Department of Commerce, Community, and Economic Development
Alaska Oil and Gas Conservation
Commission
HOME
EVENTS
DATA
Data List
Drilling
Production
Orders
Data Miner
Document Search
REPORTS
Reports and Charts
Pool Statistics
FORMS
LINKS
Links
Test Notification
Data Requests
Regulations
Industry Guidance Bulletins
How to Apply
ABOUT US
History
Staff
HELP
Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
215-222
Operator Name:2. Development Exploratory Service 5 Permit to Drill Number:215-222 6.50-029-23099-60-00 Prudhoe Bay, Aurora Oil Hilcorp North Slope, LLC 5. Well Name and Number:8. 10.Field/Pools: Well Class Before Work4. Present Well Condition Summary:11. Total Depth: measured feet feet Plugs measured feet feet Effective Depth: measured feet feet Packer measured feet feettrue vertical true vertical 8097 8097 6706 6658 8054 6552 Casing: Length: Size: MD: TVD: Burst: Collapse: Structural Conductor 117 20" X 34" 36 - 153 36 - 153 2280 770 Surface 2880 9-5/8" 35 - 2915 35 - 2878 5750 3090 Intermediate 6793 7" 32 - 6825 32 - 6667 7240 5410 Liner 202 4-1/2" 6710 - 6912 8430 7500 Perforation Depth: Measured depth: 6989 - 8097 feet True vertical depth:6745 - 6706 feet Tubing (size, grade, measured and true vertical depth)4-1/2" 12.6# L-80 30 - 6718 30 - 6596 6658 6552Packers and SSSV (type, measured and true vertical depth) 5" Baker PRM Prod Packer Slotted Liner 1547 2-7/8" 6957 - 8054 6738 - 6710 12. Stimulation or cement squeeze summary: Intervals treated (measured): n/a Oil-Bbl Gas-Mcf Water-Bbl Casing Pressure Tubing Pressure 19111500452 997 600 2233 Representative Daily Average Production or Injection Data Prior to well operation: Subsequent to operation: 17. I hereby certify that the foregoing is true and correct to the best of my knowledge. Contact Name: Contact Email: Brian Glasheen brian.glasheen@hilcorp.com Authorized Name:Stan Golis Authorized Title: Authorized Signature with Date:Contact Phone:(907)564-5277 Treatment descriptions including volumes used and final pressure: 13. Operations Manager Operations Performed1. Abandon Plug Perforations Fracture Stimulate Pull Tubing GSTOR WINJ 5 WAG GINJ SUSP SPLUG 16. Well Status after work:Oil Gas Exploratory Development Stratigraphic 15. Well Class after work: 5Service WDSPL 14. Attachments: (required per 20 AAC 25.070.25.071, & 25.283) Daily Report of Well Operations Copies of Logs and Surveys Run true vertical measured6706 Sundry Number or N/A if C.O. Exempt: 320-465 Junk Packer Printed and Electronic Fracture Stimulation Data 5 Patch Tubing Operations shutdown Change Approved Program 5 n/a Senior Pet Engineer:Senior Res. Engineer: STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION REPORT OF SUNDRY WELL OPERATIONS Suspend Perforate Other Stimulate Alter Casing Plug for Redrill Perforate New Pool Repair Well Re-enter Susp Well5 3.Address: 3800 Centerpoint Dr, Suite 1400, Anchorage, AK 99503 7.Property Designation (Lease Number):ADL 028257 PBU S-112L1 9. Logs (List logs and submit electronic and printed data per 20AAC25.071): Stratigraphic Other: API Number: Form 10-404 Revised 03/2020 Submit Within 30 days of Operations By Samantha Carlisle at 11:11 am, Dec 02, 2020 Digitally signed by Stan Golis DN: cn=Stan Golis, ou=Users Date: 2020.12.02 12:55:45 - 06'00' Stan Golis DSR-12/2/2020 SFD 12/2/2020RBDMS HEW 12/2/2020 MGR17FEB2021 ACTIVITY DATE SUMMARY 10/15/2020 ***WELL SI ON ARRIVAL*** TAGGED 4 1/2" MCX INJ VALVE @ 2257' MD. ***WSR CONTINUED ON 10-16-20*** 10/15/2020 T/I/O=1400/1550/0 Load tbg with 3 bbls 60/40 & 100 bbls diesel pre slickline FWHPs=2600/2300/0 10/16/2020 ***WSR CONTINUED FROM 10-15-20*** PULLED 4 1/2" MCX ON 3.81" X LOCK FROM 2257' MD. SET 2.31" XX PLUG @ 6685' MD. ***WELL LEFT S/I, READY FOR FB*** 10/16/2020 T/I/O=1924/1604/0 Assist Slickline as Directed (TxIA Comm) Pump 4 bbls diesel at min rate while slickline pulls MCX. CMIT-TxIA to 2500 psi *PASSED* at 2449 psi. T/IA lost 24/21 psi during the 1st 15 minutes. T/IA lost 15/13 psi during the second 15 minutes. Pumped 0.84 bbls of 40* F diesel to achieve test pressure. Bled the IA to S- 122 F/L. TBG pressure fell but at a slower rate. MIT-T to 2500 psi *FAILED* Pumped 15 bbls of diesel into the TBG with the IA open to establish LLRT of 0.18 bpm @ 2480 psi. Final T/I/O= 520/220/0. 10/18/2020 T/I/O = 1530/1140/Vac. Temp = SI. LLR x TBG (Eval T x IA). TBG FL @ near surface. IA FL @ surface. Hardline rigged up from IA to the TC on #122 (SI @ swab, 1/4 turn & IA casing). Flowline is SI @ wing & DBL plug valves (2700 psi). U- Tubed the TBG & IA for 30 minutes. Bled the IAP from 1106 to 3 psi in 1 hour (IA swapped to fluid/gas mix @ 14 psi, 3.4 bbls bled back). During the IA bleed the TP decreased to 240 psi. Bled the TP from 240 psi to 14 psi in 15 minutes (.6 bbls all fluid). During the TBG bleed the IAP increased 10 psi. Re-bled the IAP from 13 psi to a Vac in 2 minutes. During the second IA bleed the TP increased 200 psi. Pumped 6.3 bbls of DSL down the TBG @ max rate for triplex (taking returnns to a bleed tank). Max TBG pressure during attempted LLR = 1444 psi. 6.2 bbls returned from the IA. U-tubed the TBG/IA for 30 minutes @ end of job. Tag hung. FWPs = 780/760/0. SV, WV, SSV = C. MV = O. IA, OA = OTG. 17:00. 10/19/2020 T/I/O = 900/590/VAC. Temp = SI. U-tube TP/IAP (pre LDL). 2" harline rigged up to IA & TC of S-122. T & IA FL @ surface. U-tubed TP/IAP to 650/640 psi for 2 hrs 30 min. Monitored for 30 min. TP increased 80 psi, IAP decreased 90 psi. Final WHPs = 730/550/VAC. SV, WV, SSV = C. MV = O. IA, OA = OTG. 05:30 10/25/2020 T/I/O= 280/110/0. LRS unit 72 Assist E-Line (LEAK DETECTION LOG) Pumped 115 bbls of diesel into the TBG with IA returns to S-122 F/L. Final T/I/O= 1280/260/0 10/25/2020 ...Well shut in on arrival... (HES Eline - LDL) LOG READ ARCHER LEAK DETECT LOG FROM TTP AT 6,685' TO SURFACE WHILE LRS ESTABLISHED A LLR OF 0.34 BPM AT 1450 PSI PUMPING DOW N THE TBG TAKING RETURNS UP THE IA. LEAK SIGNATURE FROM ACOUSTIC AND TEMPERATURE DATA AT 6,460' ELMD, CONFIRMED WITH STOP COUNTS. ***Job Complete. Well shut in on departure.*** 10/28/2020 T/I/O = 160/0/0. Temp = SI. Verify communication (Ensure well is not frozen). Used 1/8 bbl amb Diesel to pressure TP from 160 psi to 200 psi. IAP increased from 0 psi to 40 psi verifying communication. The companion side IA gauge also had communication. Bled TP from 200 psi to 60 psi in 1 min (Fluid, 1/8 bbl). IAP went on a Vac. Monitored for 30 min. TP increased to 150 psi. Collected IA fluid sample. Final WHPs = 150/Vac/0. SV, WV, SSV = C. MV = O. IA, OA = OTG. 16:00 Daily Report of Well Operations PBU S-112 Daily Report of Well Operations PBU S-112 11/13/2020 ***WELL S/I ON ARRIVAL*** DRIFTED CLEANLY W/ 30' x 3.68" DUMMY PATCH TO 6550' SLM. ***WELL LEFT S/I; READY FOR E-LINE*** 11/17/2020 ***WELL S/I ON ARRIVAL*** (HES E-Line Set Baker Patch) SET 4-1/2" 45FLGD BAKER PATCH 6,449' - 6,474' ELEMENT TO ELEMENT (Top of patch ~ 6,447', MIN I.D. = 2.45", OAL LIH ~ 30.88'). LOGS CORRELATE TO READ LEAK POINT SURVEY DATED 25-OCT-2020. ***JOB COMPLETE ON 16-SEP2020*** 11/17/2020 T/I/O = 840/230/Vac. Temp = SI. MIT x TBG Passed to 2905 psi (Post patch). Test pressure = 2500 psi. Max applied pressure = 3005 psi. TBG FL @ surface. Pressured up the TBG w/ .3 bbls of DSL. The TBG lost 80 psi in the first 15 minutes and 20 psi in the second 15 minutes for a total 30 minute loss of 100 psi. Bled the IAP (.4 bbls, all fluid). Tag hung. FWPs = 840/260/Vac. SV, WV, SSV = C. MV = O. IA, OA = OTG. 17:00 11/23/2020 ***WELL S/I ON ARRIVAL*** (leak detection log) EQUALIZED & PULLED 2-7/8" XX-PLUG FROM NIP-REDUCER @ 6,685' MD. ***JOB COMPLETE, WELL LEFT S/I*** Operator Name:2. Exploratory Development Service 5 Permit to Drill Number:215-222 6.API Number:50-029-23099-60-00 Prudhoe Bay, Aurora Oil Hilcorp North Slope, LLC 5. Field/Pools:9. Well Name and Number: ADL 028257 Property Designation (Lease Number):10. 8. PBU S-112L1 7.If perforating: What Regulation or Conservation Order governs well spacing in this pool? Will planned perforations require a spacing exception? Stratigraphic Current Well Class:4. Type of Request:1.Abandon Plug Perforations Fracture Stimulate Repair Well Operations shutdown Patch Tubing Op Shutdown GAS 5 GSTOR WAG SPLUG Abandoned Oil WINJ Exploratory Development Stratigraphic 5Service WDSPL 12. Attachments: PRESENT WELL CONDITION SUMMARY 8097 Effective Depth MD: L-80 11. 11/4/2020 Commission Representative: 15. Suspended Contact Name: Brian Glasheen Contact Email: brian.glasheen@hilcorp.com Authorized Name: Stan Golis Authorized Title:Operations Manager Authorized Signature: Plug Integrity BOP Test Mechanical Integrity Test Location Clearance Other: Yes No Spacing Exception Required?Subsequent Form Required: Approved by:COMMISSIONER APPROVED BYTHE COMMISSION Date: 5OtherAlter Casing Pull Tubing Conditions of approval: Notify Commission so that a representative may witness Sundry Number: COMMISSION USE ONLY 17. I hereby certify that the foregoing is true and the procedure approved herein will not be deviated from without prior written approval. Detailed Operations Program Packers and SSSV Type: No SSSV Installed Packers and SSSV MD (ft) and TVD (ft): Perforation Depth MD (ft):Tubing Size: Size Total Depth MD (ft):Total Depth TVD(ft): 6706 Effective Depth TVD:Plugs (MD):Junk (MD): Other Stimulate Re-enter Susp Well Suspend Plug for Redrill Perforate Perforate New Pool 6658, 6572 No SSSV Installed Date: Slotted Liner 1547 2-7/8"6957 - 8054 6738 - 6710 Well Status after proposed work: 16. Verbal Approval: Change Approved Program 35 - 2915 35 - 2878 14. Estimated Date for Commencing Operations: BOP Sketch 36 - 153 Structural 7240 Proposal Summary 13. Well Class after proposed work: 5" Baker PRM Packer 6989 - 8097 6745 - 6706 4-1/2" 12.6#30 - 6718 Liner 6685 6572 6685 8054 36 - 153 770 9-5/8" 7" 26# Contact Phone:(907)545-1144 Date: 5410 117 228020" X 34Conductor 3090 GINJ 5 Post Initial Injection MIT Req'd? Yes No 5 5 Comm. STATE OF ALASKA ALASKA OIL AND GAS CONSERVATION COMMISSION APPLICATION FOR SUNDRY APPROVALS 20 AAC 25.280 Surface 2880 5750 Intermediate 6793 32 - 6825 32 - 6667 202 4-1/2"6710 - 6912 6589 - 6717 8430 7500 Address:3800 Centerpoint Dr, Suite 1400, Anchorage, AK 99503 3. No 5Yes Casing Length MD TVD Burst Tubing Grade:Tubing MD (ft):Perforation Depth TVD (ft): Collapse MPSP (psi): Wellbore Schematic Comm.Sr Pet Eng Sr Pet Geo Sr Res Eng Form 10-403 Revised 03/2020 Approved application is valid for 12 months from the date of approval. By Samantha Carlisle at 6:32 pm, Oct 28, 2020 320-465 Digitally signed by Stan Golis DN: cn=Stan Golis, ou=Users Date: 2020.10.28 16:08:03 - 08'00' Stan Golis X DLB 10/29/2020 DSR-10/28/2020 10-404 2700 MGR28OCT20 Yeson Required? Comm 10/29/2020 dts 10/29/2020 JLC 10/29/2020 RBDMS HEW 11/12/2020 Tubing Patch Well:S-112/S-112L1 PTD:202-135, 215-222 API: 50-029-23099-00, 50-029-23099-60 Well Name:PBU S-112, S-112L1 API Number:50-029-23099-00/60 Current Status:Not Operable Rig:EL Estimated Start Date:November 24, 2020 Estimated Duration:2days Reg.Approval Req’std?Yes Date Reg. Approval Rec’vd:N/A Regulatory Contact:Abbie Barker 564-4915 Permit to Drill Number:202-135, 215-222 First Call Engineer:Brian Glasheen (907) 564-5277 (O)(907) 545-1144 (M) Second Call Engineer:Brodie Wages (907) 564-5006 (O)(713) 380-9836 (M) Current Bottom Hole Pressure:3966 @ 6700’ TVD (Based on FL 10/10/18) MPSP:2700 psi (Boosted Water Pressure) Recent. SI Surface Pressure:2100 psi (10/15/20) Min ID:2.313” at 6596’ X Nipple Reducer Tie In Log:PDS Archer LDL dated 10/25/20 Brief Well Summary: Tubing x IA communication was noted after recent shut in. A CMIT was performed and passed. Next, a CMIT was attempted and a LLR of 0.18-BPM was recorded. Next, an Archer Leak Detect Log was run and a tubing leak identified at 6460’. This job will restore tubing integrity and allow the well to resume injection. Notes Regarding Wellbore Condition: x Well has AA for PWI only. x Plug set in tubing at 6685’ Objective: Install tubing patch to restore integrity. Procedure: E-line 1. MIRU EL unit. 2. Install Baker tubing patch per attached LDL 3. MIT-T to 3000 psi 4. RDMO. Slickline 1. MIRU Slickline unit. 2. Pull TTP set at 6685’. 3. RDMO Attachments: 1. As-built Schematic 2. Proposed Schematic (Tubing leak point determined utilizing 'Archer Leak Point' log 25-Oct-2020. Leak point on log identified at 6460' ELMD.) * C<OT TxIA passed on 16-October-2020 • • —9 a • LL LL o •o • ..- ' o Q W -I1 W -11 I 0- ,61. CV 0) NI 4 LL Q LL Q r r . . T O O LU p JI Z JI Z 0 O. > Z 't - - N M \ C N N - �' 0. C Q LL Q LL co co • X co U_ N 2 6 "O co c2 • Z_ (n1 Z N1 tl) N T CV O !, }I c0 ! 0 N co� N w. LL a LT_ co C N C N 7777 H .+ ! U .0 O m I (0 (0 CO (0 o m m m Z Z E O '@ N CO CO CCCCNNN] J _ it it it it CO N Q O) W co V C u.) Lo CC CC IX CC 03 OOCL a a d J J J JLLN Q Q Q QCV CV 'J VaEZ (U Q- (o 7 N 45 Uco Z o d D D ch n 1mN 1n ILL n n o n ymF NN (2 1-1- N p 0 c LLI0 u4_ aauhi awF 'a iwOiwF iii aiii aZ 0 d o— LLa IIit cit 1 U it I it IU 11 it it it — • • � I � •)ce I U UULi_ U ~Q N LL U>mI U vi U U U ()EC J 1 CO C C C C 0~ •C 2 •CIC 0_ C C C 'E O • CO OO_1(0 O O O O O_IUI O_im1 O_U1 O _Iml O O O O QJ C) 0 V JN v = JJJvvvp vv v v Jvpv = vpv OCNI N N 0 CO CO CU Cl)CNmN J N m O) J ON OO ce Q N EO LTILIS111,-- wCu- O0 U Cl) d p p p c0 p m p p p CO CO CO p a 0 0000 0 0 0 0000 W E :° O N N N N N N N N (N CN N N CN CO 0) (P (A CA 0) CA CA CP O y N N N N N N N N N N N N N d "O co co co CO CO CO (o CO 4r. 1... (o tic. CO CO CO CO W w Z (,) 00 m Q Z 8 _J r O Q wR7 $ a, <QO N co J - N Z a ° • � �zwtv C �� C ! wc0 a rn (o ONC 0. coJ E NCDa 0U = 0 U E N. cf) C (I) re zIt° Qre c I— n (6 i• s r Q O'.. Z o J2 G )- N d 03 QN TO O U m JC!) 0 o 0 Q a ° \ aNi °' $I Q C1 Z Clo CD d U o l E -J o to 2 Z 7 NCO 00 @ CO CO CO (Cl CO CO CO CO W N CO CO CO CO CO CO CO CO (Cl CO (Cl CO CO CO E E ° 0 0 0 0 0 0 O O 0 0 0 0 N- co m m ( O (O (Cl (Cl (Cl m m m m N CA CT CA _m _m co (A CA _a) CA (A CA _� !I co D z O .. ,6 5 O O 5 b .6 0 E E E 0 0 N > O J .�.. N N (f) (n If) LO (f) (f) in Cn to to LO (0 LC) N N 1 !v V V v v v v . v v v . �N[) Q Z t C d 03(a E h' co co co CO CO CO h- CO CO CO CO CO N 2 0 O W a z N N N N N N N N N N N N N N CL I 5 O Q `0 16 LL E �a E v D Z Q' +`r .4- 0 or-- -0 o a O c O• SIL Z LL W C 2 U 0 U U U U 0 0 0 U U U U E Q N J O ILu O LU LULU LULU 0 0 0 0 Ud 2 w LU LG !T J G C= • • 0 o • _ _. 0 ❑ N coo J LLI LI o LLI Z LII Z > m IL Q J F- ° Q CO L Q LI C) N DD Z J I Z U) o Z U)I Z NI j, N Q LL r r d • a LL1 V) LL (I) N Z 1 (n U) D ao ❑ 0 c >; Cal 5 • (� O O O m ago H u) ° o ` CS ❑ U CD 00 c Lo a a CO co co of c F < < ❑ 0 0 0 0 o � U H n C01 (15 co Z Z E W _ No (U W d' CV CV CV it Z @ o o Il a CC Il m a I1 UI o1 Le Q Q CD JI m Tc CO CO LO n r- LL E Q coc1 CO CV d d co W LL Z Y co Ce o o NI NI m NI NI a CNI Z co c Q Q LL~ o ) E a) Y a)w a)`1Y c- V (6 N N,� O O W a) I O O O V) coV) cc O) f1' Q' U (n n (n o V) In n (j) rn • I 2 ❑ u)p_I d p CO 1 v U I0 cn I a' CO 10 CO Q a) w a) 'if ❑ ❑ m 2 V ai o. ai a) ai gi ai Q ai hi ai ai ai Y ai W_I ai C ai tt_I ai Z co o_ � 0 pll) p W a3Jm o C�0 (9 D: (9 F- C72 LL "'I LL �6 LL LL �lY LL�,IUI a p t ❑ IOI LL a LL LL LL LL IU if 1m it 1U it. 1m it rn oN oml oOF 0O < O oma v_ w 0 o o o _1 .0 c7, I 0m_1 gm I o • 3 E •E •E 'E 'E 2 o W o c o •E c c c c 2 'c ❑ 'c 2 c ❑ c co @ O O 1 O O IU O Im N 2 Cal N O O a N O m O O O O a fn 2,-,,H J p LL m o LL J p Q 0 UN UN U UN = UNp �U �J UNa U C U U U UN ❑1 to oNp1 UNLL t5,2 -I J _N _N m _N� m N� J _O _m Ns-Q N O N m N Ns- J ,--_N ( _N� J N I a� '. IQ a 0 1W T- W ,- UJ W r- I LU - W NJ Nd Wy-h W o W W W W r- W W.-J W -W WSJ W O Z 0 I co co (0 (0 co CO co co CO (U (U co co co a a i to 0 0 0 0 0 0 0 0 0 0 0 0 0 5 W N N N N N N N N N N N N N N N O) O) 6) O) O) O) O) 6) 0) 0) O) (A O) O) O) Ce o N N N N N N N N N N N N N N N J CO CO O CO c0 CO (O CO CO CO (O CO CO A� CO CIT.. (C) a W w Z U m 0 Z 8 Q m (`6 N O O co 7 00 O. @ 0 C▪L to c (o c G O 0 Oo Na) co • co 7 nE N - o v-. o J v� a 0, H D F_- z_ (° 5 o MG CO N W Q N CO .4' //p O a) A 0 0 Q a ° I— a) < o a Q ?d U o cn c cn E co cco co o U Z co co as co co co co a) `m co co co m m m CO m m m o co co m io m -o P Ca m CD CD m is m m is m CO C1 ❑ ❑ 0 co co 0 0 ❑ ❑ ❑ ❑ 0 0 0 0 m m CU m m m I I m <o o m m m m CU m m ' ooo) m rn •rn o rn •rn u) rn 5) o) oo) o) ❑ ❑ ❑ ❑ ❑ J CD ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ o ❑ N > (n (n 0 0 In (O (O CO CO (O (O CO (O CO (O CO co N I— V V V V cr V 7 <t V V V V V V .1- N ) ) C'') M co co co Co co co co co co co co co co (f) N- N- n N- r N- N- N- N- 1 N- N- N- N- N- N- e- N N N N N N N N N N N N N N N N N N 0 • m o W v U 0 0 0 0 U 0 0 0 0 0 0 0 0 0 0 0 0 0 d• ❑ ❑ 0 ❑ ❑ 0 p o❑ 0 0 ❑ ❑ ❑ ❑ 0 0 0 0 O d 2 W W LU LU W J J LU LU W LU LU LU W W W W • • o o • E a E. Q o , 9 Li.i1I z -0 I z I Z J p, J J N a) 0 vi • Z LLI CO • a Z IIit Z LLI > o m z as aT) a) . . LL co O • a oc W Cl) o) U_ m > > m 01 > 2 c co Et 01 > 01 > ca CV 5 U co N Y 'V 2 i-1 O os co ;� ° 5 1I I U o c a) m as F Y a m c0 an o co m m m to c c c U H cn DI @ in a o F- LL E LL I UI 0 N IY N a)•J L O0 m v No N Ce N Ct N CL Z CO 2 e- a a ELL f0 N O CO �' ,- CO ,- CO m m a a a a a a a a CI mI a < < aci JI m c ° o 0) 0) E rn rn Q J J J as C Jr- ‘._ =Q - 0 O 0 • •- m ,- -o U l4 LL N N N (N I �'�. O U C1 rqZ Y CC W I _Z .- .- x- 00_ a) -. aa)i_ a)Y• N LL ~ in a)in CO E a) a).- a)iY C7 cn cb ,o co cn co co�1" co SIU 01_1 o a 2 wI m .cIU 1I a . EIU 0• Q ai ai ai ai o1 ai �I ai ai eC Y air —I 2 ai ai ai ai ai o Y ai a-I ai e Y ai eC -I Z ' N 0 -01- -0M 0Jm --a — — — —C 1- — 02 —C 1- —02 E W W It I LL I L. W 10 LL I m 0 I I W 0. W LL w w I0 W Im w 1 U tL I m v o o O ' O' 0 7 —1 .c.)0:7 U N O v () 0 o N—I O N U N -I U N I • 7 'E 'E 0- 'E . 'E m 'E m 'E 'E m 2 'c m 0 'c m o 'E 'e* 'c 'c 'c 'c m 2 'E TO 'E m 2 E m 0 ci)• 115 2 0 'E Or 2- 2- 2 Oam 2rJ 2.7---,,,c, O (p 2 2 2 Dam 2,-- ,71, Oam 2 - J W a) a) N 8g N_N a8iN N a0)N0 a)N W mNQ 8 =0 N N a) a)N0I a)_NLLI mNo1 NN_ WI Ce Q fl_) 1,W W a Wa W7 W7- W W7W Wr- J W aA W U W W W W W WSJ W ; W WJ O zer (0 (0 (0 (0 (0 (0 (0 v7 (0 ISI L • U o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 W d N N N N N N N N NCD N0) N (N N N NCD N N Ce 0 N NCD 0 N CD N CO N CO N NCD 0 NCO NCO NCO NCNINNCO CO CO CO Nco NCO N a W w z V m a z Q .a rn N N- J 0. � ' o (n CL CD c co C r �' O (0 O c-4- n J E (..) 5=-4 0 v-, ti t- T yo Q 0 CL bha D H < `0 S z o N MG QN m V CO o N a 0 Q = 0 a ° a) Q o a z E o 0 U , m Z CD a) m CO CO CO m co co co co m CO o) m a) co a) CO CO CO CO CO m m m CO CO m m m m co co m 00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 r` To o To To To To �o o m m m m _m m o m 0 0) 'o) '0) 'rn 'rn 2 .5) ') •) m 0) '0) '0) '0) 0) 0) '0) o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O 0 0 0 N > co co c0 co co co co co N. r— N- N- N- 0 N- N- N N 1- V V V V V V a V V V a V V .1- N co co co co co co co co co co co M co co co co Mj in N- N- r` r` N- r r r- r` r` r- N- N- N- r` r` r N N N N N N N N N N NNNN N N N N 0• r- a) w 0 v U 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 U C7 £ O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 2 w w w w w w w w w w w w w w w w w • • o `.° o • o o 4.1' W O J� �� 4 N U X Q LLI J .J N Z o o . LL N >- >- > CA U 7 7 Z . .� Q1 Q (n cn cn <) u) O it C c m m ~ F �I co D in F' LL it LL U VI U o N N Q ti O < O N N N N 2 I NI Cf tY d O Zd CO a a CO mI m1 a Q ¢ U d co rn Q J J J J CO N J O N 2 CV CV (N (N 0 C.) �I �I. LD 0 0 Co Z_ O O ,- o co Y W Q' U U J 5 Ch ch ch In (n c° In m ch to wI" 6 ctIU O Q Z > ai ui gi gi = coI ui LO ui hi()I ui CO 21 < nr Z I.L I L. IL it IL 1 IL I it I.L 1 O it I Cn Et = C Q Y 0-0 U U U U N U N U U N_I U N 1 Cl- a) Z E .or .o .o .oa .oa .o .oam .oao N°o E • u) W N J E al >_N _N y _N y _N a) 15)(71 N4 N I)el°1 NULL L%c' V o 1e Q m W c2 W r2 W W W ; W W W.-W W�JI N2 0 it Om F V o o 000 O 0 0 o EC E rn a LU E N CN CN N N N (N (N N (p 7 Q CS) 0) 0) 0) 0) 0) 0) 0) 0) Cn Z ai Ce O N N NNN N NN N O 0) J CO CO m CO CO Co CO m N m a LL E LU m Q a) Co o a V J m Z d Q o re 0) Co 0 O p 17 to O J 0. C o w o E w a o u) 5 0 0 (ca) C r a) p co G Na E U U z w 0 J to } } Q O 0 0. D a m Zcocu c o • N m C m CO01 v 5 o I- E 4.5 fs Z' 3 CO p as N a) Q re a. cm o To m Q ti a ° m O D Z O U T • U m 0 2 0 m 0 Z u) m.. m m-. w @ m. CO m m. N � I, 0 CO O CO CO CO CO m m m m m -o m Q Q Q Q Q Q Q Q Q m A O O p a) 0 �`��� N N n Co .m. Co Co Co .Co Co .mo .mo I 0 M v Cfl . 0 C-....1 O) o) o) o) o) o) O) .. o) 0) •m } C Q O 0 0 0 '0 0 O D 0 E v N > N- n n n n n n N- n n w W o >- N N H M M M M M M M M M M C I Wcv CL E co O it, n n n n N- N- N- N- N- n r N N N N N N N N N N d W `p o Nt co 0. o w a c o = a: w 43 IiIt0 � 0 Q w On oZ OFm 00p i m < . 0 0 L) CDU U U U U U U U 0 0 c 2 TD J t; a) I 7 d 0 u0 o0—0 m0 ' O = i 0 d QQ 0 Q Q Q 0 Q Q 0 o � Uo Uaa 2 W W W W W W W W W J a 0 t • i O 9 O o N co I N CO 0 M Z ti Cil T CD 0 71 N 5 \y\ OF U z IT. I a z , (79z ui �/ J U G Ce Q N pa o U IL0 Ce J a W w z (..) m 1 1 Qco • N J a 3 as O COOc. � o G N O E T VN N U c w T y T £ h ch £ to Q z 00 I I ° P. H Z co o 2/ N W Q N CO QN d in o CO o c I Q a o Q p a z £ p 0 d U l £ R z i d co bo- o co N > m N ~ in N N N CL 0 0 p co- V .2 o : +L, c c U co a y �o U g to 0 1 E E O a 2 c v 0 Ftecov 411) • 2 1 5 2 2 FRIO juN 2 9 ;!-'01t)b 2 7 3 4 5 BAKER PRINT DISTRIBUTION LIST HUGHES AOGCC Please sign and return one copy of this transmittal form to: COMPANY BP Exploration Alaska Inc BP Exploration(Alaska)Inc. Petrotechnical Data Center,LR2-1 DATA LOGGED 1 /Ca/2o14o WELL NAME S-112L1 900 E. Benson Blvd. M.K.BENDER Anchorage,Alaska 99508 FIELD Prudhoe Bay Unit to acknowledge receipt of this data. COUNTY North Slope Borough LOG TYPE GR-RES BHI DISTRICT Alaska --- LOG DATE April 21,2016 AUTHORIZED BY Patrick Rider EMAIL Patrick.Rider@bakerhughes.com TODAYS DATE June 28,2016 Revision STATUS Final Replacement: No Details: Requested by: COMPANY FIELD FINAL CD CD ADDRESS(FEDEX WILL NOT DELIVER TO P.O.BOX) LOGS LOGS (digital/image) Surveys (Final Surveys) PERSON ATTENTION #OF PRINTS #OF PRIN I S #OF COPIES #OF COPIES #OF COPIES Z' 4 L 4 1 BP North Slope 1 0 1 EOA,PBOC,PRB-20(Office 109) D&C Wells Project Aids Agatha Rutka&Barbara Glassmaker 900 E.Benson Blvd. Anchorage,Alaska 99508 2 ConocoPhillips Alaska Inc. I 0 1 1 I 1 Attn:Ricky Elgaricio ATO 3-344 700 G Street Anchorage,AK 99510 3 ExxonMobil,Alaska 1 1 I 1 I 1 I I Attn:Lynda M.Yaskell and/or Leonardo Elias 3201 C Street,Suite 505 Anchorage,AK 99503 4 State of Alaska -AOGCC 1 1 I 1 I 1 I I Attn:Makana Bender 333 W.7th Ave,Suite 100 Anchorage,Alaska 99501 5 DNR-Division of Oil&Gas *** I 0 I 1 1 I Attn:Sean Clifton 550 West 7th Avenue,Suite 802 Anchorage,Alaska 99501 Stamp"confidential"on all material deliver to DNR 6 BP Exploration(Alaska)Inc. Petrotechnical Data Center,LR2-1 900 E.Benson Blvd. Anchorage,Alaska 99508 Attn:David Itter TOTALS FOR THIS PAGE: 0 3 4 5 0 0 TOTALS FOR ALL PAGES: 0 3 4 5 0 0 • • N � N N Sli Milla L M nom Gra gala= ill � O E LIU <t cr a m J C Q 0. CD caCD DC .L a Eo J a c N r I m o N N a0 'a N N N = C. i1 Z a` a cis Ch 0 6L 0 • • y a iii oe �Z z m Ls ®1110 N 0 0 0 N O W N co O 4 1 N M O N U) Ca N O E n _ O o C) Z T T o U ❑ ❑ a N - • N '� N co U C N Y a) y N 7 la � CO CO 2 Q > (I) U N_ (p CO oi U JV •• Y (a = O o- 3 )r co . a) ai CD C C) C) 0.; a v u) CO F- W > > m c o Et. 4, J J (a a) > 'O C 0 7 O , V 0 hi o .o o c- N r co J 0 .N w o I O) o g R d o U) V 15 C• OGI C 7 j .E d C) V N L n co o d ) m U d o > > Co0 a) Ti, aWC N COd « 0 0 0 ,-, co J > 2 z to o h N (P 0 > > > N CO (P LON CO O 0 co ! O) f� q ^,3,=: O) (0 LO O) co w 0 L17 LO ON) N 0 O W p) 03N- CD 0 _ O O Q °..s d' Ln a d a'i c t mi n 7 d U) o TO 0 . r o C C a) W v o LI: I- + 7 y 0) N a) 0) C E CO a 0- C L •% N C o) O Z W (7) r c L .ia _ i N ° W 3 5 V zh0 I I a) w 0 Q ? �. 0 = 1 10 Q 0 a m _Q w co a 4 o d ui a o E m O CO d c C Li' N )r - co O co • N Co- v N Co — 7N N CO N L (h a Cl_ X o 0 0 0 0 CO W o 3 0 0 0 N Qtr Co N Z )- 00 O O O O CO O 0 .6 0 y N c o ,- ❑ m E Q C Q O a N N CO C) N t a — a co m m 2 a N N O a fl C/) ch O (n O• CO I) 3 2 E Y Q O a J J a Q N Z W O L II N N N 7 Z Q Z Z• a a Ci) 6 u) E co`Z t4 t4 E `o o C u .. V M N E O C o C CO N o O _CDti 7 m N C C yy CO CZ C oCLa aodT N O 0 a d .. ) Non ° o 0c O ® dy � AdN « « . Po _ da G)G « ' O o) c v Nmd 7 (.) aco o a 2 0 2 m co a s 3 3 a $ M o Q > > N v % • • s . H r --__.. O r 00 OO CO O 0 U) N et 0 e- I` 0) r CO N CO W O O v O v N c0 n N M O O N t` O U ,.moi O O O O M n NA n N N i` M W N O) CO M 0 N' N M M R N SiN 0) O r m � We d E o Lo O N CO 7 N V N CO CO N O N c0 V CO CO n CD g d0 CD N I-- 00 N N 00 N CO. N O L In N ` O U O O o O O N N M O M N O N 7 - 7 O O U Z Q O 0 7 0c 0- c 0 J > O 0 • 0 in 0 R' 0)o Cl N N Y .0 O 0 c9 0 0 0 Q O N N OM N M O N Cr 0V 3 O O N CN' O NO V ON'D OO O — N N' N O LO CO N O CO O O 0 N' OO V r N O O 0 O) O 6 O N CO N 00 O N co M 0) O) O M )!) n O N O O E )Y N CO CO M M M V C '.'CO c0 r 0) 0 N )f) N' 0) CO CO /�\!a\ a) 0) 0) 0) 0) 0) o) 0) 0) 0) 0) 0) 0) 0 0 0 0 0 e- e- .- 6 N N •O = ao CO CO CO CO CO CO O co ao CO Co- of of of of of of of a)- V). N N 0) - N 7 co co CO CD CD C0 CO c0 c0 c0 CO GO CD O CO O CO O CO O a) 7 5 0 I- Nu V) (n W O n .0 0 r co O 00 co V N co V CO N,- N 0 M 0 CO V LO N a) U) V V CO n O 7 eT r N M 0) CO O V NO er CO 01 c0 CO et. CO c0 N O CO N I' _ CO M y c0 et 4 CO N N K N- co O O CO O O 4 n N 00 N O .8c O co M M M M M co co co M V V CO M CO N 0 0 C 0 c LO CO h NO 0 4) N 0 a) N N l0 NO l0 c0 0 to 10 LO N .0 76L = 00000 00000 00000 co- 66- c; O N co co co co co co co a) co co co co co co OD O CO CO 00 CO w d N O 0) O O) CO a) O 0) O O O 0 CO 0) O 0) a) O 0) 0) ZN N c0 O t0 N N l0 N )0 NO N N N c0 N N N l0 N ce 0 O m c _O O d 0 W c 0 O 0O c0 01 M O�0 CO 3UO N NC-- NC-- O N' N 0 C 0 0 U) 09-1 0 e- CO N CO c0 CO CD CO 0 e- O c0 I,- r CO e- R CO i w R I E O O O O O N co N W O N I` M O O O M N h O 0 ' 0) R co co V co co 0) eN- et U) CO 0 N W INce T 0_ (0 T.°, 0> w t CO a 2� a b.. g J F g Z N 0 v 0 m W c + -o a 0 0 LL' N N co LL 6 6 _ o 2' Co + 0 N' n 0 0) 01 COCOV 0 CO N N CO CO o U '6 0 o o O " n a n co co 0) N r 0) U) .- N' I` CO O 0) O el- (I) p y T > O o o 7 N M N O N N V V N c0 N O N O N I 0 0 2 2 2 a 0 0) H m ? z 0 ; Ta 0 >� .,< ELMo o O) N co co N' co co co co co N N 0) '7 M of r w V 7 co M N 0 CO a) M U) N 0 0 CO 0 N N e- 0 M r o O O ci r N c0 cV a o O) v r O V co O M Q + H M M 0 0) 0) CO CO N CO N N 0 0 0) CO 00 I- 0) E • f0 e- e- N CO V' LO HFD CO n co o) O " � N CO er U' U) a) N Z 0 0 0 0 >> I— 0222 co O O 0) N' O CO r CO CO CO c0 CO 0 0 0) V CO V I- N 0 0 0) 0) CO CD N V 0) CO MI CO V CO CO I"- N N O CO U) Oi O (O cn co ao N a M h O M N O M co O n CO 0 c0 M 0) CO 0 0) 0) CO CO N n 0 0 O V e- e- N M V c0 O 0 N. r 00 01 O N M er c0 CD N & ca N co a r. 2 J J O rx N N 0 c0 CO N c0 I"- CO c0 I,- CO N I,- r 0 0 0) 0 H LL O r W N CO. V R O) CO LO 0 O N O 0) CD e- 0 U + (n(� O c+) N O 00 N' c0 CO c1) co co O ON cO O Oa a' Q - r CO CO CO N CO h N N-O CO N,- CO 0) O O O O O O CI) O S - e- e- e- r- e- e- e- e- e- e- a >» v E a. m 2' 0 O CO O N Y N O) N N QQ N Y Y 0 CO 0 (0 0) I- I- O N O O a) 10 l0 O e- CO 0) CD I,- 03 CO v CD u) ch 07U 0 CD et 0 O U)c0 O M N O of CO e- CD O N LO CO O O N QO O O O O M N r r 00 OO O O M NCO M V' CO 4 0) N co O l6 [0 OCI M C) N 0 T 0 OoCO O CO 0 ▪ N 0 ' co co V O E N @ F )O C co- Q 0 0, J J ..c - N N N o• 2 w Z a a C) c) CC) O co O O co O o O O 0 O O O co co N O O N' O N CO N Q O co O O N O O O O O O O O c0 0) 0) N CO O Cr) CO O CO O co E O O N n 1;i O 00 O O c0 W co O O V n N O O cD ` .- N� O M O O O O M O W O O O O 0) a0 W N' n r O M r e- N M V c0 N CO n CO cO 0) O N CO V N O �. O E x co- n r r r r r r r O Q 2 O 0 OE e4` C .. 0 d LL .0. c2 V CO f 0. 0 0 cm d 0 z O) _ .. - O a. co O co _..._ 1 mac v t 0 • t U) 00 O N 0) M U) CO N N (O NI- CO M •r CO CO Cr CO M rCO • W M M V r O) N f A N CO r V O O O CO I- U) CO O V r CO CO Z O r O V r W (A f� U) 7 N Ni O CA 0 n O (O (O n h f� r W fA m 00 00000 0000 O O O) CD O) W CD m (P m O) 0) 3 V r r r r .-- x- 1- In NO 111 0 o co 411 0) m a '7 CO O) V O M CO CO O U) CO m N N N CO CO CD N U) V CO d' O) W a V N O N O N O O O V CO O M N N VN CO N CO O x- N -. O U O O .- N co r M M Ni O O O O O O O O O O Ni O O O O O 0 4 Z Q N d2 C C J O O O D O O O D D 0 Q a CO O) 0 Y O O N f0 O) VCO N O M (A r N- N r- O I. N CA O O N CO CO CO M O N CO CO ZU) U) O N U) 00 CO U) U) CO CO (0 CO N CO CO C N N M CO 0) N. O O O OO Q 4 co co co co V r O V U) CO N (O 0) O 0) N O CO N d' CO V co NCO CO U ' M (0 00 I. Ni V N N U) Ni O CO U) M Ni O (O Ma N 00 O Ni V (0 00 Y 00 o N Cr CO N- 0) 0) 03 CO N- N. I� N- N. N- CO CO CO LC) U) CD CO (0 CO (0 E co CI N N N N N N N N N N N N N N' N N N N N N N N N N N (° O Z' 0i C of CA Oi 0) Oi (A C C 0) W Di 0) O) 0) O) W m m Oi Oi a," 0) Oi - - 3 C N (0 (0 (0 CD 7, w 0 O COO O COO CO(O O CO(O (O CO(D CO (D CO CO cC) O CO CO (fl (D O CO CO CO CO CO iLi M CO N N- V N (P N N U) IN N CI) x- .- CO CO O N- 00 V M CO N CO CO N- 0 N U) IN. s- M O N. CO 7 N CO N N N 7 CO CONN COCm (0 0) N. U) 0 01 00 ili V N W (O Mo W (O N M Ni Ni Ni Ni N Ni Ni Ni M4 V V M Ni Ni O O) O co C O Cr co 0a) co W co 00 OO co co W CO CO CO W 00 00 00 0) 0) 00 C C N V 7 V V V V V V V' 7 7 V 0 V V V V 7 V C V V V V V ti! L L C O O O O O O O O O O O O O O O C7 C O do- O O O O O O N t+ (0 co co 00 OD CO CO co C) UO OD (0 CO OD 0) W a0 OD 0) co 00 (0 W U) 0 CO W Z 0) 0) C 0 0) 0) 0 0) co O) 0( 0( 0) O) C 0) 0) 0) 0) D) al C C C D) 0) et U) U) N U) U) U) U) co" U) N 0) 0) co- U) O C di O d C as I I O wd` U N U) U) CO 0 N CO O O C C (b U) O CO N O O N- IN O M IN CO V 00 CO U) r h Ni M U) W U) 4 Ni LO r C CO Cr U) UN U) 1t CO r Cr CO [O (31 1) CO UN W x- N .- OD N CD V � C) N. CO CO N CD (O N C CO - O) M U) r V CO M co N N N N CO CO CO M o a) ' IY >, Ca N N N CO CO CO co co co M co co CO CO co co co O) M CO CO CO CO CO CO M R L a) L J• '2 2 (n O W a O co co co U) (D W CO N U) N- O CD CD O CO M N- N- N- CO CO CD C IN O. O LO CO CO CO V CO � O CD N M Cr CO CO (0 — — (O 1- ,- CO N 00 (O Q) (O O CO co O Ni R U) r N.: W W O 00 W 00 N.: N.: (O U) (D N- N. W 00 O coIY V cr V cr U) In 1n U) U) U) U) V) LC) LO U) U) U) LO CO LO L L10 In N N a a (nc CO 2 z D COa C •LL- (O co O co - - a0 C m co O -- O co W M W 7 CO N x- N IN N- N CO IN N r N x- V O CO N -' N CO 7 CD I- CO CD N 1- M N V co O N I� I- Ni r Cj O N O Ln O) C•) aD COO U) O) C• (A U) co co U) V V M M N N N co O co N N N •- O O O O) CA 0) W 0) CO I` coO O ' N CO V U) co N r CC). aD 0) O ,- N M V U) co co N. OD (T N N N N N N N N N N N N N M M M M M M M M M M a O 0 � (0 .- O) O CO CO 0 CA 00 O O CO 00 CO C V' CO N N N CO CO Cr CO CO IN N- COCOC` O CO V COn CO N O U) M CP U) 0) IN C (b . . (0 C N h O O I� CO O) 0) Q) U) (b N 0) M O U) CD CO CO O o M N N _ O O CO W OO r N 0) 0) CC)C W N CO N- LO (O CO CO 0) N. CO !n O N CO CO 7 U) CO f� CO COa0 0) O O N CO V U) CO CO !T 0 x- x- x- N N N N N N N N N N N N N M M M M M M M M C) M 0 CO CO - N- CO 01 N O CO COO7 N N N 00) 7 N O co V N (CO C N V 00)) O co 00) C CA n CJ C'7 V N O U) CC) co co (7 O O O V V U) N- M M O (O O) OD LO) W C O 0 C O U) V U) (D CON- I` N- 00 N CO 00 (O x- x- 0 0 O .. x- x- x- s- x- N N N N N :N N N N N N N 1- Ti• V co Q co I- N O C OD N U) N LO MN x- CD V IN N N- Cr CO V C U) Q C CO 03 CO CO Cr U) O U) IN N- r W co (O 00C O CO CO V N Q CO r Ni O (D M r r r r r .— .— x- N N O x- x- x- c- x- x- RI U T V ?_ N CO C E 0) ((0 C7 < O n. J J z L N N N O 2 m Q Z d d (n CO CO C (O O V N CO CO N- O V O N CO W (3 Cr) N N- CO O) r U) V U1 03 LO Q CO c- R N O CO O N- 03 N U) N Cn CO IUJ N U) Cn N- Cr x- IN C Ns CO CO CO CO Ni O 7 (O Ni M M 0) (0 co U) 0 O) 4 6 (0 Ni (O M CO U) n M co (0 in U) co V V co co N N N (0 ' a co co N N N O O O CP C CO Q. I� CO CA O x- N CO R U) CO N. CO CO CD U. 01 O N CO Cr U) CO N. 00 CO 0) CO G t^a N N N N N N N N N N N K N M COCOCO- COCO- CO CO- COCO- Ch O 7 C .. i '2 V to 0 0 ,' m _° rn a) o 6 N E 0 r N 0 m > \ U O. U) CI co N a 0 0 0 V N co (D (D V CO N N V CD CO CO •0) N CO (0 N N 0 V 0) N (D N CO N O CO M N N a- CO N a- CO N CO N N V 0) CO N N CO N CD V CO W N N (D (D Cn V CO CO V V CC) O (D (D (D (D Cn V N Ni (D (O O O N N CD 111 lig Z 0) 0) 0) 0) O 0) 0) 0) 0) O 0) 0) a) 0) O) 0) 0) 0) 0) CO 0) 0 N V CD CO CV N CO \NO u, o houno Lo Q (n 02 0 V N 09 0) N CO (n O O 6) M CO N CO N N N CO u0 (O N V CO N CD N a- N O V a- N V CO N a- M N M N N a- CO c- N V M N CD (0 CD co CD O o 6 6 6 O O O O O 6 O 6 O 6 6 6 C) C) O O N N V V CO V CCi 6 U Z Q d 7 C C J o Cl 'N.O o O O 0 X w 0 D y 3 O (p N 0 0) O co N O N co N 0 V CO co co N N CO 0 CO CD N CO N O O CO 0) V co (n O N a- V CO CO CO CO N CO N N COC V CD a- N CO N 0 N N O O Q CO V O N N N CO Lo 4') co a0 co (O O co co co N N V C N O cri NCO CD 0 ' 0) L- CO V CO (n (O CO CO co co 6 CC) V N O W co (D V N (O O) OO CO Y co N N N N N N N N N N N N N N N N O (D CO N 0) a- V CO CO 0) E N C N N N N N N N N N N N N N N N N N N N N N N co co co V V N N CO O co O (O (O 6 CO (0 co (D O (0 O CO 'CD (O (0 (0 COD CO CO CO (O (0 (O (D .) ,— ,— E p w CO N co V CO (D V N 0) CO N CD CO CD 0) N CO CO 0 V CO CO V O) CD 00 0) CO N CO 0) CO CO CD N O CO O V N V N 0) O co co co M 00 CO N 0) N CO O CO V CO N CO V V 6) CO CO O N N 6) Cn d 0) OO N CO V CO N Ni Ni CO V N (D (D N (---: N CO CO Cn (D O) CO CO CO V Cn C) 0) N N N N N N N N N N N N N N N N N N N N N N CO CO Cr) 0 .- 0C V V V V V V V V V V V V V V 7 V V V V VV V V V V (n v) t t = O Odd 6 0 0 0 o O O O O 0 O O o 0 0 6- 6666 0 0 0 y N r c0 O CD OO W 00 N Co Co 00 CO 00CD W Ca 00 W CO M CO . . 00 (O W CO 00 W W a) 0) O co a) co co W a) W a) W a) )) D) W 0) a) a) W m O T D) a) 0) cZ V N CO N CO N Cn Cn (1') Cn N N N CO CO N N l0 lO Cn N CO N CO N N Cn (17 N O CC C d V CU V N C 0 CO (D 0 CD CO C 00 N N CO N- CO N CO 0 0 CO N Cf) 0 0 CO V CO N E N C V 0 CO N V N CO N CO CD (D V 0) N N 0 N N V N- 0 CO CO CO N- CO CO OD O w CD d U 0 M V V V V V V V V V V V V V V V co M co M V (0 OD CO Cn 0 CO O N w M ). CO CO M CO CO CO CO CO CO CO CO CO CO CO M CO CO CO CO CO CO CO CO CO V V N CO O R' K L N a r N J• 22 Z v) O t _ LO O coOcoNM CO CO CO V N- 0) 1- CO C CO 7 OD a V CC CO 0) N- N O 0N N CV() ID O CO V CO N W W N N (D CO V CO CO CO CO CO V V V CO CO (DCD OD C. co co co co 6 co co co co co co co co co c0 c0 c0 co co CO CO CO co co V M N CO i z 7 m RSC �..L N 0 CO CO N 6) N N- (O N N (V 0 N CO CO O) CO CO (D N N CO N O 0) co CO co co (n N N M CO CO CO CO CO CO N CO CO CO CO V ✓ CO CO O N CO V O V N O) V O (O M 0) CO O () CO N N N CO CO o co N N N (O CD CO Cn Cn V Cr CO CO CO (N N .- 0 0 0) co N (O V N U N 0) O — N CO V N CO N co 0) O ,— (V CO V M) CD N co a) 0) O .— N co V co M V V V V V V V V V V Cn lO Cn Cn Cn CO N Cn lO Cn N (D (D O (D O O (• fin N 0 CO CO N 0) N N (O N N (V 0 N CO CO 0) co co co N N CO N (D CO N V V V N C) CO M 0) V V V N N N V CO V N N V N O CO CD V O CO N CO O V Ni CD V O CO CO 6) V a) (D O vi CO N Ni O CO CO V V V co co N N N 0 0 0 0) 0) CO CO N- N N CO CO V CO D) O a- N CO V N CD N CO 0) O a- N CO M V (0 CO N CO 0) O a- N CO V V ^ E V V V V V V V V V V CO CO CO CO CA N CD N CO CO CO (O CO (O CO co" (O 1 `Fl N O CO 0) 0) (D V N (O CO CO V N CO (O CO a- N CO CO 0 N N 0 V CO CO V CO V CD N O) N CO CO O) CO Cn (OCO CO CO N N M N V T N N CD 0 O N V 6 V W CO 0 V 0 V O) 6 O (fl (N (N 0 O 0) O L N CO CO V V CO CO CO co co O)'....':N co co co V W co a0 W a0 W N W r r r r .- CO CO CO CO N. .N. N N N N E .N .°... 2. co N Q Q Y (n V co O CO CD N CO N N V 0 N CO 0) LC) 0) N- N LII V 0) N 0 J N N CI CO 0) 0) (n CO V LC) N N N N 00 N O O L- CO N CO CO 0) M LO N Q 0 O O O O O O O O 0 0 O O 0D N N N N CO CO CO TV I •N ca C <• 0 d J -) t L • N N N ✓ a- c- a- O• 2 m Sc Z d d 6 6 6 N N N O) 0) CO CD 0 N CO N CO V N CO N CD OD 0 CO (D O M CIO CO M N Q CO Cn CO V V LO CO 0 N V V 0 CO CO CO CO CO O) 0) (D V N CO N 0) N CO 00 O CD N N co V N 0) (D N CO O CD (D CO OD V 0) N 0) O CO co 6) CO CD N N CD (D CO CO N V V V CO CO CO N (V 0 0 0) 0) CO 00 O C Q O s- N M V CO (O N CO O) O .- N CO V N (O N 00 O) O N CO V (n (.) O E. V V V V V V V V V V LO- LO- Cn Ln Cn CO C() N (A Cn CO cO (O (O CO CO CO p c .. ii m ` (D 0 a (' rn m o d \N E• O r d d m 7 N O 0- in330 (I) a f 0 0 y CD N CO C) O V CD N CD C) CD CO SC C) V CO r r CO O CO co N- CO CO V A- A- V N- V N CD N CD C) M CO CO CO CO V N co W N 6 V CO O V C) N. 6 N C) CD N- r CO 6 6 Ci V CO C) N N NS- I.Rol CD C) N M N CD N- CO CD N N N- O CO CO O) N V CO CO C) CD N CO N N M M M M CO CO V V V V N CO CO N CO CO CD CO CD r N- r r m 40.W0 o jp a o o o \_ 0 N CO V V V N CO V CO 0) N 1� CO O O) O r N V' N CO N (0 0_ V O NN 0) CO CO CO N CO 0) CO N N N N m CO A- V CO N N N N O U 6 N N C<) O CO V O O )CO CO N V N4 CD CA N N O N N6 m 0 V co co co co M co co M CO CO CO N A- r 0 C C J p O 0 0 o 0 0 D D 4 m O = to 2 C) CO (O 0 V N V CO N- O) CO CO CO C) N- CO N N CO r V N O O V N N- N CO N O CO CO O N A- V N V CD CO C) r CO CD N- CO N CO N Q n (D C) O CO 0) Ns Is- CO CD V Co N CO CO CO N N V O N r 0) CNI OO 0 • N6 N� C) V N- CD CO N6 r = .- r CO V N O C) N r r N N6 CO N/�� Y N N N- O N CO CO C) N V Is C) CD N N N O C) r N M CO ( V t;/ E N C N co., CO co r N N- N- N- CD CO CD CO C) 0) C) C) C) C) CO CD CO CO CO N- 0 O 2' co O) C) 0) Oi (A 0) CA 0) Oi Di C) Ci 0) 0) Ci Ci m Ci Ci C) Ci 0) CA Ci `- `N N .•. a N m N (D CO (O (O CD (O N CO CD (O CC) CO CO CD CD CO CO CO CO CO CO CO CO CO • cis ch i w W Co N C) C) C) N O) O N CO CD N CO N- N N N N CD CO CO CO r CO CO N O CO CO V N I- V M N CO N N N CD C7) O CO N N (D CO V N O CO CO M N CD O CO N N CO C) C) C) CO N CU CO r V N- N N- V N M CO N N CO N. N O M N (D CD V C) 'O 0) N CO V V N N N (D r CO CO CO CD. CO V N. CD CO N N- 0) CO Co C N N N N N N N N N N N CD CO CD CD N- N- h CO CO CO CO CO O) C) 2' L t C O O O O O O O O O O O O .,...0 O O O O O O O O O O O O w N . 0 CO N CO CO Co Co Co CD O) O 0 N CD Co CD Co CD CO CO CO CO CO CD CD CO CO CO CO gc Z ... O) m C) 6) ) 0) CD 01 01 0) 01 C) CC)) 0) O) C) O) 0) 0) C) 0) CD N N N N N N N N N N N N N N N N N N N N N N N N 0- c N O C d V N Ts V N C7 N V _ N CO N CO r CD CD CD 0) CO N CO CD N- CO CO C V U N N. M V O CO N V N CD N- V N CO N- r 0 0 N N N CO CO CO Q R N CO N O) V N C) r CO CO N CO 0) .- N� CO V V O N N r N N C) N 44-, C4 T. 10 (NO CD CO N r N- N- W coMco CO 0) OV) ON) 0^) DO) m m m CO 00)) a, OM) O) coNco r d A T.• t Z G w °I 2 2 CDO W OA- 1"--- V 0D N CVD N CND CD CND CD V CCD V C) N N CD N N N.- CD CD O N. Q CC N CD N O V D7 N N N N M N O CO C N� r N 6 M N V- CO N N CO V N CO A- M CD Cr) N N r O N V CO N A- r r N N N CO CO CO M CO M ? 2 cn (0 C N 01 0) N Ns N N N CO N N N CO V CO A- CO V 0) N N CO m h N O CO CO C) A- N- CO N N CO CO N V V N r A- 0) V CD (O N CO N- N N- V N N- V CO V N Ci Ci C) CD CD N- N CD V V C) Ci N6 N 0) N 0) CO V CO CO r N- N- r N- N- N- N- N r r N- r r N- r N' V N N CO CO CO CO CO CO CO CO N ,.CD 'SD CO CO N CO CD CD N CO CO CD N C to (0- CO Co (o m N ro m co (D N m co (a N m (o m m m m cn co co co O co O) c- N O) N N- N N- N CO N N N CO A- V N A- CO V C) N N N N CO CO CO C) V N N- CO V CO O) V CO O O CO N- N O N N V N CO N CO r V r V r N W N N n r N N V M M M N O CD N CD N ON CO V V V V V V V V4 V V V V V V V V N N CD CD Ns r Ns N. N. r N- N- r N- N- N- N r N- N- N- N- N- N- r - - - - - - - - - - - - - - - - - - - - 0 CDN N N N N N N N N N N N N c0 N N N N N N N N N N CO O CO N- O) CCO CD ND CO NI N CO N- C0CO 7 CO N CCO N CO r CO CD O) M N CCO CCO O O O N 6 N N 0) N N N- N r N- N N N N CA N M W N� .0 co co co co co co N- N� Ns N N V M N N V M N O CD CO CO CO CO M CO CO CO CO .N• `. d co 'N 1 a (n CD CO N N 0) V N- 0) N- V N- N- 0) CO CO 0) O co 0) 0) M 0) co N- N.- < Q V N CD N 0) CO C) N-- CO M CO V CO C) O CO N CO V V N C) CO O Q M NI A- N N N- CO N CO O O O N O O V V N N N N N N N CO CO 0) CO O C 0) C 0) 0) 0) 0) 0) O O 01 CO 0 0 >+ u 2 a) CO v Cl) E d73 4 Q O d J J • 0 m I- o 2 m 4 - Z Z tL d <n (n (n N 0) CD O) W N N CD V 0) O) O C O CD CD CO A- CD N CO M CO CV7 CC') CD CO COC (0 O O N V N M N N CO V N N N N '1,-) N "C?;) N N N M M M M M M 6C) N N 2 N N N N N V r O M N QI N N N V r O M N H 6 Q CD N- CO d' CO CO m 0) C) 0) O O CD A- A- A- N N N CO CO CO V V V 0 CO c .. ;! 2 V z H co 0 o " a_° rn m o N N G O ,.di d d d 7 N a M 0 • d . N I 0 O 00 N M a0 U) a0 (O aO �O •• N M (O V M �O NO N N N O U) N (O r M M W OI t` N V M r N N a W 7 0o v O N Oi N N O r M N- O) O O Oi (D N n O N ,. Z co n n n n n h.- co up NN- n N- h CO CO n 0n CO CO (D CO COMCO lkliW0 y � cs tea= cs mCI- W V N- M CO N V m N 0 CO CO CO O) n ` M M O O C) a- a- n sr C) n 0 CO 0 O O CO CO rnN Os- N CO 0) OOC) DNO O OO D0) OM M C) CO) O O ) U zQ ya C- 0• T0 03 O OO 0 0 a 0 N N 7 c.7 3 Q l6 N OD N N- CO CO 0) W N. N CO 0 0) n N C) r V 0 CO ✓ N 0 0 0 V 0 CO N V O C) CO 000 N- CO 0) 0 0 V CO CO CO a- 0) N N N) CO N a- a- CO 0 CO M V N- N CO N NCO CO 0 ,' O) N CO N) N O M O 6O N M M V V V V V N N V Y r E Zr) C r— n NM r OO OV CO O N M O rV V V M N N N) N N N (O N N E •_ y tD m W Qi W C) C) C) Ci CA C) Oi rn rn O) C) C) Oi Oi Oi O) O) N .r- 7 C ( 1 7 M (O coco NO (O CO CO(O CO O CO NO NO CD O70 CO (O CO CD O (n (n I- �W W A v N V CO 0 0 V CO 0) CO N NO a- V W (O 0 (O (O V 0) 0 CO NUO CO CONM 0) M N C) (OO W COCN N N N CO 0 N- 0 CO CO N- 0) M W O M W N V O O NO N O M O N- W O V O) V C) m V N N- CO 0 N CO NO O N` CO O) O O 0 0 C 0 C O) O C) C) 0 0 0 0 0 0 0 O l' L L a- a- a- a- a- a- a- a- a- r CC N t' 7 000 UD UD COCCO W CO CO CO O CO CO CO CO CO CO CO CO CO CO CO CO 0) O O) O) W O) O) O) W O) O) W O) O C) C1 C) C) O) m zNn N NO Nn N N u- N N N NO U N NO N N N N N N N N (0O O ce O C N NO O w (N O u C• .. U U IU U2 3 MO) O W nW NfO V N CN OO OU U) O 0 O) O (ON N r) O Z6. • ` wRU N ui m O N W M W V h Ci N N M UM M V V V M U co O) W V a- co O co O CO- UN OO CO 0 h V CO U a dn CO O W N- N- N- N- CO CO O O NO N 0 U V V V CO CO M N OtFfi N t. LO 0 N 0 J U 2 (O 0 W = ti O O iA 0 n O CON co O W NN V M N N V O N " W"M NV (VCD QO0NQO N M O) O 0 O) N ON O M O O (O M O) O CC a) 0 N V N V' O) 0 a7 CO V O NO O h. n N- O CO CO V V dV V V NO NO N N N N 0 0 N 0 0 0 0 N N CL CO CO z 1L V O O) an 0 V O N 0 0 0 O) N CO UD CO CO V 0 V n CO 0 0 CO CO _U) 0 O CO. O NO CO CO NO M _ 0 O r V I, 0 0 N N N O) W (O C) r U) M O) N` N N O) 2 N N- N- NO 0 0 NO CO CD CD CO CO N NO ND NO NO V V V V M M CO (D (O CO O O CO CO CO CO CO (D COCD (O CO CO CO (D O CO CO m (o (o O (O co- co- co- co- co- co- co- O co O (6 co- (o (O co- co- (o co- a. N] N = A it V O C) U) O V O N O O Oat $�pp O M M V U V r8- _ N NO fD N O) N- (O r O V N '9` "N C) r O N M O O O N O O N- N (h 6 N.: U) M ao O V N 6 O 0 V V V V V V M co M M M N N N N NO O z N- N- N` n N. h.- n N- N. n N- N- N- I` I` N- n IN n n Nn E O (o O O CO (O CO (O (o (D (D (O (o (O (O (o (o (o CO CO CO- O Q Z U ( W a a U 0 W W O) co O CO N CO CO a at CO N NO V N 0 CO NO O N- N U 2 V CO N V 0 r CO 0 O) CO N- 0 V N- O CO CO CD C) N NO N Q L.L. W.2 OO on oO) r ON oN C)W Wn V N UDW coca U)M cod rD N-UN-N (Da) Si (V (O ) MMMMMMN NNNNN NNNNN NNNNN D F- . z N• :... N co N co 6 Q M (0D N O (n CO 0 V N N.- CO N V (O CO N NO CO NO V NO N C) (O C) r N- N co O CO V a- CO O a- O V 0 (O N� CO a- V Cr, 0 a- CD CO Q N- DD D1 M N M V M V V M M M V V M V N NO N O) UD UD O C) C) O O O C) C) O C) m O O) C) C) O) M C) C) (O C) W U N U CO O N m C N V E U N Q o a J J CO CO t N N N .t'' (Ni O O 2 m - o S z d d N 6 (n O t a- NO CO O) 0 NO C) CO n UO r N- CO 0 M UO o Q O C a- N a- a- N O a- 0 a- M a- .- M M M CO V N CO 0 0 CCO O NO NO a NO N Nn N UNO N[i ) N N N u) NO NO h N (O V U) n C I N-V O N NO CO V N.- 0 CO CO O) N NO CO V I, 0 M CO C) 1 Cri O V N N NO CO CO CO n Nr n` OO CO OD C) C) C) 0 0 0 0 m Q 0 E r O r ri r r N- r- N N- r N- n N. r n r r N- CO UO CO CO •` () '5 .. .. 2 v Y a Cr E• ...- ii) = - 7) 2 O a in 3 3 0 co srt i 0 0 4'y? W S u m i 2 o o a 0) GI U) Q U 0 z v v Q 0 > >0 00 1 UU w N N . Y > N O N O O (D (D 0 o ai ea , N O CO I a� Eco I v) 661-- mow I -0 z I L m c-c a co 2 s m w d a`) a, 5 d0 N • c) o 1 Z P. V E U O O N w R N O w •,,-, a) U y > U d t m a :° • 2 Z V) 0 0 c0 L O � Q (B ao CC CC d > o co m � I O >-- Cl) ao (o J 1 m 0 N t O > b: -.E' m C C E oo.o -a o 075, 112U) m 0 0- w0. o a U H Y a N d co M co co 6] co (n (n M x 2 m N N W 2 m 0 O U mO co O .. U r V) N 0 (n N (n oo 9 EM M (n Z N _ d r a=< co 1 W V (- V N O (I) 0To L V . (.64- _Ja1 O co M (D Q > v ca U >. O (a COCD O r O O E d co 1 •o M O O < 0 d J J 1 ` tn N- ii ✓ o N N N .• O.y coM V V O Z• n. d UJ (J) Cl) C y Q .O. r r a0 O 2 ro Lo 1 I O M 0 O 44411„ C .. 2 .. Q (0 y . G y , .0 al O7 0 O 80,00 o O :L. N m cu O N U• o in O v 0 0 i CE 41) 21 51 22 27 346 BAKER JUN 2 9 PRINT DISTRIBUTION LIST HUGHES AOGCCPlease sign and return one copy of this transmittal form to: COMPANY BP Exploration Alaska Inc BP Exploration(Alaska)Inc. Petrotechnical Data Center,LR2-1 DATA LOGGED WELL NAME S-112L1PB1 900 E. Benson Blvd. /C0/201(2, M.K.BENDER Anchorage,Alaska 99508 FIELD Prudhoe Bay Unit to acknowledge receipt of this data. COUNTY North Slope Borough LOG TYPE GR-RES BHI DISTRICT Alaska LOG DATE April 21,2016 AUTHORIZED BY Patrick Rider EMAIL Patrick.Rider@bakerhughes.com TODAYS DATE June 28,2016 Revision STATUS Final Replacement: No Details: Requested by: COMPANY FIELD FINAL CD CD ADDRESS(FEDEX WILL NOT DELIVER TO P.O.BOX) LOGS LOGS (digital/image) Surveys (Final Surveys) PERSON ATTENTION #OF PRINTS #01-PRINTS #OF COPIES #OF COPIES #OF COPIES 1 BP North Slope I 1 0 1 BOA,PBOC,PRB-20(Office 109) D&C Wells Project Aids Agatha Rutka&Barbara Glassmaker 900 E.Benson Blvd. Anchorage,Alaska 99508 2 ConocoPhillips Alaska Inc. I 0 1 1 Attn:Ricky Elgaricio ATO 3-344 700 G Street Anchorage,AK 99510 3 ExxonMobil,Alaska I 1 1 I 1 Attn:Lynda M.Yaskell and/or Leonardo Elias 3201 C Street,Suite 505 Anchorage,AK 99503 4 State of Alaska -AOGCC 1 1 I 1 1 1 I Attn:Makana Bender 333 W.7th Ave,Suite 100 Anchorage,Alaska 99501 5 DNR-Division of Oil&Gas *** I 0 1 1 Attn:Sean Clifton 550 West 7th Avenue,Suite 802 Anchorage,Alaska 99501 ly*'**Stamp"confidential"on all material deliver to DNR 6 BP Exploration(Alaska)Inc. I I I Petrotechnical Data Center,LR2-1 900 E.Benson Blvd. Anchorage,Alaska 99508 Attn:David Itter TOTALS FOR THIS PAGE: 0 3 4 5 0 0 TOTALS FOR ALL PAGES: 0 3 4 5 0 0 N w 0 N tt3 N LO M N (v III Ull Ci ill Ili 3 all�_ musty <2; Ilq gi 0 crz u � 4cC. az ir m a m IQ co Q J O Q 0- I I W L' m G) a_ EJ Q o N CI' m c x- %- CO CO �D m � % .c a o N N t 0 t3 M C . a N N N 0) C oIgo N .� Z O O C/) CO 0 o U. N f 1 0 0 z z m %,lo u O M O cc, O M O i N m N M O 41 N M ON M O N N N m CO CO CO OOn r N. Q. a O U O Z c c c o >• > O n°_ 1,-; WCC m a N U N = Y N 0 (o (D 2 Q > 0) .0 N m 0 U ' .. m d • 6 ch w 2 D a) ac _ c 'o DI y J J (, 0) > O 7 O ° .c U Co 0 r C C a O r 0) t J J f9 L Lo w N 0) d 2 Kc F N G y V a 9 'v C O 443 C V a O d d (j 0) C co C O 0) - a' q E 00 0 O d > a a) O o O CO o cai ?O t Z vii rn o x (O d " m O F' r2 Z 0) U) (V m O 3 3 3 O N J CO 0 O n N 0) CO O CO (0 10 O) M 40 N (0 Ln 0 0 Of a- O co CC .. O 6 EL a) o r CO 0. w (0 O • a O c O I.L 0 F W `7, o N > O N 7 co co C O) N W ,q":: N t C ce a V C a t C O) (0 2 g 15 W V) C L O W 2 2 w V v V) E O 0) y O J ? 0 O Q F- F 0 Q Co > O Q 0) c..•_1 co a wa V O ) Ci 2 c 0. . m 7 N a C 6 N Di N N y N y .3.. M Z 7 3 7 m X Q O O O y W U 3 o o o 0 0 0 0 N > N. ZmN F OO _ O _ g -0" o a m a d mU 0 Q -c C Q O � N N z c N ` m Z N [0 CO u > a 2 II Ea 03N N N a a 0 �. O w L L a N N N CO Q CO + + .t 'O (n J Z Q Z• a a 6 6 6 is c c Q C r C C N. a. N E p c _O c co N O A ` 7 N `� 7 y U co 0)• C C Gco q V O C i1 T a p O 0 O O m C ? ...5 R 0 O, y .. d Of y fq D N £ a C O) _ O O CO` .d+ d d y RD. d 0.A w r O H d 0) N o -y 0 'c c) t' N 0O. CI) 0 a 202 in 'mw a_ 3 3 a. a c a > > N v k 3 • 0 ® y 0 V N 0 CO N N 0 U) CO l0 U) V 0 <- h CO CD COCO W O N CO V N 0 V CO N LO CO (D O CO 0) V IN (O V -0 fig� O O O M (O N I- OO CO O N N6 O CO O N N N VN I; CD CO U) h 0 N tt1 1110N Ilitii o o > " o i o 4' CO O N CO V N V N CD CO U) O N CO CO CO h CO Z d O CO U) IN CO N V N CO N CO N T N LO N CO N O U O6 O O O N N6 O M N6 N6 ,- O 0 V V Z Q 0 N N 7 C C J O O O ❑0 ‘;...2 0 0 W L..-- 0 ❑ ❑ d N co CO3 N N N N M 0 0) 0) Ur V V N CD V) CO CO CO 0 CO OD N ON 0 CO M Cn N- CO CO CO N 0 0 U) IN IN CO IN CO 0 Q 0) .- N h N O N CO U) CD CO 0 C) U) h CO N V h N O CO 0 ' Cn O6 O N OO N CO O N6 M 0) Cn O M vi h O NY O/���� Y N CO CO CO CO CO mr 'Q CO CO h 0) 0 N LD h 0) CO CO V© ELO C CD 0) 0) D) 0) O) (r) O) 0 O) O) 0) O 0 0 0 0 Oct _ V CO CO CO CO CO CD Cb CO CD CD CO Co CIi of Cn 6 W CA 0) Cn N - ,- 3 •C c N 7 (O N 0 0 0 0 CO 0 0 O (D (D 0 0 (D O O O CO 0 U) CO V U) N Cn CO. R V O N. O V V IN N CO 0) CO m V LO V co a) U) CO V CO CO N Cn CO U) h M CO y N V V M N ("Si Ni N Ca O O CO V O V h N CO U) 0p) co co co co co co co co M C) V V CO M CO N .- ,- 0 0 C 0 C N N LO N N LD N N LO LO LO LO LO LO LO LO N U) U) U) i .0S `V O O O O O 66000 00 000 00 0 00 w Tu6 (0 CO CO CO CO CO (0 co CO CO CO CO CO CO CO CO CO CO CO CO CO C 0 Oa) @ T T O D) m a) D) T Cn C) C) D) O) O) 0) O) O) re C U 2 LO N LO LO LO U) U) U) Lo U) N N LO LO LO LO LO U) U) 6 m ...7. 0 A O C Cg) N C 'O C U d 7 C 0 co LO D) co 0 CO,�a CO (O N N r V N h CO h N CO ` C V rn C O CO N CO x- LO CO CO CO O O CO h h CO N- V CO O y jp Ocsic‘ic‘i rt, O O O O O W O M O CO M UN- OOw NU W O CO C) O CO 0 N CV N NU m 1: >. 0 d CO J o I- 2 Z N 0 13 2 v W C + m0 00 O C LL o O. 0 + CO• 0 N- IN LO .3) .r... ..- 0, CO 0 CO N CO N CO CO V Q V p ❑ ❑ O — h CO h CO CO 0) IN Cn N .- IN IN CO O C) O V O O O N6 N6 N N4 V N CD N6 U) O M Cr 0 2 2 N N CO CO EL a co f. CO Z Q c 0 To LIV 0 0 C) IN CO M IN CO CO CO LO COLO LO 0) V M V N. N M V V CO CO N 0 CO CO CO LO N 0 0 CO LO N N ,- CO M h O CO O) O — h LD CD NCO (O 6 V h O V (O O M N + co co O O) O) CO CD N M N N 0 0 C) CO CO IN N ❑ d' a- N- N CO V'. U) CO CD h CO CO 0 N N CO V LO C3 ZU o ❑ O 0 O >... 2. I— C7 2 2 I, co 0 o 0) IN CO CO 1N...CO CO CO LO CO LO LO Cn V M V h N 0 0 0) 0) CO O N 'V m CO CO CO V CO CO IN- N N O CO CO 0) O CO Ln O CO U) CO M h O M U) D) C7 M O N- CD LO N co Cn CO O o) O) CO CO N- h O N V V N CO V LO LO O h IN CO CD 0 N CO V LO CO us co ILT-L 0 us J ❑ Q. N O CO co N LO N. CO LO r CO N V N- V h V 0 0 CC) 0 F �_ O h CO N 0) V V COCO LO O O N O CD COO � r r r U + i (7O M LO CO IN CO M LO CO CO O N V CD CO ❑ L M co 0 M N CO h. h h h CO CO O O O 0 O 0 O O m m C ›- V r r r 2 0 N- E55{� 3 N 5_' d o ❑ CO O I N T Cn (N Q a d CV OD N 0 `- F 0 N 0 CO CO CO N U) IN ,- CO O) CO N- CO CO V N V J V (I) UV UCrCON ) 0) 0 0 ) CO LO 0) V (D x- CO T N s- LO CO O O Q O N O O O O r M U) h r CO CD O O M N M M V M V F-, LO CO x- x- x- x- x- x- 1- co CO CO M (O 0 co CO CD N CO m m c) O CO O C v < 0 0 J J t L N N N , U Z 0 N O O O CO 0 0 0 0 0 0 0 0 co LO LO D) 0 N D N CCO (O Q N 0 0 0 0 0 0 0 0 CO Cn CD N CO CD C) CO 0 (O O) E ci O O. N- N O CO O) O h O CO M O CD V r N CA V O (O M 0 N- O CO U) CO 0) CO 0 0 CD O) O) CO CO h h N. CD ` .- N- CnN M V U) LO CO N. CO CO CD O N CO V LO CD Q to E m - ,-- -0 Q o w o e 5.. .. a a` 3 22 co co0 V • C T T G O ..di. d d d 7 7 • oCVN U 0. FA C U) N 7 I • - •_ ® N N CO ,- M C) h U) C M N M U) O) CO C CO 0) N- N C CO O CO CO N CD W O CO (O N.- M N N r CO C N O O NO U) O) N O O C) a ,' W CN CO N CO U) U) M O W (O U) C N 6) N Ni 6) O Ni U) O) O S. Z C co co O N M C C C C C CO CO M M M N N N e- N N N N N CO no N N N CO CO CO CO CO CO CO CO CO CO co N) CO M CO CO CO CO CO CO CO CO CO CO ` W0 n ca o m' > " 0 II co co m 0) a. C CO 01 C O CO CO CO O U) CO W N N N M CO T I,- U) C CO C 0) 61 C N O N O CD O O O C COOCON N C N CO N CO O U) O n.U O O r Ni M M M Ni O O O O O O O O O O r Ni O6 O O O 0 Z Q H d 2 CI -.I O O 0 C O d0 0L. d N N = Y n o N O O f0 (A C NIN O M O) I) CD NINON N CD O O N CO CO CO CO O N O O Q U) U) O N U) CO CO U) U) CO CD CD CD N M CO O) (V U) M CO 6) N O C CO .- CO CO CO C I. O C CD CO N CO O) O 0) N O CO N C CO C CO a- N CO 0 ' M CO N N Ni C Ni U) U) Ni 6) CD U) M Ni O CD M O N CO O Ni C (O CO Y co O N C CO N CO O CO O IN IN IN N N N- CO CO CO N CD CO CD CD CO CD E CP C A- CV N N N N N N N N N N N' N N N N N N N N N N N N N U) e' 0 O) () O) Oi O) 6) 6) 6) 6) O) Oi Oi Q) 6) 6) O) O O) C) Oi 6) W W 6) O d - N = co co co co co co CO co CO co (O co co co CO co co co CO co co co co (O co co Tv — — ` E 0 W 66F- 2w Cr) M N I. C CO 6) N N CD IN N O 7 CO CD O N CO C CO CO N CD CO O I. CO CO CD CD N M C CO N O C N I). 0) CO 61 N. 6) C N O N CD N CO O r CO C N N N N C CO CO N CO N N U) U) y N C) CD M O 6 CO N M Ni Ni Ni Ni Ni Ni Ni Ni M C C C M Ni Ni O OO) O 61 O O 6) CO UO CO CO CO CD CO CO CO OD CO CD CO CO CD CD CO CD Cb W CO C 0 C CD C C Na C C C C C C C C C C C C C C C C C C C C C C t L V 0 0 O O O O O O O O O O O 0 O O O O O O O O O O O O d O) co co co co O co co co CO co co CO CO CO CO W O (O O O W fO W O O O N O m O) 6) 6) 6) W W O O m T 61 O) 6) 6) 6) O) 0) C) O 0) C) CD 6) 0 c Z U) U) U) N U) O. CC) CD CD U) U) U) O. CD N N U) U) U) U) U) U) U) U) CD U) S O 0 !0 O A C g d C 7 U) U) co 0 O N CO O O 6) 6) CO U) CD (N C CO CO N 6) M CD N U) CO O d d i R M U) I'. O N C) ^ U) C CD U) C N N C) CO Ni C) (D I� O) M U) O CCd� N d U U) I� CC r CO C U) U) N N C C C C C CO CO CO N N N N CO CO M CO U d IS R' T CD N N N M CO CO M M CO M CO CO M M CO CO M CO CO CO M M M CO M CO V >0> 1-1t .V.,J F 2 Z CO 0 0 CD U) CD CO CO C M h CO O CD N Cn') C 0) CO) O CO CO N. CD N. M CO N CD CO CO Q CO O M O 0 N C U) IO r CO CC) CO O CO CO IO O U) (D I� I` CD CD O) N M d' V C d' U N In In U N ) U U ) U) U) In 0 LO 11� CC) u) ID LC) LO In 1n 1In COLLC T N a Z 7 C6 C 1..L CD O) O M 7 7 CO O O CO O ( O CO 00 CO 0 C CO N ' N N. N CO r N r C O O N N CD C CA I-- co O) N CO N (O O Ni I- r Ni r M O CD O N 0 M CO M 0 U) O) I- O) U) r C) ) CD CD U) C C C) CO N N N U) O CO N N N = O O O O) Cr O) CO C CO CD N co a) O N CO C U) CO IN IN CO CO. O) O ,- N CO C U) U) CO N. CO CZ N N N N N N N N N N N N CO' CO CO. CO' CO- CO' M COCO- CO- CO a 0 N CO O) O CO CO C) O CO O C) W CO M CI) C CO N N N CO CO C CO CO N. N M M N. O CO C CO N W N O U) M O) U) CO IN 6) CO CO NI N IN O O 0 M O) U) O) N (O N 0 M 0 U) O) CO C C CO M N O) O O W CO CO N- N CO O 0) 0 W CO C) N N0 CO CO CO N N. CO O) O � N CO COM C U) (O I� CO CO O) 01 O � N M C U) CO 1N CO O) 0 a N N N N N N N N N N N N N COCO' M M M M M M M M �F7g N M O N CO O N- U) N 0 CD U) U) O CO U) N C• CD U) CO N- CA CD CO CO C CO N O CO C N N N C) C 0 CO C N O CD N C O) CO CO O) CO N O C) C Ni 0 U) CO W (O O O O O C C CC) I- C) C) O OO 6 6 L 6) 6) 6) O O O O U) C N CD CD N N N CO N CO O CO O O O A- a- a- a- a- N N N N N N N N N N N N r' e- = ' A- � E 'N v o a ;; co - Y Q CO r N O O) CO N U) N U) 6) N CD C I- N r C M C C) N J 6) CO CO CO CO C U) O U) N N- N- CO CO CD CO O O CO CO C N 7 Q 0i NI O r O M '- N N O N U T• U N m CO CO C fV IL IL Q O d J J U t r N N_ N_ 2 o CO C7) Z d d 6 6 6 T CD O C N CD CO N- O C O N CD 0 0 01 N I)- CO Cn N. N C U) CO U) Q CO C N 0 CD O h CO N U) N CA CO W N U) O) N. C r C r CD CO CO C) Ni 0 C (D Ni CO M C) CO CD U) 0 !n C O) 6 N CO M O U) N M N. CO O) O 7 N CO C CO CO 0 CO IN CO COO 6) u. CD 0 01 01 N N M C U) CO IN CO CO C) N- In 0 N N N N N N N N N N N N M M M M M M M M M M M 6 C ' ? y N co 0 d .Va O C C Oad C) y Tm7 v 0 N U d ca 3 3 D co N v • .,... . y O 0) 0 (O LI, N CO CO COC) CO 7 N 0 N O 0) (0 CO 7 CO CO CO N CO (0 0) CO 0) m CO 0 CO N- O) co 7 N N 0 CD 7 0 n 7 CO N N N 0) A- O CO a CO C) C)7 1* N 7 O O m N O 0) CO (O N 7 N O C) 7 6 7 O j CO CO C) CO C) 7 7 7 7 7 7 CO CO CO CO co CO N N- O CO N N C) C') C) C') C) C) CO C") C) C? N) C) M CO C') M d) C') N) F) C) C) M 1" 'I 1" to m 11/411110 `a': o a. 7r m T r 0 O O 0) M CO N 7 t0 N N n CO N CO 7 CO N CD n d - N O 7 7 N 7 CO N e- CO N CO N N 7 N 7 N 7 CO r O) CO CO CO O O 0O O O o O 6 C7 O O U O O O 6 O O O 6 O N N� V V U) 4 to 6 U Z 7 Q CA N y 2 O▪ O O • G ❑ ❑ a wW W = N 8 8 Z (O h.. O 0) 0 CO N 0 (0 CO N 0 7 CO CO CO N N N C) 0 CO CD N C) N CO 0) 7 CO N 0) N 7 CO C) t0 C) N CO N t0 CO 7 0) N CD N 0 N N QCO 70 N N. N 0 O to CO CO 7 7 CO u) 0 CO CD CD N 7 O 7 0) N 7 N CO CO 0> cri U � 0) C) 7 u) N CO CO CO CO CO t0 to 7 N O CO O O 7 N CD O CD O ▪ 0 CD N- N N- N N N N N N N N N N' r r r CO (O CO N O) 7 CO M O) E co N N N N N N N N N N N N N N N N N N N N N N co M CO 7 7 01 g C CK 0) 0) 0) O) O) O) O) 0) O) O) 0) 0) 0i 0) 0) m 0) O) O) 0) 0) O) 0) Oi Oi 0) of N— N C A 7 CO CD CO CO CO CO CD CD CO CO CO CO CO CO (D CD CO CD CO CD CD CO CO CD CO CO CO N `— 2 W 6 N co 7 7 C) CO 7 N 0) C) N CD CO CO 0) N CO CO 7 0 7 CO CO 7 0) CO CO 0) 0 N CO 7 0) CO CD CD N CD CO 0 7 N 7 N- 0) 0 7 0 CO 7 CO CO CO O N 0) n CO 7 O (O 7 C) N 7 CO 7. 7 7 0) 7 CO N 7 O N N 0) 0 d 0) CO N ((1 7 CO N N N CO 7 N CO (O N N N CO O Cn O 0) CO CO m 7 O UC) N- N. N N N N N N. N. N N. N-- r N. r N- N-- N N N. N. n CO CO 0) 0 O 0C 7 7 7 7 7 7 7 Cr 7 7 7 7 7 7 7 7 7 V 7 7 V 7 7 7 7 LO (0 E t ;_ V O O O O 00000 00000 00000 00000 Odd CC N t+ CC CO CO CO CO CO CO CO CO CO CO CO CO CO O CO CO CO CO CO CO CO CO CO CO CO CO CO CO 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) co 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) oG Z 4) (n co' N N co- 6 Cn 6 N (n t() N N N N N to to N t0 (n t() N Cn O N C) O C) CCO) C) C tt ,,... (O O 0 y 7 0 O 0 CO CO O) O N N (0 0) CD r CO 0 0 CO r u) 0 0 CO 7 CON� O ` CC w O CO N 7 N O N t0 CD CO 7 0) N N 0 N. N 7 U) 0 CO CO CO n CO CO CO Qi O N C) 7 7 to tt) 6 CC) tC) 7 7 C) N O 0) n COCO C) 6 DO 6 t() O O w d U m co 7 7 7 7 7 7 7 7 7 7 7 CO 7 7 7 CO CO C) CO 7 CO CO t0 0 CO U C) CO CO CO M CO CO CO CO CO CO CO CO 01- 0 CO CO CO CO CO CO CO CO M 7 Cr LO m Ce N L CC .O co >> 0 Y CC H f i ^� J N- 2 Z N p W tz O (0 N 7 CD 0) CO C0 N- CD O N CO 7C0 7 _ C0 0 0 _ 7 0 0) 0 u) Cr Q. 1 CO CO CO CO CO CO 7 t0 0) CO CO 7 C0 7 (0 CO 0) N N 0 N N to U) O 7 C) 7 N N. CO CO N t` O N 7 C) C) C) C) C) 7 7 7 O C) O CO CO i (O CO CO CO CD CD CO CD (O CO CO CO (O CO CO CO CO CD CO CO (D (O CD tD 7 M N O.. N N m 2 U) ' -68 G IL N 0 CO CO N 0) N. 7 n CD N C` N ON CO CO 0) 7 CO CO CD N O n O Cr, .- CO CO CO .- CO to N` 1.-- CO CO Co co CO CO r CO N CD -7 CO CO CO 7 C7) N N N CO O CO N U) V 7 C) CO CO N N O tf) O O O 0) Cn0 N (NO N co o O) O N CO 7 LO CD N.- CO 0) O N CO 7 N CO N- CO 0) 0) O N C) 7 NT y a C) 7 7 7 7 7 7 7 7 7 7 an t0 to to (0 0- Cn N N N Cn CO CO OO CO CD Q, N 0 CO CO N 0) N 7 N CD N N-. N 0 N CO CO 0) 7 CD CO CD N N t0 t` CO 0 N 7 7 V. t` CO C) C) 0) 7 7 7 N N N� 7 CD 7 N N 7 N O CO) 04 01 O7 CO0 CO NN� CON O 7 N OO O 0C)) 0D) CV O) NO O CO0 C7 N N CO Cn O 7 N M 7 N CO N CD OO _ N CO C7 0 O N CO 0) 0 7 7 CO 7 7 c. E 7 7 7 7 7 7 7 7 7 7 u) co- to Cn Cn CO 6 6 66 6 (O CO CO CO CO CO F` ememaix COO 7 CO 7 CD CD 07) t0 00 COO 00)) N N CO CO CO CO (0 N CO COO0 V 0)) N-N- 0 N CD O N 7 7 6 7 7 0) 7 6 O 7 O 'Cl' 0) O 0O N N O O 0) O L N CO CO 7 7 CD N 1- N j ,- 1- ', a- e- rCCCC ? ' NO N N N O O O O O O N- C° - 1 a co 7 CO O 0 CO N 7 CO 7 t0 N 7 0 N CO 0) CO 0) N- N 0 7 0) N 0 N N CO CD 0) 0) 0 CO 7CO to N- N- N- CO N O O CO N CO t0 O) CO CO N Q 7 7 7 O 0 0 0 0 0 0 0 0 0 0 0 0 7 .- 7 7 CD N N� N N N CD 7 7 N N CO CO CO 2 ( U — ) m m O] C E o) CC a a < 0 a J -) L V , N N N I o 7 7 7 Z a a 66d) N N N 0) 0) CO CD O N- CO N CO 7 N 0 N CO CD 0 CO CO O CO CO CO CO N Q CD Cn CO 7 7 u) CO 0 N 7 7 0 u) 0 U) CO CO 0) 0) CD 7 N- CO N 0) r CO O N 7, r N CO 7 7 N- 7 O (O 7 h C) O (O CO C) CD 7 0) N O) O C) 0) CO 00 CO N M 7 CD (OO CO T O 7 N CO 7 t0 CCO CO NO N co O) O 0 0) N COO7 0 p 7 7 7 7 7 7 7 7 7 7 t0 co- u) C) (0 N N an co- to co- co- co- CO co- CO co- p C• . E E V co co C O C CC E • m Ci .. = 'm Z o .. m m U a 6 0 CO0 N v • ® O N. N N O (O c- M --- CD CD N. O LO 0) 03 I-- CD r V a) M O a) 00 O O N .- c0 M N N O (D 0- 0) 01 M 0) M W NM O W O O O N N4 6 r O6 M V N. '� 31 eg I n N O 1--- O N N N h,' - O) N M V V M N O W O M O t0 (O CO r N. co r N. co co a) 00 CO c0 c0 00 r N- N. 0- m ` WO y N O M 7 O 0 CO CCI ,t a. N CO V V Ni- N CD V M CD 0 N- CD O T .- .- O r V LO V O 0- 0- 01 (D M M N co 0) M N 0- r N W M V co N CL 0 1n U) 0 O CO V O 0) 00 CD CO V N4 N N N 6O N N0 0 ,- ,- V M ,- M co M M M M M M M M N .- 0 C C Q d p o o O O O 0 0 d d y y 7 Y 7 7 N ( 0) CO (O O V U) V co 0- 0) CD CO CO C) r CD N 0 CO O O (O N. N CO a) 0 CO c0 0 N .- V N V0 CD 0) r (O (C) O CO Q (O m O (O Q) N. r CO CO V CO N CO CO M (D r V 0 m 0) 0 ' Nei N- 0) V r CO CO N O r .- N- (IC) V U) O6 N r r .N- CO O Y co ,- CO N- 0 N CO co a) N NC r O) 0 N N N 0 D) r CO EN C N (O CD CO N. 0- r r N. CO CO 00 CO O) CA CA 0) 0) O) CO CO co 7 ▪ (e" Q) T 6 (P O) m co- T W Q1 lA m Oi m D> Q1 /A (P m T T c- C p 7 D O ( D O D (D (O D CO( CO CD CO(O D CD O D CO( D COCD CD COC W v g' (n (D N- i w co 6 co 0) a) N co O N CO 0 0 M I-- m N (D LO CD CO 0- co (O N 0 co M V 0 N. V M N O 0 N L0 CO N N CO CO V co O CO ODM No O CO N N CO O CO 0) d CD N V N. N N- V .` co co m co O O r N O M (O O .0 co N M V Ni. 0 Ln Ln CO r CO CT c- M CD CO V N- O M 0 I"- co Cd C N N ) N O N(O coCD (D LO (0 ( ( (D CO CO (O N- I-- N- co OO CO CO 2 t L = O O O O O O O O O 666 6666- 6 O O O O O -VI CO CO cc, a0 M co co co OO CO CO co CD O CD Cd CD CO O) 00 CO ce Z ..7.. D) 0) coO m C) Q) Q)C) CO 0) O) O) a) W 0) O) O) C) 6) 0) 0) 4') N (O N (O N U) N Cn co- co- N Ln N (O (O co- N N (O N N C d O C d U N U d C 7 (D V N CO co co r .- CD CO 0 0) CO (O M 0 N C U v U (D M V O co N V (O (O N. V (O CO 0- r 0 0 N N N Q d rd, A N M W mON- m VN- Om C)ro rm CO03 W N M ON- M V V O N N Wrnrn0) rn CD 0) rn o dZ. K > R D N. rn m CD m rn mK t d .Q >• Q r 2 2 O J - 2 Z N G W v t O N- N M V co V co cp CC) N V N 0 CO (b CO 0 M M N N- Q N. V (O N O N N (C) CO V (O V O N N 0 N CD N. O cu W a0 NO V N� O) N N N6 6 N O N- N- N- N N O) M (O .- N M V CD CO .- CD .- N N N M CO M Z c asC W N W N r N f- N M N U'1 N co V co co C) O) CD f� N O M co (P N- CO N (O M co N V V N r D) V r W r V N N. V CO V N. W M 0) W CO N- (O (O V V CO CO N 01 N CA CO V co (D r r r N. N. N. N. N- N. N. N. N. 0- 0- a ✓ N (O co co CD (O (D C4 6 .CO CO O CD CO CO (D CD CO CD CO (O CO co- co- CO O CO CO co- (O (O CD CO CO CD (O (O CO- CO CO CO CO CO CD a CO e O a Q) N a) N N. (NI r N 'CO N (O N CO V co O V m N M CO (D O) V N r co V CO 0) V CO O O co N- (O O N: W (D M h V N. V N- CO 0) 6 W N- N- (D (O V M M M CD N CO CO 0 ,- N co V V V V V V V V V V V V V NI- LO N CD CO (O r C- N. r N. N- N. r N- r 0- r r N- r N- N- N� C, CD CD CO CO CO CD co- CO CO co- CO (D CD (O CO (D (O CO CO O (O CD • V N CO CD CO N CO O V CO 0 CIO V 0 OO O) V c0 CO 0 N M O NC) N r- ,- a0 C- (D N. CO CO N 00 .- M N. .- r T M O N T N N 0) W 00 N. 00 N. r (O N N CD W m L CO CO co CO CO W N. r N (O co V CO N .- N V co N CO CO M M co M E •N o a a m .N Q m 0 CO N 00 0) V N. O) r Ni. r N- O) 00 W 0) 0 M a) O) CO 0) J V CO 0 0 W 03 O N. CO CO CO Ni. M CD 0 CD O CO V V N Q CO N- N6 r U) CO CO O O - O N6 O V V N (O (O (O Ln N. 00 CO 00 O a) 0) 01 0 0) 0) 0) O) O) W U T '.5'. -. Z W m m m C v h r r L E d N d d Q 7 7 7 O 0 -1 -I 0 E E yEy L 'LO CO .- W Y - . -- -- O ECD '' a _ Z Q. C7 Cn N a) a) W N N , O O.V t1 0 ID LO d O) V. 01 CD 13 .. O O O V O 0 .- N CO NY 0 M M co M M 01 ZCO Q 01 N V 2 N6 N2 N R CO N V W N N N Ln (O (O (O (O N Ln CO CO CO c- N-. CO N (D 07 N .- > N O (O O O O V h O M CO 0) N (O W V n N.. Q co N.. co K co co w O) O) O. 0) a 0) O.O O 0 N- .- N N N co co CO .0 Q CO- CO (O F CO (O d (D 0- co- N (O y (O y N- r r N- r r C- N- r r N- r r p >•••• .. • 2 „a7„ Z F- Y c c EtO 0 a N , 0 m O C O w N d y 7 tNN O 0. (%) 0 CO N t • 0 1111 y 0 V- C) UCD N IN CO CO CO UN n UCO IN N CO CD CO OC) V) _ 0) M V- N IN O 0 O .- .(- N 0 0 CO 0 IN N CO 0) N CO CO CO CO CO N- O CD C) N N N M VVO D N n 0) O I- N CO U) O N. LI? COa•■�= N- N N 0) CD CO 0 V' UN CD CD V' 0) CD N 0 CO N CD O CO (n an U) U) V' V' V' CM C) N N N N _ m MI W; Dci N(/ i > 2 coO0)a= m a CO (O CO CO 0 N n CO CO 4 co N- V) a- V' U) IN U) CD CO O N 0 O O d N N V) I-- N V' V- CO .