Modelling transport phenomena in refrigerated food bulks, packages and stacks: basics and advances |
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| Authors: | Pieter Verboven, D. Flick, B.M. Nicolaï ,G. Alvarez |
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| Affiliation: | aBIOSYST-MeBioS, Katholieke Universiteit Leuven, W. de Croylaan 42, B-3001 Leuven, Belgium;bUMR Génie Industriel Alimentaire (ENSIA/Cemagref/INAPG/INRA), INAPG-OMIP, 16 rue Claude Bernard, 75231 Paris cedex 05, France;cFlanders Centre of Postharvest Technology, W. de Croylaan 42, B-3001 Leuven, Belgium;dUMR Génie Industriel Alimentaire (ENSIA/Cemagref/INAPG/INRA), CEMAGREF, BP 44 Parc de Tourvoie, 92163 Antony, France |
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| Abstract: | Transport phenomena, comprising airflow, heat and mass transfer, are key processes in refrigerated storage. This paper gives a review of approaches to modelling transport phenomena in food bulks, packages and stacks. Darcy–Forchheimer porous media models have been successfully used. Ergun theory was found not directly applicable when foods are stored in packages, which cause flow confinement and vent hole resistance, invalidating traditional theory. Heat and mass transfer in food bulks has been modelled using single- and two-phase models. Suggested modifications were demonstrated to not be generally valid, leaving much scope for further development of models for refrigerated system design. Direct CFD approaches were shown to be successful alternatives to achieve this goal. |
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| Keywords: | Food Refrigerated storage Survey Modelling Air flow Heat transfer Mass transfer Geometry StorageMots clé s: Produit alimentaire Entreposage frigorifique Enquê te Modé lisation É coulement d'air Transfert de chaleur Transfert de masse Gé omé trie Stockage |
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