Quantifying the linear stability of a flowing electrified two-fluid layer in a channel for fast electric times for normal and parallel electric fields
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Publication:5304139
DOI10.1063/1.2976137zbMath1182.76783OpenAlexW1965016234MaRDI QIDQ5304139
Publication date: 18 March 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.2976137
Related Items (7)
A general analysis for the electrohydrodynamic instability of stratified immiscible fluids ⋮ Transient growth in a two-fluid channel flow under normal electric field ⋮ Effect of normal and parallel magnetic fields on the stability of interfacial flows of magnetic fluids in channels ⋮ Two-layer electrified pressure-driven flow in topographically structured channels ⋮ The influence of electric fields and surface tension on Kelvin-Helmholtz instability in two-dimensional jets ⋮ On the effect of electrostatic surface forces on dielectric falling films ⋮ Interfacial instability in electrified plane Couette flow
Cites Work
- Electrohydrodynamic instability of two superposed fluids in normal electric fields
- Generation of interfacial instabilities in charged electrified viscous liquid films
- Instability of electrokinetic microchannel flows with conductivity gradients
- Electrokinetic instabilities in thin microchannels
- Electrically induced pattern formation in thin leaky dielectric films
- Electrohydrodynamic instability of the interface between two fluids confined in a channel
- Dynamics and rupture of planar electrified liquid sheets
- Linear stability of a two-fluid interface for electrohydrodynamic mixing in a channel
- Linear stability of plane Poiseuille flow of two superposed fluids
- Internal electrohydrodynamic instability and mixing of fluids with orthogonal field and conductivity gradients
- Convective and absolute electrokinetic instability with conductivity gradients
- Electric field effect on a two-fluid interface instability in channel flow for fast electric times
- Convective instability of electrokinetic flows in a cross-shaped microchannel
- Instability due to viscosity stratification
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