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T a b l e B - 1 0
t i t
(ooo)
NorskHydro
D a i l y m u d p r o p e r
System : BOREWell: 7321/9-1Mud Contractor: PromudData: "Hid depth** fron table 3, otherwise
t i e s Date
fro» table 14. 4
Date
26/5-1989
14. 4
Date
881026881027881028881029881030
881031881101881102881103881104
881105881106881107881108881109
881110881111881112881113881114
881115881116881117881118881119
881120881121881122881123881124
Hid.depth
m,MD
529546546562680
680680680
10081213
13301365137213871398
14271550172318001800
18001800180018001800
1800625622570500
HudDens.(SG)
1.051.051.051.051.05
1.051.051.081.141.14
1.141.141.151.141.14
1.141.141.141.141.14
1.141.141.141.141.14
1.141.141.141.141.14
PV
cp
00000
00
131416
1616161717
1716181817
1818181615
1515151515
YP
Pa
00000
00677
77
1010
9
711
888
88877
77777
GEL0
Pa
111
11111
11111
1• 1
GEL10Pa
111
12222
21222
22281
11111
PH
9.29.5
9.59.59.59.59.4
9.48.79.19.39.3
9.39.39.29.09.0
9.09.09.09.09.0
100psi(CC)
6.54.05.0
4.64.04.04.64.2
3.63.84.04.04.1
4.04.04.03.93.9
3.93.93.93.93.9
HP/HT
(CC)
20.020.0
17.018.017.014.015.0
8.014.014.014.015.0
15.015.015.014.015.0
14.014.014.014.014.0
Cl-inn/outmg/1
33000/3300034000/3400031000/31000
33000/3300032000/3200032000/3200034000/3400035000/35000
35000/3500038000/3800035000/3500035000/3500035000/35000
35000/3500035000/3500035000/3500035000/3500035000/35000
35000/3500035000/3500035000/3500035000/3500035000/35000
Alte
Pf
0.500.50
0.600.600.500.600.70
0.700.101.001.001.00
1.001.000.700.100.10
0.100.100.100.100.10
llinii
Pm
1.200.20
0.200.300.300.300.20
0.200.100.300.300.30
0.300.300.200.200.20
0.200.200.200.200.20
Hf
0.400.40
0.600.600.500.600.70
0.900.900.800.80
0.700.800.700.600.60
0.60
Ca++inn/outmg/1
40/4076/76160/160
180/180160/160192/192180/180140/140
140/140100/10080/80100/100100/100
100/100100/100100/100120/120120/120
120/120120/120120/120120/120120/120
Oil
%
Sol
%
910
1010101011
1111101010
1010101010
1010101010
H2O
%
V.G600rpm
384246
4747525552
4855525250
5252534644
4444444444
mel300rpm
252830
3131363835
3139343433
3434353029
2929292929
:er i200rpm
181923
2322262825
2327212423
2424242222
2121212121
it 1]100rpm
101115
1413191815
1520121413
1414151212
1111111111
L5 gi6
rpm
232
23433
22121
11211
11111
r. F3
rpm
132
12222
11111
11111
11111
MudT y p e
SPUDSPUDSPUDSPUDSPUD
SPUDSPUDKCL/POLYMERKCL/POLYMERKCL/POLYHER
KCL/POLYMERKCL/POLYMERKCL/POLYMERKCL/POLYMERKCL/POLYMER
KCL/POLYMERKCL/POLYMERKCL/POLYMERKCL/POLYMERKCL/POLYMER
KCL/ POLYMERKCL/POLYMERKCL/POLYMERKCL/POLYMERKCL/POLYMER
KCL/POLYMERKCL/POLYMERKCL/POLYMERKCL/POLYMERKCL/POLYMER
T a b l e B - l l - 4 6 -
M u d(tt — — — — .ill(ooo)
Norsk Mud company: PromudHydro
Drilling of 36
BARITEBENTONITESODA ASH
Drilling of 17
BARITEBENTONITEKOHNEWDRILLPROPOL REGPROPOL SLSODA ASHKCL-BRINE
Drilling of 12
BARITEBENTONITEKALIUMKLORIDKCLKOHNEWDRILLPROPOL REGPROPOL SLSODA ASHXC-POLYMERKCL-BRINE
c o n s u m p t
System : BORE
" hole
KgKgKg
1/2" hole
KgKgKgKgKgKgKg
1/4" hole
KgKgKgKgKgKgKgKgKgKg
i o n Date
13
Actualused
4600047000
275
4100025000
5018007751000150
73000
99000300075004000350
570030002950250275
127000
HYDROBergen Rapi
Fortrolig/Confidential
Fordeling Distribution
B. Martin/ArkivE. Rygg/ArkivHydro Harstad ItE. Rein
Tittel Forfatter(e)Title Author(s)
Petroleum Geochemistry
Well: 7321/9-1
Elin R
Resymé Konklusjon AnbefalingSummary Conclusion Recommendation
0 H JUL11989
REGOLJEDIREKTORAT
Emneord/Key words
Source Rocks, MaturityMigrated Hydrocarbons
Emnekategon Subject category
PetroleumGeochemistry
Divisjon Seksjon AvdelingDivision Section Dept
GeosectionPetroleum Geochemistry
Kvadrant Blokk BrannQuadrant Block Well
7321/9-1
Dato Date
2 6 . 0 4 . 8 9Side Pages Appendix
Godkjent sæn Approved sign Prosjekt nr Project nr
KA408ALisens nr Licence no Revisjons nr Revision no
01
Postal AddrefesPO Box 4313NygårdstangenN-5028 Bergen
Office AddressLarsHillesgt 30N-5008 Bergen
Phone TelexNat (05) 99 50 00 40 920 hydro nIntern +47 5 99 50 00
Telefax(05) 99 61 96
6 iffiBf
1. INTRODUCTION.
Well 7321/9-1 located in the Bjørnøya II area was spudded
26.11.88 and reached T.D. at 1800 m in siltstone of Carnian
age. The well location is given in Figure 1.1
and the well summary outlining formation tops is given in
Figure 1.2.
Based on the geochemical screening analyses by Norsk Hydro
Research Center (L. Aakvaag and N. Telnaes), 52 drill
cuttings and core samples were selected for further
analysis. A list of the samples investigated is given in
Table 1.1.
This report comprises the results from petroleum geochemical
analyses of 52 DCs and CCs. Extraction and group type
separation have been undertaken by Geochem Laboratories
(Chester, UK). Vitrinite reflectance, visual kerogen and
Spore Colour Indices (SCI) have been analysed by Robertson
Research (North Wales, UK). In addition to this Geo-optics
(Northumberland, UK) have analysed a parallel set of samples
for vitrinite reflectance. Stable isotopic composition of
fractions and kerogen have been analysed by Geolab Nor
(Trondheim, Norway). All pyrolysis, gas chromatographic
analysis of saturated and aromatic hydrocarbons, pyrolysis
gas chromatography, biomarker analysis, and the
interpretation of data and compilation of this report was
undertaken by Norsk Hydro Research Center, Bergen Norway.
PERTOLEUM GEOCHEMISTRY 7321/9-1
700 .00750.00800.00850.00900.00950.00960.00970 .00980.00990.00
1000.001035.001050 .001100.001140 .001150 .001240.001245.001250 .001282 .001295.001300.001310 .001317.001322 .001327.001332.001337 .001342 .001347.001352.001357.001367.751370 .501377.001379 .001383.501389.501397.751400.001425.001450 .001500.001550.001600 .001622.001642 .001650 .001700.001777.001780.001800.00
TOC
*******
**
**
**
*********
*
*
**
**
ROCK-EVALBE
*******
**
**
**
***********
*
**
**
ROCK-EVALAE
******
*
***
*
PYGC
******
***********
*
EXT
**
***
****************
*
*
GCSAT
i
i
i
i
i
GCARO
k
k
k *
k *
k *
k
k
*
t
* *
*
* *
*
k *
*
k *
1 *
t *
t *
* *
fl
i *
B1OMSAT
***
*
*
*
***
*
*
ISOTOP
**
*
*
*
*
***
*
*
VISUALKEROGEN
******
***
**
*•
****•*•**•*
*
**
**
RORR
******
*
**
*
*
*
*
*
****
**
*
ROGEO-OPTICS
*****
*
**
*
*
*
*
*
****
*
*
Tab. 2.1. Source Rock Screening Data
Table 2.1 SOURCE ROCK SCREENING DATA WELL 7321/9-1P e t r o l e u m G e o c h e m i s t r y G r o u pR e s e a r c h C e n t e r B e r g e n
HYDRO
Depth(m)
700.00
750.00
800.00
850.00
900.00
950.00
960.00
970.00
980.00
990.00
1000.00
1035.00
1100.00
1140.00
1150.00
1240.00
1245.00
1250.00
% Lithology
MDST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
Sample
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
SIKg/t
0.0
0.0
0.0
0.1
0.4
1.2
1.1
3.6
4.7
3.5
1.6
0.8
0.6
0.7
0.8
0.5
0.6
0.6
S2Kg/t
0.3
0.2
0.2
0.2
0.3
1.9
2.7
17.5
24.1
16.5
5.5
2.2
2.4
2.0
1.2
2.5
3.0
1.8
S3Kg/t
0.9
0.3
0.2
0.1
0.3
0.8
0.7
0.5
0.4
0.5
1.3
1.0
1.2
1.4
0.6
0.8
0.6
TOC%
0.8
0.6
0.6
0.6
0.6
1.4
1.3
4.0
5.3
4.2
2.4
1.4
1.6
1.6
1.3
2.7
2.7
2.1
HI
41
29
28
40
53
139
202
434
453
395
231
151
147
127
91
93
109
88
OI
121
49
38
21
45
54
53
12
8
12
54
67
72
86
23
28
29
PI
0.09
0.18
0.11
0.18
0.54
0.39
0.29
0.17
0.16
0.17
0.23
0.26
0.20
0.26
0.39
0.17
0.17
0.23
TmaxDeg.c
441
441
446
437
437
434
440
437
434
437
436
437
440
441
444
446
443
446
Company
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
Table 2.1 SOURCE ROCK SCREENING DATA WELL 7321/9-1 (cont'd)P e t r o l e u m G e o c h e m i s t r y G r o u p
R e s e a r c h C e n t e r B e r g e nÆHYDRO
Depth(m)
1282.00
1295.00
1300.00
1310.00
1317.00
1322.00
1327.00
1332.00
1337.00
1342.00
1347.00
1352.00
1357.00
1367.75
1400.00
1425.00
1450.00
1500.00
1550.00
% Lithology
MDST
MDST
MDST
LST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
MDST
SLTY.MDST
MDST
SST
SST
SST
MDST
Sample
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
DC
SiKg/t
0.3
0.3
0.5
0.4
0.2
0.9
1.5
1.3
1.7
1.8
1.7
1.5
2.5
0.4
0.2
0.7
0.9
0.8
0.4
S2Kg/t
2.3
2.3
2.5
2.7
0.6
3.3
5.1
4.6
6.4
7.7
7.2
6.6
9.8
1.6
0.3
1.2
0.8
0.7
0.6
S3Kg/t
0.4
0.4
0.4
0.7
0.4
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.4
0.3
1.3
0.9
0.7
TOC%
2.1
2.2
2.5
3.0
0.6
1.5
2.1
2.0
2.5
3.0
2.8
2.6
3.4
0.6
0.6
1.0
1.0
0.8
0.7
HI
110
107
98
90
111
219
240
230
260
258
257
255
286
260
56
116
76
87
87
OI
19
18
15
23
65
16
15
16
11
11
12
13
11
58
131
108
97
PI
0.12
0.13
0.17
0.14
0.20
0.22
0.23
0.23
0.21
0.19
0.19
0.18
0.20
0.19
0.35
0.38
0.54
0.53
0.42
TmaxDeg.c
448
450
448
447
439
445
443
446
445
445
443
446
450
450
442
453
455
454
453
Company
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
Table 2.1 SOURCE ROCK SCREENING DATA WELL 7321/9-1 (cont'd)P e t r o l e u m G e o c h e m i s t r y G r o u p
R e s e a r c h C e n t e r B e r g e n k (
HYDRO
Depth(m)
1622.00
1642.00
1650.00
1700.00
1777.00
1780.00
1800.00
% Lithology
SST
SST
SST
SST
SST
MDST
MDST
Sample
DC
DC
DC
DC
DC
DC
DC
SIKg/t
0.5
0.8
0.7
0.1
0.5
0.4
0.1
S2Kg/t
1.5
0.9
0.7
0.2
3.0
2.6
0.4
S3Kg/t
0.5
0.3
0.4
0.3
0.5
0.4
0.6
TOC%
1.1
0.7
0.6
0.4
2.7
2.4
0.7
HI
142
128
114
50
110
109
65
01
44
42
61
75
18
16
85
PI
0.23
0.46
0.51
0.33
0.13
0.14
0.17
TmaxDeg. c
453
445
454
457
454
455
462
Company
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
F-BG
Tab. 2.2. Rock Eval Data, Extracted
Samples.
DEPTH Sl S2 Tmaxm kg/tonne kg/tonne
950.00960.00970.00980.00990.00
1000.001310.001317.001322.001327.001332.001337.001342.001347.001352.001357.001367.751777.00
0.230.200.200.240.390.110.140.040.060.010.120.160.380.230.140.330.070.32
1.362.32
15.6319.3615.613.702.570.201.682.793.124.105.665.104.401 .IS0.313.44
437434433433434438448444445444444444446445445447451451
Tab. 2.3. Molecular Ratios
Table 2.3 SATURATED FRAC.f MOLECULAR RATIOS WELL 7321/9-1P e t r o l e u m G e o c h e m i s t r y G r o u p
R e s e a r c h C e n t e r B e r g e n
HYDRO
Depth
950.00
960.00
970.00
980.00
990.00
1000.00
1310.00
1317.00
1322.00
1327.00
1332.00
1337.00
1342.00
1347.00
1352.00
1357.00
1367.75
1370.50
Pr/n-Cl7
0.71
0.66
1.03
1.08
1.01
0.70
0.71
0.67
0.72
0.70
0.83
0.91
0.86
0.86
0.84
0.95
0.62
0.47
Pr/Ph
1.70
1.60
1.40
1.50
1.60
1.60
3.30
1.60
1.90
1.80
1.60
1.70
1.80
1.90
2.10
2.10
1.50
1.80
CPI-I
1.07
1.10
1.07
1.17
1.15
1.22
1.21
1.70
2.45
1.12
1.36
1.11
1.15
1.12
1.17
1.08
1.19
1.10
CPI-II n-Cl5+/Total n-C20/n-C25
1.03
1.02
1.02
1.00
1.06
1.06
1.15
1.05
1.11
1.06
1.05
1.08
1.10
1.05
1.10
1.02
1.05
1.02
P e t r o l e u m G e o c h e m i s t r y G r o u pT a b l e 2 . 3 . S A T U R A T E D F R A C , M O L E C U L A R R A T I O S W E L L 7 3 2 1 / 9 - 1 ( COllt ' d ) R e s e a r c h C e n t e r B e r g e n
(
HYDRO
Depth
1377.00
1379.00
1383.50
1389.50
1397.75
1642.00
1777.00
Pr/n-C17
0.43
0.51
0.51
0.48
0.53
0.58
0.41
Pr/Ph
1.70
1.60
1.60
1.40
1.80
1.50
3.40
CPI-I
1.12
1.11
1.11
1.09
1.14
1.06
1.10
CPI-II n-Cl5+/Total n-C20/n-C25
1.07
1.01
1.03
1.05
1.08
0.98
0.97
Tab. 2.4. Kerogen Composition
Table 2.4. KEROGEN COMPOSITION, SPORE AND POLLENCOMPOSITION WELL 7321/9-1
P e t r o l e u m G e o c h e m i s t r y G r o u p
R e s e a r c h C e n t e r B e r g e n
HYDRO
Depth(m)
950.00
960.00
970.00
980.00
990.00
1000.00
1050.00
1100.00
1140.00
1240.00
1245.00
1282.00
1295.00
1310.00
1317.00
1322.00
1327.00
1332.00
Amorphous Woodymat r.
45.00
70.00
85.00
80.00
40.00
50.00
15.00
65.00
85.00
75.00
80.00
85.00
85.00
70.00
80.00
85.00
85.00
Inert-inite
70.00
25.00
10.00
5.00
5.00
10.00
10.00
15.00
10.00
5.00
10.00
5.00
5.00
10.00
5.00
5.00
5.00
Palyno- Algal Herbaceousmorphs
5.00
10.00
5.00
5.00
5.00
10.00
10.00
5.00
10.00
5.00
Reworked Particle Preserv.(%) size (1-3)
Table 2.4. KEROGEN COMPOSITION, SPORE AND POLLENCOMPOSITION WELL 7321/9-1 (cont'd)
P e t r o l e u m G e o c h e m i s t r y G r o u p
R e s e a r c h C e n t e r B e r g e n
.4«AVHYDRO
Depth(m)
1337.00
1342.00
1347.00
1352.00
1357.00
1367.75
1425.00
1622.00
1642.00
1777.00
1780.00
Amorphous Woodymatr.
85.00
80.00
80.00
85.00
80.00
20.00
45.00
45.00
60.00
Inert-inite
5.00
10.00
10.00
10.00
10.00
15.00
25.00
30.00
60.00
15.00
15.00
Palyno- Algal Herbaceousmorphs
5.00
10.00
10.00
30.00
10.00
10.00
Reworked Particle Preserv.(%) size (1-3)
Tab. 2.5. Stable Isotopes
DEPTH
970.0980.0990.01327.01337.01347.01357.01370.51377.01379.01389.51777.0
SAT
-29.83-29.68-29.99-30.90-29.63-29.79-29.57-28.68-28.76-29.10-28.39-27.77
ARO
-29.33-29.46-29.44-29.79-29.33-28.55-28.29-27.49-27.01-27.11-27.34-26.58
NSO
-29.07-29.24-29.36-29.52-28.14-28.40-28.32-25.99-26.21-26.59-26.66-26.03
ASPH
-28.23-28.38-28.24-28.17-28.56-28.20-27.75-26.30-25.94-26.81-26.68-25.94
KEROGEN
-28.29-28.45-28.35-28.33-28.26-27.95-27.21
-25.82
EOM
-29.96-29.87-29.81-30.21-30.17-30.18-29.23-28.75-29.14-29.26-28.79-27.78
Tab. 3.1. Vitrinite Reflectance and SCI
data.
Table 3.1. VITRINITE REFLECTANCE DATA WELL 7321/9-1Average values
P e t r o l e u m G e o c h e m i s t r y G r o u p
R e s e a r c h C e n t e r B e r g e n
HYDRO
Depth
700.00
750.00
800.00
850.00
900.00
950.00
960.00
970.00
980.00
990.00
1000.00
1050.00
1100.00
1140.00
1150.00
1240.00
1245.00
1250.00
Population I
0.40 ( 2)
0.45 ( 1)
0.44 ( 1)
0.53 ( 3)
0.53 ( 2)
0.51 ( 20)
0.54 ( 20)
0.56 ( 17)
0.60 ( 21)
0.58 ( 19)
0.60 ( 16)
Population II Population III SCI
6
6
5
5
5
5
6
5
7
6
6
Table 3.1. VITRINITE REFLECTANCE DATA WELL 7321/9-1 (cont'd)Average values
P e t r o l e u m G e o c h e m i s t r y G r o u p
R e s e a r c h C e n t e r B e r g e n
HYDRO
Depth
1282.00
1295.00
1300.00
1310.00
1317.00
1322.00
1327.00
1332.00
1337.00
1342.00
1347.00
1352.00
1357.00
1367.75
1400.00
1425.00
1450.00
1500.00
1550.00
Population I
0.64 ( 12)
0.60 ( 5)
0.67 ( 8)
0.74 ( 18)
0.72 ( 6)
0.56 ( 2)
Population II
0.87 ( 1)
Population III SCI
6
6
6
6
6
6
6
6
6
6
6
6
7
7
Table 3.1. VITRINITE REFLECTANCE DATA WELL 7321/9-1 (cont'd)Average values
P e t r o l e u m G e o c h e m i s t r y G r o u p
R e s e a r c h C e n t e r B e r g e n
HYDRO
Depth
1622.00
1642.00
1650.00
1700.00
1777.00
1780.00
1800.00
Population I
0.75 ( 9)
0.75 ( 11)
0.86 ( 22)
Population II Population III SCI
8
7
7
7
Tab. 3.2. Vitrinite Reflectance data
(RR) .
DEPTH, mstart int.
690740790840890940990
10321097114512451297136713971447149715471597164716971797
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.75
.00
.00
.00
. 00
. 00
.00
. 00
.00
DEPTH, mend int.
700.00750.00800 .00850 .00900.00950 .00
1000 .001035.001100 .001150 .001250.001300 .001367.751400 .001450.001500.001550 .001600 .001650 .001700 .001800 .00
Table
ANALYST orCOMPANY
F-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BGF-BG
3.2
SAMPLETYPE
DCDCDCDCDCDCDCDCDCDCDCDCCOREDCDCDC 'DCDCDCDCDC
Vitrinite
SAMPLELITH. %
MUDSTMUDSTMUDSTMUDSTMUDSTMUDSTMUDSTMUDSTMUDST
MUDST
SL.MUDSTMUDSTSSTSSTMUDST
SSTSSTMUDST
reflectance
R0%
0.560 .580 .590 .590 .520.570.580 .630 .610.650 .700 .740 .680.750.750 .790 .850.920 .930 .940 .92
POP1
158
1492
144
2011231232271244311313161536
data .
R0%
0.370 .800 .370.850.770.400.390.440 .430 .440 .480.530.540.511 .031.050.620.700 .670 .730.73
POP2
269
139
21141528161248
177
143
16109
10
R0%
0 .801.120.771 .161.060.810.780.860 .840.900.961.041.041.03
1.161 .281. 211 .331 .19
POP3
99
186
12134
1411139
151810
241627267
R0%
1 .15
1.02
1.081.09
1 .05
1 .20
1.58
POP4
9
14
75
5
19
9
Tab. 3.3. Biomarker Ratio
Tacie 3.3
DEPTH, mstart int.
960.00970.00980.001325.001377.001775.001345.001370.501355.001379.001335.001383.50
Biomarker
DEPTH, mend int.
970.00980.00990.00
1327.001377.001777.001347.001370.501357.001379.001337.001383.50
rati
%20S
141415525555565657575858
\)
Tab. 4 .1 . Extraction data I
Table 4.1 SOURCE ROCK EXTRACTION DATA I WELL 7321/9-1P e t r o l e u m G e o c h e m i s t r y G r o u p
R e s e a r c h C e n t e r B e r g e nHYDRO
Depth(m)
950.00
960.00
970.00
980.00
990.00
1000.00
1310.00
1317.00
1322.00
1327.00
1332.00
1337.00
1342.00
1347.00
1352.00
1357.00
1367.75
1370.50
EOM(mg) EOM(%)
0.31
0.39
0.93
1.19
0.76
0.44
0.13
0.09
0.36
0.51
0.44
0.44
0.36
0.39
0.46
0.46
0.09
0.11
SAT(%)
73
66
52
41
52
58
24
63
56
49
48
49
44
50
45
53
67
75
HydrocarbonsARO(%) TOTAL(%)
8
8
15
13
16
12
22
11
15
17
15
18
19
20
18
19
12
9
80
75
67
54
68
70
46
73
72
66
63
66
64
70
63
71
79
84
NSO(%
14
19
24
23
27
18
22
12
21
25
25
23
27
20
26
20
12
8
Non HydrocarbonsI ASPH(%) TOTAL(%)
6
6
9
23
5
12
32
15
8
9
12
11
10
10
12
9
9
8
20
25
33
47
32
30
54
27
28
34
37
34
37
30
37
29
21
17
Table 4.1.P e t r o l e u m G e o c h e i a i s t r y G r o u p
S O U R C E R O C K E X T R A C T I O N D A T A I W E L L 7 3 2 1 / 9 - 1 ( C O n t ' d ) R e s e a r c h C e n t e r B e r g e nHYDRO
Depth(m)
1377.00
1379.00
1383.50
1389.50
1397.75
1642.00
1777.00
EOM(mg) EOM(%)
0.23
0.22
0.06
0.07
0.03
0.18
0.12
SAT(%)
72
82
74
69
71
78
33
HydrocarbonsARO(%) TOTAL(%)
10
7
7
11
7
9
20
83
89
81
80
77
87
53
NSO(%
8
8
9
10
10
8
19
Non Hydrocarbons) ASPH(%) TOTAL(%)
9
4
11
11
13
5
28
17
11
19
20
23
13
47
Tab. 4.2. Extraction data II
Table 4.2 SOURCE ROCK EXTRACTION DATA II WELL 7321/9-1P e t r o l e u m G e o c h e m i s t r y G r o u pR e s e a r c h C e n t e r B e r g e n
HYDRO
Depth(m)
950.00
960.00
970.00
980.00
990.00
1000.00
1310.00
1317.00
1322.00
1327.00
1332.00
1337.00
1342.00
1347.00
1352.00
1357.00
1367.75
1370.50
TOC (%)
1.40
1.31
4.04
5.31
4.17
2.39
2.96
0.55
1.52
2.11
1.98
2.46
2.98
2.81
2.57
3.42
0.60
EOM(%)/TOC(%)
0.22
0.30
0.23
0.22
0.18
0.18
0.04
0.16
0.24
0.24
0.22
0.18
0.12
0.14
0.18
0.13
0.15
SAT(%)/TOC(%)
52.07
50.69
12.95
7.72
12.42
24.14
7.94
114.18
36.97
23.36
24.29
19.80
14.90
17.83
17.63
15.35
111.67
SAT(%)/ARO(%)
9.72
8.10
3.49
3.28
3.20
4.69
1.05
5.98
3.65
2.97
3.16
2.75
2.32
2.54
2.59
2.81
5.63
8.38
HC/non HC
4.10
2.94
2.06
1.15
2.13
2.33
0.85
2.75
2.52
1.93
1.72
1.98
1.74
2.31
1.69
2.47
3.74
5.06
Table 4.2P e t r o l e u m G e o c h e m i s t r y G r o u p
S O U R C E R O C K E X T R A C T I O N D A T A I I W E L L 7 3 2 1 / 9 - 1 ( C O n t ' d ) R e s e a r c h C e n t e r B e r g e nHYDRO
Depth(m)
1377.00
1379.00
1383.50
1389.50
1397.75
1642.00
1777.00
TOC (%)
0.74
2.70
EOM(%)/TOC(%)
0.24
0.04
SAT(%)/TOC(%)
105.81
12.19
SAT(%)/ARO(%)
7.03
11.01
10.71
6.60
10.22
8.80
1.65
HC/non HC
4.78
8.01
4.21
3.95
3.42
6.81
1.12
HYDROBergen RaF p<fft/.Rl|ot/Rl|ort
* » AJuTTTTCT
Fortrolig/Confidential •Fordeling Distribution
j.Augustson,HAB.Martin/ArkivE.Rygg/ArkivA.Steen
Tittel 'Forfatter(e)Title'Author(s)
( 1 2 )
Journal nr.:
dato
h . /- 7 NOV. 1989
Oil-source rockcorrelation
ofwell 7321/9-1 (Hydro)
Arne Steen & Jan Augustson
Sign
Resyme/Konklusion'AnbefalingSummary Conclusion Recommendation
Emneord/Key words
Oil-source rock correlation, Biomarkersmaturity
OUEDIREICTORATETEIM, PetroTei
t category
yDivisjon/Sekspn'AvdehngDivision Section'Dept
Geo-section
Kvadrant'Blokk - BrønnQuadrantaiock-Well
7321/9-1
Dato/Date
09.10.89Side/Pages - Appendix
19 i 5 App.Godkjei iroved^ign
%o -Prosjekt nr /Project nr
KA 505Lisens nr /Licence no Revisjons nr 'Revision no
141
Postal AddBssP.O. Box ^NygårdstangenN-5028 Bergen
Office Address: Phone: Telex:Lars Hillesgt. 30 Nat.. (05) 99 50 00 40 920 hydro nN-5008 Bergen Intern.: +47 5 99 50 00
Telefax(05) 99 61 96
EXPERIMENTAL
The SAT-fractions of extracted samples are analyzed byGC/MS. Standard lab procedures of selected metastable ionmonitoring are used to detect pre-selected groups of SAT-biomarkers.
