Chuan Cai , Nansheng Qiu , Nian Liu , Zhenming Li , Yuanjie Wang , Zhanwen Yu , Yaxian Jiao
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Hydrocarbons in the buried hills in the Western Slope and Paleo-uplift are derived from the source rocks at the edge and center of the sag, respectively, which have different thermal maturation histories. The source rocks in the center of the sag mainly supply hydrocarbons to the Paleo-uplift through faults, while the hydrocarbons generated from the source rocks in the edge of the sag can be rapidly transported to the Western Slope through clast-supported terrigenous carbonate rudstone. Differences in oil sources result in different hydrocarbon charging histories for the Western Slope and Paleo-uplift. The Western Slope experienced a single low-mature oil charging event at 5-0 Ma, while the Paleo-uplift encountered two hydrocarbon charging events, including low-mature oil charging at 35-25 Ma and high-mature oil charging at 5-0 Ma. As a result of secondary changes controlled by the hydrological environment, the oil reservoirs in the Western Slope have undergone varying degrees of adjustment or even destruction, resulting in variations in the oil quality of different buried hills. The results provide a detailed understanding of hydrocarbon migration and accumulation in the study area, which can be used as a reference for hydrocarbon exploration.</div></div>","PeriodicalId":18189,"journal":{"name":"Marine and Petroleum Geology","volume":"170 ","pages":"Article 107136"},"PeriodicalIF":3.7000,"publicationDate":"2024-09-27","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Hydrocarbon migration and accumulation in buried hills based on quantitative fluorescence techniques, fluid inclusion, and 1D basin modeling: Shulu sag, Bohai Bay basin, NE China\",\"authors\":\"Chuan Cai , Nansheng Qiu , Nian Liu , Zhenming Li , Yuanjie Wang , Zhanwen Yu , Yaxian Jiao\",\"doi\":\"10.1016/j.marpetgeo.2024.107136\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><div>Interpreting the hydrocarbon generation, migration, and accumulation process is significant for understanding hydrocarbon evolution and finding exploration targets. 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Differences in oil sources result in different hydrocarbon charging histories for the Western Slope and Paleo-uplift. The Western Slope experienced a single low-mature oil charging event at 5-0 Ma, while the Paleo-uplift encountered two hydrocarbon charging events, including low-mature oil charging at 35-25 Ma and high-mature oil charging at 5-0 Ma. As a result of secondary changes controlled by the hydrological environment, the oil reservoirs in the Western Slope have undergone varying degrees of adjustment or even destruction, resulting in variations in the oil quality of different buried hills. 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引用次数: 0
摘要
解释碳氢化合物的生成、迁移和积累过程对于了解碳氢化合物的演化过程和寻找勘探目标具有重要意义。舒鲁萨格的埋藏丘陵具有巨大的油气勘探潜力。然而,在不同油藏中观察到的变化凸显了该地区油气迁移和积累的复杂性。本研究利用一维盆地建模、流体包裹体分析和定量荧光技术研究了源岩的热成熟历史、油气充注时间、油气迁移路径和油水接触。西坡和古隆起带埋藏山体中的碳氢化合物分别来自下陷边缘和中心的源岩,它们的热成熟历史各不相同。坳陷中心的源岩主要通过断层向古隆起提供碳氢化合物,而坳陷边缘源岩产生的碳氢化合物则可通过碎屑岩支撑的陆相碳酸盐岩快速运往西坡。石油来源的不同导致了西坡和古隆起不同的碳氢化合物充注历史。西坡在 5-0 Ma 时经历了一次低成熟石油充注事件,而古陆隆起则经历了两次碳氢化合物充注事件,包括 35-25 Ma 时的低成熟石油充注和 5-0 Ma 时的高成熟石油充注。由于水文环境控制的次生变化,西坡油藏经历了不同程度的调整甚至破坏,导致不同埋藏山体的油质存在差异。研究结果为详细了解研究区的油气迁移和积累情况提供了依据,可为油气勘探提供参考。
Hydrocarbon migration and accumulation in buried hills based on quantitative fluorescence techniques, fluid inclusion, and 1D basin modeling: Shulu sag, Bohai Bay basin, NE China
Interpreting the hydrocarbon generation, migration, and accumulation process is significant for understanding hydrocarbon evolution and finding exploration targets. The buried hills of Shulu Sag exhibit great potential for hydrocarbon exploration. However, the variations observed in different oil reservoirs highlight the complexity of hydrocarbon migration and accumulation in this region. In this study, 1D basin modeling, fluid inclusion analysis, and quantitative fluorescence techniques were used to investigate the thermal maturation history of the source rock, the timing of hydrocarbon charging, the pathway of hydrocarbon migration, and the oil-water contact. Hydrocarbons in the buried hills in the Western Slope and Paleo-uplift are derived from the source rocks at the edge and center of the sag, respectively, which have different thermal maturation histories. The source rocks in the center of the sag mainly supply hydrocarbons to the Paleo-uplift through faults, while the hydrocarbons generated from the source rocks in the edge of the sag can be rapidly transported to the Western Slope through clast-supported terrigenous carbonate rudstone. Differences in oil sources result in different hydrocarbon charging histories for the Western Slope and Paleo-uplift. The Western Slope experienced a single low-mature oil charging event at 5-0 Ma, while the Paleo-uplift encountered two hydrocarbon charging events, including low-mature oil charging at 35-25 Ma and high-mature oil charging at 5-0 Ma. As a result of secondary changes controlled by the hydrological environment, the oil reservoirs in the Western Slope have undergone varying degrees of adjustment or even destruction, resulting in variations in the oil quality of different buried hills. The results provide a detailed understanding of hydrocarbon migration and accumulation in the study area, which can be used as a reference for hydrocarbon exploration.
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