Department of Commerce, Community, and Economic Development
Alaska Oil and Gas Conservation Commission
Loading...
HomeMy WebLinkAbout180-116 • STATE OF ALASKA • 'e-Ani VEU
�'Imo.�
ALASKA OIL AND GAS CONSERVATION COMMISSION
la.Well Status: Oil
COM❑PLETGO ❑N OReR❑ECOMPLE❑TION Suspended
A1�110�
Gas Abandoned lb.Well Class:
20AAC 25.105 2oAAC 25.110 Developmer}t or. ratory ❑
GINJ ❑ WINJ ❑ WAGE WDSPL❑ No.of Completions: _0 Service �uf�� c Test
2.Operator Name: 6. Date C p.,Susp.,or 14. Permit to Drill Number/ Sundry:
Hilcorp Alaska, LLC Aban) 11/8/2017 . , 180-116/317-164 ,
3.Address: 7. Date Spudded: 15.API Number:
3800 Centerpoint Drive,Suite 1400,Anchorage,AK 99503 October 18, 1980 50-733-20080-01-00 '
4a. Location of Well(Governmental Section): 8. Date TD Reached: 16.Well Name and Number:
Surface: 2392'FSL, 1376'FEL,Sec 13,T1ON, R12W,SM,AK October 28, 1980 Granite Pt St 24-13RD '
Top of Productive Interval: 9. Ref Elevations: KB: 115' - 17. Field/Pool(s):Granite Point Field
N/A GL:0 BF:53.9' Middle Kenai Oil Pool .
Total Depth: 10. Plug Back Depth MD/TVD: 18. Property Designation:
613'FNL,2063'FEL,Sec 13,T1ON, R12W,SM,AK 8,130'MD/7,872'TVD ADL018761
4b. Location of Well(State Base Plane Coordinates, NAD 27): 11.Total Depth MD/TVD: 19. DNR Approval Number:
Surface: x- 263406 y- 2544538 Zone- 4 10,640'MD/10,286'TVD N/A
TPI: x- y- Zone- 12.SSSV Depth MD/TVD: 20.Thickness of Permafrost MD/TVD:
Total Depth: x- 264039 y- 2542243 Zone- 4 N/A N/A
5. Directional or Inclination Survey: Yes U (attached) No Q 13.Water Depth, if Offshore: 21. Re-drill/Lateral Top Window MD/TVD:
Submit electronic and printed information per 20 AAC 25.050 75' (ft MSL) 8,130'MD/7,872'TVD
22. Logs Obtained: List all logs run and,pursuant to AS 31.05.030 and 20 AAC 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
N/A
SCANNED MJY 022013
23. CASING, LINER AND CEMENTING RECORD
WT. PER SETTING DEPTH MD SETTING DEPTH TVD AMOUNT
CASING FT. GRADE TOP BOTTOM TOP BOTTOM HOLE SIZE CEMENTING RECORD PULLED
18" 70.6# B Surface 592' Surface 592' 22" 650 sx
13-3/8" 61# J-55 Surface 3,960' Surface 3,841' 16" 1850 sx
9-5/8" 40/43.5# N-80 Surface 8,130'(TOW) Surface 7,872' 12-1/4" 400 sx
24.Open to production or injection? Yes ❑ No ❑✓ 25.TUBING RECORD
If Yes, list each interval open(MD/TVD of Top and Bottom; Perforation SIZE DEPTH SET(MD) PACKER SET(MD/TVD)
Size and Number; Date Perfd): N/A N/A N/A
ike,Pr}.1OONEj'
26.ACID, FRACTURE, CEMENT SQUEEZE, ETC.
Jr. Was hydraulic fracturing used during completion? Yes❑ No ❑✓
11 -s-_1-4- Per 20 AAC 25.283(i)(2)attach electronic and printed information
VERIFIED DEPTH INTERVAL(MD) AMOUNT AND KIND OF MATERIAL USED
LL
27. PRODUCTION TEST
Date First Production: Method of Operation(Flowing,gas lift,etc.):
N/A N/A
Date of Test: Hours Tested: Production for Oil-Bbl: Gas-MCF: Water-Bbl: Choke Size: Gas-Oil Ratio:
Test Period —0.-
Flow
Flow Tubing Casing Press: Calculated Oil-Bbl: Gas-MCF: Water-Bbl: Oil Gravity-API(corr):
Press. 24-Hour Rate —
Form 10-407 Revi ed2064
-� 2.,(2_ •�y_
017 /V CONTINUED ON PAGE 2 RBDMS t\– JAN 2 4 2C18 Submit ORIGINIAL onl r
• •
28.CORE DATA Conventional Core(s): Yes ❑ No Q Sidewall Cores: Yes ❑ No Q
If Yes, list formations and intervals cored(MD/TVD, From/To),and summarize lithology and presence of oil,gas or water(submit separate pages with this form,
if needed).Submit detailed descriptions,core chips,photographs,and all subsequent laboratory analytical results per 20 AAC 25.071.
29. GEOLOGIC MARKERS (List all formations and markers encountered): 30. FORMATION TESTS
NAME MD TVD Well tested? Yes ❑ No Q
Permafrost-Top If yes, list intervals and formations tested, briefly summarizing test results.
Permafrost-Base N/A N/A Attach separate pages to this form, if needed,and submit detailed test
Top of Productive Interval information, including reports,per 20 AAC 25.071.
Formation at total depth: Tyonek
31. List of Attachments: Wellbore Schematic, Decomplete Reports.
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.
Authorized Name:Monty Myers Contact Name: Cody Dinger
Authorized Title: Drilling Manager Contact Email: cdinger(7A,hilcorp.com
Authorized Contact Phone: 777-8389
Signature: Date: t . kck.
INSTRUCTIONS
General: This form and the required attachments provide a complete and concise record for each well drilled 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 1 b: Well Class-Service wells:Gas Injection,Water Injection,Water-Alternating-Gas Injection,Salt Water Disposal,Water Supply for Injection,
Observation,or Other.
Item 4b: TPI(Top of Producing Interval).
Item 9: The Kelly Bushing,Ground Level,and Base Flange elevations in feet above Mean Sea Level. Use same as reference for depth measurements
given in other spaces on this form and in any attachments.
Item 15: The API number reported to AOGCC must be 14 digits(ex:50-029-20123-00-00).
Item 19: Report the Division of Oil&Gas/Division of Mining Land and Water: Plan of Operations(LO/Region YY-123), Land Use Permit(LAS 12345),
and/or Easement(ADL 123456)number.
Item 20: Report measured depth and true vertical thickness of permafrost. 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. Pursuant to 20 AAC 25.071,submit
detailed descriptions,core chips, photographs,and all subsequent laboratory analytical results, including,but not limited to:porosity,
permeability,fluid saturation,fluid composition,fluid fluorescence,vitrinite reflectance,geochemical,or paleontology.
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 5/2017 Submit ORIGINAL Only
Granite Point Platform
11 III Abandoned III Well:Granite Pt St#24-13RD
Last Completed: Future
PTD: 180-116
Ilileorp Alaska,LL(:
API: 50-733-20080-01
Casing Detail:
SIZE WT GRADE CONN ID TOP BTM.
18" 70.59 B Ventura Surf 592'
13-3/8" 61.0 J-55 Butt.LT&C 12.515 Surf 3,960'
m
t 9-5/8" 40&43.5 N-80&S-95 Butt.LT&C 8.755 Surf 8130'(KOP)
7" 29 N-80 Butt.LT&C 6.184 9,054' 10,640'
Tubing Detail:
z , '2" 9.2 L-80 EUE 8rd 2.992 9,356' 9,379'
3-1/2" 9.2 N-80 Buttress 2.992 9,379' 10,359'
Jewelry Details
\ TOW 8130' MD No. Depth Depth ID OD Item
BOW' 8147' MD (MD) (TVD)
\ 1 8,148' CIBP(set for whipstock)
1
CIBP 8,148'
2 9,379' 9,076' 2.97 HES No-Go Sub w/20'seal assy.
3 9,380' 9,077' 4.0 HES 7"23-323#BWD Permanent Packer
TOC 8 781' 3B 9,379' 9,076' 2.97 HES SealAssembl
.. w .s.-.t.; / y (9,379 9,400)
'...,-;,.,,..1..,. + 4 9,383' 9,080' 4.0 HES Seal-bore Extension (9,383-9,407)
'` -,-;40,1.:,' ,.^t~ , -i 5 9,407' 9,103' 4.408 HES Mill-out Extension (9,407-9,415)
-,`,,:11-4.^-!.. ``' 4- - .....'' 6 9,451' 9,145' 3.00 Baker G-22 Locator
7
78 9,452'
9,452' 9,146'
9,146' 4.00
3.0 Baker Model"FB-1"Ret.Prod.Pkr.
L 2 �
L J -L 3,3 B, Baker 80-40 Seal Assembly(L=16.72) (9,452-9,469)
M 5 8 9,467' 9,160' 3-1/2"Camco MMGW Mandrel#1 W/Dummy valve.
T i 9 9,690' 9,374' 3.00 Baker Model"G-22"Locator w/80-40 Seal Assy,16.43
Restriction in Tbg.
@ 9358'for tools Ing
>2.5"OD 10 9,690' 9,374' Baker Model"FB-1"Ret.Prod.Pkr.
6 11 9,693' 9,377' Millout Ext.w/5"8rd X 3-1/2"Butt.XO
: : 7, 7B 12 9,720' 9,403' 3-1/2"Camco MMGW Mandrel#2 w/Dummy Valve
13 10,165' 9,829' 3.00 Baker Model"G-22"Locator w/80-40 Seal Assy,16.43
Ing
8 14 10,165' 9,829' Baker Model"FB-1"Ret.Prod.Pkr.
C 2 15 10,168' 9,832' Millout Ext.w/5"8rd X 3-1/2"Butt.XO
16 10,217' 9,879' 3-1/2"Camco MMGW Mandrel#3
9 17 10,286' 9,946' 3-1/2"Camco MMGW Mandrel#4
18 10,358' 10,015' NA Bull Plug (btm 10,359')
-"I.: : 10
11
Perforated Tbg.on �t 12 Fill tagged 3/12/88 @ 10,123. Collapsed TBG tagged w/1.5"ID
9/9/88 9711'-9713.5' Fish:Two%Belly Springs(3/8"x3"x1/16")3/16/88 @ 10,123';DummyValve lost 11/6/82 @ 10,300';
10 shots @ 4spf 0° C 5
phase = C5 Dummy Valve W/O Prong stuck in#2 Mandrel @ 9,720'
Tagged collapsed tbg C6
4/1/88 @ 10,106' , -
Fill first tagged on 3/12/88 Q 1 3 PERFORATION DETAIL
ItA0,-11I
15 14 Zone Top
(MD) Btm Top BtmFT
(MD) (TVD) (ND) Date Status
9,505' 9,507' 9,196' 9,198' 2' 11/5/1980 Sqz Perfs f/Bond
11
16 9,548' 9,550' 9,238' 9,240' 2' 11/4/1980 Sqz Perfs f/Bond
17 Mit 10,372' 10,374' 10,028' 10,030' 2' 11/4/1980 Sqz Perfs f/Bond
10,418' 10,420' 10,073' 10,075' 2' 11/4/1980 Sqz Perfs f/Bond
18 C2 9,505' 9,550' 9,196' 9,240' 45' 11/10/1980 Open f/Injection
C7 CS 9,845' 9,917' 9,522' 9,591' 72' 11/10/1980 Open f/Injection
- C5 9,944' 9,954' 9,617' 9,627' 10' 11/10/1980 Open f/Injection
C6 10,060' 10,090' 9,728' 9,757' 30' 11/10/1980 Open f/Injection
C7 10,330' 10,345' 9,968' 10,002' 15' 11/10/1980 Isolated due to fill in tbg.
C7 10,358' 10,374' 10,015' 10,030' 16' 11/10/1980 Isolated due to fill in tbg.
C7 10,400' 10,420' 10,055' 10,075' 20' 11/10/1980 Isolated due to fill in tbg.
KB EL E V: = 105' C7 10,426' 10,436' 10,080' 10,090' 10' 11/10/1980 Isolated due to fill in tbg.
PBTD = 10,588'TD = 10,640' C7 10,464' 10,480' 10,117' 10,132' 16' 11/10/1980 Isolated due to fillintbg.
MAX HOLE ANGLE = 21.25° @ 2600'
Updated by: JLL 3/15/17
•
•
Hilcorp Energy Company Composite Report
Well Name: GPF GP 24-13RD2
Field:
County/State: ,Alaska
(LAT/LONG):
svation(RKB):
API#:
Spud Date:
Job Name: 1711829P GP 24-13RD2 PreDrill
Contractor
AFE#:
AFE$:
.. ...................... ......\v..........:..�::.:.�::.:.:.::::.:_::... .................r...........:... .:......... .. ..:.,....... ....:....... QY:yi::i>::.;:i::.iii:::::;:::::�:2%2`s;yy:;.0
/k ...�?dfis...................,:....: .................. .......... ...................................................... :...... .. . . `fir:.>:.>:<;,.;:.;::.;:.;
5/19/2017 Load out rig 404 f/Dolly varden T/ G.P Platfrom Arrive Platform. Platform Orientation.Safety meeting and permits.,Prep drill deck.Work MN.Offload front
and rear carrier beams and set in place on drill deck. Install spreader bars between carrier beams.Set racking mat beam in place on drill deck.,Set and mount
carrier in place on beams.Install carrier walkways and landings.Mount draw works on carrier.,Offload derrick and release boat to return to Dolly Varden for next
load.Mount A-frame and derrick on carrier.
5/20/2017 Continue to load out the second boat F!G.P. Platform.
M/U drill line to draw works.
Set koomey and choke house in place,M/U koomey hoses to koomey.
Set stairs and landings across rig beams.
Set racking mat in place,Load scaffolding on flat prepping for backload of scaffolding to beach,Offload M/V Resolution.Spot rig pump and tank in place on drill
deck.
Mount gas buster on rig tank.
Set drillers shack on rear beam.
Backload scaffolding flat to boat.,Stand derrick up half-mast.
Spool drill line and cat line.
Connect brake linkage.
Mount control panel on derrick.
Lay derrick down.,lnstalled stairs&landings to carrier walkways.
Installed stairs to doghouse.
Ran air and hydraulic lines from koomey to remote panel in doghouse.
Removed all hoses and lines stored and shipped inside rig tank.,Manifold hoses and lines from rig tank to choke house and rig pump,M/U carrier stabilizer
cables.
Clean and oraanize ria connex
5/21/2017 Continue to flange up on top of tree for E-line work.,Rig up and install K5 hoses to choke manifold,place cutting box on pit side and fill pits up w/FIW 170
BLLS .,Continue rig up mud pump and pits,organize connex and rig up test pump.
NOS rep cycles well head lock down screws.,Bleed Down Tubing pres T/0,Rig up and set BPV.
N/D Tree 10000K,Wood Group Valves piece at a time.,NOS rep M/U 3 1/2"blank test sub in hanger-prepped flange and hanger for BOP N/U.
N/U 13 5/8"5M BOPE wl 11"10M adapter on btm.,Torqueing up all flange bolts to specs starting at hanger head and working up the stack.Stand up and
scope out derrick.,Continue torqueinq up BOPE flange bolts.M/U guide wires.Set driller shack and stairs.Hang floor and wind walls.
5/22/2017 Finish torqueing up all ROPE flange bolts and hanging wind walls.
Run koomey lines to BOPE.
M/U coflex hose from choke to K3 valve.
M/U all choke and kill lines.,Tighten up all derrick and carrier cables.
Function test BOP rams and remote panel.
Prep for ROPE test.,Hang tongs,set up handling tools,3-1/2"test jt, IBOP,pump-in sub and safety valve on floor.Run power pack lines to tongs.
MN Resolution arrives.Work boat offloading ELU and power pack.,M/U safety valve,IBOP and pump-in sub to 3-1/2"test jt w/ported sub on bottom,NOS rep
on floor. Fill BOPE w/FIW.,Test all BOPE 250 psi low 3500 psi high as directed in Sundry(annular tested 250 psi low 2500 psi high),in accordance with
Hilcorp and AOGCC requirements. Performed successful koomey drawdown test. Witnessed waived by Mr Regg/AOGCC 9:57 AM 5/22/217.,Rig down test
equipment.
Prep for ELU rig up
5/23/2017 R/U Pollard ELine w/full lubricator-M/U 2.5"Jet tb cutter w/ccl&wt bar-pulled inside lub and M/U to string(setting on hanger). RIH to'X'nipple at 9,341'
and tied in-continued in hole and set down at 9,358'(know tight spot in tb)-P/U to 9.356'and fired cutter(1st it above pkr at 9,380'). POOH and rigged to side
w/ELine.,Displaced well with clean FIW at 2 bpm 400 psi sending returns to production disposal well tank(rate dictated by lead op).,Reduce well clean
displacement rate to 1.60 bpm,250 psi(rate dictated by lead op).,Stop pump and displacement,clean returns to surface,well static.
700 bbl FIW total(19617 stks)
NOS rep backs out hanger lock down screws.,Latch onto string and P/U,hanger off seat at 65K,string travelling free at 87K.
Pull hanger to floor,break out and lay down same with NOS rep on floor.
Complete ELU RID,clean and organize floor and drill deck prepping to POOH with string.,POOH with 3-1/2"8RD L-80 tubing standing back in derrick and
strapping stands.
Pump 4 bbl FIW every 20 stands.
60 stands in derrick(3756'),Continue POOH with 3-1/2"8RD L-80 tubing standing back in derrick and strapping stands.
Pump 4 bbl FIW every 20 stands.,Cut joint to surface.
148 stands plus 1-single,x-nip wl pups&1-cut joint=9301.17'+38'=9,339.17'(standing strap).
Rig motor began running rough-changed fuel filters but motor failed to run-called for Moncla mechanic to repair fuel pump issue.,Moved(KOT)8-1/2"bit and
scraper w/XOs to rig floor-BHA#1 (8 1/2"x 2"Varel rock bit,5 1/4"x 1 1/2"casing scraper,5 1/2"x 2"bit sub,4 1/2"x 2 1/4"XO sub=9.47'). Pumped 30
bbls of FIW for tb displacement.
r 0 •
5/24/2017 Worked thru fuel pump issue and cranked rig motor-problem found with an fuel sensor.,M/U BHA#1 (8 1/2"x 2"Varel rock bit,5 1/4"x 1 1/2"casing scraper, I
5 1/2"x 2"bit sub,4 1/2"x 2 1/4"XO sub=9.47').,TIH w/bha on recovered 3 1/2"9.2#L-80 EUE production tubing to 9,059'(PM)(144 stands+1-single+
11.5')-lightly tagged TOL and P/U to 9,050'-13/0 single and M/U SV w/pumpin.,Lined up to reverse out sending returns across shaker. Circ hole volume+
around at 3.3 bpm 350 psi(700 bbls)-1215 hrs worked MN onloading Halb cementing equip,cutting boxes for cleanup,8rd pups and Expro caliper tools.
Shutdown pump and prepped to POOH.,POOH w/bit&scraper pumping displacement every 20 stands.,Bit and scraper out of hole.
Cleared and cleaned rig floor.
M/U mule shoed 3-1/2"SMAX pup with 3-1/2"SMAX Pin X 3-1/2"8 RD Box crossover.,Run mule shoe in hole with 3-1/2"8RD L-80 tubing
67 stands in hole(4197.08'),Continue RIH with 3-1/2"8RD L-80 tubing,3-1/2"8RD tubing on depth=9347.79'(148 stands,1 single,2(10')pups,1 single.
Safety meeting with HES,Moncla,Peak and Production Operators in attendance.,R/U HES cement unit to rig floor. Pumped 3 bbls FIW to prime lines-
pressure tested to 500 psi low 3500 psi high-batched cement,checked density on mud scale to be 15.8 ppg-pumped 2 bbls FIW at 2 bpm 50 psi.,Pump 24.6,. _
bbl 15.8 ppg neat cement-displace to tubing with 76 bbl FIW for balance at 8853'(calculated—495'of cement plug).,Broke off Halliburton iron and prepped to
pull above cement.
5/25/2017 PUH laying down 4-singles and 2-pups plus standing back 11 stands to 8,496'.,Lined up and reversed out 2 tb volumes at 2.75 bpm 230 psi-no cement in
returns. B/O hose.,POOH laying down 234 of 298 jts of 3 1/2"9.2#L-80 EUE 8rd tb-racked back 32 stands in derrick for kill string. 1330 hrs worked MN
Resolution onloading pipe rackets and Moncla winch-released boat due to crane issues. 2030 hrs MN Resolution returned-backloaded HES cementing kit and
loaded pipe rack-offloading empty pipe rack and 2 dumpsters.,Cleared and cleaned rig floor. Loaded hole with FIW and prepped for casing pressure
itest.,Pressure tested 9-5/8"casing to 2500 psi f/30 minutes on chart-Good Test.
` ' Rigging up ELU.,ELU running in with GR/CCL,junk basket and 8.37"gauge ring.
,4'' f'1, Tagged TOC at 8781'corrected depth.
c/ 0:30 hrs working MN Titan offloading 7"and 9-5/8"RTTS packers,7"and 9-5/8"circ.valves and Moncla cable spool.
Load 114 joints of 3-1/2"9.2#L-80 EUE tubing in pipe rack.,ELU breaks off GR/CCL,junk basket and gauge ring. —1/2 pint of tacky cement recovered in junk
basket
ELU M/U CBL tool suite and TIH to 8,770'. Recording CBL at report time.
Near miss incident reported on 801-broke NE corner marker light on platform while moving bundle of tb w/crane.
5/26/2017 Recorded Pollard CBL from 8,770'to 6,550'(log recorder w/0 psi on well)(correlated to Schlumberger DIL log dated 2-27-68)-top of good cement called at—
7,900'. POOH&8/0 CBL.,M/U Expro 2 3/4"multi-finger imaging tool(casing caliper)on Pollard ELine-checked out tool string on surface. TIH to 8,760'and
recorded log to surface-POOH and B/O tool string-R/D ELine.,M/U 8'(jet cut)piece of 3 1/2"9.2 L-80 EUE 8rd tb on btm of 1st stand-TIH w/32 stands(64
jts)of same recovered production string=2,011'.,NOS rep M/U hanger and landed string in tb head(EOT at 2,049')(SOW 18k PUW 19k)-installed
BPV.,Began prepping to N/D BOPE.,Continue clearing floor removing tongs,windwalls,stairs and rig floor.
Breaking bolts on BOPE stack.
Bleed down koomey,break down all koomey lines..,Remove guide lines,half mast derrick and lay down derrick.,N/D BOPE
R/D choke house,N/U Dry Hole Tree.
Break off carrier stabilizer cables.
Move stairs and walkway from across double and racking mat beam. Pulled BPV and installed 2-way check.
NOS rep pressure tests pack-off void 500 psi(5 mins),5000 psi(15 mins)-Good Test
NOS rep pressure tests Dry Hole Tree 500 psi(5 mins),5000 psi(15 mins)-Good Test. Pulled 2-way check.,Move racking mat beam to expose GP 22-13RD
well hatch.
Mark out skid beams for rig skid.,Crane operator shutdown operation to check crane systems-brought mechanic up to check functions. 0600 hrs resumed
moving equip in preparation to skid rig.
1 This will be the last report for predrill phase.
11/4/2017 Prep rig for skid.Pull dn sperry standpipe,pull section out of flowline,Turn flowline drop from shakers back toward power module.[Had Pollard recover bar and
plug from X-nipple on 11-24R14,Continue prepping for rig skid.Taking extra time to prep and hook up lines that are going to be out over the water.Cut down
cutting dump shoot and re-install. Remove upper earthquake clamps.,Have PJSM and skid top section of sub away from power module 4'2 5/8". Re-install
earthquake clamps.,Get 50'X 50'herculite bolted onto 40'hanger. Begin patch work in pits.Remove earthquake clamps&PJSM on skidding sub.Start moving
sub over well.,Finish spotting sub over well and start rigging up.Move drilling line spool&set cat walk.Install landings&handrails. Install hurricane clamps.
Bolt together riser.
11/5/2017 Pull rotary.Tie up and secure hoses at deck level under sub.Install BPV.,Nipple dn tree and remove from wellhead room.Clean up hanger,and check all the
lock dn screws.Install blanking sub.Nipple up riser.,PU BOP stack and nipple up BOPs on riser.MU choke and kill lines.Tighten bolts on bottom of sng gate.
Prep flow box and drip pan for installation.Change out air boots for flow nipple.Install flow box and get measurement for the flow nipple.Spot jet heater on
camp side of sub.Work on adjusting equalizer cables in the mud pits.,Tighten bolts on BOPE.Install drip pan&rotary table. Install flow line. Hook up hole fill
line.Hook up turn buckles. Inspect Pit#1 w/TEAM inspector.,Cont.to tighten BOPE bolts.Work on housekeeping,PM's&tool pushers check list.,M/U test jt&
RIH&attempt to M/U over planking sub.POOH&inspect&dress threads.Not able to make up with several more attempts. Break out overshot&clean&
dress in welding shop.,M/U test It(good). Fill stack w/H2O&R/U to test BOPE.
11/6/2017 Press up on BOP w/upper pipe rams closed on 4 1/2 DP to perform a shell test to 3500 psi.Everything held good.Swap over to annular an do a pre-test to 250
and 2500 psi.Looked good.Got a call from state inspector Guy Cook at 8:20 and he waived the witness of the test due to choppers on weather hold for high
winds.,Test BOPs.Test annular on 4 1/2 to 250 and 2500 psi for 5 min ea.Test all other BOP equip on 4 1/2 to 250 and 3500 psi for 5 min ea.Also tested
annular and upper rams on 3 1/2".,RD test equp.Pull blanking sub,and pull BPV.,MU landing jt and screw into hanger.BOLDS, Pull hanger to floor w/34k
wt.,RU Weatherford,LD hanger and prep to LD 3 1/2 8rd tbg.,POH laying down 3 1/2 tbg.LD 64 jts and a cut off jt. RD Weatherford.,RU pollard a-line.RIH to
set BP @ 8148'. No indication of BP set.Make several attempts with no success.POOH.Break down tools&inspect tools. M/U tools&getting good
signal.,RIH&set BP @ 8148'.POOH&R/D E-line.,M/U cleanout BHA#1 (mills&18 jts HWDP)to 569'.,RIH while picking up 4-1/2"DP to 3500'.
11/7/2017 RIH w/whipstock mill assem PU 4 1/2 DP f/3500'U 5538'.Continue RIH with pipe out of the derrick to BP at 8148'.Set dn 5k. PU to 8145 and prep to
circ.,Circ hole clean at 412 GPM,824 psi.,RU and test csg to 1500 psi for 30 min on a chart.,POOH w/clean out mill assembly f/8145'to 3821'.,Service
rig.,Cont.POOH w/clean out mill assembly f/3821'to Surface.,C/0 saver sub&grabber dies on top drive. Prep MWD tools for whipstocWmilling BHA.,M/U
whipstock/milling BHA to 589'.Shallow hole test MWD tools.,RIH whipstock/milling BHA f/589'to 5315'.
11/817 RIH with whipstock/milling assembly from 5315' to 8039'.,Establish circulation.Orient and set whip stock at 53R.35K down.TOW will be 8130'.,Drain pits of
FIW.Clean pits as necessary and take on OBM.Secure spill containment curtain on east side of rig under shaker pits.,Hold PJSM. Displace well with 9.0 ppg
OBM taking FIW returns to production well-clean tank.OBM to surface at 555 bbls pumped.Shut down.Open annular. Circulate and condition mud.Shut
down pumps.,Remove pulsars from shakers and prepare for transport. Obtain SPR's.,Mill window as per Baker rep TOW—8130'/BOW 8147',400 GPM ✓
1700 PSI,90-110 RPM,7 K TRQ.,Drill new formation(/8147'to 8160',400 GPM 1700 PSI,110 RPM,7 K TRQ.
v°FTtt
I77, THE STATE Alaska Oil and Gas
LIZ-3 ofALAS�
�� s �� - � Conservation Commission
333 West Seventh Avenue
GOVERNOR BILL WALKER Anchorage, Alaska 99501-3572
o'er *ti Main: 907.279.1433
FA :94-1 Fax: 907.276.7542
www.aogcc.alaska.gov
Stan Golis
Operations Manager SCANNED i+AA'=' £x ` ;,a.
Hilcorp Alaska, LLC
3800 Centerpoint Drive, Suite 1400
Anchorage, AK 99503
Re: Granite Point Field, Middle Kenai Oil Pool, Granite.-Pt St 24-13RD
Permit to Drill Number: 180-116
Sundry Number: 317-164
Dear Mr. Golis:
Enclosed is the approved application for sundry approval relating to the above referenced well.
Please note the conditions of approval set out in the enclosed form.
As provided in AS 31.05.080, within 20 days after written notice of this decision, or such further
time as the AOGCC grants for good cause shown,a person affected by it may file with the AOGCC
an application for reconsideration. A request for reconsideration is considered timely if it is
received by 4:30 PM on the 23rd day following the date of this letter, or the next working day if
the 23rd day falls on a holiday or weekend.
Sincerely,
Cathy ''. Foerster
Chair
DATED this ti day of May, 2017.
RBDMS tiL 1,M a`s — 3 2017
RECEIVED
STATE OF ALASKA APR 2 4 2017
ALASKA OIL AND GAS CONSERVATION COMMISSION
APPLICATION FOR SUNDRY APPROVALS AOGCC
20 AAC 25.280
1.Type of Request: Abandon ❑ Plug Perforations❑ Fracture Stimulate ❑ Repair Well ❑ Operations shutdoa❑
Suspend ❑ Perforate ❑ Other Stimulate ❑ Pull Tubing ❑ Change Approved Prograi❑
Plug for Redrill 0 ' Perforate New Pool ❑ Re-enter Susp Well ❑ Alter Casing ❑ Other: ❑
2.Operator Name: 4.Current Well Class: 5.Permit to Drill Number:
Hilcorp Alaska,LLC Exploratory ❑ Development ❑ 180-116
3.Address: 3800 Centerpoint Drive,Suite 1400 Stratigraphic ❑ Service 0 , 6.API Number:
Anchorage,AK 99503 50-733-20080-01
7.If perforating: 8.Well Name and Number.
What Regulation or Conservation Order governs well spacing in this pool? N/A
Will planned perforations require a spacing exception? Yes ❑ No El / Granite Pt St 24-13RD '
9.Property Designation(Lease Number): 10.Field/Pool(s):
ADL0018761 Granite Point Field/Middle Kenai Oil Pool •
11. PRESENT WELL CONDITION SUMMARY
Total Depth MD(ft): Total Depth TVD(ft): Effective Depth MD: Effective Depth TVD: MPSP(psi): Plugs(MD): Junk(MD):
10,640 " 10,287 • ' 10,106 9,772 • 2,715 psi 4 10,358 9,720;10,123; 10,300
Casing Length Size MD TVD Burst Collapse
Structural
Conductor 592' 18" 592' 591'
Surface 3,960' 13-3/8" 3,960' 3,841' 3,090 psi 1,540 psi
Intermediate
Production 9,260' 9-5/8" 9,260' 8,962' 5,750 psi 3,090 psi
Liner 1,586' 7" 10,640' 10,287' 8,160 psi 7,020 psi
Perforation Depth MD(ft): Perforation Depth TVD(ft): Tubing Size: Tubing Grade: Tubing MD(ft):
9,505-10,480 ' 9,196-10,132 3-1/2" 9.2#/L-80 9,379
3-1/2" 9.2#/N-80 10,359
Packers and SSSV Type: Packers and SSSV MD(ft)and TVD(ft):
Packers(x4)-See schematic Packers(x4)See schematic j
12.Attachments: Proposal Summary D Wellbore schematic U 13.Well Class after proposed work:
Detailed Operations Program ❑ BOP Sketch D Exploratory ❑ Stratigraphic❑ Development❑ Service 2 '
14.Estimated Date for 15.Well Status after proposed work:
5/10/2017
Commencing Operations: OIL ❑ WINJ ❑ WDSPL ❑ Suspended El '
16.Verbal Approval: Date: GAS ❑ WAG ❑ GSTOR ❑ SPLUG ❑
Commission Representative: GINJ ❑ Op Shutdown ❑ Abandoned ❑
17. I hereby certify that the foregoing is true and the procedure approved herein will
not be deviated from without prior written approval.
Authorized Name: Stan W.Golis Contact Name: Dan Marlowe
Authorized Title: Operations Manager Contact Email: dmarloweCc�hilcorp.com
f Contact Phone: (907)283-1329
Authorized Signature: w.. Q`.a Date: ''Zy/1.017
COMMISSION U5E ONLY
Conditions of approval: Notify Commission so that a representative may witness (Sundry Number
S ki- ice `( _
Plug Integrity ❑ BOP Test V Mechanical Integrity Test ❑ Location Clearance ❑ " � ' -1\' .
Other: -1f: 3509 p ,: /Sof' -7;;: t-
4 ,-(f pry r l4G..4r.....,., ,i„-0-m.4)`,�,, z.c, /446- Z .S. i(Z<L)
Post Initial Injection MIT Req'd? Yes ❑ No ❑
Spacing Exception Required? Yes ❑ No i Subsequent Form Required: C 0 LI 07
RBDMS L,'-MAY - 3 2017
APPROVED BY
Approved by: /9COMMISSIONER THE COMMISSION Date:S5. Z -I
iii ia/(;:i17-
Foo-4034 4/2017
ORJU\IAL rdplication is valid for 12 months from the date of approval. Attachments in Duplicate
• •
Well Work Prognosis
Well: GP 24-13rd
Hilroep Alaska,LLC Date: 04/07/2017
Well Name: GRANITE PT ST#24- API Number: 50-733-20080-01
13RD (GP 24-13rd)
Current Status: Shut-In Injector Leg: Leg#3
Estimated Start Date: May 10, 2017 Rig: Moncla 404&
Kuukpik#5
Reg.Approval Req'd? 403 Date Reg.Approval Rec'vd:
Regulatory Contact: Juanita Lovett (8332) Permit to Drill Number: 180-116
First Call Engineer: Dan Marlowe (907) 283-1329 (0) (907) 398-9904 (M)
Second Call Engineer: Monty Myers (907) 777-8431 (0) (907) 538-1168 (M)
Current Bottom Hole Pressure: 3,635 psi @ 9,196'TVD 0.395 lbs/ft(7.60 ppg)based on SIBHP
Maximum Expected BHP: 3,635 psi @ 9,196'TVD 0.395 lbs/ft(7.60 ppg)based on SIBHP
Maximum Potential Surface Pressure: 2,715 psi Using 0.1 psi/ft gradient per 20AAC25.280(b)(4)
Brief Well Summary
GP-24-13rd is a shut-in C sands injector last worked over in October 1997. This workover will plug back
the existing completion and prepare the well to sidetrack into the C-7.
Last Casing Test:
03/17/2005 MITIA 9,157'to 2,289 psi
Procedure:
Phase I
1. MIRU Moncla 404
2. RU e-line and RIH to+/-9,375' and punch tubing. Work over fluid will be FIW. BOP's will be
closed as needed to circulate the well.
3. ND Wellhead, NU BOP and test to 250psi low/3,500psi high. (Note: Notify AOGCC 48 hours
in advance of test to allow them to witness test).
