原煤与型煤的孔隙结构与气体渗透特性的关系

    Relationship between pore structure and gas permeability of raw coal and briquette coal

    • 摘要: 为了研究煤的渗透特性与孔隙特征之间的关系,分别对原煤与型煤的渗透特性进行实验测定,分析了Klinkenberg修正系数、平均孔隙半径、有效表面孔隙率、平均表面孔隙数、Knudsen扩散系数等反映孔隙结构的特征参数与渗透率之间的关系,同时比较了型煤与原煤在相同渗透率下的各孔隙参数之间的差异。结果表明:与接近于各向同性的型煤相比,原煤中的表面孔隙率低,孔隙数量少,但孔隙直径较大。通过比较原煤与型煤的孔隙结构系数,得到原煤层理方向气体渗透率的修正系数,建立各向异性原煤的渗透率与孔隙结构之间的经验关系,为煤层内瓦斯运移规律分析提供更准确的参数关系。

       

      Abstract: In order to study the correlation between the gas permeability coefficient and the pores characteristics of coal, the permeability coefficients of raw coal and briquette coal were measured, and the relationship between permeability and the pore structures parameters such as Klinkenberg correction coefficient, mean pore radius, effective surface porosity, average surface number, Knudsen diffusion coefficient, was analyzed. The differences of the pore parameters between briquette coal and the raw coal under the same permeability were also compared. The results show that the surface porosity of raw coal is lower and the number of pores is less, while the pore diameter is larger compared with nearly isotropic briquette coal. The correction coefficient of gas permeability in bedding direction of raw coal is obtained through comparing the pore structure coefficients of raw coal and briquette coal. The empirical relationship between permeability and pore structures of natural raw coal is established. It aims to provide more accurate rules for gas migration in coal seam field.

       

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