Thermodynamic modeling of an improved transcritical carbon dioxide cycle with ejector: Aiming low-temperature refrigeration
Author:
Publisher
Elsevier BV
Subject
Industrial and Manufacturing Engineering,Energy Engineering and Power Technology
Reference77 articles.
1. Revival of carbon dioxide as a refrigerant;Lorentzen;Int. J. Refrig.,1994
2. A new, efficient and environmentally benign system for car Un nouveau syst6me de conditionnement d ’ air automobile efficace et sans nuisance sur l ’ environnement;Lorentzen;Int. J. Refrig.,1993
3. An experimental evaluation of the transcritical CO2 refrigerator performances using an internal heat exchanger;Aprea;Int. J. Refrig.,2008
4. Optimization of a CO2-C3H8 cascade system for refrigeration and heating;Bhattacharyya;Int. J. Refrig.,2005
5. High efficiency sub-critical carbon dioxide supplementary heat pump for low temperature climates (energy and exergy analysis);Purjam;Renew. Energy.,2019
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