4. Monitor well to ensure it is static.
5. Attempt to un-sting seals. If no go, RU e-line and RIH to ±9,375' and cut_tubing.
6. Unseat hanger and POOH with completion.
7. RIH with bit and scraper to±9,050', circulate clean. POOH.
8. RIH with work-string and spot a balanced cement plug from ±9,350 to ±8,950 on top of the
injection packer. (well will not take injection fluid)
9. POOH w/work-string
10. Pressure Test casing to 2,500 psig for 30 minutes and hart. _
11. RU e-line and RIH w/CIBP to ±8,322', ±5' above casing connection. POOH
1. RIH with ±2,000' of kill string
2. Set BPV, ND BOP, NU Dry Hole Tree and test. 1;16
/
3. Suspend operations I L)/
/ �Gl /o
•
Well Work Prognosis
Well: GP 24-13rd
Hileorp Alaska,LLCDate: 04/07/2017
Phase II
1. Resume operations with Kuukpik#5
Sr 2. MIRU Kuukpik#5
3. Circulate well
4. ND Wellhead, NU BOP and test to 250psi low/3,500psi high. (Note: Notify AOGCC 48 hours
in advance of test to allow them to witness test).
5. Monitor well to ensure it is static.
6. Circulate well and pull kill string
7. PU whipstock and mills and RIH to CIBP.
8. Orient and set whipstock in 9-5/8".
9. Swap well to OBM drilling fluid.
10. Mill 8-1/2" window and 20' of new formation. POOH and LD mills.
***Remaining Procedure to be included on the Permit to Drill Sundry for the sidetrack***
General sequence of operations pertaining to drilling procedure: (informational only)
1. PU directional BHA and TIH to window. t__-� V61) 11713641_
2. Drill 8-1/2" hole to the C-7 sands.
3. Run/Cement/and cleanout 7" casing.
4. Swap toCo1i pct-n: ti
Attachments:
1. Well Schematic Current
2. Well Schematic Proposed
3. Wellhead Schematic Current
4. BOP Drawing
5. Fluid Flow Diagrams
6. RWO Sundry Revision Change Form
Granite Point Platform
H . SC H E M ATI C Well:Granite Pt St#24-13RD Water Injector
Last Completed: 10/4/97
PTD: 180-116
Hilrnrp Alaska,LLC API: 50-733-20080-01
CASING AND TUBING DETAIL
RKB to TBG Head = 38' SIZE WT GRADE CONN ID TOP BTM.
Tree connection:
c \ / 1 " 70.59 B Ventura Surf 592'
1318-3/8" 61.0 J-55 Butt.LT&C 12.515 Surf3,960'
m 9-5/8" 40&43.5 N-80&S-95 Butt.LT&C 8.755 Surf 9,260'
t
7" 29 N-80 Butt.LT&C 6.184 9054' 10,640'
Tubing:
L , 3-1/2" 9.2 L-80 EUE 8rd 2.992 38 9,379'
3-1/2" 9.2 N-80 Buttress 2.992 9,379' 10,359'
Jewelry Details
No. Depth Depth ID OD Item
(MD) (TVD)
1 42' 42' Wood Group(8rd top and bottom)
2 9,341' 9,309' 2.813 HES"X"Nipple
3 9,379' 9,076' 2.97 HES No-Go Sub w/20'seal assy.
4 9,380' 9,077' 4.0 HES 7"23-323#BWD Permanent Packer
4B 9,379' 9,076' 2.97 HES Seal Assembly (9,379-9,400)
5 9,383' 9,080' 4.0 HES Seal-bore Extension (9,383-9,407)
6 9,407' 9,103' 4.408 HES Mill-out Extension (9,407-9,415)
x 2 7 9,451' 9,145' 3.00 Baker G-22 Locator
8 9,452' 9,146' 4.00 Baker Model"FB-1"Ret.Prod.Pkr.
3 8B 9,452' 9,146' 3.0 Baker 80-40 Seal Assembly(L=16.72) (9,452-9,469)
4,4 B 9 9,467' 9,160' 3-1/2"Camco MMGW Mandrel#1 W/Dummy valve.
,iiiiiiill 110'.
L _ . 5 10 9,690' 9,374' 3.00 Baker Model"G-22"Locator w/80-40 Seal Assy,
C
M 6 16.431ng
T 11 9,690' 9,374' Baker Model"FB-1"Ret.Prod.Pkr.
Restriction in Tbg. 12 9,693' 9,377' 5" 3-1/2"Butt.XO
@ 9358'for tools Millout Ext.w/ 8rd X
>2.5"OD 13 9,720' 9,403' 3-1/2"Camco MMGW Mandrel#2 w/Dummy Valve
1 7 14 10,165' 9,829' 3.00 Baker Model"G-22"Locator w/80-40 Seal Assy,
8, 8B 16.43 Ing
i 15 10,165' 9,829' Baker Model"FB-1"Ret.Prod.Pkr.
16 10,168' 9,832' Millout Ext.w/5"8rd X 3-1/2"Butt.XO
9 17 10,217' 9,879' 3-1/2"Camco MMGW Mandrel#3
C 2 18 10,286' 9,946' 3-1/2"Camco MMGW Mandrel#4
19 10,358' 10,015' NA Bull Plug (btm 10,359')
10
--mw--: 11
12 Fill tagged 3/12/88 @ 10,123. Collapsed TBG tagged w/1.5"ID
Fish:Two%Belly Springs(3/8"x3"x1/16")3/16/88 @ 10,123';Dummy Valve lost 11/6/82 @ 10,300';
Perforated Tbg.on ` ai 1 3 Dummy Valve W/O Prong stuck in#2 Mandrel @ 9,720'
9/9/88 9711'-9713.5' C 5
10 shots @ 4spf 0°
phase - C5
Tagged collapsed tbg C 6
4/1/88 @ 10,106' -
Fill first tagged on 3/12/88 :I'.'. 1 4 PERFORATION DETAIL
.: 15 Zone Top Btm Top Btm FT Date Status
' (MD) (MD) (TVD) (TVD)
( 16 9,505' 9,507' 9,196' 9,198' 2' 11/5/1980 Sqz Perfs f/Bond
1 7 9,548' 9,550' 9,238' 9,240' 2' 11/4/1980 Sqz Perfs f/Bond
18I 10,372' 10,374' 10,028' 10,030' 2' 11/4/1980 Sqz Perfs f/Bond
10,418' 10,420' 10,073' 10,075' 2' 11/4/1980 Sqz Perfs f/Bond
1 9 C2 9,505' 9,550' 9,196' 9,240' 45' 11/10/1980 Open f/Injection
1 - C 7 C5 9,845' 9,917' 9,522' 9,591' 72' 11/10/1980 Open f/Injection
C5 9,944' 9,954' 9,617' 9,627' 10' 11/10/1980 Open f/Injection
C6 10,060' 10,090' 9,728' 9,757' 30' 11/10/1980 Open f/Injection
C7 10,330' 10,345' 9,968' 10,002' 15' 11/10/1980 Isolated due to fill in tbg.
C7 10,358' 10,374' 10,015' 10,030' 16' 11/10/1980 Isolated due to fill in tbg.
C7 10,400' 10,420' 10,055' 10,075' 20' 11/10/1980 Isolated due to fill in tbg.
KB E L E V: = 105' C7 10,426' 10,436' 10,080' 10,090' 10' 11/10/1980 Isolated due to fill in tbg.
PB TD = 10,588'TD = 10,640' C7 10,464' 10,480' 10,117' 10,132' 16' 11/10/1980 Isolated due to fill in tbg.
MAX HOLE ANGLE = 21.25" @ 2600'
Updated by: JLL 3/15/17
Granite Point Platform
H 0 Well:Granite Pt St#24-13RD
PROPOSED •
Last Completed: Future
PTD: 180-116
API: 50-733-20080-01
Hilcnrp Alaska,LLC
Casing Detail:
RKB to TBG Head = 38' SIZE WT GRADE CONN ID TOP BTM.
18" 70.59 B Ventura Surf 592'
13-3/8" 61.0 J-55 Butt.LT&C 12.515 Surf 3,960'
t 9-5/8" 40&43.5 N-80&S-95 Butt.LT&C 8.755 Surf ±8322'(KOP)
7" 29 N-80 Butt.LT&C 6.184 9,054' 10,640'
Tubing Detail:
L , 3-1/2" 9.2 L-80 EUE 8rd 2.992 ±9,375' 9,379'
3-1/2" 9.2 N-80 Buttress 2.992 9,379' 10,359'
Jewelry Details
No. Depth Depth ID OD Item
(MD) (TVD)
1 ±8,322' ±8,056' CIBP(set for whipstock)
,;IE31-' ±13,322'
.:50-
2 9,379' 9,076' 2.97 HES No-Go Sub w/20'seal assy.
3 9,380' 9,077' 4.0 HES 7"23-323#BWD Permanent Packer
TOC ±8,950_ 3B 9,379' 9,076' 2.97 HES Seal Assembly (9,379-9,400)
4 9,383' 9,080' 4.0 HES Seal-bore Extension (9,383-9,407)
` 5 9,407' 9,103' 4.408 HES Mill-out Extension (9,407-9,415)
• ^` - 6 9,451' 9,145' 3.00 Baker G-22 Locator
."_c."- ''"' 7 9,452' 9,146' 4.00 Baker Model"FB-1"Ret.Prod.Pkr.
2 3,3B 7B 9,452' 9,146' 3.0 Baker 80-40 Seal Assembly(L=16.72) (9,452-9,469)
4
L C5 8 9,467' 9,160' 3-1/2"Camco MMGW Mandrel#1 W/Dummy valve.
T 9 9,690' 9,374' 3.00 Baker Model"G-22"Locator w/80-40 Seal Assy,16.43
Restriction in Tbg. JIng
@ 9358'for tools
> 2.5"00 10 9,690' 9,374' Baker Model"FB-1"Ret.Prod.Pkr.
6 11 9,693' 9,377' Millout Ext.w/5"8rd X 3-1/2"Butt.XO
7, 7B 12 9,720' 9,403' 3-1/2"Camco MMGW Mandrel#2 w/Dummy Valve
13 10,165' 9,829' 3.00 Baker Model"G-22"Locator w/80-40 Seal Assy,16.43
Ing
10 814 10,165' 9,829' Baker Model"FB-1"Ret.Prod.Pkr.
_
C2 15 10,168' 9,832' Millout Ext.w/5"8rd X 3-1/2"Butt.X0
16 10,217' 9,879' 3-1/2"Camco MMGW Mandrel#3
9 17 10,286' 9,946' 3-1/2"Camco MMGW Mandrel#4
18 10,358' 10,015' NA Bull Plug (btm 10,359')
� � 10
i11
Perforated Tbg.on 12 Fill tagged 3/12/88 @ 10,123. Collapsed TBG tagged w/1.5"ID
9/9/88 9711 9713.5' - C 5 Fish:Two'A Belly Springs(3/8"x3"x1/16")3/16/88 @ 10,123';Dummy Valve lost 11/6/82 @ 10,300';
10 shots @ 4spf 0°
phase = C 5 Dummy Valve W/0 Prong stuck in#2 Mandrel @ 9,720'
Tagged collapsed tbgC6
4/1/88 @ 10,106' �"�j ---E
Fill first tagged on3/12/88JJ1s�':'•]]]]1 3 PERFORATION DETAIL
X � 3 14 Zone Top
(MD) Btm
(MD) Top
(TVD) BVD
(TVD) FT Date Status
``
15 ` 9,505' 9,507' 9,196' 9,198' 2' 11/5/1980 Sqz Perfs f/Bond
MMO 1 6 9,548' 9,550' 9,238' 9,240' 2' 11/4/1980 Sqz Perfs f/Bond
1 7 Il.. 10,372' 10,374' 10,028' 10,030' 2' 11/4/1980 Sqz Perfs f/Bond
10,418' 10,420' 10,073' 10,075' 2' 11/4/1980 Sqz Perfs f/Bond
1 8 l.____,/ = C2 9,505' 9,550' 9,196' 9,240' 45' 11/10/1980 Open f/Injection
C 7 C5 9,845' 9,917' 9,522' 9,591' 72' 11/10/1980 Open f/Injection
C5 9,944' 9,954' 9,617' 9,627' 10' 11/10/1980 Open f/Injection
C6 10,060' 10,090' 9,728' 9,757' 30' 11/10/1980 Open f/Injection
= C7 10,330' 10,345' 9,968' 10,002' 15' 11/10/1980 Isolated due to fill in tbg.
C7 10,358' 10,374' 10,015' 10,030' 16' 11/10/1980 Isolated due to fill in tbg.
C7 10,400' 10,420' 10,055' 10,075' 20' 11/10/1980 Isolated due to fill in tbg.
KB EL E V: = 105' C7 10,426' 10,436' 10,080' 10,090' 10' 11/10/1980 Isolated due to fill in tbg.
PBTD = 10,588'TD = 10,640' C7 10,464' 10,480' 10,117' 10,132' 16' 11/10/1980 Isolated due to fill in tbg.
MAX HOLE ANGLE = 21.25° @ 2600'
Updated by: 1113/15/17
•II •
Granite Point
GPP 24-13RD
12/09/2016
Hikvxp Als.ks,1.1.(:
Granite Point Platform Tubing hanger,WG-TC-1A-
GPP 24-13RD EN-CL,11 X 3%EUE lift and
18 X 133/8 X 95/8X7 X31/2 susp,w/3TypeH BPV
profile,'.non-cont SCSSV
port,6%"extended neck
BHTA,WG-B-11A0,
3 1/16 10M FE
i
AM
Valve,Swab,BTN,
-•
fY1,`'
3 1/16 10M FE,HWO, Valve,Wing,WKM-M1,
BB trim 3 1/1610M FE, WO,
..� H. BBtrim
Valve,Upper Master,BTN, _' ;. 1
3 1/16 10M FE,HWO,
BB trim
allr
.iowl,. ik
Valve,Master,BTN,
3 1/16 10M FE,HWO,BB ��
trim
„. AEI .,
1S'1 1111
'
4.1111.1111=1. I 41110.1111*..
Tubing head,WG-TCM-BG, III III
13 5/8 5M API hub bottom X
,'[I
111/16 top,w/ 11
2-113/1610M 550 11 .
5
f
C
l
Unihead,OCT type 2,13 5/8 SM API '1110 Upper bowl section bad
hub top X 13 3/8 BTC casing bottom,
w/2-2"LPO on lower section,2-2
1/16 5M SSO on upper section,IP .-
internal lockpin assy
ll I' 1.of ., � y
Starting head,OCT, MilI "
21 1/4 2M Hub x Sl
24'/.1M Hub w/2-2"LPO, ir' _,.5.,- .
prepped f/18"EN hanger I _lli
_ —Z,
,
Conductor housing,OCT, i(��
24%1M Hub f
J
24"Buttweld
_
18"
_13 3/8"
— — 9 5/8"
3'A"
•
•
Granite Point Platform
Moncla BOP
Hilrvnrp Alaska,11.1A:
lil Ill l illEilll
MIN
4.s4' Pil Hydril
GK 13 5/8-5000
til til iii iir`ii1
lil Ili Ill
tom,
sa" CIW U �' Variable rams
27/8-5
4.67'
4 I 13 5/8-5000 r „_ Blind Rams
III Iil IlIIIIlit
--- - Choke and Kill valves
2 1/16 5M
fir, . _ 111•IIi•III.IIPIII ! 0,01
2.26' i r rl . .� Mud Cross n .,
IMF ;I_IJ I 4 1116 5M EFO ! ' . !
`
1111.111.111.111.111 1 -
III Ill III III III
Riser
135/85M FE X 135/85M FE
Iii lit III III1111
III
III 111111 III III
Spacer spool
13 5/8 5M FE X115M
Iii lil lliiii Ii1
•
c
O O u O U O O U O O U O U O u O U u O D U 0
s
N n1 V N rO V LO l0 , CO m 2
22222
u
n - UUUUUUUUUO
a a a a a o a a a a a a a a a a
W
C0C U N g r 0 0 0 0 w 0 ' w d
j
W N C C C CC � L
J
cu
a) 0. 0. 0_ 0_ D_ 2 > Y o y x Y Y Y x o y 4.
> EEEEE _ J o o o o o o o o o o o n =
>`' n n n 2 Y U L L L L L L L L L U L
of g vOi
a.o a
a w Y o `0
a . o 9
n 2 u z O
1 H
N
r _ co _
in ••• co _
U
J
Et Lii Q LU
a0 I'), d- _ z0
=AU 2
rU
K
O K
w
a
0
aW �>
O K= UJ
4-L I= 1 *ON
ii. 0m�m
m H m _
u)
wHa
a
0
z
r
u,
z
U, _o
~w
Z_ ajz
m 01 _i. (n J
o � Z
OC7I—
O H z Q
* QQc!»
O a W < 0
CC aQopU V
L
U � � (QO
2 0 O W f
f
_JOZ J �w
M� Lo a1-
IL Z ,,� 0 z
< 0 CO F
J p
C OP ►- w
0
•
ci-
• p O u p u O OOUO 0000000U0000 0
s
`_- O 1O , CO O\ 5
ada '2 2' m u
ODUUO D UUU
0
„-I N m V N �'-I N m V ill l0 O1 .-I
a -o v a V v o 1313 -0 -0 -0 -021 -0 -0 -0
w w w0 0 0 U N w w w w w w w w w w y0 L
N
J
d C C j W N Cl d d d d d 4t U T.
d d d d E L, 000 .00000o
n
..
0 = UL o
dddd d Y20 uuuuUUUuUuV1
a o
IA'
rg O
qIk
CN1 a)
n - co
q
UW
Q J •
a. cc LIJ Q
II 1.4
w
-I
O lll
dp
L.L. 0-4, 19
0 N= • U
CEwi
go
O <m
m
cO
w HCL
a
0
z
Q
U)
co
w
Q
J
V 0
Z I
Z 0 w
Q aDz
2 .
z ❑ '� a A
2U) Q
o O U eL }
Q
OP "1w
4 CD
5. amz
QJ
►4
O O Z =
C � r' F-
• J O O r7 _ 0 , <w
E
I- Z 0 - 0 z
CO H
Z
_ °
p
0
0
Moncla Rig 404
BOP Test Procedure
Hilcorp Alaska.LLCAttachment#1
Attachment #1
Hilcorp Alaska, LLC - BOP Test Procedure:
Moncla Rig 404, WO Program — Oil Producers, Water Injectors
Pre Rig Move
1) Blow down well, bleed gas to Well Clean Tank that is vented thru flare to atmosphere
2) Load well with FIW to kill well.
• Note: Fluid level will fall to a depth that balances with reservoir pressure.
3) Shoot fluid level at least 24 hours before moving on well.
4) Shoot fluid level again, right before ND/NU. Confirm that well is static.
Initial Test(i.e.Tubing Hanger is in the Wellhead)
If BPV profile is good
1) Set BPV. ND Tree. NU BOP.
2) MU landing joint. Pull BPV. Set 2-way check in hanger.
3) Space out test joint so end of tubing(EOT)is just above the blind rams.
4) Set slips, mark same. Test BOPE per standard test procedure.
If the tubing hanger won't pressure test due to either a penetrator leak or the BPV profile is eroded and/or corroded
and BPV cannot be set with tree on. Profile and/or landing threads must be prepped while tree is off.Worst Case:
BPV profile and landing threads are bad.
1) Attempt to set BPV through tree. If unsuccessful, shoot fluid level.
2) If fluid level is static from previous fluid level shots, notify Hilcorp Anchorage office that the well is static and
the tree must be removed with no BPV.As approved in the sundry, proceed as follows:
a) ND tree with no BPV
b) Inspect and prepare BPV profile to accept a 2-way valve,or prepare lift-threads to accept landing joint to
hold pressure. If well is a producer and the culprit is scale, attempt to clean profile with Muriatic acid and
a wire brush or wheel.
c) Set 2-way check valve by hand,or MU landing(test)joint to lift-threads
d) For ESP wells-Ensure that cap is on cable penetrator
e) NU BOP. Test BOPE per standard procedure.
3) If both set of threads appear to be bad and unable to hold a pressure test and/or a penetrator leaks, notify
Operations Engineer(Hilcorp), Mr. Guy Schwartz(AOGCC)and Mr.Jim Regg(AOGCC)via email explaining the
wellhead situation prior to performing the rolling test. AOGCC may elect to send an inspector to witness. As
outlined and approved in the sundry, proceed as follows:
a) Nipple Up BOPE
b) With stack out of the test path,test choke manifold per standard procedure
c) Conduct a rolling test: Test the rams and annular with the pump continuing to pump, (monitor the surface
equipment for leaks to ensure that the fluid is going down-hole and not leaking anywhere at surface.)
d) Hold a constant pressure on the equipment and monitor the fluid/pump rate into the well. Record the
pumping rate and pressure.
e) Once the BOP ram and annular tests are completed,test the remainder of the system following the normal
test procedure(floor valves,gas detection, etc.)
Moncla Rig 404
BOP Test Procedure
►►;►corp Attachment#1
f) Record and report this test with notes in the remarks column that the tubing hanger/BPV profile/
penetrator wouldn't hold pressure and rolling test was performed on BOP Equipment and list items,
pressures and rates.
4) Pull hanger to surface. (Requires tubing cuts as necessary to free tubing). CBU to displace annulus and tubing
with kill weight fluid.
5) If a rolling test was conducted, remove the old hanger, MU new hanger or test plug to the completion tubing.
Re-land hanger(or test plug) in tubing head. Test BOPE per standard procedure.
Subsequent Tests(i.e.Test Plug can be set in the Tubing-head)
1) Remove wear bushing.
a) Use inverted test plug to pull wear busing. MU to joint of tubing.
b) Thread into wear bushing
c) Back out hold down pins
d) Pull and retrieve wear bushing.
2) Break off test plug and invert same-RIH with test plug on joint of tubing. Install a pump-in sub w/test line plus
an open TIW or lower Kelly valve in top of test joint w/open IBOP.
3) Test BOPE per standard procedure.
STANDARD BOPE TEST PROCEDURE(after 2-way check or test plug is set)
1) Fill stack and all lines with rig pump-install chart recorder on test line connected to pump-in sub below safety
valve and IBOP in test joint assembly.
2) Note: When testing, pressure up with pump to desired pressure,close valve on pump manifold to trap
pressure and read same with chart recorder(test pressures will be indicated in Sundry).
3) Referencing the attached schematics test rams and valves as follows.
a) Close ft valve on standpipe manifold, close valves 1, 2, 10 on choke manifold and close the annular
preventer,open safety valve on top of test jt and close IBOP. Pressure test to 250 psi for 5 minutes and
2,500 psi high for 5 minutes. If passes after 5 minutes on each, bleed off pressure back to tank and open
annular.
b) Close pipe rams and open annular preventer, close safety valve and open IBOP on test joint,close outside
valve on kill side of mud cross,open 15`valve of standpipe, close valves 3,4&9 on choke manifold, open
valves 1&2 on choke manifold. Test to 250 psi for 5 minutes and 3,000 psi high for 5 minutes. If passes
after 5 minutes on each, bleed off pressure back to tank.
c) Test Dual Rams. If the well has dual tubing, and dual rams are installed in the stack,test the dual rams by
picking up two test joints with dual elevators and lowering them into stack and position them properly in
the dual rams. Close rams. Test to 250 psi for 5 minutes and 3,000 psi for 5 minutes. If passes after 5
minutes on each, bleed off pressure back to tank.
d) Close inside valve/open outside valve on kill side of mud cross, close valves 5&6/open valves 3&4 on
choke manifold. Test to 250 psi for 5 minutes and 3,000 psi for 5 minutes. If passes after 5 minutes on
each, bleed off pressure back to tank.
e) Close manual and super choke/open valves 5&6 on choke manifold. Pressure up to—1200 psi and bleed
off 200—300#s recording change and stabilization. If passes after 5 minutes, bleed of pressure back to
tank.
f) Close HCR(outside valve on choke side of mud cross),open manual &super choke. Test to 250 psi for 5
minutes and 3000 psi for 5 minutes. If passes after 5 minutes on each, bleed off pressure back to tank.
S
Moncla Rig 404
BOP Test Procedure
Hileori�Alaska.Lu: Attachment#1
g) Close inside valve/open outside valve(HCR)on choke side of mud cross. Test to 250 psi for 5 minutes and
3000 psi for 5 minutes. If passes after 5 minutes on each, bleed off pressure back to tank.
h) Ensure all pressure is bled off-open pipe rams and pull test joint leaving test plug/2-way check in place.
Close blind rams and attach test line to valve 10 on choke manifold, close valve 7&8/open valve 10 on
choke manifold. Test to 250 psi for 5 minutes and 3000 psi for 5 minutes. If passes after 5 minutes on
each, bleed off pressure back to tank.
i) Test additional floor valves(TIW or Lower Kelly Valve)and IBOPs as necessary.
STANDARD TEST PROCEDURE OF CLOSING UNIT(ACCUMULATOR)
1) This is a test of stored energy. Shut off all power to electric and pneumatic pumps.
2) Record "Accumulator Pressure". It should be+/-3,000 psi.
3) Close Annular Preventer,the Pipe Rams, and HCR. Close 2nd set of pipe rams if installed (e.g.dual pipe rams).
Open the lower pipe rams to simulate the closing volume on the blinds.
4) Allow pressures to stabilize.
5) While stabilizing: Record pressure values of each Nitrogen bottle and average over the number of bottles. (i.e.
Report might read "10 bottles at 2,150 psi").
6) After accumulator has stabilized, record accumulator pressure again. This represents the pressure and volume
remaining after all preventers are closed. (The stabilized pressure must be at least 200 psi above the pre-
charge pressure of 1,000 psi).
7) Turn on the pump and record the amount of time it takes to build an additional 200 psi on the accumulator
gauge. This is usually+/-30 seconds.
8) Once 200 psi pressure build is reached,turn on the pneumatic pumps and record the time it takes for the
pumps to automatically shut-off after the pressure to builds back to original pressure(+/-3,000 psi). Note:
Make sure the electric pump is turned to"Auto", not"Manual"so the pumps will kick-off automatically.
9) Open all rams and annular and close HCR to place BOPE back into operating position for well work.
10) Fill out AOGCC report.
FINAL STEP,FINAL CHECK
1) Test Gas Alarms
2) Double check all rams and valves,for correct operating position
3) Fill out the AOGCC BOPE Test Form (10-424)in Excel Format and e-mail to AOGCC and Juanita Lovett.
Document both the rolling test and the follow up tests.
• OGranite Point Platform
2017 BOP Stack(Kuukpik)
04/24/2017
IIII.'��rh 11ax1.:1.Li t
Rig Floor
16"
Pipe
O
ffiVrni(fel f 31 rf l f n fnYr
3.74' Shaffer
135/8SM
ftp rFfi inn fi
—
„� Shaffer SL•
� - y® 2 7/8 5 5 Variables
2.83 13 5/8 5M
Blind
2 1/16 5M manual and HCR valve
2 1/16 5M manual and HCR valve
.fes; 111
I11 I11 UI UI
1.76lII`f�M F[LII. i lit Ifi - 101iui l
Shaffer SL
1.44' 135 85M 27/8-5.5Variables
111 I!I111 III III
Drill deck
13.70' Riser
13 5/8 5M FE X
13 5/8 5M API hub
0 •
Choke Manifold Valves
2 "
3"
To Shaker 3" Panic To Gasbuster
3 1/8"_ Li
2 1/16"O ----.....aO 21/16"
- [(RI
1111 ‘c;„ ,[8
2 1/16" -- 2 1/16" I
N / T
3 1/8"
8 , �e f N
kE I [T, I J
El 1
2 1/16" + 2 1/16"
Manual Choke ��
Automatic Choke
2 1/16"
Inlet Pressure Sensor
311
3" 5,000 PSI Choke Manifold
Kuukpik Drilling Rig 5
RED = 3 1/181' 5,000 PSI VALVES AND LINES
BLUE = 2 1/16" 5,000 PSI VALVES
Kuukpik Drilling Rig 5
Choke Manifold
N
c-2
#7 #11 #10
#i
sF3 #12 #14
w
. I al 2
#15 ao• '
«
Kuukpik Drilling Rig 5 Choke Manifold
• •
E
bA
czt 00,. 0, ,C VIQIQI
N N N
3 0 olvioivia D oiol
O dl I . 1 i i i
w qi iii^i i i i
:1 1.l•y1 ai d1 I
.... O N 01 Iy1ni al C1 1
0
p
_ a = ,�? -II 1-91,..11a1:1 1
w d d o1 i—I—i . .s, =1 chi
O 2 , �IVt l_lw -.iv aw�pl
a)
a i 1 ml1 VI1 gl i e'1 ,li Ei
a,
d f11,11.11I�I I
c7
co
1 .i lel „,i =1 Si I
yl 1',ao-I_1 �jl�l I
�l I °I -1 I I 1
ba , b,1 -1 I_Io1 iii
'r M N y 1 I I I d 1 1 1
N N N E —,e,,ei,ei,8 ',Wilk/11
I I I IP I I I
V Ln
o. o
_ _ N_ i0 e a .-
a U w
N r L _ ivy ,
a
-
b4 01. `
I - L _,
— — Q .I=I mI.aI 0I ..01,e',0!
a) O
NI NI in, NI NI in, Nf NI NI
;' =141=1..°I.91.=1=1=1 1
a) w° UiUicy.ydiOiUi(diUi
c
cn J O Ig1-1a1dl.1-Id1;„.l 1
O g N L iui00i0iUI0I0i l yl
IL a) SGIGN„'y21IW0CU
ct 11101' 1.Iololololoiolol owl,
„ hhl -
N L y121h1IoIlolUI yl
S t: I: i. 1. 11 I: Ie 1 3f pn1
OW x—
x- N I�I�I„I„I�I�I I g1l
I:<1 CV Ir•11�II�fenleileilmie1 I
d1 11111I N.
♦ 17
♦Op .°I01,41141enlVIv111oln1col
O •— ♦ 0 ♦ 8•�...,.,,..,..,..,..,..,
�
I i l l l l l l l l
b4 =
3
^1^_` r♦ r A j a .,ai
U) p d Y
CD 10
CD
CD
X ba
v p I I ii I 1 I11
N.♦ t o °' a'a' °' o' a' 0'1'1'
aI mI 4,1 yl eel o,l o,I NI
Nlia oi 81618f81816181°
i I I I I I I I I
o. o.°'I a,."iii "iii°i
a a,C.C.a, a,`a, a,C.
010101010101010101
7,..;,—;,— ":„.._I 04 pN" .N7.- N04 04 04 04 pN4
5
010101010101010101 1111111
10000000o00
I✓ 1I( OIlOlOllnivlgni enivl
1 ell ell evl,41,91 levlellrol
bQ U ,y I I I I I I I I I
E ,II NIMia1v,I.ole..Ioo,o,
bQ d 12
1 1 i I I I I I I
r. •o
- Cr) '.o
,-- a
I d `”'
Q
.
O
U
0 •
czt
.� o ai,. al al 0 cl to al
F^— 0 0� N. W. c.Q.I 0. Ni 0
0OI I I c.oOI I .
o.o.o.
I I a1 I I
AI I %i=i I
�,
L I aI I.„..1.".1 2,0 ai
.,� ai i w1.5,1 ri-AI
0 -D a JI I ..U_i al yI i
�'�" 0.. a 01(41,91'21 1 di a l
�_ r1 •
VISI ql�I0 q1 ql�i
0 LL 7 l I q i i in-1.-'1 n• I
p �1 •e.•• yl 0.
C it I yl�i yl of
W •001 I�I NI UI�I
2 MI I.lI'I I
►� 10,11J sill 1 I
ii
N iI !N AYNEOo• + -i en. WI.
•-.1t 8 e•elrelr1l
a 7
Ve I I I I% I I I
N G
V'‘— A 0 A
• N U
N0-4 .1111111L1- 1111it
II 'TTT- T
1
° 1
CD • aaiaaaiaiaiaiaioiiio
C A •
�+ N. N. Ni N. N• N. N. N. N.
.. J ;#1
21521.212.121.212121-?.1
3 °P. UIU'O'Q'U'U'U'Q'U'
CC: 111111110
LL ♦O I::1:.1 a1 al::1 ::I a1 ai I
A. A. q. A.•••.
Q Ial al'HI'hl �I al'v,l yl of
;-.i 001 0•01 c,1 p l 00 1 001 co o f U I
• �Io1•o1o10101•o1•oiLd yl
7 I: I: I. I_ I:I: I: I =1 7,I
I�I�I�I�I�I�I-IMI�1
C.) 0) N 1e• IIs,1.+,11I4-lil 1
s-, .1 111111fI I I I I I
4.
U N. ♦ -0 ♦ CO .0101..,Iell ell K1441.ole.l041
a� � � O gi^"i^"i "i^i^'i^i^+i^ i^"i
cn C .'9i i i i i i i i i
N Y(()
N
*11 a
-Y
t
CO ,� R
w A O A U
(0
Ur ►11 1 11
a 11 I I I I 1 1_1
(0 ,^ v. °.
• (-A • Y/ O a' a' a 1 a' a' a' a' y y
r ... al 0l 0' 0,1 0. 0+1 0. NI NI
a• a• a• a• a• a' a• o' o'
7.;
0!OIOIOIO10IOI�1u!
1 I 1 I I I 1 1 1
4' 0' 0i 0I 0'0' 0,I°%t 0'
a ea ea 41 al n a A ea,
0101010101010i Ol 01
al a1 2.1 al al a1 a1 al a1
OI0 I010101OI01010i
O,O,O,O,O,O,O,O,O,
21,.7,12121212121;7,121
V> I �1,-.1CI I�I�I.7„.17.1�1
1 evIevI r•II,,I elf r•IIeiI ell r`,I
bA U y 1 1 1 1 1 I 1 1 1
C24 C
6CZ r,1,-eI,.,IK1•n1.olt-1o1o,l
by a j 1 1 1 1 1 1 1 1 1
.,--, •O
(o o
.--
^$ A H
V e.
a
0
U
• 0
E
ct
I I
O G G p i O p dl d! dl TN1= N! d! 0 dl
C
N Al IZ'1 O'1 O I M o f Al CI
QA. OI OIO1U1A. Ul IOI
Q
dl I I dl I I I
o AI ! �!_1 I i i
"'I I!+Ii1 dl dl I
4-1 ci 1 4.1 %1 AI=!
O 0 -c3Q -0 1-11 I�jI.JI dl�I I
2 eL IUI41a�r1v101�I � • o
" -1N A1c! El, ,,,...1:1,1'.1
LAii a i i � 1 f io�! I�I dl al
of I
o dI 17:11 .,1 UI I I
(n . ! ISI 01 I I I
.4 . lel,
! I I I I I I
'_ I 1 I I v I I I
N N NJ dM _ A l01...Ir�1� ,.,Iy1,nl
y o . irtirlir1i0. rIirtirr
I1'f' II. d
2,"
O
_ N -. -It`' g
LO 7
N
N il cil
U Li_
L J -� p I•o 11111111
Z%— y NI N! N! N! dl 2',I d! NI di
C p -1=1=1=10°I�I-IV
Ja' U.UIUIUI IUIUiUI •
•
Vi p . 1 , I e.,i a1 d! dl dl dl dl dl 1
LL N v 1.31.0!3! .101u1 .17,1 Aa1
O YON
a0.A , L Iy. , N, . o' v'. d. O'
Ct U Y 4, 1olAl !0101 ! lai
C6 00o
01=1011010101.01014:1 ,..1
•
- �Iniv�iv•iv�i vii v� �. l '17.1 c.l
, .OeO 1,-,1...1L,41401...1,-,11491 =14n1
ihl
DQ 111111111 1 1 1 1
`dl I I I I I I I I I
I's 7co 812I74Ir„I:I.2I.-1III^i
r �1 1 1 1 1 1 1 1 1 1
C
L. q.
,O U T th a
i
(n N d
= Y o
rM O Nr
(n .-o O U
Co Xi / D4
d p tilt ! ! 1.01.01
�Q �. A y p• p. p. C• p. p, C• d, d,
' al a! a! a! 01 a1 01 .1 o1
— a° OIOIOIOIOIOIOIvi-i
i i i i i i i l l
di di di di di di di di di
N• A• N• A• A• A• A• A' C'
0,01
.N .N 7, .N .N .N .-
.�! a! c! a! cl 0. c! al.a1
W 010101010101010101
1� O.O.O•0•O.O.O.O•o•
0.1 O l O l O l O l O!0 1 0 1 0 1
v,. . .Vl, .1:1.vi,Vi,va,
- I:
I:: 1: I: 1: 1: 1: 1: 1
b b.b b.b,b ,ob b
I ^1^'!^z"lr_.Ic,'1^1"'1^'1",'1
...`H'rn'..'r.l•r.•1'ti'r.1•.•1•
rilrtirolrllrtlrtlrtlrtlril
(4 V L. I 1 I I I 1 I I I
•C 1 1 1 1 1 1 1 1 1
bl) (60 ..irtitnlaivwolt-io,io'I
• n' % IIIIIIIII
=
o
0
d '^
I..
