China Petroleum Exploration ›› 2022, Vol. 27 ›› Issue (2): 119-130.DOI: 10.3969/j.issn.1672-7703.2022.02.011
Previous Articles Next Articles
Zhu Houqin,Hong Guoliang,Bai Zhenhua
Online:
2022-03-15
Published:
2022-03-15
CLC Number:
Zhu Houqin, Hong Guoliang, Bai Zhenhua. Geological characteristics and oil and gas exploration potential in Sumatra Basin[J]. China Petroleum Exploration, 2022, 27(2): 119-130.
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.cped.cn/EN/10.3969/j.issn.1672-7703.2022.02.011
[1] 祝厚勤,洪国良,孔祥文,等. 海外成熟探区勘探实践:以南苏门答腊盆地Jabung 区块为例[M]. 北京:石油工业出版社,2019:2-18. Zhu Houqin, Hong Guoliang, Kong Xiangwen, et al. Exploration practice in mature exploration areas overseas: a case study of Jabung block in south Sumatra Basin[M]. Beijing: Petroleum Industry Press, 2019:2-18. [2] 杨福忠,薛良清,洪国良,等. 南苏门答腊弧后裂谷盆地成藏组合特征及勘探实践[M]. 北京:石油工业出版社,2015:1-29. Yang Fuzhong, Xue Liangqing, Hong Guoliang, et al. Play characteristics and exploration practice in south Sumatra backarc basin[M]. Beijing: Petroleum Industry Press, 2015:1-29. [3] 朱伟林,胡平,江文荣,等. 南亚—东南亚含油气盆地[M]. 北京:科学出版社,2012:9-70. Zhu Weilin, Hu Ping, Jiang Wenrong, et al. South Asia -Southeast Asia petroliferous basin[M]. Beijing: Science Press,2012:9-70. [4] Daly M C, Hooper B G D, Smith D G. Tertiary plate tectonics and basin evolution in Indonesia[C]. IPA, 16th Annual Convention Proceedings, 1987:399-428. [5] 雪鱼. 中新—上新世构造运动对东南亚岛弧带油气成藏控制作用研究[D]. 北京:中国石油大学(北京),2018. Xue Yu. Research on the effect of Miocene-Pliocene tectonic movement on hydrocarbon accumulation in Southeast Asia island arc[D]. Beijing: China University of Petroleum(Beijing),2018. [6] Zhu Houqin, Ma Yuxia, Hong Guoliang, et al. Seismic geomorphology of the LTAF Formation in JB block, south Sumatra Basin[C]// Lin Jia’en. International Field Exploration and Development Conference 2018. Singapore: Springer Nature, 2019: 1076-1086. [7] Zhu Houqin, Ma Yuxia, Hong Guoliang, et al. Identification of LTAF lithologic traps in western uplift belt of JB block in south Sumatra Basin [C]// Lin Jia’en. International Field Exploration and Development Conference 2019. Singapore: Springer Nature, 2020: 3235-3245. [8] Zhu Houqin, Li Zenghui, Ma Yuxia, et al. Sedimentary facies of T structure in J block of south Sumatra Basin, Indonesia [C]// Lin Jia’en. International Field Exploration and Development Conference 2020. Singapore: Springer Nature, 2021:1499-1506. [9] Doust H, Sumner H S. Petroleum systems in rift basinsa collective approach in Southeast Asian basins[J]. Petroleum Geoscience, 2007,13(2):127-144. [10] IHS Energy. Sumatra Basin[DB/OL]. IHS Basin Monitor, 2016. [11] Barber J, Crow M J, Desmet M E M. Tertiary palaeogeography of Sumatra [C]//Barber A J, Crow M J, Milsom J S. Sumatra: Geology, Resources and Tectonic Evolution. London: The Geological Society, 2005:249-254. [12] Daly M C, Cooper M A, Wilson I. Cenozoic plate tectonics and basin evolution in Indonesia[J]. Marine and Petroleum Geology, 1991,8(1):1-20. [13] Barber A J, Crow M J. An evaluation of plate tectonic models for the development of sumatra[J]. Gondwana Research, 2003,6(1):1-28. [14] Longley I M. The tectonostratigraphic evolution of SE Asia[C]// Fraser A J, Matthews S J, Murphy R W. Petroleum Geology of Southeast Asia. London: The Geological Society, 1997:311-340. [15] Mccarthy A J, Elders C F. Cenozoic deformation in Sumatra: oblique subduction and the development of Sumatran Fault System[C]// Fraser A J, Matthews S J, Murphy R W. Petroleum Geology of Southeast Asia. London: The Geological Society, 1997:355-364. [16] Howells C. Tertiary response to oblique subduction and indentation in Sumatra, Indonesia: new ideas for hydrocarbon exploration[C]// Fraser A J, Matthews S J, Murphy R W. Petroleum Geology of Southeast Asia. London: The Geological Society, 1997:365-374. [17] Metcalfe I. Pre-Cretaceous evolution of SE Asian terranes[C]// Robert H, Derek B. Tectonic Evolution of Southeast Asia. London: The Geological Society, 1996:97-122. [18] Packham G. Cenozoic SE Asia: reconstructing its aggregation and reorganization[C]// Robert H, Derek B. Tectonic Evolution of Southeast Asia. London: The Geological Society, 1996:122-152. [19] Hall R. Reconstructing Cenozoic SE Asia[C]// Robert H, Derek B. Tectonic Evolution of Southeast Asia. London: The Geological Society, 1996:152-184. [20] Heri S. Less-explored Oligocene syn-rift sediment in the western boundary of Central Sumatra Basin[C]. IPA, 43th Annual Convention Proceedings, 2019:47-57. [21] 姚永坚,吕彩丽,康永尚,等. 