No.

advertisement
New
GETTY
Mexico Bureau of Mines and Mineral
Open File ReportNo. OF-209
Resources
HYDROCARBON SOURCE-ROCK EVALUATION STUDY,
OIL CO. NO. 1 WEST ELEPHANT BUTTE. FEDERAL WELL
SIERRA COUNTY, NEW MEXICO
by Douglas A. Muckelroy, Rudolf R. Schwarzer,
and Thomas J. Stiff, Jr.
GeoChem Laboratories, Inc.
. Houston, Texas
April 8, 1983
..-
G € T Y Q l C Cq\@d)!
WESTELEY-JANTBUTTE
FEDERAL 7 NO.
LOCATION:
SEC. 7 , T l Z S ,
1
R4W
SIERRA COUNTY, NEW MEXICO
Prepared
for
GETTY OIL COMPANY
M i d l a n d ,T e x a s
CONFIDENTIAL
FEBRUARY, 1983
1143-C BRITTMORE ROAD, HOUSTON, TEXAS 77043
COMPANY PROPRIETARY
New
GETTY
Mexico Bureau of Mines and Mineral
Open File Report No. OF-209
Resources
HYDROCARBON SOURCE-ROCK EVALUATION STUDY,
OIL CO. NO. 1 WEST ELEPHANT BUTTE FEDERAL
SIERRA COUNTY, NEW MEXICO
by Douglas A. Muckelroy, Rudolf R. Schwarzer,
and Thomas J. Stiff, Jr.
GeoChem Laboratories, Inc.
Houston, Texas
April 8, 1983
WELL
WEST
ELEPHANT
BUTTE FEDERAL 7 NO. 1
SIERRA COUNTY, NEW MEXICO
'TARLE I-A
Cl-CI HYDROCARBON ANALYSES OF AIB SPACE
GeoChem
Total Total Total
Butane
Isobutane
Propane
Ethane
Methane
Well
c2
c1
PPM
Number
Interval*
Gas
Sample
G259-001
G259-002
G259-003
G259-004
G259-005
G259-006
G259-007
G259-008
G259-009
G259-010
G259-011.
G259-012
G259-013
G259-014
G259-015
G259-016
G259-019
0259-020
G259-022
G259-024
G259-026
G259-028
G259-029
G259-031
G259-033
G259-035
G259-037
G259-039
G259-041
G259-043
G259-045
G259-047
G259-049
G259-05 1
G259-053
G259-055
G259-057
0259-059
G259-06 1
G259-063
G259-065
G259-067
G259-069
G259-071
G259-073
G259-075
G25Y-077
(3259-079
~~"
~
I:
I
1060-1100
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
1950-2000
2000 -2050
2100-2150
2200 -2250
~.
2300 -2350
2376-2400
2400 -2450
2500-2550
$00 -2650
2700-2750
2800 -2850
2900-2950
3000 -3050
.~
3100 -3150
3200 -3250
3300-3350
3400 -3450
3500 -3550
3600 -3650
3700-3750
3800-3850
3900-3950
4000 -4050
4100 -4150
4200 -4250
4300 -4350
4400 -4450
4500 -4550
4600 -4550
4700 -4750
4800 -4850
4900 -4950
~
1.2
16.9
40.1
20.7
47.7
142.8
33.7
21.6
51.9
53.0
15.7
7.8
20.5
62.6
45.6
81.8
34.6
34.6
27.1
11.3
35.4
10.8
2u .8
122.1
70.7
87.4
73.4
73.3
67.8
39.4
26.5
14.0
24.9
75.8
44.4
25.9
32.2
137.4
153.8
144.4
134.5
134 .O
240.9
99.4
61.3
175.0
197.6
133.8
PI"
0.7
42 .8
10.3
6.1
12.1
26 .O
7.1
3.7
0.2
4.1
2.4
0 .o
1.8
"1.4
1.3
2.2
0.3
2.6
2.2
0.7
3.3
0.5
4.9
37.9
11.6
19.4
16.5
15.4
21.1
5.1
2.1
0.5
0 .I
3.9
1.6
2 .o
0.9
3.5
3.1
4 .o
2.4
3.7
15.4
8.1
8.9
13 .O
22.1
11.5
c3
PPM
0.4
1.2
7.4
10.5
9.2
16.0
iC4
PPM
0.2
0.9
1.9
1.2
nC4
PPEl
C5-C7
PPN
C144
P PM
0.3
2.1
0.4
9.5
14.8
8.8
6 .7
14.8
8.1
3.9
5.7
4 .o
5.2
0.2
1.8
1.4
1.2
4 .o
3.2
1.4
4.1
2.9
64.1
63.7
40.8
74.1
195.5
52.9
33.8
77.1
60.2
23.0
8.1
26.1
66.4
48.9
86 .B
35.9
39.3
35 .8
14.9
41.9
11.9
33.3
175.2
94.4
119.7
100.1
Y8.7
100.1
48.4
32.3
15.4
27.9
83.9
52.7
35.4
39.6
148.3
161.2
152.7
143.6
151.5
270.8
115.9
80.1
198.2
241.8
157.5
3.8
4.1
1.3
0.6
1.4
2.1
2.8
6.3
1.9
0 .8
1.7
0 .I
0.4
0.6
0.1
0.2
0.1
0.3
0.1
0.2
0.3
0 .o
0.2
0.9
020
0.1
0.2
0.1
0.6
0.3
0.4
0.6
0.1
0.6
0.2
0.0
0.2
2.6
11.8
9.6
9.4
7.1
6.6
8.6
2.3
3.2
0.2
2.1
3.8
6 .O
7.1
5.6
4.2
2.0
2,7
5.3
11.3
9.9
5.9
5.9
7.1
12.3
7.9
02
0.6
2.5
1.7
2.7
2.3
2.4
1.8
8.8
6.8
13.8
1.8
3.1
0.1
3.5
1.9
1.6
1.8
0.4
1.4
5.4
2.6
2.2
2.0
0 .o
0.8
0.b
0.7
0.6
0.7
0 .I
0.4
0.1
0.1
0.1
0.2
0.2
0.2
0.4
1.8
1.3
0.8
0.9
1.
I
2.8
1.5
1.8
1.8
7.1
2.7
1.1
0.2
0.4
0 .o
0.0
0.2
0.1
0.2
1.3
0.8
0.6
0.4
0.6
1.6
0.8
1 .o
1.2
2.5
1.4
1 .o
3.2
5.9
4.6
10.6
8.2
7.9
9.1
10.1
9 .O
6.1
1.8
16.0
1.1
0.6
2.1
0.9
1 .a
0.8
0.9
0.7
0.8
0.8
1 .o
0.6
0 -5
0.7
3.2
1.9
C2-C4
PI"
1 .I
47.2
23.5
20 .o
26.3
52.6
19.2
12.1
25.2
7.2
7.2
0.3
5.6
3.8
3.3
5.0
1.3
4.7
8.6
3.6
6.5
1.1
8.4
53.1
23.7
32.2
26.6
25.3
32.3
9 .O
5.8
1.4
3 .O
8.1
8.2
9.5
7.U
10.9
7.0
8.2
9.1
17.4
29.9
16.4
18.8
23.2
44.2
23.6
Wetness
%
iC4lnC4
58.6
73.6
36.9
49.1
35.5
26.9
36.3
35.8
32.7
11.9
31.5
0.77
0.44
0.50
0.60
0.12
0.65
0.70
0.77
0.81
1.56
3.7
0.55
0.90
1.13
1.03
0.57
0.37
0.63
0 .55
0.60
0.36
0.32
0.38
0.32
0.37
02 6
0 .28
0.30
0.39
0.38
0.69
0.39
2.06
3.98
1.29
2.46
1.89
1.35
1.56
1.29
2.06
2.73
1.71
1.74
1.71
1.48
2.83
1.93
21.4
5.8
6.8
5.8
3.6
12.0
24.2
24.2
15.6
9.4
25.4
30.3
25.1
27.0
26 .I
25 .
I
32.3
18.7
18.1
9.2
10.9
9.7
15.7
26.9
18.7
7.4
4.6
5.4
6.4
11.5
11.1
14.2
23.5
11.7
18.3
15.0
0.70
I
WEST ELEPHANT BUTTE FEDERAL 7 NO. 1
SIERRACOUNTY, NEW MEXICO
GeoChem
Sample
Number
G259-08 1
G259-083
G259-085
G259-087
G259-089
G259-091
G259-093
G259-095
G259-097
G259-099
G259-101
C259-103
G259-104
G259-105
G259-106
G259-107
G259-108
G259-109
G259-111
G259-112
G259-113
C259-114
G259-115
G259-116
G259-117
G259-118
G259-119
G259-120
G259-122
G259-123
G259-124
G259-125
TABLE I - A
Cl-C7 HYDROCARBON ANALYSES OF A I R SPACE
Total Total
Butane
Isobutane
Propane
Ethane
Methane
c2
Cl
Well
PPM PPM PPM
I n t e r v a l *PPM
5000-5050
5100 -5150
5200-5250
5300 -5350
5400 -5450
5500 -5550
5600-5650
5700 -5750
5800 -5850
5530 -5950
6000 -6050
6100 -6150
6150 -6200
6200 -6250
6250-6300
6300 -6350
6350 -6400
6400-6450
6500 -6550
6550 -6600
6600-6650
6650 -6100
6100-6750
6750-6800
6800 -6850
6850 -6900
6900-6950
6950 -7000
7050 -7100
.
7100 -7150
7150 -7200
7200 -1215
"~~
100.9
125.1
212.0
141.4
248.5
287.1
153.0
183.8
308.9
225.7
337.5
5813.7
1642.9
475.9
420.9
975 .o
405.4
329 .O
874.4
123.2
876.7
257.4
65.0
74.1
62.9
83.9
39.9
107.1
64.8
131.2
175.0
170.11
7.0
5.6
5.0
7.5
5.0
4.6
3.7
4.8
0.1
8.8
7.7
c3
PPM
6.7
8.0
3.6
8 .O
4.5
4.8
4.8
2.2
~
~~
i C4
nC4
PPM
2.6
2.5
1.9
1 .o
0.5
0.3
0.2
1 .o
0.8
0.6
0 .I
0.4
0.2
0.2
0.1
1.8
1.2
3 .O
3.8
5.1
5.9
2.u
2.6
13.9
1.2
0.8
1.9
1 .6
1.4
3.5
0.0
6.3
22.6
21.5
7.7
6.3
15 .2
6.6
5.6
7.9
85.7
1.1
4.0
1.1
1.1
0.7
1.2'
0.7
C5-C7
0 .o
0.4
0 .o
0 .o
0.0
0.7
0.7
2.9
0.1
0.6
1.2
2.5
0.7
4.4
1.9
0.2
1.4
1.8
2.8
1.2
1.4
2.4
00.1
-7
0.2
0.1
0.4
0.1
~~
0.0
0 .o
0.3
0.1
0.1
0.1
0.3
0.3
02
1.2
0.0
0 .o
0 .o
0 .o
0.1
0 .o
0 .o
0.2
0.1
0.1
0.3
0.0
0.4
0.1
0.4
0.2
0 .o
0.8
0.1
0 .o
0 .o
0 .o
0.4
0.1
0 .o
0 .I
0.6
214.4
3.8
2.0
1.1
4.5
0.5
0.9
0.7
1.4
0.5
1.2
0.2
2.3
Cl-C4
PPM
118.4
142.7
223 -3
158.8
259.1
297.2
162.2
191.2
322.2
235.8
345.5
5838.2
1666.0
484.2
427.8
991.4
412.9
338.0
883.2
211.3
886.8
262.6
72.0
77.4
63.9
87.2
42.8
111.9
67.8
136.0
182.7
176.7
PPM values expressed as volumes of gas per m i l l i o n volumes of c u t t i n g s
Total
C2-C4
PPM
Gas
Wetness
17.5
17.0
11.3
11.3
10.5
10.1
9.1
7.3
13.2
10.0
7.9
24.4
23.0
8.3
6.8
16.3
7.4
9.0
8.8
88.1
10.1
5.2
6.9
3.2
1 .o
14.8
12.0
5.1
11.0
4.1
3.4
5.6
3.9
4.1
4.3
2.3
0.4
1.4
%
1 .I
1 .6
1.7
1.8
2.7
1 .o
41.7
1.1
2 .o
9.7
4.2
1.6
3.3
3.8
2.9
4.8
3 .O
4.7
7.7
6.3
6.9
4.3
4.4
3.5
4.2
3.6
iC4/nC4
2.59
3.06
2.81
1.34
1.22
1.32
1.20
1.14
0.98
1.08
1.18
1.38
0.86
1.28
1.51
1.71
1.50
1.94
1.18
1.98
4.11
3.18
11.76
0.79
0.00
0.86
0.81
1.73
0.10
1.79
0.49
1.25
WEST
ELEPHANT
TABLE I-B
BUTTE FEDERAL 7 NO. 1
SIERRA COUNTY, NEW MEXICO
GeoChem
Sample
Number
0259-00 1
0259-002
0259-003
0259-004
~.
G259-005
0259 -006
G259-007
G259-008
G259-009
0259-010
0259-011
0259-012
0259-01 3
G259-014
G25Y-015
G259-016
G259-019
G259-020
~~
0259-029
~. .
G259-031
0259-033
0259-035
0259-031
G25tl-019
G259-04;
0259-043
0259-045
0259-041
.~
0259-049
G259-051
0259-053
0259-055
0259-057
G259-059
0259-061
0259-063
G259-065
G259-061
G259-069
G259-011
,0259-073
0259-075
G259-017
G259-019
well
Interval’
1060 -1100
1100 -1150
1150
1200
1250
1300
1350
1400
1450
1500
1550
1600
1650
1700
1150
1800
1950
2000
2100
2200
2300
2316
2400
2500
2600
2700
2800
2900
3000
3100
3200
-1200
-1250
-1300
-1350
-1400
-1450
-1500
-1550
-1600
-1550
-1100
-1150
-1800
-1850
-2000
-2050
-2150
-2250
-2350
-2400
-2450
-2550
-2650
-2750
-2850
-2950
.~
-3050
-3150
-3250
3300 -3350
j400
-3ko
3500-3550
3600 -3650
3700-3150
1800 -3850
1900 - i 4 5 0
4000
-4o;o
4100 -4150
4200 -4250
4300 -4350
4400 -4450
4500 -4550
4600 -4650
4700 -4150
4800 -4850
4900 -4950
Cl-C7 HYDHOCARBON ANALYSES OF CUTTINGS GAS
Methane
Ethane
Pi-opane
c1
c2
c3
PPM
PPM
PPM
379.3
73.8
363.7
205.1
415.4
1499.9
454.6
276.1
553.4
644.8
155.9
662.9
709.1
1042.1
1659.2
461 .I
337 .O
101-.8
00.3
68.5
67.9
56.2
I8 .I
99.8
75.4
19.6
114.4
102.8
(13.6
103.1
245.1
58 .O
82.8
115.6
65.0
109.1
131.2
201.8
241 .I
262.8
252.5
219.2
561.9
456.4
119.9
421.3
659.3
485.2
121.2
25.6
119.5
61.1
84.5
269.1
81 .o
39.5
b9.9
54.1
15.9
11.6
3.6
3.9
1.8
2.5
59 .I
1.9
65.8
31 .O
40.6
124.4
44.0
1 .o
2.6
3.8
2.2
1.3
1.5
3.4
9.1
0.8
1.5
1.7
4.2
6.2
5.6
4.8
0.5
0.8
2.9
3.4
1.4
1.4
4 .o
4.3
4.4
5.5
4.4
14.1
9.1
8.1
12.2
25 .O
14.8
18.0
31.7
20 .I
8.2
4.4
1.8
2.5
2.1
2 .o
1 .o
1.3
3.5
1 .o
0.1
1 .o
1.5
2.3
0.4
0.6
1 .o
2.2
3.0
2.4
1.8
3.5
0.5
4.5
2.8
0.3
0.6
2.0
1.3
1 .n
Isobutane
Total
Butane
Total
Total
iC4
PPM
17.4
2.1
11.4
7.9
9 .o
35 .o
10.3
4.3
7.2
4.2
1.7
1 .o
0.4
0.6
0.5
0.4
0.3
0.1
1.4
1.1
0.9
0.3
0.4
0.4
0.2
0.1
0.1
0.4
1.4
0.6
0.6
0.9
0.1
0.8
0.6
0.1
1.1
1.1
4.7
0.5
0.4
0.2
1 .o
3.2
2.2
1.5
5 .O
12.4
6.6
8.5
3.2
0.1
2.5
1.1
4.9
1 .I
nC4
PPM
28.1
3.9
34.0
15.9
15.6
63.4
16.4
8.4
12.4
6.6
3.2
1.6
0.1
1.1
0.8
0.8
0.4
1.2
1.8
1.4
1 .o
0.3
0 .I
~ 5 x C2-C4
7
C1-C4
PPM
PPM
88.3
25.8
103.5
68.8
52.4
135.5
42.8
40.0
41.9
20.3
22.9
5.1
5.1
5.1
3.8
5 .8
3.9
2.3
2.6
1.1
4.2
9 .o
9.3
0 .I
1.5
0.3
0.3
0.5
0.9
2.2
1.1
4.3
2.1
1.9
5.2
1 .o
0.8
0.5
0.7
0.6
0.1
0.9
0.8
0.5
0.5
0.3
0.9
1.3
1.1
1 .o
1.1
3.2
1.5
6.3
4.0
3.11
10.4
4.4
2.3
2.3
0.8
4 .o
0.6
0.7
0.6
0.6
1 .o
1.2
0.8
0.5
0.8
4.2
2.2
606.0
113.5
600.6
321.3
565.4
1992.6
616.4
346.5
614.8
130.5
185.2
681.7
115.7
1050.5
1664.5
461.5
339.8
107.8
I O .9
74.4
12.1
59.4
85.0
112.5
77.2
82.2
118.0
110.7
96.6
112.9
253.Q
63.9
85.5
124.1
12.6
111.1
105.4
215.9
248.5
210.2
259.3
288.2
593.7
473.8
135.4
441.5
718.6
511.5
PPM
Gas
Wetness
%
226.6
39.1
236.9
116.1
149.9
492.6
151.8
10.3
121.3
85.6
29.2
18.8
6.6
8.3
5.3
31.4
35 .o
39.4
36.1
26.5
24 .I
24.6
20.3
18.0
11.7
15.8
2.8
0.9
0.8
0.3
5.8
1.3
2.8
5.9
10.6
5 .8
4.1
3.2
6.2
12.7
1.6
2.6
3.5
1.8
13.0
9.8
8.3
5.8
2.6
9.1
1.6
2.0
0 .8
4.1
8.0
6.8
7.3
6.8
8.9
25.8
11.4
15.4
20.1
’19.3
26.2
5.5
15.0
1.9
5.8
5.5
7.3
11.3
2.4
3.2
3 .O
1.1
13.5
8.1
3.3
9.2
3.1
1.3
10.5
1.9
4 .o
3.7
2.8
2.1
2.6
3.1
4.4
3.1
11.4
4.6
6.9
5.1
iC4/nC4
0.62
0.53
0.51
0.50
0.58
0.56
0.63
0.51
0.59
0.64
0.54
0.64
0.55
0.59
0.64
0.52
0.13
0.62
0.78
0.15
0.93
0.94
0.63
0.69
0.67
0.59
0.38
0.44
0.66
0.59
0.65
1.15
1.40
1.13
0.99
1.03
1.23
1.37
1
.oo
0.83
0.87
1. O l
2.45
1.99
1.50
1.62
2.65
2.10
ELEPHANT
WEST
BUTTE FEDERAL 7 NO. 1
SIEERA COUNTY, NEW MEXICO
TABLE I - B
Cl-C7 HYDROCARBON ANALYSES OF CUTTINGS GAS
GeaChem
Sample
Number
G259-081
G259-083
G259-085
C259-087
G259-089
G259-09.1
G259-093
G259-095
G259-097
G259-099
G259-101
G259-103
G259-104
G259-105
C259-106
G259-107
G259-108
0259-109
0259-1 11
G259-112
C259-113
G259-114
G259-115
G259-116
G259-117
C259-118
~~"
i269-120
G259-122
G259-123
C259-124
G259-125
Well
Interval'
Methane
Ethane
Propane
Isobutane
Butane
Total
c1 c2
P PM
PPM
5000 -5050
434.1
5100 -5150
394.3
5200 -5250
5300 -5350
5400 -5450
5500-5550
5600 -5650
5700 -5750
5800 -5850
5900 -5950
6000 -6050
6100 -6150
6150 -6200
6200 -b250
6250 -6300
6300 -6350
6350 -6400
6400 -6450
6500 -6550
6550 -6600
6600 -6650
6650 -6760
6700 -6750
6750 -6800
6800 -6850
6850 -6900
6900 -6950
6950 -7000
7050 -7100
7100 -7150
7150 -7200
6.9
7200-7215
601.4
419.0
1041.7
1207.7
1.3
837.0
1095.0
1154.1
2.5
1029.4
1.1
1450.4
3504.9
1534.1
1935.6
124O.'J
~~
__
5548.8
2099.0
~~
8251.6
za54.3
1574.6
4258.4
1356.0
901.4
0.2
770.6
848.0
534.2
257.9
498.5
408.8
273.3
424.9
936.8
.
8.1
1.9
5.8
7.1
7.7
12.4
12.8
1.3
7.6
11.7
18.3
2.3
1.1
17.3
22.3
61.5
37.7
27.2
20 :o
47.8
123.8
1.6
91.3
67.1
87.1
37.4
18.6
14.7
0.2
9.8
5.4
9.9
2.9
10.4
8.2
6.1
18.1
Total
c3
PPM
3.4
2.6
iC4
PPM
PPM
nC4 Cl-C4C5-C7
PPM
3.3
1.2
3.4
4.7
5.1
2.8
3.8
8.0
4.1
6.4
6.9
5.6
4.9
1.4
1.4
1.3
0.8
0.9
1 .o
1 .2
0.8
0.9
0.8
0.9
3.3
5.8
15.0
0.8
11.6
5.9
7.7
5.5
2.1
1.5
0.9
1.1
1 .o
0.6
1.2
0.9
0.9
1.4
2.6
1 .o
1.8
2.0
1.6
1.5
0.8
1 .o
1.4
0.7
1.1
0.8
0.4
0.5
3.u
1.7
1.2
4.6
1.o
0.4
0.2
0.2
0.1
0.1
0.2
0.1
0.2
0.4
0.6
3.9
1.8
2.4
10.3
3.3
4 .O
1.7
3.2
8.5
6.3
1.o
0.5
3.5
1.9
1.1
1.4
0.8
0.8
2.6
0.6
0.4
0.2
0.2
0.2
0.1
0.3
0.1
0.3
0.7
0.5
3.0
2.4
51.1
2.1
1.5
1.3
0.7
1.1
1 .o
1.1
1.5
1.8
0.5
0.0
0.3
PPM
449.3
404.7
2.1
614.1
432.7
1061.7
1228.4
849.2
1112.5
1185.5
2.6
1053.2
1482.6
3576.1
1580.3
1970.1
1265.6
2154.3
5690.3
8357.1
2929.5
1676.7
4303.1
1377.6
918.2
781.8
1.4
855.1
545.6
261.7
510.8
418.4
281 .o
434.4
958.8
Total
Wetness
C2-H
PPM
15.0
10.712.7
13.6
19.9
20 .E
12.1
17.5
31.3
23.7
- .
32.1
71.1
46.2
34.5
24.7
Gas
%
iC4/nC4
3.3
2.6
1.44
1.19
1.25
1.29
1.14
0.97
0.96
0.95
0.92
1.02
1.29
2.70
1.45
1.73
1.84
1.92
2.05
1.82
1.56
1.74
1.49
1 .oo
1.04
1 .oo
0.81
0.84
0.87
0.92
0.96
0.60
0.68
1.03
~
3.2
1.9
1.7
1.4
1.6
2.3
~.
2.2
2.0
2.9
1.8
2.0
102.1
44.6
21.6
16.7
11.2
7 .O
6.1
1.o
1.6
0.8
9.5
21.9
2.2
2.3
1.8
'
BUTTE FEDERAL 7 NO.
SIERRA COUNTY, NEW MEXICO
WEST
ELEPHANT
1
TABLE I - C
Cl-C7 HYDROCARBON ANALYSES OF A 1 R SPACE AND CUTTINGS GAS
GeoChem
Total Total Total
Butane
Isobutane
Propane
Ethane
Methane
Sample
Cl
Well
Number
PPM
PPM
I n t e rPvPM
al*
0259-081
G259-083
G259-085
G259-087
GZ%-089
G259-091
G259-093
C259-095
G259-097
C259-099
G259-101
G259-103
G259-104
G259-105
G259-106
G259-107
G259-108
G259-109
11 i
G259-112
G259-113
G259-114
G259-115
G259-116
C259-117
G259-118
G259-119
G259-120
G259-122
G259-123
G259-124
G259-125
GZiq-
5000
5100
5200
5300
-5050
-5150
-5250
-5350
5400 -5450
5500 -5550
5600-5650
5700 -5750
5800 -5850
.