O
U
Z
•
Kuukpik 5
BOP Test Procedure
Hilcorp Alaska.LLCAttachment#1
Attachment #1
Hilcorp Alaska LLC. Rolling BOP Test Procedure:
Kuukpik 5 — Oil/Gas Producers, Water/Gas Injectors
Initial Test(i.e.Tubing Hanger is in the Wellhead)
If BPV profile&lift threads were deemed good, but still unable to get good tests
1) If both set of threads appear to be bad and unable to hold a pressure test and/or a penetrator leaks,
notify Operations Engineer(Hilcorp), Guy Schwartz (AOGCC-guy.schwartz@alaska.gov),Jim Regg
(AOGCC-jim.regg@alaska.gov) and Michael Quick(AOGCC—Michael.quick@alaska.gov)via email
explaining the wellhead situation prior to performing the rolling test. If on Federal land contact BLM
representative Amanda Eagle (aeagle@blm.com) and Mutasim Elganzoory(melganzoory@blm.com).
AOGCC and BLM may elect to send an inspector to witness. As outlined and approved in the sundry,
proceed as follows:
2) With stack out of the test path,test choke manifold per standard procedure
3) Conduct a rolling test: Test the rams and annular with the pump continuing to pump, (monitor the
surface equipment for leaks to ensure that the fluid is going down-hole and not leaking anywhere at
surface.) Kill and choke line valve will also be tested during this time.
4) During these tests the test chart needs to be set to 60 min instead of 12 hours so chart shows a
better graph. Need to station hands in cellar going over all connections on the BOPs looking for the
slightest leak.Also need a man looking down the hole to confirm that the BOPs are not leaking.
Test# 1=Annular, HCR Choke, and HCR Kill.
Test#2=Upper Pipe Rams, HCR Choke, and HCR Kill.
Test#3=Upper Pipe Rams, Manual Choke, and Manual Kill.
Test#4=Lower Pipe Rams.
5) Hold a constant pressure on the equipment and monitor the fluid/pump rate into the well. Record
the pumping rate and pressure.
6) Once the BOP ram and annular tests are completed,test the remainder of the system following the
normal test procedure (floor valves, gas detection, etc.)
7) Record and report this test with notes in the remarks column that the tubing hanger/BPV
profile/penetrator wouldn't hold pressure and rolling test was performed on BOP Equipment and list
items, pressures and rates.
8) Pull hanger to surface. (Making tubing cuts as necessary to free tubing). CBU to displace annulus and
tubing with kill weight fluid and sweep off any oil cap that may be present.
9) If a rolling test was conducted, remove the old hanger, MU new hanger or test plug to the
completion tubing. Re-land hanger(or test plug) in tubing head. Test BOPE as per Kuukpik's
standard test procedure. Or POOH laying down all the tubing and use the normal test plug to finish
the tests that were not completed as per regulatory approval.
I
Kuukpik 5
BOP Test Procedure
�.��,: Attachment#1
Hilrorp Alaska.
If the tubing hanger won't pressure test due to either a penetrator leak or the BPV profile is eroded and/or
corroded and BPV cannot be set with tree on. Profile and/or landing threads must be prepped while tree is
off. Worst Case: BPV profile and landing threads are bad.
1) Attempt to set BPV through tree and test. May have to tap out if scaled up or paraffined up if well is
not dead may have to be done w/ pressure lubricator (diesel or acid could help)
2) If unsuccessful, or BPV profile is eroded and well is dead. Best practice is to have two barriers
a. Fluid column
b. Set wire line plug or tag fluid level with slick line to establish static fluid level or shoot fluid
level with an echo meter gun.
3) Shoot off tubing very shallow ( 300-500' most likely just under SSSV if applicable)
4) Spear hanger w/ upside down cup provided by fishing company
5) Proceed to get best test we can achieve against cup and confirm no visual leaks on all flanges of BOPE
6) Notify Hilcorp Anchorage Operations Engineer and AOGCC of situation
7) Pull hanger and cut off stub
8) P/U test plug and set same.
9) Perform complete BOPE test as per Kuukpik's standard procedure
• 0
� � a
/ > � 2
0O _ ■
a e §
7F \ o ■
.0 0 2 k °
§ / « �
E ®
e
of )
ƒ ( 2 0. E
\ ? 0.
\ /
\ _0 >,'
§ / ƒ 2� c
a �\ a
e- C7
co -0.§ n -0 a) 0
a 2 \ Tr � Z k k
0. §% cu >-
Ff Z J
0 / e
.-BQ 0 -.-
1....
4 •�
CN1 /
W Cl) k §
O k c
3 °
Q. ' /k 0
o /«
E
*■
= o .cO
\ 73 0 CD
k �\ kCD
2 E § °
& c q e 2
O • 0 g a
2 / /
L. . a)
/ ƒ / §
CA a $ / 2 :
= ■ _
\ / / 0 2
CD 2
CI a � oo \\Q / O
a.
2 x § f 0 0
. q Q Co x 2 » U °
0 — 0 o x ( .2 c. E ® 0
2 * .2 0 I'D'
Co
0 � W / � Co It
Cd .. % \
= U c 7 o / >
2 > 0 u \ E
o_U / / /\ Cl) <
11111 411,
Sundry Application
Plug for Re-drill Wells
Work Flow
This process is used to identify wells that are suspended for a very short time prior to being re-
drilled. Those wells that are not re-drilled immediately are identified every 6 months and assigned a
current status of"Suspended."
Step Task Responsible
1 The initial reviewer will check to ensure that the "Plug for Redrill"box Geologist
in the upper left corner of Form 10-403 is checked. If the "Abandon" or
"Suspend"boxes are also checked, cross out that erroneous entry and
initial it on both copies of the Form 10-403 (AOGCC's and operator's
copies).
2 If the "Abandon"box is checked in Box 15 (Well Status after proposed Ge logist
work) the initial reviewer will cross out that erroneous entry and initial / then
it on both copies of the Form 10-403 (AOGCC's and operator's copies).
Instead, check the "Suspended" box and initial that change. Drilling
Engineer
The drilling engineers will serve as quality control for steps 1 and 2. (QC)
3 When the Stat Tech receives a Form 10-403 with a check in the "Plug Stat Tech
for Redrill" box, they will enter the Typ_Work code "IPBRD" into the
History tab for the well in RBDMS. This code automatically generates
a comment in the well history that states "Intent: Plug for Redrill."
4 When the Stat Tech receives any Form 10-407, they will check the Stat Tech
History tab in RBDMS for the "Intent: Plug for Redrill" code (IPBRD).
If present and there is no evidence that a subsequent re-drill has been
COMPLETED, the Stat Tech will assign a status of SUSPENDED to
the well bore in RBDMS no matter what status is listed on the 10-407.
The Stat Tech will also change the status on the 10-407 form to
SUSPENDED, and date and initial this change. If the Stat Tech does
not see the "Intent: Plug for Redrill"comment or code, they will enter
the status listed on the Form 10-407 into RBDMS.
5 When the Form 10-407 for the redrill is received, the Stat Tech will Stat Tech
change the original well's status from SUSPENDED to ABANDONED.
6 The first week of every January and July, the Stat Tech and one of the Stat Tech
Geologists will check the "Well by Type Work Outstanding"user query Geologist
in RBDMS to ensure that all of the Plug for Redrill wells have been
handled properly. At this same time, they will also review the list of
suspended wells for accuracy.
Irna~. ect Well History File Cover e
XHVZE
This page identifies those items that were not scanned during the initial production scanning
phase. They are available in the original file, may be scanned during a special rescan activity or
are viewable by direct inspection of the file.
Z ~ ~- / '/ ~' Well History File Identifier
Organizing
RESCAN
[] Color items:
[] Grayscale items:
[] Poor Quality Originals:
[] Other:
NOTES:
BY:
DIGITAL DATA
[] Diskettes, No.
[] Other, No/Type
BEVERLY ROBIN VINCENT SHERYL ~NINDY
OVERSIZED (Scannable)
[] Maps:
Other items scannable by
large scanner
OVERSIZED (Non-Scannable)
Logs of various kinds
Other
DATE:
Project Proofing
BY: ~ ROBIN
VINCENT SHERYL MARIA WINDY
Scanning Preparation ~ x30='F (~ + ~" = TOTALPAGES
VINCENT SHERYL MARIA WINDY
Production Scanning
Stage I
BY:
Stage 2
BY~
(SCANNING I$ COMPLETE AT THIS POINT UNLESS SPECIAL ATTENTION IS REQUIREO ON AN INDIVIDUAL PAGE BASIS
DUE TO QUALITY. GRAYSCALE OR COLOR IMAGES)
· YE~~S NO
PAGE COUNT MATCHES NUMBER IN SCANNING PREPARATION:
IF NO IN STAGE 1, PAGE(S) DISCREPANCIES WERE FOUND: YES NO
BEVE~ VINCENT SHERYL MARIA WINDY DATE.~~
III lllllllllll II Ii
ReScanned (individual page [special at~e~tt~tq ~can~incj completed)
RESCANNED BY: BEVERLY ROBIN VINCENT SHERYL MARIA WINDY DATE:
IsI
General Notes or Comments about this file:
Quality Checked
12110102Rev3NOTScanned.wpd
i ur~v 1 V1 L
• •
Fleckenstein, Robert J (DOA)
From: Greenstein, Larry P [Greensteinlp@chevron.com]
Sent: Monday, June 09, 2008 1:31 PM
To: Fleckenstein, Robert J (DOA) (~'~
Subject: RE: PKRTVD Project ~~
Attachments: An-19 Dec84 Schem Updated.doc;rGP 24-13RD Final 10-4-97.DOC; D114DrawingSchematic1985-08-25.PDF;
SRU 32-33WD schematic 8-28-02. oc
Here is what I based our depths on Bab. Please let me know if these will suffice to update your records.
Thanks
Larry
From: Greenstein, Larry P
Sent: Thursday, June 05, 2008 10:20 AM
To: 'Fleckenstein, Robert J (DOA)'
Subject: RE: PKRTVD Project ~~~,~ ~~~ g ~ Z~~B
Will do Bob.
I'm at 263-7661, but I've been gone the last two days, so I'm just catching up now. I'll get the back up data to you as soon as I
can.
The 1680360 GRANITE PT ST 18742 25 is getting the M!T done the same way a bunch of other Anna wells are, which is by using
temperature surveys to confirm every other year where the water is being injected.
Sorry for the delay in getting back with you.
Larry
From: Fleckenstein, Robert J (DOA) [mailto:bob.fleckenstein@alaska.gov]
Sent: Wednesday, June 04, 2008 10:15 AM
To: Greenstein, Larry P
Cc: Regg, James B (DOA)
Subject: PKRTVD Project
Larry,
I have reconciled all the PKRTVD differences except for the following wells. Please send me your paperwork on these wells that
verify your data.
1680060 GRANITE PT ST 18742 ]9 =__> An-19
1750660 S MGS UNIT 14 =__> Di-14
1801150 SWANSON RIV UNIT 32-33WD =__> SRU 32-33WD
1801160 GRANITE PT ST 24-13RD =_=> GPP 24-13RD
If 1680360 GRANITE PT ST 18742 25 does not have a packer in the well what are you testing against?
Thanks,
6/9/2008
• • __.
BobF
Robert J. Fleckenstein
Statistical Technician II
Alaska Oil and Gas Conservation Commission
Office: 907-793-1242
Fax: 907-276-7542
t~iS' ~~c is+:3t a? .. ,t. ;: rtldI l iC~t' ;;
bob. Fleckenstein{cLalaska.~o_ v
6/9/2008
Fleckenstein, Robert J (DOA)
From: Regg, James B (DOA)
Sent: Thursday, May 29, 2008 1:46 PM
To: Fleckenstein, Robert J (DOA)
Subject: FW: UNOCAL PKRMC & PKRTVD Spreadsheet
Attachments: UNOCAL PKRMD & PKRTVD.xIs
•
This attachment may reflect the changes since you spoke with him yesterday - [have not checked.
Jim Regg
AOGCC
333 W.7th Avenue, Suite 100
Anchorage, AK 99501
From: Greenstein, Larry P [mailto:Greensteinlp@chevron.com]
Sent: Thursday, May 29, 2008 9:59 AM
To: Regg, James B (DOA)
Subject: FW: UNOCAL PKRMC & PKRTVD Spreadsheet
Hi Jim,
Since your name is on the letter I got from Commissioner Foerster, I wanted you to get the packer depth reconciliation
spreadsheet. I Pike using the color coded version just because it focuses me on the more problematic wells.
Cleared four mare wells since I sent this to Bab yesterday. The TVD cote on G-29RD was recalculated and now matches yours
and the An-19, D-14 RD & D-29RD wefts have been confirmed by schematic to be those few feet off from your depths.
There are a lot of small differences in depths that won't make any difference in the required test pressure for an MIT (coded
yegow}. And a few that had some clear reasons why our depths didn't match (coded purple}. The two blue colored wells are the
only ones where our depths just don't seem to match up with yours without anything to explain why except maybe just some sort
of typo.
Let me know if you would like to discuss any of these or anything else further. You don`t need a farms( response fetter back on
this, do you?? I assumed the data attached to this e-mail would suffice.
Thanks.
Larry
From: Greenstein, Larry P
Sent: Wednesday, May 28, 2008 10;21 AM
To: 'Fleckenstein, Robert J (DOA)'
Subject: RE: UNOCAL PKRMC & PKRTVD Spreadsheet
Here you go Bob.
Lots of updates seem to be coming out of this. Didn°t worry about differences of a few pounds an the required test pressure
cote as this doesn't char7ge the pressure test for the MIT.
6/3/2008
Hope this helps.
Larry
•
_ __
_. _ _. _ __
From: Fleckenstein, Robert J (DOA) [mailto:bob.fleckenstein@alaska.gov]
Sent: Tuesday, May 06, 2008 3:21 PM
'>ro: Greenstein, Larry P
Subject: RE: UNOCAL PKRMC & PKRTVD Spreadsheet
Larry,
Attached is a revised sheet for you to use. i have added 3 columns for your use.
Thanks,
BobF
Robert J. Fleckenstein
Statistical Technician II
Alaska Oil and Gas Conservation Con~nission
Off ce: 907-793-1242
Fax: 907-276-7542
"~ie~1s~ Fete cr ~~ ._-~ .~ ,__.
bob. I~eckensteinrcz,~zlaska. ~o v
From: Greenstein, Larry P [mailto:Greensteinlp@chevron.com]
' Sent: Monday, May 05, 2008 3:28 PM
To: Fleckenstein, Robert J (DOA)
Cc: Regg, James B (DOA); McMains, Stephen E (DOA)
Subject: RE: UNOCAL PKRMC & PKRTVD Spreadsheet
Thanks Bob (and Steve),
An electronic copy will make it easier for me to make updates and corrections.
Larry
From: Fleckenstein, Robert) (DOA) [mailto: bob.fleckenstein@alaska.gov]
Sent: Monday, May 05, 2008 3:26 PM
To: Greenstein, Larry P
Cc: Regg, James 6 (DOA)
Subject: UNOCAL PKRMC & PKRTVD Spreadsheet
4ttached is the data you requested.
3obF
Robert J. Fleckenstein
statistical Technician II
5/3/2008
rage s of .s
Alaska Oil and Gas Conservation Commission
Office: 907-793-1242
Fax: 907-276-7542
hc~l~ t~€~~ci<,cr~5tc~l~~u~~~~~sica.gc,~~•
6/3/2008
l ~~ //(~ ~
~ranite Point Platform
_ . Well # 24-13R°: Water Injector
I~NOCAL~~6. Final Completion: 10/=1/97
RKB to TBG Head = 38' CASING AND TUBING DETAIL
13-3/8"
9-5/8"
7"
Tubing:
3-1/2"
3-I/2" 61.0
40 & 43.5
29
9.2
9.2 K-55 Butt. LT&C 12.515 Surf
N-80 & 5-95 Butt. LT&C 8.755 Surf
N-80 Butt. LT&C 6.184 9054'
L-80 EUE 8rd 2.992 38
N-80 Buttress 2.992 9,379' 3960'
9260'
10,640'
9,379'
10,359'
.II:W'ELRY DETAIL
NO. Depth ID Item
1 42.13 Wood Group (8rd top and bottom)
2 9,341 2.813 HES "X" Nipple
3 9,379 2.97 HES No-Go Sub w/ 20'seal assy.
4 9,380 4.0 IIF,S 7" 23-323 # BWD Permanent Packer
4B 9,379-9,400 2.97 HES Seal Assembly
5 9,383-9,407 4.0 HES Seal-bore Extension
6 9,407-9,415 4.408 HES Mill-out Extension
7 9,451 3.00 Baker G-22 Locator
8 9452 4.00 Baker Model "FB-1" Ret. Prod. Pkr.
8B 9,452-9,469 3.0 Baker 80-40 Seal Assembly (L =16.72)
9 9467 3-1/2" Camco MMGW Mandrel #1 W/ Dummy valve.
10 9690 3.00 Baker Model "G-22" Locator w/ 80-40 Seal Assy, 16.431ng
l 1 9690 Baker Model "FB-1" Ret. Prod. Pkr.
12 9693 Millout Ext. w/ 5" 8rd X 3-1/2" Butt. XO
13 9720 3-1/2" Camco MMGW Mandrel #2 w/ Dummy Valve
14 10,165 3.00 Baker Model "G-22" Locator w/ 80-40 Seal Assy, 16.4 3 Ing
15 10,165 Baker :Model "FB-1" Ret. Prod. Pkr.
16 10,168 Millout Ext. w/ 5" 8rd X 3-1/2" Butt. XO
17 10,217 3-112" Camco MMGW Mandrel #3
l8 10,286 3-1/2" Camco MMGW Mandrel #4
19 10,358' NA Bull Plug
btm 10,359'
Fill tagged 3/12/88 @ 10,123. Collapsed TBG tagged w/ 1.5" ID
Fish: Two 'h Belly Springs (3/8" x3"xl/16") 3/16/88 @ 10,123'; Dummy Valve lost I I/6/82 @ 10,300';
Dummy Valve W/O Prong stuck in #2 Mandrel @ 9,720'
PERFORATI ON H ISTORY
Interval Accum.
Date Zone Top Btm Amt spf Present Condition
11/5/80 9,505' 9,507' 2' Sqz Perfs f/ Bond
11/4/80 9,548' 9,550' 2' Sqz Perfs f/ Bond
11!4/80 10,372' 10,374' 2' Sqz Perfs f/ Bond
11/4/80 10,418' 10,420' 2' Sqz Perfs f/ Bond
11/10/80 C2 9,505' 9,550' 45' 4' Open f/Injection
11/10/80 C5 9,845' 9,917' 72' 4' Open f/Injection
11/10/80 C5 9,944' 9,954' 10' 4' Open f! Injection
11/10/80 C6 10,060' 10,090' 30' 4' Open f/ Injection
11/10/80 C7 10,330' 10,345' 15' 4' Isolated due to fill in tbg.
11/10/80 C7 10,358' 10,374' 16' 4' Isolated due to fill in tbg.
11/10/80 C7 10,400' 10,420' 20' 4' Isolated due to fill in tbg.
11/10/80 C7 10,426' 10,436' 10' 4' Isolated due to fill in tbg.
11/10/80 C7 10,464' 10,480' 16' 4' Isolated due to fill in tbg.
GP 24-13RD Final 10-4-97.DOC
KB ELEV: = 105'
PBTD = 10,588'TD = 10,640'
MAX HOLE ANGLE = 21.25° ~ 2800'
)
MEMORANDUM
State of Alaska
)
Alaska Oil and Gas Conservation Commission
TO:
Jim Regg 'í/. I (
P.I. Supervisor ~(3 14 D5'
DATE: Friday, March 18,2005
SUBJECT: Mechanical Integrity Tests
UNTON OIL CO OF CALIFORNIA
24-13RD
GRANITE PT ST 24-13RD
£ìt;Z;
"~g ,.."."." ",':~
,,1[\
" .,:~,I I ,I
FROM:
Lou Grimaldi
Petroleum Inspector
Src: Inspector
Reviewed By:
P.I. Suprv 3t?¡S..-
Comm
Well Name: GRANITE PT ST 24-13RD
Insp Num: mitLG050317155310
Rei Insp Num:
NON-CONFIDENTIAL
API Well Number: 50-733-20080-01-00
Permit Number: 180-116-0
Inspector Name: Lou Grimaldi
Inspection Date: 3/17/2005
Packer Depth Pretest Initial 15 Min. 30 Min. 45 Min. 60 Min.
Well 24-13RD Type Inj. N TVD 9157 IA 340 2500 2500 2500
P.T. 1801160 TypeTest SPT Test psi 2289.25 OA 315 610 610 610
Interval 4YRTST PIF P Tubing 1150 1500 1500 1500
Notes: Tubing pressure rose during pressure up of lA, fluid to surface in all strings. Tubing pressure stabilized during pressure up and dropped of after
test when IA was bled off Appears to be compression of tubing by IA pressure against tight formation. Reported to me that well will not take
injection.
SCJ~NNED APR ~~ 5 2005
Friday> March 18, 2005
Page 1 of 1
STATE OF ALASKA
ALASKA AND GAS CONSERVATION ,'OMMISSlON
APPLICATION FOR SUNDRY APPROVALS
1. Type of Request: Abandon: Suspend: Operation shutdown: Re-enter suspended well:
Alter casing: Repair well: Plugging: Time extension: Stimulate:
, ,,
Change approved p~'ogram: x Pull tubing: Vadan'ce: x Perforate: ..Other: x
2. Name of Operator 5. Type of well: 6. Datum elevation (DF or KB)
Union Oil of California (Unocal) Development: KB 95' above MSL feet
3. Address Exploratory: 7. Unit or Property name
Stratigraphic:
P.O. Box 196247 Anchorage, AK 99519 Service: x Granite Point Field
4. Location of well at surface 8. Well number
2392'S & 1376' E of the NW Comer, Sec. 13, T10N, R12W, SM 24-13RD
At top of productive interval 9. Permit number
885' N & 2206' E of the SW Corner, Sec. 13, T10N, R12W, SM 80-116
At effective depth 10. APl number __ _
At total depth 11. Field/Pool
613'N & 2063' E of the SW Corner, Sec. 13, T10N, R12W, SM ~'~'~r~:;~l~,J~dle Kenai
12. Present well condition summary
Total depth: measured 10,640 feet Plugs (measured)
true vertical 10,286 feet
Effective depth: measured 10,640 feet Junk (measured)
Casing Length Size Cemented Measured depth True vertical depth
Structural 18" 70.59 650 sx 592' 592'
Conductor 13-3/8" 61 1850 sx 3960' 3960'
Surface 9-5/8" 40 & 43 9260' 9260'
Intermediate
Production
Liner 7" 29 400 sx 9054' 10,632
Perforation depth: measured 9505-9550; 9845-9917; 9944'-9954';
10,060'-10,090'; 10,330'-10,345'; 10,358'-10,374'; 10,400'-10,420'; 10,426'-10,436'; 10,464'-10,480'
true vertical 9196'-9241'; 9523'-9591'; 9618'-9728'; 9730'-9760'; 9988'-10,003'; 10,016'-10,030'; 10,054'-10,074';
10,080'-10,090'; 10,120'-10,136'
Tubing (size, grade, and measured depth) 3-1/2" 9.2 #/ft, N-80 10,359'0RIJ INAL
Packers and SSSV (type and measured depth) BeT FB-1 @ 9440'; 9690' and 10,165'
13. Attachements Description summary of proposal: x Detailed operations program: x BOP sketch: See Procedure
Directional Program
14. Estimated date for commencing operation 15. Status of well classification as:
9/9/97
16. If proposal well verbally approved: Oil: Gas: Suspended:
9/2/97
Name of approver Blair Wondzell Date approved Service: x
17. I hereby certify that the foregoing is true and correct to the best of my knowledge.
Date:
9/5/97
Signed: Dale Haines //) ~R. C~_ c~ c&,,.., Title: Drilling Manager
FOR COMMISSION USE ONLY
Conditions of approval: Notify Commission so representative may witness IApproval No. _
BO_.P Test f Location clearance J
Plug
integrity
Mechanical Integrity Test~ Subsequent form required 10- ~ ~
David W. J0hn.~fnn 4 / ~ _ __
Form 10-403 Rev 06/15/88
SUBMIT IN TRIPLICATE
UNOCAL
Granit,. ?oint Field
GP #24-13RD
Workover Procedure
Revised 9/8/97 Revision #1
i i i ii ii i ii i i i ii i i ii i i ii iii
C?
Objective: Convert GP 11-24 ~) a C-2, C-5, C'6, and - 10,000 psi water injector.
I. Prepare Well for Workover:
1. Record all casing pressures and tubing pressure prior to pumping.
2. Bleed off any gas from annulus. Fill annulus with FIW.
Note: Do not exceed 4,000 psion 9-5/8" casing.
Bullhead 90 BBLS of Filtered Inlet Water (FIW) down the tubing.
Call-out FMC wellhead hand. Set BPV in tubing hanger.
Note:
A13-5/8" 5M X 11" 10M tubing spool and 10M Adapter Flange will be installed
during workover. This equipment is being air freighted from Wood~oup Pressure
Control in Lafayette.
Prepare to change out %5/8" casing valves if required.
.
Move rig from GP 11-24 over to GP 24-13. ND tree. NU 13-5/8" #13 Hub X 13-5/8"
Flange XO spool and 13-5/8" BOPE.
Note: BOP configuration from top to bottom: 1) annular preventer, 2) pipe rams, 3) blind
rams, and 4) drilling spool.
Notify AOGCC personnel 24 hours prior to conducting test. Noti[v state for MIT.
6. Test annular preventer to 250/3.500 psi and both pipe rams to 250/5,000psi.
GP24-13RD WOproc 1.doc Page 1 of 4 09/08/97--2:35 PM
UNOCAL
Granite r,oint Field
GP #24-13RD
Workover Procedure
Revised 9/8/97 Revision #1
II. Pull Existing Completion:
1. RU GBR tubing crew and handling tools.
Note: Weatherford will be the fishing company for GP 24-13~'
2. MU 3-1/2" landing joint.
.
PU and release tubing hanger and pull 80-40 seal assembly with G-22 locator out of FB-1
packer ~ 9,693'
Note:
Have a string shot on location. 'If the seals do not pull loose, RIH with string
shot and spot across seal assembly. Put the tubing in tension and fire string
shot to release seal assembly. If the seal assembly does not pull out, be prepared
to cut tubing using APRS.
Make one fishing attempt to retrieve seal assembly if a cut had to me made. If
the seal assembly still can not be retrieve, set a packer above and complete the
well
4. Circulate one complete tubing and casing volume with FIW. Verify well is dead.
5. POOH and laying down 3-1/2" tubing. Check all tubing for NORM.
GP 24-13RD wo proc 1.doc Page 2 of 4 09/08/97--2:35 PM
UNOCAL
Gramtc, Point Field
GP #24-13RD
Workover Procedure
Revised 9/8/97 Revision #1
III. Change out Tubing Spool.
o
MU the folloxving BHA:
12 stands of 5" 19.5 lb/ft drillpipe
HES 9-5/8" 40 lb/ft RTTS
HES Storm valve MU to RTTS.
2. RIH with RTTS to 360'. Rotate to the right and set RTTS.
3. Rotate to the left and release from RTTS.
4. Pressure test casing and RTTS to 3,000 psi.
5. POOH.
6. ND and stand-back BOP stack.
.
NU new 13-5/8" Tubing spool (13-5/8" 5M CIW #13 Clamp hub, BX-160, bottom X 11"
10M, BX-158, Flange Top).
.
NU 11" Bx- 160 Flange x # 13 Clamp XO spool, riser and BOP
Note: BOp configuration from top to bottom: 1) annular preventer, 2) pipe rams, 3)
blind rams, and 4) drilling spool.
9. Test BOP.
10. RIH and rotate 20 tums to right, pick-up and release RTTS.
11. POOH and LD RTTS.
GP 24-13RD WO proc 1.doc Page 3 of 4 09/08/97--2:35 PM
UNOCAL
Granitc Point Field
GP #24 -13RD
Workover Procedure
Revised 9/8/97 Revision #1
V. Run Water Injection string.
.
RIH with the Completion string as follows:
BOT 80-32 Seal Assembly with G-22 Locator
3-1/2" 9.2 lb/ft L-80 Special Clearance Buttress tubing
3-1/2" Buttress x 3-1/2" 8rd pup joint
Woodgroup 11", 10M Extended Neck Tubing Hanger ( 3-1/2" 8rd top and bottom with
Cameron BPV profile)
2. Stop RIH above FB-1 packer ~ 9,440'.
3. Space-out so that the tubing has 10,000 lbs of compression set down on packer
4. Reverse circulate Tretolite CRW 132 corrosion inhibitor ~ 1.0% into the annulus.
Note: Ensure the entire seal assembly is inside the FB-1 seal-bore
5. While circulating stab seals into packer ~ 9,440'.
6. Pressure up to 500 psi and test seals against the formation.
7. Land FMC tubing hanger with 10,000 lb of compression set down on packer.
8. Run-in tie-down bolts.
9. RU chart recorder.
10.
Pressure test 9-5/8" casing, liner lap, 7" casing. FB-1 packer, and seals to 3,000 psi for 30
minutes.
11. Set BPV and ND BOPE
12. Pull BPV and NU tree.
13. Pull BPV and install two-wav check. Test tree to 250/5,000 psi.
Note: x,X,~en the 10,000 psi tree arrives it we be installed and pressure tested to 10,000 psi.
GP 24-13RD WO proc l.doc Page 4 of 4 09/08/97--2:35 PM
UNOCAL '
RKB to TBG Head = 38'
Tree connection:
Restnctlon in Tbg. ~
9358'
fcl' tools > 2.5" OD
C2
IPcrlbratcd The. er,
9711'- 9713.5:
10 shots ¢ 4~vt' '?: phase
Taggcd cotapsea tog 4~1988
@ 10.106'
Fill first taKI/ed or. 3/12J88
15
16
C5
C5
C6
12
KB ELEV: = 105'
IC7
PBTD = 10.588' TD -- 10,640'
MAX HOLE ANGLE = 17°
24-13RD.IXX?
SIZE
WT
Granite Point
Well # 24.13RD
Completed 11/15/80
CASING AND TUBING DETAIL
GRADE CONN ID
TOP
BTM.
13-3/8"
9-5/8"
7"
61.0
40&43.5
29
Tubing:
3-1/2" 9.2
K-55 Butt. LT&C
N-80 & S-95 Butt. LT&C
N-80 Butt. LT&C
N-80 Butt
12.515 Surf 3960'
8.755 Surf 9260'
6.184 9054' 10.640'
2.992
10.359'
NO. Depth ID
JEWELRY DETAIL
Item
38
1 308 2.75
2 9405' 2.75
a 9439' 3.00
~ 9440'
5 9442
6 9467
7 9690 3.00
8 9690
9 9693
10 9720
11 10.165 3.00
12 10.165
13 10.168
14 10.217
15 10.286
16 10.358' NA
btm 10.359'
OCT 2 Stage Unihead Tbg Hanger
"F" Nipple
Baker Model "L" 3-1/2" X 2.75 Sliding Sleeve
Baker Model "G-22" Locator w/8040 Seal Assy. 16.43 lng
Baker Model "FB-I" Ret. Prod. Pkr.
Miliout Ext. w/5" 8rd X 3-1/2" Butt. XO
3-1/2" Camco MMGW Mandrel #1 W/Dummy valve.
Baker Model "G-22" Locator w/8040 Seal Assv. 16.43 lng
Baker Model "FB-I" Ret. Prod. Pkr.
Miilout Ext. w/5" 8rd X 3-I/2" Butt. XO
3-1/2" Camco MMGW Mandrel #2 w/Durum? Valve
Baker Model "G-22" Locatof w/80~0 Seal Ass.,,'. t 6.43 lng
Baker Model "FB-I" Ret. Prod. Pkr.
Millout Ext. w/5" 8rd X 3-1/2" Butt. XO
3-1/2" Camco MMGW Mandrel #3
3-1/2" Camco MMGW Maadrel #4
Bull Plug
Fill (& Fish f/'82~ Tagged on 3/12/88
Colapsed tbgm. tagged w/ 1.5" IB 4/1/88
FISH:
2 Half Belly Spnngs (3/8" X 3" X 1/16"). 3/16/88
Dummv Valve 11/6/82
Dummy valve w/o prong stuck in #2 Mandrel
10.123 WLM
10.106'
10.123' W1J~!
10.300'
9720'
PERFORATION HISTORY
Interval Accum. ,
Date Zone Top Btm Amt spf Present Condition
11/5/80 9,505~ 9,50T 2' Sqz Peals fl Bona
11/4/80 9,548' 9,550' 2' Sqz Perfs f/Boncl
~ 1/4/80 10,372' 10,374' 2' Sqz Perfs f/Bono
11/4/80 10,418' 10,420' 2' Sqz Perfs f/Bono
1/10/80 C2 9,505' 9,550' 45' 4' Open f/Inject]on
1/10/80 C5 9,845' 9,917' 72' 4' Open f/Injection
1/10/80 C5 9,944' 9,954' 10' 4' Open f/Inject]on
1/10/80 C6 10,060' 10,090' 30' 4' Open f/Inject]on
1 ./10/80 C7 10,330' 10,345' 15' 4' Isolated due to fill in tbg.
1/10/80 C7 10,358' 10,374' 16' 4' Isolated due to hil in tbg.
1/10/80 C7 10,400' 10,420' 20' 4' Isolated due to hll in ttx:j.
1/10/80 C7 10,426' 10,436' 10' 4' Isolated (Jue to fill in tbcj.
11/10/80 C7 10,464' 10,480' 16' 4' Isolated clue to hll in tt)g.
REVISED: 4/27/97
]'~O AA~F~T DV. ~'T "F
UNOCAL
Granite Point
Well # 24~'~,~,
Proposed Jpletion
RKB to TBG Head = 38'
Tree connection:
1
C;
Date
11/4180
11 '4/80
! ~ 10 ~10 11.'10/80 ~ C2
05 11/10/80 I C5
11.'10/80 ~ C5
: [ i ~ CS 1~,~o/8o : c6
U ~ C6 11'10/80 , C7
11/10/80 ~ C7
! 11 11/10/80 ~, C7
12 11'10/80 i C7
11'10/80 ', C7
KB ELEV: = 105'
PBTD = 10,588'TD -- 10,640'
MAX HOLE ANGLE = 17°
CASING AND TUBING DETAIL
SIZE '~ GRADE CONN ID TOP BTM.
~.:.3 8" bi.0 K-55 Butt. LT&C '.2.515 Surf 3960'
e-5 8" 40 & 43.5 N-80 & S-95 Butt. LT&C 8.755 Surf 9260'
-" 29 N-80 Butt. LT&C 6.184 9054' 10.640'
Tubing:
_:-; 2" o.2 N-80 Butt 2.992 0' 10.359'
JEWELRY DETAIL
NO. Depth ID Item
38
9405' 2.75
9439' 3.O0
9440'
9442
9467
9690 3.00
9690
O693
9720
10,165 3.00
10,165
10.168
10,217
10.286
10,358' NA
btm 10,359'
OCT 2 Stage Lnmead 'Fog Hanger
X-Nipple (ID = 2.813")
Baker Model "G-22" Locator w~ 8040 Seal Assy, 16.43 lng
Baker Model "FB-I" Ret. Prod. Pkr.
