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户外天气下基于被动和动态相变的辐射冷却

Passive and Dynamic Phase-Change-Based Radiative Cooling in Outdoor Weather.

作者信息

Xu Xiudong, Gu Jinxin, Zhao Haipeng, Zhang Xinyuan, Dou Shuliang, Li Yao, Zhao Jiupeng, Zhan Yaohui, Li Xiaofeng

机构信息

School of Optoelectronic Science and Engineering & Key Lab of Advanced Optical Manufacturing Technologies of Jiangsu Province & Key Lab of Modern Optical Technologies of Education Ministry of China, Soochow University, Suzhou 215006, China.

School of Chemical Engineering and Technology, Harbin Institute of Technology, Harbin 150001, China.

出版信息

ACS Appl Mater Interfaces. 2022 Mar 30;14(12):14313-14320. doi: 10.1021/acsami.1c23401. Epub 2022 Mar 18.

Abstract

Radiative cooling has attracted considerable attention due to its tremendous potential in exploiting the cold reservoir of deep sky. However, overcooling always occurs in the conventional static radiative coolers because they operate only in the cooling mode in both hot and cold. Therefore, a dynamic radiative cooler based on phase change materials is highly desired. Nevertheless, the practical outdoor phase-change-based dynamic radiative cooling has not yet been experimentally demonstrated. To satisfy the stringent requirement of the phase-change-based radiative cooler in outdoor weather conditions, we engineered the phase-change material (VO) to possess the room-temperature phase-transition capability for typical weather conditions. Second, the reconfigurable cavity consists of the lossless spacer to ensure the magnitude of thermal modulation and suppress the solar absorption simultaneously. Third, the practical selective-filtering method is devised to shield the solar irradiance while permitting the thermal emission. Our experiment demonstrates that these materials and photonic measures can work together to realize the dynamic radiative cooling in actual weather conditions, which shows a self-adaptive switch between the ON-cooling state in hot daytime and the OFF-cooling state in cold nighttime. The study pushes the radiative cooler toward multifunctionality and provides beneficial guidance for the phase-change-based intelligent thermal control.

摘要

由于在利用深天空冷源方面具有巨大潜力,辐射冷却已引起了广泛关注。然而,传统的静态辐射冷却器总是会出现过冷现象,因为它们在冷热环境中都仅以冷却模式运行。因此,基于相变材料的动态辐射冷却器备受期待。尽管如此,基于相变的实际户外动态辐射冷却尚未得到实验验证。为满足基于相变的辐射冷却器在户外天气条件下的严格要求,我们设计了相变材料(VO),使其在典型天气条件下具备室温相变能力。其次,可重构腔由无损间隔层组成,以确保热调制幅度并同时抑制太阳吸收。第三,设计了实用的选择性滤波方法,以屏蔽太阳辐照同时允许热发射。我们的实验表明,这些材料和光子学措施可以共同作用,在实际天气条件下实现动态辐射冷却,即在炎热的白天处于开启冷却状态,在寒冷的夜晚处于关闭冷却状态之间实现自适应切换。该研究推动辐射冷却器向多功能化发展,并为基于相变的智能热控提供了有益指导。

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