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HomeMy WebLinkAbout222-1051. Operations Susp Well Insp Plug Perforations Fracture Stimulate Pull Tubing Operations shutdown Performed: Install Whipstock Perforate Other Stimulate Alter Casing Change Approved Program Mod Artificial Lift Perforate New Pool Repair Well Coiled Tubing Ops Other: acid Stimulate Development Exploratory Stratigraphic Service 6. API Number: 7. Property Designation (Lease Number): 8. Well Name and Number: 9. Logs (List logs and submit electronic data per 20AAC25.071): 10. Field/Pool(s): 11. Present Well Condition Summary: Total Depth measured 11155'feet None feet true vertical 10099' feet None feet Effective Depth measured 11155'feet 9542', 9582'feet true vertical 10099' feet 8467', 8508' feet Perforation depth Measured depth True Vertical depth Tubing (size, grade, measured and true vertical depth) 4-1/2" L-80 9593' MD 8518' TVD Packers and SSSV (type, measured and true vertical depth) 9542' MD 9582' MD N/A 8467' TVD 8508' TVD N/A 12. Stimulation or cement squeeze summary: Intervals treated (measured): Treatment descriptions including volumes used and final pressure: N/A 13a. Prior to well operation: Subsequent to operation: 13b. Pools active after work: 15. Well Class after work: Daily Report of Well Operations Exploratory Development Service Stratigraphic Copies of Logs and Surveys Run 16. Well Status after work: Oil Gas WDSPL Electronic Fracture Stimulation Data GSTOR GINJ SUSP SPLUG Sundry Number or N/A if C.O. Exempt: Authorized Name and Digital Signature with Date: Contact Name: Contact Email: Authorized Title:Contact Phone: 2377' 2376' Burst Collapse Production Liner 9740' 1568' Casing 8700' 4-1/2" 9775' 11150' 10075' 2340' 114'Conductor Surface Intermediate 16" 9-5/8" 76' measured TVD 7" STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION REPORT OF SUNDRY WELL OPERATIONS 222-105 50-103-20357-01-00 P.O. Box 100360 Anchorage, AK 99510 3. Address: ConocoPhillips Alaska, Inc. N/A 5. Permit to Drill Number:2. Operator Name 4. Well Class Before Work: ADL0025559 Colville River Field/ Undefined WDSP CRU CD1-33A Plugs Junk measured Length measured true vertical Packer Representative Daily Average Production or Injection Data Casing Pressure Tubing Pressure 14. Attachments (required per 20 AAC 25.070, 25.071, & 25.283) ~ Gas-Mcf MD ~ Size 114' ~~~ INJECTOR ~~ ~ 325-132 Sr Pet Eng: Sr Pet Geo: Sr Res Eng: WINJ WAG ~ Water-BblOil-Bbl 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. N/A Packer: TNT Packer Packer: ZXHD Liner Top Packer SSSV: None Steve Drake (907) 263-4062Senior Well interventions Engineer 10314-10990' 9239-9915' Form 10-404 Revised 10/2022 Due Within 30 days of Operations Submit in PDF format to aogcc.permitting@alaska.gov Steven G Drake Digitally signed by Steven G Drake Date: 2025.05.22 14:16:26 -08'00' By Grace Christianson at 2:36 pm, May 22, 2025 VTL 6/30/2025 DSR-6/3/25 DTTMSTART JOBTYP SUMMARYOPS 3/6/2025 REPAIR WELL RIG UP. MU MOTOR & MILL BHA. WAIT ON SLB CREW CHANGE. RUN MOTOR W/ 3.69" JUNK MILL. CLEANOUT WITH SSW AND GEL SWEEPS FROM 10,000' TO HARD TAG AT 10,999' CTMD. FREEZE PROTECT TUBING TO 3000'. 3/7/2025 REPAIR WELL RIG DOWN. RETURN WELL TO OPERATIONS. JOB COMPLETE. 4/22/2025 MAINTAIN WELL CTU #14 AND CREW TRAVEL FROM DEADHORSE TO ALPINE. JOB IN PROGRESS. 4/23/2025 MAINTAIN WELL RIG UP CTU#14, PERFORM INITIAL BOP TEST. TAG FILL AT 10,406' CTMD. CLEAN DOWN TO 11,014' CTMD. POOH MAINTAINING 1 FOR 1 RETURNS. FP COIL AND WELL WITH DIESEL FROM 2,000' TO SURFACE. RIH WITH MEMORY CCL / GAMMA TO MIDNIGHT DEPTH OF 6,970' CTMD. JOB IN PROGRESS. 4/24/2025 MAINTAIN WELL CONTINUE TO RIH. LOG CCL / GAMMA FROM 10,900' TO 9,200' CTMD. PAINT FLAG FOR TIE IN @ 10,800' CTMD. RAN PAST FLAG, PU TO FLAG @ 10800' CTMD, CORRECT DEPTH TO MID ELEMENT @ 10803'. RIH TO 10836', PU TO SET TEST PACKER @ 10835'. PUMP STAGES 1, 2 AND 3 OF MUD ACID PER DESIGN. FP AND FLUSH COIL WITH DIESEL. POOH. JOB IN PROGRESS. INJECTION TEST WITH SLICK SEAWATER PRE ACID STIM: .5 BPM, WHP 2704, IA 841, OA 235 1 BPM, WHP 2859, IA 831, OA 235 1.5 BPM, WHP 2917, IA 852, OA 235. 2 BPM, WHP 2981, IA 910, OA 234 2.5 BPM, WHP 3031, IA 925, OA 222 3 BPM, WHP 3061, IA 925, OA 200. 4/25/2025 MAINTAIN WELL RIH WITH RBP AND SET MID ELEMENT AT 10,835' CTMD. RIH SET INVERTED TEST PACKER @ 10710', PUMP STAGES 1, 2 AND 3 OF MUD ACID PER DESIGN FROM STAGE 2. FREEZE PROTECT COIL POOH, RIH WITH RBP AND SET MID ELEMENT @ 10,710'. POOH TO MIDNIGHT DEPTH OF 6,400'. - JOB IN PROGRESS. 4/26/2025 MAINTAIN WELL CONTINUE TO POOH. STACK DOWN AND REPLACE PACKOFFS. STACK UP, AND RIH WITH TEST PACKER TO 10,500', DROPPED ACID AND COMPLETED STAGE 3 STIMULATION INTO PERF ZONE 10,600'- 10,700'. FREEZE PROTECTED COIL. OOH LAY DOWN TEST PACKER, RECOVERED PACKER @ 10,710 FEET, PUL PACKER AT 10,835' & PUH TO MIDNIGHT DEPTH OF 4,440'. JOB IN PROGRESS. 4/27/2025 MAINTAIN WELL CONTINUE TO POOH WITH PIIP PACKER. STEP RATE INJECTION TEST WITH SLICK SEAWATER. FP TUBING WITH 35 BBLS DIESEL. RD CTU#14. JOB COMPLETE 5/4/2025 ACQUIRE DATA BRUSH & GAUGED TBG W/ 3.59'' TO TAG @ 10994' RKB (EST. 4' OF RAT HOLE / ALL PERFS OPEN). JOB COMPLETE. 5/5/2025 ACQUIRE DATA EPA WITNESSED (EVAN OSBORN & SEDREK KOVAR) MIT-IA (PASSED TO 4200 PSI). CD1-33A Acid Stimulation Summary of Operations Last Tag Annotation Depth (ftKB)Wellbore End Date Last Mod By Last Tag: RKB 11,014.0 CD1-33A 4/24/2025 kleinpd Last Rev Reason Annotation Wellbore End Date Last Mod By Rev Reason: Post FCO Tag CD1-33A 2/26/2025 oberr Casing Strings Csg Des OD (in)ID (in)Top (ftKB) Set Depth (ftKB) Set Depth (TVD) (ftKB)Wt/Len (lb/ft)Grade Top Thread CONDUCTOR Insulated 42" 16 15.06 38.0 114.0 114.062.58 H-40 WELDED SURFACE 9 5/8 8.92 36.8 2,376.7 2,375.7 36.00 J-55 BTC-MOD Intermediate 7 6.28 35.7 9,775.2 8,700.5 29.00 L-80 7 Liner 4 1/2 3.96 9,582.3 11,150.0 10,075.3 12.60 L-80 H563 Tubing Strings: "String Max Nominal OD" is the OD of the LONGEST segment in string Top (ftKB) 33.5 Set Depth… 9,593.0 Set Depth… 8,518.3 String Max No… 4 1/2 Tubing Description Tubing – Completion Upper Wt (lb/ft) 12.60 Grade L-80 Top Connection Hyd563 ID (in) 3.96 Completion Details: excludes tubing, pup, space out, thread, RKB... Top (ftKB) Top (TVD) (ftKB) Top Incl (°)Item Des OD Nominal (in)Com Make Model Nominal ID (in) 33.5 33.5 0.00 Hanger 4.500 Tubing Pup Joint, 4-1/2", 12.6#, L- 80, Hyd 563 Gen 5 FMC3.910 1,162.4 1,161.5 0.41 Nipple 4.500 HES 3.813" X Nipple, 4-1/2", 12.6#, L-80, Hyd 563 HES 4698986 -7 3.813 1,263.8 1,262.9 0.35 Mandrel 4.500 4-1/2"x1" Vanoil KBG 4-5 GLM 12.6#, L-80, Hyd 563 SLMB 23288- 19 3.865 9,445.6 8,371.0 0.31 Gauge / Pump Sensor 4.500 SLB Quartz DHG + Mandrel, 4-1/2", 12.6#, L-80, Hyd 563 SLB 3.920 9,541.8 8,467.1 0.13 TNT Packer 6.280 7" x 4-1/2" TNT Packer (102791176) VamTop HES 4672727 3.876 9,562.5 8,487.8 0.20 No-go nipple 4.500 Camco 3.75" DB Nipple (3.785" LockNoGo) SLMB - CAMCO WO- 8120-4 3.750 9,584.4 8,509.8 0.27 Mechanical collar locator 5.180 Locating Sub No Go BAKER NSAK- SO-22- 1245 3.850 9,584.8 8,510.1 0.27 Wireline guide 3.870 WLEG Shear type Locator BAKER NSAK- SO-22- 1245 3.870 9,586.6 8,512.0 0.28 Profile nipple 4.500 Premium THD Tubing Nipple, 4-1/2", 12.6#, L-80, Hyd 563 BAKER 1345620 6 3.958 9,589.7 8,515.0 0.29 Mule Shoe 4.200 HES Indexing Mule Shoe HES INDEXI NG 3.958 Mandrel Inserts : excludes pulled inserts Top (ftKB) Top (TVD) (ftKB) Top Incl (°) St ati on No /S Serv Valve Type Latch Type OD (in) TRO Run (psi)Run Date Com Make Model Port Size (in) 1,263.8 1,262.9 0.35 1 DMY BK 111/25/2022 Liner Details: Excludes Liner, Pup, Joints, casing, float, sub, shoe... Top (ftKB) Top (TVD) (ftKB) Top Incl (°)Item Des OD Nominal (in)Com Make Model Nominal ID (in) 9,582.3 8,507.7 0.26 Packer 7.000 Liner Top Packer,ZXHD, w/10' Seal Bore Extension ZXHD BAKER 4.151 9,608.0 8,533.3 0.35 crossover bushing 5.000 Crossover Bushing 5" VTHT Box x 4-1/2" Hyd563 pin XO 3.830 11,019.8 9,945.1 0.21 Collar - Landing 4.500 Baker Type 1 Landing Collar, 4- 1/2" Hyd 563 BAKER BAKER 3.875 Perforations & Slots Top (ftKB)Btm (ftKB) Top (TVD) (ftKB) Btm (TVD) (ftKB)Linked Zone Date Shot Dens (shots/ft)Type Com 10,314.0 10,324.0 9,239.3 9,249.3 10/30/2024 6.0 APERF 10' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,331.0 10,344.0 9,256.3 9,269.3 10/30/2024 6.0 APERF 13' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,354.0 10,363.0 9,279.3 9,288.3 10/29/2024 6.0 APERF 9' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,379.0 10,406.0 9,304.3 9,331.3 10/29/2024 6.0 APERF 27' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,418.010,444.09,343.39,369.310/28/2024 6.0 APERF 26' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,467.0 10,484.0 9,392.3 9,409.3 10/27/2024 6.0 APERF 17' GUNS, 17' 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,600.010,700.09,525.39,625.311/29/2022 6.0 APERF 20' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,720.0 10,800.0 9,645.3 9,725.3 11/28/2022 6.0 APERF 20' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,870.0 10,990.0 9,795.3 9,915.3 11/28/2022 6.0 APERF 20' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING CD1-33A, 5/19/2025 9:09:36 AM Vertical schematic (actual) Liner; 9,582.3-11,150.0 APERF; 10,870.0-10,990.0 APERF; 10,720.0-10,800.0 APERF; 10,600.0-10,700.0 APERF; 10,467.0-10,484.0 APERF; 10,418.0-10,444.0 APERF; 10,379.0-10,406.0 Production String 1 Cement; 9,582.0 ftKB APERF; 10,354.0-10,363.0 APERF; 10,331.0-10,344.0 APERF; 10,314.0-10,324.0 Intermediate; 35.7-9,775.2 Profile nipple; 9,586.6 No-go nipple; 9,562.5 TNT Packer; 9,541.7 Intermediate String 1 Cement; 6,481.0 ftKB Stage Cementing; 2,555.0 ftKB PRODUCTION; 34.5-7,878.3 SURFACE; 36.8-2,376.7 Cement Plug; 2,060.0 ftKB Mandrel; 1,263.8 Nipple; 1,162.4 CONDUCTOR Insulated 42"; 38.0-114.0 Hanger; 33.5 WNS DISP KB-Grd (ft) 39.10 RR Date 1/5/2001 Other Elev… CD1-33A ... TD Act Btm (ftKB) 11,155.0 Well Attributes Field Name ALPINE Wellbore API/UWI 501032035701 Wellbore Status DISP Max Angle & MD Incl (°) 38.41 MD (ftKB) 6,788.12 WELLNAME WELLBORE Annotation End DateH2S (ppm)DateComment Cement Squeezes Top (ftKB)Btm (ftKB) Top (TVD) (ftKB) Btm (TVD) (ftKB)Des Com Pump Start Date 2,555.0 4,540.0 2,551.8 4,309.0 Stage Cementing Pump 32.1 bbls of 11.0 ppg mud push Pump 165.7 bbls of 11.0 cement cip @ 01:08 hrs 11/8/2022 6,481.0 9,789.0 5,838.6 8,714.3 Intermediate String 1 Cement Pump 40.3 bbls of 12 ppg Mud Push Pump 132.7 bbls of 13.0 ppg cement - lead Pump 25 bbls of 15.6 ppg tail. cip @ 00:39 hrs 11/7/2022 9,582.0 11,155.0 8,507.3 Production String 1 Cement Pump 20.1 bbls 12# mud push II Pump 43.7 class G 15.6 ppg tail cement 11/18/2022 CD1-33A, 5/19/2025 9:09:38 AM Vertical schematic (actual) Liner; 9,582.3-11,150.0 APERF; 10,870.0-10,990.0 APERF; 10,720.0-10,800.0 APERF; 10,600.0-10,700.0 APERF; 10,467.0-10,484.0 APERF; 10,418.0-10,444.0 APERF; 10,379.0-10,406.0 Production String 1 Cement; 9,582.0 ftKB APERF; 10,354.0-10,363.0 APERF; 10,331.0-10,344.0 APERF; 10,314.0-10,324.0 Intermediate; 35.7-9,775.2 Profile nipple; 9,586.6 No-go nipple; 9,562.5 TNT Packer; 9,541.7 Intermediate String 1 Cement; 6,481.0 ftKB Stage Cementing; 2,555.0 ftKB PRODUCTION; 34.5-7,878.3 SURFACE; 36.8-2,376.7 Cement Plug; 2,060.0 ftKB Mandrel; 1,263.8 Nipple; 1,162.4 CONDUCTOR Insulated 42"; 38.0-114.0 Hanger; 33.5 WNS DISP CD1-33A ... WELLNAME WELLBORE 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:NSK DHD Field Supv To:Regg, James B (OGC); Brooks, Phoebe L (OGC); DOA AOGCC Prudhoe Bay; Wallace, Chris D (OGC) Cc:WNS Integrity Subject:CD1-33A EPA Class 1 10-426 test form 5-5-25 Date:Tuesday, May 6, 2025 6:59:23 AM Attachments:image001.png MIT CRU CD1-33A EPA 05-05-25.xlsx Good Morning, Please see the attached 10-426 form for the EPA witnessed test on CD1-33A. Evan Osbourne and Sedrek Kovar from the EPA witnessed. Sully Sullivan with the OAGCC waived witness. If you have any questions please let me know. Thanks, Bruce Richwine/Matt Miller DHD Field Supervisor KOC F-wing 2-14 (907) 659-7022 Office (907) 943-0167 Cell N2238@COP.com and Sedrek Kovar from the EPA witnessed. Submit to: OPERATOR: FIELD / UNIT / PAD: DATE: OPERATOR REP: AOGCC REP: Well Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. PTD 2221050 Type Inj N Tubing 2580 2580 2590 2580 Type Test P Packer TVD 8467 BBL Pump 2.9 IA 760 4200 4140 4140 Interval O Test psi 4200 BBL Return 2.7 OA 300 300 300 300 Result P Well Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result Well Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result Well Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result Well Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result Well Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result TYPE INJ Codes TYPE TEST Codes INTERVAL Codes Result Codes W = Water P = Pressure Test I = Initial Test P = Pass G = Gas O = Other (describe in Notes) 4 = Four Year Cycle F = Fail S = Slurry V = Required by Variance I = Inconclusive I = Industrial Wastewater O = Other (describe in notes) N = Not Injecting Notes: STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION Mechanical Integrity Test jim.regg@alaska.gov;AOGCC.Inspectors@alaska.gov;phoebe.brooks@alaska.gov chris.wallace@alaska.gov Notes:EPA MITIA class 1 disposal well. EPA Rep: Evan Osborne, Sedrek Kovar AOGCC Rep: Sully Sullivan waived witness Notes: CD1-33A Notes: Notes: Notes: ConocoPhillips Alaska Inc, Alpine / CRU / CD1 PAD Hills 05/05/25 Form 10-426 (Revised 01/2017)2025-0505_MIT_CRU_CD1-33A DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s We l l L o g I n f o r m a t i o n : Di g i t a l Me d / F r m t Re c e i v e d St a r t S t o p OH / CH Co m m e n t s Lo g Me d i a Ru n No El e c t r Da t a s e t Nu m b e r Na m e In t e r v a l Li s t o f L o g s O b t a i n e d : GR , R E S , P W D , D E N - N E U P O R O S I T Y , U L T R A S O N I C C A L I P E R , D T C / D T S , R E S I M A G E , C B L , I B C - C B L , U S I T - C B L , M U D L No No Ye s Mu d L o g S a m p l e s D i r e c t i o n a l S u r v e y RE Q U I R E D I N F O R M A T I O N (f r o m M a s t e r W e l l D a t a / L o g s ) DA T A I N F O R M A T I O N Lo g / Da t a Ty p e Lo g Sc a l e DF 12 / 1 6 / 2 0 2 2 96 9 8 1 0 9 8 1 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ 0 4 0 - d n . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 10 9 6 8 9 7 0 0 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ 0 4 0 - u p . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 96 9 7 1 0 9 6 9 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ 0 8 0 - d n . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 10 9 7 2 9 7 0 1 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ 0 8 0 - u p . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 97 0 1 1 0 9 7 1 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ 1 2 0 - d n . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 10 9 7 5 9 7 0 3 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ 1 2 0 - u p . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 10 5 5 0 0 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ P O O H . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 97 0 1 1 0 9 9 3 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ P r o c e s s e d L o g - V 1 . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 6 1 0 6 5 3 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ R I H . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 0 3 7 6 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ s t o p - 1 0 5 5 0 . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 0 3 3 5 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ s t o p - 1 0 7 1 0 . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 0 5 2 7 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ s t o p - 1 0 8 4 0 . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 0 3 8 0 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ I P R O F _ 0 5 D E C 2 2 _ s t o p - 1 0 9 7 0 . l a s 37 3 8 2 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 1 o f 1 4 Su p p l i e d b y Op Su p p l i e d b y Op DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s DF 12 / 1 6 / 2 0 2 2 0 8 5 3 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 . 5 B P M _ s t o p - 1 0 5 4 0 . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 0 8 4 6 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 . 5 B P M _ s t o p - 1 0 5 6 5 . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 0 8 4 3 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 . 5 B P M _ s t o p - 1 0 5 9 0 . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 0 8 5 4 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 B P M _ s t o p - 1 0 5 4 0 . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 0 8 5 7 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 B P M _ s t o p - 1 0 5 6 5 . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 0 9 6 9 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 B P M _ s t o p - 1 0 5 9 0 . l a s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 E l e c t r o n i c F i l e : C D 1 - 3 3 A _ W F L - IP R O F _ 0 5 D E C 2 2 . p d f 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 E l e c t r o n i c F i l e : C D 1 - 3 3 A _ W F L - IP R O F _ 0 5 D E C 2 2 _ i m g . t i f f 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 E l e c t r o n i c F i l e : C D 1 - 3 3 A _ W F L - IP R O F _ 0 5 D E C 2 2 _ R e p o r t - V 1 . p d f 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 E l e c t r o n i c F i l e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 . 5 B P M _ s t o p - 1 0 5 4 0 . d l i s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 E l e c t r o n i c F i l e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 . 5 B P M _ s t o p - 1 0 5 6 5 . d l i s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 E l e c t r o n i c F i l e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 . 5 B P M _ s t o p - 1 0 5 9 0 . d l i s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 E l e c t r o n i c F i l e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 B P M _ s t o p - 1 0 5 4 0 . d l i s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 E l e c t r o n i c F i l e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 B P M _ s t o p - 1 0 5 6 5 . d l i s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 1 6 / 2 0 2 2 E l e c t r o n i c F i l e : C D 1 - 33 A _ W F L _ 0 5 D E C 2 2 _ 2 B P M _ s t o p - 1 0 5 9 0 . d l i s 37 3 8 2 ED Di g i t a l D a t a DF 12 / 2 9 / 2 0 2 2 23 6 1 1 1 1 5 4 E l e c t r o n i c D a t a S e t , F i l e n a m e : 5 0 - 1 0 3 - 2 0 3 5 7 - 0 1 - 00 _ C D 1 - 3 3 A _ G 5 L A S _ 1 1 1 5 5 f t M D . l a s 37 4 0 0 ED Di g i t a l D a t a DF 12 / 2 9 / 2 0 2 2 23 6 1 1 1 1 5 4 E l e c t r o n i c D a t a S e t , F i l e n a m e : 5 0 - 1 0 3 - 2 0 3 5 7 - 0 1 - 00 _ C D 1 - 3 3 A _ L I T H O L O G Y _ L A S _ 1 1 1 5 5 f t M D . l a s 37 4 0 0 ED Di g i t a l D a t a DF 12 / 2 9 / 2 0 2 2 E l e c t r o n i c F i l e : 5 0 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 _ C D 1 - 33 A _ C u t t i n g s P e r c e n t a g e s . x l s x 37 4 0 0 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 2 o f 1 4 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - , 00_ C D 1 - 3 3 A _ G 5 L A S _ 1 1 1 5 5 f t M D . l a s DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s DF 12 / 2 9 / 2 0 2 2 E l e c t r o n i c F i l e : 5 0 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 _ C D 1 - 33 A _ G A S _ R A T I O _ L O G _ 1 1 1 5 5 M D 2 I N C H . p d f 37 4 0 0 ED Di g i t a l D a t a DF 12 / 2 9 / 2 0 2 2 E l e c t r o n i c F i l e : 5 0 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 _ C D 1 - 33 A _ M U D L O G _ 1 1 1 5 5 M D 2 I N C H . p d f 37 4 0 0 ED Di g i t a l D a t a DF 12 / 2 9 / 2 0 2 2 E l e c t r o n i c F i l e : 5 0 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 _ C D 1 - 33 A _ M U D L O G _ 1 1 1 5 5 M D 5 I N C H . p d f 37 4 0 0 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 21 4 0 1 1 1 5 5 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ D r i l l i n g _ M e c h a n i c s _ D e p t h _ R M - R T _ 2 7 0 f t - 11 1 5 5 f t . l a s 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 23 7 6 1 1 1 5 5 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ S c o p e _ S e r v i c e _ R T _ 2 3 7 6 f t - 1 1 1 5 5 f t . l a s 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 23 7 6 1 1 1 5 5 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ S c o p e _ S e r v i c e s _ R M _ 2 3 7 6 f t - 1 1 1 5 5 f t . l a s 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 44 8 6 1 4 4 8 6 2 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ D r i l l i n g _ M e c h a n i c s _ T i m e _ R u n 0 1 . l a s 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 44 8 6 2 4 4 8 7 0 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ D r i l l i n g _ M e c h a n i c s _ T i m e _ R u n 0 2 . l a s 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 44 8 7 9 4 4 8 8 3 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 33 A _ D r i l l i n g _ M e c h a n i c s _ T i m e _ R u n 0 3 . l a s 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A E O W L e t t e r . d o c 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A N A D 2 7 E O W C o m p a s s Su r v e y s [ C a n v a s ] . t x t 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A N A D 2 7 E O W C o m p a s s Su r v e y s [ M a c r o ] . t x t 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A N A D 2 7 E O W C o m p a s s Su r v e y s [ P e t r e l ] . t x t 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A N A D 2 7 E O W C o m p a s s Su r v e y s [ S u r v e y s ] . t x t 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A N A D 2 7 E O W C o m p a s s Su r v e y s . p d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A N A D 8 3 E O W C o m p a s s Su r v e y s [ C a n v a s ] . t x t 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A N A D 8 3 E O W C o m p a s s Su r v e y s [ M a c r o ] . t x t 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A N A D 8 3 E O W C o m p a s s Su r v e y s [ P e t r e l ] . t x t 37 4 1 3 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 3 o f 1 4 CD1 - , 33 A _ Sco p e _ Ser v i c e s _RM_ 2 3 7 6 ft -1 1 1 55 ft. l as DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A N A D 8 3 E O W C o m p a s s Su r v e y s [ S u r v e y s ] . t x t 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A N A D 8 3 E O W C o m p a s s Su r v e y s . p d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 3 3 A _ S u r v e y s . c s v 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ D r i l l i n g _ M e c h a n i c s _ D e p t h _ R M - R T _ 2 2 2 9 f t - 11 1 5 5 f t . P d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ S c o p e _ S e r v i c e _ R T _ 2 M D _ 2 3 7 6 f t - 11 1 5 5 f t . p d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ S c o p e _ S e r v i c e _ R T _ 2 T V D _ 2 3 7 6 f t - 11 1 5 5 f t . p