Research on the spontaneous combustion of the goaf at different advancing distances based on the dynamic evolution of porosity

Spontaneous combustion of residual coal in the goaf is one of the main disasters in coal mines. Understanding the law of spontaneous combustion of residual coal can effectively prevent coal mine fires. This paper establishes a dynamic evolution model of overburden caving and porosity in the goaf usi...

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Bibliographic Details
Published in:Case studies in thermal engineering 2024-08, Vol.60, p.104649, Article 104649
Main Authors: Zhao, Wenbin, Ma, Tingchao, Wang, Jinfeng, Zhang, Houqing, Chen, Guoqing, Wang, Zhongqiao, Chen, Xiangxiao, Liu, Fangshun, Chen, Xu
Format: Article
Language:English
Subjects:
Advancing distances
Exposure time
Goaf
Overburden caving
Porosity
Spontaneous combustion zone
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Summary:Spontaneous combustion of residual coal in the goaf is one of the main disasters in coal mines. Understanding the law of spontaneous combustion of residual coal can effectively prevent coal mine fires. This paper establishes a dynamic evolution model of overburden caving and porosity in the goaf using PFC numerical simulation software, and compares and analyzes the dynamic changes in porosity and the spontaneous combustion zone at advancing distances of 50 m, 70 m, and 100 m. The results show that when the working face advances 100 m, the porosity in the caving zone of the goaf decreases from 0–0.6 to 0.16–0.3. The range of the spontaneous combustion zone on the return air side expands from 42m-50 m to 39m–61 m, and on the inlet side, it expands from 0 to 22m–50 m. With increased exposure time, the spontaneous combustion zone range shifts slightly forward to 32m–55 m on the inlet side and 21m–49 m on the return side. This study reveals the dynamic evolution law of the spontaneous combustion zone in the goaf under the influence of different advancing distances and exposure times, which can assist in preventing goaf fires.
ISSN:2214-157X
2214-157X
DOI:10.1016/j.csite.2024.104649