Litcius/Paper detail

Dynamic glazing with switchable solar reflectance for radiative cooling and solar heating

Xinpeng Zhao, Ablimit Aili, Dongliang Zhao, Dikai Xu, Xiaobo Yin, Ronggui Yang

2022Cell Reports Physical Science111 citationsDOIOpen Access PDF

Abstract

Dynamic control of sunlight entering a building through glazing panels (e.g., windows, curtain walls, and skylights) is essential for reducing building energy consumption. Here, we demonstrate a dual-mode glazing panel with switchable reflectance (89% versus 17%) via reversible electrodeposition of a silver film on a transparent glass of the glazing. In cooling mode, the silver film-coated glazing, functioning as a radiative cooler, achieves net cooling power of 20–60 W/m2 on a summer day with direct solar irradiance of 560–970 W/m2. In heating mode, transparent glazing absorbs only 13% and allows ∼70% of sunlight to shine through, providing a net heating power of around 400 W/m2 on a winter day with solar irradiance of 540 W/m2. Simulations show that employing such dynamic glazing panels in a medium-size office building (∼5,000 m2) could save up to 23% annual heating/cooling energy consumption under the local climates of 15 U.S. cities.

Topics & Concepts

GlazingSunlightMaterials scienceEnvironmental scienceIrradianceOpticsRadiative coolingBuilding energy simulationSolar gainSolar energySolar irradianceNuclear engineeringOptoelectronicsEnergy consumptionComposite materialAtmospheric sciencesMeteorologyPhysicsEnergy performanceEngineeringElectrical engineeringThermal Radiation and Cooling TechnologiesUrban Heat Island MitigationBuilding Energy and Comfort Optimization