A coupled Volume of Fluid -Phase Field method for direct numerical simulation of insoluble surfactant-laden interfacial flows and application to rising bubbles - Archive ouverte HAL
Pré-Publication, Document De Travail Année : 2024

A coupled Volume of Fluid -Phase Field method for direct numerical simulation of insoluble surfactant-laden interfacial flows and application to rising bubbles

Luc Deike
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Résumé

Improved numerical methods are needed to understand the effect of surfactants in interfacial fluid mechanics, with various applications including thin films, inkjet printing and ocean-atmosphere in- teractions. We provide a three-dimensional coupled Volume of Fluid (VoF) and Phase-Field based numerical framework to simulate the effects of insoluble surfactant-laden flows. The framework is validated against analytical cases for surfactant transport and Marangoni stresses. We then sys- tematically investigate a single surfactant-laden rising bubble. The characteristics of a clean bubble rising in a quiescent liquid are governed by non-dimensional numbers, i.e., the Galileo number Ga, which compares inertial and viscous effects, and the Bond number Bo, which compares gravitational and surface tension stresses. The effect of insoluble surfactants introduces an additional indepen- dent parameter, the Marangoni number Ma, comparing the change in surface tension forces due to gradients in surfactants concentration with viscous forces. We apply our numerical methods to investigate the influence of surfactants (through the Marangoni number) on rising bubbles in oth- erwise quiescent fluids. We observe that an increase in the Marangoni number first decreases the rise velocity before reaching a limiting value at high Ma. The value of Ma necessary to observe a significant slowdown increases with Ga. We discuss the associated surfactant accumulation and the vortical dynamics when a steady state is reached. Finally, we perform three-dimensional simulations and demonstrate that Marangoni effects can induce a change in the rise trajectory from spiraling to zigzagging for set values of Bo and Ga, consistent with experimental results.
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Dates et versions

hal-04461912 , version 1 (16-02-2024)
hal-04461912 , version 2 (27-06-2024)
hal-04461912 , version 3 (12-10-2024)

Identifiants

  • HAL Id : hal-04461912 , version 2

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Palas Kumar Farsoiya, Stéphane Popinet, Howard A Stone, Luc Deike. A coupled Volume of Fluid -Phase Field method for direct numerical simulation of insoluble surfactant-laden interfacial flows and application to rising bubbles. 2024. ⟨hal-04461912v2⟩
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