过渡期页岩气藏特征及控制因素——以鄂尔多斯盆地大宁集贤区块二叠系山西组为例

Qin Zhang , Zhen Qiu , Leifu Zhang , Yuman Wang , Yufeng Xiao , Dan Liu , Wen Liu , Shuxin Li , Xingtao Li
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引用次数: 2

摘要

鄂尔多斯盆地东缘大宁-集贤地块二叠纪山西组二段(山二段)页岩沉积于海陆过渡环境中。山23亚段是我国过渡页岩气勘探开发的目标层段,具有页岩厚度大、夹层少、薄的特点。然而,很少对该层段的储层特征,特别是优质储层的控制因素进行研究。本文通过有机地球化学分析、矿物成分分析和微观储层表征,系统地探讨了大宁-集贤区块山23优质储层的储层特征和主要控制因素。结果表明,山23亚段上部泻湖相页岩层段总有机碳(TOC)含量高,脆性矿物含量高,BET表面积和BJH孔隙体积值高,是页岩气勘探开发的有利地段。山23亚段页岩孔隙空间以粘土矿物晶间孔隙为主(76.9%),其中还含有有机质孔隙(18.7%)。SEM观察表明,矿物成分的孔径分布(PSD)不同,有机质孔隙和方解石溶解孔隙主要在中尺度,粘土矿物和石英的孔隙具有中尺度和宏观尺度,而长石和黄铁矿的孔隙具有较宽且均匀的尺寸分布。单因素分析表明,粘土矿物含量是控制山23亚段过渡页岩孔隙发育的主导因素,TOC含量对孔隙发育有一定影响,干酪根类型对孔隙发育无明显影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characteristics and controlling factors of transitional shale gas reservoirs: An example from Permian Shanxi Formation, Daning-Jixian block, Ordos Basin, China

The shales in the 2nd Member of Permian Shanxi Formation (Shan2 Member) at the Daning-Jixian block at the eastern margin of the Ordos Basin were deposited in a marine–continental transitional environment. The Shan23 sub-member, which is the target interval for transitional shale gas exploration and development in China, is characterized by substantial shale thickness, few and thin interlayers. This interval, however, has been rarely investigated for reservoir characteristics, especially the controlling factors of high-quality reservoirs. In this paper, the reservoir characteristics and main controlling factors of high-quality reservoirs in Shan23 in the Daning-Jixian block were systematically discussed by organic geochemical analysis, mineral compositional analysis, and microscopic reservoir characterization. The results indicate that the lagoon facies shale interval in the upper part of the Shan23 sub-member has a high total organic carbon (TOC) content, a high brittle mineral content, and high BET surface area and BJH pore volume values, indicating that this is the sweet spot for shale gas exploration and development. Pore space in the Shan23 sub-member shale is dominated by clay mineral intercrystalline pores (76.9%), which also contains organic matter pores (18.7%). The SEM observations reveal that the mineral components are different in pore size distribution (PSD) and the organic matter pores and calcite dissolved pores are mainly in meso-scale, the pores in clay minerals and quartz are in meso- and macro-scale, while the pores in feldspar and pyrite exhibit a wide and uniform size distribution. The single-factor analysis shows that the clay mineral content is the dominant factor controlling pore development in the Shan23 sub-member transitional shales, the TOC content has a certain effect on pore development, and the kerogen type has no discernible effect on pore development.

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