浅埋极近距离采空区下巷道布置及支护研究  

作　　者：白心愿 高登彦 陈建华 BAI Xinyuan;GAO Dengyan;CHEN Jianhua(Daliuta Coal Mine,CHN Energy Shendong Coal Company,Shenmu 719315,China;School of Mines,China University of Mining and Technology,Xuzhou 221116,China)

机构地区：[1]国能神东煤炭大柳塔煤矿,陕西神木7193151 [2]中国矿业大学矿业工程学院,江苏徐州221116

出　　处：《煤炭工程》2025年第1期52-59,共8页Coal Engineering

摘　　要：针对浅埋极近距离采空区下长距离巷道掘进支护难题,选取活鸡兔井1-2煤层复合区1-2下205回风巷的掘进为研究对象,采用数值计算、理论分析和工程实践相结合的方法,对极近距离条件下合理的层间距及支护参数的确定进行了分析。研究表明:基于FLAC 3D数值模拟对采空区下长距离巷道布置及支护结构进行模拟计算,对比分析了不同煤柱宽度、层间距及支护方式下巷道围岩变形情况及应力分布状态,考虑到安全系数确定巷道内错距为21 m;当层间距较小时,锚杆锚索支护效果差,掘进期间顶板处于拉伸破坏状态,顶板控制难度大,分析得出合理的层间距应大于3 m;现有支护条件下,巷道顶煤厚度为3.5 m时巷道顶底板位移变化较小,且不需要架棚。理论计算得出上分层对底板最大破坏深度为2.02 m,且当巷道顶煤厚度为3.5 m时,支护强度校核满足要求。通过现场工程应用及围岩变形实测,当顶煤厚度为3.5 m时,采用“锚杆-锚索-喷浆”联合支护方式,巷道顶底板位移变化较小,顶板最大下沉量为20 mm,顶板控制效果良好,巷道未发生大范围顶板冒落或帮部片帮现象,验证了巷道布置及支护方案的合理性。Aiming at solving the problem of long-distance roadway tunneling under goaf of shallow and contiguous seams,we take the excavation of 1-2 lower No.205 air return roadway in 1-2 coal composite area of Huojitu Coal Mine as the background,and carry out numerical calculation,theoretical analysis and engineering practice,to analyze the reasonable spacing and support parameter of contiguous seams.The research shows that:based on FLAC 3D numerical simulation,the long-distance roadway layout and support structure under goaf are simulated and calculated,comparing and analyzing the roadway surrounding rock deformation and stress distribution under different coal pillar widths,seam spacing and support methods.Considering the safety factor,the roadway stagger distance is determined as 21 m.When the layer spacing is small,the support effect of anchor bolts and cables is poor,the roof is in a tensile failure state during excavation,and roof control is difficult,so a reasonable layer spacing should be greater than 3 m.Under the existing support conditions,when the thickness of top coal is 3.5 m,the displacement of the roof and floor of the roadway changes little,and no shade frame is required.The theoretical calculation shows that the maximum damage depth of the upper layer to the floor is 2.02 m,and when the thickness of top coal is 3.5 m,the support strength meets the check requirements.According to the field engineering application and the actual measurement of the surrounding rock deformation,when the thickness of top coal is 3.5 m,the joint support method of“bolt-cable-shotcrete”is adopted.The displacement of the roof and floor of the roadway changes little,and the maximum sinking of roof is 20 mm.The roof control effect is favorable,and there is no large-scale roof caving or rib spalling phenomenon in the roadway,which verifies the rationality of the roadway layout and support scheme.

关 键 词：极近距离 浅埋煤层 巷道布置 支护工艺 围岩控制 

分 类 号：TD353[矿业工程—矿井建设]