Millout Ext. x~ 5" 8rd X 3-1 .'2" Butt. XO
3~I/2" Camco MMGW Mandrel #I W/Dummy valve.
Baker Model "G-22" Locator w; 8040 Seal Assy, 16.43 lng
Baker Model "FB-1" Ret. Prod. Pkr.
Millout Ext. v. 5" 8rd X 3-1 2" Butt. XO
3-1/2" Camco MMGW Mandrel ;2 wi Dummy Valve
Baker Model "G-22" Locator w.' 8040 Seal Assy, 16.43 lng
Baker Model "FB-I" Ret. Prod. Pkr.
Millout Ext. x~ 5" 8rd X 3-1 '2" Butt. XO
3-1/2" Camco MMGW Mandrel ~3
3-1/2" Camco MMGW Mandrel ~-4
Bull Plug
Fill (& Fish f/'82} Tagged on 3/12/88 (-a~ 10,123 WLM
Colapsed tbgm, tagged w/1.5" IB 4/1,88 .a~. 10,106'
FISH:
2 Half Belly Springs (3/8' X 3" X 1/16"), 3/16/85 ~ 10.123' WLM
Dummy Valve 11/6/82 '~: 10,300' WLM
Dummy valve w/o prong stuck in .=.2 Mandrel :~ 9720'
PERFORATION HISTORY
Interval Ac, cum.
Top Btm Amt spf Present Condition
9,505' 9.507' 2' Sqz Perfs fl Bonct
9,548' 9.550' 2' Sqz Peals fi Bond
10,372' 10.374' 2' Sclz Perfs f/Bond
10,418' 10.420' 2' SQz Perfs f/Bono
9.505' 9.550' 45' 4' Open f/Injection
9.845' 9,917' 72' 4' Ol3en f/Injection
9,944' 9.954' 10' 4' Open f/Injection
10.060' 10,090' 30' 4' Open f/Injection
10.330' 10.345' 15' 4' isolated due to fill in tl3g.
10.358' 10,374' 16' 4' tsolated clue to fill in tbg.
10.400' 10,420' 2C' 4' isolated clue to fill in tbg.
10.426' 10,436' 1C' 4' isolated clue to fill in tbg.
10,464' 10.480' 16' 4' Isolated clue to fill in tbg.
24-13RD ?:ot~osed2.DOC
REVISED: 9/8/97
DRAWN BY: mwd
DATE SUBMITTED A C C ¢ t-J.&l~' ' I N G
Dec. 10, 1980
T°H W KUGLER ~ WARTHEN COM~
ALAS~ O&G CONS. COMM. UNION OIL COMPANY ~ES ENg
A~3001 PORCUPINE DRIVE ~ BOX ·6247
ANCHO~GE AK 99504 ANCHORAGE AK 9950~~
........,
' TELEPHONE NO.
TRANSMITTING THE FOLLOWING: _
.. r ~_] G~OL
.............
Granite Point 24-13 RD'
...... J ST
l. Pa_ SeDi~ & BlUeline.
DL-Micro-SFL 2". 5" ~'/
~ hLF:
, ,CNL/FDC 5" ... /' . ,.,
FDC-GG 5"
, , / ..... ,
1 Tape ~107. 61125 ~ ~.'
_ _ .' ~'
1 Veri ~v Listing ,~ .....
1 ' Gyro Survey
/
,l Saraband Listing Printout ~
" P/ease' acknowledge receipt"by si~g am
............ ~ ~ "
................. ~ , ..
III I I J Il I I I I ..... ~ ......
FORM 1-2M02 (REV, 11-72) PRINTED IN U.S.A.
Aia~r,a Req~an
ADri! 16, 1990
Alaska Oil & Gas Conservation Cu.~nission
3001 Porcupine Dr.
A//chorage, AK 99504
At.n: Ms. Elaine Johnson
I have attached surface survey locations of the "Lags" and
conductors for the four platforms in t~he Trading Bay Unit as well as
the Union Oil-operated Monopod and Granite Point Platforms. I was
unable to locate any plats from a registered surveyor but I hope
t-kis will meet your needs.
You.rs very truly,
' s.?us '
GSB / law
GRANITE POINT PLATFORM FROM NW CORNER OF SECTION 13, TION, R12W
CONDUCTOR
Leg#l:
Leg#2:
Leg#3-
Le 9.~4:
"Y" COOR. "X" COOR. WELL # FSL
2,544,566.00 263,297.33
2,544,572.08 263,294.75
2,544,572.41 263,299.33
2,544,569.75 263,302.99
2,544,565.34 263,303.99
2,544,561.34 263,302.08
2,544,599.42 263,297.83
2,544,560.67 263,293.33
2,544,564.50 263,290.83
2,544,569.00 263,291.42
2,5441,610.00
Compressors
263,364. O0
2,544,543.33 263,408.00
-2,544,548.16 263,403.42
2,544,549.91 263,407.59
2,544,548.66 263,412.00
2,544,544.99 263,414.41
2,544,540.42 263,413.91
2,544,537.25 263,410.58
2,544,537.00 263,406.09
2,544,539.58 263,402.42
2,544,544.08 263,401.42
2,544,499.58 263,341.33
13-13 2371
44-14 2373
33-14 & RD 2371
31-23 2366
31-14 & RD 2362
1 & 2
44-11 & RD 2360
Open
12-24 2363
32-23 & RD,2 2368
31-13 2382
22-13 2379
MUC#I-1 2391
MUC:I-2' 2386
32-13, 33-13 2390
24-13 & RD 2392
42-23X, 31-23 2380
11-24 2383
11-13 2379
FEL
1267
1262
1258
1256
1258
1261
1269
'1269
1370
1375
1379
1381
1379
1376
1371
1368
1375
CORRECTED COPY ~' "'¥ ~
STATE OF ALASKA ..
ALASKA OIL AND GAS CONSERVATION COMMISSION '
WELL COMPL=-.TIC C}R RECOMPLETION REPORT AND LOG -
· Classification of Service Well
1. Status of Well .
',
.
OIL [] GAS [] SUSPENDED [] ABANDONED [] sERviCE [] w~t~_~ qn,j,.
2. Name of Operator 7. Permit Number -
UNION OIL COMPANY OF CALIFORNIA 80-116
8. APl Number
3. Address ~~0-o I
P.O. BOX 6247, ANCHORAGE, ALASKA 99502 50-733
9. Unit or Lease Name
4. Location of well at surface2392' S & 1376' E of the N.W. cor.,
Sec.13, T10N, 'R12W, S.M. UNION/MOBIL STATE
At Top Producing Interval 885'N & 2206'E of the S.W. cor., Sec. 13, 10. Well Number
T10N, R12W, S.M. GPS #24-13RD
' ' 11. Field and Pool '
AtTotaIDel~th 613'N & 2063'E of the S.W. 'cor., Sec. 13,
T10N, R12W, S.M. GRANITE POINT/MIDDLE KENAI
5. Elevation in feet (indicate KB, DF, etc.) I 6. Lease Designation and Serial No.
KB 95' Above MSLI ADL-t8761,
12. Date Spudded 13. Date T.D. Reached . 14. Date Comp., Susp. or Aband. I 15. Water Depth, if offshore 16. No. of Completions
t0/18/80 K.O. 10/28/80 . ' 11/16/8oI 70' feet MSL ]
17. Total Depth (MD+TVD)18.PlugBackDepth(MD~TVD)19. Directional Survey I20- Depth Where SSSV set I'l' Thickness Of PermafrOst
lO,640'M.D.10,28~'TVD YES[~] NO[] 'None/Water feetMD · N/A
22. Type Electric or Other Logs Run ]:nj ecl:. ._
DT.L-SE-GR, .FDC-CNL-GR, ' CBL-VDL - SIG W/GR '
23. CASING, LINER AND CEMENTING RECORD
SETTING DEPTH MD
CASING SIZE WT. PER FT. GRADE TOP. I BOTTOM · HOLE SIZE.. CEMENTING_ RECORD AMOUNT PULLED
18" '-' 7-n ..... ~q B _~,~rface ~._~-' 22" ' ~n ~ - "
O'"')~-.'~' ' I o I //,"
' ']O,~: .... ~ !/2" Ann o~
Hilled Iwi~dow i~ g'5~/~'' ~I~q'9260 :9S17' :-'~K.O.?."~,~6~~-' .......
24. Perforations open to Production (MD±TVD of Top and Bottom and - 25. TUBING RECORD
interval, size and number) ' ,69 ~I~4HPF ...... SIZE DEPTH SET (MD) PACKER SET' (MD)
10,464'-!0,480' 10,116' ' 10,132' TVD 3~" 10,632~ 10,16,5', 9689', 94~
10,426'-10,436' 10,008' 10,090'- '
10,400 -10,420" 10,055' 10,074' ":'"':'; .... '~ ' .....
' ' 26. . ACID, FRACTURE, CEMENT SQUEEZE, ETC. '
"' 10,358'-10,374' ' 10,015' 10,030' .""'i' ,DEPTHINTERVAL(MD) AMOUNT & KIND OF MATERIAL USED ',
10,330'-10,345' '.::.9,988' '10,'002' ~ .:'~.-"-10,4:L8,-lo;/~20, WouLd not break do~m w/7000;
10,060'-10,090' 9,728' - 9,756'
10,372'-10,374' " ,'. " "
9,944'- 9,954' 9,616' - 9,626'
. 9,845' :550 9,196' 9,239. --; ...... 9505"-~9507' . " " ~'" "
...-9,505' ~ 917', 9,52%'.. 9,590~ 9548.'-9550' 150 sx. cl ,'G,, w/add. -.
_.
27. ' PRODUCTION TEST "
Date Firs, Production ..... I Method of Operation (Flowing, gas lift,.etc.) -- . , .
".NONE' I Injection ' ' ' ' ..... .- "~ '
Date of Test Hours Tested PRODUCTION FOR ' OI L-BBL GAS-MCF WATER-BBL CHOKE SIZE GAS-OIL RATIO
.
11/12/80 TEST PERIOD I~ ,:: ....... :: ~. ' ....
Flow Tubing Casing Pressure CALCULATED , OIL-BBL .GAS-MCF . WATER-BBL OIL GRAVITY-APl (corr) ..
~Press. 6500 0 24-HOUR RATE I~ . ''... )115 BWPD (Injection) ' "'
28. COREDATA
Brief description of lithology, porosity, fractures, apparent dips and presence of oil, gas or water. Submit core chips. , -" &'.~' E-/'~¢/~
"' ':: : ": ' .. 0 .
.. . Co" .'~'
· · -.,.... . ~ .- .. .....
·
._
-.
Submit in duplicate
Form 10-407
R~_~ 7-14~n CONTINUED ON REVERSE SIDE
NAME Include interval tested, pressure data, all fluids recovered and gravity,
MEAS. DEPTH TRUE VERT. DEPTH GOR, and time of each phase. ,-
TyO~EK "A" ZONE 9493' 9215' NONE
TYONEK "B-i"ZONE 9841' 9551'
TYONEK "C" ZONE 10,319' !0,011'
!
..
·
.
~ .
.,.
· :
.
,
..,
31. LIST OF ATTACHMENTS '
; .
' , , ..,
- .
32. I hereby c. ertq'fy that the foregoing is true and c0rrect to the best of my knowledge ' . " '
· '.' /_.['~-'' .... -Dist. Drlg. Supt.· .12/12i80
~,~,~'~Ti t le ' Date
INSTRUCTIONS
~ · "General' This form is designed for submitting a complete and correct well completion report and log on
all types of lands and leases in Alaska. '
-
Item 1' Classification of Service Wells: Gas injection, water injection, steam injection, air injection, salt
water disposal, water, supply for injection, observation, injection for in-situ combustion.
.
Item 5' Indicate which elevation is used as reference (where not otherwise shown) for depth measurements
given in other spaces on this form and in any attachments.
Item 16 and 24: If this well is completed for separate production from more than one interval (multiple
- completion), so st'ate in item 16, and in item 24 show the producing intervals for only the interval reported
. in item 27. Submit a separate form for each additional interval .to be separately produced, showing th.e
data pertinent to such interval. ' ---- .. .
Item 21' Indicate whether from ground level (GL) or other elevation (DF, KB, etc.).
.
Item 23 Attached supplemental records for this well should show the details of any multiple stage cement-
ing and the location of the cementing tool.
Item 27' Method of Operation: Flowing, Gas Lift, Rod PumP, Hydraulic Pump, Submersible, Water In-
jection, Gas Injection, Shut-in, Other-explain. :
Item 28: If no cores taken, indicate "none". "
/~i~.:.,_ STATE OF ALASKA /-~' ~
ALASKA .?~- AND GAS CONSERVATION Cr"~:iMISSION
MONTHLY REPORT OF DRILLING AND WORKOVER OPERATIONS
· Drilling well
Workover operation
2. Name of operator
UNION OIL COMPANY OF CALIFORNIA
3. Address
P.O. Box 6247, Anchorage, Alaska
4. Location of Well
at surface
99502
Cond. #6, 2392'S & 1376'E of the NW cDr., 'Sec.
.
13, T10N, R12W, S M.
5. Elevation in feet (indicate KB, DF, etc.) 6.' Lease Designation and Serial No.
KB 95' above MSL
ADL-18761
7. Permit No.
68-5
8. APl Number
50- 733-200~N~-
9. Unit or Lease Name
Union-Mobil State #1
10. Well No.
ors #24-13 /t 0
11. Field and Pool
GRANITE POINT-MIDDLE KENA
For the Month of . OCTOBER
· 1980
12. Depth at end of month, footage drilled, fishing jobs, directional drilling problems, spud date, remarks
10,640' TD, 1380' drilled, no problems.
Commenced drilling on October 17, 1980 for redrill.
13. Casing or liner run and quantities of cement, results of pressur~ tests
7" 29# buttress N-80 liner f/9054' to 10,632'.
Cementing liner @ 24:00 hrs. 10/31/80.
14. Coring resume and brief description
No cores.
15. Logs run and depth where run
DDL-SP w/GR f/9260'
FDC-CNL-GR.
to -f~,630' WL TD.
RE' .E! VED
! 6. DST data, perforating data, shows of H2S, miscellaneous data
No DST data and no H2S.
JAN 1 4 1981
0Il.& aas Cons.
17. I herebv certify that the foregoing is true and correct to the best of my knowledge.
· .. ,~,_~/ Dist. Drlg. Supt. I1/7/80
SIGNE .~'M,~,'~'/~'_/. (.~~ TITLE .... DATE
NO/~'l~eport"- '" on this form is required for each calendar month, regardless of the status of operations, and must be filed in duplicate with the Alaska
Oil~nd Gas Conservation Commission by the 15th of the succeeding month, unless otherwise directed.
Form 10~,04 Submit in duplicate
January 13, 1981
Mr. J. R. Cai lender
District Drilling Superintendent
Union Oil Company of California
P.O.. Box 6247
Anchorage, Alaska 99505
Dear Mr. Callender:
Having issued a permit for each of the subject wells, we need a
well completion or recompletion report on each to complete our
files. The deep part of Granite Point State 24-13 was evi-
dently abandoned when a plug was set, and a Form 10-407 should
be sent to reflect this abandonment. A Form 10-407 has been
received on the Granite Point State 24-13 RD.
We also need a Monthly Report of Operations (Form 10-404) for
the work of October,. 1980, reporting on the drilling activity
at'Granite Point State 24-13 RD. ~
· ·
Sincerely yours,
/
/
·
J~onn A. Levorsen
Petroleum Geologist
JAL: mm
· ~'*' STATE OF ALASKA ~
ALASKA L¢IL AND GAS CONSERVATION CC. MISSION
WELL COMPLETION OR RECOMPLETION REPORT AND LOG
1. Status of Well· Classification of Service Well
,
.
OIL [] GAS [] SUSPENDED [] ABANDONED [] SERvIcE [] ~/aC_c_T' ~t~j,
,
· 't
2. Name of Operator 7. Permit Number
UNION OIL COMPANY OF CALIFORNIA 80-116
3. Address 8. APl Number
P.O. BOX 6247, A~CHOt~&GE, A~&S~A 99502 5o- 733_200'8~-~'~1
·
9. Unit or Lease I~ame
4. Location of well at surface2392 ! S & 1376' E of the N.W. cor. ,
Sec.13, T10N, R12W, S.M. UNION/MOBIL STATE #1
At Top Producing lnterval 885'N & 2206'E of the S.W. cor., Sec. 13, lO. WellNumber
T10N, R12W, S.M. CPS #24-13RD
11. Field and Pool
At Total Depth 613'N & 2063'E of the S.W. cor., Sec. 13,
T10N, R12W, S.M. ~&'k GRANITE POINT/MIDDLE KENAI
.5. Elevation in feet (indicate KB, DF, etc.)= 95 ' Above MSL I 6' Lease Designati°nand Serial %ADL-18761
12. Date Spudded 13. Date T.D. Reached 14. Date Comp., Susp. or Aban~j~15. Water Depth, if offshore 116. No. of Completions
10/18/80 K.O. 10/28/80 11/16/80 70' feet MSL
17. To~al Depth (MD+TVD) 18. Plug Back Depth (MD+TVD) 19. Directional Survey I 20. ~f~,~where SSSV set 21. Thickness of Permafrost
10,640'M.D.10,28~½'TVD YES [] NO []I Noj~ter feet MD N/A
22. Tyl~e Electric or Other Logs Run /'1~~t.
DLL-SP-GR,;.FDC-CNL-GR, CBL-VDL ,,- S!G W/GR
23. CAS~JG~'LINER AND CErv~TING RE'C'~
SETTIr~' ~EPTH MD
CASING SIZE WT. PER FT. GRADE TOP ~BOTTOM HOLESI~ CEMENTING RECORD AMOUNT PULLED
7" 29¢ N-80 9054' --'10,6331 ,,, 8½" ~ ~400 sx. .
,..5/8 .W: m±Jled from 9260' - 9311' '
24. Perforations open to Production (MD.+TVD of Top and B~I )m a~d" 25. ~ TUBING RECORD
interval Size and number) .69'I'~4"PF "~jl ~ ~' .S.!z4b DEPTH SET (MD) PACKER SET (MD)
10,'464'-10,480' 10,116'- 10,1~' T~ ii'~"' - 10,632' '10,165', 9689', 94:
10,426'-10,436' 10,008' - 10,09~ - . ~_~.
' 2 ' 1 ' 1 . ~...,. :~...... 1.
· 10,400 -10,4 0 0,055 - 0,07~ 26. ACID, FRACTURE, CEMENT SQUEEZE, ETC.
10,358'-10,374'. 10,015~ - 10,030 DEPTH INTERVAL(MD) AMOUNT&K ND OF MATERIAL USED
10,330 -10,345 - 9,988 - 10,002 ~"~ .... ' .... ' ·
1'~ ~' 1~ ~q~' q 72~' ~ 7~ 10,418 -10,420 Would not break down w/7000
, , , 10,372 10,374
9,944.- 9,95'~~,616 - 9,626' - '
· ~8 ', . 0" , 2 ' . . : ..... 48' 5 ' 5 s "" ,
9, 45_- 9.917' ~5 2]- 9.590 95 -95 0 L 0 x. cl. G w/add.
9,505-.9,550 '~.~ ~' .... 9,23.9 ·'..~ 95'05"'950'7' " '" " "
PI: ~DucTION TEST ' "
27. Date Fbst Production I ~perati.on ~,. w,i,ng,, gas lift, etc.)
"NONE' IInje~' \...,:,::-.,~-:' .~:. .
-Date'°f Test11/12/8.0 Hours Tested TEST PERIoDPRODUCTION ~-FOR ~L.-?, ~.~ ,1 GAS-MOF WATER-BBL CHOKE SIZE I GAS-OILRATIO
.' ., . - ., ;1; ;,' . · .
Flow Tubing Casing Pressure CALCULATED OIL-BBL .... GAS~M.OF ~ WATER-BBL OIL GRAVITY-APl (corr)
· ' ' 9115 BWPD (Injection)
'Press. 6500 0 - 24-HOUR BATE I~ "" ': ' '? .....
28. COP E DATA
'Brief description of lithology, porosity, fractures, apparent dips and presence of oil, gas or water. Submit core chips.
None
· " ' ' ' :~ ''' ' ~':" : ' ~'~'~..k.,~....? ,.'1:'~ ,[~(~!j
:
.Alaska 0il 8,, Gao Cons. Commission
.
.
.'- · '- , -', . ,'"',:' ":
Form 10-407 Submit in duplicate
Rev. 7-1-80 CONTINUED ON REVERSE SIDE
i~;,"-,iv~L: ,i ' ir~clude interval Jested, pressu[e ~;~[a, u~i iiu~us ~.~coveCed and gravity,
MEAS. DEPTH TRUE VERT. DEPTH GOR, and time'of each phase.
TyO~K ~'A" ZONE 9~93~ 9215~ NONE
TYONEK "B-i"ZONE 9841' 9551~
TYONEK "C" ZONE 10,319' 10,011'
:
31. LIST OF ATTACHMENTS : ~: ,~'~
32. I hereb~ that the fore~oifi~ is true and correct to the best of m~: kno~lod~e
. ·
" ~ ' ~ DSsr. Drlg. Supr. 12/12/80
././' - ~ 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.
..
Item 1'. Classification of Service Wells: Gas-injection, wa;[er injection, steam injection, air injection, salt
water disposal, water supply for injection, observation, injection for in-situ combustion.
Item 5: Indicate which eleVation is used as reference (where not otherwise shown) for depth measurements
given in other spaces on this form and in any attachments,
t~tem 16 and 24: If this well is completed for separate pr6d. Uction from more than one interval (multiple
completion), so state in item 16, and in item 24 show the producing intervals for only'the interval reported
in item 27. Submit a separate form for each additional interval to be separately produced, showing the
data pertinent to such interval.
'Item 21' Indicate whether from ground level (GL) or other elevation (DF, KB, etc.).
Item 23' Attached supplemental records for this well should show the details of any multiple stage cement-
ing and the location of the cementing tool.
Item 27' Method of Operation' Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water In-
jection, Gas Injection, Shut-in, Other-explain.
Item 28' If no cores taken, indicate "none".
.o
~-~ Eastman ~
~~-~, Whipstock l)~
A PETROLANE COMPANY
REPORT
of
SUB-SURFACE
DIRECTIONAL
SURVEY
CONFII) NTIAL
Union Oil 76
COMPANY
GP State~ 24-13 (Redrill)
WELL NAME
Granite Po. in.t,. _CQok Inlet, Alaska
LOCATION
JOB NUMBER
A1 180G0087
SURVEY BY
Andrew Hickman
TYPE OF SURVEY ~ DATE
Gyro Multi Shot ~m,~_ <~(),z _ ~//~11/3/80
OFFIC[~'
Alaska
astman
Whip, c k ,
P. O. Box 4-1970/Anchorage, Alaska 99509/(907) 34~4617
TVVX 910-881-5066/Cable: EASTCO
November 6, 1980
Union 76 Oil
P.0. Box 6247
Anchorage., Alaska 99502
Well Number: GP State, 24-13 (Redrill)
Location: Granite Point, Cook Inlet, Alaska
Type of Survey: Gyro Multi Shot
Date: November 3, 1980
Method of Computation: Radius of Curvature
Surveyor: Andrew Hickman
Job Number: Al180GO087
ATTN: John Underhill
Dear Mr. Underhill,
I am enclosing the original and one copy of the
Gyro Multi Shot Survey run on the above mentioned
well.
We wish to take this opportuntiy to thank you
for calling on our services and trust that we may
continue to serve you in the future.
Sincere~
District Surveyor
Alaska District
cc: file
eno.
GR/cfw
14~53~30 -
06-NOV--80
FILE NUMBER~
UNION 76 OIL.
GF' STATE, 24-13 RD GMS
GRANtT.,.F'OINT,--COOK t.NLET-,-ALASKA
ONVERSATIONAL SURVEY F'ROGRAM V02~11
VERTICAL SECTION CALCLJLATED IN F'LANE OF BOTTOM HOLE CLOSURE
RAJ)]:US (:.';F' CL!F:L.'A"f'URE NETHOD
RAH I '-! i-'0 [ r.J]'.~ ('j(.]iLjh...[ NL.j T' ~
r:: A :i:i; U F: ii: D D F;.; I F:' T
,9 iE F:' "i if r-I t~ U L E"" .....
F E E T D .iff
!"R L! E
D R I F T C: 0 U f;: S ii]: VEi: f;.: T I C ~ L V E: F;; T I C A L
.0 ! RI'ZCTI ON LENGTH DEPTH SFCTZON
D F E E T F E E T F' E E T
O. 0 0
100, 0 45
200. 1 0
,300 · ,_")1 ._;'-'
400. 4 0
3. 5 50
6 O0. 6 0
700. '::'
o 0
800 · ~'
,-~ 0
900, S SO
0 O. 0.00 0.00
S 62 E 100, t00.00 0.46
S 15 W 100. 199.99 1,87
¢ 67
o W 100. ~'~99.94 3.7°~,~
S 6 W 100. 399.79 6.43
S 4 W 100. 499.44 14.1~
S 3 E 100. 598.94 23.68
S 3 W 100. 698.48 32.85
S 8 W 100. 798.10 40.91
S 10 W 100. 897.82 47.58
1000. 4 0
1.t. 00, 6 0
1200. 7 15
1300. 8 15
14 (',n o 45
S 7 W 100o 997,61 53.49
S 29 E 100o 1097.22 62.02
S 30 E 100. 1196.55 73.28
S 22 E 100. 1295.64 86.58
S 17 E 100. 1394.54 101.~4
15'30. ].0 15
1600. 1! 15
]. 700. 11 45
1800, 13 0
:( O. 14 15
200 '"'~,.. · 1 -J ~':' 0
"'::L aO ~ 1 =: 45
22C~0 J. 7
~.,~ ~ o i 9 0
2400~ 20 30
S oo F 100. 1493.16 li7.8'~
S 49 E 100. 1591.41 135.32
S 47 E 100. 1689.40' 152.38
S 4~ E 100. 1787.07 170.71
S 44 E: 100. 1884,26 191.16
S 44 E 100. 1981.02 213.62
S 40 E 100. 2077,44 237,61
S 44 E i00. ~ ~173025 26J.49
S 40 E 100. 2268.22 291.82
S 59 E 100. 2362.34 J2S.00
'::5 O0. o 1 0
2600. 2J. ].5
/L.~J. 41 0
2800. 2i 30
,29~00~ 19 30
S 39 E 100. 2455.85 355,80
5 36 E 100. 2549,13 389.51
S 38 E 100. 2642.41 423.34
S 39 E 100. 2735.61 457,02
S 39 E 100, 2829.27 489,44
S LJ Il; S i::: A
TVD
FEET
-99.10
0.90
100.89
200.84
300.69
400.34
499.84
599,38
699.00
798.72
898.51
998.12
1097.45
1196.54
1295.4,t
1394.06
1492.31
1~90.30
1687.97
1785.].6
1881.92
1978.34
~°074.15,
2169.12
o063.o4
? 3.s, 6.7~:'
2450.03
27S0.17
C O Pi F' U T A T ]: 0 i'-~ [.:' A G
: i M E: : ! A 'T r.:'
'I 4 ' =' -' | 30 ,", ' --- ~',J ~ ] V--- :::,' ;';
· . * .J ,.5 ... C) ...... ..,
i:;.: E C 1' A N G I..; I._ A R C I_ 0 S U R E' D OGL~
C 0 0 R I) 1' N A T E S DISTANCE DIRE:CI'ION ~::;EVER
FEET FEET D d DG/iO,
0.00 0.00 0.00 0 0 0.0,
0.31o" 0.58 E 0.6.5 S 6
1.60 S 1.14 E: 1.97 S 35 27 E 1.1
~.67 ....S 0.66 W ~.73 S I0 8 W 1.8
7.85 S ;3.75 W 8,70 S 25 3! W 3,5
16.10 S 4.47 W 16.71 S 15
26.11 S 4.56 W 26...50 S 9 54 W 0.8:
S5.69 ~' 4.56 W
o ~ S 7 17 W t.1
44.36 S 5,39 W 44,69 S 6 56 W 0,4
51.68 S 6,55 W 52.10 S 7 13 W 1,5
58.15 S 7.~'?.-,,- W 58.63 S 7 .- ,.:.'-"~ W ,-;,,. 5
-66.56 S 5,88 W 66.82 S ,.,,¢ 3 W ;1.6_
76,61 S 0.20 W 76.61 S 0 9 W 1.2
88.72 S 5.71 E 88.90 S 3 41 E 1.4
102.64 S 10.64 E 103.1o, o'"' 5 ~--='...,~ E (')_.8
~ j. 8.-->n ," ] z.
...:. ::, 1~ E i].9.
~ ~.. ,.o,/ . ..
11.43,24 F; 26 R8 E 13'=' o3
-- - ~. i. ..... ._1, .. ·
I 46 ~ 58 S 41 · 6 '7' .r. 1 '"' '-~ 4 ,"',
.,.-... . ~,
160. o2, S 57.. 6'-'~ E 170.. 93.
!7-7.1-'
,-.. o 74.70 E 19°.:.. 24
].95,,'"'9 S 9'2,24 E ?15 98
· '~'- -- - a,.., . .
'-' 99 24
z. 1. 4. S :[09.98 E 1.49
236.25 ~_,c" i.-'"'9. I.-_'":' E 26',? ., 23_.
~,..9.,-,-Fl?S. 150.07 E :..°99 . FA..
285. ,:9 S 1.71.o6 E 333.16
7 "*.'7 E: t-7
11 2:4 E: "':;,0
].5 F:3 :::' ": 6
19 42 E J · 3,
S 25 17 E 0,7
S=°7 5. E
S 28 39 E ~_'~,0'
S 30 ~ o E 1,9~
S 31 0 E 1.5,
313.1":'. ,,:. S 1'-.7:'4.86. ,-. ,_P" 368,,"'7,..:
34'~ ,, 7':'.,. ~. S. ,...'->i5.7o. , E 404,,15.
370.5;0 S 237.48 E 440.08
398. o .' ...
,:,~ S 260.0=',-, E 476.].5
4m~.-.~008 S. 287,_.08 E 510.99
S 31 46 E 0.5,
S .... :~ '~ 16. E: .t.,1'
S 3'°'.:. 40 E 0.7,~
S 33 6 E 0.6:
S 33 30 E 2.0(
:' STA'TE, 24-I3- RD GMS' , '
~ANIT POINT, COOK INLET, ALASKA
--A S U F:.: E D
) EP 'T H
F' E E T'
TRUE
DRIFT DRIFT COURSE VERTICAL VERTICAL
ANGLE [;IRECI'ION LENGTH DEPTH SECTION
D H D FEET FEET F-EET
2000.
3100.
3200.
3300.
3400.
18 45 S 38 E 100. 2923.75 519.88
17 15 S 40 E 100. 3018.85 548.49
17 15 S 38 E 100, 3114.36 575,95
16 30 S 35 E 100, 3210.05 603.27
15 30 S 35 E 100. 3306.17 629.46
3500.
3600 ·
-,nOA
,:.'. 7/ , ._, .
15 0 S 40 E 100, 3402.65 654.06
16 15 S 37 E 100o 3498.96 679.08
18 15 S 40 E 100, 3594.45 706.63
1.9 30 S 37 E 100. 3689.07 736.89
18 30 S 38 E 100. 3783.62 767.I4
4000.
4100.
4200.
4~oo.
4400,
18 0 S 40 E 100. 3878.5? 796.14
.
18 0 S 39 E 100. 3973.70 824,65
17 30 S 36 E 100, 4068.94 853.16
16 45 S 35 E 100. 4164.50 881,05
1~ 0 S 40 E 100. 4260,45 907.42
45C:0
4600
4700
480 0
16 30 S 37 E 100. 4356.45 ~33.42
i5 0 S 33 E 100. 44='~ 70 ~
~, 959.~0
15 0 S 33 E 100. 4549.29 984,05
14 0 S~°8 E .I00. 4646.10 1008.37
1~. 30 S 27 E 100. 4743.02 I03".56~
5200
.j.. O0
5400
13 45 S 30 E 100. 40 C 1
13 45 S 27 E 100, 4937.13 1079.72
14 30 S 22 E 100. 5034.11 110~.90
14 ~0 S 24 E 100. 5130.92 1!,""8.79
15 0 S 20 E 100. ,-,=:~")7-'.,~. ,6;~ 1154.14
5600
57C, 0
..., ~..~ .,., ,.,
5900
15 30 S 16 E 100. 5324.11 1180.43
.t.,,5 0 S 15 E: t00 5420~,
..... ,., 1207. ~"7
i6 0 S t4 E 100. 5516,48 J. 2.]{5. ].1
I e:... ,.,'~0q~ 1 ,, ': E: I nO..., 5709 ~ 0~ ~.~ 288.76
SUBSEA
TVD
FEET
CO~PU[AI'iON :. F'AG~ NO.
TIME ~ ...... BATE .................
14:53:30 06-NOV-80
R E C T A N G U L A
C 0 0 R [; I N A T E
FEET
~8°4= = .65 451.72 S 302.48
2919.75 475.73 S 321.92
3015.°6~ 498.78 S 340.59
3110.95 522.11 S 357.85
3207.07 544.69 S 373,66
330~ 55 ~'~ s=
~o~ ..~ S 389.67
3399.86 586+62 S 406.43
3495.35 609,83 S 424.89
3589.97 635.14 S 445.0~
3684.52 660.97 S 464.84
3779.49 685.31 S 484.55
3874.60 709.15 S 504.21
3969.84 733.33 $ 522.76
4065,41 757.~1 S 5~9.86
4161.35 779°66 S 557.02
4257.35 801.56 S 574.44
~3.60 8°
,~.~.79 S 590,00
4450.19 845.50 S 604.10
4547.00 867.06 S 616,80
4643,92 888.90 S 628.17
,%740.90
4935.01
5031,82
..,1~ 08, JS
52°5.. .-- O1
541. 7,38
:.':-.,513,62
5609,99
R C L 0 S U R E [;OGLE
S BISTANCE DIRECTION SEVERI
FEET D M DG/100
E 543.64 S 33 48 E 0.82
E 574.42 S 34 5 E 1.62
E 603.97 S 34 20 E 0.59
E 632.97 S 34 26 E 1.15
E 660.53 S 34 27 E 1.00
E 686.79 S 34 34 E 1.41
E 713.66 S 34 4~ E 1.49
E 743.~5, S 34 52 E ~:~.19
E 775.53 S 35 1 E 1.58
E 808.06 S 35 7 E 1.05
E 839,31 S 35 16 E 0.80
E 870,13 S'35' 25 E 0.31
E 900.59 S 35 29 E 1.04
E 930.03 S 35 29 E 0081
E 958.20 S S5 $3 E 1~60
E 986.14 S 35 38 E 0.98
E 1013.~° c. 35 37 E I
E 103~.14 S 35 33 E 0.00
E 1064.07 S 35 26 E 1,60
E 1088.46 S
910· 34 S 6"z9, F)I,..
93!,''~'7~...., ,...q 651 · 15
953,43 S 661,27
9, ,.:,. 4'2'S 6'7:1.. 05
000.07 S 680,59
E 1112,69 S
E I136.~0 S 34 58 E 0.7]
E 1160.30 S 34 45 E t,43
E 1184,82 S 34 30 E 0.~.;~
E 1209.69 S 3-4 t4 E 1,].S
1025,09 SS 688.71
10~;1."~ . .... '-'
.. .,.,..t F; .695,9.-
. ,:,"~c: 702.87
1077 '~ .......
