Solitary-like Wave Dynamics in Thin Liquid Films over a Vibrated Inclined Plane

Solitary-like surface waves that originate from the spatio-temporal evolution of falling liquid films have been the subject of theoretical and experimental research due to their unique properties that are not readily observed in other physical systems. Here we investigate, experimentally and theoret...

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Published inApplied sciences Vol. 13; no. 3; p. 1888
Main Authors Maksymov, Ivan S., Pototsky, Andrey
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.02.2023
Subjects
falling liquid films
Optics
Physical properties
Research methodology
solitary waves
surface waves
Velocity
Vibration
vibrations
Online AccessGet full text
ISSN2076-3417
2076-3417
DOI10.3390/app13031888

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Abstract Solitary-like surface waves that originate from the spatio-temporal evolution of falling liquid films have been the subject of theoretical and experimental research due to their unique properties that are not readily observed in other physical systems. Here we investigate, experimentally and theoretically, the dynamics of solitary-like surface waves in a liquid layer on an inclined plane that is subjected to a harmonic low-frequency vibration in a range from 30 to 50 Hz. We employ a standard boundary layer model, which describes large-amplitude deformations of the film surface, assuming that it has a self-similar parabolic longitudinal flow velocity profile, to confirm the experimental results and to explain the interplay between the short-wavelength Faraday instability and long-wavelength gravitational instability. In particular, we demonstrate that the vibration results in a decrease in the average and peak amplitude of the long solitary-like surface waves. However, the speed of these waves remains largely unaffected by the vibration, implying that they may propagate over large distances almost without changing their amplitude, thus rendering them suitable for a number of practical applications, where the immunity of pulses that carry information to external vibrations is required.
AbstractList Solitary-like surface waves that originate from the spatio-temporal evolution of falling liquid films have been the subject of theoretical and experimental research due to their unique properties that are not readily observed in other physical systems. Here we investigate, experimentally and theoretically, the dynamics of solitary-like surface waves in a liquid layer on an inclined plane that is subjected to a harmonic low-frequency vibration in a range from 30 to 50 Hz. We employ a standard boundary layer model, which describes large-amplitude deformations of the film surface, assuming that it has a self-similar parabolic longitudinal flow velocity profile, to confirm the experimental results and to explain the interplay between the short-wavelength Faraday instability and long-wavelength gravitational instability. In particular, we demonstrate that the vibration results in a decrease in the average and peak amplitude of the long solitary-like surface waves. However, the speed of these waves remains largely unaffected by the vibration, implying that they may propagate over large distances almost without changing their amplitude, thus rendering them suitable for a number of practical applications, where the immunity of pulses that carry information to external vibrations is required.
Author Pototsky, Andrey
Maksymov, Ivan S.
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  fullname: Pototsky, Andrey
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CitedBy_id crossref_primary_10_1209_0295_5075_acd471
crossref_primary_10_3390_dynamics4010007
crossref_primary_10_3390_en16145366
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Snippet Solitary-like surface waves that originate from the spatio-temporal evolution of falling liquid films have been the subject of theoretical and experimental...
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StartPage 1888
SubjectTerms falling liquid films
Optics
Physical properties
Research methodology
solitary waves
surface waves
Velocity
Vibration
vibrations
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Title Solitary-like Wave Dynamics in Thin Liquid Films over a Vibrated Inclined Plane
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