An implicit scheme to solve a system of ODEs arising from the space discretization of nonlinear diffusion equations

Éric Boillat

Displaying similar documents to “An implicit scheme to solve a system of ODEs arising from the space discretization of nonlinear diffusion equations”

Solution of contaminant transport with adsorption in porous media by the method of characteristics

Jozef Kacur, Roger Van Keer (2001)

ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique

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A new approximation scheme is presented for the mathematical model of convection-diffusion and adsorption. The method is based on the relaxation method and the method of characteristics. We prove the convergence of the method and present some numerical experiments in 1D. The results can be applied to the model of contaminant transport in porous media with multi-site, equilibrium and non-equilibrium type of adsorption.

Numerical precision for differential inclusions with uniqueness

Jérôme Bastien, Michelle Schatzman (2002)

ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique

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In this article, we show the convergence of a class of numerical schemes for certain maximal monotone evolution systems; a by-product of this results is the existence of solutions in cases which had not been previously treated. The order of these schemes is $1 / 2$ in general and $1$ when the only non Lipschitz continuous term is the subdifferential of the indicatrix of a closed convex set. In the case of Prandtl’s rheological model, our estimates in maximum norm do not depend on spatial dimension. ...

On $L_{\infty}$ -convergence of Rothe’s method

Jozef Kačur (1989)

Commentationes Mathematicae Universitatis Carolinae

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Approximations of parabolic variational inequalities

Alexander Ženíšek (1985)

Aplikace matematiky

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The paper deals with an initial problem of a parabolic variational inequality whichcontains a nonlinear elliptic form $a (v, w)$ having a potential $J (v)$ , which is twice $G$ -differentiable at arbitrary $v \in H^{1} (Ω)$ . This property of $a (v, w)$ makes it possible to prove convergence of an approximate solution defined by a linearized scheme which is fully discretized - in space by the finite elements method and in time by a one-step finite-difference method. Strong convergence of the approximate solution is proved without...

Sharp $L^{1}$ stability estimates for hyperbolic conservation laws.

Goatin, P., LeFloch, P.G. (2001)

Portugaliae Mathematica. Nova Série

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Displaying similar documents to “An implicit scheme to solve a system of ODEs arising from the space discretization of nonlinear diffusion equations”

Solution of contaminant transport with adsorption in porous media by the method of characteristics

Numerical precision for differential inclusions with uniqueness

On L ∞ -convergence of Rothe’s method

Approximations of parabolic variational inequalities

Sharp L 1 stability estimates for hyperbolic conservation laws.

On $L_{\infty}$ -convergence of Rothe’s method

Sharp $L^{1}$ stability estimates for hyperbolic conservation laws.