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Article Dans Une Revue Numerische Mathematik Année : 2004

Operator splitting for nonlinear reaction-diffusion systems with an entropic structure: singular perturbation and order reduction

Résumé

In this paper, we perform the numerical analysis of operator splitting techniques for nonlinear reaction-diffusion systems with an entropic structure in the presence of fast scales in the reaction term. We consider both linear diagonal and quasi-linear non-diagonal diffusion; the entropic structure implies the well-posedness and stability of the system as well as a Tikhonov normal form for the nonlinear reaction term [23]. It allows to perform a singular perturbation analysis and to obtain a reduced and well- posed system of equations on a partial equilibrium manifold as well as an asymptotic expansion of the solution. We then conduct an error analysis in this particular framework where the time scale associated to the fast part of the reaction term is much shorter that the splitting time step $\Delta t$, thus leading to the failure of the usual splitting analysis techniques. We define the con- ditions on diffusion and reaction for the order of the local error associated with the time splitting to be reduced or to be preserved in the presence of fast scales. All the results obtained theoretically on local error estimates are then illustrated on a numerical test case where the global error clearly reproduces the scenarios foreseen at the local level. We finally investigate the discretiza- tion of the corresponding problems and its influence on the splitting error in terms of the previously conducted numerical analysis.

Dates et versions

hal-00188449 , version 1 (16-11-2007)

Identifiants

Citer

Stéphane Descombes, Marc Massot. Operator splitting for nonlinear reaction-diffusion systems with an entropic structure: singular perturbation and order reduction. Numerische Mathematik, 2004, 97 (4), pp.667--698. ⟨10.1007/s00211-003-0496-3⟩. ⟨hal-00188449⟩
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