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Auteurs principaux: Radisson, Basile, Bense, Hadrien, Siéfert, Emmanuel, Domino, Lucie, Hua, Hoa-Ai Béatrice, Brau, Fabian
Format: Preprint
Publié: 2024
Sujets:
Accès en ligne:https://arxiv.org/abs/2411.15970
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author Radisson, Basile
Bense, Hadrien
Siéfert, Emmanuel
Domino, Lucie
Hua, Hoa-Ai Béatrice
Brau, Fabian
author_facet Radisson, Basile
Bense, Hadrien
Siéfert, Emmanuel
Domino, Lucie
Hua, Hoa-Ai Béatrice
Brau, Fabian
contents Parallel assemblies of slender structures forming brushes are common in our daily life from sweepers to pastry brushes and paintbrushes. This type of porous objects can easily trap liquid in their interstices when removed from a liquid bath. This property is exploited to transport liquids in many applications ranging from painting, dip-coating, brush-coating to the capture of nectar by bees, bats and honeyeaters. Rationalizing the viscous entrainment flow beyond simple scaling laws is complex due to its multiscale structure and the multidirectional flow. Here, we provide an analytical model, together with precision experiments with ideal rigid brushes, to fully characterize the flow through this anisotropic porous medium as it is withdrawn from a liquid bath. We show that the amount of liquid entrained by a brush varies non-monotonically during the withdrawal at low speed, is highly sensitive to the different parameters at play and is very well described by the model without any fitting parameter. Finally, an optimal brush geometry maximizing the amount of liquid captured at a given retraction speed is derived from the model and experimentally validated. These optimal designs open routes towards efficient liquid manipulating devices.
format Preprint
id arxiv_https___arxiv_org_abs_2411_15970
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Optimal rigid brush for fluid capture
Radisson, Basile
Bense, Hadrien
Siéfert, Emmanuel
Domino, Lucie
Hua, Hoa-Ai Béatrice
Brau, Fabian
Fluid Dynamics
Parallel assemblies of slender structures forming brushes are common in our daily life from sweepers to pastry brushes and paintbrushes. This type of porous objects can easily trap liquid in their interstices when removed from a liquid bath. This property is exploited to transport liquids in many applications ranging from painting, dip-coating, brush-coating to the capture of nectar by bees, bats and honeyeaters. Rationalizing the viscous entrainment flow beyond simple scaling laws is complex due to its multiscale structure and the multidirectional flow. Here, we provide an analytical model, together with precision experiments with ideal rigid brushes, to fully characterize the flow through this anisotropic porous medium as it is withdrawn from a liquid bath. We show that the amount of liquid entrained by a brush varies non-monotonically during the withdrawal at low speed, is highly sensitive to the different parameters at play and is very well described by the model without any fitting parameter. Finally, an optimal brush geometry maximizing the amount of liquid captured at a given retraction speed is derived from the model and experimentally validated. These optimal designs open routes towards efficient liquid manipulating devices.
title Optimal rigid brush for fluid capture
topic Fluid Dynamics
url https://arxiv.org/abs/2411.15970