4.7 Article

Numerical investigation of the influences of geological controlling factors on heat extraction from hydrothermal reservoirs by CO2 recycling

Journal

ENERGY
Volume 252, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.energy.2022.124026

Keywords

Heat extraction; CO2 recycling; Permeability heterogeneity; Permeability anisotropy; Numerical simulation

Funding

  1. National Natural Science Foundation of China [72101036]
  2. Science & Technology Department of Sichuan Province [2021ZYCD004, 2022YFSY0008]
  3. MOE (Ministry of Education in China) Project of Humanities and Social Sciences [21YJC630145]

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This study numerically explores the mechanisms of geological factors in controlling the heat mining process by CO2 injection. The findings show that heat extraction using CO2 as working fluid can achieve a high mining rate, but the CO2 plume exhibits severe segregation effect. Increasing the horizontal correlation length and mean permeability can effectively promote the mining rate, while increasing permeability heterogeneity and anisotropy can cause a reversed trend of mining rate variation.
Injection of CO2 into deep hydrothermal reservoirs is considered as an attractive way for heat extraction, which has been proved in the previous studies. However, how different geological factors govern the heat extraction efficiency by CO2 circulation are not clearly understood. In this study, the mechanisms of geological factors in controlling the heat mining process by CO2 injection are numerically explored. The effects of horizontal correlation length, degree of permeability heterogeneity, permeability anisotropy, and the magnitude of mean permeability on the heat extraction performance are systematically investigated. The simulation results show that heat extraction using CO2 as working fluid can obtain a high heat mining rate, but the CO2 plume in the subsurface exhibits severe segregation effect. Heat extraction by CO2 recycling is more sensitive to the variation of horizontal correlation length in comparison with that by water circulation. The increase of horizontal correlation length and mean permeability can effectively promote the heat mining rate. The increase of permeability heterogeneity and anisotropy can cause a reversed trend of heat mining rate variation. The findings from this study may provide important implications for the selection of feasible hydrothermal reservoirs or deep high water cut oil reservoirs for heat extraction by CO2 recycling. (c) 2022 Elsevier Ltd. All rights reserved.

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