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FROM::Sandra D. Lemke, ATO-704 TO:: Meredith Guhl
ConocoPhillips Alaska, Inc. AOGCC
P.O. Box 100360 333 W. 7
th Ave., Suite 100
Anchorage AK 99510-0360 Anchorage, Alaska 99501
RE:: Fiordd 44 andd Fiordd 55
AOGCC email data request
DATE: 11/30/2022
Transmitted:
North Slope, Alaska
Via SFTP
___Fiord 4 and Fiord 5
Geochemical Analysis; Albert Holba, May 2001
7.19 MB
Transmittall instructions: please promptly sign, scan, and e-mail to Sandra.D.Lemke@conocophillips.com
CC: Fiord 4 and Fiord 5 e-transmittal folders
Receipt: Date:
Alaska/IT-Data Support|ConocoPhillips Alaska |Office: 907.265.6947; Mobile 907.440.4512
By Meredith Guhl at 8:23 am, Dec 01, 2022
199-016
199-020
T37343
Meredith Guhl Digitally signed by Meredith Guhl
Date: 2022.12.01 08:31:21 -09'00'
199-020
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Co ~ _II-
. '. ..' nOCurll1 IPS
TRAN!SMliTTA.L
FROM: Sandra D. Lemke, AT01486
ConocoPhillips Alaska, Inc.
P.O. Box 100360
Anchorage AK 99510-0360
RE: Fiord 5
TO:
Howard Okland
AOGCC
333 W. ih Ave, Suite 100
Anchorage, Alaska 99501
DATE: 1/31/2006
Via E-mail
$\CANNED ~JAN ~i 1 200b
Transmitted:
Fiord 5
Electronic pdf (Adobe Acrobat) file
~iord 5, Core Analysis Study, Oct. 15, 1999; File: DAL-99087; 25 pages
Please check off each item as received, promptly sign and return via e-rnaíl or regular mail to address below.
cc: Fiord s;,¡mijl fil~ /11
Receipt: ~ r)fItfðvJ Date:
Return receipt to: ConocoPhillips Alaska, Inc.
ATTN: S. Lemke, ATO-1486
700 G. Street
Anchorage, AK 99501
3 L)fÂ~ ~~~ t
GIS-Technical Data Management I ConocoPhi/lips I Anchorage¡ Alaska 1 Ph: 907.265.69471
Sandra. D. Lem¡ ke(àJconocophll/ips. com
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CORE LABORATORIES
CORE ANALYSIS STUDY
FIORD #5 WELL
ALASKA
~CANNED ~~AN 3 1 2005
Performed for:
ARCa ALASKA, INC.
700 G STREET
ANCHORAGE, ALASKA 99510
October 15, 1999
-
Performed by:
Core Laboratories, Inc.
Advanced Technology Center
Rock Properties Laboratory
1875 Monetary Drive
Carrollton, Texas 75006
File: DAL-99087
n. Malytì:al ,esuIIs at intapftllllGllS coni.. in lhis fI JOIt nlllSled II IOII inltnnilian ¡cd I'IIII.-ÌII SIIp Jied h 111I dÎIIII I" will. .1dIaiw MIl conr-.atill uti tbØ repaI1l11$ lIMn... n.Illllyti:1I f''''' 0 Iifi0ns "
illlaf¡ntMiorla 'I~ ..-' 1M IIIst judgtnelrt of tOrI l__Iriu. Con. l_-'arias,.lIawÞ.r. CNbJ na WIITIfIIf IN ~.tiOnI. 1I IfIIS ell' ÌII IIit'. al Illy ~ 11III Upna/y iIildlims ... ta ,lit IrIMUtiYiIy.
""'* "'lIillls 01' pI'OIitllblleus If Illy d. ,... call. IthIr ntiltralJlfQpltt,. -..II 01' .... in ~ìon with wllidllUCII ~ is utili ell' filii. ~ fa...y ,_ wh,uGeVll'. This It IIrT 11III lilt be..... ÏII wIIaII"
in lM1 wCIIIuf rill MinH œnSlll! al COß lø.lariu.
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PETROLEUM SERVICES
October 15, 1999
Mr. Kenneth Helmold
ARCa Alaska, Inc.
700 G Street
Anchorage, Alaska 99510
SUbject:
Core Analysis Study
Fiord #5 Well
File: DAL-99087
Dear Mr. Helmold:
Core laboratories' Advanced Technology Center in Carrollton (Dallas), Texas is pleased to present the
final report for a core analysis study performed on 66 feet of core material recovered from the referenced
well. Preliminary ¡nfannation was provided to the client as it became available. A project summary,
description of laboratory procedures, and presentation of results are provided within. Seven copies of
this final. report have been issued.
We appreciate this opportunity to have been of service to Arco Alaska, Inc. Please contact us at (972)
466-2673 if you should have any questions regarding this report, or If we may be of further assistance.
Sincerely yours,
~ 12rfkÌA L" .
Paul R. Martin
Petrophysics Supervisor
Dallas Advanced Technology Center
7 copies: addressee
Core Lllboratorles, Inc.
1875 Monetary Lane, CarroHton, Texas 75006-7012. (972) 466-2673, Fax (972) 323-3930. E-mail @corelabusa.com
)
Area Alaska, Inc.
File: DAL-99087
')
PROJECT PARTICIPANTS
Basic Properties
Dean-Stark Fluid Saturations:
Porosity and Permeability Measurements:
Project Coordination, Data Evaluation,
and Report Preparation:
Final Report Review:
Jacque R. Brown
Lynn M. Antwine
Stephen M. Hoff
Paul R. Martin
Gary Potter
Core Laboratories
Atco Alaska. Inc.
File: DAL~99087
SECTION 1:
SECTION 2:
SECTION 3:
SECTION 4:
SECTION 5:
)
TABLE OF CONTENTS
PROJECT SUMMARY
LABORATORY PROCEDURES
HORIZONTAL PLUG AND DEAN-5TARK SATURATIONS DATA
1000 & 2400 psi Net Overburden
VERTICAL PLUG DATA
800 & 2400 psi Net Overburden
GRAIN DENSITY
Core Laboratories
ii
..- .. ... -- .._.-
Area Alaska, Inc.
File: DAL-99087
)
SECTION 1
PROJECT SUMMARY
)
Core Laboratories
)
)
Area Alaska, Inc.
File: DAL·99087
PROJECT SUMMARY
Core Reception and Processing-Carrollton, Texas
- The COfe processing was performed according to a procedural protocol outlined by Area Alaska, Inc.
Sixty-six horizontal and frfty·nine vertical core plugs were received for testing. Procedures followed are
listed In the Laboratory Program section of this report.
Laboratory Program
Routine plug samples were analyzed in strict accordance with Arco Alaska's protocol described in the
laboratory procedures. The horizontal and vertical plugs were subjected to Dean-8tark saturation
determination, cleaning and drying, permeability, porosity and grain density measurements. Laboratory
procedures are described in Section 2 and test results are presented in Sections 3 through 5. A
summary of sample selection is listed below:
ROUTINE HORIZONTAl
PLUGS
ROUTINE VERTICAL
PLUGS
SPECIAL
ROUTINE HORIZONTAL
PLUGS
66
59
Preliminary data results \NeI'e provided to the client on a regular basis. A preliminary core analysis report
provided on July 13, 1999 included all horizontal plug permeability and porosity, grain density, saturation
data.
Core Laboratories
Area Alaska, Inc.
File: DAL-99087
)
SECTION 2
LABORATORY PROCEDURES
)
Core Laboratories
)
)
Area Alaska, Inc.
File: DAJ--99087
LABORATORY PROCEDURES
Laboratory analytical and quality control procedures used during the analysis of the core from the Fiord
#5 well followed the procedural guidelines set forth by Area Alaska, Inc. Any modifications or additions
to the written protocol were by request or by approval of Area Alaska, Inc. or AEPT Piano.
Dean-5tark Analysis
Each Dean-Stark flask and associated glassware were cleaned and dried before use. The condenser,
core chamber and flask were rinsed 5 times with 20cc of fresh reagent grade toluene before adding
toluene to the apparatus for pre--boillng. The sidearm was checked for water and pure toluene was
transferred from sidearm to flask, the sidearm was then dried.
Each core plug sample was weighed to 0.001 g, placed in a predried and relabeled glass thimble and
weighed again. Each plug and thimble was then loaded into the Dean-5tark apparatus. The system was
sealed with Teflon tape to prevent leakage and capped with desiccant to prevent the introduction of
condensed atmospheric water.
Water volume in each Dean-Stark receiving tube was monitored during the toluene refluxing until
stabilization. A wire was used to swab off any water droplets from the neck of the condenser. A record
of time and water volumes was kept for each sample. Dean Stark extraction time for each sample was
approximately 48 hours. After extraction, the flask and contents were removed. The toluene in the side
ann was removed and added to the flask. The water recovered in the side ann was extracted and
poured into a storage bottle, sealed, and labeled for possible analysis.
After the Dean Stark process the plugs 'Were loaded into individual extraction units for complete
hydrocarbon and salt removat using chloroform-methanol azeotrope. The plugs remained in individual
units for a minimum of one week followed by a minimum of 24 hours with fresh azeotrope to verify that
they were completely dean.
Sample Drying
Each core plug and thimble was dried in a convection oven at 2400F for four hours, followed by 24 hours
drying in a vacuum oven at 2400F. Sample weights were monitored approximately every 4 to 24 hours
until weight stabilization (+/- .01 g) was achieved. After drying, each plug and thimble was allowed to
cool in a desiccator and then weighed to 0.001 g. Each plug was removed from its thimble, brushed to
remove residual dust, labeled and reweighed.
Grain Volume Determination
Grain volumes were measured using the Boyle's law Autoporosimeter'IU which was calibrated and
checked with a kna.vn volume stainless steel disk and quartz check. plug (2.65 glee) before each run.
Plug sampfes were kept in a desiccator until ready for grain volume measurement. After every five
samples, the steel check disk was measured to ensure correct equipment operation. Equipment
recalibration was performed a minimum of twice a day or as needed. Grain densities (gmlcc) were
calculated USing the dry sample weight (gm) and grain volume data (cc). Initial measurements were
made on the sleeved samples, and corrected for the sleeve material. After all other measurements were
complete and upon approval from the client the plugs were un-mounted and the grain volumes were re-
run for completeness. These results are found in Section 5.
Core Laboratories
)
)
Area Alaska, Inc.
File: DAL-99087
Grain Density
Grain densities were calculated from obseNed data using the formula:
GD = DW
GV
where: DW = Dry weight. gm
GV = Grain volume. cc
Plug Porosity and Permeability Measurements by CMS-30011l
Horizontal and vertical plug samples were measured for permeability and porosity by the CMS-300 at
1000 and 2400 psi net overburden. Before each group of samples was run, a standard system leak test
was perfonned to ensure correct equipment operation. Calibrated, known vOlume check cylinders were
run before and with each carousel suite of samples.
The Klinkenberg (slip corrected) permeability for each plug sample was determined as a function of
pressure decay (helium blCMI-down). A reference cell of known volume charged the sample with helium.
A doYmstream valve vented the sample to atmosphere, and the change in pressure with time was
monitored. The multiple flON regime data allowed the detennination of Kllnkenberg permeability of the
sample, a calculated air penneability, along with parameters helium slip factor (b) and the inertial
resistance factor (ß) beta. Any plug with permeability to air of 3000 md or more was remeasured using
the Autopermeameter (a steady-state device), which has greater accuracy In measuring higher
permeability samples, and the Autopermeameter data was reported.
Porosity for each plug sample was calculated using Boyle's law by the CMS-3OQTM with grain volume and
pore volume by:
ø = (PV. 100) I (PV + GV)
where: ø = Porosity, percent
PV = Pore volume at net confining pressure, CC
GV = Grain volume, cc
Data was downloaded to diskette, imported to the core analysis report software, and preliminary data
printouts were provided to the dient regularly. Samples unsuitable for CMs-300'N testing were subjected
to ambient condition porosity and profile (probe) penneability testing and are noted in the tabular data.
Porosities and permeabilities were rechecked on these samples after recleaning and brushing of the
samples. Because of this retest, slight differences in core properties may be noted on reported data.
Because of uncertainty about changing reported data, Core Laboratories decided to document the data
as originally reported. If requested, Core Laboratories will retabulated all reported data.
Fluid Saturation Calculations
The observed Dean Stark weights and produced water volumes were combined with the measured pore
volume data to calculate in situ oil and water saturations for each sample. A summary of all measured
and calculated data for the horizontal plugs is presented in tabular and graphical formats in Section 3;
vertical plug data appear in Section 4.
Core Laboratories
)
)
Areo Alaska, Inc.
File: DAL-99087
SECTION 3
HORIZONTAL PLUG AND DEAN-STARK SATURATIONS DATA
Core Laboratories
)
)
SUMMARY OF HORIZONTAL PLUG PERMEABILITY AND POROSITY MEASUREMENTS
Arco AI..Iea, Inc. FIle: DAL-99087
Fion:t No. 5
SImple Depth Confining Potoelty b Orlan
I.D. .... KIn, Kmt fllclDr ..... AløhI Den8ky
feet ... ,. md md ... 1t-1 dlicroM amM:c
4 7019.1 1000 9.7 0.0515 0.0910 5.79E+Ol 8.67E+12 1.34E +03 2.644
4 7019.1 2400 9.1 0.0127 0.0305 1.06E+02 4.88E+13 1.91E+03 2.644
5 7021.1 1000 9.8 0.221 0.256 1.09E+01 1.41E+1l 9.59E+01 2.681
5 7021.1 2400 9.0 0.0270 0.0423 3.88E+Ol 2.46E+13 2.06E+03 2.681
9 7025.1 1000 5.9 0.0028 0.0047 5.a1Eof01 1.27E+15 1.04E..04 3.383
9 7025.1 2400 5.7 0.0010 0.0026 1.58E-t02 7.S7E+15 2.S3E+04 3.383
10 7026.1 1000 13.1 0.874 1.14 1.88E-t01 1.11E+11 3.05E-t02 2.650
10 7026.1 2400 12.7 0.714 0.93 1.88Eot01 1.G1E+11 3.e6Eot02 2.MO
11 7027.1 1000 17.2 44.7 47.2 2.8OE+OO 2.36E+08 3.3QE+01 2.650
11 7027.1 2400 18.8 42.9 45.2 2.72E+OO 2.58E+08 3.57E..o1 2.650
12 7028.1 1000 17.5 67.6 70.4 2.00E+OO 1.s.u:..08 3.38E+01 2.549
12 7028.1 2400 17.1 65.3 67.9 1.90E+OO 1.67E408 3.51E+01 2.649
13 7029.1 1000 15.0 7.70 8.54 5.88E+OO 6.57E+09 1.62E+02 2.&49
13 7029.1 2400 14.6 7.26 8.0 S.S7E+OO 7. 73E+09 1.81E+02 2.649
14 1030.1 1000 15.4 10.1 11.2 5.95EotOO 3.29E+09 1.06E+02 2.680
1-' 7030.1 2400 15.0 9.2 10.2 5.71E+OO 4. 15E+09 1.22E+02 2.660
15 7031.1 1000 14.3 5.07 5.76 7.68E+OO 9.99E+09 1.63E+02 2.657
15 7031.1 2400 13.9 4.65 5.25 7. 15E+OO 1.25E+10 1.87E+02 2.657
16 7032.1 1000 12.7 0.856 1.01 1.14£+01 4.33E+11 1.17E+03 2.714
16 7032.1 2400 12.2 0.736 0.863 1.08E+01 5.93£+11 1.39E+03 2.714
17 7033.1 1000 16.1 15.4 17.1 5.78E+OO 1.56E+09 7.74E-t01 2.655
17 7033.1 2400 15.7 14.2 15.7 5.47EotOO 1.SIOEotOi 8.71E+C1 2.655
18 7034 .1 1000 '''.5 4.14 4.81 9.21E+OO 1.3QE+10 1.72E+02 2.665
18 7034.1 2400 14.1 3.77 4.37 SI.OOE+OO 1.60E+10 U4E+02 2.685
19 703S.79 1000 12.5 1.44 1.71 ,. 13E-t01 1.&1E+11 7.44E-t02 2.668
19 7035.79 2400 12.0 0.70 0.90 1.79E+01 5.44E+11 1.21 Eot03 2.668
20 7036.1 1000 12.8 2.16 2.54 1.02E+01 6.71E+10 4.S6E..o2 2.662
20 7036.1 2400 12.4 1.80 2.12 1.05E+01 9.05E+10 5.21E-+C2 2.862
21 7037.1 1000 14.9 8.14 9.18 ð.92E+OO 3.07E+09 8.01E+01 2.e!6
21 7037.1 2400 14.5 7.54 8.48 6.71E+OO 3.70E+09 8.99E..o1 2.658
22 7038.1 1000 13.1 2.15 2.61 1.27E+01 1.85E+10 1.27E+02 2.665
22 7038.1 2400 12.7 2.05 2.45 1.16E+01 3.08E+10 2.42E+02 2.665
23 7039.1 1000 14.1 3.58 4.28 1.12E+01 1.141;+10 1.31Eot02 2.714
23 7039.1 2400 13.7 3.14 3.74 1.09E+01 1.85E+10 1.!56E+02 2.714
24 7CWO.1 1000 14.1 4.27 4.99 9.4IE+OO 6.17E-+OO 8.5OEot01 2.696
24 7040.1 2400 13.7 3.87 4.50 9. 1 OE+OO I.02E+09 a.98E+01 2.696
25 7041.1 1000 12.5 0.958 1.24 1.8SE+01 1.31E+1' 3.06E+02 2.668
25 7041.1 2400 12.1 0.778 1.01 1 J57E..o1 2.DE+11 5.20E+02 2..
26 7042.1 1000 15.5 20.1 21.8 4.3OE+OO 8.62E..os S.57E..o1 2.665
26 7042.1 2400 15.1 18.9 20.5 4.13E+OO g.~+08 6.07E+01 2.665
27 7043.1 1000 12.0 1.13 1.41 1.57E+01 1.98E+11 7.08E+02 2.705
27 7043.1 2400 11.15 0.95 1.18 U9E+01 3.09E+11 9.38E+02 2.705
28 7044.1 1000 18.6 71.0 74.7 2.48E+OO 1.03E+08 2.:ME+01 2.693
28 7044.1 2400 18.1 68.2 71.6 2.43E+OO 1.10E+08 2.~E+01 2.03
29 7045.1 1000 13.8 2.94 3.52 1.15E+01 1.88E+10 1.78E+02 2.689
29 7045.1 2400 13.3 2.52 3.0 1.09E..o1 2.81E+10 2.28e+02 2.669
.
30 7048.1 1000 13.9 0.884 1.16 1.93E+01 1.48E+11 ".08E+02 2.877
30 7045.1 2400 13.4 0.717 0.93 1.SIOE..o1 2.4eE+11 S.&4E+02 2.677
31 7047.1 1000 12.4 0.706 0.948 2,17E+01 2.741:+11 8.2OEot02 2.676
Core ...borato.....
)
)
SUMMARY OF HORIZONTAL PLUG PERMEABILITY AND POROSITY MEASUREMENTS
Arco AIIIIkaI. Inc. File: DAL·99087
Fiord No.5
s.mple Depth Contlillng Poroeltr b Grain
I.D. ..... KInf te.lr '**r .. AlDha o.nstty
,. ... % IIId md - 1t-1 mlcr'oa am"ee
31 7047.1 2400 11.8 0.526 0.714 2.25E+01 S.87E+11 9.98E+02 2.676
32 7048.1 1000 14.0 1.56 1.98 1.63E+Ol 6.12£+10 3.03£ +02 2.674
32 7048.1 2400 13.5 1.30 1.64 1.57£+01 9.69£+10 4.06£+02 2.674
33 7049.1 1000 16.7 12.2 13.7 6.51E+OO 1.70E+09 6.Ø8E+01 2.669
33 7049.1 2400 16.3 11.3 12.6 8.22E+OO 2.02E+09 7.38E+01 2.689
34 7050.1 1000 13.8 1.94 2.32 1.18E+01 S.02E+10 3.09E+02 2.881
34 7050.1 2400 13.4 1.58 1.90 1.17E+01 8. 14E+10 4. 13E-+02 2.881
35 7051.1 1000 14.7 9.59 10.7 6.15E+OO 3.08E+08 9.53E..o1 2.664
35 7051.1 2400 14.3 8.94 9.91 5.e4E-tOO 3.70E.oi 1.06E-+02 2.664
36 7052.1 1000 15.6 18.0 19.5 ".25E+OO 8.55E+08 4.96Ei01 2.656
36 7052.1 2400 15.2 17.1 18.4 4.08E+OO 1.08E+08 5.9SE..o1 2.8S6
37 7053.1 1000 17.9 105. lIO. 2.OSE+OO 4.18E+07 1.42E+01 2.647
37 7053.1 2400 17.5 102. 107. 2.17E+OO 4.22E+07 1.39E+01 2.647
38 7054.1 1000 18.7 47.3 50.5 3.36E400 1.70E+08 2.59E+01 2.654
38 7054.1 2400 18.2 45.3 48.4 3.35E+OO 1.84E+08 2.69E+01 2.154
39 7055.1 1000 11.8 0.309 0.424 2.48E..o1 1.78E+12 1.70E+Q3 2.889
39 7055.1 2400 11.3 0.263 0.325 1.5GE+01 1.JOE.'3 1.08E+04 2.689
40 7056.1 1000 11.6 0.521 0.701 2.22E+01 4.06E+11 8.61E+02 2.659
40 7056. 1 2400 11.2 0.414 0.556 2.21E+01 7.32E+11 9.63E+02 2.659
41 7057.1 1000 11.8 0.457 0.621 2.32E+01 S.11E+t1 9.42E+02 2.683
41 7057.1 2400 11.4 0.327 0.448 2.3eE..o1 1.59E+12 1.65E+03 2.683
42 7058.1 1000 14.8 2.66 3.27 1.31E+01 1.22E+10 1.03E..o2 2.655
42 7058 .1 2400 14.3 2.33 2.85 1.~E+01 1.71E+10 1.28E+02 2.655
43 7059.1 1000 13.9 1.42 1.79 1.58E..o1 5.73E+10 2.58E+02 2.664
43 7059.1 2400 13.5 1.22 1.53 1.S3E..o1 8.23E+10 3.21E+02 2.864
44 7060.1 1000 14.1 4.21 4.93 9.56E+OO 8.86E+OG 1.20E+02 2~857
44 7060.1 2400 14.2 3.73 4.33 9. 1 OE-tOO 1.21E+10 1.45E+02 2.857
4S 7061.1 1000 13.7 1.14 1.47 1.75E+01 1.42E+11 5.13E..o2 2.860
4S 7061.1 2400 13.3 0.98 1.25 1.71E+01 2.11E+11 6.58E+02 2.860
46 7062.1 1000 13.5 0.626 0.845 2.23E+01 3.82E+11 7.10E+02 2.675
46 7082.1 2400 13.0 0.478 0.652 2.32E+01 7.27E+11 1.10E+03 2.675
47 7063.1 1000 13.8 0.845 1.11 1.97E+01 2.21E+11 5.98E+02 2.663
47 7083.1 2400 13.1 0.629 0.838 2.08E+01 4.1eE+11 8.47E+02 2.663
48 7064.1 1000 13.2 0.957 1.23 1.70E+01 1. 73E+11 5.22E+02 2.666
48 7064.1 2400 12.8 0.818 1.05 1.741:+01 2.44E+11 8.JgE+02 2..
49 7065.1 1000 14.5 4.63 5.29 7.03E+OO 6.79E+09 1.01E+02 2.662
49 7065.1 2400 14.1 4.28 4.87 7.88E+OO 8. 14E+08 1.12E+02 2.662
50 7068.1 1000 14.0 1.73 2.17 1.48E+01 4.17E+10 2.32E+02 2.657
50 7066.1 2400 13.6 1.49 1.85 1.45E+01 6.D2E+10 2.87E+02 2.657
51 7067.1 1000 14.9 2.69 3.30 1.31E+01 1.38E+10 1.18E+02 2.851
51 7067.1 2400 14.5 2.41 2.94 1.28E+01 1.8OE+10 1.401:+02 2.851
52 7068.1 1000 12.8 0.298 0.449 3.4OE+01 1.13E+12 1.0SE+œ 2.663
S2 7068.1 2400 12.1 0.244 0.341 2.88E+01 9.5E+12 7..oE+03 2.863
S3 7069.' 1000 12.0 0.310 O.~ 2.98Ei01 1.84E+12 1.57E+Q3 2.665
S3 7069.1 2400 11.6 0.303 0.375 1.56Ei01 1.37E+13 1.321:-+04 2.665
54 7070.1 1000 14.8 1.67 2.08 1.48E+01 4.78E+10 2.54E+02 2.65oC
54 7070.1 2400 14.4 1.34 1.69 1.53E+01 S.19E+10 3.53E+02 2.654
55 7071.1 1000 12.4 0.387 0.545 2.67E+01 8.541:+11 1.03E+03 2.664
55 7071.1 2400 11.9 0.278 0.395 2.7fSE+01 1.94E+12 1.71E..03 2.684
eo.... L.boratories
")
)
SUMMARY OF HORIZONTAL PLUG PERMEABILITY AND POROSITY MeASUREMENTS
Arco A..... Inc. File: DAL·99087
Fiord No. 5
Semple DtpIh ContInlng PoIWIty b Grain
I.D. ... Klnf KeIr fIIåDr Beta AlpIN¡ DenIItv
tøt psi % IIMI Md ... ..1 mlcrone am"cc
56 7072.1 1000 11.7 0.403 0.520 1.92E+01 9.0IE+11 1.14E+03 2.874
58 7072.1 2400 11.2 0.330 0.382 1.02E+01 1.01E+13 1.06E+04 2.674
57 7073.1 1000 11.8 0.185 0.275 3.39E..o1 4.47E+11 2.S6E+02 2.668
57 7073.1 2400 11.4 0.123 0.192 3.89E+01 1.491:+12 5.79E+02 2.669
58 7074.1 1000 11.3 0.149 0.229 3.72E+01 1.04E+12 4.78E+02 2.852
58 7074.1 2400 10.9 0.090 0.149 4.6OE+01 2.59E+12 7.34E+02 2.652
59 7075.1 1000 14.1 0.453 0.629 2.S2E+01 5.42E+11 7.85E.02 2.869
59 7075.1 2400 13.5 0.345 0.484 2.e3E+01 1.01E+12 1.12E..03 2.669
60 7076.1 1000 11.7 0.132 0.216 4.48E+01 1.38E+12 5.67E..o2 2.663
60 7076.1 2.QJ 11.1 0.070 0.126 S.57E+01 2.05E+12 4.S9E+02 2.863
61 7077.1 1000 11.6 0.354 0.424 1.31E+01 8.03E+12 9.05E+03 2.663
61 7077.1 20i00 11.0 0.142 0.209 3.15E..o1 2.43E+11 1.08E..o2 2.663
62 7078.1 1000 13.9 0.443 0.637 2.84E+01 4.04E+11 S.58E+02 2.662
62 7078.1 2400 13.4 0.330 0.483 3.Q1E+01 8.17E+11 8.53E+02 2.662
63 7079.1 1000 12.8 0.286 0.425 3.25E+01 9.41E+11 8.S9E..o2 2.661
63 7019.1 2400 12.1 0.186 0.286 3.59E+01 S.78E+11 3.47E+02 2.661
64 7080.1 1000 14.4 2.21 2.56 9.51E..oo 5.18E+10 3.63E+02 2.655
64 7080.1 20i00 14.0 2.02 2.34 9.18E+OO 8.10E+10 3.97E+02 2.655
65 7081.1 1000 12.5 0.149 0.226 3.65E+01 4.98E+11 2.3SEot02 2.669
65 7081.1 2400 12.0 0.070 0.122 S.13E+01 1.67E+12 3.øse..oZ 2.669
66 7082.1 1000 13.2 1.34 1.61 1.2SE+01 1.14E+11 4.89E+02 2.854
66 7082.1 2400 12.8 1.12 1.37 1.36E+01 8.28E+10 2.99E..02 2.654
Cote Laboratorl..
)
)
PERMEABILITY TO AIR VERSUS POROSITY
Fiord 5 Well
10??oo
10000
1000
100 II
-=-
, .
ø
.~ -'.
~
.
·Š 10 ..y
to:
<
.9
~
:s 1
~
Q)
a.
0.1 :1
0.01
.
0.001
0.0001
o
4
8
12 16
Porosity, percent
20
24
28
Arco Alaska, Inc.
File: DAL·99087
)
SECTION 4
VERTICAL PLUG DATA
)
Core Laboratories
)
)
SUMMARY OF VERTICAL PERMEABIUTY MEASUREMENTS
Arço AllSka, Inc. Fife: DAL-99087
Fiord No.5 Well
Sample Depth Conftnlng b Grain
I.D. Stress Kin' 1(atr factor Beta ... Density
feet psi met mcI psi ft·1 microns gms/cc
IV 7017.2 800 0.013 0,016 1.44E+01 5.86£+14 1. 88E+04 2.700
IV 7017.2 2400 0.0004 0.001 1.95E+02 4.00E+16 5.66E+04 2.700
2V 7019.2 800 0.010 0.021 1.00E+02 4.06E+14 1. 17E+04 2.657
2V 7019.2 2400 0.004 0.009 1. 16E+02 7.07E+14 8.22E +03 2.657
3V 7021.2 800 0.008 0.017 9.98E+01 2,19E+14 4,73E+03 2,667
3V 7021.2 2400 0.001 0,004 1.45E+02 4.00E+15 1.8BE+04 2.667
4V 7023.2 800 0.025 0.030 1.53E+01 2.00E+13 1. 25E+03 2.712
4V 7023.2 2400 0.001 0.004 1.48E+02 4,62E+15 2,00E+04 2.712
5V 7024.2 800 0.037 0.050 2.72E+01 2.11E+12 2. 18E+02 2.691
5V 7024.2 2400 0.007 0,010 3.07E+01 1.80E+14 4.18E+03 2.691
6V 7026.2 800 0.154 0.236 3.74£+01 1.30E+11 6.03E +01 2.647
6V 7026.2 2400 0.071 0.120 4.89E+01 3.40E+12 7.75E+02 2.647
7V 7027.2 800 1.66 2,00 1.22E+01 4.53E+10 2.40E+02 2.648
7V 7027.2 2400 1.41 1.66 1.05E+01 8.12E+10 3.70E+02 2.648
8V 7028.2 800 2.52 3.01 1.12E+01 3.05E+10 2.45E +02 2.644
8V 7028.2 2400 2.15 2,51 9.97E+00 4.48E+10 3.11E+02 2.644
9V 7029.2 800 4.75 5.39 7. 54E+oo 1.58E+10 2.39E+02 2.647
9V 7029,2 2400 4.14 4.63 6.73E+00 2.35E+ 10 3.14E+02 2647
10V 7030,2 BOO 0.384 0.539 2.66E+01 8,35E+11 9.92E+02 2.660
10V 7030.2 2400 0.247 0.351 2.79E+01 1.75£+12 1.39E+03 2.660
IIV 7031.2 800 0.918 1.13 1.43E+01 1.78E+11 5.19E+02 2,662
llV 7031.2 2400 0.735 0.887 1.29E+01 3.24E+11 7.70E+02 2.662
12V 7032.2 800 1.83 2.25 1.37E+01 1.04E+11 5.98E+02 2.644
12V 7032.2 2400 1.36 1.62 1.16E+01 2.49E+1l 1.09E +03 2.644
13V 7033,2 800 2.10 2.BO 1.95E+Ol 4.26E+10 2.77E+02 2.655
13V 7033.2 2400 1.31 1.73 1.92E+01 1.54E+11 6.46E+02 2.655
14V 7034.2 800 0.003 0.008 1.82E +02 9.82E+13 8.49E+02 2.799
14V 7034,2 2400 0.003 0.006 1.27E+02 6.04E+16 4.92£+05 2,799
15V 7035.89 800 0.142 0.202 2.96E+01 7.30E+ll 3.21E+02 2.677
15V 7035.89 2400 0.086 0.127 3.32E+01 1.79E+12 4.91E+02 2,677
16V 7036.2 800 0.533 0.702 2.04E+01 4.41E+1l 7.40E+02 2.664
16V 7036.2 2400 0.396 0.521 2.05E+01 7.13E+11 9. 11E+02 2.664
17V 7037.2 BOO 0.910 1.13 1.49E+01 1.02E+11 2.93E+02 2.650
17V 7037.2 2400 0.709 0.866 1.38E+Ol l.B7E+ll 4.26£+02 2.650
l8V 7038 2 800 0.077 0.128 4.86E+01 3.13E+12 7.33E+02 2.652
l8V 7038,2 2400 0.040 0.072 6.07E+01 4.53E+11 5.69E+01 2652
19V 7040.2 800 0.084 0.134 4,37E+01 5.50E+12 1.41 E +03 2.673
19V 7040.2 2400 0045 0.077 5.14E+01 1.42E+13 2.04E+03 2.673
Core Laboratories
)
)
SUMMARY OF VERTICAL PERMEABILITY MEASUREMENTS
Area Alaska, Inc. File: OAL-99087
Fiord No.5 Well
Sampae Depth Confining b Grain
I.D_ Stress Kinf Kair factor Beg Alpha Density
feet psi md md pst 11-1 microns gmsIcc
20V 7041.2 800 0.162 0.255 3.97E+Ol 8.22E+11 4.10E+02 2.663
20V 7041.2 2400 0.088 0.148 4.74E+01 3.70E+12 1.05E+03 2.663
21V 7042.2 800 2.90 3.50 1. 19E+01 2.37E+10 2.19E+02 2.663
21V 7042.2 2400 2.42 2.87 1.09E+01 3.90E+1O 3.05E+02 2.663
22V 7043.2 800 0.278 0.384 2.56E+01 9.75E+11 8. 39E+02 2.679
22V 7043.2 2400 0.171 0.243 2.86E +01 7.42E+11 4.09E+02 2.679
23V 7044.2 800 12.8 14.5 7.04E+00 2.32E+09 9.51E+01 2.674
23V 7044 .2 2400 11.3 12.7 6.53E+00 3.26E+09 1.19£+02 2.674
24V 7045.2 800 1.33 1.64 1.40E+01 6.18E+10 2.61E+02 2.665
24V 7045.2 2400 1.07 1.30 1.34E+01 1.05E+ll 3.63E+02 2.665
25V 7046.2 800 0.035 0.062 6.09E +01 7.33E+13 7.67E+03 2.695
25V 7046.2 2400 0.015 0.031 8.21E+Ol 6.46E+13 3.07E+03 2.695
26V 7047.2 800 0.118 0.181 3.83E+01 2.27E+12 8. 18E+02 2.675
26V 7047.2 2400 0.063 0104 4.69E+01 3.96E+12 8.00£+02 2.675
27V 7048.2 800 0.487 0.654 2.21£+01 2.61E+11 3.97E+02 2.678
27V 7048.2 2400 0.325 0.438 2.27E+Ol 7.82E+11 8.11£+02 2.678
28V 7049.2 800 8.00 9.09 7.45E+00 3.00E+09 7.71£+01 2.666
28V 7049.2 2400 7.36 8.32 7.05E+00 3. 59E+09 8.56E+01 2.666
29V 7050.29 800 0.073 0.115 425E+01 2.07E+13 4.51E+03 2.694
29V 7050.29 2400 0.029 0.053 6.01E+01 1.13E+14 1.03E+04 2.694
30V 7051.2 800 0.308 0.428 2.61E+01 1.05E+12 9.80E+02 2.657
30V 7051.2 2400 0.148 0.219 3.22E+Ol 2.37E+12 1.13E+03 2.657
31V 70S22 800 0.794 0.986 1.S2E+Ol 1.62E+l1 4.06E+02 2.659
31V 7052.2 2400 0.592 0.719 L34E+01 3.85E+11 7.31E+02 2.659
32V 7053.2 800 2.24 2.66 1. 12E+01 6.39E+10 4.55E+02 2.649
32V 7053.2 2400 1.88 2.21 1.03E+01 9.01E+I0 5.47E+02 2.649
33V 7054.29 800 0.363 0.476 2.05E+01 1.25£+12 1.40E+03 2.681
33V 7054.29 2400 0.220 0.302 2.46E+Ol 144E+12 1.02E+03 2.681
34V 7056.2 800 0.111 0.169 3.78E +01 1.18E+12 3.92E+02 2.656
34V 7056.2 2400 0.047 0.08 4.98E+Ol 7.71E+12 1. 17E+03 2.656
35V 7057.2 800 0.086 0.138 4.38£+01 6.49E+10 1.71E+01 2667
35V 7057.2 2400 0.045 0.077 5.25E+01 3.41E+12 4.91E+02 2.667
36V 7058.2 800 1.10 1.38 1.59E+01 6.67E+I0 2.33E+02 2.648
36V 7058.2 2400 0.910 1.13 I.46E+01 9.59E+10 2.82E +02 2.648
37V 7059.2 800 0.405 0.545 2.25£+01 6.78£+11 8.50E+02 2.654
37V 7059.2 2400 0.247 0.329 2.15E+Ol 2.90£+12 2.31 E +03 2.654
Core Labomories
-,... .,- ,."._,~., ,. -_.-...---
)
)
SUMMARY OF VERTICAL PERMEABILITY MEASUREMENTS
Arco Alaska, Inc. File: DAl-99087
Fiord No.5 Well
Þmple Depth Confining b Grain
I.D. Stress Klnf Kllr factor 8eta Alpha Density
feet psi met mea pal ft·1 micron. gmsfcc
3av 7060.2 800 0.231 0.324 2.73E+01 3.72E+ 12 2.65E+03 2.652
38V 7060.2 2400 0.137 0.206 3.38E + 01 2.54E+ 12 1.13E+03 2.652
39V 7061 .2 BOO 0.107 0.178 4.71E+01 9.19E+ 11 2.97E + 02 2.669
39V 7061.2 2400 0.045 0.09 7.05E+01 3.90E+ 12 5.54E+02 2.669
40V 7062.2 BOO 0.036 0.063 5.72E +01 4.77E+ 13 5.17E+03 2.674
40V 7062.2 2400 0.015 0.031 8.05E + 01 1.41 E + 1 3 6.67E+02 2.674
41V 7063.2 800 0.085 0.128 3.65E + 01 7.39E+12 1.88E +03 2.676
41V 7063.2 2400 0.031 0.053 5.11E+01 8.37E + 1 3 8.23E + 03 2.676
42V 7065.2 800 0.130 0.2 3.82E + 01 3.76E + 11 1.48E+02 2.655
42V 7065.2 2400 0.063 0.1 04 4.49E + 01 5.70E + 1 2 1. 16E + 03 2.655
43V 7066.2 800 0.227 0.32 2.80E+01 1.80E+11 1 .1 7E + 02 2.661
43V 7066.2 2400 0.058 0.1 4.85E+01 2.58E+13 4.82E + 03 2.661
44V 7067.2 800 0.084 0.13 3.96E+01 2.24E + 12 5.74E +02 2.663
44V 7067.2 2400 0.042 0.068 4.56E + 01 1.17E+13 1 .59E +03 2.663
45V 7068.2 800 0.157 0.24 3.72E+01 1.40E + 11 6.BOE + 01 2.651
45V 7068.2 2400 0.070 0.123 5.25E+01 1.41 E + 1 2 3.18E+02 2.651
46V 7069.2 800 0.103 0.161 4.05E+01 7.9OE + 1 2 2.50E + 03 2.655
46V 7069.2 2400 0.054 0.092 4.90E + 01 2.98E+13 5.15E+03 2.655
47V 7070.2 800 0.305 0.418 2.49E + 01 9.59E+ 1 1 8.82E + 02 2.658
47V 7070.2 2400 0.146 0.214 3.1 5E + 01 5.23E+1' 2.45E + 02 2.658
48V 7071.2 800 0.044 0.076 5.47E+01 4.82E+ 12 6.29E + 02 2.663
48V 7071.2 2400 0.016 0.032 7.71E+01 5.63E+13 2.B6E + 03 2.663
49V 7072.2 800 0.024 0.046 7.32E+01 2.72E+ 13 1.99E +03 2.863
49V 7072.2 2400 0.012 0.021 6.17E+01 1.09E+ 14 4.08E + 03 2.663
50V 7073.2 800 0.030 0.051 5.37E+01 1.28E+ 14 1.14E+04 2.673
50V 7073.2 2400 0.009 0.02 9.13E+01 8.84E+13 2.50E+03 2.673
51V 7074.2 800 0.107 0.188 3.98E + 01 6.74E+11 2.21 E +02 2.658
51V 7074.2 2400 0.056 0.093 4.76E+01 1.66E+ 12 2.94E + 02 2.656
52V 7075.2 800 0.108 0.163 3.61 E +01 , .41 E + 12 4.71E+02 2.684
52V 7075.2 2400 0.060 0.094 3.98E + 01 3.70E+ 12 7.1 1 E + 02 2.664
S3V 7076.2 800 0.068 0.126 6.32E+01 1.53E+ 13 3.19E+03 2.877
S3V 7076.2 2400 0.034 0.077 9.24£ + 01 1 .76E + 12 1.92E +02 2.877
54V 7077.2 800 0.018 0.037 8.74E+Ol 1 .05E + 1 3 5.73E+02 2.657
54V 7077.2 2400 0.010 0.017 5.96E + 01 7.DOE + 1 3 2.1 3E + 03 2.657
55V 7078.2 800 0.054 0.087 4.57E + 01 1.aDE + 13 2.52E+03 2.659
55V 7078.2 2400 0.016 0.031 7.51E+Ol 2.47E + 13 1.22E+03 2.659
eo... Laboratories
)
)
SUMMARY OF VERTICAL PERMEABIUTY MEASUREMENTS
Arco AIBsk., Inc. File: DAL-99087
Fiord NO.5 Well
Sample Depth Confining b Grain
I.D. Stress Klnf Kair factor Beta Alpha Density
feet psi md rod p" ft-1 microns gmsIçC
56V 7079.2 800 0.222 0.316 2.85E + 01 4.92E+ 12 3.38E +03 2.650
56V 7079.2 2400 0.123 0.196 4.06E + 01 2.33E+ 12 9.14E+02 2.650
57V 7080.2 800 0.040 0.068 5.41E+01 2.45E+13 2.92E + 03 2.663
57V 7080.2 2400 0.014 0.029 8.01E +01 5.06E+13 2.24E+03 2.663
S8V 7081.2 800 0.085 0.1 21 2.99E+01 3.07E+ 12 7.67E+02 2.677
58V 7081.2 2400 0.023 0.039 5.32E+01 1.61E+13 1 .1 5E + 03 2.677
59V 7082.2 800 0.136 0.221 4.46E + 01 1.71E+11 7.18E+01 2.655
59V 7082.2 2400 0.073 0.127 5.23E +01 3.49E + 1 2 8.10E+02 2.655
Core Laboratories
,."".,- ..-----.- .--....-..
