Abstract
The pore and fracture structure of coal is the main factor that affects the storage and seepage capacity of coalbed methane. The damage of coal structure can improve the gas permeability of coalbed methane. A coal sample with a drilled hole was kept inside of a custom-designed device to supply confining pressure to the coal sample. Liquid nitrogen was injected into the drilled hole of the coal sample to apply cyclic cold loading. Confining pressures varying from 0~7 MPa to the coal sample were applied to explore the relationship between the structural damage and confining pressure. The structural damage rules of coal samples under different confining pressure were revealed. The results showed that: (1) The structural damage degree of the coal sample increases with the increase of confining pressure; (2) The coal sample was broken after three cycles of cold loading under 7 MPa confining pressure; (3) Without confining pressure, the coal sample is more likely to be damaged or even destroyed by cold liquid nitrogen. (4) The fracture extends along the stratification direction of coal samples, which is significant for coal samples with original fractures, but not obvious for the coal sample without fracture. The research results provide a new method and theoretical basis for permeability improvement of the coal seam.
Highlights
Nowadays, the world’s industrial production capacity increases rapidly, which brings in extremely huge energy consumption and aggravated environmental pollution
When coalbed methane is efficiently collected and fully burned as energy, the generated carbon dioxide and water will be discharged into the air [8]
Thebottom confining pressure as constraints to prevent the movement of the coal sample due to deformation
Summary
The world’s industrial production capacity increases rapidly, which brings in extremely huge energy consumption and aggravated environmental pollution. Countries around the world are committed to the development and use of efficient clean energy [1,2]. [3,4,5,6,7] Those clean energies can meet the needs of industrial development and produce little waste of environmental pollution. As a type of non-renewable energy, the main components of coalbed methane are methane, carbon dioxide, and nitrogen. When coalbed methane is efficiently collected and fully burned as energy, the generated carbon dioxide and water will be discharged into the air [8]
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