中国西南四川盆地大陆整体石油系统的聚集序列和勘探领域

IF 7 Q1 ENERGY & FUELS Petroleum Exploration and Development Pub Date : 2024-10-01 DOI:10.1016/S1876-3804(25)60532-5
Long WEN , Benjian ZHANG , Zhimin JIN , Changjiang WU , Xiaojuan WANG , Yuchao QIU , Zijian WANG , Yong LI , Dongxia CHEN
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引用次数: 0

摘要

以四川盆地油气勘探为基础,结合地震、测井、地球化学等资料,系统分析了盆地上三叠统-侏罗系大陆整体石油系统的基本地质条件、油气类型、油气分布特征、源储关系和成藏模式。四川盆地大陆整体石油系统发育多套含气地层,形成了以三叠系徐家河组源岩为中心的整体石油系统。三叠系上统徐家河组厚而优质的源岩为盆地大陆整体石油系统提供了充足的气源基础。常规-非常规储层的发育为油气聚集提供了有利空间。断层和砂体的耦合为天然气迁移提供了优质的运移系统。源岩与储层垂直重叠,沉积环境、储层岩性和物性差异明显,导致上三叠统-侏罗统内源页岩气、近源致密气、远源致密-常规气自下而上有序发育。埋藏深度、储层物性、地层压力、生烃强度等地质条件的分区有序变化,控制了平面上推力带构造气藏、凹陷带页岩气-致密气藏、斜坡带致密气藏、隆起带致密气-常规气藏等整个石油系统的形成。基于整体石油系统的理论和概念,四川盆地大陆页岩气和致密气资源潜力巨大,尤其是中西部地区非常规资源丰富。
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Accumulation sequence and exploration domain of continental whole petroleum system in Sichuan Basin, SW China
Based on the oil and gas exploration in the Sichuan Basin, combined with data such as seismic, logging and geochemistry, the basic geological conditions, hydrocarbon types, hydrocarbon distribution characteristics, source- reservoir relationship and accumulation model of the Upper Triassic–Jurassic continental whole petroleum system in the basin are systematically analyzed. The continental whole petroleum system in the Sichuan Basin develops multiple sets of gas-bearing strata, forming a whole petroleum system centered on the Triassic Xujiahe Formation source rocks. The thick and high-quality source rocks in the Upper Triassic Xujiahe Formation provide sufficient gas source basis for the continental whole petroleum system in the basin. The development of conventional-unconventional reservoirs provides favorable space for hydrocarbon accumulation. The coupling of faults and sandbodies provides a high-quality transport system for gas migration. Source rocks and reservoirs are overlapped vertically, and there are obvious differences in sedimentary environment, reservoir lithology and physical properties, which lead to the orderly development of inner-source shale gas, near-source tight gas, and far-source tight–conventional gas in the Upper Triassic–Jurassic, from bottom to top. The orderly change of geological conditions such as burial depth, reservoir physical properties, formation pressure and hydrocarbon generation intensity in zones controlled the formation of the whole petroleum system consisting of structural gas reservoir in thrust zone, shale gas-tight gas reservoir in depression zone, tight gas reservoir in slope zone, and tight gas–conventional gas reservoir in uplift zone on the plane. Based on the theory and concept of the whole petroleum system, the continental shale gas and tight gas resources in the Sichuan Basin have great potential, especially in the central and western parts with abundant unconventional resources.
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