d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ S c o p e _ S e r v i c e _ R T _ 5 M D _ 2 3 7 6 f t - 11 1 5 5 f t . p d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ S c o p e _ S e r v i c e _ R T _ 5 T V D _ 2 3 7 6 f t - 11 1 5 5 f t . p d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ S c o p e _ S e r v i c e _ R M _ 2 M D _ 2 3 7 6 f t - 11 1 5 5 f t . p d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ S c o p e _ S e r v i c e _ R M _ 2 T V D _ 2 3 7 6 f t - 11 1 5 5 f t . p d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ S c o p e _ S e r v i c e _ R M _ 5 M D _ 2 3 7 6 f t - 11 1 5 5 f t . p d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ S c o p e _ S e r v i c e _ R M _ 5 T V D _ 2 3 7 6 f t - 11 1 5 5 f t . p d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ D r i l l i n g _ M e c h a n i c s _ T i m e _ R u n 0 1 . P d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ D r i l l i n g _ M e c h a n i c s _ T i m e _ R u n 0 2 . P d f 37 4 1 3 ED Di g i t a l D a t a DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ D r i l l i n g _ M e c h a n i c s _ T i m e _ R u n 0 3 . P d f 37 4 1 3 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 4 o f 1 4 DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s DF 1/ 4 / 2 0 2 3 E l e c t r o n i c F i l e : C D 1 - 33 A _ S c o p e _ S e r v i c e _ R T R M _ 2 7 6 3 f t - 1 1 1 5 5 f t . d l i s 37 4 1 3 ED Di g i t a l D a t a DF 2/ 2 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ M i c r o s c o p e _ D r i l l _ 2 8 0 5 _ 9 7 3 3 _ P r o c e s s e d _ I ma g e s _ 5 i n . p d f 38 4 7 0 ED Di g i t a l D a t a DF 2/ 2 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ M i c r o s c o p e _ D r i l l _ 2 8 0 5 _ 9 7 3 3 _ P r o c e s s e d _ I ma g e s _ 6 0 i n . p d f 38 4 7 0 ED Di g i t a l D a t a DF 2/ 2 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ M i c r o s c o p e _ D r i l l _ 9 7 2 5 _ 1 1 1 3 0 _ P r o c e s s e d _ I ma g e s . d l i s 38 4 7 0 ED Di g i t a l D a t a DF 2/ 2 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ M i c r o s c o p e _ D r i l l _ 9 7 2 5 _ 1 1 1 3 0 _ P r o c e s s e d _ I ma g e s _ 5 i n . p d f 38 4 7 0 ED Di g i t a l D a t a DF 2/ 2 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ M i c r o s c o p e _ D r i l l _ 9 7 2 5 _ 1 1 1 3 0 _ P r o c e s s e d _ I ma g e s _ 6 0 i n . p d f 38 4 7 0 ED Di g i t a l D a t a DF 2/ 2 / 2 0 2 4 E l e c t r o n i c F i l e : CP A I _ C D 1 _ 3 3 A _ M i c r o s c o p e _ D r i l l _ 2 8 0 5 _ 9 7 3 3 _ P ro c e s s e d _ I m a g e s . d l i s 38 4 7 0 ED Di g i t a l D a t a DF 4/ 2 4 / 2 0 2 4 96 4 0 2 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ I B C _ D S L T _ 1 2 N o v 2 2 _ M a i n Pa s s _ C o n C u _ M a i n _ P a s s _ U S I T _ D S L T _ C A L . l a s 38 7 3 9 ED Di g i t a l D a t a DF 4/ 2 4 / 2 0 2 4 96 3 9 9 2 6 6 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ I B C _ D S L T _ 1 2 N o v 2 2 _ R e p e a t _ P a s s _ C o n C u _R 0 1 _ L 0 0 5 U p _ U S I T _ D S L T _ C A L . l a s 38 7 3 9 ED Di g i t a l D a t a DF 4/ 2 4 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ I B C _ D S L T _ 1 2 N o v 2 2 _ M a i n Pa s s _ C o n C u _ M a i n _ P a s s _ U S I T _ D S L T _ C A L . d l i s 38 7 3 9 ED Di g i t a l D a t a DF 4/ 2 4 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ I B C _ D S L T _ 1 2 N o v 2 2 _ R e p e a t _ P a s s _ C o n C u _R 0 1 _ L 0 0 5 U p _ U S I T _ D S L T _ C A L . d l i s 38 7 3 9 ED Di g i t a l D a t a DF 4/ 2 4 / 2 0 2 4 E l e c t r o n i c F i l e : C D 1 - 33 A _ I B C _ D S L T _ 1 2 N o v 2 2 . P d f 38 7 3 9 ED Di g i t a l D a t a DF 4/ 2 4 / 2 0 2 4 E l e c t r o n i c F i l e : C D 1 - 3 3 A _ I S - CB L _ C e m e n t _ E v a l u a t i o n _ 1 2 - N o v - 20 2 2 _ R e p o r t . p d f 38 7 3 9 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 18 1 0 6 6 0 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 3 3 A 2 0 2 4 - 05 - 0 8 P r o c e s s e d D a t a . l a s 38 8 1 3 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 5 o f 1 4 DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 2 0 2 4 - 0 5 - 0 7 _ 2 2 1 6 0 _ C D 1 - 33 A _ C a l i p e r S u r v e y _ T r a n s m i t t a l . d o c x 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : C D 1 - 33 A _ M F C 4 0 _ 0 7 M a y 2 0 2 4 _ I n t e g r i t y R e p o r t . p d f 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : a u t o r u n . c d d 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 1 0 _ 1 3 3 9 . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 1 1 _ 9 7 8 . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 1 3 _ 1 7 3 9 . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 1 3 _ 9 7 8 . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 1 7 _ 1 3 3 9 . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 1 8 _ 1 7 3 9 . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 1 9 _ 1 3 3 9 . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 3 0 _ 1 3 3 9 . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 3 1 _ 1 3 3 9 . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 3 _ 1 6 4 4 . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 4 _ 1 3 3 9 . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : g r e y _ p i l l . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : g r e y _ r o u n d e d . b t n 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : 6 3 0 B 0 9 4 0 . j p g 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : I R D i s s o l v e T r a n s i t i o n . t n s 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : I R S l i d e T r a n s i t i o n . t n s 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : I R W i p e T r a n s i t i o n s . t n s 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : C R U _ C D 1 - 3 3 A _ 0 7 - M a y - 24 _ C a l i p e r S u r v e y L o g . p d f 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : C R U _ C D 1 - 3 3 A _ 0 7 - M a y - 24 _ C a l i p e r S u r v e y L o g . t i f 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : C D 1 - 3 3 A 2 0 2 4 - 0 5 - 0 8 . I D X 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : C D 1 - 3 3 A 2 0 2 4 - 0 5 - 0 8 . R G B 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : C D 1 - 3 3 A 2 0 2 4 - 0 5 - 0 8 . s r v 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : C D 1 - 3 3 A 2 0 2 4 - 0 5 - 0 8 . U N W 38 8 1 3 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 6 o f 1 4 DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : P D S V i e w e r . i c o 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : S a m p l e D a t a . I D X 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : S a m p l e D a t a . r g b 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : S a m p l e D a t a . U N W 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : P D S 3 - D C a l i p e r D a t a V i e w e r He l p . d o c 38 8 1 3 ED Di g i t a l D a t a DF 5/ 1 7 / 2 0 2 4 E l e c t r o n i c F i l e : P D S 3 - D C a l i p e r D a t a V i e w e r He l p . p d f 38 8 1 3 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 38 1 0 6 5 7 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 1 2 0 F P M _ D o w n _ B a s e l i n e _B a s e l i n e _ d o w n _ l o g _ 1 _ _ _ 1 2 M a y 2 4 _ 1 8 4 4 4 2 . l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 0 6 1 6 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 1 0 5 0 0 f t _ S t a t i o n Lo g _ C o n C u _ R 0 2 _ S t a 0 0 8 _ P F C S _ R S T _ P S T P _ E RS . l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 0 6 4 4 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 1 0 5 4 0 f t _ S t a t i o n Lo g _ C o n C u _ R 0 2 _ S t a 0 0 7 _ P F C S _ R S T _ P S T P _ E RS . l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 0 6 3 1 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 1 0 5 9 0 f t _ S t a t i o n Lo g _ C o n C u _ R 0 2 _ S t a 0 0 6 _ P F C S _ R S T _ P S T P _ E RS . l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 94 9 0 1 0 6 5 8 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 1 2 0 F P M _ D o w n _R u n _ 1 _ _ W F L _ _ L o g _ 1 0 _ D o w n _ _ 1 2 M a y 2 4 _ 1 8 4 45 9 . l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 94 4 2 1 0 6 6 5 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 1 2 0 F P M _ U p _ R un _ 1 _ _ W F L _ _ L o g _ 1 1 _ U p _ _ 1 2 M a y 2 4 _ 1 8 4 5 0 9 . l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 94 5 9 1 0 6 5 8 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 4 0 F P M _ D o w n _ Ru n _ 1 _ _ W F L _ _ L o g _ 6 _ D o w n _ _ 1 2 M a y 2 4 _ 1 8 4 4 4 8. l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 94 9 4 1 0 6 6 4 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 4 0 F P M _ U p _ R u n_ 1 _ _ W F L _ _ L o g _ 7 _ U p _ _ 1 2 M a y 2 4 _ 1 8 4 4 5 3 . l a s 38 9 3 8 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 7 o f 1 4 DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s DF 6/ 1 3 / 2 0 2 4 94 9 0 1 0 6 5 8 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 8 0 F P M _ D o w n _ Ru n _ 1 _ _ W F L _ _ L o g _ 8 _ D o w n _ _ 1 2 M a y 2 4 _ 1 8 4 4 5 9. l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 94 9 6 1 0 6 6 4 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 8 0 F P M _ U p _ R u n_ 1 _ _ W F L _ _ L o g _ 9 _ U p _ _ 1 2 M a y 2 4 _ 1 8 4 4 5 9 . l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 0 6 8 1 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 9 5 0 0 f t _ S t a t i o n L og _ C o n C u _ R 0 2 _ S t a 0 1 0 _ P F C S _ R S T _ P S T P _ E R S. l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 0 6 6 5 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 9 5 5 0 f t _ S t a t i o n L og _ C o n C u _ R 0 2 _ S t a 0 0 9 _ P F C S _ R S T _ P S T P _ E R S. l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 0 6 8 8 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 B P M _ 1 0 5 0 0 f t _ S t a t i o n L og _ C o n C u _ R 0 2 _ S t a 0 0 3 _ P F C S _ R S T _ P S T P _ E R S. l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 0 6 1 7 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 B P M _ 1 0 5 4 0 f t _ S t a t i o n L og _ C o n C u _ R 0 2 _ S t a 0 0 2 _ P F C S _ R S T _ P S T P _ E R S. l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 0 6 2 4 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 B P M _ 1 0 5 9 0 f t _ S t a t i o n L og _ C o n C u _ R 0 2 _ S t a 0 0 1 _ P F C S _ R S T _ P S T P _ E R S. l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 0 6 2 0 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 B P M _ 9 5 0 0 f t _ S t a t i o n L o g_ C o n C u _ R 0 2 _ S t a 0 0 5 _ P F C S _ R S T _ P S T P _ E R S .l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 0 6 1 7 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 B P M _ 9 5 5 0 f t _ S t a t i o n L o g_ C o n C u _ R 0 2 _ S t a 0 0 4 _ P F C S _ R S T _ P S T P _ E R S .l a s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 1 2 0 F P M _ D o w n _ B a s e l i n e _C o n C u _ B a s e l i n e _ d o w n _ l o g _ P F C S _ R S T _ P S T P _E R S . d l i s 38 9 3 8 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 8 o f 1 4 DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 1 0 5 0 0 f t _ S t a t i o n Lo g _ C o n C u _ R 0 2 _ S t a 0 0 8 _ P F C S _ R S T _ P S T P _ E RS . d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 1 0 5 4 0 f t _ S t a t i o n Lo g _ C o n C u _ R 0 2 _ S t a 0 0 7 _ P F C S _ R S T _ P S T P _ E RS . d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 1 0 5 9 0 f t _ S t a t i o n Lo g _ C o n C u _ R 0 2 _ S t a 0 0 6 _ P F C S _ R S T _ P S T P _ E RS . d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 1 2 0 F P M _ D o w n _C o n C u _ R 0 2 _ L 0 1 0 D o w n _ P F C S _ R S T _ P S T P _ E RS . d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 1 2 0 F P M _ U p _ C on C u _ R 0 2 _ L 0 1 1 U p _ P F C S _ R S T _ P S T P _ E R S . d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 4 0 F P M _ D o w n _ Co n C u _ R 0 2 _ L 0 0 6 D o w n _ P F C S _ R S T _ P S T P _ E R S. d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 4 0 F P M _ U p _ C o nC u _ R 0 2 _ L 0 0 7 U p _ P F C S _ R S T _ P S T P _ E R S . d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 8 0 F P M _ D o w n _ Co n C u _ R 0 2 _ L 0 0 8 D o w n _ P F C S _ R S T _ P S T P _ E R S. d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 8 0 F P M _ U p _ C o nC u _ R 0 2 _ L 0 0 9 U p _ P F C S _ R S T _ P S T P _ E R S . d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 9 5 0 0 f t _ S t a t i o n L og _ C o n C u _ R 0 2 _ S t a 0 1 0 _ P F C S _ R S T _ P S T P _ E R S. d l i s 38 9 3 8 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 9 o f 1 4 DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 . 5 B P M _ 9 5 5 0 f t _ S t a t i o n L og _ C o n C u _ R 0 2 _ S t a 0 0 9 _ P F C S _ R S T _ P S T P _ E R S. d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 B P M _ 1 0 5 0 0 f t _ S t a t i o n L og _ C o n C u _ R 0 2 _ S t a 0 0 3 _ P F C S _ R S T _ P S T P _ E R S. d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 B P M _ 1 0 5 4 0 f t _ S t a t i o n L og _ C o n C u _ R 0 2 _ S t a 0 0 2 _ P F C S _ R S T _ P S T P _ E R S. d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 B P M _ 1 0 5 9 0 f t _ S t a t i o n L og _ C o n C u _ R 0 2 _ S t a 0 0 1 _ P F C S _ R S T _ P S T P _ E R S. d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 B P M _ 9 5 0 0 f t _ S t a t i o n L o g_ C o n C u _ R 0 2 _ S t a 0 0 5 _ P F C S _ R S T _ P S T P _ E R S .d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ 2 B P M _ 9 5 5 0 f t _ S t a t i o n L o g_ C o n C u _ R 0 2 _ S t a 0 0 4 _ P F C S _ R S T _ P S T P _ E R S .d l i s 38 9 3 8 ED Di g i t a l D a t a DF 6/ 1 3 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ W F L _ 1 2 M a y 2 0 2 4 _ F i e l d P r i n t . P d f 38 9 3 8 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 10 3 4 2 1 0 5 0 9 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 1 4 f t - 10 3 2 4 f t _ C o r r e l a t i o n P a s s _ G u n _ _ 6 _ _ L o g _ 4 _ U p _ _ 30 O c t 2 4 _ 0 4 2 1 3 7 . l a s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 10 1 3 5 1 0 3 6 8 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 1 4 f t - 10 3 2 4 f t _ S h o o t i n g P a s s _ G u n _ _ 6 _ _ L o g _ 5 _ U p _ _ 3 0 Oc t 2 4 _ 0 4 2 1 4 0 . l a s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 10 3 3 3 1 0 5 0 9 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 3 1 f t - 10 3 4 4 f t _ C o r r e l a t i o n P a s s _ G u n _ _ 5 _ _ L o g _ 4 _ U p _ _ 30 O c t 2 4 _ 0 4 2 0 1 7 . l a s 39 7 5 9 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 1 0 o f 1 4 DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s DF 11 / 8 / 2 0 2 4 10 1 2 0 1 0 3 6 9 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 3 1 f t - 10 3 4 4 f t _ S h o o t i n g P a s s _ G u n _ _ 5 _ _ L o g _ 5 _ U p _ _ 3 0 Oc t 2 4 _ 0 4 2 0 2 0 . l a s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 10 4 9 0 1 0 6 7 0 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 5 4 f t - 10 3 6 3 f t _ C o r r e l a t i o n P a s s _ G u n _ _ 4 _ _ L o g _ 4 _ U p _ _ 30 O c t 2 4 _ 0 4 1 9 3 8 . l a s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 10 2 0 4 1 0 5 1 6 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 5 4 f t - 10 3 6 3 f t _ S h o o t i n g P a s s _ G u n _ _ 4 _ _ L o g _ 5 _ U p _ _ 3 0 Oc t 2 4 _ 0 4 1 9 4 1 . l a s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 10 2 8 8 1 0 5 0 8 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 7 9 f t - 10 4 0 6 f t _ C o r r e l a t i o n P a s s _ G u n _ _ 3 _ _ L o g _ 3 _ U p _ _ 30 O c t 2 4 _ 0 4 1 8 4 5 . l a s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 10 0 4 3 1 0 5 0 3 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 7 9 f t - 10 4 0 6 f t _ S h o o t i n g P a s s _ G u n _ _ 3 _ _ L o g _ 4 _ U p _ _ 3 0 Oc t 2 4 _ 0 4 1 8 4 7 . l a s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 10 4 8 2 1 0 6 4 4 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 4 1 8 f t - 10 4 4 4 f t _ C o r r e l a t i o n P a s s _ G u n _ _ 2 _ _ L o g _ 7 _ U p _ _ 30 O c t 2 4 _ 0 4 1 7 2 9 . l a s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 10 2 5 2 1 0 5 2 2 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 4 1 8 f t - 10 4 4 4 f t _ S h o o t i n g P a s s _ G u n _ _ 2 _ _ L o g _ 8 _ U p _ _ 3 0 Oc t 2 4 _ 0 4 1 7 3 9 . l a s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 10 4 9 2 1 0 6 3 4 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 4 6 7 f t - 10 4 8 4 f t _ C o r r e l a t i o n P a s s _ G u n _ _ 1 _ _ L o g _ 6 _ U p _ 1 __ _ 3 0 O c t 2 4 _ 0 4 1 6 4 5 . l a s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 10 2 9 8 1 0 5 2 4 E l e c t r o n i c D a t a S e t , F i l e n a m e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 4 6 7 f t - 10 4 8 4 f t _ S h o o t i n g P a s s _ G u n _ _ 1 _ _ L o g _ 7 _ U p _ _ 3 0 Oc t 2 4 _ 0 4 1 6 4 7 . l a s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 1 4 f t - 10 3 2 4 f t _ C o r r e l a t i o n P a s s _ C o n C u _ R 0 6 _ L 0 0 4 U p _ HS D _ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 1 1 o f 1 4 DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 1 4 f t - 10 3 2 4 f t _ S h o o t i n g P a s s _ C o n C u _ R 0 6 _ L 0 0 5 U p _ H S D_ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 3 1 f t - 10 3 4 4 f t _ C o r r e l a t i o n P a s s _ C o n C u _ R 0 5 _ L 0 0 4 U p _ HS D _ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 3 1 f t - 10 3 4 4 f t _ S h o o t i n g P a s s _ C o n C u _ R 0 5 _ L 0 0 5 U p _ H S D_ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 5 4 f t - 10 3 6 3 f t _ C o r r e l a t i o n P a s s _ C o n C u _ R 0 4 _ L 0 0 4 U p _ HS D _ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 5 4 f t - 10 3 6 3 f t _ S h o o t i n g P a s s _ C o n C u _ R 0 4 _ L 0 0 5 U p _ H S D_ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 7 9 f t - 10 4 0 6 f t _ C o r r e l a t i o n P a s s _ C o n C u _ R 0 3 _ L 0 0 3 U p _ HS D _ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 3 7 9 f t - 10 4 0 6 f t _ S h o o t i n g P a s s _ C o n C u _ R 0 3 _ L 0 0 4 U p _ H S D_ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 4 1 8 f t - 10 4 4 4 f t _ C o r r e l a t i o n P a s s _ C o n C u _ R 0 2 _ L 0 0 7 U p _ HS D _ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 4 1 8 f t - 10 4 4 4 f t _ S h o o t i n g P a s s _ C o n C u _ R 0 2 _ L 0 0 8 U p _ H S D_ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 4 6 7 f t - 10 4 8 4 f t _ C o r r e l a t i o n P a s s _ C o n C u _ R 0 1 _ L 0 0 6 U p _ HS D _ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 1 2 o f 1 4 DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s We l l C o r e s / S a m p l e s I n f o r m a t i o n : Re c e i v e d St a r t S t o p C o m m e n t s To t a l Bo x e s Sa m p l e Se t Nu m b e r Na m e In t e r v a l IN F O R M A T I O N R E C E I V E D Co m p l e t i o n R e p o r t Pr o d u c t i o n T e s t I n f o r m a t i o n Ge o l o g i c M a r k e r s / T o p s Y Y / N A Y Co m m e n t s : Mu d L o g s , I m a g e F i l e s , D i g i t a l D a t a Co m p o s i t e L o g s , I m a g e , D a t a F i l e s Cu t t i n g s S a m p l e s Y / N A Y Y / N A Di r e c t i o n a l / I n c l i n a t i o n D a t a Me c h a n i c a l I n t e g r i t y T e s t I n f o r m a t i o n Da i l y O p e r a t i o n s S u m m a r y Y Y / N A Y Co r e C h i p s Co r e P h o t o g r a p h s La b o r a t o r y A n a l y s e s Y / N A Y / N A Y / N A CO M P L I A N C E H I S T O R Y Da t e C o m m e n t s De s c r i p t i o n Co m p l e t i o n D a t e : 11 / 2 3 / 2 0 2 2 Re l e a s e D a t e : 9/ 1 2 / 2 0 2 2 DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ 1 0 4 6 7 f t - 10 4 8 4 f t _ S h o o t i n g P a s s _ C o n C u _ R 0 1 _ L 0 0 7 U p _ H S D_ U P C T _ E R S . d l i s 39 7 5 9 ED Di g i t a l D a t a DF 11 / 8 / 2 0 2 4 E l e c t r o n i c F i l e : C P A I _ C D 1 - 33 A _ P e r f _ 3 0 O c t 2 0 2 4 _ F i e l d P r i n t . P d f 39 7 5 9 ED Di g i t a l D a t a DF 5/ 6 / 2 0 2 5 10 9 0 6 9 1 9 6 E l e c t r o n i c D a t a S e t , F i l e n a m e : C D 1 - 3 3 A _ 2 4 - A p r - 25 _ C o m p o s i t e M a i n U p P a s s . l a s 40 3 5 3 ED Di g i t a l D a t a DF 5/ 6 / 2 0 2 5 E l e c t r o n i c F i l e : 2 0 2 4 - 0 4 - 2 4 _ 2 4 0 1 3 _ C R U _ C D 1 - 33 A _ C o i l F l a g _ T r a n s m i t t a l . d o c x 40 3 5 3 ED Di g i t a l D a t a DF 5/ 6 / 2 0 2 5 E l e c t r o n i c F i l e : C R U _ C D 1 - 3 3 A _ 2 3 - A p r - 25 _ C o i l F l a g . p d f 40 3 5 3 ED Di g i t a l D a t a DF 5/ 6 / 2 0 2 5 E l e c t r o n i c F i l e : C R U _ C D 1 - 3 3 A _ 2 3 - A p r - 25 _ C o i l F l a g . t i f 40 3 5 3 ED Di g i t a l D a t a 1/ 2 6 / 2 0 2 3 24 2 0 1 1 1 5 5 81 8 3 9 Cu t t i n g s We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 1 3 o f 1 4 DA T A S U B M I T T A L C O M P L I A N C E R E P O R T AP I N o . 