Drop Retention and Departure in Adiabatic Shear Flow on Structured Superhydrophobic Surfaces
Drops are retained or held on surfaces due to a retention force exerted on the drop by the
surface. This retention force is a function of the surface tension of the liquid, drop geometry …
surface. This retention force is a function of the surface tension of the liquid, drop geometry …
Characterization of a synthetic jet vortex ring flowing through honeycomb
K Sun, J Sun, Y Fan, L Yu, W Chen, X Kong, C Yu - Physics of Fluids, 2023 - pubs.aip.org
The investigation of synthetic jet vortex rings flowing through a honeycomb is measured by
two-dimensional particle-image velocimetry. The vortex is established using free synthetic …
two-dimensional particle-image velocimetry. The vortex is established using free synthetic …
Drop Retention and Departure in Shear Flow on Structured Superhydrophobic Surfaces
BM Lyons - 2023 - scholarsarchive.byu.edu
Water is often found adhering to surfaces in droplet form. Droplets can develop as a result of
precipitation, condensation, or chemical reactions. Drops are retained or held on a surface …
precipitation, condensation, or chemical reactions. Drops are retained or held on a surface …