. .~
5900 -5950
6000 -6050
6100-6150
6150 -6200
6200 -6250
6250 -6300
6300 -6350
6350-6400
6400 -6450
,6500-6550
6550 -6600
6600 -6650
6650 -6100
6700 -6150
6i50 -6800
6800 -6850
6850 -6900
6900 -6950
6950 -7000
~~
1050
-iloo
7100 -1150
7150 -1200
1200 -1215
535.2
520.0
813.4
560.4
1290.3
1494.8
990.1
1278.8
1463.1
1255.2
1788.0
9318.7
3177.0
2411.5
1661.8
3070.1
5954.3
8580.6
3128. I
1691.9
5135.1
1613.5
966.5
844.8
911.0
618.1
297.8
605.6
413.6
404.6
599.9
1101.3
c2
PPM
15.2
11.5
12.1
15.2
17.5
17.5
11.4
16.5
27.1
25 .O
28.6
84.1
59.3
34.9
26.3
63.0
130.4
96.9
75.0
112.9
44.5
1.3
22.7
0.1
15.8
10.9
0.2
6.2
11.1
3.6
12.2
9.4
9.2
10.8
23.3
c3
PPM PPM
10.2
10.6
6.9
11.5
9
..1.
9.9
I .6
6.1
11.1
5.3
3.8
6.6
15.1
14.6
0.9
6.6
8.9
8.1
2.8
5.9
2.9
1.3
2.5
2.5
4.0
C4
PPM
j
4.6
3.5
3.1
2.4
1.9
1.6
1.1
1.o
2.7
1.6
0.8
1.3
1.8
1.9
1.4
5.3
1.5
0.2
0.4
0.2
0.3
nc4
PPM
2.4
1.7
1.6
1.8
1 .I
1.6
1 .o
1.1
2.9
0.9
0.4
0.1
0.9
1 .o
3.0
0.1
0.5
0.3
0.3
0.3
0.5
0.3
0.3
Cl-C4
C5-Cl
9.8
4.2
5.1
24.2
4.5
4.9
3.7
4.9
10.0
9.8
1.1
0.5
3.6
2.0
1.5
1.6
3.4
3.7
3.0
265.5
6 .O
3.6
2.5
5.3
1.7
1.9
1.9
3.0
2.3
1 .I
0.2
2.1
561 .8
541.5
831.4
591.5
1320.8
1525.6
1011.4
1303.8
1501.1
1289.0
1828.1
9414.3
3246.4
2454.4
1693.4
3145.8
6103.3
8695.2
3812.7
1888.1
5189.9
1640.3
990.3
859.3
919.1
632.8
304.6
622.7
486.2
411.0
611.1
1135.6
PPM values expressed as volumes of gas p e r m i l l i o n volumes of c u t t i n g s
C2-C4
32.5
27.4
24.0
31 .O
30.5
30.1
21.3
24.9
44.6
33.8
40.1
95.6
69.3
U2.8
31.5
71.6
148.9
114.5
83.9
190.2
54.8
26.8
23.7
14.5
8.1
14.7
6.8
11.0
12.6
12.4
11.2
28.3
Gas
Wetness
%
5 .I
5.0
2.9
5.3
2.3
2.0
2.1
1.9
3.0
2.6
2.2
1.o
2.1
1.7
1.9
2.3
2.4
1.3
2.2
10.1
1.1
1.6
2.4
1 .I
0.9
2.3
2.2
2.7
2.6
3 .O
2.8
2.5
iC4/nC4
1.93
2.10
1.90
1.31
1.16
1.03
1.01
0.91
0.93
1.03
1.28
2.51
1.35
1.69
1 .81
1.88
2.02
1 .84
1.51
1. I 7
1.I8
1.36
4.11
0.93
0 .I2
0.86
0.84
1.06
0.38
0.82
0.57
1.09
WEST
ELEPHANT
BUTTE FEDERAL 7 NO.
SIERRA COUNTY, NEW MEXICO
Well
GeoChem
Total Total Total
Butane
Isobutane
Propane
Ethane
Methane
c3c1
Sample
PPM
Interval*
Number
G259-00 1
G259-002
G259-003
C259-004
ti759-005
G259-006
G259-007
G259-008
'G259-009
G259-010
G259-011
G259-012
G259-013
G259-014
0259-015
G259-016
G259-019
G259-020
G259-022
G259-024
G259-026
G259-028
G259-029
G259-031
G259-033
G259-035
G259-037
G259-039
G269-041
G259-043
G259-045
(259-047
G259-049
G259-05 1
G259-053
G259-055
G259-057
G259-059
GZ59-061
G259-063
G259-065
G259-067
G259-069
G259-07 1
G259-073
~259-0i5
G259-077
G259-079
1060 -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
1950 -2000
2000-2050
2100 -2150
2200-2250
2300 -2350
2376-2400
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
3700-3750
3800 -3850
3YOO -3950
4000-4050
4100 -4150
4200-4250
4300 -4350
4400 -4450
4500 -4550
4600 -4650
4700 -4750
4800 -4850
4900-4950
~
380.6
90.7
403.9
225.9
463.2
1642.8
498.3
297.8
605.4
697.9
171.7
670.7
729.6
1104.8
1704.8
543.5
371.6
136.5
87.4
79.8
103.3
67 .O
103.6
221.9
146.1
167.0
187.9
176.2
151.4
142.5
771.6
72.0
107.7
191.4
109.4
135.6
133.4
345.2
395.5
407.2
387 .o
413.3
808.8
555.8
181.3
596.3
8b6.9
619.0
TABLE I - C
1
C1-C7 HYDROCARBON ANALYSES OF A I R SPACE AND CUTTINGS GAS
c2
PPM
PPM
121.9
68.4
129 -9
67.3
96.7
295.2
88.1
43.2
78.1
58.2
18.3
11.7
5.4
5.3
3.1
4.7
60.2
9.2
73.2
41.5
49.9
140.5
52.8
24.9
45.5
22.6
11.4
4.6
5.4
4.4
3.7
3.8
1.4
2.8
9 .O
3.7
-3.0
1.2
4.1
14.1
10.0
10.1
8.2
8.9
11.7
4.7
5.0
3.7
2.6
8.4
8.9
7.5
6.3
6.2
3.4
4.6
6.1
13.9
17.1
10.8
11.7
12.2
24.8
14.6
1.4
5.2
6 .O
2.9
4.7
2.0
8.4
47.1
12.4
20.9
18.3
19.6
27.3
10.7
7.0
1.1
1.5
6.8
5 .O
3.4
2.4
7.5
7.4
8.4
7.9
8.1
29.6
17.3
17.1
25.2
47.2
26 .?
iC4
PPM
nC4
c5-c7
PPM
PPM
17.7
28.5
6.1
37.8
88.7
35.4
118.3
77.6
59.1
150.4
51.0
43.9
47.7
24.4
28.2
5.4
7.0
7.2
3.0
19.3
9.2
11.1
39 -7
11.6
4.9
8.6
4.9
2.4
1 .o
0.5
0.9
0.6
0.8
0.4
1 .o
1.7
1.1
1.2
0.4
0.7
1.3
0.8
0.8
0.8
1.1
2.1
1.1
0.8
1.1
0.8
1.1
0.9
0.3
1.6
2.9
1.9
1.3
1.1
2 .I
6.0
3.7
3.3
3.6
15.7
6 .O
18.0
18.4
69.8
18.3
9.3
14.1
7 .O
4.1
1.7
0.8
1-3
0.9
'5.0
1.5
0.8
1.6
2.4
1.6
1.7
0.6
1.3
3.2
2.1
3 .O
2.8
3.4
4 .O
9.9
7.2
3.7
6.7
2.8
7.4
2.3
1.2
1.2
0.5
0.8
0.8
0.2
1.1
2.2
1.4
1.2
0.7
1.6
2.9
1.9
2.0
2.3
5.7
2.9
15.0
14.0
18.2
12.5
10.1
11.1
15.4
15.4
10.2
5.3
26.5
5.5
3 .O
4.4
1.7
5.1
1.4
1.7
1.4
1.5
1 .8
2.2
1.5
1 .o
1.6
7.5
4.1
C144
PPM
C 2 4
PPM
609.0
177.6
664.4
362.1
639.5
2188.1
669.3
380.3
752.0
790.8
208.2
689.9
741.9
1116.9
1713.4
5511.4
375.8
147.2
106.7
89.3
114.1
71.4
118.3
287.8
171.7
202.0
218.1
209.5
196.8
161.4
285.8
79.3
113.4
208.7
125.3
147.2
145.1
364.3
409.7
422.9
403.0
439.8
864.6
589.7
215.6
639.8
960.5
669 .O
228.4
86.9
260.4
136.1
176.3
545.3
171 .O
82.4
146.6
92.8
36.4
19.1
12.2
12.1
8.6
10.9
4.1
10.6
19.2
9.5
10.7
4.3
14.6
65.8
25.5
34.9
30.2
33.2
45.3
18.9
14.1
7.3
5.7
11.2
15.8
11.6
11.6
19.0
14.2
15.6
16.0
26.4
55.8
33.8
34.3
43.4
93.5
49.9
Gas
Wetness
%
iC4/nC4
37.5
48.9
39.2
37.6
27.6
24.9
25.5
21.7
19.5
11.7
17.5
2.8
1.7
1.1
0.5
2.0
1.1
0.62
0.50
0.51
0.51
0.60
0.57
0.64
0.53
0.61
0.70
0.58
0.63
0.60
0.67
0.69
0.54
0.56
0.62
0.72
0.74
0.71
0.67
0.52
0.40
0.42
0.29
0.30
0.34
0.53
0.48
0.66
0.88
1.46
1.37
1.07
1.67
1.37
1.36
1.35
1.08
1.57
1.73
2.03
1.88
1.60
1.55
2.73
2.02
7.2
18.1
10.6
9.4
6.1
12.11
22.9
14.9
17.3
13.8
15.9
23.0
11.7
5 .O
9.2
5.0
8.3
12.7
7.9
8.0
5.2
3.5
3 .I
4.0
6.0
6.5
5.7
15.9
6.8
9.7
7.5
'
WEST ELEPHANT
BUTTE
FEDERAL
SIERRA COLNTY, NEW MEXICO
7 NO. 1
'
Tab1 e I1
SCREEN ANALYSIS SUFPlARY
GeoChem
We11
Total Organic
Carbon
(%of Rock)
Sample
Number
Interval
(Feet)
Brief Lithological Description
6259-001
1060-1100
100% Dolomite, s i l t y , brownish gray.
0.29
6259-002
1100-1150
100% Siltstone,dolomitic,lightgrayto
grayish red.
Trace of dolomite.
0.07
6259-003
1150-2000
100% Limestone grading t o dolomite, s i l t y ,
brownish gray to grayish red.
0.17/0.19
6259-004
1200-1250
6259-005
1250-1300
100% Limestone grading t o dolomite. s i l t y ,
brownish gray t o grayish red.
0.11
6259-006
1300-1350
100% Limestone, s i l t y , brownish gray.
0.14
6259-007
1350-1400
100% Dolomite, s i l t y , brownish gray t o
grayish red.
0.25
6259-008
1400-1450
60% Dolomite,brownish
'40% Siltstone,grayish
gray.
red.
0.13
6259-009
1450-1500
60% Dolomite,brownish
40% Siltstone,grayish
gray.
red.
0.10
6259-010
1500-1550
70% S i l t s t o n e , l i g h t gray t o grayishred.
30% Dolomite,brownish
gray.
0.10
6259-011
1550-1600
80% S i l t s t o n e , l i g h t g r a y t o grayish red.
20% Dolomite,brownish
gray.
0.09
6259-012
1600-1650
60% Siltstone, light gray
t o grayishEd.
40"b Dolomite.brownish
gray.
0.14lO.13
6259-013
1650-1700
60% S i l t s t o n e , l i g h t gray tograyish red.
40% Dolomite, brownish gray.
0.10
6259-014
1700-1750
70% Dolomite.brownish
30% Siltstone,grayish
gray.
red.
0.15
6259-015
1750-1800
50% Siltstone.grayish
red.
50% Dolomite, brownish gray.
0.15
0.21
WEST ELEPHANT
BUTTE
FEDERAL
SIERRA COUNTY, NEW MEXICO
7 NO. 1
Table I 1
SCREEN ANALYSIS SWARY
GeoChem
Sample
Nunher
Well
Interval
(Feet)
6259-016
1800-1850
6259-017
-
Brief Lithological Description
100% S i l t s t o n e ,d o l o m i t i c ,l i g h tg r a yt o
grayish red.
TotalOrganic
Carbon
(%o f Rock)
0.08
No sample.
6259-018
-
G259-019
1950-2000
100% Siltstone, dolomite, l i g h t brownish gray.
0.09
6259-020
2000-2050
100% Igneousrock?,pinkishgray.
0.08
6259-022
2100-2150
100% Igneousrock?, p i n k i s h gray.
0.05
6259-024
2200-2250
6259-026
2300-2350
100% Igneous rock?
6259-028
2376-2400
100% Shale,chloritic,calcareous,greenish
gray.
6259-029
2400-2450
100% Igneousrock?
6259-031
2500-2550
60%
40%
Igneous
rock?
Red shale.
0.02
6259-033
2600-2650
60%
40%
Igneous
rock?
Red shale.
0.02
G259-035
2700-2750
60%
Igneous rock?
Red shale.
0.01
40%
No sample.
80% Igneous
rock.
20% Red shale and limestone. brownish gray.
0.06
0.05
0.01/0.01
0.05
6259-037
2800-2850
50%
50%
Igneous rock?
Red shale.
0.01
6259-039
2900-2950
50%
50%
Igneous
rock?
Red shale.
0.09
6259-041
3000-3050
50%
50%
Igneous
rock?
Red shale.
6259-043
3100-3150
50%
50%
Igneous
rock?
Red shale.
6259-045
3200-3250
100% Shale,grading
red.
0.07/0.06
0.08
t os i l t s t o n e ,g r a y i s h
0.08
WEST ELEPHANT BUTTE FEDERAL7 NO. 1
SIERRA COUNTY, NEW MEXICO
Table I1
SCREEN
ANALYSIS
SWARY
TotalOrganic
Carbon
(%of Rock)
GeoChem
Sample
Number
Well
Interval
6259-047
3300-3350
100% Limestone, brownish gray.
0.08
6259-049
3400-3450
100% Limestone, brownish gray.
0.06
6259-051
3500-3550
60% Shale, medium dark gray to grayish red.
40% Limestone, brownish gray.
0.40
6259-053
3600-3650
60% Shale, medium dark gray to grayish red.
40% Limestone.brownish
gray.
0.28
6259-055
3700-3750
60% Shale, medium dark gray to grayish red.
40% Limestone, brownish gray.
0.2810.27
6259-057
3800-3850
60% Shale, medium dark gray to grayish red.
40% Limestone, brownish gray.
0.21
6259-059
3900-3950
and darkgray.
60% Shale, pinkish red
40% Limestone, l i g h t brownish gray.
0.72
6259-061
4000-4050
50% Shale, pinkish red and darkgray.
50% Limestone, l i g h t brownish gray.
0.74
6259-063
4100-4150
60% Limestone. l i g h t brownish gray.
40% Shale, p i n k i s h red and darkgray.
0.43
6259-065
4200-4250
80% Limestone, l i g h t brownish gray.
20% Shale, p i n k i s h red and darkgray.
0.24
6259-067
4300-4350
70% Limestone, l i g h t brownish gray.
30% Shale, p i n k i s h red and darkgray.
0.42l0.43
6259-069
4400-4450
60% Shale, pinkish red and darkgray.
40% Limestone, l i g h t brownish gray.
3.02
60% Shale, p i n k i s h red and darkgray.
40% Limestone, l i g h t brownish gray.
2.06
Brief LithologicalDescription
(Feet)
Sample contaminated w i t h mica.
6259-071
4500-4550
Sample contaminated w i t h mica.
6259-073
4600-4650
60% Shale,darkgray.
40% Limestone, l i g h t brownish gray.
1.15
6259-075
4700-4750
50% Shale, light gray.
50% Limestone, l i g h t brownish gray.
1.68
p
WEST ELEPHANT BUTTE FEDERAL7 NO. 1
SIERRA COUNTY, NEW MEXICO
Table 11
I
P
SCREEN ANALYSIS SWARY
TotalOrganic
Carbon
( X of Rock)
GeoChem
Sample
Number
Well
Interval
(Feet)
6259-077
4800-4850
60% Shale,carbonaceous,darkgray
t o black.
40% Limestone, l i g h t brownish gray.
1.55
6259-079
4900-4950
50% Shale,carbonaceous,darkgray
t o black.
50% Limestone, l i g h t brownish gray.
1.74
6259-081
5000-5050
60% Shale,carbonaceous,darkgray
t o black.
40% Limestone, l i g h t brownish gray.
1.11
6259-083
5100-5150
85% Shale, pinkish red and medium darkgray.
15% Limestone. l i g h t brownish gray.
0.70l0.71
6259-085
5200-5250
609; Limestone, l i g h t brownish gray.
40% Shale, medium darkgray.
0.48
6259-087
5300-5350
60% Shale, medium dark gray and p i n k i s h red.
40% Limestone, l i g h t brownish gray.
0.82
6259-089
5400-5450
70% Limestone, l i g h t brownish gray.
30% Shale, medium darkgray and p i n k i s h red.
0.33
6259-091
5500-5550
70% Limestone, l i g h t brownish gray.
30% Shale, medium darkgray and pinkish red.
0.21
6259-093
5600-5650
70% Limestone, l i g h t brownish gray.
30% Shale, medium darkgray and p i n k i s h red.
0.20
6259-095
5700-5750
70% Limestone, l i g h t brownish gray.
30% Shale, medium darkgray and p i n k i s h red.
0.21
6259-097
5800-5850
70% Limestone, l i g h t brownish gray.
313 Shale, medium'dark gray and p i n k i s h red.
0.19/0.21
6259-099
5900-5950
80% Limestone, l i g h t brownish gray.
20% -Shale, medium darkgray and p i n k i s h red.
0.26
6259-101
6000-6050
70% Limestone, l i g h t brownish gray.
30% Shale, medium darkgray and p i n k i s h red.
0.23
6259-103
6100-6150
60% Limestone, l i g h t brownish gray.
0.46
Brief Lithological Description
'
40% Shale,darkgray.
WEST. ELEPHANT BUTTE FEDERAL 7 NO. 1
SIERRA COUNTY, NEW MEXICO
Table I1
SCREEN ANALYSIS
SUMMARY
GeoChem
Sample
Number
We11
Interval
Total Organic
Carbon
(%o f Rock)
Brief Lithological
Description
(Feet)
6259-103A
6100-6150
60% Shale, medium darkgray
40% S i l t s t o n e , l i g h t gray.
6259-104
6150-6200
60% Limestone, l i g h t brownish gray.
40% Shale, medium darkgray.
0.56
6259-105
6200-6250
60% Limestone, l i g h t brownish gray.
40% Shale, medium darkgray.
0.41
6259-106
6250-6300
60% Limestone, l i g h t brownish gray.
40% Shale, medium darkgray.
0.26
6259-106A
6250-6300
100% Limestone, l i g h t brownish grayto
gray.
6259-1068
6250-6300
100% Shale,darkgray.
6259-107
6300-6350
100% Dolomite, l i g h t brownish gray.
0.10
6259-108
6350-6400
100% Dolomite, l i g h t brownish gray.
0.11
6259-109
6400-6450
100% Dolomite, l i g h t brownish gray.
0.08/0.08
6259-111
6500-6550
60% Shale,palered
and medium darkgray.
40% Dolomite, l i g h t brownish gray.
0.36
6259-112
6550-6600
60% Shale, medium darkgray.
40% Dolomite, l i g h t brownish gray.
0.45
6259-113
6600-6650
100% Limestone, l i g h t brownishgray.
0.10
6259-114
6650-6700
100% Limestone, l i g h t brownish gray.
0.09
6259-115
6700-6750
100% Limestone, l i g h t brownish gray.
0.07
6259-116
6750-6800
100% Limestone, l i g h t brownish gray.
0.06
6259-117
6800-6850
100% Limestone, l i g h t brownish gray.
0.08
G259-118
6850-6900
100% Limestone, l i g h t brownish gray.
0.0610.05
t o darkgray.
1.16
-
brownish
0.10
1.64D.63
T.O.C.
s1
s2
. s3
PC*
WEST
ELEPHANT BUTTE FEDERAL 7 NO. 1
SlERRA COUNTY, NEW MEXICO
~
C02 produced from kerogen pyrolysis
(mg C02/g of rock)
= 0.083 (SI + S2)
TABLE I11
C.
"__""_"_"_"""""""""""""""""""""""""~
6259-001
G259-002
G259-003
6259-004
6259-005
G259-006
6259-007
G259-008
G259-009
6259-010
6259-011
G259-012
G259-013
G259-014
G259-015
G259-016
G259-019
G259-020
G259-022
G259-024
0259-026
G259-028
G259-029
6259-031
G259-033
6259-035
6259-037
G259-039
G259-041
G259-043
3200-3250 6259-045
I
I
i
Hydrogen
Index
= mg HC/g organic
carbon
Oxygen
lndex
i n
u C02/g organiccarbon
PI
= SI/Sl+S2
Tmax
= Temperature
Index,
degrees
RESULTS OF ROCK-EVAL PYROLYSIS
I
= T o t a l organiccarbon,
ut. a
= Freehydrocarbons, mg HClg of rock *
= Residualhydrocarbon p o t e n t i a l
Imn
. - HC/a of r o d 0
I 060-1 100
1100-1150
1150-1200
1200-1 250
1250-1300
1300- 1350
1350-1400
1400-1450
1450-1500
1500-1550
1550-1600
1600-1650
1650-1700
1700-1750
1750-1800
1800-1850
1950-2000
2000-2050
2100-2150
2200-2250
2300-2350
2376-2400
2400-2450
2500-2550
2600-2650
2700-2750
2800-2850
2900-2950
3000-3050
3100-3150
~~
224
~
377
234
296
274
0.05
300
316
303
264
4440.00
433
274
274
445
316
273
263
246
439
362
226
288
248
398
312
443
323
224
335
260
~
~~
336
0.04
0.07
0.00
0.00
0.00
0.00
0.02
0.17
~~~.
0.01
0.00
0.01
0.00
0.03
0.03
0.06
0.00
0.00
0.00
0.00
0.00
0.01
0.00
0.01
0.00
0.01
0.00
0.00
0.01
0.00
0.00
0.00
0.04
0.01
0.00
0.07
0.00
0.00
0.00
0.00
0.00
0.00
~.
~
0.01
0.00
0.01
0.01
0.00
0.00
0.00
0.00
0.21
0.00
0.25
0.16
0.14
.
0.01
0.00
~.~
0.04
0.00
0.00
0.02
0.00
0.00
0.00
0.00
0.01
0.09
0.15
0.10
0.40
0.00
0.00
0.33
~.
~~
0.25
0.00
0.17
0.14
0.08
0.08
0.12
0.21
0.13
0.27
0.17
0.13
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.18
0..1.7.
0.00
~
0.17
0.17
0.09
0.00
0.43
0.38
0.41
0.49
0.28
0.30
0.27
0.21
~~
0.25
0.00
9.-.
0 0~ .
0.00
0.00
0.00
0.00
~.
~
0.25
0.00
0.01
0.50
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.29
0.07
0.18
0.21
0.11
0.14
0.25
0.13
0.10
0.10
0.09
0.14
0.10
0.15
0.15
0.08
0.09
0.08
0.05
0.06
0.05
0.01
0.05
0.02
0.02
0.01
0.01
0.09
0.07
0.08
0.08
24
0
0
23
27
21
24
0
0
7
0
6
26
12
0
87
0
0
20
86
228
77
80
81
107
40
107
80
80
-133
150
130
180
113
162
200
462
340
283
180
0
0
80
860
1900
2050
4900
2800
333
385
262
262
0
0
200
0
0
0
0
12
r
WEST ELEPHANTBUTTEFEDERAL
LOCATION:
7 NO. 1 WELL
SEC. 7 , T 1 2 S , R4W
SIERRA COUNTY, NEW MEXICO
D o u g l a s A. Muckelroy
Geologist
GEOCHEM LABORATORIES, I N C .
,Page 2 of 3 Pages
T.O..C.
= T o t a ol r g a n i cc a r b o n u, t .
s1
Free hydrocarbons, mg HC/g of r o c k '
= Residual hydrocarbon potential
(mg HC/g of rock)
= C02 produced from kerogen pyrolysis
(mg C02/g of rock)
= 0.083 (S1 + S2)
si!
s3
PC*
WEST
ELEPHANT
BUTTE
FEDERAL
SIERRA COUNTY, NEW MEXlCO
Hydrogen
Index
= mg HClg organiccarbon
Oxygen
= mg C02/g organiccarbon
Index
PI
= SI/SI+S2
Tmax
i Temperature
Index,
degrees
7 NO. 1
TABLE I11
RESULTSOFROCK-EVALPYROLYSIS
6259-047
6259-049
G259-051
G259-053
G259-055
G259-057
.G259-059
6259-061
.. ~.~
6259-063
G259-065
G259-067
6259-069
6259-071
G259-073
G259-075
G259-077
6259-079
..
G259-081
6289-083
6259-085
6259-087
G259-089
.~.
G259-091
'2259-093
6259-095
G259-097
3300-3350
3400-3450
3500-3550
..~.
~~~
G259-099
~ ."
~
6259-101
"6259-103
' G259-103A
G259-104
G259-105
i
.
_
3600-3650
3700-3750
3800-3850
3900-3950
4000-4050
4100-4150
4200-4250
4300-4350
4400-4450
4500-4550
4600-4650
4700-4750
4800-4850
0.03
4900-4950
5000-5050
5100-5150
5200-5250
5300-5350
5400-5450
0.01
5500-5550
5600-5650
5700-5750
5800-5850
5900-5950
6000-6050
6100-6150
6100-6150
6150-6200
6200-6250
6
323
275
44
450
378
335
445
478
484
492
494
498
494
501
472
413
500
444
353
351
275
353
363
~~
~
0.01
0.05
0.00
0.00
0.05
0.04
0.02
0.01
0.01
0.12
0.14
~.
