťϙi„(ϙèīôÍŘϙÍIJîϙſĖIJèēϙ“ϙÍîÍŕťôŘϙĺIJťĺϙťēôϙſôīīēôÍî ͒͑Ͻ [ĺſôŘϙi„(ϙæÍèħϙĺIJťĺϙ“ϙÍîÍŕťôŘ ͒͒Ͻ b˜ϙæĺťēϙťēôϙi„(ϙÍIJîϙ“ϙÍîÍŕťôŘϙťĺϙſôīīēôÍî ͓͒Ͻ “ôŜťϙæŘôÍħŜϙťĺϙ͔͑͏ϙŕŜĖϙ[ĺſϙϯϙ͔͑͏͏ϙŕŜĖϙFĖČēϙϼēĺīîϙťôŜťϙċĺŘϙ͔ϱıĖIJϽϟϙϙēÍŘťϙťôŜťϟ ͔͒Ͻ “IFϙťĺϙŘôťŘĖôŽôϙ"[“ϙ‹ťĺŘıϙ„ħŘϙÍIJîϙ‹ťĺŘıϙ«ÍīŽôϙÍŜŜƅ ͕͒Ͻ „ŘôŕϙŘĖČϙƲĺĺŘϙċĺŘϙ(ϱ[ĖIJôϙĺŕôŘÍťĖĺIJŜ ‹ôťϙ‹Ūıŕϙ„ħŘϡ ͖͒Ͻ aI‡˜ϙ(ϱ[ĖIJô ÍϽ "Ūııƅϙ"ŘĖċťϙċĺŘϙ„ôŘıÍIJôIJťϙ„ħŘϙϼ͔ϟ͗͐͒ϱĖIJϙi"ϙƄϙ͔͒ϱĖIJϙīôIJČťēϽϙťĺ ϙ͓͏͏͏ϱċťϙa" * TIH with jointed pipe to tag TOC. AOGCC to witness tag and pressure test. ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͖͐ϙŪČŪŜťϙ͑͏͔͑ æϽ [ĺČϙ͖ЋϠϙ͕͑ϭϙèŜČϙċŘĺıϙ͓͏͏͏ϱċťϙťĺϙŜŪŘċÍèôϙſϯϙ͓͏ϱÍŘıϙèÍīĖŕôŘϠϙ@‡ϯ[ϠϙÍIJîϙ‡[ bi“(ϡϙϙ‡ôŗŪôŜťϙŘŪŜēϙŕŘĺèôŜŜĖIJČϙĺċϙ@‡ϯ[Ϡϙa>ϙ[ĺČϠϙÍIJîϙ‡[ϟϙϙ@‡ϯ[ϙĖŜϙèŘĖťĖèÍīϙċĺŘϙ îôťôŘıĖIJĖIJČϙŜŪıŕϙŕħŘϙŜôťťĖIJČϙîôŕťēϟϙϙ>ĖôīîϙīĺČŜϙċĺŘϙťēôϙa>ϙÍIJîϙťēôϙ‡[ϙŜēĺŪīîϙŜŪƯĖèôϙċĺŘϙ ÍϙŕīÍIJϙċĺŘſÍŘîϟϙϙĺIJťÍèťϙi(ϙÍIJîϙ@(iϙťĺϙèĺŘŘôīÍťôϙťĖôϱĖIJϙĺċϙŕħŘϙ ŜôťťĖIJČϙîôŕťēϟϙϙ“ēôŘôϙĖŜϙŘôèĺŘîϙ ĺċϙÍIJϙ‡ϙťÍČϙÍťϙ͓͒͒͘ϱċťϙa"ϙϼ͕͖͒͑ϱċťϙ“«"Ͻϟ èϽ a˜ϙ͖Ћϙ„ôŘıÍŕÍħϙ‹ôÍīϙĺŘôϙ„ħŘϙťĺϙîôŜĖČIJÍťôîϙ®[XϙÍIJîϙŜôťťĖIJČϙèēÍŘČôϟϙϙ‡IFϙťĺϙŜôťϙŕħŘϙſĖťēϙ ıĖîϱôīôıôIJťϙÍťϙѭϯϱϙ͔͒͑͘ϱċťϙa"ϙϼ͖͑͒͘ϱċťϙ“«"Ͻ bi“(ϡϙϙ„ħŘϙŘôŗŪĖŘôŜϙÍťϙīôÍŜťϙÍϙ͒͏ϱŜôèϙæŪŘIJϙĺIJϙťēôϙſĖŘôīĖIJôϙŜôťťĖIJČϙťĺĺ ī ͒͗Ͻ ‡"aiϙ(ϱ[ĖIJô „ôŘċĺŘÍťôϙ“ôŘťĖÍŘƅϙ˜IJîôċϙ®“‡‹„ϙϼ͔͔͑͐͒͏Ͻϡ ͒͘Ͻ a˜ϙ͓ϱΫЋϙ͐͑Ŝŕċϙ‹Fϙ‡"³ϙ“„ϙ@ŪIJŜϙſϯϙŜŕÍèôŘŜϙÍŜϙŘôŗЍî ͓͏Ͻ “IFϙĺIJϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙI“ϱaĺîϙſĺŘħŜťŘĖIJČϙťĺϙæŪıŕϙťēôϙŜŪıŕϙŕħŘϙÍIJîϙťĖôϱĖIJϙťĺϙŕôŘċĺŘÍťôϙťēôϙæôīĺſϙ ŜôīôèťôîϙĖIJťôŘŽÍīŜϡ bi“(ϡϙϙaÍĖIJťÍĖIJϙēĺīôϙƱīīϙſēĖīôϙ“IFϟϙϙ®ôϙŜēĺŪīîϙæôϙŜīĖČēťīƅϙĺŽôŘæÍīÍIJèôîϙſĖťēϙ͗ϟ͖ϙϭϯČÍīϙĖIJϙťēôϙ ēĺīôϟ ͓͐Ͻ ĺIJƱŘıϙſôīīϙĖŜϙîôÍîϙÍċťôŘϙŕôŘċĺŘÍťĖIJČϟϙϙŪīīēôÍîϙ͗ϟ͖ϙϭϯČÍīϙæŘĖIJôϙÍŜϙŘôŗЍîϟ ͓͑Ͻ “iiFϙÍIJîϙīÍƅϙîĺſIJϙ“„ϙÍŜŜƅϟϙϙ(IJŜŪŘôϙÍīīϙŜēĺťŜϙƱŘôîϟ ͓͒Ͻ „ŘôŕϙŘĖČϙƲĺĺŘϙċĺŘϙèīôÍIJĺŪťϙŘŪIJ īôÍIJĺŪťϙ‡ŪIJϡ ͓͓Ͻ a˜ϙīôÍIJĺŪťϙFϡ ÍϽ ͑ϱ͖ϯ͗ЋϙŕŪŕϙſϯϙıŪīôŜēĺôϙϼѭϯϱϙ͔ϱċťϽ æϽ ³ϱĺŽôŘ èϽ ‹ıĺĺťēϙi"ϙ‹ťŘĖIJČϙaĖīīϙċĺŘϙ͖ЋϠϙ͕͑ϭϙèŜČϙϼ͕ϟ͖͕͑ϱĖIJϙI"Ͻ îϽ ͓ϱίЋϙ‹ťŘĖIJČϙaÍČIJôť ôϽ ³ϱĺŽôŘ ċϽ ³³³ϙĤťŜϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙI“ϱaĺîϙſĺŘħŜťŘĖIJČϙťĺϙŜŪŘċÍèô ͓͔Ͻ “IFϙťĺϙ“i„ ͓͕Ͻ īôÍIJĺŪťϙ͖ЋϙèŜČϙæƅϙŘĺťÍťĖIJČϯèĖŘèŪīÍťĖIJČϙſēĖīôϙ‡IF ͓͖Ͻ ÍŘôċŪīīƅϙôIJťôŘϙŜôÍīϙæĺŘôϙĺċϙ͖Ћϙ„ôŘıÍŕÍħϙ‹ôÍīϙĺŘôϙ„ħŘϙťĺϙôIJŜŪŘôϙĖťϙĖŜϙèīôÍŘϙċĺŘϙ‹IJÍŕϙ[Íťèē ®ôīī “ĺŕϙa" ÍŜôϙa" “ĺťÍīϙa" “ĺŕϙ“«" ÍŜôϙ“«" “ĺťÍīϙ“«" IIJèϙÍťϙ“ĺŕ ĖIJťôŘŽÍī IIJèϙÍť æÍŜô ĖIJťôŘŽÍī Fϱ͏͔͒͑͑͏ ͕͔͑͐ ͔͘ ͓͑͑͑ ͑͒͏͘ ͕͖ ͓͑ ͓͑ Fϱ͏͖͓͒͑͐ ͖͖͑͘ ͕͔ ͖͖͑͒ ͓͑͑͐ ͓͓ ͓͒ ͓͒ Fϱ͏͒͑͒͐͘ ͔͑͗͘ ͔͓ ͔͑͑͘ ͔͕͑͗ ͒͘ ͓͔ ͓͓ Fϱ͏͒͒͏͓͐ ͒͏͖͕ ͔͒ ͕͑͏͗ ͕͑͒͒ ͔͑ ͓͓ ͓͓ Fϱ͏͔͒͒͐͗ ͒͐͒͘ ͔͒ ͕͑͒͘ ͖͑͐͗ ͔͑ ͓͒ ͓͒ Fϱ͏͒͒͑͐͗ ͖͔͒͑ ͔͖ ͖͕͑͒ ͖͖͑͘ ͓͒ ͓͒ ͓͒ ͓͒͐Fϱ͏͒ϙ“i“[ϙ„(‡>‹ ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͖͐ϙŪČŪŜťϙ͑͏͔͑ ͓͗Ͻ „˜ϙťĺϙŜĺϙıŪīôŜēĺôϙĖŜϙĤŪŜťϙÍæĺŽôϙŕħŘϙÍIJîϙèĖŘèŪīÍťôϙÍϙ͑͏ϱææīϙČôīϙŕĖīīϙŜŪŘċÍèôϙťĺϙŜŪŘċÍèôϙſĖťēϙ͗ϟ͖ϙ ϭϯČÍīϙæŘĖIJôϙϼѭϯϱϙ͐͐͐ϙææīŜϽ ͓͘Ͻ “iiFϙīÍƅĖIJČϙîĺſIJϙīôÍIJĺŪťϙFϟϙϙbĺťôϙÍIJƅϙîôæŘĖŜϙŘôèĺŽôŘôîϙĺIJϙıÍČIJôťŜϟ ͔͏Ͻ „ŘôŕϙŘĖČϙƲĺĺŘϙċĺŘϙīĺſôŘϙèĺıŕīôťĖĺIJϙŘŪIJ [ſŘϙĺıŕīôťĖĺIJϙ‡ŪIJϡ ͔͐Ͻ a˜ϙ@„ϙ‹èŘôôIJϙŜŜƅϙĺIJϙťēôϙŜèŘôôIJϙťÍæīôϙÍŜϙċĺīīĺſŜϡ bi“(ϡϙϙ‹èŘôôIJϙŜôèťĖĺIJϙŜēĺŪīîϙŜťÍŘťϙѭϯϱϙ͐͏ϱċťϙæôīĺſϙīĺſôŘıĺŜťϙŕôŘċŜϙÍIJîϙŜťĺŕϙѭϯϱϙ͐͏ϱċťϙÍæĺŽôϙ ŪŕŕôŘıĺŜťϙŕôŘċŜ ÍϽ ‹IJÍŕϱ[ÍťèēϙċĺŘϙ͖Ћϙ„ôŘıÍŕÍħϙ‹ôÍīϙĺŘôϙ„ħŘ æϽ ͑ϱ͖ϯ͗ЋϠϙ͕ϟ͔Ћϙ[͗͏ϙ(˜(ϱ͗ŘîϙŜŕÍèôŘϙŕĖŕôϙÍŜϙIJôôîôîϙċĺŘϙŕĺŜĖťĖĺIJĖIJČϙĺċϙæťıϙĺċϙŜèŘôôIJŜϙѭϯϱϙ͐͏ϱċťϙ æôīĺſϙæťıϙŕôŘċĺŘÍťĖĺIJŜ èϽ ³ϱĺŽôŘϙ͑ϱ͖ϯ͗ЋϠϙ͕ϟ͔ϭϙ(˜(ϱ͗ŘîϙŕĖIJϙƄϙ͓ЋϠϙ͘ϟ͔ϭϙV>(ϙôÍŘϙæĺƄ îϽ ͑͏ϙĤťŜϙ͓ЋϠϙ͘ϟ͔ϭϙ[͗͏ϙV>(ϙôÍŘϙæÍŜôŕĖŕôϙŜèŘôôIJŜϙƄ„ϙ‡͒ bi“(ϡϙϙϙ‹èŘôôIJϟ„ŘĺŕôŘťĖôŜϡ ͒ϟ͔͓͗ϱĖIJϙI" ͓ϟ͓͏͏ϱĖIJϙŜèŘôôIJϙi" ͒ϯ͗ЋϙēĺīôŜϙîŘĖīīôîϙÍťϙ͓͗ϙēĺīôŜϯċť ͏ϟ͏͐͑ϱČÍŪČôϙſĖŘôϙſŘÍŕϙϼ͘͏‹Ͻϙϯϙ͘͏«ϙŜèŘôôIJϙŘĖæŜ ͕ϟ͏͕͑ϱĖIJϙi"ϙ͓ϱæīÍîôϙèôIJťŘÍīĖƏôŘϙĺIJϙŕĖIJϙôIJî ôϽ ͗ϙĤťŜϙ͓ЋϠϙ͘ϟ͔ϭϙ[͗͏ϙV>(ϙôÍŘϙæÍŜôŕĖŕô bi“(ϡϙϙ‡ôèĺııôIJîôîϙťĺŘŗŪôϙċĺŘϙ͓ЋϠϙ͘ϟ͔ϭϙV>(ϙôÍŘϡ aĖIJĖıŪı ͓͕͔͒ϙċťϱīæŜ iŕťĖıŪı ͖͓͔͒ϙċťϱīæŜ aÍƄ ͓͏͔͑ϙċťϱīæŜ ͔͑Ͻ ‡˜ϙċÍīŜôϙŘĺťÍŘƅϙťÍæīôϙÍIJîϙèēÍIJČôϙēÍIJîīĖIJČϙôŗŪĖŕıôIJťϙĺŪťϙťĺϙÍèèĺııĺîÍťôϙ͑ϱ͖ϯ͗ЋϙſÍŜēŕĖŕô ͔͒Ͻ „˜Ϡϙa˜ϠϙÍIJîϙ‡IFϙſϯϙ͑ϱ͖ϯ͗ЋϠϙ͕Ϡ͓ϭϙ[͗͏ϙF͔͐͐ϙſÍŜēŕĖŕôϙĖIJŜĖîôϙĺċϙ@„ϙ‹èŘôôIJϙŜŜƅ bi“(ϡϙϙ‡ôèĺııôIJîôîϙťĺŘŗŪôϙċĺŘϙ͑ϱ͖ϯ͗ЋϠϙ͕Ϡ͓ϭϙ[͗͏ϙF͔͐͐ϡ aĖIJĖıŪı ͖͏͏ϙċťϱīæŜ iŕťĖıŪı ͗͏͏ϙċťϱīæŜ aÍƄ ͐͑͏͏ϙċťϱīæŜ ͔͓Ͻ „˜ϙťēôϙF(‹ϙ@„ϙ„ħŘϙŜŜƅϟϙϙa˜ϙťēôϙ͑ϱ͖ϯ͗ЋϙſÍŜēŕĖŕôϙťĺϙťēôϙF(‹ϙ‡ŪIJIJĖIJČϙ“ĺĺīϙÍIJîϙa˜ϙťēôϙæīÍIJħϙ æÍŜôŕĖŕôϙťĺϙťēôϙF(‹ϙ@„ϙ„ħŘϙŕôŘϙF(‹ϙ“ĺĺīϙ‹ŪŕôŘŽĖŜĺŘЍŜϙîĖŘôèťĖĺIJ ͔͔Ͻ ‡"ϙċÍīŜôϙŘĺťÍŘƅϙťÍæīôϙÍIJîϙèēÍIJČôϙēÍIJîīĖIJČϙôŗŪĖŕıôIJťϙĺŪťϙťĺϙÍèèĺııĺîÍťôϙ͓ϱΫЋϙťæČϙſĺŘħŜťŘĖIJČ ͔͕Ͻ “IFϙıÍĖIJťÍĖIJĖIJČϙēĺīôϙƱīīϙťĺϙĤŪŜťϙÍæĺŽôϙ͖Ћϙ„ôŘıÍŕÍħϙ‹ôÍīϙĺŘôϙ„ħŘϟϙϙiæťÍĖIJϙ„˜ϙÍIJîϙ‹iϙſôĖČēťŜϟ bi“(ϡϙϙ‹ŕÍèôϙĺŪťϙŜēĺŪīîϙťÍħôϙĖIJťĺϙèĺIJŜĖîôŘÍťĖĺIJϙťēôϙēôĖČēťϙĺċϙťēôϙ͓ϱΫЋϙťæČϙſĺŘħŜťŘĖIJČϙĺIJϙťēôϙŘĖČϙ ƲĺĺŘϙċĺŘϙŘĖČČĖIJČϙŪŕϙťēôϙ@„ϙŕŪıŕĖIJČϙħĖť ͔͖Ͻ ‹iϙĖIJťĺϙ͖Ћϙ„ôŘıÍŕÍħϙ‹ôÍīϙĺŘôϙ„ħŘϙŪIJťĖīϙŜťÍèħϙĺŪťϙĖŜϙIJĺťôîϟϙϙ„˜ϙťĺϙŜIJÍŕϙĺŪťϙÍIJîϙèĺIJƱŘıϙīÍťèēϟ ͔͗Ͻ ‡ôϱôIJČÍČôϙŜIJÍŕϙīÍťèēϙÍIJîϙ„˜ϙťĺϙIJôŪťŘÍīϙŕĖŕôϙſôĖČēť ͔͘Ͻ ‹ôťϙF(‹ϙF(‹ϙ«ϙ„ħŘϙÍŜϙŕôŘϙF(‹ϙ“ĺĺīϙ‹ŪŕôŘŽĖŜĺŘЍŜϙîĖŘôèťĖĺIJ ͕͏Ͻ „ôŘċĺŘıϙ@„ϙĺŕôŘÍťĖĺIJŜϙÍŜϙŕôŘϙF(‹ϙ“ĺĺīϯ„ŪıŕĖIJČϙ‹ŪŕôŘŽĖŜĺŘЍŜϙîĖŘôèťĖĺIJŜ ÍϽ @ôIJôŘÍīϙ‹ťôŕŜϡ ĖϽ aÍIJĖŕŪīÍťôϙF(‹ϙ@„ϙ“ĺĺīϙŜŜƅϙĖIJϙĺŘîôŘϙťĺϙŕĖèħīôϙſĺŘħŜťŘĖIJČϙſĖťēϙ͔͐҇ϙFīϙϼѭϯϱϙ͐͏ϙææīŜϽϙ ÍIJîϙîĖŜŕīÍèôϙĖťϙťĺϙťēôϙF(‹ϙ@„ϙ“ĺĺīϙŜŜƅϙſϯϙ͗ϟ͖ϙϭϯČÍīϙċŘôŜēϙſťŘ ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͖͐ϙŪČŪŜťϙ͑͏͔͑ ĖĖϽ ‡ôŽôŘŜôϙèĖŘèŪīÍťôϙŕĖèħīôϙċŘĺıϙťēôϙſĺŘħŜťŘĖIJČϙťÍħĖIJČϙŘôťŪŘIJŜϙťĺϙÍIJϙĺŕôIJϙťĺŕϙťÍIJħ bi“(ϡϙϙ(IJŜŪŘôϙIJôŪťŘÍīĖƏĖIJČϙÍČôIJťϙĖŜϙĺIJϙīĺèÍťĖĺIJ ĖĖĖϽ aÍIJĖŕŪīÍťôϙF(‹ϙ@„ϙ“ĺĺīϙŜŜƅϙťĺϙŕôŘċĺŘıϙŜťôŕϙŘÍťôϙĖIJĤôèťĖĺIJϙťôŜťϙÍťϙ͐Ϡϙ͑Ϡϙ͓ϠϙÍIJîϙ͕ϙæŕıϙſϯϙ ͗ϟ͓͒ϙīæϯČÍīϙċŘôŜēſÍťôŘϟϙϙ‹ēŪťϙîĺſIJϙŕŪıŕŜϙÍIJîϙŘôèĺŘîϙťæČϯèŜČϙŕŘôŜŜŪŘôŜ ĖŽϽ „Ūıŕϙ@„ϙſϯϙѭϯϱϙ͔͐XϙīæŜϙ͑͏ϯ͓͏ϙÍŘæĺīĖťô ͕͐Ͻ ˜ŕĺIJϙŜŪèèôŜŜċŪīϙŕīÍèôıôIJťϙĺċϙ@„ϙŜēŪťîĺſIJϙŕŪıŕŜϙÍIJîϙıĺIJĖťĺŘϙſôīīϙċĺŘϙŜťÍťĖèϙèĺIJîĖťĖĺIJŜϟϙϙ ĖŘèŪīÍťôϙ͗ϟ͖ϙϭϯČÍīϙæŘĖIJôϙÍŜϙŘôŗŪĖŘôîϟ ͕͑Ͻ “iiFϙÍIJîϙīÍƅϙîĺſIJϙťēôϙF(‹ϙŘŪIJIJĖIJČϙťĺĺīŜ ͕͒Ͻ ēÍIJČôϙēÍIJîīĖIJČϙôŗŪĖŕıôIJťϙĺŪťϙťĺϙÍèèĺııĺîÍťôϙ͑ϱ͖ϯ͗ЋϙſÍŜēŕĖŕô ͕͓Ͻ “iiFϙ͑ϱ͖ϯ͗ЋϙſÍŜēŕĖŕô ͕͔Ͻ „ŘôŕϙŘĖČϙƲĺĺŘϙċĺŘϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[͗͏ϙ“³„ϱ“ϙ˜ŕŕôŘϙ(‹„ϙèĺıŕīôťĖĺIJϙŘŪIJ ˜ŕŕôŘϙ(‹„ϙĺıŕīôťĖĺIJϙ‡ŪIJϡ ͕͕Ͻ (IJŜŪŘôϙēÍIJîīĖIJČϙôŗŪĖŕıôIJťϙĖŜϙĺIJϱēÍIJîϙċĺŘϙŘŪIJIJĖIJČϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙèĺıŕīôťĖĺIJ ͕͖Ͻ a˜ϙ‹ŕĺĺīôŘϙťĺϙŘŪIJϙ(‹„ϙŕĺſôŘϙèÍæīô ͕͗Ͻ „˜ϙ(‹„ϙÍŜŜôıæīƅϙÍIJîϙ‡IFϙĺIJϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙťæČϠϙıÍħĖIJČϙôīôèťŘĖèÍīϙèēôèħŜϙĺIJϙťēôϙ èÍæīôϙôŽôŘƅϙ͐Ϡ͏͏͏ϱċťϟϙϙIIJŜťÍīīϙèŘĺŜŜϱèĺŪŕīĖIJČϙèīÍıŕŜϙĺIJϙťēôϙƱŘŜťϙ͐͏ϙĤťŜϙťēôIJϙôŽôŘƅϙĺťēôŘϙĤťϙťĺϙ ŜŪŘċÍèôϟ bi“(ϡϙϙ‡ôèĺııôIJîôîϙťĺŘŗŪôϙċĺŘϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϡ aĖIJĖıŪı ͔͔͔͏ϙċťϱīæŜ iŕťĖıŪı ͕͖͐͏ϙċťϱīæŜ aÍƄ ͕͖͘͏ϙċťϱīæŜ ÍϽ aĺťĺŘϙôIJťŘÍīĖƏôŘϙϳϙ“ÍŘČôťϙŜôťϙîôŕťēϙÍťϙ͑͐͏͏ϱċťϙa" æϽ "Fϙ@ÍŪČô èϽ ͓͔͏ϙ(‹„ϙaťŘ îϽ ͓͔͏ϙ(‹„ϙaťŘ ôϽ [ĺſôŘϙ‹ôÍī ċϽ ˜ŕŕôŘϙ‹ôÍī ČϽ IIJťÍħô ēϽ ͔͒͗ϙ(‹„ϙŕŪıŕ ĖϽ ĺīťϱĺIJϙ"ĖŜèēÍŘČôϙēôÍîϙſϯϙ͒ϱΫЋϠϙ(˜(ϙ͗ŘîϙæĺƄϙŪŕ ĤϽ ³ϱĺŽôŘϙ͒ϱΫЋϠϙ(˜(ϙ͗ŘîϙŕĖIJϙƄϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ“³„ϱ“ϙæĺƄ ħϽ ϼ͐ϽϙĤťϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙťæČ īϽ ϼ͐Ͻϙ͓ϱΫЋϙ³bϙIJĖŕŕīôϙŕŘĺƱīôϙϼ͒ϟ͗͐͒ϱĖIJϙĺŘôϠϙ͒ϟ͖͔͑Ћϙbĺϱ@ĺϽϙſϯϙ͐͏ϱċťϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙ ēÍIJîīĖIJČϙŕŪŕŜ ıϽ ³³ϙĤťŜϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙťæČϙťĺϙŜŪŘċÍèô IJϽ “æČϙFČŘϙ³ϱĺŽôŘϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙ[ϱ͗͏ϙ“³„ϱ“ϙŕĖIJϙƄϙ͓ϱΫЋϠϙ͐͑ϟ͕ϭϙϙ“ϱIIϙæĺƄ ͕͘Ͻ „˜ϙÍIJîϙa˜ϙťēôϙťæČϙēČŘϟϙϙaÍħôϙƱIJÍīϙŜŕīĖèôϙĺċϙťēôϙ(‹„ϙèÍæīôϙťĺϙťēôϙŕôIJôťŘÍťĺŘϠϙa˜ϙèĺIJťŘĺīϙīĖIJôϙťĺϙ ťēôϙťæČϙēČŘϙÍIJîϙîŪııƅϙĺƯϙÍIJƅϙÍîîĖťĖĺIJÍīϙèĺIJťŘĺīϙīĖIJôϙŕĺŘťŜϙĖċϙIJôèôŜŜÍŘƅϟ bi“(ϡϙϙ˜ŜôϙèÍŪťĖĺIJϙſēôIJϙīÍIJîĖIJČϙťēôϙťæČϙēČŘϙŜĺϙÍŜϙťĺϙÍŽĺĖîϙîÍıÍČĖIJČϙťēôϙ(‹„ϙèÍæīôϙĺŘϙ ŕôIJôťŘÍťĺŘϟ ͖͏Ͻ [ÍIJîϙťæČϙēČŘϙÍIJîϙŘôèĺŘîϙ„˜®ϙÍIJîϙ‹i®ϙĺIJϙťæČϙťÍīīƅ ͖͐Ͻ ‡I["‹ϙÍIJîϙīÍƅϙîĺſIJϙīÍIJîĖIJČϙĤť ®ôīīϡ a„˜ϙFϱ͏͒ „“"ϡ ͐͘͏ϱ͏͗͗ „Iϡ ͔͏ϱ͏͑͘ϱ͑͑͏͕͒ϱ͏͏ϱ͏͏ "Íťôϡ ͖͐ϙŪČŪŜťϙ͑͏͔͑ ͖͑Ͻ ‹ôťϙ„«ϟϙϙb"ϙi„(ϟϙϙ‹ôťϙ“‹ϙ„īŪČϟ ͖͒Ͻ b˜ϙťæČϙēôÍîϙÍîÍŕťôŘϟϙϙ„“ϙťæČϙēČŘϙŽĺĖîϙťĺϙ͔͏͏ϯ͔͏͏͏ϙŕŜĖϟ ͖͓Ͻ b˜ϙIJôſϙ͓ϱ͐ϯ͕͐Ћϙ͔aϙťŘôôϟϙϙ„“ϙťŘôôϙ͔͏͏ϯ͔͏͏͏ϙŕŜĖϟ ͖͔Ͻ „Ūīīϙ“‹ϙŕīŪČϙÍIJîϙ„« ͖͕Ͻ IIJŜťÍīīϙČÍŪČôŜϟϙϙ‹ôèŪŘôϙťŘôôϙÍIJîϙèôīīÍŘϟ ͖͖Ͻ ‡"aiϙ‹‡ „ĺŜťϱ‡ĖČϙ„ŘĺèôîŪŘôϡ ͐Ͻ “ŪŘIJϙſôīīϙĺŽôŘϙťĺϙiŕŜϙŽĖÍϙēÍIJîĺŽôŘϙċĺŘı ͑Ͻ ‡˜ϙſôīīϙēĺŪŜôϙÍIJîϙƲĺſīĖIJôŜ ͒Ͻ „i„ϙŕôŘϙF(‹ϙ‹ŪııĖťϙ‹ťÍŘťŪŕϙ„ŘĺèôîŪŘô ťťÍèēıôIJťŜϡ ͐Ͻ ŪŘŘôIJťϙ®ôīīæĺŘôϙ‹èēôıÍťĖè ͑Ͻ „ŘĺŕĺŜôîϙ®ôīīæĺŘôϙ‹èēôıÍťĖè ͒Ͻ i„(ϙ‹èēôıÍťĖè _____________________________________________________________________________________ Revised By: TDF 4/28/2 025 SCHEMATIC Milne Point Unit Well: MPU H-03 Last Completed: 1/3/1991 PTD: 190-088 TD =5,645’(MD) / TD = 4,529’(TVD) 13-3/8” 7” 8 7 9-5/8” 11 PBTD =5,634’ (MD) / PBTD = 4,541’(TVD) 1 3 5 4 2 6 Orig. KB Elev.: 72’/ Orig. GL Elev.: 35’ (Nabors 27E) CASING DETAIL Size Type Wt/ Grade/ Conn ID Top Btm 13-3/8" Conductor 54.5 / K-55 / Welded N/A Surface 116' 9-5/8” Surface 36 / K-55 / BTRC 8.921 Surface 2,871 7" Intermediate 26 / L-80 / BTRC 6.276 Surface 5,634’ 2-7/8” Liner 6.5 / L-80 / EUE 8rd 2.441 4,881’ 5,056’ TUBING DETAIL 2-7/8” Tubing 6.5 / L-80 / EUE 8rd 2.441 Surface 4,837’ JEWELRY DETAIL No Depth Item (Depths based on Nabors 4ES RKB) 1 4,755’ AVA Ported Nipple, 2.259” ID w/ Isolation Sleeve 2 4,790’ Top of ESP 3 4,837’ Bottom of ESP 4 4,881’ Baker SC-IL Packer –4.0” ID 5 5,011’ Bakerweld 2-7/8” 12ga Screen (32’, 2.441” ID) 6 5,045’ Baker Model ‘D’ Packer –3.25”ID 7 5,055’ OTIS XN Nipple –Min ID= 1.791” 8 5,056’ Wireline Re- Entry Guide –1.81” ID OPEN HOLE / CEMENT DETAIL 20" 500 sx of Permafrost ‘C’ in 30” Hole 10-3/4" 1,212 sx ArcticSet IV in 12-1/4” Hole 7-5/8” 260 sx Class “G” in 8-1/2” Hole WELL INCLINATION DETAIL KOP @ 500’ MD Max Wellbore Angle = 40.36 deg @ 4,600’ MD WELLHEAD Tree WKM 2-9/16”, 5,000# w/ 2-7/8” 8rd Treetop Connection Wellhead WKM 2-7/8” Tubing Hanger, w/ ‘H’ Profile BPV GENERAL WELL INFO API: 50-029-22063-00-00 Drilled and Cased by Nobors 27E –10/9/1990 Lower & ESP Completion –1/3/1991 PERFORATION DETAIL Sands Top (MD) Btm (MD) Top (TVD) Btm (TVD) FT Date Status Schrader Bluff 5,031’ 5,038’ 4,085’ 4,090’ 7 12/30/1990 Open Schrader Bluff 5,122’ 5,162’ 4,152’ 4,182’ 40 12/28/1990 Open FRAC STIMULATION DETAIL Stimulation: Frac 5,122’ to 5,162’ Pumped 11,301# of 16/20 Mesh Carbo-Lite. Frac-Pack 5,031 to 5,038, Pumped 11,268# of 20/40 Mesh Gravel. _____________________________________________________________________________________ Revised By: TDF 8/15/2 025 PROPOSED Milne Point Unit Well: MPU H-03 Last Completed: 1/3/1991 PTD: 190-088 TD =5,645’(MD) / TD = 4,529’(TVD) 13-3/8” 7” 16 11 15 9-5/8” Prince Creek PBTD =5,634’ (MD) / PBTD = 4,541’(TVD) 1 13 12 2 14 Orig. KB Elev.: 72’/ Orig. GL Elev.: 35’ (Nabors 27E) TOC @ ±4,800’ 2 3 4 & 5 6 7 8 9 10 CASING DETAIL Size Type Wt/ Grade/ Conn ID Top Btm 13-3/8" Conductor 54.5 / K-55 / Welded N/A Surface 116' 9-5/8” Surface 36 / K-55 / BTRC 8.921 Surface 2,871 7" Intermediate 26 / L-80 / BTRC 6.276 Surface 5,634’ 2-7/8” Liner 6.5 / L-80 / EUE 8rd 2.441 4,881’ 5,056’ TUBING DETAIL 4-1/2” Tubing 12.6 / L-80 / TXP BTC 3.958 Surface ±X,XXX’ 4” Tubing 9.5 / L-80 / JFE Bear 3.548 ±X,XXX’ ±X,XXX’ JEWELRY DETAIL No Depth Item (Depths based on Nabors 4ES RKB) 1 ±X,XXX’ Discharge Head: 2 ±X,XXX’ Pump: 3 ±X,XXX’ Gas Separator: 4 ±X,XXX’ Upper Tandem Seal: 5 ±X,XXX’ Lower Tandem Seal: 6 ±X,XXX’ Motor: 7 ±X,XXX’ Sensor w/ 6 Fin Centralizer –Bottom @ ±X,XXX’ 8 ±2,762’ 7” Packer 9 ±X,XXX’ Screens 10 ±4,850’ Cement Retainer 11 4,881’ Baker SC-IL Packer –4.0” ID 12 5,011’ Bakerweld 2-7/8” 12ga Screen (32’, 2.441” ID) 13 5,045’ Baker Model ‘D’ Packer –3.25”ID 14 5,055’ OTIS XN Nipple –Min ID= 1.791” 15 5,056’ Wireline Re- Entry Guide –1.81” ID OPEN HOLE / CEMENT DETAIL 20" 500 sx of Permafrost ‘C’ in 30” Hole 10-3/4" 1,212 sx ArcticSet IV in 12-1/4” Hole 7-5/8” 260 sx Class “G” in 8-1/2” Hole WELL INCLINATION DETAIL KOP @ 500’ MD Max Wellbore Angle = 40.36 deg @ 4,600’ MD WELLHEAD Tree WKM 2-9/16”, 5,000# w/ 2-7/8” 8rd Treetop Connection Wellhead WKM 2-7/8” Tubing Hanger, w/ ‘H’ Profile BPV GENERAL WELL INFO API: 50-029-22063-00-00 Drilled and Cased by Nobors 27E –10/9/1990 Lower & ESP Completion –1/3/1991 PERFORATION DETAIL Sands Top (MD) Btm (MD) Top (TVD) Btm (TVD) FT Date Status Prince Creek ±2,520’ ±2,615’ ±2,242’ ±2,309’ ±95 Future Future ±2,714’ ±2,779’ ±2,377’ ±2,421’ ±65 Future Future ±2,931’ ±2,985’ ±2,529’ ±2,5687’ ±54 Future Future ±3,041’ ±3,076’ ±2,608’ ±2,633’ ±35 Future Future ±3,158’ ±3,193’ ±2,693’ ±2,718’ ±35 Future Future ±3,218’ ±3,275’ ±2,736’ ±2,779’ ±57 Future Future Schrader Bluff 5,031’ 5,038’ 4,085’ 4,090’ 7 12/30/1990 Open Schrader Bluff 5,122’ 5,162’ 4,152’ 4,182’ 40 12/28/1990 Open FRAC STIMULATION DETAIL Stimulation: Frac 5,122’ to 5,162’ Pumped 11,301# of 16/20 Mesh Carbo-Lite. Frac-Pack 5,031 to 5,038, Pumped 11,268# of 20/40 Mesh Gravel. Updated 2/20/2024 11” BOPE INTEGRATED 11'’-5000 INTEGRATED 4.30'INTEGRATED 11" - 5000 2-7/8" x 5" VBR Blind 11'’- 5000 2 1/16 5M Kill Line Valves 2 1/16 5M Choke Line Valves HCRManualManual Stripping Head ManualManual 2-7/8" Pipe Ram Milne Point ASR 11” BOP w/ Jacks 05/17/2017 Milne Point ASR 11” BOP (Triple) 8/18/2025 CAUTION: This email originated from outside the State of Alaska mail system. Do not click links or open attachments unless you recognize the sender and know the content is safe. From:Erik Nelson To:Davies, Stephen F (OGC) Cc:Dewhurst, Andrew D (OGC); Starns, Ted C (OGC) Subject:RE: [EXTERNAL] MPU H-03 (PTD 190-088, Sundry 325-487) - Questions Date:Wednesday, August 27, 2025 2:52:09 PM Attachments:image001.png MPU H-03 Csg Sketch_14May1992.pdf MPU H-03 Prod Csg Tally and Cmt Report_12Oct1990.pdf MPU H-03 SCH 2-ARM_CALIPER 10-OCT-1990.pdf Mr. Davies, I’ve checked with the sub-surface folks over here and no, there were no cement evaluation logs run on MPU H-03. I’m not sure if you’ve made it through my proposed procedure but we are planning on pulling an RCBL once we complete the abandonment of the existing perforations and have changed out our wellhead equipment to accommodate our 4-½” tbg ESP completion. Currently I am only planning on pulling that RCBL from 4000-ft MD to surface, but we could potentially pull it from +/- 4700-ft MD. In regards to TOC on the backside of the 7”, 26# L80 BTRC csg: The above is a snip from “MILNE POINT UNIT H-3 FINAL DRILLING REPORT” which I believe AOGCC has in their well files. I’m also attaching the following information which I found in our records: MPU H-03 Csg Sketch_14May1992 – This document estimates TOC to be at 4000-ft MD on the backside of the 7”, 26# csg but conflicts with the volume of cement pumped on the actual cement report MPU H-03 Prod Csg Tally and Cmt Report_12Oct1990 – This document provides volumetric information for the 7”, 26# csg cement job Given inconsistencies between the reports available to me I went ahead and attempted to calculate an estimated TOC. I noted that there was a 2-arm caliper run in this well before the 7”, 26# casing was run. I tracked that log down, had it scanned, and am attaching it to this email as well. From the 2-arm caliper log data I entered the hole diameter into a spreadsheet in 20-ft increments which gave me 20-ft volumes of the 7” x OH annulus. I calculated +/- 48 bbls (of the 54 bbls cement pumped) were pushed into the 7” x OH annulus before the plugs bumped during the cementing of the production casing and calculated a TOC of +/- 4220-ft MD from those volumes. Our sub-surface folks have let me know that we consider the top of the Schrader Bluff at 4960-ft MD (4034-ft TVD) in the MPU H-03 wellbore. Please let me know if you have any additional questions. Q Erik Q. Nelson Milne Point OE O (907) 777 - 8353 C (907) 903 – 7407 Erik.Nelson@hilcorp.com From: Davies, Stephen F (OGC) <steve.davies@alaska.gov> CAUTION: External sender. DO NOT open links or attachments from UNKNOWN senders. Sent: Tuesday, August 26, 2025 3:48 PM To: Erik Nelson <erik.nelson@hilcorp.com> Cc: Dewhurst, Andrew D (OGC) <andrew.dewhurst@alaska.gov>; Starns, Ted C (OGC) <ted.starns@alaska.gov> Subject: [EXTERNAL] MPU H-03 (PTD 190-088, Sundry 325-487) - Questions Hello Erik, I'm reviewing Hilcorp Alaska, LLC's Sundry Application to convert MPU H-03 from a Schrader Bluff producer to a Tertiary water supply well. AOGCC’s records for this 35-year-old well are quite sparce. Since isolation of the Schrader Bluff reservoirs is important for this conversion, were any cement evaluation logs run in this well? If so, could Hilcorp please provide a scanned image of those logs in .pdf or .tif format? If not, could Hilcorp please provide scanned images of any cementing reports or daily drilling reports that detail cementing operations in this well? Please also provide Hilcorp’s estimated depth for the top of the 7-inch-casing external cement and how it was obtained? Thanks and Be Well, Steve Davies Senior Petroleum Geologist AOGCC 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 Steve Davies at 907-793-1224 or steve.davies@alaska.gov The information contained in this email message is confidential and may be legally privileged and is intended only for the use of the individual or entity named above. If you are not an intended recipient or if you have received this message in error, you are hereby notified that any dissemination, distribution, or copy of this email is strictly prohibited. If you have received this email in error, please immediately notify us by return email or telephone if the sender's phone number is listed above, then promptly and permanently delete this message. While all reasonable care has been taken to avoid the transmission of viruses, it is the responsibility of the recipient to ensure that the onward transmission, opening, or use of this message and any attachments will not adversely affect its systems or data. No responsibility is accepted by the company in this regard and the recipient should carry out such virus and other checks as it considers appropriate. THE MATERIAL UNDER THIS COVER HAS BEEN MICROFILMED ON OR BEFORE OCTOBER 27, 20-00 E E PL E W MATERIAL U N D E Ill IIII THIS M ARK ER C:LORlhMFILM.DOC R _ Jnoco inc. Anchorage Division To Larry Grant Alaska Oil & Gas Conservation Commission 3001 Porcupine Drive Anchorage, Alaska 99501-3192 (907) 279-1433 [] Under Separate Cover Enclosed ·_.cord of Shipment of Confidential Information Date From Steve Davies Conoco Inc. 3201 C Street, Suite 200 June 10, 1993 Anchoracje, Alaska 99503 (907) 564-7640 Via Petroleum Couriers Subject Quantity Contents 1 I.~Ot ~_~[E-7 Final Drilling & Completion Report '~ ~,.~-7 Core Analysis Report 1 ~..~-.7 Sidewall Descriptions (~01" ~'? .~'1~'.-2 Final Drilling Report C~1,-..~ ,'~1-3 Final Drilling Report ¢~ 1-~-~[ ~.~-H-4 Final Drilling Report ~)'I~:J;C~'I-1 Final Drilling Report ¢~1~ I ~/r~-2 Final Drilling Report C~,,~ ,~I-3 Final Drilling Report -3 No Whole Core or Sidewall Cores taken as noted on completion report. ~) 1~:~.{ I-4 Final Drilling Report 1 f-4A Core Analysis Report 1 ; U-1 Final Drilling Report c~01~,~i 'J-1 Core Analysis Report 1 J'-I Core Description Report ~=.l_,~/,r~~-2 Final Drilling Report 'J'-2 Completion History ~01~'7-~~ Final Drilling Report 0~1~-~,'J'-4 Final Drilling Report o, 'L':7 Final Drilling & Completion Report 'E-8 Final Drilling & Completion Report 1 ~-9 Final Drilling & Completion Report .1, JO I~ Core Description Report 1 i Core Analysis Report RECEIVED JUN '1 1 1993 Oil & Gas Cons. Commission Anchorage ¢~,~ ¢ Signed By Transmittal Approved By ~~ Date Instructions: Please ack_~lea~ge ~ly by signing and returning second copy. '"June 10;-1<J93 Transmittal Copy Only To MILNE POINT UNIT H-3 FINAL DRILLING REPORT OPERATOR: CONOCO, INC. WELL: MPU H-3 FIELD: KUPARUK dUN * ~Co~gTD' 5630 MD '~t,~,,.;~ CASING: 13 3/8" @ 115 9 5/8" @ 2871 7" @ 5634 CURRENT TD: 5645 PROGRESS: 0 DATE: Description of Operations: 10-06-90' Move in and rig up. PU rig at 1400 hrs 10-05-90. MU BHA. Drill f/115 to 346. 10-07-90: DRLG 346 - 1325. Wireline survey matched MWD. 11 STD. short trip. DRLG 1325- 1828. 10-08-90: Drill 1828 to 2292. Short trip. Drill to 2882. Short trip. C&C. POOH. Run caliper on E/L. Rng 9 5/8" csg. 10-09-90: Ran 73 jts, 2831', 9 5/8", K-55, Butt csg. FS @ 2871. FC @ 2788. Cmt w/ 400 BBIs Arctic Set cmt and 54 BBL G cmt. Bump plug. ND diverter. MU speed head. NU BOP's. Test same. RIH w/8 1/2" steerable BHA. Test csg to 1500 psi. Drill out float equip & 10' form to 2892. Run leak off test to 12.5 PPG Equiv. Drill to 3266'. 10-10-90: Drill 3266 to 3969. Short trip. Drill to 5390. Short trip. Drill to 5613. 