Energies (Apr 2024)

The Applications of WFEM in the Exploration of Medium-Depth Geothermal Resources

  • Guoqiang Fu,
  • Zhuqiang Li,
  • Qiangjiang Zhang,
  • Tao Guo,
  • Qiyun Jiang,
  • Yonghong Yang,
  • Xueguo Chen,
  • Chuang Lei,
  • Jie Li

DOI
https://doi.org/10.3390/en17081904
Journal volume & issue
Vol. 17, no. 8
p. 1904

Abstract

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Medium-depth geothermal energy mainly consists of two types, hydrothermal and dry-heat rock. With huge resource reserves, its exploration and development are of great significance to the transformation of China’s energy structure and the realization of the goal of “Double-Carbon”. From the differences in the electrical characteristics between hydrothermal and hot dry rock geothermal resources, this project uses the numerical modeling of the wide field electromagnetic (WFEM) method as a tool to design a model of typical geothermal resources. Then, we summarize and analyze the detection capability of the WFEM by calculating the WFEM response under the conditions of different depths, resistivity values, thickness-to-depth ratios and other parameters. Moreover, aiming at the key problems faced by the WFEM in real applications, we discuss the factors affecting the detection accuracy and give solutions to improve the reliability of the detection results. Finally, the medium-depth geothermal energy detection in the Jiyang Depression of Shandong is presented as an example, showing how the WFEM detection technique was used with the inversion result profile obtained. By comparing the results of geomagnetic and seismic detection on the same survey line, it is demonstrated that the WFEM method has great potential in the exploration of medium-depth geothermal energy and can be the preferred method.

Keywords