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Free-Rising Bubbles Bounce More Strongly from Mobile than from Immobile Water–Air Interfaces

Ivan U. Vakarelski, Fan Yang, S. T. Thoroddsen

2020Langmuir29 citationsDOIOpen Access PDF

Abstract

, eaaw4292). Experiments with free-rising bubbles in a pure perfluorocarbon liquid showed that collisions involving mobile interfaces result in a stronger series of rebounds before the eventual rapid coalescence. Here we examine this effect for the case of pure water. We compare the bounce of millimeter-sized free-rising bubbles from a pure water-air interface with the bounce from a water-air interface on which a Langmuir monolayer of arachidic acid molecules has been deposited. The Langmuir monolayer surface concentration is kept low enough not to affect the water surface tension but high enough to fully immobilize the interface due to Marangoni stress effects. Bubbles were found to bounce much stronger (up to a factor of 1.8 increase in the rebounding distance) from the clean water interface compared to the water interface with the Langmuir monolayer. These experiments confirm that mobile surfaces enhance bouncing and at the same time demonstrate that the pure water-air interfaces behave as mobile fluid interfaces in our system. A complementary finding in our study is that the ethanol-air interface behaves as a robust mobile liquid interface. The experimental findings are supported by numerical simulations of the bubble bouncing from both mobile and immobile fluid interfaces.

Topics & Concepts

Chemical physicsChemistryMaterials sciencePhysicsEnvironmental scienceFluid Dynamics and MixingReservoir Engineering and Simulation MethodsEnhanced Oil Recovery Techniques
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