鄂尔多斯盆地泾河油田走滑断裂带油气成藏特征及控藏机制

杨鑫; 平宏伟; 雷涛; 张新乐; 邵隆坎; 苏奥; 陆骋; 孟玉净; 唐大卿

doi:10.3799/dqkx.2022.489

Volume 48 Issue 6

Jun. 2023

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Article Navigation > Earth Science > 2023 > 48(6): 2324-2341

Yang Xin, Ping Hongwei, Lei Tao, Zhang Xinle, Shao Longkan, Su Ao, Lu Cheng, Meng Yujing, Tang Daqing, 2023. Hydrocarbon Accumulation Characteristics and Controlling Mechanism of Strike-Slip Faults in Jinghe Oilfield, Ordos Basin. Earth Science, 48(6): 2324-2341. doi: 10.3799/dqkx.2022.489

Citation:

Yang Xin, Ping Hongwei, Lei Tao, Zhang Xinle, Shao Longkan, Su Ao, Lu Cheng, Meng Yujing, Tang Daqing, 2023. Hydrocarbon Accumulation Characteristics and Controlling Mechanism of Strike-Slip Faults in Jinghe Oilfield, Ordos Basin. Earth Science, 48(6): 2324-2341. doi: 10.3799/dqkx.2022.489

Citation:

Yang Xin, Ping Hongwei, Lei Tao, Zhang Xinle, Shao Longkan, Su Ao, Lu Cheng, Meng Yujing, Tang Daqing, 2023. Hydrocarbon Accumulation Characteristics and Controlling Mechanism of Strike-Slip Faults in Jinghe Oilfield, Ordos Basin. Earth Science, 48(6): 2324-2341. doi: 10.3799/dqkx.2022.489

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Hydrocarbon Accumulation Characteristics and Controlling Mechanism of Strike-Slip Faults in Jinghe Oilfield, Ordos Basin

doi: 10.3799/dqkx.2022.489

1.
Key Laboratory of Tectonics and Petroleum Resources, Ministry of Education, China University of Geosciences, Wuhan 430074, China
2.
SINOPEC North China Oil and Gas Branch, Zhengzhou 450006, China
3.
School of Geosciences, Yangtze University, Wuhan 430100, China

Received Date: 2022-11-02
Publish Date: 2023-06-25

Abstract

Abstract

In recent years, Jinghe oilfield has made important breakthroughs in the exploration of fault-fracture body reservoirs around strike-slip fault zones, revealing new fields for hydrocarbon exploration. Deeply understanding of the characteristics of hydrocarbon accumulation and control mechanism in strike-slip fault zone is an important prerequisite for determining the enrichment model of fault-fracture type reservoirs. In this paper, reservoir diagenesis and hydrocarbon charging process have been systematically studied using fluid inclusion technique and calcite ultra-low concentration U-Pb dating and the hydrocarbon distribution characteristics and controlling factors in strike-slip fault zones are also discussed. The results show that there are mainly two stages of early calcite cementation (185±27 Ma and 159±52 Ma, respectively) and the relatively late stage of orange-yellow, blue-green and blue fluorescent oil charge (140.1-96.2 Ma). In strike-slip fault zones, the physical property of crude oil is low in the east and high in the west, the oil production is high in the east and low in the west, and the oil accumulation time is early in the east and late in the west. The carbonate cementation in the Chang 6 and Chang 7 members is weak, and the late blue-green and blue fluorescence oil charges are dominant, but the carbonate cementation of Chang 8 member is intense, which is characterized by three stages of oil charging. On the whole, the strike-slip fault controls the lateral migration of hydrocarbon with high efficiency, but the differences of hydrocarbon enrichment along the strike-slip fault zone is partly controlled by the variation of tectonic stress. The poor original physical property of Chang 6-Chang 7 reservoir and the development of large shale in Chang 7 member limit the vertical fluid transporting ability of strike-slip fault, which leads to fluid predominance and differential accumulation in Chang 8 member. The research results can provide important support for further determining the distribution pattern and oil reservoir-forming model for fault-fracture body reservoirs in the study area.
- Ordos basin,
- strike-slip fracture,
- fault-fracture reservoir,
- fluid inclusion,
- hydrocarbon accumulation,
- petroleum geology

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References(76)

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