Mortar-based entropy-stable discontinuous Galerkin methods on non-conforming quadrilateral and hexahedral meshes.
作者: David C. Del Rey Fernández , Jesse Chan , Mario Bencomo
DOI:
关键词:
摘要: High-order entropy-stable discontinuous Galerkin (DG) methods for nonlinear conservation laws reproduce a discrete entropy inequality by combining conservative finite volume fluxes with summation-by-parts (SBP) discretization matrices. In the DG context, on tensor product (quadrilateral and hexahedral) elements, SBP matrices are typically constructed collocating at Lobatto quadrature points. Recent work has extended construction of schemes to collocation more accurate Gauss In this work, we extend non-conforming meshes. Entropy-stable require computing numerical between surface nodes. On conforming meshes where nodes aligned, flux evaluations required only "lines" However, meshes, no longer resulting in larger number evaluations. We reduce expense introducing an mortar-based treatment interfaces via face-local correction term, provide necessary conditions high-order accuracy. Numerical experiments both two three dimensions confirm stability accuracy approach.
arxiv.org参考文章(38)
Christopher A. Kennedy, Mark H. Carpenter, Fourth-order 2N-storage Runge-Kutta schemes ,(1994)
C. Bernardi, Y. Maday, A. T. Patera, Domain Decomposition by the Mortar Element Method Springer, Dordrecht. pp. 269- 286 ,(1993) , 10.1007/978-94-011-1810-1_17
Constantine M. Dafermos, Hyberbolic Conservation Laws in Continuum Physics ,(2000)
Magnus Svärd, Hatice Özcan, Entropy-Stable Schemes for the Euler Equations with Far-Field and Wall Boundary Conditions Journal of Scientific Computing. ,vol. 58, pp. 61- 89 ,(2014) , 10.1007/S10915-013-9727-7
P. D. Thomas, C. K. Lombard, Geometric Conservation Law and Its Application to Flow Computations on Moving Grids AIAA Journal. ,vol. 17, pp. 1030- 1037 ,(1979) , 10.2514/3.61273
Eitan Tadmor, The numerical viscosity of entropy stable schemes for systems of conservation laws. I Mathematics of Computation. ,vol. 49, pp. 91- 103 ,(1987) , 10.1090/S0025-5718-1987-0890255-3
David C. Del Rey Fernández, Pieter D. Boom, David W. Zingg, A generalized framework for nodal first derivative summation-by-parts operators Journal of Computational Physics. ,vol. 266, pp. 214- 239 ,(2014) , 10.1016/J.JCP.2014.01.038
Mark H. Carpenter, Travis C. Fisher, Eric J. Nielsen, Steven H. Frankel, Entropy Stable Spectral Collocation Schemes for the Navier--Stokes Equations: Discontinuous Interfaces SIAM Journal on Scientific Computing. ,vol. 36, ,(2014) , 10.1137/130932193
T.J.R. Hughes, L.P. Franca, M. Mallet, A new finite element formulation for computational fluid dynamics: I. Symmetric forms of the compressible Euler and Navier—Stokes equations and the second law of thermodynamics Applied Mechanics and Engineering. ,vol. 54, pp. 223- 234 ,(1986) , 10.1016/0045-7825(86)90127-1
Kristoffer Virta, Magnus Grandin, Anna Nissen, Katharina Kormann, Stable Difference Methods for Block-Oriented Adaptive Grids Journal of Scientific Computing. ,vol. 65, pp. 486- 511 ,(2015) , 10.1007/S10915-014-9969-Z