- M CO n I, O IN 0) V' V' 0) V' V; O IN. O O U O •,- O) M 0) O 0) O) O) 0) N ,- O N6 0 ,- .,- W W N V' N ,- O U N Q i) y 7 p J O O O G a a a a K j Y _(O N N- V' N CO CD CO 0) 0) 0) 7 CO CD N CO N h CO CO 0) 0 O) CD CO N- 8 8I,. CO N V' M I- CD 0) IN (O N 0) CO CO CO n CD 0 0 V' N Q 0 N- 0 L- V• N. V' n N CO CO CD O N 0 — U) 0 U) IN I` n n ,- M 04 a) 0) 6 N W 4 CO ,- ' O W 0) O O ,- 0) O) 0) 0) O O N V' O QD (D n cop\co (-) `1 M W O CO W V1 N 0) n r;,-- 7 W O M n V' DD V@ E U) 0 W CO N- Ie. f- n O O CO N U) V7 3 V 7 CO CO M 1.?, N N (N V) E a' v as 0) 0) 0) D) m 01- 0) 0) D) 0) 0) O) CA 0) - D1 O) O) 0) D7 0) 0) D7 O) 'C R O CD CD O O CD (D (O 0 (O CD CD CD O CD O '4.),- O CD (D (D (D O lD O O (D I I 0 OO CO 0 U) O 0 CO CO 0 r C N V CO r V' V- N 0) CO V' V• `(1- 0 tO CO 0 0) CO 0 V-N U) U _CO CD 0) CO CO V N N- CD CO V) CO CO I- N 0) V' (D U) ) O 0) CO O 0) O cY CO 0 IN CD CO N CO CO OO O CO Ui O O V' CD O M 4 CO N 0) CO I- aD N- Ui O CC O 6 N- O (D N- O 00) 0) CO U) O CO 0) 0 N N CO CO M M M M N 0 0) CO IN O U) C 0 C CO 0) 0) 0) 0) 0) 0) 0 0 0 0 0 0 0 0 O 0 0 0 0 0) O) D) 0) 0) N t t a' O O O O O O O O O O O O w d t C co co CD CD co co Co Co co CD W D co W CO co co CO CD OD CO O co co CD O) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) O 0) 0) 0) O) 0) 0) 0) re Z (O U) V) U) N V) U) U) U) U) N N U) U) U) N Cl) N V) N (n U) U) N V) C O d U IC C N C ) 'Si C D y C) CD co O co O O) 0) co V' N CO N- CD 0 CO N- 0) 0) V• CD 0) V- 0 M CO CO CO CO CO r..... N 0) N CO 0 N 0 V' 0) N co O) h 040 N 0 0 a 0 UO UO 4 6 h Cco Oi N- r N- - n D O of M U) M V oO C T mH 0_) O D N O CN- (h CO O ChO V O D N N Ov (OM O MO UM) N N N N °) t a) , 22h n 0 W �. .,. .., J R Z ( O cD 0 CO CO N 0 N 0 V' n N M (D CO N- N V- CO n 0CD N Q 0 0 N. CO N 0) 0) V- N. CO I- 0 CD N N _ N CD CO N CO _ CO N Q) N- n UI N CD N U) - N- O M 0 N V V N W N Ui n r O N- n CCI fX V CD CO 0 CO V' U) O n CO CO 0) 0) 0) 0) CO CO IN CD U) V' CO N M CO M V' V- V' V' V' V• 'Cr V' V' V' V- V' V' V' V' V' V' V' V' V' V' V' T CO11 > Z 2we g z - ' To ,reltzateMCM c L.L N U) CO n N. 0 N. V' OD CO V' CO .- V' N- N CO CO V' V' N CO CO CO CO CO CD CO N CD O N N V' V- IN CO CO CO U) N CD N IN N O O 0) CO r I- O O U) V' CO N O 6 O) co CO CD CD CD O N (rD (O CrO CND- (O O O O N O N O O NO :gO 0 N h N (DVO N O O 00 h ( OCco- N N OOCODODO OOD DOOOOCOODON a0 U) U) CO IN r 0 N- V' CO CO V' CO 'V N. N CO CD V' V' N CO N N V' h CO N V' CO N CD co IN IN CO 0 'O CO O) U) NCO N CO CO C 7 V' V M M M M M M M CO CM) CN) CO M C0') N N N N N N N N M I"- N- h NIN IN IN N- r N. IN N- N- N- n I,- n N- N- - IN n N ` ^ OO (O O co- O co- O O O co- (O O O (O (O CO CO O O (O O O (O OO O rr co V co 0) Cr O CO N CO O CO CO N CD N CO U) O CO 0 U) 0 0 N CD 0 0) 0 CO N r 0) V- CO V U) CO CO Cr 0) V' CO CO .0 CO 0) n N O N) V0O UD Ui V O n VN D NNON co co co co N N N N N N n r h N N N NNN) NN N N N E .I r to N 1 a (D CO r N- CO V 0 0) V CO 0) M 0 CO 0 CO CD N CO CO 0 CD CO CD CO CO J O) CO 0 0 V 0 N 0) N 0) CO CD N CD 0) 0) U) O) 0 Q CD CD U) U) Q O) O) O) rn 0) 0) 0) 0) 00) 0) O) ON) O) 0) 0) 0) 0) 00) 00) 00) 00) 00) C^D CD CD U >^ V N m 0 m C °.. v a a ro m Q O a J J L LN N N 0 0 U CO Z a a (/) (C) ()) 0 N IN N N V 0 N 0 V' U) 0 V- N N CD 0) CO 0 CO CO N CO N 0 Q N CO CO CO N CO V' N V• N CO V- N .- CO CO N CO 0) (7 CO O N- CO 0 C Ci CO M M M Ci M M C') M M M M VI 6 6 UI U) U) NV' N V' CD 6 Q 0 co O 0) N U) CO V' N 0 M O O) N V) O V' I- 0 CO O 0) M V a V' V' V' V' N U) U) CO CO CO N N. CD CO CO 0) 0) 0) 0 O 0 0 0 N. n h h r N- I- R. r I- N- N- r N- N- ri ri ri n co- CO CO co- co- -6 o c .. 2 2 4. (O Co o C m o m .. a C ►ii O •-. 0 CD y oain30 rn L_ v t REC. Eittip2 1 52 22 1►U:No1u • 27347 BAKER � PRINT DISTRIBUTION LIST HUGHES AOGCC Please sign and return one copy of this transmittal form to: COMPANY BP Exploration Alaska Inc BP Exploration(Alaska)Inc. Petrotechnical Data Center,LR2-1 DATA LOGGED /(p/201CD WELL NAME S-112L1PB2 900 E. Benson Blvd. M. .BENDEii Anchorage,Alaska 99508 FIELD Prudhoe Bay Unit to acknowledge receipt of this data. COUNTY North Slope Borough LOG TYPE GR-RES BHI DISTRICT Alaska --- LOG DATE April 21,2016 AUTHORIZED BY Patrick Rider EMAIL Patrick.Rider@bakerhughes.com TODAYS DATE June 28,2016 Revision STATUS Final Replacement: No Details: Requested by: COMPANY FIELD FINAL CD CD ADDRESS(FEDEX WILL NOT DELIVER TO P.O.BOX) LOGS LOGS (digital/image) Surveys (Final Surveys) PERSON ATTENTION #OF PRINTS #OF PHIN I S #OF COPIES #OF COPIES #OF COPIES 1 BP North Slope ( 1 0 1 EOA,PBOC,PRB-20(Office 109) D&C Wells Project Aids Agatha Rutka&Barbara Glassmaker 900 E.Benson Blvd. Anchorage,Alaska 99508 2 ConocoPhillips Alaska Inc. 0 I 1 1 Attn:Ricky Elgaricio ATO 3-344 700 G Street Anchorage,AK 99510 3 ExxonMobil,Alaska 1 I 1 1 Attn:Lynda M.Yaskell and/or Leonardo Elias 3201 C Street,Suite 505 Anchorage,AK 99503 4 State of Alaska -AOGCC 1 I 1 1 Attn:Makana Bender 333 W.7th Ave,Suite 100 Anchorage,Alaska 99501 5 DNR-Division of Oil&Gas *** I 0 I 1 1 I I Attn:Sean Clifton 550 West 7th Avenue,Suite 802 Anchorage,Alaska 99501 ***Stamp"confidential"on all material deliver to DNR 6 BP Exploration(Alaska)Inc. f Petrotechnical Data Center,LR2-1 900 E.Benson Blvd. Anchorage,Alaska 99508 Attn:David Itter TOTALS FOR THIS PAGE: 0 3 4 5 0 0 TOTALS FOR ALL PAGES: 0 3 4 5 0 0 • • ® H a_ CO 44.W; 00 bli W 0 W CO CO a a. ;' 0 0 €' 0 v v Q O• 0 O 0 0 0 eC 0 0 = = 4 . > 7 NN (O (O ? Q rn 0) N (O U ' O • © dU E v, At-740m* • N N w — E (n d) H W g 1 1 L CoY IIO (E 2 .c m w m L Co 2 00 N C N N (f) N a) N CO Z CD▪ d c2i R o E .ECIS 'v c u E 3 x c `o `°'� ,—�� aj 0 ami U m , K T A L d a ° 00 CO LI • >▪ 0> 0 O 7 as CC2 --. '" r" , (No O J F 2 Z 0 U N rn r y E .0 U A v i O -Q o SII Q 0 co C' a a M Wj L L LI U) EEE N K, N 0 -cts (Yj ' 8000H it NNNOO_ IL C - co Co (n Q 6 N O I p ) E o a a n d 0, o 0_ (.5 d a) a) o Q a U H Y c c c a N CoCL co v) (O 7 E V O co N V Co V W O) I-. co 7 Z II-- O) O0 M O N w 0 y W — Z Co (1) C O < 'fl Z U O Q 1.7c I U O 1 (5 co V 00 co N L1J ll.l 0 0 (O (n (n O) N 0 g J 7 r O) N 00 7 H Z 7. Z co N o_ 03 p0 m pp (p a{ L O N r N r N Q u a. CO CO CD v O) N- r) () Y CO d Q N c0 is L N- 7cs, N- V N Q ' ,3, , _ c0 c0 U) O (D U) co >. CO O) I • 'p d d N O N N O) O E m a) 7 a. T c0 'p N O V O) O) O Q O M J J 7 N a) co- i = CO N N CO V O) r L N N N CoW 0 cc-o 7sc1:Z 0 W NW (On) aOo • m - Z d d U) ( U) N O (O (O O O p0 Sc O 2 M 0 C )- O C• .. d Q (O Of C it a C c I c) 0 C O w d Y) y (ya d N U a tq O U Cl v t cV • • tV M ,r._ W 011 la4.11W az z � m a CCI a � O Q CD c •- >+ a N Qr' N N I7 r ♦^ m m C V♦ 0 saisma _ N t d cv cco a Oco N N N •. = C. 17 r r N ■� Q Z aaci) v) U o LL N • i • y •• r 7W iv�= Z co.,3m No v n °o' no o M0 ON c$ N co M co a= N co 0 N N N N W CO Ca o a 0 o U U z Q c- c c o O 0 o a 0 0 uN aUNY N c NH0 = 10 N a)O O Q0 N O (0) J _ 3N U . V V > • N N C 01 Of •• d/ JO �•,. ) r' 0 C 0 N C C 0 C `R`$ El 'm o ° a) J J C9 ai > IH .c N d y C re N O Cd O N E U N LL C l V a R 0 y N () CD U S co C O w N dN E > > v o 0 U d y ce >. m y o 0 o 0 0 J 2 Z 0 U) a) 0 > > CO U) N O N co m N M p CC I,- N- W r CO W M W CD N O 0 N a, y 0 o co rn a) ro ( Cr CC u-)- >,a) G CL aa) 'o Ca 2 o. Co C0 C E 0 i O . W o0 LI: I + 'yj A O N m N W Oa 07 W 9a) c 10 v 4 • c rn A c o m ° t E .c Z W U) y —y A Co Z W v h ^ W y O 0 Q Z V 0 D I- 0 U Q 0 } 0 Q O N CO I la w I0 v ai > O o c C W F oO N. dE $ O v) U) I Ce v N N m- U D 7 7 0 M d Q_ X Z ( V o o o f 0 Qm w 0 7 O O o 0 LoY N- Z 0 0 0 0 N N 6 N 0 CO 0 m (0 m - 0 v o d m N 0_ r o C Q O d N N R 0 N Q U U) 2 ` N Z 0 m - N m W)N N N d N N O 0. a V) U) 0 CO m CO CO No_ U) E m a s u) Y N Z Q L d J J w Q co + + 0 L N N N D Z Q Z• Q_ d U) U) (nec _ LqC 00 L 1 C O O U C v .2 N Q m E p c o c N a u o ` V d w 7 .y V U) A O T R O O « O w O d C Z C jp co 0 O. O L 07 y co D N d _ d d C OI V '� O E O y d d O C O O. r O W d d y d A N 9 t.' .; N O d N N N p O d d CI N U am33o a` 2 � 2 0 maa 3 3 o 1 I3 o ¢ > > i • 0 . N __• 0 V N 0 CO t0 N 0 CO N u'1 O N- W O) 0 CO W 0 N CO v N 0) v CO 0 N N M 0 O M 0 a N- (O v a 1.�� O O O ch 0 N n 0 0 O c0 N co) co 0 O N •_ N N V N N; O) CO n 0iiiN m03 `W; a m o W O O a= CO O N 0 V N N CO CO CO O N CO CO CO n CO Z O 0 (n r 0 N N CO N 0 N CO N 0 N CO N U O O O O O N N6 O6 .- N O N O O O .- .- .- 0 Q O N F.', 7 CC . J 0 O O 0 ❑ O 0 ❑ a 3 m N N 7 7 7 CO () 0 N N 0 N CO 0) 0 n V V CO CO N 0 0 0 V 0 CO O OCD CO Z (O N 0 CO CO 0) N` C') M 0 (O 0 0 (O n N- 0 N- CO 7 Q 0) N n N 0 U7 CO 0 0 0 0 CO (O r CO N et N- N N ( C OO COO 0 ' 0) O O O N CO N 0 O N 0 C) CD 0 O M (O r O p\p` N CO CO CO CI C7 V V CO CO N- 0) 0 N N N- 0) ` M (O V V E u) 67 0, 0, 0) 0, a, 0, 0) 0) 0) 0) CO CO 0 0 0 0 0 7 2' C V CO CO CO- CO- CO- CO CJ W CO CO Co W W D7 of co- ai co- Q1 of CD - A7 co (o (o 0 0 0 0 0 (O 0 0 0 0 0 0 0 0 co co 0 a) p W — (n to H` S W ', O N. CO 0 N- CO 0 CO CO 7 0 CO xi' 0 N. N 0 C') 0 CO 7 (O N 0) 0 V0 n co 7 a I` N M 0) CO CV ( V ) U CO CD 0 0 v CO CO 0 0) CO cO I- _ M M "Cl; 0 a a C) N N V n 0 O O CO K O 4 N- N 0 6 U .8 0) co co co co co M co co co co 4 V co co CO N 0 O C O C cO co co (O (O (O LC) 0 cO 0 0 0 0 CO (O (O C (0 (O (0 sC L g O O O O O O O O O O O O co- O co- O O O O O N 7 - OO) co 00)) co 0)0 00) 00) 0)0 0)0 00) 0)0 00) 00) 00) 001 0)0 0)0 0)0 0)0 a0) (f) (A N 6 (O 0 N N (n (n N 0 N 6 (0 (0 (n 6 6N w p U zce iii d '- 0 C VC U A > N C 7 0 CO (n 0) CO 0 0 CO CO N N N.- eh N N- CO N- N 0 C U U CC) C C 0 x- C'1 N- M •- 0 CO CO CO 0 x- 0 CO N- N` C'1 x- V co O to- 7) O 0000N 0 N 0 O N n C') O 0) O M LO n cri 0 C 1 ) 0 W N A- C) M < CO CO 0 N V CO CO 00 N N s m J 2 Z co ❑ v 2 (0 N C + 'O 43 O LL (O U) C C C O U (O - CO (n oa f0 + ) i 0 N- N- N- N 0) 0) CO 0 CO N 0 N CO CO V 0 U O ❑ ❑ ❑ 0 ,- N CO N Ch CO 0) N N- CO N a- 1 r CO O 0) O V N 2 O O O N M N O N N V V N (O N O O O 6 a c CO N CO i z2 7 Q U C Ll.. V O O 0) N- CO C) N- CO CO CO LO CO (O (0 0) V C") n coco 2 V V 07 co N O CO CO C') N N 0 0 CO (0 N N x- CO r O CO 0i O ,- r to O N 00) N- O 7 6 O C') co 12 y + M co co 0 CO 0 0 N A- M N N 0 0 0) 0 0 N. ❑ !L' s- N CO V CO (0 CO n CO 0) 0 N N CO. V (O m EH LL 0 ,_ ,_ ,_ ,_ ,_ ,_ a I- 0 2 2 2 I 0 O O 0) n CO C) r 0 CO 0 c0 CO 0 N CO V' co V r N 0 0 0 0) CO 0 N V 0) CO CO 0 a 0 CO N- N N O QO CD O O 0 Cn 0 0 (O 0 6 O () 6 O C) co O n CO (O (O C) 0) CO 0 0) a) CO CO N- n CO 0 7 7 I- N C') 7 N N 0 N. n CO 0) 0 NC') V C0 CO NA r r r r r r r 0-co 0 (n a a N ❑ a N_ N 0 0 CO N (0 N- 0 (n r CO N V N. V N- ' 0 0 0) 0 H LL O r CO N 0 V 01 CO N O O N 0 0) 0 0 O + ( y O M (0 0 1H 0 r 0 M (O 0 CO O N a 0 0 O) 0 ❑ _ .0 CO CO C) N CO N- N. r n 0 0) 0 0 0 0 0 0 0) m c } vv 1 7 e- x- 2 c.� 2 E N N . V •tJ C LL (0 3 2 m O N N Cl N N N x- Y Y (n N 7 7 `- H H O N 0 0 0 CO 0 (O N- 0 0) M N- CO CO et 0 V Q V CO (n CO 0 0 O Cl- 0 a V CO ( CO N 01 V CO CO _ O) N 0 O O N J O O O O M (O r r 0 CC) OO C) N6 (') 4 c') V Q y o O O 0 O co K O M co O ❑ 0 0 4- N0 N N 0 0 CO 0 C _ 6C E m v d d k0 S' CO r I` a 0 a t g N N N 0 E (O 1 U) Z a. a. (n (n (0 i O CO0O O 0 0 0 0 0 0 0 0 0 0 (O N 0) 0) N- 0 N CO 0 Q N 0 0 0 0 0 0 0 0 CO 0) CO N CO 0 0) CO 0 0 0) (0 E O O N v c) O ao 0) O f� O (0 M O O v • n N 0) v O O O i - N- 0) CD C') 0 N. co co co co 0) 0 O O a) 0) O) co co N- h n 0 p a) E E 0 ^ - - N co O (0 0 n 0 0 O) O C N U) CO (V 220ID N ❑ O C .. d 4. LL rL o co C U 0 C d N O 44 E o m m 'w Z Z O a ) 3 co to N ',4- i I . 0 . N N v- M 6) IN V) V co N M N W co N V CO O 0 M (0 0 • O O 00 0 IN M N N N. L- CO V f� O n 0 V) m N O O 6) a W 0 M V M O 0 O CO N 0) V) N m O N (O CA O m0 1CO O N CO V 7 V CO V CO CO CO CO CO N N N N N N N N CO k. N co N M M CO CO CO CO CO CO CO CO CO CO CO CO CO CO CO CO CO CO CO CO elm kg.W� rn co o W� j o cocoMCIu. ✓ CD 0) V O M M 0 O 0 M CD N N N M 0 T IN CO V M V 0) 0) EL V N O N O N O O O V M O M N N 7 N M N 0 O L- 0 . O .- 0 U 0 0 ,— N CO CO CO N 0 0 0 0 0 0 0 0 0 0 ,— N 0 O0 0 0 CJ ZII o a a) '5 Y N• NN • 3 N Q) N N 0 M0) N- N (` O N. N W O O N 0 CO W CO 0 N O CD 0 Q CO N 0 N V1 CO CO (O (O CO (O (D CO N CO CO 0) N 0 co 0 CO IN 0 T O) V co co co co V I- O V CD N CD C1 O C) (O O 0 N 7 CO V M L- N CD CO 0 CO (O CO N. N V N (O CO N 61 (O 0 CO N0 co M O h CO 0 N4 0 0 Y co o N V CO IN 00 CO 0 00 r N- IN I.- N N- CO (O (O CC) 0 (0 (D CO (0 CO E N C c- N N N N NNNNN NNNN N NNNNN NNNNN N E 1, CA O) 0) 6) Oi 0) W W W• 0 O) Oi 0) 0) 0) 0) 0) 0) O) 0) m T 6) 0) 0) 0) d ,- ,- C c t«0 CD 0 CD CD r (0 0 r (0 0 0 0 0 CO 0 (0 0 0 0 0 CO CO 0 0 CO 0 0 (O (O CO 0 CO 0 CO (D (n (5 H W W CO M N N 7 (0 O) N N N N- N 0) .- v- co (0 0 N- 0 V CO co N to (0 • 0 h (0 CO V) N N CO V 0 N0 V N N- O) CO 0) IN 0) V N O N N I- COO N C0 7 N N D) N V O CON 0 N V) (O CO y N 01 (D CO 0 6 (O N CO N N N N N N N N CO V 7 a CO N N H 0 OO) O O) O Co 0) 0 00 00 00 00 CO CO 0 00 CO CO 00 CO CO CO 00 CO CO 0 00 00 C CC N V 7 V4 V V V V V V 7 V V [t V V V V 74 V V V V V E t L ' 0 O 0 O O O 0 0 0 0 0000 0 0 0 0 0 0 00- 0- 0 O 0 y t ' 0 0 0 co 0 0 CO fq CO 0 0 0 0 CO OD O CO CO CO 0 CO CO (O (D (0 CO ce Z V W O) O) CO CO 0) 0 Q) 0) 0) O O) O) 0) CO 0) 01 m W 0 CO 0 O) CO0 Cr) CD 2 V) V) N (() (O N CO C) N• V) V) (0 (f) () V) N N co- V) V) V) N V) (f) N N C u G O C V d C �6 Ca C C ► 3 O N CO 0 N CO 0 0 CD 0) 0 V 0 CO O 0 0 IN r 0 CO r N- 0 V CO CO r V CO CO N 0) CO N N 0) L- N L- 0 N CD 7 N. CO N. 0 CO `• `wwRN V V - r N M H N 7 C— ro Vi V N MCON 6 0 N 0) 0 1� 0) M O h CO COOloINN 0 y T N N• NNMM COMMMM MMM COM COM COM coM COM COM CO CO CO CO t ij O▪ O G O 3 (o � 0 J 2 Z co t o N. 0 00) (MO CO (0 CO V CO h N- 0) N CO V M M 0 CO CO h (0 IN CO CO N CO 01 CO Q CO O CO (O T N V V) N (` 0 0 0 0 0 0 r C` 0 V) 0 0 0 0 CO C) CC Ch .4 .4 V V co N U) V) N N V) V) V) V) (O N CO N N V) V) V) V) N (O Q. cjj CO y CO z Z _ C V) COC •..L CO _ 0) 0 CO v- L- co _0) 0) 0 0 0 (D 00 CO 01 V CO N L- N N. N. N CO r N IN IN V CO 0 N .- N 0 7 0) N. co O) N CO N 1 CO CO N O) co 0 , N r r N N COM O N O N 6) I` O) (O r CD CD (() V V CO CO N N N L- U) 0 CO NNN c- 0 O O O) 6) O) co O] 0 N. co 6 ) O - N M 7 CO co N- N- a) co. O) O ,- N M V N CO (O N- co N N N N N N N N N N N N CO CO' CO CO CO CO CO CO CO co- O N (O 01 0 M 0 0) 0) 0 0 0 0 CO M 0) 7 (0 N N IN CO O V M CO N. N. M M IN O CO V CO IN CD N 0 (O M 0 V) co r O) co i . CC 6) N I'- 0 0 H 0) CO 6) to N CO CO CO 0) V1 C) 0 (0 (0 0 (D CO N N 0 0 W CON- 0) N-CO (ON U) 0 6) 0) CO IN C• r (0 CO CO 01 1N 0 _Q) O N M M Ni- V) IN 0 O W 0 Q) O N co V V) (O IN CO T L- r- N N N N N N• N N N N N N N CO CO CO CO CO CO CO CO CO CO CO 7 (MO N O O 0M V N N NCO Co V N 0 cO 7 40 N ((00 00) N V 0)) m co coO O) 0 I` O M V N 0 V) 0 0 (D 0 0 0 0 V V (O I— M M O 0 6) CO t 0) CO O) 0 0 0 0 N R N (0 (D IN IN N (O N- CD 00 (D 0 0 0 7 r- '- C- '- •'- N N N N N N N N N N N N v- v- c- ,- ,- N— E .I :r a Qm .N Y Q (n N- N 0 0) CO N LO N V) CO N 01 V N. N r V CO 7 C) V) J CO CO CO (D CO 7 V) O N N. n r CO CO CO 00 W O M CO 7 V) Q N0 0 M r r r r r r r c- NNO CO O >. N N O • m m CO C C E (O 73 O_ 0_ 1 .0 r N N N ? Cn x- x- x- (7) I Z▪ O_ O_ (0 (1) (1) 0) (O 0 V N CO CO N- 0 7 0 N (0 0) 0 01 N r 00 01 IN V) V V) CO V) Q CO c- V N 0 0 0 N- CO N V) N C) CO W N (0 01 N. V ,- IN a N- CO CO 0 (D N 0) V (D N 0 CO O) (0 (0 (O 0 0) V CO co N (O CO 00 V) H I- CO 6 0 N V) V) V V CO CO N N N (D L- < M co N N N 0 0 0 Cr) 0) O nC- co O O ,— N M V 01 CO 00 CO 0) a- 0) 0 W- N CO V (O CO (D 0 0) N c E — -- N N N N N N N N N N N 7 N CO CO CO CO M CO CO CO CO CO CO O 0 aC7 c (u . a O) d o E 5 dN. Q % 0 0 . y •0) 0 0 V) N CD CO CO M CO 7 r 0•O 0) 0 M V 0 0 N 0 CO O CO O (0 CO O CO a- 0) (0 a- N N O CO 7 O N- 4 0) N- N N 0) COV 0 M ,. N 7 (O 0 O H H N O O 0 (O N V N H <7 0 M 7 N 7 O o colig co co co co 7 7 7 7 V 7 7 CO M CO CO CO CO co M CO 0 N.- O CO N- N CO M M M M ('? C1 (? C1 f`7 M (h M M M CO M M M C1 C1 ('? C1 V N m � We UIN g a= 0 gfi 7 N- 0) O N- CO C0 0 0 0) CO CO N u) N N IA CO C0 (O r V CO N (O N a Y_ — N O 7 s- N V CO N s- CO N CO N N .- 0 N 7 CO N. O 0 0 CO O O U O O O O O 0 0 0 0 0 0 0 0 O O O O O O Pi N- V V 6 d' c i U) 0 Z d d. a y d 3 CL J p O O CL G ❑ ❑ Ir a N N 3 Y 33 C (NO I` O 0) 0 CO N. 0 0 CO N 0 7 CO CD CO N 0 N CO 0 CO CO N CO N CO 0) O O Z Cr CO (0 0) N V CO (0 (0 CO N CO 0 N M 7 O N CD N 0 n N CD a co 7, O N n N U) LO 0 CO CO CO N O CO 0 CO N- 0 7 O N N (O O (p 0 ' O Ca vi N 0 0 CD 0 (O N 6 V N T 0 CD (D 0 7 N (O O CD 0 CD n I\ N- n n n IA N. n n n N- r IA N. 0 CO 0 IA 0) V co co 0) ‘'.7E t0 0, (N N N N N N N N N N N N N N N N N N N N N N CO CO M 7 7 6 3 , S• -' 0) d) D) 0) O) O) O) 0) 0) 0 0) 0) O O O 0) O O O O O O D) 0) 0) 0) D) N 7 j C n N 3 0 CD CD (O CO CO OD CO CO CO CO CO CO CD CD CD CD CO CD CD CD CD CD 0 (O 0 0 cn (O I- w I 0 00 00)) 00 C0 CO M 00) CO CCO CO N CD CO 0 7 0) 7 0DJ CO 0)) 0 0 N COMCO CC') C0 0 ) O CD N O N- M O 0 V CO N CO V 7 O CO N 0 IA IA O 0 C) O CO n N 7 CO N N N M V 0 0 (0 h I` n 0 0 N (O O M 0 6 V N v 0 N- I- N- IA N- N n n N- N- N N- IA N r N- N n N. h IA IA CO CO O O L 0 L V V 7 7 7 7 7 V 7 7 7 7 7 V V V V V V V V V V 7 7 (C) u) t a $ O O O O 00000 66- 6 6 6 6 6006 66- 666 666 0( t 7 CO CO CO 0 0 03 CO 0 03 0 0 0 0 03 CD 0 0 CO CO CD CO CD CO CD CO CO CO O 0) 0) 0) O O O O O 0) O O O O O 0 0 co O O 0 O O O co O O ZC0 N 0 N N C0 0 N 0 0 N N (1) Ln N N N N N N 0 )f) 1n N N N N C) O i0 U '0 t w.. 0 CC N L '0 L D y 3 co CD 0 0 CO O 03 N N N N. CO IA M 0 0 03 N- N 0 0 CO V 0 N- 8 O dw �6 O 0 N C'i 7 7 N h N 0 0 7 V CD N O O I` N (O C) co N CD CO N 0 O w ) CC 0 a co V V V 7 7 V 7 V 7 7 7 V 7 7 7 co co co M V (0 m co O co U N a' O COO COO CO CO CO CO COO CO CO V m IX iy L CC a COM COM COM COM COM COM COM COM M COM V O0 O0 O 0 0` 7 0 0O CO N N-0 0 O N CO V fi ' "U 01-7- 0 O O _ V O O O N V ? O O H CO 7 0 N CO 0 n N. CO 0 V M CO CO M CO V 7 7 0 CO 0 CD 0D CC (O (O CO CO 0 0 (0 OD (O CO (0 CO (O OO CO (D CO (O (D (O (O (O 0 0 I' M N T M ?_ Z 3 s E Cn TO AAAAAJAAAAC iL N 0 CO CO (N1 0) n N- CD N N. N 0 N CD CO 0 .- 03 CO CO N- N (0 h 0 0) '- CO CO CO a- CO U) N- N- CO CO CO CO (C 0 CO N CO a- CO CO CO 7 (O 7 03 N O N CD 7 O 7 N O4 O (O M O 0 OCD (D n r N CD N a) CO r N. n CO 0 C0 0 0 7 V co co co N N _ 0 0 0) CO N- 0 7 N CD) O 0 a- N CO V (0 0 N- 00 O O a- N CO V (0 0 I'- CO O O O ,- N CO V N co co 7 7 V V V V V V V V co- coco (0 (0 (D N (n coN h co (O (O (O O 4 N O CO CO N 0) N- n CD N n N O N CO CO 0) CD 0 CO h N C0 r CO (0 N- 7 7 7 n 0) CO co O V 7 V. N I- r V CD 7 IA N 7 N O M 4 7 O N n M O 7 N CD 7 O CO M 0) O (D O N (O I- N (O U) N V V V M M N N N O O O O O CD CO N- CO C` 0 Lc V M O O N CO 7 N CO I` CO O O N CO CO 7 N CO N. CO O O N CO V V E 7 7 7 V V V V V V V N N 6 N N N N 6 6 co- N co- 0 CO CO CO CD 0 CO O O 0 7 N CO 0 (D V r M CD 0 N. CO CO 0 N- N. 0 7 0 0 7 CO V CO IA 0) 0 0 CO O C0 (C) 0 CO 00 N N N M N V O I` N CD O N 7 0 V O N O V O V O CD O 0 N N O O O O L N M CO 7 7 0 N C0 M M O (V 0 (0 (0 7 O 0 0 0 0 0 n 0 • r r r r r r r CO M M CO N N N N N N E a co 'N Q 6 7 co O co CO N a- CO Cl) N 7 O N CO O N 0) N Cn 7 0) N. 0 N N CO 0 O O Cl) CO 7 (0 CD N- N- N- N N- O O COM N 0 N O CO (0 N a .- 0 0 0 0 O O O O O O O O O CO N IA N N M CO C9 0 >, N N V C. Cn CO lb C ;r 0 a a a• 0 d L N N N co <- 0 O 2 m E Z a a (n 6 (n N N N O O 0 CO 0 IA CD N CO V N 0 N 0 0 0 0 CD 0 CO CO CO CO N CD u) CO 7 V 0 03 0 N 7 7 O C0 0 (0 CO CO 0) 0) 0 V N. CO N- Cr) N CO (0 O (1) h (V a0 7 r O (O M O W 7 O 0 O M 0 O CD CO I` h 0 0 (O 0 (n 7 V 7 CO M M N0 N 0 M O O O O 0 00 CD p aO N.. N CO 7 0 CD N. CO O O .— N M 7 N (O h 0 0) 0 a- N M v 0 N .Q ❑ E 7 7 V V V 7 V V V V 0 co- u) (n 6 6 6 N 6 6 0 0 0 0 CO CO co- p W• U 'L' or E .2 c a =a, 'm U a` v, o co N • • . N 0 N U) a) u) co0 Uo N- o U) , . O) m n 0) N- V0 V CO U) co W 0 0) CO O O N CO CO N O n Of 0) m 0) CO CO v N n a ,.mgi N N O O6 N N N N 0) m N n O C) 0 M a 0 N) O N.- N 0 n 0 N N U) N- 0) N M M N 0 a0 co m 0 n CO N rn N U) (O (O n N.- n II N N OD OD OD a0 00 UD a0 CO N- N- N N- tD (O (O N CO ci 1/411,11117wz II' ; ? O �Z co N CO N CO Vm' 0) Un) CO O CoO n U) Si. U) CO U) CD CO a' 7 V V' N- O_ et O n n 0) CO CO CO N M 0) CO N n n U) 01 M e- a CO N U) N N n 0 CO UO N UO O co 0 UN V O 0) UO 7 a 7 U) U) U) U) O N N O C) C) Z e- e- 7 co .- co M co co co co co m CO CO N e- e- e- U Nt NI' Q m H C C J O O OT O O ❑ ❑ co co 12- 7 1 7 7 (0 rn 17 O) M (g.)- ) O '0':,'" UO a M rn 0 CD CD rn n 0 N U) 0 n st N M w a Z N UO 0 N 0) O OD U.1'5 O N a N a O 0 C0 n 0 0 n m N a O Oi 7 Q n 0 0) O e- CO rn r n ao CO a W U1 CO O M e- 0 v O U) n CI) N CO CO 0 N00 n rn v n CO 0 N O n e- r n CO 4 u1 O 0) U) n n N Ni U) a Y u) UO n 0 N M CO 0) N a n 0) O N N N 0 O) n U) m O CO E n c (n co co co n n n n n co co co co a) m a, co a, rn Co Co co N- 6co 6 N N - '=' of 01 Di 0) m Oi ai of ai of Oi ai 6 aS of m 0) of 01 ai T 0i of Oi Oi D) N R (L) 0 0 0 (o (0 0 (o co co co CD CO CO CO CO CO (D CO (D CO CD 0 CO 0 0 0 (O (n H W ill UO 00) 0U) N 0) 0 N UM V' O) LI-) a M Nn 0 UUNUN O 0 O M OUO UNON nNCco co V N O O co M CC) O 0 O N N CO O) _ a 0 (O 0 N Gi (O r V' r ui N- a N Ci c0 W O Oo N- ui O C') U) O O 7 U rn N CO V a UO UO UO 0 N- CO O) CO CO O V n 0 CO u) N- 0) m U) C O C U) U) U) UO u) UO U) u) N U) U) c0 cD 0 (0 N- n n CO a) CO CO a) C) 0) 0) E L = 'V o o o O O O O O O O O O O O O CJ O O O O 6 CJ O o O O 0) t+ 7 UD UU CO CO UO UO O O 00 CO CO CO CO CO CO CO UO UO UO CO UO CO CO CO CO O 0 CD 01 rn 0) 0) CO 0) CO 0) 0) 0) 0) CD 0) 01 0 01 0) 0) 0) C) 0) 0) CO 0) 0) a. C Z U) U) U) U1 Ui Ui U) N U) U) UO U) U) U) U) 6" Ui U) U) U1 N U) U) co- U) UO ` cu .. O R • U co cp C U 7 CO V N m U) CO n 0 UO 0 0) M U) M 0 n CO CO 0 y C U 0 n m a 0 CO N (o CO n 'U U) M n n 0 0 U) U) U) CO CO CO p O, i 'Cr) A Ni C) UD O) 7 UO 0) n C) Co N C) Oi n 6 4 V O N N e- O U) O O w , d U N CONA co N V' n 0) 0 M 0 0) V 0 n O) 0) 01 0) CO N- UO M m 00 CO OV N- n n n co co UO co 0) a) a) a) a1 0) a) 01 a) a) 0) rn N• CC LY t N .0 I ' 2 U ❑ ❑ t 2 .0., w J 2 O) ❑ W Q IP N- N CO a M et UD CD CO N V N 0 CO O 0 0 m C) n CO 0 UD Q N- V 0 N CO U) N O) U) CD V' CO V' 0) N N 0 N CD n 0 0 0 n OD (I) O UD N O sF n O) U) N Ni U) M U) O r r N n N 0) M (O n n U) N e- N m ect CO CO CO 0 0) N N N-M 0 N Com) CO CO )CO) V0 er e- CL a) 0 m ?_ 2 -gg .. C t .O) N 0) N n N n N C) N U) N CO a CO CO 01 UO U) CO n C) n N 0 CO CO O) e- n CO N UO (0 CO N a V UO n e- 0) a (D CO Oo e- n OCn V N n a UD a n 0) 0i Oi o O n co UO 4 C) co N O O CO 0) no, co v_ Uco CO Cm e N (O n n n n n n n n n0 n 0 0 n tD (O n n n coNo U) U) 6CCD. CO- cli tiy co cc; co- co- co- co- co- CD- CD- Co. a ❑ CO Urn) p) CONCO00N) et UN) n CONCO et. N ,- 00)) V OO 0 0 M CO N 0 N N CO N- V. . n OD CO M n a n 1 7 a a V a N.: r-: a a V• ri 7 'm7 V V Crn) U)) CND CO0 (OO r n n n n n n n n n n n n n n n n n n n n n m m m m m m m m m m m m m m m m m m m m m m m m m m CO O OND N-CO 00,, ULC) N- CO N- COO n CO CO N O CO COCO et n O N. 00) CO CO) N 00OD 3 0 0)CO O N 0) N N CO ) O O N CO N N CO U) UO CO 0) CO CO Of n N t CO o0 co m oD N- N- N- 0 CC) V CO N e- UO V' CO N 0 0 0 7 CO M m CO CO CO CO CO CO CO E N a =° m N Q Y Cl) 1 O co N O 0) 7 n O) n a n n a) UO CO C) O co o) a) co a) co n N- C) JV' CD 0 U) 0) CO 0) n CO CO CO v CO 0) 0 (O 0 0 v v N O) CO 0 (O Q C) (� N U) n OD 0 Co O O O N O O V a U) co U) co UO n co Co Co rn a) 0 co a) a) 0) 0) CS) 0) rn 0) a) a) a) CU 0 U T CO N C V Z CD m v a s ott W L• L a N N N 0 t - e- O E m ee- ' Z Z a a (/) (n C/) v O 0) Q N- 0 UO UO rn N N v CD CO UD et 0 CO n O v 0) O N n N Q N0) 0) W N U) 0 7 O) 0) 0 0 0 0 0 e- N MCO M CO CO N C) m C) co C) UO 't N C) N U) (O V U) U) U) U) U) U) 'SiU) U) U) C) C) m C) C) C) C) O N. (D N U) o N U) ro V n O M 0 O) N u) UD a n O M 0 0) p a CO n CO CO CO CO CO 0) 0) 0 0 0 N N N M CO CO et v v v N ❑ ^r co- co- co- f (O 0 (D CD 0 0 n n n n n n n n n n n n n n n n n p U a@iA/ C .. T ? CO x 10 1c6 O C a � .. a m 0) o 1`r.0 0 .O «0 0 y• 7 N c) a v) � 3 ❑ y v r 0 . y N r CO CO 7 O 7 C) N CO CO • O o O Ern (n O ao CO 7 v CO -p ,'mg N CON N O u) u) CO (O N. T ch - CO CO O N- 7 7 CO c0 N N CO 7 O Lr.) (n 7 V 7 5- 2 ch c`� N N N N m `W� Cr, N O > „ o a= co m a. N N n CO O 0) M O (D O) O u) O Z d u) V 7 LO CO CO (O N CO (D O O 0 U 0) O 0) 0) O) 0) N r O CO C0 O U Z QCSI N d J CO OI O O o O G O 0 EL d 0) 03 Y O N (p 1 co (n 0) 0) 0) 7 CO 7 0) CO CO N. u) CO (CO (OD Q? CO N. CO 0) N. (O N CO 0) (O (O N O O 7 N. 7 N. N N. 0 N. CO CO CO CO N- N O O U o) ,— 7 (O co CO C) 7 (O (O r` r r` (O p� 1 CO CO )O N N 0 N. 7 CO (O N CO V E u) C n N- co co co CO co u) u7 c0 7 7 7 CO O `= O) 0) W 0) 0) of 0) 0) 0) 0) 0) 0) D) 0) `N- d E 2 A 7 (O CO O O O (0 O O c0 O (o (o (o O C W d)'- (/)'-' t`- mow i 0 co co O CO co u) N CO 0 N- u) CO 0 7 CO C) CO u) CO u) 0) O CO 7 0) 0 L.0 u) 0 0) 7 7 0 N 0) 0) CO N. u) Ci CO O C) 7 C) 7 N N O COu) CO N- r p) cocoW O N 7 7 u) u) c0 C C C O 0) m 0 0 0 0 0 0 0 0 0 0 0 0 d L L ` O O O _ _ _ _ _ _ _ _ _ _ w 0 CO 00 CO CO CO CO CO CO CO CO c0 CO CO CO d d �, W 0) O) 0) 0) 0) 0) O 0) 0) 0) O T CO ,'O O N a. Z u) u) u) u) u) u7 u) u) u) u) N u7 N N W O N CD C N N u) (1, N CD O ;3V d C C C) 0) 0) 0) CO O O n O n O CO I (EO _ N C - c) C) W n N 0) 7 CO CO 0) u) 7 0) O O i5 C ` (6 — 0 7 O N M 7 (O COLri (O O w d d 0 CONCO CO M O O co N O) CO C) 0 CO U d W T 10 a0 r P. N. N. h CO CON CO u) N N )O 7 U 0 d L d N C Z N _,S.'”,..,..VN,...,. o0N J Z C N W C Oy OOu) • y O) N. 7 'ill d !:- -U U o o co N 0 N N u) 7 N 7 o N a0 Q u) 0) 0) 7 N. N CO CO C) 7 O) W r` O a) W N u) r- N. 00 co O u) N r C0 Lc, 7 7 7 7 7 7 7 7 7 (O u0) u) (D (D CI- a) co a m L Z C CO COC LL N. 0 N. 7 CO LO 7 0 7 0 W N C) CD CO N CO (0 N CO 7 CD n u) 7 O) CO n N. CO CO n 0) C) (O r` 0) co co co co co co co co n r N. N- r` CO Na co co co co O (0 O CO O O O CO (D CO C) O CO CO CO- (O CO CO CO- CO CO CO CD- O O R l d E z N. 0 N. 7 CO (O 7 0 7 0 _ CO N 01 N 7 CO N N CO O O N C) N. O CO CO r O O (O O WC) ui r` CO (.9C) C) C) C. 0) C) C) C) 7 7 7 7 7 (O z Q E O O O O co (o CO- Co Co O O CO (11 N 1 CT) cc Q w 2 I U ? Fo Q Z 6j O LL, w o F= O CO N CO CO N CO 0 CO N0 j • 0 CO u) 7 N. u) 0 7 7 0) O) Q O N. 7 CO W O CO Vi N O) U) w s o 0) 0) 0) co Co O) co Co Co I. n I. N. C) NNNN N NNNNN NNN c, z E a N — N a CD 00 CO ,N CO co Q U Q `^' CO COW (O t d j N co - cu O 0) 7 CO CO 0) N. 0 (() CO N. N. a V J 7 u7 N 0) 0) C) N. 0 h N N. CO CO (o Q O O CO u) N (O (O (O CO 0) D1 0) O) O) O) CO CO co co CO CO CO CO O(0 T 0) 0) o d N N V 0 CO O O m CO CO C ( E. L u) 7 u) CO E• d (0 a s F O p, 0) coNu1 co- , .0 a N N N 0_ U) `.. I N C N co- a0 EU d m d O m J 0 p 2 Z Z a a O) CO (0 N 7 O N O C.110 = N COU = 00 Q N CO 7 N 7 0 C 0 0 7 ,- 0) 0 O C (O C) C) (-6 C) 0 cn p, O O O O O O O O O N (O CO 7 N 7 N. O C) co W u) 0) t) y p a. (O N (O CO c0 0 CO (D N. N. n n CO CO CO d C N Q E N ri ri r� N i'3": N 0 n r` n n r 0- r N 'p .O o a�A. c o .. 2 v Y a a (p O. V L m d C O d a` E• 'c_ d m m .� a A (1 i 0 • 0 • a W s Z m WO 0 o 0 0) a= 0) m 1 U z 0 v v C S O c 0 0 0 0 0 0 d = = o N 7 N (OO (00 V a©© E L N N _ 0) E a) ` C 0 (0 cn v) t- w 1 0) z Cl, 0) • v a) 0V. m w CO 0) CO 2 cec 0) CO o 0 ra 0) " m cV G) C @ O C U ' N V l O 2 i r A N U aN w T A m s m a 0) >> m J F i 2 (q ❑ I -G 0 0) ❑ I L 0) Q co CC cc ct a c 0 CO > co 1— >- m co J O m C N = O T it '- c CO c c P Co E oO u a) °a) ca it o 0 4. U F Y d U) a M _ . 0) V 0 N 0 N E N r V C W 7 G_ 0 0 0 RN- N U r O N O O J I"- 00 u) Cn EV CO up 2 N 0 00 . 0O N N N 0 WI Y(/) U L U)a u) M CO N J .2. O CO O N c T N N E COCL m d a 1 0 0 0 o m v o 0 _c O (L N N -co = M 4'1 N N N 'O U) r N O.N 10 (O CO Z d a !n (n (n C y ❑ 7 N- r r z O E O .R 0 Q 0 N C O a a 5, ca o .$ .• p E . « — •o •�, N sam 0 a` co 3 o c • 0 Ink%,,.►1=AVW STATE OF ALASKA MAY 1 9 2016 WELL�LASKA OIL AND GAS CONSERVATION COMMI MPLETION OR RECOMPLETION REPAND LOG A OGCC 1 a. Well Status: Oil 0 Gas 0 SPLUG 0 Other 0 Abandoned 0 Suspended 0 1 b.Well Class: 20AAC 25.105 20AAC 25.110 Development 0 Exploratory 0 GINJ 0 WINJ 0 WAG 0 • WDSPL 0 No.of Completions: One ' Service fJ Stratigraphic Test 0 2. Operator Name: 6. Date Comp.,Susp.,or Aband.: 14.Permit to Drill Number/Sundry BP Exploration(Alaska),Inc 4/23/2016 . 215-222 • 3. Address: 7. Date Spudded: 15' API Number: P.O.Box 196612 Anchorage,AK 99519-6612 4/15/2016 50-029-23099-60-00 • 4a. Location of Well(Governmental Section): 8. Date TD Reached: 16. Well Name and Number: 4/20/2016 • PBU S-112L1 • Surface: 4332'FSL,4501'FEL,Sec.35,T12N,R12E,UM ' 9 Ref Elevations KB 69.6 • 17. Field/Pool(s): PRUDHOE BAY,AURORA POOL Top of Productive Interval: 4337'FSL,3715'FEL,Sec.35,T12N,R12E,UM GL 33.81 t BF 37.34 (Undefined) Total Depth: 4896'FSL,4216'FEL,Sec.35,T12N,R12E,UM 10. Plug Back Depth(MD/TVD): 18. Property Designation: • 8097'/6706' • ADL 028257 • 4b. 4b.Location of Well(State Base Plane Coordinates,NAD 27): 11. Total Depth(MD/TVD): 19. Land Use Permit: Surface:x- 618930. y- 5980535 • Zone - ASP 4 - 8097'/6706' . 83-47 TPI: x- 619714 y- 5980553 Zone - ASP 4 12. SSSV Depth(MD/TVD): 20, Thickness of Permafrost MD/TVD: Total Depth:x- 619204 y- 5981105 Zone - ASP 4 2257'/2221'(Nipple) 1900'(Approx.) 5. Directional or Inclination Survey: Yes O (attached) No 0 13. Water Depth,if Offshore: 21. Re-drill/Lateral Top Window MD/TVD: Submit electronic and printed information per 20 AAC 25.050 N/A (ft MSL) • 6912'/6717' • 22. Logs Obtained List all logs run and,pursuant to AS 31.05.030 and 20 MC 25.071,submit all electronic data and printed logs within 90 days of completion, suspension,or abandonment,whichever occurs first.Types of logs to be listed include,but are not limited to:mud log,spontaneous potential,gamma ray,caliper, resistivity,porosity,magnetic resonance,dipmeter,formation tester,temperature,cement evaluation,casing collar locator,jewelry,and perforation record. Acronyms may be used.Attach a separate page if necessary MWD/GR/RES 23' CASING,LINER AND CEMENTING RECORD CASING WT.PER GRADE SETTING DEPTH MD SETTING DEPTH TVD HOLE SIZE CEMENTING RECORD AMOUNT FT. PULLED TOP BOTTOM TOP BOTTOM 20"x34" 215.5# A53 36' 153' 36' 153' 48" 260 sx Arctic Set(Approx.) 9-5/8" 40# Lao 35' 2915' 35' 2878' 12-1/2" 506 sx AS III Lite,211 sx Class'G' 7" 26# L-80 32' 6825' 32' 6667' 8-3/4" 218 sx LiteCrete,184 sx Class'G' 4-1/2" 12.6# L-80 6710' 6912' 6589' 6717' 6-1/8" 112 sx Class'G' 2-7/8" 6.4# L-80 6957' 8054' 6738' 6710' 4-1/4" Uncemented Slotted Liner 24. Open to production or injection? Yes El No 0 25. TUBING RECORD If Yes,list each interval open(MD/TVD of Top and Bottom;Perforation GRADE DEPTH SET(MD) PACKER SET(MD/TV Size and Number): 4-1/2"12.6#L-80 6718' 6658'/6552' 4-1/2"Open Hole 2-7/8"Slotted Liner 6912'-6957' 6717'-6738' 6989'-8054' 6745'-6710' 8054'-8097' 6710'-6706' 26. ACID,FRACTURE,CEMENT SQUEEZE,ETC. Was hydraulic fracturing used during completion? Yes 0 No O - 'OMPLETION Per 20 MC 25.283(i)(2)attach electronic and printed information DATE 12 I.iB(e DEPTH INTERVAL(MD) AMOUNT AND KIND OF MATERIAL USED VERIFIED 8054' Fish:Motor and Bit Vl- __ 2200' Freeze Protect w/35 Bbls Diesel 27. PRODUCTION TEST Date First Production: Not on Injection Method of Operation(Flowing,gas lift,etc.):N/A Date of Test: Hours Tested: Production for Oil-Bbl: Gas-MCF: Water-Bbl: Choke Size: Gas-Oil Ratio: Test Period �•P Flow Tubing Casing Press: Calculated Oil-Bbl: Gas-MCF: Water-Bbl: Oil Gravity-API(corn): Press 24 Hour Rate Form 10-407 Revised 11/2015 CONTINUED ON PAGE 2 Submit ORIGINAL only v7Z 5/23/(& 5---4,74 RBDMS I-1- MAY 2 3 2016 r s-,-2.,./. i4" 4 28. CORE DATA • Conventional Core(s) Yes 0 No Q ' Sidewall Cores Yes 0 No Q • If Yes to either question,list formations and intervals cored(MD+TVD of top and bottom of each),and summarize lithology and presence of oil,gas or water (submit separate sheets with this form,if needed).Submit detailed descriptions,core chips,photographs and laboratory analytical results per 20 AAC 25.071. 29. GEOLOGIC MARKERS(List all formations and markers encountered): 30. FORMATION TESTS NAME MD TVD Permafrost-Top Well Tested? Yes 0 No 0 ' Permafrost-Base If yes,list intervals and formations tested,briefly summarizing test results.Attach Top of Productive Interval 6896' 6709' separate sheets to this form,if needed,and submit detailed test information per 20 AAC 25.071. Kuparuk C 6896' 6709' Kicked off from Parent Well 6912' 6717' (S-112) HRZ(Fault) 8038' 6712' Formation at total depth: HRZ 8038' 6712' 31. List of Attachments: Summary of Daily Drilling Reports,Well Schematic Diagram,Surveys Information to be attached includes,but is not limited to:summary of daily operations,wellbore schematic,directional or inclination survey,core analysis,paleontological report,production or well test results,per 20 AAC 25.070. 32.I hereby certify that the foregoing is true and correct to the best of my knowledge. Contact: Tempel,Troy Email: Troy.Tempel@bp.com Printed Name: Joe Last Title: Drilling Technologist Signature: ^Phone: +1 907 564 4091 Date: /i i l)I INSTRUCTIONS General:This form is designed for submitting a complete and correct well completion report and log on all types of lands and leases in Alaska.Submit a well schematic diagram with each 10-407 well completion report and 10-404 well sundry report when the downhole well design is changed. All laboratory analytical reports regarding samples or tests from a well must be submitted to the AOGCC,no matter when the analyses are conducted. Item la. Multiple completion is defined as a well producing from more than one pool with production from each pool completely segregated.Each segregated pool is a completion. Item lb.Well Class Service wells:Gas Injection,Water Injection,Water-Alternating-Gas Injection,Salt Water Disp,Water Supply for Injection,Observation or Other. Item 4b.TPI(Top of Producing Interval). Item 9. The Kelly Bushing and Ground Level elevations in feet above mean sea level.Use same as reference for depth measurements given in other spaces on this form and in any attachments. Item 15.The API number reported to AOGCC must be 14 digits(ex:50-029-20123-00-00). Item 20.Report true vertical thickness of permafrost in Box 20.Provide MD and TVD for the top and base of permafrost in Box 29. Item 22.Review the reporting requirements of 20 AAC 25.071 and,pursuant to AS 31.05.030,submit all electronic data and printed logs within 90 days of completion,suspension,or abandonment,whichever occurs first. Item 23.Attached supplemental records should show the details of any multiple stage cementing and the location of the cementing tool. Item 24.If this well is completed for separate production from more than one interval(multiple completion),so state in item 1,and in item 23 show the producing intervals for only the interval reported in item 26.(Submit a separate form for each additional interval to be separately produced, showing the data pertinent to such interval). Item 27.Method of Operation:Flowing,Gas Lift,Rod Pump,Hydraulic Pump,Submersible,Water Injection,Gas Injection,Shut-in,or Other(explain). Item 28.Provide a listing of intervals cored and the corresponding formations,and a brief description in this box.Submit detailed description and analytical laboratory information required by 20 AAC 25.071. Item 30.Provide a listing of intervals tested and the corresponding formation,and a brief summary in this box.Submit detailed test and analytical laboratory information required by 20 AAC 25.071. Item 31.Pursuant to 20 AAC 25.070,attach to this form:well schematic diagram,summary of daily well operations,directional or inclination survey,and other tests as required including,but not limited to:core analysis,paleontological report,production or well test results. Form 10-407 Revised 11/2015 Submit ORIGINAL Only IA43_L EAD= FMCIGEN 5 • S-112 NOTES:WELL ANGLE>70° @ 7026'"" H2S ACTUATOR= BAKER C READINGS AVERAGE 125 ppm WHEN ON MI"'WELL OKB ELEV= 69 60 L 1 REQUIRES A SSSV WHEN ON MI"' K = = __ ......J l OP5626' Max Angle= 960 @ 7457' 20"X 34', 114' 215 2257' —14-1/2'HEs X NP,D=3.813" Datum MD 7031' .5 lb/ft.A53 Datum TVD= 6700'SS ERIN INSULATED 9-5/8"CSG,40#,L-80,BTC,D=8.750" H 2915' —41 ST LFT MANDRELS ST MD TVD DEV TYPE VLV LATCH PORT DATE 3 3850 3813 1 KGB2 DOME BK 16 01/14/16 2 5654 5616 1 KGB2 SO BK 20 01/14/16 1 6529 6451 35 KGB2 'DMY BK 0 06/25/07 'IXTB4)ED A4CKIVG Minimum ID =3.725" @ 6706' I I 6596 4-112'BKR SLD SLV,D=3.813" 'ONE WAY LEAK TO IA WHEN ON IA NJ 4-1/2" HES XN NIPPLE 6658' H 7"X 5"BKR PRM PKR,D=3.875" 6685' H4-1/2"HES X NP,D=3.813" 6706' —14-1/2"HES XN tNN3 NULLED TO 3.80"(02/26/16) 4-1/2"TBG,12.75#,L-80 ICI,.0152 bpf,D=3.958" —{ 6718' 6710' --7"X 5"BKR ZXPLIP,D=4.390' I . 6718' -----14 14112"VVLEG D=3.958' 6729 H 7'X 5"BKR HMC LNR HGR D=5.03" 6735 --I5"X 4-1/2 XO BUSHING,D=3.89" 7"CSG,26#,L-80,D=6.276" —I 6825' Hil 11. PERFORATION SUMMARY 6863 —I4-1/2"MARKER JOINT W/RA TAG REF LOG: ANGLE AT TOP PERE: WA FALLOUT WI DOW(S-112 L1) 6912'-6920' Note: Refer to Production DB for historical perf data SIZE SPF NTB?VAL Opn/Sgz SHOT SQZ I 6957 -3.625'SHORTY DEPLOY SLV,D=2.370" 5-112 3-3/8" 6 6900-6925 0 04/29/03 695W-6989' 2-7/8"SOLD LNR,6.4#,L-80 SIL, 3-3/8" 6 6960-6976 0 04/29/03 .0058 bpf,D=2.441" 41/2" SLID 7650-8535 SLOT 07/29/02 S-11211 1FISFt MOTOR 2-7/8" SLTD 6989-8054 SLOT 04/21/16 BR FISH 4-1/2"HMC/CEMENTER —I 7523' I '� -` 2-7/8"SLTD LNR, — 6989'- S-112 L1 4-1/2"CEMENTED PAY ZONE ECP,D=3.937" —I 7542' ' 6.4#,L-80 HY D 511, 8054' I I .0058 bpf,0=2.441" 4-1/4'OPEN HOLE TD —) 8097' I ' S-112 I 4-1/2"LNR,12.6#,L-80 BTC-M,.0152 bpf,D=3.958" —1 8535' (— DATE REV BY CONVENTS - DATE REV BY CONSENTS AURORA UNIT 08/07/02 0.14 INT1AL COMPLETION WELL: S-112 L1 04/24/16 NORDIC2 CTD(S-112 L1) Pff2MT No: 2021350/-2152220 04/28/16 JMD DRLG HO CORRECTIONS AR No: 50-029-23099-00/60 05/03/16 TT/J1413 MINOR EDITS SEC 35,T12N,R12E 949'FNL&780'AWL 05/04/16 TT/JWD FINAL ODE AFFROVAL BP Exploration(Alaska) • • of Page 1 North America ALA ate;., o� , Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811 00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor.NORDIC CALISTA UWI:500292309900 Active datum:S-112©69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) 4/10/2016 05:00 - 07:00 2.00 MOB P PRE MOVE EQUIPMENT OUT OF WAY.CLEAR SNOW.CLEAN UP AROUND WELL HEAD.PICK UP RIG MATS.PERFORM ROUTE DRIVE. _ 07:00 - 15:30 8.50 MOB ' P PRE MOVE RIG FROM DS 15 TO TOWARDS S PAD. STOP AT SANTE FE PAD. -SENTAOGCC NOTIFICATION FOR BOP TEST AT 0715 HRS FOR A 0900 TEST START TIME ON MONDAY 15:30 - 16:00 0.50 MOB N HMAN PRE 'WAIT ON ORDERS. 16:00 - 17:30 1.50 MOB N HMAN PRE CONTINUE TO MOVE TOWARDS S PAD.TURN INTO PRICE PAD. 17:30 - 19:30 2.00 MOB N HMAN PRE SET RIG DOWN.SPOT CUTTINGS BOX.TAKE ON RIG WATER. 19:30 00:00 4.50 MOB N HMAN PRE I STANDBY FOR WORK TO BE PERFORMED ON S-122.MOVE SAT OFFICE FROM DS 15 TO PRICE PAD.WORK ON RIG MOVE CHECK LIST ITEMS.WORK ON SMALL RIG PROJECTS- CHANGE OUT BOLTS IN PITS,CLEAN MUD PUMPS SUCTION AND DISCHARGE !SCREENS.CLEAN RIG.INFORM CREW TO STAY INSIDE RIG DUE HIGH WINDS&HIGH GUSTS. UPDATED AOGCC REP WITH NOTICE OF DELAY DUE TO RIG BEING ON STANDBY. REP REPLIED BACK TO REQUEST 24-HOUR NOTICE TO BE GIVEN WHEN OPS ARE UNDERWAY AGAIN. 4/11/2016 00:00 - 06:00 6.00 MOB N HMAN PRE CONTINUE TO STANDBY FOR WELL WORK TO BE PERFORMED ON S-122.CONTINUE TO WORK ON SMALL RIG PROJECTS.CLEAN RIG. -CONTINUE TO WORK ON RIG MOVE CHECK LIST ITEMS. -GREASE 2"IRON. -OIL 1"CSH IN PIPESHEAD. -PREP SHAKER SCREENS FOR USE ON S PAD. -PREP PIT 1 AREA FOR WELDING WORK. 06:00 - 15:00 9.00 MOB N HMAN PRE CREW WORKING ON SMALL PROJECTS -COMPLETE WORK ON RIG MOVE CHECKLIST -REPAIRED LINE IN PITS FROM SHAKER TO CUTTINGS BOX. -INSTALL TROUGH GATE TO ROUTE RETURNS TO PIT 1. -CONDUCT GENERAL HOUSEKEEPING -ELECTRICIAN SERVICED GENERATOR#1. -ELECTRICIAN WORKED ON ELECTRICAL TERMINATION CHECKLIST. -SPOT TIOGA HEATER ON CUTTINGS BOX -WIND IS STILL 35-45 MPH WITH (CONSISTENCY,GUSTS PEAKING AT 65 MPH Printed 5/4/2016 9.36:36AM *All depths reported in Drillers Depths* • North America-ALASKA-BP • Page 2 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM I Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA 1 UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr)15:00 - 21:30 6.50I (usft) MOB N HMAN PRE NOTIFIED TO MOVE RIG TO S-PAD FOR OPERATIONS. j-WRAP UP SMALL PROJECTS,RIG MOVE CHECKLIST -MOVE TIOGA HEATER&CUTTINGS BOX. -CLEAR SNOWAWAY FROM RIG -NOTIFY SECURITY,FIELD ENGINEER,PAD OPERATOR,ROADS AND PADS,GC2 -RIG MATS BEING LAID,PATH BEING BLOWN CLEAR -WARM UP MOVING SYSTEM -SUBMIT UPDATE TO BOP TEST I NOTIFICATION AT 1515 HRS;REQUESTED START TIME OF NOON TUESDAY -SEND SITE CONTROL TO S-PAD TO VERIFY SATELLITE CAMP PLACEMENT PER PROCEDURE,ABLE TO PLACE CAMP AT 1178',WHICH IS OUTSIDE OF RED ZONE I-CONDUCT RIG ROUTE DRIVE. 1-CONTACT RIG/BP SUPERINTENDENTS/SUPERVISORS, SECURITY(BP&KUPARUK),ROADS&PAD I LEAD TO DISCUSS PHASE 2 WEATHER IN KUPARUK.DISCUSS RIG MOVE (PROCEDURES.MAKE 2ND ROUTE DRIVE WITH WSL/TP/DRILLER. 21:30 - 21:40 0.17 MOB N HMAN PRE PJSM FOR RIG MOVE.DISCUSS WIND& WEATHER CONDITIONS. 21:40 - 00:00 2.33 MOB "" P PRE MOVE RIG FROM PRICE PAD TOWARDS S PAD. RIG IS ACROSS FROM CC2AAT MID NIGHT. 4/12/2016 00:00 - 07:15 7.25 MOB P PRE CONTINUE TO MOVE RIG FROM CC2A TOWARD S PAD. STAGE ON S-PAD. -SHOVEL SNOW TO HAVE ACCESS BEHIND WELL FOR CELLAR DOORS -PLACE RIG MATS 07:15 - 07:40 0.42 MOB P PRE PJSM ON MOVING RIG OVER WELL USING ITHE RIG MOVE CHECKLIST PROCEDURE. ASSIGN ROLES,DISCUSS THE STOP COMMAND. 1-ASSIGN PERSON FOR 12"X12"BLOCK I-WSLAND TOOLPUSHER IN CELLAR AT TREE;WSLASSIGNED ROLE TO MONITOR 1 THE TWO CLOSEST WELLS AND S-112 DISCUSS THE STOP THE WILL BEB DRILL THAT EXECUTED BY TEAM 07:40 - 08:00 0.33 MOB P PRE MOVE RIG OVER WELL. STOP THE JOB DRILL INITIATED BY TOOLPUSHER. RIG STOPPED. FUNCTION TEST ESD OF MOVING SYSTEM HYDRAULICS,RIG CANNOT MOVE. PLACE BLOCK IN PATH,ENABLE HYDRAULICS. CONTINUE WITH RIG MOVE. -RIG OVER WELL S-112,RIG ACCEPT 0800 HRS. 08:00 - 09:00 1.00 RIGU P PRE INSTALL SENSORS ON IA,OA,WING VALVE. FUNCTION SSV,INSTALL FUSIBLE CAP IN OPEN POSITION. CYCLE ALL VALVES,NO TRAPPED PRESSURE. CONDUCT LEAK TIGHT TEST. Printed 5/4/2016 9:36:36AM *All depths reported in Drillers Depths* North America-ALASKA-BP Page 3 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 iX3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM (Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To 1 Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) 09:00 - 11:30 2.50 BOPSUR P PRE NU BOP -REEL ON LOCATION,CLEAN REEL OF SNOW FOR PICKING UP. LIFT REELAND SECURE. 11:30 - 17:00 5.50 RIGU P PRE PREP REEL FOR OPERATIONS,HAMMER UP REEL IRON. -TORQUE TREE TO SPEC -PULL COILACROSS,TEST E-LINE AND BOOT SET INJECTOR TO SIDE 17:00 - 18:00 1.00 BOPSUR P PRE CLEAR AND CLEAN RIG FLOOR. LAY OUT TEST LINES,FILL STACK WITH WATER. MOBILIZE TEST JOINTS TO SKATE FOR PICKUP. -STATE AOGCC MATT HERRERA WAIVED WITNESS AT 1715 HRS SET UP CHART RECORDER FOR BOP TEST, WALK LINES TO VERIFY LINE-UP 18:00 - 00:00 6.00 BOPSUR P PRE PRESSURE TEST BOP -HOLD PJSM AND DISCUSS PRESSURE CROSSCHECK CARD -TEST TEST BOP TO 250 PSI LOW/3500 PSI HIGH PER NORDIC,AOGCC AND BP PROCEDURES -START FLOODING COIL FOR INNER REEL VALVE/PACKOFF TESTING -CONTINUE WITH TESTING. 4/13/2016 17:45 - 19:30 1.75 CONDHL P PRE POH WITH THE BHA -MW IN AND OUT 10.05 PPG,CIRC PRESSURE OF 2090 PSI AT 2.0 BPM,PULLING SPEED OF 115 FPM -LOSING 3.5 BPH WHILE POH -IAAT 1130 PSI DURING TRIP OUT 00:00 - 02:00 2.00 BOPSUR P PRE CONTINUE WITH BOPE TEST 02:00 - 02:30 0.50 BOPSUR P PRE PJSM FOR MOVING FORWARD INTO INNER REEL VALVE AND PACKOFF TEST. -STAB INJECTOR. FLUID PACK STACK AND COIL. -TEST INNER REEL VALVE AND PACKOFF LOW/HIGH '02:30 - 04:00 1.50 BOPSUR , P PRE REVERSE CIRCULATE E-LINE SLACK BACKAT 3.8 BPM. BLOW BACK COIL. INJECTOR OFF. PJSM FOR CUTTING PIPE. MAKE UP CTC, PULL TEST 04:00 - 04:30 0.50 BOPSUR P PRE PERFORM H2S RIG EVACUATION DRILL. PERFORM AAR. EVERYBODY MUSTERED IN —2 MINUTES. PERFORM PRE SPUD WITH ELLINGTON CREW. DISCUSS PORE PRESSURE 04:30 - 06:00 1.50 BOPSUR P PRE INSTALL CTC, PULL TEST TO 35K DISCUSSED PRESSURE CROSSCHECK. SET PUMP TRIPS TO 4750#.BYPASS MICROMOTION AND OPEN TATTLE TAIL. PERFORM 250#/4700#PRESSURE TEST ON REEL IRON AND PRESSURE BULKHEAD. GOOD TEST. STAB INJECTOR. PUMP SLACK FORWARD. 06:00 - 07:30 1.50 RIGU P PRE MU BHI EQUIPMENT AND PRESSURE TEST DUAL FLOAT VALVES. GOOD TEST PER WELL PLAN CRITERIA. Printed 5/4/2016 9.36:36AM *AII depths reported in Drillers Depths* IP • North America-ALASKA-BP Page 4 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) I Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay 'Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA 'UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date 1 From-To Hrs I Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) 107:30 - 10:30 3.00 RIGU P PRE MOBILIZE LUBRICATOR EQUIPMENT TO RIG FLOOR. RIG UP LUBRICATOR. PRESSURE TEST LUBRICATOR,DIFFICULTY WITH GETTING INITIAL TEST(COLD). GOOD TEST PER CRITERIA IN WELL PLAN. 10:30 - 11:30 1.00 RIGU 1 P I PRE 1 PULL TWC. 570 PSI UNDER TWC,STILL HAVE 930 PSI ON IA. CLOSE IN MASTER AND ' SWAB,BLEED TRAPPED PRESSURE OFF TO 1 FLOW BACK TANK. 1 MOBILIZE LUBRICATOR OFF OF RIG,CLEAR AND CLEAN RIG FLOOR 11:30 - 12:30 1.00 CONDHL P PRE PJSM-0N MAKINGGUP LUBRICATABLE NOZZLE I BHA. DISCUSS MAKE-UP OF BHA. GOOD 1 EXAMPLE OF STOP THE JOB WITH 1 1 FLOORHAND STOPPING DISCUSSION DUE TO POSSIBLE WRONG SUB IN ASSEMBLY. • VERIFIED SUB WITH DRILLER AND DIRECTIONAL DRILLER BUT DISCUSSED WHY 1 THIS WASAGOOD EXAMPLE OF STEPPING IN AND STOPPING AN OPERATION WHEN THERE IS DOUBT. -MU NOZZLE BHA WITH CHECK VALVES AND , STAB ON AND PRESSURE TEST QUICK TEST SUB ON LUBRICATOR Printed 5/4/2016 9:36:36AM *All depths reported in Drillers Depths* North America-ALASKA Page 5 of 20 Operation Summary Report Common Well Name S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 1X3-017M9-C:(2,860,811 00) Project:Prudhoe Bay I Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/me:7/22/2002 12:00:OOAM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA ,UWI:500292309900 Active datum:S-112©69.60usft(above Mean Sea Level) Date From-To I Hrs Task Code NPT I NPT Depth Phase Description of Operations (hr) (usft) 12:30 - 15:00 2.50 CONDHL I P PRE PJSM ON OPENING UP TO WELLAND CIRCULATION METHOD FOR WELL KILL. -OPEN UP TO WELLAGAINST TESTED INJECTOR AND CLOSED CHOKE WITH 580 PSI. INITIAL CALCULATION OF BHP WITH 6.8 PPG FLUID TO 2500'AND 7.56 PPG FLUID BELOW IS 3115 PSI WITH EMW OF 8.95 PPG AT 6700'TVD. -BRING PUMPS ON TO MIN RATE OF.54 BPM WHILE SLOWLY CRACKING CHOKE TO MAINTAIN 750 PSI WELLHEAD PRESSURE (CONSTANT CASING PRESSURE). ALL RETURNS TAKEN OUT TO FLOW BACK TANK -INITIAL CIRCULATING PRESSURE WITH 8.3 FLUID DOWN COIL AT 880 PSI,IA PRESSURED UP FROM 950 PSI TO 1100 PSI WITH CIRCULATION. CREW FOLLOWING FLUID MANAGEMENT POLICY,OBTAINING STRAP EVERY 1000'. -FOLLOW FRESH WATER WITH 10.1 PPG HEATED BRINE AS BHA IS RIH. -ADJUST CHOKE TO MAINTAIN CIRCULATING PRESSURE OF THE 8.3 PPG FLUID; WELLHEAD PRESSURE REMAINING CONSISTENTLY 150 PSI OVER INITIAL TUBING PRESSURE. -10.1 PPG HEATED BRINE CHASING THE 8.3 PPG WATER. INITIAL CIRCULATING PRESSURE OF THE 10.1 PPG BRINE AT 835 PSI;WELLHEAD PRESSURE AT 765 PSI(190 PSI OVER) -LIGHT DENSITY TURNED INTO GASEOUS RETURNS FROM 1500'. DENSITY INCREASING AS BHA IS RUN DOWN HOLE. IA I INCREASED TO 1370 PSI WITH BHA ON BOTTOM BEFORE 10.1 PPG FLUID EXITING NOZZLE. -RUN TO BOTTOM WITHOUT ISSUE. PICK UP 1 WEIGHT OFF BOTTOM 34K. 15.00 - 16:00 1.00 CONDHL I P PRE BRING RATE UP TO KILL RATE OF 3.3 BPM, 3900 PSI. MAINTAIN THIS RATE WHILE ADJUSTING CHOKE TO KEEP CONSTANT BHP. -MW IN 10.1 PPG BRINE,CIRC PRESSURE OF 3900-4000 PSI(ADJUSTING CHOKE ACCORDINGLY),ALL RETURNS GOING TO FLOW BACK TANK. IA ROSE TO 1685 DURING THE CIRCULATION OF KWF AROUND. -MW IN 10.0 PPG,MW OUT 9.85 PPG WITH ONE FULL CIRCULATION AROUND. DOWN ON PUMPS WHILE SHUTTING IN CHOKE. STRAP TANK,LOSS OF 71 BBLS TO FORMATION. Printed 5/4/2016 9 36 36AM *AII depths reported in Drillers Depths* • • North America-ALASKA-BP Page 6 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM (Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UW:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) '16:00 - 17:45 1.75 CONDHL P PRE BRING PUMPS BACK ON,OPEN UP CHOKE TO MAINTAIN 600 PSI AND CHASE 10.0 PPG BRINE WITH 10.1 PPG MUD. BRING ON PUMPS TO 3.2 BPM HOLDING INITIAL WELLHEAD PRESSURE OF 600 PSI WITH CIRCULATION PRESSURE OF 3900 PSI. CIRCULATE AND SLOWLY OPEN CHOKE,MM IN 3.15 BPM,MM OUT 3.04 BPM,MW IN 10.1 PPG,MW OUT 9.97 PPG. MONITOR RETURNS,NOT CLEAN FOR RECAPTURE. -MW IN 10.06 PPG,MW OUT 10.01 PPG WITH MUD STILL CHASING THE BRINE. -LOSSES NOW CLEANED UP. TAKE RETURNS THROUGH MGS AT 2.09 BPM. DYNAMIC LOSSES WITH PUMPING. LOSS RATE AT—5 BPH. PICK RATE UP TO 2.89 BPM WITH AN INCREASE IN LOSSES TO 7.5 BPH. MUD ALL THE WAY AROUND,FLOW CHECK FOR 15 MINUTES. ALL GOOD. j-STATIC IA PRESSURE WITH 10.1 PPG MW 1090 PSI AFTER FLOW CHECK -ON WITH PUMPS,TOOK 1.2 BBLS TO GET RETURNS 19:30 - 20:00 0.50 STWHIP R WEXIT -CIRCULATE AT SURFACE WHILE LOADING -WHIPSTOCK ON TO RIG 20:00 - 21:00 1.00 F STWHIP P WEXIT 1-PERFORM 10 MIN FLOW CHECK. WELL STATIC. -PJSM, DISCUSS BREAKING DOWN BHA. BREAK BHA#1 DOWN. -LOAD WHIPSTOCK ON TO RIG. SCRIBE TRAY FACE TO SETTING TOOL -MAKE UP WHIPSTOCK SETTING ASSEMBLY 21:00 - 22:45 1.75 STWHIP P WEXIT MAKE UP INJECTOR PT QTS LOW/HIGH RIH 22:45 - 00:00 1.25 STWHIP P WEXIT WEIGHT CHECK 30K LOG LONG GR TIE IN 4/14/2016 00:00 - 01:00 1.00 STWHIP P WEXIT FINISH FORMATION TIE IN. +3 CORRECTION PICKUP AND LOG CCL FROM 6800'-6955' VERIFY COLLAR LOCATIONS AT 6888'AND 6926' 01:00 - 01:10 0.17 STWHIP P WEXIT POSITION TOWS AT 6912' (0°TF) CLOSE EDC PRESSURE UP TO 3600#, WHIPSTOCK SET. STACK 7K ON WHIPSTOCK TO VERIFY SET 01:10 - 01:20 0.17 STWHIP P WEXIT PERFORM 10 MIN FLOW CHECK. WELL STATIC 01:20 - 02:30 1.17 STWHIP P WEXIT 'POOH FOR MILLING ASSEMBLY 02:30 - 02:40 0.17 STWHIP P WEXIT PJSM FOR BHA LAY DOWN PERFORM 10 MIN FLOW CHECK. WELL STATIC. 02:40 - 04:05 1.42 STWHIP P WEXIT LAY DOWN WHIPSTOCK SETTING TOOLS FLUSH MGS WHILE BHI RECONFIGURES. PICK UP WINDOW MILLING BHA 3.80" GO/ 3.79"NOGO MAKE UP INJECTOR PT QTS LOW/HIGH START CIRCULATING, OUT MM PLUGGED OFF. BACKFLUSHED 04:05 - 05:45 1.67 STWHIP P WEXIT RIH W/MILLING BHA. Printed 5/4/2016 9:36:36AM `AII depths reported in Drillers Depths* North America-ALASKA-BP Page 7 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor.NORDIC CALISTA I UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth , Phase Description of Operations (hr) 1 l (usft) 05:45 - 06:30 0.75 STWHIP P WEXIT LOG TIE IN,RECORD PARAMETERS. MOVE 1 DOWN SLOWLY,INITIAL CONTACT AT 6913'. 1 I PICK UP,COME ON WITH PUMPS AND RE-ENGAGE AT 6913'. 06:30 - 17:00 10.50 STWHIP P WEXIT MILLING OPERATIONS. MILL WINDOW PER WELL PLAN. -FOLLOW WELL PLAN FOR MILLING OPS. WOB RANGE OF.8-3.9K,DIFFERENTIAL PRESSURE RANGED FROM 520-800 PSI -MW IN 10.02 PPG,MW OUT 9.97 PPG, OVERBALANCE TO FORMATION 70 PSI WITHOUT ECD INFLUENCE,ECD OF 11.24 PPG,LOSSES AVERAGED 2-3 BPH THROUGHOUT OPERATION NOSE OUT WITH MILL AT 6921'. SAMPLE FROM 6921'IS 50%METAL AND 50% FORMATION. I -IA ROSE FROM 650 PSI BEFORE MILLING TO AS HIGH AS 1500 PSI DURING MILLING WHILE 'CIRCULATING AT 2.75 BPM WITH CIRC 1 PRESSURES UP TO AS HIGH AS 3620 PSI AND AN ECD OF 11.25 PPG 17:00 - 19:30 2.50 STWHIP P WEXIT WINDOW MILL OUT OF CASING,MILLING RATHOLE FROM 6922'WITH STRING MILL 1 WORKING CASING. FINISH MILLING RATHOLE 19:30 - 22:00 2.50 STWHIP P WEXIT PERFORM 3 UP/3 DOWN REAMING PASSES. PERFORM 10 MIN FLOW CHECK. WELL STATIC PUMP 5 BBLS LOVIS/5 BBLS HIVIS 22:00 - 23:00 1.00 STWHIP P WEXIT POOH WITH WINDOW MILLING BHA. MW IN 10.03 MM/MW OUT 9.97 PPG POOH TO 200'. PERFORM 10 MIN FLOWCHECK. WELL STATIC 23:00 - 23:30 0.50 STWHIP P I WEXIT LAY BHA#3 DOWN. MILL GAUGED 3.80"GO/ 3.79"NOGO 23:30 - 00:00 0.50 STWHIP P WEXIT PJSM/FLUSH BOTH IN AND OUT MICROMOTIONS WITH FRESHWATER. 4/15/2016 122:00 - 23:15 1.25 DRILL P PROD1 RIH WITH LATERAL BHA 10.10 PPG IN/10.10 PPG OUT 1 23:15 - 23:30 0.25 DRILL P PROD1 LOG TIE IN ACROSS RA TAG+2.5' CLOSE EDC. RUN TO BOTTOM 23:30 - 00:00 0.50 DRILL P PROD1 RIH TO TD. PERFORM JORPS CHECK SHOT AT 7138' 1 I CONTINUE IN HOLE. 00:00 - 01:00 1.00 1 EVAL P PROD1 COMPLETE MICROMOTION FLUSH WITH I i FRESHWATER I I ( IN MICROMOTION READING 8.285 PPG AT MICROMOTION READOUT OUT MICROMOTION READING 8.297 PPG AT MICROMOTION READOUT I NORDIC ELECTRICIAN CALIBRATED BOTH METERS TO 8.33 PPG FRESHWATER 01:00 - 01:30 0.50 EVAL P PROD1 SCHLUMBERGER FOUND(2)BROKEN KEEPER PINS ON INJECTOR CHAINS WHILE PERFORMING INSPECTION. PJSM, PERFORM LO/TOAND FILL OUT NORDIC EMRC. REPLACE KEEPER PINS. Printed 5/4/2016 9:36:36AM `AII depths reported in Drillers Depths* • North America-ALASKA-BP • Page 8 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UW:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) r (usft) 01:30 - 02:15 0.75 DRILL P PROD1 PJSM, PICKED UP BHA#4 STAB INJECTOR. OPEN EDC PT QTS LOW/HIGH WHILE MWD PERFORMING TOOL CHECKS 02:15 - 03:50 ' 1.58 DRILL P PROD1 RIH WITH BHA#4 MM MW IN 10.04 PPG/MM MW OUT 10.07 -_I PPG 03:50 - 04:45 0.92 DRILL P PROD1 SLOWED FOR SLIDING SLEEVE AT 6596'MD. SAT DOWN. PU MULTIPLE TIMES. COULD NOT GET THROUGH. ORIENT 0°,90°, 180°,270°TOOLFACE. NO LUCK CLOSE EDC, ROLL BIT AT MINIMUM RATE 0.33 BPM TO CHANGE BIT ORIENTATION. NO LUCK TAG SLIDING SLEEVE.LIGHTLY, STACK 1K, START ORIENTATING FROM 0°-45°. BHA WENT THROUGH. ONCE THROUGH,OPEN EDC 04:45 - 05:00 0.25 DRILL P PROD1 LOG TIE IN+3' DRILL BUILD 05:00 - 06:00 1.00 DRILL P PROD1 DRILL BUILD SECTION FROM 6932' FREE SPIN=3475 PSI AT 2.78 BPM RATE IN=2.78 BPM RATE OUT=2.78 BPM _MW IN=10.13 PPG MW OUT=10.07 PPG ECD=11.33 PPG ROP=0 FPH WOB=2 K CIRC PSI=3593 PSI IAP=1533 PSI OAP=OPSI PVT=187 BBLS 06:00 - 18:45 12.75 DRILL P PROD1 DRILLED AHEAD TO 6975'. INITIAL SURVEY CAME IN AT 41.5°. PICKED UP OFF BOTTOM, CONDUCTED DYNAMIC FLOW CHECKAT.5 BPM. RETURNS 1 TO 1 AND DENSITY AT 10.12 PPG. -DRILL AHEAD FROM 6975'. FREE SPIN OF 3400 PSI. -INITIAL IA PRESSURE OF 1540 PSI,OAAT 0 PSI. END IA PRESSURE AT 1555 PSI. -CIRC RATE OF 2.82 BPM,CIRC PRESSURE OF 3430-3460 PSI,ECD ROSE FROM 11.33 PPG TO 11.43. SHORT WIPERS HELPED WITH LOWERING THE ECD. -DRILLED AHEAD WITH MINOR LOSS RATE OF UNDER 2 BPH -FINAL PARAMETERS: -IA 1535 PSI,OA 0 PSI -MW IN 10.14 PPG,MW OUT 10.10 PPG,ECD OF 11.30 PPG -2.82 BPM,3440-3740 PSI DURING DRILLING, WOB RANGED FROM 1.25-3K 18:45 - 19:10 ( 0.42 DRILL P PROD1 PERFORM 10 MIN DYNAMIC FLOW CHECK 0.52 BPM IN/0.49 BPM OUT LOSS RATE 1.2 BPH MUD WEIGHT IN/OUT 10.12 PPG 19:10 - 20:30 1.33 DRILL P PROD1 POOH WITH BUILD BHA 10.13 PPG IN /10.13 PPG OUT PJSM FOR LAYING BHA DOWN AND DECREASING AKO. 20:30 - 20:45 0.25 DRILL P PROD1 PERFORM 10 MIN FLOW CHECK. WELL STATIC Printed 5/4/2016 9:36:36AM *AII depths reported in Drillers Depths* North America-ALASKA BP% Page 9 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To • Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) 120:45 - 21:45 1.00 DRILL P PROD1 TAG UP AND BREAK OFF INJECTOR LAY DOWN BUILD BHA BIT GRADE 1-1-BU ADJUSTAKO FROM 3.15°TO 1.15°. SWAP OUT DGS AND HOT FOR JORPS MAKE UP LATERAL BHA WITH SAME BIT STAB INJECTOR 21:45 - 22:00 0.25 DRILL P PROD1 PT QTS TO 300/3600 WHILE TESTING TOOLS OPEN EDC. 4/16/2016 00:00 - 02:00 2.00 DRILL P PROD1 I DRILL LATERAL SECTION 7330'TO 7480' FREE SPIN=3215 PSI AT 2.72 BPM RATE IN=2.72 BPM RATE OUT=2.71 BPM MW IN=10.11 PPG MW OUT=10.11 PPG ECD=11.36 PPG ROP=69 FPH! WOB=2.1 K CIRC PSI= 3377 PSI IAP=1545 PSI OAP=0 PSI PVT=370 BBLS LOSSES-2BPH 02:00 - 04:00 2.00 DRILL P PROD1 DRILL LATERAL SECTION 7480'-7632' FREE SPIN=3215 PSI AT 2.72 BPM RATE IN=2.72 BPM RATE OUT=2.71 BPM _ MW IN=10.11 PPG MW OUT=10.12 PPG ECD=11.39 PPG ROP=67 FPH WOB=2.1 K CIRC PSI= 3359 PSI IAP=1560 PSI OAP=0 PSI PVT=366 BBLS LOSSES-2BPH PUMP 5 BBLS LOVIS/5 BBLS HIVIS PERFORM 200'WIPER 04:00 - 06:15 2.25 DRILL P PROD1 DRILL LATERAL SECTION 7632'TO 7800' FREE SPIN=3140 PSI AT 2.72 BPM RATE IN=2.72 BPM RATE OUT=2.71 BPM MW IN=10.13 PPG MW OUT=10.12 PPG ECD=11.40 PPG ROP=77 FPH WOB=2.1 K CIRC PSI= 3359 PSI IAP=1530 PSI OAP=0 PSI PVT=364 BBLS LOSSES-2BPH PUMP 10 BBLS LOVIS/10 BBLS HIVIS. 06:15 - 08:00 1.75 DRILL P PROD1 PERFORM WIPER TO WINDOW FOR TIE IN. CHASE PILLS OUT,SHAKER HAD SIGNIFICANT RETURN OF FINE CUTTINGS AND INCREASE IN ECD BY.2 PPG AS SWEEP MOVED UP HOLE -PULL INTO WINDOW,OPEN EDC AND PUMP BOTTOMS UP. LOWERED ECD FROM 11.45 PPG TO 10.9 PPG. LOG TIE-IN TO RA TAG WITH+2'CORRECTION. -RUN BACK DOWN WITH DRILLING BHA WITH NO ISSUES Printed 5/4/2016 9 36 36AM *AII depths reported in Drillers Depths* North America-ALASKA-BP • Page 10 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay I Site:PB S Pad Rig Name/No.:NORDIC 2 Spud DateTme:7/22/2002 12.00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UWI:500292309900 Active datum:S-112©69.60usft(above Mean Sea Level) Date I From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) 08:00 - 18:00 10.00 DRILL P PROD1 BACK ON BOTTOM AT 7800'. FREE SPIN OF 3115 PSI AT 2.74 BPM. -DRILL AHEAD FAIRLY CONSISTENTLY UP TO 7973' -NOT MAKING MUCH PROGRESS,PICK UP FOR SEVERAL VARYING WIPERS IN ATTEMPT TO CLEAN UP BIT OR ENGAGE FORMATION. NO REAL INDICATION IN CHANGE. -PUMP TWO SWEEPS OF FRESH MUD DOWN,SEEMED TO HELP WITH INCREASE IN MOTORWORK. -DRILLING PARAMETERS: -AVG FLOW IN 2.74-2.82 BPM,FLOW OUT 2.72-2.82 BPM,CIRC PRESSURE 3365-3400, WOB 1.4-6.2K -MW IN 10.12 PPG,MW OUT 10.09 PPG,ECD RANGED FROM 11.29-11.37 PPG 18:00 - 23:00 5.00 DRILL P PROD1 CONTINUE TO DRILL AHEAD AT 9-12 FPH. 3-4K WOB AND 50-100#MOTOR WORK.MW IN 1101 PPG/10:15 PPG OUT PERFORM SHORT WIPERS. 23:00 - 23:30 0.50 DRILL P ( PROD1 I PERFORM KICK WHILE DRILLING DRILL 23:30 - 00:00 0.50 DRILL P I PROD1 STARTED WIPER TO WINDOW PULLING 45-55K. GETTING MOTOR WORK PULLING BACK THROUGH TO 7950' MM PLUGGING UP ON TRIP OUT. HAVE GEO GET SAMPLES. CHUNKS OF WHATAPPEARS TO BE SHALE. PLUGGING MM. CONTINUE PULLING TO WINDOW. MW IN 10.10 PPG/10.15 PPG. 4/17/2016 00:00 - 00:45 0.75 DRILL P PROD1 'CONTINUE TO WINDOW. OPEN EDC. 00:45 - 02:55 2.17 DRILL P PROD1 I START CIRCULATING AT 3.0 BPM. OUT MICROMOTION PLUGGING OFF. CREW BACK FLUSHING MM. SHALE CHUNKS COMING ACROSS SHAKERS. CONTINUE TO FLUSH MICROMOTION AND AND POSSUM BELLY. PUMP 5 BBL HI VIS SWEEP. AT BOTTOMS UP, MORE SHALE. CONTINUE CIRCULATING TO CLEAN WELLBORE OUT. DISCUSS WITH ODE. BEST ESTIMATION AROUND 5-10 GALLONS OF SHALE CAME ACROSS SHAKER. 02:55 - 03:10 0.25 DRILL P PROD1 LOG TIE IN AT RA+2 CORRECTION 03:10 - 04:05 0.92 DRILL N DPRB 8,140.00 PROD1 DISCUSS WITH ODE. TRY TO GET BACK TO BOTTOM. AT 8089' STACK WEIGHTAND INCREASE IN MOTOR WORK. PICK UP AND START OVERPULLING. TRY TO GO DOWN. STACK 4K IMMEDIATELY AND SHARP INCREASE IN CIRCULATING PRESSURE. START PICKING UP HOLE. WEIGHT 31K TO 48K. SEEING 5-6 KAT BIT. CALL ODE TO DEVELOP OCN FOR BILLET. 04:05 - 05:30 1.42 DRILL N DPRB 8,140.00 PROD1 PUMP 10 BBLS LOVIS /10 BBLS HIVIS. PERFORM WIPER TO CLEAN OPEN HOLE FOR BILLET. PULL 15 FPM FROM 7950'UP TO WINDOW. 05:30 - 05:40 0.17 DRILL N DPRB 8,140.00 PROD1 PERFORM 10 MIN FLOW CHECK. WELL STATIC Printed 5/4/2016 9:36:36AM *All depths reported in Drillers Depths* • North America-ALASKA-BP • Page 11 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 'X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Tme:7/22/2002 12:00:00AM ;Rig Release:4/23/2016 Rig Contractor.NORDIC CALISTA ';UWI:500292309900 Active datum:S-112©69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) 05:40 - 07:00 1.33 DRILL N DPRB 8,140.00 PROD1 POH WITH BHA WITH NO ISSUES. JOG AT SURFACE PER RECOMMENDED PRACTICE WITH SHALE. FLUSH MICROMOTION,PULL BHA TO SURFACE BELOW BOP. PJSM FOR LAYING DOWN BHAAND FLOW CHECK,ALL GOOD. 07:00 - 08:15 1.25 DRILL N DPRB 8,140.00 PROD1 POPPED OFF. LAY DOWN BHA,BIT GRADE 1-1-NO BUT THERE IS SOME SLIGHT RING OUT INDICATIONS ON NOSE BUT NOT ON CUTTER SURFACE. -DRESS BILLET,CONFIRM HIGH SIDE ORIENTATION,INSPECT SHEAR NUT AND ANCHOR SYSTEM -PJSM ON MAKING UP BILLET BHA MU BILLETASSEMBLY. STAB ON. BEGIN PRESSURE TESTING WHILE EDC IS POWERED ON. 08:15 - 12:00 3.75 DRILL N DPRB 8,140.00 PROD1 RIH WITH BHA WHILE CIRCULATING THROUGH EDC. SLACK OFF WEIGHT WHILE RIH WITH BILLET IN CASED HOLE 16-22K. WEIGHT CHECK ABOVE WINDOW 34K. LOG TIE-IN WITH+2'CORRECTION. -CLOSE EDC,ENTER INTO OPEN HOLE,TAKE WEIGHT IMMEDIATELY. USING EXTREME CAUTION TO AVOID PREMATURE SETTING; SHEAR ON TOOL IS PINNED TO 16K. ATTEMPT TO ROTATE BILLET USING ORIENTER,NO HELP. NO MOVEMENT PAST 6935'. PICK UP INTO CASED HOLE, PARAMETERS LOOK GOOD. -TURN ORIENTER 360°AROUND TO LEFT IN j I CASED HOLE. BEGIN TO TURN ORIENTER TO RIGHT WHILE RIH VERY SLOWLY. TAKE WEIGHT IMMEDIATELY AGAIN. UNABLE TO WORK PAST 6928'WITHOUT TAKING A LOT OF WEIGHT. -MAKE A THIRD ATTEMPT BUT LOST ONE MORE FOOT TO 6927' -DISCUSS OPTIONS WITH ODE. FLOW CHECK,ALL GOOD. ON WITH PUMPS,WELL TOOK 1 BBL TO GET RETURNS. 12:00 - 14:00 2.00 DRILL N DPRB 6,930.00 PROD1 POH WITH BILLET ASSEMBLY. MW IN 10.05 PPG,MW OUT 10.05 PPG, OVERBALANCE TO FORMATION 87 PSI, INITIAL IA PRESSURE OF 1450 PSI, PRESSURE AT SURFACE 1170 PSI -PJSM FOR LAYING DOWN BHAAND WORKING ON CHANGING OUT BHA ON DECK -FLOW CHECK AT SURFACE,ALL GOOD -PULL BHA TO SURFACE,POP OFF 14:00 - 14:15 0.25 DRILL N DPRB 6,930.00 PROD1 STAND INJECTOR TO SIDE,BREAK OFF BHA. LAY BHA DOWN. -INSPECT BILLETASSEMBLY. MARRING IN SEVERAL AREAS BUT NO GOUGING. INSPECT COMPONENTS,ALL GOOD. REPLACE SHEAR SCREWS WITH 16K SCREWS. -MWD AND DD PREPPED WITH ADJUSTMENTS TO BHA Printed 5/4/2016 9:36:36AM *AIL depths reported in Drillers Depths* • • North America-ALASKA-BP Page 12 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM 1 Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) ', (usft) 14:15 - 15:15 1.00 DRILL P PROD1 CTS HAS 3RD PARTY INSPECTOR OUT TO CONDUCT INDEPENDENT INSPECTION OF THE"BELOW THE HOOK LIFTING EQUIPMENT" -SCHLUMBERGER IS ALLOWED 1 HOUR OF MAINTENANCE TIME EACH DAY -PJSM FOR PICKING UP BHA WHILE INSPECTING INJECTOR 15:15 - 15:30 0.25 DRILL N DPRB 6,930.00 PROD1 MU RE-RUN 4.25"BIT ONTO 1.2°MOTOR BEND,NO RES TOOL IN STRING. STAB ON WITH INJECTOR. PRESSURE TEST QUICK TEST SUB WHILE EDC IS POWERED ON. 15:30 - 17:30 2.00 DRILL N DPRB 6,930.00 PROD1 RIH WITH BHA. -CONDUCT KICK WHILE TRIPPING DRILL WITH NEW OPERATOR ON COIL SYSTEM. CREW RESPONDED PER STANDING ORDERS. DRILLER SIMULATED FLOW,CREW RECORDED PIT STRAP AND OPERATOR ATTEMPTED TO SHUT IN WITH PACKOFFS PER STANDING ORDERS. SIMULATED LEAKING AT INJECTOR,OPERATOR RESPONDED BY SIMULATION OF CLOSING ANNULAR PER PROCEDURE. WELL CONFIRMED SECURE. MAKE NOTIFICATIONS. GIVE ALL CLEAR. ELAPSED TIME OF JUST UNDER 3 MINUTES TO CLOSE IN INITIALLY. CONDUCTAAR. -CONTINUE WITH RIH. WEIGHT CHECK 32K AT WINDOW. LOG TIE-IN WITH+2' CORRECTION. -MW IN 10.05 PPG,MW OUT 10.05 PPG, LOSSES—2 BPH ALL DAY 17:30 - 20:00 2.50 DRILL N DPRB 6,930.00 PROD1 MOVE DOWN WITH BHA TO 7000'AND CONDUCT 3 PASSES UP TO WINDOW TO "CLEAN"WELLBORE AT BILLET EXIT POINT. ORIENT 30°LAND 30°R OF LOW SIDE. ALSO LOW SIDE. RIH TO 7850'PUMP 10 BBLS HIVIS. CHASE UP ACROSS SETTING DEPTH, SWEEP TO WINDOW.OPEN EDC 20:00 - 20:15 0.25 DRILL N DPRB 6,930.00 PROD1 PERFORM 10 MIN FLOW CHECK. ALL GOOD WELL TOOK 1 BBL TO GET RETURNS. 20:15 - 22:00 1.75 DRILL N DPRB 6,930.00 PROD1 BRING PUMPS ON THROUGH EDC AT 3.0 BPM JET ACROSS TRAY AND BOTTOM OF WHIPSTOCK AS 10 BBL HIVIS PILL COMING OUT. ONCE PILL ABOVE US. POOH AT 40' /MIN FOR 1ST 1000'ABOVE WINDOW. MW IN 10.07 PPG/10.03 PPG OUT. CHASE PILL TO SURFACE. -AT SURFACE, PERFORM 10 MIN FLOW CHECK. WELL STATIC. 22:00 - 23:00 1.00 DRILL N DPRB 6,930.00 PROD1 INJECTOR OFF 22:00 LAY DOWN CLEANOUT BHA, PICKUP BILLET ASSEMBLY WITH(JOINTS 1-2) INJECTOR ON 23:00 1 PT QTS WHILE TESTING TOOLS TO 300/3500 23:00 - 00:00 1.00 DRILL N DPRB 6,930.00 PROD1 RIH WITH BILLET ASSEMBLY 10.05 PPG IN /10.05 PPG OUT Printed 5/4/2016 9.36:36AM *All depths reported in Drillers Depths* • • North America-ALASKA-BP Page 13 of 20 FJ$IP1$IIII1IIJ* $${IINV' ,.._ Operation Summary Report Common Well Name.S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811 00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA I UWI:500292309900 Active datum:S-112©69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) I I _ (usft) 4/18/2016 00:00 - 01:30 1.50 DRILL N DPRB PROD1 RIH TO LOGGING DEPTH LOG TIE IN WITH A+3'CORRECTION PU WEIGHT OF 36K. CLOSE EDC AND BRING PUMP ONLINE ACROSS TOP TO KEEP HOLE FULL. RIH WEIGHT 14-16K 01:30 - 02:15 0.75 DRILL N DPRB PROD1 I RIH AT 25'/MIN THROUGH WINDOW. STACKED WEIGHT AT 6992'.