Résumé
Three-dimensional numerical simulations of the laminar flow and heat transfer of water in silicon microchannels with non-circular cross-sections (trapezoidal and triangular) were performed. The finite volume method was used to discretize the governing equations. Numerical results were compared with experimental data available in the literature, and good agreements were achieved. The effects of the geometric parameters of the microchannels were investigated, and the variations of Nusselt number with Reynolds number were discussed from the field synergy principle. The simulation results indicate that when the Reynolds numbers are less than 100, the synergy between velocity and temperature gradient is much better than the case with Reynolds number larger than 100. There is an abrupt change in the intersection angle between velocity and temperature gradient around Re= 100. In the low Reynolds number region the Nusselt number is almost proportional to the Reynolds number, while in the high Reynolds number region, the increasing trend of Nusselt number with Reynolds number is much more mildly, which showed the applicability of the field synergy principle. In addition, for the cases studied, the fully developed Nusselt number for the microchannels simulated increases with the increasing Reynolds number, rather than a constant. [Reprinted with permission from Elsevier. Copyright, 2006].
Détails
- Titre original : A numerical study of laminar convective heat transfer in microchannel with non-circular cross-section.
- Identifiant de la fiche : 2007-0559
- Langues : Anglais
- Source : International Journal of thermal Sciences - vol. 45 - n. 12
- Date d'édition : 12/2006
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