New Mexico B u r e a u of Mines and M i n e r a l R e s o u r c e s
O p e n F i l e R e p o r t No. OF-210
HYDROCARBON SOURCE-ROCK EVALUATION STUDY
GETTY O I L CO. NO. 2 WEST ELEPHANTBUTTE
FEDERAL WELL
SIERRA COUNTY,
NEW
MEXICO
by D o u g l a s A. Muckelroy, R u d o l f R. Schwarzer
and T h o m a s J. S t i f f , Jr.
GeoChem Laboratories, I n c .
H o u s t o nT
, exas
A p r i l 8, 1983
GETTY O I L COMPANY
WEST ELEPHANT BUTTE FEDERAL3 NO. 2 WELL
SIERRA COUNTY, NEW MEXICO
Prepared
for
GETTY OIL COMPANY
Midland, Texas
CONFIDENTIAL
FEBRUARY 1983
COMPANY PROPRIETARY
WEST ELEPHANT BUTTE FEDERAL 3 NO. 2 WELL
LOCATION: SEC. 3 , T13S, R4W
SIERRA COUNTY, NEW MEXICO
Enclosed please f i n d the results of the organic geochemical analyses
wet canned c u t t i n g samples
performed on a suite of eighty-four (84)
from the West ElephantButteFederal
3 No. 2 Well located i n Sec. 3,
T13S, R4W, S i e r r a County, New Mexico.
Douglas A. Muckelroy
Geologist
GEOCHEM LABORATORIES,
INC.
WEST ELEPHANT BUTTE FEDERAL 3 NO. 2
SIERRA COUNTY, NEW MEXICO
TABLE I-A
C1-C7 HYDROCARBON ANALYSES OF A I R SPACE
GeoChem
Sample
Number
0260-001
0260-002
0260-003
G260-004
0260-005
-~~~~-
(1260-006
0260-007
0260-008
(1260-009
0260-010
G260-011
G260-012
0260-013
0260-014
G260-015
G260-016
G260-017
G260-019
G260-021
G260-023
G260-025
G260-027
G260-029
G260-031
G260-033
G260-035
G260-037
G260-039
0260-041
G260-043
G260-045
0260-047
0260-049
G260-051
G260-053
G260-054
G260-057
0260-059
0260-061
G260-063
G260-065
C260-067
G260-069
G260-07 1
G260-073
G260-075
G260-077
0260-079
~~~~
I
~
Well
Intervals
995 -1010
1050-1100
1100 -1150
1150 -1200
1200
-1250
.~
.
1250 -1300
1300-1350
1350 -1400
1400-1450
1450 -l$O
1500 -1550
1550-1600
1600 -1650
1650 -1700
1700-1750
1750 -1800
1800-1850
1900 -1950
2000 -2050
2100-2150
2200-2250
2300-2350
2400 -2450
2500 -2550
2600 -2650
2700 -2750
2800-2850
2900-2950
3000-1050
.~
3100-3150
3200 -3250
3300-3350
3400 -3450
3500-3550
3600 -3650
3650-3700
3800 -3850
3900-3950
4000 -4050
4100 -4150
4200-4250
4300-4350
4400-4450
4500-4550
4600-4650
4700 -4750
4800 -4850
4900 -4950
Methane
c1
PPM
127.8
20.2
6.3
8.1
5.3
10.1
9.1
17.0
5.8
. 4.7
4.7
5.6
11.7
6.2
3.4
4.4
14.9
34.1
42.8
340 - 3
136.8
79.2
138.4
216.7
4849.1
460.2
391.1
323.5
349.6
727.9
3161.1
248.9
1050.4
141.1
195.6
17.7
60 .4
5.9
10.7
22.2
28 .o
12.4
24.1
29.5
14.7
24.4
27.8
22.9
Ethane
c2
PPM
1.1
21.7
1 .o
2.5
0.7
2.3
1.6
2.7
2.1
1.1
0.8
0.3
6.3
2.4
0.8
0.5
0.2
0 -3
0.8
8.6
7.2
6.7
13.0
7..0
36.8
13.6
35 .4
20.6
11.2
17.7
53.7
5.4
9.4
4.3
5.0
0.9
9.8
0.5
1.2
1 .o
0.9
0.5
0.9
1 .o
0.8
1 .o
4.5
1.4
Propane
c3
PPM
Isobutane
iC4
PPM
Butane
nC4
PPM
1.3
0.5
0.2
0.3
0.1
0.3
0.2
0.5
2.2
3.1
0.9
0.3
0.6
0.2
0.1
0.3
0.1
0.1
1.9
1.7
28.2
26.5
47.3
7.1
11.2
10.8
17.6
10.5
7.0
10.5
6.6
1.3
3.8
4.1
4.4
0.5
6.1
2.5
0.8
0.2
0.5
0.1
0.1
0.4
0.3
1 .o
7.7
1 .o
0.4
0.5
0.2
0.1
0.2
0.1
0.1
0.4
0.3
7.8
14.2
25.3
4.0
10.6
5.7
7.9
5 .O
4 .O
5.9
3.2
0.5
2.1
2.6
2.1
0.2
1.9
0.1
0.2
0.0
0 .o
1.4
3.9
2.2
0.3
0.4
0.2
0.3
0.1
0.3
0.1
1.5
1 .o
1.1
0.6
1 .o
1.4
1.2
2.5
2.0
1.a
0.7
0 .o
0.0
0.1
0.1
0 .a
0 .o
Total
C547 C2-C4Cl-C4
PPM
PPM
13.2
14.4
4.1
4.2
2.7
136.8
45.8
8.2
12.0
6.6
1.3
13.3
11.6
21.0
11.4
16.7
0 .o
1.7
3.9
2.7
2.8
1.7
1.6
. 6.9
1.3
5.7
20.5
1.7
2.3
1.3
0.4
0.4
1.4
2.7
87.9
424.9
723.7
130.4
257.0
66.3
30.6
35.6
23.0
56.6
88.5
13.2
21.4
33.6
26.7
1.4
21.8
1 .8
3.8
33.2
20.3
6.9
18.5
31.3
22.1
14.4
27.3
12.7
9.3
4.6
5.6
15.6
35.1
46.4
351 -9
208.5
175.3
309.6
247.4
4933.0
502.2
461.8
370.2
378.6
774 .o
3232.9
257.3
1070.4
159.1
210.1
19.7
4 81.5
8.4
13.7
24.8
29.9
15.7
26.8
32.1
18.4
27.8
34 .o
25.3
0.0
0.1
0.1
0.1
0 .o
0.2
0 .2
0.4
0.9
28.3
48.5
85.4
12.5
25.1
11.7
9.6
10.5
6.6
11.9
8.1
1.1
4.4
6.8
2.9
0.3
3.1
0.2
0.4
0.3
0.3
0.1
0.2
0.2
0.2
0.2
0.4
0.1
7.7
Gas
PPM
8.9
25.5
1.8
3.8
1.3
3-1
2.4
3.9
5.5
12.0
2.9
1.3
8.7
3 -0
1.2
1.2
0.7
0.9
3.6
11.6
71.7
96.1
171.1
30.6
83.8
41.9
70.6
46.7
28.9
46.1
71.8
8.4
. 19.9
17.9
14.5
2.0
21 .o
2.5
2.9
2.6
1.9
3.3
2.7
2.5
3.7
3.4
6.1
2.4
Wetness
%
6.6
55.7
22.5
32.3
19.7
23.9
21.1
18.9
49.0
72.0
38.3
19.1
42.8
33.1
26 .O
21.3
4.7
2.7
7.8
3.3
34.4
54.8
55.3
12.4
1.7
8.4
15.3
12.6
7.6
6 .O
2.2
3.3
1.9
11.3
6.9
10.4
25.8
29.9
21.5
10.8
6.6
21 .G
10.1
7.9
20.4
12.4
18.0
9.7
iC4/nC4
0.63
0.39
0.88
1.10
0.84
0 -43
3.29
1.13
9.57
-
6.29
5.49
0.39
1.26
1.12
4.82
0.58
0.61
1.08
0.33
0.28
0.29
0.30
0.32
0.42
0.49
0.83
0.48
0.61
0.50
0.40
0.45
0.49
0.39
0.73
0.81
0.62
0.76
0.64
0.28
0.28
7.59
0.11
0.11
0.58
0.70
0.19
0.37
01.1
9'
s
1.1
9' L
E'80L
6'001
5'1
h' 5
h' S
1
1
'L
1'2
1'2
6' h
5'1
2' 9
E'h
1.2
L'E
9' 02
0'11
9-22
8'2
L'LL
h'E
9'E
B'SLL
0'902
L'hLZ
L'OLh
L'h88
9'OZE
0'62E
6'018
E'65E
6.0611
2' 9E
O'E
l'L6EL
8'21
1'6
S'SL
6'81
L'E
LL'Z
LS' L
59' L
LL'E
9'E
0' h
h' L
0.s
0' h
6'8
S'LL
6'21
2'2L
9'El
L'hl
h'll
0' 12
L'L
2' L
1'0
2'2El
E'S1
&'E
18.1
28' L
15' 1
90'2
19.1
9'LZL
1'1
S'6hZE
9.16
1'9
L'S
5-69
h' h
E'Z
SS. 1
19.1
9h' L
28' 1
O'EZ
1'0
€0'2
E8' 1
01'2
hh'L
96' L
ZL'L
58.2
1'6
LE'Z
Eh'2
9L'E
82.h
58.2
8L'h
19'E
EZ'E
18'2
9S'O
LS'9
h'll
h2
E'
8'SL
2'El
5'EZ
6'962
8'68E
0'82hE
5'6hE
L'ZL9
8'911
S'hll
B'L8L
6'562
8'02s
8'881
8'12
S'6Eh
2'9E
9-05
9'6s
6'9E
0'02
6' 02
E'82
E'S01
9'5
S'hl
WE
g'S2
L'Sh
€'ah
h'6
0'862
E'S6
0'28
6'19
6'8hZ
2'2E
E'6E
8'0
8'0
8'0
0' 0
9' L
5.2
9' 1
h' 1
9' 1
s.
1
8' 0
8'2
L'Z
h' L
6' 0
1'1
1'0
E' L
5' 0
5'2
9'2
6' h
8'1
5'hE
O'Eh
0' 02
h'6
6'Sh
L'OEL
1.9
9'EZ
2' 0
2'0
2' 0
1'0
9' 0
0' 0
0' 0
0' 0
1'0
2' 0
E' 0
h'O
1'0
1'0
1-0
0' 0
1'0
0'0
1'0
0' 0
1'0
1.0
L"0
1'0
0
E'
2'0
2.0
8'0
1.0
1.0
0' 1
1.0
1-0
1'0
2' 0
E'O
S'O
L'O
1'0
2.0
E'O
1'0
2'0
1.0
1.0
1.0
1'0
2' 0
2' L
h'2
6'0
1'0
L'E
1'0
9'0
5'0
1'0
E'
L
2'E
9'2
8' 0
8' 1
9' L
5' 0
h' 1
6'0
1.1
h' L
6'0
2.1
h'5
O'h
h'5
9'h
L'h9
h'E
5. h
9'h
2'9
h'E1
5.91
2' L
9-01
h. 02
9'01
h'8
9'E 1
L'LL
8'hE
E'LZ
1'91
L'22
O'LL
5' 1
h'O
6'21
E'2
E'O
0' L
1'0
9'2
8'0
6' 0
5' 1
5'0
0.2
8' 0
2'0
0' h
5'22
1.0
0
E'
8-1
0' h
h
E'
8' 2
0' L
L'EL
L'h9
0' 0
1'2
L'Z
E'E
E'L
h'61
6-16
8'8
E' S
6'8
E' E
E
0'
h' h
E'EL
5' L
5' L
E'Oh
E'Lh
S'LL
0' 22
2'EL
9-91
9'9
5-11
2' L
9' 1
5'0Zl
E'E6
9'101
5'921
6'6LlE
1'18
E'OLL
5'002
L'992
8'hSh
l'h98
9'60E
,
Z'LLE
0GU- 0051
~~~~~~~
0051- OShL
OShL- OOhL
OOhL- 05EL
O5EL- ODE1
00EL- 0521
0521- 0021
0021- 0511
0511- 0011
0011- OSOL
~~~
~~
os01- OOOL
OOOL- 0569
OS69- 0069
0069- OSR9
0589- 0089
E'881
5'9hE
0089-0519
os19-0019
00L9-os99
0599-0099
0099- os59
oss9-0059
OSh9-00h9
0SE9-00E9
os29- OOZS
8'182
&'$LE
Z'ZLEL
9' h5L L
O'SOhE
~ ~ _ _
~~~~
0'2EE
L'L8S
0'191
E'LOL
E'8SL
0419~
1.652
OOLQ
~
0509-0009
0565- 006s
0585- 008s
OSL5- 001s
L'OLh
8'6LE
0' L 91
1'192
'0595- 009s
E'S1
055s- 005s
05h5- OOhS
0' L9
9'EE
9'Ehl
0SES- OOE5
0525- 0025
0 9 s - 0015
2-62
0505- 000s
9'EE
ZEL-0923
LEL-09ZD
oEL-0923
621-0923
8ZL-0923
lzL-0923
911-0923
hZ1-0923
Ea-0923
22L-0923
L21-0923
02L-0923
611-0923
8L1-0923
LLL-0923
911-0923
5L 1-0923
hll-0923
ELL-0923
ZlL-0923
111-0923
601-0923
L01-0923
501-0923
€01-0923
1OL-0923
660-0923
L60-0923
560-0913
E60-0923
L 60-0923
680-0923
180-0923
580-0923
E80-0923
180-0923
alem
-
WEST ELEPHANT BUTTE FEDERAL 3 NO. 2
SIERRA COUNTY, NEW MEXICO
TABLE 1-6
Cl-C7 HYDROCARBON ANALYSES OF CUTTINGS
GAS
GeoChem
Sample
Number
0260-08 1
G260-083
G260-085
G260-087
0260-089
G260-09 1
G260-093
G260-095
0260-097
0260-099
0260-101
G260-103
G260-105
0260-107
G260-109
G260-111
G260-112
G260-113
G260-114
G260-115
G260-116
G260-117
G260-118
G260-119
G260-120
G260-121
G260-122
G260-123
G260-124
G260-126
G260-127
0260-128
G260-129
G260-130
G260-131
G260-132
Well
Interval.
5000 -5050
5100 -5150
..
5200 -5250
5300-5350
5400 -5450
5500 -5550
5600 -5650
5700 -5750
5800 -5850
5900-5950
6000 -6050
6 100 -6 150
6200 -6250
6300 -6350
6400 -6450
6500 -6550
6550 -6600
6600-6650
6650 -6700
6700 -6750
6750-6800
6800 -6850
6850 -6900
6900 -6950
6950 -7000
7000 -7050
7050 -7100
iloo
7150-7200
7200 -7250
7250 -7300
Methane
c1
PPM PPM
PPM
~~~~
-i~o
iGo -i%o
7350-7400
7400 -7450
7450 -7500
7500-7550
54.5
40.9
300.6
117.8
218.0
142.7
. 767.6
462.3
626 .O
1177.1.
1335.4
1028.3
841.8
940.5
1870.4
1210.7
1480.8
1088.5
1107.8
805.6
3566.8
6982.0
5732.3
4164.6
3001.8
3502.2
2656.5
1531.6
2050.5
2558.6
536.6
508.2
411.3
282 .o
750.1
1655.3
Ethane
c2
PPM
3.0
2.7
13.9
8.2
20.4
8.2
41.4
15.2
24.6
32.9
78.6
39.9
29.2
28.7
50.4
38 .O
52.3
42.4
29.4
19.3
52.2
72.8
112.2
53.6
47.2
39.3
41 .o
25.6
35 .O
44.2
10.5
12.1
8.6
7.0
15.1
32.7
Propane
c3
iC4
PPM
10.0
6.6
18.8
3.4
3.5
2.2
15.9
5.7
5.8
7.8
13.4
8.8
6 .O
6.7
7.8
.
5.5
4.1
5.5
3.2
2.7
3.9
9.5
17.5
8.2
7.7
8.1
5.4
2.9
3.8
4.8
1.3
1.2
1 .o
1.7
1.8
4 .o
Gas
Wetness
Isobutane
Butane
TotalTotalTotal
C547 C2-C4Cl-C4
nC4
PPM
PPM
PPM
0.2
0.1
92.1
10.8
2 .o
2.0
5.7
3.7
1.7
2.0
3.8
5.7
2.1
2 .o
1.9
1.3
1 .o
1.5
0.7
0.7
0.7
1.6
2.2
1.1
2.0
1.7
1.2
0.6
0.7
0.8
0.2
0.2
0.2
0.3
0.4
0.7
PPM values expressed as volumes of gas per million
.
0.6
0.2
46 .O
5.5
1.3
1.3
6.3
1.8
1.3
1 .8
3.0
3.3
1.5
1.6
1.2
1 .o
0.7
0.7
0.6
0.5
0.5
1.2
2.1
1.3
1.8
1.6
1.3
0.6
0.8
0.8
0.3
0.4
0.2
0.3
0.4
0.8
19.1
19.4
452.4
140.6
16.2
33.9
45.8
38.9
9.2
5.1
12.8
5.4
2.8
2.1
1.6
3 .O
2.6
2.0
2.0
2.2
1.8
2.8
0.5
1.9
0.0
0.9
1 .o
0.6
0.5
0.2
0.4
0.3
0 .o
0.0
0.9
0 .o
68.5
50.8
471.6
145.9
245.5
156.6
837 .o
488.9
659.6
1221.8
1434.3
1086.2,
880.7
979.6
1931.8
1256.7
1539.1
1138.9
1141.9
829.0
3624.3
7067.2
5866.5
4229.1
3060.7
3553.1
2705.6
1561.5
2091 .O
2609.4
549.1
522.4
421.6
291.6
768.2
1693.7
volumes of c u t t i n g s
14 .o
9.9
170.9
28.0
27.4
13.9
69.4
26.5
33.6
44.6
98.9
57.9
38.9
39.1
61.4
46 .O
58.3
50.4
34.1
23.4
57.5
85.2
134.1
64.4
58.9
50.9
49.0
29.9
40.5
50.7
12.5
14.1
10.2
9.5
18.0
38.3
P
iC4/nC4
20.4
19.5
36.2
19.2
11.2
8.9
8.3
5.4
5.1
3.7
6.9
5.3
4.4
0.45
0.66
2.00
1.93
1.53
1.49
0.90
2.00
1.26
1.09
1.28
1.73
1.35
1.27
1.53
1.29
1.38
1.95
1.20
1.26
1.21
1.32
1.03
0.90
1.10
1.11
0.95
0.89
0.94
1 .oo
0 .BO
0.72
0 .86
1 .lo
0.92
0.90
4 .o
3.2
3.7
3.8
4.4
3 .O
2 .8
1.6
1.2
2.3
1.5
1.9
1.4
1 .a
1.9
1.9
1.9
2.3
.2.7
2.4
3.3
2.3
2.3
WEST ELEPHANT BUTTE FEDERAL 3 NO. 2
SIERRA COUNTY, NEW MEXICO
TABLE I-B
C1-C7 HYDROCARBON ANALYSES OF CUTTINGSGAS
GeoChem
. Sample
Well
Methane
c1
PPM
Ethane
c2
PPM
0.6
8.5
3.7
3.7
2.6
2.9
2.3
3.3
1.5
2.2
1.8
1.4
2.3
1.6
1.6
1.8
1.9
1.7
2.0
9.9
7.3
3.1
4.3
14.0
28.6
272.9
196.8
265.1
116.0
121.0
125.2
91.0
183.1
118.2
4 .o
40.1
12.3
1.6
2.1
3.5
2.3
1.9
1.5
1.5
1.9
2.0
2.9
3 -6
Number
Interval*
G260-001
G260-002
G260-003
G260-004
G260-005
G260-006
G260-007
G260-008
G260-009
G260-010
G260-011
G260-012
G260-013
G260-014
G260-015
G260-016
G260-017
G260-019
0260-021
G260-023
G260-025
G260-021
0260-029
6260-031
G260-033
G260-035
G260-037
G260-039
G260-041
G260-043
\ G260-045
G260-047
G260-049
0260-051
0260-053
G260-054
G260-057
G260-059
c260-06 1
G260-063
G260-065
G260-067
G260-069
G260-07 1
G260-073
G260-075
G260-077
0260-079
995 -1010
1050-1100
1100-1150
1150 -1200
1200-1250
1250-1300
1300-1350
1350-1400
1400-1450
1450 -1500
1500-1550
1550 -1600
1600 -1650
1650 -1700
1700 -1750
1750-1800
1800 -1850
94.2
50.6
87.1
88.7
55.7
69.9
65.5
37.4
69 .O
. 64.1
57.5
100.8
54.7
76.3
70.2
63.6
1900 -1950
70.1
61.9
197.3
76.8
62.7
89.4
134.9
563.3
1145.9
662.3
977.1
563.0
570.6
725.2
524.6
1063.4
476.1
39.3
206.5
83.2
24.7
37.5
43.5
31.9
43.8
25.2
31.9
32.9
33.2
42.5
65.7
2000-2050
2100 -2150
2200-2250
2300 -2150
2400-2450
2500 -2550
2600-2650
2700 -2750
2800 -2850
2900-2950
3000 -3050
3100-3150
3200-3250
3300 -3350
3400 -3450
3500-3550
3600 -3650
3650-3700
3800 -3850
3900-3950
4000 -4050
4100 -4150
4200 -4250
4300 -4350
4400 -4450
4500 -4550
4600 -4650
4700 -4750
4800 -4850
4900 -4950
107.0
Propane
c3
PPM
Isobutane
Butane
Total
Total
Total
iC4
PPM
1.6
1.3
1.5
1.6
2.3
1.2
0.5
0.8
0.8
0.4
0.8
0.8
0.7
2.7
0.7
0.9
0.8
0.9
0.7
1 .o
0.7
0.7
0.7
6 .O
0.9
2.7
4.5
1.8
18.1
10.7
3.5
15.3
12.7
116.5
87.5
106.8
56.5
60.2
51.7
96.8
85.4
59.3
2.4
21.9
6.3
1.2
1 .o
6 .O
1.3
0 -7
0.7
1.1
2.8
6.1
4.7
1 .o
8.1
0.7
0.7
0.5
1 .o
0.5
0.6
0.8
0.7
0.9
0.9
0.7
5.3
5.5
1.9
6.2
6.9
26.2
21.1
28.4
15.8
16.1
13.4
9.4
21.5
13.0
0.8
6.3
1.4
0.2
0.2
0.4
2.0
0.1
0.1
0.2
0.8
0.2
0.2
0.3
nC4
PPM
0.3
1.3
1 .o
0.7
0.9
0.9
0.9
0.6
0.3
0.8
0 .I
1.2
0.8
0.6
0.6
0.8
0.7
1.1
0.8
1.1
16.1
17.3
4.5
18.3
18.8
47.6
34.2
43.8
25.6
28.2
23.5
15.5
35.3
27.2
1 .o
9.4
3.0
0.4
0.4
0.7
1.2
0.3
0.2
0.4
0.5
0.2
0.6
0.6
Cl-C4C5-C7
PPM
1.3
3.1
2.4
3.7
1.5
1.5
1.5
1.5
1.2
2.5
1.3
1.9
2.0
1.1
2.0
2.2
1.4
0.9
1.2
1.8
49.2
236.7
151.9
457.2
402.6
210.8
80.3
105.4
72.8
101.8
163.0
77.4
127.1
69.0
9.8
39.1
20.3
6.0
5.0
12.9
12.5
18.2
8.7
28.2
16.6
10.2
22.9
9.2
PF"
97.4
62.7
94.2
95.3
62.5
75.8
70.6
44.9
71.9
68.9
61.7
105.1
59.7
79.9
73.9
73.2
111.4
76.7
70.2
211.0
123.7
99.5
103.7
188.9
630.5
1609.2
1002.1
1421.4
777.1
796.2
939.2
737.4
1388.8
694.1
47.6
284.4
106.5
28.4
41.3
54.3
38.9
47 .O
28.0
35.3
39.1
41.9
51.2
71.3
CZ-CLI
PPM
3.2
12.1
7.1
6.6
6.7
5.9
5.0
7.4
2.8
4.7
4.2
4.2
5.0
3.6
3.6
9.5
4.3
6.5
8.3
13.6
46.9
36.8
14.3
54 .o
67.1
463.3
339.7
444.2
214.1
225.6
214.0
212.8
325.3
217.9
8.3
77.8
23.3
3.6
3.8
10.7
6.9
3.2
2.7
3.4
6.2
8.7
8.6
5.5
Gas
Wetness
P
3.4
19.4
7.6
7.0
10.9
7.8
7.2
16.7
4 .o
6.9
6.9
4 .o
8.4
4.5
5 .O
13.1
3.9
8.6
11.9
6.5
37.9
37 .O
13.8
28.6
10.7
28.8
33.9
31.3
27.6
28.3
22.8
28.9
23.4
31.4
17.5
27.4
21.9
12.8
9.4
19.9
17.9
6.9
9.8
9.7
15.9
20.8
16.8
7.8
iC4/nC4
1.50
0.65
0.85
0.63
0.89
0.86
0.77
1.22
0.51
0.87
1.06
0.43
1.19
0.82
1.03
1.06
1.02
0.85
1.14
0.72
0.33
0.32
0.42
0.34
0.37
0.55
0.62
0.65
0.62
0.57
0.57
0.61
0.61
0.48
0.78
0.61
0 .48
0.55
0 -55
0.53
1.66
0.56
0.62
0.52
1.61
0.71
0.43
0.50
.
