Experimental Performance Study of Solar-Assisted Enhanced Vapor Injection Air-Source Heat Pump System

In this paper, a solar-assisted enhanced vapor injection air-source heat pump (SC-EVIHP) system was built to investigate its heating performance in cold regions. A typical-weather day in Harbin was selected for the experiment, and the heating characteristics of the SC-EVIHP system were explored under variable working conditions. The experimental results showed that the system was greatly affected by solar radiation intensity. On typical-weather days in winter, the maximum values for the heating capacity and COP of the system appeared at the time of maximum radiation intensity. Compared with conventional enhanced vapor injection air-source heat pump systems (EVI-ASHPs), the heating capacity and COP were increased by 24.9% and 12.5% at most, respectively. The COP of the system increased by at most 11.1% under conditions where the outdoor temperature was -12 degrees C and the outlet hot air temperature of the solar air collector was 40 degrees C. The SC-EVIHP system works well in a low-temperature environment and can be widely applied in cold regions.

Automated summary

This paper investigates the heating performance of a solar-assisted enhanced vapor injection air-source heat pump (SC-EVIHP) system in cold regions. The experimental results show that the system is greatly affected by solar radiation intensity, and compared with conventional systems, it has significantly improved heating capacity and COP values.