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An Entropy Stable Finite Volume Scheme for the Equations of Shallow Water Magnetohydrodynamics
- Publication Year :
- 2015
-
Abstract
- In this work, we design an entropy stable, finite volume approximation for the shallow water magnetohydrodynamics (SWMHD) equations. The method is novel as we design an affordable analytical expression of the numerical interface flux function that exactly preserves the entropy, which is also the total energy for the SWMHD equations. To guarantee the discrete conservation of entropy requires a special treatment of a consistent source term for the SWMHD equations. With the goal of solving problems that may develop shocks, we determine a dissipation term to guarantee entropy stability for the numerical scheme. Numerical tests are performed to demonstrate the theoretical findings of entropy conservation and robustness.<br />in Journal of Scientific Computing, 2015
- Subjects :
- Finite Volume
Nonlinear Hyperbolic Conservation Law
Beräkningsmatematik
010103 numerical & computational mathematics
01 natural sciences
Theoretical Computer Science
FOS: Mathematics
Applied mathematics
Mathematics - Numerical Analysis
0101 mathematics
Total energy
Entropy (energy dispersal)
Shallow Water Magnetohydrodynamics
Mathematics
Entropy Stability
Numerical Analysis
Finite volume method
Applied Mathematics
General Engineering
Entropy Conservation
Numerical Analysis (math.NA)
Dissipation
Finite volume approximation
010101 applied mathematics
Waves and shallow water
Computational Mathematics
Nonlinear Hyperbolic Balance Law
Computational Theory and Mathematics
Magnetohydrodynamics
Software
Entropy conservation
Subjects
Details
- Language :
- English
- Database :
- OpenAIRE
- Accession number :
- edsair.doi.dedup.....25e2c72f71020078436bbde1ecac9c62