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Study of capillary tubes in a transcritical CO2 refrigeration system |
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| Authors: | Kenneth B. Madsen Claus S. Poulsen Maike Wiesenfarth |
| Affiliation: | aDanish Technological Institute, Kongsvang Allé 29, 8000 Aarhus C, Denmark bDanish Technological Institute, Gregersensvej, 2630 Taastrup, Denmark cDanish Technological Institute, Kongsvang Allé 29, 8000 Århus C, Denmark |
| Abstract: | Capillary tubes have been used in refrigeration systems for many years, but not with a transcritical CO2 system. In this article, the effects of capillary tubes in a transcritical CO2 refrigeration system have been investigated experimentally and theoretically. Different types of capillary tubes with different lengths (0.5–4 m) and diameters (1–2 mm) have been tested. The result of this work is a static model, which is used in the further work to make a simulation model (static) of a complete refrigeration system. The model is based on Friedel's and Colebrook's pressure drop correlations. The behaviour of an adiabatic capillary tube in a refrigeration cycle has been investigated theoretically. The conclusion is that the COP of a system with capillary tubes generally is better than when a fixed high pressure is used, but not as good as when variable optimal high pressure is used. Capillary tubes are especially interesting in applications where the evaporation pressure is constant and the temperature out of the gas cooler varies no more than ±10 K from the design condition. The reduction in COP is more significant at low temperatures out of the gas cooler. |
| Keywords: | Refrigeration system Compression system Refrigerant CO2 Transcritical cycle Modelling Capillary tube Mots clés: Système frigorifique Système à compression Frigorigène CO2 Cycle transcritique Modélisation Tube Capillaire |
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