)
Area Alaska, Inc.
File: DAL-99087
-
SECTION 5
GRAIN DENSITY
)
Core Laboratories
Arco Alaska, Inc. Grain Volume Data
Fiord No. 5 Well
Sample Dry Grain Grain
Sample Depth. Weight. Volume, Density, Length, Diameter,
Number feet 9m cc gm/cc em em
1 7016.1 87.766 32.307 2.717 3.254 3.780
2 701 7.1 108.171 39.747 2.721 4.071 3.780
3 7018.1 108.809 40.311 2.699 4.140 3.780
4 7019.1 101.507 38.2684 2.653 ·3.788 3.779
5 7021.1 99.217 36.8028 2.696 3.709 3.769
6 7022.375 104.012 38.332 2.713 3.901 3.780
7 7023.1 107.556 39.454 2.726 4.024 3.780
8 7024.1 104.459 38.498 2.713 3.896 3.780
9 7025.1 129.429 38.2637 3.383 3.584 3.785
10 7026.1 102.268 38.5936 2.650 3.963 3.784
11 7027.1 92.122 34.7612 2.650 3.752 3.783
12 7028.1 93.191 35.1863 2.649 3.813 3.778
13 7029.1 94.961 35.8476 2.649 3.765 3.779
14 7030.1 101.5 38.158 2.660 4.024 3.784
15 7031.1 98.929 37.2402 2.657 3.886 3.781
16 7032.1 103.352 38.0836 2.714 3.896 3.782
17 7033.1 96.678 36.4165 2.655 3.883 3.781
18 7034.1 93.512 35.0931 2.665 3.647 3.778
19 7035.79 99.875 37.4366 2.668 3.827 3.778
20 7036.1 100.666 37.8141 2.662 3.864 3.782
21 7037.1 89.914 33.8582 2.656 3.574 3.774
22 7038.1 95.505 35.8432 2.665 3.676 3.781
23 7039.1 100.276 36.9514 2.714 3.833 3.784
24 7040.1 98.849 36.6721 2.695 3.810 3.784
25 7041.1 98.469 36.9109 2.668 3.764 3.780
26 7042.1 89.342 33.5236 2.665 3.542 3.780
27 7043.1 98.254 36.3196 2.705 3.677 3.780
28 7044.1 90.873 33.748 2.693 3.690 3.783
29 7045.1 95.279 35.3953 2.692 3.872 3.783
30 7046.1 102.364 38.3557 2.669 3.976 3.779
31 7047.1 101.011 37.7306 2.671 3.908 3.780
32 7048.1 104.043 38.8791 2.676 3.976 3.782
33 7049.1 95.226 35.6771 2.669 3.829 3.782
34 7050.1 95.712 35.6961 2.681 3.695 3.781
35 7051.1 98.575 37.0052 2.664 3.871 3.781
36 7052.1 95.697 36.0325 2.656 3.808 3.782
37 7053.1 90.067 34.0224 2.647 3.690 3.782
38 7054.1 90.221 33.9998 2.654 3.721 3.780
39 7055.1 102.283 38.0449 2.688 3.851 3.784
40 7056.1 98.517 37.0451 2.659 3.743 3.779
41 7057.1 101.924 37.9963 2.682 3.846 3.781
42 7058.1 98.015 36.9196 2.655 3.860 3.785
43 7059.1 98.089 36.8156 2.664 3.815 3.782
44 7060.1 99.263 37.3594 2.657 3.937 3.789
45 7061.1 96.653 36.3336 2.660 3.758 3.777
Core Laboratories
)
J
Core Laboratories
Area Alaska, Inc. Grain Volume Data
Fiord No.5 Well
Sample Dry Grain Grain
Sample Depth . Weight, Volume, Density , Length, Diameter,
Number feet gm CC gm/cc em em
46 7062.1 94.664 35.3903 2.675 3.646 3.780
47 7063.1 100.087 37.5906 2.663 3.901 3.783
48 7064.1 94.336 35.3839 2.666 3.637 3.778
49 7065.1 94.727 35.5858 2.662 3.706 3.781
50 7066.1 100.202 37.7191 2.657 3.935 3.788
51 7067.1 93.892 35.4217 2.651 3.705 3.778
52 7068.1 97.005 36.4225 2.663 3.712 3.776
53 7069.1 97.892 36.7265 2.665 3.724 3.777
54 7070.1 96.543 36.3824 2.654 3.807 3.780
55 7071.1 100.815 37.8429 2.664 3.847 3.782
56 7072.1 101.55 37.9759 2.674 3.834 3.780
57 7073.1 96.15 36.0277 2.669 3.635 3.780
58 7074.1 98.589 37.1698 2.652 3.729 3.778
59 7075.1 100.584 37.6929 2.669 3.922 3.785
60 7076.1 101.812 38.2373 2.663 3.887 3.779
61 7077.1 102.725 38.5812 2.663 3.951 3.788
62 7078.1 99.611 37.4185 2.662 3.879 3.784
63 7079.1 99.961 37.5723 2.660 3.877 3.786
64 7080.1 95.644 36.0288 2.655 3.752 3.778
65 7081.1 100.462 37.6351 2.669 3.874 3.781
66 7082.1 100.831 37.9885 2.654 3.939 3.784
)
)
Area Alaska, Inc. File: DAL-99087
Fiord No. 5 Well Dean Stark Extraction Data
Sample Penneability Water Oil Total Pore Grain Dry Grain
Sample Depth, to Air, Porosity, Saturation, Saturation, Saturation, Volume, Volume, Weight, Density,
Number feet mlllidarcys percent percent PV percent PV percent PV cc cc grams amlcc
-'
1 7016.10 3.54 11.5 93.1 3.3 96.4 4.210 32.307 87.766 2.717
2 7017.10 3.08 13.0 81.0 9.8 90.8 5.939 39.747 108.171 2.721
3 7018.10 1.56 13.2 75.9 5.1 81.0 6.148 40.311 108.809 2.699
4 7019.10 0.0589 10.0 75.7 18.8 94.5 4.232 38.268 101.507 2.653
5 7021.10 0.104 9.7 89.0 6.9 95.8 3.964 36.803 99.217 2.696
6 7022.38 2.08 12.4 87.5 4.5 91.9 5.445 38.332 104.012 2.113
7 7023.10 3.12 12.6 81.9 7.0 88.9 5.704 39.454 107.556 2.726
8 7024.10 2.56 11.9 88.7 10.2 98.9 5.223 38.498 104.459 2.713
9 7025.10 0.0047 5.9 45.3 43.5 88.9 2.412 38.264 129.429 3.383
10 7026.10 1.14 13.0 45.5 37.0 82.5 5.792 38.594 102.268 2.650
11 7027.10 47.2 17.1 31.3 43.4 74.8 7.194 34.761 92.122 2.850
12 7028.10 70.4 17.5 27.1 51.3 78.5 7.459 35.186 93.191 2.649
13 7029.10 8.54 15.0 36.5 43.1 79.6 6.306 35.848 94.961 2.649
14 7030.10 11.2 15.4 33.2 48.4 81.6 6.947 38.158 101.500 2.660
15 7031.10 5.76 14.3 35.9 48.3 84.2 6.198 37.240 98.929 2.657
16 7032.10 1.01 12.7 45.9 43.7 89.6 5.547 38.084 103.352 2.714 .~
17 7033.10 17.1 16.1 32.4 51.2 83.7 7.008 36.417 96.678 2.655
18 7034.10 4.81 14.5 31.4 46.4 77.8 5.961 35.093 93.512 2.665
19 7035.79 1.71 12.5 45.2 43.8 89.0 5.358 37.437 99.875 2.668
20 7036.10 2.54 12.8 42.7 44.8 87.5 5.546 37.814 100.686 2.662
21 7037.10 9.18 14.9 34.4 64.1 98.5 5.935 33.858 89.914 2.656
22 7038.10 2.61 13.1 38.3 43.9 82.2 5.390 35.843 95.505 2.665
23 7039.10 4.28 14.1 31.5 51.3 82.7 6.058 36.951 100.276 2.714
24 7040.10 4.99 14.1 37.4 44.9 82.3 6.006 36.672 98.849 2.695
Core Laboratorleu, Inc.
Area Alaska, Inc. File: DAL-99087
Fiord No. 5 Well Dean Stark Extraction Data
Sample Permeability Water Oil Total Pore Grain Dry Grain
Sample Depth, to Air, Porosity, Saturation, Saturation, Saturation, Volume, Volume, Weight, Density,
Number feet millldarcys percent percent PV percent PV percent ~ cc cc Qrams gmlcc
---
25 7041.10 1.24 12.5 45.7 38.4 84.2 5.268 38.911 98.469 2.668
26 7042.10 21.8 15.5 34.1 45.2 79.3 6.148 33.524 89.342 2.665
27 7043.10 1.41 12.0 42.4 40.9 83.3 4.962 36.320 98.254 2.105
28 7044.10 74.7 18.6 30.2 46.6 76.8 7.720 33.748 90.873 2.693
29 7045.10 71.99 '·5"2 .J.&a U' f' 31.6 29.3 60.9 7.938 35.395 95.279 2.692
30 7046.10 -3-.S2 / I? --}-3-;+ I!. i 43.2 41.6 84.8 6.114 38.356 102.384 2.669
31 7047.10 -1..l5S I) -1", ..r 1-3.8.. ,':. '-; 36.8 34.8 71.6 6.064 37.731 101.011 2.671
32 7048.10 -0.95 /. 1r -1-2.4 I ' 43.9 64.9 108.8 5.494 38.879 104.043 2.676
33 7049.10 13.7 16.7 p" 30.7 52.7 83.4 7.158 35.677 95.228 2.669
34 7050.10 2.32 - 13.8·' 38.2 44.8 83.0 5.718 35.696 95.712 2.681
35 7051.10 10.7 ~- 14.6 29.6 51.4 81.0 6.349 37.005 98.575 2.664
36 7052.10 19.5 15.6 31.2 50.5 81.7 6.681 36.033 95.897 2.856
37 7053.10 110. 17.8 27.8 43.7 71.5 7.392 34.022 90.067 2.647
38 7054.10 50.5 18.7 16.2 56.2 72.5 7.818 34.000 90.221 2.654
39 7055.10 0.424 11.8 52.4 36.3 88.7 5.073 38.045 102.283 2.688
40 7056.10 0.701 11.6 63.4 20.2 83.6 4.875 37.045 98.517 2.659
41 7057.10 0.621 11.8 60.5 27.5 88.0 5.094 37.996 101.924 2.682 ---
42 7058.10 3.27 14.8 33.8 48.3 82.1 6.403 36.920 98.015 2.655
43 7059.10 1.79 13.9 43.0 42.8 85.8 5.947 36.816 98.089 2.664
44 7060.10 4.93 14.7 39.6 43.5 83.1 6.481 37.359 99.263 2.657
45 7061.10 1.47 13.7 48.2 31.3 79.5 5.753 36.334 96.653 2.660
46 7062.10 0.845 13.5 45.8 39.7 85.5 5.500 35.390 94.664 2.675
47 7063.10 1.11 13.6 42.0 42.7 84.7 5.913 37.591 100.087 2.663
48 7064.10 1.23 13.2 38.1 44.7 82.8 5.373 35.384 94.336 2.666
49 7065.10 5.29 14.5 36.0 45.2 81.2 6.031 35.586 94.727 2.662
Core Laboratoriess, Inc.
Arco Alaska, Inc. File: DAL-99087
Fiord No.5 Well Dean Stark Extraction Data
Sample Permeability Water Oil Total Pore Grain Dry Grain
Sample Depth, to Air, Porosity, Saturation, Saturation, Saturation. Volume, Volume, Weight. Density ,
Number feet millidarcys percent percentPV percent PV percent PV cc cc grams Qm/cc
-~.,;
50 7066.10 2.17 14.0 35.6 46.5 82.1 6.163 37.719 100.202 2.657
51 7067.10 3.30 14.9 37.4 41.7 79.1 6.223 35.422 93.892 2.651
52 7068.10 0.449 12.6 45.3 40.9 86.2 5.232 36.423 97.005 2.663
53 7069.10 0.448 12.0 43.9 48.2 92.0 5.010 36.727 97.892 2.665
54 7070.10 2.08 14.8 40.0 43.0 83.0 6.338 36.382 96.543 2.654
55 7071.10 0.545 12.4 50.2 35.2 85.4 5.339 37.843 100.815 2.664
58 7072.10 0.520 11.7 49.7 50.0 99.7 5.025 37.976 101.550 2.674
57 7073.10 0.275 11.8 51.4 35.9 87.3 4.817 36.028 96.150 2.669
58 7074.10 0.229 11.3 49.3 36.5 85.9 4.752 37.170 98.589 2.652
59 7075.10 0.629 14.1 44.1 36.7 80.8 6.209 37.693 100.584 2.669
60 7076.10 0.216 11.7 59.4 32.1 91.6 5.053 38.237 101.812 2.663
61 7077.10 0.424 11.6 54.4 38.4 92.7 5.046 38.581 102.725 2.663
62 7078.10 0.637 13.9 41.2 38.7 80.0 6.034 37.419 99.611 2.662
63 7079.10 0.425 12.7 45.7 51.2 96.9 5.490 37.572 99.961 2.660
64 7080.10 2.56 14.4 38A8 53.1 91.9 6.071 36.029 95.644 2.655
65 7081.10 0.226 12.5 51.7 45.6 97.3 5.380 37.635 100.462 2.669
~~F
66 7082.10 1.61 13.2 39.5 36.2 75.7 5.767 37.989 100.831 2.654
Core Laboratoriess, Inc.
199-020-0 FIORD
Roll #1: Start: Stop Roll #2:
MD 07.4_9_.0__ TVD 0_7_40_0__ Completion Date:
5 50- 103-20292-00 ARCO ALASKA INC
Start Stop
4_/_2_3_/__9_9 Completed Status: ._p&~ ...... Current:
T Name Interval Sent Received
c 9235 L// I SCHLUM PEX-CMR OH 5/21/99 5/25/99
/
C 9236 J I SCHLUM PEX-CMR/DSI PBI OH 5/21/99 5/25/99
D 9202/-''~ 1-7 SPERRY MPT/GK/ERW4 OH 5/25/99 5/25/99
D 9203~-'"'
L CMR
L CMR
L CMR-POROSITY
L CMR-POROSITY
!-4 SPERRY 64-7353 PB1 OH
~---FINAL 1980-7396 PBI OH 5
~,,,'~AL 4445-7159 OH
~q"~AL BL(C) 6850-7160 ,2,h ~, ~.;q- }-~,,~t OH 5
,.,,FINAL BL(C) 6850-7160 ,~,k~ t. ~'~i'~ ~';~.{. OH 2
L CMR-POROSITY ~'~INAL BL(C) 6850-7160 q,o -~. ~e~,'~ ~'~'.v,.~OH 6
L CMTVOL ~'~AL 4445-7415 CH 2
L DEPTHDETERM ~L 6250-6450 CH 5
L DGR/EWR4-MD ~.~AL 109-7410 PBI OH5/25/99 5/25/99
L DGR/EWR4-MD ~2FoclxFAL 109-7490s-,'''~ OH 5/25/99 5/25/99
~--DC~.4E-W.I~4-1~D ....... F, tN,A-L, ,--1~09,,.74.9~1 ............ !~.~.{~(7, !~;,,-,~,~;:~:"5":~'C~ ........... 01¢ 5725/99 ................. 57ZY/9'9
4/29/99 5/25/99
5/25/99 5/25/99
5/25/99 5/25/99
5/25/99 5/25/99
5/25/99 5/25/99
5/25/99 5/25/99
5/25/99 5/25/99
5/25/99 5/25/99
L DGR/EWR4-TVD L-F4N'AL 108-7399 ~ OH 5/25/99 5/25/99
L DGR/EWR4-TYD &.,FI~L 108-7334 PB1 OH 5/25/99 5/25/99
,
L DSS1 ~ 1980-7396 PBI OH 5/25/99 5/25/99
L IBP/TBNGPUNCH j3kL 200-450 CH 5 5/25/99 5/25/99
L MUD~...-/~ {~,~I.NAL EPOCH 108-7410 PBI OH 2 5/25/99 5/25/99
L MUD ~' LI3~N'AL EPOCH 5651-7490 ~-~'~.~ ~ OH 2 5/25/99 5/25/99
L PACKER SET L/FINAL 6520-6802 CH 5 5/25/99 5/25/99
L PERF i~NA"L 6832-7100 4/4/99 CH 5 5/25/99 5/25/99
L PERF ~l~)kL 6930-7075 4/17/99 CH 5 5/25/99 5/25/99
L PEX-3DD/CN ~I;~I~AL 4445-7415 OH 5/25/99 5/25/99
L PEX-AIT ~tzI~qAL 1980-7396 PBI OH 5/25/99 5/25/99
L PE×-AIT ~I~AL 4445-7415 OH 5/25/99 5/25/99
L PEX-MCFL /.f,4~A.~L 4445-7415 OH 5/25/99 5/25/99
L PEX-TLD DT/CN ~"~AL 1980-7396 PB1 OH 5/25/99 5/25/99
_.
L PROD-PSP ~~ 6930-7115 4/18/99 CH 5 5/25/99 5/25/99
L PROD-PSP ~...FINAL 6930-7112 4/19/9_.___.9 CH 5 5/25/99 5/25/99
T/C/D
Wednesday, March 28, 2001 Page I of 2
L RFT ~AL 1980-7220 PB1
._
R SRVY CALC BHI 0-7410.
R SRVYCALC BHI 5520.11-7490. PBI
OH
OH
CH
CH
OH
OH
5/25/99
5/25/99
5/25/99
5/25/99
5/24/99
5/24/99
5/25/99
5/25/99
5/25/99
5/25/99
5/25/99
5/25/99
Wednesday, March 28, 2001 Page 2 of 2
199-021-0 KUPARUK RIV U TARN 2N-309 50- 103-20293-00 PHILLIPS ALASKA INC
Roll #1: Start: Stop Roll #2: Start . /~op
MD 08075 ~-~VD 05597 Completion Date: _ Completed Status: .I_-_gI__L.__ Current:
T Name Interval Sent Received T/C/I)
D 9265 ~ 3 SPERRY MPT/GR/EWR4/CNP/SLD
L DGR/CNP/SLD-MD J~INAL 2575-8075
L DGR/CNP/SLD-TVD t~FI~AL 2309-5597
L DGR/EWR4-MD/'~"~FINAL 2575-8075
L DGR/EWR4-TVDJ'FINAL 2309-5597
·
R SRVY RPT/~ ' SPERRY 0-8075
OH 7/29/99 7/29/99
OH 8/12/99 8/12/99
OH 8/12/99 8/12/99
OH 8/12/99 8/12/99
OH 8/12/99 8/12/99
OH 3/22/99 3/26/99
Wednesday, March 28, 2001 Page 1 of 1
ARCO Alaska, Inc.
Post Office Box 100360
Anchorage, Alaska 99510-0360
Telephone 907 276 1215
May 21, 1999
Mr. Robert N. Christenson
Commissioner
State of Alaska
Alaska Oil 8,: Gas Conservation Commission
3001 Porcupine Drive
Anchorage, Alaska 99501
Subject: Fiord #5 (Permit No. 99-020) Well Completion Report
Dear Mr..Commissioner:
ARCO Alaska, Inc., as operator of the exploration well Fiord #5, submits the enclosed o'..2t.
"Well Completion Report" (form 407). Other attachments to the comp__letion. .... report,, ,-
include the directional survey, report of daily well operations, ~,~re description,_~,
and Testing Results Presentation. Also included is one blueline, sepia and digital versi°n-~'~-"~as~.
of the following logs: PEX-CMR Array Induction Neutron/Density, Perforating Record, ~
Temperature Survey, Production Profile, Ultrasonic Imaging Tool, Bridge Plug & Tubing
Punch Record, Packer Set Record, Platform Express Array Induction, Depth
Determination, Combinable Magnetic Resonance Log, Platform Express Compensated
Neutron, Platform Express Micro Cylindrically Focused Log, Cement Volume Log,
Dipole Shear Sonic Imaging Tool, RFT, Platform Express TLD Density Compensated
Neutron, Sidewall Core Summary, Platform Express Array Induction Log, and
ROP/DGRJEWR4 . ~ ~ ~~ · / , ,~ . ,,. --/ , ~
The Commission is requested to keep ~6nfiderit-hl the enclosed information due to the exploratory
nature of the well.
If you have any questions regarding this matter, contact me at 263-4603.
Sincerely,
P. Mazzolini
Exploration/Tarn/Tabasco Team Leader
AAI Drilling
ALASKA OIL AND GAS CONSERVATION COMMISSION
WELL COMPLETION OR RECOMPLETION REPOR
1. Status of well
Oil [] Gas [] Suspended [] Abandoned [] Service []
2. Name of Operator 7. Permit Number
ARCQ Alaska, Inc. 99-020
3. Address 8. APl Number
P. O. Box 100360, Anchorage, AK 99510-0360 50-103-20292
4. Location of well at surface '.'. .'
739' FNL, 437' FEL, Sec. 32, T13N, REE, UM
At Top Producing Interval _---.--,.t~,~,,'-f -,.-,. ~,
353' FNL, 177' FWL, Sec. 33, T13N, REE, UM ; ~,,,~.
At Total Depth .- ............
353' FNL, 177' FWL, Sec. 33, T13N, REE, UM
5. Elevation in feet (indicate KB, DF, etc.) J6. Lease Designation and Serial No.
:~KB 28', Pad 6.. feet J ADL 364471 ALK 4480
2. Date Spudded 13. Date T.D. Reached J14. Date Comp., Susp. Or Aband.
March 14, 1999 March 31, 1999 J April 23,1999
17. Total Depth (MD + TVD) 18. Plug Back Depth (MD + TVD) J19. Directional Survey
7490'MD/7400'TVD surface JYES [] No []
22. Type Electric or Other Logs Run
LWD GR/Resistivity plus SWS Platform Express/CMR, Dipole Sonic, RFT's, Sidewall Cores
9. Unit or Lease Name
N/A
10. Well Number
FIORD #5
11. Field and Pool
Colville River Unit
J15. Water Depth, if offshore
N/A feet MSL
J20. Depth where SSSV set
N/A feet MD
J16. No. of Completions
1
21. Thickness of Permafrost
1250' MD
23.
CASING SIZE WT. PER FT.
16" 62.5#
CASING, LINER AND CEMENTING RECORD
SETTING DEPTH MD
GRADE TOP BOTTOM HOLE SIZE CEMENTING RECORD AMOUNT PULLED
H-40 Surface 112' 24" 9 cu yds High Early
L-80 Surface 1981' 12-1/4" 480 sx AS3 plus 230 sx Cl G
L-80 Surface 7484' 8-1/2" 400 sx 13.0 ppg CIG plus 245 sx 15.8 ppg CIG
25.
9.625"
7"
40#
26#
24. Perforations open to Production (MD + TVD of Top and Bottom and
interval, size and number)
Wellbore has been P&A'd
Nechelik Interval w/4-1/2" 5 spf
7024' to 7044' M D (6934' to 6954' TVD)
7044' to 7064' MD (6954' to 6974' TVD)
Kuparuk Intewal w/2-1/8" Enerjets @ 4 spf
6880' to 6900' MD (6790' to 6800' TVD)
27.
SIZE
26.
TUBING RECORD
I DEPTH SET (MD) PACKER SET
(MD)
3-1/2" 9.3# 8 rd EUE 6830' MD TT 6713' MD
I
ACID, FRACTURE, CEMENT SQUEEZE, ETC.
DEPTH INTERVAL (MD)
7024' to 7064' MD
AMOUNT & KIND OF MATERIAL USED
248,000 lbs 16/20 ISP Prol~pant
PRODUCTION TEST
/'~1'~11 ~1 kl ^ I
U i 11 Lg I L.
Date First Production
April 11,1999
Method of Operation (Flowing, gas lift, etc.)
Without lift and with nitrogen lift from annulus. First test with Nechelik only, second test with Nechelik & Kuparuk
Date of Test J Hours Tested Production for
4/11-4/20 J 65.5 hrs & 65 hrs Test Period >
Flow Tubing JCasing Pressure Calculated
80 to 540 J400 to 870 24-Hour Rate >
28.
OIL-BBL GAS-MCF WATER-BBL IOHOKE SIZE IgAS-Oil RATIO
10,053 4657 561 1128 (open) I 463
OIL-BBL GAS-MCF WATER-BBL lOlL GRAVITY - APl (corr)
1227/2475 551/1165 166/40 130.5 deg APl
CORE DATA
Brief description of lithology, porosity, fractures, apparent dips and pressence of oil, gas or water. Submit core chips.
See Attachment
Form 10-407 Rev. 7-1-80 CONTINUED ON REVERSE SIDE Submit in duplicate
GEOLOGIC MARKERS FORMATION TESTS
NAME Include interval tested, pressure data. all fluids recovered and gravity.
MEAS. DEPTH TRUE VERT. DEPTH GOR. and time of each phase.
See Attachments
31. LIST OF ATTACHMENTS
32. I hereby certify that the following is true and correct to the best of my knowledge.
Signed '?~ ~/~¢.,,1~~ Title Drilling Team Leader Date ~4/,q
' 41
Paul Mazzoi~i
INSTRUCTIONS
Prepared by Sharon AIIsup-Drake
General: This form is designed for submitting a complete and correct well completion report and Icg on all types of lands and
leases in Alaska.
Item 1' Classification of Service wells: Gas injection, water injection, steam injection, air injection, salt water disposal, water
supply for injection, observation, injection for in-situ combustion.
Item 5: Indicate which elevation is used as reference (where not otherwise shown) for depth measurements given in other
spaces on this form and in any attachments.
Item 16 and 24: If this well is completed for separate production from more than one interval (multiple completion), so state in
item 16, and in item 24 show the producing intervals for 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 cementing and the location
of the cementing tool.
Item 27: Method of Operation: Flowing, Gas Lift, Rod Pump, Hydraulic Pump, Submersible, Water Injection, Gas Injection,
Shut-in, Other-explain.
Item 28: If no cores taken, indicate "none". il ::~. i:.. ~ ..... 'i .... :. '~.' I; .....
Fiord #5
Testing Results
Discovery Well
4ih 4/99
Fiord #5
Testing Results
I~~ "& L u L ~ ~ ~L -~L 'L L I.
Production Testing Objectives
Conduct a Safe and Environmentally Excellent Testing Operation
Determine Productivity of Nechelik with a Large Hydraulic Fracture
Treatment'
Obtain Quality Pressure
Parameters
Transient Data to Quantify Reservoir
Determine Dual. Zone Flow Rates and Splits to Determine if Nechelik
can Compete with Kupamk in the Same Wellbore
ajb 4/99
Fiord #5
Testing Results
Nechelik Post Fracture Rate Estimating
Stimplan, Well Productivity Spreadsheet and Darcy's Law
Permeability Estimated to be 3 to 5 mD
50' Net Pay, 12% Porosity, 3,150 PSI Reservoir Pressure, 30°API Oil
Assumed a ~200' Hydraulic FraCture with 10,000 mD-ft ConduCtivity
ajb 4/99
Post Fracture Nechelik Rate Prediction
1,550
1,600_r////~
"
1,400--i~/~'''×'~'.
1,200-[/"~
1,000 -,
800-
1,000
600--
/
20~
, .. .
· .
· .
· ,..:; .:'.,.. .. ',..
...
..'..:.' ~. ~. ..
... .
· ...
~..."..'.. .%: .....
·
· ·
... ..' ..
·
..
· .. .
..
· · ......
.. .
· .
·
· , · ,
., ~...,'..': 1'... ..
1,450
.......... 1,400 .............. ~
..
Darcy's Law
Stimplan
Well Productivity.
Spreadsheet
Actual Nechelik
Rate
Fiord :/¢5
Testing Results
& LuL~g ~_-~L'I.L~.
Rock Properties- Log Calculations
Rock Properties are Critical for Hydraulic Fracturing Design
Log Derived Young
Stress
's Modulus, Poisson'
s Ratio and Minimum Horizontal
Stress Contrast Between Sand and Shale Determines Fracture Height
Growth and Geometry
Rico Ramos provided Quick Turnaround on stress Calculations
ajb 4/99
Fiord #5
Testing Results
L~ w' ~-e ~(.'
~ LdL[~ ~L'~L'L~
Fracturing Treatment Design
Objective was to Place a Large Fracture (Kupamk A Sand or Tam
Equivalent) in the Nechelik without Growing into the Overlying Kupamk
Interval
Did Not Want an Overly Aggressive Tip Screen Out Design- Just Wanted
to Get the Job in the Ground
Used 40 lb Borate Gel, 16/20 ISP Proppant and Pumped the
BPM
Job at 20
Used Lower Leak-Off COefficient than Tam or Kupamk Due to Lower
'Permeability
,
Expected 300 to 500 PSI Net Pressure During the Job
ajb 4/99
Frac Job Test - Schedule
· Blessed
Stage
1~1 o.oo
0.00 !
Fluid Type
Proppant Type
o.o I o.o I o.o -~.$ -~.$I ,~. .,~1
~
0.0
0.0
A~e~) 0.0 -1.0 -1.0
#5
10
6
80 90 1 O0 110
Time (min)
25 6500
2O
15
6000 ~
5500 rn
10 5000
Pf
20~
1(
o--
Frac Job l'est - Nolte-:smltrl
Enter Well N, ame Here , ",
,=
,.
ClOD
0 0 0~!00°
On
.O 00ot3o []
0o
O
:] [] ,
2.0 5.0 10 20 50 100 200 50
dt
,
,
500
200
100
50
'Slope 1 0.000 .
Slope 2 0.000 .