(TOP OF BILLET AT 6916') PU TO BREAKOVER AND PU CLEAN. RUN AT IT. BOBBLE BY TO 7001.9'(TOP OF BILLET 6926) ATTEMPT TO ROTATE HOT. (TO MUCH DRAW FOR THE LENGTH OF THE BHA) 02:15 - 02:25 0.17 DRILL N DPRB PROD1 PERFROM 10 MIN FLOW CHECK. WELL STATIC 02:25 - 04:00 1.58 DRILL N DPRB PROD1 POOH 10.05 PPG IN/10.05 PPG OUT ECD 10.68 PPG 04:00 - 04:15 0.25 DRILL N DPRB PROD1 PERFORM 10 MIN FLOW CHECK. INJECTOR OFF 04:15 - 04:45 0.50 DRILL N DPRB PROD1 PULL BHA OUT AND INSPECT. NO INDICATION OF WHY WE COULDN'T GET THROUGH WINDOW DROP(1)JOINT OF 2-7/8"TUBING. MAKE UP BHA#8 04:45 - 06:45 2.00 DRILL N DPRB PROD1 RIH WITH BHA#9. I-PICK UP WEIGHTAT WINDOW 29K. LOG TIE-IN WITH+2'CORRECTION. SLACK OFF WEIGHT RUNNING IN 15-16K. -CLOSE EDC 06:45 - 07:35 0.83 DRILL N DPRB PROD1 EXIT WINDOW WITH TUBING JOINT. NO ISSUES RUNNING DOWN. EXIT WINDOW WITH BILLET,TAKE SOME INITIAL WEIGHT WITH BILLET CROSSING THROUGH WINDOW. -BULLNOSE AT 6959'PLACES BILLET HALFWAY OUT OF WINDOW,TAKING 3.5K TO 4.7K WEIGHT WITH SEVERALATTEMPTS TO PUSH THROUGH. PICK UP WEIGHT 40K. -TOP OF BILLET AND ANCHOR 6'OUT OF WINDOW WITH BULLNOSE AT 6972'.TAKING UP TO 10K WIEGHT. MAKE ATTEMPTS TO BUMP BILLET PAST. PICK UP TO TAKE WEIGHT OFF,ABLE TO ORIENT. -PICK UP STICKY WITH 10K OVERPULL. MOVE BACK DOWN IN ATTEMPT TO POP PAST,NO-GO. TOOK WEIGHT. -PICK UP HOLE INTO WINDOWAND OPEN EDC,BREAK CIRCULATION WHILE HAVING DISCUSSION WITH ODE. TOOK LESS THAN 1/2 BBL TO FILL. 07:35 - 08:15 0.67 DRILL N DPRB PROD1 DISCUSS OPTIONS WITH TOWN PERSONNEL. GIVEN APPROVAL TO POH WHILE 08:15 - 10:45 2.50 DRILL N DPRB PROD1 POH WITH BILLET BHA. PJSM FOR FLOW CHECK AND LAYING DOWN BHA. -PULL TO SURFACE. FLOW CHECK WELL, STATIC. -POP OFF WITH INJECTOR 10:45 - 11:15 0.50 STKOH N DPRB PROD1 LAY DOWN BHA. MAKE UP OPEN HOLE SIDETRACK BHA#10 WITH R-60 BIT WITH BRASS COVER ONTO 1.8°BEND EXTREME MOTOR. STAB ON WITH INJECTOR. Printed 5/4/2016 9 36 36AM 'All depths reported in Drillers Depths* • North America-ALASKA-BP Page 14 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To 1 Hrs Task Code NPT NPT Depth Phase 1 Description of Operations hr ( ) —_-- (usft) 11:15 - 15:00 3.75 STKOH N . DPRB PROD1 PRESSURE TEST QUICK TEST SUB WHILE MWD TOOLS ARE POWERED UP. RIH WITH BHA#10. -LOG TIE-IN WITH 0'CORRECTION. CLOSE EDC. -SLACK OFF WEIGHT RIH 15-16K AT 1 WINDOW. EXIT WINDOW CIRCULATING AT -j MIN RATE,NO ISSUES MOVING THROUGH !WINDOW OR THROUGH RATHOLE TRANSITION AREA. -LOSSES AVERAGING—2 BPH. JUST UNDER ONE-FOR-ONE RETURNS WHILE CIRCULATING AT MIN RATE. -MOVE DOWN TO 8100'AND HAVE INDICATION CAP IS KNOCKED OFF. PICK UP, MOVE DOWN AGAIN FOR CONFIRMATION. PICK UP,MOVE DOWN SLOWLY,WOB AND COIL WEIGHT ERRATIC INDICATING THAT BIT IS EXPOSED. -PICK UP SLOWLY AND SEND SWEEP AND NEW MUD DOWN HOLE WHILE MOVING UP TO SIDETRACK LOCATION. PICK UP WEIGHT { OF 30-31K. 15:00 - 18:00 3.00 STKOH N DPRB PROD1 BIT AT DESIRED END-DEPTH FOR SIDETRACK TRENCH AT 7670'. FOLLOW RP FOR OPEN HOLE SIDETRACKS BY FLAGGING PIPE, SITTING FOR 5 MINUTES WITH BIT MOVING AT 7670'. -FOLLOW GUIDELINES FOR TRENCHING WHILE CIRCULATING AT 2.9 BPM,3420 PSI. IA AT 1540 PSI,OAAT O PSI -NEW MUD COMING AROUND BHA. MW IN 10.08 PPG,ECD OF 11.35 PPG WITH OLD MUD ON BACKSIDE. -DRILL PER GUIDELINES AT 2.81 BPM,3315 PSI FREE SPIN. DROP RATE TO 2.6 BPM, 3125 FREE SPIN CIRC PRESSURE. -NEW MUD ALL THE WAY AROUND,ECD AT 11.29,LOSING ABOUT 1 BPH,IA PRESSURE OF 1515 PSI. 18:00 - 19:40 1.67 STKOH N DPRB PROD1 FINISH WITH TRENCHING 19:40 - 19:50 0.17 STKOH N DPRB PROD1 PERFORM 10 MIN DYNAMIC FLOW CHECK ON BOTTOM. WELL STATIC 19:50 - 21:40 1.83 STKOH N DPRB , PROD1 POOH WITH OPENHOLE SIDETRACK BHA 10.1 PPG IN /10.1 PPG OUT 21:40 - 21:50 0.17 STKOH N DPRB PROD1 PERFORM 10 MIN FLOW CHECK. WELL STATIC 21:50 - 22:30 0.67 STKOH N DPRB PROW INJECTOR OFF LAY DOWN OPENHOLE SIDETRACK BHA PU LATERAL BHA INJECTOR ON 22:30 - 00:00 1.50 STKOH N . DPRB PROD1 RIH WITH BHA#11 10.06 PPG IN /10.11 PPG OUT CLOSE EDC. RUN TO BOTTOM 4/19/2016 00:00 - 00:30 0.50 DRILL N DPRB PROD1 LOGGED TIE IN+1 00:30 - 01:00 0.50 DRILL N DPRB PROD1 RIH TO BOTTOM. SHUT PUMPS DOWN AT JUST ABOVE TRENCH. DRY TAG AT 7670' NO ISSUES Printed 5/4/2016 9:36:36AM *AII depths reported in Drillers Depths* i North America-ALASKA-BP Page 15 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) I ' Project:Prudhoe Bay I Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UWI:500292309900 I Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To Hrs Task I Code NPT NPT Depth l Phase Description of Operations (hr) (usft) 01:00 - 03:00 2.00 DRILL N DPRB PROD1 PICK OFF BOTTOM. GET PARAMETERS TIME DRILL PER OPENHOLE SIDETRACK RP FREE SPIN=3300 PSI AT 2.82 BPM RATE IN=2.82 BPM RATE OUT=2.82 BPM MW IN=10.15 PPG MW OUT=10.11 PPG ECD=11.44 PPG ROP=6 FPH WOB=0 K CIRC PSI=3300 PSI IAP=1527 PSI OAP=0 PSI PVT=187BBLS TIME DRILL 5'AT 6 FPH TIME DRILL 5'AT 15 FPH TIME DRILL 5'AT 30 FPH TIME DRILL 5'AT 60 FPH 03:00 - 06:00 3.00 DRILL N DPRB PROD1 DRILLAHEAD FROM 7690'TO 7800' FREE SPIN=3100 PSI AT 2.74 BPM RATE IN=2.74 BPM RATE OUT=2.71 BPM IMWIN=10.17 PPG MW OUT=10.14 PPG ECD=11.36 PPG ROP=60-100 FPH WOB=1.5 K CIRC PSI= 3300 PSI - IAP=1531 PSI OAP=0 PSI PVT=326 BBLS 2 BPH LOSSES 06:00 - 08:45 2.75 DRILL N DPRB PROD1 CONTINUE TO DRILLAHEAD F/7800-7891'. -FREE SPIN=3100 PSI AT 2.74 BPM RATE IN=2.74 BPM RATE OUT=2.71 BPM IMWIN=10.17 PPG MW OUT=10.14 PPG ECD=11.36 PPG ROP=60-100 FPH..SLOWED TO 45 FPH. WOB=1.5 K CIRC PSI=3300 PSI IAP=1531 PSI OAP=0 PSI PVT=326 BBLS 2 BPH LOSSES. I-GAMMA READING HIGH,READING 120-140, CONSULT TOWN AND GEOLOGISTS. DECISION MADE TO PULL TO WINDOW, (WIPER TRIP),AND RE ASSESS. 08:45 - 11:15 2.50 DRILL N DPRB PROD1 POOH TO WINDOW,PUMP(5)BBLS LO VIS, (5)BBLS HI VIS AND CBU. -CIRCULATE AND MOVE PIPE WHLE WAITING ION ORDERS. I-DIRECTIONAL DRILLER ATTEMPTED TO ORIENT TO HIGH SIDE. -ORIENTER NOT WORKING,NOTIFY TOWN ODE. -FLOW CHECK(10 MIN),AND PREP TO POOH. I-WELL BORE STATIC,10.1 PPG IN AND OUT. 11:15 - 12:30 . 1.25 DRILL N DPRB PROD1 PJSM.POOH W/LATERAL BHA. - FLOW CHECK AT SURFACE,(10 MIN). -WELL BORE STATIC,10.1 PPG IN AND OUT. -POP OFF WELL @ 12:45 HRS. 12:30 - 13:30 1.00 DRILL P PROD1 PJSM.LAY DOWN ORIENTOR AND DGS AND RES. -PICK UP R 60 SIDETRACK BIT,MOTOR W/ 1.8 DEG BEND. -PICK UP NEW ORIENTOR. -BACK ON WELL @ 13:30. -TEST QTS @ 250/4000 PSI/5 MIN EACH, OK. 13:30 - 15:15 1.75 STKOH N DPRB PROD1 RIH W./OPEN HOLE SIDETRACK BHA. -EDC OPEN W/RIH. 15:15 - 15:30 0.25 STKOH N DPRB PROD1 LOG TIE IN F/6925'-6952'. -ADD 1'CORRECTION. Printed 5/4/2016 9:36:36AM *AII depths reported in Drillers Depths* • • North America-ALASKA-BP Page 16 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM ,Rig Release:4/23/2016 Rig Contractor.NORDIC CALISTA I UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) 15:30 - 16:30 1.00 STKOH N DPRB PROD1 RIH TO 7890',RATTY AND DID NOT SEE GOOD INDICATION OF BRASS CAP COMING OFF THE FIRST FEW TIMES. -DOWN WT 15K,.UP WT 28-29K. -2.76 BPM IN AND OUT,3200 PSI FREE SPIN. -EVENTUALLY SEE SUFFICIENT MOTOR WORK,LOOKS LIKE CAP IS OFF. 16:30 - 17:00 i 0.50 STKOH N DPRB PROD1 POOH TO SIDETRACK DEPTH.(7500'). PAINT FLAG @ 7500'AND SET FOR 5 MIN. -2.75 BPM/3275 PSI FREE SPIN. 17:00 - 18:30 1.50 STKOH N DPRB PROD1 TROUGH F/7470'-7500'. PVT=312 BBLS,2.75 BPM/3275 PSI. -ECD=11.49,I/A=1585 PSI,10.17 PPG IN, 10.12 PPG OUT. -TROUGH UP @ 60 FPH TO 7470' -TROUGH DOWN F/7470'TO 7500'©30 FPH. 18:30 - 19:00 0.50 STKOH N DPRB PROD1 -OUT MICROMOTION PLUGGED OFF WITH SHALE. GO ON BYPASS. CREW ATTEMPTED TO BACKFLUSH. NO LUCK. DISCUSS AMONG TEAM. DECIDED TO UTILIZE PVT SENSORS AND MANUAL STRAPS TO MONITOR IN AND OUT WHILE DRILLING. 19:00 - 22:20 3.33 STKOH N DPRB PROD1 I:START DRILLING AHEAD AT 7495'AT 6 FPH PVTAT 306 BBLS. MW IN 10.18 PPG I PERFORM OH SITRACKAND TRENCHING PER RP. FINISH 30 FPH PASS TO 7510'. PERFORM REAMING PASSES PULL TO WINDOW. OPEN EDC. -DEPARTURE FROM OLD WELL BORE: AT 7599',OLD WELL INC @ 91.8 DEG,OHST =87 DEGREES @ 7500'. 22:20 - 22:40 0.33 STKOH N DPRB � PROD1 PERFORM 10 MIN FLOW CHECK.WELL STATIC. DISCUSS MONITORING PROTOCOL FOR TRIP OUT. 22:40 - 00:00 1.33 STKOH N DPRB PROD1 TRIP OUT OF HOLE BOTH MW IN/MW OUT 10.10 PPG. TRIPS SHEETS SHOWING A-1 BBL JOG AT SURFACE TO FLUSH ANY CUTTINGS FROM AROUND BHA 4/20/2016 00:00 - 00:15 0.25 STKOH N DPRB PROD1 PERFORM 10 MIN FLOW CHECK. WELL STATIC 00:15 - 00:30 0.25 STKOH N DPRB PROD1 INJECTOR OFF. BREAK DOWN BHA 00:30 - 03:00 , 2.50 BOPSUR N DPRB PROD1 PERFORM WEEKLY BOPE FUNCTION TEST -SIMOPS:PJSM, PULL MICROMOTION OUT AND PULL-2"x-1.5"x 0.50"ROCK OUT OF INLET SIDE. REINSTALL MICROMOTION. PUMP THROUGH TO FLUID PACK AND VERIFY PARAMETERS. PT TO 200#LOW/4400#HIGH CLEAN OUT POSSUM BELLY AND DIFFUSER ( BOX 25 GALLONS OF SHALE. 03:00 - 04:00 I 1.00 DRILL N DPRB PROD1 MAKE UP LATERAL BHA. STAB INJECTOR 03:30 RIH WITH BHA#13 MW IN 10.08 PPG/MW OUT 10.12 PPG 04:00 - 05:10 1.17 DRILL I N DPRB PROD1 CONTINUE IN THE HOLE WITH LATERAL BHA 10.08 PPG IN /10.13 PPG OUT 05:10 - 05:20 0.17 DRILL N DPRB PROD1 CLOSE EDC. LOG TIE IN TO RA. NO CORRECTION Printed 5/4/2016 9:36:36AM *All depths reported in Drillers Depths* i i North America-ALASKA-BP Page 17 of 20 Operation Summary Report Common Well Name S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) ' (usft) 05:20 - 10:30 5.17 DRILL N DPRB ! PROD1 RIH TO 7400', DRY TAG AT 7511' PU AND GET PARAMETERS FREE SPIN 3050#AT 2.72 BPM 2.72 BPM IN /2.72 BPM OUT 10.14 PPG IN /10.13 PPG OUT !- IA/OA=1523#/0# PVT=287 BBLS DRILLAHEAD IN KUPARUK Cl SAND F/7511' I 7840' ECD=11.37,ROP=70-80 FPH.LOSS RATE 2 BPH 10:30 - 11:15 0.75 DRILL N DPRB PROD1 !CONTINUE TODRILLAHEAD F/7840-7900' ROP UP TO 85-90 FPH. -2.67 BPM IN,2.61 BPM OUT @ 3075 PSI FREE SPIN. -200-400 PSI MOTOR WORK,I/A=1525 PSI. -ECD=11.34,PVT=350BBLS. -PUMP(5)BBLS LO VIS/(5)BBLS HI VIS SWEEP IN PREPARATION FOR WIPER TRIP. -H2S/RIG EVAC DRILL W/.DRILLING.ALL HANDS INVOLVED. -VERY GOOD AND DETAILED REVIEW OF PROCEDURES.REVIEWED WHEN WE EVACUATE AND HOW GAS RELEASE EVACUATIONS DIFFER FROM FIRE BASED EVACUATIONS.GOOD AAR.ADVISED THAT I HANDS SHOULD ANNOUNCE WHEN THEY I GET TO THE SAFE AREA AS THEY GET l THERE,AND NOT WAIT FORA HEAD COUNT. THAT WAY,ANYONE LEFT ON THE RIG CAN PERFORM A SWEEP WITH AN AIR PACK IF SOMEONE DID NOT MAKE IT. 11:15 - 12:30 1.25 DRILL N DPRB PROD1 PERFORM WIPER TRIP. -SWEEPS COMING OUT AT BIT, -POOH @ 30 FPM.TIE IN LOG,6540'-6555'. -ADD 1 1/2'CORRECTION.RBIH.LOSS RATE 2 BPH. -SIGNIFICANT INCREASE IN CUTTINGS WITH SWEEPS UP. -FINE CUTTINGS,NOTHING BIG,NO ROCKS. 12:30 - 14:00 1.50 DRILL N DPRB PROD1 BACK ON BOTTOM,DRILLING AHEAD. -DRILL AHEAD F/7900'WOB 2-4K. -2.74 BPM IN AND OUT @ 3200 PSI FREE SPIN. -1535 PSI ON THE I/A,EDC IS 11.39 PPG EMW. -ROP 50-80 FPH,10.21 PPG IN AND OUT. -O/A=35 PSI. 14:00 15:45 j 1.75 DRILL N DPRB PROD1 START STACKING WT,HARDER DRILLING. -GET BOTTOMS UP,GEO INTERPRETS, LOOKS LIKE HRZ. j -TOWN ADVISED,GAMMA UP TO 335 @ 8065'. -CLEAN PICKUPS,TOWN ADVISES TO DRILL AHEAD CAUTIOUSLY. -2.82 BPM IN AND OUT. 3300 PSI FREE SPIN. 200-300 PSI MOTOR WORK. -PVT=333 BBLS.O/A 55 PSI,I/A 1550 PSI. 15:45 - 16:30 0.75 DRILL N DPRB PROD1 AS PER ODE,PULL TO WINDOW WHILE SITUATION IS ANALYZED. PULL TO WINDOW,GET SAMPLE(S)FROM 1 8098 FOR GEOLOGIST. -MOBILIZE 1250'2 7/8"HYDRIL 511 L-80 SLOTTED LINER FROM STORES. Printed 5/4/2016 9:36:36AM "All depths reported in Drillers Depths* • North America-ALASKA-BP Page 18 of 20 Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 r End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT I NPT Depth , Phase Description of Operations (hr) (usft) 16:30 - 19:40 3.17 DRILL N DPRB PROD1 CIRCULATED WHILE DISCUSSING OCN FOR SLOTTED LINER. DISCUSSED WITH ODE OF RUNNING IN HOLE AND CLEANING HOLE FOR LINER WHILE GETTING OCN APPROVED FOR SLOTTED LINER. 19:40 - 20:40 1.00 DRILL N DPRB PROD1 LOG TIE IN WITH 0'CORRECTIONS. RIH AT MIN RATE 0.71 BPM) SMOOTH RUNNING TO 8097'. START BRINGING RATE UP AND PICKING OFF BOTTOM. PULLED HEAVY TO 87K. MOTOR STALLED. PULLED FREE BUT HEAVY UP TO 8077' DRUG UP TO 8058'. 20:40 - 00:00 3.33 DRILL N DPRB PROD1 ATTEMPT TO PUMP DOWN COIL. STALLED. DISCUSS WITH ODE AND WELLS SUPERINTENDENT. WE ARE PACKED OFF SOMEWHERE BELOW DPS. WOB REACTING QUICKLY. PULLED TO 80%OF COIL WEIGHT PER CCAT IN AN ATTEMPT TO GET HOT TO GIVE WAY. ATTEMPT ON MANY OCCASIONS OF ROTATING HOT. AMPING OUT. DISCUSS WITH ODE. SHUT HAND CHOKE AND BRING WELLHEAD UP TO 800#, STARTS INJECTING AT835#@0.33BPM. GETOCNGOINGTO UTILIZE ELECTRONIC DISCONNECT. START ROCKING PUMPS DOWN COIL. ABLE TO PUMP DOWN COILAT HIGH DIFFERENTIAL. WE ARE JUST PUSHING FLUID IN BELOW PACKOFF WITHOUT ANY COMMUNICATION WITH WELLBORE ABOVE. DISCUSS WITH ODE. ETL GAVE THE DIRECTION TO EXHAUST ALL OPTIONS PRIOR, BUT OCN STILL STANDS. 4/21/2016 00:00 - 00:30 0.50 DRILL N DPRB PROD1 CONTINUE TRYING TO REGAIN CIRCULATION. ABLE TO INJECT DOWN COIL AT HIGH I DIFFERENTIAL. NO COMMUNICATION WITH ABOVE TOOLS. MAINTAIN CIRCULATION ACROSS TOP TO KEEP HOLE FULL SEND COMMAND TO DISCONNECT. SUCCESSFULLY DISCONNECTED PER OCN #7 PUTS FISHING NECK OF EDC AT 7993' 00:30 - 01:20 0.83 DRILL N DPRB PROD1 PERFORM FLOW CHECK. WELL STATIC. 101:20 - 02:50 1.50 DRILL N DPRB PROD1 FLOW CHECKAT SURFACE. WELL STATIC. 02:50 - 03:05 0.25 DRILL N DPRB PROD1 LAY DOWN TOOLS TO UPPER PART OF DISCONNECT. 03:05 - 10:00 6.92 FISH N DPRB PROD1 DISCUSS WITH ODE. CUT 200'OF PIPE TO MOVE CYCLE SPOT WHILE DEVELOPING OCN FISHING PLAN. -FISHING TOOLS MOBILIZED,PLAN AGREED UPON,OCN GENERATED AND APPROVED. Printed 5/4/2016 9:36:36AM *All depths reported in Drillers Depths* • NorthAmerica-ALASKA-BP;;,:�= 11111Pase 19 of 20 • Operation Summary Report Common Well Name:S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811 00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor.NORDIC CALISTA I UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) 10:00 12:30 2.50 FISH N DPRB PROD1 PJSM.CUTE LINE,BOOT THE WIRE. MAKE UP BAKER SLIP ON CONNECTOR. j-PRESSURE TEST BAKER COIL CONNECTOR '@ 250/4000 PSI/5 MIN EACH,OK. -DRIFT COIL W/7/8"OD STEEL BALL,OK. -MAKE UP FISHING BHAAS PER OCN#8. -ALL CONNECTIONS&TORQUES VERBALIZED AND CONFIRMED. -MAKE UP COIL TO BHAAND MAKE UP INJECTOR TO WELL. -FLUID LOSS RATE TO THIS POINT SINCE 6 AM LESS THAN 1 BPH. -PRESSURE TEST QUICK TEST SUB @ 250/ 4000 PSI,5 MIN EACH,OK. 12:30 - 14:45 2.25 FISH N DPRB PROD1 PJSM.RIH W/FISHING BHA,PUMPING MINIMUM RATE. -90 FPM//PUMPING.47 BPM/970 PSI. - WT CHECK @ 6890',33K UP WT @ 1.3 BPM/ 2000 PSI.18K DOWN WT. - CONTINUEIN HOLE,(10 BBLS LO VIS/10 BBLS HI VIS SWEEP COMING OUT) -OBSERVE TAG W/PUMP @ MIN RATE @ 7999'UNCORRECTED DEPTH. 14:45 - 15:45 1.00 FISH_ N DPRB PROD1 ,CIRCULATE BOTTOMS UP/1.80 BPM IN AND ;OUT @ 3125 PSI. SEE SWEEP BACK,SOME SHALE BACK, I CIRCULATE UNTIL RETURNS CLEAN UP. 15:45 - 17:40 1.92 FISH N DPRB PROD1 FISHING.PUMP OFF,TAG AND VERIFY LATCHED UP W/7K OVERPULL. -(11)JAR LICKS DOWN,NO INDICATION OF MOVEMENT. -PULL 5K OVER AND CIRCULATE @ 1 BPM 1900 PSI F/10 MIN. -FULL RETURNS...BUT MOST LIKELY CIRCULATING AROUND SPEAR. -PULL TO 70K ONE TIME WITH PUMP ON,NO MOVEMENT. -BEGIN JARRING UP,PULLING TO 65-70K AND SETTING OFF JARS. -INCREASE JARRING @ 80-85K,(10)LICKS, NO MOVEMENT. -SET DOWN AND BRING ON PUMP,.53 BPM IN,.50 BPM OUT. -1485 PSI. -JAR DOWN(5)LICKS AND JAR UP(2)X, HOLD UP WT @ 85K. -BRING ON PUMP W/CHOKE CLOSED HOLDING UP WT OF 85K. -PRESSURE UP,WELLHEAD TO 780 PSI,I/A TO 1995 PSI. -BLEED OFF PRESSURE,NO INDICATION OF MOVEMENT. CONTINUE JARRING UP AND THEN DOWN• . -WATCHING CYCLES.ADVISE TOWN THAT WE ARE GETTING CLOSE TO(40)CYCLES.(2) MORE LICKS AND WE ARE DONE. -(42)CYCLES AND SOMETHING GAVE UP. LOOKS LIKE SOME EXTRA WT. -(23)DOWN JAR LICKS AND(19)UP TOTAL FOR OP.PVT 339 @ 7800'. 17:40 - 18:30 I 0.83 FISH N DPRB PROD1 PJSM.POOH W/FISHING ASSEMBLY,FILLING HOLE ACROSS THE TOP. Printed 5/4/2016 9:36:36AM *All depths reported in Drillers Depths* • • North America-ALASKA BP Page 20 of 20 Operation SummaryReport = Common Well Name.S-112 AFE No Event Type:RE-ENTER-ONSHORE(RON) Start Date:4/10/2016 End Date:4/22/2016 X3-017M9-C:(2,860,811.00) Project:Prudhoe Bay . Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UWI:500292309900 Active datum:S-112©69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) 18:30 - 19:30 1.00 FISH N DPRB j PROD1 CONTINUE PULLING OUT OF WELLAT 10 FPM PER OCN#2 1 FILLING ACROSS THE TOP. UTILIZING OUR IA PRESSURE. LOOKS LIKE BHP RIGHT ATA 10.00 PPG. LINE UP THROUGH HAND CHOKE AND PUT 100#WELLHEAD PRESSURE TO GET BHP UP TO ABOVE 10.2 PPG. HAVE DISCUSSION WITH ODE ABOUT HAVING MI MODEL SWABBING IF WE COULD CARRY WELLHEAD PRESSURE WHILE PULLING OUT OF HOLE. 19:30 - 19:45 0.25 FISH N DPRB PROD1 SLOWLY OPEN CHOKE FULLY. STOP MOVING PIPE. PUMPS OFF PERFORM 10 MIN FLOW CHECK. WELL STATIC 19:45 - 23:20 3.58 FISH N DPRB PROD1 POOH PER OCN#2 DISCUSSED WITH ODE ABOUT PULLING SPEEDS. HAVE MI MODEL WITH WELL PRESSURE. INCREASE PULLING SPEED TO UNDER 50'/MIN PER OCN#9. CONTINUE TO MONITOR IA PRESSURE TO VERIFY BHP. 23:20 - 23:30 0.17 FISH N DPRB PROD1 PERFORM 10 MIN FLOW CHECK. WELL STATIC 23:30 - 00:00 0.50 FISH N DPRB PROD1 PJSM, START LAYING DOWN FISHING STRING 4/22/2016 00:00 - 00:30 0.50 FISH N STUC PROD1 CONTINUE TO LAY FISHING BHA DOWN RECOVERED EVERYTHING BUT BIT,MOTOR, AND HOT DRIVE SUB LAY DOWN AND PREP FOR LINER 00:30 - 03:00 2.50 FISH N STUC PROD1 DISCUSS ODE LINER STRATEGY. OCN#10 APPROVED. SWAP OVER TO CON Printed 5/4/2016 9:36:36AM *All depths reported in Drillers Depths* • • North America ALASKA, BP r' $) 7 Operation Summary Report` Common Well Name:S-112 AFE No Event Type:COM-ONSHORE(CON) Start Date:4/22/2016 End Date:4/23/2016 X3-017M9-C:(2,075,829.00) Project Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UWI:500292309900 Active datum:S-112 @69.60usft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) 4/22/2016 03:00 - 06:00 . 3.00 CASING P RUNPRD PJSM, START RUNNING SLOTTED LINER PER OCN#10 06:00 - 08:15 2.25 CASING P RUNPRD RIH WITH LINER ASSEMBLY. -WT CHECK @ 7965'.UP WT=37K. -SET DOWN ONCE @ 7970',WORK THRU,OK. RIH TO 8040'AND ODE REQUESTS TO TAG. -TAG @ 8054',BRING ON PUMP,2.25 BPM @ 3100 PSI. -PICK UP,NEW UP WT=29K-30K, DISENGAGED FROM LINER,OK 08:15 - 09:45 1.50 CASING P RUNPRD FLOW CHECK,(10)MINUTES,WELL BORE STABLE. I-10.1 PPG MUD IN AND OUT.POOH W/LINER RUNNING BHA. TAG UP,10 MINUTE FLOW CHECK,NO FLOW. -10.1 PPG IN AND OUT.POP INJECTOR OFF WELL. 09:45 - 12:15 2.50 CLEAN P OTHCMP PJSM.L/D LINER RUNNING BHA. -CUT OFF COIL CONNECTOR AND PERFORM SLACK MANAGEMENT. -CUT 250'OF COIL,MAKE UP SCHLUMBERGER DIMPLE CONNECTOR. -PULL TEST CONNECTOR 35K,OK. I •PRESSURE TEST @ 250/4000 PSI/5 MIN EA. OK. I-MAKING UP BHI PACKAGE,TEST WIRE,OK. REHEAD THE UPPER QC - PRESSURE TEST CHECKS/250/4000 PSI,5 MIN EA,OK. 12:15 - 14:15 2.00 CLEAN P OTHCMP PJSM.PICK UP WHIPSTOCK FISHING BHA. -LOSS RATE LESS THAT 1 BPH. -MAKE UP INJECTOR TO WELL.PT QTS @ 250/4000 PSI/5 MIN EA,OK. 14:15 - 16:00 1.75 CLEAN P OTHCMP RIH W/WHIPSTOCK FISHING ASSEMBLY.EDC OPEN. -RIH @ 80 FPM/PUMPING 1.91 BPM @ 1940 PSI,OUT RATE 2.35 BPM. -I/A=1450 PSI W/RUNNING IN.0/A=0 PSI. 10.15 PPG IN/10.12 PPG OUT. - TIE IN LOG F/6680'-6727'@ 180 FPH.PLUS 3'CORRECTION. -UP WT=30K,DOWN WT=12-14K 16.00 - 21:00 5.00 CLEAN P OTHCMP CLOSE EDC,RIH TO 6900 AND BRING PUMP UPTO2BPM. SLOW TO 8 FPM @ 6900',WASH TRAY TO 6920'. -WASH UP TO 6900'AND ORIENT 15 DEG RIGHT. -WASH DOWN TO 6920'AND UP AGAIN. 1-ORIENT 15 LEFT AND REPEAT WASH CYCLE. -ORIENT TO LOW SIDE AND RIH TO 6920' -PICK UP SLOWLY AND NOTICE SLIGHT OVERPULL AND MINIMAL DRAG. ORIENT HOOK TO HIGH SIDE AND POOH W/ 100-200 PSI WELLHEAD PRESSURE. Printed 5/4/2016 9.39:12AM *AII depths reported in Drillers Depths* • :::::::: : < ,," 4 Common Well Name:S-112 AFE No Event Type:COM-ONSHORE(CON) I Start Date:4/22/2016 j End Date:4/23/2016 X3-017M9-C:(2,075,829.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA UWI:500292309900 Active datum:S-112 @69.6ousft(above Mean Sea Level) Date From-To Hrs Task Code NPT NPT Depth Phase Description of Operations (hr) (usft) 21:00 - 21:30 0.50 CLEAN P OTHCMP PERFORMED 10 MIN FLOW CHECK. WELL 1 STATIC 1 1 '•INJECTOR OFF 21:30 PULL BHA OUT. NO FISH. CHECK I ORIENTATION. ALLS WELL. LOOKS LIKE I HOOK HADNT ENGAGED FULLY. -------------_--- 21:30 - 23:30 2.00 CLEAN P OTHCMP INJECTOR ON 21:50 RUN IN HOLE WITH BHA#17 10.14 PPG IN/10.14 PPG OUT 23:30 - 00:00 0.50 CLEAN P OTHCMP LOG FORMATION TIE IN+1'CORRECTION RUN DOWN TO WHIPSTOCK 4/23/2016 00:00 - 00:30 0.50 CLEAN P OTHCMP START JETTING ACROSS WHIPSTOCK FROM 6912'6924' JET 5°LEFT/5°RIGHTACROSS TRAY. 100:30 - 01:00 0.50 CLEAN P OTHCMP i ORIENT HOOK TO LATCHING ORIENTATION. I PICKUP WHILE PUMPING AT 2.80 BPM. NO JOY ATTEMPT A COUPLE TIMES PUMPING WITH NO INDICATION OF LATCHING COME OFFLINE WITH PUMP. RIH. STACK 5K AT 6919'. PU SLOWLY AND ENGAGE. INDICATION OF LATCHING WITH BOTH 4K OVERPULL ON WOB, AND COIL WAIT PULL UP HOLE. ORIENT HOOK TO 0° PLACING TRAY FACE AT 180°. POOH SLOWLY UNTIL ABOVE JEWELRY 01:00 - 04:45 3.75 CLEAN P OTHCMP 'POOH 10.17 PPG IN /10.12 PPG OUT PERFORM 10 MIN FLOW CHECK. WELL STATIC _ 04:45 - 05:30 0.75 CLEAN j P OTHCMP INJECTOR OFF 04:30 PULL UP THROUGH STACK. GET WHIPSTOCK ABOVE SWAB, CLOSE SWAB PARTIALLY. PULL OUT AND LAY DOWN WHIPSTOCK. I BLOW DOWN TOOLS LAY DOWN TOOLS. OFFLOAD BOT TOOLS. 05:30 - 06:10 . 0.67 DEMOB P POST MAKE UP BHA#18. BLOW DOWN KILL. PREP TO FREEZE PROTECT. CREW CHANGE 06:10 - 06:35 0.42 DEMOB P POST CREW CHANGE 06:35 - 06:55 0.33 DEMOB P POST (HOLD PJSM WITH CREWAND LRS TO PUMP DIESEL FREEZE PROTECT 06:55 - 07:05 0.17 DEMOB P I POST VERIFY LINE UP LINE UP TO CHOKE 07:05 - 07:25 I 0.33 DEMOB P POST LINED UP TO CHOKE&RIH PUMPING PUMP 35 BBLS OF DIESEL,5 BBLS NEAT METH,57 BBLS DIESEL 107:25 - 07:35 0.17 DEMOB P POST STOP AT 2200' 07:35 - 07:55 0.33 DEMOB 1 P POST DIESEL AT THE NOZZLE,APPLY 400 PSI WHP • TO MAINTAIN AT LEAST 100 PSI OVERBALANCE WITH DIESEL TO SURFACE, ALLOW 2 BBLS OUT THEN POOH LAYING IN DIESEL 07:55 - 08:05 0.17 DEMOB P POST STOP AT 200'AND CIRC NEAT METH BACK TO SURFACE THEN TAG UP 08:05 - 08:10 0.08 DEMOB P POST GOOD METH AT SURFACE,SHUT DOWN AND TAG UP Printed 5/4/2016 9:39:12AM 'All depths reported in Drillers Depths* North America-ALASKA-BP; 4 ,-;r Page 3 of 3 Operation Summary Report Common Well Name:S-112 AFE No Event Type:COM-ONSHORE(CON) I Start Date:4/22/2016 I End Date:4/23/2016 X3-017M9-C:(2,075,829.00) Project:Prudhoe Bay Site:PB S Pad Rig Name/No.:NORDIC 2 I Spud Date/Time:7/22/2002 12:00:00AM Rig Release:4/23/2016 Rig Contractor:NORDIC CALISTA LDA/I:500292309900 Active datum:S-112©69.60usft(above Mean Sea Level) Date From-To ' Hrs Task Code NPT NPT Depth Phase I Description of Operations (hr) (usft) 08:10 - 08:30 0.33 DEMOB P POST ,CLOSE MASTER&SWAB VALVES LTT MASTER&SWAB 08:30 - 09:15 0.75 DEMOB P POST GOOD TEST LINE UP TO PUMP WATER THROUGH THE PUMPS TO FLUSH DIESEL OUT 09:15 - 09:30 0.25 DEMOB P POST HOLD A PJSM TO REMOVE THE INJECTOR,LD THE NOZZLE BHA,MU A BLIND SUB,SET THE INJECTOR ON IT'S LEGS AND MONITOR THE M&S VALVES FOR PRESSURE WHILE 1 BREAKING CONTAINMENT TO INSPECT THE BOP'S AND ND THE BOPS 09:30 - 11:00 1.50 I DEMOB P POST REMOVE THE INJECTOR ! LD THE BHA&MU THE BLIND SUB SET THE INJECTOR ON ITS LEGS LOTO KOOMEY TO INSPECT BOP'S 1 I CLEAN PITS 11:00 - 16:00 5.00 DEMOB P POST INSPECT BOP'S FOUND SOME SHALE IN RAMS. 16:00 - 18:00 2.00 DEMOB P POST HOLD A PJSM TO ND THE BOP'S AND NU THE • !TREE CAP 18:00 - 18:00 1 0.00 ! DEMOB P POST I TREE CAP TESTED,RIG RELEASED 18:00. ! Printed 5/4/2016 9 39 12AM *AII depths reported in Drillers Depths* • • 2 III Lim Z IM MO MO a= m CL CO 1 CO a 4.0 J a Q 1 a) to Ce .V L. m 1 E a J QA 0 N M O e- V♦ w a O Cl)cn — N . o a �N E 17 ». .a N NN cr)N a) = a O r O N .— Z a` achcO2 o L . N N 0 0 lig 1.111 8gZ z• \ %a) kill 111110 �m� k \ , � . o \ a. \ z . . ' 00 ( 5 ) I 2. E , : � 1 ) _ _ § / ) 0 ' k } ) � . ; \ \e , [ ƒ U) 73 ) , � � , < , \ \ \ / d § roc c 2 = Di ( i \ \ ) � o � 11 ) - -0 11 / 2 ] ] G I f J ! .. a =. a 7 e ; 2 E 2 I \ � � \ k § - ! , � j E , 2 ■ 2 = . 2 2 , ' arGi o » a ‘5, � ° ■ - §i ] 1- § zka £ . i a CO O. co \ LO § ! co op ,ii ai en ` -t en N 1® a � 1 0, - - ° cJ w 0. m ƒ , ° k / o 7 ' � F ° 6 ¢ E j �I & ¥ - \. )ea cv ) ' , � E £� i .. 15 : co ) Wk 1 k { - j 2E Z 2 I f E o1 I IN 1 I y f£ ° III ' 0 f. � i ! , : 0 � E , w 0 $ 2 § = j : 0 I a. | E m, e 2 \ i ' . $ - a. ) o co ,°3- \) I \_ \ \ \ \ I CI ' _ f °1 } cao o \ 0 . 0 01 -, _ d ■ § ; a co 2 o =CD 3 3 ` ca3 } / 7 ) 0 \ i } t % m ,- \ ,- 2 ) 7F 1 1 zoa \ $ \ { ' , \ COa ) ( � � 2 R k 2 ' • m \ 301 �t t6 C' ) � i, 1 ) c . 2 � ) ) 2 ' § (7 � taa � o � . . § «' - _ � _ $ .• u � ■ ■ £ a /\ � / � , / \_� / ' _ \ j . . . 2 _ � �, § ■ o s ■ , a. , a o « > > \ • • H O N O O 0 N O 0 t0 0 co O O O O O W O N O v N O v N oo 0 0 co O O co Or--n O v I Q O O O M t0 N n (0 CO O U) N M (O O O N N N V U) N; 0) M U) ` O N 0 ILW Z N NCa m M0 N N O 4 CO O N M N V N O O LO O N O sr M O N. O co �' d O O 0 N- c0 0 V N N N CO N O 0 0 7 N CO N U 1 O O O O O N N6 O M .- N O N O O .- 0 O T 4 Z ' e Q NT y O O ❑ I' J C T T p O c 0 0 NY CD d �- N o (0 O Y O J m O O C1I O N N O) N M 0) 0 N. V (0 00 (0 N CO O O (0 CO CO CO CO Q N O O M O M r M CO 0 O O 0 r n r (p CO O O 3 O N N O 0 O (O (0 OO O O 0 n CO 0 V N. N N O CO 0 Y 0) O O O N (O N O O N (O M O) O) O .- M 0 r O p��\ N M M M M M C V' (O c0 N- 0) O N V) N- 0) e- M c0 e- V V E u, 1 C 0) O 0) O 0) 0) O) 0) O) 0) O) O) O O O 0 O cq N N E m N m coco coau co ao m coco cc co m of ai a of m ai a N E ❑ IL 7 CO (D O CO O CO t0 c0 CO O (D D CO O D D D O D O (n (n H M lL 11 I O N- (O O N- 00 O CO M 7 s- (0 c0 V. CO r 0 O CO CO 7 LEI N O c() sr V (O N- (O sr V N- N 01 O CO 0? V' N sr O O (O 00 V c0 (O 0 O M N N- M M N I N C R M N N 4 n 6 O O 6 4 O V N. N 6 0 ! 0 LO) co co co M co co co co M M V V. CO M M N .-• .- O O 0 O c (0 0 0 N 0 0 Y) (0 N 0 0 N N 0 N (0 (04) 4) 4) t N Z c O O O O O O O O O O O O O O O O O O O O w (0 c0 c0 c0 c0 00 co c0 c0 co co co O 00 00 CO c0 O 00 c0 co I d o ` O c a) m O O am 0) O O o) o) o) 0) m 0) 0) O o) o) K G 0 Z 0 Nr. 0 0 0 4i 0 N (O (O 0 0 N u) 0 N 0 N (O 0 B • c C O EVC 5 O co N 0) co O co m O N N N V N N- W N- N CO'O C d t C 9 N d N uC I 0 - M N- M •- N CO (O 00 O .- 0 tO n N. M ,- V c0 O O O O 0 N c0 O N N- M OO O M N N- O I. U N - - MM ROO 0) N CO 00 O N V "Ea 0 0) { 0.(n •- •- N N tl , 0N .01- 00 1 ! � _, 2 Z N 0 45 2 2 . + ma Q U u . O +a2. - (n + O N. N- (O O O CO O CO N M Al CO CO V' 0. O N- O N. M M O N N- O 0 N., N- c0 O O O V ❑ ❑ R I O 0 N O O O r N M N O N N 4 V N O N O 0 O M O 0 22 i i i i i i i N N M M (,) 1 U m0G_ LL' (n 'I M R Y M M N 0 CO^ COO c0') (00 N O O 0En el LO 00 (OO N N co V (r0 g 1 N- O 6 O O .- N. 0 (D N (O CO O R n O 4 (O O M com CD (:) t i) co O O 0) 00 CO N M N N O O O CO (0 N- E •- N M V 0 (D CO N. CO O O N N CO R V) 0.1 Z A H -LI-+ co) N .- r r r .-- r r a II U (7 2 2 (O O O O N- 00 M N. (0 CO 00 V) M (0 U) 0) V M R n N O O O O CO (0 N V O 00 O CO .0. CO CO N- N N O O CO O O (O (0 (O OO (O cc; M N- O M 0 O M li co O N. O 0 0 M 0) c0 O O O co c0 N- I- (O Cl) V V '- N M Q 0 0 (0 N- N- CO O ON M 7 0 CO N N 0 ' e- ,_ ,_ ,_ .- to d o N O (O N (O N- CO 0 O) M N 0 N. cl.0 N-O ED O O CO O N- F- _ i O f- CO N O R V O 00 0 O O N O CO .- O U + UJ O M Cl) (O O N- (O M 0 (O (O O N V 00 O O 6 N ❑ — g M CO M N CO N- N. N- N. CO O O O O O C) O O 0) V )- )- )- s r v- 2 C7 E N N4. g C I Lo o_ T❑ l0 I N T U) 4 N Z CO I N 3 H d. O N O COO t0 M l(') 0 O f0 O M ! n a0 CO ED 04 CO 0) N U 0 R 0 CO Cl) 7 M N O V. O .- CO O 0 O O O N Q y O N O O O O .- M 0 N- N- O c0 O O M N6 M V M R 0 cO '- ,- .- ,- e- c- asO CO M OD C) T c0 c0 O co 00 CO "o �� O V a0 O C .°.. ECO 'O a0 Fgn t0 c0 L 0 a 11 N N N 1I r -0 (n I I O CO Z d d UJ 0 U) 1 0 co 0LilQCO O O O O O O O O 00 NCO D CO 0 ,O O 0 O M N O O )- N O O O O O O O O (O O 0) N M (0 O M O O ) N O CO O O - D O M O O C s- N- N O dO 0 M Es- 0 M ON- (0 (O U) M O 00 O O O O O CO CO N- N. N- CO a Q) E x ( N M 0 (0 O N- CO CO O O N M sr (O CO p d IL N 0, X11 7 r r .- '- r d i-CO _ O 0. $ a m d m o E 'p 4.; m m 'n I I 2 N ✓ a0 ` v7330 y N — - N r d 3 0 Sr • • N N M .- M O) Ln C M N M CO CP O C M O) N- N C W O CO M N W O O 0 O r M N N 0 N. O O N .- W CO O N O O 0) : a m N M N M O O IO 6C N O) Ln N O) N6 O i Lo C CD CO O N M C C C C C M M M M M N N N N N N N N M N N N M M M M M M M M M M M M M M M M M M M M C) C) M m WS Wt9 d i� w o i > o QI a U) m C .-- a C CO O) C O M Cl CD O N M 0) N N N M CO 03 N. to C M C O) 03 a C N O N O Ln O O O C M O co N N C N M N CO O r CO .- O , O 0_ O O N M r M M N O O O O O O O O O O r N O O O O O 0 V' Z ' c c w O J O TT 0 ra 0 CL 0 C CL N N = - 0 0 N N c Z CQ Ol - C CO co O N Ln 00 N N C) Cl CD N- N r O n N O O O N O .- M O M O N Ali M LO CO CD CD CD CO N M M O N co M O W O O D) ¢ CO 0- O CD M C O Ln O N O CA O O) co O CO N C CD C M .'- I U CO O M6 O n N N6 N N O t0 Cn M N O f0 M O O O N4 t0 06NN C` Y 00 O N V CO N- CO 00 OO 00 fes. N- I� N- I- N- CD CO CD LC) In CD CO CD CO CD G C .- N N N N NNNNN NNNN N N N N N N N N N N N N ;a N O) O O m M O) O) O) W O C) O O) a) O O) 0) 0) M CA 0) 0) 0) ai. O] O) Cn N N _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ .'D r .- j _C M cow 7. CO CO CD CO CD CD CO CD CD CD CO CO CO CO CD CD CO CD CO CD CO CD CD CO CO CD M M N N. C CO O N N CO N- N O) L- 0. CD CD O N. OD C M CO N CO CD :''.. O C` CO CO Ln CO N M C 03 CN O N N N- M O N- CO N N N N 7 coCD N co •- N N L- CO N j N M CO M O CD CD CO M N N N N N N N N M C C C M N N O C.) C) O 0) m O CT co co co co CO CO CD co CO CO CD CO m 0D CD 00 m C0 CO CD CO , N C C 0 C C C C C C C_ C C C C C C C C C C '0 C C C V C C C tt CX O O O O O O O O O O O O O O O O O O O O O O O O o O 1 Cf N .e 7 CO CO CO CD CD co CD CO CD CD CD CO CO (D CO CO co m (D O O 03f0 (D O CD Z OI O O Of O) O1 O) a) W W C) D7 O) O CD O) C) 0) 0) CP 0) 0) 0) O) CA M N N N N N N Lei N La Cn Cn Ln Ln vi CO LO Cn Ln N N in N Ln N N N I 2 0 d 0 - N V P. .4 CO M O N M O O 0) 03 O CO I t0 C M O N W M Ln N O ` C U O O Ln O O N- t• 0 M n N. O C lb r N N r CO N T C O n Ln co 2 , CrnN- NM .- Cn 4 .- CO n C N N O) O N W O N- O) o) CN-OdNVN ) Oco .4. N n N Ln C C C C C M M CO N N N N co M M M VZa < N N N M M CO M M M M M co M M co co M M M co M M M co M N J 2 2Cn 0 r 0 c M .- M ..r) up O 00 N- WCN. O O) 0) O CO M r r N- M M03 03 N ' 12 1 O) Ln CD CO CD C M n O Of N M C M co .- CD L- L.- to C C O N CO CO C)) 1 CO C) C) CO Oi N4 N r r O W CO 6 0D CD r N CD 6 6N.: r CD CO 0) i CC I M 'T CI .? N N CC; N N C;) Cn N Cn CC) N N N CC N n VN L ) V) Y) CL N I co) 5 m Z Z co 1 f6 c ll- CD .- O) O M 00 03 03 .- CD O .- O Cp M M 0) .- N CO n N N. r C 0 03N N CO C: Co n M O) N " N N N CO CO C C CO N N- M O 6 O CO V, O) M CO N- - O)M O N O c 0 r N N N .- .- Ln O M N N N C- O O O 0) 0) 0) CCD O) fAO a0 0) O N M C CO tO O O O) O r N CO C Ln o (D t- (D Co as N CC7aQ 2. I co o O M .- CD CP O) CD O O 00 OD M W C O N .- N N li M co C M co r- r M M n O CO tD N. CO N O CO M 0) CO CD N- 0) co CO O) N r O CO " N M O U) O) CO CO N n M O N O) O LI co C O CD co N NO O CP 0) CO CD N` N N• O O O) CP r N- r CO CD CO CO CO N. 00 0) O c- N M M C CO CD N- co CO Cr, O O N M C LO CD N- CD 03 Q - .- L. Ni. N N N N N N N N N N N N M M M co- M M M M M M I I.- M O N CD O N kr) N O CD CO CO O CD CO r r CD N CO N 03 CO 00 M C CD N O .- M C N N N O) C O CO C. N CO 01 N C Q) CO CO 1 000 N- O M4 NO Ln Co W CO O O O O C C CO N- M M O CD 0) W I .0 O) 0) co o O O O CO C N CD CO t` n N CD N CD CO CD O O O 7 L- L- 0- .- .- N N NNNN N N N N N N r .- L- .- 0. N a Qm •N Y Q Cn iN N O 0) CO .- N N N N 0) N .- Co C t` N N- C CO .- C O) co JO co CO CD CD C N O CO N- n N- C0 CD CD CO Q) O M CD C 0 ¢ ri 6 N O h CO M r r '- r .- .- C .- 04 N O .- .- CO 0 TC) .:.. N m m C °' m v o_ a < mC7 ¢ 0 o a -I J j Z C '0 N N N H O 2 m e- '7 I Q Z a a U) co ca 0) CD O C N CD M r O C O N C0 O 0 03 N N- CD r O ti N C CO 00 Ln Q 00 C N O Cfl O I` CO N CO N 0) M Ij) N N O N- C n C N- CD CO 03 N 0) C C- CD N W M O) CD CD .- Ln 0 0) C O) CO N CD M CD N C- N- M th •) COLO COLO C C M CO N N N .- CO 0. < co M N N N 0- O O O C) D) N a N- CO O O .0! N M C CO CD CO CO 0) LL 03 O .- N M C CO CO N CD CO a) '—' L- .- N N N N N N N N N N N Ce N M M M C) C) C) M C) M C) C) O 0 _ 0 c a o c a E Q r W 0i y 3 N oa633c I Cl) N • . IF N O 0) O U) ) N U CD U M a0 O 0 O U) M V U) W M N O . CO W 0 do O U) CO O a0 r O) U) N N O CO T O 0 N N O) U) M a I, Ni V' W CD W N O W O U) N V N CO M U) V' O M M M M M V' V' d• V' V' V V' M M M CO M M M en M U) N- 0 M N. N 3 u M C? C? C? T M C) C? M (? M M C') M M M M M M M M M V' "f Y U) CO Wt7 CO W0 N a o > = o 41Lo iii V N. 0) 0) N- CO COO 0 O) M M N N N N N- M U) CO I,- V' CO N U) N- d d s- N 0 V' .- N V CO N .-- M N M N N ,- N s- N V' M N- 0) (O (0 01 0) O C) O O O O O O O O O O O O O O O O O O O N C` V' V' U) 7 N U) ; U W g O O o J11 00 0 O O ix , -- a Nta�) Y 'i.. 3 0 a o O C) en O O) O M 0) O N CO N O V' .- CO CO M N U) N M O O U) N M N CO CO Q CO O) CO U) 0) N .-- M unN M N M V) U) M V' T N U) )O O N 0) 0) CO V. 0 N .- I� NJ U) U) U) M CO CO V) O en CO CO N- CO 7 O N N CO) U) U 0I M V' U) U) U) U) U) U) (O U) U) V' Ni .- O a) U) (O V' Ni U) 0) CD U) ©a, co N N. N. I- 1� N. N- N. N. N. I- I- N. n N. N. (O (O CO N. 0) .- <7 CO M O) G E V) C N N N N N N N N N N N N N N NNNNN N N N M M M .3 [f' (� 3 C 0) O) 0) 0) O) O) 0) 0) 0) 0) O O) O 0) 0) 0) 0) 0) 0) O) 0) 0) 0) O O) 0) 0) N r ` Q U) U) U) U) N U) U) U) co co U) U) CO U) U) (O CO ED CD (D U) U) CO CO CO U) CO 1 ch ch I- � W w "' Illi U) N. co V en CO V- N. 0) M N U) en CO 0) N M M 0 V CO 00 V' 0) CO I,;.. O 0) N U) M O CO CO CD N (O CO 0 V- N V- I,- O) 0 '- V) CO CO M CO U) N 0) N. CO O O V M N OD V V- O) CO U) O Cr N. 0) V) a) 0) CO N- U) V' M Ni N Ni M d• U) U) U) N- r r (O (O U) U) O M CO U) V' N CL as N. r N- N. N. N. N. N. N- N- N. N. C` N- N- N- r h N. N. N- N- CO CO 0) 0 .- 'I, C p c V' 7 ' V_ V V' V V V' V V' R V_ 'V V V' V V V_ V_ V_ V: V- 7 U) U) - t C 0- 0 0 0 0 o D o o D o c 0 0 0 0 0 0 0 0 0 0 0 0 0 o O l w aYi ' x 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) 0) '• � Z U) V) U) U) N U) U) U) V) U) U) U) U) U) U) N U) N U) U) U) U) U) N V) N U) IE 0 W +I c ui u w I p u E V. M Co o CO CO O) CO N N O N. (O r CO 0 0 CD N. U) 0 0 CO V U) 1� O CD N a N CO N U) (O UV0) N N O N. N V- N- O CO M CO N- CO CO CDQ yy 1w U N O) O N M dVU) (6 U) UU4 R M N O 0) N- N (O M UW O UO co )cr- VV' V V' V' VV' V' V V' V' d• VV CO M CO en V- U) CO .- UO O C.) u. re d d I M M M M M M M M M M M M M M M M en MCI Men M M V' V U) U) • rt Min 2 Z N O CO11 N. N i. Oco 1` v U) O) CO ) N. V)UCO N CO v U) V' CO O 0 C 0 0) O U) V . U) CO M COM CD CO V- U) O) COM COM dV' _ COU)• CO a) N• N O - N NO M V' U) 1� O m N- N- U) N d• M M M M M V V' V co M CO CD CO Cr : co] (D (O CO CO CO CO CO c0 (O (O (O (O CO (OCD (O (O (O CO (O CO N N a' ? N d N43m a 2 c u) m c Li 11 N O CO M N 0) N- N. U) N N. N 0 N CO M 0)M Cr, CO W N COU) V' CO CO CO N. N (O C` .- 1I O 0) .- CO CO CO .- ) N. N. CO OD CO N CO .- COCD CD ( V O U) O N OO V' O V' N 0) V O U) M 0) U) O_ U) .- V) N- N N U) U) 1 Lo CO N- N. N. CD CO N U) U) V V' CO CO M N N .- O O 0) CO I- U) V- N O1 0) O N CO V' N U) r CO 0) O r N CO V- (O U) N- C0 0) 0) O .- N M V N Z! M c V' 4 4 v v .0 C) v .1 U) 1O (n v) U) (n (n (n Ui vi () o co o (0 (D a O tn — N O CD M N O) n N- U) N N- N O N CO M 0) .- CO CD U) N- N U) N CD U) I,- V' V' V' N- 0) .- M M 0) V' V V' .- N I` r V' O V N. N V N O M W V' O U) I- M O V N CD V' O U) M O) V' O) U) O U) U) N. Ni (0 U) 0 I O N V' V' V' M M N N N 0 0 0 0) 0) OD OD N. N C` U) N_ V' CO .- 0) c- N CO V- LI, CO r CO O) N M M V' CO CO r CD 0) 0 N M V- V- O V' V' V- v NI V' V V V- .4 U) L6 U) Ui U) N UI U) (O U) L6 U) (O (O CD U) (6 z § III III o a) 0) O) O V' .- N O (O U) V' r M CO U) .- N- M CO 0 r C• O V- N CO R CO V (D N. O) N (O CO 0) U) N U) CO CO N Ni N CO NJ V O) N- N CD O Ni V ai V' e- O) •- N O V' O V' 0) (.6 0) .- .- U) N N O O 0) O NJ CO M V' V' CO U) .- U) en M A- 0) N. CO U) N V' 0) CO CO CO O CO I- CO .- .- .- .- ,- .- .- M M M M N NNNNN I E 1 a 1 a Qm -N I a V' M 0 U) U) N M .- CO N V- 0 N M 0) U) 0) N. N U) V O) N. 0 N N M CO W O) U) M d• U) (O N• N- I,- CO NJ O O M N CO N 01 M U) N Q .- .- O O O O O O O O O O O O O ••- .- .- a0 Ni N- N N- Ni O .- N N M M CO I N m m m V C r- e) a a E m (U 0 a _C _C 0) N N N '',. O E m _- `- - I Z a a (n CC) V) N N N 0) 0) CD U) O N- U) N CO VN U) N CD U) 0 CO C0 O M 00 CO M N '... Q (D (O CO V' V U) CO O N V- V O U) U) U) M M 0) 0) U) V I- M N. OC N. M M O N .-- n N CO V , N 0) U) .- N M O U) (6 M O V' 0) N M U) M 0) C) CO N. C` CD CO U) N (O V' V V' M CO CO N N 0 0 0) O) CO CO CO (-. ^Q 0 - N M V' (O U) N. CO O) O .- N CO V (O CO I- CO aI O .- .- N CO V (O i[ $ V V' 7 V V' V d' .0 V V U) U) N N U) (O CO- N U) U) CO U) CO U) U) co- (D O c• .. ii • 1 2 2. 1 o 0 a a rn d 0 • yO N. N O U) r m CO (O n O U) .- a) m N- O) r V (0 O M 0I CO O O U) r a0 M N U) O l- (0 N- 0) 01 C) O) C) N M O m O O O N N 7 C) N- N O (`7 - U �I li U) (0 U) (O N- N N-N N- n f; a] ao W M N O m m c`7') O COV CO N a0 I) (0 en r; m IIIMMO 'l W a o • ? I OO ko 51 : 0 '.' N CO 7 7 7 N m 7 M a7 N n CO O O O I. 0 7 0 a d I- 7 0 I- N.- O ICO M M N M O) M NI.-- I- OM M .- VON O U U) U) N U) O U) 7 O O) m (O U) 7 N 7 N N N N O N N 0 .- .- 7 M a- OM MO MOM M M M N .- U d ca 3 J 0, >0. 0 L o 0 0 CC 0 0 D I11'(0 0 J co . . N O) M (O O 7 N 7 M N- O) .- CO (0 U) O) N- m N U) (O O O CO d U) CO Q 1 7 0 N- N CO U) O CO m C) N 7 N 7 O U) 43 N- (O 0 N- UJ O) O .- U) O) N- r co 0 7 m N m m M .- CO N- 7 O N 0) 6)co U) 0 (Y 1 N M I. D) 7 n co m N6 I. ' N- m 7 U) O O U1 r N, N- ©U) N N I- O N M m O N 7N- COO a- N N NC) O) N- tO © E o 1 C N m m (O N- N- I. N- I- co co co co co O) m O O) O co co m 0, - Q) O O) O) 0) 0) O) O) 6 O) O O O O) O) O) a) 0) 6) O = N- N r ,- ,- r r CD ' o '- . 7 m m m m m m 0 CO CO m m 0 m m CO m m 0 CO m CO m I (h (n I-- W W lI co U) a) O O N O) O N m O U) M N- U) .- N U) 0 U) m N. m U) N O .- m M 7 N C` 7 M N m U) N 0 CO N N m CO. 7 U) O m m M U) O O m N N m 0) O) 6) d I. U) I. 7 n r' U) N- 7 .- .- N M (O .- m m m I` U) O M U) 0 .0 p) N CO 7 7 U) N U) CO r co 6 ..- M (0 CO a- 7 N- O M U) N C CN UN UN UN UUU) N (O U) m UN- N- N. m m m mp L = OOO O O O O O O O OOOO O O OOOOO O 3 co co co m 0) m co co co o co m co o co co co co commmZ U] N N U) U) U) U) U) U) U) U) U) U) N U) U) U) U) U) N U) N y C p d 6 23R I :LI C V d U) v- N M U) m V N- a- a- CO m O 0) M U) M O N- 1, ` C U m N. M O M N 7 CO CO N. 7 CO V) r 1\ O O U) U) 0 4 w R N M m W 7 m 0) N- M m N M W n m 7 7 O N N O d (,) 0 1 N m N 7 N. W O M m a) •- 7 U) N- a) 6) 6) m co N- U) co t) 1 .6 R' a d CO m I. N- N- C- m CO m m 0) a) 6) 0) O) O a) O) O) O) O) O) Topp p >, 0 O 7 R I W 3 '! -1F2200 , 11 O n N M 7 M 7 CO UJ m N 7 N O m m U) O M M I. Q_ I N. 7 U) N CO U) U) a) U) (O V CO 7 0) N N O N CO I. O ' a) m m N O 7 I. O) U) N N U) co N O n C` r N- N a7 M U) N M 7 CO m en U ) 6) N U) N- O N NNN Mel CL, yv cn co 11 1 LL 1 W N 0) N N- N r N co N U) N M .- 7 m m 7 0) 0) N O M m O '- m N U) M CO N 7 7 U) N. a- 6)• 7 N: m 7 N N- 7 m 7 I. 6) 6) O) m m I. U) U) 7 7 M co O U) 03 M 7 N (0 n n C. N- N- N- N- N- N. r h N- I. C` 7 U) U) U) (.) m U) co m 0 U) U) m U) m U) U) U) U) U) m 0 i CC U) C U) U) UJ 0 0 CO ca (0 (O c0 m 0 0 0 m 0 U) m 0 U) 0 0 li 0v, I O) N O N I. N I. N M N U) NM.-- .- 7 m m 7 O) (0 M m U) 0) 7 U) I. M 7 CO 0 7 CO O 0 CO I. U) O N: m m M I. 7 f. 7 I. m a) m m I. N` m U) 7 M M M co N CO m ON M 7 7 7 7 7 7 7 7 7 7 7 7 7 7 U) co c) c0 N. N- n r I. N- N- N. N- N- N- N- N- N- N- N- N- N. .-. 6i (0 m (O 0 (O (0 cO (O U) co- (O m (0 m 0 0 0 0 (O m (O N 1111 7 N CO a) U) N U) m 7 MO m 7 O m O 7 m U) O NSI M O m I. 0) U) I. m N- U) I. M m N m .- M N- I. COO ON .- .- a) N N a) m m I. m n ti U) U) U) U) m (O I Y co co co m m m I. N- N- m U) 7 M N a- U) 7 M N a M M M M M M E a m N 11 a 1 11Co li O M N CO CO 7 r CO I. 7 I. N- 6) m m a) O M O M M O) I 7 CO O N O m O I. M M M 7 co O O co co co 7 7 N Q M n N U) r m r c- .- 7 7 U) U) U) U) U) N- CO ap U) 00) N U) 0 ON) 0) U) O) m CO O) co C7 8 a I u _ Z 0 CO U d d II, C ,,,, to L L .0 G o a -' —I 11 c.).) E E E r -c N N N 1 w Y N N N 2 a_ d U) co U) 11 Q N " -o 'O -0 7 O a) r, n O . U) d U) d m d N N 7 CO m m 7 C) m N. O 7 a) 11 Q N CO CO N U) O O..4. 0 O O O O 7 O O N M M M M M m U) 7 2 N M „,• N L N A 0 7 A 6 U) U) U) U) U) U) U) N U) M M M n U) N O m 3 N 0 U) 0 CO 0 .- 7 N- O en (O M N U) m 7 N-Q m t` CO a. CO CO w 0 Cr, C m 0.a) 0.O O O .- N N N M M M O e CO cO U) U) (0 1 UJ d (0 y U) N (0 y n N- N- r N- r N- f` p 0 c ci '' a 3 i F Y c c c to O c >. m o d d CO J E •p^ d N 1 ''.6 0 0- N 0 N 1 N v • • O V M N CD N I. 00 M W (0 N I. N 00 N- N M (0 CO O M N m �'' (D W M V f O O m r N O O CO O n N M O r N Op m M m M -1:5O) O NN .— NN N M4 N (D O NN: N ON.: 6 V M I. c0 o u) N Oa) M O N. 00 (n N Q) (O 0) (D V N O CO N N k mg Ill. I (O (D (O (n N N (n V q' M M M N N N N ) ) m i— N N o I=CE > � CO m $ M (D (D m m N N M (O V (O N (n V (f) N- (O (0 (D O N (11 O O d , N u) N. (n V V: o ,- co co n n •- O m V V CO V V O f. O O 0 O ,- O M O O O) O O O N . O N ai O .- ,- O .- O m N V N O0 Q 1 N '- r r r .- .- r r d CD J c c o 0 0 0CC 0 0 a COW w al 11 1 m rn 3 R li r V N M (O M O O o V M (D N M N I. m CO O O .- CO U) 00 N- CO UD I. CO N V CO N- (O 0) IN N N o V .- M M 00 I. CO O O V I. O O Q (O N- m .-- V N. V. N- N M CO CO O N O u) O u] n I. N- N- M 1. N co to 0 ( '., N N a0 V m ,- V <O c0 O O O . O O O O O O N V m O (O N- r- �l Y 1 M CO CO M OC CO N O N- V e- N. V 00 (O M O I. CO V V V E N ''1 C m 00 I. C- I. N- (D (O (D (O (O u) (A V 0 V M M M M N N N (- .-- -.0 -- N N NN co- 0 a) o_) o O a) O) Di O) ai 0) Q) of m O co- o) of ai o) of o) of a7 ,- r r ,- ,- r r ,- '.. N ,- r 0 • C p IL 7 (o m co CO (D 0D m m m m m m (0 CD m CO m CO CO m m (D (D u) m (n (n I- M W I O m M O V) (O O N CO O N- V N V CO N- V V N O CO V' V V 1 O O O O M O V M (0 CO 00 M V N N- c0 M N M CO I. (f) CO V CO (- (O N N 0 O ,- O M O O O V; (O O N- m OD N CO 00 00 O CO d 1, (O m V (D O M V M N O6 I. co ti (O O V O 00 N- m (D I. (D 0 1 0) o M (O CO CO O O N N CO M CO M M M N O CO 00 I. (O N C e0 I c (C O O O O MCD O O O O O O O O O O O O O O O O O m L O O O O O O O O O O O O C 7 co co co m 00 co co 00 co c0 co OC co co co 00 co co co co m 00 00 co 00 O O O O O O O O O O O O O O O O O o m O O O O O m Z N u) (0 (0 N u7 u) u) 6 (0 u) u) N u) (0 u) u) u) u) u) N N (0 (0 (f) ui 0 CC (i Y) c N (p c (,) ` 7 1 (0 M .- O M CO O CO M V N I. N- (O u) M n N m V CO CO N- V Q y c (� 1 M CO M CO M m N- N m .- N (O O N O .- V O N M O N- O (H C co m O (0 W V N n (0 OO O I. I. I. I. I. W O N M (0 M V U3 W 1- m (0 V 00 (O M O I. V e- 00 (n N m (O M O 00 (O N m (O N pp d T (0 i m CO 00 CO CO I. I. I. n (O m (D (O N (0 V V V V M M CO N N N CC"45 p > a O 0 0 W 7 -11- 2 Z N O O I u) O CO M N O N O V N. u) CO (O el r (- N V- M ti O CO N 1 a O coN.I O O I. COOO ( V N- COcO O c0 (O N N (D M N (0 .- CO N CO I. I. (0 N 00 N N N- r CO M m N V V N C N (O I. r (O N- N- C I V (O 00 O .- M V (0 (D N m 00 m m m O c0 OO N- m (0 V M N CO M M V V V V V V V V V V V V V V V V V V V V V V j d N U) Ca ZZ /f, 7 I CO co 1 c 1 LL 1 J (0 (0 OO C- r O r V 00 m V co e- V c- I. N co (O V V N c0 (O (O CO .- CO m CO N (O O N .- (- N V V I. M m (O N N (O N N N .- O O m co N- n to (O (0 V M N r- O O O c0 m m W OO O N N- r N. I. (D CO (0 (C (D (O (O CO (O (O m (O (0 N u) (O (O (0 N (O mel 40 tO (O m m CO m (O (O a) (D c0 (O m (O (O CO m (O CO (O c0 c0 m m O) O N U) c0 (O (O CO (0 (D CO (D CO (O (o 0 m m (O co V) m (o co coc0 u) (o a N u) co N- N. O N. V CO 00 V MV N. N M m V V N CO • N N V I. O N V CO N m CO r n m O O M O (0 N OD N OD M N O O m a0 N m m N V M N O cri cc; Cc W m n m or N I V V V on M M M M M M M M M M M N N N N N N N N CO 1 I. r n N- N- I. N- N- N n N N N. n I. N- N N. n N- I. N- N- N- N. C m (o (D (D co- (O c0 (o (45 m co m (o (D O. m m m m co- (D ro (D m (o Met OO m V O m N m 0 00 m N (O N e- 00 (0 O mr N CO O O O M u) I. O V M V N M CO V O V O00 M O O M O I. N O N- V m 6 .- W U N V O N- V N 00 O N c0 (D .-- O O O O O o m OD OD COI. I. N- (D cD (O (0 N N V (O (n (O 0 M M M M M N N N N N N N N N N N N N N N N N N N N £ N D. m •p UQ M N n M V O m V 00 O M O M O M (O N 00 00 O CO 00 N M M CO CO O (D V N N m N CO CO (O (0 CO O 0) u) O O V (0 CO u) u) Q .- O N O O O O O O I. m (O O o m m m m O O o o O O O m a) ma) O O O m o m 00 o R O T 1 C1 0 m m m c E 0) CO a a I 0 a J r -0 Q) N N N 0 O 3 m F Z 0 d (J) U) U) ; O N N- N N V O N O V N O V N (0 CO O N O M CO N W N O r Q N M M M N M V N V N CO V N (- M M N M O O o O N- 00 O 0M M M M CO M M CO M M M M M O uO uu) uu) V uV m m Ma) O M m O N (0 CO .- V I. O M CO CO N um V N- O M CO m Mda VVV V uuum (O (O N CO CO m o m m O O O O (- 02En N- n n r n r . n n Nr N- r r N- r NN- N- co- co co o m -- c si a.Or a+ d0 iiN c) ao33 n N • • VA G W a =i ."0- re Ml 0 i�/ O mO a a 0 U 0 Z U Q cc O O 0 en o a a m w y mz � m 00 Zz N,- @f2) OCD�OOpO� U Y V V ELI) u) w 1- 2 tw a) 11 1 o ill V. L CO CD N N 0 M I N co C c d �i U N O C asas p U c cA y S ' O °-�. d (3 5i I N U m y a' a-jcIm o L m o t.0 o ) J 2z (e) c) a« o ,G w .▪ � 0 0 t Uo - a 46 a m. CC Q. a ,c(I W c eo L L LII (I) .. yEy yEy yEy o Ta c O Q Q ~ V- Y N c ,-- C..2 d c CO d W N O (3 u)- aaam 1.• :2 6 20 a 0 2 2 Q a a O ccca _ Nr dNl E V' 0MNV 1 RI 2 (- OA O Oh OO N N. N. CO Ola CO N r 0 y (+ HI Z m (7) c z• 0 5_oi a < 1 U 0R (N D Q co CD N W N OO u1 On 0N C.) J t n Oi N m Lt. O// E N CC MI 1 0 Z ? 3 u) `- N a au m m _ ao ro QV L = N OD N N- N r N Y p, lA tO O (n d' r P] O'1 co j Q 7 N tD U L O .- -4- h.: C M jQ ' 2 OO OO OD OD (D CO ('C O N▪ co O m N 'C a s L 7, 84"g28 aO CO O O N 0o O Q O a J J N y N OO L ^ NNBMLN N N ,c ,O = G. o ; WN n TD Z a a d) chch 0 y 8' ? cD CD CO CO m U) Q .O= M N O G Cl-ii #, E d _ - a� 0 gm� o O O` .O+ M N N 0 O N U a 0 3 3 0a v • • Urn ligiZ W Mule `M' a= m 0_ m Q J � Q 0. a) ✓ Ct a) a a) J N M QN m m O N O (13 INC d N d co — M .a N N co Na cfr Zcnchin o aaLL N • • • . Li I a 1.IvZ z N m Imo d iuiuMame N M o O . �+j N 0 N M0 a= 01 M O N M CO la N N N O o v ar. 0 U 0 Cr'v S I c c o li 0 o w d 0 m 0 o a .... I .- U d i�d N � Y N o = a 0 N N N m co .- iti > 0 1 N 0 c00 CJ ¢ J 'iz 00 I .. 1 Y N >y O .. - .e d a J 0 . G m O] J M a I13 '- ` c 0 Nc c Chv) � � w � 0o 0I = c 'O y J J (7 I 1 a c 1 417 01 c a 1 m e i E o J J 0 1 I d J. 1 y a G ° E F O y c o .. u d E I OE d u m 1 V V 1 LL v w a`iU H O 3 .5 ! ai c Hi! m 'i m0 j,N "v o > > > I a N co m I 1.0 N M I, o o 1- rn 1 CO R O O M N CO c`; O O N CO I 0 a) O CO. 1 S. ... co W 1 O O O Q 9.,. /� 0 LL 1 ° m Z L1 r I a 1 m I o cn Tis 1 ° 3 o a 1 c I o° (ti O LL F + o 7 ! > a0i 1 N I m a: W 11 m I o)C ii a3! a1 L C K 2 I 07 A I a- t' c 01 c Z W CO 1 t .2 .c 1 W O A 0 c 1 z w 3 1 g vi 1 o 1 1 0, 1 o I Q 3 I 1 I- 1- 1 1 ¢ ! Q °1 0 I CO YN 7NI I. w 0 v , 1 0> 1 1 a 1 m F 0 o I 1 1 E 1 Na o a N': M i ... f- > > > CO C2 Xa ° Z D1 i yap x0 N 0 0 0 i 0 CD lw ) o O O N iam n Z N 0 O Nm N O m I g r' 10 01 a E a 0 o C , ¢ -c ¢ O , l N N z ( ! N Ei ? lI U m m a NO a OI 1 co v S 6>. N N m fil _ Em X am as (ng I 9 1 < o a o N Z u7 r - N N N ¢ CO 1 + + O o ` Z ¢ 1 I Za a 6 u) cr) I • c 0 al I c 0 ' O M.n d E 1 .c°. c o c 1 m o C .. E to c I F. C N c N ° 0 O CI of u O c N a A O O O p p G Z c i6 a d .. .. a 01 rn o N a a :+ c co « C O o E o °' d 'w o a ° a «' o N ° No m W ar a 2 E N ° a` n3 3 o a.` 2 02 1'I an wU a° 3 3 a° , 3 2 1 0 < > > Q • • . O R N O Co U) N O N (0 r U) U) 0- O r (- 0) 0) CO lI (O W1 1 O N U) V N O) U) 00 U) U) M CO. O M O V (O V 1 a O O gag Z O cci O - (O W OUN M (O O O N '_' MU) N- O Nn (.,, N 0) `W 111 E• o hg j = o Q= I I N NB I O N CO V' N 0- N O CO U) O N CO V' M CO 0- O III D_ d O (O LO I- CO U) 0- N CO N U) N O U) V) N CO N 0 O O O O O N N6 O M r N6 N6 r O r r r 0 O v z x a C0 C d 3 p J O >' a p 1 O c !, 0 0 w d si s O O (0 1 O N N 0) N CO CO N I- V' U) CO CO N O O U) 0- CO (0 UJ O G Q N O CO M O N- M r CO CO U) O O U) N- (- r O0 N- CO ' O O N f- N O U) O U) CO CO O O U) CO U) t-- N N U) O 0 O O O O N (O N 6 O N (O M O O O M U) I- O ' ^` E uYi N co co M co co 4 < O CO n CO O N U) I- CO r M t0 v E o c 0) 0) w CO w o) 0) Cr) 0 CO m rn o R. 0 0 0 v) N N 0 E ix N N W co O CO CO OD CO CO CO co- co co O O O O O O O O ‘T) ,- ,- ` C co 7 U) (0 O (O O U) U) c0 w O O O (0 O (O (0 (o O (o O 1 Co y H i W W O r I- U) O N. CO O CO CO V- U) CO 0- CO N. U) O CO U) OD ? U) N O U) V U) N- t0 ? V' N- N CO O (0 O 0- N C 00 CO U) CO V; CO U) U) CO CO U) N- CO CO UU) R V M N N V' (- CO O O CO t O 4 N N6 U) _ 07 M M M M M M M CO M M V V' CO CO M N r r O O I�, O O C U) LO L0 U) U) U) N U) U) U) N U) U) U) U) N N U) N U) .om r = 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 I w N CO CO CO CO CO CO CO CO CO CO 03 CO CO CO 00 CO O CO O CO m C 0 N N O O O O O 0) 0 0 0) 0) 0) D) O t m 0) m 0) co m t C 1 U2 1 Z U) U) U) U) U) U) Ln U) N N U) U) N N N U) U] U] d0 U U 'II c▪ ai u U 'O C C F2 V O O N O M O 00 CO U) N N N. V N 0 CO r I- N OD ' 9 ` w Ti N C OrMI- MrNO CO CO O r O U) 0- N co r 7 a0 O o O O N UN CD J N (- M O O O M UI- ON O N {p V ON R UO C) N 1V N OrrrrNN 1- d 0 . (n 2 2 cc o J F-2 Z W 0 a g P-co m III LLLLLL!!! ',. E + v -0 Ii 0 U 0_ m A t o E (O + O T r (- N O r O W O CO N M N O (O 0- Q_ 11 V V ❑ ❑ o 1I O r N. U) 1- CO CO CO N I- O U) r 1- 0-- O CO O v iII in O` �i 9 7 O O O N 0) N O N N N (O N O U) O M co o.- �i > Ili N N 0) CO a Ca Z 3 3 U as 0 C 1 ch RO O O I- CO M N- U) 00 W U) CO U) U) O V M V r-- 1 (n 111 M V' V M M N O U) CO CO U) N O O CO U) N N r U) Mh O CO 0) 6 r N- U) (O N CD (D C 4 N- 6 '7 U) C7 0) M U ❑ co co O O O CO (O N r M N N r O O O CO CO 1- N E ll (.0 r r N M V' U) 0 U) 0- CO O O N N M 0- N � CO N IL11 N = r r r r r r .- a 2 U + 0 o I11 C p ❑ ❑ ❑ 1I 7 1, I F 0 2 2 2 iI CO O O O (- CO CO N. (O CO CO U) M U) U) 0) v M V N- N O O O CO CO U) N V O CO U) U) V CO CO 0- N N O aV to O O (O h 6 r CO U) m M N- O M U) O M co O 1- U) 6 U) co O co O O O W co r n U) U) 4 V ' r r N C) V- U) U) U) 0- 0- 00 O O N CO V_ U) CO. 11 N N 1 0 Er r .- r r r co co U) (n 0 0. p CC N N 1 O (0 U) N N N- W U) N. CO N V' N. 40 N- V. O O CO O LL 'l O r CO N CO R V O CO U) O O N O O U) .- O o + (v) Cl) 111 O 0) N O au (- U) M N U) U) O N4 a0 W O 6 1 ` 0 L M CO CO N co (- I- - I-ICu O O O O O O O O OI V3 r r r r r r r r r N r N R R 00 0 , 3 Z 2 N r COQ U) (n (n I- F- O N O CO U) M U) L0 N. r (0 O M r N. Lb O 0- U) V J 1C U) CO U) .0-, M N O R U) r CO r O L0 CO O O N Q co O r O O O O O O r co U) f- r- OD a0 O O U r U) V O m 0 Oo M (cr o U T N N CO co (0 U) �IIj V .�. 0) CO m CO 1 O x O CO U) CCI C `-' , E 0 C C F y n 1 L -C a N N N I 1 C V N r . O 2 m r r r z 0_ 0_ (/) U) U7 O CO O O co O O O O O O O O CO N U) O O N- CO N O O r O M N U) N O O O O O O O O U) O O N M U) O co O co CO - (p E N O D O O r (- UO M O O 1- N O 7 O 6 ' OO O CO O N- UCO N M CO CO O O Co CO O CO O N- (- I- OO OQUO) Er N- O CO U1 '1 r `- N CO V' U) N O I- co co O O N CO U) CON 2 O N 1 0 E r r r r r I O-. C ND. d O C On U. 0 c .0 O) I 0 EQr . .N ° ' ddcUTZ ON C.) a in3 1 ) (i) ; N — v • • y '...� N CO CO 0) n to V CO N CO N CO N- CO N n N V CO O CO CO N Isb W m O aD O M N N W ? O O r a ✓ n O n M (D 0 CO O 6 CD 6 V N6 to N O6 N c0 n O O i•80Z V N CO O N M V V V V V M M M M M N N N N N N N N M N N N M M M lh e? e? e? M M M M M C.-.' M M M M M M M M M M CO SI�� M Imo/! O > > O h III cD O) V O M cow O N M CO N N N M W O N N V M V 0) 0) a V d li • N O N O N O O O CO O CO N N N M N CO O r r O .- O 0_ O O .c N M .- M M N O O O O O O O O O O N O O O O O 11 0 V V Z Q CA 7 CC J 1 0 0 p C 0 o 0 0 (r 00 a I cin t) = Y J N 1 CO O Z (O cc N O N m N N O M O) t` n N !� Or-- N O O O N 0 M O M O N N CO M c0 cc O O (0 O N CO M O N l!'1 M a0 r O O CO O Q V CO CO (O M N O N tD N (D 0) O CO c0 O (O N VV V CO N (O O p c M CD W N N4 N 66 N O) 6N M N6 O M O cc O N4 (O OD cO Y 1 a0 O N V f0 N- 03 a0 aD e0 F- N N N- N. N- (O (O (O u) tD t0 /0 (O (O 0 © E re I C - N N N N N N N N N N N N N N N N N N N N N N N N N CO N N ' 0) O O) O O) OI O) O) O Of O O O O 0) M O) O W cn O 0) O co. Ol O C; 6$ 2. (0 O O O CD c0 c0 (O (O CO O (O (O O CO (O CO CO (O (O CO (O CO (0 c0 c0 2 (n ()) F- W W ISI, M co N N V CO CO N N N n N 0) (- CO O O N- C0 VCO (D NO CD I N O N N CO u) CO O N. CO CO V CO N (- O V N — N- CO CO 01 n 0) V V N N N N V O CO N O N N (n CO Po N 0) O M O 6 O 6 M N N N N N N N N M V V V M N N O 1 C) ii coO O 0) O) O co CO co co co co co CO co CO co co co co co CO co co co co co o L ;_ = c O O O o O O O O O O O O O O O O O O O o O O O O O d co 2 Z ? m m rn co m m m rn m co co co m 0) m co rn m rn rn co rn m (0 m m I,I iz (0 N N N to Y') N In N (D c0 t0 (n N (0 (0 (0 O N c0 Y) c0 t0 N N (O 1 N C C V W N '., C V N (n N M O N M 00 O O 00 0 0 N V M CO N 0) M N N O N C V O CO N 0 0 N- N- O CO N n W V M c— N c— CO N C) V r CO r O M Q 0 w W N M (0 r N- N ch N V O h V N N 0) O N W CO N- 6 c M c0 0 a - 0 0 a I O n O M V N N (0 (0 V V V V V M M M N N N N M M M CO , T R NCNN M M COCOCOCOCO M M M M CO 666 men 66666 co . L0 a O COCO .- M N O 0) CO N- N N O O 0) O CO M N- N- N M M O 0) N CL D) c0 CO c0 (D V M n O CO N CO V CO CO c— O c— I- CO (- CO N CO CD • 6) 0 O M 6 O N V N C- N- 40 co CO M CO 6 r (` cD N CO C- N- O cc O) X M v 4 V V N 0 N N N u) N 0 N ) ) N ) N V u) C] N N h u) co 2 !, m CoC (L co 0) O M , .- co 0) 0) .- co O 0 co co M 0) V e- c0 N (- N r N. N CO N- N c r N V O CO NN O (c1(. 0) 1(.- M m N (- CO N O O N N- N N M O (0 O N W M O M O 6 O r c- 0) NcI V (O O N V V M M NNN (- (- c0 O M N N N 0 0 0 co co 0) co C) I co C` CO 0) O •- N CO V c0 CO N. r co m co O ,- (NM V c0 c0 O N COI 0) co N '- ,- ,- ,- N N N Ni N c. N N N N N. N M M M M M M M M M M 0- 0 O w 1 co 0) O M CO co co CO O c— O CO OO M 0) (4. (O N r- ,N CO CO V CO CO N N- CO CO N 0 CO V CO N. CO N O c0 M 0) c0 CO N CO COI O O) N n O tO N- M O 6 W cD CO N N M O 6 0) cc CO V O CO I M N N O O 0) 0) O CO N N N- 0 0) 0) 0) CO N N n (0 O O col N. CO CO O •- N CO en V c0 CD 1 CO CO CO COO ,- NOD V LO (D r a0 OI N N N N N N N N N N N N N CO CO M co- M M 6 C') M M I. • N. M O N O O N 0 N 0) CD c0 0 O 0 0 n N. CD 0 CO N- CO CD CO I, CO V O N O CO V N N NCO V O CO V N CO O) N V CO CO 00 CO CO C- O M V N O 6 6 CD CLI O O O O V V N N- M co O (O O) CO 1I . 0) co co O co O 0 c0 V c0 CO CO N- N. N CO N- CO CO CO (- (- 0 0 0 .- ,- N N N N N N N NCNCNNN E a. m N Q �I n N 0 CO W N N N u) CO N CO V N N N. V CO v CO c0 11 II, 0) CO CO O CO V N O u) r- N n CO CD CD CO CO O CO CD V N Q en en N O n (O M ,- ,-- .- ‘- '- ,- ,- — — — N N6 ,- I'.. N ✓ CO m w 1.C. °_.. CO N m V d 0_ 2 0 CO u( Q = d J J Z I N N N' Qo 2 m '- '- Z Q. d (n (7 (n 0) O O V N c0 M N O V O N c0 O) ° C1) N N CO co N N V c0 O c0 Q W .- V N O co O n CO N c0 N co M JJJ N N O) N- V (- N- V C� CO CO CO 0 N O) V .- O N M M O) co O c N 0 0) V O) O N O M W N M O O 6 u) 6 V V Cl CO N N N .- CD < c') M N N N (- O 0 0 CO O) O Q 1 - CO CO O r- N CO V c0 c0 N. CO CO O) LL CO O ,- N CO V N CO N CO CO O N ..-• c- (- (- N N N N N N N N N 0. N Z N CO CO CO CO- CO CO- CO CO CO M CO O 0 C •• d ii' V U) (D 0 a`p c a y .. a O) N 0 E •O` N N rill O D) O CO N N (D O CD Co CO V' N. 0 N- 0) Cr, CD Co V' CO 03 CO N CO ',, CO W O CO 01 CO CO O CO A- 6) CO 7 N N O CD V' O N- V' O r` CD N 0 A- CO CO a N R CD O O N CD cD O O) 6 V' N o0 M V' CD V' O g �: Co CO Co Co CO R V 'U 'Q V' V' Co M Co Co co co CO co co iD N- O co N- N 6. Co CO M M M M Co C11 , O Co Co M M M M Co M M M M Co M Co C7 a' In CO N CD O 7 ob a co V' N CD 0) N- 00 CO O0 CD co Co N CD N N N- Co C CO n V' CD N CO N �' A- N O V' A- N V' OD N .- Co N CO N N .- CD c- N V' Co r` O) CD (D Co CD 0a. O O O O O O O O O O O O O O O O O O O N N- 7 d• 6 V' CD 6 I U V' V' Q III N 01 'III C C -1 Q O• O 0 0 g 0 0 CL w N N _3 Y W CD 1` CD CD O M N- CD Cn CD N O V' A- 0D co co N CD N M O CD CO N M N CO CO 2 Q Co CD V' CD N CD N A- V' co CD in CO N CD CD N Co V' CD N CO CO 0 N- N 01 aiOD d• O N N- N CD CD CD CO c0 CO N 0 CO CO CD N- CC) V' a) N N cD CD I) C O) ,- Co d• N CD O CO CO 6 6 CD N V' N ,- O CD (D ID d• N6 O CD CD .- p, Y <D N- N. N- N- N.- N- N- N- N- N- N- N- N- n N- n 0 c CD N., 0) V' 00 Co a,V E 6 C NNCNIN NNNNN NNNNN NNNNN NN N M M Co V' V' 0aO DC O 0DC a) O O O D) a) D) D) DP O 6 D) DC O) D) D) O 0) 0) DCCDCD A r .- .- .- .- .- ,- ,- .- r d 'C 2 3 CO CD CD CD 0 O OD (D CD CO cD O CO CO CD CD O CO CD CO 0 CD CO CO 0 0 O CD N- CO V' Co CD V' r CD CO N CD Co CO a) N CO Co O V' Co CO V a) CD ' OD D) 0 CD Co CD CO CC CO N CO 00 0 V' N V' r-- CD 0 CD co co co CO CD N W N- CO O CO V' CO N CO V' V' 0) CO CD 0 N- N- CD N d 0 OD N- 0 V' Co N N N Co V' N 6 O N- N.: r CO CO CD cD D) Co OD N V' CC) C) 'D 0) N- n r` N- 1- N- N. N- r-- N- ti N- n N- n N- r r` N- N- r N- aD 00 O) O C p C 'U V' V' V' V' V' V' V' V' V' V' V' V' Sr V' V' V' V' V' V- V V' V' V' V' N N E! « I t = o 0 0 0 0 0 0 0 0 O o 0 0 0 0 0 0 0 0 0 0 0 0 0 O o o d I 1 O ` CD a, 01co CO DO) CD 00) co co co co co co CD 00)rn CD CD CD m m CD 0) CD a0) m m OOi �1I co Cle '� N CD CD CD N lD CO M N CD N N CO c0 CD N N CD CC) N N 6 6 6 cD )D N C _ d V C CI oCo CO O CD CO CI) CO N N CO N cD r Co O O CD N- CO O O 00 V' Cn N 1'1 4 d C d V cr. N v O Cd• DN. N d•O cN CO N CD CD ) N N O N. O CD CO co n co co co 1 '. w R D) O N t{ d• CC M ) CD C) CCD N V' d• M N6 CO M NCC OD N O O d U WM 4 V' V' Cr V' V' V' V' V' V' V' V' V' V' V' Co Co CO CO V' CD CO CD O CO U 2 d C N d Co M M M Co Co Co M M Co M M M M Co M Co M M Co M Co CO V' V' N CD I loc ft Ea J 1- z Z to O W 7 • O I CD r V' CO T Co cD n CO CD N CO sr C) V' _ N O O _ V' C) O 0 0V' I1 a I CO CO M CD OD M V' CD O M M V' CD V' N M O N. N O r` N CD , 0 Co v 0 N- 6 m N- N- CD CD V' Co CO Co Co CO v v v w CO o (D CD CC I CD CO CD (0 CD (D CO CO CO CD (O CD CO CO CD CO CO CO CO CD CD CD N CD ? M N CL yc mZ i V u_ 1 N O 00 CO N O r r CD N N- N O N 00 CO O) OD OD CO r- N CD N 1 O O) r CO CO CO A- M CD n N- CO CD CD CD N 0 A- A- CD N CD A- CO CO CO V' 1'O O I V' CO C) O CO .- OD R O V' N6 R O CO CO OI CD (D CC N. N- N CO CD co r� n N- CD CO N CD CC) V' V' CO CO CO N N 0 O CD CO r-- CO V' N E d CD 0 A- N Co V' CD CO N- CD 0) O 1- N CO V' CO CO N CO O) O) O ,- N M V' ' CT 1 CA M V' V' d• d• V' V' V' V' d• V' CO N t0 CD N CD tD N N CO lD t0 O CD CD CO cod 0 co 1 X11 N O 00 Co N 01 N- n CO N N- N O N 03 CO D) .- CO OD O n N N N- CO CD V' V' V' r O) e- M M a) V' V' V' N N. N- V' CO V' NA N V' N O I Co CO V' O CO .- N- CO O V' N 6 d• O CO Co O) V' 6 CD O CD cD n N cD N CO d• V' V' Co Co N N N 0 0 O D) 0) CO OD r N- r CO CD V' Co Cr, O N Co V' CO CD N- CO 0) CD N CO Co V' Ell CD N- CO a) O N CO V' V' O C sr. V' d• V' 7 V' V' V' d' V' N N CO CO CD C) CC) C) N N CO cD (D O CO CO CO 1 7 O co a) O CO V' r' N CO CO CO V' N- CO CD CO A- r CO W O NA N- CD V' CD ,,, CO V' CD V' CD ti 0) CO C) 00 O CO CO O CD CO CD N N CO N V' CO N- N CO IO N V' ,- CD 4 ..- 6 CD O V' O d• O (O O CD N N ,- O O O) O .0 N CO CO V' V' CO CO e- N Co M s- D) N- CD CD CD 7 A- A- A- A- .- A- M M M M N N N N N N W O O O] CON- 40 11 E1 CO 1 Ti 1 I, V' co O N CO N .- CO Ct') N V 0 N CO D) CD CD N- N CD V' a) N- 0 .- N N M CD 0) O CD M V' C) CD D- D- D- CO D- O O CO N 00 CO Cr, M CD N Q ,- e- .- O O O O O O O O O O O O O .- .- .- CJ N N N r- N OD r N N M M CD 0 >.` NN V CO m CO C a`) m v a a. 1 C a v) N N N O 2 at 2 d d Cn U) (/) N N N D) CD CD CD O N CON CD V' N CD N CD CD O CD CO O M 0D CD M N ' Q I CD CO CO V' V' CD 00 Co N V V' O CD CO CO CO Co O a) CD V' N. CO N- D) N. CO ' 0O t0 n N CD V' .- r W CD ‘,- M O O O M CD d• O) CD O6 6 O CD 00 CO N- NA CD CO CO Cn CO V' V' V' Co CO CO N N O 0 O Q) CQ OO CO O a O N CO V' CD CO N- CO 0) O N M S. CD 0 r` CD 0) O N M V' CO N C_' V' V' V V' V' V' V' d• 7 V' CO CD N CO CO C) CO CD CD CD co- (0 co- CD CD CO CO p C .. D m 7 O 0 d u O c I >. E• d .. L 0) d N o d d 00. 03313 U) c • • ------------------------- yO n N N 0) N .-- CO )- (0 (O N- O N .- .- CD OD n CO N- V CD V M N . CO W 0 co O CD O O N r CO M N u 0 CD r O) O) 0) MCO c{ N M O ao O O a7 N N M n N- O M U n N CD n O N N CC) n 01 - N CO V Co co N O CO CD CVA O n CO N O C�) CO CD (O N.1- N- N- I� l i '‘i aD W aD CD 00 aD m NiI I� I� CO CO (O Cn 0) i.kl W0 d E bgn 1M > 3 co O • .- N CO V V V N CO V M 0) CO N- CD O CD r- 0 n CO Co N co CO CD OO 4 N- 0_ V 0 n N- O) ID co co N M O CO N N- N- 0C M r V a0 N u) N N n O 0_ N CD N u) O CD V O a7 OD CO CO V N4 N CO N CO O N N6 O) M Q W r r V M (- co co co co CO CO M M M MN .- U d • O -� >• 0• O 0 o a Jo N Com/) J . • 0 l0 N co co CD O Co Cn Co M N- CD CD CO CD CD N- .- CD N Cf) CD n V N CO CO OD V CO n N CO CO O W m0 N .- V N Co O CD CD n CD ..0 n M N V M O U Q n fD O 0 .- CD CD n N- OD CO Co a0 u) aD aD M CD N- Co O N n O N c0 C0 C I N M n O V n OD CD N O n .- .- n OD V N O O CO n n V) N OD V Y I u) I- CO N O N M CO CD N Co n 01 O N N N O CD N CO M .- OD 0 E u) I C N cD O CD n N- n n N- ao O OD CO CD o1 a7 CD O CD tO a0 CD CO m N- n 3 Q) 47 01 0) O) O) O) 0) 0) 01 Oi Di 0) co- CP T O) 47 D) O) O) Oi 0) 0) 0) co- ." N (V E I N VI (- (- (- ,- r N N 'C Q W 1 CD CO CD CO CD CD CO CO CD t0 CD CD O CO CO cD CD CD CD t0 CD CO CD CO CO CO Ch (n H i' W II'I CD CD CD CD CD N O O N OD 00r- M n tD N CO CO 0 CO co CD co n CO CO N O )- OD M V CC) n Co M N OD (O N )- CO O CD 0 CD I 00 N N CD 0 V CO O CO CO CO u) O O CO N N CO O) CD CD O CO N d • O n Co n .- U) n .- CO M CD .- OO CO O n CO O M CC) CO CO V .- U .� co N M LO u) N (D N- CO CD CO CD OD Co n 0 co u) N- CD M u) C O C CO u) CO u) CO u) u) u) u) CC) u) co (0 CD co_ N- r N- OD CO OD CD OD co O) co 1 r r = 0 0 0 0 0 0 0 0 0 0 0 0 0 66 0 0 0 0 0 0 0 0 0 0 0 42. m ,I t. CO co CD CD rn rn C0aD CO O CO CO CO CD CD CD C0 CD Cu m CO O m CO O (O COCD CO CD CD O CD 0) CD 0) CD 0) CD 0) CD Cr) W CD CD CD CD O O) O) CD W 01 C6- CO u) 2 CO N N u) CO N h N N CO CO u) C) u) v) u) u) CO ul (n N N co C O i7 d C W _ _ 'O C V N O CD V N M u) c0 CD CO OD O 0) M 0 M O n C) M 0 O ` d t) CO n CO V O CO N d: (0 (O n V N CO n n O O CO N 0 M CO M O Co .' N M CO 0) 4 OD Q7 n co OD N M 0 n OD V V O N N .- OD N O V .Cd. V N N CO N V n CO O M CD CD V CD n CD CD CA CD CO n ()) M OD CD Co ''. N d d CO CD N- n n N CD 00 00 00 CD 01 M 0) 0) 0) CD W 0) 0) W 0) 0) CD 00 OO 0 > 0 0 3 0 ' W fl) �'.. ...11 _' Z (/) 0 I1 rt I I. O I N- N M Co M Co N. CO CD CO N V N 0 O CO CD O M M n CO O CO Q I e- n V CO N CD u) u) 0) CO CO V (D V CD N N 0 N CO n O O O n O a) 00 (O N O V n 6 u) N N C) M u) O n n n n C) a) M CO n n CO N N M Co (O CO M CD 0) N u) n 0 N CoCD CO 0 1 • 3- N N N M co M M M Co T CL N _N C 1 m Z 1 Z 1 (6 C it 1 1CD N N O N CD N N N N- N M N CO N CO V03 CO V CD u) u) CO N 0 CO CO CD .- N- OD N CO co co N V V N n )- 0) Co CO CD co n 00 n V N n V OD V n 0 O) O) CD 00 n CO 6 V V M M N O O CD .- 01 u) COM CoV u) CO n n n N- n n n N- n N- n n N- n n N- n n• a d u) CO CD CO CO CO CO CD CO CO CD CD CO CO CD CO CO (O CO O O CO CO (D co Ne c0 CD (O CO (D (O (D CO (O (D CO (O c0 CO CO CO CD (D CO CD CO (O CO (D u) CD co l j 7- r O) .- N CD N N- N n N M N CO N CO R CO OD V CD N u) 00 N LO M 00 (O 0) Co CO N M Co CO CD Co O 0 0 CO N C) 0 N N V N- N: n CO CO M N V n V r. OD O) 6 OD n n CD u) V M M M N O O) CO N CO CO 0 .- N M Co V V V V V V V V V' V V V V V V V M LAI CO CO CO n n N- n n N- n N- N- N- N- n N- N- N- N- N- N- N- N. N- n 0 oCO m m CO COCOCDCOCDCD 0 D o 0 0 0CO 0 DCO 0 m CO CO 1 1 V N M CD CO N CO CD V co O W Co O co co Co OD CO O N co V OD 01 M 0 O n 0) u) N- CO N- CO N CO OD N 03 CO N N- CD CO N CO O O) I O N .- .- Q) CO N O OD OD n W n n O CO N CD O) CO M O) n N I L CO OD c0 00 co CO N- n N- CD CO Cl. M N .- u) V M N .- .- O 0 0 7 CO CO CO M M M CO CO CO Al E , 0 ," to •N co I Q 0 CO N CO 0) V n CD n Co N- N- O) OD CO CD 0 M CD CD M co co N- N- CO JVO O NCO O O O n M M M VM OO O D O V V N OD O D I co n O n O CO O 0 O O N 1- 0 0 lQ V V co to u) C) CO N CO CO CO CD CD CD CD CD O) co O co on O 0) CD CD 0) 1 N CD 1 U T N NV Z 0) CO CO CO C ' N E m m 0. O- a Q D 0_ 0 LN N N W Z 0 0 C0 (n Cn Co11 O O p n O N u) O N N V O O W V O CD n O V O O N n N I Q N CD 0) W N 0) 0 V CD O 0 0 0 V 0 0 N M CO M M CO N M M CO I co O N Co 2 N M N C) CO V u) C) u) u) CO N C) C) ul CO M M M M M M M I O N- CDN N CO N u) CO Co n 0 M CO CD N u) CO 0- CD n6 cc 6 no W W O O) 0 0 0 .- 3- 3- 3- NN N Mel N- V V V V I N 2 r (D (Si (D F (D (D (D CD (D co- r r N- r N- N- r- r n r n n N- N- N- r: n I o T G N ZCO 0 C d 3 0.