Phase-field modelling of gravity-capillary waves on a miscible interface
Phase-field modelling of gravity-capillary waves on a miscible interface
Using the approach of direct numerical simulations we investigate the gravity-capillary waves induced on a horizontal interface between two slowly miscible liquids. It is assumed that the liquids are just brought into contact, and thus the interface is slowly smeared by the action of interfacial diffusion. It is also assumed that the initial shape of the interface is distorted by harmonic perturbations, which results in development of the gravity-capillary surface waves. The evolution of the binary mixture is modelled on the basis of the phase-field method. Our results show that in the limiting case of negligible diffusion the classical dispersion relations for immiscible interfaces can be reproduced. Although, for the waves with shorter wavelengths such an agreement is more difficult to obtain. The interfacial diffusion brings an additional dissipation to the fluid system, strongly damping the development of the shorter waves. We also show that the mixing (or the transition of a binary system to the state of thermodynamic equilibrium) is intensified by the presence of the surface waves, and this effect is more important when the liquids are slowly miscible, i.e. when the interfacial diffusion is weak.
Vorobev, Anatoliy
911a4e1e-0c34-4297-b52e-c22a2b9dec01
Ivantsov, Andrey
d8b3640e-7b41-485e-a5bd-7d02f1bf7bf6
Lyubimova, Tatiana
ea977036-7fca-4d61-abf5-1da0a94c9b35
Vorobev, Anatoliy
911a4e1e-0c34-4297-b52e-c22a2b9dec01
Ivantsov, Andrey
d8b3640e-7b41-485e-a5bd-7d02f1bf7bf6
Lyubimova, Tatiana
ea977036-7fca-4d61-abf5-1da0a94c9b35
Vorobev, Anatoliy, Ivantsov, Andrey and Lyubimova, Tatiana
(2017)
Phase-field modelling of gravity-capillary waves on a miscible interface.
The European Physical Journal E, 40, [99].
(doi:10.1140/epje/i2017-11589-1).
Abstract
Using the approach of direct numerical simulations we investigate the gravity-capillary waves induced on a horizontal interface between two slowly miscible liquids. It is assumed that the liquids are just brought into contact, and thus the interface is slowly smeared by the action of interfacial diffusion. It is also assumed that the initial shape of the interface is distorted by harmonic perturbations, which results in development of the gravity-capillary surface waves. The evolution of the binary mixture is modelled on the basis of the phase-field method. Our results show that in the limiting case of negligible diffusion the classical dispersion relations for immiscible interfaces can be reproduced. Although, for the waves with shorter wavelengths such an agreement is more difficult to obtain. The interfacial diffusion brings an additional dissipation to the fluid system, strongly damping the development of the shorter waves. We also show that the mixing (or the transition of a binary system to the state of thermodynamic equilibrium) is intensified by the presence of the surface waves, and this effect is more important when the liquids are slowly miscible, i.e. when the interfacial diffusion is weak.
Text
phase-field-modelling
- Accepted Manuscript
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Accepted/In Press date: 6 October 2017
e-pub ahead of print date: 20 November 2017
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Local EPrints ID: 414835
URI: http://eprints.soton.ac.uk/id/eprint/414835
ISSN: 1292-8941
PURE UUID: 86e466e7-47c5-4dc3-b807-cbbee0555996
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Date deposited: 11 Oct 2017 16:32
Last modified: 16 Mar 2024 05:45
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Author:
Andrey Ivantsov
Author:
Tatiana Lyubimova
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