NMBMMR Open-File Report 344
THE HYDROCARBON POTENTIAL, OF THE
TUCUMCARI BASIN, NEW MEXICO
Appendix A
Geochemical Data
Robertson Research (U.S.), Inc.
1988
APPENDIXA
GEOCHEMICAL DATA
APPENDIX A
TABLE OF CONTENTS
NEW MEXICO BURaU OF MI#@
A N D MINFRAL RESOURCES
SOCORRO. NEW MEXICO
PAGENO.
TABLEOFCONTENTS
L I S T OF FIGURES
L I S TO FT A B L E S
A-i
A-ii
A-fi
FIGURES
AMOCO, #1 G.C.BAKER
AMOCO. #1 BLACKBURN FARMS
SUNRAY, #1 BRISCOE
PURETEX, #1 CHAPPELRANCH
STANOLIND. #1 FULLER
A-1
A-3
A-9
A-15
A-25
A-31
GREENESTATE. #1 FRANKLIN,ASTON,ANDFAIR
HUSKY, #1 HANCHETTSTATE
TRANSPECOS, #1 LATIGORANCH
A
GENERALCRUDE,
#1 SIMPSON
#1 T-4CATTLECO.
YATESPETROLEUMCORP.,
TABLES
A-37
A-43
A-53
A-59
A-65
A-71
AMOCO. #1 G.C.BAKER
AMOCO, #1 BLACKBURNFARMS
SUNRAY, #1 BRISCOE
PURETEX. #1 CHAPPELRANCH
STANOLIND. #1 FULLER
GREENESTATE, #1 FRANKLIN,ASTON,ANDFAIR
A-73
A-87
A-103
A-145
A-167
A-195
HUSKY, #1 HANCHETTSTATE
TRANSPECOS, #1 LATIGORANCH
#1 SIMPSON
GENERALCRUDE,
#1 T-4CATTLECO.
YATESPETROLEUMCORP..
A-209
A-241
A-257
A-273
OILS
A-287
A-i
APPENDIX A
LIST OFFIGURES
PAGE NO.
AMOCO. til G.C.
FIGURE A.l
BAKER
Summary plots showing kerogentypes,
richness.
source and
maturity
A-5
FIGURE A.2
Summary plots of Rock-Eva1 pyrolysis
data.
FIGUREA.3
Kerogen type determination fromRock-Eva1
data.
pyrolysis
FIGURE A.4
data.
A-6
A-7
Maturation profilebased
on vitrinite
reflectance
A-8
AMOCO, #l BLACKBURN FARMS
FIGURE A.5
Summary plots showing kerogentypes,
maturityandsourcerichness.
A-11
FIGURE A.6
Summary plots of Rock-Eval pyrolysis
data.
A-12
FIGURE A.7
Kerogen type determination fromRock-Eval
pyrolysisdata.
FIGURE A.8
A-13
Maturation profilebased
on vitrinite
reflectance data.
A-14
A-ii
APPENDIX A
LIST OF FIGURES
(continued)
PAGE NO.
SUNRAY 81 BRISCOE
FIGURE A.9
Summary plots showing kerogentypes,
maturityandsourcerichness.
A-17
FIGURE A.10 Summary plots showing kerogen types,
maturity and source richness.
(NON RR(US)
A-18
DATA)
FIGURE A . l l Summary plots Rock-Eva1
of
pyrolysis
data.
FIGURE A.12 Summary plots of Rock-Eval pyrolysis data.
DATA)(NON RR(US)
A-19
A-20
FIGURE A.13 Kerogen type determination fromRock-Eval
data.
-
pyrolysis
A-21
FIGURE A.14 Kerogen type determination fromRock-Eva1
pyrolysisdata.
(NON RR(US) DATA)
A-22
FIGURE A.15 Maturation profile based on vitrinite
reflectance data.
A-23
FIGURE A.16 Maturation profilebased
reflectancedata.
on vitrinite
(NON RRCUS) DATA)
A-iii
A-24
APPENDIX A
LIST OFFIGURES
(continued)
PAGE NO.
PURETEX, #l CHAPPEL RANCH
FIGURE A.17 Summary plots showing kerogen types,
maturity and source richness.
(NON RRCUS)
A-27
DATA)
FIGURE A.18 Summary plots of Rock-Eva1 pyrolysis data.
(NON RR(US) DATA)
A-28
FIGURE A.19 Kerogen type determination fromRock-Eval
pyrolysis
data.
FIGURE A.20
(NON RR(US) DATA)
Maturation profilebased
reflectance
data.
A-29
on vitrinite
(NON RR(US) DATA)
A-30
STANOLIND, #l FULLER
FIGURE A.21 Summary plots showing kerogen types,
maturity and source richness.
(NON RR(US)
'
DATA)
FIGURE A.22
A-33
Summary plots of Rock-Eva1 pyrolysis data.
(NON
A-34 RRCUS) DATA)
FIGUREA.23
Kerogen type determination fromRock-Eval
pyrolysis
data.
(NON RR(US) DATA)
A-35
FIGURE A.24 Maturation profile based on vitrinite
reflectancedata.
(NON RR(US) DATA)
A-iv
A-36
APPENDIX A
LIST OFFIGURES
(continued)
PAGE NO.
GREEN ESTATE, # l FRANKLIN,ASTON,
AND FAIR
FIGURE A.25 Summary plots showing kerogen types,
.
richness
source
maturity
and
A-39
FIGURE A.26 Summary plots of Rock-Eva1 pyrolysis
data.
A-40
FIGURE A.27 Kerogen type determination from Rock-Eval
data.
pyrolysis
A-41
FIGURE A.28 Maturation profilebased
data.
on vitrinite
reflectance
A-42
HUSKY, 81 HANCHETTSTATE
FIGURE A.29 Summary plots showing kerogen types,
A-45
maturity and source richness.
FIGURE A.30 Summary plots showing kerogen types,
maturity and source richness.
(NON RRCUS)
A-46
DATA)
FIGURE A.31 Summary plots of Rock-Eva1 pyrolysis
data.
FIGURE A.32 Summary plots of Rock-Eval pyrolysis data.
(NON
A-48 RR(US) DATA)
A-V
A-47
APPENDIX A
LIST OF FIGURES
(continued)
PAGENO.
FIGURE A.33 Kerogen type determination fromRock-Eva1
pyrolysis
data.
FIGURE A.34 Maturation profilebased
A-49
on vitrinite
reflectance data.
A-50
FIGURE A.35 Maturation profilebased
reflectancedata.
on vitrinite
DATA)
(NON
RRCUS)
TRANSPECOS,
A-51
# l LATIGORANCH
FIGURE A.36 Summary plots showing kerogen types,
maturity and source richness.
(NONRR(US)
A-55
DATA)
-
FIGURE A.37 Summary of organicanalyses.
(NONRR(US)
DATA)
A-56
FIGURE A.38 Summary of organic analyses
hydrocarbon.
-
C1-C7
DATA)
(NON
RR(US)
FIGURE A.39 Summary of carbondata.
QENERALCRUDE,
A-57
A-58
#1 SIMPSON
FIGURE A.40 Summary plots showing kerogen types,
maturity and source richness.
A-vi
A-61
APPENDIX A
LIST OF FIGURES
(continued)
PAGR NO.
FIGURE A.41 Summary plots of Rock-Eval pyrolysis
data.
A-62
FIGURE A.42 Kerogen type determination fromRock-Eval
data.
pyrolysis
A-63
FIGURE A.43 Maturation profile based on vitrinite
data.
reflectance
A-64
YATESPETROLEUMCORP..
#l T-4CATTLE
CO.
FIGURE A.44 Summary plots showing kerogen types,
richness.
source and
maturity
A-67
FIGURE A.45 Summary plots of Rock-Eva1 pyrolysis
data.
A-68
FIGURE A.46 Kerogen type determination fromRock-Eval
pyrolysis data.
data.
A-69
FIGURE A.47 Maturation profilebased
reflectance
on vitrinite
A-vii
A-70
APPENDIX A
L I S T OF TABLES
PAGE NO.
AMOCO, 81 G.C.
gic
A.l
BAKER
TABLE
A.2TABLE
TABLE A.3
A-75
Total
D aCtOa r bg oa n i c
A-76
Rock-Eval Pyrolysis
DataRaw
A-77
T A B L E . A . 4H y d r o g e n
and O x y g e n Indices fromRock-Eval
P y r o lDy as it as and T O C
TABLE A.5
-
V i s uKael r o gAe n a l y s i s
R e f l e c tLeidg h t
of Source E
R xo tcrka c t
Composition
TABLE
A.6
TABLE A.7
A-77
A-83
S u m m a r y Table Showing Selected P a r a m e t e r s of
A-83
Oil S a m p l e s
TABLE A.8
A-78
H e a v yH y d r o c a r b o n sN o r m a l i z e d
to 100%
A-84
AMOCO, NO. 1 BLACKBURNFARMS
TABLE A.9
A-89
L i t h o l o g i cD e s c r i p t i o n
TABLE A.10 Total O r g a n i c C a r b o n D a t a
TABLEA.llRock-Eva1
Pyrolysis RawData
A-viii
A-90
A-91
APPENDIX A
LIST OF TABLES
(continued)
PAGE NO.
TABLE A.12 Hydrogenand
Oxygen Indices fromRock-Eval
Pyrolysis and TOC Data
A-91
TABLE A.13 Visual Kerogen
Analysis-Reflected
Light
A-92
TABLE A.14 Composition of Source Rock Extract
A-98
TABLE A.15 Summary Table Showing SelectedParameters of
Oil Samples
A-98
TABLE A.16 Heavy Hydrocarbons Normalized to 100%
A-99
SUNRAY, 111 BRISCOE
*
TABLE A.17 Lithologic Description
A-105
TABLE A.18 Total Organic Carbon Data
A-106
TABLE A.19 TotalOrganicCarbon
A-107
Data (NON RR(US) DATA)
TABLE A.20 Rock-Eva1 Pyrolysis Raw Data
TABLE A.21 Hydrogenand
and Pyrolysis
A-108
Oxygen Indices from Rock-Eval
TOC Data
TABLE A.22 Rock-Eval Pyrolysis Raw Data (NON RR(US)
DATA)
A-iX
A-108
A-109
APPENDIX A
LIST OF TABLES
(continued)
PAGENO.
and O x y g e nI n d i c e sf r o mR o c k - E v a 1
Pyrolysis and TOCData(NONRR(US)DATA)
TABLEA.23Hydrogen
TABLE A.24 V i s u a l K e r o g e n A n a l y s i s
-
ReflectedLight
TABLE A.25 V i s u a l K e r o g e n A n a l y s i s
-
ReflectedLight
(NONRR(US)DATA)
A-110
A-111
A-116
TABLE A.26 V i t r i n i t e R e f l e c t a n c e D a t a S u m m a r y ( N O N
RRCUS)DATA)
A-117
TABLE A.27 V i s u a l K e r o g e n D a t a S u m m a r y ( N O N R R ( U S )
DATA)
A-127
TABLE A.28 Compostion of Source R o c k E x t r a c t
A-135
TABLE A.29 S u m m a r y Table Showing Selected P a r a m e t e r s o f
A-135
Oil S a m p l e s
TABLE A.30 H e a v y H y d r o c a r b o n s N o r m a l i z e d
to 100%
A-136
PURETEX, 81 CHAPPELRANCH
TABLE A.31 Total OrganicCarbonData(NONRR(US)DATA)
A-147
TABLE A.32 Rock-Eva1 Pyrolysis RawData(NONRRCUS)
DATA)
A-148
A-X
APPENDIX A
L I S T OF TABLES
(continued)
rAun NU.
and O x y g e nI n d i c e sf r o mR o c k - E v a 1
Pyrolyis and TOCData(NONRR(US)DATA)
TABLEA.33Hydrogen
TABLEA.34VisualKerogenAnalysis
-
A-148
R e f l e c t e dL i g h t
(NONRR(US)DATA)
A-149
TABLE A.35 V i t r i n i t e R e f l e c t a n c e D a t a h m m a r y ( N O N
RR(US)DATA)
A-150
TABLE A.36 V i s u a l K e r o g e n D a t a S u m m a r y ( N O N R R ( U S )
DATA)
A-158
STANOLIND. # l FULLER
TABLEA.37
Total OrganicCarbonData(NONRR(US)DATA)
TABLE A.38 Rock-Eval Pyrolysis RawData(NONRR(US)
DATA)
A-169
A-170
TABLE A.39 H y d r o g e n and O x y g e n Indices fromRock-Eva1
Pyrolysis and TOCData(NONRR(US)DATA)
TABLE A.40 V i s u a l K e r o g e n A n a l y s i s
-
(NONRR(US)DATA)
A-170
ReflectedLight
A-171
A-172
A-Xi
APPENDIX A
LIST OF TABLES
(continued)
PAGE NO.
TABLE A.42 Visual Kerogen DataSummary
( N O N RRCUS)
DATA)
A-180
GREEN ESTATE, #l FRANKLIN,ASTON,
A.43
TABLE
AND FAIR
Lithologic Description
TABLE A.44
Carbon
Organic
Total
A-197
Data
A-198
TABLE A.45 Rock-Eva1 Pyrolysis Data
TABLEA.46
A-199
Hydrogen and Oxygen Indices
from Rock-Eva1
Pyrolysis and TOC Data
TABLE A.47 Visual
Kerogen
Analysis
A-199
-
Reflected Light
A-200
I
TABLE A.48 Composition of Source Rock Extract
A-204
TABLE A.49 Summary Table Showing Selected Parameters of
Oil Samples
A-204
TABLE A.50 Heavy Hydrocarbons Normalized to 100%
A-205
HUSKY, 81 HANCHETTSTATE
TABLE A.51 Lithologic Description
TABLE A.52 TotalOrganicCarbon
A-211
Data
A-xii
A-213
APPENDIX A
LIST OF TABLES
(continued)
PAGENO.
T'ABLEA.
53 Total O r g a n i c C a r b o n D a t a ( N O N R R ( U
'SI DATA
TABLE A.54 Rock-Eval Pyrolysis Raw Data
A-214
A-215
TABLE A.55 H y d r o g e n and O x y g e n Indices fromRock-Eva1
Pyrolysis and T O C D a t a
A-215
TABLE A.56 Rock-Eva1 Pyrolysis RawData(NONRR(US)
DATA)
A-216
TABLE A.57 V i s u a l K e r o g e n A n a l y s i s
- Reflected Light
TABLE A.58 V i s u a l K e r o g e n A n a l y s i s
- R e f l e c t e dL i g h t
A-217
A-223
(NONRR(US)DATA)
TABLE A.59 VitriniteReflectanceDataSummary(NON
RR(US)DATA)
A-224
TABLE A.60 V i s u a l K e r o g e n D a t a S u m m a r y ( N O N R R ( U S )
A-229
DATA)
T R A N S PECOS. It1 LATIGO RANCH
TABLE A.61 LithologicDescription(NONRR(US)DATA)
A-243
TABLE A.62 Total O r g a n i c Carbon Data(NONRR(US)DATA)
A-247
TABLE A.63 V i s u a l K e r o g e n A s s e s s m e n t
Worksheet (NON
A-248
RR(US)DATA)
A-xiii
APPENDIXA
LIST OF TABLES
(continued)
PAGE NO.
TABLE A.64 Summary of C15+ Soxhlet E x t r a c t i o n ,
D e a s p h a l t e n i n g and L i q u i d C h r o m a t o g r a p h y
DATA) (NON RR(US)
TABLE A.65C1-C7
TABLEA.66
of Air Space
HydrocarbonAnalyses
and C u t t iGnagss
(NON RR(US)
DATA)
Saturate H y d r o c a r b o n A n a l y s e s
A-255
for C r u d e OS
TABLE A.67 DetailedCompositionalData
(NON RR(US)DATA)
GENERALCRUDE,
A-256
# 1 SIMPSON
TABLE D
A.68
e s c r iLpittihoonl o g i c
A-259
Total
DC
aOtaarrgbaonni c
A-260
TABLE A.70
D aPtRya rooclky-sEi sv a l
T A B L EA . 7 1H y d r o g e n
A-261
and O x y g e n I n d i c e s from Rock-Eva1
P y r o lDy as it as and T O C
TABLE A.72 V i s u a l Kerogen A n a l y s i s
TABLE
Composition
A.73
A-252
(NON RRCUS)
DATA)
A.69
TABLE
A-250
A-261
-
R e f l e c tLe idg h t
of Source RE ox ct rka c t
A-262
A-267
APPENDIX A
LIST OF TABLES
(continued)
PAGE NO.
TABLE A.74 Summary Table Showing Selected Parameters of
Oil Samples
A-267
TABLE A.75 Heavy Hydrocarbons Normalized to 100%
YATESPETROLEUM
C0RP.s C1 T-4CATTLE
A-268
CO.
TABLE A.76 Lithologic Description
TABLE A.77
Carbon
Organic
Total
A-275
Data
A-276
TABLE A.78 Rock-Eva1 Pyrolysis Raw Data
A-277
TABLE A.79 Hydrogen and Oxygen Indices fromRock-Eval
Pyrolysis and TOC Data
-
TABLE A.80 Visual Kerogen
Analysis
TABLE
A.81
A-277
-
Reflected Light
A-278
Composition of Source Rock Extract
A-282
TABLE A.82 Summary Table Showing SelectedParameters of
Oil Samples
TABLE
A.83
A-282
Heavy Hydrocarbons Normalized to 100%
A-XV
'
A-283
APPENDIX A
LIST OF TABLES
(continued)
PAGE NO.
OILS
TABLE A.84 Oil Composition and API Gravities
A-289
TABLE A.85 Summary Table Showing SelectedParameters of
Oil Samples
A-289
TABLE A.86 Heavy Hydrocarbons Normalized to 100%
TABLE A.87 List of Abbreviations used
A-290
in Gasoline Range
Hydrocarbons Data Table
TABLEA.88
Individual Component Concentrationsin
A-295
Gaso-
lineRangeHydrocarbons
A-296
TABLE A.89 Gasoline Hydrocarbons
A-299
TABLE A.90 Classification of Oil on the Basis of Light
Hydrocarbon Composition
A-300
FIGURES
A- 1
0
0
0
c
c
P
c
c
A-2
AMOCO, #l G.C. BAKER
A-3
A- 4
i"'
E
AHOCO # I G.C. BAKER
L
O
0
A- 5
MOCO # I G.C. BAKER
0
UR
c
FIGURE A.2
Summary plots of Rock-Eval pyrolysis data.
A- 6
A- 7
I,
\
\
\
\
\
\
\
\
\
\
\
\
'
\
\
\
\
\
i
FIGURE A.4
LL
Maturation profile based on vitrinite
reflectance data.
A- 8
c
AMOCO, It 1 BLACKBURN FARMS
A-9
I)
I)
a
A-10
AnOCO
BLACKBURN FAWS
I"
-
E-
m'
AND
'RIA!
-
P
E
R
N
I
A
N
P
E
N
N
-
'7
P
R
E
C
A
H
B
R
I
A
N
FIGURE A.5
Summary plots showing kerogen types. maturit;~
and source richness.
A-1 1
e
AMOCO BLACKBURN FARMS
BENERATION
(S2)
ZONES
I
(T-sox)
I
L
O
y
e
I
DRY 816
'RIAS
e
e
I'
P
R
E
C
A
M
B
R
I
I'
A
N
FIGURE
A.6
Summary plots of Rock-Eval pyrolysis data.
A-12
AMOCO BLACKBURN FARMS
1000
H
Y
800
D
R
G
600
E
N
'
N
D
E
400
X
200
0
-
0
25
150
125
100
7550
200
1 75
OXYGEN
FIGURE A.7
INDEX
Kerogen type determination f r o m Rock-Eval
pyrolysis data.
AIIOCO BLACKBURN FAWS
~ A T U R A T X O NP R O F I L E
0
GENERATION ZONES
1.2.
-mft
I B.6.
O"
2.
1.2
I
4€m ft
m.4
I
n
1.B.
MM
ft
DRV
L a m ft as
RANDOM REFLECTANCE
#.E
1.)
I
r
1.4-
ct
I
,
916
I ,
I
I 1.c
)aae ft
3.2.IW f t
, , . , , , , , , 1 ,,,,
8
4
\
\
0
\
\
\
\
\
\
\
a
\
\
\
1.
\
\
a
\
\
\
\
\
FIGURE A.8
Maturation profile based on ritrInite
reflectance data.
A-14
SUNRAY, #l BRISCOE
a
I’
A-16
SUNRAY tl IRA J. BRISCOE
m
I
I
SOURCE RICYNESS
FIGURE A.9 Summary plots showing kerogen types, maturity
and sourcerichness.
A-17
I
0
BRISCOE tl (SUN)
A
L
I
T
( X ORGANIC CARBON)
0 0 ”
E
L
O
0
Y
0
0
c
c
NON RRI
DATA
FIGURE A.10 Summary plots showing kerogen types. mstuAty
and source richness.
A-I8
SUNRAY # I IRA J. BRISCOE
P
R
E
C
A
M
B
R
I
A
N
L
J
FIGURE A.11 Summary plots of Rock-Eval pyrolysis data.
A-1 9
0
1-1
la
I:
1
BRISCOE tt (SUN)
POTENTIAL
”
TI
e
I‘
R
E
C
A
M
B
R
I
A
N
NON RR(US) DAT,A
I‘
SUNRAY
C
H I
I R A J . BRISCOE
600
E
N
I
N
400
X
200
0
200
175
150
125
100075 50 25
WYGE?!
FIGURE A.13
I!YDEY
Kerogen type determination from Rock-Eva1
pyrolysis data.
\
A-22
1
a
oc
I C
a
Ia
n
v)
A
3
Y
a
a
B
2
SUNRAY # I
IRA
J.
BRISCOE
~ A T U R A T X O NP R O F I L E
OIL
GENERATION ZONES
m.8. I l e f t KT 88.4wafL
I1.4.11m
X
ft
RANDOH
I.8
m.4
REFLECTANCE
rn.8
I
P
R
E
C
A
H
B
R
I
A
N
i
L
FIGURE A.15 Maturation profile based on vitrinite
reflectanoe data.
A-2 3
DRI
us Ie:crMm ft BAS
1
c 74eaft
I 3 : * m f a Ct
i
0
BRISCOE (SUN)
I'
M
B
R
I
A
N
\
I'
PURETEX, I1 CAAPPELRANCH
A-25
I'
c
A-26
PURETEXCHAPPELRANCH
(SUN)
SOURCE R I C ' I N E S S
CENCE
EENERATIO
( X ORGANICCARBON)
8.6
1.0
4
I!
i
!
!I
I
1
I
I
i
i
I
II
~
I
i
i
I
NON RR(U
FIGURE A.17 Summary plots showing kerogen types, maturity
and mume richness.
A-2 7
0
PURETEX CHAPPEL RANCH (SUN)
I
PRmCTIVIM
(T-max
1
INDEX
(S'/CS1+S21)
YET EA6
DRY 9A6
-r
T
T
0
P
P
FIGURE A.18
Summary plots of Rock-Eval pyrolysis data.
A-28
c
z
I)
-
m
0
A-29
0
0
0
a
m
N
m
N
-
PURETEX CHAPPELRANCH
(SUN)
P R O F I L E
M A T U R A T I O N
GENERATION ZONES
m-- m
\
\
\
\
1-
\
-
\
\
2-
\
3-1
\
-.
-h
+
+'i
4-
\r
=\*
'\.
+r
-
5-
\
-.
\
\
\
6-
\
\
.-2
\
7-
\
\
\
8-
\
-
\
\
\
e-
\
"3
10-
1
FIGURE A.20
\
L
1
1
1
1
1
1
A
Maturation profile based on vitrinite
reflectance data.
A-30
STANOLIND, #I FULLER
A-3 1
0
0
0
I’
c
A-32
FULLER # I
ll
(SUN)
MATURITY
X EXiNITE
1%
AMORPHOUS
ORGANIC CARBON)
D R Y YET
BAS BAS
T
V E h l
'IL
T
I
I
I
FIGURE A.21 Summary plots showing kerogen types, matu-ity
and source riohness.
A-33
FULLER tl (SUN)
G
0
k
U
R
M EOOD
0
0
8)
DATA
A-3 5
0
0
0
0
0
FULLER # I (SUN)
P R O F I L E
M A T U R A T I O N
OENERATION ZONES
I n
J
I
,
I
I
,
I
, I , , , , , , ,
\
I,,,.
I,
\
\
\
a
.'
\
\.
\
0
P
I'
A
rA
FIGURE A.24
Maturation profile based on vitrinite
reflectance data.
A-36
GREEN ESTATE,#lFRANKLIN,
A-37
,P
ASTON, AND FA1
a
A-38
GREEN ESTATE #I, FRANKLIN,ASTON 8 FAIR
CENCE
BENERATION
T
P
R
E
C
A
tl
B
R
I
A
N
FIGVRE A.25 Summary plots showing kerogen types, maturfty
and source richness.
A-39
GREEN ESTATE'II, FRANKLIN,ASTON8 FAIR
A
e
E
T
I
P
R
E
C
A
M
B
R
I
A
N
FISIIRE A.26
Summary plots of Rook-Eval pyrolysis data.
A-40
I
GREEN ESTATE # I ,
lBBO
H 800
Y
FRANKLIN,ASTON & FAIR
1 *OlL
1f
D
R
0 600
G
E
N
P
E
. I
N
4 00
D
E
X
200
I
0
0
0
t
.
25
75
50
I00
125
1 50
1 75
OXYGEN
IIVDEX
FIGURE A.27
Kerogen type determination from Rock-Evd
pyrolysis data.
200
CF
GREEN ESTATE# I , FRANKLIN,ASTON 8 FAIR
#
m
CUK
1
fi
I
A
6
6
1
C
.”,
P
E
R
M
I
A
N
P
E
N
N
-”
P
R
E
C
A
M
B
R
I
A
N
j
\
:
\
:
\
:
\
\
I
FIGURE A.28
Maturation profile based on vitrinite
reflectance data.
A-42
HUSKY, #l HANCHETT STATE
A-43
I)
a
c
c
HUSKY tl HANCHETT STATE
SOURCE RICFNESS
12 OREANIC CARBON)
1.6
-Ai:;
IJ
0
2.0
o E D
FIGURE A.29 Summary plots showing kerogen types, maturit:
and source richness.
A-45
,v r a v
0
HANCHETT STATE (SUN)
SOURCE RICHNESS
0
-r
0
!
0
0
I
!
I
i
I’
I
FIGURE
A.30
Summary Plots showing kerogen types, matufity
and BOurce richness.
A-46
HUSKY
I POTENTIAL
SOURCE I
tl HANCHETT STATE
I
H-INDEX
I
0
I
TI
I
2
".
3
4
-
"
FIGURE A.31 Summary plots of Rock-Eval pyrolysis data.
A-47
HANCHETT STATE (SUN)
INDEX
0
0
j
0
5 '
1
l
I
e
I
m10N RR(US) DATA
FIGURE A.32
Summary plots of Rock-Eval pyrolysis data.
A-48
w
I-
U
m
II-
t
P
c
A-49
1
0
HUSKY tl HANCHETT STATE
~
0
X tl
F
1
0
\
0
0
: \
:
i
:
\
\
\
\
\
\
\
\
\
\
I'
FIGURE A.34
Maturation profile based on vitrinite
reflectance data.
A-50
E
HANCHETTSTATE
(SUN )
P R O F I L E
M A T U R A T I O N
BENERATION ZONES
KF
0.2.
Pt
OIL
m.8. m
[ 1.4.
ct KI
Ea Pt
B)is
08-
48118 Pt DRY
{*:e
l24m Ct
Io.
RANDOM REFLECTANCE
#.e
Le
I
2
2
1
\
\
3
i
i
\ i
\ i
\i
\i
;\
: \
\
\
\
\
\
\
\ +
+++
+\
\
:
\
;
\
:
\ i
\
\
\
\
\
.\
\
\
I
*
I , I . , . : , . . , . I, , . . -
R(US1 DATA
FIGURE A.35
Maturation profile based on vitrinite
reflectancedata.
A-5 1
EKw P i
3:2. 1 8 2 8 8
B)is
ft
4
e
.e
e
e
e
c
A-5 2
TRANS PECOS,#l LATIGO RANCH
A-53
0
I'
I'
A-54
LATIGO RANCH
W
A-55
l-
LATIGO RANCH
SUMMARY OF ORGANIC ANALYSES
0
SOURCE CHARACTER
0
0
c
3
I'
I'
I'
NON RR(US) DATA
FIGURE A 3 Summary of organic analyses.
A-56
LATIGO RANCH
SUMMARY OF ORGANIC ANALYSES
. .. . "
CrC7 HYDROCARBON
-5-
.. . " .
FIGURE A.B Summary of organic analyses
carbon.
A-5
- C1-C7
hydro-
v
LATIGO RANCH
i
I
I
I
I
I
I
I
I
I
I
0
II
I
I
I
I
I
I
i
I
I
I
I
I
I
II
I'
I
I
II
I
I
I
II
I
I
0
A-58
'IW
GENERAL CRUDE,#l SIMPSON
A-59
e
I'
I'
A-60
GENERAL
FIGURE A.40
CRUDE # I SItlPSON
Summary plots showing kerogen types, maturity
and source richness.
A-6 1
GENERALCRUDE
tl SIMPSON
BENERATION
1
ZONES
H-INDEX
I'
FIGURE A.41
Summary plots of Rock-Eval pyrolysis data.
A-62
0
A-63
0
0
i \
i \
\
\
\
\
\
\
0
c
I'
\
\
- i
\
\
1.
A.43
Maturation profile based on vitrMte
reflectance data.
1.
A-64
YATES PETROLIJEM CORP.. A 1 T-4CATTLE
A-65
CO.
I’
c
c
A-66
YATES # I T.V. CATTLE CO.
HATURITY
BENERATIOh
CENCE
INTENSITY
S O U R C ER I C ' 4 N E S S
( 2 O R G A N I C CARBON)
1.00.5
!
I
FIGURE A.44 Summary plots showing kerogen types. maturity
and sourcerichness.
A-67
YATES # l T.9. CATTLE CO.
JUR
AND
RIA6
P
E
R
H
I
A
N
0
-
P
E
N
N
."$
P
R
E
C
A
M
B
R
I
A
N
FIGURE A.45
Summary plots of Rock-Eval pyrolysis data.
A-68
A-69
0
0
0
0
v
\
\
\
\
\
\
\
\
\
+\
\
\
\+
t
\
\
\
\
\
P
\
R
E
C
A
K
6
R
I
A
N
LL
FIGURE A.47 Maturation profile based on vitrinite
reflectance data.
A-70
TABLES
A-7 1
0
0
0
0
c
c
I'
A-72
AMOCO. #1 G.C. BAKER
A-73
I'
A-74
TABLE A.l
LITHOLOGICDESCRIPTION
AMOCO PRODUCTION
#1 G.C. BAKER
210- 660'
700790'
790-1,900'
Mudstone. reddish brown
Sandstone.fine-grained.lightbrown
Mudstone, reddish brown. some lightgreenishgray
mudstone. trace of lime mudstone and gypsum below
1.390
1,900-2,420'
2.420-2,790'
2,7904,910'
2,940-2,980'
3.000-3,340'
3,370-3.380'
3.400-3.440'
3.460-3.470'
3.490-3.540'
3,560-3,600'
3,620-3.840'
3.860-4.390'
4.410-6,280
6.280-6.970'
Gypsum and dolomudstone. light gray
Limestone, dolomudstone and gypsum, med. to da-k gray
Mudstone. light gray, some limestone and gypsum
Halite, V. light gray to pink
Mudstone, lightreddish brown
Halite, light pink
Mudstone, lightreddish brown
Halite, pinkish
Mudstone, reddishbrown
Trace of halite
Halite pinkish
Mudstone, reddishbrown
Mudtsone. light reddish brown
Trace of gypsum
Trace of dark gray mudstone
Mudstone, reddish brown
Trace of gypsum
Somemedium gray mudstone
Trace quartz sand
Mudstone, medium to dark gray, some light browrish red
Some cgarsequartzgrains
Trace of pink feldspar granite wash
Granite wash
Trace of dark gray mudstone
Mudstone, medium darkgray, some light brownisk red
Some granite wash
Mudstone. darkgrayandreddish
brown
Sandstone, medium
Mudstone, darkgray,reddish
brown
Trace of granite
-
6,970-7.060'
7,080-7.700'
7.700-8.180'
8,200-8.330'
A-75
TABLE A.2
TOTAL ORGANIC CARBON DATA
AMOCO * 1 C . C . BAKER
1
P r o j e c t NO. : R R U B I ~ ~ S I ~ I ~ O ~ I ~
SAMPLEIDENTIFICATION
: DATA
DEPTH
: TOC%
RRUS
1001
:
230
520
:
1004
1530
1005
1860
:
:
:
1006
1007
1008
1009
:
1010
2455
2650
2855
3040
3420
1011
1012
1013
1014
1015
3820
4120
4280
4720
5240
1002
1003
1020
(Feet)
: 0.05
: 0 . 0 8 I 1017
1018
: 0.07
1019
: 0.03
1020
: 0.09
5720
6335
6470
6770
7100
1021
1022
1023
1024
1025
7220
7370
7510
7705
7810
1026
1027
7915
8050
8150
8310
:
:
2490
2670
2890
3080
3940
:
:
:
:
:
:
:
:
:
:
38004100426047005220-
3840
4140
4300
4740
5260
: 0.05
:
: DATA
: TOCYl
3
2 1 0 -2 5 0
500540
1000- 1040
1 5 1 0 - 1550
1840- 1880
24202630282030003400-
:
I
SAMPLEIDENTIFICATION
RRUS
DEPTH (Feet)
0.25
0.20
0.08
0.16
0.10
: 0.24
: 0.16
: 0.04
1016
1028
1029
:
:
:
:
:
57005740
6300- 6 3 7 0
6 4 5 0 - 6490
6750- 6790
7080- 7120
:
:
:
:
7170- 7270
7340- 7400
7490- 7530
7670-7740
7790-7830
:
:
:
:
7880803081208290-
:
:-0.06
: 0.20
: 0.23
:
:
0.23
0.31
1
0.27
: 0.36
: 0.29
: 0.31
: 0.37
7950 : 0.42
8070 : 1 . 2 1
8180
:-0-.8P
8330 : 0 . 4 4
: 0.C5
I'
A-76
TABLE A.3
ROCK-EVAL PYROLYSIS RAW DATA
BAKER
AMOCO Ul G . C .
Project N o . : R R U S 1 8 4 5 I M 1 8 0 7 l 4
I
: DATA ( S l , S 2 , 8 3 mglgm of r o c k , Tmax
SAMPLE IDENTIFICATION
RRUS
DEPTH
(Feet)
I
I
82
51
c)
deg
Sl/(Sl+S2) Tmax
S 25l3S 3
!