Fiord #5
Testing Results
& [._.tZLT_g ~L-~L'LLT_
Completion and Perforating Strategy
3-1/2" Tubing with 2 GLM's Above and Below Packer
Excellent Primary Cement Job
Perforated the Top 40
5 SPF, 72° Phasing, 0
' of the Nechelik with 4-1/2" Casing Guns -
.46" EH
180° Phasing Not Required as the Well is Vertical
After Perforating, Pumped a Seawater Injectivity
to Attempt to Determine Pre-Frac Permeability
Test Up to 2
.5 BPM
No .Attempt Made to F1°w the Well Unstimulated
ajb 4/99
Fiord #5
Testing Results
Fracturing Treatment Execution
Pumped Initial 200 Bbl Break-Down at 25 BPM and Determined There
were no Near Wellbore Pressure Losses and 200 PSI Perforation
Friction- Expected Outcome in a Vertical Well
Pumped 400 Bbl X-Linked Gel Data Frac at 20 BPM and Determined
that the Fracture Closure Time and Leak-Off Coefficient were Much
Different than Expected - Indicating Better Permeability
Increased the Pad Size from 500 to 700 Bbls Due to Data Frac
Interpretation
Pumped Main Treatment at 2,0 BPM with Treating Pressure of.3,000
PSI During the Pad
ajb 4/99
Fiord #5
Testing Results
L u L t g ~L -~ L
Tip Screen-Out Pressure Response Began when the 6 PPG Stage
Reached the Perforations
Continued in Tip Screen-Out Mode for the Final 30 Minutes of the
Treatment
Built Approximately 1,200 PSI of'Net Pressure During the Treatment-
More Aggressive than Originally Designed
Flushed Treatment to Completion and Placed 248,000 lbs Proppant in
the Formation
Performed 7 Bbls of Forced Closure to Insure the Fracture ClOsed on
the Proppant
ajb 4/99
Frac Job Test -Recap
Fi(
" '"' ~,n ' ,m Rn 80 100 . 120 .
10
8
6
4
Time (min) "
25
2O
15
6500
6000
5500
10 5000
5 4500
Fiord 5 Mechanical Properties
- - - GR gAPI
· Vertical Stress psi
Min. Horzl. Stress
.,.,.,Pore pressure psi
0.13
o.o, ,
'°'°-I
;0.0
o.o,O.O ,
io.O
55
50
4(
'350
300.
250.
1'
1
0 0
0
0
0
0 0 0
Depth, ft MD
O O
O ¸ O
7500
7OOO
65OO
6OOO
550O
5000
4500
400'0
3500,
3000'
25OO
Fiord #5
Testing Results
Initial Nechelik Flow Test
Performed a Coiled Tubing Clean-Out 12 Hours Post-Frac
Opened Well to Production at 1 AM on April 1 l th
Began Seeing Oil Flow after Bottoms Up
Initial Rate was 1,600 BFPD, Final Stabilized Rate was 1,400 BOPD
at 400 SCF/STB GOR
Water Cut Decreased to Less than 10% in 24 Hours, APl Gravity
Approximately 29° .
,
FlOwed.the Well for 65.5 Hours and Shut-In for 60 Hour PBU
ajb 4/99
Fiord #5 Nechelik OnlY
3000'
2500
2000
500
o. 000
0
500
0
o,oo
~6 Hour Avg Oil Rate
-- - 1/2 Hour Strap Oil
- . Wellhead Pressure t ~ '
- .- - 1/2 Hour Strap Whp
...... ~ ...... Annulus Pressure
'I
"
...._ '"'"'
~ ~ I' . ' '],! I'
I I I I I I i I I I I I I I '1 I I ~1 II I I I I I I I I I I , I I I 'f I I I I IM Itel I I I I I I I I I I I I I I
, I I I _ I ......
10,00 20.00 30.00 ' 40.00 50.00 60.00 70.00
'ElaPsed Time, hrs
Fiord #5
Testing Results
Dual Zone Flow Test
Prior to Perforating the Kupamk Interval, a Cold Seawater Pump-In
Temperature Survey was Performed- Results were Inconclusive but
did not Indicate Fracture Growth into the Kupamk
Underbalance Perforated the Entire 15' C.Sand Interval at. 3 PM on
April 17th
Opened the Well to Production and Saw an Immediate Production
Rate Increase- Initial Rate was 2,200 BOPD at 400 PSI Wellhead
Pressure
Decreased Wellhead Pressure Below 200 PSI and Rate Increased to
Over 3,000 BOPD and Stabilized at 2,500 BOPD at 500 SCF/STB
GOR -API Gravity Increased to 30.5°
ajb 4/99
m
4000 -
3500 -
3000
2500
2000
1500
1000
500
Fiord #5 Nechelik and Kuparuk
IRate
,g-Pfod-l:ogging-b
---'-6 HoUr Avg Oil Rate
::,::. Total Fluid Rate
,.:,. Meter Oil Rate
1/2 Hour Strap Oil
Wellhead Pressure
1/2 Hour Strap WHP
,
10'.00
20.0'0
30.00 40.00 50.00
60.00
70.00
ElaPsed Time, hrs
Fiord #5
Testing Results
JtLu u,_'
Performed ProdUction Logging Profiles Over the Next Two Days
Total Total Flowing Flowing
Logging Date Oil Prod. Gas Prod. Tubing BH Kuparuk Nechelik
& Rate · Rate Pressure Pressure Flow Split Rate Rate
Time (BOPD) (MSCFD) (psi) (psi) (K%/N%) (BOPD) (BOPD)
4/18/99 04:00 2,200 900 400 2,200 52 / 48 1,144 1,056
4/18/99 05:00 2,850 1,300 200 1,870 45 / 55 1,283 1,567
4/19/99 23:00 2,500 1,200 180 1,670 57 / 43 1,425 1,075
Flowed Well for 65 Hours and Shut-In for 48 Hour PBU
Total Production for Both Tests was 10,000 BO and 560 BW
ajb 4/99
Fiord #5
Testing Results
Fiord #1 Kuparuk C Sand Flow Test - April 1992
Perforated 20' MD ( 16' TVD)
Lost 250 Bbls of 10.4 PPG Brine to the Kupamk after Perforating
Flow Tested at 1,065 BOPD (31
Pressure 600 PSI
.5° AP1) for 41 Hours, Wellhead
PTA AnalySis Indicated Severe Damage (+ 17 Skin)
Tubing Hydraulics Indicated the C Sand Capable of Over 3
with 400 PSI Wellhead Pressure and +4 Skin
,000 BOPD
ajb 4/99
Fiord #5
Testing Results
~ ~UL~.g ~-~L'LLL
Evidence of Nechelik/Kuparuk Zo'nal Isolation
Pressure Response During the Fracturing
Pressure Break
Treatment- No Large
· Pressure Transient Data Ind
icates Isolation
Post-Frac Production Rate
Increase in API Gravity after Perforating the Kupamk
ProductiOn Profile Logs- .Character of Spinner Curves
, ,
ajb 4/99
V
3000
AAI Exploration
Fiord #5 Test Results
PTA PTA
2500 ---
2000 --
1500
1000 :,
500 -~
,0
Neichelik
Flow Test
29° APl 1400 BOPD~
.= :
-"F:::':': ............................... i .......................................... i':'"' ................ :
,
0 ,24. 48
600
5OO
..................................... I- 400
Kuparuk + Necheliki
i~ib-~..T,~--~{ - 300 n
30° APl 2400 BOPD
72 96
Separator 'Time
(FlOwing Hours)
200 ~
100
120 144
HALLIBURTON ENERGY SERVICES
SURFACE TESTING REPORT
O RTON
COMPANY: ARCO Alaska, Inc.
FIELD: Colville River Delta
LEASE: Fiord
WELL#: 5
ARCO CO. REP,: Andy Bond
....................................DATE/TIME REMARKS
I
QKE GASRATE GA$~UMM 'E:OR. VOI']' OILRATE OILCUMM
ml.tJ_~r hr;mn
4112/99 0:00 Insert 1.600" orifice plate 176 72 668 128 262.26 486.88 64.47 2614.34 916.76 30.0 100.32 64.47 369.9
4/1 2/99 0:30 Flow well as directed 160 71 682 128 236.38 490.80 28.06 1346.44 944.80 30.0 176.66 28.06 369.9
4112/99 1:00 Flow well as directed 140 71 662 128 285.12 496.74 29.80 1430.21 974.60 30.0 199.36 12.00 33.90 196.8 364.0
4/12/99 1:30 Lift plate due to surging 140 71 631 128 644.82 608.10 23.00 1103.84 997.60 26.7 493.67 13.00 26.47 166.6 367.6
4112/99 2:00 Flow well as directed 180 71 612 128 608.10 30.47 1462.69 1028.07 26.7 0.20 30.63 3.0 367.6
4/12/99 2:30 Shut down N2 at 2:66 160 68 639 128 608.10 40.74 1966.76 1068.81 27.3 6.00 42.91 104.0 369.7
4112/99 3:00 Flow well as directed 160 68 618 128 608.10 41.17 1976.07 1109.98 27.3 0.20 41.26 4.0 369.8
4112/99 3:30 Flow well as directed 160 70 497 128 608.10' 29.27 1404.97 1139.26 27.3 1.60 29.72 21.6 370.2
At 3:46 insert 1.600" orifice
4112/99 4:00 plate 100 64 470 128 342.87 616.24 12.72 610.62 1161.97 27.3 661.61 , 30.00 18.22 264.1 376.7
4112199 4:30 Flow well as directed 100 64 472 128 260.36 620.66 26.81 1286.71 1178.78 27.3 202.34 10.00 29.81 144.0 378.7
4112199 6:00 Flow well as directed 180 70 466 128 168.60 623,97 34.48 1666,26 1213.26 27.3 95.82 6.00 36.32 88.0 380.6
4112199 6:30 Flow well as directed 180 70 466 128 639.87 637.30 21.76 1044.68 1236.03 27.3 612.61 6.00 23.16 67.2 382.0
4112/99 6:00 Flow well as directed 180 73 462 128 319.76 643.96 28.78 1381.32 1263.80 27.3 231.49 0.60 28.92 7.0 382.1
4112/99 6:30 Shut in well, for repairs at 06:26 180 73 463 128 660.94 666.66 22.60 1080.17 1286.31 27.3 619.31 0.60 22;61 6.3 382.2
4112/99 7:00, Well shut in 464 666.66 1286.31 27.4 382.2
At 07:42 reopen well shut in
4112/99 7:30 whp 460 460 72 460 128 666.66 1286.31 27.4 382.2
4/12/99 8:00 Lift plate & insert 1.600" plate 180 73 467 128' 620.00 666.48 . 18.14 870.66 1304,46 27.4 697.26 0.60 '18.23 4.4 382.3
4112199 8:30 Flow well as directed 180 73 474 128 837.60 683.931 63.44 2566.21 . 1367.89 27.4 326.62 0.60 63.71 13.0 382.6
4112199 9:00 Flow well as directed 166 71 474 128 484.77 694.03 42.44 2037.10 1400.33 27.4 237.97 1.00 42.87 20.8 383.0
4/12199 9:30 Flow well as directed 43 71 467 128 327.39 600.86 t8.98 9t1.06 1419.31 27.4 369.35 0.01 18.98 0.1 383.0
4/t 2~99 t 0:00 Flow well as directed t 60 69 470 128 632.22 614.02 20.37 977.72 t439.68 27.4 646.62 12.00 23.17 134.4 386.8
4112/99 10:30 FlOw well as directed · 87 72 460 128 496.22 624.36 39.62 1897.06 1479.20 29.6 261.67 0.26 39.62 4.8 386.9
4/12/99 11:00 Flow well as directed 76 69 468 128, 426.22 633.22 24,67 1184.00 1603.87 29.6 369.14 0.60 24.79 6.0 386.1
Page1
HALLIBURTON ENERGY SERVICES
SURFACE TESTING REPORT
RTON
COMPANY: ARCO Alaska, Inc.
FIELD: Colville River Delta
LEASE: Fiord
WELL#: 5
ARCO CO. REP.: Andy Bond
DATE/TIME REMARKS | WELLHEAD C_O_NDITIONS I TO_TAL GAS . TOTAL OIL ' [ J-- i TOTAL WATER
..... T l i co,.vo,,, o,,,A,',= I "'=" Go.,. ,,s,.,; ,.,,:, ,,,,-:. ' ....
_mldtyr hr:_mn .................. [ {psIGI l{cleg F)' (pslO) i[6Xlths)i (mscfldl ~ {mscf) I (.~tb) [ Istl:ld) [ (bbls) ](~ 60 °I! [scflstbl ' (%} {bblsl [ (bt:Is/d) ! (l~t:ls}
4112199 11:30 Flow well as directed 166 71 466 128 779.07 649.46 27.37 1313.66 1631.23 29.6 693.10 2.60 28.07 34.0 386.8
4112/99 12:00 Flow well as directed 106 69 462 128 647.36 662.93 32.64 1666.69 1663.87 29.6 413.20 8.00 36.61 137.6 389.6
4112/99 12:30 Flow well as directed 46 66 447 128 101.87 666.06 26.12 1263.98 1690.00 29.6 81.24 12.00 29.73 172.9 393.2
4/12/99 13:00 Flow well as directed 133 70 460 128 492.00 676.31 23.70 1137.39 1613.69 29.6 432.67 1.00 23.94 11.6 393.5
4112/99 13:30 Flow well as directed 164 68 460 128 671.63 687.21 28.83 1384.02 1642.63 29.6 413.02 8.00 31.37 121.6 396.0
4/12/99 14:00 Flow well as directed 83 70 440 128 480.00 697.21 29.43 1412.87 1671.96 29.6 339.74 0.90 29.70 13.0 396.3
4/12/99 14:30 Flow well as directed 138 71 442 128 677.29 709.24 28.80 1382.30 1700.76 29.6 417.63 0.26 28.87 3.6 396.3
4/12/99 16:00 Flow well as directed 162 70 441 128 627.11 720.22 26.96 1293.94 1727.72 29.6 407.37 1.00 27.23 13.2 396.6
4/12/99 16:30 Flow well as directed 141 72 443 128 476.79 730.16 27.64 1326.80 1766.36 29.6 369.36 1.60 28.07 20.4 397.0
4/12/99 16:00 Flow well as directed 106 74 440 128 210.67 734.64 22.89 1098.95 1778.25 29.6 191.61 1.00 23.13 11.2 397.3
4/i2/99 16:30 Flow well as directed 133 71 443 128 676.88 746.66 26.49 1223.60 1803.74 29.6 471.50 0.60 26.62 6.2 397.4,
4/12/99 17:00 Flow well as directed 106 73 441 128 674.40 768.63 33.70 1617.76 1837.45 29.6 366.06 0.60 33.87 8.2 397.6
4/12/99 17:30 Flow well as directed 124 71 444 128 479,80 768.62 26,86 . 1241,46 1863.31 29,6 386.48 2,00 26.40 26,6 398,1
Page 2
Date: 5/17/99
ARCO ALASKA INC.
WELL SUMMARY REPORT
Page: 1
WELL:FIORD#5
WELL_ID: AX9905 TYPE:
AFC: AX9905 STATE:ALASKA
20292-00
AREA/CNTY: NORTH SLOPE WEST
FIELD: WILDCAT
SPUD:03/14/99 START COMP:04/06/99
RIG:DOYON 141
BLOCK:
FINAL:
WI: 0% SECURITY:2
API NUMBER: 50-103-
03/13/99 (D1)
TD: 108' (108)
SUPV:MIKE WHITELEY
MW: 0.0 VISC: 0 PV/YP: 0/ 0
CHANGE OUT VALVE ON KOOMEY
APIWL: 0.0
RIG DOWN FROM FIORD #4, MOVE TO FIORD #5, RIG UP, AND
NIPPLE UP DIVERTER
UPCOMING OPERATIONS:SPUD WELL WHEN PIPE SKATE IS REPAIRED
03/14/99 (D2)
TD: 230'(122)
SUPV:
MW: 10.0 VISC: 105 PV/YP: 30/43
DRILLING AT 692'
APIWL: 10.0
NU DIVERTER, REPAIR ACCUMULATOR VALVE, REPAIR PIPE SKATE,
FUNCTION TEST DIVERTER, MAKE UP BHA #1, HOLD PRE-SPUD HSE
MEETING, CLEANOUT CONDUCTOR TO 108'
UPCOMING OPERATIONS:DRILL SURFACE HOLE
03/15/99 (D3)
TD: 1483' (1253)
SUPV:MIKE WHITELEY
MW: 10.2 VISC: 195 PV/YP: 33/49
CIRC FOR SHORT TRIP AT 1,990'
APIWL: 7.2
DRILL SURFACE HOLE FROM 230-992. CIRC AND CONDITION MUD
(INCREASE VISCOSITY). DRILL TO 10017 TRIP FOR BIT. DRILL TO
1391. CIRCULATE HOLE CLEAN. DRILL TO 1483'
UPCOMING OPERATIONS:RUN 9 5/8" SURFACE CSG
03/16/99 D4)
TD: 1483' 0)
SUPV:R.W. SPRINGER
MW: 10.2 VISC: 55 PV/YP: 17/18
TESTING BOPE
APIWL: 7.0
Drill surface hole to 1990' Run and cement 9-5/8" surface
casing.
UPCOMING OPERATIONS: DRILL OUT CSG, FIT, DRILL AHEAD
03/17/99 D5)
TD: 2219' 736)
SUPV:R.W. SPRINGER
MW: 10.1 VISC: 45 PV/YP: 18/21
DRILLING 8-1/2" HOLE
APIWL: 7.0
N/U BOP's. Drill out casing and perform leak-off test.
Changeout mud system.
UPCOMING OPERATIONS:DRILL AHEAD TO T.D.
Date: 5/17/99
03/18/99 (D6)
TD: 4137'(1918)
SUPV:R.W. SPRINGER
03/19/99 D7)
TD: 5717' 1580)
SUPV:R.W. SPRINGER
03/20/99 D8)
TD: 6800' 1083)
SUPV:R.W. SPRINGER
03/21/99 Dg)
TD: 7410' 610)
SUPV:R.W. SPRINGER
03/22/99 D10)
TD: 7410' 0)
SUPV:R.W. SPRINGER
03/23/99 (Dll)
TD: 7410'( 0)
SUPV:R.W. SPRINGER
ARCO ALASKA INC.
WELL SUMMARY REPORT
Page: 2
MW: 10.0 VISC: 46 PV/YP: 18/19
DRILLING 8-1/2" HOLE ~4672'
APIWL: 6.2
DRILL F/ 2219' TO 3487'. CBU. WIPER TRIP TO SHOE. DRILL
FROM 3487' TO 4137'
UPCOMING OPERATIONS:CONTINUE DRILLING TO T.D.
MW: 10.0 VISC: 43 PV/YP: 13/16
DRILLING 8-1/2" ~ 6213'
APIWL: 5.6
Drilled from 4137' to 5717'
UPCOMING OPERATIONS:CONTINUE DRILLING TO T.D.
MW: 10.0 VISC: 43 PV/YP: 13/17
DRILLING 8-1/2" HOLE ~ 7140'
APIWL: 5.4
Drilled from 5717' to 6367'. Ream from 6316' to 6367'
Drilled from 6367' to 6800'
UPCOMING OPERATIONS:CONTINUE DRLG TO T.D., WIPER TRIP, LOG
MW: 10.4 VISC: 43 PV/YP: 17/19
RIGGING UP SCHLUMBERGER TO LOG
APIWL: 4.4
Drilled from 6800' to 7410'. Ream tight spots ~ 6872' &
6968'
UPCOMING OPERATIONS:OPEN HOLE LOGS & SWC
MW: 10.4 VISC: 46 PV/YP: 17/18
STUCK W/RFT LOGGING TOOLS ~ 6872'
APIWL: 4.4
PJSM. Logging with Platform express/CMR, 2nd run dipole
sonic, 34d run RFT's.
UPCOMING OPERATIONS:FISH LOGGING TOOLS
MW: 10.4 VISC: 45 PV/YP: 17/17
WIPER TRIP TO T.D.
APIWL: 5.2
Continue wireline w/ Schlumberger RFT. RFT tool stuck ~
6872'. Attempt to move tools and actuate RFT with no
success. PJSM. M/U fishing tools. RIH with drillpipe
stripping over wireline. Fish (RFT) became free. POOH with
fish.
UPCOMING OPERATIONS:CONTINUE LOGGING PROGRAM
Date: 5/17/99
ARCO ALASKA INC.
WELL SUMMARY REPORT
Page: 3
03/24/99 (D12)
TD: 7410'( 0)
SUPV:R.W. SPRINGER
03/25/99 (D13)
TD: 7410'( 0)
SUPV:R.W. SPRINGER
03/26/99 (D14)
TD: 5675'( 0)
SUPV:R.W. SPRINGER
03/27/99 (D15)
TD: 5520' 0)
SUPV:R.W. SPRINGER
03/28/99 D16)
TD: 6522' 1002)
SUPV:R.W. SPRINGER
MW: 10.4 VISC: 50 PV/YP: 17/18
SCHLUMBERGER RFT'S ~ 7150'
APIWL: 4.8
POH w/fish. PJSM. RIH w/cleanout assy. Tag bridge ~ 6414'
Wash and ream thru to 6750' Wash and ream from
7250'-7352'. Large amounts splintery HRZ shale, max gas
peak 775 units. Continue wash and ream to 7410' TD. R/U to
log w/RFT.
UPCOMING OPERATIONS:CONTINUE RFT, SWC, TEST BOPE, SET
SIDETRACK CMT PLUGS
MW: 10.4 VISC: 47 PV/YP: 18/18 APIWL: 4.8
CIRCULATING & CONDITIONING MUD ABOVE KICKOFF CMT PLUG
Continue RFT sampling. Sidewall core Nechelik interval.
Test BOPE's. R/U to run~3.~5'' tubing. PCPSPF.---RLr~-~b~. Circ
and condition mud f/cement plugs.
UPCOMING OPERATIONS:POH, L/D DRILLPIPE, RIH W/DRLG KICKOFF
ASSY
MW: 10.0 VISC: 41 PV/YP: 10/10
POH TO P/U CEMENTING STINGER ASSY
APIWL: 17.6
Continue circ & conditioning mud for plug. PJSM. Pump
cement plugs. Spotted 15.8 ppg balanced cement isolation
plugs from 7410'-7030' and from 7030'-6700'. Hi-vis 11.5
ppg mud spacer plug from 6700'-5850'.Circ and condition ~
5850', set balanced kickoff plug from 5850'-5550'. POH to
5378' attempt to reverse circ, packing off. P0H w/tubing.
Drilled cement from 5500'-5593' Time drilled from
5593'-5675'
UPCOMING OPERATIONS:RESET KICKOFF PLUG F/-5850-5550'
MW: 10.0 VISC: 40 PV/YP: 11/17
KICKING OFF ~ 5580'
APIWL: 13.4
Continue attempting to directional drill from 5675'-5779',
unable to kick off. Circ bttms up, flow check, dry job.
PJSM. M/U 3.5" tubing stinger f/kickoff cement plug. Pump
cement, displace f/balanced plug from 5779'-5479'
UPCOMING OPERATIONS:DRILL TO CORE POINT.
MW: 10.0 VISC: 46 PV/YP: 14/20
DRILLING @ 6838'
APIWL: 6.0
Continue waiting on cement w/bit ~ shoe. Tag cement ~
5520'. Drill hard cement from 5541'-5608', confirm kickoff,
drilled from 5608'-6522'
UPCOMING OPERATIONS:CONTINUE DRILLING TO CORE POINT, POH,
CORE
Date: 5/17/99
03/29/99 (D17)
TD: 7025'(503)
SUPV:R.W. SPRINGER
03/30/99 (D18)
TD: 7144' 119)
SUPV:R.W. SPRINGER
03/31/99 D19)
TD: 7490' 346)
SUPV:R.W. SPRINGER
04/01/99 D20)
TD: 7490' 0)
SUPV:R.W. SPRINGER
04/02/99 (D21)
TD: 7490'( 0)
SUPV:R.W. SPRINGER
04/03/99 (D22)
TD: 7150'( 0)
SUPV:R.W. SPRINGER
ARCO ALASKA INC.
WELL SUMMARY REPORT
Page: 4
MW: 10.0 VISC: 46 PV/YP: 17/21 APIWL: 5.6
OUT OF HOLE W/CORE (CUT 9.3, RECV'D 4.1', 44%)
Continue drilling from 6522-7016'. RIH w/core assy. Core
from 7016'-7025'
UPCOMING OPERATIONS:RIH F/CORE #2
MW: 10.0 VISC: 49 PV/YP: 18/21
DRILLING ~ 7425'
APIWL: 5.2
Continue to core from 7025'-7026', jammed core bbl in
shale. POH w/core. RIH w/new core assy. Core from
7026'-7082'. POH w/core. Recovered 56' plus 4' previous
core. MAD pass from 6970'-7082'. Drilled from 7082'-7144'
UPCOMING OPERATIONS:DRILL TO T.D., SHORT TRIP, LOG, RUN
CASING.
MW: 10.2 VISC: 46 PV/YP: 19/18
WIPER TRIP F/CASING
APIWL: 5.0
Drilled from 7144'-7490'. PJSM. Log w/platform express,
CMR.
UPCOMING OPERATIONS:RUN CASING & CEMENT
MW: 10.2 VISC: 46 PV/YP: 18/17
CEMENTING 7" CASING
APIWL: 5.0
Continue logging w/platform express. Wash and ream to
7490'. Rig up to run casing. PJSM. Run casing.
UPCOMING OPERATIONS:CLEANOUT SCRAPER RUN IN CASING, CEMENT
BOND LOG
MW: 8.5 VISC:
DRILLING CEMENT ~ 7149'
0 PV/YP: 0/ 0
APIWL: 0.0
Continue RIH w/7" casing. Circ, staged up f/2.5-7 bpm,
attempt to reciprocate, packing off. PJSM. Pump cement.
Install packoff and test to 5000 psi. Test BOPE. RIH on
3.5" tubing.
UPCOMING OPERATIONS:CLEAN OUT CEMENT, DISPLACE TO BRINE,
RUN CMT BOND LOG.
MW: 9.3 VISC: 0 PV/YP: 0/ 0
M/U TAILPIPE ASSY ON W/L SET PACKER
APIWL: 0.0
Tag hard cement ~ 7149', attempt to drill made. CBU. Pump
hi-vis sweep, no rubber, little or no cement returns. Run
USIT.
UPCOMING OPERATIONS:RUN TBG ASSY & COMPLETE
Date: 5/17/99
ARCO ALASKA INC.
WELL SUMMARY REPORT
Page: 5
04/04/99 (D23)
TD: 7150'( 0)
SUPV:R.W. SPRINGER
04/05/99 (D24)
TD: 7150'( 0)
SUPV:R.W. SPRINGER
MW: 9.3 VISC: 0 PV/YP: 0/ 0 APIWL: 0.0
SLICKLINE RIGGED UP, CIRCULATING WATER AND DIESEL INTO ANNUL
PSJM. RIH w/perf guns. Perf 7024'-7044' and 7044'-7064'
Set packer. Run 3.5" tubing. ND BOP's. NU tree and test to
250/5000 psi.
UPCOMING OPERATIONS:FINISH RIGGING UP TREE, RELEASE RIG &
MOVE RIG.
MW: 9.3 VISC: 0 PV/YP: 0/ 0 APIWL: 0.0
RIG MOVED OFF LOCATION LAST NIGHT, SCRAPED PAD IN PREPARATIO
PJSM. Freeze protect well. Slickline in hole to pull
ball/prong from XN and dummy valve from to GLM at 2500' MD.
Pump diesel until well is dead. Secure well. Clean up rig.
RDMO. Release rig at 12:00 hrs. 4/5/99. Move rig to West
Sak pad.
UPCOMING OPERATIONS:RU SLICKLINE TO RUN PRESSURE GAUGES FOR
BREAKDOWN TEST. RU FRAC TANKS AND HAUL WATER. COMPLETE
RIGGING UP HALLIBURTON TEST EQUIPMENT.
REMEDIAL AND COMPLETION OPERATIONS
WELL:FIORD#5
WELL_ID: AX9905 TYPE:
AFC: AX9905
STATE:ALASKA
AREA/CNTY: NORTH SLOPE WEST
FIELD: WILDCAT
SPUD:03/14/99 START COMP:04/06/99
RIG:DOYON 141
WI: 0% SECURITY:2
BLOCK:
FINAL:
API NUMBER: 50-103-20292-00
04/06/99 (C25)
TD: 7150'
PB: 0'
PJSM FOR INJECTIVITY TEST MW: 0.0
SUPV:RICK OVERSTREET
Slickline located tubing tail ~ 6811' SLM, tagged bottom
7131' SLM.
UPCOMING OPERATIONS:PUMP STEP RATE TEST.
04/07/99 (C26)
TD: 7150'
PB: 0'
FINISH TESTING HALLIBURTO MW: 0.0
SUPV:RICK OVERSTREET
Completed seawater injectivity test. Start pressure
testing.
UPCOMING OPERATIONS:SLICKLINE TO REPLACE GUAGES FOR
MINITORING BHP DURING FRAC. SCRAP & CLEAN PAD. RU DOWELL
FOR FRAC.
Date: 5/17/99
04/08/99 (C27
TD: 7150'
PB: 0'
04/09/99 (C28
TD: 7150'
PB: 0'
04/10/99 (C29
TD: 7150'
PB: 0'
04/11/99 (C30)
TD: 7150'
PB: 0'
04/12/99 (C31)
TD: 7150'
PB: 0'
04/13/99 (C32)
TD: 7150'
PB: 0'
04/14/99 (C33)
TD: 7150'
PB: 0'
04/15/99 (C34)
TD: 7150'
PB: 0'
04/16/99 (C35)
TD: 7490'
PB: 7150'
ARCO ALASKA INC.
WELL SUMMARY REPORT
Page: 6
COMPLETE RIG UP OF DOWELL MW: 0.0
SUPV:RICK OVERSTREET
HES completed all testing on lines and equipment. Clean up
pad. Rigging up for frac treatment.
UPCOMING OPERATIONS:DOWELL TO PUMP DATA FRAC. AND
FRACTURING TREATMENT. COILED TUBING TO CLEAN OUT.
COMPLETING CLEANOUT WITH MW: 0.0
SUPV:RICK OVERSTREET
Pumped 400 bbls data frac. RU CTU to clean out fill.
UPCOMING OPERATIONS:WIRELINE TO TAG BOTTOM, RUN STANDING
VALVE W/JUNK BASKET, CHANGE OUT GAUGES.
FLOWING WELL BACK. MW: 0.0
SUPV:RICK 0VERSTREET
Completed clean out w/CTU and RD. Held PJSM. Ready to start
flow w/nitrogen.
UPCOMING OPERATIONS:CONTINUE TO FLOWBACK AND GATHER DATA.
CONTIUE TO TEST WELL. MW: 0.0
SUPV:RICK OVERSTREET
Surface testing well.
UPCOMING OPERATIONS:CONTIUE TO FLOW WELL BACK (TEST).
CONTINUE TO FLOW WELL. MW: 0.0
SUPV:RICK 0VERSTREET
Continue to flow well and test.
UPCOMING OPERATIONS:FLOW WELL BACK UNTIL 6:00 PM AND SHUT
IN FOR BUILD UP.
SHUT IN FOR BUILDUP MW: 0.0
SUPV:RICK OVERSTREET
Continue testing. Shut in for pressure build-up.
UPCOMING OPERATIONS:CONTINUE SHUT IN F/48 HR.
WELL SHUT IN F/PRESSURE B MW: 0.0
SUPV:R.W. SPRINGER
Shut in for pressure build-up.
UPCOMING OPERATIONS:CONTINUED WELL SHUT IN
R/U SLICKLINE TO PULL PET MW: 0.0 BRINE
SUPV:R.W. SPRINGER
Continued well shut in for pressure buildup.
UPCOMING OPERATIONS:COILED TUBING CLEANOUT, REPERFORATE
TEMP,PRESSURE, SPINNER SU MW: 0.0
SUPV:R.W. SPRINGER
Continued shut in for pressure buildup. Cleanout w/coiled
tubing to PBTD of 7150' Rig down. Rig up for
spinner/pressure survey.
UPCOMING OPERATIONS:PERFORATE & CONTINUED TESTING
Date: 5/17/99
04/17/99
TD: 7490'
PB: 7150'
C36
04/18/99
TD: 7490'
PB: 7150'
C37
04/19/99
TD: 7490'
PB: 7150'
C38
04/20/99 (C39)
TD: 7490'
PB: 7150'
04/21/99 (C40)
TD: 7490'
PB: 7150'
04/22/99 (C41)
TD: 7490'
PB: 7150'
04/23/99 (C42)
TD: 7490'
PB: 7150'
ARCO ALASKA INC.
WELL SErMMARY REPORT
Page: 7
FLOW TESTING MW: 0.0 BRINE
SUPV:R.W. SPRINGER
RIH w/spinner, temperature and pressure tools. Flow well to
unload water for well. RIH w/perforating gun. Perforate.
Flow well. Continue flowing well testing.
UPCOMING OPERATIONS:CONTINUE FLOWING WELL
FLOW TESTING MW: 0.0
SUPV:R.W. SPRINGER
Flow well. Continue flow testing.
UPCOMING OPERATIONS:CONTINUE FLOWING WELL
BRINE
CONTINUED FLOW TEST MW: 0.0
SUPV:R.W. SPRINGER
Continued flow testing.
UPCOMING OPERATIONS:SHUT IN F/PRESSURE BUILDUP
BRINE
SHUT IN F/PRESSURE BUILDU MW: 0.0 BRINE
SUPV:R.W. SPRINGER
Continued flow test. Shut in for pressure buildup. Begin
rigging down.
UPCOMING OPERATIONS:CONTINUED SHUT IN, P&A
CONTINUED SHUT IN F/PRESS
SUPV:R.W. SPRINGER
Continued shut in for pressure buildup.
UPCOMING OPERATIONS:PLUG & ABANDON WELL
MW: 0.0 BRINE
SETTING BRIDGE PLUG IN TU MW:10.2 BRINE
SUPV:R.W. SPRINGER
Continue shut in for pressure build up. PJSM. Circulate
brine.
UPCOMING OPERATIONS:FINISH PLUG & ABANDONMENT
CLEANING UP PAD, BACKFILL MW:10.2 BRINE
SUPV:R.W. SPRINGER
PJSM. Plug and abandon well. Pump cement. Set bridge plug
325'. Perf from 315'-317' Pump brine. Pump cement. RDMO.
UPCOMING OPERATIONS:CONTINUED CLEANUP, MELT SNOW F/PAD
CLEANUP.
Formation Tops
Fiord 5PB1
Base HRZ
K1
Kuparuk "D"
Kuparuk "C"
LCU
Nuisquit
Nechelik
6754
6796
6840
6878
6894
6894
7024
Fiord 5
6735
6782
6825
6863
6878
6878
7006
Fiord fl&
Core Description
Gore 1
7016
7019
7020.1
701§-7025
cut 9', recovered 4'
silty shale, dark grey
siltstone, clayey, gay-brown
sandy siltstone
core barrel evidently jammed arid penetration rate dropped to 1fi/hr
Core
7025-7082
cut 57', rec 62' (5' from Core 1 run)
oil sl~ain
7021 silty shale, It-mad grey
none seen
7024 shaly siltstone, mad grey, firm-soft
none seen
7027 fL-vfu qtz ss, tr glauconite, mod sorting
vis, Porosity, ab. Qtz overgrowths
100%
7030 fL-vfu qtz ss, firm-friable, qtz overgrowths
tr glau=, vis porosity
100%
7033 fL-vfu qtz ss, tr glauc, qlz overgrowths 100%
firm, visible porosity
7036fl.-vfuq~ss 90%
7039 vf qtz ss, ab qtz overgrowths 100%
firm, some clay in matrix
7042 vfu qtz ss 100%
7045 vf qtz ss 100%
some clay in matrix
7048 vf qtz ss 100%
7050.2 vf qtz ss 80%
firm-mod, Hard, cemented with qtz overgrowths
tr glauc.
7054.4 Vf qtz SS 100%
firm-mod hard, qtz cement
fluor
on fractures only
2% of sample
90%dull yell gold
strmg milky ~;ut si yell-green
brn =ut color, brown =ut ring
60% fluor dull yell gold
Inst string milky cut
brn cut color, brown cut ring
90% dull yell gold
slow strmg milky out
90% very dull yell gold
80% very dull yell gold
90%
SlOW strmg milky cut
bm cut color, bm ring
70%
slow strmg milky cut
90%
100%
slow strmg milky cut
brn cut color
100%
7057
7080
7063
7066
7069
7072
7075
7078
7081
7083
vfqtz ss
firm-mod hard, qtz cement
non calcareous
vfu-vfl qtz ss
vfl increasing with core depth
moderately cemented
moderately cemented
moderately cemented, reed hard
mod sorting
vfi qtz ss with some vfu grain size
mod hard, cemented
vfu and vfl qtz ss
mod hard, cemented
vfl qtz ss, brn oit stain, mod
cemented, mod hard
cemented, reed hard
vf qtz ss
mod ham
lOO%
lOO%
lOO%
lOO%
10o%
lOO%
lOO%
50% patchy
70%
60%
80%
slow strmo milky cut
bm cut color, bm ring
90%
100%
slow strmg milky out
brn cut color, brn dng
100%
90%
100% very dull yell gold
very slow milky cut fl
100%
40%
80%
very slow milky ~ut fl
60%
very slow milky cut fl
brown cut and brn ting
ARCO Fiord #5PB1 Percussion Sidewall Core Descriptions
Cut
% Fluor Fluor Cut Fluor Show
Depth Interval Recovery % Description % Oil Stain Odor Fluor Intensity Color Color Color Summary
SS, light brown, vF-M grained. Qtz, 4-6% Instant
6869 Kuparuk"C" 100% glauconite,, partially cemented by siderite, 40% weak 90% pale Yel straw weak Fair
round to subrounded, firm, mod-highly Bluish
calcareous, poor visible porosity. White
SS, light brown, vF-F occ medium grains,
partially cemented by siderite, firm, qtz w/ Instant
6871 Kuparuk"C" 100% 2-4% glauconite, subrounded, moderately 50% weak 80% mod Yet Amber Bluish Excellent
calcareous, poor visible porosity, invaded White
throughout.