WEST ELEPHANT BUTTE FEDERAL 3 NO. 2
SIERRA COUNTY, NEW MEXlCO
TABLE I - C
Cl-CI HYDROCARBON ANALYSES
OF
PPM
PPM
GeoChem
Sample
Number
PPM
G260-00 1
G260-002
G260-003
G260-004
G260-005
C260-006
0260-007
G260-008
G260-009
G26U-010
G260-011
G260-012
G260-013
G260-014
G260-015
G260-016
G260-017
G260-019
0260-021
G260-023
G260-025
0260-027
G260-029
G260-031
G260-033
0260-035
0260-037
G260-039
G260-041
G260-043
G260-045
G260-047
0260-049
G260-05 1
G260-053
G260-054
G260-057
G260-059
0260-061
C260-063
G260-065
C260-067
G260-069
0260-07 1
G260-073
0260-075
G260-077
C260-079
Methane
Well
PPM
Interval*
c1
995
". -1010
1050 -1100
1100-1150
1150 -1200
1200 -1250
1250 -1300
1300-1350
1350-1400
1400-1450
1450 -1500
1500 -1550
1550-1600
1600 -1650
1650 -1700
1700 -1750
1750 -1800
1800 -1850
1900 -1950
2000-2050
2100 -2150
222.0
70.8
93.5
96.8
61.0
80.0
74.7
54.5
74.9
68.8
62.3
106.5
66.5
82.5
73.6
68.0
122.0
104.3
104.7
537.6
213.6
142.0
227.9
351.6
5412.5
1606.1
1053.5
1300.6
912.6
1298.5
3886.3
773.5
2113.9
617.3
234 -9
224.2
143.7
30.6
48.2
65.7
60.0
56.3
49.4
61.4
47.6
57.6
' 70.4
88.6
2200 -2250
- ~ "
~~~~
2300 -2350
2400 -2450
2500 -2550
2600 -2650
2700-2750
2800-2850
2900-2950
3000 -3050
3100-3150
3200 -3250
3300-3350
3400 -3450
3500-3550
3600 -3650
3650 -3700
3800-3850
3900 -3950
4000-4050
4100-4150
4200-4250
4300-4350
4400-4450
4500-4550
4600-4650
4700-4750
4800-4850
4900-4950
Ethane
Propane
Isobutane
Butane
Total
Total
Total
c2
c3
PPM
A I R SPACE AND CUTTINGS GAS
Gas
ic4
PPM
1 .I
30.2
4 .I
6.3
3.4
5.3
3.9
6.1
3.7
3.4
2 -7
1.8
8.6
4 .o
2.4
2.3
2.1
2.0
2.8
18.6
14.6
9.8
17.3
21 .o
65.5
286.5
232.2
285 .I
127.3
138.7
178.9
96.4
192.5
122.6
9.0
41 .o
22.2
2.2
3.4
4.6
3.2
2.5
2.4
2.5
2.8
3.1
7.4
5.1
3 .O
1.9
1 .I
2.0
2.5
1.5
1.3
3 -2
2.9
4.1
1.8
1e 3
1.4
0.9
0.9
6.4
1.1
2.9
.6.4
3.6
46.3
37.3
50.9
22.4
24.0
127.3
105.2
117.4
63.6
70.7
58.4
98.2
89.3
63.4
6.8
22.5
12.4
2.7
2 .o
7.2
2.0
1.8
2.2
2.4
5.4
8.2
5.8
1 .I
3.1
1 .I
1.1
0.9
1 .o
0.9
1.1
1.1
4.3
3.6
1.3
1.2
1.1
1.2
1 .o
1.5
0.7
0.9
0.4
0.8
0.8
1.3
2.1
0.8
0 .I
0.7
1.2
8.4
1 .I
1 .o
1 .o
0.8
1.1
1.3
1 .o
13.1
19.8
27.2
10.2
17.5
32.0
29.1
33.4
19.8
22.1
16.7
9.9
23.6
15.7
2.9
6.5
3.4
0.4
0.5
0.4
2.1
1.6
0.1
0.2
0.9
0.3
0.3
0.3
Wetness
C2-C4C1-cUC5-C7
nC4
0.8
0.9
1.3
1.2
2.0
44.4
65.8
90.0
30.9
43.9
59.3
43.8
54.3
32 .2
40.1
31 .I
16.6
39 .8
34.1
3.9
9.7
6.2
0 .I
0.8
1 .o
1.5
0.5
0.5
0.7
0.7
0.4
1.1
0 .I
14.6
17.6
6.6
7 -9
4.2
2.9
3.2
5.4
3.9
5.4
3.0
3.5
7.8
2.8
4.3
3.5
1.8
1.4
2.7
4.6
137.2
661 .I
875.6
587.7
659.6
277.1
110.9
141.1
95.8
158.4
251.5
90.6
148.5
102.7
36.5
40.5
42.2
7.8
8.9
46.2
32.8
25.2
27.3
59.5
38.8
24.6
50.3
22.0
PPM
PPM
a
234.3
108.5
102.5
107.4
69.1
89.1
82.2
65.9
83.4
85.6
69.5
112.1
80.3
89.2
78.5
78.8
127.0
111.9
116.7
563.0
332.3
274.9
413.4
436.3
5563.5
2111.5
1463.9
1791.7
1155.7
1570.3
4172.1
994.8
2459.2
853.3
257 .I
304.2
188.1
36.8
55.1
79 - 2
68.9
62.8
54.8
67.4
57.6
69.8
85.2
96.7
12.2
37.7
8.9
10.5
8 .O
9.0
7.5
11.4
8.4
16.8
7.2
5.5
13.8
6.6
5.2
34 .I
8.8
9.8
11.7
10.2
9.1
17.4
10.2
19 .I
10.4
5 .O
17.2
7.5
6.2
13.7
4 .E
10.7
5.0
7.5
11.9
25.3
118.6
132.9
185.5
84.6
151.0
505.3
410.4
491 .o
243.0
271 .I
285.8
221.3
345.3
235.9
22.8
79.9
44.4
6.1
6.8
13.4
8.9
6.5
5.4
5.9
9.9
12.1
14.7
8.0
4 .o
6.1
10.2
4.5
35 .I
48.3
44.9
19.4
2.7
23.9
28.0
27.4
21 .o
17.3
6.9
22.2
14.0
27.6
8.9
26.3
23.6
16.7
12.4
17.0
13.0
10.4
9.9
8.9
17.3
17.4
17.3
8.3
iC4/nC4
0.71
0.49
0.86
0.81
0.88
0.75
1.11
1.18
2.64
10.18
2.01
0.76
0.70
0.91
1.04
1.27
0.92
0.80
1.12
0.54
0.30
0.30
0.30
0.33
0.40
0.54.
0.66
0.62
0.62
0.55
0.53
0.60
0.59
0.46
0.74
0.67
0.55
0.62
0.59
0.45
1.37
3.28
0.37
0.38
1.35
0.71
0.33
0.47
I
WEST ELEPHANTBUTTE FEDERAL 3 NO. 2
SIERRA COUNTY, NEW MEXlCO
-.
TABLE I-C
C1-C7 HYDROCARBON ANALYSES OF A I R SPACE AND CUTTINGS GAS
GeoChem
Sample
Number
G260-081
G260-083
0260-085
G260-087
0260-089
G260-091
G260-093
G260-095
G260-097
0260-099
G260-101
G260-103
C260-105
G260-107
G260-109
G260-111
C260-112
G260-113
G260-114
C260-715
. G260-116
G260-117
G260-118
G260-119
G260-120
G260-121
G260-122
G260-123
G260-124
G260-126
0260-127
G260-128
G260-129
G260-130
(260-131
G260-132
Well
Interval+
5000 -5050
-5150
5200 -5250
5300 -5350
5400 -5450
5500 -5550
5600-5650
5700 -5750
5800 -5850
5900 -5950
6000 -6050
6100 -6150
6200 -6250
6300 -6350
6400 -6450
6500 -6550
6550 -6600
6600 -6650
6650-6700
6100 -6750
6750 -6800
6800-6850
6850 -6900
6900 -6950
6950 -7000
7000 -7050
7050-7100
7100 -7150
7150 -7200
7200-7250
7250-7300
7300-7350
7350-7400
7400-7450
7450-7500
7500-7550
5100
.
~
Methane
c1
PPM
88.1
70.2
444.3
151.4
279.1
218.0
1028.7
'623.4
1005.9
1647.3
1595.1
1186.6
943.2
1101.5
2458.1
1542.8
4885.8
2243.1
2480 .O
1180.0
3854.7
7328.5
6520.7
4481.9
3311.4
4366.3
3111.3
1798.3
2251 .G
2728.9
623.7
3688.2
537.8
383.7
843.4
1775.8
Ethane
c2
PPM
PPM
Propane
c3
4.7
4 .o
18.5
14.8
37.0
21.5
63.5
32.8
71.9
73.3
110.5
59.3
40.3
41.6
73.2
54.2
73.6
77.2
47.1
32.9
60.6
83.4
132.6
64.2
54.4
55.8
54.4
31.9
39.7
48.8
14.0
76.3
13.3
12.5
19.2
38.1
11.6
8.1
32.1
7.8
6.6
5.6
24.8
11.1
14.7
15.2
16.7
11.6
7.5
9.1
9.1
6.5
5.6
PPM
6.7
4.2
4.2
4.4
11.2
19.4
9 .o
10.3
11.4
6.8
3.7
4.3
5.5
2.0
5 .O
1.8
2.7
4.3
5.2
Isobutane
Butane
Total
Total
Total
i C 4 C5-C7 nC4
PPM
2.4
0.2
156.9
23.9
3.0
4.8
10.1
7.7
4.3
4.0
4.6
6.7
2.5
2.4
2.1
1.5
1.2
1.7
0.9
1 .o
0.8
1.9
2.4
1 e3
2.8
2.2
1.5
0.8
0.9
0.9
0.4
1.3
0.4
0.5
1.3
1 .o
PPM values expressed as volumes of gas per million
0.9
0.4
68.5
9.6
1.6
1.9
7.8
2.7
2.2
2.7
3.3
3.6
1.7
1.8
1.3
1 1:
0.8
0.8
0.7
0.7
0.6
1.3
2.2
1.4
2.3
1.9
1.5
0.7
0.9
0.9
0.u
1 .o
0.4
0.5
0.7
1 .o
.
PPM
C1-C4
PPM
C24
PPM
42.7
25.6
583.1
186.5
25.6
53.9
88.8
73.4
17.1
10.1
15.5
7.9
3.3
3.5
1.8
4.2
3.6
3.4
4.1
5 .O
2.6
4.3
2.2
3.3
1.6
3.5
2.6
0.6
1.4
1.1
1.2
8.0
0.7
1.6
2.2
1.1
107.8
83.1
720.5
207.9
327.5
252.0
1135.1
677.8
1099.1
1742.6
1730.3
1268.1
995.3
1156.5
2543.9
1606.3
4967.2
2329.8
2533.1
1218.9
3921.3
7k26.6
6677.4
4558.1
3381.4
4437.9
3175.7
1835.7
2297.0
2785.2
640.7
3771.9
553.8
400 .o
869.1
1821.3
19.7
12.9
276.2
56.4
48.4
33.9
106.3
54.4
93.2
95.2
135.7
81.4
52.1
54.9
85.8
63.5
81.3
86.6
53.0
38.9
66.6
98.0
156.7
76.2
69.9
71.6
64.4
volumes of c u t t i n g s
37.3
46 .O
56.2
17.0
83.7
16.0
16.3
25.6
45.5
Gas
Wetness
s
18.3
15.6
38.3
27.1
14.8
13.5
9.4
8.0
8.5
5.5
7.8
6.4
5.2
4.8
3.4
4.0
1.6
3.7
2.1
3.2
1.7
1.3
2.3
1.7
2.1
1.6
2.0
2.0
2.0
2.0
2.7
2.2
2.9
4.1
2.9
2.5
iC4lnC4
2.52
0.63
2.29
2.48
1.89
2.49
1.28
2.76
1.98
1.48
1.38
1.85
1.50
1.32
1.57
1.30
1.46
1.94
1.30
1.35
1.24
0.94
1.20
1.18
1.03
1.02
1.03
1.05
1.03
1.27
1.01
1 .oo
1.77
0.95
WEST ELEPHANT BUTTE FEDERAL3 NO. 2
SIERRA COUNTY, NEW MEXICO
Table
I1
SCREEN ANALYSIS S W R Y
GeoChem
Samole
We11
-
Brief Litholosical OescriDtion
TotalOrganic
Carbon
(%of Rock)
NGbeF
Interval
(Feet)
6260-001
995-1010
6260-002
1050-1100
100% Shale,pale
red.
0.05
6260-003
1100-1150
100% Shale,paie
red.
0.03
6260-004
1150-1200
100% Shale,pale
red.
0.04/0.04
6260-005
1200-1250
100% Shale,palered.
6260-006
1250-1300
100% Shale, pale red.
6260-007
1300-1350
100% Shale,palered.
6260-008
1350-1400
75% Shale, palered.
25% Pebble, varied color.
0.05
6260-009
1400-1450
75% Shale, palered.
25% Pebble, varied
0.04l0.04
6260-010
~
1450-1500
100% Casing cement andgypsum.
picked.
nosample
0.03
'
0.05
0.05
color.
75% Shale, palered.
0.03
25% Pebble, varied color.
6260-011
1500-1550
75% Shale,pale
red.
25% Pebble,variedcolor.
0.04
6260-012
1550-1600
50% Shale.oale
red.
30% Anhydrite, white.
20% Quartz; l i g h tg r a y .
0.02
6260-013
1600-1650
40% Shale,palered.
30% Anhydrite , white.
30% Quartz, l i g h t gray.
0.02
6260-014
1650-1700
50% Shale, pale red.
30% Anhydrite and c h e r t ,l i g h tg r a y .
20% Anhydrite, white.
0.02
6260-015
1700-1750
50% Shale, pale red..
30% Quartz fragments. l i g h t gray.
20% Shale, dark gray.
0.11
LXST ELEPHANT
BUTTE
FEDERAL
SIERRA COUNTY, NEW MEXICO
3 NO. 2
Table I1
SCREEN ANALYSSISUMMARY
Geothem
Sample
Number
6260-016
6260-017
We11
Interval
(Feet)
1750-1800
1800-1850
Brief Llthological Description
50% Shale,pale
red.
30% Quartzfragments,
20% Shale,darkgray.
Total Organic
Carbon
(%of Rock)
0.16
l i g h t gray.
60% Shale,palered.
20% Anhydrite,white.
20% Shaie,darkgray.
0.13/0.12
Trace of quartz fragments.
6260-019
1900-1950
60% Shale,palered.
20% Anhydrite,white.
0.11
20% Shale.darksrav.
Trace.of q u a i t i fragments.
6260-021
2000-2050
75% Shale,palemd.
15% Anhydrite,white.
10% Shale,darkgray.
0.08
6260-023
2100-2150
70% Shale,pale red.
20% Anhydrite,white.
10% Shale,darkgray.
0.18
6260-025
2200-2250
50% Shale,palered.
40% Sand, l i g h t gray.
10% Shale, dark gray.
0.19
6260-027
2300-2350
60% Shale,pale red.
20% Sand, l i g h t gray.
20% Anhydrite,lightgray.
0.10
6260-029
2400-2450
60% Shale,palered.
20% Sand, l i g h t gray.
0.08
20";
Anhydrite, l i g h t gray.
6260-031
2500-2550
100% Shale, medium darkgray.
0.95
6260-033
2600-2650
100% Shale, medium darkgray.
1.2W1.27
6260-035
2700-2750
100% Dolomite,brownishgray.
0.29
6260-037
2800-2850
100% Limestone,brownishgray.
0.30
6260-039
2900-2950
100% Linestone.brownishgray.
0.25
BUTTE FEDERAL
3 NO. 2
SIERRA COUNTY, NEW MEXICO
NEST ELEPHANT
Table 11
SCREEN
GeoChem
Sample
Well
Interval
(Feet)
6260-041
3000-3050
Number
ANALYSIS SWARY
Total Organic
Brief Lithological Description
60% Dolomite.brownish
Carbon
(%ofRock)
gray.
40% Sandstone,dolomitic.
l i g h t gray.
0.23
6260-043
3100-3150
100% Dolomite, bmwnishgray.
0.25/0.25
6260-045
3200-3250
100%Dolomite,brownishgray.
0.22
6260-047
3300-3350
0.38
60% Limestone,brownishgray.
40%- Red shale.
6260-049
3400-3450
100% Dolomite,brownishgray.
0.24
6260-051
3500-3550
100% Dolomite,brownishgray.
0.20
6260-053
3600-3650
6260-054
3650-3700
6260-057
3800-3850
Possibly casing cement w i t h s i l t ?
No samplepicked.
6260-059
3900-3950
Igneousrock?
6260-061
4000-4050
6260-063
4100-4150
40% Shale,grayishred
and medium darkgray.
4 0 % . S i l t s t o n e , l i g h t gray.
20% Casing cement.
0.11
6260-065
4200-4250
70% Shale,grayish red.
30% S i l t s t o n e ,l i g h tg r a y .
0.09
6260-067
4300-4350
60% Shale.grayish red.
40% Siltstone.pinkishred.
0.04
6260-069
4400-4450
60% Shale,grayish
0.04
6260-071
4500-4550
80% Siltstone.grayishred
20% Shale,grayish red.
80% S i l t s t o n e , dolomitic, light
20%
Dolomite.
brownish gray.
100%Limestonegrading
anhydritic. light
100% Casing cement.
gray.
t o dolomite,
brownishgray.
0.13
0.16
No samplepicked.
No samplepicked.
red.
40% Siltstone.pinkishred.
and l i g h tg r a y .
0.04/0.06
WEST ELEPHANTBUTTEFEDERAL
3 NO. 2
SIERRA COUNTY, NEW NEXICO
Table I1
SCREEN ANALYSSISUMMARY
GeoChem
Sample
Number
Well
Interval
Brief Lithological Description
(Feet)
6260-073
4600-4650
60% Siltstone,grayishred
40% Shale,grayishred.
6260-075
4700-4750
70% Shale,grayishred.
302 Siltstone,grayishred
6260-077
6260-079
4800-4850
4900-4950
and l i g h t gray.
Total Organic
Carbon
(%of Rock)
0.04
0.04
and l i g h tg r a y .
0.06
80% Shale,grayishred.
20% Siltstone.grayishred
and l i g h t gray.
80% Shale,grayishred.
20% Siltstone,grayishred
and l i g h t g r a y .
and l i g h t gray.
0.04
0.05
6260-081
5000-5050
80% Shale,grayishred.
20% Siltstone,grayishred
6260-083
5100-5150
80% Shale,grayishred
and medium darkgray.
20% Limestone, l i g h t brownishgray.
0.11
6260-985
5200-5250
60% Shale,grayishred
and medium darkgray.
40% Limestone, l i g h t brownish gray.
0.29
6260-087
5300-5350
60% Limestone, l i g h t brownishgray.
40% Shale,grayishred
and medium darkgray.
0.1010.11
6260-089
5400-5450
60% Limestone, l i g h t brownishgray.
40% Shale,grayishred
and medium darkgray.
0.43
6260-091
5500-5550
60% Limestone, l i g h t brownishgray.
40% Shale,grayishred
and medium darkgray.
0.1510.15
6260-093
5600-5650
6260-095
5700-5750
60% Limestone, l i g h t brownishgray.
40% Shale, pale red to medium darkgray.
0.21
6260-097
5800-5850
80% Limestone, l i g h t brownishgray.
20% Shale,palered
t o medium darkgray.
0.39
6260-099
5800-5850
70%Limestone,
l i g h t brownishgray.
t o medium darkgray.
30% Shale,palered
0.3710.37
6260-101
6000-6050
60% Limestone, l i g h t brownishgray.
40%Shale,palered
t o medium darkgray.
0.40
6260-103
6100-6150
85% Dolomite, l i g h t brown gray t o brownish
gray.
15% Shale. medium darkgray.
0.14
6260-105
6200-6250
100% Dolomite, l i g h t brownish gray.
Limestone,
70%
l i g h t brownish
gray.
30% Shale,palered
and medium dark gray.
0.23
0.22
h i S T ELEPHANT
BUTTE
FEDERAL
SIERRA COUNTY, NEW MEXICO
3 NO. 2
Table
I1
SCREEN ANALYSIS S W A R Y
GeoChem
Sample
Number
6260-107
Me11
Interval
Brief Lithological Description
(Feet)
6300-6350
100% Limestone, grading t o dolomite,light
TotalOrganic
Carbon
(%of Rock)
0.12
brownishgray.
6260-109
6400-6450
100% Limestone. grading t o dolomite, l i g h t
0.23
brownishgray.
6260-111
6500-6550
70%Limestone,
l i g h t brownishgray.
30% Shale, pale red t o medium darkgray.
0.42
6250-112
6550-6600
60% Shale,palered
t o medium darkgray.
40%Limestone,
l i g h t brownishgray.
0.71
6260-113
6600-6650
60% Shale, pale red t o medium darkgray.
l i g h t brownishgray.
40%Limestone.
0.84/0.85
6260-114
6650-6700
6260-115
6700-6750
50% Limestone, l i g h t brownishgray.
50% Shale,palered
and medium darkgray.
0.26
6260-116
6750-6800
70%Limestone,
l i g h t brownishgray.
t o medium darkgray.
30% Shale,palered
0.22
6260-117
6800-6850
60% Limestone, l i g h t brownishgray.
40% Shale,palered
and medium darkgray.
0.30
6260-118
6850-6900
80% Dolomite, l i g h t brownishgray.
10% Quartz. white. . .
10% Shale. medium darkgray.
0.21
6260-119
6900-6950
100%Limestone,
grading
brownishgray.
t o dolomite, l i g h t
0.09
6260-120
6950-7000
100%Limestone,
grading
brownishgray.
t o dolomite, l i g h t
0.09
G260-121
7000-7050
100% Limestone, grading t o dolomite,light
100% Limestone. l i g h t brownishgray.
0.14
0.07/0.09
brownishgray.
6260-122
7050-7100
100%Limestone.
grading t o dolomite. l i g h t
brownishgray.
6260-123
7100-7150
100%Limestone,
grading
brownishgray.
6260-124
7150-7200
100% Limestone. l i g h t brownishgray.
t o dolomite,light
0.06
0.09
0.05
NEST ELEPHAXT BUTTE FEDERAL3 NO. 2
SIERRA COUNTY, NEW XEXICO
Table I1
SCREEN ANALYSIS SUMMARY
GeoChem
Sample
Number
Well
Interval
(Feet)
Brief Lithological
Description
6260-126
7200-7250
100%
6260-127
7250-7300
6260-128
G260-129
Limestone, l i g h t brownish
gray.
0.04
85%
15%
Limestone, l i g h t brownish
gray.
Shale. pale red and medium dark gray.
0.07
Limestone, l i g h t gray.
brownish
Shale, pale red
and medium dark gray.
0.08
30%
70% ,.Limestone, l i g h t brownishgray.
40% Shale, pale red and medium darkgray.
0.14
50%
30%
20%
gray.
Limestone, l i g h t brownish
Shale, pale red
and medium darkgray.
Sandstone, s i l i c i f i e d , c h l o r i t i c ,
light green.
O.ll/O.ll
7300-7350
70%
7350-7400
6260-130
7400-7450
TotalOrganic
Carbon
(%ofRock)
G260-131
7450-7500
100%
Igneous
rock.
No sample
picked.
No
6260-132
7500-7550
100%
Igneous
rock.
No sample
picked.
No sample
sample
T.O.C.
s1
Page 1 of 3 Pages
s2
Hydrogen
Index
Oxygen
Index
TABLE I11
PI
WEST ELEPHANT BUTTE FEOEFLAL 3 NO. 2
SIERRA COLINTY, NEW MEXICO
""_"_""""""""""""""""
"_
0eoChem
Sample No.
Depth
Interval
( Ft3
RESULTS OF ROCK-EVAL PYROLYSIS
TmaX
(C)
s1
(mgld
s2
(mglK)
Tmax
s3
(mg/g)
PI
PC*
= Totalorganic carbon, u t . $
= Free hydrocarbons, mg HC/g of rock
Residual hvdrocarbon Dotential
=
mg HC/g organic carbon
CO2/g organic carbon
Sl/SI+SZ
Temperature Index, degrees 6 .
i mg
i
=
Hydrogen
Oxygen
Index
T.O.C.
(wt. %)
Index
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
0260-002
6260-003
6260-004
6260-005
6260-006
6260-007
6260-008
6260-009
6260-010
6260-011
6260-012
6260-013
6260-014
6260-015
G260-016
6260-017
6260-019
6260-021
6260-023
6260-025
6260-027
0260-029
0260-031
6260-033
G260-035
6260-037
6260-039
6260-041
6260-043
6260-045
6260-047
6260-049
1050-1100
444
iloo-luo
190
1150-1200
172
226
1200-1250
308
1250-1300
1300-1350
~ . . ~
248
1350-1400
248 0.04
1400-1450
275
226
1450-1500
1500-1550
226
308
1550-1600
1600-1650
226
1650-1700
338
1700-1750
322
269
1750-1800
1800-1850
269
1900-1950
445
306
2000-2050
336
2100-2150
2200-2250
371
301
2300-2350
275
2400-2450
449
2500-2550
2600-2650
447
2700-2750
452 0.19
452
2800-2850
2900-2950
448
400 0.10
3000-3050
3100-3150
.~
4090.15
358
3200-3250
393 0.15
3300-3350
358 0.13
3400-3450
~~
~~
0.01
0.04
0.03
0.04
0.01
0.02
0.01
0.01
0.02
0.02
0.02
0.00
0.06
0.06
0.00
0.00
nio2
0.00
0.02
0.01
0.07
~~
""
~~~~
0.03
0.03
0.03
0.04
0.04
0.04
0.02
0.02
0.04
0.85
0.13
0.15
0.07
0.15
1.00
0.00
0.05
0.13;
0.10
0.11
0.12
0.13
0.11
0.13
0.15
0.14
0.10
0.12
0.10
0.10
0.09
0.08
0.12
0.18
0.13
0.15
0.07
0.10
0.19
0.29
0.21
0.24
0.21
0.21
0.21
0.20
0.29
0.19
0.01
1 .oo
1.oo
0.01
0.40
0.50
0.40
0.01
1 .oo
0.01
0.01
0.00
1.00
0.00
0.03
0.04
0.03
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.50
0.00
0.01
0.50
0.00
0.00
0.25
0.17
0.50
0.00
0.00
0.01
0.00
0.00
1 .oo
0.50
0.08
0.03
0.14
0.19
0.22
0.29
0.22
0.25
0.12
0.25
0.05
0.07
0.01
0.01
0.01
0.01
0.01
0.00
0.01
0.01
366
0.05
0.05
260
0.05
0.04
0.03
0.04
0.02
0.02
0.02
0.11
0.16
0.13
0.11
0.08
0.18
0.19
0.10
0.08
0.95
1.28
0.29
0.30
0.25
0.23
0.25
0.22
0.38
0.24
20
0
0
33
300
433
250
0
240
120
80
150
220
325
0
500
0
0
350
500
600
500
90
38
72
66
65
43
60
43
60
..