0.00
~.
0.00
0.00
0.00
0.01
0.01
0.00
0.02
0.03
0;23
0.02
0.17
0.00
0.03
0.06
0.26
0.00
0.00
0.01
0.00
0.00
0.37
27
0.28
0.22
0.00
0.00
0.00
0.18
0.00
0.24
0.11
0.09
0.00
0.08
0.08
0.00
0.05
0.09
0.09
0.13
~.
0.10
0.00
0.00
0.01
0.01
0.40
0.28
0.37
0;26
0.09
0.18
0.05
0.22
0.23
0.10
0.10
0.28
0.10
0.05
'
0.05
0.80
0.80
~.~~
0.18
0.27
0.09
.~
0.02
O.O!
0.03
0.03
0-05
0.07
Ob
~
0.17
0.00
0.00
0.07
0.07
0.00
0.25
0.19
0.21
0;28
0.26
0.18
0.20
0.23
0.25
0.10
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.01
0.01
0.00
0.00
0.00
0.06
0.06
0.01
0.03
0.02
0.03
0.02
0.00
0.01
0.02
0.00
0.00
0.00
0.25
0.00
0.00
0.00
0.00
0.00
0.00
0.12
1 .oo
0.00
0.00
0.00
0.00
0.25
0.25
%
i
0.00
0.08
0.06
0.40
0.28
0.28
0.21
0.72
0.74
0.43
0.24
0.43
3.02
2.86
1.15
1.68
1.55
1.74
1.11
0.71
0.48
0.82
0.33
0.21
0.20
0.21
0.20
0.26
0.23
0.46
1.16
0.56
0.41
C.
62
83
10
7
3
4
16
18
23
20
462
450
70
78
64
114
15
12
18
20
20
11
26
27
15
23
2
4
8
~~
10
18
21
23
12
20
32
27
9
5
14
15
19
17
15
0
12
17
.
14
13
20
23
58
31
63
133
130
85
100
88
82
36
9
44
60
7
T.O.C.
Page 3 of 3 Pages
:
= Free
hydrocarbons,
s2
Residual
hydrocarbon
potential
( m g HC/g of rock)
I C02 produced from kerogen pyrolysis
( m p C 0 2 / ~of r o c k )
= 0.083 (S1 -I. S2)
s3
PC*
'
WEST
ELEPHANT
BUTTE FEDERAL 7 NO. 1
SIERRA COUNTI, NEW MEXICO
Hydrogen
Index
Oxygen
Index
PI
Tmax
TABLE I11
RESULTS OF ROCK-EVAL PYROLYSIS
6250-6300
6259-106
6259-106A
474 6250-6300
6259-106B
260 6300-6350
6259-107
6350-6400 6259-108
6259-109
G259-111
G259-112
6259-113
445
6259-114
6259-115
6259-116
6259-1 17
6259-118
6259-119
6259-1 20
6259-122
~~
0.05
263 6250-6300
0.19
0.20
0.33
0.19
6400-6450
445
6500-6550
6550-6600
6600-6650
6650-6700
309
0.25
6700-6750 0.18
6750-6800
227 6800-6850
0.176850-69000.21
272 6900-6950
6950-7000
315
0.50
7050-7100 0.16
~~~~
~
~
0.13
0.04
314
299
343
242
~. 0.07
222
3810.05
3000.02
0.02
0.01
0.03
0.02
0.02
0.00
0.02
0.04
0.06
0.00
00.17
.01
0.02
~.~
0.01
0.01
0.01
0.00
0.01
0.16
0.01
0.33
0.00
0.21
0.17
0.00
0.00
0.01
0.01
0.02
0.03
0;04
0.33
0.25
0.01
0.06
0.26
0.19
0.27
0.00
0.04
0.17
0.13
0.20
0.25
0.25
~~
0.17
0.00
0.00
0.00
0.00
0.40
0.00
0.17
~.~~
0.03
0.03
0.50
0.00
~
0.00
0.25
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
5
= T o t a ol r g a n i cc a r b o n u, t .
s1
mg HClg of r o c k
i
=
mg HC/g o r g a n i c carbon
C02/gcarbon
organic
SI/Sl+S2
T-sperature
Index,
degrees
:mg
0.26
0.10
1.64
0,lO
0.11
0.08
0.36
0.45
0.10
0.09
0.07
0.06 216
0.08
0.06
0.09
0.06 266
0.05
C.
19
80
n
11
13
10
66
100
50
37
83
17n
.
75
55
170
188
257
~~
D
250
350
188
66
40
320
Iz
W
W
I
>rn
-rn
yz
m a
W
sz
W
0
e
W
Y
WEST ELEI
SIERRA CC
.
WEST ELEPHANT BUTTE FEDERAL
7 NO.l
SIERRA COUNTY, MEXICO
NEW
GEOCHEM
SAMPLE
NUMBER
DEPTH
(felt)
G259-001
1100
VlTRlNlTE
REFLECTANCE
fYPE
NUMBER
OF
POPULATION
OF
SAMPLE
READINGS
SUMMARY
MINIMUM
MAXIMUM
MEAN
REFLECTANCE REFLECTANCE REFLECTANCE
(o
?' Ro)
[ Yo RO 1
[ 70Ro)
STD. DEV.
( % Ro)
REMARKS '
~
CTG
(1)
(2)
5
14
0.49
0.61
1.00
0.52
0 -56
0-95
1.53
0.75
1.23
0.027
0.110
0.150
G259-019
2000
CTG
0.49
0.54
0 -51
0.022
6259-045
3250
CTG
0.47
1.44
0.64
1.44
0.55
1.44
0.063
G259-047
3350
CIG
0 -59
1.05
0.59
1.05
0.59
1.05
-
G259-053
3650
CIG
0.88
1.37
1.08
1.75
0.99
1.60
0.058
0.113
G259-061
4050
CTG
0.57
0 -87
1.14
0.64
1.06
1.25
0 -61
0.96
1.20
0.029
0.049
0.042
INDIGENOUS
REMORK!B
G259-067
4350
CTG
0.45
0.83
123
0.65
1.06
1.36
0.54
0.95
1.25
0.066
0.061
0.063
CAVED
INDIGENOUS
REWORKED
G259-071
4550
CTG
0.91
1.13
1.09
1.48
0.99
1.33
0.049
0.106
mm
G259-075
4750
CIG
0.92
1.13
1.09
1.56
1.00
1.33
0.056
0.118
REWORKED
0.92
1.13
1.08
1.46
0.97
1.29
0.043
0.100
INDIGENOUS
REW0FXED
.
G259-081
5050
CTG
INDIGENOUS
INDIGENOUS
WEST ELEPHANT BUTTEFEDERAL
SIERRA COUNTY, NEW MEXICO
GEOCHEM
SAMPLE
READINGS
SAMPLE
NUMBER
DEPTH
(tart)
-
G259-093
G259-099
6150
5350
'
5650
5950
7 NO.]
VlTRlNlTE
REFLECTANCE
SUMMARY
rYPE
OF
CIG
CTG
crc,
m
G259-103
POPULATION
(1)
6200
m
6250
crc;
DEV.
L % Ro)
REMARKS
40
20
0.92
1.13
1.09
1.42
1.00
1.29
0.052
0.091
INDIGENOUS
RENOFKED
( 1)
(2)
37
23
0.96
1.27
1.15
1.10
1.39
1.03
0.040
0.063
REWORKED
0.044
0 .lo1
RENOEWED
'(1)
1.08
(2)
20 1.16
25
1.00
1.23
1.59
1.39
(1)
9
14
37
0.92
1.20
1.51
1.75
1.05
1.48
1.96
0.97
1.35
0.65
1.05
1.20
0.65
0.65
1.09
1.95
1.56
0.60
0.95
1.17
1.50
0.60
1.12
1.95
0.60
1.05
(1)
(2)
(3)
G259-105
MAXIMUM
MEAN
MINIMUM
REFLECTANCE REFLECTANCE REnECTANCE
STR
( To R o )
( Y o Ro)
( Yo R o )
(2)
(2)
(3)
6259-104
NUMBER
OF
1
1.14
10
49
(1)
1
(2)
(3)
11
48
0.050
0.096
0.128
0.031
0.226
0.054
0.226
INDIGENOUS
INDIGENOUS
INDIGENOUS
RENORKED
RENOIKED
CAVED
INDIGENOUS
m
O
F
u
a
3
0
CAVED
INDIGENOUS
WOEWED
50.56
14
41
0.49
0.61
1.00
0.52
0.75
1.23
0.95
1.53
X
X
X
X
X
xx
x
x xxx
xxx m
X
VITRINITE
REFLECTANCE
HISTOGRAM
0 -027
0 .no
0 -150
GEOCHEM
NO.
G259-019
CLIENT'S NAME
GETTY OIL
(NO. OF READINGS = 4)
POPULATION
(1)
0.49
TYPE OF SAMPLE:
DEPTH /SAMPLE
CrG
NAME
WELL
0.50
0.51
Elephant
WestButte
Federal
NO. 2000
7 No. 1
0.54
NO. Of READINGS
MIN RO ('yo)
4
0.49
MAX.
Ro
(
0 -54
Yo)
MEAN Ro(
0.51
%)
STD. DEV.( %)
0.022
REMARKS
GEOCHEM
NO.
CLIENT'S
G259-045
NAME
TYPE OF SAMPLE:
Cn;
NAME
WELL
C J E TOIL
~
0.57
(NO. OF READINGS = 6 ) 0.47
0.52
0.54
0.64
DEPTH / SAMPLE NO. 3250
7 No. 1
Elephant
WestButte
Federal
1.44
POPULATION
0.55
(1)
(2)
0.645
1
0.47
1.44 1.44
VITRINITE
1.44
REFLECTANCE
HISTOGRAM
-
GEOCHEM
NO.
G259-047
CLIENT'S NAME
G
(NO. OF R!lWINGS
=
, I , I
0.0
,,I,
0.1
NAME
WELL
I(I,
a2
,,,,
0.3
0.4
7 No. 1
West Elephant
Butte
Federal
2) 0.59 1.05
MIN Ro (
lil,
0.5
%)
MAX. Ro (
X
1 1 , ,
0.6
,,,I
o!,
11,1
0.0
yo)
'
MEAN Ro(
0 -59
1.05
0.59
1.05
1.
1
(1)
(2)
DEPTH / SAMPLE NO. 3350
CrG
OIL
~
NO. OF READINGS
POPULATION
0
E
TYPE OF SAMPLE:
a9
VITRINITE
11,,
X
11,1
1.0
STD. DEV( %)
1 1 1 1
1.2
1.3
1 1 1 1
1 1 1 1
1.4
REFLECTANCE HISTOGRAM
REMARKS
-
0.59
1.05
1 1 1 ,
1.1
%)
1.5
1.6
1.7
1.8
1 1 1 1
1.9
1 1 ( 1
2.0
2.2
2.1
2.3
GEOCHEM
NO.
mrm OIL
NAME
CLIENT’S
DEPTH / SAMPLE NO. 3650
erc,
TYPE OF SAMPLE:
G259-053
WELL NAME Elephant
WestButte
Federal
7 No. 1
(NO. OF READINGS = 60)0.880.890.890.900.910.920.920.920.930.940.950.950.950.97
0.970.980.980.980.980.990.991.001.01
1.01 1.02 1.021.031.031.031.041.041.05
1.05 1.05 1.061.061.061.071.071.081.37
1.41 1.441.461.531.551.581.591.611.62
1.75
1.631.641.651.661.681.691.721.731.75
POPULATION
NO. OF READINGS
MIN Ro ( % ) MAX. Ro ( %)
MEAN R o ( %)
STD. DEV.(%)
(1)
40
20
(2)
0.88
1.37
1.08
1.75
6
0 -99
1.co
REMARKS
0.058
0.113
X
XXXX
XXXXXXX
XIMXXXXX
3
,,I,
0
0.0
0.1
xxxxxx
XXX)(XXXXYXX
1 1 1 ,
0.2
1 1 , 1
, 1 1 1
0.3
0.4
0.5
0.6
11,1
o!,
0.8
as
VITRINITE
II.,I
1.0
1.1
I,,
1.2
x x ~ x x
XXIM
, I , I
I
13
1.4
REFLECTANCE HISTOGRAM
1 , ~ 1 l 1 1 ~ 1 1 1 ’ , ” 1 1 [ 1 ~ 1 1 ~ 1 , 1 , ~ 1 ” l l ” ” l ” ”
1.3
1.6
17
1.8
1.9
2.0
2.1
2.2
2.1
GEOCHEM
NO.
G259-061
CLIENT'S NAME
WITY OIL
(NO. OF WINGS = 60) 0.57
0.93
0.93
0.93
0.93
0.94
0.98
0.98
0.99
0.99
1.00
1.20
1.22
1.16 1.18 1.19
POPULATION
NO.
OF READINGS
0.64
0.57
(1)
(2)
(3)
5
42
0.042 13
TYPE OF SAMPLE:
DEPTH /SAMPLE
CPG
NAME
WELL
0.59 0.61 0.63
0.94
0.95
0.95
1.00 1.01 1.01
1.24 1.24
1.24
MIN. Ro (
0 -87
1.20 1.14
%)
0.64
0.87
0.87
0.88
0.88
0.90
0.95
0.96
1.02
1.02
1.25
1.25
MAX. Ro ( yo)
1.06
1.25
NO. 4050
7 No. 1
West E lFeBepudhteatrneatl
0.91
0-96
0-96
1.03
1.03
1.04
0.96
0.97
0.97
0.97
0.97
0.98
1-05
MEAN R o (
%)
0 -61
0.96
0.91
0.92
0.92
'
1-06 1-14
1-15
1-15
STD. DEV( %)
0.029
0.049
REMARKS
GEOCHEM
NO.
OIL
(NO. OF READINGS = 60)
0.910.910.920.92
1.04 1.06 1.13 1.15
1.28
. 1.281.291.30
0.450.47
0.930.94
1.15 1.17
1.301.31
~
POPULATION
NO.
OF
READINGS
0.65
1.36
DEPTH /SAMPLE
CrG
-WELL NAME West
CLIENT'S NAME
~~
I
TYPE OF SAMPLE:
G259-067
0.480.52
0.940.94
1.18 1.18
1.321.33
MIN Ro ( Yo 1
0.45
0.83
1.13
Elephant
Federal
Butte
0.54 0.55 0.59 0.60 0.650.830.860.86
0.950.950.960.970.980.980.99
1.211.21
1.22 1.231.241.251.261.26
1.331.36
MAX. Ro ( % )
MEAN Ro ( %)
STD. DEV.
1.06
0.063
0.54
0.95
1.25
NO. 4350
0.066
0.061
1.01
%)
7 No. 1
0.87 0.87
1.03 1.03
1.27 1.27
REMARKS
'
GEOCHEM NO.
G259-071
CLIENT'S
m m OIL
NAME
TYPE OF SAMPLE:
crc;
NAME
WELL
DEPTH/SAMPLE
West
Elephant
Butte
Federal
(NO. OF W I N G S = 60)0.910.930.940.950.950.950.960.960.970.990.99
1.031.041.061.091.13
1.15 1.16 1.17 1.17 1.18 1.211.221.23
1.291.301.301.311.311.321.321.331.331.341.341.391.401.401.421.431.431.44
1.441.441.451.451.451.461.461.471.47
1.48
POPULATION
NO. OF READINGS
MIN RO ( %
' ) MAX. Ro [ % )
MEAN Ro( %)
(1)
(2)
18
42
0.91
1.13
1.09
1.48
0.99
1.33
NO. 4550
7 No. 1
1.01 1.021.03
1.24 1.241.25
1.27 1.28
STD. DEV.(%)
0.049
0.106
REMARKS
GEOCHEM NO.
TYPE OF SAMPLE:
G259-075
CLIENT'S NAME
DEPTH /SAMPLE
CTG
NAME
WELL
OIL
24
21
v)
a
zn
1.17 1.18
1.18
STD. DEV.( %)
1.00. 1.02
1.191.21
REMARKS
0.056
0.118
1.00
1.33
-
-
18-
d
-
w
-
a
I5
(r.
0
a
w
m
1.09
1.56
0.92
1.13
23
(1)
(2)
7 No. 1
WestF eE
dBleu
erptath
lea n t
(No. OF READINGS = 60)0.920.930.930.940.950.960.960.970.970.980.980.98
1.031.041.041.06
1.07 1.08 1.08 1.08 1.091.131.15
1.15 1.16
1.221.241.251.251.281.291.301.321.341.351.361.371.371.381.391.401.411.42
1.56
1.421.431.431.431.441.441.461.481.54
POPULATION
NO. OF READINGS
MIN RO ( % )
MAX. RO ( 70) MEAN R o ( %)
37
NO. 4750
-
12-
-
f 9-
-
6-
-
-
X
3-
x x'x x x
x x x x ~xxx XX'XXXXXX
x
m
-x
x
x
X
m
X
X
X
X
X
X
xxx
-
-
0
0.0
X
X
X
0.1
az
0.3
0.4
0.5
0.6
o!7
0.0
a9
VITRINITE
1.0
1.1
1.2
13
1.4
REFLECTANCE HISTOGRAM
xx
1.5
1.6
1.7
1.8
1.9
2.0
2.1
2.2
2.3
GEOCHEM
NO.
G259-081
CLIENT'S NAME
am o n
TYPE OF SAMPLE:
DEPTH /SAMPLE
CPG
NAME
WELL
West E lFeB
epduhetatrenatl
NO. 5050
7 NO. 1
(NO. OF ~
I =W
60)0.920.920.920.920.920.930.940.940.950.950.950.960.960.97
0.970.970.970.980.980.99
1.001.01
1.01 1.021.021.031.05
1.08 1.131.131.14
1.15
1
.
2
5
1
.
2
7
1
.
2
8
1
.
2
9
1
.
3
0
1
.
3
1
1
.
3
3
1.33
1
.
3
4
1
.
3
5
1-17 1.17 1.17 1.191.201.211.211.22
1.451.46
1.361.361.361.371.391.391.411.43
MEAN Ro( %)
STD. DEV.(%)
REMARKS
POPULATION
NO. OF READINGS
MIN Ro ( % ) MAX. Ro ( %)
(1)
(2)
32
a
w
m
1.080.043
0 -92
28
1.46
0.97
1.29
1.13
12
6
xx
xxx
xxx
xx)(xxx
xx"'
V ITRlNlTE
xx
xxxx
X
X
XXXXXX
REFLECTANCE HISTOGRAM
0.100
GEOCHEM NO.
G259-087
CLIENT'S NAME
GEXTY OIL
PObULATION
NO.
OF READINGS
40
20
TYPE OF SAMPLE:
/SAMPLE
DEPTH
CrG
WELL NAME Elephant
WestButte
Federal
MIN. RO (
0.92
1.13
%)
MAX. RO (
1.09
1.42
%I
MEAN Ro(
1 .oo
1.29
%)
STD. DEY.(%)
0.052
0.091
NO. 5350
7 No. 1
REMARKS
GEOCHEM
NO.
CLIENT'S
G259-093
NAME
(NO. OF READINGS
,'
23
1.02 1.031.03
1.08 1.091.09
1.30 1.301.31
POPULATION
NO.
(1)
(2)
TYPE OF SAMPLE:
NAME
WELL
GETTY OIL
=.60) 0.96
1.03 1.03
1.09 1.10
1.31 1.32
OF READINGS
37
0.96 0.97
1.04 1.04
1.15 1.18
1.33 1.34
MIN RO [
0.96
1.15
0.97
1.04
1.19
1.36
%)
DEPTH /SAMPLE
CPG
Elephant
West
NO. 5650
Butte
Federal
7 No. 1
1.02 1.02
0.98 0.98 0.98 0.99 1.00 1.00 1.011.01
1.05 1.05 1.05 1.06 1.06 1.06 1.06 ,1.07 1.07 1.08
1.27 1.271.29
1.20 1.21 1.231.231.241.251.26
1.36 1.39
MAX. RO [ Yo) MEAN RO(
STD. DEV.( %I
REMARKS
Yo)
1.lo0.040
1.39
1.03
1.27
0.063
GEOCHEM NO.
G259-099
CLIENT'S NAME
GETTY OIL
TYPE OF SAMPLE:
DEPTH /SAMPLE
CrG
WELL NAME West Elephant
Federal
Butte
(No.OF READINGS = 45) 1.00 1.021.031.031.041.041.06
1.06 1.07
1.10 1.12 1.13 ,1.13 1.141.161.231.241.261.291.291.301.311.331.361.361.361.37
1.381.411.411.421.431.441.451.491.491.52
1.55 1.561.59
POPULATION
NO. OF READINGS
1.59
NO. 5950
MIN Ro ( % )
1.oo
1.23
MAX. Ro (
1.16
%)
MEAN Ro( %)
1.08
1.39
1.08
1.091.091.09
STD. DEK( %)
0.044
0.101
7 No. 1
1.10
REMARKS
GEOCHEM NO.
G259-103
CLIENT'S NAME
GW OIL
TYPE OF SAMPLE:
DEPTH /SAMPLE
CrG
NAME
WELL
NO. 6150
West Elephant Butte Federal 7 No. 1
(NO.
Rl2ADINGS = 60) 0.920.930.930.950.950.961.021.041.051.201.211.241.261.29
1.46 1.48 1.51 1.55 1.56 1.561.571.581.591.601.63
1.311.351.371.371.421.431.46
1.661.671.681.691.721.731.741.751.771.771.781.791.791.801.811.821.821.83
1.831.861.861.881.891.911.931.941.951.96
POPULATION
NO. OF READINGS
MIN RO ( % )
MAX. RO (
MEAN R O ( %)
STD. DEV.( %I
Yo)
'
91.05
141.48
371.96
(1)
(2)
(3)
0.92
1.20
1.51
0.97
1.35
1.75
0.096
0.128
0.050
4
"
A
X
I , , , , ( , (l , a , ,ll, , r , , , , l
0
0.0
REMARKS
0.1
0.2
0.3
0.4
0.5
0.6
xx x .
mxx
, 1 1 , ( ( 1 1 1 ~ 1 ~ , , , , 1 :
0!7
0.8
0.9
VITRINITE
1.0
X
xx
x
x x x xx xxxxxxmxxx
xxxxxxx x m
l l ~ " , , , , l " , ~ l l I, I~I I , I ~ 1 1 9 c , I
1.1
1.2
1.3
1.4
REFLECTANCE HISTOGRAM
13
,
1.6
1.7
1.8
1.9
11""11"'1""1
2.0
2.1
2.2
2.3
GEOCHEM
NO.
G259-104
CLIENT'S NAME
am OIL
TYPE OF SAMPLE:
WELL NAME Elephant
WestButte
Federal
1.051.07
(NO. OF READINGS = 60) 0.651.05
1.251.271.281.28
1.301.31
1.291.29
1.461.55
1.56 1.58 1.61 1.63 1.671.67
1.841.84
1.851.89
1.79 1.80 1.811.83
POPULATION
NO. OF READINGS
MIN Ro ( % )
0.65
1.05
1.20
VITRINITE
NO. 6200
7 No. 1
1.24
1.08 1.08 1.09 1.10 1.11 1.131.141.201.23
1.321.331.361.391.401.401.421.44
1.46 1.46
1.681.69
1.71 1.71 1.721.721.73
1.74 1.781.79
1.921.95
MAX. Ro ( %)
MEAN Ro ( %)
STD. DEV. [ %)
REMARKS
0.65
1.09
1.56
0.65
1.14
1.95
X
XXX
!
DEPTH /SAMPLE
cr(;
X
X
x m
X
x x
0.031
0.226
x x x
REFLECTANCE HISTOGRAM
I
GEOCHEM
NO.
TYPE OF SAMPLE:
G259-105
CLIENT'S NAME
NAME
WELL
GETIY OIL
(No. OF READINGS = 60) 0.60
1.24 1.25
1.19 1.201.22
1.431.451.46
1.401.41
1.731.731.80
1.711.71
0.95 0.99 1.01
1.25 1.27 1.28
1.471.531.53
1.851.871.92
NO. OF READINGS
MIN Ro ( % )
1
00.60
-60
111.12
0.95
1.17
48
1.50
POPULATION
(1)
(2)
(3)
3-
DEPTH /SAMPLE
CTG
NO. '6250
7 No. 1
Elephant
WestButte
Federal
1.03 1.04 ,1.05 1.07 1.09 1.10 1.11 1.12 1.17 1.18
1.28 1.29 1.31 1.33 1.33 1.35 1.36 1.38 1.38 1.40
.
1.561.581.591.611.651.671.681.681.691.70
1.931.95
MAX. Ro ( %)
MEAN Ro( %)
STD. DEV. ( % )
REMARKS
0.60
1.05
0.054
1.95
0.226
-
6-
xx
X
x x x x x x x x x x x
o",l,,
0.0
,,,,
, , 1 1
0.1
0.2
0.3
0.4
"1111
X, , , I
Od
0.6
0!7
0.8
0.9
X
11,,
,I.,I
1.0
1.1
V.lTRlNITE
REFLECTANCE
1 1 1 1
1.2
13
XrnXxxxX
II
1 1 1 1
1.4
HISTOGRAM
xx
xxr
X
xxx xx
1 1 1 1 , 1 1 1 1 , 1 1 1 1 ~ 1 ~ 1 1 , 1 1 1 1 , 1 1 1
I d
1.6
1.7
1.8
1.9
2.0
2.1
2.2
2.3
r
GETTY O I L COMPANY
WEST ELEPHANT BUTTE FEDERAL 7 NO.l
GEOCHEM LABORATORIES, I N C .