SS, light brown, vF-F occ medium grains, Instant
6873 Kuparuk "C" 100% partially cemented by siderite, firm, qtz w/ 60% weak 90% mod Yel Amber Bluish Excellent
3-5% glauconite, subrounded to sub
angular, moderately calcareous. White
SS, light brn, vF-F, occasional med grain, Instant
6874 Kuparuk "C" 100% partially cemented, sporadic overgrowths, 100% weak 100% mod Yel Amber Bluish Excellent
fair visual porosity, quartz 2-5%
' glauconite, slightly calcareous VVhite
SS, Light Brn, vF-F, more siderite cement, Instant
6875 Kuparuk"C" 50% firm, qtz, 4-6% glauconite, fair visible 100% weak 90% mod Yel Amber Bluish Excellent
porosity, grains more angular, v. VVhite
calcareous, slight overgrowths ?
SS, Med Brn, vF-mostly F, with some Med
Instant
6876 Kuparuk"C" 50% grains. Well sorted, subrounded, good 100% Mod 100% Mod to Yel Amber Bluish Excellent
visible porosity, friable, mostly quartz, 2- strong White
4% glauconite, v. calcareous
SS, Med Bm, mod-well sorted, vF-Med, Instant
6877 Kuparuk"C" 100% mostly Qtz, 4-8% glauconite, good visible 100% Mod 100% Mod to Yel Amber Bluish Excellent
porosity, rounded to subrounded, friable, strong White
non-calcareous.
·
SS, Med Brn, mod-well sorted, vF-Med, Instant
6878 Kuparuk"C't 100% mostly Qtz, 4-8% glauconite, good visible 100% ,. . Mod 100% Mod Yel DkAmber Bluish Excellent
porosity, rounded to subrounded, friable, White
non-calcareous.
ARCO Fiord #5PB1 Percussion Sidewall Core Descriptions
Cut
% Fluor Fluor Cut Fluor Show
Depth Interval Recovery % Description % Oil Stain Odor Fluor Intensity Color Color Color Summary
'SS, light brn, vF-F, Slighlty clayey, mostly Instant
7008 Nechelik 100% qtz, tr glauc, mod friable, small 90% None 80% V. Pale Yel Amber Yel V. Good
discontinuous areas of cleaner ss, White
subangular - Angular, slighlty calcareous.
1/2 sample- SS, light brn vF- mostly F,
mostly Qtz grains, fair-good visible
porosity, friable, angular due to Instant
7009 Nechelik 25% overgrowths. 50% weak 90% V. Pale Yel Amber Yel V. Good
Other 1/2 sample clayey siltstone, med White
brn, vF-F, mostly qtz, poor-fair visible
porosity, mod fiable, slightly calc.
SS, light brn, vF- mostly F, Clayey Qtz w/
Instant
7014 Nechelik 50% trace glauc. Fair visible porosity, Friable, 100% weak 100% V. Pale Yel Amber Yel V. Good
non-calc, sub angular, some quartz White
overgrowths
SS, Med Brn, vF-F, Clayey, Dominately
Qtz grains, Sub Angular, tr. Glauconite, V. Pale - Instant
7020 Nechelik 50% mod friable, poor-mod sorting, slightly 70% None 90% Yel Amber Yel Fair
Calc., inclusion of black pyrite-rich Pale White
mudstone
Clayey SS, med-bm, vF-F, mud clayey, V. Pale- Instant
7033 Nechelik 75% ~lus filtrate invasion, mostly qtz, mod 70% none 90% Yel Amber Yel V. Good
fiable, some F-UF SS, slightly calc. Pale White
Instant
7040 Nechelik 50% SS, light Brn, vF-F, slighlty clayey, mostly 90% weak 80% V. Pale Yel Amber Yel V. Good
qtz, tr glauc, fiable, angular. White
SS, bm, vF-F, mod Clayey, poor-fair Instant
7047 Nechelik 50% visible porosity, mostly quartz, sub- 100% weak 100% V. Pale Yel Amber Yel V. Good
angular, mod fialbe, slightly calc. White
Clayey SS, Meal. Brn, vF, v. poor visible
Instant
7055 Nechelik 50% porosity,no visible stain, does fluor, sub- 60% weak 60% V. Pale Yel Amber Yel Good
angular mostly qtz grains, mod fiable, mod.
calc White
Clayey SS, Med. Brn, vF, v. poor visible Instant
7067 Nechelik 100% porosity, mostly qtz grains, mod fiable, non 70% None 0% Amber Yel Fair
calc VVhite
SS, vF, V. clayey, poor vis porosity, some Instant
7082 Nechelik 75% slightly cleaner vF-F SS(which Fluor), Mod 70% none 50% V. Pale Yel Amber Yel Fair
sorting, fiable, non-calcareous white
mostly SS, Med-Brn, vF-F, Qtz, mod.
Instant
7089 Nechelik 50% Clay, fiable, thin laminations of unstained 70% weak 70% V. Pale Yel Amber Yel V. Good
F SS & Brn Clay. Mod Filtrate Invasion,
Slightly Calcareous White
SS, Med Brn, vF-F, Clayey, Dominately Instant
7105 Nechelik 50% Qtz grains, Sub Angular, tr. Glauconite, 100% None 100% V. Pale Yel Amber Yel V. Good
friable, poor-mo sorting, slightly Calc. White
i
'~ ~ SURVEY CALCULATION AND FIELD WORKSHEET Job No, 0451-04213 Sidetrack No, Page 1 of 4
I~~l/~/~/a/~ CompanyARCOALASKA, INC, R,gContractor&No, DOYON-141 Field EXPLORATION
:'l~l~l~lal~i~ Well Name & No. FIORD#5 Survey Section Name SPERRY SUN BHI Rep,
~l'Jl"~i~ WELL DATA
Target TVD (F'r) Target Coord. N/S Slot Coord. N/S -738.83 Grid Correction 0.000 Depths Measured From: RKB ~ MSL ~ SS~
Target Description Target Coord. E/W Slot Coord. E/W -433.83 Magn. Declination 26.490 Calculation Method MINIMUM CURVATURE
Target Direction (OD) Buil~Walk\DL per: lO0ff~ 30m~ 10m~ Vert. Sec. Azim. 45.88 Magn. to Map Corr. 26.490 Map North to: OTHER
SURVEY DATA
Survey Survey Incl. Hole Course Vertical Total Coordinate Build Rate Walk Rate
: Date Tool Depth Angle Direction Length TVD Section N(+) /S(-) E(+) /W(-) DL Build (+) Right (+) Comment
Type (FT) (DD) (DD) (F'r) (FT) (FT) (FT) i(Per ~00 F'r) Drop (-) Left (-)
MWD 0.00 0.00 0.00 0.00 0.00 0.00 0.00 TIE IN POINT
-99 MWD 161,95 0,32 5.31 161.95 161.95 0,34 0,45 0,04 0,20 0,20 9 I/2'MACH 1C-AKO-1,2 DEG, .!"
15-MAR-99 MWD 252,59 0,33 7,38 90,64 252,59 0,74 0,96 0,10 0,02 0.01
15-MAR-99 MWD 343,47 0.51 47,28 90,88 343,47 1,35 1,50 0,43 0,37 0,20
15-MAR-99 MWD 436,34 0,46 21,70 92,87 436,33 2,10 2, i 2 0,87 0.24 -0,05
15-MAR-99 MWD 527.75 0.41 15.90 91,41 527,74 2,72 2,78 1,10 0,07 -0,05
15-MAR-99 MWD 618,09 0,37 27,82 90,34 618,08 3,28 3,35 1,32 0.10 -0.04
15-MAR-99 MWD 708,84 0.53 92,23 90,75 708.83 3,85 '3,59 1,88 0,55 0,18
15-MAR-99 MWD 798,35 1,00 105,96 89,51 798,33 4,52 3,36 3,04 0.56 0.53
o.o .o.o
15-MAR-99 MWD 983.26 0.65 97.30 93.40 983.21 5.98 2.56 5.85 0.40 -0.36
·
15-MAR-99 MWo 1072,75 0,69 111,38 89,49 1072,70 6,52 2,30 6,85 0,19 0,04
15-MAR-99 MWD 1169,05 0,62 126,14 96,30 1168,99 .6,85 1:,78 7,81 0.19 -0,07
1~-99 MWD 1257,62 0,46 128,61 88,57 1257,56 6,97 1,27 8,48 0,18 -0,18
15-MAR-99 MWD 1352,13 0;60 155,16 94,51 1352,'06 6,86 0,59 8,98 0,30 0,15
16-MAR-99 MWD 1442,91 0,97 150,65 90,78 1442,83 6.51 -0,51 9,56 0,41 0,41
16-MAR-99 MWD 1535,84" 0,87 146,06 92,93 1535,75 6,18 -1,78 10,34 0,13 -0,11 .
16-MAR-99 MWD 1628,59 0,76 148,89 92,75 ' 1628.49 5,92 -2,89 11,05 0,1 ;3 .-0112
.
16-MAR-99 MWD 1722,28 0,76 151,26 93,69 1722,17 5,61 -3,97 11,67 0,03 0,00
16-MAR-99 MWD 1814,53 0,79. 153,41 92,25 1814,42 5,26 -5,08 12,25 0,05 0,03
~ 6-MAR-99 MWD 1907,71 0,69 149,27 93,18 1907,59 4,94 -6,13 12,82 0,12 -0,11
17-MAR-99 MWD 1992,76 0,62 157,42 85,05 1992,63 4,65 -7,00 13,26 0,14 -0,08 6 3/4"MACH 1XL-AKO-1.2 DEG,
,
17-MAR-99 MWD 2084,18 0,58 147,03 9;I ,42 2084,05 4,38 -7,84 13,70 0,13 -0,04
18-MAR-99 MWD 2176,99 0,64 9,26 92,81 2176.86 4,70 -7,73 14,04 .1,23 0,06
i il.a. KIB ' SURVEY CALCULATION AND FIELD WORKSHEET Job No. 0451-04213 Sidetrack No. Page 2 of 4
Company ARCO ALASKA, INC. Rig Contractor & No. DOYON - 141 Field EXPLORATION
Well Name & No. FIORD#5 Survey Section Name SPERRYSUN BHI Rep.
I,~T~ WELL DATA
Target TVD (FT) Target Coord. N/S Slot Coord. N/S -738.83 Grid Correction 0.000 Depths Measured From: RKB [~ MSL ~ SS[-'
Target Description Target Coord. E/W Slot Coord. E/W -433.83 Magn. Declination 26.490 Calculation Method MINIMUM CURVATURE
Target Direction (DD) Buil~Walk\DL per: lOOff[~ 30mi-} lOm~ Vert. Sec. Azim. 45.88 Magn. to Map Corr. 26.490 Map North to: OTHER
SURVEY DATA
Survey Survey Incl. Hole Course Vertical Total Coordinate Build Rate Walk Rate
Date Tool Build (+) Right (+) Comment
Type Depth Angle Direction Length TVD Section N(+) / S(-) E(+) / W(-) DL
_ (FT) (DD) (DD) (F-r) ' (FT) (FT) (FT) (Per tOO F-r) Drop (-) Left (-)
18-MAR-99 MWD 2270.08 0.80 7.23 93.09 2269.94 5.63 -6.57 14.21 0.17 0.17 6 3/4'MACH 1XL-AKO-1.2 DEG.
18 -99 MWD 2362.89 0.71 7.39 92.81 2362.74 6.58 -5.36 14.36 O. 10 -0.10 ~rl
18--MAR--99 MWD 2456.00 0'75 8'37 93' 11 2455'84 7'52 --4. 18 14'53 0'05 0'04
18--MAR'99 MWD 2547'52 0'81 350'47 91 '52 2547.35 8'36 '2'95 14'51 0'27 0'07
18--MAR--99 MWD 2541 '41 2'47 30.00 93'89 2641 '20 I 0'68 --0'54 15'41 2'04 I '77
18--MAR'99 MWD 2734'53 5'51 31 '00 93'12 2734.09 I 6'94 5'03 I 8'71 3'27 3'26 1 '07
I 8--MAR'99 MWD 2827'47 7'69 43'46 92'94 2826'41 27'46 13'37 25'29 2'79 2'35 13'41
18--MAR'99 MWD 2919'84 8'04 45'95 92'37 2917'91 40'10 22'35 34'18 0'53 0'38 2'70
18--MAR'99 MWD 3012'43 10'02 41 '40 92'59 3009'35 54'60 32'89 44'17 2'27 2'14 -4'91
18--MAR'99 MWD 3105'38 12'80 39'63 92'95 3100'46 72.90 46'89 56.08 ~ 3.01 2'99 '1 '90
I 8--MAR'99 MWD 3198.33 15'71 41 '77 92'95 3190'53 95'70 64'21 71 '04 3' 18 3' 13 2'30
18'MAR'99 MWD 3291 '20 16'19 42'05 92'87 3279'83 121'1 6 83.20 88'08 ' 0'52 0'52 0'30
18--M'AR'99 MWD 3384.48 16'16 43'27 93'28 3369'42 147'1 0 102'31 105'69 0'37 '0'03 I '31
1188'..~199 MWD 3476'43 16'79 46'36 91 '95 3457'59 173' 16 120'79 124'07 1' 17 0'69 3'36
99 MWD 3569'40 16'46 46'73 92'97 3546'68 I 99'76 139'09 i 143'380'37 -0"35 0'40
18'MAR'99 MWD 3662'24 16'37 46'01 92'84 3635'73 225'99 1 57' 19 1 62'37 0'24 -0'10 '0'78
18--MAR'99 MWD 3754.42 16'11 45'77 92'18 3724'23 251 '77 175'1'3 180'88 0'29 '0'28 '0'26
18--MAR'99 MWD 3846'92 15'93 45'66 92'50 3813'14 . 277'30 192'96 199'16 0'20 '0'19 '0'12
18'MAR'99 MWD 3939'59 15'54 44'86 92'67 3902'34 302'43 210'64 217'01 0'48 '0'42 -0'86
18-MAR-99 MWD 4032,46 16.73 46,73 92,87 3991.55 328.23 228,62 235.52 1.40 1,2.8 2,'01
,
19-MAR-99 MWD 4125,97 16,89 46.27 93.51 4081,06 355,27 247.24 255,13 0,22 0,17 -0,49
19-MAR-99 MWD 4218,94 16,57 ' 46,47 92.97 4170.'10 382.04 265.71 274,50 0,35 -0.34 0,22
19-MAR-99 MWD 4311.35 16,32 45,90 92.41 4258,73 408.20 283,82 293.38 0.32 -0,27 -0,62'
19-MAR-99 MWD 4404.89 16.16 46.37 93.54 4348.54 434.36 301.94 312.24 0.22 " -0.17 0.50
" SURVEY CALCULATION AND FIELD WORKSHEET Job No. 0451-04213 Sidetrack No. Page 3 of 4
Company ARCO ALASKA, INC. Rig Contractor & No. DOYON- 141 Field EXPLORATION
Well Name & No. FIORD#5 Survey Section Name SPERRY SUN BHI Rep.
Ijllll~r~l~ WELL DATA
Target TVD ('~r) Target Coord. N/S Slot Coord. N/S -738.83 Grid Correction 0.000 Depths Measured From: RKB ~] MSL r~ SSt-
Target Description Target Coord. E/W Slot Coord. E/W -433.83 Magn. Declination 26.490 Calculation Method MINIMUM CURVATURE
Target Direction (oD) Builc~Walk\DL per: lOOft~ 3Omni lOml-] Vert. Sec. Azim. 45.88 Magn. to Map Corr. 26.490 Map North to: OTHER
SURVEY DATA
Survey Survey Incl. Hole Course Vertical Total Coordinate Build Rate Walk Rate
Date Tool Depth Angle Direction Length TVD Section N(+) / S(-) E(+) / W(-) DL Build (+) Right (+) Comment
Type (FT) (DD) (oD) (Fl') (FT) (FT) (FT) (Per lO0 FT) Drop (-) Left (-)
19-MAR-99 MWD 4497.91 15.95 46.09 93.02 4437.93 460.08 319.74 330.82 0.24 -0.23 -0.30 6 3/4'MACH 1XL-AKO-1.2 DEG.
R-99 MWD 4590.59 14.22 46.25 92.68 4527.41 484.20 336.44 348.22 1.87 -1.87 0.17
--
--
19-MAR-99 MWD 4683.72 12.03 46.00 93.13 4618.10 505.35 351.10 363.46 2.35 -2.35 -0.27
19-MAR-99 MWD 4776.64 9.96 47.02 92.92 4709.31 523.06 383.30 376.31 2.24 -2.23 1.10
19-MAR-99 MWD 4870.46 9.38 46.92 93.82 4801.80 538.82 374.06 387.83 0.62 -0.62 -0.11
19-MAR-99 MWD 4964.94 9.13 46.35 94.48 4895.05 554.01 384.49 398.88 0.28 -0.26 -0.60
19-MAR-99 MWD 5055.76 9.01 46.14 90.82 4984.73 568.33 394.39 409.22 0.14 -0.13 -0.23
19-MAR-99 MWD 5149.52 8.80 46.10 93176 5077.36 582.84 404.45 419.68 0.22 -0.22 -0.04
19-MAR-99 MWD 5242.07 8.52 46.51 .92.55 5168.86 596.78 414.08 429.75 0.31 -0.30 0.44
19,MAR-99 MWD 5333.89 7.28 46.26 91.82 5259.80 609.40 422.78 438.89 1.35 -1.35 -0.27
19-MAR-99 MWD 5427.37 5.31 44.01 93.48 5352.72 619.65 429.99 446.18 2.12 -2.11 -2.41
19-MAR-99 MWD 5520.11 3.10 50.48 92.74 5445.20 626.44 434.67 451.09 2.43 -2.38
,
20-:I~rAR-99 MWD 5798.52 0.46 148.79 92.68 5723.55 629.45 435.54 454.45 0.12 0.03
20-MAR-99 MWD 5891.37 0.52 130.14 92.85 5816.40 629.41 434.95 454.96 '0.18 0.06
20-MAR-99 MWD 5984.48' 0.56 130.22 93.11 5909.50 629.50 434.39 455.63 0.04 0.04
20-MAR-99 MWD .6077.02 0.53 121.76 92.54 . 6002.04 629.65 433.87 456.34 · 0.09 -0.03 '
20-MAR-99 MWD 6171.24 0.58 124.37 94.22 ..6096.25 629.85 433.37 457.11 0.06 0.05
20-MAR-99 MWD 6263.12 0.74 144.56 91,88 6188.13 629.85 432.63 457.84 0.30 0.17
20-MAR-99 MWD 6358.58 0.71 164.95 95.46 6283.58 629.47 '431.55 458.35 0.27 -0.03
20-MAR-99 MWD 6448.96 0.56 166.98 90.38 6373.95 628.97 430.58 458.59 O. i 7 -0.17
20-MAR-99 MWD 6541.09 0.64 153.06 92.13 6466.08 628.59 429.68 458.93 0.18 0.09
20-MAR-99 MWD 6634.54 0.68 147.81 93.45 6559.52 628.32 428.75 459.46 0.08 0.04
i
SURVEY CALCULATION AND FIELD WORKSHEET
': ~~r~ i Job No. 0451-04213 Sidetrack No. ~ Page 4 of 4
I
Company ARCO ALASKA, INC. Rig Contractor & No. DOYON - 141 Field EXPLORATION
Well Name & No. FIORD#5 Survey Section Name SPERRY SUN BHI Rep.
I~"~"~~ WELL DATA
Target TVD (FT) Target Coord. N/S Slot Coord. N/S -738.83 Grid Correction 0.000 Depths Measured From: RKB ~] MSL ~ SS~
Target Description Target Coord. E/W Slot Coord. E/W -433.83 Magn. Declination 26.490 Calculation Method MINIMUM CURVATURE
Target Direction (OD) Build~Walk\DL per: lOOff~ 30m[-] lomE~ Vert. Sec. Azim. 45.88 Magn. to Map Corr. 26.490 Map North to: OTHER
SURVEY DATA
Survey Survey Incl. Hole Course Vertical Total Coordinate Build Rate Walk Rate
Date Tool Build (+) Right (+) Comment
Type Depth Angle Direction Length TVD Section N(+) / S(-) E(+) / W(-). DL
(F'r) (ELD) (OD) (FT) (FT~ (FT) (F'r) (Per 400 FT)I Drop (-) Left (-)
21-MAR-99 MWD 6727.15 0.80 134.89 92.61 6652.12 628.21 427.83 460.21 0.22 0.13 6 3/4'MACH 1XL-AKO-1.2 DEG.
2'1~::1-99 MWD 6819.66 0.96 135.87 92.51 6744.62 628.23 426.82 461.21 O. 17 O. 17 ~'"'
21 -MAR-99 MWD 6912.53 0.89 121.37 92.87 6837.48 628.41 425.88 462.36 0.26 -0.08
21 'MAR-99 MWD 7005.29 0.84 132.46 92.76 6930.23 628.63 425.05 463.48 O. 19 -0.05
21-MAR-99 MWD 7098.66 0.91 120.91 93.37 7023.59 628.86 424.21 464.62 0.20 0.07
21-MAR-99 MWD 7190.81 0.95 114.11 92.15 7115.73 629.33 423.52 465.95 0.13 0.04
21-MAR-99 MWD 7283.51 0.94 108.05 92.70 7208.41 629.97 422.97 467.37 0.11 -0.01
21-MAR-99 MWD 7344.80 0.90 106.96 61.29 7269.70 630.44 422.67 468.31 0.07 -0.07 PROJECTED TO TD
21-MAR-99 MWD 7410.00 0.90 106.96 65.20 7334.89 630.94 422.37 469.29 0.00 0.00 CLO. DIST=631.37'AZ1=48.01
I
·
.
,
im ii
SURVEY
CALCULATION AND FIELD WORKSHEET Job No. 0451-04213 Sidetrack No. I Page 1 of 1
I-'Ll£~-'l::::(,~-~ Company ARCO ALASKA, INC. Rig Contractor& No. DOYON- 141 Field EXPLORATION
iJll" Well Name & No. FIORD#5 . Survey Section Name SPERRY SUN BHI Rep.
WELL DATA
Target TVD (FT) Target Coord. N/S Slot Coord. N/S -738.83 Grid Correction 0.000 Depths Measured From: RKB ~ MSL ~ SS~
Target Description Target Coord. E/W Slot Coord. E/W -4,33.83 Magn. Declination 29.490 Calculation Method MINIMUM CURVATURE
Target Direction (DD) Build~Walk\DL per: lOOft~ 30ml-I 1Omi-] Vert. Sec. Azim. 45.88 Magn. to Map Corr. 29.490 Map North to: OTHER
SURVEY DATA
Survey Survey Incl. Hole Course Vertical Total Coordinate Build Rate Walk Rate
Date Tool Depth Angle Direction Length TVD Section N(+) / S(-) E(+) / W(-) DL Build (+) Right (+) Comment
Type (F'r) (DD) (DD) (FT) (F-I~ (FT) (FT) (Per 100 FT) Drop (-) Left (-)
MWD 5520.11 3.10 50.48 ~ 5445.20 626.49 434.67 451.09 TIE IN POINT
28'/.99 MWD 5582.02 2.67 59.26 61.91 5507.03 629.50 436.47 453.62 0.99 -0.69 HOLE SURVEY @ START OF SIDE-TI:i/(
28-MAR-99 MWD 5875.36 7.04 79.86 93.34 5600.02 636.36 438.59 461.12 4.97 4.68 22.07
28-MAR-99 MWD 5774.32' 10.38 83.51 98.96 5697.83 648.46 440.67 475.96 3.42 3.38 3.69
28-MAR-99 MWD 5866.30 12.35 92.54 91.98 5788.01 661.77 441.17 494.02 2.88 2.14 9.82
28-MAR-99 MWD 5958.60 13.54 102.87 92.30 5877.97 674.44 438.32 514.42 2.81 1.29 11.19
28-MAR-99 MWD 6049.65 13.18 106.52 91.05 5966.56 685.33 433.00 534.76 1.01 -0.40 4.01
..,
28-MAR-99 MWD 6144.45 12.51 114.83 94.80 6058.99 694132 425.61 554.44 2.07 -0.71 8.77
28-MAR-99 MWD 6235.48 11.91 114.02 91.03 6147.'96 701.36 417.65 571.97 0.69 -0.66 -0.89
28-MAR-99 MWD 6330.01 9.12 115.13 94.53 6240.90 707.65 410.50 587.66 2.96 -2.95 .1.17
-,
28-MAR-99 MWD 6422.49 5.74 126.39 92.48 6332.59 711.01 404.64 598.03 3.96 -3.65 12.18
29-MAR-99 MWD 6509.59 2.95 130.91 87.10 6419.43 711.92 400.58 603.23 3.22 -3.20
29-MAR-99 MWD 6602.11 1.60 146.32 92.52 6511.88 711.89 397.95 605.74 1.59 -1.46
29q1~99 MWD 6695.48 1.39 149.80 93.37 6605.22 711.38 395.89 607.04 0.24 -0.22
·
29-MAR-99 MWD 6788.14 1,38 152.42 92.66 6697.85 710.79 393.93 608.12 0.07 -0.01
29-MAR-99 MWD 6881.55 1.21 153.52 93.41 6791.24 710.18 392.05 609.08 0.18 -0.18
,.. U I L311 I_
30-MAR-99 MWD 7042.90 0.95 150.71 92.48 6952.56 709.35 389.38 610.51 O. 1.5 .-0.15
31 ,MAR-99 MWD 7134.03 0.93 147.46 91.13. 7043.68 709.01 388.10 611.28 0.06 -0.02
31-MAR-99 MWD ' 7223;88 0.68 141.37 89.85. 7133;52 708;81 387.07 612.01 0.29 -0.28
31 -MAR-99 MWD 7317.10 0.60 122.73 93.22 7226.73 708.87 386.37 612.76 0.24 -0.09
31 -MAR-99 MWD 7410.28 0.44 96;52 93. 18 7319.91 709.21 386.07 '613.53 0.30 -0.17
31 -MAR-99 MWD 7456.07 0.41 90.34 45.79 7365.70. 709.44 386.05 613.87 O. 12 -0.07
,~.
31 -MAR-99 MWD 7490.00 0.41 90.34 33.93 7399.63 709.61 386.04 614.11 0.00 0.00 PROJECTED TO TD
TONY KNOWLES, GOVERNOR
ALASKA OIL AND GAS
CONSERVATION COHH]SSION
3001 PORCUPINE DRIVE
ANCHORAGE, ALASKA 99501-3192
PHONE: (907) 279-1433
FAX: (907) 276-7542
September 8, 1999
Jim Ruud, Manager
Land Department, ATO 1470
ARCO Alaska, Inc.
P O Box 100360
Anchorage, Alaska 99510-0360
Re:
Location Clearance, Three North Slope Wells-
Meltwater South #1 and Fiord wells #4 & #5
Dear Mr. Ruud:
On August 3, 1999 DNR/DOL's Natural Resource Officer, Leon Lynch inspected three
North Slope locations for closure. He recommended closure for the following three North
Slope exploratory wells:
Well Name PTD No.
Meltwater South #1 99-006
Fiord #4 99~0 ltl__
Fiord #5 ~,02~..~~
Final iLocation Clearance is hereby approved for the three above listed ARCO North Slope
exploratory wells. The Commission will require no additional work on subject wells;
however, ARCO remains liable if problems with the wells occur in the future.
Sincerely,,,/ / ,
Robert 'N. Christenson
Chairman
cc: Blair Wondzell
Leon Lynch, DNR/DOL
Lcar3ns99.DOC
MEMORANDUM
State of Alaska - Department of Natural Resources - Division of Land
3700 Airport Way, Fairbanks, AK 99709-4613
To:
Blair Wondzell
AOGCC
DATE: August 26, 1999
THRU:
FraE No.'
FROM:
Leon Lynch
Natural Resource Officer
E-MAIL ADDRESS:
'.~
,'
TELEPHONE:451-2724
l eonl@dnr, state, ak. us
SUBJECT: WELL INSPECTIONS
As you know, ARCO failed to contact the Commission prior to scheduled exploration well
inspections during the first week in August 1999. To avoid having ARCO make two trips
to these remote sites I offered to take pictures of the following well sites for the
Commission and you agreed to this arrangement.
In general I found all the well sites to be in good order. They were clear of trash and
debris and with the exception of Fiord #4, there was adequate mounding around well
cellar to prevent ponding. Fiord 4 was on a mud flat subject to tide action and no mound
was present. The pilot had been to the Fiord 4 location prior to my visit with an ARCO
surveyor, and by using the same GPS coordinates, he was confident of general well
location
I am enclosing the following photos taken from helicopter: I apologize for the Red Dog
photos but as John Spaulding can attest it was a very foggy day; the pilot got in and out
fast.
Photos #1 and #2 Red Dog.
Photo #3, Meltwater South.
Photo #4, Fiord #5. --- -
Photo #5 Fiord #4. - -
\Veil Inspections
Subject: Re: Well Inspections
Date: Tue, 07 Sep 1999 08:34:00 -0800
From: Blair Wondzell <blair wondzell@admin.state.ak.us>
Organization: State of Alaska, Dept of Admin, Oil & Gas
To: Leon Lynch <teonI@dnr.state.ak.us>
Thanks for your memo.
Blair
Leon Lyl/ch wrote:
All the sites were acceptable to DNR for closure as Zhey were free of
trash and debris. As I understand it, the Con~nission also checks to see
if P/A wells have sufficienu mounding around well cellar to prevent
ponding. This requirement was satisfied at MeltwaEer South and Fiord 5.
Fiord 4 was drilled on a tidal flat and subject to wave action- no mound
was located. Red Dog was suspended. Please cal me if you have any
further questions.
Blair Wondzell wrote:
> Thanks for the photos of rhe well inspections you did in early August.
> Could you please find the date of the inspecEion ~rip. if I undersrand
> the wording in your letter to me, your found all sites accepEable to
> DNR; Red Dog for suspension and Meltwater South, Fiord 4, and Fiord 5
> Leon, I appreciate your help.
> Thanks, Blair 9/2/99
1 ofl 9/7/99 8:34AM
ARCO Alaska, Inc.
Post Office Box 100360
Anchorage, Alaska 99510-0360
Telephone 907 276 1215
June 29, 1999
Mr. Robert N. Christenson
Commissioner
State of Alaska
Alaska Oil & Gas Conservation Commission
3001 Porcupine Drive
Anchorage, Alaska 99501
Subject: Fiord #5 Addendum to Well Completion Report
Dear Mr. Commissioner:
ARCO Alaska, Inc., as operator of the exploration well Fiord #5, is sending the
enclosed addendum to the "Well Completion Report" (form 407). The addendum covers the
abandonment procedure in more detail.
The Commission is requested to keep confidential the enclosed information due to the exploratory
nature of the well.
If you have any questions regarding this matter, contact me at 263-4603.
Sincerely,
P. Mazzolini
Exploration/Tam/Tabasco Team Leader
AAI Drilling
PM/skad
'REC'[i'V[D
Alaska 0il & Gas Cons. Oommissior',
Anchorage
FIORD #5 ABANDONMENT
PJSM,PLUG & ABANDON WELL THRU TUBING. PUMP 2 BBL H20 AHEAD FOLLOWED BY
30 BBL CLASS G CEMENT @ 15.8 PPG, FOLLOW W/3 BBL H20 AND 10.2PPG BRINE.
DISPLACE TO 6451' ~ 9 BBL CEMENT IN PERFS OR SQUEEZED AWAY. CIP @ 0030 HR.,
RIG UP TO 9-5/8" X 7" ANNULUS PUMP 2 BBL H20 FOLLOWED BY 43 BBL 15.7 PPG
ARCTIC SET 1 CEMENT. CIP @ 0115 HRS. WAIT ON CEMENT.
PJSM, RADIO SILENCE, RIG UP SCHLUMBERGER, RIH W/BLIND BOX & TAG CEMENT
@ 6451', POH, RIG UP 3-1/2" BAKER BRIDGE PLUG ON SCHLUMBERGER, RIH & SET
@325'. POH, R/U TUBING PERF GUN & RIH. PERF W/9 SHOTS F/315-317', POH & RIG
DOWN.
PJSM, RIG UP DOWELL, CIRCULATE BRINE DOWN TUBING & UP ANNULUS. SHUT
DOWN ALLOW BRINE TO SETTLE IN ANNULUS, PUMP BRINE DOWN TBG & UP
ANNULUS, IMMEDIATE RETURNS SECOND TIME INDICATING THAT ANNULUS WAS
FULL. MIX & PUMP ARCTIC SET 1 CEMENT @ 15.7 PPG DOWN TUBING & UP
ANNULUS TO SURFACE. CIP @ 1100 HR. WAIT ON CEMENT.
WAIT ON CEMENT UNTIL 1500 HR, REMOVE WELLHEAD, CEMENT DOWN ~50 FEET IN
TUBING. CUT OFF STARTING HEAD TO EXPOSE ANNULUS. CMT NOT SET IN 9-5/8 X
7" ANNULUS CMT LEVEL DOWN IN 7 X 3-1/2 ANNULUS & TBG. SENT F/ADDITIONAL
CEMENT & WARM WATER. WHILE WAITING ON CEMENT DUG DOWN AROUND
CONDUCTOR & CUT OFF ALL STRINGS 3' BELOW GROUND LEVEL.
PJSM, TOP SET ALL ANNULUS & TUBING WI30' OF 1" PIPE WI117 SX (19.3 BBL)
ARCTIC SET 1 CEMENT @ 15.7 PPG. ClP @ 2345 HR. WELDED 16" ROUND FLAT
PLATE TO TOP OF 16" CONDUCTOR. RIG DOWN EQUIPMENT. ALL OF ABOVE
INCLUDING BOTTOM PLUG TAG WITNESSED BY CHUCK SHEAVEY- AOGCC. CAMP,
TRUCK SHOP, SEWAGE TREATMENT PLANT AND ALL TEST EQUIPMENT
DEMOBILIZED.
P. MAZZOLINI
6/29/99
S ,'=2NT BY'
ARCO ALASKA~
907 276 7542'# 2/ 2
FIORD #5 ABANDONMENT
PJSM,PLUG & ABANDON WELL THRU TUBING. PUMP 2 BBL H20 AHEAD FOLLOWED BY
30 BBL CLASS G CEMENT ~ 15.8 PPG, FOLLOW WI3 BBL H20 AND IO.2PPG BRINE.
DISPLACE TO 6451' - 9 BBL CEMENT IN PERFS OR SQUEEZED AWAY. CIP @ 0030 HR.,
RIG UP TO 9-5/8" X 7" ANNULUS PUMP 2 BBL H20 FOLLOWED BY 43 BBL 15.7 PPG
ARCTIC SET 1 CEMENT. ClP @ 0115 HRS. WAIT ON CEMENT. '
PJSM, RADIO SILENCE, RIG UP SCHLUMBERGER, RIH W/BLIND BOX & TAG CEMENT
@ 6451', POH, RIG UP 3-112" BAKER BRIDGE PLUG ON SCHLUMBERGER, RIH & SET
@325'. POH, RIU TUBING PERF GUN & RIH. PERF W/9 SHOTS FI315-317', POH & RIG
DOWN.
PJSM, RIG UP DOWELL, CIRCULATE BRINE DOWN TUBING & UP ANNULUS. SHUT
DOWN ALLOW BRINE TO SETTLE IN ANNULUS, PUMP BRINE DOWN TBG& UP
ANNULUS, IMMEDIATE RETURNS SECOND TIME INDICATING THAT ANNULUS WAS
FULL. MIX & PUMP ARCTIC SET 1 CEMENT @ 15.7 PPG DOWN TUBING & UP
ANNULUS TO SURFACE. ClP @ 1100 HR. WAIT ON CEMENT.