31
39
54
22
72
0
0
0
~~
.
~
'
ao
84
91
8b
~.
90
76
79
T.O.C.
s1
s2
53
PC*
PI'
6260-051
6260-053
6260-054
6260-063
6260-065
6260-067
6260-069
6260-071
6260-073
6260-075
6260-077
6260-079
6260-081
6260-083
6260-085
6260-087
6360-089
6260-091
626@-093
6260-095
6260-097
C260-099
6260-101
6260-103
6260-105
6260-107
6260-109
6260-111
6260-112
6260-113
6260-114
6260-115
6260-116
6260-117
6260-118
6260-119
6260-120
3500-3550
3600-3650
3650-3700
4100-4150
4200-4250
4300-4350
4400-4450
4500-4550
4600-4650
4700-4750
4800-4850
4900-4950
5000-5050
5100-5150
5200-5250
5300-5350
5400-5450
5500-5550
5600-5650
5700-5750
5800-5850
5900-5950
6000-6050
6100-6150
6200-6250
6300-6350
6LOO-6450
.."
6500-6550
6550-6600
6600-6650
6650-6700
6700-6750
6750-6800
6800-6850
6850-6900
6900-6950
6950-7000
~
Tmax
RESULTS OF ROCK-EVAL PYROLYSIS
427
370
358
313
272
246
247
356
220
224
274
224
210
400
395
266
356
442
427
317
361
273
313
261
341
415
321
418
4
72
397
320
324
281
288
391
290
430
0.02
0.06
0.06
0.04
0.03
0-02
0.03
0.02
0.01
0.02
0.01
0.02.
0.00
0.04
0.02
0.02
0.03
0.00
0.02
0.01
0.01
0.03
0.01
0.01
0.01
0.02
0.02
0.02
0.02
0.02
0.01
0.02
0.00
0.01
0.01
0.01
0.01
0.09
0.21
0.13
0.07
0.02
0.01
0.01
0.00
0.00
0.00
0.00
0.00
0.00
0.16
0.01
0.00
0.04
0.00
0.08
0.01
0.08
0.06
0.04
0.01
0.02
0.03
0.02
0.17
0.29
0.10
0.03
0.01
0.01
0.02
0.01
0.00
0.05
0.22
0.26
0.22
0.36
0.25
0.22
0.31
0.20
0.18
0.21
0.25
0.18
0.19
0.21
0.20
0.19.
0.22
0.17
0.18
0.19
0.27
0.22
0.18
0.20
0.23
0.20
0.18
0.32
0.28
0.19
0.26
0.19
0.21
0.14
0.30
0.19
0.24
Totalorganic
carbon, ut. %
= Free hydrocarbons, mg HC/g OS rock
= Residual hydrocarbon potential
(mg HC/g OF rock)
C02 produced From kerogen PYrOlyslS
(mg C02/g of rook)
= 0.083(S1
S2)
=
+
Hydrogen
Index
.i
mg HC/g organic carbon
Oxygen
Index
= rn 602/a omanio carbon
TABLE I11
WEST ELEPHANT BUTTE FEDERAL 3 NO. 2
SIERRA COUNTY, NEW MEXICO
i
0.20
0.23
0.33
0.40
0.75
1.00
0.75
1.00
0.01
1 .oo
0.01
1.00
0.00
0.20
1.00
1 .oo
0.50
0.00
0.20
0.50
0.12
0.37
0.25
0.50
0.50
0.50
0.50
0.11
0.07
0.17
0.25
1.00
0.00
0.50
0.50
0.01
0.17
0;oo
0.02
0.01
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.01
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.01
0.02
0.01
0.00
0.00
0.00
0.00
0.00
0.00
0.00
=
si/sl+s2
-
= Temperature Index, degrees C.
0.20
0.13
137
0.16
0.11
0.09
0.04
0.04
0.05
0.04
0.04
0.06
0.04
0.05
0.11
0.29
0.11
0.43
0.15
0.23
0.21
0.39
0.37
0.40
0.14
0.22
166
0.12
0.23 78
0.42
0.71
0.235
0.14
0.26
0.22
0.30
0.21
0.09
0.09
45
161
81
63
110
200
0
450
525
416
450
380
190
68
172
51
113
78
90
69
0
0
0 .
0
I45
3
0
9
0
34
4
20
327
25
8
40
40
76
39
6
46
4
142
0
55
,211
266
T.O.C.
Pagq 3 of 3 Pages
52
s3
=
PC*
=
Hydrogen
Index
oxygen
Index
TABLE I11
I
I
I
I
6260-121
6260-122
G260-123
G260-124
6260-126
6260-127
6260-128
344 7000-7050
0.25
7050-7100
290
7100-7150
318 0.50
296 7150-7200
.~~~
443
7200-7250
7250-7300
367
435 7300-7350
344 7350-7400
7400-7450
390
~
~
PI
Tmax
RESULTS OF ROCK-EVAL PYROLYSIS
WEST ELEPHANT BUTTE FEDERALNO.3 2
SIERRA COUNTY,NEW MEXICO
0.
00
.17
0.00
0.00.19
2
0.01
0.04
0.01
0.03
0.002.50
0.00
0;oo
0.22
0.00
0.00
0.01
0.01
0.01
0.01
0.06
0-06 '
0.05 0.17
0.20
0.22
0.19
0.15
0.00
0.17
0.17
0.17
0.00
0.00
0.00
0.00
carbon, W t . $
Free hydrocarbons, eg HC/g OP rock
Residual hydrocarbon potential
(mg HC/g of rock)
C02 produced from kerogen pyrolysis
(tag C02/g of rock)
. .
0.083 (S1
S2)
+
:mg
i.
=
Sl/Sl+S2
= Temperature Index, degree3
0.08
0.00
0.00
0.00
0.08
0.00
0.14
0.11
0.00
HC/g organio carbon
mg CO2lg organio carbon
0.06
0.09
0.05
0.04
0.07
0.00
0.17
= Totalorganic
=
=
'51
C.
TABLE IV
TABLE I V
Table V
WEST ELEPHANT BUTTE FEDERAL
3 NO. 2
SIERRA COUNTY, NEW MEXICO
rwE
VlTRlNlTE
REFLECTANCE
NUMBER
SUMMARY
MINIMUM
MAXIMUM
MEAN
REFLECTANCE REFLECTANCE REFLECTANCE
GEOCHEM
SAMPLE
NUMBER
DEPTH
G260-021
2050
m
3
23
9
0.66
0.73
1.1.46
26
0.69
1.16
1.73
G260-031
2550
CR;
16
27
17
0.
0.58
50
0.68
0.77
01.03
.93
0.65
0.89
1.20
G260-037
2850
CPG
14
27
4
00.56
.50
0.67
1.04
0.64
0.86
1.21
0.76
1.12
0.043
0.056
0.074
(faat)
STD.
EAUPI
0.68
1.05
0.015
0.112
0.177
0.056
0.073
0.091
G260-043
3150
CPG
11
22
27
0.51
0.68
1.18
0.96
0.63
0.90
1.51
0.57
0.78
0.040
0.068
0.184
G260-049
3450
crc;
13
25
19
0.0.59
55
0.68
0.92
0.64
0.89
1.55
0.78
1.15
0.029
0.066
0.199
2
4
0.64
1.27
0.72
1.47
0.68
1.39
1
1
5
0.78
0.78
1.35
1.35
1.88
2.15
0.78
1.35
2.49
1
.O.89
1.76
1.90
0.89
2.04
G260-054
G260-067
G260-073
3700
4350
4650
m
m
m
2
0.092
0.236
0.89
-
Table V
WEST'ELEPHANT BUTTE FEDERAL3 NO. 2
SIERRA COUNTY, NEW MEXICO
GEOCHEM
SAMPI F
4950
TYPE
..
DEPTH
..
OF
G260-079
G260-085
VlTRlNlTE
5250
POPULATION
0.66
0.66
-
CrG
0.033(1)
0.56
4
3
53
0.48
0.86
1.25
1.09
2.55
0.52
0.97
1.97
0.116
0.349
(3)
2 '
8
50
0.51
1.28
1.57
0.52
1.45
2.62
0.52
1.38
2.05
0.063
0.288
m m
(1)
(2)
(3)
6
19
35
1.25
1.55
2.02
2.32
1.53
1.40
1.74
0.103
0.130
0.181
INDIGENOUS
REWORKED
REWORKED
(1)
6
6
48
1.14
1.42
1.66
1.78
1.95
1.58
1.88
2.70 0.207
0.170
0.094
INDIGENOUS
5
10
45
1.17
1.69
1.34
1.93
1.25
1.80
2.33
0.068
0.088
0.160
RJWOFKED
RENORKED
3
1.31
1.63
2.03
1.45
1.94
2 -68 0.167
1.37
1.82
2.30
0.071
0.103
REWORKED
CIG
(1)
(2)
(3)
6450 G260-109
CrG
6550
(11
(2)
2.05 (3)
2.65
G260-lll
DEV.
0.66
CIG
6150 G260-103
STD.
1
m
5850
MINIMUM
MAXIMUM
MEAN
REFLECTANCE REFLECTANCE RERECTANCE
(1)
(2)
G260-097
OF
SUMMARY
CrG
(2)
(3)
5550
G260-091
REFLECTANCE
CrG
(1)
(2) 16
(3)
41
,
1.97
2.67
INDIGENWS
CAVED
-
2.34
IND1ms
REWORKED
am
INDIGENOUS
RMKlRKED
REWORKED
INDIGENOUS
IND1mus
REWORKED
7
GEOCHEM
NO.
TYPE OF SAMPLE:
G260-021
OIL COMPANY
CLIENT'S NAME
WEST ELFPHANI' BUITE FFDERAL 3
NAME
WELL
(NO.OF READINGS = 35) 0.660.680.690.730.750.970.98
1.00
1.071.08
1.09 1.10 1.11 1.121.121.131.131.151.161.161.261.281.311.371.401.54
1.591.681.73
POPULATION
0.68 (1)
(2)
(3) 1.46
NO. OF READINGS
0.693
23 .
9
MIN.
RO I Yo 1
0.66
0.73
1.26
NO. 2050
/SAMPLE
DEPTH
CPG
1.01
1.03
MAX. RO I Yo)
MEAN RO IYo 1
STD.
DE!
1.16
1.73
1.05
1.04
I %L
0.015
0.112
1.04
AO. 2
1.061.06
REMARKS
TYPE OF SAMPLE:
G260-031
GEOCHEM
NO.
OIL
NAME
CLIENT'S
DEPTH/SAMPLE
LXG
WEST
NAME
WELL
COMPAN~
NO. 2550
E
L
T
P
m BulTE FEDERAL 3 ID. 2
(NO.OF READINGS = 60) 0-50 0.500.510.520.540.550.560.570.590.610.620.630.640.65
0.650.650.680.690.700.700.700.710.710.710.720.720.720.730.730.740.740.76
0.770.810.840.840.850.860.860.880.880.890.890.930.940.950.950.950.960.98
0.980.99
1.00 1.02 1.10 1.11 1.121.151.171.20
NO. OF READINGS
POPULATION
16
27
1.20
17
(1)
(2)
1.03 (3)
=
s
1 2 1
X
X
X
X
X
X
x xx
x xx
x xx x x
MIN. Ro [
0 -50
0 -68
0.93
MAX. Ro f yo)
0.65
0.89
MEAN Ro f
0.58
0.77
.
y,
STD. DE\! f O&
0.056
0.073
0.091
REMARKS
G260-037
GEOCHEM
NO.
CLIENT'S
TYPE OF SAMPLE:
m OIL COMPANY
NAME
(NO.OF READINGS = 45) 0.50
0.67
0.79
0.680.69
0.800.80
POPULATION
0.056
0.074
0.043(1)
(2)0.76
1.12
(3)
0.69
0.81
NO.
0.70
0.82
OF READINGS
0.56
270.86
1.21
4
0.50
0.70
0.83
DEPTH/SAMPLE
CrG
WES" ELFPHANT
BUTTE F'EDERAL 3
...
WELL
NAME
0.52
0.71
0.85
0.53
0.71
0.85
MIN. RO (Yo)
0.50
0.67
1.04
VlTRlNlTE
0.54
0.72
0.86
0.54
0.73
1.04
MAX. RO IYQL
0.55
0.74
1.09
NO. 2850
0.55
0.75
1.15
0.560.570.590.600.630.64
0.750.760.760.770.780.79
1.21
MEAN RO(%)
0.64
REFLECTANCE HISTOGRAM
No. 2
STD. DEV (%L
REMARKS
G260-043
CLIENT'S NAME
C~CTTYOIL (XIMPANY
(NO. OF READINGS = 60) 0.510.51
0.710.720.720.72
0.730.75
0.900.960.970.97
0.980.98
1.221.221.231.26
1.431.45
POPULATION
11
22
27
( 2 ) 0.68
0.96
(3)
24
21
v)
DEPTH/SAMPLE
0.540.56
0.760.77
0.991.02
1.471.48
NO. 3150
WEST E
L
E
P
W B I T E FXEEfAL 3
WELL
NAME
No. 2
0.580.590.590.600.600.610.630.680.690.69
0.770.790.790.830.840.840.850.860.860.88
1.031.041.04
1.05 1.131.131.151.171.181.21
1.481.51
MAX. Ro (yo)
0 -63
0 -90
MIN. RO ( '/oL
0.51
NO. OF READINGS
(1)
cn;
TYPE OF SAMPLE:
GEOCHEM
NO.
MEAN
Ro(Ya
STD. DE\! ( '/o)
0-57
0.78
1.18
0.184
1.51
'
REMARKS
,0.040
0.068
--
( 3 -
z
n
a
18-
-
W
lrI5
la.
0
-
-
6-
x x
-
x x x
xxxxxxx
x
xxmxxxxxxxx
x
x
xxmxxxxxxm x
e , , , , ,W , %
,
,
l ' l ',
l ~ i ',
l ~ l ~
l ~ l,
' l ' l ' i ' i ' l ' l ' l ' l ' l ~ l ' l ' l ' l ' i ' l ' l ' l ' i ' ~
3-
-
OD
0.2
0.4
0,s
.0.8
1.0
1.2
1.4
1.6
1.8
2.0
2.2
VlTRlNlTE
2.4
2.6
2.8
3.0
3.2
3.4
3.6
REFLECTANCE HISTOGRAM
3.8
4.0
4.2
4.4
4.6 5.0 4.8
5.2
5.4
5,s
5J
TYPE OF SAMPLE:
GEOCHEM
NO.
G260-049
CLIENT'S NAME
rnOIL cowm
'
NO. OF READINGS
13
25.
19
(1)
0.68
(2)
0.199(3)
I:
0 15
LL
lK
W
x x
x xx
MIN. RO (
0.55
1.15
0.92
0.57
0.75
0.58
0.75
0.58
0.75
MAX. RO ( % I
0.640.029
0.89
1.55
NO. 3450
/SAMPLE
DEPTH
WELL
NAME
0.56 0.57
(NO. OF READINGS = 57) 0.55
0.69 0.70 0.70 0.71 0.73 0.74 0.75
0;860.870.870.880.880.890.920.930.940.950.950.960.971.00
1.281.281.301.371.381.411.55
POPULATION
CPG
0.58
0.76
WEST H
-A
W
0.59
0.77
0.59
0.77
MEAN Ro(o/al
0.59
0.78
0.61
0.78
DEL!
STD.
BUITE
FEDERAL 3
No. 2
0.62 0.64 0.64 0.68
0.79 0.81 0.82 0.82
1-10 1.111;151I24
( "/al
0.066
REMARKS
0.092
GEOCHEM
NO.
G260-054
CLIENT'S NAME
(;EITY
(NO.OF READINGS =
POPULATION
(1)
1.39(2)
TYPE OF SAMPLE:
OIL C O M P A N ~
NO. 3700
/SAMPLE
DEPTH
CTG
WEST ELEPHANT B
WELL
NAME
D FEDERAL 3
6) 0.640.721.271.361.451.47
NO. OF READINGS
MIN.
2
1.47
4
X
RO I% I
0 -64
1.27
MAX. RO I Yo)
0 -72
MEAN RO I%I
0~
.68
.
STD, DEV. I%) REMARKS
.
~
-
No. 2
GEOCHEM
NO.
G260-067
CLIENT'S NAME
GEITY OIL OOMPANY
(NO. OF READINGS = 7)
POPULATION
(1)
(2)
(3)
CTG
,
DEPTH/SAMPLE
NO. 4350
WEST ELFPHANI' BUITE F%DERAL 3
WELL
NAME
0.781.351.881.982.162.222.49
NO. OF READINGS
MIN.
1
1.
5
TYPE OF SAMPLE:
Ro ( 'Y
0.78
1.35
1.88
MAX.
RO IYo)0.78
1.35
2.49
MEAN AO (701
0.78
1.35
2.15
STD. DE\!
-
(Yd
0.236
REMARKS
N3. 2
GEOCHEM
NO.
OF READINGS = 3) 0.89
POPULATION
(1)
(2)
1.76
/SAMPLE
DEPTH
cT(;
OIL COMPANY
CLIENT'S NAME
(NO.
TYPE OF SAMPLE:
G260-073
NAME
WELL
,?ESl?
NO. 4650
ELEPHAh" BulTE FEDERllL 3
2.04
NO. OF READINGS
MIN. Ro ( % )
1
2
0.89
1.76
MAX. Ro
f%)
0 .E9
2.04
MEAN
RO ( Yo 1
0 -89
1.90
STD. DE\! %)
-
-
REMARKS
No. 2
GEOCHEM
NO.
I
G260-079
TYPE OF SAMPLE:
m
DEPTH /SAMPLE
..
NO. 4950
GEOCHEM
NO.
G260-085
TYPE OF SAMPLE:
X
x x
CTG
/SAMPLE
DEPTH
NO. 5250
GEOCHEM NO.
CLIENT'S
NAME
TYPE OF SAMPLE:
G260-091
m
m OIL Q~MPANY
(1)
(2)
2.05
(3)
0.288
NO. OF READINGS
MIN. RO ('/a1
0.51
1.28
1.57
2
81.45
502.62
0.52
6
X
X
1.44
MAX. Ro ("/al
X
xxx
NO. 5550
WEST ELEPHANP BLlITi3 FEDERAL 3
WELL
NAME
(No.OF READINGS = 60) 0.510.521.281.311.341.391.391.43
1.661.691.701.711.721.731.731.771.791.801.821.861.871.881.931.951.971.98
2.02.06
2.08
2.10
2.11
2.13
2.15
2.16
2.16
2.16
2.21
2.22.25
2.26
2.27
2.28
2.28
2.32
2.332.352.362.382.382.462.472.522.592.62
POPULATION
DEPTH /SAMPLE
MEAN R o ( % )
0-52
1.38
1.451.571.621.641.66
STD. DE\! ( "/al
-
0.063
REMARK5
No. 2
TYPE OF SAMPLE:
GEOCHEM
NO.
G260-097
CLIENT'S NAME
arm OIL COMPANY
(NO. OF READINGS = 60) 1.25
1.72 1.751.79
1.80 1.82
2.16 2.17
2.19
2.21 2.25
1.32
1.83
2.26
NO. 5850
/SAMPLE
DEPTH
CTC.
WELL NAME WEKC ELFPHANT
1.37
1.84
2.28
1.42
1.84
2.29
1.48
1.87
2.30
1.53 1.55
1-93 1.97
2.32 2.33
1.56
2.02
2.34
1.57
2.04
2.36
1.57
2.04
2.36
BUI"E FEDERAL 3 No. 2
1.61
2.05
2.38
1.66
2.07
2.39
1.68
2.08
2.39
1.69
2.12
2.40
'
GEOCHEM
NO.
CLIENT'S NAME
TYPE OF SAMPLE:
G260-103
GEITY
CIY:
OIL COMPANY
/SAMPLE
DEPTH
WELL NAME WEST E I J I E ' m
NO. 6150
FEilERAL 3
(No. OF READINGS = 60) 1.141.281.471.481.541.581.661.711.721.851.861.881.951.96
2.02.04
2.06
2.10
2.11
2.12.12.13
2.13
2.15
2.20
2.22.23
2.24
2.24
2.25
2.26
2.28
2.302.312.332.352.372.382.392.392.402.422.432.432.462.462.482.492.502.53
2.52
5.52
7.62
0.62
1.62.62
4.62
5.62
7.62
9.70
POPULATION
0.207
(1)
1.78
(2)
2.34
(3)
NO. OF READINGS
MIN. RO ( 701
MAX. RO (Yo)
1.14
1.42
1.66
1.95
1.58
6 0.170
1.88
6
482.70
X
x
x
xx x
x x XIM x
XxixxXxXX
x xxxx-
MEAN Ro
O/,,
STD. OEM [ "&
0.094
REMARKS
No. 2
TYPE OF SAMPLE:
GEOCHEM
NO.
G260-109
CLIENT'S NAME
rnOIL COWANY
/SAMPLE
DEPTH
CrG
WELL
NAME
WFST
E
L
E
P
m BUTIE
(No.OF READINGS = 60) 1.171.201.241.291.341.691.691.721.751.771.801.821.89
1.932.052.062.072.112.142.152.172.182.192.192.202.212.212.22.232.232.24
2.252.262.282.282.312.32.342.352.352.362.372.372.382.382.392.402.42.43
2.44
2.45
2.47
2.56
2.56
2.59
2.60
2.61
2.63
2.65
,
0.160
POPULATION
(1)
(2)
(3)
2.33
NO. OF READINGS
5
10
452.65
MIN. Ro ( % I
1.17
1.69
2.05
MAX. Ro ( %).
1.340.068
1.93
MEAN
NO. 6450
FEIIERAZ, 3
No. 2
1.90
Ro(%l
1.25
1.80
STD. DE\! ( Yd
0.088
REMARKS
GEOCHEM
NO.
G260-111
CLIENT'S NAME
QXTY OIL ~ M P A N Y
READINGS = 60) 1.31 1.36
1.93
1.91 1.92
1.94 2.03
2.20 2.21 2.23 2.25 .2.26
2.47
2.48
2.53
2.56
2.56
2.62
2.68
2.46 2.46
(No.OF
1.88
2.19
2.44
TYPE OF SAMPLE:
NO. OF READINGS
3
16
41
WEST ETXPHAh'I'
NAME
WELL
1.63
2.07
2.29
1.45
2.05
2.27
MIN. R o [ Y ,
1.31
1.63
2.30
2.03
X
x x
xx x x x x x x
1.64
2.08
2.30
1.66
2.11
2.32
MAX. RO (Yo)
1.45
1.94
2.68
NO. 6550
DEPTH/SAMPLE
CrG
1.74
2.12
2.33
1.79
2.13
2.34
1.79
2.13
2.34
M E ARNo [Yd
1.37
1.82
1.80
2.15
2.38
B
1.84
2.16
2.38
m
1.85
2.17
2.40
STD. DEL! ( Yo 1
0.071
0.103
0.167
3
1.87
2.18
2.41
No. 2
1.88
2.19
2.43
REMARKS
I
GETTY OIL COMPANY
WEST ELEPHANT BUTTE FEDERAL 3N0.2
GEOCHEM LABORATORIES, IXC.
1143-C Brittrnoore Road
Houston, Texas 77043
>-
Job No. :
Date:
Reporting:
G260
A p r i l 8 , 1983
Rudolph R . Schwarze’r, Ph.D
Thomas J. S t i f f , Jr.
$
TABLE OF CONTENTS
INTRODUCTION
A.
Table of Formation
Tops
B.
SimplifiedFlowDiagramofinterpretiveprogram
C.
I n t e r p r e t i v eD e s c r i p t i v eT e r m i n o l o g y
SECTION I
- InterpretiveTables
and Figures
A.
Formation by f o r m a t i o inn t e r p r e t a t i o n s
B.
Sample by sample i n t e r p r e t a t i o n s
SECTION I1
-
SECTION I11
Data Tables with Formation Tops
-
Data P l o t s ( s e p a r a t e )
and a s s o c i a t e dv a l u e s
INTRODUCTION
T h i s r e p o r t on G e t t y O i l Company'sWest Elephant B u t t e F e d e r a l 3 No.2 Well
i s composed of t h r e es e c t i o n sa sd e s c r i b e d
below.
SECTION I
-
ComputerizedGeochemicalInterpretations
A computerized
formation
by f o r m a t i o n
interpretation
is
u s i n gs e l e c t e dg o e c h e m i c a ld a t at h a ta r ea v a i l a b l e
on a l l
samples. The g e o c h e m i c a li n t e r p r e t a t i o n
of eachformation
from samples
usesthefollowinggeochemicalinformation
w i t h i n a givenformation:
A.
(1)'
sample
lithology
.
B.
