Fabrication of passive cooling fabric as thermal management curtain for building energy-saving

Abstract

In the past years, a great deal of attention has been paid to passive cooling envelope materials or smart windows to cope with the increase in building energy consumption due to global warming. However, combining curtains with passive cooling could enable on-demand thermal management based on its dynamically adjustable characteristics. Herein, a superhydrophobic passive cooling cotton fabric with low thermal conductivity (0.0342 W/mK), high solar reflectivity (0.9280) and high infrared emissivity (0.9698) was obtained by wrapping the cotton fabric with a porous SiO2/poly(vinylidene fluoride-hexafluoropropylene) composite coating via solvent exchange phase separation and sanding. The superhydrophobic passive cooling fabrics realized an average of 10.3 °C cooling during the daytime and showed impressive passive cooling performance relative to the pristine cotton. Notably, the superhydrophobic passive cooling fabric demonstrated superior daytime cooling and nighttime insulation performance during outdoor testing and energy consumption simulations compared to commercial curtains. Therefore, superhydrophobic passive cooling cotton fabrics as curtains allow for reducing the energy consumption in building thermal management and broadening the practical application of radiative cooling materials.