A numerical solution of a non-classical Stefan problem with space-dependent thermal conductivity, variable latent heat and Robin boundary condition

In this article, we have considered a non-classical Stefan problem that involves the space-dependent thermal conductivity, variable latent heat and Robin boundary condition at the fixed boundary. The solution of the problem is obtained by using the operational matrix method based on Genocchi polynom...

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Bibliographic Details
Published in:Journal of thermal analysis and calorimetry 2022-12, Vol.147 (24), p.14649-14657
Main Authors: Kumar, Abhishek, Rajeev, Gómez-Aguilar, J. F.
Format: Article
Language:English
Subjects:
Algorithms
Analytical Chemistry
Boundary conditions
Chemistry
Chemistry and Materials Science
Exact solutions
Finite difference method
Heat conductivity
Heat transfer
Inorganic Chemistry
Latent heat
Matrix methods
Measurement Science and Instrumentation
Parameters
Physical Chemistry
Polymer Sciences
Polynomials
Temperature distribution
Thermal conductivity
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Summary:In this article, we have considered a non-classical Stefan problem that involves the space-dependent thermal conductivity, variable latent heat and Robin boundary condition at the fixed boundary. The solution of the problem is obtained by using the operational matrix method based on Genocchi polynomials and the collocation scheme. To show the accuracy, we have compared the results obtained by the Genocchi operational matrix method and a finite difference scheme with the exact solution for a particular case of the considered Stefan problem. It is found that the proposed Genocchi operational matrix method is more accurate than the finite difference scheme. Moreover, it is shown that the proposed algorithm rapidly converges as the degree of Genocchi polynomials increases. We have also analyzed the effects of the parameters α and δ on the temperature distribution and the evolution of moving phase front in the case of the considered non-classical Stefan problem. It is observed that the phase change processes become fast as the parameters α or/and δ increase.
ISSN:1388-6150
1588-2926
DOI:10.1007/s10973-022-11590-3