Calculation of Turbulent Wall Jets With an Algebraic Reynolds Stress Model

M. Ljuboja; W. Rodi

Source: Journal of Fluids Engineering:;1980:;volume( 102 ):;issue: 003::page 350

Author:

M. Ljuboja

W. Rodi

DOI: 10.1115/1.3240693

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A modified version of the k-ε turbulence model is developed which predicts well the main features of turbulent wall jets. The model relates the turbulent shear stress to the mean velocity gradient, the turbulent kinetic energy k, and the dissipation rate ε by way of the Kolmogorov-Prandtl eddy viscosity relation and determines k and ε from transport equations. The empirical constant in the Kolmogorov-Prandtl relation is replaced by a function which is derived by reducing a model form of the Reynolds stress transport equations to algebraic expressions, retaining the wall damping correction to the pressure-strain model used in these equations. The modified k-ε model is applied to a wall jet in stagnant surroundings as well as to a wall jet in a moving stream, and the predictions are compared with experimental data. The agreement is good with respect to most features of these flows.

keyword(s): Turbulence , Stress , Jets , Equations , Gradients , Damping , Energy dissipation , Shear (Mechanics) , Pressure , Flow (Dynamics) , Eddies (Fluid dynamics) , Viscosity AND Kinetic energy ,

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Calculation of Turbulent Wall Jets With an Algebraic Reynolds Stress Model

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contributor author	M. Ljuboja
contributor author	W. Rodi
date accessioned	2017-05-08T23:09:03Z
date available	2017-05-08T23:09:03Z
date copyright	September, 1980
date issued	1980
identifier issn	0098-2202
identifier other	JFEGA4-26962#350_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/93468
description abstract	A modified version of the k-ε turbulence model is developed which predicts well the main features of turbulent wall jets. The model relates the turbulent shear stress to the mean velocity gradient, the turbulent kinetic energy k, and the dissipation rate ε by way of the Kolmogorov-Prandtl eddy viscosity relation and determines k and ε from transport equations. The empirical constant in the Kolmogorov-Prandtl relation is replaced by a function which is derived by reducing a model form of the Reynolds stress transport equations to algebraic expressions, retaining the wall damping correction to the pressure-strain model used in these equations. The modified k-ε model is applied to a wall jet in stagnant surroundings as well as to a wall jet in a moving stream, and the predictions are compared with experimental data. The agreement is good with respect to most features of these flows.
publisher	The American Society of Mechanical Engineers (ASME)
title	Calculation of Turbulent Wall Jets With an Algebraic Reynolds Stress Model
type	Journal Paper
journal volume	102
journal issue	3
journal title	Journal of Fluids Engineering
identifier doi	10.1115/1.3240693
journal fristpage	350
journal lastpage	356
identifier eissn	1528-901X
keywords	Turbulence
keywords	Stress
keywords	Jets
keywords	Equations
keywords	Gradients
keywords	Damping
keywords	Energy dissipation
keywords	Shear (Mechanics)
keywords	Pressure
keywords	Flow (Dynamics)
keywords	Eddies (Fluid dynamics)
keywords	Viscosity AND Kinetic energy
tree	Journal of Fluids Engineering:;1980:;volume( 102 ):;issue: 003
contenttype	Fulltext

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