Research Journal of Applied Sciences
ISSN: Online 1993-6079ISSN: Print 1815-932x
Abstract
The second-law analysis of a non-Newtonian fluid flowing through a channel made of two heated parallel plates is investigated. The flow is assumed to be steady, laminar and fully-developed. The effect of heat generation by viscous dissipation is included. Velocity, temperature and entropy generation profiles are presented. The effects of the flow behaviour index, the Brinkman number and the group parameter on velocity, temperature and entropy generation number are discussed. The results show that velocity profile depends largely on the flow behaviour index. They are flat near the centreline of the channel for pseudoplastic fluids and linear for dilatant fluids. Temperature profiles are higher for higher flow behaviour index and Brinkman number. The entropy generation number increases with Brinkman number and the group parameter because of the heat generated by viscous dissipation effect. For pseudoplastic fluids, the irreversibility is dominated by heat transfer, whereas, for dilatant fluids, irreversibility due to fluid friction is more dominant.
How to cite this article:
S. Saouli and S. Aiboud-Saouli . Entropy Generation in Channel Flow for Non-Newtonian Fluids with Viscous Dissipation Effect.
DOI: https://doi.org/10.36478/rjasci.2007.900.907
URL: https://www.makhillpublications.co/view-article/1815-932x/rjasci.2007.900.907