@ V O C ' ›. E Q «_ N 0 y 11 j N 0 d (n �S 3. O I 4) N • • . 1111 IIS CD N n CO � - - O- - C) N O O N cD Lo U■�= N N N N COM O , C OC D D ca a0 N (D C O m Hn NCOC fi C? M C? N N N N `� N O j a, ko CO N r co CO 0) C) ID CO 01 CO CD O Q .- N C C CO .- CO CO L0 N C) CD N- t0 O or O O 4 0 O � O D 6O 0 U N .-Z Q rA g c ca J o I O _ 0 0 o a bU d) w . O• O CO co 0) 0) O) C CO C a) CD 0) r N CO C) N- CD 01 I` CD ,- Nco a, CD N N 6 CO cr; 3 Q C N- C N- N 1, O N- m C] CO CO t-- N6 O U CD C6 CO CO M C CD CD N- N- 1- CO p, Y co CD CD N N O N- C s- CO CD N CO V E CD , C N- N- CO CO CD CD CO CD N CD C C C CO (n = CC D1 O O O m O) 0) Q) 0) O O O 41 01 N N E a' li iw7 N N [,- ^ 0 a I mc W 3 CO CO CD CD CO CD O CO CD CD CD cD CO CD ch M 1- 2 mW I,IW O CD CO 0 CD ,- CD CD N C) O N- .- CD CO O C M CD CD CO N 01 O CO C O 0 CD N O d- O C C O N 01 O) CO n CO i YI CO o C) Ni cci C) C N NO CO N6 N- U) .i O) CO CO 01 O N C) C C CD CD CD CD C 0 C 0? a, 0 O O O 0 0 0 O O O O O 2. IS = O O O co 00 r mm rn 0w r m m m m CO rn rn 0) ocrof of CD CD n i D vi u � n D CD u) N-K Z N NC N O C 1 N O OI. yj I N d N S. O E C "O C II y 7 ''. C) O O O C) r- cD 0 1, CD N- 0 O , P E. ` C C� V C1 O N. N 01 C co CO O CD C O O O I 4 4 F W N Co C CD4 O Ni C) C CD CD CO N I o O Cr w N U 0 r' CD CD C) O 0 CO CD N O O CD C) CD V Z N ` r N- N- - CD CD 11co co CD CD CD CD C 1 • N ToIX -c Z N OON pC i W 7 C Y 0 O u) J 0 2 M OICO r a CO E .= ' CO ,. � v '- -t o o C) N 0 N N s- N C N C O N CO [y 1 CO 0) O) C 1,- N CO cD C) C 0) 00 N. 0 N CO N CD ti N- CD CO CO CD N N. 0 0 C] C N CO C0 n CO O) O 0 s ) :�'i<':'�'x C C C C C C C C C CD N CD CD CD ` O. CO2 Z _ m I co CD I C N. 0 N- C CO CD C 0 C .- O CO N CO CO CO N CD CO N C) C CO 1- CD C I 0) CD N.: N- CD CD N. 6 .- C) N N- W s- CD CO CO CD CO O O O n N- n N- N. O CI LO CD O O O f0 t0 tD CO CO CO CO CO O O) ' N --[•• (O co- co- co co m CO 0O Co CO CD CO CO CL 0 la Z I r 0 N- C CO CD C 0 C 0 _ CD N 0) N C CO N N CO 0) O N CO N- O s- 03 Co Co r CO CO CD CO Co d C) N h 6 0 co co C) C) C) co co co C C C C C CD Z .- r N N- N- N- N- N- N. N. N- N- N r a O e cD co to m CD 0 m Co m 0 m CDCDCDQ w .§N. Z U Z J < Q Z I Q UI U p W t1J U C 0 CD N CO C) N C) O CO N U 2 D O C) CO V 1` CO c- O C W L C C) a O 1- C CD CO O 6 CD N O) COa W 0 1 0 0) 0) 0) m CO 0) co CO CD N. N- N. N C) NNNN N N N N N N N N N ~z a ' E74 a =° I ro CO COj QY To a P.m `a:a k co co ON DQ ...U C O m C CO O) 0 n 0 N CD N- ; Q C CD N 7 0) 0 C) N. O 1` N N. 00 CD I J 0) mO O D N O D O D D D IQ m 0 co co cow CD coca OD m aD I I,, a, co O CU T N N 1 U .� co O) O _ N C CD E m 'Cl a s NC N 01 _C a N N N m N .Cr d 7 N CO- OD r -0 tD I d d m U p .r o 2 m '- `- '- [ J o o Z' ', Z a a ch Cl) C) I N C 0 N 0 N 0 = N. CN r O O I N el C N C O COO - C '- O OO C ' 0 I CCCi ci Ci Nui 0. 0 0 o O o m o C O N O CD DC C 0n O CCD O) CoD a) NC O Q O O CO cc0 0CO cD N N 1- N O N N- r n r aN Nn n N- n N- N- r •2 •V 1 0 3 O 0 .- 5. z 3 P a 1 a 1 co RI d o c >) p •0d • aaAm amW R oN 1 0 NI • • i I W v III et Z .s `MO g SZ m a a. 0 0 z 0 U a c c 0 0 Oce ❑ ❑ a HH N 7 7 t0 (D oC E u) NN N N •C N '- r 0 co 6 6 F W (1) t 0, z L ii a) U 'O N m L w a) QL. a) ) cc toO N d z Oi '" CO c N U R UN c gc y U g v d N R Qom) O w U H m ce & t 0 a j z U >❑ 0 r :° I C/) J F r2 0 to ❑ L Cr) z i a 'Q a a) a) CIS CC Ct a >, CO z CO Z 0 u) a1- >- in 73 0 , CN 2 O >. LL 7" c c m C▪ v) a p -0 co E o 0 u 2 a d E• a 0 Q a a o I= Y a N d M .- m rn v o g vi E h- h.. v 4vi) 'w 3 4, c a 0 0 U R (- N U I- N 0 0 0 (0 m Lri J 0 m + N a m CO 'o N N N 0 co V t �_' (') coo G. dg� N. h.ui a > ai U a. N N N CO CO CO E o m a s o 0 0 < 0 a J J N .c Vii ton C • L u> N NN p 2 m <- ,- N w Y) CCD t00 QD a av) J) J) 2 ; 03 N. N g 1 m 0 a O N cci a Ls c � C 1 R V p c • a t O o O ❑ v • • . IIlit ,' W �_ kvq` 0M Qi?' MO a m IQ Cn Q 4.0 0 J Q Q 1 CD ct3 ce •V >+ L. W r o Q ct cc) CV 07 r CO tr) i -0 c N 1 N 0 t0 r M `"` " imr � o y .— a Z a a 6 d) to o LL N • • U raj z co `W0 N M o O O o v ^ mco o �MIII M 1 • N M 1o M N M u, a= N M0 C N ud N N NOCO O a a U pU Q 0 0 0 c o I > >, p O U O 0 z a m I 0 0 a m I V N J Y 00 O ?. (C N N N (a (O j Q N o U 'c CI m e ai d AI • ch (I) I- �W 2 m m m I 3 c O > J J 0 1 I ID v c I i « O. •� 0 I (n c 'O I i 0 a . La N .c J i -i J to (nn wd cIB F IO I N �. W VC m I 13. V V n O w ` 0 H E = 3 = V dda oo 1. N.0 vo (°v 0 A >, . m o I ,) w m I n e NJ 0 Z o 0 m o1 ::13 rnI 3 J 3 'O O N N to- O 1 CO On 1 O CO N O co I co 1 a 1 coNu CO 1 0 F I CL O O r... N CO1 re rn a " 1 Lei >, I t mz t ! I 0 i 1 I O 3 y oc c •@ i d g o II i= � IqI 0 O I I 1 N 7 W 0 0 6 a1 w O a c m a: o c �' c 13 Im O a 0 w cn 1 C tri -C = i m▪ .. 11 Z W 3 1 Tr 1 d ,, ,may y o O J + 3 O I • U Q I (O as , N m 0 W 0 � 1' p p m ai i o 0 1 0. to p.0 I D � I u) a c 0 NII O N 1 m U = - N N N 1 a _ M (Y] XeL 'VI p 1 N O O O N1 V 0j O O Oli N 0 1 N n Z r O O O CO0 N p O ! O 1 U) O U 0 11 0 � I g a E▪ 0 ' Q -c c Q O 0 N N Z C0 N N Z 3- o a CO m N N a a 1 ch m d, aim o .2 °' CO 1 y 3 g • m m mo N aZ O • N N N ¢ N ✓ U3z Q 1 cI 2z• aa666 I t mt e dl: d w E E c l ° 0 I m d o 5.. to .. 6 0 r C 1 N c 1 0 C 2 :U I O (n• (p 1c z g 75 0 OO N y d C O^ 6 0 6 !..._ ..a E O 1 a 0I O) 0 'O N i+ N OOain33a a` 202 rn inu�. a. 3 3 a. 11 3 2 � 0 a' > > P 0 • - - M la O 00 00 M O N N O N V V N O) N- a0 N I O O V O V N )O O N- N )n CO f.-., O ' O N N- 0 e- a i O O O 7 7 O C) h ui N )f) Ni N c6 on Ni N O co C) I -s N CO CO V V N N N O r CO 4Z Nii co O N CO V s- N V N (O OD u) O N CO V C) CO N- (D d O O O n aO 4) V N CO N O N O) N a, N CO N ° O O O O O N N C) O C) .- N6 N6 O .- .- 0° 11 C C Q J 0 T T 0 O O 0 0 a. L I 0 o 2 a 0) 0 0 Y O O !D N N co N CO 0) N N V V 00 O) N CO O (D V CO O (D co Z Q N O CO CO 0) N CO .- CO 03 (O O O )f) N- N- x- CO I,- CO O O CO N N N O ft) 00 (O (D CO O CO U) N- CO LOV N- N N co co 0 Y O) O O O N (D N a0 O N (D C) O O) O O n C) ( O ©© N CO CO co co C) V V t0 (O f� CO O N a, N. CO CD V (O C 0) O O) O) O 0) O a) O) W O) O O O O O O x- 0 CC i7 a a0 aO O co- a0 m 00 co- co- O O co- O O O O O O O O y O 0 (p 3 O O O O O to O O O O a a0 O O (D O O m O (D vi vi H2 W W I I, O N. o O N- CO o a0 co V N 00 V CO N (O O CO N ao V U) N CO (O V V O N- O V V N- N CO CO (O CO V N V CO. CO N CO V 03 O N CO CO N N- - CO CO d O V V CO N N V N CO O O CO V O V N- N aO NO O O m co o co co C) co M co CO CO V V C) CO CO N x- O O C G _ NA t0 N N N N NO N N (O N In f0 N N N U) N (D (O '.. t = O O O O O 00000 00000 00000 I w d H 1 t C OD 03 CO CO CO CO a0 a0 a0 CO CO CO a0 a, a0 aO co a.) a, O1 y o m a, O a, 0) a, 0 0 0) a, a, a, 0) 0 0 m a, m m m I Z (n (O N N N N ,. N O N(O )O ) ..6N N N (O N (O (O 1 d = 1 0 1 I E u e 'O C c V N C O CO N O CO O O a0 (O N N 5- NN- a0 r N a0 O x- CO N` CO .- D 00 (D CO O O O N- N� CO x- V CD4 P. gr) a - E 2 O O O O N O N O O N - C) O O O C) O N O ' odwV 1 0 A ,_ ,_ M C) -- (O O O N V O CONNI dR 1a .I: - IIS, -11.- 2Z (00 -`O m v v W 3 c + v v CV fx 2 «O o0. (0 + I O ._ N- N CO O CO .- O OO N C) N co O V Q N 0 0 0 0 Ili O <- t•-• (O N- M C) CO N CO N x- N- N- 00 O CO O V a) y ET > > > I O O6 N M N O N Ni V V N � N6 NO O CO >> a a I 1 0 0.E' W3 DIi CO I U I �p 0 1I c -- v o o ON. ao CO n (D CO CO N CO (n (n O v CO v N. CO C) Cr V co co N O (D CO CO N N O O CO N N N .-- CO Mn O a0 O O .- r N (O N aO co O V N- O V m O (0 N y 0 co Co O O O co 00 N - CO N N O 0 O 03 00 I� E a' '1' N ,- — N CO V N CO O r CO O O NN N 0) in os 0 Zc) + c � I a _ Fi F° CO 2 2 2 co O O CO N- aO C) h (O au 00 (O C) N (O O V C) V N II N O O CO O CO (O N V 0) CO O (D V CO CO N- N I N O co 00 O O a N o '- or; N m C) r- O C) N O C) 1 co O N- CO (O (O CO O CO O CO CO CO CO N- N- (O (O V V I N CO V NO (O (D N N- co O O N C) V (O O ' 1 I N r r r r r r r '!. N 3 II (n CO a 'I.-. II + J O 0 NN N 12- LL 7 7 H O (D O N (O r 00 N N- CO N V N- V N1--. V O O CO O I O I. CO N O V ." V CO CO t0 O s- O N O O (O x- O ° + (V v O C) N a .- 6 CO CO N (O co O Ni V O a0 O O 0 n COa0 CON a0 N- N- N- N- 0 O 000 000 O 1 Z 3Z ? r r r r` } g g 2 2 I E WN yr, o a a I I m N 3 IV 3.. U) aQ NN d N N H H COa , 0 O N O a0 (O C) (O (O N (O O C) .- N aO a0 V (D V ..7 N (/) 0) 0 0 O V (O CO (f) V CO N CO V (O - (O x- CO N (O O O N 1 Q O O O O O r CO N N- N O OO O C) N C) C) V C) V N N C) O r r r r r .- r r )0 ! o (0 00 C) C) (t) I I T W O O () N O = ap co a0 V O C N CO I'I F- N O N. COI E 3 Q O a J J I11 C V CO N N N I I ''I O 2 m Z a a U) (n (n O co O O O o O O O O O O O co N N O CO N- O N aD (D g O O O O N 0 0 O O O O O O (D CO O N CO (O O CO O (O CO CO Q E O O ei N n ui N O OD O O n (O a0 C) O O V N O V O 00 !O (0 N- O V CO O N. (D CO N CO CO CO O O CO CO O O 00 N- N- n (p O) E e (D N: '''.I _ •- •- N CO V N (O CO n CO CO O O N CO V N (O (raj Q o O w I 0 = o 31D C •• i s LL III a E •o 1-... d N d t3Z oN 0a 33o 1 u N 0 V W U0 OD O N O M UO M N N O V M O h m M m V M �-^ co M M M M V -- O N h m N O O O O M N- N f0 O V h 00 -a O h O V h 0o CO h 0V N N .-- O O) CO h (O 6O h h h h I . CO co O O O O O O O O 000 O O CO O 0) O) co O O) O) 0) O I CO CO N I 1 O Oil M2 j O as CO CO CO 1i. V (O O V O M M O O (O M O a N N N M00 CO N- 0 V M V O 03 0_ d V N O N O l0 O O O V CO O M N N V N M N CO O .- LO a- O 0 0) O O .- N6 M M N6 O O O O O O O O O )- N O O O O O U z • Q d 0 J >. 0, 0 Iii O o O 0 p p a N 0) 3 co O 0 H N O Z f0 O .- V N N O M O h N- N h O h N O O O N (O M 00 M O N N O N U0 O M (0 LOW O UD O N CO M O N UO M 00 .- O h O CO CO 0 Q V M .- O (0 M V h O V U0 CO N O O O O t0 O (0 N V 3D V M N (D O U M (D 00 h N V N N 6 N O 6 N M N O (O M O h 00 O N V (O O Y O O N V O h 00 CO CO CO N- N- N- N- h N t0 O (O U0 Un (O O O O O E U0 C .- N N N N CO NNNN NNNN N NNNNN NNNNN N (n ' O O O O O O CO. O O O O O O O O O O O O O O O O O O O O (0 O O (0 O O tD (0 O O O (O (O 0 (O O t0 t0 O (O (O O (0 O O d, d, r � w 1 w 1 III M M N h V CO O N N UO h N O cO (O O N 00 V M (O N U0 0) : O h O CO Un 0 N .- CO V 00 N •- O V N h CO CO O h CO V I N O N (0 h .- M O h 00 V N N N N V CO M N O a- N U0 - U0 CO Y) 1i N O (O M O 6 O U0 M N N N N N N N NN V V V M N N O (.3 'Q D) O O co O O CO CO O c0 O 00 00 00 00 00 00 c0 O 00 00 00 00 OO OO OO co C O c U0 v_ a V V v v_ V_ V_ V V V V. V V_ V V a V V V V V V V V_ is t E 0 0 0 0 0 0 0 c 0 0 0 o O o O o o O o 0 o O o o O o w t t+ 0) ) 00 OO O3, 00 OO 00 ( m m OO OO O m co co co 00 co 00 co 00 00 co 00 m Z O O 0) O 0) O O O O 0) 0) O O O O 000 O O Co 0) O O COCO N 0 N Un N 0) N UO 6 (n 6 UO N U0 Uci N N UO UO lO 0 0 0 0 N 0 N C O u '0 C Y y 3 N U) M O N co O O co O 00 (1) O CO O N- V M 00 N CO M (0 N O) .- I ` C Y N O O h h O M h h ao V OD .- N CO N O V h O h N M 9 y E w N N M6 h h N M (D V .- 00 c0 V N N6 (0 N O O h O6 N h O W d U N U) h O .- M V N UO (0 N V V V V V M M M N N NN M Mel CO ' 0 y re y Ce >. (0 . N N N M M M M M M M M M M M M M M M M M M M M M M M 1- 2 Z W O W 7 O . co M M N O O 00 h LCINOM O O CO CO N- N- h CO M O O h CL O 0) CO O OV M N- 0 O N M V CO M .- co a- .- co .- a- 00 N 00 (O III d) O O M CO O N V N h h 60066 6 OO h h co U0 (D h h 00 m 0i Ce I M V V� V V LO UA N (n N N Un (0 (0 U0 N In In N N N N Un Un (n U) COCL cu cn g Z 3 7 (0 C (L co .- O O M - - O O O co 0 — 0 co CO co O V e- O N .- N N I N. N 00 h N h h s- V O co co s- N (O V O h M O N .- M N I4(D O N h h N n M O U() o N O M 00 M o Un O) I- O UO -- O O o V V co co N NN .- .- Un O CO N N N .- O O 0 O O CO Oho C) co h 00 COO •- N M V UO (O h h CO CO O O .- N CO V UO UO O h CO0) O W .- .- N N N N N N CO' N N N N N M M M M M M M M M M a • (O .- O) O M 00 O O s- CO O O CO CO M O .- M CO V M 00 N N M M N O (D 1. CO h CO N O UO M O) U)) coNr ON) hN III co O N h 6 (O h M O N 0) UO 00 N h M O N O O .- U) V O t0 M N N _ O O O Cr, CO cO h N N 0 O O O 00 h N h (O O O) UO 11 h 00 O O N M M V N (O h 00 00 CO O O N M V N (D N 0O O '.. O a — - - N N N N CO- N N N N N N N N M M M M M M M M M M : g 3 h M O N UDONON 01000 O co UO N- h (O N co h co co co co V (O N O M V N N N O V O CO V N (D O N V O Ub 00 � O O h O M V N O UO U) 00 (D O O O O V V U0 h M M O (D O 00 11. t5 O O O O 0 0 O U0 V U0 O (0 h h N- O h O 00 tD O O O _ a- a- s- .- N N N N N N N N N N N N E a -- m - cnQ h N O O CO N Un N U0 O N .- O V N- N h V M .-- V O N 1II O c0 O CO 00 V l0 O LC, N- r N 00 c0 0 CO. 0) O M (D V n Q 3)N) (N o h t0 (7 .- ,- .- )- '- ,- .- .- .- )- N N C] .- .- cc U >. V N m C 0 a J CO Z I z < O t -0 CO N N CO H O 2 m `- `— ,- Q 2 a a U) (I) U) 1 co CO O V N c0 M h O V O N (D O 0 CO N h CO O h N V UO CO U0 1 00 .- V N O (O O h CO N 0. N O CO w N U0 O N- V .- N V h CO CO O I CO N O V (D N O M O [O O — UO U O V O (D N 6 M O 6 .- h M I UO O U0 UO M V V M M N N N .- 03 a M M N N N .- O O O 0) O 0 a h CO CO O .- N M V CO h 00 00 O LL O O N M V M (D h CO CO CD (.) 0 .- N N N CO- N N N CO- CO! CO- N Cr CO- CO- M M M M M M M M M M I O 0 C d 1., 2 3 0) b Ud V O C >. 4 N d E o 0 N w 1 0 O U d N O 'I U) N • • N 0 sr N CO Ul CD U) N N V U W U) M O N a0 O U) 0 4 O N N- M N. 0 M M LO U) O N 0 N` U) N al d' 0) U) N- N- O N cD d' O i,V - f- N- [D f0 N V' M M 4 V' U) (D cD 6 U) (D U) 4 N N co t0 O O M N c0 ' 3 �� 0) O O) O O 0) O) O) 0) O) O) O) O) O) 0) 0) D) O) O) O) O) CD N V' CO Of N m 401 W; In cn M2 > o mg= Lo I CO MIN V' N. 0) 0) N. O N 0 0 O) co M N U) N N N- M U) CD N- V' O N cD N` I,' COa d •- N 0 ? N m N .- M N M -N N ' N r N d' M Cr) U) O M O 1 O C) O O O O 0 O O O O 0 O O O 0 0 0 O O O N 6- V 4 4 U) 6 o O. v Q Ns w 0 3 J T T a 0 ce _ 0 O ❑ ❑ t... N O 0) U Y = = CO N o0 -. ` co CV 0 dco CO M N UN M 0 00 VN M N Q M Q) V' a0 U) O) N .- ' coM U) U) M_ N O U) U) M V' O) N U) LO 0 N- N O O 1 co V. 0 N .- n N U) U) U) co a0 O U) 0 M CO co N- N 0) N N UO U) 0 c O M R N U) U) )D O U) O U) N V' N .- O OD U) c0 d' N cD O o0 O .- Y 1 U1 N- N- N- N- n N. N- N- N. N- N. N- N- n N. N- O U) tD r 0) V' CO el C) E U) I c NNNN NNNNN NNNNN NNNNN NNN M M co d' a C' O co- O O O O O O O 0) O) 0) O O O) 0) co- co- O 0) O O O O O O 0 - N N .- ,— .— .— .— .- .— .— r s- c) 'C Q N = co co U) co co co co co cD co co co co co co CO OD 0 0 o co co co co co co co 1 V) N H W W v !1 N 1- M V. M CD V' N. O M N c0 M c0 Cr) N M M r 0 V M CO V O O !, CO O U) U) M O O a) 0 N c0 00 O V N V' N- O O U) CO co co CO CO N O N. M O U) 4 M N CO O. V' O (0 U) O N- N- O U) d i O 00 r U) 4 M N N N M 7 U) U) c0 N- N- N- cD cD U) U) O M 6 U) 4 U) V 16 co N. N- N. N- N- N- N- N- N- N- N- N. N- N- N- N- N. N. N- N- N- N. CO 00 O 0 p c V_ V_ V: V' V V_ V. V: 4 V d v 4 4 7 4 V V V' V V a R V' d' co U) t t = 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 c 0 O 0 0 c at Z = 0) m 0) 0) m m 0) 0) rn CO 0) 0) 0) 0) rn 0) 0) 0) rn rn rn rn 0) 0) m 0) 0) co- U) U) U) U) U) U) U) U) co- U) U) U) U) U) U) U) N U) co- co- co- co- U) U) U) U) d c rO u C I V m I 'O ` c N �O) li M D 0 O CO O OD N N U) N. c0 N- CO O 0 OO N. UO 0 O V U) N. 0 CD N V. N 00 N al cD U) V' O N N 0 N- N 7 N. 0 00 M CO N- M m 004 yy i 0 U NN O O N M V R UUN U) Ud V M N O O - UD M U 0 0 UO 1 co -c- 4 4 7 V' Sr O. V V- V' 7 V V or V- M co co M V' CO CO U) O O 0 0) d C4 T R co M M M M M M co co co M M M M M M M co co co M M M V' V' coo i3 0 J I- 7E Z b) O I'1 r I O co N- 4 CD O M N N- cD 00 N O V' U) V U) O 0 d• 0 (7) C) U) O. CL O CO CO CO CO M d. N O ,- CO CO V CO d` ,- '- !Al CO CO ' N- N O N- N U) I U) , O c- M V' U) N- O O N— N— O U) 4 CO M M M M d• d' V' 6 M O au 6 CC I c0cO c0 c0 cD c0 c0 U) U) c0 U) c0 c0 c0 U) c0 cD c0 U1 cD cD c0 N M N 1- 1 O. H1, CO = z = co RS 1 LL N O c0 M N O N- N- O N N- N O N Ou M O O OD cD N- N U) N- I O O .-- CO CO 00 v- M U) N- N- M m CO O U) cD r- ,- 00 N CO .- O 00 Ul V' 1 7 O U) O N m d• O V' N O 4 O cD M O N O_ c0 U) N- N— N cD N 00 N. N- N- O c0 N U) U) V- V- M M M N N 0 0 O CO N- CD V' N IO1 O 0 N M V' N O f- CO O O •- N M V U) O f- CO O O 0 '- N M V' 1 NA - CO d• V' V' V' d' d• d• V V' d• U) U) U) U) U) N U) N U) ))) U] cD c0 O U) O 'i a I 0 7 I I N O CO M N O N- N- CD N N- N 0 CO 00 M O 00 00 CD N- N U) r U) U) 1- V V 4 N- O co M O V' V' d• N N- 1- V' CO V N. N d• N O M do d• O N r I- M O d' N OD V' O O M O V' O O O U) U) f- N O N co V- V' d' co co N N N O O O O O O 00 N- 1- N- c0 U) V' M O O .- N M V U) c0 N- CO O 0 ,- N M M V' U) cD N- 00 O O N CO V- O. ^ V' d' V' V' V' V' d' V' V' V' cO N N N cO U) U) N cD U) N co co- cD cD (0 co li 1 O co O O U) 4 v- N CD (l) cD V- N- M CO CO e- N- M 03 O N- N- 0 V U) ' 00 V CO V' CO N- O U) U) CO O U) 0 CO CO 00 N N N M N 4 O N- N 0 1 O N d• 00 V' v- 0) U) O V' O V' O cO O cD N N '- O 00) 0 ' .c N M CO V' 4 c0 N ,- U) M M O N. CO N U) V 0) CO CO 00 00 O N- CO !I '- s- ,- ,- <- co co M M N NNN N N I •r, _ o_ co Y Q co V' M 0 U) cD N M N N V. 0 N M O U) O N- N U) 4 '- 0) N- 0 JN N M O O O U) M d' LC) LO N- 1- N- OD N- 0 O M N c0 U) O M U) N Q .- O O O O O O O O O O O O O .— '- '- ,— 6 N N- N N- N 6 I N N M M CO > 1 0 CO c E -a (I) f0 Q -C N N 01 O 2 co Z 0 0 co co co N N N O MO O O N- cO N a0 O- N U) N O COO 03 c0 O M c0 OD M N li g c0 O CO V V' U) CO O N V" V O U) U) CO CO CO O O cD V' N- M 1- O N- M I Q 'll O U) , N- N 00 4 N- '- O cD .— N- M O U) O M 6O O co co N. N- CO c0 O () U) .1- O. V' M M CO N N s- 0 O 0) O 0p O al al I'I O ) N M V U) c0 N- 00 O O N M R U) CO N- 00 O O .- ) N M V' U) C') .0 li V d• 7 V' 7 V' V' d• d• V' U) U) U) U) U) U) U) U) Ui N co- cD O 6 co- O CO- rO C .. ' !. 0 OONy O d bONNU a N_ O ! v) 4 • •• _„ ....y CO OW N W O O O N CD O W W O O C WCO O CD N. W M CO V N- N CO U) CD O M W CO CO CD V' C) N W V' W O d' O) N- W N O) W n N W M W 0) 4 W 0) W W Ni 1112 03 01 N N N M M M CD N- M O N N N- O M CO CO N V' W CO 0) O N M �.w V' V' v V' U) u) u) U) CD W CD CD CD N- N- N m kl uV d io N O ' 6 S1 co m a N co V- V' N CD V' M O C) N- CO O O 0) 0 N- N V N W C) CD d '; V' O N- N. O W M M N M O M N N- I` N O M N- V. W N U) N U. 0 U U) 0 C) N O 6 4 O O) W CO N V' Ni d• C) C) U) U) O Ni Ni O O Z .- .- 4 M ,- M M M M M M M M M M N .- •- 0 Q IO)N C C J N 3 O T T O O O O O a o D a d N_ Y J .0 3 N • O) M W O V- O V' M N- O CO CO CO O N- CO N N CO C` V' N O 0CI CO _ O O Q • CO CO N- N CDCO LO 0 CO CO C` N- CWO CO V' W CC!) CNo 00 CO CD CO CO N V' O U) 1.-- CON N pW,CD Y C) ) Ni M 1� O V' I� W W N O r t` W C) O O N.: r C) Ni W V C) u) N O N M W O N V- C` 0) ON N N O O 1- N M .- W ill U) u') CO CO W N- n n r W W W CO O O CO O O O CO CO W W W I� E a ai m C 0C o) O 0C 0 0 of 6o of ai ai ai of 0) o) aS ai ai 6 0) N N N r .- ,- r r 5- .- .- .- ,- .- s- s- - Q 1 N .=.. W W CO CO W W c0 c0 CD W W W CO W W W c0 W W W W CO W CO W U) V) H z W W 1 , WCO r CO DC N O O O pNp CvD 00 ,- MN- CO .- C) C) u) OW .- V' U) N- V' M N W U) N O O O ' W N N W W V' N O CO. CO CO C) O O CO N N CO O O O W U) N 1 W N V' N C) 1� 4 6 M c0 W W W N U) O l+) N W W V' c) .:i O) N M V V' N U) ca CO N- CO O ,- M CO CO .- V I- O CO c0 IN 0) s- CO ` 0 C c0 u) N C) C) N u) N C) N N CO CO W CO N. N. r W W CO CO CO CO CO I. L L- = 6 6 or. 6- 666 66666 66666 66666 66. 6 N W W W co W W W W W W W W W W m m W W W W W m W W W Z 7-, O O O O O O 0) O O O 0) O O O O O O O O O O O O O O U)• N U) U) U) N N N W U) N N C) U) U) N C) W 6 h N C) N N O 2C e) O c_ 6u is 1 C V d O CO V' ! N M N CO 0.- '- W CO O 0) M U) CO O N- CD M 9 P. C Y CO N-N c0 00 DC V: O M N V' CO W IN V' CO CO N. N. O O C) N co M co M O - ` d U N N CO N O V' W O N- M W N co O n W V O Ni Ni W N V' I� CO O M CO OV' CO 1- O CO O O CO N. CO M W CO u d d W 0. d CO CO N.. N I` n W W W W 0) O O O O O O O O O O O O W W A O Gf ` J 2 Z V) O 1, W 3 11 O r N M V' M d• W W W N V N O W W W O M M N. W o 0- n R W N W W U) O N CO V- 00 V- O N N O N CO C. O O O IN Cl) CO 00 N O R r O 6 Ni Ni C) M U) O r N- r N- U) O M W r n U) CC — .- N M V' CO W M c0 O N U) N- o N V- CO CO .- NNNCIM M M M CL a) 1 Ing m Z z _ m 1 Cl) I I asc iZO N O N N- N N- N M N u) N M V' W W V' O W N co CO n N 0 M W O N- CO N C) CO W N d• V' U) N- -- CO V- CD CD W I CO 1 N- W IN 4 Ni N- 4 6 7 N- O O a) W W N W 6R 4 M M N O IO U) O co V' C) W N. N- N- r N- I- N- N- N- N- N- N- N- n N- N- N C) ' V' O O CO CO CO CO CD CO CO CO CO CO CO CO CO CO CO CO CO CD W W W CO Of RS H ...- CO CO CO cD CO W CO ‘,6 c0 W cW c0 co- W W co- co- co- W 6c0 co- (O CD 6 O 3 1 co N CO N N- N N- N M N C) N M .- 7 W W V' O co LOW O CO CO CO O V- N N. CO V- W .'- O V' CO O O .- CO IN C) O N N V' I IN CO CO M N 4 I` V' N- W O W W N N W N V' M M M Ni O 1 W N CO CO O N M V- V- V' V' d• V' V V- V' V' V- V' V' V' d• V' V' U) CO CO CO N- n r N- IN N N N- N N- N. N N N N- N- N. N- n N N Qe_'' CD cD c0 <O CD CO c0 6co CD W C.6 00 CO COCO CO (6 (6 (6 (6 (6 (6 (6 6' 1 11 V N M CO CO N CO CO V M O CO V- O W Cr, V' CO CO O N CO V' W CO O CO I` O U) N- W IN CD IN M CO N CO .'� CO N. ,- N- O CO N W O O N .- .- '- O N N O W W N W N- r W C) U) W O W M O N L W W W W W W n N. r CO U) V' M N U) V' M N .- .-- O O 7 CO 0101010101 COMM E CI- CO I Cna O CO N W 0) V' n O N V' I- C_ O W W O O M O O M O M N V' W O U) O CO O N- M M M V' M O O W W CO. V' V' N O CO O Q M I� N CO N W .r .- co co O O O N .- O O V' V' N O Cn co C) I- W W W O O O O O O) O) O 0) O 0 0 0 O CO 0 V T I 03 m C °._. Z E L7 H < 0 a J J 0 m t 10O ? m N N I- all Q cofN Z a a U7 n O O O .-. 0 .-11 N O N N V' W W W 7 O W n O d• O ON N- Q N O O N W N C) O V' O O 000 R O O N M M M M M N M M W CO N V' 2 N M N N W v Cn N C) U) Is; N U) Cn C) U) M M M M M M of h N. CO N N W .- N C) W V' N O CO CO O N CO W Q cn CO N. CO c& W W O O O O O O O .- .- .- N NNO Mel V' V' VW' el.,O CO j Er W co- W F W W W W W W (` r r C- N- N` N N. N- N- N N- r N N N O O C a) oorda 'd 11 N • s _ III y N- O CO N r- M 00 Co 03 CD CO U) c. CV CO N CO CD V' .- CO CO U) N N V' V' N CD U) N CO r CO M CO O r N V' CO .- Co N a ,. 7 cc; V O N ON N O r M r O) O O O CO N r O N M M R U) U) La CD CO (D (D N U) V' CO CO N O Cr, 00 (D 0 M 3 gm Z r N- r r N- N- N- r r N- r N- N- N- N- N- r CD CD CD CO CD m `NNEci W; ins o M j o COiii CA V' N- M CO N V' O N O .- CO CO M 0) r r Cl CO (0 O �cc' N- O r r V' N- N O r U) 00 V' O O O M 00 N- n N O C U DC CD Di O Di Di Di C` 0o OD CD CD co O) Di 0D Di D) ai Di CD O Z N NI" Nr Q DC a) c c 0) 3 J o T T 0 O O O O c 0C ill J Y Cl) tct, N c- OD U) r CD CO D) D) N- N CO v- O Cr, r N CO r V' O M d• CV O O O d• O CO N V' COD) CO 00 "- O N M r- D) O O QOI ai c �'I V- co M (O Cr, N 0N CO N (D O CO CO V' r N (D N N CO CD U ) I O N CO U) - U) O M (O OD O N M M V' V' V V' 4 N Cn 4 p,/�, 1 Co r O M O O a m U) M O r V' CO U) N Cr, CO CO O v v r N- N- r O CD CD CD CD U) U) U) V' 'Cl' 'Cl' CO M M N N N N (� CV C4 E i7 0I of of C Cr; a) O) O ) O ai O D) D) O O O O ai O ai 0 .- r- 1 N )- )- ` - Q . IL aCO CD CD t0 CD CO CD CO c0 CD CD (D CO CO CO (0 O CD CO (D CD (O (n6 H m W I N V' CO O 0 V' CO O M N U) 1- V' CO Ln O U) 0 V D) U) CO CO CO N N- D) r V' O CD 00 CD O N N- N- (D CO N .. N (D M CD O N M NCO LOCO (D O N N N N O r O 0D r 0) CO .-- O O M OO N CD (D CO N N W M O r cd O V' O V' C) O V' N r co O N CO N (O r CO Cr, O O O O C o c Cr, m O O o 0 )- ,- 0 0 0 0 co .0 L o O O O .- r '- r r r r r N t. (C aD 00 00 m m CO CO CO m CO m CO aD co ao SO CO CO CO aD CO 00 m CO 0) Cr, 0) CD CO O Cr, CD 0 0) 0) 0 Cr, D) O) CO m O co rn cZ co" U) N U) U) U) CD N N N vi U) (D N (D U) U) V) N CD Cn La- e -; O «y C N N 1 O d c 0f 0 co 'fl0�1 ` 7 M W r U) V' (a U) O O O U) N U) O O O O N N Cr, r- y C V O O N CO CD r N CO CO 0 V' N CO N U) CD r O U) r CO ' o d ((d. 00 U) O (O N OD M 0D V' r O N Ni M M M M V' V d• M V w w d U W co M co co V' O CD CO O aD U) N O CD M O r V' CO ce >. 07 1 co co ao r r r r CD CD CD CO (D U) (D V' V' V' V' CO CO CO N • 07 t d a c10i O 0 r 2 !9 H (D O J 2 2 0 1' (DCV ND o N CO N1 O CO 03 CO CO N V' M N N V' CO N r r CO N V' V' U) CO O a : N CO O r V' Cr, N CO CO •- R ,- V' CO CO CO CD 00 U) CO N U) N CD M O O co O N O CD O M U) (O vi M O CD O O N V' U) N- O O ,- M V• (D U) CO r N- r r N- N- CD CD M V' V' V' V• V' V' N co (D Co in tD U) N Co co CD CD U) co co m 2 1 Z v) m c V' O O N .- O V' 0 N O O O CO U) CO CO CO CO V' 0 V' N- CO O O CD CO U) O ,- O CO CD U) CD CD U) M v- O (O r V' O O N N N O 00 O 4 O r N CO O r U) N O co N- r r r N- N- CO CO CO (D CD U) (D U) U) In 'Cl' V' V" V- M M N O CO CO CO O CD CD CO t0 CD O CD CD O CO CD CD CD CD CD CO t0 t) : N (o CO CO (D (O (D CD (O CO (D (D (D co- (0 (0 (0 (0 CD CD co- (o (D 0 0) V' o O (o c- o V' ON 000 0) U) (D 00 M M V' (D V' rI II N (D (0 N 0) r v- CD N- CD V' N v- N N ,- O r CD N CO Co I r- O O .- N O O r N M .- O r N M OD Cc V' N O t0 0 Ili I V' V' V' V' V' V' CO M M CO CO N N N N N v- O O Z i N- . r r r r r r N N r r r N r N r N N N r r ( CD CD (D CO f0 t0 CD ( D CO (D O f0 (O f0 C CD CD O (D Co O Q ZU LL) ' F I Q Q U O I 0-. W O CD O CO N CO CO V' 'Cl' 00 CD 0 V' N 0 CD Ln CO N- N- 03 0 V' U) V' O r CO 0 CO CO r N V' N- O CO CO CO O N N N < ar I N r O r L i N O r V' N O O M O OD U) N O O V' L O O 00000 CO O O C0 00 00 CO N N r CO a) CO (O O D H M M M c+) M CO N N N N N N N N N N N N N N N N '� Z E m _ a Cl) CO m m •R II I cc; (D QCD Q 1 N-CO CD L N CO CO CO O V' N r CO U) V' U) M N N co U) N M O co 7 co O O O V' ' N Cr, DC O N- r V O r O Cr,V O CO CO Q 1 r OO O M N M R M V' V' M M M d• V' M V' Cn U) U) O OD OD OD O) O D) O O O O O Dl O O O O D) O O O O Cl) m CO C) D. V IM O m co C °r:. 1I 6 4 E 0) l0 N < O a J J 1 I N C'i. C -0 N N N 0) w I O m .- .- O YO 1 Z a a UJ (1) U) O t _ U) (D CO <- CO U) O C0 N- CO r .- N- 00 O M 00 .- O O Cv- N .- (- N0 .- O M M M M CO 'Cl- N CO O O C CD C CO U) N N U) Co vi U) U) N U) N U) CD U) U) U) N V' CD r C U) co N U) co c- V- r O CO CD CO N U) 03 ,- V' r O CO CD CO 0O V' (D U) N CO CO CO N- N- N N CO 0D C0 O O DCC) O O O N (h 1:1 O - r r N- r r r r Nr N C- r r N- r-- N co- OD co 0 • 0- .- O i m g y a coca a m o c 0 a m m E o w ' ' a Z ✓ m w oC1 ' a a. 03 A I N v • • All iso Za Emig ca o 41 c, In Q a 0 I 0 C.) U Q c c p 0 0 0o 0 � a I ec U) N 0 Y c3 2, q56 CO Z N O) 0) Q N 6 cO U ' @@ E Lr, NN N .- >o E c 0 0) > o) 0 H W a) -a a) L N a) • -a C O W Lm ! N I L a 2 N c 1 co O z C▪ a V2 0 v c u : a C V O w 4, w ci a) .) w m U a J 1- 2 Z U) 0 0 6 0 -Q 0 0) a a a)CC 1Z a 0 Ca z 0 v, co c ii N c C m 0• (• n 0 .9 IDo E o0i) N a E a .o CO 0 o a O ° a a ✓ i Y a 0 I M CO M to 0) M CO E. co CO N H W 2 0 + R C =a o 0 0 i is 0 ao 0 t) N- 0) N 0 6 N N 1 9 E co M N 2 -1 I a 00 co v N. Q 0 N O YCO £ r a 0 Qami p Z. 1.6 CO 00 Q > m U >. I N 00 E 0) 0)a N- O O < 0 a J 01 'O M 0 O`) L M N I: ✓ a c0 11 l a y v v o Z a co u) c)0 I c v 0 a n r co- g 2 Q v)l O cy c O r 1 ni▪ V `o C 0 0„�� od4' d 01 a U a (/) O a N v 1 • s ii 2 Northing(45 usft/in) ,' N No noa EN1 .d m Ov o i _o � 1� gi„, F, F, Ea, ii 0, 0 0 .0 0 .11 ism 620190 -�� t- -620190 IL sz 620,45 ow"-' �- 620145 620100 _ � f- M LD M ..Sk: 620100 620055 ,q icb i N ,��„ _ 4 _!NNW!� ` --la Zeal�620055 620010,�� -I ,,' , !Iu620010 619965 . - - - I •619965 dIIi1. 619920-- _—. ,Aimie ` - i� I 619875 • F°'°Ai 619830 --� ��' , ,619785 m , I ` or, , 619785 L"'� a5ETi i v 3 619740liii!! 619695 1 -- 619695r , rag----I i b ipp i1 619650619605 ■ \ --- .row 619605 Q a 619560 • \�`►�, I 619560 J 619515 �� �•, _''iii, -11411 - - 619515 pp n� np a ` i• w w w 619470 y 'I ' ',� ,,� 619470 p 619425 _„ sin,- 111211 619425.__ CO c 619360 PIM'_ EcoLI! i1iim.uII,,.: :::: �v:sc�as�o19335 ���-M. �..:.c-a_ ' u 1 aPfe m 619290 / , 1,111111111111ar..0 Irtfril619290 m CD 6,9245 ry1■ii [.�a� E, • ■ rilliMERWAsuld 619245 /�6,9200- a ■ :• \” ' .�619200 ((�/J)619155®���_-■ ■i1i i wl 619155 619110 11 MiliftmEISIMINIII le P�A,619„0 0619065 I 619065 616020 mmmin - 616020 nursEn. C. 618975 o . - --""O� -- orr, roil 1 618975 lmF q`q618930110 ��'�11�r r ' -,' i, I 618930 o.i.n 8 6,8885 /���i:'" / r ��' ��' ;,618865 mo� nnA io ori 4 n�ou�o�ry �/ �1 d 616840 1101 � ,1711L'111N f�� , s,e6ao 618795 . 410 ' • // � ,'�':� , � 618795 618750All ,--- A" if',"Otiri �1-, A r . 618750 618705 � 0,0r� '% �� "��0 ` - - 6,6705 6186601511r7-- -�� 1� I , °A �� 6 8660 • J 618615 pit _ I yv/ E,./ �� IO i..i 618615 nuJj�`1-rW ��� tl yy 618670 =. m: fiery/ j� .' n�.1 618s70 -0 618525 GJ/ _•2 L� PM,M.>Y'i?! -- .` , �t � - --- ~ 'N'-- a 0 u �0.ju, r.� v�� r'dl'I a� I q u, 618525 c 0 (uinjsn Sb)au!IflJO 1 • • ObP Post Drilling North America - ALASKA - BP Prudhoe Bay PB S Pad S-112 S-112L1 S-112L1 Post Drilling Offset Report 27 April, 2016 rp1 BAKER HUGHES AOGCC OFFSET REPOT: • BP • f®II 0 bp Anticollision Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 ' Project: Prudhoe Bay TVD Reference: S-112 @ 69.60usft(Doyon 14) Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.0ousft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 Offset TVD Reference: Offset Datum Reference S-112L1 Filter type: NO GLOBAL FILTER:Using user defined selection&filtering criteria Interpolation Method: MD Interval 25.00usft Error Model: ISCWSA Depth Range: Unlimited Scan Method: Tray.Cylinder North Results Limited by: Maximum center-center distance of 500.00usft Error Surface: Elliptical Conic Survey Program Date 4/22/2016 From To (usft) (usft) Survey(Wellbore) Tool Name Description 100.00 688.10 S-112 Srvy 1 GYD-CT-DMS(S-112) GYD-CT-DMS Gyrodata cont.drillpipe m/s 703.68 6,883.51 S-112 Srvy 2 MWD+IFR+MS(S-112) MWD+IFR+MS-WOCA MWD+IFR+Multi Station W/O Crustal 6,912.00 7,463.37 CTK MWD 4-1/4"(S-112L1PB1) MWD MWD-Standard 7,475.00 8,065.01 CTK MWD 4-1/4"(S-112L1) MWD MWD-Standard � II 4/27/2016 12:59:58PM /J,\ O0CC OF E REpOR7 COMPASS 5000.1 Build 61 BP• 0 FA it ll 0 bp Anticollision Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay ND Reference: S-112 @ 69.60usft(Doyon 14) Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.O0usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 Offset ND Reference: Offset Datum Summary Reference Offset Centre to No-Go Allowable Measured Measured Centre Distance Deviation Warning Site Name Depth Depth Distance (usft) from Plan Offset Well-Wellbore-Design (usft) (usft) (usft) (usft) PB S Pad Plan S-136-Plan S-136-Plan#7 S-136 508.31 525.00 132.25 10.06 122.23 Pass-Major Risk S-04-Plan S-04A-Plan#5d S-04A 3,972.54 4,125.00 191.61 48.52 143.29 Pass-Major Risk ' S-09-S-09A-S-09A Out of range S-09-S-09APB1-Plan#7 S-09A Out of range S-09-S-09APB1-S-09APB1 Out of range S-09-S-09APB2-S-09APB2 Out of range S-09-S-09APB3-S-09APB3 Out of range S-100-S-100-S-100 216.71 212.79 106.38 3.60 102.78 Pass-Major Risk S-101-S-101-S-101 603.91 600.00 81.87 13.21 68.69 Pass-Major Risk S-101-S-101 PB1-5-101 PB1 603.91 600.00 81.87 13.21 68.69 Pass-Major Risk S-102-S-102-S-102 179.34 175.00 121.38 3.59 117.78 Pass-Major Risk S-102-S-102L1-S-102L1 179.34 175.00 121.38 3.59 117.78 Pass-Major Risk S-102-S-102L1 PB1-S-102L1 PB1 179.34 175.00 121.38 3.59 117.78 Pass-Major Risk S-102-S-102PB1-S-102PB1 179.34 175.00 121.38 3.59 117.78 Pass-Major Risk S-103-S-103-S-103 734.33 725.00 240.95 12.50 228.56 Pass-Major Risk S-104-S-104-S-104 301.29 300.00 317.07 6.30 310.77 Pass-Major Risk S-105-S-105-S-105 804.18 800.00 303.80 14.52 289.29 Pass-Major Risk S-106-S-106-S-106 221.79 225.00 271.64 4.99 266.65 Pass-Major Risk S-106-S-106PB1-S-106PB1 221.79 225.00 271.64 5.10 266.54 Pass-Major Risk S-107-S-107-S-107 449.53 450.00 230.24 9.47 220.77 Pass-Major Risk S-108-S-108-S-108 777.78 775.00 178.71 13.21 165.52 Pass-Major Risk S-108-S-108A*-S-108A 33.29 33.30 180.14 0.93 179.21 Pass-Major Risk S-109-S-109-S-109 904.24 900.00 119.88 16.66 103.21 Pass-Major Risk S-109-S-109PB1-S-109PB1 904.24 900.00 119.88 16.66 103.21 Pass-Major Risk S-110-S-110-S-110 826.30 825.00 142.71 15.74 126.98 Pass-Major Risk S-110-S-110A-S-110A 825.67 825.00 142.71 15.73 126.98 Pass-Major Risk S-110-5-110B-S-110B 813.18 825.00 142.56 15.47 127.10 Pass-Major Risk S-111-S-111-S-111 153.72 150.00 196.50 2.99 193.50 Pass-Major Risk S-111-S-111 PB1-S-111 PB1 153.72 150.00 196.50 2.99 193.50 Pass-Major Risk S-111-S-111PB2-S-111 PB2 153.72 150.00 196.50 2.99 193.50 Pass-Major Risk S-112-S-112-S-112 6,925.00 6,925.00 0.15 2.51 -2.36 FAIL-Major Risk S-112-S-112L1 PB1-S-112L1PB1 7,475.00 7,475.00 0.00 1.36 -0.98 FAIL-Major Risk S-112-S-112L1 PB2-S-112L1 PB2 7,475.00 7,475.00 0.00 1.25 -0.88 FAIL-Major Risk S-113-S-113-S-113 700.00 700.00 217.65 14.57 203.10 Pass-Major Risk S-113-S-113A-S-113A 700.00 700.00 217.65 14.96 202.72 Pass-Major Risk S-113-S-1138-S-113B 700.00 700.00 217.65 14.96 202.72 Pass-Major Risk S-113-5-113BL1-S-113BL1 WP12 700.00 700.00 217.65 14.57 203.10 Pass-Major Risk S-114-S-114-S-114 553.21 550.00 292.55 11.79 280.77 Pass-Major Risk S-114-S-114A-S-114A 553.21 550.00 292.55 11.79 280.77 Pass-Major Risk S-115-S-115-S-115 680.86 675.00 66.85 12.40 54.53 Pass-Major Risk S-116-S-116-S-116 429.90 425.00 58.39 7.72 50.70 Pass-Major Risk S-116-S-116A-S-116A 429.90 425.00 58.39 8.16 50.26 Pass-Major Risk S-116-S-116APB1-S-116APB1 429.90 425.00 58.39 7.72 50.70 Pass-Major Risk S-116-S-116APB2-S-116APB2 429.90 425.00 58.39 7.72 50.70 Pass-Major Risk S-117-S-117-S-117 604.76 600.00 48.60 11.51 37.12 Pass-Major Risk S-118-S-118-S-118 505.14 500.00 43.33 9.18 34.16 Pass-Major Risk S-119-S-119-S-119 305.58 300.00 168.01 5.94 162.08 Pass-Major Risk S-120-S-120-S-120 404.71 400.00 32.76 8.35 24.43 Pass-Major Risk S-121-S-121-S-121 529.18 525.00 70.57 10.05 60.52 Pass-Major Risk S-121-S-121PB1-S-121PB1 529.18 525.00 70.57 10.05 60.52 Pass-Major Risk S-122-S-122-S-122 779.37 775.00 44.51 13.72 30.86 Pass-Major Risk S-122-S-122PB1-S-122PB1 779.37 775.00 44.51 13.72 30.86 Pass-Major Risk S-122-S-122PB2-S-122PB2 779.37 775.00 44.51 13.72 30.86 Pass-Major Risk 4/27/2016 12:59:58PM AOG cc O FES? R E pO Rte? COMPASS 5000.1 Build 61 • BP i rail" { bp Anticollision Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: S-112 @ 69.60usft(Doyon 14) Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 Offset TVD Reference: Offset Datum Summary Reference Offset Centre to No-Go Allowable Measured Measured Centre Distance Deviation Warning Site Name Depth Depth Distance (usft) from Plan Offset Well-Wellbore-Design (usft) (usft) (usft) (usft) PB S Pad S-122-S-122PB3-S-122PB3 779.37 775.00 44.51 13.72 30.86 Pass-Major Risk S-124-S-124-S-124 Out of range S-125-S-125-S-125 525.98 525.00 96.86 11.06 85.80 Pass-Major Risk S-125-S-125PB1-S-125PB1 525.98 525.00 96.86 11.06 85.80 Pass-Major Risk S-15-S-15-S-15 4,815.91 5,100.00 108.03 70.98 37.19 Pass-Major Risk S-15-S-15PB1-S-15PB1 4,815.91 5,100.00 108.03 70.98 37.19 Pass-Major Risk S-16-S-16-S-16 5,109.61 5,450.00 246.59 144.16 102.67 Pass-Major Risk S-200-Plan S-200A v4.0 (S-503A)-S-200A wp0 461.20 475.00 27.87 8.03 19.87 Pass-Major Risk S-200-S-200-S-200 452.76 450.00 27.76 7.93 19.87 Pass-Major Risk S-200-S-200PB1-S-200PB1 452.76 450.00 27.76 7.93 19.87 Pass-Major Risk S-201-S-201-S-201 252.49 250.00 256.63 4.64 251.99 Pass-Major Risk S-201-S-201 PB1-S-201 PB1 252.49 250.00 256.63 4.64 251.99 Pass-Major Risk S-21-S-21-S-21 4,306.79 4,375.00 414.11 66.18 348.27 Pass-Major Risk S-213-S-213-S-213 453.46 450.00 18.10 8.25 9.89 Pass-Major Risk S-213-S-213A-S-213A 457.54 450.00 18.16 8.31 9.89 Pass-Major Risk S-213-S-213AL1-S-213AL1 457.54 450.00 18.16 8.31 9.89 Pass-Major Risk S-213-S-213AL1-01-S-213AL1-01 457.54 450.00 18.16 8.31 9.89 Pass-Major Risk S-213-S-213AL2-S-213AL2 457.54 450.00 18.16 8.31 9.89 Pass-Major Risk S-213-S-213AL3-S-213AL3 457.54 450.00 18.16 8.31 9.89 Pass-Major Risk S-216-S-216-S-216 305.09 300.00 14.35 6.54 7.82 Pass-Major Risk S-23-S-23-S-23 4,220.26 4,300.00 438.34 60.94 377.72 Pass-Major Risk S-24-S-24-S-24 4,258.31 4,325.00 328.65 61.36 267.39 Pass-Major Risk S-24-S-24A-S-24A 3,591.37 3,675.00 411.51 57.46 355.18 Pass-Major Risk S-24-S-24APB1-S-24APB1 3,669.35 3,745.00 404.95 68.75 336.99 Pass-Major Risk S-24-S-24B-S-24B 3,591.37 3,675.00 411.51 57.37 355.25 Pass-Major Risk S-25-S-25-S-25 6,431.02 6,525.00 184.68 60.52 124.16 Pass-Major Risk S-25-S-25A-S-25A 6,431.02 6,525.00 184.68 60.52 124.16 Pass-Major Risk S-25-S-25APB1-S-25APB1 6,431.02 6,525.00 184.68 60.52 124.16 Pass-Major Risk S-31-S-31-S-31 3,724.83 3,875.00 184.50 68.97 115.68 Pass-Major Risk S-31-S-31A-S-31A 3,724.83 3,875.00 184.50 68.81 115.84 Pass-Major Risk S-32-S-32-S-32 Out of range S-32-S-32A-S-32A Out of range S-33-S-33-S-33 6,618.25 6,675.00 498.60 52.84 446.14 Pass-Major Risk S-34-S-34-S-34 5,041.84 5,300.00 320.67 83.11 237.56 Pass-Major Risk S-35-S-35-S-35 Out of range S-36-S-36-S-36 6,608.64 6,775.00 240.57 74.24 167.97 Pass-Major Risk S-38-S-38-S-38 7,175.00 6,875.00 357.94 79.19 278.97 Pass-Major Risk S-400-S-400-S-400 453.51 450.00 205.91 8.18 197.80 Pass-Major Risk S-400-S-400A-S-400A 429.88 425.00 205.52 7.77 197.80 Pass-Major Risk S-401-S-401-S-401 548.41 550.00 164.55 10.29 154.38 Pass-Major Risk S-401-S-401 PB1-S-401 PB1 548.41 550.00 164.55 10.29 154.38 Pass-Major Risk S-41-S-41-S-41 1,827.36 1,850.00 72.13 35.15 39.29 Pass-Major Risk S-41-S-41A-S-41A 1,809.35 1,825.00 71.33 34.96 39.10 Pass-Major Risk S-41-S-41AL1-S-41AL1 1,809.35 1,825.00 71.33 34.96 39.10 Pass-Major Risk S-41-S-41 L1-S-41 L1 1,827.36 1,850.00 72.13 35.15 39.28 Pass-Major Risk S-41-S-41PB1-S-41PB1 1,827.36 1,850.00 72.13 35.15 39.29 Pass-Major Risk S-42-S-42-S-42 4,556.08 4,600.00 122.09 56.74 66.35 Pass-Major Risk S-42-S-42A-S-42A 4,010.36 4,075.00 67.19 43.64 24.12 Pass-Major Risk S-42-S-42PB1-S-42PB1 4,556.08 4,600.00 122.09 56.74 66.35 Pass-Major Risk S-43-S-43-S-43 2,916.88 2,925.00 69.04 50.64 18.92 Pass-Major Risk S-43-S-43L1-S-43L1 2,916.88 2,925.00 69.04 50.64 18.92 Pass-Major Risk S-44-S-44-S-44 500.90 500.00 86.51 8.52 78.05 Pass-Major Risk S-44-S-44A-S-44A 511.19 525.00 86.70 8.70 78.07 Pass-Major Risk 4/27/2016 12:59:58PM AO /G/mac O F s E RE p O R7 COMPASS 5000.1 Build 61 • BP S Frail Anticollision Report p BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: S-112 @ 69.60usft(Doyon 14) Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 Offset TVD Reference: Offset Datum Summary Reference Offset Centre to No-Go Allowable Measured Measured Centre Distance Deviation Warning Site Name Depth Depth Distance (usft) from Plan Offset Well-Wellbore-Design (usft) (usft) (usft) (usft) PBS Pad S-44-S-44L1-S-44L1 500.90 500.00 86.51 8.52 78.05 Pass-Major Risk S-44-S-44L1 PB1-S-44L1 PB1 500.90 500.00 86.51 8.52 78.05 Pass-Major Risk S-504-S-504-S-504 116.99 120.00 239.68 3.63 236.05 Pass-Major Risk 4/27/2016 12:59:58PM A0a cc 0 F E=. RE p0 R= COMPASS 5000.1 Build 61 • B �` P EMI 0 bp Anticollision Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: S-112 @ 69.60usft(Doyon 14) Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 Offset TVD Reference: Offset Datum Reference Depths are relative to S-112 @ 69.60usft(Doyon 14) Coordinates are relative to:S-112 Offset Depths are relative to Offset Datum Coordinate System is US State Plane 1927(Exact solution),Alaska Zone 04 Central Meridian is 150°0'0.000 W° Grid Convergence at Surface is:0.91° Ladder Plot 600J I1 l I I I I I r. I I t 4 I i 450 I I1 /l ei /1 % // •7i A kb ,. {' 1�„ir, ,,,,„✓P tr 300 . wiP,Ali f I/ .`' ! , , f L s� TA IN w _ I ifi/ ! ti. / fPI YIL7f- • Li l Ian S- 6,Plan'•:_t • V• S- 14,S- 14 S V'Y4 ' 0 • S-24,S-24,S-24 V5 -04,Pli S-04A,- :-.4y,. r;10 f fl S-114,`-114 ,S-11• ft it `- S-24,S-24A,S-24A V1 -09,S�9` .+1• St: ti `Pc 4 '� x.115,.-115 :•-]] -: _S-24,S34AP61,S-24AP61V1 '-09,SC09APB1 ¢^ ,,, S- 19,S-116, 11:V6 . ��j - S-24,S-24B,S-24B V2 '-09,S-09APB1 ' iL0,p0.4,•.,....-I•440:4,1 ..a i - S- •,S-116A,'-1 6A VO -9-i, S-25,S-25,S-25 V1 '-09,S-09APB2 �'•:. - -1$ - 16,S-116AP:a,S-116APB1 VO 1 -'r-•i S-25,S-25A,S-25A V1 •-09,S-09APB3 '3_') •�E• S-116,S-116APB2,S-116APB2V0 $I S-25,S-25APB1,S-25APB1 V1 Irl •-100,S-100,S-11s % 1 -9- S-117,S-117,S-117 V4 S-31,S-31,S-31 V1 •-101,S-101,8- I V S-H18,S-118,S-118V5 j I 831,S-31A,S-31AV0 ( •-101,S-101 PB1%-101 PB1 V10 1500 -.I- 4;11114,S-119 S-119 V'i500 6000 S-32,SUM-32 V2 9000 '-102,S-102,S-102 V11 S-120,SMuiRepth(1500 usn) S-32,S-32A,S-32A V0 '-102,S-102L1,S-102L1 V5 -w -- S-121,S-121,5-121 V8 S-33,S-33,S-33 V1 '-102,S-102L1PB1,S-102L1PB1 V11 - - S-121,S-121PB1,S-121PB1 V4 S-34,S-34,S-34 V1 • 102,S-102PB1,S-102PB1V14 S-122,S-122,S-122V9 S-35,S-35,S-35 V1 '-103,S-103,S-103 V6 S-122,S-122PB1,S-122PB1 V4 -h- S-36,S-36,S-36 V1 '-104,S-104,S-104 V3 S-122,S-122PB2,S-122PB2 V2 S-38,S-38,S-38 V1 •-105,S-105,S-105 V6 S-122,S-122PB3,S-122PB3 V2 S-400,S-400,S-400 V4 '-106,S-106,S-106 V2 S-124,S-124,S-124 V8 S-400,S-400A,S-400A V6 '-106,S-106PB1,S-106PB1 V12 S-125,S-125,S-125 V11 -B- S-401,S-401,S-401 V4 '-107,S-107,S-107V36 S-125,S-125PB1,S-125PB1 V7 S-401,S-401PB1,S-401PB1 V7 '-108,S-108,S-108 V6 S-15,S-15,S-15 V2 S-41,S-41,S-41 V1 '-108,S-108A*,S-108A VO -0S-15,S-15PB1,S-15PB1 V2 -N- S-41,S-41A,S-41AV0 - I': - •', - ••'• - - - S-41,S-41AL1,S-01AL1 VU 4/27/2016 12.59:58PM Ac0 CC 0IF IRE P D IT COMPASS 5000.1 Build 61 • 06Lt Pr 2-1 Zz zu Regg, James B (DOA) From: Tempel, Troy <Troy.Tempel@bp.com> Sent: Thursday, April 14, 2016 9:31 PM 411611‘, To: Regg, James B (DOA) Cc: AK, D&C Rig Nordic 2 Well Site Leader; O'Neal, Robert; Perl, John R; Schneider, Kenneth Subject: S-112 Bottom Hole Pressure Jim, In regards to your question about the bottom hole pressure of S-112, a wireline gauge was ran on 3/26/16 and measured a datum pressure of 3384 psi at 6700'TVDss. Please let me know if you have any additional questions. Thanks, Troy T. Tempel CTD Engineer BP Exploration,Alaska Mobile:907-570-1351 Home:406-207-0766 Trov.Tempel@ba.com 1 • P6ck s((zb( P Z C2.2-w Regg, James B (DOA) From: Regg, James B (DOA) Sent: Thursday, April 14, 2016 2:58 PM S,1. 41i4Irta To: Rigmanager Rig2;AK, D&C Rig Nordic 2 Well Site Leader (AKDCRigNordic2WellSiteLeader@bp.com); AKD&CHSEInfo@bp.com Cc: Brooks, Phoebe L (DOA); Loepp, Victoria T (DOA) Subject: RE: Emailing: Nordic 2 Coil 4-12 -16 Please provide the actual bottom hole pressure that was determined after the flow back period (pre-rig work authorized in the approved Sundry) and how the pressure was determined. Jft c,—U 7_ LS � It 316 —0473) Jim Regg (>ri) 2-02-‘3 50) Supervisor, Inspections / AOGCC 333 W. 7th Ave, Suite 100 Anchorage, AK 99501 907-793-1236 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 Jim Regg at 907-793-1236 or jim.regg@alaska.gov. Original Message From: Brooks, Phoebe L(DOA) Sent: Thursday, April 14, 2016 2:34 PM To: Rigmanager Rig2 Cc: Regg,James B (DOA) Subject: RE: Emailing: Nordic 2 Coil 4-12 -16 Okay, thank you. I've attached a revised report changing the well name to reflect PBU S-112L1 PTD#2152220 and removing the sundry#. I also changed the report date to reflect 04/13/16. Please update your copy or let me know if you disagree. Phoebe Brooks Statistical Technician II Alaska Oil and Gas Conservation Commission Phone: 907-793-1242 Fax: 907-276-7542 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. Original Message From: Rigmanager Rig2 [mailto:Rigmanager.Rig2@nordic-calista.com] Sent: Thursday, April 14, 2016 2:07 PM To: Brooks, Phoebe L(DOA) Subject: RE: Emailing: Nordic 2 Coil 4-12 -16 The permit to drill on well S-112 shows this sundry#. We are drilling a sidetrack PBU S-112L1. Hopefully we tested to the right pressure. We followed the well plan. Brian Original Message From: Brooks, Phoebe L(DOA) [mailto:phoebe.brooks@alaska.gov] Sent: Thursday, April 14, 2016 9:22 AM To: Rigmanager Rig2 <Rigmanager.Rig2@nordic-calista.com> Cc: Regg,James B (DOA)<jim.regg@alaska.gov> Subject: RE: Emailing: Nordic 2 Coil 4-12 -16 I pulled sundry#316-043 and saw a MASP of 3607 listed for PBU S-112...this workover report includes 2720 however, (the drilling permit for PBU S-112L1 PTD#2152220 includes 2720) so I wanted to verify the well name and operation type. Thank you, Phoebe Phoebe Brooks Statistical Technician II Alaska Oil and Gas Conservation Commission Phone: 907-793-1242 Fax: 907-276-7542 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. Original Message From: Rigmanager Rig2 [mailto:Rigmanager.Rig2@nordic-calista.com] Sent: Wednesday,April 13, 2016 1:50 PM To: Brooks, Phoebe L(DOA); Ak Nordic 2 WSL(akdcrignordic2wellsiteleader@bp.com); DOA AOGCC Prudhoe Bay; Wedin, Ben; BP HSE Town (AKD&CHSEInfo@bp.com); Cassee, Udo; Regg,James B (DOA); Peterson,Jordan;Therrien, Noel Subject: Emailing: Nordic 2 Coil 4-12 -16 Your message is ready to be sent with the following file or link attachments: 2 i S Nordic 2 Coil 4-12 -16 Note: To protect against computer viruses, e-mail programs may prevent sending or receiving certain types of file attachments. Check your e-mail security settings to determine how attachments are handled. 3 • • „ TO 215-- Zzz- Loepp, Victoria T (DOA) From: Lastufka,Joseph N <Joseph.Lastufka@bp.com> Sent: Tuesday, March 08, 2016 1:47 PM To: Loepp,Victoria T(DOA) Subject: Initial list of wells to be drilled by different rigs than previously approved Follow Up Flag: Follow up Flag Status: Flagged Victoria, Here is the list of wells that are currently set to change rigs from the original Permit to Drill or Sundry. Moving from Nordic 1 to Nordic 2: S-112L1 (PTD#215-222)—Planned date early of April U-068L1(PTD#215-123)Sundry#316-156—Planned date of mid April H-27B(PTD#unknown)—Planned date of late June Moving from Parker 273 to Parker 272: A-29A(PTD#215-202)—Planned date of late March 14-28B(PTD#216-014)—Planned date of mid August H-25A(PTD#unknown)—Planned date of mid September I'll continue to keep you posted as possible additional schedule changes could occur. Please let me know if you have any questions or need additional information. Thank you, Joe Lastufka Information and Data Controller Cell: (907) 227-8496( Office: (907) 564-4091 u liall BP Exploration AlaskaI900 E.Benson B1vd.1Room: 788DIAnchorage,AK 1 L ®F T�� • ,w\�\ 1�j„ ,s, THE STATE 11° Alaska Oil and Gas �,.- �� ofA LAsKA Conservation Commission 333 West Seventh Avenue _ ` Anchorage, Alaska 99501-3572 h„ I� GOVERNOR BILL WALKER g Main: 907.279.1433 �FALASY+�' Fax: 907.276.7542 www.aogcc.alaska.gov John McMullen Engineering Team Lead BP Exploration(Alaska), Inc. P.O. Box 196612 Anchorage, AK 99519-6612 Re: Prudhoe Bay Field, Aurora Oil Pool, PBU 5-112L1 BP Exploration(Alaska), Inc. Permit to Drill Number: 215-222 Surface Location: 4332' FSL,4501' FEL, SEC. 35, T12N, R12E, UM Bottomhole Location: 5053' FSL, 5268' FEL, SEC. 35, T12N, R12E, UM Dear Mr. McMullen: Enclosed is the approved application for permit to redrill the above referenced service well. The permit is for a new wellbore segment of existing well Permit No. 202-135, API No. 50-029- 23099-00-00. Injection should continue to be reported as a function of the original API number stated above. This permit to drill does not exempt you from obtaining additional permits or an approval required by law from other governmental agencies and does not authorize conducting drilling operations until all other required permits and approvals have been issued. In addition, the AOGCC reserves the right to withdraw the permit in the event it was erroneously issued. Operations must be conducted in accordance with AS 31.05 and Title 20, Chapter 25 of the Alaska Administrative Code unless the AOGCC specifically authorizes a variance. Failure to comply with an applicable provision of AS 31.05, Title 20, Chapter 25 of the Alaska Administrative Code, or an AOGCC order, or the terms and conditions of this permit may result in the revocation or suspension of the permit. Sincerely, P*A474, -- Cathy V. Foerster Chair DATED this / day of January, 2016. STATE OF ALASKA �SKA OIL AND GAS CONSERVATION COMMIS DEC 16 2015 PERMIT TO DRILL 20 AAC 25.005 AOGGG 1 a. Type of Work: 11 b. Proposed Well Class: Exploratory-Gas 0 Service-WAG. Iv! • Service-Disp 0 1 c.Specify if well is proposed for: Drill 0 Lateral 0 ' Stratigraphic Test 0 Development-Oil 0 Service-Winj 0 Single Zone 0 Colabed Gas 0 Gas Hydrates 0 Redrill 0 Reentry 0 Exploratory-Oil 0 Development-Gas 0 Service-Supply 0 Multiple Zone 0 Geothermal 0 Shale Gas 0 2. Operator Name: 5. Bond Blanket 0•Single Well ❑ 11. Well Name and Number: BP Exploration(Alaska),Inc Bond No. 6194193 • PBU S-112L1 3 Address: 6. Proposed Depth: 12. Field/Pool(s): P.O.Box 196612 Anchorage,AK 99519-6612 MD: 9216' • TVD: 6655'ss • PRUDHOE BAY,AURORA • 4a. Location of Well(Governmental Section): 7. Property Designation(Lease Number): POOL(Undefined) ADL 028257 • Surface: 4332'FSL,4501'FEL,Sec.35,T12N,R12E,UM 8. Land Use Permit: 13. Approximate spud date: 4336'FSL,3715'FEL,Sec.35,T12N,R12E,UM 83-47 February 1,2016 Top of Productive Horizon: Total Depth: 5053'FSL,5268'FEL,Sec.35,T12N,R12E,UM 9. Acres in Property: 2560 14.Distance to Nearest Property: 7400 4b. Location of Well(State Base Plane Coordinates-NAD 27): 10. KB Elevation above MSL: . 69.6 feet 15. Distance to Nearest Well Open Surface:x- 618930 y- 5980535 Zone - ASP 4 GL Elevation above MSL: • 35.8 feet to Same Pool: 65 16. Deviated wells: Kickoff Depth: 6912 • feet 17. Maximum Anticipated Pressures in psig(see 20 AAC 25.035) Maximum Hole Angle: 99 ' degrees Downhole: 3395 • Surface: 2720 18. Casing Program: Specifications Top-Setting Depth-Bottom Cement Quantity,c.f.or sacks Hole Casing Weight Grade Couolina Length MD TVD MD TVD (including stage data) 4-1/4" 31/4" 6.6# L-80 TCII 2366' 6850' 6613'ss 9216' 6655'ss 68sxClass'G' 19. PRESENT WELL CONDITION SUMMARY (To be completed for Redrill and Re-Entry Operations) Total Depth MD(ft): Total Depth ND(ft): I Plugs(measured): I Effect.Depth MD(ft): I Effect.Depth TVD(ft): I Junk(measured): 8642 6743 None I 8642 6743 none Casing Length Size Cement Volume MD ND Conductor/Structural 117' 20"x 34" 260 sx Arctic Set(Approx.) 36'-153' 36'-153' Surface 2880' 9-5/8" 506 sx AS III Lite,211 sx Class'G' 35'-2916' 35'-2879' Intermediate 6793' 7" 218 sx LiteCrete,184 sx Class'G' 32'-6825' 32'-6667' Production Liner 1825' 4-1/2" 112 sx Class'G' 6710'-8535' 6590'-6753' Perforation Depth MD(ft): 6900'-8642' !Perforation Depth ND(ft): 6711'-6743' 20.Attachments Property Plat 0 BOP Sketch 0 Drilling Program 0 Time v.Depth Plot 0 Shallow Hazard Analysis 0 Diverter Sketch 0 Seabed Report 0 Drilling Fluid Program 0 20 AAC 25.050 requirements 0 21.Verbal Approval: Commission Representative: Date 22.I hereby certify that the foregoing is true and the procedure approved herein will not be deviated Contact Gorrell,John from without prior written ap. oval. Email John.Gorrell@bp.com Printed Nam- Jo. c, e. A, Title Engineering Team Lead Signaturp`J •‘/ 6 Is---- Phone +1 907 564 4711 Date ( �� Commission Use Only Permit to Drill ,"izi--' Permit Ap royal See cover letter for other Number: ,`r2.�Z API Number: 50- 029-23099-60-00 Date: L-�_ —,! t requirements: Conditions of approval: If box is checked,well may not be used to explore for,test,or produce coalbed met bane,gas hydrates,or gas contained in shales: / Other: Qo p �C5/ /0 5 6-062 /2 S j _Samples read: Yes 0 No Lid Mud log req'd: Yes 0 No Gd' 4-h,- vl a r rr ve"h h- r rl-/ � Z'S H2$measuFes Yes W No 0 / Directional svy req'd: Yes V No �❑/ j fate vii 1 fn r 5C1 4/2r pacin exception req'd: Yes 0 No Ni Inclination-only svy req'd: Yes 0 No L�3" re u>re-ei 4 tr 5to w/`l1ya /✓rrei)6 > .7/ Post initial injection MIT req'd: Yes No ❑ � APPROVED BY Approved by:atet.4, /741444COMMISSIONER THE COMMISSION Date: /...1 V /6 ORIGINAL Form 10-401 Revised 11/2015 This permit is valid for 24 mon s fr the date of approval(20 AAC 25.005(g)) Submit Form and /� /7-1/0-197‘ / _ Attachments in Duplicate 1/7.1- 1/j4/(L —\ Jr 6 1 , • To: Alaska Oil &Gas Conservation Commission 0 bP From: John Gorrell CTD Engineer Date: December 3, 2015 Re: S-112L1 Permit to Drill Request Approval is requested for a permit to drill a CTD sid track injector from well S-112 by the Nordic 1 Coiled Tubing Drilling rig on or around A ril 1 201 . The S-112L1 sidetrack will exit through the existing 4-1/2" liner and kickoff and land in the Kuparuk C Sands. The sidetrack will be completed with a 3-1/4" liner and cemented and perforated. S-112L1 will provide support to producers S-42A and possibly 5-118 if communication is found between the two wells. The completion will allow injection and access to the parent wellbore S-112 to continue. • Rig Work(scheduled to begin February 1,2016) 1. MIRU and test BOPE to 250 psi low and 3,500 psi high (MASP 2,720 psi) 2. PuII TWC 3. Mill 3.80" window and 10' rathole 4. Drill Build:4-1/4" OH, 975' (35 DLS planned) 5. Drill Lateral: 4-1/2" OH, 1329' (12 DLS planned) 6. Run 3-1/4" L-80 liner(TOL just inside of window) 7. Volumetric Cementing of Liner: 14 bbls, 15.8 ppg(TOC^'500' Outside of Window) 8. Perform liner cleanout and GR/CCL log 9. Cut& pull liner from just outside window 10. Retrieve whipstock 11. Freeze protect wellbore to 2,500' MD 12. RDMO Post-Rig Work 1. C Contingent post rig cement IA squeeze 2. 0 Re-install wellhouse,flow line, set GLV's,flowback Mud Program: • Milling/drilling: 9.8 ppg solids free fluid for milling window and drilling (45 psi over-balance) Disposal: • All Class I & II non-hazardous and RCRA-exempt drilling and completion fluids will go to GNI at DS 4 or Pad 3 at DS 6. • Fluids > 1% hydrocarbons or flammables must go to Pad 3. • Fluids >15%solids by volume must go to GNI. • Fluids with solids that will not pass through %" screen must go to GNI. • Fluids with pH > 11 must go to GNI. Hole Size: • 4-1/4" from window (6912' MD)to TD (9216' MD) • Liner Program: • 3-1/4", 6.6 lb/ft, L-80, TCII Solid from 6850' MD to 9216' MD • • 14 bbls of 15.8 ppg cement will be used to cement the liner in place (TOC at 7,412' MD). • The primary barrier for this operation: minimum EMW of 9.8 ppg (provides 45 psi overbalance). • A cross over shall be made up to a safety joint including a TIW valve for all tubulars ran in hole. Well Control: • BOP diagram is attached. • Pipe rams, blind rams, and the CT packoff will be pressure tested to 250 psi low and 3500 psi high. • The annular preventer will be tested to 250 psi low and 3500 psi high. Directional: • See attached directional plan. Maximum planned hole angle is 99.00°. • • Magnetic and inclination surveys will be taken every 30 ft. No gyro will be run. • • Distance to nearest property line: 7400' • • Distance to nearest well within pool: 65' . Logging: • MWD directional, gamma ray, and resistivity will be run over all of the open hole section. ' • GR/CCL in cased hole to at least cut and pull depth. Anti-Collision Failures: Well Well Reason for Mitigatio Mitigation Center to Name Well Type Status Shut-In Mitigation n Start End Center S-112 Parent Active N/A N/A N/A N/A 0' Wellbore Fails Major Shut In Well,Set S-22B Injector Active Risk tubing tail plug MIRU RDMO 39.30' Hazards: • S-Pad is considered an H2S pad • Most recent H2S level on S-Pad was at S-42A with 8 ppm recorded on 10/24/2015, with the highest level being on well S-201 with 180 ppm recorded on 03/09/2012 • Lost circulation potential in S-112L1 is considered to be medium with one planned fault crossing. Reservoir Pressure: • The reservoir pressure on S-112L1 is expected to be 3395 psi at 6750' TVDss. (9.67 ppg EMW) • Max expected surface pressure with a full column of gas (0.10 psi/ft)to surface is 2720 psi. • An EMW of 9.8 ppg will provide a 45 psi overbalance to the reservoir. John Gorrell CC: Well File CTD Engineer Joe Lastufka John.Gorrell@bp.com 907-229-9986 • • S-112L1 Area of Review (Revision 2) The following wellbores are within the%mile radius of the planned wellpath of S-112L1 in the Kuparuk reservoir. For review in preparation for drilling the injector S-112L1,the primary cement jobs for each of the wellbores and current status have been provided. 1) S-10 — Producer originally drilled and completed in 1982. A sidetrack was attempted in 1991, but it was unsuccessful and the well was P&A'd and then suspended and never to be flowed again. a. The 13-3/8" surface casing was ran 2679' MD. The initial cement job was pumped with 4000 sacks of 15.2 ppg Arctic Set II cement. Good returns were see, and the plug was bumped, but cement was not returned to surface. A top job was performed with 72 sacks of Arctic Set I pumped and returns to surface seen. b. The 9-5/8" intermediate casing was ran to 8985' MD. A 2 stage cement job was performed by first pumping 210 bbl of 15.8 ppg cement, and the plug was bumped (float collar at 8944' MD). The second stage was pumped by first dropping a bomb to inflate a packer and open the DV packer at 2616' MD. Next, 212 bbls of Arctic Pak was pumped was pumped, followed by 27 bbls of 15.7 ppg of Arctic Set I cement. It was reported that 89 bbls of Arctic Pak was returned to surface. No issues were reported during the job. Based on volumetric calculations assuming 30% OH excess, this would put TOC at an estimated 6130', and from 2616' (DV packer) to 2150' in the 13-3/8" x 9- 5/8" annulus. 2) 5-16 —An oil producer that is currently shut in and classified as non-operable. It was originally drilled and completed in 1984. It has had two workovers performed, once in 1992, and the other in February of 2015. a. The 13-3/8" surface casing was ran to 2673' MD. The initial cement job was pumped with 580 bbls of Arctic Set III lead cement, followed by 82 bbls of Arctic Set II tail cement. The plug was bumped, but no returns were seen at surface. Shortly afterwards a top job was performed with 100 sacks of Arctic Set II cement with good returns seen to surface. b. The 9-5/8" intermediate casing was ran to 10693' MD. The cement job was performed with 370 bbls of 13.2 ppg class G lead cement, followed by 41 bbls of 15.8 ppg class G tail cement. It was noted that good returns were seen throughout the job, but the plug was not bumped. When drilling out the shoe, it was noted that hard cement was tagged up at 10545' MD (float collar at 10565' MD). Using volumetric calculations, this would put TOC at an estimated depth of 5160' MD, assuming a 30% excess. 3) S-21—An oil producer drilled in 1990 that is currently online. a. The 13-3/8" surface casing was ran to 2688' MD. The cement job was performed by pumping 363 bbl of Arctic Set III 12.1 ppg lead cement, followed by 225 bbl of Arctic Set II 15.2 ppg tail cement. The plug was bumped, full returns were reported throughout the job, and there were good returns to surface. b. The 9-5/8" intermediate casing was ran to 9883' MD. The cement job was performed 267 bbl of 13.5 ppg class G lead cement, followed by 102 bbl of 15.8 ppg class G tail cement. It was not reported whether the plug was bumped or not, but no issues were 0 S reported. It was noted that the float collar was tagged on depth (9766' MD), and hard cement was drilled through the shoe track. Using volumetric calculations, this would put TOC at an estimated depth of 4915' MD, assuming a 30% excess. 4) S-22— Producer originally drilled and completed in 1991. It has since been sidetracked twice in 1993 and 1997, and had a workover performed in 2001. a. The 13-3/8" surface casing was ran to 2685' MD and cemented with 497 bbls of 12.1 ppg Arctic Set III lead followed by 168 bbls of 15.2 ppg Arctic Set II tail. A top job had to be performed to bring cement to surface, and 19 bbl of 16.0 ppg Artic Set I cement was used. b. The 9-5/8" intermediate casing was set at 9726' MD and cemented in place with 308 bbls of 13.5 ppg lead followed by 51 bbls of 15.8 ppg tail cement. Based on volumetric calculations assuming 30% 12.25" OH excess, this places TOC at an estimated 4900' MD. There were no issues reported. c. S-22A was sidetracked from S-22 in 1993. The window was milled from 8453' to 8503' MD. The well was P&A'd with 15.8 ppg class G cement out of open ended drill pipe to an estimated TOC of 8250' MD. 5) S-22B — S-22B was sidetracked to its current location in July of 1997, and initially was a Sag River and Ivishak producer. The window was milled out of S-22's 9-5/8" casing from 5402' to 5418' MD. A RWO to replace corroded tubing and convert the well to injection was performed in June of 2001. The well is currently on injection, however during the drilling of S-112L1, S- 22B will have a tubing tail plug set, and be shut in for anti-collision and pressure management reasons. a. The 7" intermediate liner was run to 9452' MD and cemented in place with 50 bbls of 11 ppg Class G lead followed by 39 bbls of 15.8 ppg Class G tail. A pressure spike was seen indicating a positive shear for the dart release, however the plug was not bumped. After setting the liner hanger, an estimated 20 bbls of cement was reverse circulated to surface, indicating cement at TOL (5204' MD). No losses were reported during the cement job. 6) S-24 — An oil producer originally drilled and completed in 1990. It was P&A'd for a rotary sidetrack in 1999. a. The 13-3/8" surface casing was run to 2668' MD. It was cemented with 358 bbl of 12.1 ppg Arctic Set III lead cement, followed by 230 bbl of 15.2 ppg Arctic Set II tail cement. The plug was bumped with good return to surface. b. The 9-5/8" intermediate casing was ran to 9844' MD and cemented in place with 260 bbl of 13.5 ppg class G lead cement, followed by 102 bbl of 15.8 ppg class G tail cement. The plug was bumped (float collar at 9725' MD), and no losses were reported. Using volumetric calculations, this would put TOC at an estimated depth of 4975' MD, assuming a 30% excess. 7) 5-25 — An oil producer that was originally drilled and completed in 1990. It was P&A'd for a CTD sidetrack in 1998. i i a. The 13-3/8" surface casing was ran to 2673' MD, and was cemented in place with 1039 sacks of Arctic Set Ill lead cement, followed by 1372 sacks of Arctic Set Il tail cement. The plug was bumped and a reported 71 bbls of cement was returned to surface. b. The 9-5/8" intermediate casing was ran to 9140' MD, and cemented with 230 bbl of lead cement and 102 bbl of tail cement. The plug was bumped (float collar at 9024' MD), and no losses were reported. Using volumetric calculations, this would put TOC at an estimated depth of 4690' MD, assuming a 30% excess. 8) 5-26 — An operable oil producer that is currently shut in due to low recovery. It was drilled in 1990, and a RWO was performed in 2008 to repair IAxOA communication. a. The 13-3/8" surface casing was ran to 2683' MD and cemented into place with 358 bbl of 12.1 ppg Arctic Set III lead cement, followed by 229 bbl of 15.2 ppg tail cement. The plug was bumped, and no issues were reported, but returns were not seen at surface. A top job was pumped with 100 sacks of Arctic Set I cement to surface. b. The 9-5/8" intermediate casing was ran to 8816' MD and cemented in place with 230 bbl of 13.5 ppg Class G lead cement, followed by 102 bbl of 15.8 ppg Class G tail cement. The plug was bumped (float collar at 8695' MD), and no issues were reported. Based on volumetric calculations, and assuming 30% 12.25" OH excess, estimated TOC is at 4365' MD. 9) 5-33 — Operable oil producer shut in for low production. It was drilled and completed in 1992, and a RWO was completed in 2008 to perform a tubing swap. a. The 10-3/4" surface casing was ran to 2958' MD, and was cemented in place with 925 sacks of lead cement, followed by 435 sacks of tail cement. The plug was bumped, but returns were not seen at surface. 