腾晖矿复采采区大巷过空区支护技术

    Support technology for main roadway passing through goaf in Tenghui Mine re-mining area

    • 摘要: 为解决腾晖煤矿2#煤过老空区巷道掘进期间的冒顶问题,开展了掘进工作面揭露老空区期间的顶底板位移场与应力场演化规律研究。采用理论计算、现场监测与数值模拟结合的方式得到了掘进巷道在揭露老空区期间不同阶段的应力状态及受影响范围,确定了掘进巷道过老空区支护方案。计算结果表明:在煤层中老空区边缘存在5~10 m的塑性区域,当巷道不断向老空区方向推进时,掘进工作面同老空区之间的柱状煤体应力状态从弹性向塑性转变;巷道掘进期间顶底板位移演化趋势并不同步,随着巷道不断靠近采空区,顶板位移变形速率增加20%,底板变形量则随着掘进工作面靠近采空区变形速率逐渐降低直至达到稳定值。现场实验结果表明:50 d内顶底板相对变形量的增加控制在25 mm,两帮相对变形量的增加控制在23 mm,巷道围岩变形情况得到了有效控制。

       

      Abstract: In order to solve the problem of roof caving during the excavation of the roadway of Tenghui 2# coal passing through the old goaf, the research on the evolution law of the displacement field and stress field of the roof and floor during the heading face to reveal the old goaf was carried out. The stress state and affected range of the tunneling roadway at different stages during the disclosure of the old goaf were obtained by combining theoretical calculation, on-site monitoring and numerical simulation, and the support scheme of the tunneling roadway over the old goaf was determined. The calculation results show that there is a plastic area of 5-10 m at the edge of the old goaf in the coal seam, and when the roadway continues to advance towards the old goaf, the stress state of the columnar coal body between the heading face and the old goaf changes from elastic to plastic. The evolution trend of roof and floor displacement is not synchronized during roadway excavation, and the deformation rate of roof displacement increases by 20% as the roadway gets closer to the goaf, and the deformation rate of the floor gradually decreases as the heading face approaches the goaf until it reaches a stable value. The field experimental results show that the increase of the relative deformation of the top and bottom plates in 50 d is controlled at 25 mm, and the increase of the relative deformation of the two groups is controlled at 23 mm, and the deformation of the surrounding rock of the roadway is effectively controlled.

       

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