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主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
钻孔变形失稳条件下抽采负压及流量分布规律试验研究
  • Title

    Experimental study on distribution of negative pressure and flow rate under conditions of deformation and instability of boreholes

  • 作者

    张学博王文元沈帅帅

  • Author

    ZHANG Xuebo WANG Wenyuan SHEN Shuaishuai

  • 单位

    煤炭安全生产河南省协同创新中心,河南省瓦斯地质与瓦斯治理重点试验室—省部共建国家重点试验室培育基地,河南理工大学安全科学与工程学院

  • Organization
    Collaborative Innovation Center of Coal Work Safety State Key Laboratory Cultivation Base for Gas Geology and
    Gas Control College of Safety Science and Engineering,Henan Polytechnic University
  • 摘要

    为了研究钻孔变形失稳对瓦斯抽采的影响和判定钻孔失稳坍塌区域,根据钻孔内瓦斯流动变质量流的特点及钻孔变形情况,设计搭建了考虑钻孔变形失稳的瓦斯抽采试验系统,测试分析了钻孔不同变形失稳、不同负压情况下钻孔负压及流量分布规律,提出了考虑钻孔变形的负压损失计算方法。结果表明:①完整孔抽采负压沿孔长分布大致呈线性分布,其负压损失较小,钻孔不同部位负压较接近,钻孔抽采流量沿孔长大致亦呈线性分布。孔口负压越高,钻孔抽采流量越大,钻孔负压损失越大,不过与孔口负压相比仍较小,仅占2.93%~3.62%。②孔底塌孔时,塌孔段负压损失比完整段负压损失大,由于塌孔段孔内流量较小,其负压损失亦不大,仅占孔口负压的2.75%~4.03%。塌孔时总负压损失占孔口负压的4.68%~6.14%,比完整孔总负压损失有所增加,其抽采总流量比完整孔抽采总流量略有降低。孔底塌孔对瓦斯抽采效果影响不大。③孔底堵孔时,塌孔段孔内煤体与周围煤体互相接触成为连续介质,塌孔段瓦斯流动变成了渗流,其抽采压力变成了煤层瓦斯压力,与完整孔和堵孔时抽采流量相比,塌孔时钻孔抽采流量明显降低,直至流量降为0。堵孔对瓦斯抽采效果影响较大。④基于钻孔负压损失计算理论、钻孔不同变形失稳情况下负压分布及流量分布试验结果,提出了考虑钻孔变形的抽采钻孔负压损失计算方法,并对其进行了验证。研究结果可以为钻孔失稳坍塌区域判定及钻孔失稳坍塌的精确防护提供理论基础。




  • Abstract
    In order to study the effect of borehole deformation and instability on gas drainage and determine the instability and collapse area of the borehole,accord ing to the characteristics of gas flow and variable mass flow in the borehole and the borehole deformation,the gas drainage experimental system considering the deform ation and instability of boreholes was constructed. The drainage test system was tested and the negative pressure and flow distribution law of the borehole were analyz ed under the conditions of different borehole deformation and instability and different negative pressure ,and a calculation method of negative pressure loss considering borehole deformation was proposed. The results show that:①The negative pressure of complete hole drainage is approximately linearly distributed along the length of t he hole,and the negative pressure loss is relatively small,the negative pressures at different parts of borehole are similar with each other,and the drainage flow of the b orehole is also roughly linearly distributed along the length of the borehole. The larger the orifice negative pressure,the larger the borehole drainage flow,and the larger the borehole negative pressure loss. It is worth noting that borehole negative pressure is still much smaller compared with the orifice pressure accounting for only 2.9 3% ~ 3.62%.②When the bottom of the hole is collapsed,the negative pressure loss in the collapse section is larger than that in complete section. Because the flow i n the collapsed section is smal,its negative pressure loss is not large. ,accounting for only 2.75% ~ 4.03% of the negative pressure at the orifice. When the hole collaps es,the total negative pressure loss of hole collapse accounts for 4.68% ~ 6.14% of the negative pressure of the orifice,which is higher than the total negative pressure | oSs of complete hole,and the total drainage flow is slightly lower than the total drainage flow of complete hole. The hole collapse at the bottom of the hole has lttle effec t on the gas drainage effect.③When the hole is blocked at the bottom of the hole,the coal in the collapsed section of the borehole is connected with the surrounding coal to form a continuous medium,the gas flow in the collapsed section becomes seepage,and the drainage pressure becomes the gas pressure of the coal seam,which is in line with the complete hole and plugging. Compared with the drainage flow at the time of the hole,the drainage flow at the time of the hole collapse is significantly r educed until the flow rate drops to zero. Hole plugging has a great impact on the gas extraction effect.④Based on the calculation theory of borehole negative pressur e loss,the negative pressure distribution and flow distribution test results under different deformation and instability of boreholes,a calculation method of borehole negati ve pressure loss considering borehole deformation was proposed and was verified. The research results can provide theoretical basis for the determination of borehole instability and collapse area as well as the precise protection of borehole instability and collapse.
  • 关键词

    钻孔变形抽采钻孔负压分布流量分布

  • KeyWords

    borehole deformation; drainage borehole; negative pressure distribution; flow distribution;

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    • 完整孔不同抽采负压情况下孔内流量分布

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