1 0 0264 5 5
1 0 1421 2 0
1018
6470
7100
1020
1022
7370
1024
1025
1026
1027
1028
1029
7705
7810
7915
8050
8150
8310
:
:
:
:
:
:
:
:
:
:
:
2 4 9 0 ’ 0.040
4 1 0 04-1 4 0
0.070
6450- 6490 I 0 . 2 2 0
7080- 7120 I 0.060
7340- 7 4 0 0 I 0.020
0.200 0 . 3 0 0
0 . 4 ~ 0 0.680
0.470
0.150
0.240
0.340
0.110
0.290
7670- 7 7 4 0 i 0 . 0 5 0
7790- 7830 I 0 . 0 5 0
7880- 7950
’ 0.060
8 0 3 0 -8 0 7 0
i 0.200
8120- 8180
I 0.080
0.250
0.150
0.190
0.940
0.330
0.250
0.350
0.280
0.330
0.250
1,000
0.429
01679
2.848
1.320
0.200
0.340
0.588
2420-
i
0 . 6 607. 1 6473 7
0.662
0.135
3.133
0.319
0.706
0.200
0.379
0.154
!
0.167
cI.250
I 0.070
8 2 9 0 -8 3 3 0
c.259
-----
408
---
.. .
0.240
c . 41 57 15
0.195
I
--409
”-
462
---
NOTE: A DASH INDICATES AN INDETERMINABLE VALUE.
TABLE A.4
HYDROGEN AND OXYGENINDICES FROM
ROCK-EVAL PYROLYSIS AND TOC DATA
AMOCO I1 G.C. BAKER
Project N o . : R R U S l 8 4 5 I M I 8 0 7 l 4
SAMPLE IDENTIFICATION
I
I
RRUS
DEPTH
(Feet) I
1006
1012
1018
1020
1022
1024
iOZS
1026
1027
1028
18032190
2420-
4120
6470
7100
7370
7705
:
:
:
7 677704-0
I
7790- i e i o i
7880- 7950 :
8030- 8070 I
8120- 8180 I
:
8 289303-0
7eio
7915
8050
8150
4100645070807340-
2490
4140
6490
7120
7400
I
I
I
I
:
80
188
204
77
31
I
I
:
OXYGEN
INDEX
TOC
(mg CO2lgm TOC)
(%)
I
:
:
:
:
:
2455
HYDROGENINDEX
(mg HClgmTOC)
E1
41
45
7 8
37
I
45
A-77
0.44
120
283
65
110
81
0.25
81
95
67
27
28
0.31
0.37
77
0.24
0.23
0.31
0.36
,
0.42
1.21
0.88
e'
TABLE A.5
VISUAL KEROGEN ANALYSIS- REFLECTED LIGHT
AMOCO tl C . C . BAKER
P r o j e o t No.
SAMPLE IDENTSFICATXDN
RRUS
DEPTH
(Feet)
I
I
I
I
REFLECT.
RD
%
KEROGEN
Am%
I
:
:
:
:
:
2420- 2490 :
4100- 4 1 4 0 '
6450- 6490 i
7 3 4 0 7- 4 0 0
I
7 7 9 07
-8 3 0
I
0.37
1.09
1.14
1.14
35
tr
45
0
0
0
0
50
0
1 0 28
70 5 0
1 0 28 1 5 0
1029
8310
:
8 0 3 08
-0 7 0
8 1 2 08
-1 8 0
8 2 9 08
-3 3 0
:
1.18
1.19
30
tr
0
:
CHARACTERIfTICS
Ex% VitS I n e r t % F l u o r
1006
2455
1012
4120
1018
6470
1 0 2723 7 0
1025
7810
:
0
: RRUS/845/M/B07/4
I
I
I
----
----
A-7 8
55
so
0
0
30
15
tr
0
3350
30
2 03 0
25
50
20
23
00
0
0
LOW
None
None
None
None
LOW
None
None
TOC
K
0.25
0.24
0.23
0.36
0.37
@
1.21
0.88
0.44
I)
AMOCO
Wl
G.C. BAKER
RRUS N o .
ID
1’106
tTt5.
I
DEPTH
I
9
I
2545 0 Ft
775.7 n
t = Ro RATURITY
P l5
*
8
VALUES
MEAN
STD
0.37
0.03
I
DEV
flEDIAN
MODE
0.38
:
0.35
HISTOGRAR:
Range: 0- 4 %
Increment: 0.10%
ORDERED REFLECTANCE VALUES,
V0.32
V0.33
t0.36
10.37
V0.38
VE.38
V0.40
10.40
0.51
KEROGEN DESCRIPTION
55 X
Amorphous :
Exinite
:
0 %
Vitrinite :
30 X
Inertinite ,
15 f
Back Fluor
Bitumen
Cohe
AROCO
s1
:
Low
I
Snail
:
Nom
G.C. B M E R
RRUS
ID
I
No . 1012
CTtS.
DEPTH
BARREN
MEAN
I
3770.0 F:
I
1148.1
:
li
N.D.
gL
e0.0
I .0
2.0
3 e
VITRINITE REFLECTANCE (RANDOM X I
ORDERED REFLECTANCE VALUES:
4.0
HISTOCRAV:
lncpement
0- RDnge
4%
E,l0%
KEROGEN DESCR1P:ION
lr 2
Amorpnous :
0 X
Exinlte
Vitrinite I
tr X
0 %
Inertinyte
Bsch Fluor
B i tumen
Cohe
A-7 9
;
None
None
:
Nore
I
W
RRUS
ID
>
NO. : I018
CltS.
DEPTH
I
I
6620.0 F t
2017.8 M
f
= Ro MATURITY
I
VALUES
8
I
43
:
E . I0
WEAN
1.09
STD DEV
MEDIAN
UODE
I .0Q
I .E5
I
ii1STOCRAn
Range: 0- 4%
lncremenl: e . 1 0 ~
I
VlfRINITE REFLEClANCE [RANDOM
X1
VALUES.
?I .I4
?I .I4
tl . I 5
tl .I6
*I .I8
KEROGEN DESCRIPTION
Amorp-ous :
35 x
I
Ex;nite
0 %
Vitrlnlte .
35 t
lnerlinite :
30 X
SI .22
f . l. ."
.23
f1 .24
? I .24
tl .25
fl.18 1.27
tl.IE
1.58
t0.85 ? I .06 f1.12 fl.20
f0.07 11.07 f1.13 fl.21
f0.88 t1.07 tl.14 f1.21
Back Fluor
B i lumen
:
:
:
Coke
1.28
1.29
1.33
Nore
None
~r
8
DEPTH
:
1
f
7435.0 F t
2266.2 K
= Ro nATUR1TY
VALUES
MEAN
STD DEV
37
1 .I4
E.09
I
1.15
.0
VITRINITE REFLECTANCE IRANDOn
ORDfRED REFLECTANCE VALdES:
0.78 f l 0: t1.12 f 1 . 2 1 t1.26
0.80
0.81
0.85
0.87
0.87
t0.82
f0.85
f0.86
F1.81
t1 .04
? I 08
tl.09
?I.I0
tI.10
? I I2
71.12
q1.13
tl 15
t1.15
t1.15
71.21 ? I .27
31.21 t1.27
X1.22
1.28
11.23 I 30
31.24 1.30
*l.II
tl.25 1.32
81.11 11.17 1 1 . 2 5 1.32
fl.11 tl.17 t1.26
1 32
fI.11 tl.18 t 1 . 2 6
1.38
A-80
X1
KiROGEh' DESCRIPTION
Amorpnous
45 %
A %
Er,ni,*
.
Vlrrlnire a
30 2
Inerr inlte
25 x
.
"
Each Fluor
Bi lumen
Cohe
I
None
i
IF
, rr
P
RRUS No.
ID
:
1925
I
CTGS.
DEPTH
7310.0 Ft
2'90.5
n
t
I
t = Ro f l A l U R l T Y
VALUES
D
34
I
nEAN
STD DEV
PEDIAN
RODE
1.14
0.BQ
1.16
1.15
I
t
I
VITRINITE REFLECTANCE fRANDOn x 1
ORDERED REFLECTANCE VALUES
0.82 11.04 t1.16 fl.24
0.85 :I .04 t1.17 TI .24
0.87 T1.07 51.17 V I .25
. . . . . . ? I .27
71.02 tl.10 t1,IE ? I .27
t1.02 tI.10 1 1 . 1 8 TI .27
t1.02 tl.11 tl.18 ? I .28
t1.02 TI .I2
7n
- t.1. .."
I .32
t1.03 * I .I4 t1.22 I .32
11.04 tl.15 t1.24 1.34
Q
SEROGEN DESCR'PTION
50
Amorphous I
Exinite
:
0
Virrlnire
30
lnerr lnite :
20
1.36
I .36
1.38
I .38
1.38
1.40
I 41
1 .41
1 48
I .52
Beck Fluor
8 i tumen
Coke
RRUS No.
li
ID
I
.
.
:
t
I
10?7
80- e F t
2453.6 I!
= Ro nATURl.*V
1 0
'
2.0
'
4.0
3.0
VlTRlNlTE REFLECTANCE IRANDOP
ORDERED REFLECTANCE VALUES.
.06 51 .I6
51.06, * L I E
51 .86 TI.18
51 .0E tl.19
51
tI.10 t L I Q
rl.12
51120
:I20
TI .I3 tl 22
* I .I4 ? I .23
tl.14 t1.23
T I.13
TI 23
TI .24
:I .25
11.27
11.27
X I .27
XI .27
TI .28
T I .30
tl .30
.33
.33
.34
.34
.34
35
.36
38
.38
48
A-81
%I
32
MEAN
:
STD DEV
1.18
I
0.ee
nEDIAN
nODE
., .. !
x
None
None
None
VALUES .
0 1 , , ,"
0.0
X
CTtS.
DEPTH
l5
8.84
0.87
0.84
0.88
0.99
0.88
1.0a
1.02
* I .04
t1.05
I
:
;
x
%
:
1.:8
I .25
hlSTOGRAfl:
Rsnge. 0- 4 %
Increment 0.le%
KEROGEN DESCRIPTION
30 2
Amorphous :
. tr x
Exinire
50 %
Vitrlnite :
lnerr inite :
20 %
Beck Fluor .
8 i tumen
Coke
Lor
lr-
Nom
RRUS No.
ID
:
I028
I
CTCS.
MEAN
1.18
STD DEV
0.07
1 19
I .25
:
MEDIAN
nODE
I
HISTOGRAM:
Range, 0 - 4 %
Increment: 0.10%
ORDERED REFLECTANCE VALUES:
0.86 1.06 31.13 tI.18 tl.25
0.86 tl.08 t1.14 t1.20 11.26
0.87 tl.08 ~ 1 . 1 4r1.20 tl.26
0.87 ? I .08 :I .15 tl.20 il :25
0.89 tl.08 31 17 81.21t1.27
0.89 tl.10 Vl.17 tl.22 f 1 . 2 8
0.88 tl.10 31.17 t1.23 tl.28
1.00 t1.12 tl.18 t1.23 't1.28
1.02 tl.12 tI.18 t1.24 t1.30
1.06 '11.12 71.18 t1.25 t1.31
35
KEROGEN DESCRIPTION
Amorptlouo I
5E x
R Z
Exinite
I
Back Fluor
:
toke
z
RRUS
s
ID
8
No.
:
hone
None
None
I
B i tumen
l0lQ
CTGS.
P
INSUFFICIENT SAMPLE MATERIAL
e
MEAN
I
N D
P
0 - , , , , , . , , , , , , , ~ , , , .,~, ,,, ,, ,
, ,,
,
0.0
1 .a
2.0
3.0
4.0
VITRIhITE REFLECTANCE IRANDOM XI
ORDERED REFLECTANCE VALUES,
HISTOGRAM:
Range. 0- 4 %
Increment: 0.10%
KEROGEN DESCRIPTION
0 x
Amorphous :
Erinite
:
0 X
Vitrinite ,
0 X
lnertinite I
0 X
Boch Fluor
B i tunen
Coke
A-82
:
I
:
None
None
None
COMPOSITION OF SOURCE ROCK EXTRACT
AMOCO # 1 G.C. BAKER
Project N o .
-I
SAMPLE IDENTIFICATION
D E P T HR R U S
1027
1028
:
:
AROH
SI A TE X T R A C T
(Feet)
8050
8150
: RRUB18451M1807/4
P Pm
8 0 3 0 -8 0 7 0
percentage
548
8 1 2 0 -8 1 8 0
POLARS
46.0
44.0
243
1 6 .7
13.3
37.3
42.7
TABLE A.7
SUMMARY TABLE SHOWING SELECTED PARAMETERS
OF O I L S A M P L E S
AMOCO b 1 G.C. BAKER
Project N o . : R R U S l 8 4 5 1 M 1 8 0 7 1 4
SIADMEPNLTEI F I C A T I O N
RRUS
(D FE eP eT tH
I
I
)
I
-IEPC-Xh:T-T1O-R87C-A -C-T
SATS
W
Prl
RCAPTII O S
PPhrl
I
I
1027
1028
8050
8150
:
:
8030
8070
I
8120- 8 1 8 0 I
0 . 0 4456 .00. 4 7
0.028
44.0
A-83
0.44
0.59
0 . 5 9
0.53
0.83
-------
TABLE A.8
H E A V Y H Y D R O C A R B O N S N O R M A L I Z E D TO 100%
AMOCO # 1
Projeot No.
:
R R U S ( F e eDtE)P T H
a050
8150
:
:
8030- 8070
8120- 8 1 8 0 I
RRUS
1027
1028
8050
8150
C-19
C-20
C-21
5 . 6 0 1 1 . 8 0 1 5 . 8 0 1 6 . 4 0 1 5 . 8 0 11.70
8.40 15.80 1 5 . 9 0 1 2 . 8 0 9.70 7 . 1 0
i.
C-22
C-23
C-24
C-25
C-26
C-27
C-28
:
:
8030- 8070 1
8120- E180
(DFEePeTtH
8050
8150
1.40
1.50
-
NORMALIZED n-ALKANES
C-15
C-16
C-17
C-18
RRUS ( F e eDtE)P T H
1027
1028
: RRUSl845lMI807l4
-i
SAMPLE IDENTIFICATION
1027
1028
G . C . BAKER
:
8030- 8 0 7 0
8120- 8180 :
RRUS ( F e eDtE)P T H
3.90
6.10
C-29
C-30
C-31
)
:
9.60, 5.60
8.10
7.70
:.
0.00
0.30
0.00
0.20
0.00
0.00
1.40
3.30
0.70
C-32
C-33
C-34
C-35
0.00
0.00
0.00
0.00
1.80
0.30
0.90
0.00
0.00
0.00
0.40
0.00
0.00
PPRH
C-36
C-37
C-38
C-39
C-40
:
1027
1028
8050
8150
:
:
8 0 3 0 -8 0 7 0
8120-E180
0.00
0.00
0 . 00 . 0 0
A-84
0.00
0.00
0.00
0.00
0.00
5 . 59
0. 4 0
0.00
7.00
8.40
AHOCO # I G.C. BAKER
1=188xPristans/Totol
2=I00xPhytondlotol
%Pridme/n-C-17
4=Phytons/n-C-l8
5PPristaneRhyt& b b m Praf.Index
NORMALIZED DISTRIBUTION OF n-AWES
A-85
G. C. BAKER
I
SAMPLE: RRUS NO. 1027
8050 feet
SAMPLE: RRUS8150
NO. 1028
feet
GASCHROMATOGRAMS OF C l 6
+ SATURATEHYDROCARBONS
A-86
AMOCO. It 1 BLACKBURN FARMS
A-07
a
c
A-88
TABLE A.9
LITHOLOGICDESCRIPTION
AMOCO
#1 BLACKBURN FARMS
1,500-1,860'
1,890-1.900'
1,920-1.980'
1,980-2.230'
2,250-2.260'
2,280-2,320'
2,340-2,410'
2,430-2.500'
2,520-2,560'
2,580-2.710'
2,730-3.960'
3,980-4,530'
4.550-4,680'
4.700-4.740'
4,760-4,920'
4,940-4,950'
5,000-6,390'
6,410-7,370'
7.400-8,200'
8,200-8,290'
8.310-8.580'
Mudstone?
Halite, It. pink
Claystone,reddish brown
Halite, It. pink
Some claystone
Some anhydrite
Claystone, It. grayandpink;anhydrite
Claystone,reddish brown
Claystone,green-gray (some reddishbrown)
Some anhydrite
Halite,It.pink
Claystone, reddish brown and green-gray anhydrite
Halite, It. pink
Claystone,reddish brown (some green)
Halite, It.pink
Some claystone,reddish brown
Some anhydrite
Claystone,reddish brown
Halite, It. pink
Some claystone,reddish brown
Claystone. reddish brown
Lst., gray
Shale
Trace of qtz., feldspar
Anhydrite
Claystone.reddishbrown
Claystone, brown
Anhydrite
Shales,dark
Traces of granite wash
Claystone. reddish brown
Shale. dark
Anhydrite
Claystone.reddishbrownandgray
Shale, dark
Anhydrite
Lst., gray
Anhydrite
A-a9
TABLE A.10
TOTAL ORGANIC CkRBON DATA
AMOCO BLACKBURN FARMS
Project No. : R R V S 1 8 4 5 I M 1 8 0 7 l 4
SAMPLEIDENTIFICATlON
RRUS
DEPTH
(Feet)
1201
1202
1203
1204
1205
1580
2120
2540
2985
3505
:
1206
1207
1208
1209
1210
4015
4510
4825
4945
5495
:
1211
1212
1213
1214
6005
6460
6650
6770
:
:
:
:
DATA
: TOCK
:
SAMPLEIDENTXFlCATION
RRUS
1560- 1600 : 0 . 0 5
2 1 0 02 -1 4 0
: 0.04
2520
2 -5 6 0
: 0.26
2 9 8 02 -9 9 0
: 0.19
3500
3 -5 1 0
: 0.38
I
I
DEPTH
1215
1216
1217
12
71
48
35
1 27 17 95 0
6990
7200
7335
:
:
:
40104490482049405490-
4020
4530
4830
4950
5500
0.12
0.14
0.14
0.45
0.17
1220
1221
1222
1223
1224
7765
7955
8045
8165
8255
:
:
:
:
6000- 6010
6440- 6480
6 6 0 60 7- 0 0
6 7 5607- 9 0
0.19
0.20
0.350.28
1225
1226
1227
8330
8390
8505
:
(P-ct)
: DATA
:
TOCW
:
6970- 7010
7180- 7220
7300- 7370
7 473404- 0
7 578902- 0
:
:
:
:
:
0.27
0.19
1.90
0.26
0.35
:
:
7 7 3 07 -8 0 0
7920
7 -9 9 0
:
:
8010-
8080
: 0.40
: 0.75
: 1.20
: 0.80
: 0.54
:
831083708490-
8350
e410
8520
:
:
:
:
:
:
:
8130- 8 2 0 0
8228
02
- 90
1
0.50
: 0.82
: 3 . 8 7
I'
A-90
TABLE A
.
l
l
ROCK-EVAL PYROLYSIS RAW DATA
AMOCO BLACKBURN FARMS
Project No. : R R U S 1 8 4 5 1 M 1 8 0 7 1 4
SAMPLE IDENTIFICATION
RRUB
DEPTH
(Feet)
1 2 0235 4 0
1205
1209
1213
1214
:
:
3505
4945
6650
6770
:
:
:
2 5 2 02-5 6 0
3500- 3510
4940- 4950
6600- 6700
6750- 6790
1 2 1659 9 0
1 2 1773 3 5
1219
7750
1220
7765
1221
7955
:
:
:
:
:
6 9 7 07-0 1 0
7 3 0 07-3 7 0
7580- 7920
7730- 7 8 0 0
7920- 7990
I
I
-~
DATA ( S l , S 2 , 5 3 mglgm o f r o e k , T m a x
I
51
I
SlI(Sl+S2) Tmax
5 2S/35532
i
0 . 0 100. 1 300. 3 000. 4 303. 0 7411 7
0,410 0.700
1,030 0.680
0.360
0.890
I 0 , 0 1 0 0.120
0.380
I 0,020
I 0.390
I 0,010
i
0.010
I
---
I 0.010
0.100
0.210
“
-
I 0.020
0.260
I 0.040
5.830
:
:
:
8 4 9 08-5 2 0
;
:
1227
8505
1;;:
fO
l01308 2 2 08-2 9 0
8 3 1 08-3 5 0
8 3 7 08-4 1 0
0.586
1,515
0.404
0.316
0.350
0.286
0 . 7 900. 2 606. 0 4 5
”-
0.870
0.650
I
12
82
02
45
1223
8165
1 2 2842 5 5
1225
8330
1 2 2863 9 0
c)
deg
--_
_-_
--_
”-
---
0.091
-”
”-
“-
0.299
8.969
0.071
0.007
::z!i:
0 . 1 3454 4
01..100700
00 .506805
0 . 1 000. 6 4 0
0:520
0.020
0 . 4 100. 2 610. 5 707. 0 4 7
I 0 . 0 300. 2 600. 4 400, 5 901. 1 0 3
I 0.060
0 . 3 900. 4 700. 8 300. 1 3434 8
I
I 0.060
0 . 3 600. 3 700. 9 703. 1 4434 8
iI
0.047
0.275
0.027
0.077
-”
411
431
446
453
444
NOTE: A DASH INDICATES AN INDETERMINABLE VALUE
TABLE A.12
HYDROGEN AND OXYGEN INUICEZ FROM
ROCK-EVAL P Y R O L Y S I S AS3 TOC DATA
AMOCO BLACKEURN FARMS
Project No.
I
I
SAMPLE
IDENTIFICATION
RRUS
DEPTH
(Feet)
1 2 0 32 5 4 0
1205
3505
1209
4945
1213
6650
1214
6770
;
2520-
:
3500494066006750-
1 2 1 56 9 9 0
1217335
1219
7750
1220
7765
1221
7955
:
1222
:
:
1223
1224
1225
1226
8045
8165
8255
8330
8390
:
:
:
:
:
:
:
:
:
;
I
2560
3510
4950
6700
6790
6 9 7 0 -7 0 1 0
73007370
75807920
77307
-800
7 9 72 90 9- 0
8010- 8080
8130- 8 2 0 0
8 2 2 0 - 8290
8310- 8 3 5 0
8370- 8 4 1 0
I
I
I
I
I
;
i
I
I
:
I
I
1
;
RRUS1845IM1807l4
HYDROGENINDEXOXYGEN
INQE’
(mg HClgm
TOC)
tmg C02Igm
TOC)
so
(%)
0.26
0.38
0.45
0.35
43
115
184
151
254
136
37
11
1920
65
777
130
42
891
217
87
0.27
108
229
103
I
I
89
80
76
I
52
I
TOC
48
0.40
0.75
1.20
0.82
47
65
48
88
57
0.28
1.90
0.35
0.80
0.54
0.50
!
1 2 28
75 0 5
:
8 4 9 08
-5 2 0
I
I
41
A-9 1
43
0.87
TABLE A.13
~~
-
VISUAL KEROGEN ANALYSIS REFLECTED LIGHT
AMOCO BLACKBURN FARMS
P r o j e c t No. : R R U S / 8 4 5 / M / 8 0 7 / 4
~~
SAMPLEIDENTIFICATION
RRUS
DEPTH
(Feet)
: REFLECT.KEROGEN
CHARACTERlS7ICS
I
:
Ro %
Am% Ex% V l t + Inert% Fluor
i
1205
3505
1 2 04
99 4 5
1213
6650
1217335
1219
7750
:
:
:
:
:
35003
-510
49404
-950
66006
-700
7 3 0 07
-3 7 0
75807
-920
1220
7765
1221
7955
1 2 28
20 4 5
1 2 2863 9 0
1227
8505
:
:
:
:
:
7 7 3 07-8 0 0
:
7 9 2 07-9 9 0
:
8010- 8080 :
8370- 8410 :
8 4 9 08
-5 2 0
I
I
:
I
I
---0.65
0
55
0.80
0.31
0.93
45
35
1.00
----
45
0
45
tr
50
tr
tr
40
0
0
tr
30
t r 2 53 5
t r 15 40
tr
50
0
None
1S
LOW
LOW
15
None
LOW
-
TOC
$4
0.38
a .45
0.35
1.90
0.35
1
1.12
1.20
1.23
20
0
5
2 03 5
0
3s
High
0
40
15
10
60
20
None
fled
Med
LOW
0.40
0.75
1.20
0.e2
0.87
I'
I'
A-9 2
AnOCO
BLACKBURNFARnS
RRUS No.
N
ID
>
DEPTH
REAN
1.0 3.0 2.0
4.0
VITRINITE REFLECTANCE IRANDOfl X )
ORDERED REFLEETANCE VALUES:
I
3505.0 Ft
1068.3 n
7
h.D
I
INSUFFICIENT SAnPLE nATERIAL
0
0.0
1205
I
CTGS.
HISTOGRAn:
Ronge: 0- 4 %
Increment: e.102
KEROGEN DESCRIPTION
0 2.
Arnorp3ous I
Erinite
I
0 %
Vitrinite I
0 X
lnertinite 8
0 X
Bock Fluor I
B i lumen
Cohe
>
None
None
None
AnOCO BLACKBURN FARnS
RRUS No. : 1209
ID : CTGS
DEPTH .
:
4
4845.0 F i
1507.2 fl
t = Ro flATURITY
VALUES
REAN
SlD DEV
HEDIAN
nODE
VITRINITE REFLECTANCE fRANDOn
XI
ORDERED REFLECTANCE VALUES.
0.42
t0.50
ta.52
20.53
L0.54
.*0.55
L0.56
t0.56
f0 50
t0.60
t0.60 t0.68
t0.61' t0.72
te.64 10.73
t0.64 t0.75
70.65 r0.78
t0.65 t0.02
t0.65 L0.83
70.66 r0.85
L0.67 0.89
t0.68 0.89
27
:
0.65
0.IB
0.65
0.65
:
.
:
HISTOGRAn.
Ronge. 0- 4%
Increment: 0.10%
KEROGEN DEfCRlPTIOh
55 X
Amorpnous :
Exinrte
I
tr %
Vltrinlte :
30 X
Inert inite:
15 X
0.80
0.85
0.05
0.87
Bock Fluor
Bitumen
Cohe
A-93
I
!
Low
ned
'1
2s
,
AnOCO BLACKBURN f ARHS
No.
RRUS
ID
:
I213
CTGS.
2
DEPTH
I
6635.0 Ft
:
2011.5
n
Ro HATURITY
f
D
*
VALUES
20
I
HEAN
STD DEV
HEDIAN
noDE
0.78
0.10
0.79
8.85
I
:
I
:
HISTOGRAn:
Range, 0- 4%
Incremenr: 0.10%
ORDERED REFLECTAGE VALUES:
0.48
0.50
0.55
0.58
0.58
f0.63
t0.64
10.65
f8.66
f0.67
~ 070.
f0.73
f0.73
fO.74
t0.78
0.60
0.60
0.60
0.60
0.61
f0 79
KEROGEh DEStRIPTIOh
40 x
horpnous :
Exinire
I
lr X
Vltrinire : 35 X
Inert inile 25 X
0.86
..
f O 82 0 88
f0.86 0.00
f0.86 1 .OO
70.87 . I .03
f0.8E 1. 17
._
f0 .88 1 .I2
f0,80 1 . I 8
t0.02 1.25
f0.03
~
Fluor
Bltumen
:
z
Low
Cohe
8
lr
Each
?5 .
RRUS
ID
:
No.
I
ned
I'
1217
CTCS.
DEPTH
I
I
8335.0 FI
2845.3 R
8
= Ro nA7UR:TY
*
VALUES
EAN
STD DEV
nEDIAN
H3DE
21
:
0.01
0.07
0,92
0.85
!
:
I
:
HISTOGRAR:
Range. 0. 4%
lncremenr. 0.10%
-
ORDERED REFLECTANCE VAI.LIES,
0.56
0.59
0.63
0.68
0 71
0.73
0.74
10.78
f0.78
10.80
t0.83 f0.83
t0.85 t0.84
t0.85 70.85
f0 86 f0.88
f0.88 f0.89
fO.OO tl.01
I0 81 fI.01
?0.82 r1.02
70.83 1.04
10.83 1.04
I .05
1.17
1
I .21
1
I .26
1
I.lI
I .I2
I .I2
1.14
1.14
1.16
I .26
I .26
1 .26
: .28
1 .28
KERXEN DESCRIPTION
49 %
Amorphous .
Erinire
I
lr X
40 X
Vilrlnire I
Inert infile:
15 X
Back Fluor .
8i 1 m e n
Coke
:
:
None
a,
Sml;
5mo.i
1 30
1.30
c
A-94
ABOCO BLACKBURN FARMS
25
_I
RRUS No.
ID t t f G S .
Ill8
DEPTH
I
7E00.0 Ft
I
2316.5
X
Ro 11ATURITY
D
VALUES
nEAN
STD DEV
MEDIAN
BODE
VIfRINITE REFLECTANCE IRANDDW
XI
ORDERED REFLECTAKE VALUES
0.66 ?e 85 20.86 I .07 1 .22
0.71 re.86 10.97 I .08 I 23
0.72 t O 88 t0.87 I .0Q I .28
0.74 t0 88 t0.88 1.09 ! .28
0.75 t0.8e X0.98 1 . 1 8 1 .30
0.77 ra.81 r 0 . w 1.14 1 ,32
ae.78 t0.83 tI.02 1.16
I .34
t 0 . 8 1 t0.94 r1.02
1.17 1 .35
X0 82 t0.95 t1.03 1.18 1 .44
V0.83 f0.85 tl.03 1.21 1 .46
n
24
r
0.83
0.07
0 85
8.85
I
8
:
I
HISTOGRAW:
Range. 0- 4 3
Incremeqt: E.l0%
KEROGEN DESCRIPiIOY
35 X
Amorp?ous
Exinire
:
lr X
Vitrtnire I
50 X
I5 X
Inert inire ,
Beck Fluor
Bitumen
Coke
:
I
:
Lor
Sma:!
lr
rnoco BLACKBURF; FARWS
s 25
1
RRLlS
ID
I
No. : I220
CTGS.
?
=
a
VALUES
Ro
MATURITY
MEAN
STD DEV
nEDl AN
31
:
1.00
0 e7
1 01
1 :05
:
:
n5DE
VIlRINiTE REFLECTANCE [RANDOW
ORDERED REFLECTAWE VALUES:
0.78
V0.86
t0.87
V0 88
t0.81
t0 82
t0.82
t0.84
V0.84
r0.W
t0.QE
t0.Qa
fl.OO
tl.01
t1.01
03 tl.10
11.E3 Vl.10
? I 04
1 .I3
? I 04
1.14
t1.06 1.14
TI .07 1 .I6
t1.01 ? I ,013 1.18
rl.02 tl.08 1.18
?1.02 t1.08 1 . I8
V 0 . 9 4 t l .02 * I .OQ I .20
?I
1
22
1.22
1 .23
1 .26
1.27
I .28
.a2
1
I .32
1.32
1.37
A-95
X1
HISTOGRAna
Range. 0- 4%
Increnenr e.l0%
KEROGEN DEStRIDTICh
Anorpnous :
45 2
Exinire
,
li f
- ..
Vitrinire ; 35 i
20 X
lnertlnire I
Beck Fluor
81 tumen
toke
,
:
:
High
Sma:l
rr
'
AROCO BLACKBURN FARflS
RRUS No. , 1221
ID : CTGS.
25 7
I
7955.0 Ft
2424.7 fl
I
N.D.
DEPTH
I
INSUFFICIENT SAflPLE RATERIAL
MEAN
0
0
0
0.0
,...,.... ,.,.
,,,,,
2:0
3t0 ’
VJTRINITE REFLECTANCE IRANDDR X1
1
.a
HISTOGRAP(,
Range: 0- 4%
Increment2 0.10%
4.0
ORDERED REFLECTANCE VALUES,
KEROGEN DESCRIPTION
0 X
Amorphous I
Exlnite
I
0 x
Vltrinite 8
0 X
Inerllnite I
0 X
Erin Fluor
B I rumen
Cohe
I
I
I
None
None
None
a
P
I’
AROCO BLACKBURN FARflS
RRUS No. I 1222
ID I CTCS.
DEPTH
I
I
8045.0 F1
2452.I M
%
= Ro MATURITY
SI
VALUES
nEAN
STD DEV
PEDIAN
RODE
’
42
I
I
1.12
I
0.07
t
1.13
1.15
HISlOGRAP(~
VITRINITE REFLECTANCE IRANDOR X I
ORDERED REFLECTANCE VALUES,
0.84 t1.04 ?1.10 t1.16 t1.20
0.87 21.05 tI.11 t1.16 51.20
0.8Q tI.06 tl.11 t1.16 tl.21
0.00 tl.06 $1.12 t1.16 t1.22
80.06 ?1.07 t1.13 t1.17 t1.23
t0.90 tl.08 t1.13 t1.18 t1.25
t0.90 t1.09 ti.15 tl.18 1.27
tl.OO $1.09 t 1 . 1 5 xI.19 1.27
t1.01 ?l.BQ ?1.15 ?1.10
1.28
t1.03 tl.10 t1.16 ?1.19 1.32
A-96
Renget e- 4%
Increment, F.10X
KEROGEN DESCRIFTION
45 X
Amorphous t
Exlnite
I
5 X
Vlrrlnlte 8
35 X
15 X
Inertlnlre
Exin Fluor
Bitumen
Core
,
I
:
ned
lr
None
AnOCO BLACKBURN FARMS
25 T
RRUS NO. t 1226
ID 8 CTGS.
DEPTH
8378.0 Ft
2657.3 n
I
f
t
=
Ro
nATURITY
VALUES
nEAN
STD
DEV
nEDIAN
MODE
4:0
VITRINITE REFLECTANCEiRANDOtl X )
ORDERED REFLECTANCE VALUES,
1.20
0.11
I .21
1.25
2
t
I
8
HIS TO CRAM^
Range) 0- 4X
Increment, 0.10X
KEROGEN DESCRITION
Amorphous I 50 X
Exlnlre
I
tr X
Vltrlnlre t
40 X
Inertlnlte I
10 x
0.88 tl.10 t1.20 t1.28 t1.37
0.84 t1.14 t1.21 r1.28 ~ 1 . 3 8
t1.08 51.14 t1.21 11.28 1.40
51.01 t 1 . 1 551.21 *1.2e 1.42
21.02 51.17 t1.22 t1.32 1.43
f1.03 t1.18 t1.22 t1.33 1.43
51.06 t1.18 51.22 t1.33 1.43
t1.06 fl.18 ~ 1 . 2 3 ~ 1 . 3 4 1.44
51.07 tl.20 t1.23 tl.36 1.47
51.08 tl.20 t1.25 tl.36 1.49
AMOCO
40
I
Exln Fluor
t
Co he
I
2
81 tumen
BLACKBURN FARMS
tr
.~
RRUS NO. I 1227
ID I CTGS.
DEPTH
I
I
._
ned
None
85P5.0
= Ro MATURITY
.-. ..
