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Related papers: Small Leidenfrost droplet dynamics

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In this paper, the self-propelled motion of Leidenfrost droplets on ratchet surfaces is numerically investigated with a thermal multiphase lattice Boltzmann model with liquid-vapor phase change. The capability of the model for simulating…

Computational Physics · Physics 2019-08-14 Q. Li , Q. J. Kang , M. M. Francois , A. J. Hu

Manipulating surface topography is one of the most promising strategies for increasing the efficiency of numerous industrial processes involving droplet contact with superheated surfaces. In such scenarios, the droplets may immediately boil…

Fluid Dynamics · Physics 2022-03-31 Navid Saneie , Varun Kulkarni , Kamel Fezzaa , Neelesh Patankar , Sushant Anand

The Leidenfrost effect describes liquid drops under gravity levitating on a vapour cushion, which is sourced at the liquid-vapour interface from evaporation caused by the hot substrate below. It has been experimentally observed that when…

Soft Condensed Matter · Physics 2017-02-16 M. T. Taylor

In the Leidenfrost effect, liquid drops deposited on a hot surface levitate on a thin vapor cushion fed by evaporation of the liquid. This vapor layer forms a concave depression in the drop interface. Using laser-light interference coupled…

Soft Condensed Matter · Physics 2018-02-21 J. C. Burton , A. L. Sharpe , R. C. A. van der Veen , A. Franco , S. R. Nagel

Leidenfrost drops were recently found to host strong dynamics. In the present study, we investigate both experimentally and theoretically the {flows structures and stability} inside a Leidenfrost water drop as it evaporates, starting with a…

Fluid Dynamics · Physics 2022-12-01 Eunok Yim , Ambre Bouillant , David Quéré , François Gallaire

Evaporation of a liquid drop surrounded by either vapor of the same fluid, or vapor and air, is usually attributed to vapor diffusion -- which, however, does not apply to the former setting, as pure fluids do not diffuse. The present paper…

Fluid Dynamics · Physics 2022-04-05 E. S. Benilov

In the Leidenfrost effect, a thin layer of evaporated vapor forms between a liquid and a hot solid. The complex interactions between the solid, liquid, and vapor phases can lead to rich dynamics even in a single Leidenfrost drop. Here we…

Fluid Dynamics · Physics 2018-05-23 Xiaolei Ma , Justin C. Burton

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…

Fluid Dynamics · Physics 2012-01-24 Tuan Tran , Hendrik J. J. Staat , Andrea Prosperetti , Chao Sun , Detlef Lohse

The Leidenfrost effect-prolonged evaporation of droplets on a superheated surface-happens only when the surface temperature is above a certain transitional value. Here, we show that specially engineered droplets - liquid marbles - can…

Soft Condensed Matter · Physics 2012-07-05 Cedric Aberle , Mark Lewis , Gan Yu , Nan Lei , Jie Xu

We experimentally investigate the Leidenfrost effect at pressures ranging from 1 to 0.05 atmospheric pressure. As a direct consequence of the Clausius-Clapeyron phase diagram of water, the droplet temperature can be at ambient temperature…

Soft Condensed Matter · Physics 2013-08-06 Franck Celestini , Thomas Frisch , Yves Pomeau

In a recent letter [1], Zaitsev et al. report observations of evaporating water micro-droplets over a heated solid substrate and suggest a model for the mechanisms of both droplet levitation and inter-droplet interaction. According to their…

Soft Condensed Matter · Physics 2017-11-09 Alexander Fedorets , Leonid Dombrovsky , Michael Nosonovsky

We present a fluid dynamics video showing the behavior of Leidenfrost droplets composed by a mixture of water and surfactant (SDS, Sodium Dodecyl sulfate). When a droplet is released on a plate heated above a given temperature a thin layer…

Fluid Dynamics · Physics 2015-06-11 F. Moreau , P. Colinet , S. Dorbolo

The Leidenfrost phenomenon entails the levitation of a liquid droplet over a superheated surface, cushioned by its vapor layer. For water, superhydrophobic surfaces are believed to suppress the Leidenfrost point ($\it{T}$$_{\rm L}$)-the…

Fluid Dynamics · Physics 2021-12-15 Meng Shi , Ratul Das , Sankara Arunachalam , Himanshu Mishra

The study of vapor bubble growth following droplet vaporization in a superheated liquid involves research areas such as hydrodynamics, heat transfer, mass transfer, and thermodynamics. The interplay between these multiscale aspects is…

Fluid Dynamics · Physics 2024-04-29 Muhammad Saeed Saleem , Michel Versluis , Guillaume Lajoinie

We experimentally investigate the self-sustained, star-shaped oscillations of Leidenfrost drops. The drops levitate on a cushion of evaporated vapor over a heated, curved surface. We observe modes with $n = 2-13$ lobes around the drop…

Fluid Dynamics · Physics 2017-04-05 Xiaolei Ma , Juan-José Liétor-Santos , Justin C. Burton

We investigate the spontaneous oscillations of drops levitated above an air cushion, eventually inducing a breaking of axisymmetry and the appearance of `star drops'. This is strongly reminiscent of the Leidenfrost stars that are observed…

Volatile drops deposited on a hot solid can levitate on a cushion of their own vapor, without contacting the surface. We propose to understand the onset of this so-called Leidenfrost effect through an analogy to non-equilibrium systems…

Fluid Dynamics · Physics 2021-09-22 Pierre Chantelot , Detlef Lohse

The mobility of Leidenfrost drop has been exploited for the manipulation of drop motions. In the classical model, the Leidenfrost drop was levitated by a vapor cushion, in the absence of touch to the surface. Here we report a standing…

Fluid Dynamics · Physics 2022-09-20 Jinlong Yang , Yong Li , Yue Fan , Longquan Chen , Dehui Wang , Xu Deng

In this study the Leidenfrost temperature during spray cooling of very hot substrates is experimentally measured. The spray parameters, i.e. the drop diameters and velocities and the mass flux, are very accurately measured. Astonishingly,…

Fluid Dynamics · Physics 2020-01-16 Fabian M. Tenzer , Julian Hofmann , Ilia V. Roisman , Cameron Tropea

Large Leidenfrost drops exhibit erratic bubble bursts to release vapor accumulated beneath the liquid, becoming amorphous and unstable. Here we report an original and remarkably simple method to stabilize and design a Leidenfrost puddle.…

Fluid Dynamics · Physics 2024-03-11 F. Pacheco-Vázquez , M. Aguilar-González , L. Victoria-García