10-11-90: Drill 5613 to 5630. Short trip. C & C. POOH. Run DIL-LDT-CNL-NGT-GR f/ 5630 to 2870. Run 4 arm caliper. RIH. Drill to 5645. C & C. POOH, LD DP & BHA. 10-12-90' Ran 140 jts, 5592', 7", 26#, L-80, Butt csg. FS @ 5634'. FC @ 5552'. Circ. Cmt w/ 54 BBL G cmt. Bump plug. Test csg to 1500 psi. Test packoff. ND BOP. NU tree. Test OK. Release rig to H-4 @ 2100 hrs 10-11-90. Operations suspended. RIG RECEIVED: 10-05-90 SPUD DATE: 10-05-90 RIG' NABORS 27 DAYS: 7 / 9 FOREMAN: MOUNT JOY DATE: 10-12-90 Conoco Inc. 3201 C Street, Suite 2_00 Anchorage, AK 99503-3999 (907) 564-7600 March 10, 1993 Mr. Larry Grant State of Alaska Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive Anchorage, Alaska 99501 Dear Mr. Grant: Enclosed are magnetic tapes in LIS format for Miine Point Unit wells H-2, H-3, H-4 and !-1. Verification lists for the tapes are also enclosed. The well locations, APl numbers and tapes enclosed are as follows' Well# APl# Location Tape Tape Date Depths H-2 50-029-22062 Sec 34, T13N, R10E OH EDIT 10/25/90 3082.0 - 6208.5 H-3 50-029-22063 Sec 34, T13N, R10E OH EDIT 03/17/91 2825.0 - 5680.5 H-4 50-029-22064 Sec 34, T13N, R10E OH EDIT 03/17/91 2493.5 - 4543.5 I-1 50-029-22065 Sec 33, T13N, R10E OH EDIT 11/14/90 3222.0 - 6248.0 You had also requested two logs for Well No. H-3, titled "4-Arm Caliper" and "Gamma Ray-CCL". We didn't run logs with these specific titles, however, the "Borehole Geometry Log" was run using a 4-Arm caliper tool, and the Gamma Ray curve and CCL may be found on the "Completion Record" log. Both of these logs have previously been provided to AOGCC. To confirm arrival of these data, please sign the second copy of the letter and return it to me at the letterhead address. Should you have any questions, please phone me at 564-7614. Sincerely, Linda M. Starr Technical Assistant cc: SFD MAR 1 0 199,] June 17, 1991 Conoco Inc. 3201 C Street, Suite 200 Anchorage, AK 99503-3999 (907) 564-7600 Mr. David Johnston Commissioner, Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive Anchorage, AK 99501 Dear Mr. Johnston: RE: Well Completion Reports and Well Histories; Milne Point Unit Attached please find Well Completion Reports for Wells J-l/4 at the Milne Point Unit. Also enclosed are the well summaries for Wells H-2/3/4 and I-1/2/3 as requested by Mr. S. McMains. These summaries were inadvertently omitted from Completion Reports previously submitted to your office. If you have any questions or require additional information please contact me at 564-7617. Yours very truly, Bob Soptei Environmental Coordinator RJS(jcd) Attachments cc Well File RECEIVED JUN 1 91991 . :.' ~---- STATE OF ALASKA A AS , :A.O ASCO.S..VA ,O.C' ,SS,O. 0, WELL COMPLETION OR RECOMPLETION REPORT AND LOG- '- 1. Status of Well GAS ~ SUSPENDED :.~.~t",~ ABANDONED OIL~ 2. Name of Operator CONOCO INC. 3. Address Pouch 340045 - Prudhoe Bay: Al~.~k.~ q9734 4. Location of well at surface 2427'FNL x 4037' FEL of Sec. 34, T13N, ~10E, U.M. At Top Producing Interval 1964'YNL × 1505' YEL o~ Same Section At Total Depth 1913'FNL x 1105' FEL of Same Section 5. Elevation in feet (indicate KB, DF, etc.) 1 6. Lease Designation and Serial 72 KB IADL - 25906 12. Date Spudded 13. Date T.D. Reached 10-4-90 10-9-90 17. Tota~ Depth (MD+TVD) 18. Plug Back Oepth (ME>+TVD) 5645+4529 5364+4333 :22. Type Electric or Other Logs Run DIL, LDT, CNL, NGT, 4 ARM CAL. Classification of Service Well SERVICE ~"~ ~ ~, L~':~'~i:--. --, 17' Permit Number ~o4)29-22063 9. Unit or Lease Name Milne Point Unit 10. Well Number R-3 11. Field and Pool Kuparuk River Field 14. Date Comp.,Susp. or Aband. 15. Water Depth, if offshore 116. No. of Completions 1-3-91 N/A feet MSLI 2 19. Directional Survey I 20. Depth where SSSV set 21. Thickness of Permafrost YES~ NO [] I NONE feet MD _Jr 1800 23. CASING, LINER AND CEMENTING RECORD SETTING DEPTH MD CASING SIZE WT, PER FT. GRADE TOP BOTTOM HOLE SIZE CEMENTING RECORD AMOUNT PULLED 13-3/8 54.5~ K-55 35 106 ~0 500 .~x.~ PermaFrostC NONE 35 2R71 5364 36~ 26~f J-55 L-80 9-5/8 .. 35 24. Perforations open to Production (MD+TVD of Top and Bottom and interval, size and number) N Sand 5031-5038 MI) 4085-4090 TVD 12 SPF w/24 GM Charges 0 Sand 5122-5162 MD 4152-4182 TVD 5 SPF w/37 GM Charges 12-1/4 1212 sxs ArcticSetIV 8~1/2 260 sxs G 25. TUBING RECORD NONE NONE SIZE DEPTH SET (MD) PACKER SET (MD) 2-7/8 4837 NONE 26. ACID, FRACTURE, CEMENT SQUEEZE, ETC. DEPTH INTERVAL (MD) AMOUNT & KIND OF MATERIAL USED 5122 - 62 11,301 ¢f 16-20 MESH Carbo Lite 27. PRODUCTION TEST Date First Production Hours Tested 23 Casing Pressure 0 4-23-91 Date of Test 4-25-91 Flow Tubing Press. 289 Method of Operation (Flowing, gas lift, etc.) Submersible Pump PRODUCTION FOR TEST PERIOD I~ CALCULATED 24-HOUR RATE OIL-BBL 85 OIL-BBL 85 GAS-MCF 9 GAS-MCF 9 WATER-BBL 52 CHOKE SIZE GAS-OIL RATIO 209 I 106 lOlL GRAVITY-APl j NA WATER-BBL 52 28. CORE DATA Brief description of tithology, porosity, fractures, apparent dips and presence of oil, gas or water. Submit c~or.~.:c~,~.s~ '~,~ None Taken Form 10-407 Rev. 7-1-80 CONTINUED ON REVERSE SIDE Submit in duplicate GEOLOGIC MARKERS NAME Top of "N" Sam Top of "0" Sand MEAS. DEPTH 5031' 5122' TRUE VERT. DEPTH 4085' 4152' 30. F~mMATION TESTS Include interval tested, pressure data, all fluids recovered and gravity, GOR, and time of each phase. NA 31. LIST OF ATTACHMENTS Plat~ Gyro Survey 32. I hereby certify that the foregoing is true and correct to the best of my knowledge ( Date 4-28-91 INSTRUCTIONS General: This form is designed for submitting a complete and correct well completion report and log on all types of lands and leases in Alaska. Item 1' Classification of Service Wells: Gas injection, water injection, steam injection, air injection, salt water disposal, water supply for injection, observation, injection for in-situ combustion. Item 5' Indicate which elevation is used as reference (where not otherwise shown) for depth measurements given in other spaces on this form and in any attachments. Item 16 and 24: If this well is completed for separate production from more than one interval (multiple completion), so state in item 16, and in item 24 show the producing intervals for only the interval reported in item 27. Submit a separate form for each additional interval to be separately produced, showing the data pertinent to such interval. Item 21' Indicate whether from ground level (GL) or other elevation (DF, KB, etc.). Item 23: Attached supplemental records for this well should show the details of any multiple stage cement- ing and the location of the cementing tool. Item 27: Method of Operation: Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water In- jection, Gas Injection, Shut-in, Other-explain. Item 28' If no cores taken, indicate "none". Form 10-407 R .', g54.~3' T= '~, 4-5' I = 58'08°48" 954.95' 530.93' 959,11' H PAD PI #10 ~ Y-- 6.009,620.71 556,508.88 P~ ~9 Y= 6,010,429,,~2 ×= 556,535,91 PROPOSED PAD MiLNE PT. VICINITY MAP MILES NOTES: 1, STATE: PLANE COORDINATES ARE ZCNE 4. 2. ALL GEODETIC POSITIONS ARE BASED ON N.A,D. 1927. OFFSETS TO SECTION LINES ARE COMPUTED BASED ON PROTRACTED VALUES Of THE SECTION CORNER POSITIONS. LEGEND · EXISTIN~ ~ o PROPOSED WELL AS-BUILT WELL DATA ~oc^~ w~.,. s~c=o. ~ T. ~ ..... ,o ~.. ~,.... ^~<A WELL PLANT A,S.P. ZONE 4 LATITUDE SEC. UNE NO. COORDS COORDS LONGITUDE OFFSETS , , ~ __ H-1 N 1199.73 Y 6,009,889.10 70' 26' 15.600" 2542' FNL E 879.69 X 556,576.05 149' 32' 19.320" ¢070' FEL H-2 N 1260.28 Y 6,009,947.33 70' 26' 16.171" 24~4' FNL E 879.92 X 556,592.64 149' 32' 18.820" 4053' FEL ,,,-- , ,., H-3 N 1319.75 Y 6,010,004,65 70' 26' 16.734" 2427' FNL E 879.66 X 556,608.4~ 149' 32' 18.343" 4037' F'EL ,, i, ... H-4 N 1380.11 N 6,010,062.7¢ 70' 26' 17.304" 2369' FNL E 879.70 E 556,624.81 149' 32°17.850- 44::)20' FEL - SURVEYOR'S CER~FICATE /ilIIC, i i in ii Illl . . I HEEEBY CERTIFY THAT I AM PROPERLY REGISTERED AND LICENSED TO PRACTICE LAND SURVEYING IN THF STATE OF' ALASKA, AND 71-1AT THIS PLAT REPEESENT$ A LOCATION SURVEY MADE BY ME OR UNDER MY DIR- ECT SUPERVISION.AND THAT ALL DIMENSIONS AND ~ OTHER...DETAILS_ ...... ARE CORRECT. . "-..,"'~"¢ SURVEYED FOR' (donoco) DATE: 3-27-91 DRAWN: STOLL WELL CONDUCTOR AS-BUILTS CHECKED,. HERRING ~o~ .~o.: .oo~. H- 1 H- 2, H- 3 & H- 4- SCALE: I" = ;500' ' Milne Point H No. 3 COMPLETION HISTORY Kuparuk River Field - North Slope Borough, Alaska W.I. 1.0 Milne Point H No. 3 CONFIDENTIAL AFE 10-61-1261 Location: 2426' FNL, 4036' FEL, Sec 34, T13N, R10E, U.M. NSB AK Location: Bottom Hole 1955' FNL, 1232' FEL, Sec 34, T13N, R10E, U.M. 12-25-90: MIRU - Rig accepted 1200 hfs 12/24/90. N/D tree, pull tbg hgr; N/U BOPs. Testing choke manifold to 5000 psi. 12-26-90: Test BOPs. RIH with bit/scraper. Tagged ice @ 185'. Isolate pit #2 w/ 25 bbls fluid; P/U kelly & drill ice to 610'. Slip & cut drill line; P/U drill pipe & RIH. Mud wt. N/A Viscosity: N/A Cum. Cost: $ 892,486 POOL 102 (0-7-2) Drillinq Foreman: BRADY/BURMAN 12-27-90: RIH w/ bit & scraper to 5548'. P/U to 5533'. Reverse & dilute w/ MeOH & HzO to 8.6 ppg. Pump 20 bbls H20 w/ 27 gals dirt magnet; Pump 20 bbls HzO; pump 20 bbls HzO w/ 28 gals dirt magnet; reverse and dispose of returning pills; reverse 1 complete circulation & filter - clean returns. POOH. R/U E/L. RIH w/ gauge ring & junk basket - no obstructions. POOH. RIH w/ GCT to 5488' & run gyro survey. Mud wt. 8.6 ppg Viscosity: N/A Cum. Cost: $ 912,832 POOL 102 (0-7-3) Drillinq Foreman: BRADY/BURMAN 12-28-90: M/U guns, 5 SPF. RIH & tie in w/ DIL log; shoot f/ 5142' to 5162'. POOH. P/U guns, 5 SPF. RIH, shoot f/ 5122' to 5142', POOH. P/U 2 jnts of 2-7/8" tbg/Champ III PKR/Jars/4DC. RIH w/ PKR, set PKR @ 4947'; tbg tail @ 5018'. Pump 100 bbls of WF40 w/ 5% OSR; fracture initiated @ 6250 psi @ 25 bpm. ISIP - 960 psi. Pump 238 bbls of Pad @ 5 bpm. Pump Y140D w/ prop. 41,589 lbs pumped; estimate 727 lbs in pipe, 40,861 lbs in perfs. Pump YF140D flush; last 86 bbls 100% diesel. ISIP 1003 psi, after 15 min - 788 psi. Mud wt. 8.6 ppg Viscosity: N/A Cum. Cost: $ 1,059,515 POOL 102 (0-7-4) Drillinq Foreman: BRADY/BURMAN 12-29-90: R/U to reverse thru choke; open PKR bypass. Reverse 54 bbls of brine; lost 7 bbls to formation. Drill Pipe Pressure = 140 psi. Open choke & flow well; gained 2 bbl in 1 hour. POOH 5 stands. Monitor well. POOH slow. L/D PKR & jars, clean floor. P/U Bailer assby; RIH; tagged fill @ 5445'. (283' below bottom perf) Filter brine in pits; freeze protect annulus. 12-30-90: POOH w/ bailer. R/U Schlum. RIH w/ Baker model D sump PKR; set @ 5045'. Tie in using GR/CCL. P/U perf guns. RIH & perf f/ 5031-38'. Change 3-1/2" rams to 2-7/8" & test to 5000 psi. P/U G.P. assby, set up isolation disk for 5000 psi. RIH w/ L-804 jntS8rdofEUEWashpipe,tbg. M/U ~~lV~-D~I~-w/ 155 jnts of 2-7/8", Milne Point H No. 3 Completion History Page 2 12-31-90: Finish RIH w/ 2-7/8" tbg. Snap into sump PKR; snap out w/ 41,000 lbs; snap in. R/U to gravel pack. Pressure up on tbg to set PKR w/ 2500 psi, pull test PKR to 61 K lbs; operate Hyd. Release w/ 1000 psi. Verify squeeze, circulate & reverse positions, shear out ballsub w/ 3700 psi. Pump 10 bbl of gel; 220 gal Super Pickle w/ 300 gal of 15% HCL w/ inhibitor, iron sequestering agent, surfactant followed by 14.5 bbls of brine; reverse out pills w/ 45 bbl of brine. Establish circulation rates. Establish squeeze rates. Shift to reverse position, pump 25 bbls of Pad. Go to squeeze, pump 25 bbl Pad (3.2 bpm @ 1720 psi; 5 bpm @ 1972 psi). Pump sand slurry. Pump 5 bbls Pad. Pump 20 bbls brine @ 5 bpm. Slow to 1 bpm then to 1/3 bpm @ 1170 psi. No apparent screenout; shift to circulating position w/ 122.5 total volume pumped. Screen Out w/ 2000 psi & 0.1 bbls slurry left in tbg. Test pack to 2600 psi - good test. Wait on pack. Test pack to 2500 psi, pressure bled rapidly to 1000 psi & held @ 1000 (Note: 3 bpm circ press, was 443 psi). Retest to 2500 - same result. Pull XO tool out of mandrel; allow tbg & annulus to equalize. Total 20/40 sand pumped 11,301 lbs. Mud wt. 8.6 ppg Viscosity: N/A Cum. Cost: $ 1,195,009 POOL 102 (0-7-7) Drillinq Foreman: BRADY/MARTIN 01-01-91: POOH w/ 2-7/8" tbg. L/D G.P. tools. R/U slickline, RIH tag disk & break @ 5020'sim. RIH tag fill @ 5425'sim. POOH. R/D. L/D drillpipe f/ derrick. P/U pump assby, fill potector w/ oil & make connection to motor. 01-02-91: Install AVA ported nipple w/ internal no-go. RIH to 3901' checking Reda #2 cable every 1200'. POOH looking for short. Make splice at pressure sensor (PSI). RIH to tbg hgr. Splice pigtail to cable (No change in short). Land tbg hgr & test hgr seals to 5000 psi. Set 2-way check; N/D BOP. Bottom of pump/motor assby @ 4837' (43' above SC-1 PKR) Last check on ESP cable shows short to ground on all phases; PSI is suspected cause. Mud wt. 8.6 ppg Viscosity: N/A Cum. Cost: $ 1,434,715 POOL 102 (0-7-9) Drilling Foreman: BRADY 01-03-91: N/D BOP, N/U tree. Test tree to 5000 psi. Pump 60 bbls diesel into tbg & csg annulus. Install BPV & pump 5 bbl diesel into tbg. Complete cleaning of pits. Rig released @ 0600 hrs 01-02-91. Operations suspended waiting on flow test. Mud wt. 8.6 ppg POOL 102 (0-7-10) Viscosity: N/A Cum. Cost: $ 1,454,023 ~r~ 1/inq Foreman: BRADY I 9199! & 8as Cons. Commission Anchorage ORIGINdt SUB- SURFACE DIRECTIONAL SURVEY  U IDANCE ~ ONTINUOUS ~ OOL Company CONOCO, INC. Well Name MILNE POINT UNIT Field/Location SCHRADER BLUFF, H-3(2426' FNL,4036' NORTH SLOPE, ALASKA FEL,SEC 34,T13N,R10E) Job Reference No. Date MCBRIDE ~)(~(e_l ~[~"//~)t'~ KRUWELL I I -- GCT DIRECTIONAL SURVEY CUSTOMER LISTING FOR CONOCO, INC. MILNE POINT UNIT H-3 SCHRADER BLUFF NORTH SLOPE, ALASKA SURVEY DATE: 28-DEC-90 ENGINEER: M. MCBRIDE METHODS OF COMPUTATION TOOL LOCATION: TANGENTIAL- Averaged deviation and azimuth INTERPOLATION: LINEAR VERTICAL SECTION: HORIZ. DIST. PROJECTED ONTO A TARGET AZIMUTH OF NORTH 79 DEG 59 MIN EAST COMPUTATION DATE: 6-JAN-91 PAGE CONOCO, INC. MILNE POINT UNIT H-3 SCHRADER BLUFF NORTH SLOPE, ALASKA DATE OF SURVEY: 28-DEC-90 KELLY BUSHING ELEVATION: 72.00 FT ENGINEER: M. MCBRIDE INTERPOLATED VALUES FOR EVEN 100 FEET OF MEASURED DEPTH TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/IO0 FEET FEET FEET DEG MIN 0.00 lO0.00 200.00 300.00 4O0 O0 500 O0 600 O0 700 O0 800 O0 900 O0 0 O0 99 95 199 95 299 95 399 95 499 94 599 84 699 52 799 01 898 38 -72 O0 27 95 127 95 227 95 327 95 427 94 527 84 627 52 727 01 826 38 0 0 N 0 0 E 0 19 S 64 15 W 0 30 S 31 31 W 0 23 S 61 38 w 0 6 N 13 58 E 1 33 N 62 57 E 3 37 N 64 35 E 5 23 N 66 43 E 6 2 N 67 15 E 7 5 N 67 31 E 0.00 -0 04 -0 73 -1 25 -1 51 -0 72 3 44 11 19 20 98 31 88 0 O0 0 57 0 34 0 27 051 2 16 2 79 1 32 0 19 2 29 0.00 N 0.02 S 0.59 S 1 .01 S 1.23 S 0.72 S 1.15 N 4.50 N 8.42 N 12.72 N 0 O0 E 0 O4 W 0 64 W 1 09 W 1 32 W 0 60 W 3 29 E 10 57 E 19 81 E 30 13 E o oo N 0 0 E o 0 1 1 0 3 11 21 32 04 S 67 58 w 137 S 47 12 w 49 S 47 0 w 80 S 46 55 W 93 S 40 4 W 49 N 70 45 E 49 N 66 58 E 53 N 66 58 E 70 N 67 6 E 1000 O0 1100 1200 1300 1400 1500 1600 1700 1800 1900 997.09 O0 1094.54 1022 O0 1190.67 1118 O0 1284.62 1212 O0 1375.17 1303 O0 1463.20 1391 O0 1549.71 1477 O0 1632.94 1560 O0 1712.00 1640 O0 1787.75 1715 925 09 11 17 54 14 33 67 17 45 62 22 11 17 27 37 20 28 25 71 32 15 94 35 37 O0 39 28 75 41 20 N 69 33 E N 73 23 E N 74 27 E N 76 3 E N 81 0 E N 81 19 E N 80 39 E N 79 33 E N 79 43 E N 81 7 E 47 46 69 54 96 93 130 95 173 26 220 68 270 79 326 18 387 39 452 65 3 86 3 12 4 50 6 02 412 0 97 2 49 5 68 3 65 1 33 18.47 N 25 65 N 66 33 O8 N 92 42 11 N 125 50 14 N 167 57 27 N 213 65 15 N 263 74.56 N 318 85.81N 378 96.70 N 442 44 93 E 48 58 N 67 39 E 08 E 70 89 N 68 47 E 59 E 98 32 N 70 21 E 54 E 132 41 N 71 27 E 08 E 174 45 N 73 18 E 99 E 221 52 N 75 1 E 47 E 271.41 N 76 7 E 06 E 326.69 N 76 48 E 23 E 387.84 N 77 13 E 58 E 453.02 N 77 41 E 2000 O0 1863 68 1791 68 39 52 2100 2200 23OO 24OO 2500 2600 27OO 2800 29OO O0 1940 O0 2016 O0 2089 O0 2161 O0 2230 O0 2300 O0 2369 O0 2437 O0 2507 32 1868 17 1944 82 2017 32 2089 63 2158 04 2228 01 2297 76 2365 65 2435 N 82 25 E 32 40 2 N 82 39 E 581 17 41 47 N 82 13 E 646 82 43 20 N 81 43 E 714 32 45 23 N 82 6 E 784 63 46 29 N 83 4 E 856 04 45 57 N 83 10 E 928 01 46 42 N 83 53 E 1000 76 46 8 N 82 41 E 1073 65 45 6 N 81 38 E 1144 517 69 86 96 55 42 42 30 57 O5 52 0 82 0 48 2 37 2 07 2 17 0 88 1 25 0 67 3 02 0 83 105 96 N 506 99 E 517 95 N 78 12 E 114 122 132 142 151 160 168 176 186 29 N 570 77 N 635 13 N 702 15 N 771 47 N 842 11 N 914 31N 986 39 N 1058 47 N 1129 68 E 582 29 E 647 28 E 714 45 E 784 93 E 856 39 E 928 33 E 1000 50 E 1073 30 E 1144 01 N 78 41 E 04 N 79 4 E 60 N 79 21 E 44 N 79 34 E 43 N 79 49 E 30 N 80 4 E 59 N 80 19 E 10 N 80 32 E 59 N 80 37 E 3000.00 2578 59 2506 59 44 32 3100.00 265O 3200.00 2722 33O0.0O 2795 3400.00 2869 3500.00 2944 3600.00 3019 3700.00 3092 3800.00 3166 3900.00 3241 28 2578 72 2650 97 2723 94 2797 9O 2872 13 2947 81 302O 67 3094 19 3169 28 43 57 72 43 7 97 42 42 94 41 42 90 41 31 13 42 29 81 42 31 67 42 9 19 41 37 N 82 43 E 1214 95 N 82 14 E 1284 60 N 82 20 E 1353 48 N 81 0 E 1421 52 N 80 23 E 1488 81 N 77 47 E 1554 99 N 76 0 E 1621 88 N 75 54 E 1689 31 N 76 16 E 1756 57 N 76 33 E 1823.12 0 94 0 42 0 44 1 05 1 66 1 89 091 0 40 0 97 0 46 196.05 N 1199 13 E 1215 05 N 80 43 E 205.20 N 1268 214.38 N 1336 224.08 N 1403 234.96 N 1470 247.48 N 1535 262.78 N 1600 279.39 N 1666 295.58 N 1731 311.21 N 1796 24 E 1284 57 E 1353 94 E 1421 35 E 1489 34 E 1555 56 E 1621 11 E 1689 55 E 1756 37 E 1823 73 N 80 49 E 65 N 80 53 E 71 N 80 56 E 01 N 80 55 E 16 N 80 51E 99 N 80 41E 37 N 80 29 E 60 N BO 19 E 13 N 80 10 E CONOCO, INC. MILNE POINT UNIT H-3 SCHRADER BLUFF NORTH SLOPE, ALASKA COMPUTATION DATE: 6-JAN-91 PAGE 2 DATE OF SURVEY: 28-DEC-90 KELLY BUSHING ELEVATION: 72.00 FT ENGINEER: M. MCBRIDE INTERPOLATED VALUES FOR EVEN 100 FEET OF MEASURED DEPTH TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET BEG/lO0 FEET FEET FEET DEG MIN 4000 O0 3316 18 3244 18 41 18 4100 4200 4300 4400 4500 4600 4700 4800 4900 O0 3391 O0 3465 O0 3540 O0 3614 O0 3689 O0 3765 O0 3841 O0 3915 O0 3989 03 3319 52 3393 08 3468 69 3542 58 3617 41 3693 14 3769 60 3843 91 3917 03 41 49 52 41 49 OB 41 46 69 41 45 58 41 3 41 40 30 14 41 23 60 42 4 91 42 4 N 76 44 E 1889 16 N 76 43 E 1955 N 77 4 E 2021 N 77 7 E 2O88 N 77 27 E 2155 N 78 13 E 2221 N 78 53 E 2286 N 78 50 E 2351 N 79 48 E 2418 N 81 15 E 2485 36 98 54 05 26 44 73 47 38 5000 O0 4064.02 3992 02 42 17 5100 O0 4138.06 4066 06 42 13 5200 O0 4212.06 4140 06 42 19 5300 O0 4286.00 4214 O0 42 15 5400 O0 ,4360.09 4288 09 42 14 5500 O0 4433.85 4361 85 42 38 5600 O0 4507.42 4435 42 42 40 5630 O0 4529.48 4457 48 42 40 N 82 3 E 2552.50 N 82 37 E 2619.65 N 82 43 E 2686.83 N 82 54 E 2754.08 N 82 44 E 2821.17 N 82 39 E 2888.60 N 82 39 E 2956.11 N 82 39 E 2976.43 0 36 0 30 0 29 0 22 0 65 1 39 0 58 1 75 1 46 0 60 0.67 O.36 0.27 0.29 0.59 0.74 0.00 0.00 326 52 N 1860 73 E 1889 16 N 80 3 E 341 356 371 386 400 413 425 438 449 70 N 1925 88 N 1990 76 N 2055 45 N 2120 40 N 2184 36 N 2248 83 N 2312 42 N 2378 32 N 2444 28 E 1955 25 E 2021 21 E 2088 15 E 2155 93 E 2221 82 E 2286 92 E 2351 47 E 2418 49 E 2485 36 N 79 56 E 99 N 79 50 E 56 N 79 45 E OB N 79 40 E 31 N 79 37 E 5O N 79 35 E 79 N 79 34 E 54 N 79 33 E 45 N 79 35 E 459 08 N~,2510.92 E 2552.54 N 79 38 E 468 01 N 2577.54 E 2619.68 N 79 43 E 476 54 N 2644.25 E 2686.85 N 79 47 E 485 O0 N 2711.05 E 2754.09 N 79 51 E 493 39 N 2777.69 E 2821.17 N 79 56 E 501 93 N 2844.66 E 2888.60 N 80 0 E 510 58 N 2911.69 E 2956.12 N 80 3 E 513 18 N 2931.86 E 2976.43 N 80 4 E ... COMPUTATION DATE: 6-JAN-91 PAGE 3 CONOCO, INC. MILNE POINT UNIT H-3 SCHRADER BLUFF NORTH SLOPE, ALASKA DATE OF SURVEY; 28-DEC-90 KELLY BUSHING ELEVATION: 72.00 FT ENGINEER: M. MCBRIDE INTERPOLATED VALUES FOR EVEN 1000 FEET OF MEASURED DEPTH TRUE SUB-SEA COURSE VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE MEASURED VERTICAL VERTICAL DEVIATION AZIMUT~ SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH DEPTH DEPTH DEPTH DEG MIN DEG MIN FEET DEG/IO0 FEET FEET FEET DEG MIN 0 O0 0 O0 -72 O0 0 0 N 0 0 E 0 O0 1000 O0 997 09 925 09 11 17 N 69 33 E 47 46 2000 O0 1863 68 1791 68 39 52 N 82 25 E 517 69 3000 O0 2578 59 2506 59 44 32 N 82 43 E 1214 95 4000 O0 3316 18 3244 18 41 18 N 76 44 E 1889 16 5000 O0 4064 02 3992 02 42 17 N 82 3 E 2552 50 5630 O0 4529 48 4457 48 42 40 N 82 39 E 2976 43 0.00 3.86 0.82 0.94 0.36 0.67 0.00 0 O0 N 0.00 E 0 O0 N 0 0 E 18 47 N 44.93 E 48 58 N 67 39 E 105 96 N 506.99 E 517 95 N 78 12 E 196 05 N 1199.13 E 1215 05 N 80 43 E 326 52 N 1860.73 E 1889 16 N 80 3 E 459 08 N 2510.92 E 2552 54 N 79 38 E 513 18 N 