VALUES I
15
REAN
t
1.23
STD DEV I
0.04
nEDIAN
v-.
I .22nODE
1.25
HISTOCRAMa..
Range, P - 4X
Increment, F.I0X
t
~
,
t
VITRINITE REFLECTANCE (RANDOMXI
ORDERED REFLECTANCE VALUES,
1.12 tl .25 1.44
t1.16 t1.26 1.47
tl.19 51.28 1.55
t1.20 fl.28
*I .20 *I .28
1.60
tl .20 fl.28
51.21 1.35
31.22 1.41
11.22 1.43
t1.24 1 . 4 3
A-97
Ft
T5F2.3 ' M
KEROGEN DESCRIFTION
Amorphous I 20 X
Exlnlre
t
tr X
60 X
Vltrlnlre I
t
20 X
Inert lnlte
Exln FluorI Lor
81 turnen
:
None
to he
:
None
750
0
TABLE A.14
COMFOSITIDN OF S.UURCE ROCK EXTRACT
AMOCO BLACKBURN FARMS
Project
NO.
: EXTRACT
SIADMEPNLTEI F I C A T I O N
I
RRUS ( F e e t D) E P T H
I
0
: RRUSlB45lt3l.90714
SAT
ARDH
POLARC
pcrotntage
ppm
!
1219
1221
8 0 41 52 2 2
7920
7955
:
:
:
75807 9 2709- 9 0
8 0 1 0 - PO80
I
475
399
220
'
i
41.8
48.5
36.1
43.6
36.9
47.1
14.6
14.6
16.8
0
TABLE A.15
0
SUMMARY TABLE SHOVING SELECTED PARAMETERS
OF OIL B A M F L E S
AMOCO BLACKBURN FARMS
P r o j e c t No.
SAMPLE IDENTIFICATION
RRUS
1219
1221
18 20 24 25
0E P T H
7750
7955
(Feet)
:
:
:
7 57 89 02 -0
7 97 29 09 -0
8010- BOB0
: RRUS1845/M/B0714
i: E- X- T- R- -A -C -T
I
TOC
iI
0.136
0.053
I
0.018
A-98
SATS
9b
Pr I
IPh
/ CI C
: 1: 1
78
41.8
48.5
36.1
0
RCAPTII O S
Phl
Prl
0.40
0.40
001. .4.44927
0 1. 3. 14 1
0 1. 3. 49 1
1.25
1.12
----
I.
TABLE A.16
HEAVY
HYDROCARBONS
N O R M A L I Z E DTO 100%
AMOCO BLACKBURN FARMS
Project No.
: RRUS1845lM180714
I
RRUS
S A M P LIED E N T I F I C A T I O N
I
D E P(TFHe e t )
:
1217
9750
1221
7955
8045
1222
:
:
:
75807
-920
:
7920- 7990 I
8 0 1 0 - 8080 I
NORMALIZED
n-ALKANES
C-15
C-16
C-17
C-18
C-19
C-20
C-21
0 . 6 03 . 8 01 0 . 1 01 0 . 5 0
8.40
2.60 1 0 . 5 0 16.10 11.90 8 . 4 0
3 . 2 0 11.60 1 5 . 4 0 12.20 10.40
5 . 7 07 . 5 0
6 . 3 0 7.20
7.60 8.10
I
RRUS
1219
1221
1222
RRUS
D E P(TFHe e t )
7750
7955
8045
:
:
:
I
I
C-22
C-23
C-24
C-25
C-26
C-27
C-28
7 5 8 0 -7 9 2 01 2 . 4 01 1 . 8 07 . 6 05 . 7 03 . 0 02 . 9 02 . 1 0
7 9 2 0 -7 9 9 0
i 9 . 9 07 . 5 04 . 3 03 . 4 02 . 4 02 . 2 01 . 6 0
8 0 1 0 - 8 0 8 0 . .:
9 . 670. 640. 620. 810. 810. 610. 0 0
D E P(TFHe e t )
I
I
C-29
C-30
C-31
C-32
C-33
C-34
C-35
i
7750
1219
1221
7955
1 2 2820 4 5
:
:
:
75807920
I
7 9 2 0 -7 9 9 0
I
8010- 8 0 8 0 I
2 . 0 01 . 6 01 . 8 00 . 9 00 . 7 00 . 4 0
1 . 4 01 . 2 01 . 2 0 . 7 0
0 . 90 . 60 . 50 . 20 . 1 0 .
0.50
0.40
0.00
0.00
0.30
0.00
-
RRUS
D E P(TFHe e t )
1 2 1797 5 0
1221
7955
1222
8045
:
:
:
:
I
7 5 8 07-9 2 0
:
7920- 7 9 9 0 :
8010- 8 0 8 0 I
C-36
C-37
C-38
C-39
C-40
0.00
0.00
0.00
A-99
0.00
0.00
0.00
0:OO
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
PR
PH
4.00
6.50
7.50
3.60
4.60
5.10
0
0
4
0
0
AMOCO BLACKBURN FARMS
I=I0W'rirtom/Totul
2400xPhytan/Total
3=Prittm~/wC-17
&Phytom/wC-18
&Prlctam/Phyt&Corbon Pr.f.Indu
NORMALIZED DISTRIBUTION OF n-ALKANES
A-100
BLACKBURN FARMS
I
SAMPLE: RRUS NO. 1219
7750 feet
r
SAMPLE:
RRUS NO. 1221
GASCHROMATOGRAMS OF C16 -t SATURATE HYDROCARBONS
A-101
0
0
0
BLACKBURN FARMS
0
!
SAMPLE:
RRUS NO. 1222
0
P
8045 feet
GAS CHROMATOGRAMS OF C16+ SATURATE HYDROCARBONS
A-102
SUNRAY, I1 BRISCOE
A-I03
0
6'
0
A-104
TABLE A.17
LITHOLOGIC DESCRIPTION
SUNRAYMIDCONTINENT
#1 BRISCOE
0-
730'
750- 880'
900-1.060'
1.080-1.180'
1,200-1,300'
1,320-1,390'
1,410-1,670'
1.690-1.785'
1,810-2,225'
2.250-2.315'
2,340-2,550'
2.580-2,615'
2.640-4.940'
4.970-5.035'
5,060-5.275'
5,300-5,395'
5,420-5.515'
5,540-5.575'
5,600-6.085'
6,110-7.585'
7,610-9.045'
Claystone,reddish brown (some green)
Lst. clasts abundant in part
Sst..greenish.
calc.cement,poorly
sorted
Claystone,reddish brown
Slst.,It.brown
Claystone. reddish brown
Claystone,reddish brown. green
Claystone.reddish brown (some purple)
Claystone,reddish brown
Anhydrite(increasing)
Claystone,reddish brown (some purple) (some green)
Anhydrite
Claystone,green,purple
Claystone,reddishbrown,anhydrite
Claystone,green
Claystone,reddish brown (some green)
Anhydrite
Mudstone, dark reddish brown
Increasing anhydrite
Mudstone. dark reddish brown
Granite wash
Mudstone, dark reddish brown (some green)
Mudstone, dark reddish brown
Granite wash abundant
Mudstone, darkreddish brown (some green)
Mudstone, dark reddish brown (some green)
in part
Granitewash,abundant
Mudstone, dark reddish brown (some green)
Granite wash
Dark shale
Dark shale increasing
Some granite wash
Some dark reddish brown mudstone
Anhydrite
-
A-105
TABLE A.18
TOTAL ORGANIC CARBON DATA
0
SUNRAY 01 I R A J . BRISCOE
P r o j e c t NO. : ~ R U 5 f 8 4 5 f M 1 8 0 7 1 4
SAMPLEIDENTIFICATION
RRUS
DEPTH
(Feet)
1101
110
1419052
1103
860
11041490
11052005
:
1106
1107
1108
1109
1110
:
:
:
:
:
90-130
470-520
840- 8 8 0
1470-1510
1 9 9 0 -2 0 2 0
2268
2598
3018
3518
3923
:
:
2250- 2285
2580- 2615
3000- 3035
3500- 3535
3920-3925
1111
4323
1 1 1 24 8 5 3
1113
5393
1114
5873
1115
6147
:
:
:
:
:
4 3 1 0 -4 3 3 5
4 8 5 0 -4 8 5 5
5390- 5395
5870- 5 8 7 5
6140- 6154
:
:
:
DATA
TOC#
I
0.08
:
:
:
:
:
:
:
:
:
:
RRUS
I
0.09 I
0.31 I
0.07 I
0.04 :
I
0.23 I
0.35
0.06
0.20 I
0.12 I
0.05
: 0.06
: 0.09'
DEPTH
1 116
1 117
1 118
1 119
1 120
6698
6983
7173
7313
1 121
122
123
1 124
1 125
7418
7473
7638
7838
8108
i;
: 0.09
: 0.10
;
S A M P L E IDENTIFICATIO?~
6508
1 1 2 68 2 7 3
1127
8498
1128
8663
1129
8903
1 1 3 09 0 1 0
A-106
:
:
:
:
:
:
:
:
;
;
:
:
:
:
:
(Feet)
DATA
: TOCW
:
6505- 6510
6680- 6715
6950- 7015
7120- 7225
7280-7345
0.12
0.36
0.25
0.27
0.28
7 4 0 0 -7 4 3 5
7420- 7 5 2 5
7605- 7 6 7 0
7820- 7 8 5 5
8090- 8 1 2 5
0.44
0.39
8240-8305
8480- 8515
8630- 8 6 9 5
8870- 8935
8 9 9 0 -9 0 3 0
0
0
0.48
0.41
1.66
: 0.70
: s.93
: 1.39
: 1.09
: 1.68
0
TABLE A.19
TOTAL ORGANIC CARBON DATA
BRISCOE a1 ( B U N )
Project N o . : R R U S 1 8 4 5 1 M 1 8 0 7 1 4
,
T
~
SAMPLEIDENTIFICATION
RRUS
DEPTH
(Feet)
:
DATA I
SAMPLEIDENTIFICATION
: TDCY
RRUS
DEPTH
(Feet)
3321
3322
3301
3302
3303
6145
6680
7160
7425
7560
: 0.16
: 0.28
: 0.34
: 0.50
: 0.36
: 331 1
8500
:
3312
3313
3314
3315
8550
: 1.0%
3323
3304
3305
3306
3307
7900
8100
8200
8250
8300
: 0.36
: 0.65
3316
3317
3324
3325
3318
8850
3308
3309
3310
8350
8370
3319
3320
. I.
: 0.73
: 0.50 I
: 1.27
: 0.59
: 0.36
: 0.79 I
.I ,
NON RR(US) DATA
A-107
DATA
: TUCK
:
1.11
8600
8650
8700
: 2.30
8750
8800
8900
8950
:
:
:
:
:
9000
9050
: 1.25
: 0.73
: 0.52
: 0.91
3.22
0.70
0.95
1 .01
0.80
TABLE A.XI
ROCK-EVAL PYROLYSIS RAW DATA
SUNRAY P i I R A J . BRISCOE
Projeot No. : R R U S 1 8 4 5 1 M l 8 0 7 l 4
SAMPLE IDENTIFICATION
RRUS
DEPTH
(Feet)
I
I
I
I
0
DATA t S l , S 2 , 9 3 m g l p m o f roc&. T m a x
s1
s2
Tmax
8 2B8/l38l3( S l + S Z )
I
I
1103
1107
1117
1121
1123
860
2598
6698
7418
7638
:
:
7838
:
:
:
1124
1125
1126
1128
1129
8273
8663
8903
:
:
:
:
:
1130
9010
:
8108
8402580668074007605-
deg C )
0.660
0.380
0.190
0.250
0.300
0.490
0.340
0.250
0.180
0.200
1.347
1.118
0.760
1.389
1.500
0.130
2.190
0.340
0.480
0.550
0.100
0.180
0.120
1.300
12.167
2.833
0.160
3.438
0.172
0.179
418
446
458
447
459
8990- 9030
I 0.090
0.670
0.160
4.188
0.118
453
i
I
0.420
1 . 1 ~ 3
0.083
---
I 0.060
2 6 1 5 I 0.020
6 7 1 5 I 0.040
7435 I 0.030
7 6 7 0 I 0.050
I
7820- 7855 I 0 . 0 1 0
8 0 9 0 - 8 1 2 5 I 0.160
8 2 4 0 - 8305 I 0 . 0 5 0
8630- 8695
0.100
8870- 8935
I 0.120
880
0.050
0.174
0.107
0.143
0.071
0.068
0.128
0
435
----435
0
0
NOTE: A DASH INDICATES AN INDETERMINABLE VALVE.
TABLE A.21
HYDROGEN AND OXYGEN INDICES FROM
ROCK-EVAL PYROLYSIS AND TOC DATA
SUNRAY # l
..
I R A J . BRISCOE
Project No. : R R U S 1 8 4 5 l M 1 8 0 7 l 4
I
SAMPLE IDENTIFICATION
I
I
RRUS
DEPTH
(Feet) I
I
1103
860
1107
2598
1117
6698
1121
7418
1 1 2 37 6 3 8
:
:
:
:
:
2615
6680- 6715
7 4 0 07
-4 3 5
7 6 0 5 -7 6 7 0
1124
7838
1125
8108
18122763
1 1 28 6 6 3
1129
8903
:
7 8 2 0 -7 8 5 5
:
:
8090-
:
8 284300-5
86308695
88708935
9 0 1 01 1 3 0
:
840-
880 I
2580-
:9 0 3809 9 0 -
8125
I
I
I
I
I
I
1
I
'
i
HYDROGEN INDEX
(mg HClpm TOC)
OXYGEN INDE'
(mp C02lpm TOC)
TOC
(%)
P
213
109
53
57
62
32
132
49
35
50
iI
40
24
11
17
30
15
1.39
1.68
0.41
1.66
0.70
P
1.09
10
1*
A-I08
TABLE A.22
R O C K - E V A L PYROLYSIS R A W DATA
BRISCOE # l
(SUN)
Projeot N o . : R R U S 1 8 4 5 1 M 1 8 0 7 / 4
SAMPLE IDENTIFICATION
D E(PFTeHe t )
RRUB
,
I DATA
6600
7160
7425
7560
7900
3322
3301
3302
3303
3323
(51.52.63 mglgrn o f rook:, TTax d e g C )
I
I
S1
I
0.120
0.140
~I
I
52
0.200
I 0.190
: 0.060
I
8100
8200
3304
3305
3306
3307
3308
8250
3309
3310
""
3311
3312
3313
i
1.100
1.100
0.282
0.400
1.090
1.310
1.170
0.275
0.360
0.080
0.180
0 . 3 110. 1 4 0
0 . 1 000, 3 500. 0 500. 4 1 2
0 . 1 3 0 0 . 2 7 0 0 .09.8207 6
I
I
8370
8450
8500
I 0.060
I 0.250
8550
I
I
I 0.140
0.140
0.300
0 . 009.0709.01 1 4
00 .. 75 23 00
0.290
0.310
0.670
1.500
0.950
0.640
I
0650
8700
8750
3325
3318
3319
3320
---
I 0.080
821.53 S l t ( S l + S 2 ) T m a x
0.310
0.260
I 0 .00.061.094.044.403242460
' 0.120 0 . 3 1l0. 1 0 0
8300
8350
8600
53
0.068
0.279
0.350
0.333
0.345
0.429
439
---------
0.282
0.272
0.27
49
39
0.367
---
0.236
0.367
0.222
0.325
0.736
0.193
0.326
1.047
'
448
443
0 . 440406
0.321
0.326
0.311
0.309
449
439
440
444
0 . 1 300. 9 400. 1 308. 3 8416 0
I 0 . 1 100. 2 310. 0 000. 2 300. 3 2444 1
8800
1
I
8850
I
8900
8950
9000
9050
I 0 .03.9809 0
1.150
0.774
0.305
I 0.
01.131.0070.001.40740303
I 0.210 0 . 4 0 0
1.040
0 . 3 805. 3 4444 1
I 0 . 2 0 0 0 . 4 310. 0 900, 3 904. 3 1 74.4 1
0 . 6 010. 3 700. 9 1 0
0 .01.193.030.053.0
41344635
0 . 1 9 0 0.460
REPRESENT5 AN INDETERMINABLE VALUE
NON RR(US) DATA
A-109
1.505
0 . 3 0454 0
1 . 0 40 0. 4 40 2. 2 9 2
448
442
TABLE A.23
HYDROGEN AND OXYGEN INDICES F R O M
ROCK-EVAL PYROLYSIS AND TOC DATA
BRISCOE # I (SUN)
0
Pro9cot No. : R R U S 1 8 4 5 I U 1 8 0 7 l 4
SAMPLE
IDENTIFICATION
RRUS
3322
3301
3302
3303
3323
I
:
DEPTH
(Feet) I
6680
7160
7425
7560
7900
8100
I
I
I
I
:
e200
8250
8300
8350
3309
3310
331 1
3312
3313
~~~
3314
8370
8450
8500
8550
8600
OXYGENSNDEX
TOC
I
I
I
I
:
tmg HClgm T O C )
tmg C 0 2 I g m I O C )
t%)
~~
Ill
76
80
IO0
22
0.28
0.34
0.50
0.36
0.36
-2 9
42
62
28
46
68
151
228
67
146
0 .65
0.73
0.50
1.27
0.59
25
67
26
30
29
219
91
135
91
28
0.36
0.79
1.11
1.04
181
0.52
0.91
3.22
2.30
3316
3317
3324
3325
3318
3319
3320
8900
8950
9000
9050
I
I
I
I
I
I
25
25
43
47
48
88
21
32
59
NON RR(US) DATA
A-110
110
0.70
28
150
109
114
12s
83
149
~
0
393
324
218
364
325
I
8650
8700
8750
8800
8850
33is
HYDROGEN
INDEX
I
0 .95
1.01
0.80
1.25
0.73
0
0
TABLE A.24
VISUAL KEROGEN ANALYSIS- REFLECTED LIGHT
IRA J . BRISCOE
SUNRAY U l
Projeet
SAMPLEIDENTIFICATION
No.
I
I REFLECT,KEROGENCHARACTERISTICS
I
:
RRUS
DEPTH
(Feet)
: RRU5t845IMI807l4
Ro
Am%
E%% VitS IntrtK F l u o r
03.05 7
0.73
I
I
---0.99
40
tr
tr
%
I
1103
860
1107
2598
1117
6698
1123
7638
8108
1125
:
:
840880
2580- 2 6 1 5
6680- 6715
76057670
8 0 9 08
-1 2 5
I
1.00
95
35
10
1 1 2862 7 3
1120
8663
1 1 3900 1 0
:
:
:
8 2 4 08-3 0 5
I
8630- 0 6 9 5 :
8 9 9 09
-0 3 0
I
1.06
1.14
1.14
SO
35
50
:
:
:
TOC
I
:
I
A-Ill
0
65
3525
tr
0 2 54 0
5 35 50
0 20 30
t r 3 53 0
tr
23
00
5
5
None
None
fled
'k
0 . 31
0.35
0 . 36
None
0.48
Pled
1.66
fled
0.70
1.39
1.68
Low
Low
SUNRAY
St
IRA
.I.
*
ERISCOE
25 1
RRUS No.
ID
1103
I
CTGS.
I
DEPTH
L
=
L
VALUES
RO
Fr
800.0
243.8
I
I
n
~ATURITY
3
I
VEIN
:
nEDIAN
nDDE
:
STD DEV
0
0.57
0.00
0.57
0.55
8
0
HISTDGRAII:
Range: 0- 4 %
Increment, 0 . 1 0 ~
ORDERED REFLECTANCE VALUES.
20.56
f0.57
f0.57
0.83
I .OO
1.08
1 .0E
1.I0
1.1:
1.14
KEROGElv DESCRIP710N
30 X
Amorphous :
Exinire
3
0 X
Vitrinite ; 65 X
Inerrinite :
5 X
I .20
1.23
1.28
1.31
Back Fluor, I
Bitumen
COhe
SUNRAY
SI
ID
':1
7
:
CTGS.
DEPTrl
nEAN
STD DEV
nEDIAN
nDDi
:
:
1107
2432.5
741.4
0 96
8.87
0.07
0 97
0 Q8
0.Qi
I .Ea
1.81
1.16
1.01
LE5
1.18
1.18
1 P7
0.73
0.07
0,74
0.75
I
I
I
I
KEROGEN DESCRlFTlON
40 %
Amorphous I
Exinire
:
lr X
Vllrinlte I
25 X
Inert inlte I
35 x
Fluor
Birumen
:
Cole
:
Back
1 II
1 .I2
1 .I3
A-I12
Ft
n
19
I
HISTOGRAlI:
Range: 0- 4 X
Increment: 0 . 1 0 %
0 81
a
= Ro nATURITY
VALUES
ORDERED REFLECTANCE VALUES:
~
z
POSSIBLY REUDRKED OR OXIDIZED?
0
0.0
f 0 . 5780 . 7 4
f 0 .7
60
2.0
7 .48 3
f 0 .L
60
4 .07.68 4
1 0 . 6L70 . 7 7
L0.68
70.7R
.
.
2 0 . 6 8 70.81
v 0 . 7 2 70 83
f 0 . 7 3 7a 85
L 0 . 7 3 70.85
L0.74
0.W
1
None
tr
Small
IRA J . BRISCOE
RRUS N O .
i!
I
0
I
None
lr
rr
P
SUNRAY
SI
I R A J . BRISCOE
RRUS No.
ID
I
1117
:
CTCS.
DEPTH
6847.5 Ft
2087.I n
I
I
0j
... !ln,n,n, ,.,,
0.0
1.0
'
,,,
'
2.0
ale
'
I
HISTOGRAfl:
Ranae; 0-
4%
VITRINITE REFLECTANCE I R ~ N ~ O f% lI
ORDERED REFLECTANCE VALUES:
KEROGEN DESCRIPTION
85 X
Amorpnous
Exinite
r
lr X
Vltrinlte :
tr %
Inertlnlte I
5 X
0.41
0.47
0.61
8.83
1.26
Back Fluor
:
:
Bitumen
Coke
SUNRAY
-1
I
fled
lr
None
IRA 1. BRISCOE
RRUS No. , 1123
ID I CTGS.
DEPTH
8
t
f
7730.0 Ft
2356.I n
= Ro flATURITY
VALUES :
31
flEAN
STD DEV
nEDIAN
n0DE
-
I
0.88
0.07
3
0.Q
8
..
:
0.85
!
HISTOGRAfl:
VITRINITE REFLECTANCE IRANDOn
ORDERED REFLECTANCE VALUES.
0.74 *0 QZ 1100
- - X. I. . ta
. - 1.
0.76 f0 82 VI .E2 VI I01.18
~
"
0.78 f0.85 V1.03 f l . 1 1
f0.88 f0 85 * I E3 :I . I 1
f0.89 I0 06 fl.03 1 14
X0 88 r E . 0 6 f1.06 1.15
fO Q0 w0.97 f : E6
1 .I6
f0 81 X0 87 f l 07 I 16
V0.81 f0.88 81.08 1 . 1 6
I 16
f0.01 ~ 1 . 0 r!
e 10
.
17
.
1.18
I 21
1.23
1.24
I .26
1.27
I.I7
I 32
A-113
XI
KEROGEN DESCRIPTION
Amorphous : 35 X
A
Ektnile
-~.... . -
Vlrrlnlle
Inertinlte
Back Fluor
8 ;tmen
Cohe
I
"
I
I
t
!
r
40 X
25 X
None
tr
tr
25
-
RRUS NO.
ID
I125
3
ClGS.
I
DEPTH
8107.5 F T
2471.2 tl
I
I
= Ro HATURTTY
I
VALUES
I
35
nEAN
STD DEV
I
0.11
REDIAN
nODE
I
0.Q8
I
0.Q5
I .OO
0
HISTOGRAt?t
Range: 0- 4 x
Increment, 0 . 1 8 ~
ORDERfLD REFLECTANCE VALES
0.67 0.82 T0.61 * I .a2 fl I4
0.70 ~ 0 . ~t0.61
4
?I .03 T I ,15
0.72 ~ 0 . ~
t 05. w SI .04 tl . I5
0.74 T0.85 f0 03 f l .05 TI. 16
0.75 t0 86 t0.94 tl .06 fl .17
0.77 t0.87 W0.85 t ;,07 T 1 . I8
0.80 r 0 . e ~m . 8 6 t ! .0Q I .20
0.80 ~ 0 . 8a0~67 t ’ .0Q 1.20
0.82 t0.GD ~ 2 . 9 8*’ I0 ! .23
0.82 r0.0: :I eB t: . l e 1 .23
KEROGEN DESCRIPTION
10 x
Amorphous I
Exlnile
I
5 x
50 X
Vllrinite :
fnertinile :
35 X
.
SUNRAY a1 I R A
25 1
Back Fluor
I
B~rumen
Coke
I
:
ned
ned
Sma!l
J . BRISCOE
RRUS
ID
8
No. : 1126
CTGS.
DEPTH
I
:
t
P
8272.5 F T
2~21.5 n
= Ro nATURITY
a VALUES
:
nEAN
STD DEV
MEDIAN
RODE
:
29
I‘
1.06
0.10
I .04
0.95
a
:
:
HISTOCRAPI:
Range: 0- 4 X
Increment: 0.10%
ORDERED REFLECTANCE VALUES:
f0.92 f1.01 71.13 1.26 1 .33
t 0 . m t1.01 11.14 1.27 1 .35
T0.95 t1.02 t1.15 I . 2 Q
1 .36
T0.07 f1.02 f1.17 1.29 1 .37
t0.87 t1.04 TI 17 1.30 I .38
t 0 . w ~ 1 . 0 4f1.22 1.32 1 .38
T0.88 t1.06 T t . 2 2
1.32 1 38
t0.08 :\.eo f : 23 1.32
! .38
f0.OQ f1.09 t1.24 1 33 I .38
10.99 t1.13 1.26 1.33 1 41
A-114
0
KEROGEN DESCRlPTlON
50 X
Amorpnous :
I
8 X
Exinite
30 X
Vilrinile I
lnerr inite
I
28 X
Back Fluor
B i 1m e n
tone
I
:
:
Red
Small
None
P
SUNRAY
81
I R A J . BRISCOE
DEPTH
I
I
8562.5 Fr
2'40.3
= Ro nATURlTY
50
VALUES 8
nEAN
1.14
STD DEV
0.09
BEDlAN
r
1.16
nODE
I
1.15
t
I
ORDERED REFLECTANCE VALUES:
t0.81
f0.84
t0.84
t0.08
t1.02
t1.02
tl.02
r1.02
X1.04
31.04
KERXEh DESCR'PTION
AmOrphDus 4
35 X
Exlnlte
I
tr X
Vltrlnlte : 30 x
Iner?lnlre , 35 X
Bock Fluor , Lor
Bitumen
:
Smsl I
I : .06 t1.12 tl.IB tl.23
tI.08 t1.13 tl.18 $1.24
tl.0B X1.14 t1.18 ryl.24
tl.0Q t1.15 tl.18 tl.24
tI.10 11.16 tl.1B t1.25
: ] . l a ry1.16 t 1 . 1 911.26
tI.10 11.17 f1.20 tl.27
tl.10 *1.17 rl.20 11.27
tI.11 f61.18 ::.20
11.28
tI.11 ?:.18 tl.22 tl.31
SUNRAY 1.
Coke
lr
I
IRA J . BRISCOE
t = Ro tlATUR1-V
VALUES
nEAN
STD DEV
(IEDIAN
nODE
50
:
I .I4
0.10
1 .I5
1.15
8
1
:
HISTDCRAtl~
VITRINITE REFLECTANCE (RANDOM
ORDERED REFLECTANCE VALUES:
tE.81
t084
t0.06
t0.97
t0.97
SI .OO
tl.O1
t1.05
tl.06
tl.08
tl.11
tl.13
t1.13
tl.13
tl.15
tI.II '11.15
t1.12 t1.15
t1.12 11.17
t 1 . E t1.12 t1.18
tl.02 I : .I2 tI.lB
t1.04 tl.12 t l . I B
fl.18
tl.lB
tl.18
r1.20
t1.20
fl.21
t'.21
tL23
tl.23
?!.24
tI.24
tl.25
tl.26
fl.27
t1.27
tl.27
:I 28
11.28
71.29
f1.30
A-115
XI
4
Range, 0- :
lncremenr : 0.10%
KEROGEN DESCRIPTION
50 X
Amorphous I
I
tr X
Exinite
Vlrrinlre I
30 X
t
20 X
Inert lnlre
Bach Fluor I Low
B i turnen
Cohe
,
I
tr
~r
TABLE A.25
LIGHT
VISUAL KEROGEN ANALYSIS-.REFLECTED
BRISCOE 4tl ( S U N )
P r o j e c t No. : R R U S 1 8 4 5 l M 1 8 0 7 i 4
~~
S A M P L E IDENTIFICATION
URUS
DEPTH
(Feet)
3301
3302
3303
3304
3305
7160
7425
7560
8100
8200
3306
3307
3300
3309
3310
8250
8370
8450
3311
3312
3313
3314
3315
8500
8550
8600
8650
8700
3316
3317
3310
3319
3320
8750
8000
9000
i
I
I
REFLECT.
Ro %
KEROGEN CHARACTERISTICS
Am%
Ex%
0
0
0
0
0
0
0
0
I
I
I
I
I
I
1 .Ol
0.96
0.97
0.98
1.02
0
0
0
0
1.01
0
I
1.06
1.04
1.06
1.06
0
0
0
I
I
I
I
I
I
I
I
I
I
I
0
V i t Y Inert# F l u o r
0
0
0.34
0.50
0.36
0.65
0.73
None
None
None
None
None
0.50
1.27
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1.08
0
1.14
1.11
0
0
0
0
0
0
1.11
1.11
1.07
1.10
1.11
0
0
0
0
0
0
0
0
0
0
%
None
None
None
None
None
0
1.06
1.06
TOC
0
0
0
0
0
0
0
0
0
~~
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
None
None
None
None
None
None
None
None
None
None
0.59
0.36
0.79
1.ll
1 .0 4
2.30
0.52
0.91
3.22
0.70
0.8 0
1.25
0.73
NON RR(US) DATA
I'
A-116
VlTRlNlTE REFLECTANCE DATA SUMMARY
NO.l BRISCOE
2
2
L
-c
W
SAMPLE
a
@
Y
-
POINTS
READ
._
COWtlTS
7160
90
7425
97
7560
81
8100
93
Organic material scattered with
mixed populations. Some material
may be cave. Mineral matter abundant.
0200
94
Shift of Ro range due tointroduction of less mature material, which
may be cave. Mineral matter still
present.
a250
114
No significant change.
a300
101
Rp profile
0350
90
0
P
*
J. L. Martinez
Tucumcari
Dasin
-I
broken-
in
abundant
material
Organic
up small pieces.
matter, present.
Some mineral
Slight shift in
range may be
attributed to influx of less mature
organic material, which may be cave.
c
U
similar tot h a t cstahllshed at 7560.
R, Profile similar to that of
sample R250.
VlTRlNlTE REFLECTANCE DATA SUMMARY
z-
NO.l
BRfSCOE
- Tucumcari
Basin
J.
L. Martinez
0
m
n
@
4
D
?
c.
c.
SAMPLE
COYENTS
POINTS
READ
8370
94
Mean R, and standard deviationindiis
cate that the material present
similar to that recorded at 7425.
8450
77
Ro Profile reverts back to that of
sample 8 3 0 0 .
esoo
95
Sample appears to have less mixed
assemblage than previous samples.
Material shows one distinct peak.
esso
92
mean slightly higher due
9
f ux of more mature material.
other significant change.
8660
102
RO range wide, scattered material
with mixed populations. Some
material may becave.
e650
100
Ro profile similar to that of
sample 8370.
e700
103
Ro range is wide due to mixed
VOVUlatlons in sample.
R750
102
m
c
0
to
inNo
VtTRtNtTE REFLECTANCE DATA SUMMARY
z
NO.l BRISCOE
- Tucumcari
Basin
0
a
n
c
100
@
SIIMPLE
z
J . L. Martinez
POINTS
R€AO
COUWWTS
Ro profile reverts to that
of
8800
sample 8500.
Y
U
14
P
2
8950
Ro material less than previous
samples.
9000
84
Sample ha5 less mixed assemblage
of material.
9050
87
Slight shift in Ro mean due to
influx of less mature material.
No other significant change.
BRISCDE - 1 ' [SUN1
No.
RRUS
ID
:
DEPTH
I
3
E
3-81
CTCS.
I
7"60.0 Ft
2'82.4 n
Ro nAlURI7Y
VALUES
30
I
nEAN
STD DEV
IlEDlAN
X
nODE
:
I .01
0.07
I .OO
0.Q5
HISTOGRAti~
VITRINITE REFLECTANCE
[RANDO?
Range. 0- 4 %
Increment: 0 . 1 0 %
x1
NON RR(US) DATA
BRISCOE # I
RRUS No.
ID
I
I
3332
CTGS.
DEPTH
8
7415.0 Ft
I
22'3. I
n
* = Ro MATURITY
VALUES
a
nEAN
STD DEV
MECIAN
nODE
.0
VITRIKITE REFLECTANCE [RAkDOn % I
31
:
:
,
L
0.Q6
0.08
0.95
1.05
HISTOGRAM:
Range: 0- 4 %
Increment: 0 . 1 0 %
BRISCOE a I
RRUS
ID
I
NO. 8 3303
ClGS.
DEPTH
:
,
7560.0 Ft
23~4.3n
* = Ro I l A l U R I T Y
a
VALUES
nEAN
STD DEV
nEDIAN
nODE
VITRINITE REFLECTANCE fRAhDD!' X 1
A-120
e
I
I
:
8
32
0.97
0.09
0.W
I .05
HISlDGRAn:
Range, 0- 4 %
Incremenl: 0.10%
BRISCOE
L
1
DEPTH
I
t
?
= Ro MATUR'Tr
L
VALUES
VITRINITE REFLECTANCE IRAhDOtl
x1
29
:
nEAN
STD DEV
MEDIAN
RODE
.0
8'00.0 F I
2,168 9 n
I
:
1
:
0 98
0.09
0.97
0.95
HISTOGRAM:
Range: 0- 4 %
Increment: 0.10%
BRISCOE . I
25
RRUS No. . 3305
ID : CTGS.
N
IJ
DEPTH
:
:
8203.0 F I
2400.4
tl
:= Ro nATURITY
n
VALUES
REAF;
STD DEV
MEDIAN
MOEE
VITRINITE REFLECTANCE I R A N D X X 1
21
I
:
:
8
I .02
0.11
0.89
0.Q5
HISTOCRAI1:
Range: 0- 4%
Increment: 0.10%
BRISCOE r l
RRUS No. . 3306
ID : CTGS.
DEPTH
8250
0
:
n
T
=
RO
nATuRnY
VALUES
MEAN
STD DEV
nED1AN
nODE
VITRINITE REFLECTANCE IRANDO!?
