气煤的孔隙分形特征对瓦斯吸附的影响

    Effect of Pore Fractal Characteristics of Gas Coal on Gas Adsorption

    • 摘要: 为了研究气煤的孔隙的分形特征对瓦斯吸附的影响,通过低温液氮吸附法对阜康气煤的孔隙结构进行测试,采用FHH模型对实验煤样进行分形维数计算,运用高压容量法测定煤样的吸附特性,分析了气煤的分形维数与瓦斯吸附性能的关系。实验结果表明:表面分形维数D1与Langmuir体积VL呈正相关,与Langmuir压力pL呈负相关;但结构分形维数D2与煤样的Langmuir体积VL和Langmuir压力pL之间的相关性不明显;通过分析可知,气煤中孔隙结构的分布和孔隙类型同时影响着瓦斯气体在煤体孔隙中的运移。

       

      Abstract: In order to study the effect of the fractal characteristics of gas coal pores on gas adsorption, the pore structure of Fukang gas coal was tested by the low temperature liquid nitrogen adsorption method, the FHH model was used to calculate the fractal dimension of experimental coal samples, the adsorption characteristics of coal samples were determined by high pressure volumetric method, the relationship between the fractal dimension of gas coal and the gas adsorption performance was analyzed. It is shown through the experimental results that the surface fractal dimension D1 is positively correlated with Langmuir volume VL and negatively correlated with Langmuir pressure pL, but the correlation between the structural fractal dimension D2 and the Langmuir volume VL and Langmuir pressure pL of coal samples is not obvious. It is shown through the analysis that pore structure distribution and pore type of the gas coal affect the gas migration of the coal pores.

       

    /

    返回文章
    返回