PartagerModélisation numérique 3D et transitoire des processus d'ouverture et de fermeture de porte et leur influence sur la performance thermique des chambres froides.
3D and transient numerical modelling of door opening and closing processes and its influence on thermal performance of cold rooms
Auteurs : CARNEIRO R., GASPAR P. D., SILVA P. D.
Type d'article : Article
Résumé
This paper presents the comparison of three-dimensional and transient CFD modelling of the opening and closing processes of hinged and sliding doors and its influence on the thermal performance of cold rooms. A species transport model is used to model a tracer gas. The air infiltration through the door opening is determined by the tracer gas concentration decay technique. The prediction of air temperature and velocity fields in the cold room as function of external air temperature allows quantifying the increase of the air infiltration rate and consequently of the average air temperature inside the cold room. When the hinged door is used, the formation of vortices during the opening movement promotes a larger and faster thermal interaction between the two contiguous air masses. The air infiltration during the sliding door opening/closing is 20% lower than for a hinged door. Consequently, the average air temperature inside the cold room is 17% lower. The air infiltration rate was numerically predicted and compared with analytical models’ results. The numerical model predicts closely the air infiltration rate for each door type. Moreover, the transient CFD modelling extends the results of the analytical models allowing the analysis of the influence of door opening and closing processes on the air temperature and velocity fields.
Détails
- Titre original : 3D and transient numerical modelling of door opening and closing processes and its influence on thermal performance of cold rooms
- Identifiant de la fiche : 30021057
- Langues : Anglais
- Source : Applied Thermal Engineering - vol. 113
- Date d'édition : 25/02/2017
- DOI : http://dx.doi.org/10.1016/j.applthermaleng.2016.11.046
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