WAIT ON CEMENT UNTIL 1500 HR, REMOVE WELLHEAD, CEMENT DOWN -50 FEET IN
TUBING. CUT OFF STARTING HEAD TO EXPOSE ANNULUS, CMT NOT SET IN 9-5/8 X
7" ANNULUS CMT LEVEL DOWN IN 7 X 3-112 ANNULUS &TBG. SENT F/ADDITIONAL
CEMENT & WARM WATER. WHILE WAITING ON CEMENT DUG DOWN AROUND
CONDUCTOR & CUT OFF ALL STRINGS 3' BELOW GROUND LEVEL.
PJSM, TOP SET ALL ANNULUS & TUBING WI30' OF 1" PIPE W/117 SX (19.3 BBL)
ARCTIC SET 1 CEMENT @ 15.7 PPG. CIP @ 2345 HR. WELDED 16" ROUND FLAT
PLATE TO TOP OF 16" CONDUCTOR. RIG DOWN EQUIPMENT. ALL OF ABOVE
INCLUDING BOTTOM PLUG TAG WITNESSED BY CHUCK SHEAVEY- AOGCC. CAMP,
TRUCK SHOP, SEWAGE TREATMENT PLANT AND ALL TEST EQUIPMENT
DEMOBILIZED.
P. MAZZOLINI
6/29/99
PLUGGIL~J~ & LOCATION CLEA~_NCE REPORT
State of Alaska
' -' "' · ~ r N'O.
,'<'em~_-a?_cu2. "_c : ii=-: .-_ _
Well ~xra~e ~rc~ ~_~-
,
Review the well file, and-c~en: on piuqqJ_nq, well head
sCat'as, a~d !ocaticn ~!ea~r~nce - ~rovide loc. clear, code.
' ~ -~ ,, ''/
Well kead c~: off: U~"
. / - .~j.~~ ~. ~ ~ ~. ~,_g~
Marker ~os~ or pla=e: t 1~,~ ~
ri F! I L_/I hJ I:S SE FI~JI I-- EE S
WEI,I, LOG TRANSMITFAL
To: State of Alaska May 20, 1999
Al~qka Oil and Gas Conservation Comm.
Atm.: Loft Taylor
3001 Porcupine Dr.
Anchorage, Alaska 99501
MWD Formation Evaluation Logs
Fiord 5, AK-MM-90096
1 LDWG formatted Disc with verification listing.
APIg: 50-103-20292-00
PLEASE ACKNOWLEDGE RECEH'T BY SIGNING AND RETURNING THE ATTACi~D COPY
OF THE TRANSM1TFAL LETTER TO TItE ATTENTION OF:
Sperry-Sun Drilling Servi~
Attn: Jim Gal~
5631 Silverado Way, Suite G.
, IAY 1999
Date:
.~aska gil & ~ C,~s, Commission
This Data replaces any previous
Data for well: Fiord 5
5631 Silverado Way, Suite G · Anchorage, Alaska 99518 · (907) 273-3500 · Fax (907) 273-3535
A Halliburton Company
0 F! I I--I_1N G SEI~JI i-- E S
To: State of Alaska April 29, 1999
Alaska Oil and Gas Conservation Comm.
Atm.: Loft Taylor
3001 Porcupine Dr.
Anchorage, Alaska 99501
MWD Formation Evaluation Logs
Fiord 5PB 1, AK-MM-90096
1 LDWG formatted Disc with verification listing.
API#: 50-103-20292-70
PLEASE ACKNO~E RECElPT BY SIGNING AND RETURNING THE ATTACHI?~i) CoPY
OF TItE TRANSMITTAL LETTER TO Ting ATTENTION OF:
Sperry-Sun Drilling Service
Atto:/run Galvin
5631 Silverado Way, Suite G.
Anchorage, Alaska 99518
RECEIVED
A~aska 0il & Gas Cons. Commiss'mn
Anchorage
5631 Silvemdo Way, Suite G · Anchorage, Alaska 99518 · (907) 273-3500 · Fax (907) 273-3535
A Halliburton Company
From: Core Laboratories
600 W. 58th Ave., Unit D
Anchorage, Alaska
99518
Core Laboratories - Alaska
To: Alaska Oil & Gas Conservation Commissio~
3001 Porcupine Drive
Anchorage, Alaska
99501
Date: APRIL 26 1999
Well Name:
ARCO ALASKA INC FIORD#5
Number of Samples: 65 TOTAL
Contact: GERRY VAN KOOTEN
Description of Material: Core Chip Samples
Depths: CORE 1' 7016-7020,1
CORE 2:7021-7083
Sent By:
Core Laboratories
Received By:
RECEIVED
APR
MEMORANDUM
State of Alaska
TO:
Alaska Oil and Gas Conservation Commission
Robert Christenson(~~ DATE: April 23, 1999
Chairman
THRU: Blair Wondzell, ~ FILE NO: p99kwgf, doc
P. I. Supervisor ~(-z.,~ J~
FROM: Chuck Scheve; £,~ SUBJECT:
Petroleum Inspector
Perforation Cement Plug
Fiord # 5
PTD# 99-20
Friday, April 23, 1999: I traveled to ARCO's Fiord #5 exploritory well to witness
the tagging of a perforation cement plug to abandon this well.
The cement plug (30 bbls of class G)was bullheaded from surface down the 31/2"
production tubing to a calculated top of cement 6500'. A final squeeze pressure of
1100 psi was attained and held on the plug for 4 hours. Wire line was then run in
the hole and cement tagged inside tubing at 6451. The top perforation is at 6680'
bottom perf at 7064', PBTD of the 7"casing is 7150' and the production packer is at
6712.
Summary: I witnessed the tagging of the perforation cement plug on ARCO's
Fiord #5 exploritory well.
Attachment:
Unclassified X Confidential
MEMORANDUM
TO:
Robert Christenson,~
Chairman
THRU:
Blair Wondzell,
P. I. Supervisor
State of Alaska
Alaska Oil and Gas Conservation Commission
DATE: April 23, 1999
FILE NO: y99kdwgf, doc
FROM: Chuck Scheve, ~'- ~ SUBJECT:
Petroleum Inspector
Surface Abandonment
Fiord #5
PTD#99-20
Friday, April 23,1999: I traveled to Arco's Fiord #5 location to inspect the casing cut off
and abandonment of this well.
The 16"conductor, 9 518" surface casing, 7" production casing and 3 %"tubing were cut
off at 4' below ground level (6'+ below Pad level) and all casing strings were found to be
full of fluid with no hard cement observed. The 3 %" and 7" were full of cement that had
not set up and the 9 5/8"and 16" were full of water. A strapping tape with plumb bob was
lowered into each of the casing strings and found restrictions (hard cement) at 31' in the
16", 21' in the 9 5/8 and 40' in the 7" and 3 %. One inch pipe was run in the hole to the
above mentioned depths and all strings were fully cemented.
A 5/8"thick marker plate was welded to the casing with, operator name, well name and
APl # bead welded to it.
Gravel will be placed in the cellar and the location will need to be inspected in the
summer months. At the time of this inspection some miscellaneous rig equipment and
minor debris remained on location but were being removed.
SUMMARY: I inspected the surface cement plug, casing cut off depth, and the P&A
marker plate on Arco's Fiord #5 exploration well.
Attachments:
Unclassified X Classified
Unclassified with Document Removed
STATE OF ALASKA ~,
ALA 'r,,A OIL AND GAS CONSERVATION COMM,oSION
APPLICATION FOR SUNDRY APPROVALS
1. Type of Request: Abandon X
Alter casing _
Change approved program__
2. Name of Operator
ARCO Alaska, Inc.
3. Address
P. O. Box 100360, Anchorage, AK 99510
4. Location of well at surface
739' FNL, 437' FEL, Sec. 32, T13N, R5E, UM
At top of productive interval
353' FNL, 179' FWL, Sec. 33, T13N, R5E, UM
At effective depth
353' FNL, 179' FWL, Sec. 33, T13N, R5E, UM
At total depth
353' FNL, 179' FWL, Sec. 33, T13N, R5E, UM
Suspend _ Operation Shutdown__ Re-enter suspended well _
Repair well _ Plugging __ Time extension Stimulate_
Pull tubing _ Variance __ P~-rforate __ Other
5. Type of Well: 6. Datum elevation (DF or KB)
Development
Exploratory X 28' RKB, Pad 6'
Stratigraphic__ 7. Unit or Property name
Service N/A
8. Well number
FIORD #5
feet
9. Permit number
99-20
10. APl number
50-103-20292
11. Field/Pool
Colville River Unit
12. Present well condition summary
Total Depth: measured 7490
(approx) true vertical 7400
Effective depth: measured 7150
(approx) true vertical 7060
Casing Length Size
Structural
Conductor 80' 16"
Surface 1953' 9.625"
Intermediate na
Production 7456' 7"
Perforation depth:
feet
feet
feet
feet
measured
7024'-7064'
6880'-6895' (proposed)
true vertical
6834'-6974' & 6790'-6805' (proposed)
Plugs (measured) None
Junk(measured)
Cemented
Measured depth
200 cu. Ft. 108'
480 sx AS III LW & 1981'
230 sx Class G
400 sx Class G Lead 7484'
plus 245 sx Class G Tail
True vertical depth
108'
1981'
7394'
Tubing (size, grade, and measured depth)
3.5", 9.3#, L-80 @ 6830' MD
Packers and SSSV (type and measured depth)
Baker FB1 Pkr @ 6712' MD
ORIGI'NAL
13. Attachments Description summary of proposal X Detailed operation program BOP sketch
Contact Paul Mazzolini at 263-4603 with any questions. L--"O-T test, surface cement details and casing~'¥tail sheets __ _
14. Estimated date for commencing operation 15. Status of well classification as:
4/15/99 Oil Gas
16. If proposal was verbally approved
Name of approver Blair Wondzell Date approved 411199 Service
17. I hereb[certify that the foregoing ~s true and correct to the best of my knowledge.
P<~Pau/YllYM/~03 Title Ex ploration/TarnFFabascoTeamLeader
Signed
FOR COMMISSION USE ONLY
Suspended. X
Date
Conditions of approval: No~tify Commission so represeptative may witness (.,;
Plug integrity~ BOP Test V Location clearance
Mechanical Integrity Test_ Subseque~'form require 10-?_.~
IIApproval No ~~.~,~ ~ ~
Approved by the order of the Commission
Form 10-403 Rev 06/15/88
ORIGINAL SIGNED Ry
Robert N. Chdstenson
Commissioner Date
SUBMIT IN TRIPLICATE
~ GO?J,, i"' ': '~ .... "~"~ it '~ ~' ~f ......
ARCO Alaska, Inc. (
Post Office Box 100360
Anchorage, Alaska 99510-0360
April 6, 1999
Blair Wondzell
Alaska Oil and Gas Conservation Commission
3001 Porcupine Drive
Anchorage, AK 99501-3192
Re:
Sundry Notice for P&A of FIORD #5 Exploration Well- CONFIDENTIAL
Surface Location: ?39' FNL 43?' FEL Sec 32 T13N RSE, UM
Target Location: 353' FNL, 179' FWL Sec. 33, T13N, RSE, UM
Bottom Hole Location: 353' FNL, 179' FWL Sec. 33, T13N, RSE, UM
Dear Blair,
ARCO Alaska, Inc. hereby files this sundry for the plug and abandonment of
the FIORD #5 exploration well. The well has been completed and perforated
in the Nechelik sand interval and we are currently rigging up to stimulate and
flow test this interval. After the Nechelik test is finalized, the Kuparuk interval
will be perforated and a combined test will ensue. If time allows a separate
Kuparuk test will be conducted. We are targeting April 15th for completion of
the testing phase, followed by the plug and abandonment of the wellbore.
This time period could be extended as needed if weather conditions and
tundra travel allows. This procedure is identical to the draft proposed by
Tom Brassfield earlier except depths and volumes have changed to reflect
final completion numbers.
If you have questions or require additional information, please contact Tom
Brassfield at 265-6377 or me at 263-4603 in our Anchorage office.
Sincerely,
Paul Mazzolini
Drilling Team Leader
Exploration / Tarn / Tabasco Development Group
Attachments
cc: FIORD #5 Well File
ARCO Alaska, Inc. is a Subsidiary of AtlanticRichfieldCompauy
.
.. .
!' FIORD #5 Final P&A 'i
CONFIDENTIAL
Notify AOGCC 24 hours in advance of all pressure testing and well suspension
operations. Hold pre-job meeting with all personnel to discuss objectives, as well as
safety and environmental issues.
Rig up slickline unit and set dummy valves in GLM's at 6773', 6742', and 2497'. Pull
the dummy from the GLM above the packer at 6626'. RD slickline.
3. Mobilize and rig up DIS for well P&A operation.
.
.
,
Bullhead 10.0 ppg fluid to the tubing tail. Displace 3-1/2" x 7" annulus to 10.0 ppg
fluid. RU wireline and set dummy Valve in GLM at 6626'. RD wireline unit.
Rig up DIS to tree and establish injection rates into perforations. Mix approx. 20 bbls.
cement (Class G with additives) and pump down tubing into the peforations. Pump
enough slurry (12 bbl) to cover PBTD to tubing tail, leaving remaining slurry in tubing.
Hesitate squeeze cement into perfs as required- do not displace top of cement past
6730' MD. Dipslace cement with 10.0 ppg fluid.
Rig up wireline unit and RIH to tag top of cement plug to verify placement. Record
and report results. AOGCC may want to witness tag of cement.
RIH with 2.795 gauge ring to 350'. Set tubing plug in collar stop at approx. 310'. Make
up Kinley perforator gun and perforate tubing at approx. 300'. POOH and RD wireline
unit.
RU DIS and circulate surface cement plug (approx. 10.5 bbls. Arctic Set 1) down
tubing into tubing/casing annulus to surface.
NOTE: Notify Slope AOGCC Inspector before setting surface plug.
RU cementing unit to 7" x 9-5/8" annulus. Establish injection rate down annulus with
fresh water followed by approx. 43 bbls of Arctic Set cement slurry to fill annulus to
1500' MD.
10. Clear lines and shut down pumps. Rig down cementing unit and clean up.
11.
12.
13.
Cut off wellhead and all casing strings at 3 feet below original ground level. Send
casing head with stub to Materials for repair / re-dressing.
Weld cover plate over all casing strings with the following information bead welded
into the top:
ARCO ALASKA, INC
FIORD #5
APl# 50-103-20292
Remove cellar. Back fill cellar with gravel as needed. Back fill remaining hole to
ground level with gravel. Clear ice pad location and demob all materials and
equipment.
TJB 4/7/99 File:FIORD #5
Blair Wondzell w/AOGCC Date
ARCO
Subject
· "%
._ __
.,,
calculations Cha
Isheet number ~' of {~
·
I
I
I _ _.
~16L~e
QUALITY LITHO PRINTING. ANCHORAGE, AK (907) 563-4743
159-5881
ARCO Alaska, Inc. ~
Post Office Box 100360
Anchorage, Alaska 99510-0360
April 6, 1999
Blair Wondzell
Alaska Oil and Gas Conservation Commission
3001 Porcupine Drive
Anchorage, AK 99501-3192
Re:
Sundry Notice for P&A of FIORD #5 Exploration Well- CONFIDENTIAL
Surface Location: 739' FNL 437' FEL Sec 32 T13N R5E, UM
Target Location: 353' FNL, 179' FWL Sec. 33, T13N, R5E, UM
Bottom Hole Location: 353' FNL, 179' FWL Sec. 33, T13N, R5E, UM
Dear Blair,
ARCO Alaska, Inc. hereby files this sundry for the plug and abandonment of
the FIORD #5 exploration well. The well has been completed and perforated
in the Nechelik sand interval and we are currently rigging up to stimulate and
flow test this interval. After the Nechelik test is finalized, the Kuparuk interval
will be perforated and a combined test will ensue. If time allows a separate
Kuparuk test will be conducted. We are targeting April 15th for completion of
the testing phase, followed by the plug and abandonment of the wellbore.
This time period could be extended as needed if weather conditions and
tundra travel allows. This procedure is identical to the draft proposed by
Tom Brassfield earlier except depths and volumes have changed to reflect
final completion numbers.
If you have questions or require additional information, please contact Tom
Brassfield at 265-6377 or me at 263-4603 in our Anchorage office.
Sincerely,
Paul Mazzolini
Drilling Team Leader
Exploration / Tarn / Tabasco Development Group
Attachments
cc: FIORD #5 Well File
ARCO Alaska, Inc. is a Subsidiary of AllanticRichfieldCompany
3ENT Bf'
4- 1-59 'll'12AM '
ARCO Alaska, Inc. ,~~
FACSIMILE
TRANSMISSl0, N., _ ~
- -'.
:~0---~.,, _ . .._: .. .....
Copies Ta:
Subject:
ARCO ALASKA~
907 276 7542'# 11 3
~9 -o ao
Kuparuk Development
P. O. BOX 100360
ANCHORAGE, AK 99510-0360
FAX # 907 265-6224
ATO-1279 " '.
_
':'- : ~-~-:'-
FAX.: .... _. 2 ~ _ . _
p~o.. ,,: _ 2. yn -/~J,._:
BY:
.
.
8~
10.
12.
13.
4- 1-59 ;ll'12Al~ ; ARCO ALASKA~
PROPOSED FIORD #5 Final P&~
CONFIDENTIAL
Notify AOGCC 24 hours in advance of all pressure testing and well suspension
operations. Hold pre-job meeting with all personnel to discuss objectives, as well as
safety and environmental issues.
907 276 7~42;# 2/ 3
Rig up slickline unit and set dummy valves in all GLM's.
Mobilize and rig up DIS for well P&A operation,
Rig up DIS to tree and establish injection rates into perforations. Mix approx. 30 bbls.
cement (Class G with additives) and pump down tubing into the peforations. Pump
enough slurry (22 bbl) to cover PBTD to tubing tail, leaving remaining slur~/in tubing.
Hesitate squeeze cement into parrs as required- cio not displace top of cement past
6730' MD. Dtpslace cement with 10.0 ppg fluid.
Rig up wimline unit and RIH to tag top of cement plug to verify placement. Record
and report results. AOGCC may want to witness tag of cement.
RIH and pull dummy valve in GLM above packer at approx. 6627' MD, Displace 3-
112" x 7" annulus to 10.00 ppg fluid, Set dummy Valve in GLM and RD wireline unit.
RIH with 2,795 gauge ring to 350', Set tubing plug in collar stop at approx. 310'. Make
up Kinley perforator gun and perforate [ubing at approx. 300'. POOH and RD wireline
unit,
RU DIS and circulate surface cement plug (Arctic Set 1 ) down tubing into
tubing/casing annulus to) suKace,
NOTE: Notify Slope AOGCC Inspector before setting surface plug.
RU cementing unit to 7" x 9-5/8" annulus. Establish injection rate down annulus with
fresh water followed by approx, 43 bbls of Arctic Set cer~ent slurry to fill annulus to
1500' MD.
Clear lines and shut down pumps. Rig down cementing unit and clean up,
Cut off wellhead and all casing strings at 3 feet below original ground level. Send
casing head with stub to Materials for repair / re-dressing
Weld cover plate over all casing strings witl~ the following information bead welded
into the top;
ARCO ALASKA, INC
FIORD #5
APl# 50-103-20292
Remove cellar. Back fill cellar with gravel as needed. Back fill remaining hole to
ground level with gravel, Clear ice pad location and demob all materials and
equipment.
TJB 3/31/99 File;FIORD #5
Paul Mazzolini Date
Exploration/Tarn Team Leader
Blair Wondzell w/AOGCC Date
~T BY:
ARCO
Su~,iect f T_, O fd f3. ~.~_.
._
Filu
~CO AIZSKA~ 907 276 7542;# 3/ 3
C
Calculations Cha~
Sheet number ~
\ '
6/.,.~ ¢ f. Cv~ "x,,
,.2,I
I0.0
QU~LII'T LIbel-lO PRIHTII',I~. ANCHORitiC. AK 1'90rl SO,.~4T4g
FI OI/xD #5
Subject: FIORD #5
Date: Tue, 23 Mar 1999 10:22:26 -1000
From: "Tom J Brassfield" <TBRASS~mail.aai.arco.com>
To: blair_wondzell~admin.state.ak.us
CC: "Paul Mazzolini" <PMAZZOL@mail.aai.arco.com>
CONFIDENTIAL
Blair, attached is a general procedure for plugging the FIORD #5 pilot hole and
drilling/coring FIORD #5. We are currently completing the logging of the pilot
hole and waiting on a final decision from Management to continue forward. The
current and proposed bottom hole locations are given at the bottom of the
procedure. Any questions, please call me at 265-6377.
Thanks, Tom
(See attached file: AOGCC Fiord 5 PH plug by TJB 3 23 99.rtf)
.
I~AOGCC Fiord 5 PH plug by TJB 3 23 99.rtl
Name: AOGCC Fiord 5 PH plug by TJB 3 23
99.rtf
Type: Winword File (application/rtf)
Encoding: base64
Description: Rich Text Format
1 of 1 3/24/99 3:35 PM
CONFIDENTIAL
PROCEDURE for plugging Pilot Hole
FIORD #5
1. Notify AOGCC 24 hours in advance of all pressure testing and well suspension operations. Hold
pre-job meeting with personnel to discuss objectives, as well as safety and environmental issues.
2. Mobilize and rig-up Dowell for lower abandonment plug and the upper kick-off plug.
3. RIH and spot a cement plug from TD at 7410' MD to 6700' MD (710'). Top stain at 6870' MD. No
need to tag the plug, as we are setting plug from TD of the well.
4. POH to 5850' MD and spot a kick-off cement plug from 5850' to 5550' MD.
5. Directionally drill 8-1/2" hole to approx. 7483' MD (7389' TVD) TD, coring as directed by the
wellsite Geologist.
6. Run open hole evaluation logs.
7. Run 7", 26#, L-80, BTC-M production casing.
9. RU Schlumberger and run USIT bond log across intervals of interest.
10. Pressure test casing to 3500 psi.
11. Complete the well with 3-1/2", 9.3#, L-80, EUE 8rd tubing and tubing conveyed perforating guns.
ND BOPE. NU upper tree and test to 5,000 psi. Perforate well.
12. Shut in and secure well. RDMO Doyon #141.
13. Hook up well for flow testing to surface tanks. Produced fluids to be trucked to Kuparuk
production facilities.
14. Test zones as appropriate, abandoning each using a CTU. When complete, plug and abandon
the well as per AOGCC regulations and RDMO CTU.
15. Thoroughly clean location and block off access ice road.
FIORD #5 pilot hole BHL as of 3/22/99: 316' FNL, 35' FWL, Sec. 33, T13N, R5E, UM
Proposed FIORD #5 BHL:
Paul Mazzolini
Exploration/Tarn Team Leader
TJB 3/23/99 FILE: FIORD #5
378'FNL, 195' FWL, Sec. 33, T13N, R5E, UM
ALASKA OIL AND GAS CONSERVATION COMMISSION
3001 Porcupine Drive
Anchorage, AK 99501-3192
ph: (907) 279-1433
fax: (907) 276-7542
Date: '2.~//,,,?./~./-~ ~)c)
TELECOPY TRANSMITTAL
FROM:
Number of pages including cover sheet: _2___.
If you do not receive fax in its entirety, please call (907) 279-1433 immediately.
MESSAGE:
slh:l 1/96
MEMORANDUM
TO:
Robert Christenson,~~)
Chairman
THRU:
State of Alaska
Alaska Oil and Gas Conservation Commission
DATE: March 14, 1999
Blair Wondzell, ~
P. I. Supervisor ~e('~'~
FROM: Chuck Scheve, ~ 5 SUBJECT:
Petroleum Inspector
FILE NO: e9nkcngf. DOC
Diverter inspection
Doyon 141
Fiord #5
PTD 99-20
Sunday. March 14, 1999: I traveled to Arco's Fiord #5 exploration well to witness
the Diverter function test on Doyon Rig 141.
The function test of the Diverter assembly went well. The twenty inch annular
preventer had a closure time of 35 seconds which is outstanding for this
equipment and the 16" full opening knife valve opened well in advance of the
annular closing.
I walked the vent line and found a good solid 16" straight line construction of
ample length and solidly anchored. The location though crowded was well
organized allowing good access to the rig.
SUMMARY; I witnessed the Diverter function test on Doyon Rig 141 no failures
noted.
Attachments: e9nkcngf, xls
X Confidential
Drlg Contractor:
Operator:
Well Name:
Location: Sec.
i STATE OF ALASKA
ALASKA OIL AND GAS CONSERVATION COMMISSION
Diverter Systems Inspection Report
Operation: Development
. . Doyon Rig No. 141 PTD #
ARCO Oper. Rep.'
Fiord #5 Rig Rep.: Patrick F. Krupa
32 T. 13N R. 5E Merdian Umiat
Date: 3/14/99
. Exploratory: X
99-20 Rig Ph. # 263-3140
Mike Whitley
MISC. INSPECTIONS:
Location Gen.: ok Well Sign: ok
Housekeeping: ok (Gen.) Drlg. Rig: ok
, _ J i] i
Reserve Pit: na Flare Pit: na
DIVERTER SYSTEM INSPECTION:
Diverter Size:
Divert Valve(s) Full Opening:
Valve(s) AUto & Simultaneous:
Vent Line(s) Size:
Vent Line(s) Length:
Line(s) Bifurcated:
Line(s) Down Wind:
Line(s) Anchored:
Turns Targeted / Long Radius:
20 in.
..... yes
~ Yes
·
16-" in.
80 ff.
na
yes~
yes
na
ACCUMULATOR SYSTEM:
Systems Pressure: 3150 psig
Pressure After Closure: 2000 . psig
200 psi Attained After Closurei~. ' ~_ min. 30 sec.
Systems Pressure Attained: 2 min. 45 sec.
Nitrogen Bottles: 5 ~. 2070
......................... psig
MUD SYSTEM INSPECTION: Light Alarm
Trip Tank: ok _ ok _
Mud Pits: ok ok
Flow Monitor: 0k ~'k '
GAS DETECTORS: Light Alarm
Methane ok ok
Hydrogen Sulfide: ~' ~k Ok "'
~~,~ind Direction
North
Rig
Shop
Non Compliance Items .
·
Remarks:
'DistribUtio~1' '
orig. - Well File
c - Oper/Rep
c - Database
c - Trip Rpt File
c- Inspector
Camp
Road Entrance
Repairiterns Within ........... ; ..... Day (s) And contact the Inspector @ 659-3607 r
, ,~, ~ , , ,,,, , , ! ~ , ,,~,, ,, , ~, , ,,,, ,~ L, ~ ~, ,,,. , ~,,,, , ~,, , ,, , , , ~ .. -~ .~ ,,
AOGCC REP.:
Chuck Scheve
OPERATOR REP.:
Mike Whitley
egnkcncf
DVTRINSP.XLT (REV. 1/94)
Re: FIORD #5 BHL
Subject: Re: FIORD #5 BHL
Date: Fri, 12 Mar 1999 14:20:59 -0900
From: Blair Wondzell <Blair Wondzell~admin.state.ak.us>
Organization: SOA-AOGCC
To: Tom J Brassfield <TBRASS~mail.aai.arco.com>
Tom, Bob Crandall looked at the new location and says everything is ok.
Good Luck, Blair 3/12/99.
Tom J Brassfield wrote:
>
> Blair, as discussed earlier here is the information on the revised BHL for
> FIORD# 5:
> Requested on the permit is BHL: 205' FNL, 200' FEL, Sec. 32, T13N, R5E, UM
> New BHL: 295' FNL, 24' FWL, Sec. 33, T13N, R5E, UM
>
> Thanks once again for helping on short notice.
> Tom
1 of 1 3/12/99 2:29 PM
FIORD #5 BHL
Subject: FIORD #5 BHL
Date: Fri, 12 Mar 1999 13:45:29 -1000
From: "Tom J Brassfield" <TBRASS@mail.aai.arco.com>
To: blair_wondzell@admin, state.ak.us
CC: "Paul Mazzolini" <PMAZZOL~mail.aai.arco.com>
Blair, as discussed earlier here is the information on the revised BHL for
FIORD# 5:
Requested on the permit is BHL: 205' FNL, 200' FEL, Sec. 32, T13N, R5E, UM
New BHL: 295' FNL, 24' FWL, Sec. 33, T13N, R5E, UM
Thanks once again for helping on short notice.
Tom
1 of 1 3/12/99 1:59 PM
TONY KNOWLES, GOVERNOR
~KA OIL AND GAS
CONSERVATION CO~ISSION
3001 PORCUPINE DRIVE
ANCHORAGE, ALASKA 99501-3192
PHONE: (907) 279-1433
FAX: (907) 276-7542
March 117 1999
Paul Mazzolini
Exploration/Tam Drilling Team Leader
ARCO Alaska, Inc.
P O Box 100360
Anchorage, AK 99510-0360
Re:
Fiord #5
ARCO Alaska. Inc.
Permit No: 99-20
Sur. Loc. 375'FNL, 810'FEL, Sec. 32, T13N, R5E? UM
Btmholc Loc. 205'FNL, 200'FEL, Sec. 32, TI3N, R5E? UM
Dear Mr. Mazzolini:
Enclosed is the approved application for permit to drill thc above referenced well.
The permit to drill docs not exempt you from obtaining additional permits required by law from
other governmental agencies, and docs not authorize conducting drilling operations until all other
required permitting determinations are made. A weekly, status report is required from the time the
well is spudded until it is suspended or plugged and abandoned. The report should bca
generalized synopsis of the week's activities and is exclusively for the Commission's internal use.
Blowout prevention equipment (BOPE) must be tested in accordance with 20 AAC 25.035.
Sufficient notice (approximately 24 hours) of the BOPE test performed before drilling below the
surface casing shoe must be given so that a representative of the Commission may witness the
test. Notice ma3' be given by contacting the Commission petroleum field inspector on the North
Slope pager at 659-3607.
'Robert N. Christcnson, P. E.
Chairman
BY ORDER OF THE COMMISSION
dlf/Enclosurcs
CC:
Department of Fish & Game, Habitat Section w/o encl.
Department of Environmental Conservation w/o encl.
STATE OF ALASKA
~A""' 'KA OIL AND GAS CONSERVATION C~"-- ISSlON
PLctMIT TO DRILL CONFID"NTIAL
20 AAC 25.005
la. Type of Work Drill X Redrill [] I lb Type of Well Exploratory X Stratigraphic Test ['-- Development Oil
·
Re-Entry E Deepen F service r- Development Gas F single zone Multiple Zone X
2. Name of Operator 5. Datum Elevation (DF or KB) 10. Field and Pool
ARCO Alaska, Inc. RKB 28', Pad 2' feet
3. Address 6. Property Designation Colville River Unit
P. O. Box 100360, Anchorage, AK 99510-0360 ADL 364471 ALK 4480
4. Location of well at surface 7. Unit or property Name 11. Type Bond (see 20 AAC 25.025)
375' FNL, 810' FEL, Sec. 32, T13N, R5E, UM N/A Statewide
At top of productive interval (@ TARGET ) 8. Well number Number
205' FNL, 200' FEL, Sec. 32, T13N, R5E, UM Fiord #5 #U-630610
At total depth 9. Approximate spud date Amount
205' FNL, 200' FEL, Sec. 32, T13N, R5E, UM 3/12/99 $200,000
12. Distance to nearest 13. Distance to nearest well 14. Number of acres in property 15. Proposed depth (MD and TVD)
property line Fiord #1 MD 7469'
200' @ TD feet 2.5 Miles feet 2,560 TVD 739.3' feet
16. TO be completed for deviated wel s 17. Anticipated pressure (see 20 AAC 25.035(e)(2))
Kickoff depth 2500' feet Maximum hole angle 15° Maximum surface 1184 psig At total depth (TVD) 3848 psig
18. casing program Setting Depth
size Specifications Top Bottom Quantity of cement
Hole Casing Weight Grade Coupling Length MD TVD MD TVD (include stage data)
20" 16" Welded 80' 28' 28' 118' 118' +/- 200cf
12¼" 9-5/8" 40 ppf L-80 BTC 1972' 28' 28' 2000' 2000' 480 sx AS3 plus 230 sx CIG
8~" 7" 26 ppf L-80 BTC-M 7441' 28' 28' 7469' 7393' 525 sx CIG
19. TO be completed for Redrill, Re-entry, and ~)eepen Opera :~ons.
Present well condition summary
Total depth: measured feet Plugs (measured)
true vertical feet
Effective depth: measured feet Junk (measured)
true vertical feet
Casing Length Size Cemented Measured depth True Vertical depth
Structural
Conductor
Surface
Intermediate
Production
Liner
Perforation depth: measured
true vertical
20. Attachments Filing fee X Property plat E BOP Sketch X Diverter Sketch X Drilling program X
Drilling fluid program X Time vs depth plot X Refraction analysis [--[ Seabed report ['- 20 AAC 25.050 requirements X
21. I hereby certify that the foregoing is true and correct to the best of my knowledge
Signed ~"~c4~ ~/'~~~'~ Title LeaderEXpl°rati°nfTarn Drilling Team Date '~'/~'//~
Commission Use Only
Permit Nglln~r
I
APl 50./O~ .,, ,~___ O number 2.. ,~ ~__ [ Appr°val date ~-- ~ ~,'"r'~ 5
I See cover letter for
~ other requirements
Conditioh~' of approval 'Samples required ,J~ Yes [] No Mud Icg required J~ 'Yes [] No
Hydrogen sulfldemeasures E Yes ,,~' No ~ Directional surveyrequired ~ Yes r'- No
Required working pressure for BOPE~ 2M E 3M E](.~E 10M E 15M
Other:
Approved by r<IG~NA SIGNED'BY by order of
~ ..................... ,-,,. ~,,,[ r ~u ~ ~ ;-..-. Commissioner the commission Date
CONFIDENTIAL
GENERAL DRILLING PROCEDURE
FIORD #5
.
.
,
.
.
10.
11.
12.
13.
Move in and rig up Doyon #141 over pre-installed 16" conductor casing.
Install diverter system.
Drill 12-1/4" hole to 9-5/8" surface casing point (2000' MD) according to
directional plan. (Straight Hole)
Run and cement 9-5/8" 40# L-80 BTC Mod casing string to surface. Employ
lightweight permafrost cement lead slurry to assure cement returns to the
surface. Adequate excess cement will be pumped to ensure cement reaches the
surface during the first stage cement job. NOTE: TAM Port Collar will be placed
in the 9-5/8" casing at approx. 1000' TVD below the surface. Port collar will only
be opened and used if cement does not circulate to surface. As an alternative, if
observations at surface indicate cement top is above the Port Collar, a top job
may be performed in lieu of utilizing the port collar. A Top Job may only be
performed after consulting with the AOGCC. This is based on the cement
thickening time and time required to trip in the hole and open the Port Collar to
perform the second stage cement job.
Install and test BOPE to 5000 psi. Test casing to 2,500 psi.
Drill out cement and 10' of new hole. Perform formation integrity test not to
exceed 16.0 ppg EMW. This establishes a maximum allowed drilling mud weight
below the casing shoe per 20 AAC 25.030 (0.5 ppg less than the FIT or LOT
EMW)
Drill 8-1/2" hole to 7469' MD TD, coring as necessary, according to directional
plan (if applicable).
Run open hole evaluation logs.
If the well is to be tested, run 7", 26#, L-80, BTC-M production casing. Go to
step 10. Pressure test casing to 3500 psi.
If the well will not be tested, P&A per AOGCC regulations. Go to step 13.
Complete the well with 3-1/2", 9.3#, L-80, EUE 8rd tubing. ND BOPE. NU upper
tree and test to 5,000 psi.
Shut in and secure well. RDMO Doyon #141.
Hook up well for flow testing to surface tanks. Produced fluids to be trucked to
Kuparuk production facilities.
Test zones as appropriate, abandoning each using a CTU. When complete,
plug and abandon the well as per AOGCC regulations and RDMO CTU.
NOTE: P&A may be completed with Rig if no testing is conducted.
14. Thoroughly clean location and block off access ice road.
i' ARCO Fiord #5
PRESSURE INFORMATION AND CASING DESIGN
CONFIDENTIAL
(Per 20 AAC 25.005 (c) (3,4) and as required in 20 AAC 25.035 (d)(2))
DISCUSSION
The following presents the data used for calculation of the anticipated surface pressures (ASP)
used for the design and drilling of Fiord #5.
