Improving the efficiency of the technology and organization of the longwall face move during the intensive flat-lying coal seams mining at the Kuzbass mines

IF 2.4 Q2 MINING & MINERAL PROCESSING Journal of Mining Institute Pub Date : 2021-09-20 DOI:10.31897/pmi.2021.3.3
А.А. Meshkov, O. Kazanin, A. Sidorenko
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引用次数: 7

Abstract

The reasons for the lag of the indicators of the leading Russian coal mines engaged in the longwall mining of the flat-lying coal seams from similar foreign mines are considered. The analysis of the efficiency of the longwall face move operations at the JSC SUEK-Kuzbass mines was carried out. A significant excess of the planned deadlines for the longwall face move during the thick flat-lying seams mining, the reasons for the low efficiency of disassembling operations and the main directions for improving the technology of disassembling operations are revealed. The directions of ensuring the operational condition of the recovery room formed by the longwall face are considered. The recommended scheme of converged coal seams mining and a three-dimensional model of a rock mass to justify its parameters are presented. Numerical studies using the finite element method are performed. The results of modeling the stress-strain state of a rock mass in the vicinity of a recovery room formed under conditions of increased stresses from the boundary part of a previously mined overlying seam are shown. The main factors determining the possibility of ensuring the operational condition of the recovery rooms are established. It is shown that it is necessary to take into account the influence of the increased stresses zone when choosing timbering standards and organizing disassembling operations at a interbed thickness of 60 m or less. A sufficient distance from the gob of above- or undermined seams was determined to ensure the operational condition of the recovery room of 50 m, for the set-up room – 30 m. Recommendations are given for improving technology and organization of the longwall face move operations at the mines applied longwall mining of flat-lying coal seams with the formation of a recovery room by the longwall face.
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提高库兹巴斯煤矿平煤层密集开采中长壁工作面移动的技术和组织效率
分析了国外同类煤矿平煤层长壁开采的俄罗斯主要煤矿指标滞后的原因。对JSC SUEK-Kuzbass矿山长壁工作面移动作业的效率进行了分析。揭示了厚平煤层开采中长壁工作面移动时间明显超过计划工期、拆卸作业效率低的原因和改进拆卸作业技术的主要方向。考虑了保证长壁工作面形成的回采室运行条件的方向。提出了收敛煤层开采的推荐方案,并建立了岩体三维模型,对其参数进行了论证。采用有限元方法进行了数值研究。图中显示了在先前开采的上覆煤层边界部分应力增加的条件下形成的恢复室附近岩体的应力-应变状态的模拟结果。确定了保证康复室运行条件的可能性的主要因素。结果表明,在互层厚度小于等于60 m的情况下,在选择支护标准和组织拆除作业时,有必要考虑应力增加带的影响。确定与上、破坏煤层采空区的足够距离,保证采空区50 m,设置室30 m的作业条件。对平煤层长壁开采采用长壁工作面形成回采室的矿井,提出了改进长壁工作面移动作业技术和组织的建议。
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来源期刊
Journal of Mining Institute
Journal of Mining Institute MINING & MINERAL PROCESSING-
CiteScore
7.50
自引率
25.00%
发文量
62
审稿时长
8 weeks
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