List of analyzed metastable transitions:
Group 1 (low molecular weight biomarkers):
a. 360 m/z -> 191 m/z -> C2 6 tricyclic terpanes
b. 346 -> 191 -> C25 „c. 332 -> 191 -> C24 „d. 318 -> 191 -> C23 „e. 304 -> 191 -> C22 „f. 290 -> 191 -> C21 „g. 276 -> 191 -> C20 „
h. 316 -> 217 => C23 steranes
i. 302 -> 217 -> C22 „
j. 288 -> 217 => C21 „
Group 2:
k. 454 m/z -> 191 m/z »> C33 pentacyclic triterpanes
1. 440 -> 191 -> C32 „
m. 426 -> 191 -> C31 „
n. 412 -> 191 => C30 „
o. 398 -> 191 => C29 „
p. 384 -> 191 => C28 ..
q. 370 -> 191 «=> C 2 7 „
r. 414 -> 217 »> C30 steranes
s. 400 -> 217 => C29 „
t. 386 -> 217 => C,R „
u. 372 -> 217 => C 2 7 —„
Standardized identification of SAT-biomarkers;
Triterpanes:
Numbers from 18 to 35 correspond to the carbon number of
the molecule, the subsequent capital letter identifies
the stereochemistry and/or the number of rings.
A 17a(H)-hopanes (I) 22S
B 17a(H)-hopanes 22R
C 17(3(H)-moretanes (II) 22S
D 17p(H)-moretanes 22RE 17(3(H)-hopanes ( I I I )F Neohopanes (IV)
G Gammacerane (V)
H Hopenes (VI)
I 25-norhopanes (VII)
L Lupane (VIII)
0 18<x(H)-oleanane (IX)X Tetracyclic terpanes (X)
Y Tricyclic terpanes (XI)
N Unidentified
Steranes;
Numbers from 20 to 30 correspond to the carbon number of
the molecules, the subsequent small letter identifies the
stereochemistry.
a 13P(H) , 1 7 < x ( H ) - d i a s t e r a n e s 20S (1)
b 1 3 0 ( H ) , 1 7 a ( H ) - d i a s t e r a n e s 20R (2)
c 13<x(H) ,17|3(H)-diasteranes 20S (3)
d 13a(H),17p(H)-diasteranes 20R (4)
e 5oc(H) ,14a(H) ,17a(H)-steranes 20S (5)
f 5a(H),140(H),17|3(H)-steranes 20R (6)
g 5<x(H) ,140(H) ,17|3(H)-steranes 20S (7)
h 5a(H),14a(H),17a(H)-steranes 20R (8)
1 5p(H),14«(H),17a(H)-steranes (9)
k 4-methylsteranes (10)
n unidentified
Examples: 31B corresponds to 17a(H)-homohopane 22R
29e corresponds to aaa-ethylcholestane 20S
.(J
The relative distribution of the analysed SAT-biomarkers
are presented in bargraphs,- measured as peak heights and
normalized to the most abundant compound:
Data are listed in Appendix la.
Bargraphs are presented in Appendix Ib.
This semi-quantitative presentation is strictly related
to the analytical method.
The concentration/response-ratio is not necessarily
comparable between different type of compounds. A
quantitative comparison of biomarker distributions are
hence restricted to a narrow range of concentrations.
The analysed SAT-biomarkers, presented in the included
bargraphs, are abbreviated accordingly:
Terpanes:
26Y: C-26 Tri-cyclic terpanes
26YY: C-26 Tri-cyclic terpanes
25Y: C-25 Tri-cyclic terpanes
24Y: C-24 Tri-cyclic terpanes
24XY: C-24 Tetra-cyclic terpanes
23Y: C-23 Tri-cyclic terpanes
22Y: C-22 Tri-cyclic terpanes
21Y: C-21 Tri-cyclic terpanes
20Y: C-20 Tri-cyclic terpanes
Low molecular weight steranes
23a:
23k:
22a:
22k:
21a:
21k:
C-23
C-23
C-22
C-22
C-21
C-21
Sterane
Sterane
Sterane
Sterane
Sterane
Sterane
xc.
Triterpanes;
33A: C-33 17a(H),213(H)-trishomohopane-22S
33B: C-33 17a(H),21f3(H)-trishomohopane-22R
32A: C-32 17a(H), 21|3( H)-bishomohopane-22S
32B: C-32 17a(H),21p(H)-bishomohopane-22R
31A: C-31 17oc(H) ,2ip(H)-homohopane-22S
31B: C-31 17a(H) ,21f3(H)-homohopane-22R
31C: C-31 17|3(H) ,21(3(H)-homohopane-22S
31D: C-31 17g(H),2ip(H)-homohopane-22R
30F: C-30 ?-hopane
30A: C-30 17a(H),21p(H)-hopane
30H: C-30 ?-hopene
30C: C-30 17P(H),21a(H)-moretane
29N: C-29 ?-30-norhopane
29A: C-29 17a(H),21£(H)-30-norhopane
29F: C-29 ?-30-norhopane
29C: C-29 17g(H),21a(H)-30-normoretane
28A: C-28 17a(H),21p(H)-28,30-bisnorhopane + ga
bisnormoretane
28N: C-28 ?-173(H), 21|5( H)-28 , 30-bisnorhopane
27F: C-27 18a(H)-22,29,30-trisnorneohopane (Ts)
27A: C-27 17a(H)-22,29,30-trinorhopane (Tm)
Steranes:
30a: C-30 130(H),17a(H)-diasterane-20S
b: C-30 13p{H),17a(H)-diasterane-20R
c: C-30 13a(H),17e(H)-diasterane-20S
d: C-30 13a(H) ,17|3(H)-diasterane-20R
e: C-30 5a(H),14a(H),17a-sterane-20S
f: C-30 5<x(H) ,14|3(H) ,17p-sterane-20R
g: C-30 5a(H),143(H),17p-sterane-20S
h: C-30 5a(H),14a(H),17a-Sterane-20R
29a: C-29 13|3(H) ,17a(H)-diasterane-20S
b: C-29 13|3(H), 17oc( H)-diasterane-20R
c: C-29 13a(H),17p(H)-diasterane-20S
d: C-29 13a(H),17p(H)-diasterane-20R
e: C-29 5a(H),14a(H),17a-sterane-20S
f: C-29 5a(H),14p(H),17$-sterane-20R
g: C-29 5a(H), 14(3(H), 17|3-sterane-20S
h: C-29 5a(H),14a(H),17a-sterane-20R
28a: C-28 13P(H),17a(H)-diasterane-20S
28aa: C-28 ?-diasterane-20S
b: C-28 133(H),17a(H)-diasterane-20R
28bb: C-28 ?-diasterane-20R
c: C-28 13a(H),17$(H)-diasterane-20S
d: C-28 13a(H),17p(H)-diasterane-20R
e: C-28 5a(H),14a(H),17a-sterane-20S
f: C-28 5a(H),14P(H),173-sterane-20R
g: C-28 5a(H),14g(H),17g-sterane-20S
h: C-28 5a(H),14a(H),17a-sterane-20R
27a: C-27 13p(H),17a(H)-diasterane-20S
b: C-27 13p(H),17a(H)-diasterane-20R
c: C-27 13a(H),17p(H)-diasterane-20S
d: C-27 13a(H),17P(H)-diasterane-20R
e: C-27 5a(H),14a(H),17a-sterane-20S
f: C-27 5a(H),14p(H),17p-sterane-20R
g: C-27 5a(H),140(H),17p-sterane-20S
h: C-27 5a(H),14a(H),17a-sterane-20R
RESULT AND DISCUSSION:
Analysed samples and analytical information are listedbelow.
Samples labelled 'ST ' are representing an internal
lab reference sample in order to document the analytical
repeatability and quality.
The analytical quality are indicated on the list. Samples
labelled 'N.D.' had not detectable amounts of SAT-
biomarkers.
JTEST 50R x 5C
0
123456789
1011121314151617181920212223242526272829303132333435363738394041424344454647484950
Depth, B
950 .00955.00960.00962.50965.00967.00970.00974 .00975.50977 .00979.00982.00984.00985.00987.00990.00995.00
1000.001302.501311 .001320.001328 .001336.001347.001356 .001362.001366.201367.501367.751368.501369 .821371.501372.501374.101376.521377.501378.501380 .001382.001383.501385.251397.00
ST10096AST16059AST16059BST16059CST19059AST23059AST25049AST26059A
1 Sampletype
SWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCSWCCORECORECORECORECORECORECORECORECORECORECORECORECORECORECORECORE
2 Lith.
SH/MDSTSH/HDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH.MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH.MDSTSL.MOSTSL.MDSTMDST/SLSTMDST/SLSTMDST/SLSTMDST/SLSTMDST/SLSTMDST/SLSTMDST/SLSTMDST/SLSTSLSTSLSTSLSTSLSTSLST/SST
3 Geochemjob t
194719471947194719471947194719471947194719471947194719471947194719471947194719471947194719471947194719471948194819781948194819481948194819481948194819481948197819481948
4 MS-f ile
AS16059AS16059AS16059AS16059AS16059AS16059AS16059AS16059AS23059AS19059AS19059AS19059AS19059AS19059AS19059AS230S9AS1S069AS230S9AS23059AS230S9AS23059AS16059AS16059AS16059AS16059AS160S9AS26059AS26059
AS26059AS26059AS26059AS26059AS10096AS10096AS26059AS26059AS26059AS26059ES25049AS26059AS26059AS10096AS16059AS16059AS16059AS190S9AS230S9ES25049AS26059
5 Status
OKOKOKOKOKOKOKOKOKOKOKOKOKOKOKOKOKOKweakOKOKOKOKOKOKOKweakOKN.D.OKOKOKOKOKweakOKOKOKOKOKOKOKOKOKOKOKOKOKOKOK
J732191R 50R x 83C 23-AOG-89 14:20 Page 1
0
123456789
1011121314151617181920212223242526272829303132333435363738394041424344454647484950
Depthstart int.
950.00955.00960.00962.50965.00967.00970.00974.00975.50977.00979.00982.00984 .00985.00987 .00990.00995.00
1000 .001302.501311.001320.001328 .001336.001347.001356.001362 .001366 .201367.501367.751368.501369.821371.501372.501374.101376.521377.501378.501380 .001382.001383 .501385.251397.00
ST10096AST16059AST16059BST16059CST19059AST23O59AST25O49AST26059A
1 Depthend int.
950.00955.00960 .00962.50965.00967.00970.00974.00975.50977.00979.00982.00984 .00985.00987.00990.00995.00
1000.001302.501311 .001320.001328.001336.001347.001356.001362.001366.201367.501367.751368.501369.821371.501372.501374.101376.521377.501378.501380.001382.001383.501385.251397.00
2 Sampletype
SWC
swcSWC
swcswcswcswcswcswcswcswcswcswcswcswcswcswcswcswcswcswcswcswcswcswcswcCORECORECORECORECORECORECORECORECORECORECORECORECORECORECORECORE
3 Lith.
SH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH.MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH/MDSTSH.MDSTSL.MDSTSL.MDSTMDST/SLSTMDST/SLSTMDST/SLSTMDST/SLSTMDST/SLSTMDST/SLSTMDST/SLSTMDST/SLSTSLSTSLSTSLSTSLSTSLST/SST
4 Well
7321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-17321/9-1
5 Geochemjob #
194719471947194719471947194719471947194719471947194719471947194719471947194719471947194719471947194719471948194819781948194819481948194819481948194819481948197819481948
6 MS-f ile
AS16059AS16059AS16059AS16059AS16059AS160 59AS16059AS16059AS23059AS19059AS19059AS19059AS19059AS19059AS19059AS23059AS15069AS2 30 59AS 23059AS23059AS 23059AS160 59AS16059AS160 59AS16059AS16059AS26059AS26059
AS26059AS26059AS26059AS26059AS10096AS10096AS26059AS26059AS26059AS26059ES25049AS26059AS26059AS10096AS16059AS16059AS16059AS190 59AS23059ES25049AS26059
7 26Y360-191/2
0.011.370.855.104.721.383.071.601.920.582.452.601.930.681.021.022.010.250.220.631.871.801 .901.851.281.360.010.01
0.010.010.010.701.230.790.500.280.5ft0.631.310.810.330.743.761.090.801.321.092.851.80
6 26YY360-191/2
0.011.120 .875.184 .651.353.281.751.730.433.022 .411 . 890 .670.981 .081 .860.230.120 .682.151.321 .841.831.541 .090.010.01
0.010 .010 .010.731.170.780.640.250.560.591.110.700.430 .643 .360.770.631.101 .052.501 .65
9 25*346-191
0.011.760.925.544.900.983.121.571.630.702.393.302.460.701 .171.312.310.480 .010.822.852.202 .542.112 .082.280.010.60
0.700.550.490.882.100.890.620.390.830.792.660.830.300.905.371.650.961.751.483.692.01
10 24Y332-191/1
0 .863.141.038.557.641.966 .632.613.222.473.616.124.661 .111.952.932.310.880.011.625.334 .414 .794.774 .361.770 .010 .60
0.540.290.350.551.471 .260.860 .460.951.072.121.900.571.628 .602.561.593 .562. 355.623.34
J 7 3 . . U 9 1 R 50R x 83C 23-AOG-89 1 4 : 2 0 Page 2
0
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1011121314151617181920212223242526272829303 13 i333-1353d373830404 14 243i 4154 f.4 743.1 950
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n • i r t int.
950.00955.00960 .00962. 50965.00967.00970.00974.00975.50977.00979.00982.00984.00985.00987.00990.00995.00
1000.001302.501311.001320.001328.001336.001347.001356.001362.001366.201367.501367.751368.501369.821371.501372.501374 .101376 .521377.501378.501380.001382.001383.501385.251397.00
ST10096A3T16059ATT16059B3T16059C3T19059A3T23059AnT25049A3T26059A
11 24X-Y332-191/1
0.741 .750 . 341.712.380.433.311.542.531.833.495.362.540.592.002.702.300.711.220.771.841.682.173.111 .744.150 .010 .40
0 . 390. 260.220.291.430.850 . 350 . 150.200.231.280.710.241.744.831.511.533.102.054 .051.18
12 23Y318-191
2.227.851.47
16.7014.583.53
11.314.775.302.995.899 .938 .041.823.885.603.800.770.842.468.156 .707.437.885.867.800.200.89
1 .320.900.951.502 .991 .691 . 310.531.181.173.343.230.771.96
11 .343.732.005.393 .708 .145.06
13 22X304-191
0.540 .680 . 300.570 .400.300.720.350.650 .500.450.950.650 . 250.450 .601.200 .310 .010 .281.211.863.033.611.731 .370 .010.01
0.010.010.010.010.210.700 .400 . 200.300.370 .100. 180.260.795.911.111. 161 .921.013 .700 .90
14 21Y290-191
0.633 .990 . 89
5.764.740 . 788.154 .033. 892.054.736.605.450.952.372.142.420 .690.450 .904.874.835.086.334.503.770 . 220 .89
1 .060. 500 .650 .571.311.110 . 880 .500.670.621 .401.160.521.378.732.361.953.172.035.571.76
15 20Y276-191
0 . 892.930. 543 . 562.010 .855.742.872.512.023.424 .583.550.521.911.382.050.780.510.432.232.412.813.452.422.610. 300 .60
0.810 .670.570.640.750 .862.370.310.480.430.700.410.400.916 .881 .651.592.081.703 .811.17
16 23a316-217/1
0.561 .470.801.020.810.301.790 .900.871.301.491 .940.940 .380 .790.941.530.010.010.882.833.466.867.513.682.500.010 .62
0 .520 .470 . 380 .390.700.650 .700 .360.580.650.800.320.292.10
12.353.642.694.412.746 .882.06
1 , 23k316-217/2
0.250.520.461.111.500.401 .740.711.150 .961.221.501.100.400.550.450.770.010.010.200.781.572.322.231.281.230.010.15
0.250.150 .180.170.440 .600.120.100.100.200.300.110.101.066.151.211.291 .890.923.101.03
18 22a302-217/1
0.923.161.072.731.491.084 .932.332 .442.112.954.312.680.641 .813.542.500.980.381.405.666.62
12.6415.937.574.620.011 .34
1.341 .220.920.541 .381 .481 .260.601.351 .111.510.730.764.8832.307.666.1711.066.65
13.374.88
19 22k302-217/2
0.632.601.056.755.411 .017.173.192.772.745.258 .056.131.021 .841.271.450.580.300 .804.145.689.0210.555.954.450.010.36
0 . 380 .400 .300 .45
0.920 .600 .380.180 .360 .481 .080.620.264.84
24 .537.025.29
11 .514.58
12.585.47
J732191R 50R x 83C 23-AUG-89 14:20 Page 3
0
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1011121314151617181920212223242526272829303132333435363738394041424344454647484950
Depthstart int.
950.00955.00960.00962 .50965.00967 .00970.00974.00975.50977.00979 .00982.00984 .00985.00987.00990 .00995.00
1000.001302.501311.001320.001328.001336.001347.001356.001362.001366.201367.501367.751368.501369.821371.501372.501374 .101376 .521377.501378.501380.001382 .001383.501385.251397.00
ST10096AST16059AST16059BST16059CST19059AST23059AST25049AST26059A
20 21a288-217/1
0.654 .490.622.722.660.637.313.673.182.175.096 .254.100.752.524.211 .900 .700 .351 .345.416.71
11 .1313.617.104 .140 .150.42
0.600.600 .300.450.691.300 .900.400.750.611 .600.600.486 .08
39.069.346.91
13.627.77
15.776.67
21 21k288-217/2
2.2910 . 322.98
15.2812.411.99
24 .699.966.979 . 56
18 .9932.5624.893.938 .104.713 .791 .070 .621 .527.31
11.2321.1028.6812.9310.570.351 .43
1.451 .080 .930 .702.451.541 .750 .541.111.592.641.581 .04
11 .9071 .7420.6612.3635.899.51
38 .9916.31
22 33A454-191/1
1 . 363.251 .957 . 954.681 . 21
. 9.073.413.123.404 .684.211 .740 .891 .833.003 .540 .451.150 .943 .724 .026 .649.773.773.350. 280.47
0 . 560 . 310.550 .611 .800.551 .100 .600.900.981.250.720.514.71
19.295.084.506 .914 .97
12.128 .80
23 33B454-191/2
1.151.981.394 .453.140.956.281 .992.492.123.262.881.240.671.401 .662.260.350.600.632.202.484 . 256.222.341.870.210.28
0.200.180.390.481.010.350.790.270.510.551 .000.380.303.00
10.992.992.683.993.038.285.08
24 32A440-191/1
3.557.444.22
13.789.652.24
18.666 .607. 176.798.959.373 .911.333.965.888 . 541 .212 .991.427.448.85
12.8623.649 .047.160.631.73
1 .641.561.161.963.390.963.061.322.242.421.711.540.977.78
36.949.045.60
12.487.57
22.1915.31
25 32B440-191/2
1.924.792.449.817.251. 34
12.354.274.994.606 .385.992.480.862.733.835.680.881.691.204.856.138.35
14 .146.154.990.271.22
1.011.100.731.292.380.731 .650.621.311.470.850.980.645.30
22.145.483.227.815.01
13.679.05
26 31A426-191/1
10 .9018 .1710 .4037.6225,894 .75
51.3215.0015.4715.4725.1122 . 497.792.398 .31
11.5321.173 .107.422.64
10 .8814 .1323.1042.0315.3716.160 .872.28
2.101 . 871 .473.295.881.314.291.763.374 .083.013.751.67
12.4260.5915.079.68
21.4412.1042.6028 .68
27 31B426-191/2
6.1010.986 .07
25.5315.902.85
35.4910.0610.7210.1414.8614 .525.521.475.577.88
14 .192 .104 .941 .527.939.07
13.9926.069.83
10.460 .401.72
1.471 .291 .102.123.990.942.661.101.942.471.752.271.028.18
40.229.237.35
13.388 .31
24 .5615.69
J732191R 50R x 83C 23-AUG-89 14:20 Page 4
0
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10111213141516171819202122232425262728293031323334353637383940414243444546•17
484950
Depthstart int.
950.00955.00960.00962 .50965.00967.00970.00974 .00975.50977.00979 .00982.00984.00985.00987.00990.00995.00
1000 .001302.501311.001320.001328 .001336.001347.001356.001362.001366.201367.501367.751368 . 501369.821371.501372.501374 . 101376 . 521377.501378.501380 .001382.001383.501385.251397 .00
ST10096AST16059AST16059BST16059CST19059AST23059AST25049AST26059A
28 31C426-191/3
0 .501.730 .681 .291.520 . 553.150.661 .462.873.332.440.470.320.911.453.500.450.570.250.850 .741 .602.501 .081.700 . 240 . 16
0.480 . 360 . 340 . 260 . 980.620 .480 . 320.330.240 . 500.250 . 341.455.391 .361.642.101.323.851.35
29 31D426-191/4
0.811 .681.073 .532.460.636 .721 .912.552 .984 .022.691.070.571.281.463 .330.380.740.161.111.031.862.671 .221.720.150 .15
0. 300.360 .240.230 . 510 .520.530.140 .200 .260.700.130 .101 .035.591.461.631.401.113.411.36
30 30F412-191
0 .631.640.431.311 .780 .300.531.021 .080 .503.311 .821.000.511 .031.142.760.351 .510 .872.502.915.37
10.023.634 .300.563 . 28
2.822 .392.371 .972 .501 .445 .542 .404.302 .521.531 .311 .883 .20
11.032 .662.944.262.878 .044 .06
31 30A412-191
36 .6369. 3246.75
124 .3485.5719.30
178.7871.1473 .3366 .33
100.5196.0649.3210.4243.4746.5378 . 3911.7419 .907.57
41 .3154 .9682.93
113.5360.6654.422.63
10.37
9 . 997.796.67
10.9814.173 . 33
18.907.28
13.9716 .806.69
19.386 .60
46.53162.0551 .6635.4069.6245.25
116.9386.19
32 30H412-191
0.541.491 .153.551 .801.074 .001 .991 . 581.733.822.110.840.250.950.951.990.430.670.262.112.554 .056.852.482.250.270.36
0.300.220.400.620.900.470.590.210.400.460.500.240.131 .867.831.590.982.581.917.411.96
33 30C412-191
2. 304 .353.189.706.040.95
17.145.446.385.028 . 387.163.170.813 .003.057.590.971.130.522.242 .974 .076.232.744 .030.380.39
0 . 280 . 250.370 . 490.940.440 . 860.320.490 .710 .500.780.192.489.712.241.353.162 .277.033.35
3 , 29H398-191
0.300.250.46
12.8413.092.750.871.170.501.121 .000.260.250.140.500.452.470.200.620.480.200.300.701.121 .105.480.150.51
0.390.420.442.104.611.400.850.400.420.742.484 .070.293.64
18.614.843.197.714.91
12.2610.22
35 29A398-191
30.4253.0234.2289 . 3865.0514.94
140.5857.7154.0848 .2272 .3079.8248 .479.80
37.1233.7150.018.26
10.944.25
11.0917.0825.2636 .9319 . 2036.971 .103.03
3 .292 .412 .044 .609.721.916 .702.434 .708 .995.21
14 .092.31
15.8772.9221.9612.6430.0416.0553 .5837.68
36 29F398-191
7.3517.996.09
22.6914.862.68
39 .979.90
11.029.78
15.9819.238.162.179.88
10.8321.953.192.671 .807.749.39
15.5529.7711.0010.330 .593.15
2.872.302.252.526.392.125.802.183.904.712.323.771.967.05
36.978.276.43
11.887.16
18.8411.20
J732191R 50R x 83C 23-AOG-89 14:20 Page 5
0
123456789
1011121314151617181920212223242526272829303132333435363738394041424344454647484950
Depthstart int.
