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Comprehensive effects of heat and flow on the methane hydrate dissociation in porous media

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  • Zhang, Zhaobin
  • Xu, Tao
  • Li, Shouding
  • Li, Xiao
  • Briceño Montilla, Maryelin Josefina
  • Lu, Cheng

Abstract

The dissociation of methane hydrate in porous media is a heat flow coupling process. In this paper, we established a heat flow coupling algorithm for hydrate dissociation. A core-scale hydrate dissociation model was established and was verified against a laboratory dissociation experiment. The evolutions of the key characteristics, such as the temperature, the energy, and the hydrate/ice saturations, were analyzed. The effects of heat conductivity and permeability on dissociation characteristics and gas production rate were studied. It is found that there are three different modes under the coordinate system of heat conductivity and the permeability of porous media. In the flow-controlling mode, the rate of hydrate dissociation is mainly related to the flow resistance. In the heat-controlling mode, the rate of hydrate dissociation is mainly related to heat supply. In the heat flow-coupling mode, both the increase in the permeability and the heat supply have positive effects on the increase in the hydrate dissociation rate. In addition, there are different hydrate dissociation front expanding characteristics for the different modes. This analysis of the dissociation mode improves the understanding of events associated with the hydrate dissociation process.

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  • Zhang, Zhaobin & Xu, Tao & Li, Shouding & Li, Xiao & Briceño Montilla, Maryelin Josefina & Lu, Cheng, 2023. "Comprehensive effects of heat and flow on the methane hydrate dissociation in porous media," Energy, Elsevier, vol. 265(C).
    • Handle: RePEc:eee:energy:v:265:y:2023:i:c:s0360544222033114
    DOI: 10.1016/j.energy.2022.126425
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    Cited by:

    1. Maryelin Josefina Briceño Montilla & Shouding Li & Zhaobin Zhang & Xiao Li & Yiming Sun & Shiwei Ma, 2023. "Theoretical Analysis of the Effect of Electrical Heat In Situ Injection on the Kerogen Decomposition for the Development of Shale Oil Deposits," Energies, MDPI, vol. 16(13), pages 1-23, June.
    2. Zhang, Zhaobin & Li, Yuxuan & Li, Shouding & He, Jianming & Li, Xiao & Xu, Tao & Lu, Cheng & Qin, Xuwen, 2024. "Optimization of the natural gas hydrate hot water injection production method: Insights from numerical and phase equilibrium analysis," Applied Energy, Elsevier, vol. 361(C).
    3. Li, Yanghui & Hu, Wenkang & Tang, Haoran & Wu, Peng & Liu, Tao & You, Zeshao & Yu, Tao & Song, Yongchen, 2023. "Mechanical properties of the interstratified hydrate-bearing sediment in permafrost zones," Energy, Elsevier, vol. 282(C).
    4. Liu, Weiguo & Song, Qi & Wu, Peng & Liu, Tao & Huang, Lei & Zhang, Shuheng & Li, Yanghui, 2023. "Triaxial tests on anisotropic consolidated methane hydrate-bearing clayey-silty sediments of the South China Sea," Energy, Elsevier, vol. 284(C).
    5. Yang, Ming & Wang, Yuze & Wu, Hui & Zhang, Pengwei & Ju, Xin, 2024. "Thermo-hydro-chemical modeling and analysis of methane extraction from fractured gas hydrate-bearing sediments," Energy, Elsevier, vol. 292(C).

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