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A graded mesh refinement approach for boundary layer originated singularly perturbed time‐delayed parabolic convection diffusion problems

Kamalesh Kumar, P. Pramod Chakravarthy, Pratibhamoy Das, Higinio Ramos

2021Mathematical Methods in the Applied Sciences89 citationsDOIOpen Access PDF

Abstract

In this work, we consider a graded mesh refinement algorithm for solving time‐delayed parabolic partial differential equations with a small diffusion parameter. The presence of this parameter leads to boundary layer phenomena. These problems are also known as singularly perturbed problems. For these problems, it is well‐known that one cannot achieve a convergent solution to maintain the boundary layer dynamics, on a fixed number of uniform meshes irrespective of the arbitrary magnitude of perturbation parameter. Here, we consider an adaptive graded mesh generation algorithm, which is based on an entropy function in conjunction with the classical difference schemes, to resolve the layer behavior. The advantage of the present algorithm is that it does not require to have any information about the location of the layer. Several examples are presented to show the high performance of the proposed algorithm.

Topics & Concepts

MathematicsSingular perturbationBoundary layerPerturbation (astronomy)Polygon meshConvection–diffusion equationPartial differential equationParabolic partial differential equationBoundary value problemMathematical analysisBoundary (topology)Applied mathematicsGeometryMechanicsQuantum mechanicsPhysicsDifferential Equations and Numerical MethodsAdvanced Mathematical Modeling in EngineeringAdvanced Numerical Methods in Computational Mathematics
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