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- Title
Experimental Study on the Effect of Unloading Paths on Coal Damage and Permeability Evolution.
- Authors
Hao, Congmeng; Wang, Youpai; Liu, Guangyi
- Abstract
Coal seam cavitation is one of the most effective techniques for gas disaster control in low-permeability coal. Due to the difference in cavitation method and process, the damage degree and fracture development range of the coal body around the cavern are greatly different, and the effect of increasing the permeability of the coal body is further changed. In order to further understand the permeability enhancement mechanism of cavitation technology on low-permeability coal and effectively guide engineering applications, this paper conducted experimental research on the unloading damage and permeability evolution characteristics of coal under different cavitation paths using a coal-rock "adsorption-percolation-mechanics" coupling test system. Through the analysis of coal strength and deformation characteristics, coal damage characteristics, and the evolution law of coal permeability combined with the macroscopic damage characteristics of coal, the strength degradation mechanism of unloaded coal and the mechanism of increased permeability and flow were revealed. The results show that unloading can significantly reduce the strength of coal, and the greater the unloading rate, the more obvious the reduction. The essence of this is that unloading reduces the cohesion and internal friction angle of coal—damage and breakage are the most effective ways to improve the permeability of the coal body. Unloading damaged coal bodies not only significantly improves the permeability of the coal body but also improves the diffusion ability of gas, and finally, shows a remarkable strengthening effect of gas extraction.
- Subjects
GAS well drilling; INTERNAL friction; COAL gas; GAS extraction; TEST systems; CAVITATION erosion; COAL gasification
- Publication
Processes, 2024, Vol 12, Issue 8, p1661
- ISSN
2227-9717
- Publication type
Article
- DOI
10.3390/pr12081661