2931.86 E 2976 43 N 80 4 E CONOCO, INC. MILNE POINT UNIT H-3 SCHRADER BLUFF NORTH SLOPE, ALASKA COMPUTATION DATE: 6-JAN-91 PAGE 4 DATE OF SURVEY: 28-DEC-90 KELLY BUSHING ELEVATION: 72.00 FT ENGINEER: M. MCBR]DE INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA DEPTH TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMLJTH DEPTH DEPTH DEPTH DEG MIN DEG MIN 0 0 N 0 0 E 0 11 N 76 38 W 0 33 S 39 38 W 0 19 S 63 49 W 0 7 S 36 52 E 049 N 61 4 E 2 55 N 64 46 E 4 58 N 65 40 E 5 55 N 67 11 E 6 38 N 67 24 E 0 O0 72 04 172 05 272 05 372 05 472 05 572 11 672 37 772 84 873 43 974 46 -72.00 0.00 IO0.O0 200.00 O0 300 O0 O0 400 O0 O0 500 O0 O0 600 O0 O0 700 O0 O0 800 O0 0 O0 72 O0 172 O0 272 O0 372 472 572 672 772 872 N 69 11 E N 72 10 E N 74 41 E N 75 16 E N 80 55 E N 81 15 E N 80 32 E N 79 17 E N 80 48 E N 82 27 E 1076 74 1072 1180 43 1172 1286 39 1272 1396 43 1372 1510 01 1472 1626 45 1572 1748 78 1672 1879 03 1772 2010 84 1872 VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTLIRE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTH FEET DEG/IO0 FEET FEET FEET DEG MIN oo 1000 O0 1100 O0 1200 O0 1300 O0 1400 O0 1500 O0 1600 O0 1700 O0 1800 972 O0 900 O0 10 13 O0 13 46 O0 16 54 O0 21 30 O0 27 28 O0 28 3O O0 32 51 O0 37 51 O0 41 21 O0 39 51 2141 43 1972 O0 1900.00 40 17 2275 57 2072 O0 2000.00 42 53 2415 23 2172 O0 2100.00 45 41 2559 72 2272 O0 2200.00 45 51 0 O0 0 O0 -0 55 -1 08 -1 53 -1 28 1 92 8 77 18 22 28 79 42 78 63 88 91 08 125 87 171 60 225 45 285 O2 355 40 438 81 524 64 0 O0 0 O0 0 32 0 48 0 79 2 86 2 32 1 69 0 58 1 19 0 O0 N 0 O0 N 0395 0945 1 23 S 0 99 S 0 48 N 3 49 N 7 33 N 11 51 N 0 O0 E 0 O0 E 0 49 W 0 94 W 1 33 W 1 12 W 1 87 E 8 29 E 17 21 E 27 20 E 0 O0 N 0 OF 0 O0 N 0 0 E 0 62 S 51 46 W 1 32 S 44 57 W 1 81 S 47 15 W 1 49 S 48 39 W 1 93 N 75 43 E 8 99 N 67 9 E 18 70 N 66 56 E 29 54 N 67 4 E N 82 38 E 608.53 N 81 58 E 697.85 N 82 15 E 795.27 N 83 5 E 899.43 4 50 4 16 4 12 4 45 4 39 1 48 2 14 3 48 1 42 0 73 16 79 N 23 97 N 6O 31 51N 86 40 86 N 120 49 88 N 165 57 99 N 218 67 48 N 277 7997 N 346 94 52 N 428 64 E 65 93 E 92 60 E 127 45 E 172 70 E 226 51 E 285 77 E 355 90 E 439 106 40 48 E 43 82 N 67 28 E 20 N 68 26 E 46 N 70 5 E 34 N 71 17 E 81 N 73 13 E 26 N 75 9 E 60 N 76 20 E 87 N 77 1 E 20 N 77 34 E 87 N 513 88 E 524 88 N 78 15 E 1 84 2 O5 2 09 1 49 117 70 N 597 16 E 608 65 N 78 51 E 129 75 N 685 73 E 697 90 N 79 17 E 143 64 N 782 21 E 795 29 N 79 36 E 156 65 N 885 68 E 899 43 N 79 58 E 2704 2849 2990 3130 3267 3402 36 2372 20 2472 75 2572 13 2672 35 2772 77 2872 O0 2300.00 46 43 O0 2400.00 45 41 O0 2500.00 44 35 O0 2600.00 43 50 O0 2700.00 42 48 O0 2800.00 41 40 3536 32 2972.00 2900 O0 41 57 3671 3807 3941 4074 4208 4342 4476 4608 4741 76 3072.00 3000 O0 42 34 18 3172.00 3100 O0 42 6 15 3272.00 3200 O0 41 25 48 3372.00 3300 O0 41 42 69 3472.00 3400 O0 41 49 79 3572.00 3500.00 41 44 61 3672.00 3600.00 41 20 68 3772.00 3700.00 40 29 29 3872.00 3800.00 41 56 N 83 54 E 1003.74 N 81 45 E 1108.36 N 82 40 E 1208.47 N 82 21 E 1305.47 N 81 35 E 1399.36 N 80 21 E 1490.66 N 76 59 E 1579 14 N 75 44 E 1670 26 N 76 18 E 1761 36 N 76 35 E 1850 35 N 76 45 E 1938 39 N 77 5 E 2027 77 N 77 13 E 2117 O0 N 78 3 E 2205.85 N 78 57 E 2292.08 N 78 53 E 2379.16 0 58 1 46 1 14 1 01 1 51 1 65 1 99 0 49 0 95 0 48 0 68 0 20 0.40 1 .26 0.56 1.17 168 181 195 208 220 235 65 N 989 48 E 1003 75 N 80 20 E 23 N 1093 50 E 1108 42 N 80 35 E 23 N 1192 70 E 1208 57 N 80 42 E O0 N 1288 93 E 1305 61 N 80 50 E 74 N 1382 03 E 1399 54 N 80 56 E 27 N 1472 18 E 1490 86 N 80 55 E 252 76 N 1558 93 E 1579 29 N 80 47 E 274 296 317 337 358 378 397 414 70 N 1647 60 E 1670 71 N 1736 22 E 1761 55 N 1822 91 E 1850 80 N 1908 73 E 1938 17 N 1995 90 E 2027 09 N 2082 99 E 2117 22 N 2169 84 E 2205 45 N 2254.35 E 2292 34 N BO 32 E 39 N 8O 18 E 36 N 8O 7 E 39 N 79 58 E 78 N 79 5O E 02 N 79 43 E 90 N 79 38 E 14 N 79 35 E 431 14 N 2339.84 E 2379 23 N 79 34 E COMPUTATION DATE: 6-JAN-91 PAGE 5 CONOCO, INC. MILNE POINT UNIT H-3 SCHRADER BLUFF NORTH SLOPE, ALASKA DATE OF SURVEY: 28-DEC-90 KELLY BUSHING ELEVATION: 72.00 FT ENGINEER: M. MCBRIDE INTERPOLATED VALUES FOR EVEN 100 FEET OF SUB-SEA DEPTH TRUE SUB-SEA COURSE MEASURED VERTICAL VERTICAL DEVIATION AZIMUT~ DEPTH DEPTH DEPTH DEG MIN DEG VERTICAL DOGLEG RECTANGULAR COORDINATES HORIZ. DEPARTURE SECTION SEVERITY NORTH/SOUTH EAST/WEST DIST. AZIMUTh FEET DEG/IO0 FEET FEET FEET DEG MIN 4875 89 3972 O0 3900.00 42 0 5010 79 4072 O0 4000.00 42 17 5145 85 4172 O0 4100.00 42 16 5281 08 4272 O0 4200.00 42 18 5416 10 4372 O0 4300.00 42 19 5551 82 4472 O0 4400.00 42 40 5630 O0 4529 48 4457.48 42 40 N 81 2 E 2469 24 N 82 8 E 2559 75 N 82 44 E 2650 44 N 82 52 E 2741 36 N 82 44 E 2831 98 N 82 39 E 2923 50 N 82 39 E 2976 43 0 74 0 61 0 14 0 32 0 38 0 O0 0 O0 446.84 N 2428 54 E 2469 31 N 79 34 E 460.08 N 2518 11 E 2559 80 N 79 39 E 471.94 N 2608 11 E 2650 47 N 79 45 E 483.42 N 2698 41 E 2741 37 N 79 51 E 494.76 N 2788 43 E 2831 99 N 79 56 E 506.40 N 2879 30 E 2923 50 N 80 2 E 513.18 N 2931 86 E 2976 43 N 80 4 E CONOCO, INC. MILNE POINT UNIT H-3 SCHRADER BLUFF NORTH SLOPE, ALASKA MARKER LAST READING GCT DRILLERS DEPTH COMPUTATION DATE: 6-JAN-91 PAGE 6 DATE OF SURVEY: 28-DEC--90 KELLY BUSHING ELEVATION: 72.00 FT ENGINEER: M. MCBRIDE INTERPOLATED VALUES FOR CHOSEN HORIZONS SURFACE LOCATION = 2426' FNL & 4036' FEL, $EC34 T~3N R]OE MEASURED DEPTH TVD RECTANGULAR COORDINATES BELOW KB FROM KB SUB-SEA NORTH/SOUTH EAST/WEST 550~.62 4435.05 4363.05 502.07 N 2845.75 E 5630.00 4529.48 4457.4B 513. 18 N 2931.86 E CONOCO, INC. MILNE POINT UNIT h-3 SCHRADER BLUFF NORTH SLOPE, ALASKA MARKER LAST READING GCT DRILLERS DEPTH COMPUTATION DATE: 6-JAN-91 PAGE 7 DATE OF SURVEY: 2B-DEC-90 KELLY BUSHING ELEVATION: 72.00 FT ENGINEER: M. MCBRIDE · ~~ STRATIGRAPHIC SUMMARY ~~~ SURFACE LOCATION = 2426' F~L & 4036' FEL, SEC34 T13N RIOE MEASURED DEPTH TVD RECTANGULAR COORDINATES BELOW KB FROM KB SUB-SEA NORTH/SOUTH EAST/WEST 5501.62 4435.05 4363.05 502.07 N 2845.75 E 5630.00 4529.48 4457.48 513.18 N 2931.86 E FINAL WELL LOCAT]ON AT TD: TRUE SUB-SEA MEASURED VERTICAL VERTICAL DEPTH DEPTH DEPTH 5630.00 4529.48 4457.48 HORIZONTAL DEPARTURE DISTANCE AZIMUTH FEET DEG MIN 2976.43 N 80 4 E SCHLUMBEROER 01RECT ~ ONAL SURVEY COMPANY CONOCO, INC. WELL MILNE POINT UNIT H-S FI ELO SCHRAOER 8LUFF COUNTRY USA RUN ! OATE LOOOED 28 - DEC - ~0 REFERENCE ?4263 wE!.L· ,]~IILNE POINT UNIT H-3 ~--.. ~2426, FNL, 4036 FEL, SEC 34 13N, RIOE) HORIZONTAL PROJECTION SOUTH - l S00 -SO0 ~:I:ILE = ! / ~ I N/F? , ' ~,;~'~',:;~ ~'l:.' , T'T",' ~ ........... l ............................................. 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H;--;.~---~ .............. ,.4...: ...... ;.4 -, .... ;-.f ......... ; ....... i i ~ , : i . : - . : : 11,: ! ~ : , : : · : : : . · ~.~ : . : . ,i~"~'~ t~"~ ~i i~,~ ti ~ i~t ~:~,T':"'~-~-~"'m--'f": ....... : ....... f ................ ~ .... ~...t ....... 0 500, 1000 I SOO 2000 2~00 3000 3500 WELL:.-MILNE POINT UNIT H-3 (2Z~26' FNL, 40;36' FEL, SEC ?"-"T131't, RIOE) VERTICAL PROJECTION SOO ! 000 I SO0 2000 2~00 3000 PROdECTION ON VERTICAL. PLANE @0. - 260. SCAI.EI] IN VERTICAL DEPTHS HORIZ SCALE = I/SO0 IN/FT CONTACT _(~'~ ~ o t..~ check off or list data as it is received/list received date for 407. if not rm 'uired list as NR drillin~ history survey well tests core descri cored intervals core analysis ditch intervals dit data i, , i LOG ~n=!, r~- | RUN !m'NTcn"A'°, --n,~--~ SCALE NO. [t0 thc nearest foot , , 1, ,u ..................... ii iiiiii i,rllll I SCHLUMBERGER WELL SERVICES A DiVISiON OF SCHLUMBERGER TECHNOLOGY CORPORATION HOUSTON, TEXAS 77251-2175 PLEA~ REPLY TO SCHLUMBERGER WELL ~ERVICES JRN ~, ~ 1..°,C11 Pouch 340069 Prudhoe Bay, AK 99734-0069 Attn: Bernie/Shelley CONOCO, Inc. 3201 "C" Street, Suite 200 Anchorage, AK 99503 Attention: Van JSineber_ger Gentlemen: Enclosed ore 2 RT. prints of the . Comp.letion Record, Run 1, 12/29/90 Compony CONOC0, Inc. Well Milne Point Unit H-3 on: Field Mi.~ne. Point/Schrader BI,CF County ... North Slope . Additionol prints ore being sent to: 1 BL prints _CONOCO, Inc. 600 North Dairy Ashford Houston, TX 77079 ..A~n: George Lamb - OF 2018 PER _ Stote Alaska _A_BL__prints , 1 RF Sepia C~NOC~. ThC: 1000 South Pine Ponca City, OK 74603 Attn: Glenn Welch 7360RDW 1BL prints, 1RF Sepia OXY U.S.A., Inc. & Desta Drive Midland, TX 797.10 Attn: John Carrol *(915/685-5600) _l__~rints, 1 RF Sepia ..Chevron U.S.A. . ~11111 South WjlcraRt .... _HouRton~ T~w~g 77~qq Attn: Priscilla MacLeroy .Alaska Oil_~_ & Gas Conservation '. iC0mmission . ~-'30°!'P°rcupine Drive " xAnchorage, AK 99501 .  Oyle The film is_returned to Conoco, Log Library. We oppreciote the privilege of serving you. prints prints prints o I::FI: i\/F B i& i,= ~w i.. i · JAN 8 1991 Received by: . ' AlaSKa UII Date: Very truly yours, SCHLUMBERGER WELL SERVICES $W$-- 132T-F David M, Saalwaechter DISTRICT MANAGER SCHLUMBERGER WELL SERVICES A DIVISION OF SCHLUMBERGER TECHNOI_OGY CORPORATION HOUSTON. TEXAS 77251-2175 I~LEAI, E REPLY TO DEC 2 8 1990 8CHLUMBEROER WELL SERVICES Pouch 340069 ?rudhoe Bay, AY, 99734-0069 Attn: Bernie/Shelley CONOCO, Inc. 3201 "C" Street, Suite 200 Anchorage, AK 99§03 Attention: Van ~ineberger Gentlemen' Enclosed ore_2_JlL_printsof the. GCT/Perforating Record, Run 1, 12/26/90 Company CONOCO, .Inc. Well Milne Point Unit H-3 ,on' Field Milne Point/Schrader Bluff Additionolprintsore being sentto: I BL prints CONOCO, Inc. 600 North Dairy Ashford Houston, TX 77079 .A~n: George Lamb - OF 2018. PER County North Slope State. Al.aska ...... __l_BL_prints, 1RF Sepia CONOCO; Thc: 1000 South Pine Ponca City, OK 74603 Attn: Glenn Welch 7~60_R_DW 1 BL prints, 1 RF Sepia OXY U.S.A., Inc. C .Desta Drive Midland, TX 7.9710 At.tn: John Carrol *(915/685-56OO) _l_~rints, I RF Sepia _Chevron U.S.A. ..11111 South W_ilcre.~t_ _Ho~ton~ T~ .77(~qq Attn: Priscilla MacLeroy ..? 713/561-3652 1 B~oor]~nt~, 1 RF Sepia ~~a Oil & Gas Conservati~ ~ Comm~ssSon [ 3001 ~orcup~ne Dr~ve .... The film is returned to Conoco, Log Library. We appreciate the privilege of serving you. prints , prints prints ,., ,-,~ r- ,% I rD I<~LEIVE DEC $1 1990 Alaska Oil & Gas Cons. C(~mmissiol~ _l{eceJ ved by: . _A~C_ borage 3. .tx Date: Very truly yours, SCHLUMBERGER WELL SERVICES ..David M, Saalwaechter DISTRICT MANAGER SWS-- 1327-F �� MILNE POINT UNIT,, CASING AND CEMENTING REPORT Well:% 3 Drillers T.D.: 36 (ft)4P Loggers T.D.: 5 570 (ft) Ground Elevation: 7 (ft) RKB - Grd. El.ev.: y (ft) Top of Hanger—RKB: �(ft) ifaximum Recorded Temperature from Logging Runs °F Casing Tally No. Pieces Size -Weight - Grade Thread Thread - Etc. Makeup Length Setting Depth /D' 9 2- .�g 3 S6 *;; A, 8' 4e�144L 4::701/4X.v lo s9 5 'rs34 Tar .8 /2e 4040L y35! y9 Centralizers and Spacing �',�,�„�-��y Preflush0 �ro BBLS of L d PPG Ce7) VO BBLS of 0-73 PPG veal ccf Cement (Stage If) Sy BBLS of /S$ PPG 26 c S /4r GXa s1 Disp. Fluid: /?A BBLS of 4. 2 PPG % cf f 20 ( @ OF Time Started Time Completed Rate (BPM) PSI (max.) Circulation 70 z 5" g :2S 6 3 7,0;::: Pre —Flush Stage I • S7 9:A 7 S �o Stage II Displacement Recip. Pipe 2: 3S J6. Q? (Why Stopped)_��l�c,�� Bottom Plug: 4ffe No) Top Plug: Sfe:3, No) Bumped Top Plug: es No) J,Fbo psi Total Pumped Disp. bls) Floats Held: kjgs/. No) Full Returns:, No) Cement Returns to Surface: (Yes, BBLS Initial String Weight: ?5S' (l.bs) Final Landing Weight 7v (lbs) Service Co.: _ /�oU0lr % Performance: (Good„ ai , Poor) Date: /D�/Z/qO Supervisor: �p�yydLLoy �-un�co InC. C:asing and 1 ubing 1 ally conocc E/.EE ��'�I .LL N0. �� �/ slzE o� PIPE MAKE WEIGHT OF PIPE ORAOE TMREAO TYP£ n SHEET / OF �� s�G ► gd /���� couPu�o TYPE _��i'�G lVOTt: A separate tally ahe<t ahoald t+e ■aed (er <ac6 �ei[ht grade, thread K couplia� thaar. Jett N� Rack xeaa Check Asaa 1/ G o 2 � �� � �� 4 � g � - 5 • .� 6 � � � a 3 � 9 �. OZ � f ° y 86 '� Total ry .,.iat Na Rack xeaa Check xoac 1 S t z � 3 �6 4 ' / S �V/ V � R 6 �s 7 s y8' 9 �� 2 0 ?- /� T.al ,A Jolat Na - Rsck xeaa Check xeaa 1 � � Z 0 �b '� 3 � S� 4 � 5 � 6 3 � �3 � 8 68 9 / v i 6 3° 3 � Total //0 O /.2G t,42 Joist Na - Rack i[eaa Check xeaa 1 3 9 z S 3 �/ ✓� cJ 4 3 d3 .S 3 9 z 6 � 9 s 3 �' 9 `�° 3 �' o Tetal Jdat Na Rsck xaa ('heck xua 1 2 3 4 S S. 6 3 � 3 s 3 SS 9 3y So 3 � S� Total j 9 � ? p Joint Na Rack ktua Check xsas-.. 1 3 4�.3 2 3 �:. 3 9 7 d 4 s 3 r 6 9 6 � 3 9 g 9' o .9 �' 3 G0 a Twl � / n Joist Na Rack xaaa Check 1(aaa 1 2 3 4 6g S y 6 8• � � s � 8 S 9 � �o � Total � � �Z joist Na _ Rack l(ua Check 1[..a 1 S i 2 -� 3 � 4 (/ �® 5 :. . 6 � ?D a �/ 9 80 �/ 3 Teul 9 < �6 �61 r1� /tis�.�2 2��6.7� 3� 3o•�s MOTl: Ia this space aM� 4w ie� of tloatlwE eri�«.� cotnliaer; acratcher� t�-.tar ullan Alw Insert •a� other «aEia�e.ri� deuiL << 70TAt. THIi PAGE 13-404 PA. 8-80 ORAMO TOT ---�"' �.onuco Inc. Casing and tubing Taily conoco��.� _ �. : �� SHlEET � OF �- wE10HT Of PIPE � to U. NO. �% �-� ORAOE � O // EIZE O� PIPf THREJIO TYPE_ �% _�G�.. BRAKE couPUNO TYPE .�T,�C XOTi: A .eyarat. u11� asset aDosld )K t+.cd [er .ac6 ae{[bt Lr.�e, tkrtaA K couvtiac ckaara. Jer�t R.ck Cbeck xa lie.a 1,[e.a i � �3 2 � 2 3 4 � 9 .'( 9 S Sg 6 � 3 8 � / 9 � ?/ j o (% Twl 36 � 2.3 �- �4�i/ �9�' „b aae Rack Cieck joiaC -- Rack - Chtck -- �>tta 1[eaa l[� to x�. 1(caa 1[eaa i 39' � i 3 ?3 2 �' 2 � 6 S 3 9' ? 3 { � 6 4 9 v _5 6 .S 8 � .S 6 .7 � 3 9 ? � 39 �, s '� z 8 � 3 3� 9 � y � �° � � 3 �° // 3 8 z.tal � 9 � %.. � T«.l '� 9.s la 5�9�. �3 )eiac Rack � Ck� Ne. Yeaa Y.as-.. 2 v �S a. .2 9 4 ?3 s � �o 6 � 3 � g �3 9 -�� �� Teal I•{•t Raek � k Ne. 1[e.a. Keaa i s 3 4 5 6 7 8 9 0 Twt . Jeiat xe. �-. Tack . ilsaa 1K�ia.ak i 2 3 4 �.. . • 6 s 9 0 Twl MOTl: Ia tki..�ace .lw�r 1w iea et tlsatlwE er(�euat, cratnii.ets. .cratciee., twrcnEe cellars Alw faeert u7 ecbsr ea�isesr{rK {.tall SSA` ,rgo ,�.S' 1. S'9 /�' G ► s TOTAL THIi PAGE • :• UAAMO TOTAL WELL No. H-3 CASING SKETCH MILNE POINT UNIT (P) API No.: 50-029-22063 PERMIT No.: 90-88 DRILLED: 10/12/90 ARCTIC PACKED: 10/10/91 OPERATOR: CONOCO INC. SURFACE LOCATION: 2426' FNL, 4036' FEL, SEC 34, T13N, RIOE U.M. BOTTOM HOLE LOCATION: 1913' FNL, 1105' FEL. SEC 34. T13N, RIOE U.M. SPUD DATE: 10/5/90 WKM CSG SPOOL RKB 34' ... .. le 13 3/8, 54.5#, K -55. WELD SET 0 106' L) < CEMENT DATA: ±500 SKS PERMAFROST "C' 0 14.8 PPG. IL ARCTIC PACK DATA: 51 BBLS, 15.6 PPG. PERMAFROST "C", 60 BBLS DEAD CRUDE 9 5/8", 36#, K-55, BTRC. SET 0 2871' CEMENT DATA: LEAD 400 BBLS (1212 SKS) ARCTIC SET IV 0 12.3 PPG W/ 52 BBLS (260 SKS) CLASS -G- @ 15.8 PPG W/ 0.2% D 046 + 3% S 001 RA TAG 0 3934' EST TOC 0 4000' 7 , 26#, L-80, BTRC, SET @ 5364 PBTD 5552' CEMENT DATA: 89 BBLS (434 SKS) CLASS -G- 0 15.8 PPG W/ 0.2% D-046 + 0.8% D-127 + 1-0% S-001 TO 5645' CONOCO INC. APPROVED BY: HDS DATE: 5/14/92 ANCHORAGE DIVISION IDRAFTED BY. SJN/CFP CAD FILE: W'C Conoco Inc. Suite 200 3201 C Street Anchorage, AK 99503 (907) 564-7600 December 21, 1990 Mr. Lonnie C. Smith Commissioner Alaska Oil & Gas Conservation Commission 3001 Porcupine Drive Anchorage, Alaska 99501-3192 RE' Milne Point Unit Well H-3 Application for Sundry Approvals Dear Mr. Smith' Attached is the Application for Sundry Approvals (Form 403) requesting approval to complete the MPU well H-3. If there are any questions pertaining to this well please call me at 564-7625. Very truly yours, Production Engineer RECEIVED _Alaska Oil & Gas Cons. cc: CVL, PMS, DEH, Sr. Production Foreman, H-3 Well File STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION APPLI'CATI'ON FOR SUNDRY APPROVALS 1. Type of Request: Abandon Suspend Operation shutdown Re-enter suspended well Alter casing __ Repair well __ Plugging __ Time extention Stimulate X Change approved program __ Pull tubing ~ Variance Perforate X Other X Name of Operator Conoco Inc. Address 3201 C Street, Suite 200 Anchorage, AK 99503 Location of well at surface 2426' FNL, 4036' FEL, Sec. 34, T13N, R10E, U.M. At top of productive interval 1977' FNL, 1473' FEL, Sec. 34, T13N, R10E, U.M. At effective depth 5. Type of Well: Development X Exploratory Stratigraphic Service NSB AK NSB AK At total depth 1955' FNL, 1232' FEL, Sec. 34, T13N, R10E, U.M. NSB AK 6. Datum elevation (DF or KB) KB 35' AGL 7. Unit or Property name Milne Point Unit 8. Well number H-3 9. Permit number 90 -88 10, APl number 50-029-22063 11. Field/Pool Schrader Bluff feet 12. Present well condition summary Total depth: measured 5630' feet true vertical 4533' feet Effective depth: measured feet true vertical feet Plugs (measured) Junk (measured) Casing Length Size Structural Conductor 115' 13-3/8" Surface 2872' 9-5/8" Intermediate Production 5634' 7" Liner Perforation Depth: measured true vertical Tubing (size, grade, and measured depth) Packers and SSSV (type and measured depth) 13. Attachments Cemen~d Measured depth True vertical depth Sudace 115' 85' Sudace 2872' 2497' T.0.C.@3500' 5634' 4536' RECEIVED Description summary of proposal DEC 2 G 1990 Alaska 0ii & Gas Cons. C0.mmissi0_n ch0raoe Detailed operations program X BOP sketch 14. Estimated date for commencing operation 12/23/90 16. If proposal was verbally approved Oil X Gas __ Lonnie C. Smith 12/20/90 Name of approver Date approved Service 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. Sign C. ~an Lineberger Title Sr. Production Engineer FOR COMMISSION USE ONLY Conditions of approval: Notify commission so representative may witness Plug integrity BOP Test Location clearance Mechanical Integrity Te~AL ~'~lL~t form required 10- '~---~ '~ :) LONNIE C, sMtTI4 15. Status of well classification as: Suspended Date 12/21/90 Approved by order of the Commission Form 10-403 Rev 06/15/88 Approved CoRy . . Returned L;omm~smoner SUBMIT IN TRIPLICATE Interoffice Communication TO= FROM: DATE= SUBJECT= P. M. Shannon -> D. E. Howell -> CVL C. Van Lineberger December 20, 1990 H-3 Completion Procedure Attached is the proposed completion procedure for the H-3 Well. As shown on the attachments, the "N" sand is limited to 7' of perforations in the NE interval. Because of this, we are proposing that we fracpac the NE as outlined. This will also eliminate the need to shoot the NE underbalanced and reduces shot density to 12 spf. The OA will be frac'ed utilizing the mini-frac information received on the H-2. This will allow for a much shorter, wi der frac. We're also going to utilize the 3-1/2" workstring through the frac'ing operation to reduce friction pressure and decrease damage to our production tubing. C. Van Lineberger Sr. Prod. Engr. P. Marc Sha~n ~ Supv. Prod. Engr. Approved by: Production Supt. cc: DEH, PMS, MPU Sr. Fm. (2), CVL, Original to File: H-3 Well File PROPOSED COMPLETION PROCEDURE MILNE POINT UNIT WELL H-3 December 20, 1990 This completion procedure involves a fracture completion in the lower "O" sand and a "frac-pack" type gravel pack completion in the upper "N" sands of the Schrader Bluff Pool (Shallow Oil Sand). Prior to working on the well hold a pre-job safety meeting with all rig personnel to discuss the general safety hazards and environmental concerns of the operation (completion fluids, frac treatment, radioactive materials, gravel pack, perforating, etc.). The current plan is to complete this well with the Pool Arctic 102. RECEIVED DEC 2 6 1990 Oil & Gas Cons. commission Anchorage Milne Point Well H-3 Completion Procedure Contents Page 3 Page 4 Page 5 Page 6 Page 7 Page 11 Page 19 Attach 1 Attach 2 General Well Information Completion Fluids Wellbore Cleaning Stage Perforation Stage "O" Sand Fracture Treatment Gravel Pack Treatment ESP Running Procedure Vendor List Final Completion Sketch Milne Point Well H-3 Completion Procedure Well Information Casing: PBTD: RA Tag: KB: 7" 26 # ID = 6. 