shale analysis and basin mapping - ccop.asiaccop.asia/uc/data/39/docs/2-kook-ucm4r.pdfsample list...
TRANSCRIPT
SHALE ANALYSIS AND BASIN MAPPING
by Byeong-Kook Son
from KOREA INSTITUTE OF GEOSCIENCE AND
MINERAL RESOURCES (KIGAM)
CCOP-KIGAM UnCon-M4 Coordinators Meeting and Workshop
Mineral content determination by X-ray powder diffraction (XRD) with Siroquant Software
Organic Properties determined by Rock-Eval Pyrolyis
l TOC l Kerogen Type l Maturity
CRUDE ROCK MineralsKerogenGasOil
PYROLYSIS UNDERINERT CONDITION
OXIDATION
Residual Kerogen
He
O2
CO2
600 C
300 C
600 C
F.I.D.
T.C.D.
HCS0
S4
S1
S2
PYROLYZED ORG.C
RESIDUAL ORG.C
TOTAL ORG.C
Tmax
SHALE SAMPLES FROM EACH COUNTRY
SHALE SAMPLES FROM EACH COUNTRY
SAMPLE LIST Specimen
No. Country Basin Formation Age Remark
I-1 Indonesia Jambi Sub-basin, part of South Sumatra Basin Talangakar Formation Early Miocene
I-2 Indonesia Jambi Sub-basin, part of South Sumatra Basin Talangakar Formation Early Miocene
I-2 Indonesia Jambi Sub-basin, part of South Sumatra Basin Talangakar Formation Early Miocene
J-1 Japan Akita Basin Onnagawa Formation Late Miocene YZ-8, Yuza GS-1, 2817.8
J-2 Japan Akita Basin Onnagawa Formation Late Miocene YZ-8, Yuza GS-1, 2815.2
J-3 Japan Akita Basin Onnagawa Formation Late Miocene NS-9 Noshiro GS-1, 3509
P-1 Philippines Ilocos-Central Luzon Basin Amlang Formation Late Miocene- Early Pliocene
V-1 Vietnam An Chau Basin Langson Formation Early Triassic
M-1 Malaysia Sarawak Basin (onshore) Setap Shale Early Miocene
M-2 Malaysia Sarawak Basin (onshore) Setap Shale Early Miocene
M-3 Malaysia Sarawak Basin (onshore) Setap Shale Early Miocene
M-4 Malaysia Sarawak Basin (onshore) Setap Shale Early Miocene
L-1 Lao PDR Xekong-1block Basin Khorat Group Jurassic
L-2 Lao PDR Xekong-1block Basin Khorat Group Jurassic
C-1 Cambodia Tonsle Sap Basin Triassic
C-2 Cambodia Tonsle Sap Basin Triassic
C-3 Cambodia Tonsle Sap Basin Triassic
T-1 Thailand Sakon Basin Kuchinarai Triassic
T-2 Thailand Sakon Basin Kuchinarai Triassic
T-3 Thailand Sakon Basin Kuchinarai Triassic T-4 Thailand Sakon Basin Kuchinarai Triassic T-5 Thailand Sakon Basin Kuchinarai Triassic
TOC(wt%)0 0.5 1 1.5 2 2.5 3 3.5 4 4.5
C-1
C-2
C-3
I-1
I-2
I-3
J-1
J-2
J-3
L-1
L-2
M-1
M-2
M-3
M-4
T-1
T-2
T-3
T-4
T-5
V-1
P-1
Cambodia
Indonesia
Malaysia
Thailand
Japan
LaoPDR
Philippines
Vietnam OrganicGeochemistryTotalOrganicCarbon(TOC)
Coalyshale(TOC:21.5wt%)
Tmax
Cambodia
Indonesia
Malaysia
Thailand
Japan
LaoPDR
Philippines
Vietnam
0 100 200 300 400 500 600 700
C-1
C-2
C-3
I-1
I-2
I-3
J-1
J-2
J-3
L-1
L-2
M-1
M-2
M-3
M-4
T-1
T-2
T-3
T-4
T-5
V-1
P-1
Overmature(?)Good
Bad
Bad
Bad
Tmax
Cambodia
Indonesia
Malaysia
Thailand
Japan
LaoPDR
Philippines
Vietnam
0 100 200 300 400 500 600 700
C-1
C-2
C-3
I-1
I-2
I-3
J-1
J-2
J-3
L-1
L-2
M-1
M-2
M-3
M-4
T-1
T-2
T-3
T-4
T-5
V-1
P-1
Overmature(?)Bad
Bad
Bad
Good
Tmax
Cambodia
Indonesia
Malaysia
Thailand
Japan
LaoPDR
Philippines
Vietnam
0 100 200 300 400 500 600 700
C-1
C-2
C-3
I-1
I-2
I-3
J-1
J-2
J-3
L-1
L-2
M-1
M-2
M-3
M-4
T-1
T-2
T-3
T-4
T-5
V-1
P-1
Overmature(?)
