Energies (Nov 2024)

The Role of Underground Salt Caverns in Renewable Energy Peaking: A Review

  • Si Huang,
  • Yinping Li,
  • Xilin Shi,
  • Weizheng Bai,
  • Yashuai Huang,
  • Yang Hong,
  • Xiaoyi Liu,
  • Hongling Ma,
  • Peng Li,
  • Mingnan Xu,
  • Tianfu Xue

DOI
https://doi.org/10.3390/en17236005
Journal volume & issue
Vol. 17, no. 23
p. 6005

Abstract

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To address the inherent intermittency and instability of renewable energy, the construction of large-scale energy storage facilities is imperative. Salt caverns are internationally recognized as excellent sites for large-scale energy storage. They have been widely used to store substances such as natural gas, oil, air, and hydrogen. With the global transition in energy structures and the increasing demand for renewable energy load balancing, there is broad market potential for the development of salt cavern energy storage technologies. There are three types of energy storage in salt caverns that can be coupled with renewable energy sources, namely, salt cavern compressed air energy storage (SCCAES), salt cavern hydrogen storage (SCHS), and salt cavern flow battery (SCFB). The innovation of this paper is to comprehensively review the current status and future development trends of these three energy storage methods. Firstly, the development status of these three energy storage methods, both domestically and internationally, is reviewed. Secondly, according to the characteristics of these three types of energy storage methods, some key technical challenges are proposed to be focused on. The key technical challenge for SCCAES is the need to further reduce the cost of the ground equipment; the key technical challenge for SCHS is to prevent the risk of hydrogen leakage; and the key technical challenge for SCFB is the need to further increase the concentration of the active substance in the huge salt cavern. Finally, some potential solutions are proposed based on these key technical challenges. This work is of great significance in accelerating the development of salt cavern energy storage technologies in coupled renewable energy.

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