Self-Excited Oscillation of Transonic Flow Around an Airfoil in Two-Dimensional Channels

K. Yamamoto; Y. Tanida

Source: Journal of Turbomachinery:;1990:;volume( 112 ):;issue: 004::page 723

Author:

K. Yamamoto

Y. Tanida

DOI: 10.1115/1.2927715

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A self-excited oscillation of transonic flow in a simplified cascade model was investigated experimentally, theoretically and numerically. The measurements of the shock wave and wake motions, and the unsteady static pressure field predict a closed-loop mechanism, in which the pressure disturbance that is generated by the oscillation of boundary layer separation propagates upstream in the main flow and forces the shock wave to oscillate, and then the shock oscillation disturbs the boundary layer separation again. A one-dimensional analysis confirms that the self-excited oscillation occurs in the proposed mechanism. Finally, a numerical simulation of the Navier–Stokes equations reveals the unsteady flow structure of the reversed flow region around the trailing edge, which induces the large flow separation to bring about the antiphase oscillation.

keyword(s): Oscillations , Channels (Hydraulic engineering) , Transonic flow , Airfoils , Mechanisms , Boundary layers , Shock waves , Pressure , Flow (Dynamics) , Separation (Technology) , Force , Measurement , Motion , Computer simulation , Cascades (Fluid dynamics) , Wakes , Shock (Mechanics) , Navier-Stokes equations , Flow separation AND Unsteady flow ,

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Self-Excited Oscillation of Transonic Flow Around an Airfoil in Two-Dimensional Channels

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contributor author	K. Yamamoto
contributor author	Y. Tanida
date accessioned	2017-05-08T23:34:01Z
date available	2017-05-08T23:34:01Z
date copyright	October, 1990
date issued	1990
identifier issn	0889-504X
identifier other	JOTUEI-28606#723_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/107698
description abstract	A self-excited oscillation of transonic flow in a simplified cascade model was investigated experimentally, theoretically and numerically. The measurements of the shock wave and wake motions, and the unsteady static pressure field predict a closed-loop mechanism, in which the pressure disturbance that is generated by the oscillation of boundary layer separation propagates upstream in the main flow and forces the shock wave to oscillate, and then the shock oscillation disturbs the boundary layer separation again. A one-dimensional analysis confirms that the self-excited oscillation occurs in the proposed mechanism. Finally, a numerical simulation of the Navier–Stokes equations reveals the unsteady flow structure of the reversed flow region around the trailing edge, which induces the large flow separation to bring about the antiphase oscillation.
publisher	The American Society of Mechanical Engineers (ASME)
title	Self-Excited Oscillation of Transonic Flow Around an Airfoil in Two-Dimensional Channels
type	Journal Paper
journal volume	112
journal issue	4
journal title	Journal of Turbomachinery
identifier doi	10.1115/1.2927715
journal fristpage	723
journal lastpage	731
identifier eissn	1528-8900
keywords	Oscillations
keywords	Channels (Hydraulic engineering)
keywords	Transonic flow
keywords	Airfoils
keywords	Mechanisms
keywords	Boundary layers
keywords	Shock waves
keywords	Pressure
keywords	Flow (Dynamics)
keywords	Separation (Technology)
keywords	Force
keywords	Measurement
keywords	Motion
keywords	Computer simulation
keywords	Cascades (Fluid dynamics)
keywords	Wakes
keywords	Shock (Mechanics)
keywords	Navier-Stokes equations
keywords	Flow separation AND Unsteady flow
tree	Journal of Turbomachinery:;1990:;volume( 112 ):;issue: 004
contenttype	Fulltext

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