........................................................................ CT~'§f~'~i'"'S'8'Ei'~'~j'"D~'iS'[~ ............................................................................................................. P8"¢'8 .................... i .........................................................................................................................................
i Casing i Fracture Pressure i Pore ASP Dr ng
Size . Gradient Gradient . Pressure
16" ' 118' TVD / 118' MD 11.0 ppg 8.5 ppg ' 52psi N/A ,
.......... ............ 9'"'578'"',, ................................ ~ 2'0'00"'Tg'DT'2i3'0'0'"'MD ..................... i~ ............. ~f3'"5'"'i5'i5'. g .................. ~i ............... 9'"'0. ................................... ppg t ............... 9'3'~'"'"'"§ip ................ ,i .................. '1'"~1"8'Zl: ....... p§i .................. ,~
..................... l ......................... t, ............ ....................... ii'.ii'iiii;;ii?'!.SZiiiiiiiiiiiiiiiii;i
Expected Maximum Mud Weights:
12-1/4" Surface Hole to 2000' TVD / 2000' MD: 10.0 ppg
8-1/2" Production Hole to 7400' TVD / 7476' MD: 11.0 ppg
Procedure for calculating Anticipated Surface Pressure (ASP):
ASP is determined as the lesser of 1) surface pressure at breakdown of the formation at the
casing seat with a gas gradient to the surface, or 2) formation pore pressure at the next casing
point less a gas gradient to the surface as follows:
1) ASP = [(FG x 0.052)- 0.11] D
Where:
ASP =
FG =
0.052
0.11 =
D=
Anticipated Surface Pressure in psi
Fracture Gradient at the casing seat in lb/gal
Conversion factor from lb/gal to psi/ft
Gas gradient in psi/ft
True vertical depth of casing seat in ft. RKB
OR
2) ASP = FPP - (0.11 x D)
Where: FPP = Formation Pore Pressure at the next casing point
ASP Calculations:
1. Drilling below conductor casing (16")
ASP = [(FG x 0.052) - 0.11] D
=[(11 x 0.052) - 0.11] x 118
= 54 psi
OR
ASP = FPP - (0.11 x D)
= 936 - (0.11 x 2000)
= 716 psi
2. Drilling below surface casing (9-5/8")
ASP = [(FG x 0.052) - 0.11]D
=[(13.5 x 0.052) - 0.11] x 2000'
= 1184 psi
OR
-1-
ARCO Fiord #5
PRESSURE INFORMATION AND CASING DESIGN
ASP = FPP - (0.11 x D)
= 3848 - (0.11 x 7400)
= 3034 psi
Casing Performance Properties*
~ i i Internal
Size i Weight i Grade Connection Yield Collapse
i .................... ~I'6"' ................... i .......... 621'58'"'jS'iS'f .......... i ..................... B' ................................................. PEB ............................ [ ................................................................... C~Sii-gS"g~6'f"'C§§ii~ ....................................................................
i ............. '9"'51t~" ............. i ................. '~;'0""i5'[5'f ................. i .............. E'"'80 ............... i ............................ BTC' ............................. i ........... 5';750""~§'i ........... i ........... 3'i'0"9'0"'i5§i ........... i""'""9;47"M'"'¥-'"9'~I"6"'M .........
. ...7... i~ ..P.....P. lf.. ~-iB0 i . BTC-I~I ........................... .7...,..2..'l.'.0.'.....p..s.! ........................ ..5...,.~..~..~....p.s, 62~1 M ............ i~.'.0..'.~....~ ........
*All casing is new
Casing Setting Depth Rationale
16"-118' RKB
9-5/8"-2000' TVD RKB
7"-7400' TVD RKB
Conductor casing to provide sufficient anchor and fracture gradient for
diverter system.
Surface casing to provide good anchor for BOPE and sufficient fracture
gradient and well control while drilling to next casing setting point.
Production casing to cover all open hole and all previously set casing to
allow comprehensive testing of the well. This casing will not be set if logs
indicate the well is a dry hole.
Annular Pumping Operations:
Incidental fluids developed from drilling operations will be hauled to the nearest permitted Class II
disposal well. The cement rinseate will not be injected down the dedicated disposal well but will be
recycled or injected down another Kuparuk well open annulus (Prior approval required per 20
AAC25.080 d). The Fiord #5 surface/production casing annulus will be filled with diesel after
setting production casing and prior to the rig moving off of the well for a testing phase if required.
If isolation is required per regulations over significant hydrocarbons, then sufficient cement
volume will be pumped during the production cement job to cover those formations.
-2-
t' ..... ARCO Fiord #5 t"
DRILLING FLUIDS PROGRAM
CONFIDENTIAL
.................................................................................................................................... S-Pi}-d-'~ ~-' ~'L-5-J ~-'; .............................. '~;;;' -P-i:~ ~i-~J-C-t-i'~-i~ ................
Densi~ 10-10.2 [ 8.6-11.2
PV 20-26 ~ 16-20
YP 15-25 15-20
i V~scos~ i 50-70 ] 30-40
~ 5-15 = 4-6
Initial Gel
10-Min. Gel 15-40 ~ 6-8
APl Fdtrate 10-12 ~ 8-10
............................................................................................................................................................................. ............................................ .................................... ....................................
% Solids -10% 4-7%
Drillin.q Fluid System:
3 - Derrick FIo-Line Cleaners
Pioneer Model S2-12 Desander
Tri-FIo 'Low Profile' Desilter
Alpha-Laval Model DMNX 418 Centrifuge
Pit Level Indicator (w/visual and audible alarms)
Trip Tank
Fluid Flow Sensor
8 - Brandt pit stirrers
Drilling Area Risks'
Examination of four of the five nearest offset wells, Fiord #1, #3/3A, Nechelik #1and Temptation#I/IA; reveal no
subsurface shallow hazards such as abnormal pressure or lost circulation zones. For the offset well, Fiord #2, a
kick was encountered at a depth of 2941' MD/2529' TVD. The Fiord #5 seismic analysis indicates that the pore
pressure anomaly observed at 2250' TVD is due to a sandy silt interval and not shallow gas. Surface casing will
be set above this depth. No weak formations have been experienced, particularly at shallow depths in the offset
wells. The mud weights planned for Fiord #5 are conservatively based on those used during drilling of the
nearest offset well, Fiord #1. We will also have the data available from Fiord ~ when drilling #5.
No H2S is anticipated in drilling the Fiord #5 well.
Prudent and precautionary drilling/tripping techniques will be emphasized while drilling this well.
The 9-5/8" surface casing shoe will be tested to a maximum 16 ppg EMW formation integrity test or leak-off
(whichever is least) after drilling 10 feet of new formation.
FIORD #5 CONFIDENTIAL
PRESSURE ANALYSIS AND PREDICTION
(Per 20 ACC 25.005 (c) (7) and 20 ACC 25.033 (e))
DISCUSSION:
An analysis and prediction of overpressured strata was performed for the Fiord
#5 well as required by AOGCC regulations. ARCO does not expect to encounter
abnormal pressure from any zones. The prediction is based on an evaluation of
offset wells Fiord #1,2,3/3A; Nechelik #1; and Temptation#I/IA. Fiord #2 did
encounter a kick at a depth of 2941' MD/2529' TVD, but the seismic analysis
indicates that the pore pressure anomaly observed around 2250' in Fiord #5 is
due to a sandy silt interval and not shallow gas. Surface casing will be set above
this depth. Attached are the following:
Mud weight versus depth graph for the offset wells.
Seismic analysis for Fiord #5.
Pore pressure, frac pressure and anticipated mud weight graph.
Date:
Subject:
December 7, 1998
Pore Pressure Prediction for Fiord Field and Proposed Wells Fiord #4, Fiord #5
(Correlated to lithology logs of Fiord # 1).
From: P.R. Hariharan
R. Wydrinski
Telephone: 509-3198
509-4325
To: J. Zawila ATO- 1464
J. Trantham ATO-1062
This letter is to summarize the pore pressure work done for the Alpine/Fiord area. Five seismic
lines were processed'to calculate the 2-D pore pressure profiles using ARCO's PPFG software.
The seismic lines are; IL5848, IL5856, IL5908, IL5934 and IL 5941. The seismic VelocitY data
(ITT) was utilized to compute the pore pressures for each of the linesl
Further, on seismic line IL5941, at CDP'1838, the proposed well Fiord #4 was examined for
pressure anomalies and presence of shallow gas below the permafrost. Similarly, on seismic line
IL5848, at CDP-1781, the proposed well Fiord #5 was also examined for pressure anomalies just
below the permafrost. .
Based on the pore pressure results throUgh PPFG, and with correlations to' the lithology logs of
well Fiord #1, it is being inferred that there are no pressure anomalies at these Wells.
Pore Pressure Prediction Procedure:
As mentioned, 'AEPT's PPFG software was utilized to obtain the pore pressures. A Normal
Compaction Trend Line (NCTL) was first determined in the shale's from the seismic InterVal
Travel. Time (ITT) data for each of the seismic lines. A logarithmic Slope.of -4.5e-05 was
' determined after correlating with earlier pore pressure analysis done in the Alpine region. The
NCTL intercept varied from a minimum of 160 for IL5934 to a maximum of.175 for IL5848.
The NCTL line was carefully compared to the variation of the ITT curve to obserVe whether it
increased, which indicated an increase of pressure. The magnitude of the difference in the transit
time (DT) (between the NCTL and the ITT at a specific depth) was converted to pore pressure
through the use of a Translational Trend model, for the particular region. The Translational
Trend model for the Fiord region, used for the computation of the pore pressure, Was.the
Pleistocene model which is shown below: .
Pore Pressure'(PP) = C2 * (DT)5 + C~ * (DT) + Co "
where
C2 = -1.34e-05; C~ = 0,0062; Co = 0.465
The complete 2-D pore pressure profile for each line was computed by the respective NCTL and
the above Translational Trend model.
Fracture Gradient (FG) prediction procedure for proposed Wells Fiord #4 and Fiord #5:
From the pore pressures obtained utilizing the above method, the FG for each of the above
proposed wells were predicted using the Eaton method. The Eaton method computes FG as
below:
where:
FG = [PR/(1-PR)] * (OBG-PP) + PP
FG = Fracture Gradient (ppg)
PR = Poisson ratio for the formation at the particular depth
OBG = Over Burden Gradient (from. density data)
PP = Pore Pressure (computed using PPFG as explained above)
The Poisson ratio curve as a function of depth (PR) used for the computation of FG in the present
project was the West,Cameron trend curve based, on earlier work done in the AlPine/FiOrd
region.
Fiord #4 (proposed):
The Fiord #4 is known to be a proposed well at CDP 1838 on IL5941.
Figure gl is the pore pressure plot from' the seismic velocity data (ITT). The curves from left to
right are:
1.
e
,,
The black curve is the Interval Transit Time (ITT) in micro-seconds as a function
of depth (ft.).
The red line is the Normal Compaction .Trend Line (NCTL)' with a logarithmic
slope of-4.5e'05 and an intercept of 160.
The blue curve is the pore pressure (ppg. as a function of depth in feet).
The red curve is the fracture gradient in (ppg, As a function of. depth in feet).
Certain formations have been labeled in black lettering.
There are no shallow gas indications in this Well. The anomalies in pore pressures observed
'aroUnd 1800 ft. and also around 2250 ft. are both due to sandy silt intervals at b°th depths. This
has been concluded on the basis of the lithology logs obtained for the eXisting .well, Fiord # 1.'
Note that there are further sandy silt intervals around 4250 ft., 5250 ft. and 5800 ft. The
NUIQSUT formation is indicated at 6820 ft. and the NECHELIK formation at 7040 ft. where the
mud weight may be needed to be increased to 11 ppg. This may also be observed from the
inCrease in the ITT value for the corresponding NCTL values around those depths.
.,
Figure #2 shows'the 2-D Pore pressure profile as a. function of depth for IL5941 over the seismic
interval from CDP: 1166 to 1926. Note location of Fiord #4 (proposed)'at CDP: 1838.
FigUre #3 shoWs the above pore pressure (IL5941) over the same seismic interval as a function
of time in milliseconds (ms).
Fiord #5 (proposed)
I
I
i
I,
Figure #4 is the similar to Figure #1 and is the pore pressure and fracture gradient information
for the proposed well Fiord #5 at CDP: 1781. There are no shallow gas indications in this well
also. The pore pressure anomaly at 2250 ft. and around 5500 ft. is because of sandy silt
formations. The NUIQSUT and NECHELIK formations are indicated between 7250 to 7500 ft.
in this well. This correlates well with the lithology logs of Fiord gl where NUIQSUT was at
6820 and NECHELIK at 7040 ft. In this figure also the ITT curve can be observed to shift
incrementally from the NCTL.
Figure #5 shows the 2-D pore pressure profile as a function of depth for IL5848 spanning CDP:
1075 to 1926. The well Fiord #5 (proposed) can be seen at CDP-1781.
Figure #6 shows the pore pressure profile of Figure #5 (11,5848) spanning the same range of
CDP's, as a function'of time in milliseconds (ms).
Figure g'7 shows the pore pressure profile for IL5856 over the seismic interval from CDP: 1092'.
to 1925. There were no abnormal shallow geopressures detected anywhere on this line.
Figure #8 shows the pore pressure for IL5856 over the same seismic interval as a funCtion of
time.
Figure #9 Shows the pore pressure profile for IL5934 over the seismic interval from CDP: 1164
to 1926. There were no abnormal shallow geopressures detected on this line.
Figure 10 shows the pore pressure for 1L5934 over the same seisrmc interval as a function of
time.
Figure 11 shows the pore pressure profile for IL5908 over the seisrmc interval from CDP: 1140
to 1926. There were no abnormal shallow geopressures detected on this line.
Figure 12 shO'ws the pore pressure for IL5908 over the same seisrmc interval as a function of
time.
,.
Summary:
1. No abnormal pressures or Shallow gas observed below permafrost for wells Fiord #4
(proposed) and Fiord #5 (proposed).
2. The seismic .anomalies at'1750 ft. and 2250 ft. in Fiord #4 and at 2250 ft. in Fiord #5
appear to be because of a change of lithology at those depths.
If you have any further questions, please call us at the above numbers
P. R. (Hari) Hariharan
R. WYdrinski
~J~ARCO E×p~oratmn arid Product~o~ Technology .o? ~
~' well: FIORD 5
~ Pore Pressure and Fracture Gradient System ~c~: 175_4~
I1/23/98 P.R. h~ih~an I
DEPTH (Datum set to RKB, 30 fl above MSL) Fiord-5 (Prospect); IL5848; CDP-1781 FEET
30 30
100O 100O
2000 2000
3000
4000
500O
6OO0
700O
8000
9OOO
100O0
10980
40 60 80 100 120 140 160 8 9 10 11 12 13 14 15 16 17 18 19 20
NCTL Intercept at GL = 175 PPG
Logarithmic Slope = -4.5e-05 ---o-- FiL5848_PPG
--e-- FF[LSS48_FG
~ ARCO Exploration and Production Technology
Pore Pressure and Fracture Gradient System
Prqiect: FIORD
Cross Section: lL5848
PP DataSet: IL5848_PPG
Seismic Dataset: IL5848_Z
Method: Trend Curve
NCTL: 175_45
Model: PL~ESTOCENE
1 I/21/98 P.R. hariharan
Scale: Vertical l in = 1753 ft. Horizx~nml I in = 106 cdp
11111111t[11111111111111111Iil1III
CDP 0 I I 11 I 2 2 2 2 2 3 3 3 3 3 4 4 4 4 4 5 5 5 5 5 6 6 6 6 6 7 7 7
?024680246802468024680246802468024
000000000000000000000000000000000
MSL0.0'
D 4000.0'
E
P
T
H
(fl) 500O.O
FIORD_5
7 7 8
6 8 0
0 I 0
8 8 8
2 4 6
0 0 0
8 9 9
8 0 2
0 0 6
PPg
8.00
8.50
9.00
9.50
t0.50
12.50
[ 3.5{)
[4.50
15,50
16.00
16.5(I
70(YJ.0
80(X),0
10000.0
~ARCO E×ploration and Production T~chnology
Pore Pressure and Fracture Gradient System
Project: FIORD
Cross Section: 1L5848
PP DataSet: IL5848_PPG_T
Seismic Dataset: IL5848
Method: Trend Curve
NCTL: 175_45
Model: PLIESTOCENE
T
I
M
E
(ms)
11121/98 P.R. hariharan
CDP 0
7
0.0
100,0
200.0
4110,0
5{)0,0
600.0
700.0
800.0
900.0
1000,0
1200.0
1300.0
1700.0
1800.0
20(~1.01
Scale: Vmlica[ I in = 351 msec, Horiz<mtal ] in = 106 cdp
1122222333334
6802468024680
0 0 0 0 0 0 0 0 0 0 0 0 0
4 4
2 6
0 0 0
4555556666
8024680246
0O00O0O0O0
6777
8024
0000
IqORD_5
7 7 8
6 8 0
0 I 0
111111
888899
246802
000006
PPg
8,00
8.50
9.00
9.50
10.50
12.00
12.50
13.50
14,00
14.50
15,00
17.50
18.50
19.00
-2000
-4000
-8000
-1'0000
;12000
Spud02/4/92
DRILLING TIME AND MUD WEIGHT'CURVE -~-Depth
FIORD #1 --~"~'Mud Weight
20' csg pre-set @ 108'
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DRILLING TIME AND MUD WEIGHT CURVE +Depth
[ ......... ....... Mud Weight
FIORD #2
16' csg pre-set @ 110' I ...... ' ...........
-- ' ~1 I I I I I I I I I I I I I I I
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' /-:-"N I I ~ I \ I I , I I , I' ~, ' I , I I I I
.... -i' -..~' - -I- - '"~i[- I- - - - T~ ....... f- -~- - T - - - -I ............ -i .... I .... T - - - "1 ........ '~- - - '7 .... ] .... F ........ I- - -- F - - - 7 -' - - -I ....
.... /~_ __ --I-- -- ~.L - - -- J~ ....... L -~ -- .L - - -- J .... i ........ -J- ....... L - - - I .... : .... LN- - J .... I .... L ........ I .... L -- -- -- / - _ ~ _1 ....
t# , '%~ # , \ ' ' ' ' ' ' ' \ ' ' ' ' ' ' '
;~ I _l_ I I \l I I I I I I I I \ I I I I I I
.... r .... , .... F-'-T--'---,-,----~T .... t ........ ' --'", ........ T----~.- ..... '- ,--- '~--- 7, .... F ........ , .... F---'7 .... , ....
.... ~ .... I .... ~----4. ........ ~-'- - -~- - - ' -4 ...... '-- ~ --4 .... I .... *----~ ........ ~---~l~ .... I-~--~- ........ I .... ~----'~ .... I ....
.... ,r .... t .... F---T ........ I .... T\- - - -I ............ -i .... t .... T----I ........ F - - '~ -f Ii,--'l .... r---'1 - - -.-i .... F----f .... i ....
.... .1. .... i .... L___I_,__ '___L___.L'~__J .... I ........ J ........ L___/ ........ L__~ I_~.__l____ L ........ I .... L _ _ _ .J. .... I ....
I ' I ' I u ~ I I I I I I I I .' ,; I I
, , , IDnU 8-1/2 hole to TD 7750 I , , , , , ,, i, ~, , IDnU 8-1/2 hole to TD 8950 I ,
' I I II k I I I I I ' ___'__-N.' I I' '
'--'~ 'T .... I---'-I'---- T-- - ..... I .... T - -\- -I .... I ....... '~ .... I .... T---'i-- .... -i .... ~ - - -'\-i- -- i I I , ~ .... I ....
--- ,4. .... , .... ,----,- ........ ,----,--N-~ .... , ...... IPIugbackto1550 I ........ ,~-i---N---~- ............. ,~---I .... ',----
: I I . I I I I Xt I I ' I , '
~, -~'-r .... i .... i- - - - T .... .- - --F - - - T - - -~1 .... I .... ; .... -I .... I .... T - - - -I ........ F - - - '-[ .... I~ - - F ........ t .... F - - - 'f .... I ....
__, ~..L__'_' .... L---/ ........ L---.-L---j~4~'''~''~l'- - - J .... ' .... /___J ........ L__... J __ -'- -'~- L ..... ---II .... IL= --i .... : ....
' I I I I I' I I ' I I I I I '~
t I I Ii, · I I I I I I ~ ' I I I
In ~ ~ i ~ '
t i i i LO I ''1 .......................... .................... i
.... ~ .... II .... ~--'~'-. ....... I-'-' T----'I~ .... i , ' i , ---- IF---~---'-I .... ~_ ,. ,. I, ', :
- -- -I -- 4- --I --I- -- -- -- 4- .... ~ -- - -- 4- -- -- -- -4 .... I .... 4 .... I-- 4- -- - - 4 ...... 4- - - -- ~ --I .... ~- -- -- --'~ ~.,,.~-- - -I .... r-- -- -- I~ ......
t I I I I I i t I I I t I I ' I 'N~l. I II"'&^ I '
'- -'1" -I -F---T .... i .... T----I .... I .... -1 .... I- T--''-I ........ T' - -- -I --'- -I .... r ....... ~Ir,,,- - - r - - I I-" ....
~ ] / J. L .L J ' I _1 I .L J ........ L2__J .... 1 .... L__L. _ -- -I- -~',,,,~- L .J _1 ....
- ..... ---- I I---- I .... I- I I . I ~ · · ·
t . t I t' I I I I i I ' I t I I i ' I ~ ~F ~ '
I I I I I I I I I ' I I I I I I I I
-- '~'~ .... I .... 'F---T ........ ~ .... T .... I ............. ~ .... I .... T---'i ........ F---~-'--'-'- '= - F ........ ' .... F---'7 .... I ....
_- L--I. -I .... I----4-,- ...... L--- 4------I .... I-- ..... 4 -I- -.I- .4 4----4 .... i .... I- ....... I- I- 4.- -t-
i ' I I I I '1 I I I I I ' I I I I I I I I I I
- i~- -"f -i .... F--'-T--~- -,--f---- T----'I I .... -I I- I' '-I F .... -I .... I ~F .... I F T- I-
_ ir_ _ _1. _1 .... L___I__~ ..... I ,.L J I____ J I_ .......... L J ___L---J .... I .... L ....... I .... L___J. .... I I
I I I I I I I I I I I I I I I ! I 1 I I
10.7
10.6
10.5
10.4
10.3
10.2
10.~
10 f"
9.8
9.7
DAYS
5 10 15 20 25
Rig Release 4/17/96
ARCO Fiord #5 [
Blow Out Prevention Equipment and Diverter
Diverter Schematic
Doyon 141
Flowline
21%" 2,000 psi WP
DRILLING SPOOL
w/16" Outlet
21¼" HYDRIL MSP 2,000 psi WP
ANNULAR PREVENTER
16" 200 psi WP
HYDRAULIC KNIFE VALVE
/ 16" OD DIVERTER LINE
16" 62 ppf PEB CONDUCTOR
PIPE set at 80' (GL)
ARCO Fiord #5
Blow Out Prevention Equipment and Diverter
DOYON 141
13-518" 5,000 PSI
BOP COMPONENTS
LI
3" 5,000 psi WP OCT
MANUAL GATE VALVE ~,,~ ~--J
3" 5,000 psi WP Shaffer GATE VALVE L_
w/hydraulic actuator rj
1
I
DSA 13-5/8" 5,000 psi WP .......~1
L
x 11" 5,000 psi WP
ri
13-5/8" 5,000 psi WP, HYDRIL Type GK
ANNULAR PREVENTER
w/companion flange to bell nipple
DOUBLE 13-5/8" 5,000 psi WP,
HYDRIL Magnum BOP
w/pipe rams on top and
blind rams on bottom
3" 5,000 psi wP Shaffer GATE VALVE
i_~ w/hydraulic actuator
~ CHOKE LINE
13-5/8" 5,000 psi WP
DRILLING SPOOL
L_l~ w/two 3" 5M psi WP outlets
J SINGLE 13-5/8" 5,000 psi WP,
,/~ HYDRIL MPL BOP w/pipe rams
Fiord 5
Depth vs Time
-3000
~.- -4000
~ -5000
-6000
Days
Fiord 5 Time-Depth Graph.xls, jt 2~26~99
550
350
700
1050
_
1400-
_
1750-
2100
2450
2800
(" 3150
3500
'~ 3850
~. -
~ 4200-
I-- -
I 455o-
V
: -
4900-
5250 -
Bose Permafrost
Top West Sok Sands
5600
5950
65OO
6650
7OOO
735O
7700
C4C
C3(
9 5/8 Casing
KOP
2.50
5;00
7.50 DLS', 2.50 dog per 100 fl,
510'00
12.50
.00 EOC
K-2
Begin A~113.505.00
11%.°¢o
9.00
0tS: 1.50 deg per 100 ft 7.50
6.00
4,50
3.00
1.50
End Angle Drop
Albion B
Albion C
Albion D
Bose HRZ
TARGEKuDT-~ - Unit D
Kup Unit C
Nechelik
ARCO, Alaska,
J3/MJU - TD
K-1
LCU
350 0 350 700 1050
Structure : Fiord #5
Field : Exploration
Vertical Section (feet) ->
Well : Fiord5
Location : North Slope, Alaska
East (feet) ->
60 0 60 120 180 240 300 360 420 480 540 600
i ~ i i ~ i i i i r ~ i i J i I ! I r i i I
TARGET - Kup Unit C ~
PROFILE
..... Po~nt ..... MD Inc
Base Permafrost 1298.00 0,00
TOp West Sok Sands 1438,00 0.00
C40 2223,00 0.00
K-5 2373,00 0.00
KOP 2500.00 0.00
C30 2578,02 1,95
EOC 5120.70 15.52
K5 3914.49 15.52
K-2 4044.22 15,52
Begin Angle Brad 4654.57 15.52
End Angle Dron 5689,07 0,00
Albion B 5789.07 0,00
Albion C 6219,07 0,00
Albion D 6474,07 0,00
Bose HRZ 6719.07 0,00
K- 1 6764.07 0,00
Kuo - Uni[ D 6814.07 0,00
TARGET - KuD Unit C6854.07 0.00
LCU 6889,07 0.00
Nechelik 7084.07 0.00
JS/MJU - TO 7469.07 0.00
Oy io.e~ For: J Trantham
Dote ~lott~d: 1B-Fob-1999j
Plot Reference ~m r;or(] /~5 Vets. ~1, [ .
Coor~;natas ore in leer relarenc= slOL ~1. j
BAKER J
HUGHES J'
COMMENT DATA
Dir TVD North East
74.54 1298.00 0.00 0.00
74.34 1438.00 O,OO 0.00
74.34 2223.00 0,00 0.00
74.34 2573.00 0.00 0.00
74.54 2500.00 0.00 0.00
74,34 2578.00 0,36 1.28
74.34 3113,14 22.55 80.44
74.34 3878.00 79.86 284,92
74.34 4003.00 89.23 318.54
74.34 4591.10 133:30 475.57
74,34 5615.00 170.88 609,64
74,34 5713.00 170.88 609.64
74,54 6143.00 170,88 609.64
74,34 6598.00 170,88 609,64
74.54 6643,00 170,88 609.64
74.34 6688.00 170.88 609.64
74.34 6738.00 170.88 609,64
74.34 6778,00 170.88 609.64
74,34 6813,00 170.88 609,64
74.34 7008.00 170.88 609.64
74.34 7593,00 170.88 609.64
Azimuth 74,54 with reference 0.00 N, 0.00 E from slot #1
660
240
180
I
120 Z
0
:3'
60 ~
o
6o
V. SectDeg/lOC
0.00 0,00
0.00 0,00
O:OO 0.0~
0.00
0.00 0.0,
1.33 2,50
83.54 2,50
295.91 O,O0
530.61 0,00
493.9O O,00
633,13 1.50
633.15 o.o0
633.13 0,00
633.13 0,00
633.13 o.o0
633.13 o,oo
633.13 o.o0
633.13 '0,00
633.13 0,00
633,15 0.00
633.13 o.o0
ARCO Alaska, Inc.
Fiord #5
Fiord5
slot %1
Exploration
North Slope, Alaska
PROPOSAL LISTING
by
Baker Hughes INTEQ
Your ref : Fiord
Our ref : prop3319
License :
Date printed : 16-Feb-99
Date created : 16-Feb-99
Last revised : 16-Feb-99
Field is centred on n70 20 37.100,w150 51 37.53
Structure is centred on 391794.470,6013001.387,999.00000,N
Slot location is n70 26 36.907,w150 53 21.132
Slot Grid coordinates are N 6012638.000, E 390978.000
Slot local coordinates are 375.23 S 811.18 W
Projection type: alaska - Zone 4, Spheroid: Clarke - 1866
Reference North is True North
ARCO Alaska, Inc.
Fiord #5,Fiord5
Exploration,North Slope, Alaska
PROPOSAL LISTING Page 1
Your ref : Fiord #5 Vers.
Last revised : 16-Feb-99
#1
Measured Inclin. Azimuth True Vert
Depth Degrees Degrees Depth
RECTANGULAR
COORDINATES
Dogleg
Deg/lOOft
Vert
Sect
0.00 0.00 74.34 0.00
500.00 0.00 74.34 500.00
1000.00 0.00 74.34 1000.00
1298.00 0.00 74.34 1298.00
1438.00 0.00 74.34 1438.00
0.00 N 0.00 E
0.00 N 0.00 E
0.00 N 0.00 E
0.00 N 0.00 E
0.00 N 0.00 E
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00 Base Permafrost
0.00 Top West Sak Sands
1500.00 0.00 74.34 1500.00
2000.00 0.00 74.34 2000.00
2223.00 0.00 74.34 2223.00
2373.00 0.00 74.34 2373.00
2500.00 0.00 74.34 2500.00
0.00 N 0.00 E
0.00 N 0.00 E
0.00 N 0.00 E
0.00 N 0.00 E
0.00 N 0.00 E
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00 C40
0.00 K-5
0.00 KOP
2578.02 1.95 74.34 2578.00
2600.00 2.50 74.34 2599.97
2700.00 5.00 74.34 2699.75
2800.00 7.50 74.34 2799.14
2900.00 10.00 74.34 2897.97
0.36 N 1.28 E
0.59 N 2.10 E
2.35 N 8.40 E
5.29 N 18.88 E
9.40 N 33.53 E
2.50
2.50
2.50
2.50
2.50
1.33 C30
2.18
8.72
19.61
34.82
3000.00 12.50 74.34 2996.04
3100.00 15.00 74.34 3093.17
3120.70 15.52 74.34 3113.14
3500.00 15.52 74.34 3478.61
3914.49 15.52 74.34 3878.00
14.66 N 52.31 E
21.08 N 75.19 E
22.55 N 80.44 E
49.93 N 178.15 E
79.86 N 284.92 E
2.50
2.50
2.50
0.00
0.00
54.33
78.09
83.54 EOC
185.01
295.91 K3
4000.00 15.52 74.34 3960.39
4044.22 15.52 74.34 4003.00
4500.00 15.52 74.34 4442.16
4654.57 15.52 74.34 4591.10
4689.07 15.00 74.34 4624.38
86.04 N 306.95 E
89.23 N 318.34 E
122.14 N 435.75 E
133.30 N 475.57 E
135.75 N 484.31 E
0.00
0.00
0.00
0.00
1.50
318.78
330.61 K-2
452.55
493.90 Begin Angle Drop
502.98
4789.07 13.50 74.34 4721.30
4889.07 12.00 74.34 4818.84
4989.07 10.50 74.34 4916.91
5089.07 9.00 74.34 5015.46
142.40 N 508.01 E
148.35 N 529.26 E
153.62 N 548.05 E
158.19 N 564.36 E
1.50
1.50
1.50
1.50
527.59
549.66
569.17
586.11
5189.07 7.50 74.34 5114.43 162.06 N 578.17 E 1.50 600.46
5289.07 6.00 74.34
5389.07 4.50 74.34
5489.07 3.00 74.34
5589.07 1.50 74.34
5689.07 0.00 74.34
5789.07 0.00 74.34
6000.00 0.00 74.34
6219.07 0.00 74.34
6474.07 0.00 74.34
6500.00 0.00 74.34
6719.07
6764.07
6814.07
6854.07
6889.07
7000.00
7084.07
7469.07
5213.73 165.23 N 589.49 E 1.50 612.21
5313.31 167.70 N 598.30 E 1.50 621.36
5413.09 169.47 N 604.60 E 1.50 627.90
5513.01 170.53 N 608.38 E 1.50 631.82
5613.00 170.88 N 609.64 E 1.50 633.13 End Angle Drop
5713.00 170.88 N 609.64 E 0.00 633.13 Albian B
5923.93 170.88 N 609.64 E 0.00 633.13
6143.00 170.88 N 609.64 E 0.00 633.13 Albian C
6398.00 170.88 N 609.64 E 0.00 633.13 Albian D
6423.93 170.88 N 609.64 E 0.00 633.13
0.00 74.34 6643.00 170.88 N 609.64 E 0.00 633.13 Base HRZ
0.00 74.34 6688.00 170.88 N 609.64 E 0.00 633.13 K-1
0.00 74.34 6738.00 170.88 N 609.64 E 0.00 633.13 Kup - Unit D
0.00 74.34 6778.00 170.88 N 609.64 E 0.00 633.13 Fiord#5 Kup C
0.00 74.34 6813.00 170.88 N 609.64 E 0.00 633.13 LCU
0.00 74.34 6923.93 170.88 N 609.64 E 0.00 633.13
0.00 74.34 7008.00 170.88 N 609.64 E 0.00 633.13 Nechelik
0.00 74.34 7393.00 170.88 N 609.64 E 0.00 633.13 J3/MJU - TD
16-Feb-99
Ail data is in feet unless otherwise stated.
Coordinates from slot #1 and TVD from Est. RKB (Doyon 141) (38.00 Ft above Mean Sea Level).
Bottom hole distance is 633.13 on azimuth 74.34 degrees from wellhead.
Total Dogleg for wellpath is 31.03 degrees.
Vertical section is from wellhead on azimuth 74.34 degrees.
Calculation uses the minimum curvature method.
Presented by Baker Hughes INTEQ
ARCO Alaska, Inc.
Fiord #5,Fiord5
Exploration, North Slope, Alaska
PROPOSAL LISTING Page 2
Your ref : Fiord %5 Vers. #1
Last revised : 16-Feb-99
Comments in wellpath
MD TVD
Rectangular Coords. Comment
1298.00 1298.00
1438.00 1438.00
2223.00 2223.00
2373.00 2373.00
2500.00 2500.00
2578.02 2578.00
3120.70 3113.14
3914.49 3878.00
4044.22 4003.00
4654.57 4591.10
5689.07 5613.00
5789.07 5713.00
6219.07 6143.00
6474.07 6398.00
6719.07 6643.00
6764.07 6688.00
~g6814.07 6738.00
~'6854 07 6778.00
~6889 07 6813 O0
~%7084.07 7008.00
~ 7469.07 7393.00
~-r.~~
~-~Top ~D Top ?VD
0.00 N
0.00 N
0.00 N
0.00 N
0.00 N
0.36 N
22.55 N
79.86 N
89.23 N
133.30 N
170.88 N
170.88 N
170.88 N
170.88 N
170.88 N
170.88 N
170.88 N
170.88 N
170.88 N
170.88 N
170.88 N
0.00 E Base Permafrost
0.00 E Top West Sak Sands
0.00 E C40
0.00 E K-5
0.00 E KOP
1.28 E C30
80.44 E EOC
284.92 E K3
318.34 E K-2
475.57 E Begin Angle Drop
609.64 E End Angle Drop
609.64 E Albian B
609.64 E Albian C
609.64 E Albian D
609.64 E Base HRZ
609.64 E K-1
609.64 E Kup - Unit D
609.64 E Fiord#5 Kup C 16-Feb-99
609.64 E LCU
609.64 E Nechelik
609.64 E J3/MJU - TD
Casing positions in string 'A'
Rectangular Coords. Bot MD Bot TVD Rectangular Coords.
Casing
0.00 0.00 0.00N
0.00 0.00 0.00N
0.00E 2000.00 2000.00 0.00N
0.00E 7469.07 7393.00 170.88N
Targets associated with this wellpath
0.00E 9 5/8" Casing
609.64E 7" Casing
Target name Geographic Location T.V.D.
Fiord#5 Kup C 16-Fe 391590.000,6012800.000,0.0000 6778.00
Rectangular Coordinates Revised
170.88N 609.64E 16-Feb-99
ARCO Alaska, Inc. -.
Post Office Box 100360
Anchorage, Alaska 99510-0360
Telephone 907-276-1215
February 26, 1999
Robert Christenson, Chairman
Alaska Oil and Gas Conservation Commission
3001 Porcupine Drive
Anchorage, Alaska 99501
(907) 279-1433
CONFIDENTIAL
Re:
Application for Permit to Drill
FIORD #5
Surface Location: 375' FNL, 810' FEL, Sec. 32, T13N, R5E, UM
Target & BHL: 205' FNL, 200' FEL, Sec. 32, T13N, R5E, UM
Dear Commissioner Christenson:
ARCO Alaska, Inc. hereby applies for a Permit to Drill an onshore exploratory well, the FIORD
#5, located approximately 21 miles North West of the Kuparuk River Unit's 3H Pad. This well will
be accessed via ice road originating near 3H Pad, drilled using Doyon Rig #141, tested and
permanently abandoned prior to spring breakup.
