Experimental study on characteristics of gas seepage in broken coal and rock

Autor: Dingyi Hao, Shihao Tu, Lei Zhang, Hongbin Zhao, Shikun Xu
Jazyk: angličtina
Rok vydání: 2024
Předmět:
Zdroj: Energy Science & Engineering, Vol 12, Iss 10, Pp 4737-4752 (2024)
Druh dokumentu: article
ISSN: 2050-0505
DOI: 10.1002/ese3.1916
Popis: Abstract The characteristics of gas seepage in broken coal and rock composed of different particle sizes and grades were investigated in this study. On the basis of Darcy's law and non‐Darcy seepage theory, equations of gas permeability in the nonlinear seepage of broken coal and rock, as well as the porosity of broken coal and rock, under triaxial compression were determined. The stress loading path of gas seepage in broken coal and rock was developed. The characteristics of gas seepage in broken coal and rock composed of different particle sizes and grades were analyzed, and the results showed that the gas permeability after compression was proportional to the particle size of the broken coal and rock. Under triaxial compression, the gas permeability of the broken coal and rock composed of graded‐particle sizes was lower than that of the broken coal and rock composed of different single‐particle sizes. The gas permeability of the broken coal was lower than that of the broken rock mass, and the gas permeability and porosity of the broken coal and rock can be described by the exponential decay function. At a constant porosity, the gas permeability of the broken coal and rock was proportional to the size grading index under triaxial compression. The coefficient of viscosity and gravity of the flow are key factors influencing the flow permeability in broken coal and rock. This study provides a reference for on‐site practice such as the efficient extraction of gas in goafs.
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