276" Capacity = 0.03826 bbl/ft = 0.2148 ft3/ft 5551 ft 3934 ft 34 ft (Nabors 27 E) Ground Level: 37 ft MSL Workstring: 3-1/2" 15.5# IF Drill Pipe Inner Diameter (API): 2.60" Capacity = 0.00658 bbl/ft (152.05 ft/bbl) Annular Capacity (tbg x csg) = 0.0264 bbl/ft (37.93 ft/bbl) Note: No allowance for upsets Fluids: 2-7/8" 6.4 # Tubing Drift (API)= 2.347" Capacity = 0.00579 bbl/ft Annular capacity (tbg x csg) = 0.0302 bbl/ft Diesel (surface to 525 ft) 9.2 ppg NaCl (525 to 6123 ft) Proposed Perforations: 5031 - 5038 MD, "N" Sand 5122 - 5162 MD, "O" Sand Milne Point Well H-3 Completion Procedure COMPT.F. TION FLUIDS Brine density for the completion operation is designed based on BHP plus minimal overbalance (30 to 50 psi maximum) to prevent fluid loss to the formation. Required brine density is 8.6 ppg. Methanol (at a concentration of 12% by volume) will be used for freezing point suppression. The basic recipe for brine mixing is to use 8.9 ppg NaCl brine with 12% by volume methanol, for a final brine density of 8.6 ppg. **** Methanol is a highly flammable liquid and poses a health hazard when inhaled, ingested, or when it contacts the eyes. Consult MSDS for further information. Maintain at least 150 bbl of fluid in the pits at any time. Any less will make it impossible to circulate the pits and filter unit and have fluid left to pump into the well. Maintain the filtration system during this operation. No fluid goes into the active tanks without passing through the filter unit. The system consist of a DE press and appropriate guard filters. The two micron absolute filter should be the last filter in line before the fluid enters the pit. Turbidity measurements are to be made as a QC check of fluid solids concentration. A reading of 20 NTU in the volume tank is acceptable. The well can be assumed to be clean when returns are below a 50 NTU reading, or subsequent circulations show no decrease in NTU's. Operators of the filter unit should be given the responsibility of checking brine volume and density during deliveries and maintaining a record of each. Any discrepancy should be reported immediately. Low density or contaminated fluids should not be added to the system. Only clean, filtered brine should be pumped into the well at any time during the completion operation. Fill hole when pulling tubing to compensate for the tubing removed from the well only. Maintain accurate pit straps so that fluid lost or gained may be tracked. Continue with this practice throughout the completion operation. Do not attempt to keep the hole full to surface. may result in large volumes of fluid lost to the formation. This Page 4 Milne Point Well H-3 Completion Procedure Wellbore Cleaninq Stage Move rig to H-3. Rig up. Initial brine in the pit system should be 8.6 ppg NaCl with 12% methanol as described in the completion fluids section. Begin with a minimum pit volume to allow for the volume increase from dilution of the 9.2 ppg NaC1 brine currently in the well. · Install wear bushing. GIH with bit and scraper on DP to PBTD. · Reverse circulate the well taking returns to the pit. Isolate the diesel returns in a separate tank if possible. Take returns of the 9.2 ppg brine into empty pit tanks. Once a sufficient volume is returned to surface this brine can be diluted with the appropriate amount of fresh water and methanol. Do this with a batch process. Do not attempt to dilute with water and add methanol on the fly. It will only result in an inconsistent density. · Continue reverse circulating until the entire brine volume (wellbore and pits) has been conditioned to 8.6 ppg (including methanol). Only filtered brine should be pumped into the well. 5. Reverse circulate the following at maximum rate (4 BPM): a. 20 bbl Dirt Magnet solution (27 gal Dirt Magnet in 20 bbl water). b. 20 bbl water. c. 20 bbl Dirt Magnet solution (see 2.a.). d. Bottoms up with brine. **** Dirt Magnet is a combustible liquid and poses a health hazard when ingested, inhaled, or when it contacts the eyes or skin. Consult MSDS for further information. · When the chemical wash and spacer fluids return to the pits isolate them for disposal. Dispose in empty vac truck or pump them to a disposal tank to be disposed of at a later time. Make sure all of the chemical wash stages are cleaned from the pits before continuing, shut down if necessary. Page 5 Milne Point Well H-3 Completion Procedure · · Perform QC check on return fluid sample at this time. If it is acceptable then continue with the procedure. If it is not acceptable then repeat step 5.a. through step 5.e. Filter maximum volume of brine in the pit system before continuing the oPeration. Page 6 Milne Point Well H-3 Completion Procedure Perforation Stage - "O" Sand ® · · · Rig up Schlumberger with heated lubricator, make junk basket/gauge ring (sized for Baker Sump Packer, Step 1 of the Gravel Pack Stage) run to PBTD. Run Gyro as needed. R/U to perforate the "O" sands at 5122 to 5162 ft MD. Perforate 5 SPF, 37 gm, deep penetrating charge. Utilize gamma ray and CCL for depth correlation on the first run, CCL for depth correlation on the following runs. Hold safety meeting with all personnel before starting the perforating operation. Insure that all radios, telephones (rig and cellular) and any other radio wave sources are turned off within a 500' radius of the wellsite. Broadcast a warning over the field radio before starting the process to arm the guns, and be sure appropriate signs are placed on the roads leading to and from the location. POOH with the final perforating gun run. Note fluid level in well and any loss or gain. Rig down Schlumberger. Page 7 Milne Point Well H-3 Completion Procedure Fracture Treatment - "O" Sand i · RIH with squeeze tool (Halliburton). Set Packer at +/- 4960 ft (EOT at +/- 4020, +/- 100' above the top perf of 5122'). Pull test the packer and pressure test the annulus to 500 psi. Monitor the tubing pressure during this test. Leave the annulus open during the job and monitor for flow throughout the job. · Before mobilizing the job, check with D/S and discuss the number of frac tanks that will be needed, and the amount of mix water (with additional for tank bottoms) that will be needed. Spot frac tanks on location (to be supervised by DS). Visually inspect the interior of the tanks for cleanliness. If necessary rinse tanks with warm water prior to filling. DO NOT ENTER THE TANKS. Fill each tank with clean injection water filtered to 10 microns absolute. The water should be heated and maintained at 75 to 80 degrees F to insure proper hydration of the gelling agent. Water from the central facility, carried in clean transports, is acceptable. Be sure to check the Ph of the mix water upon transfer to the tanks to insure job quality. Rig up Dowell Schlumberger to perform the frac treatment. Note the following: Use of threaded connections, crossovers, swedges, etc. in the treating line is not acceptable. Use two in-line densitometers. Use two shut-off valves on the wellhead. Set the backup pumps for the crosslinker and diesel. Standby pumps (50%) are required. These pumps must be manned and primed to come on line immediately if needed. A standby blender should be hooked up and ready to come on line in case of primary blender failure. Tank bottoms must included in the volume listed in step #1 above. Page 8 Milne Point Well H-3 Completion Procedure · · · · Use the in-line densitometer during the treatment. Record rate, pressure, and density on a chart. Take samples of the crosslinked gel during the treatment. Place these samples in a bath at 80 F. the actual break time. Note DO NOT OVERDISPLACE THE TREATMENT UNDER ANY CIRCUMSTANCES. Batch mix gelling agent and additives as prescribed in the material detail for preparation of the fluids. Fluid design is based on lab testing with representative water samples. Water quality is critical for job success. Hold on-site safety meeting with rig personnel and frac crew to communicate hazards of the operation. Pressure test the surface lines to 7000 psi. The automatic pressure shut-down on each pump should be set at 7000 psi. If not already complete, batch mix gelling agent and additives as prescribed in the material detail for preparation of the main frac treatment. Particulate fluid loss additive should be added in the pre-pad and pad fluids only. Breaker, diesel and crosslinker activator are the only additives that should be mixed on the fly. Sand (Carbo-Lite) will be added in the prescribed stages through the blender. Diesel, as a fluid loss control agent, is only present in the pad and prop stages, NOT the prepad. Pump 200 bbl PREPAD (WF-40) at 25 bbl/min. Discuss surface pressure response with on-site engineer to insure job should be continued as designed. Re-design job if necessary. Page 9 RECEIVED DEO 2 6 1990 ~laska Oil & Gas Cons. Commission ~nchorage Milne Point Well H-3 Completion Procedure 7. Pump the frac job as follows, (or as re-design indicates): Stage Stage Cum Stage Cum Stage Cum Name Vol Vol Prop Prop Time Time (bbl) (bbl) (lb) (lb) (min) (min) PAD 238 238 0 0 9.52 9.5 3 ppg 16.2 254 1800 1800 0.65 10.17 6 ppg 24.1 278 4800 6600 0.96 11.13 , 9 ppg 33.2 312 9000 15600 1.33 12.46 12 ppg 43.7 355 14400 30000 1.75 14.21 14 ppg 30.8 386 11200 41200 1.23 15.44 , FLUSH 32.9 419 0 41200 1.32 16.76 When pumping the frac treatment have the rig pump lined up to pump brine down the casing. Pump brine at minimum rate during frac treatment. Monitor pressure. · · 10. Note: To facilitate breaking of the frac fluid which will remain in the casing, double the breaker concentration in the final 5 barrels of the last slurry stage, and continue adding breaker to the first 10 bbls of flush. Shut down. Allow the pressure to bleed off into the formation. Record the ISIP, and pressure for 30 minutes. Close all surface valves and leave the well shut in. Monitor the break time of the last sample collected. Rig down pumping equipment. After adequate break (based on surface samples) release packer and allow fluid level to stabilize. Reverse circulate the tubing until clean brine returns are stable. POOH SLOWLY. TIH with 4-5/8" Bulldog Bailer with 40 jts 3-1/2" DP chamber. (40 joints should recover two times the anticipated volume of excess frac sand which would result from settlement of 14 ppg slurry left from 5000 to the bottom perf of 5162.) Page 10 Milne Point Well H-3 Completion Procedure 11. 12. Bail frac sand to PBTD. POOH Fill hole When pulling tubing to compensate for the tubing removed from the well only. Do not attempt to keep the hole full to surface. This may result in large volumes of fluid lost to the formation. Page 11 Milne Point Well H-3 Completion Procedure Gravel Pack Stage - "N" Sand · · · R/U Electric line unit with heated lubricator. GIH with Baker Model "D" size 84-32 sump packer, set at 584~ ft MD. Hold safety meeting with all personnel before the perforation operation starts. GIH with perforating gun set-up to perforate as follows: 12 SPF gravel pack charges at: 5031-38' MD Perforate, tag bottom with gun assembly to insure no fill in the packer. POOH with perforation assembly, R/D Schlumberger. P/U and drift 2-7/8" tubing and GIH with the gravel pack assembly as follows: a. Baker Model "S-22" Snap Latch Seal Assembly, size 80-32, with 2 additional seal units. b. Isolation disc sub. c. 32 ft of 2-7/8" Baker-weld wire wrapped 12 gauge stainless steel screen. d. 46 ft of 2-7/8" blank pipe, centralizers every 15 ft. e. Run 1.9" tubing (length as required) inside screen as washpipe. f. 19 ft length Baker Model "S" Gravel Pack Extension with a G.P. sliding sleeve, and upper extension size 80-40. g. Baker Model "SC-I" gravel pack packer, size 70B2-40. h. Baker crossover tool. Items (h) through (j) are picked up as one unit. Use screen table over rotary when running screen. Hang off screen in the screen table on collar shoulder. No slips or clamps allowed on the screen. Hang off blank pipe in rotary table with 2 7/8" slips. Page 12 Milne Point Well H-3 Completion Procedure · · · · · NO EXCESS PIPE DOPE ON ANY CONNECTIONS. DOPE PIN ENDS ONLY. Rabbit pipe as RIH. Run the gravel pack assembly into the well slowly, space the workstring out prior to snapping into the sump packer to obtain a safe working height at the rotary table. Do not space out any connections at or near the wellhead assembly. Record pick-up and slack off weights. Set 15000 lbs weight down to snap the snap latch seal assembly into the sump packer to verify slip anchorage. Snap out and back in to verify position. Rig up Otis Sand Control on location. High pressure lines on all but the return line. The line from the manifold to the pit can be a high pressure hose (5000 psi RWP). No valve is to be connected to the hose. Rig up squeeze manifold appropriately. A ball catcher should be included with the squeeze manifold (both to be supplied by the tool service company). A flow meter and densitometer must be installed in the return line from the manifold to the pits (to measure fluid flow and gravel returned). A flow meter and pressure transducer must be installed in the line from the pump truck to the manifold. This equipment and the data recorder must be installed and checked out as soon as possible. The recorder will be mounted on a stand on the rig floor. Hold a pre-job safety meeting for all personnel on location that could be exposed to hazards of the treatment. The two main points of concern to be stressed are material hazards and pumping pressures. Discuss general safety precautions and first aid procedures (location of eye wash, responsible personnel, etc). Test lines to 5000 psi. Includes all treating lines, gauges, manifold, etc. With the workstring in the neutral position, circulate 5 bbls of clean brine at 2 BPM. This is to insure that the ball seat and the tubing are clear of any potential debris. Page 13 Milne Point Well H-3 Completion Procedure 10. Drop the 1 7/16" Kirksite setting ball and allow time for the ball to gravitate down. Set SC-1 by pressure increase to 2500 psi (by 500 increments, proper timing). Test by pulling 15000 lbs over string weight and pressure testing annulus to 700 psi. This in turn will actuate the hydraulic release feature in the setting tool. 11. Position the crossover tool in reverse position and pressure the tubing to 2500 psi to shift the ball seat. 12. With the tool in the reverse position circulate the following: a. 10 bbl gel fluid (brine with 60 lb HEC/1000 gal). b. 220 gal Super Pickle c. 300 gal 15% Hcl with inhibitor, iron sequestering agent, surfactant, inhibitor. c. Brine. **** Super Pickle is a combustible liquid and poses a health hazard when ingested, inhaled, or when it contacts the eyes or skin. Consult MSDS for further information. **** Hcl is a corrosive liquid and poses a health hazard when ingested, inhaled, or when it contacts the eyes or skin. Consult MSDS for further information. Pump the acid and Super Pickle concurrently. When mixture is approximately 1 bbl from crossover (+/-28 bbl displacement), shut down and reverse circulate acid back to surface. Pump acid down and back out at 4 BPM. Have tank at surface ready to accept acid flowback before pumping acid into well. Have material in tank to neutralize acid. It is acceptable to mix soda ash in the pump truck (mix tank) and pump it through the line to the disposal tank to neutralize the pickle acid. 13. Establish rate and pressure at each position. Take measurements at 0.5, 1, 2, and 3 BPM. Pump only enough fluid to establish a stable preSsure at each rate. Establish injection with minimal volume of brine. Carrier fluid to contain appropriate breaker concentration, added just prior to pumping. Page 14 Milne Point Well H-3 Completion Procedure Carrier fluid preparation includes shear/filter to 10 micron absolute. Perform QC test on gravel and carrier fluid. Gravel test consist of spot check of sieve analysis. Test on carrier fluid includes break test at BHST and filterability. 14. Wellbore ready for gravel frac-pack. Circulate to packer, shift to squeeze and pump frac-pack slurry at +/- 5 BPM as follows: a. 2100 gal (50 bbl) prepad (2% KCl with 60 lb/1000 HEC) b. 400 gal (9.5 bbl) slurry at 4 ppg 20-40 mesh gravel (2% Kcl with 60 lb/1000 HEC). c. 780 gal (18.6 bbl) slurry at 7.5 ppg as in b). d. 620 gal (14.8 bbl) slurry at 12 ppg as in b). e. 3 bbl postpad (2% Kcl with 60 lb/1000 HEC) Injection rate to be +/- 5 BPM until end of 12 ppg slurry is +/- 3 bbl from G.P. Packer. Stop pumps 5 minutes, restart pump, being sure to stay BELOW frac pressure. Continue to squeeze at matrix rates for 3 bbls or until sandout/screenout occurs. If sand out is not indicated once slurry clears the G.P. Packer, shut down pumping. Move to circulating position and circulate at 1/2 to 1 bpm until screenout occurs. 15. Go to reverse circulate position and reverse (minimum of 1.5 tbg volumes). 16. After appropriate break time place tool in main screen circulation position and pressure up. If rate/pressure indicates exposed screen then pump the following: A. 5 bbl gel (2% Kcl with 60 lb/1000 HEC) B. 10 bbl 8 ppg 20-40 mesh slurry as in (A). C. 5 bbl gel as in (A). Circulate above to 5 bbl from G.P. Packer in reverse position, shift tool to the circulating position, and place at 2 bpm. Reverse out excess after sandout achieved. If rate/pressure indicate the screen is still covered then prepare to POOH. 17. Before POOH insure the fluid level in the well is stable. Page 15 Milne Point Well H-3 Completion Procedure 18. 19. 20. 21. POOH with running tool. Fill hole when pulling tubing to compensate for the tubing removed from the well only. Do not attempt to keep the hole full to surface. This may result in large volumes of fluid lost to the formation. Run gravel pack evaluation log with pack repair tool (WID). Reciprocate WID several times and re-log if pack efficiency is questionable. Be prepared to run new G. P. service tool and repack if log indicates poor pack efficiency in perforation area and repair efforts'fail. POOH with log. Rig up slick line and run in hole with arrow head, spang jars and maximum bar weight to break the isolation disc. Maximum OD on this assembly is 1.5 inches. Make sure this will fit through the entire gravel pack assembly. Check the "XN" nipple since it is the minimum diameter. Locate the disc, knock it out, proceed to bottom and tag. POOH, rig down slick line unit. Page 16 Milne Point Well H-3 Completion ProCedure ESP RUNNING PROCEDURE · · · · · PULL THE WEAR BUSHING. GIH with ESP assembly as follows: a. ESP with standard centralizer for 7" 26# casting b. One joint 2 7/8" 6.4# Tubing c. AVA Ported Nipple d. 2 7/8" 6.4# Production Tubing to surface RIH with ESP no faster than 30 ft/minute. Run WITHOUT sleeve or check-valve in the AVA nipple. Before start-up of ESP the appropriate item will be run on wireline. Attach two cable bands per tubing joint. Attach additional cable bands above and below cable splice. Locate the bottom of the ESP to maintain at least 30 ft between the pump and the gravel pack packer. This spots the bottom of the pump at a maximum depth of +/- 4915 ft. · Do not space out with pup joints at surface. Spot the pump with a tubing connection at the wellhead for ease in NU tree. Pump sufficient diesel down annulus, allowing it to "U tube" back into the tubing, to fill to a depth of 2000 ft for freeze protection. ND BOP stack. NU production tree. Rig down to move. The following steps are important in maintaining a successful producing gravel pack completion. The gravel packed zone must be brought on line at low rates. It is important to increase the flow rate slowly and not apply more than 500 psi pressure drop across the gravel pack completion. The rate should be maintained at the lowest rate possible on the ESP until production is all oil. Each time the rate is increased (by choke or ESP) the pressure should be allowed to stabilize (for 6 to 12 hour minimum) before increasing the choke size again. Page 17 Milne Point Well H-3 Completion Procedure ATTACHMENT 1 Vendor List Completion Fluids Filter Equipment Perforating Logging Squeeze Tool Frac Treatment Gravel Pack Tools Gravel Pack Pumping Baroid MI Drilling Fluids Schlumberger Schlumberger HRS Dowell Schlumberger Baker Sand Control Otis Sand Control (Halliburton) jwb Pagel8 _5~-rG , I ' '~de 5',' 2?'ecxea 'D ate Page Title Conoco Inc. C, alcu~at~on ,.,4 beet _.. _. :;D No. :ieid State · I ~ 1 ! · ' i / I ! , r I I I i , ~ I t i~ - / I . , / I I , ,,~ ~ i ~ ~' I , ~: ; ~ ~ ~' , i i '~, ' 5100 I,'ONOCO H-PAD, WELL ~3 SPERRY SUN DRILLING SERVICES I~EASURED ANGLE DIRECTION VERTICAL LATITUDE DEPARTURE DEPTH DEG DEG DEPTH FEET FEET 0.00 0.00 N 0.00 E 0.00 0 00 0.00 289.00 0.50 S 52.20 W 289.00 0.77 S 1.00 W 532.00 2.30 N 60.70 E 531.94 0.96 N 2.42 E 651.00 4.90 N 64.70 E 650.70 4.30 N 9.10 E 5.80 67.70 768.18 8.72 N 19.17 769.00 N E E 890.00 6.80 N 67.40 E 888.45 13.79 N 31.44 E I l011.00 11.90 N 69.10 E 1007.80 21.00 N 49.72 E 1136.00 15.70 N 74.70 E 1129.18 30.07 N 78.08 E 1345.00 24.30 N 79.00 E 1325.40 45.76 N 147.71 E 1498.00 28.20 N 81.40 E 1462.60 57.18 N 214.38 E , 1626.00 33.10 N 80.00 E 1572.68 67.78 N 278.74 E 1749.00 37.70 N 78.60 E 1672.92 81.05 N 348.73 E 1875.00 41.30 N 80.70 E 1770.13 95.39 N 427.55 E 1968.00 40.70 N 82.80 E 1840.32 104.15 N 487.93 E 2097.00 40.20 N 81.80 E 1938.49 115.36 N 570.86 E 2223.00 42.40 N 81.10 E 2033.14 127.74 N 653.09 E 2347.00 44.00 N 79.80 E 2123.54 141.83 N 736.79 E 2474.00 46.60 N 81.40 E 2212.86 156.55 N 825.84 E 2696.00 46.50 N 83.20 E 2365.54 178.14 N 985.54 E 2817.00 46.20 N 81.90 E 2449.06 189.49 N 1072.35 E  3198.00 42.90 N 83.20 E 2720.55 224.23 N 1337.32 E 3390.00 41.80 N 81.60 E 2862.45 241.31 N 1465.52 E 3481.00 41.00 N 79.30 E 2930.71 251.29 N 1524.86 E  3577.00 42.30 N 77.90 E 3002.44 263.91 N 1587.39 E 3768.00 42.30 N 77.70 E 3143.71 291.07 N 1713.03 E 3895.00 41.80 N 77.60 E 3238.02 309.26 N 1796.12 E 4148.00 41.60 N 77.40 E 3426.92 345.69 N 1960.44 E 4432.00 41.80 N 78.60 E 3638.97 384.96 N 2145.23 E 4779.00 41.90 N 81.90 E 3897.48 424.15 N 2373.33 E I 5064.00 42.20 N 83.20 E 4109.11 448.90 N 2562.60 E 5381.00 42.10 N 85.80 E 4344.15 469.29 N 2774.31 E 5556.00 42.70 N 85.10 E 4473.38 478.65 N 2891.94 E Page 1 10-4-1990 AK-MW-00120 VERTICAL DOG SECTION LEG 0.00 0.00 -1.11 0.17 2.54 1.15 9.68 2.19 20.35 0.80 33.29 0.83 52.50 4.22 81.98 3.22 153.24 4.17 220.88 2.64 286.11 3.87 357.32 3.80 437.43 3.05 498.43 1.62 582.08 0.63 665.22 1.78 750.10 1.48 840.35 2.23 1001.43 0.59 1088.92 0.82 1355.99 0.90 1485.25 0.80 1545.42 1.89. 