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Mass variation of a thin liquid film driven by an acoustic wave
W. Batson, Y. Agnon, A. Oron
Research output
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Article
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peer-review
4
Scopus citations
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Keyphrases
Acoustic Waves
100%
Thin Liquid Film
100%
Mass Exchange
100%
Mass Variation
100%
Vapor Space
66%
Thermocapillary Effect
66%
Acoustic Field
33%
Nonlinear Dynamics
33%
Acoustics
33%
Phase Change
33%
Condensation
33%
Growth Rate
33%
Nonlinear Effects
33%
Traveling Wave
33%
Wave number
33%
Liquid Film
33%
Mass Loss
33%
Total Mass
33%
Thermodynamic Equilibrium
33%
Linear Stability
33%
Mass Gain
33%
Stability Dynamics
33%
Evaporation-condensation
33%
Unstable Wave
33%
Periodic Driving Forces
33%
Inclined Ceiling
33%
Linear Order
33%
Oscillation Phase
33%
Thermocapillarity
33%
Film Stability
33%
Engineering
Liquid Films
100%
Mass Exchange
75%
Oscillatory
50%
Acoustic Field
25%
Non-Linear Dynamic
25%
Travelling Wave
25%
Wave Number
25%
Nonlinear Effect
25%
Thermodynamic Equilibrium
25%
Linearized Stability
25%
Driving Force
25%
Mass Loss
25%
Mass Gain
25%
Acoustic Wavelength
25%
Ceilings
25%