A-121
%I
2514.6
:
:
;
I
Increme:
31
I .01
0 . I0
I .OO
0.95
FI
tl
0
BRISCOE - 1
RRUS No.
ID
I
a
3307
ClCS.
t
DEPlH
3
t
850E.0 F I
2f29.8 n
Ro IlATURITY
L
E
L
VALUES
REAN
1
STD DEV
:
IlED1A.N
RODE
:
0
33
:
1.06
0.11
I .06
I .05
HISTOGRAR:
Range: 0- 4 %
Increment, 0 . 1 0 ~
VIlRINiTE REFLECTAhCE IRANDOR X 1
25
-
BRISCOE
LI
DEPTH
P l5
0
I
8330.0
I
2515.1
Ft
R
n
VALUES
v
26
:
REAN
DEV
REDIAN
RODE
570
:
:
1.04
0.09
1.05
1 .05
HlSTOGRAIl:
Range: 0- 4%
Incremenl: e . ~ e %
BRISCOE L I
RRUS N o .
ID
I
I
DEPlH
:
t
L
3309
CTGS.
VALUES
:
RE AN
STD DEV
REDIAN
RODE
8370 0 F T
2551.2 R
39
I .E6
8
I
0.11
I .04
1.05
HISlDGRAIl:
Range. E- 4%
Increment, e . 1 0 ~
c
ERISCOE * 1
RRUS No. : 3310
ID 4 CTCS.
B
P
DEPTH
I
3
l5
I
=
*
VALUES
8.550.0 F I
2575.6 n
Ro MATUR’TY
24
:
nEAk
STD
DEV
REDIAN
MODE
:
8
I .E6
8.12
1.08
I .05
HISTOGRAM:
Range: 0- 4 %
Increment. 0.10%
25
-
BRISCOE
*1
RRUS No. . 3311
ID I CTGS.
DEPTrl
:
:
8E00.0
2E00.8
Ft
n
t = Ro VATURITY
VALUES
MEA&
STD DEV
nEDlAN
M03E
44
:
I
:
:
I .06
0 I I
1.05
0.95
HISTOGRAM:
Range: 0- 4 %
lncrernenl, 8 . 1 0 ~
E
VITRlNlTE REFLEZTANCE IRAKDO?
X1
RRUS No. . 3312
ID : CTGS
DEPTH
:
:
8550.0
2696.0
?
= Ro MATURITY
*
VALUES
I
REAN
SlD DEV
REDIAN
MODE
I
I
44
I ..06
0.11
I .E6
I .05
HISTOGRAn:
VITRlNlTE REFLECTANCE IRAtiDOD
A-123
X1
Range: 0- 4 X
lncremenl: 0.102:
FI
fl
0
BRI SCOE
I1
0
RRUS No. : 3313
ID I CTCS.
DEPTH
I
E8;00.0
I
2li2l
8
= Ro MATUR'TY
I
VALUES
0
28
t
PIE AN
S?D DEV
nEDlAN
nODE
FI
.a n
2
I .08
0.14
:
1.08
I .25
HISTOtRAn:
VITRINITE REFLECTANCE IRANDDn
25
P
-
BRISCOE
Range: 0- 42
Increment, 8 . l ~ ~
XI
c
11
2Ei
0
RRUS No
ID
:
:
3314
ctgs.
c
l5
I
VALUES
44
8
REAN
STD DEV
rE2IAN
RODE
1 . 14
:
:
0.13
1.15
1.15
HISlOGRAI1:
Ranget 0- 4 %
Increment, 0.18%
VITRINI?E REFLEZTANCE IRANDOP X 1
BR1 SCDE
rn 1
RRUS No. : 3315.
ID : CTGS
DEPTH
:
I
V
8710.0
2651.8
= Ro nATURITY
VALUES
MEAN
STD DEV
MEDIAN
X
8
:
RODE
43
1.11
0.13
I .08
I .05
HISTDCRAI1;
VITRINITE REFLECTANCE IRANDO:! % I
A-I24
Range: 0- 4 %
lncremenl: 0 . 1 0 %
FI
25
-
RRUS NO. I
ID 2 CTGS.
3316
DEPTH
8750.0 F t
2K67.0 n
8
9
n
I
= Ro
#
VALUES
nATUR'TY
42
:
1.11
PEAN
SlD DEV
I
flEDlAN
MODE
:
:
0.14
1.11
0.95
HISTOGRAn:
Ronge: 0- 4 x
lncremenl: 8 . 1 0 %
25
RRUS No
ID : CTGS
3317
DEPTH
I
I
n
1
f
= Ro
a ~ a 0 . 0 F~
2~82.2 n
MATURITY
47
VALUES :
HISTOGRAPI:
V I T R I N I - ER E F L E E T A K E
lRAhDOI1 % I
Range: 0- 4 2
Incremenl, 8 . 1 0 %
e
25
RRUS
ID :
N
U
N O . I 3318
CTGS.
DEPTH
:
I
f
!1
= Ro
PATURITY
VALUES
t
REAhr
510 DEV
nEDIAN
noni
8950.0 F I
2728.0 n
:
:
24
I .07
0.12
I .02
1 .05
HISTOGRAII:
0
0.0
.0
V I T R I N I T ER E F L E t T A N t EI R A N D O 3
N O N RR(US) DATA
A-I25
XI
Ronge. 0- 4%
Increment: 0.10%
0
0
0
BRISCOE * I
ISUNI
25
RRUS No.
N
ID
2
I
DEPTH
:
I
T
3319
CTGS.
0000.0
2743.2
F1
n
= Ro IlATURITY
' VALUES
:
34
MEAN
513 DEV
PIE31AN
M03E
:
1.10
0.13
I .87
I .85
I
HISTOGRAM,
Range, 0- 4 %
Incremenr: 8 . 1 0 %
BRISCOE * 1
ISUNI
RRUS No. I 3?20
ID I CTGS.
DEPTH
.
:
I
9850.0
2758 4
T
= Ro MATURITY
*
VALUES
:
MEAN
STD DEV
MEDIAN
:
PlODE
:
24
1.11
0.12
I
1.11
1.85
HISTOCRAPI:
V I T R I N I T E REFLECTANCE IRANDOPI
N O N RR(US) DATA
A-126
XI
Range, 0- 4 %
Increment, 8 . 1 0 %
FI
M
0
- Tucumcari Basin
BRISCOE
NO.1
z v ,
FV
='",
sz
*VI
a
c
in
W3 g1
0
:
3
n
h
o
a w
n
n m
sw
b
6145
6680
7160
7425
7560
7900
8100
8200
8250
8300
8350
-
n a a
m P.C
n S n
o n x
a mly
n
n
m *R
s *m
T
1
T
B
P
P
P
s
S+
SS+
P
T
" "
T
."
S+
"
"
T
T
T
"2n
,.
Type of
Organic
Platter
'
"
P. BurbrtdRe
TIIEWAL ALTERATION INDEX (TAI)
F
e
r
m
a
Undal
l Maturation Increases-
TAI
w-
c.
c2.0 2.0
2.3
2.5
3.0
3.5
3.2
3.7
4.0
5.0
-3
-2
1
W
1
T
T
z
,j,
o w
h-cm
*
P
D
1
0
0
-I
y"
VISUAL KEROGEN DATA SUKMRT
m
64
Structured
Nnnstructured
structured
Nonstructured
Stmrtured
Nonstructured
Structured
Nonstrurtured
Structured
Nonstructured
36
47
53
60
40
37
63
51
49
Structured
Nonstructured
61
39
structurd
Nonstructured
64
36
structured
Nonstructured
49
51
67
Structured
Nonstructured
33
Structured
Yonstructurej
Structured
Nonstructured
* M ~ , r l o e R-Rrarktsh t - T e r r e n t r l a l
70
30
61
I9
---
------
I
O i l and Cas Generation
--
--- ---
--
- -- --
-
--
---
---
1
-
3
0
1
D r y Cas O n l y
6
11
13
- - 9
-- -- 3918 14
-4 -- 245 1121
-4 -- 241 1
-- -- 122 2816
-- - 9 8
- 15 8
- 1
5
- 4 14 18
-- 73 1 6- 22 81
10
31
7
--
--
'13
I4
4
14
17
-
-- - 13-5 1-1 28-
3.2
3.2-3.7
3.2+5.0
3.2
3.95.0
3.2
3
5
6
I
-
3.2-3.5
5
9
7
21
-
3.5M.0
3.5
15
19
4.0-5.0
8
3.2-3.5
5
26
5
11
II
5
.95.0
- IS- . 3312-3.5
15
15
6
9
12
17
1 1 0 1 5
-
9
6
2
4
-
14
3
2
4
5
3
4
11
1
10
14
5
7
4
5
-
7
**A=Ahundant P - P r r w n t Pl-Moclrrate S m S u f f l r t e n t T
-
33
1 2
-
-
19
13
-
3.2-3.7
3.2+5.0
3.2-3.5
3.5
3.2-3.5
3.95.0
3.5
3.2-3.5+5.0
3.2-3.5
T R-Rnrren
~ ~ ~
~
s
r
rn
N
U
- Tucumcari Bnstn
FF ;
$5
Z
O
*
B
W
L
s
Em
0
I=
< V
I-01
-0
OII
J"
6 mo
J J
n m
v)
D W
Y
W
:Eig
m
n
0
z
J""
n t
m:
z
nImm ALTERATION
1
*
Type of
Organic
Platter
n
n
F
e
r
+-
::
T
H
S
8430
T
P
n
8500
T
8550
T
8600
T
8650
8700
8750
P
P
T
T
T
8800
f
8850
T
8900
n
T
P
n
"
"
s
a
nodal
l Uaturation Increanes-
TAI
2.0
-2.0
2.3
2.5
3.0
3.5
3.2
3.7
5.0
4.0
-I
Y
1
W
m
Structured
Nonstrurtured
Structured
Nonstructured .
Structured
Non6tructured
Structured
Nonntrurtured
Structured
Nonstructured
Structured
46
Nonstructured
structured
tlonstructured
Structured
Nonstructured
Structured
Nonstructured
50
50
87
13
44
56
67
33
49
51
54
66
54
27
73
26
74
Structured
66
Nonstructured
34
Structured
Nonstructured
90
lo
* K t b r l n r R-Rrarkish T-Trrrestrlal
c
m
H -
v.i
8 r*
r
8370
INDEX (TAI)
C
011 and Gas Generation
P
4
P. Burbrldge
VISUAL KEROGEN DATA SUU?URY
NO.1 BRISCOE
----
-
--
-
-----
------
-- --- --- --- - - -
-
-
-- -- -2
5
27
- -- -1
-- --- --- --- --- --- - - - - -
1
2
5
5
5
22
21
29
19
7
912
I8
1
-
6
13
3
22
12
8
7
11
3
12
3
11
18
6
13
11
15
6
13
18
6
I4
7
13
11
7
18
4
27
7
4
37
9
6
19
7
38
3
-3
35
35
-
18
17
I
D r y Cas Only
14
7
5
19
3
3
R
.
27
-
3.H5.0
3.5
3.0-3.5
3.5
3.5+5.0
3.2-3.5
3.2+5.0
3.2-3.7
14
6
3.2+5.0
3.5-3.7
13
4
3
3.2-3.5
3.5-4.0
7
13
3
3.H5.O
3.2-4.0
8
13
3
9
3.95.0
- - 3.5
2
0
3.545.0
3.5
3 1 9 ' 3.5+5.0
4
- .3.?-3.5
6
**A=hhundan,t P=Prr.sent H-Hrrclrrate S-SufCtclent T
I1
6
16
4
-
7
17
3
19
2
12
-
-
12
21
-
-
T
3.2+5.0
3.5
O-narren
~ ~ ~
~
NO.l BRISCOE
zul
0
Z
w
:
Z
3
m
I-
c
u)
- Tucumcari R a s h
VISUAL KEROGEN DATA SUIOVIRY
ul
TIIERFVIL ALTERATION INDEX (TAIL
*C
rl
*VI
O Y
3 BI.I
m o
2;
rl
J J
n
a-
0
%
2
n
"
.
Type of
Organlc
Matter
0
c-'
-mal
(2.0
d
0
-b4
9050
9100
T
T
P
P
P
H
M
H
Maturation
Increases-
2.0
1
n
W
T
bdal
TAI
n
- cn
-Hm*
2.3
2.5
3.0
3.5
3.2
3.7
5.0
4.0
L1
L
9000
P. Burbridge
Structured
Nonstructured
40
60
Structured
Nonstructured
72
28
71
29
Structured
Nonstructured
----
O i l and Cas Generation
----
---
---
--
-1
-
12
31
32
- 1 3
2 22 31
11
1
Dry Cas Only
8
25
I7
7
15
I
-4 -5 3.2+5.0
15
3
6
2
3
6
14
9
- 2
4
3.2-3.5
3.2+5.0
3.2
3.2-3.5
3.2-3.5
0
0
A-I30
TU
urn
A-131
0
0
"1
0
(2. 1.0 2.3 2.8 3.0 3.2 S.b 3.7 4.0 8.0
(2. 2.0 2.3 2
.8 3.0 3 2 3.b 3.7 4.0 6.0
*
TU
MM
so
24
1B
P
12
e
P
<2. 2.0 2.3 2.8 3.0 3.2 3.8 3.7 4.0 8.0
"1
n
(2. 2.0 2.3 2.8 3.0 3.2 3.8 3.7 4.0 b.0
NON RR(U.S.) DATA
A-132
NO. 1
BRISCOE
OStn~cturmdK o m p n Doto
D Non-Structumd Koropm Doto
4.0 6.0
'<2. 2.0 2.3 2.6 3.0 3.2 3.6 3.7 4.0 8.0'
' ~ 2 2.0
.
2.3
la 3.0 3.2 sd 3.7
4.0
6.0'
NON RR(U.S.) DATA
A-133
0
-1
0
TU
NON RR(U.S.) DATA
c
A-I34
TABLE A.28
C O M P O S I T I O N OF S O U R C E
SUNRAY # I
ROCK
EXTRACT
IRA J . B R I S C O E
Projeot N o . : R R U S 1 8 4 5 t M I 8 0 7 I 4
I
I EXTRACT
S A M P L EI D E N T I F I C A T I O N
I
I
ppm
8125
8990- 9 0 3 0 I
220
(D FERePReTUtHS)
1 1 2851 0 8
9010
1130
:
:
8090-
5AT
AROM
POLARS
ptroentage
456
22.8
4 0 .s
29.2
48.0
45. 6
13.3
TABLE A.29
SUMMARY TABLE SHOWING SELECTED PARAMETERS
OF O I L S A M P L E S
S U N R A Y X 1 IRA J . B R I S C O E
Project No.
S A M PILDEE N T I F I C A T I O N
: RRVS1845tM1807I4
I E X T R ABCARTTAST
1 OS
CP I
D E PRTRHU S
1 1 2851 0 8
1 193001 0
:
:
8 0 9 08 -1 20 5. 0 2 7
8 9 9900-3 0
:
0.013
, 2 2 .08. 5 1
A- 135
40.5
0.41
0.41
1.29
0.90
0.38
1.17
----
TABLE A.30
0
H E A V Y H Y D R O C A R B O N S N O R M A L I Z E D TO 100%
SUNRAY # l
IRA J . B R I S C O E
Projeot N o . : R R U S t 8 4 5 I n t 8 0 7 t 4
S A M P LIED E N T I F I C A T I O N
RRUS
D E P(TFHe e t )
I
:
0
NORMALIZED n-ALKANES
:
C-15
C-16
C-17
C-18
C-19
c-20
c-21
I
0 . 3 03 . 3 07 . 8 07 . 6 07 . 1 09 . 3 01 1 . 3 0
1 . 04
0. 21
01 . 5 0
10.50 7 . 9 0
I
1125
1130
RRUS
1125
1130
8108
9010
:
:
8 0 9 0 -8 1 2 5
8 9 9 09
-0 3 0
:
:
(Feet) I
C-22
C-23
C-24
C-25
C-26
C-27
C-28
I
I
8 0 9 0 -8 1 2 5
I 1 3 . 6 01 0 . 1 09 . 9 04 . 3 03 . 3 02 . 5 02 . 6 0
8 9 9 0 -9 0 3 0
: 1 0 . 5 0 1 0 . 0 0 8 . 3 05 . 2 0
4.00
DEPTH
8108
9010
I
:
8.00
9.40
2 . 5 02 . 1 0
I
I
R RDVESP(TFHe e t )
0
*
C-29
C-30
C-31
C-32
C-33
C-34
C-35
!
l
1125
1130
8108
9010
:
:
8090- 8125 :
89909030
:
2 . 2 01 . 9 01 . 4 0 . 9 0 . 5 0 . 3 0
1.80
1.30
1.00
0.80
0.00
0.00
0.00
0.00
PR
PH
4.00
3.10
4.70
4.00
I
R RDUESP(TFHe e t )
1125
1130
8108
9010
:
:
8090- 8125
8990- 9 0 3 0
r
i
C -c 3-c63-c73-c83- 94 0
i
0.00
:
0.00
0.00
0.00
A-I36
0.00
0.00
O.DO
0.00
0.00
0.00
R
1
.A-137
SAMPLE: MUS
8180
NO. 1125
SAMPLE:
feet
9010 feet
RRUS NO. 1130
GAS CHROMATOGRAMS OF C1S
+ SATURATE HYDROCARBONS
A-138
NON RR(U.S.) DATA
A-139
NON RR(U.S.)DATA
A-I40
a==
"
NON RR(U.S.)DATA
A-I41
10.1 BRlSCDE
P7S-SUN 8 7 5 Z
THERMAL
Rt~5.9
NON RR(U.S.)DATA
A-142
tc
NON RR(U.S.)DATA
A-I43
NON RR(U.S.)DATA
A-144
PURETEX, I1 CHAPPELRANCH
A-145
A-146
3500
TMLE A.31
T O T A L O R G A N I C C A R B O N DATA
PURETEX CHAPPEL RANCH (SUN)
Project No. : R ~ u S 1 e 4 5 l M 1 . 9 0 7 1 4
S A M P L EI D E N T I F I C A T Z O N
FiR’JS
D E(PFTeHe t )
3015
3001
3016
3002
3017
3400
3003
3004
3005
3006
3600
3700
4000
4100
4200
: DATA
S A M PI LD E N T I F I C A T I O M
: TOC%
RRUS
: 0.12
3oc7
3008
3009
30!0
: 0.15
: 0.13
: 0.13
: 0.06
: 0.07
: 0.02
: 0.20
: 0.6?
D E(PFTeHe t )
P>.Th
:
:
301 1
4300
4900
4500
4600
9700
3012
3013
3O! 4
4eoo
4900
4930
:
:
NON RR(US) DATA
A-147
T9C.h
1 23
: 0 49
: 0.40
: 0.61
: 0.58
.
0 . 1 7
0.28
0.26
TABLE 4.32
R O C K - E V AP: Y R O L Y S I S
RAW D A T A
P U R E T EC
X H A P P ERL A N C H
Project
Yo
-
'
(SUN)
RRVSlaq5/MI807/4
!
!
,
3500
3700
3001
3002
3005
3006
3007
*.
0.170
0.820
0.590
1.2t0
0.468
0 090
0.220
0 . 1 7 0
0.570
0.221
0.260
0.120
0.100
0.490
0.770
0.740
0.800
0.260
I
1.050
4100
3008
3009
30: 0
3011
3013
4200
4300
!
4500
46@C
I
!
!
4700
!
4500
301 4
49CO
:
4930
I 00..134100
NON RR(US) DATA
0.350
0.210
0.612
0.346
0.278
0.347
0 .06.055.032 85 5
0.550
0.382
0.323
3;8
437
354
0 , 7 5 0
0.311
354
0,770
0.413
440
252
TABLE A.33
~
H Y D R O C E IA4 N D
@XYCEN
I N U I C EFS R O M
R O C K - E V A LP Y R O L Y S I SA N DT O CD A T A
P U R E T EC
X H k P P ERL A N C H
(SUN)
P r o j e c t N ? . : RRUS1845I!t180714
S A M P L IED E X T I F I C A T I O G
RRUS
3001
3002
(Feet:
E,EPTH
.
I
HYDR3CEN INDEX
tmo H C l p T O C )
!
35131)
_ ~ . .
393
3ccs
3700
4:OC
631
145
3006
3007
4200
4300
41
3008
3009
3010
44oc
3011
35
142
BO
4700
3013
4900
1301
19 4
4930
68
4500
4600
60
75
,
I
NON RR(US) DATA
A-148
O X Y G E N INIjEX
TOC
tmp CO2Jgm T O C )
( 'Is )
840
808
425
102
71
0 . 1 5
0.13
0.2c
0.63
1 23
157
0 40
0.40
i e$
131
112
196
0.58
288
. 0.2t
0.61
o.ze
TABLE A.31
VXBUAL KEROGEN ANALYSIS
-
REFLECTED LIGHT
PURETEX CHAPPEL RANCH (SUN)
Project N o . : R R V S 1 8 4 5 1 M t 8 0 7 l 4
S A M P LIED E N T I F I C A T I O N
RRUS
(Feet)
DEPTH
I REFLECT.
i
Ro %
KERDGEN CHARACTERISTICS
Am%
EVRiUItnUe r t %
TOC
Fl.ucr
PI;
1
3001
3002
3003
3004
3005
I
3700
I
4000
I
I
I
0.69
0.65
0.83
0.73
0.63
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
N5r.e
None
None
Ncne
Ncne
Plzr,e
YGne
0
0
0
G
15
0.13
0 07
0.02
0.2C
1
3006
3007
3008
3009
3010
4200
4300
4400
4500
4600
0.70
0.71
0.76
0.74
0.77
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
I
0.72
0.76
0.75
0
I
0.80
0
0
0
0
0
0
I
:
I
I
I
?‘?ne
f:one
Fone
1
3011
3012
3013
3014
4700
4800
4900
4930
I
:
NON RR(US) DATA
A-149
0 63
1.23
G 45
0 91
0 61
h’one
:inr.e
0 5P.
Vcne
0 17
0 . 2 8
h’one
0.26
VITRINITE REFLECTANCE DATA SUMMARY
No.? CIV\PPEL RANCIl
20
z
-
e
Basin
J. L. Martinez
POINTS
COMMZUTL
RE A 0
c
v)
3400
”
W
3500
14
3600
”
3700
13
3800
”
3900
20
Organic material very marginal.
Mixed populations. Ro mean may
not bevalid due to amount.
4000
52
5 range narrow due to amount
and maturity of material. Organic debris and large gritty
sand grains present.
4100
e3
It,
range is wide w i t h mired populatigns. Some of the more mature
organic material maybe cave, and
appears to be thermally. altered.
Mineral matter is abundant.
P
4
P
8
SAMPLE
- Tucumcari
3
Barren.
Insufficient data for valid
Ro mean.
Barren.
Insufficient data forvalid
Ro mean.
Barren.
3
e
VlTRlNlTE REFLECTANCE DATA SUMMARY
z
NO.l
CHAPPEL RANCII
- TucumcariBasin
J. L. Martinez
0
51
W
A
SAMPLE
POINTS
REA0
COMMENTS
-
c
4200
86
4300
07
4400
74
cc
W
D
-1
D
-
Ro p r o f i l e is mimilar t o t h a t
e s t a b l i s h e d a t 4000 w i t h an i n f l u x of more m a t u r e m a t e r i a l ,
appear making Ro range
wider.
Ro p r o f i l e shows no s i g n i f i c a n t
changeotherthan a v e r y s l i g h t
i n f l u x o f more mature organic
material.
profile r e v e r t s t o t h a t est a b l i s h e d a t 4000.
Mineral
matter s t i l l p r e s e n t .
4500
70
No s i g n i f i c a n t c h a n g e .
4600
94
No s i g n i f i c a n t chanse.
4700
63
S l i g h t c h a n g e i n lb may be a t m
t r i b u t e d t o m a t e r i a-l which
-.-,r v
becave.
V e t y s l i g h ti n f l u x
of o x i d i z e d m a t e r i a l .
4999
?2
Mean Ro and s t a n d a r d d e v i a t i o n
i n d i c a t e t h a t t h e m a t e r i a l pres e n t is s i m i l a r t o t h a t recorded
at 4500.
VlfRlNlfE REFLECTANCE DATA SUMMARY
”
2
N 0 . 1 CHAPPEL RANCH
- Tucumcari
J . 1. Martinez
Basin
0
-
s
SAMPLE
POINTS
COMMENTS
at A 0
Mean Ro is higher due to slight
influx of mote mature organic
material. Organic debris is
present.
B
c
c
4930
3
eo
No significant change in Ro
profile.
3
J
PURETEX CHAPPEL RANCH ISUNl
25
RRUS No. 3001
ID I CTGS.
I
N
DEPTH
9
8
VALUES
L
3500 0 Ft
1066.8 V
3
:
I
STD DEV
nEDlAN
I
I
1
0.68
0.07
0.71
0.75
HISTOCRAn:
3.0 2.0
Range: 0- 4%
Increment. 0.10%
4 0
VITRINITE REFLEClANCE IRANDO? % I
PURETEX CHAPPEL RANCH ISUNI
RRUS No. . 3102
ID C T G S .
I
nEAN
DEV
VEDIAN
nODE
S7C
:
:
:
:
0.65
0.07
0.68
0.65
HISTOGRAH;
Range, 0- 4 X
Increment: 0.102
4.0
VIlRINITE REFLECTAWE IRANDOV
25
-
%I
PURETEX CMAPPEL RAlvCH ISUlvl
RRUS No.
ID
I
:
DEPTH
;
2
P I5j
i
30e3
CltS.
3FB0.0 Ft
1188.7 v
= Ro HATURITY
s VALUES >
9
nEAN
I
0.83
STD DEV I
0.09
nEDIAN
0.87
nODE
I
0.85
HISTOGRAV:
I
5L
;kn
0
0.0
1:0
8 . " ' , ' ' ' . , . '
2.0
3.0
3.0
VITRINITE REFLECTANCE IRANDO
IRANDO?
NON RR(US) DATA
A-153
I
4.0
XI
Range: 0- 4 %
Increment: 8.101.
0
PURETEX CHAPPEL RANCH lSUNl
RRUS NO.
ID
:
0
3104
CTCS.
I
DEPTH
t
I
4700.0 F t
1218.2
1
= Ro tlATURlTY
*
VALUES
35
:
nEAN
I
STD DEV
I
MEDIAN
MODE
rl
0
0.73
0.10
0.72
0.75
I
I
HISTOGRAfl:
Range: 0- 4 %
Incremenr: 0.10%
VITRINITE REFLECTANCE'IRANDOrl X I
c
PURETEX CHAPPEL RANCH (SUN1
RRUS No.
ID
:
:
3M05
CTGS.
DEPTH
I
I
4100.0 Ft
1248.7 M
t = Ro llATUR:TY
*
VALUES
MEAN
STD DEV
MEDIAN
n0DE
13
I
I
0.63
0.13
I
8.66
:
0.75
I
P
HISTOGRArl,
Ronge: 0- 4%
Increment: 0.10%
0
VITRINITE REFLECTANCE IRANDOI1 X1
PURETEX CHAPPEL RANCH (SUN1
RRUS No.
ID
:
3P06
CTGS.
DEPTH
4280.0 Ft
I
I
:
1z~0.z
n
Ro HATURITY
t
D
S
VALUES
:
47
0.70
0.13
0.71
0 85
HISTOGRAM:
0
VITRINITE REFLECTANCE IRANDON % I
NON RR(US) DATA
A-154
Range. 0- 4%
Increment 0.10%
PURETEX CHAPPEL RANCH ISUNI
RRUS ND. : 3007
ID 2 CTCS.
DEPTH
I
9
P
= RD MATURITY
f
l5
4300.0 F 1
1310.6 n
m VALUES
47
I
nEAN
STD DEV
MEDIAN
MODE
I
:
0.71
0.I4
0.72
0.85
HJSTOGRAn;
Range : 0- 4%
Incremenr: 0.10%
0
VJTRJNJTE REFLECTANCE IRANDOnX 1
PURETEX CHAPPEL RANCH ISUNI
25
_1
RRUS ND. I 30w
ID I CTGS.
DEPTH
:
I
= Ro nATURITY
f
VALUES
VITRINITE REFLECTANCE IRAhD3n X 1
48
8
nEAN
STD DEV
MECIAN
nODE
0
4430.0 F 1
1361.1 n
:
t
0.76
0.13
0.70
0.E5
HISTOGRAnt
Ronge . 0- 4%
Incremenr: 0.10%
PURETEX CHAPPEL RANCH ISUNI
RRUS
ID
I
ND. : 3009
crts.
DEPTt4
I
:
f
=
1
VALUES
RD
nEAN
STD DEV
nEDIAN
nODE
0
0.0
1.0
2.0
3.E
VITRINIlE REFLECTANCE IRAhDOn X I
NON RRWS) DATA
A-155
4 E
4500.0 F I
1371.6 n
MATURITY
I
f
I
I
r
42
0.74
0.13
0.76
0.85
HISTOGRAn:
Range: 0- 4%
Incremenrz 0.10%
0
PURETEX CHAPPEL RANCHISUkl
25 7
NO.
RRUS
ID
I
0
31310
CTCS.
I
0
nEAN
STD DEV
nEDIAN
nODE
1
:
I
I
0.77
0.14
0.79
0.85
HISTOCRAn:
Rsnge, 0- 4%
Incremenr. 0 . 1 0 %
0
PURETEX CHAPPEL RANCH (SUN1
25 7
RRUS N O . : 30: I
ID I C T C S
DEPTH
:
I
f
= Ro HATURITY
a
VALUES
:
DEV
nEDIAN
nODE
STD
?
5
0
0.0
2.0
3.0
VITRINITE REFLEClANCE fRAND3N % I
4 0
3
:
:
c
31
I
nEAN
N 5
C
4700.0 F 1
1432.6 n
0.72
0.14
0.71
0.55
H15TOtRAf'l:
Rsnge: 0- 4%
Incremenr: 0.10%
P
PURETEX CHAPPEL RANCH ISUNI
25
_I
RRUS No.
ID
I
.
DEPTH
:
:
T
=
30'2
CTGS.
48m0.0 F i
1463.8 n
Ro tlA7URITY
s VALUES
IlEAN
S7D DEV
MEDIAN
nODE
I
:
:
43
0.76
0.13
4
0.76
:
0.85
HISTDGRAfl:
VITRIhIT E REFLECTANCE IRANDOR X 1
NON R R ( U S ) DATA
A-156
Range 0- 4%
Incremenr: 0.10%
P
25
-
PURETEX CHAPPEL RANCH lSUNl
RRUS
ID
:
No. : 3313
CTGS.
DEPTH
:
n
VALUES
4800.0 Fr
1403.5 n
44
:
MEAN
STD DEV
NEDIAN
nODE
I
:
I
I
0.79
0.13
0.80
0.85
HISTOGRAM:
VI'RINITE
REFLECTANTE (RAND3fl XI
Range: 0- 4 %
.0
lncremenr: 0.10%
PURETEX CHAPPEL RANCH lSuNl
25
RRUS No. : 3914
ID t CTGS.
h'
U
DEPTH
:
:
*
4530.0 Fr
1502.7
= Ro nATURlTY
VALUES
nEAN
STD DEV
PlEDIAN
nODE
1.
I
,
49
0.88
0.12
I
0.81
I
0.75
HISTOGRAn:
Range: 0- 4%
VITR!NITE REFLECTANCE (RANDOn 1 1
NON RR(US) DATA
A-157
fl
Increment: 0 . 1 0 %
CHAPPn RANCH
L
v1
Z
a
I-
3
a
c
m
35!
5:
rtm
O F
;$5
c c r n
n
m
I n
gg
0
%E
@.
* P
Y
*
0
VISUAL KEROGEN DATA SU"&RY
s s
arno
- 3
o n3:
% m** m%n
m
2
**
?!rl
Type of
Organic
Matter
0
A C
h."
I-
Structured
Nonstructured
89
11
4200
T
p
s
Structured
Nonstructured
62
47
53
64
4300
T
p
s
Structured
Nonstructured
4400
T
P
s
Structured
Nonstructured
T
4700
T
4800
4900
4930
T
P
P
S
S
T
T
P
*MMarineB-Brackish
S
r
2.0
I
a
m
s
4600
c2.0
w
rl
s
e
m
2.3
a
Modal
l Maturation Increases2.5
3.0
3.2
3.5
TAI
3.47.0
5.0
r-1
P
P
B
n
T
T
THERMAL ALTERATION INDEX (TAI)
5
4100
4500
B u r b r i dPgaet
Structured
Nonstructured
Structured
Nonstructured
Structured
Nonstructured
Structured
Nonstructured
Structured
Nonstructured
Structured
Nonstructured
TITerrestrial
-
38
36
61
39
62
. 38
69
31
62
38
53
47
81
l7
,
O i l and Gas Generation
- -- - - - - --
-- - - - - - - --
-
---
--
-4
1915
-
- - 7
- - 8
- - 6
- - 10
4
- 16
- .. 7
- - 13
- - 4
-- -- 1 148
4
- 9
- - 4
- - 6
4
- 4
4
--
-
10
5
??
1 0
I Dry
Gas Only
-
I
11
40 3.95.0
4
4
3
3.5-4.0
4
17 4.0-5.0
5
29
3.7
- 1 9 1 1
13
8
9
11 3.5t5.0
2
22
19
3.7-4.0
4
13
4 23 3.2+5.0
13 11
5
3.5-3.7
11
4
6
27
3.2+5.0
4
5 13 13 4.0-5.0
13
11 24 3.2-3.95.0
5
5
8
2
3.2
9
6 23
4.0-5.0 18
1 1
3
7
6
3.5
24
7
3 22
3.95.0
10 10
5
5 3.5-3.7
9
2
5 27
3.2-3.5+5.0
9
17
10
2 3.5-3.7
-
-
t-
a
i#
-
17
**A=Abundant +Present+ModerateS-Sufficient
7
-3
- ??- .
19
3.2+5.3
3.2
T-TraceB-Barren
~
c
oa,
<2. 2.0 2 3 2 6 3.0 3.2 SA S.7 4.0 A0
4-
<2. 2.0
A-I59
2.S 2.4 3.0 3 2 3.6 3.7
4.0 6.0
.
FI
CHAPPELRANCH
No.1
BSlrvctumd Kerogen &to
0 Non-ftrvcfumd
Kerogen Doto
47m
.
TU
4em
c
c
P
NON RR(U.S.) DATA
c
A-I60
N0.1 W P L i . W'O
PB2-PCR
95C2
THERMAL GC
RG1558
NON RR(U.S.) DATA
A-I61
I'
NON RR(U.S.) DATA
A-162
NON RR(U.S.) DATA
A-163
7
NON RR(U.S.) DATA
A-I64
NO.1 CHAPPEL X S C E
P B a
~ m ' TE
TOTAL E X T R A C T
R A I B26
NON RRWS.) DATA
A-165
#
NO. 1 CHAPPEL RANCH
I)
.......
