Formation, distribution, potential and prediction of global conventional and unconventional hydrocarbon resources

Formation, distribution, potential and prediction of global conventional and unconventional hydrocarbon resources

Since the Neoproterozoic, two important cycles of separation and junction of the Rodinia and Pangea supercontinents controlled the formation of the Tethys, Laurasia, Gondwana and Pacifica domains, as well as the sedimentary basin types including craton, passive margin, rift, foreland, fore-arc, and...

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Main Authors: Caineng ZOU, Guangming ZHAI, Guangya ZHANG, Hongjun WANG, Guosheng ZHANG, Jianzhong LI, Zhaoming WANG, Zhixin WEN, Feng MA, Yingbo LIANG, Zhi YANG, Xin LI, Kun LIANG
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2015-02-01
Series:Petroleum Exploration and Development
Online Access:http://www.sciencedirect.com/science/article/pii/S1876380415600027
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language English
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author Caineng ZOU
Guangming ZHAI
Guangya ZHANG
Hongjun WANG
Guosheng ZHANG
Jianzhong LI
Zhaoming WANG
Zhixin WEN
Feng MA
Yingbo LIANG
Zhi YANG
Xin LI
Kun LIANG
spellingShingle Caineng ZOU
Guangming ZHAI
Guangya ZHANG
Hongjun WANG
Guosheng ZHANG
Jianzhong LI
Zhaoming WANG
Zhixin WEN
Feng MA
Yingbo LIANG
Zhi YANG
Xin LI
Kun LIANG
Formation, distribution, potential and prediction of global conventional and unconventional hydrocarbon resources
Petroleum Exploration and Development
author_facet Caineng ZOU
Guangming ZHAI
Guangya ZHANG
Hongjun WANG
Guosheng ZHANG
Jianzhong LI
Zhaoming WANG
Zhixin WEN
Feng MA
Yingbo LIANG
Zhi YANG
Xin LI
Kun LIANG
author_sort Caineng ZOU
title Formation, distribution, potential and prediction of global conventional and unconventional hydrocarbon resources
title_short Formation, distribution, potential and prediction of global conventional and unconventional hydrocarbon resources
title_full Formation, distribution, potential and prediction of global conventional and unconventional hydrocarbon resources
title_fullStr Formation, distribution, potential and prediction of global conventional and unconventional hydrocarbon resources
title_full_unstemmed Formation, distribution, potential and prediction of global conventional and unconventional hydrocarbon resources
title_sort formation, distribution, potential and prediction of global conventional and unconventional hydrocarbon resources
publisher KeAi Communications Co., Ltd.
series Petroleum Exploration and Development
issn 1876-3804
publishDate 2015-02-01
description Since the Neoproterozoic, two important cycles of separation and junction of the Rodinia and Pangea supercontinents controlled the formation of the Tethys, Laurasia, Gondwana and Pacifica domains, as well as the sedimentary basin types including craton, passive margin, rift, foreland, fore-arc, and back-arc basins. Sixty-eight percent of the discovered reserves are from the Tethys domain, while 49% of the undiscovered possible reserves are in passive margin basins. Six major sets of source rocks, two types of reservoirs (carbonates and clastics), and two regional seals (shale and evaporite) formed in global evolution of basins. Ten patterns are summarized from the above factors controlling the distribution of global hydrocarbon resources. (1) Conventional-unconventional hydrocarbon is accumulated “orderly”. (2) Distribution of Tethys controls the accumulation of the global hydrocarbons. (3) Foreland thrusting zones control the distribution of structural oil/gas fields; (4) Intra-craton uplifts control the distribution of giant oil/gas fields; (5) Platform margins control the banded distribution of giant organic reef and bank type oil/gas fields. (6) Passive margins control the distribution of giant marine oil/gas fields. (7) Foreland deep slopes control the occurrence of large scale heavy oil and bitumen. (8) Basin deposition slopes control the accumulation of tight oil & gas and coalbed methane. (9) Organic rich deep basin sediments control the retention of shale oil and gas. (10) Low temperature and high pressure seafloor sediments control the distribution of hydrate. The conventional/unconventional resources ratio is 2:8. The conventional resources are mainly distributed in the Middle East, Russia, North America, and Latin America. The unconventional resources are mainly distributed in North America, Asia Pacific, Latin America, and Russia. According to the ten trends of global petroleum industry, hydrocarbon exploration is mainly focused on marine deep water, onshore deep layer, and unconventional oil & gas. The peak of oil production will probably come around 2040, and the life span of petroleum industry will last another 150 years. Renewable energy will replace fossil energy, not for the exhaustion of fossil energy, but because it is cheaper and cleaner. Key words: unconventional petroleum geology, orderly accumulation, distribution pattern, tight oil and gas, shale oil and gas, Anyue gas field, Fuling shale gas field, life cycle, renewable energy