250 sacks of Arctic Set I cement were pumped as a top job, and returns were seen at surface. b. The 7-5/8" intermediate casing was ran to 9018' MD, and cemented in place with 167 bbl of 11.5 ppg class G lead cement, followed by 54 bbl of 15.8 ppg class G tail. The plug was not bumped, and no losses were reported. When drilling out the shoe track, the top plug and hard cement were tagged at 8082' MD (float collar at 8834' MD). Accounting for the volume of cement left in the casing, and assuming 30% OH excess, this would place estimated TOC at 5434' MD. 10)S-34 — S-34 is a Sag River and Zone 4 produced water injector that was originally drilled and completed in 1993. It recently had a RWO performed in November of 2015 to repair TxIA communication. The well will soon be operable, and injection will resume once well tie-in is complete. a. The 13-3/8" surface casing was ran to 2901' MD and cemented into place with 365 bbls of 12.2 ppg Cold Set III cement, followed by 84 bbls of 14.9 ppg Cold Set II cement. The plug was bumped, however cement was not to surface. Two top jobs of 15 ppg Cold Set 2 cement were performed of 45 bbls and 21 bbls respectively before getting cement to surface. b. The 9-5/8" intermediate casing was ran to 10115' MD and cemented in place with 333 bbls of lead and 61 bbl of tail. The plug was not bumped. When drilling out the shoe, hard cement was tagged at 10030' MD (3' above float collar). No losses were reported • • during the job. Based on volumetric calculations, and assuming 30% 12.25" OH excess, estimated TOC is at 4685' MD. 11)S-36—Operable oil producer on gas lift that was originally drilled and completed in 1992. a. The 13-3/8" surface casing was ran to 2930' MD, and cemented in place with 375 bbl of Arctic Set Ill lead cement, followed by 82 bbl of Arctic Set II tail cement. The plug was bumped and good cement was seen at surface. b. The 9-5/8" intermediate casing was ran to 9721' MD and cemented in place with 312 bbl of lead cement and 61.5 bbl of tail cement. The plug was bumped (float collar at 9641' MD) and no issues were reported. Using volumetric calculations and assuming 30% OH excess, the estimated TOC is at 4653' MD. 12)S-38—Operable oil producer on gas lift that was originally drilled and completed in 1992. a. The 13-3/8" surface casing was ran to 2893' MD and cemented in place with 364 bbl of lead cement, followed by 80 bbl of tail cement. The plug was bumped, but cement was not returned to surface. A top job was performed with 40 bbl of Arctic Set II cement with returns to surface. b. The 9-5/8" intermediate casing was ran to 9221' MD and cemented in place with 282 bbls of 12.0 ppg class G lead cement, followed by 61.5 bbls of 15.8 ppg class G tail cement. The plug was bumped (float collar at 9138' MD) and no losses were reported. Using volumetric calculations and assuming 30% OH volume, the estimated TOC is at 4652' MD. 13)5-42 — Was an oil producer originally drilled in 1996. The well was P&A'd in July of 2015 for a rotary sidetrack. a. The 9-5/8" surface casing was ran to 3077' MD and cemented in place with 290 bbl of 12.2 ppg Cold Set III lead cement, followed by 61 bbl of 15.8 ppg class G cement. The plug was bumped, but only traces of cement were reported at surface. A top job was performed with 51 bbl of Cold Set II. b. S-42 Plug Back 1: During the drilling of S-42's 8.5" intermediate hole section, heavy losses were encountered at a depth of 10261' MD after weighting up to a 10.4 ppg MW. Losses increased to 150 bbl/hr, and after reducing the MW back to 10.2 ppg and pumping a 60 bbl 30 ppb LCM pill, the well continued to lose fluid at a rate of 6 bbl/hr. The rig tripped out of the hole and ran in to spot a cement kick off plug. The rig then drilled out of cement to a depth of 9245' MD, and finally TD'd the hole section at 9385' MD. c. The 7" intermediate casing was ran to 9375' MD and cemented in place with 160 bbls of 11 ppg lead cement, followed by 33 bbls of 15.8 ppg tail cement. Returns were lost on the last 108 bbls, and the plug was not bumped. Hard cement was tagged at 8943' MD (float collar at 9295' MD). Using volumetric calculations, accounting for the losses, and assuming 30% OH excess, the estimated TOC is at 6861' MD. • • Fault predictions: There are two faults of concern on this well, one that is planned to be crossed, and another near the toe. Formation Where MD TVDss Throw direction Lost Circ Fault Encountered Intersect Intersect and Magnitude Uncertainty Potential Kup C sands 8376 6656 30' West +/-150'MD Moderate Kup C sands—not N/A N/A 30' West +/-150'MD Moderate penetrated Lost circulation incidents: North-south faults are typically the most conductive in the Aurora area. Two nearby wells have experienced significant lost circulation while crossing Aurora faults in reservoir, S-111 and S-114A. Top Seal Competence: The top seal for the Aurora pool is the Kalubik and HRZ. In our S-112L1 area of interest, the HRZ and Kalubik combined thickness ranges between 100- 250ft TVD-the Kalubik only makes up a thin (10-20ft TVD) of this section. The HRZ shale is a highly organic rich marine flooding surface with very low permeability and good seal capacity, ensuring a high likelihood of containing injected fluids within the Kuparuk reservoir zone. Injection pressures are safely below the shale fracture gradient, which in this area has an estimated frac pressure of 16.7ppg. Below is a table listing the depths in MD and TVDss for the top of the Aurora Oil Pool in the above listed wells, followed by a map showing the wells in the Area of Review: Well MD TVDSS PBU S-10 6844.5 6651.4 PBU S-16 7790.2 6606.4 • PBU S-21 7348.8 6600.5 PBU S-22 7182.8 6607.4 PBU S-22B 7118.7 6612.6 PBU S-24 7337.2 6667.6 PBU S-25 6793.2 6609.7 PBU S-26 6856.7 6626.2 PBU S-33 6700 6600 PBU S-34 7648.0 6624.0 PBU S-36 6910 6610 PBU S-38 6913 6663 PBU S-42 7238.2 6648.2 PBU S-42PB1 7238.2 6648.2 i • // \• .�'C? 7// / • • / • i / v, • 3 v, • C N / 7a O 0. , 144 • r, c • 0 / i J w• Ar-•i .111/idollaff E 110 o-� / - 11 A C w O r,,,,, ____. _____ ellor ) � . D i :C7,,,, // m co ^? c • N C6 • n • O P,. • \ - -- t.r) • o • 2 • o (13 v -C ,4- o (1,,,,,,,.. ���\ C� •/ L M V i "•---- - -. . - COCflrNNd' LC) CflCOfit- CDCCN CO Y •- •i- NNNNNNCOCOCOCOd' 6 U) U) (I) U) U) U) U) U) U) U) U) U) CI) • It-11211 Area of Review (Revised) The following wellbores are within the 1/4 mile radius of the planned wellpath of 5-112L1 in the Kuparuk reservoir. For review in preparation for drilling the injector S-112L1,the primary cement jobs for each of the wellbores and current status have been provided. 1) S-10 — Producer originally drilled and completed in 1982. A sidetrack was attempted in 1991, but it was unsuccessful and the well was P&A'd and then suspended and never to be flowed again. a. The 13-3/8" surface casing was ran 2679' MD. The initial cement job was pumped with 4000 sacks of 15.2 ppg Arctic Set II cement. Good returns were see, an the plug was a bumped, but cement was not returned to surface. A top job was per\forrrted with 72 sacks of Arctic Set I pumped and returns to surface seen. b. The 9-5/8" intermediate casing was ran to 8985' MD. A 2( a cement job was performed by first pumping 210 bbl of 15.8 ppg cement, and he plug was bumped (float collar at 8944' MD). The second stage was pump ' `st dropping a bomb to inflate a packer and open the DV packer at 2616' GRID. Nxt 212 bbls of Arctic Pak was RECEIVED pumped was pumped, followed by 27 bbls of 1 . pg of Arctic Set I cement. It was DEC 21 2015 reported that 89 bbls of Arctic Pak was retur ed `"o urface. No issues were reported AOGGC the job. Based on volumetric calculati ri a uming 30% OH excess, this would AOGGC put TOC at an estimated 6130', and from 26 ' V r) tofLI 2150' in the 13-3/8" x 9- 5/8" annulus. Ol/ 2) S-16—An oil producer that is currentlyshut in and classified'asnon-operable. ri in It was originally ally drilled and completed in 1984. It has had two workovers performed, once in 1992, and the other in February of 2015. 1/ a. The 13-3/8" surface casing wad ra to 2673' MD. The initial cement job was pumped with 580 bbls of Arctic10cement, followed by 82 bbls of Arctic Set II tail cement. The plug was bum ('but no returns were seen at surface. Shortly afterwards a top job was performed 6 100 sacks of Arctic Set II cement with good returns seen to surface. b. The 9-5/8" intermedia/Se casing was ran to 10693' MD. The cement job was performed with 370 bbls of 13,2 ppg class G lead cement, followed by 41 bbls of 15.8 ppg class G tail cement. It was'/ that good returns were seen throughout the job, but the plug was not bump'd. When drilling out the shoe, it was noted that hard cement was tagged up ate'10545' MD (float collar at 10565' MD). Using volumetric calculations, this would put TOC at an estimated depth of 5160' MD, assuming a 30% excess. 3) S-21—An oil producer drilled in 1990 that is currently online. a. The 13-3/8" surface casing was ran to 2688' MD. The cement job was performed by pumping 363 bbl of Arctic Set III 12.1 ppg lead cement, followed by 225 bbl of Arctic Set II 15.2 ppg tail cement. The plug was bumped, full returns were reported throughout the job, and there were good returns to surface. b. The 9-5/8" intermediate casing was ran to 9883' MD. The cement job was performed 267 bbl of 13.5 ppg class G lead cement, followed by 102 bbl of 15.8 ppg class G tail cement. It was not reported whether the plug was bumped or not, but no issues were • reported. It was noted that the float collar was tagged ondepth (9766' MD), and hard cement was drilled through the shoe track. Using volumetric calculations, this would put TOC at an estimated depth of 4915' MD, assuming a 30% excess. 4) S-22 — Producer originally drilled and completed in 1991. It has since been sidetracked twice in 1993 and 1997, and had a workover performed in 2001. a. The 13-3/8" surface casing was ran to 2685' MD and cemented with 497 bbls f 12.1 ppg Arctic Set III lead followed by 168 bbls of 15.2 ppg Arctic Set II tail. A top job had to be performed to bring cement to surface, and 19 bbl of 16.0 ppg Artic Set I cement was used. b. The 9-5/8" intermediate casing was set at 9726' MD and cemented in place with 308 bbls of 13.5 ppg lead followed by 51 bbls of 15.8 ppg tail cement. Based on volumetric calculations assuming 30% 12.25" OH excess, this places TOC at an estimated 4900' MD. There were no issues reported. c. S-22A was sidetracked from S-22 in 1993. The window vya�s milled from 8453' to 8503' MD. The well was P&A'd with 15.8 ppg class G cement out of open ended drill pipe to an estimated TOC of 8250' MD. 5) S-22B — S-22B was sidetracked to its current location in July of 1997, and initially was a Sag River and Ivishak producer. The window was milled out of S-22's 9-5/8" casing from 5402' to 5418' MD. A RWO to replace corroded tubing and convert the well to injection was performed in June of 2001. The well is currently on injection(however during the drilling of S-112L1, S- 22B will have a tubing tail plug set, and be shut in for anti-collision and pressure management reasons. a. The 7" intermediate liner was run to/9452' MD and cemented in place with 50 bbls of 11 ppg Class G lead followed byo bbls of 15.8 ppg Class G tail. A pressure spike was seen indicating a positive shelar for the dart release, however the plug was not bumped. After setting the liner hanger, an estimated 20 bbls of cement was reverse circulated to surface, indicaing cement at TOL (5204' MD). No losses were reported during the cement job. // 6) 5-24 — An oil producer originally drilled and completed in 1990. It was P&A'd for a rotary sidetrack in 1999. a. The 13-3/8" surface casing was run to 2668' MD. It was cemented with 358 bbl of 12.1 ppg Arctic Set III lead cement, followed by 230 bbl of 15.2 ppg Arctic Set II tail cement. The plug was bumped with good return to surface. b. The 9-5/8" intermediate casing was ran to 9844' MD and cemented in place with 260 bbl of 13.5 'ilog class G lead cement, followed by 102 bbl of 15.8 ppg class G tail cement. The plug was bumped (float collar at 9725' MD), and no losses were reported. Using volumetric calculations, this would put TOC at an estimated depth of 4975' MD, assuming a 30% excess. 7) S-25 — An oil producer that was originally drilled and completed in 1990. It was P&A'd for a CTD sidetrack in 1998. • a. The 13-3/8" surface casing was run to 2673' MD, and wa�mented in place with 1039 sacks of Arctic Set III lead cement, followed by 1372 sacks of Arctic Set II tail cement. The plug was bumped and a reported 71 bbls of cement was returned to surface. b. The 9-5/8" intermediate casing was ran to 9140' MD, and cemented with 230 bbl of lead cement and 102 bbl of tail cement. The plug was bumped (float collar at 9024' i , MD), and no losses were reported. Using volumetric calculations, this would pul'TOC at j/' an estimated depth of 4690' MD, assuming a 30% excess. 8) 5-26 —An operable oil producer that is currently shut in due to low recovery. It was drilled in 1990, and a RWO was performed in 2008 to repair IAxOA communication. a. The 13-3/8" surface casing was ran to 2683' MD and cemented into place with 358 bbl of 12.1 ppg Arctic Set III lead cement, followed by 229 bbl of 15.2 ppg tail cement. The plug was bumped, and no issues were reported, but returns were not seen at surface. A top job was pumped with 100 sacks of Arctic Set I cement to surface. b. The 9-5/8" intermediate casing was ran to 8816' MD and cemented in place with 230 bbl of 13.5 ppg Class G lead cement, followed by 102 .0I of 15.8 ppg Class G tail cement. The plug was bumped (float collar at 8695' MD), and no issues were reported. , Based on volumetric calculations, and assuming 30% 12.25" OH excess, estimated TOC is at 4365' MD. 9) S-34 — S-34 is a Sag River and Zone 4 produced water injector that was originally drilled and completed in 1993. It recently had a RWO performed in November of 2015 to repair TxIA communication. The well will soon be operable, and injection will resume once well tie-in is complete. a. The 13-3/8" surface casing was ran to 290 MD and cemented into place with 365 bbls of 12.2 ppg Cold Set III cement, followed y 84 bbls of 14.9 ppg Cold Set II cement. The plug was bumped, however cement w s not to surface. Two top jobs of 15 ppg Cold Set 2 cement were performed of 45 bbls nd 21 bbls respectively before getting cement to surface. b. The 9-5/8" intermediate casing was ran to 10115' MD and cemented in place with 333 bbls of lead and 61 bbl of tail./he plug was not bumped. When drilling out the shoe, hard cement was tagged at 10030' MD (3' above float collar). No losses were reported during the job. Based on vo/umetric calculations, and assuming 30% 12.25" OH excess, estimated TOC is at 4685' lu1_D. 10) S-42 —Was an oil producer originally drilled in 1996. The well was P&A'd in July of 2015 for a rotary sidetrack. a. The 9-5/8" surface casing was ran to 3077' MD and cemented in place with 290 bbl of 12.2 ppg Cold Set III//lead cement, followed by 61 bbl of 15.8 ppg class G cement. The plug was bumped/but only traces of cement were reported at surface. A top job was performed with 1 bbl of Cold Set II. b. The 7" intermate casing was ran to 9375' MD and cemented in place with 160 bbls of 11 ppg lead cement, followed by 33 bbls of 15.8 ppg tail cement. Returns were lost on the last 108 bbls, and the plug was not bumped. Hard cement was tagged at 8943' MD (float collar p295' MD). Using volumetric calculations, accounting for the losses, and assuming 30% OH excess, the estimated TOC is at 6861' MD. Ci?./ / /1, vAlti ( I :i114;" d ir r O I (0,7 J • y• S 5 ' z YA f \ i E 1;0. : I ' -7.7 i ..\ \toitiosLarie......_ lififi 0.mss c _le c • \\,..... (13 N .— c di "ID QJ N N 0 z., (3 L O 4_, N C OJN (L) Q V iD O !"--f i < / CO g ° -o Q CU D C 0 CD e'- N NN Cr t1) CO ct' NY CL T- r-I .N N N N N N CO du) 1 "' (n (� ch (n S-112L1 Area of Review • The following wellbores are within the%mile radius for review in preparation for drilling the injector S-112L1.The primary cement jobs for each of the wellbores and current status have been provided. 1) S-22— Producer originally drilled and completed in 1991. ` a. The 13-3/8" surface casing was ran to 2685' MD and cemented with 4,7 bbls of 12.1 ppg Arcticset Ill lead followed by 168 bbls of 15.2 ppg Arctic Set II tai A top job had to be performed to bring cement to surface, and 19 bbl of 16.0 ppg A is Set I cement was used. b. The 9-5/8" intermediate casing was set at 9726' MD and cemented in place with 308 bbls of 13.5 ppg lead followed by 51 bbls of 15.8 ppg tail cement. Based on volumetric calculations using 30% 12.25" OH excess, this places TOC at 'x4900' MD. There were no losses reported. c. The 7" production liner was ran to 10,240' MD. The cement job was planned and performed to bring cement above the TOL. d. S-22A was sidetracked from S-22 in 993 "window was milled from 8453' to 8503' MD. The well was P&A'd with 15.8 p kl s Gement out of open ended drill pipe to an estimated TOC of 8250' MD. 2) S-22B — S-22B was sidetracked to its cugent location ir#July of 1997, and initially was a Sag River and lvishak producer. The winc4b -p vyas milted ouiif S-22's 9-5/8" casing from 5402' to 5418' MD. A RWO to replace corroed- 'i ingi n 'convert the well to injection was performed in June of 2001. The well is curren t' on injgction, however during the drilling of S-112L1, 5- 22B will have a tubing tail plu kt, nd L (4 ut in for anti-collision and pressure management reasons. a. The 7" intermefdiat was run to 9452' MD and cemented in place with 50 bbls of 11 ppg Class ea f flowed by 39 bbls of 15.8 ppg Class G tail. A pressure spike was seen indicatineilyositive shear for the dart release, however the plug was not bumped. After sitting the liner hanger, an estimated 20 bbls of cement was reverse circulated to s rface, indicating cement at TOL (5204' MD). No losses were reported during the c ; ent job. rn b. The 4-1/2" production liner was ran to 12221' MD. The liner had ^'290 of slotted liner placed o the bottom. A cement job was performed after setting an ECP and opening an ES ementer at 11880' MD. 62 bbls of 15.7 ppg class G cement was pumped and the plu as bumped. No losses were reported, and cement was circulated off the top of li r, indicating TOC at top of liner (9273' MD). 3) S-34 — -34 is a Sag River and Zone 4 produced water injector that was originally drilled and com�l'eted in 1993. It recently had a RWO performed in November of 2015 to repair TxIA co munication. The well will soon be operable, and injection will resume once well tie-in is complete. a. The 13-3/8" surface casing was ran to 2901' MD and cemented into place with 365 bbls of 12.2 ppg Cold Set 3 cement, followed by 84 bbls of 14.9 ppg Cold Set 2 cement. The plug was bumped, however cement was not to surface. Two top jobs of 15 ppg Cold Set 2 cement were performed of 45 bbls and 21 bbls respectively before getting cement to surface. b. The 9-5/8" intermediate casing was ran to 10115' MD and cemented in place with 333 bbls of lead and 61 bbl of tail. The plug was not bumped. When drilling out the shoe, hard cement was tagged at 10030' MD (3' above float collar). No losses were reported during the job. Based on volumetric calculations, and assuming 30% 12.25" OH excess, estimated TOC is at ^'4685' MD. c. The 7" production liner was ran to 10630' MD and cemented in place with 42 bbls of cement. The hanger was set and an estimated 28 bbls of cement were reverse circulated to surface above the TOL, indicating cement to TOL (9906' MD). No losses were reported during the job. N(4/ IS 1-;:2 ,v TREE= FMC 41/16"5M . W131hEAD= FMC GEN 5 S-112 SA NOTES:WELL ANGLE>700 7026'" H2S ._... READINGS AVERAGE 125 ppm WHEN ON MI"'WELL ACTUATOR= BAKER C OKB ELEV 69.60' l REQUIRES A SSSV WHEN ON MI"' BF ELEV= KOP= 5626' Max Angle= 960 @ 7457' Datum MD= 7031' Datum TVD 6700'SS , 2257' —14-112"HES X NP,13=3.813" 20"X 34",215.5 lb/ft.A53 ERW INSULA I ED — 114' 9-5/8"CSG,40#,L-80,BTC,ID=8.750' H 2915' --AI 1 _ GAS LFT MANDRELS ST MD TVD DEV TYPE VLV LATCH PORT DATE 3 3850 3813 1 KGB2 'DMY BK 0 06/25/07 2 5654 5616 1 KGB2 *MY BK 0 06/25/07 Minimum ID =3.725" @ 6706' 1 6529 6451 35 KGB2 'DMY BK 0 06/25/07 4-1/2" HES XN NIPPLE 'ExTENDEDPACKING I I ' 6596 -14-1/2"BKR SLD SLV,ID=3.813" Z 6658' —7"X 5"BKR PRM PKR,D=3-875" ' ' 6685' —14-1/2"HES X NP,D=3.813" ' 6706' H4-1/2"HES XN NP,ID=3.725" 4-1/2'TBG, 12.6#,L-80 TCJI,.0152 bpf,D=3.958' — 6718' 6710' —17"X 5"BKR ZXP LTP,ID=4.390' \ 6718' H4-112'WLEG,D=3.958" \ 6729 H7"X 5"BKR HMC LNR HGR,ID=5.03' 6735 —I5"X 4-1/2 X0 BUSHING,D=3.89" 7'CSG,26#,L-80,D=6.276" H 6825' HAII ' 6863 —{4-112"MARKER JOINT W/RA TAG Cgi 7523 —4-1/2'HMCV CEMENTER CATION SUMMARY 7542' —4-1/2"CEMENTED PAY ZONE ECP,D=3.937" REF LOG: 7???ON XX/XX/XX ANGLE AT TOP FEW: 570 @ 690(7 Note: Refer to Roduction DB for historical pert data SIZE SPF INTERVAL Cin/Sqz SHOT SQZ 3-3/8" 6 6900-6925 0 04/29/03 3-3/8" 6 6960-6976 0 04/29/03 4-1/2" SLTD 7650-8535 SLOT 07/29/02 4-1/2'LNR,12.64,L-80 BTC-M,.0152 bpf,ID=3.958" — 8535' k DATE REV BY COMMENTS DATE REV BY COMuBJTS AURORA UNIT 08107102 D-14 IMTIAL COMPLETION 01/06/14 JMG/PJC SET BLANKING SLV(10/31113) WELL: S-112 04/29/03 JF/TP ADF S _ 01/08/14 PJC TBG/LNR/FERE CORRECTIONS PERMIT No: 2021350 06/15/03 JMKAK GLV CIO 04/20/15 LEC/AID MN ID CORRECTION API Pb: 50-029-23099-00 06/25/07 SPF/PJC GLV C!O 07/01/15 TBD/JID RLL ISO SLV/SET PXN PLUG SEC 35,T12N,R12E,949'FNL&780'FWL 02/15/11 K /JM) ADDED SSSV SAFETY NOTE 09/29/15 NLW/JM) PULED PXN PLUG(09/26/15) 01/19/12 TMNJM) ADDED H2S SAFETY NOTE BP Exploration(Alaska) VIIRLHEAD= FMC GEN 5 112L1 SA NOTES:WELL ANGLE>700 @ 7026'*** H2S ACTUATOR= BAKER C READINGS AVERAGE 125 ppm WHEN ON MI***WELL Proposed CTD Sidetrack OKB.REV= 69.60' REQUIRES A SSSV WHEN ON MI*** BF.E_EV= KOP= 5626' Whx Angle= 96°@ 7457' 9 Datum MD= 7031' Datum TVD= 6700'SS ' ' 2257' -H4-1/2"HES X NP,D=3.813" 20"X34",215.5 lb/ft.A53 ERW NSULATED — 114' 9-5/8"CSG,40#,L-80,BTC,D=8.750" —1 2915' —A GAS LIFT MANDRELS ST' MD TVD DEV TYPE VLV LATCH PORT DATE _ I 3 3850 3813 1 KGB2 *DMY BK 0 06/25/07 1I� 2 5654 5616 1 KGB2 *DMY BK 0 06/25/07 Minimum ID =3.725" @ 6706' 1 6529 6451 35 KGB2 *DMY BK 0 06/25/07 4-1/2" HES XN NIPPLE *IXTBVD®PACKING 6596 —4-1/2"BKR SLD SLV,ID=3.813" Note.one way leak to IA when on MI injection Z 6658' H 7"X 5"BKR PRM PKR,D=3.875" ' , 6685' H4-1/2"HES X NP,D=3.813" Eline-Mill XN ' 6706' —14-1/2"HES XN NP,D=3.725" ' 1 6706' H 4-1/2"PXN RUG(06/06/15) 4-1/2"TBG,12.6#,L-80 TCII,.0152 bpf,ID=3.958" H 6718' 6710' 7"X 5"BKR ZXP LTP,D=4.390" \ WID 6718' —14-1/2" LEG, =3.958" \ 6729 H7"X 5"BKR HMC LNR HGR,D=5.03" 6735 H 5"X 4-1/2 XO BUSHNG,ID=3.89" 7"CSG,26#,L-80,D=6.276" 6825' 6863 H4-1/2"MARKER JONT W/RA TAG Pwill 35°/100'BUR ' 3-1/4"Liner to PBTD RA Tags 4-1/2"Thru-tubing Retrievable whipstock @ 6,912'MD 61'inc @ window TD @ 9,216'MD "'_______ TOC-500'below window \ perfs 3-1/4"NS©Release Joint PERFORATION SUMMARY or blank pipe spaced so can -9,180'MD-PBTD-NS cement- cut pipe just outside the window inp valve sub RE=LOG: 2???ON XX/XX/X; ANGLE AT TOP PERF: 57°@ 6900' a o 7542' H4-1/2"CE ELATED PAYZONE ECP,D=3.937" Note: Refer to Production DB for historical perf data SIZE SPF INTERVAL Opn/Sqz SHOT SCZ ® 0-1 7523 —14-1/2"HMCV CEMENTER 3-3/8" 6 6900-6925 0 04/29/03 3-3/8" 6 6960-6976 0 04/29/03 4-1/2" SLID 7650-8535 SLOT 07/29/02 4-1/2"LNR, 12.6#,L-80 BTC-M,.0152 bpf,D=3.958" —1 8535' DATE REV BY COMv6ITS DATE REV BY CONTENTS AURORA UNIT 08/07/02 D-14 INITIAL COMPLETION 01/06/14 JM3/PJC SET BLANKNG SLV(10/31/13) V11B_L: S-112 04/29/03 JF/TP ADPERFS 01/08/14 PJC TBG/LNR/PERF CORRECTIONS PERMIT No: 2021350 06/15/03 JM/KAK GLV C/O 04/20/15 LEC/JMD MN D CORRECTION API No: 50-029-23099-00 06/25/07 SPF/PJC GLV C/O 07/01/15 TBD/JMD PULL ISO SLV/SET PXN RUG SEC 35,T12N,R12E,949'FNL&780'RNL 02/15/11 MB/JMD ADDEDSSSV SAFETY NOTE 01/19/12 TMWJMD ADDED H2S SAFETY NOTE BP Exploration(Alaska) WELLHEAD= FMC GEN 5 -112L1 SA NOTES:WELL ANGLE>70°@ 7026'*** H2S ACTUATOR= BAKER C READINGS AVERAGE 125 ppm WHEN ON MI***WELL Proposed CTD Sidetrack OKB.REV= 69.60' REQUIRES A SSSV WHEN ON Ml*** BF.REV= KOP= 5626' Max Angle= 96°@ 7457' Datum MD= 7031' Datum TVD= 6700'SS ' ' 2257' —14-1/2"HES X NP,D=3.813" 20"X 34",215.5 lb/ft.A53 ERW NSULATB7 — 114' 9-5/8"CSG,40#,L-80,BTC,D=8-750" H 2915' GAS LIFT MANDRELS ST MD TVD DEV TYPE VLV LATCH FORT DATE LI 3 3850 3813 1 KGB2 *DMY BK 0 06/25/07 2 5654 5616 1 KGB2 *DMY BK 0 06/25/07 Minimum ID =3.725" @ 6706' 1 6529 6451 35 KGB2 *MY BK 0 06/25/07 4-1/2" HES XN NIPPLE *EXTHND®PACKING ( I 6596 H4-1/2"BKR SLD SLV,C=3.813" Note:One way leak to IA when on MI injection Z 6658' H7"X 5"BKR PRM PKR,D=3.875" ' 6685' —14-1/2"HES X NP,D=3.813" Eline-Mill XN ' 6706' H4-1/2"HES XN NP,D=3.725" 6706' —14-1/2"PXN PLUG(06/06/15) 6710' —17"X 5"BKR ZXP LIP,D=4.390" 4-1/2"TBG,12.6#,L-80 TCN,.0152 bpf,D=3.958" — 6718' \ WD 6718' —14-1/2" LEG, =3-958" \ 6729 —17"X 5"BKR HMC LNR HGR,U=5.03" 6735 —5"X 4-1/2 X0 BUSHNG,D=3.89" 7"CSG,26#,L-80,D=6.276" 6825' . ' 6863 H4-1/2"MA RKB2 JOINT W/RA TAG 35°/100'BUR 3-1/4"Liner to PBTD 61'inc @ window RA Tags TD @ 9,216'MD TOC-500'below window \ perfs '• a '._v ..ter r— e"r '"-1;'. . -r* t : C t-.L ±.4 3-1/4"NS©Release Joint PERFORATION SUMMARY or blank pipe spaced so can -9,180'MD-PBTD-NS cement- cut pipe just outside the window ing valve sub REF-LOG: ????ON XX/XX/X) ANGLE AT TOP PERF: 57°@ 6900' p 7542' —14-1/2"CENE NTR)PAYZONE ECP,D=3.937" Note: Refer to Production DB for historical pert data SIZE SPF INTERVAL Opn/Sqz SHOT SQZ 4' 271-1 7523 H4-1/2"HMCV CBNB'TER 3-3/8" 6 6900-6925 0 04/29/03 3-3/8" 6 6960-6976 0 04/29/03 4-1/2" SLID 7650-8535 SLOT 07/29/02 4-1/2"LNR,12.6#,L-80 BTC-M,-0152 bpf,ID=3-958" H 8535' I--A--k DATE REV BY COMMENTS DATE REV BY COMMENTS AURORA UNIT 08/07/02 D-14 INITIAL COMPLETION 01/06/14 JMG/PJC SETBLANKNG SLV(10/31/13) WELL: S-112 04/29/03 JF/TP ADPERFS 01/08/14 PJC TBG/LNR/PERF CORRECTIONS PERMIT No: 2021350 06/15/03 JM/KAK GLV C/0 04/20/15 LEC/JND MN D CORRECTION API No: 50-029-23099-00 06/25/07 SPF/PJC'GLV C/0 07/01/15 TBDVJND PULL ISO SLV/SET PXN RUG SEC 35,T12N,R12E,949'FNL&780'FWL 02/15/11 MI3/JND ADDED SSSV SAFETY NOTE 01/19/12 TMIN/JND ADDED H2S SAFETY NOTE BP Exploration(Alaska) • • 2 W LIIII ml _0 al OM CL CO CO t Q o 0- a °' Ce Ra V = a) o _ o Q l0 J Ca `" p t'1 O /3 N N N A Y.1� � Z a � c ii p .1 D `� av� v� a m • • II no= z / \ \ \ ��� , _ 2 \ U) w s- ( » - j o .4_ 0 / o - il. } 2 0 0 - \ \ } \ CC _ . \ ~ li � � s [ J / ) \ — C . > : , , ƒ } \ / § E 2Das c D _ � ) -1 ] a \ . ) k k ] R ] 3 J 2 & C 0 . . { { \ ) §\ .\ k o o� � �2 � = . 2 a in \ \ � CO k ) )§ z] ) a\ \ G 01 \ © ` _ _ P- a) co 2 , al C3) a 2 =o. . . 0:1 \ k ® A / .. 3 9 £ o __ & / 9 - & � \ w / \ . . $ § 3 > 22co # 2J 2j4 ) — f £ o a 7 £2 § ca [ — 0I 2 20LI 0 ` :g1 / 1 | # § 6 // \ ui , § 7 8 ( CO R 3 0 0 0 ( ( \ ,- 8 -o- ° ■ 2 < f z ! m d ■ 0 d at - .- Cl) 3 2 ,- a 2 € 2 ` ` 0 § & ) z• 0. 0 m m m .. Z. 7 ¢ a) t OS ar •k m ,-- E _ \, _ \ _ ! k t" � E / Ra o | 22 Ez8 ( (/ k � / « � o � a $ K « = k « / i 7a2 ( u a. c4 £ 3 / 20 ■ in cnu_ � & ) 2 £ CO a ■ > 0 G • • M m co r N O 0 0 0 0 O O 0 U) W co n CD o 0 0 0 0 0 0 0 m N N M O O O O 4 O O a u] a, a, '5 W a,kt m O MI/� o _ O co co co o_.- 0 CO CO COCO COO. O M m ti 0 CO co a M 4 CO 0 ,- 0 V on n of of ci N 0 Z N V r O N M m m m O co U) 0 TQ `it e O `4 `4 N n N- r on on co O• 0 N " >, 9 3. 0 o a E y3 i in N CO Y aN N0 0 0 0 0 0 0 y co t' —.< 0 N. n a) m m 0 0 O O O 0 0 J of < U) U) U) O m m a) U) U) U) cn In U) N ca U) 0 Y co M M M co co on 1 0) inE. = a' = c N al H C 0 o g 2• a )V )MC W U) N N U) CO 0 n N 0 0 V U) U) N r o) m 0 a M 0) m U) m CD CO O m m N a r m a) N l0) {') co) Nm. O r n V cn n ai Ci on N- CO C . CO m m N- n co N- cooW co co a) « F. a of ai ai m ai o) ai ai ai ai ai ai ai aa m cD CO CD m m CO 1- CO e.m m cD m m te W teC 0 o O_ m ii m c —a i cp C ` O a) CO 1n M m M O M M U) 01 N m G a) V W C N CO CO r co m N N- a) 7 m N N co 4 G {0 N N m m m N m Of U) Q) m O . a C) Wm n • N- VM U) m R m CO v n m () al T al a p) co 7 ,.- co N N U) m co co r CO 0 N a) a U) C U) co M CO U) U) U) U) U) U) U) N co uq 0 t Z E n ? t Ca O 0 0 0 0 0 0 0 0 0 0 0 0 G. F S Z co O g v p " ami co m m co rn m m co co m co co J C + v I' Z 0 of Ili0 vi in 0Lei vi Ui 0 t c2 V a' 0 +a 1 LL rn Q al + c RN- N M V U) CO CO 0 n CD co Cl) .0 o o a r O M v O O a) a) CO N CD ,_ v CC " 3 Ni ai ai v aai on c Ui a0 Ci v N: m of T m O N- m a) r U) N- m 0 co CO NT 0 0 2 2 m N. n N- n n m m CO m CO 0) m C m = I7 o o o 3 0_ Ch N U ? co a) a) m st co U) N 0 co N. m N m N U) CO 0 a) co co CO MaO on O 4 m r O on Q) a) U) n O) a o N M co a) ta E F LL a a. or ° 5 Z = No 0 2 2 U) 0) N N n U] M '' r co M N. N O M v. m N V m CO N co. V; • V N n on U) a) Of N U) CO ,- M 0 V U) N- n n a) m m CO CO U) CD CO c0 m U) CD CO m CD CD CO N N Q m m m CD- l0 CO- CO- m Ui m co- m U) co ,–V) N 2 0 cc T. J '' M O1 Vm m m CO CO a) V F N 0 a) r co n U) U) U) UI V) N a) 0 + .7 NcNi on o m a) m m m m m m m m NN. co V a m zyL .- N Q m 0 r N T N CO J U N N N CO o ch ch ch M m m of m v CO O M co co CO U) f%) co U) U) m O ao m M a co M co N.: 0 N vi n ai N l i O m Oi of Q at o m ID v v a) a) a, co a) r a) CO a) m m a o co ao on Ui v m m . a RI a O C CO N. N C CF 'C � m1 H „ m ai o CL = Z Z co C L U) N N N > > _ 0 2 m - E N CO N Z Z a a V) V) U) ` O m O CD Om O 0 N- a .- A O 0 0 0 0 0 0 0 0 0 0 QVpcri d Oy0 N U O V O Ni V M V O N Nn O N n N O ca co4 OU) Q m QO oM nO ON CO 0 ma a _ m N COCON CONJ m ) m co CCco" co cc rnco 00 N.- r On 0N- r itipp " I W CO', ii F a m N th N Y Uan Co 0)Cco .. 0 a y a.. O) Q d m co aCca ;. N U aa) 30 Cl) • • y 1) 0 CO 0 n m 0 Cr) CO 0 m O O O n O O) 0 W CO R) Cr) O O O r m O O O O O O) m O m O a O) O) Oi 0) 0) O) ri N- N- N- O ai O O Oi CO CO O O) O o mo co m co co co co co m m m m V V m m CO m ao m co 0 CO Mule U - m, o 0 SZ VN V N n n V (13 0 M 0 0 m M N N 0 0 a d co N 0) V 0 CO V f- M N N n .- N M V CO .- M co Z co (moo CCO N M ON) N (NO N W N- 0 n t+()) Ni N (m0 N 0) O CO CO n n (O al N Cr c','' N N Y c N Y >. 0 j o CC a a d N 2 co 3 T) co O o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 . pi N N N N N) (n N N N N N N N N N N N N N N _N R co U ) a M M M M M M - - - a- ._ ._ '- E co m 0 - 2 •c a Do 2 cis N- 2 w m M N N M It 0) U) m V n m 0) N N CO n m CO M CO O O 0) m (O 0 M n 0 tO m .- 0 N 0 a- m O 0 m COm V N (O M ClN N V N m 0 Y n 0) m m Ni m V N m () co M m V m m m m N 1.1 a V M 0 n CO M m CO m 0 m M 0 mN .- CO M C 0 C O 0) m Co N- n (O N V V M COM N N .- 0 0 O) m t .1 �' m m 0) 0 m m 0) O) O) W O m m m 0) O. O) 0 m m �= m nm CO CO m CO m m CO m m CO m m m m CO m m m (0 co 2 w Y C Y • -12 (CY) Y C 'O () 7 N (0 M 0 N m M N 0 0 M m VI n 0) n M 0) ` C V M n m n M N N- CO N O m CO m N n V0 4 w R m n O N- CO Of CO m N M (O n N m N N l0 O y Y (,� N V N m N m N N N m M O m m M O O N (!) O) V Y GC >, R co O) Of V m 0) CO N- m � 0) O CO V m 0) N N N N It Y L ® C m N- m m m CO m CO m m 0) 0) m Cr, m 0 0 0 0 0 R G �+ (� y O O O O O O O O O O O O 0 0 0 .- uu m m m co co co m m m m m co m m m co co .- co co .- co J > 0 z CO D Z m a) m m m CO m m m rn CO m CO CO m m m CO m 0 N U N N N (0 (O M N (0 N N N N co- U) N 0 N (n 0 0. (0 V m n (0 CO N N CO n m n 0) M n 0 Q) n CO O N m m CO Of CO M (0 (0 0) V V CO M V V CO m CO N n r- O O 0) n Ni O) (+i0 V' m4 O) co co co co co m m CO N- V 0) m (n m m 0) 0 0 0) 0) CO m N- m 4-, V' V V M M N •- s- M 0 3 F- 0 0 0- N CO 0 N- V m N- 0 m m .- 0, CO CO 0 n mr- m M N Q. N V m n m m N m n V N 0) m m 00)) .- M 7 (0 M m m co (0 co W (0 O m n m M N m O m a V V O) V M N .- N (0 m m 0 N (0 CO m m m m C) N N M M M M M M M co) M V V V V V V V V O) N aiu a 'z I N 0) V N N 0) 0 a, m m CO CO CO CO N 0) - (0 N M N V M m m 0 M M O V 0) (0 m n m n M M M M NO n M O Oi Ni n m m n n n n V co co co co co co co N- N- n co m (n N N (n (n In h N H CO CO CO m (0 m (O m m m (0 m m CO (O m m (0 (0 CO 0 (O (O m m m (O CO CO- 0 CO (D (O m m (0 (O (O (D (O O W ✓ V V V V 0) V V M m CO (0 LO (0 m CO N m O) V m CO m N M n N h n N N- n CO O) M m n M m N m O N M V m 0) 0) N O (0 m V' V M 0 m M N n m 0) 0) O) 0) 0) 0) m n m m CO M M M N N N N N N N N N N N N N N N N Q C. a m Nn Lo N N- 0 U) m 0 N- m 0 0 M N- M m 0) 0) m m CO 0 mV m m co co M n m O V; V (n n m co co V O) O) O O O O N N M Oi O) 0) m 0) O) O) m co m m CO m m m 0) 0) CO 0) 0) 0) CO CO CO CO CO CO m co O U >. d C `. EY CO N • co a L "0 N N N C O 2 m 7 7 7 O z a a U) N!) CO p)o 0 o O o o O O o 0 o O O o Q 0 0 0 0 o o Y O o O O o 0 0 o O o o O O O tl' T O O N O O n 'a 0 o O n O N O N O O N O N n Q ' N M N OV N N b 0 0 0 m 0 m O V O O V O M m m N) m n CO CO 0 0) 0 0 .- N N M M M ID O a c n N- n N- N- N .0 N- r n r N` ri ao m ro OD m m W CO in 0 C .. N 7 W N r r r N. h co ti O C C p a Y y a OI L N O C m m y R U) U a` in330 a • • y 0 U) M O O O W o o 0 o co of o (0 o o co v o 0) m a O O O O O 0 O 0 N N ! 0) 0) 0 CO OD 0 CO 0) CO CO 00 003 CO CO a03 `0: 7 C13 ki WO LLLLID gz F — O Ix N m 6 N N CO V N N CO N (0 (O N V 0 N a d O IN CO CO 0 CO CO N co O O V IN N 0 V Z V N CO M 10 N- N N N V 0) 0N .,- 0 Z N N M CO0V V co L co 0 0 0 00 CO CO O 7 Q O tD co h OD aD 0 O d O 0 N co i. 0 > 3 O C 0 a (0 d . 3 T) 0 0 0 O 0 0 0 0 O 0 O O O O O O O N d O O O O o O o O O O O O O O O O NCVD) C) a NN N N N N N N N N N N N N N N CO N r r r r r r r r r r r r r r r Y O a' o7 EN'- d E �L J o 3 2 w H 2 w E.... .- o N N CO V •- V (D N O Uo O V (0) N COO N CO a N N CO 0)O ) U N CO00 N V CO CO 0) d CO O N M N O) 40 r 6 (D N M V O) d ii N N N V N N- V N N N CO N CO (D M- C d t C 0 00 N.- 1 � n N 0 N N N V V CO N N •- N.- 112 W 00 CO- 00 0 a0 00 0 a0 m 00 00 a0 a0 OD 0 a0 YI as 3 N (O N f0 CD (O N N N (O (D N CO (O 0 (O W — lc c 2 O c . m e = P c C Y CO M N 0 -.31- co N- 0) a) IN CON. N 0 CO r N O CO0CO Q d M N N n 0) 0 0 N 7 n N M aD N 0 o d d 0 W 00 0) V I� M M V N 0 N N 0 M y a A C 0 0 O O O N- O N CO N- N- 0 N N CO N 10 G 0 o Z6. «R t in w co 0) 0) 0) co 0) 0) co 0) 0) co 0) 0) 0) 00 '� Z to Z �. m rn m 0 0 0 0 m 0 0 0 0 0) 0 0 0 N N N N N N N N N N N N N N N N 0 0. co N- M CO CD N.- O o 0) •- NCD CO Q) 0 VN O N 0 M •- 0 CO 0 N N I- to W 0) N N 6 N N O) 0) O 0) O n N 0) 6 O 0 0 h 0 V )s- 0) co N N V N N N ) N N 0) 0) M 'T Y to ) N I- r -P- -0 m 0 17 00 a v 0 CO 0 V N- V 00 N IN CO 0 0 On CO N. CO (D O N M 0 CO N. O N N N N M N- r N I,: N V V N 00 M r-: CV 0 CO CO v y r 0) 0 co V V N to U) N U) N (D 0O (VO 00 (0D (O I- N O) as Z 7 N CO 0 O N ' 0) Of N tO CO IN N IN 0 CD CO . CO to N 0 N V N- O N 0 N- CO n N U) V CO CO COCN9 CO CO0O N N M M V V to N N CO N 0 CO CD CO ((00 (VD (VD COLO NO U(13VI (ND (ND (NO_ (O t0 NCO CO CO- t0 t0 (D_ t0 (O (0 (O t0 t0 (O CO ig7 00 0 ID (D N N CO )0 O N (D 0 N 00 CO 0 V N N N N C N V N 0 N (D (O N N V (D 0 0 O O N O) V 6 (O N V M V (O 00 N N- CO O) O) CO CO O 0 0 0) CO I,- N- CO CO N N N N N N N CO CO N N N N N N N N r.a m U) a) I- n CO M V M m 6 CO CD n r CO� (NO (O0 00 0 00) 0 N Q t0 (0 U) U) U) 6 U) N N (0 (0 n a0 a0 O O 0 0) 0 0) CO 00 00 CO CO 00 CO m CO 00 0 0 a CO o U CO a C v • CO d m < O a J J .c -C _N N N_ O 2 m c 7 ^ U) Z to Cr)z a a U) o Co 0 0 0 0 0 0 0 0 0 o No o N (� ¢ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 )nv >. O O I: O N O I: O is I: O O 0 O U) h a D o m o a0 o N o 0 . 0 m oo 0) 00 V N N N CO N- N- CO OD CO CO _0 0 N N 00 CO CO- 0 m CO- 0 CO CO CO- CO- CO 0 CO CO 0 R 0) T y N co 0 O N CO N C .. C) a d i 9 7 N N N N • o c o a o) c N c O a` ii3 T. o is. N • • SI, a iikvi •' m v el m m m m W3V �, m o.) m Lae, y N N 0 V N O m OO Y t'lo ai N oi V N oi N o C Of r N N N N N co silk m Cr, 0 Q. U U U 2 Q Z Z Z z Z Z Z c m CO N r r r) m 0 o r v m co m m cl O Q st M O r CO O N O Cr m r) r) m m V u) m a O N N N N N N N N N N N N N▪ N N W W J > n n n n n n n N W c0 U ' E m Et N E o O o a a a 0 0 0 0 0 a a a a 0 0 0 0 N W 'C a a a a o O o a a a a o O o o O O o a o o O O M m O o tp O O O O O O 5 2 co F 2 co O N r) O N CO O O a, O O _ O) Co CoCO N CO Co ,- ,- CO 0) O O O m O Co r Co W O 0) 0) CO CO- CO CO CO- r) o m m r Co 0) co 0i co m m m co Co of Co Co co Co_ Co .� V- CD CO CO CO CO CO CO CO CO CO COCOCO CD CO CO N COm COm W a CW — c o W L d v 2 xmm c O O O O O O O O O o O O O O O O O O O F O O O a a a O O O O O O O O O O O O O O W Y � O r m O O N u1 m u) O O O O O N O Co C_p C m c r CO r CO M Ne- n N- N- CO r a N_ CO O O O O O G V Of a7 O V N N O O c`,.. N O m O C C OI Op O .�' m U ai •c_ o m Co co Co o Co m m Co co co ,- co coig 0) 0) 0) 0) CO Co CO 0) m m co Co Co CO 0) 0) Of 0) V m a' >e A o IP CO m ui vi m 0) N vi vi 6 ui Co Co Co Coi 6 ui ui rg 0 Ce ti Z «� o �. > 2 z 0 0 0 as JO 0 0 Q CoCC O 0) Co Co CO O co Co co M Co N r) O O O Co O N m O O O co r) r) co O N N- 0) r) O r m ,- Co O O 6 W mN Co O CO O CO Ma COCO CO co O) N • N CO N q N W 7 U } .+ O 0 RO Co M N O Co _ O O .r O O r) co CO O cn a r O 0) r O Co v O 0) r 0) N ,- CO CO O m a m CO r) O O m r O .- W O CO Co CO r 4 O Y O 4 co N Co Uj CO CO r Co 0 a O 0) N r a Uj CO ca m 0) 0) rI a N r)W co CO N w a Co CO CO N Zy NI- r NCO uJ n m CO o N- m m co vco m r Co a co CO Z <r0 O N COm Z O 0) Z Z - N Z Z Z r N N-. a 0 O O O O O O O N a a a a O O O N O m O O O O O O O O O O O 0 r O a a a o7 O O O O O . O O O O O O C o O O O G o 0 a NNN N O 0 0 0 00 r0 m NQ r 0 7o a t0M _ m 0 W. CQ moO co N > N- Fin N m M CC] m co O co co 'p m co CO 0) CO V NN (0 CD CD 0 a a a .' a a `fn O O 0 a m O 'r N O O O O 3 O O O L 0 3 0 ••• o N co C N D m O.2-- u; = u; - m vi p N r co m m O N- CO N N co co 6 m Co r Co co a O co m x r = m m co m W O j O W O 3 O W O W O • O 1 0 r O o O = O = O N O cod O co O N O w cA O O O 3 O 0 Q m O O 7 r) < Q • C . CO O O M O O N 7 a T T T T >, T T (.) T o -- a a a n a .0 .0 • co a .CCW-. C « .�C .Gy_) C }? W N C C C c C ccy c a 0 a J J 0 U U 0 U U U o a V7 N- .N- " W W W W W W W ✓ g 0 2 m o o) to, m o) o, co zaachd) 6m m m m m m 10 En W N all N N N tl) 4) G C C W W - N CO - W W W W — N r) < u) O h c C C C C N r ) c C C G C C C • & c C- - - - - - - Co a E H o Erna_ a0 a0 a0 E 'W E rn ao a° a0 p0 v E N E" "'' E 'm E m a° ao CL ao In; >. C a a c T F- C c LL c T F- c c F- c c F- c c U. c T CO 4:44) C .. z E W W o _a2.c7, W o co..:3 co o CO..:3 W o o c L as as as as o.a J as as o E y J d W W C L CO N N N N � a N a . N � a N � a N p 0 L. W C) y r r r r r r r U7 O a` cn 3 3 0 F'" ch CI) ch ch ch 6 Cl) a W CO W? aZ INN U U • 0 o• U O a m -4= J 3 H = J N E E N - N .0 ww ei = o L w m L O C N N C ui u mO O E V d C 7 = — 'v = u d d Ao U dw U T R o • r d a 6. p Z tl1 O 7 A Ni w. J O Di E C • E - U 0 79 LU 0 U m r� ti d • Lu ▪ U LL - D M cn • c- 0- N N U R" O CI 0 .7N.. (O J Q UT O = W m a M 03 y L to E N fV 7 p,N N Of ¢ 0 d J J N y 7 N t N N N O D7 r2 C z a a ub ch th u ' c I •p " co a� o `o c c n 0) E y; — N 0 • • H 1 �Zco W g o o s= N U) a a 0 0 0 Z U c Q c o 0 a o CC o 0 a m ._.. Y J H J a 3 Q a) N ( co U @ (n@ E N 0 Emth a'c CV C) N 3 C �261- 2w d u .o c o m m 2 c '5 m c ;6; u _a hi c c c E u o? 411 d w V d m d' a s -40 42 get 2 Z O 0 a. a) cC O) d a F- ) 0 a) Z 2 Z x 0 co 0 0 o N O O a > To 3 '..Z. . m CO C U U U N Q Q Q a N a CO E N m a) m a 0 0. m O () (A (n 6 co N r co O) a Wv N M N N r o O N N N N O a d a a V N M N CO (O N- CO M CO M CO N- N CO N- 0 M CO 0 M CD a I.-- M v 0 O) O) N N 0 N M CD ? M V- CO _• 0 0) CO N N M O) < CO R ) O n e- - N C7 4 CD CO (n N N M C r o m v r r U) N 0 O CM Co a0 NC) N (O CD rvONv (O W NC7MY Cc' r y N c_ 0 O .) c") N a M N CD V N N 0 0 CO N 0) GO CO r .- (O a V •- N CO as To' r (O N N N CO O CD CO CO N r N N MCO O M m r N G CO O V r O N O) N r M co N m m CO •-O) 4 N4 co r .- .- ,- N CO CO M N CO N o •-c0 CO a r O V N N J E N M M 0) 4 R V 4. N N N (O CO N I,- 2 2 U } a m CO N N- N V N- O) V- N N 00 CO CO N CO O N CO N 00 N CO 1 CC L r O M CO N V CO N N N V O M 4. (O CO r CO (O N r O r (O CO V N r O N O] M O N co r r 4 O (O O N M4 U) 0 a N M 4- N r r CD CD 00 a0 N- (D N N N N 0) M M a 7 N N Q j c O T 3 o N m O r O o O O O o O O O O O O O O O O o O O N N E o N 'O CONNOOOOOOO OOOOOOOOOO OO ) (O Q O J J N N M N N r N r N N r r N N N N r r N r r r NaN d W N- N 8 O) M rO) O N O MCO N O a) V N M cc.,:' N N N W Oro O 'c -2 -o 6 o s- O ► COc0 CO CO CD co- N- N.: N- N- N- N- N ro co co- co- ao Co co co cc Di Di 2 Z a co q v) (n N : C a T O O 0 C .. . Cl) N G O C 0 O d y _ O O .t' d d N m L c) a. in33o O 0 • • 111 A' L o lc Z \ Y y gg" tl 1---' s N CD Y .O aA \ $ C J 0 C N os N 6iC N / r W N am — Zi Y 8 O • 392 x .. 9 - 8 - e _ S q V vi ^ Y m0. m F (u!/8sn OS[)(+)4uoN/(-)4inos ^ O m CL $ _O a ^ • Nall 11 A z ell N o g�77o M N .kms Z 8 888888ssgsoso88gs88612 r— o,is -� EmsssnmmAvEg m � smi P� MPGA - 3 d I3;;,' '28288,7,8;72PacATP8gT28g'!W 4.-o INI �> o^� �m$ • �o9 ��� 8Nov��8 n to :a ' 1oad� 8888 88088088$8 g IA. a ca d 1 .g..0 0- ociwicico.g,Lgicic.icour4E4,44 r ao m��ry 8&8�3i n8 m�Sm ° ' w N a 1 88888888288888888888888 ^ ! rF •y-,.,,r,u,.,L,-,`.,"`IN.,,,,,-,r--.c, al c4,-1 042.'0,2 .......s....'''s....N.\5N\\:1\,.; . ,, 1 4 wa qo (ut/gsn S9)tpdaQ Leacuan an.0 • • ■ W or 1 , as a a s 2g ri 7 Ill-- NMI _ 1 '\ . ‘oreame:-, 1M=111111111E41 _...„,„„cli‘., mhi11111 � m 1 i• ili'§,i \ - 4 4 L.,' # .2N � 4 3' 4 „, 1 !..,,ill *1111/4 Iiikkil: N H a a .igol pi� �5u AN ' - W ''''' • ct, ill , .0 117,-J m �� I . W 1 .1 r � '■■h1--.. !. 0 'gym m CD_ Ora �l,.._ /iti� y �s� — it,- sI 3tpl li i . mompapp- FT , 40,;;,•:* s N / /iIlte► 7 I WM/MYgiil., .l ri gill n Ld N N WINN I: .... .z._ :, p-•::- /4,1r: r , pr, , , g*4 4 Ai 1 ,ifill 14 I JI r` 1141411r �IR p414, ,1 , Al. (..: 1 _ Areiar riff , f6'\: '' 'Vi (ui/$sn 09)(+)uuoN/(-)4;noS j • • Ill I 18msSNN$ssgS$ssmsS$ J� m� 3$�vVs $6S2RsW� > I a m$o o oNe oooN 4 > 5 'a oH vo - > m C 'iqq ' FU' (A m 3 N m d _ m���mm m�mmmee �$mr',Y'?'?YW� _., ♦7a Ni ' tq % N ^ N to N V 1! H (p (pOp (V N N N y 6 y N N N VI y Y .Mg $'Nr N�.,7,E,OClm A(m0 L" 15/ apod ai.�. . • c.m yfb 0 TT . O ffyy. Y aW �� m�in�n c�ddddin�n inm mr m _ 2 N N N N 6 6 N N VaI N to N 8m O Isom ymjmrvmmm�vn n Y - W m f 1 9 C '2'10V. J O am U 1-b4 ONimnmmmmnbsiu�i Giug MrsgOsSn - > J a. 1 w« w sisssS's`�S$'�BIS'i8{SfSfSfSiSfB`�SSS`�S`sss > 7 a n ��� a > g > > I >> co m ado 822884 rn`xt`Rinu2888 o £(_rvci Y S o o 6 mryy > L 5 6 .5 *' > QEI r mmmmmml� r�tVfv Ngi VR�it�ia NrvH . �:-- -( N m N N • f/l Y ' 82 Vb�vNim mmn Womnm oo$S N N N O O N N a 6 ¢ 6 J 0,- !! U o v io _ dmZMd_ mora m m r mmm Y a 00 00 0 -U m 'c amm�metmm$$S&,mmm'R,mmmw$gg$ H 1°"w J� rTn fn J� o `n rn m N N w ai uvi E.n);-.8. <> A m N N O_ G _ f n) >0.4 �$rvv>BSSSg SSS,gg SSSS SSS g�b O LLoS$ I I fA th (A (h t' ' fh N t2n II N p U m /$ @m '$ gg m 0 0 t } i i 0 # i 0 # i 0 z �1t�itWOc �m m60a08M`o.rCOm`aim$i m$W a. pm j O E00 O mmmmm m Q Q N y'C N %o ----vimnm a w Mfnfyf 30 ��NndnY�mm °RrvFJrvr 0 c .a Y -W`vlw 8 0 U p 0 0 0 uI ------ i po r2 N O ,. /�/ - N p I� a0 O SI 8 / N O := lip% ' a i i — E N ___7— 7. o m rn - DO F d LL -_ ` /1111 \ C C Yp- dt—w-,g - ..ammm4.144, 1k\ N F �m Y�I \\:\ \\ \\\ \\\\\ , 1-15 \\:\\\'\\ \\,\\ 0 o m v It4 _ . in -.Nik,\\\ \ \\ \ \\ \\ ;\ \A (5 LLTI t c 0. / / P 0,-6:_,ct ul , Air , 7 , . ., ...,.., ,- h ..-. . s\\::,,sr \\\\ \\\\\ ‘„s,‘„, \,s,,,,‘,,,„,, ,„,„ c„, ...a...T I. U _1 o 0 0 0 0 0 0m , a \ O .- O o V0 0 o OO NO o OQ N Q N csi . N NDN y 2 \ ;iiiiig°I. ,i,, 0 t;t a- 0 '\\\ \\\\ Vs‘,‘ ,\'-\\---\ \\\\\ \ \\\s\s, s,:',..' N ft — ? Iiiiiiiii CL —1---- __ A / / -----_,, „-- ''''_04°-/' /400, < CI ---.....-2.....›,-;'..----„'"-- 0 . , .... - -a/ N S R N s • Øbp North America - ALASKA - BP Prudhoe Bay PB S Pad S-112 500292309900 S-112L1 S-112L1 WP04 Travelling Cylinder Report 15 December, 2015 BAKER HUGHES • • BP ®r 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay ND Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset ND Reference: Offset Datum Reference S-112L1 WP04 Filter type: GLOBAL FILTER APPLIED:All wellpaths within 200'+100/1000 of reference Interpolation Method: MD Interval 25.00usft Error Model: ISCWSA Depth Range: 6,765.90 to 9,215.95usft Scan Method: Tray.Cylinder North Results Limited by: Maximum center-center distance of 1,118.22 usft Error Surface: Elliptical Conic Survey Tool Program Date 12/15/2015 From To (usft) (usft) Survey(Wellbore) Tool Name Description 100.00 688.00 S-112 Srvy 1 GYD-CT-DMS(S-112) GYD-CT-DMS Gyrodata cont.drillpipe m/s 703.68 6,765.90 S-112 Srvy 2 MWD+IFR+MS(S-112) MWD+IFR+MS-WOCA MWD+IFR+Multi Station W/O Crustal 6,765.90 9,215.65 S-112L1 WP04(S-112L1) MWD MWD-Standard Casing Points Measured Vertical Casing Hole Depth Depth Diameter Diameter (usft) (usft) Name (in) (in) 2,915.39 2,809.21 SURFACE CASING 9.625 12.250 9,215.65 6,654.66 3-1/4"Liner 3.250 4.250 Summary Reference Offset Centre to No-Go Allowable Measured Measured Centre Distance Deviation Warning Site Name Depth Depth Distance (usft) from Plan Offset Well-Wellbore-Design (usft) (usft) (usft) (usft) PB S Pad Plan S-136-Plan S-136-Plan#7 S-136 Out of range S-01-S-01-S-01 Out of range S-01-S-01A-S-01A Out of range S-01-S-01 B-S-01 B Out of range S-01-S-01 C-S-01 C Out of range S-02-IGNORE ME-Plan 3 Out of range S-02-S-02-S-02 Out of range S-02-S-02A-S-02A Out of range S-02-S-02AL1-S-02AL1 Out of range S-02-S-02AL1 PB1-S-02AL1 PB1 Out of range S-02-S-02APB1-S-02APB1 Out of range S-03-S-03-S-03 Out of range S-04-Plan S-04A-Plan#5d S-04A Out of range S-04-S-04-S-04 Out of range S-05-S-05-S-05 Out of range S-05-S-05A-S-05A Out of range S-05-S-05APB1-S-05APB1 Out of range S-06-S-06-S-06 Out of range S-07-Plan S-07B RST-Plan#2 S-07B RST Out of range S-07-S-07-S-07 Out of range S-07-S-07A-S-07A Out of range S-08-S-08-S-08 Out of range S-08-S-08A-S-08A Out of range S-08-S-08B-S-08B Out of range S-09-S-09A-S-09A Out of range S-09-S-09APB1-Plan#7 S-09A Out of range CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 2 COMPASS 5000.1 Build 61 • BP ®® by Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset ND Reference: Offset Datum Summary Reference Offset Centre to No-Go Allowable Measured Measured Centre Distance Deviation Warning Site Name Depth Depth Distance (usft) from Plan Offset Well-Wellbore-Design (usft) (usft) (usft) (usft) PB S Pad S-09-S-09APB1-S-09APB1 Out of range S-09-S-09APB2-S-09APB2 Out of range S-09-S-09APB3-S-09APB3 Out of range S-10-S-10-5-10 7,180.00 6,875.00 637.43 134.69 502.76 Pass-Major Risk S-10-S-10A-S-10A 7,180.00 6,875.00 637.43 134.69 502.76 Pass-Major Risk S-10-S-10APB1-S-10APB1 7,180.00 6,875.00 637.43 134.95 502.49 Pass-Major Risk S-100-S-100-S-100 Out of range S-101-S-101-S-101 Out of range S-101-S-101 PB1-S-101 PB1 Out of range S-102-S-102-S-102 Out of range S-102-S-102L1-S-102L1 Out of range S-102-S-102L1 P81-S-102L1 P81 Out of range S-102-S-102PB1-S-102PB1 Out of range S-103-S-103-S-103 Out of range S-104-S-104-S-104 Out of range S-105-S-105-S-105 Out of range S-106-S-106-S-106 Out of range S-106-S-106PB1-S-106PB1 Out of range S-107-S-107-S-107 Out of range S-108-S-108-S-108 Out of range S-109-S-109-S-109 Out of range S-109-S-109P81-S-109PB1 Out of range S-11-S-11-S-11 Out of range S-11-S-11A-S-11A Out of range S-11-S-11B-5-118 Out of range S-110-S-110-S-110 Out of range S-110-S-110A-S-110A Out of range S-110-S-110B-S-1108 Out of range S-111-S-111-S-111 Out of range S-111-S-111 PB1-S-111 PB1 Out of range S-111-S-111PB2-5-111 P82 Out of range S-112-S-112-S-112 6,875.00 6,875.00 0.00 0.66 -0.41 FAIL-NOERRORS S-113-S-113-S-113 Out of range S-113-S-113A-S-113A Out of range S-113-S-1138-S-1138 Out of range S-113-S-113BL1-S-113BL1 WP12 Out of range S-114-S-114-S-114 Out of range S-114-S-114A-S-114A Out of range S-115-S-115-S-115 Out of range S-116-S-116-S-116 Out of range S-116-S-116A-S-116A Out of range S-116-S-116APB1-S-116APB1 Out of range S-116-S-116APB2-S-116APB2 Out of range S-117-S-117-S-117 Out of range S-118-S-118-S-118 Out of range S-119-S-119-S-119 Out of range S-12-S-12-S-12 Out of range S-120-S-120-S-120 Out of range S-121-S-121-S-121 Out of range S-121-S-121 P81-S-121 PB1 Out of range S-122-S-122-S-122 Out of range S-122-S-122PB1-S-122PB1 Out of range S-122-S-122PB2-S-122PB2 Out of range CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 3 COMPASS 5000.1 Build 61 III • BP r/® 0 b Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay ND Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset ND Reference: Offset Datum Summary Reference Offset Centre to No-Go Allowable Measured Measured Centre Distance Deviation Warning Site Name Depth Depth Distance (usft) from Plan Offset Well-Wellbore-Design (usft) (usft) (usft) (usft) PBS Pad S-122-S-122PB3-S-122PB3 Out of range S-123-S-123-S-123 Out of range S-124-S-124-S-124 Out of range S-125-S-125-S-125 Out of range S-125-S-125PB1-S-125PB1 Out of range S-129-S-129-S-129 Out of range S-129-S-129PB1-S-129PB1 Out of range S-129-S-129PB2-S-129PB2 Out of range S-12A-S-12A-S-12A Out of range S-12A-S-128-S-12B Out of range S-12A-S-12C-S-12C WP1 Out of range S-12A-S-12CL1-S-12CL1 WP1 Out of range S-13-S-13-S-13 Out of range S-13-S-13A-S-13A Out of range S-13-S-13APB1-S-13APB1 Out of range S-14-S-14-S-14 Out of range S-14-S-14A-S-14A Out of range S-15-S-15-S-15 Out of range S-16-S-16-S-16 8,225.00 7,025.00 926.65 119.01 821.34 Pass-Major Risk S-19-S-19-S-19 Out of range S-20-S-20-S-20 Out of range S-20-S-20A-S-20A Out of range S-200-S-200-S-200 Out of range S-200-S-200PB1-S-200PB1 Out of range S-201-S-201-S-201 Out of range S-201-S-201 PB1-S-201 PB1 Out of range S-21-S-21-S-21 9,215.86 6,775.00 601.56 179.12 483.34 Pass-Major Risk S-213-S-213-S-213 Out of range S-213-S-213A-S-213A Out of range S-213-S-213AL1-S-213AL1 Out of range S-213-S-213AL1-01-S-213AL1-01 Out of range S-213-S-213AL2-S-213AL2 Out of range S-213-S-213AL3-S-213AL3 Out of range S-22-S-22-S-22 Out oflange---- S-22-S-22A-S-22A Out of range S-22-S-22B-S-22B 9,027.33 7,175.00 39.30 12.05 27.55/ Pass-Minor 1/20 S-23-S-23-S-23 i, Out of range / S-24-S-24-S-24 7,340.00 6,875.00 848.33 76.79 774.25 .Pass-Major Risk. S-24-S-24A-S-24A Out of range S-24-S-24B-S-24B Out of range S-25-S-25-S-25 7,858.71 7,025.00 369.92 82.22 288.29 Pass-Major Risk S-25-S-25A-S-25A 7,858.71 7,025.00 369.92 82.22 288.29 Pass-Major Risk S-25-S-25APB1-S-25APB1 7,858.71 7,025.00 369.92 82.22 288.29 Pass-Major Risk S-26-S-26-S-26 Out of range S-28-S-28-S-28 Out of range S-28-S-28A-S-28A Out of range S-28-S-28B-S-28B Out of range S-28-S-28BPB1-S-28BPB1 Out of range S-30-S-30-S-30 Out of range S-31-S-31-S-31 Out of range S-31-5-31A-5-31A Out of range S-32-S-32-S-32 Out of range S-32-S-32A-S-32A Out of range CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12.26AM Page 4 COMPASS 5000.1 Build 61 • ! BP Waal 0 by Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Summary Reference Offset Centre to No-Go Allowable Measured Measured Centre Distance Deviation Warning Site Name Depth Depth Distance (usft) from Plan Offset Well-Wellbore-Design (usft) (usft) (usft) (usft) PB S Pad S-33-S-33-S-33 6,765.90 7,075.00 615.08 60.14 558.39 Pass-Major Risk S-34-S-34-S-34 8,275.00 7,000.00 822.84 125.00 715.45 Pass-Major Risk S-35-S-35-S-35 Out of range S-36-S-36-S-36 7,913.43 7,225.00 534.37 112.26 425.05 Pass-Major Risk S-37-S-37-S-37 7,094.45 6,475.00 972.63 66.57 907.96 Pass-Major Risk S-37-S-37A-S-37A 7,094.45 6,475.00 972.63 66.92 907.65 Pass-Major Risk S-37-S-37APB1-S-37APB1 7,094.45 6,475.00 972.63 66.93 907.63 Pass-Major Risk S-38-S-38-S-38 7,200.00 6,875.00 332.92 79.89 253.48 Pass-Major Risk S-400-S-400-S-400 Out of range S-400-S-400A-S-400A Out of range S-401-S-401-S-401 Out of range S-401-S-401 PB1-S-401 PB1 Out of range S-41-S-41-S-41 Out of range S-41-S-41 A-S-41A Out of range S-41-S-41AL1-S-41AL1 Out of range S-41-S-41 L1-S-41 L1 Out of range S-41-S-41 P B 1-S-41 P B 1 Out of range S-42-S-42-S-42 7,135.78 7,250.00 736.39 88.45 650.28 Pass-Major Risk S-42-S-42A-S-42A Out of range S-42-S-42PB1-S-42PB1 7,135.78 7,250.00 736.39 88.45 650.28 Pass-Major Risk S-43-S-43-S-43 7,170.00 6,825.00 641.09 77.11 565.69 Pass-Major Risk S-43-S-43L1-S-43L1 7,170.00 6,825.00 641.09 77.26 565.54 Pass-Major Risk S-44-S-44-S-44 9,215.65 6,700.00 772.95 173.43 607.50 Pass-Major Risk S-44-S-44A-S-44A Out of range S-44-S-44L1-S-44L1 9,215.65 6,700.00 772.95 174.51 606.49 Pass-Major Risk S-44-S-44L1PB1-S-44L1PB1 9,215.65 6,700.00 772.95 173.29 607.63 Pass-Major Risk Offset Design PB S Pad- S-10-S-10-5-10 Offset Site Error: 0.00 usft Survey Program: 100-CB-GYRO-MS Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +WS +EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) P) (usft) (usft) (in) (usft) (usft) (usft) 7,170.00 6,682.88 5,950.00 5,760.37 7.62 28.31 58.14 -147.92 1,586.17 3750 1,108.85 127.48 1,013.55 Pass-Major Risk 7,170.00 6,682.86 5,975.00 5,785.16 7.62 28.45 58.92 -145.69 1,568.50 3.750 1,088.97 127.87 992.72 Pass-Major Risk 7,170.00 6,682.86 6,000.00 5,809.96 7.62 28.59 59.72 -143.46 1,570.78 3750 1,06927 12827 972.04 Pass-Major Risk 7,170.00 6,682.86 6,025.00 5,834.76 7.62 28.72 60.55 -141.23 1,572.98 3750 1,049.76 128.66 951.53 Pass-Major Risk 7,170.00 6,682.86 6,050.00 5,859.57 782 28.85 61.41 -138.99 1,575.11 3750 1,030.43 129.04 931.17 Pass-Major Risk 7,170.00 6,682.86 6,075.00 5,884.39 7.62 28.99 62.29 -136.75 1,577.17 3.750 1,011.31 129.43 910.98 Pass-Major Risk 7,170.00 6,682.86 6,100.00 5,909.21 7.82 29.12 63.21 -134.51 1,579.15 3.750 992.39 129.82 890.97 Pass-Major Risk 7,170.00 6,682.86 6,125.00 5,934.03 7.62 29.25 84.16 -132.28 1,581.08 3.750 97371 13020 871.17 Pass-Major Risk 7,170.00 6,682.86 6,150.00 5,958.87 7.62 29.38 65.15 -130.06 1,582.90 3.750 95528 130.58 851.58 Pass-Major Risk 7,170.00 6,682.86 6,175.00 5,983.71 7.62 29.51 66.17 -127.87 1,584.67 3.750 937.10 130.96 83221 Pass-Major Risk 7,170.00 6,682.88 6,200.00 6,008.55 7.62 29.63 67.23 -125.69 1,586.37 3.750 919.21 131.34 813.09 Pass-Major Risk 7,170.00 6,682.88 6,225.00 6,033.41 7.62 29.75 68.33 -123.55 1,587.99 3.750 901.60 131.69 794.25 Pass-Major Risk 7,170.00 6,882.86 6,250.00 6,05828 7.62 29.87 69.47 -121.47 1,589.51 3.750 88429 132.04 775.87 Pass-Major Risk 7,174.45 6,682.90 6,275.00 6,083.15 7.85 29.98 69.12 -119.44 1,590.93 3.750 867.25 131.17 758.12 Pass-Major Risk 7,174.98 6,682.91 6,300.00 6,108.04 7.65 30.10 70.17 -117.48 1,592.28 3.750 850.58 131.37 74024 Pass-Major Risk 7,175.49 6,682.91 6,325.00 6,132.94 7.66 30.20 71.27 -115.58 1,593.52 3.750 834.30 131.52 722.76 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 5 COMPASS 5000.1 Build 61 0 S _ BP EOMI Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-10-S-10-S-10 Offset Site Error: 0.00 usft Survey Program: 100-CB-GYRO-MS Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface* Offset Wellbore Centre Casing- Centre to No Go Allowable Waming Depth Depth Depth Depth Azimuth ON/-.6 *E/-W Hole Size Centre Distance Deviation (usft) Wet) (usft) (use) (usft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 7,175.99 6,682.92 6,350.00 6,157.84 7.66 30.30 72.43 -113.76 1,594.76 3.750 818.46 131.68 705.69 Pass-Major Risk 7,180.00 6,682.95 6,375.00 6,182.75 7.69 30.40 72.42 -112.00 1,595.97 3.750 803.11 130.81 689.86 Pass-Major Risk 7,180.00 6,682.95 6,400.00 6,207.66 7.69 30.50 73.85 -110.31 1,597.16 3.750 788.20 131.11 673.61 Pass-Major Risk 7,180.00 6,682.95 6,425.00 6,232.58 7.69 30.58 75.35 -108.69 1,598.30 3.750 773.80 131.37 657.87 Pass-Major Risk 7,180.00 6,682.95 6,450.00 6,257.51 7.69 30.67 76.90 -107.15 1,599.37 3.750 759.92 131.64 642.85 Pass-Major Risk 7,180.00 6,682.95 6,475.00 6,282.45 7.69 30.76 78.50 -105.70 1,600.39 3.750 746.59 131.90 627.98 Pass-Major Risk 7,180.00 6,682.95 6,500.00 6,307.39 7.69 30.84 80.16 -104.32 1,601.34 3.750 733.85 132.17 613.89 Pass-Major Risk 7,180.00 6,682.95 6,525.00 6,332.34 7.69 30.92 81.87 -103.01 1,602.25 3.750 721.72 132.40 600.45 Pass-Major Risk 7,180.00 6,682.95 6,550.00 6,357.30 7.69 31.00 83.65 -101.79 1,603.11 3.750 710.26 132.63 58770 Pass-Major Risk 7,180.00 6,682.95 6,575.00 6,382.26 7.69 31.07 85.48 -100.63 1,803.94 3.750 699.50 132.86 575.66 Pass-Major Risk 7,180.00 8,682.95 6,600.00 6,407.22 7.69 31.15 87.36 -99.55 1,604.73 3.750 689.46 133.09 564.39 Pass-Major Risk 7,180.00 6,682.95 6,625.00 6,432.19 769 31.21 89.30 -98.53 1,605.51 3.750 68020 133.27 553.98 Pass-Major Risk 7,180.00 6,682.95 6,650.00 6,457.16 7.69 31.27 91.29 -97.55 1,606.30 3.750 671.77 133.45 544.46 Pass-Major Risk 7,180.00 6,682.95 6,675.00 6,482.13 7.69 31.33 93.33 -96.62 1,607.11 3.750 664.20 133.63 535.85 Pass-Major Risk 7,180.00 6,682.95 6,700.00 6,507.10 7.69 31.39 95.42 -95.74 1,607.92 3.750 657.53 133.81 528.16 Pass-Major Risk 7,180.00 6,682.95 6,725.00 6,532.07 7.69 31.44 97.55 -94.88 1,608.76 3.750 651.77 133.93 521.36 Pass-Major Risk 7,180.00 6,682.95 6,750.00 6,557.04 7.69 31.48 99.71 -94.02 1,609.63 3.750 646.95 134.04 515.58 Pass-Major Risk 7,180.00 6,682.95 6,775.00 6,582.01 7.89 31.52 101.90 -93.17 1,610.53 3.750 643.11 134.16 510.87 Pass-Major Risk 7,180.00 6,682.95 8,800.00 6,606.98 7.69 31.57 104.11 -92.33 1,611.45 3.750 640.24 134.28 50724 Pass-Major Risk 7,180.00 6,682.95 6,825.00 6,631.95 7.69 31.62 106.34 -91.50 1,612.38 3.750 638.35 134.41 504.67 Pass-Major Risk 7,180.00 6,682.95 6,850.00 6,656.92 7.69 31.67 108.59 -90.71 1,613.27 3.750 637.41 134.55 503.18 Pass-Major Risk,CC 7,180.00 6,682.95 6,875.00 6,881.89 7.69 31.72 110.83 -89.95 1,614.13 3.750 637.43 134.69 502.76 Pass-Major Risk,ES,SF 7,180.00 6,682.95 6,900.00 6,706.87 7.69 31.77 113.07 -89.22 1,614.96 3.750 638.41 134.83 503.42 Pass-Major Risk 7,180,00 6,682.95 6,925.00 6,731.84 7.69 31.83 115.30 -88.55 1,615.77 3.750 640.38 134.98 505.16 Pass-Major Risk 7,180.00 6,682.95 6,950.00 6,756.82 7.69 31.89 117.52 -87.94 1,618.60 3.750 643.34 135.14 508.02 Pass-Major Risk 7,180.00 6,682,95 6,975.00 6,781.80 7.69 31.94 11971 -87.42 1,617 43 3.750 647.29 135.30 511.98 Pass-Major Risk 7,184.03 6,682.99 7,000.00 6,806.79 7.71 32.00 120.47 -86.96 1,618.28 3.750 652.15 134.19 518.19 Pass-Major Risk 7,184.21 6,682.99 7,025.00 6,831.77 7.71 32.05 122.53 -86.56 1,619.11 3.750 657.99 134.27 524.31 Pass-Major Risk 7,184.38 6,882.99 7,050.00 6,856.75 7.71 32.11 124.56 -86.18 1,619.93 3.750 664.70 134.35 531.40 Pass-Major Risk 7,184.54 6,682.99 7,075.00 6,881.74 7.72 32.16 126.54 -85.84 1,620.72 3.750 67227 134.43 539.43 Pass-Major Risk 7,184.58 6,682.99 7,775.00 7,581.52 7.72 32.86 163.30 -95.13 1,629.65 3.750 1,111.20 136.01 998.39 Pass-Major Risk 7,184.67 6,682.99 7,750.00 7,556.53 7.72 32.85 162.50 -94.46 1,629.69 3.750 1,090.98 135.98 977.65 Pass-Major Risk 7,184.70 6,682.99 7,100.00 6,906.72 7.72 32.21 128.48 -85.53 1,621.49 3.750 680.67 134.52 548.38 Pass-Major Risk 7,184.75 6,682.99 7,725.00 7,531.54 7.72 32.85 161.68 -93.80 1,629.71 3750 1,070.95 135.95 957.08 Pass-Major Risk 7,184.83 6,682.99 7,700.00 7,506.55 7.72 32.84 160.83 -93.13 1,629.72 3.750 1,051.12 135.93 936.68 Pass-Major Risk 7,184.84 6,882.99 7,125.00 6,931.71 7.72 32.26 130.38 -85.27 1,622.25 3.750 689.86 134.59 558.16 Pass-Major Risk 7,184.92 6,682.99 7,675.00 7,481.56 7.72 32.84 159.95 -92.46 1,629.71 3.750 1,031.51 135.89 916.48 Pass-Major Risk 7,184.97 6,682.99 7,150.00 6,956.70 7.72 32.31 132.22 -85.08 1,622.99 3.750 699.85 134.68 568.80 Pass-Major Risk 7,185.00 6,682.99 7,650.00 7,456.57 7.72 32.83 159.04 -91.79 1,629.70 3.750 1,012.13 135.85 896.49 Pass-Major Risk 7,185.08 6,682.99 7,625.00 7,431.57 7.72 32.82 158.09 -91.13 1,629.69 3.750 993.00 135.81 876.73 Pass-Major Risk 7,185.09 6,682.99 7,175.00 6,981.69 7.72 32.36 134.01 -84.98 1,623.72 3.750 710.58 134.76 58024 Pass-Major Risk 7,185.18 6,683.00 7,600.00 7,406.58 7.72 32.81 157.10 -90.46 1,62967 3.750 974.14 135.77 85720 Pass-Major Risk 7,185.19 6,683.00 7,200.00 7,006.68 7.72 32.41 135.76 -84.91 1,624.44 3.750 722.03 134.85 592.42 Pass-Major Risk 7,185.24 6,683.00 7,575.00 7,381.59 7.72 32.80 156.08 -89.82 1,629.83 3.750 955.55 135.73 837.93 Pass-Major Risk 7,185.27 6,683.00 7,225.00 7,031.67 7.72 32.45 137.45 -84.92 1,625.12 3.750 734.14 134.92 605.33 Pass-Major Risk 7,185.30 6,683.00 7,550.00 7,356.60 7.72 32.79 155.03 -89.22 1,629.53 3.750 937.23 135.68 818.90 Pass-Major Risk 7,185.34 6,683.00 7,250.00 7,056.66 7.72 32.48 139.09 -84.99 1,825.73 3.750 746.86 134.98 618.85 Pass-Major Risk 7,185.36 8,683.00 7,525.00 7,331.61 7.72 32.77 153.95 -88.66 1,629.38 3.750 919.20 135.64 800.14 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 6 COMPASS 5000.1 Build 61 • • BP ISM to, "+e bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-10-S-10-S-10 Offset Site Error: 0.00 usft Survey Program: 100-CB-GYRO-MS Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth *W-S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (°) (usft) (usft) lin) (usft) (usft) (usft) 7,185.40 6,683.00 7,500.00 7,306.61 7.72 32.76 152.82 -88.15 1,629.18 3.750 901.48 135.61 78167 Pass-Major Risk 7,185.40 6,683.00 7,275.00 7,081.65 772 32.52 14068 -85.11 1,626.29 3.750 760.16 135.06 632.97 Pass-Major Risk 7,185.43 6,683.00 7,475.00 7,281.62 7.72 32.74 151.66 -87.68 1,628.95 3.750 884.09 135.56 763.52 Pass-Major Risk 7,185.44 6,683.00 7,300.00 7,106.65 7.72 32.56 142.22 -85.29 1,626.79 3.750 774.00 135.14 64764 Pass-Major Risk 7,185.45 6,683.00 7,450.00 7,256.62 7.72 32.72 150.45 -87.24 1,628.71 3.750 867.09 135.51 745.72 Pass-Major Risk 7,185.47 8,683.00 7,325.00 7,131.64 7.72 32.59 143.71 -85.52 1,627.23 3.750 788.36 135.20 662.85 Pass-Major Risk 7,185.47 6,683.00 7,425.00 7,231.63 7.72 32.70 149.20 -86.83 1,628.47 3.750 850.48 135.46 72830 Pass-Major Risk 7,185.48 6,683.00 7,350.00 7,15664 7.72 3262 145.15 -85.79 1,62761 3750 80322 13527 678.55 Pass-Major Risk 7,185.49 6,683.00 7,400.00 7,20663 772 3268 147.90 -86.45 1,628.22 3750 834.29 135.41 71128 Pass-Major Risk 7,185.49 6,883.00 7,375.00 7,181.64 7.72 3265 146.55 -86.10 1,627.95 3750 818.53 135.34 69470 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 7 COMPASS 5000.1 Build 61 • • BP 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PBS Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-10-5-10A-5-10A Offset Site Error: 0.00 usft Survey Program: 100-CB-GYRO-MS,7885-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth ON/-S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 7,170.00 6,882.86 5,950.00 5,760.37 7.62 28.31 58.14 -147.92 1,566.17 3.750 1,108.85 127.48 1,013.55 Pass-Major Risk 7,170.00 6,682.86 5,975.00 5,785.16 7.82 28.45 58.92 -145.89 1,588.50 3.750 1,088.97 127.87 992.72 Pass-Major Risk 7,170.00 6,682.86 6,000.00 5,809.96 7.62 28.59 59.72 -143.46 1,570.78 3.750 1,069.27 128.27 972.04 Pass-Major Risk 7,170.00 6,682.86 6,025.00 5,834.76 7.62 28.72 60.55 -141.23 1,572.98 3.750 1,049.76 128.66 951.53 Pass-Major Risk 7,170.00 6,682.86 6,050.00 5,859.57 7.82 28.85 61.41 -138.99 1,575.11 3.750 1,030.43 129.04 931.17 Pass-Major Risk 7,170.00 8,682.86 6,075.00 5,884.39 7.62 28.99 62.29 -138.75 1,577.17 3.750 1,011.31 129.43 910.98 Pass-Major Risk 7,170.00 6,682.86 6,100.00 5,909.21 7.62 29.12 63.21 -134.51 1,579.15 3.750 992.39 129.82 890.97 Pass-Major Risk 7,170.00 6,682.88 6,125.00 5,934.03 7.62 29.25 64.18 -132.28 1,581.06 3.750 973.71 13020 871.17 Pass-Major Risk 7,170.00 6,682.88 6,150.00 5,958.87 7.62 29.38 65.15 -130.06 1,582.90 3.750 955.28 130.58 851.58 Pass-Major Risk 7,170.00 6,682.86 6,175.00 5,983.71 7.62 29.51 66.17 -127.87 1,584.67 3.750 937.10 130.96 832.21 Pass-Major Risk 7,170.00 6,682.86 6,200.00 6,008.55 7.62 29.63 67.23 -125.69 1,586.37 3.750 919.21 131.34 813.09 Pass-Major Risk 7,170.00 8,682.86 6,225.00 6,033.41 7.82 29.75 88.33 -123.55 1,587.99 3.750 901.60 131.69 794.25 Pass-Major Risk 7,170.00 8,682.86 6,250.00 6,058.28 7.82 29.87 89.47 -121.47 1,589.51 3.750 88429 132.04 775.67 Pass-Major Risk 7,174.45 6,682.90 6,275.00 6,083.15 7.65 29.98 69.12 -119.44 1,590.93 3.750 867.25 131.17 758.12 Pass-Major Risk 7,174.98 6,682.91 6,300.00 6,108.04 7.65 30.10 70.17 -117.48 1,592.26 3.750 850.58 131.37 740.24 Pass-Major Risk 7,175.49 6,682.91 6,325.00 6,132.94 7.88 30.20 71.27 -115.58 1,593.52 3750 834.30 131.52 722.76 Pass-Major Risk 7,175.99 6,682.92 6,350.00 6,157.84 7.66 30.30 72.43 -113.76 1,594.76 3.750 818.46 131.68 705.69 Pass-Major Risk 7,180.00 8,682.95 6,375.00 6,182.75 7.69 30.40 72.42 -112.00 1,595.97 3.750 803.11 130.81 689.86 Pass-Major Risk 7,180.00 6,682.95 6,400.00 6,207.66 7.89 30.50 73.85 -110.31 1,597.16 3.750 788.20 131.11 873.61 Pass-Major Risk 7,180.00 8,682.95 8,425.00 8,232.58 7.89 30.58 75.35 -108.69 1,598.30 3.750 773.80 131.37 657.87 Pass-Major Risk 7,180.00 6,682.95 8,450.00 6,257.51 7.69 30.87 76.90 -107.15 1,599.37 3.750 759.92 131.64 642.65 Pass-Major Risk 7,180.00 6,682.95 6,475.00 6,282.45 7.69 30.76 78.50 -105.70 1,800.39 3.750 748.59 131.90 627.98 Pass-Major Risk 7,180.00 6,882.95 8,500.00 6,307.39 7.69 30.84 80.16 -104.32 1,601.34 3.750 733.85 132.17 613.89 Pass-Major Risk 7,180.00 6,682.95 6,525.00 8,332.34 7.69 30.92 81.87 -103.01 1,602.25 3.750 721.72 132.40 600.45 Pass-Major Risk 7,180.00 8,682.95 6,550.00 8,357.30 7.69 31.00 83.65 -101.79 1,603.11 3.750 710.26 132.63 587.70 Pass-Major