Numerical Analysis of Turbulent Flow Along an Abruptly Rotated Cylinder

F. Aguilar; F. J. Pierce

Source: Journal of Fluids Engineering:;1979:;volume( 101 ):;issue: 002::page 251

Author:

F. Aguilar

F. J. Pierce

DOI: 10.1115/1.3448947

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A parabolic system of equations governing turbulent, incompressible fluid motion along a stationary cylinder fitted with a rotating aft-section is solved with an implicit finite-difference algorithm. The mean flow is steady, axisymmetric, and characterized by abrupt skewing of the boundary layer. The equations of mean motion are closed with an eddy viscosity model based on Cebeci’s axisymmetric formulation. The analysis is compared with the experimental results of Bissonnette and Mellor, who have obtained data for ratios of cylinder wall speed to free-stream speed equal to 0.936 and 1.800. Predicted components of wall shear stress agree with the experimental values within the uncertainty associated with the experiment, and early boundary-layer development is predicted reasonably well. However, the analysis fails to predict the experimentally observed acceleration of the mean, axial flow.

keyword(s): Turbulence , Numerical analysis , Cylinders , Equations , Boundary layers , Motion , Flow (Dynamics) , Axial flow , Eddies (Fluid dynamics) , Viscosity , Stress , Shear (Mechanics) , Algorithms , Incompressible fluids AND Uncertainty ,

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Numerical Analysis of Turbulent Flow Along an Abruptly Rotated Cylinder

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contributor author	F. Aguilar
contributor author	F. J. Pierce
date accessioned	2017-05-08T23:07:04Z
date available	2017-05-08T23:07:04Z
date copyright	June, 1979
date issued	1979
identifier issn	0098-2202
identifier other	JFEGA4-26944#251_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/92321
description abstract	A parabolic system of equations governing turbulent, incompressible fluid motion along a stationary cylinder fitted with a rotating aft-section is solved with an implicit finite-difference algorithm. The mean flow is steady, axisymmetric, and characterized by abrupt skewing of the boundary layer. The equations of mean motion are closed with an eddy viscosity model based on Cebeci’s axisymmetric formulation. The analysis is compared with the experimental results of Bissonnette and Mellor, who have obtained data for ratios of cylinder wall speed to free-stream speed equal to 0.936 and 1.800. Predicted components of wall shear stress agree with the experimental values within the uncertainty associated with the experiment, and early boundary-layer development is predicted reasonably well. However, the analysis fails to predict the experimentally observed acceleration of the mean, axial flow.
publisher	The American Society of Mechanical Engineers (ASME)
title	Numerical Analysis of Turbulent Flow Along an Abruptly Rotated Cylinder
type	Journal Paper
journal volume	101
journal issue	2
journal title	Journal of Fluids Engineering
identifier doi	10.1115/1.3448947
journal fristpage	251
journal lastpage	258
identifier eissn	1528-901X
keywords	Turbulence
keywords	Numerical analysis
keywords	Cylinders
keywords	Equations
keywords	Boundary layers
keywords	Motion
keywords	Flow (Dynamics)
keywords	Axial flow
keywords	Eddies (Fluid dynamics)
keywords	Viscosity
keywords	Stress
keywords	Shear (Mechanics)
keywords	Algorithms
keywords	Incompressible fluids AND Uncertainty
tree	Journal of Fluids Engineering:;1979:;volume( 101 ):;issue: 002
contenttype	Fulltext

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