Journal article
The hydrodynamics of bubble rise and impact with solid surfaces
R Manica, E Klaseboer, DYC Chan
Advances in Colloid and Interface Science | ELSEVIER | Published : 2016
Abstract
A bubble smaller than 1 mm in radius rises along a straight path in water and attains a constant speed due to the balance between buoyancy and drag force. Depending on the purity of the system, within the two extreme limits of tangentially immobile or mobile boundary conditions at the air–water interface considerably different terminal speeds are possible. When such a bubble impacts on a horizontal solid surface and bounces, interesting physics can be observed. We study this physical phenomenon in terms of forces, which can be of colloidal, inertial, elastic, surface tension and viscous origins. Recent advances in high-speed photography allow for the observation of phenomena on the milliseco..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
We would like to thank Maurice Hendrix and Claus-Dieter Ohl for providing experimental data of bouncing bubbles. We thank Luke Parkinson and John Ralston for providing data on settling bubbles at low Reynolds numbers and Marta Krasowska and Kazimierz Malysa for providing movies on bouncing bubbles in clean conditions. DYCC is an Adjunct Professor at the National University of Singapore and gratefully acknowledges the financial support by the Australian Research Council through the Discovery Projects schemes (DP140100558).