1143-C Brittmoore Road
Houston,Texas
77043
Job No. :
Date:
Reporting:
G259
A p r i l 8, 1983
RudolGh R. Schwarzer, Ph.D
Thomas J. S c i f f , Jr.
TABLE OF CONTENTS
INTRODUCTION
A.
Table of Formation
Tops
B.
S i m p l i f i e d Flow Diagram of i n t e r p r e t i v e program
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
andFigures
A.
Formation by f o r m a t i oiin t e r p r e t a t i o n s
B.
Sample
by
sample
SECTION I1
-
SECTION 111
interpretations
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 reportonGetty
O i l Company'sWest
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
SECTION I
A.
- C0mputerize.dGeochemical
Elephant Butte Federal
below.
7 No.1 Well
Interpretations
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
usesthefollowinggeochemicalinformationfromsamples
w i t h i n a given formation:
(1)
sample l i t h o l o g y
(2)
thermal
maturity
(3)
t o t aol r g a n i c a r b o n
content
(4)
v o l a t i lhe y d r o c a r b o (nSpl e a k )
(5)
kerogen
type
(TAI)
(TOC)
The f o r m a t i o n i n t e r p r e t a t i o n s a r e
computed f o r 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.
The f o r m a t i o n i n t e r p r e t a t i o n s e c t i o n
i s cunprised of t h r e e
tables:
B.
Table I
F o r a m t iIonnt e r p r e t a t i o n
Table I1
Formation Summary I n t e r p r e t a t i o n
Table 111
Formation Sumrnary of GeochemicalData
A computerized
sample
by sample i n t e r p r e t a t i o n i s presented
u s i n gs 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:
(1)
s a m pl il teh o l o g y
(2)
t h e r m aml a t u r i t y
(3)
t o t aol r g a n i c r b o n
content
(4)
volatile
hydrocarbon
(S1
peak)
(5)
kerogen
type
(TAI)
(TOC)
Thesample
i n t e r p r e t a t i o ns e c t i o n
and two f i g u r e s :
i s cmposedof
three t a b l e s
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
Geochemical
Figure 1
T h e r m aA
l l t e r a t i o nI n d e x
Figure 2
V i t r i n i c 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)
Data
(TAI) M a t u r i t r yP r o f i l e
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
a l l t 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 )
d a t aa l o n gw i t h
The d a t at a b l e si n c l u d e da r e
a s follows:
i n s e r t e d i n p r o p e ro r d e r .
Table I
C1-C7 Hydrocarbon Analyses
A.
Air Space
B.
C u t t i n g s Gas
C.
Air Space and C u t t i n g s Gas
Table I1
Summary of Organic Carbon and Visual Kerogen Analysis
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
R e s u l t so f
Rock-Eva1 P y r o l y s i s
SECTION 111 D a t aP l o t s( s e p a r a t e )
A.
A s e r i e s of large
computer
generated
diagrams
of
the
geochemical
i s 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
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 .
diagrams are l a b e l e d as f o l l o w s :
B.
- C1-C7 Hydrocarbons
Figure 1
Summary ofOrganicAnalyses
Figure 2
Summary ofOrganicAnalysis
(no data)
Figure 3
Summary ofOrganicAnalyses
Figure 4
C15+ Paraffin-Naphthene Gas
Chromatograms
w i t h 1itho.logy diagram (no data)
Figure 5
T h e r m aM
l a t u r i tPy r o f i l e s
Figure 6
Summary of P y r o l y s iA
s nalyses
F i g u r e 7B
TissotDiagram
- C&C7
Hydrocarbons
- S o u r c eC h a r a c t e r
- HydrogenIndexvs.
GEOCHEM LOG
2.
C r o sSs e c t i o ndsi s p l a y i n g
(reduced)/
Oxygen Index
Other
Computer
Generated
Plots
1.
The
the geochemical
data
TABLE OF FORMATION TOPS
DEPTH (Feet)
55
581
1055
3328
6110
6244
6925
7069
7230
b
FORMATION
Tertiary
Cretaceous
Pe mi an
Pennsylvanian
Mississippian
Ordovician
Cambrian
Precambrian
T.D.
S i m p l i f i e d FlowDiagram
STEP IIDATA INPUT
1.
2.
3.
Sample I D
Depth
Lithology
a. X Sandstone (Ss)
6 . % Siltstone (st)
(Sh)
c. % Shale
d. X Carbonate (Cb)
e. % E v a p o r i t e (E)
f . % Coal
(C)
g. % Other
(Ot)
h. % Metamorphic (M)
4.
Geochemical
parameters
P y rao.dl ya st ai s
1.
2.
3.
V o l a t i l eh y d r o c a r b o n
(S1)
Generatedhydrocarbon
(52)
Temperature ('C) o f 52 peak
.
(TMAX)
Total
b. organic
carbon
(TOC)
c.
Kerogen
type
1. % Amorphous (Am)
2. % Herbaceous (H)
3. % Woody (W)
4. 2 Coaly (C)
d . T h e r mm
a la t u r iitnyd i c a t o r s
1. Thermal a l t e r a t i o ni n d e x (TAI)
2. V i t r irne if tl ee c t a n c e
(XRo)
output
Formations :
Table I11
Samples :
Table V I
Fig. 1
Fig. 2
STEP II/LITHOLOGY CHECK
I f t h e sample i s u n i n t e r p r e t a b l e b e c a u s e i t c o n t a i n s c o a l , mud
a d d i t i v e s ,o rm e t a m o r p h i c s ,
a statement is p r i n t e d t o t h a t e f f e c t .
I f a s i g n i f i c a n tp o r t i o n - o ft h es a m p l e
i s composed of"other"
i s r e f e r r e dt o a f o o t n o t e . I f t h e
l i t h o l o g i e s ,t h ei n t e r p r e t a t i o n
sample i s composed of 60% o r more of e i t h e r s o u r c e r o c k s ( s h a l e
a n d / o rc a r b o n a t e )o rn o n s o u r c er o c k s( s i l t s t o n e sa n d / o rs a n d s t o n e s )
thesample i s i n t e r p r e t e d i n S t e p
I11 below.
.ICsSTEP III/INTERPRETATION PROCEDURES
I n t e r p r e t a t i o n sa r eb a s e d
on thefollowingparameters:
1. Lithology
4 . h yVdor ol actai rl eb o n
(Sl)
2 . Thermal
maturity
using
TAI
5 . Kerogen
type
3 . Totalorganiccarbon
(TOC)
a TAI v a l u e , a TAI value i s taken
I f a particular sample lacks only
from a t h r e et e r m moving avergecurve(Figure
I ) . The d e s c r i p t i v e
terminologyusedrelativetotheparametervalues
i s givenbelow.
1
output
Formations
Table I
Table I1
Samples
Table I V
Table V
INTERPRETIVE
DESCRIPTIVE
TERMINOLOGY
Thermal Alteration Index(TAI)
-
Descriptive
Terminology
Value
1.0
1.8
2.2
2.6
3.6
4.2
- 1.7
- 2.1
- 2.5
- 3.5
- 4.1
- 4.9
->Metamorphosed
5.0
Value
1.3 - 1.5
1.5 - 2.2
2.2 - 2.5
2.5 - 3.2
3.2 - 3 . 4
3.4 - 3.8
-> 3.8
Immature
Moderately
Immature
Moderately
Mature
Mature
Very
Mature
Severely A1 tered
Associated
Hydrocarbon
Type
Biogenic Gas
Biogenic Gas and Immature Oil
Immature Heavy Oil
Mature Oil
Mature Oil, Condensate, and Wet
Gas
Condensate andWet Gas
Petrogenic Methane Gas
Total Organic Carbon (TOC)
Carbonate
Value
in X
Descriptive
Shale
-
Poor
Poor
, < 0.12
Fair Poor
0.13 - 0.25
Poor
0.26 - 0.50
Fair
1.00 Very
0.51 -Good
2.00
1.01 - Good
Very Good
2.01 - 4.00
Excellent
>- 4.00
Terminology
-
'
Excellent
Excellent
Excellent
Volatile Hydrocarbon (Sl)
Value in
ppm
Descriptive
Terminology
<
200
201 401 801 1601 > 3200
400
800
1600
3200
Good
Very Poor
Poor
Fair
Good
Very Good
Excellent
Kerogen
Oil/Gas
Factor
% Oil = (% Am) + 0.6 ( %H) + 0.3 (%W)
% Gas = 100
+ 0.1
( %C)
- % Oil
Vitrinite Reflectance (% Ro)
Value
0.0
-
0.43 0.56 0.81 1.63 2.38 > 4.50
0.42
0.55
0.80
1.62
2.37
4.50
Value
Descriptive Terminology
Immature
Moderately Immature
Moderately Mature
Mature
Very Mature
Severely Altered
Metamorphosed
Associated Hydrocarbon Type
~
0.30
- 0.35
- 0.60
0.35
0.60 0.80 1.20
1.50
> 2.00
-
-
0.80
1.20
1.50
2.00
Biogenic Gas
Biogenic Gas and Immature Oil
Immature Heavy Oil
Mature Oil
Mature Oil, Condensate andWet Gas
Condensate and Wet Gas
Petrogenic Hethane Gas
TABLE I
FORMATION INTERPRETATION
This table gives a formation
by formation interpretation based on the
following parameters:
(1) Lithology
(2) Thermal alteration index (TAI)
( 3 ) Total organic carbon (TOC)
( 4 ) Volatile hydrocarbon (Sl)
( 5 ) Kerogen type
TAI a
If a TAI value is lacking for an otherwise interpretable sample,
value is taken from a three term moving average plot of all the TAI data for
this well (see Figure
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
quality of the sample whereas correspondingly, a high gas factor will enhance
the gas ratio of the sample and diminish the oil prospectiveness.
UtLL N R P l t :
7 NO.
UtB
1
_.
FI N
O TREMRAPTRI O
EN
TATION1
GEOCHEM
SAMPLE
N U MDBEEPRTX
H# X
INTERPRETATION
______----_____
T O PO FT E R T I A R Y
______-__-_-___
T O PO FC R E T A C E O U S
.......................
.................................................................
55
58 1
_______________
1055
03SH
03CB
1055- 3328
1055- 3328
T O PO Fp E R M I F \ N
S H A L E I MATURE
NONSOURCE
FOR
K E R O G ETN
Y POEI L / G AF S
A C T OO
RTI: L
Y P6 E
4GXAT S
YPE
-_______-____________
........................
O I L A N DA S S O C I A T E DG A S
363
, MODERATELYMATUREPOORIMMATURE
CARB
O I L AND
ASSOCIATED
K E R O G ET N
YP
OEI L / G A
FS
A C T OORTI:Y
LP
6G
8EXA
TS
YPE
03NS
32%
-
SAND
NONSOURCE
NO E V I D E N C E
OF
RESERVOIRED
HYDROCARBON
KEROGE
TN
YP
OEI L / G A
FA
S C T OORTI:Y
LPE
751
GA
TS
YP
2E
5%
3328
1055-
"""""""-
3328
TOP
'OF
PENNSYLVANIAN
,
04SH
3328-
6110
SHALE
MATURE
VERY
POOR
O I L SOURCE
K E R O G ETN
Y POEI L / G AF S
Q C T OO
RTI:Y
L P5 E
4G%AT S
Y P4 E
6X
04CB
3328-
6110
CARE
MATURE
POOR
O I L llND
ASSOCIllTED
K E R O G ET N
YP
OEI L / G A
FS
A C T OO
RTI:Y
L PE
,
""_
T O PO FM I S S I S S I P P I A N
6925
_______________
T O PO FC A M B R I A N
7069
______---______
TOPOFPRE-CGMBRIfiN
6110
6244
GAS SOURCE
-
-----------------GOOD GAS
SOURCE
CFIS SOURCE
63%
G AT SY P3 E
7X
------------------
_______-----___
T O P OF O R D O V l C l A N --______-____________
.......................
___________________
...................................................................
parametars a s daflned in G e o C h e m ' s S o u r r e R o c kR e f e r e n c eM a n u a l .
A l l f o o t n o t e s tvped o n separate s h e e t s .
X X X Sample T u p e :C E - C a r b o n a t e
S o u r c e , S H - S h a l e Source, N S - S a n d / S L l tN e n - S o u r c e .
X R a t l m
. *X
TABLE I1
FORMATION SUMMARY INTERPRETATION
This table gives a formation by formation interpretation of each parameter
used in Table I. The descriptive terminology used for each parameter is listed
in the introduction.
W
r
~
T
I
O
N
X
..
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
GEOCHEM
SAMPLE
NUHBERIIXX
LITHOLOGY
DEPTH
HC
TOC
PRODUCTIVITY
THERMALXXX
X
OIL
X GAS
TAI FACTOR
MATURITY
YR0 INDEX
FACTOR
RICHNESS
RICHNESS
_______________
___________________---CRETPCEOUS __________--------_-PERMIAN ........................
...................................................................
55
581
1055
.
TOP OF TERTIARY
_______________ TOP
_______________ TOP
03SH
1055- 3328
SHALE
n
03CB
1055- 3328
CARE
"
1055- 03NS
3328
SAND
'
MM
OF
OF
POOR
M
VERY POOR
MM
FaIR
VERY POOR
POOR
M I VERY POOR
0 .OO
64
36
0.23
68
32
0.00
75
25
46
37
..................................................................
XRatinp p a r a m e t e r s as defined In GeoChem's S o u r c e Rock Reference Manual.
XI Value taken from a 3 term runnlne averase for e l l values of this Parameter.
XI# Thermal Maturtty Abbreviations: I=Immature. MI=Moderately Immature, MM=ModcratrIv
VM=Very M a t u r e , SA=Severly Altered, Ml=Metamorphosed.
XIXX Sample Type: CB-Carbonate Source, SH-Shale S o u r c e , NS-Sand/Silt Non-Source.
X X X X X A l l footnotes typed on separate sheets.
Mature, M=Maturt.
TABLE I11
FORMATION SUMMARY OF GEOCHEMICAL DATA
a formation by f o r m a t i o nl i s t i n go ft h ed a t au s e di nt h e
Thistablegives
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 informationgiven
for eachformation
follows:
is as
(7) T o t a ol r g a n i cc a r b o n
(TOC, %)
Sample number
Depth
(8) Kerogencomposition(amorphous
Lithology
(Am), herbaceous (€0, woody (W),
( 4 ) V o l a t i l eh y d r o c a r b o n( S l ,
ppm)
and c o a l y ( C ) )
(5) Generatedhydrocarbon
( 5 2 , ppm) (9) Thermal a l t e r a t i o ni n d e x
(TAI)
(6) Maximum temperatureof 52 peak ( 1 0 )V i t r i n i t er e f l e c t a n c e
(%Ro)
(1)
(2)
(3)
-. .
"
"
"
"
"
"
"
"
~
"
"
"
"
"
"
"
"
"
"
I
iORMATlON NAME:
TERTIaRY
55-
......................................
(
581
>
PYROLYSIS DATA (PPM )
SEDIMENT FACIES
I
(
NO/ %
si
)X
s2
S3
TMAX
TOC
MATURITY
%R0fE
TAIII:
KEROGEN TYPE ELXI
X0
XH
%U
%C
%OIL
FACTOR
FClCTOR
XC4S
..................................................................
SHALE
SOURCE
PRESENT
NOT
I N THIS FORMRTION
CARBONRTE
SOURCE
NOT
PRESENT
I N THIS FORMATION
SAND-SILT
I N THIS FORMATION
NON-SOURCE
NOT
PRESENT
...................................................................
FORMATION
NAME:
CRETFICEOUS
581-
(
1055)
........................................
SEDIMENT FACIES
I
(
NO/
%
P r R o L r s I s DOTPI ( P P M )
s1
)X
St
53
TMAX
TOC
MATURITY
TClIPI
XR0ELX
KEROGEN
TYPE
XA
%H
Xrf
%U
%C
SOIL
FKTOR
%GAS
FClCTOR
..................................................................
II
SHALE
SOURCE
PRESENT
NOT
I N THIS FORMATION
CARBONATE
SOURCE
NOT
PRESENT
I N T H I S FORMATION
SAND-SILT
I N THIS FORMATION
NON-SOURCE
NOT
PRESENT
"_""""""""""""~
1055-3328
.....................................
FORMATION
NOME:
PERMIAN
SEDIMENT FACIES
(
(
NO/ %
)I
)
PYROLYSIS DATA (PPM )
s2
S3 TOC TMAX
si
MATURITY
KEROGEN.TYPE
TAIXI:
%R0LI:
-"""-"""""""""""""""""""""""""""""""""""""""""""""""""""""~"""""""~
SOURCE
SHALE
292
AVG
MIN
3 3MAX
6
,
(
210.
210.
CARBONATE
SOURCE
PlVC
MlN
MAX
2/ 1 1 )
10.
10.
(
0.
2 . 700. .0 12 4 82 1 0 .1 0 .
0.
0 .40
86
0.66
9.
B.
4 4 43 7 0 .7 0 , 4 0 .
176. 30,
0 .05 .12 . 10 . 0286 48 0 .
321 2 . 3 0 . 1 36
7
.0.m
19
46 0.58
2.8
1 .QS
Number of sample= and percent occurrence In t h i s Formation.
V a l U E t a k e n from a 3 term smoothins f o r all values f o r t h i s Paramete-.
*X*
Keroqen Type: am-Amorphoul-Sapropel, H-Herbaceous, H-Uoodv, C - C o a l u / l n e r t i n I t e .
ff
40
%H
%OIL
%GAS
0
64
36
0 32
68
XXf
FACTOR
XU
FACTOR
XC
10/ 5 3 )
"-""""""_""""""""""""""""""""""""""""""""""""""~""""""""""""""""""~
f
20
XA
h.
UELL NenE:
UEE F E D R L 7 NO.
FORMATION
N A M EP: E R M I A N
-UVMARY
1
1055-3328)
.....................................
!
~
...
O F GEOCHEMICAL
(
S E D I N E NFTA C I E S
(
SCIND-SILT
NON-SOURCE
AVG
MIN
0.52 2.a
MAX
D'ATA
"""""""""""""-"""""
(
0.14
NO/
%
PYROLYSIS DATA
52
si
)X
(
K E R O GMEANT U R I T Y
TQIXI
XR0XX
PPM )
TTOMCA X
53
%OIL
%A
%H
%H
%C
%G'AS
F QFCATCOTRO R
7/ 3 7 )
445
210.
0.
0.
0.
10.
4.
0.
303
234
144.
80.
0.10
0.07
2.5
2.1
0.52
0.51
50
33
17
0
75
25
..................................................................
F O R M A T INOANM
PEN
: NSYLV'ANIAN
33286110)
...........................................
(
P Y R O L Y S I SD A T A
SEDF
I HAECNI ET S
(
NO/
%
sz
51
)X
(PPH
)
53
T ATTIO
X
MC
XR X
M A T UKREI T
RY
OTG
YE
PN
E
YR0XX
%OIL
XXX
%A
%H
%GAS
%W F AFC%
ATCOTRO R
..................................................................
S H A L ES O U R C E
AVG
(
12)
48)
240.
30.
MlN
MAX
501
230.
12.
0.
60.
800.
C'ARBON'ATE
SOURCE
AVG
(
1.05
3.0
275
8.21
3.02
2.8
57
2.7
2.3
0.23
0.06
2.9
2.8
10
0.39
0.36
1.OO
54
33
0
38
0
46
1532/ )
53.
5.
0.
30.
NlN
MAX
1.10
440
186.
10.
0.48 445 280. 100.
10.
354132.
27550.
1.02
0.35
36
E6
63
37
%OIL
X'AS
I N T H I SF O R M Q T I O N
S A N D - S I L TN O N - S O U R C EN O TP R E S E N T
"""""""""""""~""""""""""""""""""""""""""""""""""""""""""""""-"""""
F O R M A T I O NN A M EM
: ISSISSIPPICIN
I
I
(
6110-6244)
...........................................
P Y R O L Y S I SD A T Q
SEDIM
FC
EINCTI E S
'
(
NO/
%
Sl
)X
"""""""""""""""~"""""""""""""""""""""""""""""""""""""""""""""""""-
PPM)
53
TMAX
MATURITY
XR0XX
T'T
AO
I XCX
KERO
TG
YP
EE
N
%A
%H
III
%U
F QFC%
ATC
COTRO R
I N TFHOI S
RMATION
S HSAOLU
EPN
RRO
CETES E N T
CCIRBONATE
SOURCE
AVG
MlN
VAX
(
sz
(
2/100)
-"_ - -- - - -- - -
"
"
"
-- -- "
"
"
"
--- --
"
-- - --"
"
"
"
"
"
-- -- -- -
0.43
3.0
0.41
0.56
7.1
'
3.1
1.05 45
1.04
1..05
18
56
36
0
..................................................................
S N u m b e r of s a m p l e s and P e r r j e n t occurrence I n thlri F o r m a t l o n .
* X V a l u e t a k e n from a 3 t e r m s m o o t h l n s f o r a l l v a l u e s for t h I s P a p a m e t e r .
XXX
Kerogen T y p e A
: m-AmorFhous-Saprorel,
H-Herbaceous,
H - H o o d v ,C - C o a l y / I n e r t l n l t e .
44
'
....._
..
FORMCITION SUMPICIRY O F G E O C H E M I C O L DATO
1
UELL N M ~ E : U E B F E D R L 7 N O .
"
"
"
"
"
"
"
"
"
"
"
~
"
"
"
"
"
"
"
FORMCIfION NCIME:
M155ISSIPPICIN
6110- 6244)
...........................................
PYROLYSIS
S E D I MFEANCTI E S
(
(
NO/
X
si
)X
D A T A (ppn )
53
52
TMAX
TOC
K E R O GMEANT U R I T Y
T A I X X H X HX%RA0 X X
I C
X G l%l SO I L
F AFCATCOTRO R
.................................................................
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 NT H I SF O R M l l T I O N
..................................................................
6244- 6925)
........................................
FORMllTION
N A M EO: R D O V I C I A N
S E D I M E NFTA C I E S
(
(
NO/
%
S1
)%
PYROLYSIS
SZ
DATA
(
PPn)
53
TMAX
TOC
MATURITY
TAIXU
XR0If
K E R O G E NT Y P E
XXf
%A
XH
XU
XC
X G%
A 5O I L
F AFCl lTCOTRO R
..................................................................
SSOHUARLC
EE
AVG
(
- -- - ---- "_ ---- ------- --""_ ---- ------ - - - -- - - - -
2/ 15)
"
PI I N
"
"
"
nax
"
"
CARBONATE
SOURCE
RVG
n l N
HCIX
(
ll/
85)
-----------"_ "
"
"
"
"-_ "_
"
"
"
"
"
"
"
"
"
"_ ---- --- ---- --- ---- --"
"
0.41
3.4
0.36
3.4
0.451.05 3.4
0.10
0.06
0.26
3.3
3.1
3.4
"_ "_ "_ "_ _"
"_
1.05
I.05
1.05
10
60
30
0
55
45
1.04
I.05
I N T H I SF O R M A T I O N
S A N D - S I L TN O N - S O U R C EN O TP R E S E N T
.................................................................
FORMATION
N A M EC: A M B R I A N
(
6925-
7069)
......................................
S E D I M E NFTA C I E S
(
NO/
X
)X
PYROLYSIS
DATA ( p p n )
s2
SI
53
TnAx
TOC
K EMRAOTG
UE
RN
ITY
TAIXX
XR0H
TYPE
%A
%H
XOIL
XGAS
XW F AFCA
XTCOTRO R
"""""I""""""""""""""""""""""""""""""""""""""""""""""""""""""""
I N TFHOI S
RMATION
S HSAOLUEPNRRO
CETES E N T
CARBONATE
SOURCE
AVG
(
2/100)
nlN
"_ ---- -- - - - -- - - "
MAX
SAND-SILT
NON-SOURCE
NOT
PRESENT
"_
--"_ --"
"
"
"
"
--_"
-- - - - -- -- "
"
"
--
"
"
0.06
0.05
0.06
3.4
3.4
3.4
1.05
1.05
1 .0s
_"
"_ "_
"-
"_
I N T H I SF O R n C l T I O N
.................................................................
% N u m b e r o f s a m p l e s and p e r c e n t o c c v r r e n c e in this F o r m a t i o n .
x % Value t a k e n f r o m a 3 term s m o o t h i n s f p r a l l values f o r t h l s p a r a m e t e r .
*X%
Kerogen T u p =A: m - A m o r p h o u s - S a p r o p e I H
r -Herbaceous,
W-Woodv.
C-Coalu/Inertinite.
"_
UELL NAME:
W E B F E D R L 7 NO.
FORtiQTION
N A M EP: R E - C A M B R I A N
FORMATION
SUMMARY
1
7069- 7230)
..........................................
SEDIM
FE
AN
CT
IES
(X
O F GEOCHEM
DIACTeAL
(
NO/
st
)X
.
P Y R O L Y S I S DCITCI ( P P M )
53
TMAX
52
MCITURITY
TXCR
TI O
0I XXCXX
KERO
TG
YP
EE
N
F AFCXCI
XATC
COTXRO
U RX H
%!%!X
%OIL
XGCIS
...................................................................
