The breakup of immiscible fluids in turbulent flows

Abstract: The breakup of immiscible fluid particles in a prototypical turbulent flow has been investigated. Dispersed fluids of varying density, viscosity and interfacial tension with water were injected continuously on the centreline in the fully developed region of a turbulent water jet. Digital image-processing techniques were used to track the particle size distributions as the initial globules of the dispersed fluid were broken into smaller particles and convected downstream in the jet. Particle breakup frequencies… Show more

“…16 They found that drops were considerably elongated before breakup. The deformation or stretching increased with rising drop viscosity.…”

On the breakup of fluid particles in turbulent flows

“…16 They found that drops were considerably elongated before breakup. The deformation or stretching increased with rising drop viscosity.…”

On the breakup of fluid particles in turbulent flows

“…The model presented here is based on measurements by us and others 16,17 showing that the fluid particles are highly deformed before breakup occurs. This deformation takes a few milliseconds, indicating that it is mainly larger long lived eddies that are responsible for the breakup.…”

Modeling the breakup of fluid particles in turbulent flows

“…Photographic evidence suggests that plungers initially entrain larger air cavities than spillers [15]. Furthermore, it is necessary to investigate the timescales of air cavities escaping from underwater compared to the fragmentation time under turbulence [16]. These subjects, while interesting, cannot be addressed adequately due to space limitations.…”

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