Study on the Influencing Factors of Oil Bearing and Mobility of Shale Reservoirs in the Fourth Member of the Shahejie Formation in the Liaohe Western Depression

IF 3 4区工程技术 Q3 ENERGY & FUELS

Energies Pub Date : 2024-08-08 DOI:10.3390/en17163931

Lei Zhang, Shizhen Xu, Ke Jin, Xuejuan Zhang, Yinglin Liu, Chang Chen, Ruhao Liu, Ming Li, Jinpeng Li

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Abstract

Oil content and the movability of shale oil are important indicators for the evaluation of continental shale oil. In recent years, the sandwiched shale oil in the fourth member of the Shahejie Formation in the Liaohe Western Depression area of the Bohai Bay Basin has shown great exploration potential, while the understanding of shale oil content and the movability of shale oil is weak. In this study, through a combination of core observations and experiments, we clarified the shale lithofacies types in the fourth member of the Shahejie Formation in the Liaohe Western Depression and explored the influencing factors of the characteristics in the oil-bearing and movability of shales in different lithofacies. The results of the study show that the organic matter content of the shale is high (TOC = 2.2–4.3%), but the maturity of thermal evolution is low (Ro = 0.38–0.55%), and the mineral component is dominated by clay minerals (30.3–72.7%), with quartz, feldspar, and other feldspar minerals developing secondarily. According to the content of organic matter, the mineral component, and the sedimentary structure, five types of lithofacies can be classified: organic-rich laminated clay-bearing felsic shale lithofacies (LS1), organic-rich laminated clay felsic mixed shale lithofacies (LS2), organic-rich layered clay felsic mixed shale lithofacies (LS3), organic-containing massive felsic-bearing clay shale lithofacies (LS4), and organic-containing massive clay felsic mixed shale lithofacies (LS5). The oil content of shale is mainly affected by the organic matter. The rate of increase in oil content of shale is fastest when the organic matter content is between 2 and 4%. The movability of shale oil is mainly controlled by the sedimentary structure, mineral component, and microscopic pore structure; the more the shale laminae is developed, the lower the clay content is, and the more the pore space is developed, the better the movability of shale oil is. Combined with the results of the shale oil content and mobility analysis in the study area, LS2 and LS3 are the dominant lithofacies in the fourth member of the Shahejie Formation in the study area, followed by LS1 >LS5 >LS4, so shale oil exploration should focus on the development of LS2 and LS3.

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辽河西凹陷沙河街地层第四系页岩储层含油性及流动性影响因素研究

页岩油的含油率和可动性是评价大陆页岩油的重要指标。近年来，渤海湾盆地辽河西凹陷区沙河街地层第四系夹页岩油显示出巨大的勘探潜力，而对页岩油的含油率和可动性认识薄弱。本研究通过岩心观测和实验相结合的方法，明确了辽河西凹陷沙河街地层第四系页岩岩性类型，探讨了不同岩性页岩含油特征和可动性的影响因素。研究结果表明，页岩有机质含量高（TOC=2.2-4.3%），但热演化成熟度低（Ro=0.38-0.55%），矿物成分以粘土矿物为主（30.3-72.7%），石英、长石等长石矿物发育次之。根据有机质含量、矿物成分和沉积结构，可将岩相划分为五种类型：富含有机质的层状粘土长石页岩岩相（LS1）、富含有机质的层状粘土长石混合页岩岩相（LS2）、富含有机质的层状粘土长石混合页岩岩相（LS3）、含有机质的块状长石粘土页岩岩相（LS4）和含有机质的块状粘土长石混合页岩岩相（LS5）。页岩的含油量主要受有机质影响。当有机质含量在 2% 至 4% 之间时，页岩含油量的增加速度最快。页岩油的可动性主要受沉积结构、矿物成分和微观孔隙结构的控制；页岩层理越发育，粘土含量越低，孔隙越发育，页岩油的可动性越好。结合研究区页岩油含量及流动性分析结果，LS2、LS3 是研究区沙河街地层第四系的优势岩性，其次为 LS1 >LS5 >LS4，因此页岩油勘探应重点开发 LS2、LS3。

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来源期刊

Energies ENERGY & FUELS-

CiteScore

6.20

自引率

21.90%

发文量

8045

审稿时长

1.9 months

期刊介绍： Energies (ISSN 1996-1073) is an open access journal of related scientific research, technology development and policy and management studies. It publishes reviews, regular research papers, and communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.