S HSAOLU
EPN
RRO
CETES E N T
CARBONATE
SOURCE
AVG
I N TFUO1R
5MATION
(
3/100)
-- -----
_"
"_ - ------ - - -- - - - -
"
"
"
"
"
MlN
"
"
"
MAX
"
SCIND-SILTNON-SOURCENOTPRESENT
"
"
"
"
"
"
"
-
..
. . .... .,
~.
"
0.08
"
0.07
3.4
3.4
"
0.08
3.4
I N T H I SF O R M O T I O N
""_"""""""""""~
X N u m b e r o f s a m p l e s and p e r c e n t o c c u r r e n c e In t h l s F o r m a t i o n .
X % V a l u e taken f r o m a 3 t e r ms m o o t h l n s
f o r a l l valuer; for t h i s P a r a m e t e r .
%XI
Kerosen T y p eO
: m - A . o r p h o u s - S a p r o p e 1H, - H e r b a c e o u s .
W-Woody,
C-Coaly/lnertlnltc.
"_ "_ "_ "_
I .05
I .0s
I .05
"_
"_
TABLE I V
SAMPLE INTERPRETATION
T h i st a b l eg i v e s
parameters:
a samplebysample
i n t e r p r e t a t i o nb a s e d
on t h ef o l l o w i n g
(1)
(2)
(3)
Lithqlogy
T h e r m a l '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)
( 4 ) Volatilehydrocarbon(S1)
( 5 ) Kerogen
type
a TAI
I f a T A I v a l u e i s l a c k i n g f o r a 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 o f a l l t h e
TAI d a t a f o r
t h i sw e l l( s e eF i g u r e1 ) .
The 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 highoilfactor
w i l l e n h a n c et h eo i l
q u a l i t y of thesamplewhereascorrespondingly,
a h i g hg a sf a c t o r
w i l l enhance
o f thesample and d i m i n i s h t h e oil p r o s p e c t i v e n e s s .
thegasratio
SAMPLE
NUMBERXXX
_____________-T O PO FT E R T I A R Y
55
_______________
58 1
_______________
1055
001
1060-1100
T O PO FC R E T A C E O U S
.......................
.....................
_______________--___---, M O D E R C I T E L YI M M A T U R EP O O RB I O G E N I C
GAS SOURCE - GOOD P O T E N T I A L
T O PO FP E R M I A N
CARE
FOR O I L ANDGAS
K E R O G ETN
YP
OEI L / G A
FS
A C T OO
RTI:Y
L PE
53%
41%
G AT S
YPE
-
SILT
NONSOURCE
NO
EVIDENCE
OF
RESERVOIRED
HYDROCARBON
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
002
1100-1150
003
1150-2000
004
1200-1250
CQRB
MODERATELY
IMMATURE
POOR
BIOGENIC
GASOURCE
FOR O I L R 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 TA V C I I L A B L E
005
1250-1300
CARE
MODERATELY
IMMATURE
VERY
POOR TO POOR B I O G E N I C GAS SOURCE
POOR P O T E N T I A LF O RO I L
CIND
GCIS
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 R B L E
006
1300-1350
CARB
MODERATELY
IMMATURE
POOR
BIOGENIC
GAS OURCE
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
007
1350-1400
CARB
, M O D E R A T E L Y IMl'!ATURE POOR B I O G E N I C GAS SOURCE
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
008
1400-
CARB
1450
- FAIR
CCIRB
, 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 R N DG A S
K E R O G E NT Y P EO I L / G A SF A C T O R
NOT A V A I L A B L E
-
,
-
POTENTIAL
F A I RP O T E N T I A L
,
,
, MODERATELYMATUREPOORIMMATURE
-
F A I RP O T E N T I A L
-
F A I RP O T E N T I A L
O I L AND
ASSOCIATED
GAS OURCE
K E R O G E NT Y P EO I L / G A S ' F C I C T O RN O TA V A I L A B L E
,
OIL A N D A;SOCIATED
003
1450-1500
CARE
MODERRTELY
MATURE
VERY
POOR
IMMATURE
SOURCE
K E R O G E NT Y P EO I L / G A S
FCICTORNOTCIVAILCIBLE
010
1500-1550
SILT
NONSOURCE
NO E V I D E N C E
OR
F ESERVOIRED
HYDROCARBON
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 C I B L E
-
"__"""""~"""""~"""""""""""~"~
X R a t l n g p a r a m e t e r s as d e f i n e d In G s 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
X X A l l footnotes t y p e d on s e p a r a t e sheets.
I X X Sample T Y P ~ : Bfonk-Cuttinsm, C - C o r e ,S - S l d e w a l C
l ore.
Manual.
GAS
i
I
J O B NUHSER:
0259
YELL
NAME:
UEB FEDRL
7 NO.
1
SAMPLE
. .,si,. ,
d
T.allLL
I"
,.,.
,
i
,...
...L..I
....**4-a
,.
INTERPRETITION1
"
"
"
"
"
"
"
"
"
"
"
GEOCHEM
SAMPLE
NUMBERIIXX
INTERPRETATION
DEPTH
..................................................................
-
SILT NONSOURCE
NO EVIDENCE OF RESERVOIRED HYDROCARBON
KEROGEN TYPE OIL/GA5 FACTOR NOT AVAILABLE
01 1
1550-
1600
012
1600-
1650
013
1650-
1700
NO EVIDENCE OF RESERVOIRED HYDROCARBON
SILT NONSOURCE
KEROGEN TYPE OIL/GRS FRCTOR NOT AVAILABLE
014
1700-
1750
, MRTURE POOR OIL AND ASSOCICITED G R S SOURCE
CARB
KEROGEN TYPE OIL/GAS FACTOR NOT AVAILABLE
015
1750-
1800
MIXED SOURCE/NONSOURCE LITHO
016
1800-
1850
NO EVIDENCE OF RESERVOIRED OIL
SILT NONSOURCE
KEROGEN TYPE OIL/GAS FRCTOR NOT AVAILABLE
013
1950-
2000
SILT NONSOURCE - NO EVIDENCE OF RESERVOIRED HYDROCARBON
KEROGEN TYPE OIL/GAS FACTOR NOT AVAILABLE
-
-
SILT NONSOURCE - NO EVIDENCE OF RESERVOIRED OIL
75%
GAS TYPE
KEROGENTYPEOIL/GASFACTOR:OILTYPE
I
020
200Q-
2050
LITHOLOGY-OTHER
FOOTNOTE
022
2100-
2150
LITHOLOGY-OTHER
FOOTNOTE t 2
024
2200-
2250
LITHOLOGY-OTHER
FOOTNOTE
026
2300-
2350
LITHOLOGY-OTHER
FOOTNOTE t 4
029
2400-
2450
LITHOLOGY-OTHER
FOOTNOTE
il
5
031
2500-
2550
LITHOLOGY-OTHER
FOOTNOTE
#
6
033
2600-
2650
LITHOLOGY-OTHER
FOOTNOTE
# 7
035
2700-
2750
LITHOLOGY-OTHER
FOOTNOTE
# 8
#
i
3
X Ratlns parametars as deflned In GenChem's S o u r c e Rock Reference Manual.
f X A l l footnotes typed on separate sheets.
I X X Sample Type: Blank-Cuttings, C-Core, S-Sldewall Core.
25%
J O B NVflBER: G Z 5 S
UELL NAME: UEB F E D R L 7 N O .
TeBLE
1
SAMPLE
I V
INTERPRETATION*
~
GEOCHEM
SAMPLE
N U MDBEEPRTXHX X
~~~~~~
I NTERI'RETAT I ON
..............................................................
037
2800-
033
2900-2950
LITHOLOGY-OTHER
FOOTNOTE + I 0
041
3000-3050
LITHOLOGY-OTHER
F O O T N O T E tll
043
3100-3150
LITHOLOGY-OTHER
FOOTNOTE t 1 2
045
3200-3250
047
2850
3300-3350
L I T H O L O G Y - O T H EFRO O T N O T E
,
SHALE
MATURE
NONSOURCE
FOR
KEROGE
TN
YP
OE
IL/GA
FA
SC T O R :
,
CARB
MATURE
VERY
POOR
TO
POOR
K E R O G ET N
YP
OEI L / G A
FS
A C T OO
RTI:Y
L PE
"""_
3328
t 9
O I L A N DA S S O C I A T E DG A S
O I L TYPE
64%
GAS T Y P E
AND
OIL
ASSOCIATED
GAS OURCE
77%
GA
TY
SPE
2%
------------------
T O PO FP E N N S Y L V A N I A N
043
3400-
3450
CARE
, MATUREVERYPOORTOPOOR
O I L AND
ASSOCIATED
GAS OURCE
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
051
3500-
3550
VERY
POOR
O I L SOURCE
S H A L E , MATURE
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
053
3600-3650
S H A L E, , M A T U R EV E R YP O O R
O I L SOURCE
K E R O G ETNY POEI L / G AFSA C T O R
O:T
I LY P E
055
3700-
3750
S H A L E , MATUREVERYPOOR
O I L SOURCE
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
057
3800-
3850
SHALE
MATURENONSOURCEFOR
O I L A N DA S S O C I A T E DG A S
KEROGEN T Y P EO I L / G A SF A C T O RN O TA V C I I L A B L E
053
3900-
3950
O I L SOURCE
S H A L E , MATUREVERYPOORTOPOOR
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
061
4000-4050
063
4100-
4150
36%
-
-
POOR
TO
F A I RG A SS O U R C E
POOR
TO
58% '
F A I RG A S
G ATSY P E
POOR
TO
F h I RG A SS O U R C E
SOURCE
42x
,
S H A L E , MATUREVERYPOORTOPOOR
KEROGEN
T Y PO
E I L / G AF
SA C T O R :
O I L SOURCE
57L
-
OIL T Y P E
CARB
, MATUREPOOR
O I L AND
ASSOCIATED
G AS O U R C E
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
"""""""""""""""""""""-"""""""""~"""""""""""""""""""""~""""""""""""~
X R a t l n q P a r a m e t e r s a s d e f l n e d In G e o C h e m ' s Source R o c kR e f e r e n s eM a n u a l .
f X A l l f o o t n o t e s t y p e d on separate sheets.
X X X Sample Tup=: B l a n k - C u t t i n g s C
, -Core,
S-Sldewall C o r a .
F e I R G A S SOURCE
F A I RG A SS O U R C E
G ATSY P E
43X
.-..
IC
JOB
NUMBER:
WELL NAME:
TABLE
6259
WEB F E D R L 7 NO.
I V
SAMPLE
INTERPRET(IT1ONX
1
"
"
"
"
"
"
"
"
"
"
"
GEOCHEN
SAtlPLE
N U MDBEEPRTIH
%X
"""""""""""""""""""""""""""""""""""~""""""""""""""""""""""""""--""-
.
INTERPRETATION
065
4200-4250
CARB
POOR
O I L (IND A S S O C I A T E D
GASOURCE
..
. MATURE
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
067
4300-4350
CARB
N A T U R E POOR O I L (IND A S S O C I A T E D
GASOURCE
K E R O G ETN
YP
OEI L / G A
FS
A C T OO
RTI:Y
L PE
55%
069
4400-4450
SHALE
NATUREVERYPOOR
O I L 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
071
4500-4550
SHALE
MATUREVERYPOOR
KEROGE
TN
YP
OEI L / G A
FS
A C T OORTI:Y
LPE
073
4600-4650
SHALE
MATUREVERYPOOR
OIL 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
075
4700-4750
SHALE
MGTURE
VERY
POOR
K E R O G ET N
YP
OEI L / G A
FS
A C T OORTI:Y
LPE
~
,
,
,
O I L SOURCE
,
,
O I L SOURCE
077
4800-4850
S H A L E , M(ITURE VERY
POOR
O I L 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 l L 6 B L E
079
4900-4950
SHALE
MATUREVERYPOOR
O I L SOURCE
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 A B L E
081
5000-5050
5UALE
NATUREVERYPOOR
K E R O G ET N
YP
OEI L / G A
FS
A C T OORTI:Y
LPE
083
5100-5150
5250
,
,
,
SHALE
MATUREVERYPOOR
K E R O G E NT Y P EO I L / G ( I SF A C T O R
OIL SOURCE
-
V E R Y GOOD GASSOURCE
58%
GA
TS
YPE
42%
GASSOURCE
GOOD GASSOURCE
62%
GA
TS
YPE
-
GOOD GASSOURCE
-
GOOD GClS SOURCE
-
45%
V E R Y GOOD GASSOURCE
- GOOD
-
GA
TS
YPE
GOOD GASSOURCE
58%
GA
TY
SPE
TO POOR O I L SOURCE
-
38%
42%
F A I RG A SS O U R C E
NOT ( I V A I L ( I B L E
CARB
, MATUREPOOR O I L A N DA S S O C I A T E DG A S O U R C E
K E R O G E NT Y P EO I L / G Q SF A C T O RN O TA V A I L A B L E
085
5200-
087
5300-5350
MATURE VERY
POOR
SHALE
K E R O G ET N
YP
OEI L / G A
FS
A C T OO
RTI:Y
L PE
089
5400-5450
CARE
MATURE
POOR
O I L AND
ASSOCIATED
GASOURCE
K E R O G E NT Y P EO I L / G A SF F t C T O RN O T( I V A I L A B L E
031
5500-5550
CARE
MATURE
POOR
O I L AND
ASSOCIOTED
GAS
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
093
5600-5650
CARE
MATURE
POOR
O I L AND
AS5OClATED
GASOURCE
61%
K E R O G ET N
YP
OEI L / G A
FS
A C T OO
RTI:Y
L PE
,
TO POOR O I L SOURCE
43%
-
F A I RG A SS O U R C E
GA
TY
SPE
57%
,
,
,
""""""""""""""""""""""""""""""~""""""""""""""""~~"""""""""""""""""X R a t t n qP a r a m e t e r s
a s defined In G a n 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 .
3 X A l l f o o t n o t e s t y p e d on s e p a r a t e s h e e t s .
XXX Sample T Y P ~ :Blank-CutflnqsC
, -Core5
, - 5 i d e w a lC
l ore.
GT
AY
SP E
39%
,.,.
TABLE I V
SAMPLE INTERPRETATIONX
J O B NUPIBER: G259
WELL NAME: UEB FEDRL 7 NO. 1
GEOCHEM
SAMPLE
NUMBERXXE
DEPTH
INTERPRETATION
'
..................................................................
CARB , MATUREPOOROIL
FIND ASSOCIATEDGASSOURCE
KEROGEN TYPE OIL/GAS FACTOR NOT AVAILABLE
095
57005750
097
5800-
5850
CARE , MATUREPOOROILANDASSOCIATEDGASSOURCE
KEROGEN TYPE OIL/GAS FACTOR NOT AVAILABLE
099
5900-
5950
CARE , MATUREPOOROILANDASSOCIATEDGASSOURCE
KEROGENTYPEOIL/GASFACTOR:OILTYPE
81%
GAS TYPE
101
6000-
6050
CARB , MATUREPOOROILANDASSOCIATED
GAS SOURCE
KEROGEN TYPE OIL/GAS FACTOR NOT AVAILABLE
103
6100-
6150
C A R E , MATUREPOOROILANDASSOCIATEDGASSOURCE
KEROGENTYPEOIL/GASFACTOR:OILTYPE
55X
61 10
6244
6925
7069
_""
"""""""-
_______________
_______________
TOP OF MISSISSIPPIAN
TOP OF ORDOVICIAN
Top O F CAMBRIAN
GAS TYPE
________________-__--
.......................
TOP OF PRE-CAnBRlAN
______-------------
Ratins parametmrs a s defined in GeoChem's Source Rwzk Reference Manual.
o n separate sheets.
x x x Sanplc Tvpe: Blank-CutTines, C-Core. 5-Sidewall Core.
x i A l l footnotes typed
45%
------------------
"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""-"X
192
TABLE V
-
SAMPLE SUMMARY INTERPRETATION
This table gives a sampleby sample interpretation of each parameter used
in Table IV. The descriptive terminology used for each parameter is listed in
the introduction.
*:%#)
!'
JOB NUMBER: 6259
UELL NAME: UEB F E D R L 7 NO.
TnBLE V
S A M P L ES U M n A R YI N T E R P R E T A T I O N X
1
"
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"
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GEOCHEM
SAMPLE
NUMBERXXXX
DEPTH
LITHOLOGY
TMAAI T U R I T Y
2R0
TOC
FAR
C ITCOHRN E S SI N D E X
X OIL
RICHNESS
X GAS
FCICTOR
.................................................................
55
581
1055
001
1060-1100
CARB
MI
nr
GOOD
VERYPOOR
0.36
002
1100-1150
SILT
MIXX
MIXX
POOR
VERYPOOR
"
"
003
11 50- 2000
CARB
MI*%
MIXX
FAIR
VERYPOOR
"
"
004
1200-1250
CARB
M l W
MIXX
FOIR
VERYPOOR
0.23
005
1250-1300
CARB
MIX*
MIX+
POOR
VERYPOOR
0.25
006
1300-1350
CARB
MIX*
MIXX
FAIR
V E R Y PO'OR
0 .OO
007
1350-1400
CCIRB
nltX
MIXY
FAIR
VERYPOOR
0.14
008
1400-1450
CARB
MNXX
MIX+
FAIR
VERYPOOR
"
"
005
1450-1500
CARB
MHXX
MIXX
POOR
VERYPOOR
"
"
010
1500-1550
SILT
MNXS
MlXX
POOR
VERYPOOR
0.00
011
1550-1600
SILT
"X*
MIIS
POOR
VERYPOOR
"
"
012
1600-1650
SILT
MM*X
MI**
POOR
VERY
POOR
0 .OO
013
1650-1700
SILT
MMXX
MlXX
POOR
VERYPOOR
"
"
014
1700-1750
CCIRB
n
nrxs
FAIR
VERYPOOR
0 .OO
015
1750-1800
M I X E DS 0 U R C E ) N O N S O U R C EL I T H O L O G Y
016
1800-1850
SILT
M *X
MlXX
POOR
VERYPOOR
0.00
015
1950-2000
SILT
M
MI
POOR
V E k Y POOR
"
"
*X
* R a t i n g p a r a m e t e r s as d a f l n e d in G e o C h e m ' s Source Rock Reference Manual.
X t V a l u e t a k e n from a 3 t e r m running a v e r a g e f o r all values of t h i s p a r a m = t e ) P .
X X Y T h e r m a lM a t u r i t yO b b r e v i a t i o n n :I = I m m a t u r e ,M I = 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 e l u
V N = V e r yM a t u r e ,S A = S e v a r l yA l t e r e d ,M T = N e t a m n r p h o s c d .
X X X X Sample T y p e B
: lank-CuttinosC
, -Core,
5-Stdewall C o r e .
) r X * X X A l l f o o t n o t e s t y p e d on s e p a r a t e s h e e t s .
Mature, M=Maturrl
JOB
TABLE V
SAMPLE
SUMMARY
INTERPRETATIONX
NUMBER: Ge53
HELL NAME:
UEB
FEDRL
7 NO. 1
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
GEOCHEN
SAMPLE
NUMBERXXXX
DEPTH
LITHOLOGY
TFII
THERMFILIYX HC
MOTURITY X R 0
TOC
RICHNESS
PRODUCTIVITY
% OIL
INDEX FACTORFACTOR
RICHNESS
X GfiS
...................................................................
020
2000-
2050
OTHER
FOOTNOTE
SEE
t 1 XXXXX
022
2100-
2150
OTHER
FOOTNOTE
SEE
#
024
2200-
2250
OTHER
FOOTNOTE
SEE
# 3 XXXXX
026
2300-
2350
OTHER
FOOTNOTE
SEE
t 4 YXXXX
023
2400-
2450
OTHER
FOOTNOTE
SEE
t 5 XfXtX
031
2500-
2550
OTHER
FOOTNOTE
SEE
t 6 XXXXX
033
2600-
2650
OTHER
FOOTNOTE
SEE
*
035
2700-
2750
OTHER
FOOTNOTE
SEE
t 8 X!KXXX
037
2800-
2850
OTHER
FOOTNOTE
SEE
#
033
2900-
2950
FOOTNOTE
OTHER
SEE
110
041
3000-
3050
FOOTNOTE
OTHER
SEE
tll X X X X X
043
3100-
3150
FOOTNOTE
OTHER
SEE
045
3200-
3250
SHOLE
047
3300-
3350
CFIRB
M
9 XXXXX
XXXXX
XXYXI
VERY
M X*
POOR
POOR
n
XXXXX
7 XXXLX
ti2
VERYn
_____---------TOP O F
3328
2
PENNSYLVANIfiN
POOR
0.00
64
36
POOR
0.17
77
23
0 .OO
"
"
0.00
"
"
42
------------------
n VERY
xx
POOR
M %
VERY
I:
POOR
POOR
M
VERY
POOR
0.00
sa
*X
POOR
n
VERY
X I
POOR
0 .OO
"
XX
POOR
M VCRY
XX
POOR
0 .OO
"
049
3400-
3450
CORE
M X*
051
3500-
3550
SHALE
n
053
3600-
3650
SHALE
M
055
3700-
3750
SHALE
n
057
3800-
3850
SHOLE
n
POOR
XX
POOR
"
"
..................................................................
XRat'lnriParameters as dsflned In GeoChem's Source RockReferenceManual.
X X V a l u e t a k e n from a 3 term runn'ing a v e r a q e for all values of t h i s ParamEteP.
X X X T h e r m a lM a t u r i t yQ b b r e v i a t l o n s :l = I m m a t u r e rM I = M o d e r a t e I ' uI m m a t u r e ,M M = M o d e r a t e l yM a t u r e r
VM=Varv Mature,SA-Scverly
Altered, MT=Metamorphosed.
X X X X Sample Tvrc: B l a n k - C u t t i n g s ,
C-Core,
S-Sideuall Core.
* f x X X A l l f o o t n o t e st y p e d on s e p a r a t e s h e e t s .
M=Maturt.
,'
J O E NUMBER:
G259
WELL NAME: UEB F E D R L 7 NO.
GEOCHEM
SAHPLE
CCHHNNM
YEEA
RSST0SSULRN
ITT
IU
TAH
DY
M
IO
EBP
LEO
TRH
GXY* I I
TOBLE V
SAMPLE
SUMMARY
INTERPRETATION*
1
P R O D U C T I VH
I TCY
T OTCH E R M A L f X I
F. A C TI N
ODRE X
X
OIL
X GAS
FACTOR
~~
39003950
059
SHALE
n x*
M *x
FAIR
VERYPOOR
0.08
"
40004050
061
SHALE
n
n
FAIR
VERYPOOR
0 .OO
43
41004150
063
CARB
n x*
n x*
GOOD
VERYPOOR
0 .OO
"
42004250
065
CARE
n
n *x
FOIR
VERYPOOR
0 .OO
"
CARE
M
M
GOOD
VERYPOOR
0 .OO
45
SHALE
n x*
n *x
V E R Y GOOD
VERYPOOR
0.01
"
SHALE
n
n
V E R Y GOOD
VERYPOOR
0.01
42
46004650
073
SHALE
M xx
n
GOOD
VERYPOOR
0 .OO
"
47004750
075
SHALE
n
M
GOOD
VERYPOOR
0.05
38
48004850
077
SHALE
n
n *x
GOOD
VERYPOOR
0.10
"
49004950
079
SHALE
M *x
M
x*
GOOD
VERYPOOR
0.07
"
50005050
081
SHALE
M
M
GOOD
VERYPOOR
0.07
42
51005150
083
SHALE
n *x
n
*I
FAIR
VERYPOOR
0.00
"
52005250
085
CARE
n
n
X I
GOOD
VERY
POOR
0.23
"
53005350
087
SHALE
n
n
FAIR
VERYPOOR
0.18
57
54005450
089
CARB
n *x
M *x
GOOD
VERYPOOR
0.10
"
CARB
n x*
M
x*
FAIR
VERYPOOR
0 .OO
"
56005650
093
CARB
n
n
FAIR
VERYPOOR
0.00
39
57005750
095
CARB
M
XX
H X*
FAIR
V E R Y POOR
0.25
"
58005850
097
CARB
n
*X
n
FAIR
V E R Y POOR
0 .OO
"
067
43004350
44004450
069
4500071
4550
55005550
091
x*
X*
x*
**
t X
as defined In G e o C h e m ' s S o u r c e R o c k Reference Manual.
Value taken from a 3 term r u n n l n g average f o r all valuer of this,paramet+r.
%*I T h e r m a l Maturlty Cabbrevlatlons: I=lmmaturer Ml=noderately Immature, Mn=Moderately Matura,
V M = V e r u Mature, SASeverly Altered, Ml=Metamor~hosed.
,XXXX Sample Type: Blank-Cuttings,
C-Core,
S-Sldewall C o r e .
Y X X X X A l l footnotes typed o n separate sheets.
*Rating parameters
Xf
n=Matur",
...&wy
. ,.
,
.
.."
.
- .-
'.
,
,
.;. ,.,;., ..,i::?*
TOBLE V
SAMPLE SUMMARY INTERPRETOTIONI
JOB NUPIBER: G Z 5 9
UELL Nan€: W E B FEDRL 7 NO. 1
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
GEOCHEM
SAMPLE
NUMBERIXXX
DEPTU
HC
MOTURITY'TO1LITHOLOGY
..
TOC
..
Y OIL
PRODUCTIVITY
THERMaLXIX
x cas
R1 CHNESS
FOCTOR
FACTOR INDEX
RICHNESS
YR0
...................................................................