Risk 7,180.00 6,682.95 6,575.00 8,382.26 7.69 31.07 85.48 -100.63 1,603.94 3.750 899.50 132.86 575.66 Pass-Major Risk 7,180.00 8,682.95 6,600.00 8,407.22 7.69 31.15 87.38 -99.55 1,604.73 3.750 689.46 133.09 564.39 Pass-Major Risk 7,180.00 6,882.95 6,625.00 6,432.19 7.69 31.21 89.30 -98.53 1,605.51 3.750 680.20 133.27 553.98 Pass-Major Risk 7,180.00 6,682.95 6,650.00 6,457.16 7.69 31.27 91.29 -97.55 1,606.30 3.750 671.77 133.45 544.46 Pass-Major Risk 7,180.00 6,882.95 6,875.00 6,482.13 7.69 31.33 93.33 -96.62 1,607.11 3.750 664.20 133.63 535.85 Pass-Major Risk 7,180.00 8,682.95 6,700.00 6,507.10 7.69 31.39 95.42 -95.74 1,607.92 3.750 657.53 133.81 528.16 Pass-Major Risk 7,180.00 6,682.95 6,725.00 6,532.07 7.69 31.44 97.55 -94.88 1,608.76 3.750 851.77 133.93 521.36 Pass-Major Risk 7,180.00 6,682.95 6,750.00 6,557.04 7.69 31.48 99.71 -94.02 1,609.63 3.750 646.95 134.04 515.58 Pass-Major Risk 7,180.00 8,882.95 6,775.00 6,582.01 7.69 31.52 101.90 -93.17 1,610.53 3.750 843.11 134.16 510.87 Pass-Major Risk 7,180.00 8,682.95 6,800.00 6,606.98 7.69 31.57 104.11 -92.33 1,611.45 3.750 640.24 134.28 50724 Pass-Major Risk 7,180.00 6,682.95 6,825.00 6,631.95 7.69 31.62 106.34 -91.50 1,612.38 3.750 638.35 134.41 504.67 Pass-Major Risk 7,180.00 6,682.95 6,850.00 6,656.92 7.69 31.67 108.59 -90.71 1,813.27 3.750 637.41 134.55 503.18 Pass-Major Risk,CC 7,180.00 6,682.95 6,875.00 6,681.89 7.69 31.72 110.83 -89.95 1,614.13 3.750 637.43 134.69 502.76 Pass-Major Risk,ES,SF 7,180.00 6,682.95 8,900.00 6,706.87 7.69 31.77 113.07 -89.22 1,614.96 3.750 838.41 134.83 503.42 Pass-Major Risk 7,180.00 6,882.95 6,925.00 8,731.84 7.89 31.83 115.30 -88.55 1,615.77 3.750 640.38 134.98 505.16 Pass-Major Risk 7,180.00 6,682.95 6,950.00 6,756.82 7.69 31.89 117.52 -87.94 1,616.60 3.750 643.34 135.14 508.02 Pass-Major Risk 7,180.00 6,882.95 8,975.00 6,781.80 7.69 31.94 119.71 -87.42 1,617.43 3.750 647.29 135.30 511.98 Pass-Major Risk 7,184.03 6,682.99 7,000.00 6,808.79 7.71 32.00 120.47 -86.96 1,618.28 3.750 852.15 134.19 518.19 Pass-Major Risk 7,184.21 6,682.99 7,025.00 6,831.77 7.71 32.05 122.53 -86.56 1,619.11 3.750 857.99 134.27 524.31 Pass-Major Risk 7,184.38 6,882.99 7,050.00 6,858.75 7.71 32.11 124.56 -86.18 1,819.93 3.750 664.70 134.35 531.40 Pass-Major Risk 7,184.54 6,682.99 7,075.00 8,881.74 7.72 32.16 126.54 -85.84 1,620.72 3.750 672.27 134.43 539.43 Pass-Major Risk 7,184.58 6,682.99 7,775.00 7,581.52 7.72 32.86 163.30 -95.13 1,629.85 3.750 1,111.20 136.01 998.39 Pass-Major Risk 7,184.67 6,882.99 7,750.00 7,558.53 7.72 32.85 162.50 -94.46 1,829.89 3.750 1,090.98 135.98 977.65 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 8 COMPASS 5000.1 Build 61 BP Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-10-S-10A-S-10A Offset Site Error: 0 00 usft Survey Program: 100-C8-GYRO-MS,7885-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N/-S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) () (usft) (usft) (in) (usft) (usft) (usft) 7,184.70 6,682.99 7,100.00 6,906.72 7.72 3221 128.48 -85.53 1,621.49 3.750 680.67 134.52 548.36 Pass-Major Risk 7,184.75 6,682.99 7,725.00 7,531.54 7.72 32.85 161.68 -93.80 1,629.71 3.750 1,070.95 135.95 957.08 Pass-Major Risk 7,184.83 6,682.99 7,700.00 7,506.55 7.72 32.84 160.83 -93.13 1,629.72 3.750 1,051.12 135.93 936.68 Pass-Major Risk 7,184.84 6,682.99 7,125.00 6,931.71 7.72 32.26 130.38 -85.27 1,622.25 3.750 689.86 134.59 558.16 Pass-Major Risk 7,184.92 6,682.99 7,675.00 7,481.56 7.72 32.84 159.95 -92.46 1,629.71 3.750 1,031.51 135.89 91648 Pass-Major Risk 7,184.97 6,682.99 7,150.00 6,956.70 7.72 32.31 132.22 -85.08 1,622.99 3.750 699.85 134.68 568.80 Pass-Major Risk 7,185.00 6,682.99 7,650.00 7,456.57 7.72 32.83 159.04 -91.79 1,629.70 3.750 1,012.13 135.85 896.49 Pass-Major Risk 7,185.08 6,682.99 7,625.00 7,431.57 7.72 3282 158.09 -91.13 1,629.69 3.750 993.00 135.81 876.73 Pass-Major Risk 7,185.09 6,682.99 7,175.00 6,981.69 7.72 32.36 134.01 -84.96 1,623.72 3.750 710.58 134.76 580.24 Pass-Major Risk 7,185.16 6,683.00 7,600.00 7,406.58 7.72 32.81 157.10 -90.46 1,629.67 3.750 974.14 135.77 857.20 Pass-Major Risk 7,185.19 6,683.00 7,200.00 7,006.68 7.72 3241 135.76 -84.91 1,624.44 3.750 722.03 134.85 59242 Pass-Major Risk 7,185.24 6,683.00 7,575.00 7,381.59 7.72 32.80 156.08 -89.82 1,629.63 3.750 955.55 135.73 837.93 Pass-Major Risk 7,185.27 6,683.00 7,225.00 7,031.67 7.72 32.45 137.45 -84.92 1,625.12 3.750 734.14 134.92 605.33 Pass-Major Risk 7,185.30 6,683.00 7,550.00 7,356.60 7.72 32.79 155.03 -89.22 1,629.53 3.750 937.23 135.68 818.90 Pass-Major Risk 7,185.34 6,683.00 7,250.00 7,056.66 7.72 32.48 139.09 -84.99 1,625.73 3.750 746.86 134.98 618.85 Pass-Major Risk 7,185.36 6,683.00 7,525.00 7,331.61 7.72 32.77 153.95 -88.66 1,629.38 3.750 919.20 135.64 800.14 Pass-Major Risk 7,185.40 6,683.00 7,500.00 7,306.61 7.72 32.76 152.82 -88.15 1,629.18 3.750 901.48 135.61 781.67 Pass-Major Risk 7,185.40 6,683.00 7,275.00 7,081.65 7.72 32.52 140.88 -85.11 1,826.29 3.750 760.16 135.06 632.97 Pass-Major Risk 7,185.43 6,683.00 7,475.00 7,281.62 7.72 32.74 151.66 -87.68 1,628.95 3.750 884.09 135.56 763.52 Pass-Major Risk 7,185.44 6,683.00 7,300.00 7,106.65 772 32.58 142.22 -85.29 1,626.79 3.750 774.00 135.14 647.64 Pass-Major Risk 7,185.45 6,683.00 7,450.00 7,256.62 7.72 32.72 150.45 -87.24 1,628.71 3.750 867.09 135.51 745.72 Pass-Major Risk 7,185.47 6,683.00 7,325.00 7,131.64 7.72 32.59 143.71 -85.52 1,62723 3.750 788.36 135.20 862.85 Pass-Major Risk 7,185.47 6,683.00 7,425.00 7,231.63 7.72 32.70 149.20 -86.83 1,628.47 3.750 850.48 135.46 728.30 Pass-Major Risk 7,185.48 6,683.00 7,350.00 7,156.64 7.72 32.62 145.15 -85.79 1,627_61 3.750 803.22 135.27 678.55 Pass-Major Risk 7,185.49 6,683.00 7,400.00 7,206.63 7.72 32.68 147.90 -86.45 1,628.22 3.750 834.29 135.41 711.28 Pass-Major Risk 7,185.49 6,683.00 7,375.00 7,181.64 7.72 32.65 146.55 -86.10 1,627.95 3.750 818.53 135.34 694.70 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 9 COMPASS 5000.1 Build 61 • s BP ., tv,t , ' X01,' Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PBS Pad MD Reference: S-112 @ 69.6ousft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-10-S-10APB1-S-10APB1 Offset Site Error: 0.00 usft Survey Program: 100-CB-GYRO-MS,7885-M1ND Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toofface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth *NIS +E/-W Hole Size Centre Distance Deviation (tisk) (usft) (usft) (cuff) (tisk) (usft) P) (usft) (usft) (in) (usft) (usft) (usft) 7,170.00 6,682.86 5,950.00 5,760.37 7.82 28.31 58.14 -147.92 1,566.17 6.937 1,108.85 127.74 1,013.28 Pass-Major Risk 7,170.00 6,682.86 5,975.00 5,785.16 7.62 28.45 58.92 -145.69 1,568.50 6.937 1,088.97 128.14 992A6 Pass-Major Risk 7,170.00 6,682.86 6,000.00 5,809.96 7.82 28.59 59.72 -143.46 1,570.78 6.937 1,069.27 128.53 971.78 Pass-Major Risk 7,170.00 6,682.86 6,025.00 5,634.76 7.82 28.72 80.55 -141.23 1,572.98 6.937 1,049.78 128.92 951.26 Pass-Major Risk 7,170.00 6,682.86 6,050.00 5,859.57 7.62 28.85 61.41 -138.99 1,575.11 6.937 1,030.43 129.31 930.90 Pass-Major Risk 7,170.00 6,682.86 6,075.00 5,884.39 7.62 28.99 62.29 -136.75 1,577.17 6.937 1,011.31 129.70 910.71 Pass-Major Risk 7,170.00 8,682.86 6,100.00 5,909.21 7.62 29.12 83.21 -134.51 1,579.15 6.937 992.39 130.09 890.71 Pass-Major Risk 7,170.00 6,682.86 6,125.00 5,934.03 7.62 29.25 64.16 -132.28 1,581.06 6.937 973.71 130.47 870.90 Pass-Major Risk 7,170.00 6,682.86 6,150.00 5,958.87 7.62 29.38 65.15 -130.06 1,582.90 6.937 955.28 130.85 851.31 Pass-Major Risk 7,170.00 6,682.86 6,175.00 5,983.71 7.62 29.51 66.17 -127.87 1,584.67 6.937 937.10 13122 831.95 Pass-Major Risk 7,170.00 6,682.86 6,200.00 6,008.55 7.62 29.63 67.23 -125.69 1,586.37 6.937 919.21 131.80 812.83 Pass-Major Risk 7,170.00 6,682.86 6,225.00 6,033.41 7.62 29.75 68.33 -123.55 1,587.99 6.937 901.60 131.95 793.98 Pass-Major Risk 7,170.00 6,682.86 6,250.00 6,058.28 7.62 29.87 69.47 -121.47 1,589.51 6.937 884.29 132.31 775.40 Pass-Major Risk 7,174.45 6,682.90 6,275.00 6,083.15 7.65 29.98 69.12 -119.44 1,590.93 6.937 867.25 131.43 757.85 Pass-Major Risk 7,174.98 6,682.91 6,300.00 6,108.04 7.65 30.10 70.17 -117.48 1,592.26 6.937 850.58 131.63 739.98 Pass-Major Risk 7,175.49 6,682.91 6,325.00 6,132.94 7.66 30.20 71.27 -115.58 1,593.52 6.937 834.30 131.79 722.50 Pass-Major Risk 7,175.99 6,682.92 6,350.00 6,157.84 7.66 30.30 72.43 -113.76 1,594.76 8.937 818.46 - 131.95 705.43 Pass-Major Risk 7,180.00 6,682.95 6,375.00 6,182.75 7.69 30.40 72.42 -112.00 1,595.97 6.937 803.11 131.07 689.59 Pass-Major Risk 7,180.00 6,682.95 6,400.00 6,207.86 7.69 30.50 73.85 -110.31 1,597.16 6.937 788.20 131.38 673.34 Pass-Major Risk 7,180.00 6,682.95 8,425.00 6,232.58 7.69 30.58 75.35 -108.69 1,598.30 6.937 773.80 131.64 657.61 Pass-Major Risk 7,180.00 6,682.95 6,450.00 6,257.51 7.69 30.67 76.90 -107.15 1,599.37 6.937 759.92 131.90 642.39 Pass-Major Risk 7,180.00 6,682.95 6,475.00 8,282.45 7.69 30.76 78.50 -105.70 1,600.39 6.937 746.59 132.17 627.71 Pass-Major Risk 7,180.00 6,682.95 6,500.00 6,307.39 7.69 30.84 80.16 -104.32 1,601.34 6.937 733.85 132.43 613.62 Pass-Major Risk 7,180.00 6,682.95 6,525.00 6,332.34 7.69 30.92 81.87 -103.01 1,602.25 6.937 721.72 132.66 600.19 Pass-Major Risk 7,180.00 6,662.95 6,550.00 6,357.30 7.69 31.00 83.65 -101.79 1,603.11 6.937 710.28 132.89 587.43 Pass-Major Risk 7,180.00 6,682.95 6,575.00 6,382.26 7.69 31.07 85.48 -100.63 1,603.94 6.937 699.50 133.12 575.40 Pass-Major Risk 7,180.00 6,682.95 6,600.00 6,407.22 7.69 31.15 87.36 -99.55 1,604.73 6.937 689.46 133.35 564.12 Pass-Major Risk 7,180.00 6,682.95 6,625.00 6,432.19 7.69 31.21 89.30 -98.53 1,605.51 6.937 680.20 133.53 553.71 Pass-Major Risk 7,180.00 6,682.95 6,650.00 6,457.16 7.69 31.27 91.29 -97.55 1,606.30 6.937 671.77 133.71 544.19 Pass-Major Risk 7,180.00 6,682.95 6,675.00 6,482.13 7.69 31.33 93.33 -96.62 1,607.11 6.937 664.20 133.89 535.59 Pass-Major Risk 7,180.00 6,682.95 6,700.00 6,507.10 7.69 31.39 95.42 -95.74 1,607.92 6.937 657.53 134.07 527.90 Pass-Major Risk 7,180.00 6,682.95 6,725.00 8,532.07 7.69 31.44 97.55 -94.88 1,608.76 6.937 651.77 134.19 521.09 Pass-Major Risk 7,180.00 6,682.95 6,750.00 6,557.04 7.69 31.48 99.71 -94.02 1,609.63 6.937 646.95 134.31 515.32 Pass-Major Risk 7,180.00 6,682.95 6,775.00 6,582.01 7.69 31.52 101.90 -93.17 1,610.53 6.937 643.11 134.43 510.60 Pass-Major Risk 7,180.00 6,682.95 6,800.00 6,606.98 7.69 31.57 104.11 -92.33 1,611.45 6.937 640.24 134.54 506.97 Pass-Major Risk 7,180.00 6,682.95 6,825.00 6,631.95 7.69 31.62 106.34 -91.50 1,612.38 6.937 638.35 134.68 504.41 Pass-Major Risk 7,180.00 6,682.95 6,850.00 6,656.92 7.69 31.67 108.59 -90.71 1,613.27 6.937 637.41 134.82 502.91 Pass-Major Risk,CC 7,180.00 6,682.95 6,875.00 6,681.89 7.69 31.72 110.83 -89.95 1,614.13 6.937 637.43 134.95 502.49 Pass-Major Risk,ES,SF 7,180.00 6,682.95 6,900.00 6,706.87 7.69 31.77 113.07 -89.22 1,614.96 6.937 638.41 135.09 503.15 Pass-Major Risk 7,180.00 6,882.95 6,925.00 6,731.84 7.69 31.83 115.30 -88.55 1,615.77 6.937 640.38 135.25 504.89 Pass-Major Risk 7,180.00 6,682.95 6,950.00 6,756.82 7.69 31.89 117.52 -87.94 1,616.60 6.937 643.34 135.41 507.75 Pass-Major Risk 7,180.00 8,682.95 6,975.00 6,781.80 7.69 31.94 119.71 -87.42 1,617.43 6.937 647.29 135.57 511.71 Pass-Major Risk 7,184.03 6,682.99 7,000.00 6,806.79 7.71 3200 120.47 -86.96 1,618.28 6.937 652.15 134.46 517.92 Pass-Major Risk 7,184.21 6,682.99 7,025.00 6,831.77 7.71 32.05 122.53 -86.56 1,619.11 6.937 657.99 134.54 524.05 Pass-Major Risk 7,184.38 6,682.99 7,050.00 6,856.75 7.71 32.11 124.56 -86.18 1,619.93 6.937 664.70 134.62 531.14 Pass-Major Risk 7,184.54 6,682.99 7,075.00 6,881.74 7.72 32.16 126.54 -85.84 1,620.72 6.937 672.27 134.70 539.17 Pass-Major Risk 7,184.58 6,682.99 7,775.00 7,581.52 7.72 32.86 163.30 -95.13 1,629.65 6.937 1,111.20 136.28 998.12 Pass-Major Risk 7,184.67 6,682.99 7,750.00 7,556.53 7.72 32.85 162.50 -9446 1,629.69 6.937 1,090.98 136.25 977.38 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 10 COMPASS 5000.1 Build 61 • • .414, BP L k; Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Wet S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-10-S-10APB1-S-10APB1 Offset Site Error: 0.00 usft Survey Program: 100-CB-GYRO-MS,7885-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +NIS +El-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (tisk) (') (usft) (usft) (in) (usft) (usft) (usft) 7,184.70 6,682.99 7,100.00 6,906.72 7.72 32.21 128.48 -85.53 1,621.49 6.937 680.67 134.78 548.09 Pass-Major Risk 7,184.75 6,682.99 7,725.00 7,531.54 7.72 32.85 161.68 -93.80 1,829.71 6.937 1,070.95 138.22 956.81 Pass-Major Risk 7,184.83 8,682.99 7,700.00 7,506.55 7.72 32.84 160.83 -93.13 1,629.72 6.937 1,051.12 136.19 936.41 Pass-Major Risk 7,184.84 6,682.99 7,125.00 6,931.71 7.72 32.26 130.38 -85.27 1,622.25 8.937 689.86 134.86 557.90 Pass-Major Risk 7,184.92 6,682.99. 7,675.00 7,481.56 7.72 32.84 159.95 -92.46 1,629.71 6.937 1,031.51 136.15 918.22 Pass-Major Risk 7,184.97 6,682.99 7,150.00 6,956.70 7.72 32.31 132.22 -85.08 1,622.99 6.937 699.85 134.94 568.54 Pass-Major Risk 7,185.00 6,682.99 7,850.00 7,456.57 7.72 32.83 159.04 -91.79 1,629.70 6.937 1,012.13 136.12 89623 Pass-Major Risk 7,185.08 6,682.99 7,625.00 7,431.57 7.72 32.82 158.09 -91.13 1,829.69 6.937 993.00 136.08 878.46 Pass-Major Risk 7,185.09 6,682.99 7,175.00 6,981.69 7.72 32.36 134.01 -84.96 1,623.72 6.937 710.58 135.03 579.97 Pass-Major Risk 7,185.18 8,683.00 7,600.00 7,406.58 7.72 32.81 157.10 -90.46 1,629.67 6.937 974.14 136.04 856.93 Pass-Major Risk 7,185.19 8,683.00 7,200.00 7,006.88 7.72 32.41 135.76 -84.91 1,624.44 6.937 722.03 135.12 592.16 Pass-Major Risk 7,185.24 6,683.00 7,575.00 7,381.59 7.72 32.80 156.08 -89.82 1,629.83 6.937 955.55 135.99 837.86 Pass-Major Risk 7,185.27 6,683.00 7,225.00 7,031.67 7.72 32.45 137.45 -84.92 1,625.12 6.937 734.14 135.18 605.06 Pass-Major Risk 7,185.30 6,683.00 7,550.00 7,356.60 7.72 32.79 155.03 -89.22 1,629.53 6.937 93723 135.95 818.64 Pass-Major Risk 7,185.34 6,683.00 7,250.00 7,056.86 7.72 32.48, 139.09 -84.99 1,625.73 6.937 746.86 135.25 618.59 Pass-Major Risk 7,185.36 6,683.00 7,525.00 7,331.61 7.72 32.77 153.95 -88.66 1,629.38 6.937 919.20 135.91 799.88 Pass-Major Risk 7,185.40 6,683.00 7,500.00 7,306.61 7.72 3276 152.82 -88.15 1,629.18 8.937 901.48 135.87 781.40 Pass-Major Risk 7,185.40 6,683.00 7,275.00 7,081.65 7.72 32.52 140.68 -85.11 1,626.29 6.937 760.16 135.32 632.71 Pass-Major Risk 7,185.43 6,683.00 7,475.00 7,281.62 7.72 32.74 151.66 -87.68 1,628.95 6.937 884.09 135.82 76325 Pass-Major Risk 7,185.44 8,883.00 7,300.00 7,106.65 7.72 32.56 142.22 -85.29 1,826.79 6.937 774.00 135.40 647.38 Pass-Major Risk 7,185.45 6,883.00 7,450.00 7,256.62 7.72 32.72 150.45 -87.24 1,628.71 6.937 867.09 135.77 745.45 Pass-Major Risk 7,185.47 6,683.00 7,325.00 7,131.64 7.72 32.59 143.71 -85.52 1,627.23 6.937 788.36 135.46 662.59 Pass-Major Risk 7,185.47 6,683.00 7,425.00 7,231.63 7.72 32.70 14920 -86.83 1,628.47 6.937 850.48 135.72 728.03 Pass-Major Risk 7,185,48 6,683.00 7,350.00 7,156.64 7.72 32.62 145.15 -85.79 1,627.61 6.937 803.22 135.53 678.28 Pass-Major Risk 7,185.49 6,683.00 7,400.00 7,206.63 7.72 32.68 147.90 -86.45 1,628.22 6.937 834.29 135.68 711.02 Pass-Major Risk 7,185.49 6,683.00 7,375.00 7,181.64 7.72 32.65 146.55 -86.10 1,627.95 8.937 818.53 135.60 694.44 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 11 COMPASS 5000.1 Build 61 BP Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-112-S-112-S-112 Offset Site Error: 0.00 usft Survey Program: 100-GYD-CT-DMS,704-MWD+IFR+MS-WOCA Rule Assigned:NOERRORS Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N/-S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (°) (usft) (tisk) (in) (usft) (usft) (usft) 6,775.00 6,564.81 6,775.00 6,564.81 0.06 0.05 82.01 -7.78 69043 4.375 0.00 0.41 -0.41 FAIL-NOERRORS 6,800.00 6,581.25 6,800.00 6,581.25 0.21 0.19 81.91 -5.15 709.07 4.375 0.00 0.43 -0.41 FAIL-NOERRORS 6,825.00 6,597.22 6,825.00 6,597.22 0.39 0.32 81.82 -2.42 728.11 4.375 0.00 0.50 -0.41 FAIL-NOERRORS 6,850.00 6,612.71 6,850.00 6,612.71 0.58 0.46 81.74 0.38 747.54 4.375 0.00 0.57 -0.41 FAIL-NOERRORS 6,875.00 6,627.50 6,875.00 6,627.50 0.80 0.59 81.92 3.25 767.48 4.375 0.00 0.66 -0.41 FAIL-NOERRORS,CC,ES,SF 6,900.00 6,641.42 6,900.00 6,641.42 1.03 0.72 -74.07 6.18 788.04 4.375 0.00 0.74 -0.36 FAIL-NOERRORS 6,925.00 6,654.68 8,925.00 8,654.69 1.29 0.86 -33.27 9.30 808.99 4.375 0.03 0.84 -0.34 FAIL-NOERRORS 6,949.95 6,866.46 6,950.00 6,667.11 1.57 1.00 -80.09 12.69 830.42 4.375 0.75 0.93 0.38 Pass-NOERRORS 6,974.43 6,674.74 6,975.00 6,678.48 1.87 1.14 -92.76 16.10 852.42 4.375 3.90 1.04 3.54 Pass-NOERRORS 6,997.86 8,879.37 7,000.00 6,688.76 2.18 1.29 -96.83 19.33 874.98 4.375 9.47 1.16 9.11 Pass-NOERRORS 7,020.50 6,681.12 7,025.00 6,698.01 2.47 1.44 -106.58 22.41 897.99 4.375 16.92 1.26 16.56 Pass-NOERRORS 7,043.19 6,681.47 7,050.00 6,706.15 2.77 1.59 -121.57 25.79 921.39 4.375 25.10 1.34 24.65 Pass-NOERRORS 7,065.32 6,681.73 7,075.00 6,713.02 3.06 1.73 -138.53 29.55 945.13 4.375 33.22 1.39 32.61 Pass-NOERRORS 7,085.89 6,681.97 7,100.00 6,718.53 3.33 1.87 -155.43 33.70 969.15 4.375 41.94 1.39 41.16 Pass-NOERRORS 7,104.57 6,682.18 7,125.00 6,722.62 3.58 2.01 -171.29 38.30 993.38 4.375 51.77 1.37 50.86 Pass-NOERRORS 7,121.33 6,682.37 7,150.00 6,725.31 3.80 2.14 174.53 43.56 1,017.66 4.375 62.91 1.33 61.91 Pass-NOERRORS 7,136.43 6,682.53 7,175.00 6,727.55 3.99 2.26 162.73 49.86 1,041.75 4.375 75.62 1.28 74.59 Pass-NOERRORS 7,150.00 6,682.67 7,200.00 6,729.55 4.15 2.37 152.98 57.28 1,065.54 4.375 89.61 1.21 88.58 Pass-NOERRORS. 7,162.57 6,682.79 7,225.00 6,731.17 4.30 2.47 144.62 65.82 1,088.98 4.375 104.50 1.13 103.51 Pass-NOERRORS 7,173.94 6,682.90 7,250.00 6,732.06 4.42 2.59 137.24 75.35 1,112.07 4.375 120.02 1.06 119.08 Pass-NOERRORS 7,184.23 6,682.99 7,275.00 6,732.01 4.53 2.71 130.55 85.51 1,134.91 4.375 136.20 0.98 135.32 Pass-NOERRORS 7,193.77 6,683.07 7,300.00 6,731.31 4.63 2.83 124.53 96.71 1,157.24 4.375 152.72 0.90 151.90 Pass-NOERRORS 7202.62 6,683.14 7,325.00 6,729.88 4.71 2.94 119.02 108.80 1,179.07 4.375 169.55 0.82 168.79 Pass-NOERRORS 7,210.00 6,683.19 7,350.00 6,727.70 4.78 3.06 11421 121.30 1,200.62 4.375 186.93 0.75 186.24 Pass-NOERRORS 7,220.00 6,683.26 7,375.00 6,725.41 4.87 3.17 108.81 134.00 - 1,222.03 4.375 205.13 0.65 204.53 Pass-NOERRORS 7,224.69 6,683.29 7,400.00 6,722.99 4.91 3.28 105.51 147.06 1,243 21 4.375 223.84 0.60 223.29 Pass-NOERRORS 7,230.00 6,683.32 7,425.00 6,720.47 4.95 3.39 102.22 160.43 1,264.18 4.375 243.08 0.55 242.59 Pass-NOERRORS 7,236.39 6,683.36 7,450.00 6,718.01 5.00 3.50 98.77 173.67 1,285.24 4.375 263.06 0.49 262.63 Pass-NOERRORS 7,240.00 6,883.38 7,475.00 6,715.81 5.03 3.61 96.50 186.70 1,306.47 4.375 283.77 0.47 283.40 Pass-NOERRORS 7,245.73 6,683.41 7,500.00 6,714.39 5.07 3.72 93.76 199.46 1,327.91 4.375 305.21 0.48 304.85 Pass-NOERRORS 7250.00 6,683.43 7,525.00 8,713.42 5.10 3.84 91.70 211.89 1,349.58 4.375 327.25 0.52 326.89 Pass-NOERRORS 7,250.00 6,683.43 7,550.00 6,711.77 5.10 3.97 91.08 223.81 1,371.49 4.375 349.75 0.53 349.39 Pass-NOERRORS 7,255.97 6,683.46 7,575.00 6,709.58 5.14 4.10 88.37 235.37 1,393.56 4.375 372.49 0.60 372.12 Pass-NOERRORS 7,260.00 6,683.48 7,600.00 6,707.34 5.16 4.24 86.40 246.93 1,415.61 4.375 395.48 0.65 395.09 Pass-NOERRORS 7,260.00 6,683.48 7,625.00 6,705.10 5.16 4.35 85.90 258.51 1,437.65 4.375 418.59 0.67 418.23 Pass-NOERRORS 7260.00 6,683.48 7,650.00 6,702.88 5.16 4.47 85.45 270.08 1,459.70 4.375 441.94 0.69 441.57 Pass-NOERRORS 7,265.69 6,883.50 7,675.00 6,700.83 5.20 4.57 83.08 281.61 1,481.79 4.375 465.35 0.76 464.99 Pass-NOERRORS 7,270.00 6,683.52 7,700.00 6,699.22 5.22 4.68 81.28 293.02 1,503.97 4.375 489.05 0.83 488.69 Pass-NOERRORS 7270.00 6,683.52 7,725.00 6,697.78 5.22 4.80 81.03 304.45 1,526.16 4.375 512.82 0.85 512.46 Pass-NOERRORS 7,270.00 6,683.52 7,750.00 6,696.19 5.22 4.92 80.79 318.04 1,548.26 4.375 536.64 0.87 536.27 Pass-NOERRORS 7,270.00 6,683.52 7,775.00 6,694.54 5.22 5.05 80.58 327.54 1,570.39 4.375 560.58 0.89 560.21 Pass-NOERRORS 7274.24 6,683.53 7,800.00 6,892.88 525 5.17 78.87 338.85 1,592.62 4.375 584.58 0.95 584.22 Pass-NOERRORS 7,275.59 6,683.53 7,825.00 6,691.23 5.25 5.29 78.20 350.16 1,614.86 4.375 608.69 0.99 608.33 Pass-NOERRORS 7,280.00 6,683.55 7,850.00 6,689.65 5.28 5.40 76.50 361.48 1,637.09 4.375 632.89 1.05 632.53 Pass-NOERRORS 7,280.00 6,683.55 7,875.00 6,688.78 5.28 5.50 76.40 372.81 1,659.36 4.375 657.12 '1A7 656.76 Pass-NOERRORS 7,280.00 6,683.55 7,900.00 6,668.76 5.28 5.61 76.38 384.16 1,681.63 4.375 681.43 1.09 681.06 Pass-NOERRORS 7,280.00 6,683.55 7,925.00 8,689.39 5.28 5.71 76.41 395.52 1,703.89 4.375 705.78 1.12 705.41 Pass-NOERRORS 7,280.00 6,683.55 7,950.00 6,690.52 5.28 5.83 76.48 406.90 1,726.13 4.375 730.15 1.14 729.78 Pass-NOERRORS CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 12 COMPASS 5000.1 Build 61 • • BP //- 0 by Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay ND Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PBS Pad- S-112-S-112-S-112 Offset Site Error: 0.00 usft Survey Program: 100-GYD-CT-DMS,704-MWD+IFR+MS-WOCA Rule Assigned:NOERRORS Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N/-S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 7,280.00 6,683.55 7,975.00 6,691.77 528 5.95 76.56 418.22 1,748.38 4.375 754.57 1.16 75421 Pass-NOERRORS 7,280.00 6,683.55 8,000.00 6,693.08 5.28 6.08 76.64 429.49 1,770.66 4.375 779.04 1.19 778.68 Pass-NOERRORS 7,280.00 6,683.55 8,025.00 8,694.34 528 621 76.70 440.64 1,793.00 4.375 803.57 1.21 80320 Pass-NOERRORS 7,284.79 6,683.56 8,050.00 6,695.57 5.30 6.35 75.09 451.70 1,815.39 4375 828.06 129 827.70 Pass-NOERRORS 7,285.51 6,683.56 8,075.00 6,696.73 5.30 8.49 74.90 462.67 1,837.82 4.375 852.65 1.32 85229 Pass-NOERRORS 7,290.00 6,683.57 8,100.00 6,697.64 5.32 6.62 73.36 473.74 1,860.21 4.375 877.30 1.39 876.94 Pass-NOERRORS 7,290.00 6,683.57 8,125.00 6,697.97 5.32 6.76 73.36 48522 1,882.42 4.375 901.83 1.41 901.46 Pass-NOERRORS 7290.00 6,683.57 8,150.00 6,697.64 5.32 6.89 73.31 496.97 1,904.48 4.375 926.31 1.43 925.94 Pass-NOERRORS 7,290.00 6,683.57 8,175.00 6,696.55 5.32 7.03 73.22 508.74 1,926.51 4.375 950.78 1.45 950.41 Pass-NOERRORS 7290.00 6,683.57 8,200.00 6,694.91 5.32 7.16 73.11 520.54 1,948.49 4.375 97523 1.47 974.86 Pass-NOERRORS 7,290.00 6,683.57 8,225.00 6,693.04 5.32 7.30 72.98 532.42 1,970.41 4.375 999.67 1.49 999.30 Pass-NOERRORS 7,290.00 6,683.57 8,250.00 6,691.39 5.32 7.43 72.88 544.26 1,992.36 4.375 1,024.16 1.51 1,023.80 Pass-NOERRORS 7,290.00 6,683.57 8,275.00 6,690.43 5.32 7.55 72.81 555.91 2,014.46 4.375 1,048.76 1.54 1,048.40 Pass-NOERRORS 7,290.00 6,683.57 8,300.00 6,689.88 5.32 7.66 72.77 567.49 2,036.61 4.375 1,073.41 1.56 1,073.04 Pass-NOERRORS 7,290.00 6,683.57 8,325.00 6,689.63 5.32 7.78 72.75 579.04 2,058.78 4.375 1,098.08 1.58 1,097.72 Pass-NOERRORS CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 13 COMPASS 5000.1 Build 61 110 III BP Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset ND Reference: Offset Datum Offset Design PB S Pad- S-16-S-16-S-16 Offset Site Error: 0.00 usft Survey Program: 100-BOSS-GYRO Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Waming Depth Depth Depth Depth Azimuth +NiS *EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft( (usft) (usft) 1°) (usft) (usft) lin) (usft) (usft) (usft) 8214.09 8,657.61 6250.00 5,561.39 14.12 93.28 -70.28 689.38 211.17 6.937 1,115.47 119.47 1,037.82 Pass-Major Risk 8214.48 6257.61 6,375.00 5,578.23 14.13 94.33 -69.22 707.70 213.58 6.937 1,102.55 119.39 1,024.03 Pass-Major Risk 8,214.88 6,657.61 6,400.00 5,595.15 14.13 95.38 -88.14 725.95 215.94 6.937 1,089.94 119.31 1,010.54 Pass-Major Risk 8,215.26 6,657.61 6,425.00 5,612.15 14.14 96.41 -67.03 744.13 218.28 6.937 1,077.68 119.25 997.35 Pass-Major Risk 8,215.60 6,657.61 6,450.00 5,629.20 14.15 97.43 -65.90 762.28 220.64 6.937 1,065.80 119.18 984.52 Pass-Major Risk 8,215.91 6,657.61 6,475.00 5,646.31 14.15 98.46 -64.74 780.34 223.02 6.937 1,054.31 119.11 972.06 Pass-Major Risk 8,216.20 6,657.61 6,500.00 5,663.47 14.15 99.49 -63.55 798.36 225.41 6.937 1,043.23 119.05 959.99 Pass-Major Risk 8,216.45 6,657.61 6,525.00 5,680.68 14.16 100.50 -62.33 818.33 227.82 6.937 1,032.56 118.99 948.30 Pass-Major Risk 8,218.89 6,657.61 6,550.00 5,697.95 14.16 101.51 -61.09 834.25 230.23 6.937 1,022.34 118.94 937.03 Pass-Major Risk 8,216.90 6,657.61 6,575.00 5,715.26 14.17 102.52 -59.82 852.12 232.65 6.937 1,012.56 118.88 926.20 Pass-Major Risk 8,217.10 6,657.61 6,600.00 5,732.63 14.17 103.54 -58.52 869.94 235.09 6.937 1,003.24 118.82 915.82 Pass-Major Risk 8,217.28 6,657.62 6,625.00 5,750.05 14.17 104.53 -57.20 88770 237.53 6.937 994.39 118.77 905.88 Pass-Major Risk 8,217.44 6,657.62 6,650.00 5,767.53 14.17 105.53 -55.86 905.41 239.99 6.937 986.02 118.72 896.42 Pass-Major Risk 8,217.57 6,657.62 6,675.00 5,785.06 14.18 106.53 -54.49 923.05 242.47 6.937 978.14 118.67 887.44 Pass-Major Risk 8,217.69 6,657.62 6,700.00 5,802.68 14.18 107.53 -53.10 940.63 244.96 6.937 970.76 118.62 878.97 Pass-Major Risk 8,217.80 6,657.62 6,725.00 5,820.31 14.18 108.51 -51.69 958.15 247.47 6.937 963.90 118.59 870.99 Pass-Major Risk 8,217.88 6,657.62 6,750.00 5,838.03 14.18 109.49 -50.25 975.62 249.99 6.937 957.56 118.55 863.55 Pass-Major Risk 8,217.95 6,857.62 6,775.00 5,855.80 14.18 110.47 -48.80 993.02 252.54 6.937 951.75 118.52 856.66 Pass-Major Risk 8,218.00 6,657.62 6,800.00 5,873.62 14.18 111.45 -47.33 1,010.35 255.10 6.937 946.49 118.48 850.32 Pass-Major Risk 8,218.05 6,657.62 6,825.00 5,891.49 14.18 112.42 -45.85 1,027.65 257.66 6.937 941.81 118.48 844.55 Pass-Major Risk 8,218.11 6,657.62 6,850.00 5,909.37 14.18 113.39 -44.35 1,044.94 260.19 6.937 937.74 118.47 839.42 Pass-Major Risk 8,218.18 6,657.62 6,875.00 5,927.28 14.19 114.37 -42.85 1,062.21 262.69 6.937 934.30 118.46 834.94 Pass-Major Risk 8,225.00 6,657.64 6,900.00 5,945.20 14.29 115.34 -42.14 1,079.46 265.16 6.937 931.54 118.97 830.88 Pass-Major Risk 8,225.00 6,657.64 6,925.00 5,963.15 14.29 116.30 -40.61 1,096 69 267.60 6.937 929.35 118.98 827.68 Pass-Major Risk 8,225.00 6,657.64 6,950.00 5,981.15 14.29 117.27 -39.07 1,113.87 269.98 6.937 927.76 118.98 825.12 Pass-Major Risk 8,225.00 6,657.64 6,975.00 5,999.20 14.29 118.24 -37.52 1,131.01 272.33 6.937 926.78 118.99 • 823.21 Pass-Major Risk 8,225.00 6,657.64 7,000.00 6,017.29 14.29 119.20 -35.98 1,148.11 274.63 6.937 926.40 119.00 821.95 Pass-Major Risk,CC 8,225.00 6,857.64 7,025.00 6,035.42 14.29 120.16 -34.43 1,165.18 276.89 6.937 926.65 119.01 821.34 Pass-Major Risk,ES,SF 8,225.00 6,657.64 7,050.00 6,053.56 14.29 121.12 -32.89 1,182.23 279.12 6.937 927.54 119.03 821.43 Pass-Major Risk 8,225.00 6,657.64 7,075.00 6,071.74 14.29 122.08 -31.35 1,199.26 281.32 6.937 929.06 119.04 822.20 Pass-Major Risk 8,225.00 6,657.64 7,100.00 6,089.94 14.29 123.04 -29.81 1,216.26 283.48 6.937 931.22 119.05 823.85 Pass-Major Risk 8,225.00 6,657.64 7,125.00 6,108.16 1429 123.99 -28.29 1,233.24 285.60 6.937 934.00 119.07 825.76 Pass-Major Risk 8225.00 6,657.64 7,150.00 6,126.42 14.29 124.94 -26.77 1,250.19 287.70 6.937 937.39 119.10 828.54 Pass-Major Risk 8,225.00 6,657.64 7,175.00 6,144.71 14.29 125.90 -25.26 1,267.11 289.76 6.937 941.39 119.12 831.98 Pass-Major Risk 8,225.00 6,657.64 7,200.00 6,163.03 14.29 126.85 -23.77 1,284.00 291.79 6.937 945.98 119.15 836.06 Pass-Major Risk 8,225.00 6,857.64 7,225.00 6,181.38 14.29 127.80 -22.30 1,300.85 293.81 6.937 951.16 119.17 840.79 Pass-Major Risk 8,225.00 6,657.64 7,250.00 6,199.76 14.29 128.74 -20.83 1,317.68 295.85 6.937 956.93 119.20 846.16 Pass-Major Risk 8,225.00 8,657.64 7,275.00 6,218.17 14.29 129.69 -19.39 1,334.46 297.91 6.937 963.27 119.22 852.15 Pass-Major Risk 8,225.00 6,657.64 7,300.00 6,236.62 14.29 130.63 -17.97 1,351.21 299.98 6.937 970.18 11924 85875 Pass-Major Risk 8,225.00 6,657.64 7,325.00 6,255.09 1429 131.57 -16.56 1,367.93 302.05 6.937 977.63 119.28 865.93 Pass-Major Risk 8,225.00 6,657.64 7,350.00 6,273.59 14.29 132.51 -15.18 1,384.62 304.07 6.937 985.61 119.32 873.70 Pass-Major Risk 8,225.00 6,657.64 7,375.00 6,292.12 14.29 133.45 -13.82 1,40129 306.05 6.937 994.12 119.36 882.03 Pass-Major Risk 8,225.00 6,657.64 7,400.00 6,310.68 1429 134.39 -12.48 1,417.92 308.00 6.937 1,003.13 119.40 890.91 Pass-Major Risk 8,225.00 6,657.64 7,425.00 6,329.28 14.29 135.32 -11.17 1,434.51 309.92 6.937 1,012.63 119.45 900.31 Pass-Major Risk 8,225.00 8,657.84 7,450.00 6,347.93 14.29 136.25 -9.88 1,451.06 311.86 6.937 1,022.60 119.49 910.23 Pass-Major Risk 8,225.00 6,657.84 7,475.00 8,366.61 14.29 137.18 -8.61 1,467.55 313.81 6.937 1,033.02 119.53 920.83 Pass-Major Risk 8,225.00 6,657.64 7,500.00 6,385.34 14.29 138.11 -7.37 1,484.00 315.76 6.937 1,043.87 119.57 931.51 Pass-Major Risk 8,225.00 6,657.64 7,525.00 6,404.11 14.29 139.03 -6.15 1,500.38 317.77 6.937 1,055.14 119.64 942.80 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 14 COMPASS 5000.1 Build 61 • • BP Ma 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay ND Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset ND Reference: Offset Datum Offset Design PB S Pad- S-16-S-16-S-16 Offset Site Error: 0.00 usft Survey Program: 100-BOSS-GYRO Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth ON/-S +EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft( (*) (usft) (usft) (in) (usft) (usft) (usft) 8,225.00 6,657.64 7,550.00 6,422.95 14.29 139.94 -4.95 1,518.68 319.90 6.937 1,066.80 119.71 954.52 Pass-Major Risk 8,225.00 6,657.64 7,575.00 6,441.85 14.29 140.86 -3.78 1,532.89 322.14 6.937 1,078.83 119.78 966.64 Pass-Major Risk 8,225.00 6,657.64 7,600.00 6,460.81 14.29 141.77 -2.64 1,549.01 324.48 6.937 1,091.22 119.85 979.15 Pass-Major Risk 8,225.00 6,657.64 7,625.00 6,479.84 14.29 142.67 -1.51 1,565.05 326.94 6.937 1,103.96 119.98 991.99 Pass-Major Risk 8,225.00 6,657.64 7,650.00 6,498.92 14.29 143.56 -0.42 1,580.99 329.49 6.937 1,117.02 120.06 1,005.18 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 15 COMPASS 5000.1 Build 61 • • BP Mall Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-21-S-21-S-21 Offset Site Error: 0.00 usft Survey Program: 50-GCT-MS Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Waming Depth Depth Depth Depth Azimuth 4N/-S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (*) (usft) (usft) (in) (usft) (usft) (usft) 8,826.46 6,641.44 6,050.00 5,544.46 23.61 13.52 -55.73 639.16 -477.70 3.750 1,100.06 148.50 1,030.02 Pass-Major Risk 8,844.48 6,642.72 6,075.00 5,565.01 23.90 13.62 -57.38 651.99 -483.83 3.750 1,080.32 150.25 1,010.00 Pass-Major Risk 8,861.66 6,643.87 6,100.00 5,585.56 24.18 13.72 -58.90 664.83 -490.00 3.750 1,060.59 151.82 989.96 Pass-Major Risk 8,878.03 6,644.92 6,125.00 5,606.10 24.44 13.82 -60.29 677.66 -496.20 3.750 1,040.88 15322 969.89 Pass-Major Risk 8,893.62 6,645.86 6,150.00 5,628.63 24.70 13.92 -61.56 690.49 -502.45 3.750 1,021.21 154.48 949.83 Pass-Major Risk 8,908.16 6,646.70 6,175.00 5,647.14 24.94 14.04 -62.68 703.32 -508.75 3.750 1,001.61 155.63 929.75 Pass-Major Risk 8,921.94 6,647.46 6,200.00 5,667.83 25.17 14.14 -63.68 716.16 -515.10 3.750 982.10 156.63 909.71 Pass-Major Risk 8,935.08 6,648.15 6,225.00 5,888.12 25.39 14.23 -64.57 728.98 -521.49 3.750 962.68 157.45 889.72 Pass-Major Risk 8,947.60 6,648.78 6,250.00 5,708.61 25.80 14.31 -65.35 741.78 -527.92 3.750 943.36 158.16 869.78 Pass-Major Risk 8,959.52 6,649.35 6,275.00 5,729.09 25.80 14.39 -86.02 754.57 -534.38 3.750 924.16 158.79 849.88 Pass-Major Risk 8,970.89 6,649.86 6,300.00 5,749.57 25.99 14.49 -66.58 767.35 -540.87 3.750 905.10 159.40 830.00 Pass-Major Risk 8,981.73 6,650.33 6,325.00 5,770.05 26.17 14.59 -67.04 780.13 -547.40 3.750 886.21 159.93 810.21 Pass-Major Risk 8,992.06 6,650.76 6,350.00 5,790.52 26.35 14.88 -67.40 792.89 -553.97 3.750 867.49 160.38 790.50 Pass-Major Risk 9,001.93 6,651.14 6,375.00 5,810.98 26.51 14.78 -67.66 805.64 -560.57 3.750 848.98 160.81 770.88 Pass-Major Risk 9,011.36 6,651.49 6,400.00 5,831.43 26.67 14.90 -67.81 818.40 -567.22 3.750 830.71 161.24 751.35 Pass-Major Risk 9,020.38 6,651.81 6,425.00 5,851.86 26.82 15.03 -67.86 831.17 -573.90 3.750 812.70 161.69 731.93 Pass-Major Risk 9,028.99 6,652.10 6,450.00 5,872.27 28.96 15.16 -67.81 843.94 -580.60 3.750 794.97 162.08 712.69 Pass-Major Risk 9,037.22 6,652.36 6,475.00 5,892.68 27.10 15.29 -67.66 856.72 -587.34 3.750 777.55 162.44 693.82 Pass-Major Risk 9,045.10 6,652.59 6,500.00 5,913.07 27.23 15.41 -67.41 869.50 -594.11 3.750 760.46 162.74 674.77 Pass-Major Risk 9,052.64 6,652.80 6,525.00 5,933.46 27.35 15.52 -67.06 882.27 -600.90 3.750 743.73 162.99 656.16 Pass-Major Risk 9,059.87 6,853.00 6,550.00 5,953.84 27.47 15.62 -86.61 895.03 -607.73 3.750 727.38 163.16 637.83 Pass-Major Risk 9,066.79 6,653.17 6,575.00 5,974.22 27.58 15.74 -66.05 907.80 -614.59 3.750 711.45 163.39 619.74 Pass-Major Risk 9,075.00 6,653.37 6,600.00 5,994.57 27.71 15.87 -65.57 920.58 -821.47 3.750 696.00 163.65 601.94 Pass-Major Risk 9,079.81 6,653.47 6,625.00 6,014.90 27.79 18.02 -64.63 933.36 -628.38 3.750 681.06 163.95 584.53 Pass-Major Risk 9,085.94 6,653.60 6,650.00 6,035.20 27.89 18.17 -63.76 948.21 -635.33 3.750 866.68 164.22 567.53 Pass-Major Risk 9,091.95 6,653.72 6,675.00 6,055.48 27.99 16.31 -62.80 959.05 -642.31 3.750 652.88 164.47 551.00 Pass-Major Risk 9,116.77 6,654.14 8,700.00 6,075.75 28.39 16.45 -58.16 971.91 -649.33 3.750 639.60 167.92 533.94 Pass-Major Risk 9,145.65 6,654.48 6,725.00 6,095.99 28.86 16.59 -52.99 984.77 -656.36 3.750 626.67 171.63 516.97 Pass-Major Risk 9,178.70 6,654.68 6,750.00 6,116.23 29.42 16.74 -47.29 997.64 -663.41 3.750 614.02 175.43 500.09 Pass-Major Risk 9,215.86 6,654.66 6,775.00 6,136.46 30.04 16.88 -41.07 1,010.52 -670.48 3.750 601.56 179.12 483.34 Pass-Major Risk,CC,ES,SF CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 16 COMPASS 5000.1 Build 61 • • BP ....„,. .43:f Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-22-S-22B-S-22B Offset Site Error: 0 00 usft Survey Program: 57-GCT-MS,5450-MWD Rule Assigned:Minor 1/20 Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N/S *EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) F) (usft) (usft) (in) (usft) (usft) (usft) 9213.88 6,651.57 7,825.00 7,245.63 26.71 15.82 80.35 922.97 -493.98 3.750 643.97 12.45 843.85 Pass-Minor 1/20 9213.72 6,651.58 7,800.00 7,223.09 26.71 15.72 80.46 912.66 -49728 3.750 619.00 12.43 618.89 Pass-Minor1/20 9,013.74 6,651.58 7,850.00 7,268.21 26.71 15.91 80.24 933.25 -490.93 3.750 668.94 12.47 668.62 Pass-Minor 1/20 9,013.88 6,651.58 7,775.00 7,200.59 26.71 15.63 80.58 902.33 -500.74 3.750 594.04 12.41 593.73 Pass-Minor 1/20 9,013.96 6,651.58 7,875.00 7,290.84 26.71 18.01 80.12 943.50 -488.12 3.750 893.91 12.49 693.60 Pass-Minor 1/20 9214.08 6,651.59 7,750.00 7,178.09 26.71 15.53 80.70 892.01 -50426 3.750 569.09 12.39 568.77 Pass-Minor 1/20 9,014.30 6,651.60 7,900.00 7,313.51 28.72 16.11 80.01 953.71 -485.55 3.750 718.89 12.52 718.58 Pass-Minor 1/20 9,014.34 6,651.60 7,725.00 7,155.60 26.72 15.44 80.83 881.70 -507.85 3.750 544.14 12.37 543.83 Pass-Minor 1/20 9,014.65 6,651.61 7,700.00 7,133.13 26.72 15.34 80.97 871.38 -511.51 3.750 519.20 12.35 518.89 Pass-Minor 1/20 9,014.70 6,651.61 7,925.00 7,336.20 26.72 16.21 79.90 963.92 -483.11 3.750 743.87 12.54 743.55 Pass-Minor 1/20 9,015.01 6,651.62 7,675.00 7,110.66 26.73 15.24 81.13 861.06 -515.22 3.750 494.27 12.34 493.95 Pass-Minor 1/20 9,015.14 6,651.63 7,950.00 7,358.89 26.73 16.31 79.79 974.15 -480.74 3.750 768.84 12.57 768.53 Pass-Minor1/20 9,015.41 6,651.64 7,650.00 7,088.21 26.74 15.14 81.31 850.74 -518.98 3.750 469.35 12.32 469.03 Pass-Minor 1/20 9,015.59 6,651.64 7,975.00 7,381.58 26.74 16.41 79.68 984.39 -478.44 3.750 793.82 12.59 793.50 Pass-Minor 1/20 9,015.86 6,651.65 7,625.00 7,065.76 26.74 15.04 81.51 840.40 -522.79 3.750 444.43 12.30 444.12 Pass-Minor 1/20 9,016.08 6,651.66 8,000.00 7,404.28 26.75 16.51 79.57 994.63 -476.21 3.750 818.79 12.62 818.48 Pass-Minor 1/20 9,016.35 6,651.67 7,600.00 7,043.33 26.75 14.94 81.73 830.06 -526.63 3.750 419.53 12.29 419.22 Pass-Minor 1/20 9,016.56 6,851.68 8,025.00 7,426.97 26.76 16.61 79.46 1,004.88 -474.00 3.750 843.76 12.64 843.45 Pass-Minor 1/20 9,016.85 6,651.69 7,575.00 7,020.91 26.76 14.83 82.00 819.69 -530.46 3.750 394.65 12.27 394.34 Pass-Minor 1/20 9,017.03 6,651.69 8,050.00 7,449.66 26.76 16.72 79.36 1,015.14 -471.79 3.750 868.74 12.67 868.42 Pass-Minor 1/20 9,017.34 6,651.70 7,550.00 6,998.49 26.77 14.73 82.31 809.29 -534.26 3.750 369.78 12.25 369.47 Pass-Minor 1/20 9,017.49 6,651.71 8,075.00 7,472.35 26.77 16.82 79.26 1,025.40 -469.60 3.750 893.71 12.69 893.40 Pass-Minor 1/20 9,017.84 6,851.72 7,525.00 6,976.08 26.78 14.62 82.68 798.87 -538.04 3.750 344.93 12.24 344.61 Pass-Minor 1/20 9,017.93 6,651.72 8,100.00 7,495.04 26.78 16.93 79.17 1,035.66 -467.39 3.750 918.69 12.72 918.37 Pass-Minor 1/20 9,018.33 6,651.74 8,125.00 7,517.73 26.79 17.03 79.08 1,045.92 -485.10 3.750 943.67 12.74 943.35 Pass-Minor 1/20 9,018.33 6,851.74 7,500.00 6,953.68 26.79 14.51 83.12 788.43 -541.80 3.750 320.10 12.22 319.79 Pass-Minor 1/20 9,018.67 6,651.75 8,150.00 7,540.40 26.79 17.14 79.00 1,056.18 -462.74 3.750 968.65 12.77 968.33 Pass-Minor 1/20 9,018.83 6,651.78 7,475.00 6,931.29 26.79 14.41 83.84 777.96 -545.54 3.750 295.30 12.21 294.99 Pass-Minor 1/20 9,019.33 6,651.77 7,450.00 6,908.90 26.80 14.31 84.27 767.47 -549.26 3.750 270.55 12.19 27023 Pass-Minor 1/20 9,019.84 6,651.79 7,425.00 6,886.52 26.81 14.20 85.05 758.96 -552.96 3.750 245.84 12.17 245.53 Pass-Minor 1/20 9,020.35 6,651.81 7,400.00 6,864.15 26.82 14.11 86.01 746.44 -556.65 3.750 221.20 12.16 220.88 Pass-Minor 1/20 9,020.87 6,651.83 7,375.00 6,841.76 26.83 14.01 87.23 735.94 -560.31 3.750 196.63 12.14 196.32 Pass-Minor 1/20 9,021.40 6,651.84 7,350.00 6,819.35 26.84 13.92 88.79 725.45 -563.94 3.750 172.19 12.13 171.88 Pass-Minor 1/20 9,021.93 6,651.86 7,325.00 6,796.94 26.85 13.83 90.88 714.98 -567.54 3.750 147.93 12.11 147.62 Pass-Minor 1/20 9,022.53 8,651.88 7,300.00 6,774.53 26.86 13.75 93.80 704.51 -571.20 3.750 123.98 12.10 123.65 Pass-Minor l/20 9,023.26 6,651.91 7,275.00 6,752.14 26.87 13.67 98.14 694.04 -574.95 3.750 100.50 12.08 100.19 Pass-Minor 1/20 9,024.11 6,651.94 7,250.00 6,729.77 26.88 13.59 105.10 683.56 -578.79 3.750 78.02 12.07 76.58 Pass-Minor 1/20 9,025.00 6,651.96 8,175.00 7,563.07 26.90 17.25 78.23 1,066.43 -460.29 3.750 993.67 12.86 993.36 Pass-Minor 1/20 9,025.00 6,651.96 8,200.00 7,585.74 26.90 17.36 78.19 1,076.68 -457.79 3.750 1,018.65 1289 1,018.34 Pass-Minor 1/20 9,025.00 6,651.96 8,225.00 7,608.40 26.90 17.48 78.18 1,086.92 -455.24 3.750 1,043.64 12.92 1,043.32 Pass-Minor l/20 9,025.00 6,651.96 8,250.00 7,631.06 26.90 17.59 78.12 1,097.17 -452.64 3.750 1,068.62 12.95 1,068.31 Pass-Minor 1/20 9,025.00 6,651.96 8,275.00 7,653.71 28.90 17.71 78.09 1,107.41 -450.00 3.750 1,093.61 12.98 1,093.29 Pass-Minor 1/20 9,025.10 6,651.97 7,225.00 6,707.42 26.90 13.51 117.38 673.08 -582.72 3.750 57.65 12.07 53.70 Pass-Minor 1/20 9,026.18 6,652.00 7,200.00 6,685.08 26.92 13.43 140.41 662.59 -586.68 3.750 42.54 12.06 34.46 Pass-Minor 1/20 9,027.33 6,652.04 7,175.00 6,662.74 26.93 13.35 175.53 652.09 -590.65 3.750 39.30 12.05 27.55 Pass-Minor 1/20,CC,ES,SF 9,028.58 6,652.08 7,150.00 6,640.40 26.96 13.27 -155.38 641.59 -594.64 3.750 5027 12.05 38.70 Pass-Minor 1/20 9,029.91 6,652.13 7,125.00 6,618.07 26.98 13.20 -139.37 631.08 -598.64 3.750 68.97 12.02 58.78 Pass-Minor 1/20 9,031.35 6,652.17 7,100.00 6,595.73 27.00 13.12 -130.66 620.60 -802.65 3.750 90.73 12.02 81.87 Pass-Minor 1/20 CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 17 COMPASS 5000.1 Build 61 • • BP 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-22-S-22B-S-22B Offset Site Error: 0.00 usft Survey Program: 57-GCT-MS,5450-MWD Rule Assigned:Minor 1/20 Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N/-S +EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (tisk) (usft) (usft) 1°I (usft) (usft) (in) (usft( (usf( (usft( 9,032.89 6,652.22 7,075.00 6,573.39 27.03 13.05 -125.46 610.14 -606.65 3.750 113.81 12.01 105.54 Pass-Minor 1/20 9,034.55 6,652.27 7,050.00 8,551.03 27.05 12.98 -122.09 599.70 -610.67 3.750 137.53 12.01 129.85 Pass-Minor 1/20 9,036.38 6,652.33 7,025.00 6,528.68 27.08 12.91 -119.79 589.28 -614.70 3.750 161.62 12.00 154.38 Pass-Minor 1/20 9,038.35 6,652.39 7,000.00 6,506.29 27.12 12.85 -118.16 578.88 -618.77 3.750 185.93 12.00 179.03 Pass-Minor 1/20 9,040.57 8,652.46 6,975.00 6,483.92 27.15 12.79 -116.98 568.51 -622.87 3.750 210.39 12.00 203.76 Pass-Minor 1/20 9,043.02 6,652.53 6,950.00 6,461.55 27.19 12.73 -116.12 558.15 -627.01 3.750 234.93 12.00 228.54 Pass-Minor 1/20 9,045.73 6,652.61 6,925.00 6,439.17 27.24 12.66 -115.51 547.81 -631.18 3.750 259.55 12.00 253.34 Pass-Minor 1/20 9,048.73 6,652.70 6,900.00 6,418.79 27.29 12.59 -115.08 537.50 -635.38 3.750 284.20 12.01 278.16 Pass-Minor 1/20 9,052.06 6,652.79 8,875.00 6,394.40 27.34 12.53 -114.81 527.20 -639.62 3.750 308.89 12.02 302.99 Pass-Minor 1/20 9,055.76 6,652.89 6,850.00 6,372.02 27.40 12.46 -114.68 516.92 -643.87 3.750 333.80 12.03 327.83 Pass-Minor 1/20 9,059.81 6,653.00 6,825.00 6,349.64 27.47 12.40 -114.67 508.61 -648.12 3.750 358.33 12.04 352.67 Pass-Minor 1/20 9,064.26 6,653.11 6,800.00 6,327.28 27.54 12.33 -114.77 496.27 -852.35 3.750 383.07 12.06 377.52 Pass-Minor 1/20 9,069.18 6,653.23 6,775.00 6,304.93 27.62 12.27 -114.98 485.89 -656.57 3.750 407.83 12.08 402.36 Pass-Minor 1/20 9,074.67 6,853.36 8,750.00 6282.60 27.71 12.21 -115.30 475.47 -660.79 3.750 432.58 12.11 42720 Pass-Minor 1/20 9,080.88 6,653.50 6,725.00 6260.29 27.81 12.15 -115.75 465.01 -665.02 3.750 457.33 12.13 452.02 Pass-Minor 1/20 9,087.95 6,653.64 6,700.00 6,238.01 27.92 12.09 -116.33 454.49 -869.26 3.750 482.08 12.18 476.83 Pass-Minor 1/20 9,091.95 6,653.72 6,675.00 8,215.78 27.99 12.03 -118.57 443.92 -873.52 3.750 506.81 12.17 501.64 Pass-Minor 1/20 9,095.14 6,653.78 6,650.00 6,193.52 28.04 11.97 -116.00 433.31 -677.76 3.750 531.55 12.18 526.45 Pass-Minor 1/20 9,097.18 6,653.82 6,625.00 6,171.30 28.07 11.91 -115.59 422.66 -681.97 3.750 556.31 12.18 55128 Pass-Minor 1/20 9,100.00 6,653.87 8,550.00 6,104.71 28.12 11.74 -114.85 390.48 -694.43 3.750 630.70 12.15 625.86 Pass-Minor 1/20 9,100.00 6,653.87 6,575.00 6,126.90 28.12 11.79 -114.97 401.23 -690.31 3.750 805.88 12.17 600.98 Pass-Minor 1/20 9,100.00 8,653.87 6,600.00 6,149.09 28.12 11.85 -115.11 411.96 -886.16 3.750 581.09 12.18 576.12 Pass-Minor 1/20 9,104.67 6,653.95 6,525.00 6,082.53 28.19 11.70 -114.19 379.70 -698.52 3.750 655.50 12.17 650.71 Pass-Minor 1/20 9,106.38 6,653.98 6,500.00 6,060.35 28.22 11.65 -113 ''' 368.91 -7 .59 3.750 680.33 12.16 675.59 Pass-Minor 1/20 9,108.05 8,654.00 6,475.00 6,038.17 28.25 11.62 -113. 1 3 .' 7 .64 3.750 705.17 12.16 700.48 Pass-Minor 1/20 9,109.75 6,654.03 6,450.00 6,015.99 28.27 11.59 -113. 3 .35. 7 .82 3.750 729.99 12.15 725.36 Pass-Minor 1/20 9,111.50 6,654.06 6,425.00 5,993.80 28.30 11.56 -113.02 336.67 -715.14 3.750 754.80 12.15 75022 Pass-Minor 1/20 9,113.31 6,654.09 6,400.00 5,971.61 28.33 11.53 -112.72 326.06 -719.62 3.750 779.60 12.14 775.07 Pass-Minor 1/20 9,115.17 6,654.11 6,375.00 5,949.42 28.36 11.50 -112.42 315.51 -724.23 3.750 804.38 12.14 799.90 Pass-Minor 1/20 9,117.07 6,654.14 6,350.00 5,927.26 28.39 11.47 -112.13 304.98 -728.99 3.750 829.15 12.14 824.72 Pass-Minor 1/20 9,119.01 6,654.17 6,325.00 5,905.11 28.42 11.43 -111.83 294.46 -733.88 3.750 853.91 12.13 849.53 Pass-Minor 1/20 9,125.00 6,654.25 8,175.00 5,772.29 28.52 11.23 -110.80 231.47 -763.73 3.750 1,002.55 12.09 998.45 Pass-Minor 1/20 9,125.00 8,654.25 6,200.00 5,794.44 28.52 11.26 -110.84 242.00 -758.90 3.750 977.74 12.10 973.59 Pass-Minor 1/20 9,125.00 6,654.25 6,225.00 5,816.60 28.52 11.29 -110.89 252.49 -753.98 3.750 952.94 12.11 948.75 Pass-Minor 1/20 9,125.00 6,654.25 6250.00 5,838.74 28.52 11.33 -110.95 262.98 -749.01 3.750 928.17 12.12 923.92 Pass-Minor 1/20 9,125.00 6,654.25 6,275.00 5,860.87 28.52 11.37 -111.00 273.47 -743.98 3.750 903.41 12.14 899.12 Pass-Minor 1/20 9,125.00 6,654.25 6,300.00 5,882.98 28.52 11.40 -111.06 283.96 -738.90 3.750 878.68 12.15 874.33 Pass-Minor 1/20 9,131.64 6,654.33 6,150.00 5,750.13 28.63 11.20 -109.97 220.90 -788.45 3.750 1,027.35 12.10 1,023.28 Pass-Minor(/20 9,133.11 6,654.35 6,125.00 5,727.97 28.66 11.17 -109.76 210.28 -773.06 3.750 1,052.19 12.10 1,048.17 Pass-Minor 1/20 9,134.49 6,654.37 6,100.00 5,705.81 28.68 11.14 -109.56 199.62 -777.56 3.750 1,077.05 12.09 1,073.06 Pass-Minor 1/20 9,135.81 8,654.38 6,075.00 5,683.63 28.70 11.12 -109.37 188.98 -781.98 3.750 1,101.91 12.08 1,097.97 Pass-Minor 1/20 CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 18 COMPASS 5000.1 Build 61 i BP 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-24-S-24-S-24 Offset Site Error: 0.00 usft Survey Program: 34-GCT-MS Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N/-S +EI-W Hole Size Centre Distance Deviation (usft) (usft) (tisk) (usft) (usft) (tisk) 0 (usft) (usft) (in) (usft) (usft) (usft) 7,320.00 6,883.60 6,125.00 5,626.59 8.07 12.28 -9.30 434.85 1,318.84 8.812 1,116.34 72.76 1,055.93 Pass-Major Risk 7,320.00 8,883.60 6,150.00 5,647.82 8.07 12.33 -8.32 444.05 1,328.31 8.812 1,100.51 72.78 1,039.69 Pass-Major Risk 7,324.40 6,683.80 6,175.00 5,669.07 8.07 12.37 -8.84 453.23 1,337.77 8.812 1,084.97 72.91 1,023.69 Pass-Major Risk 7,325.38 6,683.60 6,200.00 5,690.33 8.06 12.44 -8.14 462.38 1,347.20 8.812 1,069.77 73.02 1,008.03 Pass-Major Risk 7,326.32 6,683.60 6,225.00 5,711.60 8.06 12.51 -7.40 471.54 1,356.63 8.812 1,054.95 73.18 992.71 Pass-Major Risk 7,330.00 6,683.60 6,250.00 5,732.86 8.06 12.58 -7.59 480.71 1,366.06 8.812 1,040.52 73.38 977.76 Pass-Major Risk 7,330.00 6,683.60 6275.00 5,754.14 8.06 12.63 -6.45 489.86 1,375.47 8.812 1,026.46 73.42 96326 Pass-Major Risk 7,330.00 6,683.60 6,300.00 ' 5,775.42 8.06 12.70 -5.29 499.01 1,384.87 8.812 1,012.81 73.50 949.14 Pass-Major Risk 7,330.00 6,683.60 6,325.00 5,796.71 8.06 12.77 -4.09 508.18 1,394.24 8.812 999.60 73.62 935.42 Pass-Major Risk 7,330.00 6,683.60 6,350.00 5,817.99 8.06 12.86 -2.86 517.35 1,403.61 8.812 986.83 73.78 922.12 Pass-Major Risk 7,330.00 6,683.80 6,375.00 5,839.28 8.06 12.96 -1.60 526.55 1,412.96 8.812 974.54 74.00 90924 Pass-Major Risk 7,330.00 6,683.60 6,400.00 5,860.56 8.06 13.06 -0.31 535.77 1,422.29 8.812 962.74 74.20 896.87 Pass-Major Risk 7,330.00 6,683.60 6,425.00 5,881.85 8.06 13.15 1.01 545.00 1,431.59 8.812 951.44 74.39 885.01 Pass-Major Risk 7,330.00 6,683.60 8,450.00 5,903.14 8.06 13.24 2.37 554.26 1,440.87 8.812 940.67 74.55 873.68 Pass-Major Risk 7,333.93 6,683.59 6,475.00 5,924.44 8.06 13.31 2.38 563.52 1,450.12 8.812 930.38 74.81 862.80 Pass-Major Risk 7,334.56 6,683.59 6,500.00 5,945.76 8.05 13.38 3.58 572.77 1,459.33 8.812 920.65 74.92 852.56 Pass-Major Risk 7,335.18 6,683.59 6,525.00 5,967.08 8.05 13.47 4.81 582.03 1,468.53 8.812 911.48 75.10 842.85 Pass-Major Risk 7,335.78 6,883.59 6,550.00 5,988.39 8.05 13.56 8.07 591.31 1,477.72 8.812 902.93 75.32 833.71 Pass-Major Risk 7,340.00 6,883.59 6,575.00 6,009.72 8.05 13.65 6.08 600.60 1,486.88 8.812 894.99 75.65 825.15 Pass-Major Risk 7,340.00 6,683.59 6,600.00 6,031.08 8.05 13.72 7.61 609.88 1,495.98 8.812 887.60 75.75 817.29 Pass-Major Risk 7,340.00 6,683.59 6,625.00 6,052.44 8.05 13.79 9.16 619.15 1,505.06 8.812 880.82 75.86 810.05 Pass-Major Risk 7,340.00 6,683.59 6,650.00 6,073.81 8.05 13.87 10.74 628.43 1,514.13 8.812 874.70 75.99 803.46 Pass-Major Risk 7,340.00 6,683.59 6,675.00 6,095.20 8.05 13.95 12.33 637.70 1,523.16 8.812 869.21 76.10 797.54 Pass-Major Risk 7,340.00 6,683.59 6,699.95 6,116.59 8.05 14.02 13.94 646.94 1,532.09 8.812 864.34 76.20 792.27 Pass-Major Risk 7,340.00 6,683.59 6,725.00 6,138.12 8.05 14.09 15.58 658.18 1,540.96 8.812 860.04 76.28 787.60 Pass-Major Risk 7,340.00 6,683.59 6,750.00 6,159.66 8.05 14.15 17.22. 865.33 1,549.75 8.812 858.36 76.36 783.58 Pass-Major Risk 7,340.00 6,683.59 6,775.00 6,181.23 8.05 14.22 18.87 674.47 1,558.49 8.812 853.33 76.44 780.25 Pass-Major Risk 7,340.00 6,683.59 6,800.00 6,202.81 8.05 1428 20.54 883.58 1,567.22 8.812 851.00 76.51 777.65 Pass-Major Risk 7,340.00 6,683.59 6,825.00 6,224.40 8.05 14.34 22.21 692.67 1,575.95 8.812 849.38 76.58 775.79 Pass-Major Risk 7,340.00 6,683.59 6,850.00 6,246.00 8.05 14.41 23.89 701.74 1,584.68 8.812 648.49 76.66 774.66 Pass-Major Risk 7,340.00 6,883.59 6,875.00 6,267.60 8.05 14.49 25.57 710.79 1,593.42 8.812 848.33 76.79 774.25 Pass-Major Risk,CC,ES,SF 7,340.00 6,683.59 6,900.00 6,289.18 8.05 14.58 27.25 719.86 1,602.20 8.812 848.94 76.97 774.59 Pass-Major Risk 7,340.00 6,683.59 6,925.00 8,310.76 8.05 1467 28.93 728.91 1,610.99 8.812 850.30 77.13 775.73 Pass-Major Risk 7,340.00 6,683.59 6,950.00 6,332.38 8.05 14.74 30.60 737.94 1,619.77 8.812 852.36 77.23 777.67 Pass-Major Risk 7,340.00 6,683.59 6,975.00 6,353.96 8.05 14.80 32.26 746.95 1,628.54 8.812 855.13 77.30 780.36 Pass-Major Risk 7,340.00 6,683.59 7,000.00 6,375.58 8.05 14.87 33.91 755.94 1,837.31 8.812 858.59 77.39 783.77 Pass-Major Risk 7,344.35 6,683.58 7,025.00 6,397.23 8.04 14.94 34.03 764.89 1,646.06 8.812 862.65 77.66 787.66 Pass-Major Risk 7,344.67 6,683.58 7,050.00 6,418.89 8.04 15.01 35.54 773.79 1,654.79 8.812 867.42 77.77 792.43 Pass-Major Risk 7,344.97 8,683.58 7,075.00 6,440.58 8.04 15.08 37.04 782.64 1,663.53 8.812 872.86 77.88 797.88 Pass-Major Risk 7,345.26 6,683.58 7,100.00 6,462.28 8.04 15.15 38.52 791.46 1,672.27 8.812 878.95 78.00 804.01 Pass-Major Risk 7,345.53 6,683.58 7,125.00 6,483.98 8.04 15.24 39.98 800.28 1,681.03 8.812 885.71 78.17 810.77 Pass-Major Risk 7,350.00 6,683.57 7,150.00 6,505.85 8.03 15.34 39.94 809.07 1,689.83 8.812 893.23 78.60 818.08 Pass-Major Risk 7,350.00 6,683.57 7,175.00 6,527.30 8.03 15.44 41.45 817.89 1,698.69 8.812 901.35 78.82 826.20 Pass-Major Risk 7,350.00 6,683.57 7,200.00 6,548.94 8.03 15.54 42.93 826.68 1,707.60 8.812 910.12 79.01 835.01 Pass-Major Risk 7,350.00 6,683.57 7,225.00 6,570.57 8.03 15.84 44.38 835.46 1,716.55 8.812 919.51 79.20 844.46 Pass-Major Risk 7,350.00 8,683.57 7,250.00 8,592.19 8.03 15.74 45.79 84422 1,725.56 8.812 929.52 79.41 854.55 Pass-Major Risk 7,350.00 6,683.57 7,275.00 6,613.78 8.03 15.83 47.18 852.96 1,734.65 8.812 940.13 79.60 865.26 Pass-Major Risk 7,350.00 6,683.57 7,300.00 6,635.37 8.03 15.92 48.53 861.66 1,743.76 8.812 951.28 79.76 878.57 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 19 COMPASS 5000.1 Build 61 • • BP Clake bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PBS Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-24-S-24-S-24 Offset Site Error: 0.00 usft Survey Program: 34-GCT-MS Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolace+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +NIS +E1-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) El (usft) (usft) (in) (usft) (usft) (usft) 7,350.00 6,683.57 7,325.00 6,657.00 8.03 16.00 49.86 870.30 1,752.85 8.812 962.89 79.88 888.39 Pass-Major Risk 7,350.00 6,683.57 7,350.00 6,678.84 8.03 16.08 51.15 878.89 1,761.94 8.812 974.98 80.02 900.60 Pass-Major Risk 7,350.00 6,683.57 7,375.00 6,70026 8.03 16.19 52.41 887.49 1,771.09 8.812 987.60 80.23 91323 Pass-Major Risk 7,350.00 6,683.57 7,400.00 6,721.86 8.03 16.30 53.63 896.12 1,780.26 8.812 1,000.73 80.48 926.33 Pass-Major Risk 7,350.00 6,683.57 7,425.00 6,743.43 8.03 16.41 54.82 904.78 1,789.45 8.812 1,014.33 80.74 939.93 Pass-Major Risk 7,350.00 6,683.57 7,450.05 6,765.04 8.03 16.51 55.98 913.46 1,798.67 8.812 1,028.40 80.95 954.05 Pass-Major Risk 7,350.00 6,683.57 7,475.00 6,786.57 8.03 16.60 57.11 922.11 1,807.86 8.812 1,042.83 81.10 968.60 Pass-Major Risk 7,350.00 6,683.57 7,500.00 6,808.15 8.03 16.69 58.20 930.74 1,817.07 8.812 1,057.67 8125 983.58 Pass-Major Risk 7,350.00 6,683.57 7,525.00 6,829.72 8.03 16.78 59.27 939.34 1,826.32 8.812 1,072.89 81.43 998.92 Pass-Major Risk 7,350.00 6,683.57 7,550.00 6,851.28 8.03 16.89 60.30 947.93 1,835.62 8.812 1,088.50 81.64 1,014.62 Pass-Major Risk 7,350.00 6,683.57 7,575.00 6,872.81 8.03 16.99 61.30 956.50 1,845.00 8.812 1,104.51 81.87 1,030.70 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 20 COMPASS 5000.1 Build 61 BP Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-25-S-25-S-25 Offset Site Error: 0.00 usft Survey Program: 45-GCT-MS Rule Assigned:Major Risk Offset Well Error: 0.00 usfl Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N./-S +EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (soft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 7,857.54 6,671.41 7,000.00 6,797.52 9.09 7.05 179.83 18.75 383.69 6.937 370.60 82.06 288.72 Pass-Major Risk 7,858.71 6,671.36 7,025.00 6,620.27 9.10 7.12 176.12 29.09 384.17 6.937 369.92 82.22 28829 Pass-Major Risk,CC,ES,SF 7,859.86 6,671.31 7,050.00 6,843.05 9.12 7.17 172.41 39.38 384.71 6.937 370.96 82.34 289.78 Pass-Major Risk 7,860.99 6,671.26 7,075.00 6,865.83 9.13 725 168.74 49.65 385.33 6.937 373.66 82.55 293.04 Pass-Major Risk 7,862.10 6,671.21 7,100.00 6,888.61 9.14 7.34 165.13 59.93 386.03 6.937 377.96 82.79 298.00 Pass-Major Risk 7,863.18 6,671.16 7,125.00 6,911.38 9.16 7.44 161.62 70.22 386.82 6.937 383.80 83.08 304.61 Pass-Major Risk 7,864.24 6,671.11 7,150.00 6,934.15 9.17 7.54 158.23 80.50 387.71 6.937 391.12 83.35 312.81 Pass-Major Risk 7,865.26 6,671.06 7,175.00 6,956.92 9.18 7.64 154.97 90.79 388.71 6.937 399.83 83.64 322.47 Pass-Major Risk 7,86625 6,671.02 7200.00 6,979.87 9.19 7.74 151.86 101.10 389.80 6.937 409.83 83.93 333.47 Pass-Major Risk 7,867.22 6,670.97 7,225.00 7,002.41 9.20 7.85 148.90 111.42 390.98 6.937 421.04 84.24 345.69 Pass-Major Risk 7,868.18 6,670.93 7,250.00 7,025.13 9.22 7.97 146.11 121.76 392.22 6.937 433.36 84.56 359.04 Pass-Major Risk 7,869.13 6,670.88 7,275.00 7,047.84 9.23 8.09 143.48 132.13 393.53 6.937 446.69 84.90 373.38 Pass-Major Risk 7,870.09 6,670.84 7,300.00 7,070.54 9.24 8.21 141.02 142.53 394.89 6.937 480.96 85.24 388.61 Pass-Major Risk 7,875.00 8,670.61 7,325.00 7,093.21 9.30 8.33 139.20 152.96 396.29 6.937 476.09 85.75 404.61 Pass-Major Risk 7,875.00 6,670.61 7,350.00 7,115.88 9.30 8.45 136.92 163.41 397.74 6.937 491.97 86.05 421.42 Pass-Major Risk 7,875.00 6,670.81 7,375.00 7,138.54 9.30 8.56 134.79 173.85 399.25 6.937 508.57 86.31 438.93 Pass-Major Risk 7,875.00 6,670.61 7,400.00 7,161.21 9.30 8.65 132.79 184.27 400.82 6.937 525.84 86.51 457.08 Pass-Major Risk 7,875.00 6,670.61 7,425.00 7,183.89 9.30 8.74 130.93 194.67 402.46 8.937 543.71 86.72 475.76 Pass-Major Risk 7,875.00 6,670.61 7,450.00 7,206.56 9.30 8.84 129.18 205.06 404.17 6.937 562.12 86.94 494.92 Pass-Major Risk 7,875.00 6,870.61 7,475.00 7,229.23 9 30 8.95 127.54 215.45 405.95 6.937 581.00 87.20 514.46 Pass-Major Risk 7,877.37 6,870.50 7,500.00 7,251.89 9.33 9.06 126.30 225.85 407.79 6.937 600.31 87.58 534.34 Pass-Major Risk 7,878.20 6,670.46 7,525.00 7,274.54 9.34 9.18 124.96 236.28 409.71 6.937 620.00 87.90 554.56 Pass-Major Risk 7,879.00 6,670.43 7,550.00 7,297.18 9.35 9.30 123.70 246.68 411.70 6.937 640.03 88.23 575.08 Pass-Major Risk 7,879.78 6,670.39 7,575.00 7,319.80 9.36 9.42 122.59 257.12 413.76 6.937 660.38 88.56 595.88 Pass-Major Risk 7,880.53 6,670.35 7,600.00 7,342.41 9.37 9.54 121.42 267.57 415.90 6.937 681.02 88.89 616.92 Pass-Major Risk 7,881.25 6,670.32 7,625.00 7,365.00 9.38 9.66 120.37 278.04 418.12 6.937 701.91 89.22 638.18 Pass-Major Risk 7,881.94 6,670.29 7,650.00 7,387.58 9.38 9.78 119.39 288.52 420.43 8.937 723.04 89.54 659.64 Pass-Major Risk 7,882.57 6,670.26 7,875.00 7,410.15 9.39 9.90 118.45 299.01 422.84 6.937 744.39 89.86 88128 Pass-Major Risk 7,883.15 6,670.23 7,700.00 7,432.70 9.40 10.02 117.56 309.51 425.35 6.937 785.93 90.18 703.10 Pass-Major Risk 7,883.21 6,670.23 8,075.00 7,769.55 9.40 11.78 107.60 466.78 474.30 6.937 1,105.11 94.41 1,044.14 Pass-Major Risk 7,883.67 6,670.21 7,725.00 7,455.23 9.41 10.14 116.72 320.01 427.97 6.937 787.86 90.49 725.06 Pass-Major Risk 7,883.77 6,670.20 8,050.00 7,747.15 9.41 11.65 108.15 456.32 470.51 6.937 1,081.83 94.13 1,020.80 Pass-Major Risk 7,884.12 6,670.19 7,750.00 7,477.75 9.41 10.26 115.91 330.53 430.71 6.937 809.54 90.81 747.16 Pass-Major Risk 7,884.29 6,870.18 8,025.00 7,724.73 9.41 11.53 108.71 445.91 466.75 6.937 1,058.62 93.83 997.53 Pass-Major Risk 7,884.50 6,670.17 7,775.00 7,500.24 9.42 10.38 115.13 341.05 433.55 6.937 831.58 91.12 769.39 Pass-Major Risk 7,884.76 6,670.16 8,000.00 7,702.29 9.42 11.41 109.29 435.53 463.03 6.937 1,035.46 93.56 974.32 Pass-Major Risk 7,884.82 6,670.15 7,800.00 7,522.72 9.42 10.51 114.39 351,59 436.49 6.937 853.76 91.43 791.75 Pass-Major Risk 7,885.09 6,670.14 7,825.00 7,545.19 9.42 10.63 113.67 362.13 439.51 6.937 876.07 91.74 814.21 Pass-Major Risk 7,885.14 6,670.14 7,975.00 7,679.84 9.42 11.30 109.87 425.16 459.38 6.937 1,012.38 93.31 951.17 Pass-Major Risk 7,885.30 6,670.13 7,850.00 7,567.64 9.43 10.75 112.99 372.68 442.61 6.937 898.50 92.04 836.78 Pass-Major Risk 7,885.40 8,670.13 7,950.00 7,657.39 9.43 11.20 110.47 414.75 455.83 6.937 989.39 93.10 928.10 Pass-Major Risk 7,885.45 6,670.12 7,875.00 7,590.08 9.43 10.87 112.33 383.23 445.79 6.937 921.06 92.34 859.46 Pass-Major Risk 7,885.52 6,670.12 7,925.00 7,634.95 9.43 11.10 111.07 404.29 452.39 6.937 966.50 92.87 905.12 Pass-Major Risk 7,885.53 8,670.12 7,900.00 7,612.52 9.43 10.99 111.69 393.77 449.04 6.937 943.73 92.82 88224 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 21 COMPASS 5000.1 Build 61 BP Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-25-S-25A-S-25A Offset Site Error: 0.00 usft Survey Program: 45-GCT-MS,9162-MWD,9231-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N1S +EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) El (usft) lusft) (in) (usft) (usft) (usft) 7,857.54 6,671.41 7,000.00 6,797.52 9.09 7.05 179.83 18.75 383.69 6.937 370 60 82.06 288.72 Pass-Major Risk 7,858.71 6,671.36 7,025.00 6,820.27 9.10 7.12 176.12 29.09 384.17 6.937 369.92 82.22 288.29 Pass-Major Risk,CC,ES,SF 7,859.86 6,671.31 7,050.00 8,843.05 9.12 7.17 172.41 39.38 384.71 6.937 370.96 62.34 289.78 Pass-Major Risk 7,860.99 6,671.26 7,075.00 6,865.83 9.13 7.25 188.74 49.85 385.33 6.937 373.66 82.55 293.04 Pass-Major Risk 7,862.10 6,671.21 7,100.00 6,888.61 9.14 7.34 165.13 59.93 386.03 6.937 377.96 82.79 298.00 Pass-Major Risk 7,863.18 6,671.16 7,125.00 6,911.38 9.16 7.44 161.62 70.22 386.82 6.937 383.80 83.08 304.61 Pass-Major Risk 7,864.24 6,671.11 7,150.00 6,934.15 9.17 7.54 158.23 80.50 387.71 6.937 391.12 83.35 312.81 Pass-Major Risk 7,865.26 6,671.06 7,175.00 6,956.92 9.18 7.64 154.97 90.79 388.71 6.937 399.83 83.64 322.47 Pass-Major Risk 7,868.25 6,671.02 7,200.00 6,979.87 9.19 7.74 151.86 101.10 389.80 6.937 409.83 83.93 333.47 Pass-Major Risk 7,867.22 6,670.97 7,225.00 7,002.41 920 7.85 148.90 111.42 390.98 8.937 421.04 84.24 345.69 Pass-Major Risk 7,868.18 6,670.93 7250.00 7,025.13 9.22 7.97 146.11 121.76 392.22 6.937 433.36 84.56 359.04 Pass-Major Risk 7,869.13 6,670.88 7,275.00 7,047.84 9.23 8.09 143.48 132.13 393.53 6.937 448.69 84.90 373.38 Pass-Major Risk 7,870.09 6,670.84 7,300.00 7,070.54 9.24 8.21 141.02 142.53 394.89 6.937 460.96 85.24 388.61 Pass-Major Risk 7,875.00 6,670.81 7,325.00 7,093.21 9.30 8.33 139.20 152.96 396.29 6.937 476.09 85.75 404.61 Pass-Major Risk 7,875.00 6,670.61 7,350.00 7,115.88 9.30 8.45 136.92 163.41 397.74 6.937 491.97 86.05 421.42 Pass-Major Risk 7,875.00 8,670.61 7,375.00 7,138.54 9.30 8.56 134.79 173.85 39925 6.937 508.57 86.31 438.93 Pass-Major Risk 7,875.00 6,670.81 7,400.00 7,161.21 9.30 8.85 132.79 184.27 400.82 6.937 525.84 86.51 457.08 Pass-Major Risk 7,875.00 6,670.61 7,425.00 7,183.89 9.30 8.74 130.93 194.67 402.46 6.937 543.71 86.72 475.76 Pass-Major Risk 7,875.00 6,670.61 7,450.00 7,206.56 9.30 8.84 129.18 205.06 404.17 8.937 562.12 86.94 494.92 Pass-Major Risk 7,875.00 6,670.61 7,475.00 7,229.23 9.30 8.95 127.54 215.45 405.95 6.937 581.00 87.20 514.46 Pass-Major Risk 7,877.37 6,670.50 7,500.00 7,251.89 9.33 9.06 126.30 225.85 407.79 6.937 600.31 87.58 534.34 Pass-Major Risk 7,878.20 6,670.46 7,525.00 7,274.54 9.34 9.18 124.96 236.26 409.71 6.937 620.00 87.90 554.56 Pass-Major Risk 7,879.00 6,670.43 7,550.00 7,297.18 9.35 9.30 123.70 246.68 411.70 6.937 640.03 88.23 575.08 Pass-Major Risk 7,879.78 6,670.39 7,575.00 7,319.80 9.38 9.42 122.53 257.12 413.76 6.937 660.38 88.56 595.88 Pass-Major Risk 7,880.53 6,670.35 7,600.00 7,342.41 9.37 9.54 121.42 267.57 415.90 6.937 681.02 88.89 616.92 Pass-Major Risk 7,881.25 6,870.32 7,625.00 7,365.00 9.38 9.66 120.37 278.04 418.12 8.937 701.91 89.22 638.18 Pass-Major Risk 7,881.94 6,870.29 7,650.00 7,387.58 9.38 9.78 119.39 288.52 420.43 6.937 723.04 89.54 659.64 Pass-Major Risk 7,882.57 6,670.26 7,875.00 7,410.15 9.39 9.90 118.45 299.01 422.84 6.937 744.39 89.86 681.28 Pass-Major Risk 7,883.15 6,670.23 7,700.00 7,432.70 9.40 10.02 117.56 309.51 425.35 6.937 765.93 90.18 703.10 Pass-Major Risk 7,883.21 6,670.23 8,075.00 7,769.55 9.40 11.78 107.60 466.76 474.30 6.937 1,105.11 94.41 1,044.14 Pass-Major Risk 7,883.67 6,870.21 7,725.00 7,455.23 9.41 10.14 118.72 320.01 427.97 8.937 787.88 90.49 725.06 Pass-Major Risk 7,883.77 6,870.20 8,050.00 7,747.15 9.41 11.65 108.15 458.32 470.51 6.937 1,081.83 94.13 1,020.80 Pass-Major Risk 7,884.12 6,670.19 7,750.00 7,477.75 9.41 10.26 115.91 330.53 430.71 6.937 809.54 90.81 747.16 Pass-Major Risk 7,884.29 6,670.18 8,025.00 7,724.73 9.41 11.53 108.71 445.91 466.75 6.937 1,058.62 93.83 997.53 Pass-Major Risk 7,884.50 6,670.17 7,775.00 7,500.24 9.42 10.38 115.13 341.05 433.55 8.937 831.58 91.12 769.39 Pass-Major Risk 7,884.76 8,670.16 8,000.00 7,702.29 9.42 11.41 109.29 435.53 463.03 8.937 1,035.46 93.56 974.32 Pass-Major Risk 7,884.82 6,670.15 7,800.00 7,522.72 9.42 10.51 114.39 351.59 438.49 6.937 853.76 91.43 791.75 Pass-Major Risk 7,885.09 6,670.14 7,825.00 7,545.19 9.42 10.63 113.67 362.13 439.51 6.937 876.07 91.74 81421 Pass-Major Risk 7,885.14 6,670.14 7,975.00 7,679.84 9.42 11.30 109.87 425.18 459.38 6.937 1,012.38 93.31 951.17 Pass-Major Risk 7,885.30 6,670.13 7,850.00 7,567.64 9.43 10.75 112.99 372.68 442.61 6.937 898.50 92.04 836.78 Pass-Major Risk 7,885.40 6,670.13 7,950.00 7,857.39 9.43 1120 110.47 414.75 455.83 8.937 989.39 93.10 928.10 Pass-Major Risk 7,885.45 8,670.12 7,875.00 7,590.08 9.43 10.87 112.33 383.23 445.79 6.937 921.06 92.34 859.46 Pass-Major Risk 7,885.52 6,670.12 7,925.00 7,634.95 9.43 11.10 111.07 404.29 452.39 6.937 966.50 92.87 905.12 Pass-Major Risk 7,885.53 6,870.12 7,900.00 7,612.52 9.43 10.99 111.69 393.77 449.04 6.937 943.73 92.62 882.24 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 22 COMPASS 5000.1 Build 61 0 • A,,. BP r, Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Welibore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-25-S-25APB1-S-25APB1 Offset Site Error: 0.00 usft Survey Program: 45-GCT-MS,9162-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Waming Depth Depth Depth Depth Azimuth +N/-S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (') (usft) (usft) (in) (usft) (usft) (usft) 7,857.54 6,671.41 7,000.00 6,797.52 9 09 7.05 179.83 18.75 383.69 6.937 370.60 82.06 288.72 Pass-Major Risk 7,858.71 6,671.36 7,025.00 8,820.27 9.10 7.12 176.12 29.09 384.17 8.937 369.92 82.22 28829 Pass-Major Risk,CC,ES,SF 7,859.86 6,671.31 7,050.00 6,843.05 9.12 7.17 172.41 39.38 384.71 6.937 370.96 82.34 289.78 Pass-Major Risk 7,860.99 6,671.26 7,075.00 6,865.83 9.13 7.25 168.74 49.65 385.33 6.937 373.66 82.55 293.04 Pass-Major Risk 7,862.10 6,671.21 7,100.00 6,888.61 9.14 7.34 185.13 59.93 386.03 8.937 377.96 82.79 298.00 Pass-Major Risk 7,883.18 6,671.16 7,125.00 8,911.36 9.16 7.44 161.62 70.22 386.82 6.937 383.80 83.08 304.61 Pass-Major Risk 7,864.24 6,671.11 7,150.00 6,934.15 9.17 7.54 158.23 80.50 387.71 6.937 391.12 83.35 312.81 Pass-Major Risk 7,865.26 6,671.06 7,175.00 6,956.92 9.18 7.64 154.97 90.79 388.71 6.937 399.83 83.84 322.47 Pass-Major Risk ' 7,866.25 6,671.02 7,200.00 6,979.67 9.19 7.74 151.88 101.10 389.80 6.937 409.83 83.93 333.47 Pass-Major Risk 7,867.22 6,670.97 7,225.00 7,002.41 920 7.85 148.90 111.42 390.98 6.937 421.04 84.24 345.69 Pass-Major Risk 7,868.18 6,670.93 7,250.00 7,025.13 922 7.97 146.11 121.76 39222 6.937 433.36 84.56 359.04 Pass-Major Risk 7,869.13 6,870.88 7,275.00 7,047.84 923 8.09 143.48 132.13 393.53 6.937 446.69 84.90 373.38 Pass-Major Risk 7,870.09 6,670.84 7,300.00 7,070.54 9.24 8.21 141.02 142.53 394.89 6.937 460.96 85.24 388.61 Pass-Major Risk 7,875.00 6,670.61 7125.00 7,093.21 9.30 8.33 139.20 152.96 396.29 6.937 476.09 85.75 404.61 Pass-Major Risk 7,875.00 6,670.61 7,350.00 7,115.88 9.30 8.45 136.92 163.41 397.74 6.937 491.97 86.05 421.42 Pass-Major Risk 7,875.00 6,670.61 7,375.00 7,138.54 9.30 8.56 134.79 173.85 399.25 6.937 508.57 86.31 438.93 Pass-Major Risk 7,875.00 6,670.61 7,400.00 7,161.21 9.30 8.65 132.79 184.27 400.82 6.937 525.84 86.51 457.08 Pass-Major Risk 7,875.00 6,670.81 7,425.00 7,183.89 9.30 8.74 130.93 194.67 402.46 6.937 543.71 86.72 475.76 Pass-Major Risk 7,875.00 6,670.61 7,450.00 7,206.56 9.30 8.84 129.18 205.06 404.17 6.937 562.12 86.94 494.92 Pass-Major Risk 7,875.00 6,670.81 7,475.00 7,22923 9.30 8.95 127.54 215.45 405.95 6.937 581.00 87.20 514.46 Pass-Major Risk 7,877.37 6,670.50 7,500.00 7,251.89 9.33 9.06 126.30 225.85 407.79 6.937 600.31 87.58 534.34 Pass-Major Risk 7,878.20 6,670.46 7,525.00 7,274.54 9.34 9.18 124.96 238.26 409.71 6.937 620.00 87.90 554.56 Pass-Major Risk 7,879.00 6,670.43 7,550.00 7,297.18 9.35 9.30 123.70 246.68 411.70 6.937 640.03 88.23 575.08 Pass-Major Risk 7,879.78 6,670.39 7,575.00 7,319.80 9.36 9.42 122.53 ' 257.12 41376 6.937 860.38 88.56 595.88 Pass-Major Risk 7,880.53 6,670.35 7,600.00 7,342.41 9.37 9.54 121.42 - 287.57 415.90 6.937 681.02 88.89 616.92 Pass-Major Risk 7,881.25 8,670.32 7,625.00 7,365.00 9.38 9.66 120.37 278.04 418.12 6.937 701.91 89.22 638.18 Pass-Major Risk 7,881.94 6,670.29 7,850.00 7,387.58 9.38 9.78 119.39 288.52 420.43 6.937 723.04 89.54 659.64 Pass-Major Risk 7,882.57 6,670.26 7,675.00 7,410.15 9.39 9.90 118.45 299.01 422.84 6.937 744.39 89.86 68128 Pass-Major Risk 7,883.15 6,670.23 7,700.00 7,432.70 9.40 10.02 117.56 309.51 425.35 6.937 765.93 90.18 703.10 Pass-Major Risk 7,883.21 6,670.23 8,075.00 7,769.55 9.40 11.78 107.60 466.76 474.30 6.937 1,105.11 94.41 1,044.14 Pass-Major Risk 7,883.67 6,670.21 7,725.00 7,455.23 9.41 10.14 116.72 320.01 427.97 6.937 787.66 90.49 725.06 Pass-Major Risk 7,883.77 6,670.20 8,050.00 7,747.15 9.41 11.65 108.15 456.32 470.51 6.937 1,081.83 94.13 1,020.80 Pass-Major Risk 7,884.12 6,670.19 7,750.00 7,477.75 9.41 10.26 115.91 330.53 430.71 6.937 809.54 90.81 747.16 Pass-Major Risk 7,884.29 6,670.18 8,025.00 7,724.73 9.41 11.53 108.71 445.91 466.75 6.937 1,058.62 93.83 997.53 Pass-Major Risk 7,884.50 6,670.17 7,775.00 7,500.24 9.42 10.38 115.13 341.05 433.55 6.937 831.58 91.12 789.39 Pass-Major Risk 7,884.76 6,670.16 8,000.00 7,702.29 9.42 11.41 109.29 435.53 483.03 6.937 1,035.46 93.56 974.32 Pass-Major Risk 7,884.82 6,670.15 7,800.00 7,522.72 9.42 10.51 114.39 351.59 436.49 6.937 853.76 91.43 791.75 Pass-Major Risk 7,885.09 6,670.14 7,825.00 7,545.19 9.42 10.63 113.67 362.13 439.51 6.937 876.07 91.74 81421 Pass-Major Risk 7,885.14 6,670.14 7,975.00 7,679.84 9.42 11.30 109.87 425.16 459.38 6.937 1,012.38 93.31 951.17 Pass-Major Risk 7,885.30 6,670.13 7,850.00 7,567.64 9.43 10.75 112.99 372.68 442.61 8.937 898.50 9204 83678 Pass-Major Risk 7,885.40 6,670.13 7,950.00 7,657.39 9.43 11.20 110.47 414.75 455.83 6.937 989.39 93.10 928.10 Pass-Major Risk 7,885.45 6,670.12 7,875.00 7,590.08 9 43 10.87 112.33 38323 445.79 6.937 921.08 92.34 859.48 Pass-Major Risk 7,885.52 6,670.12 7,925.00 7,834.95 9.43 11.10 111.07 404.29 452.39 6.937 966.50 . 