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An Arbitrarily High Order and Asymptotic Preserving Kinetic Scheme in Compressible Fluid Dynamic

Abgrall, Remi; Nassajian Mojarrad, Fatemeh (2024). An Arbitrarily High Order and Asymptotic Preserving Kinetic Scheme in Compressible Fluid Dynamic. Communications on Applied Mathematics and Computation, 6(2):963-991.

Abstract

We present a class of arbitrarily high order fully explicit kinetic numerical methods in compressible fluid dynamics, both in time and space, which include the relaxation schemes by Jin and Xin. These methods can use the CFL number larger or equal to unity on regular Cartesian meshes for the multi-dimensional case. These kinetic models depend on a small parameter that can be seen as a “Knudsen” number. The method is asymptotic preserving in this Knudsen number. Also, the computational costs of the method are of the same order of a fully explicit scheme. This work is the extension of Abgrall et al. (2022) [3] to multi-dimensional systems. We have assessed our method on several problems for two-dimensional scalar problems and Euler equations and the scheme has proven to be robust and to achieve the theoretically predicted high order of accuracy on smooth solutions.

Additional indexing

Item Type:Journal Article, refereed, original work
Communities & Collections:07 Faculty of Science > Institute of Mathematics
Dewey Decimal Classification:510 Mathematics
Scopus Subject Areas:Physical Sciences > Computational Mathematics
Physical Sciences > Applied Mathematics
Uncontrolled Keywords:Computational Mathematics, Applied Mathematics Kinetic scheme, Compressible fluid dynamics, High order methods, Explicit schemes, Asymptotic preserving, Defect correction method Mathematics Subject Classification 65N99 · 76N99
Language:English
Date:1 June 2024
Deposited On:30 Aug 2023 08:02
Last Modified:29 Dec 2024 02:39
Publisher:Springer
ISSN:2096-6385
Additional Information:Acknowledgements: F.N.M has been funded by the SNF project 200020_204917 entitled “Structure preserving and fast methods for hyperbolic systems of conservation laws”. Funding: Open access funding provided by University of Zurich.
OA Status:Hybrid
Publisher DOI:https://doi.org/10.1007/s42967-023-00274-w
Project Information:
  • Funder: University of Zurich
  • Grant ID:
  • Project Title:
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