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Mechanical-permeability characteristics of composite coal rock under different gas pressures and damage prediction model

Yangyang Guo, Kai Wang, Feng Du, Haijun Guo, Kangnan Li, Yiqiao Wang

2024Physics of Fluids63 citationsDOIOpen Access PDF

Abstract

Determining the influence of gas pressure on the mechanics, permeability, and energy evolution of gas-bearing composite coal is helpful to better understand the formation process and prevention measures of gasdynamic disasters. In this paper, true triaxial mechanical-permeability tests are carried out on the gas-bearing composite coal rock under different gas pressures, focusing on the influence of gas pressure on the mechanics, permeability, and energy response characteristics of the composite coal rock, and a damage constitutive model based on energy dissipation is established. The results show that increasing the gas pressure decreases the load bearing capacity, strain, pre-peak relative permeability, and deformation capacity of the sample. The greater the gas pressure is, the greater the relative permeability decreases and the greater the post-peak relative permeability increases. The gas pressure has a great influence on the energy of the sample. The elastic strain energy ratio (Ue/U) increases with the increase in gas pressure, and the dissipative energy ratio (Ud/U) decreases with the increase in gas pressure. The coal-rock composite constitutive model based on energy dissipation is in good agreement with the experimental curves.

Topics & Concepts

Permeability (electromagnetism)CoalDissipationComposite numberOverburden pressureDissipative systemComposite materialGas pressureMechanicsGeotechnical engineeringMaterials sciencePetroleum engineeringThermodynamicsPhysicsGeologyChemistryOrganic chemistryBiochemistryMembraneRock Mechanics and ModelingCoal Properties and UtilizationGeoscience and Mining Technology
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