四川盆地五峰-龙马溪组页岩储层碳酸盐矿物特征、形成机制及其对物性的影响

Xiaofeng Zhou , Xizhe Li , Wei Guo , Xiaowei Zhang , Pingping Liang , Junmin Yu
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引用次数: 7

摘要

利用能谱仪和电子探针显微镜,结合岩石物理性质、全岩X射线衍射和有机碳数据,系统研究了四川盆地五峰-龙马溪组页岩储层碳酸盐矿物的特征、形成机制及其对其物理性质的影响。研究发现:第一,碳酸盐矿物主要为方解石、白云石和含铁白云石。方解石是一种填充放射虫硅质壳腔的单一矿物,存在于矿物颗粒之间。含铁白云石总是环绕白云石,白云石是存在于矿物颗粒和聚集体中的单一矿物。其次,方解石是由在海水表面分泌碳酸钙的微生物产生的。放射虫的硅质骨架腔和海水都沉淀出方解石,方解石在海水中沉淀时部分溶解,然后沉积在海床上并通过埋葬保存。第三,白云石是在水-沉积物界面上形成的具有硫酸盐细菌生理活性的成岩矿物,含铁白云石是泥质沉积物初始埋藏过程中产甲烷代谢产生的。第四,有机碳、黄铁矿、石英和粘土矿物与储层物性密切相关,而碳酸盐岩对储层整体孔隙度和渗透率没有影响。未来对页岩储层成岩作用的研究应利用原位探测和元素区扫描,特别是电子探针显微镜技术的谱图,为研究页岩储层碳酸盐矿物的特征、形成机制及其对物性的影响提供典型的岩石学依据。
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Characteristics, formation mechanism and influence on physical properties of carbonate minerals in shale reservoirs of Wufeng-Longmaxi formations, Sichuan Basin, China

The characteristics, formation mechanisms, and influences on physical properties of carbonate minerals in shale reservoirs of Wufeng-Longmaxi formations in Sichuan Basin are systematically investigated by utilizing electron probe microscope with spectrometer and energy spectrometer, combined with physical properties and whole rock X-diffraction and organic carbon data. The research yielded the findings that follow: First, the main carbonate minerals are calcite, dolomite, and ferriferous dolomite. Calcite is a single mineral that fills the siliceous shell cavity of radiolarians and exists between mineral particles. Ferriferous dolomite always rings dolomite, which is a single mineral that is present among mineral particles and aggregates. Second, calcite is produced by microorganisms that secrete calcium carbonate in the surface of seawater. The siliceous skeleton cavity of radiolarian and seawater both precipitate calcite, which partially dissolves while settling in seawater before depositing on the seabed and being preserved by burial. Thirdly, the dolomite is a diagenetic mineral formed on the water–sediment interface with physiological activities of sulfate bacteria, and the ferriferous dolomite is produced by methanogenic metabolism during the initial burial of muddy sediments. Fourthly, organic carbon, pyrite, quartz, and clay minerals are closely related to reservoir physical properties, while carbonate has no effect on porosity and permeability as a whole. Future research on shale reservoir diagenesis should make use of the in-situ detection and element area scanning, in particular with the spectrogram from electron probe microscope technology, which provides typical petrological evidences for the study of characteristics, formation mechanism, and influence on physical properties of carbonate minerals in shale reservoirs.

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