Dynamics of a surfactant-laden bubble bursting through an interface

C. R. Constante-Amores; L. Kahouadji; A. Batchvarov; S. Shin; J. Chergui; D. Juric; O. K. Matar

doi:10.1017/jfm.2020.1099

Dynamics of a surfactant-laden bubble bursting through an interface

C. R. Constante-Amores, L. Kahouadji, A. Batchvarov, S. Shin, J. Chergui, D. Juric, O. K. Matar

Research output: Contribution to journal › Article › peer-review

Abstract

We study the effect of surfactant on the dynamics of a bubble bursting through an interface. We perform fully three-dimensional direct numerical simulations using a hybrid interface-tracking/level-set method accounting for surfactant-induced Marangoni stresses, sorption kinetics and diffusive effects. We select an initial bubble shape corresponding to a large Laplace number and a vanishingly small Bond number in order to neglect gravity, and isolate the effects of surfactant on the flow. Our results demonstrate that the presence of surfactant affects the dynamics of the system through Marangoni-induced flow, driving motion from high to low concentration regions, which is responsible for the onset of a recirculation zone close to the free surface. These Marangoni stresses rigidify the interface, delay the cavity collapse and influence the jet breakup process.

Original language	English (US)
Article number	A57
Journal	Journal of Fluid Mechanics
Volume	911
DOIs	https://doi.org/10.1017/jfm.2020.1099
State	Published - 2021
Externally published	Yes

Keywords

bubble dynamics
capillary flows
multiphase flow

ASJC Scopus subject areas

Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering
Applied Mathematics

Online availability

10.1017/jfm.2020.1099

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title = "Dynamics of a surfactant-laden bubble bursting through an interface",

abstract = "We study the effect of surfactant on the dynamics of a bubble bursting through an interface. We perform fully three-dimensional direct numerical simulations using a hybrid interface-tracking/level-set method accounting for surfactant-induced Marangoni stresses, sorption kinetics and diffusive effects. We select an initial bubble shape corresponding to a large Laplace number and a vanishingly small Bond number in order to neglect gravity, and isolate the effects of surfactant on the flow. Our results demonstrate that the presence of surfactant affects the dynamics of the system through Marangoni-induced flow, driving motion from high to low concentration regions, which is responsible for the onset of a recirculation zone close to the free surface. These Marangoni stresses rigidify the interface, delay the cavity collapse and influence the jet breakup process.",

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AU - Constante-Amores, C. R.

AU - Kahouadji, L.

AU - Batchvarov, A.

AU - Shin, S.

AU - Chergui, J.

AU - Juric, D.

AU - Matar, O. K.

N1 - Publisher Copyright: © The Author(s), 2021. Published by Cambridge University Press.

PY - 2021

Y1 - 2021

N2 - We study the effect of surfactant on the dynamics of a bubble bursting through an interface. We perform fully three-dimensional direct numerical simulations using a hybrid interface-tracking/level-set method accounting for surfactant-induced Marangoni stresses, sorption kinetics and diffusive effects. We select an initial bubble shape corresponding to a large Laplace number and a vanishingly small Bond number in order to neglect gravity, and isolate the effects of surfactant on the flow. Our results demonstrate that the presence of surfactant affects the dynamics of the system through Marangoni-induced flow, driving motion from high to low concentration regions, which is responsible for the onset of a recirculation zone close to the free surface. These Marangoni stresses rigidify the interface, delay the cavity collapse and influence the jet breakup process.

AB - We study the effect of surfactant on the dynamics of a bubble bursting through an interface. We perform fully three-dimensional direct numerical simulations using a hybrid interface-tracking/level-set method accounting for surfactant-induced Marangoni stresses, sorption kinetics and diffusive effects. We select an initial bubble shape corresponding to a large Laplace number and a vanishingly small Bond number in order to neglect gravity, and isolate the effects of surfactant on the flow. Our results demonstrate that the presence of surfactant affects the dynamics of the system through Marangoni-induced flow, driving motion from high to low concentration regions, which is responsible for the onset of a recirculation zone close to the free surface. These Marangoni stresses rigidify the interface, delay the cavity collapse and influence the jet breakup process.

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KW - capillary flows

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Dynamics of a surfactant-laden bubble bursting through an interface

Abstract

Keywords

ASJC Scopus subject areas

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