950 .00955.00960.00962.50965.00967.00970.00974.00975.50977.00979.00982.00984 .00985.00987.00990 .00995.00
1000 .001302.501311.001320.001328.001336 .001347 .001356.001362.001366.201367.501367.751368.501369.821371.501372.501374.101376.521377.501378.501380.001382.001383.501385.251397.00
ST10096AST16059AST16059BST16059CST19059AST23059AST25049AST26059A
37 29C398-191
2 .426.171.917.736 .210.63
14 .524 .705.073.087.107.033.840.833 .113.946 .601 .070.550.410.851.201 . 391 .901 .122.810.200.46
0 .330.320.480.421.131.150.560.310.370.360.580.810.142.95
12.173.331.863 .992 .888 .003.71
38 28A384-191
0.300 .600 . 204.063.960 .761 . 300.770.830 .501.591.991.470.411.010.681.960 .100 .310.230 . 200 .640 .711.030.671 .090.170.01
0 .010 .010.010.411.520.790.170.010.010.310.710.710.018 .73
43.7310 .667.09
14.838 .86
25.3513.47
39 28N384-191
0.160 .210 . 403.824.980.650 . 400 .500.151.411 .180.400 .160 .100 . 250 .151 .720.100.260.280.190.500 .690.580.721.570.100.01
0.010.010.010.611.850.930.230 .010.010.220.951.110.011.847.881 .281 .273 .302.426 .393.23
40 27F370-191
3 .1514.113 .80
14.0610.222 .34
21.036 .397.036 .04
11.2714.326 .071.407.478 .97
11 .622.741.522.018 .119 .69
15.9527.3111 .6012.150.504.48
4 .233 .203 .182 .804.512.728.522.674.784.773.716.512.897.37
36.359 .987. 29
13 .527.93
20.9211.54
41 27A370-191
3 .8812.077.13
30.6920 .813.36
44.3515.6814.7513.2624 . 1125.9811 .812.708.468.44
11.372.363.681.122.864.745.678.105.27
13.030.480.77
0.760.600.621.423.440.951.580.510.731.532.423.890.625.62
25.756.295.569.836.19
14 .788.60
42 30a414-217
0.010 .010. 370 .980.780.780.920 .760.010.751.140 .600.360.150 .350.370.010 .010 .010 .011.222.333.983.461.980.010 .010.01
0 .010 .010.010.011.010 .010.920.510.830.710.590 . 370.512.018.992.252.013.302.155.941.75
43 30b414-217
0.010.010 .200 .500.400.530 .501 .060.010.430.700. 360 .260 .100. 200. 270 .010.010 .010.010 .831.462.452.521 .340.010.010.01
0 .010.010.010.010.560 .010.630.270.650.590 .010.320.411.387.460.992 .082.141.734 .471 .23
44 30c414-217
0.010.010.300.700.300.270 .400.840.240.400.500 .200. 200. 100. 180.200.010.010.010 .010 .400.871 .991 .081 .060.010.010.01
0.010.010.010.010.570.010.400.150.160.220.010.280.330.804 .730.751.151 .001.032.610.81
45 30d414-217
0.010.010.302.092.040.252.381.531.071.702.411.021.000.270.610.220.010.010 .010.010.540 .801.230 .670.730 .010 .010 .01
0 .010.010 .010.010.680.010.180.120.130.160 .010.130.240.563 .900 .680.830 .880 .752.440.61
46 30e414-217
0.010 .011 .148.398 .070 .64
11 .443.834.772.926.774.454 .071.301.240.340.010 .010 .010.010 .991 .201.541.440.830.010.010 .01
0 .010 .010 .010 .010 .530.010 .220 .200.140 .290 .010.230.181.236.420 .781 .401.911.334 .171 .66
J732191R 50R
0
123456789
1011121314151617181920212223242526272829303132333435363738394041424344454647484950
Depthstart int.
950.00955.00960.00962.50965.00967.00970 .00974 .00975.50977.00979.00982.00984 .00985.00987.00990 .00995.00
1000 .001302.501311 .001320.001328 . 001336 .001347.001356 .001362.001366 .201367.501367.751368.501369 . 821371 .501372.501374 . 101376 .521377.501378.501380.001382.001383.501385.251397.00
ST10096AST16059AST16059BST16059CST19059AST23059AST25049AST26059A
X 83C
47 30f414-217
0.010 .010.432.182.700.742.151.461.191 .062.731.491.310.700 .710.460.010.010.010.011.471.822.311.811.110 .010.010.01
0.010.010 .010 .010 .910 .010 . 240.250.150.400.010.250.161 .487.361.701 .462. 501.525.051.87
48 30g414-217
0.010 .010 .564.135.180 .804.961.962.711.954 .802.612.320.820 .890 .600 .010 .010.010 .011.571.902.721 .880.920.010.010.01
0 .010.010 .010.011.230 .010.330.210.330.430.010.310.171.708.742.011.342 .971.756.222.28
49 30h414-217
0.010 .013 .16
16 .0418.422.20
27.978 .848 . 485 .78
11.937.416 .641 .802.370 . 350.010.010.010.010.821.281 .540.910 .91o.di0.010 .01
0.010.010.010.010.610.010 .150.170.170.220 .010.240.140 .986.331 .271.311.911.124.211.44
30 29a400-217
0.014.421 .045.215.580 .776 .061.522.702 . 264.214 .121.960.721 .783.795.951 .081 . 322 .875.259.07
20.7622.4810.686 . 530 .016 . 24
6.035. 264 .903 .415.193 .73
11.144.569.518 .594 .033.134.47
11.4967.2017.7611 .5925.9513.6540.7917.54
51 29b400-217
0.012.260.944 .495.560.875.141.231.931.653 .893.261.640.331.222.223.870.660.681.673.716.38
12.3813 .946.763.170.013.91
3.553.053.192.593 .922.716 .833.035.305.102.842.142.688.07
49.5011.818.54
18 .549.82
27.3810.26
52 29c400-217
0.011.470.603.303 .941.163 .001 .161.201.001 .501.500 .800 .200.701.111 .150.310.420.821.892.487.137.224 .072.150 .010.95
1 .020 .830 .890 .631 .601.712.180 .921.691.651.060.791.113.91
22.245.024.788.304.97
11.405.02
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53 29a400-217
0.011.621.269.669 .081.019.584 .474 .413 .076.544 .502.750.671.010.981.300.240.280.892.403.684.424.252.332.030.010.68
0 .690 .620. 580.512.401 .361 .010.510.761.150.980.740.693.07
15.383.103.396.383.569.394.51
Z
54 29e400-217
0.014.368.79
44.9636.945. 59
66.0227.4425.5120 . 7940.6727.1917.094.336.113.265.930.540.431 .073 .815.176.456.743.514.020 .010 .93
0 . 870.650.491.262.641 .171.420.460.671.511.471 .070.474.24
21 .095.953.108.544.93
11.597.24
J-AUG-B9 14:
55 29f400-217
0 .013.633.97
22 .1417.883.27
26 .8710 .089.689.04
14 . 5511.457.212.213.642.324.460 .470.641.545.607.699.039.355.234 .400 .011 .26
1 .101.020 .941.953.951.432 . 300.821 .942.642.121 .540.715.42
28.447.423.87
11.495.78
14.959.75
IK) page b
56 29g400-217
0.013.652.88
23.9518.313.76
23.999.838.978 .06
16.4212.447.362.163 .092.514.380.650 .491.395.807.929.309. 504.994.460.011.20
1.090.930 .761.994.251.522.110.811.622.222.451.670.935.99
30.667.544.67
12.786.29
16.7710.29
J732191R 50R x 83C 23-AUG-89 14:20 Page 7
0
123456789
1011121314151617181920212223242526272829303132333435363738394041424344454647484950
Depthsta rt int.
950.00955.00960.00962.50965.00967.00970 .00974.00975.50977.00979 .00982.00984.00985.00987.00990 .00995.00
1000 .001302.501311 .001320.001328.001336.001347.001356.001362.001366.201367.501367.751368.501369 .821371.501372.501374 .101376.521377.501378.501380.001382.001383.501385. 251397 .00
ST10096AST16O59AST16059BST16059CST19059AST23059AST25049AST26059A
57 29h400-217
0 .017.42
16 . 5065.8961 .999 .35
110.5947.5043.7833 .8662.7344 .6030.466 .469.124 .377.550.650 .240.572.673.894 .565.011.843 .140 .010 .46
0 .490 .460 .551.022.110 .900 .850 .510 .691 .311 .020 .790 .353 .55
17.514.693 .497.214.51
10 .686 .87
58 28a386-217
0.011.870.953.022.100 . 593.412 .091.421.502.752.750.850.130 .851.842.430.010 .011 .493.534.769 .00
11.884.553.550.011.47
1.121 . 241 .170.522.351 .572 .900.932.472.871 .721.021.096 .60
36.268 .656.68
12.357.38
18.027.83
59 28aa386-217
0.012.110.773 . 282.450.624 .192 .061.771 .402.792 .900 . 900.190 .761.433.020.010 .011 .674 .015.269.25
12.194.923.990 .011.57
1 . 361 . 211.230 .842.711.912 .970 .962.012.581.791 . 301.085.83
38.119.087.50
13.357 .99
19 .768 .99
oO 28b386-217
0.011.210.503.292.600 .602.401.341.411.402.442 .161.030.010.710.992.710.010.011.212. 273. 396.398.123.292.900.011.07
1 .251.131.031.142.691 .351.870.802.022.111.290.830.724.05
25.166 .204.818.425.41
12.545.58
61 28bb386-217
0 .011.480.553 .842.350.702.601.371.511.702.452 .491.200.010 .671.502.710.010.011.452 .643 .987.198.834 .003.400.011.07
1.251.031.031.142.691.412.090.802.022.111.530.950.774.81
29.507.015.789.566 . 16
14.686.45
62 28c386-217
0 .010.860.301.701.300.430.500.640.800.991.341.430.500.010.330.461.170.010.010.831.082.023.713.941.561 .660.010.66
0.700.700.430.571.220.940.890.300.770.710.760.480.401.52
11.523.192.893.882.367.582.40
63 28u386-217
0.010.850.322.102.250.380.500 .910 .601 . 361 .501.070.600 .010 .400. 391 . 750 .010 .010 .691 .241 .903.313.801.362.230 .010 .72
0.600 .400.360.621.661 .000.750.370.820.910.680.470. 241.97
12 .582.262.714 .042.637.712.33
64 28e386-217
0.011.993.60
24.2317.232.18
36.9914.9212.5210.7420.6716.679.922.613.121.122.720.010.010. 471.482.202.632.421.382.200.010.38
0.340.420.330.831.640.440.440.160.380.670.770.430.231.279.511.271.923.052.136.062.40
65 28f386-217
0.013.995.28
35.1629.315.45
39.7216.2515.3914.2228 .2021.6412.943.554.832.334.310.010.011 .295. 296 .087.457.784.424.830.010.51
0.750.690.351.733.220.891.360.490.751.572.191.500.515.37
28.626.785.24
12.125.99
16.159.77
66 28g386-217
0.012 .983.45
22.5516.252.25
21.199.238.658.32
16.3313 .088.332.432.991 .633 .580.010 .011.124 .335.566.636.913.513.770 .010 .57
0.690.900.451.703.250.590.990.450.641.251.881.220 .464 .44
22.945.704.219.894 .98
13 .198 .23
J732191R 50R x 83C ^ _ 23-AUG-89 14:20 Page 8
0
123456789
1011121314151617181920212223242526272829303132333435363738394041424344454647484950
Depthstart int.
950 .00955.00960.00962.50965.00967.00970 .00974 .00975.50977.00979.00982.00984.00985.00987.00990.00995.00
1000 .001302.501311.001320.001328.001336.001347.001356.001362.001366.201367.501367.751368.501369.821371.501372.501374 .101376.521377.501378.501380.001382.001383.501385.251397.00
ST10096AST16059AST16059BST16059CST19059AST23059AST25049AST26059A
67 28h386-217
0 .015.78
14 . 2057.7956.247.39
92.3844 .7542. 3732 .4558 .5248 .3732.026 .377 .982 .655.900.010 .010.551.972 .232 . 863 .271.713 .670 .010 .45
0.270.430 .400 .641.810 .530 . 460.330.230 .700 .970.690.212.02
11.282.191.964.162.727.593.71
68 27a372-217
1 .456.652 .009.547.811 .47
12.193 .714 .453 .526 .977.113.300.832.667.155 .861 .561 .355.108.98
12.1132.5727.7414 .1811 . 200 .493 .45
4 .062 .662 .812 .604.343.177.842.843 .805.184.343 .903.65
16.5286.2027.1416 .4536.9022.0756.5129 .24
69 27b372-217
1.073.881.317.517.911.458 .582.673.521.854.535.152.530.671.624.294 . 360 .970.712 .906.488.02
17.9316 .969. 257.590.352.54
2.102 .092 .091.743.502.264 .671.933.314.342.992.542.1710.6763.8117.9411.2225.6312.9337.8316.89
/0 27c372-217
0.450.780. 301.402.050.673.341.261.130.901.501.201.020.360.510.782.370.300. 360.731.752.285.204 .582.452.010.120. 38
0.230.320.630.390.901.170.970.350.860.950.780.550.392.74
14.764.093.575.343.638.633.12
71 27d372-217
0.501 .310.432.411 .900.503.341 . 370 .901 .101.000 .900 .900. 300 .691.121.650 .470 .301.092.182.836.306 .062.842.380 .110.54
0 . 550 .340 .690 .451.061.361 .680 .581.261.451 .020.820.653.68
21.585.543.827.824.81
11.234.62
72 27e372-217
0.594.978.41
47.8837.156.71
68 .5229.6224.4220.9739.4833.7520.234 .355.632.694 .270.550.300.973.103.635.203.432.324 .290.120 .55
0.520 .520.471.022.510.820.580.190.621 .421.360.990.403.01
15.485.543.577.354.10
10.395.99
73 27i372-217
0 .693.562.90
27.8119.903 .11
24 .968 .898.238 .35
15.7013.368.232.143 .092.343 .290 .680 .431 .435.327.089.187.204.675.210 .140.51
0 . 540.450.521 .253.251 .010 .980.350.791 .902.071.580.605.11
24.707.905.22
11.485.22
13.909.13
74 27g372-217
0.992.212.60
21.9515.573.20
18.986 .606.536.73
12.4210.706.931.862.401.973.360.400.371.184.806.028.066.723 .884.430.210.63
0.620.520.551.282.890.781.020.250.611.552.001.450.544.07
20.206.544 .449.615.01
11.757.42
75 27h 76372-217
0 .728.67
20 . 2681 .8173.6212.72
133.4956 . 1548.7136.3767.4062.2740 .527.109.344 .446.760 .700.380 .783.576.885.354 .572.635.570.110.62
0 . 580 . 500.421 .252.480 .700.910.420.451 .191.771.360.332.85
15.304.703.577.494.4110.156.93
J732191R 50R x 83C 23-AUG-89 14:20 Page 9
0
123456789
1011121314151617181920212223242526272829303132333435363738394041424344454647484950
Depthstart int.
950.00955.00960.00962.50965.00967.00970.00974.00975.50977.00979.00982.00984.00985.00987.00990.00995.001000 .001302.501311.001320.001328.001336.001347.001356.001362.001366 .201367.501367.751368.501369.821371.501372.501374.101376.521377.501378.501380.001382.001383.501385.251397.00
ST10096AST16059AST16059BST16059CST19059AST23059AST25049AST26059A
77 24X330-191
1.143.561.014.264.300.846.782.522.831 .723 .375.422.540.522 .143.363 .790 .771 .410 .742.043.254.206.253.207.680.300.65
0 .620.360.450.553.000 .700 .710 . 280 .500 .81
1 .470.452.139 .192 .902.493 . 182 . 20
2 . 36
78 79 %-NORHTRI-CYCL.
473557344335776759411118657765
65678
12•6
565
- 13- 9
733444443
8 0 %-WORML.M.STE.
463333343447976636289
10111111846
6653484444735911111112997
81 %-NORHPENTA-CYCL.
8664524035394137404238413435566267688?364343415148557645
444342484331464443433657394538393837414250
82 %-NORMSTERANES
5234353575053565351554751513225251811453740423334301444
434647414649454647484431494347464747474540
83 G K O U PSUM
132.30362.45258.70
1082.29870.32163.63
1478.72589.50565.52486.36853.06791.43467. 17107.70255.38251.90389.7359. 2977.8079.14
278.00360.03569.65722.51354.22354.4113.4176.56
74 .8862. 5258 .4380.90
167.1975.24
142.1856.11
103.43125.78106.86116.6657.32
334.951684.52445.87319.79654.24375.57
1022.56559.98
THE ROBERTSON GROUP pic
REPORT NO. 6511/Ic
PETROLEUM GEOCHEMISTRY OF THE NORSK HYDRO7321/9-1 BARENTS SEA WELL: MATURITYAND KEROGEN TYPE OF THE INTERVAL
700m TO 1800m
by
A G COLLINS
PROJECT NO. RGPD/890/Ic/21788
NORSK'HYDRO CONTRACT NO. K02815-00/UP-U015
Prepared by:
The Robertson Group picPetroleum DivisionLlandudnoGwynedd LL30 ISAUnited Kingdom
Prepared for:
Norsk Hydro a.s.KanebogenN-9400 HarstadNorway
APRIL 1989
RobertsonGroup
2 INTRODUCTION
This report presents the results obtained from spore colouration, vitrinitereflectivity and visual kerogen type analysis of ditch cuttings samples and oneconventional core sample from the interval 700m to ISOOmTD in the Barents Sea7321/9-1 well. The work was submitted by Norsk Hydro, Harstad, under ContractNo. K02815-00/UP-U015.
The group of samples comprised 45 washed ditch cuttings and one piece ofconventional core, and were received at The Robertson Group's North Waleslaboratories on 8th February, 1989. Preliminary results were sent to NorskHydro on 11th March and 11th April, 1989 by facsimile messages. The analysescarried out are as follows:
No. of samples
Sample preparation 46Kerogen preparation 46Spore colouration 29Vitrinite reflectivity - 21Visual kerogen typing * . 29
Robertson Group personnel involved in the study were:
Alan Collins - Project co-ordination, spore colour/kerogen microscopy andreport writing
Sandra Martin - Vitrinite microscopyMalcolm Jones - Supervision of kerogen preparation
Our contact at Norsk Hydro throughout the project has been Jan Augustson whokindly provided the outline stratigraphy and temperature data used in thereport.
RobertsonGroup
COMPANY: NORSK HYDRO WELL: 7 3 2 1 / 9 - 1
GENERAL DATA.
SAMPtE. DEPTH
(Metres)
700
750
800
850
900
950
960
970
980
990
1000
1035
1050
1100
1140
1150
SAMPLETYPE.
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
. AkAUSEB: UTHOLQGTf
LOWER CRETACEOUSMOST, ol-gy+ 30%MOST, v i t gy, s l t y
MOST, med-dk gy+ mnrDOL, brn-gy
MOST, med-dk gy* mnrDOC, brn-gy
MOST, med-dk gy
MOST, med-dk gy+ 10XLST, brn-gy+ mnrCALT
MOST, med-dk gy,stty+ mnr pyr
MOST, med-dk gy,s l ty+ tp pyr
MOST, med-dk gy,s l ty+ t r pyr
MOST, med-dk gy,slty
MOST, med-dk gy,slty
MOST, med-dk gy,sl ty* 20X MOST,med gy, slty* t r pyr
MOST, med-dk gy,s l ty* t r pyr
MOST, med-dk gy,slty
MOST, med-dk gy,sl ty* mnr MOST,brn-gy, slty
MOST, med-dk gy,slty
MOST, med-dk gy,sl ty* mnr MOST,brn-gy, sl ty
Wixmrn. DATA
SPORECOLOURINDEX
6.53.0 C
6.5"
5.5
5.0-5.5
5.0
5.0
6.0-6.5
5.5
7.0 ?
. vim.REFL..R oft.avX
.56(15)
.37( 2)L
.80( 9)R1.15( 9)R
.58( 8)
.S0( 6)R1.12( 9)R
.59(14)
.37( 9)L
.77(18)R1.02(14)R
.59( 9)
.85(13)R1.16( 6)R
.52( 2)
.m 9)R1.06(12)R
.57(14)
.40(21)L
.81(13)R1.08( 7)R
.58( 4)
.39(14)L
.78( 4)R1.09( 5)R
.63(20)
.44(15)L
.86(14)R
.61(11)
.43(28)L
.84(11)R1.05( 5>R
.65(23)
.44(16)L
.90(13)R
X:. (Visual
INERTIKITE
70
25
10
5
5
10
10
15
10
LOCATION:
KERGGE»
BARENTS SEA
COMPOSITION BATA
frow. microscopy)
VITRIKITE
25
35
30
15
20
55
70
75
70
SAPROPEL.
5
40
60
80
75
35
20
10
20
%. (Ca lcu la ted )
INERT VIT ALGSAP
WXYSAP
MATURITY AND KEROGEN COMPOSITION DATATABLE : 1A
COMPANY: NORSK HYDRO WELL: 7 3 2 1 / 9 - 1
GEHERAL DATA.
SAMPLE DEPTH
(Metres}
1240
1245
1250
1282
1295
1300
1310
1317
1322
1327
1332
1337
1342
1347
1352
1357
SAMPLETYPE
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
: ANALYSED LITHOLOGf
HOST, med-dk gy,s l t y * ranr HOST,brn-gy, slty* t r pyr
MOST, med-dk gy,slty* mnr MOST,brn-gy, slty
MOST, med-dk gy,sl ty* 10% SND+ trLST, I t gy
MOST, dk gy* mr SNO+ tr LST, I t gy
MOST, dk gy, s l ty*mnr SNO+ tr LST,brn-gy
MOST, dk gy, s l ty*mnr SNO+ tr LST,brn-gy
MOST, gy-btk, slty*mnr SND+ tp MOST,I t brn-gy
JURASSICLST, v I t gy* 20XMOST, med-dk gy,sl ty
MOST, gy-blk, s l ty*20X MOST, v I t gy,slty
MOST, gy-blk, slty*10X MDST, v I t gy,calc
MOST, gy-blk, s l ty*mnr MOST, v I t gy,calc
MOST, gy-blk, slty*mnr MOST, v I t gy,calc
MOST, gy-blk, s l ty*tr MOST, v t t gy,calc
MOST, gy-blk, slty*tr MOST, v I t gy,calc
MOST, gy-blk, slty*tr MOST, v I t gy,calc
MDST, gy-blk, slty*tr MOST, v I t gy,calc
M&Hrair? DATA
SPORECOLOURINDEX
6.0
6.0-6.5
6.5
6.5
6.0
6.5-7.0
6.5
6.5
6.5
6.5-7.0
6.5-7.0
6.5-7.0
6.5-7.0
6.5-7.0
VITR;.REFLvR oi l .av X-
.70(12)
.48(12)L
.96( 9)R1.20(19)R
.74(32)
.53( 4)L1.04(15)R
LOCATION:
X (Visual
INERTIKITE:
5
10
5
5
5
10
5
5
5
5
10
10
10
10
KERQGEtt.
BARENTS SEA
COMPOSITION DATA
, fro» microscopy):
VITR181TE:
70
75
95
95
95
90
25
20
20
30
35
35
15
25
SAPROPEL.
25
15
Mnr
Mnr
Mnr
Mnr
70
75
75
65
55
55
75
65
X (Ca lcu la ted )
INERT
•
VIT ALQSAP
UXYSAP
MATURITY AND KEROGEN COMPOSITION DATATABLE : IB
COMPANY: NORSK HYDRO WELL: 7 3 2 1 / 9 - 1
GENERAL DATA
SAMPLE DEPTH
(Metres)
1367.75
1400
1425
1450
1500
1550
1600
1622
1642
1650
1700
1777
1780
1800
SAMPLETYPE
Core
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
Ctgs
ANALYSED LITHOLOGY
SLTST, o l - g y , sndy
MOST, dk gy+ 10% SNO+ 10X CMT
TRIASSICSST, I t brn-gy, ca lc+ 40% MOST,med-dk gy, s l t y
SST, I t brn-gy, ca lc+ 2OX MOST,med-dk gy, s l t y
SST, I t brn-gy, ca lc+ 20X MOST,med-dk gy, s l t y
MOST, med-dk gy,s l t y * 3OX SST,I t brn-gy, calc
SST, I t brn-gy* 20XMOST, med gy, slty
SST, I t brn-gy* 30XMOST, med gy, sl ty
SST, I t brn-gy* 30XMOST, med-dk gy,slty
SST, I t brn-gy* 30XMOST, med-dk gy,sl ty
SST, v I t gy+ 30XMOST, med-dk gy,sl ty
SST, v I t gy* 30XMOST, med-dk gy,s l ty* 10X MOST,gy-blk, carb
MOST, med gy, sl ty*30X MOST, dk gy,sl ty* 30X SST,v I t gy
MOST, dk gy, s l ty*20X SST, v I t gy*10X MOST, med gy,sl ty
M&RTRir? DATA,
SPORECOLOURINDEX.
7.5-8.0
7.5
8.0
7.5
7.0-7.5
7.5
VITR;REFL.R oft.avX
.68(27)
.54( 8)L1.04(18)R
.75(12)•51(17)L
1.03(10)R
.75(44)1.03( 7)R
.79(31)1.05(14)R
.85(13)
.62( 3)L1.16(24)R
.92(13)
.70(16)L1.28(16)R1.58( 9)R
.93(16)
.67(10)L1.21(27)R
.94(15)
.73( 9)L1.33(26)R
.92(36)
.73(10)L1.19( 7)R
LOCATION:
X (Visual
tMERTIKtTE
15
25
30
60
15
15
KESOGEff
BARENTS SEA
COHPOSITIOET BAT*.
from, microscopy)
VITR1KITE-
80
65
40
10
75
75
SAPROPEL.
5
10
30
30
10
10
X. (Calculated)
NERT VIT ALGSAP
WXYSAP
MATURITY AND KEROGEN COMPOSITION DATATABLE : 1C
COMPANY: NORSK HYDRO WELL: 7321/9-1 LOCATION: BARENTS SEA
Depth Palynomorphs Vitrinite Inertinita Amorphous Amorphous Cuticle Reworked Caved
(metres) (liptinitic) (humic)
950
360
970
980
990
1000
1050
1100
1140
1240
1245
1282
1295
1310
1317
1322
1327
1332
1337
1342
1347
1352
1357
1367.75
, (core)
,' 1425
1622
1642
1777
1780
j (TD1800m)
5 Di, Sp
10 Di, Sp
Mnr Di, Sp
5 Di, Sp
5 Di, Sp
5 Sp
5 Sp, 5 Di
10 Sp, Mnr
Di
5 Sp, Mnr Di
Mnr Sp
Mnr Sp
Mnr Sp
5 Sp, Di
Mnr Sp, Di
Mnx Sp, Di
Mnr Sp
Mnr Sp
Mnr Sp
Mnr Sp
Mnr Sp
5 Sp
10 Sp
10 Sp
30 Sp
10 Sp
10 Sp
Abbreviations:
Mnr r
1 Sp -I Di -
Minor (<5%)Spores, pollenDinocysts
25
20
20
5
10
45
30
60
20
10
15
15
20
10
20
10
10
10
10
10
10
5
10
60
65
15
10
30
15
70
25
10
5
5
10
10
15
10
5
10
5
5
5
10
5
5
5
5
10
10
10
10
15
25
30
60
15
15
30
60
75
70
30
10
Mnr
715
25
15
?Mnx
?Mnr
Mnr
?Mnx
65
75
75
65
55
55
75
65
45
71.
