Title |
Performance of R430A on Refrigeration System of Domestic WaterPurifiers |
Authors |
박기정(Ki-Jung Park) ; 이요한(Yohan Lee) ; 정동수(Dongsoo Jung) ; 김경기(Kyoung-kee Kim) |
Keywords |
대체냉매 ; 정수기 ; 냉매 430A ; 냉매 134a ; 오존층 붕괴 ; 지구 온난화 Alternative refrigerant ; Water Purifiers ; R430A ; HFC134a ; Ozone depletion ; Global warming ; |
Abstract |
In this study, thermodynamic performance of R430A is examined both numerically and experimentally in an effort to replace HFC134a used in the refrigeration system of domestic water purifiers. Even though HFC134a is used predominantly in such a system these days, it needs to be phased out in the near future in Europe and most of the developed countries due to its high global warming potential. To solve this problem, cycle simulation and experimental measurements are carried out with a new refrigerant mixture of 76%R152a/24% R600a using actual domestic water purifiers. This mixture is numbered and listed as R430A by ASHRAE recently. Test results show that the system performance with R430A is greatly influenced by the amount of charge due to the small internal volume of the refrigeration system of the domestic water purifiers. With the optimum amount of charge of 21 to 22 grams, about 50% of HFC134a, the energy consumption of R430A is 13.4% lower than that of HFC 134a. The compressor dome and discharge temperatures and condenser center temperature of R430A are very similar to those of HFC134a at the optimum charge. Overall, R430A, a new long term environmentally safe refrigerant, is a good alternative for HFC134a requiring little change in the refrigeration system of the domestic water purifiers. |