Resonant Interactions of Dean Vortices in a Curved Channel Flow

Jiro Mizushima; Shinichiro Yanase; Taku Yoshizawa

doi:10.1143/JPSJ.67.130

Resonant Interactions of Dean Vortices in a Curved Channel Flow

Jiro Mizushima, Shinichiro Yanase, Taku Yoshizawa

Graduate School of Natural Science and Technology

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

2 Citations (Scopus)

Abstract

Stability of the flow in a curved channel is investigated with the Dean approximation by using the weakly nonlinear stability theory. A set of amplitude equations lor the Dean vortices of wavenumber ratio 1:2 is derived. The amplitude equations describe the resonant interactions between the fundamental mode and the higher harmonic. The equilibrium amplitudes of the Dean vortices are evaluated from the set of amplitude equations numerically. It is concluded that the phenomena of the coalescence of two vortices and the splitting of one large vortex into two are explained from the 1:2 resonance.

Original language	English
Pages (from-to)	130-139
Number of pages	10
Journal	journal of the physical society of japan
Volume	67
Issue number	1
DOIs	https://doi.org/10.1143/JPSJ.67.130
Publication status	Published - Jan 1998

Keywords

Curved channel
Dean flow
Dean vortex
Resonant interaction
Stability
Transition

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1143/JPSJ.67.130

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abstract = "Stability of the flow in a curved channel is investigated with the Dean approximation by using the weakly nonlinear stability theory. A set of amplitude equations lor the Dean vortices of wavenumber ratio 1:2 is derived. The amplitude equations describe the resonant interactions between the fundamental mode and the higher harmonic. The equilibrium amplitudes of the Dean vortices are evaluated from the set of amplitude equations numerically. It is concluded that the phenomena of the coalescence of two vortices and the splitting of one large vortex into two are explained from the 1:2 resonance.",

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AU - Yanase, Shinichiro

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N2 - Stability of the flow in a curved channel is investigated with the Dean approximation by using the weakly nonlinear stability theory. A set of amplitude equations lor the Dean vortices of wavenumber ratio 1:2 is derived. The amplitude equations describe the resonant interactions between the fundamental mode and the higher harmonic. The equilibrium amplitudes of the Dean vortices are evaluated from the set of amplitude equations numerically. It is concluded that the phenomena of the coalescence of two vortices and the splitting of one large vortex into two are explained from the 1:2 resonance.

AB - Stability of the flow in a curved channel is investigated with the Dean approximation by using the weakly nonlinear stability theory. A set of amplitude equations lor the Dean vortices of wavenumber ratio 1:2 is derived. The amplitude equations describe the resonant interactions between the fundamental mode and the higher harmonic. The equilibrium amplitudes of the Dean vortices are evaluated from the set of amplitude equations numerically. It is concluded that the phenomena of the coalescence of two vortices and the splitting of one large vortex into two are explained from the 1:2 resonance.

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KW - Dean vortex

KW - Resonant interaction

KW - Stability

KW - Transition

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Resonant Interactions of Dean Vortices in a Curved Channel Flow

Abstract

Keywords

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