10
10
40
15
50
60
60
80
75
85
70
15
10
10
20
25
25
10
15
20
45
60
Mnr
Mnr
Mnr
TABLE 2 Detailed Kerogen Composition Data
Time-Temperature Index Calculations
MATURITY CALCULATIONS
COMPANYWELLLOCATION
NORSK HYDRO7321/9-1BARENTS SEA
PROJECT : 25788
HORIZON : A TD (TRIAS)
P-value TTI-value VR (P)Temperaturedegrees C
TimemyBP
VR (TTI)
102030405060708090100110120130140
22821612412211299857562504030177
****3.876.666.707.047.588.238.759.47
10.1410.7311.3712.1712.79
00001123612224294174
**************** * ** ****************
.36
.41
.48
.54
.62
.73
.83
****************************************
.41
.48
.57
.731.061.34
10 0 12.79 174
Times of reaching key reflectances
.83 1.34
VR fromTime
P .5046
.5539
.7515
1.2***
VR fromTime
TTI .5048
.5542
.7529
1.212
MATURITY CALCULATIONS
COMPANYWELLLOCATION
NORSK HYDRO7321/9-1BARENTS SEA
PROJECT : 25788
HORIZON : B TOP KIM
Temperaturedegrees C
TimemyBP
P-value TTI-value VR (P) VR (TTI)
102030405060708090100110120
15012211398867564514030207
****4.725.216.056.697.327.988.749.3810.0010.6611.47
00000113611
- 2147
***********************************
.36
.41
.46
.53
.63
*********************************************
.47
.56
.76
10 0 11.47 47
Times of reaching key reflectances
.63 .76
VR fromTime
P .5025
.5517
.75***
1.2***
VR fromTime
TABLE 3
TTI .5026
.5521
.757
1.2***
a/aAcADDAlAmangANHarenargBASbdB(IT)blbidblkbribrn -calcCALTcarbCGLCHKCHTCLYST
onComp —
crsCSGCtgsCuC(vd)decarbDidkDLTDOL/doldskExExsextrffeiferflufmfoss -frfrac -frags
FuGLC/glc
gngrdgras
gyGYPHALhdhor -H(RV)i-i/bIGSinc -Inertlam -LCMLIG/LigInsL(RV)
LSIItmass -
as aboveacritarchsmud additivealgaeamorphousangularanhydritearenaceousargillaceousbasaltbedded/beddingbitumen/bituminousbluebleachedblackbrilliantbrowncalcareouscalcitecarbonaceousconglomeratechalkchertclaystonecementcompositecoarsecasing point/shoeditch cuttingscuticlecaveddecarbonateddinocystsdarkdoleritedolomite/dolomiticduskyexiniteexsudatiniteextractedfinefeldspathicferruginousfluorescenceformationfossils/fossiliferousfriablefracturefragmentsfusiaiteglauconite/glauconiticgreengraded/grading tograinsgreygypsumhalitehardhorizontalhigh reflecting vitrinitei so-inter-beddedigneous rocksincludinginertinitelaminae/laminatedlost circulation materiallignite/ligniticlens(es)low reflecting vitrinitelimestonelightmassive
APPENDIX 1D IS ANALYTICAL DATA SHEETS
MDSTmedMETmicmicrminmnrmodmtln-NAnodKSoccoloolorng
OSPpalPhpnkporPPPrpred
PrtPYR/pyrQTZ(T)
ReR(ew)rndSapsbngsbrd
SCISfsftSHshly
silsksSLASLT(ST)slty
SHDsndy
SpSSTststkssuesurf
sueTDTOCtrtrnsV
vgtVitvnVOLCTOwhtxlnyel
_*
gy-gngy/gngn-gy
- mudstone- medium
metamorphic rocksmica/micaceousmicritic"mineralminormoderate
- mottlednormal
- not available- nodule/nodular
no sampleoccasional
- oliveooliticorangeoil stainpicked lithologypale
- phytanepink
- porous/porositypurple
- pristane- predominantly
presentpyrite/pyriticquartz(ite)
- resinreworked
- round(ed)- sapropel
subangular- subrounded- spore colour index- semifusinite
softshaleshalysiliceous
- slickenside surfaceslatesilt(stone)siltysand
- sandyspores
- sandstonestained
- streakssucrosicsurfaceside wall coretotal depth
- total organic carbontrace(s)
- transparentvery
- variegatedvitriniteveinvolcanic rocksvitrinite reflectivitywhitecrystalline
- yellow
no analysis carried outanalysed but no data obtainegreyish green
- grey-green (gradation)greenish grey
Note: (Maturity data tables only). Number in brackets refers to number of reflectivity values averaged to give quotedresult. Preferred values for indigenous phytoclasts are listed first.
RobertsonGroup
APPENDIX 2
ANALYTICAL PROCEDURES AMD TECHNIQUES
This appendix summarises che main steps in the analyses carried ouc in the Robertson Research International Ltd.
petroleum geochemistry laboratories. Analytical pathways are shown on the flow chart (Appendix Figure 1) and details of
laboratory procedures and techniques are given in the text. These aay in certain circumstances be adapted to suit
particular samples or conditions. Interpretation guidelines are also defined.
1. Sample Preparation
General
Samples are received into the laboratories in the forms of well-site canned ditch cuttings, bagged ditch cuttings in
various stages of preparation from wet, unwashed to dried, washed; sidewall cores, conventional cores, outcrop samples,
crude oil samples and gas samples. Each sample is assigned a number which is entered into a computer system to monitor
sample selection and progress. Preparation techniques are directed towards obtaining clean samples, free of drilling
mud and mud additives, obvious caving contamination and indeterminate fine material. Washing with cold water is
standard but further washing with solvene (dichloromethana, DCM) is carried ouc if oil-based mud is present, after which
samples are dried, described and individual lithologies hand-picked where practicable. Samples are rough crushed to
approximately pea-sized fragments for kerogen preparation or finely milled for chemical analysis.
Kerogen Preparation
Kerogen concentrates for microscopic examination and elemental analysis are prepared using standard palynologieal
procedures but omitting oxidation or acetolysis. Acid maceration involves the usa of hot hydrochloric acid (HC1) to
remove carbonates and hot 60Z hydrofluoric acid (HF) to remove or break down silicates. Mineral residues are separated
from the kerogen by a combination of ultrasonic vibration and zinc bromide flotation. Kerogen samples for spora colour
and kerogen typing ara mounted on glass slides in glycerin jelly, those for vitrinite reflectivity are dried and mounted
in epoxy resin. Kerogen residues are stored in methanol.
2. Maturity Evaluation
The techniques employed for interpreting maturity and thermal history in these laboratories are based mainly on spore
colouration and vitrinite reflectivity measurement, supplemented by data obtained from airspace gas and gasoline
analysis, pyrolysis Tmax, and hydrocarbon analysis including gas chrontaCography and gas chromatography-aass
spectrometry.
Spore Colouration
Sporomorph colour is assessed using a >20y sieved kerogen fraction viewed in transmitted light on a standard
palynological microscope. Unusual hues are checked using incident blue/07 light fluorescence. Measurement is made by
eye against reference sets of single grain spore mounts and trained operators achieve a high degree of accuracy and
reproducibility. The 1 to 10 Spore Colour Index (SCI) scale was designed for linearity with increasing depth and
temperature and correlates approximately with tha following zones of oil generation: 1.0 to 3.5, immature; 3.5 to 5.0,
early mature, generation of lov gravity oils (28 to 35 "API); 5.0 to 7.0, middle mature, generation of medium gravity
oils (35 to 42"API); 7.0 to 3.5, late mature, generation of light oils (>42"A?I) and condensates; 3.5 to 10, post
mature, generation of condensate, wac gas and, ultimately, dry gas. Linearity of scale i3 of great value in prediction,
by extrapolation, of the depth to any part of the oil generation sequence. The value of SCI measurement lies in tha
objective selection of measured grains, so minimising problems of caving and reworking, and in its more direct
correlation against oil generation than vitrinite reflectivity measurement. Limitations in its usa concern the
difficulty of correlation against other colour scales and the insensitivity of the scala in the late to post mature
region. Anomalous colours may result from bleaching or staining during deposition and diagenasis. The correlation of
SCI against Thermal Alteration Index (TAI) given on the SCI versus depth plot in the reports was made by direct
comparison of Staplin's standard slides with SCI standard slides.
Vitrinite Reflectivity
The majority of preparations examined under reflected light in these laboratories ara made using >20u sieved kerogen,
mounted in resin blocks and polished with carborundum and alumina although total kerogen may be used when sample size is
1.i
RobertsonGroup
limited. Picked coals, organic-rich shales or limestones containing solid bitumen are mounted directly in resin blocks
; and polished in the usual vay. Measurement is made on a Leirz Orthoplan microscope fitted with an MPV Compact
photometer which feeds values direct to a desk top computer for data processing from each sample. The system is
calibrated against glass standards and reflectance values are expressed as arithmetic means of measurements taken in oil
| immersion (R or R . . ) . R and R . may be measured and quoted in certain circumstances but the difference isI o m oil max sun
> insignificant belov about R l.QZ. Some operator selection of particles during measurement is essential and obvious
contaminants or aon-vitrinitlc material are noted but not necessarily quoted. The value quoted on data cables is that
< which is interpreted as most appropriate, but other possibilities may also be given. Plotted figures assume a
logarithmic increase of reflectance with depth. R 0.5% is a widely accepted threshold value for the onset of oil
generation, although as Che kinetics of oil generation may not be identical co chose of vicrinite reflectivity
development this must be seen only as a general guide. The floor for oil generation is characterised by a reflectance
value of about 1.3%. Wet gas generation peaks at a value of about 12 and ceases at the IX level. Dry gas generation
peaks at a reflectance of about 1.5Z and ceases at the 3Z co 4Z level. Correlation of reflectance values with other
maturity parameters may not be universal because of cime-cemperature factors and is best made on a local basis.
Reflectivity measurement is a widely used and versatile tool which may be readily calibrated against easily obtained
standards. It is applicable over a wide range of maturity stages from immature to post mature (0.2Z Co 5Z R ) . High
surface intercepts on plotted figures and discordances at faults and unconformities can give realistic estimates of the
amount of section missing. It is of limited value in Early Palaeozoic sections where land plant material is absent,
although a general guide to maturity may be obtained from chitinous organic matter. Even a skilled operator may have
difficulty in distinguishing indigenous vitrinite from some forms of inertinita, anomalously reflecting
"pseudovitrinite", cavings and reworked fragments.
Airspace Gas Analysis
Vet cuttings are collected at Che wall site and sealed in partly full cans containing bactaricide. In the laboratory,
the airspace (headspace) gas is extracted using a can piercer fitted with a 3eptum and analysed by gas chroinatography.
The proportions of methane, ethane, propane, iso— and n_— butane are calculated from integrated peak areas by comparison
with a standard mixture of these gases. Methane is the dominant gas in immature and post mature sediments, comprising
90-100Z of total gas, falling to 3O-7OZ in mature sediments. The onset of maturity for oil generation (SCI 3.5) is
characteristically marked by an increase in wet gas (C.-C,) to between 10 and 20Z with further increases in maturity
indicated by a decrease in the ratio of iso- to o-butane. Ratios of >1.0 are typical for immature sediments and <0.5
are usual in mature sediments. Departures from composition versus depth Crends may be useful in indicating migrant gas
at faults, unconformities or reservoir rocks but limit the method as a reliable maturity indicator. Airspace gas
analysis is an inexpensive and rapidly executed method of screening samples for further maturity and hydrocarbon content
determinations.
Gasoline Analysis and Cuttings Gas Analysis
Cuttings samples received wet, preferably in sealed containers, are suitable for gasoline and cuttings gas analysis. A
portion of the washed cuttings sample is retained wet, pulverised in a sealed shaker and warmed to expel the C. to C.
hydrocarbon components into the shaker airspace. A sample of this airspace gas is then removed and analysed by gas
chromacography either for cuttings gas (C, to C.) or gasolines (C, to C.). Op Co 28 hydrocarbon components are
identified in Che C^ co C? range and their relative proportions calculated from integrated peak areas with reference co
standard mixtures. Immature source rocks yield low total abundances and limited numbers of components whereas mature
source rocks usually contain a full complement of identified hydrocarbons with the onset of maturity indicated by a
rapid rise in total gasoline abundances with depth. Anomalous amounts of gasolines may mark the presence of oil stain.
Gasolines may be used in oil to oil or oil to source rock correlations but the concentration of some of the measured
components is not only a function of source but also depends on maturity, migration and alteration in the reservoir.
Using the most stable compounds» pairs with similar chemical structure and boiling points are reduced co pair ratios and
compared with the same pair ratios in other oils or possible source rocks. Gasoline analysis is a valuable tool in that
it measures directly che hydrocarbons being generated from a sediment but its sensitivity in detecting traces of oil
places constraints on its use as a maturity indicator.
2.2
RobertsonGroup
Rock-Eval Pyrolysis, Gas Chromatography (GO aad Gas Chromatography-Mass Spectroraetry (GC-MS) in Maturity Analysis
These chree analytical processes measure parameters which are functions of both maturity and kerogen type. Data from
them may give a general guide to maturity but if the kerogen types are known, more specific conclusions may be drawn.
From Rock-Eval data, the temperature of maximum rate of pyrolysis, Tmax, is the most useful datum; gas chromatograms of
alkanes, separated from source rock extracts or oils, yield carbon preference indices (CPI) and isoprenoid ratios; GC-MS
quantitative fragmentograms provide abundance ratios for specific compounds which are particularly useful in assessing
the level of maturity at which source rock hydrocarbons or oils have been generated. All these supplementary data may
be used to confirm results from visual analysis or supplant them if poor or unavailable.
3. Source Rock Evaluation
Total Organic Carbon Content (TOC)
Organic carbon values are obtained by treating O.lg of crushed rock sample with hot, concentrated HC1 to remove
carbonates. The washed residue is filtered on to a glass fibre pad and ignited in a Leco carbon analyser. For
screening purposes, samples are analysed singly but where further analyses, such as pyrolysis or solvent extraction are
anticipated, a duplicate sample is run. Blanks and standards are run as routine and where values from duplicated
samples do not concur within strict accuracy limits, they are rerun. Where samples are heavily stained with oil, either
from natural deposits or drilling mud, TOC is repeated on the dried, solvent extracted sample.
TOC measurement is fundamental in assessing source rock quality since when combined with kerogen typa and maturity, a
full description of the potential to generate oil may be given. It is found in practice that sediments containing less
than 0.3Z TOC are unlikely to have any source potential, those containing between 0.3Z and 1% may ba marginal sources
but the better quality sources contain in excess of 12 TOC. Screening by TOC is therefore an inexpensive and rapid
method of selection of samples for further analysis in source potential evaluation.
Rock-Eval Pyrolysis
Pyrolysis data are obtained using the IFP-Fina Rock-Eval apparatus. 100 og of crushed, whole rock either from bulk
sample or picked lichology is weighed accurately into a crucible and introduced into a furnace at 250"C. Free
hydrocarbons (roughly equivalent to solvent extractabla hydrocarbons) ara volatilised and quantified by flame ionisation
detector (FID) to give Peak I (S,, ppm). The furnace temperature is increased to 550°C at 25°C/minute and within this
range, kerogens crack to giva hydrocarbons, measured by FID to give Peak 2 (S., ppm) and carbon dioxide, measured by
thermal conductivity detector (TCD) to give Peak 3 (S-, ppm). The temperature at the maximum rate of evolution of
cracked volatiles (Tmax) i3 measured automatically but can also ba monitored visually. The instrument is calibrated
daily using standards both at the beginning of the work period and at regular intervals thereafter and crucible blanks
are run as routine. The tabulated data in reports comprise the following parameters:
Tmax °C - temperature of maximum rate of Peak 2 hydrocarbon evolution.
Hydrogen Index (HI) - S./TOC (mg/g) or ratio of released hydrocarbon to organic carbon concent. This is a measure of
the hydrocarbon generating potential remaining in the kerogen as opposed to thac of the whole
rock.
Oxygen Index (01) - S./TOC (mg/g) or ratio of released carbon dioxide to organic carbon content.
Production Index (PI)- S./S.+S,, or ratio of the amount of hydrocarbons released in the first staga of heating to the
total amount of hydrocarbons released and cracked during pyrolysis.
Potential Yield (PY) - S. (ppm) or total of hydrocarbons released during cracking of karogen compared to original
weight of rock.
Tmax, hydrogen index and oxygen index are each functions of both maturity and kerogen typa. Using published and
empirical data, it has been possible to assemble a model to show the relationships of these factors co maturity as
measured by spore colouration and vitrinite reflectivity for a selection of pure kerogen types. The kerogen types used
are algal sapropel (type I), waxy sapropel (type II), vitrinite (type IIIA) and inertinite (type IIIB) and a computer
program has been devised by which the amounts of these components may be calculated from the HI, 01, Tmax and maturity
2.3 RobertsonGroup
. data for any sample. These are Che values expressed in che "kerogen composition by calculation" columns tabulated in'
| che reports.
The hydrogen index is a measure of the hydrocarbon generating potential of the kerogen and is analogous to the atomic
i H/C ratio. Immature, organically rich source rocks and oil shales give values above 500, mature oil source rocks give
' values between 200 and 550. For a given kerogen type, these values progressively diminish with increasing maturity.
' The cemperature of maximum rate of pyrolysis depends partly on the kerogeo type but the transition from immature co
J mature organic matter is marked by temperatures between 415° and 435°C. The maturity transition from oil and wet gas
generation to dry gas generation is marked by temperatures between 455° and 460°C. In practice, greater variation than
J these ideal temperature ranges may ba seen, but they are nevertheless useful as general guides to the level of maturity
attained by the sediment.
i The production index increases with maturity from values near zero for immature organic matter to maiffunmi values of 0.15
t during the late stages of oil generation. Anomalously high values indicate the presence of oil or contaminants. The
potential yield is an indication of the predicted yield of hydrocarbons from the source rock at optimum maturity and is
, a measure of the quality of the source rock. For immature sediments, values of 0 to 2000 ppm of hydrocarbon
t characterise a poor source rock, 2000 to 6000 ppm fair, 6000 to 20 000 ppm good and above 20 000 ppm very good.
Pyrolysis techniques have in recent years provided a major advance in the assessment of source rock quality and
j generating potential. Hydrocarbon yields from immature source beds examined on-structure may be translated into actual
oil productivity from the same beds in mature basinal, off-structure situations. Models relating maturity and kerogen
type may be used to define original 3ource rock quality grades which are of great value in mapping organic facies.
j ' Amorphous kerogen types, indistinguishable in microscopic preparations over a wide range of chemical properties, may be
| readily differentiated by pyrolysis. The problem of analysing bulk samples containing mixed kerogens has been largely
overcome by the kerogen type/maturity model and anomalous results arising from the presence of caving contamination and
I drilling mud additives can usually be explained by inspection. High oxygen indices sometimes occur as a result of the
• presence of metastable carbonates and in such cases the sample is acid decarbonated and re-run.
Visual Explanation of Kerogen Concentrates
All palynological preparations on which SCI determinations are made are also examined ror kerogen type. Visual
estimations of che relative abundance of the broad groups vitrinlte, inertinite and sapropel are made on the total
kerogen slide mount but reference is also made to the >20u 3ieved fraction to assist in identification. The scheme of
identification is shown in Appendix Table 1. Full use is made of incident blue or UV light in distinguishing Immature
' or early mature oil-prone kerogen from gas-prone kerogen.
j Extract Analysis
The soluble organic materials present in rocks can be extracted with organic solvents, fractionated and analysed. The
type and amount of material extracted depends largely upon the nature of the contained kerogen and iC3 maturity,
although the presence of migrant oil or drilling contamination may be the determining factors.
A nmyjmm» of 40g of crushed sample is extracted for a m-in-timm of 12 hours in a Soxhlet apparatus using laboratory
redistilled DCM. The solvent and the more volatile components (approximately up to n-C..) are lost by evaporation in an— 15
air flow and the resulting total extract is weighed, dissolved in hexane and separated into alkane (saturate)
hydrocarbon, aromatic hydrocarbon, resene and asphaltene (polar) fractions by silica adsorption chromatography in che
Iatroscan process.
Larger fractions, suitable for further analysis, are obtained by column chromatography. The extract is run through a
short glass column packed with silica and alumina and eluted with hexane (to give the saturate fraction),
(3:1 hexane: toluene mixture (to give the aromatic fraction) and methanol (to give the polar, or resene and asphaltene,
fraction). A small proportion of aon-eluted polar compounds usually remains on che column.
2.4
RobertsonGroup
The data tabulated in reports comprise the following parameters:
Total extract - soluble organic matter, heavier than about ji-C,,. , expressed as ppm of weight of rock.
Hydrocarbons - sum of alkane and aromatic hydrocarbons, expressed as ppm of weight of rock.
Extract ™ of organic - total extract ppm; the axtractability.
carbon (EPOC) T 0 C x 1 0°
Hydrocarbons mg/g of
organic carbon - total hydrocarbons normalised to lg of organic carbon.
Hydrocarbons Z extract - total hydrocarbons as a proportion of total extract.
Alkanes Z hydrocarbons - the proportion of alkanes (saturates) in the total hydrocarbons. The proportion of aromatics
is (100 minus chis value) expressed as a percentage.
The excractability of oil-prone 3apropelic organic matter increases rapidly in tha oil generation zone and diminishes to
very low values in post mature sediments. Overall the extractabilicy of sapropelic organic matter is greater than that
of gas-prone humic organic matter for similar Ievel3 of maturity. Samples with, extractabilities of greater than 20Z
generally contain migrant oil or are contaminated with mud additives.
As maturation proceeds in the oil generation zone the proportion of hydrocarbons in tha total extract increases from
less than 202 to a m ^ m m in the most productive horizons of around 601. This trend is reversed as the oil-condensate
zone is entered. The relative proportions of alkanes to aromatiC3 can be used as a check for lov levels of
contamination. Fractions of the extract» separated by column chromatography are retained for further analysis by gas
chromatography or for stable carbon isotope determination.
Capillary Gas Chromatography of C,.Alkanes
A portion of the Soxhlet extract is eluted with hexane through a short silica column to yield the saturate hydrocarbon
fraction. This fraction is evaporated in a stream of dry nitrogen at room temperature. A small portion of the fraction
is then taken up in hexane and introduced into a 25 metre, wall-coated, open tubular glass capillary column coated with
0V-1, or equivalent, mounted in a Carlo Erba gas chromatograph which is temperature programmed from 70"C to 270°C at
3°C/minute.
C..+ chromatograms are inspected for the distributions of ii-alkanes, and the presence and abundance of isoprenoids
(particularly pristane and phytane), steranes and triterpanes and unresolved envelopes of naphthenic compounds. The
ratios pristane:phytane and pristane:n_-C.. are calculated. Carbon Preference Index (CPI) values quoted are those as
defined by Philippi as the ratio 2C-g to (C.g+C-..) unJ-a33 otherwise stated. Chromatography may reveal information about
the kerogen type of the source rock, its maturity and condition of deposition and, if migrant oil is present, whether
this has been water-flushed or biodegraded. Contaminant drilling mud additives may be identified.
Capillary Gas Chromatography of Aromatic and Branched/Cyclic Alkanaa
The aromatic portion of the Soxhlet extract is eluted from a short silica/alumina column by a hexana/toluene mixture.
The dried fraction is taken up in DCM and introduced into a 25 metre, wall-coated, open tubular glass capillary column
coated with QV-l, or equivalent, mounted in a Carlo Erba gas chromatograph which is temperature programmed from 70°C to
27O"C at 3°C/ minute.
Branched chain alkanes are separated from normal alkanes by urea adduction and treated as for total alkanes.
2.5
RobertsonGroup
Gas Chromatography-Mass Sgectrometry
Mass spectrometry is a technique in which molecules are bombarded wich high energy electrons causing ionisacion and
fragmentation of the molecules into ions of varying mass(m) and charge(z). The way in which a molecule fragments into
ions of various m/z value is known as its fragmentation pattern, or mass spectrum and is unique. When linked to a gas
chromatograph the mass spectrometer can be used in tvo different modes:
1. Full Scan Mode: A mass spectrum is obtained of each peak eluting from the gas chromatograph and a structural
identification of the compound producing that peak can be made.
2. Multiple or Single Ion Monitoring Mode: The mass spectrometer is tuned to certain m/z values to detect whether a
compound, eluting from the gas chromatograph, fragments to give an ion at that value. Certain fragmentations are
indicative of specific compound types and the most commonly monitored fragment ions used in petroleum geochemistry
are those with m/z values of 191, 217 and 259 which are cha principal fragment ions obtained from groups of alkanes
known as triterpanes, regular 3teranes and rearranged steranes respectively. These are compounds containing 27 to
35 carbon atoms arranged in a polycyclic, normally 4 or 5 ring, structure, occurring in the n-C_, to u-C,- region— Zo — 35
of a gas chromatogram. The basic molecular skeletons of these compounds are very similar to those of the original
organic matter deposited in the sediment and so these 191, 217 and 259 distribution plots, known as mass
fragmentograms or mass chromatograma, form a pattern characteristic of cha source material. This technique of
"fingerprinting" is also one of the more exact methods of correlating an oil to its source, or to another oil.
Carbon Isotope (13C/12C) Ratio Analysis12 13
Carbon has two stable isotopes, the more abundant C isotope and the heavier C isotope, which in nature forms about
1% of carbon. 'Deviations from the C/ C ratio are extremely small and carbon isotope ratios, as measured by mass
spectrometry, are expressed as deviations from a standard, the Pee Dee Belemnite carbonate (FSB standard) in parts per
thousand (parts per mil; °/oo). Positive deviations indicate C enrichment and conversely, negative deviations
indicate C impoverishment.
