Potential evaluation of saline aquifers for the geological storage of carbon dioxide: A case study of saline aquifers in the Qian-5 member in northeastern Ordos Basin

IF 4.6 3区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY

China Geology Pub Date : 2024-01-01 DOI:10.31035/cg2023045

Yan Li , Peng Li , Hong-jun Qu , Gui-wen Wang , Xiao-han Sun , Chang Ma , Tian-xing Yao

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Abstract

The well-developed coal electricity generation and coal chemical industries have led to huge carbon dioxide (CO₂) emissions in the northeastern Ordos Basin. The geological storage of CO₂ in saline aquifers is an effective backup way to achieve carbon neutrality. In this case, the potential of saline aquifers for CO₂ storage serves as a critical basis for subsequent geological storage project. This study calculated the technical control capacities of CO₂ of the saline aquifers in the fifth member of the Shiqianfeng Formation (the Qian-5 member) based on the statistical analysis of the logging and the drilling and core data from more than 200 wells in the northeastern Ordos Basin, as well as the sedimentary facies, formation lithology, and saline aquifer development patterns of the Qian-5 member. The results show that (1) the reservoirs of saline aquifers in the Qian-5 member, which comprise distributary channel sand bodies of deltaic plains, feature low porosities and permeabilities; (2) The study area hosts three NNE-directed saline aquifer zones, where saline aquifers generally have a single-layer thickness of 3–8 m and a cumulative thickness of 8–24 m; (3) The saline aquifers of the Qian-5 member have a total technical control capacity of CO₂ of 119.25 × 10⁶ t. With the largest scale and the highest technical control capacity (accounting for 61% of the total technical control capacity), the Jinjie-Yulin saline aquifer zone is an important prospect area for the geological storage of CO₂ in the saline aquifers of the Qian-5 member in the study area.

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对含盐含水层进行二氧化碳地质封存的潜力评估：鄂尔多斯盆地东北部前-5 层含盐含水层案例研究

发达的煤炭发电和煤化工产业导致鄂尔多斯盆地东北部二氧化碳（CO2）排放量巨大。在含盐含水层中对二氧化碳进行地质封存是实现碳中和的有效后备途径。在这种情况下，含盐蓄水层封存二氧化碳的潜力是后续地质封存项目的重要依据。本研究基于对鄂尔多斯盆地东北部 200 多口井的测井、钻探和岩心资料的统计分析，并结合前五含水层的沉积面、地层岩性和含盐含水层发育模式，计算了石前锋地层第五系（前五系）含盐含水层的二氧化碳技术控制能力。研究结果表明：(1) 前-5 组含盐含水层储层由三角洲平原的分布河道砂体组成，孔隙度和渗透率较低；(2) 研究区有三个向东北方向的含盐含水层带，含盐含水层单层厚度一般为 3-8 m，累计厚度为 8-24 m；(3) 前-5 组含盐含水层的二氧化碳总技术控制能力为 119.25×106 t。金界-榆林含盐含水层带规模最大，技术控制能力最高（占总技术控制能力的61%），是研究区黔5含盐含水层CO2地质封存的重要远景区。

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