Creating an Eco‐Friendly Building Coating with Smart Subambient Radiative Cooling
Citations Over TimeTop 1% of 2020 papers
Abstract
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 °C (7 °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.
Related Papers
- → A review of clear sky radiative cooling developments and applications in renewable power systems and passive building cooling(2018)366 cited
- → Review on passive daytime radiative cooling: Fundamentals, recent researches, challenges and opportunities(2020)181 cited
- → A numerical study of daytime passive radiative coolers for space cooling in buildings(2018)69 cited
- → Sub-ambient radiative cooling and its application in buildings(2020)65 cited
- → Radiative cooling technologies: a platform for passive heat dissipation(2022)18 cited