Eddies induced in cylindrical containers by a rotating end wall

C. P. Hills

doi:10.1063/1.1384470

Eddies induced in cylindrical containers by a rotating end wall

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Abstract

The flow generated in a viscous liquid contained in a cylindrical geometry by a rotating end wall is considered. Recent numerical and experimental work has established several distinct phases of the motion when fluid inertia plays a significant role. The current paper, however, establishes the nature of the flow in the thus far neglected low Reynolds number regime. Explicitly, by employing biorthogonality relations appropriate to the current geometry, it is shown that a sequence of exponentially decaying eddies extends outward from the rotating end wall. The cellular structure is a manifestation of the dominance of complex eigensolutions to the homogeneous problem and arises as the result of nonlinear forcing associated with an inertial correction to the Stokes flow.

Original language	English
Pages (from-to)	2279-2286
Number of pages	8
Journal	Physics of Fluids
Volume	13
Issue number	8
DOIs	https://doi.org/10.1063/1.1384470 https://doi.org/10.21427/2d60-br42
Publication status	Published - Aug 2001
Externally published	Yes

Keywords

viscous liquid
cylindrical geometry
rotating end wall
low Reynolds number regime
biorthogonality relations
exponentially decaying eddies
complex eigensolutions
nonlinear forcing
Stokes flow

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10.1063/1.1384470
10.21427/2d60-br42Licence: CC BY-NC

Cite this

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title = "Eddies induced in cylindrical containers by a rotating end wall",

abstract = "The flow generated in a viscous liquid contained in a cylindrical geometry by a rotating end wall is considered. Recent numerical and experimental work has established several distinct phases of the motion when fluid inertia plays a significant role. The current paper, however, establishes the nature of the flow in the thus far neglected low Reynolds number regime. Explicitly, by employing biorthogonality relations appropriate to the current geometry, it is shown that a sequence of exponentially decaying eddies extends outward from the rotating end wall. The cellular structure is a manifestation of the dominance of complex eigensolutions to the homogeneous problem and arises as the result of nonlinear forcing associated with an inertial correction to the Stokes flow.",

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AU - Hills, C. P.

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N2 - The flow generated in a viscous liquid contained in a cylindrical geometry by a rotating end wall is considered. Recent numerical and experimental work has established several distinct phases of the motion when fluid inertia plays a significant role. The current paper, however, establishes the nature of the flow in the thus far neglected low Reynolds number regime. Explicitly, by employing biorthogonality relations appropriate to the current geometry, it is shown that a sequence of exponentially decaying eddies extends outward from the rotating end wall. The cellular structure is a manifestation of the dominance of complex eigensolutions to the homogeneous problem and arises as the result of nonlinear forcing associated with an inertial correction to the Stokes flow.

AB - The flow generated in a viscous liquid contained in a cylindrical geometry by a rotating end wall is considered. Recent numerical and experimental work has established several distinct phases of the motion when fluid inertia plays a significant role. The current paper, however, establishes the nature of the flow in the thus far neglected low Reynolds number regime. Explicitly, by employing biorthogonality relations appropriate to the current geometry, it is shown that a sequence of exponentially decaying eddies extends outward from the rotating end wall. The cellular structure is a manifestation of the dominance of complex eigensolutions to the homogeneous problem and arises as the result of nonlinear forcing associated with an inertial correction to the Stokes flow.

KW - viscous liquid

KW - cylindrical geometry

KW - rotating end wall

KW - low Reynolds number regime

KW - biorthogonality relations

KW - exponentially decaying eddies

KW - complex eigensolutions

KW - nonlinear forcing

KW - Stokes flow

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DO - 10.1063/1.1384470

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SN - 1070-6631

VL - 13

SP - 2279

EP - 2286

JO - Physics of Fluids

JF - Physics of Fluids

IS - 8

ER -

Eddies induced in cylindrical containers by a rotating end wall

Abstract

Keywords

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