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Relaxation Runge--Kutta Methods: Fully Discrete Explicit Entropy-Stable Schemes for the Compressible Euler and Navier--Stokes Equations

Hendrik Ranocha, Mohammed Sayyari, Lisandro Dalcin, Matteo Parsani, David I. Ketcheson

2020SIAM Journal on Scientific Computing129 citationsDOIOpen Access PDF

Abstract

The framework of inner product norm preserving relaxation Runge--Kutta methods [D. I. Ketcheson, SIAM J. Numer. Anal., 57 (2019), pp. 2850--2870] is extended to general convex quantities. Conservation, dissipation, or other solution properties with respect to any convex functional are enforced by the addition of a relaxation parameter that multiplies the Runge--Kutta update at each step. Moreover, other desirable stability (such as strong stability preservation) and efficiency (such as low storage requirements) properties are preserved. The technique can be applied to both explicit and implicit Runge--Kutta methods and requires only a small modification to existing implementations. The computational cost at each step is the solution of one additional scalar algebraic equation for which a good initial guess is available. The effectiveness of this approach is proved analytically and demonstrated in several numerical examples, including applications to high order entropy-conservative and entropy-stable semidiscretizations on unstructured grids for the compressible Euler and Navier--Stokes equations.

Topics & Concepts

MathematicsScalar (mathematics)Applied mathematicsRelaxation (psychology)Regular polygonNorm (philosophy)CompressibilityAlgebraic numberEuler equationsStability (learning theory)Euler's formulaBackward Euler methodEuler methodNumerical analysisConvex optimizationMathematical analysisNumerical stabilitySemi-implicit Euler methodDissipationCompressible flowProduct (mathematics)Linear systemAlgebraic equationMathematical optimizationOrder (exchange)Convex combinationNumerical methods for differential equationsComputational Fluid Dynamics and AerodynamicsAdvanced Numerical Methods in Computational Mathematics