Progress of passive daytime radiative cooling technologies towards commercial applications

[Display omitted] •Basic principles and typical structures of radiation cooling are summarized.•The performance of different radiative coolers is evaluated.•The importance of heat insulation function of the cooler is strengthened.•The advantages of porous structures are highlighted.•Challenges and s...

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Bibliographic Details
Published in:Particuology 2022-08, Vol.67, p.57-67
Main Authors: Cui, Yan, Luo, Xianyu, Zhang, Fenghua, Sun, Le, Jin, Nuo, Yang, Weimin
Format: Article
Language:English
Subjects:
Micro/nano particles
Micro/nano structures
Passive daytime radiative cooling
Porous structure
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Summary:[Display omitted] •Basic principles and typical structures of radiation cooling are summarized.•The performance of different radiative coolers is evaluated.•The importance of heat insulation function of the cooler is strengthened.•The advantages of porous structures are highlighted.•Challenges and solutions for commercialization of radiation cooling are proposed. Global warming has become one of the major environmental problems facing mankind in the 21st century. The existing refrigeration technology of buildings, like air conditioning, consumes a lot of energy. Passive daytime radiative cooling technology works without consuming energy, nor emitting carbon dioxide and other greenhouse gases. This review summarizes the development of daytime passive radiative cooling technology from the basic principles, structure and materials of radiative coolers; analyses and evaluates the various existing radiative coolers. The core of radiative cooling lies in the combination of multi-scale micro/nano structures. The cooler reflects sunlight thus preventing the building from being heated up; while allows the building to radiate its own heat out thus being cooled down; meanwhile maintains the temperature difference by the heat insulation effect of the porous structure in the film. The common challenges and potential solutions for the commercialization of radiative cooling technologies are analyzed, which may promote the applications of the technology in the near future.
ISSN:1674-2001
2210-4291
DOI:10.1016/j.partic.2021.10.004