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Revista Facultad de Ingeniería Universidad de Antioquia
versão impressa ISSN 0120-6230
Resumo
CRUZ-DUARTE, Jorge Mario; AMAYA-CONTRERAS, Iván Mauricio e CORREA-CELY, Carlos Rodrigo. An optimal high thermal conductive graphite microchannel for electronic device cooling. Rev.fac.ing.univ. Antioquia [online]. 2015, n.77, pp.143-152. ISSN 0120-6230. https://doi.org/10.17533/udea.redin.n77a17.
This article describes the design of an optimal rectangular microchannel made of a high thermal conductive graphite (HTCG). For simulating the proposed microchannel heat sink, the total resistance model and the entropy generation minimization criterion were used. For solving the optimization problem, the unified particle swarm optimization algorithm (UPSO), was used. Results showed a marked effect of using this high thermal conductor when compared to traditional materials, such as aluminum, and while using air and ammonia gas as the working fluids. It is also reported the relative effect of the constriction, convective and fluid thermal resistances on the overall equivalent thermal resistance. As a demonstrative example when changing the nature of the coolant, a titanium dioxide nanofluid was selected. It was found that the Nusselt number is perceptibly lower, when the coolant is a nanofluid and the material for the making of the microchannel is an HTCG.
Palavras-chave : Microchannels; heat sinks; minimum entropy generation; unified particle swarm optimization; high thermal conductive graphite.