Initial surface deformations during impact on a liquid pool

Initial surface deformations during impact on a liquid pool

A tiny air bubble can be entrapped at the bottom of a solid sphere that impacts onto a liquid pool. The bubble forms due to the deformation of the liquid surface by a local pressure buildup inside the surrounding gas, as also observed during the impact of a liquid drop on a solid wall. Here we perfo...

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Veröffentlicht in:arXiv.org 2015-03
Hauptverfasser: Bouwhuis, Wilco, Hendrix, Maurice H W, Devaraj van der Meer, Snoeijer, Jacco H
Format: Artikel
Sprache:eng
Schlagworte:
Bubbles
Deformation
Drops (liquids)
Entrapment
Fluid dynamics
Free surfaces
Gas viscosity
Liquid surfaces
Natural gas
Perturbation methods
Physics - Fluid Dynamics
Potential flow
Scaling laws
Stokes flow
Viscous fluids
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Zusammenfassung:A tiny air bubble can be entrapped at the bottom of a solid sphere that impacts onto a liquid pool. The bubble forms due to the deformation of the liquid surface by a local pressure buildup inside the surrounding gas, as also observed during the impact of a liquid drop on a solid wall. Here we perform a perturbation analysis to quantitatively predict the initial deformations of the free surface of the liquid pool as it is approached by a solid sphere. We study the natural limits where the gas can be treated as a viscous fluid (Stokes flow) or as an inviscid fluid (potential flow). For both cases we derive the spatio-temporal evolution of the pool surface, and recover some of the recently proposed scaling laws for bubble entrapment. When inserting typical experimental values for the impact parameters, we find that the bubble volume is mainly determined by the effect of gas viscosity.
ISSN:2331-8422
DOI:10.48550/arxiv.1411.3576