Diagenetic characteristics and microscopic pore evolution of deep shale gas reservoirs in Longmaxi Formation, Southeastern Sichuan basin, China

Chang'an Shan , Yakun Shi , Xing Liang , Lei Zhang , Gaocheng Wang , Liwei Jiang , Chen Zou , Fangyu He , Jue Mei
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Abstract

The Lower Silurian Longmaxi Formation is the favorable target area for deep shale gas exploration and development in southeastern Sichuan Basin. Based on whole-rock X-ray diffraction analysis, scanning electron microscope, reservoir evolution thermal simulation experiment and nitrogen adsorption experiment, the diagenetic characteristics of deep shale reservoir in Longmaxi Formation were analyzed, and the reservoir pore evolution law was clarified. The results show that: ①The diagenetic minerals of the deep shale in the Longmaxi Formation are mainly quartz and clay minerals, with a small amount of carbonate minerals and feldspar. The primary inorganic pores are mainly controlled by mechanical compaction and cementation (quartz, carbonate, clay, pyrite). The organic pores are mainly controlled by the thermal maturity of organic matter, dissolution and later compaction. ②In the process of thermal simulation experiment, the organic pores of shale show a process of change from scratch, from small to large and then from large to small. Later, the organic matter is affected by compaction and graphitization, and the volume of micropores and mesopores begins to decrease. ③The shale pores of Longmaxi Formation have undergone several evolutionary stages. In the early stage of diagenesis, compaction caused a large number of inorganic pores to disappear. In the middle stage of diagenesis, kerogen hydrocarbon generation occupied pores, dissolution and cementation transformed pores. In the late diagenetic period, liquid hydrocarbon cracking gas and pressurization promote the development of organic pores.

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中国四川盆地东南部龙马溪地层深层页岩气藏的成因特征与微观孔隙演化
下志留统龙马溪地层是四川盆地东南部深层页岩气勘探开发的有利靶区。基于全岩X射线衍射分析、扫描电镜、储层演化热模拟实验和氮气吸附实验,分析了龙马溪地层深层页岩储层成因特征,阐明了储层孔隙演化规律。结果表明龙马溪地层深部页岩成岩矿物以石英和粘土矿物为主,少量碳酸盐矿物和长石。原生无机孔隙主要由机械压实和胶结(石英、碳酸盐、粘土、黄铁矿)控制。有机孔隙主要受有机质的热成熟、溶解和后期压实作用控制。在热模拟实验过程中,页岩的有机孔隙呈现出从无到有、从小到大、再从大到小的变化过程。之后,有机质受到压实和石墨化的影响,微孔和中孔的体积开始减小。龙马溪地层的页岩孔隙经历了几个演化阶段。在成岩早期,压实作用使大量无机孔隙消失。成因中期,角质烃生成占据孔隙,溶解和胶结改造孔隙。成岩晚期,液态烃裂解气和加压促进了有机孔隙的发育。
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