url http://www.sciencedirect.com/science/article/pii/S1876380415600027
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spelling doaj-a44a3219b5ed49a89ab0e2f4f1106f7f2021-02-02T06:27:29ZengKeAi Communications Co., Ltd.Petroleum Exploration and Development1876-38042015-02-014211428Formation, distribution, potential and prediction of global conventional and unconventional hydrocarbon resourcesCaineng ZOU0Guangming ZHAI1Guangya ZHANG2Hongjun WANG3Guosheng ZHANG4Jianzhong LI5Zhaoming WANG6Zhixin WEN7Feng MA8Yingbo LIANG9Zhi YANG10Xin LI11Kun LIANG12PetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, China; Corresponding authorChinese Petroleum Corporation Advisory Center, Beijing 100724, ChinaPetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, ChinaPetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, ChinaPetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, ChinaPetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, ChinaPetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, ChinaPetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, ChinaPetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, ChinaPetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, ChinaPetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, ChinaPetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, ChinaPetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, ChinaSince the Neoproterozoic, two important cycles of separation and junction of the Rodinia and Pangea supercontinents controlled the formation of the Tethys, Laurasia, Gondwana and Pacifica domains, as well as the sedimentary basin types including craton, passive margin, rift, foreland, fore-arc, and back-arc basins. Sixty-eight percent of the discovered reserves are from the Tethys domain, while 49% of the undiscovered possible reserves are in passive margin basins. Six major sets of source rocks, two types of reservoirs (carbonates and clastics), and two regional seals (shale and evaporite) formed in global evolution of basins. Ten patterns are summarized from the above factors controlling the distribution of global hydrocarbon resources. (1) Conventional-unconventional hydrocarbon is accumulated “orderly”. (2) Distribution of Tethys controls the accumulation of the global hydrocarbons. (3) Foreland thrusting zones control the distribution of structural oil/gas fields; (4) Intra-craton uplifts control the distribution of giant oil/gas fields; (5) Platform margins control the banded distribution of giant organic reef and bank type oil/gas fields. (6) Passive margins control the distribution of giant marine oil/gas fields. (7) Foreland deep slopes control the occurrence of large scale heavy oil and bitumen. (8) Basin deposition slopes control the accumulation of tight oil & gas and coalbed methane. (9) Organic rich deep basin sediments control the retention of shale oil and gas. (10) Low temperature and high pressure seafloor sediments control the distribution of hydrate. The conventional/unconventional resources ratio is 2:8. The conventional resources are mainly distributed in the Middle East, Russia, North America, and Latin America. The unconventional resources are mainly distributed in North America, Asia Pacific, Latin America, and Russia. According to the ten trends of global petroleum industry, hydrocarbon exploration is mainly focused on marine deep water, onshore deep layer, and unconventional oil & gas. The peak of oil production will probably come around 2040, and the life span of petroleum industry will last another 150 years. Renewable energy will replace fossil energy, not for the exhaustion of fossil energy, but because it is cheaper and cleaner. Key words: unconventional petroleum geology, orderly accumulation, distribution pattern, tight oil and gas, shale oil and gas, Anyue gas field, Fuling shale gas field, life cycle, renewable energyhttp://www.sciencedirect.com/science/article/pii/S1876380415600027

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