PartagerIntégration d'un débit de frigorigène variable et de systèmes à pompe à chaleur à déshydratant pour la saison de refroidissement.
Integration of variable refrigerant flow and heat pump desiccant systems for the cooling season.
Auteurs : AYNUR T. N., HWANG Y., RADERMACHER R.
Type d'article : Article
Résumé
Energy saving and indoor air condition enhancing potentials by integrating the variable refrigerant flow (VRF) and heat pump desiccant (HPD) systems were investigated in a field performance test during a cooling season. Three different operating modes: non-ventilated, HPD ventilation assisted and HPD ventilation-dehumidification assisted VRF systems were investigated. The HPD systems operated in the ventilation-dehumidification mode dehumidify the outdoor air and supply it to the indoor air during the ventilation. It was found that the VRF systems provided an average of 97.6% of the total cooling energy for the HPD ventilation assisted mode. The remainder was the recovered cool by the HPD systems during ventilation. The VRF systems provided an average of 78.9% of the total cooling energy for the HPD ventilation–dehumidification assisted mode. The remainder was covered by the HPD systems which provided additional sensible and latent cooling. Overall, among the three operating modes, it is concluded that the HPD ventilation-dehumidification assisted VRF outdoor units consume less energy than the HPD ventilation assisted ones, but more than the non-ventilated ones, while providing the best indoor thermal comfort and indoor air quality conditions. For the total system, the HPD ventilation-dehumidification assisted VRF systems consume less energy than the HPD ventilation assisted ones. [Reprinted with permission from Elsevier. Copyright, 2010].
Détails
- Titre original : Integration of variable refrigerant flow and heat pump desiccant systems for the cooling season.
- Identifiant de la fiche : 30001428
- Langues : Anglais
- Source : Applied Thermal Engineering - vol. 30 - n. 8-9
- Date d'édition : 06/2010
- DOI : http://dx.doi.org/10.1016/j.applthermaleng.2010.01.002
Liens
Voir d'autres articles du même numéro (10)
Voir la source
Indexation
-
Thèmes :
Equipements d'humidification/déshumidification;
Pompes à chaleur à usage domestique;
Pompes à chaleur à usage commercial;
Conditionnement d'air pour le confort;
Circulation du fluide : tuyauterie, régulation, automatisme, sécurité;
Autres systèmes de production de froid (dessiccation, thermoélectricité, thermoacoustique...) - Mots-clés : Consommation d'énergie; Vitesse variable; Régulation; Simulation; Pompe à chaleur; Déshydratant; Frigorigène
-
Experimental and theoretical analysis of liquid...
- Auteurs : CHEN Y., ZHANG X., YIN Y.
- Date : 05/04/2016
- Langues : Anglais
- Source : Applied Thermal Engineering - vol. 98
Voir la fiche
-
Improving energy consumption and indoor comfort...
- Auteurs : CATALINA T.
- Date : 12/2011
- Langues : Anglais
- Source : Scientific Journal of the Technical University of Civil Engineering Bucharest, Mathematical Modelling in civil Engineering - vol. 7 - n. 4
Voir la fiche
-
A heat pump driven and hollow fiber membrane-ba...
- Auteurs : ZHANG N., ZHANG L. Z., XU J. C.
- Date : 07/2016
- Langues : Anglais
- Source : International Journal of Refrigeration - Revue Internationale du Froid - vol. 67
- Formats : PDF
Voir la fiche
-
Experimental study on a silica gel coated heat ...
- Auteurs : GE T. S., DAI Y. J., ZHAO Y., et al.
- Date : 06/04/2011
- Langues : Anglais
- Source : Sources/sinks Alternative to the Outside Air for Heat Pump and Air-conditioning Techniques (Alternative Sources - AS), Padua, Italy, April 5-7, 2011. / International Sorption Heat Pump Conference (ISHPC11), Padua, Italy, April 6-8, 2011.
- Formats : PDF
Voir la fiche
-
Évolution de la recherche sur l'application de ...
- Auteurs : YAO Y.
- Date : 12/2012
- Langues : Chinois
- Source : Journal of Refrigeration - vol. 33 - n. 148
- Formats : PDF
Voir la fiche