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Evaluation Of Shale Gas Exploration By Microstructure Behavior And Shale Permeability Based On Fractal Theory And Under Multi-Field Effects

Author

Listed:
  • DAYU YE

    (State Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining and Technology, Xuzhou 221116, P. R. China)

  • GUANNAN LIU

    (State Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining and Technology, Xuzhou 221116, P. R. China‡Key Laboratory of Tectonics and Petroleum Resources, (China University of Geosciences), Ministry of Education, Wuhan 430074, P. R. China)

  • BOMING YU

    (��School of Physics, Huazhong University of Science and Technology, Wuhan 430074, P. R. China)

  • XUTONG ZHANG

    (�School of Mines, China University of Mining and Technology, Xuzhou 221116, P. R. China)

  • FENG GAO

    (State Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining and Technology, Xuzhou 221116, P. R. China)

Abstract

The key to shale gas exploration is the characterization of gas migration under the combination of multiple factors. To address the long-standing energy challenge of rapidly and accurately quantifying the behavior of natural fractures and matrix pores in shale at an engineering scale in interaction with gas migration. This study proposes an interdisciplinary model for shale gas extraction by adopting fractal theory. Five innovative microstructural parameters are developed to characterize the size and scale of natural matrix pores/fractures in shale, so as to investigate the contributions of fractal distributed pores and fractal power-law distributed fractures to shale gas extraction. The present results of the proposed model are consistent with the exploitation state of the UK Bowland Shale #114 well. The evolution of the shale microstructure will lead to changes in gas migration behavior throughout the reservoir and in turn affect shale stress, temperature and gas adsorption–desorption effect, and finally have a significant impact on permeability. It is found that in the present analysis of the entire Bowland Shale, the overall permeability changes by 10.8% with the evolution of fractal distributed pores and by 41.3% with the evolution of fractal power-law fractures. This work provides a new approach for rapidly exploring the behavior of shale fractures and matrix pores at engineering scales. This work also offers a new and practical baseline for shale gas extraction assessment and fossil energy management.

Suggested Citation

  • Dayu Ye & Guannan Liu & Boming Yu & Xutong Zhang & Feng Gao, 2023. "Evaluation Of Shale Gas Exploration By Microstructure Behavior And Shale Permeability Based On Fractal Theory And Under Multi-Field Effects," FRACTALS (fractals), World Scientific Publishing Co. Pte. Ltd., vol. 31(07), pages 1-23.
  • Handle: RePEc:wsi:fracta:v:31:y:2023:i:07:n:s0218348x23500792
    DOI: 10.1142/S0218348X23500792
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