Attached is the information required by 20 ACC 25.005 (c) for your review. Other pertinent
information attached to this application is confidential data including the following:
1) Pressure information as required by 20 ACC 25.035 (d) (2).
2) Prediction of overpressured strata as required by 20 ACC 25.033 (e).
There are no shallow hazards expected at FIORD#5 (see attached graph). The nearest offset
well FIORD #1 indicates no overpressured intervals or lost circulation zones. See discussion
under "Drilling Area Risks".
There will be no reserve pit for this well. Waste drilling mud will be hauled to a KRU Class II
disposal well. All cuttings generated will be either stored temporarily on site or hauled to the
Prudhoe Bay Field for temporary storage and eventual processing for injection down an
approved disposal well.
Please note that ARCO does not anticipate the presence of H2S in the formations to be
encountered in this well. Therefore, ARCO has not included a H2S contingency plan with this
application, and requests an exemption from the H2S requirements. However, there will be H2S
monitoring equipment operating, as is the usual case while drilling wells in and near the Kuparuk
River Field. ARCO also requests that the information contained in this permit package be
handled with the highest level of confidentiality allowed under the AOGCC regulation 20.AAC
25.537. A request for spacing exception has been forwarded under separate cover.
If you have any questions or require any further information, please contact me at 263-4603 or
James Trantham at 265-6434.
Sincerely,
Paul Mazzolini
Drilling Team Leader
Exploration/Tarn Team Leader
Attachments
cc: FIORD #5 Well File
ARCO Alaska Inc. is a subsidiary of Atlantic Richfield Company
ORIGINAL
RtECE!VED
STATE OF ALASKA
ALASKA OIL AND GAS CONSERVATION COMMISSION
3001 Porcupine Drive
Anchorage Alaska 99501-3192
Re~
THE APPLICATION OF ARCO Alaska, Inc. )
for an order ~anting an exception to the spacing )
requirements of 20 A.AC 25.055(a)(1) to )
provide for the drilling of the Fiord g4 and )
Fiord #5 exploratory oil wells to an undefined )
pools in the Colville River Unit. )
Conservation Order No. 442
Fiord #4 and Fiord #5
Colville River Unit
February 18, 1999
IT APPEARING THAT:
ARCO Alaska, Inc. (AAI) by letter dated January 19, 1999, requested an exception to the
well spacing provisions of 20 AAC 25.055(a)(1). The exception would allow drilling the
Fiord ~4 and Fiord #5 exploratory oil wells to undefined pools within 500' of a governmental
quarter section line.
2. The Commission published notice of opportunity for public hearing in the Anchorage Daily
News on January 27, 1999 pursuant to 20 AAC 25.540.
3. No protests to the application were received.
FINDINGS:
The Fiord #4 will be drilled as a directional well from a surthce location of 250' from the
south line (FSL), 250' from the west line (FWL) of Section 22, T13N, RSE, Umiat Meridian
(UM) to a bottomhole location 565' FSL, 1030' FWL of Section 22, T13N, R5E, UM.
.
The Fiord #5 will be drilled as a directional well from a surface location of 375' from the
north line (FNL), 812' from the east line (FEL) of Section 32, T13N, R5E, Umiat Meridian
(UM) to a bottomhole location 205' FNL, 200' FEL of Section 32, T13N, R5E, UM.
3. Offset owners Anadarko Petroleum Corportion and Union Texas Alaska, LLC and offset
landowner the State of Alaska, Department of Natural Resources, have been duly notified.
4. An exception to the well spacing provisions of 20 AAC 25.055(a)(1) is necessary to allow
the drilling of these wells.
CONCLUSION:
Granting spacing exceptions to allow drilling of the Fiord ~4 and Fiord #5 exploratory oil wells
will not result in waste nor jeopardize correlative rights.
Conservation Order
February 18, 1999
Page 2
~42
NOW, THEREFORE, IT IS ORDERED:
AAI's application for exception to the well spacing provisions of' 20 AAC 25.055 (a)(1) for the
purpose of drilling the Fiord #4 and Fiord #5 exploratory oil wells is approved.
DONE at Anchorage, Alaska and dated February 18, 1999.
~obert N.~ri~tenson, P. E., Chairman
Alaska Oil and Gas Conservation Commission
Camillh Oechsli, Commissioner
Alaska Oil and Gas Conservation Commission
David W. Johnston, Co~t~missioner
Alaska Oil. and.~~Gas Cong~rvation Commission
AS 31.05.080 provides that within 20 days after receipt of written notice of the entry of an order, a person affected by it may file
with the Commission an application tbr rehearing. A request tbr rehearing must be received by 4:30 PM on the 23r'~ day
following the date of the order, or next working day if a holiday or weekend, to be timely filed. The Commission shall grant or
refuse the application in whole or in part within 10 days. The Commission can refuse an application by not acting on it within
the 10-day period. An affected person has 30 days from the date the Commission refuses the application or mails (or otherwise
distributes) an order upon rehearing, both being the final order of the Commission, to appeal the decision to Superior Court.
Where a request for rehearing is denied by nonaction of the Commission, the 30-day period for appeal to Superior Court runs
from the date on which the request is deemed denied (i.e., 10~h day after the application tbr rehearing was filed).
ARCO Alaska, Inc.
AAI PAYABLES
P.O. Box 102776
Anchorage, AK 99510-2776
CHECK NUMBER
PaY
TO THE
ORDER OF:
ALASKA DEPT OF REVENUE
ALASKA OIL &, G~S'.'CoNSERVATION COMMI
3001 PORCUPINE+ DRIVE ..!..::
2O5O88370
73-426
839
FEBRUARY 19, 1999
0997579
:. ...... ~ ACTLY ******** I L AND O0 ~NTS ~ :~**;****** 100.00
The First Nation;al:Bank:!!of Chi:b:~.~-0710 :!.:.:',:i:, r!,, i , ili:'
Payable Through:: Republic Bank ..... !:'
Shelby¥ille, Kentucky
TRACE NUMBER: 205088370
oqq ? S ?qll'
WELL PERMIT CHECKLIST
FIELD & POOL
ADMINISi~I~.TION I
'-2 . .z
ENGINEERING
APPR TE
COMPANY.,. ,,~'~_,~ WELL NAME ,,L'~.,.~' ~ ,~' PROGRAM: exp ~ dev
INIT CLASS. ~__-.,,~ ~¢~'. <_~,...--~ GEOL AREA
· Permit fee attached .......................
2. Lease number appropriate ...................
3. Unique well name and number ..................
4. Well located in a defined pool ..................
5. Well located proper distance from ddlling unit boundary ....
6. Well located proper distance from other wells ..........
7. Sufficient acreage available in drilling unit ............
8. If deviated, is wellbore plat included ...............
9. Operator only affected party ...................
10. Operator has appropriate bond in force .............
11. Permit can be issued without conservation order ........
12. Permit can be issued without administrative approval ......
13. Can permit be approved before 15-day wait ...........
GEOLOGY
14. Conductor string provided ...................
15. Surface casing protects all known USDWs ...........
16. CMT vol adequate to circulate on conductor & surf csg .....
17. CMT vol adequate to tie-in long string to surf csg ........
18. CMT will cover all known productive hodzons ..........
19. Casing designs adequate for C, T, B & permafrost .......
20. Adequate tankage or reserve pit .................
21. If a re-drill, has a 10-403 for abandonment been approved...
22. Adequate wellbore separation proposed .............
23. If diverter required, does it meet regulations ..........
24. Drilling fluid program schematic & equip list adequate .....
25. BOPEs, do they meet regulation ................
26. BOPE press rating appropriate; test to ,~' OOo psig.
27. Choke manifold complies w/APl RP-53 (May 84) ........
28. Work will occur without operation shutdown ...........
29. Is presence of H2S gas probable .................
30. Permit can be issued w/o hydrogen sulfide measures .....
31. Data presented on potential overpressure zones .......
redrll serv wellbore seg
ann. disposal para req
UNIT#
ON/OFF SHORE
~N
Cg) N
(~N
Y N
(~)N
(~N
(~N
32.
Il AP~ DATE, 33.
IANNULAR DISPOSAL 35.
APPR DATE
Seismic analysis of shallow gas zones ............. ~ N
Seabed condition survey (if off-shore)....' ./'.~.,
Contact name/phone for weekly progress reports [exploratory only]~,,/N
With proper cementing records, this plan
(A) will contain wast~j~ a suitable receiving zon~. ...... Y N
(B) will not cont~nate freshwater; or c~drilling waste... Y N
to su ta. ,
(C) will,per'impair mechani~.aH~egrity of the well used for disposal; Y N
(D) wiEnot damage~or.O~ucing formation or impair recovery from a Y N
pool; and ~
(E) will not circumvent 20 AAC 25.252 or 20 AAC 25.412. Y N
GEOLO_.~Y: ENGINEERING: UlC/Ar~h"ular COMMISSION,:
RP ,,~ BEW~ ,~' WM /,~ DWJ"-";~~
JDH -...-//. RNC
co
Comments/Instructions:
c:\msoffice\wordian\diana\checklist
Well HistorY File
APPENDIX
Information of detailed nature that is not
particularly germane to the Well Permitting Process
but is part of the history file.
To improve the readability of the Well History file and to
simplify finding information, information of this
nature is accumulated at the end of the file under APPENDIX.
No special effort has been made to chronol°gically
organize this category of information.
Sperry-Sun Drilling Services
LIS Scan Utility
Wed Apr 28 16:01:01 1999
Reel Header
Service name ............. LISTPE
Date ..................... 99/04/28
Origin ................... STS
Reel Name ................ UNKNOWN
Continuation Number ...... 01
Previous Reel Name ....... UNKNOWN
Comments ................. STS LIS Writing Library. Scientific Technical Services
Tape Header
Service name ............. LISTPE
Date ..................... 99/04/28
Origin ................... STS
Tape Name ................ UNKNOWN
Continuation Number ...... 01
Previous Tape Name ....... UNKNOWN
Comments ................. STS LIS Writing Library. Scientific Technical Services
Physical EOF
Comment Record
TAPE HEADER
EXPLORATION
MWD/MAD LOGS
WELL NAME:
API NUMBER:
OPERATOR:
LOGGING COMPANY:
TAPE CREATION DATE:
JOB DATA
JOB NUMBER:
LOGGING ENGINEER:
OPERATOR WITNESS:
MWD RUN 1
AK-MM-90096
B. HENNINGSE
M. WHITLEY
FIORD #5 PB1
501032029270
ARCO ALASKA, INC.
SPERRY-SUN DRILLING SERVICES
28-APR-99
1999
MWD RUN 2
AK-MM-90096
B. HENNINGSE
M. WHITLEY
MWD RUN 3 Alask~ 0il & Gas Cons. Commission
~- MM- 9 0 0 9 6 ~0~ge
B. HENNINGSE
R. SPRINGER
JOB NUMBER:
LOGGING ENGINEER:
OPERATOR WITNESS:
SURFACE LOCATION
SECTION:
TOWNSHIP:
RANGE:
FNL:
FSL:
MWD RUN 4
AK-MM-90096
B. HENNINGSE
R. SPRINGER
32
13N
05E
375
FEL:
FWL:
ELEVATION (FT FROM MSL 0)
KELLY BUSHING:
DERRICK FLOOR:
GROUND LEVEL:
WELL CASING RECORD
1ST STRING
2ND STRING
3RD STRING
PRODUCTION STRING
REMARKS:
810
34.90
33.40
5.90
OPEN HOLE CASING DRILLERS
BIT SIZE (IN) SIZE (IN) DEPTH (FT)
16.000 110.0
12.250 9.625 1980.0
8.500 7410.0
1. ALL DEPTHS ARE MEASURED DEPTHS (MD) UNLESS OTHERWISE
NOTED.
2. MWD RUNS 1 THROUGH 4 ARE DIRECTIONAL WITH DUAL GAMMA
R3~Y (DGR) , AND
ELECTROMAGNETIC WAVE RESISTIVITY PHASE-4 (EWR-4).
3. MWD DATA SHIFTED USING PLATFORM EXPRESS /DSI WL-GR
LOGGED BY SCHLUMBERGER
ON 24 MARCH, 1999.
4. THIS WELL REACHED A TOTAL DEPTH (TD) OF 7410'MD,
7334'TVD.
SROP = SMOOTHED RATE OF PENETRATION WHILE DRILLING.
SGRC = SMOOTHED GAMMA RAY COMBINED.
SEXP = SMOOTHED PHASE SHIFT-DERIVED RESISTIVITY (EXTRA
SHALLOW SPACING).
SESP = SMOOTHED PHASE SHIFT-DERIVED RESISTIVITY
(SHALLOW SPACING).
SEMP = SMOOTHED PHASE SHIFT-DERIVED RESISTIVITY (MEDIUM
SPACING).
SEDP = SMOOTHED PHASE SHIFT-DERIVED RESISTIVITY (DEEP
SPACING).
SFXE = SMOOTHED FORMATION EXPOSURE TIME.
$
File Header
Service name ............. STSLIB.001
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/04/28
Maximum Physical Record..65535
File Type ................ LO
Previous File Name ....... STSLIB.000
Comment Record
FILE HEADER
FILE NUMBER: 1
EDITED MERGED MWD
Depth shifted and clipped curves; all bit runs merged.
DEPTH INCREMENT: .5000
FILE SUMMARY
PBU TOOL CODE START DEPTH STOP DEPTH
FET 57.0 7363.0
RPD
RPM
RPS
RPX
GR
ROP
$
57 0
57 0
57 0
57 0
64 5
103 5
BASELINE CURVE FOR SHIFTS:
CURVE SHIFT DATA (MEASURED DEPTH)
BASELINE DEPTH
57
1977
1979
2174
2180
2184
2186
2188
2189
2199
2412
2414
2416
2423
2430
2433
2435
2437
2438
2440
2469
2476
2486
2489
2523
2529
2534
2543
2547
2598
2608
2620
2623
2654
2697
2714
2786
2790
2819
2873
2875
2878
2884
2903
2906
.0
.0
.5
.0
.0
.5
.0
0
0
5
0
0
5
5
5
0
0
5
0
5
5
0
5
5
5
5
0
5
0
5
5
.0
.0
5
5
0
0
0
0
5
5
5
0
5
0
GR
62
1982
1984
2179
2184
2188
2190
2192
2193
2204
2416
2419
2421
2428
2436
2438
2439
2441
2443
2445
2474
2481
2493
2495
2528
2535
2538
2549
2552
2604
2615
2626
2629
2661
2702
2719
2792
2796
2825
2879
2881
2884
2889
2911
2913
7363 0
7363 0
7363 0
7363 0
7353 5
7406 0
EQUIVALENT UNSHIFTED DEPTH
2910
2912
2916
2943
2954
2956
2965
2970
2983
3005
3007
3009
3014
3024
3026
3030
3187
3234
3244
3284
3291
3295
3303
3312
3314
3346
3348
3368
3372
3385
3392
3399
3402
3458
3459
3461
3533
3681
3704
3708
3712
3727
3746
3750
3756
3758
3759
3798
3803
3809
3815
3819
3821
3823
3829
3845
3848
2917
2919
2922
2949
2959
2960
2970
2976
2990
3011
3013
3016
3021
3030
3032
3036
3194
3241
3250
3289
3297
3301
3309
3319
3320
3352
3354
3374
3377
3392
3399
3405
3408
3464
3465
3467
3540
3687
3711
3714
3719
3732
3753
3757
3763
3765
3767
3804
3809
3815
3820
3825
3828
3830
3837
3851
3854
3850
3872
3879
3891
3904
3908
3910
3914
3916
3920
3925
3928
3930
4043
4049
4052
4054
4062
4064
4068
4077
4081
4085
4121
4162
4166
4202
4205
4207
4211
4213
4373
4469
4470
4472
4475
4478
5150
5154
5155
5711
5840
5842
5845
5848
5851
5853
5855
5868
5871
5874
5876
5878
5881
5893
5894
5897
5
5
0
5
5
5
0
.0
5
0
0
5
0
0
0
0
5
5
5
0
5
0
5
0
0
5
0
0
5
0
5
0
0
0
5
0
5
0
0
5
0
0
0
0
5
0
0
5
5
0
5
0
0
5
5
5
0
3857
3879
3884
3899
3910
3915
3916
3920
3923
3926
3931
3934
3935
4048
4054
4058
4060
4068
4070
4074
4084
4087
4090
4127
4169
4171
4207
4211
4213
4218
4219
4378
4474
4476
4478
4480
4484
5154
5160
5162
5717
5846
5848
5850
5854
5857
5860
5862
5875
5878
5881
5883
5885
5889
5901
5902
5904
.5
.0
.5
.0
.0
0
5
0
0
0
5
0
5
5
5
0
5
0
5
0
0
.0
0
0
5
5
0
0
5
0
0
0
0
.0
.0
.5
5
5
5
0
5
5
5
5
5
5
0
5
0
0
5
0
5
5
0
0
0
5898
5903
6103
6110
6128
6148
6158
6160
6174
6176
6179
6230
6250
6253
6256
6274
6311
6431
6438
6442
6448
6459
6462
6472
6483
6535
6543
6547
6554
6557
6566
6681
6681
6699
6702
6706
6732
6737
6770
6774
6778
6781
6809
6812
6814
6816
6857
6861
6866
6870
6872
6875
6878
6923
6928
6933
6937
5906
5910
6110
6118
6135
6155
6167
6168
6182
6185
6188
6236
6257
6262
6263
6282
6319
6438
6445
6450
6456
6467
6470
6478
6491
6541
6550
6554
6561
6565
6572
6688
6689
6707
6709
6713
6739
6745
6776
6780
6785
6787
6815
6819
6821
6822
6863
6868
6873
6876
6878
6881
6885
6929
6934
6940
6942
6975
6977
6980
6983
6984
6986
6988
6989
6991
6994
6995
6998
7001
7003
7004
7007
7008
7073
7137
7142
7146
7154
7164
7166
7184
7186
7188
7191
7209
7213
7216
7258
7269
7273
7324
7326
7329
7406
MERGED DATA SOURCE
PBU TOOL CODE
MWD
MWD
MWD
MWD
$
REMARKS:
6982 0
6984 0
6987 5
6989 5
6990 5
6991 5
6993 5
6994 5
6997 0
6998 5
7001 0
7004 5
7006 0
7007 5
7010 0
7012 0
7013 5
7078 5
7143 0
7148 0
7151 0
7158 0
7170 0
7171 5
7189 5
7192 5
7194 5
7197 0
7214.5
7219 0
7221 5
7264 0
7275 0
7278 0
7327 0
7330 0
7333 5
7410 0
BIT RUN NO MERGE TOP MERGE BASE
1 109.0 1002.0
2 1002.0 1990.0
3 1990.0 6368.0
4 6368.0 7410.0
MERGED MAIN PASS.
$
Data Format Specification Record
Data Record Type .................. 0
Data Specification Block Type ..... 0
Logging Direction ................. Down
Optical log depth units ........... Feet
Data Reference Point .............. Undefined
Frame Spacing ..................... 60 .lin
Max frames per record ............. Undefined
Absent value ...................... -999.25
Depth Units .......................
Datum Specification Block sub-type...0
DEPT
ROP
GR
RPX
RPS
RPM
RPD
FET
Name Service Order Units Size Nsam Rep
FT 4 1 68
MWD FT/H 4 1 68
MWD API 4 1 68
MWD OHMM 4 1 68
MWD OHMM 4 1 68
MWD OHMM 4 1 68
MWD OHMM 4 1 68
MWD HOUR 4 1 68
Code Offset Channel
0 1
4 2
8 3
12 4
16 5
20 6
24 7
28 8
Name
DEPT
ROP
GR
RPX
RPS
RPM
RPD
FET
Min
57
0.36
17 92
0 38
0 39
0 37
0 11
0 01
Max
7406
1977.07
382.96
1293.34
1819.16
2000
2000
40.3
Mean Nsam
3731.5 14699
152.903 14606
104.127 14579
5.18719 14613
7.25172 14613
12.8116 14613
22.5203 14613
0.953636 14613
First
Reading
57
103.5
64.5
57
57
57
57
57
Last
Reading
7406
7406
7353.5
7363
7363
7363
7363
7363
First Reading For Entire File .......... 57
Last Reading For Entire File ........... 7406
File Trailer
Service name ............. STSLIB.001
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/04/28
Maximum Physical Record..65535
File Type ................ LO
Next File Name ........... STSLIB.002
Physical EOF
File Header
Service name ............. STSLIB.002
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/04/28
Maximum Physical Record..65535
File Type ................ LO
Previous File Name ....... STSLIB.001
Comment Record
FILE HEADER
FILE NUMBER: 2
R3kW MWD
Curves and log header data for each bit run in separate files.
BIT RUN NUMBER: 1
DEPTH INCREMENT: .5000
FILE SUMMARY
VENDOR TOOL CODE START DEPTH
FET 62 5
RPD 62 5
RPM 62 5
RPS 62 5
RPX 62 5
GR 70 0
ROP 109 0
$
LOG HEADER DATA
DATE LOGGED:
SOFTWARE
SURFACE SOFTWARE VERSION:
DOWNHOLE SOFTWARE VERSION:
DATA TYPE (MEMORY OR REAL-TIME):
TD DRILLER (FT) :
TOP LOG INTERVAL (FT) :
BOTTOM LOG INTERVAL (FT) :
BIT ROTATING SPEED (RPM) :
HOLE INCLINATION (DEG
MINIMUM ANGLE:
MAXIMUM ANGLE:
TOOL STRING (TOP TO BOTTOM)
VENDOR TOOL CODE TOOL TYPE
DGR DUAL GAMMA RAY
EWR4 ELECTROMAG. RESIS. 4
$
BOREHOLE AND CASING DATA
OPEN HOLE BIT SIZE (IN):
DRILLER'S CASING DEPTH (FT) :
BOREHOLE CONDITIONS
MUD TYPE:
MUD DENSITY (LB/G):
MUD VISCOSITY (S) :
MUD PM:
MUD CHLORIDES (PPM) :
FLUID LOSS (C3) :
RESISTIVITY (OHMM) AT TEMPERATURE (DEGF)
MUD AT MEASURED TEMPERATURE (MT):
MUD AT MAX CIRCULATING TERMPERATURE:
MUD FILTRATE AT MT:
MUD CAKE AT MT:
NEUTRON TOOL
MATRIX:
STOP DEPTH
957 0
957 0
957 0
957 0
957 0
965 0
1001 0
15-MAR-99
INSITE 3.2.12.3
CIM 5.46,EWR 1.38,HCIM 630.91
MEMORY
1002.0
109.0
1002.0
.3
1.0
TOOL NUMBER
P1264 CRG8
P1264 CRG8
12.250
12.3
SPUD MUD
10.20
195.0
9.6
1800
7.2
2.200
2.060
1.800
3.100
16.9
MATRIX DENSITY:
HOLE CORRECTION (IN):
TOOL STANDOFF (IN):
EWR FREQUENCY (HZ):
REMARKS:
$
Data Format Specification Record
Data Record Type .................. 0
Data Specification Block Type ..... 0
Logging Direction ................. Down
Optical log depth units ........... Feet
Data Reference Point .............. Undefined
Frame Spacing ..................... 60 .liN
Max frames per record ............. Undefined
Absent value ...................... -999.25
Depth Units .......................
Datum Specification Block sub-type...0
Name Service Order Units Size Nsam Rep Code Offset Channel
DEPT FT 4 1 68 0 1
GR MWD 1 API 4 1 68 4 2
RPX MWD 1 OHMM 4 1 68 8 3
RPS MWD 1 OHMM 4 1 68 12 4
RPM MWD 1 OHMM 4 1 68 16 5
RPD MWD 1 OHMM 4 1 68 20 6
FET MWD 1 HOUR 4 1 68 24 7
ROP MWD 1 FT/H 4 1 68 28 8
Name
DEPT
GR
RPX
RPS
RPM
RPD
FET
ROP
Min
62.5
17 92
1 57
1 93
2 17
2 65
0 01
0 59
First
Max Mean Nsam Reading
1001 531.75 1878 62.5
194.78 51.2908 1791 70
1293.34 12.4133 1790 62.5
1060.75 23.4879 1790 62.5
1721.36 51.252 1790 62.5
2000 98.0875 1790 62.5
3.41 0.676335 1790 62.5
1977.07 148.225 1785 109
Last
Reading
1001
965
957
957
957
957
957
1001
First Reading For Entire File .......... 62.5
Last Reading For Entire File ........... 1001
File Trailer
Service name ............. STSLIB.002
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/04/28
Maximum Physical Record..65535
File Type ................ LO
Next File Name ........... STSLIB.003
Physical EOF
File Header
Service name ............. STSLIB.003
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/04/28
Maximum Physical Record..65535
File Type ................ LO
Previous File Name ....... STSLIB.002
Comment Record
FILE HEADER
FILE NUMBER: 3
RAW MWD
Curves and log header data for each bit run in separate files.
BIT RUN NUMBER: 2
DEPTH INCREMENT: .5000
FILE SUMMARY
VENDOR TOOL CODE START DEPTH
FET
RPD
RPM
RPS
RPX
GR
ROP
$
LOG HEADER DATA
DATE LOGGED:
SOFTWARE
957 5
957 5
957 5
957 5
957 5
965 5
1003 5
SURFACE SOFTWARE VERSION:
DOWNHOLE SOFTWARE VERSION:
DATA TYPE (MEMORY OR REAL-TIME):
TD DRILLER (FT) :
TOP LOG INTERVAL (FT) :
BOTTOM LOG INTERVAL (FT) :
BIT ROTATING SPEED (RPM) :
HOLE INCLINATION (DEG
MINIMUM ANGLE:
MAXIMUM ANGLE:
STOP DEPTH
1945.0
1945.0
1945.0
1945.0
1945.0
1952.5
1990.0
TOOL STRING (TOP TO BOTTOM)
VENDOR TOOL CODE TOOL TYPE
DGR DUAL GAMMA RAY
EWR4 ELECTROMAG. RESIS. 4
$
BOREHOLE AND CASING DATA
OPEN HOLE BIT SIZE (IN):
DRILLER'S CASING DEPTH (FT) :
16-MAR-99
INSITE 3.2.12.3
CIM 5.46,EWR 1.38,HCIM 630.91
MEMORY
1990.0
1002.0
1990.0
.5
1.0
TOOL NUMBER
P1264CRG8
P1264CRG8
12.250
12.3
BOREHOLE CONDITIONS MUD TYPE:
MUD DENSITY (LB/G):
MUD VISCOSITY (S) :
MUD PH:
MUD CHLORIDES (PPM) :
FLUID LOSS (C3) :
RESISTIVITY (OHMM) AT TEMPERATURE (DEGF)
MUD AT MEASURED TEMPERATURE (MT):
MUD AT MAX CIRCULATING TERMPERATURE:
MUD FILTRATE AT MT:
MUD CAKE AT MT:
NEUTRON TOOL
MATRIX:
MATRIX DENSITY:
HOLE CORRECTION (IN):
TOOL STANDOFF (IN):
EWR FREQUENCY (HZ):
REMARKS:
$
Data Format Specification Record
Data Record Type .................. 0
Data Specification Block Type ..... 0
Logging Direction ................. Down
Optical log depth units ........... Feet
Data Reference Point .............. Undefined
Frame Spacing ..................... 60 .liN
Max frames per record ............. Undefined
Absent value ...................... -999.25
Depth Units .......................
Datum Specification Block sub-type...0
SPUD MUD
10.20
195.0
9.6
1800
7.2
2.000
1.988
1.800
3.000
Name Service Order Units Size Nsam Rep Code Offset Channel
DEPT FT 4 1 68 0 1
GR MWD 2 API 4 1 68 4 2
RPX MWD 2 OHMM 4 1 68 8 3
RPS MWD 2 OHMM 4 1 68 12 4
RPM MWD 2 OHMM 4 1 68 16 5
RPD MWD 2 OHMM 4 1 68 20 6
FET MWD 2 HOUR 4 1 68 24 7
ROP MWD 2 FT/H 4 1 68 28 8
16.9
Name Min Max Mean Nsam
DEPT 957.5 1990 1473.75 2066
GR 19 128.93 70.1973 1975
RPX 1.16 43.7 7.43468 1976
RPS 1.16 65.18 11.4488 1976
RPM 1.2 2000 27.1508 1976
RPD 1.31 2000 52.1914 1976
FET 0.28 7.53 0.856857 1976
First
Reading
957 5
965 5
957 5
957 5
957 5
957 5
957 5
Last
Reading
1990
1952.5
1945
1945
1945
1945
1945
ROP 0.6 617.22 168.188 1974 1003.5
1990
First Reading For Entire File .......... 957.5
Last Reading For Entire File ........... 1990
File Trailer
Service name ............. STSLIB.003
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/04/28
Maximum Physical Record..65535
File Type ................ LO
Next File Name ........... STSLIB.004
Physical EOF
File Header
Service name ............. STSLIB.004
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/04/28
Maximum Physical Record..65535
File Type ................ LO
Previous File Name ....... STSLIB.003
Comment Record
FILE HEADER
FILE NUMBER: 4
RAW MWD
Curves and log header data for each bit run in separate files.
BIT RUN NUMBER: 3
DEPTH INCREMENT: .5000
FILE SUMMARY
VENDOR TOOL CODE START DEPTH
FET
RPD
RPM
RPS
RPX
GR
ROP
$
LOG HEADER DATA
DATE LOGGED:
SOFTWARE
1943 0
1943 0
1943 0
1943 0
1943 0
1950 0
1990 5
SURFACE SOFTWARE VERSION:
DOWNHOLE SOFTWARE VERSION:
DATA TYPE (MEMORY OR REAL-TIME):
TD DRILLER (FT) :
TOP LOG INTERVAL (FT) :
BOTTOM LOG INTERVAL (FT) :
STOP DEPTH
6323 5
6323 5
6323 5
6323 5
6323 5
6314 0
6368 0
20-MAR-99
INSITE 3.2.12.3
CIM 5.46,EWR 1.38,HCIM 630.91
MEMORY
6368.0
1990.0
6368.0
BIT ROTATING SPEED (RPM) :
HOLE INCLINATION (DEG
MINIMUM ANGLE:
MAXIMUM ANGLE:
TOOL STRING (TOP TO BOTTOM)
VENDOR TOOL CODE TOOL TYPE
DGR DUAL GAMMA R_AY
EWR4 ELECTROMAG. RESIS. 4
$
BOREHOLE AND CASING DATA
OPEN HOLE BIT SIZE (IN):
DRILLER'S CASING DEPTH (FT) :
BOREHOLE CONDITIONS MUD TYPE:
MUD DENSITY (LB/G):
MUD VISCOSITY (S) :
MUD PH:
MUD CHLORIDES (PPM) :
FLUID LOSS (C3) :
RESISTIVITY (OHMM) AT TEMPERATURE (DEGF)
MUD AT MEASURED TEMPERATURE (MT):
MUD AT MAX CIRCULATING TERMPERATURE:
MUD FILTRATE AT MT:
MUD CAKE AT MT:
NEUTRON TOOL
MATRIX:
MATRIX DENSITY:
HOLE CORRECTION (IN):
TOOL STANDOFF (IN):
EWR FREQUENCY (HZ):
REMARKS:
$
Data Format Specification Record
Data Record Type .................. 0
Data Specification Block Type ..... 0
Logging Direction ................. Down
Optical log depth units ........... Feet
Data Reference Point .............. Undefined
Frame Spacing ..................... 60 .lin
Max frames per record ............. Undefined
Absent value ...................... -999.25
Depth Units .......................
Datum Specification Block sub-type...0
.4
16.9
TOOL NUMBER
P1270HGVR6
P1270HGVR6
8.500
8.5
LSND
10.00
43.0
9.2
1000
5.6
2.900
1.730
2.600
3.500
Name Service Order Units Size Nsam Rep Code Offset Channel
DEPT FT 4 1 68 0 1
GR MWD 3 API 4 1 68 4 2
RPX MWD 3 OHMM 4 1 68 8 3
RPS MWD 3 OHMM 4 1 68 12 4
RPM MWD 3 OHMM 4 1 68 16 5
46.2
RPD
FET
ROP
MWD 3
MWD 3
MWD 3
OHMM 4 1 68
HOUR 4 1 68
FT/H 4 1 68
20
24
28
Name
DEPT
GR
RPX
RPS
RPM
RPD
FET
ROP
Min
1943
34 08
0 38
0 39
0 37
0 11
0 29
0 36
Max Mean
6368 4155.5
310.39 111.894
1044.7 3.52415
1819.16 3.79904
1640.89 3.87031
1837.23 4.5234
40.31 1.01256
852.14 159.433
Nsam
8851
8729
8762
8762
8762
8762
8762
8756
First
Reading
1943
1950
1943
1943
1943
1943
1943
1990.5
Last
Reading
6368
6314
6323.5
6323.5
6323.5
6323.5
6323.5
6368
First Reading For Entire File .......... 1943
Last Reading For Entire File ........... 6368
File Trailer
Service name ............. STSLIB.004
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/04/28
Maximum Physical Record..65535
File Type ................ LO
Next File Name ........... STSLIB.005
Physical EOF
File Header
Service name ............. STSLIB.005
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/04/28
Maximum Physical Record..65535
File Type ................ LO
Previous File Name ....... STSLIB.004
Comment Record
FILE HEADER
FILE NUMBER: 5
RAW MWD
Curves and log header data for each bit run in separate files.
BIT RUN NUMBER: 4
DEPTH INCREMENT: .5000
FILE SUMMARY
VENDOR TOOL CODE START DEPTH
GR 6315.0
FET 6324.5
RPD 6324.5
STOP DEPTH
7357.5
7367.0
7367.0
RPM 6324.5
RPS 6324.5
RPX 6324.5
ROP 6368.5
$
LOG HEADER DATA
DATE LOGGED:
SOFTWARE
SURFACE SOFTWARE VERSION:
DOWNHOLE SOFTWARE VERSION:
DATA TYPE (MEMORY OR REAL-TIME):
TD DRILLER (FT) :
TOP LOG INTERVAL (FT) :
BOTTOM LOG INTERVAL (FT) :
BIT ROTATING SPEED (RPM) :
HOLE INCLINATION (DEG
MINIMUM ANGLE:
MAXIMUM ANGLE:
TOOL STRING (TOP TO BOTTOM)
VENDOR TOOL CODE TOOL TYPE
NGP NATURAL GAMMA PROBE
DGR DUAL GAMMA RAY
$
BOREHOLE AND CASING DATA
OPEN HOLE BIT SIZE (IN):
DRILLER'S CASING DEPTH (FT) :
7367.0
7367.0
7367.0
7410.0
BOREHOLE CONDITIONS MUD TYPE:
MUD DENSITY (LB/G):
MUD VISCOSITY (S) :
MUD PH:
MUD CHLORIDES (PPM) :
FLUID LOSS (C3) :
RESISTIVITY (OHMM) AT TEMPERATURE (DEGF)
MUD AT MEASURED TEMPERATURE (MT):
MUD AT MAX CIRCULATING TERMPERATURE:
MUD FILTRATE AT MT:
MUD CAKE AT MT:
NEUTRON TOOL
MATRIX:
MATRIX DENSITY:
HOLE CORRECTION (IN):
TOOL STANDOFF (IN):
EWR FREQUENCY (HZ) :
REMARKS:
$
Data Format Specification Record
Data Record Type .................. 0
Data Specification Block Type ..... 0
21-MAR-99
INSITE 3.2.12.3
CIM 5.46,EWR 1.38,HCIM 630.91
MEMORY
7410.0
6368.0
7410.0
.6
1.0
TOOL NUMBER
P1270HGVR6
P1270HGVR6
8.500
8.5
LSND
10.00
43.0
9.5
900
5.4
2.700
1.440
2.800
3.900
50.1
Logging Direction ................. Down
Optical log depth units ........... Feet
Data Reference Point .............. Undefined
Frame Spacing ..................... 60 .liN
Max frames per record ............. Undefined
Absent value ...................... -999.25
Depth Units .......................
