Prediction of Heat Transfer in a Rotating Cavity With a Radial Outflow

C. L. Ong; J. M. Owen

Source: Journal of Turbomachinery:;1991:;volume( 113 ):;issue: 001::page 115

Author:

C. L. Ong

J. M. Owen

DOI: 10.1115/1.2927729

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: Solutions of the differential boundary-layer equations, using the Keller-box scheme and the Cebeci-Smith eddy-viscosity model for turbulent flow, have been used to predict the Nusselt numbers on the disks of a heated rotating cavity with a radial outflow of cooling air. Computed Nusselt numbers were in satisfactory agreement with analytical solutions of the elliptic equations for laminar flow and with solutions of the integral equations for turbulent flow. For a wide range of flow rates, rotational speeds, and disk-temperature profiles, the computed Nusselt numbers were in mainly good agreement with measurements obtained from an air-cooled rotating cavity. It is concluded that the boundary-layer equations should provide solutions accurate enough for application to air-cooled gas turbine disks.

keyword(s): Heat transfer , Cavities , Outflow , Disks , Equations , Boundary layers , Turbulence , Eddies (Fluid dynamics) , Viscosity , Laminar flow , Cooling , Measurement , Flow (Dynamics) , Temperature , Gas turbines AND Integral equations ,

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Prediction of Heat Transfer in a Rotating Cavity With a Radial Outflow

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Journal of Turbomachinery

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contributor author	C. L. Ong
contributor author	J. M. Owen
date accessioned	2017-05-08T23:37:03Z
date available	2017-05-08T23:37:03Z
date copyright	January, 1991
date issued	1991
identifier issn	0889-504X
identifier other	JOTUEI-28608#115_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/109453
description abstract	Solutions of the differential boundary-layer equations, using the Keller-box scheme and the Cebeci-Smith eddy-viscosity model for turbulent flow, have been used to predict the Nusselt numbers on the disks of a heated rotating cavity with a radial outflow of cooling air. Computed Nusselt numbers were in satisfactory agreement with analytical solutions of the elliptic equations for laminar flow and with solutions of the integral equations for turbulent flow. For a wide range of flow rates, rotational speeds, and disk-temperature profiles, the computed Nusselt numbers were in mainly good agreement with measurements obtained from an air-cooled rotating cavity. It is concluded that the boundary-layer equations should provide solutions accurate enough for application to air-cooled gas turbine disks.
publisher	The American Society of Mechanical Engineers (ASME)
title	Prediction of Heat Transfer in a Rotating Cavity With a Radial Outflow
type	Journal Paper
journal volume	113
journal issue	1
journal title	Journal of Turbomachinery
identifier doi	10.1115/1.2927729
journal fristpage	115
journal lastpage	122
identifier eissn	1528-8900
keywords	Heat transfer
keywords	Cavities
keywords	Outflow
keywords	Disks
keywords	Equations
keywords	Boundary layers
keywords	Turbulence
keywords	Eddies (Fluid dynamics)
keywords	Viscosity
keywords	Laminar flow
keywords	Cooling
keywords	Measurement
keywords	Flow (Dynamics)
keywords	Temperature
keywords	Gas turbines AND Integral equations
tree	Journal of Turbomachinery:;1991:;volume( 113 ):;issue: 001
contenttype	Fulltext

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