1609.18 1.67 1737.58 0.07 1822.54 0.40 1990.61 0.09 2179.35 0.29 2410.79 0.64 2601.54 0.32 2813.72 0.55 2931.28 0.44 THE DOGLEG SEVERITY IS IN DEGREES PER 100 FEET THE VERTICAL SECTION WAS COMPUTED ALONG N 80.50 E (TRUE) BASED UPON MINIMUM CURVATURE TYPE CALCULATIONS. THE BOTTOM HOLE DISPLACEMENT IS 2931.28 FEET, IN THE DIRECTION OF N 80.60 E (TRUE) DEC I . I0 11 14 15 EQUIPMENT ana SERYIC£S LOCATION: CONOCO ALASKA VALTER MARTIN MILNE PEIINT ALASKA H-3 H-PAD jdll ~ 563-0825 [,. slzF ' ' CASINGI 7 LINER J TUBING WKSTRG 26 LBO BUTTRESS f ol~. FLUID H, IN ~iTOR- ..... iOOAIiNQ t 9.2 PPG D~I~ _ S~[N ~[ ~AND SIZ[ 2 7/8" .QIE GAGE ~0-40 .., ..... DESCRIPTION 4979.24 4~8 6.00 BAKER SC-IL PACKER SIZE 70B2-40 4988,2 4991,34 5013,34 5013.64 5069,64 5087,64 4,78 5,50 ~14 5.81 22,00 5,00 : INFO'RI~ATION: .30 5,00 32.0 2,93 2.93 3,50 1.06 4.IBD 4,785 ;,00 2.44[ 2441 ~,441 2,441 5088,70 ,84 4,62 5 5089,54 3~G 5,GO7 5091,04 GOO 3.00 1.97 509%04 1,18 2,75 1,875 5098,82 ,4 3.07 2.00 PERFORATED INTERVAL 5031-5038 UPPER EXTENSION SLIDING SLEEVE V/ SEAL BORE LOVER EXTENSIDN CROSSOVER 5' 8rd BOX X 2 7/g' NU l}~-a PIN BL/~K PIPE 2 7/8' ~'?1 SET CF BLADED CENTRAL:ZERS/JOINT BLA~ PI~ gN JOINT 3F SCREEN ~ERVELD O. Ol~ GA~ SCREEN, :ENT~ALJSED A~DVE SS~EEN ~AKER ISOLATICN DISC ASSEMBLY BAKER MODEL 'S-22' SNAP LATCH SEAL ASST. W/ ONE ADDITIONAL SEAL UNIT BAKER MODEL 'D' SUMP PACKER TU))ING PUP, 2 3/8' lEU 8r~ N-80 OTIS 'XN' NIPPLE ~/IRELINC ENTRY GUIDE x C J,',,OCD'.H ] j October 15, 1990 Conoco Inc. Suite 200 3201 C Street Anchorage, AK 99503 (907) 564-7600 Lonnie C. Smith Commi ss i oner Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive Anchorage, Alaska 99501-1433 RE' Milne Point Unit Well H-3 Application for Sundry Approval Attached is the Application for Sundry Approval (Form 403) requesting approval to shutdown operations on MPU well H-3 with rig 27-E, pending completion with rig EWS 4. If there are any questions pertaining to this well please call me at 564-7637. Yours,. R. S. Rossb~ Sr. Drilling Engineer cc' MPS file # 500.21.08 STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS NA 1. Type of Request: Abandon __ Suspend __ Alter casing __ Repair well __ Change approved program __ Operation shutdown X Re-enter suspended well __ Plugging __ Time extension __ Stimulate __ Pull tubing __ Variance __ Perforate __ Other __ 2. Name of Operator CONOCO, INC. 3. Address 99503 3201 C Street, Suite 200, Anchorage, AK 4. Location of well at surface 2426' FNL, 4036-FEL, Sec. 34, T13N, RIOE, 5. Type of Well: Development X__ Exploratory __ Stratigraphic __ Service __ U.M., N.S.B., ALASKA 6. Datum elevation (DF or KB) KB 35' AGL 7. Unit or Property name MILNE POINT UNIT 8. Well number t-].-3 feet At top of productive interval 1977' FNL, 1473'FEL, At effective depth At total depth 1955' FNL, 1232' FEL, Sec. 34, T13N, RIOE Sec. 34, T13N, RIOE 12. Present well condition summary Total depth: measured 5630 true vertical 4533 feet feet Plugs (measured) 9. Permit number 90-88 10. APl number 50--029-22063 11. Field/Pool Schrader Bluff Effective depth: measured feet true vertical feet Junk (measured) Casing Length Size Cemented Structural Conductor 115 ' 13-3 / 8" Surface Sudace 2872 ' 9-5/8" Surface Intermediate Production 5634' 7" T.O.C. @ Liner Perforation depth: measured true vertical Tubing (size, grade, and measured depth) Packers and SSSV (type and measured depth) 3500' Measured depth 115' 2872' 5634' True vertical depth 85' 2497' 4536' 13. Attachments Description summary of proposal __ Detailed operations pro.qram__ Shut down operation with Rig 27-E. Pending comp±etlon with EWS4. BOP sketch __ 14. Estimated date for commencing operation 15. Status of well classification as: 12/90 16. If proposal was verbally approved Oil __X Gas __ Name of approver Date approvedi Service 17. I hereby certify that the foregoing is_true an,~ correct to the best of my knowledge. Signed ~~p¢~ /~~~,~tle Sr. Drilling Engineer Steve Rossberg /¢ FOR COMMISSION USE ONLY Conditions of approval: Notify Commission so rel~,r~sentative may witness Plug integrity __ BOP Test __v Location clearance __ Mechanical Integrity Test __ Subsequent form required 10- Approved Copy ORIGINAL SIGNED BY , _ ~,42~Returnedloz~ LONNIE C. SMITH Approved by order of the Commission · ~,__~_['Z~,' ~/'-' _ Commissioner Suspended __ Datel0/15/90 J Approvat No~. 0 --d~)(~l~ ._ Date Form 10-403 Rev 06/15/88 SUBMIT IN TRIPLICATE CONOCO, Inc. SCHLUMBERGER WELL SERVICES A DIVISION OF SCHLUMBERGER TECHNOLO(~Y CORPORATION HOUSTON. TEXAS 77251-2175 PLEASE REPLY TO ~ t~ i ~ ~, SCHLUMBERGER WELL SERVICES Pouch 340069 Prudhoe Bay, AK 99734-0069 Attn: Bernie/Shelley 3201 "C" Street, Suite 200 Anchorage, AK 99503 Attention' Van Lineberger Phasor DIT-E/NGT/Raw Data/Porosity/BGT/Profile Gentlemen: Enclosed ore_2_BL_printsof the. Caliper/CyberlOOk, Run 2, 10/10/90 Company CONOCO, Inc, ,. . Well Milne Point Unit H-3 on: Field Milne Poi nt Additional prints ore being sent to: 1 BL prints CONOCO, Inc. 600 North Dairy Ashford Houston, TX 77079 Attn: George Lamb - OF 2018 PER .. County North SI_ope State Alaska _i_BL__prints, I RF Sepia CONOCO; Tnc~ 1000 South Pine Ponca City, OK 74603 Attn: Log Library I BL prints, 1RF Sepia OXY U.S.A., Inc. 6 Desto_Dr_ (v~ Midland, TX 79710 Atgn: John Corral *(915/685-5600) ~rints, 1RF Sepia Chevron U.S.A. 6001BollJnger Canyon Road _S_an Roman, CA 94583-0943 Attn: Priscilla MacLeroy /~LBL~rints, 1 RF Sepia ~ /_Alaska Oil & Gas Conservation commission ~ 3001..PorcuPine Drive ' ~ .... Anchorage, AK 99501 . / ~~Ohn BOYle ~ The film is returned to Conoco, Log Library. We appreciate the privilege of serving you. prints prints prints RECEIVED OCT ! g 1990 ~., Cons. Commission Anchorage ReceJ ved by: ~ A, Date: Very truly yours, SCHLUMBERGER WELL SERVICES David M. Saalwaechter DI~,TR ICT MANAGER ,~W$-- t 327-F SCHLUMBERGER WELL SERVICES A DIVISION OF SCHLUMBERGER TECHNOLOGY CORPORATION HOUSTON, TEXAS 77251-2175 1990 CONOCO, I nc. 3201 "C" Street, Suite 200 Anchorage, AK 99503 Attention: Marc Shannon ~EA~E REPLY TO BCHLUMBE.GER WELL ~ICESPouch 340069 Prudhoe Bay, AK 99734-0069 ACtn: Bernie~Shelley Gentlemen: Enclosed are_2_~/~orints of the Company CONOCO, lng, Well Milne Point Unit H-3 , Field Milne Point Additional prints ore being sent to: 1 BL prints CONOCO, Inc. 600 North Dairy Ashford Houston, TX 77079 Attn: George Lamb - OF 2018 PER. Borehole Geometry Log. Run 1, 10/07/90 County North Slope State Alaska _l_BL_prints, 1RF Sepia _CONOCO; Tnc~ 1000 South Pine Ponca City, OK 74603 Attn: Log Library on; I BL prints, 1 RF Sepia OXY U.S.A., Inc. .6_Desta Drive Hidla.n.d, TX . 79'7!0 Attn: John Carrol ..*(915/685-5600) ~rints, I RF Sepia .Chevron U.S.A. . , . 6001BollJnger Canyon Road San Ramon, CA 94583-0943 Attn:. Priscilla MacLeroy _*(415/842-1000) 3001 Porcupine Drive Anchorage, AK 99501 Attn: John Boyle The film is returned to Conoco, Log Library. We appreciate the privilege of serving you. prints prints print OCT 0 9 1990 Very truly y~Bka011 & Gas Cms. C0mml~sl0n SCHLUMBERGER WE~L~ICES David M..Saalwaechter $W$-- t 327-F October 4, 1990 Telecopy: (907)276-7542 R. S. Rossberg Sr. Drilling Engineer Conoco Inc. 3201 C Street, Suite 200 Anchorage, Alaska 99503 Re: Milne Point Unit No. H-3 ReVised ' Conoco Inc'. Pe~it No. 90-88 Sur. Loc. 242'9'FNL, 4036'FEL, Sec. 34, T13N, R10E, DM. Bt~ole Loc. 1955'FNL, 1232'FEL, Sec. 34, T13N, R10E, UM. Dear Mr. Rossberg: Enclosed is the approved revised application for permit to drill the above referenced well. The provisions of the cover letter, dated July 27, 1990, accompanying the original approved permit are in effect for this revision. Commissioner Alaska Oil and Gas Conservation Co~ission BY OPJOER OF THE COMMISSION dlf Enclosure cc: Department of Fish & Game, Habitat Section w/o encl. Department of Environmental Conservation w/o encl. Conoco Inc. Suite 200 3201 C Street Anchorage, AK 99503 (907) 564-7600 August 13, 1990 C. V. Chatterton Chairman Alaska Oil and Gas Conservation Commission 3001 Porcupine Drive Anchorage, Alaska 99501-1433 RE- Milne Point Unit Wells H-3, I-4, J-3 Permit to Drill Revisions Dear Mr. Chatterton- A change in bottom hole location from the original permitted location is requested for the subject wells. Attached are revised permit applications and directional drilling plans indicating the revised locations. Very truly Yours, Sr. Drilling Engineer cc- MPS, DLM, SLD RSR/sa r~----. STATE OF ALASKA ALASK ,'IL AND GAS CONSERVATION CC,...VllSSION PERMIT TO DRILL '----------- 20 AAC 25.005 la. Type of work Drill E~ Redrill ~o! well. Exploratory ~ Slrat~grapnic Test [] Development Oil Re-Entry ~ Deepen ~'1 Service ._-'. DeveloDement Gas ~. Sinale Zone ~ Multiple Zone 2. Name of Operator " CONOCO INC 3. Address POUCH 340045, PRUDHOE BAY AK 99734 4. Location of well at ~urface 2426' FNL, 4036' FEL, SEC., 34, T13N R10] U.M., NSB, AK ' At top of productive interval 2000' FNL, 1500' FEL, SEC. 34, T13N, R10E At total depth  FNL, 1232' FEL SEC. 34, T13N, RiOE 12. Distance to nearest 13. Distance to nearest well property line 3558 FSL feet 60' F/H-2@ 500feet 16. To be completed for deviated wells Kickoff depth 500 feet '18. Casing program size Specifications 19. To be' completed for Redrill, Re-entry, and Deepen O Present well condition summary Total depm: measured true vertical Effective depth: measured true vertical Maximum hole angle 42 ' 5. Datum Elevation (DF or KB) KB 35' AGL feet 6. Property Designation APL-25906 7. Urn: or property Name MILNE POINT UNIT _ 8. We,J nurp~er ~). Approximate SPud dale SEPTMEBER 1'4, 1990 10. Field and Pool KUPARUK RIVER FIELD 11. Type Bond i"ee 20 AAC 25.025) BLANKET Number 8086-15-54 Amount $200,000 14. Num~3er of acres m properti 15. Proposed aepthl~oan~ rvo~ 2560 5404'MD 4375'TV~Cet 17. Antic~paled pressure ~,~ ~o A~C 25.035 -- "..,~ .... ..~. 1900 ..,o *, ,o,., ~..,. ~m 2000 Set~mq Oeotn ToD ' MD ~ Quantity of cement (include stage data) 35~ 35~ ~ 80'~ +485 gB~ROST C ~~~E~FROST ~ cm ss ~eral*ons. DOWNSQUEEZE leer Plugs (measured) +300 SKS PE~ROST C feet ~ ~60 BBLS D~D CRUDE leer Junk (measured) feet Casing Length Structural Conductor Surface Intermediate Production Liner Perforation depth: measured true vertical Size Cemented Measured depth True Vertical depth RECEIVED A ch0ra 20. Attachments Filing fee E'. Property plat" BOP Sketch ~. Oiverter Sketch ~'~. Orillin----'""~ program Drilling fluid program f'- Time vs depth plot ~. Retraction analysis [] Seabed report 1~ 20 AAC 25.050 reauirements 21. I hereby certify that the foregoing is true and correct to me best of my knowleage ~C.~ommis-'~on Use Only Permit N, j APl nu~b~'---'-"-~'--_--]' Approval d~'~' . ~r letter [ 5o-0'~.'~'- ~ ~ O~ ~ 0 7 / 2 7 / 9 0 } for other requirements s pt approvat Samples required ~ Yes ~ No Mud log re uired g Yes ~ No Hydrogen sullide measures ~ Yes ~ N ......... q ~. ~ ~-,~ruc[~ona~ su~ey required Yes N~ ~equired working pressure jot BOPE '~2M;I~ D 3M' ~ SM. ~ ~n~ Other: ~¢~ ~ j ............ ; ~ 15M Approved by /~_ _ ~. ( ~//'[ ~ - , by order of ~ ~ ~~ ~ ~ ~~ uommlssioner the commission Date ~¢~ ¢ -~ Form 10-401 ~ev. ~2-1-85 ~ ' ~ Su8mll in [ripllcal~ -41 - Field : Milne P Unit' Location : Cook Inlet, Alaska ~:o~,: ,oo.oo E a s t- > ....... i" "' 'T 'T '? ',' '"' ~" ,'7 ......... . Ig55' rNL, 1232' Sm:. 3,1.. TI,.!N, RIO[ J aaa · "~2zo Tvd-~75 , ~ ~ 2420' FN~ 40~6' ~ t D~Z~7~ J~. ~4. TI3N. RIO~ UMI 1~ ~h 426 27,~ ~ pate Hatted : og-~g-go ~{ Reference is 3 vmsion ~ ~oordi~t~ are in feet reference slot ~~'~ ~e Vedical Depth~ are reference wellhead. ~"" /___ EASTMAN CHRiSTENSEN ___ ~ N 80 Oeg 28 Mine E  2572' (To Target) K ~ds T~-34~ T~-41~ ~p--1987 N S~ Tv~--SgI2 T~-47~ Dep-2424 TARGET / 0 Snds Tvd=4075 Trod=5000 Dep=2572 10 / 7 ~r T~-4~75 Trod-5101 Scale 1 ' 100.00 Vertical Section on 80.46 azimuth with reference 0.00 N, 0.00 E from slot #3 July 27, 1990 Telecopy: (907)276-7542 David L. Mountjoy Sr. Drilling Foreman Conoco !nc. 3201 C Street, Suite 200 Anchorage, Alaska 99503 Re: Mtlne Point TJnlt No. H-3 Conoco Inc. Permit No. 90-88 Sur. Loc. 2426'FNL, 4036'FEL, Sec. 34, T13N, R10E, UM. Bt~mhole Loc. 1922'F~L, 866'FEL, Sec. 34, T13N, R10E, L~{. Dear Mr. Mountj oy: Enclosed is the approved application for permit to drill the above referenced well. The permit to drill does not exempt you from obtaining additional pe~its required by law from other governmental agencies, and does not authorize conducting drilling operations until all other required permitting determinations are made. The Commission will advise you of those BOPE tests that it wishes to witness. Very truly y~~_, David W. John~ton Commis s ion~.r..~0 f Alaska Oil and Gas Conse~atlon Commission BY O~ER OF THE CO~ISSION dlf Enclosure cc: Department of Fish & Game, I{abitat Section w/o encl. Department of Environmental Conservation w/o encl. ----~-.. STATE OF ALASKA ~,.,.~--.. ALASK" AND GAS CONSERVATION MISSION PERMIT TO DRILL 20 AAC 25.005 la. Type of work Drill )~ Redrill 5[ lb. Type of well. Exploratory ,~ Stratigraphic Test ~ Development Re-Entry __ DeepenL_i Service '- Developement Gas ~_ Single Zone~' Multip!e. Zon.e.~_ 2. Name of Operator ~NNN~N TN~ 3. Address Pnm~rh qAf)f~/tn, P~mmrlhn= R~y. ~ QQ7q& 2426'FNL, 4036' FEL, SEC 34, T13N, RIOE At top of productive interval U~M., NSB, AK 2000' FNL, 1360' FEL, SEC. 34, T13N, RIOE At total depth 1922' FNL. 866' FEL. SEC. 34, T13N, RIOE 12. Distance to nearest I 13. Distance to nearest well property line 866 'FSL ,. feet GO'F/H-2 @ 500' feet 16. To be completed for deviated wells Kickoff depth 500 feet Maximum hole ,angle 53 0 18. Casing programI size / Specifications Hole Casing Weight I Grade 1 Coupling I'3 '~ IO AO,~ lU A~ ! !,1~'1 r~ ILengtf 5. Datum Elevation (DF or KB) _k'__R ~5' _/t_6/ feet 6. Property Designation ~_nL-25906 7. Unit or property Name .M.!LNE POZNT [JN!T 8. Well number H-3 9. Approximate spud date SEPTEMBER 14. 1990 14. Number of acres in property 2560 6£ 10. Field and Pool KUPARUK RIVER F!ELD 11. ~pe Bond ~see ~0 A^C 25.025} BLANKET Number 8086-Z5-54 Amount $200,000 15. Proposed depthfMu and TVm ,49' HDC 4675' TVD~et 17. Anticipated pressure (see 20 AAC 25.035 Maximum surface 1900 Setting Depth Top Bottom I 1 psig At total' depth Cf'VD) 2000 ~'~ Quantity of cement , (include stage data) i '~r-,~ CF(: DI:DMhI=DhCT I:' .~252 $K$ 6L~$$ 6 ~4n Sl(S. PERMAFROST F i-316 SKS., CLAS. S G 19. To be completed for Redrill, Re-entry, and Deepen Operations. Present well condition summary Total depth: measured feet Plugs (measured) DOWNSqUEEZE true vertical feet +300 SKS PERMAFROST C +60 BBLS DEAD CRUDE Effective depth: measured feet Junk (measured) - true vertical feet Length Size Cemented Measured depth True Vertical depth RECEIVED Casing Structural Conductor Surface Intermediate Production LIUL 1 1 1990 LineF Perforation depth: measured ~J~,~I~.O~t& Gas Cons. Comm)ssk;:~ true vertical '.,' /~,lch0ra~ PIT SKETCH X .. 20. Attachments Filing fee~ Property plat~ BOP Sketch~ Diverter Sketch~ Drilling programX'; Drilling fluid program~ Time vs depth plot~ Refraction analysis ~ Seabed report ~ 20AAC25.050 requiremontsXZ 21. I hereby certify that the foregoing is true and correct to the best of my knowledge ',¢~_,,~ ~/,~ ~4-¢,,-¢~,.~~" mTM Signed ~. !e SR. DRILLING FOREMAN /~ ~ Com ission Use Only Permit Number ] APl number J Approval date j PO -~'I;:;~ 5o- o~_?. 2 .~_o~ -.~ 07~27~90 Conditions of approval Samples required ~ Yes /,~ No Mud log required ~ Yes ,,~ Hydrogen sulfide measures E Yes ~'1~o Directional survey required ~'Yes '-~ No Required working' pressure for BOPE"J~2M; E-~ 3M; ~ 5M; [] 1OM; ~ 15M Other: ~_.._._.___ Approve t -'-~-. Commissioner Form10-401Rev. 12-1-85-- -~~) See cover letter for other requirements No by order of the commission Date ~'~/¢'~n , Submit ir~ t~iplicate SUPPLEMENTAL DATA SHEET APPLICATION FOR PERMIT TO DRILL CONOCO MILNE POINT UNIT H-3 Conoco Inc. P. O. Box 340045 Prudhoe Bay, Alaska 99734 I. Casing and Cementing Program ae The 13-3/8" conductor will be set at 80' below the surface, then cemented to the surface with ±485 sacks of Permafrost Type "C". Bo The 9-5/8" surface casing will be cemented with ±658 sacks of Permafrost "E" cement followed by ±252 sacks of Class "G" Cement. .A top job will be done if cement is not circulated to the surface. Co The 7" production casing will be cemented in two stages. The first stage will consist of ±40 sacks of Permafrost "E" cement pumped around the casing shoe followed by ±316 sacks of Class "G" cement. The secondary cement job will consist of ±300 sacks of Permafrost "C" cement followed by ±60 barrels of Arctic Pack pumped down the 7"x 9-5/8" annulus. II. Drilling Fluid Program A. 0' - 3050' 9.0 ppg freshwater spud mud. m. 3050' - 4516' 9.2 ppg low solids non-dispersed. C. 4516' - TD 9.4 low solids non-dispersed. ~$~&~ III. Drilling Program Conoco Inc. proposes drilling the subject well as a production well in the Kuparuk River Field (Upper Cretaceous-West Sac). The mud system will be low solids, non-dispersed with a mud weight in surface hole of 9.0 ppg. Mud weight at TD will be 9.4 ppg. A 20", 2000 psi diverter will be installed on the 13- 3/8" conductor for drilling surface hole. A 13-3/8", 5000 psi RSRRA BOPE stack will be used on the surface casing. Pressure tests will be performed as per State Regulations. BOP's, choke manifold, upper and lower kelly safety valves will be tested to 500 psig and 5000 psig, the Hydril to 350 psig and 3500 psig. Casing will be pressure tested to 1500 psig. Maximum downhole pressure is based on initial reservoir pressure. Maximum surface pressure is based on an unexpanded gas bubble, temperature taken into account. The closest wellbore is J-2 with a closure of 60 feet at a depth of 500'. The well will not be completed or tested at this time. A® Drill a 30" conductor hole to ±80' and set 13-3/8" conductor. Be Drill a 12-1/4" surface hole to ±2500' TVD 3050' MD and set 9-5/8" casing. Ce Drill a 8-1/2" production hole to ±4375' TVD to 5707' MD and set 7" casing. TVD MD FORMATION BIT MUD WT YD PV VIS FL 0 0 Gravel 1-1-4 9.0 32 20 90 15 500 500 Sand/Clay 1-1-4 9.0 25 20 65 15 3430 4516 "K" Sand 1-1-4 9.2 25 15 35 10 3680 4834 "M" Sand 1-1-4 9.4 25 15 35 10 3912 5117 "N" Sand 1-1-4 9.4 25 12 35 05 4075 5316 "O" Sand 1-1-4 9.4 25 12 35 05 4375 5707 TD 1-1-4 9.4 25 12 35 05 *The proposed depth is an estimate only. If the actual depth exceeds the permit depth by over 300 feet TVD, a Sundry Notice will be submitted. II · - Il I . I 1, STATE PLANT COORDINATES ARE ZONE 4 2, ALL GEODETIC POSITION8 ARE BASED ON N.A.D. 1927 OFFSETS TO SECTION LINES ARE COMPUTED BASED ON PROTRACTED VALUE8 OF THE SECTION CORNER POSTION8 290' 30' 40* ' H PAD III MIL,BE pT, VICINITY MAP O 6 t~ MIL E,~ LOCATION IN ,SEC, 34, T13N, R1OE, UMIAT MERIDIAN WELL FROM EAST LINE FROM NORTH LINE- _ U'l ' 4070' "2542' - .... H-2 4063' 2484' H-3 4036' 2426' H-4 4019' 2369' ,STATE PLANE COORDINATES-ZONE 4 WELL Y X H--1 -O~OO~1889,28' 686,676.42' H~2 6,OO9,947.O4° 566,592.64' H-3 6,O10,OO4.80' 656,608,85' H-4 6,O10, O62,66' 566,626,07' GEODETIC POSlTION,S NAD 1927 ,, , WELl.. NORTH LATITUDE WEST LONGITUDE H-1 70* 26' I~.6012' 149' 32'19,309" H-'2 70* 26'16.1680" 149' 32'18,820" H-3 70* 26'16.7350' 149' 32'18,331' H--4 70'" 26'17.3019" 149' 32'17,843° TYPICAL ,SECTION NO ,~ CAI,, E T 13 N R g E T 13 N R 10 E T 13 N R 1 1 E MILNE POIN' GO~u~O g;AG ~ VTolel Ate. In U~  ~ U~lt Boundary ~ ~-255~ 2533~C ADL'47434 2560 AC ADL'47433 ~60 AC ~D~743~68 A~ ~ _ ~ '"" ' .... ' ~o. c o ~c~ ~r ~ CON ~ CONOCO E~ a~ ~ CONOCO ~r 23 24 lg 20 Jl 22 22 24 lg ~ 21 22 4o[-~se4e ADL-25516 ~ ADL-47439 ADL-3158~ ~-25514 25e0 AC ADL-25515 2~4 AC ~2e0 xC 1280 AC ADL-47437 2540 AC ADL-47438 2544~C 1280 AC .1280 ACl ~O 28 28 2T 2~ . 