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2007 | 17 | 3 | 311-320

Tytuł artykułu

Finite-volume solvers for a multilayer Saint-Venant system

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
We consider the numerical investigation of two hyperbolic shallow water models. We focus on the treatment of the hyperbolic part. We first recall some efficient finite volume solvers for the classical Saint-Venant system. Then we study their extensions to a new multilayer Saint-Venant system. Finally, we use a kinetic solver to perform some numerical tests which prove that the 2D multilayer Saint-Venant system is a relevant alternative to D hydrostatic Navier-Stokes equations.

Rocznik

Tom

17

Numer

3

Strony

311-320

Opis fizyczny

Daty

wydano
2007

Twórcy

  • Université Paris 13, 99 avenue JB Clément, 939430 Villetaneuse, France
  • INRIA, Project Bang, Domaine de Voluceau, 78153 Le Chesnay, France

Bibliografia

  • Audusse E. (2005): A multilayer Saint-Venant model. Discrete and Continuous Dynamical Systems, Series B, Vol.5, No.2, pp.189-214.
  • Audusse E. and Bristeau M.O. (2005): A well-balanced positivy preserving second order scheme for shallow water flows on unstructured meshes. Journal of Computational Physics, Vol.206, pp.311-333.
  • Audusse E., Bristeau M.O. and Decoene A. (2006a): 3D free surface flows simulations using a multilayer Saint-Venant model - Comparisons with Navier-Stokes solutions. Proceedings of the 6-th European Conference Numerical Mathematics and Advanced Applications, ENUMATH 2005, Santiago de Compostella, Spain, pp.181-189.
  • Audusse E., Klein R. and Owinoh A. (2006b): Conservative and well-balanced discretizations for shallow water flows on rotational domains. Proceedings of the 77th Annual Scientific Conference Gesellschaft fur Angewandte Mathematik und Mechanik, GAMM 2006, Berlin, Germany.
  • Audusse E., Bristeau M.O. and Decoene A. (2007): Numerical simulations of 3D free surface flows by a multilayer Saint-Venant model. (submitted).
  • Bermudez A. and Vazquez M.E. (1994): Up wind methods for hyperbolic conservation laws with source terms. Computers and Fluids, Vol.23, No.8, pp.1049-1071.
  • Benkhaldoun F., Elmahi I. and Monthe L.A. (1999): Positivy preserving finite volume Roe schemes for transport-diffusion equations. Computer Methods in Applied Mechanics and Engineering, Vol.178, pp.215-232.
  • Bouchut F. (2002): An introduction to finite volume methods for hyperbolic systems of conservation laws with source. Ecole CEA - EDF - INRIA Ecoulements peu profonds à surface libre, Octobre 2002, INRIA Rocquencourt http://www.dma.ens.fr/fbouchut/publications/fvcours.ps.gz
  • Bouchut F., Le Sommer J. and Zelin V. (2004): Frontal geostrophic adjustment and nonlinear wave phenomena in one dimensional rotating shallow water. Part 2: High-resolution numerical simulations. Journal of Fluid Mechanics, Vol.513, pp.35-63.
  • Bristeau M.O. and Coussin B. (2001): Boundary Conditions for the Shallow Water Equations solved by Kinetic Schemes. INRIA Report, Vol.4282, http://www.inria.fr/RRRT/RR-4282.html
  • Castro M., Macias J. and Pares C. (2001): A Q-scheme for a class of systems of coupled conservation laws with source term. Application to a two-layer 1-D shallow water system. ESAIM: Mathematical Modelling and Numerical Analysis, Vol.35, pp.107-127.
  • Einfeldt B., Munz C.D., Roe P.L. and Slogreen B. (1991): On Godunov type methods for near low densies. Journal of Computational Physics, Vol.92, pp.273-295.
  • Ferrari S. and Saleri F. (2004): A new two-dimensional Shallow Water model including pressure effects and slow varying bottom topography. ESAIM: Mathematical Modelling and Numerical Analysis, Vol.38, No.2, pp.211-234.
  • George D. (2004): Numerical Approximation of the Nonlinear Shallow Water Equations with Topography and Dry Beds: A Godunov-Type Scheme. M.Sc. Thesis, University of Washington.
  • Gerbeau J.-F. and Perthame B. (2001): Derivation of Viscous Saint-Venant System for Laminar Shallow Water; Numerical Validation. Discrete and Continuous Dynamical Systems, Ser. B,Vol.1, No.1, pp.89-102.
  • Godlewski E. and Raviart P.-A. (1996): Numerical Approximation of Hyperbolic Systems of Conservation Laws. New York: Springer-Verlag.
  • Godunov S.K. (1959): A difference method for numerical calculation of discontinuous equations of hydrodynamics. Matematicheski Sbornik, pp.271-300, (in Russian).
  • Harten A., Lax P.D. and Van Leer B. (1983): On upstream differencing and Godunov-type schemes for hyperbolic conservation laws. SIAM Review, Vol.25, pp.35-61.
  • Hervouet J.M. (2003): Hydrodynamique des écoulements à surface libre; Modélisation numérique avec la méthode des éléments finis. Paris: Presses des Ponts et Chaussées, (in French).
  • Khobalatte B. (1993): Resolution numerique des equations de la mécanique des fluides par des methides cinétiques. Ph.D. Thesis, Université P. and M. Curie (Paris 6), (in French).
  • Le Veque R.J. (1992): Numerical Methods for Conservation Laws. Basel: Birkhauser.
  • Lions P.L., Perthame B. and Souganidis P.E. (1996): Existence of entropy solutions for the hyperbolic systems of isentropic gas dynamics in Eulerian and Lagrangian coordinates. Communications on Pure and Applied Mathematics, Vol.49, No.6, pp.599-638.
  • Perthame B. (2002): Kinetic Formulations of Conservation Laws. Oxford: Oxford University Press.
  • Perthame B. and Simeoni C. (2001): A kinetic scheme for the Saint-Venant system with a source term. Calcolo,Vol.38, No.4, pp.201-231.
  • Roe P.L. (1981): Approximate Riemann solvers, parameter vectors and difference schemes. Journal of Computational Physics, Vol.43, pp.357-372.
  • de Saint-Venant A.J.C. (1971): Théorie du mouvement non-permanent des eaux, avec application aux crues des rivières et à l'introduction des marées dans leur lit (in French).Comptes Rendus de l'Académie des Sciences, Paris, Vol.73, pp.147-154

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