Steady streaming of a viscoelastic fluid within a periodically rotating sphere

Motivated by understanding mass transport processes occurring in the vitreous chamber of the eye, we consider the steady streaming component of the flow generated in a viscoelastic fluid contained within a hollow, rigid sphere performing small-amplitude, periodic, torsional oscillations about an axi...

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Published inJournal of fluid mechanics Vol. 761; pp. 329 - 347
Main Authors Repetto, Rodolfo, Siggers, Jennifer H., Meskauskas, Julia
Format Journal Article
LanguageEnglish
Published Cambridge, UK Cambridge University Press 25.12.2014
Subjects
Biological and medical sciences
Exact sciences and technology
Eye and associated structures. Visual pathways and centers. Vision
Fluid dynamics
Fundamental and applied biological sciences. Psychology
Fundamental areas of phenomenology (including applications)
Non-newtonian fluid flows
Pattern selection; pattern formation
Physics
Vertebrates: nervous system and sense organs
biomedical flows
pattern formation
viscoelasticity
Viscoelastic fluid
Human
Eye
Patterning
Flow(fluid)
Rotating sphere
Vitreous body
Aqueous humor
Modeling
Rheological properties
Online AccessGet full text
ISSN0022-1120
1469-7645
1469-7645
DOI10.1017/jfm.2014.546

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Abstract Motivated by understanding mass transport processes occurring in the vitreous chamber of the eye, we consider the steady streaming component of the flow generated in a viscoelastic fluid contained within a hollow, rigid sphere performing small-amplitude, periodic, torsional oscillations about an axis passing through its centre. The problem is solved semi-analytically, assuming that the amplitude of the oscillations is small. The paper extends the work by Repetto et al. (J. Fluid Mech., vol. 608, 2008, pp. 71–80), in which the case of a purely viscous fluid was analysed. However, in reality, in young and healthy subjects, the vitreous humour has complex rheological properties, and so here we model it as a viscoelastic fluid. A similar problem was studied by Nikolakis (Eine Theorie für stationäre Drifterscheinungen viskoelastischer Flüssigkeiten, 1992, VDI). In the present model, the steady streaming flow is governed by four dimensionless parameters. We show that, when we account for the viscoelasticity of the fluid, there is a considerably more complex set of possible flow regimes than was found in the purely viscous case, and the flows can be classified into five qualitatively different types. Whereas there was only one circulation cell in each hemisphere in the viscous case, accounting for viscoelasticity it is possible have either one, two or three circulation cells, with different senses of rotation, depending on the parameter values.
AbstractList Motivated by understanding mass transport processes occurring in the vitreous chamber of the eye, we consider the steady streaming component of the flow generated in a viscoelastic fluid contained within a hollow, rigid sphere performing small-amplitude, periodic, torsional oscillations about an axis passing through its centre. The problem is solved semi-analytically, assuming that the amplitude of the oscillations is small. The paper extends the work by Repetto et al. (J. Fluid Mech., vol. 608, 2008, pp. 71–80), in which the case of a purely viscous fluid was analysed. However, in reality, in young and healthy subjects, the vitreous humour has complex rheological properties, and so here we model it as a viscoelastic fluid. A similar problem was studied by Nikolakis (Eine Theorie für stationäre Drifterscheinungen viskoelastischer Flüssigkeiten, 1992, VDI). In the present model, the steady streaming flow is governed by four dimensionless parameters. We show that, when we account for the viscoelasticity of the fluid, there is a considerably more complex set of possible flow regimes than was found in the purely viscous case, and the flows can be classified into five qualitatively different types. Whereas there was only one circulation cell in each hemisphere in the viscous case, accounting for viscoelasticity it is possible have either one, two or three circulation cells, with different senses of rotation, depending on the parameter values.
Motivated by understanding mass transport processes occurring in the vitreous chamber of the eye, we consider the steady streaming component of the flow generated in a viscoelastic fluid contained within a hollow, rigid sphere performing small-amplitude, periodic, torsional oscillations about an axis passing through its centre. The problem is solved semi-analytically, assuming that the amplitude of the oscillations is small. The paper extends the work by Repetto et al.  ( J. Fluid Mech. , vol. 608, 2008, pp. 71–80), in which the case of a purely viscous fluid was analysed. However, in reality, in young and healthy subjects, the vitreous humour has complex rheological properties, and so here we model it as a viscoelastic fluid. A similar problem was studied by Nikolakis ( Eine Theorie für stationäre Drifterscheinungen viskoelastischer Flüssigkeiten , 1992, VDI). In the present model, the steady streaming flow is governed by four dimensionless parameters. We show that, when we account for the viscoelasticity of the fluid, there is a considerably more complex set of possible flow regimes than was found in the purely viscous case, and the flows can be classified into five qualitatively different types. Whereas there was only one circulation cell in each hemisphere in the viscous case, accounting for viscoelasticity it is possible have either one, two or three circulation cells, with different senses of rotation, depending on the parameter values.
Author Repetto, Rodolfo
Siggers, Jennifer H.
Meskauskas, Julia
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  fullname: Meskauskas, Julia
  organization: Centre for Statistics, Georg-August Universität Göttingen, Platz der Göttinger Sieben 5, D-37073 Göttingen, Germany
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Steady streaming of a viscoelastic fluid within a rotating sphere
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Keywords biomedical flows
pattern formation
viscoelasticity
Viscoelastic fluid
Human
Eye
Patterning
Flow(fluid)
Rotating sphere
Vitreous body
Aqueous humor
Modeling
Rheological properties
Language English
License This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/3.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
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– ident: S0022112014005461_r26
  doi: 10.1088/0031-9155/55/2/008
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  doi: 10.1016/j.jbiomech.2008.04.015
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Snippet Motivated by understanding mass transport processes occurring in the vitreous chamber of the eye, we consider the steady streaming component of the flow...
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SubjectTerms Biological and medical sciences
Exact sciences and technology
Eye and associated structures. Visual pathways and centers. Vision
Fluid dynamics
Fundamental and applied biological sciences. Psychology
Fundamental areas of phenomenology (including applications)
Non-newtonian fluid flows
Pattern selection; pattern formation
Physics
Vertebrates: nervous system and sense organs
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Title Steady streaming of a viscoelastic fluid within a periodically rotating sphere
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