5900-
CARB
099
n
POOR
M VERY
GOOD
101
6000-
6050
CARB
n xx
M POOR
XX VERYFAIR
103
6100-
6150
CARB
n
M
6110
6244
6925
7069
GOOD
0 . 019
0
0.00
VERY POOR
__________---_TOP OF MISSISSIPPIfiN-----------------"""""""TOP O F ORDOVICIAN .....................
____________-__
_______________
TOP OF CAMBRIAN
81
0.13
"
"
55
45
.......................
TOP OF PRE-CAMBRIAN
__-___-_-____---___
....................................................................
!
XRatlnv p a r a m e t e r a as defined in GeoChem's Source Rock Reference Manual.
XI Value taken from a 3 t e r m running averase for all values of t h i s Parameter-.
3 x 1 Thermal Maturitq Abbreviations: I=Immature, MI=NoderateIv Immature,
Mfl=Modaratmlv Matvr.,
VM=Veru Mature, SO=Severlu f i l t e r e d . MT=Metamorphosed.
K x X X Sample Type: Blank-Cuttingsr C-Corer S-Sidewall Core.
X X I I X A l l footnotes typed o n separate sheets.
il=Matur-.
'
..
TABLE VI
SAMPLE SUMMARY OF GEOCHEMICAL DATA
T h i st a b l eg i v e s
a sample by sample l i s t i n g o f t h e d a t a u s e d i n t h e
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 i n f o r m a t i o ng i v e nf o re a c hf o r m a t i o n
asfollows:
is
Sample
(1)
number
( 7 ) oTrcogataranbliocn
(TOC, %)
( 2 ) Depth
(amorphous
composition
(8) Kerogen
(Am), herbaceous(H),
woody (W),
( 3 ) Lithology
( 4 ) V o l a t hi lyed r o c a r b o n
( S I , ppm)
and c o a l y (C))
( 5 ) Generated
hydrocarbon
(S2, ppm) (9) Thermal a l t e r a t i o ni n d e x
(TAI)
( 6 ) Maximum temperatureof
S2 peak (IO) V i t r i n i t er e f l e c t a n c e
(%RO)
The TAI and %Ro v a l u e s a r e p l o t t e d on F i g u r e s 1 and 2 r e s p e c t i v e l y ;v a l u e s
of T A I o r %Ro i n d i c a t e d w i t h a n a s t e r i s k (*) a r et a k e n from t h e t h r e e t e r m
of t h er e s p e c t i v ep a r a m e t e r .
Sample t y p e sa r ei n d i c a t e d
by
movingaverageplot
and "S" ( s i d e w a l lc o r e ) .C a s i n g
"blank" ( c u t t i n g s ) , "C" ( c o n v e n t i o n a lc o r e )
p o i n t s and t h e tops o fa l lf o r m a t i o n sp e n e t r a t e d
by t h ew e l la r ed i s p l a y e d
on
alltableswithassociateddepths.
-
.
HEB
.
"
J O B NUMBER:
UELL NAME:
~
, , .,. ,'
ThBLE V I : ShMPLE
GZ59
7 NO.
CEOCHEM
SPlMPLE
NUMBERIIL
1
SUUMCIRY O F GEOCHEUlCOL
(
KEROGEN T Y P E I I I I
LITHOLOCYIX
s1
TMPlX
52
"
"
"
"
"
"
"
"
"
"
"
"
"
TOC
53
Yam
211
YU
XR0 XC
TWERMPlL
MbTURITY
""_
TPl1
...................................................................
55
581
1055
___-___________ TOP O F
--------------- TOP OF
-____-_-------_
TOO
PF
0.07
160.
--
0.
140.
0.17
274
50.
170.
0.21
300
30.
90.
0.11
30.
0.14
150.
60.
0.25
100.
0.
0.13
140.
0.
80.
0.10
"
0.
10.
80.
0.10
"
274
0.
0.
120.
0.09
40Cb
274
0.
10.
210.
0.14
60St
40Cb
445
0.
0.
130.
0.10
1700-1750
70Cb
0.
305t
316
10.
270.
0.15
17501800
50St
50Cb
10.
273
40.
170.
0.15
263
10.
130.
0.08
--
0.
180.
0.03
50
100St
003
1150-2000
100Cb
004
1200-1250
100Cb
20.
005
i250-1300
100Cb
10.
006
1300-1350
100Cb
007
13501400
l00Cb
10.
303
008
1400-1450
60Cb
40St
264
009
1450-1500
60Cb 0.
40St
444
010
1500-1550
705t
30Cb
433
01 1
1550-1600
805t
20Cb
012
1600-1650
60St
013
1650-1700
014
I
........................
PERMIAN
0.
1100-1150
019
-____________________
25
002
I
CRETfiCEO"S
0.29
250.
100Cb
I
.......................
70.
1060-1100
.
TERTIARY
377
001
016
,?&
I
PPM)
"
"
"
"
"
"
"
"
"
"
"
"
"
"
DEPTH
I
.,:*
DATh
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
PYROLYSIS DbTPl
015
."
"
1800-1850
100St
1350-2000
100St
0.
40.
234
236
0.
316
0.
0.
0.
246
0.
----"
--"
--"
...................................................................
a V a l u et a k e n
f r o m a 3 term s m o o t h i n s f o r t h i s p a r a m e t e r .
a i L i t h o l o s i e s : 5s-Sandstone,St-Siltstone,5h-Shale,Cb-Carbonate,
N X Z 5 a m ~ l qTqpe: B l a n k - C u t t i n s s ,
C-Core, 5 - S i d e w a l C
l ore
L f X ! K e r o s e n Type:Am-Amorphous-SaproreIrH-Herbaoeous,
H-Woodq,
E-Evaporite, C-Coal.
C-Coalu/Inartinlte
Ot-Other.
.
JOB NUMBER: 6259
WELL NAME: UEB FEDRL 7 NO.
S ~ M P L EsunnaRy OF
T ~ B L EV I :
~
GEOCWEIIIC~L
a
~
a
._
1
TUERMPlL
PYROLYSIS DOTO (PPM )
GEOCHEM
SCIMPLE
"_
WMBERXXX
KEROGEN
TYPEXXXX
HRTUR
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
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DEPTH
TMPlX
LITHOLOGYXX
52
51
53
TOC
%Am
XU
XC
TRI
I TY
%R0
...........................................................
439
0.
0.08
370.
70.
020
2000-2050
1000t
022
2100-2150
100Ot
0.
362
0.
024
2200-2250
l0QOt
0.
226
0.06
170.0.
026
2300-2350
100Ot
288
0.0.0590. 10.
028
2376-2400
l00Sh
248
029
2400-2450
l00Ot
398
031
.0.02 380.
600t
2500-2550
40Sh
0.
033
2600-2650
600t
40Sh
035
2700-2750
20.
6 0 0490.
t
40Sh
037
2800-2850
50Sh
50Ot
039
2900-2950
300.
50Sh
0.
500t
041
3000-3050
50Sh
500t
043
3100-0.08
3150
045
3200-3250
1005h
047
3300-3350
100Cb
3328
210.50Sh 0.5 0 0 t
0.
"_"
_______ _______ ---___-
0.01
1 00.05
. 430.
, 40.
312
443
10.
224
0.
0.
10.
410.
323
260
0.
0.01
0.
280.
0.
0.09
0.07
0.
270.
0.
0.08 0.210.
10.
224
10.
323
0.08
TOP O F PENNSYLVANIPlN
0.
5 00.06
.
40Cb
446
0-
40
60Sh
4QCb
384
6BSh
40Cb
275
3400-3450
l00Cb
051
3500-3550
605h
053
3600-3650
055
3700-3750
0.28 0220.
.
0.
370.
------------------
275
049
0.02
0.01
335
336
50.
0.05
170.
..
270.
"
--
0.40280.
10.
X V a l u e t a k e n from a 3 t e r ms m o o t h i n g
f o r t h i sp a r a m e t e r .
X t L l t h o l o s l e s :5 s - S a n d s t o n e ,S t - S i l t s t o n e ,
Sh-Shale,Cb-Carbonate,
% $ X Sample
Type:
B l a n k - C u t t i n g s , C-Core. S-Sidewall
S X X X Kerosen Type:
nm-Amorrhous-Sapropel,H-Herbaseous,
(2.8)1(1.02)X
(2.S)X(0.99)X
0.99
2.9 0
20.
180.
-- ( 2 . 9 ) X ( 0 . 9 9 ) X
0.28
"""~""""""""~""""""""""""""""""""""""~""""""""""""""""""""""""""""-
L
%U
""""-
E-Evaporite, C-Coal,
Core
U-Uoodv, C - C o a l y / l n e r t l n l t e
Ot-Other.
NUPIBER:
JOB
WELL NAME:
-
G253
WEB FEDRL 7 NO.
GEOCHEM
SAMPLE
NUMBERXXX
,,
..
" "
TABLE V I :
1
,.
SAMPLE SUMMARY O F GEOCHEMICRL DRTR
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
PYROLYSIS DATA (PPM)
TYPEXXXX
L I T H O L O53
GYXX
52
TMAX
TOC
51
THERMRL
HRTUR I T Y
KEROGEN
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
DEPTH
. .... ...iiQ
ZRm
YC
ZW
%H
"_
TAI
XR0
....................................................................
'
057
3800-3850
60Sh
40Cb
31 1
0.
10.
240.
0.21
--
059
3900-3950
605h
40Cb
441
10.
120.
110.
0.72
--
061
4000-4050
505h
50Cb
450
0.
140.
90.
0.74
17
063
4100-4150
60Cb
405h
378
0.
100.
80.
0.43
"
065
4200-4250
80Cb
20Sh
335
0.
50.
50.
0;24
--
067
4300-4350
70Cb
305h
445
0.
50.
90.
0.42
22
069
4400-4450
605h
40Cb
478
10.
800.
30.
3.02
--
071
4500-4550
605h
40Cb
484
10.
800.
130.
2.86
13
073
4600-4650
60Sh
40Cb
492
0.
180.
100.
1.15
"
"
075
4700-4750
50Sh
50Cb
494
20.
400.
180.
1.68
22
22
077
4800-4850
605h
40Cb
498
30.
280.
220.
1.55
"
"
079
4900-4950
505h
50Cb
494
30.
370,
230.
1.74
--
081
5000-5050
605h
40Cb
501
20.
260.
230.
1.11
13
083
5100-5150
85Sh
15Cb
472
0.
30.
170.
0.70
085
5200-5250
60Cb
40Sh
413
30.
100.
280.
0.48
---
087
5300-5350
605h
40Cb
500
60.
270.
260.
0.82
0
089
5400-5458
70Cb
30Sh
444
10.
90.
210.
0.33
"
"
091
5500-5550
70Cb
305h
353
0.
20.
?80.
0.21
"
"
033
5608-5650
70Cb
305h
351
0.
10.
260.
0.20
38
095
5700-5750
70Cb
3051,
275
10.
30.
188.
0.21
"
"
33
C-CoaIy/lnmrtInlte
---
"
0
2.7
Ot-Other.
0
2.3
(2.3)X(0.95)X
0.99
-- ( 2 . 7 ) 1 ( 0 . 3 3 ) 1
0
--
'
.
"
25
.
57
1.03
50 2.9
2.7
1.00
(2.7)3(i.00)1
-- ( 2 . 8 ) X ( 0 . 3 8 ) f
0
"
"
0.95
-- (2.8)X(0.37)X
25
"
0.36
(2.9)X(0.95)X
2.9
44
"
X V a l u at a k e n
E-Evaporite, C-Coal.
0
"
""""~""""""""""""~""""""""""""""""""""""""""""""~"""""""""""""""""f r o m a 3 t e r ms m o o t h i n 9
for t h i s P a r a m e t e r .
llI L t t h o l o e i e s :5 s - s a n d s t o n e .S t - S i l t s t o n e .
Sh-Shale,Cb-Carbonate,
%XI S a m p l e Type: B l a n k - C u t t i n e s , C-Core. 5-Sidewall Core
* % X I Kerosen Tvpe: G m - G o o r p h o u s - S a ~ r o ~ e I rH-Herbaceous,
W-Woody,
-- ( 2 . 3 ) X ( 0 . 3 6 ) 1
-- (2.9)X(0.96)X
"
---
2.8
0.37
(2.8)X(0.97)1
(2.8)X(0.38)1
0 1.00
2.8
"
(2.8)1(1.00)X
"
(2.8>*(1.0l)X
0
--
(Z.S)X(1.03)X
.
.JOB
NUMBER:
UELL
NaME:
.
"
..
..
"
TI-IBLE V I :
GZ59
WEB FEDRL 7 NO. I
S4MPLE SUMMI-IRY OF GEOCHEMZCOL D 4 T 4
..
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P Y R O L Y S I S DI-ITC) 1 P P M )
GEOCHEM
SQtlPLE
"
"
"
"
"
"
"
"
"
"
"
"
"
"
LITHOLOGYXX
DEPTH
NUEIBERXXI
TMI-IX
s2
SI
THERM4L
H4TUR ITY
KEROGEN T Y P E X X I l
s3
"
"
"
"
"
"
"
"
"
"
"
"
"
TOC
%Om
%H
%U
X
_""
TRI
%R0
.................................................................
70Cb
30Sh
0.
353
5300-5350
80Cb
20Sh
363
101
6000-
6050
70Cb
30Sh
0.
236
103
6100-
6150
60Cb
40Sh
10.
327
037
5800-
033
5850
"_""
6110
40Sh
_"
6200-6250
60Cb
40Sh
"-
6244
"_"
6150-
105
6200
--
0.26
230.
50.
0
0.
--
1
, 04
3.0
2.3
(3.01X(l.B5)I
3.0
(3.0)%(1.05)1
2.3
0.37
------------------"""
"_"
0.56
2.3
1 .Os
0.41
2.3
1.05
0.26
2.3
"
"
0.10
3.4
"
"
0.11
3.4
"
"
0 .'08
3.4
"
"
0.46
170.
70.
"_"
"_ "_ "_
TOP OF ORDOVICIfiN
106
6250-
6300
60Cb
40Sh
107
6300-
6350
10QCb
108
6350-
6400
l00Cb
103
6400-6450
111
6500-
6550
60Sh
40Cb
I 12
6550-
6600
60Sh
40Cb
113
6600-
6650
lE0Cb
114
6650-
6700
100Cb
115
6700-
6750
100Cb
116
6750-
6800
100Cb
117.
6800-
6850
100Cb
118
6850- 6300
l00Cb
100Cb
"_
"_
" _" "_
"_
"_
_--__________________
"_
"_"
"_" "_" "_
"_
"_"
"_ "_ "_
_______ _______ _--____
"- ""_ "_"
"_
"_ ""_ "_
"_"
"_ "_
"_
"_
""_ ""_ "_
"_"
""_" "_
-"""
"_
""-"
""_ ""_ "_" "_
"-
0.45
"_
"_
0.10
3.4
"
"
0.03
3.4
"
"
0.07
3.4
"
"
0.06
3.4
"
"
0.08
3.4
"
"
0.06
3.4
"
"
0.36
"_"
""_ ""_
.................................................................
X
1.08
TOP OF MISSISSIPPION
60Ca
104
0.13
200.
30.
Value taken from a 3 term smoothin9 f o r t h l sp a r a m e t e r .
X I L I t h o l o 9 l e s : Sa-Sandstone, S t - S i l t s t o n e ,
Sh-Shale,Cb-Carbonate,E-Evaporl+e,C-Coal.Ot-Other.
X X X S a m p l a Type: B l a n k - C u t t l n 9 ~ , C - C o r e ,
S-Sideuall C o r e
X X X X K e r o a a nT u p = :
Am-I-Imorphour;-SaprcpeI,
H-Herbaceous, &Woody, C - C o a l y / I n e r t l n l + a
"
"
"
"
'
.*,I
JOB
NUIIBER:
G259
UELL NRHE:
UEB
FEDRL
TOBLE V I :
7 NO.
1
SRHPLE SUPIHRRY O F GEOCHEHICQL DaTO
.
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.
TUERPlClL
LYSIS
DhTh
GEOCHEll
SOPIPLE
NUHBERXXX
(
PPllPlClTURITY
)
TYPEXZXX
"
"
"
"
"
"
"
"
"
"
"
"
"
"
THAX XC
LITHOLOGY%*
DEPTH
si
52XH
XU
s3
Yam
KEROGEN
"
"
"
"
"
"
"
"
"
"
"
"
"
"_"
TRZ
TOC
XR0
..................................................................
119
_"
""_ "_ "_
0 .03
-__-________---_
TOP O F ChMBRIRN ---________-________--""_
-"""
60Cb 40Ss
"_
0.06
-_""
""_
"_"
"0.05
60Cb
6550 63006325
120
4
100Cb 122
7000
7100
62507050-
40Ss
_____________-_
7069
123
7100-7150
l00Cb
124
7150-7200
100Cb
125
7200-
100Cb
77.50
TOP O F PRE-COMBRIfiN
"_
"_
"_
"_""_
"_
___________________
"_
"_"_""
Value t a k e nf r o m a 3 t e r ms m o o t h l n a for t h l s p a r a m e t e r .
I% L l t h o l o s l e s : Sa-Sandstone, St-Siltstone, Sh-Shale,Cb-Carbonate,E-Evaporlte,
% X X Sampla Type: Blank-Cuttings, C-Core,
S - S l d e u a l lC o r a
0.07
-"""
"_"
"
--
Karoeen Type:am-Rmorphous-SapropeIrH-Herbaceous,
"
3.4
"
"
"
"
"
3.4
"
"
"
"
-- "_
"
"
"
"
"
"
"
0.07
"
"
"
"
C-Coal,
U-Uoodu, C - C o a I w / l n a r t i n I t =
"
0.08
X
X X f X
"
Ot-Other.
-"
"_
"_
"
"
"
"
"
"
"
"
.'
~
FIGURE 1
THERMAL MATURITY PROFILE
USING THE THERMAL ALTERATION I N D E X (TAT.)
This f i g u r e d i s p l a y s 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 TAI 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 TAI d e t e r 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 s t h e average TAI v a l u e f o r
thatinterval.
The t h r e e t e r m moving average plot displays
a TAI 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
a TAI v a l u e i s
interval.
When a samplelacks
a TAI v a l u ef o ri n t e r p r e t a t i o n ,
t a k e nf r o mt h i s
smoothed c u r v e f o r t h a t s a m p l e d e p t h .
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
TAI c o r r e s p o n d i n g t o t h i s
nology is givenbelow,
TAI Value
Descriptive
Terminology
-
1.7
Immature (1)
1.0
1.8
Moderately
2.1
Immature
(MI)
2.2
Moderately
Mature
2.5
(MM)
2.6 Mature
3.5
(M)
3.6
4.1
Mature
Very
(VM)
Severely
Altered
(SA)
4.2
4.9
> 5.0
Metamorphosed
-
-
termi-
Associated
TAI Value
Hydrocarbon
Type
-
1.3Biogenic
1.5
1.5
Biogenic
2.2
-
2.2 Immature
2.5
2.5 Mature
3.2
3.2
3.4
-> 3.8
Gas
and
Gas
Immature O i l
Heavy O i l
Oil
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 (---) 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.
The exactdepth
of t h es e i s m i ct o p sa r eg i v e ni n
t h eI n t r o d u c t i o n .T o t a l
well d 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.
F I G U R E 1: T R I I R T I J R I T IP R O F I L E
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
G259
JOB NUHBER:
UELL NAME:
WEB FEDRL
7 NO.
1
TRI INTERVAL
*-
1
150
151300
301450
451- 600
601- 750
751- 300
301- 1050
1051- l L B Q
1350
12011351-1500
1501-1650
1651-1800
1801-1950
1351-2100
2101-2250
2251-2400
24012550
2551-2700
27012850
2851-3000
3001-3150
3300
31513301-3450
3451-3600
3601-3750
3751-3900
3301-4050
4051-4200
42014350
4351-4500
4501-4650
4651-4800
4801-4350
4951-5100
5101-5250
5400 52515401-5550
5551-5700
5701-5850
5851-6000
60616150
6151-6300
6301-6450
6600
6.1516750
66016751-6300
6901-7050
7051-7200
7201-7350
RRU
h V G DRTPI P L O T
n SA VH
n1 nn
I
4
3
2
.. .. ..
,"""""""""""""""""""~~
5
I
I
I
.. .. .
. .
I
I
I
",""P"I"""""";
. .. ..
I
I
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I
I
I
I
I
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I
I
I
I
I
.
.. .
'
,
..
..
..
..
..
.
..
.
I
I
I
2.8
I
I
I
I
I
2.7
I
.
.
A
A
. R
.R
I
2.9
I
I
2.9
2.7
I
I
I
.A
. A
I
2.8
. A
I
2.8
I
I
2.9
.
A
2.7
I
I
I------------------B----R---------------,
,
I
B .
I
A
I
I
. .
I
I
;""""""-A""""-,
.
c .
c .
I
2.9
I
I
I
I
I
,"""""-"""x""""""""""-
I
I
I
I
;"~~"""""""""""""""""~;
Ittt++tttttt++++ittttt+tttttttt+tt++tt+tI
3.0
2.3
3.1
3.4
3.4
3.4
3.4
3.4
1
1
1
. . .
2.1
I
.. ..
I
I
.
I
I
..
I
I
.. .
I
I
.. .
I
I
. .
I
.. .
I
. .. . a
I
.
:------------------B--------------------I
:
. . ..
.. .. ..
I
I
5
1
1
1
i;"""."""""""""""""."""~; . .
I
.B
4
.
AVG
~
"
"
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"
"
"
"
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"
"
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"
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"
"
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~
"
I
I
I
I
. R
.
,"_""""""""""""""""""
. ..
I
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I
3
2
1
~
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"
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"
"
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"
"
"
"
"
~
"
"
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I
I
TPIl 3 TERM HOVING AVERCIGE
HI
HM
n
vn
sa
I
I
I
I
I
I
I
I
I
I
I
I
..
.
..
..
...
.,
.
..
.
..
..
..
..
... .
.
X.
.
1
1
. x .
.
.. x.. xx
.. . x
.. .. xx .
.. .. xx
.. . x
. .x
... ... xxx
.. .. xx
.. .. xx
.. .. xx
.. .. xx
.. .. xx
:.. . .. xxx
1
1
1
1
1
1
. X
1
1
1
1
.I
.
2.8
2.8
2.8
2.8
2.8
2.7
2.7
2.7
2.7
1
1
1
1
1
..
1
1
1
1
1
1
1
1
2.9
2.9
2.9
2.9
2.9
2.8
2.8
2.7
2.7
2.8
2.8
2.8
2.8
1
1
1
x
:-------------------x"------------------I
1
I""""""""""-r""""""""",
I
I
.. .. ..
:
I
. .
I"""""""""""-L""""""""
x
.
x .
x .
x .
1
1
3.3
3.4
1
3.d
- ..
1
1
3.4
3 4 Cambrian
3'4 Piecambrian
3.4 TD 7230
I"""""""""""-x"-""""""-,
Ittttttttt+ttttttttttt+tx+tt+t+ttt+t+tttl
_"""
.
L -
-.
FIGURE 2: %R0 naTURITY PROFILE
"
"
"
"
"
"
"
"
"
"
"
"
"
"
"
JOB NUMBER: 6259
UELL NaHE: UEB FEDRL 7 NO. 1
INTERVAL
I
1-
151301451601751901105112011351150116511801195121012251240125512701285130013151330134513601375139014051420143514501465148014951510152515401555157015851600161516381645166nl6751690170517201-
MM
n
CIVG
DR0 RaU DOTO PLOT
5e
VM
2
3
5
4
0
1
150
300
I
I
450
600
750
900
I
I
1050
I
I""A""""""""""""""""""""""1
1200
..
1350
I
I
1500
I
1650
I
I
1800
I
1950
a.
I
I
2100
I
I
2250
I
2400
I
I
2550
I
I
2700
I
I
2850
I
3000
I
3150
I
I
3300
CI
I
I""""""""""""""""""""""""I
3450
I
3600
I
..a
3750
I
3900
I
4050
I
.a
4200
I
4350
I
I
.a
4500
I
.a
4650
I
4800
I
.a
I
4950
I
I
5100
I
..a
5250
I
I
5480
I
..a
5550
I
I
I
5700
..a
I
I
5850
I
6000
I
a
I""""-aa"""""""""""""""""""l
6150
:"""""a"""""""""""""""""""l
6300
6450
I
6680 '
6750
6900
I
7050~"""""""""""~"""""""""""""I
7200
7350
Itttttttttttttttttttttttttt+ttttttttttttttttttttttl
~
~
.. ..
~
~
~
~
~
~
r
nT
~
~
I
0.52
0.51
.. ..
.. ..
..
..
.. .
1.05
0.99
.. .
.. .
.
0.96
..
0.97
..
..
.. ..
.. ..
..
..
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
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.
.
.
.
~
~
.. ..
~
3
~
~
5
4
~
~
"
"
1
1
"
"
"
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
..
..
~
CIVG
nr
sa
VM
2
1
~""""""""""""""-""""""""""
I
.. ..
~
.. ..
.. ...
%R0 3 TERM MOVING WERCIGE PLOT
0
~
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
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.
.
.
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.
.
.
.
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.
..
.. ..
.. ..
nn . n
0.95
0.99
1 .OO
t .OO
I .03
1.08
1 .Q3
1.05
..
I""-*"""""""""""""""""""""x .
I
1
1
1
1
1
1
1
1
1
1
0.52
0.52
0.52
x .
I
0.51
I
x .
0.51
x .
I
0.51
x .
0.51
x .