Bad
Good
Good
Good
Tmax
Cambodia
Indonesia
Malaysia
Thailand
Japan
LaoPDR
Philippines
Vietnam
0 100 200 300 400 500 600 700
C-1
C-2
C-3
I-1
I-2
I-3
J-1
J-2
J-3
L-1
L-2
M-1
M-2
M-3
M-4
T-1
T-2
T-3
T-4
T-5
V-1
P-1
Overmature(?)
Good
Good
Good
Tmax
Cambodia
Indonesia
Malaysia
Thailand
Japan
LaoPDR
Philippines
Vietnam
0 100 200 300 400 500 600 700
C-1
C-2
C-3
I-1
I-2
I-3
J-1
J-2
J-3
L-1
L-2
M-1
M-2
M-3
M-4
T-1
T-2
T-3
T-4
T-5
V-1
P-1
Overmature(?)
Good
Good
Bad
Tmax
Cambodia
Indonesia
Malaysia
Thailand
Japan
LaoPDR
Philippines
Vietnam
0 100 200 300 400 500 600 700
C-1
C-2
C-3
I-1
I-2
I-3
J-1
J-2
J-3
L-1
L-2
M-1
M-2
M-3
M-4
T-1
T-2
T-3
T-4
T-5
V-1
P-1
Overmature(?)
Bad
Bad
Good
Tmax
Cambodia
Indonesia
Malaysia
Thailand
Japan
LaoPDR
Philippines
Vietnam OrganicGeochemistryMaturity
300 400 500 600
C-1
C-2
C-3
I-1
I-2
I-3
J-1
J-2
J-3
L-1
L-2
M-1
M-2
M-3
M-4
T-1
T-2
T-3
T-4
T-5
V-1
P-1
OvermatureImmature Mature
OrganicGeochemistryKerogenType
Cambodia
Philippines
Vietnam
Thailand
Malaysia
LaoPDR
Japan
Inodnesia
MineralQuanNficaNon Country Sample
no. Quartz Feldspar Carbonate Clay MicaAlbite MicroclineDolomite Calcite Kaolin smecOte Chlorite illite Total Muscovite
CambodiaC1 2.1 2.4 91.5 4 95.5 C2 29.7 20.1 5 17.4 17 39.4 10.7C3 8.1 91.8
Country sampleno. Quartz Feldspar Carbonate Clay Mica
Albite MicroclineDolomite Calcite Kaolin smecOte Chlorite illite Total Muscovite
IndonesiaI1 28.2 19.2 2.4 9.9 7.5 21.4 38.8 11.3I2 31.6 1.8 5.6 34.8 0.9 16.3 52 8.9I3 22.2 3.1 4.5 44.3 25.8 70.1
Country Sampleno. Quartz Feldspar Carbonate Clay Mica
Albite Microcline Dolomite Calcite Kaolin smecOte Chlorite illite Total Muscovite
Malaysia
M1 29 3.2 4.3 13.1 11.1 21.1 45.3 18.2M2 54.8 9.7 5 7.8 7.6 10 25.4 5.2M3 29.5 4.3 6.3 19.7 10.7 17 47.4 12.5M4 55.5 9.2 1.4 7.2 9.2 10.7 27.1 6.6
Country Sampleno. Quartz Feldspar Carbonate Clay Mica
Albite Microcline Dolomite Calcite Kaolin smecOte Chlorite illite Total MuscovitePhilippines P1 7.6 21.4 5.7 13.7 41 10.6 51.6
Country sampleno. Quartz Feldspar Carbonate Clay Mica
Albite Microcline Dolomite Calcite Kaolin smecOte Chlorite illite Total MuscoviteVietnam V1 34.9 3.6 5.9 25.9 13.7 45.5 16.1
Country sampleno. Quartz Feldspar Carbonate Clay Mica Halloysite JarositeAlbite Microcline Dolomite Calcite Kaolin smecOte Chlorite illite Total Muscovite
Thailand
T1 51 8.1 8.1 24.8 16.1T2 6.1 14.8 3.9 42.7 10.1 11.1 5.9 17 5.4T3 70 18.6 5.4 5.4 6T4 14.5 85.5T5 1.6 5.8 1.7 4.7 82.8 3.3 3.3
Country Sampleno. Quartz Feldspar Carbonate Clay Mica
Albite Microcline Dolomite Calcite Kaolin smecOte Chlorite illite Total Muscovite Halloysite Pyrophyllite
LaoPDRL1 75.4 17.4 7.2L2 18.1 49.2 8.1 24.5
Country sampleno. Quartz Feldspar Carbonate Clay Mica
Albite Microcline Dolomite Calcite Kaolin smecOte Chlorite Illite total Muscovite
Japan J1 42.6 4.6 39.7 44.3 13.1 J2 50.9 2.9 35.9 38.8 10.3 J3 50.2 1 36.1 37.1 12.7
0 20 40 60 80 100
C1C2C3
I1I2I3
J1J2J3
L1L2
M1M2M3M4
T1T2T3T4T5
V1
P1
Cambodia
Indonesia
Malaysia
Thailand
LaoPDR
Philippines
Vietnam
Quartz(wt%) Clay(wt%) BI
Mineralogy-basedbriSlenesspredicNon• Jarvie(2007):BI=Quartz/Quartz+Calcite+Clay
