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Article Dans Une Revue IMA Journal of Numerical Analysis Année : 2020

Large-time behaviour of a family of finite volume schemes for boundary-driven convection-diffusion equations

Résumé

We are interested in the large-time behaviour of solutions to finite volume discretizations of convection–diffusion equations or systems endowed with nonhomogeneous Dirichlet- and Neumann-type boundary conditions. Our results concern various linear and nonlinear models such as Fokker–Planck equations, porous media equations or drift–diffusion systems for semiconductors. For all of these models, some relative entropy principle is satisfied and implies exponential decay to the stationary state. In this paper we show that in the framework of finite volume schemes on orthogonal meshes, a large class of two-point monotone fluxes preserves this exponential decay of the discrete solution to the discrete steady state of the scheme. This includes for instance upwind and centred convections or Scharfetter–Gummel discretizations. We illustrate our theoretical results on several numerical test cases.
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Dates et versions

hal-01885015 , version 1 (01-10-2018)

Identifiants

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Claire Chainais-Hillairet, Maxime Herda. Large-time behaviour of a family of finite volume schemes for boundary-driven convection-diffusion equations. IMA Journal of Numerical Analysis, 2020, 40 (4), pp.2473-2505. ⟨10.1093/imanum/drz037⟩. ⟨hal-01885015⟩
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