期刊
ENERGIES
卷 14, 期 1, 页码 -出版社
MDPI
DOI: 10.3390/en14010002
关键词
composite shale model; displacement; molecular simulations; shale gas; injection gases
资金
- National Natural Science Foundation of China [52006243, 51936001, 51676208]
- Fundamental Research Funds for the Central Universities [18cx07012a, 20CX06055A]
The study utilized molecular simulations to investigate the displacement characteristics of CH4 by different injection gases in shale reservoirs. Results showed that injection pressure and formation temperature influenced the displacement capacity of CH4 by CO2, while a synergistic effect was observed when CO2 and N-2 were simultaneously injected. This research provides guidance for the displacement exploitation of shale gas using injection gases.
The rapid growth in energy consumption and environmental pollution have greatly stimulated the exploration and utilization of shale gas. The injection of gases such as CO2, N-2, and their mixture is currently regarded as one of the most effective ways to enhance gas recovery from shale reservoirs. In this study, molecular simulations were conducted on a kaolinite-kerogen IID composite shale matrix to explore the displacement characteristics of CH4 using different injection gases, including CO2, N-2, and their mixture. The results show that when the injection pressure was lower than 10 MPa, increasing the injection pressure improved the displacement capacity of CH4 by CO2. Correspondingly, an increase of formation temperature also increased the displacement efficiency of CH4, but an increase of pore size slightly increased this displacement efficiency. Moreover, it was found that when the proportion of CO2 and N-2 was 1:1, the displacement efficiency of CH4 was the highest, which proved that the simultaneous injection of CO2 and N-2 had a synergistic effect on shale gas production. The results of this paper will provide guidance and reference for the displacement exploitation of shale gas by injection gases.
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