Convergence analysis of a family of ELLAM schemes for a fully coupled model of miscible displacement in porous media

Convergence analysis of a family of ELLAM schemes for a fully coupled model of miscible displacement in porous media

We analyse the convergence of numerical schemes in the GDM–ELLAM (Gradient Discretisation Method–Eulerian Lagrangian Localised Adjoint Method) framework for a strongly coupled elliptic-parabolic PDE which models miscible displacement in porous media. These schemes include, but are not limited to, Mi...

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Veröffentlicht in:Numerische Mathematik 2019-02, Vol.141 (2), p.353-397
Hauptverfasser: Cheng, Hanz Martin, Droniou, Jérôme, Le, Kim-Ngan
Format: Artikel
Sprache:eng
Schlagworte:
Convergence
Finite element method
Mathematical analysis
Mathematical and Computational Engineering
Mathematical and Computational Physics
Mathematical Methods in Physics
Mathematical models
Mathematics
Mathematics and Statistics
Miscibility
Numerical Analysis
Numerical and Computational Physics
Parabolic differential equations
Porous media
Simulation
Tensors
Theoretical
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Zusammenfassung:We analyse the convergence of numerical schemes in the GDM–ELLAM (Gradient Discretisation Method–Eulerian Lagrangian Localised Adjoint Method) framework for a strongly coupled elliptic-parabolic PDE which models miscible displacement in porous media. These schemes include, but are not limited to, Mixed Finite Element–ELLAM and Hybrid Mimetic Mixed–ELLAM schemes. A complete convergence analysis is presented on the coupled model, using only weak regularity assumptions on the solution (which are satisfied in practical applications), and not relying on L ∞ bounds (which are impossible to ensure at the discrete level given the anisotropic diffusion tensors and the general grids used in applications).
ISSN:0029-599X
0945-3245
DOI:10.1007/s00211-018-1002-2