鄂尔多斯盆地东缘临兴地区海陆过渡相页岩岩相类型和储层差异
Lithofacies types and reservoir differences of marine continental transitional shale in Linxing area,eastern margin of Ordos Basin
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摘要: 为探讨海陆过渡相页岩岩相对储层发育特征的影响,以鄂尔多斯盆地临兴地区太原组海陆 过渡相页岩为研究对象,结合 X 射线衍射实验和岩石薄片观察系统划分页岩岩相类型,通过扫描 电镜、地化测试、低温液氮、二氧化碳吸附实验等技术手段,根据有机碳含量、孔隙结构、含气量等测 试数据详细分析了不同岩相的储层特征。 结果表明:研究区太原组页岩根据矿物组分可划分为黏 土类、硅质类、混合类和钙质类四大类岩相类型,以有机碳含量 2%和 4%为界限进一步划分为高有 机质富含硅质泥质页岩、中有机质富含硅质泥质页岩、中有机质含钙硅质泥质页岩、中有机质富含 黏土硅质页岩和中有机质泥质/硅质页岩等15种亚类岩相。 其中黏土类页岩主要处于陆相淡水、 亚还原-还原环境,具有相对较高的有机碳含量(平均 4.46%)和含气量(平均 1.44 m3 / t),微孔发育 较好,孔隙体积和比表面积较大,储层的储集和吸附能力较好,但脆性指数最低,平均为 33.5%,不 利于后期的压裂改造;混合类页岩主要沉积于咸水环境,有机碳含量相对较低(平均 1.65%),微孔 和介孔发育较差,含气量最低,脆性指数介于黏土类和硅质类页岩之间;硅质类页岩主要处于半咸 水-咸水、亚还原环境,有机碳含量平均为 2.07%,微孔、介孔发育较好,含气量偏低,脆性指数高,易 于压裂改造。 综合来看,黏土类页岩储层具有较大的生烃潜力和开发前景,在充分考虑储层脆性指 数的基础上可以进行重点评价。Abstract: In order to explore the influence of transitional facies shale on the reservoir development characteristics,the transitional facies shale of Taiyuan Formation in Linxing area of Ordos Basin was taken as the research object,the shale facies types were divided by X⁃ray diffraction experiment and rock thin section observation sys⁃ tem. The reservoir characteristics of different lithofacies were analyzed in detail based on the test data of pore structure and gas content. The results show that according to the mineral composition,the Taiyuan Formation shale in the study area can be divided into four lithofacies types,namely clay type,siliceous type,mixed type and calcareous type. Fur⁃ thermore,it can be divided into high organic matter rich siliceous shale,medium organic matter rich siliceous shale,medium organic matter calcium siliceous shale with 2% and 4% organic carbon content as the boundary. The medium organic matter is rich in clay,siliceous shale and argillaceous / siliceous shale. Clay shale is in terrestrial fresh water and sub reduction environment, with relatively high organic carbon ( 4. 46%) content and gas content (1.44 m3 / t on average),well⁃developed micropores,large pore volume and specific surface area,and good reservoir and adsorption capacity,but the brittleness index is the lowest,with an average of 33.5%. The mixed shale is deposited in saline water environment,with relatively low organic carbon content (1.65% on average),poor devel⁃ opment of micropores and mesopores,the lowest gas content,and the brittleness index between clay shale and siliceous shale. Siliceous shale is in brackish water⁃salt water and sub⁃reductive environment,with average organic carbon con⁃ tent of 2. 07%, well⁃developed micropores and mesopores, low gas content, high brittleness index and easy fracturing. Generally speaking,the clay shale reservoir has a great hydrocarbon generation potential and development prospects,and can be evaluated on the basis of fully consideration on the brittleness index of the reservoir.