Litcius/Paper detail

The potential of radiative cooling enhanced photovoltaic systems in China

Maoquan Huang, Hewen Zhou, G.H. Tang, Mu Du, Qie Sun

2024Advances in Applied Energy18 citationsDOIOpen Access PDF

Abstract

Soaring solar cell temperature hindered photovoltaic (PV) efficiency, but a novel radiative cooling (RC) cover developed in this study offered a cost-effective solution. Using a randomly particle-doping structure, the radiative cooling cover achieved a high “sky window” emissivity of 95.3% while maintaining a high solar transmittance of 94.8%. The RC-PV system reached a peak power output of 147.6 W/m2. A field study to explore its potential in various provinces in China revealed significant efficiency improvements, with yearly electricity outputs surpassing those of ordinary PV systems by a relative improvement of 2.78%–3.72%. The largest increases were observed under clear skies and in dry, cool climates, highlighting the potential of RC-PV systems under real weather and environmental conditions. This work provided the theoretical foundation for designing scalable radiative cooling films for PV systems, unlocking the full potential of solar energy.

Topics & Concepts

Photovoltaic systemRadiative coolingEnvironmental scienceRadiative transferEmissivityMeteorologySkySolar energyEngineering physicsAtmospheric sciencesEngineeringPhysicsElectrical engineeringOpticsThermal Radiation and Cooling TechnologiesSolar Thermal and Photovoltaic Systemssolar cell performance optimization