While the carbon isotope ratios of oils and rock extracts can range from -20 to -32 °/oo depending on the source organic
matter type, the difference between a specific oil and its source is small. Measurements are usually made on the C,.
alkane and aromatic hydrocarbon fractions separately and there should be no more than 1 /oo difference between the oil
and its source for either fraction. If there is any doubt that the source rock extracts are not indigenous to the
source rock kerogen, the carbon isotope ratio of the extracted source rock kerogen can be measured.
Pyrolvsis-Gas Chromatography
The hydrocarbon pyrolysate derived from thermal, anhydrous cracking of kerogen is analysed by capillary gas
chromatography. A few tug of rock, kerogen or asphaltene is heated to 600"C for 20 seconds in the injector of a gas
chromatograph. The chromatograph oven is kept at -30*C during pyrolysis and then raised to 300°C at a programmed rate
of 7.5°C/minute. Chromatograms produced thi3 way are often very different from those of source rock extracts or oils in
that branched and cyclic isomers are generated freely giving numerous» closely spaced peaks, along with unsaturated,
alkene (olefin) hydrocarbons. The "doublet" peaks often observed in these chromatograms comprise alkene-alkane pairs,
the first eluting, and usually smaller peak, being the alkene. The chromatograma range from C, to C-- or above and
although variable, are broadly characteristic of source rock type. Gas-prone kerogen cracks to give a more limited
molecular weight range of products, concentrated towards the light ends, whereas oil-prona kerogen gives more prominent
alkene-alkane doublets in the C., to C.Q region. The largest peak from both types is usually methane.
Elemental Analysis
Total (unsieved) kerogen is prepared as described in Section 1. The dried material is combusted in oxygen in an
elemental analyser and the oxides of carbon, hydrogen, nitrogen and sulphur are measured. The unburnt residue is the
ash content. Oxygen is usually calculated by difference but can be determined separately if required. Results are
quoted as percentage weights of C, H, 0, N, S and Ash with the atomic ratio B/C and 0/C calculated and plotted on the
standard van Krevelea diagram. The relative amounts of C, H and 0 present in organic matter are dependent on both
source and maturity. At known maturity levels, some measure of source quality may be determined. Limitations of the
method in source rock assessment involve the difficulty of obtaining pure kerogen (in particular, free from pyrite) and
the lack of a simple, direct determination of oxygen content.
2.6 RobertsonGroup
4. Oil Analysis
RRI laboratories offer a wide range of oil analyses both for geochemical purposes and industrial use. Physical
property determinations are based mainly on IP methods and are available for lubricating oils, fuels and greases as well
as crudes. Frequently measured properties of crude oils presented in geochemistry reports include: API gravity, pour
point, viscosity and contents of water, sulphur, wax, asphaltene, nickel, vanadium and other metals. Chemical analysis
of oils involves the following:
Whole oil gas chromatography - using split syringe injection and a temperature programme from -20°C or -30°C up to 270°C
at 4°C/minute.
Associated gas
Gasoline analysis
- if oil has high gas/oil ratio.
- as for gasolines in rock samples but a weighed quantity of oil is used.
Topping of the oil
Column chromatography and
gas chromatography
- this is equivalent to the removal of the fraction boiling below about 210°C and gives a
more standardised product for comparison of gas chromatograms of the C.-, fraction.
- as for solvent extracts. Analysis is. carried out on topped oil.
5. Gas Analysis
The hydrocarbon gases, C. to C,, may ba collected from the airspace of sealed canned samples or may be received from
well-site tests in a special sealed gas cylinder (gas mouse). Chromatographic separation of the C, to C^ gases is
effected as described under airspace gas analysis. In addition, the separated gas components may be analysed for stable
carbon and hydrogen isotope composition which may provide valuable clues to the origin of the gas.
6. Solid Bitumen Analysis
In some oil fields, problems are encountered whara bitumen developments form continuous or patchy layers within
reservoirs, dividing the pay zones and acting as barriers to natural fluid movement or inhibiting enhanced oil recovery
techniques. Integrated geochemical and sediaentological studies aim to produce geological models capable of predicting
the occurrence of bitumen layers and their likely thickness and ability to act as permeability barriers. Of further
concern are the past or present relationships between the bitumen and reservoired oil, their source rocks and the timing
of bitumen formation.
Analysis schemes involve screening of samples by assessing the amount of bitumen in polished core pieces using reflected
light microscopy, followed by solvent extraction of control samples to estimate the proportion of solvent soluble
bitumen. Different phases of bitumen formation are differentiated by reflectance measurement as described for vitrinite
reflectance measurement. Soluble extracts are fractionated to give alkane, aromatics, asphaltene and resene components.
Separated bitumens may be subjected to elemental analysis.
2.7 RobertsonGroup
Kerogen Typing Scheme for Transmitted White and Incident Blue/U.V. Light
General Properties
Sapropelic(Oil-prone gas-proneat high maturity)
Humic(Gas-prone)
RB.I ReportData Tables
Algal Sapropel
Waxy Sapropel
Vitrinite
Inertinite
Type *
Type I
Type II
Type IIIA
Type IIIB
Amorphous
Non-Fluorescent
Type I/IIat highmaturity(SCI >7.5)
Type IIIA/B
Fluorescent
Type ISapropelType II(degradedspores)Soft bitumens
Oil residues (bitumens)Mineral (undigested)Grease contaminationMud additives
Structured
Non-fluorescent•
Vitrinite (Type IIIA)brown/black, woodytissue
Inertinite (Type IIIB)very dark brown/black,woody tissue
Solid bitumen - brown/black (oil residue)often with crystalimprints
Microforaminifera,chitinozoa etc.(Not usually important)
Spores, cuticle etc.at high maturitylevels
Mud Additives - walnut
Fluorescent
CuticleSporesPollenDinocysts(Type II)
ResiniteAlgae(Tasmanites,Botryococcusetc.)
(Type I)
etc.
* Types I, II, III approximately sensu Tissot et al but Type III subdivided intoIIIA (vitrinite) and IIIB (inertinite)
APPENDIX TABLE 1
RobertsonGroup
FLOW CHART FOR GEOCHEMICAL ANALYSIS
Sample» itemed.
computer tagged and filed
C1 - C 4cuttings gal
C 4 - C 7gasolines.
ZS components
Washed in OCM solvtffl if utstanad or comamneted by
oloestd (Jnlkng mid. Sample* oven-dned » 40°C.
Solid contaminants, obvious canngs, remand.
Samples deserted, indnmtutl lithotogm hand-picked.
«hole oilGC.
aasotam,wnotaad
sulpnuf.
API gravity.
vacaaty,
pour pomt. ate.
running torsmovc
<2ia° cbailing fraction
Rougn
crushad
Picked coaij.
bitunwiS!
nch sham
m.p., elmmtaianalysij
Karagtn prawratnii
using not HCI. Hf.Zn Br, dotation
Mil crustitd to pan 250 u iSQ misn) save.
Oil butd mud contammanon
removed by SoiMet QCMImsthanot
OCMwashings
Asohaltmprecipitation
Discarded ifmid contam.
| Oil sum II GC I
rocScreening
pyrolyss
Rort-Eval Pyrolysis-GC
SoiMit
aitractim
Total keragan> 20 u sieved
keragmfraction
Element*
C. H. 0.
H. S. Ash
Kerogm tvp«.
transmitted
light.
Glycenn isey
mount on
glau slide
Spon colour
inoei (SCI).
light.Glycarm isHy
mount onglass slide.
Carbon
isotopesElementalanalysis
Pyrtjlysis-
GC
latroscM fracttonatnn
to give alkanes.
aromatics, polars.
Colunm chromatography
fractions for further analysis.
Vitranta
tBtlectivity.
incident light.
spoiy resn
mount, polisned aranclndl
eyelid
addu
by urea
etion
Alkanes
I
I
Aronutiu
IGC . GC - MS
Carbon
isotopes
Pol,
APPENDIX FIGURE 1
RobertsonGroup
L
GEOCHEMICAL SCREENING ANALYSES
WELL 7321/9-1
L.Aakvaag and N.Telnæs
' Jr\
Journal nr
dato 2 9 MAI
- h AUG. 1989
REGISTRERTOUEDIREKTORATET
HYDROResearch Centre
INTRODUCTION
This report comprises the RockEval/TOC results of 295 DC samples
from well 7321/9-1, covering the Cretaceous to the Triassic.
The well was spudded 26.10. 1988, and reached TD at 1800 m (RKB)
in claystones of Norian age.
The well was dry.
EXPERIMENTAL
The wet cutting samples were washed using a 0.125 mm sieve and
dried at 60 °C overnight.
An aliquot of the sample was crushed and analysed using a
RockEval/TOC analyser. A standard was analysed approx. every 10
samples to check the reproducibility of the analysis.
The results are presented in terms of:
S2 : Low temperature oil/gas yield (mgHC/g rock)
52 : Pyrolysis yield (mgHC/g rock)
53 : CO2 yield (mg CO2/g rock)
Tmax : Temperature at which maximum emission of
hydrocarbons occurs
TOC : Total Organic Carbon
HI : Hydrogen Index (100xS2/TOC)
01 : Oxygen Index (100xS3/TOC)
PI : Production Index (S1/S1+S2)
PP : Production Potential (S,+S,)
Geochemistry 7321/9-1
ROCKEVAL/TOC RESULTSWELL: 7321/9-1
DEPTHm
690700710720730740750760770780790800810820830840850860870880890900910920930940950960970980990
1000100510101015102010251030103510401045105010551060106510701075108010851090109511001105
Tmax
444441440445442442441442438452456446446446435437437436437449443437441443438440439439436437435437439-140441444441442442443437438442439439436438440442440439441445
SImg/g
0.030.030 .070 .060.020.020.040.000 .040 .020.030 .020.030.030.050 .050 .050 .060 .080 .090.120.380 . 200.321 .581.441 . 301 . 204 .254.483 .771 .561 . 261.110.830.670.830 .600 .800.680 . 751.130 .960 .960 .670 .960.810.810 .670 .700.710 . 770.61
S2»g/g
0 .240.310.380 .240 . 240. 220.180.140 . 190 .170 . 160.170.220 . 200 . 190 . 190.230. 190.140.180 . 200.330 . 390 . 541 .671 . 591 .742 . 59
19 . 2524.6018 .005 .042 . 252.551 .601.241 .511 . 282.121.451 . 561 . 751 .501.411.351 .981.611 . 52t .461 . 401.432 .041.43
S3ng/g
0 .680.91
0 .430.540.550.310.370.540 .340.330 .230.190 .100 .210 . 130 .120 .060 . 160 .190 .200 . 280.450.450 .660 .680 .630 .710 .470 . 390.471 .050 .981 .151 . 161 .011 . 241 .021 .040 .931 .051 . 171 . 191 .061 .061 .051.131 .070.850.850.93
TOC%
0 .800 .750.780.730.690 .660 .630.670 .670.650.570.600.570 .580.620 .580.570.550.510.870 .880.620.911 .061 .441 .381.401.504.325 .064 . 192 . 101 .581 .531.301.141 .241.071.471.281 .251.441.301.311 .281.501 .491.401.351.341 .271 .531.35
HYDROGENINDEX
304149333533292128262828393431334035272123534351
116115124173446486430240142167123109122120144113125122115108105132108109108104113133106
PRODUCTIONINDEX
0.110 .090 .160 . 200 .080 .080 .180 .000.170.110.160 . 110.120.130.210.210.180 . 240 . 360.330.380 . 580 . 360.400 .510 . 500.450.330.180.140.170.240.360.300.340.350 . 350.320.270.320.320.390 . 390.410.330.330.330.350.310.330.330 . 270 . 30
OXYGENINDEX
85121
59788349558152583833173422211131222345494246494547118
115062758989
1009571738481928183707676636373
ROCKEVAL/TOC RESULTSWELL: 7321/9-1
DEPTHm
11101115112011251130113511401145115011551160116511701175118011851190119512001205121012151220122512301235124012451250125212551257126012621265126712701272127512771280128212851287129012921295129713001302130513071310
Tmax
4444444454454444454434444444454454394454444454464454454384454454344394424444464464474464474-45445445447447444446448448448447448445448447448448449448450448450452
SImg/g
0 .490 .520 . 580.620 .610.620 .870 .800 .760.790 .590 . 580.710 .580.550.630 . 470 .560 .680 .640.450 . 650 . 400 . 340 .310.420 .640 .600 .560 . 460 . 470.490.470 .440.430.470 .540 . 540.420 .520.380 . 390.410.440 . 380 . 360.460.420 . 510.470 .540 . 480 .58
S2rag/g
1.361.461.311 . 401 .551. 451 .621.521.181 .541 . 201.381.341.171.321.421.010 .961 .001 .010.861 . 460 .720 .630 .531 . 182.342.121.831 . 281.381 . 741 .691 . 561 .661.672.612.471.772. 372 .082.322.182.372 .061.822.412.002.452.182.532. 343.15
S3mg/g
0.750.480 .520 .601 . 331.111 . 100 . 861 .080.951 .010 .600 . 580 . 560 .640.480.380 .600 . 500 .590 . 460 . 350.340.370 . 380 .520.510.44
TOC%
1.321.371 . 281 .331.451.471 . 461.421 .301 .401.231.351.371 .211 . 321.311 . 181 .091.121.121 .081 .270 .950 .870 .991.622 .602.332 .081 .551.622 .001.941.921 .932 .012 .652 .542.012 . 402.112.222.242 .412.141 .992.362 .142.502 .382.692.553 .38
HYDROGENINDEX
10310710210510799
11110791
11098
1029897
1001088688899080
11576725473909188838587878186839897889999
10597989691
102939892949293
PRODUCTIONINDEX
0.260.260.310.310. 280. 300. 350.340. 390.340.330. 300.350.330.290.310.320.370.400.390. 340.310. 360.350.370.280.230.230. 260. 280. 280. 240. 240. 240.220. 240. 180 . 200. 210. 200. 170. 160.180.180.180.180.180.190. 190. 190.190.180.17
OXYGENINDEX
46182229866955445649502323282723172721282315161516192013
ROCKEVAL/TOC RESULTSWELL: 7321/9-1
DEPTHm
13121315131713201322132513271330133213351337134013421345134713501352135513571360136213651367137013721375137713801382138513901392139513971400140214051407141014121415141714201422142514271430143214351437144014421445
Tmax
453451448447445446445447438448447446447446446448446448449448451448446447446443436447440446432442444442442448445445445445445449451452455457454452453453454454456
SImg/g
0.330 .270 . 260 . 320 .931 .271.692.061.471.651 .842.152.472.031 .851 .811 .691 .642.792.612 .761.950.380 . 390 .370 . 460 . 580. 350 .340.340.180 . 170 . 190.160 . 190.130 . 150 . 170 . 200 . 290 . 340.620 . 740 .641 . 540 . 740.970 .901 .001 . 271 .651 .641 . 29
S2mg/g
1.300.810.690 .892 . 592 .554 .806.234.434 .756 .097.128 .227.256 .946 .986.616.33
10.419.348 .295.611 .201.150 .640 .861 .080 .620 . 490 . 570 . 360.130.450 . 300 . 350.210.320 . 270 . 260.230.240 .580.660 . 591.860 . 540.520.520.550 .771 .071.401 .08
S3mg/g
0.0.0.0.0.0 .0.0 .0.0.0.0.0 .0.0.0.0 .0.0.0.0.0 .0.0.
695937293641393736373937383740413528323236437870
TOC%
1.851 .110 . 860.811 .431.712 .122 .452 .002 .042.462.793 .173.022.852 .882.752 .603 .633.403 .122.451 .331.191 .091 .231 .070 .970 .720 .790.830 .850.820 .640.620 .620 .640.470.410.270 .290 .620.710.612.070 .780 .690 .780.750 .981 .251.531.32
HYDROGENINDEX
707380
11018114922625422223324825525924024424224024328727526622990975970
1016468724351554756345057638583949397906975677379869282
PRODUCTIONINDEX
0.220.270.300 .290.300.280.270.250.260. 270.240. 240.210.230.220.210.210.210. 220.220. 260.270.270.280.360.350.350.360.410.380.330.280.300.350.350. 380.330.390.430.5 60.590 . 520. 530.520.450.580.660.630.650.620.610.540.55
OXYGENINDEX
37534336252418151818161312121414131199
12185959
ROCKEVAL/TOC RESULTSWELL: 7321/9-1
DEPTHm
14471450145214551457146014621465146714701472147514771480148214851487149014921495149715001502150515071510151215151517152015221525152715301532153515371540154215451547155015521557156015651567157015721575157715801582
Traax
456455456458457455453453451453458457457455454454455452452454452454448446450451452452453451•152452•153451450431409408451448441453453453455454455453455455456458454
SImg/g
1.010.870.750.620.450.450.410.370.330 . 360.350.290.300.310 .400.310.430 . 540.650.720 .840.790 .750.760.930 .790.630 .600 .660.630 . 550.530 . 500.610.750.850 . 860 . 890 . 700.720 .540.450.340.380.250 . 170.150.170 .150.150. 150 . 100 .13
S2mg/g
0.840.750.650.520 .430.410.430 .340 . 290 .350.230.280.250 . 270.340.230.320.330.410 . 400 . 540 .690 .770.810 .990.770 .680.870.820.730 .730 . 660.650 .590.610 .660 .640 .720.680 . 770 .720.620 . 600 . 590.610.530.480 . 480.410.440 . 400 . 240.21
S3mg/g
0 .850 .810 .780 . 540 .620.510 .650 . 520 .650 .680.730.870.680 . 560 .520 .680 .640 . 760 .660.810 .690 . 580 .550.410.440 . 400 . 300 . 200 . 280.410 . 380 . 34
TOC%
1 .070.990.840.710.590.560.540.440.380.420.420.370.340 . 340.400 .300 .390.460 .540.600 .680.790 .770.810.980.910 .780.940.870 .850.850.810.790.670.610.590 .580 .580.670.670 .720.710.750.730.820.830.820.840.830.810 . 700.360 .30
HYDROGENINDEX
79767773737380777683557674798577827276677987
100100101858793948686318288
100112110124101115100878081746459574954576770
PRODUCTIONINDEX
0. 550.540.540.540.510.520.490. 530.530.510.600.520.560.530.540.570.580.630.610.640.610.530. 490. 490.480.510.480.410.450.460.430.450.440.510.550.570.570.560.510.490.430.420 . 360. 400. 290 . 240.240.270.270.260.280.290.38
OXYGENINDEX
108105965568656960768090
1101019288
11711011399
11397777550534936243559
106113
ROCKEVAL/TOC RESULTSWELL: 7321/9-1
DEPTHm
1585158715901595160016021605160716101612161516171620162216251627163016321635163716401642164516471650165216551657166016621665166716 701672167716801682168516 8 716901692169516971700170217051707171017121717172017221725
Tmax
4574544S8455409454455453458454454452454455456451453449454454451451452449454449446442449448445446451408449454452453455453456455457457456457451455453452457453452
Sing/g
0 . 160.230.310.250 .540.710.720.710 .530.550 .650 .560 .580 .570 . 570 .450.480 .460 .520 .550 .681 .000 .860.840 .700.450 .510 .750 .730.630.730 . 780.640.620.470 . 360 . 340.110.110.240.240.170 . 100 . 100 .050 .070 .040 .040.060.060 .050 .050 . 07
S2mg/g
0.260 . 390. 390.250.450.600.850 .910 .600 .580.650.661.051.640 .780 .560 .580 .580 .490.610.540 .680 . 740 .670.670 . 380.340.420 . 460.420.130 . 400.350 . 350.350.300.270 .220.210.330 .270 . 280. 160.200 . 160. 150.140. 160.220 . 160.140.170.16
S3mg/g
0.520.430.440 .580.430.350. 360.270. 390 .260.380 . 360.420 .400 .380.310.410.430.250 .260 . 270 . 350 . 260.430 .360.410 . 370 . 510.500 .450.370.410 . 350.330 . 280. 350.300.440 . 540 .260.420 . 350 . 380 . 300 . 260 . 250.330. 240 . 280 .400.410.430.55
TOC%
0.370.480.480 .340.410.630.920.920.760.710.750.790 .961 .080 .690.470.470 .480.480.570.550 .540.630.570.590 .450.410.410.410 .390.440 .440 .400 .400.430.420.450 .400.380 .470.460.530 .600 .400.440.430.420.430.450.360.290 .300 .34
HYDROGENINDEX
70818174
11095929979828784
10915211311912312110210798
1261171181148433
102112108'9 89 I383881716055557059532750363533374944485747
PRODUCTIONINDEX
0 . 380. 370.440. 500 .550.550.460.440 . 470.490.500.460 . 360.250.430.450.450.440.520.470 . 560 . 600 . 540 . 560 . 510.550.610.650.620.610.630 .660.650.650 . 570 .550 . 570.3-10.340.430.180 . 390.380.330. 250.320.220 .200.210 .260.280.230. 32
OXYGENINDEX
1419092
17110556392951375146443755668790524649654175619190
12412211584938883658367
11014255916663755958795662
111141143162
ROCKEVAL/TOC RESULTSWELL: 7321/9-1
DEPTHm
172717301732173517371740174217451747175017521755175717601762176517671770177217751777178017821785178717901792179517971800
Tmax
457455455451453455458417457455458461441425419461461459460461451464461460458465460460461462
SImg/g
0 .050.120.130 .070 .110 .070 .060.040.050.070 .080 .040.060 .060 .090.140.210 .200 . 160.151 .410.350.130.110 .070 .060 . 100 .110 .120 .09
S2mg/g
0.170.260 .280.170.140.120.130.080.100.210.170.110.090.110.140.450.630.460 .460 .40
11.061 .740 .500.420.260.320.520.590.590.43
S3rag/g
0.470.390.250 .400 .400.350.340.330.410 .460.470.290. 240.160.210.220 .200 .200 . 370.520.550.710.441.082.090 .760.700.430 . 380 . 56
TOC%
0.320.420 .440 .360.300.280 .290.220.250. 360 .410.290 .210 .260 .260.660 .770.600 .660.535.741 .900 .760.610.450 .510 .680.820.830 .66
HYDROGENINDEX
5362644747434536405841384342546882777075
193926669586376727165
PRODUCTIONINDEX
0.230.320.320. 290 . 460 . 390. 330.330 . 360.250.330.270.430. 370.410.240 .250 . 300 . 260 . 280.110.170.210 . 210.220.160.160 . 160. 170 . 17
OXYGENINDEX
1479357
11113312511715016412811510011462813326335698103758
177464149103524685
HYDRO Document frontpage
Norsk Hydro a.s BergenE&P Research CentreDoc type:
Storage:
Grading
j Agreement
12 years
Open
Amendment x
5 years x
Internal CoDistribution
B.Martin/Arkiv
E . Rygg/Arkiv
N. Telnaes
A .S teen
Hydro Harstad (12
Summa ry/Conclusion/Recommandation
Title
AVD. KONTOR HARSTADlort
Journal nr.:manent archives
ifitflmfal j Very conf. Strictly conf.
Doc id
Copy no
THE EFFECT OF HYDROUS PYROLYSIS ON THE STERANE
DISTRIBUTION IN SELECTED S0URCEJ
FROM WELL: 7321/9-1.
0 *r FEB. 1931
OLJEDIREKTORATET
i
89 3
000
526
b 10
Bl
nr
8
Keywords
Hydrous
Pages-appendix
Quadrant/Block-well
7321/9-1
Department
Section
Authors
Controlled
Accepted
Approved
Postal Address.P.O. Box 4313N-5028 NygårdstangenNorway
p y r o l y s i s ,
Amendment no
Project no
KA
Basin
biomarkers, diasteranes, source rocks.
Revision no Revision date
i
Licens no Date
649 PL 141 ,
modelling/Petroleum Geochemistry
Geosection
N.Telnæs
A.Steen
/
Office Address'Lars Hillesgt. 30N-5008 BergenNorway
l6/r?o.
Phone- Telefax:National (05) 99 50 00 National: (05) 99 61 96Internat. +47 5 99 50 00 Internat.: +47 5 99 61 96
10.01.90
Telex:40920 hydro n
INTRODUCTION
Three homogenised drill cutting samples from well 7321/9-1 were subjected to hydrouspyrolysis in steel bombs at three different temperatures. 320°C. 340°C and 360°C. Thebiomarker composition based on metastable ion monitoring of teipanes and steranes. of theresulting samples were compared with each other and the biomarker compositions in theoriginal extracts.
The three samples investigated were:970 m980 m1357 m
Particularly the conspicuous low original abundance of rearranged steranes in theBarremian samples was studied in detail.
RESULTS AND DISCUSSION
The extraction yields and results of group type separation is given in Table 1.
DEPTHM
9709709709709809809809801357135713571357
HYDROUS
TEMPC
03203403600
3203403600
320340360
WELL:
EOMPPra498314692232399311681524748238791388125105620
105008164
PYROLYSIS7321/9-1
ASPH%
557777575500058726860
SAT%
189914196530231611128
ARO%
96817111230321281022
NSO
1810812152340451491010
Table 1: Extraction yields and group type separation.
MINERAL
Quartz
Calcite
Dolomite
K-Feldspar
Kaolinite
Illite/Smect.
97U M%
17
1
3
10
8
38
y»u M
%
17
1
3
10
8
38
1J3
%
29
07
6
345
Table 2: Mineral composition by XRD.
APPENDIX 1
BIOMARKER DISTRIBUTIONS
IDENTIFICATION OF BIOLOGICAL MARKERS
Triterpanes (m/z 191):
Numbers from 18 to 35 corresponds to the carbon number of the molecule, the
following capital letter identifies the stereochemistry and/or the number of
rings.
