Extending the operation of a solar air collector to night-time by integrating radiative sky cooling: A comparative experimental study

Solar thermal collectors are generally unproductivity at night without sunlight. Radiative cooling, on the other hand, is another renewable technology harvesting coldness from extraterrestrial space and can effectively work nocturnally. Therefore, this study proposes a scheme that integrates the nocturnal radiative cooling mechanism into a solar air collector as a supplementary. Incoming air is heated by the solar absorber during the daytime and cooled down by the glass cover at night. Experimental results indicate that, with an air mass flow rate of 0.03 kg/s, the dual-mode collector (named as PT-RC collector) realized a daytime solar thermal efficiency of 34.2% at zero-reduced temperature (e.g., when the inlet air temperature equals the ambient temperature) and a net radiative cooling power (e.g., when the inlet air temperature equals the ambient temperature) of 27.9 W/m(2), which are 72.2% and 2.4 times those of the typical solar air collector. As the air mass flow rate increased from 0.01 to 0.05 kg/s, the two performance indicators lifted from 19.8% to 34.5% and from 16.9 to 33.0 W/m(2), respectively. The PT-RC collector shows potential to be applied in four-season regions where heating and cooling are both required throughout the year or tropical zones where cooling is much more desired. (C)& nbsp;2022 Elsevier Ltd. All rights reserved.

Automated summary

This study proposes a scheme that integrates nocturnal radiative cooling into a solar air collector, which can effectively work at night. Experimental results show that the collector has high daytime solar thermal efficiency and net radiative cooling power, making it suitable for regions that require both heating and cooling throughout the year or tropical zones with high cooling demands.