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A coupling of mixed and continuous Galerkin finite element methods for poroelasticity II: the discrete-in-time case
Authors:Phillip Joseph Phillips  Mary F. Wheeler
Affiliation:(1) Center for Subsurface Modeling (CSM), Institute for Computational Engineering and Sciences (ICES), University of Texas at Austin, Austin, Texas, USA;(2) CSM, ICES, Department of Aerospace Engineering and Engineering Mechanics, Department of Petroleum Engineering and Geosystems Engineering, University of Texas at Austin, Austin, Texas, USA
Abstract:In this paper, we formulate a finite element procedure for approximating the coupled fluid and mechanics in Biot’s consolidation model of poroelasticity. Here, we approximate the pressure by a mixed finite element method and the displacements by a Galerkin method. Theoretical convergence error estimates are derived in a discrete-in-time setting. Of particular interest is the case when the lowest-order Raviart–Thomas approximating space or cell-centered finite differences are used in the mixed formulation and continuous piecewise linear approximations are used for displacements. This approach appears to be the one most frequently applied to existing reservoir engineering simulators.
Keywords:Continuous Galerkin  Discrete-in-time a priori error estimates  Mixed finite elements  Poroelasticity
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