Froude number dependence of the flow separation line on a sphere towed in a stratified fluid

J. M. Chomaz; P. Bonneton; A. Butet; M. Perrier; E. J. Hopfinger

doi:10.1063/1.858353

Froude number dependence of the flow separation line on a sphere towed in a stratified fluid

J. M. Chomaz
, P. Bonneton
, A. Butet
, M. Perrier
, E. J. Hopfinger

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper experimental results on the near field of the flow past a sphere in a linearly stratified medium are presented. Emphasis is placed on the variation of the flow separation line with internal Fraude number F = U/NR and also with Reynolds number Re = 2RU/v, where U and R are, respectively, the velocity and the radius of the sphere, N is the Brünt- Väisälä frequency (rad sec^-1), and v is the cinematic viscosity. It is shown that in the Reynolds number range 200 < Re < 30 000 the flow is primarily conditioned by the Froude number when F≤1. The condition F = 1 defines a resonance state between the sphere and the internal wave field. In this case the waves create a strong depression behind the sphere that keeps the flow from separating. When F < 0.8 the flow is two dimensional in a layer confined between the upper and the lower wave. When F > 1.5 the flow starts to recover its three-dimensionality.

Original language	English
Pages (from-to)	254-258
Number of pages	5
Journal	Physics of Fluids A
Volume	4
Issue number	2
DOIs	https://doi.org/10.1063/1.858353
Publication status	Published - 1 Jan 1992

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title = "Froude number dependence of the flow separation line on a sphere towed in a stratified fluid",

abstract = "In this paper experimental results on the near field of the flow past a sphere in a linearly stratified medium are presented. Emphasis is placed on the variation of the flow separation line with internal Fraude number F = U/NR and also with Reynolds number Re = 2RU/v, where U and R are, respectively, the velocity and the radius of the sphere, N is the Br{\"u}nt- V{\"a}is{\"a}l{\"a} frequency (rad sec-1), and v is the cinematic viscosity. It is shown that in the Reynolds number range 200 < Re < 30 000 the flow is primarily conditioned by the Froude number when F≤1. The condition F = 1 defines a resonance state between the sphere and the internal wave field. In this case the waves create a strong depression behind the sphere that keeps the flow from separating. When F < 0.8 the flow is two dimensional in a layer confined between the upper and the lower wave. When F > 1.5 the flow starts to recover its three-dimensionality.",

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year = "1992",

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T1 - Froude number dependence of the flow separation line on a sphere towed in a stratified fluid

AU - Chomaz, J. M.

AU - Bonneton, P.

AU - Butet, A.

AU - Perrier, M.

AU - Hopfinger, E. J.

PY - 1992/1/1

Y1 - 1992/1/1

N2 - In this paper experimental results on the near field of the flow past a sphere in a linearly stratified medium are presented. Emphasis is placed on the variation of the flow separation line with internal Fraude number F = U/NR and also with Reynolds number Re = 2RU/v, where U and R are, respectively, the velocity and the radius of the sphere, N is the Brünt- Väisälä frequency (rad sec-1), and v is the cinematic viscosity. It is shown that in the Reynolds number range 200 < Re < 30 000 the flow is primarily conditioned by the Froude number when F≤1. The condition F = 1 defines a resonance state between the sphere and the internal wave field. In this case the waves create a strong depression behind the sphere that keeps the flow from separating. When F < 0.8 the flow is two dimensional in a layer confined between the upper and the lower wave. When F > 1.5 the flow starts to recover its three-dimensionality.

AB - In this paper experimental results on the near field of the flow past a sphere in a linearly stratified medium are presented. Emphasis is placed on the variation of the flow separation line with internal Fraude number F = U/NR and also with Reynolds number Re = 2RU/v, where U and R are, respectively, the velocity and the radius of the sphere, N is the Brünt- Väisälä frequency (rad sec-1), and v is the cinematic viscosity. It is shown that in the Reynolds number range 200 < Re < 30 000 the flow is primarily conditioned by the Froude number when F≤1. The condition F = 1 defines a resonance state between the sphere and the internal wave field. In this case the waves create a strong depression behind the sphere that keeps the flow from separating. When F < 0.8 the flow is two dimensional in a layer confined between the upper and the lower wave. When F > 1.5 the flow starts to recover its three-dimensionality.

U2 - 10.1063/1.858353

DO - 10.1063/1.858353

M3 - Article

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SN - 0899-8213

VL - 4

SP - 254

EP - 258

JO - Physics of Fluids A

JF - Physics of Fluids A

IS - 2

ER -

Froude number dependence of the flow separation line on a sphere towed in a stratified fluid

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