A strictly hyperbolic equilibrium phase transition model

Grégoire Allaire; Gloria Faccanoni; Samuel Kokh

doi:10.1016/j.crma.2006.11.008

A strictly hyperbolic equilibrium phase transition model

Grégoire Allaire
, Gloria Faccanoni
, Samuel Kokh

Institut Pierre Simon Laplace, CNRS and CEA

Research output: Contribution to journal › Article › peer-review

Abstract

This Note is concerned with the strict hyperbolicity of the compressible Euler equations equipped with an equation of state that describes the thermodynamical equilibrium between the liquid phase and the vapor phase of a fluid. The proof is valid for a very wide class of fluids. The argument only relies on smoothness assumptions and on the classical thermodynamical stability assumptions, that requires a definite negative Hessian matrix for each phase entropy as a function of the specific volume and internal energy. To cite this article: G. Allaire et al., C. R. Acad. Sci. Paris, Ser. I 344 (2007).

Original language	English
Pages (from-to)	135-140
Number of pages	6
Journal	Comptes Rendus Mathematique
Volume	344
Issue number	2
DOIs	https://doi.org/10.1016/j.crma.2006.11.008
Publication status	Published - 15 Jan 2007

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title = "A strictly hyperbolic equilibrium phase transition model",

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AU - Allaire, Grégoire

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AU - Kokh, Samuel

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N2 - This Note is concerned with the strict hyperbolicity of the compressible Euler equations equipped with an equation of state that describes the thermodynamical equilibrium between the liquid phase and the vapor phase of a fluid. The proof is valid for a very wide class of fluids. The argument only relies on smoothness assumptions and on the classical thermodynamical stability assumptions, that requires a definite negative Hessian matrix for each phase entropy as a function of the specific volume and internal energy. To cite this article: G. Allaire et al., C. R. Acad. Sci. Paris, Ser. I 344 (2007).

AB - This Note is concerned with the strict hyperbolicity of the compressible Euler equations equipped with an equation of state that describes the thermodynamical equilibrium between the liquid phase and the vapor phase of a fluid. The proof is valid for a very wide class of fluids. The argument only relies on smoothness assumptions and on the classical thermodynamical stability assumptions, that requires a definite negative Hessian matrix for each phase entropy as a function of the specific volume and internal energy. To cite this article: G. Allaire et al., C. R. Acad. Sci. Paris, Ser. I 344 (2007).

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DO - 10.1016/j.crma.2006.11.008

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VL - 344

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EP - 140

JO - Comptes Rendus Mathematique

JF - Comptes Rendus Mathematique

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ER -

A strictly hyperbolic equilibrium phase transition model

Abstract

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