Analysis of mine pressure behavior law during deep mining face crossing fault
高超储丹东陈璋林彭瑞杨学红
GAO Chao;CHU Dandong;CHEN Zhanglin;PENG Rui;YANG Xuehong
济宁矿业集团有限公司霄云煤矿华北科技学院安全工程学院
为了进一步掌握深部冲击地压矿井工作面过断层期间超前压力影响范围,保证工作面顶板安全,采用数值模拟和理论分析相结合的方法研究鲁西南某冲击地压矿井回采过断层的影响,并建立了相对应的模型。结果表明:断层对煤层最大主应力分布影响较大,轨道顺槽巷帮最大主应力随与切眼距离增大而减小,而胶带顺槽巷帮最大主应力随与切眼距离增大,与断层距离减小而减小;随与切眼距离增大,与断层距离增大而增大。回采期间,其超前影响距离为85~95m区间,在回采期间应对轨道顺槽超前范围加强监测。
In order to further grasp the range of advance pressure impact during the mining of deep-seatedrock burst-prone coal seams across faults and ensure the safety of the roof in the mining face,a combination ofnumerical simulation and theoretical analysis was used to study the impact of fault crossing on mining in a rockburst-prone coal mine in southwest Shandong Province,and a corresponding model was established.The resultsshow that the fault has asignificant influence on the distribution of the maximum principal stress in the coalseam.The maximum principal stress in the track parallel to the fault decreases with the increase of the distance from the open-off cut,while the maximum principal stress in the tape parallel to the fault decreases withthe increase of distance from the cutting eye and the decrease of distance to the fault.With the increase of distance from the open-off cut and the decrease of the distance from the fault,the maximum principal stress increases.During the mining period,the range of advanced influence is within the85-95m,and the monitoring ofthe advance range of the track trough should be strengthened during the mining period.
冲击地压矿井数值模拟回采断层超前影响
impact ground pressure mine;numerical simulation;mining;faults ;advance impact
主办单位:煤炭科学研究总院有限公司 中国煤炭学会学术期刊工作委员会