50 - 1 0 3 - 2 0 3 5 7 - 0 1 - 0 0 We l l N a m e / N o . CO L V I L L E R I V U N I T C D 1 - 3 3 A Co m p l e t i o n S t a t u s WD S P 1 Co m p l e t i o n D a t e 11 / 2 3 / 2 0 2 2 Pe r m i t t o D r i l l 22 2 1 0 5 0 Op e r a t o r Co n o c o P h i l l i p s A l a s k a , I n c . MD 11 1 5 5 TV D 10 0 9 9 Cu r r e n t S t a t u s WD S P 1 6/ 1 1 / 2 0 2 5 UI C Ye s Co m p l i a n c e R e v i e w e d B y : Da t e : We d n e s d a y , J u n e 1 1 , 2 0 2 5 AO G C C P a g e 1 4 o f 1 4 6/ 1 1 / 2 0 2 5 M. G u h l C:\Users\grgluyas\AppData\Local\Microsoft\Windows\INetCache\Content.Outlook\LZUQBSQQ\2024-04-24_24013_CRU_CD1-33A_CoilFlag_Transmittal.docx DELIVERABLE DISCRIPTION Ticket # Field Well # API # Log Description Log Date 24013 CRU CD1-33A 50-103-20357-01 Coil Flag 24-Apr-25 DELIVERED TO Company & Address DIGITAL FILE # of Copies LOG PRINTS # of Prints CD’s # of Copies 1 AOGCC Attn: Natural Resources Technician 333 W. 7th Ave., Suite 100 Anchorage, Ak. 99501-3539 Delivered By: CPAI Sharefile ______________________________ _____________________________________ Date received Signature ______________________________ ______________________________________ PLEASE RETURN COPY VIA EMAIL TO: DIANE.WILLIAMS@READCASEDHOLE.COM READ CASED HOLE, INC., 4141 B STREET, SUITE 308, ANCHORAGE, AK 99503 PHONE: (907)245-8951 E-MAIL : READ-Anchorage@readcasedhole.com WEBSITE : WWW.READCASEDHOLE.COM 222-105 T40353 5/6/2025 Gavin Gluyas Digitally signed by Gavin Gluyas Date: 2025.05.06 13:17:30 -08'00' 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: Acid Stimulate 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): 11155'None Casing Collapse Structural Conductor Surface Intermediate Production Liner 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 WAG GSTOR SPLUG AOGCC Representative: GINJ Op Shutdown Abandoned Contact Name: Contact Email: Contact Phone: Authorized Title: 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 (907) 263-4062 Senior Well Interventions Engineer CRU CD1-33A 10099' 11155' 10099' 3200 psi None N/A 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: Steve.G.Drake@conocophillips.com AOGCC USE ONLY Tubing Grade: Tubing MD (ft): 9542' MD and 8467' TVD 9582' MD and 8508' TVD N/A Steve Drake STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS 20 AAC 25.280 ADL0025559 222-105 P.O. Box 100360, Anchorage, AK 99510 50-103-20357-01-00 Colville River Field Undefined WDSP ConocoPhillips Alaska, Inc. Length Size Proposed Pools: PRESENT WELL CONDITION SUMMARY Undefined WDSP TVD Burst 9593' MD MD 114' 2376' 8700' 114' 2377' 16" 9-5/8" 76' 7"9740' 2340' 9775' 10314-10990' MD 4-1/2" 9239-9915' TVD Perforation Depth TVD (ft): 4/6/2025 11150'1568' 4-1/2" 10075' Packer: TNT Packer Packer: ZXHD LT Packer SSSV: None Perforation Depth MD (ft): L-80 Form 10-403 Revised 06/2023 Approved application valid for 12 months from date of approval.Submit PDF to aogcc.permitting@alaska.gov Steven G Drake Digitally signed by Steven G Drake Date: 2025.03.07 13:58:41 -09'00' 325-132 By Gavin Gluyas at 2:06 pm, Mar 07, 2025 VTL 4/3/2025 10-404 DSR-3/10/25A.Dewhurst 03APR25*&: Jessie L. Chmielowski Digitally signed by Jessie L. Chmielowski Date: 2025.04.03 15:43:51 -08'00'04/03/25 RBDMS JSB 040425 CRU CD1-33A (PTD 222-105) Well Work Justi cation & Objectives: CD1-33A is a Class 2/1 disposal well injecting into the Ivishak reservoir. The CD1-33 well was decompleted and redrilled in December of 2022 and renamed to CD1-33A. The well has recently experienced higher pressure occurrences in shorter periods of time. This GWWR will outline the steps necessary to perform a FCO with coil followed by an acid treatment of the Ivishak formation to improve injection. SLB CT (FCO) 1. Coordinate timing with Alpine PE/WIF Ops/SLB to minimize disruption to drilling and 1eld disposal operations. Job will need at least one day to FCO, one day to pump the acid job and one day to mill cement retainers. 2. Contact Quadco to ensure tools and personnel are available. 3. MIRU SLB CT and associated equipment. 4. MU motor and mill assembly with junk mill to drift 3.75" DB nipple @ 9,562' RKB. 5. RIH making weight checks as necessary. 6. Utilizing seawater and gel sweeps to clean out well below bottom perforations at 10,990' RKB. 7. POOH chasing solids to surface an placing adequate diesel freeze protect from 2,500' RKB to surface. 8. LD tools and prepare for acid job. SLB CT (Acidize Ivishak Formation) 1. Contact SLB to ensure all the product and crews are available for pumping the acid job. 2. Contact GKA wells support (Vance/John) to ensure that there is a shower trailer available for the job. 3. Contact READ cased hole to ensure tools and personnel are available for coil Fag. 4. Contact Quadco to ensure tools and personnel are available. 5. MIRU SLB CT and associated equipment. 6. MU and RIH with READ cased hole tools for jewelry correlation run. 7. If possible, tie into liner as close as possible to the setting depth of the 1rst retainer @ 10,835' RKB. If not, tie into TT/nipple/packer and paint coil Fag. POOH. 8. MU and RIH with cement retainer per Quadco rep. Type of retainer will be spec'd out in town between S. Drake and Quadco. 9. Correct depth to coil Fag and set retainer at a depth of 10,835'. 10. Perform pressure tests down coil and backside to ensure retainer is holding. 11. Following pumping schedule to treat 1rst set of perforations from 10,870' - 10,990' RKB. Acid pumping schedule for each zone found on tabs in this GWWR. Totals for all stages found in screen capture below. 12. Unstab from cement retainer and POOH. 13. Utilizing SW and or diesel, Fush inner string to clean up acid and pump down the backside to remove any residual acid that might be on the outside of stinger. Use caution when wiping down tools at surface. 14. MU and RIH with new cement retainer and set at a depth of 10,710' RKB. 15. Follow pumping schedule to treat second set of perforations from 10,720' - 10,800' RKB. 16. Unstab from cement retainer and POOH. 17. MU and RIH with 1nal cement retainer and set at a depth of 10,550' RKB. 18. Follow pumping schedule to treat third set of perforations from 10,600' - 10,700' RKB. 19. Unstab from cement retainer @ 10,500' RKB and POOH. 20. LD and inspect tools. 21. With older, lower perforations isolated by the cement retainers, a step rate injectivity test is requested to see how the upper perforations are taking Fuid. 22. Perform step rate injectivity test, pumping 0.5 bpm for 15 minutes and increasing in 0.5 bbl increments up to 4 bpm. 23. Record all pressures/times/rates in Wellview. 24. MU and RIH with 3.65" junk mill and motor assembly per Quadco and COP coil supervisor. 25. RIH making weight checks as necessary. 26. Mill all three (3) cement retainers @ 10,500', 10,710', and 10,835' RKB. 27. Push retainer parts into rat hole. 28. POOH. Ensure well is properly freeze protected. 29. LD tools. RDMO. Hand well over to OPS. Last Tag Annotation Depth (ftKB)Wellbore End Date Last Mod By Last Tag: RKB 10,411.0 CD1-33A 2/26/2025 oberr Last Rev Reason Annotation Wellbore End Date Last Mod By Rev Reason: Post FCO Tag CD1-33A 2/26/2025 oberr Casing Strings Csg Des OD (in)ID (in)Top (ftKB) Set Depth (ftKB) Set Depth (TVD) (ftKB)Wt/Len (lb/ft)Grade Top Thread CONDUCTOR Insulated 42" 16 15.06 38.0 114.0 114.062.58 H-40 WELDED SURFACE 9 5/8 8.92 36.8 2,376.7 2,375.7 36.00 J-55 BTC-MOD Intermediate 7 6.28 35.7 9,775.2 8,700.5 29.00 L-80 7 Liner 4 1/2 3.96 9,582.3 11,150.0 10,075.3 12.60 L-80 H563 Tubing Strings: "String Max Nominal OD" is the OD of the LONGEST segment in string Top (ftKB) 33.5 Set Depth… 9,593.0 Set Depth… 8,518.3 String Max No… 4 1/2 Tubing Description Tubing – Completion Upper Wt (lb/ft) 12.60 Grade L-80 Top Connection Hyd563 ID (in) 3.96 Completion Details: excludes tubing, pup, space out, thread, RKB... Top (ftKB) Top (TVD) (ftKB) Top Incl (°)Item Des OD Nominal (in)Com Make Model Nominal ID (in) 33.5 33.5 0.00 Hanger 4.500 Tubing Pup Joint, 4-1/2", 12.6#, L- 80, Hyd 563 Gen 5 FMC3.910 1,162.4 1,161.5 0.41 Nipple 4.500 HES 3.813" X Nipple, 4-1/2", 12.6#, L-80, Hyd 563 HES 4698986 -7 3.813 1,263.8 1,262.9 0.35 Mandrel 4.500 4-1/2"x1" Vanoil KBG 4-5 GLM 12.6#, L-80, Hyd 563 SLMB 23288- 19 3.865 9,445.6 8,371.0 0.31 Gauge / Pump Sensor 4.500 SLB Quartz DHG + Mandrel, 4-1/2", 12.6#, L-80, Hyd 563 SLB 3.920 9,541.8 8,467.1 0.13 TNT Packer 6.280 7" x 4-1/2" TNT Packer (102791176) VamTop HES 4672727 3.876 9,562.5 8,487.8 0.20 No-go nipple 4.500 Camco 3.75" DB Nipple (3.785" LockNoGo) SLMB - CAMCO WO- 8120-4 3.750 9,584.4 8,509.8 0.27 Mechanical collar locator 5.180 Locating Sub No Go BAKER NSAK- SO-22- 1245 3.850 9,584.8 8,510.1 0.27 Wireline guide 3.870 WLEG Shear type Locator BAKER NSAK- SO-22- 1245 3.870 9,586.6 8,512.0 0.28 Profile nipple 4.500 Premium THD Tubing Nipple, 4-1/2", 12.6#, L-80, Hyd 563 BAKER 1345620 6 3.958 9,589.7 8,515.0 0.29 Mule Shoe 4.200 HES Indexing Mule Shoe HES INDEXI NG 3.958 Mandrel Inserts : excludes pulled inserts Top (ftKB) Top (TVD) (ftKB) Top Incl (°) St ati on No /S Serv Valve Type Latch Type OD (in) TRO Run (psi)Run Date Com Make Model Port Size (in) 1,263.8 1,262.9 0.35 1 DMY BK 111/25/2022 Liner Details: Excludes Liner, Pup, Joints, casing, float, sub, shoe... Top (ftKB) Top (TVD) (ftKB) Top Incl (°)Item Des OD Nominal (in)Com Make Model Nominal ID (in) 9,582.3 8,507.7 0.26 Packer 7.000 Liner Top Packer,ZXHD, w/10' Seal Bore Extension ZXHD BAKER 4.151 9,608.0 8,533.3 0.35 crossover bushing 5.000 Crossover Bushing 5" VTHT Box x 4-1/2" Hyd563 pin XO 3.830 11,019.8 9,945.1 0.21 Collar - Landing 4.500 Baker Type 1 Landing Collar, 4- 1/2" Hyd 563 BAKER BAKER 3.875 Perforations & Slots Top (ftKB)Btm (ftKB) Top (TVD) (ftKB) Btm (TVD) (ftKB)Linked Zone Date Shot Dens (shots/ft)Type Com 10,314.0 10,324.0 9,239.3 9,249.3 10/30/2024 6.0 APERF 10' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,331.0 10,344.0 9,256.3 9,269.3 10/30/2024 6.0 APERF 13' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,354.0 10,363.0 9,279.3 9,288.3 10/29/2024 6.0 APERF 9' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,379.0 10,406.0 9,304.3 9,331.3 10/29/2024 6.0 APERF 27' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,418.010,444.09,343.39,369.310/28/2024 6.0 APERF 26' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,467.0 10,484.0 9,392.3 9,409.3 10/27/2024 6.0 APERF 17' GUNS, 17' 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,600.010,700.09,525.39,625.311/29/2022 6.0 APERF 20' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,720.0 10,800.0 9,645.3 9,725.3 11/28/2022 6.0 APERF 20' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,870.0 10,990.0 9,795.3 9,915.3 11/28/2022 6.0 APERF 20' GUNS, 2.78" HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING CD1-33A, 3/7/2025 11:12:23 AM Vertical schematic (actual) Liner; 9,582.3-11,150.0 APERF; 10,870.0-10,990.0 APERF; 10,720.0-10,800.0 APERF; 10,600.0-10,700.0 APERF; 10,467.0-10,484.0 APERF; 10,418.0-10,444.0 APERF; 10,379.0-10,406.0 Production String 1 Cement; 9,582.0 ftKB APERF; 10,354.0-10,363.0 APERF; 10,331.0-10,344.0 APERF; 10,314.0-10,324.0 Intermediate; 35.7-9,775.2 Profile nipple; 9,586.6 No-go nipple; 9,562.5 TNT Packer; 9,541.7 Intermediate String 1 Cement; 6,481.0 ftKB Stage Cementing; 2,555.0 ftKB PRODUCTION; 34.5-7,878.3 SURFACE; 36.8-2,376.7 Cement Plug; 2,060.0 ftKB Mandrel; 1,263.8 Nipple; 1,162.4 CONDUCTOR Insulated 42"; 38.0-114.0 Hanger; 33.5 WNS DISP KB-Grd (ft) 39.10 RR Date 1/5/2001 Other Elev… CD1-33A ... TD Act Btm (ftKB) 11,155.0 Well Attributes Field Name ALPINE Wellbore API/UWI 501032035701 Wellbore Status DISP Max Angle & MD Incl (°) 38.41 MD (ftKB) 6,788.12 WELLNAME WELLBORE Annotation End DateH2S (ppm)DateComment Cement Squeezes Top (ftKB)Btm (ftKB) Top (TVD) (ftKB) Btm (TVD) (ftKB)Des Com Pump Start Date 2,555.0 4,540.0 2,551.8 4,309.0 Stage Cementing Pump 32.1 bbls of 11.0 ppg mud push Pump 165.7 bbls of 11.0 cement cip @ 01:08 hrs 11/8/2022 6,481.0 9,789.0 5,838.6 8,714.3 Intermediate String 1 Cement Pump 40.3 bbls of 12 ppg Mud Push Pump 132.7 bbls of 13.0 ppg cement - lead Pump 25 bbls of 15.6 ppg tail. cip @ 00:39 hrs 11/7/2022 9,582.0 11,155.0 8,507.3 Production String 1 Cement Pump 20.1 bbls 12# mud push II Pump 43.7 class G 15.6 ppg tail cement 11/18/2022 CD1-33A, 3/7/2025 11:12:25 AM Vertical schematic (actual) Liner; 9,582.3-11,150.0 APERF; 10,870.0-10,990.0 APERF; 10,720.0-10,800.0 APERF; 10,600.0-10,700.0 APERF; 10,467.0-10,484.0 APERF; 10,418.0-10,444.0 APERF; 10,379.0-10,406.0 Production String 1 Cement; 9,582.0 ftKB APERF; 10,354.0-10,363.0 APERF; 10,331.0-10,344.0 APERF; 10,314.0-10,324.0 Intermediate; 35.7-9,775.2 Profile nipple; 9,586.6 No-go nipple; 9,562.5 TNT Packer; 9,541.7 Intermediate String 1 Cement; 6,481.0 ftKB Stage Cementing; 2,555.0 ftKB PRODUCTION; 34.5-7,878.3 SURFACE; 36.8-2,376.7 Cement Plug; 2,060.0 ftKB Mandrel; 1,263.8 Nipple; 1,162.4 CONDUCTOR Insulated 42"; 38.0-114.0 Hanger; 33.5 WNS DISP CD1-33A ... WELLNAME WELLBORE 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:Drake, Steve G To:Loepp, Victoria T (OGC) Subject:RE: CD1-33A Acid Stimluation Date:Thursday, April 3, 2025 2:42:22 PM Hi Victoria, Per our phone call, the last passing MIT-IA was performed on 5/11/2024 on CD1-33A. Please let me know if need anything else. Thanks, Steve From: Drake, Steve G Sent: Wednesday, April 2, 2025 8:52 AM To: Loepp, Victoria T (OGC) <victoria.loepp@alaska.gov> Subject: CD1-33A Acid Stimluation Hi Victoria, Was wondering if you have an update on the status of my 10-403 for CD1-33A acid job or if there is anything else you need? Just checking in. Thanks, Steve _______________________________________________________________________ Steven Drake | WNS Wells Intervention Engineer, Wells | ConocoPhillips Alaska O: 907-263-4062 | M: 907-223-1166 | 700 G St. Anchorage, Alaska 99501 Originated: Delivered to:7-Nov-24 Alaska Oil & Gas Conservation Commiss 07Nov24-NR ATTN: Meredith Guhl 333 W. 7th Ave., Suite 100 600 E 57th Place Anchorage, Alaska 99501-3539 Anchorage, AK 99518 (907) 273-1700 main (907)273-4760 fax WELL NAME API # SERVICE ORDER #FIELD NAME SERVICE DESCRIPTION DELIVERABLE DESCRIPTION DATA TYPE DATE LOGGED 3S-03 50-103-20458-00-00 203-091 Kuparuk River WL IBC-CBL FINAL FIELD 10-Oct-24 2K-19A 50-103-20118-01-00 211-034 Kuparuk River WL Cutter FINAL FIELD 11-Oct-24 MT7-83 50-103-20891-01-00 224-102 Greater Mooses Tooth WL TTiX-USIT-CBL FINAL FIELD 19-Oct-24 1C-157 50-029-23754-00-00 223-038 Kuparuk River WL IBC-CBL FINAL FIELD 23-Oct-24 CD1-33A 50-103-20357-01-00 222-105 Colville River WL PERF FINAL FIELD 30-Oct-24 MT7-09 50-103-20837-00-00 222-011 Greater Mooses Tooth WL TTiX-Plug&Perf FINAL FIELD 1-Nov-24 Transmittal Receipt ________________________________ X_________________________________ Print Name Signature Date Please return via courier or sign/scan and email a copy to Schlumberger. Nraasch@slb.com SLB Auditor - TRANSMITTAL DATE TRANSMITTAL # A Delivery Receipt signature confirms that a package (box, envelope, etc.) has been received. The package will be handled/delivered per standard company reception procedures. The package's contents have not been verified but should be assumed to contain the above noted media. # Schlumberger-Private T39755 T39756 T39757 T39758 T39759 T39760 CD1-33A 50-103-20357-01-00 222-105 Colville River WL PERF FINAL FIELD 30-Oct-24 Gavin Gluyas Digitally signed by Gavin Gluyas Date: 2024.11.08 08:38:26 -09'00' Originated:Delivered to:12-Jun-24 Alaska Oil & Gas Conservation Commiss 12Jun24-NR ATTN: Meredith Guhl 333 W. 7th Ave., Suite 100 600 E 57th Place Anchorage, Alaska 99501-3539 Anchorage, AK 99518 (907) 273-1700 main (907)273-4760 fax WELL NAME API # SERVICE ORDER # FIELD NAME SERVICE DESCRIPTION DELIVERABLE DESCRIPTION DATA TYPE DATE LOGGED CD4-587 50-103-20867-00-00 223-098 Colville River WL PPROF FINAL FIELD 29-Apr-24 2F-18 50-029-22720-00-00 Kuparuk River WL CBL FINAL FIELD 5-May-24 2F-18 50-029-22720-00-00 Kuparuk River WL GR FINAL FIELD 5-May-24 WD-02 50-103-20285-00-00 198-258 Colville River WL WFL FINAL FIELD 11-May-24 2N-310 50-103-20549-00-00 207-090 Kuparuk River WL Perforation FINAL FIELD 11-May-24 CD1-01A 50-103-20299-01-00 212-099 Colville River WL WFL FINAL FIELD 13-May-24 CD1-33A 50-103-20357-01-00 222-105 Colville River WL WFL FINAL FIELD 12-May-24 Transmittal Receipt ________________________________X__________________________________ Print Name Signature Date Please return via courier or sign/scan and email a copy to Schlumberger. Ousidame@slb.com SLB Auditor - TRANSMITTAL DATE TRANSMITTAL # A Delivery Receipt signature confirms that a package (box, envelope, etc.) has been received. The package will be handled/delivered per standard company reception procedures. The package's contents have not been verified but should be assumed to contain the above noted media. # Schlumberger-Private T38933 T38934 T38934 T38935 T38936 T38937 T38938CD1-33A 50-103-20357-01-00 222-105 Colville River WL WFL FINAL FIELD 12-May-24 Gavin Gluyas Digitally signed by Gavin Gluyas Date: 2024.06.13 09:21:58 -08'00' C:\Users\grgluyas\AppData\Local\Microsoft\Windows\INetCache\Content.Outlook\I1OGWE08\2024-05-07_22160_CD1-33A_CaliperSurvey_Transmittal.docx DELIVERABLE DISCRIPTION Ticket # Field Well # API # Log Description Log Date 22160 CRU CD1-33A 50-103-20357-01 Caliper Survey 07-May-24 DELIVERED TO Company & Address DIGITAL FILE # of Copies LOG PRINTS # of Prints CD’s # of Copies 1 AOGCC Attn: Natural Resources Technician 333 W. 7th Ave., Suite 100 Anchorage, Ak. 99501-3539 Delivered By: CPAI Sharefile ______________________________ ______________________________________ Date received Signature PLEASE RETURN COPY VIA EMAIL TO: DIANE.WILLIAMS@READCASEDHOLE.COM READ CASED HOLE, INC., 4141 B STREET, SUITE 308, ANCHORAGE, AK 99503 PHONE: (907)245-8951 E-MAIL : READ-Anchorage@readcasedhole.com WEBSITE : WWW.READCASEDHOLE.COM 222-105T38813 Gavin Gluyas Digitally signed by Gavin Gluyas Date: 2024.05.17 08:37:08 -08'00' 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:NSK DHD Field Supervisor To:Regg, James B (OGC); DOA AOGCC Prudhoe Bay; Brooks, Phoebe L (OGC); Wallace, Chris D (OGC) Cc:WNS Integrity Subject:CPAI 10-426 forms for WD-02, CD1-01A & CD1-33A on 5/10/24 Date:Sunday, May 12, 2024 7:25:44 PM Attachments:MIT CRU WD-02 EPA 05-10-24.xlsx MIT CRU CD1-01A EPA 05-10-24.xlsx MIT CRU CD1-33A EPA 05-10-24.xlsx Please see the attached 10-426 forms for the EPA witnessed MIT-IA’s that were performed at CD1 pad on 5/10/24. Please let me know if you have any questions or concerns. Thank you, Shelby Sumrall / Bruce Richwine DHD Field Supervisor ConocoPhillips Alaska, Inc. Office phone: (907) 659-7022 Cell phone: (907) 943-0167 &ROYLOOH5LYHU8QLW&'$ 37' 9 Submit to: OOPERATOR: FIELD / UNIT / PAD: DATE: OPERATOR REP: AOGCC REP: Well Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. PTD 2221050 Type Inj N Tubing 2860 2905 2880 2880 Type Test P Packer TVD 8467 BBL Pump 2.5 IA 840 4205 4160 4140 Interval O Test psi 4200 BBL Return 2.5 OA 270 280 280 280 Result P Well Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result Well Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result Well Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result Well Pressures: Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result TYPE INJ Codes TYPE TEST Codes INTERVAL Codes Result Codes W = Water P = Pressure Test I = Initial Test P = Pass G = Gas O = Other (describe in Notes) 4 = Four Year Cycle F = Fail S = Slurry V = Required by Variance I = Inconclusive I = Industrial Wastewater O = Other (describe in notes) N = Not Injecting STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION MMec han ical Integrity Test jim.regg@alaska.gov;AOGCC.Inspectors@alaska.gov;phoebe.brooks@alaska.gov chris.wallace@alaska.gov Notes:EPA MITIA class 1 disposal well. EPA Rep: Evan Osborne & James Phillips AOGCC: Waived by Guy Cook Notes: CD1-33A Notes: Notes: Notes: ConocoPhillips Alaska Inc, Alpine / CRU / CD1 PAD Caudle 05/10/24 Form 10-426 (Revised 01/2017)2024-0510_MIT_CRU_CD1-33A 9 9 9 9 9 9 9 99 9 9 9 9 9 -5HJJ TTT RR AA NN SS MM II TT TT AA LL FROM:: Sandra D. Lemke, ATO-704 TO:: Meredith Guhl ConocoPhillips Alaska, Inc. AOGCC P.O. Box 100360 330 W. 7th Ave., Suite 100 Anchorage AK 99510-0360 Anchorage, Alaska 99501 RE: CD1-33A DATE: 04/24/2024 Transmitted: North Slope, Kuparuk River Unit Via SFTP data drop Transmittal instructions: please promptly sign, scan, and e-mail to Sandra.D.Lemke@conocophillips.com CC: CD1-33A e-transmittal well folder Receipt: Date: Alaska/IT-GGRE/ConocoPhillips Alaska |Office: 907.265.6947; Mobile 907.440.4512 222-105 T38739 Meredith Guhl Digitally signed by Meredith Guhl Date: 2024.04.24 14:48:09 -08'00' TTT RR AA NN SS MM II TT TT AA LL FROM::Sandra D. Lemke, ATO-704 TO:: Meredith Guhl ConocoPhillips Alaska, Inc. AOGCC P.O. Box 100360 333 W. 7 th Ave., Suite 100 Anchorage AK 99510-0360 Anchorage, Alaska 99501 RE:CD1-33A Permit: 222-105 DATE: 02/01/2024 Transmitted: North Slope, Colville River Unit, Alaska Via SFTP Transmittall instructions: please promptly sign, scan, and e-mail to Sandra.D.Lemke@conocophillips.com CC: CD1-33A e-transmittal well folder Receipt: Date: Alaska/IT-Support Services |ConocoPhillips Alaska |Office: 907.265.6947; Mobile 907.440.4512 CD1-33A PTD: 222-105 T38470 2/5/2024 Kayla Junke Digitally signed by Kayla Junke Date: 2024.02.05 10:50:45 -09'00' 1 Regg, James B (OGC) From:NSK DHD Field Supervisor <n2238@conocophillips.com> Sent:Friday, May 12, 2023 1:35 PM To:Regg, James B (OGC); DOA AOGCC Prudhoe Bay; Brooks, Phoebe L (OGC); Wallace, Chris D (OGC) Cc:WNS Integrity; Dodson, Kate Subject:CPAI 10-426 forms for CD1-33A & WD-02 on 5/11/23 Attachments:MIT CRU CD1-33A EPA 05-11-23.xlsx; MIT CRU WD-02 EPA 05-11-23.xlsx Please see the attached 10‐426 forms for the EPA witnessed MIT‐IA’s that were performed at CD1 pad on  5/11/23.  Please let me know if you have any questions or concerns.  Thank you,  Shelby Sumrall / Bruce Richwine  DHD Field Supervisor  ConocoPhillips Alaska, Inc.  Office phone: (907) 659‐7022  Cell phone: (907) 943‐0167   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. CRU CD1-33APTD 2221050 Submit to: OPERATOR: FIELD / UNIT / PAD: DATE: OPERATOR REP: AOGCC REP: Well Pressures:Pretest Initial 15 Min.30 Min.45 Min.60 Min. PTD 2221050 Type Inj N Tubing 2010 2040 2010 2000 Type Test P Packer TVD 8467 BBL Pump 2.3 IA 1060 4200 4110 4100 Interval O Test psi 4200 BBL Return 2.3 OA 80 285 285 280 Result P Well Pressures:Pretest Initial 15 Min.30 Min.45 Min.60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result Well Pressures:Pretest Initial 15 Min.30 Min.45 Min.60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result Well Pressures:Pretest Initial 15 Min.30 Min.45 Min.60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result Well Pressures:Pretest Initial 15 Min.30 Min.45 Min.60 Min. PTD Type Inj Tubing Type Test Packer TVD BBL Pump IA Interval Test psi BBL Return OA Result TYPE INJ Codes TYPE TEST Codes INTERVAL Codes Result Codes W = Water P = Pressure Test I = Initial Test P = Pass G = Gas O = Other (describe in Notes)4 = Four Year Cycle F = Fail S = Slurry V = Required by Variance I = Inconclusive I = Industrial Wastewater O = Other (describe in notes) N = Not Injecting STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION Mechanical Integrity Test jim.regg@alaska.gov;AOGCC.Inspectors@alaska.gov;phoebe.brooks@alaska.gov chris.wallace@alaska.gov Notes:EPA MITIA class 1 disposal well. EPA Rep: Evan Osborne & James Robinson AOGCC: Waived by Kam StJohn Notes: CD1-33A Notes: Notes: Notes: ConocoPhillips Alaska Inc, Alpine / CRU / CD1 PAD Miller 05/11/23 Form 10-426 (Revised 01/2017)2023-0511_MIT_CRU_CD1-33A       AOGCC req'd test pressure 2117 psi; jbr jbr 2z2-Io5- TO: AOGCC 333 WEST 7T" SUITE 100 ANCH. AK. 99501 279-1433 OPERATOR: CPAI SAMPLE TYPE: Dry Cuttings SAMPLES SENT: CD1-33A 2420 - 11155 8 Boxes SENT BY: M. McCRACKEN l ? 