92.87 905.12 Pass-Major Risk 7,885.53 6,670.12 7,900.00 7,612.52 9.43 10.99 111.69 393.77 449.04 6.937 943.73 92.62 882.24 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 23 COMPASS 5000.1 Build 61 • • BP 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-33-S-33-S-33 Offset Site Error: 0.00 usft Survey Program: 259-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +NrS +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (soft) E) (usft) (usft) (in) (usft) (usft) (usft) 6,765.90 6,558.71 7,075.00 6,939.68 3.69 6.31 -132.16 -397.77 397.69 5.937 615.08 60.14 55839 Pass-Major Risk,CC,ES,SF 6,777.55 6,566.51 7,100.00 6,962.40 3.75 6.46 -130.47 -390.74 389.97 5.937 628.49 60.60 571.77 Pass-Major Risk 6,784.01 6,570.79 7,125.00 6,985.11 3.79 6.60 -128.85 -383.72 382.24 5.937 642.53 61.02 585.80 Pass-Major Risk 6,790.28 6,574.92 7,150.00 7,007.83 3.82 6.74 -127.30 -376.72 374.49 5.937 657.13 61.43 600.43 Pass-Major Risk 6,800.00 6,581.25 7,175.00 7,030.55 3.87 6.87 -125.82 -369.75 366.74 5.937 872.30 61.84 615.67 Pass-Major Risk 6,800.00 6,581.25 7,200.00 7,053.29 3.87 7.00 -124.39 -362.83 358.99 5.937 687.97 62.19 631.37 Pass-Major Risk 6,800.00 6,581.25 7,225.00 7,076.04 3.87 7.13 -123.03 -355.94 351.24 5.937 704.21 6254 647.65 Pass-Major Risk 6,813.81 6,590.14 7,250.00 7,098.80 3.96 7.26 -121.75 -349.10 343.49 5.937 720.75 63.00 664.29 Pass-Major Risk 6,819.33 6,593.64 7,275.00 7,121.57 4.00 7.39 -120.52 -342.30 335.74 5.937 737.80 63.40 681.41 Pass-Major Risk 6,824.71 6,597.04 7,300.00 7,144.36 4.04 7.52 -119.35 -335.54 327.99 5.937 755.26 63.79 698.95 Pass-Major Risk 6,829.96 6,600.33 7,325.00 7,187.16 4.08 7.65 -118.23 -328.82 320.24 5.937 773.10 64.17 716.86 Pass-Major Risk 6,835.08 6,603.53 7,350.00 7,189.97 4.11 7.78 -117.17 -322.14 312.49 5.937 791.29 64.58 735.13 Pass-Major Risk 6,840.08 6,606.62 7,375.00 7,212.79 4.15 7.91 -118.16 -315.51 304.74 5.937 809.81 64.94 753.74 Pass-Major Risk 6,852.27 6,814.09 7,400.00 7,235.63 423 8.04 -115.20 -308.92 296.99 5.937 828.70 65.38 772.77 Pass-Major Risk 6,852.27 6,614.09 7,425.00 7,258.48 4.23 8.17 -114.27 -302.37 289.24 5.937 847.78 65.72 791.89 Pass-Major Risk 6,852.27 6,614.09 7,450.00 7,281.34 4.23 8.29 -113.38 -295.84 281.50 5.937 867.17 86.04 811.33 Pass-Major Risk 6,852.27 6,614.09 7,475.00 7,304.19 4.23 8.41 -112.54 -289.29 273.77 5.937 886.82 66.36 831.03 Pass-Major Risk 6,852.27 6,614.09 7,500.00 7,327.05 4.23 8.53 -111.72 -282.73 268.06 5.937 906.73 66.67 850.97 Pass-Major Risk 6,863.26 6,620.67 7,525.00 7,349.91 4.32 8.85 -110.90 -276.15 258.36 5.937 926.69 67.05 871.22 Pass-Major Risk 6,86622 6,622.41 7,550.00 7,372.76 4.35 8.77 -110.14 -269.56 250.67 5.937 946.95 67.38 891.58 Pass-Major Risk 6,869.09 8,624.09 7,575.00 7,395.62 4.37 8.90 -109.42 -262.94 243.00 5.937 967.39 67.71 912.12 Pass-Major Risk 6,871.89 6,625.71 7,600.00 7,418.48 4.40 9.02 -108.72 -256.31 235.34 5.937 988.00 68.04 932.83 Pass-Major Risk 6,883.51 6,632.32 7,625.00 7,441.33 4.50 9.14 -108.02 -249.67 227.70 5.937 1,008.90 68.40 954.05 Pass-Major Risk 7,875.00 6,670.61 7,650.00 7,464.19 9.30 9.26 15122 -243.01 220.07 5.937 1,027.46 89.68 955.99 Pass-Major Risk 7,875.00 6,670.61 7,675.00 7,487.04 9.30 9.38 15027 -236.33 212.46 5.937 1,043.44 89.99 972.40 Pass-Major Risk 7,879.23 6,670.42 7,700.00 7,509.90 9.35 9.50 149.87 -229.63 204.86 5.937 1,059.73 90.52 988.98 Pass-Major Risk 7,882.77 6,670.25 7,725.00 7,532.75 9.39 9.64 149.43 -222.93 197.25 5.937 1,076.32 91.06 1,005.87 Pass-Major Risk 7,887.00 6,670.05 7,750.00 7,555.58 9.45 9.78 149.10 -216.29 189.51 5.937 1,093.25 91.66 1,022.98 Pass-Major Risk 7,867.00 6,670.05 7,775.00 7,578.37 9.45 9.92 148.28 -209.71 181.63 5.937 1,110.51 92.05 1,040.51 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 24 COMPASS 5000.1 Build 61 • • BP 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-34-S-34-S-34 Offset Site Error: 0.00 usft Survey Program: 158-MWD,10620-BLIND Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth 1-NIS *E1-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) r) (usft) (usft) (in) (usft) (usft) (usft) 8,085.21 6,656.87 6,175.00 5,557.56 12.14 21.91 -55.38 629.87 378.03 3.750 1,116.64 122.64 1,052.80 Pass-Major Risk 8,094.33 6,858.94 6,200.00 5,576.01 12.28 22.14 -55.71 645.35 371.30 3.750 1,100.68 122.98 1,036.02 Pass-Major Risk 8,100.00 6,656.99 6,225.00 5,594.46 12.37 22.37 -55.60 660.88 364.65 3.750 1,084.97 123.34 1,019.45 Pass-Major Risk 8,111.49 6,657.07 6,250.00 5,612.91 12.54 22.60 -56.14 876.39 358.09 3.750 1,069.51 123.54 1,003.06 Pass-Major Risk 8,119.56 6,657.13 8,275.00 5,631.38 12.67 22.83 -56.24 691.93 351.57 3.750 1,054.31 123.78 986.90 Pass-Major Risk 8,125.00 6,657.17 6,300.00 5,649.86 12.75 23.06 -55.99 707.43 345.00 3.750 1,039.39 124.06 970.97 Pass-Major Risk 8,134.93 6,657.23 6,325.00 5,668.36 12.90 23.29 -56.24 722.89 338.39 3.750 1,024.74 124.17 955.26 Pass-Major Risk 8,142.24 6,657.28 6,350.00 5,686.87 13.02 23.52 -56.15 738.32 331.74 3.750 1,010.38 124.33 939.81 Pass-Major Risk 8,150.00 6,657.32 6,375.00 5,705.38 13.14 23.76 -56.08 753.72 325.01 3.750 996.36 124.46 924.64 Pass-Major Risk 8,156.25 6,657.36 6,400.00 5,723.87 13.23 24.00 -55.79 769.10 318.19 3.750 982.71 124.64 909.78 Pass-Major Risk 8,162.98 6,657.39 6,425.00 5,742.33 13.34 24.25 -55.53 784.47 311.26 3.750 969.43 124.76 895.27 Pass-Major Risk 8,189.54 6,657.43 6,450.00 5,760.77 13.44 24.49 -55.21 799.82 304.23 3.750 956.56 124.87 881.12 Pass-Major Risk 8,175.00 6,657.45 6,475.00 5,779.19 13.52 24.73 -54.73 815.14 297.10 3.750 944.11 125.01 867.34 Pass-Major Risk 6,182.19 6,657.49 6,500.00 5,797.58 13.63 24.97 -54.41 830.45 289.86 3.750 932.09 125.02 853.98 Pass-Major Risk 8,188.28 6,657.51 6,525.00 5,815.96 13.73 25.21 -53.94 845.74 282.53 3.750 920.53 125.07 841.03 Pass-Major Risk 8,194.22 6,857.54 6,550.00 5,834.31 13.82 25.45 -53.40 881.01 275.11 3.750 909.45 125.11 828.53 Pass-Major Risk 8,200.00 6,657.56 6,575.00 5,852.68 13.91 25.69 -52.82 876.25 267.70 3.750 898.83 125.14 816.46 Pass-Major Risk 8,200.00 6,657.56 6,600.00 5,871.10 13.91 25.93 -51.51 891.47 260.34 3.750 888.70 125.57 804.72 Pass-Major Risk 8,210.82 6,657.60 6,625.00 5,889.56 14.07 26.18 -51.44 906.67 25302 3750 879.00 125.19 793.65 Pass-Major Risk 8,215.96 6,857.61 6,650.00 5,908.02 14.15 26.43 -50.67 921.87 245.74 3.750 869.89 125.22 782.99 Pass-Major Risk 8,225.00 8,657.64 6,675.00 5,926.37 14.29 26.68 -50.33 937.18 238.41 3.750 861.52 124.90 77321 Pass-Major Risk 8,225.00 6,657.64 6,700.00 5,944.58 14.29 28.94 -48.87 952.64 231.02 3.750 853.89 125.33 763.83 Pass-Major Risk 8,230.66 6,657.65 6,725.00 5,962.66 14.37 27.20 -48.06 968.22 223.59 3.750 847.07 125.26 755.47 Pass-Major Risk 8,235.32 6,657.66 8,750.00 5,980.61 14.44 27.45 -47. '''41° r,983.93 218.10 3.750 841.08 125.26 747.90 Pass-Major Risk 8,242.00 6,657.68 6,775.00 5,998.43 14.55 27.71 -48. ,.999.77 208.57 3.750 835.92 125.05 741.28 Pass-Major Risk 8,244.28 6,657.68 6,800.00 6,016.11 14.58 27.97 -45. 1,015.73 200.98 3.750 831.60 125.24 735.31 Pass-Major Risk 8,250.00 6,657.69 6,825.00 6,033.76 14.66 28.24 -44.14 1,031.72 193.40 3.750 828.01 125.09 730.28 Pass-Major Risk 8,250.00 6,657.69 6,850.00 6,051.42 14.66 28.50 -42.54 1,047.72 185.83 3750 825.12 125.50 725.62 Pass-Major Risk 8,250.00 8,657.69 6,875.00 6,069.09 14.66 28.77 -40.92 1,063.71 178.29 3750 822.98 125.91 721.72 Pass-Major Risk 8,260.51 6,657.71 8,900.00 6,086.77 14.82 29.03 -40.54 1,079.71 170.76 3.750 821.43 125.20 71920 Pass-Major Risk 8,264.23 6,657.72 6,925.00 6,104.46 14.87 29.28 -39.34 1,095.73 163.31 3.750 820.68 125.16 717.07 Pass-Major Risk 8,267.81 6,657.72 6,950.00 6,122.16 14.93 29.54 -38.12 1,111.77 155.94 3.750 820.66 125.12 715.73 Pass-Major Risk,CC 8,275.00 6,657.74 6,975.00 8,139.88 15.03 29.79 -37.33 1,127.83 148.66 3.750 821.40 124.66 715.52 Pass-Major Risk 8,275.00 6,657.74 7,000.00 6,157.60 15.03 30.04 -35.68 1,143.92 141.45 3.750 822.84 125.00 715.45 Pass-Major Risk,ES,SF 8,275.00 6,657.74 7,025.00 6,175.34 15.03 30.30 -34.03 1,160.04 134.33 3.750 825.05 125.35 716.19 Pass-Major Risk 8,275.00 6,657.74 7,050.00 6,193.09 15.03 30.55 -32.39 1,178.17 127.29 3.750 828.02 125.70 717.74 Pass-Major Risk 8,283.78 6,657.76 7,075.00 6,210.86 15.16 30.80 -31.81 1,192.33 120.33 3.750 831.84 124.98 720.88 Pass-Major Risk 8,286.61 6,657.76 7,100.00 6,228.64 15.20 31.06 -30.52 1,208.51 113.48 3.750 836.01 124.94 72429 Pass-Major Risk 8,289.31 6,657.77 7,125.00 6,246.46 15.24 31.31 -29.24 1,224,71 106.78 3.750 841.09 124.91 728.47 Pass-Major Risk 8,291.88 6,657.77 7,150.00 6,264.32 15.28 31.56 -27.96 1,240.93 100.23 3.750 846.85 124.89 733.39 Pass-Major Risk 8,300.00 8,657.79 7,175.00 6,282.21 15.39 31.81 -27.36 1,257.17 93.82 3.750 853.33 124.13 739.78 Pass-Major Risk 8,300.00 6,657.79 7,200.00 6,300.15 15.39 32.06 -25.81 1,273.43 87.56 3.750 860.39 124.42 745.85 Pass-Major Risk 8,300.00 6,657.79 7,225.00 6,318.11 15.39 32.31 -24.28 1,289.70 81.45 3.750 868.11 124.71 752.84 Pass-Major Risk 8,300.00 6,657.79 7,250.00 6,336.12 15.39 32.56 -22.78 1,305.99 75.49 3.750 876.48 125.00 760.14 Pass-Major Risk 8,300.00 6,657.79 7,275.00 6,354.15 15.39 32.81 -21.30 1,322.30 69.67 3.750 885,47 125.29 768.32 Pass-Major Risk 8,300.00 6,657.79 7,300.00 6,372.21 15.39 33.05 -19.86 1,338.57 63.84 3.750 895.03 125.56 777.14 Pass-Major Risk 8,300.00 6,657.79 7,325.00 6,390.30 15.39 33.29 -18.44 1,354.80 57.95 3750 905.14 125.83 786.55 Pass-Major Risk 8,850.00 6,843.09 7,350.00 6,408.40 23.99 33.53 17.70 1,370.97 51.99 3.750 914.79 192.64 731.01 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 25 COMPASS 5000.1 Build 61 I s BP PIRO 0 by Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PBS Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-34-S-34-S-34 Offset Site Error: 0.00 usft Survey Program: 156-MWD,10620-BLIND Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolace+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +NIS +EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 8,850.00 6,643.09 7,375.00 6,426.52 23.99 33.77 18.89 1,387.11 45.96 3.750 920.53 193.19 735.46 Pass-Major Risk 8,850.00 6,643.09 7,400.00 6,444.85 23.99 34.02 20.07 1,403.22 39.88 3.750 926.87 193.77 740.53 Pass-Major Risk 8,861.54 8,643.86 7,425.00 6,462.75 24.17 34.27 19.95 1,419.33 33.74 3.750 933.60 194.28 746.39 Pass-Major Risk 8,866.84 6,644.19 7,450.00 6,480.83 24.26 34.52 20.53 1,435.44 27.55 3.750 940.92 194.78 752.76 Pass-Major Risk 8,875.00 6,644.73 7,475.00 6,498.89 24.39 34.76 20.73 1,451.56 21.30 3.750 948.75 195.19 759.87 Pass-Major Risk 8,875.00 6,644.73 7,500.00 6,516.93 24.39 35.01 21.85 1,467.67 14.99 3.750 957.04 19575 767.18 Pass-Major Risk 8,875.00 6,644.73 7,525.00 6,534.95 24.39 35.26 22.94 1,483.79 8.63 3.750 965.89 196.31 775.10 Pass-Major Risk 8,886.33 6,845.43 7,550.00 6,552.95 24.58 35.50 22.75 1,499.92 2.22 3.750 975.08 196.57 783.99 Pass-Major Risk 8,897.00 6,646.06 7,575.00 8,570.96 24.75 35.75 22.60 1,516.03 -4.20 3.750 984.86 196.74 793.59 Pass-Major Risk 8,897.00 6,646.06 7,600.00 6,589.04 24.75 36.00 23.64 1,532.10 -10.52 3.750 995.00 19729 802.99 Pass-Major Risk 8,900.00 6,846.23 7,625.00 6,607.19 24.80 36.25 24.33 1,548.13 -16.73 3750 1,005.65 19771 813.14 Pass-Major Risk 8,900.00 6,646.23 7,650.00 6,825.41 24.80 36.50 25.34 1,564.11 -22.85 3.750 1,016.78 19825 823.64 Pass-Major Risk 8,908.85 6,646.74 7,675.00 8,843.64 24.95 36.75 25.33 1,580.07 -29.00 3.750 1,028.24 198.38 835.13 Pass-Major Risk 8,913.13 6,646.98 7,700.00 6,661.83 25.02 37.00 25.81 1,596.01 -35.33 3.750 1,040.06 198.70 84674 Pass-Major Risk 8,925.00 6,847.62 7,725.00 6,679.99 25.22 3725 25.41 1,611.93 -41.81 3.750 1,05229 198.53 859.48 Pass-Major Risk 8,925.00 6,647.62 7,750.00 6,698.10 25.22 37.50 26.32 1,827.83 -48.46 3.750 1,064.86 199.05 871.41 Pass-Major Risk 8,925.00 8,647.62 7,775.00 6,716.16 25.22 37.74 27.21 1,643.71 -5528 3.750 1,077.39 199.58 883.73 Pass-Major Risk 8,925.00 6,647.62 7,800.00 6,73423 25.22 38.00 28.09 1,659.58 -62.13 3.750 1,090.51 200.11 896.47 Pass-Major Risk 8,933.94 6,648.09 7,825.00 6,752.33 25.37 38.25 27.92 1,675.44 -68.89 3.750 1,103.96 200.02 91043 Pass-Major Risk 8,937.87 6,64829 7,850.00 6,770.48 25.44 38.50 28.31 1,691.29 -75.55 3.750 1,117.83 200.25 924.38 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 26 COMPASS 5000.1 Build 61 • • BP 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-36-S-36-S-36 Offset Site Error: 0.00 usft Survey Program: 186-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Tooltace+ Offset Wellbore Centre Casing- Centre to No Go Allowable Waming Depth Depth Depth Depth Azimuth +NIS +EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) 11 (usft) (usft) (in) (usft) (usft) (usft) 7,913.43 8,888.29 7,225.00 6,820.82 9.78 16.72 -171.12 -89.84 222.83 6.937 534.37 112.26 425.05 Pass-Major Risk,CC,ES,SF 7,925.00 6,667.19 7,250.00 6,837.46 9.92 17.00 -171.88 -82.24 205.79 6.937 540.47 113.50 430.67 Pass-Major Risk 7,925.00 6,667.19 7,275.00 6,854.26 9.92 17.28 -173.70 -74.72 188 88 6.937 547.47 114.26 437.62 Pass-Major Risk 7,938.03 6,665.73 7,300.00 6,871.24 10.09 17.58 -174.26 -67.29 172.10 6.937 555.26 115.54 444.98 Pass-Major Risk 7,950.00 6,664.16 7,325.00 6,888.38 10.24 17.82 -174.86 -59.97 155.43 6.937 564.01 116.79 453.49 Pass-Major Risk 7150.00 6,664.16 7,350.00 6,905.85 10.24 18.07 -176.59 -52.78 138.85 6.937 573.57 117.62 463.31 Pass-Major Risk 7,962.00 6,662.38 7,375.00 6,923.06 10.39 18.32 -177.08 -45.74 122.35 6.937 584.00 118.88 473.69 Pass-Major Risk 7,986.86 6,659.12 7,400.00 6,940.61 10.72 18.57 -178.70 -38.84 105.94 6.937 595.07 120.66 484.02 Pass-Major Risk 8,345.34 6,657.69 7,425.00 6,958.29 16.03 18.82 144.94 -32.08 89.61 6.937 601.92 127.74 484.57 Pass-Major Risk 8,350.00 6,857.54 7,450.00 6,976.10 16.09 19.07 143.06 -25.45 73.36 6.937 604.48 128.59 487.54 Pass-Major Risk 8,363.04 6,656.90 7,475.00 6,993.98 16.27 19.32 141.16 -18.89 57.17 6.937 607.88 129.85 490.67 Pass-Major Risk 8,375.00 6,655.99 7,500.00 7,011.94 16.44 19.56 139.27 -12.40 41.03 6.937 612.24 131.06 494.90 Pass-Major Risk 8,379.04 6,655.62 7,525.00 7,029.97 16.50 19.81 137.39 -5.97 24.95 6.937 617.46 131.88 500.81 Pass-Major Risk 8,387.00 6,654.79 7,550.00 7,048.08 16.61 20.06 135.52 0.39 8.93 6.937 623.59 132.90 50731 Pass-Major Risk 8,393.12 6,654.09 7,575.00 7,066.26 16.70 20.30 134.52 8.88 -7.03 6.937 630.59 134.44 514.67 Pass-Major Risk 8,400.00 6,653.32 7,600.00 7,084.52 18.79 20.55 133.67 12.91 -22.93 6.937 . 638.46 136.08 52329 Pass-Major Risk 8,406.57 6,652.57 7,625.00 7,102.85 16.89 20.80 132.83 19.07 -38.78 8.937 647.16 137.68 532.65 Pass-Major Risk 8,413.39 6,851.80 7,650.00 7,121.25 16.99 21.04 132.09 25.16 -54.57 6.937 656.65 139.30 542.84 Pass-Major Risk 8,425.00 6,650.49 7,675.00 7,139.75 17.16 21.28 132.05 31.16 -70.28 6.937 666.96 141.56 553.50 Pass-Major Risk 8,425.00 6,650.49 7,700.00 7,158.40 17.16 21.52 130.52 36.98 -85.88 6.937 678.08 142.20 566.03 Pass-Major Risk 8,434.11 6,649.47 7,725.00 7,177.21 17.30 21.76 130.28 42.61 -101.35 6.937 690.03 144.09 578.62 Pass-Major Risk 8,441.05 8,648.69 7,750.00 7,196.18 17.40 22.00 129.81 48.05 -116.70 6.937 702.77 145.67 592.20 Pass-Major Risk 8,450.00 6,647.68 7,775.00 7,215.31 17.54 22.24 129.68 53.30 -131.92 6.937 716.26 147.49 606.39 Pass-Major Risk 8,450.00 6,647.68 7,800.00 7,234.55 17.54 22.47 128.42 58.42 -147.03 6.937 730.41 148.13 821.91 Pass-Major Risk 8,461.94 6,646.35 7,825.00 7,253.80 17.72 22.71 128.82 63.62 -162.11 6.937 744.90 150.31 836.90 Pass-Major Risk 8,489.02 6,645.56 7,850.00 7,273.02 17.83 22.94 128.61 88.94 -177.18 6.937 759.76 151.84 652.63 Pass-Major Risk 8,475.00 6,644.89 7,875.00 7,292.23 17.92 23.18 128.31 74.38 -192.23 6.937 774.94 153.21 668.74 Pass-Major Risk 8,483.38 6,643.96 7,900.00 7,311.43 18.06 23.42 128.38 79.92 -207.26 6.937 790.43 154.86 685.01 Pass-Major Risk 8,490.66 6,643.16 7,925.00 7,330.60 18.17 23.65 128.34 85.58 -222.27 6.937 806.20 156.36 701.62 Pass-Major Risk 8,500.00 6,642.13 7,950.00 7,349.75 18.32 23.89 128.63 91.36 -237.26 6.937 822.23 158.05 71839 Pass-Major Risk 8,500.00 6,642.13 7,975.00 7,368.89 18.32 24.13 127.71 97.24 -252.24 6.937 838.54 158.71 735.78 Pass-Major Risk 8,512.93 6,640.71 8,000.00 7,388.01 18.53 24.37 128.57 103.17 -26721 6.937 855.08 160.76 752.70 Pass-Major Risk 8,525.00 6,639.40 8,025.00 7,407.13 18.72 24.61 129.36 109.06 -282.20 6.937 871.95 162.66 770.03 Pass-Major Risk 8,525.00 6,639.40 8,050.00 7,426.26 18.72 24.86 128.58 114.89 -297.21 6.937 889.09 16333 788.11 Pass-Major Risk 8,535.83 6,638.23 8,075.00 7,445.38 18.90 25.10 129.30 120.68 -312.23 6.937 906.51 185.04 805.98 Pass-Major Risk 8,543.59 6,637.40 8,100.00 7,464.50 19.02 25.34 129.64 126.42 -327.28 6.937 924.19 166.42 824.21 Pass-Major Risk 8,550.00 8,636.71 8,125.00 7,483.63 19.13 25.59 129.85 132.11 -342.34 6.937 942.11 167.66 842.70 Pass-Major Risk 8,559.25 6,635.73 8,150.00 7,502.75 19.28 25.83 130.47 137.75 -357.42 6.937 960.25 169.10 86127 Pass-Major Risk 8,567.15 6,634.90 8,175.00 7,521.87 19.41 26.07 130.96 143.35 -372.52 6.937 978.61 170.40 880.08 Pass-Major Risk 8,575.00 6,634.07 8,200.00 7,541.01 19.53 26.31 131.46 149.00 -387.59 6.937 997.13 171.65 899.04 Pass-Major Risk 8,712.26 6,632.94 8,225.00 7,560.16 21.79 26.55 137.38 154.71 -402.61 6.937 1,013.80 180.02 913.60 Pass-Major Risk 8,725.00 6,633.90 8,250.00 7,579.32 22.00 26.80 138.44 160.50 -417.58 6.937 1,030.63 181.17 930.57 Pass-Major Risk 8,731.00 6,634.35 8,275.00 7,598.50 22.10 27.04 138.79 166.36 -432.51 6.937 1,047.59 182.03 947.77 Pass-Major Risk 8,740.32 6,635.05 8,300.00 7,617.89 22.25 27.28 139.52 172.30 -447.39 6.937 1,064.70 182.94 965.05 Pass-Major Risk 8,750.00 6,635.77 8,325.00 7,636.90 22.41 27.52 140.32 178.30 -462.23 6.937 1,081.95 183.81 982.46 Pass-Major Risk 8,757.00 6,636.29 8,350.00 7,656.12 22.52 27.76 140.84 184.38 -477.01 6.937 1,099.34 184.57 1,000.00 Pass-Major Risk 8,768.19 6,637.13 8,375.00 7,675.35 22.70 28.00 141.85 190.54 -491.75 6.937 1,116.84 185.33 1,017.62 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 27 COMPASS 5000.1 Build 61 BP Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-37-S-37-S-37 Offset Site Error: 0.00 usft Survey Program: 372-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth ore-S *EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 7,070.00 6,681.78 5250.00 5,859.85 6.68 324 101.94 -591.61 1253.22 5.937 1,115.41 82.53 1,061.43 Pass-Major Risk 7,074.60 6,681.83 5,975.00 5,683.64 6.73 3.33 101.42 -594.02 1,360.52 5.937 1,102.08 62.68 1247.71 Pass-Major Risk 7,075.54 6,681.85 6,000.00 5,907.35 6.74 3.42 102.18 -596.51 1268.04 5.937 1,089.37 62.87 1,034.52 Pass-Major Risk 7,080.00 6,681.90 6,025.00 5,930.98 6.79 3.51 101.75 -599.07 1275.78 5.937 1,077.30 62.99 1,022.01 Pass-Major Risk 7,080.00 6,681.90 6,050.00 5,954.54 6.79 3.61 102.91 -601.68 1,383.74 5.937 1,065.80 63.20 1,010.00 Pass-Major Risk 7,080.00 6,681.90 6,075.00 5,978.00 6.79 3.72 104.09 -60429 1,391.97 5.937 1,054.95 63.42 998.62 Pass-Major Risk 7,080.00 6,681.90 6,100.00 6,001.37 6.79 3.83 105.29 -606.89 1,400.45 5.937 1,044.74 63.64 987.87 Pass-Major Risk 7,080.00 6,681.90 6,125.00 6,024.65 6.79 3.94 106.52 -609.49 1,409.19 5.937 1,035.21 63.87 977.79 Pass-Major Risk 7,080.00 6,681.90 6,150.00 6,047.85 6.79 4.06 107.77 -612.11 1,418.13 5.937 1,026.34 64.10 968.37 Pass-Major Risk 7,080.00 6,681.90 6,175.00 8,071.02 6.79 4.18 109.05 -614.80 1,427.13 5.937 1,018.12 84.33 959.58 Pass-Major Risk 7,080.00 6,681.90 6,200.00 8,094.15 679 4.30 110.35 -617.59 1,436.19 5.937 1,010.55 64.57 951.44 Pass-Major Risk 7,084.58 6,681.95 6,225.00 6,117.25 6.84 4.43 110.09 -620.45 1,445.32 5.937 1,003.59 64.64 944.03 Pass-Major Risk 7,085.57 6,881.96 6,250.00 6,140.31 6.85 4.56 111.09 -623.35 1,454.53 5.937 997.33 64.83 937.23 Pass-Major Risk 7,090.00 6,682.01 6,275.00 6,163.32 6.90 4.69 110.91 -626.28 1,463.88 5.937 991.78 64.86 93128 Pass-Major Risk 7,090.00 6,682.01 6,300.00 6,186.29 6.90 4.82 112.29 -629.16 1,473.29 5.937 986.84 65.09 925.78 Pass-Major Risk 7,090.00 6,682.01 6,325.00 6,209.21 6.90 4.96 113.68 -632.07 1,482.84 5.937 982.60 65.32 920.98 Pass-Major Risk 7,090.00 6,682.01 6,350.00 6,232.08 6.90 5.10 115.08 -635.00 1,492.50 5.937 979.09 65.55 916.91 Pass-Major Risk 7,090.00 6,682.01 8,375.00 6,254.89 6.90 5.25 116.49 -637.97 1,502.28 5.937 976.32 65.79 913.59 Pass-Major Risk 7,090.00 6,882.01 6,400.00 6,277.65 6.90 5.40 117.91 -640.96 1,512.19 5.937 974.29 66.05 911.01 Pass-Major Risk 7,090.00 6,682.01 6,425.00 6,300.35 6.90 5.55 119.33 -643.98 1,52222 5.937 973.02 66.29 90920 Pass-Major Risk 7,090.00 6,682.01 6,450.00 6,322.97 6.90 5.70 120.75 -646.93 1,532.46 5.937 972.49 68.56 908.13 Pass-Major Risk,CC 7,094.45 6,682.06 6,475.00 6,345.50 6.95 5.86 120.63 -649.79 1,542.90 5.937 972.63 66.57 907.96 Pass-Major Risk,ES,SF 7,095.47 6,682.08 6,500.00 6,367.94 6.96 6.01 121.70 -652.56 1,553.56 5.937 973.53 66.75 908.44 Pass-Major Risk 7,100.00 6,682.13 6,525.00 6,390.30 7.01 6.17 121.54 -655.23 1,584.44 5.937 975.19 66.64 909.95 Pass-Major Risk 7,100.00 6,682.13 6,550.00 6,412.55 7.01 6.33 122.94 -657.66 1,575.56 5.937 977.44 66.91 911.71 Pass-Major Risk 7,100.00 6,882.13 6,575.00 6,434.71 7.01 6.49 124.32 -659.86 1,586.93 5.937 980.31 87.17 914.13 Pass-Major Risk 7,100.00 6,682.13 6,600.00 6,456.76 7.01 6.65 125.70 -661.80 1,598.55 5.937 983.81 67.43 917.19 Pass-Major Risk 7,100.00 6,682.13 6,625.00 6,478.72 7.01 6.82 127.05 -663.57 1,610.36 5.937 987.96 67.73 920.88 Pass-Major Risk 7,100.00 6,682.13 6,650.00 6,500.64 7.01 7.00 128.39 -665.36 1,622.24 5.937 992.78 68.04 925.25 Pass-Major Risk 7,100.00 6,882.13 6,675.00 6,522.53 7.01 7.18 129.72 -667.17 1,834.19 5.937 998.27 68.35 930.30 Pass-Major Risk 7,104.39 6,682.18 6,700.00 6,544.37 7.05 7.35 129.51 -669.00 1,646.21 5.937 1,004.35 88.22 936.40 Pass-Major Risk 7,105.50 6,682.19 6,725.00 6,566.18 7.06 7.54 130.42 -670.84 1,658.30 5.937 1,011.10 68.43 942.85 Pass-Major Risk 7,110.00 6,682.24 6,750.00 6,587.95 7.11 7.73 130.14 -672.67 1,670.46 5.937 1,018.49 68.26 950.33 Pass-Major Risk 7,110.00 6,682.24 6,775.00 6,609.67 7.11 7.93 131.39 -674.48 1,682.69 5.937 1,026.42 68.57 957.90 Pass-Major Risk 7,110.00 6,682.24 6,800.00 6,831.36 7.11 8.12 132.63 -676.28 1,694.99 5.937 1,034.93 68.87 966.07 Pass-Major Risk 7,110.00 6,68224 6,825.00 6,653.02 7.11 8.31 133.84 -678.10 1,707.34 5.937 1,044.01 69.19 974.82 Pass-Major Risk 7,110.00 6,662.24 6,850.00 6,674.67 7.11 8.50 135.02 -679.94 1,719.72 5.937 1,053.84 69.50 984.14 Pass-Major Risk 7,110.00 6,662.24 6,875.00 6,696.30 7.11 8.69 136.19 -681.80 1,732.11 5.937 1,063.81 69.81 994.01 Pass-Major Risk 7,110.00 6,682.24 6,900.00 6,717.90 7.11 8.89 137.33 -683.69 1,744.55 5.937 1,074.50 70.12 1,004.42 Pass-Major Risk 7,110.00 6,682.24 6,925.00 6,739.44 7.11 9.09 138.44 -685.53 1,757.12 5.937 1,085.72 70.45 1,015.36 Pass-Major Risk 7,114.95 6,682.30 6,950.00 6,760.87 7.16 9.28 137.81 -687.29 1,769.87 5.937 1,097.38 70.10 1,027.42 Pass-Major Risk 7,120.00 6,682.35 6,975.00 6,782.20 7.21 9.48 137.12 -688.98 1,782.80 5.937 1,109.65 69.70 1,040.16 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 28 COMPASS 5000.1 Build 61 • • BP 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-37-S-37A-S-37A Offset Site Error: 0.00 usft Survey Program: 372-MWD,9141-MWD,9255-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N/-S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (Usk) F) (usft) (usft( (in) (usft) (usft) (usft( 7,070.00 6,681.78 5,950.00 5,859.85 6.68 3.31 101.94 -591.61 1,353.22 5.937 1,115.41 62.72 1,061.31 Pass-Major Risk 7,074.60 6,681.83 5,975.00 5,883.64 6.73 3.40 101.42 -594.02 1,360.52 5.937 1,102.08 62.88 1,047.58 Pass-Major Risk 7,075.54 6,681.85 6,000.00 5,907.35 6 74 3.49 102.18 -596.51 1,368.04 5.937 1,089.37 63.07 1,034.40 Pass-Major Risk 7,080.00 6,681.90 6,025.00 5,930.98 6 79 3.59 101.75 -599.07 1,375.78 5.937 1,077.30 63.19 1,021.88 Pass-Major Risk 7,080.00 6,681.90 6,050.00 5,954.54 6.79 3.70 102.91 -601.68 1,383.74 5.937 1,065.80 63.41 1,009.87 Pass-Major Risk 7,080.00 6,681.90 6,075.00 5,978.00 679 3.81 104.09 -604.29 1,391.97 5.937 1,054.95 63.64 998.47 Pass-Major Risk 7,080.00 6,681.90 6,100.00 6,001.37 6.79 3.92 105.29 -606.89 1,400.45 5.937 1,044.74 63.86 987.72 Pass-Major Risk 7,080.00 6,681.90 6,125.00 6,024.65 6.79 4.04 106.52 -609.49 1,409.19 5.937 1,035.21 64.10 977.63 Pass-Major Risk 7,080.00 6,681.90 6,150.00 6,047.85 6.79 4.18 107.77 -612.11 1,418.13 5.937 1,026.34 64.34 968.20 Pass-Major Risk 7,080.00 6,681.90 6,175.00 6,071.02 6.79 4.28 109.05 -614.80 1,427.13 5.937 1,018.12 64.58 959.40 Pass-Major Risk 7,080.00 8,681.90 6,200.00 6,094.15 6.79 4.41 110.35 -617.59 1,438.19 5.937 1,010.55 64.83 951.25 Pass-Major Risk 7,084.58 6,681.95 6,225.00 6,117.25 6.84 4.54 110.09 -620.45 1,445.32 5.937 1,003.59 64.90 943.83 Pass-Major Risk 7,085.57 6,881.96 6,250.00 6,140.31 6.85 4.68 111.09 -623.35 1,454.53 5.937 997.33 65.09 937.03 Pass-Major Risk 7,090.00 6,682.01 6,275.00 6,163.32 6.90 4.81 110.91 -62626 1,463.86 5.937 991.78 65.12 931.07 Pass-Major Risk 7,090.00 8,682.01 6,300.00 6,186.29 6.90 4.95 112.29 -629.18 1,473.29 5.937 986.84 65.36 925.56 Pass-Major Risk 7,090.00 6,682.01 6,325.00 6,209.21 6.90 5.09 113.68 -632.07 1,482.84 5.937 982.80 65.60 920.75 Pass-Major Risk 7,090.00 6,682.01 6,350.00 6,232.08 6.90 5.24 115.08 -635.00 1,492.50 5.937 979.09 85.83 916.88 Pass-Major Risk 7,090.00 6,682.01 8,375.00 6,254.89 6.90 5.40 116.49 -637.97 1,502.28 5.937 976.32 66.08 913.34 Pass-Major Risk 7,090.00 8,682.01 8,400.00 6,277.85 6.90 5.55 117.91 -640.96 1,512.19 5.937 974.29 68.35 910.74 Pass-Major Risk 7,090.00 8,682.01 6,425.00 6,300.35 6.90 5.70 119.33 -643.98 1,522.22 5.937 973.02 66.61 908.92 Pass-Major Risk 7,090.00 6,682.01 6,450.00 6,322.97 8.90 5.86 120.75 -646.93 1,532.46 5.937 972.49 66.91 907.81 Pass-Major Risk,CC 7,094.45 8,682.06 6,475.00 6,345.50 6.95 8.02 120.63 -649.79 1,542.90 5.937 972.63 66.92 907.65 Pass-Major Risk,ES,SF 7,095.47 8,682.08 6,500.00 6,367.94 8.96 6.18 121.70 -652.56 1,553.56 5.937 973.53 67.08 908.13 Pass-Major Risk 7,100.00 6,682.13 6,525.00 6,390.30 7.01 6.35 121.54 -655.23 1,564.44 5.937 975.19 66.95 909.66 Pass-Major Risk 7,100.00 6,882.13 6,550.00 6,412.55 7.01 6.51 122.94 -657.68 1,575.56 5.937 977.44 67.23 911.40 Pass-Major Risk 7,100.00 6,682.13 6,575.00 6,434.71 7.01 6.68 124.32 658.86 1,586.93 5.937 980.31 67.51 913.81 Pass-Major Risk 7,100.00 6,682.13 6,600.00 6,456.76 7.01 6.84 125.70 -661.80 1,598.55 5.937 983.81 67.78 916.86 Pass-Major Risk 7,100.00 6,682.13 6,625.00 6,478.72 7.01 7.02 127.05 -663.57 1,610.36 5.937 987.96 68.09 920.53 Pass-Major Risk 7,100.00 6,682.13 6,650.00 6,500.64 7.01 7.21 128.39 -665.36 1,622.24 5.937 992.78 68.41 924.89 Pass-Major Risk 7,100.00 6,682.13 6,675.00 6,522.53 7.01 7.39 129.72 -667.17 1,634.19 5.937 998.27 68.73 929.94 Pass-Major Risk 7,104.39 6,682.18 6,700.00 8,544.37 7.05 7.57 129.51 -669.00 1,646.21 5.937 1,004.35 68.59 936.03 Pass-Major Risk 7,105.50 8,682.19 6,725.00 6,566.18 7.08 7.77 130.42 -670.84 1,658.30 5.937 1,011.10 68.81 942.47 Pass-Major Risk 7,110.00 6,682.24 6,750.00 6,587.95 7.11 7.97 130.14 -672.67 1,670.46 5.937 1,018.49 68.64 949.96 Pass-Major Risk 7,110.00 6,682.24 6,775.00 6,609.87 7.11 8.17 131.39 -674.48 1,682.69 5.937 1,028.42 68.95 957.52 Pass-Major Risk 7,110.00 6,882.24 6,800.00 6,631.36 7.11 8.36 132.63 -676.28 1,694.99 5.937 1,034.93 69.27 965.68 Pass-Major Risk 7,110.00 6,682.24 6,825.00 6,653.02 7.11 8.56 133.84 -678.10 1,707.34 5.937 1,044.01 69.59 974.41 Pass-Major Risk 7,110.00 6,682.24 6,850.00 6,674.67 7.11 8.76 135.02 -679.94 1,719.72 5.937 1,053.64 69.92 983.72 Pass-Major Risk 7,110.00 6,682.24 6,875.00 6,696.30 7.11 8.96 136.19 -681.80 1,732.11 5.937 1,063.81 70.24 993.58 Pass-Major Risk 7,110.00 6,682.24 6,900.00 6,717.90 7.11 9.16 137.33 -683.69 1,744.55 5.937 1,074.50 70.56 1,003.98 Pass-Major Risk 7,110.00 6,882.24 6,925.00 6,739.44 7.11 9.37 138.44 -685.53 1,757.12 5.937 1,085.72 70.90 1,014.91 Pass-Major Risk 7,114.95 6,682.30 6,950.00 6,760.87 7.16 9.57 137.81 -687.29 1,769.87 5.937 1,097.38 70.54 1,026.98 Pass-Major Risk 7,120.00 6,682.35 6,975.00 6,782.20 7.21 9.78 137.12 -688.96 1,782.80 5.937 1,109.65 70.13 1,039.73 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor.ES-min ellipse separation 12/15/2015 2:12:26AM Page 29 COMPASS 5000.1 Build 61 • 0 BP ; a Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PBS Pad- S-37-S-37APB1-S-37APB1 Offset Site Error: 0.00 usfl Survey Program: 372-MWD,9141-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N/-S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 7,070.00 6,681.78 5,950.00 5,859.85 8.68 3.31 101.94 -591.61 1,353.22 5.937 1,115.41 62.73 1,061.30 Pass-Major Risk 7,074.60 6,681.83 5,975.00 5,883.84 6.73 3.40 101.42 -594.02 1,360.52 5.937 1,102.08 62.89 1,047.58 Pass-Major Risk 7,075.54 6,681.85 6,000.00 5,907.35 6.74 3.50 102.18 -596.51 1,368.04 5.937 1,089.37 63.08 1,034.40 Pass-Major Risk 7,080.00 6,681.90 6,025.00 5,930.98 6.79 3.59 101.75 -599.07 1,375.78 5.937 1,077.30 63.20 1,021.88 Pass-Major Risk 7,080.00 6,681.90 6,050.00 5,954.54 6.79 3.70 102.91 -601.88 1,383.74 5.937 1,065.80 83.42 1,009.86 Pass-Major Risk 7,080.00 6,681.90 6,075.00 5,978.00 6.79 3.81 104.09 -804.29 1,391.97 5.937 1,054.95 63.65 998.47 Pass-Major Risk 7,080.00 6,681.90 6,100.00 8,001.37 6.79 3.92 105.29 -606.89 1,400.45 5.937 1,044.74 63.88 987.71 Pass-Major Risk 7,080.00 6,681.90 6,125.00 6,024.65 6.79 4.04 106.52 -609.49 1,409.19 5.937 1,035.21 64.11 977.62 Pass-Major Risk 7,080.00 6,681.90 6,150.00 6,047.85 6.79 4.16 107.77 -612.11 1,418.13 5.937 1,026.34 84.35 968.19 Pass-Major Risk 7,080.00 6,681.90 6,175.00 6,071.02 6.79 4.29 109.05 -614.80 1,427.13 5.937 1,018.12 64.59 959.39 Pass-Major Risk 7,080.00 6,681.90 6,200.00 6,094.15 6.79 4.42 110.35 -617.59 1,436.19 5.937 1,010.55 64.84 95124 Pass-Major Risk 7,084.58 6,681.95 6,225.00 6,117.25 6.84 4.55 110.09 -620.45 1,445.32 5.937 1,003.59 64.91 943.82 Pass-Major Risk 7,085.57 6,681.96 6,250.00 6,140.31 6.85 4.68 111.09 -623.35 1,454.53 5.937 997.33 65.10 937.02 Pass-Major Risk 7,090.00 6,682.01 6,275.00 6,163.32 6.90 4.82 110.91 -826.26 1,463.86 5.937 991.78 65.13 931.06 Pass-Major Risk 7,090.00 6,682.01 6,300.00 6,186.29 6.90 4.96 11229 -629.16 1,473.29 5.937 986.84 85.37 925.55 Pass-Major Risk 7,090.00 6,682.01 6,325.00 6,209.21 6.90 5.10 113.68 -832.07 1,482.84 5.937 982.60 65.61 920.74 Pass-Major Risk 7,090.00 6,682.01 6,350.00 6,232.08 6.90 5.25 115.08 -635.00 1,492.50 5.937 979.09 65.84 916.66 Pass-Major Risk 7,090.00 8,682.01 6,375.00 6,254.89 6.90 5.40 116.49 -637.97 1,502.28 5.937 976.32 66.10 913.33 Pass-Major Risk 7,090.00 6,682.01 6,400.00 6,277.65 6.90 5.55 117.91 -640.96 1,512.19 5.937 97429 66.36 910.73 Pass-Major Risk 7,090.00 6,682.01 6,425.00 6,300.35 6.90 5.71 119.33 -643.98 1,522.22 5.937 973.02 66.63 908.90 Pass-Major Risk 7,090.00 6,682.01 6,450.00 6,322.97 6.90 5.87 120.75 -646.93 1,532.46 5.937 972.49 66.92 907.80 Pass-Major Risk,CC 7,094.45 6,682.06 6,475.00 8,345.50 6.95 6.03 120.63 -649.79 1,542.90 5.937 972.63 66.93 907.63 Pass-Major Risk,ES,SF 7,095.47 6,682.08 6,500.00 6,367.94 6.96 6.19 121.70 -652.56 1,553.56 5.937 973.53 67.09 908.12 Pass-Major Risk 7,100.00 6,682.13 6,525.00 8,390.30 7.01 6.36 121.4 4-655.23 1,564.44 5.937 975.19 66.97 909.64 Pass-Major Risk 7,100.00 6,682.13 6,550.00 6,412.55 7.01 6.52 122.4 ' -657 66 1,575.56 5.937 977.44 67.25 911.39 Pass-Major Risk 7,100.00 6,682.13 6,575.00 6,434.71 7.01 6.69 124. '.;,-659.86 1,586.93 5.937 980.31 67.52 91379 Pass-Major Risk 7,100.00 6,682.13 6,600.00 6,456.76 7.01 6.85 125.70 -661.80 1,598.55 5.937 983.81 67.80 916.84 Pass-Major Risk 7,100.00 6,682.13 6,625.00 6,478.72 7.01 7.03 127.05 -663.57 1,610.36 5.937 987.96 68.10 920.52 Pass-Major Risk 7,100.00 6,682.13 8,650.00 6,500.64 7.01 722 128.39 -665.36 1,622.24 5.937 992.78 68.42 924.87 Pass-Major Risk 7,100.00 6,682.13 6,675.00 6,522.53 7.01 7.40 129.72 -687.17 1,634.19 5.937 998.27 68.74 929.92 Pass-Major Risk 7,104.39 6,682.18 6,700.00 6,544.37 7.05 7.58 129.51 -669.00 1,646.21 5.937 1,004.35 88.61. 936.01 Pass-Major Risk 7,105.50 6,682.19 6,725.00 6,566.18 7.06 7.78 130.42 -670.84 1,658.30 5.937 1,011.10 68.83 942.46 Pass-Major Risk 7,110.00 6,682.24 6,750.00 8,587.95 7.11 7.98 130.14 -672.67 1,670.46 5.937 1,018.49 68.65 949.95 Pass-Major Risk 7,110.00 6,68224 6,775.00 6,609.67 7.11 8.18 131.39 -674.48 1,682.69 5.937 1,026.42 68.97 957.50 Pass-Major Risk 7,110.00 6,682.24 6,800.00 6,631.36 7.11 8.38 132.63 -676.28 1,694.99 5.937 1,034.93 69.29 965.66 Pass-Major Risk 7,110.00 6,68224 6,825.00 6,653.02 7.11 8.58 133.84 -678.10 1,707.34 5.937 1,044.01 69.61 974.39 Pass-Major Risk 7,110.00 6,882.24 6,850.00 6,674.67 7.11 8.77 135.02 -679.94 1,719.72 5.937 1,053.64 69.94 983.70 Pass-Major Risk 7,110.00 6,882.24 6,875.00 8,696.30 7.11 8.97 136.19 -681.80 1,732.11 5.937 1,083.81 70.26 993.56 Pass-Major Risk 7,110.00 6,68224 6,900.00 6,717.90 7.11 9.18 137.33 -683.69 1,744.55 5.937 1,074.50 70.58 1,003.96 Pass-Major Risk 7,110.00 6,682.24 6,925.00 6,739.44 7.11 9.38 138.44 -685.53 1,757.12 5.937 1,085.72 70.92 1,014.89 Pass-Major Risk 7,114.95 6,682.30 6,950.00 6,760.87 7.18 9.58 137.81 -687.29 1,769.87 5.937 1,097.38 70.56 1,026.96 Pass-Major Risk 7,120.00 6,682.35 6,975.00 6,782.20 721 9.79 137.12 -688.96 1,782.80 5.937 1,109.65 70.15 1,039.71 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 30 COMPASS 5000.1 Build 61 BP Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-38-S-38-S-38 Offset Site Error: 0 00 usft Survey Program: 234-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +NtS +EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 7,096.15 6,682.08 6,150.00 5,972.83 6.97 8.17 73.87 -176.20 1,169.59 6.937 773.95 76.07 721.00 Pass-Major Risk 7,100.00 6,882.13 6,175.00 5,995.03 7.01 8.29 72.97 -166.43 1,175.64 6.937 752.33 76.51 698.97 Pass-Major Risk 7,103.96 8,682.17 6,200.00 6,017.32 7.05 8.41 72.08 -156.82 1,181.65 6.937 730.84 76.93 677.04 Pass-Major Risk 7,110.00 6,682.24 6,225.00 6,039.88 7.11 8.53 70.52 -147.38 1,187.63 6.937 709.48 77.34 655.19 Pass-Major Risk 7,110.00 6,682.24 6,250.00 6,062.12 7.11 8.65 71.13 -138.10 1,193.57 6.937 688.26 77.89 633.52 Pass-Major Risk 7,115.65 6,682.30 6,275.00 6,084.64 7.17 8.77 89.84 -128.99 1,199.47 6.937 667.20 78.06 611.90 Pass-Major Risk 7,120.00 6,682.35 8,300.00 6,107.24 7.21 8.89 69.09 -120.05 1,205.34 6.937 646.33 78.39 590.40 Pass-Major Risk 7,123.36 6,682.39 6,325.00 6,129.91 7.24 9.01 68.75 -111.28 1,211.18 6.937 625.67 78.71 569.05 Pass-Major Risk 7,130.00 6,682.46 6,350.00 8,152.88 7.30 9.13 67.35 -102.66 1,216.95 6.937 605.25 78.94 547.91 Pass-Major Risk 7,130.00 6,682.48 6,375.00 6,175.41 7.30 9.24 68.36 -94.08 1,222.76 6.937 585.11 79.29 526.98 Pass-Major Risk 7,134.82 6,682.51 6,400.00 6,198.13 7.34 9.36 67.78 -85.48 1,228.64 6.937 565.33 79.50 506.37 Pass-Major Risk 7,140.00 6,682.57 6,425.00 6,220.84 7.39 9.48 67.19 -76.85 1234.57 6.937 545.95 79.67 486.12 Pass-Major Risk 7,140.00 6,682.57 6,450.00 6,243.52 7.39 9.59 68.49 -68.20 1,240.55 8.937 527.01 80.01 466.21 Pass-Major Risk 7,146.49 6,682.63 6,475.00 6,266.17 7.44 9.71 67.68 -59.53 1,246.60 6.937 508.52 80.07 446.76 Pass-Major Risk 7,150.00 6,682.67 6,500.00 6,288.80 7.47 9.82 68.03 -50.83 1,252.70 6.937 490.59 80.23 427.78 Pass-Major Risk 7,154.32 6,682.71 6,525.00 6,311.41 7.51 9.94 68.24 -42.11 1,258.86 6.937 473.25 80.32 409.32 Pass-Major Risk 7,160.00 6,682.77 6,550.00 6,334.00 7.55 10.05 68.13 -33.39 1,265.06 6.937 456.57 80.28 391.54 Pass-Major Risk 7,160.00 6,682.77 6,575.00 6,356.63 7.55 10.17 70.16 -24.73 1,271.22 6.937 440.54 80.62 374.16 Pass-Major Risk 7,165.86 6,682.82 6,600.00 6,379.30 7.59 10.28 70.34 -16.16 1,277.34 6.937 425.24 80.51 357.67 Pass-Major Risk 7,170.00 6,682.86 6,625.00 6,402.02 7.62 10.40 71.30 -7.68 1,283.43 6.937 410.78 80.50 341.92 Pass-Major Risk 7,17325 6,682.89 8,650.00 6,424.78 7.64 10.52 72.77 0.73 1,289.46 6.937 397.23 80.54 327.02 Pass-Major Risk 7,180.00 6,682.95 8,675.00 6,447.58 7.69 10.63 73.22 9.04 1,295.46 6.937 384.74 80.20 313.41 Pass-Major Risk 7,180.00 6,682.95 6,700.00 6,470.42 7.69 10.75 7623 17.28 1,301.41 6.937 373.30 80.53 300.38 Pass-Major Risk 7,183.79 6,682.98 6,725.00 6,493.30 7.71 10.86 78.12 25.43 1,307.32 8.937 363.13 80.45 288.94 Pass-Major Risk 7,190.00 6,683.04 8,750.00 6,516.23 7.75 10.95 79.38 33.52 1,313.17 6.937 354.32 79.98 279.24 Pass-Major Risk 7,190.00 6,683.04 6,775.00 6,539.18 7.75 11.04 82.93 41.58 1,318.92 6.937 346.85 80.22 270.39 Pass-Major Risk 7,193.72 6,683.07 6,800.00 6,562.16 7.77 11.12 85.36 49.62 1,324.59 8.937 340.91 79.99 263.58 Pass-Major Risk 7,200.00 6,683.12 6,825.00 6,585.18 7.80 11.21 87.03 57.62 1,330.16 6.937 336.58 79.41 258.88 Pass-Major Risk 7,200.00 6,683.12 6,850.00 6,608.22 7.80 11.29 90.97 65.62 1,335.67 6.937 333.84 79.65 255.19 Pass-Major Risk 7,200.00 6,683.12 6,875.00 8,631.27 7.80 11.38 94.96 73.61 1,341.14 6.937 332.92 79.89 253.48 Pass-Major Risk,CC,ES,SF 7,206.13 6,683.16 6,900.00 6,654.33 7.84 11.47 96.83 81.59 1,346.55 • 6.937 333.65 79.27 254.49 Pass-Major Risk 7,210.00 6,683.19 6,925.00 6,677.41 7.86 11.56 99.46 89.57 1,351.92 6.937 336.16 78.94 257.22 Pass-Major Risk 7,210.00 6,683.19 6,950.00 6,700.50 7.86 11.65 103.34 97.52 1,357.26 6.937 340.41 79.18 261.31 Pass-Major Risk 7,214.89 6,683.23 6,975.00 6,723.80 7.88 11.74 105.42 105.45 1,362.59 6.937 346.30 78.67 267.98 Pass-Major Risk 7,220.00 6,683.26 7,000.00 6,746.72 7.90 11.83 107.28 113.35 1,367.90 6.937 353.82 78.08 276.50 Pass-Major Risk 7,220.00 6,683.26 7,025.00 6,769.85 7.90 11.93 110.74 121.23 1,373.19 6.937 362.78 78.34 285.77 Pass-Major Risk 7,220.00 6,683.26 7,050.00 6,792.98 7.90 12.04 114.03 129.11 1,378.48 6.937 373.21 78.62 296.58 Pass-Major Risk 7,225.79 6,683.30 7,075.00 6,818.11 7.92 12.15 115.10 138.98 1,383.77 6.937 384.84 77.94 309.80 Pass-Major Risk 7,230.00 6,683.32 7,100.00 6,839.24 7.94 12.26 116.53 144.86 1,389.06 6.937 397.70 77.49 323.86 Pass-Major Risk 7,230.00 6,683.32 7,125.00 6,862.37 7.94 12.37 11922 152.73 1,394.35 6.937 411.60 77.76 338.11 Pass-Major Risk 7,230.00 6,683.32 7,150.00 6,885.50 7.94 12.48 121.73 160.60 1,399.64 6.937 426.52 78.04 353.61 Pass-Major Risk 7,235.91 6,683.36 7,175.00 8,908.63 7.96 12.59 121.99 168.48 1,404.93 6.937 44222 77.25 370.81 Pass-Major Risk 7,240.00 6,683.38 7,200.00 6,931.76 7.97 12.70 122.73 176.35 1,410.22 6.937 458.76 76.76 388.55 Pass-Major Risk 7,240.00 8,883.38 7,225.00 6,954.88 7.97 12.82 124.72 184.25 1,415.50 6.937 475.96 77.06 40627 Pass-Major Risk 7,240.00 6,683.38 7,250.00 6,977.99 7.97 12.95 126.57 192.23 1,420.73 6.937 493.78 77.38 424.59 Pass-Major Risk 7,245.37 6,683.41 7,275.00 7,001.08 7.99 13.07 126.40 200.30 1,425.90 6.937 512.05 76.66 444.06 Pass-Major Risk 7,250.00 6,683.43 7,300.00 7,024.15 8.00 13.20 126.38 208.45 1,431.03 6.937 530.84 76.07 483.87 Pass-Major Risk 7,250.00 6,683.43 7,325.00 7,047.21 8.00 13.32 127.84 216.69 1,436.10 6.937 550.01 76.37 483.40 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 31 COMPASS 5000.1 Build 61 I I BP 14 6 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay ND Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset ND Reference: Offset Datum Offset Design PB S Pad- S-38-S-38-S-38 Offset Site Error: 0.00 usft Survey Program: 234-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth ON/-S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) I°) (usft) (usft) (in) (usft) (usft) (usft) 7,250.00 6,683.43 7,350.00 7,070.24 8.00 13.45 12921 225.01 1,441.12 6.937 569.58 76.67 503.32 Pass-Major Risk 7,254.47 6,683.45 7,375.00 7,093.25 8.01 13.57 128.92 233.41 1,446.10 6.937 589.47 76.08 524.09 Pass-Major Risk 7,260.00 6,683.48 7,400.00 7,116.25 8.03 13.70 128.17 241.85 1,451.07 6.937 609.73 75.28 545.35 Pass-Major Risk 7,260.00 6,683.48 7,425.00 7,139.24 8.03 13.83 129.26 250.33 1,456.04 6.937 630.24 75.58 566.11 Pass-Major Risk 7,260.00 6,683.48 7,450.00 7,182.22 8.03 13.96 130.27 258.83 1,461.00 8.937 651.06 75.88 587.16 Pass-Major Risk 7,280.00 6,683.48 7,475.00 7,185.19 8.03 14.08 131.22 267.37 1,465.96 6.937 672.18 78.18 608.47 Pass-Major Risk 7,265.16 6,683.50 7,500.00 7,208.15 8.04 14.21 130.30 275.94 1,470.92 6.937 693.43 75.51 630.56 Pass-Major Risk 7,270.00 6,683.52 7,525.00 7,231.09 8.05 14.34 129.44 284.54 1,475.88 6.937 714.97 75.00 652.84 Pass-Major Risk 7,270.00 6,883.52 7,550.00 7,254.02 8.05 14.47 130.20 293.17 1,480.84 6.937 736.65 75.31 674.68 Pass-Major Risk 7,270.00 8,683.52 7,575.00 7,278.95 8.05 14.60 130.91 301.83 1,485.80 6.937 758.54 75.64 696.69 Pass-Major Risk 7,270.00 6,683.52 7,600.00 7,299.85 8.05 14.74 131.59 310.52 1,490.78 6.937 780.62 75.98 718.88 Pass-Major Risk 7,274.99 6,883.53 7,625.00 7,322.75 8.05 14.88 130.46 319.23 1,495.78 6.937 802.81 75.46 741.73 Pass-Major Risk 7,280.00 6,683.55 7,650.00 7,345.63 8.08 15.02 129.31 327.96 1,500.80 8.937 825.20 74.92 764.77 Pass-Major Risk 7,280.00 6,683.55 7,675.00 7,368.49 8.06 15.15 129.85 336.72 1,505.84 8.937 847.87 75.25 787.31 Pass-Major Risk 7,280.00 6,683.55 7,700.00 7,391.35 8.06 15.29 130.38 345.51 1,510.90 6.937 870.29 75.57 809.98 Pass-Major Risk 7,280.00 6,683.55 7,725.00 7,414.18 8.08 15.43 130.84 354.32 1,515.97 6.937 893.04 75.89 832.78 Pass-Major Risk 7,283.94 6,683.56 7,750.00 7,437.01 8.06 15.57 129.91 363.15 1,521.07 6.937 915.87 75.53 856.08 Pass-Major Risk 7,285.62 8,883.56 7,775.00 7,459.82 8.06 15.70 12975 371.99 1,526.20 6.937 938.82 75.55 879.25 Pass-Major Risk 7,290.00 6,883.57 7,800.00 7,482.63 8.07 15.84 128.62 380.82 1,531.37 8.937 961.89 75.10 902.82 Pass-Major Risk 7,290.00 8,883.57 7,825.00 7,505.44 8.07 15.98 128.99 389.66 1,536.57 6.937 985.03 75.41 925.98 Pass-Major Risk 7,290.00 6,683.57 7,850.00 7,528.23 8.07 16.11 129.34 398.48 1,541.81 6.937 1,008.27 75.71 94922 Pass-Major Risk 7290.00 8,883.57 7,875.00 7,551.02 8.07 16.25 129.67 407.31 1,547.09 6.937 1,031.80 76.01 972.56 Pass-Major Risk 7,290.00 6,683.57 7,900.00 7,573.80 8.07 16.39 129.99 418.13 1,552.418.937 1,055.02 76.31 995.98 Pass-Major Risk 7,294.93 6,683.58 7,925.00 7,596.57 8.07 16.52 128. °°'""' a 424.95 1,5 .76 8.937 1,078.47 75.75 1,019.96 Pass-Major Risk 7,300.00 6,883.59 7,950.00 7,619.33 8.07 18.68 127 I4r „5 .14 6.937 1,102.05 75.17 1,044.07 Pass-Major Risk ar,,.... CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 32 COMPASS 5000.1 Build 61 I S iH bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PBS Pad- S-42-S-42-S-42 Offset Site Error: 0.00 usft Survey Program: 211-MWD,9345-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N/S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 7,120.00 6,882.35 6,325.00 5,754.24 7.21 21.91 75.41 -333.71 1,441.78 5.625 1,112.61 91.32 1,044.50 Pass-Major Risk 7,120.00 6,682.35 6,350.00 5,777.21 7.21 22.04 76.40 -334.38 1,451.62 5.625 1,097.94 91.60 1,029.01 Pass-Major Risk 7,120.00 6,682.35 6,375.00 5,800.31 7.21 22.17 77.42 -335.09 1,461.15 5.625 1,083.41 91.87 1,013.66 Pass-Major Risk 7,120.00 6,882.35 6,400.00 5,823.54 7.21 22.29 78.47 -335.82 1,470.36 5.625 1,069.03 92.10 998.46 Pass-Major Risk 7,120.00 6,882.35 6,425.00 5,846.91 721 22.40 79.53 -336.57 1,479.21 5.625 1,054.79 92.33 983.38 Pass-Major Risk 7,124.87 6,682.40 6,450.00 5,870.40 7.25 22.51 79.01 -337.35 1,487.73 5.625 1040.64 90.79 969.25 Pass-Major Risk 7,125.66 6,682.41 6,475.00 5,894.02 7.26 22.62 79.79 -338.15 1,495.89 5.625 1,026.67 90.62 954.65 Pass-Major Risk 7,130.00 6,682.46 6,500.00 5,917.77 7.30 22.71 79.42 -338.96 1,503.65 5.625 1,012.85 8909 940.92 Pass-Major Risk 7,130.00 6,682.46 6,525.00 5,941.65 7.30 22.80 80.58 -339.77 1,510.99 5.625 999.10 89.26 926.38 Pass-Major Risk 7,130.00 6,682.46 6,550.00 5,965.67 7.30 22.89 81.77 -340.59 1,517.90 5.625 985.47 89.43 911.96 Pass-Major Risk 7,130.00 6,682.46 6,575.00 5,989.80 7.30 22.97 82.99 -341.41 1,524.38 5.625 971.96 89.58 897.68 Pass-Major Risk 7,130.00 6,682.48 6,600.00 6,014.04 7.30 23.04 84.23 -342.19 1,530.43 5.625 958.60 89.71 883.54 Pass-Major Risk 7,130.00 6,682.48 6,625.00 6,038.39 7.30 23.11 85.49 -342.95 1,538.06 5.825 945.37 89.83 869.54 Pass-Major Risk 7,130.00 6,682.46 6,650.00 6,062.83 7.30 23.17 86.78 -343.66 1,541.27 5.625 932.29 89.95 855.69 Pass-Major Risk 7,130.00 6,882.46 6,675.00 6,087.35 7.30 2323 88.09 -344.33 1,546.08 5.625 919.39 90.06 842.03 Pass-Major Risk 7,130.00 6,682.46 8,700.00 6,111.93 7.30 23.28 89.43 -344.97 1,550.60 5.625 906.77 90.15 828.67 Pass-Major Risk 7,130.00 6,682.46 6,725.00 6,136.56 7.30 23.33 90.81 -345.58 1,554.86 5.625 894.46 90.24 815.61 Pass-Major Risk 7,130.00 6,682.46 6,750.00 6,161.23 7.30 23.38 92.21 -346.15 1,558.85 5.625 882.46 90.33 802.87 Pass-Major Risk 7,130.00 6,682.46 6,775.00 6,185.95 7.30 23.42 93.65 -346.70 1,562.55 5.625 870.80 90.40 790.49 Pass-Major Risk 7,13000 6,682.46 6,800.00 6,210.71 7.30 23.46 95.12 -347.27 1,565.93 5.625 859.47 90.46 778.46 Pass-Major Risk 7,130.00 6,682.46 6,825.00 6,235.52 7.30 23.49 96.62 -347.85 1,568.99 5.625 848.49 90.52 766.79 Pass-Major Risk 7,130.00 6,682.46 6,850.00 6,260.36 7.30 23.53 98.16 -348.46 1,571.72 5.625 837.88 90.58 755.49 Pass-Major Risk 7,134.17 6,682.50 6,875.00 6,285.24 7.34 23.55 98.29 -349.03 1,574.12 5.625 827.56 88.92 745.85 Pass-Major Risk 7,134.38 6,682.51 6,900.00 6,310.15 7.34 23.57 99.1'"`. X349.51 1,5 .19 5.625 817.62 88.86 735.39 Pass-Major Risk 7,134.56 6,682.51 8,925.00 6,335.08 7.34 23.59 101 3'i,..;5 t;, 1-35 .92 5.625 808.03 88.82 72529 Pass-Major Risk 7,134.72 6,682.51 6,950.00 6,360.04 7.34 23.61 102.14-3$.18 t 5 .33 5.625 798.80 88.79 715.58 Pass-Major Risk 7,134.86 6,682.51 6,975.00 6,385.02 7.34 23.62 104.61 -350.40 1,580.45 5.625 790.02 88.74 706.35 Pass-Major Risk 7,134.97 6,682.51 7,000.00 6,410.00 7.34 23.63 106.29 -350.62 1,581.33 5.825 781.74 88.71 697.64 Pass-Major Risk 7,135.06 6,682.51 7,025.00 6,434.99 7.35 23.64 108.02 -350.83 1,581.96 5.625 773.99 88.69 689.48 Pass-Major Risk 7,135.12 6,682.51 7,050.00 6,459.99 7.35 23.64 109.77 -351.03 1,582.36 5.625 766.77 88.68 681.90 Pass-Major Risk 7,135.18 6,682.51 7,075.00 6,484.98 7.35 23.65 111.56 -351.19 1,582.68 5.625 760.24 88.66 675.04 Pass-Major Risk 7,135.24 6,662.52 7,100.00 6,509.98 7.35 23.65 113.38 -351.31 1,582.98 5.625 754.44 88.63 668.96 Pass-Major Risk 7,135.31 6,682.52 7,125.00 6,534.98 7.35 23.65 115.22 -351.39 1,583.27 5.625 749.38 88.61 663.67 Pass-Major Risk 7,135.38 6,682.52 7,150.00 6,559.98 7.35 23.66 117.09 -351.43 1,583.53 5.625 745.10 88.59 65920 Pass-Major Risk 7,135.46 6,682.52 7,175.00 6,584.98 7.35 23.66 118.97 -351.43 1,583.84 5.625 741.65 88.56 655.60 Pass-Major Risk 7,135.56 6,682.52 7,200.00 6,609.97 7.35 23.66 120.86 -351.38 1,584.21 5.625 739.04 88.53 652.92 Pass-Major Risk 7,135.67 6,682.52 7,225.00 8,834.97 7.35 23.67 122.76 -351.28 1,584.63 5.825 737.28 88.49 651.14 Pass-Major Risk 7,135.78 6,682.52 7,250.00 6,659.97 7.35 23.67 124.68 -351.15 1,585.09 5.625 738.39 88.45 850.28 Pass-Major Risk,ES,SF 7,135.90 6,682.52 7,275.00 6,884.96 7.35 23.88 126.56 -351.01 1,585.58 5.625 738.36 88.41 650.34 Pass-Major Risk,CC 7,140.00 6,682.57 7,300.00 6,709.96 7.39 23.68 127.09 -350.87 1,586.09 5.625 737.25 86.71 652.96 Pass-Major Risk 7140.00 6,682.57 7,325.00 6,734.95 7.39 23.68 129.02 -350.73 1,586.62 5.625 738.94 86.72 654.80 Pass-Major Risk 7,140.00 6,682.57 7,350.00 6,759.94 7.39 23.69 130.95 -350.58 1,587.13 5.625 741.45 88.74 657.52 Pass-Major Risk 7,140.00 6,682.57 7,375.00 6,784.94 7.39 23.69 132.86 -350.45 1,587.54 5.625 744.73 86.75 681.04 Pass-Major Risk 7,140.00 8,682.57 7,400.00 6,809.94 7.39 23.70 134.75 -350.32 1,587.93 5.625 748.81 86.76 865.42 Pass-Major Risk 7,140.00 6,682.57 7,425.00 6,834.93 7.39 23.70 136.62 -350.20 1,588.35 5.625 753.71 86.77 670.67 Pass-Major Risk 7,140.00 6,682.57 7,450.00 6,859.93 7.39 23.70 138.46 -350.07 1,588.79 5.625 759.44 86.78 676.77 Pass-Major Risk 7,140.00 6,682.57 7,475.00 6,884.92 7.39 23.71 14028 -349.95 1,58925 5.625 765.95 86.79 683.70 Pass-Major Risk 7,140.00 6,682.57 7,500.00 6,909.92 7.39 23.71 142.06 -349.84 1,589.72 5.625 773.23 86.80 691.43 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 33 COMPASS 5000.1 Build 61 • • BP F1`. Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-42-S-42-S-42 Offset Site Error: 0.00 usft Survey Program: 211-MWD,9345-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Waming Depth Depth Depth Depth Azimuth +N/-S •E/-W Hole Size Centre Distance Deviation (usft) (usff) (usft) (usft) (usft) (usft) I°1 (usft) (usft) (in) (usft) (usft) (usft) 7,140.00 6,682.57 7,525.00 6,934.91 7.39 23.72 143.80 -349.75 1,590.19 5.625 781.25 86.82 699.93 Pass-Major Risk 7,140.00 6,682.57 7,550.00 6,959.91 7.39 23.72 145.51 -349.87 1,590.66 5.625 789.99 86.83 709.17 Pass-Major Risk 7,140,00 6,682.57 7,575.00 6,984.91 7.39 23.73 147.18 -349.60 1,591.14 5.625 799.43 86.84 719.14 Pass-Major Risk 7,140.00 6,682.57 7,600.00 7,009.90 7.39 23.73 148.80 -349.54 1,591.64 5.625 809.54 86.85 729.80 Pass-Major Risk 7,140.00 6,682.57 7,625.00 7,034.90 7.39 23.74 150.39 -349.49 1,592.14 5.625 820.31 86.88 741.13 Pass-Major Risk 7,140.00 6,682.57 7,650.00 7,059.89 7.39 23.74 151.93 -349.45 1,592.86 5.625 831.70 86.88 753.10 Pass-Major Risk 7,140.00 6,682.57 7,675.00 7,084.89 7.39 23.75 153.43 -349.45 1,593.11 5.825 843.65 86.88 765.64 Pass-Major Risk 7,140.00 6,882.57 7,700.00 7,109.88 7.39 23.75 154.90 -349.50 1,593.44 5.625 856.11 86.89 778.70 Pass-Major Risk 7,140.00 6,882.57 7,725.00 7,134.88 7.39 23.75 156.32 -349.60 1,593.65 5.625 869.06 86.89 792.25 Pass-Major Risk 7,140.00 6,682.57 7,750.00 7,159.88 7.39 23.78 157.70 -349.74 1,593.75 5.625 882.47 86.90 806.26 Pass-Major Risk 7,140.00 8,682.57 7,775.00 7,184.88 7.39 23.76 159.04 -349.90 1,593.81 5.625 896.35 86.90 820.76 Pass-Major Risk 7,140.00 6,682.57 7,800.00 7,209.88 7.39 23.76 160.33 -350.05 1,593.85 5.625 910.69 86.90 835.71 Pass-Major Risk 7,140.00 6,682.57 7,825.00 7,234.88 7.39 23.76 161.59 -350.18 1,593.88 5.625 925.48 86.89 851.10 Pass-Major Risk 7,140.00 6,682.57 7,850.00 7,259.88 7.39 23.76 162.81 -350.32 1,593.90 5.825 940.69 86.89 866.91 Pass-Major Risk 7,140.00 6,882.57 7,875.00 7,284.88 7.39 23.76 163.99 -350.46 1,593.92 5.625 956.31 86.89 883.12 Pass-Major Risk 7,140.00 6,682.57 7,900.00 7,309.88 7.39 23.76 165.13 -350.61 1,593.95 5.625 972.33 86.89 899.73 Pass-Major Risk 7,140.00 6,682.57 7,925.00 7,334.88 7.39 23.76 168.23 -350.77 1,593.97 5.625 988.73 86.89 916.71 Pass-Major Risk 7,140.00 6,682.57 7,950.00 7,359.88 7.39 23.76 167.30 -350.94 1,594.01 5.625 1,005.50 86.89 934.03 Pass-Major Risk 7,140.00 6,682.57 7,975.00 7,384.88 7.39 23.76 168.33 -351.12 1,594.05 5.625 1,022.61 86.89 951.69 Pass-Major Risk 7,140.00 6,882.57 8,000.00 7,409.88 7.39 23.76 169.32 -351.31 1,594.11 5.825 1,040.05 86.88 989.67 Pass-Major Risk 7,140.00 6,682.57 8,025.00 7,434.88 7.39 23.76 170.28 -351.51 1,594.19 5.625 1,057.81 86.88 987.96 Pass-Major Risk 7,140.00 6,682.57 8,050.00 7,459.87 7.39 23.77 17121 -351.71 1,594.28 5.625 1,075.88 86.88 1,006.53 Pass-Major Risk 7,140.00 6,682.57 8,075.00 7,484.87 7.39 23.77 172.11 -351.92 1,594.38 5.625 1,094.20 88.88 1,025.37 Pass-Major Risk 7,140.00 6,682.57 8,100.00 7,509.87 7.39 23.77 172.98 -352.13 1,594.50 5.625 1,112.81 86.88 1,044.46 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 34 COMPASS 5000.1 Build 61 0 • BP Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PBS Pad- S-42-S-42PB1-S-42PB1 Offset Site Error: 0.00 usft Survey Program: 211-MVD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth *WS +El-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) 1°I (usft) (usft) (in) (usft) (usft) (usft) 7,120.00 6,682.35 6,325.00 5,754.24 721 21.91 75.41 -333.71 1,441.78 5.625 1,112.81 91.32 1,044.50 Pass-Major Risk 7,120.00 6,682.35 6,350.00 5,777.21 721 22.04 76.40 -334.38 1,451.62 5.625 1,097.94 91.60 1,029.01 Pass-Major Risk 7,120.00 6,682.35 6,375.00 5,800.31 721 22.17 77.42 -335.09 1,461.15 5.625 1,083.41 91.87 1,013.66 Pass-Major Risk 7,120.00 6,682.35 6,400.00 5,823.54 721 22.29 78.47 -335.82 1,470.36 5.625 1,069.03 92.10 998.46 Pass-Major Risk 7,120.00 6,682.35 6,425.00 5,846.91 721 22.40 79.53 -336.57 1,479.21 5.625 1,054.79 92.33 983.38 Pass-Major Risk 7,124.87 6,682.40 6,450.00 5,870.40 7.25 22.51 79.01 -337.35 1,487.73 5.625 1,040.64 90.79 96925 Pass-Major Risk 7,125.66 6,682.41 6,475.00 5,894.02 726 22.62 79.79 -338.15 1,495.89 5.625 1,026.67 90.62 954.65 Pass-Major Risk 7,130.00 6,682.46 6,500.00 5,917.77 7.30 22.71 79.42 -338.96 1,503.65 5.625 1,012.85 89.09 940.92 Pass-Major Risk 7,130.00 6,682.46 6,525.00 5,941.65 7.30 22.80 80.58 -339.77 1,510.99 5.625 999.10 89.26 926.38 Pass-Major Risk 7,130.00 6,682.46 6,550.00 5,965.67 7.30 22.89 81.77 -340.59 1,517.90 5.625 985.47 89.43 911.96 Pass-Major Risk 7,130.00 6,682.46 6,575.00 5,989.80 7.30 22.97 82.99 -341.41 1,524.38 5.625 971.96 89.58 897.68 Pass-Major Risk 7,130.00 6,682.46 6,600.00 6,014.04 7.30 23.04 84.23 -342.19 1,530.43 5.825 958.60 89.71 883.54 Pass-Major Risk 7,130.00 6,682.46 6,625.00 6,038.39 7.30 23.11 85.49 -342.95 1,536.06 5.625 945.37 89.83 869.54 Pass-Major Risk 7,130.00 6,682.46 6,650.00 6,062.83 7.30 23.17 86.78 -343.66 1,541.27 5.625 932.29 89.95 855.69 Pass-Major Risk 7,130.00 6,682.46 6,675.00 6,087.35 7.30 23.23 88.09 -344.33 1,546.08 5.625 919.39 90.06 842.03 Pass-Major Risk 7,130.00 6,682.46 6,700.00 6,111.93 7.30 23.28 89.43 -344.97 1,550.60 5.625 906.77 90.15 828.67 Pass-Major Risk 7,130.00 8,682.46 6,725.00 6,138.56 7.30 23.33 90.81 -345.58 1,554.88 5.625 894.46 90.24 815.61 Pass-Major Risk 7,130.00 6,682.48 6,750.00 6,161.23 7.30 23.38 92.21 -346.15 1,558.85 5.625 882.46 90.33 802.87 Pass-Major Risk 7,130.00 . 