东南亚地区烃源岩特征与主控因素[J].地球科学,2013,38(2):367-378. Yao Yongjian , Lv Caili , Kang Yongshang , et al. Characteristics of hydrocarbon source rock and their main controlling factors in Southeast Asia[J]. Earth Science, 2013,38(2):367-378. [22] Kevin M R. An overview of source rocks and oils in Indonesia[C]. IPA, 16th Annual Convention Proceedings, 1987:97-122. [23] Awang H S. Regional petroleum geochemistry of Indonesian basins: updated, and implications for future exploration[C]. IPA, 41th Annual Convention Proceedings, 2017:603-635. [24] Rodriguez N D, Philp R P. Source rock facies distribution predicted from oil geochemistry in the Central Sumatra Basin, Indonesia[J]. AAPG, 2015,99(11):2005-2022. [25] Dousta H, Nobleb R A. Petroleum systems of Indonesia[J]. Marine and Petroleum Geology, 2008,25(2):103-129. [26] Todd S P, Dunn M E, Barwise A J G. Characterizing petroleum charge systems in the Tertiary of SE Asia[C]// Fraser A J, Matthews S J, Murphy R W. Petroleum Geology of Southeast Asia. London: The Geological Society, 1997:25-48. [27] Chris S. Exploring the lake basins of east and Southeast Asia[C]// Fraser A J, Matthews S J, Murphy R W. Petroleum Geology of Southeast Asia. London: The Geological Society, 1997:49-76. [28] Awang H S. Future petroleum play types of Indonesia: regional overview[C]. IPA, 41th Annual Convention Proceedings, 2017,554-587. [29] Harold H W, Roger T E. Hydrocarbon habitat in the rift graben of the Central Sumatra Basin, Indonesia [C]//Lambiase J J. Hydrocarbon Habitat in Rift Basins. London: The Geological Society, 1995:331-371. [30] Howes J V C, Tisnawijaya S. Indonesian petroleum systems, reserve additions and exploration efficiency[C]. IPA, 24th Annual Convention Proceedings, 1995:1-17. [31] 薛良清,杨福忠,马海珍.南苏门达腊盆地中国石油合同区块成藏组合分析[J]. 石油勘探与开发,2005,32(3):130-134. Xue Liangqin, Yang Fuzhong, Ma Haizhen. Petroleum play analysis of the Petrochina contract block in the south Sumatra Basin[J]. Petroleum Exploration and Development, 2005,32(3):130-134. [32] Doust H, Lijmbach G. Charge constraints on the hydrocarbon habitat and development of hydrocarbon systems in Southeast Asia tertiary basins[C]. IPA , 26th Annual Convention Proceedings, 1997:115-125. [33] David G, Kevin F. The petroleum systems and future potential of the south Sumatra Basin[C]. IPA, 30th Annual Convention Proceedings, 2005:67-89. [34] Kelley P A, Mertani B, Williams H H. Brown shale formation: paleogene lacustrine source rocks of central Sumatra[C]//Ginsburg R N. Petroleum Source Rocks. London: Springer, 1995:283-308. [35] 黄众,胡孝林,郭刚,等. 苏门答腊裂谷盆地带构造分带及其成藏模式[J]. 海洋地质前沿,2018,34(8):61-67. Huang Zhong, Hu Xiaolin, Guo Gang, et al. Structural zonation and hydrocarbon accumulation model of the Sumatra back arc rift basin[J]. Marine Geology Frontiers, 2018,34(8):61-67. [36] 毛治国, 樊太亮, 刘亚明, 等. 南苏门答腊盆地北部新生代层序地层格架及有利储层分布[J]. 中南大学学报(自然科学版),2007,38(6):1225-1231. Mao Zhiguo, Fan Tailiang, Liu Yaming, et al. Phanerozoic sequence stratigraphic framework and reservoir distribution in the north of south Sumatra Basin[J]. Journal of Central South University (Science and Technology), 2007,38(6):1225-1231. [37] 毛治国,樊太亮,王宏语,等. 层序地层格架下岩性—地层油气藏成藏与分布:以南苏门答腊盆地北部为例[J]. 石油勘探与开发,2009,36(1):120-127. Mao Zhiguo, Fan Tailiang, Wang Hongyu, et al. Formation and distribution of litho-stratigraphic reservoirs inside sequencestratigraphic framework, north of south Sumatra Basin[J]. Petroleum Exploration and Development, 2009,36(1):120-127. [38] Awang H S. Giant fields of Indonesia: play types, geological factors, and prospectivities of future giant fields[C]. IPA, 43th Annual Convention Proceedings, 2019:271-303. |
