突出易自燃煤层切顶卸压复合灾害治理技术研究

doi:10. 11799/ ce202306010

摘要/Abstract

摘要：

针对突出易自燃煤层切顶卸压自成巷工程中面临的煤层瓦斯-火协同治理技术瓶颈, 以沙曲二矿3402 工作面为研究对象, 采用了理论分析、数值模拟及现场工程实践相结合的研究方法, 研究了突出易自燃煤层切顶卸压关键技术参数, 分析了巷道围岩应力、位移场分布特征, 探究了在该地质条件下煤层瓦斯-火的协同防控机理, 研究结果表明: 巷道切顶角度为15°, 切割缝长度为6 m 时,卸压后实体煤侧应力集中区应力峰值最小, 且顶板岩层位移最小。留巷段喷涂高分子堵漏材料可切断采空区瓦斯越流通道, 使其回风流瓦斯浓度稳定在0. 36%~0. 41%; 优化顶板瓦斯抽采钻孔及采空区埋管参数可实现高效抽采; 向采空区内喷洒雾化阻化剂后, 其内未检测出自然发火标志性气体, 形成了复杂地质条件下“以防为主、防灭结合、高度协同” 防控思路及堵-抽-注协同治理技术。

关键词: 突出易自燃煤层, 切顶参数, 采空区抽采, 瓦斯-火协同防控

Abstract:

In view of the bottleneck of coal seam gas fire prevention and control collaborative control technology faced by roof cutting and pressure relief technology under complex geological conditions of outburst and spontaneous combustion coal seam, taking 3402 working face of Shaqu No.2 Coal Mine as the research object, the key technical parameters of roof cutting and pressure relief under complex geological conditions of outburst and spontaneous combustion coal seam are studied by combining theoretical analysis, numerical simulation and field engineering practice, This paper analyzes the distribution characteristics of stress and displacement field of surrounding rock of roadway under this geological condition, and explores the cooperative prevention and control mechanism of coal seam gas and fire prevention under this complex geological condition. The research results show that when the cutting angle of roadway is 15 ° and the length of cutting seam is 6M, the stress peak value in the stress concentration area of solid coal side after pressure relief is the smallest, and its size decreases by about 56.25%, and at this time the roof rock mass is stable The displacement is the smallest. After spraying polymer plugging material to the retained roadway section, the gas flow passage in the goaf was cut off in time, and the gas concentration in the return air flow was stabilized at 0.36% ~ 0.41%. After optimizing the design parameters of roof gas drainage borehole and goaf buried pipe, the average gas drainage concentration in the goaf was 6.1%, and the average gas drainage purity was 3.1m3/min, which realized efficient gas drainage in the goaf. After spraying atomization inhibitor into the goaf, no CO gas, ethylene, acetylene and other spontaneous combustion symbolic gases were detected, which greatly reduced the risk of residual coal spontaneous combustion, formed the prevention and control idea of "prevention first, combination of prevention and elimination, high coordination" under complex geological conditions, and the collaborative control technology of plugging (tenable), pumping (obtained) and injection (effective), which alleviated the risk of coal spontaneous combustion This paper analyzes the contradiction between gas and fire control in roof cutting and pressure relief roadway under the condition of outburst and spontaneous combustion coal seam, and provides theoretical reference for the maintenance of the same type of roof cutting and pressure relief roadway.

刘艳红, 程志恒, 张俊虎, 高浩斌, 高贤成, 陈振江, 王宏冰, 陈　亮, 罗　欣. 突出易自燃煤层切顶卸压复合灾害治理技术研究[J]. 煤炭工程, 2023, 55(6): 54-59.

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