A staggered finite-element solution for water and gas flow in deforming porous media

We consider a coupled problem of the deformation of a porous solid, ¯ow of a compressible ¯uid and the electrical ®eld in the mixture. The governing equations consist of balance of the linear momentum of solid and of ¯uid, continuity equations of the ¯uid and current density, and a generalized form

The aim of this contribution is the development of a finite element formulation tailored to capture strong discontinuities in fluid-saturated porous media. Thereby, strong discontinuities are considered as the final failure mechanism within localization problems. The failure kinematics are governed

Various discretization methods exist for the numerical simulation of multiphase flow in porous media. In this paper, two methods are introduced and analyzed -a full-upwind Galerkin method which belongs to the classical finite element methods, and a mixed-hybrid finite element method based on an impl

Multigrid methods are described for solving the pressure equation arising from a ®nite element discretization of the equations modelling the ¯ow of two immiscible and incompressible ¯uids in a heterogeneous porous medium. Comparisons are made between the performance of these methods and a preconditi