Litcius/Paper detail

Transparent Polymer Coatings for Energy-Efficient Daytime Window Cooling

Zhengui Zhou, Xin Wang, Yaoguang Ma, Bin Hu, Jun Zhou

2020Cell Reports Physical Science132 citationsDOIOpen Access PDF

Abstract

Solar and thermal management of transparent windows is important for the energy efficiency of human-made structures. Functional layers that partially block solar radiation would also be heated by sunlight, thus accelerating the interior heat exchange and increasing daytime cooling energy consumption. Here, we propose a strategy to improve energy efficiency through window cooling using a transparent double-layer coating, which comprises a near-infrared reflective underlayer and a high mid-infrared emissive top layer. The addition of a top emitter can decrease the temperature of the near-infrared reflective window up to ∼7°C in outdoor tests, and can provide extra cooling energy savings ranging from 20 to 49 MJ ⋅ m−2 ⋅ year−1 for a typical building located in 11 cities worldwide. This accounts for ∼3%–∼8% of their total annual cooling energy consumption and indicates the significant impact of window cooling on interior energy efficiency.

Topics & Concepts

DaytimeMaterials scienceInfraredPassive coolingOptoelectronicsRadiative coolingSolar gainOpticsEnergy consumptionWindow (computing)Infrared windowCommon emitterSunlightEnvironmental scienceSolar energyLayer (electronics)CoatingEfficient energy useThermalComposite materialMeteorologyElectrical engineeringComputer scienceAtmospheric sciencesPhysicsEngineeringOperating systemThermal Radiation and Cooling TechnologiesBuilding Energy and Comfort OptimizationUrban Heat Island Mitigation