Control of a bouncing magnitude on a heated substrate via ellipsoidal drop shape
Sungchan Yun,Geunbae Lim +1 more
TLDR
In this paper, the effect of the geometrical aspect ratio (AR) of the ellipsoidal drop on bouncing dynamics was investigated and it was shown that the maximum bounce height of ellipssoidal drops can be reduced below spherical cases to nearly 40% by using non-axial kinetic energy distribution during retraction.Abstract:
Non-axisymmetric drops impacting on a solid surface can alter impact dynamics significantly, thereby resulting in rebound suppression. Here, we present a method to control the bounce height of drops impacting on heated surfaces with ellipsoidal shaping. Experimental and numerical studies are used to investigate the effects of the geometrical aspect ratio (AR) of the drop on bouncing dynamics, which shows that maximum bounce heights of ellipsoidal drops can be reduced below spherical cases to nearly 40%. Control of bounce height can be explained in terms of a non-axial kinetic energy distribution during retraction. Interestingly, the non-axisymmetric hydrodynamics allows us to reduce contact time below this theoretical limit, which is explored both experimentally and numerically as a function of AR. This work may provide an understanding of bouncing dynamics on non-wetting surfaces for applications in surface cooling and cleaning.read more
Citations
More filters
Journal ArticleDOI
Emerging progress of inkjet technology in printing optical materials
TL;DR: Inkjet printing is a noncontact and additive patterning method, which is able to distribute a broad variety of functional materials directly onto a desired substrate with high efficiency as mentioned in this paper.
Posted Content
Effect of an electric field on a Leidenfrost droplet
TL;DR: In this paper, the effect of an electric field applied between a Leidenfrost droplet and the heated substrate on which it is levitating was investigated and quantified by imaging the interference fringes between the liquid-vapour and vapour-substrate interfaces.
Journal ArticleDOI
Bouncing of an ellipsoidal drop on a superhydrophobic surface
TL;DR: The experimental result shows that the bouncing of the ellipsoidal drop can reduce the contact time and maximum bounce height below the spherical one by at least 30% and 60%, respectively.
Journal ArticleDOI
An Introduction of Droplet Impact Dynamics to Engineering Students
TL;DR: An intensive training course has been developed and implemented at the California State University Long Beach based on 8 years of experience in the multiphase flow area with the specific focus on droplet-solid interactions.
Journal ArticleDOI
Rebounding suppression of droplet impact on hot surfaces: effect of surface temperature and concaveness.
S. Jowkar,M.R. Morad +1 more
TL;DR: The morphology of drop impact on the concave surface was captured and the influence of its asymmetric deformation on extensive suppression of drop bouncing was discussed and the amount of dissipated energy due to drop deformation was obtained based on an energy balance analysis.
References
More filters
Journal ArticleDOI
On the Capillary Phenomena of Jets
Journal ArticleDOI
Contact time of a bouncing drop
TL;DR: This work measures how long the drop remains in contact with the solid during the shock to help quantify the efficiency of water-repellent surfaces (super-hydrophobic solids) and to improve water-cooling of hot solids, which is limited by the rebounding of drops as well as by temperature effects.
Journal ArticleDOI
Reducing the contact time of a bouncing drop
TL;DR: It is demonstrated that it is possible to reduce the contact time below this theoretical limit by using superhydrophobic surfaces with a morphology that redistributes the liquid mass and thereby alters the drop hydrodynamics.
Journal ArticleDOI
Controlling droplet deposition with polymer additives
TL;DR: By adding very small amounts of a flexible polymer to the aqueous phase, this work can inhibit droplet rebound on a hydrophobic surface and markedly improve deposition without significantly altering the shear viscosity of the solutions.
Journal ArticleDOI
The Dynamics of Thin Sheets of Fluid. III. Disintegration of Fluid Sheets
TL;DR: In this paper, it was shown that the free edge of a sheet of uniform thickness moves into an expanding sheet at the same speed as antisymmetrical waves, sweeping the fluid into roughly cylindrical borders.