Prediction of Flutter of Turbine Blades in a Transonic Annular Cascade

Ivan McBean; Kerry Hourigan; Feng Liu; Mark Thompson

Source: Journal of Fluids Engineering:;2005:;volume( 127 ):;issue: 006::page 1053

Author:

DOI: 10.1115/1.2060731

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A parallel multiblock Navier-Stokes solver with the k‐ω turbulence model is used to solve the unsteady flow through an annular turbine cascade, the transonic Standard Test Case 4, Test 628. Computations are performed on a two- and three-dimensional model of the blade row with either the Euler or the Navier-Stokes flow models. Results are compared to the experimental measurements. Comparisons of the unsteady surface pressure and the aerodynamic damping are made between the three-dimensional, two-dimensional, inviscid, viscous simulations, and experimental data. Differences are found between the stability predictions by the two- and three-dimensional computations, and the Euler and Navier-Stokes computations due to three-dimensionality of the cascade model and the presence of a boundary layer separation, respectively.

keyword(s): Pressure , Flow (Dynamics) , Cascades (Fluid dynamics) , Flutter (Aerodynamics) , Engineering simulation , Blades , Damping , Turbine blades , Shock (Mechanics) , Suction , Separation (Technology) AND Chords (Trusses) ,

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Prediction of Flutter of Turbine Blades in a Transonic Annular Cascade

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contributor author	Ivan McBean
contributor author	Kerry Hourigan
contributor author	Feng Liu
contributor author	Mark Thompson
date accessioned	2017-05-09T00:16:23Z
date available	2017-05-09T00:16:23Z
date copyright	November, 2005
date issued	2005
identifier issn	0098-2202
identifier other	JFEGA4-27213#1053_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/131917
description abstract	A parallel multiblock Navier-Stokes solver with the k‐ω turbulence model is used to solve the unsteady flow through an annular turbine cascade, the transonic Standard Test Case 4, Test 628. Computations are performed on a two- and three-dimensional model of the blade row with either the Euler or the Navier-Stokes flow models. Results are compared to the experimental measurements. Comparisons of the unsteady surface pressure and the aerodynamic damping are made between the three-dimensional, two-dimensional, inviscid, viscous simulations, and experimental data. Differences are found between the stability predictions by the two- and three-dimensional computations, and the Euler and Navier-Stokes computations due to three-dimensionality of the cascade model and the presence of a boundary layer separation, respectively.
publisher	The American Society of Mechanical Engineers (ASME)
title	Prediction of Flutter of Turbine Blades in a Transonic Annular Cascade
type	Journal Paper
journal volume	127
journal issue	6
journal title	Journal of Fluids Engineering
identifier doi	10.1115/1.2060731
journal fristpage	1053
journal lastpage	1058
identifier eissn	1528-901X
keywords	Pressure
keywords	Flow (Dynamics)
keywords	Cascades (Fluid dynamics)
keywords	Flutter (Aerodynamics)
keywords	Engineering simulation
keywords	Blades
keywords	Damping
keywords	Turbine blades
keywords	Shock (Mechanics)
keywords	Suction
keywords	Separation (Technology) AND Chords (Trusses)
tree	Journal of Fluids Engineering:;2005:;volume( 127 ):;issue: 006
contenttype	Fulltext

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