English

Drop impact on superheated surfaces

Fluid Dynamics 2012-01-24 v1

Abstract

At impact of a liquid droplet on a smooth surface heated above the liquid's boiling point, the droplet either immediately boils when it contacts the surfaces (``contact boiling''), or without any surface contact forms a Leidenfrost vapor layer towards the hot surface and bounces back (``gentle film boiling''), or both forms the Leidenfrost layer and ejects tiny droplets upward (``spraying film boiling''). We experimentally determine conditions under which impact behaviors in each regime can be realized. We show that the dimensionless maximum spreading γ\gamma of impacting droplets on the heated surfaces in both gentle and spraying film boiling regimes shows a universal scaling with the Weber number \We\We (γ\We2/5\gamma\sim\We^{2/5}) -- regardless of surface temperature and of liquid properties -- which is much steeper than for the impact on non-heated (hydrophilic or hydrophobic) surfaces (γ\We1/4\gamma\sim\We^{1/4}). We also intereferometrically measure the vapor thickness under the droplet.

Keywords

Cite

@article{arxiv.1111.0435,
  title  = {Drop impact on superheated surfaces},
  author = {Tuan Tran and Hendrik J. J. Staat and Andrea Prosperetti and Chao Sun and Detlef Lohse},
  journal= {arXiv preprint arXiv:1111.0435},
  year   = {2012}
}
R2 v1 2026-06-21T19:29:34.204Z