Performance Investigation of a Supergravity Transcritical Co2 Refrigeration Cycle Under Off-Design Conditions
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Publisher
Elsevier BV
Reference64 articles.
1. modified dual-ejector enhanced dual-evaporator transcritical CO 2 refrigeration cycle: 4E (Energy, Exergy, economic and Environmental) assessment;L Zou;Energ Conver Manage,2024
2. Advanced development and application of transcritical CO 2 refrigeration and heat pump technology-A review;Y Song;Energy Rep,2022
3. Thermodynamic performance evaluation of an ejector-enhanced transcritical CO 2 parallel compression refrigeration cycle;T Bai;Int J Refrig,2023
4. An investigation into the thermodynamic improvement potential of a transcritical automotive CO 2 refrigeration cycle;X Song;Appl Therm Eng,2022
5. Experimental evaluation of a transcritical CO 2 refrigeration facility workingwith an internal heat exchanger and a thermoelectric subcooler:Performance assessment and comparative;A Casi;Int J Refrig,2022
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