I
1 0.59
I
x .
.x.
1 0.66
1 0.74
I
. x
1 0.82
I
.x
1 0.90
I
, .x
1 0.97
I
. f
x
. . I I .05
1 I .05
I
x
I"""""*"""""""""""""""""""
1 1.02
1 0.99
I
. x
1 0.99
I
1 0.96
I
x
1 0.96
I
. . x
I
. x
1 0.95
1 0.97
I
. . x
. . x
1 0.97
I
. . x
1 0.99
I
. . x
1 1 .OO
1 6.98
. x
1 0.97.
I
1 0.98
. . x
I
1 t .OO
I
. x
1 .O1
I
.I
x.
1
1 1.03
I
x
x
1 1.05
I
1.05
x
1
1 1.05
1 1.04
0.
x
1 1.05
1 1 .05
x
1 .e5
I
I
1 1.05
:"""""*"""""""""""""""""""
1 1.05
1.05
: 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 t t t t t t t t t t + t t t t t1.05
l
.
... ..
..*
.
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.
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.. ..
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"""""-~"""""""""""""""""""
.. ..
.. *
..
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~"""""*"""""""""""""""""""~
,
"
FIGURE 2
THERMAL MATURITY PROFILE
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 "A" i n d i c a t e s o n e %Ro v a l u e , a "B" i n d i c a t e s two%Ro d e t e r m i n a t i o n s of t 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
%Ro v a l u e f o r t h a t i 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 e term 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
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
0.42
Immature
(I)
0.43
0.55
Moderately
Immature
(MI)
0.56
0.80
Moderately
Mature
(MM)
0.81
Mature
1.62
(M)
1.63
2.37
Very
Mature
(VM)
2.38
4.50
Severely
Altered
(SA)
Metamorphosed
> 4.50
-
Associated
%Ro Value
Hydrocarbon
Type
-
0.30
0.35
0.60
0.80
1.20
1.50
- 0.35Biogenic
Gas
- 0.60Biogenic
Gas and
Immature O i l
-Immature
0.80
Heavy
Oil
- 1.20
Mature
Oil
- 1.50
Nature
O i l , Cond e n s a t e and Wet Gas
- 2.00 Condensateand Wet Gas
-> 2.00
Moderatelyimmature
profileunder
M
M
.
Petrogenic
Methane
Gas
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 o n t h e
S e i s m i ct o p sa r e
shownby
a d a s h e dl i n e (---) w i t ht h e names a r e i 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 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 ed e p t h .
L
YCLL
we"=>
YCS
CrPmL
r
"_
NO_.
.
r a n L C
,
1
"
"
CI-C7
.
OF A I R SPACE
HYDROCARBON
ANALYSES
Cl-C7
GR I
SAMPLE
""_""""""""~
NUMBER
G259-001
6253-002
G253-003
G259-004
G253-005
G253-006
G253-007
G253-008
G253-003
G259-010
6253-011
6253-012
6259-013
G253-014
G253-015
6253-016
G253-013
G259-020
G253-022
G253-024
G253-026
6259-028
G259-023
6253-031
G259-033
G253-035
6259-037
G259-033
G259-041
6259-843
6253-045
6259-047
6253-043
6253-051
6253-053
6253-055
G259-057
6253-053
G259-061
G253-063
G253-065
6259-067
METHANE
WELL
ETHANE
PROPANE
INTERVAL
( FEET )
Cl'
C3
(PPM)
(PPM)
E X TOP OF
55
581
X S TOP O F
...
1055
X X TOP O F
1060-~1100
1
1100-1150
17
40
1150- 2000
21
1200- 1250
48
1250- 1300
143
1300- 1350
34
1350- 1400
22
1400- 1450
52
1450- 1500
53
1500- 1550
16
1550- 1600
8
0
1600- 1650
1650- 1700
21
63
1700- 1750
46
1750- 1800
82
1800- 1850
0 35
1350- 20B0
2000- 2050
35
2100- 2150
5 27
2200- 2250
11
35
2300- 2350
11
2376- 2400
25
2400- 2450
12
2500-2550
122
2600-2650
71
2700-2750
87
2800-2850
73
2300-2350
73
3000-3050
68
3100-3150
39
3200-3250
27
14
3300-3350
3328
IS TOP OF
3400-3450
25
3500-3550
76
3600-3650
44
3740-3750
26
3800-3850
32
3500-3350
137
4000-4050
2 154
4100-4150
144
4200-4250
135
4300-4350
134
~
C2
(PPM)
ISOBUTBUTANE
ANE IC4
(PPM)
(PPM)
(PPM)
TOTAL
Cl-C4
c5-c7
NC4
TOTAL
TOTAL
GAS
UETNESS
C2-C4'
( X )
(PPM)
(PPM)
TERTIARY
CRETOCEOUS
PERMIAN
1
43
10
6
12
26
0
1
7
11
9
16
-
7
q
4
7
14
2
8
4
2
0
2
1
1
2
3
4
2
2
2
0
3
1
2
1
i
1
5
38
12
13
17
15
21
3
2
0
~
3
10
9
7
7
9
5
2
2
3
1
0
PENNSYLVANIAN
1
2
A
d
i
2
1
4
3
4
2
4
6
7
6
4
3
5
11
0
2
1
2
3
2
4
1
I
3
6
2
1
2
0
1
0
0
0
0
1
0
0
1
0
1
0
1
3
2
7
15
8
4
6
4
5
0
I
1
1
0
0
0
0
0
0
0
0
0
0
0
0
I
I
1
1
1
1
0
0
0
0
0
0
0
0
2
1
1
1
2
3
2
2
2
1
1
4
1
4
1
3
6
5
11
8
8
3
6
1
1
1
0
1
1
I
2
1
1
1
1
1
1
1
66
3
3
5
0
4
8
4
6
1
3
54
25
32
27
25
33
8
5
1
113
100
38
101
47
32
15
10
2
16
47
23
20
26
52
13
13
25
7
7
0
36
9
2
f
64
63
41
74
135
53
35
77
60
23
8
27
49
87
35
33
35
15
41
12
34
176
3
1
0
.
2
0
0
0
0
0
0
2
0
10
15
0
2
4
1
28
84
52
35
39
148
161
153
143
152
6
3
8
8
9
7
11
7
3
8
18
50.0
73.4
36.5
48.8
35.1
26.7
35.8
37.1
32.5
11.7
30.4
0.0
22.2
4.5
6.1
5.7
0.0
10.3
22.9
26.7
14.6
8.3
26.5
30 - 7
26.0
26.3
27.0
25.5
,32.7
17.0
15.6
6.7
10.7
3.5
15.4
25.7
27.9
7.4
4.3
5.3
5.6
11.8
.
NORMfiLI2ED
Darn'.
"
"
"
"
"
"
"
"
"
"
"
IC4/
NC4
0.50
0.50
0.50
0.67
0.67
0.50
1 .OO
0.50
-
--
1 .OO
0 .OO
0.00
0 .OO
0.00
0.33
0.50
0.33
0.50
0.50
0.50
0.00
-
2 .OO
1 .OO
1 .OO
-
2 .OO
XC1
XC5-C7
XC2-C4
50.0
63.5
23.5
40.0
50.0
23.0
51.3
42.0
53.3
68.1
55.7
56.4
62.7
82.8
57.1
100.0
72.4
94.0
92.0
30.1
32.1
87.5
63.2
68.8
73.5
61.1
64.1
65.2
68.3
68.5
67.0
67.6
61.8
73.6
73.4
45.2
24.8
31.1
33.3
30.1
10.3
25.0
0.0
20.7
4.5
6.0
5.5
0.0
10.0
20.5
25.0
13.6
5.6
23.1
28.3
24.0
25.2
24.8
23.1
30.0
15.1
14.7
3.2
86.2
83.4
81.5
72.2
80.0
31.3
35.1
33.5
93.8
87.6
10.3
3.4
14.8
25.0
17.5
7.4
4.3
5.8
5.6
11.8
32.1
0.0
13.5
19.2
18.0
8.6
7.1
13.1
10.3
7.2
,
6.3
17.3
0.0
6.3
1.5
2.0
4.4
7.5
z.5
10.3
6.3
6.8
33.3
12.6
5.3
7.7
6.3
8.3
3.3
8.2
11.3
5.3
51 .6
3.4
1 .2
3.7
2.8
2.5
0.7
0.6
0.6
0.7
0.7
.
44
UELL NFIHE:
UEB
FEORL
7 NO.1
"""_"~
Cl-C7
GR I
SFIHPLE
NUHBER
UELL
I NTERVRL
(FEET)
METHFINE
ETHRNE
PROPhNE
Cl
(PPM)
c2
CPPH)
C3
(PPH)
ISOBUTBUTFINE
FINE IC4
C5-C7NC4
(PPPI)
(PPH)
TOTeL
(PPM)
TOTFIL
TOTCIL
Cl-C4
fPPN)
(PPN)
GFIS
C2-C4
UETNESS
( X )
IC4/
NC4
XCl
NORIICILIZED DfiTfi
XC2-C4
YC5-C7
....................................................................
I
0259-069
6259-071
G259-073
6259-075
G259-077
6259-079
6259-081
6259-083
GZ59-085
6259-087
6259-089
6259-091
6259-093
6259-095
6259-057
6259-099
G259-101
6259-103
6253-104
G259-105
.
6253-1 06
6259-107
6259-108
6259-109
6259-1 11
6253-1 12
6253-1 13
6259-114
6259-1 15
6259-L 16
6259-117
G259-I 18
6259-119
6259-120
6259-122
6259-123
6259-124
6253-125
4400-4450
4500-4550
4600-4650
4700-4750
12 4850 22
48004900-4950 12
7
5000-5050
5100- 5150
5200- 5250
5300-5350
5400-5450
5500-5550
5600-5650
5700-5750
5800-5850
5900-5950
6000-6050
6100-6150
6110
6150- 6200
22
6200- 6250
6244
6250-6300
6300-6350
6350-6400
6400- 6450
6500- 6550
6550-6600
6600-6650
6650-6700
6700-6750
6750-6800
6800-6850
6850-6900
6900-6950
6925
6950-7000
7050-7100
7069
7100-7159
3
7150-7230
7200-7250
7230
241
99
El
XI
X I
XX
X*
15
8
10
3
6
2
2
2
7
61
9
7
7
175
13
198
134
8
7
101
126
6 1
8
21 2
5 1
4
8
8
141
5
5
249
287
5
5
4 0
5
153
184
5 0
2
309
9 0
4
226
8
2
6 0
1
338
5814
23 0
2
TOP O F IIISSISSIPPIhN
0
1643
1
0 476
8
TOP OF ORDOVICICIN
421
6 0
0
975
15 0
1
405
7 0
1
329
6 0
3
874
8
1
123
86
1
7 0
3
877
257
4 0
1
1
65
4
74
1
2
63
0
84
40
TOP OF
107
2
3
.l
65
1
TOP O F PRE-CCIMBRICIN
131
1
4
175
2
170
5 0
1
T O T R L DEPTH
3
3
3
2
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
1
0
0
1
271
1
116
1
1
2
2
1
4
0
0
80
198
242
158
119
144
224
159
260
297
162
191
322
236
345
5839
0
0
1666
484
0
0
0
1
88
10
5
2
1
1
1
3
1
3
2
1
6
1
2
3
14
0
0
0
0
1
1
30
17
19
23
44
24
18
18
11.1
14.7
23.7
11.6
18.2
15.2
15.1
12
18
11
10
5.4
11.3
4.2
3.4
9
5.6
7
13
10
7
25
3.7
4.0
4.2
2.0
0.4
88.6
84.6
75.3
87.9
84.8
83.7
80 .a
86.3
93.4
81.5
95.4
56.3
53.3
95.3
95.7
94.2
98.0
99.6
11.0
14.5
23.5
11 .6
18.0
15.0
14.4
12.3
5.3
10.4
4.2
3.4
5.5
3.6
4.0
4.2
2.0
0.4
1.0
0.3
1.7
0.0
0.0
23
8
1.4
I .7
98.6
58.3
1.4
1.7
0.0
0.0
6
98.6
58..4
98.1
97.1
98.9
28.9
98.4
97.3
50 - 3
90.2
1
2
3
1.4
1.6
1.9
2.7
1.0
41.7
1.1
1.9
8.5
3.9
1.6
2.3
7.0
90.9
1.4
1.6
1.9
2.7
I .0
20.7
1 .l
1.9
8.3
3.7
1.5
2.3
6.8
0.0
0.0
0.0
0.3
0.1
50.4
0.4
0.8
I.4
6.1
1.5
1 .l
2.3
12.5
0.4
0.9
1.2
8.5
1.2
1.3
4.8
1.4
t .3
8.1
0.4
0.3
1.2
:,
0
0
1
1
427
991
413
338
883
21 1
a87
262
71
77
64
86
43
0
0
0
0
1
1
112
67
5
2
4.5
3.0
94.. 7
95.6
4.4
2.9
0.9
1.5
0
0
0
0
1
1
135
182
176
4
7
3.0
3.8
3.4
96.3
2.9
96.2
3.8
3.4
0.7
0.0
1 .l
0
0
0
0
1
214
4
2
1
5
1
0
2
16
8
9
9
6
3
6
96.9
96.6
95.5
i
-TAELE
--- _"I-B
UELL NAME: WEB F E D R L 7 NO.1
"
Cl-C7
HYDROCQRBON
ANALYSES
OF CUTTINGS GQS
"_""
Cl-C7
'
GRI
SAMPLE
NUMBER
WELL
INTERVAL
( FEET )
METHANE
,
C1
(PPM)
ETHANE
PROPANE ISOBUT- BUTANE
C3 C2
ONENC4
IC4
(PPM)
(PPM)
(PPM)
(PPM)
TOTAL
c5-c7
(PPM)
TOTAL
TOTAL
CI-C4
C2-C4
UETNESS
IC41
( PPM )
(PPM)
GAS
NORHFLLIZED DRTFL
X 1
( E )
%C2-C4
XCS-C7
NC4
......................................................................
x* TOP O F TERTIQRY
55
KY TOP O F CRETACEOUS
581
* X TOP O F PERMIQN
1055
I21
60
373
1060- 1100
6255-001
8
74
26
1100- 1150
6255-002
66
364
120
1150- 2000
G253-003
31
205
61
1200- 1250
6259-004
41
415
a5
1250- 1300
G253-005
124
1500
263
1300- 1350
6259-006
44
81
465
1350- 1400
G253-007
18
40
276
1400- 1450
G253-008
32
70
553
1450- 1500
6253-003
54
21
645
1500- 1550
G253-010
8
16
156
1550- 1600
GZ53-01 1
4
663
12
1600- 1650
6253-012
4
2
703
1650- 1700
G253-013
1042
3
4
1700- 1750
GZ53-614
2
2
1653
1750- 1800
G253-015
2
462
3
1800- 1850
G253-016
1
337
1
1350- 2000
6255-01 3
3
1
102
2000- 2050
G253-020
4
4
60
2100- 2150
CZ53-022
2
I
63
2200- 2250
G253-024
1
68
1
G259-026
. ~ ~ .2300- 2350
1
2
56
2376- 2400
t253-828
2
3
73
2400- 2450
G253-029
2
100
3
2500- 2550
G259-031
0
1
75
2600- 2650
G259-033
1
2
80
2700- 2750
G253-035
1
2
114
2800- 2850
G253-037
2
4
103
2300- 2350
G253-033
3
84
6
3000- 3050
G253-041
2
6
103
3100- 3150
G253-043
2
5
24 5
3200- 3250
G253-045
A
' 58
1
3300- 3350
G259-047
%!I TOP O F PENNSYLVQNIAN
3328
I
83
1
3400- 3450
6253-043
5
116
3
3500- 3550
G253-051
65
3
3
.~
3600- 3650
G259-053
0
I
110
37@0- 3750
G253-.055
I
1
101
3800- 3850
6259-057
2
208
4
3300- 3950
G259-053
4
1
242
40@0- 4Q5Q
G259-061
2
4
263
41@0- 4150
G253-063
I
6
253
4200- 4750
G253-665
3
4
273
4300- 4350
G253-067
7
568
14
4400- 4450
G259-063
"~
17
2
17
8
9
36
I0
4
7
4
2
1
0
1
I
0
0
1
1
1
1
0
0
0
0
0
0
0
1
0
88
26
104
63
52
136
43
40
42
20
23
5
5
6
4
6
4
1
2
2
3
2
4
3
28
4
34
16
16
63
16
8
12
7
3
2
1
I
1
1
1
1
0
1
1
1
0
0
1
1
2
1
I
1
I
I
I
1
1
0
1
I
1
I
0
1
I
1
0
0
1
3
1
1
1
0
1
I
605
114
601
321
566
1932
61 6
346
674
731
185
682
71 6
1051
1665
468
339
108
71
74
72
53
85
112
76
83
118
110
36
113
254
65
3
8
4
2
2
5
6
4
3
10
4
2
2
I
4
1
1
1
1
1
1
.
I
'
87
126
73
111
105
21 6
243
270
260
288
533
0.61
0.50
0.50
0.50
0.5G
0.57
0.63
0.50
0.58
0.57
0.67
0.50
0.00
1 .OO
I .OO
0 .OO
7
12
10
3
7
37.4
35.1
33.4
36.1
26.7
24.7
24.5
20.2
18.0
1 1 .8
15.7
2.8
1.0
0.9
0.4
1.3
0.6
5.6
15.5
6.8
5 .6
5.1
7.1
10.7
1.3
3.6
3.4
6.4
12.5
8.8
3.5
10.8
4
10
8
1
4
8
7
7
7
3
25
4.6
7.3
11.0
0.3
3.8
3.7
2.8
2.6
2.7
3.1
4.2
1.80
I .OO
I .OO
226
40
237
116
151
432
151
70
121
86
23
13
7
9
6
6
2
6
11
5
4
3
6
12
1
3
4
-
i.OO
0.50
1 .OO
1 .OO
-
0 .OO
0 .OO
-
0.00
0 .OO
0.50
I .OO
I .OO
1 .OO
-
I .OO
1 .OO
I .OO
0 .OO
-
I .OO
3.00
54.7
52.9
51.6
52.6
67.2
70.5
70.6
71.5
77.2
85.3
75.0
36.5
38.3
38.6
39.4
37.5
38.3
32.7
81.2
90.8
83.5
82.4
84.0
83.3
93.8
94.1
35.0
83
82.4
88.0
95.3
77.3
.$
31.2
30.6
86.7
98.2
32.7
35.3
36 .8
37.0
96.9
36.5
35 .6
32.6
28.6
33.6
23.7
24.4
23.1
22.3
18.1
16.9
11 .5
13.9
2.8
1 .0
0.9
0.4
I .3
0.6
5.5
14.3
6 .6
5.3
4.4
6.4
10.0
1 .2
3.5
3.3
6.1
11 .a
8.5
3.5
9.3
4.4
7.8
10.7
0.3
3.7
3.7
2.8
2.6
2.7
3.1
4 .e
12.7
18.6
14.8
17.7
8.4
6.4
6.5
10.4
5.3
2.7
11.1
0.7
0.7
0.6
0.2
1.3
1 .2
1 .8
4.1
2.6
5.3
13.2
9.6
6.7
5.0
2.4
1 .7
4.3
5.9
3.4
1.2
13.3
4.4
I .6
2.7
0.3
3.7
0.5
0.4
0.4
0.4
0.3
0.2
._
1
HELL NanE: UEB FEDRL 7 NO.1
TCIBLE 1-8
- --Cl-C7
-
"
"
WYDROCfiRBON ANALYSES O F CUTTINGS G O 5
Cl-C7 NORWOLIZED DfiTCI
GR I
SfiNPLE
NUMBER
WETHANE
WELL
ETHFINE
PROPANE
INTERVAL
(
FEET )
Cl
(PPM)
C2
(PPM)
C3
(PPM)
ISOBUT- BUTONE
ONE I C 4 NC4
(PPW)
TOTAL
c5-c7
(PPM)
TOTCIL
Cl-C4
( PPW )
TOTfiL
C2-C4
(PPW)
GFIS
WElNESS
(X)
"
"
"
"
~
"
"
"
"
"
"
IC4/
NC4
%C5-C7
X 1
XC2-C4
...................................................................
z
G253-071
G253-073
G253-075
G253-077
G253-079
G253-081
G253-083
6259-085
6253-887
G253-083
Gt53-031
G253-033
G253-035
G253-037
G259-059
G259-101
6253-183
6259-1 04
G259-105
G253-106
G259-107
G259-108
6253-105
G259-111
G255-112
G259-113
GZ53-114
G253-115
6253-116
G253-117
G259-118
G253-113
6259-120
6253-122
6259-123
G253-124
G259-125
.
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
5300-5350
6000-6050
6100-6150
6110
6150-6200
6200-6250
6244
6250-6300
6300-6350
6350-6400
6400-6450
6500-6550
6550-6600
6600- 6650
6650- 670Q
6700-6750
6750-6800
6800-6850
6850-6300
6300-6950
6325
6350- 7000
7050-7100
7063
7100-7150
7150-7200
7200-7250
7230
456
3
5
1
1
1
3
2
1
2
1
2
2
3
2
3
3
1
6
1
1
1
1
473
136
441
718
512
448
405
~.
613
432
1061
1228
850
1113
1185
1052
1481
3577
'2
2
1
1
4
2
1581
1371
47
35
3.0
1.8
1
1
2
2
1
5
1
0
0
0
0
0
0
0
1
1
1
1
1
0
0
0
0
0
0
1
1265
2155
5691
8358
2323
1678
4303
1377
918
.
782
854
545
262
24
-.
56
142
106
75
103
45
21
17
11
6
11
4
1.9
2.6
2.5
1.3
2.6
6.1
1.0
1.5
1.3
1.4
0.7
2.0
1.5
0
0
0
0
2
510
418
11
9
2.2
2.2
0
0
1
0
1
1
280
434
960
7
9
23
2.5
2.1
2.4
1
1
5543
2
2
1
1
1
1
1
1
2
2
3
3
2
1
434
3
8
334
6
3
601
7
3
413
8
3
1042
.
12
5
1208
13
5
837
8
3
1035
12
4
1154
18
8
1029
17
4
1450
22
6
3505
62
7
X X TOP OF MISSISSIPPI&N
1534
38
6
1336
27
5
X X TOP O F O R D O V I C I A N
31 2 4 1
20
48
6
2033
8252
2854
1575
4258
1356
13
301
15
771
10
5
848
534
10
258
3
X X TOP O F C f i N B R I A N
433
10
1 403
8
2
2
1
1
1
1
4
2
4
2
2
1
i 0
1
1
1
1
3
1
1
3
4
3
3
2
51
2
2
1
1
1
1
~~
17
16
20
49
27
14
11
12
13
19
20
13
18
31
23
31
72
11.8
4.5
6.8
5.3
3.1
2.7
2.0
3.0
1 .8
1.6
1.5
1.6
2.6
2.2
2.1
2.0
2 .OO
2.00
2.00
3.00
1.50
2.00
1 .OO
i .OO
1 .OO
1 .OO
1 .OO
1 .OO
1.OO
0.67
1 .OO
2 .OO
2 .OO
36.2
3.6
87.6
11.7
95.2
4.5
92.7
6.8
94.4
5.3
36.0
3.1
36.8
2.7
97.7
2.0
94.8
2.9
97.3
1.8
98.1
1.6
38.2
~~.~~ 1.5
38.1
1.6
2.6
36.6
2.2
97.3
2.1
37.8
98.0
2.0
0.2
0.7
0.2
0.6
0.4
0.9
0.5
0.3
2.3
0.3
0.3
0.2
0.3
0.8
0.6
0.1
0.0
2 .OO
2 .OO
36.8
98.1
3.0
1.8
0.3
0.1
98.0
37.4
97.5
98.7
97.4
31 .l
98.3
98.3
98.0
33.2
37
38.1
1.9
2.6
2.5
1.3
2.6
6.0
1.0
1.5
1.8
1.4
0.7
2.0
1.5
0.1
0.0
0.1
0.0
0.1
2.9
0.0
0.1
0.1
0.1
0.1
0.2
0.4
97.5
37.4
2.1
2.1
0.4
0.5
37.2
37.3
37.6
2.5
2.1
2.4
0.4
0.0
0.0
3.6
~~
~
x1
3
0
1
0
1.OO
2 .OO
2 .OO
1 .OO
38.5
.a
0.00
1 .OO
I
NnnE: UEB FEDRL 7 NO.1
UELL
Cl-C7
GR I
SAMPLE
NUHBER
UELL
INTERVAL
(FEET )
HETHANE
C1
(wn)
ETHONE
C3 c2
(ppn)
ANOLYSES
OF nIR SPACE OND CUTTINGS
HYDROCARBON
PROPANE ISOBUT- BUTANE
A NC5-C7
EC1-C4
NC4
CZ-C4
WETNESS
IC4
(ppn)
(ppn)
(ppn)
GAS
TOTAL
TOTAL
TOTAL
GAS
(PPn)
CPPH)
(PPH)
( X )
IC4/
NC4
Cl-C7
""_"
NORHALIZEDDATA
XCI
XC2-C4
YC5-C7
...................................................................
I X TOP OF TERTIARY
55
sa1
X X TOP OF CRETACEOUS
xi TOP OF
1055
380
1060- 1100
31
1100- 1150
404
1150- 2000
67
42
226
1200- 1250
37
50
463
1250- 1300
235
140
1643
1300- 1350
88
53
433
1350- 1400
44
23825
1400- 1450
78
46
605
1450- 1500
58
63823
1500- 1550
18
11
172
1550- 1600
4
671
12
1600- 1650
730
6
6
1650- 1780
5
5
1105
1700- 1750
1705
1750- 1800
544
1800- 1850
372
1350- 2000
137
2000- 2050
6
3
2100- 2150
87
4
3
2200- 2250
80
4
3
2300- 2350
103
3
1.
