Application of the k-ε Turbulence Model to the Squeeze Film Damper

Chiao-Ping Ku; John A. