Fred Couderc


Position

CNRS Research Engineer, Scientific Computing, Toulouse Mathematics Institute (IMT).

Research Interest

Contributing to the development of models and numerical schemes for fluid mechanics by developing efficient and parallelized numerical software, especially for multiphase and free surface complex flow with application to oceanography, river hydraulic and film flow.

Location

INSA de Toulouse, 135 avenue de Rangueil
Département GMM
31077 Toulouse Cedex 4, France

  couderc@math.univ-toulouse.fr

  +33 (0)5 61 55 93 31

Publications

  1. Augmented Skew-Symetric System for Shallow-Water System with Surface Tension Allowing Large Gradient of Density. D. Bresch, N. Cellier, F. Couderc, M. Gisclon, P. Noble, G. Richard, C. Ruyer-Quil and J.-P. Vila, 2019. (arxiv).
  2. An explicit asymptotic preserving low Froude scheme for the multilayer shallow water model with density stratification. F. Couderc, A. Duran and J.-P. Vila, Journal of Computational Physics 343, 235-270, 2017 (doi,hal).
  3. Inverse algorithms for 2D shallow water equations in presence of wet dry fronts: Application to flood plain dynamics. J. Monnier, F. Couderc, D. Dartus, K. Larnier, R. Madec and J.-P. Vila, Advances in Water Resources 97, 11-24, 2016 (doi,hal).
  4. A generalization of the quantum Bohm identity: Hyperbolic CFL condition for Euler–Korteweg equations. D. Bresch, F. Couderc, P. Noble, J.-P. Vila Comptes Rendus Mathematique 354 (1), 39-43, 2016 (doi,arxiv).
  5. Benchmarks and numerical methods for the simulation of boiling flows. S. Tanguy, M. Sagan, B. Lalanne, F. Couderc, C. Colin, Journal of Computational Physics 264, 1-22, 2014 (doi,hal).
  6. DassFlow-Shallow, Variational Data Assimilation for Shallow-Water Models: Numerical Schemes, User and Developer Guides, Report, 2013. (hal)
  7. Simulation numérique du collapse et de l’implosion ultrasonore de bulles de cavitation. F. Couderc, D. Legendre, J.-C. Bera and B. Gilles, Congrès Français de Mécanique, 2009 (link).

PhD Thesis

Développement d’un code de calcul pour la simulation d’écoulements de fluides non miscibles. Application à la désintégration assistée d’un jet liquide par un courant gazeux. F Couderc, ISAE, 2007 (hal).

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