!10't,47 S 708.51
1130.",?; c. 717, 84
E 1234,96 S L-';;':~ 54 E 1.16
E' I '~ '
..... .~60,75. ..,°:33 30 E ,.'),...57
E :1":'p /, . 84 S 33 6 E 0 2.8
E' 13 J 2 · .1. 9 .'.':'-: ..'.~; 2 ,i :lF:: :! · 2 C,
E: ].:337.i4 E: 32 .1.6 E 0,86,
F'A t3 E. N f-:~.
f'~ .C P T H *' D
~--~ N, L.-, ~_. E ]. i';.: F:; ]' I F.) N L E N G 7' t--!
F' [:- E T D H D F' r-.i; E T
6000. 15 15 S 9 E i00.
.fi,.].O0. t4 45 S ].0 F.; 100.
6200. ].3 ,:30 S 11 E 100.
6:'4c)0. .... ]."~,. 3:0 S /,_. E 100.
4,400<. 9 30 S 5 W 10,3,.
DO. 9 SO '-' '~]. E ].,'",C,,
· - -:) 4. .,
._'-.600. 10 30 S 8 E 100,
67;':;'0. 10 30 S 0 E 100.
68n0 8 30 .S c:'='
-. · ~.o E 100,
6900. 9 30 S 32 E 100,
7000. 11 0 $ 28 E 100.
710'"'. 1,_. ='0 S
-' . .,.,-' E 100.
7 '~ 0 ,"~ 1 ': 1 ';
'- ...... 100.
7300. 16 30 S ].9' E 100.
7400. 17 45 S 21 E !00,
............ · .... 17
7600. ]. 6 0
77C':0, 16 30
'.:, c.':~ '.: ,'.; ! 6 0
.-,n I'" 30
E!: 00 ,""~, 16 45
8i0,'j, i,6 45
~ 20 C), 15 ! 5
'F;
8300, i 3
8400. 13 0
8500. 12 45
860O + 12 30
P '" 00 14 0
8:3oo. 15 45
8900. 1 7 0
.,c:' 21 E 10,",...
c. ]o t:.:' t0C,
S 15 E 1007
S ~ E 100.
S i! E J. O0~
.- E t00o
2 E 100,
1 E 100,
.1.0 E 100,
16 E 100.
S 14 E 100.
S 11 E 100,
S i El 100,
S 0 E 100.
S 9 W 100,
5805.5 .1.
5902 ~ 10
5999.08
A096. fi; ].
6194~66
,-';293,29
6391 ~ 77
6490.10
65-,<-,
o '7 ":~
C) + , ~
6687+4~
6785.89
6883.31
6979.61
7075.55
7171.12
';;"36 '')t o
74='R '; 8
-"E'-;4 19
.: .~ .... , .
?650. J. ?
77 :t ..,: (5 i
7841,77
..... -,
~O-.z ,~ ......
81:3 '[. 99
°229 4:::~
t..j . . , ._
83'-~7 OF,
8424.39
8521,04
8616.98
F: fi: E 'T'
1 .'3.. 15.15
t,_,'z40, ~:~].
1365.06
13;97.31
9.,, 60
1421. ~':7
1456.55
1472.88
t488.19
1505.~1.,
1527.67
1554. 'z6,_,
to8~.45
1611.85
1642,05
167'0.83
!. 698,81
1726.65
t 754.41
1782 · 6 TM,'
_].810.71
1837,29
]. 861. s2
1°°4.89
~ ~., _..-
t907.16
1928,95
195!, 44
1976,08
2002,31
:5':_.:lgSf..-.A F: E C T A N (..) !.J L A R C L. 0 S
F E El: F E: E I' F F E 'f'
5706.41
~o99.98
5997.41
A075.~:'6
6194o19
6292.67
6391.00
6489.62
6588.39
6686.79
6784.21
6880.51
6976.45
7072.02
7167,32
726 ::5. C:? 8
73=''', .
745:',.., 09
7551.09
7646.91
7742.67
7838.79
7935,60"
8032.89
8130.3"'c:
C) ") '~ '? 9 '
8325.29
8421.94
8517.88
U R E i:.iOGI.
I:~]:REC.'.'T ]:ON SEUEF
t) M D G / t (
1. t n.. 2, ,_'? t S79,.. ,_.7. I. 7 E: ~. 38.,,'::'.. · ~3 ,."; ,_
.:.0..) · c) '"' 7 ~ l? '' l
-,:.. .:::, --. . 61 [: 140,.'::, · 6.. 7'
l"~"~,q 4'I f'~ .....
124'7.a9 .3 7:31 ~': El :144':; 9~ S
1'~'~' 9'~ S 73 '
· ' ,-,.-,. ]. · 9 .';'[.:7 14 ~: (:,, 5 '7
· 2. . .- ,
~'~
1281,04 S 734,83 El 1476.84 .'.::i. ,29 50 6.
1 ")99. Ol
· ' 736 i r; E: 1403.'...-~e.
~ · ;..-, S "> 9
~. .w. ., . ,% . ..... ,,.% ·
.1.328.93. S 747 , 11 E' :J. q~'4.5-4... ,-.q..29 ")1,:.. ._.P' ].,,¢
1'~44.-, · 34 S 756. ,'3t),. ,..f::' 1542 .,
]. 364.46 S 766. O.S,_F ]. ...,~:'6,4 ~ 79
1388,97 S 777.20 E :1.59]..6~:S
1415.19 S 787.53 E ]619.56
1442.86 S 797.60 F J648.6~
147. 1.12; S 8 Oq,z:5 ,::' .... '~67:3
1 ~25.-. i ... '> S 826 .,~.";': 'E 17..34
~- '~ ---~ I=' ~ I=' ',
loo~...J.. S .q'~l..,, · o9 E 176:1.
i580,12 S' 8.36~2! E :1.787
:-q '29 21. [: 1,e
S :;.:!9 19 l:i: 4.(
S 29 ].4 E l,"
S "> o A E ].
Fi 28 :::..:6 F: I. .-
1608,44 S
1637.20 S
1664.75 S
1689.65 S
1712.18 S
1733 70 S 856.04 E; .;."-: ''~'
· / ,..i ,..~
'[755.04 S 860.7'7 E: :i. 95-':!-
1777,80 S 863,t6 E: 1.97,:::,
1803.47 S 863.38 E :1.999
1831.55 S 861.18 E 2023
P STATE, 24-13 RD GMS
RANIT POINT, COOK iNLET,' ALASKA
COMF'U]AI'ION ..~ F'AG~ NO.
TIME ,, BATE ............ L
14:53:30 06-NOU-80
TRUE
EASURED DRIFT DRIFT COURSE VERTICAL VERTICAL. SUBSEA R E C T A N G U L A R
DEF'TH ANGLE DIRECTION LENGTH DEF'TH
FEEl' D M D
9000. 17 45 S 10 W
9100. -'17' 0 S 1~ W
9200. 16 15 S 14 W
9260· 16 15 S 18 W
9280. 16 30 S 16 W
9300, 16 45 S 10 W
93~0 16 30 S 7 W
'). 16 30 S 5 W
9~LO. 16 45 S 4 W
9380. 16 45 S 6 W
9400. 16 30 S 6 W
9500. 16 30 S 8 W
9600. 16 0 S IS W
9700. 16 45 S 8 W
9800. 17 0 S 17 W
9900. 17 30 S 20 W
.0000· 16 15 S 21 W
.0100. 16 0 S 32 W
.0200. 15 45 S ~2 W
.OSO0. ].5 30 S 40 W
.0/'~'0. 15 45 S 44 W
Ok 3. 15 45 S 46 W
.0550. 15 15 S 45 W
:OJECTED TO TD
SECT tON TVD
FEET F'EET FEET FEET
C L 0 S U R E [;OGL.~
n I N A T E S DISTANCE DIRECTION SEVER'
FEET' FEET D M DG/IO(
100 871~ 4o o0'-~9 08 8613.32 - ,-..
..... ~- · 1861.00 S 856.25 E 2048.,.,3 S 24 '%2 E
100 8807 85 ~'"' ~ ~;
· · -,,~,..37 8708.75 1890.26~ S" 850.29 E 2072.70 S 24 13 E
100. 8905.67 2080,07 8804.57 1918.08 S 843.62 E 2095.40 S 23 44 ~
60. 896~.28 2094.18 8862.18 ~934.21 S 838.99 E ~108.~4 S 25 ~'~
..... <,' E
20. 8980.46 2098.87 8881.36 1959.61 S ...... 837.34 E 0tl~ 63 ~ ~ °1 E
~-- ~.. J __ &%I ~
0.8]
0.8(
1
20. 8999.63 2103.83 8900.53 ].945.18 S
20. 9018.79 2109.00 8919.69 1950.84 S
0. 9037·97 ~114.24 .
~: 8938.87 1956.49 S
20. 9057.13 2119·57 8958.03 1962.19 S
20. 9076.28 2124.92 8977.18 1967.93 S
836.05 E 2117.24 S 23 16 E
835.21 E 2122·11 S 23 11 E
834.61 E 2127.07 S 23 6 E
834.16 E 21~2.14 S'23 2 E
833,66 E 2137.2~ S 22 58 E
1 ~9C
20. 9095 45 ~130.19 8996.35 ' 1973.62 S 833.06 E 2142.24 S 22 53 E
100. 9191.33 2156.18 9092.23 2001.81 S 829.60 E 2166.91 S 22 31 E
100. 9287.35 2181.03 9188.24 2029.32 S 824.51 E 2190.42 S 22 7 E
100. 9383.28 2206.08 9284.18 2057.0~ S' '819.37 E 2214.21 S 21 43 E
100. 9478.97 2231.37 9379.87 2085.34 $ 813.09 E 2238,25 S 21 18 El
100. 9574 47 ~:'
· ~,,J.56 9475·37 '~113.46 S
100. 9670.17
~'~,.~J 9571.07 ~140.65 S
100· 9766 ~3 ~98 8~ ~667 13 2165.47 S
100. 9862,42 2316.85 9763.72 2188.66 S
100, 995R
!00. I005='. 0'.~
,-: 2347. '"~6 9955.9'" '~'"30 · 45 S
i00. 10151.~7 "~:'c.
~, .89 10052.t7 2249~64 S
50. 10199.45 2366.10 10100.55 2259.00 S
803.68 E 2263..11 S 20 49 E
793.52 E 2282.99 S 20 20 E
781.15 E 2302.05 S 19 50 E
766.6~5 E 2319,05 S t9 !8
750· 83 E
*'. ..... -, 47 c. 18 46 E
7~,,..81 E 2347.7'4 S .lS 11 E!
713.62 E 2"~60·].! ¢' t7 36 E
704.09 E 2366.19 S I7 19 E
,02
.28
3.06
.1.7
i. Ii
1,15
0640· 15 15 S.45 W
90. 10286 '~8 '-~'~ 28 o",75
.... ~77. 10187 18 74 R
· ~.-_., .. ·~.,
687 ¥5 Iii ":'~-"-' 28 ~' 16 48
' *]' "' ! f · C) E
0 ~ 0 C
F'INAL CLOSURE -. DIRECTION;
DISTANCE;
S 16 DEGS 48 H INS E
2377,28 FEET
' ~ -~ -"-~' ~"~ ' .... I . T ....... 1-'+ '-ff ....... t"~- -'~",-~"i ..... t'~"i', ...... t ,'1., ' t : : : . .
i ~ ...... i ~ i~ i~ '~~~'~; ~-~-~-~--~ ' '-~
i'i !'i i'"i i:! i iiii'1ii :iii I ~ i ii ; i ~ I i ~ - . ' ~ r- - ~ , ,.; ........
.... : ..... I ...........~'t-~t"1' ........... .'~-?.-.+.--.~ ......~..~ -mi '. i'~t"F; .........~ ~'1 I[1~]I ~"T
~ , ' : ~ ~ ' ~ , ' ' -t. ~ ..... F ,----' .........
, ~ ~ ~...~ I F ~ _, ..~..., . ~..~ .............. '...1 ................. ~ .......t i .... ~--.1 t ...... 4-~..~_ ~ ..... ~ ........~ ~.; , :., ~ .... ~ ~.-,
-:"'?', .... ~ ............ , ...... t': .... ~ ; ' t , T tt ,
--~ ............ ,4- .................. -~.-~ .... ~--~ .... t' '~'4 ...... ~. ~ ...... ,-.-~ :. . t* . ,, ~ .......
.............. ,1 ~ ...... ~, ........ . ....... 1, .... , : ~ ....... : T'l'-~ ......... T 1..-1, ................ , ~ IL~ '. ....... ~, .......... t, .... ~,' i'l, ~ ': :~ , i " ..... :-...;-'
....... ~-.--~- - -~ ........ i .... t ........ J'"'~" ~ '"~ ..... ~ ....
.... ~- -.4----~ -~. ~;I;~ ,-~ ....... '"~ .... ' '~ ................ ' ........ -t- ~- ~ t I , d ' '
.... .... ...... ....... ....... , ...................... ...... ......
;.-~;-X::.-.:~.;:iJ--~;i;...L-lt.~---~-~-~--L~ ...... k.i-I i.i~: i: ~7~ l._i.i...i~..i__i..ii ..... i-i-.~.~ ~4--.i--i--~
.+~-~.,-~...~.~-~---~-i-..,--.t .... i. i -i..~ i..,.--i--l-- - F-i--Pi .... ~ .... Ft--~-H--H--
' ' 4-4~ ~ ~ I ~ I ~ ~ i I : ~ ~ L r-L ..... ' .-~---;-1-4-'-~ ..... ~ ..... 1-- _._ ..~f..i-4 i ..... i ...... ' ........... ~ .........
-4 i._'_,._.~,_,..L-.i .... ~ J.4 i ~ i.i .... ~.- -~..~ L...~-.~-'-.-I.-4 .....
~ "-Ti 1~, I : ' : ~ l ; ~ : '. ~ ~ :.. ~.' .~-..[.i ~ ; : ; [ F;.i~ -~-J..;-; ~.i.~-.~., . ; , ..... ~...
.... ~--~"--t-~ ...... ~ .... t~ ..... ~ ~' ,' ~ ~' t t"~ ...... ~ .... ~ ........... I ..... i"I"'t ' , ' ' ' ~ I :
~ , ~ , ! ; . · .i. I .... Y' i' ; ~- ~--1--; ........ t-"~'- ~ ...... ~ ~ ..... * -~- * '*'~ .... ~"t .............. *-' ~t"'t .... ~'-'t-~ 'I ........ T ......
r ..... t'-'~ ~ ...... ?"~ '. [~,~'. ~ '. ' ~' ~': ~ ~':' i ' t : ~''~ '; ''. ' ' ' ~ : . . . I .
..... r-I .... ~ .... . ...... t ..... "I"'[-"!' ~ ~"I ~ ~ . ; r , ~ [ ~ ' .
'!-'t','"'! '~'t't"i"'T'!',, i i~ ":, :'~ 'ii~ ;:: ,~ ~ , '.' ;~,;~ - .... [ ................ 4..
,~ ~.~ ~ I ; ~ I t ~ , '._~ ..... L. IJ . ! ........ ~ ~ ~ ~
~ i-~-~ ~-~-.i. 4 .i I ~.i '. ; i , i ; :.~ i I ! i i ; :, ; : : ' ' ' · · ; ' "~ ; ~'-'i * ; .........
~', ' ~ ' . I , , ', ' ' , , ; , ~ , . .
. t t ~ · , , . . , r , . [ ·
~-~--~-.i-: ..... i-+.~--:-~ ~---F--i-i.-~-.-i-i.-i- -'-r-.i-- i- -t !..l-~ i.? ~
~ ~ ~ ' ~ ~ ' ' ' I 4 ~ ~ ~ ' 4 -4- ~-~ A .... t -'-'~ - ~ ...... '
r-*.-~-~--* .... ~--,---..r-'~ .... ~'~' '~'"~'~'-'~-t'd'-r ................ * ......... F .... 1-'* ........ i-~ .....
;,~- i ~~ - -~T ~ ' ; i' ' T ; ~ ;- '-i ; i
..... ! ~ ~ I ~ -'~ ....... ~ ~ ; ...... ~ ~ ~' ~ ' ~ ~ ! ,' 1 ~ ~-, l .... ~ ' i~ ......... 1 , - , I . .-1 ..... l- .-4 ..........................
.... ,,., .... .... ..................... , ...........
Check Form
for timely compliance with our regulations.
Operator, Well Name and Number
Reports and Materials to be received by: ,/5-/~--
Date
Completion Report
Well History
Samples
Mud Log
Core Chips
Core Description
Registered Survey Plat
Inclination Survey
Directional Survey
Drill Stem Test Reports
Production Test Reports
Logs Run
Digitized Log Data
Required
Yes
Yes
Yes
Date Received
Remarks
STATE OF ALASKA
ALASK~'~ YL AND GAS CONSERVATION C~..?IMISSION
MONTHLY REPORT OF DRILLING AND WORKOVER OPERATIONS
1. Drilling well []
Workover operation
2. Name of operator
UNION OIL COMPANY OF CALIFORNIA
3. Address
P.O. BOX 6247, Anchorage, Alaska 99502
4. Location of Well
atsurface Cond. #6, 2392'S & 1376'E of the NW Cor., Sec. 13,
T10N, R12W, S.M.
7. Permit No.
8. APl Number
50- 733-~1)08 ~-
9. Unit or Lease Name
Union-Mobil State #1
10. Well No.
~PS #24-13 i~ ~)
11. Field and Pool
GRANITE POINT/MIDDLE KENAI
5. Elevation in feet (indicate KB, DF, etc.) 6. Lease Designation and Serial No.
KB 95'-above MSL ADL-]8761
For the MOnth of NOVEMBER
,1980
~12. Depth at end of month, footage drilled, fishing jobs, directional drilling problems, spud date, remarks
Set Liner, Perforated "A", "B" & "C!' Zone.
Completed well. Released rig 11/16/80.
13. Casing or liner run and quantities of cement, results of pressure tests
Cemented 7" Liner f/9054' to 10,632' with 400 sxs. C.I.P. @ 05:45
11/1/80.~ Liner lap & 7" Liner tested to 6000 psi - OK.
14, Coring resume and brief description
NONE
15. Logs run and depth where run
CBL Ran In 7" Liner
,1 6. DST data, perforating data, shows of H2S, miscellaneous data
NONE
17. I hereby cer_tify that the foregoing is true and correct to the best of my knowledge.
· ' _ / . Dist. Drlg. Supt. 12/10/80
SIGNED/f/~./~ A; ~ ~-~-~'TLE DATE
NOTE-~m/grt on this form is required for each calendar month, regardless of the Status of operations, and must be filed in duplicate with the Alaska
Oil and~3'as Conservation Commission by the 15th of the succeeding month, unless otherwise directed.
Form 10-404 · Submit in duplicate
r
STATE OF ALASKA
· ' ALASKA ~,_.L AND GAS CONSERVATION CC'"~IVllSSION
MONTHLY REPORT OF DRILLING AND WORKOVER OPERATIONS
· Drilling well [] Workover operation
2. Name of operator
UNION OIL COMPANY OF CALIFORNIA
3. Address
P.O. Box 6247, Anchorage, Alaska
4. Location of Well
at 'surface
99502
7. Permit No.
68-5
8. APl Number ~'"'""
50- 733-2008o
Cond. #6, 2392'S & 1376'E of the NW'cor., Sec.
13, T10N, R12W, S.M.
5. Elevation in feet (indicate KB, DF, etc.)
KB 95' above MSL
9. Unit or Lease Name
Union-Mobil State #1
10. Well No.
GPS #24-13
11. Field and Pool
GRANITE POINT-MIDDLE
6. Lease Designation and Serial No.
ADL-18761
For the Month of. OCTOBER ,19 80
~12. Depth at end of month, footage drilled, fishing jobs, directional drilling problems, spud date, remarks
10,640' TD, 1380' drilled, no problems.
Commenced drilling on October 17, 1980 for redrill.
13. Casing or liner run and quantities of cement, results of pressure tests
7" 29# buttress N-80 liner f/9054' to 10,632'.
Cementing liner @ 24:00 hrs. 10/31/80.
14. Coring resume and brief description
No cores.
5. Logs run and depth where run
DDL-SP w/CR f/9260'
FDC-CNL-GR.
to 10,630' WL TD.
~1 6. DST data, perforating data, shows of H2S, miscellaneous data
No DST data and no H2S.
17. I hereby certify that the foregoing is true and correct to the best of my knowledge. "1,~--;.-~ Pi'e; ~'~h,;~, ~"'~,,~,~?;7.u[.~~'
· ~,~/ ~ist. ~rlg. Supt. 11/7/80
SIGNE~~(, ~~ TITLE ...... DATE.
NO. port on this form is required for each calendar month, regardless of the status of operations, and must be filed in duplicate with the Alaska
Oi~nd Gas Conservation Commission by the 15th of the succeeding month, unless otherwise directed.
Form 10-404 Submit in duplicate
October 8, 1980
Mr. Robert T. Anderson
District Land Manager
Union Oil Company of California
P. O. Box 6247
Anchorage, Alaska 99502
Re: 'Union-MObil State #1 GPS 24-13RD
Union Oil Company of California
Permit No. 80'-116 '
Sur. Loc.: 2392'S, 1376'E of-NW er, Sec 13, T10};, R12W, SM.
Bottom/%ole Lo~.= 4300'S, 2209"E of NW c.r, Sec 13, T10N, R12W,
Des= Mr. Anderson:
Enclosed :is the approved application for permit to drill the
above referenced well.
Well samples and a-mud log are not required. A directional survey
is required. If available, a tape contain'lng the digitized
information shall be submitted on all logs for copying except
experimental logs, velocity surveys and dipmeter surveys.
'Many rivers in Alaska and their drainage systems have been
classified as important for the spawning or migration of
anadromous fish. Operations in these areas are subject to AS
16.50.870 and the regulations promulgated thereunder (Title 5,
Alaska Administrative Code). Prior to commencing operations
you may ~c°ntaoted by the Habitat Coordinator's office,
Department of Fish an~d Game.
Pollution of any waters of the State is prohibited by AS 46,
Chapter $, Article 7 and the regulations promulgated thereunder
(Title 18, A1as~ Administrative Code, Chapter 7.0) and by the
Federal Water Pollution Control Act, as amended. Prior to
commencing operations you may be contacted by a representative
of the Department of Environmental Conservation.
Mr. Robert T. Anderson. -2-
Union-Mobil State %1 GPS 24-13 RD
October 8, 1980
commencing operations you may be .contacted by a representative
of the Department of Environmental Conservation.
Pursuant to AS 38.40, Local Hire Under State Leases, the Alaska
Department of Labor is being notified of the issuance of this
permit to drill.
To aid us in'sche~uling field work, we would appreciate your
notifying this office within 48 hours after the well is
spudded. We'would also like to be notified so that a repre-
sentattv~ of the comm~ssion may be present to witness testing
of blowout preventer equipment before surface casing shoe is
drilled.
In the event of suspension or abandonment, please give this
office adequate advance notification so that we may have a
witness present.
Very truly yours,
Hoyl~ H. Hamilton
Chai~ of ~Y O~D~ O~ IH~ CO~ISSiON·
Alaska Oil & Gas ~nservation Co~isston
Enclosure
cc.-. Department of Fish & Game; Habitat Section w/o encl.
Department of Environmental Conservation w/o/encl.
Department of Labor~ Supervisor, Labor Law Compliance
DiVision w/o encl.
Form 10-401
REV. 1-1-71
la. TYPE OF WORK
STAT E 0 F A LAS KA
OIL AND GAS CONSERVATION COMMITTEE
(Other instructi~ _., on
reverse side)
PERMIT: TO DRILL OR DEEPEN
DRILL I~l DEEPEN F-1
b. TYPE OF WELL
OIL GAS ~ SINGLE MULTIPLE
WELL ~ WELL[ I OTHER Water Inj. ZONE O ZONE
2. NAME OI~ OPERATOR
UNION OIL COMPANY OF CALIFORNIA
3. ADDRESS OF OPERATOR
P.O. BOX 6247, ANCHORAGE, ALASKA 99502
4. LOCATION OF WELL
Atsurface Cond. #6, 2392'S & 1376'E of the NW Cot. Sec. 13,
T10N, R12W, S.M.
mtpropo~d~od, zo,e .43100"S &22~9'.'E of the NW cor., Sec. 13, T10N, R12~
13.' DISTANCE IN MILES AND DI~ON FROM NEAREST TOWN OR POST OFFICE*
28 Miles NNW of Kenai
API #50-733-20080-01
$.
6. LEASE DESIGNATION AND SERIAL NO.
ADL-18761
7. IF INDIAN, ALLOTTEE OR TRIBE NAME
8. UNIT FARM OR LEASE NAME
UNION-MOBIL STATE #1
9. WELL NO.
GPS 24-13 f~)
10. FIELD AND POOL, OR WILDCAT
GRANITE POINT-MIDDLE KENAI
1t. SEC., T., R., M., (BOTTOM
HOLE OBJECTIVE)
SEC. 13, T10N, R12W, S.M.
12.
14. BOND INFORMATION:
TYPE Statewidesmetyand/orNo. United Pacific Insurance Co. B-55372
15. DISTANCE FROM PROPOSED * [ 16. No. OF ACRES IN LEASE
LOCATION TO NEARESTI
PROPERTY OR LEASE LINE, FT.
(A~so to uea~est dm. u~t, ~ any~ 4;;300' 5,089 acres
18. DISTANCE FROM PROPOSED LOCATION 19. PROPOSED DEPTH
10,700~
TO NEAREST WELL DRILLING, COMPLETED,
OR APPLIED FOR, FT.
1,300~
21. ELEVATIONS (Show whether DF, RT, CR, etc.)
KB 95' above MSL
Amount $100,000.00
17. NO.ACRES ASSIGNED
TO THIS WELL
160'
20. ROTARY OR CABLE TOOLS
22. APPROX. DATE WORK WILL START
10/6/80
23. PRO ?OSED CASING AND CEMENTING PROGRAM
SIZE OF HOLE SIZE OF CASING WEIGHT PER FOOT GRADE SETTING DEPTH Quantity of cement
,
8½" 7" 29# N-80 +--9100'-10.65( ' 300 sx.
SEE ATTACHED
41~ka 0,i ~ ,,.
IN ABOVE SPACE DESCRIBE PROPOSED PROGRAM: If proposal is to dccpcn give data on, present productive zone a~d proposed
new I~roductive zone. It' proposal is to drill o~ dccpc~ dircctionaUy, give pertinent data o~ subsurface locations and measured and tmc
.~ vet '.tidal depths. Give blowout preventer progxam.
24. I hereby cert~ tJ~at the Foreg~in~is True and Correct
SIGNED ~ ~~-' L'I~n ~~ DATE October 6, 1980
(This spa~'for ~t~eo~-fi~e u~ee) ....... V
TITLE Dist. Land Mgr.
CONDITIONS OF APPROVAL, IF ANY:
SAMPLES AND CORE CHIPS REQUIRED ! MUD LOG OTHER REQUIREMENTS:
I []YES [~qo
DIRECTIONAL SURVEY REQUIRED. A.P.I. NUMERICAL CODE
PERMIT NO. ~ G ~' //~ APPROVAL DATE
APPOVED BY · TITLE ~a±rrc..~n
e Instruction 0 Reve~g~m~,
DATE-
Attachment/GPS 24-13
October 6, 1980
l,
Abandon the Middle Kenai "A" "B" and "C" zone perf's with a minimum of
300 sxs. of cmt. thru cmt. ret. @ +9450'.
,
Perf. & squeeze the 9 5/8" x 12¼" annulus @ +9400' & 9250' with cmt.
to stabilize 9 5/8" casing for section.
3. Mill section in the 9 5/8" casing f/9263' to 9323'.
e
Lay K.O. plug & W.O.C.
,
K.O. & drill 8½" directional hole f/+ 9263' to TD @ + 10,650' MD.
6. Run Logs.
7,
Run'and cement 7" 29# N-80 butress liner f/+9100' to + 10,650' and
cement with 300 sxs.
8. Run CBL and Gyro survey.
9. Perf. the Middle Kenai "A" "B" and "C" zones as justified by Logs.
10. Complete well with 3~" .
2 9 2# N-80 ABC tubing and put well on injection.
OCT-
Anct~ora~®
CHECK LIST FOR NEW WELL PERMITS
Item ./~ove Date
(1) Fee/ //d/~?~'~' "/~ ~"~"~L
(2)
Yes No
1. Is the permit fee attached ...................................... . ~ --
2 Is well to be located in a de ed pOol
/
3. Is a registered survey plat attached ....... ~ ........................
·
4. Is well located proper distance frcm property line ..................
· "
5. Is well located proper distance frcm other wells ................... .~
, --
/
6. Is sufficient undedicated acreage available in this pool ...........
7. Is well to be deviated .... , ................ , ......................
.
8. Is operator the only affected party ........ ' .....
9. Can permit be approved before ten-day wait ....
10. Does operator have a bond in force ....................... . ........... C~..
11 IS~a. conservation order needed
12. Is administrative approval needed ...................................
13. Is conductor string provided ........................................ ~
Lease & Well No.
Remarks
,<
14. Is enough cement used to circulate on conductor and surface ......... ~
15. Will cement tie .in surface and intermediate or production strings ...~_
~'16 Will cement cover all known productive horizons ................ ])
_ _
17. Will surface casing protect fresh water zones ....................... ~
18. Will ali casing give adequate safety in collapse, tension and burst.
(5)mP
%dditional Requirements:
;0-7"~0 19. Does BOPE have sufficient pressure rating - Test to 3mo O
~"~· Approval Recked: ~
psig .. ~
Geology:
Engineering:
.... rev: 03/05/80
Well Histo.ry File
APPENDIX
Information of detailed nature that is not
particularly germane to the Well Permitting Process
but is part of the history file.
To improve the readability of the Well History file and to
simplify finding information, information, of this '
nature is accumulated at the end of the file under APPENDIX~
No 'special'effort has been made to chronologically
organize this category of information.
DATE 12-NOV-S0 10:04:55
**END** ~SER ~PCAL [t0707,-61125] JOB SARCUS SEa, 1603 DAT~ ~z-e~,80 10:04:55
09:46128 ~PDAT [SPTLSg ~P~SP.L LPT ~ 0 09:4
09:~48~02 .~PMSG [~PTSTF -S~AR~ING FIDE ~SKHISARCUS.~001<057~:;[I0707,61~5]]
~ ,... ~,~ -: H:; RCUS~.O01~05~:[i0707;~:~~
09:52133 5PMSG ,[DPTCPT CHECKPOINT TAKEN DURING FI~E DSKH:SARCUS,O01<057>[10707,6i
-~::3~3~3~:~ -~2.~:'~;~:'~.:: :::.:....,-~:, .-... ;.~...>;~ ~:.: .... ' . . .
; ~DS~H ~$~RC U:S, 001 <057) [i 0 ~0 7~;6~
~9~58:29 ~P~SG [LPTCPT CHECgPO~NT TAKEN DU~ING F~E DSKH~SARCUS.001<057>[10707,61
10.04 ~ ~ MS ' .
...... ~ ....... ,..0 P, G [~PTCPT CHECKPOINT TAKEN DURING .FILE DSKH:.SARCUS 001<057~[10707,6~
I0.'04:54 .LRSU-M SPOOSER RUNTI.'HE 3 DISK :.READS, 52 PAGES PRINTE
**END** USER ;PCAL ~[10707,61125] gOB :$ARCUS SEQ. 1603 DATE 12-NOV-80 10:04:55
**END** USER PCAL~ [10~07,61i25] gOB~.)i..: iii:~SARCUS SEG. 1603 DATE 12'NOV-80 10:04:55
**END** USER PCAL [10707,.61125] gOB SARCUS SEO'. 1603 DATE 12-NOV-80 10:04:55
**END** USER ~BCAL E10707,61~125] JOB SARCUS SEO~. t603 DATE 12-NOV-80 10:04:55
**END** USER P-CAL [10~07,6t125]:'!?JOB SARCUS;~i. SEQ. 1603 DATE 12-NOV'80 10:04:55
!' .~?i. :i~: ii~ i! '.;': ::i ![;~; (
**END** USE~ '.P-CAL [~0707.,61125] JOB .SABCUS SEQ. 1603 DATE 12-N0¥-$0 10:04:55
**END** USE~ -PCAL [10707,61125] jOB S. ARCUS SEQ: 1603 DATE 12-NOV.-80 10:04:55
**END** USER ~PCAL [10707,61125] JOB SARCUS SEQ. 1603 DATE 12-NOV.-80 10:04:55
**END** USEI~ PCAL -[10707,61125] JOB SARCUS SEQ. 1603 DATE 12-N0¥-80 10:04~55
I
11 000000
1ill O0 O0
11 O0 ,0000
11 O0 O0 O0
7777
O0
77 O0
77 O0
77 O0
O0
77 O0
ooo0oo
000000
O0
O0
0000
0000
O0 O0
O0 O0
11 0000 O0
II O0 O0
111111 000000
77
77
77
0000
0000
O0
O0
000000
000000
O0
O0
O0
O0
7777777771
777777777';
71
7i
7i
77
77
77
77
77
77
.77
77
666666 1I 11
66 1111 1111
1
66 I1 11
66666666 II 11
66 66 1! 11
66 66 tl 11
666666 111111 11-1111
222222 -555555555~
222222 5555555555
22 22 ~55
22 22 55
22 555555
22 ~555555
22 55
22 55
22- ~
22 5~
22 55 5~
22 55 5~
2222222222 555555
2222222222 555555
K
S g K K
SSS EEEE KKK
S E K K
*START* 'USER FCAL [10707,61125]
dOB SARCUS SEQ.
163! DATE 12-NOV-80 10:19:5~
*START* 'USER ~PCAL [10707,61125] jOB _SARCUS SEQ.
163!
DATE 12-NOV-80 I0{19:5~
*START* USER PCAL [10707,61125] dOB SARCUS SEO.
DATE 12-.NOV-8.0 10~19:5,~
77' O0 O0
~7* O0 O0
O0 0000
O0 0000
O0 O0 O0
O0 O0 O0
0000 O0
0000 O0
O0 O0
O0 O0
000000
000000
77
77
77
77
666666 I1
66 1111 1111
66 11 11
66666666 11 11
66 66 !1 11
66 66 11 11
666666 111111 111111
222222
222222
22 22
22 22
22
22
22
22
22
22
22
2222222222
2222222222
555555555~
,55555
55
55
555555
'-555555
55
55
55
-55
555555
555555
5~
5~
~ !: .ii?~i~,ii !7~:I: i-~!=~.~OOB-?:~ J'SEO* t{531 DATE 12-NOV-80 I0.19:S~
i~ONITOR SW.S KLIOE40 SEP-80. *STA:RT*
/SSSSS$S$ ~AAA~A RRRRRRRR CCCCCCCC
SS AA AA !RR RR CC
S$$SS$ AA AA ~RRRRRRRR CC
S$ ~AAAAAAAAAA !RR RR CC
SS AA AA ~RR RB CC
SSSS$SSS AA AA RR
UU UU
UU UU
UU UU
'UU UU
UU UU
UU UU
OO UU
UU UU
~UU UU
UU UU
UU UU
UU UU
RR CCCCCCCC UUUUUUUUUU
SSSSSSS~
SS
SS
SSSSSS
S~
S~
S~
SSSSSS$S
oooooo oooooo ~
oo oo oo oo ~
oo oooo oo oooo ~
oo oo oo oo oo oo ~
oooo oo oooo oo ~
O0 O0 O0 O0 11
000000 000000 111111
MONITOR
PRINTED: 12-NOV'80 !0~20":28
/SPA~ING:I /LIMIT:255 /FORNS~NARROW
A ~$ANDSTONE ANAL
TAPE iIDENT.
.SEK t0-NOV-80
OF
SARABAND
.SANDSTONE ANALYS
? NI'A
. ON JDENTIAL
LB ~D LN 5~-XO LSN .LISM L:ILD LSP LGR LCA'L
RW ARRA'¥ 0.230 0.000 0.000 0.000 0.000 0.000 0-'.000 0'000
~i~i ~ ':ii ~ ~.'.~ i~'0-~ o. o. o.
