The performance of a transcritical CO2 cycle with an internal heat exchanger for hot water heating

Abstract The main purpose of this study is to investigate the performance of a transcritical CO2 cycle with an internal heat exchanger for hot water heating. Performance test and simulation have been carried out for a transcritical CO2 cycle by varying secondary heat transfer fluid temperatures at evaporator and gas-cooler inlets as well as the discharge pressure. Variations of mass flow rate of refrigerant, compressor power, heating capacity, and co-efficient of performance (COP) with respect to the length of an internal heat exchanger are presented at various operating conditions. Good quantitative agreement between model predictions and experimental results has been found; most parameters have absolute average deviations of less than 4%. As the length of the internal heat exchanger increases, COP is enhanced but heating capacity tends to decrease due to the trade-offs between the effectiveness and pressure drop in the internal heat exchanger.