31 RECEIVED SAMPLE TRANSMITTAL JAN 22 6 2023 AOVCC DATE: January 26, 2023 AIR BILL: N/A CPAI: 2023012601 CHARGE CODE: N/A NAME: CD1-33A NUMBER OF BOXES: 8 Box UPON RECEIPT OF THESE SAMPLES, PLEASE NOTE ANY DISCREPANCIES AND RETURN A SIGNED COPY OF THIS FORM TO: CONOCOPHILLIPS, ALASKA 700 G ST ATO-380 ANCHORAGE, AK. 99510 ATTN: MIKE McCRACKEN Mike.mccracken@conocophillips.com '*'-� RECEIVED I/ ►�X`� ���' " — l �u� I L—� From:Brooks, Phoebe L (OGC) To:AOGCC Records (CED sponsored) Subject:CRU CD1-33A PTD #2221050 Date:Wednesday, January 25, 2023 10:52:58 AM Attachments:image003.png image004.png Phoebe Brooks Research Analyst Alaska Oil and Gas Conservation Commission Phone: 907-793-1242 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 Phoebe Brooks at 907-793-1242 or phoebe.brooks@alaska.gov. From: Well Integrity Specialist CPF2 <n2549@conocophillips.com> Sent: Wednesday, January 25, 2023 9:54 AM To: Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov> Subject: RE: [EXTERNAL]RE: CPAI 10-426 forms for AOGCC witnessed MIT-IAs performed 18 Dec 22 Phoebe- Below is the most current directional survey for CD1-33A as well as a screen shot from the CPAI depth converter. Please let me know if you need anything else or have any questions. Dusty Freeborn Well Integrity Specialist ConocoPhillips Alaska, Inc. Office phone: (907) 659-7224 Cell phone: (907) 830-9777 Directional Survey CD1-33A : 501032035701 : 1/25/2023 MD TVD SS Corr SS Incline Azimuth Dog Leg X Y 0 0 58.60 58.60 0 0 0 385773.23 5975677.82 39.10 39.10 19.50 19.50 0 0 0 385773.23 5975677.82 119.95 119.95 -61.35 -61.35 0.25 298 0.31 385773.07 5975677.90 208.95 208.95 -150.35 -150.35 0.25 308 0.05 385772.75 5975678.12 299.95 299.95 -241.35 -241.35 0.35 115 0.66 385772.85 5975678.13 389.95 389.94 -331.34 -331.34 0.85 134 0.59 385773.57 5975677.53 479.95 479.91 -421.31 -421.31 1.90 130 1.17 385775.17 5975676.09 509.95 509.89 -451.29 -451.29 2.35 128.25 1.52 385776.02 5975675.38 566.95 566.82 -508.22 -508.22 3.24 126.27 1.57 385778.22 5975673.66 612.95 612.74 -554.14 -554.14 3.54 123.83 0.72 385780.42 5975672.07 656.95 656.65 -598.05 -598.05 3.73 133.95 1.52 385782.55 5975670.29 746.95 746.47 -687.87 -687.87 3.52 132.46 0.26 385786.64 5975666.32 836.95 836.32 -777.72 -777.72 3.19 139.47 0.58 385790.25 5975662.50 925.95 925.18 -866.58 -866.58 3.25 139.31 0.07 385793.44 5975658.66 1015.95 1015.08 -956.48 -956.48 2.15 144.33 1.25 385796.04 5975655.31 1110.95 1110.05 -1051.45 -1051.45 0.62 142.66 1.61 385797.36 5975653.44 1206.95 1206.05 -1147.45 -1147.45 0.22 85.08 0.56 385797.86 5975653.03 1300.95 1300.05 -1241.45 -1241.45 0.43 76.46 0.23 385798.38 5975653.12 1396.95 1396.05 -1337.45 -1337.45 0.54 60.68 0.18 385799.13 5975653.41 1491.95 1491.05 -1432.45 -1432.45 0.16 224.38 0.73 385799.42 5975653.54 1585.95 1585.05 -1526.45 -1526.45 0.45 231.09 0.31 385799.04 5975653.21 1682.95 1682.05 -1623.45 -1623.45 0.57 248.24 0.20 385798.29 5975652.81 1777.95 1777.05 -1718.45 -1718.45 0.49 246.14 0.09 385797.48 5975652.48 1873.95 1873.05 -1814.45 -1814.45 0.55 230.86 0.16 385796.74 5975652.04 1968.95 1968.05 -1909.45 -1909.45 0.63 47.98 1.24 385796.77 5975652.10 2063.95 2063.04 -2004.44 -2004.44 0.86 42.46 0.25 385797.65 5975652.95 2158.95 2158.04 -2099.44 -2099.44 0.28 264.89 1.14 385797.91 5975653.46 2256.95 2256.04 -2197.44 -2197.44 0.76 218.73 0.61 385797.25 5975652.94 2328.95 2328.04 -2269.44 -2269.44 0.59 241.77 0.44 385796.63 5975652.40 2380.29 2379.36 -2320.76 -2320.76 2.08 253.39 2.93 385795.49 5975652.03 2477.75 2476.11 -2417.51 -2417.51 10.85 242.76 9.04 385785.55 5975647.47 2572.41 2568.80 -2510.20 -2510.20 12.60 232.03 2.95 385769.33 5975637.28 2633.27 2627.86 -2569.26 -2569.26 15.28 231.47 4.41 385757.68 5975628.38 2727.92 2719.18 -2660.58 -2660.58 15.19 231.41 0.10 385738 5975613.17 2821.76 2809.31 -2750.71 -2750.71 17.12 230.71 2.07 385717.45 5975597.07 2916.02 2899.37 -2840.77 -2840.77 17.23 231.55 0.29 385695.52 5975579.93 3011.20 2990.28 -2931.68 -2931.68 17.21 230.90 0.20 385673.28 5975562.62 3106.31 3081.09 -3022.49 -3022.49 17.40 229.66 0.44 385651.25 5975544.87 3200.16 3170.59 -3111.99 -3111.99 17.61 229.58 0.23 385629.47 5975526.92 3293.83 3259.29 -3200.69 -3200.69 19.88 228.66 2.44 385606.43 5975507.56 3388.50 3347.66 -3289.06 -3289.06 22.13 228.16 2.38 385580.72 5975485.42 3483.83 3435.13 -3376.53 -3376.53 24.71 229.23 2.74 385551.87 5975460.86 3580.27 3521.74 -3463.14 -3463.14 27.46 230.42 2.90 385519.05 5975434.02 3673.64 3603.49 -3544.89 -3544.89 30.29 231.50 3.08 385483.59 5975406.18 3767.55 3683.93 -3625.33 -3625.33 31.84 231.48 1.65 385445.21 5975376.58 3862.33 3763.72 -3705.12 -3705.12 33.49 231.08 1.76 385404.82 5975345.19 3956.47 3841.66 -3783.06 -3783.06 34.73 231.97 1.42 385362.99 5975312.99 4050.94 3918.85 -3860.25 -3860.25 35.67 232.34 1.02 385319.49 5975280.25 4145.21 3994.97 -3936.37 -3936.37 36.62 232.65 1.03 385274.87 5975247.07 4238.94 4069.82 -4011.22 -4011.22 37.39 232.57 0.82 385229.53 5975213.50 4335.01 4146.17 -4087.57 -4087.57 37.35 231.84 0.46 385182.91 5975178.47 4428.79 4220.68 -4162.08 -4162.08 37.44 232.78 0.62 385137.32 5975144.34 4523.41 4295.81 -4237.21 -4237.21 37.44 234.50 1.11 385090.48 5975110.96 4617.85 4370.82 -4312.22 -4312.22 37.39 235.67 0.75 385042.94 5975078.83 4712.40 4445.91 -4387.31 -4387.31 37.45 235.08 0.38 384995.18 5975046.91 4806.39 4520.53 -4461.93 -4461.93 37.45 235.68 0.39 384947.65 5975015.16 4901.29 4595.89 -4537.29 -4537.29 37.41 234.76 0.59 384899.78 5974982.99 4995.43 4670.49 -4611.89 -4611.89 37.76 232.66 1.41 384853 5974949.71 5089.26 4744.47 -4685.87 -4685.87 38.15 232.07 0.57 384806.77 5974915.17 5183.70 4818.73 -4760.13 -4760.13 38.16 231.79 0.18 384760.28 5974879.90 5278.60 4893.31 -4834.71 -4834.71 38.23 231.68 0.10 384713.67 5974844.27 5373.56 4967.90 -4909.30 -4909.30 38.24 231.62 0.04 384667.03 5974808.50 5468.10 5042.21 -4983.61 -4983.61 38.13 231.41 0.18 384620.73 5974772.84 5562.07 5116.09 -5057.49 -5057.49 38.21 231.50 0.10 384574.76 5974737.35 5656.32 5190.15 -5131.55 -5131.55 38.21 231.56 0.04 384528.57 5974701.78 5749.74 5263.55 -5204.95 -5204.95 38.21 231.26 0.20 384482.86 5974666.43 5844.33 5337.88 -5279.28 -5279.28 38.20 231.09 0.11 384436.74 5974630.45 5938.90 5412.21 -5353.61 -5353.61 38.18 231.12 0.03 384390.67 5974594.44 6033.59 5486.65 -5428.05 -5428.05 38.16 230.78 0.22 384344.68 5974558.27 6126.40 5559.64 -5501.04 -5501.04 38.13 230.96 0.12 384299.66 5974522.77 6221.79 5634.67 -5576.07 -5576.07 38.14 230.90 0.04 384253.37 5974486.35 6315.38 5708.32 -5649.72 -5649.72 38.06 229.58 0.87 384208.41 5974450.09 6409.39 5782.29 -5723.69 -5723.69 38.15 230.18 0.41 384163.49 5974413.39 6504.51 5857.11 -5798.51 -5798.51 38.12 229.63 0.36 384117.99 5974376.25 6598.96 5931.32 -5872.72 -5872.72 38.31 229.19 0.35 384073.04 5974338.92 6693.78 6005.73 -5947.13 -5947.13 38.30 229.62 0.28 384027.83 5974301.35 6788.12 6079.71 -6021.11 -6021.11 38.41 230.73 0.74 383982.31 5974264.55 6883.17 6154.21 -6095.61 -6095.61 38.38 232.16 0.93 383935.59 5974228.47 6977.73 6228.44 -6169.84 -6169.84 38.18 232.93 0.55 383888.56 5974193.55 7073.02 6303.32 -6244.72 -6244.72 38.22 232.12 0.53 383841.25 5974158.42 7168.16 6378.04 -6319.44 -6319.44 38.27 231.96 0.12 383794.27 5974122.90 7261.07 6451.01 -6392.41 -6392.41 38.22 231.19 0.52 383748.67 5974087.85 7355.53 6525.19 -6466.59 -6466.59 38.28 231.10 0.09 383702.58 5974051.86 7449.80 6599.15 -6540.55 -6540.55 38.37 232.15 0.70 383656.20 5974016.27 7543.68 6672.85 -6614.25 -6614.25 38.18 233.20 0.72 383609.43 5973981.72 7638.88 6747.69 -6689.09 -6689.09 38.18 234.66 0.95 383561.34 5973947.81 7732.68 6821.48 -6762.88 -6762.88 38.06 234.29 0.28 383513.71 5973914.88 7827.51 6896.16 -6837.56 -6837.56 38.04 233.75 0.35 383465.90 5973881.28 7921.31 6969.93 -6911.33 -6911.33 38.24 233.28 0.38 383418.80 5973847.54 8015.76 7044.52 -6985.92 -6985.92 37.44 233.55 0.86 383371.76 5973813.72 8109.87 7119.78 -7061.18 -7061.18 36.36 233.51 1.15 383325.81 5973780.83 8203.68 7196.86 -7138.26 -7138.26 33.11 234.70 3.54 383282.06 5973750.14 8298.54 7277.66 -7219.06 -7219.06 30.06 236.25 3.33 383240.72 5973722.59 8393.24 7360.40 -7301.80 -7301.80 28.15 236.77 2.03 383201.93 5973697.76 8488.04 7444.86 -7386.26 -7386.26 25.86 237.43 2.44 383165.44 5973674.92 8581.96 7530.37 -7471.77 -7471.77 22.98 238.78 3.12 383132.19 5973654.90 8676.53 7618.16 -7559.56 -7559.56 20.65 237.98 2.48 383101.98 5973636.94 8770.93 7707.20 -7648.60 -7648.60 18.13 232.92 3.21 383075.88 5973619.65 8865.17 7797.34 -7738.74 -7738.74 15.78 231.14 2.55 383053.94 5973603.10 8960.01 7889.27 -7830.67 -7830.67 12.63 232.65 3.34 383035.44 5973588.99 9054.34 7981.70 -7923.10 -7923.10 10.35 234.03 2.43 383020.22 5973577.99 9147.86 8074.04 -8015.44 -8015.44 7.85 234.94 2.68 383008.06 5973569.57 9242.77 8168.28 -8109.68 -8109.68 5.77 228.65 2.32 382999.06 5973562.83 9336.83 8262.18 -8203.58 -8203.58 0.18 84.97 6.29 382995.61 5973559.77 9432.42 8357.77 -8299.17 -8299.17 0.35 71.06 0.19 382996.04 5973559.87 9526.69 8452.04 -8393.44 -8393.44 0.08 339.63 0.38 382996.29 5973560.03 9620.92 8546.27 -8487.67 -8487.67 0.39 325.47 0.33 382996.08 5973560.35 9708.19 8633.54 -8574.94 -8574.94 0.11 283.45 0.36 382995.84 5973560.62 9806.76 8732.11 -8673.51 -8673.51 0.61 330.41 0.55 382995.50 5973561.10 9861.06 8786.41 -8727.81 -8727.81 0.14 283.47 0.97 382995.30 5973561.37 9956.18 8881.53 -8822.93 -8822.93 0.04 228.80 0.13 382995.16 5973561.38 10050.70 8976.05 -8917.45 -8917.45 0 325.63 0.04 382995.13 5973561.35 10146.03 9071.38 -9012.78 -9012.78 0.10 60.56 0.10 382995.21 5973561.40 10241 9166.35 -9107.75 -9107.75 0.15 67.68 0.06 382995.39 5973561.48 10335.76 9261.11 -9202.51 -9202.51 0.26 26.20 0.19 382995.61 5973561.72 10430.48 9355.83 -9297.23 -9297.23 0.24 41.32 0.07 382995.84 5973562.06 10525.13 9450.48 -9391.88 -9391.88 0.20 47.30 0.05 382996.09 5973562.32 10620.68 9546.03 -9487.43 -9487.43 0.24 62.83 0.07 382996.40 5973562.51 10715.37 9640.72 -9582.12 -9582.12 0.24 27.72 0.15 382996.67 5973562.78 10810.65 9736 -9677.40 -9677.40 0.10 28.89 0.15 382996.81 5973563.03 10906.06 9831.41 -9772.81 -9772.81 0.15 21.72 0.05 382996.90 5973563.22 10999.88 9925.23 -9866.63 -9866.63 0.20 0.05 0.09 382996.94 5973563.49 11094.46 10019.81 -9961.21 -9961.21 0.23 69.87 0.26 382997.13 5973563.71 11099.78 10025.13 -9966.53 -9966.53 0.20 75.76 0.70 382997.15 5973563.72 11155 10080.35 -10021.75 -10021.75 0.20 75.76 0 382997.34 5973563.77 125 records retrieved for Directional Survey From: Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov> Sent: Tuesday, January 24, 2023 1:46 PM To: Well Integrity Specialist CPF2 <n2549@conocophillips.com> Subject: RE: [EXTERNAL]RE: CPAI 10-426 forms for AOGCC witnessed MIT-IAs performed 18 Dec 22 Thanks Dusty. Based on a MD of 9452’, I calculated a TVD of 8579’…can you send me the current directional survey as well? Phoebe Brooks Research Analyst Alaska Oil and Gas Conservation Commission Phone: 907-793-1242 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 Phoebe Brooks at 907-793-1242 or phoebe.brooks@alaska.gov. From: Well Integrity Specialist CPF2 <n2549@conocophillips.com> Sent: Tuesday, January 24, 2023 12:08 PM To: Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov> Subject: RE: [EXTERNAL]RE: CPAI 10-426 forms for AOGCC witnessed MIT-IAs performed 18 Dec 22 Phoebe- Please see attached CD1-33A (PTD #2221050) schematic. The packer that was referenced for the MIT-IA is the 7”x4.5” TNT packer at 9452’ MD or 8467’ TVD. Please let me know if you have any questions or disagree. Dusty Freeborn Well Integrity Specialist ConocoPhillips Alaska, Inc. Office phone: (907) 659-7224 Cell phone: (907) 830-9777 From: Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov> Sent: Monday, January 23, 2023 3:38 PM To: Well Integrity Specialist CPF2 <n2549@conocophillips.com> Subject: [EXTERNAL]RE: CPAI 10-426 forms for AOGCC witnessed MIT-IAs performed 18 Dec 22 CAUTION:This email originated from outside of the organization. Do not click links or open attachments unless you recognize the sender and know the content is safe. Dusty, Would you please send me the well schematic for CD1-33A, PTD #2221050 so I can verify the packer TVD? Thank you, Phoebe Phoebe Brooks Research Analyst Alaska Oil and Gas Conservation Commission 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. Phone: 907-793-1242 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 Phoebe Brooks at 907-793-1242 or phoebe.brooks@alaska.gov. From: Well Integrity Specialist CPF2 <n2549@conocophillips.com> Sent: Tuesday, December 20, 2022 8:10 AM To: Regg, James B (OGC) <jim.regg@alaska.gov>; Wallace, Chris D (OGC) <chris.wallace@alaska.gov>; Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov>; DOA AOGCC Prudhoe Bay <doa.aogcc.prudhoe.bay@alaska.gov> Cc: NSK DHD Field Supervisor <n2238@conocophillips.com> Subject: CPAI 10-426 forms for AOGCC witnessed MIT-IAs performed 18 Dec 22 All- Please see attached 10-426 forms for the AOGCC witnessed MIT-IAs performed 18 Dec 2022. Please let me know if you have any questions or concerns. Dusty Freeborn Well Integrity Specialist ConocoPhillips Alaska, Inc. Office phone: (907) 659-7224 Cell phone: (907) 830-9777 MEMORANDUM State of Alaska Alaska Oil and Gas Conservation Commission DATE:Thursday, January 26, 2023 SUBJECT:Mechanical Integrity Tests TO: FROM:Bob Noble P.I. Supervisor Petroleum Inspector NON-CONFIDENTIAL ConocoPhillips Alaska, Inc. CD1-33A COLVILLE RIV UNIT CD1-33A Jim Regg InspectorSrc: Reviewed By: P.I. Suprv Comm ________ JBR 01/26/2023 CD1-33A 50-103-20357-01-00 222-105-0 N SPT 8467 2221050 2117 1775 1775 1775 1775 45 60 60 60 OTHER P Bob Noble 12/18/2022 Initial MIT-IA class 1 disposal well 30 MinPretest Initial 15 Min Well Name Type Test Notes: Interval P/F Well Permit Number: Type Inj TVD PTD Test psi API Well Number Inspector Name: COLVILLE RIV UNIT CD1-33A Inspection Date: Tubing OA Packer Depth 310 4215 4150 4150IA 45 Min 60 Min Rel Insp Num: Insp Num:mitRCN221221150608 BBL Pumped:4.4 BBL Returned:3.7 Thursday, January 26, 2023 Page 1 of 1 Initial MIT-IA class 1 disposal well WELL NAME API #SERVICE ORDER # FIELD NAMESERVICE DESCRIPTION DELIVERABLE DESCRIPTION DATA TYPE DATE LOGGED CDDirectional SurveyCD1-33A 50-103-20357-01-00 222-105 CRU MWD/LWD/DD VISION SERVICES FINAL FIELD 1#REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF!Transmittal Receipt________________________________ X____________________________________________Print Name Signature DatePlease return via courier or sign/scan and email a copy to Schlumberger.VTuong@slb.comSLB Auditor -A Transmittal Receipt signature confirms that a package (box, envelope, etc.) has been received and the contents of the package have been verified to match the media noted above. The specific content of the CDs and/or hardcopy prints may or may not have been verified for correctness or quality level at this point.# Schlumberger-PrivateBy Meredith Guhl at 9:12 am, Jan 04, 2023222-105T37413Meredith GuhlDigitally signed by Meredith Guhl Date: 2023.01.04 09:12:46 -09'00' TTT RR AA NN SS MM II TT TT AA LL FROM::Sandra D. Lemke, ATO-704 TO:: Meredith Guhl ConocoPhillips Alaska, Inc. AOGCC P.O. Box 100360 333 W. 7 th Ave., Suite 100 Anchorage AK 99510-0360 Anchorage, Alaska 99501 RE:: CD1-33A Permit: 222-105 DATE: 12/27/2022 Transmitted: North Slope, Colville River Unit, Alaska Via SFTP ___Final Mud log data Transmittall instructions: please promptly sign, scan, and e-mail to Sandra.D.Lemke@conocophillips.com CC: CD1-33A e-transmittal well folder Receipt: Date: Alaska/IT-Support Services|ConocoPhillips Alaska |Office: 907.265.6947; Mobile 907.440.4512 By Meredith Guhl at 9:10 am, Dec 29, 2022 222-105 T37400 Meredith Guhl Digitally signed by Meredith Guhl Date: 2022.12.29 09:10:54 -09'00' 1. Operations Susp Well Insp Plug Perforations Fracture Stimulate Pull Tubing Operations shutdown Performed: Install Whipstock Perforate Other Stimulate Alter Casing Change Approved Program Mod Artificial Lift Perforate New Pool Repair Well Coiled Tubing Ops Other: Development Exploratory Stratigraphic Service 6. API Number: 7. Property Designation (Lease Number): 8. Well Name and Number: 9. Logs (List logs and submit electronic data per 20AAC25.071): 10. Field/Pool(s): 11. Present Well Condition Summary: Total Depth measured 11150'feet N/A feet true vertical 10080'feet N/A feet Effective Depth measured 11150'feet 9541', 9582', feet true vertical 10080'feet 8466', 8507'feet Perforation depth Measured depth True Vertical depth Tubing (size, grade, measured and true vertical depth) 4-1/2" L-80 9593' MD 8518' TVD Packers and SSSV (type, measured and true vertical depth) 9541' MD 9582' MD N/A 8466' TVD 8507' TVD N/A 12. Stimulation or cement squeeze summary: Intervals treated (measured): Treatment descriptions including volumes used and final pressure: N/A 13a. *Reference 10-406 for Prior to well operation: Subsequent to operation: 13b. Pools active after work: Undefined waste disposal pool 15. Well Class after work: Daily Report of Well Operations Exploratory Development Service Stratigraphic Copies of Logs and Surveys Run 16. Well Status after work: Oil Gas WDSPL Electronic Fracture Stimulation Data GSTOR GINJ SUSP SPLUG Sundry Number or N/A if C.O. Exempt: Authorized Name and Digital Signature with Date: Contact Name: Contact Email: Authorized Title: Contact Phone: 2376' 2375' Burst Collapse 7844' 1568' Casing 8700' 4- 1/2" 9775' 11150' 10080' 2340' 114'Conductor Surface 16" 9-5/8" 114" measured TVD 7" STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION REPORT OF SUNDRY WELL OPERATIONS 222-105 50-103-20357-01-00 P.O. Box 100360 Anchorage, AK 99510 3. Address: ConocoPhillips Alaska, Inc. N/A 5. Permit to Drill Number:2. Operator Name N 4. Well Class Before Work: ADL0025559 Colville River Field/Undefined Waste Disposal Pool CRU CD1-33A Plugs Junk measured Length Intermediate measured true vertical Packer Representative Daily Average Production or Injection Data Casing Pressure Tubing Pressure 14. Attachments (required per 20 AAC 25.070, 25.071, & 25.283) ~ Gas-Mcf MD ~ Size 114' ~ ~~ ~ ~~ ~ 322-595 Sr Pet Eng: Sr Pet Geo: Sr Res Eng: WINJ WAG ~ Water-BblOil-Bbl 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. N/A Packer: HLB TNT Packer Packer: Baker ZXP LT Packer SSSV: None Travis Smith travis.t.smith@conocophillips.com (907) 265-6846Senior Well Interventions Engineer 10600-10700', 10720-10800', 10870-10990' feet 9525-9625'', 9645-9725', 9795-9915' feet Liner Form 10-404 Revised 10/2022 Due Within 30 days of Operations Submit in PDF format to aogcc.permitting@alaska.gov By Anne Prysunka at 1:17 pm, Dec 28, 2022 DTTMSTART JOBTYP SUMMARYOPS 11/26/2022 SUPPORT OTHER OPERATIONS RIG UP ELINE FOR PERF OPERATIONS. TAG 14' HIGH AT 10996'. CONFIR W/ CONOCO REP, DECISION MADE TO FORGO BOTTOM 20' INTERVAL. PERFORATED INTERVAL = 10970' - 10990'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10966.5'. ***JOB IN PROGRESS*** 11/27/2022 SUPPORT OTHER OPERATIONS ***JOB CONTINUED FROM 26-NOV-2022*** RUN 1 - PERFORATED INTERVAL = 10950' - 10970'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10946.5'. RUN 2 - PERFORATED INTERVAL = 10930' - 10950'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10926.5'. RUN 3 - PERFORATED INTERVAL = 10910' - 10930'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10906.5'. RUN 4 - PERFORATED INTERVAL = 10890' - 10910'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10886.5' RUN 5 - PERFORATED INTERVAL = 10870' - 10890'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10866.5' ***JOB IN PROGRESS*** 11/28/2022 SUPPORT OTHER OPERATIONS ***JOB CONTINUED FROM 27-NOV-2022******JOB RUN 1 - PERFORATED INTERVAL = 10780' - 10800'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10776.5'. RUN 2 - PERFORATED INTERVAL = 10760' - 10780'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10756.5'. RUN 3 - PERFORATED INTERVAL = 10740' - 10760'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10736.5'. RUN 4 - PERFORATED INTERVAL = 10720' - 10740'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10716.5' RUN 5 - PERFORATED INTERVAL = 10680' - 10700'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10676.5' ***JOB IN PROGRESS*** 11/29/2022 SUPPORT OTHER OPERATIONS ***JOB CONTINUED FROM 28-NOV-2022*** RUN 1 - PERFORATED INTERVAL = 10660' - 10680'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10656.5'. RUN 2 - PERFORATED INTERVAL = 10640' - 10660'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10636.5'. RUN 3 - PERFORATED INTERVAL = 10620' - 10640'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10616.5'. RUN 4 - PERFORATED INTERVAL = 10600' - 10620'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10596.5'. JOB COMPLETE, READY FOR STEP RATE INJECTION TEST. CD1-33 Perforations Summary of Operations Last Rev Reason Annotation Wellbore End Date Last Mod By Rev Reason: Perforated CD1-33A 11/29/2022 rmoore22 Casing Strings Csg Des OD (in)ID (in)Top (ftKB) Set Depth (ftKB) Set Depth (TVD) (ftKB)Wt/Len (lb/ft)Grade Top Thread Intermediate 7 6.28 35.7 9,775.2 8,700.5 29.00 L-80 7 Liner 4 1/2 3.96 9,582.3 11,150.0 10,075.3 12.60 L-80 H563 Tubing Strings: string max indicates LONGEST segment of string Top (ftKB) 33.5 Set Depth … 9,593.0 Set Depth… 8,518.3 String Ma… 4 1/2 Tubing Description Tubing – Completion Upper Wt (lb/ft) 12.60 Grade L-80 Top Connection Hyd563 ID (in) 3.99 Completion Details: excludes tubing, pup, space out, thread, RKB... Top (ftKB) Top (TVD) (ftKB) Top Incl (°)Item Des OD Nominal (in)Com Make Model Nominal ID (in) 33.5 33.5 0.00 Hanger 4.500 Tubing Pup Joint, 4-1/2", 12.6#, L- 80, Hyd 563 Gen 5 FMC 3.910 1,162.4 1,161.5 0.41 Nipple 4.500 HES 3.813" X Nipple, 4-1/2", 12.6#, L-80, Hyd 563 HES 4698986 -7 3.813 1,263.8 1,262.9 0.35 Mandrel 4.500 4-1/2"x1" Vanoil KBG 4-5 GLM 12.6#, L-80, Hyd 563 SLMB 23288- 19 3.865 9,445.6 8,371.0 0.31 Gauge / Pump Sensor 4.500 SLB Quartz DHG + Mandrel, 4-1/2", 12.6#, L-80, Hyd 563 SLB 3.920 9,541.8 8,467.1 0.13 TNT Packer 4.500 7" x 4-1/2" TNT Packer (102791176) VamTop HES 4672727 3.876 9,562.5 8,487.8 0.20 No-go nipple 4.500 Camco 3.75" DB Nipple (3.785" LockNoGo) SLMB - CAMCO WO- 8120-4 3.750 9,584.4 8,509.8 0.27 Mechanical collar locator 5.180 Locating Sub No Go BAKER NSAK- SO-22- 1245 3.850 9,584.8 8,510.1 0.27 Wireline guide 3.870 WLEG Shear type Locator BAKER NSAK- SO-22- 1245 3.870 9,586.6 8,512.0 0.28 Profile nipple 4.500 Premium THD Tubing Nipple, 4-1/2", 12.6#, L-80, Hyd 563 BAKER 1345620 6 3.985 9,589.7 8,515.0 0.29 Mule Shoe 4.200 HES Indexing Mule Shoe HES INDEXI NG 3.985 Mandrel Inserts : excludes pulled inserts Top (ftKB) Top (TVD) (ftKB) Top Incl (°) St ati on No /S Serv Valve Type Latch Type OD (in) TRO Run (psi)Run Date Com Make Model Port Size (in) 1,263.8 1,262.9 0.35 1 DMY BK 1 11/25/2022 Liner Details: Excludes Liner, Pup, Joints, casing, float, sub, shoe... Top (ftKB) Top (TVD) (ftKB) Top Incl (°)Item Des OD Nominal (in)Com Make Model Nominal ID (in) 9,582.3 8,507.7 0.26 Packer 7.000 Liner Top Packer,ZXHD, w/10' Seal Bore Extension ZXHD BAKER 4.151 9,608.0 8,533.3 0.35 crossover bushing 5.000 Crossover Bushing 5" VTHT Box x 4-1/2" Hyd563 pin XO 3.830 11,019.8 9,945.1 0.21 Collar - Landing 4.500 Baker Type 1 Landing Collar, 4- 1/2" Hyd 563 BAKER BAKER 3.875 Perforations & Slots Top (ftKB)Btm (ftKB) Top (TVD) (ftKB) Btm (TVD) (ftKB)Linked Zone Date Shot Dens (shots/ft)Type Com 10,600.0 10,700.0 9,525.3 9,625.3 11/29/2022 6.0 APERF 20' GUNS, 2.78' HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,720.0 10,800.0 9,645.3 9,725.3 11/28/2022 6.0 APERF 20' GUNS, 2.78' HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING 10,870.0 10,990.0 9,795.3 9,915.3 11/28/2022 6.0 APERF 20' GUNS, 2.78' HSD, S2906D, HMX, 16.3g - 6 SPF, 60° PHASING CD1-33A, 12/21/2022 3:28:31 PM Vertical schematic (actual) Liner; 9,582.3-11,150.0 APERF; 10,870.0-10,990.0 APERF; 10,720.0-10,800.0 APERF; 10,600.0-10,700.0 Production String 1 Cement; 9,582.0 ftKB Intermediate; 35.7-9,775.2 Profile nipple; 9,586.6 No-go nipple; 9,562.5 