AT .TE-~P i65. O, O. O, O, 0. 0. O.
98 0 2 ~ 000 1.00 0.000 5.00 20.00 1.3
PM!LI BR M SK STOpIN P~I~AX PBINCL ,PHIDC'L
:..<: :!:i 140 0.430
RESIST~V-IT3 STATISTICS OVER EN,T, IRE ifNTERVAL
SONIC .STAT~I. STICS OVER ENTIRE INTERYA'L
AN'ALYSlS BY QUASIiP ~3ODEL
SONIC COEFF. FROM STAT1STI-CS
DE] !S. rOLUME
CUN.
POROSXT.Y
FEET
CUM.
HYCARB
FEET
9256.0 0.0 5.4 100
9258.0 0.0 5,8 -100
9260.0 0.0 5.6 100
9262'0 0.0 5?3 'I00
9264,0 0,0 7,0 100
9266,,, 0 0.. 0 7.0 1 O0
-9265-.0 0.1 8.7 100
9270-~O 0.2 9,4 100
9272-0 0'2 9,5
9274-0 0,! 8.0 92
9276..0 0.0 -7,3 100
9 7s.o o.2
9280-0 O,l 8.8 -100
9282,0 0-2 9.~ -I00
92~4.0 O.1 8,9 97
9286.0 0.2 9,3 100
9288,0 0.2 9.8 89
9290.0 0.3 9.9 89
9292.0 0.0 7,9 97
23 75.74
23 75,'68
22 75,63
20 .75.57
23 75.40
20' 75.34
16 75.28
t-7 75,2!
16 75.14
I0 ~75,06
9 74.98
I0 74_,89
8 74.81
~" ::.7 74~7!
8 74.61
7 74-52
2 74.44
i 74'35
0 74,27
0 7'4.20
i 74.13
2 74-04
2 73.95
3 ~73.86
4 73.76
5 73,67
9 73.58
9 73"49
10 73,40
II 73,31
10 73'21
73. I1
8 73.02
-11 - 72.92
!5 72,83
4 72- 75
9294.0 0,0 7",9 95 15 72,67
9296.0 0.0 5,5 72 18 72.52
'.- 72,47
9298,0 0.0 3,9 I00 21 7~,44
9300,0 O. i 8.8 lO0 ~2 72.30
11,27
11,~7
Ii.37.
11..27
~II.27
11,27
1i,2,7
11,27
11.'. 27
11.26
i 1,25
11-.23
11,23
11,23
ll,23
11.21
11.21
11,21
11.21
lf,21
11,21
I I~.21
11~0
11~0
11,19
11.17
11,17
tt,17
I1,15
I1.14
11,10
ii.lO
IX.lO
i1'09
11,07
li.06
11.06
11.06
11,06
Ii..06
$~i- DE!{.S.. ME POROSITY
CUM..
H~/CARB
PEET
9304:,:0 0,2 9,0 !00
· 9306.-,0 0,2 9,5 100
: 9308.0 O. 1 8 5 ~0
9310.0 0
.931~'9 o.2 9.s lo0
931 0 .2 -lO0
9317-0 0.0 ~.5 100
8
28
28
72.04
71.94
71..85
71,75
71.66
71.,57
71.: 49
7t.40
71.30
71.21
7t-I!
7t.04
70.91
9325-0 0.0 3,7 100 !4 70.76
9327.0 0.0 5.1 100 24 70.67
9336..0 0.0 6.! 100 21 70.55
9338.0 0.0 0,0 0 0 0.00
0
0
0 0
: 0
lO0 37
46
48
43
0.00
0.00
0.00
0.00
.0,00
70,42
7o'. 37
70.33
70-29
7 26
70.18
9340-0 0,0 O,
9342}.0 0.0 0.0
9344.0 0.0 4..1
9346.0 0.0 3.5 100
9348.0 0.0 3
9350.0 0.0 4.! !00 40
9352-0 0,0 ' '7.0 100 2~ 70.07
9354.0 0.0 7.7 100 X8 69,92
9356.0 0.0 7.1 82 21 60.77
9358..0 0.0 5,1 I00 20 69.63
~:!'~::! J -:~:~6.j4i' -~:t00: :'i. ~ ~ > ~ 15 69.58
9360.0 0.0 6,9 ~I00 14 69,52
~::.~:: ~:~ ::'~: '::<:>-8:~:~:.~:: i00 :-'15 69, 44
9362.0 0.1 8.6 iO0 13 69.35
>" :' :,9 :: _'1,00 I4 69.27
11,06
11..06
11,06
11,06
11.06
1t.06
11,06
11..06
11,06
11 .'06
11,06
11,06
11o06
11.06
·
I1.06
11.06
11.05
11.05
I~.05
0.00
0~00
0.00
0,00
0.00
0,00
11,05
11.05
11,05
1~,05
11,05
!1,05
11,05
11,05
11,05
11'~05
11,05
11.05
11,05
11.03
11,03
11,03
11,03
11-,03
~1.03
11.03
CLAY
VOLU~E
CUM.
POROSITY
FEET
CUM.
HYCi~RB
FEET
9364:',0 0.~1 8.9 67
93~6, o o.o o.o o
9~v~,o o.o ~..? ~oo
.9376.0 o.0 6,5 , I00
14
26
69~18
0.00
0.00
87
68,76
68,,70
~l~o~
0.00
0.00
11.00
ll~O0
11,00
11.00
9383.0 0,0
9385'0 0,! 8. I :I00
9387,0 0,0 7.3 100
9389.0 0.2 9.3 100
9391~., 0 O. 2 9.8 99
939~.0 0-3 10.6 75
9395.0 0,3 7..6 58
2
1,
7
10
13
24
~4!
68.49
.43
68,34
.26
68 19
~2
67.84
67.63
67-53
67,44
67'37
11'00
1'1,00
li,00
11,00
-11,00
11,00
1!,00
11.00
It,00
11,00
10.99
10.98
1.0,95
10,92
10.89
10,89
47 67~3! 10;89
9409'0 0.! 8,4
941'1,0 0,0 0,0
9413~0 0.1 9,2
5,5
74 14 6'7, 11
62' 3 67.03
0 0 O, O0
:'.-. 0 -0,00
100 14 66.93
17 66,84
t00 22 66.77
lO0
10o
100
9423.0 0.0 6.4 100
~: :~S~,i :~:i-' ~0o
9425,0 0.0 4.3 100
:", _::.~ O~ i,:~ ~::Ioo~
66 '7 !
25 66,65
2:5 66,59
29 66.52
CL 66'48
37 66.45
_ 66,40
27 66..34
66:.27
lg 66.21
66.18
10,89
10,89
10,87
0,00
0,00
10.85
10,85
10.85
10,85
10.85
10,85
10.85
10,8.5
10.85
1-0,85
10.85
10,.85
10.85
10.85
· 9t~ 9-, 0 O, 0 .6 ~,6 1 O0
9433,0 OsO 6,3 )0
9435,0 0.0 6.3 I00
9439.,0 O. 0 7~ 0
· 9441.0 0.0- 6.~ ' '100 ·
944~,0 0.0 6,0
9445,0 0~0 5 5
9447.,0 0.0 5.1 I00
. 66.14
66.08
18 66.01
22 6:5' 95
65.89
65.83
20 65,76
65.-70
20 65.64
- :: 20 65~,58
17 65,51
6 65 36
19 - 65,23
21 65,1.7-
65.11
65,05
6 64.99
54..94
23 64,89
~ :21 64.$3
9449,0 0.0 5,7 .;100 ' 23 64,77
Oi ~i <h~i:~ ~'~il i:~!->:-' ! 24 64'72
9455,0 0.0
9457.:.0 0.0
'.945 9. 0 0 . 0
6.7 100
6.0 100
9462,0 0.0 7.1 100
9463.0 0.0 6.5 100
9465.0 0,0 0.0 0
9467.0 0.0 0.0 0 0
o <:_' o
9469.0 0.0 0.0 0 0
_'~:;;'<">: '0 0 ._: 0
9471'.0 0.0 4.7 I00 33
9473..0- 0.0 6.9 lO0 ~
6 4.65
,59
22 64,53
64--47
8 .41
~0 64.25
:20 64- t9
20 64.13
20 64,07
18 64.01
17 63.,94
19 63.87
I-6 63'80
0 0.00
0 0.00
0.00
0.00
0.00
0,00
63..70
63, 64
63.58
63- 51
C U:H.
H'YCARB
FEET
10.85
10,85
10,85
10.85
10,85
10.85
10.85
10,85
10..85
10.85
10,85
10.85
10,85
10,85
10.85
10,85
10,85
10.85
10.85
I0,85
10.85
10,85
10,85
10.85
10,85
10,85
10,85
10,85
10, 85
I0,85
10.85
10.85
1 O, 85
10,85
1.0~. 85
10,85
10..85
10,85
0,00
0.00
0.00
0,00
0,00
0,00
10,85
10,85
10.85
10.85
CUM..
H¥CARB
FEET
:43
.00
,00
~oo
.00
.00
.09
9493,0 0,0 4~.0 I00 47 63 05
~,~..o o,o 6.~ ~oo ~ ~.~3
':~i ~.i~, .~: ~:i":~ '..~ :: ~:~ ~ ~, 87
9497'0. 0.0 8 '1 4 ,79
9499,0 0.0 .7.8 100 18 62,64
' 9501-0 0'0 7,7 100 18 62.48
9503'0 0-! 8.5 100 ~4 62.33
9505.0 0-3 10.0 99 10 62,15
507-0 :I I0,8
9509,0 0..4 ~0.3 67 6 61.74
9511-.0 0.0 6.2 100 4 61,56
6t-49
9513.0 0,2 9,4 85 2 61.40
9515.0 0.8 11..6 72 5 61.20
.::2 61~-09
9517,0 0.7 I1.i 88
9519..0 0.2 9, 3 100
9521.0 0.7 It.t 76
82
9523.0 0.7 li.O 81
~ 97
9525,0 0-2 8,9 100
60.98
6:0.86
60.75
60.66
60.55
60- 44
60.34
60 -2'3
60.13
60 -04
10-84
0.00
0.00
0,00
0,00
0.00
0.00
10,81
10-81
10.81
t0,81
10,81
10,81
10,81
10,80
10,80
10...80
10.80
10,80
10,80
JO.80
10-80
10,80
10"79
10,76
10,72
10.69
10.66
10,65
10,65
10,65
10,63'
10,60
10,57
10,.56
10_.54
10,51
10,-51
10.50
10,48
10,46
10,44
10.44
10.44
9529.0 0'4 10'5 ~ '100
953!~.,0 ,3. 'I0 !00 .
.'9533~,0. 0.6 il~.O 100
9535,0 0.6 li.l
9537,0 . 0.~5
9539,0 ~! 1.0,8
954i,0 0,I 9.0
9543.0 0~3 9..~ lO0
.9545--0 0,6 10,9 87
9547.0 :'1 10.5 63
9549~.0 0.0 6.7 100
95s~.0 0.0 5.7 ioo
9555.0 0,0 5.9 100
9557-0 0.0 4.2 I00
9559.0 0.0 5,7 100
9563.0 0.0 2.8 100
9565:.0 0.0 5.7 lO0
95
61
lO0
6 59,72
,52
4 59.32
5- 59'21
5 59.10
4 ~58-99
6 58.87
6 ' -58,77
58 66
55
7 58'4~
6 5.8.37
I8
5 58,07
9 57,86
~' i3 - :57, 76
20 57,67
39 57,60
32 57.58
28 57~52
33 57.47
28 57.35
35 57.30
28 57.19
9567..0 0.0 5.9 100 23
9569.0 0.0 6.0 100 29
9571,0 0.0 5.6 100 28
:: ::.:: :.':-o~:~ ':: ~ :~ ~ :- 27
9573.0 0.0: ~,? lO0 22
9575..c~ o.o 4.5 1oo 16
48 57~09
48 57,06
29 57.02
: :'- - :26 56- 96
56,91
56.85
56,79
56:,,'73
56.67
56.62
56.56
56,50
56,44
56' 39
CU~.
HYCARB
FEET
10.44
10,42
10,41
10.41
10.41
10.41
10.41
10,41
10,40
10~40
10,3~
10-37
~0,34
10~30
!0,28
10.28
10.28
10.28
10,28
10,26
10,25
10,21
10,20
t.0.20
t0.20
10~20
10,20
10,20
10,20
lO.20
10,20
10,20
10.20
10~20
10,20
10,20
10.20
10,20
10,20
10,20
10,20
10.20
10,20
10,20
10~20
10-20
CU~,
FEE~
CU~.
HYCARB
FEET
95v~,o o.2 9.~ ~oo
9579.0 0'3 i0.0 100
~8~-:.o o.~ 9.~ .~oo
· 9583~,0 0.~ 9,.3 100.
9585.0' 0.! 7'9 ~00
9587,0 0,2 9,7 100
9589,0 0,0
9591.0 0,1 . 8.8 lO0
9593.0 0,0 7.0 -lO0
9595'0 0.2 9~2 '100
9597.0 0.0 ~9 100
9599.0 0.~
. 960 !'. 0
96o~-o 0.2 9.~
96os.o o.o ,.2 -~oo
9607,0 0.0 4.9
9609.0 0.0 6.3 100
9611:.0 0-2 9,3 100
9613,0 0.~ 9,3 100
9615,0 0.! 9,3 100
9,1..7.o o.e ,,7 !oo
9619..0 0.2 9.3 lOO
9621.-0 0.2 9.3
8
8
8
6
56.30
56.2!
56.11
55,91
55 ~
3
4 55.20
8 55,05
~ 5:~ 54. 96
5 54.73
2 . 54~64
I 54..57
4. 54.51
3 54.42
5 54;33
4 54.23
4 54. t5
5 54.06
4 5a,97
5 53.91
7 53.83
7 53.77
6 53,72
6 53.66
8 53,59
10 53,50
9 53-40
9 53.31
1! 53.22
12 3 2
10 52,94
10 52.84
9 52.75
9 52., 65
100 10 52..56
9623.0 0.2 9,2
!00 11
52.37
5'2.28
10.20
10:..20
10,20
10'20
10,20
10,2'0
10.20
10,20
10,.20
I0.20
I0~20
10,20
10,20
10.20
10,20
10,20
I0..20
10...20
10.20
10~20
10,20
10.20
10,20
10,20
10.20
10.20
I0.20
10,20
I0.20
10,20
10,20
10,20
10,20
10,20
10.20
10-20
10,20
10,20
10.20
10,20
10,20
10,20
10,20
I0,20
10.20
10.20
10,.:20
10o20
9.63 t-.-0 0-2 9.2 1.00
9633.0 0,1 8.9 -100
9635:.0 0.2 9.3 I00
9637,0 . 0.~
~0 0-3 ~0,0 100
964 I~,~0 0,1 9,1
9643,0
~.0 6,9
-100
<<
loo
9645;,0 0,! 8,8
9649-0 O.
9651.0 ' 0.1
9653,0
9655,0
! 9.o
· 2
0,t 8.9
100
100
100
100
tO0
100
9657-0 0.'1
9659-0 O. I
9661-0 0,3
9663..0 0-3
~'~:? ~'
9665,,0 0'2
9667,0 0,1
- 9669,0 0.0
9671.0 0.0
8.2 100
8.9 100
9.9 -100
10,0 100
9.6 100
8.I I00
2 100
~ -, ~l. O0 .-'
6.1 97
10
IO
9
9
8
8
11
14
1.0
tl
10
9
10
11
lO
8
8
7
9
9
8
8
6
0
0
0
0
5
CUt~.
H2CARB
FEET
1'.68
t.49
51-31
51,.15
50..97
50,77
50,68
50.60
50,45
~50 ~' 36
50.26
50,08
~9.91
10~20
10.20
10.20
10-20
· 10 '-20
10.20
10,20
10.20
10,20
10,20
'10 ,,2 O'
10,20
! 0,'20
10,:20
i0,20
10~. 20
lotto
10.20
10,20
10.20
10,.20
10.20
10,20
10,20
I0i, 20
10.20
49,:83 10.20
49.74 10,20
491~65 :! 0,20
49.56 10.20
49~47 10.,20
49.39 10...20
49"~31 I0,20
49.22 10.20
3 10,20
49.04 10..20
4 'I0-20
48.84 10~.i'O
48,74 ! 0.-, 20
48.64 10,20
10~20
48.46 10.20
48.38 10,20
48,33 10,.20
48.26 10.20
48~ i 9 i o. 18
POROSITY
· ·9675-.0 0.2 ·9,4 :·1.00
9677-0 0,! 8,3 100
9679.0 0-1 8..7 100
9681.0 0.2 9,2 '100
:9683~,0 0..I 8.5 lO0
96 s.o . 9.0 -
9687.0 0,2 9,0 t00
9689.0 0.6 lt.1 JO0
969}.0 0,2 9,3 100
9695.0 0.0 5.6 I00
9729.0 0.0 . 6.6 ~2
9731.0 0.0 0.0 0
:9733,0 0.0 0.0 0
9735.0 0.0 0.0 . 0
9737,0 0.0 0.0 0
' 0
9739,0 0.0 0,0 0
8 48.11
I0 48, 03
4' .94
6
47.76
· 7
7 47,59
9 4.7,50
I0 47,41
8 47,06
5 46,97
3 46,88
4 46.69
~ 46"58
7 46,48
9 4.6~39
I4 46.31
~ ' 46-23
22 46.15
CUm.
H¥CARB
FEET
9750°0 0.0 0.0 0
9752.0 0.0 0.0
9754'0 0.0 6.7
0
100
¢ -,
10.15
10, 1,5
10.15
-10.i5
10.15
10,1~5
10.1:5
10, I-5
10.I, 5
I0-15
10. I, 5
10.15
10.1.5
10-I5
10.1.5
10,15
10.15
10.I5
10,15
10.15
10,1'5
10.,15
10.14
0 0'00 0,00
0 0.00 0,00.
0 0,00 0,00
0 0,00 0,00
.0 0.00 0.00
0 0.00 0.00
' 0 0.00 0.00
0 0.00 0,00
0 0.00 0.00
0 0,00 0.00
0 0-00 0-00
45~75 10,13
0 0,00 0,00
0 0,00 O, O0
0 0.00 0.00
0 0.'00 0..00
19 45.69 10.12
26 ' 45.6.3 I 0 ' 12
9762.0 0.0 2.7 t00 29 45,43
10.!2
10,12
10-i2
CUM.
S~. DEN,~$. VOL~E POROSITY
· 9766:~0 0..,0 4..,3
'9768:~0 0,0' ' ~.7 100
·: 0.o 1-.9 .1oo
9772.0 0~0 0.9 100
9774,0 0"0 O-! -100
9776,0 0.0 6.0 100
9~7~.o o.o ~.6 -ioo
' g78o.o o.s so.~ ~oo
9782, 0 O. 0 5~ "I O0
97~.o o.o o.o o
9786.0 0.0 0,0 0
9788.0 0.o 4.8 84
~817-o o.o 4.~ ~oo
9822.-0 0.0 :3,7 100
3
3
"7
0
~0
0
0
24
44,75
44.65
44.55
44,50
0,00
0
0,.00
0,.00
44.40
49 4~.78
49 43.66
, 43,63
:'::: :: 4:9 43.,24
35 43,19
:2.7 43.. 14
23 43..09
- 43,03
29 42,9g
42.92
7 42.85
4 42,77
1 42.68
0 42.'6!
0 42.54
0 42~,46
0 42,38
0
77 0 42.17
'0
' ' CUM.
HYCARB
10.12
10.12
10.12
10.12
10.12
10.12
10.12
10,12
10...12
10..12
10,12
10.-!2
10.12
10.12
10.12
10,12
10,12
10.12
10,12
10,12
0,00
0,00
0,00
0,00
10.11
10.10
10.10
10. I0
~o~o
10.. 10
I0.10
JO,lO
i0,i0
10,10
I0,10
10.10
10, I0
10., I0
10,I0
I0.10
10.10
I0,I0
10,07
10.04
I0.02-
'SA~. DENS.
~AY CUM. CU~.
9853,0 0'-5 10.5 96
9855-0 I 11'.6 - 86
9857.:.0 0.3 9~7 ~I00
9859.,,0 0.4 10,,0 · ' 100
9861"0 0.3 9~'7 100
9863.0 0,6 ~0-7 90
9867.0 0.~ 10.0 100
9869~0 "0.9 15.5
9871.0 0.2 8~8 95
9873,0 0.3 9,6 77
9875~. 0 O. 1. 8. ~ 99
9877.0 0.2 8.9 83
9879.0 0,3 9.9 81
9881~.0 0.4 10,0 94
9885.0 0,7 ~1-~ 86
988?-..0 0,? l~.O 92
9889.0 ~ 11.6 85
989~0 0.5 10.5 83
~3 ~::7 93
9893.,0 0.3 9,7 99
i 98
9895.0 0.8 1!~.2 84
9897.0 0.3 9,6 93
9899.0 0.1 '8.6 lO0
0 41,96
-.>~ : .0 41,85
0 41,74
'0 41~.62
0 41,51
0
0 41,,32
0 41-22
0 41.I3
: o 41;03
0 40.93
o 40; iii
0 40.72
0 40.65
0 40.56
0 40.35
0 40~ 24
0 40.14
0 40-05
0 39,96
0 39.87
0 39.79
0 39.70
0 39.62
0 39,53
0 39.44
0 '39-34
0 39:23
0 39,t3
0 39,02
0 38.90
0 38.79
0 38.68
0 38.57
0 38:,,46
0 38.33
o 38-22
0 38.11
0 38,00
0 37.91
0 37-81
0 37,70
0 37'59
0 37.50
O. · 37-41
0 37.33
0 37.25
10'00
10.00
9.99
9,97
9.96
9-96
9.96
9,96
9.96
9-96
9,96
9.,94
9.91
9'9!
9,91
9-9!
9.89
9,86
9.85
9.84
9.83
9,81
9,81
9, 81
9,81
9-79
9.78
9.76
9,74
9,73
9.73
9,71
9.68
9,67
9,66
9,65
9,63
9,60
9.58
9,~56
9.56
9,55
9.55
9-53
9.53
9,52
9..52
9.52
9901.0 ! ' IX'-.:7 l ~! :-~i
9903'..0 0
· 9905.0 .0,3 . 9':6 97
9907,0 0'-5 10.6 87
9909-.0 I I ~ 3
99ti',0 0.3
9913,0 0.2
. 9915'0 O~
9.6
9.0
@.8
9917:o-0 0.1 7,8
9919-0 0.2 9.0
992 .o · · o.o
9925.0 3
9927.0 0.0
9929.0
0.0 2..6 lO0
;6~8~ ~ 100
9931..0 0.2 9.4
9933.0 0.I 6,.8
9935,0 2 8.5
9937,0 0.0 5-4
9939,0 0.1 8.2
9941.0 0.'5 10,5
9943,0
9945,0 0.-3 9,9
9947.0 0.5 10.3
0
0
0
0
0
11.7 71
88
93
80
72
93
77
9::7
lO0
9:8
99
100 0
0
100 0
3:7 0
17 0
0
65 0
0
0
100
63 0
:{6 0
3O 0
0
67 0
89 0
95 0
77 0
0
0
0
0
0
0
': 0
O0 37.14
37.03
0 36,92
o 36.82
6.73
6.63
36,52
36,42
36.30
36,X9
36.09
- 36,00
35,,90
o 35.t
0 35.73
0 35,64
0 35.57
0 35.49
0 35.40
0 35. 31
35,23
35.1.5
35.10
35,10
35.04
34.96
34,88
. 34,84
34.81
O~ 34,'78
0 34,70
0 ~ 34,61
34.53
34,46
34.38
34'29
34.22
34.'16
34.09
34,01
33,92
33,81
33.70
33.59
33,49
33.39
33,29
33.18
C'UI~.
HYCARB
FI~ET
9.52
9.51
9,51
9,50
9,50
9.50
9,48
9,47
9,44
9,41
9,39
9,36
9,35
9.35
9.33
9;32
9,32
9,32
9.31
9-31
9.31
9,31
9.31
9,.31
9.27
9,21
9,13
9.!3
9.13
9,I3
9.13
9,I3
9.12
9,09
9.04
8.98
8,93
8,92
8.91
8,91
8.87
8,84
8,81
8.80
8..79
8.78
8.-77
B~T' DENS. VOLUME
POROSITY
. '~EET
CUN.
.H¥CARB
9949.0 ~1 ~1!,6 77
'995~,o0 0.8 10~2' 66
9953,0 '0o:4 10:3 68
9955,0 ~! -l!',X 64
-9957~,0 0.6 '1~,.7 72
99'59.0~ I 11-.4 65
1
0
33,07
3 4
32,43
,2:t
3 .99
-996 i--O O. 1 8.4 68
9963.0 0.0 3.6 100
9968-0 0.0. 5.6 '100
9970.0 0,0 0:0 0
9972.0 0.0 0.0 0
9998,0 0,0 4,2 100
16 31..77
38 31.64
31.52
oLo'o
0 0.00
4.8 31'22
40' 3t-,17
OOX9:.O 0.0 5,2 85 ' 22 30,97
30'9'2
1002.t'.0 0.0 0,0 0 0 0:00
0023-0 0.0 4.9 92 24 30, 82
10025.-0 0,0 0.0 0
10027,0 0.0 0,0 0
10029,0 0.0 0,0 0
10031-0 0.0 0,0 0
10033-:0 0.0 0.0 0
10035~.0 0.0 0,0 0
10037.0 0.0 0.0 0
10053'0 0.O 0.7 100
0 0,00
0,00
0 0.00
0 . : 0,'00
0 0.00
0 0,00
0 0:00
o-o.o
0 0..00
:._? :': ~- O' 0'00 '
0 0.00
0 0.-oo
0 0.00
8,75
8.68
8,65
8,58
8.54
8.51
8.48
8~.44
8,40
8,36
8.32
8-30
8.30
8,30
0.00
0.00
0.00
0.00
8.29
8,29
8,28
0:00
8'26
8,25
0,0.0
0..00
0,00
0,00
0,00
0,00
0,00
0.00
0,00
0~00
0,00
0,00
0,00
0.00
8.25
9..25
.'.¥
CU~.
HYCARB
FEET
!0059,.0 0.. I 8.. 3 78
.i 1.0061.0 0,t 8 9
10063.0 0.6 9,3.. 60
I0065,0 ~ 0,:3. - 8,3 66
10067;.0 0-! .7,6 86
10071,0 0~8 9.5 57
I0073~0 0.6 8.7 54
65
.1-6 30.48
I-7 30,40
.!5 30 32
,06
29,'97
29.87
9,-78
9-70
29,62
29,54
3 29,45
4 29.26
:5 29.16
5 29.07
3._ 28,99
10075,0 0.0 6.8 85
10077.0 ' '1 'I1,.2 63 ! 28.74
10079:0 2 11'.6 58 2 28:51
10081.0 2 11',.2 59 5 28,28
28-~7
1008~-0 ~ -12.6 62 2 ~.05
! O085.~. 0 0.3 9.7 70 0 27.82
10087-0 0.2 9.0 75 I 27,63
~ ~:':~ :~- ~.~ ~ ~ :t~
~0089'0 0.2 . 9.3 68 0 27~45
10091.0 0.9 10.4 63 0 2~.24
10093,0 0.2 6.6 51 3 27,07
I0095.0 0'5 8~1. 52
~0097,0 2 9.6 39
10099,0 0.0 3.7 100
10101.0 0.0 2.6 100 31
3 26.93
6~ ~26,85
9 26,75
~12 26,66
14 26.60
'~.33 26.57
26.54
.26.51
8.25
8.24
8:.22
8.20
8.18
8.16
8.14
8,,,11
8.07
8.03
8,,,00
7.- 98
7.95
7;94
7,91
7..88
7,84
7,80
7,76
7.72
7,69
~.-.68
7,65
7.56
7,46
7..41
7..37
7-32
7,29
7.26
7.23
7,2t
7.18
7,11
7~08
7.05
7-02
6,98
6,,94
6,88
6.83
6.81
6.81
6,81
6.81
CUM.
POROSITY
FEET
CUM.
HYCARB
FEET
I0103.0 0.0 : - :lO0
I0105.0 0,0 2.8 100 25
o o?,o o,o . oo
10109.0 0.0 1,'`" 2 ~I00 30 26.25
10111.O 0,0 -6.4 I00' " . 25 26,18
t0113.0 0.0 6.0 100 2! 26,07
30 26.47
h~L>.<, ~ -2!6 26,44
26.42
26,34
10125,0 0.0 6,7 t00
10127"0 0,0 6.6 84-
i013i,-.0 0.0 :5,3 100
1'0133~0 0.0 3-7 'I00
10135,.,0 0.0 5,.0 100
~.~'!<i!!i~ <> ~:< ': i~-~'~'~ii82 --~:: .~ ~- -28 25,28
25.64
32 25-47
39 25.42
35 25.34
10142-0 0.0 2.9 100 20
10144,0 0.0 7..9 68 20
:i, 0146.0 0,2 ~,.7 64 :1,9
::'':>i< :.' ', :_:~::~.65 >:':-
1.0148.0 0.4 8.4 62 14
9
:{-7 - 25 't. 4
25.12
25,,09
25.04
24,,97
24.90
24.82
24..74
24,~65
24.55
101.50,0 0,9 !0,0 57
:/.:' > ':i. !i~::::-i: !: : ': ': 9 24,45
'10152.0 I -10.3 58 8 24`"35
~. :i::~ 9 - 2,4,25
10154_.0 0.4 8,8 64 I4 24,1,5
/L0156-0 0.0 4.0 100 45 24.00
10160..0 0.0 $,2 I00 4~ 23',96
10162.0 0.0 ~,,.? 100 44 23.94
2~(91
6,.81
6~, 81
6,81
6"8t
6.81
6-81
6.81
6-81
6,81
6~8t
6..81
6,80
6,80
6,80
6~'79
6.76
6,~6
6,76
6~76
6,76
6.76
6.75
6,74
6*,74
6,74
6,,72
6,70
6-67
6.64
6,.61.
6,57
6,53
6,48
6-44
6,40
6,37
6.37
6..37
6,37
6~.37
6.37
CUM'
POROSITY
10224-,0 · 0.0 4.9 100 25
1.0226,0 0.0 6.6 95 19
,o2~.o o.o o.o o
10230-...0 0.0 0-.0 0 0
~ ~ o::,~ ' ~-_ · o
10232.0 0..0 0.0 0 0
i023~0 0.0 0.0 0 0
10236.0 0.0 0.0 O- 0
10238.0 0.0 0.0 0 0
10243. 0 O' 0 4..3 1 O0
10245.0 0,7 8,6 47
7,0 0.0 0.0 0 0
10249.0 0.0 0.0 0 0
I0251~:,0 0.0' 0.0 0 0
~o253-o o.o o.o o o
20.96
20-91
20.86
0,00
o,oo
0,00
0,00
0.00
0.00
0,00
0-00
0.00
20,67
15 20.61
0 0'00
0,00
0.00
o;,oo
0,00
0,O0
0.00
0 O- O0
10266.0 0.0 4.6
!0268,0 0.0 7,3
39 2oi. 53
100 36 20.49
25, · 20.44
67 20 20.37
20 20,29
! 0270-,0 O. 0 7-'. 0 73 19 20,23
Io272-o 0.4 8.4 61 21 20,07
10274'.0 0.1 6.7 64
10276,0 . 0.! 8~0 73
10278.0 0.0 0,0 0
10280,0 0.0 0,0 0
8:7
i0282.0 0.1 8,8 79
,-
20 19,91
19'8~
14 19,77
0 0,00
0 0.00
'6 o, oo
0 0.00
1:7 19,69
14 19.61
~6 I9.52
CUM.
H~CARB
FEET
5,74
5~74
5.74
5,72
0~00
0,00
0.00
0,00
0,00
0.00
0.00
0.00
0,00
0.00
0.00
5~70
5~70
5..67
0,00
0,00
0,00
0.00
0.00
0.00
0,00
0.00
0.00
5~65
5.65
5,6!
5.61
5.59
5.57
5,55
5,5.1
5.48
5.45
5,43
5.41
0,00
0.00
0,00
0,00
5,38
5.37
5.36
CU~4.
POROSITY
FBET
I 0170-- 0 0.6 '9,, 4 64
~o~ o ~ o.o
~o~?,~.o ~ ~o.6
10176,0 0.8' 9,7
101-78;,0 0.4 8.5
iol~o-o o.i ~5 7o
10182.0 0.1 6.8 65
101.96~0 0.0 =7 O0
'I0198.,'0 0.0, 3.9 100
lo~oo-o o.o ~.o ~oo
23,85
23,78
23.69
23.6I
23.51
.41
6 23.32
6 2:3'..22
7 23,13
23..03
22.92
22.81
22.72
22.62
22 ..53
22.45
22.37
I8 22.29
25 22.22
JO
59
64 17
14
44 21-, 9~6
21.93
33 21.88
27 2t'.85
24 21,81
2'4 2i,79
10202.0 o..o ,t,6 too 25 21.75
I0204,0 0.0 2.7 -100 19 21.66
10206.0 0o0 t.3 I00 17 21,61
~0~08.0 0.0 5.0 100 ~4 21 50
102!'0..0 0.0 2.7 100 23
21
10212.0 0.0 0,I I00 20
102t4,0 0.0 3.7 100 24
10216.0 O.O 2.0 100 30
10218,0 0.0 3.4 I00 40
10220,0 0.0 5.0 100 27
10222.0 0.0 4.7 94 25
21,43
21.40
21,39
21;39
21,36
2!-33
21,31
21.28
21,24
21,20
21,15
2t,10
21.05
21.01
HYCARB
FEET
6,36
6,33
6.31
6.28
6,25
6.21
6,17
6,I4
6,11
6,06
6,01
5.97
5.93
5,89
5,85
5.83
5,81
5~79
5-76
5.75
5'75
5.75
5,75
5,75
5,75
5~75
5,75
5~75
5.75
5.75
5,75
5,75
5~75
5,75
5,75
5-75
5,75
5.75
5.75
5'75
5.75
5'75
5,75
5'75
5.74
5..74
10284,0 0,0 - 5,~ l,O0
10288,0 0,1 8,2 97
0~0~0 0.0
0 ~.~
I0292,0 0,0 5.0 100
i0294.0 ' 0.0 4.9 100
10296.0 0,0 t',8 100
10298,0 0.0
10300,0 0,0 6.4 I00
10302.0 0,0 7.3 100
~o~o~.o o.o o.o o
~o~2-o o.o 0.8 ~oo
.
~o~Is.o o.o 4., ~oo
10317,0 ' 0.0 -5.4 lO0
::::i~.:. :: too
loa21..o o.o ?-9
10323-0 0.2 7.6
88
68
66
10325,0
10327.0
10329,0
I0331.0
0,3 8,3 65
·
0.3 8.1 63
0.7 9,2 57
:2 10..6 49
5t
CUN.
16
1-7
18
24
27
3O
29
25
25
24
19.45
19.40
19.34
19..28
19.20
19.12
19,05
18.98
18,92
18.87
18,81
18...77
18,74
i8,73
18,73
~4: i8..71
26 !8,67
21 18,60
16 18:54
7 18..46
0 0,00
0 0,00
20 18.41
46 18'36
30 18.31
:3:2 18,24
35 18,19
4'1 18, 25
33 18.12
CU~.
H¥CARB
FEET
5.36
5,36
5,36
5,36
5.35
5.35
5.35
5,35
5.35
5.35
5,35
5..35
5,35
5-35
5,35
5-35
5,35
5,35
5.35
5,35
0.00
0,00
5,33
5,33
5,33
5,33
5.33
5,33
5.33
20 18,02 5 :.: 32
22 17,96 5.30
26 17-91 5.30
2-2 I7,84 5,30
20 17.76 5,28
.-18 17,69 5,26
18 17.61 5.23
_ 1:5 17,53 5,21
15 17.45 5..18
15 17,36 5.. 1'5
16 17.28 5.1!
