Natural convectionradiation cooling of a vertical divided vented channel

Purpose The purpose of this paper is to study the radiationnatural convection interactions in a vertical divided vented channel. The effects of the surface emissivity, the vent opening position and size on the heat transfer and the flow structures inside the channel were studied. Designmethodologyap...

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Bibliographic Details
Published in:Engineering computations 2006-10, Vol.23 (7), p.818-839
Main Authors: Mezrhab, A., Bouali, H., Amaoui, H., Abid, C.
Format: Article
Language:English
Subjects:
Channel flow
Convection
Heat transfer
Numerical analysis
Online Access:Get full text
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Summary:Purpose The purpose of this paper is to study the radiationnatural convection interactions in a vertical divided vented channel. The effects of the surface emissivity, the vent opening position and size on the heat transfer and the flow structures inside the channel were studied. Designmethodologyapproach The governing differential equations are solved by a finite volume method, with adopting the SIMPLER algorithm for pressurevelocity coupling. The view factors were determined by using a boundary elements approximation and a Monte Carlo method. Findings The effect of the radiation exchange is very important, it increases the average hot wall Nusselt number by more than 100 per cent. The contribution of the channel wall emissivity in the heat transfer is more important than that of the plate emissivity. The average hot wall Nusselt number increases with increasing the vent opening size, only in presence of the radiation exchange, and this increase is more pronounced, particularly when the vent opening is located near the channel inlet. Research limitationsimplications The flow is assumed to be incompressible, laminar and two dimensional. The radiative surfaces are assumed diffusegrey. The working fluid, air, is considered as transparent with respect to the radiation. Practical implications The industrial applications of this study are solar collectors, thermal building, electronic cooling, aeronautics, chemical apparatus, nuclear engineering, etc. Originalityvalue In comparison to the preceding studies, the originality of this paper is the taking into account of the radiation exchange in a vented and divided channel.
ISSN:0264-4401
DOI:10.1108/02644400610689910