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| Study on the influence of roof drainage on the distribution of microseismic events |
| Lu Shengliang, Si Guanghong, Hao Jun |
| Yuwu Coal Industry Co., Ltd., Lu’an Chemical Group, Changzhi 046000, China |
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Abstract The drainage and depressurization before mining in the roof water abundance area could induce the mining pressure behavior of the working face, which posed a threat to the safe mining of the coal seam in the roof water abundance working face. In this paper, combined with the drainage and depressurization process of No.N1105 Face in Yuwu Coal Industry, microseismic monitoring was carried out on the mining of roof water abundance working face after drainage. It was found that after the roof was drained, the frequency and energy of microseismic events at the edge of the water abundance area and its outside were much higher than those in the water abundance area. The peak position of microseismic energy was 70-80 m away from the edge of the water abundance area, indicating that this area was the key area for the prevention and control of mine pressure. The research results could provide guidance for the prevention and control of mining pressure accidents caused by drainage and depressurization of coal mine roof.
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| [ 1 ] 舒凑先,姜福兴,魏全德,等. 疏水诱发深井巷道冲击地压机理及其防治[ J ]. 采矿与安全工程学报,2018,35( 4 ):780 - 786.
[ 2 ] 王 博,朱斯陶,魏全德,等. 顶板疏水快速回采工作面冲击地压机理及防治措施[ J ]. 煤矿安全,2020,51( 7 ):205 - 209.
[ 3 ] 王卫宏. 煤矿井下顶板疏水综采面冲击地压原因分析及治理[ J ]. 山西冶金,2022,45( 4 ):124 - 125.
[ 4 ] 李生亚. 顶板疏水快速回采工作面冲击地压机理及防治措施研究[ J ]. 当代化工研究,2021( 21 ):41 - 42.
[ 5 ] 王 博,姜福兴,朱斯陶,等. 深井工作面顶板疏水区高强度开采诱冲机制及防治[ J ]. 煤炭学报,2020,45( 9 ):3 054 - 3 064. |
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