...
SLIPLE
RAir EILF,
pa24600'
R41626
TE
Ir
AREA '&
K-PAMFFIN
HYDf;3CARaONS
19.43
2.63
41.64~
36.29
ISOi?GENOID HYDROCAR3ONS
OT3CH RESOLVED C 5
C35 HYDROCARZClNS
UI9RESCLVED CS
-
-
C 3 5 HYDEOCAREONS
m yE
4REA 3
KAW.
AR?A '3
NC14
IP16
iJC15
NC16
IP18
iJC17
IP19
LC18
IP20
-NC19
I,?c 2 0
NC21
NC2 2
.10
NC 2 3
NC24
NC 25
NC26
NC 27
NC28
KC 29
NC30
NC31
K32
IJC33
1iC 3 4
5.85
5.00
14.18
3.57
3.42
2.51
2.15
1.41
1.17
.51
.90
.47
.30
1.30
3.42
2.44
5.55
4.38
6.90
4.13
7.26
7.62
7.17
6.47
NON RR(US) DATA
A-166
'
I'
STANOLIND. %1 FULLER
A-I67
0
0
0
c
c
A-168
TABLE A.37
TOTAL ORGANIC CARBON DATA
F U L L E R (I1 ( 6 U N )
P r o j e c t No. : RRUS1845In1807l4
SAMPLE IDENT!€!CATION
RRUS
DEPTH
(Feet)
3101
3102
3103
5 9 5301 0 4
3105
5800
3114
31 1 5
3106
6 2 0301 1 6
6 2 5301 0 7
6050
6100
6000
:
DATA
: TOCSC
:
:
:
:
:
I
I
I
I
1
SAMPLE SDENTIFICATIO~~ : DATA
RRUS
0.13 I 6
33
100
8
0.09 I 3117
0 . 1 3 ' 3118
0.12 i 3109
0 . 1 2 I 3110
0.10
: 0.13
: 0.14
: 0.10
: 0.12
,
i
3119
I 3111
I 3112
I 3113
1 3120
I
I
NON RR(US1 DATA
A-169
DEPTH
(Faat)
:
TOCY
: 0.15
6350
6400
6450
6500
: 0.12
: 0.19
: 0.18
6550
6600
6650
6700
6750
: 0.13
: 0.18
: 0.21
:
0.13
: 0.21
: 0 17
TABLE A.38
R O C K - E V A L P Y R O L Y S I S RAW DATA
FULLER t l (SUN)
Project No.
SAMPLE IDENTIFICATION
I
c)
I DATA ( 5 1 , 5 2 , 8 3 m g l g m o f r o o k , m a x d e g
I
I
I
D(
EF
Pe
Te
Ht)
RRUS
: RRUS1845IM180714
51
5 2 / 5 3 91/(51+52) T m a a
53
52
I)
1
3101
3103
3105
3115
3116
5800
5900
6000
6100
3108
3118
3109
6550
3119
6400
6450
3112
6650
I
0 . 0 .7007 0
0.420
0.167
0.070
0.07
.7
001
. 009 9
0.240
0.480
0 .06.087,003 63 3
0 . 01 .5109 0
0.580
0.0
3 .2484 1
I 0.040
0.02
.7
00 1
. 00 2
. 68 6 7
I
I 0 . 0 .9010.3905 0
0.137
I 010 .. 5162 66 900
I 0.760
0.450
02 .. 18 54 80
I
0 . 02 .5103 0
0 . 8 1 0 0 . 03 .4320 9
0.1
0 .9I0
16.50
10.1009 0
I
*
0.500
0.500
0.450
__ __ __
--___
--_- ____
0.391.
---
i
0.409
0.283
0.628
I
:
3120
I
NON RR(US)
350
358
DATA
0.286
0.0
1 .80
20.8908 0
*
366
Ir
TABLE A.39
H Y D R O G E N A N D O X Y G E N I N D I C E S FROM
R O C K - E V A L P Y R O L Y S I S AND T O C D A T A
FULLER # l (SUN)
P r o f e e t N o . : RRUS/8451M1807l4
S A M P LIED E N T I F I C A T I O N
RRUS
I
I
H Y D R O G EINN D E X
I
DEPTH
(Feet) I
I
OXYGEN
(mg H C l g mT O C )( m gC O Z l g mT O C )
INDEX
T UC
I.
(%I
!
3101
3103
3105
3115
31
16
3108
3118
3109
3119
3112
I
5800
S900
I
I
6200
I
I
I
6450
6650
54
54
400
146
20
0.13
87
347
250
192
52
0.15
!
3120
"_
0.17
576
I
I
165
R E P R E S E N T S AN I N D E T E R M I N A B L E V A L U E
N O N RR(US) DATA
A-170
0.10
0.13
323
546
567
446
710
0.13
0.12
0.13
633
611
1578
623
548
0.19
0.18
0.21
r
r
TABLE A.40
~
~
VISUAL KEROGEN ANALYSIS
FULLER W l
-
P r o j e cN
t o.
SAMPLE IDENTIFICATION
RRUC
DEPTH
(Feet
:
n
RO
(SUN)
KEROGEN C H A R A C T ~ R I S T I C S
Am%
Ex% V i t ’ L I n a r tFs l u o r
TOC
%
0
0
0
0
0
0
0
0
0
0
None
None
None
None
None
0 . 1 3 U0.09
0 1 3 I?
0.12 b
0 . 12ke”
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1 .05
1.05
1.05
1.07
0
0
0
None
None
None
None
0. 1 4 r > , y
0.12&.”0 . 155+-0.18
1.05
1.05
1.04
0
0
0
0
0
0
0
0
0
0
0
0
None
None
0.21
0.99
0.99
I .05
1.07
3106
3107
3108
3109
3110
6150
6250
6300
6450
6500
3111
3112
3113
6650
6700
1.04
1
. :-
R E F L E C T E D LIGHT
0
0
0
0
0
5800
5850
5900
5950
6000
I
~~~
0
0
0
0
0
3101
3102
3103
3104
3105
6600
~~~
: RRUS1845lM180714
I REFLECT.
>
-
~~
.os
NON RR(US1 DATA
A-171
0
0.215?=.”-
VlTRlNlTE REFLECTANCE DATA SUMMARY
2-
-
87
NO.l FULLER
- Tucumcari Baasin
-
J.
L. Martinez
Organicmaterialsmall,scattered pieces.
5800
0
D
Largesandgrainspresent.
2
S l i g h t s h i f t i n 5 p r o f i l e may
of
less m a t u r e o r g a n i c m a t e r i a l .
Amount of o r g a n i c m a t e r i a l h a s
decreasedslightly.
5850
53
5900
38
Amount of o r g a n i c m a t e r i a l is
moderate. Mean Ro andstandard
d e v i a t i o n do n o t d i f f e r s i g n i f i c a n t l y from previoussamples.
5950
55
Ro r a n g e narrow.
be a t t r i b u t e d to a n i n f l u x
?
F
U
N
test may be c a v e or second
CycleO
. r g a n i cd e b r i s
present.
6000
6050
82
5 P r o f i l e is similar to that
e s t a b l i s h e d a t SROO. w i t h a v e w
s l i g h t i n f l u x of less mature
organic material.
No smwle residue l e f t a f t e r
acid mgacrration.
1
VlTRlNlTE REFLECTANCE OATA SUMMARY
~ 0 . 1FULLER
20
a
- Tucumcari Basin
POIUTS
RE AD
SAMPLE
J.
L. Martinez
COMMENTS
m
CI
C
in
"
6150
67
6200
"
6250
53
Shift in 5 profile may be attributed to an inElux of less
mature organic material.
6300
93
Ro profile reverts to that established at 6150 with mixed
populations.
"
No sample residue left after
acid maceration.
0
D
-1
B
No sample residue left after
acid maceration.
6100
Y
6350
,
5499
-
6450
100
Ro profile indicates an influx
of less mature orqanic material,
with some mixed populations.
Organic material excluded by
No sample residue left after
acid maceration.
No sample residue left after
acid maceration.
Ro Profile similar to that cf
s.lmf-lr 6300. Minrr.11 matter is
VlTRlNlTE REFLECTANCE DATA SUMMARY
NO.l
2'
0
W
SAMPL€
- - Tucumcnri Basin
FULLER
?lltNTS
VAll
v,
6500
82
0
6550
"
F;P
96
COMMENTS
No significant change.
No sample residue left after
acid maceration.
Ro profile similar to that
6600
6650
96
L. Martinez
-
m
CI
I;
J.
of sample 6500.
100
No significant change.
6700
No significant change.
6750
No sample residue left after
acid maceration.
FULLER
ISUNI
st
RRUS
ID
:
.
No.
3101
CTCS.
nEAN
STD DEv
nEDlAN
MODE
:
I .04
0.11
:
I .05
1.15
HISTDCRAM:
Range: 0- 4%
Incremenr, 0 . 1 0 %
FULLER
(SUN1
st
No.
3102
CTCS.
RRUS
ID
DEPTh
:
:
VALUES
s
5850.0
1783.1
:
.
:
n
31
I
nEAN
STD DEV
VEDIAN
MODE
Ft
0.99
0.11
I .OO
I .05
l4ISTOCRAn:
VITRiNITE REFLECTANCE [RANDOM
FULLER * I
Range: 0- 4 %
Incremenr: 0.10%
XI
(SUN1
RRUS
ID
I
No.
:
DEPTH
:
I
1:
STD DEV
MEDIAN
nODE
VITRINITE REFLECTAKCE IRANDOM % I
NON RR(US1 DATA
A-I75
59130.0 Fr
1708.3 n
= Ro nATURITY
nEAh
0
3103
CTGS.
3
:
0 99
0.12
0.96
1.15
141 STOCRAtl
Range; 0- 4%
Incremenr: 8 . 1 0 %
FULLER r l 1SUN1
25
RRUS No.
N
ID
VALUES
FULLER
36
1
PIEAN
STD DEV
MEDIAN
nODE
VITRihlTE REFLECTANCE (RANDOn X 1
3104
I
tTtS.
I
1.05
x
8.12
I
1.06
1.15
:
HISTOGRAII:
Range: 0- 4%
IncremenlI 0.10%
0
r l ISUNI
RWS No.
ID
= Ro
f
:
tlATURlTY
VALUES
STD DEV
MEDIAN
I
:
nODE
FULLER .I
I'
43
r
nEAN
0
3'05
CTGS.
I
1.10
0.10
I .08
I .05
HISTOGRAM:
Range: 0- 4 %
Increment: 0.18%
ISUNI
RRUS No. . 3136
ID
:
CTGS
DEPTH
:
:
f
= Ro
tlATURITY
VALUES
niAN
SlD DEV
MEDIAN
nODE
6150.0 F I
1874.5 n
:
:
:
:
32
I .05
0.12
1.05
0.95
H!STOGRAM:
Range: 0- 4%
Increment: 0.10%
NON RR(US) D A T A
A-I76
P
FULLER . I
ISUNI
RRUS No.
3107
ID I CTGS.
DEPTH
r
I
6250.0 Ft
lW5.0 n
* = Ro nATUR1TY
VALUES
25
:
REAN
STD DEV
REDIAN
nODE
1 .05
0.12
1 .O1
1.15
:
HISTOGRAn:
Rsnge: 0- 4%
Incremenr: 8.10%
FULLER r l ISUNI
RRUS NO.
3108
ID C T G S .
;
L = Ro RATURITY
VALUES
46
:
nEAh
SYD DEV
:
:
REDIAN
nox
1.05
0.11
I .06
I .05
HISTOGRAn:
VITRINITE REFLECTANCE
lRAI\DO?l X 1
FULLER . I
Rsnge: 0- 4%
Increment. 0.10%
ISUNI
RRUS No. . 3109
ID I CTCS.
t = Ro RATURITY
VALUES
MEAN
STD DEV
PEDIAN
nODE
VITRINITE REFLECTANCE IRAhDOg %I
NON RR(US) DATA
A-177
:
>
>
37
1 .05
0.09
1.04
I .05
HIST3GRAR:
Rsnge: 0- 4%
Increment. 8.18%
FULLER . I
fSUNl
25
N
U
I
VALUES
35
:
IlEAFl
SlD DEV
nEDIAN
nODE
I .a7
0
0.09
1.08
>
:
1.15
HISlOCRAn:
Range: 0- 4%
Increment. 0.18%
VITRINITE REFLECTANCE fRANDOn % I
FULLER . I
0
ISUNI
RRUS No.
3111
ID z ClGS.
DEPTH
I
8
f
E
6600.0 F I
2011.7 n
Ro IiAlURI’IY
VALUES
nEAh
SlD DEV
I
IlEDlAN
:
MODE
P
47
I
1.05
0.11
I .04
1.05
I.
HISTOGRAn:
Range, 0- 4 %
Increment, 0.10%
a
VI’IRINiTE REFLECTANCE 1RANDOn
FULLER # I
XI
ISUNI
RRUS No.
3112
ID I C T G S .
I
DEPlH
:
,
I
6650.0 F I
2076.0 n
f
= Ro nA7URITY
L
VALUES
1
nEAN
SlD DEV
UEDIAN
nODE
I
:
42
1.05
0.I0
I .04
1 .05
HISlOCSAll:
.0
VIlRIN!TE REFLECTANCE lRAND3n
N O N RR(US) DATA
A-178
XI
Range: 0- 4%
Incremenl: 8.10%
FULLER .I
ISUNI
RRUS N o . : 3’I3
ID I C T G S .
DEPTH
I
6700.0 F I
2042.2 M
t = RoMAlURlTY
P l5
s VALUES.:
MEAN
STD EEV
MEDIAN
MODE
.
35
I .04
0 10
1 .03
0.95
HISTOSRAE:
1.0 3.0
2.0
V1TRIN:TEREFLECTANCE
NON RR(US) DATA
A-179
4 0
IRANDOM X 1
Range : 0- 4%
Incremenl: 0.10%
I 1
I
I
I
1
I
I
I
t
I
I
I 1
I
1
I
1
I-
0
f.
U
I"
VI
N
u
u
0
I"
U
N
U
N
0
N
0
A
N
S
s
l
I'
2a
7
'C2. 2.0 2.3 2.6 3.0 3.2 3.5 3.7 4.0 6.0'
.C2. 2.0 2.3 2.5 3.0 3.2 3.6 3.7 4.0 6.0'
TU
24
10
.
.
.
.
(2. 2.0 2.3 2 3 3.0 3 9 3.6 3.7 4.0 S.0
.o#)
'C2. 2.0 2.5 2.6 3.0 3.2 3.6 3.7 4.0 8.0'
NON RR(U.S.) DATA
03
oo
um
(2.
e254
2.0 2.3 2.6 3.0 5.23.5
3.7 4.0 5.0
UQO
401
an
27
14
a
7
'<2. 2.0 2.3 2.55.05.2
3.5 3.7 4.0 5.0'
.<2. 2.0 2.3 2.5 3.0 3.2 3.8 3.7 4.0 8.0'
UDO
"1
t 2 . 2.0 2.3 a.8 3.0 3.2 3.5 3.7 4.0 8.0
NON RR(U.S.) DATA
A-183
21
v4
7
.7w
c2. 2.0 2.3 2.5 S.0 3.2 3.8 3.7 4.0 b.0'
NON RR(U.S.) DATA
A-I84
li
ai l 8e
a. 2.0
2.3 2.8 3.0 3.2 3.5 3.7 4.0 8.0'
TU
NON RR(U.S.1 DATA
A-185
e
NO. 1 FULLER
SAMPLE
......
.... RP 3A3l6G42570 ’
0
TE
RAW F I L E
AREA %
N-PAFAFFIN I I Y C ~ C P . R i 3 ~ d S
ISOPKENJGID
HYDROCAlnBOiiS
GTAER KESOLVED C5
C 3 5 HYDXOCARBONS
UNRESOLVL3 CS
C35 BYDkSCAREOiG
-
NAME
15.50
1.32
38.41
-
AREA %
IPlG
NC15
-14
.30
44-17
NAME
AREA %
dC23
NC 2:
NC 25
5.29
3.43
22.09
2.17
l.C.5
3.45
1.86
1.51
2-35
1.12
1-01
.65
NC16
IP18
NC17
IP19
1.33
5.31
N”
2.65
NC26
1P20
NC19
2-76
7-29
NC20
NCZ1
5.77
1iC 3 2
6.96
5.34
KC33
x 3 4
Ncla
NC22
NON RR(US) DATA
1.40
-/ . G 2
UC 27
-r
45
NC29
NC3C
NC31
1’
k*
NCl6
NClD
................................
NCa4
NO. 1 FULLER
P83 B 4 5 E ’ TE
TOTAL E X T R A C T
RAl@’;?7
NON RR(U.S.)DATA
A-187
0
"
NON RR(U.S.)DATA
A-188
ND.1 FULLEQ
P83-SF 6102
THERMAL Ct
R H 1 552
NON RR(U.S.)DAfA
A-189
YD.1 FULLER
P83-SF
6401:
TUERHAL G C
RU1553
NON RR(U.S.)DATA
A-I90
HD.1 FULLER
P83-SF 6 4 5 E
THERMAL t f
RG1553
NON RR(U.S.)DATA
A-191
P
YO.) FULLER
PB3-SF C 5 5 C
THERMAL GC
RH1554
NON RR(U.S.)DATA
A-192
wD.1 FULLER
PEP-SF C 7 5 C
THERMAL GC
Rt1554
NON RR(U.S.)DATA
A-193
a
A-I94
GREEN ESTATE,#l FRANKLIN. ASTON, AND FAIR
n
n
b
0
A-196
TABLE A.43
LITBOLOQICDESCRIPTION
FRANKLINASTON & FAIR
#1 ClREEN ESTATE
400520-
500'
650'
670-2.600'
2,620-2.750'
2.700-2.930'
2.960-3,030'
3.050-3.300'
3,320-3.360'
3,380-3.390'
3,410-3.840'
3.860-3.960'
3.980-4,050'
4,070-4.170'
4.190-4.260'
4,280-4.320'
4,340-4,530'
4.550-4.660'
4,680-4.720'
4,740-4.810'
4,830-5,410'
5,440-6.200'
6,220-8,160'
Mudstone, reddish brown
Mudstone, reddish brown
Mudstone, greenish-gray(abundantin
places)
Mudstone, reddish brown (some green)
Lst. clasts (abundant in places)
Anhydrite
Mudstone, It. green (some reddishbrown)
Some dolomite
Siltstone,It.
(Sandsized) mudstone, reddishbrown-gray
Mudstone, reddish brown
?(Sandsized)mudstone,reddishbrown-gray
Mudstone, reddish brown (greenish gray)
Anhydrite
?(Sandsizedparticles)
mudstone, reddishbrown-gray
Halite, lt. pink
?(Sandsizedparticles)
mudstone, reddishbrown-gray
Mudstone, green-gray
Mudstone, reddish brown
Halite, It. pink
Mudstone, reddish brown
Mudstone, green
Halite. It.pink
Mudstone. reddish brown
Mudstone. green
Anhydrite
Halite, It. pink
Mudstone, reddish brown
Mudstone, green
Anhydrite
Mudstone. reddish brown
Mudstone (some green, some purple)
Anhydrite
Mudstone, dark brown
Lst.. dark
Black shale, abundant in places
Some anhydrite
Traces of feldspar (granite wash)
A-197
TABLE A.44
TOTAL ORGANIC CARBON DATA
GREEN ESTATE a i , FRANKLIN,ASTON 6 PAIR
n
Projeot No. : R R U S / 0 4 5 I M I 8 0 7 / 4
I
SAMPLEIDENTIFICATION
RRUS
DEPTH
(Feet)
1501
405
525
1502
1005
1503
1395
1504
1725
1505
:
:
:
:
:
1506
1507
1508
1509
1510 .
2145
2700
2965
3250
3430
:
:
1511
1512
1513
1514
3655
4000
4090
4615
:
:
:
:
:
:
:
: DATA
:
DEPTH
(Feet)
I
I 0.11
: 0.14
: 0.06
: 0.05
: 0.03
2 1 4 0 -2 1 5 0
2680- 2 7 2 0
2960- 2 9 7 0
3230- 3270
3410- 3450
I:
3690
4020
4110
4620
SAMPLEIDENTIFICATIOV
I
TOG% I RRUS
400410
5 2 0 -5 3 0
1000-1010
1390- 1400
1720- 1730
3620398040704610-
I
0.02
0.26
: 0.08
: 0.27
: 0.17
i
1515390
6015
1516
I 1 5 1 76 5 3 0
6980
I 1518
I 1519
7090
I
I 1 5 2 07 3 0 0
I 1521
7405
7615
I 1522
7705
: 1523
1 1524
7795
I
'
:
0 . 1 3 I 1526
0.15 I 1527
0.06 I 1520
I
7975
8065
8145
i:
53705
-410
6010- 6 0 2 0
6 5 1 0 -6 5 5 0
6960- 7000
7070- 7110
:-0-.06
: 0.03
: 0.10
:
:
:
7 2 9 07-3 200. 0 4
7370- 7 4 4 0
7500- 7 6 5 0
7670- 7740
7760- 7830
: 0.04
: 0.42
: 0.25
:
:
:
:
7 8 5 0 -7 9 2 0
7940- PO10
8 0 3 0 -8 1 0 0
8120- 8170
:
:
:
:
:
:
f
a . 14 i 15257885
DATA
: TOCK
:
n
0.08
0.06
n
:-'0.05
I:
0.45
0.33
: 0.57
: 0.38
I'
I'
I'
A-198
TABLE A.45
ROCK-EVAL PYROLYSIS RAWDATA
GREEN ESTATE e l , FRANKLIN,ASTON S FAIR
Project No. : R R V S / 8 4 5 / M / 8 0 7 / 4
SAMPLE IDENTIFICATION
I DATA ( S 1 , 9 2 , 8 3 m Q l g m o f r o o k , T m a n d e g C)
I
RRUS
DEPTH
(Feet) I
51
82
53
5 2 / 8 3 S l / ( S l + S Z ) Tmax
I
2700
3250
7705
7885
8065
1507
1509
1523
1525
1527
A
:
:
:
1 5 2881 4 5
NOTE:
:
:
:
2680323076707'8508030-
2720 i 0.130
3270 I 0.240
7 7 4 0 I 0.010
7920 I 0.010
8 1 0 0 I 0.020
81208170
I
I 0.030
0.880
1.640
0.170
0.240
1.160
1.050
0.250
0.290
0.290
0.160
0.510
0.160
'
0.123
0.128
0.056
0.059
0.077
0.759
1.562
0.680
0.552
0.828
---
425
443
468
453
0 . 3 104. 1 5485 8
DASH INDICATES AN INDETERMINABLE VALVE
TABLE. A.46
HYDROGEN AND OXYGEN INDICES FROM
ROCK-EVAL PYROLYSIS AND TOC DATA
GREEN ESTATE # l , FRANKLIN,ASTON S FAIR
Project No. : R R U S 1 8 4 5 / M 1 8 0 7 / 4
~~
SAMPLE IDENTIFICATION
RRVS
DEPTH
(Feet)
1507
1509
1523
1525
1527
8 114552 8
2700
3250
7705
7885
8065
:
:
:
:
26803230767078508030-
:
88117200 -
:
2720
3270
7740
7920
8100
I
i
I
I
I
I
HYDROGEN INDEX
(mg HClpm TOC)
338
607
40
36
42
I
42
A-199
~~
OXYGEN INDEX
tmg C02Igm TOC)
446
0.45
(%h)
0.26
0.27
0.42
389
60
64
51
134
TOC
0.57
'
0 .38
,
fl
TABLE A.47
VISUAL KEROGEN ANALYSIS - REFLECTED LIGHT
GREEN ESTATE a i , FRANKLIN,ASTON 6 FAIR
P r o j e c t Nn
S A M P LIED E N T I F I C A T I O N
RRUS
D E( PF Te He t )
: RRU51845lMI807l4
n
I
I R E F L E C TK.E R O G ECNH A R A C T E R I S T I CTSO C
I
I
Ro %
Am%
Ea% V i t w Inert% Fluor
I
%
I
1 5 02
77 0 0
1509
3250
1 5 2 75 8 8 5
1 5 2870 6 5
1 5 28 1 4 5
:
:
:
:
:
2 6 8 0 2- 7 2 0
3 2 3 0 3- 2 7 0
78507
-920
8030- 8100
8 1 2 08
-1 7 0
I
I
I
I
I
I
0.69
---1.05
1.09
1.12
20
95
10
20
35
0
0
0
0
tr
10
70
Ned
Ned
0.26
0.27
50
50
40
40
None
None
None
0.57
5
tr
30
25
n
0.45
0.38
n
A-200
GREEN ESTATE * I , FRANKLIN, A. 6 F .
25
No.
IC17
ID I CTGS.
DEPTH
t 2700.0
Ft
RRUS
128
6?3.0 n
8
8
P l5
t
Ro. MATURITY
VALUES
i5
E I0
15
I
MEAN
STD DEV,
MEDIAN
MODE
0.68
0.07
0.68
E.65
t
I
I
>
HISTOGRAM:
0
0.0
2.0
3.0
VITRINITE REFLECTANCE (RANDOn
Range: 0- 4 %
Increment: 0.10%
4.0
%I
ORDERED REFLECTANCE VAL2ES.
t0.58
t0.74
I0 58 t0.75
t0.60 t0.77
t0.64 t 0 77
80.64 80.84
80.67
t0.68
t0.68
t ~68
.
t 0 . 7E
KEROGEN DESCRIPTION
Ex ini te
:
:
20 X
0 %
Vitrinire
Inertinire
I
70 X
Amorphous
,
Bach Fluor
Birumen
to he
t
,
I
10 X
lied
rr
tr
GREEN ESTATE * I . FRANKLIN, A . b F
?5 7
RRUS No.
ID
I
DEPTH
MEAN
1.0
0 1 ........................................
0.0
2.0
30
4.0
VITRINITE REFLECTANCE (RANDOU %I
ORDERED REFLECTANCE VALUES:
1538
CTGS.
:
:
3233.0 f I
07B.6 t l
8
N.D.
HISTOGRAM:
RDnge. 0- 4 2
Increment, 0.10%
KEROGEN DESCRIaTION
hOrphOu6
Exinire
Virrlnlre
Inerr inire
Bscr Fluor
B i turnen
Cohe
A-201
I
95 X
0 X
5 %
I
tr X
:
I
I
ned
, Pione
, None
e
GREEN ESTATE . I .
FRANKLIN, A . 8 F .
RRUS No. : 1525
ID I CTGS.
lu
.DEPTH
I
>
B
Ro
7885.0 Fr
2403.3 R
MATURITY
?
I
8
VALUES
IO
I
l0-l
flEAN
STD DEV'
MEDIAh'
I .05
0.08
I .06
I .I5
I
I
:
MODE
HISTOCRARI
Range- 0- 4%
Incrcmenr: 0.10%
VITRINITE REFLECTANCE IRANDOR X 1
ORDERED REFLECTANCE VALUES:'
0.64
0.70
0.75
0.82
?0.D2
20.82
t0.85
t0.07
I(ER0GEK DESCRIPTION
Amorphous
10 %
Exinite
I
0 %
Vitrinlre : 50 %
lnerrinite I 40 x
00 rl.12
ti.03 3 1 . 1 5
tl.03 t1.17
V1.06
?i
?I
.07
Back Fluor
8 i 1 umen
to he
*I.I0
tI.II
ti
0
.I2
I
I
I
None
No-e
NO-,?
e
0
GREEN ESTATE
81,
FRANKLIN,
A,
& F.
RRUS No. , 1527
ID : CTGS.
DEPTH
:
I
8065.0 F1
2458.2 R
t = Ro MATURITY
n VALUES
MEAN
STD DEV
REDlAFj
MODE
.
VITRlNITE REFLECTANCE (RANDOR % I
ORDERED REFLECTANCE VALUES.
V0.83
10.84
r0.96
? I .OO
SI .O1
* I .03
tl.03
tl .I0
:I. I I
:I. 1 I
* I . I8
*I .I8
*I .I8
tl.20
*I. I0
tl . 10
A-202
1.09
0.1e
1.10
1 .I5
I
:
t
:
HISTOGRAR:
Ronge; 0- 4 %
Increment, 0.10%
KEROGEN DESCRIPTION
20 %
Amorphous 8
Exinire
0 :
V;lrinire I
50 %
Inerrinire I 30 X
Bsch Fluor
B4rumen
toke
? I .88 ? I .28
18
I
:
:
None
Smal:
lr
I'
I'
GREEN ESTATE . I . FRANKLIN, A , 6 F
RRUS
ID
I
No.
I
DEPTH
I
f
t
= Ro
MEAN
STD DEV
MEDIAN
nODE
ORDERED REFLECTAkCE VALUES:
f0.92 fl.OO fl.ll t1.23 11.30
tl.OO xI.11 tl.23 f1.34
f0.05
..
~.
f0.95 tl.EZ t1.13 tl.23
t0.06 f1.02 t1.13 L1.24
m . n s t 1 . e 4 t 1 . 1 571.24
f0.07 fl.06 tI.18 f1.26
f0.07 fl.07 tl.18 11.27
f0.97 :1.07 x l . 1 8 f1.27
f0.99 fl.09 f1.20 f1.28
q1.00 tl.10 11.21 f1.30
~~
A-203
8145.0 F1
2482.6 n
tlATURITY
VALUES
VITRINITE REFLECTANCE IRANDOn X 1
1528
CTGS.
42
I
t
1.12
0.12
I
1.11
s
1.25
1
HISTOCRAn:
Range, 0- 4%
Incremenr: C.l0X
KEROGEN DESCRIPTION
Amorpnous
t
,
Exinire
Vitrinile
Inertinite
a
:
B a t h Fluor
t
B i lumen
Cole
t
,
35 X
lr X
48 X
25 X
None
lr
IlO!-,r
TABLE A.48
COMPOSITION OF SOURCE ROCK EXTRACT
GREEN ESTATE 0 1 , FRANKLIN,ASTON 6 FAIR
Project No.
: RRUS1845lMI80714
~~
S A M PILDEE N T I F I C A T I O N
RRUS
: EXTRACT
I
D( EF Pe Te Ht )
AROM
SAT
ppm
I
POLAR5
ptro*?tage
~
: 3 23 72 03 0 -
3 2 15 50 0 9
:
si . 9
1449
I
18.6
29.5
~~
0
TABLE A.49
SUMMARY TABLE SHOWINC SELECTED PARAMETERS
OF O I L S A M P L E S
a
GREEN ESTATE # t , FRANKLIN.ASTON 6 FAIR
Project No.
SAMPLE IDENTIFICATION
(RRUS
Feet)
13520590
DEPTH
IPh
:
3 23 32 07 -0
;
RRUS1845lMl807l4
i; EXTRACT
- - ----:
I
I
SATS
TOC
‘rc
RATIOS
Phl
Pr
IC:17
IC: 1 8
Prl
CPI
I
0
~
0 . 5 0310.7.04.95.384 5
-”-
0
P
c
c
c
A-204
H E A V Y H Y D R O C A R B O N S N O R M A L I Z E D T O1 0 0 %
GREEN ESTATE Y 1 , FRANKLINoASTON 6 FAIR
Project N O .
~~
S A N P L EI D E N T I F I C A T I O N
RRUS
:
RRUS
I
1
NORMALIZED
n-ALKANES
I
CC- C
2-IC
21- C
10- C
19- C
18- 17- 16 5
D E P(TFHe e t )
1 53 02 95 0
~ ~ u s t a 4 5 1 ~ 1 a 0 7 ~ 4
I
3 233207- 0
I
0 .12.906. 01 0
8.50
5.40
8.50
9.50
I
D E P(TFHe e t )
CC-C
I2-C2-8C2-7C2-6C2-52-4232
~~
~
~~
I
1 5.0392 5 0
:
3 2 33 02 -7 0
I
1 1 . 98 .07 0
7.60
6.60
2.8
30
.30
.60
I
RRUS
1509
RRUS
1509
I
DEPTH
3250
(Feet) I
:
3 233207- 0
D E P(TFHe e t )
3250
:
3 2 3 02 -7 0
c-35
CC
- 2C
- 93C
- 03C
- 13C
- 23- 33 4
~
I
I
2 . 29 .0
24 .04 0
I
I
CC
-I4C
- 03C
- 93C
- 83- 73 6
I
I
I
0.00
0.00
A-205
0.00
0.00
0.00
~~~
1 .22. 00 0
0.00
~
0.80
PR
PH
3.90
4.60
P
P
NO. 1 GREEN
SAMPLE: RRUS NO. 1509
3250 feet
GAS CHROMATOGRAMS OF C15+ SANRATE HYDROCARBONS
A-207
a
P
c
P
A-208
HUSKY, I1 HANCHETT STATE
A-209
a
a
A-210
TABLE A.51
LITHOLOGICDESCRIPTION
HUSKY OIL
# 1 HANCHETTSTATE
(Sample every 10 feet)
0- 200'
200- 440'
440- 500'
500- 560'
560-680'
680- 780'
780- 970'
990-1.090'
1,090-1,360'
1,360-1.400'
1.400-1,450'
1,450-1,600'
1.600-1,790'
1.790-2.180'
2.180-2.280'
2,470-3.270'
3.270-3,500'
3.500-3.970'
3,970-4.100'
4,100-5.050'
Very red, calcareoussandstone
Red sandstone. contains clasts of calcareousmudstone
in part.
Red sandstone, contains large clasts
of calcareous
mudstone
Red sandstone, clasts of limestone decrease in volume
a s well as size
Sandstone, fairly clean, cuttings are large indicating
possibly well consolidated lithology
Sandstone (may be shale), shale (dark), calcarw~s
clasts. Limestone andsandstone white tobuff.
Approximate equal percentage of all lithologies
Same as above but sandstone percentage increasirg
Veryred.calcareoussandstone
Red sandstone, calcareous percentage increased and
clasts become larger towards base of unit
Shale,sandstone.andcalcareousclasts,(possibly
gypsum)
Shale dark gray (possibly mudstone)
Sandstone.shaleandcalcareousclasts.Percentage
of
red material greatly depreciates, shale increases
Shale limestone and sandstone, some red clasts possibly
some gypsum.
Sandstone. limestone, shale (mudstone)possiblygypsum,
very red (1.960-1.990) percentages of lithologies
variable, however on a whole approximatelyequal.
Sandstone, limestone,shale (mudstone), becomingmore
redtowardsbase.Sandstone
or gypsum at 2,320-2.340'
Red to very red sandstone with limestone clasts.