!4 17,20 5,08
1.3 17.11 5..05
1:2 17,02 5, 01
11 16.92 4,96
10 16.81 4.91
10333,,0
10335:,0
10337:-0 2
I0339-.0 2 ~.0,8
I0341.0 0.4
10343.0 0.8 9.3
I -lO,l 57
2 -.10.9 53
49
53
58
I0356,0 · 0,0 '3,2 100
'o.o'
10360-0 0.0
10362,0 0,0 6.6 100
0.2
10366-0 0.3 9.6 83
10368,0 0.2 9.
t0370-.0 O. 1 8
10372,0 0.1
10376'0 I i0.7 64'
10378~0 0,3 10,3 68
I0380,0 2 1t.0 54
1'0382,0 0.7 9,6 60
10384,0 0.0 6,7 72
10386,0 0.0 6.3 99
O0
10388.0 0.0 3, I lO0
16,71
16.61
16,55
16,06
!5.85
15~.68
,
4.86
4.81
4.-77
4,72
4,66
4~60
4,55
4,50
4.45
4,42
4,38
4.33
:46 15..53
34 15,51 4,32
- :2'8 $' 5,: 48 4- 32
20 15.43 4,32
iS ~5,:37 4.32
9 15,33 4,32
6- :15'27
i 15.07
i 24"98 4,32
1 24.89 4,31
~1 14.79 4,29
I 24.70 4.28
2 t4-61 4.28
4 14.51 4,26
4~ ~14-43 4,25
4 14,34 4.25
5 14~26 4.24
5 14.16 4..22
6 I4,06 4,18
6 13,85 4. ~0
8 13.75
6 13.64 4~04
6 13,52 ]..98
5 !~.41 S,94
8 13,32 3.89
12 ~S.22 3.85
19 13.13 3~82
IB !3,06 3,80
20 13.00 3.79
22 $ 2, 9'4 3,79
44 12.88 3,79
28 12.85 3.79
1¸6
lO
ii
12.79
12.'71
2.43
,16
12 07
3. 10 I1.,8.7
70 g 11.67
73 11 I~.46
10404:°0 0,2
10406.0 0.2 . 9,,,4 77 12 11,27
. .::. ::: :: !:i 0~ ~ -:: 80 :--. -::': ' 11.io
10412.0
10414.0 0.3 I 72
0416,0 0.3 10,1 75
:;<: ::. :i::: < i:: : ::'7.2': :::: ,:
I0~18.0 0.8 11..5 67
'.::::: ': :: . ' .: 6~- '
X0420,0 0.4 7,7 47
10422.0 0,'3 5.4 24
10424:.0 O.i 7,5 69
10426:.0 0,4 t0.2 83
10428,0 0..5 8.7 59
10430.0 i I0,:5 58
::i:.:-: ·: ::::i :<:!:~'l~::- 60
10432.0 1 15..I 64
:::-:0:,8 ::il;5 --' :: 70
I043~.0 0.6 lo.g 78
10436'0 0.3
9,8 72
9 :,:7: ::::-::
1:2 I o. 92
7: :10,82
7 10,72
g
g
9
7
5
3
o
0
2
3
4
2
3
5
6
:5
4
4
4
-3
4
-- ' ~ 3'
4
3
10-,62
10.51
10'~.41
10,31
I0-21
i0.10
9,99
9.89
9,82
9,.76
-. 9.71
9.64
9,56
9.45
9.35
9.27
9,I8
9.08
8'97
8.86
8.75
8.64
8.53
8.43
8.33
CU~,
HYCARB
F~ET
3,78
3,77
3~76
3,7'5
3,73
3.7i
3:,69
3.67
3,64
3,62
3~59
3..56
3,-53
3,-50
3-47
3.45
3,43
3,4!
3,40
3,38
3-36
3.33
3.30
3.27
3.24
3,22
3, tg
3,1.6
3,12
3,09
3,04
3,00
2~96
2,90
2,87
2~85
2~83
2~79
2~75
2,70
3.66
2,62
2,.57
2.55
2,52
10438,0 0.3 7 67
I0440.0 0.6 9'5 67
1044~,O
10444,0
!0446.,0 . I 11.0 66
10448.0
10450.0 0.0 0.0 0
iots .o o.o
!0457~.0
0459 0
5
10463'0 0-1
10465.0
10467:.0 i ~0,4 57 8
6
10469-0 ~ 10.9 59 4
10471,0 0.7 9.8 64 2
. 2
10473,0 0.8 9,9 60 4
68 5
10475.0 0.7 9.6 61 5
10477,0 0.5 8.9 62 7
i0479.0 2 10.6 50 6
49 ' 4
1048i"0 I 10.4 49 4
i0483.0 0.7 9.5 57 2
I0485.0 3 1.t~., 0 43 5
41 7
I0~87,.0 2 9.6 39 9
4
2
2
4
5
6
13
0
0
8.24
8..04
7'95
7,85
7,76
7'.67
7.48
7.37
7.26
0.00
0.00
7,,,03
7-01
6.96
6'90
6.82
6.73
6.64
6,,55
6.46
6.38
6.30
6.21
6.11
6.00
5,89
5,~79
5.68
5.58
5.48
5,39
5.29
5.20
5.11
5.01
4.91
4-80
4.70
4,60
4.51
4.4I
4.30
4.19
4.09
4.00
CUM.
HYCARB
FEET
2,49
2'46
2,.43
2.39
.2,36
2,.34
2.33
2,28
2,24
2,18
0.00
0.00
2. I3
2.13
2'13
2,10
2.06
2.02
1,98
1,,95
1'93
1.,,90
1.86
1.82
· 1,77
1,73
1,68
1,.64
1,.61
1.56
1,53
1,46
1.42
1.39
1.33
1.28
1.23
1.18
1.14
1,.1.0
1.03
0.,97
0.91
0.86
ET
- %
B
C5A¥
VOLUME
%
CUM.
POROSITY
FEET
CU~.
HYCARB
FEET
10491.0
~0~3o0
I0
0
t
i05{ 0
10502.0
io514,o
10516..0
I
10518.0
10520 0
I0526,0
1~0§27'0
I05
10545-0
10547.0
10549.0
I05
I0551,0
1055
10553.0
10560.0
I05:6
10562,0
1
105Oq. O
i0565-0
0.0
0
0.0
0.0
0
0,3
o'o
0.0
0-0
0.0
o.o
0.0
0 '0
O~
0.0
0.0
0.0
0.0
0.0
o-o
0.0
0,0
0,0
0.0
0,2
0.3
0,4
0.1
0,0
2-7
4
3-6
3.9
8.8
7,. I
9.1
11~, 0
10
6.8
6.0
3.5
3,2
2.4
3,9
3'9
2.9
3,7
3,4
7.6
8-7
8.5
7.6
lO0
100
63-
100
100
=i00
100
100
lO0
t00
lO0
I00
100
95
100
lO0
76
73
87
99
100
I00
100
100
IO0
lO0
~t00
100
lO0
lO0
I00
tO0
IO0
100
I00
76
6O
56
64
68
67
23
2.9
47
26
49
43
41
47
43
43
47
9.1
t4
8
6
8
13
19
32
4O
47
47
49
45
38
38
38
43
41
40
46
44
41
44
45
22
20
18
15
15
3.92
3.87
3.82
3,77
3.71
3.67
3.64
3.60
3.58
3.56
3.53
3.50
3'39
3.34
3,26
3.17
3,10
3,00
2.89
2.80
2.72
2.65
2.59
2.56
2.53
2.50
2.34
2,30
2,26
2.21
2,17
2.14
2.10
2.06
2.03
1,99
1.95
1,89
1
1.80
1.73
i,.65
1.56
1
0.81
0.80
0,80
0,79
0 .-77
0,77
0..77
0,77
0,77
0.77
0.77
0.77
0.77
0.77
0.77
0,77
0,77
0.76
0,74
0.71
0,70
0,70
0.70
0,70
0.70
0.70
0,70
0,70
0,70
0.70
0.70
0,70
0,70
0.70
0.70
0.70
0.70
0,70
0,70
0.68
0.65
0.62
0.59
0.56
I 6 0
0
105
10572-0
10574.0
10576,0
105
I0590.0
1059
10596.0
105
M.D
0.7
0.7
0.6
0.6
0'8
0.3
0.2
0.2
0-0
0-0
0.0
0.0
0.0
0'0
0.0
0.0
SAT,. 'DENS.
% , .
9.0
.7.8
7.4
"/,.,,1
4i. 9
0.0
.
0.0
0,0
0'0
0'0
62
56
51
5O
55
59
59
53
6O
61
65
85
63
0
0
0
0
0
0
0
CLAY
VOLUME
%
19
i7
14
14
14
15
14
14
15
16
17
19
18
18
20
3O
0
CUM.
POROSITY
FEET
1.40
1.33
1,25
1.16
1,07
0,98
0.90
0.80
0,71
0.63
0.55
0.47
0,40
0.32
0.24
0.t7
0,08
0.00
0'00
0,00
0.00
0.00
0.00
0.00
CUM.
H¥CABB
FEET
0~54
0.5!
0,47
0.42
0,38
0.34
0,31
0..27
0.22
0.19
0.15
0,12
0.10
0,07
0,04
0.01
0,01
0.00
0.00
0,00
0.00
0,00
0.00
0.00
SSSSSSSS
SiS
~S
AA
AA
RR
SSSSSS -Ri
S~$ A AAAAA
SS -AAAAAAAAAA RR RR
SS AA AA RR
~AA -AA ~RR RR
SSSSSSSS AA AA RR RR
CCCCCCCC
CCCCCCCC
C
CC
CC
CC
CC
CC
CC
CCCCCCCC
CCCCCCCC
UU UU
U U U U
UU UU
UU UU
UU UU
UU UU
UU UU
UU UU
UU UU
UU UU
UU UU
UU UU
UUUUUUUUUU
UUUUUUUUUU
SS
SS
.SS
SS
SSSSSSS~
SsSSSSS~
SSSSSS
SSSSSS
S~
S~
'SSSS$SSS
SSSSSSSS
0
000000 000000
O0 O0 O0 O0
O0 O0 O0 O0 1111
O0
O0 0000 O0 0000
~ O0 O0 O0 00- O0
O0 O0 O0 O0 O0 O0
O0 ' O0 ~'.I
0000 O0 0000 O0
OO O0 00 O0
O0 O0 O0 O0 I1
O0 1
000000 000000 111111
~START~ R ~PCA5 [10707'61125] iJOB S-ARCU$ SEQ. t631 DATE 12-N0¥-80' 10:I9:§~
MONITOR SWS KLIOE40 SEP-80. ~.START*
· . ~ - ,~. ~' vq ~ - -
,~ :- ' D ~RH-~S~RCUS.O0~-<057>~i0707~'61125~ CREATED: 12-NOV-.80 09:44~11
PRINTED~ 12-NO¥-80
/SPACING:I /LI~IT:255 /FORMS:NARROW
OF
SARABAND
A SANDSTONE ANA. L¥.SIS
TAPE IDENT. 10707~61125 SEK I0-NOV080
:TABULAR LISTING
OF
SARABAND
SANDSTONE ANALYSIS
U NI ON Oi5 ~C O5~PAN~ OF C'AIiIF ORN I A
GRANITE POINT 24'1.3 R'D.
GRANITE -PQI NT
ALASKA
TAPE iIDENT. 10707-~61125 SEK .10-NOV-80
L$ LD LN LX0 LSN LILM LI'DD 'LSP LGR LCAL
X~5 t4 1! 67 -70 7~ 66 6 X9
NONE
_ 0' O. O.
R~9 ARRAY 0.230 0.000 0.000 0.000
IO603- 0- 0. .. O.
AT TEMP !65. 0. 0. 0.
D~P~ 0. O- 0. O.
Om
0~000
O.
0.
OO
0.000
0.
0.
0.
0
0.000
0.
0.
0.
e
0.000
O.
O.
ROG ARR~ 2.65 0.00 0.00 0.00
55.5 - .~G::.O O.0
ZSNMA ARRAY 0.000 0.000 0.000 0.000
DEPTH 0~- O. 0' 0.
0.00
0.0
0.000
O.
0.00
0.0
·
0.000
0.
o.00
0.0
0.000
0.00
0.0
0. 000
0.
2 3 4 5 6'7 8 9 '~0 tl I~-2 ~3 14 '15 16' 1,7 18 19 20 21 22
02010100 1 1 0 0 0 0 0 0 1 0 0 0 0
INPUT PABA~ETBRS FRO~ 10603. ~O 9254.
_
~UD 'XLIT BITSZ BHT BHTDEP SUFT RMF R~FT RGNFS PBIMF$ DASIL
0-3? 75. t.011 0.991 0.850
,~~ iD ::A '~R .$' ~ ST 'ZSPNL BGN ZSPDL REC RESH CSS
O. O. 2.98 0.20 10603' 9254. 0.000 1.00 0.000 5.00 20.00
,.20o 0'~o--'~. o 6~soo':~o 2'0 92~4, o.14o o,4~o -o.o:~o
SO AR ~ , ' 'D M DAGA DASH·DTSD DTSH CP PSSH
0,220 .04 .020 68. 52. 35. t04. 1-50. 150. 1.00 .300
. -
EDIAS! P~LIM ~PDIaI:~l R~IM G~LIM VA.MC CONST ROP VARLI~ CSF
0': ~ :0~"3' 0~.~ .~;0' 1000'0 0'07 0'333 0.70 0,20 0.00
:
.STATISTICS OVER ENTIRE INTERVAL
G'AiMMA ~ RAY STATISTitC$ :OVER :E~NT~I:RB ~INTERVAL
SBNIC STATISTICS OVER ENTIRE iNTERVAL
ANAL¥SI.$ BY OUASIP ~ODEL
~O~!C COE~. FRO~ STATISTICS
CUM.
POROSITy
FEET
CUN.
HYCARB
FEET
9258-o o,o 5.8 loo
9260-0 0,'0 5'6 100
9262.0 0-0 5'3 ~ 100
9264.0 0'0 7,0 i00
9266.o o.o 7.o ~xoo
9268-o o-1 8-7 ~1oo
927o-o . o-2 9.4 !oo
:9272.0 0'2 :9'5 100
~9274;0 0.1 8.0 92
9276-0 0.0 7'3 100
9278.0 0.2 . 8.8 100
9282,0 0.2 9 I 100
· 9284-,0 0.1 8,9 97 9
9
9286,0. 0,2 9,3 t0'0 10
9288.0 0,2 9,8 89 10
10
9290.0 0.3 9,9 89 8
1!
I5
14
9294,0 0.0 7.9 95 15
I5
9296.0 0.0 5.5 72 18
g298,0 0,0 3.9 'i00 21
14
'9300.0 0.I 8.8 100 12
IO0 12
20 75..80
[ 3 75~74
3 75.68
75,63
7~.57
23 75.51
22 75,45
23 75.40
20 -75,34
16 75,28
t-7 75.21
16 75.14
10 75.06
9 74.98
10 74,89
8 74.81
~7 74.71
8 74.61
7 74,52
2 74,44
I 74.35
0 74,27
0 74.20
74,13
74,04
~ 73.95
3 73,86
4 73.76
73,67
7~.58
73,49
73,40
73,31
73,21
7~,11
73.02
72.92
72.83
72'75
72.67
72,59
72.52
72..-47
72.44
72.39
72.30
72.22
11.27
11,27
11.27
11,27
11,97
11,27
11.27
1t.37
11,~7
11.27
11.26
1~.~5
11,23
'11,23
11.23
1t,23
11.21
1~21
11.21
'11,21
11,21
11,21
11.21
11,21
11.20
11,20
11,19
11.19
11.19
11~18
11,17
11.,17
11,17
11,15
I1,14
11.,10
ll, X0
11.10
1t,09
11,07
11',O6
11.06
11,06
11.06
11.06
o 9
3 0 5 100
oo
9 .5 100
9 ~.9 9.3 100
9312,,0 0.2 9.8 100
0'0 ' 7,e 100
931~.0 0.0
93:17.0 0o0 ~,5 I00
9325.0 0.0 3.7 100
88
9327.0 0.0 5.1 t00
9ss :o 'o:o o
9338.0 0.0 0.0 0
~:0. O. 0'- '0.. 0 0
9340.0 0.0 0.0 0
9342.0 0.0 0,0 0
:343~U 0,0 0,0 ' 0
93~4.0 0.0 ~.1 I00
' '100 '
9346.0 0.0 3.5 100
g ~:0 ' O' 0 2'9- ~ I 00
9348,0 0.0 3,9 100
9350.0 0.0 ~.2 100
99
9352.0 0.0 7,0 100
-9 0 0'0 8,1 100
9354.0 0.0 7.7 100
9356,0 0.0 7.1 82
~ 0.0 6-I ~,to0
9358.0 0.0 5'~ 100
O~ 0.0 ~ O0
9360.0 0.0 6.9 100
9362-0 0.1 8.6 100
9. O 100
VOLUME
11
6
5
10
16
13
9
8
8
9
17
28
28
14
16
24
I5
0
0
0
0
0
0
37
39
46
48
43
43
4O
31
18
18
1~7
21
22
20
15
14
I5
13
14
CUM,
POROSITY
PEET
72,13
72.04
71.94
71.85
7t.75
71.66
71,57
71.49
71.40
71.30
71~21
71.11
7t.04
70.91
70,76
70.-73
70.67
70.55
70,48
0.00
0,00
0.00
0,00
0.00
0.'00
70.42
70.37
70.33
70.29
70,26
70.22
70,18
70,14
70.07
70.00
69,92
69,84
69.77
69.69
69.63
69~58
69,52
69.44
69.35
69.27
CUM.
HYCARB
FEET
11,06
11,06
11,06
11.06
11,06
11~06
11,06
11~06
11.06
11,06
11,06
11'06
11.06
11.06
11.06
11,06
11.05
11'05
11,05
0.00
0,00
0,00
0.00
0,00
0,00
11,05
11.05
11,05
11,05
11,05
1~'05
11.05
11.05
11.05
11.05
11.05
11.05
11.05
11,03
11.03
11.03
11,03
11.03
11.03
11.03
9383'0 0,0 6,2 100
9385-0 O. I 8. I 100
9387.0 0,0
9389.0 0.2 9-3
939t.0 0.2
9393.0 0.3
9395.0 0,3
9.8
~ ..~ ~7', ' -
10.6
7.6
100
100
99
99
'75
58
9409.0 0.'1 8,4
94.11-,0 0.0 0,0
9413.0 0.1 9.2
9415.0 0.0 5.5
.~ '!!i"~o:...:
9417.0 0.0 6,4
9419.0 0.0 5,5
9421.0 0.0 4.3
9423..0 0.0 6,4
9425.0 0.0 4.3
- ~ <:.::.j
74
0
100
!00
lO0
lO0
100:
100
100
lO0
CUM.
:POROSITY
~EET
69'18
0.00
0.00
26
.83
68,76
68'70
43
17
19
17
12
- 9
10
12
13
$7
24
68~54
68,49
6.8,43
68.34
68,2'6
68,19
68,12
68 04
':67 :~ 94
67.84
67.74
67.63
67,53
67,44
67.37
CUI~.
HYCARB
rEFT
0o00
0.00
11.00
11,00
11.00
11.00
11~00
11,00
It,00
11,00
11,00
11,00
11,00
11,00
11.00
11,00
10-99
10,98
10.95
10.92
10.89
47 67".36 10'89
47 67, 31
1.8 ' 67,19
14 67.11
13 67j. 03
0 0.00
0 0.00
14 66,93
1'7 66,84
22 66.77
:28 66,71
25 66.65
25 66- 59
29 66,52
41 . 66,48
37 66,45
32 66,40
27 66.34
22 66,27
19 66.21
19 66.1'8
10.89
10,89
10,89
10,87
0,00
0,00
10,85
10,85
10,85
10,85
10,.85
10,85
10,85
10,85
10,85
10...85
10.85
10.85
10.85
10.85
~D
CLAY
CUM..
POROSITY
FEET
CU~.
HYCaRB
FEET
9~27.0 0.0
9429.0
943~.0 0
9433,0 0.0
9 35..o o.o
9437.0.
.9439.0 0.0
9441',0 0.0
o, o
9443.0
9445-,0 0.0
94471,0 0.0
O-0
9449.0 0.0
0,0
9451,0 0.0
945].0 0.0
9455,0 0.0
0~
9457,0 0.0
0~0
9459.0 0.0
0.0
9~6~ .0 0.0
0.0
9463.,0 0.0
9465,0 0.0
9467.0 0.0
9~69..0 0.0
o.o
947~,0 0.0
9473-,~ 0.0
0.0
6.5
6.3
6.3
7.,4
7.0
7.0
6..2
6.0
5.5
5- 2
5.7
8.-1
6.7
-5'9
6.0
7.1
7'5
6.5
0,0
0.0
0.0 0°0
0.0
4.7
6,1
6,9
7-4
100
lO0
-100
100
100
I O0
100
lO0
lO0
lO0
-100
100
_ -I00
100
lO0
!00
lO0
I00
I00
100
lO0
..I00
I00
100
!00
100
100
100
100
~I00
lO0
lO0
100
100
I00
100
0
0
0
0
0
0
100
~100
100
lO0
21
19
18
2:2
2O
19
20
23
2O
2O
17
t5
16
19
19
21
27
26
25
23
24
26
18
16
2O
2O
20
18
17
16
0
0
0
0
0
0
33
21
19
17
66.14
66,08
66.01
65,95
65.89
65,83
65.76
65.70
65.64
65.58
65.51
65.43
65,36
65..29
65.23
65.17
65.11
65.05
64.99
64.94
64.89
64.83
64.77
64.'72
64.65
64,59
64.53
64.47
64.41
64,33
64.25
64.19
64.13
64.07
64.01
63.94
63.87
63.80
0,00
0,00
0o00
0.00
0.00
0.00
63.70
63:64
63.58
63.5~
10,85
10.85
10.85
10,.85
10¢85
10.85
.10.85
10,85
10.85
10.85
10,.85
10.85
10,85
10.85
10,85
10,85
10.85
10,85
1 O, 85
10.85
10.85
10..85
10,85
10.85
I0.85
10,85
10.85
10,85
10.85
10.85
10.85
10.85
I0.85
10.85
10.85
10,85
10.85
10,85
0.00
0,00
0.00
0.00
0,00
0,00
10.85
10.85
10.85
10.85
CUM.
PORG$'ITY
FEET
9475.0 o.1 81.0 92
9477.0 0 0 0,.
·
9479.0 0,00,0 0
: ~ ~ .0~ o
9451,0 0.00,0 0
9483.0 0.0 0
CU~.
HYCARB
FEET
9~.o o.o ~,9 xoo
~ ~_. 0~o'. < ~6~ ~-oo
9490.0 0.0 4.6 100
94~,o o.o 4~o .~oo
9495',0 0.0 6,6 100
0.0 8,1 86
9~99.0 . o.o 7.8 100
95o~.o o.o ~.-v ~oo
9503,0 0'1 8,5 -I00
9505.0' 0'3 10,0 99
o;3 ~~
9507.0 1 10.8 58
9509.0 0.4 ~0.3 67
9~1.o ~ o.o 6.~ ~oo
9513,0 0.2 9,~ 85
9515.0 0.8 1!.6 72
. 0'7 -'1<'$~'I: . - 94
9517,0 0,7 11.1 88
9519.'0 0.2 9.3
952!,0 0.7
9523..0 . 0.7 11,0 8i
9525.0. 0.2 8.9
15 63.43 10.85
10 63.35 10.84
0 0.00 0.00
0 0.00 0.00
0 0,00 0,00
0 0.00 0.00
0 0,00 0,00
0 0.00 0,00
0 0.00 0o00
24 63,21 10.81
2t 63.15 10,81
33 63.09 10.81
47 63.05
26 63.00
22 62,93
23 62.87
24 62.79
21 62,7i
18 62.64
--17 62,56
18 62.48
{8 62.41
14 62,33
12 62,24
10 62.15
II 62,05
10 61.95
7 61.84
6 61.74
6 61,64
4 61'.56
2 61-.49
2 61.40
5 6i.31
5 61.20
2 61,09
2 60.98
3 60.86
3 60.75
I 60.66
1 60.55
0 60.44
i 60,34
3 60,23
2 60.13
2 60.04
10,81
10.81
10,81
10,81
10.80
10,80
10,80
10,80
10,80
10,80
10,80
10,80
10.80
10.79
10..76
10,72
10,69
10,66
10,65
10.65
10.65
10,63
10.60
10,57
10,56
10,:54
10,51
10.51
10,50
10,48
10.46
10,44
10.44
10.44
POROSITY
FEET
H¥CARB
FEET
9527-0 0.~5 10.7
9529!-0 0-.4
-953~.0 0.3 10,0
9533,0 0.6 II.0
o,.s
9539'0 I -10
954 I~. 0 0 . ~
9543.0 0.3 9.7
545. o 0.6
9547.0 I 0 5
9549,0 0.0 6~7
955i.0 0.0 5.6
955~.0 0.0 5~7
· :: .:: ..:0:::o -::
9555.0 0.0 5.9
... o-.o
9557.0 0.0 4.2
o
9559-.0 0.0 5.7
9563.0 0.0 2,8
9565,0 0.0 5:,7
9567.0 0.0 '5.9
9569.0 0.0 6.0
957!.0 0.0 5.6
86
.83
t'00
100
100
95
89
85:
61'-
100
100
87
92
63
lO0
:,! O0
100'
1 O0
t00
100
100
100
lO0
0
!O0
l O0
lO0
lO0
100
9573.0 0.0 5.8 100
100
9575-0 0.0 4,5 100
: 1 O0
3 59.94
4 59,83
6 59.72
6 59.62
5 59.52
3 59.42
4 59.32
5 59,21
5 59.10
4
6 50.87
6 58,77
7 58.66
_9 58.55
7 58,46
6 58,37
5 58.28
3 58.I8
5 58,07
6 57,96
9 57.86
13 57, 76
20 57.67
'39 - 57.60
32 57.58
28 57.52
33 57.47
37 57:,41
28 57.35
31 57
35 57.30
30 57,24
28 57.19
48 57.09
48 57,06
29 57.02
26 56,96
23 56.91
2:6 56,85
29 56.79
33 56.73
28 56,67
27 56.62
22 56..56
20 56.50
16 56.44
I1 56.39
10.44
10,42
10.41
10~41
10,41
10.41
10.41
10.41
10.40
10,40
10,38
10.37
10.34
10.30
10,28
10.28
10.28
10,28
10.28
10,26
10,25
10,21
30,20
10.,20
10.20
10,20
10.20
10.20
10.20
'10.20
10,20
10.20
10.20
10,20
10.20
i0,20
10.20
S0,20
10,20
10,20
10.20
10.20
10,20
10.20
10,20
10,20
10.20
CUM.
POROSITY
FEET
56.30
56.21
6.11
55.91
55.73
55.63
55,55
55,47
55.37
55.28
9589,0 0,0 6,9 '.I00
959.1.~0 0.'1 8,8 ' ,100 8
9593.'0 0.0 7.0 :100 5
9595.0 0.2 9,2 '100 5
so,.o o.o
9599~, 0 0.3 10,0 - 'lO0 3
· 9603.0 0.2 9,1 -100 5
'9605.0' 0.0 7.2 ~I00 5
9607,0 0,0' ~,9 ' -100 7
9609.0 0.0 6j3 100 6
96t3,0- 0.2 9,3 {.00 . 9
4 55,20
8 55.t.3
55.05
54-96
54, 89
54.82
54..73
54,64
54,57
54,51
54.42
'5 '54,33
4 54.23
· - 4 54.I. 5
54.06
53,97
53,91
5'3.83
53.77
53,72
53.66
53:'59
53.50
53-40
53,31
53.22
9615.0 0,1 9.3 100 12 53.12
9617.0 0,2 9.?. 100 10 52.94
': 10 52'84
100 9 52.75
9619,0 0.2 9,3
9621,0 0.2 9,3 100
:9623.0 0.2 9,2 ~I00
9 52.65
i0 52.56
11 52,47
11 52.37
10 52,28
CU~.
HYCARB
FEET
10.20
10.20
10,20
10.20
10.20
10,20
10.20
10,20
10,20
10.20
10,20
10.20
10.20
10,20
10,20
10,20
10,20
10.20
10.20
10~20
10,20
10,20
10.20
10.20
10.20
10.20
10.20
10,20
10.20
10,20
10.20
10,20
10.20
I0..20
10,20
10,20
10,20
10~20
10.20
10.20
10.20
10,20
10.20
10.20
10,20
t0~20
10.20
10.20
DEPTH
% % %
CUM.
POROSITY
FEET
CU~ o
HYCARB
FEET
9627-.0
9629.0
96~ 0
963
9635
96
9639.0
0
9643'0
9645.0
9647-0
0
9649.0
9651~.0
9653.0
9655,0
9657,0
0
9659-0
9661'.§
9663!.0
9665.0
9667,0
9669.0
9671.0
96 0
0.I
0.0
0.1
0.1
8.1
8.9
0-. 1
g:Oo 6.9
0.1
0.1 9,2
o. i 8.8
0.I
0.1
0.1 9,0
O' 2
0.1
O. I
0.1
0.1 8.9
0.3 9.9
0.3 10.0
10-2
0.2
0.I 8.1
6,5
0.0 3.2
0.0 3, O
0,0
0.<5 8.7
100 It
I0 0 13
100 13
100 '-12
100 9
100 7
.loo
lO0 10
'~'! 0.0 I 0
100 9
ioo
100 8
100 7
100 8
lO
100 11
l O0
100 14
1 O0 I6
100 13
lO0 10
100 10
1'1
100
I00 11
100 I0
t O0 9
!00 10
~100 I 0
lO0 11
!00
100 8
I O0 7
100 8
lO0 6_
100 7
100 9
100 g
100 8
100 8
I00 7
100 6
, 0
100 0
100 0
97 0
59 5
52.19
52.11
52.03
5t,95
51,86
51~.77
51,68
51.59
51.49
5i,40
51..31
51..22
51,15
51.06
50.97
50.87
50.77
50.68
50.6O
50.53
50.45
50,36
50.26
50,1,7
50.08
5O.OO
49.91
49,83
49.74
49,65
49.56
49.47
49.39
49,31
49,22
49.13
49.04
48,94
48.84
48,74
48.64
48..55
48.46
48,38
48.33
48;30
48.26
48.19
10,20
10.20
10.20
10,20
10.20
10.20
10,20
I0.20
10.20
10,20
10,20
10,20
10.20
10.20
10.20
10,20
10.20
10,2.0
10,20
10,20
10.20
10,20
10,20
10,20
10..20
10,20
10,20
10,20
10,20
10,20
10.20
10,20
10.20
10,20
10.20
10.20
10,20
10,20
10.20
.10,~0
10.20
10.20
10,20
10,20
I0.20
10.20
10.20
I0.18
CUM.
POROSITY
FEET
CUM.
H¥CARB
FEET
9673~ 0 0.0 : 7,3 9.7.
9679-0 0,I 8'7 100
968~,0 0.2 '9,2 ~00
9683,0 ' 0,1 8,5 100
9685.0 0.1 9.0 'I00
:9687,0 0.2 9.0 100
9689,0 0.6 11~, 1 100
9691~.0 0.2 9,3 100
9693.0 0,1 8.4 100
~.~. '~.~:.O~ '>'~ 9~. ~.-
9695.0 0.0 5.6 100
~.o o.o ~.6
973t~'0 0.0 0.0
9733.0 0.0 0.0
9735.0 0,0 0..0
9737.0 0.0 0.0
~:, ~.~.~o o~o
9739,0 0.0 0~.0
~0:.i · '0
72
0
0
0
0
0
0
~:,~::~ ,o~o· ~.: ~7~,, 92
9750.0 0.0 0.0 0
0
9752,0 0.0 0.0 0
0
9754.0 0.0 6.7 100
7
9
10
9
9
I0
8
3
4
7
7
9
14
22
19
0
0
0
0
0
0
0
0
0
0
0
21
0
0
0
0
I9
26
31
29
29
48.11
48,03
47,94
47.85
47.76
47.68
47.59
47.50
47.4:1
47-32
47.23
47,1.5
47.06
46,97
46,88
46.~79
46,69
46,58
46,48
46,39
46.31
46,23
46.15
0,00
0,00
0,00
0,00
0,00
0,00
0~00
0,00
0'00
O. O0
0.00
45,75
0.00
0.00
0.00
0,00
45.69
45.63
45,46
45.43
45.41
10.15
t0.15
10.15
10,15
t0,15
10,15
10.15
10,1.5
10,1.5
10,15
10,15
10,15
10.15
10,I5
10.15
10, 1'5
10,15
10..I5
10.15
10,15
10.1.5
10,15
10.14
10, i4
0,00
0,00
0,00
0,00
0,00
0,00
0.00
0,00
0.00
0,00
0.00
10.I3
0.00
0.00
0.,00
0,00
10.12
10.12
10'12
10.12
10.12
CU~.
FEET
· 9770.0 0.0 I-.9 100
9772_' 0 O. 0 0., 9 1 O0
o o.1 - oo
9776~-0 0.0 6,0 !00
9778-'0 . 0o0 5°6
.9780,0 0,5 10.8 100
9782-0 0.0 5.4 100
'-9784~.0 0.0 0,0 0
9786:.0 0.0
9788.0 0.0 4.8 84
osi ,o o.o 4:2
o.O s.v '-
28 45,26
26 45.22
27 45,19
23 45-16
22 45,13
22 45-I 1
45.09
14 ' 45.09
21 45,04
15 44
6 44.93
3 44,85
3 44.75
I 44,65
3 44,55
7 44,50
0 0,00
0 0.00
0 0.00
0 0.00
24 44.40
49 43.78
49 43,66
48 43.63
9837,0 0.0 100
9839.0 0.0 100
O
9841,0 0.0 100
9843,0 0.1 100
9845,0 0,0 100
9847°0 0.1 I00
9849.0' 0.2 9,1 76
4,8
5.6
6,5
8,8
7,4
7,6
9851.0 0,5 1'0.4 77
81
49 43.24
35 43.19
27 43-14
23 43,09
36 43.03
29 42.99
13 42,92
7 42.85
-4 42.77
I 42.68
0 42.61
0 42,54
0 42'46
0 42.38
.0 42.28
0 42.17
0~ 42.07
CUM.
H¥CARB
FEET
10~12
10.12
10.12
10,12
10,12
10,!2
10,12
10.12
10,12
10.12
10,12
10,12
10,12
10,12
10,12
10.!2
19,12
10.12
.10,12
10,12
0,00
0o00
0.00
0,00
10.11
10'10
10~10
10..10
10,10
10,10
10,10
10,!0
10,10
10.10
10,10
10,10
10,10
10.10
lO,lO
10,10
!0,10
10,10
10.07
10.04
10.02
:9857.0
9859~. 0 0,4
9861-0 0 3 9,7
9863.0 0.6 10.7
o.o
9867,0
9869'0
9871:-0
9873.0
9875.0
9877.0
9879.0
988X..0
9883.0
9885.0
9887.0
98'89.0
-
989
0
9893,0
9895,0
9897
9899-.0
O*4 I0,0
0.9
0.2 8.8
0::~:.2 91'2
0.3
o~
0.! 8.4
0.2 8.9
0.3 9,9
O.4 ~0.0
0,5 I'O -6
1 11,.7
0..7
0.7
!
0.5
0.3
0.8
0.3
0.1
1t.6
10.5
9~7
!.O:*i:- .
11,.2
9.6
8.6
86
90
69
lO0
100
73
95
77
99
83
94
96
85
7:9
86
94
92
78
85
$3
98
95
84
96
93
~00
L
0
0
0
0
0
0
0
0
0
-
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
CUM.