25 ~0 2g EX~ ~1 3~ ~3 34 8aeed on Umla / A~ ~5 ~6 31 32 Milee O A~-25517 ~ 2235 AC 20 .ADL-25~ 2560 AC ADL-25518 2560 AC ADL-28231 255t AC - ~. I III I I I I I I III UNIT flumbef$ 35.744 Act 6/84 CHEYo A~CO IP IOHlO lB IT A UNIT AREA t Mefldli~.Aleilt a I 2 $clle __ 13-5/8" 58888 Flll L~n@ A~I 13-5/8' API 13-~B' 5M APl 13-5/B' ~M F low Llne Annular Preventor Ram Ram Ram Al:q: 13-5/8' 5M x 11' ~ Tublng Spool w/ 2"-5000~ Side APl 11' 5H Casing Spool w/ 3"-5800,t Side Threaded Comect~n 9-5/8" Surface Choke Line: 3" 5000~f Manual & 3" HCR VALVE Kilt Line: Two 3" 5000~f Manual Valves Outlets Outlets Casing 13-3/8" Conductor Casing BOP Gate SYSTEM Valve Oa~e l, BOP STACK SIZE RATING MEETS APl RP53 & SPEC 6A FOR CLASS 5H 2, BO?E TO BE OPERATED EAOH TRIP AND TESTED WEEKLY, 3, BOP HYDRAULIC CONTROL SYSTEM TO INCLUDE (5) STAT]ON CONTROL MAN]FOLD LOCATED REMOTE W:[TH 160 GALLON ACCUHULATOR, RESERVOIR UNIT, & AUXILIARY ENERGY SOURCE FOR SYSTEM ACTIVATION, ~-, MINIMUM ONE SET BLIND RAMS & TWO SETS APPROPRIATE PIPE RAMS, 5, CHOKE & KILL MAN]FOLDS SHOWN SEPARATELY TO MEET APl RP 53 CLASS 5H REQUIREMENTS, NOTE: ~ F~CN MUm ~P KILL MANIFOLD FROM REWROTE HiGH ~ PRESSURE PUMP -"" , I. NY'DRAULIC CONTROL STSTEu FOR 80P STACK B CHOKE WAN:FOLD TO INCLUDE (51 STAT)ON CCNTROL WANIFOLD LrJCATED REI/OTELY WITH ~000 PSI ACCUMULATOR B 160 GAL. RESERVOIR 8 AUX. ENERGY SOURCE. (5] STA rJ3NTROL I, IANIFOLD PLUS VARIABLE CHOKE DONTROL TO 8E LOCATED ON RIG FLOOR. Z K~LL & CHOICE uAN~FOLDS TO ~EET AP1 RP53 Cl... ]. KILL UANIF(X.D SIZE- RATING 2"' - 5000 4_ CHOKE WANIFOLD SIZE - RATING 3"- 5CX)O R~MOTE PRESSURE GASE SENSOR HYDRAULIC CONTROLLED REMOTE OPERATED DRILLING SPOOL HYDRAULIC CONTROLLED R L--~,OTE OPERATED REMOTE PRESSURE GAGE SENSOR ADJUSTABLE CHOKE ADJUSTABLE CHOKE CHOKE MANIFOLD --VARIABLE CHOKE RE~.OTE CONTROL TO SHALE SHAKER l BLEED LINE TO ATMOSPHERIC TO PiT MUD/GAS SEPARATOR .................... ,,~,C,Kc 8 KILL ,U, ANIFOLDS FOR qs/8'~ a 7 OD CASING BOP BOP t,IANIFOLD LAYOUT - CONOCO, INC. , CONOCO, INC, MILNE POINT UNIT DIVERTER STACK FOR 13 318° CONDUC]'OR 1. The hydraulic control syste~ will be in accordance with AP1 specifications and ~ requiremer, ts. ~. The HCR valve will open when the preventer closes. A single 10" relief line will run off of the drilling spool HCR valve and will have a targeted downstream tee for downwind diversion. Valves on both sides of the te~ will be full opening and linked together to enabla on~ to always be open and the. other to be closed. Mt,lO *I'gOUGH , i W~T~R PUsaP Ck. NT~r U~ HOL[ FILL TA/~. I t l~X CP4/,aG~CH.'~GE (~ ACJTAT~ . o RIG 27 E FLOW SHEET ,A,XELSEN INOUSTI~ES LTD.  ,;--[ .'~C' ~,4 ~.~ .... 477 ..... :.It~ '-' -02 DEVELOPMENT WELL WELL NAME: MPU H-3 l~-Jan-9) CONDUCTOR SETTING DEPTH: SURFACE CASING SETTING DEPTH: INTERMEDIATE CASING SETTING DEPTH: PRODUCTION CASING DEPTH (OR TD): 80 3050 0 5707 DEF'TH OPERATION: 0 1 RIG MOVE: 0 2 RIG-UP; SET CONDUCTOR: (3,050) 3 DRL/SURVEY SURFACE HOLE: (3,050) 4 SURFACE HOLE LOGGING: (5,050) 5 CONDITIONING TRIP: (3,050) 6 RU/RUN SURFACE CASING: (3,050) 7 RU/CEMENT SURFACE CASING: (%,050) 8 CHNG BOPs; PU BHA; RIH: (3,150) 9 DRL OUT; TEST; TOOH; RIH: (3,150) 10 DRILL INTERMEDIATE HOLE: (3,150) 11 LOGGING OPERATIONS: (3,150) 1~ CONDITIONING TRIP: (`3,150) 13 RU/RUN INTERMEDIATE CASING: CUM HOUR DAYS DAYS 6 0.25 0.25 12 0.50 0.75 54 2 ~5 : O0 0 0. O0 .3. O0 3 O. 13 3. 13 10 O. 41 '] 54 6 O. 25 3.79 9 0.38 4.16 10 0.40 4.56 0 O. O0 4.56 0 ~). O0 4.56 0 0. O0 4.56 0 0. O0 4.56 0. O0 4.56 0.00 4.56 0. O0 4.56 2.46 7.02 0. O0 7.~---]~ 0. O0 7.02 (3,150) 14 RU/CEMENT INTERMEDIATE CASING: 0 (3,150) 15 CHNG BOPs; PU BHA; RIH 0 (3,150) 16 DRL OUT; TEST; TOOH; RIH 0 (5,707) 17 DRILL PRODUCTION HOLE: 59 (5,707) 18 CORING OPERATIONS: 0 (5,707) 19 LOGGING OPERATIONS (MWD ONLY): 0 (5,707) 20 CONDITIONING TRIF': 10 (5,707) 21 RU/RUN PRODUCTION CASING: 15 (5,7(]~)_. ~2- RU/CEMENT PRODUCTION CASING: 6 (5,707) ~ o3 RD DRLG RIG 1~ (5,707) 24 RU COMPLETION RIG: 12 (5,707) 25 RD DRLG RIG 12 (5,707) 26 RU COMPLETION RIG: 12 (5,707) 27 RD DRLG RIG 12 (5,707) 28 RU COMPLETION RIG: 12 (5,707) 29 RD DRLG RIG 12 r5,707~. . 30 RU COMPLETION RIG: 1"~ 0.40 :,. 7.43 O. 6~ 8.06 0.24 8.29 0.50 8.79 0.50 0.50 O. 50 1. O0 O. 50 1.50 O. 50 2.00 '~ 0.50 2.50 0, 50 3. O0 O. 50 ~. 50 "-%. 2 ,.:5 ~'4 1 i I 6 ¥ 8 10 CONOCO. ! ne. Pad H, t4sl I No~ :~ Rsvlsscl P.oposal I~lllne Point Unl~:. North Slops, Alaska 1000. 2000_ 3000_ 4000 _ 5000 . .. RKB ELEVAT[ONt KOP TVD=500 TPID=500 DEP=O 9 15 BU[LD 3 DEO PER ! O0 FT 21 27 33 39 SI EOB TVD'2020 TPID'2257 DEP.'7$3 MAX l MUM AN GLE 52 DEG 43 MI N 9 5/8' CSG PT TVD=2500 TMD=3050 DEP=1384 52 48 44 DROP 2 DEO 40 PER 1 O0 FT 36 TARGET ANGLE :35 DEG BEGIN ANGLE DROP TVD=3044 TMD=3948 DEP-2098 K SNDS TVD-3430 TMD-4516 DEP=2513 TARGET / ~ SNDS TVD-3680 TMD-4834 DEP=2?IO N SNDS TVD=3912 T~D-5117 DEP-2872 0 SNDS TVD-40?5 T~D-5316 DEP-2986 TD / 7" LINER TVD-4375 TMD-$?07 DEP=3406 I I I 1000 2000 3000 VERTICAL SECTION I 4000 HORIZONTAL SCALE 1 IN. PROJECTION =. 1000 FEET CONOCO, In,. Pad H. Nell Nos :3 PIIIne Point Unit, Revised Proposal North Slope. Alaska SURFACE LOCAT I ON; 2426' F#L. 4036' FEL SEC. ;S4, T13N, RIOE 3000 2000 1000 1000 WEST-EAST 1000 0 1000 2000 3000 i I I I I 4000 I TARGET / PI SNDS TVD=3680 THD-4S34 DEP- 27' 10 NORTH 426 EAST 26?6 SUR TARGET LOCATION = 2000' FNL. 1360' FEL SEC. 34. T13N. RICE TD LOCATION* 1~2[' FNL, a~ FEL SEC. 34, T13N, RIOE N 80 2710' DEG 57 MI N E (TO TARGET) 2250 2300 2350 2400 245O 2500 2550 26OO 265O 4150 I 4150 4100 I 4050 I 4000 I / / / ~'2100 / / / / 1 1 1 7' 17oo 500 3950 3900 I 3850 I I I I - I I _ I 2250 2300 2350 -- '"1 ,~ 2400 4100 O0 ': ,,700 ~ o ~ , ~oo i I %11 O0 ~ I ; ,, i ......... ~ ~ ..... ,, ~oso 4ooo 3~so 3~oo 38so 245O 2500 255O 26OO 2650 CHECK LIST FOR NE~ V!w-L ITU APPROVE DATE (2. th, ru 8 (8) (9 :hru 1.3) (!0 and 13) ~o (14 c~ru 22) ,, , (23 thru 28) Company I. Is the permit fee au=ached .......................................... 2. is well =o' be located in a defined pool ............................. ~ 3. Is well located proper distance from property !i~e .................. 4. Is we!! loca=ed proper distance from other walls ........ ; ........... 5. Is sufficient undedica:ed acreage available in this pool ............ 6. Is we!! r,.o be deviated and is we!!bore pla= included ................ ',,~ 7. Is opera=or the only affected party ................................. ',,~'/~'i 8. Can permit be approved before fifteen-day wait ...................... 9. Does opera=or have a bond in force .................................. ~ 10. Is a conserva:ion order needed ...................................... i!. Is ad~s:ra=ive approval needed ................................... 12.' Is :he lease number appropriate ..................................... Z 13. Does the we!! have a unique ~e and number ......................... 14. IS cdnductor strin§ provided ........................................ ~ 15. Wi!! surface casing pro,ac= al/ zones reasonably exT. ec:ed to ser~e as an u~derground source of drinking ~ater ..................... ~ 16. is enough ceman= used ~o circuia=e on conductor and surface ......... ~F i7. W'~!i cement tie in surface and intermediate or produc=ion strings ... .~. 18. Wi!! cemen= cover ~ knomra productive horizons ..................... //F 19. Will ail casing give adequate safety in collapse, tension and burs:..~. 20. Is this ~e!! to be kicked off from an e-~-%suing we!lbore ............. 21. Is old ~eilbore abandoumenu procedure included on lO-d03 ............ 22. Is adequaue wellbore separation proposed ........................... ~ 23. Is a diver=er sysuem required ....................................... ~z~ 24. Is the drilling fluid program schematic amd lis= of equipment adequate ~ 25. Are necessary diagr~mq and descriptions of diver~ar and BOPE attached. /~ 26. Does BOPE have sufficien: pressure re=in§ - Tes: =o ~>~o psig .. ~ 27. Does the choke mauifoid comply ~/API RP-53 (Nay 84) .................. ,'~,,,, 28. Is the presence of E2S gas probable ............................. ~... ,,, (29- t~ru 3i) rev: 01/30/89 6.011. For exTloratory and Stratigraphic wells: "29. Are dace presented on potential over~.ressure zones? ................. 30. Are seismic analysis data presen=ed on shailo~ gas zones ............ 31. If a~ offshore loc., are survey resul:s of seabed conditions presented 32. Addi:ional requirements ............................................. " iNIT*~AL' I GEO. UNIT i Old/OFF .... POOL, ,, ,,, , , ,,, , CHECK LIST FOR NEW WELL PERMITS ITeM APPROVE DATE (2 thru 8) (8) (3) Admin ~.,Ot'- ~ 9. ~' (~ ~'hr~ 13) 10. (10 and 13) 12. 13. (14 thru 22) (5) ]~0PE /~..~ 7-/?-?0 (23 thr~ 28) Company_ ( zO~Y~r~ YES Is the permit fee attached .......................................... ~ 2. Is well to' be located in a defined pool ............................. ~ 3, Is well located proper distance from property line .................. 4. Is well located proper distance from other wells .................... 5. Is sufficient undedica:ed acreage available in this pool ............ /~ 6. Is well to be deviated and is we!lbore plat included ................ 7. is operator the only affected party ......... i ....................... 8, Can permit be approved before fifteen-day wait ...................... Lease & Well No. NO Does operator have a bond in force .................................. ~ is a conservation order needed ...................................... ~ Is adm/~istrative approval needed ................................... Is uhe lease number appropriate ..................................... ~- Does the well have a unique name and number ......................... 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. Is cdnductor string provided ........................................ ~,~ Will surface casing protect all zones reasonably expected to serve as an underground source of drinking water ..................... Is enough cement used to circulate on conductor and surface ......... Will cement tie in surface and intermediate or production strings ... Will cement cover all known productive horizons ..................... ~ .. Will all casing give adequate safety in collapse, tension and burst.. Is this well to be kicked off from an existing we!lbore ............. Is old weilbore abandonment procedure included on 10-403 ............ Is adequate wellbore separation proposed ............................ ~, Is a diverter system required ....................................... ~ Is the drilling fluid program schematic and list of equipment adequate ~ Are necessary diagrams and descriptions of diverter and BOPE attached. ,,,~ Does BOPE have sufficient pressure rating - Test to ~~ psig .. ~ Does the choke manifold comply w/API RP-53 (May 84) .................. ~. Is the presence of H2S gas probable ............................. ;... . (2~ t~r~ ~i) (6) Add: ~.~. Geology,. Engineering: DWJ ~ LCS BEW rev: 01/30/89 6.011. · For 30. 31. 32. exploratory and Stratigraphic wells: Are data presented on potential overpressure zones? ................. Are seismic analysis data presented on shallow gas zones ............ If an offshore loc., are survey results of seabed conditions presented // Additional requirements ............................................. ~. Additional ~emarks:' INITIAL GEO. UNIT I ON/OFF POOL CLASS STATUS AREA NO. SHORE ,, ,, , i, Well History File APPENDIX Information of detailed nature that is not particularly germane to the Well Permitting Process but is part of the history file. To improve the readability of the Well History file and to simplify finding information, information, of this nature is accumulated at the end of the file under APPENDIX. No special'effort has been made to chronologically organize this category of information. ,o COMPUTING CENTE~ * ****************************** COMPANY NAME : CONOCO INC. WELL NAME : ~ILNE POINT UNIT FIELD NA~E : SCHRADER BLUFF ~OROUGH : NORTH SLOPE STAT~ : API NUMBER : 50-029-22063 REFERENCE NO : 93101 MiCROFiLMED bis Tane Verlf.lcation [:.istin~ $cblumherqer Alaska Commuting Center ~-MA~-].993 09:~3 PAGE: **** REEf, HEA[)KR SERVICE NAME : EDIT DaTE : 91/03/17 ORIC!M : WL. IC REE[. NAME; : 7~116 CONTINUATION # CO,dENT : CONOCO, SCHRADFR BLUFF,MILME POINT UNIT H-], 50-029-2206] **** TAP~ NEADMR **** S~RVICE NA~E : EDIT D~TF : 91/03/17 O~IGiN : FLIC TAP~ ~}A~E : 74~16 CONvlNUATION ~ ~ ! pREVIOUS TAPE : CO~ENT : CONOCO, SCHRADER BLUFF,~IL~E POINT UNIT H-3, 50-029-2206~ **** rTI~E FII, E NA~E : EDIT .00i SERVICE : FLIC VERSION : O01A06 DATM ~ 91/03/17 ~AX REC SIZ~ ~ g197 FIL? TYPE : LAST ~ILE : ******************************************************************************* ** ** SCHLUMBERGER WEbb SERVICES ** ** COMPANY NAME: CONC)CO INC. WELLJ MI[.NF POINT UNIT H-3 F?EI, D: SCHRADER BLUFF BOROUGH: r~ORTH SbOPE S~AT~: AbASKA API NUMBER: LOCATION: 24?0' FN5 & 4036' FEL SECT'IO~.I: 34 TOWNSHIPI 13N RANGE: tOE P~R~NENT DATII~: ~$[, ELEVATION: 0 Fchlumberqer A]~aska Comoutlnc; Center 9-~AR-1993 09:33 bOG HEASURED FRO~ RKB 7~' ABOVF PERMANENT DATUM · ELEYATIONS KB: 72' DF: 70,5' R!!N NLIMBER: 10-OCT-1990 5630' 5630' GL: 37' C~SING: g 5/8" ~ DRI[,L~R DEPTH OF 2872' AND 5OGGER DEPTH OF 2871' TYPE FLUID IN HRLE: LSND DENSTTY: 9.4 PH: 9.5 VISCOSITY: 36 FLUID bOSS: 6.0 RESISTIVITY: FTLTRATE RESISTIVITY: CAKE ~ESIMTIVIT¥': 3.11 ~ 60 3.28 ~ 60 2.7t ~ 60 TIgF CIRC~LATION ~NDED: 04:~0 IO-OCW TTUF I,nGGER ON BOT'DOU: 08:55 ~0-OCT H~XIHIJH TE~P RECORDED: 88 I,O(]G I K)G DISTRICT: LOGGING F~IGINEER: DRUDHOE BAY SARBER MOUNTJOY/UbDRICH TO0!, NUMBERS: DIC-271 TC~-AB 509 CNC-H ORS-C 4908 AM~-AA 724 SGC-JC 3533 SGC-B 858 PIS-27b N$C-E 801 T B NLM-BC B~$-A 875 FIELD RE~,~ARKS: TOOLS RUN ~ITH 6, I 5" TEFLON FINNED STANDOFFS AND A ~.5" RUBBER HOLE FI~IDER. CNL T6OI,, RUN WITH A BOWSPRING. NEUTRON ;4ATRIX'- SAND; HOLE CORRECTION: CALIPER; DENSITY MATRIX: 2:65 G/CC; FILTRATE F)P3NSITY: 1,0 G/CC; DL, N$ITY CORRECTION: NONE~ NGT FIhTERINGm LSQ 4 TEFLON ST.~NDOFFS USED ON BGT TOOL STRING TO HELP CENTRALIZE IT. H05~] DEVIATION: 42.9 DEC., ~' ,,,~ T ~I R REMARKS: THE CHA~!NEL CI,~GT ON THIS LIBRARY TAPE DOES NOT EXACTLY ~ATCH THE SA~4E FIELD BLUELINE CURVE. IT WAS DETERMINED THAT THE FIEI, D PRINT C1 IS .15" GREATER THA~.', IT SHOU[,D BE. AKCC PHASOR PROCESSED ENHANCED RESOD~ITION DATA I6 ALSO INCLUDE ON THIS LIBRARY TAPE: .IOPH,PHS= UPGR.~DED PHASOR ILD RESISTIVITY IgER.PHS= EN}{ANCED RMSO[,~]TI[]N PHASOR I[~D RESISTIVITY I~VR.PHS= VERY ENHANCED RESOLUTION DHASOR IbP RESISTIVITY PAGE: i, IS Tane verification h~stJng ~chlu~berger Alaska Computing Center 9-MAR-1993 09:33 NGT DATA IS FILTERED USING I,EAST SQUARES METHOD DATE JOB STARTED: 16-MAR-g~ JOB REFRRFNCE NO: 74116 LDP/AN~: KOHRING/~RUWELL PAGE: FI[,F-. - EDIT.901 CONOCO INC. SCHRADER BLUFF ~4ILVE POINT UVIT 50-029-22063 I)TMILDTICNblNG'f ~A.IN PASS LOG DATA FROM FIELD FILE .005 BUT MAIN PASS LOG DATA FROM FIELD FILE .021 DATA SAMPLED EVERY -.5000 FEET DATA INCI~UDED TOO!, EXTENSION TOOL TYPE USKD N~ME DIT-E .DTE DIT-E ,PHS bDT ,bDT CNT-A/D/H .CNL NGT ,NGT BGT PHASOR DUAL INt)U~TION SFLG 5616' T[] 2872f ENHANCED PHASDR ROCESSIN. ILO 56~6' TO 2872' bITHO DENSITY 5604' TO 2872' CO,PENS~TED NEUTRON 5584' TO ~872~ NATURAL GANMA SPECTROSCOPY 5566' TO 2872' BOREHOLE GEOMETRY T005 5630' TO ~$7~' ****************************************************************************** ** DAT/.I FORMAT SPECIM!CATI(]N RECORD ** ** SET TYP~ - 64~ ** myp~ REP~ CODE VALUE i 66 0 2 66 0 3 7~ ~36 4 66 ~ 5 66 6 73 7 65 5IS Tape Verlflcatlon Llst{ng Schlumberqer Alaska ComDutinc; Center 9-MAR-1993 09:33 PAGE: ~ 68 n.5 9 65 WT 11 66 24 12 6~ 1] 66 0 14 65 FT 15 66 68 16 66 1 0 66 0 ** SET TYPE - CHAN ** ~,~E E V ~ P I F NUM~ NUMB SIZE REPR TI.) ORDER # LOG TYPE CLASS MOD NtJ~B SA~P ELE~ CODE D~P~ FT 54918b O0 000 O0 0 1 1 I 4 68 0000000000 IbM ILO DTE SD DT~ IDpH DTE I~PH DT~ I~R~ DTE IOOF DT~ I~QF D~ CIDP IIRD DTE IIXD D~ SGR DTE CGR TENS MTE~ ~RES HTEN DTE IDPW PHS IQER PHS IDV~ PHS DPHI LOT RMOB LOT D~HO LD~ PEF LOT bS LOT LU LOT LL LO? LITH LOT SSI bDT SS2 LDT (]HMN 549186 O0 000 00 OH~!U 5491~6 00 000 00 0 OHq~ 549186 00 000 00 0 14V 5491~6 O0 000 00 0 OHM~ 549186 O0 000 O0 0 OH~4 549186 O0 000 O0 0 HZ 549186 O0 000 O0 0 549186 O0 000 O0 0 549186 O0 000 00 0 MHHD 549186 O0 000 O0 0 M~HO 54.9186 O0 000 00 0 ~HO 549186 O0 000 00 0 ~HO 540186 00 000 00 0 H~HO 549186 O0 000 O0 0 GAPI 549186 O0 000 O0 0 GAPI 549186 O0 000 O0 0 LB 549186 O0 000 00 0 DEGF 549186 O0 OOO O0 0 OHMM 54~186 00 000 O0 0 LB 549186 O0 000 O0 0 OHM~ 549186 O0 000 O0 0 OH~ 549186 O0 000 O0 0 OH~ 549186 00 000 00 0 PU 5491~6 O0 000 O0 0 G/C3 5491~6 O0 000 O0 0 G/C3 549186 O0 000 O0 0 549186 OD 000 O0 0 549186 00 000 00 0 540196 O0 000 O0 0 CPS 549186 O0 000 O0 0 CPS 549186 O0 000 O0 0 CPS 549186 O0 000 O0 0 CPS 549186 O0 000 O0 0 CPS 549186 O0 000 O0 0 CPS 549186 00 O00 00 0 1 I 1 4 68 0000000000 I 1. 1 4 68 0000000000 I 1 ! 4 68 0000000000 1 1 I 4 68 0000000000 I I I 4 68 0000000000 ~ 1 ! 4 68 0000000000 1 I 1 4 68 0000000000 1 I 1 4 68 0000000000 1 1 1 4 68 0000000000 1 1 I 4 68 0000000000 1 I 1 4 68 0000000000 1 1 1 4 68 0000000000 1 1 1. 4 68 0000000000 1 I 1 4 68 0000000000 1 1 1 4 68 0000000000 1 ! I 4 68 0000000000 1 ! I 4 68 0000000000 1 1 1 4 68 0000000000 1 1 1 4 68 0000000000 1 ! I 4 68 0000000000 1 I 1 4 68 0000000000 1 1 ! 4 68 0000000000 1 1 1 4 68 0000000000 ! 1 1 4 68 0000000000 1 1 1 4 68 0000000000 I 1 I 4 68 0000000000 1 1 1 4 68 0000000000 1 I 1 4 68 0000000000 1 I 1 4 68 0000000000 1 1 1 4 68 0000000000 1 1 1 4 68 0000000000 1 1. 1 4 68 0000000000 1 ! 1 4 68 0000000000 1 1 1 4 68 0000000000 I 1 1 4 68 0000000000 bis Tape Vertfi. catlon Llst~nq $chlumberc.~er Alaska Computlnq Center 9-~AR-1993 09:33 PA~E: ......... ........ . ....................... . .... .......... ......... ..-.. ¥ LDT 549186 O0 000 O0 0 1 I ' 4 68 0000000000 S$~V LD? V 549186 O0 000 O0 0 1 ! 1 4 68 S1R~{ LDT G/C] 549186 O0 000 O0 0 1 1 1 4 68 LSRN ~DT G/C3 54~6 O0 000 O0 0 ~ 1 1 4 68 L!!~ LDT G/C3 549186 O0 000 O0 0 1 1 1 4 68 CALl [,DT IN 549186 O0 000 O0 0 1 1 ! 4 68 S~R LDT GAP'[ 549186 O0 000 O0 0 1 1 1 4 68 C~R LOT GAP! 549196 O0 000 OO 0 1 1 1 4 68 TENS LOT bB 549186 O0 000 O0 0 1 1 I 4 68 MTK~ LDT DKGF 549186 OO 000 00 0 1 1 1 4 68 ~E$ LOT []~ 549186 00 000 00 0 1 ! I 4 68 HTEN [,DT LB 549~_86 O0 000 O0 0 1 1 1 4 68 NPHT CNL PU 5491~6 O0 000 00 0 I 1 1 4 68 TNPH CNL PU 549186 00 000 O0 0 I 1 1 4 68 TNR~ CNL 549186 O0 000 O0 0 1 1 1 4 68 NPOD CNL PlJ 5491~6 O0 000 O0 0 1 1 1 4 6~ RCNT CNL CPS 549186 00 000 O0 0 1 1 1 4 68 RCF~ CNb CPS 549186 O0 000 O0 0 1 1 1 4 68 CNTC CNL CPS 549186 O0 000 O0 0 1 1 1 4 68 CFTC CNL CPS 549186 O0 000 O0 0 1 1 ! 4 68 S~R CMl, G~PI 549186 O0 000 O0 0 1 1 1 4 68 CGR CNL GAPI 549186 O0 000 O0 0 1 1 1 4 68 CALl CNL IN 5491~6 O0 000 O0 0 1 1 1 4 68 TENS CN!., b8 549186 O0 000 O0 0 1 1 ! 4 68 MRES CNL O~M~ 549186 O0 000 O0 0 I 1 1 4 68 ~TE~ CNL DEGF 549186 O0 000 O0 0 1 1 1 4 68 BTaM CNL LB 549186 O0 000 O0 0 1 ! 1 4 68 SGR NGT GAPI 549186 O0 000 00 O 1 I 1 4 68 CGR NGT GAPI 549186 O0 000 O0 0 1 1 1 4 68 TMO~ NGT PP~ 549186 O0 000 O0 0 1 1 1 4 68 POT~ NGT PU 549186 O0 000 00 0 1 I 1 4 68 URAN NGT P~ 549186 O0 000 O0 0 1 1. 1 4 68 WING NGT CPS 5491~6 O0 000 O0 0 I 1 ! 