Creating an Eco-Friendly Building Coating with Smart Subambient Radiative Cooling

Xue Xiao; Qiu Meng; Li Yanwen; Zhang Q. M.; Li Siqi; Yang Zhuo; Feng Chi; Zhang Weidong; Dai Jian-Guo; Lei Dangyuan; Jin Wei; Xu Lijin; Zhang Tao; Qin Jie; Wang Huiqun; Fan Shanhui

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Creating an Eco-Friendly Building Coating with Smart Subambient Radiative Cooling

机译：创建环保建筑涂层，巧妙的脱极辐射冷却

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Subambient daytime radiative cooling (SDRC) provides a promising electricity- and cryogen-free pathway for global energy-efficiency. However, current SDRC systems require stringent surface designs, which are neither cost-effective nor eco-friendly, to selectively emit thermal radiation to outer space and simultaneously maximize solar reflectance. Here, a generic method is developed to upgrade the conventional building-coating materials with a peculiar self-adaptive SDRC effect through combining particle scattering, sunlight-excited fluorescence, and mid-infrared broadband radiation. It is also theoretically proved that heat exchange with the sky can eliminate the use of resonant microstructures and noble metal mirrors in conventional SDRC, and also leads to enhanced daytime cooling yet suppressed nighttime overcooling. When exposed to direct sunlight, the upgraded coating over an aluminum plate can achieve 6 degrees C (7 degrees C on a scale-model building) below the ambient temperature under a solar intensity of 744 W m(-2)(850 W m(-2)), yielding a cooling power of 84.2 W m(-2). The results pave the way for practical large-scale applications of high-performance SDRC for human thermal comfort in buildings.

机译：脱节日辐射冷却（SDRC）为全球能效提供了有希望的电力和低温途径。然而，目前的SDRC系统需要严格的表面设计，这些设计既不是成本效益也不是环保，以选择性地发射到外层空间的热辐射，并同时最大化太阳反射率。这里，开发了一种通用方法以通过组合颗粒散射，阳光激发荧光和中红外宽带辐射来升级具有特殊的自适应SDRC效应的传统建筑涂层材料。理论上还证明了与天空的热交换可以消除传统SDRC中的谐振微观结构和贵金属镜的使用，并且还导致增强的白天冷却但抑制夜间过冷。当暴露在阳光下，铝板上的升级涂层可以在744W m（-2）的太阳强度下在环境温度下达到6摄氏度（比例模型建筑物上的7摄氏度）（850WM（ -2）），产生84.2W m（-2）的冷却功率。结果为高性能SDRC进行了实用大规模应用，为建筑物的人类热舒适性铺平了道路。

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来源
《Advanced Materials》 |2020年第42期|1906751.1-1906751.8|共8页
作者
Xue Xiao; Qiu Meng; Li Yanwen; Zhang Q. M.; Li Siqi; Yang Zhuo; Feng Chi; Zhang Weidong; Dai Jian-Guo; Lei Dangyuan; Jin Wei; Xu Lijin; Zhang Tao; Qin Jie; Wang Huiqun; Fan Shanhui;
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作者单位

China State Construct Engn Co Ltd Tech Ctr Beijing 101300 Peoples R China|Hong Kong Polytech Univ Dept Civil & Environm Engn Hung Hom Hong Kong Peoples R China;

Hong Kong Polytech Univ Dept Elect Engn Hung Hom Hong Kong Peoples R China;

China State Construct Engn Co Ltd Tech Ctr Beijing 101300 Peoples R China|Renmin Univ China Dept Chem Beijing 100872 Peoples R China;

Penn State Univ Sch Elect Engn & Comp Sci University Pk PA 16802 USA;

Hong Kong Polytech Univ Dept Appl Phys Hung Hom Hong Kong Peoples R China;

Hong Kong Polytech Univ Dept Civil & Environm Engn Hung Hom Hong Kong Peoples R China;

China State Construct Engn Co Ltd Tech Ctr Beijing 101300 Peoples R China;

China State Construct Engn Co Ltd Tech Ctr Beijing 101300 Peoples R China;

Hong Kong Polytech Univ Dept Civil & Environm Engn Hung Hom Hong Kong Peoples R China;

Hong Kong Polytech Univ Dept Appl Phys Hung Hom Hong Kong Peoples R China|City Univ Hong Kong Dept Mat Sci & Engn 83 Tat Chee Ave Hong Kong Peoples R China;

Hong Kong Polytech Univ Dept Elect Engn Hung Hom Hong Kong Peoples R China;

Renmin Univ China Dept Chem Beijing 100872 Peoples R China;

China State Construct Engn Co Ltd Tech Ctr Beijing 101300 Peoples R China;

China State Construct Engn Co Ltd Tech Ctr Beijing 101300 Peoples R China;

China State Construct Engn Co Ltd Tech Ctr Beijing 101300 Peoples R China|Harbin Zhongke Mat Engn Co Ltd Harbin 150050 Peoples R China;

Stanford Univ Dept Elect Engn Stanford CA 94305 USA|Stanford Univ Ginzton Lab Stanford CA 94305 USA;

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正文语种 eng
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broadband infrared emissivity; building coatings; fluorescent emissions; particle scatterings; smart subambient radiative cooling;

机译：宽带红外发射率;建筑涂料;荧光排放;粒子散射;智能脱极辐射冷却;

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4. A Building Envelope Coating Provides Radiative-Cooling Effect for Subtropics [C] . Chih-Hong Huang, Wan-Ting Hong, Ta-Wui Cheng International Conference on Advanced Materials Research . 2020

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5. Thermal Performance of Passive Radiative Cooling Strategies on Building Envelopes [D] . Srinivasan, Arvind. 2020

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6. High-performance subambient radiative cooling enabled by optically selective and thermally insulating polyethylene aerogel [O] . A. Leroy, B. Bhatia, C. C. Kelsall, 2019

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Creating an Eco-Friendly Building Coating with Smart Subambient Radiative Cooling

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