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Design and integration of CO2 gas cooler/condenser in a refrigeration system.
Number: pap. 206
Author(s) : GE Y. T., TASSOU S. A., DEWA SANTOSA I., et al.
Summary
As a natural working fluid, CO2 is being used in many refrigeration and heat pump applications. Owing to its good thermophysical properties, especially its low critical temperature, heat rejection to the ambient air from the CO2 system will take place either subcritically or supercritically, depending on the ambient air temperature and ‘head’ pressure control employed. The heat rejection heat exchanger will act as either a gas cooler or condenser and this should be taken into consideration in the optimal design of the heat exchanger and head pressure controls for optimal operation. Models of finned-tube CO2 gas coolers/condensers have been developed using both the distributed (detailed model) and lumped parameter (simple model) approaches. The former has been employed to give a detailed prediction of the working fluid temperature profiles, localised heat transfer rates and effect of pipe circuitry arrangements, while the latter has been used within an overall CO2 system model for the simulation and optimisation of the system. Both models have been validated against measurements on a specially designed gas cooler test facility. Two different gas cooler/condensers have been used for the evaluation. The validated models have been used to study the effects of CO2 gas cooler/condenser size and controls on overall CO2 system performance.
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Details
- Original title: Design and integration of CO2 gas cooler/condenser in a refrigeration system.
- Record ID : 30012058
- Languages: English
- Source: 3rd IIR International Conference on Sustainability and the Cold Chain. Proceedings: London, UK, June 23-25, 2014
- Publication date: 2014/06/23
Links
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Indexing
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Themes:
Evaporators, condensers and other heat exchangers;
CO2 - Keywords: Refrigerating system; Pipe; Design; Gas cooler; R744; Simulation; Condenser; CO2
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