TNT Packer; 9,541.7 Intermediate String 1 Cement; 6,481.0 ftKB Stage Cementing; 2,555.0 ftKB PRODUCTION; 34.5-7,878.3 SURFACE; 36.8-2,376.7 Cement Plug; 2,060.0 ftKB Mandrel; 1,263.8 Nipple; 1,162.4 CONDUCTOR Insulated 42"; 38.0-114.0 Hanger; 33.5 WNS DISP KB-Grd (ft) 39.10 RR Date 1/5/2001 Other Elev… CD1-33A ... TD Act Btm (ftKB) 11,155.0 Well Attributes Field Name ALPINE Wellbore API/UWI 501032035701 Wellbore Status DISP Max Angle & MD Incl (°) 38.41 MD (ftKB) 6,788.12 WELLNAME WELLBORE Annotation End DateH2S (ppm)DateComment Last Tag Annotation Depth (ftKB) Wellbore End Date Last Mod By Last Tag: CD1-33 lmosbor Last Rev Reason Annotation Wellbore End Date Last Mod By Rev Reason: Set 4.5" CMT retainer, pump 110 15.8ppg cmt CD1-33 9/17/2022 jhanse11 Casing Strings Csg Des OD (in) ID (in) Top (ftKB) Set Depth (ftKB) Set Depth (TVD) (ftKB) Wt/Len (lb/ft) Grade Top Thread CONDUCTOR Insulated 42" 16 15.06 38.0 114.0 114.0 62.58 H-40 WELDED SURFACE 9 5/8 8.92 36.8 2,376.7 2,375.8 36.00 J-55 BTC-MOD OPEN HOLE 6 1/8 7,878.3 10,854.0 7,058.8 Tubing Strings: string max indicates LONGEST segment of string Top (ftKB) 32.3 Set Depth … 7,654.3 Set Depth … 7,001.4 String Ma… 4 1/2 Tubing Description TUBING Wt (lb/ft) 12.60 Grade L-80 Top Connection IBTM ID (in) 3.96 Completion Details: excludes tubing, pup, space out, thread, RKB... Top (ftKB) Top (TVD) (ftKB) Top Incl (°) Item Des OD Nominal (in)Com Make Model Nominal ID (in) 32.3 32.3 0.07 HANGER 10.000 FMC TUBING HANGER FMC 4.500 1,723.3 1,722.4 0.53 NIPPLE 5.625 CAMCO 'DB' NIPPLE CAMCO DB 3.812 7,597.0 6,981.3 66.49 PACKER 5.970 BAKER S-3 PACKER Baker S-3 3.875 7,642.1 6,997.6 71.16 NIPPLE 5.000 HES 'XN' NIPPLE HES XN 3.725 7,653.0 7,001.0 72.28 WLEG 5.000 WIRELINE ENTRY GUIDE Baker 3.875 Other In Hole (Wireline retrievable plugs, valves, pumps, fish, etc.) Top (ftKB) Top (TVD) (ftKB)Top Incl (°)Des Com Make Model SN Run Date ID (in) 3,118.0 3,117.0 0.51 CIBP CIBP SET WITH DRILL PIPE @ 3118' 10/12/2022 0.000 4,046.0 4,037.9 15.83 CEMENT RETAINER Cement retainer set w/DP @ 4048''. PT to 1500 psi 10/8/2022 4,223.0 4,206.0 20.39 CIBP CIBP set with E-Line @ 4,223'. PT to 2500 psi 10/7/2022 0.000 4,415.0 4,383.0 25.38 CUT Mechanical cut with DB cutter 9/26/2022 3.960 7,626.0 6,992.2 69.49 CEMENT RETAINER 4.5" FH CEMENT RETAINER 3.593" OD X 1.80' SET WITH YELLOWJACKET 4.5 ALPHA FH CR 0053593 037-70D 20983 20222 23421 9/17/2022 0.000 Liner Details: Excludes Liner, Pup, Joints, casing, float, sub, shoe... Top (ftKB) Top (TVD) (ftKB) Top Incl (°) Item Des OD Nominal (in)Com Make Model Nominal ID (in) 7,878.3 7,039.5 87.38 OPEN HOLE 6.125 Perforations & Slots Top (ftKB) Btm (ftKB) Top (TVD) (ftKB) Btm (TVD) (ftKB) Linked Zone Date Shot Dens (shots/ft)Type Com 2,730.0 2,772.0 2,729.0 2,771.0 HALO, CD1-33 10/15/2022 CMT SQZ 40' GUN 4.72" HSD POWERFLOW 4621 - 21 SPF, 135° PHASING GUN. 3,028.0 3,070.0 3,027.0 3,069.0 HALO, CD1-33 10/13/2022 CMT SQZ 40' GUN 4.72" HSD POWERFLOW 4621 - 21 SPF, 135° PHASING GUN. 3,892.0 3,923.0 3,888.3 3,918.6 QANNIK, CD1- 33 10/8/2022 CMT SQZ 30' GUN. 4.72" HSD POWERFLOW 4621 - 21 SPF, 135° PHASING GUN. 4,100.0 4,110.0 4,089.7 4,099.2 QANNIK, CD1- 33 10/7/2022 CMT SQZ 10' GUN 4.72" HSD POWERFLOW 4621 - 21 SPF, 135° PHASING GUN. Cement Squeezes Top (ftKB) Btm (ftKB) Top (TVD) (ftKB) Btm (TVD) (ftKB) Des Com Pump Start Date 5,944.0 7,658.0 5,676.0 7,002.5 Cement Plug 1 BBL 15.8 PPG CLASS G CEMENT PUMPED ON TOP OF RETAINER 9/17/2022 5,944.0 8,000.0 5,676.0 7,042.9 Cement Plug 109 BBLS 15.8 PPG CLASS G CEMENT PUMPED TROUGH RETAINER. 9/17/2022 4,100.0 4,110.0 4,089.7 4,099.2 Squeeze – Behind Casing Squeeze Squeeze 20 bbls of 15.8 ppg cement at 2 bpm, 60- 150 psi. Observe 820 max to break over formation. 10/8/2022 3,988.0 4,223.0 3,981.9 4,206.0 Plug – Plug Back / Abandonment Plug 10/8/2022 3,892.0 3,923.0 3,888.3 3,918.6 Cement Squeeze 10/10/2022 3,216.0 3,988.0 3,215.0 3,981.9 Cement Plug 10/10/2022 3,028.0 3,070.0 3,027.0 3,069.0 Cement Squeeze PT lines to 2300 psi. Pump 14 bbls13.5 mud push. Pump 21 bbls 15.8 class G cement. Pump 6 bbls 13.5 mud push. Pump 17.2 bbls 9.8 brine. 10/13/2022 2,800.0 3,118.0 2,799.0 3,117.0 Cement Plug PT lines to 2300 psi. Pump 14 bbls13.5 mud push. Pump 21 bbls 15.8 class G cement. Pump 6 bbls 13.5 mud push. Pump 17.2 bbls 9.8 brine. 10/13/2022 2,730.0 2,800.0 2,729.0 2,799.0 Cement Squeeze @ 30 RPM, 1K TQ, PUMP 14BBL OF 13.5 PPG MUD PUSH, @ 4BPM, 260 PSI, 32% F/O. PUMP 25BBL OF 15.8 PPG CEMENT @ 4 BPM, 250 PSI, 36 % F/O. PUMP 6BBL 13.5 PPG MUD PUSH @ 4BPM 170 PSI, 29% F/O. PUMP 7BBL 9.8 PPG BRINE @ 4 BPM, 120 PSI, 29 % F/O. PUMP 3.5BBL OF 9.8 PPG, @ 2BPM, 110 PSI, 22% F/O. 10/16/2022 CD1-33, 12/21/2022 3:28:34 PM Vertical schematic (actual) CMT SQZ; 10,970.0-10,990.0 OPEN HOLE; 7,878.3-10,854.0 PRODUCTION; 34.5-7,878.3 CEMENT RETAINER; 7,626.0 PACKER; 7,597.0 Cement Plug; 5,944.0 ftKB Cement Plug; 5,944.0 ftKB CUT; 4,415.0 CIBP; 4,223.0 Squeeze – Behind Casing Squeeze; 4,100.0 ftKB CEMENT RETAINER; 4,046.0 Plug – Plug Back / Abandonment Plug; 3,988.0 ftKB CMT SQZ; 3,892.0-3,923.0 Cement Squeeze; 3,892.0 ftKB Cement Plug; 3,216.0 ftKB CIBP; 3,118.0 CMT SQZ; 3,028.0-3,070.0 Cement Squeeze; 3,028.0 ftKB Cement Plug; 2,800.0 ftKB Cement Squeeze; 2,730.0 ftKB CMT SQZ; 2,730.0-2,772.0 Intermediate; 35.7-9,775.2 SURFACE; 36.8-2,376.7 Cement Plug; 2,060.0 ftKB Mandrel; 1,263.8 Nipple; 1,162.4 CONDUCTOR Insulated 42"; 38.0-114.0 Hanger; 33.5 WNS PROD KB-Grd (ft) 39.10 RR Date 1/5/2001 Other Elev… CD1-33 ... TD Act Btm (ftKB) 10,854.0 Well Attributes Field Name ALPINE Wellbore API/UWI 501032035700 Wellbore Status PROD Max Angle & MD Incl (°) 91.47 MD (ftKB) 10,802.99 WELLNAME WELLBORECD1-33A Annotation Last WO: End DateH2S (ppm) DateComment SSSV: NIPPLE Cement Squeezes Top (ftKB) Btm (ftKB) Top (TVD) (ftKB) Btm (TVD) (ftKB) Des Com Pump Start Date 2,060.0 2,488.0 2,059.1 2,487.1 Cement Plug SLB PUMPS 2 BBLS H20, TEST SURFACE LINES T/ 500/2000 PSI (TEST GOOD). SLB PUMPS 34.6 BBLS 13.5# MUD PUSH II, SHUT DOWN AND DROP WIPER BALL. SLB PUMPS 32.5 BBLS 17# CEMENT, 5.4 BBLS 13.5# MUD PUSH II, SLB DISPLACE 13 BBLS 9.8# BRINE. ROTATE 20 RPM, 1K TQ DURING CEMENT JOB 10/22/2022 CD1-33, 12/21/2022 3:28:35 PM Vertical schematic (actual) CMT SQZ; 10,970.0-10,990.0 OPEN HOLE; 7,878.3-10,854.0 PRODUCTION; 34.5-7,878.3 CEMENT RETAINER; 7,626.0 PACKER; 7,597.0 Cement Plug; 5,944.0 ftKB Cement Plug; 5,944.0 ftKB CUT; 4,415.0 CIBP; 4,223.0 Squeeze – Behind Casing Squeeze; 4,100.0 ftKB CEMENT RETAINER; 4,046.0 Plug – Plug Back / Abandonment Plug; 3,988.0 ftKB CMT SQZ; 3,892.0-3,923.0 Cement Squeeze; 3,892.0 ftKB Cement Plug; 3,216.0 ftKB CIBP; 3,118.0 CMT SQZ; 3,028.0-3,070.0 Cement Squeeze; 3,028.0 ftKB Cement Plug; 2,800.0 ftKB Cement Squeeze; 2,730.0 ftKB CMT SQZ; 2,730.0-2,772.0 Intermediate; 35.7-9,775.2 SURFACE; 36.8-2,376.7 Cement Plug; 2,060.0 ftKB Mandrel; 1,263.8 Nipple; 1,162.4 CONDUCTOR Insulated 42"; 38.0-114.0 Hanger; 33.5 WNS PROD CD1-33 ... WELLNAME WELLBORECD1-33A 1a. Well Status:Oil SPLUG Other Abandoned Suspended 1b. Well Class: 20AAC 25.105 20AAC 25.110 Development Exploratory GINJ WINJ WDSPL No. of Completions: __________________ Service Stratigraphic Test 2. Operator Name: 6. Date Comp., Susp., or 14. Permit to Drill Number / Sundry: Aband.: 3. Address: 7. Date Spudded: 15. API Number: 4a. Location of Well (Governmental Section): 8. Date TD Reached: 16. Well Name and Number: Surface: Top of Productive Interval: 9. Ref Elevations: KB: 17. Field / Pool(s): GL: 19.5 BF: Total Depth: 2609' FNL, 4492 FWL, Sec 6, T11N, R5E 10. Plug Back Depth MD/TVD: 18. Property Designation: 4b. Location of Well (State Base Plane Coordinates, NAD 27): 11. Total Depth MD/TVD: 19. DNR Approval Number: Surface: x- y- Zone- 4 TPI: x- y- Zone- 4 12. SSSV Depth MD/TVD: 20. Thickness of Permafrost MD/TVD: Total Depth: x- y- Zone- 4 5. Directional or Inclination Survey: Yes (attached) No 13. Water Depth, if Offshore: 21. Re-drill/Lateral Top Window MD/TVD: Submit electronic information per 20 AAC 25.050 N/A (ft MSL) 22. Logs Obtained: 23. BOTTOM 16" H-40 114' 9-5/8" J-55 2376' 7" L-80 8701' 4 1/2" L-80 10075' 24. Open to production or injection? Yes No 25. 26. Was hydraulic fracturing used during completion? Yes No DEPTH INTERVAL (MD) AMOUNT AND KIND OF MATERIAL USED 27. Date First Production: Method of Operation (Flowing, gas lift, etc.): Hours Tested: Production for Gas-MCF: Test Period Casing Press: Calculated Gas-MCF: Oil Gravity - API (corr): Press. 24-Hour Rate 40' 9582' 2340' If Yes, list each interval open (MD/TVD of Top and Bottom; Perforation Size and Number; Date perf'd or liner run): ACID, FRACTURE, CEMENT SQUEEZE, ETC. CASING, LINER AND CEMENTING RECORD List all logs run and, pursuant to AS 31.05.030 and 20 AAC 25.071, submit all electronic data within 90 days of completion, Tail: 43.7bbls 15.6ppg Class G 6" TUBING RECORD Stage 1: Lead 132.7bbl 13ppg Class G Tail: 25bbls 15.6ppg Blend Stage2: 165.7bbls of 11.0ppg Class G 6" 9593'4.5" STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION WELL COMPLETION OR RECOMPLETION REPORT AND LOG ConocoPhillips Alaska, Inc. WAG Gas 11/23/2022 222-105, 322-594 50-103-20357-01-00 CRU CD1-33A ADL0025559 97-007 10/27/2022 11155' MD/10099'TVD N/A 58.6 P.O. Box 100360 Anchorage, AK 99510-0360 385773 5975677 2608 FNL, 4497 FWL, Sec 6, T11N, R5E CASING WT. PER FT.GRADE 11/16/2022 CEMENTING RECORD 5973565 804'MD/806'TVD SETTING DEPTH TVD 5973564 TOP HOLE SIZE AMOUNT PULLED 383002 382997 TOP SETTING DEPTH MD suspension, or abandonment; or within 90 days of acquisition of the log, whichever occurs first. Types of logs to be listed include, but are not limited to: mud log, spontaneous potential, gamma ray, caliper, resistivity, porosity, magnetic resonance, dipmeter, formation tester, temperature, cement evaluation, casing collar locator, jewelry, and perforation record. Acronyms may be used. Attach a separate page only if necessary. Coville River Field/ Undefined Waste Disposal Pool 451' FNL, 2349' FWL, Sec 5, T11N, R5E 2418' MD/2417'TVD BOTTOM 40' Surface Per 20 AAC 25.283 (i)(2) attach electronic information 29 11150' 8700' 10080' 62.58 36 114' 40' 9775' SIZE DEPTH SET (MD) PACKER SET (MD/TVD) 20" 8-3/4"2375' 12.6 Flow Tubing Liner @9582'MD/8507'TVD to 11150'MD/10075'TVD 6" Open hole @ 11150' MD/10075'TVD to 11155'MD/ 10099'TVD Perforations: 10600'MD/9525'TVD to 10700'MD/9625'TVD 10720'MD/9645'TVD to 10800'MD/9725'TVD 10870'MD/9795'TVD to 10990'MD/9915'TVD Gas-Oil Ratio:Choke Size: Sr Res EngSr Pet GeoSr Pet Eng N/A Oil-Bbl: Water-Bbl: 9541'MD/8466' TVD 9582'MD/8508'TVD GR, RES, PWD, DEN-NEU POROSITY, ULTRA SONIC CALIPER, DTC/DTS, RES IMAGE, CBL, IBC-CBL, USIT-CBL, MUD LOG Water-Bbl: PRODUCTION TEST N/A Date of Test: Oil-Bbl: Form 10-407 Revised 10/2022 Due within 30 days of Completion, Suspension, or Abandonment By James Brooks at 1:20 pm, Dec 22, 2022 Completed 11/23/2022 JSB RBDMS JSB 010523 G CDW 01/10/2023 DSR-1/9/23 Conventional Core(s): Yes No Sidewall Cores: 30. MD TVD Surface Surface 804 806 C30 2419 2418 2777 2766 3057 3034 4197 4037 7517 6652 7857 6919 9208 10282 11155 10099 (Ivishak) 31. List of Attachments: 32. I hereby certify that the foregoing is true and correct to the best of my knowledge. Contact Name: Jenna Taylor Digital Signature with Date:Contact Email:jenna.l.taylor@conocophillips.com Contact Phone:907-263-4522 General: Item 1a: Item 1b: Item 4b: Item 9: Item 15: Item 19: Item 20: Item 22: Item 23: Item 24: Item 27: Item 28: Item 30: Item 31: Yes No Well tested? Yes No 28. CORE DATA If Yes, list intervals and formations tested, briefly summarizing test results for each. Attach separate pages if needed and submit detailed test info including reports and Excel or ASCII tables per 20 AAC 25.071. NAME Permafrost - Top Permafrost - Base If Yes, list formations and intervals cored (MD/TVD, From/To), and briefly summarize lithology and presence of oil, gas or water (submit separate pages if needed). Submit detailed descriptions, core chips, photographs, and all subsequent laboratory analytical results per 20 AAC 25.071 no matter when acquired. 29. GEOLOGIC MARKERS and POOL BOUNDARIES: (list all encountered) FORMATION TESTS Review the reporting requirements of 20 AAC 25.071 and, pursuant to AS 31.05.030, submit all electronic data within 90 days of completion, suspension, or abandonment; or 90 days after log acquisition, whichever occurs first. Well Class - Service wells: Gas Injection, Water Injection, Water-Alternating-Gas Injection, Salt Water Disposal, Water Supply for Injection, Observation, or Other. HRZ C20 Kuparuk C Report the Division of Oil & Gas / Division of Mining Land and Water: Plan of Operations (LO/Region YY-123), Land Use Permit (LAS 12345), and/or Easement (ADL 123456) number. The Kelly Bushing, Ground Level, and Base Flange elevations in feet above Mean Sea Level. Use same as reference for depth measurements given in other spaces on this form and in any attachments. The API number reported to AOGCC must be 14 digits (ex: 50-029-20123-00-00). This form and the required attachments provide a complete and concise record for each well drilled in Alaska. Submit a current well schematic diagram with each 10-407. Submit 10-407 and attachments in PDF format to aogcc.permitting@alaska.gov. All laboratory analytical reports from a well must be submitted to the AOGCC, no matter when the analyses are conducted per 20 AAC 25.071. Information to be attached includes, but is not limited to: summary of daily operations, wellbore schematic, directional or inclination survey, as-built, core analysis, paleontological report, production or well test results, per 20 AAC 25.070. Multiple completion is defined as a well producing from more than one pool with production from each pool completely segregated. Each segregated pool is a completion. C10 K2 Formation Name at TD: Pursuant to 20 AAC 25.070, attach to this form: well schematic diagram, summary of daily well operations, directional or inclination survey, and other tests as required including, but not limited to: core analysis, paleontological report, production or well test results. Report measured depth and true vertical thickness of permafrost. Provide MD and TVD for the top and base of permafrost in Box 29. Attached supplemental records should show the details of any multiple stage cementing and the location of the cementing tool. If this well is completed for separate production from more than one interval (multiple completion), so state in item 1, and in item 23 show the producing intervals for only the interval reported in item 26. (Submit a separate form for each additional interval to be separately produced, showing the data pertinent to such interval). Provide a listing of intervals cored and the corresponding formations, and a brief description in this box. Pursuant to 20 AAC 25.071, submit detailed descriptions, core chips, photographs, and all subsequent laboratory analytical results, including, but not limited to: porosity, permeability, fluid saturation, fluid composition, fluid fluorescence, vitrinite reflectance, geochemical, or paleontology. Method of Operation: Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water Injection, Gas Injection, Shut-in, or Other (explain). Provide a listing of intervals tested and the corresponding formation, and a brief summary in this box. Submit detailed test and analytical laboratory information required by 20 AAC 25.071. TPI (Top of Producing Interval). Authorized Name and INSTRUCTIONS Top of Productive Interval (Ivishak) Authorized Title: Senior Wells Analyst Direction Survey, Operations Summary, Cementing Summary, Well Schematic Form 10-407 Revised 10/2022 Submit in PDF format to aogcc.permitting@alaska.gov Digitally signed by Jenna Taylor DN: CN=Jenna Taylor, E=jenna.l.taylor@conocophillips.com Reason: I am the author of this document Location: Date: 2022.12.22 12:42:21-09'00' Foxit PDF Editor Version: 12.0.1Jenna Taylor In j e c t i o n I n t e r v a l Co n f i n i n g I n t e r v a l CD1-33A FINAL -As Run RKB = 58.6' AMSL JJL –11/22/2022 16" 62.58 ppf H-40 Insulated Conductor 114' MD/ TVD - Cemented to surface Surface Casing 9-5/8" 36# J-55 BTC-M 2376' MD / 2375' TVD -Cemented to surface Lower ES-II Cementer 4539' MD / 4308' TVD 7" 26# L-80 HYD563 9775' MD / 8700' TVD 8-3/4” INT hole 9789' MD / 8714' TVD 4-½" 12.6# L-80 HYD563 9592' MD / 8517' TVD Logged - 6743' MD / 6044' TVD KOP 2418' MD / 2417' TVD Upper ES-II Cementer/ TOC 500' Above Halo (C-10) 2553' MD/ 2549' TVD HRDE ZXP Liner Top PKR 9582' MD / 8507' TVD 7" x 4-½” Production Packer 9541' MD / 8466' TVD Halo – Oil/Gas Zone 3057' MD / 3034' TVD Qannik – Oil/Gas Zone T/ 4197' MD / 4037' TVD B/ 4340' MD / 4150' TVD Sag River – Injection Zone - 9831' MD / 8757' TVD Shublik – Barrier - 9870' MD / 8795' TVD Ivishak – T/ Injection Zone – 10282' MD / 9208' TVD Nanuq – Oil Zone 6936' MD / 6196' TVD UJU - 8124' MD / 7131' TVD (Top Confining) Logged - 9582' MD/ 8507' TVD TAM External Casing Packer (ECP) 4547' MD / 4314' TVD 4-1/2" 12.6# L-80 HYD563 11150' MD / 10075' TVD 6-1/8” Production Hole 11155' MD / 10080' TVD GL X Top of cement – First Stage DB Alpine C – Oil Zone 8034' MD / 7060' TVD 11.0 ppg DeepCRETE 11 ppg NAF Freeze Protect 13.0 ppg DeepCRETE Lead 15.6 ppg Class “G” Tail Ivishak – B/ Injection Zone – 11014' MD / 9939' TVD SLB Quartz DHG 9445' MD / 8370' TVD Camco 3.75 DB Nipple 9562' MD/ 8487' TVD Vanoil KBG 4-5 GLM w/ SOV 1263' MD / TVD HES 3.813" X Nipple 1162' MD / TVD Kingak – 8171' MD / 7170' TVD 4-½” Liner Top of cement Base Kingak/ Top Sag River (Base Confining) Page 1/1 CD1-33 Report Printed: 12/20/2022 WSR - Enter WSR Details API / UWI 5010320357 Field Name ALPINE Well Type Development Well Status DISP Original KB/RT Elevation (ft) 58.60 Primary Job Type SUPPORT OTHER OPERATIONS Secondary Job Type ABANDONMENT Start Date 11/26/2022 05:30 Final Job Status IN PROGRESS Primary Wellbore Affected CD1-33A Objective Network/ID # Cost Type Project Desc Estimator 10448064 Capitalize CD1-33A - Wells (WD-04) DRILL STRINGS - First Date Pick Up should be >= Report Start Date & Last Date Out of Hole <= Report End Date String Name BHA No. BHA Objective BHA Result Date Pick Up Date Out of Hole <<24 HOUR SUMMARY IS READ BY MANY>> Report End Date 11/26/2022 19:00 Last 24hr Summary RIG UP ELINE FOR PERF OPERATIONS. TAG 14' HIGH AT 10996'. CONFIR W/ CONOCO REP, DECISION MADE TO FORGO BOTTOM 20' INTERVAL. PERFORATED INTERVAL = 10970' - 10990'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10966.5'. ***JOB IN PROGRESS*** Time Log: Enter DURATION and OPERATION << while in edit data mode, verify it's the WELLBORE you are ACTUALLY WORKING in >> Start Time Dur (hr) Cum Dur (hr) Major Equip Activity Code Time P-T-X Operation Wellbore 05:30 1.50 1.50 EW TRAV P DRIVE FROM K-PAD TO CD1-33A, PICK UP WELL FILE AND SYNC COMPUTER. CD1-33A 07:00 5.00 6.50 EW RURD P SPOT IN EQUIPMENT AND STANDBY FOR HEATER/TRIPLEX/DIESEL PUP. CD1-33A 12:00 1.00 7.50 EW RURD P SUPPORT EQUIPMENT ARRIVE, APPLY HEAT TO CRANE TURRET (FROZEN). CD1-33A 13:00 1.00 8.50 EW RURD P RIG UP, ASSEMBLE TOOLSTRING AND PERFORM CHECKS. ARM GUNSTRING. CD1-33A 14:00 1.25 9.75 EW RURD P PULL TREE CAP AND STAB ON. INSTALL FUSIBLE AND NOTIFY DSO. THAW FLOW HOSE WITH HEATER AND PERFORM PASSING PT TO 500/3000 PSI. CD1-33A 15:15 1.00 10.75 EW ELNE P SWAB OPEN, RIH W/ MH-22/ERS/UPCT/20' X 2.875" HSD, 6 SPF, 60 DEG PHASE. OAL = 31', OAW = 300 LBS, MAX OD 3.16" (GUN SWELL IN FLUID). TIE INTO SLB MEASURED DEPTH LOG DATED 17-NOV-2022 CD1-33A 16:15 1.25 12.00 EW ELNE P TAG HIGH AT 10996'. CONFIR W/ CONOCO REP, DECISION MADE TO PERF 20' HIGHER. PERFORATED INTERVAL = 10970' - 10990'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10966.5'. GOOD INDICATION. POOH. CD1-33A 17:30 1.00 13.00 EW RURD P SWAB CLOSED, BLEED OFF, UNSTAB AND CONFIRM GUN FIRED. DISASSEMBLE TOOLSTRING AND LAY DOWN THE LUBRICATOR. INSTALL NIGHT CAP AND REMOVE FUSIBLE. CD1-33A 18:30 0.50 13.50 EW TRAV P LEAVE LOCATION AND DRIVE TO K-PAD TO RETURN IN THE MORNING. ***JOB IN PROGRESS*** CD1-33A Responsible Daily Contact = Operator onsite performing work Supervisor Company Mobile Phone Work MONTGOMERY, BOBBY,Dig SL Engineer SLB 885-4096 N/A Well Fluids: One type of fluid per line To (bbl) = # of barrels away Note = Where delivered <TBG, IA, OA, FL> Fluid Fluid Sub Type To (bbl) Dens (°API) Purpose Note DAILY PRESSURES - Capture your INITIAL T/I/O FINAL T/I/O pressure measurements here Type Subtype P (psi) Equip Pres Tests: Regulatory Tests Captured Here Des Test Type Test Subtype Tst Rslt Date Item Tested Well Pres? Fluid Type Job Vol Pumped (bbl) Vol Lost (bbl) Density (° API) Page 1/2 CD1-33 Report Printed: 12/20/2022 WSR - Enter WSR Details API / UWI 5010320357 Field Name ALPINE Well Type Development Well Status DISP Original KB/RT Elevation (ft) 58.60 Primary Job Type SUPPORT OTHER OPERATIONS Secondary Job Type ABANDONMENT Start Date 11/26/2022 05:30 Final Job Status IN PROGRESS Primary Wellbore Affected CD1-33A Objective Network/ID # Cost Type Project Desc Estimator 10448064 Capitalize CD1-33A - Wells (WD-04) DRILL STRINGS - First Date Pick Up should be >= Report Start Date & Last Date Out of Hole <= Report End Date String Name BHA No. BHA Objective BHA Result Date Pick Up Date Out of Hole <<24 HOUR SUMMARY IS READ BY MANY>> Report End Date 11/27/2022 20:30 Last 24hr Summary ***JOB CONTINUED FROM 26-NOV-2022*** RUN 1 - PERFORATED INTERVAL = 10950' - 10970'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10946.5'. RUN 2 - PERFORATED INTERVAL = 10930' - 10950'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10926.5'. RUN 3 - PERFORATED INTERVAL = 10910' - 10930'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10906.5'. RUN 4 - PERFORATED INTERVAL = 10890' - 10910'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10886.5' RUN 5 - PERFORATED INTERVAL = 10870' - 10890'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10866.5' ***JOB IN PROGRESS*** Time Log: Enter DURATION and OPERATION << while in edit data mode, verify it's the WELLBORE you are ACTUALLY WORKING in >> Start Time Dur (hr) Cum Dur (hr) Major Equip Activity Code Time P-T-X Operation Wellbore 05:30 0.50 0.50 EW TRAV P SYNC COMPUTER AND DRIVE FROM K-PAD TO CD1-33. CD1-33A 06:00 1.00 1.50 EW RURD P PICK UP LUBRICATOR, ASSEMBLE TOOLSTRING AND PERFOM CHECKS. ARM GUNSTRING. CD1-33A 07:00 0.50 2.00 EW RURD P PULL TREE CAP AND STAB ON. PERFORM PASSING PT TO 500/3000 PSI. CD1-33A 07:30 1.25 3.25 EW ELNE P SWAB OPEN, RIH W/ MH-22/ERS/UPCT/20' X 2.88" HSD, 6 SPF, 60 DEG PHASE. OAL = 31', OAW = 300 LBS, MAX OD = 3.16" (GUN SWELL IN FLUID). TIE INTO SLB MEASURED DEPTH LOG DATED 17-NOV-2022. CD1-33A 08:45 1.00 4.25 EW ELNE P PERFORATED INTERVAL = 10950' - 10970'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10946.5'. GOOD INDICATION, POOH CD1-33A 09:45 1.00 5.25 EW ELNE P AT SURFACE, BLEED OFF, UNSTAB AND CONFIRM GUN FIRED. CHECK FIRE AND ARM NEXT GUN. CD1-33A 10:45 1.00 6.25 EW ELNE P PT QTS, RIH W/ SAME TOOLSTRING CONFIGURATION. CD1-33A 11:45 1.00 7.25 EW ELNE P PERFORATED INTERVAL = 10930' - 10950', CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10926.5'. GOOD