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基于瓦斯压力和瓦斯流速演化的抽采钻孔参数优化效果研究

Study on the effectiveness of parameter optimization for gas extraction boreholes based on gas pressure and gas flow rate evolution

  • 摘要: 以典型矿井底板为研究对象,基于现场试验数据,对普通穿层钻孔(ø94 mm、ø113 mm)与定向长钻孔(ø96 mm、ø120 mm)在不同抽采方式下的有效抽采半径及瓦斯减排效果进行了研究。利用OpenGeoSys(OGS)软件分别对普通穿层钻孔和定向长钻孔建立三维瓦斯流动模型,分析抽采瓦斯压力和瓦斯流速,并结合数值模拟结果与现场试验数据,综合分析不同钻孔半径与抽采方式对煤层瓦斯抽采效果的影响,以及不同抽采方式与抽采因素对抽采达标时间的影响。研究结果表明:在相同抽采条件下,孔径较大的普通穿层钻孔(ø113 mm)较ø94 mm钻孔可缩短预抽时间约20 d;定向长钻孔的抽采效率显著优于普通穿层钻孔,ø120 mm定向长钻孔在234 d预抽时间下的有效抽采半径达6 m,较ø96 mm钻孔减少30 d。瓦斯压力与抽采负压对普通穿层钻孔的抽采达标效率影响较大,煤层渗透性对定向长钻孔的抽采达标效率影响较大,且模拟结果显示定向长钻孔抽采达标时间较普通穿层钻孔的大大缩短。

     

    Abstract: Taking a typical coal seam floor as the research subject and based on field test data, this study investigates the effective drainage radius and gas emission reduction performance of conventional through-layer boreholes (ø94 mm, ø113 mm) and directional long boreholes (ø96 mm, ø120 mm) under different drainage modes. Three-dimensional gas flow models for both conventional through-layer boreholes and directional long boreholes were established using OpenGeoSys(OGS) software to analyze gas pressure and gas flow velocity during drainage. By integrating numerical simulation results with field test data, a comprehensive analysis was conducted on the influence of different borehole diameters and drainage methods on coal seam gas drainage efficiency, as well as the effects of various drainage methods and factors on the time required to meet the drainage standard. The results indicate that under the same drainage conditions, the larger-diameter conventional through-layer borehole (ø113 mm) can shorten the pre-drainage time by approximately 20 days compared with the ø94 mm borehole. The drainage efficiency of directional long boreholes is significantly superior to that of conventional through-layer boreholes. Specifically, the ø120 mm directional long borehole achieves an effective drainage radius of 6 m after 234 days of pre-drainage, reducing the pre-drainage time by 30 days relative to the ø96 mm borehole. Gas pressure and drainage negative pressure exert a considerable influence on the efficiency of reaching the gas drainage standard for conventional through-layer boreholes, whereas coal seam permeability has a greater impact on that for directional long boreholes. Moreover, simulation results indicate that directional long boreholes require considerably less time to meet the drainage standard than conventional through-layer boreholes.

     

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