川北寒武系筇竹寺组页岩展布规律及源储特征

Distribution patterns and source-reservoir characteristics of Cambrian Qiongzhusi Formation shale in northern Sichuan Basin

  • 摘要: 四川盆地北部山前带下寒武统筇竹寺组页岩勘探程度较低,明确其源储地质特征和优质页岩分布规律是该区寒武系页岩气勘探和甜点区优选的关键。通过典型剖面观察和钻井资料分析,利用有机地球化学、X射线衍射、压汞—氮气吸附联合测试及氩离子抛光扫描电镜等多种分析手段,系统研究了川北地区筇竹寺组优质页岩的时空分布、有机质发育情况和储层特征。结果表明,川北地区筇竹寺组页岩总有机碳(TOC)含量平均大于2.0%,纵向上筇竹寺组二段TOC含量最高,平面上德阳—安岳裂陷槽和川北前陆坳陷内有机质丰度最大,且有机质类型以腐泥型为主,大多处于高—过成熟阶段;川北地区筇竹寺组页岩呈现“高硅质、中黏土、低碳酸盐”的矿物组成特征,储集空间类型以无机孔为主,孔径大小受纹层发育程度等控制,储层物性整体较差,但脆性较好;时间上,槽内优质页岩集中发育在筇一段至筇三段底部,坳陷内筇一段和筇二段优质页岩连续沉积、筇三段页岩不发育;空间上,优质页岩在德阳—安岳裂陷槽内和川北前陆坳陷内沉积厚度最大。综合页岩厚度、有机质丰度、热演化程度及脆性矿物含量等关键参数,将川北地区筇竹寺组页岩有利相带划分为3类,其中南江西和南江东为优势有利相带发育区。

     

    Abstract: The exploration degree of the Lower Cambrian Qiongzhusi Formation shale in the piedmont belt of the northern Sichuan Basin is relatively low. Clarifying its source-reservoir geological characteristics and the distribution patterns of high-quality shale is crucial for Cambrian shale gas exploration and sweet spot selection in this region. Through the observation of typical profiles and analysis of well data, using multiple analytical methods such as organic geochemical analysis, X-ray diffraction, mercury intrusion-nitrogen adsorption combined testing, and argon-ion polishing scanning electron microscopy, the spatiotemporal distribution, organic matter development, and reservoir characteristics of high-quality shale in the Qiongzhusi Formation of northern Sichuan Basin were systematically studied. The results showed that the average total organic carbon (TOC) content of shale in Qiongzhusi Formation in the northern Sichuan Basin exceeded 2.0%. Vertically, the TOC content was highest in the second member of the Qiongzhusi Formation. Horizontally, the organic matter abundance was greatest in the Deyang-Anyue aulacogen and the northern Sichuan foreland depression. The organic matter type was primarily sapropelic, predominantly in high to over-mature stages. The shale in Qiongzhusi Formation in the northern Sichuan Basin was characterized by a mineral composition of high siliceous content, medium clay content, and low carbonate content. The reservoir space type was dominated by inorganic pores, with pore size controlled by the degree of laminae development. The overall physical properties of the reservoir were relatively poor, but the brittleness was good. Temporally, high-quality shale in the aulacogen was concentrated at the bottom of the first to third members, while in the depression, high-quality shale was continuously deposited in the first and second members, with shale in the third member being poorly developed. Spatially, the sedimentary thickness of high-quality shale was greatest within the Deyang-Anyue aulacogen and the foreland depression in the northern Sichuan Basin. Based on a comprehensive analysis of key parameters including shale thickness, organic matter abundance, thermal maturity, and brittle mineral content, the favorable shale facies zones of the Qiongzhusi Formation in the northern Sichuan Basin are classified into three types. Among these, the western and eastern parts of Nanjiang are identified as the development areas for dominant favorable facies zones.

     

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