New Analytical Results and Comparison of 14 Numerical Schemes for the Diffusion Equation with Space-Dependent Diffusion Coefficient

Mahmoud Saleh; Endre Kovács; Imre Ferenc Barna; László Mátyás

doi:10.3390/math10152813

Mathematics (Aug 2022)

New Analytical Results and Comparison of 14 Numerical Schemes for the Diffusion Equation with Space-Dependent Diffusion Coefficient

Mahmoud Saleh,
Endre Kovács,
Imre Ferenc Barna,
László Mátyás

Affiliations

Mahmoud Saleh: Institute of Physics and Electrical Engineering, University of Miskolc, 3515 Miskolc, Hungary
Endre Kovács: Institute of Physics and Electrical Engineering, University of Miskolc, 3515 Miskolc, Hungary
Imre Ferenc Barna: Wigner Research Center for Physics, 1051 Budapest, Hungary
László Mátyás: Department of Bioengineering, Sapientia Hungarian University of Transylvania, 530104 Miercurea Ciuc, Romania

DOI: https://doi.org/10.3390/math10152813
Journal volume & issue: Vol. 10, no. 15
p. 2813

Abstract

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We examine the one-dimensional transient diffusion equation with a space-dependent diffusion coefficient. Such equations can be derived from the Fokker–Planck equation and are essential for understanding the diffusion mechanisms, e.g., in carbon nanotubes. First, we construct new, nontrivial analytical solutions with the classical self-similar Ansatz in one space dimension. Then we apply 14 different explicit numerical time integration methods, most of which are recently introduced unconditionally stable schemes, to reproduce the analytical solution. The test results show that the best algorithms, especially the leapfrog-hopscotch, are very efficient and severely outperform the conventional Runge–Kutta methods. Our results may attract attention in the community who develops multi-physics engineering software.

Published in Mathematics

ISSN: 2227-7390 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Mathematics
Website: http://www.mdpi.com/journal/mathematics

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