基于CT三维重构的煤体注水渗流模型及主控因素研究

Research on Coal Body Water Injection Seepage Model and Main Control Fac-tors Based on CT 3D Reconstruction

  • 摘要: 煤层注水技术是目前矿井除尘的主要技术手段之一,起到润湿煤体源头减尘的作用。但随着开采深度的增加,地质条件越发复杂,极大影响煤层注水的润湿效果,同时给润湿范围的预测带来极大的挑战。因此,为了提高煤层注水的效果,结合煤体固有属性、孔隙尺度等影响因素,首先,引入连通孔隙率,建立了包含孔喉,等效孔径、有效孔隙率、毛细管束、迂曲度、流动路径在内的渗流模型;其次采用在线CT扫描加载渗流系统对内蒙古煤矿、同富新煤矿、梅花井煤矿、大黄山煤矿以及磁窖沟煤矿5个煤矿不同变质程度的煤进行三维重建可视化煤体微细观有效孔隙结构,运用分形理论,提取三维重建后的煤体有效的连通孔隙结构参数进行计算;再次通过实验对5个煤矿不同变质程度的煤进行渗透率实测,验证模型的正确性;最后引入“敏感度”来表征每种影响因素对渗流量的影响程度,运用Morris筛选法,将数值分析法与渗流模型相耦合,定量筛选了煤体坚固性系数、迂曲度分形维数、有效孔隙率、体积分形维数、孔喉半径等主控因素,并分析了各主控因素对注水能力的影响规律。主要得出以下结论,1) 建立了包含煤体坚固性系数、迂曲度分形维数、有效孔隙率、体积分形维数、孔喉半径在内的渗流模型,通过计算对比,可以用来衡量内蒙古、同富新煤矿、梅花井煤矿、大黄山煤矿以及磁窖沟煤矿等不同地区煤的注水能力;2) 影响煤层注水能力的主控因素从大到小依次为煤体坚固性系数、迂曲度分形维数、有效孔隙率、体积分形维数、孔喉半径,其中煤体坚固性系数的敏感度最大,达到16.765;3) 综合评价了各主控因素对注水能力的影响规律,其中注水能力和坚固性系数(f)的关系呈正弦函数曲线分布,注水能力随着有效孔隙率增大,迂曲度分形维数和体积分形维数减小,注水能力越强。研究结果可为进一步完善煤层注水渗流理论、增强煤层注水润湿效果,防治矿井粉尘提供了理论依据。

     

    Abstract: Coal seam water injection technology is one of the main technical means of mine dust removal, which plays the role of wetting the coal source and reducing dust. However, with the increase of mining depth, the geological conditions become more and more complex, which greatly affects the wetting effect of coal seam water injection, and brings great challenges to the prediction of wetting range. Therefore, in order to improve the effect of coal seam water injection, combined with the intrinsic properties of coal and the scale of pores and fissures, firstly, the connected porosity was introduced, and the seepage model including pore throat, equivalent pore size, effective porosity, capillary bundle, tortuosity and flow path was established. The three-dimensional reconstruction of the coal with different metamorphic degrees in the five coal mines of Dahuangshan Coal Mine and Cijiaogou Coal Mine was carried out to visualize the microscopic effective pore fracture structure of the coal body, and the effec-tive connected pore fracture structure parameters of the three-dimensional reconstruction coal body were extract-ed by fractal theory for calculation. In order to characterize the influence of each influencing factor on the seepage flow, the Morris screening method was used to couple the numerical analysis method with the seepage model, and the main controlling factors such as the solidity coefficient, the fractal dimension of curvature, the effective po-rosity, the volume integral dimension, and the pore throat radius were quantitatively screened, and the influence of each controlling factor on the water injection capacity was analyzed. The following conclusions are drawn: 1) a seepage model including coal solidity coefficient, tortuosity fractal dimension, effective porosity, volume fractal dimension and pore throat radius is established, which can be used to measure the water injection capacity of coal in different areas such as Inner Mongolia, Tongfuxin Coal Mine, Meihuajing Coal Mine, Dahuangshan Coal Mine and Cijiaogou Coal Mine through calculation and comparison;2) The main controlling factors affecting the water injection capacity of coal seams are coal solidity coefficient, tortuosity fractal dimension, effective porosity, volume integral shape dimension, pore throat radius, in which the sensitivity of the coal solidity coefficient is the largest, reaching 16.765;3) The influence of the main controlling factors on the water injection capacity was comprehensively evaluated, and the relationship between the water injection capacity and the solidity coefficient (f) was distributed in a sinusoidal curve, and the water injection capacity increased with the increase of the effec-tive porosity, and the fractal dimension of curvature and volume fractional dimension decreased, and the stronger the water injection capacity. The research results can provide a theoretical basis for further improving the theory of coal seam water injection seepage, enhancing the wetting effect of coal seam water injection, and preventing and controlling mine dust.

     

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