Breakup length determination of continuous ink jets: Application to a shear-thinning industrial fluid

The theory of the so-called Rayleigh–Plateau instability of fluid jets has been widely studied and can be used to predict the breakup length of liquid jets. Recently, in the work of Rosello et al. [J. Fluids Eng. 140(3), 031202 (2018)], the linear theory was enhanced to accurately predict the breaku...

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Autores principales: Guillaume Maîtrejean, Denis C. D. Roux, Jean Xing, Maxime Rosello, Pascal Jay, Bruno Barbet
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Lenguaje:EN
Publicado: AIP Publishing LLC 2021
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Acceso en línea:https://doaj.org/article/72f325d677e04a669fcc2dede09c9b24
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spelling oai:doaj.org-article:72f325d677e04a669fcc2dede09c9b242021-12-01T18:52:07ZBreakup length determination of continuous ink jets: Application to a shear-thinning industrial fluid2158-322610.1063/5.0072147https://doaj.org/article/72f325d677e04a669fcc2dede09c9b242021-11-01T00:00:00Zhttp://dx.doi.org/10.1063/5.0072147https://doaj.org/toc/2158-3226The theory of the so-called Rayleigh–Plateau instability of fluid jets has been widely studied and can be used to predict the breakup length of liquid jets. Recently, in the work of Rosello et al. [J. Fluids Eng. 140(3), 031202 (2018)], the linear theory was enhanced to accurately predict the breakup length of continuous ink jets of Newtonian fluids by accounting for the influence of the nozzle geometry. In the present work, the influence of a shear-thinning behavior is addressed for both the breakup morphologies and breakup lengths in a linear regime. A comparison with the experimental data shows an excellent agreement extending the model of Rosello et al. to a non-Newtonian shear-thinning fluid.Guillaume MaîtrejeanDenis C. D. RouxJean XingMaxime RoselloPascal JayBruno BarbetAIP Publishing LLCarticlePhysicsQC1-999ENAIP Advances, Vol 11, Iss 11, Pp 115325-115325-9 (2021)
institution DOAJ
collection DOAJ
language EN
topic Physics
QC1-999
spellingShingle Physics
QC1-999
Guillaume Maîtrejean
Denis C. D. Roux
Jean Xing
Maxime Rosello
Pascal Jay
Bruno Barbet
Breakup length determination of continuous ink jets: Application to a shear-thinning industrial fluid
description The theory of the so-called Rayleigh–Plateau instability of fluid jets has been widely studied and can be used to predict the breakup length of liquid jets. Recently, in the work of Rosello et al. [J. Fluids Eng. 140(3), 031202 (2018)], the linear theory was enhanced to accurately predict the breakup length of continuous ink jets of Newtonian fluids by accounting for the influence of the nozzle geometry. In the present work, the influence of a shear-thinning behavior is addressed for both the breakup morphologies and breakup lengths in a linear regime. A comparison with the experimental data shows an excellent agreement extending the model of Rosello et al. to a non-Newtonian shear-thinning fluid.
format article
author Guillaume Maîtrejean
Denis C. D. Roux
Jean Xing
Maxime Rosello
Pascal Jay
Bruno Barbet
author_facet Guillaume Maîtrejean
Denis C. D. Roux
Jean Xing
Maxime Rosello
Pascal Jay
Bruno Barbet
author_sort Guillaume Maîtrejean
title Breakup length determination of continuous ink jets: Application to a shear-thinning industrial fluid
title_short Breakup length determination of continuous ink jets: Application to a shear-thinning industrial fluid
title_full Breakup length determination of continuous ink jets: Application to a shear-thinning industrial fluid
title_fullStr Breakup length determination of continuous ink jets: Application to a shear-thinning industrial fluid
title_full_unstemmed Breakup length determination of continuous ink jets: Application to a shear-thinning industrial fluid
title_sort breakup length determination of continuous ink jets: application to a shear-thinning industrial fluid
publisher AIP Publishing LLC
publishDate 2021
url https://doaj.org/article/72f325d677e04a669fcc2dede09c9b24
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AT maximerosello breakuplengthdeterminationofcontinuousinkjetsapplicationtoashearthinningindustrialfluid
AT pascaljay breakuplengthdeterminationofcontinuousinkjetsapplicationtoashearthinningindustrialfluid
AT brunobarbet breakuplengthdeterminationofcontinuousinkjetsapplicationtoashearthinningindustrialfluid
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