Datum Specification Block sub-type...0
DEPT
GR
RPX
RPS
RPM
RPD
FET
ROP
Name Service Order Units Size Nsam Rep
FT 4 1 68
MWD 4 API 4 1 68
MWD 4 OHMM 4 1 68
MWD 4 OHMM 4 1 68
MWD 4 OHMM 4 1 68
MWD 4 OHMM 4 1 68
MWD 4 HOUR 4 1 68
MWD 4 FT/H 4 1 68
Code Offset Channel
0 1
4 2
8 3
12 4
16 5
20 6
24 7
28 8
Name Min Max Mean
DEPT 6315 7410 6862.5
GR 38.94 382.96 149.146
RPX 0.86 96.47 3.74583
RPS 0.93 72.33 3.75318
RPM 1.01 68.41 3.7153
RPD 1.01 68 3.75245
FET 0.33 10.06 1.10723
ROP 1 372.85 114.972
Nsam
2191
2086
2086
2086
2086
2086
2086
2084
First
Reading
6315
6315
6324 5
6324 5
6324 5
6324 5
6324 5
6368 5
Last
Reading
7410
7357.5
7367
7367
7367
7367
7367
7410
First Reading For Entire File .......... 6315
Last Reading For Entire File ........... 7410
File Trailer
Service name ............. STSLIB.005
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/04/28
Maximum Physical Record..65535
File Type ................ LO
Next File Name ........... STSLIB.006
Physical EOF
Tape Trailer
Service name ............. LISTPE
Date ..................... 99/04/28
Origin ................... STS
Tape Name ................ UNKNOWN
Continuation Number ...... 01
Next Tape Name ........... UNKNOWN
Comments ................. STS LIS Writing Library.
Reel Trailer
Service name ............. LISTPE
Date ..................... 99/04/28
Origin ................... STS
Reel Name ................ UNKNOWN
Continuation Number ...... 01
Next Reel Name ........... UNKNOWN
Comments ................. STS LIS Writing Library.
Scientific
Scientific
Technical
Technical
Services
Services
Physical EOF
Physical EOF
End Of LIS File
Sperry-Sun Drillin9 Services
LIS Scan Utility
Tue May 18 15:28:57 1999
Reel Header
Service name ............. LISTPE
Date ..................... 99/05/18
Origin ................... STS
Reel Name ................ UNKNOWN
Continuation Number ...... 01
Previous Reel Name ....... UNKNOWN
Comments ................. STS LIS Writin~ Library. Scientific Technical Services
Tape Header
Service name ............. LISTPE
Date ..................... 99/05/18
Origin ................... STS
Tape Name ................ UNKNOWN
Continuation Number ...... 01
Previous Tape Name ....... UNKNOWN
Comments ................. STS LIS Writin~ Library. Scientific Technical Services
Physical EOF
Comment Record
TAPE HEADER
EXPLORATION
MWD/MkO LOGS
WELL NAME:
API NUMBER:
OPERATOR:
LOGGING COMPANY:
TAPE CREATION DATE:
JOB DATA
JOB NUMBER:
LOGGING ENGINEER:
OPERATOR WITNESS:
MWD RUN 1
AK-MM-90096
B. HENNINGSE
M. WHITLEY
RECEIVED
MAY 25 1999
NaSa Oil & Gas Cons. Commission
F I ORD # 5 An~orage
501032029200
ARCO ALASKA, INC.
SPERRY-SUN DRILLING SERVICES
18-MAY-99
MWD RUN 2
AK-MM-90096
B. HENNINGSE
M. WHITLEY
MWD RUN 3
AK-MM-90096
B. HENNINGSE
R. SPRINGER
JOB NUMBER:
LOGGING ENGINEER:
OPERATOR WITNESS:
SURFACE LOCATION
SECTION:
TOWNSHIP:
RANGE:
FNL:
FSL:
MWD RUN 6
AK-MM-90096
P. SMITH
R. SPRINGER
MWD RUN 7
AK-MM-90096
A. WEAVER
R. SPRINGER
32
13N
05E
375
FEL:
FWL:
ELEVATION (FT FROM MSL 0)
KELLY BUSHING:
DERRICK FLOOR:
GROLrND LEVEL:
WELL CASING RECORD
1ST STRING
2ND STRING
3RD STRING
PRODUCTION STRING
REMARKS:
810
34.90
33.40
5.90
OPEN HOLE CASING DRILLERS
BIT SIZE (IN) SIZE (IN) DEPTH (FT)
16.000 110.0
12.250 9.625 1980.0
8.500 7490.0
1. ALL DEPTHS ARE MEASURED DEPTHS (MD) UNLESS OTHERWISE
NOTED.
2. MWD RUNS 1,2,3,6 AND 7 ARE DIRECTIONAL WITH DUAL
GAMMA RAY (DGR), AND
ELECTROMAGNETIC WAVE RESISTIVITY PHASE-4 (EWR-4).
3. MWD RUNS 4 AND 5 CONTAIN NO VALID DATA AND ARE NOT
PRESENTED.
4. MWD DATA HAS BEEN SHIFTED USING THE PLATFORM EXPRESS
/DSI WL-GR LOGGED BY
SCHLUMBERGER ON 24 MARCH 1999. THIS WL-GR DATA IS USED
TO SHIFT FROM
SURFACE TO KICK OFF OF FIORD ~5 PB1 AT 5600'MD,
5525'TVD. MWD DATA AFTER
KICK-OFF POINT IS SHIFTED USING WL-GR DATA LOGGED ON 31
MARCH, 1999 BY
SCHLUMBERGER. (KBE FOR BOTH WL-GR IS 34.9').
5. THIS WELL REACHED A TOTAL DEPTH (TD) OF 7490'MD,
7399'TVD.
SROP = SMOOTHED RATE OF PENETRATION WHILE DRILLING.
SGRC = SMOOTHED GAMMA RAY COMBINED.
SEXP = SMOOTHED PHASE SHIFT-DERIVED RESISTIVITY (EXTRA
SHALLOW SPACING).
SESP = SMOOTHED PHASE SHIFT-DERIVED RESISTIVITY
(SHALLOW SPACING).
SEMP = SMOOTHED PHASE SHIFT-DERIVED RESISTIVITY (MEDIUM
SPACING).
SEDP = SMOOTHED PHASE SHIFT-DERIVED RESISTIVITY (DEEP
SPACING).
SFXE = SMOOTHED FORMATION EXPOSURE TIME.
$
File Header
Service name ............. STSLIB.001
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Previous File Name ....... STSLIB.000
Comment Record
FILE HEADER
FILE NUMBER: 1
EDITED MERGED MWD
Depth shifted and clipped curves; all bit runs merged.
DEPTH INCREMENT: .5000
FILE SUMMARY
PBU TOOL CODE START DEPTH
FET 57 0
RPD 57 0
RPM 57 0
RPS 57 0
RPX 57 0
GR 64 5
ROP 103 5
$
BASELINE CURVE FOR SHIFTS:
CURVE SHIFT DATA (MEASURED DEPTH)
BASELINE DEPTH
57 0
1977
1979
2174
2180
2184
2186
2188
2189
2199.5
2412.0
2414 0
2416 5
2423 5
2430 5
2433 0
2435 0
2437 5
2438 0
2440.5
2469 5
2476 0
2486 5
2489 5
2523 5
2529 5
2534 0
2,543 5
2547 0
2598 5
2608 5
2620 0
2623 0
2654 5
2697 5
2714.0
2786.0
GR
62 5
1982 5
1984 0
2179 0
2184 5
2188 0
2190 5
2192 5
2193 0
2204 0
2416 5
2419 0
2421 5
2428 5
2436 0
2438 0
2439 5
2441 0
2443 0
2445 0
2474 0
2481 0
2493 5
2495 5
2528 5
2535 5
2538 5
2549 0
2552 0
2604 5
2615 0
2626 5
2629 0
2661 0
2702 0
2719 5
2792.5
STOP DEPTH
7475.5
7475 5
7475 5
7475 5
7475 5
7466 0
7487 0
EQUIVALENT UNSHIFTED DEPTH
2790
2819
2873
2875
2878
2884
2903
2906
2910
2912
2916
2943
2954
2956
2965
2970
2983
3005
3007
3009
3014
3024
3026
3030
3187
3234
3244
3284
3291
3295
3303
3312
3314
3346
3348
3368
3372
3385
3392
3399
3402
3458
3459
3461
3533
3681
3704
3708
3712
3727
3746
3750
3756
3758
3759
3798
3803
0
0
5
5
5
0
5
0
0
.0
0
0
0
0
5
5
0
0
5
5
0
5
5
5
5
5
5
5
0
0
0
5
5
5
0
5
0
5
5
5
5
5
0
0
5
5
5
5
5
0
5
0
0
0
0
5
5
796
825
879
881
884
889
911
913
917
919
922
949
959
960
970
976
990
011
013
016
021
030
032
036
194
241
250
289
297
301
309
319
320
352
354
374
377
392
399
405
408
464
465
467
540
687
711
714
719
732
753
757
763
765
767
804
809
3809
3815
3819
3821
3823
3829
3845
3848
3850
3872
3879
3891
3904
3908
3910
3914
3916
3920
3925
3928
3930
4043
4049
4052
4054
4062
4064
4068
4077
4081
4085
4121
4162
4166
4202
4205
4207
4211
4213
4373
4469
4470
4472
4475
4478
5150
5154
5155
5596
5827
5833
5872
5879
5886
5965
5972
6109
5
5
0
5
5
5
.0
.0
5
5
0
5
5
5
0
.0
5
0
0
5
0
0
.0
0
5
5
5
0
5
0
5
0
0
5
0
0
5
0
5
0
0
0
5
0
5
0
0
5
0
5
5
0
5
0
5
0
0
3815
3820
3825
3828
3830
3837
3851
3854
3857
3879
3884
3899
3910
3915
3916
3920
3923
3926
3931
3934
3935
4048
4054
4058
4060
4068
4070
4074
4084
4087
4090
4127
4169
4171
4207
4211
4213
4218
4219
4378
4474
4476
4478
4480
4484
51
51
51
55
58
58
58
58
58
59
59
61
0
5
5
0
5
0
0
0
5
0
5
0
0
0
5
0
0
0
5
0
5
5
5
0
5
0
5
0
0
0
0
0
5
5
0
0
5
0
0
0
0
0
.0
.5
.5
54.5
60 5
62 0
97 0
32 5
39 0
77 0
84 0
90 5
71 0
77.0
14.0
6179 0
6277 0
6280 0
6290 0
6291 5
6300 5
6305 5
6308 5
6311 0
6318 0
6320 0
6321 5
6324 5
6327 0
6330.5
6333 5
6336 0
6339 5
6341 5
6345 0
6363 5
6365 5
6368 5
6370 5
6374 0
6376 5
6379 5
6384 5
6386 5
6391 0
6393 0
6396 0
6401.5
6410 0
6411 5
6413 5
6416 0
6445 0
6450 5
6452 0
6453.5
6455 0
6460 0
6485 5
6493 0
6495 5
6498 0
6505 0
6507 5
6511 0
6514 0
6521 0
6524.0
6525.5
6527.0
6528.5
6540.5
6184.5
6280.5
6284.5
6296.0
6297.0
6306.0
6312.0
6314.0
6316 5
6322 5
6326 0
6327 5
6329 0
6332 0
6336 0
6339 0
6341 5
6344 5
6345 5
6350.0
6368 0
6371 5
6374 0
6375 5
6379 0
6382 0
6384 5
6389 5
6391 5
6396.5
6398 5
6401 5
6406 5
6415 5
6417 0
6418 5
6421 0
6449 5
6455 0
6457 0
6458 0
6460 0
6465 0
6490 0
6497 5
6499 5
6502 0
6509 5
6513 0
6516 0
6518 5
6525 0
6528 5
6530.0
6531.5
6532.5
6545.5
6542
6545
6547
6549
6571
6577
6579
6580
6582
6583
6585
6587
6591
6593
6596
6597
6599
6600
6647
6653
6659
6664
6670
6672
6674
6676
6678
6681
6683
6689
6692
6692
6709
6721
6722
6726
6729
6732
6734
6741
6750
6751
6786
6789
6792
6793
6874
6880
6891
6894
6938
6940
6942
6947
6949
6960
6964
.5
.5
.5
.5
.5
.5
.0
.0
.0
.5
5
5
0
5
5
5
5
5
5
0
0
5
5
0
0
0
5
0
0
0
0
5
5
0
5
0
5
0
0
5
5
5
0
0
.0
5
5
0
0
0
5
0
0
5
5
5
5
6546
6550
6552
6555
6576
6582
6583
6585
6586
6588
6590
6592
6595
6597
6600
6601
6603
6605
6652
6658
6662
6668
6674
6676
6677
6680
6682
6684
6687
6692
6696
6696
6713
6725
6726
6730
6734
6736
6738
6746
6755
6757
6791
6793
6796
6797
6879
6883
6894
6897
6942
6944
6945
6951
6953
6963
6967
.5
.0
.5
.0
.0
.5
.5
.0
.5
.0
.0
.0
.0
.5
.5
5
5
5
0
0
5
0
0
0
5
0
5
5
0
5
0
5
5
0
0
5
0
0
5
0
0
0
0
5
5
5
0
5
5
.0
5
0
5
5
0
5
0
6990
6993
6994
6997
6999
7001
7003
7005
7007
7009
7011
7013
7016
7018
7019
7021
7024
7025
7091
7092
7094
7155
7172
7182
7184
7207
7209
7262
7264
7269
7277
7287
7339
7368
7370
7381
7391
7487
$
5
0
5
0
5
0
5
5
0
0
0
0
0
0
5
5
0
5
5
5
0
5
0
0
0
0
5
5
0
5
0
5
5
0
0
5
.0
.0
6993.0
6994 0
6995 5
6998 5
7001 0
7004 5
7006 0
7008 5
7010.0
7011.0
7013.5
7015.0
7018.5
7019.5
7021 0
7024 0
7025 5
7027 5
7095 0
7096 0
7097 5
7159 0
7175 5
7185 0
7187 5
7210 5
7212 0
7265 0
7267 5
7272 5
7278 5
7291 0
7342 5
7371 0
7373 0
7384 5
7394 0
7490 0
MERGED DATA SOURCE
PBU TOOL CODE BIT RUN NO
MWD 1
MWD 2
MWD 3
MWD 6
MWD 7
$
REMARKS: MERGED MAIN PASS.
$
MERGE TOP
109.0
1002.0
1990.0
5600.0
7017.0
Data Format Specification Record
Data Record Type .................. 0
Data Specification Block Type ..... 0
Logging Direction ................. Down
Optical log depth units ........... Feet
MERGE BASE
1002.0
1990.0
5600.0
7017.0
7490.0
Data Reference Point .............. Undefined
Frame Spacing ..................... 60 .lin
Max frames per record ............. Undefined
Absent value ...................... -999.25
Depth Units .......................
Datum Specification Block sub-type...0
Name Service Order Units Size Nsam Rep
DEPT FT 4 1 68
ROP MWD FT/H 4 1 68
GR MWD API 4 1 68
RPX MWD OHMM 4 1 68
RPS MWD OHMM 4 1 68
RPM MWD OHMM 4 1 68
RPD MWD OHMM 4 1 68
FET MWD HOUR 4 1 68
Code Offset Channel
0 1
4 2
8 3
12 4
16 5
20 6
24 7
28 8
Name
DEPT
ROP
GR
RPX
RPS
RPM
RPD
FET
Min
57
0.36
17 92
0 38
0 39
0 37
0 11
0 01
Max
7487
1977.07
389.76
1293.34
1819.16
2000
2000
40.3
Mean Nsam
3772 14861
145.887 14768
104.241 14804
5.13685 14838
7.16649 14838
12.6374 14838
22.1913 14838
1.24427 14838
First
Reading
57
103.5
64.5
57
57
57
57
57
Last
Reading
7487
7487
7466
7475.5
7475.5
7475.5
7475.5
7475.5
First Reading For Entire File .......... 57
Last Reading For Entire File ........... 7487
File Trailer
Service name ............. STSLIB.001
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Next File Name ........... STSLIB.002
Physical EOF
File Header
Service name ............. STSLIB.002
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Previous File Name ....... STSLIB.001
Comment Record
FILE HEADER
FILE NUMBER: 2
RAW MWD
Curves and log header data for each bit run in separate files.
BIT RUN NUMBER: 1
DEPTH INCREMENT: .5000
FILE SUMMARY
VENDOR TOOL CODE START DEPTH
FET
RPD
RPM
RPS
RPX
GR
ROP
$
LOG HEADER DATA
DATE LOGGED:
SOFTWARE
62 5
62 5
62 5
62 5
62 5
70 0
109 0
SURFACE SOFTWARE VERSION:
DOWNHOLE SOFTWARE VERSION:
DATA TYPE (MEMORY OR REAL-TIME):
TD DRILLER (FT) :
TOP LOG INTERVAL (FT) :
BOTTOM LOG INTERVAL (FT) :
BIT ROTATING SPEED (RPM) :
HOLE INCLINATION (DEG
MINIMUM ANGLE:
MAXIMUM ANGLE:
TOOL STRING (TOP TO BOTTOM)
VENDOR TOOL CODE TOOL TYPE
DGR DUAL GAMMA RAY
EWR4 ELECTROMAG. RESIS. 4
$
BOREHOLE AND CASING DATA
OPEN HOLE BIT SIZE (IN):
DRILLER'S CASING DEPTH (FT) :
BOREHOLE CONDITIONS MUD TYPE:
MUD DENSITY (LB/G):
MUD VISCOSITY (S) :
MUD PH:
MUD CHLORIDES (PPM) :
FLUID LOSS (C3) :
RESISTIVITY (OHMM) AT TEMPERATURE (DEGF)
MUD AT MEASURED TEMPERATURE (MT):
MUD AT MAX CIRCULATING TERMPERATURE:
MUD FILTRATE AT MT:
MUD CAKE AT MT:
NEUTRON TOOL
STOP DEPTH
957 0
957 0
957 0
957 0
957 0
965 0
1001 0
15-MAR-99
INSITE 3.2.12.3
CIM 5.46,EWR 1.38,HCIM 630.91
MEMORY
1002.0
109.0
1002.0
.3
1.0
TOOL NUMBER
P1264CRG8
P1264CRG8
12.250
12.3
SPUD MUD
10.20
195.0
9.6
1800
7.2
2.200
2.060
1.800
3.100
16.9
MATRIX:
MATRIX DENSITY:
HOLE CORRECTION (IN):
TOOL STANDOFF (IN):
EWR FREQUENCY (HZ):
REMARKS:
$
Data Format Specification Record
Data Record Type .................. 0
Data Specification Block Type ..... 0
Logging Direction ................. Down
Optical log depth units ........... Feet
Data Reference Point .............. Undefined
Frame Spacing ..................... 60 .liN
Max frames per record ............. Undefined
Absent value ...................... -999.25
Depth Units .......................
Datum Specification Block sub-type...0
Name Service Order Units Size Nsam Rep Code Offset Channel
DEPT FT 4 1 68 0 1
ROP MWD 1 FT/H 4 1 68 4 2
GR MWD 1 API 4 1 68 8 3
RPX MWD 1 OHMM 4 1 68 12 4
RPS MWD 1 OHMM 4 1 68 16 5
RPM MWD 1 OHMM 4 1 68 20 6
RPD MWD 1 OHMM 4 1 68 24 7
FET MWD 1 HOUR 4 1 68 28 8
First
Name Min Max Mean Nsam Reading
DEPT 62.5 1001 531.75 1878 62.5 '
ROP 0.59 1977.07 148.225 1785 109
GR 17.92 194.78 51.2908 1791 70
RPX 1.57 1293.34 12.4133 1790 62.5
RPS 1.93 1060.75 23.4879 1790 62.5
RPM 2.17 1721.36 51.252 1790 62.5
RPD 2.65 2000 98.0875 1790 62.5
FET 0.01 3.41 0.676335 1790 62.5
Last
Reading
1001
1001
965
957
957
957
957
957
First Reading For Entire File .......... 62.5
Last Reading For Entire File ........... 1001
File Trailer
Service name ............. STSLIB.002
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Next File Name ........... STSLIB.003
Physical EOF
File Header
Service name ............. STSLIB.003
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Previous File Name ....... STSLIB.002
Comment Record
FILE HEADER
FILE NUMBER: 3
RAW MWD
Curves and log header data for each bit run in separate files.
BIT RUN NUMBER: 2
DEPTH INCREMENT: .5000
FILE SUMMARY
VENDOR TOOL CODE START DEPTH STOP DEPTH
FET 957 5 1945 0
RPD 957 5 1945 0
RPM 957 5 1945 0
RPS 957 5 1945 0
RPX 957 5 1945 0
GR 965 5 1952 5
ROP 1003 5 1990 0
$
LOG HEADER DATA
DATE LOGGED: 16-MAR-99
SOFTWARE
SURFACE SOFTWARE VERSION: INSITE 3.2.12.3
DOWNHOLE SOFTWARE VERSION: CIM 5.46,EWR 1.38,HCIM 630.91
DATA TYPE (MEMORY OR REAL-TIME): MEMORY
TD DRILLER (FT) : 1990.0
TOP LOG INTERVAL (FT) : 1002.0
BOTTOM LOG INTERVAL (FT) : 1990.0
BIT ROTATING SPEED (RPM) :
HOLE INCLINATION (DEG
MINIMUM ANGLE: .5
MAXIMUM ANGLE: 1.0
TOOL STRING (TOP TO BOTTOM)
VENDOR TOOL CODE TOOL TYPE
DGR DUAL GAMMA RAY
EWR4 ELECTROMAG. RESIS. 4
$
BOREHOLE AND CASING DATA
OPEN HOLE BIT SIZE (IN):
DRILLER'S CASING DEPTH (FT) :
TOOL NUMBER
P1264CRG8
P1264CRG8
12.250
12.3
BOREHOLE CONDITIONS MUD TYPE:
MUD DENSITY (LB/G):
MUD VISCOSITY (S) :
MUD PH:
MUD CHLORIDES (PPM) :
FLUID LOSS (C3) :
RESISTIVITY (OHMM) AT TEMPERATURE (DEGF)
MUD AT MEASURED TEMPERATURE (MT):
MUD AT MAX CIRCULATING TERMPERATURE:
MUD FILTRATE AT MT:
MUD CAKE AT MT:
NEUTRON TOOL
MATRIX:
MATRIX DENSITY:
HOLE CORRECTION (IN):
TOOL STANDOFF (IN):
EWR FREQUENCY (HZ):
REMARKS:
$
Data Format Specification Record
Data Record Type .................. 0
Data Specification Block Type ..... 0
Logging Direction ................. Down
Optical log depth units ........... Feet
Data Reference Point .............. Undefined
Frame Spacing ..................... 60 .lin
Max frames per record ............. Undefined
Absent value ...................... -999.25
Depth Units .......................
Datum Specification Block sub-type...0
SPUD MUD
10.20
195.0
9.6
1800
7.2
2.000
1.988
1.800
3.000
Name Service Order Units Size Nsam
DEPT FT 4 1 68
ROP MWD 2 FT/H 4 1 68
GR MWD 2 API 4 1 68
RPX MWD 2 OHMM 4 1 68
RPS MWD 2 OHMM 4 1 68
RPM MWD 2 OHMM 4 1 68
RPD MWD 2 OHMM 4 1 68
FET MWD 2 HOUR 4 1 68
Rep Code Offset
0
4
8
12
16
20
24
28
Channel
1
2
3
5
6
7
8
16.9
Name Min Max Mean
DEPT 957.5 1990 1473.75
ROP 0.6 617.22 168.188
GR 19 128.93 70.1973
RPX 1.16 43.7 7.43468
RPS 1.16 65.18 11.4488
RPM 1.2 2000 27.1508
Nsam
2066
1974
1975
1976
1976
1976
First
Reading
957.5
1003.5
965.5
957.5
957.5
957.5
Last
Reading
1990
1990
1952.5
1945
1945
1945
RPD 1.31 2000 52.1914 1976
FET 0.28 7.53 0.856857 1976
957.5
957.5
1945
1945
First Reading For Entire File .......... 957.5
Last Reading For Entire File ........... 1990
File Trailer
Service name ............. STSLIB.003
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Next File Name ........... STSLIB.004
Physical EOF
File Header
Service name ............. STSLIB.004
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Previous File Name ....... STSLIB.003
Comment Record
FILE HEADER
FILE NUMBER: 4
RAW MWD
Curves and log header data for each bit run in separate files.
BIT RUN NUMBER: 3
DEPTH INCREMENT: .5000
FILE SUMMARY
VENDOR TOOL CODE START DEPTH
FET
RPD
RPM
RPS
RPX
GR
ROP
$
LOG HEADER DATA
DATE LOGGED:
SOFTWARE
1943 0
1943 0
1943 0
1943 0
1943 0
1950 0
1990 5
SURFACE SOFTWARE VERSION:
DOWNHOLE SOFTWARE VERSION:
DATA TYPE (MEMORY OR REAL-TIME):
TD DRILLER (FT) :
TOP LOG INTERVAL (FT) :
STOP DEPTH
5599 5
5599 5
5599 5
5599 5
5599 5
5599 5
5599 5
20-MAR-99
INSITE 3.2.12.3
CIM 5.46,EWR 1.38,HCIM 630.91
MEMORY
5600.0
1990.0
BOTTOM LOG INTERVAL (FT) :
BIT ROTATING SPEED (RPM) :
HOLE INCLINATION (DEG
MINIMUM ANGLE:
MAXIMUM ANGLE:
TOOL STRING (TOP TO BOTTOM)
VENDOR TOOL CODE TOOL TYPE
DGR DUAL GAMMA RAY
EWR4 ELECTROMAG. RESIS. 4
$
BOREHOLE AND CASING DATA
OPEN HOLE BIT SIZE (IN):
DRILLER'S CASING DEPTH (FT) :
BOREHOLE CONDITIONS MUD TYPE:
MUD DENSITY (LB/G):
MUD VISCOSITY (S) :
MUD PH:
MUD CHLORIDES (PPM) :
FLUID LOSS (C3) :
RESISTIVITY (OHMM) AT TEMPERATURE (DEGF)
MUD AT MEASURED TEMPERATURE (MT):
MUD AT MAX CIRCULATING TERMPERATURE:
MUD FILTRATE AT MT:
MUD CAKE AT MT:
NEUTRON TOOL
MATRIX:
MATRIX DENSITY:
HOLE CORRECTION (IN):
TOOL STANDOFF (IN) :
EWR FREQUENCY (HZ) :
REMARKS:
$
Data Format Specification Record
Data Record Type .................. 0
Data Specification Block Type ..... 0
Logging Direction ................. Down
Optical log depth units ........... Feet
Data Reference Point .............. Undefined
Frame Spacing ..................... 60 .lin
Max frames per record ............. Undefined
Absent value ...................... -999.25
Depth Units .......................
Datum Specification Block sub-type...0
5600.0
.4
16.9
TOOL NUMBER
P1270HGVR6
P1270HGVR6
8.500
8.5
LSND
10.00
43.0
9.2
1000
5.6
2.900
1.730
2.600
3.500
Name Service Order Units Size Nsam Rep Code Offset Channel
DEPT FT 4 1 68 0 1
ROP MWD 3 FT/H 4 1 68 4 2
GR MWD 3 API 4 1 68 8 3
RPX MWD 3 OHMM 4 1 68 12 4
46.2
RPS MWD 3
RPM MWD 3
RPD MWD 3
FET MWD 3
OHMM 4 1 68
OHMM 4 1 68
OHMM 4 1 68
HOUR 4 1 68
16
20
24
28
Name
DEPT
ROP
GR
RPX
RPS
RPM
RPD
FET
Min
1943
0 36
34 08
0 38
0 39
0 37
0 11
0 29
Max Mean Nsam
5599.5 3771.25 7314
852.14 161.326 7219
203.91 110.446 7300
1044.7 3.53919 7314
1819.16 3.85967 7314
1640.89 3.95486 7314
1837.23 4.71823 7314
40.31 1.10257 7314
First
Reading
1943
1990.5
1950
1943
1943
1943
1943
1943
Last
Reading
5599.5
5599.5
5599.5
5599.5
5599.5
5599.5
5599.5
5599.5
First Reading For Entire File .......... 1943
Last Reading For Entire File ........... 5599.5
File Trailer
Service name ............. STSLIB.004
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Next File Name ........... STSLIB.005
Physical EOF
File Header
Service name ............. STSLIB.005
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Previous File Name ....... STSLIB.004
Comment Record
FILE HEADER
FILE NUMBER: 5
RAW MWD
Curves and log header data for each bit run in separate files.
BIT RUN NUMBER: 6
DEPTH INCREMENT: .5000
FILE SUMMARY
VENDOR TOOL CODE START DEPTH STOP DEPTH
FET 5600.0 6973.5
RPD 5600.0 6973.5
RPM 5600.0
RPS 5600.0
RPX 5600.0
GR 5600.0
ROP 5600.0
$
LOG HEADER DATA
DATE LOGGED:
SOFTWARE
SURFACE SOFTWARE VERSION:
DOWNHOLE SOFTWARE VERSION:
DATA TYPE (MEMORY OR REAL-TIME):
TD DRILLER (FT) :
TOP LOG INTERVAL (FT) :
BOTTOM LOG INTERVAL (FT) :
BIT ROTATING SPEED (RPM) :
HOLE INCLINATION (DEG
MINIMUM ANGLE:
MAXIMUM ANGLE:
TOOL STRING (TOP TO BOTTOM)
VENDOR TOOL CODE TOOL TYPE
DGR DUAL GAMMA RAY
EWR4 ELECTROMAG. RESIS. 4
$
BOREHOLE AND CASING DATA
OPEN HOLE BIT SIZE (IN):
DRILLER'S CASING DEPTH (FT) :
6973.5
6973.5
6973.5
6963.5
7016.5
BOREHOLE CONDITIONS MUD TYPE:
MUD DENSITY (LB/G):
MUD VISCOSITY (S) :
MUD PH:
MUD CHLORIDES (PPM) :
FLUID LOSS (C3):
RESISTIVITY (OHMM) AT TEMPERATURE (DEGF)
MUD AT MEASURED TEMPERATURE (MT):
MUD AT MAX CIRCULATING TERMPERATURE:
MUD FILTRATE AT MT:
MUD CAKE AT MT:
NEUTRON TOOL
MATRIX:
MATRIX DENSITY:
HOLE CORRECTION (IN):
TOOL STANDOFF (IN):
EWR FREQUENCY (HZ):
REMARKS:
$
Data Format Specification Record
Data Record Type .................. 0
29-MAR-99
INSITE 3.2.12.3
CIM 5.46,EWR 1.38,HCIM 630.91
MEMORY
7017.0
5600.0
7017.0
1.1
13.5
TOOL NUMBER
P1270HGVR6
P1270HGVR6
8.500
8.5
LSND
10.00
46.0
10.8
1000
6.0
2.100
1.630
2.000
2.800
46.2
Data Specification Block Type ..... 0
Logging Direction ................. Down
Optical log depth units ........... Feet
Data Reference Point .............. Undefined
Frame Spacing ..................... 60 .lin
Max frames per record ............. Undefined
Absent value ...................... -999.25
Depth Units .......................
Datum Specification Block sub-type...0
DEPT
GR
RPX
RPS
RPM
RPD
FET
ROP
Name Service Order Units Size Nsam Rep
FT 4 1 68
MWD 6 API 4 1 68
MWD 6 OHMM 4 1 68
MWD 6 OHMM 4 1 68
MWD 6 OHMM 4 1 68
MWD 6 OHMM 4 1 68
MWD 6 HOUR 4 1 68
MWD 6 FT/H 4 1 68
Code Offset Channel
0 1
4 2
8 3
12 4
16 5
20 6
24 7
28 8
Name
DEPT
GR
RPX
RPS
RPM
RPD
FET
ROP
Min
5600
50.19
1 01
0 97
0 95
0 97
0 27
0 95
Max
7016.5
389 76
90 03
70 83
68 25
66 27
3 38
362 15
Mean Nsam
6308.25 2834
153.968 2728
3.39068 2748
3.38071 2748
3.33363 2748
3.35663 2748
0.850309 2748
113.203 2834
First
Reading
5600
5600
5600
5600
5600
5600
5600
5600
Last
Reading
7016.5
6963.5
6973.5
6973.5
6973.5
6973.5
6973.5
7016.5
First Reading For Entire File .......... 5600
Last Reading For Entire File ........... 7016.5
File Trailer
Service name ............. STSLIB.005
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Next File Name ........... STSLIB.006
Physical EOF
File Header
Service name ............. STSLIB.006
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Previous File Name ....... STSLIB.005
Comment Record
FILE HEADER
FILE NUMBER: 6
RAW MWD
Curves and log header data for each bit run in separate files.
BIT RUN NUMBER: 7
DEPTH INCREMENT: .5000
FILE SUMMARY
VENDOR TOOL CODE START DEPTH
GR 6964.5
FET 6974.0
RPD 6974.0
RPM 6974.0
RPS 6974.0
RPX 6974.0
ROP 7015.0
$
LOG HEADER DATA
DATE LOGGED:
SOFTWARE
SURFACE SOFTWARE VERSION:
DOWNHOLE SOFTWARE VERSION:
DATA TYPE (MEMORY OR REAL-TIME):
TD DRILLER (FT) :
TOP LOG INTERVAL (FT) :
BOTTOM LOG INTERVAL (FT) :
BIT ROTATING SPEED (RPM) :
HOLE INCLINATION (DEG
MINIMUM ANGLE:
MAXIMUM ANGLE:
TOOL STRING (TOP TO BOTTOM)
VENDOR TOOL CODE TOOL TYPE
DGR DUAL GAMMA RAY
EWR4 ELECTROMAG. RESIS. 4
$
BOREHOLE AND CASING DATA
OPEN HOLE BIT SIZE (IN):
DRILLER'S CASING DEPTH (FT) :
BOREHOLE CONDITIONS MUD TYPE:
MUD DENSITY (LB/G):
MUD VISCOSITY (S) :
MUD PH:
MUD CHLORIDES (PPM) :
FLUID LOSS (C3) :
RESISTIVITY (OHMM) AT TEMPERATURE (DEGF)
MUD AT MEASURED TEMPERATURE (MT):
MUD AT MAX CIRCULATING TERMPERATURE:
MUD FILTRATE AT MT:
STOP DEPTH
7469 0
7478 5
7478 5
7478 5
7478 5
7478 5
7490 0
31-MAR-99
INSITE 3.2.12.3
CIM 5.46,EWR 1.38,HCIM 630.91
MEMORY
7490.0
7017.0
7490.0
.4
1.0
TOOL NUMBER
P1270HGVR6
P1270HGVR6
8.500
8.5
LSND
10.00
49.0
10.2
950
5.2
1.250
.700
2.000
55.0
MUD CAKE AT MT:
NEUTRON TOOL
MATRIX:
MATRIX DENSITY:
HOLE CORRECTION
(IN) :
TOOL STANDOFF (IN) :
EWR FREQUENCY (HZ) :
REMARKS:
$
Data Format Specification Record
Data Record Type .................. 0
Data Specification Block Type ..... 0
Logging Direction ................. Down
Optical log depth units ........... Feet
Data Reference Point .............. Undefined
Frame Spacing ..................... 60 .lin
Max frames per record ............. Undefined
Absent value ...................... -999.25
Depth Units .......................
Datum Specification Block sub-type...0
1.500
Name Service Order
Units Size Nsam
DEPT FT 4 1
GR MWD 7 API 4 1
RPX MWD 7 OHMM 4 1
RPS MWD 7 OHMM 4 1
RPM MWD 7 OHMM 4 1
RPD MWD 7 OHMM 4 1
FET MWD 7 HOUR 4 1
ROP MWD 7 FT/H 4 1
Rep Code Offset Channel
68 0 1
68 4 2
68 8 3
68 12 4
68 16 5
68 20 6
68 24 7
68 28 8
Name
DEPT
GR
RPX
RPS
RPM
RPD
FET
ROP
Min
6964.5
36.13
1 47
1 47
1 47
1 53
0 08
0 96
Max
7490
118.4
12 93
13 65
13 38
13 49
36 07
181 18
First Last
Mean Nsam Reading Reading
7227.25 1052 6964.5 7490
85.3962 1010 6964.5 7469
3.82743 1010 6974 7478.5
3.8964 1010 6974 7478.5
3.81586 1010 6974 7478.5
3.87127 1010 6974 7478.5
5.27472 1010 6974 7478.5
76.2813 951 7015 7490
First Reading For Entire File .......... 6964.5
Last Reading For Entire File ........... 7490
File Trailer
Service name ............. STSLIB.006
Service Sub Level Name...
Version Number ........... 1.0.0
Date of Generation ....... 99/05/18
Maximum Physical Record..65535
File Type ................ LO
Next File Name ........... STSLIB.007
Physical EOF
Tape Trailer
Service name ............. LISTPE
Date ..................... 99/05/18
Origin ................... STS
Tape Name ................ UNKNOWN
Continuation Number ...... 01
Next Tape Name ........... UNKNOWN
Comments ................. STS LIS Writing Library.
Reel Trailer
Service name ............. LISTPE
Date ..................... 99/05/18
Origin ................... STS
Reel Name ................ UNKNOWN
Continuation Number ...... 01
Next Reel Name ........... UNKNOWN
Comments ................. STS LIS Writing Library.
Scientific
Scientific
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Technical
Services
Services
Physical EOF
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End Of LIS File
