Analysis of thermal conduction in carbon foams.

DRUMA A. M.; ALAM M. K.; DRUMA C.

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Analyse de la conduction thermique dans les mousses de carbone.

Analysis of thermal conduction in carbon foams.

Auteurs : DRUMA A. M., ALAM M. K., DRUMA C.

Type d'article : Article

Résumé

Carbon foams are a new class of porous organic materials that are being developed for use as insulation, heat spreaders, and compact heat exchanger cores. The thermal conductivity of carbon foams is difficult to determine analytically, particularly for the case of high porosity, graphitic foams that show moderate to high bulk conductivity. Models that predict thermal conductivity of foams often use an empirical parameter to account for the effect of pore shape and material microstructure on the conduction process. A finite-element analysis has been developed to calculate the thermal conductivity of carbon foams for the complete range of porosity. The results are interpreted in terms of analytical and semi-empirical solutions. It is shown that the finite-element solution matches the theoretical solution that is valid for low porosity, but differs significantly from semi-empirical solutions of high porosity foams.

Détails

Titre original : Analysis of thermal conduction in carbon foams.
Identifiant de la fiche : 2004-2760
Langues : Anglais
Source : International Journal of thermal Sciences - vol. 43 - n. 7
Date d'édition : 07/2004

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Indexation

Thèmes : Transfert de chaleur;
Isolants
Mots-clés : Conductivité thermique; Isolant; Carbone; Recherche; Mousse; Modélisation