We propose a one-parameter family of low-dissipation centred numerical schemes for solving hyperbolic equations in conservative or non-conservative form, using finite volume or discontinuous Galerkin finite element methods. The new schemes spring out from the multi-dimensional FORCE method and are determined by a single parameter α≥1. Given an increasing sequence of real numbers 1≤α1<…c1>c2>…>cK>0 and a decreasing sequence of corresponding numerical viscosity functions d1>d2>…>dK. For a given Courant number ck≤1 there is a real number αk>0 and a corresponding stable scheme with minimal numerical viscosity dk. The proposed schemes suit very well the family of high-order discontinuous Galerkin finite element methods and the recently proposed class of ADER-TR schemes, whose orders of accuracy define decreasing sequences of Courant numbers, as the order of accuracy increases. The centred methods of this paper are stable in 2D and 3D in the frame of simultaneous updating formulae, unlike other centred methods, such as 1D FORCE, which are not. Furthermore, the schemes are highly accurate for slowly-moving waves, which is precisely the kind of waves that traditional centred methods smear disastrously. Additional features of the proposed schemes include ease of implementation and applicability to any hyperbolic system either in conservative or non-conservative form. Here, the proposed schemes are analysed and computationally assessed through a suite of test problems for a linear model system, for the Euler equations in one and two space dimensions, and for the Baer-Nunziato equations for compressible two-phase flow.

Low-dissipation centred schemes for hyperbolic equations in conservative and non-conservative form / Toro, E. F.; Saggiorato, B.; Tokareva, S.; Hidalgo, A.. - In: JOURNAL OF COMPUTATIONAL PHYSICS. - ISSN 0021-9991. - 416:(2020), p. 109545. [10.1016/j.jcp.2020.109545]

Low-dissipation centred schemes for hyperbolic equations in conservative and non-conservative form

Toro E. F.;
2020-01-01

Abstract

We propose a one-parameter family of low-dissipation centred numerical schemes for solving hyperbolic equations in conservative or non-conservative form, using finite volume or discontinuous Galerkin finite element methods. The new schemes spring out from the multi-dimensional FORCE method and are determined by a single parameter α≥1. Given an increasing sequence of real numbers 1≤α1<…c1>c2>…>cK>0 and a decreasing sequence of corresponding numerical viscosity functions d1>d2>…>dK. For a given Courant number ck≤1 there is a real number αk>0 and a corresponding stable scheme with minimal numerical viscosity dk. The proposed schemes suit very well the family of high-order discontinuous Galerkin finite element methods and the recently proposed class of ADER-TR schemes, whose orders of accuracy define decreasing sequences of Courant numbers, as the order of accuracy increases. The centred methods of this paper are stable in 2D and 3D in the frame of simultaneous updating formulae, unlike other centred methods, such as 1D FORCE, which are not. Furthermore, the schemes are highly accurate for slowly-moving waves, which is precisely the kind of waves that traditional centred methods smear disastrously. Additional features of the proposed schemes include ease of implementation and applicability to any hyperbolic system either in conservative or non-conservative form. Here, the proposed schemes are analysed and computationally assessed through a suite of test problems for a linear model system, for the Euler equations in one and two space dimensions, and for the Baer-Nunziato equations for compressible two-phase flow.
2020
Toro, E. F.; Saggiorato, B.; Tokareva, S.; Hidalgo, A.
Low-dissipation centred schemes for hyperbolic equations in conservative and non-conservative form / Toro, E. F.; Saggiorato, B.; Tokareva, S.; Hidalgo, A.. - In: JOURNAL OF COMPUTATIONAL PHYSICS. - ISSN 0021-9991. - 416:(2020), p. 109545. [10.1016/j.jcp.2020.109545]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/332246
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