FILTRATION PRESSURE FIELD AT HIGH-AMPLITUDE PERTURBATIONS

A study has been made of the pressure fi eld in fi ltration of a weakly compressible fl uid in a homogeneous isotropic compressible medium at high-amplitude perturbations. The equation used in formulating the problem is nonlinear: the densities of a porous medium and of a saturating fl uid are assumed to be dependent on the function sought. Use is made of the fact that the dependences of the densities of the fl uid and the skeleton material on pressure are approximated with a high degree of accuracy by the linear function. Consideration is given to one-dimensional plane horizontal fi ltration. The porosity and permeability of a porous medium, and also the viscosity of a fi ltering medium, are considered to be constant. A solution to the problem has been found with asymptotic expansions where a cofactor of the compressibility factor of the liquid acts as a small parameter. Analytical expressions have been found for the zero and fi rst expansion factors. It has been shown that the zero expansion factor may be used to investigate the evolution of the pressure fi eld of an incompressible liquid, whereas the expression for the fi rst factor contains information on the contribution of nonlinearity due to the fl uid′s compressibility. Values of the zero and fi rst residual terms have been determined. It has been proved that the zero and fi rst residual terms contain terms of only higher orders as far as the asymptoticexpansion parameter is concerned, i.e., the corresponding requirement of asymptoticity of expressions of the zero and fi rst factors is met. On the basis of a computational experiment, the regularities of the dependence of the contribution of the nonlinearity under study on time and on the spatial coordinate have been established.
   
Author:  A. I. Filippov, A. A. Koval′skii, and O. V. Akhmetova
Keywords:  nonlinear equation, fi ltration, pressure, asymptotic expansion.
Page:  1353