Experimental study for a high efficiency cascade heat pump water heater system using a new near-zeotropic refrigerant mixture

Single-stage water-source heat pumps have some disadvantages such as high pressure ratio and lower coefficient of performance at high water outlet temperature, and normally the temperature promotion cannot exceed 50 degrees C. To surmount these disadvantages, a high temperature water-source cascade heat pump (HTWSCHP) was suggested; the HTWSCHP system demonstrates a much more competitive performance at high water outlet temperature of 142 degrees C and the temperature promotion can reach 90 degrees C. Lots of researches have been performed to analyze the cascade heat pump system, but they are normally about the low ambient temperature and there is very little information about the high water -outlet temperature. In this study, a HTWSCHP system was investigated experimentally. The high and low refrigerant cycle employed BY-3(A&B) and R245fa respectively. The experimental test was performed under different conditions: different electronic expansion valve opening ratio combination for low and high cycle, different refrigerants for the low cycle, different temperature for low-temperature heat source, different heating capacity, and varying water-outlet temperature. The final results shows that the water-outlet temperature of 142 degrees C can be achieved which is the highest level in the open literature with the total coefficient of 1.669, and the pressure ratio for low and high cycle are 3.9 and 3.4 respectively. (C) 2018 Elsevier Ltd. All rights reserved.