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Entropy generation in hydromagnetic boundary flow under the effects of frictional and Joule heating: exact solutions

Afridi, M. I. and Qasim, M. and Shafie, S. (2017) Entropy generation in hydromagnetic boundary flow under the effects of frictional and Joule heating: exact solutions. European Physical Journal Plus, 132 (9). ISSN 2190-5444

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Abstract

The objective of the present article is to discuss the effects of viscous dissipation and Joule heating on entropy generation in a hydromagnetic boundary layer flow. Governing equations are reduced to self-similar equations via suitable similarity transformations. The expressions for the volumetric entropy generation rate and the Bejan number are also obtained using similarity transformations. The exact solution of the transformed energy equation is computed using the Laplace transform treatment. The obtained exact solutions are utilized to calculate the entropy generation number and the Bejan number. The impacts of Prandtl number, viscous dissipation parameter (Eckert number), magnetic parameter, mass suction and temperature difference parameter on entropy generation and Bejan number are discussed graphically. The increasing value of the temperature difference parameter reduces the entropy generation. The entropy generation increases with the increasing values of the magnetic parameter, the Eckert number, the mass suction parameter and the Prandtl number.

Item Type:Article
Uncontrolled Keywords:Bejan number, Laplace transform treatment
Subjects:Q Science > QA Mathematics
Divisions:Science
ID Code:76163
Deposited By: Widya Wahid
Deposited On:25 Jun 2018 09:06
Last Modified:25 Jun 2018 09:06

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