Interface dilation : the overflowing cylinder technique

Interface dilation : the overflowing cylinder technique

A pure steady-state dilation of a liquid interface, either liquid-air or water-oil, can be accomplished far from equilibrium by means of the overflowing cylinder technique. The resulting dynamic surface tension data correlate well with characteristic parameters of processes like foaming, emulsification, and the spreading of droplets and thin liquid layers.Fundamental knowledge of the physical mechanism of operation of the overflowing cylinder technique is obtained by analyzing the relation between interface dilation and underlying bulk flow. Upon the addition of a surfactant the interface velocity increases considerably, since the propulsion mechanism changes from driven by the bulk flow to surface tension gradient driven.The surface rheological behaviour of the expanding interface is studied for various surfactant solutions. Generally practical systems give rise to a major increase in surface tension during interface dilation. The results are discussed in terms of the transport of surfactant components.The present findings explain why the overflowing cylinder technique is such a useful too[ for studying many practical processes which imply interface dilation far from equilibrium. Meanwhile, however, they urge a reconsideration of the meaning of the surface dilational viscosity.

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Bibliographic Details
Main Author: Bergink-Martens, D.J.M.
Other Authors: Prins, A.
Format: Doctoral thesis biblioteca
Language:English
Published: Landbouwuniversiteit Wageningen
Subjects:boundary layer, capillaries, fluid mechanics, fluids, hydrodynamics, liquids, surface phenomena, surface tension, capillairen, grenslaag, hydrodynamica, oppervlaktespanning, oppervlakteverschijnselen, vloeistoffen (fluids), vloeistoffen (liquids), vloeistofmechanica,
Online Access:https://research.wur.nl/en/publications/interface-dilation-the-overflowing-cylinder-technique
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spelling dig-wur-nl-wurpubs-221482024-10-23 Bergink-Martens, D.J.M. Prins, A. Bos, H.J. Doctoral thesis Interface dilation : the overflowing cylinder technique 1993 A pure steady-state dilation of a liquid interface, either liquid-air or water-oil, can be accomplished far from equilibrium by means of the overflowing cylinder technique. The resulting dynamic surface tension data correlate well with characteristic parameters of processes like foaming, emulsification, and the spreading of droplets and thin liquid layers.Fundamental knowledge of the physical mechanism of operation of the overflowing cylinder technique is obtained by analyzing the relation between interface dilation and underlying bulk flow. Upon the addition of a surfactant the interface velocity increases considerably, since the propulsion mechanism changes from driven by the bulk flow to surface tension gradient driven.The surface rheological behaviour of the expanding interface is studied for various surfactant solutions. Generally practical systems give rise to a major increase in surface tension during interface dilation. The results are discussed in terms of the transport of surfactant components.The present findings explain why the overflowing cylinder technique is such a useful too[ for studying many practical processes which imply interface dilation far from equilibrium. Meanwhile, however, they urge a reconsideration of the meaning of the surface dilational viscosity. en Landbouwuniversiteit Wageningen application/pdf https://research.wur.nl/en/publications/interface-dilation-the-overflowing-cylinder-technique 10.18174/203006 https://edepot.wur.nl/203006 boundary layer capillaries fluid mechanics fluids hydrodynamics liquids surface phenomena surface tension capillairen grenslaag hydrodynamica oppervlaktespanning oppervlakteverschijnselen vloeistoffen (fluids) vloeistoffen (liquids) vloeistofmechanica Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic boundary layer
capillaries
fluid mechanics
fluids
hydrodynamics
liquids
surface phenomena
surface tension
capillairen
grenslaag
hydrodynamica
oppervlaktespanning
oppervlakteverschijnselen
vloeistoffen (fluids)
vloeistoffen (liquids)
vloeistofmechanica
boundary layer
capillaries
fluid mechanics
fluids
hydrodynamics
liquids
surface phenomena
surface tension
capillairen
grenslaag
hydrodynamica
oppervlaktespanning
oppervlakteverschijnselen
vloeistoffen (fluids)
vloeistoffen (liquids)
vloeistofmechanica
spellingShingle boundary layer
capillaries
fluid mechanics
fluids
hydrodynamics
liquids
surface phenomena
surface tension
capillairen
grenslaag
hydrodynamica
oppervlaktespanning
oppervlakteverschijnselen
vloeistoffen (fluids)
vloeistoffen (liquids)
vloeistofmechanica
boundary layer
capillaries
fluid mechanics
fluids
hydrodynamics
liquids
surface phenomena
surface tension
capillairen
grenslaag
hydrodynamica
oppervlaktespanning
oppervlakteverschijnselen
vloeistoffen (fluids)
vloeistoffen (liquids)
vloeistofmechanica
Bergink-Martens, D.J.M.
Interface dilation : the overflowing cylinder technique
description A pure steady-state dilation of a liquid interface, either liquid-air or water-oil, can be accomplished far from equilibrium by means of the overflowing cylinder technique. The resulting dynamic surface tension data correlate well with characteristic parameters of processes like foaming, emulsification, and the spreading of droplets and thin liquid layers.Fundamental knowledge of the physical mechanism of operation of the overflowing cylinder technique is obtained by analyzing the relation between interface dilation and underlying bulk flow. Upon the addition of a surfactant the interface velocity increases considerably, since the propulsion mechanism changes from driven by the bulk flow to surface tension gradient driven.The surface rheological behaviour of the expanding interface is studied for various surfactant solutions. Generally practical systems give rise to a major increase in surface tension during interface dilation. The results are discussed in terms of the transport of surfactant components.The present findings explain why the overflowing cylinder technique is such a useful too[ for studying many practical processes which imply interface dilation far from equilibrium. Meanwhile, however, they urge a reconsideration of the meaning of the surface dilational viscosity.
author2 Prins, A.
author_facet Prins, A.
Bergink-Martens, D.J.M.
format Doctoral thesis
topic_facet boundary layer
capillaries
fluid mechanics
fluids
hydrodynamics
liquids
surface phenomena
surface tension
capillairen
grenslaag
hydrodynamica
oppervlaktespanning
oppervlakteverschijnselen
vloeistoffen (fluids)
vloeistoffen (liquids)
vloeistofmechanica
author Bergink-Martens, D.J.M.
author_sort Bergink-Martens, D.J.M.
title Interface dilation : the overflowing cylinder technique
title_short Interface dilation : the overflowing cylinder technique
title_full Interface dilation : the overflowing cylinder technique
title_fullStr Interface dilation : the overflowing cylinder technique
title_full_unstemmed Interface dilation : the overflowing cylinder technique
title_sort interface dilation : the overflowing cylinder technique
publisher Landbouwuniversiteit Wageningen
url https://research.wur.nl/en/publications/interface-dilation-the-overflowing-cylinder-technique
work_keys_str_mv AT berginkmartensdjm interfacedilationtheoverflowingcylindertechnique
_version_ 1819152450502787072

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