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Performance simulation of CO₂ transcritical cooling system with mechanical subcooling cycle using low GWP refrigerants.

Number: No 353

Author(s) : NA S.-I., KANG G. H., KIM M. S.

Summary

The conventional automobile cooling systems using CO₂ as a refrigerant are hard to achieve proper cooling performance at hot summer season. In order to enhance the of CO₂ cooling systems, a mechanical subcooling cycle is proposed for application to vehicles with limited installation space. To analyze performance of the system, numerical models were built to predict the COP by changing the design parameters and heat exchanger arrangement. In addition, the maximum COP is determined by using an optimal method. The results show that the COP improves when applying the subcooling cycle, and the maximum COP is obtained based on the thermodynamic states at the outlets of the gas cooler and the sub-cooler.

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Pages: 6 p.

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Original title: Performance simulation of CO₂ transcritical cooling system with mechanical subcooling cycle using low GWP refrigerants.
Record ID : 30030122
Languages: English
Subject: Technology
Source: 13^th IEA Heat Pump Conference 2021: Heat Pumps – Mission for the Green World. Conference proceedings [full papers]
Publication date: 2021/08/31

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Indexing

Themes: Mobile air conditioning;
CO2;
Thermodynamics and changes of state
Keywords: Mobile air conditioning; Performance; Modelling; COP; R744; CO2; Low GWP; Transcritical cycle; Heat pump; Subcooling; Simulation; Thermodynamic cycle