Arab Journal of Basic and Applied Sciences (Jan 2020)

Boundary-domain integral method and homotopy analysis method for systems of nonlinear boundary value problems in environmental engineering

  • M. A. AL-Jawary,
  • G. H. Rahdi,
  • J. Ravnik

DOI
https://doi.org/10.1080/25765299.2020.1728021
Journal volume & issue
Vol. 27, no. 1
pp. 121 – 133

Abstract

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In this paper we present the development of numerical methods for two problems in chemical engineering: adsorption of carbon dioxide into phenyl glycidyl ether and diffusion and reaction processes in a porous catalyst. Both problems are modelled by systems of two coupled nonlinear ordinary differential equations. Dirichlet and Neumann type boundary conditions are considered. We develop the standard homotopy analysis method and the boundary-domain element method to solve for the unknown steady-state concentrations of reactants. The validity of the proposed methods is checked and demonstrated by numerical examples. Convergence rates are compared and the advantages and drawbacks of the proposed methods are discussed and compared to the Mathematica NDSOLVE solver. We show, that the proposed homotopy analysis method features exponential convergence rate and is highly accurate and efficient. As low as 6 terms are needed to reach error norms of Furthermore, the boundary-domain integral approach is also capable of solving the same problem very efficiently, using a very coarse computational mesh (21 nodes).

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