(2)
t h e r m aml a t u r i t y
(TAI)
(3)
t o t aol r g a n i c a r b o nc o n t e n t
(4)
volatile
hydrocarbon
(S1
peak)
(5)
kerogen
type
(TOC)
The f o r m a t i o ni n t e r p r e t a t i o n sa r e
computed for a s h a l es o u r c e ,
a carbonatesource,
and a s a n d l s i l tn o n s o u r c e when present.
i s cunprised of t h r e e
The f o r m a t i o n i n t e r p r a t a t i o n s e c t i o n
tables:
Table I
F o r a m t iIonnt e r p r e t a t i o n
Table II
Formation Summary I n t e r p r e t a t i o n
Table 111
Formation Summary
of
GeochemicalData
A computerized
sample
by s a m p lien t e r p r e t a t i o n
i s presented
u s i n g s e l e c t e dg e o c h e m i c a ld a t at h a ta r ea v a i l a b l e
on a l l
samples. The g e o c h e m i c a li n t e r p r e t a t i o n
of eachsampleuses
thefollowinggeochemicalinformation:
(s1a)m pl il teh o l o g y
(2)
thermal
maturity
(TAI)
(3)
t o t aol r g a n i c r b o nc o n t e n t
(4)
v o l a t i lh
eydrocarbon
(5)
kerogen
type
(TOC)
(SI peak)
The sample i n t e r p r e t a t i o n s e c t i o n i s composed of t h r e e t a b l e s
andtwo
figures:
Table I V
Sample I n t e r p r e t a t i o n
Table V
Sample Summary I n t e r p r e t a t i o n
Table V I
Sample Summary of.Geochemica1
Data
Figure 1
T h e r m aA
l l t e r a t i o nI n d e x( T A I M
) a t u r i t r yP r o f i l e
Figure 2
V i t r i n i t eR e f l e c t a n c e
( % Ro) M a t u r i t yP r o f i l e
(No data;samplesnotrun)
SECTION I1
S e c t i o n I1 c o n s i s t s of a s e r i e s of d a t a t a b l e s which d i s p l a y t h e o r i g i n a l
d a t aa l o n gw i t ha l lt o p s( f o r m a t i o n a l ,z o n e ,p a l e o n t o l o g i c a l ,
and s e i s m i c )
i n s e r t e di np r o p e ro r d e r .
The d a t at a b l e si n c l u d e da r ea sf o l l o w s :
Table I
Cl-C7 Hydrocarbon Analyses
Air Space
A.
B.
C.
'
C u t t i n g s Gas
A i r Space and C u t t i n g s Gas
Table 11
Summary ofOrganicCarbonandVisualKerogenAnalysis
Table 111
(No Data)
Table I V
(No Data)
Table V
(No Data)
Table V I
V i t r i n i t e R e f l e c t a n c e Summary
Table V I 1
Results of
'
Rock-Eva1 . P y r o l y s i s
SECTION 111 Data P l o t s( s e p a r a t e )
A.
B.
A series of large
computer
generated
diagrams
of
the geochemical
is provided. The sample
d a t ap l o t t e d i n well p r o f i l ef o r m a t
The
l i t h o l o g y and f o r m a t i o n a lt o p s a r e p r e s e n t e di ne v e r yp l o t .
d i a g r a m sa r el a b e l e d
as follows:
- C1-C7
- C4-C7
Figure 1
Summary ofOrganicAnalyses
Figure 2
Summary of OrganicAnalysis
(no d a t a )
Figure 3
Summary ofOrganicAnalyses
Figure 4
C15+ Paraffin-Naphthene Gas Chromatograms ( r e d u c e d ) /
w i t hl i t h o l o g yd i a g r a m( n od a t a )
Figure 5
T h e r m aM
l a t u r i tPyr o f i l e s
Figure 6
Summary oPf y r o l y s iA
s nalyses
F i g u r e 7B
T i s s o t Diagram
-
1.
GEOCHEM LOG
2.
C r o sSs e c t i o nds i s p l a y i n tghge e o c h e m i c adl a t a
Hydrocarbons
S o u r c eC h a r a c t e r
- Hydrogen~Indexvs.
Othe'r
Computer
Generated
Plocs
Hydrocarbons
Oxygen Index
TABLE OF F O R M T I O N TOPS
DEPTH (Feet)
25
1300
2677
5156
6528
6662
7334
7462
7556
FORMATION
Tertiary
Cretaceous
Permian
Pennsylvanian
Mississippian
Ordovician
Cambrian
Precambrian
T.D.
Simplified Flow Diagram
STEP I/DATA INPUT
1.
2.
3.
.
4.
Sample ID
Depth
Lithology
a. % Sandstone (Ss)
b. % Siltstone (St)
c. % Shale (Sh)
d. % Carbonate (Cb)
e. % Evaporite (E)
f. . % Coal (C)
g.
% Other (Ot)
h. % Metamorphic (M)
Geochemical
parameters
a. Pyrolysis
data
1. Volatilehydrocarbon
(S1)
hydrocarbon
Generated
(SZ)
Temperature (“C) of S2 peak
2.
3.
(TMAX)
b.
c.
d.
Total organic carbon (TOC)
Kerogen type
1. X Amorphous (Am)
2. X Herbaceous (H)
3. % Woody (W)
4. % Coaly (C)
Thermalmaturityindicators
1. Thermal
alteration
index
(TAI)
2. Vitrinite
reflectance
(%Ro)
output
”
Samples :
Table VI
Fig. 1
Fig. 2
STEP II/LITHOLOGY CHECK
~~
~
~~~~
~
~~~
~~
If the sampleis uninterpretable because it contains coal, mud
additives, or metamorphics, a statementis printed to that effect.
If a significant portionof the sample is composed of “other”
If the
lithologies, the interpretation is referred to a footnote.
s a p l e is composed of 60% or more of either source rocks (shale
and/or carbonate) or nonsource rocks (siltstones and/or sandstones)
the sample is interpreted in Step
111 below.
STEP III/INTERPRETATIONPROCEDURES
Interpretations are basedon the following parameters:
1 . Lithology
4. Volatile
hydrocarbon
(S1)
2 . Thermal maturity using TAI
5 . Kerogen type
3 . Total organic carbon (TOC)
If a particular sample lacks
only a TAI value, a TAI value is taken
from a three term moving averge curve (Figure
1).
The descriptive
terminology used relative to the parameter values is given below.
output
Formations
’ Table I
Table I1
Samples
Table IV
Table V
INTERPRGTIVE DESCRIPTIVE TERMINOLOGY
Thermal Alteration Index(TAI)
Value
1.0 1.8 2.2 2.6 3.6 4.2
> 5.0
-
Descriptive
Terminology
1.7
2.1
2.5
3.5
Immature
Moderately Immature
Moderately Mature
Mature
Very Mature
Severely Altered
Metamorphosed
4.1
- 4.9
Value
1.3 - 1.5
1.5 - 2.2
2.2 2.5 3.2 3.4 > 3.8
-
2.5
3.2
3.4
3.8
Associated HydrocarbonType
.
Biogenic Gas
Biogenic Gas and Immature Oil
Immature Heavy Oil
Mature Oil
Mature Oil, Condensate,and Wet Gas
Condensate and Wet Gas
Petrogenic MethaneGas
Total Organic Carbon(TOC)
Value
in %
Carbonate
Descriptive
Shale
-
Terminology
< 0.12
Poor
0.13 - 0.25
Poor
0.26 - 0.50
Poor
0.51 -Good
1.00 Very
Fair
1.01 - 2.00
Excellent
Good
2.01 - 4.00Excellent
GoodVery
>- 4.00
Excellent
Volatile Hydrocarbon(Sl)
Value in ppm
Descriptive
Terminology
<
200
201
401 801 1601 > 3200
-
400
800
1600
3200
Very Poor
Poor
Fair
Good
Very Good
Excellent
'
Poor
Fair
Good
Excellent
..
Kerogen Oil/Gas Factor
% Oil = (% Am)
% Gas = 100
+ 0.6
(% €I)
+ 0.3 (%W) + 0.1 ( %C)
- % Oil
Vitrinite Reflectance( %Ro)
Value
0.0
0.43
0.56
0.81
1.63
-
0.42
0.55
0.80
1.62
- 2.37
-
2.38
4.50
4.50
>
Value
0.30
0.35
0.60
0.80
1.20
1.50
- 0.35
- 0.60
- 0.80
- 1.20
- 1.50
- 2.00
-> 2.00
Descriptive
Terminology
Immature
Moderately Immature
Moderately Mature
Mature
Very Mature
Severely Altered
Metamorphosed
Associated
HydrocarbonType
Biogenic Gas
Biogenic Gas and Immature Oil
Immature HeavyOil
Mature Oil
Mature Oil, Condensate and Wet
Gas
Condensate and Wet Gas
Petrogenic MethaneGas
TABLE I
FORMATION INTERPRETATION
T h i s t a b l eg i v e s
following parameters:
(1)
(2)
(3)
(4)
(5)
a formation by f o r m a t i o n i n t e r p r e t a t i o n b a s e d
on t h e
Lithology
Thermal a l t e r a t i o ni n d e x
(TAI)
Totao
l r g a n i cc a r b o n
(TOC)
Volatilehydrocarbon(S1)
Kerogen
type
a TAI
I f a T A I v a l u e i s l a c k i n gf o ra no t h e r w i s ei n t e r p r e t a b l es a m p l e ,
value i s takenfrom a t h r e e t e r m moving a v e r a g e p l o t of a l l t h e T A I d a t a f o r
t h i sw e l l( s e eF i g u r e1 ) .
T h e k e r o g e nt y p eo i l / g a sf a c t o re x p r e s s e da s
a percentageshouldbeusedas
a modifiertotheinterpretation;
i.e., a h i g h o i l f a c t o r w i l l e n h a n c et h eo i l
qualityofthesamplewhereascorrespondingly,
a h i g hg a sf a c t o r
w i l l enhance
thegasratioofthesample
and d i m i n i s h , t h e o i l p r o s p e c t i v e n e s s .
.
bcbw
UELL
NAME: U E B FEDRL 3 NO. 2
GE~CHEM
SAMPLE
NUMBERXXI
... ,..
FORMATION
INTERPRETRTIONX
_______________
.......................
..................................................................
25
01SH
25- 1300
1300
02SH
1300- 2677
2677
03SH
2677- 5156
03CB
2677- 5156
03NS
2677- 5156
04SH
TOP
OF
TERTIRRY
SHRLE , MODEROTELY MRTURE NONSOURCE FOR OIL/RSSOCIRTED GRS
OR BIOGENIC
GRS
KEROGEN TYPE OIL/GRS FRCTOR: OIL TYPE
83%
GRS TYPE
17%
_______________ TOP
OF
.....................
CRETACEOUS
SHRLE , MODERATELY IMMRTURE NONSOURCE FOR OIL/RSSOCIRTED GRS
O R BIOGENIC
GAS
KEROGEN TYPE OIL/GAS FRCTOR: OIL TYPE
56%
GRS TYPE
44%
_______________ TOP
OF PERMIRN
........................
SHRLE , MRTURE NONSOURCE FOR OIL RND RSSOCIRTED GAS
65%
GRSTYPE
KEROGEN TYPE OIL/GOS FRCTOR: OILTYPE
35%
-
CRRB , MODERRTELY IMMRTURE POOR BIOGENIC GAS SOURCE
GOOD POTENTIRL
FOR OIL RND GAS
KEROGEN TYPE OIL/GRS FOCTOR: OIL TYPE
70%
GRS TYPE
30%
SUND NONSOURCE - NO EVIDENCE Of RESERVOIRED HYDROCARBON
GRS TYPE
43%
KEROGEN TYPE OIL,/GRS FRCTOR: OIL TYPE 57%
5156
_""
5156- 6528
SHRLE
TOP
, MODERRTELY
OF
------------------
PENNSYLVANIRN
MATURE POOR SOURCE FOR OIL/RSSOCIRTED GRS
OR BIOGENIC
GRS
KEROGEN TYPE OIL/GRS FRCTOR: OIL TYPE
04CB
5156- 6528
6528
6662
7334
51%
GRS TYPE' 49%
CARB MODERRTELY MRTURE POOR TO FAIR IMMRTURE OIL RND 6SSOCIOTED
GRS SOURCE
KEROGEN TYPE OIL/GRSFACTOR:OILTYPE
58%
GRS TYPE
42%
____________-_TOP OF MlSSISSIPPIRN-----------------_______________ TOP OF I\RDOVICIRN ________-__----_---_-
_____________-_ TOP
OF
CRMBRIAN--------------------__L
..................................................................
X Rattng
parametevs as deflned In GeoChem's Source Rock Reference Manual.
typed on s e p a r ' a t e sheets.
CE-Carbonate S o u r c e , SH-Shale S o u r c e , NS-Sand/SIlt Non-Source.
% X RII footnotes
X X X Sample Type:
. ..,,*,
,."
TABLE I1
FORMATION SUMMARY INTERPRETATION
This table gives a formationby formation interpretation of each parameter
used in Table I. The descriptive terminology used for each parameter is listed
in the introduction.
I'
.^
. ,. ,..
"C"
FORMATION SUMMARY INTERPRETATIONI
WELL N A M E : U E B FEDRL 3 NO. E
"
~
"
"
"
"
"
"
"
"
"
"
"
"
"
~
"
GEOCHEM
SAMPLE
NUMBERXXXI
DEPTH
HC
LITHOLOGY
MATURITY
TAI
RICHNESS
%R0
RICHNESS
PRODUCTIVITY
INDEX
25
__________-____
TOP OF TERTIARY .......................
25- 1300
SHOLE
MM
1300
_______________ TOP OF CRETOCEOUS ___________--________
1300- 2677
SHOLE
MI
2677
""_""
03SH
2677- 5156
SHOLE
n
n
POOR
03CB
2677- 5156
CARB
MI
MM
03NS
2677- 5156
SAND
Mil
M
5156
_"""
OIL
% GAS
FOCTOR
FACTOR
%
..................................................................
01SH
02SH
04SH
5156-
04CB
5156- 6528
6528
6662
7334
6528
POOR
VERY
POOR
nn VERY
Top OF PERMIAN
POOR
0.80
83
POOR
0.17
56
VERY POOR
0.46
65
35
GOOD
VERY POOR
0.21
70
30
POOR
VERY POOR
0.30
57
43
'
44
........................
TOP OF PENNSYLVONION
------------------
SHOLE
MM
M
POOR
VERY POOR'
0.67
51
4s
CARB
nn
n
GOOD
VERY POOR
0.57
58
42
_______________
_______________
"""""""""""""""""""""""""""""""""""""""""""~"""""""""""""""""""""-
-----------------ORDOVICION .....................
CAMBRIAN .......................
TOP OF MjSSISSIPpJAN
TOP OF
TOP OF
XRatlnq pat-ameters as defined in GeoChem's Sourse Rock Rtferensc Manual.
Value taken f r o m a 3 term runnlne average f o r all values of t h l a ~ 3 r a m e t e r .
x x x Thermal Maturlty Obbreviatlons: I=lmmature, tlI=noderattly Immature, MM=Modcratclv Mature. WMatura.
VM=Very Mature. SA=Severly Altered, MT=Metamorphosed.
Y X X X Sammle Type: CB-Carbonate S o u r c e . SH-Shale S o u r c e , NS-Sand/Sllt Non-Soursa.
X X X X X A L L footnotes typed on se~larate sheets.
X*
17
~
-.r..-.Q
TABLE 111
FORMATION SUMMARY OF GEOCHEMICAL DATA
T h i st a b l eg i v e s
a formationbyformationlistingofthedataused
c o m p u t e r i z e di n t e r p r e t a t i o n s .
The informationgivenforeachformation
follows:
4
(1) Sample number
(7) oTrcogataranbliocn
(8)
Depth
Lithology
( 4 ) Volatilehydrocarbon(S1,
ppm)
(5) Generatedhydrocarbon
(52, ppm) (9)
(6) Maximum temperatureof
S2 peak (10)
(2)
(3)
i n the
i s as
(TOC, % j
Kerogen
composition
(amorphous
(Am), herbaceous (H), woody (W),
and c o a l y ( C ) )
Thermal a l t e r a t i o ni n d e x
(TAI)
V i t r i n i t er e f l e c t a n c e
(%Ro)
L
JOB
NVIIBER:
UELL NaUE:
6268
U E B F E D R L 3 NO.
F O R I I A T I O N SUMMARY
""""""""""""""""""-
2
25- 1 3 0 0 )
......................................
F O R M A T I ONNA I I TEE: R T I A R Y
(
M AP
(TPYUPRD
RM
OA
I )TLTYAS I S
51
""""""""~"""""""""""""""""""""""""""""""""""""""""""""""""""--
S E D I M E NFTA C I E S
"
(
SOURCE
SHALE
AVG
MIN
MAX
(
NO/
X
)?X
150.
""_
NON-SOURCE
52
'
ER0KK
53
T A I XT
K O CT M A X
5/100)
0.04
268
122.
4. 2.2
172
100.
0 . 2.20.03
2.2
0.05
16.
10.
20.
10.
"
"
KTEYRPOEG E N
EA
%H
75
0
Y G%
AS
OIL
XXK
F%U
FAACCTTOOR
%RC
0
25
83
17
XOIL
%GAS
56
44
"
"
444
"
"
I N THIS FORMATION
CARBONATE
SOURCE
NOT
PRESENT
SAND-SILT
O F G E O C H E MDl C
AT
OAL
NOT PRESENT IN THIS
FORMATION
"""""""""""""""""""""""""""""""""""""""""""""""---------------
........................................
F O R M A T I O N A M EC: R E T A C E O U S
(
1300-
2677)
Si
Z )K
P Y R O L Y S I SD A T A( P P M
52
S3
""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""-"--S E D I M E NFTA C I E S
S OSUHRACL E
AVG
M l N 70.
MAX
(
NO/
18/100)
101.
0.
1.28 449 250. 850.
MCITURITY
)
rR0ff
T ATrTO
rM
*CA X
KERO
TY
GPEEN
%A
%H
(
0.68
2.2
21.
0.
50.
131.
2.1
0.63
CARBONAS
TE
OURC
NE
O
PR
T ESENT
I N TUIS FORMATION
S A N D - S I L TN O N - S O U R C EN O TP R E S E N T
I N TUIS FORMATION
314
23
0.21
33
NKX
XUF A
FC
AC
T
EO
T
CO
RR
45
0
0.57
..................................................................
FORMCITION
NAME:
PERMIAN
2677-
5156)
.....................................
S E D I M E NFTA C I E S
"
"
"
"
"
"
"
S H A L ES O U R C E
AVG
MlN
MAX
(
PYR
DO
A LT Y
AS I S
Sl
52
PPM )
53
TM4X
(
"""~"""""""""""""""""""""""""""""~"""""""""""""""------------(
NO/
(
8/
%
)K
TOC
MATURITY
TAIXI
ER0KX
%OIL
K E R O G E NT Y P E
XXX
%A
EH
EU F AFC%
ATC
COTRO R
%GAS
65
35
38)
21.
0.
40.
2.6 25.
0.06 262 228.
180.
2.3 0.04 210
0.
0.11
400
310.
160.
1.0
"""""""""""""""""""""""""""""~""""""""""""""""""""""""""""""----------K N u n b a r o f samples and p e r c e n t o c ~ u r r e n c e I n this F o r m a t t o n .
x x V a l u e taken f r o m a 3 t e r m shoothins f o r a l l v a l u e s f o r t h i s Paramet--.
x x x Ksropen T y p e A: m - A m o r p h o u s - S a p r o p e l ,
H-Herbacsous, U-Uoody,
C-CoaIY/ln=rttnlta.
0.56
0.66
1.35
25
59
17
0
..
UELL NanE:
YES
FEDRL
F O R M R T I O N S U M M R R Y O F GEOCHEMICOL D O T O
2
3 NO.
<
.....................................
F O R M R T r O N NAME:
PERMIAN
S E D I MFEANCTI E S
(
2677-
NO/
%
5156)
(PPM
D A TPAY R O L Y S I S
52
Si
)X
)
%GAS
53 T ATl X
TOM
XCA X
% O I L K E R OMGAETN
URITY
YR0XX
%A
XH
%HF A
FA
CC
TXO
TCO
RR
..................................................................
CARBONATE
SOURCE
AVG
129.
MIN
452
nax
290.
SAND-SILT
AVG
MIN
MAX
'
I
NON-SOURCE
(
10/
48)
34.
20.
60.
190.
(
31/ 4 )
0.07 315 213.
0.
30.
10.
21 60.
405
220.
70. 0.16358190.
0.26
220180.
370
260.
0.63 2.2 0.04
0.13
70.
0.
2.1
2.1
0.59
0 22 36 42
0.56
2.4
0.89
2.7
1 .12
17
33
30
0
50
70
57
43
.................................................................
F O R M A T I O N A M EP: E N N S Y L V A N I A N
5156-65283
...........................................
S E D I M E NFTA C I E S
(
(
NO/
%
si
)X
P Y R O LD
(YM
PASPA
TI M
ST
AU
) KREI TRYOTGYEPN
E
S3
52
%OIL
i X X
TOC
TMAX
TeIXX
%RBI*
%A
%GAS
FPlCTOR
%H
FACTOR
%C %H
.................................................................
SO
SH
UA
RLCEE
335 nnx
(
200.
CFIRBONATE
SOURCE
13.
AVG
MIN
442 MRX
220.
1/
7)
2.5
0.30
10.
(
13/
10.
10.
0.23
39s
200.
0.
0.10
266
170.
2.5
2.5
0.98
0.97
0.97
5013
38
0
51
49
0
58
42
53)
40.
S A N D - S I L TN O N - S O U R C EN O TP R E S E N T
335
20. 200.
20.
20.
17.
0.
30.
193. 0.27
354
34
2.5
47
2.5
2.6
20 1.35
1 .17
1.42
I N THIS FORMATION
..................................................................
.................................................................
'
X Number o f s a m p l e s and p e r s e n t occurrence in this F o r m a t i o n .
XX V a l u e taken f r o m a 3 term s m o o t h i n g f o r a l l values f o r t h i s p a r a m e t e r .
X X X K e r o s e n Type: A m - A m ~ r p h o u s - S a p r a p e l ,H - H e r b a c e o u s ,
W-Woody, C - C o a l y / l n e r t i n i t a .
..
FORMATION NAPIE: MISSISSIPPIAN
6528- 6662)
............ ..............................
PYROLYSIS
DATA
[
1
SEDIMENT
FACIES
(
NO/ X
53
51
)Y
< PPM )
MATURITY
KEROGEN
TYPE
TMAX
52
TOC
TAIXX
XRBYY
%OIL
YYY
XH
%A
XU
XC
XGAS
FACTOR
FACTOR
..................................................................
SHALE
SOURCE
(
2/ 6 7 )
""_
"""""_
"_
0.78
------- 1.31 --- -- 2.6
--- --0.71
- ---- _" ---- -_"_ -- --- 1.31
2.6
0.84
"
"
"
- "_"_
"
2.6
1.31
-
"
-
"
"_
"
CARBONATE
SOURCE
c
l / 33)
"-_
--
"
"
"""-
""_
"_" ----"-""
-"""
"
"
"
-
"
_"---
_"
0.15
3.0
0.14
1.37
3.0
0.14
3.0
I .37
I .37
"-"_
"_
"_
"_
"_
SAND-SILT NON-SOURCE NOT PRESENT IN THIS FORMATION
..................................................................
< 6662- 7334)
........................................
FORMATION NAME: ORDOVICIAN
SEDIMENT FACIES
(
NO/ %
PYROLYSIS
s2
$1
)X
DATA
(PPM)
53
TOC
TMAX
MATURITY
KEROGEN
TYPE
V RT0A
YIYX Y
YYY
%A
%H
XU
XC
%OIL
%GAS
FACTOR
FACTOR
..................................................................
IN THIS FORMATION
SHALE
SOURCE
NOT
PRESENT
CRRB0NF)TE SOURCE
AVC
MIN
MAX
(
12/100>
" _ --"
--
"-""
"_ 3.1 _" 0.04
1.37
0.12
---- --- -- --- --3.0
- - --"
--- 1.37
3.1
0.30
"
"
"
"
"
"
"_"_ "_ "_
"-
1.37
"
"
SAND-SILT NON-SOURCE NOT PRESENT IN THIS FORMATION
..................................................................
"""_""~"""""""~"""""""""~"
X Number of s a m p l e s
i i Value taken f r o m
XXX
and percent occurrence in this Formation.
a 3 term smoothing for all values f o r this parameter.
Kerogen Tup-: Am-Amorphous-Sapropel,
H-Herbaceous.
W-Uoodu,
C-Cdaly/lnertlnite.
"_
,
'
40s
"ELL
-=LC
NVn6CR:
0260
NAME: U E B F E D R L
3 NO.
F O R M A T I O N A M EC: A M B R I A N
"_"""
F O R M ASTUI O
UN
UARY
2
7334-
SEF
DA
IM
CEI ENST
(
NO/
( P P M PDYARTOAL Y S I S
SZ
st
i: )X
MATURITY
)
S3
TUAX
T%T
AR
O
I X0CXl X
KERO
TG
YP
EE
N
%A
%H
fll
%OIL
ZU F AFC%
ATCOTRO R
%GAS
..........................................................
"
"
"
S HSAOLU
EPN
RRO
CETES E N T
CARBONATESOURCE
AVG
MlN
MAX
'
GEOCHEUICAL DOTO
7462)
......................................
(
Of
......" ^-*II
L , ,
I N TFHOI S
RMATION
1/100)
(
- --..-- - - -
-
"
""_ ""_
-- - -- - - ""-
"
"
"
"
"
"
"
"
"
--
"
"
"
"
0.15
0.14
0.14
i .37
3.1
3.1
1.37
3.1
1 .37
-
"
-
"
-- -
"_
.
-
"
I N T H I SF O R M A T I O N
S A N D - S I LN
T O N - S O U R CN
E OP
TR E S E N T
.................................................................
FORMATION
N A M EP: R E - C A M B R I A N
7462-
7556)
..........................................
S E D I M E NFTA C I E S
(
NO/
(
1 )X
P Y R O L Y S I SD A T A( P P M )
51
52
""""~""""""""~""""""""""""""""""""~"""""""""""""""""""""""""""""""S HSAOLU
EPN
RRO
CETES E N T
TMAX
TOC
MATURITY
XRBXX
TeIfi
TF
H
IN
O
I SR M A T I O N
CARBONATE
SOURCE
NOT
PRESENT
I N T HFI SO R M A T I O N
SAND-SILT
I N THIS FORMATION
NON-SOURCENOTPRESENT
S3
""""""""""""""""""""~""""""""""""""""""""""""""""""""""""""""""""X N u m b e r o f s a m p l e s and p e r c e n t occurrence in t h i s F o r m a t i o n .
i X V a l u e taken f r o m a 3 t e r ms m o o t h i n s
f o r all values f o r t h i s p a r a m e t a r .
