渤海湾盆地二叠纪碎屑岩储层演化特征及勘探目标

IF 7 Q1 ENERGY & FUELS Petroleum Exploration and Development Pub Date : 2023-10-01 DOI:10.1016/S1876-3804(23)60450-1
Yingchang CAO , Peipei SUN , Lihong ZHOU , Guanghui YUAN , Huimin LIU , Da LOU , Zhiping WU , Qiang JIN , Youlu JIANG
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引用次数: 0

摘要

基于岩心观察、薄片检验、流体包裹体分析、碳氧同位素组成分析等方法,研究了渤海湾盆地上古生界二叠纪碎屑岩储层的构造演化史和埋藏演化史,系统探讨了其成岩演化过程和成因/发展模式,华东地区。渤海湾盆地在上古生界经历了三个埋藏阶段和两个隆升阶段。因此,干酪根的热演化产生了三个酸溶解阶段,以及两个大气淡水浸出阶段。深埋、几乎封闭的成岩系统中的溶解与自生粘土和石英的沉淀有关,导致储存空间的有限增加。构造带不同的构造抬升-沉降过程导致了二叠纪碎屑岩储层不同的成岩-成藏过程。识别了三种储层成因模型。浅层孔隙形成、埋藏于浅中层的I型储层经历了两个阶段的长期开放环境暴露和两个阶段大气淡水浸出以增强近地表孔隙,并在晚期埋藏较浅,表现出次生孔隙的优势和最佳的物性。孔隙形成于浅层,深埋后改性保存的II型储层经历了早期暴露向晚期埋藏的封闭环境,孔隙类型因溶解而改性,表现出长石中大量次生溶孔的优势,物理性质不如I型。具有孔隙的III型储层在经过多次埋藏和溶解后形成,在近乎封闭到封闭的环境中经历了有机酸性流体的溶解,表现出高岭石中晶间微孔的优势和最差的物理性质。目标储层位于大气淡水淋滤地质时期的注水区,目前为斜坡带-凹陷带的Ⅱ型深部储层。它们被确定为后续勘探的有利选择。
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Evolution characteristics and exploration targets of Permian clastic rock reservoirs in Bohai Bay Basin, East China

Based on core observation, thin section examination, fluid inclusions analysis, carbon and oxygen isotopic composition analysis, and other approaches, the structural and burial evolution histories were investigated, and the diagenetic evolution process and genetic/development models were systematically discussed of the Upper Paleozoic Permian clastic rock reservoirs in the Bohai Bay Basin, East China. The Bohai Bay Basin underwent three stages of burial and two stages of uplifting in the Upper Paleozoic. Consequently, three stages of acid dissolution generated by the thermal evolution of kerogen, and two stages of meteoric freshwater leaching occurred. Dissolution in deeply buried, nearly closed diagenetic system was associated with the precipitation of authigenic clay and quartz, leading to a limited increase in storage space. Different structural uplifting–subsidence processes of tectonic zones resulted in varying diagenetic–reservoir-forming processes of the Permian clastic reservoirs. Three genetic models of reservoirs are recognized. The Model I reservoirs with pores formed in shallow strata and buried in shallow to medium strata underwent two stages of exposure to long-term open environment and two stages of meteoric freshwater leaching to enhance pores near the surface, and were shallowly buried in the late stage, exhibiting the dominance of secondary pores and the best physical properties. The Model II reservoirs with pores formed in shallow strata and preserved due to modification after deep burial experienced an early exposure-open to late burial-closed environment, where pore types were modified due to dissolution, exhibiting the dominance of numerous secondary solution pores in feldspar and the physical properties inferior to Model I. The Model III reservoirs with pores formed after being regulated after multiple periods of burial and dissolution experienced a dissolution of acidic fluids of organic origin under a near-closed to closed environment, exhibiting the dominance of intercrystalline micropores in kaolinite and the poorest physical properties. The target reservoirs lied in the waterflood area in the geological period of meteoric freshwater leaching, and are now the Model II deep reservoirs in the slope zone–depression zone. They are determined as favorable options for subsequent exploration.

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