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Investigation of thermal-mechanical effects on salt cavern during cycling loading

Author

Listed:
  • Li, Wenjing
  • Nan, Xing
  • Chen, Jiasong
  • Yang, Chunhe

Abstract

Traditional stability analysis for salt cavern as UGS overlooks the thermal effects induced by cycling loading and cannot predict the potential risk. In this study viscoelastic WIPP model is employed to describe the temperature-dependent creep behavior of rock salt. A thermal-mechanical simulation framework is established to couple the effect of mechanical stress and thermal stress. A coupling thermal-mechanical numerical model implemented by FLAC3D in combination with the WIPP creep model is proposed. A field case, Cavern L, in Jintan, Jiangsu Province of China is demonstrated in this paper to explore the thermal response to gas injection-and-withdrawal process. The results show that there is tensile stress concentration region at the cavern roof. The dynamic process of thermal damage evolution and block falls on cavern roof is also investigated. The disintegration of rock salt mass at cavern roof occurs after the most severe gas depressurization period, and the retain of low pressure after gas withdrawal aggravate the thermal damage. It indicates that the thermal-induced tensile stresses are critical for salt cavern stability assessment. The feasibility and accuracy of the proposed thermal-mechanical modeling is verified by the field case, and the simulation results of thermal damage are coincided with the sonar results. This analysis confirmed the influence of thermal-mechanical effects on salt cavern wall. The approach used in this study provides an improved method for the stability evaluation and optimal operation parameters for salt caverns.

Suggested Citation

  • Li, Wenjing & Nan, Xing & Chen, Jiasong & Yang, Chunhe, 2021. "Investigation of thermal-mechanical effects on salt cavern during cycling loading," Energy, Elsevier, vol. 232(C).
  • Handle: RePEc:eee:energy:v:232:y:2021:i:c:s0360544221012172
    DOI: 10.1016/j.energy.2021.120969
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    References listed on IDEAS

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    1. Liu, Wei & Zhang, Zhixin & Chen, Jie & Jiang, Deyi & Wu, Fei & Fan, Jinyang & Li, Yinping, 2020. "Feasibility evaluation of large-scale underground hydrogen storage in bedded salt rocks of China: A case study in Jiangsu province," Energy, Elsevier, vol. 198(C).
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    Cited by:

    1. Liao, Youqiang & Wang, Tongtao & Ren, Zhongxin & Wang, Duocai & Sun, Wei & Sun, Peng & Li, Jingcui & Zou, Xianjian, 2024. "Multi-well combined solution mining for salt cavern energy storages and its displacement optimization," Energy, Elsevier, vol. 288(C).
    2. Kai Feng & Wenjing Li & Xing Nan & Guangzhi Yang, 2023. "Salt Cavern Thermal Damage Evolution Investigation Based on a Hybrid Continuum-Discrete Coupled Modeling," Sustainability, MDPI, vol. 15(11), pages 1-26, May.
    3. Lyu, Cheng & Dai, Hangyu & Ma, Chao & Zhou, Ping & Zhao, Chengxing & Xu, Deng & Zhang, Liangquan & Liang, Chao, 2024. "Prediction model for three-dimensional surface subsidence of salt cavern storage with different shapes," Energy, Elsevier, vol. 297(C).
    4. Li, Hang & Ma, Hongling & Zhao, Kai & Zhu, Shijie & Yang, Kun & Zeng, Zhen & Zheng, Zhuyan & Yang, Chunhe, 2024. "Parameter design of the compressed air energy storage salt cavern in highly impure rock salt formations," Energy, Elsevier, vol. 286(C).
    5. Li, Wenjing & Miao, Xiuxiu & Wang, Jianfu & Li, Xiaozhao, 2023. "Study on thermodynamic behaviour of natural gas and thermo-mechanical response of salt caverns for underground gas storage," Energy, Elsevier, vol. 262(PB).
    6. Yi Zhang & Wenjing Li & Guodong Chen, 2022. "A Thermodynamic Model for Carbon Dioxide Storage in Underground Salt Caverns," Energies, MDPI, vol. 15(12), pages 1-20, June.

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