Self-propelling droplets on fibres subject to a crosswind

Pierre Brice Bintein; Hadrien Bense; Christophe Clanet; David Quéré

doi:10.1038/s41567-019-0599-0

Self-propelling droplets on fibres subject to a crosswind

Pierre Brice Bintein, Hadrien Bense, Christophe Clanet, David Quéré

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

Abstract

In many situations in which droplets wet fibres, wind is present. Large nets are used to harvest fog transported by coastal breezes from the ocean^1,2 and noxious aerosols are contained in chemical plants by driving them across fibrous filters^3,4. In glass wool factories, thin fibres are subjected to airflows as they are simultaneously sprayed with resin to glue them together^5,6. The control and reconfiguration of the liquid in these situations is essential. It can be set geometrically, as is the case for assemblies of non-parallel fibres^6,7 or tapered cylinders^8–11, but the wind itself may also be exploited for this purpose^4,12,13. Here, we show that a transverse wind can induce directional motion of droplets along horizontal fibres—even upwind if the fibre is tilted—and generate strong repulsive interactions between droplets. All of these effects are interpreted as consequences of asymmetric wakes behind the liquid.

Original language	English
Pages (from-to)	1027-1032
Number of pages	6
Journal	Nature Physics
Volume	15
Issue number	10
DOIs	https://doi.org/10.1038/s41567-019-0599-0
Publication status	Published - 1 Oct 2019

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title = "Self-propelling droplets on fibres subject to a crosswind",

abstract = "In many situations in which droplets wet fibres, wind is present. Large nets are used to harvest fog transported by coastal breezes from the ocean1,2 and noxious aerosols are contained in chemical plants by driving them across fibrous filters3,4. In glass wool factories, thin fibres are subjected to airflows as they are simultaneously sprayed with resin to glue them together5,6. The control and reconfiguration of the liquid in these situations is essential. It can be set geometrically, as is the case for assemblies of non-parallel fibres6,7 or tapered cylinders8–11, but the wind itself may also be exploited for this purpose4,12,13. Here, we show that a transverse wind can induce directional motion of droplets along horizontal fibres—even upwind if the fibre is tilted—and generate strong repulsive interactions between droplets. All of these effects are interpreted as consequences of asymmetric wakes behind the liquid.",

author = "Bintein, \{Pierre Brice\} and Hadrien Bense and Christophe Clanet and David Qu{\'e}r{\'e}",

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doi = "10.1038/s41567-019-0599-0",

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T1 - Self-propelling droplets on fibres subject to a crosswind

AU - Bintein, Pierre Brice

AU - Bense, Hadrien

AU - Clanet, Christophe

AU - Quéré, David

PY - 2019/10/1

Y1 - 2019/10/1

N2 - In many situations in which droplets wet fibres, wind is present. Large nets are used to harvest fog transported by coastal breezes from the ocean1,2 and noxious aerosols are contained in chemical plants by driving them across fibrous filters3,4. In glass wool factories, thin fibres are subjected to airflows as they are simultaneously sprayed with resin to glue them together5,6. The control and reconfiguration of the liquid in these situations is essential. It can be set geometrically, as is the case for assemblies of non-parallel fibres6,7 or tapered cylinders8–11, but the wind itself may also be exploited for this purpose4,12,13. Here, we show that a transverse wind can induce directional motion of droplets along horizontal fibres—even upwind if the fibre is tilted—and generate strong repulsive interactions between droplets. All of these effects are interpreted as consequences of asymmetric wakes behind the liquid.

AB - In many situations in which droplets wet fibres, wind is present. Large nets are used to harvest fog transported by coastal breezes from the ocean1,2 and noxious aerosols are contained in chemical plants by driving them across fibrous filters3,4. In glass wool factories, thin fibres are subjected to airflows as they are simultaneously sprayed with resin to glue them together5,6. The control and reconfiguration of the liquid in these situations is essential. It can be set geometrically, as is the case for assemblies of non-parallel fibres6,7 or tapered cylinders8–11, but the wind itself may also be exploited for this purpose4,12,13. Here, we show that a transverse wind can induce directional motion of droplets along horizontal fibres—even upwind if the fibre is tilted—and generate strong repulsive interactions between droplets. All of these effects are interpreted as consequences of asymmetric wakes behind the liquid.

U2 - 10.1038/s41567-019-0599-0

DO - 10.1038/s41567-019-0599-0

M3 - Letter

AN - SCOPUS:85070827144

SN - 1745-2473

VL - 15

SP - 1027

EP - 1032

JO - Nature Physics

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Self-propelling droplets on fibres subject to a crosswind

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