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Mixed finite element methods and higher order temporal approximations for variably saturated groundwater flow
Affiliation:2. BRGM-ISTO-UMR 7327, 3 av. C. Guillemin, B.P. 36009, Orléans 45060, France;3. NAGRA, Hardstrasse 73, 5430 Wettingen, Switzerland;4. Laboratory for Waste Management, Paul Scherrer Institute, 5232 Villigen PSI, Switzerland
Abstract:Richards’ equation (RE) is commonly used to model flow in variably saturated porous media. However, its solution continues to be difficult for many conditions of practical interest. Among the various time discretizations applied to RE, the method of lines (MOL) has been used successfully to introduce robust, accurate, and efficient temporal approximations. At the same time, a mixed-hybrid finite element method combined with an adaptive, higher order time discretization has shown benefits over traditional, lower order temporal approximations for modeling single-phase groundwater flow in heterogeneous porous media. Here, we extend earlier work for single-phase flow and consider two mixed finite element methods that have been used previously to solve RE using lower order time discretizations with either fixed time steps or empirically based adaption. We formulate the two spatial discretizations within a MOL context for the pressure head form of RE as well as a fully mass-conservative version. We conduct several numerical experiments for both spatial discretizations with each formulation, and we compare the higher order, adaptive time discretization to a first-order approximation with formal error control and adaptive time step selection. Based on the numerical results, we evaluate the performance of the methods for robustness and efficiency.
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