摘要
煤层气的开采,使孔隙流体的压力发生变化,引起煤岩骨架有效应力改变及重新分布,并导致煤岩骨架的变形。煤岩骨架的变形将导致煤岩孔隙体积的改变,从而引起煤岩物性、煤岩密度、孔隙压缩系数的变化,进而影响孔隙流体的渗流与开采。因此,气、水渗流与煤岩变形相互影响,相互制约。文章从煤层气藏的储存特性入手,建立了煤层气渗流流固耦合的数学模型,并利用有限差分法对数学模型进行数值求解,以求更加真实地反映出煤层气渗流过程中流体与煤岩之间的动态耦合关系。
Due to the exploitation of coal-bed gas, the fluid pressure in the pores will change, which causes the variation and re-distribution of the effective stress of the coal matrix and leads the deformation of the coal matrix. The deformation of the coal matrix will cause the variation of the porous volume of the coal matrix, so that result in the variation of the physical property, the density, and the pore compressibility of the coal matrix and influence the percolation and exploitation of the fluid in the pores. So, the gas/water percolation and the deformation of the coal matrix affect and restrict each other. According to the features of coal-bed gas reservoirs, the fluid/solid coupling mathematical model is established for percolation of coal-bed gas. With finite difference method, the mathematical model is solved to reflect the dynamic coupling relationship between the fluid and the coal matrix in the percolation process of coal-bed gas more exactly.
出处
《天然气工业》
EI
CAS
CSCD
北大核心
2005年第5期81-83,共3页
Natural Gas Industry