*X*
Kerogen T y p e A
: m-Amorphous-SapropaIH
r -Herbaceous,
W-Uoody,
C-CealY/lnertlnlte.
% G%
AO
SIL
KEROGEN TYPE X X X
%A
%H
XU F AFC%
ATCOTRO R
"_
TABLE IV
SAMPLE INTERPRETATION
on the following
This table gives a sample by sample interpretation based
parameters:
(1)
(2)
(3)
(4)
(5)
Lithology
Thermal alteration index (TAI)
Total organic carbon (TOC)
Volatile hydrocarbon (S1)
Kerogen type
If a TAI value is lacking for an otherwise interpretable sample,
a TAI
value is taken froma three term moving average plot
of all the TAI data for
this well (seeFigure 1).
The kerogen type oil/gas factor expressed as
a percentage should be used as
a modifier to the interpretation;
i.e., a high oil factor will enhance the oil
a high gas factor will enhance
quality of the sample whereas correspondingly,
the gas ratio of the sampleand diminish the oil prospectiveness.
J O B NUUBLR: 6260
UELL N ~ H E : U C B F E D R L
3 NO.
SAMPLE.
2
. , .,
".. ..
INTERPRETATION€
"
"
"
"
"
"
"
"
"
"
"
GEOCHEM
SAMPLE
NllM
D BE EP R
TX
Hl i
INTERPRETATION
_______________
_______________--------
...................................................................
25
002
1050-
1100
003
1100- 1150
004
1150- 1200
005
1200-
1250
006
1250-
1300
SHCILE , M O D E R A T E L YM A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E DG A S
GAS
B3k
GA
TY
SPE
K E R O G ET N
YP
OEI L / G A
FS
A C T OORTI:Y
LPE
,
17%
G!Xi
S H A L E , M O D E R R T E L YM A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E O
GAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
GCIS OR B I O G E N I C
S H R L E , M O D E R A T E L YM A T U R EN O N S O U R C EF O R@ I L / A S S O C I C I T E DG A S
GAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
OR B I O G E N I C
OR B I O G E N I C
S H A L E , M O D E R R T E L YI M M A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E DG A SO RB I O G E N I C
GAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
T O PO FC R E T A C E O U S
__-________________--
007
1300-,1550
S H A L E , M O D E R A T E L YI M M A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E DG A S
GAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
008
1350-
1400
SHALE
M O D E R A T E L YI M M A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E DG A SO RB I O G E N I C
GRS
K E R O G E NT Y P EO I L / G R S
FCICTOR
NOT
AVAILABLE
009
1400-
1450
S H A L E , M O D E R A T E L YI M M A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E DG A S
GAS
K E R O G E NT Y P EO I L / G R SF A C T O RN O TA V A I L A B L E
OR B I O G E N I C
010
1450-
1500
SHCILE , M O D E R C I T E L YI M M A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E DG A S
GAS
K E R O G E NT Y P EO I L / G R SF A C T O RN O TR V A I L R B L E
OR B I O G E N I C
01 1
1500-
1550
M O D E R A T E L YI M M R T U R EN O N S O U R C EF O RO I L / A S S O C I A T E DG A S
SHALE
GAS
K E R O G E NT Y P EO I L / G R SF R C T O RN O TA V A I L A B L E
,
pnrameters as defined In G e o C h e m ' s
A l l footnotes typed on separate sheets.
i Ratlnrr
X*
x 1 * Sample TWP:
OR B I O G E N I C
,
""_""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""-
L
OR B I O G E N I C
SHALE
M O D E R R T E L YM A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E D
GAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
_______________
1300
T O PO FT E R T I A R Y
Blank-Cuttings,
C-Core,
S o u r c e R o c kR e f e r e n c e
5-Sidewall C o r e .
Manual.
OR B I O G E N I C
"
"
"
"
"
"
"
"
"
"
"
GEOCHEM
SAMPLE
N U I IDBEEPRTXHX X
, INTERPRETATION
..................................................................
012
1550-1600
M I X E DS O U R C E / N O N S O U R C EL I T H O
013
1600-1650
M I X E DS O U R C E / N O N S O U R C EL I T H O
014
1650-1700
M I X E DS O U R C E / N O N S O U R C EL I T H O
015
1700-1750
SHALE
M O D E R A T E L YI M M A T U R EN O N S O U R C EF O RO I L / A S S O C I F I T E DG A S
GAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
016
1750-1800
SHALE
M O D E R A T E L YI M M A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E DG A S
GAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
017
1800-1850
S H A L E , M O D E R A T E L YI M M A T U R EN O N S O U R C EF O RO I L / F I S S O C I A T E DG A SO RB I O G E N I C
GAS
K E R O G E NT Y P EO I L / G F I SF A C T O RN O TA V A I L F I B L E
019
1900-1950
S H A L E 8 M O D E R A T E L YI M M A T U R EN O N S O U R C EF O RO I L / F I S S O C I A T E D
GAS
K E R O G E NT Y P EO I L / G F I SF A C T O RN O TA V F I I L A B L E
021
2000-2050
S H A L E , M O D E R A T E L YI M M A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E DG A SO RB I O G E N I C
GAS
55%
G A S TYPE
45%
K E R O G ET N
YP
OEI L / G A
FS
A C T OORTI:Y
LPE
023
2100-2150
SHALE
M O D E R A T E L YI M M A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E DG A S
GAS
K E R O G E NT Y P EO I L / G F I SF A C T O RN O TF I V A I L A B L E
025
2200-2250
S H A LM
E O D E R A T E L IYM M A T U R N
E O N S O U R C FEO O
R I L / F I S S O C I A T EG
D AO
SB
RI O G E N I C
GAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
027
2300-2350
S H A L E I M O D E R A T E C Y . 1 M M A T U R EN O N S O U R C EF O RO I L / A S S O C I A T E D
GAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
029
2400-2450
SHALE
M O D E R A T E L YI M M A T U R EN O N S O U R C EF O RO I L / A S S O C l A T k DG A S
GAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
,
OR B I O G E N I C
,
OR B I O G E N I C
,
,
GFIS OR B I O G E N I C
OR B I O G E N I C
. .
GFIS OR B I O G E N I C
OR B I O G E N I C
..................................................................
i Ratlnq
PaPametmrs as defined i n G e o C h e n ' s S o u r c e R o c kR e f e r e n c e
A l l footnotes tvped on s e p a r a t e s h e e t s .
X * X S a m p l e T y p e :B l a n k - C u t t i n q s ,C - C o r e ,S - S i d e w a l C
l ore.
X&!
Manual.
k
JOB
NUIIBER:
UELL N G I I E :
T a B L EI V
SAMPLE
INTERPRETeTIONX
GP60
UEB
F E D R L 3 NO.
"_"_"""
2
GEOCHEM
SAflPLE
NUMBERXrZ
.................................................................
031
033
2500-2550
2600-
S H A L E , f l O D E R A T E L YI M M A T U R EF A I RB I O G E N I CG A SS O U R C E
F O RO I LA N DG A S
KEROGE
TN
YP
OEI L / G A
FS
A C T OORTI:Y
LPE
56Z
-
44%
GA
TY
SPE
26.50
S H A L E , (10DERATELY
IIIMCITURE
GOOD B I O G E N I CG A SS O U R C E
F O RO I L
ANDGAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
F A I RP O T E N T I A L
- GOOD
POTENTICIL
2677
2700-
2750
CARB
MODERATELY
IMMATURE
POOR
BIOGENIC
GASOURCE
FOR O I L A N DG A S
K E R O G E NT Y P EO I L / G A SF A C T O RN O TW A I L A B L E
037
2800-
2850
CARB
, MODERATELYIMMCITUREPOORBIOGENICGASSOURCE
FOR O I L ANDGAS
73X
KEROGE
TN
YP
OEl L / G A S
FCICTOR: O I L T Y P E
.
2900-
041
3000-3050
CARB
, M O D E R A T E L YI M f l A T U R EP O O RB I O G E N I CG A S O U R C E
FOR O I L ANDGAS
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
043
3100-3150
, M O D E R A T E L YI M M A T U R EP O O RB I O G E N I CG A S O U R C E
CARB
FOR O I L ANDGAS
K E R O G ETN
Y POEI L / G AF S
A C T OO
RTI:Y
L PE
70X
~
~
~
~
-
F A I RP O T E N T I A L
-
F A I RP O T E N T I C I L
-
F A I RP O T E N T I A L
3036
GA
TS
YPE
- F A I RP O T E N T I A L
3200-3250
CARB
, M O D E R A T E L YI M M A T U R EP O O RB I O G E N I CG A S O U R C E
FOR O I L A N DG A S
K E R O G E NT Y P EO I L / G C I SF A C T O RN O TC I V A I L A B L E
047
3300-3350
CARB
, M O D E R A T E L YI M f l A T U R EP O O RB I O G E N I CG A S O U R C E
FOR O I L ANDGAS
K E R O G E NT Y P EO I L / G A 5F A C T O RN O TA V C I I L A B L E
043
3400-3450
CARE
, M O D E R A T E L YI M M A T U R EP O O RB I O G E N I CG A S O U R C E- ' F A I RP O T E N T I A L
F O RO I L
ANDGAS
KEROGE
TN
YP
OEI L / G A
FS
A C T OORTI:Y
LPE
63%
GA
TS
YPE
3500-3550
CARB
,
MODERATELY
MATURE
POOR
IMMATURE
POTENTIAL
27%
GA
TS
YPE
045
051
GOOD P O T E N T I A L
- GOOD
C
. nRB
. MODERATELYIMMCITUREPOORBIOGENICGASSOURCE
FOR O I L ANDGAS
K E R O G E NT Y P EO I L / G C I SF A C T O RN O TC I V C I I L A B L E
039
2950
-
,
035
-
GOOD P O T E N T I C I L
37%
O I L AND
ASSOCIATED
GASOURCE
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
..................................................................
a s d e f l n e d in G e o C h e m ' s S o u r c e R o c k R e f e r e n c e M a y a l .
A l l footnotes t y p s d on s e p a r a t e s h e e t s .
n X X Sample T q p e B
: lank-CuiiinssC
, -Core,
S-Sldewall C o r a .
W R a t l n gp a r a m e t e r - s
XX
GEOCHEM
SAMPLE
M U MDBEEPRTXHX L
INTERPRETATION
""""""""""""~""""""""~~""~"""""""""""""""""-""""-""""-------------
"
"
"
"
-
053
3600- 3650
SILT
NONSOURCE
NO
EVIDENCE
OF
RESERVOIRED
HYDROCRRBON
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
054
3650-3700
CARB
, MODERATELYMATUREPOORIMMATURE
KEROGE
TN
YP
OEI L / G A S
FCICTOR:
OT
I LY P E
O I L FIND CISSOCICITED GCIS SOURCE
74%
063
4100-4150
M I X E DS O U R C E / N O N S O U R C EL I T H O
065
4200-4250
O I L ANDASSOCICITED
S H A L E , MATURENONSOURCEFOR
KEROGEN T Y P EO I L / G C I SF A C T O RN O TC I V A I L C I B L E
067
4300-4350
SHALE
MCITURENONSOURCEFOR
KEROGEN T Y P EO I L / G A SF A C T O R :
,
O I L A N DA S S O C I A T E D
O
TY
I LP E
62%
GT
AY
SP E
26%
GCIS
GCIS
G
TY
RP
SE
063
4400-4450
NONSOURCE
FOR
O I L CIND CISSOCICITED GCIS
S H A L E , MATURE
KEROGEN T Y P EO I L / G A SF A C T O RN O TC I V A I L A B L E
071
4500-4550
NO E V I D E N C EO FR E S E R V O I R E DO I L
SILT
NONSOURCE
K E R O G E NT Y P EO I L / G A S
F A C T O RN O TC I V A I L A B L E
073
4600-4650
SILT
NONSOURCE
N OE V I D E N C E
KEROGE
TY
NO
PE
I L / G CFI A
SC T O R :
38%
-
O F RESERVOIRED
HYDROCCIRBON
O ITLY P E
57%
GCIS T Y P E
,
43%
075
4700-4750
SHALE
MODERCITELYMATURENONSOURCEFOROIL/CISSOCICITEDGRS
GAS
K E R O G E NT Y P EO I L / G C I S
FCICTOR N O TA V C I I L A B L E
077
4800-4850
SHCILE
MODERATELYMRTURENONSOURCEFOROIL/CISSOCICITED
GAS
K E R O G E NT Y P EO I L / G & S
FCICTOR N O TA V A I L C I B L E
GCIS OR B I O G E N I C
073
4300-4950
S H A L E , MODERATELYMCITURENONSOURCEFOROIL/CISSOCICITED
GAS
KEROGE
TN
YP
OEI L / G A S
FCICTOR: O T
I LY P E
67%
GA
TY
SPE
GCIS OR B I O G E N I C
OR B I O G E N I C
,
OR B I O G E N I C
5000-5050
SHALE
M O D E R A T E L YM C I T U R EN O N S O U R C EF O RO I L / A S S O C l A T E DG A S
GAS
K E R O G E NT Y P EO l L / G A SF A C T O RN O TC I V A I L A B L E
083
5100-
MODERATELYMATURENONSOURCEFOROIL/ASSOCICITEDGAS
SHALE
GAS
K E R O G E NT Y P EO I L / G C I SF A C T O RN O TA V A I L A E L E
.......................................
X R a t i n g P a r a m e t e r s as deflncd i n G e o C h e m ' s
X X A I 1 f o o t n o t e s t y p e d on s e p a r a t e sheets.
XXX
33%
,
081
5150
OR B I O G E N I C
Source R o c kR e f e r e n c eM a n u a l .
Samplt T y p e B: l a n k - C u t t i n e . C
, - C o r eS
, - S i d e w a lC
l ore.
"
" ~" "~" _
-
-
J O B """BERi
UELL N a U E :
.
G160
WEE F E D R L
3 NO.
GEOCHEM
SAMPLE
NUMBERXXX
DEPTH
z
_______________
INTERPRETATION
_____------____-_-
..................................................................
5156
,
085
52005250
SHALE
M O D E R A T EM
L YA T U R
PO
EO
SR
OURC
FO
E
OR
lL/ASSOClATE
GD
O
A
BS
R
IOGENIC
GAS
51%
GA
TY
SPE
K E R O G ETN
YP
OEl L / G A
FS
A C T OO
RTI:Y
L PE
087
53005350
CARB
, MODERATELY
MATURE
VERY
POOR
IMMATURE
SOURCE
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
089
54005450
CClRB
I MODERATELY
MATURE
POOR
TO
F AIIM
RM A T U R
OEI L
GASSOURCE
K E R O G E NT Y P EO I L / G A SF A C T O RN O TA V A I L A B L E
091
55005550
CARB
,
"""_"
_"""
6528
6662
_______________
7334
_______________
7462
~
~~~~~
OIL/CCLS
FACTOR:
49%
O I L AA
NS
DS O C I A T G
ED
AS
MODERATELY
MfiTURE
POOR
IMMATURE
KEROGEN TYPE
~~
T O PO FP E N N S Y L V A N I A N
AA
NS
DS O C I A T E D
O I L AA
NSDS O C I A T E D
OIL TYPE
T O P OF M I S S I S S I P P I A N
55%
GT
AY
SP E
G A S SOURCE
45Y
------------------
-_______------_____-_____________--________
TOP O F O R D O V I C I A N
T O P O F CfiM*RION
TOP
OF P R E - C A M B R I A N
________-__________
~~
X R a t i n gP a r a m a t e r r
as d e f i n e d in G e o C h e m ' s Souroe R o c kR e f e r e n c eM a n u a l
X X A 1 1 f o o t n o t e s tuned on s e p a r a t e s h e e t s .
X X X SarnD1.a T y p e : Blank-cuttings, C - C o r e ,
S-Sideuall C o r e .
TABLE V
SAMPLE SUMMARY INTERPRETATION
T h i st a b l eg i v e s
a sample by sample i n t e r p r e t a t i o n of each parameterused
i n Table I V . The descriptiveterminologyused
for eachparameter i s l i s t e d in
theintroduction.
I
II
I
00-
JOB NUMBER:
HELL, NAME:
GZ60
F E D R L 3 NO.
UEB
2
GEOCHEM
~
~~
lE!&WX
DEPTH
PRODUCTIVITYHC
LITHOLOGY
TOC THERMALXXZ
MATURITY
% R 0R I C H N ERSI C
SH N E S S
Tal
""_
E OIL
~~
"~
-----------____________
-
IN
.
..D E
-.X.
. ..- .- ..
FLICTnR
GAS
. E..-.-..
S&,-Tfi!e
.................................................................
25
TOP
OF T E R T I C l R Y
002
1050-
1100
SHALE
MM
POOR
VERYPOOR
0.67
83
17
003
1100-
1150
SHALE
MMXX
POOR
VERYPOOR
1 .OO
"
"
004
1150-
1200
SHRLE
MMIf
POOR
VERYPOOR
1 .OO
"
"
005
1200-
1250
SHALE
MMXX
POOR
VERYPOOR
0.67
"
"
006
1250-
1300
SHALE
MIX%
POOR
VERYPOOR
1 .OO
"
"
007
1300-
1350
SHALE
MIIX
POOR
VERY
POOR
0.40
"
008
1350-
1400
SHFILE
MIX%
POOR
VERY
POOR
0.43
"
"
009
1400-
1450
SHALE
MIX*
POOR
VERY
POOR
0.40
"
"
010
1450-
1500
SHALE
M I X*
POOR
VERY
POOR
1 .OO
"
"
1550
SHALE
MIXX
POOR
VERY
POOR
1 .OO
"
"
1 .OO
"
"
0.33
"
"
01 1
15501600
012
013
.
.
"
MSIO
XV
ER
D C E / N O N S O LUIRTC
HE
OLOGY
1600-
1650014
1650
MSIO
XU
ED
RCE/NONSOL
UIRTC
HE
OLOGY
1700
MIXED
SOURCE/NONSOVRCE
LITHOLOGY
015
1700-
1750
SHFILE
MIfX
016
1750-
1800
SHALE
MPOOR
IXX
017
1800-
1850
SHALE
M I XX
POOR
VERYPOOR
1 .OO
"
"
019
1900-
1950
SHALE
MIXX
POOR
VERYPOOR
0.50
"
"
021
2000-
2050
SHFILE
MI
POOR
VERY
POOR
MMVERY
V E R I POOR
POOR
0.67
POOR
.
55
45
..................................................................
X R a t l n sP a r a m e t e r s
a s deflned In G e o C h e m ' s Source R o c k Reference Manual.
IE V a l u e t a k e n f r o m a 3 t e r m running avepaqe f o r a l l values of t h i s p a r a m e t t r .
X I X T h e r m a lM a t u r i t y
a b b r e v i a t i o n s : I = l m m a t u r e .M l = M o d e r a t e l v
lmrnaturer
MM=Moderatelv
V M = V = r v M a t u r e , S A = S e v e r l yA l t e r e d ,M T = n e t a m o r p h o s e d .
I X X X Sample T y p e :B l a n k - C u t t l n o s ,C - C o r e ,S - S l d e u a l C
l ore.
X X I X X A l l f o o t n o t e s t y p e d o n s e p a r a t e sheets,
Mature,
M=Matur.,
..
T A B L EV
S A M P L ES U M M A R YI N T E R P R E T A T I O N X
J O B N U M B E R : 6260
WELL NAME:
UEB F E D R L 3 NO.
2
GEOCHEM
SAMPLE
NM
UM
ALTBI D
T
U
ET
H
E
RAO
PIXT
ITLXYH
OXG
XY
HC
T U E R M A L X X XT O C
!4R0
RICHNESS
PRODUCTIVITY
X OIL
INDEX
F A C T OFR
ACTOR
RICHNESS
X GplS
023
2100-
2150
SHALE
M IPOOR
X*
VERY
MMXX
POOR
0.22
"
"
025
2200-
2250
SHALE
M IPOOR
XX
VERY
MlWX
POOR
0.17
"
"
027
2300-
2350
SHALE
M IPOOR
XX
VERY
MMX*
POOR
0.33
"
"
023
2400-
2450
SHALE
M IPOOR
XX
VERY
MMXX
POOR
0.50
"
"
031
2500-
2550
SUALE
MI
MM
F A I R POOR
VERY
033
2600-
2650
SHALE
n. * X
"XI!
GOOD
VERY
2677
_______________
POOR
56
44
0.08
0.03
"
____________-----_______
T O PO FP E R M I A N
035
2700-
2750
CARB
MIX%
" X i
GOOD
VERYPOOR
0.14
"
037
2800-
2850
CARB
MI
MM
GOOD
VERYPOOR
0.13
73
033
2300-
2350
CARB
MIXX
MMXX
FAIR
VERYPOOR
0.21
"
041
3000-
3050
CARB
MlXX
MMXX
FAIR
VERY
POOR
0.23
"
043
3100-
3150
CARB
MI
MM
FAIR
VERYPOOR
0.21
70
045
3.250
M3200IX+
CARB
"X*
FAIR
VERYPOOR
0.22
"
047
3300-
3350
CARB
MIX*
MMXX
GOOD
VERYPOOR
0.12
"
043
3400-
3450
CARB
MI
MM
FAIR
VERYPOOR
0.24
63
051
3500-
3550
CARB
MMXX
MMXf
FAIR
VERYPOOR
0.18
"
053
3600-
3650
SILT
MMXX
"X*
POOR
VERYPOOR
0.22
"
054
3650-
3700
CARB
MM
MM
FAIR
VERY
POOR
0.32
74
063
4100-
4150
M I X E DS O U R C E / N O N S O U R C EL I T H O L O G Y
065
4200-
4250
SHALE
POOR
V k R Y POOR
0.60
"
M *X
"
M XI
..................................................................
X R a t i n qP a r a m e t e r s
as d e f i n e d in G e o C h e m ' s S o u r c e R o c kR e f e r e n c eM a n u a l .
)If V a l u e t a k e n f r o m a 3 t e r m running a v e r a g e f o r e l l v a l u e s o f t h i s p a r a m e t e r .
t f X T h e r m a lM a t u r i t yA b b r e v i a t i o n s :
I = I m t n a t u r e , M l = M o d e r a t e l vI m m a t u r e ,M M = M o d e r a t t l y
V M = V e r vM a t u r e .
SArSeverlu A l t e r e d ,l l T = M e t a m o r p h o a e d .
X X I X S a m p l e T y p e : B l a n k - C u t t i n g s ,C - C o r e ,S - S i d e w a l lC o r e .
XX**X
A l l f o o t n o t e s t y p e d on stearate s h e e t s .
Mature.
M=Maturs,
JOB NUMBER: 6260
WELL NAME: WEB FEDRL 3 NO. 2
GEOCHEM
SAMPLE
NUMBERZXXX
DEPTH
TABLE V
SAMPLE SUMMARY INTERPRETATION+
""""~""""""""""TOC
THERMALXIX
LITHOLOGY
TAI
MATURITY
% R 0FACTOR
RICHNESS
FACTOR
HC
INDEXRICHNESS
PRODUCTIVITY
% OIL
% GAS
..................................................................
067
4300-4350
SHALE
M
M
POOR
VERY
POOR
0.67
62
069
4400-4450
SHALE
n x*
M X I
FOOR
VERY POOR
0.75
"
071
4500-4550
SILT
n x*
n
POOR
VERY POOR
1 .OO
"
073
4600-4650
SILT
nn
M
FOOR
VERY
POOR
1 .OO
57
075
4700-
SHALE
MMY*
"*X
POOR
VERY
POOR
1 .OO
"
077
4800-4850
SHALE
nnxi
nn**
POOR
VERY POOR
I .OO
"
079
4900-
SHALE
MM
MM
POOR
VERY
1 .OO
67
081
5000-5050
SHALE
nnm
M XX
POOR
VERY POOR
"
"
"
083
5100-
SHALE
MM**
M
+x
POOR
VERY
0.20
"
0 .67
51
4750
4950
5150
_"""
5156
E*
TOP OF PENNSYLVANIRN
n
VERY
POOR
POOR
------------------
085
5200-
5250
SHALE
MM
087
5300-
5350
CARB
nn*r
POOR
n x* VERY POOR
1 .OO
"
089
5400-
5450
CARE
nn*x
POOR
n x* VERY GOOD
0.43
"
091
5500-
5550
CRRB
nn
"
"
55
6528
6662
7334
7462
POOR
POOR
_"
TOP
""_"
TOP
--_-----_------TOP
--------------- TOP
POOR
VERY
n
FAIR
OF flISSISSIPPIAN
OF
------------------
.....................
ORDOVICIAN
OF CAMBRIfiN
_-_____________________
OF PRE-CAMBRIAN
-------------------
..................................................................
XRatlnq Parameters as defined In GeoChem's S o u r c e Rock Raference Manual.
f X Value taken from a 3 t e r m runnlng average for all values of thisparameter.'
t X X Thermal Maturlty Abbreviations: I=Immature, Ml=Moderately Immature, MM=Moderatelv Mature. M=Naturs.
.VM=Very Mature, SA=Severly altered. MT=Metamorphosed.
t X X X Sample Tvpe: Blank-Cuttings, C-Core, S-Sideuall
Core.
A l l footnotes typed on separate sheets.
TABLE VI
SAMPLE SUMMARY OF GEOCHEMICAL DATA
This table gives a sample
by sample listing of the data used in the
computerized interpretations. The information given for each formationis
as follows:
Sample number
(7)
Depth
(8)
Lithology
( 4 ) Volatile hydrocarbon (S1, ppm)
(5) Generated hydrocarbon (52, ppm) (9)
(6) Maximum temperature of S2 peak (10)
(1)
(2)
(3)
Total organic carbon (TOC, % )
Kerogen composition (amorphous
(Am), herbaceous (H), woody (W),
and coaly (C))
Thermal alteration index (TAI)
Vitrinite reflectance (%Ro)
The TAI and %Ro values are plotted on Figures 1 and 2 respectively; values
of TAI o r %Ro indicated withan asterisk (*) are taken from the three term
moving average plot of the respective parameter.Sample types are indicated by
"blank" (cuttings), "C" (conventional core) and "S" (sidewall core). Casing
points and the tops of all formations penetrated by the well are displayed
on
all tables with associated depths.