Mudstone (shale) percentage is very low, except large
increase in shale 2.860-2.900'
Sandy limestone slight shale increase towards bas?,
also becomesmore red towards base
Very red to red sandstone
with clasts of limeston? and
shale(mudstone)
Red sandstone, no larecalcareousclasts.
howeveappears to have very fine pieces
of shale (mudstone)
Sandstone and dark green
to dark gray shale (mudstone),
no visible white or buff limestones
LITHOLOGICDESCRIPTION
HUSKY OIL
# 1 HANCHETT STATE
(continued)
5.050-7.000'
7,000-7,320'
Shale.green
to gray with variable amounts of white to
buff limestone or gypsum, no visible red sandstone
Shale. dark green togray. not fissil. granite and
calcareous fragments. Granite greatlyincreases
towards base
0
I'
c
TNLE A.52
TOTAL ORGANIC CARBON DATA
HUSKY # l HANCHETT STAT€
.
.
Projeot No. : R R V S l B 4 5 l U l B 0 7 I 4
.
SAMPLE IDENTIFICATION
RRUS
DEPTH
1401
500
1 4 0 21 4 3 0
14031935
14042495
14053335
1406
14.07
1408
1409
1410
4085
4650
5335
5490
5825
:
:
:
:
:
:
:
:
:
:
~~~~~
I
: DATA I
I
I
~~
~
~~~~
~~~
SAMPLE IDENTIFIC~TIOM
(Feet)
:
TOCS
4 5 0 -5 5 0
1410-1450
1910-1960
2 4 7 0 -2 5 2 0
3 3 1 0 -3 3 6 0
I
0 . 1 0 I 1 4 1 16 0 3 0
0 . 6 8 I 1 4 1 26 3 3 5
0 . 5 2 : 1413
6475
0 . 3 7 ' 1 4 1 46 5 9 5
0 . 4 2 i 1 4 1 s6 7 1 0
I
0 . 2 9 : 1416
6805
6940
0.22-1 1 4 1 7
7035
0 . 2 9 I 1418
0 . 5 3 I 1419
7075
7105
0.48 I 1 4 2 0
40504600531054705800-
4120
4700
5360
5510
5850
:
:
:
:
:
:
:
:
:
RRUS
DEPTH
(Feet)
DATA
:
TOCK
I
I
A-213
:
:
:
:
:
6000- 6 0 6 0
6 3 1 0 -6 3 6 0
6 4 5 0 -6 5 0 0
6 5 8 0 -6 6 1 0
6680- 6740
1.66
1 .oo
0.75
0.25
0.29
:
:
:
:
:
67706920701070607090-
1.95
0.91
0.79
0.93
0.84
6840
6960
7060
7090
7120
0
TABLE A.53
TOTAL ORGANIC CARBON DATA
.
HANCHETT STATE (SUN)
Project
SAMPLE IDENTIFICATION
RRVS
3203
3204
3201
3202
DEPTH
(Feet)
6100
6260
6400
6550
NO.
RRUS/845/M1807/4
;
: DATA
I
I
1
,;
TOCk
: 0.22
: 0.23
: 0.59
0
SAMPLEIDENTIFICATIOY
RRU5
I 3206
I 3207
I 3208
DEPTH
(Feet)
6640
6750
6040
7000
: QATA
:
TOCk
: 0.45
: 0.37
: 0.39
: 0.53
e
i
~
N O N RR(US) DATA
0
0
A-214
TABLE A.54
ROCK-EVAL
HUSKY
PYROLYSIS RAW DATA
U l
HANCHETT STATE
. .
.
Projeet No. : R R U S 1 8 4 5 I M 1 8 0 7 l 4
SAMPLE IDENTIFICATION
DEPTH
RRUS
(Feet)
c)
I DATA ( S l , S 2 , 5 3 m g t g m o f r o o k , Tmax d e g
i
I
SI
52
'
Tmax
S 2513S 3 z 8 1 1 ( S 1 + S 2 )
I
1402
1403
1405
1409
1410
1411
1412
1413
1416
1417
1430
1935
3335
5490
5825
:
:
6030
6335
6475
6805
6940
:
1 4 1780 3 5
7075
1419
7105
1420
:
:
:
:
:
:
:
:
:
:
14101910331054705800-
i
i
1450
0.120
1960 ' 0.080
3360
0.010
5510 I 0 . 0 2 0
5850 I 0.040
6000- 6 0 6 0
6310- 6360
6450- 6500
6 7 7 06-8 4 0
6920- 6960
1.440
0.530
0.050
0.140
0.160
2.250
0.640
1.082
0.152
0.519
0.533
0.310
0.290
0.280
1.968
0.047
0.828
0.143
0.857
0.143
3 . 7 2r0. 1 2435 2
0.862
0.138
I
I 0 . 0 3 0 0.610
I 0.040 0 . 2 4 0
0.240
I 0.040
I 0 . 1 300. 9 3 0
I 0.040
0.250
I
I 0.050
7 0 1 07-0 6 0
7060- 7 0 9 0 I 0.050
7090- 7120 I 0 . 0 4 0
0.240
0.310
0.220
0 . 0 7473 1
0.131
0.167
0.125
0.200
0.490
0.330
0.270
0.300
0.250
0.290
0 . 3 300, 7 2P7. 1 7426 3
1.107
C.139
0.280
0.290
0.759
c.154
430
------460
452
467
460
456
454
I
NOTE: A DASH INDICATES AN INDETERMINABLE VALUE.
HYDROGEN AND OXYGEN INDICES FROM
ROCK-EVAL PYROLYSIS AND TOC DATA
HUSKY 1 1 HANCHETT STATE
Project N o . : R R U S t 8 4 5 1 M I B 0 7 1 4
SAMPLE IDENTIFICATION
iI
R R U S (Feet)
DEPTH
1 4 0 21 4 3 0
1935
1403
1405
3335
5490
1409
1410
5825
:
:
:
1411
6030
633s
1 4 1 36 4 7 5
6805
1416
1417
6940
:
:
:
:
7035
7075
7105
:
1412
1418
1419
1420
:
:
:
:
:
:
1450 i
1960 I
3360 :
5510 '
SBOO- 5850 i
I
6000- 6 0 6 0 *
63106360
6450- 6500 I
6770- 6840 I
6920- 6960 I
1410191033105470-
HYDROGENINDEX
(mp HClgm TOC)
212
102
12
26
33
OXYGEN INDEX
(mg C O Z I TOC)
~ ~
94
94
79
51
62
TOC
(YI)
0.68
0.52
0.42
0.53
0.48
37
24
32
48
a7
i
I
7010- 7060 i
7060- 7 0 9 0 '
7090- 7 1 2 0
30
33
26
i
A-215
42
30
35
0.79
0.93
0.84
TABLE A.56,
PYROLYSIS RAW DATA
ROCK-EVAL
WANCHETT STATE (SUN )
Projrct No.
5ANPLE IDENTIPICATION
DEPTHRRUS
DATA ( S 1 , 5 2 . 5 3 o g l p m o f ?,Oak. Tana
(Feet)
3203
3204
3201
3202
3205
6100
6240
6400
6550
6640
3206
3207
3208
6750
6840
7000
---
T
0
0
0
0
!
: RRUS1845/M1807/4
51
52
.110
.050
,040
.070
0.030
”-
”-
0.040
0,130
0 ,080
0.040
0 050
0.090
0,040
0.050
0.110
REPRESENTS AN UNDETERNINED VALUE
53
de$ C )
6 2 / 8 3 611(51+S21 T m a s
-”
” _
” _
”-
-
” _
”
-”
-”
” _
” _
”-
”-
” _
”-
-”
” _
0.786
---
-”
” _
”-
” _
0.350
0.331
467
0.500
0.500
440
490
448
0.450
0
--0
NON RR(US) DATA
0
0
c
c
c
c
A-2 16
TABLE A.57
~~
~
~~~~
~~~
~~~
-
VISUAL KEROGEN ANALYSIS
REFLECTED LIGHT
HUSKY U l HANCHETT STATE
Proleot No. : R R U S 1 0 4 5 1 N t 6 0 7 l 4
SAMPLE IDENTIFICATION
RRUS
DEPTH
(Feet)
I
I
I
I
:
I
1 4 0124 3 0
1 4 0139 3 5
1 4 05
94 9 0
1410
5825
1411
6030
:
:
:
:
:
1 4 1 01-4 5 0
1 9 1 01-9 6 0
5 4 7 05
-5 1 0
5800- 5850
6000- 6 0 6 0
---0.54
I
I
;
1.04
1.04
!
1412
6335
1416
6805
1 4 1 67 9 4 0
1 4 17
90 7 5
1420
7105
:
:
:
:
:
RO W
i
I
6 3 1 06
-3 6 0
I
67706
-840
I
6 9 2 0 6- 9 6 0
I
7 0 6 07-0 9 0
'
7090- 7120
TOC
REFLECT.KEROGENCHARACTERISTICS
Am%
0
Ex% V f t w Inart% F l u o r
0
0
1400
0
20
30
5
50
so
tr
tr
----
80
0
0
0
1.01
1.00
1.04
1.03
30
0
30
20
tr
tr
tr
50
iI ----
A-217
15
30
0
0
15
0
55
40
0
None
None
LOW
None
0
None
40
30
30
30
0
None
High
LOW
Ned
None
K
0.
0.S 2 d G
0.53g0.40".
1.66-
1.ODLr1.9&"
o . 9150.33c-c
0.84~"~-
0
HUSKY * I HANCHETT STATE
1
25 7
RRUSNo.
1402
ID I CTGS.
20/
DEPTH
1430.0 Fr
435.8 n
I
INSUFFICIENT SANPLE MATERIAL
I
nEAN
I
0
N.D.
0
01
0.0
..,,
,,.,
1.0
2.0
41.0
3!0
VITRINITE REFLECTANCE fRANDOn XI
ORDERED REFLECTANCE VALUES:
HISTOGRAn~
Range: 0- 4%
Incremenr: 0.10%
REROCEN DESCR'PTION
0 x
Amorphous I
Exinire
, 0X
Virrinlre
0 X
Inert inireI
0 x
Each Fluor
:
None
2
None
, None
Bi rumen
tome
0
0
0
HUSKY
v1
HANCrlETT STATE
RRUS No.
1403
ID : CTGS.
I
DEPTH
I
1635.0 Fr
5E8.8
I
t
= Ro nATURITY
*
VALUES
nEAN
STD DEV
nEDIAN
nODE
0.0
1 .a
2.0
3.0
VITRINITE REFLECTANCE IRANDOPI X I
ORDERED REFLECTANCE VALUES
0.36
t0.44
50.45
t0.48
t0.48
t0.48
t0.51
t0.51
50.51
t0.52
t0.52
v0.52
t0.55 f0.64
20.55 t0.65
t0.56 t0.66
t0.57 0 71
f0.5E 0.77
v0.6a
4 0
N
32
I
0.54
0.06
0.54
0.55
I
t
I
I
HISTOGRAIl>*
Range, 0- 4%
lncremenr: 0.I0X
KEROGEN DESCRlPTlON
AmOrphOu6
-
Erlnlin
-.
. . . .. .
.i
I
50 X
lt-
2
a
i X
Vitrinire
10 X
lnerrlnire
Each Fluor
None
:
Small
Eirumep
:
None
tohe
I
0.84
A-218
c
..
HUSKY
rl HANCHETT STATE
25 7
No.
RRUS
ID
14013
I
CTGS.
t
DEPTH
5480.0 Ft
1373.4 n
t
I
= Ro HATUR'TY
VALUES I
27
nEAN
2
I .04
STD DEV ,
0.11
PlEDlAN I
1.04
HODE
1.15
HISTOGRAH:
Range: 0- 4%
Increments 0 . 1 0 ~
f
ORDERED REFLECTANCE VALUES:
0.45
0.47
0.50
0.51
0.51
0.53
0.56
0.W
0.61
0.64
1
0.65
0.71
t0.80
t0.84
t0.84
t0.86
?0.93
*0 E4
10 E9
r0.w
tl.0e
fl.O1
tl.03
S1.03
t1.03
f1.04
:1.07
tl.08
t1.09
t1.10
t1.11
t1.13
t1.15
tl .16
t1.17
t1.17
t1.17
t1.17
1: .:@
1.22
KEROGEN DESCR'PTION
50 X
Amorphous t
Exinite
rr X
Vitrinire t
20 X
Inertinite : 30 X
BSCK Fluor : Low
I
tr
Birumen
tohe
None
1
1
1
1
1
1
1
1
I
1
1
HUSKY I
1 HANCHETT
25
STATE
RRUS
ID
20!
I
No.
I
DEPTH
X
t
P 15!
n
5825.0 Ft
1775.5 n
Ro HATURITY
VALUES
nEAN
STD DEV
nEDIAN
nODE
N 5
1410
CTGS.
7
8
1.04
0.12
1.80
1.15
I
I
HISTOGRAn:
Range: 0- 4%
VITRINITE REFLECTANCE IRANDOnX1
ORDERED REFLECTANCE VALUES:
t0.RE
Incremenr; 0.10X
KEROGEN DESCRITJON
80 %
Amorphous
Exinite
I
0 X
Vilrinire 8
15 X
lnerr inite
I
5 X
I
tl .OO
* I . 13
. fl. 16
fl .23
Each Fluor
Birumen
toke
A-219
None
:
tr
I
None
0
HUSKY
D l
HANCHETT STATE
25 7
RRUS No. :
ID I CTGS.
1411
DEPTH
I
6030.0 F1
1837.8 M
I
N.D
t
INSUFFICIENT SAMPLE MATERIAL
nEAN
!:I
0
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
0
0
0.0
1.0
2.0
3.0
4.e
VITRIbiIlE REFLECTANCE IRANDOM % I
ORDERED REFLECTANCE VALUES:
HISTOGRAM,
Rsnge: 0- 4%
Incremenr: 0.18%
KEROGEN DESCR IPT1 ON
0 x
Amorpnous ,
Erinite
I
0 %
Vltrlnire
0 X
lnerrinire I
0 X
Bock Fluor
81 turnen
Core
, None
, None
I
None
0
HUSRY .1 HANCHETT STATE
25
RRUS No. : 1412
ID 3 CTCS.
N
DEPTH
:
I
?.=
F
4
D
Ro MATURITY
VALUES
MEAN
STD DEV
nEDl AN
noDE
0
-
VITRINITE REFLECTANCE IRANDOtl X I
ORDERED REFLECTANCE VALUES.
0.55 0.70 fE.06 51 0r
1 1B
0.64
.0.71
0.72
0.73
0.73
0 78
0.70 ~ 0 . 0 6T I 08
t0.01
Z8 01
10.04
r0.05
T0.05
1
1n
ZI.OO t 1 . 1 2
1 25
Tl 01
fl e2
12
1. ."7 5
1
1 16
1 17
;.28
1 28
03
TI.E3
TI
*I
1z
1.30
A-220
6335.0 F I
103E.O tl
:
f
a
23
1.01
0.87
1.80
0.05
HISTOGRAfl
Range: 0- 4%
Incremenr: 0.10%
KEROGEN DESCR'PTION
30 X
Amorphous ,
Exlnire
0 %
Vltrinlle : 30 X
Inert inire
40 X
Bock Fluor : None
8 ; turnen
. ~r
:
rr
Cohe
P
HUSKY * I HANCHETT STATE
RRUS No.
ID
t
DEPTH
I
t
t
1416
I
CTGS.
6805.0 F1
2074 .z n
RO nATURlTY
36
VALUES I
I
MEAN
I
STD DEV ,
HEDIAN
I
MODE
VITRINITE REFLECTANCE IRANDOMX I
ORDERED REFLEETAYCE VALUES.
0.51
0.67
0.71
0.73
0.73
0.75
t0.77
t0.81
w.04
:~.m
I
1.22
1.28
Bnch Fluor
High
1.28
1.31
1.33
1.34
1.36
XI.:^
tl.14
t0.81 r a . 8 5 * I 0r
t0 83 r0.07 * I 05 VI .I7
HUSKY
-1
HISTOGRAM,
Rnnge: 0- 4%
Increment: 0.IBx
KEROGEN DESCRIPTION
Amorphous
20 X
Exinite
:
tr X
Vlrrinire : 50 X
lnertlnlte : 30 X
m . 8 4 re.88 :I 06 t 1 . 1 7
t0.85 tE.08 *I 07 71.18
t0.80 tl.01 fl.11 1.20
:0 80 tl.01 11.11
re.63 t1.01 :I
.II
T 0 84 TI.01 7 1 . 1 4
:@.E4 tl.03 7 1 . 1 4
1 .OO
0.11
I .01
1.15
B i tumen
:
.
tohe
tr
None
HANCHETT STATE
RRUS No. ;
ID I CTGS.
1417
DEPTH
6f40.0 Ft
2115.3 n
:
I
Ro MATURITY
t
D
*
VALUES
nEAN
STD
DEV
nEDlAN
MODE
32
3
1.04
0.11
1.06
I
I
:
I .15
HISTOGRAM^
Range: 0- 4%
VITRINITE REFLECTANCE IRA1UDOII
ORDERED REFLECTANCE VALUES.
0.62 V0.87 tI.E2 f l 14
0.71 t8.88 t1.03 qI.16
0.72 r0.00 r1.04 :I . I 7
1 .24
1.24
~~
1 ~ 7 4
XI
Increment. 0.I0X
KEROGEN DESCRIPTION
15 X
Amorphous I
Exinite
t
tr X
Virrinlte , 55 X
Inert inite
I
30 X
Back Fluor
8 ;tonen
Cohe
A-221
, Lor
:
:
Small
None
0
HUSKY * I HANCHETT S A T E
RRUS No : 1410
ID i CTGS.
DEPTH
7075.0
2156.5
I
I
Ft
n
t = R a MAlURITY
VALUES
REFLECTAKCE
0.05
KEROGEN DESCRIPTION
30 X
Amorphous I
Exinite
:
tr X
Vltrinite I 40 I:
Inertlnite : 30 x
00
. 7. 8 4
0 . 7 8 t0.87
0 . 7 0t 0 . 8 0
0 . 8 0 r0.8e
0.88 :B.BO
0 81 r 0 . w
0.82 t0.03
8.83 ~ 0 . 0 4 VI.lt?
0 . 8 3 V0.04
0.83 t 0 . 0 5
,
Back Fluor
8 I lumen
0
0
ned
Smsl!
I
.
tohe
1.31
None
0
HUSKY * I HANCHETT STATE
RRUS NO. 8 1420
ID I CltS.
N
j:
I .02
I
:
HlSTOtRAn:
Range: 0- 42
Incremenr, 0.10%
VITRINITE REFLECTANCE IRANDOIl X I
-
0.12
I
nED1AN
nODE
25
1.03
t
STD D E W
0.70
0.71
0.72
0.74
0.76
0.77
0.77
0.77
0.78
23
I
nEAN
0
DEPTH
INSUFFICIENT SAMPLE IlATERIAL
nEAN
0 1 ........................
0.0
2 . 01 . 0
'
,,,,
,.,,
3'.0
,.
VlTRINITE REFLEClANCE (RANDOM X I
ORDERED REFLECTANCE VALUES,
4.0
2
7105.0
2165.6
I
N.D
I
HISTDGRAfl I
Range: 0- 4 %
Increment> 0 . 1 0 %
KEROGEN DESCRIPllON
0 X
Amorphous
Exinlre
0 2
Vltrinlre
0 x
Inertinite
0 x
I
Fluor
Bitumen
Cohe
BDch
A-222
:
None
None
:
None
3
0
FI
li
6640
TABLE A.58
V I S U A L K E R O G E N A N A L Y S I S- R E F L E C T E D L I G H T
.
H A N C H E T T 5 T A T E (SUN)
Projcot No. : R R U S 1 8 4 5 l M l 8 0 7 l 4
S A M P L EI D E N T I F I C A T I O N
RRU6
3203
3204
3201
3202
3205
D E P (T FH e e t )
6 1 DO
6260
6400
6550
I
I
I
I
I
I
I
I
I
CHARACTERISTICS
R E F L E C T .K E R O G E N
Ro
%
””
1.os
0.97
0.92
0.96
Am%
0
0
0
0
0
Ea% Vit% Xnorts F l u o r
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
None
None
None
None
None
TOC
4!
0.19
0.22
0.23
0.59
0.45
I
3206
3207
3208
6750
6840
7000
;
I
I
0.96
0.99
0.98
NON RR(US1 DATA
A-223
0
0
0
0
0
0
0
0
0
0
0
0
None
None
None
0.37
0.39
0.59
WTRINITE REFLECTANCE DATA SUMMARY
‘
2”-
Hanchett State- .
_.
J . L. Martinez
.
D
m
n
?i
’
SAMPLE
POINTS
COMMENTS
UEAV
61 00
15
6260
64
Insufficient amount of identifiable organic material for
a valid Ro mean.
0
to
appears material organic
be weathered. Very small
amounts of oxidized matter.
,
6400
60
Material appears to be unconsolidated with mixed populations.
6550
83
Light-brom gritty matter
(may be sand). Organic debris
is present. Organic material
appears to be weathered.
6640
11
t o s s of some less-mature organic material that wasin
previous sample has raised
Ro
mean slightly.
6750
93
Sliqht shift in &
, mean due to
loss 05 more-mature organic
material.
6 ~ 4 0
R9
Continued shift t o lessmaturr n r q a n i cm a t e r i a l .
or-
VIfRlNlTE REFLECTANCEDATA SUMMARY
llanchett State
= z
J . L. Martinez
0
-
SAMPLE
m
POINTS
READ
COMMENTS
31
5
ID
Y
U
x-
*
-4
.
7000
56
Possible change in d e p o s i t i o n
and/or
environment.
Majority
of m a t e r i a l i s less-maturethan
This
i np r e v i o u s a m p l e s .
m a t e r i a l may be cave or contamination.
0
1 1 HANCHETT STATE ISUNI
0
RRUS NO. 3201
ID I CTCS.
I
DEPTH
I
8
6400.0 F t
1950.7 ll
Ro hATUR:TY
'I
I
1
VALUES
nEAN
STD DEV
nEDIAN
nODE
0
26
:
0.87
0.09
0.99
0.95
I
I
8
a
HISTOGRAn:
Ronge. 0- 4 %
Increment: 0.10%
e
V I T R I N I T E REFLECTANCE CRANDDPI X 1
1 1 HANCHETT
STATE
(SUN1
25
0
.
RRUS N o .
ID
DEPTH
>
I
!i
f
= Ro
1
VALUES
[ 5
0
0.0
I
I
8
0
36
:
0.82
0.10
0.84
I .05
0
HISTOGRAV:
1.0
Range: 0- 4 %
Incremenr: 0.10%
2.0 4.0 3.0
V I T R I N I T E REFLECTAWE IRANDOV X I
25
6550.0 F I
1686.4 n
nATURITY
MEAN
DEV
S'D
nEDIAN
nODE
j0
3202
CTCS.
:
-
* I HANCHETT STATE ISUNI
RRUS No'.
ID
I
:
3213
CTCS.
DEPTH
:
6120.0
nEAN
I
N.D
,
HISTOGRAV:
Ronge: 0- 4 %
Incrementt 0.10%
NON RR(US) DATA
A-226
FI
1859.3 n
25
-
.I
HANCHETT STATE (SUN1
RRUS No. I 3104
ID CTGS.
I
I
6761 . 0
1708.4
m VALUES :
35
DEPTH
!
REAN
STD DEV
nEDlAN
nODE
:
:
Ft
n
I .05
0.12
I .85
I .05
HISTOGRAn:
VITRINITERECLEtTANtE
Range: 0- 4%
Incrementi 0.18%
IRANDOn X 1
* I HANCHETT STATE ISUNI
RRUS No. . 3205
ID I CTGS.
N
1e
DEPTH
:
20
.
!
G
6640.0 F t
2823.8 n
I = Ro tlATUR,~TY
l5
‘0
N
:
S
0
0.0
nEAN
STD DEV
PlEDlAN
nO3E
c,
5
Ib.7..
,.r! ..,..,..,.
I .0
VALUES
3’.2.0
0
V I T R I N I T E REFLECTANCE IRANDOC X 1
.1
4!0
40
:
:
:
I
0.96
0.12
0.87
I .05
HISTOGRAPI:
Range; 0- 4 %
Increment. E.lE%
HbNCHETT STATE (SUN1
25
RRUS N o . I 3206
ID I CTGS.
DEPTH
,
:
nEAN
STD DEV
nEDIAN
noDE
I
z
I
I
6750.0
Ft
2857.4 n
8.86
0.12
0.95
0.95
HISTDGRAn:
V I T R I N I T E REFLECTANCE IRAhDOP XI
NON RR(US) DATA
A-227
Range. 0- 4 %
Increment. 0.10%
0
0
0
r l HANCHETT STATE !SUN1
25
RRUS N O . t 3207
I D I CTGS.
120
DEPTH
I
1
0
t = Ro nATURITY
P l5
5
52
I
REAN
STD DEV
I
I
0.89
0.13
nEDIAN
nODE
I
:
01.02
.85
0
HISTOGRAtl:
0
0.0
VALUES
S
E 10
1
68,'@.0 F I
2084.8 n
I .0
2.0
3.0
V I T R I N I T E REFLECTANCE IRAFIDOP! X I
Range: 0- 4 1
Incremenr: 0 . 1 0 2
4.e
0
r l HANtHETT STATE ISUNI
RRUS No.
ID
z
3208
c
CTGS.
DEPTH
.
s
V
=
*
VALUES
70'0.0
Fr
2136.6 n
Ro nATURITY
HEAN
DEV
STD
HEDIAN
nODE
:
I
s
>
:
16
0.88
0.14
0.86
0.85
HISTOCRAn:
Rsnge: 0- 4 2
Incremenr: 0.10X
I'
NON RR(US) DATA
c
c
A-228
VlSllAL KERW!?N DATA SIIMMARY
v)
P. Ilrlrbr1dp.e
TIIERTIAI. AI.1T.RATION INDEX (TAl)
n
-I
c
n
rrc
h
.
,m
h
r
m
7
hdal
TA I
l Uaturnt Inn fncreanen-
1
c.
c2.0
2.0
2.3
2.5
3.0
3.5
3.2
3.7
5.0
4.0
cl
c
Y
V
m
1
011 and Cas C m w r a t I m
1
Dry Cas Only
1
0
0
n
0
I
e.2 0
21 2.0 S.0 S 2 sb 3.7 4.0 A O '
'(2 2.0 2.3 sd S.0 5 1 sb 5.7 4.0 b.0'
0
TI1
D4m
0
0
NON RR(U.S.)DATA
k
A-230
c
No.1 HANCHETT STATE
nhtruc(und K o q o n Ootn
~ N o n - S t r v c l u M K o m p n Ooto
.
.
.
sd 3.7 4.0 8.0'
NON RR(U.S.)DAfA
A-231
0
0
NO. 1 HANCHETTSTATE
P
00076260
THERMAL tc
RH1735
NON RR(U.S.)DATA
A-232
kC 7
7OL'ILUl
Y
YES Y I L I U i
*:
"UC
IS
I1
,
NO. 1 HANCHETT STATE
00876759
TUERHAL t f
RH1737
NON RR(U.S.)DATA
A-233
:-
.
-I
0
NO. 1 HANCHETT
~
~
~
STATE
7 6
THERMAL G f
RG1736
NON RR(U.S.)DATA
A-234
4
0
~
I'
u:
I?
NO. I HANCHETTSTATE
00078 100
THERMAL Gt
Rtl735
NON RR(U.S.)DATA
A-235
c
NO. 1 HANCHETTSTATE
NON RR(U.S.:DATA
A-236
NO.
1 HANCHETT STATE
DBR76SSP
TUERHALCC
RU1736
NON RR(U.S.)DATA
A-237
"I..
0
0
0
I'
NO. 1 HANCHETT STATE
DDC7684E
TIiERMALCf
RC 1738
NON RR(U.S.)DATA
A-238
NO. 1 HANCHETTSTATE
NON RR(U.S.)DATA
A-239
I'
I'
A-240
TRANS PECOS,#l LATIGORANCH
A-241
0
0
0
0
0
P
TABLE A.61
LATIGO RANCH
SCREEN ANALYSIS SVIMARY
Sacple
!,s.bcr
Ye1 1
Interval
(Feet)
Tot81 Orgacic
Brief Lithologlcal Dercriptfon
Cartar.
(i of RG:~)
2260-025
3100
Sandstone. slightly dolwnitlc. pale yellowish brwn.
0.06
2260-031
3400
Composfte: 60% Sandstone. sllghtly dolomltic,
pale yellowfsh brown.
402 Shale. pale red.
0.02
2260-033
3500
Composlte: 65% Sandstone, slightly dolmftic,
pale yellowish brown.
35% Shale, pale red.
0.03
2260-035
3600
Conposfte: 702 Sandstone, slightly dolomitfc,
pale yellowfsh brown.
30: Shale. pale red.
0.0210.02
5260-037
3700
Composlte: 60% Shale, pale red.
40% Sandstone, slightly dolomitic.
pale yellowfsh brown.
0.02
2260439
3000
Composite: 70% Shale, pale red.
30% Sandstone, slightly dolomltic.
pale yellowish brown.
0.02
2260-041
3900
Shale, pale red.
0.01
2260-043
4000
Composlte: 60% Shale, pale red.
40% Sandstone, slightly dolomitic.
pale yellowfsh brown.
0.01
2260-045
4100
Composfte: 80% Shale. pale red.
20% Sandstone. slightly dolomitfc.
pale yellowfsh brown.
0.03
2260-047
4200
Composfte: 60%: Shale, pale red.
40% Sandstone, slightly dolomitic,
pale yellowish brown.
0.01
?260-049
4300
Shale. pale red.
0.03
2263-051
4400
Shale, pale red.
0.0410.05
2260-053
4500
Conposlte:
60% Shale, pale red.
40% Sandstone, pale reddish brwn.
0.03
2260-055
4600
Conposlte:
60% Shale, pale red.
40% Sandstone. pale reddish brown.
0.03
NON RR(US) DATA
A-243
0
.LATIGO RANCH
StRLEN ANALYSIS
SUWMY
0
Total Drjisr,ic
Uell
Sa-ple
$fiber
Interval
Brief LithologicalC akrct rmi p t i o n
(%Of Rock)
e
5260-057
2260-059
4700
4800
Composite: 80%
paleShale.
Composite: 70% Shale,pale
gray.
30% Sandstone,
pale
2260-061 grayish4900
2260-063
*
5000
2260-065
5100
2260-D67
5200
9260-069
2260-071
2260-073
red.
0.02
205 Sandstone. pale reddish brown.
Shale.
red rnd medium dark
0.10
reddish brown.
red.
Composite: 70% Shale. grayish red and medium
0
0.09
0.12
darkgray.
30% Sandstone. l i g h t gray.
Composite:
85% Shale, graylsh red and medium
e
0.13
dark gray.
15% Sandstone, l i g h t gray.
Composite:
90% Shale, grayish red rnd medium
dark gray..
10% Sandstone, l i g h t gray.
O.l0/0.09
5300
Composite:
905 Shale, grayish red and medlum
darkgray.
10% Sandstone. l i g h t gray.
0.11
54 00
Composite:
85% Shale, grayish red and medium
0.09
5500
Composite:
70% Shale, grading t o siltstone.
medium l i g h t 'gray t o medium grcu.
30% Dolomite. brownish gray.
0.20
0
I,
darkgray.
15% Sandstone, l i g h t gray.
P
2260-075
5600
Composite:
70% Dolomite, brownish gray.
30% Shale, medium gray.
0.23
2260-077
5700
Composite:
70% Dolomite, brownish gray.
30% Shale. medim gray.
0.10
2260-079
5800
Composite:
70% Shale, grayish red and medium
darkgray.
30% Quartz fragments.
0.17
2260-081
5900
Composite:
BDX Shale, grayish red and medium
dark gray.
20% Sandstone, l i g h t gray.
0.20
P
c.
NON RR(US) DATA
A-244
c
LATIGO RANCH
SCREEN ANALYSISSUWVJIRY
Sanple
finber
Ye1 1
Interval
(Feet)
2260-OB3
6000
Composfte:
2260-085
6100
Composite:
85% Quartz fragments, white.
15% Shale. graylshred and medim
dark pray.
0.07
2260-0~a
6200
Composlte:
70% Shale. grayishred and medium
0.19
2260-090
6300
Composite:
2260-093
6400
Shale, grayish red and medlum dnrk gray.
2260-095
6500
Conposlte:
80% Shale, grayishred andmedlum
dark gray.
20% Sandsione, l t g h t gray.
0.22
2260-098
6600
Composlte:
70";
Shale, grayishred and
medium
dark gray.
30:: Sandstone, l i g h t gray.
0.16
2260-101
6700
Composlte:
80% Shale. grayish red andmedium
dark gray.
20% Limestone and sandstone, l i g h t
0.21
Tots1 Orga~,ic
BriefDescriptlon
Lithotopical
75% Shale, graylshred and medim
dark gray.
252 Sandstone. l i g h t pray.
dark gray..
30% Quartz fragments.
85% Shale, graylshred andmedium
dark gray.
15% Quartz fragments.
Csrbm
(iof
Rc:t)
o.1wo.m
0.16
0.16
*
2260-104
6750
Composlte:
60%Dolomite,brownlsh
gray.
40% Shale, graylsh red and nedium
dark gray.
0.49i0.47
2260-106
6900
Composlte:
60% Shale, grayishred andmedium
dark gray.
30% Dolomite,brownish gray.
10% Sandstone. l i g h t gray.
0.31
2260-110
7000
Composite:
802 Sandstone, d o l o m i t l c ,l i g h tb r o m i s h
gray.
20: Shale, graylsh red and medium
dark gray.
0.26
NON RR(US) DATA
A-245
0
LATIGO RANCH
SCREEN ANALYSIS SUWARY
0
Samp 1e
UrAer
7100
2260-113
2260-115
Uel 1
L f ItBnhrtoieDleroefvpsaiclcrai pl t i o n
t o t s 1 Or5ar.i~
tt r h n
(Feet)
0.03
7190
(2
Df
RXk)
0
white.
Quartz fragments.
8DX Shale,
grayish
red
and
medim
20% S i l t s t o n e , s i l i c i f i e d ,
dark pray.
moderateorangepink.
0.13
0
0
0
4
P
t.
