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Une approche à base de modèle pour analyser des fluides actifs dans les caloducs.

A model-based approach for analysis of working fluids in heat pipes.

Auteurs : ARAB M., ABBAS A.

Type d'article : Article

Résumé

Heat pipes (HP) are efficient heat transfer devices, utilizing a working fluid to transfer heat based on evaporation and condensation. To make HPs even more efficient, one viable approach is to modify the utilized working fluid thermophysical properties. In this paper, a simple yet effective method based on dimensional analysis, leading to a reduced-order model, is proposed to analyze and modify working fluid's thermophysical properties and to predict the impact of working fluid modification on thermal resistance of a trapezoidal micro-grooved heat pipe. A validated one dimensional mathematical model based on a semi-analytical hydrodynamic approach is used to estimate the reduced-order model parameters. Alternatively, experimental data can be used for estimation of the reduced-order model parameters. The reduced model is further used to analyze and quantify the contribution of each of the thermophysical properties of working fluid on heat pipe thermal resistance. The simplified reduced-order model yielded a dimensionally reduced form of the numerical model which revealed constant thermal resistance contours. In addition, the reduced-order model successfully predicted the performance of the heat pipe when filled with different working fluids. It is also found that high thermal conductivity, low surface tension, low latent heat of evaporation, high viscosity, and low liquid density are the most favourable thermophysical properties of the working fluid leading to improvement of heat pipe thermal resistance, respectively. The proposed method for working fluid modification is generic and thus applicable to a range of situations associated with the selection and/or design of heat pipe working fluids and mixtures thereof.

Détails

  • Titre original : A model-based approach for analysis of working fluids in heat pipes.
  • Identifiant de la fiche : 30014846
  • Langues : Anglais
  • Source : Applied Thermal Engineering - vol. 73 - n. 1
  • Date d'édition : 12/2014
  • DOI : http://dx.doi.org/10.1016/j.applthermaleng.2014.08.001

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