,
JOB
NUUBER:
UELL NC)ME:
UEB
TOBLE
GZS0
FEDRL 3 NO.
2
*,.
SL)WPLE SUUWL)RY
OF O E O C W E n I C n L
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
PYROLYSIS DPlTPl ( PPM )
GEOCHEM
SAMPLE
NUMBERXXX
VI:
.
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
DEPTH
LITHOLOGYXL
TMPlX
52
Si
THERMC)L
MATURITY
KEROGEN TYPELLLL
s3
TOC
%fin
XH
XU
XC
""_
TPlI
25
001
995-
f010
XR0
"_
"
"
"
2.2
002
1050-1100
003
1100-1150
"
(2.2)L
"
"
004
1150-1200
"
(2.2)X
"
"
005
1200-1250
"
(2.2)X
"
"
006
1250-1300
-- ( z . 2 ) ~----
0
"
"
1300
248
40.
60.
130.
0.05
"
(2.2)X
"
"
250t
248
30.
40.
110.
0.05
"
(2.2)X
"
"
75Sh
25Ot
275
40.
60.
130.
0.04
"
(2.2)ri
"
"
1450-1500
75Sh
25Ot
226
10.
0.
150.
0.03
"
( 2 . 2 )X
"
"
011
1500-1550
75Sh
250t
226
20.
0.
140.
0.04
"
(2.2)L
"
"
012
1550-1600
50Sh
30E
205s
308
10.
0.
100.
0.02
"
(
013
1600-1650
40Sh
30%
30E
226
10.
0.
120.
0.02'
"
014
1650-1700
50Sh
50E
338
0.
0.
100.
0.02
"
(2.1 )X
"
"
015
1700-1750
70Sh
305s
322
20.
0.
100.
0.11
"
(
2.1 )X
"
"
016
1750-1800
70Sh
30%
269
10.
20.
30.
0.16
"
( 2.1 )X
"
"
017
1800-1850
805h
20E
269
10.
0.
80.
0.13
"
( 2 . 1 )E
"
"
019
1900-1950
80Sh
20E
445
20.
20.
120.
0.11
"
(2.1 )X
"
"
007.
1300-1350
100Sh
008
1350-1400
75Sh
009
1400-1450
010
e. 1
c 2.1
.................................................................
takrn f r o m a 3 t e r m s m o o t h l n s f o r t h l s m a r a m e t e r .
L l t h o l o p l e r : 5s-Sandstone,
S t - S i l t s t o n e r Sh-Shale,Cb-Carbonate,
I l * X Sample
Type:
B l a n k - C u t t l n s s r C-Core, S-Sldewall Core
X X X X K o r o s c n T Y P ~ : Plm-Amorphous-Saprope],
H-Herbaceous,
U-Hoodv,
X Value
%X
E-Evaporite, C-Coal,
C-Coalu/Inm-tinlta
Ot-Other.
)X
"
"
)I( ""
.
L ...
-
JOB
.
. .,".
N U M B E R : GZ60
UELL NCIHW
E:EB
GEOCHEN
SCINPLE
NUMBERXXX
sanPLE sunnaRy
T a E I E VI:
FEDRL 3 NO. 2
OF
O E O C W E M I C ~ LD A T ~
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
PYROLYSIS
DATA (PPM)
THERMhL
MATURITY
KEROGEN TYPEXXEX
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
~
LITHOLOGYXX
DEPTH
TNAX
021
0.08
20002050 180. 85Sh10.15E
023
2100-2150
025
0.19 150. 100.
20.
22002250
0.10
2300-235070.
027
130. 336 70.
53
TOC
20.
0.18
60Sh
37 405%
80Sh
20. 20E
10.
2400-2450
031
2500-2550
0.95
l00
S h 190. 560.
033
2600-2650
100Sh
"_
301
205s
100. 10.
20E 10.
605h
029
2677
52
306
20E
80Sh
1
20.
51
50.
275
0.08
449
447
290. 850.
.
"
"
"
"
"
TOP
1.28
30.
OF PERMIAN
%Am
%H
%U
25
25
50
"
"
"
"
"
"
"
"
"
"
"
"
20
40
40
"
"
"
2700-2750
100th
452
30.
190.
210.
0.29
"
"
"
037
2800-2850
l00Cb
452
30.
130.
240.
0.30
50
25
25
039
2300-2950
100Cb
448
40.
150.
210.
0.25
"
"
"
0.23
"
"
"
40
40
20
210.
100.
40.
3000-3050
400
60Cb
405s
043
3100-3150
100Cb
045
3200-3250
0.22
200.
100Cb
047
3300-3350
0.38
049
3400-3450
100Cb
051
3500-3550
220.
100Cb
053
3600-3650
054
3650-3780
0.16 220. 130.
100Cb
057
3800-3850
100Ot
290.
60Cb
70.
150.
40Sh
805t
40.
409
20.
358
"
"
"
393
"
"
"
33
33
33
0.20
"
"
"
0.13
"
"
"
44
44
"
"
20.
150.0.25 210.
0.24
358
190. 130.
90.
210.
20Cb
20.
60.
60.
40.
427
268.
370
358
"_
itR0
........................
035
041
"_"
TAI
XC
"_ "_
"-""
"_
11
"
-0
--
(2.1IX(0.57)E
2.1
(2.l)X(0.56.)X
-- (2.1 )X(0.56)E
0
"
-0
--0.68
2.3 0
--
2.1
f r o m a 3 t e r m smoothlnq f o r thls parameter.
x% L l t h o l o s l a s :5 s - S a n d r t o n e ,S t - S i l t s t o n e ,
X l X Sample T y p e : B I a n k - C ~ t t i n g s C-Core,
~
Y X Y X Kerogen Type: CIm-A,norphou=-Sapropelr
Sh-Shale,Cb-Carbonate,
E-Evaporite, C-Coal,
S-Sidewall Core
H-Herbaceous,
U-Woody,
C-Coalv/lnertfnlte
Ot-Othcr.
0.57
(2.1)1(0.58)E
(2.l)X(0.58)X
2.1
0.59
(2.2)X(0.63)X
tZ.2h0.63>X
- -"_
"
..................................................................
X V a l u et a k e n
0.56
J O B NUMBER: GZ60
HELL NAME: UEB
FEDRL
TABLE V I :
3 NO.
2
GEOCHEM
SAMPLE
NUMBERXXX
""_
SOMPLE SUMMORY O F GEOCHEMICAL DOTA
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
PYROLYSIS DATO (PPM)
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
DEPTH
LITHOLOGYII
TMAX
51
53
52
TOC
%arn
XH
XU
XC
"_"
TRl
XR0
......................................................
"_
"_
059
3900-3950
1000t
061
4000-4050
100Ot
063
4100-4150
40St
40Sh
065
4200-4250
705h
067
4300-4350
069
"_""_"""_
"_"
"_
"_
"_ "_
"_
"
"_
"
"
"
"
"
-- C 3 . 0 ) 1 ( 1 . 3 5 > 1
-- ( 3 . 0 ) % ( 1 . 3 5 ) t
313
40.
70.
360.
0.11
30St
272
30.
20.
250.
0.09
60Sh
405t
246
20.
10.
220.
0.04
4400-4450
605h
40St
247
30.
10.
310.
0.04
"
(2.7)X[l.l2)S
071
4500-4550
805t
20Sh
356
20.
0.
200.
0.04
"
(2.7)I(l.l2)X
073
4600-4650
605t
40Sh
220
10.
0.
18%.
0.04
075
4700-4750
705h
30St
224
20.
0.
210.
0.04
077
4800-4850
805h
20St
274
10.
0.
250.
0.06
079
4900-4950
805h
20St
224
20.
0.
180.
0.04
0
081
5000-5050
80Sh
205t
21 0
0.
0.
190.
0.05
"
083
5100-5150
80Sh
20Cb
400
40.
160.
210.
0.11
-- ( 2 . 5 ) f ( 0 . 8 l ) X
5156
"
"
085
5200-5250
60Sh
40Cb
395
20.
10.
200.
0.29
087
5300-5350
60Cb
40Sh
266
20.
0.
190.
0.10
089
5400-5450
60Cb
40Sh
356
30.
40.
220.
0.43
091
5500-5550
60Cb
405h
442
0.
0.
1
0
;.
0.15
093.
5600-5650
100Cb
095
5700-5750
60Cb
20Ot
______-----
Top O F PENNSYLVANIAN
405h
"_ "_ "_
"_ "_"_"_
1.35
3.00
0 0.89
2.3
-- < 2 . 3 ) 1 ( 0 , 7 7 ) X
-- ( 2 . 3 ) * ( 0 . 7 7 ) X
0.66
2.4
(2.5)%(0.81)X
------------------
"_
2.5
0
0.97
-- ( 2 . 5 ) I C l . l 7 ) I
-- ( 2 . 5 ) I ( l . l 7 M
1.38
2.50
0.23
"
6-21
"
X V a l u et a k e n
f r o m a 3 t e r ms m o o t h i n s
for t h i s p a r a m e t e r .
X I L i t h o l o q i c a :5 s - S a n d s t o n e ,S t - S i l t s t o n e ,S h - S h a l e ,C b - C a r b o n a t e ,E - E v a p o r i t e ,
C-Coal.
Ot-0th.r.
X X X Sample Type: B l a n k - C u t t i n g s ,
C-Cora, S-SidewallCora
X X X I Kerosen
Type:Gm-Amorphous-SapropeIrH-Herbaceous,
W-Uoody,
C-Coalv/In=rtinite
L
THERMAL
MRTURITY
KEROGEN T Y P E X I I I
.
"_
"_
"
"
"
"
JOE
NUMBER:
VI: SClMPLE
"""~""""""""""""""""""TaBLE
G260
HELL NAHE: HEB FEDRL 3 NO. 2
GEOCHEM
SAMPLE
NUMBERXXI
""_"""""~
O F GEOCHEMlCcZtL DClTFl
PYROLYSIS DATfi t P P M )
TMAX
LITHOLOGYII
DEPTH
SlJMMFlRY
KEROGEN
TYPEIIII'
"
"
"
"
"
"
"
"
"
"
"
"
"
SI
S2 TOC s3
%Am
%H
%U
XC
THERMOL
MOTURITY
""_
TFiI
%R0
..................................................................
g
80Cb
097
5800- 5850
039
30Sh70Cb
5300- 5950
101
6000- 6050
103
ISSh85Cb
6100- 6150
i05
630- 625030Sh70Cb
107
6300-
6350 100Cb
109
6400-
6450 100Cb
111
6500-
6550
60Cb
70Cb
20Sh
"-
40Sh
_"
_"
"_
"_"
""_"
"_
"_
"_ "_"_"_
"_ ""__"
"_ "_"
_"
30Sh
"_"
"_"
"_
"
"
"
"
"
"
"
~
112
6550-
40Cb60Sh
6600
113
6600-
6650
114
6650-
6700 100Cb
60Sh
_"
_"
"_
40Cb
"_""
6662
115
6700-
50Cb50Sh
6750
116
6750-
6800
117
6800-
40Sh60Cb
6850
118
6850- 6300
80Cb
119
6300- 6950
100Cb
120
6350- 7000
100Cb
I21
7000- 7050
10QCb
70Cb
"_"_
"""-
"_
TOP OF ORDOVICIfiN
""-
30Sh
10%
"_
10Sh
---"
"_
"_
"_"
"_"
"_"
""_
"_"
"_"_"
"_"
"_
"_
"_"
"_"_
"_"
TOP OF MISSISSIPPION
6528
"_"
0.33
2.5
0.37
0.40
"_
0.14
2.6
"_
"_
"_
0.23
2.6
1.25
_"
1.37
0.71
""""""-
0.84
0.14
______________-____--
"_
"_"
"_"
"_"
""-"
"_"
""_
"_
"_
"_
"_
"_
"_
""_
"
"
"
"
"
"
"
"
"
"
0.21
"_
"_
"_
"_
0.09
3.0
"
"
0.09
3.0
"
"
0.07
3.0
"
"
0.26
0.22
0.30
*
1.42
0.12
""_
0.42
_____-____--___---
"_
"
"
_"
"-
0.22
"_
I .40
"
"
"
"
"
"
.......................................................................
x Value t a k e n
f r o m a 3 term smoothinq f q r this parameter.
IX Litholoqies: Ss-Sandstone, St-Siltstone, Sh-Shale. Cb-Carbonate, E-Evaporite, C-Coal.
X Y x S a m p l e Type: Blank-Cuttings, C-Core, S-Sidewall C o r e
%x%% Keroqen Type: A.-Amorshous-SapropeIr
H-Herbaceous. U-Woody, C-Coalv/Intrtinite
Ot-Other.
JOB NlJHiER:
GZ60
UELL NOHE: UEB FEDRL 3 NO. 2
THERMAL
GEOCHEM
sAnPLE
NUMBERIXI
PYROLYSIS
DATA
PPM)
KEROGEN
TYPEXIIS
MATURITY
"
"
"
"
"
"
"
"
"
"
"
"
"
"
LITHOLOGYSS
DEPTH
TMAX
T51
OC 53
"_
"_
"_
122
7050- 7100
100Cb
123
7100- 7150
100Cb
124
7150- 7200
100Cb
126
7200- 7250
l00Cb
"_
127
15Sh85Cb
7250- 7300
"_
128
7300- 735030Sh70Cb
___________-___
7334
129
7350- 740030Sh70Cb
130
7400-
7450
131
7450-
7500 l00Ot
7462
132
(
7500- 7550
50Cb
30Sh
""_
100Ot
"_
"_
TOP OF CAMBRIAN
"_
2051
---
"_
"_
"_ "_ "_
"_ "_ "_
""_
"_
"_"
"_
"_
"_"
_""
""_
"_
"_
XH
%W
%C
"TAI
_
"
"
"
3.1
"
"
0.09
"
"
"
3.1
"
"
0.05
"
"
"
3.1
"
"
0.04
"
"
"
3.1
"
"
0.07
"
"
"
3.1
0.08
"
"
"
3.1
"
"
0.14
0.11
"_
"_
"_"
"
"
"
"
___________________
"_""
.................................................................
I Value taken from a 3 term
%R0
0.06
"_"_
"_
"_"
.......................
"_
"_
"_ "_
TOP OF PRE-CAMBRIAN
"_
"
"
"
"
"
"
"
"
"
"
"
"
"
%am
St
smoothing f o r this parameter.
Ix Litholoqicr: Sa-Sandstone, St-Siltstone, Sh-Shale, Cb-Carbonate, E-Evaporite, C-Coal, Ot-Other.
X * % Sample Type: Blank-Cuttinqs, C-Core, S-Sidewall Core
X X X X K e r o s e n Tvpe: Om-~morphous-Saprope1, H-Herbaceous, U-Woody.
C-Coaly/Inertinite
"
"
FIGURE 1
THERMAL MATURITY PROFILE
USING THE THERMAL ALTERATION INDEX (TAI)
Thisfiguredisplays
a thermal m a t u r i t y p r o f i l e f o r t h e w e l l u s i n g t h e
t h e r m a la l t e r a t i o ni n d e x
(TAI). The raw d a t a p l o t d i s p l a y s t h e T A I v a l u e s o f
i n d i v i d u a ls a m p l e sp l o t t e dv e r s u sd e p t h( 1 5 0f o o ti n t e r v a l s ) .W i t h i n
a particul a r i n t e r v a l an "A" i n d i c a t e s one TAI v a l u e s and a "B" i n d i c a t e s two T A I d e t e r TAI value for
m i n a t i o n so ft h e
same v a l u e , e t c .
The "AVG" g i v e st h ea v e r a g e
t h a ti n t e r v a l .
The threeterm movingaverageplotdisplays
a T A I p r o f i l e smoothedby a
t h r e et e r m moving average. The "AVG" g i v e st h ea v e r a g ef o rt h ep a r t i c u l a r
i n t e r v a l . When a samplelacks a TAI v a l u e for i n t e r p r e t a t i o n , a TAI v a l u e i s
t a k e nf r o mt h i s
smoothed curve f o r t h a t sampledepth.
The d e s c r i p t i v et e r m i n o l o g yu s e dt od e f i n et h e r m a lm a t u r i t y ,t h ea s s o c i a t e d
hydrocarbontype,andthenumericalvaluesof
T A I c o r r e s p o n d i n gt ot h i st e r m i nology i s givenbelow.
Associated
TAI Value
Descriptive
Terminology
- 1.7
1.0
1.8
2.2
2.6
3.6
4.2
> 5.0
-
-
-
Immature (1)
2.1
Moderately
Immature
(MI)
2.5
ModeratelyMature (MM)
3.5
Mature (M)
4.1
Very
Mature
(VM)
4.9
S e v e rA
e llyt e r e d
(SA)
Metamorphosed
TAI Value
Hydrocarbon
Type
1.3
1.5
2.2
2.5
3.2
-
-> 3.8
1.5
2.2
2.5
3.2
3.4
Biogenic Gas
Biogenic Gasand
Immature O i l
Immature Heavy O i l
Mature O i l
Mature O i l , Condens a t e and Wet Gas
P e t r o g e n i c Methane
Gas
S e i s m i ct o p sa r e
shown by a d a s h e d l i n e (---I and t h e names a r e i n d i c a t e d
a l o n gt h er i g h t
handmargin.Theexactdepthoftheseismictopsaregivenin
t h eI n t r o d u c t i o n .T o t a lw e l ld e p t h
i s i n d i c a t e d and l a b e l e dw i t ha p p r o p r i a t e
depth.
1
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
JOB NUMBER: ~ 2 6 0
WELL
NAME:
UEB FEDRL 3 NO. 2
INTERVAL
150
300
450
600
750
900
1050
1200
1350
1500
1650
1800
1950
2100
2250
2400
2550
2700
2850
3000
3150
3300
3450
3600
3750
3900
4050
4200
4350
4500
4650
4800
4950
5100
5250
5400
5550
5700
5850
6000
6150
6300
6450
6660
6750
69Q0
MM
Ml
1
115130145160175190110511201135115011651180119512101225124012551270128513001315133013451360137513901"
4051420143514501465148014951510152515401555157015851600161516301645166016751-
aVG
T h l RaU
DaTO
PLOT
I
M
3
2
vn
4
I
5
.. .. ..
. . .
TClI 3 TERM UOVING CIVERCIGE
MM
M
. VM
sfi
OVG
. '
MI
I
SCI
3
2
..
..
.
4
..
..
.
..
..
I
.
.
x
.
I
.
.
,"""""-*"-""""""""""""~
5
Tertiary-
1
"
"
"
~
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
~
~
~
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
~
I
I
I
I
.
a
I
I
I
I
.
2.2
I
I
I
I
1
1
1
1
I
X.
I
I
~
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
~
~
I
I
I
. .. .
. .
I
. a.. ..
.. .
. * ..
.
.. . ..
I
I
I
I
I
I
I
.
..
.a
..
.
..
..
... .
.a .
. .
.. ..CI..
I"""""""a""""""""""""~
I
I
I
I
I
I
I
I
I
. 0.
.. .. A ..
. .. a.
.. &
.
...
..
..
X
.
..
I.
*
I
I"""""I""""""""""""""~
I
2.1
I
I
:
I
I
I
I
2.1
I
2.1
I
2.3
I
I
I
I
3.0
I
I
I
2.3
I
I
2.4
I
I
I
2.5
I"""""""*""""""""""""~
I
2.5
I
I
:
2.5
I
.
..
..
..
.
..
.
.
..
.
.
X.
X.
2.6
2.6
I
I
.
X.
x
1
1
1
1
1
. .
.X
.
.X
1
1
1
1
.X
1
1
.
1
1
X.
X.
X..
.
.
.
.
1
1
1
1
1
1
X
Y
x
.
!"""""""-i"""""""""""-l
1
1
1
1
X
X
.X
. X .
X.
1
I
~
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
~
"
"
"
"
~
:"""""""""-*""""""""""I
~~""~~"~""""""""""""""~~
:
. .
I
3.0
x
1
"_
2
2.
.2
2 Cretaceous
2.2
2.1
2.1
2.1
2.1
2.1
2.1
1
.* .
.. .
. .
. * ..
.
..
. .. ; x .
.
I
1
1
1
1
..
..
.
x.
x.
x.
x.
.
I
I
I
I
x.
x.
2.1
I
a
.
.
I
I
I
I
..
x
x
.
2.1
I
I
a.
I
I"""""""""""""""""""-~
I
a.
I
a.
I
I
I
a.
.
.
2.2
2.1
~~
~
2.1
2.1
2.1
2.1
2.2
2.3
2.3
2.7
3.0
3.0
2.7
. ..
FIGURE 2
I
THERMAL MATURITY PROFILE
I
USING VITRINITE REFLECTANCE
This f i g u r e d i s p l a y s a t h e r m a l m a t u r i t y p r o f i l e f o r t h e w e l l u s i n g v i t r i n i t er e f l e c t a n c e( % R o ) .
Theraw
d a t ap l o td i s p l a y st h e
%Ro v a l u e so fi n d i v i d u a l
s a m p l e sp l o t t e dv e r s u sd e p t h( 1 5 0f o o ti n t e r v a l s ) .W i t h i n
a p a r t i c u l a ri n t e r v a l
an ,IA9 , i n d i c a t e s one %Ro v a l u e , a "B" i n d i c a t e s two
%Ro determinationsofthe
same v a l u e ,e t c .
The "AVG" g i v e st h ea v e r a g e
%Ro v a l u ef o rt h a ti n t e r v a l .
The t h r e e t e r m moving a v e r a g e p l o t d i s p l a y s
a %Ro p r o f i l e smoothedby
t h r e et e r m moving a v e r a g e , The "AVG" g i v e st h ea v e r a g ef o rt h ep a r t i c u l a r
interval.
a
The d e s c r i p t i v et e r m i n o l o g yu s e dt od e f i n et h e r m a lm a t u r i t y ,t h ea s s o c i a t e d
hydrocarbontype,andthenumericalvaluesof
%Ro c o r r e s p o n d i n g t o t h i s t e r m i nology i s givenbelow.
%Ro Value
Descriptive
Terminology
-
0.0
Immature
0.42
(1)
0.43
0.55
Moderately
Immature
(MI)
0.56
0.80
Moderately
Mature
(MM)
0.81 Nature
1.62
(M)
1.63
2.37
Mature
Very
(VM)
4.50
2.38
S e v e r e l y A l t e r e d (SA)
> 4.50
Metamorphosed
-
Associated
%Ro Value
Hydrocarbon
Type
0.30
0.35
- 0.60
-
0.35
0.60
0.80
1.20
-
0.80
1.20
1.50
1.50
- 2.00
> 2.00
Moderatelyimmature
profile under
MM.
Biogenic Gas
Biogenic Gas and
Immature O i l
Immature Heavy O i l
Mature O i l
Nature O i l , Cond e n s a t e and Wet Gas
Condensateand Wet Gas
P e t r o g e n i c MethaneGas
and m o d e r a t e l y m a t u r e a r e p l o t t e d t o g e t h e r
on t h e
S e i s m i ct o p sa r e
shownby
a dashed l i n e (---I
w i t ht h e names a r ei n d i c a t e d .
The e x a c td e p t h o f t h es e i s m i ct o p sa r eg i v e ni nt h eI n t r o d u c t i o n .T o t a lw e l l
depth is i n d i c a t e d and l a b e l e dw i t ha p p r o p r i a t ed e p t h .
FIGURE 2: % R 0 MOTURITY PROFILE
JOB NUMBER: 6260
U E L L NAME: UEB
FEDRL
3 NO. 2
XR0 R a UD a T AP L O T
INTERVAL
I
15130145160175130110511201135115011651180113512101225124012551270128513001315133013451360137513301405142014351450146514801495151015251540155515701585160016151630164516601675163017051720173517501-
150
300
450
600
750
300
1050
1200
1350
1500
1650
1800
1350
2100
2250
2400
2550
2700
2850
3000
3150
3300
3450
3600
3750
3300
4050
4200
4350
4500
4650
4800
4350
5100
5250
5400
5550
5700
5850
6000
6150
6300
6450
66'20
6750
6300
7050
7200
7350
7500
7650
2
AVG
SA
VM
1
0
1-
M
MM
5
3
I
MT
~""_"""""
.. ..
I
I
8
I
I
I
I
.
:
.. ..
.. ..
I
I
I
:
I
I
..
..
I
I
I
..
:
.. ..
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
1
I
..
a .
..a..
.. ..
.. ..
.. .A.
..
:
.. ..
.. ..
..
I""""""-A"""""""""""""""""-,
x .
x .
0 .68
.x.
.x.
a
I
1.35
0.37
I.
I
1.38
I
I
I
A .
1.42
I
i
'
.
.
I
I
I
I
I
1.40 I
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
i
.. .. x xx ..
.. x .
. .x
. x
.x.
.
.x
I
""""-x"""""""""""""""""""-
A .
.
i
i
..
I
n .
i
.x.
0.66
..
.. ..
~""""""""""""""""""""""""~,
0.53
I
;""""""""""""""""""""""""~~
I
0.57
0.89
.
..
.
i
i
i
x .
x .
x .
0.56
:
.a.
.
...
..
i
x .
""-x"""""""""-""""""""""""
I
a .
i
x .
0.58
..
.. ..
.. ..
.x.
:
A .
I""""""""""""""""""""""""-,
I
A .
I
A .
I
5
4
... ...
..x..
0.68
. .
3
AVO
HT
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
I
2
OVERAGE P L O T
SA
.. ..
I
I
..
X R 0 3MOVING
TERM
VM
1
0
4
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
M
MM
I
I
..
. ..
.
x
5
.. ..
..
..
..
x .
x .
x .
