鄂尔多斯盆地东南部山西组页岩气形成条件及富集主控因素

Ke Wang , Yuanyuan Wang , Fengqin Wang , Licheng Xie
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引用次数: 0

摘要

在剖析典型页岩气井地质特征的基础上,深入分析了成藏因素与页岩气富集的关系,总结了页岩气富集控制因素。对钻井、测井、测试和页岩样品的分析表明,鄂尔多斯盆地东南部山西组海陆过渡相页岩气藏的形成因素具有高度的非均质性。这主要体现在该地区页岩有机质、物理性质等参数的快速空间变化上。山西组页岩有机碳含量高,平均为2.24%,干酪根类型以Ⅲ型为主,RO平均值为2.48%,处于高熟-过熟阶段,为优质烃源岩。岩石成分富含粘土(40.5%~88.5%),主要由伊利蒙混合层和高岭石组成,其相对较高的比表面积有利于提高页岩的气体吸附能力。山西组砂岩薄互层广泛分布,厚度小于3m,物理条件较好。页岩的平均孔隙度为3.37%,平均渗透率为0.1mD。页岩产生的天然气可以在短距离内输送到这些砂岩夹层(薄层),这有利于提高页岩的含气性。研究区山西组的含气性受不同岩性组合的影响。山西组二段厚层泥岩-煤组合的含气性最好,80%以上的样品含气量在1m3/t以上。研究表明,页岩热演化程度高、特殊的海陆过渡相储层条件和良好的保存条件是影响研究区页岩气富集的主要因素。这使得鄂尔多斯盆地东南部山西组页岩气具有一定的勘探开发潜力,并确定了子长-延安-富县、伊川地区页岩气的富集目标。
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Formation conditions and the main controlling factors for the enrichment of shale gas of Shanxi Formation in the southeast of Ordos Basin, China

Based on the dissection of the geological characteristics of typical shale gas wells, the relationship between reservoir-forming factors and shale gas enrichment is deeply analyzed, and the controlling factors of shale gas enrichment are summarized. An analysis of data from drilling, logging, testing, and shale sample has revealed that the factors contributing to the formation of shale gas reservoirs in marine–continental transitional facies of Shanxi Formation in the southeast of Ordos Basin are highly heterogeneous. This is mainly reflected in the rapid spatial change of shale organic matter, physical properties, and other parameters of the shale in this area. The shale found in the Shanxi Formation has a high content of organic carbon (TOC), with an average of 2.24%. The kerogen type is mainly type Ⅲ, and the average value of RO is 2.48%, indicating that it is in the high mature-overmature stage and is a high-quality source rock. The rock composition is rich in clay (40.5%–88.5%), mainly composed of illite-mongolian mixed layer and kaolinite, and its relatively high specific surface area is beneficial for improving the gas adsorption capacity of the shale. Thin sandstone interbeds, measuring less than 3 m are widely distributed in the Shanxi Formation and have good physical conditions. With an average porosity 3.37% and an average permeability of 0.1 mD. The natural gas generated by the shale can be transported to these sandstone interlayers (laminae) in a short distance, which is beneficial for improving the gas-bearing property of the shale. The gas-bearing property of the Shanxi Formation in the study area is affected by different lithologic assemblages. The gas-bearing property of the thick mudstone-coal assemblage of the second member of the Shanxi Formation is the best, with more than 80% of the samples having a gas content of over 1 m3/t. This study suggests that the high thermal evolution degree of shale, special marine–continental transitional facies reservoir conditions, and good preservation conditions are the main factors affecting the enrichment of shale gas in the study area. This makes the shale gas of the Shanxi Formation in the southeast of the Ordos Basin have certain potential for exploration and development, and delineates the enrichment targets of shale gas in the Zichang-Yan'an-Fuxian and Yichuan areas.

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