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Numerical simulation and entropy dissipative cure of the carbuncle instability for the shallow water circular hydraulic jump

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arxiv 2103.09664 v1 pith:IT3VDL5T submitted 2021-03-17 physics.flu-dyn cs.NAmath.NAnlin.CDphysics.comp-ph

Numerical simulation and entropy dissipative cure of the carbuncle instability for the shallow water circular hydraulic jump

classification physics.flu-dyn cs.NAmath.NAnlin.CDphysics.comp-ph
keywords carbunclecarbunclesinstabilitynumericalshallowwateravoidcircular
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We investigate the numerical artifact known as a carbuncle, in the solution of the shallow water equations. We propose a new Riemann solver that is based on a local measure of the entropy residual and aims to avoid carbuncles while maintaining high accuracy. We propose a new challenging test problem for shallow water codes, consisting of a steady circular hydraulic jump that can be physically unstable. We show that numerical methods are prone to either suppress the instability completely or form carbuncles. We test existing cures for the carbuncle. In our experiments, only the proposed method is able to avoid unphysical carbuncles without suppressing the physical instability.

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