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Skeleton-inspired optical-selective cellulose-based bio-film as passive radiative cooler and the energy-saving performance evaluation
writer:Feng, SJ (Feng, Shuangjiang) [1] ; Zhou, YM (Zhou, Yuming) [1] ; Liu, CH (Liu, Chenghuan) [1] ; Zhan
keywords:Passive radiative coolingOptical selectivityBio-inspired filmPorous scatteringEnergy saving
source:期刊
Issue time:2022年
To alleviate the energy consumption and CO2 emission caused by the operation of electrical equipment in hot weather, passive radiative cooling (PRC) has been considered as an effective strategy owing to the non-power input and non-pollution. In spite of exciting process, PRC materials are still limited by the poor optical selectivity in practical applications. Herein, inspired by the potential optical-thermal properties of the porous structure and composition of skeleton, ultra-thin hydrophobic sodium alginate (SA) cellulose bio-film was designed including precisely 3D porous structure like skeleton and ultra-long hydroxyapatite nanowires (HAP ULNWs) as self-assembled supporting frame. The obtained bio-film could reflect>95.59 % of solar radiation only within ultra-thin scale (similar to 220 mu m) as well as emit 96.73 % of thermal radiation. As the proof, the bio-film was used for the outdoor radiative cooling and about 12. maximum cooling effect could be obtained during the daytime under high solar radiation power density (>1750 W/m2). For evaluating the energy-saving potential, a building model covered with PRC film was established and 48.67 % of average electric energy consumption could be saved per year in China. The work presents an alternative strategy to enhance the optical selectivity and may facilitate the high-performance cooling energy saving.