Numerical study of reservoir cooling by means of Peltier effect

Authors

  • Rodrigo Martins Farias
  • Elizaldo Domingues dos Santos
  • Liércio André Isoldi
  • Luis Alberto Oliveira Rocha

Keywords:

Peltier effect, Natural convection, Transient flow, Numerical analysis, Experimental analysis

Abstract

The present work studies numerically and experimentally the water cooling process by means of natural convection inside a closed reservoir. The cooling process is performed by Peltier or Thermoelectric effect. The purpose here is to obtain the thermal gradient inside the reservoir and to search for the best point where the coldest water can be extracted from the reservoir, which can be considered a geometric optimization of the device thermal design. The analyzed flow is incompressible, laminar, transient and three-dimensional. The Boussinesq approximation is employed for the treatment of buoyancy forces. For the numerical approach of the flow, the mass, momentum and energy conservation equations are solved by a commercial package based on the finite volume method (FLUENT®). The temperature field as function of time obtained by numerical simulations is confronted with the experimental data. The numerical results estimated satisfactorily the transient thermal behavior predicted by laboratory experiments.

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Author Biography

Luis Alberto Oliveira Rocha

Professor adjunto da FURG - pós-doutorado na área de Turbulência no Instituto de Pesquisas Hidráulicas/UFRGS/RS

Mais informações: Currículo Lattes

Published

2010-12-09

How to Cite

Farias, R. M., Santos, E. D. dos, Isoldi, L. A., & Rocha, L. A. O. (2010). Numerical study of reservoir cooling by means of Peltier effect. VETOR - Journal of Exact Sciences and Engineering, 18(2), 56–66. Retrieved from https://furg.emnuvens.com.br/vetor/article/view/1702

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