Numerical Simulation Study on the Influencing Factors and Laws of Gas Emission in Coal Mine Excavation Face
DOI:
https://doi.org/10.54097/sq032e84Keywords:
Coal Mine; Excavation Working Face; Gas Emission Rate; COMSOL Multiphysics Software; Influence Factor.Abstract
In order to clarify the influencing factors and variation rules of gas emission in the excavation face, the 4301-working face of the East Well of Sihe Mine was taken as the research object. Through laboratory experiments, the influence characteristics of coal structure and gas content on gas emission rate were analyzed. Furthermore, the COMSOL Multiphysics numerical simulation software was used to investigate the influence of gas pressure, excavation speed, and soft layer thickness on the gas emission rate of the excavation face. The research results show that the gas emission rate is not only affected by the coal structure and gas content, but also by gas pressure, excavation speed, and soft layer thickness. The amount of gas emission is positively correlated with gas pressure, and the higher the gas pressure, the greater the amount of gas emission. The gas emission rate increases linearly with the excavation speed, and the influence of soft layer thickness on the gas emission rate increases with the increase of excavation speed.
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[1] Zhu Moran. Research on dynamic prediction of gas emission in working face based on gas content inversion [J]. Coal Engineering, 2024, 56 (04): 133-137.
[2] Ma Xuegang. Study on the influencing factors of mine gas emission [J]. Shandong Coal Science and Technology, 2023, 41 (06): 92-94.
[3] Yang Tao, Xie Ziqi, Hu Jingyan, et al. Study on the influencing factors of gas emission in mining face based on regression Shapley value decomposition method [J]. Safety in Coal Mines, 2023, 54 (11): 18-24.
[4] Li Chunxin, Zhang Minbo, Wang Zichao. Research on the occurrence patterns and characteristics of coal mine gas accidents in China from 2012 to 2021 [J]. Coal and Chemical Industry, 2023, 46 (04): 103-107.
[5] Wang Li. Research on the law and management countermeasures of gas outburst accidents in Chinese coal mines [J]. China Coal, 2016, 42 (11): 104-109+121.
[6] Lv Fu, Liang Bing, Sun Weiji, et al. Prediction of gas emission in mining face based on principal component regression analysis [J]. Journal of China Coal Society, 2012, 37 (01): 113-116.
[7] Fu Hua, Jiang Wei, Dan Xinxin. Research on coal mine gas emission prediction model based on coupling algorithm [J]. Journal of China Coal Society, 2012, 37 (04): 654-658.
[8] Liu Xiaohu, Cha Wenhua, Xiong Lijun, et al. The relationship between mining rock activity and gas emission in the mining face [J]. Safety in Coal Mines, 2013, 44 (03): 176-178+182.
[9] Ye Chuan, Li Yun, Leng Chao. Research on the gas emission law of high gas mining face [J]. Coal Technology, 2015, 4 (08): 168-171.
[10] Gao Liang, Li Xuejie, Pan Jicheng. Main control factors and control measures for gas outburst in the mining face of Bultai Mine [J]. Journal of Safety Science and Technology, 2019, 15 (05): 130-135.
[11] Pan Jicheng, Nie Haiyang. Analysis of influencing factors and countermeasures for gas emission in high-yield and high-efficiency fully mechanized mining face [J]. China Coal, 2022, 48 (S1): 68-75.
[12] Tu Yuqiang. Analysis of gas emission characteristics and influencing factors in Beichuan Coal Mine [J]. Coal and Chemical Industry, 2020, 43 (04): 92-94.
[13] Liu Huimin, Zhang Bin. Factors affecting gas outburst in excavation face and prevention strategies [J]. Energy and Energy Conservation, 2023, (10): 41-43.
[14] Yan Jiangwei, Zhang Zimin, Zhang Yugui. Analysis and prediction of main control factors for gas outburst in the East Area of Sihe Coal Mine [J]. Mining Safety & Environmental Protection, 2007 (06): 7-9+95.
[15] Ma Haifeng, Wang Lei, Yin Zhiqiang, et al. Research on gas seepage model and transport law in coal tunnel excavation [J]. China Coal, 2013, 39 (08): 93-96.
[16] Liang Bing, Yuan Xinpeng, Sun Weiji. This coal seam gas extraction seepage model and numerical simulation [J]. Journal of Safety and Environment, 2015, 15 (05): 95-99.
[17] Shi Feng, Wang Hongtu, Shu Cai. Dynamic gas emission law of coal wall in coal roadway excavation based on solid gas coupling model [J]. Journal of China Coal Society, 2018, 43 (04): 1024-1030.
[18] Wang Dengke, Tang Jiahao, Wei Jianping, et al. Multi mechanism fluid structure coupling model of coalbed methane and numerical simulation analysis of gas extraction [J]. Journal of China Coal Society, 2023, 48 (02): 763-775.
[19] Wang Xiu. Coupling analysis of gas field and flow field in working face based on COMSOL [J]. Shandong Coal Science and Technology, 2024, 42 (01): 60-63.
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