Inhibition of water vapor condensation by dipropylene glycol droplets on hydrophobic surfaces via vapor sink strategy (2311.03930v4)

Abstract: Condensation, frosting and icing are natural phenomena, and have been enduring challenges for human society and modern engineering. These phenomena pose a range of issues, from hazardous icy road surfaces, damage to electronic devices due to condensation, to frost accumulation on power lines and aircraft. Dipropylene glycol (DG) is a non-toxic, non-corrosive, and biologically safe substance with excellent hygroscopicity, capable of inhibiting condensation and ice formation through the vapor sink strategy. However, there has been limited research on DG. Herein, we provides a detailed study of the performance of DG droplets in suppressing condensation with experiments and theoretical analysis. Results found that a dry zone ring would form around the DG droplet on a cooling solid surface. The ratio of the dry-zone radius to the DG droplet radius increases with the solid surface temperature and scales as 1/(Tdew-Tc). Results indicated that the cooling time of substrate surface does not affect the ratio in a short period. When the temperature is higher, the ratio decreases slightly with DG droplet volume; while it keeps almost still, when the temperature is lower. A theoretical model is also proposed to reveal the relationship between the ratio and the substrate surface temperature. These findings hold the promise of not only enhancing our understanding of condensation suppression but also advancing the development of innovative solutions for various industries, including transportation, electronics, aviation, and power distribution.