以贵州省遵义市黔XY 1井龙马溪组1 029.91~1 140.4 m深度范围的22个完整的全井段取心页岩样品作为研究对象,将场发射扫描电镜及PerGeos数字岩心分析系统联用,借助有机质含量及成熟度、矿物成分能谱分析测试数据,对其孔隙发育特征及主控因素进行定性及定量分析.黔XY 1井龙马溪组页岩有机质丰度较高,处于高—过成熟阶段,主要发育无机矿物孔、有机质孔及微裂缝3类孔隙,其中无机矿物孔包括粒间、粒内、晶间、铸模及溶蚀孔,微裂缝包括构造微裂缝、成岩收缩缝、有机质生排烃缝及人为裂缝.影响页岩孔隙发育的主控因素为有机质含量、有机质热演化程度及埋藏深度.
Twenty-two intact shale core samples from 1 029.91-1 140.4 m in the well Qian XY 1 in the Zunyi City of the Guizhou Province were studied using FE-SEM combined with PerGeos. Qualitative and quantitative analyses of pore development characteristics and main controlling factors were identified based on the organic matter content and maturity, as well as the energy spectrum data of mineral components. The Longmaxi Formation shale in the well Qian XY 1 has a high organic matter abundance and is highly mature to over mature. It mainly developed three types of pores: inorganic mineral pores, organic pores and micro-cracks. The inorganic mineral pores include intragranular, intergranular, intracrystalline, mold and dissolution pores, while the micro-cracks include structural micro-cracks, diagenetic shrinkage joints, organic matter hydrocarbon-discharge joints and artificial cracks. The main controlling factors affecting shale pore development are organic matter content, thermal evolution of organic matter and burial depth.