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Surface tension as the destabiliser of a vortical interface

Rashmi Ramadugu, Prasad Perlekar, Rama Govindarajan

2022Journal of Fluid Mechanics10 citationsDOIOpen Access PDF

Abstract

We study the dynamics of an initially flat interface between two immiscible fluids, with a vortex situated on it. We show how surface tension causes vorticity generation at a general curved interface. This creates a velocity jump across the interface which increases quadratically in time, and causes the Kelvin–Helmholtz instability. Surface tension thus acts as a destabiliser by vorticity creation, winning over its own tendency to stabilise by smoothing out interfacial perturbations to reduce surface energy. We further show that this instability is manifested within the vortex core at times larger than ${\sim}(k We)^{1/4}$ for a Weber number $We$ and perturbation wavenumber $k$ , destroying the flow structure. The vorticity peels off into small-scale structures away from the interface. Using energy balance we provide the growth of total interface length in time. A density difference between the fluids produces additional instabilities outside the vortex core due to centrifugal effects. We demonstrate the importance of this mechanism in two-dimensional turbulence simulations with a prescribed initial interface.

Topics & Concepts

VorticitySurface tensionVortexMechanicsInstabilityPhysicsWavenumberVortex stretchingKinetic energyClassical mechanicsTurbulencePerturbation (astronomy)Surface energyThermodynamicsOpticsQuantum mechanicsFluid Dynamics and Turbulent FlowsFluid Dynamics and Heat TransferFluid Dynamics and Thin Films