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Overlying strata movement and stress evolution laws triggered by fault structures in backfilling longwall face with deep depth

机译:用深度深度回填长墙面的故障结构引发的地层运动和应力演进法

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摘要

Many dynamic disasters such as coal wall caving and roof falling have happened during longwall face crossing fault. Combined with the coal seam geological conditions in the 1302 longwall face AB coal mine, the paper comprehensively studies the overlying strata movement and the stress evolution laws of stope during superhigh-water material (SHWM) backfilling longwall face across fault by UDEC numerical simulation, theoretical analysis and on-site measurement. The results show that the stress during stable state is affected by the fault will increases abnormally. While the longwall face pass through the fault, the stress will abated and the vertical displacement of the overlying strata of two sides of the fault is significantly different. The fault significant blocks the propagation of stress and development of plastic zone. The superhigh-water material filling mining management roof has good protection effect on the roof when the longwall face encounters fault, which can effectively weaken the blocks effect of fault on stress propagation and plastic zone development. The numerical simulation results are consistent with the field experiments, and the research result provides theoretical basis and technical guidance for safe and efficient production during superhigh-water material backfilling longwall face through the fault.
机译:在长墙面穿越故障期间发生了许多动态灾害,如煤墙塌陷和屋顶坠落。结合煤层地质条件1302长墙脸部煤矿,本文全面研究超高水材料(SHWM)在超高水材料(SHWM)跨越故障的超高水材料(SHWM)跨越故障的压力演化规律。理论分析和现场测量。结果表明,稳定状态期间的应力受到故障的影响将异常增加。虽然长壁面脸部通过故障,但压力将减轻,并且故障两侧的覆盖层的垂直位移显着不同。故障显着阻挡了塑料区的应力和发展的传播。超高水料灌装采矿管理屋顶对屋顶有良好的保护作用,当长墙面遇到故障时,可以有效地削弱故障对应力传播和塑料区开发的影响。数值模拟结果与现场实验一致,研究结果为安全和有效的生产在超高水材料通过故障回填长墙层的安全性和有效的生产提供了理论依据和技术指导。

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