Simulation of CO2 Storage and Enhanced Gas Recovery in Shale Gas Reservoirs Considering Adsorption Characteristics

Journal of the Korean Society of Mineral and Energy Resources Engineers Pub Date : 2022-10-31 DOI:10.32390/ksmer.2022.59.5.562

W. Lee, Young Min Kim

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Abstract

In this study, we examined the performance of CO 2 injection techniques based on simulations in a conceptual shale reservoir to investigate the efficiency of CO 2 storage and enhanced gas recovery (CS-EGR). The developed conceptual model considers major shale reservoir characteristics in which the adsorption properties are the focus as a control parameter. For simple depletion cases, the production performance was directly dependent on the adsorption properties. However, in the CO 2 injection cases, the adsorption and desorption processes are more complicated and we did not identify remarkable increases in the recovery factor, but we observed a weak relationship with the Langmuir volume. The results of all CO 2 injection cases showed that the storage efficiency was more than 80%, indicating that shale reservoirs are a promising target for CO 2 storage. To increase the recovery factor and improve the optimum control of CS-EGR, other major shale reservoir properties and operational parameters should be simultaneously integrated.

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考虑吸附特性的页岩气储层CO2封存与提高采收率模拟

在这项研究中，研究人员在一个概念页岩储层中模拟了二氧化碳注入技术的性能，以研究二氧化碳储存和提高天然气采收率(CS-EGR)的效率。所建立的概念模型考虑了页岩储层的主要特征，其中吸附特性是控制参数的重点。在简单耗竭的情况下，生产性能直接取决于吸附性能。然而，在CO 2注射的情况下，吸附和解吸过程更为复杂，我们没有发现采收率的显著增加，但我们观察到与Langmuir体积的关系很弱。结果表明，页岩储层的co2封存效率均在80%以上，预示着页岩储层是一个极具潜力的co2封存目标。为了提高采收率，改善CS-EGR的最优控制，需要同时整合其他主要页岩储层性质和操作参数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of the Korean Society of Mineral and Energy Resources Engineers

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