Sub-ambient radiative cooling with wind cover

With the breakthrough of daytime radiative cooling, more and more efforts have been devoted to this promising clean energy technology. However, there still lacks systematic research on the impact of wind cover on radiative cooling performance. This work firstly reviews the existing wind cover materi...

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Bibliographic Details
Published in:Renewable & sustainable energy reviews 2020-09, Vol.130, p.109935, Article 109935
Main Authors: Liu, Junwei, Zhang, Ji, Zhang, Debao, Jiao, Shifei, Xing, Jincheng, Tang, Huajie, Zhang, Ying, Li, Shuai, Zhou, Zhihua, Zuo, Jian
Format: Article
Language:English
Subjects:
Cooling performance
Cooling potential evaluation
Sub-ambient radiative cooling
Tilt strategy
Wind cover
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Summary:With the breakthrough of daytime radiative cooling, more and more efforts have been devoted to this promising clean energy technology. However, there still lacks systematic research on the impact of wind cover on radiative cooling performance. This work firstly reviews the existing wind cover material and non-radiative heat exchange models. Subsequently, the great impact of the wind cover on cooling performance is demonstrated theoretically and experimentally. The results indicate that in the high temperature and humidity area, the difference of daytime maximum temperature drop with and without wind cover can reach about 2.3 K, while the nighttime difference is significantly greater. Additionally, the tilt strategy and wind cover strategy are employed to achieve a maximum daytime average temperature drop of 4.2 K in Tianjin, China. Furthermore, this work continues to investigate the impact of the wind cover on radiative cooling potential of various areas in China, and the results reveal that wind cover has a greater impact on the radiative cooling potential in Northwest China and 85% of China's areas can achieve radiative cooling performance with wind cover. This work provides a detailed evaluation of radiative cooling potential with and without wind cover in China. •The impact of wind cover on radiative cooling performance is demonstrated theoretically and experimentally.•The existing wind cover material and non-radiative heat exchange model are reviewed.•The tilt strategy and wind cover strategy can improve the cooling performance significantly.•The distribution of radiative cooling potential with and without wind cover in China is drawn.
ISSN:1364-0321
1879-0690
DOI:10.1016/j.rser.2020.109935