Contact Time of a Droplet Off-Centered Impacting a Superhydrophobic Cylinder

Abstract: Extensive research has shown that a superhydrophobic cylindrical substrate could lead to a noncircumferential symmetry of an impacting droplet, reducing the contact time accordingly. It is of practical significance in applications, such as anti-icing, anticorrosion, and antifogging. However, few accounts have adequately addressed the off-centered impact of the droplet, despite it being more common in practice. This work investigates the dynamic behavior of a droplet off-centered impacting a superhydrophobic cy… Show more

“…Key parameters for evaluating dispersion capability include the spreading factor and the gas–liquid interfacial area. In the study of the spreading factor, Zhang et al , investigated the impact of eccentric droplet collisions on superhydrophobic cylindrical fibers using the lattice Boltzmann method and experimental methods. They found that the spreading factor decreases with the increase in the eccentric distance, indicating that an eccentric collision on the surface is unfavorable for droplet dispersion.…”

Dispersion Behavior of a Droplet Impacting a Single Fiber

“…Key parameters for evaluating dispersion capability include the spreading factor and the gas–liquid interfacial area. In the study of the spreading factor, Zhang et al , investigated the impact of eccentric droplet collisions on superhydrophobic cylindrical fibers using the lattice Boltzmann method and experimental methods. They found that the spreading factor decreases with the increase in the eccentric distance, indicating that an eccentric collision on the surface is unfavorable for droplet dispersion.…”

Dispersion Behavior of a Droplet Impacting a Single Fiber

Dynamic characteristics of droplet impact on a cold cylindrical surface

The effect of retraction-rebound dynamics on the contact time of rebounding-coalescing droplets on a superhydrophobic surface with or without a macro-ridge