INDICATION, POOH. CD1-33A 12:45 0.50 7.75 EW ELNE P AT SURFACE, BLEED OFF, UNSTAB AND CONFIRM GUN FIRED. CHECK FIRE AND ARM NEXT GUN. CD1-33A 13:15 0.75 8.50 EW ELNE P PT QTS, RIH W/ SAME TOOLSTRING CONFIGURATION CD1-33A 14:00 1.00 9.50 EW ELNE P PERFORATED INTERVAL = 10910' - 10930', CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10906.5'. GOOD INDICATION, POOH CD1-33A 15:00 0.50 10.00 EW ELNE P AT SURFACE, BLEED OFF, UNSTAB AND CONFIRM GUN FIRED. CHECK FIRE AND ARM NEXT GUN. CD1-33A 15:30 0.50 10.50 EW ELNE P PT QTS, RIH W/ SAME TOOLSTRING CONFIGURATION. CD1-33A 16:00 1.00 11.50 EW ELNE P PERFORATED INTERVAL = 10890' - 10910', CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10886.5'. GOOD INDICATION, POOH CD1-33A 17:00 0.75 12.25 EW ELNE P AT SURFACE, BLEED OFF, UNSTAB AND CONFIRM GUN FIRED. CHECK FIRE AND ARM NEXT GUN. CD1-33A 17:45 0.50 12.75 EW ELNE P PT QTS, RIH W/ SAME TOOLSTRING CONFIGURATION. CD1-33A 18:15 1.00 13.75 EW ELNE P PERFORATED INTERVAL = 10870' - 10890', CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10866.5'. GOOD INDICATION, POOH. CD1-33A 19:15 1.00 14.75 EW RURD P SWAB CLOSED, BLEED OFF, UNSTAB AND CONFIRM GUN FIRED. DISASSEMBLE TOOLSTRING AND LAY DOWN LUBRICATOR. INSTALL NIGHT CAP, WELL SECURE. CD1-33A 20:15 0.25 15.00 EW TRAV P LEAVE LOCATION TO RETURN IN THE MORNING. DRIVE TO K-PAD AND SYNC COMPUTER. ***JOB IN PROGRESS*** CD1-33A Responsible Daily Contact = Operator onsite performing work Supervisor Company Mobile Phone Work MONTGOMERY, BOBBY,Dig SL Engineer SLB 885-4096 N/A Well Fluids: One type of fluid per line To (bbl) = # of barrels away Note = Where delivered <TBG, IA, OA, FL> Fluid Fluid Sub Type To (bbl) Dens (°API) Purpose Note Page 2/2 CD1-33 Report Printed: 12/20/2022 WSR - Enter WSR Details DAILY PRESSURES - Capture your INITIAL T/I/O FINAL T/I/O pressure measurements here Type Subtype P (psi) Equip Pres Tests: Regulatory Tests Captured Here Des Test Type Test Subtype Tst Rslt Date Item Tested Well Pres? Fluid Type Job Vol Pumped (bbl) Vol Lost (bbl) Density (° API) Page 1/2 CD1-33 Report Printed: 12/20/2022 WSR - Enter WSR Details API / UWI 5010320357 Field Name ALPINE Well Type Development Well Status DISP Original KB/RT Elevation (ft) 58.60 Primary Job Type SUPPORT OTHER OPERATIONS Secondary Job Type ABANDONMENT Start Date 11/26/2022 05:30 Final Job Status IN PROGRESS Primary Wellbore Affected CD1-33A Objective Network/ID # Cost Type Project Desc Estimator 10448064 Capitalize CD1-33A - Wells (WD-04) DRILL STRINGS - First Date Pick Up should be >= Report Start Date & Last Date Out of Hole <= Report End Date String Name BHA No. BHA Objective BHA Result Date Pick Up Date Out of Hole <<24 HOUR SUMMARY IS READ BY MANY>> Report End Date 11/28/2022 18:45 Last 24hr Summary ***JOB CONTINUED FROM 27-NOV-2022******JOB RUN 1 - PERFORATED INTERVAL = 10780' - 10800'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10776.5'. RUN 2 - PERFORATED INTERVAL = 10760' - 10780'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10756.5'. RUN 3 - PERFORATED INTERVAL = 10740' - 10760'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10736.5'. RUN 4 - PERFORATED INTERVAL = 10720' - 10740'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10716.5' RUN 5 - PERFORATED INTERVAL = 10680' - 10700'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10676.5' ***JOB IN PROGRESS*** Time Log: Enter DURATION and OPERATION << while in edit data mode, verify it's the WELLBORE you are ACTUALLY WORKING in >> Start Time Dur (hr) Cum Dur (hr) Major Equip Activity Code Time P-T-X Operation Wellbore 05:30 0.50 0.50 EW TRAV P DRIVE FROM K-PAD TO CD1-33A. CD1-33 06:00 1.00 1.50 EW RURD P PICK UP LUBRICATOR, ASSEMBLE TOOLSTRING, CHECK FIRE AND ARM GUNSTRING. CD1-33 07:00 0.75 2.25 EW RURD P PULL NIGHT CAP AND STAB ON. PERFORM PASSING PT TO 500/3000 PSI. CD1-33 07:45 0.75 3.00 EW ELNE P SWAB OPEN, RIH W/ MH-22 (1.375" FN)/ERS/UPCT/20' X 2.88 HSD, 6 SPF, 60 DEG PHASE. OAL = 31', OAW = 300 LBS, MAX OD = 3.16" (GUN SWELL IN FLUID). TIE INTO SLB MEASURED DEPTH LOG DATED 17-NOV-2022. CD1-33 08:30 0.50 3.50 EW ELNE P PERFORATED INTERVAL = 10780' - 10800', CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10776.5'. GOOD INDICATION, POOH. CD1-33 09:00 0.75 4.25 EW ELNE P AT SURFACE, BLEED OFF, STAB OFF, CHECK FIRE AND ARM NEXT GUN CD1-33 09:45 0.75 5.00 EW ELNE P PT QTS, RIH WITH SAME TOOLSTRING CONFIGURATION CD1-33 10:30 0.50 5.50 EW ELNE P PERFORATED INTERVAL = 10760' - 10780', CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10756.5'. GOOD INDICATION, POOH. CD1-33 11:00 0.75 6.25 EW ELNE P AT SURFACE, BLEED DOWN, STAB OFF, HOTCHECK AND ARM NEXT GUN CD1-33 11:45 0.50 6.75 EW ELNE P PT QTS, RIH WITH SAME TOOLSTRING CONFIGURATION CD1-33 12:15 0.75 7.50 EW ELNE P PERFORATED INTERVAL = 10740' - 10760', CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10736.5'. GOOD INDICATION, POOH. CD1-33 13:00 0.50 8.00 EW ELNE P AT SURFACE, BLEED DOWN AND STAB OFF, HOTCHECK AND ARM NEXT GUN CD1-33 13:30 0.50 8.50 EW ELNE P PT QTS, RIH WITH SAME TOOLSTRING CONFIGURATION CD1-33 14:00 0.50 9.00 EW ELNE P PERFORATED INTERVAL = 10720' - 10740', CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10716.5'. GOOD INDICATION, POOH. CD1-33 14:30 0.50 9.50 EW ELNE P AT SURFACE, BLEED DOWN AND STAB OFF, HOTCHECK AND ARM NEXT GUN CD1-33 15:00 0.50 10.00 EW ELNE P PT QTS, RIH WITH SAME TOOLSTRING CONFIGURATION CD1-33 15:30 0.75 10.75 EW ELNE P PERFORATED INTERVAL = 10680' - 10700-, CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10676.5', GOOD INDICATION, POOH CD1-33 16:15 1.00 11.75 EW RURD P SWAB CLOSED, BLEED OFF, UNSTAB AND CONFIRM GUN FIRED. DISASSEMBLE TOOLSTRING AND LAY DOWN LUBRICATOR. INSTALL TREE CAP, AND REMOVE FUSIBLE. CD1-33 17:15 1.50 13.25 EW TRAV P RE-HEAD AS PART OF PRE-JOB PREP, SYNC COMPUTER AND DRIVE TO K-PAD. ***JOB IN PROGRESS*** CD1-33 Responsible Daily Contact = Operator onsite performing work Supervisor Company Mobile Phone Work MONTGOMERY, BOBBY,Dig SL Engineer SLB 885-4096 N/A Well Fluids: One type of fluid per line To (bbl) = # of barrels away Note = Where delivered <TBG, IA, OA, FL> Fluid Fluid Sub Type To (bbl) Dens (°API) Purpose Note DAILY PRESSURES - Capture your INITIAL T/I/O FINAL T/I/O pressure measurements here Type Subtype P (psi) Page 2/2 CD1-33 Report Printed: 12/20/2022 WSR - Enter WSR Details Equip Pres Tests: Regulatory Tests Captured Here Des Test Type Test Subtype Tst Rslt Date Item Tested Well Pres? Fluid Type Job Vol Pumped (bbl) Vol Lost (bbl) Density (° API) Page 1/1 CD1-33 Report Printed: 12/20/2022 WSR - Enter WSR Details API / UWI 5010320357 Field Name ALPINE Well Type Development Well Status DISP Original KB/RT Elevation (ft) 58.60 Primary Job Type SUPPORT OTHER OPERATIONS Secondary Job Type ABANDONMENT Start Date 11/26/2022 05:30 Final Job Status IN PROGRESS Primary Wellbore Affected CD1-33A Objective Network/ID # Cost Type Project Desc Estimator 10448064 Capitalize CD1-33A - Wells (WD-04) DRILL STRINGS - First Date Pick Up should be >= Report Start Date & Last Date Out of Hole <= Report End Date String Name BHA No. BHA Objective BHA Result Date Pick Up Date Out of Hole <<24 HOUR SUMMARY IS READ BY MANY>> Report End Date 11/29/2022 18:00 Last 24hr Summary ***JOB CONTINUED FROM 28-NOV-2022*** RUN 1 - PERFORATED INTERVAL = 10660' - 10680'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10656.5'. RUN 2 - PERFORATED INTERVAL = 10640' - 10660'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10636.5'. RUN 3 - PERFORATED INTERVAL = 10620' - 10640'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10616.5'. RUN 4 - PERFORATED INTERVAL = 10600' - 10620'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10596.5'. JOB COMPLETE, READY FOR STEP RATE INJECTION TEST. Time Log: Enter DURATION and OPERATION << while in edit data mode, verify it's the WELLBORE you are ACTUALLY WORKING in >> Start Time Dur (hr) Cum Dur (hr) Major Equip Activity Code Time P-T-X Operation Wellbore 05:30 0.50 0.50 EW TRAV P DRIVE FROM K-PAD TO CD1-33 CD1-33A 06:00 2.00 2.50 EW RURD P CHECK ON EQUIPMENT, PICK UP LUBRICATOR, ASSEMBLE TOOLSTRING AND CHECK FIRE. ARM GUNSTRING. CD1-33A 08:00 0.50 3.00 EW RURD P PULL NIGHT CAP AND INSTALL FUSIBLE. NOTIFY DSO. STAB ON AND PERFORM PASSING PT TO 500/3000 PSI. CD1-33A 08:30 0.75 3.75 EW ELNE P SWAB OPEN, RIH W/ MH-22/ERS/UPCT/20' X 2.88" HSD, 6 SPF, 60 DEG PHASE. OAL = 31', OAW = 300 LBS, MAX OD = 3.16" (GUN SWELL IN FLUID). TIE INTO SLB MEARSURED DEPTH LOG DATED 17-NOV-2022. CD1-33A 09:15 0.75 4.50 EW ELNE P PERFORATED INTERVAL = 10660' - 10680'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10656.5'. GOOD INDICATION, POOH. CD1-33A 10:00 0.75 5.25 EW ELNE P AT SURFACE, BLEED OFF, UNSTAB, CHECK FIRE AND ARM NEXT GUN. CD1-33A 10:45 0.50 5.75 EW ELNE P PT QTS, SWAB OPEN. RIH W/ SAME TOOLSTRING CONFIGURATION. CD1-33A 11:15 0.50 6.25 EW ELNE P PERFORATED INTERVAL = 10640' - 10660'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10636.5'. GOOD INDICATION, POOH. CD1-33A 11:45 0.75 7.00 EW ELNE P AT SURFACE, BLEED OFF, UNSTAB, CHECK FIRE AND ARM NEXT GUN. CD1-33A 12:30 0.50 7.50 EW ELNE P PT QTS, SWAB OPEN. RIH W/ SAME TOOLSTRING CONFIGURATION. CD1-33A 13:00 0.50 8.00 EW ELNE P PERFORATED INTERVAL = 10620' - 10640'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10616.5'. GOOD INDICATION, POOH. CD1-33A 13:30 0.75 8.75 EW ELNE P AT SURFACE, BLEED OFF, UNSTAB, CHECK FIRE AND ARM NEXT GUN. CD1-33A 14:15 0.75 9.50 EW ELNE P PT QTS, SWAB OPEN. RIH W/ SAME TOOLSTRING CONFIGURATION CD1-33A 15:00 0.50 10.00 EW ELNE P PERFORATED INTERVAL = 10600' - 10640'. CCL TO TOP SHOT = 3.5', CCL STOP DEPTH = 10596.6'. GOOD INDICATION, POOH. CD1-33A 15:30 2.00 12.00 EW RURD P SWAB CLOSED. BLEED OFF, UNSTAB AND CONFIRM GUN FIRED. DISASSEMBLE TOOLSTRING AND BEGIN RIG DOWN. INSTALL TREE CAP AND REMOVE FUSIBLE. CD1-33A 17:30 0.50 12.50 EW TRAV P JOB COMPLETE, DRIVE EQUIPMENT TO SPOT UP ON CD2-53. RETURN WELL FILE AND SYNC COMPUTER. CD1-33A Responsible Daily Contact = Operator onsite performing work Supervisor Company Mobile Phone Work MONTGOMERY, BOBBY,Dig SL Engineer SLB 885-4096 N/A Well Fluids: One type of fluid per line To (bbl) = # of barrels away Note = Where delivered <TBG, IA, OA, FL> Fluid Fluid Sub Type To (bbl) Dens (°API) Purpose Note DAILY PRESSURES - Capture your INITIAL T/I/O FINAL T/I/O pressure measurements here Type Subtype P (psi) Equip Pres Tests: Regulatory Tests Captured Here Des Test Type Test Subtype Tst Rslt Date Item Tested Well Pres? Fluid Type Job Vol Pumped (bbl) Vol Lost (bbl) Density (° API) Page 1/3 CD1-33 Report Printed: 12/20/2022 WSR - Enter WSR Details API / UWI 5010320357 Field Name ALPINE Well Type Development Well Status DISP Original KB/RT Elevation (ft) 58.60 Primary Job Type SUPPORT OTHER OPERATIONS Secondary Job Type ABANDONMENT Start Date 11/26/2022 05:30 Final Job Status IN PROGRESS Primary Wellbore Affected CD1-33A Objective Network/ID # Cost Type Project Desc Estimator 10448064 Capitalize CD1-33A - Wells (WD-04) DRILL STRINGS - First Date Pick Up should be >= Report Start Date & Last Date Out of Hole <= Report End Date String Name BHA No. BHA Objective BHA Result Date Pick Up Date Out of Hole <<24 HOUR SUMMARY IS READ BY MANY>> Report End Date 11/30/2022 20:00 Last 24hr Summary SRT PUMP 623 BBL SW PUMP 90 BBL DSL JOB COMPLETE Page 2/3 CD1-33 Report Printed: 12/20/2022 WSR - Enter WSR Details Time Log: Enter DURATION and OPERATION << while in edit data mode, verify it's the WELLBORE you are ACTUALLY WORKING in >> Start Time Dur (hr) Cum Dur (hr) Major Equip Activity Code Time P-T-X Operation Wellbore 06:00 14.00 14.00 PM PUMP P DIESEL BBL BPM TBG IA OA SP 1. 19 460 0 518504730 10 1 864 419 0 30 1 1084 146 0 45 1 1260 0 0 SWAP TO SW SP 1 1260 0 0 10 1 1350 0 0 25 1 1400 0 0 35 1 1437 0 0 50 1 1505 0 0 70 1 1638 0 0 90 1 1770 0 0 100 1 1871 0 0 115 1 2000 0 0 130 1 1935 0 0 140 1 1861 0 0 170 1 1820 0 0 BPM .25 SP .25 1678 0 0 7.5 .25 1654 0 0 BPM .4 SP .4 1654 0 0 13 .4 1658 0 0 12 .4 1663 0 0 BPM .75 SP .75 1676 0 0 6 .75 1705 0 0 12 .75 1687 0 0 BPM1.5 SP 1.5 1697 0 0 20 1.5 1722 0 0 45 1.5 1693 0 0 BPM 2.3 SP 2.3 1730 0 0 40 2.3 1739 0 0 69 2.3 1723 0 0 BPM 3 SP 3 1746 0 0 30 3 1677 0 0 50 3 1726 0 0 90 3 1720 0 0 BPM 3.9 SP 3.9 1730 0 0 45 3.9 1786 0 0 117 3.9 1834 0 0 SWAP TO DSL FP SP 1 1747 0 0 25 1 1770 0 0 45 DOP 519 0 0 CD1-33 Responsible Daily Contact = Operator onsite performing work Supervisor Company Mobile Phone Work LANDENGLOS, MICKEY,Pump Operator LRS 529-9989 670-4925 Well Fluids: One type of fluid per line To (bbl) = # of barrels away Note = Where delivered <TBG, IA, OA, FL> Fluid Fluid Sub Type To (bbl) Dens (°API) Purpose Note SEAWATER 623.0 TBG Page 3/3 CD1-33 Report Printed: 12/20/2022 WSR - Enter WSR Details Well Fluids: One type of fluid per line To (bbl) = # of barrels away Note = Where delivered <TBG, IA, OA, FL> Fluid Fluid Sub Type To (bbl) Dens (°API) Purpose Note DIESEL 90.0 TBG DAILY PRESSURES - Capture your INITIAL T/I/O FINAL T/I/O pressure measurements here Type Subtype P (psi) FINAL IA 0.0 FINAL OA 0.0 FINAL T 1,500.0 INITIAL IA 455.0 INITIAL OA 0.0 INITIAL T 0.0 Equip Pres Tests: Regulatory Tests Captured Here Des Test Type Test Subtype Tst Rslt Date Item Tested Well Pres? 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"(2//!#"( %#%' 2'/(#'!  @<A(@9@&') %2'$#% %#% $%#!$ /2%,#, (2!"#$ (2,'!#!,/2%(#,, !2/,2!$(#!, "(2//!#"/ %#% 2'/(#,  @<A(@9@&') %2('#%% %#! $,#$" /2$$#' (2!"#(, (2,'!#"/2%,#,' !2/,2!$(#$$ "(2//$#%" %#%$ 2'/(#,  @<A(@9@&') %2!#,$ %#($ ($#(% /2($#% (2!"#% (2,'!#,/2(%(#!% !2/,2!$(#"/ "(2//$#(/ %#/ 2'/#"$  @<A(@9@&') %2'%#'" %#(' '#( /2!!#"( (2!,#$/ (2,''#/'/2(/,#(( !2/,2!$#( "(2//$#! %#%, 2'/#',  @<A(@9@&') %2!(!# %#(% ',#% /2'!%#', (2!,#' (2,''#$//2/#", !2/,2!$#'/ "(2//$#," %#%! 2'/#  @<A(@9@&') %2$(%#$" %#(' $(#" /2!'$#%( (2!,#( (2,''#//2'",#'( !2/,2!$#$/ "(2//,#%/ %#%, 2'/%#,!  @<A(@9@&') %2,!#, %#(' (,#,( /2$'%#, (2!$#/$ (2,''#(/2!"(# !2/,2!$#/! "(2//,#$ %#! 2'/%#,  @<A(@9@&') %2"%#$! %#% ("#"/ /2,!#// (2!$#, (2,'#///2$,,#/ !2/,2!$'#(% "(2//,#'/ %#! 2'/%#  @<A(@9@&') %2/%$#%$ %#! (#,( /2"#'% (2!$#!( (2,'#/%/2,,(#"% !2/,2!$'#/ "(2//,#!" %#%! 2'"/#/  @<A(@9@&') %2///#"" %#(% %#%! /2/(!#(( (2!$#(! (2,'#"$/2"$$#$( !2/,2!$'#$$ "(2//,#$ %#%/ 2'"/#,(  @<A(@9@&') 2%/'#'$ %#( $/#", %2%/#"% (2!$#% (2,'#$"/2/$#(% !2/,2!$'#"/ "(2//,#"( %#($ 2'"/#''  @<A(@9@&') 2%//#," %#(% ,!#,$ %2%(!#( (2!$#% (2,'#$$/2/$$#!( !2/,2!$'#/% "(2//,#" %#,% 2'"/#'(  @<A(@9@&') 2!%#%% %#(% ,!#,$ %2%,!#' (2!!#/, (2,'#'/%2%$#,' !2/,2!$'#/' "(2//"#% %#%% 2'"/#($ 1B*+* + >/;&  2!!#%% %#(% ,!#,$ %2%"%#' (2!!#/$ (2,'#',%2%(#,' !2/,2!$'#/' "(2//"#%( %#%% 2'"/#(' 1B*+* + $ '      Page 1/1 CD1-33 Report Printed: 12/20/2022 Cement Cement Details Description Intermediate String 1 Cement Cementing Start Date 11/7/2022 21:00 Cementing End Date 11/8/2022 00:15 Wellbore Name CD1-33A Comment PT LINES WITH WATER AND TEST TO 650 LOW, 3500 HIGH (GOOD). PUMP 40 BBLS 12 PPG MUD PUSH @ 3 BPM, ICP - 483, FCP - 450. PUMP 132.7 BBLS OF 13 PPG LEAD CEMENT @ 4 BPM, ICP - 274, FCP - 320, PUMP 25 BBLS OF 15.6 PPG TAIL CEMENT @ 4 BPM, 50 PSI. DROP SHUT OFF PLUG AND KICK OUT W/ 10 BBLS OF WATER. CHASE PLUG WITH 135 BBLS OF 14 PPG LSND FROM THE PITS @ 6 BPM, ICP - 110 PSI, FCP - 281. PUMP 11 PPG LSND @ 5 BPM, ICP - 75. FCP - 500. SLOW RT TO 3 BPM, 375 PSI AND LAND PLUG @ 3490 STKS. CIP @ 00:39 HRS. PRESSURE UP TO 800 PSI AND HOLD FOR 5 MIN, BLEED OFF TO CHECK FLOATS. OBSERVE FLOATS NOT HOLDING. Cement Stages Stage # 1 Description Intermediate String 1 Cement Objective Top Depth (ftKB) 6,481.0 Bottom Depth (ftKB) 9,789.0 Full Return? No Vol Cement … 0.0 Top Plug? No Btm Plug? Yes Q Pump Init (bbl/m… 3 Q Pump Final (bbl/… 3 Q Pump Avg (bbl/… 5 P Pump Final (psi) 500.0 P Plug Bump (psi) 375.0 Recip? No Stroke (ft) Rotated? No Pipe RPM (rpm) Tagged Depth (ftKB) Tag Method Depth Plug Drilled Out To (ftKB) Drill Out Diameter (in) Comment Pump 40.3 bbls of 12 ppg Mud Push Pump 132.7 bbls of 13.0 ppg cement - lead Pump 25 bbls of 15.6 ppg tail. cip @ 00:39 hrs Cement Fluids & Additives Fluid Fluid Type Lead Cement Fluid Description Estimated Top (ftKB) Est Btm (ftKB) 9,775.0 Amount (sacks) 394 Class G Volume Pumped (bbl) 132.7 Yield (ft³/sack) 1.89 Mix H20 Ratio (gal/sack) 10.34 Free Water (%) Density (lb/gal) 13.00 Plastic Viscosity (cP) 43.0 Thickening Time (hr) 12.00 CmprStr 1 (psi) Additives Additive Type Concentration Conc Unit label Fluid Fluid Type Tail Cement Fluid Description Estimated Top (ftKB) 9,775.0 Est Btm (ftKB) 9,775.0 Amount (sacks) 117 Class Blend Volume Pumped (bbl) 25.0 Yield (ft³/sack) 1.20 Mix H20 Ratio (gal/sack) 5.01 Free Water (%) Density (lb/gal) 15.60 Plastic Viscosity (cP) 84.0 Thickening Time (hr) 11.00 CmprStr 1 (psi) Additives Additive Type Concentration Conc Unit label Stage # 2 Description Stage Cementing Objective Top Depth (ftKB) 2,555.0 Bottom Depth (ftKB) 4,540.0 Full Return? No Vol Cement … 30.0 Top Plug? No Btm Plug? Yes Q Pump Init (bbl/m… 3 Q Pump Final (bbl/… 2 Q Pump Avg (bbl/… 3 P Pump Final (psi) 430.0 P Plug Bump (psi) 475.0 Recip? No Stroke (ft) Rotated? No Pipe RPM (rpm) Tagged Depth (ftKB) Tag Method Depth Plug Drilled Out To (ftKB) Drill Out Diameter (in) Comment Pump 32.1 bbls of 11.0 ppg mud push Pump 165.7 bbls of 11.0 cement cip @ 01:08 hrs Cement Fluids & Additives Fluid Fluid Type Intermediate Cement Fluid Description Estimated Top (ftKB) 2,552.0 Est Btm (ftKB) 4,539.0 Amount (sacks) 487 Class G Volume Pumped (bbl) 165.7 Yield (ft³/sack) 1.91 Mix H20 Ratio (gal/sack) 6.68 Free Water (%) Density (lb/gal) 11.00 Plastic Viscosity (cP) 219.0 Thickening Time (hr) 5.00 CmprStr 1 (psi) Additives Additive Type Concentration Conc Unit label Intermediate String 1 Cement Page 1/1 CD1-33 Report Printed: 12/20/2022 Cement Cement Details Description Intermediate String 1 Cement Cementing Start Date 11/8/2022 22:00 Cementing End Date 11/9/2022 01:15 Wellbore Name CD1-33A Comment PJSM WITH ALL HANDS INVOLVED. PT LINES TO 630 LOW, 3500 HIGH (GOOD). PUMP 32.1 BBLS 11.0 PPG MUD PUSH AT 3 BPM, ICP - 280 FCP - 270 W/ 26% F/O. PUMP 165.7 BBLS OF 11.0 PPG CEMENT @ 3 BPM, ICP - 300 FCP - 280 W/ 26% F/O. DROP DART. KICK OUT DART W/ 10 BBLS OF WATER @ 3 BPM, 290 PSI, 26% F/O. PUMP 75 BBLS OF 11.0 LSND @ 3 BPM, ICP - 313, FCP - 414, PUMP 55 BBLS OF 11.0 CONTAM PILL @ 3 BPM, ICP - 414, SLOW RT TO 2.5 BPM, FCP - 261, PUMP 11.0 PPG LSND TO BUMP PLUG @ 2 BPM, ICP - 461, FCP - 475. BUMP PLUG @ 1639 STKS. CIP @ 01:08 HRS. OBSERVE 30 BBLS OF CEMENT TO SURFACE. Cement Stages Stage # <Stage Number?> Description Objective Top Depth (ftKB) Bottom Depth (ftKB) Full Return?Vol Cement …Top Plug? Btm Plug? Q Pump Init (bbl/m… Q Pump Final (bbl/… Q Pump Avg (bbl/…P Pump Final (psi) P Plug Bump (psi) Recip? Stroke (ft) Rotated? Pipe RPM (rpm) Tagged Depth (ftKB) Tag Method Depth Plug Drilled Out To (ftKB) Drill Out Diameter (in) Comment Cement Fluids & Additives Fluid Fluid Type Fluid Description Estimated Top (ftKB) Est Btm (ftKB) Amount (sacks) Class Volume Pumped (bbl) Yield (ft³/sack) Mix H20 Ratio (gal/sack) Free Water (%) Density (lb/gal) Plastic Viscosity (cP) Thickening Time (hr) CmprStr 1 (psi) Additives Additive Type Concentration Conc Unit label Intermediate String 1 Cement Page 1/1 CD1-33 Report Printed: 12/20/2022 Cement Cement Details Description Production String 1 Cement Cementing Start Date 11/18/2022 18:45 Cementing End Date 11/18/2022 21:30 Wellbore Name CD1-33A Comment PJSM, CEMENTERS PUMP 5 BBLS H20, TEST CEMENT LINES T/ 600 LOW AND 4,500 HIGH (GOOD). PUMP 20.1 BBLS 12# MUD PUSH II @ 2.4 BPM, ICP= 881 PSI, FCP= 591 PSI, 37% F/O. FOLLOWED BY 43.7 BBLS OF 15.6# TAIL CEMENT @ 3 BPM, ICP= 670, FCP= 127 PSI, 37% F/O. FLUSH 10 BBLS BRINE TO CEMENTERS W/ RIG PUMP. DROP DART AND CHASE WITH 120 BBLS OF BRINE (20 BBLS CI BRINE INSIDE LINER) @ 3BPM ICP= 25 PSI, FCP= 986 PSI. LATCHED UP TO WIPER PLUG @ 780 STKS, BUMPED PLUG @ 986 STKS, PRESSURE UP TO 1,500 PSI AND HOLD F/ 5 MIN. CIP @ 21:20 HRS. CHECK FLOATS (GOOD). 12 BBLS LOST DURING INITIAL SWAP TO RIG PUMPS VIA MPD BACK PRESSURE - 26 BBLS TOTAL LOST DURING TASK. Cement Stages Stage # <Stage Number?> Description Production String 1 Cement Objective cement liner Top Depth (ftKB) 9,582.0 Bottom Depth (ftKB) 11,155.0 Full Return? No Vol Cement … 25.0 Top Plug? Yes Btm Plug? No Q Pump Init (bbl/m… 2 Q Pump Final (bbl/… 3 Q Pump Avg (bbl/… 3 P Pump Final (psi) 747.0 P Plug Bump (psi) 986.0 Recip? No Stroke (ft) Rotated? Yes Pipe RPM (rpm) Tagged Depth (ftKB) Tag Method Depth Plug Drilled Out To (ftKB) Drill Out Diameter (in) Comment Pump 20.1 bbls 12# mud push II Pump 43.7 class G 15.6 ppg tail cement Cement Fluids & Additives Fluid Fluid Type Tail Cement Fluid Description Estimated Top (ftKB) 9,582.0 Est Btm (ftKB) 11,155.0 Amount (sacks) 295 Class G Volume Pumped (bbl) 43.7 Yield (ft³/sack) 1.20 Mix H20 Ratio (gal/sack) 4.85 Free Water (%) Density (lb/gal) 15.60 Plastic Viscosity (cP) 184.0 Thickening Time (hr) 11.00 CmprStr 1 (psi) Additives Additive Type Concentration Conc Unit label Production String 1 Cement Originated: Delivered to:16-Dec-22Halliburton Alaska Oil and Gas Conservation Comm.Wireline & Perforating Attn.: Natural Resource TechnicianAttn: Fanny Haroun 333 West 7th Avenue, Suite 1006900 Arctic Blvd. Anchorage, Alaska 99501Anchorage, Alaska 99518Office: 907-275-2605FRS_ANC@halliburton.comThe technical data listed below is being submitted herewith. Please address any problems orconcerns to the attention of the sender aboveWELL NAME API # SERVICE ORDER # FIELD NAME JOB TYPE DATA TYPE LOGGING DATE PRINTS #DIGITAL #1 CD1-33A 50-103-20357-01 908286413 Colville RiverWater Flow and Injection Profile RecordField & Processed 5-Dec-22 0 12345PLEASE ACKNOWLEDGE RECEIPT BY SIGNING AND RETURNING A COPY OF THE TRANSMITTAL LETTER TO THE ATTENTION OF:Fanny Haroun, Halliburton Wireline & Perforating, 6900 Arctic Blvd., Anchorage, AK 99518FRS_ANC@halliburton.comDate:Signed:Transmittal Date:By Meredith Guhl at 11:45 am, Dec 16, 2022222-105T37382Meredith GuhlDigitally signed by Meredith Guhl Date: 2022.12.16 11:45:33 -09'00' 1 Regg, James B (OGC) From:Brooks, Phoebe L (OGC) Sent:Tuesday, November 22, 2022 1:59 PM To:Rig 142 Cc:Regg, James B (OGC); Doyon 142 Company Man Subject:RE: CD1-33Weekly bop test Attachments:Doyon 142 10-05-22 Revised.xlsx; Doyon 142 10-11-22 Revised.xlsx; Doyon 142 10-17-22 Revised.xlsx; Doyon 142 10-26-22 Revised.xlsx; Doyon 142 11-10-22 Revised.xlsx Based on the type of operation/timeline, attached are revised reports as follows:  Doyon 142 10‐05‐22 – Test reflects Initial Workover for CD1‐33, PTD #2002120, sundry #322‐459 Doyon 142 10‐11‐22 & 10‐17‐22 – Test reflects Weekly Workover for CD1‐33, PTD #2002120, sundry #322‐459 Doyon 142 10‐26‐22 – Test reflects Initial Drilling for CD1‐33A, PTD #2221050 Doyon 142 11‐10‐22 – Test reflects Bi‐Weekly Drilling for CD1‐33A, PTD #2221050 Please update your copies.  Thank you,  Phoebe  Phoebe Brooks  Research Analyst  Alaska Oil and Gas Conservation Commission  Phone: 907‐793‐1242  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 Phoebe Brooks at 907-793-1242 or phoebe.brooks@alaska.gov.   