AB
C
D
EF
G
HI
L
0
X
Y
Steranes (m/z
17a(H)-hopanes (I) 22S17a(H)-hopanes 22R
173(H)-moretanes (II) 22S17p(H)-moretanes 22R
173(H)-hopanes (III)
Neohopanes (IV)
Gammacerane (V)
A13 ls-hopenes (VI)
25-norhopanes (VII)
Lupane (VIII)
18a(H)-oleanane (IX)
Tetracyclic terpanes (X)
Tri cyclic terpanes (XI)
217):
Numbers from 20 to 30 corresponds to the carbon number of the molecules, the
following small letter identifies the stereochemistry.
a 13(3(H).17a(H)-diasteranes 20S (1)
b 13f3(H).17a(H)-diasteranes 20R (2)
c 13ce(H).17f3(H)-diasteranes 20S (3)
d 13a(H).170(H)-diasteranes 20R (4)
e 5a(H).14a(H).17a(H)-steranes 20S (5)
f 5a(H).14ø(H).17ø(H)-steranes 20R (6)
g 5oc(H).14|3(H).17f3(H)-steranes 20S (7)
h 5a(H).14a(H).17a(H)-steranes 20R (8)
i 50(H).14a(H).17ct(H)-steranes (9)k 4-methylsteranes (10)
Examples: 3IB corresponds to 17<x(H)-homohopane 22R
29e con-esponds to aaa-ethylcholestane 20S
APPENDIX 2
BIOMARKER PEAK HEIGHTS
JTEST 17R X
0
1234
D
6789
10111213141 t;A. D
1617
0
1234
56789
1 nX U
ii121314
1 b1617
Depthstart int.
960960960960
970970970970
1355135513551355
ST08010AST09129D
Depthstart int.
960960960960
970970970970
1355135513551355
ST08010AST09129D
88C
1 Depth 2 Sample 3 Lith.end int. type
970 UBEHANDLET MDST970 BOMBE320 MDST970 BOMBE340 MDST970 BOMBE360 MDST
980 UBEHANDLET MDST980 BOMBE320 MDST980 BOMBE340 MDST980 BOMBE360 MDST
1357 UBEHANDLET MDST1357 BOMBE320 MDST1357 BOMBE340 MDST1357 BOMBE360 MDST
UBEHANDLETUBEHANDLET
4 Well
7321/9-17321/9-17321/9-17321/9-1
7321/9-17321/9-17321/9-17321/9-1
7321/9-17321/9-17321/9-17321/9-1
11 24X-Y 12 23Y 13 22Y 14332-191/1 318-191 304-191
6.50 49.766.27 47.694.89 29.620.07 0.01
4.53 40.030.19 0.730.79 1.240.01 0.01
3.94 30.782.40 15.131.25 4.590.01 0.46
1.28 1.600.71 3.29
0 .660 . 530.820 . 15
0 .760 .010.010 .01
3 .641 .691 . 240.65
0 .010 .95
5 Geochemjob #
21Y 15290-191
29.9733.8024,030.48
25.781.071 . 500.01
19.6111 .414 . 221 .26
1.932.57
6 MS- 7file
NS09129NS09129NS09129NS09129
NS09129AS08010AS08010AS08010
NS09129NS09129NS09129NS09129
AS08010NS09129
20Y 16276-191
18 . 7927.3942.123 .02
15.051 .643 . 270.67
6 .086 .487 .963 . 21
1.901 .54
26Y360-191/2
8 .055.772 .450.01
5. 680.010.010.01
3 . 301 .310 .18
0.01
0.530 . 37
23a316-217/1
1 . 971.232 .240.01
1 .900.010.010.01
16.387.135.430 . 72
1 .753 .98
8 26YY360-191/2
7.835.962.480.01
5.620.010 .010 .01
2.821.090.200.01
0.500.34
17 23k316-217/2
2. 162.731 .680.01
2.330.010.010.01
1.851.020 .730.04
1.060.73
ll-JAN-90
9 25Y 10346-191
11 .917.613.480.01
7.680 . 500 . 460.01
4 .701 .740.440 .01
1 .320.88
18 22a302-217/1
10 .736 .93
11.031 .58
9 .520.650 . 700 .72
46.0523 .9719 .497 . 17
4 .7111.59
14:53 Page 1
24Y332-191/1
23 .8322 .0510.430 . 10
18 .190 . 540.680.01
16 . 747. 581.460.01
1 .742 . 21
19 22k302-217/2
20 . 5620.6118.990 . 70
19 . 56
0.680.850 . 59
29.4514 . 719.430.82
3 .608.35
JTEST 17R x 88C
0
1234
56789
10111213141 RJ. 3
1617
0
1234C->
6789
1 nx uii121314151617
Depth 20start int.
960960960960
970970970970
1355135513551355
ST08010AST09129D
Depth 28start int .
960960960960
970970970970
1355135513551355
ST0801OAST09129D
21a288-217/1
20.4614.0219 . 309.92
19.931 .091 .690 . 86
46.2827. 9627.6629 .99
6 . 3718 .05
31C426-191/3
23.919 .491.350 .01
16.870 . 350.310.01
10.091 .910 . 120 . 50
0 .741.80
21 21k288-217/2
68.6779 . 30
103 . 2354.43
68 .811 .364 .872.39
75.1353 . 2553.0361.19
6.8132.38
29 31D426-191/4
52.9533.804.820.01
41.860.340 . 400.01
11.232 .750 .100 . 20
0 .491 . 37
22 33A454-191/1
81.4441.255 .650.01
74 .400 .680 .560 .01
80.5126 .661 . 360.01
3 .9918 . 34
30 30F412-191
14 .155 .491 .140.01
11 .330.440.450.01
54 .8819.232 .760.05
2 .467.72
23 33B454-191/2
51.3224.712.480 .01
46 .880 .450.450 .01
32.2612.700 .410.01
2 .909 . 47
31 30A 32412-191
1266.22793.44267 .93
0.01
1102.0314.017 . 590.01
695.96373.4790.330 .76
38.44179 . 26
24 32A440
30H412-191
31.908 . 582.400.01
26 .750 . 300 . 550.01
36 .477. 460 . 300 .01
1 .573 . 19
-191/1
153.4888 .6419 .760.01
133.690.910. 490 .01
165.0669.216 .050.01
5.8331.03
25 32B 26440-191/2
33 30C412-191
127.48114.8831 .660.01
106 . 221.130.780 .01
34.3315.681 .960 .05
1 . 524 .75
102.5863 .2810. 180 .01
89 .030 .600.330 .01
98.4439 .022 .790 .01
4 .0117 . 83
34 29N398-191
3 .001.190.100 .10
3.200.250 . 200.01
1 .000.800.010 .01
3 .4110 .59
~' 11-JAN
31A 27426-191/1
376.40221.0362.830.01
321.532.561.370.01
254.39118.6918.270 . 14
9.0054 .65
35 29A398-191
928.51697.46312.80
0 .15
820.0411 . 6610 . 570.01
235.04173.9165.140.66
13.0470 .48
-To" UtSTT
31B426-191/2
267.65160 .4742 .580 .01
224.631.670 .920 .01
170.0876 . 8510.670 . 11
6 . 4632.91
36 29F398-191
267.74150.3563.400 . 10
225.552 . 511 .880 .01
177.1680.6418.680 .15
6 .1027.53
"Page 2
JTEST 17R X 88C
0
1234c
6789
10111213141 RX ->
16
Depth 37start int .
960960960960
970970970970
1355135513551355
ST08010A
29C398-191
120.19124.3060 . 863 .67
100 . 361.021 . 140 .01
21 .4621 .998 .885.53
2 .59
38 28A384-191
2.620 .970 .010.01
4 .660 .010.010 .01
0.140.100 .010.01
7.91
39 28N384-191
0 .170 . 100 .010.01
0.100.010 .010 .01
0.100 .100.010.01
1.87
40 27F370-191
158.6988 . 3749 .660.20
132.250.841 .940.01
166 .1682 .1429 .710 .20
7 .76
41 27A370-191
296 . 96272.31149. 16
0.15
264 .033 .234 . 570 .01
53.1859 .6432.430.25
5.42
42 30a414-217
0 .900.810 . 220 .01
1 .490.010 .010 .01
16.404 . 210 .980.01
2.11
43 30b414-217
0 .641.131 .400.01
0 .770 .010.010.01
8 .491 .970 . 320.01
1 .95
_..
44 30c414-217
11.747.181 .700.01
8.630.010.010.01
2 .880 .700 .180.01
1 .42
ll-JAN-90 14
45 30d414-217
3.641.170.200.01
3 .060.010.010.01
1 .130 . 200.080.01
1.37
: 5 3 "Page 3
46 30e414-217
84 .8024 . 291.450 .01
69 . 390 .010 .010 .01
4 .040.540 .150 .01
1 .54
17 ST09129D 6.30 36.82 2.61 32.33 19.61 3.28 1.76 0.85 0.53 1.67
0
1234
6789
1 nx u
1213141516
Depthstart int .
960960960960
970970970970
1355135513551355
ST08010A
47 30f414-217
12 .773 .921 . 360 .01
9 .770.010.010 .01
7. 301 . 200 . 220 .01
1.65
48 30g414-217
47 .0613.061 .750.01
35.340 . 010.010.01
7.841 . 370 . 210 .01
1 .92
49 30h414-217
176 .6442.180.980.01
140.040 .010.010.01
2 .720 .470 .080 .01
1 . 57
50 29a400-217
31 .0911 . 295.710.01
27.880 .490.420 .01
144.2363 .5718.700 . 19
10.57
51 29b400-217
21.7623.7521.040.01
20 .230 . 500.400.01
92.4538 . 539.810 . 10
7.81
52 29c400-217
10 .605.19
13.470.01
10.930.680.360.01
36 .2810.791 . 510 .11
3.91
53 29d400-217
59. 7729.4413.100 .01
52.820.510.440.01
17.915.161.030 .08
2 .94
54 29e400-217
376 .17151 .5132 .680.01
344 .481 .530.520.01
38 .8412.451.390.18
3.26
55 29f400-217
171 . 5564 .4121.240.01
149.390.750.720.01
62 . 9718 .671.980.11
4.03
56 29g400-217
155.4963.4319 . 170 .01
148 .400 .980 . 590 .01
65.8616 .971 . 44
0.10
5.1917 ST09129D 2.28 2.95 1.37 56.20 36.25 12.32 6.43 11.61 17.18 18.93
JTEST 17R x 88C
0
1234
56789
1011121314151617
0
1234C
6789
1 0111213141 Ri. 3
1617
Depth 57start int.
960960960960
970970970970
1355135513551355
ST08010AST09129D
Depth 67start int.
960960960960
970970970970
1355135513551355
ST08010AST09129D
29h400-217
640.88194.2913.450 .01
556 .391.440 . 320.01
27.154 .450 . 200.17
2 .9810 .29
28h386-217
546.18181.9217 .700 .01
486.981 .650 . 520.01
9.841.390 .240 . 16
1 .993.22
58 28a386-217
11.604.362 .790 .01
13.930 .250 . 500 .01
61 .4322.376 .750.13
5.8523.03
68 27a372-217
58 .7232.8433.650 .01
52 .830.610.970 .01
191.3891.6745.351 .52
15.3982.48
59 28aa386-217
12.856 . 507.180.01
15.510.280.530.01
65.2924 . 528 .060.18
6 .9426 .40
69 27b372-217
35.6634 .5143.510.01
33 .410.481.070.01
106.3450 .6024.310.22
9.3149.82
60 28b386-217
8.169.24
11.840 .01
9.410 . 470.550 .01
34.6011.834 .090.12
4 .0213.84
70 27c372-217
7.035. 593 .900 .01
6 .880.260 . 500.01
19.016 .402 . 680 .10
3 .067.70
61 28bb386-217
9 .9611.4013.110.01
11.330.430.530.01
41.4114.484 .960 .10
4 .9417.18
71 27d372-217
9.4411.7718.790.01
9.420.380.420.01
28.588.773.710.12
3 .9911.48
62 28c386-217
3.543 .943.700 .01
3 .820 . 380 . 500 .01
11.663 .401.070.05
2.134 .78
72 27e372-217
394.40178.3850 . 380.01
345.721.440 . 770.01
21 .136 .951.120.19
2 . 508.65
63 28d386-217
3.452 .56
10.200 .01
3.640 .300 .370 .01
10 . 302.200 . 400 .04
2.474 . 29
73 27f372-217
141 .4368.5045.700 .01
125.330.680.950.01
48.0916 .983 .670 .19
3.8814.22
Tl-JAN-90 14:53"
64 28e386-217
210 . 2579 . 2815.980.01
206.451 .231.070.01
5.231 .600.200 . 11
1.672 .86
74 27g372-217
108 .2850.7431 . 270 .01
98.530 . 500 .670 .01
39 . 3710 .702.210.12
2.9810.31
65 28f 66386-217
232.57105.3843.790 .01
225.221.330 .600 .01
42.4413 .551.830.21
4 . 1916 .44
75 27h 76372-217
720 .44292 .6148 .230 .01
595.872 .131.030.01
24 .926 . 551 . 170 .16
2 .727. 18
Page~*T "
28g386-217
128.2253.6926 .320 .01
129.500 .770 .500.01
33.107.961.220 .08
3 . 3612.21
JTEST 17R x 88C
0
1234
56789
1011121314151617
0
1234
56789
1011121314151617
Depth 77start int.
960960960960
970970970970
1355135513551355
ST08010AST09129D
Depth 87start xnt .
960960960960
970970970970
1355135513551355
ST08010AST09129D
24X330-191
25.9924 .5419.690.01
21.270.441.220 .40
16 .849 .944 . 880 .01
1 .792 .94
%-NORMSTERANES
4936300
5029246
3426264
4643
78 Status
OKOKOKOK
OKOKOKOK
OKOKOKOK
OKOK
8 8 GROUPSUM
9056.894952.261942.53
75. 36
7943.5772 .006 6.525 .87
3935. 301842.99578 .62119 . 16
296 . 231156.52
79 D-MIXDATE
80 D4-C21292-221
81 D2-C29400-193
82 D4-C27376-221
54 .9854.8384.8151.14
45.580 . 393 .501 .65
69 .5854 . 2044.7867.77
83 84 %-NORMTRI-CYCL.
2365
27
1213
2345
41
ll-JAN-90
85 %-NORM 86L.M.STE.
138
88
25
1278
57
2084
86
14:53 Page 5
%-NORMPENTA-CYCL.
4859566
4760523
5864507
4249
CONTENTS
WELL : 7321/9-1 CORES
TABLES
1.
2.
3.
4.
5.
6a.
6b.
7.
8.
9.
10.
1 1 .
12a.
12b
13.
14.
15.
16.
17.
81-€>&/(>-/3 1 MAI 989
Cross lithologic descriptions and organic carbon results
Standard pyrolysis results - 300°C, 180 sees - unextracted samples
Standard pyrolysis results - 300°C, 180 sees - extracted samples
Rockeval pyrolysis results - cycle 1 - unextracted samples
Rockeval pyrolysis results - cycle 1 - extracted samples
Gas-oil index (13, extracted samples
Gas-oil index (2), extracted samples
Kerogen type and maturation
Kerogen composition
CHNOS analysis
Atomic ratios
Detailed gasoline (Cu-C7) analysis - peak areas
TCT (Ca-C__3 normalised percentages (1)
TCT (C^-C-.) normalised percentages (23
Concentration (ppm3 of extracted C material
Composition (norm. %) of C _ material
Significant ratios (%) of C fractions and organic carbon
Composition (norm. %) of C saturated hydrocarbons
Carbon isotope compositions
FIGURES
1.
2.
3.
4.
Cy-C7 chromatograms
Programmed pyroIysis-GC, extracted samples
C.- paraffin-naphthene chromatograms
Cft-C__ chromatograms
TABLE 1ORGANIC CARBON RESULTS AND GROSS LITBDLOGIC DESCRIPTIONS
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
GROSS LITHOLOGIC DESCRIPTIONG S ACOLOURCODE
TOTAL ORGANICCARBON
(Wt.% of Rock)
WELL: 7321/9-1 CORES
1948-001 1365.35m
1948-002 1365.50m
1948-003 1365.70m
1948-004 1365.85m
1948-005 1366.05m
1948-006 1366.20m
1948-007 1366.40m
1948-008
1948-009
1948-010
1366.65m
1366.90m
1367.50m
1948-011 1368.50m
1948-012 1369.55m
A 98% MUDSTONE - fine grained, blocky, N5mod hard, non-calc, medium grey to 5Y4/1olive grey.
A 98% SHALE - fine grained, fissile, mod 5Y4/1 •soft, non-calc, olive grey to N4medium dark grey.
A 98% SHALE - as 1948-002A, olive grey to 5Y4/1 -medium dark grey. N4
A 98% SHALE - fine grained, subfissile, N3mod soft to mod hard, non-calc, 5Y4/1dark grey to olive grey.
A 98% SHALE - fine grained, fissile, mod 5Y4/1 -soft to mod hard, non-calc, olive N4grey to medium dark grey.
A 98% SHALE - fine grained, fissile, mod N3soft to mod hard, non-calc, dark 5Y2/1grey to olive black.
A 98% SHALY MUDSTONE - fine grained, sub- N4fissile to blocky, mod hard, occ 5Y4/1fossil fragments, non-calc, mediumdark grey to olive grey.
A 98% SHALE - fine grained, fissile, mod 5Y4/1 -soft, non-calc, olive grey to dark N3grey.
A 98% SHALY MUDSTONE - fine grained, sub- 5Y4/1 -fissile, mod soft to mod hard, non- 5Y2/1calc, olive grey to olive black.
A 98% SILTY MUDSTONE - fine grained, 5YR4/1 -blocky to subfissile, mod soft to 10YR4/2mod hard, non-calc, brownish greyto dark yellowish brown.
A 98% MUDDY SILTSTONE - fine grained, 5YR4/1subfissile, mod soft, si micaceous,non-calc, brownish grey.
A 98% MUDDY SILTSTONE - as 1948-011A, 5YR4/1brownish grey.
0.33, 0.35
0.61
0.66
Abbreviations = arenaceous, argillaceous, calcareous, Cut, dolomite, Fluorescence, foraminifera, fossi1 iferous
Lost Circulation Material, moderately, occasionally, slightly, very
ORGANIC CARBON RESULTS AND GROSS LITHDLOGIC DESCRIPTIONS
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
GROSS LITHDLOGIC DESCRIPTIONG S ACOLOURCODE
TOTAL ORGANICCARBON
(Wt.% of Rock)
1948-013 1369.82m
1948-014
1948-015
1948-016
1948-017
1948-018
1948-019
1948-020
1948-021
1948-022
1371.50m
1372.50m
1374.10m
1375.35m
1375.62m
1376.52m
1377.50m
1378.50m
1378.87m
1948-023 1379.50m
1948-024 1380.00m
A 98% MUDDY SILTSTONE - fine grained,fissile to subfissile, mod soft tomod hard, si micaceous, non-calc,brownish grey to light brownishgrey.
5YR4/15YR6/1
A 98% MUDDY SILTSTONE - fine grained, 5YR4/1subfissile, mod soft, commonly withsi darker carbonaceous speckles,non-calc, brownish grey.
A 98% MUDDY SILTSTONE - fine grained, . 5YR4/1 0.69subfissile, mod soft to mod hard,very si micaceous, non-calc,brownish grey.
A 98% MUDDY SILTSTONE - as 1948-015A, 5YR4/1 0.76brownish grey.
A 98% MUDDY SILTSTONE - fine grained, 5YR4/1subfissile, mod soft, commonly withsi darker carbonaceous speckles,non-calc, brownish grey.
A 98% MUDDY SILTSTONE - fine grained, 5YR4/1subfissile, mod soft, non-calc,brownish grey.
A 98% MUDDY SILTSTONE - as 1948-017A, 5YR4/1brownish grey.
A 98% MUDDY SILTSTONE - fine grained, 5YR4/1subfissile, mod soft, brownish grey
A 98% MUDDY SILTSTONE - as 1948-020A, 5YR4/1 0.88brownish grey.
A 98% CONGLOMERATE - rounded pebbles of 5Y6/1 -up to 1.7 cm in a medium to coarse N4grained non-calc matrix, lightolive grey to medium dark grey.
A 98% CONGLOMERATE - rounded pebbles ofup to 1.4 cm in a medium to coarsegrained,non-calc,si glauconiticmatrix, light olive grey togreenish grey.
5Y6/15GY6/1
A 98% SILTSTONE - medium grained, blocky, 5Y6/1 -mod hard, non-calc, occ with darker 10YR6/2carbonaceous speckles, light olivegrey to pale yellowish brown.
Abbreviations = arenaceous, argillaceous, calcareous, Cut, dolomite, Fluorescence, foraminifera, fossi1 i ferous
Lost Circulation Material, moderately, occasionally, slightly, very
TABLE 1ORGANIC CARBON RESULTS AND GROSS LITHDLOGIC DESCRIPriONS
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
GROSS LITHQLOGIC DESCRIPTIONG S ACOLOURCODE
TOTAL ORGANICCARBON
(Wt.% Of Rock)
1948-025
1948-026
1948-027
1948-028
1948-029
1948-030
1948-031
1381.00m
1382.00m
1383.00m
1384.00m
1385.25m
1386.00m
1387.00m
A 98% SILTSTONE - as 1948-024A, light 5Y6/1 -olive grey to pale yellowish brown. 10YR6/2
A 98% SILTSTONE - as 1948-024A, light 5Y6/1 -olive grey to pale yellowish brown. 10YR6/2
A 98% SILTSTONE - medium to coarsegrained, si sandy, mod hard to modsoft, non-calc, light olive grey.
5Y6/1
1948-032
1948-033
1388.00m
1389.00m
A 98% SILTSTONE - medium grained, blocky 5Y6/1 -to subfissile, mod soft to mod 5YR8/1hard, non-calc, light olive grey topinkish grey.
A 98% SILTSTONE - medium grained, blocky, 10YR4/2-sl sandy, mod hard to mod soft, 5Y5/2non-calc, dark yellowish brown tolight olive grey.
A 98% SILTY SANDSTONE - medium to coarse 10YR4/2-grained, blocky, si sandy, mod hard 5Y6/1to mod soft, non-calc, darkyellowish brown to light olive grey
A 98% SILTY SST - med to coarse grained, 10YR4/2-blocky, mod hard to mod soft, small 5Y6/1carbonaceous laminae, occ dull goldF, slow blooming milky C, darkyellowish brown to light olive grey
A 98% SILTY SANDSTONE - as 1948-031A, 10YR4/2-occasional dull gold F, slow 5Y6/1blooming milky cut, dark yellowishbrown to light olive grey.
A 98% SILTY SANDSTONE - medium to coarse 5Y6/1 -grained, blocky, mod hard to mod N4soft, v well sorted, non-calc, occcarbonaceous patches, light olivegrey to medium dark grey.
1948-034 1390.00m A 98% SILTY SANDSTONE - medium to coarsegrained, blocky, mod hard to modsoft, v well sorted, non-calc,ccranon carbonaceous laminae, olivegrey to dark grey.
5Y4/1N3
1948-035 1391.00m A 98% SILTY SANDSTONE - as 1948-034A, 5Y4/1very slow blooming milky cut, olive N3grey to dark grey.
Abbreviations = arenaceous, argillaceous, calcareous, Cut, dolomite, Fluorescence, foraminifera, fossi1 iferous
Lost Circulation Material, moderately, occasionally, slightly, very
TABLE 1ORGANIC CARBON RESULTS AND GROSS LITBDLOGIC DESCRIPTIONS
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
GROSS LITHDLOGIC DESCRIPTIONG S ACOLOURCODE
TOTAL ORGANICCARBON
(Wt.% Of Rock)
1948-036 1392.00m
1948-037
1948-038
1948-039
1948-040
1393.00m
1394.00m
1395.00m
1396.00m
1948-041 1397.00m
1948-042 1398.00m
A 98% SILTY SANDSTONE - medium to coarse N7grained, blocky, mod hard to mod 5Y6/1soft, non-calc, part with carb lam,v slow blocming milky cut, lightgrey to light olive grey.
A 98% SILTY SANDSTONE - medium to coarse 5Y6/1grained, blocky, mod hard to modhard, non-calc, slow blooming milkycut, light olive grey.
A 98% SILTY SANDSTONE - as 1948-037A, 5Y6/1very slow blooming milky cut, lightolive grey.
A 98% SILTY SANDSTONE - medium to coarse 5Y6/1grained, blocky, mod hard to modsoft, non-calc, very slow bloomingmilky cut, light olive grey.
A 98% SILTY SANDSTONE - medium to coarse 5Y6/1grained, blocky, mod hard to modsoft, non-calc, occ carb speckles,very slow blooming milky cut, lightolive grey.
A 98% SILTY SANDSTONE - medium to coarse 5Y6/1grained, blocky, mod hard to mod 5Y4/1soft, non-calc, common carbstreaks, slow blooming milky cut,light olive grey to olive grey.
A 98% SILTY SANDSTONE - medium to coarse 5Y6/1grained, blocky, mod hard to modsoft, non-calc, occ carbonaceousstreaks, very slow milky cut, lightolive grey.
