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Phase-field modelling of a miscible system in spinning droplet tensiometer

Phase-field modelling of a miscible system in spinning droplet tensiometer
Phase-field modelling of a miscible system in spinning droplet tensiometer
The spinning drop tensiometry is used for measurements of surface tension coefficients, especially, when interfaces are characterised by low and ultra-low interfacial stresses. A droplet of lighter liquid is introduced into a rotating capillary that was initially saturated with another heavier liquid. The tube is subject to axial rotation that results in droplet’s elongation along the tube’s axis. The equilibrium shape of the droplet is used to determine the surface tension coefficient. In this work, the evolution of a slowly miscible droplet introduced into a spinning capillary is investigated. This technique is frequently employed for studies of the dynamics of miscible systems, even despite the fact that a strict equilibrium is never achieved in a mixture of fully miscible liquids. The numerical modelling of a miscible droplet is fulfilled on the basis of the phase-field (Cahn-Hilliard) approach. The numerical results are compared against the experimental data pursuing two objectives: (i) to verify the use of the phase-field approach as a consistent physics-based approach capable of accurate tracking of the short- and long-term evolution of miscible systems, and (ii) to estimate the values of the phenomenological parameters introduced within the phase-field approach, so making this approach a practical tool for modelling of thermohydrodynamic changes in miscible systems within various configurations.
miscible interface, phase-field approach, Cahn-Hilliard-Navier-Stokes equations, spinning droptensiometer
0021-9797
193-204
Vorobev, Anatoliy
911a4e1e-0c34-4297-b52e-c22a2b9dec01
Boghi, Andrea
54a72da6-c8a2-468c-9773-897efac0638f
Vorobev, Anatoliy
911a4e1e-0c34-4297-b52e-c22a2b9dec01
Boghi, Andrea
54a72da6-c8a2-468c-9773-897efac0638f

Vorobev, Anatoliy and Boghi, Andrea (2016) Phase-field modelling of a miscible system in spinning droplet tensiometer. Journal of Colloid and Interface Science, 482, 193-204. (doi:10.1016/j.jcis.2016.07.080).

Record type: Article

Abstract

The spinning drop tensiometry is used for measurements of surface tension coefficients, especially, when interfaces are characterised by low and ultra-low interfacial stresses. A droplet of lighter liquid is introduced into a rotating capillary that was initially saturated with another heavier liquid. The tube is subject to axial rotation that results in droplet’s elongation along the tube’s axis. The equilibrium shape of the droplet is used to determine the surface tension coefficient. In this work, the evolution of a slowly miscible droplet introduced into a spinning capillary is investigated. This technique is frequently employed for studies of the dynamics of miscible systems, even despite the fact that a strict equilibrium is never achieved in a mixture of fully miscible liquids. The numerical modelling of a miscible droplet is fulfilled on the basis of the phase-field (Cahn-Hilliard) approach. The numerical results are compared against the experimental data pursuing two objectives: (i) to verify the use of the phase-field approach as a consistent physics-based approach capable of accurate tracking of the short- and long-term evolution of miscible systems, and (ii) to estimate the values of the phenomenological parameters introduced within the phase-field approach, so making this approach a practical tool for modelling of thermohydrodynamic changes in miscible systems within various configurations.

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Accepted/In Press date: 29 July 2016
e-pub ahead of print date: 30 July 2016
Published date: 15 November 2016
Keywords: miscible interface, phase-field approach, Cahn-Hilliard-Navier-Stokes equations, spinning droptensiometer
Organisations: Energy Technology Group

Identifiers

Local EPrints ID: 398702
URI: http://eprints.soton.ac.uk/id/eprint/398702
DOI: doi:10.1016/j.jcis.2016.07.080
ISSN: 0021-9797
PURE UUID: c8d3dee5-0418-47e2-b5dd-25149272da6a
ORCID for Anatoliy Vorobev: ORCID iD orcid.org/0000-0002-6458-9390
ORCID for Andrea Boghi: ORCID iD orcid.org/0000-0002-9387-326X

Catalogue record

Date deposited: 01 Aug 2016 09:10
Last modified: 15 Mar 2024 05:46

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Contributors

Author: Anatoliy Vorobev ORCID iD
Author: Andrea Boghi ORCID iD

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