期刊
GEOMECHANICS AND GEOPHYSICS FOR GEO-ENERGY AND GEO-RESOURCES
卷 8, 期 2, 页码 -出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s40948-022-00348-8
关键词
Coal permeability; Matrix-fracture interaction; Local structure; Dual porosity; Non-equilibrium
资金
- Australian Research Council [DP200101293]
- UWA-China Joint Scholarships
- Australian Research Council [DP200101293] Funding Source: Australian Research Council
Conventional dual porosity/permeability models for coal cannot accurately capture the transient nature of matrix-fracture mechanical interactions. In this study, a new model is proposed that includes the transient process in the matrix system through the embedment of a local representative elementary volume (REV) structure. The model is verified against experimental observations of coal permeability under constant confining pressure and constant effective stress conditions, and the results show that conventional equilibrium models underestimate the role of coal matrix or matrix-fracture mechanical interactions.
Conventional dual porosity/permeability models for coal cannot capture the true transient nature of matrix-fracture mechanical interactions because these interactions are normally characterized through two equilibrium systems within the same REV (representative elementary volume). In this study, the transient process in the matrix system is included through the embedment of a local REV structure into the overall multiphysics formulation. This inclusion transforms conventional dual porosity/permeability equilibrium models into non-equilibrium ones. Consequently, coal permeability evolves from initial to final equilibrium within the REV. Equilibrium models represent two end points (initial and final equilibrium) while our new model represents the evolution of coal permeability between these two end points. The model is verified against experimental observations of coal permeability under common experimental conditions of constant confining pressure and constant effective stress. Our results show that conventional equilibrium models underestimate the role of coal matrix or matrix-fracture mechanical interactions, that current experimental observations represent only a small portion of the complete evolution process, and that as a tool of knowledge extension our model extends the experimental observations to a representation of the coal permeability whole evolution process from initial to ultimate equilibrium.
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