Force Balance Model for Bubble Rise, Impact, and Bounce from Solid Surfaces.

@article{Manica2015ForceBM,
  title={Force Balance Model for Bubble Rise, Impact, and Bounce from Solid Surfaces.},
  author={Rogerio Manica and Evert Klaseboer and Derek Y. C. Chan},
  journal={Langmuir : the ACS journal of surfaces and colloids},
  year={2015},
  volume={31 24},
  pages={
          6763-72
        }
}
A force balance model for the rise and impact of air bubbles in a liquid against rigid horizontal surfaces that takes into account effects of buoyancy and hydrodynamic drag forces, bubble deformation, inertia of the fluid via an added mass force, and a film force between the bubble and the rigid surface is proposed. Numerical solution of the governing equations for the position and velocity of the center of mass of the bubbles is compared against experimental data taken with ultraclean water… 
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