Modeling the forced-air cooling process of fresh strawberry packages, Part I: Numerical model

Modeling the forced-air cooling process of fresh strawberry packages, Part I: Numerical model

A numerical analysis of the forced-air cooling process of retail packages of strawberries was performed by solving the conservation equations of mass, momentum and energy within the system. The results showed that the heterogeneity of the cooling process is largely influenced by the structure and de...

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Bibliographic Details
Published in:International journal of refrigeration Vol. 32; no. 2; pp. 335 - 348
Main Authors: Ferrua, M.J., Singh, R.P.
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01-03-2009
Elsevier
Subjects:
Air
Applied sciences
Cooling
Emballage
Energy
Energy. Thermal use of fuels
Exact sciences and technology
Forced-convection
Fraise
Modelling
Modélisation
Packaging
Palette
Pallet
Post-harvest processing
Refrigerating engineering
Refrigerating engineering. Cryogenics. Food conservation
Refroidissement
Strawberry
Traitement après récolte
Écoulement forcé
Fraise
Refroidissement
Palette
Cooling
Emballage
Air
Traitement après récolte
Pallet
Modélisation
Strawberry
Forced-convection
Post-harvest processing
Packaging
Écoulement forcé
Modelling
Refrigeration installation
Air flow
Air cooling
Temperature
Flow rate
Fruit
Modeling
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Summary:A numerical analysis of the forced-air cooling process of retail packages of strawberries was performed by solving the conservation equations of mass, momentum and energy within the system. The results showed that the heterogeneity of the cooling process is largely influenced by the structure and design of the packaging system (individual clamshell packages and trays). On average 75 ± 2% of the total airflow forced through the system bypassed the clamshells, and 46 ± 5% of the flow rate forced through clamshells bypassed the strawberries. After 1 h of cooling, the average-fruit-temperature per clamshell ranged from 2.4 °C to 8.3 °C between the first and last clamshells along the main flow direction. Within these clamshells, the maximum differences in the volume-average temperature of individual fruits reached 3.5 °C and 5.1 °C, respectively. The results show the potential use of this numerical approach as a design tool to optimize the forced-air cooling process of horticultural products.
ISSN:0140-7007
1879-2081
DOI:10.1016/j.ijrefrig.2008.04.010