Evaporation of pure and binary droplets on curved substrates

We investigate the evaporation of pure ethanol, water and ethanol-water binary sessile droplets on one-dimensional cylindrical substrates using shadowgraphy and infrared imaging techniques. Our results demonstrate that pure ethanol has a greater spread and a smaller contact angle on curved substrates, whereas pure water and binary droplets exhibit a smaller spread on the curved substrates. The top views of the droplet taken using the infrared imaging system demonstrate that a pure ethanol droplet does not preserve a spherical cap profile on the curved substrate, whereas a binary mixture does, which explains the difference in wetting dynamics on curved and flat substrates. Moreover, three-dimensional solid mod-elling is conducted to obtain the evolution of the morphology of the pure and binary droplets during evaporation. For all binary compositions, we observe that the droplet perimeter remains constant on flat and curved substrates, resulting in identical overall evaporation times on flat and curved substrates.(c) 2022 Elsevier Ltd. All rights reserved.

Automated summary

This study investigates the evaporation of pure ethanol, water, and ethanol-water binary droplets on one-dimensional cylindrical substrates using shadowgraphy and infrared imaging techniques. The results reveal different wetting behaviors of droplets on curved and flat substrates, and the three-dimensional solid modeling provides insights into the morphological evolution during evaporation.