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Pré-Publication, Document De Travail Année : 2006

Numerical transport of an arbitrary number of components.

Frédéric Lagoutière
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Stéphane Jaouen
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Résumé

This paper deals with the numerical transport of an arbitrary number of materials having the same velocity. The main difficulty is to derive numerical algorithms that are conservative for the mass of each component and that satisfy some inequality and equality constraints: each mass fraction has to stay in [0, 1] and the sum of all mass fractions should be 1. These constraints are satisfied by the classical upwind scheme (which is very dissipative) but not for most of non linear (high-order or anti-dissipative) schemes. Here we propose local conditions of inequality type for the finite volume fluxes of mass fractions to ensure the aforementioned constraints. More precisely, we give explicit stability intervals for each flux. This is done in the manner of [2] for hyperbolic systems, [3] for the transport of 2 components; see also [1] for the same type of inequality constraints for nonlinear conservation laws. Comparisons on two dimensional test-cases with the Young's interface reconstruction algorithm [15] show that results are qualitatively comparable. The advantages of this approach are its simplicity, its low computational cost, and its flexibility since it can deal with interfaces as well as mixing zones.
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Dates et versions

hal-00117113 , version 1 (30-11-2006)

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  • HAL Id : hal-00117113 , version 1

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Frédéric Lagoutière, Stéphane Jaouen. Numerical transport of an arbitrary number of components.. 2006. ⟨hal-00117113⟩
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