Litcius/Paper detail

A tandem radiative/evaporative cooler for weather-insensitive and high-performance daytime passive cooling

Jinlei Li, Xueyang Wang, Liang Dong, Ning Xu, Bin Zhu, Wei Li, Pengcheng Yao, Yi Jiang, Xinzhe Min, Zhengzong Huang, Shining Zhu, Shanhui Fan, Jia Zhu

2022Science Advances205 citationsDOIOpen Access PDF

Abstract

Radiative cooling and evaporative cooling with low carbon footprint are regarded as promising passive cooling strategies. However, the intrinsic limits of continuous water supply with complex systems for evaporative cooling, and restricted cooling power as well as the strict requirement of weather conditions for radiative cooling, hinder the scale of their practical applications. Here, we propose a tandem passive cooler composed of bilayer polymer that enables dual-functional passive cooling of radiation and evaporation. Specifically, the high reflectivity to sunlight and mid-infrared emissivity of this polymer film allows excellent radiative cooling performance, and its good atmospheric water harvesting property of underlayer ensures self-supply of water and high evaporative cooling power. Consequently, this tandem passive cooler overcomes the fundamental difficulties of radiative cooling and evaporative cooling and shows the applicability under various conditions of weather/climate. It is expected that this design can expand the practical application domain of passive cooling.

Topics & Concepts

Evaporative coolerRadiative coolingPassive coolingEmissivityEnvironmental sciencePassive solar building designRadiative transferEvaporationWater coolingTandemMaterials scienceMeteorologyThermalOpticsPhysicsThermodynamicsComposite materialThermal Radiation and Cooling TechnologiesUrban Heat Island MitigationOptical properties and cooling technologies in crystalline materials
A tandem radiative/evaporative cooler for weather-insensitive and high-performance daytime passive cooling | Litcius