2376- 2400
67
8
5
104
2400- 2450
47
2500- 2550
222
14
146
10
13
2600- 2650
10
21
2700- 2750
167
13
8
187
2800- 2850
13
9
2300- 2950
176
12
27
3000- 3050
152
11
4
3100- 3150
142
7
5
3200- 3250
272
2
4
3300- 3350
72
3328
X% TOP OF PENNSYLVANIhN
1@a
2
3
3100- 3450
3509- 3550
132
360iJ- 3650
103
3700- 3758
136
3800- 3850
133
3300- 3950
34 5
8
26
2 4000- 4850
2
3
7
396
407
4100- 4156
8
5
388
8
6
4200- 4250
8
14
4300- 4350
413
"
~
6253-001
6259-002
G253-003
G253-004
6253-005
(3253-006
6253-007
6253-008
G253-003
G253-010
G253-011
G253-012
6253-013
6253-014
6253-01 5
G259-016
G259-013
6259-020
G253-022
6253-024
G253-026
G253-028
G253-029
6259-031
G253-033
6253-035
6259-037
G253-033
G253-041
G253-043
G253-045
G253-047
~~~
6253-043
G259-051
G253-053
G253-055
GZ59-057
G259-059
GZ53-061
G253-063
G259-065
G253-067
~~
~~
17
3
13
9
11
40
11
5
8
5
3
1
28
6
38
0
1
.l
1
1
1
1
0
0
1
I
18
13
63
1a
9
14
7
4
2
3
1
2
~
0
2
4
2
1
1
1
2
1
1
1
I
88
36
113
78
53
151
51
44
48
24
28
5
7
7
5
10
7
3
7
3
7
15
14
19
12
10
11
15
15
10
5
26
5
3
4.
3
1
1
3
2
0
2
2
5
2
2
2
2
2
.
607
178
664
362
640
2187
663
38 1
751
731
208
690
743
1117
1714
555
374
147
106
89
113
71
113
288
172
202
218
208
197
160
286
80
227
87
260
136
177
544
170
83
146
93
36
19
115
21 0
125
7
18
16
10
11
146
144
364
410
423
403
440
13
12
9
11
2
10
19
3
10
4
15
66
26
35
31
32
45
18
14
8
13
14
1G
~~
15
27
37.4
48.3
39.2
37.6
27.7
24.3
25.4
21 .a
13.4
11.8
17.3
2.8
1.7
1.1
0.5
2.0
0.5
6.8
f 7.9
10.1
8.8
5.6
12.6
22.9
15.1
17.3
14.2
15.4
22.8
11.2
4.3
10.0
0.61
0.50
0.50
0.50
0.58
0.58
0.61
0.56
0.57
0.71
0.75
0.50
0.00
1 .OO
1 .OO
0 .OO
6.1
8.6
12.8
6.8
7.6
5.2
3.4
3.8
3.7
6.1
32.7
40.7
33.2
30.9
25.3
23.3
23.6
19.5
18.3
0.00
0.25
0.50
0.33
0.33
0.33
0.50
0.50
1 .OO
1.0%
54.7
42.5
51.6
51.4
66.2
70.3
63.3
70.1
75.7
85.6
11.4
72.9
15.3
2.7
96.5
37.3
38.3
33.2
36.3
37.6
91.3
77.087.0
85.8
77.3
78.2
72.3
79.3
78.8
81.7
78.3
71.7
83.5
4.8
33.5
67.9
1 .OO
1 .OO
1 .OO
30.0
30.1
84.5
5.8
8.5
12.4
6.8
7.4
5.2
3.4
3.8
3.7
6.1
-
1 .OO
0.33
1 .OO
0.50
-
-
1 .OO
1.50
1 .OO
0.50
-
1.50
91.3
89.3
94.3
36.1
95.8
35.8
33.4
12.7
16.8
15.2
17.7
8.4
6.5
7.1
10.4
6.0
2.3
11.9
0.7
0.9
0.6
0.3
1.8
1 .8
2.0
6.2
3.3
5.8
17.4
10.5
6.2
6.5
4.7
4.8
6.7
7.1
5.3
1.7
24.5
1.7
1.1
0.5
1.3
0.5
6.7
16.8
3.8
8.3
4.7
11.3
21.5
14.1
16.5
13.5
14.3
21.2
10.6
7.5
.
4.2
I .4
3.1
1.4
3.4
0.5
0.5
0.5
0.5
0.5
L
UELL NAME:
WEB
FEDRL
TABLE 1°C
7 NO.1
-
"
"
"
"
CI-C7
A I R SPACE AND CUTTINGS GAS
HYDROCARBON
ANALYSES
OF
""_
Cl-C7 NORHALIZED D&TA
GR I
SAMPLE
NUHBER
UELL
HETHANE
ETHANE
PROPANE
ISOBUTBUTANE
INTERVAL
C I
(FEET(PPH)
)(PPM)
(PPMI
(PPM)
(PPH)
(PPM)
(PPH)
(PPH)
c2
C3
ANE IC4
TOTAL
TOTAL
C1-C4
C2-C4
HETNESS
TOTAL
c5-c7
NC4
GAS
IC4/
NC4
<!4)
%C1
.
YC2-C4
%C5-C7
...................................................................
I
6259-069
6259-071
6259-073
6259-075
G259-077
G259-079
6259-081
G259-083
G259-085
G259-087
GZ59-089
6259-091
G259-093
.G259-095
6259-097
G259-099
G259-101
6259-103
6259- 104
G259-I05
G255-106
6259-1 07
6259-108
G259-109
G259-111
G259-112
6253-113
G259-114
G259-115
G259-116
G259-117
G25?-118
6259-119
G253-120
G259-122
G259-123
6259-124
6259-125
23
4400- 4450
4500- 4550
4600- 4650
4700- 4750
4800- 4850
4900- 4950
15
5000- 5050
51 00- 5150
5200- 5250
5300- 5350
5400- 5450
1495 5550
5500990
5600- 5650
17
5700- 5750
5800- 5850
5900- 5950
6000- 6050
6 1 00- 6150
6110
61 50- 6200
6200- 6250
6244
6250- 6300
6300- 6350
6350- 6400
6400- 6450
6500- 6550
6550- 6600
6600- 6650
6650- 6700
6700- 6750
11
6750- 6800
6e00- 6850
6850- 6900
6900- 6950
6925
6359- 7000
7050- 71 90
7069
71 00- 7150
7150- 7200
7200- 7250
7230
809
555
I81
596
867
619
15
535
520
7 813
560
1291
Xf
xx
%I
XI
12
12
16
17
18
12
.
17
11
12
12
~
6
2
2
2
24
10
11
11
10
10
8
1279
6
1463
12
27
6
1255
25
1788
28
7
9319
85
9
TOP O F n155155IPPIAN
7
31 77
60
5
2412
35
TOP OF O R D O V I C I A N
3
1662
26
63
7
3074
16
5954
131
97
15
858%
7
75
3728
9
1698
173
51 35
44
9
31613
23
966
16
6
3
845
6
1
91 1
11
2
618
2Y8
4
3
TOP OF C A H B R I A N
4
606
12
4 74
9
2
T O P OF PRE-CAMBRIAN
404
9
2
11
3
600
4
23
1IO7
T O T A L DEPTH
~~
fX
17
17
25
47
27
4
4
4
16
6
7
3
4
5
2
10
4
2
4
3
2
2
1
2
I
1
1
3
1
1
1
5
24
4
5
4
5
10
10
1
2
1
1
2
1
2
1
1
1
0
2
1
1
1
3
1
1
2
2
4
2
2
6
2
1
2
55
34
35
43
93
51
32
29
24
31
30
30
22
25
44
1
864
589
216
639
960
670
567
549
837
591
1321
1525
1012
1304
1507
1288
1826
9416
3
2
2
2
0
0
0
0
0
0
1
1
3
4
3
265
6
4
0
0
2
2
1
2
93.4 0.2 6.4
93.9
5.8
83.0
16.1
93.0
6.7
9.6
89.7
91.8
7.6
32.7
5.5
94.0
5.2
2.9
96.6
91 .l
5.0
97.4
2.3
97.7
2.0
97.4
2.2
97.7
1.9
96.4
2.9
2.5
96.7
2.1
97.9
1.0 .
93.0
3247
2455
70
43
2 .2.
1 .8
2.00
2.00
97.7
98.2
2.2
1.8
1692
30
72
150
115
84
191
1 .8
2.3
2.5
1.3
2.2
10.1
1 .l
98.2
97.7
97.5
98.6
97.7
78.8
98 .8
98.2
97.5 0.2
97.7
99.0
97.6
97.1
1.8
2.3
2.5
1.3
2.2
8.9
1.1'
1.6
2.3
1.6
0.8
2.1
2.3
97.0
97.1 0.6
2.6
2.3
6104
8696
381 2
1889
5190
1639
989
859
918
631
305
0
3
2.00
2.00
2.00
2.00
2.67
2.00
2.50
2.00
1.50
1.00
2.00
I.OO
1.OO
1.OO
0.67
1.00
2.00
2 .00
31 46
6
2
0
38
97
6
.4
..
5.8
16.2
6.7
9.7
7.6
5.6
5.3
2.9
5.2
2.3
2.0
2.2
1.9
2.9
2.6
2.1
1.0
<
33
55
26
23
14
7
~
1.6
.
~~
7
2.3
1.6
0.8
2.1
2.3
622
485
16
11
2.6
2.3
415
616
1136
11
16
29
2.7
2.6
13
2.6
1 .OO
2.00
2 .OO
1 .OO
2.00
1 .OO
-
~
~~
-
96.9
0.00
1 .OO
97.4
97.3
2.6
~~~
2.6
2.5
0.3
0.9
0.3
0.7
0.6
1.7
0.7
0.6
3.9
0.3
8.3
0.4
0.4
0.7
0.8
0.1
0.0
0.1
0.1
0.1
0.0
0.0
0.0
0.1
12.3
0.1
0.2
0.7
0.2
0.3
0.7
0.5
.
0.5
0.0
0.2
~
L
UELL NOMPIE:
TfiBLE I 1
UEB FEDRL 7 NO.1
SUMMARY
OF
ORGANIC
CARBON
FIND
. GRI
sanPLE
NUMBER
INTERVAL
UELL
(FEET)
VISUPIL
KEROGEN
CINPILYSIS
PERCENT
PERCENT
MATTER
ORGfiNIC
TOTAL
ORGANIC
TYPE
CARBON
CARBON
""_""
VISUCIL
KEROGEN
ALTERCITION
INDEX,
T A I ( 1-5 SCFILE)
( X )
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
6253-001
G253-002
6253-003
G253-004
G253-005
G253-006
G253-007
G253-008
G253-003
G253-010
G253-011
G255-012
G253-013
6259-014
G253-015
G253-016
6253-019
G253-020
GZ53-022
G253-024
6253-026
G253-028
G253-023
G253-031
G253-033
G253-035
G259-037
.
G259-033
G253-041
G253-043
6253-045
6253-047
~
~~
55
581
."
1055
1060
1100
1150
1200
1250
1300
1350
1400
1450
1500
1550
1600
1650
1700
1750
1800
1950
2000
2100
2200
2300
2376
2400
2500
2600
2700
2800
29Q0
3060
3100
3200
3300
TOP
TOP
*IC TOP
0.23
0.07
0.171
0.21
0.11
0.14
0.25
0.13
0.10
0.10
0.03
0.141
0.10
0.15
0.15
0.08
0.03
0.08
0.05
0.06
0.05
0.01 J
0.05
0.02
0.02
0.01
0.01
0.03
0.07;
0.08
4 .48
0.08
#IC
mx
-
-----
1100
1150
2000
1250
1300
1350
1400
1450
1500
1550
1600
1650
1700
1750
1800
1850
2000
2050
2150
2250
2350
2400
2450
2550
2650
2750
2854
2350
3050
3150
3250
3350
,
L
UELL N l ) l i FEDRL
E : UEB
TRBLE I 1
7 NO.!
SUMMARY O F ORGFINIC
CFIRBON
FIND
VISUCIL
KEROGEN
fiNCILYSIS
VISUAL KEROGEN
G RPERCENT
I
UELL
SAMPLE INTERVAL
(FEET)
NUMBER
G253-043
6253-051
6253-053
6253-061
G253-063
G259-065
G253-067
G253-069
."
6255-071
G253-073
G253-075
6253-077
G253-079
6259-081
G253-083
G253-085
6253-087
G25.9-083
G259-031
6253-093
6253-035
G259-037
G253-033
G253-101
G253-103
G253-104
G253-105
6259-1 06
G253-107
3328
3400
3500
3600
3700
3800
3300
4000
4100
4200
4300
4400
4500
4600
4700
4800
4900
5000
5100
5200
5300
5400
5500
5600
5700
5800
5300
6000
6100
6110
6150
6200
6244
6250
6300
~~
-
-
-
-
-
-
-
PERCENT
ORGAN IC
TYPE CARBON
CFIRBON
6200
6250
6300
6350
MATTER
ORGANIC
TOTAL
( X
TOP OF PENNSYLVRNIAN
0.06
0.40
0.28
0.25;
0.27R
0.21
0.72
0.74
0.43
0.24
0.42;
0.43R
3.02
2.86
1.15
1.68
1.55
1.74
1.11
0.701 0 . 7 1 R
0.48
0 .82
0.33
0.21
0.20
0.21
0.13I 0.21R
02 6
0.23
0.46
I X TOP OF MlSSISSIPPlAN
0.56
0.41
Xm TOP
OF
ORDOVlC,IAN
0.26
0.10
#X
3450
3550
3650
3750
3850
3'350
4050
4150
4250
4350
4450
4550
4650
4750
4850
4350
5050
5150
5250
5350
5450
5550
5650
5750
5850
5950
6050
6150
"-""""""""""""""""""
-----
)
ALTERATION
INDEX,
TO1 ( 1 - 5 5CCILE)
1
I1
TABLE
7 NO.1
UELL
FEDRL
UEB
NAME:
SUMMARY
OF
ORGANIC
CARBON
AND
VISUAL KEROGEN ANfiLYSIS
VISUAL KEROGEN
CR I
SAMPLE
NUMBER
G253-108
G253-109
G253-11 I
G253-112
6253-1 I 3
6253-1
14
6253-1 15
GZ53-116
G253-117
G253-I 1 8
G253-I19
6259-120
G253-122
G259-123
6253-124
G253-125
""_""""~"""""~"~"""
PERCENT
UELL
INTERVAL
C FEET )
-
6350
6400
6400
6450
6500
6550
6550
6600
6600
6650
6650
6700
67000.076750
6750
6800
6800
6850
6850
6300
6300
6350
6325
6 3 50.06
0
7000
7050
7100
7063
7100
7150
7150
7200
7200
7250
7230
PERCENT
ORGANI C
CARBON
CARBON
0.11
0.08;
0.36
0.45
0.10
-
0.03
-
OF
%X TOP
-
--
-
"
"
"
"
"
"
~
"
"
"
"
"
"
"
"
"
"
"
"
"
TOTAL
0.08R
0.06
0.08
0 . 0 6 1 0.05R
0.03
----
ORGANIC
MATTER
TYPE < X )
ALTERfiTION INDEX,
T A I (1-5 SCALE)
3.4
3.4
-
3.4
3.4
3.4
3.4
3.4
3.4
3.4
CAMBRIAN
---
Q.05
X X TOP O F PRE-CAMBRIAN
0.07
0.08
0.07;
0.07R
X*
TOTAL
DEPTH
-
3.4
- .
-
-- - T"LC
VITRINITE
GR I
SRMPLE
NUMBER
TH
NUMBER
OF
READINGS
(FEET )
"1
"
"
REFLECTRNCE
SUMMARY
MINIMUM
MAX IMUM
MEAN
REFLECTRNCE
REFLECTANCE
REFLECTRNCE
( X R0)
( X R01
( X R0)
STD. DEV
( X R0)
..............................................
G253-001
6255-019
G259-047
'
G259-053
G259-061
G259-067
G259-071
G259-075
6259-081
G259-087
G259-093
G259-099
6259-103
6259-104
G259-105
55
58 1
1055
1060195033b03328
36004000430045004700500053005600590061006110 '
615062006244
6925
7069
7230
X i
XX
X*
1100
2000
3350
XX
3650
4050
4350
4550
4750
5050
5350
5650
5950
6150
XX
6200
1.05
6250
XX
XX
XX
XX
TOP OF TERTIARY
TOP O F CRETRCEOUS
TOP OF PERMION
5
0.43
4
0.49
1
1.05
TOP OF PENNSYLVRNIRN
40
0.88
0.87
42
25
0.83
18
0.91
23
0.92
28
0.92
0.92
40
0.96
37
20
1 .OO
9
0.92
TOP OF MISSISSIPPIAN
10
11
0.95
TOP OF ORDOVICIAN
TOP OF CAMBRIAN
TOP O F PRE-CAMBRION
TOTRL DEPlH
0.56
0.54
1.05
0.52
0.51
1.05
0.027
0.022
1.08
1.06
1.06
1.09
1.09
1.08
1.09
1.10
1 .16
1.05
0.99
0.96
0.95
0.99
1 .OO
0.97
1 .OO
1.03
1.08
0.97
0 .058
0.045
0.061
0.049
0.056
0.043
0 .052
0.040
0.044
0.050
1.14
1.12
1 .09
1.05
0.031
0.054
-
U E L L Nan€:
- -- -
RESULTS
OF
ROCK-EVRL
'
GR I
SAMPLE
NUMBER
G259-001
G253-002
G259-003
6259-004
G259-005
G259-006
6253-007
6253-008
6259-009
G259-010
G259-011
G253-012
G259-013
G253-014
G253-015
6259-016
6259-019
G259-020
G259-022
G259-024
G259-026
6259-028
6259-029
G259-031
6259-033
G253-035
G255-037
G259-039
6253-041
G253-043
G259-045
6259-047
~
~~
G259-049
G253-051
G259-053
G259-055
G259-057
G259-059
G259-061
G259-063
G253-065
6259-067
-
"
..
. .
TClBLE V I 1
U E B FEDRL 7 N O . 1
"
PYROLYSIS
PERCENT
si
UELL
ORG4NIC
INTERVAL
(
FEET 1
55
581
1055
1100
1060
1100
1150
1150
2000
1200
1250
1250
1300
1300
1350
1400
1350
1450
1400
1450
1500
1500
1550
1550
1600
1600
1650
1650
1700
1700
1750
1750
1800
1800
1850
1950
2000
2000
2050
2100
2150
2200
2250
2300
2350
2376
2400
2400
2450
2500
2550
2600
2650
2700
2750
2850
2800
2900
2950
3000
3050
3100
3150
3200
3250
3300
3350
3328
3400
3450
0.003500
3550
3600 0 3650
.28
3766
3750
e.003t.00
3850
3900
3950
4050
0.W
4000
4150
4100
4200
4256
.e0
0
4350
4300
-
-
--
-
-
-
-
-
CARBON
*X
TOP
(MG/G>
s2s1+52 53
(MG/G)
(MG/G)
HYDROGEN
INDEX
OlG/G)
OXYGEN
INDEX
Sl,Sl+S2
86
B .36
TMCIX
(C)
OF TERTIClRY
Y X TOP OF C R E T W E O U S
*X TOP OF PERMIClN
0.29
0.07
0.17;
0.21
0.1;
0.14
0.25
0.13
0.i0
0.10
0.09
0.14;
0.10
0.15
0.15
0.08
0.09
0.08
0.05
0.06
0.05
0.01;
0.05
0.02
0.02
0.01
0.01
0.03
0.071
0.08
0.0'
0.0
0.13R
0.0
0.02
0.01
0.00
0.01
0.00
0.00
0.00
0.00
Q.13R
0.00
0.00
0.00
0.01
0.00
0.00
0.00
0.00
0.00
0.00
0.01R
0.00
0.01
0.00
0.01
0.01
0.00
0.00
0.00
0.06R
0.00
0.68
0.00
0.01
0.08
X X TOP OF
PENNSYLVClNIClN
0.06
0.Q0
0.40
0
.OO
0.00
0.27R
0.28;
B.21
0.72
0.01
0.74
0.43
.@0
0
6.24
0.42;
0.43R
0.00
""
0.07
0.00
0.00
0.05
0.03
0.03
0.06
0.00
0.00
0.01
0 .OO
0.01
0.00
0.01
0.04
0.01
0.00
0.07
0.00
0.00
0.01
0.00
0.04
0 .OO
0 .OO
0.02
0.@0
0.00
0 .OO
0.00
0.01
0.05
0.25
0.16
0.14
0.17
0.03
0.15
0.10
0.14
0.08
0.08
0.12
0.21
0.13
0.27
0.17
0.13
0.18
0.37
0.17
0.17
0.09
0.00
0 ..43
0.38
0.41
0.49
0.28
0.30
0.27
0.21
0.21
0.37
0.11
0.00
0.00
0.07
81
0.04
82
0.03
107
0.07
40
0.00
108
0.00
0.01
0.00
0.01
0.00
130
0.01
180
0.05
0 .O1
0.00
200
0.07
462
0.00
340
0.00
283
0.01
0.00
0.05
0.00
0.01
x50
0.03
0.00
x00
0.00
0.00
0.00
0.01
0.06
462
0.05
0.04
0.02
0.01
0.01
0.12
0.14
0.10
0.05
0.05
0.27
0.28
0.22
0.18
0.24
0.11
0.03
0.08
0.05
0.09
0.05
70
0.04
0.02,
0.01
0.01
0.13
0.14
12
0.10
21
0.05
0 .05
21
24
0
0
24
27
21
24
0
0
10
0
7
0
7
229
82
0.00
0.17
377
234
296
274
300
31 6
303
964
444
433
274
274
445
316
273
263
246
439
362
226
288
248
338
312
443
323
224
335
260
224
336
323
0.00
0.00
0 .OO
0.00
0 .OO
0.08
0 .OO
0.00
0.00
0.00
275
446
384
275
31 1
44 1
450
378
335
445
-
0.23
0.25
0.00
0.14
80
80
133
150
27
113
12
0
88
0
0
20
0
80
0
0
200
0
0
0
0
12
63
163
~~
'
'
~
~~
0 .OO
0.00
0 .OO
0.20
0.00
-
--
0 .OO
180
0
860
x00
x00
333
386
262
262
83
10
7
450
4
64
5
17
19
23
21
12
114
15
79
~
19
0.00
-
0.20
1 .OO
0.33
---
' '
UELL NAME:
UEB
FEDRL
7 NO.1
TABLE V I 1
RESULTS
GR I
PERCENT
ORGANIC
CARBON
SAMPLE INTERVAL
UELL
NUHBER
[FEET)
6259-069
6259-071
G253-073
G259-075
6259-077
G259-079
G259-081
G259-083
G259-085
G259-087
G259-089
6259-091
G259-093
G259-095
G259-097
'G259-099
G259-101
6259-1 03
4400
4500
4600
4700
4800
4900
5000
5100
5200
5300
5400
5500
5600
0.01 5700
5800
- 4450
- 4550
- 4650
- 4750
-
--
5300 -
6000
6100
6110
6244
6925
7069
7230
-
4850
4950
5050
5150
5250
5350
5450
5550
5650
5750
5850
5950
6050
6150
Sl
(pIG/G)
OF
ROCK-EVFIL PYROLYSIS
52 t s 2 5 1 5 3
(I'lG/G)
0.01
3.02
0.80
0.01
2.86
0.80
0.00
1.15
0.18
1.68
0.02
0.40
1.55
0.03
0.28
1.74
0.03
0.37
1.11
0.02
0 .26
0.701 0.71R
0.00
0.09
0.48
0.03
0.10
0.82
0.06
0.27
0.33
0.01
0.09
0.21
0.00
0.02
0.20
'
0.00
~~~.0.01
0.21
0.03
0.191 0.21R
0.00
0.03
0.26
0 .OO
0 .e5
0.23
0.00
0.04
0.46
0.01
0.07
LX TOP O F MISSISSIPFIAN
%X TOP O F ORDOVICIFIN
X X TOP OF CAMBRIFIN
X X TOP OF PRE-CRMBRIAN
X X TOTFIL DEPTH
~
~~~
(MG/G)
0.09
0.13
0.10
0.18
0.22
0.23
0.23
0.17
0.28
0.26
0.21
0.28
0.26
0.18
0.20
0.23
0.19
0.17
(MG/G)
0.81
0.81
0.18
0.42
0.31
0.40
0.28
0.09
0.13
0.33
0.10
0.02
0.01
0.04
0.03
0.05
0.04
0.08
HYDROGEN
INDEX
26
28
15
24
18
21
23
13
21
33
27
10
5
14
16
19
17
15
OXYGEN
INDEX
3
5
9
11
14
13
21
24
58
32
64
133
130
86
105
88
83
37
Tnax
Sl/SltSZ
0.01
0 .O1
0.00
0.05
0.10
0.07
0.07
0 .OO
0.23
0.18
0.10
0 .OO
0.00
0.25
0.00
0.00
0 .OO
0.13
(C)
478
484
' 492
494
498
434
501
472
413
500
444
353
351
275
353
363
296
327
N
"""__""__""""""""""""""""""""""""~~"~
. *^. _.
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