期刊
ENERGY
卷 239, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.energy.2021.122651
关键词
Clean heating; Air source heat pump; Natural refrigerant; Cascade cycle; Severe cold regions
资金
- National Key Research and Development Program of China [2019YFF0301504]
- National Natural Science Foundation of China [52076085]
- program for HUST Academic Frontier Youth Team [2019QYTD10]
This paper investigates a R134a/CO2 cascade air source heat pump system for efficient and reliable heating in severe cold regions. The simulation model and experimental results demonstrate its excellent energy performance and ability to supply hot water with high COP under different working conditions.
To achieve efficient and reliable heating in severe cold regions below -20 degrees C, this paper investigates a R134a/CO2 cascade air source heat pump (ASHP) system. Firstly, a simulation model is constructed and used for energy performance analysis. Then experiments are carried out for model verification and performance investigation. Finally, its performance is evaluated in detail with the meteorological data of Harbin under different working conditions for energy performance forecast. Simulation results show that the heating coefficient of performance (COP) increases with higher ambient temperature and lower water supply temperature. At the same time, the modeling errors on coefficient of performance (COP) are all within +/- 0.2%. The experimental results show that the proposed R134a/CO2 ASHP can supply water above 50 degrees C with high COP up to 3.07 and 1.60 when the ambient air temperature is -5 degrees C and -45 degrees C, respectively. Furthermore, under four working conditions, the heating seasonal performance factors (HSPF) are all above 2.30 and the best is 2.39 for the -25 degrees C nominal operating temperature and the typical working condition of civil buildings (15 degrees C). Both the experimental data and the simulation results show that the proposed R134a/CO2 cascade air source heat pump system can provide efficient and reliable heating in severe cold regions. (C) 2021 Elsevier Ltd. All rights reserved.
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