Surfing on a herringbone

Dan Soto; Guillaume Lagubeau; Christophe Clanet; David Quéré

doi:10.1103/PhysRevFluids.1.013902

Surfing on a herringbone

Dan Soto
, Guillaume Lagubeau
, Christophe Clanet
, David Quéré

Research output: Contribution to journal › Article › peer-review

Abstract

Evaporation of a liquid on a hot solid can be exploited to induce both levitation and self-propulsion if the vapor flow under the liquid is made directional. Here we propose to force an anisotropic flow of vapor with a herringbone pattern at a solid surface. Liquids are found to self-propel on such hot materials, drawn by the underlying flow of vapor. The simplicity of the geometry allows us to predict the direction of vapor flow rectification, to quantitatively model the propulsion, and to discuss how the pattern must be designed to optimize both driving force and drop velocity.

Original language	English
Article number	013902
Journal	Physical Review Fluids
Volume	1
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevFluids.1.013902
Publication status	Published - 1 May 2016

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10.1103/PhysRevFluids.1.013902

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title = "Surfing on a herringbone",

abstract = "Evaporation of a liquid on a hot solid can be exploited to induce both levitation and self-propulsion if the vapor flow under the liquid is made directional. Here we propose to force an anisotropic flow of vapor with a herringbone pattern at a solid surface. Liquids are found to self-propel on such hot materials, drawn by the underlying flow of vapor. The simplicity of the geometry allows us to predict the direction of vapor flow rectification, to quantitatively model the propulsion, and to discuss how the pattern must be designed to optimize both driving force and drop velocity.",

author = "Dan Soto and Guillaume Lagubeau and Christophe Clanet and David Qu{\'e}r{\'e}",

note = "Publisher Copyright: {\textcopyright} 2016 American Physical Society.",

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AU - Soto, Dan

AU - Lagubeau, Guillaume

AU - Clanet, Christophe

AU - Quéré, David

PY - 2016/5/1

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N2 - Evaporation of a liquid on a hot solid can be exploited to induce both levitation and self-propulsion if the vapor flow under the liquid is made directional. Here we propose to force an anisotropic flow of vapor with a herringbone pattern at a solid surface. Liquids are found to self-propel on such hot materials, drawn by the underlying flow of vapor. The simplicity of the geometry allows us to predict the direction of vapor flow rectification, to quantitatively model the propulsion, and to discuss how the pattern must be designed to optimize both driving force and drop velocity.

AB - Evaporation of a liquid on a hot solid can be exploited to induce both levitation and self-propulsion if the vapor flow under the liquid is made directional. Here we propose to force an anisotropic flow of vapor with a herringbone pattern at a solid surface. Liquids are found to self-propel on such hot materials, drawn by the underlying flow of vapor. The simplicity of the geometry allows us to predict the direction of vapor flow rectification, to quantitatively model the propulsion, and to discuss how the pattern must be designed to optimize both driving force and drop velocity.

U2 - 10.1103/PhysRevFluids.1.013902

DO - 10.1103/PhysRevFluids.1.013902

M3 - Article

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SN - 2469-990X

VL - 1

JO - Physical Review Fluids

JF - Physical Review Fluids

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Surfing on a herringbone

Abstract

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