0 0.2 0.4 0.6 0.8 1
C1C2C3
I1I2I3
J1J2J3
L1L2
M1M2M3M4
T1T2T3T4T5
V1
P1
0 20 40 60 80 100
C1C2C3
I1I2I3
J1J2J3
L1L2
M1M2M3M4
T1T2T3T4T5
V1
P1
Japan
0 0.2 0.4 0.6 0.8 1
1
0.8
0.6
0.4
0.2
01
0.8
0.6
0.4
0.2
0
CambodiaInodesiaMalaysiaJapanThailandLao PDRPhilippineVietnam
Carbonateminerals
Clayminerals
Quartz+Feldspar
calcareousordolomitemudstone
argillaceousmarlstone
siliceousmarlstone
argillaceousmudstone
siliceousmudstone
TERNARY PLOT
Ternary Plot of US Shale
Carbonateminerals
0 0.2 0.4 0.6 0.8 1
1
0.8
0.6
0.4
0.2
01
0.8
0.6
0.4
0.2
0
CambodiaInodesiaMalaysiaJapanThailandLao PDRPhilippineVietnam
Clayminerals
Quartz+Feldspar
calcareousordolomitemudstone
argillaceousmarlstone
siliceousmarlstone
argillaceousmudstone
siliceousmudstone
Comparison with US Shales
Country Count TOC(wt%) KerogenType Tmax(℃) Claymineral(%)
Philippine 1 0.32 TypeIII 423 51.6
Vietnam 1 0.5 TypeIII 45.5
Thailand 5 0.1-21.5(av.5.2) TypeIII 565 0-17
(av.6.8)
Malaysia 4 0.2-0.70(av.0.4) TypeIII 432-438 25.4-45.3
(av.36.3)
LaoPDR 2 0.2-0.6(av.0.4) TypeIII 0-7.2
(av.3.6)
Japan 3 1.4-1.9(av.1.6) TypeII 413-432 37.1-44.3
(av.40.1)
Indonesia 3 0.2-2.4(av.1.4) TypeIII 424-434 38.8-70.1
(av.53.6)
Cambodia 3 0.3-4.1(av.1.8) TypeIII 444 0-95.5(av.45.0)
SOURCE ROCK SAMPLING
l Many of samples are unclear for representative source rock of shale basins in terms of sample locations
l Source rock samples should be taken carefully from outcrops or drill holes, considering basin feature and geology
WORKS in project l Mapping – volume calculation l Characterization – sweet spot areas determination l Assessment – resources calculation
Preliminary SHALE BASINS MAP OF ASIA
§ Integrated basins map of Asia showing the potential shale oil/gas regions
1. Map geographic boundaries of basins that have potentials of shale gas/oil.
2. Map potential shale oil/gas formations in the basins 3. Draw a representative cross section of each basin to
clarify the potential shale oil/gas strata 4. Integrate and map all the basins on a GIS basis 5. Describe each basin with shale property 6. Publish an integrated shale oil/gas potential map with a
text of description
BASIN MAPPING AND CROSS SECTION
l First, draw geographic extents of each basin on the country map using existing basin maps with XY coordinates
l ex) Basin map of Argentina
BASIN MAPPING AND CROSS SECTION
l Draw major formation boundaries in the basins with XY coordinates, especially, potential shale formations
l Draw major cross section with a particular emphasis on the potential shale strata
GIS MAPPING
l by KIGAM using QGIS, which is a cross-platform free and open- source desktop geographic information system (GIS) application that provides data viewing, editing, and analysis
l QGIS can be downloaded at www.qgis.org
DESCRIPTION of each formation in basins
l Make a report and publication Ø Write about each basin and shale formations with analyzed TOC and mineralogy data
Ø Then, we will be able to go to the next step, resources calculation
THANK YOU FOR ATTENTION!
CCOP-KIGAM UnCon-M4 Siem Reap, 7-8 March 2016