Abstract
Gas drainage through long seam boreholes is an effective method to prevent gas disasters in coal mines. In this paper, a multifield coupling model of gas migration in gas-bearing coal was first established. Then, a quantitative characterization method of gas drainage effect was put forward. Finally, the extraction effect of long boreholes was obtained under different layouts and drilling lengths. The research results show that, under the arrangement of long boreholes along the seam, the gas pressure around the borehole decreases significantly with the extraction time. There is no extraction blank in the middle of the working face. However, it is easy to cause uneven gas drainage in the combined arrangement of the long boreholes along the seam and the penetrating boreholes. Furthermore, it is found that the drainage volume of the long boreholes along the seam is similar to that of the joint layout under the same drainage time. As the length of the borehole increases, the influencing range of gas drainage increases. When the borehole lengths are 150 m and 240 m, the drainage volumes are about 1.31 and 2.50 times that of the 90 m boreholes, respectively. The research achievements could provide a specific reference for the layout of long boreholes along the bedding and the determination of reasonable parameters for gas drainage on site.
Highlights
Gas drainage is an effective way to eliminate the danger of coal and gas outbursts in China at present [1,2,3,4]
Gas migration significantly affects the gas drainage effect of long boreholes. erefore, a correct understanding of the law of coal gas migration is of great significance for preventing and controlling coal mine gas disasters and promoting long drilling technology [8,9,10,11,12]
Many scholars have studied the multifield coupling model of coal seam gas migration. e coal reservoir is a typical double pore system composed of interlaced fractures and coal matrices [13,14,15]
Summary
Gas drainage is an effective way to eliminate the danger of coal and gas outbursts in China at present [1,2,3,4]. Coal seam gas migration mainly includes two processes: diffusion and seepage. In terms of theoretical calculations, the effective gas drainage radius is determined mainly based on the gas flow theory in the borehole and the characteristics of coal seam gas seepage. Is paper first elaborates and establishes a multifield coupling model of gas migration in coal which considers coal matrix gas diffusion, fissure gas seepage, permeability evolution law, and coal deformation law. En, the change value of the residual gas content per unit time is used to calculate the gas drainage volume and quantify the gas drainage effect of the long borehole. The COMSOL software was adopted, and the fully coupled numerical simulation method was used to analyze the drainage effects of different layouts and lengths of long boreholes along the bedding. The COMSOL software was adopted, and the fully coupled numerical simulation method was used to analyze the drainage effects of different layouts and lengths of long boreholes along the bedding. e research results are expected to provide a theoretical basis for gas drainage from long boreholes along the bedding
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