Amélie Rambaud scite author profile

Amélie Rambaud

4Publications

34Citation Statements Received

78Citation Statements Given

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Affiliations

University of Bío-Bío, Camille Jordan Institute, Claude Bernard University Lyon 1

Publications

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Asymptotic behavior of a flexible structure with Cattaneo type of thermal effect

Alves

Gamboa²,

Gorain³

et al. 2016

Indagationes Mathematicae

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We consider vibrations of an inhomogeneous flexible structure modeled by a 1D viscoelastic equation with Kelvin-Voigt, coupled with an expected dissipative effect : heat conduction governed by Cattaneo's law (second sound). We establish the well-posedness of the system and we prove the stabilization to be exponential for one set of boundary conditions, and at least polynomial for another set of boundary conditions. Two different methods are used: the energy method and another more original, using the semigroup approach and studying the Resolvent of the system.

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Analysis of an Asymptotic Preserving Scheme for Relaxation Systems

Filbet

Rambaud

2013

ESAIM: M2AN

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We study the convergence of a class of asymptotic preserving numerical schemes initially proposed by F. Filbet & S. Jin [23] and G. Dimarco & L. Pareschi [17] in the context of nonlinear and stiff kinetic equations. Here, our analysis is devoted to the approximation of a system of transport equations with a nonlinear source term, for which the asymptotic limit is given by a conservation laws. We investigate the convergence of the approximate solution (u ε h , v ε h ) to a nonlinear relaxation system, where ε > 0 is a physical parameter and h represents the discretization parameter. Uniform convergence with respect to ε and h is proved and error estimates are also obtained. Finally, several numerical tests are performed to illustrate the accuracy and efficiency of such a scheme.F.

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Consistent equations for open-channel flows in the smooth turbulent regime with shearing effects

Richard¹,

Rambaud²,

Vila³

2017

J. Fluid Mech.

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Consistent equations for turbulent open-channel flows on a smooth bottom are derived using a turbulence model of mixing length and an asymptotic expansion in two layers. A shallow-water scaling is used in an upper – or external – layer and a viscous scaling is used in a thin viscous – or internal – layer close to the bottom wall. A matching procedure is used to connect both expansions in an overlap domain. Depth-averaged equations are then obtained in the approximation of weakly sheared flows which is rigorously justified. We show that the Saint-Venant equations with a negligible deviation from a flat velocity profile and with a friction law are a consistent set of equations at a certain level of approximation. The obtained friction law is of the Kármán–Prandtl type and successfully compared to relevant experiments of the literature. At a higher precision level, a consistent three-equation model is obtained with the mathematical structure of the Euler equations of compressible fluids with relaxation source terms. This new set of equations includes shearing effects and adds corrective terms to the Saint-Venant model. At this level of approximation, energy and momentum resistances are clearly distinguished. Several applications of this new model that pertains to the hydraulics of open-channel flows are presented including the computation of backwater curves and the numerical resolution of the growing and breaking of roll waves.

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Exponential stability to the Bresse system with boundary dissipation conditions

Alves¹,

Vera²,

Rambaud³

et al. 2015

Preprint

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Amélie Rambaud

Asymptotic behavior of a flexible structure with Cattaneo type of thermal effect

Analysis of an Asymptotic Preserving Scheme for Relaxation Systems

Consistent equations for open-channel flows in the smooth turbulent regime with shearing effects

Exponential stability to the Bresse system with boundary dissipation conditions

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