Viscous potential flow analysis of capillary instability with heat and mass transfer
Viscous potential flow analysis of capillary instability with heat and mass transfer
We carry out the linear viscous-irrotational analysis of capillary instability with heat transfer and phase change. We consider the cylindrical interface shared by two viscous incompressible fluids enclosed by two concentric cylinders. In viscous potential flow, viscosity enters the model through the balance of normal stresses at the interface. We write the dispersion relation from the stability analysis for axisymmetric disturbances in terms of a set of dimensionless numbers that arise in this phase change problem. For the film boiling condition, plots depicting the effect of some of these parameters on the maximum growth rate for unstable perturbations and critical wavenumber for marginal stability are presented and interpreted. Viscous effects of a purely irrotational motion in the presence of heat and mass transfer can stabilize an otherwise unstable gas-liquid interface.
Kim, H.J.
cfbf9241-6bb7-4738-8e2d-4fbc5c1217cc
Kwon, S.J.
16e6e221-e6d1-4c13-a09d-ee11302b9f18
Padrino, Juan C.
961f9d2a-ee9d-4619-a267-2bf098612978
Funada, Toshio
010aba83-2810-4b94-b1a9-bb87431b9a89
22 August 2008
Kim, H.J.
cfbf9241-6bb7-4738-8e2d-4fbc5c1217cc
Kwon, S.J.
16e6e221-e6d1-4c13-a09d-ee11302b9f18
Padrino, Juan C.
961f9d2a-ee9d-4619-a267-2bf098612978
Funada, Toshio
010aba83-2810-4b94-b1a9-bb87431b9a89
Kim, H.J., Kwon, S.J., Padrino, Juan C. and Funada, Toshio
(2008)
Viscous potential flow analysis of capillary instability with heat and mass transfer.
Journal of Physics A: Mathematical and Theoretical, 41 (33), [335205].
(doi:10.1088/1751-8113/41/33/335205).
Abstract
We carry out the linear viscous-irrotational analysis of capillary instability with heat transfer and phase change. We consider the cylindrical interface shared by two viscous incompressible fluids enclosed by two concentric cylinders. In viscous potential flow, viscosity enters the model through the balance of normal stresses at the interface. We write the dispersion relation from the stability analysis for axisymmetric disturbances in terms of a set of dimensionless numbers that arise in this phase change problem. For the film boiling condition, plots depicting the effect of some of these parameters on the maximum growth rate for unstable perturbations and critical wavenumber for marginal stability are presented and interpreted. Viscous effects of a purely irrotational motion in the presence of heat and mass transfer can stabilize an otherwise unstable gas-liquid interface.
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e-pub ahead of print date: 15 July 2008
Published date: 22 August 2008
Identifiers
Local EPrints ID: 510679
URI: http://eprints.soton.ac.uk/id/eprint/510679
ISSN: 1751-8113
PURE UUID: fd4cdee6-0796-47ef-87ef-92a4570297f6
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Date deposited: 16 Apr 2026 16:39
Last modified: 17 Apr 2026 02:11
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Author:
H.J. Kim
Author:
S.J. Kwon
Author:
Juan C. Padrino
Author:
Toshio Funada
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