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Related papers: Drop impact on superheated surfaces

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Droplets impacting on a superheated surface can either exhibit a contact boiling regime, in which they make direct contact with the surface and boil violently, or a film boiling regime, in which they remain separated from the surface by…

When a liquid droplet impacts a hot solid surface, enough vapor may be generated under it as to prevent its contact with the solid. The minimum solid temperature for this so-called Leidenfrost effect to occur is termed the Leidenfrost…

In real applications, drops always impact on solid walls with various inclinations. For the oblique impact of a Leidenfrost drop, which has a vapor layer under its bottom surface to prevent its direct contact with the superheated substrate,…

Fluid Dynamics · Physics 2021-01-19 Yujie Wang , Ayoub El Bouhali , Sijia Lyu , Lu Yu , Yue Hao , Zhigang Zuo , Shuhong Liu , Chao Sun

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

This study experimentally explores fluid breakup and Leidenfrost dynamics for droplets impacting a heated millimetric post. Using high-speed optical and infrared imaging, we investigate the droplet lifetime, breakup and boiling modes, as…

Fluid Dynamics · Physics 2022-11-02 Junhui Li , Patricia Weisensee

We show that a volatile liquid drop placed at the surface of a non-volatile liquid pool warmer than the boiling point of the drop can experience a Leidenfrost effect even for vanishingly small superheats. Such an observation points to the…

We experimentally investigate the boiling behavior of impacting ethanol drops on a heated smooth sapphire substrate at pressures ranging from P = 0.13 bar to atmospheric pressure. We employ Frustrated Total Internal Reflection (FTIR)…

In this article, we experimentally investigate the impact of a submillimetric water jet on a horizontal surface heated well above the "static" Leidenfrost temperature of water. We observe the transition from a regime where a single drop…

Fluid Dynamics · Physics 2024-07-26 Aurélien Goerlinger , Alice Germa , Farzam Zoueshtiagh , Alexis Duchesne

Ambient air cushions the impact of drops on solid substrates, an effect usually revealed by the entrainment of a bubble, trapped as the air squeezed under the drop drains and liquid-solid contact occurs. The presence of air becomes evident…

Fluid Dynamics · Physics 2023-05-24 Pierre Chantelot , 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

When a liquid drop impacts on a heated substrate, it can remain deposited, or violently boil in contact, or lift off with or without ever touching the surface. The latter is known as the Leidenfrost effect. The duration and area of the…

Fluid Dynamics · Physics 2020-10-26 Sang-Hyeon Lee , Kirsten Harth , Maaike Rump , Minwoo Kim , Detlef Lohse , Kamel Fezzaa , Jung Ho Je

The levitation of a volatile droplet on a highly superheated surface is known as the Leidenfrost effect. Wetting state during transition from full wetting of a surface by a droplet at room temperature to Leidenfrost bouncing, i.e.,…

Fluid Dynamics · Physics 2021-05-21 Vikash Kumar

We experimentally investigate the effect of an electric field applied between a Leidenfrost droplet and the heated substrate on which it is levitating. We quantify the electro-Leidenfrost effect by imaging the interference fringes between…

Soft Condensed Matter · Physics 2012-05-17 Franck Celestini , G. Kirstetter

When a volatile drop impacts on a superheated solid, air drainage and vapor generation conspire to create an intermediate gas layer that delays or even prevents contact between the liquid and the solid. In this article, we use high-speed…

Fluid Dynamics · Physics 2021-04-13 Pierre Chantelot , Detlef Lohse

Drops placed on a surface with a temperature above the Leidenfrost point float atop an evaporative vapor layer. In this fluid dynamics video, it is shown that for roughened surfaces the Leidenfrost point depends on the drop size, which runs…

Fluid Dynamics · Physics 2010-10-19 Jonathan B. Boreyko , Chuan-Hua Chen

The Leidenfrost effect, namely the levitation and hovering of liquid drops on hot solid surfaces, generally requires a sufficiently high substrate temperature to activate the intense liquid vaporization. Here we report the agile modulations…

In the present paper, experimental and numerical studies of interaction between different liquid droplets with different hot metal surfaces had been carried out and the obtained results were interpreted using graphs and pictures. Droplet…

Fluid Dynamics · Physics 2022-08-23 Subhasish Guchhait , Pratim Kumar

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 Leidenfrost effect is a phenomenon in which a liquid, poured onto a surface significantly hotter than the liquid's boiling point, produces a layer of vapor that prevents the liquid from rapid evaporation. Rather than making physical…

Statistical Mechanics · Physics 2022-11-24 Sergey Gavrilyuk , Henri Gouin

In the Leidenfrost effect a small drop of fluid is levitated above a sufficiently hot surface, on a persistent vapor layer generated by evaporation from the drop. The vapor layer thermally insulates the drop from the surface leading to…

Fluid Dynamics · Physics 2014-07-30 Thomas A. Caswell
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