Electrolubrication in liquid mixtures between two parallel plates

Roni Kroll; Yoav Tsori

doi:10.1017/jfm.2024.144

Electrolubrication in liquid mixtures between two parallel plates

Roni Kroll, Yoav Tsori

Ben-Gurion University of the Negev

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

Abstract

We describe theoretically ‘electrolubrication’ in liquid mixtures: the phenomenon whereby an electric field applied transverse to the confining surfaces leads to concentration gradients that alter the flow profile significantly. When the more polar liquid is the less viscous one, the stress in the liquid falls on two electric-field-induced thin lubrication layers. The thickness of the lubrication layer depends on the Debye length and the mixture correlation length. For the simple case of two parallel and infinite plates, we calculate explicitly the liquid velocity profile and integrated flux. The maximum liquid velocity and flux can be increased by a factor α, of order 10–100 or even more. For a binary mixture of water and a cosolvent, with viscosities η_w and η_cs, respectively, α increases monotonically with inter-plate potential V and average ion content, and is large if the ratio η_cs/η_w is large.

Original language	American English
Article number	A27
Journal	Journal of Fluid Mechanics
Volume	982
DOIs	https://doi.org/10.1017/jfm.2024.144
State	Published - 8 Mar 2024

Keywords

electrohydrodynamic effects
microfluidics
multiphase flow

All Science Journal Classification (ASJC) codes

Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering
Applied Mathematics

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10.1017/jfm.2024.144

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title = "Electrolubrication in liquid mixtures between two parallel plates",

abstract = "We describe theoretically {\textquoteleft}electrolubrication{\textquoteright} in liquid mixtures: the phenomenon whereby an electric field applied transverse to the confining surfaces leads to concentration gradients that alter the flow profile significantly. When the more polar liquid is the less viscous one, the stress in the liquid falls on two electric-field-induced thin lubrication layers. The thickness of the lubrication layer depends on the Debye length and the mixture correlation length. For the simple case of two parallel and infinite plates, we calculate explicitly the liquid velocity profile and integrated flux. The maximum liquid velocity and flux can be increased by a factor α, of order 10–100 or even more. For a binary mixture of water and a cosolvent, with viscosities ηw and ηcs, respectively, α increases monotonically with inter-plate potential V and average ion content, and is large if the ratio ηcs/ηw is large.",

keywords = "electrohydrodynamic effects, microfluidics, multiphase flow",

author = "Roni Kroll and Yoav Tsori",

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doi = "10.1017/jfm.2024.144",

language = "American English",

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T1 - Electrolubrication in liquid mixtures between two parallel plates

AU - Kroll, Roni

AU - Tsori, Yoav

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N2 - We describe theoretically ‘electrolubrication’ in liquid mixtures: the phenomenon whereby an electric field applied transverse to the confining surfaces leads to concentration gradients that alter the flow profile significantly. When the more polar liquid is the less viscous one, the stress in the liquid falls on two electric-field-induced thin lubrication layers. The thickness of the lubrication layer depends on the Debye length and the mixture correlation length. For the simple case of two parallel and infinite plates, we calculate explicitly the liquid velocity profile and integrated flux. The maximum liquid velocity and flux can be increased by a factor α, of order 10–100 or even more. For a binary mixture of water and a cosolvent, with viscosities ηw and ηcs, respectively, α increases monotonically with inter-plate potential V and average ion content, and is large if the ratio ηcs/ηw is large.

AB - We describe theoretically ‘electrolubrication’ in liquid mixtures: the phenomenon whereby an electric field applied transverse to the confining surfaces leads to concentration gradients that alter the flow profile significantly. When the more polar liquid is the less viscous one, the stress in the liquid falls on two electric-field-induced thin lubrication layers. The thickness of the lubrication layer depends on the Debye length and the mixture correlation length. For the simple case of two parallel and infinite plates, we calculate explicitly the liquid velocity profile and integrated flux. The maximum liquid velocity and flux can be increased by a factor α, of order 10–100 or even more. For a binary mixture of water and a cosolvent, with viscosities ηw and ηcs, respectively, α increases monotonically with inter-plate potential V and average ion content, and is large if the ratio ηcs/ηw is large.

KW - electrohydrodynamic effects

KW - microfluidics

KW - multiphase flow

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U2 - 10.1017/jfm.2024.144

DO - 10.1017/jfm.2024.144

M3 - Article

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JO - Journal of Fluid Mechanics

JF - Journal of Fluid Mechanics

M1 - A27

ER -

Electrolubrication in liquid mixtures between two parallel plates

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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