From: Rig 142 <rig142@doyondrilling.com>   Sent: Friday, November 18, 2022 1:21 PM  To: Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov>  Cc: Regg, James B (OGC) <jim.regg@alaska.gov>; Doyon 142 Company Man <d142cm@conocophillips.com>  Subject: RE: CD1‐33Weekly bop test   10/26 report would be the initial drilling report on a bi weekly test cycle  Matthew .  From: Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov>   Sent: Thursday, November 17, 2022 10:18 AM  To: Rig 142 <rig142@doyondrilling.com>  Cc: Regg, James B (OGC) <jim.regg@alaska.gov>  Subject: RE: CD1‐33Weekly bop test   CRU CD1-33A PTD 2221050 2 10/27? If Drilling kicked off on 10/27, then the 10/26 report should also be Workover on CD1‐33. Please clarify.    Thank you,  Phoebe     Phoebe Brooks  Research Analyst  Alaska Oil and Gas Conservation Commission  Phone: 907‐793‐1242    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 Phoebe Brooks at 907-793-1242 or phoebe.brooks@alaska.gov.     From: Rig 142 <rig142@doyondrilling.com>   Sent: Monday, November 14, 2022 1:41 PM  To: Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov>  Cc: Doyon 142 Company Man <d142cm@conocophillips.com>  Subject: RE: CD1‐33Weekly bop test     Negative. Kicked off drilling 10/27.    From: Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov>   Sent: Monday, November 14, 2022 1:14 PM  To: Rig 142 <rig142@doyondrilling.com>  Subject: RE: CD1‐33Weekly bop test     Was the window cut at the time of the 10/05 report?     Phoebe Brooks  Research Analyst  Alaska Oil and Gas Conservation Commission  Phone: 907‐793‐1242    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 Phoebe Brooks at 907-793-1242 or phoebe.brooks@alaska.gov.     From: Rig 142 <rig142@doyondrilling.com>   Sent: Monday, November 14, 2022 10:59 AM  To: Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov>  Cc: Regg, James B (OGC) <jim.regg@alaska.gov>  Subject: RE: CD1‐33Weekly bop test     Consulted with Company Rep to correct findings. Reports 10/05, 10/11, 10/17 should have concluded Workover‐ Weekly. Reports 10/26, 11/10 as Drilling Bi‐weekly.   Report 10/17 had wrong PTD# and Sundry from original CD1‐33 well. should be stated as current PTD# 2221050, Sundry  # 322594. Revised attachment sent. Apologies     3 MATTHEW SAM Rig 142 Toolpusher Rig142@doyondrilling.com Doyon Rig 142 907-670-6002 Cell, 907-322-3715 From: Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov>   Sent: Monday, November 14, 2022 9:43 AM  To: Rig 142 <rig142@doyondrilling.com>  Cc: Regg, James B (OGC) <jim.regg@alaska.gov>  Subject: RE: CD1‐33Weekly bop test   The initial report on 10/05/22, witnessed by Austin McLeod, was revised to include Initial Drilling for CD1‐33A based on  his report. The subsequent report on 10/11/22 was changed to Weekly Drilling (based on the initial drilling report on  10/5) for CD1‐33A and now this 10/17/22 report includes Weekly Workover with well name CD1‐33A, but PTD #2002120  which is for CD1‐33 (with reports 10/26 & 11/10 as Bi‐Weekly Drilling for CD1‐33A)?   Please clarify.  Thank you,  Phoebe   Phoebe Brooks  Research Analyst  Alaska Oil and Gas Conservation Commission  Phone: 907‐793‐1242  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 Phoebe Brooks at 907-793-1242 or phoebe.brooks@alaska.gov.   From: Rig 142 <rig142@doyondrilling.com>   Sent: Tuesday, October 18, 2022 3:19 PM  To: Regg, James B (OGC) <jim.regg@alaska.gov>; DOA AOGCC Prudhoe Bay <doa.aogcc.prudhoe.bay@alaska.gov>;  Brooks, Phoebe L (OGC) <phoebe.brooks@alaska.gov>  Subject: CD1‐33Weekly bop test   Weekly bop test form, test sequence, 2‐ test charts. Had a Failure on UPPER IBOP, changed out and re‐tested, FP on  blinds, bleed air, re‐tested  MATTHEW SAM 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. 4 Rig 142 Toolpusher Rig142@doyondrilling.com Doyon Rig 142 907-670-6002 Cell, 907-322-3715 STATE OF ALASKA OIL AND GAS CONSERVATION COMMISSION *All BOPE reports are due to the agency within 5 days of testing* Submit to:jim.regg@alaska.gov; AOGCC.Inspectors@alaska.gov; phoebe.brooks@alaska.gov Rig Owner:Rig No.:142 DATE:10/26/22 Rig Rep.:Rig Email: Operator: Operator Rep.:Op. Rep Email: Well Name:PTD #2221050 Sundry # Operation:Drilling:X Workover:Explor.: Test:Initial:X Weekly:Bi-Weekly:Other: Rams:250/4200 Annular:250/2500 Valves:250/4200 MASP:3846 MISC. INSPECTIONS:TEST DATA FLOOR SAFETY VALVES: Test Result/Type Test Result Quantity Test Result Housekeeping P Well Sign P Upper Kelly 1 P Permit On Location P Hazard Sec.P Lower Kelly 1 P Standing Order Posted P Misc.NA Ball Type 2 P Test Fluid Water Inside BOP 1 P FSV Misc 0 NA BOP STACK:Quantity Size/Type Test Result MUD SYSTEM:Visual Alarm Stripper 0 NA Trip Tank P P Annular Preventer 1 13-5/8" 5M P Pit Level Indicators P P #1 Rams 1 4.5" x 7"P Flow Indicator P P #2 Rams 1 Blind/Shear P Meth Gas Detector P P #3 Rams 1 3.5" x 6"P H2S Gas Detector P P #4 Rams 0 NA MS Misc 0 NA #5 Rams 0 NA #6 Rams 0 NA ACCUMULATOR SYSTEM: Choke Ln. Valves 1 3-1/8" 5M P Time/Pressure Test Result HCR Valves 2 3-1/8" 5M P System Pressure (psi)3100 P Kill Line Valves 3 3-1/8" 5M P Pressure After Closure (psi)1500 P Check Valve 0 NA 200 psi Attained (sec)8 P BOP Misc 0 NA Full Pressure Attained (sec)67 P Blind Switch Covers:All stations Yes CHOKE MANIFOLD:Bottle Precharge:P Quantity Test Result Nitgn. Bottles # & psi (Avg.):#6@2000 P No. Valves 14 P ACC Misc 0 NA Manual Chokes 1 P Hydraulic Chokes 1 P Control System Response Time:Time (sec)Test Result CH Misc 0 NA Annular Preventer 15 P #1 Rams 6 P Coiled Tubing Only:#2 Rams 6 P Inside Reel valves 0 NA #3 Rams 6 P #4 Rams 0 NA Test Results #5 Rams 0 NA #6 Rams 0 NA Number of Failures:0 Test Time:4.3 HCR Choke 1 P Repair or replacement of equipment will be made within 0 days. HCR Kill 1 P Remarks: AOGCC Inspection 24 hr Notice Yes Date/Time 10-24-22 @ 07:50 Waived By Test Start Date/Time:10/25/2022 21:30 (date)(time)Witness Test Finish Date/Time:10/26/2022 2:00 BOPE Test Report Notify the AOGCC of repairs with written confirmation to: AOGCC.Inspectors@alaska.gov Sully Sullivan Doyon Test Annular w/ 5" & 7" Test jt's 250 lo & 3500 hi. Test Rams #1 w/ 5" & 7" Test jts, rams #3 w/ 5'' test jts , test 2ea 5" FOSV & 1ea 5" Dart. All test 250psi-lo, 5000psi-Hi 5min ea on chart. hyd/ adjustable chk tested to 2000psi. Test all H2S, gas, pvt and flow alarms, both audible & visual. All rams functioned from both the primary and remote controls. Drawdown conducted w/ 2ea Air, and 2ea Electric pumps. Bottle precharge 1000psi. M.Sam / A. Allen CPAI M.Tucker/ M. Arthur CRU CD1-33A Test Pressure (psi): d142cm@conocophillips.com rig142@doyondrilling.com Form 10-424 (Revised 08/2022)2022-1026_BOP_Doyon142_CRU_CD1-33A        J. Regg; 11/25/2022 BOPE Test - Doyon 142 CRU CD1-33A (PTD 2221050) 10/26/2022 J. Regg; 11/25/2022 DOYON RIG 142 ACCUMULATOR DRAW DOWN WORKSHEET WELL: CDl-33 DATE: 10/26/22 ACCUMULATOR PSI I 15"00 ~ i oo MANIFOLD PSI FUNCTION RAMS/ANNULAR/ HCR'S, DON'T FUNCTION BLiNDSI FUNCTION ONE RAM TWICE LET PRSSURE STABILIZE AND RECORD BACK UP NITROGEN BOTILE'S ACCUMULATOR PSI ( to 00 NITROGEN BOTTLE'S PSI BOTTLE # 1 lODO BOTTLE # 2 Z.ooo BOTTLE # 3 2-000 BOTTLE #4 2-000 BOTTLE # 5 ~OO 0 BOTTLE # 6 Z:» 0 b AVG FOR 6 BOTTLE'S = 2-00 0 ITURN ON ELEC. PUMP, SEC FOR 200 PSI = TURN ON AIR PUMP'S ITIME FOR FULL CHARAGE = C) OS'(IA} 1'" v-e, s 'A1f\V\.. I 5 so- U?\C.> (J 5U- fol,..bS U sec, L (J<f.S (,. 'eL lti LL \ cec On~~ l $eL =======CD1-33A (PTD 2221050) J. Regg; 11/25/2022 Title: Rig 142 Test BOPE Rev #: 0 Page 4 of5 Department: Operations 10/30/2015 Document No.: SOP-1269 TEST Joint size 5 " /_ oSt:JO Test 1: Annular/choke valves 1, 12, 13, 14 and rig floor kill line valve, Dart :tt1_.~6D'()/~ote closing time for annular sec. I Time starts when activated and stops when manifold pressure reaches 1,500 psi. /Open: Bleeder on Mud Manifold & Whitey Valve atop #1 choke valve. \/' _ Test~ Upper VBR's/choke valves 9, 11, Mezz Kill Line, FOSV-;j:-( ---- 3 Note closing time for VBR's sec. ~pen : Annular, 12, Floor Kill line I ~ .Y- Test ~ CLOSE 8,10, HCR kill, t=c>SV # Z. pen: 11, mezzanine kill I 1=05 V ..:d ( est ~ Close 6, 7, Manual Kill 5 . Open: 8, 10, HCR kill *Leave 9 Closed* /' Test~: Close super choke and manual operated choke l.P Test chokes to 250 low, 2,000 high. Straight line not required for this test. ~pen 9 and 7. _JL_ Test~: Close 2 and 5 71- ~pen super choke and manual operated choke. -¥-- Test ~ Lower VBR's ? Note closing time for VBR's sec. / Perform Koomey Drawdown Test. Close Man Choke Valve. Open VBR's. Remove test fitting ...__. and install on # 1 choke valve. After drawdown test leave HCR choke valve closed and open Manual choke valve. :L Test!: Remove test jt Close:~, 4, (6 should still be shut), Blinds Open: manual choke valve, 1,2, and 5 Install JEST Joint size 1- " . V 'est II: Annular, HCR Choke, Upper IBOP ._ 10 5,000 Open: 3,4, and 6 _2"iest ~' Manual Choke Valve, Lower !BOP Open: HCR Choke, Upper IBOP Doyon Drilling Inc. PAPER COPIES ARE UNCONTROLLED. The controlled version of this document resides on the DDl web site. CRU CD1-33A (PTD 2221050) 10/26/2022 J. Regg; 11/25/2022 STATE OF ALASKA OIL AND GAS CONSERVATION COMMISSION *All BOPE reports are due to the agency within 5 days of testing* Submit to:jim.regg@alaska.gov; AOGCC.Inspectors@alaska.gov; phoebe.brooks@alaska.gov Rig Owner:Rig No.:142 DATE:11/10/22 Rig Rep.:Rig Email: Operator: Operator Rep.:Op. Rep Email: Well Name:PTD #2221050 Sundry # Operation:Drilling:X Workover:Explor.: Test:Initial:Weekly:Bi-Weekly:X Other: Rams:250/4200 Annular:250/2500 Valves:250/4200 MASP:3846 MISC. INSPECTIONS:TEST DATA FLOOR SAFETY VALVES: Test Result/Type Test Result Quantity Test Result Housekeeping P Well Sign P Upper Kelly 1 P Permit On Location P Hazard Sec.P Lower Kelly 1 P Standing Order Posted P Misc.NA Ball Type 2 P Test Fluid Water Inside BOP 1 P FSV Misc 0 NA BOP STACK:Quantity Size/Type Test Result MUD SYSTEM:Visual Alarm Stripper 0 NA Trip Tank P P Annular Preventer 1 13-5/8" 5M P Pit Level Indicators P P #1 Rams 1 2 7/8"x 5"P Flow Indicator P P #2 Rams 1 Blind/Shear P Meth Gas Detector P P #3 Rams 1 3.5" x 6"P H2S Gas Detector P P #4 Rams 0 NA MS Misc 0 NA #5 Rams 0 NA #6 Rams 0 NA ACCUMULATOR SYSTEM: Choke Ln. Valves 1 3-1/8" 5M P Time/Pressure Test Result HCR Valves 2 3-1/8" 5M P System Pressure (psi)3000 P Kill Line Valves 3 3-1/8" 5M P Pressure After Closure (psi)1550 P Check Valve 0 NA 200 psi Attained (sec)8 P BOP Misc 0 NA Full Pressure Attained (sec)88 P Blind Switch Covers:All stations Yes CHOKE MANIFOLD:Bottle Precharge:P Quantity Test Result Nitgn. Bottles # & psi (Avg.):6@2000 P No. Valves 14 P ACC Misc 0 NA Manual Chokes 1 P Hydraulic Chokes 1 P Control System Response Time:Time (sec)Test Result CH Misc 0 NA Annular Preventer 22 P #1 Rams 7 P Coiled Tubing Only:#2 Rams 6 P Inside Reel valves 0 NA #3 Rams 6 P #4 Rams 0 NA Test Results #5 Rams 0 NA #6 Rams 0 NA Number of Failures:0 Test Time:9.5 HCR Choke 2 P Repair or replacement of equipment will be made within 0 days. HCR Kill 2 P Remarks: AOGCC Inspection 24 hr Notice Yes Date/Time 11/7/22 @ 06:39 Waived By Test Start Date/Time:11/9/2022 23:45 (date)(time)Witness Test Finish Date/Time:11/10/2022 9:00 BOPE Test Report Notify the AOGCC of repairs with written confirmation to: AOGCC.Inspectors@alaska.gov Brian Bixby Doyon Test bop all tests T/ 250 low 4,200 high for 5 charted min. W/ exception of manual operated & super choke tested T/ 250 low & 2,000 psi for 5 charted min,test annular w/ 2-7/8" and 4.5" test jt to 2500psi- 5 min charted, 2 7/8" x 5" upr, and 3 1/2" x 6" lower vbr's, w/ 2 7/8" test jt, test 2 7/8" x 5" upr, w/ 4" test jt, test 3 1/2" x 6" lower vbr's, test choke valves 1-15, manual operated & super choke, choke & kill manuals & hcr's, 4" valve on kill line, 4" fosv x 2, 4" dart valve, upper & lower ibop; blind/ shear rams F.Carlo/H. Huntington CPAI A.Dorr/B. Marmon CRU CD1-33A Test Pressure (psi): d142cm@conocophillips.com rig142@doyondrilling.com Form 10-424 (Revised 08/2022)2022-1110_BOP_Doyon142_CRU_CD1-33A        J. Regg; 11/25/2022 From:Regg, James B (OGC) To:AOGCC Records (CED sponsored) Subject:BOP - Doyon 142 Date:Friday, November 25, 2022 11:03:28 AM Attachments:BOP_Doyon142_CRU_CD1-33A (10-26-22, 11-10-2022).pdf CRU CD1-33A (PTD 2221050) 10-26-2022 11-10-2022 Jim Regg Supervisor, Inspections AOGCC 333 W. 7th Ave, Suite 100 Anchorage, AK 99501 907-793-1236 From:McLellan, Bryan J (OGC) To:Longo, Joseph J Cc:Rixse, Melvin G (OGC); Loepp, Victoria T (OGC); Doherty, Dale R Subject:RE: [EXTERNAL]RE: CD1-33A 7in Intermediate IBC-CBL Log Interpretation Date:Sunday, November 13, 2022 8:29:00 PM Joe, It looks like you have cement everywhere needed to provide isolation of the identified hydrocarbon sources. Conoco has approval to proceed with drilling out into production hole per the approved permit. Bryan McLellan Senior Petroleum Engineer Alaska Oil & Gas Conservation Commission 333 W 7th Ave Anchorage, AK 99501 Bryan.mclellan@alaska.gov +1 (907) 250-9193 From: Longo, Joseph J <Joseph.J.Longo@conocophillips.com> Sent: Sunday, November 13, 2022 4:47 PM To: McLellan, Bryan J (OGC) <bryan.mclellan@alaska.gov> Cc: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov>; Loepp, Victoria T (OGC) <victoria.loepp@alaska.gov>; Doherty, Dale R <Dale.R.Doherty@conocophillips.com> Subject: RE: [EXTERNAL]RE: CD1-33A 7in Intermediate IBC-CBL Log Interpretation Bryan, How are you doing today? It appears we didn’t completely remove all the solids in the open hole above the upper stage tool, although it is clear we cleaned casing. We do acknowledge the fact that there are areas below the upper stage tool that do not show excellent bond, however we are very confident we have adequate coverage to provide isolation to the Halo (C-10). Another positive aspect is that 7” x 9-5/8” annulus is freeze protected with 11 ppg Kill Weight NAF. We do not currently have any pressure on the OA nor have seen pressure on the OA. Joseph Longo Staff Drilling Engineer Cell: 907-947-4323 User ID: JJLONGO From: McLellan, Bryan J (OGC) <bryan.mclellan@alaska.gov> Sent: Sunday, November 13, 2022 3:47 PM To: Longo, Joseph J <Joseph.J.Longo@conocophillips.com> Cc: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov>; Loepp, Victoria T (OGC) <victoria.loepp@alaska.gov>; Doherty, Dale R <Dale.R.Doherty@conocophillips.com> Subject: [EXTERNAL]RE: CD1-33A 7in Intermediate IBC-CBL Log Interpretation 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. CAUTION:This email originated from outside of the organization. Do not click links or open attachments unless you recognize the sender and know the content is safe. Joe, Could you send me a copy of the actual log and the EPA inspection plan that you mentioned below. Also, There does not appear to be any change in log signal at the upper stage tool, where we know there is no cement. What does that say about the log response below that point, which looks pretty much the same. Thanks Bryan McLellan Senior Petroleum Engineer Alaska Oil & Gas Conservation Commission 333 W 7th Ave Anchorage, AK 99501 Bryan.mclellan@alaska.gov +1 (907) 250-9193 From: Longo, Joseph J <Joseph.J.Longo@conocophillips.com> Sent: Saturday, November 12, 2022 6:50 PM To: McLellan, Bryan J (OGC) <bryan.mclellan@alaska.gov> Cc: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov>; Loepp, Victoria T (OGC) <victoria.loepp@alaska.gov>; Doherty, Dale R <Dale.R.Doherty@conocophillips.com> Subject: CD1-33A 7in Intermediate IBC-CBL Log Interpretation Bryan, How are you doing today? Below you will find a review of the objectives outlined in the EPA inspection plan/ APD and our interpretation of the IBC-CBL log results. Our SME Dale Dougherty has reviewed these results and we feel we have adequately met the objectives outlined in the inspection plan & APD. Additionally, attached you will find SLB’s log interpretation. The current plan is to continue forward acquiring our casing pressure test and FIT/LOT pending your approval. If you have any questions, please do not hesitate to contact me directly. First Stage Requirements: At least 50 ft of bonded cement, at least 33’ continuous, above injection zone but below the top of the upper confinement zone. Practical Interpretation: Minimum 50’ of bond – 33’ continuous, between 9775’ – 8123’ MD (Intermediate casing shoe through the top of Kingak confining interval) IBC-CBL Log Results: ~1439’ of good to moderate-good bond, with several hundred feet of 360 deg azimuthal coverage continuous good bond from the intermediate casing shoe to the top of the Kingak confining interval. TOC 500’ above the top of the Nanuq sand Practical Interpretation: Required TOC - 6436’ MD/ 5803’ TVD IBC-CBL Log Results: Top of Cement is estimated at 6743’ MD. While this is short of the 500’ objective, we feel ~193’ (151’ TVD) of coverage above the Nanuq is adequate to provide containment. The Alpine C below is also well isolated, showing several hundred feet of continuous good bond above and below. The second stage shows good to moderate bond across the Qannik and Halo (C- 10). Additionally, the ECP below the lower stage tool will provide added isolation. The 7 x 9-5/8” annulus is currently freeze protected down to the lower stage tool with 11.00 ppg Kill Weight NAF Second Stage Requirements: Confirmation of adequate cement bond across & 500’ above the Qannik and Halo (C-10) formation tops. Practical Interpretation: Required TOC - 2557’ MD/ 2554’ TVD IBC-CBL Log Results: Good to moderate bond from the lower stage tool at 4539’ MD, showing multiple areas of 360 deg azimuthal coverage and continuous bond to the upper stage tool at 2553’ MD. Notable Depths: 9-5/8” Surface Casing Shoe: 2376’ MD/ 2375’ TVD Upper Stage Tool: 2553’ MD/ 2549’ TVD Lower Stage Tool: 4539’ MD/ 4308’ TVD External Casing Packer (ECP): 4547' MD / 4314' TVD 7” Intermediate Casing Shoe: 9775’ MD/ 8700’ TVD Formation Tops: Halo (C-10 Marker): 3057' MD / 3034' TVD Qannik Top: 4197' MD / 4036' TVD Base: 4340' MD / 4150' TVD Nanuq Top: 6936' MD / 6196' TVD Base: 6960' MD / 6215' TVD Alpine C Top: 8035' MD / 7060' TVD Base: 8123' MD / 7130' TVD Kingak (Confining Interval) Top: 8123' MD / 7130' TVD Base: 9829' MD / 8755' TVD (Projected) Regards, Joseph Longo Staff Drilling Engineer Office: 907-265-6824 Cell: 907-947-4323 Email: Joseph.J.Longo@conocophillips.com User ID: JJLONGO CCementt Evaluationn Company: ConocoPhillips Alaska, Inc Field: Colville River Well Name: CD1-33A Log Date: 10-Nov-2022 Service: IS-CBL-VDL Run Number: 1 Analyst: Sai Ramana Reviewed by: Dona Oliver Schlumberger 1 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A 11. Schlumberger Legal Disclaimer ............................................................................................ 2 2. Executive Summary ................................................................................................................. 3 Recorded data and comments ..................................................................................................................... 3 Objectives ......................................................................................................................................................... 3 Results and Observations .............................................................................................................................. 3 3. Summary Log ........................................................................................................................... 4 4. General Comments .................................................................................................................. 5 5. Observations ............................................................................................................................ 6 Field Log Header.............................................................................................................................................. 9 Well Sketch .................................................................................................................................................... 10 Tool Sketch ..................................................................................................................................................... 11 6. Log Quality Control ................................................................................................................ 12 Tool Eccentering (ECCE) .............................................................................................................................. 12 Processing flags (UFLG) and anomalies ................................................................................................... 12 First echo amplitude (AWBK) ..................................................................................................................... 12 Transit Time, CBL & VDL – DSLT ................................................................................................................ 12 7. Appendix ................................................................................................................................ 14 Acoustic Impedance Measurement .......................................................................................................... 14 Schlumberger 2 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A 11. Schlumberger Legal Disclaimer ANY INTERPRETATION, RESEARCH, ANALYSIS, DATA, RESULTS, ESTIMATES, OR RECOMMENDATION FURNISHED WITH THE SERVICES OR OTHERWISE COMMUNICATED BY SCHLUMBERGER TO CUSTOMER AT ANY TIME IN CONNECTION WITH THE SERVICES ARE OPINIONS BASED ON INFERENCES FROM MEASUREMENTS, EMPIRICAL RELATIONSHIPS AND/OR ASSUMPTIONS, WHICH INFERENCES, EMPIRICAL RELATIONSHIPS AND/OR ASSUMPTIONS ARE NOT INFALLIBLE, AND WITH RESPECT TO WHICH PROFESSIONALS IN THE INDUSTRY MAY DIFFER. ACCORDINGLY, SCHLUMBERGER CANNOT AND DOES NOT WARRANT THE ACCURACY, CORRECTNESS OR COMPLETENESS OF ANY SUCH INTERPRETATION, RESEARCH, ANALYSIS, DATA, RESULTS, ESTIMATES OR RECOMMENDATION. CUSTOMER ACKNOWLEDGES THAT IT IS ACCEPTING THE SERVICES "AS IS", THAT SCHLUMBERGER MAKES NO REPRESENTATION OR WARRANTY, EXPRESS OR IMPLIED, OF ANY KIND OR DESCRIPTION IN RESPECT THERETO. SPECIFICALLY, CUSTOMER ACKNOWLEDGES THAT SCHLUMBERGER DOES NOT WARRANT THAT ANY INTERPRETATION, RESEARCH, ANALYSIS, DATA, RESULTS, ESTIMATES, OR RECOMMENDATION IS FIT FOR A PARTICULAR PURPOSE, INCLUDING BUT NOT LIMITED TO COMPLIANCE WITH ANY GOVERNMENT REQUEST OR REGULATORY REQUIREMENT. CUSTOMER FURTHER ACKNOWLEDGES THAT SUCH SERVICE S ARE DELIVERED WITH THE EXPLICIT UNDERSTANDING AND AGREEMENT THAT ANY ACTION TAKEN BASED ON THE SERVICES RECEIVED SHALL BE AT ITS OWN RISK AND RESPONSIBILITY AND NO CLAIM SHALL BE MADE AGAINST SCHLUMBERGER AS A CONSEQUENCE THEREOF. Schlumberger 3 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A 22. Executive Summary Recorded data and comments An Isolation Scanner Tool (IS) and CBL-VDL (DSLT) was logged in the CD1-33A on 10-Nov-2022. The logging data was recorded over 7” 26 ppf casing from 9,640ft – 47ft. The well was reported to contain 11 lbm/gal WBM at the time of logging. Objectives The objective of the logging is general cement evaluation of 7” casing. Results and Observations 1. All intervals with good azimuthal cement distribution can qualify for potential zonal isolation since across these intervals we have 360deg cement placement with minimal contamination or liquid displacement. 