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Enrichment of Scavenged Particles in Jet Drops Determined by Bubble Size and Particle Position

Lena Dubitsky, Oliver McRae, James Bird

2023Physical Review Letters43 citationsDOI

Abstract

When small bubbles rupture in a contaminated water source, the resulting liquid jet breaks up into droplets that can aerosolize solid particulates such as bacteria, viruses, and microplastics. Particles collected on the bubble surface have the potential to become highly concentrated in the jet drops, dramatically increasing their impact. It has been assumed that only particles small enough to fit within a thin microlayer surrounding the bubble can be transported into its influential top jet drop. Yet here, we demonstrate that not only can larger particles be transported into this jet drop, but also that these particles can exceed previous enrichment measurements. Through experiments and simulations, we identify the prerupture location of the liquid that develops into the top jet drop and model how interfacial rearrangement combines with the bubble size, particle size, and the angular distribution of particles on the bubble surface to set the particle enrichment.

Topics & Concepts

BubbleDrop (telecommunication)Jet (fluid)Particle sizeParticle (ecology)Drop impactMechanicsMaterials sciencePhysicsSplashMeteorologyChemistryGeologyPhysical chemistryComputer scienceOceanographyTelecommunicationsFluid Dynamics and Heat TransferParticle Dynamics in Fluid FlowsSurface Modification and Superhydrophobicity
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