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Splitting-Based Structure Preserving Discretizations for Magnetohydrodynamics

by R. Hiptmair and C. Pagliantini

(Report number 2017-18)

Abstract
We start from the splitting of the equations of single-fluid magnetohydrodynamics (MHD) into a magnetic induction part and a fluid part. We design novel numerical methods for the MHD system based on the coupling of Galerkin schemes for the electromagnetic fields via finite element exterior calculus with finite volume methods for the conservation laws of fluid mechanics. Using a vector potential based formulation, the magnetic induction problem is viewed as an instance of a generalized transient advection problem of differential forms. For the latter, we rely on an Eulerian method of lines with explicit Runge-Kutta timestepping and on structure preserving spatial upwind discretizations of the Lie derivative based on the duality between the contraction of differential forms and the extrusion of chains. The balance laws for the fluid constitute a system of conservation laws with the magnetic induction field as a space and time dependent coefficient, supplied at every time step by the structure preserving discretization of the magnetic induction problem. We describe finite volume schemes based on approximate Riemann solvers adapted to accommodate the electromagnetic contributions to the momentum and energy conservation. A set of benchmark tests for the two- dimensional planar ideal MHD equations provide numerical evidence that the resulting lowest order coupled scheme has excellent conservation properties, is first order accurate for smooth solutions, conservative and stable.

Keywords: Magnetohydrodynamics, hyperbolic conservation laws, Lie derivative, structure preserving discretizations, discrete differential forms, finite volume methods.

@Techreport{HP17_714,
  author = {R. Hiptmair and C. Pagliantini},
  title = {Splitting-Based Structure Preserving Discretizations for
Magnetohydrodynamics},
  institution = {Seminar for Applied Mathematics, ETH Z{\"u}rich},
  number = {2017-18},
  address = {Switzerland},
  url = {https://www.sam.math.ethz.ch/sam_reports/reports_final/reports2017/2017-18.pdf },
  year = {2017}
}

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