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Numerical study on CO2 sequestration in low-permeability coal reservoirs to enhance CH4 recovery: Gas driving water and staged inhibition on CH4 output
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Journal:Journal of Petroleum Science and Engineering

Abstract:Gas driving water can decrease the gas-phase effective permeability at the displacement front and block the coalbed methane (CBM) output during CO2-ECBM. However, for low-permeability coal reservoirs, there remains a lack of systematic and in-depth understandings of the inhibition process and quantification. In this work, based on a numerical model of an exploited low permeable coal reservoir, the impact of the injection rate and time on CO2-ECBM was investigated. The CH4 output inhibition mechanism in poorly permeable reservoirs was revealed, the inhibition process was quantified for the first time, and the influence of injection-drainage elements on the process was examined. Eventually, specific findings were confirmed in a field trial. The results demonstrated that (1) CO2 injected into the exploited reservoir could further enhance the CH4 output. The CH4 output rate significantly increased with increasing injection rate and time. (2) For poorly permeable reservoirs, the inhibition effect became more notable because a water-rich bank seemed to be a barrier, which trapped the injected and displaced gas, and free water contained in such media cannot be drained efficiently in a relatively short period. Conversely, it was the barrier that shielded the efficient CO2 storage. The storage efficiency reached as high as 99.9%. (3) The effect was only manifested at a specific stage, and the inhibition duration (TI) and inhibition level (DI) could be considered to characterize the effect. Increasing the injection rate, enhancing the bottom-hole pressure (BHP) drop, and prolonging the injection duration could promote fluid migration (especially fracture water) and further mitigate the effect, with the former two better than the latter one. (4) The hypothesis of homogeneous permeable reservoirs might result in an overestimate of the inhibition duration and inhibition level. A field trial confirmed the existence of the staged inhibition effect, with the inhibition time of three months and the inhibition level of roughly 5%. These findings pave the way to study the complex fluid migration for CO2-ECBM.

Indexed by:Journal paper

Translation or Not:no

Included Journals:SCI

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Associate professor
Supervisor of Master's Candidates

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School/Department:School of Resources and Geosciences

Administrative Position:Deputy Director of the Department

Education Level:With Certificate of Graduation for Doctorate Study

Business Address:CBM Development Laboratory in Wenchang Campus of China University of Mining and Technology

Gender:Male

Contact Information:cumtzxz@cumt.edu.cn

Degree:Doctor

Status:在岗

Academic Titles:Deputy director of Jiangsu low carbon society

Other Post:Member of Chinese Geological Society

Alma Mater:China University of Mining and Technology

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Honors and Titles:

中国自动化学会技术发明二等奖  2023-11-01

领跑者5000中国精品科技期刊顶尖学术论文  2022-12-29

2021年度中国地质学会地质类工程专业优秀本科毕业设计指导教师  2022-08-25

贵州省科技进步三等奖  2007-11-07

煤炭工业协会科技进步二等奖  2013-03-06

贵州省科技进步二等奖  2020-07-01

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