[HTML][HTML] Error estimates for a mixed finite element discretization of a two-phase porous media flow model with dynamic capillarity
X Cao, K Mitra - Journal of Computational and Applied Mathematics, 2019 - Elsevier
X Cao, K Mitra
Journal of Computational and Applied Mathematics, 2019•ElsevierWe analyze a fully discrete numerical scheme for the model describing two-phase
immiscible flow in porous media with dynamic effects in the capillary pressure. We employ
the Euler implicit method for the time discretization. The spatial discretization is based on the
mixed finite element method (MFEM). Specifically, the lowest order Raviart–Thomas
elements are applied. In this paper, the error estimates for the saturation, fluxes and phase
pressures in L∞(0, T; L 2 (Ω)) are derived for the temporal and spatial discretization to show …
immiscible flow in porous media with dynamic effects in the capillary pressure. We employ
the Euler implicit method for the time discretization. The spatial discretization is based on the
mixed finite element method (MFEM). Specifically, the lowest order Raviart–Thomas
elements are applied. In this paper, the error estimates for the saturation, fluxes and phase
pressures in L∞(0, T; L 2 (Ω)) are derived for the temporal and spatial discretization to show …
We analyze a fully discrete numerical scheme for the model describing two-phase immiscible flow in porous media with dynamic effects in the capillary pressure. We employ the Euler implicit method for the time discretization. The spatial discretization is based on the mixed finite element method (MFEM). Specifically, the lowest order Raviart–Thomas elements are applied. In this paper, the error estimates for the saturation, fluxes and phase pressures in L∞(0, T; L 2 (Ω)) are derived for the temporal and spatial discretization to show the convergence of the scheme. Finally, we present some numerical results to support the theoretical findings.
Elsevier
以上显示的是最相近的搜索结果。 查看全部搜索结果