6,682.46 6,775.00 6,185.95 7.30 23.42 93.85 -346.70 1,562.55 5.625 870.80 90.40 790.49 Pass-Major Risk 7,130.00 6,682.46 6,800.00 6,210.71 7.30 23.46 95.12 -34727 1,565.93 5.625 859.47 90.46 778.46 Pass-Major Risk 7,130.00 6,682.46 6,825.00 8,235.52 7.30 23.49 96.62 -347.85 1,588.99 5.625 848.49 90.52 766.79 Pass-Major Risk 7,130.00 6,682.46 6,850.00 6,280.38 7.30 23.53 98.16 -348.46 1,571.72 5.625 837.88 90.58 755.49 Pass-Major Risk 7,134.17 6,682.50 6,875.00 6,285.24 7.34 23.55 98.29 -349.03 1,574.12 5.825 827.56 88.92 745.85 Pass-Major Risk 7,134.38 6,682.51 6,900.00 6,310.15 7.34 23.57 99.81 -349.51 1,578.19 5.625 817.62 88.86 735.39 Pass-Major Risk 7,134.56 6,682.51 6,925.00 6,335.08 7.34 23.59 101.37 -349.88 1,577.92 5.625 808.03 88.82 72529 Pass-Major Risk 7,134.72 6,682.51 6,950.00 6,360.04 7.34 23.61 102.1 -350.18 1,579.33 5.625 798.80 88.79 715.58 Pass-Major Risk 7,134.86 6,682.51 6,975.00 6,385.02 7.34 23.62 104.61 -350.40 1,580.45 5.625 790.02 8874 708.35 Pass-Major Risk 7,134.97 6,682.51 7,000.00 6,410.00 7.34 23.63 106.29 -350.62 1,581.33 5.625 781.74 88.71 697.64 Pass-Major Risk 7,135.06 6,682.51 7,025.00 6,434.99 7.35 23.64 108.02 -350.83 1,581.96 5.625 773.99 88.69 689.48 Pass-Major Risk 7,135.12 6,682.51 7,050.00 6,459.99 7.35 23.64 109.77 -351.03 1,582.36 5.625 766.77 88.68 681.90 Pass-Major Risk 7,135.18 6,682.51 7,075.00 6,484.98 7.35 23.65 111.56 -351.19 1,582.68 5.625 760.24 88.66 675.04 Pass-Major Risk 7,135.24 6,682.52 7,100.00 6,509.98 7.35 23.65 113.38 -351.31 1,582.98 5.625 754.44 88.63 868.96 Pass-Major Risk 7,135.31 6,682.52 7,125.00 6,534.98 7.35 23.65 115.22 -351.39 1,583.27 5.625 749.38 88.61 663.87 Pass-Major Risk 7,135.38 6,682.52 7,150.00 6,559.98 7.35 23.66 117.09 -351.43 1,583.53 5.625 745.10 88.59 659.20 Pass-Major Risk 7,135.46 6,682.52 7,175.00 6,584.98 7.35 23.66 118.97 -351.43 1,583.84 5.625 741.65 88.56 655.60 Pass-Major Risk 7,135.56 6,682.52 7,200.00 6,609.97 7.35 23.68 120.86 -351.38 1,584.21 5.625 739.04 88.53 852.92 Pass-Major Risk 7,135.67 6,882.52 7,225.00 6,634.97 7.35 23.67 122.76 -351.28 1,584.63 5.625 73728 88.49 651.14 Pass-Major Risk 7,135.78 6,882.52 7,250.00 6,659.97 7.35 23.67 124.66 -351.15 1,585.09 5.625 736.39 88.45 650.28 Pass-Major Risk,ES,SF 7,135.90 6,682.52 7,275.00 6,684.96 7.35 23.68 126.56 -351.01 1,585.58 5.625 736.36 88.41 650.34 Pass-Major Risk,CC 7,140.00 6,682.57 7,300.00 6,709.96 7.39 23.68 127.09 -350.87 1,586.09 5.625 737.25 86.71 652.98 Pass-Major Risk 7,140.00 6,682.57 7,325.00 6,734.95 7.39 23.88 129.02 -350.73 1,588.62 5.625 738.94 86.72 654.80 Pass-Major Risk 7,140.00 6,682.57 7,350.00 6,759.94 7.39 23.69 130.95 -350.58 1,587.13 5.625 741.45 86.74 857.52 Pass-Major Risk 7,140.00 6,682.57 7,375.00 6,784.94 7.39 23.69 132.86 -350.45 1,587.54 5.625 744.73 86.75 861.04 Pass-Major Risk 7,140.00 6,682.57 7,400.00 6,809.94 7.39 23.70 134.75 -350.32 1,587.93 5.825 748.81 86.76 665.42 Pass-Major Risk 7,140.00 6,682.57 7,425.00 6,834.93 7.39 23.70 136.62 -350.20 1,588.35 5.625 753.71 86.77 670.87 Pass-Major Risk 7,140.00 6,682.57 7,450.00 6,859.93 7.39 23.70 138.46 -350.07 1,588.79 5.625 759.44 86.78 676.77 Pass-Major Risk 7,140.00 6,682.57 7,475.00 6,884.92 7.39 23.71 140.28 -349.95 1,589.25 5.825 785.95 86.79 683.70 Pass-Major Risk 7,140.00 6,682.57 7,500.00 6,909.92 7.39 23.71 142.06 -349.84 1,589.72 5.625 773.23 86.80 691.43 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 35 COMPASS 5000.1 Build 61 • i BP 1.4kI 0 by Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-42-S-42PB1-S-42PB1 Offset Site Error: 0.00 usft Survey Program: 211-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +NIS .EJ-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) 1') (usft) (usft) (in) (usft) (usft) (usft) 7,140.00 6,682.57 7,525.00 6,934.91 7.39 23.72 143.80 -349.75 1,590.19 5.625 781.25 86.82 69993 Pass-Major Risk 7,140.00 8,682.57 7,550.00 6,959.91 7.39 23.72 145.51 -349.67 1,590.66 5.625 789.99 86.83 709.17 Pass-Major Risk 7,140.00 6,682.57 7,575.00 6,984.91 7.39 23.73 147.18 -349.60 1,591.14 5.625 799.43 86.84 719.14 Pass-Major Risk 7,140.00 6,682.57 7,600.00 7,009.90 739 23.73 148.80 -349.54 1,591.64 5.625 809.54 86.85 72980 Pass-Major Risk 7,140.00 6,682.57 7,625.00 7,034.90 7.39 23.74 150.39 -349.49 1,592.14 5.625 820.31 86.86 741.13 Pass-Major Risk 7,140.00 6,682.57 7,650.00 7,059.89 7.39 23.74 151.93 -349.45 1,592.86 5.625 831.70 86.88 753.10 Pass-Major Risk 7,140.00 6,682.57 7,675.00 7,084.89 7.39 23.75 153.43 -349.45 1,593.11 5.625 84365 86.88 765.64 Pass-Major Risk 7,140.00 6,682.57 7,700.00 7,109.88 7.39 23.75 15490 -349.50 1,593.44 5.625 856.11 86.89 778.70 Pass-Major Risk 7,140.00 6,682.57 7,725.00 7,134.88 7.39 23.75 156.32 -349.60 1,593.65 5.825 869.06 86.89 79225 Pass-Major Risk 7,140.00 6,682.57 7,750.00 7,159.88 7.39 23.76 15770 -349.74 1,593.75 5.625 882.47 86.90 80626 Pass-Major Risk 7,140.00 6,682.57 7,775.00 7,184.88 7.39 23.76 159.04 -349.90 1,593.81 5.625 896.35 86.90 820.76 Pass-Major Risk 7,140.00 6,682.57 7,800.00 7,209.88 7.39 23.76 160.33 -350.05 1,593.85 5.625 910.69 86.90 83571 Pass-Major Risk 7,140.00 6,682.57 7,825.00 7,234.88 7.39 23.76 161.59 -350.18 1,593.88 5.625 925.48 88.89 851.10 Pass-Major Risk 7,140.00 6,682.57 7,850.00 7,259.88 7.39 23.76 162.81 -350.32 1,593.90 5625 94069 86.89 86691 Pass-Major Risk 7,140.00 6,682.57 7,875.00 7,284.88 7.39 23.76 163.99 -350.46 1,593.92 5.625 956.31 86.89 883.12 Pass-Major Risk 7,140.00 6,882.57 7,900.00 7,309.88 7.39 23.76 165.13 -350.61 1,593.95 5.625 972.33 86.89 899.73 Pass-Major Risk 7,140.00 6,682.57 7,925.00 7,334.88 7.39 23.76 166.23 -350.77 1,593.97 5.625 988.73 86.89 916.71 Pass-Major Risk 7,140.00 6,682.57 7,950.00 7,359.88 7.39 23.76 167.30 -350.94 1,594.01 5.825 1,005.50 86.89 934.03 Pass-Major Risk 7,140.00 6,682.57 7,975.00 7,384.88 7.39 23.76 168.33 -351.12 1,594.05 5.825 1,022.61 86.89 951.69 Pass-Major Risk 7,140.00 6,682.57 8,000.00 7,409.88 7.39 23.76 169.32 -351.31 1,594.11 5.625 1,040.05 86.88 969.67 Pass-Major Risk 7,140.00 6,682.57 8,025.00 7,434.88 7.39 23.76 17028 -351.51 1,594.19 5.625 1,057.81 86.88 98796 Pass-Major Risk 7,140.00 6,682.57 8,050.00 7,459.87 7.39 23.77 171.21 -351.71 1,594.28 5625 1,075.86 86.88 1,006.53 Pass-Major Risk 7,140.00 6,682.57 8,075.00 7,484.87 7.39 23.77 172.11 -351.92 1,594.38 5.625 1,094.20 86.88 1,025.37 Pass-Major Risk 7,140.00 6,682.57 8,100.00 7,509.87 7.39 23.77 172.98 -352.13 1,594.50 5.625 1,11281 86.88 1,044.46 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 36 COMPASS 5000.1 Build 61 • • BP 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-43-S-43-S-43 Offset Site Error: 0.00 usft Survey Program: 156-MVVD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth ON/-S +EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 7,130.00 6,682.46 5,925.00 5,659.02 7.30 16.80 58.67 -150.56 1,286.78 3.750 1,090.71 82.38 1,036.11 Pass-Major Risk 7,130.00 6,682.46 5,950.00 5,682.64 7.30 16.91 59.42 -150.32 1,294.98 3.750 1,070.85 82.62 1,015.70 Pass-Major Risk 7,130.00 6,682.46 5,975.00 5,706.25 7.30 17.02 60.19 -150.05 1,303.18 3.750 1,051.20 82.86 995.47 Pass-Major Risk 7,130.00 6,682.46 6,000.00 5,729.86 7.30 17.12 61.00 -149.75 1,311.38 3.750 1,031.77 83.09 975.45 Pass-Major Risk 7,134.36 6,682.51 6,025.00 5,753.48 7.34 17.23 60.34 -149.53 1,319.58 3.750 1,012.57 82.12 955.96 Pass-Major Risk 7,135.87 6,682.52 6,050.00 5,777.10 7.35 17.34 60.70 -149.41 1,327.76 3.750 993.64 81.92 936.52 Pass-Major Risk 7,140.00 6,682.57 6,075.00 5,800.73 7.39 17.44 60.19 -149.40 1,335.93 3.750 975.02 80.97 917.80 Pass-Major Risk 7,140.00 6,682.57 6,100.00 5,824.36 7.39 17.55 61.16 -149.50 1,344.09 3.750 956.66 81.18 898.58 Pass-Major Risk 7,140.00 6,682.57 6,125.00 5,847.99 7.39 17.66 62.17 -149.62 1,352.25 3.750 938.63 81.39 879.85 Pass-Major Risk 7,140.00 8,682.57 6,150.00 5,871.62 7.39 17.77 63.21 -149.78 1,360.40 3.750 920.93 81.60 861.42 Pass-Major Risk 7,140.00 8,682.57 6,175.00 5,895.25 7.39 17.88 64.30 -149.96 1,368.56 3.750 903.58 81.81 843.32 Pass-Major Risk 7,143.91 6,682.61 6,200.00 5,918.88 7.42 17.99 64.08 -150.16 1,376.74 3.750 886.58 80.87 825.98 Pass-Major Risk 7,145.14 6,682.62 6,225.00 5,942.50 7.43 18.10 64.84 -150.36 1,384.94 3.750 869.99 80.71 808.74 Pass-Major Risk 7,150.00 6,682.67 6,250.00 5,966.10 7.47 18.21 64.38 -150.57 1,393.16 3.750 853.87 79.45 792.43 Pass-Major Risk 7,150.00 6,682.67 6,275.00 5,989.70 7.47 18.32 65.67 -150.79 1,401.42 3.750 838.15 79.65 775.90 Pass-Major Risk 7,150.00 6,682.67 6,300.00 6,013.32 7.47 18.43 67.00 -150.87 1,409.61 3.750 822.79 79.85 759.70 Pass-Major Risk 7,150.00 6,682.67 6,325.00 6,036.99 7.47 18.53 88.36 -150.71 1,417.65 3.750 807.72 80.05 743.78 Pass-Major Risk 7,150.00 6,682.67 6,350.00 6,060.71 7.47 18.64 69.77 -150.30 1,425.53 3.750 792.96 80.24 728.14 Pass-Major Risk 7,150.00 6,682.67 6,375.00 6,084.48 7.47 18.74 71.21 -149.65 1,433.26 3.750 778.52 80.44 712.81 Pass-Major Risk 7,150.00 6,682.87 6,400.00 6,10826 7.47 18.83 72.71 -148.95 1,440.95 3.750 784.58 80.63 697.96 Pass-Major Risk 7,154.54 6,682.71 6,425.00 6,132.04 7.51 18.92 72.70 -148.25 1,448.61 3.750 751.13 79.39 684.42 Pass-Major Risk 7,155.66 6,682.72 6,450.00 6,155.83 7.52 19.02 73.92 -147.54 1,45626 3.750 738.29 79.21 670.89 Pass-Major Risk 7,160.00 6,682.77 6,475.00 6,179.63 7.55 19.11 74.08 -146.85 1,463.89 3.750 726.10 78.00 658.66 Pass-Major Risk 7,160.00 8,682.77 6,500.00 6,203.42 7.55 19.21 75.8l' `- '-146.22 1,471.55 3.750 714.58 78.19 646.25 Pass-Mapr Risk 7,160.00 6,882.77 6,525.00 6,227.20 7.55 19.31 7760 -146.67 t474.25 3.750 703.81 78.37 634.59 Pass-Major Risk 7,160.00 6,682.77 6,550.00 6,250.97 7.55 19.41 79.45 ,-145.20 *481{.99 3.750 693.84 78.56 623.72 Pass-Major Risk 7,160.00 6,682.77 6,575.00 6,274.73 7.55 19.51 81.35 -144.81 1,494.75 3.750 684.68 78.74 613.67 Pass-Major Risk 7,160.00 6,682.77 6,600.00 6,298.50 7.55 19.61 83.30 -144.45 1,502.48 3.750 676.32 78.92 604.42 Pass-Major Risk 7,160.00 6,682.77 6,625.00 8,322.28 7.55 19.72 85.30 -144.13 1,510.19 3.750 668.77 79.11 596.00 Pass-Major Risk 7,160.00 6,682.77 6,650.00 6,346.07 7.55 19.82 87.34 -143.86 1,517.87 3750 662.08 79.29 588.46 Pass-Major Risk 7,164.45 6,682.81 6,675.00 8,369.86 7.58 19.92 87.89 -143.58 1,525.54 3.750 656.19 77.98 582.94 Pass-Major Risk 7,185.31 6,682.82 6,700.00 6,393.65 7.59 20.02 89.72 -143.26 1,533.23 3.750 651.24 77.86 577.48 Pass-Major Risk 7,170.00 6,682.86 6,725.00 6,417.43 7.62 20.11 90.23 -142.90 1,540.91 3.750 647.25 76.45 574.12 Pass-Major Risk 7,170.00 6,682.88 6,750.00 6,441.22 7 62 20.21 92.41 -142.50 1,548.61 3.750 644.13 76.61 570.36 Pass-Major Risk 7,170.00 6,682.86 6,775.00 6,484.99 7.62 20.32 94.61 -142.22 1,556.33 3.750 642.04 76.78 567.68 Pass-Major Risk 7,170.00 6,682.86 6,800.00 6,488.78 7.62 20.42 96.82 -142.11 1,564.09 3.750 841.03 76.94 586.12 Pass-Major Risk,CC 7,170.00 6,682.86 6,825.00 6,512.51 7.62 20.52 99.03 -142.17 1,571.89 3.750 641.09 77.11 565.69 Pass-Major Risk,ES,SF 7,170.00 6,682.86 6,850.00 6,536.25 7.62 20.62 101.24 -142.38 1,579.72 3.750 642.21 77.27 566.39 Pass-Major Risk 7,170.00 6,682.86 6,875.00 6,559.99 7.62 20.73 103.44 -142.71 1,587.56 3.750 644.36 77.42 568.16 Pass-Major Risk 7,170.00 6,682.86 6,900.00 6,583.72 7.62 20.83 105.62 -143.14 1,595.40 3.750 647.51 77.58 570.99 Pass-Major Risk 7,170.00 6,682.86 6,925.00 6,607.45 7.62 20.94 107.78 -143.67 1,603.25 3.750 651.86 77.74 574.88 Pass-Major Risk 7,170.00 6,682.86 6,950.00 6,631.18 7.82 21.05 109.91 -144.43 1,611.07 3.750 656.80 77.87 579.84 Pass-Major Risk 7,170.00 6,682.86 8,975.00 6,854.92 7.62 21.15 112.01 -145.62 1,618.82 3750 682.94 77.99 585.85 Pass-Major Risk 7,170.00 6,682.86 7,000.00 6,678.66 7.62 21.26 114.07 -147.25 1,626.49 3.750 670.05 78.11 592.90 Pass-Major Risk 7,170.00 6,662.86 7,025.00 6,702.40 7.62 21.36 116.08 -149.29 1,634.07 3.750 678.10 78.23 800.93 Pass-Major Risk 7,170.00 6,662.88 7,050.00 6,726.13 7.62 21.46 118.04 -151.42 1,641.64 3.750 686.98 78.34 609.86 Pass-Major Risk 7,170.00 6,682.86 7,075.00 6,749.87 7.62 21.56 119.94 -153.42 1,649.22 3.750 696.62 78.44 619.59 Pass-Major Risk 7,174.23 6,682.90 7,100.00 8,773.61 7.65 21.66 120.33 -155.30 1,658.83 3.750 706.91 77.02 631.49 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 37 COMPASS 5000.1 Build 61 • • BP 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-43-S-43-S-43 Offset Site Error: 0.00 usft Survey Program: 156-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toofface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth .H1/-S +EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) F) (usft) (usft) (in) (usft) (usft) (usft) 7,174.52 6,682.90 7,125.00 6,797.35 7.65 21.76 122.03 -157.06 1,664.45 3.750 717.95 77.01 642.81 Pass-Major Risk 7,174.82 6,682.90 7,150.00 6,821.10 7.85 21.86 123.67 -158.79 1,672.06 3.750 729.66 77.01 654.82 Pass-Major Risk 7,175.11 6,682.91 7,175.00 6,844.85 7.66 21.95 125.26 -160.51 1,679.67 3.750 742.03 77.00 667.50 Pass-Major Risk 7,175.39 6,682.91 7200.00 6,868.61 7.66 22.05 126.79 -162.21 1,687.28 3.750 755.00 76.99 680.82 Pass-Major Risk 7,175.68 6,682.91 7,225.00 6,892.36 7.66 22.15 128.27 -163.90 1,894.88 3.750 768.57 76.99 694.74 Pass-Major Risk 7,180.00 8,682.95 7250.00 6,916.11 7.69 22.25 128.29 -165.57 1,702.51 3.750 782.77 75.53 710.71 Pass-Major Risk 7,180.00 6,682.95 7,275.00 6,939.85 7.69 22.35 129.75 -167.24 1,710.16 3.750 797.45 75.63 725.67 Pass-Major Risk 7,180.00 6,682.95 7,300.00 6,963.59 7.69 22.45 131.18 -168.88 1,717.83 3.750 812.65 75.72 741.15 Pass-Major Risk 7,180.00 6,682.95 7,325.00 6,987.33 7.69 22.55 132.51 -170.52 1,725.51 3.750 828.32 75.82 757.11 Pass-Major Risk 7,180.00 6,682.95 7,350.00 7,011.07 7.69 22.65 133.82 -172.15 1,733.15 3.750 844.41 75.92 773.50 Pass-Major Risk 7,180.00 6,682.95 7,375.00 7,034.83 7.69 22.75 135.08 -173.76 1,740.76 3.750 860.90 76.02 790.30 Pass-Major Risk 7,180.00 6,682.95 7,400,00 7,058.60 7.69 22.84 136.29 -175.37 1,748.33 3.750 877.77 76.12 807.47 Pass-Major Risk 7,180.00 6,682.95 7,425.00 7,082,39 7.69 22.94 137.46 -177.01 1,755.87 3.750 894.99 76.21 825.00 Pass-Major Risk 7,180.00 8,682.95 7,450.00 7,106.18 7.69 23.04 138.58 -178.69 1,763.35 3.750 912.56 76.29 842.89 Pass-Major Risk 7,180.00 6,882.95 7,475.00 7,129.98 7.69 23.14 139.66 -180.42 1,770.80 3.750 930.46 76.38 861.09 Pass-Major Risk 7,180.00 6,682.95 7,500.00 7,153.80 7.69 23.23 140.70 -182.19 1,778.19 3.750 948.66 76.47 879.60 Pass-Major Risk 7,180.00 6,682,95 7,525.00 7,177.62 7.69 23.33 141.71 -183.97 1,785.57 3.750 967.15 76.56 898.40 Pass-Major Risk 7,180.00 6,682.95 7,550.00 7,201.44 7.69 23.42 142.67 -185.75 1,792.94 3.750 985.92 76.64 917.47 Pass-Major Risk 7,180.00 6,682.95 7,575.00 7,225.27 7.69 23.52 143.60 -187.54 1,800.29 3.750 1,004.96 76.73 936.81 Pass-Major Risk 7,180.00 6,682.95 7,600.00 7,249.10 7.69 23.62 144.50 -189.31 1,807.64 3.750 1,024.24 76.81 956.38 Pass-Major Risk 7,180.00 6,682.95 7,625.00 7,272.93 7.69 23.71 145.36 -191.05 1,815.00 3.750 1,043.78 76.91 976.20 Pass-Major Risk 7,180.00 6,682.95 7,650.00 7,296.75 7.69 23.81 146.19 -192.76 1,822.39 3.750 1,063.54 77.00 996.24 Pass-Major Risk 7,180.00 6,882.95 7,675.00 7,320.57 7.69 23.90 146.99 -194.43 1,829.80 3.750 1,083.52 77.09 1,016.50 Pass-Major Risk 7,180.00 6,682.95 7,700.00 7,344.39 7.69 24.00 147. '4 4-196.09 1,83.20 3.750 1,103.70 77.18 1,036.94 Pass-Major Risk ! tip !, CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 38 COMPASS 5000.1 Build 61 • • ._ BP VIII Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-43-S-43L1-S-43L1 offset Site Error: 0.00 use Survey Program: 156-MWD,9762-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N/S +EI-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (use) (usft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 7,130.00 6,682.46 5,925.00 5,659.02 730 16.80 5867 -150.56 1,286.78 5625 1,090.71 82.54 1,035.95 Pass-Major Risk 7,130.00 6,682.46 5,950.00 5,682.64 7.30 16.91 59.42 -150.32 1,294.98 5.625 1,070.85 82.78 1,015.54 Pass-Major Risk 7,130.00 6,682.46 5,975.00 5,706.25 7.30 17.02 60.19 -150.05 1,303.18 5.625 1,051.20 83.01 995.32 Pass-Major Risk 7,130.00 6,682.46 6,000.00 5,729.86 7.30 17.12 61.00 -149.75 1,311.38 5.825 1,031.77 83.25 975.30 Pass-Major Risk 7,134.36 6,882.51 6,025.00 5,753.48 7.34 17.23 60.34 -149.53 1,319.58 5.625 1,012.57 82.28 955.80 Pass-Major Risk 7,135.87 6,882.52 6,050.00 5,777.10 7.35 17.34 60.70 -149.41 1,327.76 5.625 993.64 82.08 936.37 Pass-Major Risk 7,140.00 6,682.57 6,075.00 5,800.73 7.39 17.44 60.19 -149.40 1,335.93 5.625 975.02 81.12 917.44 Pass-Major Risk 7,140.00 6,682.57 6,100.00 5,824.36 7.39 17.55 61.16 -149.50 1,344.09 5.625 956.68 81.34 898.42 Pass-Major Risk 7,140.00 6,682.57 6,125.00 5,847.99 7.39 17.66 62.17 -149.62 1,352.25 5.625 938.63 81.55 879.69 Pass-Major Risk 7,140.00 8,682.57 6,150.00 5,871.62 7.39 17.77 63.21 -149.78 1,380.40 5.825 920.93 81.76 861.26 Pass-Major Risk 7,140.00 6,682.57 6,175.00 5,895.25 7.39 17.88 64.30 -149.96 1,368.56 5.625 903.58 81.97 843.16 Pass-Major Risk 7,143.91 6,682.61 8,200.00 5,918.88 7.42 17.99 64.08 -150.16 1,376.74 5.625 886.58 81.03 825.82 Pass-Major Risk 7,145.14 6,682.62 8,225.00 5,942.50 7.43 18.10 84.84 -150.36 1,384.94 5.625 869.99 80.87 808.59 Pass-Major Risk 7,150.00 6,682.67 6,250.00 5,966.10 7.47 1821 64.38 -150.57 1,393.16 5.625 853.87 79.60 792.28 Pass-Major Risk 7,150.00 6,682.67 8,275.00 5,989.70 7.47 18.33 65.67 -150.79 1,401.42 5.625 838.15 79.80 775.74 Pass-Major Risk 7,150.00 6,682.67 6,300.00 6,013.32 7.47 18.43 87.00 -150.87 1,409.61 5.825 822.79 80.00 759.54 Pass-Major Risk 7,150.00 6,682.67 6,325.00 6,036.99 7.47 18.53 88.36 -150.71 1,417.65 5.625 807.72 80.20 743.62 Pass-Major Risk 7,150.00 6,682.67 6,350.00 6,060.71 7.47 18.64 89.77 -150.30 1,425.53 5.625 792.96 80.40 727.98 Pass-Major Risk 7,150.00 6,682.67 6,375.00 6,084.48 7.47 18.74 71.21 -149.65 1,433.28 5.625 778.52 80.60 712.66 Pass-Major Risk 7,150.00 6,682.67 6,400,00 6,108.26 7.47 18.83 72.71 -148.95 1,440.95 5.625 764.58 80.79 697.81 Pass-Major Risk 7,154.54 6,682.71 6,425.00 6,132.04 7.51 18.92 72.70 -148.25 1,448.61 5.625 751.13 79.54 684.26 Pass-Major Risk 7,155.66 6,682.72 6,450.00 6,155.83 7.52 19.02 73.92 -147.54 1,45626 5.625 738.29 79,37 670.74 Pass-Major Risk 7,160.00 6,682.77 6,475.00 6,179.63 7.55 19.11 74.08 -146.85 1,463.89 5.625 726.10 78.16 858.51 Pass-Major Risk 7,160.00 6,882.77 6,500.00 6,203.42 7.55 19.21 75.81 'r &146.22 1,451.55 5.625 714.58 78.34 646.09 Pass-Major Risk 7,160.00 6,682.77 6,525.00 6,227.20 7.55 19.31 77.60 t1r) 4 .25 5.625 703.81 78.53 634.43 Pass-Major Risk 7,160.00 6,682.77 6,550.00 6,250.97 7.55 19.41 79.45 -1 .201 �4I.99 5.625 693.84 78.71 623.56 Pass-Major Risk 7,160.00 6,682.77 6,575.00 6,274.73 7.55 19.51 81.35 -144.81 1,494.75 5.625 684.68 78.90 613.51 Pass-Major Risk 7,160.00 6,882.77 6,600.00 6,298.50 7.55 19.62 83.30 -144.45 1,502.48 5.625 676.32 79.08 604.26 Pass-Major Risk 7,160.00 6,682.77 6,625.00 6,322.28 7.55 19.72 85.30 -144.13 1,510.19 5.625 668.77 79.27 595.84 Pass-Major Risk 7,160.00 6,682.77 6,650.00 6,346.07 7.55 19.82 87.34 -143.86 1,517.87 5.625 662.08 79.45 588.30 Pass-Major Risk 7,164.45 6,682:81 6,675.00 6,369.86 7.58 19.92 87.89 -143.58 1,525.54 5.625 656.19 78.14 582.79 Pass-Major Risk 7,165.31 6,682.82 6,700.00 6,393.65 7.59 20.02 89.72 -143.26 1,533.23 5.825 651.24 78.02 577.32 Pass-Major Risk 7,170.00 6,682.86 6,725.00 6,417.43 7.62 20.11 9023 -142,90 1,540.91 5.625 647.25 76.61 573.96 Pass-Major Risk 7,170.00 6,882.86 6,750.00 6,441.22 7.62 20.21 92.41 -142.50 1,548.61 5.625 644.13 76.77 570.20 Pass-Major Risk 7,170.00 6,682.86 6,775.00 6,464.99 7.62 20.32 94,61 -142.22 1,556.33 5.625 642.04 76.94 587.53 Pass-Major Risk 7,170.00 6,682.86 6,800.00 6,488.76 7.62 20.42 96.82 -142.11 1,584.09 5.625 641.03 77.10 565.97 Pass-Major Risk,CC 7,170.00 6,682.86 6,825.00 6,512.51 7.62 20.52 99.03 -142.17 1,571.89 5.625 641.09 77.26 565.54 Pass-Major Risk,ES,SF 7,170.00 6,682.86 6,850.00 6,536.25 7.62 20.62 101.24 -142.38 1,579.72 5.625 642.21 77.42 566.23 Pass-Major Risk 7,170.00 6,682.86 6,875.00 6,559.99 7.62 20.73 103.44 -142.71 1,587.56 5.625 644.36 77.58 568.00 Pass-Major Risk 7,170.00 6,682.86 6,900.00 6,583.72 7.62 20.84 105.62 -143.14 1,595.40 5.625 647.51 77.74 570.84 Pass-Major Risk 7,170.00 6,682.86 6,925.00 6,607.45 7.62 20.94 107.78 -143.67 1,603.25 5.625 651.66 77.89 574.72 Pass-Major Risk 7,170.00 6,682.86 6,950,00 6,631.18 7.62 21.05 109.91 -144.43 1,611.07 5.625 656.80 78.02 579.68 Pass-Major Risk 7,170.00 6,682.86 6,975.00 8,654.92 7.62 21.15 112.01 -145.62 1,618.82 5.625 662.94 78.15 585.70 Pass-Major Risk 7,170.00 6,682.86 7,000.00 8,678.68 7.62 21.26 114.07 -147.25 1,628.49 5.625 670.05 78.27 592.74 Pass-Major Risk 7,170.00 6,682.88 7,025.00 6,702.40 7.62 21.36 116.08 -149.29 1,634.07 5.625 678.10 78.39 600.78 Pass-Major Risk 7,170.00 6,682.86 7,050.00 6,728.13 7.62 21.46 118.04 -151.42 1,641.64 5.625 686.98 78.49 609.70 Pass-Major Risk 7,170.00 6,682.86 7,075.00 6,749.87 7.62 21.56 119.94 -153.42 1,849.22 5.625 696.62 78.59 619.43 Pass-Major Risk 7,174.23 6,882.90 7,100.00 6,773.61 7.65 21.66 120.33 -155.30 1,656.83 5.625 706.91 77.18 631.34 Pass-Major Risk CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 39 COMPASS 5000.1 Build 61 ! r BP V Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-43-S-43L1-S-43L1 Offset Site Error: 0.00 usft Survey Program: 156-MWD,9762-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +N/-S +E/-W Hole Size Centre Distance Deviation 1 (usft( (usft( (usft( (usft) (usft( (usft) ii (usft) (usft) lin( (usft) (usft) (usft( 7,174.52 6,682.90 7,125.00 8,797.35 7.65 21.76 122.03 -157.06 1,664.45 5.625 717.95 77.17 842.65 Pass-Major Risk 7,174.82 6,682.90 7,150.00 6,821.10 7.65 21.86 123.67 -158.79 1,672.06 5.625 729.66 77.16 654.66 Pass-Major Risk 7,175.11 6,682.91 7,175.00 6,844.85 7.66 21.95 12526 -160.51 1,679.67 5.625 742.03 77.15 667.34 Pass-Major Risk 7,175.39 6,682.91 7,200.00 6,868.61 7.86 22.05 128.79 -162.21 1,687.28 5.625 755.00 77.15 680.66 Pass-Major Risk 7,175.68 6,682.91 7,225.00 6,892.36 7.66 22.15 128.27 -163.90 1,894.88 5.625 768.57 77.14 694.58 Pass-Major Risk 7,180.00 6,682.95 7,250.00 6,916.11 7.69 22.25 128.29 -165.57 1,702.51 5.625 782.77 75.69 710.56 Pass-Major Risk 7,180.00 6,882.95 7,275.00 8,939.85 7.69 22.35 129.75 -167.24 1,710.16 5.625 797.45 75.78 725.51 Pass-Major Risk 7,180.00 8,682.95 7,300.00 6,963.59 7.69 22.45 131.16 -168.88 1,717.83 5.625 812.65 75.88 741.00 Pass-Major Risk 7,180.00 6,682.95 7,325.00 6,987.33 7.69 22.55 132.51 -170.52 1,725.51 5.625 828.32 75.98 756.96 Pass-Major Risk 7,180.00 6,682.95 7,350.00 7,011.07 7.69 22.65 133.82 -172.15 1,733.15 5.625 844.41 76.08 773.35 Pass-Major Risk 7,180.00 6,682.95 7,375.00 7,034.83 7.69 22.75 135.08 -173.76 1,740.76 5.625 860.90 76.18 790.14 Pass-Major Risk 7,180.00 6,682.95 7,400.00 7,058.60 7.69 22.85 136.29 -175.37 1,748.33 5.625 877.77 76.27 807.31 Pass-Major Risk 7,180.00 6,682.95 7,425.00 7,082.39 7.69 22.94 137.46 -177.01 1,755.87 5.625 894.99 76.36 824.85 Pass-Major Risk 7,180.00 6,682.95 7,450.00 7,106.18 7.89 23.04 138.58 -178.89 1,763.35 5.625 912.56 76.45 842.73 Pass-Major Risk 7,180.00 6,682.95 7,475.00 7,129.98 7.69 23.14 139.66 -180.42 1,770.80 5.625 930.46 76.54 860.93 Pass-Major Risk 7,180.00 6,682.95 7,500.00 7,153.80 7.69 23.23 140.70 -182.19 1,778.19 5.625 948.86 76.63 879.44 Pass-Major Risk 7,180.00 6,682.95 7,525.00 7,177.62 7.69 23.33 141.71 -183.97 1,785.57 5.625 967.15 76.71 898.24 Pass-Major Risk 7,180.00 6,682.95 7,550.00 7,201.44 7.69 23.43 142.67 -185.75 1,792.94 5.625 985.92 76.80 917.32 Pass-Major Risk 7,180.00 6,682.95 7,575.00 7,225.27 7.69 23.52 143.60 -187.54 1,800.29 5.625 1,004.96 76.88 936.65 Pass-Major Risk 7,180.00 6,682.95 7,600.00 7,249.10 7.69 23.62 144.50 -189.31 1,807.64 5.625 1,024.24 76.97 956.23 Pass-Major Risk 7,180.00 6,682.95 7,625.00 7,272.93 7.69 23.71 145.36 -191.05 1,815.00 5.825 1,043.78 77.06 976.04 Pass-Major Risk 7,180.00 6,682.95 7,650.00 7,296.75 7.89 23.81 146.19 -192.76 1,822.39 5.625 1,063.54 77.15 996.08 Pass-Major Risk 7,180.00 6,682.95 7,875.00 7,320.57 7.69 23.91 146.99 -194.43 1,829.80 5.625 1,083.52 77.24 1,016.34 Pass-Major Risk 7,180.00 6,682.95 7,700.00 7,344.39 7.69 24.00 147. X196.09 1,831.20 5.625 1,103.70 77.33 1,036.79 Pass-Major Risk IT! fl21 CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 40 COMPASS 5000.1 Build 61 0 • BP Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-44-S-44-S-44 Offset Site Error: 0.00 usft Survey Program: 159-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Waming Depth Depth Depth Depth Azimuth +N/-,S +8)-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (°) (usft) (usft) (in) (usft) (usft) (usft) 8,700.00 6,632.01 5,925.00 5,725.70 21.59 9.06 -102.89 -18.22 -609.87 5.625 1,114.77 130.48 1,023.60 Pass-Major Risk 8,709.83 6,632.76 5,950.00 5,747.39 21.76 9.22 -102.59 -17.17 -622.26 5.625 1,100.22 131.12 1,007.67 Pass-Major Risk 8,715.50 6,633.18 5,975.00 5,769.08 21.85 9.38 -102.78 -16.08 -634.64 5.625 1,085.98 131.66 992.08 Pass-Major Risk 8,725.00 6,633.90 6,000.00 5,790.72 22.00 9.54 -102.56 -14.88 -647.11 5.625 1,072.09 132.24 976.77 Pass-Major Risk 8,725.00 6,633.90 8,025.00 5,812.30 22.00 9.71 -103.43 -13.58 -659.67 5.825 1,058.52 132.67 961.87 Pass-Major Risk 8,732.55 6,834.46 6,050.00 5,833.81 22.13 9.87 -103.48 -12.16 -672.32 5.625 1,045.33 133.19 947.23 Pass-Major Risk 8,738.23 6,634.89 6,075.00 5,855.31 22.22 10.04 -103.76 -10.68 -685.00 5.625 1,032.49 133.69 932.93 Pass-Major Risk 8,750.00 6,635.77 6,100.00 5,876.81 22.41 10.22 -103.39 -9.17 -697.67 5.625 1,020.06 13420 918.97 Pass-Major Risk 8,750.00 6,635.77 6,125.00 5,898.31 22.41 10.39 -104.37 -7.63 -710.32 5.625 1,007.89 134.65 905.32 Pass-Major Risk 8,757.00 6,636.29 6,150.00 5,919.83 22.52 10.56 -104.59 -6.07 -722.95 5.625 996.16 135.09 892.06 Pass-Major Risk 8,757.00 6,836.29 6,175.00 5,941.35 22.52 10.72 -105.63 -4.53 -735.58 5.625 984.85 135.49 879.25 Pass-Major Risk 8,765.80 6,636.95 8,200.00 5,962.88 22.66 10.88 -105.71 -3.05 -748.21 5.625 973.99 135.86 866.85 Pass-Major Risk 8,775.00 6,837.63 6,225.00 5,984.41 22.81 11.04 -105.78 -1.82 -760.83 5.625 963.64 136.19 854.96 Pass-Major Risk 8,775.00 6,637.63 6,250.00 6,005.95 22.81 11.20 -106.91 -023 -773.44 5.625 953.73 136.59 843.47 Pass-Major Risk 8,775.00 6,637.63 6,275.00 6,027.50 22.81 11.37 -108.06 127 -786.03 5.625 944.31 137.00 832.44 Pass-Major Risk 9,132.33 6,654.34 6,300.00 6,049.05 28.64 11.53 -131.01 2.92 -798.59 5.625 931.24 180.81 799.77 Pass-Major Risk 9,137.78 6,654.40 6,325.00 6,070.61 28.73 11.70 -131.39 4.72 -811.11 5.625 917.57 161.73 784.01 Pass-Major Risk 9,150.00 8,654.52 6,350.00 6,092.18 28.94 11.86 -130.99 6.62 -823.61 5.625 904.27 163.15 768.21 Pass-Major Risk 9,150.00 6,654.52 6,375.00 6,113.77 28.94 12.02 -132.09 8.50 -836.07 5.625 891.27 163.60 753.41 Pass-Major Risk 9,150.00 6,654.52 6,400.00 6,135.39 28.94 12.18 -133.22 10.37 -848.50 5.625 878.79 164.05 739.10 Pass-Major Risk 9,159.25 6,654.59 8,425.00 6,157.02 29.09 12.34 -133.30 12.21 -860.89 5.625 866.74 165.18 724.64 Pass-Major Risk 9,164.52 6,654.62 6,450.00 6,178.68 29.18 12.50 -133.89 14.00 -873.25 5.625 85521 165.98 710.94 Pass-Major Risk 9,175.00 6,654.67 6,475.00 6,200.38 29.35 12.66 -133.90 15.71 -885.54 5.625 84425 167.09 697.53 Pass-Major Risk 9,175.00 8,854.67 6,500.00 6,222.11 29.35 12.81 -135.20 17.34 -897.79 5.625 833.79 167.52 685.16 Pass-Major Risk 9,175.00 6,654.67 6,525.00 6,243.88 29.35 12.97 -138.55 18.88 -909.98 5.625 823.98 167.96 673.45 Pass-Major Risk 9,185.07 6,654.70 6,550.00 6,265.61 29.52 13.15 -136.73 20 43 -922.24 5.625 814.72 169.05 661.70 Pass-Major Risk 9,190.19 6,654.70 6,575.00 6,287.26 29.61 13.33 -137.52 22.02 -934.65 5.625 806.11 169.83 650.91 Pass-Major Risk 9,200.00 6,654.70 6,600.00 6,308.82 29.78 13.51 -137.78 23.68 -947.19 5.625 798.18 170.82 640.62 Pass-Major Risk 9,200.00 8,654.70 6,625.00 6,330.31 29.78 13.69 -139.25 25.34 -959.86 5.625 790.84 171.31 631.40 Pass-Major Risk 9,205.61 6,654.69 6,650.00 6,351.85 29.87 13.86 -140.08 26.95 -972.44 - 5.625 784.19 172.05 622.68 Pass-Major Risk 9,210.59 6,654.68 6,675.00 6,373.50 29.96 14.04 -141.02 28.45 -984.85 5.625 778.22 172.75 614.71 Pass-Major Risk 9,215.65 6,654.66 6,700.00 6,39525 30.04 14.22 -141.99 29.84 -997.10 5.625 772.95 173.43 607.50 Pass-Major Risk,CC,ES,SF CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 41 COMPASS 5000.1 Build 61 BP Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-44-S-44L1-S-44L1 Offset Site Error: 0 00 usft Survey Program: 159-MWD,9507-MWD,10359-MWD Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth +NtS +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) F) (usft) (usft) (in) (usft) (usft) (usft) 8,700.00 6,632.01 5,925.00 5,725.70 21.59 9.29 -102.89 -18.22 -609.87 5.625 1,114.77 131.07 1,02329 Pass-Major Risk 8,709.83 6,632.76 5,950.00 5,747.39 21.76 9.45 -102.59 -17.17 -622.26 5.625 1,100.22 131.72 1,007.35 Pass-Major Risk 8,715.50 6,633.18 5,975.00 5,769.08 21.85 9.62 -102.78 -16.08 -634.64 5.625 1,085.98 132.27 991.75 Pass-Major Risk 8,725.00 6,633.90 6,000.00 5,790.72 22.00 9.79 -102.56 -14.88 -647.11 5.625 1,072.09 132.88 97642 Pass-Major Risk 8,725.00 6,633.90 6,025.00 5,812.30 22.00 9.96 -103.43 -13.58 -659.67 5.625 1,058.52 133.30 961.51 Pass-Major Risk 8,732.55 6,634.46 6,050.00 5,833.81 22.13 10.13 -103.48 -12.16 -672.32 5.625 1,045.33 133.83 946.86 Pass-Major Risk 8,738.23 6,634.89 8,075.00 5,855.31 22.22 10.31 -103.76 -10.68 -685.00 5.625 1,032.49 134.35 932.54 Pass-Major Risk 8,750.00 6,635.77 6,100.00 5,876.81 22.41 10.48 -103.39 -9.17 -697.67 5.625 1,020.08 134.87 918.57 Pass-Major Risk 8,750.00 6,635.77 6,125.00 5,898.31 22.41 10.66 -104.37 -7.63 -710.32 5.625 1,007.89 135.32 904.90 Pass-Major Risk 8,757.00 6,636.29 6,150.00 5,919.83 22.52 10.84 -104.59 -8.07 -722.95 5.625 996.16 135.78 891.62 Pass-Major Risk 8,757.00 6,636.29 6,175.00 5,941.35 22.52 11.01 -105.63 -4.53 -735.58 5.625 984.85 136.19 878.79 Pass-Major Risk 8,765.80 6,636.95 6,200.00 5,962.88 22.68 11.17 -105.71 -3.05 -74821 5.625 973.99 136.57 86637 Pass-Major Risk 8,775.00 8,837.63 6,225.00 5,984.41 22.81 11.34 -105.78 -1.62 -760.83 5.625 963.64 136.91 854.47 Pass-Major Risk 8,775.00 6,637.63 6,250.00 6,005.95 22.81 11.51 -106.91 -0.23 -773.44 5.625 953.73 137.32 842.96 Pass-Major Risk 8,775.00 6,637.63 6,275.00 6,027.50 22.81 11.68 -108.06 1.27 -786.03 5.625 944.31 137.75 831.90 Pass-Major Risk 9,132.33 6,654.34 6,300.00 6,049.05 28.64 11.85 -131.01 2.92 -798.59 5.625 931.24 181.67 799.12 Pass-Major Risk 9,137.78 6,654.40 6,325.00 6,070.81 28.73 12.02 -131.39 4.72 -811.11 5.625 917.57 162.61 783.34 Pass-Major Risk 9,150.00 6,654.52 6,350.00 6,092.18 28.94 12.19 -130.99 8.62 -823.61 5.625 904.27 164.05 767.52 Pass-Major Risk 9,150.00 6,654.52 6,375.00 6,113.77 28.94 12.36 -132.09 8.50 -836.07 5.625 891.27 164.51 752.69 Pass-Major Risk 9,150.00 6,654.52 6,400.00 6,135.39 28.94 12.52 -133.22 10.37 -848.50 5.625 878.79 164.97 738.37 Pass-Major Risk 9,159.25 6,654.59 6,425.00 6,157.02 29.09 12.69 -133.30 12.21 -880.89 5.625 866.74 166.12 723.88 Pass-Major Risk 9,164.52 8,854.62 6,450.00 6,178.68 29.18 12.85 -133.89 14.00 -873.25 5.625 855.21 166.93 710.16 Pass-Major Risk 9,175.00 6,654.67 6,475.00 6,200.38 29.35 13.01 -133.90 15.71 -885.54 5.625 84425 168.06 896.73 Pass-Major Risk 9,175.00 6,654.67 6,500.00 6,222.11 29.35 13.17 -135. a 17.34 -8 .79 5.625 833.79 168.50 684.33 Pass-Major Risk 9,175.00 6,654.67 6,525.00 6,243.88 29.35 13.34 -136. I , 9 .98 5.625 823.98 168.96 672.60 Pass-Major Risk 9,185.07 8,654.70 6,550.00 6,265.61 29.52 13.52 -136. , .43 CM1 9 4.24 5.625 814.72 170.06 660.82 Pass-Major Risk 9,190.19 6,654.70 6,575.00 6,267.26 29.61 13.71 -137.52 22.02 -934.65 5.825 806.11 170.85 650.01 Pass-Major Risk 9,200.00 6,654.70 6,600.00 6,308.82 29.78 13.89 -137.78 23.66 -947.19 5.625 798.18 171.85 639.89 Pass-Major Risk 9,200.00 6,654.70 6,625.00 6,330.31 29.78 14.07 -139.25 25.34 -959.86 5.625 790.84 172.36 630.45 Pass-Major Risk 9,205.61 6,654.69 6,850.00 6,351.85 29.87 14.26 -140.08 26.95 -972.44 5.625 784.19 173.11 621.71 Pass-Major Risk 9,210.59 6,854.88 6,875.00 6,373.50 29.96 14.44 -141.02 28.45 -984.85 5.625 778.22 173.82 613.72 Pass-Major Risk 9,215.65 6,654.68 8,700.00 6,395.25 30.04 14.62 -141.99 29.84 -997.10 5.625 772.95 174.51 806.49 Pass-Major Risk,CC,ES,SF CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 42 COMPASS 5000.1 Build 61 • • BP ,;.-` Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Offset Design PB S Pad- S-44-S-44L1 PB1-S-44L1 PB1 Offset Site Error: 0.00 usft Survey Program: 159-MWD,9507-MIND Rule Assigned:Major Risk Offset Well Error: 0.00 usft Reference Offset Semi Major Axis Measured Vertical Measured Vertical Reference Offset Toolface+ Offset Wellbore Centre Casing- Centre to No Go Allowable Warning Depth Depth Depth Depth Azimuth ON/-S +E/-W Hole Size Centre Distance Deviation (usft) (usft) (usft) (usft) (usft) (usft) (1 (usft) (usft) (in) (usft) (usft) (usft) 8,700.00 8,632.01 5,925.00 5,725.70 21.59 9.03 -102.89 -18.22 -609.87 5.625 1,114.77 130.40 1,023.65 Pass-Major Risk 8,709.83 6,632.76 5,950.00 5,747.39 21.76 9.19 -102.59 -17.17 -822.26 5.625 1,100.22 131.03 1,007.72 Pass-Major Risk 8,715.50 6,633.18 5,975.00 5,769.08 21.85 9.35 -102.78 -16.08 -634.64 5.625 1,085.98 131.57 992.13 Pass-Major Risk 8,725.00 6,633.90 6,000.00 5,790.72 22.00 9.51 -102.56 -14.88 -647.11 5.625 1,072.09 132.15 976.82 Pass-Major Risk 8,725.00 6,633.90 6,025.00 5,812.30 22.00 9.67 -103.43 -13.58 -659.67 5.625 1,058.52 132.58 961.92 Pass-Major Risk 8732.55 6,634.46 6,050.00 5,833.81 22.13 9.84 -103.48 -12.18 -672.32 5.625 1,045.33 133.09 947.28 Pass-Major Risk 8,738.23 6,634.89 6,075.00 5,855.31 22.22 10.01 -103.76 -10.68 -685.00 5.625 1,032.49 133.80 932.99 Pass-Major Risk 8,750.00 6,635.77 6,100.00 5,876.81 22.41 10.18 -103.39 -9.17 -697.67 5.625 1,020.06 134.11 919.03 Pass-Major Risk 8,750.00 6,635.77 6,125.00 5,898.31 22.41 10.36 -104.37 -7.63 -710.32 5.625 1,007.89 134.55 905.38 Pass-Major Risk 8,757.00 6,636.29 6,150.00 5,919.83 22.52 10.53 -104.59 -6.07 -722.95 5.625 996.16 134.99 892.12 Pass-Major Risk 8,757.00 6,636.29 6,175.00 5,941.35 22.52 10.69 -105.63 -4.53 -735.58 5.625 984.85 135.39 879.32 Pass-Major Risk 8,785.80 8,638.95 6,200.00 5,962.88 22.66 10.84 -105.71 -3.05 -748.21 5.625 973.99 135.76 866.91 Pass-Major Risk 8,775.00 8,637.83 6,225.00 5,984.41 22.81 11.00 -105.78 -1.82 -760.83 5.625 963.64 136.09 855.03 Pass-Major Risk 8,775.00 6,637.63 6,250.00 6,005.95 22.81 11.16 -106.91 -0.23 -773.44 5.625 953.73 136.49 843.54 Pass-Major Risk 8,775.00 6,637.63 6,275.00 6,027.50 22.81 11.33 -108.06 1.27 -786.03 5.625 944.31 136.90 832.51 Pass-Major Risk 9,132.33 6,654.34 6,300.00 6,049.05 28.64 11.49 -131.01 2.92 -798.59 5.625 93124 160.69 799.85 Pass-Major Risk 9,137.78 6,654.40 8,325.00 6,070.61 28.73 11.66 -131.39 4.72 -811.11 5.625 917.57 161.81 784.10 Pass-Major Risk 9,150.00 6,654.52 6,350.00 6,092.18 28.94 11.82 -130.99 6.62 -823.61 5.625 904.27 163.03 768.30 Pass-Major Risk 9,150.00 6,654.52 6,375.00 6,11377 28.94 11.98 -132.09 8.50 -836.07 5.625 891.27 163.48 753.50 Pass-Major Risk 9,150.00 6,654.52 6,400.00 6,135.39 28.94 12.14 -133.22 10.37 -848.50 5.625 878.79 163.93 73920 Pass-Major Risk 9,15925 6,654.59 6,425.00 6,157.02 29.09 12.30 -133.30 12.21 -860.89 5.625 866.74 165.05 724.74 Pass-Major Risk 9,164.52 6,654.62 6,450.00 6,178.68 29.18 12.46 -133.89 14.00 -873.25 5.625 855.21 165.85 711.04 Pass-Major Risk 9,175.00 6,654.67 6,475.00 6,200.38 29.35 12.61 -133.90 15.71 -885.54 5.625 844.25 166.97 697.64 Pass-Major Risk 9,175.00 6,654.67 6,500.00 6,222.11 29.35 12.77 -135. 17.34 -897.79 5.625 833.79 167.39 685.27 Pass-Major Risk 9,175.00 6,654.67 6,525.00 6,243.88 29.35 12.93 -136. 18.88 -909.98 5.625 823.98 167.83 673.56 Pass-Major Risk 9,185.07 6,654.70 6,550.00 6,265.61 29.52 13.11 -136. ' 20.43 -922.24 5.825 814.72 168.92 661.82 Pass-Major Risk 9,190.19 6,654.70 8,575.00 6,287.26 29.61 13.28 -137.52 22.02 -934.65 5.625 806.11 169.70 651.02 Pass-Major Risk 9,200.00 6,654.70 6,600.00 6,308.82 29.78 13.46 -137.78 23.66 -947.19 5.625 798.18 170.69 640.74 Pass-Major Risk 9,200.00 6,654.70 6,625.00 6,330.31 29.78 13.64 -139.25 25.34 -959.86 5.625 790.84 171.17 631.52 Pass-Major Risk 9,205.61 6,654.69 6,650.00 6,351.85 29.87 13.82 -140.08 26.95 -972.44 5.625 784.19 171.92 622.80 Pass-Major Risk 9,210.59 8,654.68 6,675.00 8,373.50 29.96 13.99 -141.02 28.45 -984.85 5.625 77822 172.61 614.84 Pass-Major Risk 9,215.65 6,654.66 6,700.00 6,395.25 30.04 14.17 -141.99 29.84 -997.10 5.825 772.95 17329 607.63 Pass-Major Risk,CC,ES,SF CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 43 COMPASS 5000.1 Build 61 . • BP FAR" # I , Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Reference Depths are relative to S-112 @ 69.60usft(Doyon 14) Coordinates are relative to:S-112 Offset Depths are relative to Offset Datum Coordinate System is US State Plane 1927(Exact solution),Alaska Zone 04 Central Meridian is 150°0'0.000 W Grid Convergence at Surface is:0.91° Ladder Plot � 1200- I I II J J J _I -J- '_,U I�.J I 1 .'Ill -- -- I In '111' r1 i 5 900 ? �h _alt.. c I 14 11 .0 o i ` �r QJ J J ____J .:.' _-- ,_J- -- 4) I a, • U) I e �5 N ? Y (1) 600- U I i� _ O T N J J J -___J_-I; J L Z I ' N I •1, a 1 U AL) r'. 300 I I I I I I I 0 I 1 I I I I0 I 0 I I I I I I 0 1500 3000 4500 6000 7500 9000 Measured Depth LEGEND -Q- S-42,S-42PB1,S-42PB1 V1 S-25,S-25APB1,S-25APB1 V1 t S-16,S-16,S-16 V2 $ S-42,S-42,S-42 V2 -4$-- S-33,S-33,S-33 V1 S-37,S-37APB1,S-37APB1 VO - S-10,S-10,S-10 V4 S-43,S-43L1,S-43L1 VO - S-37,S-37,S-37 V1 S-10,S-10A,S-10A V1 -9- S-43,S-43,S-43 V3 -0- S-37,S-37A,S-37A V0 S-10,S-10APB1,S-10APB1 V1 S- 4,5- 4L1,S-44L1 V0 S-36,S-36,S-36 V1 S-22,S-22B,S-22B VO S- 4,5-44L1PB1,S-44L1PB1 V3 -f- S-21,S-21,S-21 V1 S-24,S-24,S-24 V5 S-44,S-44,S-44 V10 $ S-34,S-34,S-34 V1 S-25,S-25A,S-25A V1 -6- S-38,S-38,S-38 V1 5-1b,5-1b,5-Lb Vi $' 5-112,5-114 5-111 VLU CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 44 COMPASS 5000.1 Build 61 9 • BP MIA 0 by Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Reference Depths are relative to S-112 @ 69.60usft(Doyon 14) Coordinates are relative to:S-112 Offset Depths are relative to Offset Datum Coordinate System is US State Plane 1927(Exact solution),Alaska Zone 04 Central Meridian is 150°0'0.000 W Grid Convergence at Surface is:0.91° Separation Factor Plot i .. r 1 1 i 9.00- r_... -© 11 _. ._ ... _. ._ _ _ C Li • O m 6.00- - -_ i c 11 .. g 411Y1 V m 1 3.00- - _ _........ - 9 -- -- J _ 1 - L i 1 0.00 I I ` I 0 2000 4000 6000 8000 Measued Depth LEGEND -e- S42,S42PB1,S42PB1 V1 -e- S-25,S-25AP B1,S-25APB1 V1 -/- S-16,S-16,S-16 V2 -4- S-42,S-42,S-42 V2 -/- S-33,S-33,S-33 V1 S-37,S-37APB1,S-37APB1 VO net- S-10,S-10,S-10 V4 S43,543L1,S-43L1VO -e- S-37,S-37,S-37 V1 S-10,S-10A,S-10A V1 $ S-43,S-43,S-43 V3 -4- S-37,S37A,S-37A V0 -B- S-10,S-10AP B1,S-10APB1 V1 S-44,S44L1,S-44L1 VO -)E- S-36,S-36,S-36 V1 5-22,S-22B,S-22BV0 544,544L1PB1,S44L1PB1 V3 -1- S-21,S-21,S-21 V1 -6- S-24,S-24,S-24 V5 S-44,S-44,S-44 V10 -9- S-34,S-34,S-34 V1 S-25,S-25A,S-25A V1 -6- S-38,S-38,S-38 V1 J-Lb,J-10,J-15 Vi -e- 6-1T1,J-112,J-111 VLU CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12:26AM Page 45 COMPASS 5000.1 Build 61 IP • BP FS MI 0 bp Travelling Cylinder Report BAKER HUGHES Company: North America-ALASKA-BP Local Co-ordinate Reference: Well S-112 Project: Prudhoe Bay TVD Reference: Mean Sea Level Reference Site: PB S Pad MD Reference: S-112 @ 69.60usft(Doyon 14) Site Error: 0.00 usft North Reference: True Reference Well: S-112 Survey Calculation Method: Minimum Curvature Well Error: 0.00 usft Output errors are at 1.00 sigma Reference Wellbore S-112L1 Database: EDM R5K-Alaska PROD-ANCP1 Reference Design: S-112L1 WP04 Offset TVD Reference: Offset Datum Reference Depths are relative to S-112 @ 69.60usft(Doyon 14) Coordinates are relative to:S-112 Offset Depths are relative to Offset Datum Coordinate System is US State Plane 1927(Exact solution),Alaska Zone 04 Central Meridian is 150°0'0.000 W Grid Convergence at Surface is:0.91° Travelling Cylinder Plot 0 330 30 135 /10111111111/ 330 2 300 ---_ k`-'i 340 60 7350 :r 67 �/\7130 1110 011$1,%, iI \, r lipp111:3 moi!• , 7130 270 90 9105 :L� 7. 7885 240 miehl11111./ . 120 Ing 135. 210 150 1575 180 Azimuth from North[°]vs Centre to Centre Separation[750 usfUin] LEGEND -e- S-42,S-42PB1,S-42PB1 V1 < S-25,S-25APB1,S-25APB1 V1 S-16,S-16,S-16 V2 -0- S-42,S-42,S-42 V2 -0-- S-33,S-33,S-33 V1 S-37,S-37APB1,S-37APB1 VO -A- S-10,S-10,S-10 V4 S-43,S-43L1,S-43L1 VO -t ,- S-37,S-37,S-37 V1 -*r• S-10,S-10A,S-10A V1 $ S-43,S-43,S-43 V3 -0- S-37,S-37A,S-37A V0 $- S-10,5-1OAPB1,S-10APB1 V1 S-44,S-44L1,S-44L1 VO S-36,S-36,S-36 V1 -8- S-22,S-22B,S-22BV0 S- 4,S-44L1PB1,S-44L1PB1 V3 -0-- S-21,S-21,S-21 V1 -4- S-24,S-24,S-24 V5 S-44,S-44,S-44 V10 $ S-34,S-34,S-34 V1 -0- S-25,S-25A,S-25AV1 -r - S-38,S-38,S-38 V1 CC-Min centre to center distance or covergent point,SF-min separation factor,ES-min ellipse separation 12/15/2015 2:12::26AM Page 46 COMPASS 5000.1 Build 61 • • in ot i- w.i a a ct 60 3 1.). c'r FO U $ m E7 N 0 .2 t g min o g rim...,a m2 2 x 1 1■ ■. . ,., , . . i : : _ 0. 0 61 1,1 u --11111 + III1E:I1; I sss m 7 „ awi f O U a m s I LI 0 o m 4 Q � 1 y I C c:' '1i "'^� a i('i 0 111 1 it * I I ilSI ;11 " I n I o ;;: g a -\ 11I11 II 11 n U CQ ) I i c. ® 11 1111 1 111 LL. G " a 1 Om I J > J g III 1111 o Z 0 U U A > Nr. 111 1111 WI i JO Io /Ii .a s � m rc rc Ili Ili II • tor 1 ••II 2 a C7 > (e 31111 ^ OM Q 1 mi V1 o c 1 F_ U ' _ 1 & 0 _ U m 1 1 y _ re p ,, c, L 1 1 8 ) mi.; I y i 0I e 1 1 1,:: k 5 c9,`+; N I • I, E n III 1 MCI I t 110 a.S';' 1 _ Ili i' Q '' '�" Ow .-0 I K 111 III ` C 0 0 \ ,i I 1 4 O -2i I .15 I 111 ro II " _� ,t •I 1 rill I1'"O I • • 0 ;° 0 C ) N (N �, NIt"'"" 6 r\ ,\„,,,\ , , \ 1 (..„ ,.,,, ' .9n9 \ , �:�,.\ ,. \\ .. Cn ., _ \ \, 1 /"� 499, CMP C 10 1 (Qs n o +-+ 06:9X99 _9 U t9, 4CO � ,9 • 9`999 \ % • as —c CO + a. ' '�. 1 0 Q '7 0 'Cr G .6.:90.: 9 E' `9a _ ' �6 °9. s9 , 0 • sus Q • 9 . lkokup � • CU 1- 9. V ..: v. •II z. i ar co 0 co C/ f • %-1e69 i --7 ,/,/ (Thi, `9,9, --I `9 N / r-} • LLI s r < .. r �s9 • N N °sC� 1 /© i t Q CO 1 �,_./•' / t v co � �' �r \ J`s ' c o COv 1. I! 1 W a = C3'- Q �6�9 9 • O Y a • p Q (N '� ,I • N T` © % ) • cu7 4/ n C!) r'!1, O • Davies, Stephen F (DOA) From: Lastufka,Joseph N <Joseph.Lastufka@bp.com> Sent: Tuesday,January 05, 2016 9:31 AM To: Davies, Stephen F (DOA) Cc: Gorrell,John Subject: RE: S-112 AoR Revision 2.docx(PTD#215-222) Steve, According to the pad engineer, a volumetric cement job will be pumped to isolate the fault crossing, placing cement 500' below the whipstock. If high losses are encountered that would suggest we cannot get cement to isolate the fault, there is a contingency to run a sliding sleeve above the loss zone to allow for a remedial cement job to be pumped. Please let me know if you need anything else. Thanks, Joe From: Davies, Stephen F (DOA) [mailto:steve.davies©alaska.gov] Sent: Monday, January 04, 2016 3:03 PM To: Lastufka, Joseph N Cc: Gorrell,John Subject: RE: S-112 AoR Revision 2.docx(PTD #215-222) Joe and John, I have two additional questions. Since this injection well is expected to cross at least one fault within the Kuparuk Formation,what are BP's surveillance plans to ensure that injected fluids and gas do not utilize this fault plane as a conduit to migrate out of the Kuparuk injection interval? Should out-of-interval injection be observed or inferred,what are BP's contingency plans? Thanks, Steve Davies AOGCC CONFIDENTIALITY NOTICE: This e-mail message,including any attachments,contains information from the Alaska Oil and Gas Conservation Commission (AOGCC),State of Alaska and is for the sole use of the intended recipient(s). It may contain confidential and/or privileged information.The unauthorized review, use or disclosure of such information may violate state or federal law. If you are an unintended recipient of this e-mail, please delete it,without first saving or forwarding it,and,so that the AOGCC is aware of the mistake in sending it to you,contact Steve Davies at 907-793-1224 or steve.davies@alaska.gov. From: Lastufka, Joseph N [mailto:Joseph.LastufkaCa�bp.com] Sent: Monday, January 04, 2016 2:07 PM To: Davies, Stephen F(DOA) Cc: Gorrell,John Subject: RE: S-112 AoR Revision 2.docx (PTD #215-222) Steve, 1 • • The plan is to flow back for^2 weeks to clean up the well prior to placing on injection. Please let me know if you need any additional information. Thanks, Joe From: Davies, Stephen F (DOA) [mailto:steve.davies@alaska.gov] Sent: Monday, January 04, 2016 10:53 AM To: Lastufka, Joseph N Subject: RE: S-112 AoR Revision 2.docx (PTD #215-222) Thanks again Joe. I have one more question. Will BP pre-produce PBU S-112L1 or simply flow it back for a short time for clean up? If it will be pre-produced,for how long? Thanks, Steve Davies AOGCC CONFIDENTIALITY NOTICE: This e-mail message,including any attachments,contains information from the Alaska Oil and Gas Conservation Commission (AOGCC),State of Alaska and is for the sole use of the intended recipient(s). It may contain confidential and/or privileged information.The unauthorized review, use or disclosure of such information may violate state or federal law. If you are an unintended recipient of this e-mail, please delete it,without first saving or forwarding it, and,so that the AOGCC is aware of the mistake in sending it to you,contact Steve Davies at 907-793-1224 or steve.davies@alaska.gov. Sent from my desktop PC From: Lastufka, Joseph N [mailto:Joseph.Lastufka@bp.com] Sent: Thursday, December 31, 2015 12:00 PM To: Davies, Stephen F (DOA) Cc: Gorrell, John Subject: S-112 AoR Revision 2.docx Steve, please let me know. i AOR for S-112BL1. Ifyou have any Please see attached for the final revised Thanks, Joe 2 • S S-112L1 Area of Review (Revision 2) The following wellbores are within the%mile radius of the planned welipath of S-112L1 in the Kuparuk reservoir. For review in preparation for drilling the injector S-112L1,the primary cement jobs for each of the wellbores and current status have been provided. 1) S-10 — Producer originally drilled and completed in 1982. A sidetrack was attempted in 1991, but it was unsuccessful and the well was P&A'd and then suspended and never to be flowed again. a. The 13-3/8" surface casing was ran 2679' MD. The initial cement job was pumped with 4000 sacks of 15.2 ppg Arctic Set II cement. Good returns were see, and the plug was bumped, but cement was not returned to surface. A top job was performed with 72 sacks of Arctic Set I pumped and returns to surface seen. b. The 9-5/8" intermediate casing was ran to 8985' MD. A 2 stage cement job was performed by first pumping 210 bbl of 15.8 ppg cement, and the plug was bumped (float collar at 8944' MD). The second stage was pumped by first dropping a bomb to inflate a packer and open the DV packer at 2616' MD. Next, 212 bbls of Arctic Pak was pumped was pumped, followed by 27 bbls of 15.7 ppg of Arctic Set I cement. It was reported that 89 bbls of Arctic Pak was returned to surface. No issues were reported during the job. Based on volumetric calculations assuming 30% OH excess, this would put TOC at an estimated 6130', and from 2616' (DV packer) to 2150' in the 13-3/8" x 9- 5/8" annulus. 2) S-16 —An oil producer that is currently shut in and classified as non-operable. It was originally drilled and completed in 1984. It has had two workovers performed, once in 1992, and the other in February of 2015. a. The 13-3/8" surface casing was ran to 2673' MD. The initial cement job was pumped with 580 bbls of Arctic Set III lead cement, followed by 82 bbls of Arctic Set II tail cement. The plug was bumped, but no returns were seen at surface. Shortly afterwards a top job was performed with 100 sacks of Arctic Set II cement with good returns seen to surface. b. The 9-5/8" intermediate casing was ran to 10693' MD. The cement job was performed with 370 bbls of 13.2 ppg class G lead cement, followed by 41 bbls of 15.8 ppg class G tail cement. It was noted that good returns were seen throughout the job, but the plug was not bumped. When drilling out the shoe, it was noted that hard cement was tagged up at 10545' MD (float collar at 10565' MD). Using volumetric calculations, this would put TOC at an estimated depth of 5160' MD, assuming a 30% excess. 3) S-21—An oil producer drilled in 1990 that is currently online. a. The 13-3/8" surface casing was ran to 2688' MD. The cement job was performed by pumping 363 bbl of Arctic Set III 12.1 ppg lead cement, followed by 225 bbl of Arctic Set II 15.2 ppg tail cement. The plug was bumped, full returns were reported throughout the job, and there were good returns to surface. b. The 9-5/8" intermediate casing was ran to 9883' MD. The cement job was performed 267 bbl of 13.5 ppg class G lead cement, followed by 102 bbl of 15.8 ppg class G tail cement. It was not reported whether the plug was bumped or not, but no issues were • • reported. It was noted that the float collar was tagged on depth (9766' MD), and hard cement was drilled through the shoe track. Using volumetric calculations, this would put TOC at an estimated depth of 4915' MD, assuming a 30% excess. 4) S-22 — Producer originally drilled and completed in 1991. It has since been sidetracked twice in 1993 and 1997, and had a workover performed in 2001. a. The 13-3/8" surface casing was ran to 2685' MD and cemented with 497 bbls of 12.1 ppg Arctic Set III lead followed by 168 bbls of 15.2 ppg Arctic Set II tail. A top job had to be performed to bring cement to surface, and 19 bbl of 16.0 ppg Artic Set I cement was used. b. The 9-5/8" intermediate casing was set at 9726' MD and cemented in place with 308 bbls of 13.5 ppg lead followed by 51 bbls of 15.8 ppg tail cement. Based on volumetric calculations assuming 30% 12.25" OH excess, this places TOC at an estimated 4900' MD. There were no issues reported. c. S-22A was sidetracked from S-22 in 1993. The window was milled from 8453' to 8503' MD. The well was P&A'd with 15.8 ppg class G cement out of open ended drill pipe to an estimated TOC of 8250' MD. 5) S-22B — S-22B was sidetracked to its current location in July of 1997, and initially was a Sag River and Ivishak producer. The window was milled out of S-22's 9-5/8" casing from 5402' to 5418' MD. A RWO to replace corroded tubing and convert the well to injection was performed in June of 2001. The well is currently on injection, however during the drilling of S-112L1, S- 22B will have a tubing tail plug set, and be shut in for anti-collision and pressure management reasons. a. The 7" intermediate liner was run to 9452' MD and cemented in place with 50 bbls of 11 ppg Class G lead followed by 39 bbls of 15.8 ppg Class G tail. A pressure spike was seen indicating a positive shear for the dart release, however the plug was not bumped. After setting the liner hanger, an estimated 20 bbls of cement was reverse circulated to surface, indicating cement at TOL (5204' MD). No losses were reported during the cement job. 6) S-24 — An oil producer originally drilled and completed in 1990. It was P&A'd for a rotary sidetrack in 1999. a. The 13-3/8" surface casing was run to 2668' MD. It was cemented with 358 bbl of 12.1 ppg Arctic Set III lead cement, followed by 230 bbl of 15.2 ppg Arctic Set II tail cement. The plug was bumped with good return to surface. b. The 9-5/8" intermediate casing was ran to 9844' MD and cemented in place with 260 bbl of 13.5 ppg class G lead cement, followed by 102 bbl of 15.8 ppg class G tail cement. The plug was bumped (float collar at 9725' MD), and no losses were reported. Using volumetric calculations, this would put TOC at an estimated depth of 4975' MD, assuming a 30% excess. 7) S-25 — An oil producer that was originally drilled and completed in 1990. It was P&A'd for a CTD sidetrack in 1998. i • a. The 13-3/8" surface casing was ran to 2673' MD, and was cemented in place with 1039 sacks of Arctic Set III lead cement, followed by 1372 sacks of Arctic Set II tail cement. The plug was bumped and a reported 71 bbls of cement was returned to surface. b. The 9-5/8" intermediate casing was ran to 9140' MD, and cemented with 230 bbl of lead cement and 102 bbl of tail cement. The plug was bumped (float collar at 9024' MD), and no losses were reported. Using volumetric calculations, this would put TOC at an estimated depth of 4690' MD, assuming a 30% excess. 8) S-26 — An operable oil producer that is currently shut in due to low recovery. It was drilled in 1990, and a RWO was performed in 2008 to repair IAxOA communication. a. The 13-3/8" surface casing was ran to 2683' MD and cemented into place with 358 bbl of 12.1 ppg Arctic Set III lead cement, followed by 229 bbl of 15.2 ppg tail cement. The plug was bumped, and no issues were reported, but returns were not seen at surface. A top job was pumped with 100 sacks of Arctic Set I cement to surface. b. The 9-5/8" intermediate casing was ran to 8816' MD and cemented in place with 230 bbl of 13.5 ppg Class G lead cement, followed by 102 bbl of 15.8 ppg Class G tail cement. The plug was bumped (float collar at 8695' MD), and no issues were reported. Based on volumetric calculations, and assuming 30% 12.25" OH excess, estimated TOC is at 4365' MD. 9) 5-33 — Operable oil producer shut in for low production. It was drilled and completed in 1992, and a RWO was completed in 2008 to perform a tubing swap. a. The 10-3/4" surface casing was ran to 2958' MD, and was cemented in place with 925 sacks of lead cement, followed by 435 sacks of tail cement. The plug was bumped, but returns were not seen at surface. 250 sacks of Arctic Set I cement were pumped as a top job, and returns were seen at surface. b. The 7-5/8" intermediate casing was ran to 9018' MD, and cemented in place with 167 bbl of 11.5 ppg class G lead cement, followed by 54 bbl of 15.8 ppg class G tail. The plug was not bumped, and no losses were reported. When drilling out the shoe track, the top plug and hard cement were tagged at 8082' MD (float collar at 8834' MD). Accounting for the volume of cement left in the casing, and assuming 30% OH excess, this would place estimated TOC at 5434' MD. 10)S-34 — S-34 is a Sag River and Zone 4 produced water injector that was originally drilled and completed in 1993. It recently had a RWO performed in November of 2015 to repair TxIA communication. The well will soon be operable, and injection will resume once well tie-in is complete. a. The 13-3/8" surface casing was ran to 2901' MD and cemented into place with 365 bbls of 12.2 ppg Cold Set III cement, followed by 84 bbls of 14.9 ppg Cold Set II cement. The plug was bumped, however cement was not to surface. Two top jobs of 15 ppg Cold Set 2 cement were performed of 45 bbls and 21 bbls respectively before getting cement to surface. b. The 9-5/8" intermediate casing was ran to 10115' MD and cemented in place with 333 bbls of lead and 61 bbl of tail. The plug was not bumped. When drilling out the shoe, hard cement was tagged at 10030' MD (3' above float collar). No losses were reported • • during the job. Based on volumetric calculations, and assuming 30% 12.25" OH excess, estimated TOC is at 4685' MD. 11)S-36—Operable oil producer on gas lift that was originally drilled and completed in 1992. a. The 13-3/8" surface casing was ran to 2930' MD, and cemented in place with 375 bbl of Arctic Set Ill lead cement, followed by 82 bbl of Arctic Set II tail cement. The plug was bumped and good cement was seen at surface. b. The 9-5/8" intermediate casing was ran to 9721' MD and cemented in place with 312 bbl of lead cement and 61.5 bbl of tail cement. The plug was bumped (float collar at 9641' MD) and no issues were reported. Using volumetric calculations and assuming 30%OH excess, the estimated TOC is at 4653' MD. 12)S-38—Operable oil producer on gas lift that was originally drilled and completed in 1992. a. The 13-3/8" surface casing was ran to 2893' MD and cemented in place with 364 bbl of lead cement, followed by 80 bbl of tail cement. The plug was bumped, but cement was not returned to surface. A top job was performed with 40 bbl of Arctic Set II cement with returns to surface. b. The 9-5/8" intermediate casing was ran to 9221' MD and cemented in place with 282 bbls of 12.0 ppg class G lead cement, followed by 61.5 bbls of 15.8 ppg class G tail cement. The plug was bumped (float collar at 9138' MD) and no losses were reported. Using volumetric calculations and assuming 30% OH volume, the estimated TOC is at 4652' MD. 13)S-42 — Was an oil producer originally drilled in 1996. The well was P&A'd in July of 2015 for a rotary sidetrack. a. The 9-5/8" surface casing was ran to 3077' MD and cemented in place with 290 bbl of 12.2 ppg Cold Set Ill lead cement, followed by 61 bbl of 15.8 ppg class G cement. The plug was bumped, but only traces of cement were reported at surface. A top job was performed with 51 bbl of Cold Set II. b. S-42 Plug Back 1: During the drilling of S-42's 8.5" intermediate hole section, heavy losses were encountered at a depth of 10261' MD after weighting up to a 10.4 ppg MW. Losses increased to 150 bbl/hr, and after reducing the MW back to 10.2 ppg and pumping a 60 bbl 30 ppb LCM pill, the well continued to lose fluid at a rate of 6 bbl/hr. The rig tripped out of the hole and ran in to spot a cement kick off plug. The rig then drilled out of cement to a depth of 9245' MD, and finally TD'd the hole section at 9385' MD. c. The 7" intermediate casing was ran to 9375' MD and cemented in place with 160 bbls of 11 ppg lead cement, followed by 33 bbls of 15.8 ppg tail cement. Returns were lost on the last 108 bbls, and the plug was not bumped. Hard cement was tagged at 8943' MD (float collar at 9295' MD). Using volumetric calculations, accounting for the losses, and assuming 30% OH excess, the estimated TOC is at 6861' MD. • • Fault predictions:There are two faults of concern on this well, one that is planned to be crossed, and another near the toe. Formation Where MD TVDss Throw direction Lost Circ Fault Encountered Intersect Intersect and Magnitude Uncertainty Potential Kup C sands 8376 6656 30'West +/-150'MD Moderate Kup C sands—not N/A N/A 30'West +/-150'MD Moderate penetrated Lost circulation incidents: North-south faults are typically the most conductive in the Aurora area. Two nearby wells have experienced significant lost circulation while crossing Aurora faults in reservoir, S-111 and S-114A. Top Seal Competence: The top seal for the Aurora pool is the Kalubik and HRZ. In our S-112L1 area of interest, the HRZ and Kalubik combined thickness ranges between 100- 250ft TVD-the Kalubik only makes up a thin (10-20ft TVD) of this section. The HRZ shale is a highly organic rich marine flooding surface with very low permeability and good seal capacity, ensuring a high likelihood of containing injected fluids within the Kuparuk reservoir zone. Injection pressures are safely below the shale fracture gradient, which in this area has an estimated frac pressure of 16.7ppg. Below is a table listing the depths in MD and TVDss for the top of the Aurora Oil Pool in the above listed wells, followed by a map showing the wells in the Area of Review: Well MD TVDSS PBU S-10 6844.5 6651.4 • PBU S-16 7790.2 6606.4 • PBU S-21 7348.8 6600.5 • PBU S-22 7182.8 6607.4 PBU S-22B 7118.7 6612.6 PBU S-24 7337.2 6667.6 PBU S-25 6793.2 6609.7 PBU S-26 6856.7 6626.2 PBU S-33 6700 6600 PBU S-34 7648.0 6624.0 PBU S-36 6910 6610 PBU S-38 6913 6663 PBU S-42 7238.2 6648.2 PBU S-42PB1 7238.2 6648.2 • . .. • / to,I ///, • .., 411:,,k ..........,\,\111:,/,,a/............ ..................,741: - 3 • 1.t. • • ''-'-'''''''''..-11IIIIIIIIIIIIIIIII .741111H: t , -.1 .- -- r--1 •, ..ii. - \,."4 (;) ----0--... 1 - atiwar--- , . ir ) o ,fir ,.._ el • 0 ... • li. Plir , :47-j 0 •--' 0 -- C - -0 __ __,-- Aar • , _."----/- ----.----- -0 CU / 0 n LO"' 7.--' \ • V) V) 03 '-.. • , • ‘N\ \ • 16 co > L--• 0 cu _c -- v) •- E v) •+-5 1 , i i a 0 41:5 / ci) c N v) (1) CU 0_C_________--------...,......., i .., T.5 _.. \ ) • • , - D U s_ co \ 03 (I) \ .." D 04 (1) wN N NI' LO CD CO `I' CO CO N D CO i '1- , 1/2 6 6 I 6 6 Cl) 6 I I 6 Cl) 6 Cl) • OOOOOOOO • • • . • • Davies, Stephen F (DOA) From: Davies, Stephen F (DOA) Sent: Tuesday, December 22, 2015 11:53 AM To: 'John.Gorrell@BP.com'; Lastufka,Joseph N (Joseph.Lastufka@bp.com) Subject: RE: PBU S-112L1 (PTD#215-222) John and Joe, In addition to the information requested below,could BP also provide measured depths (MD)and true vertical subsea depths(TVDSS)for the top of the Aurora Oil Pool in the following wells? Well MD TVDSS PBU S-10 • PBU S-16 PBU S-21 PBU S-22 PBU S-22B - PBU S-24 PBU S-25 PBU S-26 ' PBU S-33 PBU S-34 ' PBU S-36 PBU S-38 PBU S-42 PBU S-42PB1 • According to the AOGCC's current records,the wells and wellbores listed in this table intercept the top of the Aurora Oil Pool within the Area of Review(AOR)for PBU S-112L1. Those highlighted with red-colored text are not included in BP's cement isolation evaluation for PBU S-112L1. Could you please confirm whether or not these additional wells and wellbores intercept the Aurora Pool within the AOR? For those additional wells that intercept the pool within the AOR, please provide evaluations of cementing operations and current status. Regards, Steve Davies Senior Petroleum Geologist Alaska Oil and Gas Conservation Commission (AOGCC) Phone: 907-793-1224 AOGCC: 907-279-1433 Fax: 907-276-7542 333 West 7th Avenue,Suite 100 Anchorage,AK 99501 CONFIDENTIALITY NOTICE: This e-mail message,including any attachments,contains information from the Alaska Oil and Gas Conservation Commission(AOGCC),State of Alaska and is for the sole use of the intended recipient(s). It may contain confidential and/or privileged information.The unauthorized review, use or disclosure of such information may violate state or federal law. If you are an unintended recipient of this e-mail, please delete it,without first saving or forwarding it,and,so that the AOGCC is aware of the mistake in sending it to you,contact Steve Davies at 907-793-1224 or steve.daviesPalaska.gov. 1 • • From: Davies, Stephen F (DOA) Sent: Monday, December 21, 2015 7:15 PM To: 'John.Gorrell@BP.com' Cc: Lastufka, Joseph N (Joseph.Lastufka(abp.com) Subject: FW: PBU S-112L1 (PTD #215-222) John and Joe, I'm currently reviewing the Permit to Drill application for BP's planned WAG injection well branch PBU S-112L1. The structure map provided by BP today is not legible. Could BP please submit a detailed structure map of the PBU S-Pad area at the top of the Aurora Oil Pool that is not filled with a dark color? Please show all wells and well branches that penetrate the Kuparuk formation within and near theY4-mile radius Area of Review(AOR)surrounding PBU S-112L1. On the map,show structure contours, intercepts of all wells and well branches with the top of the Aurora Oil Pool,and all faults that cut the pool within and near the AOR. Include governmental section lines on the map. Please provide a list of fault-cuts(MD,TVDSS and vertical displacement)that have been observed within wells and wellbores in and near the AOR. Discuss any occurrences of lost circulation in those wells and well branches that have occurred while drilling. Discuss the thickness and competence of the top seal for the Aurora Oil Pool within the AOR that will ensure injected fluids remain within the pool. Please let me know if you have any questions or if I can help further. Regards, Steve Davies Senior Petroleum Geologist Alaska Oil and Gas Conservation Commission (AOGCC) Phone: 907-793-1224 AOGCC: 907-279-1433 Fax: 907-276-7542 333 West 7th Avenue,Suite 100 Anchorage,AK 99501 CONFIDENTIALITY NOTICE: This e-mail message,including any attachments,contains information from the Alaska Oil and Gas Conservation Commission(AOGCC),State of Alaska and is for the sole use of the intended recipient(s). It may contain confidential and/or privileged information.The unauthorized review, use or disclosure of such information may violate state or federal law. If you are an unintended recipient of this e-mail, please delete it,without first saving or forwarding it,and,so that the AOGCC is aware of the mistake in sending it to you,contact Steve Davies at 907-793-1224 or steve.davies@alaska.gov. 2 • • OVERSIZED DOCUMENT INSERT This file contains one or more oversized documents. These materials may be found in the original hard file or check the parent folder to view it in digital format. • • TRANSMITTAL LETTER CHECKLIST WELL NAME: — //Z L- PTD: 2/ 2 z.._z- _Development ✓ Service Exploratory Stratigraphic Test Non-Conventional FIELD: 44.jPOOL .tt (7-11( ®[=" Check Box for Appropriate Letter/Paragraphs to be Included in Transmittal Letter CHECK OPTIONS TEXT FOR APPROVAL LETTER MULTI The permit is for a new wellbore segment of existing well Permit LATERAL No. ze Z- API No. 50-d z7-2-30 -G 06. (If last two digits , elietr should continue to be reported as a function of the original in API number are API rtber stated above. between 60-69) In accordanceith 20 AAC 25.005(f), all records, data and logs acquired for the pilot hole must be clearly differentiated in both well Pilot Hole name ( PH) and API number (50- - ) from records, data and logs acquired for well (name on permit). The permit is approved subject to full compliance with 20 AAC 25.055. Approval to produce/inject is contingent upon issuance of a conservation Spacing Exception order approving a spacing exception. (Company Name) Operator assumes the liability of any protest to the spacing exception that may occur. All dry ditch sample sets submitted to the AOGCC must be in no greater Dry Ditch Sample than 30' sample intervals from below the permafrost or from where samples are first caught and 10'sample intervals through target zones. Please note the following special condition of this permit: production or production testing of coal bed methane is not allowed for Non-Conventional (name of well) until after (Company Name) has designed and Well implemented a water well testing program to provide baseline data on water quality and quantity. (Company Name) must contact the AOGCC to obtain advance approval of such water well testing program. Regulation 20 AAC 25.071(a)authorizes the AOGCC to specify types of well logs to be run. In addition to the well logging program proposed by (Company Name) in the attached application,the following well logs are also required for this well: Well Logging Requirements Per Statute AS 31.05.030(d)(2)(B) and Regulation 20 AAC 25.071, composite curves for well logs run must be submitted to the AOGCC within 90 clays after completion, suspension or abandonment of this well. Revised 2/2015 0 ! r . - 3 To a) (0 c a o To a o 0 0 0 o @ _co as w a , , , m o, U' a ' coc co, m, •�� • �� O pc , aLo Cs/, c co 6 m of I .� W, a �' as (0 °' 2 �, a) o' o' o' a. y CO O r) d r+ E' a 4 ' ' o' a. E O No y' M' O' U o = O Uj U) a (0 W L E 0' M. .L-. 8' N' N' a) D: (0 �, 0)V O 0 L � _ � � ,' .O. a' N' O 0 j cra —' ZN' . c , a), n. ' Oi • a) „ o a I N a , N mcaiE�, � o' , a, 01 co CI � s. W Oao L 0, , MN , >'. VCOCO mN0 C- 0' `A- ° N ' N � ° a E, n ma 30Mv = D 0 (211 O cre, T aNaD. c' @ yy, 3. 4 at CO a' :Sr.'.' v) m w' 3 a' ai� coi� �° c� m �' .m a`a) � E "c .0 cin E) o Q g' c Q, N. 3; c, o) ca d, 1 2' oa o� y� 5, �' c 3 c Q m, m' —' ca > v> �, ' O' N. 3' _ — m E o m, W a L E, cc w. 0 (0 m o' n a (' vi 3 a) E a) C7 O' P. -g m; .- o' o v' > n' ui m' E' a' p 3 () z _ `.. p N, �, d, 7, U' U' C) N �, O d, U' V7 Gi aNi o L _ N O' U N, p CO � O f0 7, �� C' :0, = .0. °) Z �, 3' @ O. y, a o' rn �, a. N, p' D. as. m. a) 3 W W. a' W' m' a' Q, CO a' U, CO CO a' i' <' g M' I. a' a Cl- o) :c avi a -a ro co c.- co 2 n__o , co U) U) U) co co (0 co CO CO U) 0 U) CO CO CO U) , 0 CO U) U) co U) CO U) CO < <, a), a), a), a), a), a), m, a), a), a), a), a), a), a), o, a, <; <; <, a), a), a), <, a) a, a), a), a), a) a). a), a), O, a), a; <; < a z. z >- > � � >- >- >- >- >- >- >- >- >- >- z z z z z >- >- >-, z >- z >- >- >- >- >- >- >' z, >- z z z T iiiy ca To , E m . C N, C �$ O ' o, U"co- _ v, .o N T , , c t, a ! a E , ,v 3' M, Co o, Z. I co . Q �' C, Z o o' a Z, , ai' E @_ O Q' co or 01 m > N' o ia'c, vi , co cr .0 W �. � �' � ' jNNp • CY \ > M� 09 'p3a Up: O _ N Q. a "O • C � � CO U ' Li co 0 � C OyL7c O .0 5 O, " (n >, , < NN' a)' O) .OO EvO a c 'O' R' a)' 4 D O. , aa, v', o, Ui', vy;,, �a, •o, c .ovasi,' 3a,' a3,, o'' �'', o, N' .N,' '` 0> m , O O O) a) . awa .�Cac. La[ e' LmN' wo O co 0 � , ( Q' ' C > C, 0 N _ '0, Cco E 1. w OCN1 � LN' o. L pE c ” c O 0,= co o o -o o UvN „ O Oe' O3o 0, pUa oa • 'oa) d2° a •3 Oa> sT c o En aN ., w C U x a) C - a) iN D Q o _a a CD a) - co > > °' m ' mooao' - @' t' 2 . . oa) 0 CL Ea 0 0 0 , a o Oova . ,00 -- . Em' 3cu. Ea m 3 ac E a Q O 1),, a , ,, .n, mo , .c, _ca, O' s- v m 7 ...q. n ? o0 = D o (,), o n 0 = o' 3cEco, c' m, a a oa, o' a) cc w' n5a �' o ) o - y ma) o �' 3o � aoE W o o c o o a= o a >, , a), a u v, o � i. 5' � o O2oOa) Yc' av $' Oy -° a' o' atoa) Ocjv0° o ) C)' � aU Cl- O '4aN NOoU a3 0 a ON '- ac' OO ( 0CD N E 0O - a = Co UO et) a VLa Oa4 01aa U) co a L' 'a, a .- 0 � o m c U3N UO CL U, v' as, E' co Om V 4 N !, as, . 9) a)' m Ca ' ' >, mv. 7' 2 c0vy' oa aa ) 3Cc ca 3 3' � - 0 aS o a > ' aO, m mos, a a 2 Ui >, aa). a) vc ooo cmET oo0 ) , > 0a � :o Et C \Jac CO' 'p 0 a U, E �' • o oOo y :° D .EoOa' f0a) c w' w ( 1. f 0 - 0U O - O U a) c1�. > U o mmm 5 a 3 ) O = a C3Cmo � �o ao o0 0n ° m, o, ' >• > . cT 5 m cww a) u) aS " o: ai m Ym , = a" a) c �' , , ' , u f .c ° aa) o ma) ' ' 44 ) (om , za � Dss5u) = 000._ 0.. 0 ¢ a 0U) 0000 < ..< _ 0 CO CO 0 W 2 agmC0 CO �. W 2.V -N- N M (O (O h CO 0) O N M .1. U___0 M O- NO N NN M .4 (N O Nr CON N O M MN M VM M cc ncr. M0 O) 1 U (0 (O _ O a) 2 O C °' O .. N U O Ce N 0 0 CO 0) 0 CO CI N O N CL L LLI (`6 ,-- C `- (N O E `) N = a) a) C7 E J E ` O O W a E a L a) a j m a U > a a a W a O a