Abbreviations = arenaceous, argillaceous, calcareous, Cut, dolomite, Fluorescence, foraminifera, fossi1 iferous
Lost Circulation Material, moderately, occasionally, slightly, very
TABLE 2STANDARD FXROLYSIS DATA
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
WELL: 7321/9-1 CORES
1948-002A1948-007A1948-OllA1948-015A1948-016A1948-021A
1365.50m1366.40m1368.50m1372.50m1374.10m1378.50m
ORGANICCARBON(%)
0.340.610.660.690.760.88
SO(mg/g)
0.020.020.010.020.030.03
SI(mg/g)
0.050.100.370.450.61-0.44
S2(mg/g)
0.230.480.740.730.860.88
PRODUCTIONINDEX
0.170.170.330.380.410.33
HYDROGENINDEX
67.678.7112.1105.8113.2100.0
TMAX(°C)
421431422438431437
UNEXTRACTED SAMPLES
PRODUCTION INDEX = SI / (SO + SI + S2) HYDROGEN INDEX = 100 x 52 / TOCSO : 100°C (ISOsecs) SI : 300°C (ISOsecs) S2 : 25°C / lOmin + 1 min 550 °C
TABLE 3STANDARD PYROLYSIS DATA
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
WELL: 7321/9-1 CORES
1948-002A1948-007A1948-OllA1948-015A1948-016A1948-021A
1365.50m1366.40m1368.50m1372.50m1374.10m1378.50m
ORGANICCARBON(%)
0.320.590.560.560.610.72
SO(mg/g)
0.010.020.010.030.030.02
SI(mg/g)
0.030.080.060.080.120.13
S2(mg/g)
0.060.480.400.440.470.54
PRODUCTIONINDEX
0.300.140.130.150.190.19
HYDROGENINDEX
18.881.471.478.677.075.0
TMAX(°C)
433437440442443443
EXTRACTED SAMPLES
PRODUCTION INDEX = SI / (SO + SI + S2) HYDROGEN INDEX = 100 X S2 / TOGSO : 100°C (180secs) SI : 300°C (180secs) S2 : 25°C / lOmin + 1 min 550°C
TABLE 4ROCKEVAL PYROLYSIS DATA
JJOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
WELL: 7321/9-1 CORES
1948-002A1948-007A1948-OllA1948-015A1948-016A1948-021A
1365.50m1366.40m1368.50m1372.50m1374.10m1378.50m
TOC(%)
0.340.610.660.690.760.88
SI(mg/g)
0.100.180.570.660.831.10
S2(mg/g)
0.130.460.760.751.130.80
S3(mg/g)
0.240.110.150.220.270.29
PRODUCTIONINDEX
0.430.280.430.470.420.58
HYDROGENINDEX
38.275.4115.2108.7148.790.9
OXYGENINDEX
70.618.022.731.935.533.0
TMAX
Cc)
397438437439437438
UNEXTRACTED SAMPLES
PRODUCTION INDEX = SI / (S I + S2)
OXYGEN INDEX = 100 x S3 / TOCHYDROGEN INDEX = 100 X S2 / TOC
TABLE 5ROCKEVAL FYROLYSIS DATA
)JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
WELL: 7321/9-1 CORES
1948-002A1948-007A1948-OllA1948-015A1948-016A1948-021A
1365.50m1366.40m1368.50m1372.50m1374.10m1378.50m
TOC(%)
0.320.590.560.560.610.72
SI(mg/g)
0.060.120.290.100.120.18
S2(mg/g)
0.050.380.350.300.370.42
S3(mg/g)
0.390.610.250.150.160.19
PRODUCTIONINDEX
0.550.240.450.250.240.30
HYDROGENINDEX
15.664.462.553.660.758.3
OXYGENINDEX
121.9103.444.626.826.226.4
TMAXCO
372436439443441439
EXTRACTED SAMPLES
PRODUCTION INDEX = SI / (S I + S2)
OXYGEN INDEX = 100 X S3 / TOCHYDROGEN INDEX = 100 X S2 / TOC
TABLE 6aPYROLYSIS-GC GAS-OIL INDICES
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
WELL: 7321/9-1 CORES
1948-002A1948-007A1948-OllA1948-015A1948-016A1948-021A
1365.50m1366.40m1368.50m1372.50m1374.10m1378.50m
Cl
12.3919.9014.6419.3517.9113.08
C2-C5
57.0142.8142.7741.7739.9240.71
C6-C14
30.6035.4940.0737.3440.0639.81
C15+
0.001.672.411.331.985.94
nC17
0.000.130.110.210.130.46
INDICES
TOLUENEnC8
3.201.751.651.541.581.46
PHENOL
0.030.090.080.130.110.09
C1-C5
69.4062.7157.4161.1257.8353.79
TABLE 6bPYROLYSIS-GC GAS-OIL INDICES
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY Cl C2-C6 C7-C14 C15+ nC17
INDICES
TOLUENEnC8 PHENOL C1-C6
WELL: 7321/9-1 CORES
1948-002A1948-007A1948-011A1948-015A1948-016A1948-021A
1365.50m1366.40m1368.50m1372.50m1374.10m1378.50m
12.3919.9014.6419.3517.9113.08
71.8452.4748.3051.7550.9349.33
15.7725.8329.8727.3629.0531.19
0.001.672.411.331.985.94
0.000.130.110.210.130.46
3.201.751.651.541.581.46
0.030.090.080.130.110.09
84.2372.3762.9471.1068.8462.41
TABLE7KEROGEN TYPE AND MATURATION
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
ORGANIC MATTER DESCRIPTION
TYPES REMARKS>35%;10-35%;<10%
RE-WORKED(%)
PARTICLESIZE
PRESERV-ATION
THERM?MATURA1]
THERMALALTERATION
INDEX
VLLXUlN
1-10SCALE
WELL: 7321/9-1 CORES
1948-002A 1365.50m
1948-007A 1366.40m
1948-011A 1368.50m
1948-015A 1372.50m
1948-016A 1374.10m
1948-021A 1378.50m
W-I;-;Al-H-Am
W;I-H;Al-Am
W-I;H;A1-Am
I-W;H;A1-Am
I-W;H;A1-Am
W-I;H;A1-Am
W/I differentiation difficultH at 2+ and 2+ to 3-
W/I differentiation difficult
W/I differentiation difficult
W/I differentiation difficult
F-M 2 to 5(?)
F-M
F-M
F-M
F-M
F-M
F-G
F
F
F
F
2 to 2+
2 to 2+
2 to 2+
2 to 2+
2 to 2+
5
5
5
5
5
Algal,Amorphous,Herbaceous,Inertinite,Resin,Wood TA1 SCALE 1
preservation = Poor,Fair.Good size = Fine,Medium,Coarse 1-10 SCALE 1
1+ to 2-
2
2-
3
2 TO 2+
5
2+ TO 3-
6
3+
8
5
10
TABLE 8
KEROCEN COMPOSITION
WELL 7321/9-1
GEOCHEMSAMPLENUMBER
1948-002A
1948-007A
1948-011A
1948-015A
1948-016A
1948-021A
DEPTH(m)
1365.50
1366.40
1368.50
1372.50
1374.10
1378.50
Am
<5
1
1
1
1
<5
VISUAL
AI
<10
<10
<10
<5
<5
<5
ESTIMATE !
H
<5
15
20
15
10
15
W
55
50
40
40
40
45
I
35
30
35
45
45
35
Table 9
CHNOS ANALYSIS
COMPOSITION W/W %
CEOCHEM
SAMPLE
NUMBER
1948-002A
1948-007A
1948-011A
1948-021A
CARBON
58.01
56.91
28.44
27.03
HYDROGEN
4.61
3.67
2.18
1.93
NITROGEN
0.00
0.42
0.00
0.05
OXYGEN
*
2.96
3.25
3.32
SULPHUR
*
1.22
5.90
3.55
* insufficient sample for analysis
Table 10
ATOMIC RATIOS
CEOCHEM KEROGEN CONCENTRATE
SAMPLE DEPTH
NUMBER H/C O/C
1948-002A 1365.50m
1948-007A 1366.40m
1948-011A 1368.50m
1948-021A 1378.50m
0.95
0.77
0.77
0.86
—
0.
0.
0.
039
086
092
GEOCHEM SAMPLENUMBER
DEPTH
NORMALISEDCOMPOSITION
isobutanen-butaneisopentanen-pentane
2,2-dimethylBcyclopentane2,3-dlinethYlB2-methylP3-methylP
n-hexanemethylCP2,2-diniethylP2,4-dimethylP2,2,3-trimethylB
benzenecyclohexane3,3-dimethylP1,1-dimethylCP
2-MH2,3-dimethylP3-MHl,c,3-DMCP
l,t,3-rMCPi,t,2-DMCP3-ethylP
n-heptane(nC7)methylCHl,c,2-DMCPtoluene
ABUNDANCE
nC7/C7NAPHTHENEStotal MH/DMCPl,t,2-/l,c,2-DMCPnC6/methylCP
C6-C7 FRACTION
%n-PARAFETNS%iSO-PARAFFTNS% NAEHTHENES% AROMATICS
DETAILED
1948-001
1365.35m
3.9512.409.4816.75
0.700.510.075.713.06
7.103.950.550.290.00
0.494.360.000.00
2.900.572.820.97
0.762.180.00
4.988.190.001.81
324
0.411.460.001.80
23.6932.6940.024.51
TABLE 11GASOLINE RANGE (C4-C7
1948-002
1365.5m
3.2010.897.5313.14
1.381.360.074.792.73
13.253.470.580.330.00
1.015.240.000.00
2.750.992.610.76
0.622.300.00
4.2410.300.000.97
117
0.301.460.003.82
30.1627.9939.133.42
1948-003
1365.7m
5.289.947.9312.44
1.071.140.133.651.94
8.912.930.480.290.00
0.944.480.000.00
3.130.733.040.77
0.892.160.00
8.1012.360.001.81
129
0.501.620.003.04
29.8525.3741.394.83
) CCMPOSITICM
1948-004
1365.85m
0.942.447.5611.93
1.021.690.988.564.70
12.525.160.720.200.00
0.536.160.000.00
3.990.593.090.89
0.801.610.00
5.9010.610.001.96
1142
0.422.150.002.43
26.7034.5736.573.61
1948-005
1366.05m
4.155.136.1910.85
0.720.580.003.962.21
9.823.420.580.230.00
0.755.120.000.00
4.170.733.720.97
0.891.940.00
9.5515.590.003.28
227
0.492.080.002.87
28.9224.3641.696.02
1948-006
1366.2m
5.809.045.5211.70
0.771.080.002.841.61
9.132.850.580.360.00
0.894.650.000.00
3.360.903.250.90
0.672.680.00
8.8714.760.002.33
153
0.471.560.003.20
29.5122.4143.465.28
DMCP dimethylcyclopentane MH methylhexane B butane CH cyclohexane CP cyclopentane H hexane P pentane
GEOCHEM SAMPLENUMBER
DEPTH
NORMALISEDCOMPOSITION
isobutanen-butaneisopentanen-pentane
2,2-dimethylBcyclopentane2,3-dimethylB2-methylP3-methylP
n-hexanemethylCP2,2-dimethylP2,4-dimethylP2,2,3-trimethylB
benzenecyclohexane3,3-dimethylP1,1-dimethylCP
2-MH2,3-dimethylP3-MHl,c,3-DMCP
l,t,3~EMCPl,t,2-EMCP3-ethylP
n-heptane(nC7)methylCHl,c,2-DMCPtoluene
ABUNDANCE
nC7/C7NAPHEHENEStotal MH/DMCPl,t,2-/l,c,2-EMCPnC6/methylCP
C6-C7 FRACTION
%n-PARAEFINS%iso-PARAFFINS% NAPHIHENES% AEOMATICS
TABLE 11DETAILED GASOLINE RANGE (C4-C7
1948-007
1366.4m
1.286.558.5512.60
0.812.030.006.513.77
9.605.780.530.180.00
1.747.770.000.00
2.960.592.350.77
0.651.420.00
4.5610.580.002.98
2830
0.341.870.001.66
22.4828.1042.817.50
1948-008
1366.65m
1.112.323.777.53
0.711.160.007.083.93
12.853.790.880.270.00
0.365.720.000.00
5.570.824.391.09
0.982.000.00
9.3716.680.002.17
988
0.452.450.003.39
28.4930.3338.803.25
1948-009
1366.9m
3.695.794.698.41
0.781.040.005.122.88
10.883.740.710.300.00
0.675.490.000.00
4.300.913.640.96
0.781.910.00
8.0316.370.003.45
253
0.402.180.002.91
27.0226.6341.795.89
) COMPOSITION
1948-010
1367.5m
6.4419.327.8512.47
1.861.280.003.381.98
11.852.850.440.400.00
0.964.660.000.00
1.920.521.690.53
0.461.040.00
3.417.280.001.94
167
0.371.780.004.16
32.4725.9435.796.18
1948-011
1368.5m
5.0712.795.7010.61
1.210.920.113.421.83
34.271.880.360.300.00
0.562.740.000.00
1.550.361.330.38
0.300.930.00
2.564.030.001.31
234
0.451.790.0018.23
62.4317.7517.393.17
1948-012
1369.55m
7.2010.226.8117.65
1.551.020.032.551.56
32.511.760.220.210.00
0.562.640.000.00
0.870.280.740.22
0.200.540.00
1.263.140.000.78
189
0.311.680.0018.47
66.2215.7116.672.63
DMCP dimethyicyciopentane MH methylhexane B butane CH cyclohexane CP cyclopentane H hexane P pentane
GEOCHEM SAMPLENUMBER
DEPTH
NORMALISEDCOMPOSITION
isobutanen-butaneisopentanen-pentane
2,2-dimethylBcyclopentane2,3-dimethylB2-methylP3-methylP
n-hexanemethylCP2,2-dimethylP2,4-dimethylP2,2,3-trimethylB
benzenecyclohexane3,3-dimethylP1,1-dimethylCP
2-MH2,3-dimethylP3-MHl,c,3-DMCP
l,t,3-IMCPl,t,2-DMCP3-ethylP
n-heptane(nC7)methylCHl,c,2-EMCPtoluene
ABUNDANCE
nC7/C7NAPHTHENEStotal MH/DMCPl,t,2-/l,c,2-DMCPnC6/niethylCP
C6-C7 FRACTION
%n-PARAFFINS%iso-PARAFFTNS% NAPHTHENES% AROMATICS
DETAILED
1948-013
1369.82m
7.1715.496.6214.32
1.071.020.032.691.55
30.291.800.240.230.00
0.722.770.000.00
0.940.470.730.23
0.190.700.00
1.353.140.000.74
200
0.321.490.0016.83
64.5816.2318.032.98
TABLE 11GASOLINE RANGE (C4-C7
1948-014
1371.5m
10.1921.479.2414.87
1.710.520.123.071.80
17.162.410.280.230.00
0.623.590.000.00
0.700.350.620.25
0.220.630.00
0.563.210.000.74
197
0.131.200.007.12
46.6423.3727.143.58
1948-015
1372.5m
7.8712.417.3815.26
1.670.360.113.071.76
25.352.090.340.330.00
0.953.180.000.00
1.380.371.180.32
0.270.710.00
2.413.990.001.77
218
0.461.970.0012.13
54.4420.0220.715.34
) cnyiPOsiTiON
1948-016
1374. liti
7.4815.257.28
16.44
1.071.170.072.871.71
24.132.300.320.230.00
0.783.500.000.00
1.120.320.930.27
0.310.690.00
1.424.000.000.84
184
0.271.610.0010.49
55.5518.7924.073.53
1948-017
1375.35m
10.5918.179.6018.26
1.381.310.023.081.84
15.492.120.240.180.00
0.583.920.000.00
0.860.360.650.23
0.240.590.00
0.783.710.000.33
178
0.161.420.007.31
45.2023.9230.032.53
1948-018
1375.62m
6.7725.577.9212.87
1.241.390.113.542.08
8.042.900.440.410.00
1.334.320.000.00
1.760.481.450.45
0.401.160.00
2.725.640.001.54
221
0.361.600.002.77
26.9128.7837.187.18
DMCP dimethyicyciopentane MH methylhexane B butane CH cyclohexane CP cyclopentane H hexane P pentane
GEOCHEM SAMPLENUMBER
DEPTH
NORMALISEDCOMPOSITION
isobutanen-butaneiscpentanen-pentane
•2,2-dimethylBcyclopentane2,3-dimethYlB2-methylP3-methylP
n-hexanemethylCP2,2-dimethylP2,4-dimethylP2,2,3-trimethylB
benzenecyclohexane3,3-dimethylP1,1-dimethy1CP
2-MH2,3-dimethylP3-MHl,c,3-EMCP
i,t,3-DMCPl,t,2-DMCP3-ethylP
n-heptane(nC7)rnethylCHl,c,2-DMCPtoluene
ABUNDANCE
nC7/C7NAPHIHENEStotal MH/DMCPl,t,2-/l,C,2-DMCPnC6/methylCP
C6-C7 FRACTION
%n-PARAFFINS%iSO-PARAFFINS% NAPHTHENES% ARCMATICS
DETAILED
1948-019
1376.52m
5.0327.176.8011.37
1.811.280.103.392.02
8.372.960.440.460.00
1.684.240.000.00
1.680.521.540.42
0.390.890.00
3.216.860.001.91
204
0.381.890.002.83
27.5828.4837.538.55
TABLE 11GASOLINE RANGE (C4-C7
1948-020
1377.5m
7.1216.008.2815.41
0.990.510.003.702.13
15.213.000.370.330.00
1.584.300.000.00
1.630.421.350.42
0.350.910.00
2.715.970.001.84
293
0.351.770.005.07
38.1323.2431.817.28
1948-021
1378.5m
9.2624.628.5010.56
1.391.300.003.061.84
14.662.390.320.370.00
0.824.070.000.00
1.260.411.070.31
0.290.940.00
1.774.360.000.96
212
0.301.510.006.13
41.0824.3130.914.46
) COMPOSITION
1948-022
1378.87m
15.4928.6511.8112.91
1.620.660.003.642.02
5.762.150.260.180.00
0.263.040.000.00
0.760.380.580.20
0.140.540.00
0.393.080.000.02
173
0.101.520.002.68
24.6137.7736.611.13
1948-023
1379.5m
16.4929.8012.9612.33
0.881.440.033.982.17
4.042.360.220.090.00
0.322.490.000.00
0.700.230.570.23
0.180.500.00
0.312.180.000.02
1102
0.101.400.001.71
20.7242.2437.811.62
1948-024
1380m
16.1530.3212.4412.95
0.710.640.044.022.35
4.751.580.260.120.00
0.261.570.000.00
1.220.141.030.20
0.190.360.00
1.051.960.000.23
932
0.393.000.003.01
26.3744.9626.642.23
DMCP dimethylcyclopentane MH methylhexane B butane CH cyclohexane CP cyclopentane H hexane P pentane
GEOCHEM SAMPLENUMBER
DEPTH
NORMALISEDCOMPOSITION
isobutanen-butaneisopentanen-pentane
2,2-dimethylBcyclopentane2,3-dimethylB2-methylP3-methylP
n-hexanemethylCP2,2-dimethylP2,4-dimethylP2,2,3-trimethylB
benzenecyclohexane3,3-dimethylP1,1-dimethylCP
2-MH2,3-diinethylP3-MHl,c,3-DMCP
l,t,3-EMCPl,t,2-DMCP3-ethylP
n-heptane(nC7)methylCHl,c,2-DMCPtoluene
ABUNDANCE
nC7/C7NAPHFHENEStotal MH/DMCPl,t,2-/l,c,2-EMCPnC6/methylCP
C6-C7 FRACTION
%n-PARAFFINS%iso-PARAFFINS% NAPHTHENES% AROMATICS
DETAILED
1948-025
1381m
12.8529.1410.5211.59
1.720.410.133.842.23
5.532.300.270.300.00
0.612.420.000.00
1.430.271.170.33
0.260.620.00
2.553.130.000.93
546
0.592.150.002.40
26.9437.8730.215.14
TABLE 11GASOLINE RANGE (C4-C7
1948-026
1382m
13.9928.9710.7711.95
1.721.030.154.141.97
4.712.190.320.190.00
0.702.590.000.00
1.050.520.910.32
0.210.610.00
1.643.350.000.53
349
0.371.720.002.15
23.5240.6334.344.56
1948-027
1383m
14.5525.3711.7811.91
0.920.600.054.222.34
5.632.700.290.160.00
0.762.820.000.00
1.330.351.120.36
0.320.650.00
2.053.630.000.62
851
0.411.840.002.09
25.6135.9434.944.61
) COMPOSITION
1948-028
1384m
13.2325.9111.1211.58
0.980.580.074.352.34
5.902.900.330.160.00
0.623.130.000.00
1.490.351.250.38
0.290.730.00
2.343.970.000.55
764
0.441.960.002.03
25.7635.3835.633.66
1948-029
1385.25m
13.4426.7510.9311.81
0.811.410.073.972.19
5.722.780.320.120.00
0.672.990.000.00
1.440.311.240.32
0.270.630.00
2.223.500.000.62
968
0.472.200.002.06
26.4734.9134.974.31
1948-030
1386m
11.5024.049.6010.63
1.140.410.064.382.33
5.812.770.620.240.00
0.552.770.000.00
3.350.372.930.51
0.400.940.00
3.525.100.000.57
804
0.513.390.002.10
24.5640.5832.872.95
DMCP dimethylcyclopentane MH methylhexane B butane CH cyclohexane CP cyclopentane H hexane P pentane
GEOCHEM SAMPLENUMBER
DEPTH
NORMALISEDOPPOSITION
isobutanen-butaneisopentanen-pentane
2,2-dimethylBcyclqpentane2,3-dimethylB2-methylP3-methylP
n-hexanemethylCP2,2-dimethylP2,4-dimethylP2,2,3-trimethylB
benzenecyclohexane3,3-dimethylP1,1-dimethylCP
2-MH2,3-dimethylP3-MHi,c,3-iacp
l,t,3-DMCPl,t,2-DMCP3-ethylP
n-heptane(nC7)methylCHl,c,2-EMCPtoluene
ABUNDANCE
nC7/C7NAPHTHENEStotal MH/DMCPl,t,2-/l,c,2-DMCPnC6/methylCP
C6-C7 FRACTION
%n-PARAFFINS%iso-PARAFFINS% NAPHTHENES% ARQMATICS
DETAILED
1948-031
1387m
13.9924.3911.0712.68
1.101.320.084.202.21
6.302.510.360.160.00
0.542.640.000.00
1.620.301.390.34
0.380.590.00
2.533.220.000.61
1019
0.562.300.002.51
28.4936.8431.233.71
TABLE 11GASOLINE RANGE (C4-C7)
1948-032
1388m
13.6925.5810.8611.77
0.880.560.004.152.23
5.872.770.340.160.00
0.582.990.000.00
1.740.311.410.39 "
0.380.660.00
2.913.680.000.61
702
0.572.200.002.12
27.4435.0733.973.72
1948-033
1389m
11.9322.309.4610.36
0.940.480.074.292.28
6.572.900.520.200.00
0.723.080.000.00
2.810.382.290.47
0.401.090.00
4.935.320.000.73
762
0.682.600.002.27
29.4935.3434.013.72
COMPOSITION
1948-034
1390m
11.7921.579.339.89
0.941.170.084.232.22
6.192.540.590.160.00
0.492.590.000.00
3.500.412.830.46
0.350.950.00
6.635.130.000.51
534
0.963.600.002.44
32.0637.4130.062.51
1948-035
1391in
12.4922.679.9110.23
1.110.400.004.452.39
6.312.630.550.190.00
0.652.930.000.00
2.680.482.210.48
0.460.910.00
4.615.220.000.57
397
0.652.640.002.40
28.7437.0133.243.22
1948-036
1392m
15.3025.3811.3811.29
0.971.110.074.272.25
5.532.500.330.120.00
0.532.830.000.00
1.530.311.240.34
0.320.640.00
2.193.520.000.57
408
0.452.130.002.21
25.7436.9733.843.67
DMCP dimethylcyclopentane MH methylhexane B butane CH cyclohexane CP cyclopentane H hexane P pentane
GEOCHEM SAMPLENUMBER
DEPTH
NORMALISEDCOMPOSITION
isobutanen-butaneisopentanen-pentane
2,2-dimethylBcyclopentane2,3-dimethylB2-methylP3-methylP
n-hexanemethylCP2,2-dimethylP2,4-dimethylP2,2,3-trJjnethylB
benzenecyclohexane3,3-dimethylP1,1-dimethylCP
2-MH2,3-dimethylP3-MHl,c,3-DMCP
l,t,3-DMCPl,t,2-DMCP3-ethylP
n-heptane(nC7)inethylCHl,c,2-DMCPtoluene
ABUNDANCE
nC7/C7NAPHTHENEStotal MH/DMCPl,t,2-/l,C,2-DMCPnC6/methylCP
C6-C7 FRACTION
%n-PARAFFINS%iso-PARAFFINS% NAPHTHENES% AROMATICS
DETAILED
1948-037
1393m
13.4225.7311.4111.56
0.961.380.054.232.28
5.562.820.290.130.00
0.653.040.000.00
1.470.321.230.40
0.360.820.00
2.153.610.000.63
696
0.411.710.001.97
24.8835.3635.654.13
TABLE 11GASOLINE RANGE (C4-C7
1948-038
1394m
15.2622.2111.6813.26
1.670.570.084.242.27
5.752.640.310.240.00
0.542.940.000.00
1.470.321.190.36
0.320.700.00
2.273.690.000.56
199
0.451.930.002.18
25.8838.0434.363.55
1948-039
1395m
15.1623.0311.2913.75
2.181.220.214.072.17
5.482.370.380.280.00
0.622.660.000.00
1.310.401.190.33
0.270.660.00
1.972.970.000.54
143
0.471.980.002.31
24.84'40.6430.873.87
) COMPOSITION
1948-040
1396m
14.0929.4210.6512.26
1.860.610.003.762.04
5.022.310.280.220.00
0.482.540.000.00
1.210.331.030.31
0.240.650.00
1.882.890.000.45
197
0.461.870.002.17
25.5639.7533.123.45
1948-041
1397m
10.5319.979.3010.76
1.151.300.055.142.80
7.403.130.510.210.00
0.393.460.000.00
2.530.532.110.56
0.441.010.00
4.176.700.000.39
485
0.482.310.002.36
27.5535.7936.431.86
1948-042
1398m
24.3226.2810.0311.10
1.031.270.053.551.92
4.952.350.240.13
• 0.00
0.572.690.000.00
1.110.551.000.33
0.260.650.00
1.993.140.000.49
479
0.451.700.002.11
25.7135.4934.893.93
DMCP dimethylcyolopentane MH methylhexane B butane CH cyclohexane CP cyclopentane H hexane P pentane
TABLE 12aTHERMAL BITUMEN COMPOSITION (NORM. %) AND ABUNDANCE
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
WELL: 7321/9-1 CORES
1948-0021948-0071948-0111948-0151948-0161948-021
1365.501366.401368.501372.501374.101378.50
%CX-C5
36.9123.9111.962.8917.7912.84
%C6-C14
58.3369.1469.0550.5741.2434.11
%C15+
4.776.9618.9946.5340.9753.05
%nC17
0.170.412.365.212.543.22
ABUNDANCE(ppn)
19115681910782001749
TABLE 12bTHERMAL BITUMEN CCMPOSITIQN (NOEM. %) AND ABUNDANCE
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
WELL: 7321/9-1 CORES
1948-0021948-0071948-0111948-0151948-0161948-021
1365.50m1366.40m1368.50m1372.50m1374.10m1378.50m
%CX-C6
41.3030.5818.675.9120.7313.56
%C7-C14
53.9462.4662.3447.5538.3133.39
%C15+
4.776.9618.9946.5340.9753.05
%nC17
0.170.412.365.212.543.22
ABUNDANCE(ppm)
19115681910782001749
TABLE 13CONCENTRATION (EEM) OF EXTRACTED C15+ MATERIAL IN ROCK
JOB 1948
GEOCHEMSAMPLENUMBER
L1TH0
DEPTH/IDENTITY
WELL: 7321/9-1 CORES
1948-001A1948-002A1948-003A1948-004A1948-005A1948-006A1948-007A1948-008A1948-009A1948-010A1948-011A1948-012A1948-013A1948-014A1948-015A1948-016A1948-017A1948-018A1948-019A1948-020A1948-021A1948-022A1948-023A1948-024A1948-025A1948-026A1948-027A1948-028A1948-029A1948-O30A1948-031A1948-032A
1365.35m1365.50m1365.70m1365.85m1366.05m1366.20m1366.40m1366.65m1366.90m1367.50m1368.50m1369.55m1369.82m1371.50m1372.50m1374.10m1375.35m1375.62m1376.52m1377.50m1378.50m1378.87m1379.50m1380.00m1381.00m1382.00m1383.00m1384.00m1385.25m1386.00m1387.00m1388.00m
TOTALEXTRACT
182380347303236513232390309635103812949911238142721641538130918901911779928959287851110644234291394507359473
HYDROCARBONS
Saturates
4412971108851747412987439689946724815954152710539881359137560972375722393647672743051058352257323
Aranatics
152934592475386649528295687790184161114166192628468231451012833111393342
TOTAL
59158105167109248112195135492770104179389210441711121411031525156767280782624704098683023371169391290364
NON HYDROCARBONS
Preciptd.Asphaltenes
2489133383811258757245154-140130238270240137992242035458742154573855450533147
ElutedNSO's
98129106968614960117999711211066105106204181103135134505956186541193436169613659
Non-ElutedNSO's
24323312222323795467443635225322
TOTAL
1232222421361272651201941731432682541983463834533242073643441071211334081021961219222511669109
S - s h a l e , S S - s a n d s t o n e , L - 1 i m e s t o n e , D - d o l o m i t e , M - m i x e d , s e e T a b l e I
TABLE 13CXaiCENTRATICai (FEM) OF EXTRACTED C 1 5 + MATERIAL IN ROCK
JOB 1948
GEOCHEMSAMPLENUMBER
LITH0
DEPTH/IDENTITY
TOTALEXTRACT
HYDROCARBONS
Saturates Aronatics TOTAL
NON HYDROCARBONS
Preciptd.Asphaltenes
ElutedNSO's
Non-ElutedNSO's
TOTAL
1948-033A1948-034A1948-035A1948-036A1948-037A1948-038A1948-039A1948-040A1948-041A1948-042A
1389.00m1390.00m1391.00m1392.00m1393.00m1394.00m1395.00m1396.00m1397.00m1398.00m
740567701892890735833692868868
474384514674670587646548664649
80364769655555476064
555421562742735642702594724713
94968062663363457899
89485884875867516455
3223122221
1851461391501559313197144156
S - s h a l e , S S - s a n d s t o n e , L-1 i m e s t o n e , D - d o l o m i t e , M - m i x e d , see T a b l e I.
