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Study On Microstructural Evolution Of Rock Fractures Under Multi-Field Interactions

Author

Listed:
  • DAYU YE

    (State Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining and Technology Xuzhou, Jiangsu 221116, P. R. China†Key Laboratory of Deep Earth Science and Engineering (Sichuan University), Ministry of Education, Chengdu 610065, Sichuan, P. R. China)

  • GUANNAN LIU

    (��Key Laboratory of Deep Earth Science and Engineering (Sichuan University), Ministry of Education, Chengdu 610065, Sichuan, P. R. China‡Mechanics and Civil Engineering Institute, China University of Mining and Technology, Xuzhou, Jiangsu 221116, P. R. China)

  • BOMING YU

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

  • ZONGQING ZHOU

    (�Geotechnical and Structural Engineering Research Center, Shandong University, Jinan 250061, P. R. China)

  • CHENGLU GAO

    (�Geotechnical and Structural Engineering Research Center, Shandong University, Jinan 250061, P. R. China)

  • FENG GAO

    (State Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining and Technology Xuzhou, Jiangsu 221116, P. R. China†Key Laboratory of Deep Earth Science and Engineering (Sichuan University), Ministry of Education, Chengdu 610065, Sichuan, P. R. China)

Abstract

The complex rock fracture structures in reservoirs play an important role during methane extraction. However, there is still a challenge to elucidate the impacts of adsorption–desorption, rock expansion, and thermal conduction on the microstructures under thermal–hydrological–mechanical interactions. In this paper, fractal theory for porous media was applied to characterize the structures of rock fractures, and the fracture fractal dimension (Df) was adopted to analyze the density of fractures and the microstructural evolution. We developed a coupled thermal–hydrological–mechanical model enabling simultaneous analysis of rock fracture microstructures and multi-physical field effects. Furthermore, we analyzed the evolution of the fracture fractal dimension with the reservoir parameter effects, including: (1) methane extraction process; (2) reservoir stress; (3) pore pressure; and (4) reservoir temperature. We also calculated the effects of physical and mechanical factors on the above parameters, including (1) adsorption constant; (2) the in-situ stress; and (3) thermal expansion coefficient. The present results indicate that various characteristic parameters have multiple effects on the microstructures of rock fractures. It was found that the fractal dimension is inversely proportional to the reservoir stress, the gas pressure, and the reservoir temperature.

Suggested Citation

  • Dayu Ye & Guannan Liu & Boming Yu & Zongqing Zhou & Chenglu Gao & Feng Gao, 2022. "Study On Microstructural Evolution Of Rock Fractures Under Multi-Field Interactions," FRACTALS (fractals), World Scientific Publishing Co. Pte. Ltd., vol. 30(03), pages 1-16, May.
    • Handle: RePEc:wsi:fracta:v:30:y:2022:i:03:n:s0218348x2250058x
    DOI: 10.1142/S0218348X2250058X
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