NON RR(US) DATA
c
A-246
~
TABLE A.62
TOTAL ORCANIC CARBON DATA
LATICO RANCH (SUN)
P r o j e c t NO. : R R V S I ~ ~ S I M I ~ O ~ I ~
SAMPLE IDENTIFICATION
RRU5
DEPTH (Feet)
:
DATA
I
I
TOCII,
SAMPLE IDENTIFI6ATIOY
RRUS
DEPTH ( F e e t >
:
DATA
: TOCk
1
31
3501
3502
3503
3504
3505
.02 3800 3506
390
30
507
3508
4 1 0305 0 9
4 2 0 03 5 1 0
0.06
00
3700
4000
351 1
3512
4 5 0305 1 3
3514
47003515
4300
3516
3S17
5 0 03 05 1 8
3519
5 2 0 03 5 2 0
4800
4900
:
0.02
0.03
0.02
0.02
i
3521
3522
I 3523
I 3524
I 3525
5300
i
5800
5900
6000
6100
0.17
0.20
0.18
0.07
: 0.19
6300
: 0.16
I
3526
: 0.01 I 3527
: 0.01 I 3 5 2 8
: 0.03 I 3529
: 0 . 0 16 2 I0 03 5 3 0
I
: 0 . 0 3 I 3531
: 0 . 0 4 I 3532
: 0 . 0 3 I 3533
: 0.03 I 3534
: 0 . 06
27 0I 0 3 5 3 5
I
: 0.01 I 3 5 3 6
: 0 . 0 9 1 3537
: 0.12 I 3 5 3 8
: 0 . 1 3 I 3539
: 0.10 I 354.0
I
'NON RRWS) DATA
A-247
5400
5500
5600
5700
*
: 0.11
: 0.09
: 0.20
:
0.23
: 0.10
:
:
:
:
6500
6600
:
:
:
:
6750
: 0.48
6400
6900
7000
7100
7190
0.16
0.22
0.16
0.21
0.31
0.26
: 0.03
: 0.13
:
:
LATIGO RANCH
c
m
NON RR(US) DATA
c
c
3
0
0
0
0
0
0
A-249
v)
h
3
Y
a
a
e
t
t
t
0
0
i
i
4
H3NVtl 0011Vl
LATIGO RANCH
aim OAB
CURDMATOORAMD
i
1
I
i
I
!
NON RR(US) DATA
A-251
LATIGO RANCH
27b0-075
22bo-oz%
22h0-071
22W-078
27b0-079
2-0-OW
22b0-031
2760-032
27bO-031
27W-OF
Z7bO-035
??bo-036
27h0-031
??bo-030
22W-039
27643-0W
22bO-OQl
2260-002
?
N
n
l
N
3100
3150
3200
3250
3>00
3350
3bWO
3b50
35w
3S50
3hm
3hSO
3700
3750
3.900
m o
10.1
8b.5
12.1
9.1
9 .l
1.1
235.0
0.2
90.1
32.1
11.9
30.2
1b.5
26.6
32.0
51.0
bU7ll
b4>0
b5W
b550
b6W
4b50
btm,
blVJ
41100
5850
69m
bQ50
nm,
77hIl-Oh)
7i'hO-O'tb
SflW
5100
77bO-Ob5
21.1
11.0
21.8
l?.2
0.12
0.29
0.1
1.1
11.0
1.3
5.1
0.6
0.6
11.1
0.1
10.1
1.9
2.1
29.1
lW.3
111.9
167.0
231.6
158. I
5162
939.9
150.1
36.5
30.b
50.3
53.1
0.31
0.13
0.32
1.1
3.0
2- 3
2.8
2.9
3.5
1.1
1.2
9.5
15.2
3.0
?b .6
1.1
0.2
0.2
0.2
0.3
0.2
I .6
9.b
b.2
b.1
2.6
0.3
7.b
1.2
0.0
1.0
0.1
0.5
2.1
1.1
12.5
20.1
0.3
1.0
10.0
2.1
0 .e
111.1
l.b
l51.0
bb.1
I 1 .G
3.1
0.1
6.2
1.1
3119.3
27.1
10.2
0.2
1 .o
6.1
1.5
51.6
0 .9
1.6
1.1
19.2
50.2
51 .O
1.3
1.2
0.1
O.?
5.1
19.1
779.b
1712.3
5R5.2
75v .o
I21 .b
3.1
110.2
150.1
90.5
102.1
116.9
100.9
117.0
93.2
01 .o
35 .O
50.0
102.9
111.1
3.0
30.1
LO50
1100
b I 50
b 700
b250
5 n .2
3.2
n .o
0.3
b o 0
27W-Ob1
77b0-015
22643-Obb
b .5
11.2
1.9
91.1
1.O
52.2
132.1
R2.b
27b0-0Q3
2.1
1.9
0.6
1.b
bb.9
0.0
15.3
1.2
10.5
b3W
1 .v
2.1
?.9
5 .2
3.3
0.9
2.1
1.2
0.9
0.0
1 .9
1n.e
uno
11.6
1.9
1.9
3.1
2.1
2.0
4.5
3.9
3.9
17.3
3950
22bO-Ob0
27b0-019
I2hO-OW
27bO-051
2260-052
2260-053
27bO-051
ZZW-055
2260456
2260-051
2260-050
2W+9
27W-OhO
27bO-Ob1
27bO-Oh2
1.o
1.2
7.b
0.9
1.1
JPW
2760-011
6.1
0.7
0.b
0. I
0.0
0.v
0.2
b .7
1.o
2.2
1.6
2.5
0 .l
19.1
3.6
3.1
2.1
2.1
1.0
0.0
1.6
0.9
1.b
1.0
1.3
0.9
1.2
13.0
b.1
1.3
5.1
2.1
1.l
3.9
0.9
1.1
1.1
0.b
0.1
1.1
0.1
b .6
8.1
v.0
7. I
3.5
31.3
315.0
110.1
127.8
201 -9
121.I
118.1
253.8
211.6
137.q
205.9
291.0
165.9
923.3
w3.9
0 I6 .O
710.0
552.8
Ob9.0
551.0
535.5
612.0
300.7
377.0
195.5
b21.0
671.1
5Q7.5
~n5.0
301. I
313.1
20.I
( 9 .5
15.8
811.6
11.3
lbb.l
8b.5
62.2
39.5
59 -2
3b.5
36.0
bJ.1
51.0
15.6
39.2
50.2
59.1
13P.l
170.2
110.1
111.3
(15.2
111.5
171.1
lR6.3
9 .e
0.1
119.6
6 .O
9.1
1.1
8.1
b.8
1.o
31 -6
31.3
10.2
9.1
11.1
19.2
26.5
16.*
12.9
21.3
321. 3
10.3
11.2
1O.b
11.0
1l.b
5.1
31 .O
51.1
31.1
712.0
17110.9
Wl. J
tlQ.0
21.2
22 .9
23.b
21.1
2l.l
11.1
(5.3
12.6
9.9
I .O
9 -1
5.5
5.1
793.0
15.3
1111.7
18l.b
105.1
97. I
12.1
41.8
13.b
12.1
11.2
19.1
5.3
39.5
12.1
5.1
8.1
b2.0
8.6
50.0
111.2
13.1
I.l
21.0
11.5
5.b
1.o
0.21
0.19
0.55
0.52
0.W
0.11
0.10
0.51
0.38
0.7b
0 .bO
0.20
0.:0
0.21
0.21
0.32
0.25
0.20
0.19
0.21
0.20
0.21
0.29
0.51
0.31
0.51
0.11
0. Jb
0.22
5.3
0.03
1b.b
b2.0
$1.5
13.1
13.8
5 .Q
Q.b
t.s.3
70.1
0.20
ISV
0.00
0.7Q
0.10
0.7:
1J.Z
NON RR(US) DATA
c
c
3
0
0
0
0
0
0
LATIGO RANCH
51 W
1m.1
5200
5250
399.9
550.0
9111.5
tm2.0
615.1
550.3
602.5
75 1A
0a.o
1331.7
1092.0
1203.1
1657.3
m5.3
2517 .5
1115.1
5300
51W
5kW
WW
5500
S550
5600
5650
5700
5750
9
1
0
0
m u
5900
5950
11.5
7.3
652
62.9
9.1
7.b
15.5
68.9
1.1
0.0
10.0
3.1
25.b
15.9
2.9
2.9
0.0
0.2
87 .Z
9.7
16.5
30.1
4.5
3.9
1.3
1.7
63.2
6.0
w.3
13.9
68.7
19.1
w1.0
Tl.7
tam
2576.6
280.1
bOW
6100
61 50
bI 70
6200
6250
637.9
lm3.2
137.1
106.0
63W
6350
63bO
W00
tA50
6900
6S20
6550
6hW
6662
6670
b7WO
6720
6740
6750
nnw
6900
6Wh
6950
bq70
7nnn
701 6
7n50
7100
1 DATA
ObO.0
ll79.0
2011.9
1098.1
68b.l
507 .?
??82
198.1
27% .I
OV9.3
2197.5
116.7
352.5
351.0
1990.0
156.2
2.6O.b
1913.9
355.2
166.9
301.6
7766.3
'2a7.1
lWV.8
0179.1
1051.9
19~53.0
155.7
2018.0
2rnl.O
591.3
961.0
2738.0
n15.1
118161.6
1713.5
mn.1
353.0
135.1
bb -9
170.1
601.2
110.9
8778 .6
ant.7.t.
1675.1
znt~8.5
ll56.0
'133.5
1819.0
91m.7
30- .6
1215.1
1102.O
li'63.9
?91.1
2.0
0.b
1.7
1.1
0.2
0.0
0.0
0.1
0.0
3-0
2.6
5 -6
3.0
8.3
7.0
23.9
31 S
21. 1
"3
w1.3
-.
'
1.b
0.3
1.1
1.I
0.5
0.9
1M.b
18.2
71.926.5
87 -5
25.5
1??.6
20.1
5.1
55.1
150.5
2.5
2.1
01.3
06.9
75.3
66.5
lOl.7
91.3
177.9
631.5
(031.2
1160- 1
0 .o
1.0
0.0
0.3
1.1
1.2
17.7
1.6
1.3
lO3.0
1 .5
3.0
2.3
1.O
163.9
19.9
27 -0
0.9
21.o
1.1
53.2
13.0
0 .e
20.0
3.3
3.3
13.5
25.9
W1.b
2.2
2.9
2.5
n .t
91.0
70 .o
3118.6
99.1
553.b
115.7I5.b
638.1
171.8
11u .9
1110.1
23.5
10.5
17.1
21.)
83 .9
17.1
a7.5
13.3
M.l
11.1
m.9
13.8
123.7
56.5
I 3 .2
15.3
21.1
..
3.9
0.00
3.1
0.5
195.7
378.1
2990.0
397.5
ll1.3
110.5
181.5
1601.7
1735.7
1330.9
2TlT.T
0.00
0.01
1531.0
0807.1
017.7
08 .o
T8.1
53.6
(10.
I
06.5
310.1
cn.7
161.6
220.3
1126.1
318.0
527 .O
?V8.0
m.7
339.5
1.0
6.3
-
r.05
5.7
0.05
l0.D
0.31
22 .o
16.1
11.7
20.b
21.1
32.b
0.63
025
0.22
0.90
OCV
1.20
b77. 1
1o.u
0.w
m6.9
10?.9
lb.9
0.19
133.5
151.1
163.a
117.9
((5.7
m.0
11.1
162.5
20.1
19.5
92.5
121.3
110.7
.*
201.2
98
932.8
l7rn.l
113.1
67.9
" ..
555.2
2ew .7
am.5
05.2
202.3
)opA
S-1
31.1
060.0
591.2
115.9
2B15.9
n.a
l.@b
r.99
0.80
o.*o
0.78
1.22
1.11
W.2
S.7
2098.T
2b.2
555.7
9b9.7
V3.D
30.5
23 .o
21.7
l.?b
1.b1
. a.05
0.02
1.09
1. ln
1112.1
28ttO.b
m.l
16.1
5.W
1191.5
26.1
1.13
03.0
03.0
3W.6
3J.2
2b.T
b4
Wb5.0
l165.?
a.7
32.6
1.11
2.11
56.1
?7.0
51.7
66.0
mu.1
5.1
P5.l
21.5
-71.7
..
91.2
1?.5
97.b
563.1
171.0
38.9
15.2
15.0
11.3
11.5
75.7
36 .O
91.b
18.0
111.1
1nn.O
311.5
3.2
30.2
0.96
1.08
0.10
0.15
n5.2
m9.0
1.00.)
1136.5
3.0
6.b
23.6
51.0
71.2
V1.3
1zio.j
1.1
-
0.m
053
wS.0
0.1
1.)
7.5
0.11
0.n
0.01
3.1
707.3
135.9
10.1
16.3
11.0
11.D
3.0
b.1
5.1
vo.1
216.7
200.1
28 3 .O
0.0
9.1
29.1
77 .9
71.1
4.6
OT.3
20.5
19.5
>I
0.7
10.1
90.0
77.0
Y.)
2.?0
1.15
1. J5
2260-111
21bOo-115
2zM)-116
71 50
7190
7190
3090.2 105.6165.6
1lPO.l53.3 780.2
391.2 1315.6
1111 .lam.
"d
13.9
1.8
10.0
a. V o l u . el
11.1
0.6
10.6 10.3
e. p
0
u .Illla,
131.0
90.0
m.2
- HW.1
15W.B
1000.8
Tam. of O
m
tW
0
9
TW.2
350.1
16.2
n.r
22.1
8.9
0.99
0.91
0.91
TABLE A.66
A-255
8
C
z
L-
L
z
E
LY
LY
h
Y
cn
3
a
a
0
TABLE A.67
LATIGO RANCH
W S S OIL COWDSITJOti (2)
Less t h r n
Frrctfon
Cl5+ Frrctton
42.0
58.0
DETAILED C 4 4 7 COY?3SlTlON (N3RY.2)
Isohttrne
n-B;rtrne
lsopentrne
n-fenzrne
2.2-Dimcthylbutrne
Cy:lopentrne
2,3-Dimtthylbutrne
2-Y,rthylpentrne
3-Ntthylpentrne
n-Hexane
t!Ethy~Cyt~opcn:rne
2.2-Dimthylpenttne
Bmene
2,L-Dinethylpent#ne
2,2,1-'lrl~~thylbutrne
tyc~oherrne
3,3-Dimethylpcntrne
1,l-Dic~thylcyctopentrne
2-tk thy1 hcrrne
2,3-Di1wthylper,trne
~.~1~-3-Din~thylc~clopentane
3-Ktthylhexane
l,trtn~-3-Din~thy~cyctopentrne
1bt~tnr-t-DimethyWtcyclopentrne
3-fthylpentrne
n-h'e;trne
lbC~~-2-Dimethyttyc~~pent~ne
+!tthytcyttohcrrne
Toluene
0.6
1.5
4.5
3.6
0.4
0.4
1.4
5.6
4.0
8.6
7.0
0.5
2.4
1.2
0.5
7.3
0.3
0.9
6.0
0.0
1.4
4.3
1.5
2.2
0.3
7.8
0.3
16.4
8.0
7.56
0.23
1.05
1.08
0
4.6
7.9
e
8.5
2.1
8.2
1.5
8.0
7.5
7.3
6.7
6.2
5.5
5.3
4.3
4.0
3.2
T'
P
2.8
2.2
1.42
1.23
I .05
0.42
1.7
1.2
0.7
0.4
0.2
c
NON RR(US) DATA
c
QENERAL CRUDEI#l SIMPSON
A-257
0
0
c
c
TABLE A.68
LITHOLOGICDESCRIPTION
GENERAL CRUDE
#I SIMPSON
4.490-4.790'
5,010-8.110'
Mudstone. reddish brown
Some anhydrite
Mudstone, reddish brown
(some
purple)
Mudstone, greenish-gray
Dark shale. abundant in places
Some anhydrite
Traces of feldspar
A-259
TABLE A.69
TOTAL ORGANXC CARBON DATA
GENERAL CRUDE e1 SIMPSON
Project
SAMPLEIDENTIFICATION
RRUS
DEPTH
(Feet)
4510
901
914
915
902
5 892053
'
5090
5345
5615
904
6015
905
6125
6 295006
907
6430
6 596106
9 1 76 7 6 5
.
:
44905070531055805790-
4530
5110
5380
5650
5860
:
59606070
60906160
6210- 6290
6400- 6 4 6 0
6540- 6580
:
67306600
:
:
:
-
No. : R R U S 1 8 4 5 / M 1 8 0 7 / 4
:
DATA
TOC#
SAMPLEIDENTIFICATIO~
RRUS
DEPTH ( F e e t )
:
:
:
:
:
0.29
0.12
0.18
0.43
0.47
9 0 86 8 8 5
918
919
909
920
: 0.61
: 0.49
910
921
7765
911
922
912
7840
7965
BO40
: 0.31
913
8100
:
: 0.72
: 0.68
: 0.99
DATA
: TOC#
:
I
6975
7095
7275
7380
:
:
:
:
:
68506920
6940-7010
7060-7130
7240-7310
7360-7400
7580
:
:
:
:
7540-7620
77307800
7820- 7 8 6 0
7930- B O O 0
8020- 8 0 6 0
:
8080- 8 1 200. 5 6
:
0.33
: 0.31
: 0.26
: 0.36
: 0.44
1
:
:
:
:
0.52
0.43
0.61
0.45
0.58
I'
TABLE A.70
ROCK-EVAL PYROLYSIS RAW DATA
GENERAL CRUDE W l SIMPSON
Profcat No. : R R U S 1 8 4 5 l M 1 8 0 7 1 4
~~
SAMPLE IDENTIFICATION
RRUS
DEPTH
(Feet)
901
902
903
904
9 0651 2 5
6 295006
907
6 898058
7275
909
7 59
81
00
91 1
912
8 190103
DATA ( 5 1 , 5 2 , 8 3 m g l p o f r o o k , % a x d e p C )
51
s2
53
5 2 / 8 3 Sl/(Sl+SZ) Tmas
4510
5615
5825
6015
:
:
:
:
:
4490- 4 5 3 0
5580- 5650
5790- 5 8 6 0
5960- 6 0 7 0
6 0 9 06-1 6 0
0.170
0.070
0.080
0.150
1.280
0.110
0.420
0.330
0.930
;
6430
:
:
62106400685072407540-
6290
6460
6920
7310
7620
0.610
1.780
0.050
0.200
0.670
1.620
4.230
0.280
0.510
1.650
0.640
7820- 7 8 6 0 I 0 . 0 7 0
8020- 8060 I 0 . 0 6 0
8080- 8 1 2 0 I 0 . 1 1 0
0.530
0.610
0.490
0.570
0.510
0.430
:
:
7840
8040
:
:
:
~~~
0.020
.I.
0.880
1.455
0.330
0.390
0.340
0.610
0.333
1.077
0.971
1.525
0.117
0.154
0.143
0,195
0.139
0.780
1.000
2.077
4.230
0.438
0.911
1.964
0.274
0,296
0.152
0.282
1.082
1.070
1.186
0.090
0.560
0.840
0.289
0.117
0.177
-----------
--402
-------
-------
NOTE: A DASH INDICATES AN INDETERMINABLE VALVE
TABLE A.71
HYDROGEN AND OXYGEN INDICES FROM
ROCK-EVAL PYROLYSIS AND TOC DATA
GENERAL CRUDE # l 5IMPSON
Project No. : R R U S 1 8 4 5 I M l 8 0 7 I 4
SAMPLE
IDENTIFICATION
I
I
DEPTH
RRVS
(Feet) I
90 1
902
5 89
20
53
6 091054
6 192055
4510
5615
:
:
:
:
:
906
907
90E
909
910
6250
6430
6885
7275
7580
91 1
912
913
7840
8040
8100
:
:
:
:
:
44905580579059606090-
4530
5650
5860
6070
6160
HYDROGEN
INDEX
OXYGEN
INDEX
TOC
( m g HClgm T O C )
tmg C O Z l g m TOC)
I
I
I
I
I
441
26
89
54
129
0.43
0.47
0.61
0.72
303
77
83
56
85
238
427
85
142
317
0.68
0.99
0.33
0.36
0.52
115
101
194
156
162
(%)
0.29
I
6210-6290
'
6850-6920
7240-7310
7540- 7620
I
I
6400-
6460
i
I
I
:
:
:
E?
7820-7860
I
8020- 8060 'I
8 0 8 0 - 8120 I
105
91
A-261
80
98
77
0.61
0.58
0.56
TABLE A.72
VISUAL KEROGEN ANALYSIS- REFLECTED LIGHT
G E N E R A L C R U D E I1 S I M P S O N
0
P r o j e c t No. : RRU518451M1807I4
I
S A M P L EI D E N T I F I C A T I O N
RRUS
D E P(
TF
He e t )
4
95
01 0
:
6015
:
905
6125
9 0662 5 0
911
7840
:
:
904
912
913
8040
8100
:
:
:
I R E F L E C T .K E R O G E NC H A R A C T E R I S T I C S
I
Ro Y
Am%
Ez% Vlt% I n e r t % F l u o r
4 44
95
03
-0
:
5 9 6 0 -6 0 7 0
I
6090- 6 l b O I
6 2 1 06-2 9 0
:
7820- 7 8 6 0 I
8020- 8 0 6 0
8 0 8 0 - 8120
i
1.01
1.11
1.24
1.25
----
---1.35
35
35
30
40
0
0
30
30
LOW
Low
Low
0
None
0
0
None
40
30
LOW
0
50
0 35 30
0
40
tr
2535
0
0
0
0
15
LOW
TOC
Ya
0.29
0.61
0.72
0.68
0.61
0.58
0.56
0
0
0
0
I'
c
c
Ad262
GENERAL C R U X # I SItlPSON
RRUS No.
001
I D I CTGS.
DEPTH
4035.0 Ft
1504.2 n
8
t
t
t
L
VALUES
Ro tlATURlTY
MEAN
31
r
:
1.01
0.08
1.01
;
1.05
I
STD DEV
t
IIEDIAN
MODE
HISTOGRAnl
Ronge: 0- 4%
Increment: 0.10%
ORDEREDREFLECTANCEVALUES:
t0.80 t0.08 t1.04 V l . 1 8
t0.82 t0.98 t1.041.31
1.38
f0.80 tO.OO51.84
*0.90 %0.88 f1.06
tO.OO tl.01 t1.07
50.05 tI.01 tl.10
t0.85 21.02 tl.10
t0.06 t1.02 tI.11
*0.06 t1.02 t1.15
$0.07 tl.03 21.15
KEROGENDESCRIPTJON
Amorphous : 35 X
Erinirc
,
ilirinite i
lnerrlnlre :
Back Fluor
GENERALCRUDE
x
i
15 X
Lor
I
Bltmen
Coke
E
5i
3
lr
z
None
*I SIWSON
RRUS NO.
ID
I
DEPTH
.
2
I
004
6915.0 Fr
1933.4 fl
Ro nATUR‘TY
t
1
I
CTGS.
VALUES
26
t
MEAN
STD DEV
REDIAIU
MODE
1 .. 1. 1.
8
0.08
1.10
8
1.05
:
HISTOGRAPIa
V I T R I N I T ER E F L E C T A N C E
IRANDOPI X 1
ORDEREDREFLECTANtE
VALUES:
t0.07 Vl.08
t1.17 I .32
f0.87 11.08 ~1.18 1.32
* I .01 * I .08.* I . a
I .33
*1.02 fl.10 tl.22 I . 3 3
tl.03 *l.12 11.24 I .33
* I .05 tl .I2 * I .25 1.34
.t1.05 t1.13 1.28 I .34
t1.06 t1.15 1.29 I .35
Vl.07 t1.15 1.28
t1.07 t1.17 1.31
Range; 0- 4%
Increment. 0.103:
KEROGENDE5CR:PTION
35
Amorphous 2
Exinite
I
0
30
Vlqrinlle t
Inert inite I
35
B8Ch
I
Lor
COhe
I
rr
Fluor
Bitumen
A-263
X
X
t
, None
X
GENERAL CRUDE . I SIRPSON
DEPTH
I
L
t
I
nEAN
STD DEV
MEDIAN
nODE
0
26
z
1.24
I
8.08
1.26
I .35
t
:
? I 1 1 tl .21 :ti33
tl.ll tl.22 t1.35
tl.22 31.35
t1.26 tl.35
t1.27 t1.36
t1.27 31.38
? I . 18 tl.28
: I . 18 tl.30
V I . 19 tl .30
f1.13
t1.14
:I .I6
t1.16
0
HISTOGRAPI~
Range, 0- 4X
Increment, 0.10X
KEROGEN DESCR'PTION
Amorphous I 30
I
0
Exinite
Vitrlnlre I 40
30
Inercini1e 8
ORDERED REFLECTANCE VALUES:
0.88
_ " tl.20 *1.33
PI
1866.8
Rd l l A T U R ' T Y
VALUES
VITRINITE REFLECTANCE IRANDOPI X1
6'25.0 F t
BaCh Fluor
Bitumen
tohe
I
0
X
LOW
I
7
X
X
X
tr
done
0
0
GENERAL CRUDE . I SInPSON
RRUS No.
ID
,
8%
P
CTGS.
I
DEPTH
I
I
6335.0 f r
1330.8 n
Ro HATUR'TY
t
E
S
VALUES
nEAN
STD DEV
flED1A.N
n0DE
34
I
1.25
0.08
1,23
1.35
I
I
r
*
HISTOGRAH~
Range: 0- 4%
Increment: 0.10%
ORDERED REFLECTANCE VALUES:
0.85 ? I .17
0.87 ? I .18
1.01 tt.1a
1.01 t1.18
1.03 tl . I 8
tl.10 t1.20
11.23
t1.23
t1.23
t1.24
t1.26
11.26
.32
? I .33
tl .34
? I .34
T1
KEROGEN DESCR'PTION
1.38
1.41
1.43
tl .35
tl.36
? I . l I ? I .21 11.28
. ."
? I .36
t1.12
t1.31 ? I .36
t 1 . 1 3 tl.22 t1.32 t1 .36
?I121
~
t1.16 t1.22 t1.32
c
Amorphous
t
Exinite
Vltrinlte
Inert inite
:
Back Fluor
Bitumen
:
t o he
:
I
,
:
40 %
tr
%
35 %
25 X
LOW
tr
c
None
I .30
c
A-264
GENERAL CRUDE D'I 51nPSON
RRUS N o . I 0'1
ID CTGS.
I
DEPTH
INSUFFICIENT SAHPLE flATERlAL
BEAN
P
k
8
71348.0 Ft
I
~ 7 ~ 9 .n6
I
N D.
HISTOGRAII~
Range, 0- 4 %
Increment: 0.10%
VITRINITE REFLECTANCE IRANDDn X 1
ORDERED REFLECTANCE VALUES:
KEROGEN DESCR'PTIOti
Amorphous I
0 X
Exinite
I
0 %
Vitrinite t
0 X
lnertlnite I
0 X
Back Fluor
Bi tunen
Coke
GENERAL CRUDE . I
:
I
None
Nope
None
SIflPSON
INSUFFICIENT SAHPLE nATERlAL
"
00 . 0
1.0
2.0
3 0
VITRINITE REFLECTANCE IRANDDH X 1
ORDERED REFLECTANCE VALUES:
4 0
HISTOGRA~~~I0- 4% Rsnge,
Incremenr: E.107,
KEROGEN DESCRIPTiON
0 2
Amorphous 8
Exinite
0 X
Vlrrlnlte I
0 X
Incrtinite t
0 %
Each Fluor
B i lumen
Cohe
A-265
,
:
None
None
Nore
GENERAL CRUDE ~1
.
s
U
SInPSDN
z5j
RRUS No.
ID
.
I
DEPTH
1
nEAN
STD DEV
nED1AN
nODE
l0
8'3
I
8'80.0 FI
I
2.16B.6
,
tl
0
Ro nATURlTY
VALUES
!g 5
0
0.0
=
I
C7tS.
46
1.35
0.09
1.35
1.35
:
t
I
2
0
HlS7OGRAfl:
3.e
VITRIKITE REFLECTANCE IRAN30fl X 1
1 .E
2.0
4 0
Ronge E- 4%
Increme-1 E.1E.Z
ORDERED RiFLECTANfE VALUES.
P
E.86
Xl.24 t!.32 11.36 11.45
l.E6 11.24 11.32 1: 38 11.45
1.06 71.27 11 .34 11 .38 11 .45
qI.16 11.27 11 .34 11 .41 11 .46
11.18 11.26 1 1 .35 tl .42 11 .47
tl.20 11.29 Tl.35 tl.42 1 1 . 4 8
t1.21 1 1 .30 t1.35 1 1 .42 11 .46
71.21 tl .30 t1.35 11.43 tl . 4 6
t1.23 t1.31 t1.37 11.44 11.55
31.24 % I .31 t1.36 71.44
Bock Fluor
Bltumen
Core
, Lor
:
lr
:
~r
c
c
c
A-266
TABLE A.73
COMPOSITION OF S O U R C E R O C K E X T R A C T
GENERAL CRUDE ll S I M P S O N
Project No. : R R U S / 8 4 5 / M / 8 0 7 / 4
S A M P L EI D E N T I F I C A T I O N
~
I
I EXTRACT
~~
~~
AROM
SAT
POLARS
I
pasoentape
I
ppm
e e tD)E P T H R R U S
906
907
7 5 8 09 1 0
6250
6430
I
:
:
:
6210- 6 2 9 0 I
6400- 6 4 6 0
7540- 7 6 2 0
i
4444
5906
2877
49.6
45
.6
55.727.7
8.1
42.3
46.4
8.0
16.6
TABLE A.74
SUMMARY TABLE SHOWINC SELECTED PARAMETERS
OF O I L S A M P L E S
GENERAL CRUDE X 1 SIMPSON
Project No. : R R U S l 8 4 5 l U l 8 0 7 1 4
6 A M PILDEE N T I F I C A T I O N
RRUS
9 0662 5 0
907
910
(
DF
Ee
Pe
Tt
H)
6430
7580
:
:
:
: EXTRACT
I
I
- -TOC
- - -- -
SATS
YI
RAT1 OS
Phl
Pr I
IC:17
IC:18
IPh
Prl
I
6 2 1 06-2 9 0
I
6400- 6 4 6 0 I
7540- 7 6 2 0 :
0 . 6 5449 .06. 108. 027. 4 3
0.597
45.6
0.25
0.553
55.7
0.27
A-261
0.29
0.34
1.00
0.71
CPI
_--_
--_
----
0
TABLE A.75
HEAVY
HYDROCARBONS
NORMALIZED
TO
0
1 0 0'U
G E N E R A L C R U D E a 1 SIMPSON
Project No.
S A M P L IE D E N T I F I C A T I O N
: RRUSI845IMI807I4
I
NORMALIZED n-ALKANES
I
0
!
RRUS
906
907
910
D E P(TFHe e t )
6250
6430
7580
:
:
:
:
I
6 2 1 0 -6 2 9 0
I
6400- 6460 I
7540- 7620 I
I
I
R RDUESP(TFHe e t )
C-15
C-16
C-17
C-18
C-19
C-20
C-21
7 . 0 08 . 3 09 . 4 09 . 7 09 . 9 09 . 7 0
1.30 1.30 2 . . 4 0
2.10
2.30 4.30 5 . 6 0 6.10
2 . 9 0 4 . 7 0 6.40
7.60 10.90 1 0 . 6 0
9.20
~
C-22
C-23
C-24
C-25
C-26
C-27
C-28
I
!
9 0662 5 0
907
910
:
6430
7580
:
:
6210- 6 2 9 0
:
8.50
7 . 460. 1 0
4.80 3.50
6400- 6 4 6 0 I 10.60 12.00 11.30 11.80 10.70
7540- 7 6 2 0 ; 1 2 . 7 0 11.80 9 . 7 0 7 . 5 0 4 . 7 0
2.40
8.20
1.70
1.40
6.30
1.10
0
I
RRUS
906
907
910
D E P(TFHe e t )
6250
6430
7580
:
:
:
6 2 1 0 -6 2 9 0
I
6400- 6 4 6 0 I
75407620
I
i
R RDUESP(TFHe e t )
906
907
910
6250
6430
7580
I
:
:
:
6 2 1 06-2 9 0
6 4 0 0 -6 4 6 0
7540-7620
i
I
I
C-29
C-30
C-31
C-32
C-33
C-34
C-35
0 . 7 50 . 5 0 . 3 0 . 1 0 . 4 0
3.50 2 . 1 0
1.50
0.60
1 . 3 01 . 1 0
0.00 0 . 0 0
0.00
0.20 0 . 0 0
0.00 .00
C-36
C-37
C-38
C-39
C-40
PR
0.00
0.00
0.00
PH
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
-
1 . 700. 7 0
0 . 6 0 0.60
1.50
2.10
I'
A-268
RRUS
L
I
2
*I
2
DEPTH
806 :
62%
:
RRUS
(Feet)
i
DEPTH
a.
:
a10 :
7688 (F-1)
:
II
A
L
A
I
:k
I
II
0
246
KEY
RRUS
DEPTH
A
L
:
607
:
6430 ( F d )
R
GENERAL CRUDE # I SIMPSON
I=I08xPristone/TotoI
2=100xPhvtane/Totol
3.Pristone/n-C-17
4=Phytone/n-C-I8
&Prfstone/Phytmne
GPCmbon Prsf.Index
NORMALIZED DISTRIBUTION OF n-ALKANES
A-269
NO. 1 SIMPSON
I
0
SAMPLE: RRUS NO. 906
6250 feet
P
I
SAMPLE: =US
6430 feet
NO. 907
QASCHROMATOGRAMS OF C15
+ SATURATE HYDROCARBON?
A-270
NO. 1 SIMPSON
1
SAMPLE: RRUS NO. 910
7580 feet
GAS CHROMATOGRAMS OF C16+ SATURATE HYDROCARBONS
A-271
0
0
0
0
YATES PETROLUEM CORP.. I1 T-4 CATTLE CO.
A-273
0
0
0
I'
A-274
TABLE A.76
LITHOLOGICDESCRIPTION
YATES
T-4CATTLECOMPANY
400-
560'
560950'
950-6.570'
6,570-'7,220'
Pink siltstone with abundant calcareous percentage,
shale percentage very small.
Red sandstone with varyingpercentages of shale (mudstone)andcalcareous
pieces. Calcareous pieces are
the least abundant, possibly some angular to subangular
gypsum.
Sandstone, red to pink,
clean large pieces of quartz,
angular to subangular pieces of light to dark gray.
shale, much of the sandstone stuck together
with white
and green to ochre clays,
novisible gypsum, horsver
some large calcareous(mudstone) clasts
Sandstone-calcareous mudstone, red to pink,
shale
various colors red, It. to dk. gray. Some rhyoli'r? and
quartz pieces. Quartz is sharp and clean. I t is very
difficult to determine the percentages of lithologies
due to the dirt in the samples, however, the shale is
definitely not as abundant as the sandstone.
A-275
0
TABLE A.77
TOTAL ORGANIC CARBON DATA
YATES # l T.Y. CATTLE C O .
P 1 0 5 e e t No. : R R U 5 / 8 4 5 / M l 8 0 7 1 4
SAMPLE IDENTIFICATION
RRUS
DEPTH (Feet)
435
1301
13021035
1303
1635
13042025
13052520
:
:
:
:
:
4 0 04
-7 0
1000-1070
16001670
2000-2050
2500-2540
:
I
DATA I
SAMPLE IDENTIFICATION
I '
: TOCW I RRUS
I
I
:
:
:
:
0
0 . 01
53 15
15 3 5
0 . 0 6 I 1 3 1 26 0 3 5
0.06
1313
6320
0 . 2 1 i 1 3 1 46 4 5 5
0 . 3 8 I 13156595
DEPTH
:
:
:
:
(Feet)
DATA
..