TABLE 14COMPOSITION (NORMALISED %) OF C15+ MATERIAL
) JOB 1948
GEOCHEMSAMPLENUMBER
LT1
TH0
WELL: 7321/9-3
1948-001A1948-002A1948-003A1948-004A1948-005A1948-006A1948-007A1948-008A1948-009A1948-01QA1948-011A
, 1948-012A1 1948-013A1948-014A1948-015A1948-016A1948-017A1948-018A1948-019A1948-020A1948-021A1948-022A1948-023A1948-024A1948-025A1948-026A1948-027A1948-028A1948-029A1948-030A1948-031A1948-032A
v 1948-033A) 1948-034A1948-035A1948-036A1948-037A1948-038A1948-039A1948-040A1948-041A1948-042A
DEPTH/IDENTITY
. CORES
1365.35m1365.50m1365.70m1365.85m1366.05m1366.20m1366.40m1366.65m1366.90m1367.50m1368.50m1369.55m1369.82m1371.50m1372.50m1374.10m1375.35m1375.62m1376.52m1377.50m1378.50m1378.87m1379.50m1380.00m1381.00m1382.00m1383.00m1384.00m1385.25m1386.00m1387.00m1388.00m1389.00m1390.00m1391.00m1392.00m1393.00m1394.00m1395.00m1396.00m1397.00m1398.00m
HYDROCARBONS
Saturates
24.0433.9420.4435.6436.1633.8931.8333.0928.0769.1766.3273.1073.1265.8766.8770.5668.4875.4871.9271.9478.2277.9178.9577.7971.2272.0764.7670.9875.9269.4171.4768.1764.0967.8073.3975.5275.2479.7877.5779.1676.5374.72
Aranatics
8.7.9.19.9.14.16.17.15.8.7.7.6.6.6.8.10.8.8.10.8.9.7.8.8.9.6.7.7.7.9.8.10.6.6.7.7.7.6.6.6.7.
175875509653560380258731912129524774800601071403834863649771217787427270365365768833
NON
Preciptd.Asphaltenes
1223381216212419237141013191811871110667786201231081012161167476911
.98
.47
.36
.58
.24
.89
.95
.34
.43
.03
.85
.85
.11
.23
.92
.09
.91
.58
.83
.62
.93
.24
.75
.49
.83
.84
.03
.56
.62
.41
.77
.03
.63
.95
.37
.97
.44
.44
.50
.52
.04
.45
HYDROCARBONS
ElutedNSO's
53.8533.9430.5031.6636.5329.0526.0230.0532.1515.2810.818.536.668.467.419.4211.807.867.147.046.396.355.856.4710.5211.168.138.2912.1311.959.9612.5312.028.478.279.459.817.938.007.327.356.35
Non-ElutedNSO
010010000000000000000000000000000000000000
•s
.96
.08
.94
.63
.11
.63
.65
.49
.55
.28
.15
.22
.20
.23
.51
.40
.35
.34
.31
.34
.45
.43
.31
.23
.60
.45
.45
.52
.37
.51
.59
.50
.38
.36
.26
.36
.16
.32
.28
.24
.2014
S-5hale, SS-sandstone, L-1 imestone, D-doloraite, M-mixed, see Table 1,
TABLE 15SIC2HFICANT C 1 5 + RATIOS
JOB 1948
GEOCHEMSAMPLENUMBER
LITH0
DEPTH/IDENTITY
TOC
mg/g TOC
TOTALEXTRACT SATURATES ARCMATICS
TOTALHYDROCARBONS
ELUTEDNSO's ASPHALTENES
HYDROCARBONS
TOTAL EXTRACTSATURATESARCMATICS
WELL: 7 3 2 1 / 9 - 1 CORES
1948-001A1948-002A1948-003A1948-004A1948-005A1948-006A1948-007A1948-008A1948-009A1948-010A1948-011A1948-012A1948-013A1948-014A1948-015A1948-016A1948-017A1948-018A1948-019A1948-020A1948-021A1948-022A1948-023A1948-024A1948-025A1948-026A1948-027A1948-028A1948-029A1948-030A1948-031A1948-032A
1365.35m1365.50m1365.70m1365.85m1366.05m1366.20m1366.40m1366.65m1366.90m1367.50m1368.50m1369.55m1369.82m1371.50m1372.50m1374.10m1375.35m1375.62m1376.52m1377.50m1378.50m1378.87m1379.50m1380.00m1381.00m1382.00m1383.00m1384.00m1385.25m1386.00m1387.00m1388.00m
0.230.320.600.790.640.640.590.500.530.540.560.470.400.490.560.610.730.610.590.770.720.210.110.300.180.220.080.080.170.080.080.11
78.98118.7457.8038.3636.9280.1539.3177.9958.24117.61185.39275.42247.65252.66254.84354.78210.72214.67320.31248.20108.21441.77872.06959.33283.78483.85529.34536.41819.81633.14448.91430.28
18.9940.3011.8113.6713.3527.1712.5125.8116.3481.35122.96201.32181.09166.43170.42250.35144.30162.03230.37178.5684.64344.18688.53746.27202.11348.71342.79380.77622.39439.45320.84293.32
6.469.005.637.483.68
. 11.646.5113.289.209.7014.5920.1217.1015.6916.0330.2322.0618.7728.1724.988.6740.0862.2577.0125.0545.8635.0841.0065.3048.8341.3637.74
25.4449.3017.4521.1517.0338.8119.0239.0925.5591.05137.54221.44198.19182.12186.44280.57166.36180.80258.55203.5493.31384.25750.78823.28227.16394.57377.87421.76687.70488.28362.19331.07
42.5340.3017.6312.1413.4923.2910.2323.4318.7317.9720.0423.4916.4921.3818.8933.4324.8616.8622.8717.466.9228.0550.9862.0829.8554.0043.0544.4799.4675.6844.6953.92
10.2527.8622.174.835.9917.559.8115.0913.658.2727.5429.8832.4748.5848.2239.3518.7716.2837.9026.367.5027.5867.6271.8225.0533.11106.0367.4029.6465.9239.3543.14
32.2141.5230.1955.1446.1348.4248.3950.1243.8777.4174.1980.4080.0372.0873.1679.0878.9584.2280.7282.0086.2386.9886.0985.8280.0581.5571.3978.6383.8877.1280.6876.94
2.944.482.101.833.632.331.921.941.788.398.4310.0110.5910.6110.638.286.548.638.187.159.768.5911.069.698.077.609.779.299.539.007.767.77
S-shale, SS-sandstone, L-Iimestone, D-dolomite, M-mixed, see Table 1.
TABLE 15SIGNIFICANT C15+ RATIOS
JOB 1948
GBOCHEMSAMPLENUMBER
LITH0
DEPTH/IDENTITY
TOC
mg/g TOC
TOTALEXTRACT SATURATES AROMATICS
TOTALHYDROCARBONS
ELUTEDNSO's ÅSPHALTENES
HYDROCARBONS
TOTAL EXTRACTSATURATESAROMATICS
1948-033A1948-034A1948-035A1948-036A1948-037A1948-038A1948-039A1948-040A1948-041A1948-042A
1389.00m1390.00m1391.00m1392.00m1393.00m1394.00m1395.00m1396.00m1397.00m1398.00m
0.290.140.170.210.230.140.160.160.160.19
255.30404.94412.40424.71387.02525.20520.71432.32542.35457.06
163.62274.54302.64320.72291.18418.99403.89342.24415.08341.51
27.7625.9827.7132.6928.4839.5734.6429.2237.3033.51
191.38300.52330.35353.41319.66458.56438.53371.45452.38375.03
30.6934.3234.1040.1537.9741.6541.6431.6539.8629.04
32.2568.6346.8929.6028.7823.3239.0628.1749.0152.34
74.9674.2180.1083.2182.5987.3184.2285.9283.4182.05
5.8910.5710.929.8110.2310.5911.6611.7111.1310.19
S - s h a l e , S S - s a n d s t o n e , L - 1 i m e s t o n e , O - d o l o m i t e , M - m i x e d , s e e T a b l e 1 .
TABLE 16COMPOSITION (NORMALISED %) OF C 1 5 + SATURATE (PARAFFIN - NAFHEHENE) HYDROCARBONS
GEOCHEM SAMPLENUMBER
DEPTH
SAMPLE TYPE
nC15nC16nC17nC18nC19nC20nC21nC22nC23nC24nC25nC26nC27nC28nC29nC30nC31nC32nC33nC34nC35
ParaffinIsoprenoidNaphthene
CPI 1 IndexCPI 2 IndexCPI 3 Index
Prist/PhytanePrist/nC17Phytane/nC18
001A
1365.35m
12.398.676.405.933.983.433.583.143.744.434.094.065.4010.205.723.854.222.452.081.270.98
37.814.7758.04
0.940.900.76
1.450.390.29
002A
1365.5m
8.446.205.214.964.224.223.973.974.474.475.465.216.2011.667.694.224.221.491.490.500.00
15.731.7782.49
0.960.980.74
1.850.610.35
003A
1365.7m
6.836.587.685.945.796.235.546.236.686.286.336.687.286.134.392.541.740.850.700.400.30
45.774.3954.72
1.021.071.14
2.140.370.22
004A
1365.85m
7.797.717.417.957.587.616.846.626.636.585.765.064.953.973.081.751.300.520.510.260.14
43.453.0653.49
1.011.101.10
3.100.450.13
005A
1366.05m
6.605.614.754.984.795.205.165.076.206.927.378.417.786.564.933.662.261.631.040.720.36
23.091.9775.41
1.010.991.04
2.080.470.21
006A
1366. 2m
8.617.276.937.887.106.677.287.256.546.325.645.104.313.382.971.872.310.830.920.470.35
40.464.3155.21
1.011.141.02
2.110.510.21
C.P.I. 1 = 1 C21 + C23 + C25 + C27 + C21 + C23 + C25 + C27~% C20 + C22 + C24 + C26 C22 + C24 + C26 + C28
C.P.I. 2 = 1 C25 + C27 + C29 + C31 + C25 + C27 + C29 + C312 C24 + C26 + C28 + C30 C26 + C28 + C30 + C32
1 C.P.I. 3 = 2x (C27)) C26 + C28
CT - ditch cuttings CO - core SWC - sidewail core
Job Number : 1948
TABLE 16(XMPOSITION (NORMALISED %) OF C 1 5 + SATURATE (PARAFFIN - NAFHEHENE) HTOROCAKBCNS
GEOCHEM SAMPLENUMBER
DEPTH
SAMPLE TYPE
nC15nC16nC17nCl8nC19nC20nC21nC22nC23nC24nC25nC26nC27nC28nC29nC30nC31nC32nC33nC34nC35
ParaffinIsoprenoidNaphthene
CPI 1 IndexCPI 2 IndexCPI 3 Index
Prist/PhytanePrist/nC17Phytane/nC18
007A
1366.4m
9.418.077.006.806.936.037.105.766.935.696.266.665.393.983.822.080.670.570.470.230.17
39.903.0657.04
1.111.051.01
2.420.480.20
008A
1366.65m
8.937.257.467.426.726.716.327.086.696.846.475.475.053.853.431.761.300.480.450.220.11
38.695.9955.32
1.001.161.08
2.720.380.14
009A
1366.9m
13.7311.058.908.157.547.127.056.675.434.534.833.903.372.242.081.300.950.430.390.210.12
57.773.5038.73
1.061.181.10
2.150.430.22
010A
1367.5m
6.596.385.916.187.566.707.237.937.407.016.605.684.833.933.272.221.671.030.840.610.42
43.174.2952.52
1.011.071.01
1.590.580.35
011A
1368.5m
7.018.027.696.997.987.917.457.416.996.665.794.544.323.162.721.801.290.770.660.480.35
38.444.6456.90
1.031.121.12
1.59Q.490.33
012A
1369.55m
4.295.956.567.038.928.218.088.837.256.716.335.234.863.402.821.851.360.830.670.480.34
38.234.3957.37
1.011.131.13
1.470.530.33
Job Number : 1948
C.P.I. 1 = 1 C21 + C23 + C25 + C27 + C21 + C23 + C25 + C271 C20 + C22 + C24 + C26 C22 + C24 + C26 + C28
C.P.I. 2 = 1 C25 + C27 + C29 + C31 + C25 +• C27 + C29 + C312 C24 + C26 + C28 + C30 C26 + C28 + C30 + C32
, C.P.I. 3 = 2x (C27)/ C26 + C28
CT - ditch cuttings CO - core SWC - sidewaii core
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TABLE 16OPPOSITION (NORMALISED %) OF C 1 5 + SATURATE (PARAFFIN - NAEHEHENE) HYDROCARBONS
GEOCHEM SAMPLENUMBER
DEPTH
SAMPLE TYPE
nC15nC16nC17nC18nC19nC20nC21nC22nC23nC24nC25nC26nC27nC28nC29nC30nC31nC32nC33nC34nC35
ParaffinIsoprenoidNaphthene
CPI 1 IndexCPI 2 IndexCPI 3 Index
Prist/PhytanePrist/nC17Phytane/nC18
019A
1376.52m
5.667.027.858.007.568.438.068.067.566.976.044.624.563.042.441.601.170.580.420.250.12
37.734.3057.95
1.041.161.19
1.670.560.31
020A
1377.5m
6.277.216.897.337.867.457.547.747.667.216.245.084.703.222.691.571.240.740.620.440.30
35.184.8260.00
1.041.141.13
1.600.470.28
021A
1378.5m
2.704.365.736.857.828.417.447.897.827.566.566.045.594.433.462.561.891.140.850.540.38
36.032.9461.01
0.991.041.07
1.270.510.33
022A
1378.87m
7.236.906.357.977.388.247.237.587.636.426.665.074.793.182.641.741.180.660.530.380.25
34.604.0561.34
1.071.181.16
1.260.530.33
023A
1379.5m
4.855.326.837.717.829.028.418.527.577.075.804.734.443.202.751.941.470.910.730.530.37
38.364.7656.87
1.001.101.12
1.380.530.34
024A
1380m
4.266.226.637.778.437.768.088.718.597.056.274.934.683.182.761.891.310.620.470.270.14
27.782.1070.10
1.061.151.15
1.330.460.29
C.P.I. 1 = 1 C21 + C23 + C25 + C27 + C21 + C23 + C25 + C27? C2O + C22 + C24 + C26 C22 + C24 + C26 + C28
C.P.I. 2 = jL C25 + C27 + C29 + C31 + C25 + C27 + C29 + C312 C24 + C26 + C28 + C30 C26 + C28 + C30 + C32
C.P.I. 3 = 2x (C27)C26 + C28
CT - ditch cuttings CO - core SWC - sidewail core
Job Number : 1948
TABLE 16CCMPOSITION (NORMALISED %) OF C15+ SATURATE (PARAFFIN - NAPHTHENE) HH)ROCARBONS
GEOCHEM SAMPLENUMBER
DEPTH
SAMPLE TYPE
nC15nC16nC17nC18nC19nC20nC21nC22nC23nC24nC25nC26nC27nC28nC29nC30nC31nC32nC33nC34nC35
ParaffinIsoprenoidNaphthene
CPI 1 IndexCPI 2 IndexCPI 3 Index
Prist/PhytanePrist/nC17Phytane/nC18
025A
1381m
5.344.965.547.107.568.798.518.818.537.797.434.805.013.142.761.511.100.510.410.260.13
29.172.7668.05
1.091.291.26
1.520.580.30
026A
1382m
4.966.626.897.928.669.278.308.478.216.355.144.664.373.172.721.691.160.590.460.270.14
26.072.9270.99
1.031.081.12
1.380.570.36
027A
1383m
5.526.266.607.587.858.738.297.487.306.496.395.544.593.293.211.851.310.730.520.310.15
26.922.2270.85
1.051.131.04
1.520.570.32
028A
1384m
2.443.644.715.546.787.207.477.918.258.077.756.176.374.894.192.682.161.291.100.810.60
35.902.5861.50
1.061.151.15
1.240.620.42
029A
1385.25m
4.575.476.416.146.606.946.035.855.905.345.135.555.425.154.813.823.442.382.141.661.26
22.072.4575.48
0.991.031.01
1.580.510.32
030A
1386m
4.045.816.246.427.718.138.348.438.117.126.745.064.833.352.882.051.541.040.890.710.53
39.553.5756.87
1.071.151.15
1.400.520.36
Job Number : 1948
C.P.I. 1 = 1 C21 + C23 + C25 4- C27 + C21 + C23 + C25 + C272 C2O + C22 + C24 + C26 C22 + C24 + C26 + C28
C.P.I. 2 = 1 C25 + C27 + C29 + C31 + C25 + C27 + C29 + C312" C24 + C26 + C28 + C30 C26 + C28 + C30 + C32
C.P.I. 3 = 2x (C27)C26 + C28
CT - ditch cuttings CO - core SWC - sidewaii core
TABLE 16OPPOSITION (NORMALISED %) OF C 1 5 + SATURATE (PARAFFIN - NAPHEHENE) HYDROCARBONS
GEOCHEM SAMPLENUMBER
DEPTH
SAMPLE TYPE
nC15nC16nCl7nC18nC19nC20nC21nC22nC23nC24nC25nC26nC27nC28nC29nC30nC31nC32nC33nC34nC35
ParaffinIsoprenoidNaphthene
CPI 1 IndexCPI 2 IndexCPI 3 Index
Prist/PhytanePrist/nC17Phytane/nC18
031A
1387m
2.854.755.446.917.298.388.077.707.828.446.736.335.424.123.632.371.640.850.650.390.23
26.202.0271.78
0.981.051.04
1.410.560.31
03 2A
1388m
3.544.625.806.538.098.528.8710.158.697.156.515.114.603.113.001.791.440.860.730.520.36
43.643.6852.67
1.031.171.12
1.310.490.33
033A
1389m
4.654.696.196.657.718.198.8710.068.657.046.434.914.823.512.831.801.310.680.520.310.17
29.102.3868.50
1.041.151.14
1.500.470.29
034A
1390m
3.834.635.536.528.038.328.338.998.227.396.795.494.613.532.761.461.561.321.140.830.70
33.012.9264.05
1.011.111.02
1.360.500.31
035A
1391m
2.252.844.045.617.148.018.708.229.578.347.406.255.274.273.712.592.001.311.080.820.59
40.092.58
57.31
1.071.071.00
1.230.550.32
036A
1392m
3.704.385.416.197.228.048.478.048.328.227.296.125.804.063.172.131.420.780.600.390.25
37.243.6159.14
1.061.111.14
1.460.550.28
C.P.I. 1 = 1 C21 + C23 + C25 + C27 + C21 + C23 + C25 + C272 C20 + C22 + C24 + C26 C22 + C24 + C26 + C28
C.P.I. 2 = 1 C25 + C27 + C29 + C31 + C25 + C27 + C29 + C312 C24 + C26 + C28 + C30 C26 + C28 + C3O + C32
C.P.I. 3 = 2x (C27)\ C26 + C28
CT - ditch cuttings CO - core SWC - sidewail core
Job Number : 1948
TABLE 16OPPOSITION (NORMALISED %) OF C15+ SATURATE (PARAFFIN - NAPHEHENE) HYDROCARBONS
GEOCHEM SAMPLENUMBER
DEPTH
SAMPLE TYPE
nC15nC16nC17nC18nCl9nC20nC21nC22nC23nC24nC25nC26nC27nC28nC29nC30nC31nC32nC33nC34nC35
ParaffinIsoprenoidNaphthene
CPI 1 IndexCPI 2 IndexCPI 3 Index
Prist/PhytanePrist/nC17Phytane/nC18
037A
1393m
4.975.606.747.267.838.519.858.918.937.085.724.983.982.972.511.641.160.610.450.270.05
32.512.5364.94
1.081.061.00
1.450.570.37
038A
1394m
6.587.118.519.538.518.608.317.827.355.955.864.493.823.011.701.220.610.500.320.150.05
28.974.5866.44
1.071.061.02
1.660.570.31
039A
1395m
3.714.416.226.238.067.778.778.128.317.156.455.295.293.873.222.251.651.100.920.680.51
41.433.6754.89
1.101.111.16
1.400.530.38
040A
1396m
3.734.895.886.217.987.697.108.277.716.516.855.614.984.273.492.612.161.371.160.890.63
33.293.4563.26
1.011.091.01
1.250.620.46
041A
1397m
3.864.986.186.957.638.728.217.847.667.516.535.175.153.493.112.261.721.070.850.640.45
40.343.5056.15
1.041.141.19
1.360.500.33
042A
1398m
4.465.196.186.557.748.286.837.337.997.576.715.585.494.023.512.441.840.900.730.440.23
30.773.0167.02
1.021.131.14
1.460.590.37
Job Number : 1948
C.P.I. 1 = 1 C21 + C23 + C25 + C27 + C21 + C23 + C25 + C272 C20 + C22 + C24 + C26 C22 + C24 + C26 + C28
C.P.I. 2 = 1 C25 + C27 + C29 + C31 + C25 + C27 + C29 + C312 C24 + C26 + C28 + C30 C26 + C28 + C30 + C32
C.P.I. 3 = 2x (C27)C26 + C28
CT - ditch cuttings CO - core SWC - sidewall core
TABLE 17CARBON ISOTOPE (XMPOSITIONS (>°,PDB)
JOB 1948
GEOCHEMSAMPLENUMBER
DEPTH/IDENTITY
TOTAL EXTRACTWHOLE OIL
SATURATES AROMATICS NSO ASPHALTENES KEROGEN PYROLYSATE(S2)
WELL: 7321/9-1 CORES
1948-001A1948-002A1948-003A1948-004A1948-005A1948-006A1948-007A1948-008A1948-009A1948-011A1948-013A1948-014A1948-015A1948-016A1948-019A1948-021A1948-022A1948-024A1948-026A1948-029A1948-033A1948-036A1948-041A
1365.35m1365.50m1365.70m1365.85m1366.05m1366.20m1366.40m1366.65m1366.90m1368.50m1369.82m1371.50m1372.50m1374.10m1376.52m1378.50m1378.87m1380.00m1382.00m1385.25m1389.00m1392.00m1397.00m
-27.78-27.41-27.08-26.98-27.58-27.11-27.03-27.05-27.00-28.75-28.91-28.89-28.90-28.82-29.04-29.10-29.07-29.42-29.46-28.96-29.16-29.14-29.32
-28.27-28.01-28.43-27.87-28.11-27.87-27.94-28.09-28.63-29.60-29.53-29.69-29.74-29.39-29.78-29.29-29.46-29.85-29.72-29.48-29.75-29.74-29.58
-27.42-27.52-27.47-27.24-27.35-27.02-27.41-27.49-27.27-27.44-27.35-27.54-27.46-27.96-28.12-29.77*-27.53-28.01-27.65-27.67-27.84-27.64-21.11
-27.78-27.50-27.26-27.32-27.36-27.51-27.70-29.09*-27.73-28.06-28.82-27.66-27.55-28.56-27.82-35.99*-27.64-28.70*-28.45-27.55-31.09*-27.77-28.17
-26.41-26.82-28.30 *-26.69-27.03-26.89-26.41-26.57-26.7327.25
-26.60-28.15-27.16-26.89-27.57-26.92-26.41-27.59-27.47-27.63-27.55-27.31-27.74
-26.36
-26.14
-26.23
-25.59
* small sample weight, treat data with caution