FEET
41,96
.41.85
41,74
41.62
41.51
41.42
41.32
41,22
41..13
41,03
40,93
40.8f
40.72
40,65
40.-56
40,46
40.35
40,24
40.14
40.05
39.96
39,87
39.79
39,70
39,62
39-53
39.44
39,34
39.23
39,13
39,02
38,90
38.79
38.68
38.57
38,46
38.33
38,22
38.11
38.00
37~.91
37.81
37.70
37,-59
37.50
37.41
37.33
37.25
CU~.
H¥CARB
FEET
10.00
10.00
9.99
9.97
9.96
9.96
9.96
9,96
9,96
9,96
9.96
9,94
9,91
9-91
9.91
9.91
9.89
9.86
9.85
9.84
9,83
9,81
9.81
9,81
9.81
9,79
9,78
9,76
9,74
9,73
9,73
9,71
9.. 68
9.67
9.66
9,65
9.63
9,60
9,58
9,56
9.56
9,55
9.55
9.53
9,53
9,52
9.52
9.52 '
DENS. VOLUME POROSITY
9903:-0 0~3 9.9 99 ' 0 36.92
9905.0 0.3 9.6 97 0 36,73
;)!: -if:::i.i..i~:-::~?:: :;: 0 36' 63
9907.0 0'$ 10,6 87 0 36.52
9909.0 . ~ ~I,.8 73 0 36,30
9911.,0 0;3 9.6 72 ' 0 36,09
-99~3-.0 0~2 9.0 93 '0 35.90
9'917,0 0-I .7-8 100 0 35.57
'9919~0 0.2 ~..0 ~9 0 3~.~0
9921.0 0-1 -7-7 100 0
o-o o
9925:.0 3 7.2 17 0 35.04
9927,0 O, 0 4.9 65 0 34~ 88
? ~: .~-:::. :~ '~:::;: :: - 0 34-84
'9929,0 0.0 2,6 -100
993t,0 0.2 9.4 .1.00
9933,0 0.t 6,8 63
9935,0 2 8,5 30
9937,0
0 34.81
-0 34,78
0 34,.70
:~0 34,.6!
0 34..53
'-0 34.46
0 34.38
0.0 5,4 67 0 34.22
~i:::' .:~ :::: 0 . -34'16
9939,0 0.! 8,2 89
9941'0 0.5 10,5 77
9943.0 1 11.,7 71
9945.0 0.3 9.9 88
99'47.0 0.5 10.3
0 34,09
0 34,01
0 33.92
0 33,81
0 33.70
? ~;0 33,59
.0 33.49
~ 0 33.39
93 0 33.29
~-0:33.I8
,~.
CUH.
BYCARB
FEET
9,'52
9'51
9,51
9,50
9,50
9,50
9,48
9,47
9.44
9,39
9~36
9,35
9,35
9,33
9,32
9,32
9.~32
9,31
9,'31
9,31
9,3J
9.31
9,31
9,.27
9,13
9,-I3
9,13
9, I'3
9.13
9, I3
9,12
9,.09
9,04
8,98
8,93
8,92
8.91
8,91
8,90
8,87
8,84
8,8:1
8,80
8,?9
8.78
8,77
'.DEPTH
VOLUME
CUM.
POROSITY
FEET
CUN.
H. YCARB
FEET
9949.~
5
995
9955.0
9957.O
9959°0
996t-.0
9963.0
9968-.0
9970.0
9972.0
0.6 10.7
0.! 8.4
0.0 3.6
~7 0
68 0
72 0
6:!.
68 16
t00 38
100 38
o,o 5.6 loo 22
O'O 0'0 0 0
0.0 0.0 0 0
0.0 0-0 0 0
0.0 0.0 0 0
9998.0 0.0 4.2
99::9 O~0 4-, 4
I0019.0
10021
I00 48
oo .40
10023.0
10025.0
! O0
1
i=O~O
10029.0
1OO31.0
10033.0
10035.0
10037.0
0.0 4,6 i O0 26
0.0 5 2 85 22
0'0 64 22
0.0 0.0 0 0
0;0 41,6 80 28
0.0 4.9 92 24
O' 0 0.'0 ' 0 0
0.0 0.0 0 0
0~0 O, 0 0 0
0.0 0,0 0 0
o;
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 0 0
0.0 0.0 0 0
0;0 O- 0 0 0
0.0 0.0 0 0
0.0 O' 0 0 0
0.o 0.0 0 0
..
i0053.0 0.0 0.7
I 4~::0: 0'0 2.'I
,c
10o
I00 24
33.07
32.95
32.84
32.74
32.64
32.54
32.43
32,32
32,21
32. i0
3~,99
31.87
31.77
3~.69
3~.64
31.52
0.00
0,00
0.00
0.00
31.22
31.17
3t.o2
30.97
30.92
0.00
30.87
30,82
0,00
0.00
0.00
0,00
0.00
0.00
-0.00
0.00
0.'00
0.00
0,00
0.00
0,00
0.00
30.69
30.69
8,72
8.68
8.65
8,61
8,58
8,54
8.51
8.48
8.44
8.40
8,36
8.32
8,30
8.30
0~00
0,00
0,00
0.00
8,29
8.29
8.29
8,29
8.28
0,00
8.26
8.25
0,00
0,00
0.00
0,00
0.00
0.00
0,00
0,00
0.00
0.00
0.00
0.00
0,00
0.00
8.25
N~ VOLUME
%
CUM.
POROSITY
· FEET
H'¥CARB
FEET
10055.0 0'1 8,.1 78
10057,0 O. I 8-2 79
10059-0 0-! 8~3 78
ioo~i,.o ' o..i 8-9 ,, 67
!0063'0 0-6 9-3 60
i0065,0 0-3 8,3 66
~0067-0 0-1 '7'6 86
.10069,0 0,3 9.7 67
10071-0 0.8 9-5 ' 57
' ~0073.0 0-~ 8,7 ~4
I0075,0 '0.0 .6'8 85
10077.0 1 :1t..2 63
I0079.0 2 11~6 58
1008!-.-0 2 11..2 59
10083,0 2 12.6 62
I0085.0 0.3 9.7 -70
10087'0 0.2 9,0 75
74
10089.0 0.2 9,3 68
10091.0 0.9 :10,4 63
10093.0 0-2 6,6 51
· i~:o~:3· j j: s!
10095:0 0.5 8.1 52
10099,0 0.0 3.7 100
10101,0 0,0' 2.6 100
i9
t5
17
15
13
8
4
6
3
-3
5
3
2
1
0
2
4
5
5
2
1
0
1
!
0
0
0
2
3
3
6
9
!4
'33
31
30.65
30.57
30.48
30'40
30.32
30-23
30.15
30.06
29.97
29-87
29,78
29.70
29,62
29-54
29.45
29,35
29,26
29't6
29.07
28, 99
28.91
28.84
28.74
28.63
28.51
28,40
28.28
28.1,7
28.05
27-92
27,82
27.72
27.63
27,54
27,45
27.35
27.24
27.I4
27.07
27.01
26,93
26.85
26,75
26.66
26,60
26.57
26.54
26.51
8.25
8.24
8,22
8,20
8,18
8~16
8.14
8.11
8,07
8,03
8,00
7,98
7,95
7-94
7.91
7,88
7.84
7,80
7,76
7,72
7,69
7,68
7,65
7-61
7,56
7.51
7.46
7.41
7,37
7.32
7.29
7.23
7.2!
7.18
7.15
7,11
7,08
7,05
7,02
6.98
6,94
6,88
6.83
6,81
6.81
6.81
6.81
CLAY
DENS. VOLUME
10103.0 0 0 . 3 ~0.0 30
!0! 05,0 0..0 2
.8
25
23
10,07~.0 ~..0 5
20109.0 0.0 1,2 100
2011i.0 0.0 6 4 100
!.O!!3,0 ' 0,0 6,0 100
25
10127.0 O.0 6.6 84
10131~-0 0.0 5.3
o.o
10135.0 0.0 5.0
37
19
19
100 27
lO0 39
39
lO0 35
28
10154.0 0.4 8.8 64
87
10156.0 0.0 4.0 100
I0160,0 0.0 1,2 100
0,,'0 ' ,ioo -
i0162..0 0.0 I-,7 ' 100
14
19
45
46
49
44
33
CUN.
P OROS I TY
FEET
26.44
26,42
26.39
26,34
26.29
26,25
26.24
26,18
26.12
26,07
26.00
25.84
25,79
25~72
25.64
25.53
25,47
25.42
25,38
25.34
25-28
25.15
25, 14
25.12
25.09
25.04
24-97
24,90
24,82
24.74
24,65
24.55
24,45
24.35
24,25
24,1.5
24,07
24.00
23'96
23,94
23.94
23.9t
CUM.
HYCARB
FEET
6.81
6.81
6.81
6.81
6.81
6.81
6,81
6,81
6,81
6,81
6,81
6.80
6.80
6,80
6.79
6,76
6,76
6,76
6.76
6,76
6.76
6.75
6,74
6,74
6,74
6.74
6,.72
6,70
6,67
6,64
6,61
6.57
6.53
6,48
6,44
6.40
6,37
6.37
6.37
6,37
6,37
6.37
SAT DEl VOLU~E
10i66..0 0,1 . 8.6 70
10168,0 ' 0.'7 9.8 63
10170>0 6 9.4
10172.0 0..9 10.0
10174,0 :I '10.6
4
10176.0 0.8 9.7 · 59
10178.0 0.4 8,5 64 ·
10180.0 0.1 8-5 70.
10182.0 0,1 6.8 65
10196'0 0.0 1.7 100
I0i98:-.0 0.0 3,9 !00
10200.0 0.0 3.0 I00
10202.0 0.0 4.6 100
0;0 :- ~ ~I00
I0204.0 0.0 2:.7 100
O0
10206.0 0.0 4.3 100
Jj< :'! .:J' <~ :..0':'0 :': 93
10201,0 0.0 5,0 I00
10210.0 0,0 2,7 100
10212.0 o.o o.1 1oo
1021.~.0 0.0 3.7 100
10216.0 0.0 2,0 I00
10218.0 0.0 3.4 -100
10220.0 0.0 5.0 I00
21
:18
13
8
7
6
6
6
7
9
0
11
:-16
17
14
14
f8
25
44
27
24
24
25
25
19
17
24
24
2.3
'2i
20
24
3O
28
40
26
27
10222.0 0.0 4.7 94 25
· 32
CU~.
POROSITY
FEET
23.85
23,78
23,69
23,61
23.51
23.41
23,32
23.22
23.13
2-3'03
22,92
22,81
22.72
22,62
22,53
22,45
22.37
22.29
22.22
21-.93
21.88'
2t,.'85
21.81
21.,.79
2i.75
21~, 70
21.66
21.6!
21.50
21-45
21.43
21,40
21.39
21,39
21.36
2i,33
21.28
2~
2~.~5
2~
21.0~
CUM.
HYCARB
FEET
6.36
6,33
6,31
6,28
6,25
6.2i
6,17
6.14
6,11
6.06
5.97
5,93
5-89
5~85
'5.83
5,81
5~.79
5.76
5.75
5.-.75
5,75
5,75
5,75
5~,,75
5.75
5~75
5,75
5,~75
5,75
5,75
5.75
5,'75
5,75
5.,~75
5,7.5
5,75
5,75
5:,75
5.75
5.75
5,75
5,75
5.75
5,,75
5,74
5--74
T¥~ WATER ·H~CARB -C 5 AY
,¥OL%UME
CUI~.
POROSITY
FEET
CUM.
HYCARB
FEET
10224.0 0.0
o ' o.o
I0228,...0 0.0 0.0
10230.0
10232'0
10234.0
10236.0
' I0238.0
0.0 0'0
,
0.0
0.0
0.0
0.0
0.0
0,0
0.0
10243.0 0.0
' 0
I0245,~ 0.-7
10247.0 0.0
10249.0 0.0
0,0
10251.0 0.0
0'0
10253.00.0
o
0.6 26 2o.91
95 19 20.86
~ 13 20.79
O0 0 0.00
0 0.00
0 0 0.00
0 0 0.00
0 0 0o00
0 0 0.. O0
0 0 0.00
0 0 0.00
0 0 0,,00
0 0 0,00
0 0 0.00
10266.0
10268.0
10270.0
10272.0
10274,:-0
10276.0
10278"0
10280.0
10.282.0
0.0
0.0
0.0
0.4
0.1
0.I
0
0.0
100 28
60 22
8.6 47 15
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 0
0.0 0.0
0.t 8.8
8'0
100 39
4,,6 100 36
7.3 67 20
7.0. 20
7,0 73 19
59 20
8,4 61 21
62 20
6-7 64 20
69 20
8.0 73 14
o,o o o
0.0 0 0
0 0
0 0
87 17
79 !4
1'00 16
20.72
20.67
20.61
0.00
0.'00
0.00
0.00
0,00
0o00
0.00
0.00
0.00
20.53
20,49
20.44
20,37
30.2.9
20.23
20.15
20.07
19.98
19.91
19,84
19.77
0,00
0.00
0.00
0.00
19.69
i9,61
19.52
5'74
5,74
5.74
5.~72
0,00
0.00
0,00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
5,~0
5.70
5.67
0,00
0,00
0.00
0.00
0,00
0.00
0,00
0.00
0.00
5.65
5.65
5.64
5.61
5.59
5.57
5.55
5.51
5.48
5.45
5,43
5.41
0.00
0.00
0.00
0o00
5,38
5.37
5.36
ARB 'C5A¥
LU
CUM.
POROSITY
FEET
CUM.
HYCARB
FEET
i0284,0
10286,0
10290.0
I0294,
10296~0
10300.0
10302.0
I0304,0
10306.0
1030B.0
10310.0
10312-0
lO315,o
10317.0
1032t.,0
10323.0
0
10327.0
! o
10329.0
I0331.0
!
O.
0
0.0
0.0
0.0
0.0
0'0
0.0
0.0
0.0
0.0
0.0
0,1
0.0
0-0
0.0
0,4
0.:2
0.3
0...4
0.3
O'4
0,7
0.9
0 6.0
0
0.0 7.4
0.0 5.0
9
1,0
b.4
0.0
6,5
7,1
4.8
0.8
'_
4,7
5
5,°4
4'?
7.9
7.6
8,3
9.2
I0.6
1
I00 22 19.45
,ioO i .4o
100 21 19.34
95 18 i9.28
97 16 19,20
99 i7 I9,12
95 18 19,05
100 21 18.98
100 24 18,92
100 27 18.87
100 30 18,81
lO0 29 18~77
100 25 18,74
100 25 18,73
100 24 18.73
100 24 18.71
100 26 18.67
I00 21 18,60
100 16 18,54
6:4 7 18,46
0 0 0,00
_ 0 0 0.00
100 20 18.41
100 46 18.36
97 30 18.31
100 32 18.24
I00 35 18.19
I00 41 18.I, 5
100 33 18.12
I00 3O
.63 20
I00 22
10.0 26
88 22
68 20
62 18
66 t8
64 15
65 15
62 15
63 16
6i 14
57 13
_ 55 12
49
5I tO
18:o7
18.02
17.96
17.91
17.84
17.76
17,69
17,61
17.53
17.45
17.36
17.28
17,20
17.11
17.02
16.92
16.81
5.36
5,36
5.36
5.36
5,35
5.35
5.35
5.35
5.35
5,35
5.35
5-35
5.35
5.35
5.35
5.35
5,35
5.35
5.35
5.35
0.00
0.00
5,33
5,33
5,33
5,33
5.33
5,33
5.33
5,33
5,32
5,30
5.30
5.30
5,28
5.26
5.23
5.21
5,18
5.15
5.1:{
5.08
5,05
5.01
4.96
4.91
POROSITY
WA:TER HyCARB CLAY
CUM.
POROSITY
FEET
CUM.
HgCARB
FEET
I0
I 0
10337.0
I03
10341.
10343.0
10356-.0
10358.0
10360.0
10362.0
10364,0
0
I0366.0
i0368.0
69,~
I0170.0
I0372-0
~0374.0
~0376.0
10378.0
I0380.0
10382.0
I038t.0
10388.0
' t038.9'0
o~
O.O
0.0
0.0
0.0
0.0
0.2
0'2
0.3
0.~
0.2
0.1
0.I
0.1
0.9
1
0,.4
0.3
2
0.7
0.:7
0.0
0,0
O. 0
0.0
0.0
8
8.1
9.3
6-3
3.2
5.8
5.2
6.6
8.8
9°3
9.6
9-2
9,1
9.5
8.7
8.1
10,4
I0,:5
10.7
10.3
1i',0
9.6
6.7
6"7
6..3
3.1
5,3
57
9
53
58
53
54
63
100
lO0
.lO0
100
lO0
lO0
I00
100
100
97
94
83
84
91
85
91
9O
99
75
64
64
64
68
68'
57
54
57
6O
61
72
74
99
100
100
t00
9
10
9
7
7
6
5
6
8
10
15
46
34
28
2O
I3
9
6
2
1
1
I
1
2
4
4
4
5
5
6
6
6
8
6
6
5
8
12
1.9
18
20
22
44
28
16.71
16.61
16.51
16.39
16.28
16.17
16.06
15.95
15.85
15,77
15.68
15.59
15,53
15.51
I5.48
15.43
15.37
15.33
15.27
15.'21
15,14
15.07
14,98
14.89
14,79
14.70
14,61
14.51
14.43
14.34
14.26
14.16
24,06
13.95
13.85
13.75
13.64
13.52
13.41
13.32
13.22
13.t3
13.06
13.00
12,94
12.88
12.85
4,86
4.81
4,77
4.72
4.66
4.60
4,55
4,50
4.45
4,42
4,38
4.33
4,32
4.32
4,32
4.32
4.32
4.32
4,32
4,32
4.32
4_.32
4'32
4.31
4.29
4.28
4,28
4.26
4.25
4.25
4.24
4.22
4,18
4.14
4,10
4,07
4,04
3,98
3.94
3.8g
3.85
3.82
3,80
~.79
3,79
3.7g
3.7g
%
CLAY
DENS ¥OLDME
%
CUM.
POROSITY
FEET
HYCARB
FEET
10400.0 0 0
10402.0 0.4 10.5
..i i~O- ~ = 0;,:3 I0.I
10404,.0 0.2 9..7
10406.0 0.2 9.4
~ o-i ~.~
10408.0 0.1 8.7
lO~1O.O o.1 9.1
I041~.,0 0.4
0,3 10,~
I0t16.0 0,~
lOti~.O 0,8
0.4 7*.7
0.3
0.1 7.5
II-0
O.4 10.~
0.5 8,7
I I0.5
10422.0
10424.0
i0426,0
10428.0
10430-,0
10432.0
10
I0'434.0
10436.0
I
1
0,8 5
0,6 10,9
0-3 - 9
0,3 9,8
0,3
73
71
70
71
73
75
77
80
87
82
75
67
71
72
7~
8O
75
72
67
6~
47
22
24
69
77
83
74
59
58
58
60
64
70
78
7~
69
16
11
9
8
10
10
11
:12
tl
il
10
1-0
9
10
11
13
12
15
14
15
12
7
7
11
g
g
9
7
5
3
0
0
3
4
3
5
6
5
4
4
4
3
4
3
4.
3
1.2.79
12.71
12.62
i2,53
!2.43
12,34
12,25
12,16
12.07
11.97
11.87
11.77
11.67
1~.56
11.46
11,37
11,27
11.18
11.09
11.01
10,92
10.82
10.72
10.62
10,51
10,41
10.31
10,21
10,I0
9.99
9.89
9,82
9.76
9,71
9.64
9,56
9.45
9.35
9.27
9,18
9.08
8.97
8.86
8.75
8.64
8,53
8.43
8.33
3.79
3,78
3.77
3,.76
3,75
3,73
3.71
3,69
3,67
3,64
3.62
3.59
3.56
3.53
3,50
3~7
3,45
3.43
3,4'1
3,40
3.38
3,36
3.33
3.30
3.~7
3,24
3.22
3,19
3.16
3.12
3,04
3.00
2,96
2.92
2-90
2.87
2.85
2.83
2.79
2.75
2.70
2.66
2.62
2.59
2,57
2.55
2.52
POROSIT~Y WATER H¥CARB -C.LA Y
SA VOLUME
CUM.
POROSITY
FEET
CUM.
HYCARB
FEET
10438.00
I0
!
lo41
I044~.0 -
I0~6.0
10448.0
10450,0
10455
10457.0
10459.0
0
10461.0
10463~0
10465.0
10467,0
10469.0
10471.0
10473.0
10475.0
~.o
10477.0
10479.0
I048i.0
10483.0
10185.0
,O
10487.0
0.2
I
2
I
0..0
0.0
9,2
8~4 '
8 9
I1.0
9.2
0.0
0.0 5.4
8.6
0.6 9.0
0-5 8.'7
0.5 8.8
0.~ 8,0
0.0
0.5 8.9
. 9,8
I 10.4
1 -I 0-9
! 10.9
0"7 9.8
I 'i 0,3
0.8
0.5
1
2
2
0.7
2
2
9.9
9.6
8,9
10.6
10',5
I0.4
8-8
9.5
II"4
11.0
9.6
67 2
64
7 3
74 2
81 4
75 5
66 6
50 8
45 13
0 0
0 0
100 46
~100 25
1.00 12
63 12
58 1'3
58 15
59 13
61 t3
68 16
68 17
61 t2
59 8
57 8
57 6
59 4
61 2
64
58
60 4
68 5
61 5
61 7
62 7
5~ 7
5O 6
49 4
49 4
60 3
57
47
43 5
4~ 7
39 9
4:1 16
8.24
8.14
8,04
7.95
7,85
7.76
7.67
7.58
7.48
7.37
7.26
0,00
0.00
7.03
7,01
6.96
6.90
6.82
6,73
6,64
6.55
6.46
6.38
6.30
6.2!
6.1!
6.00
5.89
5.79
5.68
5.58
5.48
.5.39
5.29
5.20
5.11
5.01
4,91
4.80
4;70
4.60
4.51
4.41
4,30
4.19
4..09
4.00
2.49
2,46
2,43
2,39
2,36
2.34
2.33
2~31
2,28
2.24
2,18
0,00
0.00
2,I3
2.13
2.13'
2.10
2,06
2.02
1,98
1,95
i,93
1,90
1.86
1,82
t..77
1.73
1.68
1.64
t.61
1~56
1.53
1,50
t.46
1,42
1,39
1.33
1,28
1,23
1,18
1.10
1,03
0,97
0.91
0.86
.CLAY
rOLUME
10489-0 0.0 5.4
lo~gi-.o o.o 4.~
~ o~
10493.~ 0.0 2.7
10496.0 0.0 2.4
10498.0 0.0 3.4
Io5oo.o o.o ~.~
loso~.o o.o ~.9
I0514.0 0.0
10516.0 0.I 8,8
10518.0 0.2 -g,l
10520.0 O.:3 10.3
10522.0 0.0 6.8
10524.0 0.0 3,5
I0526..0 0.0 2.9
63
100
~ 6.3
I00
lO0
100
lO0
tO0
I00
95
I00
76
73
87
99
100
lO0
23
29
47
26
46
49
43
41
47
43
43
47
21
I4
12
8
6
8
13
' -f-8
19
32
4O
47
47
4g
10545.0 0o0 4.4 I00
O~
10547.0 0.0 4.3 100
I0549.0 0.0 3.9 100
I0551.0 0.0 2.9 100
10553-0 0.0 4'2 1oo
!~ o o:-o 3~4
45
38
38
38
43
41
4O
46
4:4
41
4-4
10560,0 0.0 6.6
10562.0 0.3
o~
10564.0 0.1 8.5
76
60
56
68
C 67
'45
22
20
15
15
t8
CUM.
POROSITY
- FEET
3,g2
3,87
3.82
3,77
3.71
3.67
3,64
3.60
3,58
3.56
3.53
3.5O
..
3,39
3.34
3,26
3.17
3.10
3,00
2.89
2,.80
2.72
2.65
2.59
2.56
2..53
2.50
2.34
2,30
2.26
2.21
2-17
2,14
2.10
2.06
2.03
1.99
I. 95
1,89
1.86
I~..80
1.73
1,65
1.56
1.48
CU~.
HYCARB
FEET
0.81
0.8O
0.80
0,79
0.77
0~77
0.-77
0.77
0,77
0.77
0,77
0.77
0,77
0,77
0,77
0,77
0,77
0.76
0.74
0-71
0,70
0.70
0.70
0,-70
0.70
0,70
0,70
0,70
0.70
0.70
0.70
0.70
0,70
0.70
0.70
0.70
0..70
0.70
0.70
0,68
0,65
0.62
0.59
0.56
14
14
15
16
17
19
18
18
20
33
1o59o.o o.o o.o
.
I0592.0 0.0 '0,0
10594.0 0.0 0,0
10596.0 0.0
30
0
0 0
0
0 0
0
0.0 0 0
0 0
CUM.
1.40
1.33
[.25
1.16
I..07
0.98
0.90
0,80
0.71
0,63
0,55
0.47
0.40
0.32
0,24
0,~7
0.08
0.00
0,00
0,00
0,00
0,00
0.00
0.00
CUM.
HYCARB
FEET
0'.54
0.51
0.47
0.42
0,38
0.34
0,31
0,27
0,22
0,19
0.15
0,12
0.10
0., 07
0,04
0.01
0.01
O.O0
0,00
0,00
0.00
0,00
0,00
0.00
i:,!~ ~BC:AL-:: ';f ~7' 53 ~OBj' ~8'ARCI]$ SEQ. 1631 DATE 12-NOV-80 10:32:-5.
MONITOR
) RUNNING ON LPT070,
10:15:48 I~PDAT [LPTSJS .STARTING ~JOB SABC.US~, SEQ ~i631-, REQUES~ CHEATED AT
i0:21:48 LP~S~ [DPTCPT CHECKPOINT TAKEN DURING FI~E DSKH{S~BCUS.001<057>[1070;
FILE DSKH:SARCUS.00~ <057>[1070~
~0:27:49 5P~SG [LPTCPT CRECKPOINT TAKEN DURING FILE DSKR{SARCUS.001<057>[I070~
NG FILE.. DSLH{SARCUS~. 00
,0:39{56 -~P~SG ~[LPTFPF :FINISHED PRINTING FILE DSKH~:SABCUS.001(057>~10707,6112~
~5 ~CS~ 311 DIS~K READS~, 52 PAGES PR~
~6~,1.25]~:- ~BARCUB'SEQ. 1631 DATE 12-NOV-80 10:32:5'
~.ONITOR SWS KL10E40 SEP-80. ~*END**
},iONITOR S~S KL10E40 SEP-80. **END**
1631 DATE 12-NOV-80 10:32~5
MONITOR S~S KL10E40 SEP-80. **END**
'~. ?O7,61125}-_ dOBSAR'CUS sgo' 1631 DATE 12-N0¥-80 10:32:5:
~ONITOR Sk).S KL10E40 SEP-80. mmE~Dm*
~ ~.;~ i=~ .~.=::= ,~$"125] .~'a0B SARCUS SEQ. 1631 DATE 12-N0¥-80 10:3~:5
gONITOR SWS KLIOE40 S. EP-80. **END**
? .: 3.
:::~:~.: N' - :::~ ~. :~I0707:,,61 ]. 'UOB':$~RCUS SEO. 1631 DATE 12-NOV-80 10:32:5
~40NITOR SW.S KLIOE40 SEP-80. **END,*
D~,~,.*;'U .,-~t0707i,~6t125] JOB ~S;~RCUS SEO. 16'31 DATE 12-N0¥-80 10: 32,.
MONITOR S.~$ 5L10E40 SEP-80. **END**
-
MONITOR SWS KL10E40 SEP-80. ,mEND**
'
j~ ~-~P il; ~_6I~.-OOB SABCUS ~8EO. 16~1 DATE {.2-NOV-80 10.3
~)ONITOR SWS KL!0E40 SEP-80. ,mEND**
~mme~mm~mmmmmmmememme~
* .... SCHbO~BERGER----~
bis TAPE
VERIFICATION bISTING
~'V~ O~[~.HU5 VERIFICATION bISTING
** REE% HEADER
SERVICE NAM~ :EDIT
DATE :80/11/ 9
ORIGIN :
REEk NA~E :P.C.A.L.
CONTINUATION ~
PREVIOUS REEL
COMMENTS : LIS"FORMAT CUSTOMER TAPE
** TAPE HEADER ~*
SERVICE NAM~ :EDIT
DAT~ :801~t/ 9
ORIGIN': '~
TAPE NAME :61125
CONTINUATION # :01
PRE'VIOU$ TAPE :
COMNENT$ : '"
g* FILE HEADER
FIL~ NAM~ :EDIT ,001
SERVICE NAM~ :
VERSION # :
DATE :
MAXIMUi~ L~NGTH : ~024
PREVIO~;S FILE :
** COM~4ENTS **
FILE COMMENTS
THERE ~VA$ NO VISUAL VERIFICATION AVAILABLE FOR DRHO,
INFORMATION RECORDS
MNES CONTENTS
UNIT TYPE CATE 5fZf CODE
CN : UNION O~L CO. OF CALIFORNIA
000 000 02"1 0~5
LVP 009.M05 YERIFICATION 5ISTING
PAGE 2
WN : GRANITE POINT
FN : GRANITE POINT
RANG:
TOWN: iON
SECT: 13
COUN: KENAI
STAT: ALASKA
DENS: 800.
** DATa FORMAT RECORD *~
ENTRY B.bOCK$
TYPE
0
DATUM SPECIFICATION
MNEM SERVICE SERVICE
ID ORDER F
DEPT
SP DbL
LbS OhL
~R DLL
GR
CALI CNL
DRHO CN5
NPHI CNL
RHOB CNL
NRAT CN5
NCNb CNL
FCNb CNL
2~=13 RD
SIZE
1
BLOCKS
UNIT
50G TYPE
FT 0 0
OMM~ 11 22
OH~ 11 22
GAPI 11
GAPI 42
IN 42 28
G/C3 42 44
PU 42 68
G/C3 42 35
C/C 42 42
CPS 42 34
CPS 42 34
REPR CODE
API API FILE SIZE
CLASS ~OD NO.
0 0 0 4
O 0 0 4
10 0 0 4
9 0 0 4
32 0 0 4
32 0 0 4
1 0 0 4
0 0 0 4
3 0 0 4
I 0 0 4
1 0 0 4
92 0 0 4
93 0 0 4
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
022
013
O03
003
002
005
O06
004
ENTRY
0
PROCESS SAMPLE
bEVEL
0
0
0
0
0 1
0
0
0
0
0
0
0 !
0
O65
065
O65
065
O65
O65
065
O65
ODE
68
~8
(:8
68
68
68
~8
68
68
68
68
~8
68
DEPT
GR
NPHi
FCNL
DEPT
GR
NPHI
FCNL
DEPT
GR
NPHI
FCNh
DEPT
G~
NPH£
FCNL
10665.000 SP
-999.000 GR
-0.040 RH00
0.000
lObO0.O00 SP
49.200 GR
49.640 RHOB
63,063
10~00,000
'69.500 GR
22.360 RHOB
129.987
10400.000 SP
'50.100 GR
19.180 RMOS
211.926
'999.000
0.000
2.496
-17.750
86.000
2.421
-16.500
68.900
2.580
-5~.500
45.800
2.450
bbb
CAbI
bbD
CALi
NRAT
bbb
CALI
NRAT
bbD
NRAT
-1.001
0.000
0.002
47.424
B.BO0
3.652
38.371
9.600
2.472
25.351
8.400
2.078
bbs
ORHO
NCNb
bbs
DRHO
NCNb
bbs
DRHO
NCNb
bbs
DRHO
NCNb
-1.001
0.000
0.000
52.481
-0.007
211.068
39.084
0.043
321.32I
-
24.210
-0.001
447.018
LVP 009.H05 VERIFICATIDN
DEPT 10300.000 SP
GR 60.700 GR
NPHZ 29.940 RH00
FCNb 120.549
DEPT 10200.000
GR 61,600 GR
NPHi 30,520 RH00
FCNL 96.954
DEPT 10100,000
GR ~ 61.400 GR
NPHi 26,120
FCNL 156,585
DEPT 10000,000
GR ' 78,300 GR
NPHI 24.520
FCNb 128.271
DEPT 9~0,000
GR 9,600 GR
NPHi 19,360 RHOB
FCNL 220.506
..
DEPT 9800.000
GR -76.600 GR
NPHi 2M,920
FCNL 93.093
DEPT 9700 000
GR -90:900 GR
NPHI 24,280 RHOB
FCNb 143.715
DEPT 9600.000
GR 32.300 GR
NPHI 17.380 RHOB
FCNL 172,458
DEPT 9500.000 SP
GR 51'~00 GR
NPHI 20.§60 RHOB
FCNL 148,434
DEPT 9400,000
GR -85,~00 GR
NPHI 27.900 RHOB
FCN~ 117,975
DEPT 9~O0,OOU
GR '~45.500
NPHI 24,860 RHOB
FCNb 117.54b
LISTING
-28,750
57,400
2.539
-20.250
55,200
2.610
-24.750
60.100
2,634
-21.250
77.400
2.616
-71,750
37.800
2.446
-34.000
3OO
7~'601
.
-1~,500
83 800
2~598
-19 750
33i700
2 485
-26 750
49:900
2.465
-23,000
78,900
2,615
-~7.250
45.400
2.437
NRAT
bbD
CAbI
CAbI
NRAT
CAbI
NRAT
CALl
NRAT
bbD
CALl
NRAT
NRAT
CALI
NRAT
CALI
NRAT
CAbI
NRAT
CAbI
NRAT
14.454
9,450
2.666
14,322
9,300
2,914
30.200
9,450
2,626
28.840
9,200
2.482
20,893
8.550
2.076
~7.06~
1~,200
.836
21.478
10,000
2.602
10.093
11.800
2.214
19,953
10,400
2,368
23,550
10,300
2,836
16.14~
9,400
2,596
LbS
DRHO
NCNb
bbs
DRHO
NCNb
bbs
DRMO
NCNb
bbs
DRHO
NCNb
bbs
DRHO
NCNb
bbs
DRHO
NCNb
bbs
DRHO
NCNb
bbs
DRHO
NCNb
DRHO
NCNb
DRHO
NCNb
DRHO
NCNb
PAGE
14.588
0 O07
13,183
295.
27,040
0,005
322.179
24,434
-0 O02
24,889
-0.013
403.689
18.030
0 138
283:140
22,491
0 007
368:940
7.798
0 029
378~807
--
18.535
0,000
352,780
23,768
0.039
296,~68
-0,01~
301.15~
SVP 009.H05 VERIFICATION blST1NG
PAGE
DEPT 9200.000
GR ~27.100 GR
NPHI 47,540
FCNL 44.187
DEPT 9190,000
GR '2'1,100 GR
NPHi 38,120
FCNG 61'347
-5,500 LSD
36,800
2.550
-5.500 LLD
38.200 CALI
1.994 NRAT
** FILE TRAILER *~
FILE NAME :EDIT .00t
?ER¥IC~ NAN~ :
ERSiON #
DATE : -
MAXlMOM LENGTH : 1024
NEXT FISE NAME :
0.254 bLS
9.100 DRHO
3.952 NCNb
0.254 b~S
3,350 DRHO
3.~70 NCNb
0.299
-0.288
175.46~
0,29~
=0,490
204.b33
*~ TAPE TRAILER *~
SERVICE NA~E :EDIT
DATE :80/11/ 9
ORIGIN :
TAPE NAME :61125
CONTINJATION ~ :01
N~XT TAPE'~'NAM~
** REEL TRAILER **
SERVICE NAME :EDIT
DATE :80/11/ 9
ORIGIN :
REEL NAME :P.C.A.L.
CONTINUATION # :01
NEXT REEL NAME :
COMMENTS : LIS FORMAT CUSTOMER TAPE
EOF
