Maxwell stress generated long wave instabilities in a thin aqueous film under time-dependent electro-osmotic flow
- In this study the dynamics and stability of thin and electrically conductive aqueous films under the influence of a time-periodic electric field are explored. With the help of analytical linear stability analysis for long wavelength disturbances, the stability threshold of the system as a function of various electrochemical parameters and transport coefficients is presented. The contributions ofIn this study the dynamics and stability of thin and electrically conductive aqueous films under the influence of a time-periodic electric field are explored. With the help of analytical linear stability analysis for long wavelength disturbances, the stability threshold of the system as a function of various electrochemical parameters and transport coefficients is presented. The contributions of parameters like surface tension, disjoining pressure, electric double layer (Debye length and interfacial zeta potential), and unsteady Maxwell and viscous stresses are highlighted with the help of appropriate dimensionless groups. The physical mechanisms affecting the stability of thin films are detailed with the above-mentioned forces and parametric dependence of stability trends is discussed.…
Document Type: | Article (reviewed) |
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Zitierlink: | https://opus.hs-offenburg.de/7182 | Bibliografische Angaben |
Title (English): | Maxwell stress generated long wave instabilities in a thin aqueous film under time-dependent electro-osmotic flow |
Author: | Manik MayurORCiD, Sakir Amiroudine, Evgeny A. Demekhin, Georgy S. Ganchenko |
Year of Publication: | 2016 |
Place of publication: | Berlin, Heidelberg |
Publisher: | Springer |
First Page: | 1 |
Last Page: | 13 |
Article Number: | 60 |
Parent Title (English): | Microfluidics and Nanofluidics |
Volume: | 20 |
Issue: | 4 |
ISSN: | 1613-4982 (Print) |
ISSN: | 1613-4990 (Elektronisch) |
DOI: | https://doi.org/10.1007/s10404-016-1719-0 |
Language: | English | Inhaltliche Informationen |
Institutes: | Fakultät Maschinenbau und Verfahrenstechnik (M+V) |
Institutes: | Bibliografie |
Tag: | Applied Electric Field; Capillary Number; Disjoin Pressure; Electrical Double Layer; Maxwell Stress | Formale Angaben |
Open Access: | Closed |
Licence (German): | Urheberrechtlich geschützt |