Robust numerical scheme for singularly perturbed convection–diffusion parabolic initial–boundary-value problems on equidistributed grids

Robust numerical scheme for singularly perturbed convection–diffusion parabolic initial–boundary-value problems on equidistributed grids

In this article, we study the numerical solution of singularly perturbed parabolic convection–diffusion problems exhibiting regular boundary layers. To solve these problems, we use the classical upwind finite difference scheme on layer-adapted nonuniform meshes. The nonuniform meshes are obtained by...

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Veröffentlicht in:Computer physics communications 2014-07, Vol.185 (7), p.2008-2019
Hauptverfasser: Gowrisankar, S., Natesan, Srinivasan
Format: Artikel
Sprache:eng
Schlagworte:
Adaptive grid
Boundary layers
Computer simulation
Derivatives
Equidistribution grid
Finite difference method
Mathematical analysis
Mathematical models
Monitors
Nonuniform
Singularly perturbed parabolic problem
Truncation errors
Uniform convergence
Upwind finite difference scheme
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Zusammenfassung:In this article, we study the numerical solution of singularly perturbed parabolic convection–diffusion problems exhibiting regular boundary layers. To solve these problems, we use the classical upwind finite difference scheme on layer-adapted nonuniform meshes. The nonuniform meshes are obtained by equidistributing a positive monitor function, which depends on the second-order spatial derivative of the singular component of the solution. The truncation error and the stability analysis are obtained. Parameter-uniform error estimates are derived for the numerical solution. Semilinear IBVPs are also solved. Numerical experiments are carried out to support the theoretical results.
ISSN:0010-4655
1879-2944
DOI:10.1016/j.cpc.2014.04.004