TOC%
i:
:
55005
-570
6 0 0 0 -6 0 7 0
63006340
6 4 2 0 -6 4 9 0
6 5 8 0 -6 6 1 0
0.30
0.14
: 0.35
:
:
:
:
6 7 3 0 -6 7 7 0
1 0.20
6 8 6 0 - 4 9 0 0 : 0.16
6 9 5 0 -6 9 6 0
: 0.16
7 1 7 0 -7 2 3 0
: 0.23
: 0.25
: 0.38
I
1 3 0361 2 0
3535
1307
1308
4025
1309
4535
1310
5035
:
:
:
:
:
3 0 7 03-1 7 0
3490- 3 5 8 0
3990- 4060
4500- 4 5 7 0
5000- 5070
0 . 0 7 i 1 3 1 66 7 5 0
0 . 0 9 I 1 3 1 76 8 8 0
0 . 0 4 I 13186955
0 . 0 g I 1 3 1 97 2 0 0
0.08
0
0
I
I
0
0
A-276
TABLE A.78
ROCK-EVAL PYROLYSIS RAW
DATA
YATES # l T.H. CATTLE C O .
Project No. : R R U S 1 8 4 5 l M 1 8 0 7 1 4
I
SAMPLE 1DENTIFICA.TION
I DATA ( S 1 , 9 2 , 5 3 mglgm of r o c k , Tmax d e g C)
I
RRVS
DEPTH
(Fast) I
51
52
83
8 2 / 5 3 8 1 1 ( 5 1 + 5 2 ) Tmax
I
I
1304
1305
1311
1313
1315
2025
2520
5535
6320
6595
131
66
750
1319
7200
:
:
:
:
20002500550063006580-
:
:
6 7 3 06-7 7 0
71707230
:
2050
2540
i
I
5570 I
6340 I
6610 I
I
0.050
0.030
0.060
0.070
0.360
0.160
0.140
0.080
0.160
0.340
0.020
0.060
0.080
0.170
0.130
0.111
0.600
0.314
0.318
0.460
0.630
0.600
0.510
0.440
0.520
0.455
0.222
0.193
0.333
0.176
0.32
07
.320
0 . 7 506. 3 2 0
0.450
---------------
fi
NOTE:
A
DASH INDICATES
AN
INDETERMINABLE VALUE.
TABLE A.79
HYDROGEN AND OXYGEN INDICES F R O M
ROCK-EVAL PYROLY6IS AND TOC DATA
YATES # I T , V . CATTLE CO.
Project No. : R R U S 1 8 4 5 I M 1 8 0 7 1 4
~~~
SAMPLEIDENTIFICATION
I
I
RRVS
DEPTH
(Feet) I
I
HYDROGEN INDEX
(mg HClgmTOC)
OXYGEN INDEX
(mg COZlgm TOC)
TOC
(H)
8
1304
1305
1311
1313
1315
2025
2520
5535
6320
6595
:
:
:
2000- 2 0 5 0
2500- 2540
5500- 5 5 7 0
6300- 6340
6 5 8 0 -6 6 1 0
:
:
67306770
7 1 7702-3 0
:
:
I
I
I
I
I
29
18
120
46
37
219
166
200
146
116
0.21
0.38
0.30
0.35
0.38
260
196
0.23
I
1316 750
1319
7200
I
:
I
85
0.20
148
A-277
e
TABLE A.80
VISUAL KEROGEN ANALYSIS
-
REFLECTED LIGHT
Y A T E S # 1 T.q. CATTLE C O .
0
Projeot No. : R R U S / 0 4 5 / M l 0 0 7 / 4
SAMPLE IDENTIFICATION
RRUS
R E F L E C T .K E R O G E NC H A R A C T E R I S T I C ST O
(Feet)
DEPTH
RO U
Am%
C
Ex# V i t Y InortU Fluor
%
-
1305
1311
1313
2520
5535
6320
1315
6595
:
:
1316
6750
:
:
:
1319
7200
:
2500- 2 5 4 0
5500- 5570
6300- 6340
6 5 0 0 - 6610
6730- 6770
71707230
””
25
0.73
””
0.96
0.95
I
I
.I .
””
tr
tr
0
tr
0
0
tr
40
0
455
5
0
20
35
2205
0
0
0
0
35
0
None
None
None
None
0.38
0.30
0.35
0.38
0.20
None
0.23
ne6
0
a
a
0
I’
A-270
YATES
1.4. CATTLE CO.
SI
25
RRUS NO.
ti
ID
I
1305
I
CTCS.
DEPTH
I
2070.0
630.0
I
N.D.
I
BARREN
nEAN
Ft
I
I
E
S
0
,...,,....I..,.
O.e
,,,,
.,,,
2 . 0I . 0
'
,
I
,
,
,,,,
3.0
I
HISTOGRAII:
Range: 0- 4 %
Increment, 0 . l E X
4.0
VITRINITE REFLECTANtE IRANDOn X 1
ORDERED REFLECTAHCE VALUES:
KEROGEN DESCRlDTlOh
tr x
Amorpnous t
Expnite
I
0 x
Virrinire I
tr X
Inerrinite I
0 X
0.0e
Back Fluor
B i lumen
Coke
YATES S I
1.V.
I
I
9
None
None
None
CATTLE CO.
RRUS No.
ID
:
1311
CTCS
I
DEPTH
I
I
E035.0
1534.7
Ro IIATUfilTY
I
E
n
VALUES
IIEAN
STD DEV
MiDlAN
MODE
I
6
3
0.73
:
0.11
0.70
0.E5
I
8
5
0
VITRINITE REFLECTANCE IRANDOII XI
ORDERED REFLECTANLE VALUES:
X0.50
HISTOGRAII~
Range. 0- 4 %
Increment E.10X
KEROGEN DESCRIPTION
25 X
Amorphous 8
I
tr X
Exinire
40 X
Vitrinite I
lnerr inire I
35 X
Boch Fluor
Eit m e n
Coke
A-279
:
None
I
tr
.
tr
Ft
n
YATES
25
20
T.Y.
SI
CATTLE CO
1
_I
RRUS
ID
:
No. , 1313
CTCS.
DEPTH
15
t
6170.0 F I
1880.6 n
I
N.D.
8
INSUFFICIENT SAnPLE nATERIAt
MEAN
HlSTOGRAM:
Range> 0- 4 %
Increment. 0.10%
ORDERED REFLECTANCE VALUES.
KEROGEN DESCRIPTIO&
tr X
Amorphous I
Exinlte
:
0 x
Virrinite :
0 f
Inertlnlre ,
0 x
Back Fluor
B i lumen
Cohe
I
None
Nore
1
Nono
:
0
0
0
YATES
SI
T.Y.
CATTLE CO.
RRUS No. I 1315
ID I CTGS.
DEPTH
.
:
:
:=
*
RO
nATmITy
VALUES
V iAN
SlD DEV
MEDIAN
MODE
.0
VITRINlTE REFLECTANCE (RANDOM XI
ORDERED R E F L E C T A K E VALUES.
20 80 tl.02
t0.83 tl .03.
$0.84 :I .06
f0.85 tl .07
20.86 :I .08
tE.89 * I .15
f0.QI :I 15
t0.82
f0.82
6515.0 Ft
lF85.8 fl
I
17
a
0.86
0.11
e.82
0.85
:
I
:
HISTOGRAM;
Range. 0- 4 2
Increment. @.I01
V'
KEROGEY DESCRIPTlOk
Amorphous I
45 X
Exinite
:
0 %
35 f
Vlrrinlre I
lnertinite I
20 X
Back
Fluor
ned
Elrumen
Cohe
f0.98
A-280
:
I
tr
tione
YATES
81
T . M . CAllLE CO.
RRUS No.
ID
I
,
1316
ClGS.
DEPTH
6815.0 Ft
2877.2 n
t
t
.
S
i
5]
J&
,.,,,
0
0.0
=
Ro nATURITY
VALUES
MEAN
t
SfD DEV
r
nED!AN
I
noDE
............................
1.0 3.0 2.0
VJTRJNITE REFLEClANCE IRANDOn X 1
4.8
.
ORDERED REFLECTANCE VALUES:
S0.83 X 1 .06
S0.85 :1.07
S0.86 1 1 .I0
13
t
0.85
0.08
0.80
0.85
>
HJSTOGRAH:
Rnnge: 0- 4 2
Incremenr, E.102
KEROGEN DESCRIPTION
55 X
~morDnous I
Exinire
:
0 X
Vitrlnlte I
25 X
lnertinite :
20 x
~0.87
BDCh Fluor
None
Bitumen
:
None
Co he
, tiope
SI .08
$1.03
YAlES . I
-
0
0.0
1.H.
CATTLE CO.
2 0 4.0 3.0
VJTRJNITE REFLEClANCE IRANDOn XI
18
ORDERED REFLEClANCE VALUES:
HJSTOGRAn:
Rnnge: 0- 4%
Jncremenr: 0.10%
KEROGEN DESCR'DTION
0
Amorphous I
Exinlte
:
E
Vltrlnlte I
0
lnertlnite
0
Bsch Fluor
8 i rumen
Cohe
A-281
8
None
None
:
honP
I
t
X
X
X
TABLE
A.81
COMPOSITION OF SOURCE R O C K E X T R A C T
YATEE a 1 T.N. CATTLE
Project No.
R R U S( F e e t )D E P T H
:
71230109
71707230
I
a
: RRUSl8451HlB~714
I
I EXTRACT
1
I
ppm
I
S A M P L EI D E N T I F I C A T I O N
co.
BAT
POLARS
percentage
6114.4 3
TABLE
AROH
a
1270..79
4
A.82
SUMMARY TABLE SHOWING SELECTED PARAMETERS
OF OIL SAMPLES
Y A T E S t l T.Y. CATTLE CO.
P r o f e o t No. : R R U S l B 4 5 l M 1 0 0 7 1 4
SAMPLE IDENTIFICATION
I
I
RRUS ( F e eDtE)P T H
-E -X -T -R -A-C-T
. SAT5
n
TOC
PI1
IC:17
RATIOS
Phl
Pr
I
CFI
IC:18
IPh
0
~~
1319
7200
:
71707230
:
0.627
61.4
0 . 07 .1 7 2
0.71
--__
0
c
I'
A-282
TABLE A.83
H E A V Y H Y D R O C A R B O N 3 N O R M A L I Z E D T O100%
YATES # l T.Y. CATTLE CO.
Project N o . : R R U S 1 8 4 5 1 M J B 0 7 J 4
S A M P LIED E N T I F I C A T I O N
I
I
DEP(
TF
Heet)
I
I
C-15
C-16
C-17
C-18
C-19
C-20
C-21
:
0.60
RRUS
:
13197200
RRUS
:
1319
7200
I
I
71707230
:
i
I
D E P T H( F e e t )
1319
7200
RRUS
I
D E P T H( F e e t )
1 3 17
92 0 0
RRUS
7170-7230
7 1 7 07
-2 3 0
:
3.30
8 . 5 0 1 1 . 8 03 . 2 02 1 . 4 01 5 . 7 0
C-22,C-23C-24C-25C-26C-27C-28
12.77
0.30
6.20
3.30
2.10
1.30
C-29
C-30
C-31
C-32
C-33
C-34
C-35
i
0.60
I
.
NORMALIZED n-ALKANES
I
(Feet) I
DEPTH
.
0.50
0 . 30 . 3 0
0.00
C-36
C-37
C-38
C-39
C-40
0.80
0.00
0.00
PR
PH
6.00
8.50
1
I
71707230
I
I
0.00
0.00
A-283
0.00
0.00
0.00
KEl
NORHALIED DISTRIBUTION OF n-ALKANES
i
A-284
T-4 CATTLE
CO.
I
SAMPLE:
7200 feet
RRUS NO. 1319
GAS CHROMATOORAMS OF C l S + SATURATE HYDROCARBONS
A-285
0
0
0
0
0
0
c
c
c
OILS
A-207
0
0
0
c
TABLE A.84
OIL COMPOSITION AND API GRAVITIES
.
OILS
Project Nc.
: RRUSl845lM180714
I
I
S A M P LIED E N T I F I C A T I O N
RRUS
(ID)
SAMPLE
API
SAT
I
P U L A RASR O M
I GRAVITY
I
percentage
I
3401
3402
3403
3404
3405
B.T. E A S23.7
TB I L L Y 72.8 I
B . T . # l NETTLES
I
I
B . T . B I L L Y DSTl
1A
L A T I G OR A N C H
B.T.BILLY
39.6
40.3
46.7
62.6
I
47.2I
46.0
94 . B
31.7
26.7
3.2
21.8
I
I
32.6
51.6
36.4
M AMYA3FR4I.0E6L D
66.6
42.5
3.5
5.7
6.7
2.0
31.0
12.0
TABLE A.85
SUMMARY TABLE SHOWING SELECTED PARAMETERS
OF OIL SAMPLES
OILS
Projact No. : RRUS18451M180714
SAMPLE IDENTIFICATION
RRUS
SAMPLE
(ID)
7I
I
1
MAR. MAYFIELD
-”””
TOC
----------
3401
B.T.
EAST BILLY
3402
B.T. a 1 NETTLES
DSTl
3 4B0.3T . B I L L Y
3404
LATIGO RANCH 1 A
B . T3.4B0I5L L Y
3406
E XRTBARATAT1CST
----
””
I
I
I.
----
%
OS
Prl
Phl
Pr
I C :I1C7:IlP8h
CP I
I
72.8
0.84
0.96
0.95
0.93
62.6
66.6
94.8
47.2
1.04
0.86
0.10
0.82
1.25
0.83
0.11
0.95
0.88
1.ll
1.00
1 .O4
----
5 11..67 5
1 .17.80 3
0.93
1.14
””
1.08
TABLE A.86
0
H E A V Y H Y D R O C A R B O N S N O R M A L I Z E D T O100%
OILS
P r o j e o t No. : RRVS1845/M1807/4
I
S A M P L IE D E N T I F I C A T I O N
NORMALIZED n-ALKANES
I
I
RRVS
SAMPLE
(ID)
I
I
C-15
C-16
C-17
C-18
C-19
3 4B0.1T .
EAST BILLY
11.00
12.10 11.30 10.40
I 10.50 11.40 11.00 10.30
B . T .0 1N E T T L E S
3402
I 10.70 11.70 11.70 10.90
DST1
3 4B0.3T . B I L L Y
0 . 8 90 . 1 0
3 4 0L4A T I GROA N C H
1A
I 10.40 1 0 . 2 9
9.90
9.90
9.70
8.50
C-20
C-21
8.80
9.30
9.10
6.90
7.20
6.90
8.00
7.50
9.00
6.70
7.40
I
B . T3.4B0I5L L Y
3406
I 14.30 12.80 11.40 10.50 1 0 . 0 0
M AMRA.Y F I E L D
I
9.50
9.60
9.20
8.80
8.90
9.20
2.60
2.00
1.60
I
3405
3406
B.T.BILLY
M A RM.A Y F I E L D
I
I
6 . 2 0 4.80
3.50
7 . 460. 140. 930. 630. 020. 4 0
1.20
1.90
I
RRVS
SAMPLE
(ID)
B . T3.4B0I5L L Y
3.406
RRUS
M AM RA .Y F I E L D
S A M(
PI
LD
E)
3401
B . T . EAST BILLY
B . T . 01 N E T T L E S
3402
3 4B0.3T . B I LDLSYT l
1A
3 4 0L4A T I GROA N C H
B . T3.4B0I5L L Y
3 4 0M6A RM.A Y F I E L D
I
I
C-29
C-30
C-31
C-32
C-33
C-34
c-35
I
1.20
2.10
:
I
I
I
0.90
1.60
0.60
1.40
0.40
0.80
0.20
0.70
0.00
0.40
0.00
0.40
PH
C-36
C-37
C-38
C-39
C-40
PR
4
I
I
I
:
:
:
0.00
0.20
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 . 0 0 9.50 1 0 . 0 0
0 . 0 0 11.4012.90
0 . 0 0 1 0 . 1 09 . 1 0
0 . 0 0 1.00
1.00
0.00
0.30
0 . 0 00 . 0 0
0.00 0 . 0 0
0.00
0.00
0.00 9.30
10.00
0 . 0 0 16.10
15.70
A-290
OILS
SAMPLE: RRUS NO. 3401
#1 EAST BILLY'S CREEK
1
SAMPLE: RRUS NO. 3402
# I NETTLES
~
GAS CHROMATOGRAMS OF C15
A-291
~~
~~
~
+ SATURATE HYDROCARBON:?
OILS
0
0
1
0
SAMPLE: RRUS NO. 3403
#1 BILLY'S CREEK, CST.1
0
I,I !1
b
A-292
OILS
SAMPLE: RRUS NO. 3406
MAR. .MAYFIELD
GAS CHROMATOWtAMS OF C 1 6
+ SATURATE HYDROCARBONS
A-293
0
A
L
0
I
I
11
?
L
R
C
E
* I
0
T
KEV
N CU AM RB I EORN
RRUS
:
SWLE
g a.
P
.
M
I
A
L
3482
I
KEY
YC UA MR II LOPN
I
B.T. # I NETTLES ( I D )
'
h
R
!
":k
0
A
1
e
CAIIOON
NUIIOLR
0
a4Ed
KEY
0
c
OILS
I-IWdxPrIstdotoI
PI0ExFhytone/Totol
Wrimtmn./n-C-I7
&Prirtm/Phytm.
4EPhytmln-C-18
&Corbw, Prd.1nd.x
NORMALIZED DISTRiBUTION OF rrAU(AMS
A-294
I'
TABLE A.07
tXST OF ABBREVIATIONS USED
IN GASOLINE RANCE HYDROCARBONSDATA TABLE
COMPONENT
DEFINITION
METHANE
ETHANE
3 . PROPANE
4.
I-BUTANE
5.
n-BUTANE
6.
I-PENTANE
7.
n-PENTANE
a . 2.2 DMB
9 . CP
10.2,3
DMB
11.
2 UP
1 2 . 3 MP
13. HEXANE
1 4 . ncp
IS.
2.2 DMP
16. a , 4 DMP
17.
BENZENE
l a . CH
19.3.3
DMP
20. 2 MH
METHANE
ETHANE
PROPANE
160-BUTANE
norml-BUTANE
I.0-PENTANE
normal-PENTANE
2 , 2 DX-METHYL-BUTANE
CYCLO-PENTANE
2.3 DX-METHYL-BUTANE
2 METHYL-PENTANE
3 METHYL-PENTANE
HEXANE
METHYL-CYCLO-PENTANE
2,2 DI-METHYL-PENTANE
2 , 4 DX-METHYL-PENTANE
BENZENE
CYCLO-HEXANE
3.3 DX-HETHYL-PENTANE
2 METHYL-HEXANE
1.
2.
21.
22.
23.
24.
25.
26.
27.
28.
29.
30.
31.
2.3 DMP
1 , l DMCP
3 MU
1-0-3 DMCP
1-t-3 DMCP
2,3 DI-METHYL-PENTANE
1 . 1 DI-METHYL-CYCLO-PENTANF
3 METHYL-HEXANE
1-Cis-3 DX-METHYL-CYCLO-PEhTANE
1-trans-3 DI-METHYL-CYCLO-FENTANE
1-t-2 DMCP
3 EP
1-trans-2 DX-METHYL-CYCLO-FENTANE
3 ETHYL-PENTANE
HEPTANE
MCU
ECP
TOLUENE
HEPTANE
METHYL-CYCLO-HEXANE+(l-0-2 DMCP)
ETHYL-CYCLO-PENTANE
a
TOLUENE
tr
:
na
:
*
:
TRACE AMOUNT DETECTED((0.1%)
COMPONENT RATIO NOT AVAILABLE
CO-ELUTINC COMPONENTS
A-295
0
TABLE A.88
~~
~~
INDIVIDUAL COMPONENT CONCENTRATIONS
IN GASOLINE RANCE HYDROCARBONS
OIL5
P r o j e c t No. : R R U S 1 8 4 5 l H 1 8 0 7 1 4
RRUS : 3 4 0 1
ID : B.T. EAST BILLY
”””
COMPONENT
COMPONENT
Y
””_””
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
COHPONE?IT
%
“”””_
METHANE
ETHANE
PROPANE
1-BUTANE
n-BUTANE
I-PENTANE
n-PENTANE
2 , 2 DMB
CP
2,3 DMB
2 UP
3 MP
HEXANE
1 4 . MCP
1 3 .2 , 2
DMP
1 6 .2 , 4
DMP
1 7 . BENZENE
1 8 . CH
1 9 . 3 , 3 DMP
2 0 . 2 MH
2 1 .a , 3
DMP
2 2 .l , l
DMCP
0.0
0.0
12.
13.
0.0
0.2
0.1
3.0
0.2
0 .4
0.3
1.4
3.5
Y
”-”””
3.4
0.9
2.6
2.6
0.0
0.1
7.8
0.3
5.6
0.0
6.0
23. 3 MH
1-0-3 DMCP
24.
1 - t - 3 DMCP
26. 1 - t - 2 DPICP
2 7 . 3 EP25.
2.9.
HEPTANE
2 9 . MCH
3 0 . ECP
3 1 . TOLUENE
5.5
3.8
3.6
4.7
4. . 7
~ .
2.5
32.2
0.6
2.1
RAT I OS
””
”
~~”
1 . 1-BUTANE I n-BUTANE
2 . i-PENTANE I n-PENTANE
3 . CP I 2.3 DMB
4 . 2 MP I 3 MP
5 . HEX I (MCP + 2 , 2 DMP)
6.
2
-
nn
””
-2 ..4-
I
1.9
10.9
-
DMP
-.
.
7 . 3 MH I ( 1 , l DMCP + l - o - , 3 DMCP)
0 . 1 - t - 3 DMCP I 1 - t - 2 DMCP
9 . CH I ( 1 , l : + 1 - 0 - 3 : + 1 - t - 2 : + 1 - t - 3 : DMCP )
1 0 . (HEX + HEP) I 3 M H
1 1 . (CH + 1 - 0 - 2 DMCP + MCH) I 3 MH
1 2 . CH I (MCH + 1 - 0 - 2 DMCP)
1 3 . (MCP + 2 . 2 DMP) I (MCH + 1 - 0 - 2 DMCP )
RRVS : 3 4 0 2
0
0.2
1.0
0.1
7.0
0.5
0.7
0.4
0.6
7.1
0.2
0.1
0
ID : B.T. e 1 NETTLES
”””
w
COMPONENT
“””“-
1 . METHANE
-2.
3.
4.
5.
6.
7.
8.
ETHANE
PROPANE
I-BUTANE
n-BUTANE
I-PENTANE
n-PENTANE
2 , 2 DMB
9 . CP
1 0 ; 2;3 DMB
1 1 . 2 MP
COMPONENT
COMPONEYT
Y
0.0
0.0
0.0
0.2
0.1
3.7
0.5
0.3
0.3
1.8
3.3
1 2 . 3 MP
1 3 . HEXANE
1 4 . MCP
1 5 .2 , 2
DMP
1 6 .2 , 4
DMP
1 7 . . BENZENE
1 8 . CH
1 9 .3 , 3
DMP
2 0 . 2 MH
2 1 . a , 3 DMP
2 2 .1 , 1
DMCP
u
”^”””
””””_
3.4
0 . 9
3 . 1
3.1
0.9
0.6
0.9
0.3
4.6
0.0
5.1
23.
24.
25.
26.
27.
28.
29.
30.
31.
3 MH
1-0-3
1-t-3
I-t-2
3 EP
DYCP
DYCP
DYCP
5.
4.
4 .
5.
5.
2.
26.
0 .
5.
HEPTANE
HCH
ECP
TOLUENE
v‘
P
RATIOS
”””
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
I-BUTANE I n-BUTANE
I-PENTANE I n-PENTANE
CP I 2 , 3 DMB
2 MP I 3 PIP
HEX I (MCP + 2 , 2 DMP)
2 M H I 2 , 4 DMP
3 HH I ( 1 . 1 DMCP + 1 - 0 - 3 DMCP)
1 - t - 3 DMCP I 1 - t - 2 DMCP
CH I ( 1 , l : + 1 - 0 - 3 : + 1 - t - 2 : + I-t-3:DMCP)
(HEX + HEP) I 3 M U
(CH + 1 - 0 - 2 DMCP + MCH) I 3 MH
CH I (MCH + 1 - 0 - a DMCP)
(MCP + 2 , 2 DMP) I (MCH + 1 - 0 - 2 DMCP)
A-296
’
1.6
7.5
0.2
0.9
0.1
5.0
v’
0.5
0
0
0
7
0
0
. 7
.4
.6
.0
. 3
.2
c
.
INDIVIDUAL COMPONENT CONCENTRATIONS
IN GASOLINE RANGE HYDROCARBONS
OILS
P r o j e c t No.
RRUS :
: RRUSI045lM1007/4
ID : B.T.BILLY DSTI
3403
”””
COMPONENT
COMPONENT
#
””-””
I . METHANE
ETHANE
PROPANE
I-BUTANE
n-BUTANE
6 . I-PENTANE
7 . n-PENTANE
8 .2 , Z
DMB
9 . CP
1 0 . 2 , 3 DMB
1 1 . 2 MP
2.
3.
4.
5.
!h
”-”””
~~
0.0
0.0
0.0
0.2
0.7
2.4
1.9
0.5
0.3
0.9
2.6
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
3 MP
HEXANE
MCP
2 , 2 DMP
2 , 4 DMP
BENZENE
CH
3 . 3 DMP
2 MH
2 , 3 DMP
1 , l DMCP
2.5
3.0
2.2
2.2
0.6
2.4
7.3
0.2
4.7
0.0
3.4
COMPONE‘tT
23. 3 MH
2 4 . 1 - C - 3 DXCP
2 5 . 1 - t - 3 DXCP
2 6 . 1 - t - 2 DNCP
2 7 . 3 EP
2 0 . HEPTANE
2 9 . MCH
3 0 . ECP.
3 1 . TOLUENE
w
4
2
2
3
3
.
.
.
.
.
5
6
4
9
9
6.6
23.5
0.7
13.6
RAT1 OS
”””
1.
I-BUTANE I n-BUTANE
I-PENTANE I n-PENTANE
CP I 2 . 3 DMB
2 UP I 2 MU
iiEX‘l.tkP’+ 2 . 2 DMP)
6 . 2 MH I 2 , 4 DMP
7 . 3 MH I ( l , l DMCP + 1 - C - 3 DMCP)
8 . I - t - 3 DMCP I I-t-2 DMCP
9 . CH I ( 1 , l : + 1 - 0 - 3 :
+ 1- t - 2 : + l - t 1 0 . (HEX + HEP) I 3 MU
1 1 . (CH ~+ l - c L i DMCP”;
MCH) I 3 MH
1 2 . CH I (MCH + 1 - C - 2 DMCP)
1 3 . (MCP + 2 , 2 DMP) I (MCH + 1 - c - 2 DMCP
RRUS : 3 4 0 4
ID : LATICORANCH
1A
COMPONENT
#
COMPONENT
!h
2
3
4
5
0.3
.
.
.
.
1.2
0.4
: DMCP )
~
1.0
0.6
7.4
0.7
0.6
0.5
2.1
6.0
0.3
0.2
”“”
-””””
0.0
0.0
0.0
2.3
4.7
10.6
9.5
0.4
0.4
1.4
5.5
12.
13.
14.
15.
16.
17.
10.
19.
20.
21.
22.
3 MP
HEXANE
MCP
2 , 2 DMP
2 , 4 DMP
BENZENE
CH
3 , 3 DMP
2 MH
2 . 3 DMP
l , l DMCP
3.5
10.3
2.4
2.4
0.6
1.6
4 . 1
0.1
4.5
0.0
tr
23.
24.
25.
26.
27.
20.
29.
30.
31.
3 MH
1-0-3
DYCP
1-t-3 DP’CP
1 - t - 2 DFCP
3 EP
HEPTANE
MCH
ECP
TOLUENE
I-BUTANE I n-BUTANE
I-PENTANE I n-PENTANE
CP I 2 , 3 DMB
2 MP I 3 MP
HEX I (MCP + 2 . 2 DMP)
6 . 2 MH I 2 . 4 DMP
7 . 3 MH I ( 1 , l DMCP + 1 - c - 3 DMCP)
8 . 1 - t - 3 DMCP I 1 - t - 2 DMCP
9 . CH I ( 1 , l : + 1 - 0 - 3 :
+ 1-t-2: + I-t-3:DMCP)
1 0 . (HEX + HEP) I 3 MH
1 1 . (CH + 1 - 0 - 2 DMCP + MCH) I 3 HH
1 2 . CH I (MCH + 1 - c - 2 DMCP)
1 3 . (MCP + 2 , 2 DMP) I (MCH + 1 - c - 2 DMCP)
1.
2.
3.
4.
5.
A-297
C.5
1.1
c.3
1.5
2.1
1 . 4
na
1.1
1.7
6.6
4 . 3
0.3
0 . 4
3.4
0.8
0.0
0.7
0.7
12.2
10.7
0.4
5.7
0
INDIVIDUAL COMPONENT CONCENTRATIONS
IN GASOLINE RANGE HYDROCARBONS
OILS
P r c j e c t No. : RRUS1845lM180714
RRUS : 3405
-””-
COMPONENT
ID : B.T.BILLY
w
COMPONENT
w
COMPONE\‘T
-””””
1.
2.
3.
4.
5.
6.
0.0
0.0
0.0
2.2
10.9
9.6
14.2
0.1
1.2
0.5
5.2
7.
8.
9.
10. 2,3 DME
11. 2 MP
3 MP
HEXANE
MCP
2 , 2 DMP
2 . 4 DMP
BENZENE
CH
i-,~3DMP
2 0 . 2 MH
2 1 . 2.3 DMP
2 2 . ‘1,l DMCP
12.
13.
14.
15.
16.
17.
18.
19.
.
w
””””_
3.2
7.7
0.2
0.2
0.3
0.4
4.6
tr
3.3
0.0
0.9
2 3 . 3 EIH
1-0-3 DYCP
2 5 . 1 - t - 3 DYCP
24.
26.
27.
28.
29.
1-t-2
3 EP
DYCP
HEPTANE
MCH
3 0 . ECP
31. TOLUENE
RATIOS
1 . I-BUTANE I n-BUTANE
2 . I-PENTANE I n-PENTANE
3 . CP I 2 , 3 DMB
4 . 2 MP I 3 MP
5. HEX I (MCP + 2 , 2 DMP)
6. 2 nu I 2 , 4 DMP
7 . 3 MH I ( l , l DMCP + 1-0-3 DMCP)
8 . 1-t-3 DMCP I 1-t-2 DMCP
9 . CH I ( 1 , l : + 1-0-3: + 1-t-2: + 1-t-3:DMCP)
10. (HEX + HEP) I 3 MH
11. (CH + 1 - 0 - 2 DMCP + MCH) I 3 MH
1 2 . CH I (MCH + 1 - c - 2 DMCP)
.
13. (MCP + 2 , 2 DMP) I (MCH + 1-0-2 DMCP )
RRUS : 3406
ID : MAR. MAYFIELD
“&””
COMPONENT
w
COMPONENT
w
3.4
2.1
0.2
0.1
0.1
6.3
9.8
0.4
1.8
0
”””
“”””_
3.
4.
5.
6.
7.
8.
0
..
10.
11.
0.2
0.6
2.3
1.6
17.6
10.6
1 .o
1.2
1.3
4.1
4.2
0
0.4
na
%
”””_”
1. METHANE
2.
0
0.0
1 2 . 3 MP
3.8
2 3 . 3 MH
ETHANE
0.0
13. HEXANE
4.0
2 4 . 1-e-3 DMCP
PROPANE
0.0
14. MCP
2 5 . 1-t-3 DMCP
0.5
1-BUTANE
0.2
I S . 2 , 2 DMP
0.5
2 6 . 1-t-2 DMCP
&BUTANE
0.5
1 6 . 2 . 4 DMP
0.3
2 7 . 3 EP
I-PENTANE
3.0
1 7 . BENZENE
0.4
2 8 . HEPTANE
n-PENTANE
2.9
1 8 . CH
3.0
2 9 . MCH
2 , 2 DMB
0.1
1 9 . 3 , 3 DMP
0.1
3 0 . ECP
r.P
2 0 . 2 MH
4.5
0.9
3 1 . TOLUENE
2,3 DME
0.3
2 1 . 2 , 3 DMP
0.0
2 MP
4.0
2 2 . 1 , l DMCP
1.8
RATIOS
1 . I-BUTANE I n-BUTANE
0.4
2 . i-PENTANE I n-PENTANE
1.o
3 . CP I 2 , 3 DMB
2.9
4 . 2 MP I 3 MP
1.0
5 . HEX I (MCP + 2 , 2 DMP)
4.0
6 . 2 MH I 2 , 4 DMP
13.9
7. 3 MH I ( 1 , l DMCP + 1-c-3 DMCP)
0.6
8 . 1 - t - 3 DMCP I 1-t-2 DMCP
0.9
9 . CH I ( 1 , l : + 1 - 0 - 3 : + 1-1-2: + 1-t-3:DMCP)
0.1
1 0 . (HEX + HEP) I 3 MH
1.9
11. (CH + 1-0-2 DMCP + MCH) I 3 MH
2 . 8
12. CH I (MCH + 1-c-2 DMCP)
0.2
13. (MCP + 2 , 2 DMP) I (MCH + 1-0-2 DMCP)
na
”
”””
5.8
7.4
7.0
7.4
7.4
7.0
13.1
1.7
2.1
c
c
c
t
A-298
TABLE A.89
G A S O L I N EH Y D R O C A R B O N S
T h o m p s Io n d l o e s
I
I
I
P r o j e c t : RRUS1845lM180714
T i t l e : OILS
~
RRUS SAMPLE
3401
3402
3403
3404
3405
(ID)
B.T. EAST BILLY
B.T. 0 1 NETTLES
B.T.BILLY DSTI
LATICO RANCH 1 A
B.T.BILLY
M A 3Y4F0I6E L D M A R .
I
I
I S O - H E HVP EAT PLA TUN AE N E
VALUE
I
I
I
I
:
0.922
0.698
1.023
3.342
2.694
3.312
3.248
10.565
32.206
20.339
I
0.475
10,854
I
A-299
0
.TABLE A.90
Classification of oil on the basis of light hydrocarbon composition.
I
I
Limits
Petroleum
Class
Class
Isoheptane
Heptane
Value
Normal, Paraffinic
18 - 22
(41%)
Mature
22
-
30
(26%)
Value
0.8 - 1.2
I
(42%)
I
1.2
-
2.0
I
I
0
Limits
Petroleum
Class
Class
Isoheptane
Heptane
Value
Supermature
Biodegraded
(28%)
30
-
60
Value
2.0
-
4.0
(13%)
0 18
-
(10%)
0 - 0.8
(20%)
( 20%)"-
.
0
I,
Thompson, K. F. M., 1983, C l a s s i f i c a t i o n and t h e r m a lh i s t o r y
of petroleum based on l i g h t h y d r o c a r b o n s :
Geochim. e t Cosmochim. Acta, Vol. 47. p. 303-316.
c
c
A-300