[1] | Sun Jianbo, Hao Shiyan, Zhao Qianping, Luo Tengyue, Jiang Lei, Gao Chao, Guo Chao, Yin Jintao, Liu Gang, Xu Jie. Reservoir characteristics and key technologies for shale gas exploration and development of the first member of the Permian Shanxi Formation in Yan’an area [J]. China Petroleum Exploration, 2022, 27(3): 110-120. |
[2] | Zhu Houqin, Hong Guoliang, Bai Zhenhua. Geological characteristics and oil and gas exploration potential in Sumatra Basin [J]. China Petroleum Exploration, 0, (): 1-. |
[3] | He Wenyuan, He Haiqing, Wang Yuhua, Cui Baowen, Meng Qi’an, Guo Xujie, Bai Xuefeng, Wang Youzhi. Major breakthrough and significance of shale oil of the Jurassic Lianggaoshan Formation in Well Ping’an 1 in northeastern Sichuan Basin [J]. China Petroleum Exploration, 2022, 27(1): 40-49. |
[4] | Li Jian, Zeng Xu, Tian Jixian, She Yuanqi, Cheng Honggang, Xie Wuren. Main controlling factors of gas accumulation and exploration target of large onshore gas fields in China [J]. China Petroleum Exploration, 2021, 26(6): 1-20. |
[5] | Liang Xing, Zhang Jiehui, Zhang Hanbing, Xu Zhengyu, Zhang Dongtao, Zhu Douxing. Major discovery and high-efficiency development strategy of shallow shale gas:a case study of Taiyang shale gas field [J]. China Petroleum Exploration, 2021, 26(6): 21-37. |
[6] | Guo Xujie, Zhi Dongming, Mao Xinjun, Wang Xiaojun, Yi Shiwei, Zhu Ming, Gan Renzhong, Wu Xueqiong. Discovery and significance of coal measure gas in Junggar Basin [J]. China Petroleum Exploration, 2021, 26(6): 38-49. |
[7] | Wen Long, Wang Hua, Xu Liang, Zhang Ya, Yuan Haifeng, Chen Shuangling, Qiao Yanping, Shen Chen. Characteristics and main controlling factors of gas accumulation of the Middle Permian Qixia Formation in western Sichuan Basin [J]. China Petroleum Exploration, 2021, 26(6): 68-81. |
[8] | Yang Chunlong, Su Nan, Rui Yurun, Zheng Yue, Wang Xiaobo, Zhang Yuqing, Jin Hui. Gas accumulation conditions and exploration potential of tight gas reservoir of the Middle Jurassic Shaximiao Formation in Sichuan Basin [J]. China Petroleum Exploration, 2021, 26(6): 98-109. |
[9] | Zhang Chunlin, Zhang Jiaqi, Song Zezhang, Jiang Fujie, Fan Liyong, Pei Yu. Gas accumulation conditions and resource potential in coal measure strata of the Permian Shanxi Formation in the eastern Ordos Basin [J]. China Petroleum Exploration, 2021, 26(6): 110-124. |
[10] | Ren Junfeng, Liu Xinshe, Yu Jian, Wei Liubin, Wang Qianping. Characteristics of natural gas accumulation and exploration target of the Ordovician subsalt in the central and eastern Ordos Basin [J]. China Petroleum Exploration, 2021, 26(6): 125-140. |
[11] | Zhang Lu, Li Jian, Song Yong, Chen Shijia, Lu Jungang, Guo Jianying, Zeng Yuan, Cui Huiying. Gas accumulation characteristics and exploration potential of the Carboniferous volcanic rocks in Junggar Basin [J]. China Petroleum Exploration, 2021, 26(6): 141-151. |
[12] | Niu Chengmin, Yu Haibo, Hu Anwen, Ye Tao, Qin Dehai, Hua Xiaoli, Liang Shuyi. Main controlling factors of natural gas accumulation and favorable exploration target in Bozhong Depression, Bohai Bay Basin [J]. China Petroleum Exploration, 2021, 26(6): 152-164. |
[13] | Tian Han, Wang Guiwen, Duan Shufu, Xin Yongguang, Zhang Hao. Reservoir characteristics and exploration target of the Middle Triassic Leikoupo Formation in Sichuan Basin [J]. China Petroleum Exploration, 2021, 26(5): 60-73. |
[14] | Zhao Dijiang, Jiang Shangkun, Qiao zhu, Xu Kunming, Kong Shuanshuan. Characterization of migration pathway and analysis of oil accumulation process of heavy oil reservoirs: a case study of LD16 oil-bearing structure in Liaodong Bay Depression in Bohai Sea area [J]. China Petroleum Exploration, 2021, 26(5): 113-124. |
[15] | Liu Qinyuan, Tang Jun, Shen Wei, Cai Ming, Wu Heizhi. Petrophysical classifi cation method and application of fracture-vuggy type dolomite reservoir in Tarim Basin [J]. China Petroleum Exploration, 2021, 26(5): 132-139. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||