高级检索

高瓦斯综采工作面定向高位钻孔瓦斯抽采技术研究

Research on gas drainage technology of directional high-level borehole in high gassy fully-mechanized mining face

  • 摘要: 为改善成庄矿采空区高位钻孔瓦斯抽采效果,采用理论计算和数值模拟的方法研究采动裂隙演化规律,分析顶板裂隙发育范围,通过在裂隙带范围布置不同层位的高位钻孔模拟研究了其瓦斯抽采效果和瓦斯治理效果,得出了高位钻孔最佳布置层位。结果表明:顶板岩层垮落、裂隙发育贯通整体呈拱形分布,裂隙带范围为21.90 m~62.54 m;将高位钻孔布置在距煤层顶板45 m的位置,既可以抽采到高浓度瓦斯,又能对工作面上隅角瓦斯起到良好的治理作用;现场施工定向高位钻孔后,瓦斯抽采浓度、纯量可以在较长的一段推进度内保持较高水平,工作面回采期间,上隅角最大瓦斯体积分数为0.69%,保证了安全生产。

     

    Abstract: This paper is devoted to improve the efficiency of gob gas drainage using directional high-level boreholes in Chengzhuang mine.The evolution and development range of roof cracks are studied using both theoretical calculation and numerical simulation. The gas drainage efficiency and gas control effect are studied when the high-level boreholes are placed at different layers of the fracture zone to determine the best horizontal location of the high level borehole.The results show that the caving and fissure development of roof strata are arch distributed and the fracture zone is between 21.90 and 62.54 m. When the high-level boreholes are located 45 m away from the roof of the coal seam, the high concentration gas can be extracted efficiently while the gas in the upper corner can be well controlled. The concentration and purity of gas extraction can be maintained at a high level for a long period of time after the directional high-level boreholes are constructed.This gas extraction technology ensures a safe production during mining the working face, which is evidenced by the maximum gas concentration in the upper corner of 0.69%.

     

/

返回文章
返回