4 68 W~N~ NGT CPS 549186 O0 000 O0 0 1 ! 1 4 68 W3NG NGT CPS 549186 00 000 00 0 1 1 1 4 68 W~.N~ NG'? CPS 5491,86 00 000 00 0 1 1 1. 4 68 WSNG NGT CPS 549186 00 000 00 0 I 1 1 4 68 T~S NGT [.,B 549186 O0 000 O0 0 1 1 1 4 68 HTE~ NGT DEGF 54~186 00 000 00 0 1 I 1 4 68 MRES NG~ O~ 549186 O0 000 O0 0 I 1 1 4 68 CS WGT F/H~ 549186 00' 000 00 0 1 ! 1 4 68 HTEN NGT LB 549186 O0 000 O0 0 1 i 1 4 68 GP BGT G~PI 549186 O0 000 O0 0 1 ! 1 4 68 IHV BGT F3 549186 O0 000 O0 0 1 1 ! 4 68 ICV BGT F3 549186 O0 000 O0 0 I 1 1 4 68 C1 BGT IN 549186 O0 000 O0 0 1 1 1 4 68 C~ ~GT I~ 549l~6 O0 000 O0 0 1 1 1 4 68 TENS BGT LB 549186 00 000 O0 0 1 1 1 4 68 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 o000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 0000000000 LIS Tape ver~.ficat~on I.lsting Schlumberger AlasKa ComD.Jtlnq Center DFPT. 5680.500 SFLU.DTE SP,DTE -30,656 IOPH.DTE IDOF.DTE 3.000 I~OF.DTE IIRD.DTE 355.500 IIXD.DTE CG~.~T? 0,000 TENS,DTE HTE~,DTE -43,469 IDPH,PHS ODHT,LI')T 24.1~8 RHOB.LDT OL$.LDT 0.007 OSS.LDT LL.LDT 209.375 LITH,LDT LSHV.tDT 1412.000 SSHV.LDT 5URN.LDT 2.230 CALI.I,DT T~N$.L~T ~6]0.000 ~TEM,LDT NPHT.CNL 45.295 TNPH.CNL RCNT.CNL 24~B,941 RCFT.CNL SGR.C~L 0.000 CGR,CNL M~ES.CNL 1,963 MTE~,CNL CG~.NGT 26,80J THOR.NGT WlN~.NGT 363,2~8 W2NGoN~T WSNG.NGT 18.391 TENS.NGT CS.NGT ~735.000 HT~N.NGT ]CV,BGT -999.250 Ci.BGT DEPT. 5600.000 SFLU.DTE SP.DTE -38.438 IDPH.DTE IDQW.DTE 0.000 I~eF.DTE IT~D..DTE 268.000 IIXD.DTE CG~.DI~ 120.687 TENS DTE HTEN,DTE 996,000 IDPH:PHS DPHT.SDT 24.4~2 RHOB.LDT OLS,[~DT -0,007 OSS.LDT LL.[.DT 201.375 LITH,LDT LS}{v [,DT 1,413.000 SSHV LDT 5URH:LDT 2,240 CALI:LDT TENS.LDT 4090.000 ~TE~. LDT NP~!.C~L 39.949 TNPH.CNL RCNT,CNL 248@,941 RCFT CNL SG~,CNL 125,080 CGR:CNL MRES.CNI, 1,963 MT~M,C~L CG~.MGT 120.690 THOR,NGT W1NG,NGT 363.215 W2NG,NGT W5NG.NGT ~.8,391 TEN$.NGT C$,NGT 1735.000 NTEN,NGT IC¥.BGT 3,438 C~.BGT DEPT. T 5500.000 SFLU,DTE SP.~ E -27.344 IDPH,DTE IDQF,~TE 0,000 IMOF,DTE ITR~.D~E 2~0 875 IIXD,DTE CGR.D~ 55:696 TENS,DTE HTE~,DTE 900,O00 IDPH.PH$ DPHT.LDT 26,178 RHOB,LDT OLS.LDT -0.022 OSS.LDT L!,,.LDT 2~0.500 LITH.LDT 9-~AR-1993 09:33 2.443 2.355 I~PH,DTE 2,000 CIDP.DTE 47,719 IIRM,DTE ~630.000 ~TEM,DTE 2.425 IDER,PHS 2 252 DRHO,tDT 0:031 LS.,~DT g:ooo ~630.000 MTEM,NGT -43.500 GE,BeT -q99,250 C2,BGT . 3. 0, 39, 4090. 3. 2. 0, 115. 1315 89 ,37; 722. 120. 89 198 4090 996 9. 3 396 , 4, 2. 0 744 ILM,DTE 213 IMPH. DTE 000 CIDP:DTE 875 IIRM DTE 000 ~TEM:DTE 303 IDER.PHS 247 DRHO'LDT 024 LS,LDT 688 SSI.LDT 000 SIRH,LDT 113 SGR,bDT 938 MRES,LDT 69~ TNRA,CNL 214 CNTC.CN5 687 CAtI,-CNb 938 HT~N,CN5 676 POTA,NGT 851 W3NG,NGT 000 ~TE~.NGT 000 GR,BGT 203 C2,BGT 988 ILM,DTE !§~ IMPH.DTE 0 CIDP,DTE 969 IIRM,DTE OO0 MTEM,DTE 244 IDER,PHS 218 DRHO, D' 5DT 038 bS,b r 813 SSI,bDT 2,549 2,555 424,000 364,000 89,938 2,353 0.034 386.~50 2,375 212.125 0.000 1,963 3.223 2392 031 2 26O 74 71] 89 938 -999 ~50 -999 50 3,309 3,379 311,O00 82000 2891938 3 349 0 012 375 250 2O5 125 2:188 125 080 1 963 3 223 2397 13 996,000 2.834 74.713 89 938 o :75o 9,125 3 928 4 164 242 250 238 500 89 813 4.023 0.012 394.750 207.000 ILD.DTE IFRE,DTE CIMP.DTE SG~,DTE ~RES.DTE IDVR,PH$ PEF.LDT LU,I, DT SS2,LDT LSRH.LDT CGR.LDT HTEN.LDT NPOR,CNL CFTC,CNL TENS,CNL SGR.NGT URAN,NGT W4NG.NGT MRE$,NGT IHV.RGT TEN$.BGT XL, D.DTE IFRE DTE CI~P:DTE SGR.DTE ~RES,DTE PEF BT LU.LDT S$2,LDT SRH LDT LCG~:I.,DT HTEN bDT NPOR:CNL CFTC.CNL TENS,CNL SGR.NGT URAN,NGT W4NG.NGT MRES,N~T IHV,BGT TENS,BGT ILD'.DTE IFRR.,DTE CI~P,DTE SGR.DTE MRES.DTE IDVR,PH$ PEF.LDT LtJ,[,DT S$~,bDT PAGE: 2,287 20,000 391,250 0,000 1,963 2,348 2.375 354,000 311,000 2,217 0.000 -43,469 37,691 751,679 !630,000 125,080 1 120 28i736 1963 -999,250 -999,250 . 295 125, 348 303: 2, 120, 6 751. 0. 28. ~5 2875~ 4 240 93, 1, 368. 301, 221 000 750 080 963 329 055 000 000 234 687 000 691 692 000 080 589 736 963 055 000 125 000 000 962 995 122 8O5 5OO 5O0 LIS Tape Verif~.catlon bist. in~. SchlUmberger Alaska Computing Center LSHV.LDT 1412,000 $SHV,LDT LUR}~.[,DT ?.207 CA!.I,LDT TFNS,LDT 3965,000 ~TEM.LDT NmHY.CNL 39.345 TNPH,CNL RCNT.CNL 2208.495 RCFT,CNL SGR.CNL 03,962 CGR,CNL MRES,CNL 1.995 ~TE~,CNL CGW,NGT 38,318 THOR,NGT W1NG,NGT 3~4,366 W2NG,NGT WS~G.NGT 5,597 TEN$,NGT C$.NGT ~7]},000 MTEN,NGT !CV.BGT 20.95] C1.BGT DEPT. 5400,000 SFLU,DTE SP.DTE -~7,9~2 IDPH,DTE IDOF.DTE 0,000 I~OF,DTE IIRD.DT~ 272.750 IIXD.DTE CG~.DTE 72.410 TENS,~TE HTEN.DTE 8?8,500 IDPH,PH5 DPHI.LDT 19,556 ~HOB,LDT 0bS,LDT -0,009 OSS, LDT LL.LDT 171,750 LITH,bDT bSHV.LDT ~.413.000 SSHV,LDT LUR~,LDT 2 3~4 CALI.bDT TENS,bDT 3880]000 ~TE~,LDT NPHI.CNb 41.215 TNPH,CNL RCNT.CNb 2~9,57~ RCFT,CNL SG~ CN~, 90,824 CGR,CNL MRE$:CN~ 2,039 MT~M,CNL CGP.NGT 64,960 THOR.NGT WI~G.NGT 299,801 W2NG.NGT WSM~,NGT 8,964 TENS. NGT C$.NGT 1733,000 HTEN,NGT ICV,BGT 36,875 C1,BGT DEPT. 5~00,000 SF[,U,DTE SP.DTE 14,453 IDPM,DTE IOOF DT~ 0 000 I~OF..DTE IIRD~DTE 201:875 IIXD,DTE CG~ DTZ 7~,296 TEN$,DTE HTEN[DTE 854,500 iDPH,PH$ DPMI,LDT ~l 663 RHOB,LDT OLS,SDT -0~007 LL.LDT 1~2~625 blTH,LDT LSHV,LDT 14~3:000 SSHV,LDT LURH,I.,DT 2,293 CALI,LDT TE~S,I.,[)T 3855,000 ~TER,LDT NPHI,CNI., 38.358 TNPH.CNb RCNT,CNL 2291,290 RCFT.CNL SGR.CNL 9~,8~7 CGR,CN~ ~ES.CNb 2,006 ~TE~,CNL CGR.NGT 67,86~ TMOR,NGT W~N~,NGT 316,653 W2NG,NGT WSNG,NGT 7,968 TEN$,MGT CS,NGT 177~,000 HT~N.NGT 9-1~AR-:1993 09:33 1314,000 $1RH,bDT 8,914 SGR,LDT 89,813 39,5~3 TNRA,CNL 617,~ 5 CNTC,CN~ 55. 96 CALI,CN5 89,813 HTEN,CN5 4,039 POTA,NGT 123,134 W3NG,NGT 3965,000 ~TEM,NGT 900.000 GR,BGT ~,977 C2,BGT 2.936 ILM,DTE 3,O92 IMPH,DTE 0 000 CIDP,DTE 39:094 IIRM,DTE 3~80,000 MTEM,DTE 3.138 IDER,PH$ ~,327 DRMO,5DT O.01t LS,bDT ~0~,375 SS! 1315,000 S1RH:LDT 9 ~64 SGR bDT 89i688 39 857 TN~A,CNL 631 847 CNTC,CNL 72,410 CALX,CND 89,688 HTEN,CNL 6 928 POTA,NGT 1211514~ W3NG'NGT 3880 000 ~TEM,NGT 828 500 GR,BGT 8,977 C~,BGT 4,305 ILM,DT£ 4,285 'IMPH,DTE 0 000 CIDP,.DTE 23:172 IIR~,DTE 3855.000 ~TE~ 4,397 IDER:PHS 293 DRHO.LDT ~'009 b$,LDT 131 ,000 $~,RH,bDT 9,328 SGR,bDT 89,125 ~RES,LDT 39,619 TNRA,C~b 639,415 CNTC,CML 72 6 C~[,I,CNb 89:~5 HTE'N.CNb 8.575 POTA NGT 141,43.¢ W3NG:MGT 854,500 6R,BGT 2.156 93 962 . 1,995 3,323 2283.101 8,914 900,000 1.~39 66. 31 89.813 81.563 8.773 3.~33 3. 05 323 250 297:500 89.688 3.132 0.005 324.000 !96 875 2' .301 90.824 2.039 3 445 2~802187 9,164 828.500 2.42! 55,777 89,688 88.313 8.891 ~..,81 .~36 218'875 89.125 4..375 0,004 342,750 ~ 270 98,887 2°006 303 9.328 854,500 2.202 44.82! 89.125 84,500 LSRH,LDT CGR,LDT HTEN.LDT NPOR.CNL CFTC,CNL TEN$,CNL SGR,NGT URAN,NGT W4NG,NGT NRES,NGT IHV,BGT TENS,BGT IbD,DTE IFRE,DTE C!MP,DTE SGR,DTE MRE$,DTE IDVR,PH$ PEF.LDT bU,bQT 8$2,LDT LSRH,LDT CGR,LDT HTEN,[.DT MPOR.CML CFTC,CNL TENS,CNb SGR,NGT URAN,NGT W4N~,NGT MRE$,NGT IHV,BGT TEN$,BGT ILD DTE IFREiDTE CI~P DTE SGR DTE ~RE$,DTE IDVR,PHS PEF,[.,DT LU.LOT $$2,LDT bSRH,LDT CGR,LDT HTEN,LDT NPOR..CNL CFTC.CNL TENS,CNI, SGR,NGT URAN NGg' W4NG:NGT MRE$,NGT IHV'BGT PAGE: . 55, 900, 43, 687, 3965, 94, 7, 20, 1. 59, 2930, . 20. 321. 90, 2. 3, 2. 304, 291. 2. 7~ 828: 40 e 65~o 38~0, 91, 3, 8, 2. 101. 2795, . 298. 2 4 2 32O 296 2 72 854 644, 3855, 97, 3, 7, 2, 145, 205 696 000 003 812 000 621 411 522 995 281 000 074 000 750 824 039 110 727 5O0 000 320 410 500 657 137 000 9~0 605 964 039 93S 000 250 000 500 88'7 006 409 832 000 250 287 296 500 602 508 000 967 968 006 975 LIS Tane Verification [..isting Scblumberqer AlasKa Commutino Center ?CV.BGT 54,063 C1 .BGT DEPT. 5200,000 SF[,U.DTE SP.DTE -35,219 IDPH,DTE IDOF.DTE 0,OO0 ITRD.DTE 201 . ) 25 IIXD.DTE CG~.OTE b6.1~7 TENS, DTE HTEN. DT~ 941,000 IDPH,PHS DPHI.LDT ~4,876 0LS. ~.DT -0,0~5 OS5, LDT LL, [.DT 200.375 LITH,LDT LSHV. LDT ~ 4!3,000 SSWV,LDT b~;RP,LDT 2,230 CALI.LDT T~HS.LDT 3890,000 ~TEM,LDT NPHI,CNb 4],108 TNPH,CNL RCN~.CML ~077,5gl RCFT,CNL ~GR. CNL 83,7g6 CGR,CNL ~RES.CNI. 2,1~6 MTEM,CNL CG~,MGT 59,776 THOR,NGT WIN~.NGT 263,944 W~NG,HGT WbN~. MGT 3,984 TENS, NGT CS,NGT 1765,000 HTEN,NGT ICV. BGT 7 ~. 06~ CI , BGT DEPT, 5100.000 SFLU,DTE SP,DTE -52,094 IDPH,DTE IDOF.DTE 0,000 IIRD.DTE 124,1~5 II~D.DTE CGR.DTE 68.808 TENS.DTE HTE~. DTE 10 ]6,000 IDPH, PHS DPHI.LDT 14.876 RHOB.LDT Qb~,LDT 0,008 QS~LD~ LL,LDT 154,250 LIT . LD bSHV. bDT 14~ 3,000 SSH bDT LURH.bDT 2,395 CAt, I,LDT TEN~.LDT ]995,000 STEM,bDT N~HI.CNL 34,3]] TNPH,CNL RCNT CNb ~344,550 RCFT CNL SG~ ~CNb Og. 829 CG~ :CNb ~ES.CNL 2.270 MTEM:CNL CGR,NGT 59.133 THOR NGT ~ · W~ · W~NG NGT 325 697 .2NG,NGT WbN~ NGT 7'Q68 TENS NGT CS.NG~ 1761,000 HTEN NGT ICV, BGT 90. 500 CI: BGT D~PT. 5000,000 SFLU,DTE SP,DTE -65,688 IDPH.DTE IDOW,~TE 0.000 IMQF'DTE . i T ~ IRm,UT~: 157 6~5 IIXD,D 'E ICGR,DT}C 65,556 TENS., DTE HTE~,DTE 966,500 IDPH,PHS DPHI.LDT ~9,073 ~HOB,LDT ObS. bDT -0,005 QSS, bDT bL.LD~ 18~.500 blTf{,LDT 9-MAR-.!993 09 :.~3 8,844 C2,BGT 3,764 ILM,DTE 4,277 IMPH,DTE 0,000 CIDP,DTE 19,125 IIRM,DTE 3890,000 MTEM,DTE 4.336 IDFR,PHS 2,240 DRHO,bDT 0,012 LS,bDT 124,375 SSI,bDT 1315,000 S1RH,bDT 9.273 SGR,bDT 88,500 MRES,bDT 39,652 TNRA,CNb 544,666 CNTC,CNb 88,500 HTEM,CNb ,t 33 POTA,N~T 13 ,474 W3NG,NGT 3890,000 MTE~,NGT 941,0~0 GR.SGT 9,0 0 C2,BGT 6,5~0 7,1 9 0,000 5,137 3995,000 7 142 14o5 0 021 91i000 1315 000 9,375 87 875 35 344 720 657 68 808 6 I45 418 3995 000 1036 000 9,~11 5,426 5,477 0o000 14,922 391 ,ooo 5.552 2.335 0 ILM,DTE IMPH,DTE CIDP,DTE IIRM,DTE MTE~,DTE IDER,PHS DRHO,LDT LS,bDT SSi,bDT SlRH,bDT MGR,bDT MRES bDT TNRA CNL CNTC CALI CNL HTEN,CNL POTA,NGT W3NG,NGT ~TE~,NGT GR,BGT C2,BGT Ib~. DTE IMPH,DTE ClDP,DTE IlRM,DTE MTEM, D... E IDER PHS DRH~:bDT L$ bDT SSI:bDT 9.570 4.156 4.~23 233.625 225.500 88.500 4.327 0,005 377,500 201.500 2.213 83,796 ].i86 .558 1929.411 9 273 94! 000 2 287 45 817 88 5OO 74.250 9.367 140 625 337 625 87 875 7 13~ 0 O1 290 750 199 I25 2 320 99 829 2 270 3 087 1036.000 1.600 43.825 87,875 93.438 9.352 5.188 8. 375 50 85,454 0.,044 343.750 210.875 TENS,BGT ILb,DTE IFRE,DTE CI~P,DTE SGR,DTE MRES.DTE IDVR,PH$ PEF,LDT LU,LDT SS2,LDT bSRH,LDT CGR,LDT HTEN,LDT NPOR,CNL CFTC.CNL TENS.CNb SGR,NGT URAN,NGT W4NG,NGT MRES,NGT !MV,BGT TENS.RGT ILD.DTE IFRE.DTE CI~P.DTE SG~,DTE ~PES,DTE IDVR,PHS PEF,LDT LU,LDT SS2,bDT DSRH,LDT CGR,bDT HTEN,LDT NPOR,CNL TENS,CML SGR,NGT URAN,NGT W4MG,NGT MRES,NGT IHV.BGT TENS,~GT IbD, IFRF, CI~P, MRES, IDVR, bU. 552, DTE DTE DTE DTE bDT bDT bDT PAGE: 2720,000 4,227 20.000 236,625 R3,796 2,186 4.369 2,734 354,250 303,000 2,234 66,167 941,000 38.108 577 561 3890~000 86,226 3.309 5,976 2.186 191,6~5 2695,000 7,027 20,000 144,000 99,829 2,270 7.138 2:648 273 000 . 286,500 2,385 68,808 I036,000 36,295 749 662 3995 000 102 171 5 616 9 960 2 270 235,750 2620,000 5,426 20.000 194 125 89:221 2,307 5,441 2,46! 320,500 306,000 [,IS TaPe VertficatloD [,istin~ SchlUmberger Alaska Computing Center LSHV,LDT ]413,000 SSMV.LDT DURH,LDT 2.29l CALI.LDT TENS,LDT ]915.000 MTEM,LDT NPHI.CN[. 46.939 TNPH.CNL RCNT,C~!L 2!66 616 RCFT,CNL SGR.CNb ' 89~22! CGR,CML MRE$.CN~. 2.307 ~TE~.CNL CGP.~GT 66.395 THOR NGT W~N~.NGT 278,3]0 W2NG~NGT CS,~GT 1767,000 HTE NGT IC¥.BGT 109,438 C1.BGT DEPT. 4900,000 SFLU.DTE SP.DTE -61,031 IOPH, DTE IDOr. DTM 0,000 I~OF,DTE IIRD.DTE 209.2~0 II×D,DTE CG~,DTW 62,814 TEN$,DTE HTEN.D.~E 1044 000 IDPH., PHS DPHI ,I.,DT ~2,562 RHOB,LDT OLS, I.,DT '0,0~5 O$8, bDT L!,.bD~ J90.500 LITH.LDT hSHV.!..0T 1412.000 SSHV,I~OT LURH.LDT 2.258 CALI.LDT TENS.bDT a005,000 MTEM,LDT NPHI,CNL ~1.207 TNPH.C,NL RCNT,CNL 2303,193 RCFT.CNL SGP, CNb ~6. 278 CGR.CNL M~ES,CN]., 2.268 MTE~.CNL CG~,NGT 69.748 THOR,NGT W!NG,MGT 267,396 W2NG,NGT WLNC.,, NGT !0.934. TEMS.NGT C$,NGT 1766.000 HTEN,, NGT ICY. ~GT 127. 250 C1. BGT DEPT 4~00 009 SFL ~TE IIRD:D?~ 343.000 CG~,DTE 25,37~ TEN$.DTE HTEW.DTE 982.000 IDPH.PHS DPH!.bDT 30.986 RHOB.L~T OhS.bDT -O.Ol0 QSS.I, DT LL.LDT 247.000 LITH bDT LSHV.LoT !410.009 I,URa. LOT ~.133 CALI.LDT TEN$,b~T 3920,000 ~TEM,LDT NPHT,CNL 41,364 TN~H.CNL RCNT.CNI, 2595,596 RCFT.CMb MGm,CML 35,448 CGR CNb HRE$.CNL 2.373 MTEM:CNh CGR.NGT 26.84~ THOR.NGT W1NG.MGT !00.598 W2NG.NGT WLNG.NG~ 2.988 TENS.NGT CS.NGT 1766.0o0 HTEN.NGT 9-NAR-1993 09;33 1314,000 SIRH,bDT 9,359 SGR,LDT ~7,313 MRES.LDT s7~.7~9 c~?c.c~ ~5.55~ C~LZ.CN~ 87.313 HTEN,CNL O.419 POTA'NGT ~.~4~ w~G:~T 3915,000 966.500 GR,BGT 8,984 C2,BGT 4.2~0 IbM.DTE 4.1 4 IMPH.DTE 0 000 CIDP.DTE 3o:18~ 4005.000 MTEM.DTE 4,~5e ZDER,PHS 2.278 DRHO.LDT 0,04] LS,bDT 111,688 1314,000 SIRH,LDT 8 969 871000 MRES.bDT 40 859 TNRA,CML 607 90! CNTC.CMb 62 814 CALI,CNb 8~iO00 HTEN,C~b 1105 P~TA.NGT 132,207 W3NG.NGT 4005 000 ~TE~,NGT 1044:~0 GR,BGT 8. 1 C2,BGT 2 45 IL~.DTE O. . IIRM,DTE 3920 000 MTEM,DTE 2:432 2 139 DRHO,LDT 186 · 5 SSI,bDT 1315 0 S1RH,bDT 9.328 SGR,bDT 86,563 MRES,bDT 38 699 TNRA,CNL 725 8 CALl CNb 3 7 4 POT~.NGT 62.749 W3NG,NGT 3920.000 ~TEM.NGT 982,000 GR.BGT 2.180 89.221 ~.307 3.774 2167.612 9.359- 966.500 1.903 40,755 87,3t3 83,250 9.508 4.105 4,195 238,875 228.,~50 87.000 4,121 0 018 o:ooo 206.250 2,193 86.278 2,268 429 2218!246969 !044.000 ~ 947 44 732 87 000 89 000 9 156 2,350 2,346 415,000 394,000 86,563 2,381 0,004 456.000 35 448 2 373 3 467 2443:355 9,328 982.000 0.773 17.928 86,563 32,469 I.,SRH.LDT CGR.tDT HTEN,bDT ~POR.CNb CFTC,CNb TENS.CNL S~R.NGT URAN,NGT W4NG.NGT MRE$.NGT IHV.BGT TENS.BGT ILD.DTE IFRE.DTE Ci~P.DTE SG~,DTE MRES.DTK IDVR.PHS ~EF.LDT LU,LDT SS~,LDT LSRH,LDT CGR.bDT HTEN.LDT NPOR.CNL CFTC.CNL TENS.CNL SGR.NGT UPAN,NGT W4NG.NGT MRES NGT IHV:BGT TENS.BGT ILD DTE CI~P.DT~ SGR DTE MRES:DTE IDVR.PHS PEF.LDT bU.LDT $S~,LDT bSRM,LDT CG~,LDT HTEN,bDT NPOR.CNb CFTC.CNL TENS CNb URAN NGT ~ES NGT PAGE: . 65. 966, 46. 598. 3g~5. 87. 2, 6. 2. 281, 2605. 4. 20. 238. 86. 2 2. 338 295~ 2. 62. 1.044, 40, 651, 40O5 1 7: 2. 325, 2625, 2 425 35 2. 2, 2 418: 313. 2. 25 37, 744, 3920, 37. 1, 5. 370: 289 556 500 170 321 000 359 782 958 307 ~50 000 117 000 125 278 268 989 5~5 750 250 260 814 000 959 983 000 925 962 952 268 750 000 361 000 750 448 373 350 066 000 750 135 378 000 77 6 190 000 O95 976 373 75O bis Tane Verlficatlon LI. stJ. ng Schlumberger AlasKa Compute. no. Center ICV.RGT J45,375 C1,BGT DEPT. 4700.000 SFI,U.DTE SP,DTE -65,750 IDP}I.DTE IDQF.DT~ 0.000 I~QF.DTE IIR~.DTE 183.675 IIXD,DTE CGP.0TE 54.869 TEN$.DTE HTEN.DTE 1019,500 IDPH.PH$ DPH!,LDT 19.920 RHOB,LI)T OLS.LgT -0.006 OS$.LDT L!,.LD? 179,375 t, ITH.LDT LSHV.LDT 14~ ~,000 SS~V.LDT LUR~.LDT 2,303 CALI,LDT T~N$.LD? 3810.000 ~T~,LDT NPNT.CNL 43.~4 TNPN.CNL RCNT.CNL ~299,575 RCFT.CNL SGR.CNL 73,4~0 CGR.CNL ~ES.CNt, 2.439 ~TE~.C~L CGR,NGT 46.765 THOR.N~T W!N~.N~T ~30.0~0 W2UG,NGT WSN~.NGT 7,968 TEN$.NGT C$.NGT ~767.000 HTEN.NGT ICV.FGT 161,1~5 C1.BGT DMPT. 4600,000 SFLU.DTE Sm. DTE -66.563 IDmH,DTE IDOF.DTE 0.000 I~OF,DTE IIMD.DTF 194,625 IIXD.DTE CGR.DTE 57,523 TENS.DTE HTEN.DTE ~035,000 IDPH.PHS DPHI,LDT 25.802 RHOB.LDT 0bS,LOT -0 038 OSS,LDT LI,.LDT 213:875 LITH,LDT bSHV.LDT 1411.000 $SHV.LDT bUR~?,b{)T 2,188 CALI.LDT TMN$oLDT 3800,000 ~TE~.LDT NPHT,C~[i 45,731 TNPH,CNL PCNT.CNL 216~.263 RCFT.CNb SG~,CNL 75,~86 CGR,CNb M~ES.CML 2,S40 MTE~,CNL CGP.NGT 60,845 THOR.MGT WING,NGT 245,0?0 W2NG,NGT W5NG NGT 9 960 TENe NGT · . · · ~.) , C$.~CT ~797.00~ HT~.~CT '.[CV,~G? 176,250 CI.~T DEPT. 4500.000 SFI..,U.DTE SP.DTE -77,313 IDPH..D~E I90F.DTE 0.000 IMOF,DTE !IR~,DT~ 84.563 IIXD,DTE CG~.DTE 26.310 TEN$.DTE HTEN.DTE 977,000 IDPH.PH$ DPHI.LDT 33,34.8 RHOB.LDT ObS.LDT -0.010 OS$,LDT LT,,LDT 266,750 LITH.LDT 9-~AR-1993 09:33 8.945 C2'BGT 4.789 II,M,DTE 4.785 IMPH,DTE 0.000 CIDP.DTE 23.063 IIRM.DTE 3810.000 MTEM,OTE 4,8~2 IDER,PH$ ~.323 DRHO,LDT 0,024 bS.bDT !25,188 $$1'bDT 1~14,000 SlRH,LDT 8,906 SGR,LDT B5 250 ~RE$,LDT 38:330 TNRA.CNL 700.000 C TC.C L C .CNb 85, 6,616 POTA:NGT 123 506 W3NG.NGT 3810:000 ~TEM.NGT 1019 500 GR,BGT 8:938 C2,BGT 4.727 ILM.DTE 4.469 IMPM.DTE 0,000 CIDP.DTE 22 719 XI~M,DTE 3800i000 ~TE~.DTE 4 554 IDER.PH$ 2.224 DRHO,hDT ~!039 b$,bDT 13 375 SSI,4DT 1.314 000 S1RH,bDT 8.7~2 SGR,bDT 44: 5 TNRA,CML 5~i040 CNTC CNL 523 CALI:CNb 85 125 HTEN,CNL 8 748 POTA,NGT 115,538 W3NG,NGT 3800,000 ~T~M,NGT 1035.000 GR,BGT 8.883. C2,BGT 19.563 ' ILM,DTE 11,914 IMPH.DTE 0,000 CIDP,DTE 8 586 IIRM,DTE 36551000 ~TEM,DTE 12 073 IDER,PHS 2 100 DRHO..bDT 0 035 LS.L~T 195~750 SSI,bDT 9.102 5,160 5.086 208.875 182.250 85.250 5,004 0,018 33~.750 2O .750 2,238 73,430 439 ~'529 . 2~67.~8~ 8.906 1019,500 1,345 34.861 85.250 67.563 ~.64~ 4 410 4 480 223 625 212 75O 85 125 4 504 0 O28 4.250 2,11] 75,886 '840 ~ 658 . 2145.134 8,742 1035,000 1,715 44 821 7~,.000 ,641 13.313 14 125 83~875 71.188 85.063 14,547 0 006 4901750 709.125 TENS.BGT ILD.DTE IFRE,DTE CIMP.DTM SGR.DTE ~RE$.DTE IDVR,PH$ PEF,LDT LU.LDT $S2.LDT LSRH,bDT CGR,bDT HTEU,LDT CFTC,CNb TENS.CN!, SGR.NGT URA~,NGT W4NG.NGT MRES,MGT !MV,BGT TENS.BGT !LD.DTE IFRE.DTE CI~P,DTE SGR,DTE MRES,DTE IDVR..PH$ PEF.LDT bU.LDT $$2.LDT LSRM.LDT CGR,LDT HTEN.LDT NPOR.CNL CFTC,CNL TMNS.CNL SGR.NGT URAN,NGT W4NG.NGT ~RM$,NGT IMVBGT TENS:BGT ILD,DTE IFRE DTE SGR,DTE MRE$,DTE I~VR.PHS PEF,LDT L~:I.,DT SS PAGE: 10 2520,000 4,781 20.000 196,500 73,430 2,439 4.764 2,434 314,750 296,750 2.305 54.865 1019,500 39,484 6~9.567 3810,000 74.6~1 .3.616 7.968 2.439 41.3 250 2530~000 4,406 2O 000 223:000 75,886 2.840 4.471 2,457 381,000 308.750 2,195 57,523 1035,000 45,742 596,200 3800,000 73,999 1,726 8 964 :84o 455.000 2430.000 11.242 20,000 70,750 36 49 1.4.974 2,057 447.750 312,750 LIS Taoe Verification Listing 5chlumheraer Alaska Computing Center LSHV,LDT 1411.000 SSHV.LDT LUPH,LDT 2,092 CALI,LDT TrNS,LDT 3655,000 ~TE2.LDT NPH~.CNb 4],8~3 T}~PH,C.L RCNT.C~!, 2233.3~1 RCFT,CNL SG~.CML 36.149 CGR,CNt M~E$.C~b 2.791 ~TE~,CNL CGR,NGT 30,414 THOR,NGT W~N~.~YGT 1~3.546 W~NG.NGT WKNG.NGT 5,976 TENS,NGT C$.NGT 1709,O00 HTEN,NGT ICV.FGT 192.875 C1,BGT DEPT. 4400,000 SFLU.DTE SP.DT~ -59.563 IDPH.DTE IDO~.DTE 0,000 IMOF,~TE II~D.DTM 58.625 IIXD.DTE CGR.DTM 36.009 TENS.DTE HTEN.DTE ~083.00o ]DPH,PH$ DP}IT.LDT 32.426 RHOR.LDT OI, S. LDT 0. 007 OSS. LDT LL.LDT 257.250 LITH.LDT LSHV.LDT 1410,000 $SMV.LDT LURH.LDT ~.~2] CAI.,I.bDT T~NS.LOT 3715.000 ~TEM.LDT NPHT.CNL 43.8~0 TNPH.CNL RCNT.CML 2512.974 RCFT CNb SGR.CNL 4].070 CGR:CNL ~RES.CML 2,658 ~TEY.CNL CGR.NGT a6.735 TH~R,NGT WlNG.NGT 133.466 W2NG.NGT WLNC.NGT 4,980 TENS.MGT CS.NGT 180~,000 HTEN.NGT ICV.BGT 208.375 C~,BGT DFPT. 4300.000 SFLU.DTE SP,DTE -52.375 IDPH.DTE IDOF.DTE 0,000 I~QF.DTE IIRD.DTE !58,175 IIXD,DTE CGP. ....r_ 46 692 TCN$.,DTE HTEM,DTE 1021.500 IDPH,PHS DPH! bDT 32,643 RHOB. LDT OLSi[,DT -0,003 bt,. Lo'r ~57,500 bITH.LDT bSHV.LDT ~.410.000 $SHV,LDT bURH.LDT 2,115 CAI, I,LDT TENS.LDT 3605.000 ~TEH.LDT N~H].CNb 39.079 TMPH,CNL RCNT,CNL 2354,099 RCFT,CNL SGP.C~!., 57,[61 CGR.CNb MRES,C~5 2.31.1 ~TE~,CNL CG~.NGT 44.483 THOR,NGT Wl ~3~.~GT 191.617 W2NG,NGT W~NC.NG~ 3,992 TENS,NGT C$.NGT ].793.000 HTFN,NGT g-MAR-1993 09~33 1314.000 S1RH,LDT 10.117 8GR,bDT 85,06~ MRES,bDT 43,755 TNRA,CNL 55].827 CNTC,CNL 26.3~0 CALI,CNL 85.063 HTEN,CNb 4,311 POTA.NGT 62.749 W3NG,NGT 3655,000 MTEM,NGT 977,000 GR,SGT 9.422 C2,BGT ~ lg IMPH,DTE , O.000 CIDP.,DTE 4,758 IIRM,DTE 3715.000 MTEM.DTE 16.896 IDER,PHS ~.115 DRHO,LDT 0.016 LS bDT 182.500 SSI:bDT 1~14.000 SlRH,bDT 9.047 SGR,LDT 84 875 MRES,bDT 4]i943 TNRA,CNb 636 342 CNTC,CNb 36.009 CALI.CNb 84.875 HTEN,CNL 6 529 POTA,NGT 60[757 W3NG,NGT 3715 000 ~TE~,NGT 1083.000 GR,BGT 8,766 C2,BGT 5,359 IDM,DTE 5,523 IMPH,DTE 0.000 CIDP,DTE 17,555 IIR~,DTE 3605,000 MTE~'DTE 5.603 2 11! DRHO,LDT o:o27 168,875 SS~,LDT 1314,000 S1R ,LDT 8,547 SGR bDT 83 625 ~RE'S:bDT 39!558 TNRA.CMb 675 005 CNTC,CNL 692 CALI,CNL ~,625 HTEN,CNb 3,890 POTA.,NGT 77 844 W3NG,NGT 3605:000 MTE~,N¢;T 102t.500 GR,BGT 2.068 36,149 2.791 3.669 2164.188 10,117 977.000 0.R72 12.948 85.06) 38.500 9.922 16.578 18.234 59.781 57.250 84.875 19.84! -0.002 469.750 625 12] 43~,070 2 658 3 578 2293 166 9 047 1083 000 1 364 24 90O 84 875 49 969 8:563 5 324 181.000 176,625 $o 7 0 00! 472i750 205 5OO ~ 105 57,16~ 2,311 3,279 2309,350 8,547 1021,500 1,866 29.940 83,625 51.406 LSRH,LDT CGR.LDT HTEN,LDT ~POR,CNL CFTC.CNL T~NS,CNL SGR,NGT URAN,NGT W4NG,MGT MRES,NGT IHV.BGT TEMS,BGT Ib~,DTE IFR..DTE CIMP,DTE SGR,DTE 1DVR,PHS PEF.LDT LU,LDT SS2 bDT LSRH:LDT CGR.LDT HTEN LDT NPOR]CNL CFTC.CNL TEN$,CNL SGR,NGT URAN,NGT W4NG.NGT ~RES,NGT IHV.BGT T~N$,BGT Ib~ DTE ClMP.DTE SGR.DTE MRE$ DTE IDVR:PHS PEF,LDT bU,bDT SS2,LDT LSRH bDT CGR:LDT HTEN,LDT NPOR,CNL CFTC.CNL TEN$,CNL SGR,NGT URAN.NGT W4NG,NGT ~RE$ NGT ~HV:BGT PAGE: 11 2.092 26.310 977,000 44,162 596,134 3655,000 36,463 0,999 0.000 2,79l 498,500 2405,000 15.578 20,000 54,813 43,070 2,658 21,748 2,166 424,750 311 500 36,009 1083.000 41 446 637i554 3715 000 43,877 -0.259 ,988 ,658 540,500 2385.000 5 453 o2ooo 185,750 57,161 2,311 5,536 2.250 430,250 309,500 2.109 46692 1021.:500 40,502 699,321 3605,000 5~,842 1,549 3.992 2,311 583,000 ?ape Verification $chlUmberqer AlasKa Computino Center ICV'. BGT 22.4. 