Rotordynamic Forces Due to Turbine Tip Leakage: Part II—Radius Scale Effects and Experimental Verification

S. J. Song; M. Martinez-Sanchez

Source: Journal of Turbomachinery:;1997:;volume( 119 ):;issue: 004::page 704

Author:

S. J. Song

M. Martinez-Sanchez

DOI: 10.1115/1.2841180

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: This paper presents a radius scale actuator disk model, which describes the flow response to a whirling/spinning rotor in an unshrouded turbine. At each azimuth, the upstream-downstream flow variables are matched by the results from a steady blade scale analysis presented in a companion paper, with allowance for mass storage in the stator-rotor region. The new model can accurately predict the magnitude of both direct and cross excitation forces as well as their breakdown into work extraction and pressure effects. The trends versus the mean flow coefficient and interblade distance are predicted. While underpredicted, a trend versus mean rotor tip clearance height is also indicated. Thus, the new model captures the dominant physical effects caused by a whirling/spinning rotor in an unshrouded turbine.

keyword(s): Turbines , Force , Leakage , Rotors , Flow (Dynamics) , Spin (Aerodynamics) , Clearances (Engineering) , Whirls , Pressure , Actuators , Disks , Blades , Stators AND Storage ,

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Rotordynamic Forces Due to Turbine Tip Leakage: Part II—Radius Scale Effects and Experimental Verification

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contributor author	S. J. Song
contributor author	M. Martinez-Sanchez
date accessioned	2017-05-08T23:55:01Z
date available	2017-05-08T23:55:01Z
date copyright	October, 1997
date issued	1997
identifier issn	0889-504X
identifier other	JOTUEI-28663#704_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/119564
description abstract	This paper presents a radius scale actuator disk model, which describes the flow response to a whirling/spinning rotor in an unshrouded turbine. At each azimuth, the upstream-downstream flow variables are matched by the results from a steady blade scale analysis presented in a companion paper, with allowance for mass storage in the stator-rotor region. The new model can accurately predict the magnitude of both direct and cross excitation forces as well as their breakdown into work extraction and pressure effects. The trends versus the mean flow coefficient and interblade distance are predicted. While underpredicted, a trend versus mean rotor tip clearance height is also indicated. Thus, the new model captures the dominant physical effects caused by a whirling/spinning rotor in an unshrouded turbine.
publisher	The American Society of Mechanical Engineers (ASME)
title	Rotordynamic Forces Due to Turbine Tip Leakage: Part II—Radius Scale Effects and Experimental Verification
type	Journal Paper
journal volume	119
journal issue	4
journal title	Journal of Turbomachinery
identifier doi	10.1115/1.2841180
journal fristpage	704
journal lastpage	713
identifier eissn	1528-8900
keywords	Turbines
keywords	Force
keywords	Leakage
keywords	Rotors
keywords	Flow (Dynamics)
keywords	Spin (Aerodynamics)
keywords	Clearances (Engineering)
keywords	Whirls
keywords	Pressure
keywords	Actuators
keywords	Disks
keywords	Blades
keywords	Stators AND Storage
tree	Journal of Turbomachinery:;1997:;volume( 119 ):;issue: 004
contenttype	Fulltext

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