2. Across the interval 47ft – 2,360ft liquid filled annulus is observed. Top of cement is observed at 2,360ft. 3. Across the intervals 2,360ft – 2,656ft, 2,695ft – 3,159ft, 3,662ft – 3,750ft, 4,176ft – 4,309ft, 6,743ft – 7,370ft, 7,413ft – 7,724ft, 7,779ft – 7,959ft, 8,019ft – 8,183ft, 8,295ft – 8,364ft, 8,624ft – 8,665ft, 8,735ft – 8,870ft and 9,059ft – 9,640ft, moderate to good azimuthal cement coverage observed with large liquid pockets/channel on SLG map. CBL reads medium to high values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non- presssure pass across these intervals. 4. Across the intervals 2,656ft – 2,695ft, 3,159ft – 3,192ft, 3,750ft – 4,176ft, 4,309ft – 4,510ft, 7,370ft – 7,413ft, 7,724ft – 7,779ft, 7,959ft – 8,019ft, 8,183ft – 8,295ft, 8,364ft – 8,624ft, 8,665ft – 8,735ft and 8,870ft – 9,059ft, overall good 360deg azimuthal cement coverage observed with minor isolated liquid pockets on SLG map. CBL reads medium values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non-presssure pass across these intervals. 5. Across the interval 3,192ft – 3,662ft moderate azimuthal coverage observed with liquid along with solid patches on SLG map. CBL reads high values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non-presssure pass across this interval. 6. Across the interval 4,510ft – 6,743ft moderate azimuthal coverage observed with liquid along with solid and gas patches on SLG map. CBL reads high values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non-presssure pass across this interval. Schlumberger 4 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A 33.Summaryy Logg 7”” Casingg Sectionn Schlumberger 5 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A 44. General Comments Both ultrasonic and sonic measurements are affected by the micro-annulus and with increasing micro- annulus gap size they record lower ultrasonic acoustic impedances and higher sonic amplitudes. For very small dry micro-annulus size (<1 or 2um), the sonic sees the cement because of its low frequencies that allow some sensitivity to the presence of cement unlike the ultrasonic measurement. Experimental results highlighting the effect of micro-annulus on ultrasonic and sonic measurements. Ultrasonic images are superimposed in the figure* (left) below to highlight expected behavior of log responses for varying dry micro-annulus gap sizes. In case of presence of dry micro-annulus, ultrasonic acoustic impedance (AI) is more affected than sonic and responds earlier to dry micro-annulus. *SPE Paper Number: 185731, Making Sense of Why Logs Do Not See Cement in the Annulus Schlumberger 6 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A 55.Observationss 7”” Casingg Sectionn Figure 2 below shows the 7” casing across the interval ~47ft – 3,192ft. Across the interval 47ft – 2,360ft liquid filled annulus is observed. Top of cement is observed at 2,360ft. Across the intervals 2,360ft – 2,656ft and 2,695ft – 3,159ft, moderate to good azimuthal cement coverage observed with large liquid pockets/channel on SLG map. CBL reads medium to high values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non-presssure pass across these intervals. Across the intervals 2,656ft – 2,695ft and 3,159ft – 3,192ft, overall good 360deg azimuthal cement coverage observed with minor isolated liquid pockets on SLG map. CBL reads medium values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non-presssure pass across these intervals. Liquid filled annulus TIE arrivals observed Schlumberger 7 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A Figure 3 below shows the 7” casing across the interval ~3,192ft - 4,510ft. Across the interval 3,192ft – 3,662ft moderate azimuthal coverage observed with liquid along with solid patches on SLG map. CBL reads high values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non-presssure pass across this interval. Across the intervals 3,662ft – 3,750ft and 4,176ft – 4,309ft, moderate to good azimuthal cement coverage observed with large liquid pockets/channel on SLG map. CBL reads medium to high values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non-presssure pass across these intervals. Across the intervals 3,750ft – 4,176ft and 4,309ft – 4,510ft, overall good 360deg azimuthal cement coverage observed with minor isolated liquid pockets on SLG map. CBL reads medium values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non-presssure pass across these intervals. Liquid with solid patches High azimuthal coverage of cement with minor isolated liquid pockets Schlumberger 8 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A Figure 4 below shows the 7” casing across the interval ~4,510ft - 9,640ft. Across the interval 4,510ft –6,743ft moderate azimuthal coverage observed with liquid along with solid and gas patches on SLG map. CBL reads high values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non-presssure pass across these intervals. Across the intervals 6,743ft –7,370ft, 7,413ft –7,724ft, 7,779ft –7,959ft, 8,019ft –8,183ft, 8,295ft –8,364ft, 8,624ft – 8,665ft, 8,735ft – 8,870ft and 9,059ft – 9,640ft, moderate to good azimuthal cement coverage observed with large liquid pockets/channel on SLG map. CBL reads medium to high values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non-presssure pass across these intervals. Across the intervals 7,370ft –7,413ft, 7,724ft –7,779ft, 7,959ft –8,019ft, 8,183ft –8,295ft, 8,364ft –8,624ft, 8,665ft – 8,735ft and 8,870ft –9,059ft, overall good 360deg azimuthal cement coverage observed with minor isolated liquid pockets on SLG map. CBL reads medium values suggesting possible presence of wet microannulus affecting both sonic and ultrasonic measurements. However, presence of microannulus needs to be confirmed by comparing a pressure pass with non-presssure pass across these intervals. High azimuthal coverage of cement with minor isolated liquid pockets Liquid with solid and gas patches Schlumberger 9 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A FField Log Header Schlumberger 10 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A WWell Sketch Schlumberger 11 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A TTool Sketch Schlumberger 12 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A 66. Log Quality Control Tool Eccentering (ECCE) The tool eccentralization is exceeding the tolerance limit across the intervals 738ft – 788ft, 1,040ft – 1,054ft, 2,360ft – 8,896ft and 9,284ft – 9,355ft. Processing flags (UFLG) and anomalies Processing flags are noted at the collars which is a normal response due to the increase in metal thickness. Otherwise, the log is generally free from anomaly flags. First echo amplitude (AWBK) AWBK map generally shows high amplitude (yellow) colour except across the intervals where eccentricity is high where low amplitude (dark color) is observed. Transit Time, CBL & VDL – DSLT Figure 5 below shows snapshot of LQC where, transit times (TT & TTSL) are consistent and are overlaying suggesting centered tool in the borehole. VDL shows contrasts in cemented section, casing arrivals are visible, indicating fair data quality. Schlumberger 13 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A Schlumberger 14 13 November 2022 Cement Evaluation ConocoPhillips Alaska, Inc. CD1-33A 77. Appendix Acoustic Impedance Measurement The IBC sub contains the traditional USIT transducer that acts as both a transmitter and receiver. Short pulse of high frequency acoustic energy is emitted with multiple echoes received from the casing, cement and formation interfaces. The casing will resonant within its thickness mode creating multiple reflections. These multiple reflections lose energy back into the mud or cement and the decay of this signal is a function of the acoustic impedance of the material at the casing external interface. We also refer to that as the 2nd interface, the 3rd interface being the formation wall or 2nd casing string in multiple casing strings. The acoustic impedance (z) is measured in MRayls. The acoustic impedance of fresh water is 1.5 MRayls. The acoustic impedance of cement can vary from 2.0 MRayls for <11.5 ppg LiteCrete and as high as 8.5 MRayls for a > 16.0 ppg DensCrete. The USI uses a threshold for the cement map to differentiate cement from liquid. The threshold is set 0.5 MRayls above the expected acoustic impedance of the fluid (mud) behind the casing. The AI cement map is a 360-degree representation of the azimuthal AI values measured. Any AI (acoustic impedance) above the cement threshold will be a shade of brown and increasingly darker as the AI increases. 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:McLellan, Bryan J (OGC) To:Longo, Joseph J Cc:Rixse, Melvin G (OGC); Loepp, Victoria T (OGC); Hobbs, Greg S Subject:RE: CD1-33A Operations Plan Forward Date:Tuesday, November 8, 2022 5:28:00 PM Joe, Since the upper stage tool is 500’ above the Halo in your below plan, this approach meets the intent of the 7” 2nd stage cement job as outlined and approved in the Permit to Drill. The plan will leave freeze protected outer annulus with top of cement just below the surface casing shoe and a path for circulating freeze protection through the upper stage tool in the 7” casing. Conoco has approval to proceed with this adjusted plan as described in your email below. Regards Bryan McLellan Senior Petroleum Engineer Alaska Oil & Gas Conservation Commission 333 W 7th Ave Anchorage, AK 99501 Bryan.mclellan@alaska.gov +1 (907) 250-9193 From: Longo, Joseph J <Joseph.J.Longo@conocophillips.com> Sent: Tuesday, November 8, 2022 1:01 PM To: McLellan, Bryan J (OGC) <bryan.mclellan@alaska.gov> Cc: Rixse, Melvin G (OGC) <melvin.rixse@alaska.gov>; Loepp, Victoria T (OGC) <victoria.loepp@alaska.gov>; Hobbs, Greg S <Greg.S.Hobbs@conocophillips.com> Subject: CD1-33A Operations Plan Forward Bryan, As we spoke on the phone, we got to bottom with our 7” intermediate casing and we were not able to circulate. We worked the pipe for a considerable amount of time, but we were not able to establish returns to surface. We were able to push fluid away at rate, so we pumped our primary cement job as planned. We do not have a good indication of where our loss zone is. Throughout the cement job we did not have returns to surface, but we did see an indication of lift pressure, which is encouraging. Currently we have two stage tools in the hole, the lower stage tool is ~200 below the Qannik and the upper contingency stage tool is in the open hole ~177’ below the surface casing shoe. Our base case plan is to cement to surface through the lower stage tool, this was approved in the latest sundry request. While the primary cement job lift pressure is encouraging, in a worst-case scenario where we are not able to meet our cementing objectives, we are looking at ways to potentially save the slot in the event that a re-drill is required. To achieve this, we are considering circulating the surface casing clear of cement through the upper stage tool after pumping our second stage cement job to set ourselves up for a cleaner cut and pull if we have to go down that road. In this case, we would plan to pump a brine freeze protect in the 7” x 9-5/8” annulus though the upper stage tool. If we decide to circulate cement off the top from our upper stage tool, are we covered from a sundry perspective? Regards, Joseph Longo Staff Drilling Engineer Office: 907-265-6824 Cell: 907-947-4323 Email: Joseph.J.Longo@conocophillips.com User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y Anne Prysunka at 9:43 am, Oct 28, 2022  ILOHZLWK37'; 0*52&7 %23(WHVWWRSVLJ $QQXODUSUHYHQWHUWHVWWRSVLJ $//&21',7,216)25$33529$/217+(25,*,1$/37'$33529$/  $33/<  '/%  '65*&:  Jessie L. Chmielowski Digitally signed by Jessie L. Chmielowski Date: 2022.10.28 11:32:49 -08'00' 10/28/2022 JSB RBDMS JSB 103122 &RQRFR3KLOOLSV$ODVND,QF   3RVW2IILFH%R[   $QFKRUDJH$ODVND   7HOHSKRQH  2FWREHU  $ODVND2LODQG*DV&RQVHUYDWLRQ&RPPLVVLRQ :HVWWK$YHQXH6XLWH $QFKRUDJH$ODVND  5H&KDQJHWR$SSURYHG6XQGU\IRU&58&'$ 37'   'HDU6LURU0DGDP  &RQRFR3KLOOLSV$ODVND,QFKHUHE\DSSOLHVIRUDVXQGU\DSSURYDOWR&KDQJH$SSURYHG3URJUDPIRUWKH&'$ZHOOSHUPLW WRGULOOQXPEHU  7KHDSSURYHG´LQWHUPHGLDWHVHFRQGVWDJHFHPHQWMREZDVSODQQHG¶DERYHWKHWRSRIWKH+DOR & PDUNHUDOWKRXJK WKLVSRVHVDVLJQLILFDQWULVNWRWKHDELOLW\WRIUHH]HSURWHFWWKH´[´DQQXOXVDVWKHWRSRIFHPHQWZRXOGOLH¶EHORZWKH VXUIDFHFDVLQJVKRHSRVLQJDULVNRIFHPHQWLQJRIIWKHVXUIDFHFDVLQJVKRH$GGLWLRQDOO\WKHSODQQHG72&ZRXOGFRYHUWKH& ZKLFKLVDSULPDU\IUHH]HSURWHFWLQMHFWLRQLQWHUYDO  'XHWRWKHVHULVNVLWKDVEHHQGHWHUPLQHGWKDWFHPHQWLQJWKHVHFRQGVWDJHWRVXUIDFHLVWKHPRVWSUXGHQWDSSURDFKWRPLWLJDWH WKHLQDELOLW\WRIUHH]HSURWHFWWKH´[´DQQXOXV7KHSODFHPHQWRIWKHVHFRQGVWDJHFHPHQWHUKDVDOVREHHQXSGDWHGWR ¶0'a¶ IURP¶RULJLQDOO\SHUPLWWHG EHORZWKHSURJQRVHGEDVHRI4DQQLNDW¶0'  $GGLWLRQDOO\WKHUHDUHDIHZDGGLWLRQDOFKDQJHV'XHWRFDVLQJDYDLODELOLW\WKH´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hange to Approved Sundry, Well CRU CD1-33A Saved: 28-Oct-22  Change to Approved Sundry, Well CRU CD1-33A Page 1 of 5 Printed: 28-Oct-22 CD1-33A Application for Change to Approved Permit to Drill Table of Contents 1.Well Name (Requirements of 20 AAC 25.005 (f)) 2.Proposed Drilling Program (Requirements of 20 AAC 25.005 (c)(13)) 3.Attachments Attachment 1: Proposed CD1-33A Schematic......................................................................................... 3 Attachment 2: Gen 5 FMC Wellhead Schematic ...................................................................................... 4 Attachment 3: 7” 26# L80 H563 Spec Sheet ........................................................................................... 5 Change to Approved Sundry, Well CRU CD1-33A Saved: 28-Oct-22  Change to Approved Sundry, Well CRU CD1-33A Page 2 of 5 Printed: 28-Oct-22 1.Well Name (Requirements of 20 AAC 25.005 (f)) The well for which this application is submitted will be designated as CRU CCD1-33A. 2.Proposed Drilling Program (Requirements of 20 AAC 25.005 (c)(13)) The proposed updates to the drilling program are listed below. 1.Pump 1st stage cement job placing cement top 500’ above Alpine/Kuparuk/Nanuq formations. 2.Pump 2nd stage cement job. Cement will be placed ~150’ below the base of the Qannik (K-2) and cemented to surface covering both the Qannik and Halo sands. Cementing Calculations - 7” Intermediate Casing run to 9834’ MD / 8705’ TVD Top of 1st stage slurry has a designed TOC at ~6480’ MD, 500’ MD above the prognosed Nanuq hydrocarbon bearing zone at 6981’ MD/ 6198’ TVD. A 2nd stage cement job will be performed as outlined below to isolate the Qannik and Halo using a stage tool and cemented to surface. Assume 40% excess annular volume. 7” 26# L80 H563 - 1st Stage Cement Job – 9834’ MD to 6480’ MD | TD to 500’ above the Nanuq Lead slurry from 9334’ MD to 6480’ MD with Class G + Add's @ 13.5ppg Total Volume = 601 ft3 => 320 sx of 13.5 ppg Class G + Add's @ 1.88 ft3 /sk Tail slurry from 9834’ MD to 9334’ MD with Class G + Add's @ 15.6 ppg Total Volume = 122 ft3 => 102 sx of 15.6 ppg Class G + Add's @ 1.20 ft3/sk 7” 26# L80 H563 - 2nd Stage Cement Job – 4421’ MD to surface | ~150’ below base Qannik to surface Lead slurry from 4421’ MD to Surface with DeepCRETE + Add's @ 11ppg Total Volume = 833 ft3 => 436 sx of 11.0 ppg Class G + Add's @ 1.91 ft3 /sk Change to Approved Sundry, Well CRU CD1-33A Saved: 28-Oct-22  Change to Approved Sundry, Well CRU CD1-33A Page 3 of 5 Printed: 28-Oct-22 3.Attachments Attachment 1: Proposed CD1-33A Schematic &'$'LVSRVDO:HOO±$V3ODQQHG ´,QWHUPHGLDWHKROH /+<'  0' 79' &RQGXFWRUDW 0' òSSI/+<'3URGXFWLRQ7XELQJ 1G 6WDJHFHPHQWLQJWRRODQGH[WHUQDOFDVLQJSDFNHU /+<' a 0' 79' &HPHQWHGWR6XUIDFH 7RSRIFHPHQW a 0' 79'  DERYH1DQXT $OSLQH&±2LO=RQH 0' 79' 3URGXFWLRQ+ROH ò´/+\G 3URGXFWLRQ/LQHUFHPHQWHGSHUIRUDWHG  0' 79' 3UH6HW6XUIDFH&DVLQJ -%7&  0' 79' &HPHQWHGWR6XUIDFH ,YLVKDN±,QMHFWLRQ=RQH± 0' 79' .23  0' 79' 6DJ5LYHU±,QMHFWLRQ=RQH 0' 79' .XSDUXN&±2LO=RQH 0' 79' 7RSRIFHPHQWLQVLGH .LQJDN±%DUULHU 0' 79' 6KXEOLN±%DUULHU 0' 79' &RQWLQJHQF\6WDJHWRRO %HORZ%DVHRI3HUPDIURVW a 0'79' /LQHU+DQJHUZ/LQHU7RS3DFNHU  0' 79' [ò´3URGXFWLRQ3DFNHU  0' 79' +DOR±2LO*DV=RQH  0' 79'  0' 79' 4DQQLN±2LO*DV=RQH 7 0' 79' % 0' 79' +5= 0' 79' 8SGDWHG ; 1DQXT±2LO=RQH 0' 79' Change to Approved Sundry, Well CRU CD1-33A Saved: 28-Oct-22  Change to Approved Sundry, Well CRU CD1-33A Page 4 of 5 Printed: 28-Oct-22 Attachment 2: Gen 5 FMC Wellhead Schematic  Change to Approved Sundry, Well CRU CD1-33A Saved: 28-Oct-22  Change to Approved Sundry, Well CRU CD1-33A Page 5 of 5 Printed: 28-Oct-22 Attachment 3: 7” 26# L80 H563 Spec Sheet 7\SHRI5HTXHVW$EDQGRQ 3OXJ3HUIRUDWLRQV )UDFWXUH6WLPXODWH 5HSDLU:HOO 2SHUDWLRQVVKXWGRZQ 6XVSHQG 3HUIRUDWH 2WKHU6WLPXODWH 3XOO7XELQJ &KDQJH$SSURYHG3URJUDP 3OXJIRU5HGULOO 3HUIRUDWH1HZ3RRO 5HHQWHU6XVS:HOO $OWHU&DVLQJ 2WKHUBBBBBBBBBBBBBBBBBBB 2SHUDWRU1DPH&XUUHQW:HOO&ODVV 3HUPLWWR'ULOO1XPEHU ([SORUDWRU\ 'HYHORSPHQW $GGUHVV6WUDWLJUDSKLF 6HUYLFH $3,1XPEHU ,ISHUIRUDWLQJ:HOO1DPHDQG1XPEHU :KDW5HJXODWLRQRU&RQVHUYDWLRQ2UGHUJRYHUQVZHOOVSDFLQJLQWKLVSRRO"1$ :LOOSODQQHGSHUIRUDWLRQVUHTXLUHDVSDFLQJH[FHSWLRQ"<HV 1R 3URSHUW\'HVLJQDWLRQ /HDVH1XPEHU )LHOG3RRO V  8QGHILQHG:DVWH'LVSRVDO3RRO  7RWDO'HSWK0' IW 7RWDO'HSWK79' IW  (IIHFWLYH'HSWK0' (IIHFWLYH'HSWK79' 0363 SVL  3OXJV 0'  -XQN 0'  &DVLQJ &ROODSVH 6WUXFWXUDO &RQGXFWRU 6XUIDFH ,QWHUPHGLDWH 3URGXFWLRQ /LQHU 3DFNHUVDQG66697\SH3DFNHUVDQG66690' IW DQG79' IW  $WWDFKPHQWV3URSRVDO6XPPDU\ :HOOERUHVFKHPDWLF :HOO&ODVVDIWHUSURSRVHGZRUN 'HWDLOHG2SHUDWLRQV3URJUDP %236NHWFK ([SORUDWRU\ 6WUDWLJUDSKLF 'HYHORSPHQW 6HUYLFH (VWLPDWHG'DWHIRU :HOO6WDWXVDIWHUSURSRVHGZRUN &RPPHQFLQJ2SHUDWLRQV2,/ :,1- :'63/6XVSHQGHG 9HUEDO$SSURYDO'DWH *$6 :$* *6725 63/8* $2*&&5HSUHVHQWDWLYH*,1-2S6KXWGRZQ $EDQGRQHG &RQWDFW1DPH -RVHSK/RQJR &RQWDFW(PDLO &RQWDFW3KRQH $XWKRUL]HG7LWOH6WDII'ULOOLQJ(QJLQHHU &RQGLWLRQVRIDSSURYDO1RWLI\$2*&&VRWKDWDUHSUHVHQWDWLYHPD\ZLWQHVV 6XQGU\1XPEHU 3OXJ,QWHJULW\%237HVW 0HFKDQLFDO,QWHJULW\7HVW /RFDWLRQ&OHDUDQFH 2WKHU 3RVW,QLWLDO,QMHFWLRQ0,75HT G"<HV 1R 6SDFLQJ([FHSWLRQ5HTXLUHG"<HV 1R 6XEVHTXHQW)RUP5HTXLUHG $33529('%< $SSURYHGE\ &200,66,21(5 7+($2*&& 'DWH &RPP &RPP 6U3HW(QJ 6U3HW*HR 6U5HV(QJ ,KHUHE\FHUWLI\WKDWWKHIRUHJRLQJLVWUXHDQGWKHSURFHGXUHDSSURYHGKHUHLQZLOOQRWEHGHYLDWHGIURPZLWKRXWSULRUZULWWHQDSSURYDO $XWKRUL]HG1DPHDQG 'LJLWDO6LJQDWXUHZLWK'DWH $2*&&86(21/< 7XELQJ*UDGH7XELQJ0' IW 3HUIRUDWLRQ'HSWK79' IW 7XELQJ6L]H 35(6(17:(//&21',7,216800$5< 67$7(2)$/$6.$ $/$6.$2,/$1'*$6&216(59$7,21&200,66,21 $33/,&$7,21)25681'5<$33529$/6 $$& $'/  32%R[$QFKRUDJH$. &RQRFR3KLOOLSV$ODVND,QF &58&'$ /HQJWK 6L]H 79'%XUVW0' 3HUIRUDWLRQ'HSWK0' IW  MRVHSKMORQJR#FRQRFRSKLOOLSVFRP            W   B    )RUP5HYLVHG$SSURYHGDSSOLFDWLRQLVYDOLGIRUPRQWKVIURPWKHGDWHRIDSSURYDO   By Anne Prysunka at 9:51 am, Oct 11, 2022 ;  '/% ; ; 97/   QG 6WJ LQW FHPHQW WR VXUIDFH QRW DSSURYHG DW WKLV WLPH '65 ; %23 WHVW WR  SVLJ $QQXODU SUHYHQWHU WHVW WR  SVLJ $// &21',7,216 )25 $33529$/ 21 7+( 25,*,1$/ 37' $33529$/  $33/< ILOH ZLWK 37'  *&:  Jessie L. Chmielowski Digitally signed by Jessie L. 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Cement will be placed ~150’ below the base of the Qannik (K-2) and cemented to surface covering both the Qannik and Halo sands. Cementing Calculations - 7” Intermediate Casing run to 9834’ MD / 8705’ TVD Top of 1st stage slurry has a designed TOC at ~6480’ MD, 500’ MD above the prognosed Nanuq hydrocarbon bearing zone at 6981’ MD/ 6198’ TVD. A 2nd stage cement job will be performed as outlined below to isolate the Qannik and Halo using a stage tool and cemented to surface. Assume 40% excess annular volume. 7” 26# L80 H563 - 1st Stage Cement Job – 9834’ MD to 6480’ MD | TD to 500’ above the Nanuq Lead slurry from 9334’ MD to 6480’ MD with Class G + Add's @ 13.5ppg Total Volume = 601 ft3 => 320 sx of 13.5 ppg Class G + Add's @ 1.88 ft3 /sk Tail slurry from 9834’ MD to 9334’ MD with Class G + Add's @ 15.6 ppg Total Volume = 122 ft3 => 102 sx of 15.6 ppg Class G + Add's @ 1.20 ft3/sk 7” 26# L80 H563 - 2nd Stage Cement Job – 4421’ MD to surface | ~150’ below base Qannik to surface Lead slurry from 4421’ MD to Surface with DeepCRETE + Add's @ 11ppg Total Volume = 833 ft3 => 436 sx of 11.0 ppg Class G + Add's @ 1.91 ft3 /sk 1RW DSSURYHG DW WKLV WLPH Change to Approved Sundry, Well CRU CD1-33A Saved: 10-Oct-22  Change to Approved Sundry, Well CRU CD1-33A Page 3 of 5 Printed: 10-Oct-22 3.Attachments Attachment 1: Proposed CD1-33A Schematic &'$'LVSRVDO:HOO±$V3ODQQHG ´,QWHUPHGLDWHKROH /+<'  0' 79' &RQGXFWRUDW 0' òSSI/+<'3URGXFWLRQ7XELQJ 1G 6WDJHFHPHQWLQJWRRODQGH[WHUQDOFDVLQJSDFNHU /+<' a 0' 79' &HPHQWHGWR6XUIDFH 7RSRIFHPHQW a 0' 79'  DERYH1DQXT $OSLQH&±2LO=RQH 0' 79' 3URGXFWLRQ+ROH ò´/+\G 3URGXFWLRQ/LQHUFHPHQWHGSHUIRUDWHG  0' 79' 3UH6HW6XUIDFH&DVLQJ -%7&  0' 79' &HPHQWHGWR6XUIDFH ,YLVKDN±,QMHFWLRQ=RQH± 0' 79' .23  0' 79' 6DJ5LYHU±,QMHFWLRQ=RQH 0' 79' .XSDUXN&±2LO=RQH 0' 79' 7RSRIFHPHQWLQVLGH .LQJDN±%DUULHU 0' 79' 6KXEOLN±%DUULHU 0' 79' &RQWLQJHQF\6WDJHWRRO %HORZ%DVHRI3HUPDIURVW a 0'79' /LQHU+DQJHUZ/LQHU7RS3DFNHU  0' 79' [ò´3URGXFWLRQ3DFNHU  0' 79' +DOR±2LO*DV=RQH  0' 79'  0' 79' 4DQQLN±2LO*DV=RQH 7 0' 79' % 0' 79' +5= 0' 79' 8SGDWHG ; 1DQXT±2LO=RQH 0' 79' Change to Approved Sundry, Well CRU CD1-33A Saved: 10-Oct-22  Change to Approved Sundry, Well CRU CD1-33A Page 4 of 5 Printed: 10-Oct-22 Attachment 2: Gen 5 FMC Wellhead Schematic  Change to Approved Sundry, Well CRU CD1-33A Saved: 10-Oct-22  Change to Approved Sundry, Well CRU CD1-33A Page 5 of 5 Printed: 10-Oct-22 Attachment 3: 7” 26# L80 H563 Spec Sheet &$87,217KLVHPDLORULJLQDWHGIURPRXWVLGHWKH6WDWHRI$ODVNDPDLOV\VWHP 'RQRWFOLFNOLQNVRURSHQDWWDFKPHQWVXQOHVV\RXUHFRJQL]HWKHVHQGHUDQGNQRZ WKHFRQWHQWLVVDIH )URP/RHSS9LFWRULD7 2*& 7R/RQJR-RVHSK- &F+REEV*UHJ6 *UHJ6+REEV#FRQRFRSKLOOLSVFRP 5L[VH0HOYLQ* 2*& 0F/HOODQ%U\DQ- 2*& :DOODFH &KULV' 2*& /RHSS9LFWRULD7 2*& 6XEMHFW5(&'$6XQGU\ 37'6XQGU\ )UHH]H3URWHFW 'DWH)ULGD\2FWREHU$0 :ŽƐĞƉŚ͕  /ŶƌĞǀŝĞǁŝŶŐƚŚĞƐƵŶĚƌLJĨŽƌĂĐŚĂŶŐĞŽĨĂƉƉƌŽǀĞĚƉƌŽŐƌĂŵ͕LJŽƵƉƌŽƉŽƐĞďƌŝŶŐŝŶŐƚŚĞĐĞŵĞŶƚƚŽ ƐƵƌĨĂĐĞǁŝƚŚƚŚĞϳ͟ŝŶƚĞƌŵĞĚŝĂƚĞƐĞĐŽŶĚƐƚĂŐĞĐĞŵĞŶƚũŽďďĞĐĂƵƐĞŽĨƚŚĞĚŝĨĨŝĐƵůƚLJŝŶKĨƌĞĞnjĞ ƉƌŽƚĞĐƚŝŽŶ͘dŚŝƐĞůŝŵŝŶĂƚĞƐĂŵŽŶŝƚŽƌĂďůĞKŽŶĂĚŝƐƉŽƐĂůǁĞůů͘tĞƵŶĚĞƌƐƚĂŶĚƚŚĞƌĞůƵĐƚĂŶĐĞƚŽ ƌƵŶŶŝŶŐƚŚĞϮŶĚƐƚĂŐĞĐŽŶƚŝŶŐĞŶĐLJƚŽŽůďĞůŽǁƚŚĞďĂƐĞŽĨƚŚĞƉĞƌŵĂĨƌŽƐƚ͘,ŽǁĞǀĞƌ͕ƉůĞĂƐĞƌĞǀŝĞǁ ƚŚŝƐŽƉƚŝŽŶĂƐǁĞůůĂƐƚŚĞůƵďĞͬďůĞĞĚŽƉƚŝŽŶĨŽƌĨƌĞĞnjĞƉƌŽƚĞĐƚŝŽŶĂŶĚĂŶLJŽƚŚĞƌŵĞƚŚŽĚƐĨŽƌĨƌĞĞnjĞ ƉƌŽƚĞĐƚƚŚĂƚƉƌĞƐĞƌǀĞƐƚŚĞŵŽŶŝƚŽƌĂďůĞĂŶŶƵůƵƐ͘tĞǁŝůůƉƌŽĐĞƐƐƚŚĞĐƵƌƌĞŶƚƐƵŶĚƌLJƚŽĂůůŽǁ ĐŽŶƚŝŶƵĞĚǁŽƌŬŚŽǁĞǀĞƌKĐĞŵĞŶƚƚŽƐƵƌĨĂĐĞǁŝůůŶŽƚďĞĂƉƉƌŽǀĞĚĂƚƚŚŝƐƚŝŵĞ͘  sŝĐƚŽƌŝĂ  Victoria Loepp 6HQLRU3HWUROHXP(QJLQHHU 6WDWHRI$ODVND 2LO *DV&RQVHUYDWLRQ&RPPLVVLRQ :WK$YH $QFKRUDJH$.  :RUN    9LFWRULD/RHSS#DODVNDJRY  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). 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