Litcius/Paper detail

Bubble bursting in a weakly viscoelastic liquid

Paloma Rodríguez, A. Rubio, J. M. Montanero, Alfonso M. Gañán‐Calvo, M.G. Cabezas

2023Physics of Fluids10 citationsDOI

Abstract

We study the bursting of bubbles in weakly viscoelastic liquids. The dissolved macromolecules form a monolayer at the water–air interface, influencing the bubble dynamics during the cavity collapse. For an optimum polymer concentration, the interfacial effects dampen short-wavelength waves, which intensifies the focusing of energy powering the jet ejection. This results in a significant increase (decrease) in the first-emitted droplet velocity (radius). The jet formation produces strain rates leading to a significant increase in the extensional viscosity. This extensional thickening reduces (increases) the first-emitted droplet velocity (radius). Bulk viscoelasticity produces a large difference between the velocity of the jet front at the tank surface level and the velocity of the first-emitted droplet. This droplet coalescence with others that are subsequently emitted, even for small polymer concentrations. Overall, viscoelasticity considerably hinders the ejection of small droplets, even for quasi-Newtonian liquids. The droplet emission is suppressed for smaller polymer concentrations when the bubble radius is decreased.

Topics & Concepts

ViscoelasticityBubblePhysicsCoalescence (physics)RADIUSMechanicsPolymerNewtonian fluidWavelengthViscosityJet (fluid)ThermodynamicsOpticsNuclear magnetic resonanceComputer scienceAstrobiologyComputer securityFluid Dynamics and Heat TransferFluid Dynamics Simulations and InteractionsParticle Dynamics in Fluid Flows