*.
x.
x .
1.25
x .
1.37 1. """"""-i"""""""""""""""""1. """"""-x""""""""""""-"""""
... ... xxx
:"-"""""a""""""""-"""""""""
I
I
I
.
.
.
l""""""-y"""""""""""""""""-
I + t t t + t t t t t t + + + + + + + + t + + t t t t t t t t t t t + + + + + + + t t + t t t t t t l Itt+++ttttttttxttttttt+tt++ttt+tttt+t+ttttttt++ttt
0.68
0.68
0.58
0.58
0.57
0.56
0.56
0.57
0.58
0.59
0.63
0.68
0.68
I .01
0.77
0 -66
0.81
0.97
f .17
1.38
1.39
1.40
1.41
1.42
I .34
1.31
1.31
1.37
1.37
1.37
1.37
1.37
1.37
1.37
-"_
-
"
HYDROCARBON
ANALYSES
OF
Cl-C7
A I R SPACE
Cl-C7
GR I
SAMPLE
NUMBER
WELL
BUTANE
15OBUTPROPANE
ETHCINE
METHANE
INTERVAL
C I
(FEET
(PPM)
)
c 2 AN€
(PPM)
(PPM)
(PPM)
(PPM)
(PPM)
C3
IC4
TOTAL
c5-c7
NC4
TOTAL
TOTAL
Cl-C4
(PPM)
(PPM)
GAS
C2-C4
UETNESS
(%)
NORMALIZED
DATPl
""""""""~""~
lC4/
NC4
%%C2-C4
ti
YC5-C7
.....................................................................
6260-001
6260-002
6260-003
G260-004
G260-005
6260-006
6260-007
G260-008
G260-003
G260-010
GZ60-01 I
G260-012
G260-013
G260-014
G260-015
G260-016
6260-017
G260-015
G260-021
GZ60-023
G260-025
G260-027
6260-029
626'd-031
G260-033
6260-035
G260-037
G260-033
G260-041
G260-043
G260-045
G260-047
G260-043
6260-051
6260-053
6260-054
G260-057
GZGO-053
G260-0G1
6260-063
G260-065
6260-867
6260-063
I
25
335- 1010
1050- 1100
1100- 1150
3
1150- 1200
1200- 1250
2
1250- 1300
1300- 1350
1300
3
.
1350- 1400
1400? 1450
1
1450- 1500
1500- 1550
1550- 1600
1600- 1650
1650-. ,1700
1700- 1750
1750- 1800
850
1800- I0
1300- 1950
2000- 2050
2100- 2150
2200- 2250
2300- 2350
2400- 2450
2500- 2550
2600- 2650
2677
2700- 2750
2800- 2850
2300- 2350
3000- 3050
31 00- 3150
3200- 3250
3300- 3350
3400- 3450
3500- 3550
3600- 3650
3650- 3700
38083- 385,Q
3900- 3350
4000- 4050
4100- 4150
42c.3- 42'50
4300- 4350
4400- 4450
IT TOP OF T E R T I A R Y
1
22
3
14
6
1
4
8
5
10
1
3
9
2
0
4
2
0
0
0
0
0
13
4
9
26
I
137
46
7
12
d
1
2
2
6
12
11
I
2
85.3
33.3
54.5
50.0
55.6
76.3
' 6.6
56.5
14.3
33.3
16.7
16.7
18.2
~
~~
63.2
6.0
43.3
. 3.1
25.0
11.1
15.4
15.4
8.7
".
23.3
36.4
25.0
33.3
7.7
15.4
16.0
35.7
60.0
30.0
0.0
33.3
20.0
16.7
16.7
0.0
0.0
6.4
3.4
24.0
16.0
21.4
15.0
20.0
25.0
22.2
20.0
33.3
16.7
0.0
0.0
2.1
0.8
23.7
70.7
70.2
34.4
5.0
fI TOP OF. CRETACEOUS
17
~~
~~~
128
20
6
2
5
5
2
3
1
1
0
I
0
0
0
0
0
6
0
12
6
6
2
1
1
3
4
15
34
43
~
X*
0
1
340
3
7
137
7
73
25
13
138
7
21 7
4849
37
TOP OF PERM I AN
460
14
8 35
391
21
324
11
350
728
18
3 54
3161
2 43
5
1050
3
4
141
136
5
18
1
10
C0
6
1
11
1
22
1
2
2
28
27
47
7
11
11
18
11
7
11
7
1
4
3
8
14
4
11
6
~~
4
4
I
6
2
1
1
28
1
I
12
24
1
1
1
1
4
3
3
2
2
21
1
6
0
0
0
0
0
0
1
28
43
85
13
25
2
21
8
4
5
15
34
46
352
208
176
308
248
4333
0
0
0
0
0
5
4
6
I
2
3
2
0
2
0
0
0
0
1
0
""~"""""~""""""""""""""~"""""~"""""""~"""""""""""""""""""""""""""""-
12
10
11
7
12
8
I
4
.
2
1
0
0
I
425
724
130
257
66
31
36
23
57
83
13
21
34
27
22
2
4
33
20
7
19
4
5
12
3
0
9
11
17
8
6
503
462
372
373
775
3233
257
1063
153
210
20
81
~~
3
13
24
30
15
26
I
1
0
0
3
12
71
97
-.
170
31
84
13.0
45.5
70.6
37.5
0.0
42.3
25.0
25.0
20.0
0.0
0.0
6.5
3.4
34.1
55.1
55.2
12.5
1.7
43
71
48
23
47
72
8
13
18
14
2
21
3
2
2
2
3
2
8.5
15.4
12.3
7.7
6.1
2.2
3.1
1.8
11.3
6.7
16.0
25.3
33.3
15.4
8.3
6.7
20.0
7.7
2
.
0.29
0.23
0.29
0.31
0.44
0.50
6.80
0.45
0.57
0.50
0.38
1.00
0.50
0.43
0.67
--
0.67
68.0
42.9
25.0
50.0
75.0
44.4
60.0
50.0
66.7
100.0
100.0
91.5
95.8
46.3
13.1
13.4
57.4
33.4
80.8
73.3
73.4
.. .
87.1
87.5
35.2
32.2
36.3
73.1
82.7
85.7
58.3
54 .s
64.7
38.6
56.0
54.5
53.3
~
~~
8.2
I.6
7.6'
14.4
11.8
7.2
.5.6
2.2
3.0
1.7
3.3
5.9
3.5
20.4
27.3
11 .a
3.5
4.0
13.6
4.4
11.6
6.3
8.8
5.7
6.9
2.7
4.8
I.9
17.6
11.4
4.8
21.4
18.2
23.5
57.9
40.0
31.8
42.2
'
i
WELL N a n E :
UEB FEDRL 3
TRBLE
N0.2
--
"
C1-C7
I--II
-
"
"
HYDROCARBON ANALYSES
OF A I R
SPACE
Cl-C7
WELL
INTERVAL
( FEET)
GR I
SAMPLE
NUMBER
"_""
~
6260-071
6260-073
G260-075
6260-077
6260-073
6260-081
6260-083
6260-085
G268-087
6260-083
6260-031
G260-033
6260-035
G260-037
6260-033
6260-101
6260-103
G260-105
G260-107
G260-103
G260-111
6260-112
G260-113
GZE.0-114
G260-115
G260-116
G260-117
6260-118
6260-119
G260-120
G260-121
6260-122
G260-123
G260-124
6260-126
6268-127
6260~128
G26CI-129
G260-130
G260-131
G260-132
,"
WETHANE
ETHANE
PROPANE
ONE
Cl
C3
C2
(ppn)
(PPM)
ISOBUT(ppn)
IC4
(PPM)
BUTFINE
TOTAL
NC4
Cl-C4
c5-c7
(PPM)
(PPM)
TOTAL
TOTAL
C2-C4
GAS
UETNESS
IC4/
NC4
[ X )
(p
(P
pm
n ))
......................................
1
1
30
4500-4550
3
1
15
4600-4650
24
1
2
4700-4750
1 28
5
4800-4850
1
I
23
4300-4350
2
2
34
5000-5050
2
1
29
5100-5150
X X TOP OF PENNSYLVANIAN
5156
5
113
44
5200-5250
4 34
7
5300-5350
3 61
17
5400-5450
3
75
13
5500-5550
9
22
261
5600-5650
18
5
161
5700-5750
3
47
380
5800-5850
7
40
4 70
5300- 5350
3
32
260
6008- 6050
3
158
13
6100-6150
2
101
11
6200-6250
2
13
6300-6350
161
1
23
588
6400-6450
1
16
332
6500-6550
I X TOP OF MISSISSIPPIAN
6528
1
3405
21
6550-6600
1
35
6600-6650
1155
1
18
1372
6650-6700
%X TOP OF O R D O V I C I A N
6662
1
374
14
6700-6750
8
1
288
6750-6800
11
2
347
6880-6850
20
2
788
6850-6300
1
31 7
11
6300-6350
3 310
7
6350-7000
17
3
7000-7050
864
13
1
455
7050-7100
6
1
267
7100-7150
1
5
201
7150-7200
1 170
5
7200-7250
1
87
3
7250-7300
4
64
7300-7350
31 80
7334
X X TOP OF CANERIAN
1 ?7
5
1
7350- 74OQ
1
102
5
7400-7458
4
2
7450-7500
93
7462
X i TOP OF PRE-CAMBRIAN
5
1
7588-7550
191
27
65 131
13
9
3
1
1
3
4
4
3
2
1
1
0
0
0
0
0
0
0
0
0
0
0
23
4
0
1
2
1
1
1
0
0
0
0
0
0
250
62
82
95
298
183
440
520
~~
46
20
43
35
8
5
3
236
I81
114
176
612
343
1
0
1
3.9
3.0
3.6
2.7
3.6
3.4
2.4
3.0
2.6
6
0
133
108
1 O0
6
7
4.5
5.6
7.0
0
127
6
4.7
0
1
1
0
0
1
1
2
1
2
2
3
2
1
1
1
8
2
.
2.3
3.4
4.4
2.2
%CZ-C4
%C5-C7
"""""""""-"
3.2
9.8
7.3
3.8
37.8
31.5
67.0
65.2
12.6
10.3
76.5
12.5
71.3
13.4
84.8
3.5 89.5
87.0
85.9
87.8
31.0
96.1
94.9
27.8
25.3
23.1
17.4
34.4
42.6
3.3
17.4
12.0
12.5
11.3
8.5
3.3
4.9
15.6
1.8
1.0
1.0
1.6
0.3
0.6
0.0
0.3
99.3
96.9
38.5
0.6
3.0
1.4
0.0
0.1
0.1
35.4
36.6
35.3
37.0
36,l
36.0
97.3
96.6
97.4
36.6
96.0
94.6
37.6
3.8
3.0
3.6
2.7
3.6
3.4
2.4
3.0
2.6
2.9
3.4
4.3
2.1
0.8
0.3
0.6
0.2
0.3
0.6
0.3
0.4
0.0
0.5
0.6
1.1
0.2
-
34.8
32.7
32.1
4.5
5.5
6.9
0.7
1.8
1.0
-
4.7 34.5
3.00
2.00
-'
%Cl
47.6
36.6
58.5
45.9
5.3
60.5
53.1
7.3
76.3
-
1062.8342.4
28 3.2545.2
21
25.6
203.0021.1
37 2.0012.4
28 4.0014.8
60
13.6
9.6
50
36
23
13
11.4
15
8.5
3.9
24
4.9
17
15
9
13
22
12
11
21
14
7
6
6
4
70
0
0
1
1
6
-
6.3
21 .l
11.1
17.6
8.0
15.0
3.4
383
237
360
810
323
321
885
463
274
207
176
31
3250
0
0
0
0
0
0
0
0
0
0
8
0
1
0
13
24
2
4
3
6
2
6
3
0.6
3.0
1.4
0
0
0
0
0
1
1
0
0
0
0
0
1
1
~~
22
36
13
0
0
0
2
32
13
27
34
25
40
32
3427
1191
1331
0
0
0
3
31
22
14
NORWALIZED DATO
"
"
"
"
"
"
"
"
"
"
"
~~
--1.00
--
3.4
43.2
53.7
34.1
44.3
34.2
37.5
15.8
6.8
. ,
,a
.1
UELL NONE:
1-0
UEB F E D R L 3 N O . 2
Cl-C7
GR I
SRMPLE
NUMBER
UELL
METHANE
ETHANE
PROPANE
ISOBUTBUTANE
TOTAL
INTERVAL
c1
c2
( F E E T ) i P( (P
PP(P
H
P
P
iM
P
)F
ikP
P
)M
i )P
M
)M
))
""""""""""""""""""-""""""""""""""""""""""""""""""""""""""""""""""~
7556
C3
ANE
TABLE
HYDROCARBONANRLYSES
1C4
NC4
c5-c7
O F R I R SPCICE
TOT~L
Cl-C4
((PPPPM
M))
TOTRL'
CI-C7NORMALIZED
GAS
( X )
DATe
"
"
"
"
"
"
"
"
"
"
"
IC4/
WETNESS
CZ-C4
XCl
XCZ-C4
XC5-C7
NC4
X I DEPTH
TOTAL
.....................................................................................
DRL
UEB
UELL NAME:
----"- I - B
TABLE3 N0.2
"
Cl-C7
CUTTINGS GAS
HYDROCARBON
ANALYSES
OF
NORMALIZED DOTII
""""""""""Cl-C7
GR I
SAMPLE
NUMBER
UELL
INTERVfiL
( FEET )
METHANE
ETHONE
PROPONE
c1
c2
(PPII)
(ppn)
C3
CPPM)
ISOBUT- BUTANE
TOTAL
ONE I C 4 NC4
Cl-C4
c5-c7
CPPM) (PPM)
(PPM)
TOTOL
TOTAL
GAS
C PPM )
UETNESS
C2-C4
(PPM)
( E )
IC4/
NC4
ZC2-C4
%Cl
%C5-C7
......................................................................
G260-001
6260-002
G260-003
G260-004
6260-005
G260-006
G260-007
G260-008
6260-009
G260-010
6260-01 1
6260-012
G260-013
G260-014
G260-015
G260-016
G260-017
G260-019
6260-021
6260-023
G260-025
G260-027
G260-029
G260-031
6260-033
6260-035
6260-037
6260-033
G260-041
6260-043
6260-045
G260-047
G260-049
6260-051
G260-053
G260-054
6260-057
G2G0-053
G260-061
G260-963
G260-065
G260-067
G260-069
G260-071
25
995- 1010
1050- 1100
1100-1150
1150-1200
1200-1250
1250-1300
1300-1350
1300
1350-1400
1400-1450
1450-1500
1500-1550
1550-1600
1600-1650
1650-1700
1700-1750
1750-1800
1800-1850
1900-1950
2000-2050
2100-2150
2200-2250
2300-2350
2400-2450
2500-2550
2600-2650
2677
2700-2750
2800-2850
2900-2350
3000-3050
3100-3150
3200-3250
3300-3350
3400-3450
3500-3550
3600-3650
3650-3700
3800- 3850
3900- 3350
4000- 4050
4109- 4159
4200- 4250
4300- 4350
4400- 4450
4500- 4550
X X TOP OF TERTIPlRY
1
94
51
87
4
4
3
89
56
70
~~
66
X 4 TOP
37
69
64
58
101
55
7. c_
70
64
107
70
62
197
3
2
OF
CRETACEOI
3
2
2
2
I
I
1
0
7
63
3
4
14
OF
29
PERMIAN
273
197
265
116
121
125
31
183
.18
l
4
40
12
2
2
I
3
2
4
2
2
2
1
98
63
95
36
63
76
71
4
12
8
7
7
6
5
4.1
19.0
8.4
7.3
11.1
7.9
7.0
1 .OO
1 .OO
0 .OO
1 .OO
I.OO
1 .OO
94.9
77.3
89.7
89.0
86.2
89.7
90.4
'
4.0
18.2
8.2
7.0
10.8
7.7
6.8
1.0
4.5
2.1
4.0
3.1
2.6
2.7
us
3
1
0
1
0
1
1
1
1
2
1
1
1
1
1
1
2
2
1
6
1
2
2
10
0
I
I
1
1
1
1
1
77
..
89
135
563
E 4 TOP
1146
662
977
563
571
725
525
1063
476
33
207
83
25
35
2
1
2
2
2
1
9
3
5
2
18
11
4
15
13
117
88
"
107
57
60
52
97
85
59
2
22
6
1
4 1
4
6
2
2
2
2
I
I
1
1
3
1
2
2
1
1
1
237
152
457
403
26
21
28
16
16
13
3
22
13
1
6
20
1
0
1
32
4J
25
32
1
28
1
I
I
1
16
17
5
18
19
48
34
44
26
28
24
16
35
27
1
3
3
0
0
1
1
0
0
0
1
2
49
211
80
105
73
102
163
77
127
69
10
39
6
5
13
13
18
9
45
72
69
63
105
60
81
75
74
112
77
71
21 I
123
I00
104
188
631
1610
1002
1421
778
796
939
738
1388
633
47
284
105
28
41
55
38
47
28
35
8
'3
5
5
4
5
5
5
10
5
7
9
14
46
37
15
53
~
68
464
340
444
215
225
214
213
325
217
8
77
22
3
3
11
6
3
3
3
17.8
4.2
7.2
7.9
3.8
8.3
6.2
6.7
13.5
4.5
9.1
12.7
6.6
37.4
37.0
14.4
28.2
10.8
28.8
33.9
31.2
~..~
27.6
28.3
22.8
28.9
23.4
31 .3
17.0
.~
.~
27.1
21.0
10.7
7.3
20.0
15.8
6.4
10.7
8.6
1.OO
-
1 .OO
1 .OO
1 .OO
I.OO
1.OO
1 .OO
1 .OO
1 .OO
1 .OO
1 .OO
1 .OO
0.31
0.35
0.40
..
0.33
0.37
~
0.54
0.62
0.64
0.62
0.57
0.54
0.56
0.63
0.48
1 .OO
0.67
0.33
-
0 .OO
2 .OO
--
78.7
94.5
88.9
90.6
94.4
88.7
92.7
90.9
84.2
94.7
89.7
86.1
92.5
44 .a
18..7
34.8
20.9
54.4
62.9
61.2
64 .O.
66.2
63.6
65.8
64.4
70.2
62.5
68.4
64.1
66.4
73.5
82.6
64.7
62.7
67.7
67.6
50.8
17.0
4.1
6.9
7.8
3.7
8.1
6.1
6.5
13.2
4.4
9.0
12.5
6.6
26.7
11.0
5.9
8.2
6.6
~
~~
25.5
31.4
23.1
25.3
25.1
19.4
26.1
21.5
28.5
14.0
23 .a
17.6
8.8
6.5
16.2
11 .a
4.6
8.1
4.8
4.3
1.4
4.2
1.6
1.9
3.2
1.2
2.6
2.6
0.9
1.3
1.4
0.9
28.5
70.3
59.4
70.9
39.0
11.6
7.4
6.9
8.5
11.4
14.8
9.4
8.4
9.1
17.5
12.1
16.0
17.6
10.3
19.1
25.5
27.7
24.3
44.4
..$X,%
. .
i
HELL NOME:
-----"
UEB F E D R L 3 N O . 2
TeELE I - E
Cl-C7
. GR I
SAMPLE
NUMBER
CUTTINGS GAS
"~"~"""_
Cl-C7 NORMALIZED DATA'.
UELL
c2
INTERVAL
(FEET)
TOTAL
METHANE
ETHANE
PROPANE
ISOBUT-.
BUTANE
c1
(PPM)
(PPM)
(PPN)
C3
33
4600-4650
2
3
33
2
6
4700-4750
4800-4850
5 43
3
4
4900-4950
1
66
55
3
5000-5050
10
5100-5150
7 41
3
51 56
X i TOP OF PENNSYLVANIAN
5200-5250
6260-085
301
14
19
5300-5350
6260-087
118
8
3
5400- 5450
6260-083
4 218
20
5500- 5550
8
2
6260-091
143
16
41
768
6260-053
5600- 5650
6260-095
5700- 5750
462
15
6
G260-097
5800- 5850
626
25
6
G260-099
5900- 5950
81177
33
6260-181
1335
79
13
6000-6050
6260-103
1028
9
6100-,6150
40
6260-105
6
6200-6250
29
842
6260-107
6300- 6350
7 94 1
23
6260-109
1870
6400- 6450
50
8
6260-1 11
6500-6550
1211
38
6
6528
* X TOP OF MISSISSIPPIAN
6260-112
6550-6600
41481
52
6260-113
6600-6650
1083
42
6
1108
G260-114
6650-6700
23
3
* X TOP OF O R D O V I C I A N
6662
6260-115 6700- 6750 806 13
3
6260-116
52 98.3 1.00
6'750- 6800
3567
4
10
6260-117 736982
6850
6800112
5732
6260-118'
6900
685018
6260-115
63006950
4165
54
8
6260-120
69507000
3002
47 2
8
6260-121
39 70003502 7050
8
6260-122
70502657
7100
5
41
6260'123
71001532
7150
26
3
6260-124
71502051
7200
35
4
6260-126
44 72002553 7250
5
6260-127
7250- 7300
11
1
537
6260-128
73m0- 7350
598
12
1
7334
X X T O P OF CAMBRIAN
6260-129
7350- 7400
411
9.
1
6260-130
7400- 7450
2 282
7
6260-131
7450- 7500
2 750
15
7462
X i T O P OF PRE-CAMBRIAN
75006260-i 42
33
1555 7550
4
7556
X i TOTAL
DEPTH
6266-073
6260-075
6260-077
6260-079
6260-081
6260-083
I
"
HYDROCARBON
ANALYSES
OF
~~
~~~~
~~
FINE
I C 4 NC4
(PPM)
(PPM)
C5-C7
TOTfiL
c1-c4
( P P( M
PP
) M)
1
0
0
0
0
0
1
0
1
1
1
0
17
10
23
13
19
69
92
46
6
1
11
2
2
1
6
6
A
2
1
2
3
3
2
2
1
2
2
40
41
52
72
TOTAL
C2-C4
GAS
WETNESS
( i o
51
7
8
9
6
14
10
17.5
19.5
17.3
8.3
20.3
13.6
452
141
16
34
46
39
9
5
13
5
3
472
146
245
156
837
489
660
1222
1434
1086
a81
".
981
1931
1257
171
28
27
13
63
27
34
45
39
58
33
40
61
46
36.2
19.2
11.0
8.3
8.2
5.5
5.2
3.7
3
2
2
1539
1140
1142
9
IC4/
NC4
1 .OO
XC1
12.3
15.7
12.0
11.1
7.4
21.6
15.3
27.1
14.3
29.8
19.6
30.7
18.5
32.6
9.8
41 .I
83.5
10.3
75.3
6.8
87.0 5.2 7.8
87.5
5.1
93.6
5.1
3.7
95.9
6.8
92.3
5.3
94.2
4.4
95.2
4.1
95.7
96.7
3.2
36.1
3.7
48.9
49.1
6.1
17.3
5.3
4.4
4.1
3.2
3.7
2 .OO
1.83
2.00
2 .OO
1 .OO
2 .OO
2 .OO
1 .OO
1.33
2.00
1 .OO
1 .OO
'2.00
1 .OO
58
51
34
3.. 8
4.5
3.0
1 .OO
2.00
1 .OO
96.0
95.4
36 .3
3.8
4.5
3.0
0.2
0.2
0.2
24
2.9
1.00
96.9
2.9
0.2
0.1
0.0
6.9
-
0 .OO
0 .OO
0 .OO
-
57.3
64.7
57 .J
81.5
62.5
58.6
%CZ-C4
ZC5-C7
~
~~
~~
7.4
1.3
0.4
0.9
0.5
0.3
0.2
0.1
0.2
~~
1
1.61
2
2
1
2
2
1
1
1
1
0
830 1
58
13625
70681
5866 2
1
2
2
3
1
2
0
2
1.6
51
48
1
1
1
41
1
0
421
231
767
0
17
1
0
4229
3061
3553
2705
1563
2092
261 0
' 543
521
39
1694
86 2.001.2
1.2 38.7
2.3 134 0.0 2.3 37.71.00
64
1.5
1 .OO0.0 1.598.4
59
1.3 98.11.00
0.0
1.4
1.00
98.5
1.8
1 .OO
98.2
31
2.0
1 .OO
98.0
2.0
1.00
98.0
51
2.0
1.00
98.0
97 .8
12
2.2
97.5
13
2.5
1.3
1.4
1.8
2.0
2.0
2.0
2.2
2.5
0.0
0.0
0.1
0.0
0.0
0.0
.0.0
97.6
96 .3
97.7
2.4
3.1
2.2
0.0
0.0
0.1
97.7
2.3
0.0
--
10
9
2.4
3.1
2.2
1.00
2.3
-
-
I
Cl-C7
HYDROCCIRBON
IINCILYSES
OF CIIR SPCICE CIND CUTTINGS GCIS
""_
Cl-C7
GRI
SAMPLE
NUMBER
'
UELL
INTERVCIL
(FEET >
METHCINE
ETHCINE
PROPCINE
Cl
(PPM)
(PPM)
CZ CINE
C3
CPPM)
ISOBUT- BUTCINE
IC4 NC4
(PPM)
(PPM)
(PPM)
.
TOTCIL
c5-c7
GCIS
TOTCIL
TOTCIL
C1-C4
C2-C4
UETNESS
(PPM)
(PPM)
. IC4/
( X )
XCl
NORIICILIZED
DCITII
XCZ-C4
XC5-C7
NC4
...................................................................
