PartagerRésumé
This paper describes a new concept of a high temperature (HT)/low-temperature (LT) network integration by using an advanced heat pump technology able to integrate and manage various renewable and residual energy sources with different temperature levels. It is based on a vapor extraction (VE) compression cycle, which integrates two well-known cycles: a vapor compression heat pump cycle and an organic Rankine cycle (ORC). To perform a comparison with existing heat pumps, an energy/exergy analysis has been carried out by using R134a as a working fluid. Thus, for a given extraction ratio of 25%, results show that an increased heating/cooling capacity of about 30% and a high exergy efficiency of 59.7% can be achieved, compared to the 55.5% obtained for conventional compression heat pumps. A global coefficient of performance (COP) between 2.5 and 3.5 (corresponding to a vapor extraction ratio between 10% and 30%) is also obtained and compared to the 1.3-1.7 values given in the literature for existing thermally driven heat pumps (e.g. absorption heat pumps or double orc-orc heat-pump cycles) working with high temperature levels of hot sources.
Documents disponibles
Format PDF
Pages : 10 p.
Disponible
Gratuit
Détails
- Titre original : Performance analysis of a vapor-extraction heat-pump system for district heating/cooling applications.
- Identifiant de la fiche : 30030092
- Langues : Anglais
- Sujet : Technologie
- Source : 13th IEA Heat Pump Conference 2021: Heat Pumps – Mission for the Green World. Conference proceedings [full papers]
- Date d'édition : 31/08/2021
Liens
Voir d'autres communications du même compte rendu (198)
Voir le compte rendu de la conférence
Indexation
-
Thèmes :
Techniques des pompes à chaleur;
Froid et chauffage urbain;
Systèmes à éjection, cycle à air, cycle Stirling, autres cycles - Mots-clés : Chauffage urbain; Froid urbain; Cycle organique de Rankine; Haute température; Extraction; COP; Pompe à chaleur; Performance; Modélisation; Simulation; Puissance frigorifique; R134a; Système à compression
-
Refrigerant lubricant interaction in high-tempe...
- Auteurs : COTTER D. F., SHAH N. N., HUANG M. J., HEWITT N. J.
- Date : 31/07/2020
- Langues : Anglais
- Source : IIR Rankine Conference 2020.
- Formats : PDF
Voir la fiche
-
Experimental investigation on organic Rankine c...
- Auteurs : OH J., LEE H.
- Date : 2022
- Langues : Anglais
- Source : 2022 Purdue Conferences. 19th International Refrigeration and Air-Conditioning Conference at Purdue.
- Formats : PDF
Voir la fiche
-
Análisis termodinámico de un sistema combinado ...
- Auteurs : NAVARRO-ESBRÍ J., MOLES RIBERA F., PERIS PÉREZ B., et al.
- Date : 03/05/2016
- Langues : Espagnol
- Source : CYTEF 2016. VIII Congreso Ibérico y VI Congreso Iberoamericano de las Ciencias y Técnicas del Frío, Coimbra-Portugal, 3-6 mayo, 2016.
- Formats : PDF
Voir la fiche
-
Optimal heat source temperature for supercritic...
- Auteurs : LIU W., WIELAND C., MEINEL D., et al.
- Date : 11/07/2016
- Langues : Anglais
- Source : 2016 Purdue Conferences. 16th International Refrigeration and Air-Conditioning Conference at Purdue.
- Formats : PDF
Voir la fiche
-
What will Professor Rankine inspire in you?
- Auteurs : SPANSWICK I.
- Date : 31/07/2020
- Langues : Anglais
- Source : IIR Rankine Conference 2020.
- Formats : PDF
Voir la fiche