鄂尔多斯盆地华池地区延长组长7段页岩孔隙结构特征及控制因素

Weikai Huang , Xiaofeng Ma , Xinping Zhou , Jiangyan Liu , Tongtong He , Huifei Tao , Shutong Li , Lewei Hao
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摘要

为明确有机质和矿物组成对鄂尔多斯盆地延长7段(长7段)页岩储层孔隙结构的影响,采用氩离子抛光场发射扫描电镜(FE-SEM)和低压氮气吸附(LP-N2A)技术对长7段页岩储层孔隙结构进行了表征。结合全岩矿物组成和有机地球化学实验,分析了长7段页岩孔隙结构的主控因素。结果表明,页岩中存在有机质孔、粒间孔、晶间孔、溶解孔和微裂缝等多种孔隙类型。页岩LP-N2A等温线一致表现为Ⅱ型等温线,具有H3和H4型滞回线特征,表明中孔发育程度较高,具有平行板层状和墨水瓶状的孔隙形态。页岩孔隙结构的主要决定因素是有机质、粘土矿物、石英、长石和黄铁矿。其中粘土矿物相变在矿物晶体层内形成大量微孔和中孔,是研究区页岩孔隙的主要来源。生成的液态烃、固体沥青、自体黄铁矿充填了无机矿物孔隙,在一定程度上缩小了长7页岩的孔隙空间。研究结果为认识长7页岩孔隙结构特征及控制因素提供了新的认识。
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Characteristics and controlling factors of pore structure of shale in the 7th member of Yanchang Formation in Huachi area, Ordos Basin, China

To clarify the influence of organic matter and mineral composition on the pore structure of shale reservoirs in the 7th member of the Yanchang Formation (Chang 7 Member) in the Ordos Basin, we characterized the pore structure of Chang 7 shale reservoirs using argon ion polishing-field emission scanning electron microscopy (FE-SEM) and low-pressure nitrogen adsorption (LP-N2A). This characterization was combined with whole-rock mineral composition and organic geochemical experiments to analyze the main controlling factors of the pore structure of Chang 7 Member shale. The results reveal the presence of various pore types in shale, including organic matter pores, intergranular pores, intercrystalline pores, dissolved pores, and micro-cracks. The LP-N2A isotherms of shale consistently exhibit type Ⅱ isotherms with H3 and H4 hysteresis loop characteristics, indicating the relatively developed nature of mesopores and a pore morphology characterized by parallel lamellar and “ink bottle” shapes. The primary determinants of shale pore structure are identified as organic matter, clay minerals, quartz, feldspar, and pyrite. Among these factors, clay mineral phase transformation generates a substantial number of micropores and mesopores within the mineral crystal layers, serving as the main source of shale pores in the study area. Additionally, liquid hydrocarbons generated, solid bitumen, and euhedral pyrite fill inorganic mineral pores, thereby reducing the pore space of Chang 7 shale to a certain extent. These results provide a new cognition into understanding the pore structure characteristics and controlling factors of Chang 7 shale.

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