G260-001
6260-002
6260-003
G260-004
G260-005
G260-006
6260-007
G260-008
G260-003
G260-010
G260-011
GZ60-012
G260-013
G260-014
G260-015
G260-016
6260-017
6260-019
G260-021
G260-023
6260-025
G260-027
6260-029
6260-031
G260-033
6260-035
G260-037
G260-033
6260-041
6260-043
G260-045
6260-047
6260-043
6260-051
G260-053
6260-054
G2F8-857
GX0-853
G250-061
G260-063
G260-065
G260-067
G260-063
~~~
I
25
335-1010
1050-1100
1100-,1150
1150-1200
1200-1250
1250-1300
1300-1350
1300
1350-1400
1400-1450
1450-1500
1500-1550
1550-1600
1600-1650
1650-1700
1700- 1750
1750- 1860
1800- 1850
1900- 1950
2000- 2050
2100- 2150
2200- 2250
2300- 2350
2400- 2450
2500-2550
2600-2650
2677
2700-2750
2800-2850
2900-2350
3000- 3050
3100- 3150
3200- 3250
3300- 3350
3400- 3450
3500- 3550
3600- 3650
3650- 3700
3800- 3850
3900- 3350
4000- 4050
4100- 41Se
4200- 4250
4300- 4358
4400- 4450
TOP OF TERTI IIRY
3
222
2
2
71
31
33
5
2
97
7
2
2
4
61
5
1
80
4
I
75
X X TOP OF CRETCICEOUS
4
6
54
4
3
75
4
69
3
2
3
63
I
1
107
2
8
67
I
4
82
73
3
1
6
3
68
2
1
122
104
2
3
..
3
7
105
4
13
537
46
14
214
10
38
142
51
227
17
22
352
21
66
24
5412
I
X X TOP O F PERM I FN
128
287
1606
106
232
1053
118
286
1301
64
127
913
71
1293
133
53
179
3886
7
36
98
. 7. 4.
132
83
2113
122
63
617
6
235
3
41
23
225
22
12
143
3
31
49
3
E.6
5
3
60
3
56
43
3
2
XX
4
2
1
1
1
1
1
4
3
I
1
1
1
1
1
0
1
1
~~
1
2
1
1
1
1
1
13
20
27
10
18
2
44
66
90
31
44
32
23
33
20
22
16
10
24
16
3
6
3
0
60
44
55
33
40
32
17
33
0
0
2
1
0
235
109
102
108
34
4
9
6
0
0
1
1
0
0
3
1
1
12
2
5
137
662
876
587
660 152
3
63
88
82
7
83
86
71
111
81
89'
73
73
127
111
117
436
5564
277 50713 21
1464
Ill
1733
141
1157
96
1571
153
4172
252
935
90
2457
148
103
235852
257
37
73
304
40
186
42
37
8
9
54
79
46
33
25
28
,
38
11
8
66
6
4
17
6
3
4
8
73
4
~
~
113
4
17
6
8
5
8 3
4
12
8
8
4
14
6
11
5
7
84
41 1
432
244
272
286
221
344
22
43
6
5
13
5.5
34.9
8.8
10.2
11.6
3.1
8.5
1 .OO
0.67
1 .OO
1 .OO
1 .OO
1 .OO
18.2
1 .OO
3.6
1 .OO
-
13.8
11.3
3.6
17.3
7.3
7.6
13.9
3.3
6.3
10.3
4.6
35.3
48.6
44.3
13.3
2.7
9.00
2.00
1 .OO
1 .OO
1 .OO
1 .OO
1 .OO
1 .OO
1 .OO
1 .OO
0.50
0.30
0.30
0.30
0.32
0.41
24.0
28.1
27.4
21 .I
17.3
0.53
0.66
0.60
0.61
0.55
0.50
0.53
0.62
0.47
0.75
0.67
0.50
6.3
22.2
14.0
27.6
8.6
26.0
23.1
16.2
9.3
16.5
11.8
3.7
3.3
.........................................................
-
0.00
2.00
-
83.2
56.3
86.1
83.6
82.4
87.9
87.2
5.2
30.2
8.3
3.5
10.8
8.8
8.1
5.6
13.5
5.6
75.0
16.7
~.
9.2
86.2
75.0 6.5 18.5
85.1 4.1 10.8
33.0
3.5
15.7
75.3
7.6
83.1
7.2
88.0
13.4
82.9
3.3
95.3
6.3
32.3
88 .2
10.1
94.5
4.6
45.7
25.0
14.3
15.1
14.4
17.6
34.4
8.2
87.0
2.4
8.3
4.6
3.5
9.0
3.3
4.8
3.7
0.8
0.3
1.7
0.3
23.3
70.6
68.0
57.4
10.6
67.2
11.6
~
~
66.3
67.3
72.3
75.1
87.8
71.3
81.1
64.6
79.9
65.4
62.7
68.3
77.8
52.8
53.4
64.4
59.8
6.3
6.8
3.3
4.7
~~~
21.2
26.1
25.4
13.5
15.7
6.5
20.4
13.2
24.6
7.5
23.0
18.3
13.3
7.3
10.4
7.3
6.3
6.1
7.0
7.3
7.7
9.2
5.7
8.3
5.7
10.8
12.6
11.6
18.4
17.8
14.3
~
~~
~
36.8
32.7
28.7
34.1
.
EDRL
UEB
UELL NCIME:
N0.2
3
TCIBLE I - C
-
"
"
CI-C7
"
"
HYDROWRBON CINCILYSES OF CIIR SPCICE RND CUTTINGS GRS
NORMCILIZED DCITC)
""-""""""""
Cl-C7
GR I
SCIPIPLE
N
F R.
..I I M
..R-.
- -
UELL
I NTERVCIL
(~.
FEET >
METHCINE
ETHCINE
PROPANE
CINE C3
c2
c1
(PPM)
(PPPI)
TOTCIL
c5-c7
ISOBUTBUTRNE
IC4 NC4
(PPM)
(PPM)
(PPM)
TOTRL
UETNESS
C2-C4
C1-C4
(PPPI)
(PPPI)
TOTCIL
GAS
( X )
IC4/
NC4
XCl
XC2-C4
XC5-C7
"
"
"
~
"
"
"
"
"
"
"
"
~..................................................
62 4550
45004650
46004750
470071 4850
480083 4350
490083 5050
50005100-5150
5156
445
5200- 5250
G260-085
5300- 5350
G260-087
5400- 5450
G260-083
5500-5550
6260-091
5600-5650
G260-033
5700-5750
6260-035
5800-5850
G260-037
5300-5350
G260-033
6000-6050
6260-101
6100-6150
6260-103
6200-6250
6260-105
1102
6350
63006260-107
6400-6450
G260-103
6500-6550
G260-111
6528
6550-6600
G260-112
2244
66006650
6260-113
2480
66506700
G260-I 14
6662
6700-6750
G260-I 15
6750-6800
G260-I 16
6800-6850
G260-117
6520
68506300
6260-118
63004482
6350
G260-113
63503312
7000
6260-120
7000-7050
6260-121
7050-7100
6260-122
71Q0-7150
6260-123
7150-7200
6260-124
7260-7250
6260-126
7250-7308
C260-127
7300-7350
6260-128
7334
7401,
73F.0G260-123
7400- 74513
GZ60-130
G760-131
74507500
7462
7500-7550
6260-132
G260-071
6260-073
G260-075
G260-077
6260-073
G260-081
G260-083
.
6
8
6
48
57
12
9 70
X i TOP OF
152
273
218
1023
623
1006
1647
' 1595
1186
8 343
3
3
3
8
5
5
4
'
2
0
2
0
1
0
0
0
2
0
0
1
157
24
63
5
25
3
3
3
2
2
53
I 2
40
42
3
73
3
2458
71543
54
i f TOP OF PIISSISSIPPICIN
73
5
4886
7
77
4
47
X i TOP OF ORDOVICICIN
4
1180
33
5
60
3855
84
12
7323
2 20
132
3
65
2 11
54
56
11
4366
54
6
31 12
32
4
1733
40
5
2252
43
6
2723
0
14
2
624
1
76
5
3688
X i 7 O P O F CMIBRICIN
0
14
2
538
3
12
384
4
13
84 3
X X TOP OF PRE-CCIMBRICIN
51776
38
1
0
-
277
56
48
33
106
8.1 55
34
95
135
81
..
5.2 52
55
3.3 85
38.4
26.9
14.7
13.1
3.3
63
3.9
2.28
2.40
3.00
2.50
1.25
2.67
2.50
1.33
1.67
2.33
1.00
1.00
2.00
1.00
49.2
43.0
62.0
52.2
74.8
58.6
64.8
4.0
11.2
12.0
11.0
6.7
13.2
12.0
46.8
33.8
26.1
36.8
18.5
28.3
23.1
34.1
38.5
79.3
71.5
84.1
82.8
30.1
34.0
91.4
33.0
34.4
95.0
96.6
35.8
21.2
14.2
13.6
10.8
8.7
7.3
8.4
5.4
7.7
6.4
5.2
4.7
3.3
3.9
44.7
47.3
7.1
17.7
7.3
3.8
1.5
0.6
0.3
0.6
0.4
0.3
0.1
0.2
0.1
0.1
0.2
~~~~
~
~
~~
1
I
4
722
208
327
251
1135
678
1100
1742
1730
1267
935
I157
2543
1606
I
I
I
1
4
3
4
4366
2331
2533
80
87
53
1.6
3.7
2.1
1.00
2.00
1 .OO
38.3
36.1
37 .8
1.6
3.7
2.1
I
I
I
5
3
5
3
3
2
4
3
1219
3322
7428
6676
4558
3382
4438
3174
1837
2233
2786
640
3771
33
67
3.2
1.7
1.3
2.3
1.00
1.00
2.00
1.00
1.00
I.50
1.50
1.00
I.OO
1.00
1.00
36.4 0.4
98.2 0.1
98.6 0.1
97.6 0.0
38.3
37.9
38.3
38.0 0.1
97.9
97.3 0.1
37.9
97.3
97.6
3.2
1.7
1.3
2.3
1.7
2.1
'1.6
2.0
2.1
2.0
2.0
2.5
2.2
36.9
35.8
97.0
3.7
2.8
0.2
0.5
0.2
97.5
2.5
0.1
3
21
63
I
I
-
7.5
5
67
18.6 11
53 1.00
11
16.2
68
17.415
86 0.00
8 0.00 8.2
37
18.320
103 2.00
83
13
15.7
59
39
24
50
22
43
25
5
10
8
5
4
5
7
2
2
2
2
I
1
I
2
2
1
3
3
1
1
1
1
0
10
1
2
8
3
2
1
1
2
1
I
I
1
1
0
0
1
0
0
1
1
583
187
25
54
83
74
17
10
16
8
4
3
2
1
2
1
~
39
~~
156
1.7
76
70
72
2.0
62
2.138
47
57
16
2.2
83
3.8
2.8
16
15
24
1.00 2.5
1821
45
554
333
867
8.5
5.5
7.8
6.4
..
4.8
2.1
1.6
2.0
2.0
2.5
~~
~
-
1.00
2.3
-
'
2.3
0.1
0.1
0.1
0.1
0.0
0.2
0.2
UELL NAME:
---"_ -
W E B FEDRL 3 N0.2
TABLE I-C
"
Cl-C7 HYDROCARBON
ANALYSES
t
O F AIR SPOCE
OND
CUTTINGS
GAS
Cl-C7
GR I
SOMPLE
NUMBER
UELL
INTERVAL
(FEET )
METHANE
ETHANE
PROPANE
ISOBUTBUTANE
TOTAL
C3
Cl
C2
(PPM)
(PPM)
(PPM)
(PPM)
(PPM)
(PPM)
(PPM)
(PPM)
ONE I C 4
NC4
c5-c7
"""_"
GAS
TOTAL
TOTAL
Cl-C4
IC4/
WETNESS
CZ-C4
%)
XCl
NORMfiLIZED
XCZ-C4
%C5-C7
NC4
..................................................................
7556
X X DEPTH
TOTAL
.
.......................................................
DOTa
FEDRL
UEB
NAME:
WELL
11
TABLE
3 N0.2
SUMMORY O F ORGANIC
CARBON
OND
VISUOL KEROGEN ANALYSIS
VISUAL KEROGEN
"--"""""""""""""""""-
PERCENT
PERCENT
SAMPLEINTERVAL
UELL
ALTEROTIDN
INDEX,
MATTER
ORGANIC
TOTAL
ORGANIC
i FEET )
TYPECARBON
CQRBON
NUMBER
GR I
25
I
G260-002
6260-003
G260-004
6260-005
G260-006
G260-007
G260-008
6260-009
G260-010
G260-011
~ . .
G260-012
G260-013
G260-014
G260-015
G260-016
G260-017
G260-019
G260-021
G260-023
G260-025
6260-027
G260-029
G260-031
G260-033
6260-035
G260-037
G260-039
G260-84 1
G260-043
G260-945
6260-647
C260-049
-
1050
1100
1100
1150
1150"1200
1200
1250
1250
1300
1300
1350
1300
1350
1400
1400
1450
1450
1500
1500
1550
1550
1600
1600
1650
1650
1700
1700
1750
1800
1750
1800
1850
1900
1950
2000
2050
2100
2150
2200
2250
2300
2350
2400
2450
2500
2550
2600
2650
2677
2750
7700
2800
2850
2900
2950
3000
30S0
3100
3150
3200
3250
3300
3350
3400
3450
-
-
-
-
-
TOP OF TERTIARY
0.05
0.03
0.041
0.04R
0.03
0.05
0.05
% X TOP OF CRETACEOUS
0.05
0.041 0.04R
0.03
0.04
0.02
0.02
0.02
0.11
0.16
0.131 0.12R
0.11
0.08
0.18
0.19
0.10
0.08
0.95
I.281 I .27R
X X TOP O F PERMIFIN
0.29
0.30
X*
T A I (1-5
( X )
--
-
-
-
-
--
0.25
e.23
0.251
0.22
0.38
0.24
0.25R
-
-
Am( 50 )U( 2 5 )W( 25
Am( 40 )H( 40
)U( 2 0
SCOLE)
UELL NAME: WEB FEDRL
3
TABLE I 1
N0.2
SUMMARY O F ORGONIC CORBON AND VISUOL KEROGEN ONRLYSIS
VISUOL KEROGEN
-
RRT
_..
PERCENT
SAMPLE
UELL INTERVAL
NUMBER
(FEET )
6260-051
G260-053
G260-054
G260-063
6260-065
6260-067
6260-069
G260-071
6260-073
G260-075
G260-077
6260-079
GZ60-081
6260-083
6260-085
G260-087
6260-083
G260-031
G260-033
G260-095
6260-097
G260-033
G260-101
G260-103
G260-105
6260-107
G260109
GXQ-111
3500
3600
3650
41 00
4200
4300
4400
4500
4600
4700
4800
4300
5000
51 0 0
6500
6550
6600
6650
6662
6260-115
-
-
3550
3650
3700
4150
4250
4350
4450
4550
4650
4750
4850
4350
5050
5150
51 56
5200 - 5250
5300 - 5350
5400 - 5450
5500 - 5550
5600 - 5650
5700 - 5750
5800 - 5850
5300 - 5350
6000 - 6050
6100 - 6150
6200 - 6250
6300 - 6350
6400 - 6450
6528
G260-112
6260-113
G260-114
-
6700
-
-
6550
6600
6650
6700
6750
.PERCENT
~~
~~~
~
ORGANIC
CORBON
~
~~
TOTOL
CARBON
-
8.20
0.13
0.16
0.11
0.09
0.04
0.04
-0.041 0.06R
0.04
0.04
0.06
0.04
0.05
0.11
X i TOP OF PENNSYLVANIAN
0.29
0.101 0.11R
0.43
0.15~ 0.15R
0.23
0.21
0.39
0.371 0.37R
0.40
0.14
0.22
0.12
0.23
.0.42
X X TOP OF MISSISSIPPION
0.71
0.84; 0.85R
0.14
X % TOP O F ORDOVICIAN
0.26
-
--
--
ORGANIC MOTTER
TYPE ( X )
ALTERATION INDEX,
T A I ( 1-5 SCOLE)
FEDRL
WEB
NAME:
WELL
TABLE I 1
3 N0.2
SUMMARY O F ORGANIC
CClRBON
AND
VISUAL KEROGEN ANALYSIS
VISUAL KEROGEN
GR I
SClMPLE
WELL
NUMBER
'
G260-116
G260-117
G260-118
6260-1
6300
13
G260-120
G260-121
6260-122
G260-123
G268-124
G260-126
G260-127
G260-128
6260-123
7350
G260-130
_"
PERCENT
PERCENT
ORGCINIC
INTERVAL
TYPE
CClRBON
CARBON
( FEET )
- 6800
- 6850
- 6300
- 6350
6350 - 7000
7000 - 7050
7050 - 7100
0.06
7100 - 7150
7150 - 7200
0.05
6750
6800
6890
7200
7250
73Q0
7334
7460
7462
7556
- 7250
- 0.07
7300
- 7350
-- 7400
7450
1
0.22
0.30
0.21
0.03
0.03
0.071
0.03
0.04
0.08
0.0SR
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
~
TOTAL
ORGClNIC
MATTER
( X
'
----
-
-
z x TOP O F CAMBRIAN
0.14
0.11;
0.11R
x x TOP O F PRE-CClMBRIClN
%x. TOTClL
DEPTH
"""""~""""~""""""""~"""""""""~""""""""---------
)
ALTERATION
INDEX.
TClI ( 1-5 SCfiLE)
--
3.0
3.0
3.0
3.1
3.1
3.1
3.1
3.1
3.1
3.1
3.1
FEDRL
UELL
WEB
NaME:
-- --
3 N0.2
TABLE V I
"
"
VITRINITE REFLECTaNCE SUMMClRY
GRI
OF
SAMPLE
NUMBER
DEPTH
1. FEET )
M
MAX
EAN1 MUM
MINIMUM
REFLECTANCE
REFLECTANCE
REFLECTANCE
DEV..
STD.
( X R0)
( X R0)
RECIDINGS
.- ..--..
"""""""""~"""""""~~~""""""""""""-"""""""""""""----
NllMRFR
,
0.50
~
25
1300
2000-2050
G260-021
2500-2550
6260-031
2677 '
G260-037
14
2850 28006260-043 3150 3100G260-049
3450
34000.68
3650G260-054 3700
4300G260-067 43501.35
G260-073 4650 46006260-079
4950
49005156
G260-085
5250
52006260-091
5550
55005800G260-0975850
G260-103
6150
6100G260-103
6450
64006550
65006260-1 11
6528
6662
7334
7462
7556
-
X X TOP OF TERTIARY
CRETACEOUS
X XOFTOP
0.66
3 '
0.50
16
Y X TOP
OF
PERMIAN
0.040 11
0.57
0.51
0.64
13
0.55
0.72
0.64
2
1.35
1.35
1
0.83
0.83
1
0.66
0.66
1
xx TOP OF PENNSYLWNIAN
0.86
3
1.38
1.28
8
6
1.25
1 .14
6
1.17
5
3
1.31
TOP
OF
MISSISSIPPIAN
XY
OFTOP
ORDOVlCIFlN
X I TOP OF CFIMBRIAN
X Y TOP O F PRE-CAMBRIAN
DEPTH
X I TOTAL
YY
"""""""~""""""""""""""""""""""""""-""""-----
( X R0)
0.69
0.65
0.68
0.58
0.043
0.64
0.63
0.56
( X R0)
0.015
0.056
---
0.59
0.023
0.89
0.66
1.09
1.45
1.53
0.170
1.58
0.068
1.34
1.45
0.97
1.40
1.42
1.25
1.37
.
0.116
0.063
0.103
0.071
UELL NaME:
WEB
FEDRL
- -"
"
RESULT5
GR I
SAMPLE
NUMBER
'
6260-002
G260-003
6260-004
G260-005
6260-006
6260-007
G260-008
6260-009
G26Q-010
6260-01 1
G260-012
G260-013
G260-014
6260-015
G260-016
6260-017
6260-013
6260-021
G260-023
6260-025
6260-027
6260-025
6260-631
6260-033
6260-035
6260-037
6260-039
6260-041
G260-043
6260-045
6260-047
6260-049
G260-651
G260-053
6260-054
6260-063
G2tQ-065
G260-067
G260-869
G260-071
G260-073
6260-075
6268-077
PERCENT
ORGAN I C
CARBON
UELL
INTERVAL
(FEET )
25
1050
1100
1150
1200
0.011250
1300
1300
1350
1400
0.011450
0.021500
1550
1600
1650
1700
1750
1800
1900
2000
2100
2200
2300
2400
2500
2600
2677
0.032700
2800
2300
3000
3100
3200
3300
3400
3500
3600
3650
0.044100
4200
4300
4400
4500
460Q
4700
4860
-
-
-
-
-
-
-
-
OF
si
(pIG/G)
TOP OF TERTIARY
0.02
0.05
0.01
0.03
'
0.04) 0.02
0.04R
0.03
0.02
0.05
0.05
0.04
XX T O P OF CRETACEOUS
0 .05.
0.03
0.041 0.04R
0.04
0.03
0.04
0.01
0.02
0.02
0.01
0.02
.QO
0'.02
0.11
0.16
0.01
0.01
0.13;
0.12R
0.02
0.11
0.08
0.02
0.18
0.02
0.19
0.02
0.10
0.01
0.08
0.01
0.95
0.05
1.28s 1.27R
0.03
X X TOP OF PERMIAN
0.23
B .30
0.03
0.25
0.04
0.23
0.04
0.251
0.25R
0.04
0.22
0.02
0.38
0.02
0.24
0.04
0.20
0.02
0.06
0.13
0.16
0.06
0.11
0.03
0.03
8.84
0.02
0.03
0.04
0.04;
0.06R
0 .@2
0.01
0.04
0.04
6.82
0.06
0.01
(
ROCK-EVCIL PYROLYSIS
52
KG/G>
s3
(HG/G)
SltS2
(MG/G)
UYDROGEN OXYGEN
INDEX
INDEX
S1/!31+52
Tnnx
(C>
'
XX
1100
1150
1200
1250
1300
1350
1400
1450
1500
1550
1600
1650
0
170Q
1750
1800
1850
1350
2050
2150
2250
2350
2450
2550
2650
-- 2750
- 2850
- 2950
- 3050
- 3150
-
"_
TABLE V I 1
3 N0.2
3250
3350
3450
3550
3650
3700
4150
4250
4350
4450
4558
4G50
4750
4550
0.01
0.00
0 .OO
0 .O1
0 .OO
0.06
0.15
0.13
0.10
0.11
0.12
0.13
0.03
0.01
0.02
0.03
0.01
0.10
0.04
0.06
0.00
0.00
0 .OO
0 .OO
0 .OO
0.00
0.02
0 .OO
0.02
0.01
0.07
0.10
0.02
0.01
0.56
0.85
0.11
0.13
0.15
0.14
0.10
0.12
0.16
0.10
0.03'
0.08
0.12
0.18
0.13
0.15
0.07
Q.10
0.13
0.23
0.07
Q.10
0.01
0.02
0.01
0 .O1
0.00
0.02
0.03
0 .O1
0.04
0.03
0.09
0.12
0.03
0 .QZ
0.61
0.88
0.13
0.13
0.15
0.10
0.15
0.07
0.15
0.13
0.03
0.21
0.13
0.07
'0.82
6.@1
0.01
0 .OO
6 .QO
0.00
0.6Q
0.21
0.24
0.21
0.21
0.21
0.20
0.29
0.13
0.22
0.26
0.22
0.36
Q.25
0.22
0.31
0.20
Q.18
0.21
0.25
0.22
0.16
0.13
0.14
0.19
0.03
0.17
0.17
0.11
0.27
0.19
0.11
0.05
0.03
0.04
0.02
0.01
0.02
0.. 0 1
20
0
0
33
0
120
80
150
0
0
0
0
0
0
12
0
18
12
39
53
20
12
59
66
66
~43
60
43
60
32
300
433
250
367
248
260
0.67
1 .OO
1 .OO
0.67
1 .OO
0.40
444
190
172
226
308
248
220
325
500
350
500
600
500
31
56
62
109
225
72
73
70
125
20
23
0.43
0.40
1 .OO
1 .OO
1 .OO
1 .OO
248
275
226
226
308
226
338
322
263
263
445
306
33
72
80
84
91
84
31
76
54
45
162
81
64
22
25
25
0
0
0
0
110
200
137
327
278
550
775
500
450
525
417
79
-
1 .OO
0.33
1.OO
0.50
0.67
0.22
0.17
0.33
0.50
0.08
0.03
0.14
0.19
0.21
0.29
0.21
0.22
0.12
0.24
0.18
0.22
0.32
0.36
0.60
0.67
0.75
I .OO
I .OO
1 .OO
1 .OO
336
371
301
275
449
447
452
452
448
400
403
358
333
358
427
370
358
313
272
246
247
356
220
224
274
UELL NaHE:
WEB
"_
TCIBLE VI1
FEDRL 3 NO.2
"
RESULTS OF ROCK-EVCIL PYROLYSIS
~
I
SAMPLE
GR1
NUMBER
(FEET
,
INTERVOL
WELL
)
PERCENT
ORGCINlC
CARBON
51
(MG/G>
52
53
s1+s2 OXYGEN
HYDROGEN
TMfiX
INDEX
INDEX
(M
(M
(GM
G
/ GG
/G
)/ G
))
Sl/Sl+St
(C>
............................................................
~
G260-073
G260-081
6260-083
5100
G260-0850.01
0.03 5200
0.20
6260-087
6260-089
5400
G260-091
5500
450
0
0.18
0 4900
0.020.04
- 4950
.OO0 . 0 2
.OO
0 . 00 . 1 9
00.00
5000
5050
0.05
0.11
0 . 0 .42 0 0 . 2 1 0 . 1 6
- 5150
5156
X I TOP OF PENNSYLVANIAN
0.02
0.29
5250
02. 109. 000. 0 2. 0l l.R
10)
5300 0 . 05350
0.07
0.22
0.04
0.03
- 05. 4435 0
0.00
0.P5; 0.iSR
0.17
0.00
5550
X * TOP OF HISSISSIPPICIN
6528
X X TOP OF ORDOVICIAN
6662
X X TOP O F CAI'lBRICIN
7334
X I TOP OF PRE-CCIMBRIAN
7462
X t TOTCIL DEPTH
7556
-
380
191
400
-
224
210
0.20
1 .OO
-
0
145
356
0.00
3
0
90 . 4 3
69
0.67
395
130
51
1 .OO
266
0
113
-
442