Mechanical behaviour and seepage characteristics of coal under the loading path of roadway excavation and coal mining

The mechanical behaviour and seepage characteristics of coal under the mining engineering disturbance are of great significance to prevent gas disasters. Based on the geological conditions of the No. 12 mine of the China Pingdingshan Mining Group, the mechanical seepage experiments of coal under the...

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Bibliographic Details
Published inGeomatics, natural hazards and risk Vol. 12; no. 1; pp. 1862 - 1884
Main Authors Fu, Chenghang, Xie, Heping, Gao, Mingzhong, Wang, Fei, Xie, Jing, Liu, Junjun, Yang, Bengao, Tang, Ruifeng
Format Journal Article
LanguageEnglish
Published Abingdon Taylor & Francis 01.01.2021
Taylor & Francis Ltd
Taylor & Francis Group
Subjects
Coal
Coal mining
coal seam mining
Crack propagation
Disasters
Dredging
Excavation
Fracture zones
Gas disaster
Gushing
Mechanical properties
Mining
Mining engineering
Permeability
Residual strength
Roads
roadway excavation
Seepage
seepage characteristic
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Summary:The mechanical behaviour and seepage characteristics of coal under the mining engineering disturbance are of great significance to prevent gas disasters. Based on the geological conditions of the No. 12 mine of the China Pingdingshan Mining Group, the mechanical seepage experiments of coal under the stress path of roadway excavation and coal mining were carried out. The experimental result shows that: The coal in fracture zone is most strongly affected by the roadway excavation. The samples showed obvious expansion phenomenon, and their cracks were the most complex. They formed effective permeability before the peak strength, and their permeability was the largest; the coal in disturbance zone is less affected by roadway excavation, and the coal samples formed effective permeability after the peak strength. Their permeability was smaller than the samples in fracture zone; the coal in original rock stress zone is only affected by coal mining, and its crack growth degree is the lowest. The coal samples formed stable permeability in the residual strength stage, and their permeability was the smallest. In practical engineering, special attention should be paid to the sudden gas gushing caused by the sudden increase of coal seam permeability, which will cause gas disaster.
ISSN:1947-5705
1947-5713
DOI:10.1080/19475705.2021.1948451