A Roe-Type Scheme for Two-Phase Shallow Granular Flows over Variable Topography

Abstract : We study a depth-averaged model of gravity-driven flows made of solid grains and fluid, moving over variable basal surface. In particular, we are interested in applications to geophysical flows such as avalanches and debris flows, which typically contain both solid material and interstitial fluid. The model system consists of mass and momentum balance equations for the solid and fluid components, coupled together by both conservative and non-conservative terms involving the derivatives of the unknowns, and by interphase drag source terms. The system is hyperbolic at least when the difference between solid and fluid velocities is sufficiently small. We solve numerically the one-dimensional model equations by a high-resolution finite volume scheme based on a Roe-type Riemann solver. Well-balancing of topography source terms is obtained via a technique that includes these contributions into the wave structure of the Riemann solution. We present and discuss several numerical experiments, including problems of perturbed steady flows over non-flat bottom surface that show the efficient modeling of disturbances of equilibrium conditions.
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ESAIM: Mathematical Modelling and Numerical Analysis, EDP Sciences, 2008, 42, pp.851-885. 〈10.1051/m2an:2008029〉
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Contributeur : Marica Pelanti <>
Soumis le : mardi 5 juillet 2016 - 16:03:39
Dernière modification le : mardi 29 mai 2018 - 12:51:03

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Marica Pelanti, François Bouchut, Anne Mangeney. A Roe-Type Scheme for Two-Phase Shallow Granular Flows over Variable Topography. ESAIM: Mathematical Modelling and Numerical Analysis, EDP Sciences, 2008, 42, pp.851-885. 〈10.1051/m2an:2008029〉. 〈hal-01342261〉

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