000 Cl . BGT DEPT. 4200.000 SFLU.DTE SP.DTE -38.625 IOPH.DTE IOQV.OTE 0.000 IMOF.DTE IIRD.DTE 143.750 IIXD.DTE CGR.DTF 76.134 TENS.DTE HTEN.DTE 1029.()00 IDPH,PHS DPHI.LDT ?5.884 OhS.bDT -0.030 OS$.LDT LL.[,DT 207.$75 LITH.LDT LS}IV.LDT 1409.000 $SHV LDT . 5URH.LDT 2.207 CALI,LDT T~N$.LOT 3525.000 ~TE~.LDT N~HT.CN[. 51.202 TNPH.CNL RCNT.CN[. 197~ 469 RCFT.CNL SG~.CNb 104~442 CGR.CNL ~E$.CNL ~.285 ~TEM CNb CGR.NGT 69.253 THOR:NGT W~N~.NGT 348.606 W2NG.NGT WSNG.NGT 7.968 TEN$.NGT C$.NGT !800.000 HTEN.NGT ICV.~GT 238.625 CI.BGT DEPT. 4100.000 SFLU DTE SP.DTE -41.063 IDPH:DTE HTEN,DTE 1.007.500 IDPH,PHS DPHI,bDT ~6,8]0 RHOB.LDT QLS,LDT -0,008 QS$,LDT bL,LDT 214,250 LITH,DDT bSHV, bDT 1410.000 SS}IV,bDT LURR.L~? 2,207 CAbI,LDT TENS,bDT 3450°000 ~TEM.LDT NPHI .CNL 48.349 TNPH.CNb RCNT.CNL 2055.670 RCFT.C~[~ SGR.CNL 93.71.2 CGR.CNb gRES.CNb 2.340 MTEM CNL CGR.NGT 76.045 THOR:NGT W1NC.NGT 3~9.721 W2NG.NGT WSNG.NGT 10.956 TE~$.NGT CS.~GT 1806.000 HTEN NGT TCV.BGT 25g.~75 CI:BGT D~PT. 4000.000 SFLtJ.DTE SP.DTE -47.500 IDPH.DTE IDOF.DT~ 0.000 IMOF.DTE IIRD.DTE 153.500 IIXD.DTE CG~.DT~ 30.163 TENS.DTE HTE~. DT}C IO24 000 IDPH. PHS DPHI .[,DT 27: 764 RHOB. LDT OLS.LDT 0.008 aSS bDT bL,LDT 2!7.500 [,,ITH: BDT 9-~AR-1993 09:33 8.672 C2.BGT 5.207 ILM.DTE 6.145 IMPH..DTE 0.000 CIDP.DTE ~.250 IIRM-.DTE 3525.000 ~TE~.DTE 6.~23 IDER,PHS 2,223 DRHO.LDT 0.022 kS,bDT 124.950 SSI.bDT 1314.000 S1RH.LDT 9.000 SGR.LOT 82.500 MRES,LDT 47.519 TNRA.CNb 134 CALI.CNL 82.5on H?EN.CN5 8 318 POTA,N~T 1~i382 W3NG.,GT 35. 000 ~TEM.NGT 10~9.000 GR,BGT 8.625 C2,BGT 4.770 6.367 0.000 9 703 3450:000 6.421 2.207 0.011 138,500 1314,000 9 148 44. 8 74 3 81 5 131 474 3450 o00 1.007 500 8,703 5,262 5 551 o:ooo 4.008 3480.000 5,595 2,192 0:012 1.18 563 ILMDTE IgPH.:DTE CIDP.D?~ IIRM.DTE MTE~,DTE IDER,PH$ DRNO,bDT L$,bDT SSI,bDT $1"H.bDT SGR.bDT MRES,bDT TNRA.CNb CNTC.CNL CALI.CNB HTEN CNb POTA:NGT W3NG.NGT ~TEM.NGT GR BGT IL~.DTE IMPH.OTE CIDP.DTE IIRM.DTE MTEM.DTE IDER,PHS DRHO,bDT LS bDT SSI:bDT 9.695 5'859 5.859 162.6~5 160.750 82.500 5.954 0,011 .391.,750 205.875 2.285 3.977 1801.47~ 9.000 1029,000 2.353 57.769 82.500 89.438 8.656 6 109 6!043 157 000 154.250 81..375 6 169 0 002 398 250 201 125 2 199 93 712 ~ 4O 0.036 19691148 1007 500 2 065 48 805 81:375 .750 7 .'266 49~4 5i141 180 000 191,125 80,750 5.111 -0.005 400 250 197:875 TENS.FGT ILD.DTE IFRF.DTE CI~P.DTE SGR.DTE MRES..DTE IDVR.PHS PEF.LDT LU.LDT SS2.LDT LSRH bDT CGR:LDT HTEN.LDT ~!POR.CNL CF~C.CNb TENS.CNb SGR.NGT URAM.MGT W4~G NGT IHV.BGT TMNS.BGT ILD.DTE IFRE.DTE CIMP.DTE SGR DTE IDVR.PHS PEF.LDT DT SS~ OT LSRH.LDT CG~.LDT HTEN.LDT CFTC NL TENS,CNb SGR.NGT URAN.NGT W4NG.NGT MRES.~GT IHV.FGT TMNS.BGT ILD.DTE IFRM.DTE CINP.DTE SGR.DTE MRE$.DTE IDVR.PH5 PEF.LDT LU bDT PAGE: 2250, 0 20. 170, 104. 2. 5. 2, 367, 306. 2. 76, 1029. 47, 472. 3525, 101, 4. 10, 2. 624. 2245. 0 165. 93 6 2. 368. 304: 2, 74. 1007. 44. 539 3450i 2 666 ~175: . 2O 194: 37, 2, 5, 2, 365, 299, 000 063 000 5OO 442 285 877 775 750 25O 211 134 000 408 380 000 175 651 956 2~5 000 000 285 000 375 712 340 064 447 000 25O 205 189 50O 085 O00 O55 424 976 34O 5OO 000 422 000 375 712 469 169 393 5OO 750 12 'IS Tape verification LlstJnq 9-~AR-1993 09:33 5ch]umberqer ~,!aska Computln~ (:enter LSHV.LDT 1409.000 SSUV.SDT 1314,000 $1RH.hDT LURN.LDT 2.211 ChI, I.I,DT 9.414 SGR.LOT TE~$.%OT 34~0.0o0 ~TEH.LDT 80.750 MRES.SDT N~H!,CNI, 47.341 TNPH.CNL 40.671 TNRA.CNL PCNT.CNL 227~.051 RCFT.CNb 617,181 CNTC,CNG SG~.C~L 37.712 CGR.CNL 30,163 CALI,CNb ~PES.CNL 2.469 ~TEM,CNL ~0,750 HTEN,CN5 CGR.NGT 40.~6~ THOR.NGT 4.452 POTA.NGT W~NC.NGT 139.28~ W2MG,NGT 50.696 W3NG.NGT WSN~.NGT 5.964 TE~S.NGT 3480.000 MT£M.NGT CS.NGT 1808.000 HTEM.NgT 1024.000 GR,BGT 7C¥,BGT 271,750 CI.BGT 9.570 C2,BGT DEPT 3~O0.O00 SFLU.DTE SP:DTE 44.375 !DPH.DTE IDQ~.DT~ 0.000 IMOF.DTE IIRD.OT~ 98,875 IIXD.DTE CG~,DTE 50,999 TENS,DTE HTEN.DT~ 1079,000 [DPH.PH$ DPHI.LDT 23 472 RHOB,LDT OL$.LD? 0:000 OSS.LDT LL.LDT 197.875 LITH.LDT 5$HV.SDT 1408.000 SSHV,LDT bURH.LD? 2.256 CALI.LDT TFNS.LDT 3530.U00 ~TE~I.LDT NPH? CNL 40 33~ TND~.CNL RcNT[c~L 2540:369 RCFT,CNL SG~,CNL 66,908 CGR,CNL CGR.NGT 54.395 THOR.NGT W ! NC. NG7 21 3,147 W2NG, NGT WSN~,NGT 2.988 TEM$,NGT CS.NG? ~834.o00 ~TEN. NGT ICV.BGT ~90,500 C1.BGT D~PT. 3~00.000 SFLU,DTE SP.DTE -62.063 IDPH.DTE IDQF.DTE 0,000 IMOF.DTE IIRD.nTE ~1.250 IIXD.DTE CGP.DTE 44.637 TEN$.DTE HTEN.DTE 1.060,000 IDPH.PHS DPMI.LDT 33.954 RHOB bDT OLS.I,,OT -0.0~0 QSS~LDT LURH,LD· 2,104 CALI,LDT TFM$.I,DT 33~0.000 gTEM,LDT NPHI.CNL 37.557 TNPH,C~L RCNT,CNL 2590,311 RCFT,CNL SS~.C~I., 51.0~8 CGR CNL ~PE$,C~b 2,561 ~T~M~CNL CGR,MGT 47,895 TH'OR,NGT W~NG.NGT 143.162 W2NG.NGT W5N~.NGT 2.1~7 TEN$.NGT CS.NGT 1835.000 ffTEN.NGT 5.949 g,281 0,000 6.039 3530,000 9,366 2,263 0.02~ 131,625 1314.000 9 305 80 313 38 435 697 ,871 50 999 8O 313 4.327 103,586 3530.000 1079.000 9,086 9.555 9.953 ,000 .008 3310.000 9,980 2,090 0.000 170 875 1314:000 38,05~ 746.345 44 637 4.757 82,265 33~0.000 1060.000 IL~,DTE IMPH,DTE CIDP,DTE IIRM,DTE MTEM,DTE IDER,PH$ DRHO,LDT LS,bDT $$1.bDT S~RH,bDT S~R,bDT MRM$'LDT TNRA,CNL CNTC,CNL CAbI,CNb MTEN'CNL POTA,N~T W3NG,NGT MTEM,NGT GR.,BGT C2,BGT ILM, 'IMPH, CIDP IIRM: ~TEM, IDER* DRHO. b$. SS1, $1RH, SGR, MRES, TNRA, CNTC, CALI, HTEN. POTA, W3NG, ~TE~. DTE DTE DTE DTE DTE PHS LDT bDT bDT bDT bDT bDT CNb C~b CNL NGT NGT NGT BGT 2.217 3.527 2125.417 9,414 1024.000 1.456 21.869 80 750 41~875 10.$36 8 107.688 103.375 80.~13 8. 97 0.011 368.000 ~03,500 2,~09 6.908 3 409 2566 848 9 305 1079 000 52 80 9 055 9.453 9.664 O0 375 Ioo:o6 79.125 10,052 4.2. O0 3.750 192,195 .028 5!,561 214 2456:619 ~.773 1060,000 35.25~ 79.125 58.625 bSRH.LDT CGR.bDT HTEN.LDT NPOR.CNL CFTC.C~b TEN$.CNL SGR.NGT URAN.NGT W4NG.NGT ~RES.MGT IHV.BGT TENS.BGT ILD.DTE IFRE.DTE CIMP DTE ~RES.DTE IDVR.PH$ PEF.[.,DT LU.LDT SS2.LOT bSRH,LDT CGR.LDT HTEN,LDT NPOR.CNb CFTC,CNL TENS.CNL SGR.NGT URAN NGT W4NG~NGT MRE$,NGT IHV.BGT TEMS.BGT PAGE: 13 2,195 30.163 1.024,000 39,448 623.253 3480,000 42,6~2 0.346 0,994 2,469 710,500 2155.000 9.039 20.000 114.188 66.908 2 518 7:873 2.256 340 000 3OO 5OO 2 252 50 999 1079 000 40 72O 786 005 3530 000 66.845 1.540 6.972 756:500 2085.000 9.727 20,000 103.438 2 561 o:o o 2.342 439,250 '303 500 2!109 44 637 t060 000 37 472 3310.000 52 168 o:6 a 6,410 2,561 800,000 5IS Tape Ver!.f~catIor~ bistinq Schlumberger Alaska Computin~ Center TCV,BGT 307,750 DEPT, 3700,000 SP.DTE -63,188 IDOF,DTE 0.000 !!R~.OTE 105.125 CGo,OTE 46,241 HTE~.DT~ 1053,000 DPHI.[.DT 33,334 OLS.LDT -0,006 L[~.LDT 258,000 LSH¥.LDT TFN$,LDT 3450,000 NPgI.CN[. 40.479 RCNT.CNL ~54~.689 SGP.CNL 52,B69 MRES.CNb 2.555 CG~,NGT 51,]27 WI~G.NGT 157.37! WSNG.NGT 5.976 C$,NGT 1834 000 ICV,BGT 323:250 D~PT. 3600,000 SP,DTE -46.500 IOOF,DTE 0,000 CG~,DTF 60,690 HTEN.DTE 1.0!5 000 OI.,$.LDT -0,02~ LSHV,LDT ~408 0PO N,HI.CNL 49,935 RCMT.CNL 1964,7~3 SGR.CNL 76,576 ~ES.C!~L 2,58~ CG~.NGT 60.690 W1. N~.N(;T 244.024 WSNG,NGT 6,972 cs ooo IcV[sG,r 3411ooo DEPT., 3500,00.0 SP,DTE -73,563 ID0~,DTE 0,000 IIRD,DTF 94,063 CG~.DTE 52.~58 HTEN,DTE i028,000 DPHI,LDT 34,359 OhS,bDT -0,007 LL,LDT 27!,250 C1,BGT SFI:U. DTE !DPH.DTE IMOF.DTE IIXD,DTE TENS,DTE IDPH,PHS RHO~3, bl~T OS$.LDT LIT}{, LDT SSHV,LDT CA[,I, bDT MTEM,bDT TNP~, CML RCFT.CNL CGR.CML M'['~M. CNb THoRiNGT W2NG,NGT TENS,NGT HTF. N, MGT C J. BGT SF [.,U, DTE IDPH,OTE I.~OF, DTE IIXD.DTE TENS, DTE IDPH,PHS RHOB,LDT O$S, bDT bITH,LDT SSHV, LDT CALI, bDT ~TE~, Lg'r TNPH, CNL RCFT CNL CGR:CNb MTMM C~b THOR; NGT W2NG, NGT TENS, ~GT HTE~ N _~ Cl :BGT SFLU, DTE IDPH, DTE I~4OF,DTE IIXD,DTE TENS,DTE IDPH PHS RHOB: LDT O. SS, bDT LITH, bDT 9-~AR-~993 09:33 8.633 C2,BGT 8.6~8 ILM,DTE 8.820 IMPH.,DTE 0,000 CIDP,DTE 7,965 IIR~,DTE 3450,000 ~TE~,DTE 8.912 XDER,PHS 2.100 DRHO,LDT 0,~0 L$,bDT 1314,000 S1RH,bDT 10.078 SGR,bDT 77,938 MRES-,LDT 40.368 TNRA,CNb 679,619 CNTC,CNL 46,241 CALI,CNL 77,938 HTEN,CNb 5,78] POTA,NGT 74,701 W3N~,NGT 3450,000 MTEM,NGT 1053,000 GR,BGT 9,547 C2,BGT 5,648 ILM,OTE 7,605 IMPH. OTE 0,000 CIDP:DTE 7,965 IIRM,DTE 3340,000 MTEM,DTE 7,649 I'DER,PHS 2,1.30 DRHO,LDT 0,021. I,,$,bDT 154,500 'SSI,bDT 1.313,000 8IRH,LDT ~:805 SGR,bOT o6.7 7 CNTC.C b0,620 CALI,CMb 78,625 HTEN,CNL 8,689 POTA,NGT 12~,486 W3NG NGT .ooo 101.5,000 GR BGT 9,109 C2:BGT 9,969 IbM,DTE 9,672 IMPH,.DTE 0,000 CIDP..,DTE 5,090 IIRM,DTE 3205,000 MTEM..DTE 9,705 IDER,PHS 2,0~3 DRHO.,LDT O.0 4 LS,bDT 197,750 SSI,bDT 8.891 8.508 8,742 1.13.250 111.063 77,938 8,852 0.012 4~4.250 198.375 2,160 52,869 555 '480 , 2462,942 10.078 1051,000 1,824 37,849 77,938 oo 5 '~06 , 7 ~48 131.375 128 500 7..358 0.000 455,000 ~04.000 1977 292 18o5 1015,000 1,720 4~,829 78.625 70875 8~656 8 906 103,313 106.188 78,063 9,655 4~0,001 8,750 205,375 TENS,BGT ILD,DTE IFRE,DTE CX~P,DTE SGR.DTE NRES.DTE IDVR.PHS PEF.LDT LU,LDT $S2,LDT LSRH,LDT CGR,LDT HTKN,bDT NPOR,CNL CFTC,CNb TENS,CNb SGR,NGT URAN.NGT W4NGoNGT MRES.,NGT IHV.BGT TENS,BGT ILD,DTE IFRE DTE Ci~PiDTE SGR.DTE ~RE$,DTE IDVR,PHS PEF,LDT IjU.LDT SS2,LDT LSRH,LDT CGR,bDT HTEN,bDT NPOR,CNL CFTC,CNL TEN$,CNL SGR,NGT URAN,NGT W4NG,NGT MRES,NGT IHV,BGT TENS,BGT ILD,DTE IFRE DTE CIMP:DTE SGR,DTE MRE$,DTE IDVR,PH$ PEF,bDT LU,LD? S$~,LDT PAGE: 2090,00 8,57 20,00 114,31 52.86 2,55 8,99 2,15 432,50 310,50 2,11 46,24 105~.00 4:62 720,09 3450,00 57,05 0,65 2,98 2,55 842,50 2080.00 7,46 20.00 137,50 7~:57 58 7.2! .2.53 420.50 309.00 2,12 60,62 1015,00 51,99 503,87 3340,00 7,96 2.58 887.00 1970,00 9 44 o:oo 108,43 69 99 2:50 9,75 2,38 454,75 312,25 14 LiS Tape Verification Llstina Schlumberger Alaska Computing Center LSHV'. I:DT 1407.009 SSHV.LDT LURH,LDT 2.UR4 CALI,LDT T~NS. LDT 3205. 000 ~TE~. LDT N~M~,CNI, 4~, 29(., TNPH,CNL RCNT.CNL 2 ~ 46,697 RC~T.CNL SG~. CNL 69. 990 CGR, CN5 M~ES. CNL 2. 500 MTEM, CNb CCW.NGT 44.5~9 THOR, NGT W1NC.NGT 2~0.1~0 W2MG,NG'r CS. MGT 1 835,000 HTEN. aGT ICV.BGT 359.250 C1 .BGT DEPT. ~()0.000 SFLU,DTE Sm. DTE 90.750 IDPM,DTE ID0W.DTE 0.000 !~QF.DTE IIRD,DTE ~0.750 IIXD.DTE CG~.DTE 41.968 TEMS.DTE HTEM.DTM 996.500 IDPH,PNS DPM~.I, DT 34,052 RNOB.LDT ObS. bDT -0,006 ~SS. bDT b[,.b~T 263,250 LITH.bDT LSMV.LDT 1408,000 SSHV.LDT b~R~, t,,QT ~, 100 CAI, I, [,DT TE~S,LDT 3005,000 ~TEM,LDT NPHI,CNL a0.6~5 TUPH.CNL RCMT.CNL ~2o4,696 RCFT,CNL gGP.CNL 51,232 CGR,CNL ~NES.CNL 2,770 MTEM,CNb CGR.NGT 39.303 THOR,NGT W1NG,NGT 168,000 W2NG.NGT WSNG,NGT 4,000 TENS,NGT CS NGT 1835 000 MT~::N.hGr [CV.BGT 380 ~ 500 C1 .BGT D~PT. 3300,000 SFLU.DTE SP,DTP -89.4~ IOPH,DTE IOO~'. DT~ O,O00 I~,iOF,DTE IIRD,DTE ~5,375 IIXD.DTE CG~.DTE 60,571 TENS DTE HTEN,DT~ 1017,500 DPH7.I,DT 32 795 RHOB LDT 4ov.ooo SSHV.U T LU~W,LDT 2.096 CALI.,LDT TFNS,LDT ~0i5,000 ~TEM,LDT ~Pg~,C~L 47,409 TNPH,Cgb RCNT,CNL 1.948,27~ RCFT,CNL SGR.CNL ~2. 148 CGR,CNb CS.NGT 1844.000 ~TEN.NGT 9-~AR-~[993 09:33 i313,000 S1RH.BDT 9.~3 SGR.DDT 78. 3 MRE$,bDT 45,477 TNRA.CNb 528,565 CNTC,CNL 52.258 CALI,CNL 78,063 HTEN.CNL 5.318 POTA,NGT 108.566 W3NG,NGT 3205,000 MTEM,NGT 1028.000 GR,BGT 9,71! C2,8~T 10.~]3 ILM,D?E 13. 3 I~PH.DTE 0 000 CIDP.D,E 3!711 II~,DTE 3005 000 ~TE~,DTE 13 152 IDER.,PH$ 2 088 DRHO.LDT 0:005 L$,hDT 190 000 SSI,GDT 1313:000 S1RH.bDT 12.117 SGR,bDT 76.063 ~RES,bDT 40 153 TNRA.CNb 595:384 CNTC,CNb 41,968 CALI .CNL 76,063 HTEN:CNL 4 600 POTA,NGT 70:0~0 W3NG,NGT 3005.000 MTEM,NGT 996 500 GR.,BGT ~0~922 C2,0GT 8.~25 I:L~.,DTE 10, 58 I~PH,DTE O 000 CIDP,DTE 3i852000 MTEMIIRM'OTEoTE 759 IDER,PHS 2 ).99 DRHO,LDT 0 0'35 bS ~,74 1.25 ..SS1,SDT 1~13 000 SlRH.bDT 8,930 SGR,6DT 75,938 MRES'bDT 45 113 TNRA,CN5 c TC.C 60 71 CALI,CN5 75 ~38 HTEN,CNL 6,288 POTA,NGT 140 000 W3NG,NGT 3015!000 ~TEg,NGT 101~ ~00 GR,BGT 2.090 69.990 2.500 3 672 9.883 1028.000 1.520 41.833 78,063 73.250 9.266 1~.266 1 .508 76.125 77.i88 76'063 12.939 -0.012 484,250 19~. 8 232 3 577 2170.148 12.117 996.500 1.365 36,000 76 063 47!438 10 445 9,867 10.016 92.875 95,875 75,938 10.392 0.012 484...500 212.250 2.049 .148 3 765 ~909.953 8 930 1012 500 000 75,938 63.438 LSRH. CG~, }ITEM. NPOR. CFTC, TENS. SGR. URA~. W4NG. ~RES. IHV. TENS. ILD. IFRE. CI~P. MRFS, IDVR, PEF. LU. SS2, LSRH. HTEN: NPOR, CFTC, TENS, SGR, URAN. w4~G. MRES. IHV. TENS, II.,O IPRE! CIMP SGR, MRES. IDVR. PEF SS2. bSRH. CGR, HTEN. NPnR CFTC: TENS, SGR. URAN. W4NG. MRES, IHV, bDT bDT bDT CNL CNL CNL NGT NGT NGT NGT BGT BGT DTE DTF DTE DTF DTE PHS bDT bDT bDT BDT L DT LDT CN L CNb CNL NGT MGT NGT NGT BGT BGT DT E DTE DTE DTE DTE PHS 6DT BDT bDT bDT bDT bDT CNb CNb CN t, NGT NGT NGT NGT BGT PAGE: 15 2,084 52.258 1028.000 45,845 557 791 3205:000 67.622 3.364 8,964 2.500 932.000 1865.000 12,664 20.000 79.875 51.232 2.770 1.2,854 2.06! 441 500 309:750 2,100 41,968 996,500 41 267 3005.000 51.816 1 614 3:000 2 770 gB0:000 1915.000 1.0453 o:ooo 99,813 82.148 2.678 o:oo 2.412 444,750 317,000 2,096 60.571 1,012.500 4.6.117 521,321 3015,000 76,@41 2 566 l°io0o 2 678 1035 000 'IS ?e~e Verificat~on L~.stinq 5ch].umberqer Al. asks Compute. hq Center ICV.BGT 409.250 C'I.GGT DKPT. 3200.000 S?I,U.bTE SD,DTE -81.1P8 IDDH.DTE IDQF.DTE 0.000 I~QF.DTE ITRD.DTE 98.6?5 II×D.DTE CG~.DTE 57.215 TENS.DTE HTE~.DTE 1051,000 IDPi. I.PHS DPHI.LDT 30,536 RHOB.LDT OL$.LDT 0,000 QS$,LDT Lb. LDT 243.~75 LITH. LDT LSHV.LDT 1406.000 SSHV,LDT LURH.LDT ~.146 C~LI.LDT TENS.bDT 3040.000 MTEM.LDT NPHI.CNL 44,665 TNPH,CN!, RCNT,CN[. ~933,1~1 ~CFT.CNL SGP.CNL ~0.591 CGR.CNb ~!RES,CNL 2.406 ~TEM CNL CGR.~GT 57,374 THOR~NGT WI~C.NGT 2~0.439 W2~G,NGT WbNG,NGT 14,O70 TENS,NGT CS.NGT 1869.000 HTEN.NGT ICV.BGT 428,500 C1,BGT DEPT. 3100,000 SFLU.DTR SP.DT~ -85.31.3 IDPH.DT E I~OF.DTE 0,000 IIRD,DTE 76,750 II~D.DTE · ~L 44.026 TEN~ DTE HT~ 0T~ 9~9.50,) DPH~ [!,DT 38.365 R~tOB ~ I.,DT ot.,s, t, OT -0.010 OSS. hOT bL.LDT 305,750 LITH.hDT LSHV,bDT 14~7,000 SSHV,LDT LURH,LDT 2.012 CALI,LDT TENS.bDT 28~5.000 ~TEM,LDT NPHI.CML 45.23! TNPH.CNb RCNT.CNL ~101,547 RCFT.CNb gGP,CNI., 52.163 CGR,CNb NRES,CNL 2,559 MTEM,Cb!L CG~.NGT 52,494 ~HOR,NGT W~N~.~+ 145,6~0 W2NG,NGT W5N~.I'~GT 6,424 T~MS, NGT C$,NGT 1871,000 HT~N NGT I. CV,BGT 458,250 CI:BGT DEPT. 3000.,...~o00 SFLU',p~ SD,DTE -~7,~3 IDPH.DTE IDQF,DTM 0,000 I~QF,DTE . r -'~ IIRD.DTE 67 250 IIXD,_)TE Cg~ogr 42 2.45 TEN$,DTE HTEN.DTE 1015,000 IDPH,PHS DP}.i?,!...DT 41,371 ObS. bDT. 0.002 QSS..bDT L~..LDT 330,500 LIT~{,LDT 9-MAR-1993 09:33 9.469 C2,BGT 7,500 IbM,I)TE 9.180 IMPH,DTE 0,000 CIDP,OTE '2 266 IIR~.DTE 3040:O00 ,TEM.DTE ~.157 IDER,PHS 2.146 DRHO.bDT 0.017 tS,bDT 160.500 S$1,hOT 1313,000 SlRH,bDT 8,9i4 SGR,LDT 75.688 ~RES,bDT 43,869 TNRA,CNb 5~,497 CNTC,CNL 57.215 C~LI,CNL 75,68~ HT~N,CNL 9,326 POTA,MGT ~21 756 W3NG,NGT 3040[000 ~TE~,N~T 1051.000 ~R.BGT ~.641 C2,B~T 10.617 12.109 0.000 ,445 281 ,000 12 069 0 031 221!375 1313 000 9 098 75 375 4.3 976 533 770 44 026 75 375 7 ~8 94 218 2~15 000 939,500 9,414 11 273 0 0 0 0.764 2855.000 13.750 I , 967 0 1 IL~,DTE IMPH,DTE CIDP,DTE IIR~,DTE MTEM,D?E IDER,PHS DRHO,bDT hS,f, DT SS~,LDT SlRH,bDT SGR,DDT MRES,LDT TNRA CNb C TC:C CAbI,CNb HTEN,CNb POTA,NGT W3NG'NGT MTEM,NGT GR,BGT C2,BGT IbM,DTE IMPH,DTE CIDP,DTE IIRM,DTE MTEM,DTE IDER,PHS DRHO,bDT L$,LDT SSI,bDT 9.008 0.273 8 461 114.188 75,688 9.158 0,005 447,500 206.375 ~.119 80 591 2 406 3 613 1900 731 8 914 105~ 000 31.036 75,688 76,000 8.922 11.273 82. 84,000 75,37'5 lg.538 .002 563 500 2.004 52,163 ~046:'~78 9'898 939.,~00 ~. 85 38,544 75,375 39 875 12,734 13.164 72.750 74 375 74:750 14 537 . -0,005 607,000 208.500 TENS,RGT IGD.DTE IFRE,DTE CI~P,DTE SGR.DTE NRES,DTE IDVR.PH$ ~EF,LDT LU.LDT SS2,LDT LSRH,LDT CGR.LDT HTEM,bDT NPOR,CNL CFTC,CNL TENS,CWL SGR,NGT URAN,NGT W4NG.NGT MRES,NGT IH¥,BGT TENS,BGT ~bD.DTE IFRF.DTE CI~P,DTE SGR,DTE MRES.DTE IDVR,PHS PEF.LDT bU,bgT SS2,LDT LSRH,LDT CGR.LDT HTEN.bDT NPOR.CNb CFTC.CNI., TENS,CNb SGR,NGT URAN,NGT W4NG NGT ~RES:NGT IHVBGT TEMS:BGT If, D,DTE IFRE.DTE CI~P,DTE SG~,DTE ~RES.DTE IDVR PHS P~F:bDT LU.LDT SS2.LDT 2790,000 8.992 20.000 118.063 80 592 2:406 9.373 2,451 408.000 313,500 2.141 57.215 !051,000 45.001 529,983 3040,000 79,028 2,749 5.988 2.406 1081,000 ~795.000 11,641 20,000 86,750 63 . 12,742 2,004 516.000 321,500 2,014 4~,026 939 500 44i630 562 995 2815 000 55.074 0i467 5 353 2 559 I 8.000 13,250 20,000 75,875 58,547 2.451 15.509 1,922 553 500 2s: 5o ~6 LIS Tame Verfffcatl. on bistf, ng $chlumberoer AlasKa Comput!.nq Center LSHV'.LDT 1406.000 bURg.bDT 1.975 TFNS,LO~ 2855,000 NPHT.CNI, 52,111 RC~,CN!, 19q5.111 SG~.CNI, 58.547 MPE$,CNL ~,451 CGP.NGT 41.547 W1NG.NGT ~97,00~ WL~.NGT 7,495 CS.NGT ~88~.000 IC¥,BGT 4P3.500 DEPT, 2900.000 SP.DTE -78.000 IDOW.DTE 0.o00 IIRD.DT~ ~.750 CG~.DTE 58,778 HTEN,DTE ~007.500 DPHI,I, DT 29,174 OLS,LDT 5L.LD~ 22~.500 LSHV,LDT 1408,000 LURH.LD? ~,150 T~NS.LD~ 2785,000 NDHT.CNL 45.~79 RC~T,CNL !977,053 SGR,C~!., 80,547 ~ES,CNI, CG~,NGT 54,643 ~IN~,NGT 261,000 WLNG,~GT CS,NGT ICV,BGT 506,000 DEPT. 2925.000 SP,DTE -5,770 IDQF,DTE 0.000 I~,DT~ 77,31~ CG~.DTF 30,013 HT~.DTE 1018.500 DP~I.LDT 55,647 OhS.bDT 0.092 LL.LDT 136,875 LSHV,[,DT 1410,000 LURH.LDT 2.465 T~N$.LDT 2779,000 NPHI.CNI~ 54,94-7 RCN~,CNL 1237,879 SG~.CNI, 40,220 ~RES.CN5 2,4~4 CG~.,NGT -999,~50 Wl~G,~GT '999,?K0 WLN~.~GT -999,250 CS.~GT -999.250 SSHV, CALl. MTEM, TNPg, RCFT. CGR, ~T~, THOR, w2~g, TENS. NTEN, Cl. S FI, II, IDPH. IIXD, TENS, IDPH, RHOB, OSS. LITH. SSHV, CALl. MTEM, TNPH, RCFT. CGR, THOR TENS, HTEN S F b U IDPH: !~OF, IIXD, TENS I DPH RHOB SSH¥, Cll. I. ~TEM. TNPH RCFT~ THOR TE~S, HTE~. [,PT bDT bDT CN b CNL NGT NC, T NGT M GT BGT DTE DTE DTE DTE DTE L, DT LDT bDT bDT LDT bDT CNL CNL CNL CNL NGT NGT NGT NGT BGT 0 T E DTE DTE DTE DTE PHS LDT bDT bDT l, D T bDT bDT C N b CN L CNt, CNL N GT NGT NGT NGT 9-~AR-1,993 09:33 1313,000 9,547 74,750 49,143 506.450 42,~45 74,750 6,000 73,876 2855,000 1015,000 ~,914 9 445 101414 0.000 5,902 10, 9 2.169 0,025 ~33.750 ~314,000 9,~50 72,000 47 58 578 72 000 6 g32 116 000 2785 000 1007 500 8,41.4 0 0,000 -411,250 2770 000 1,732 ~0.1 2 1,000 1314.000 8,773 55 6 BO 755 230 013 73.31.3 -999.250 -999,250 -999 ~50 -999~250 S1RH,LDT SGR.bDT ~RES,LDT TNRA,CN5 CNTC,CNL CALI,CN5 HTEN,CNb POTA.NGT W3NG,NGT MTEM,NGT GR.BGT C2,BGT IL~,DTE IMPM,DTE CIDP DTE IIR~DTE MT£~,DTE IDER,PH$ DRHO.bDT bS.bDT SSI,bDT S1RH.bDT SGR,bDT MRES,LDT TNRA.CNL CMTC.CNb CALI.CNL HT£N. CNL POTA:N~T W3NG,NGT MTEM NGT C2,BGT Ia DTE CIDP,DTE IIR~,DTE ~TEMDTE IDER:PHS DRHO,LDT L$,bDT SSI,bDT S1RH.LDT SGR bDT MRES:bDT TNRA.CNL CNTC,CNL CALI,CNb HTE~.CNb POTA.NGT W3NG,NGT ~TE~.NGT GR,BGT 1.992 8.547 52.451 4,072 1995.114 9,547 1015.000 1.165 37.473 74.750 49,688 8.969 9.539 9.898 96.000 99.125 72 000 ~0:423 0.012 43! 25O o9: so 2.107 80,547 2,9~4 3,682 1876.600 1007. 1.,.766 36,000 oooo .938 9.719 0 000 85.000 - o :soo 3313 70!453 ~0 688 259,750 74 188 40,220 2.484 4 163 1219'497 8:773 1018.500 -999 250 -999~250 -999,250 -999,250 LSRH.I,DT CGR.bDT HTEN.LDT NPOP.CNI, CFTC,C~b TENS.CNL SGR,NGT URAN,NGT W4NG.NGT MRES,NGT IHV,BGT TE~S,BGT lbD.DTE IFRE.DTE CIMP.DTE SGR.DTE MRES,DTE IDVR.PHS PEF.bDT LU.LDT S$2,LDT LSRH.LDT CGR.LDT HTEN,LOT NPOR,CNL CFTC,CNL TENS,CN5 SGR.NGT URAN,NGT W4NG,NGT ~RES,NGT IMV.BGT TENS,BGT ILD. DTE IFRE!0TE CI'~P DTE SGR,DTE MRES.DTE IDYR.PHS DEF.LDT I.U.LDT SS~ LDT LSRH~LDT CGR.LDT HTEN,LDT NPOR,CNL CFTC,CNL TENS.CNL SGR.,NGT URAN,NGT W4NG,NGT ~RES.NGT IHV,BGT PAGE: 1.972 42,245 1015,000 51.302 507,172 2855,000 54,529 1,968 5.353 2.451 1190.000 1720.000 10.008 20.000 100.938 80,547 2.924 !0.605 2.887 405,500 313 500 58,778 1.007,500 46,980 489.942 2785,000 79 7~5 3:306 6.000 ~.924 1239.000 1620,000 20,. 0 -387,000 40.220 2,484 10.964 17,469 245,750 136 375 30.013 1018.500 56 954 288~199 ~770,000 -999,250 -999 250 '999~250 -999,250 -999,250 17 LIS Ta~e VerificatiOn l.,istJ, na $c~l. umberger Alaska Computfno Center , ICY, }~GT -999,250 C1 ,BGT ** ~ND OF DA~A 9-~AR-[gg3 09:33 -g99,250 C2,SGT -999.250 TENS.BGT PAGE -999.250 **** FILE TRAILER FILK ~A~E : KDIT .001 SERVICE : FblC V~R$ION : O01A06 DAT~ : ~AX R~C SIZE : FIL~ TYPE : I~ST FILE **** TAPE TRAILER **** SEXY/CE NA~E J EDIT DaTF : 91/0]/~7 TaP? NA~E : 74116 CONTINLI~TI{]N # : ! P~Ev!~us T~DE ~ CO~ENT : CONOCO, SCHRADER BLUFF,~!LNE POINT UNIT H-3, 50-029-22063 **** REEL TRAILER SERVICE NA,~E ~ EDIT DATE : 91/03/1.7 O~tGIN : FLIC REEL NA~E : 74116 CONTINUATTON # PREVIOUS REEL : CUqgENT : CONOCO, SCHRAPER BLUFF,MILNE POINT UNIT H-3, 50-029-22063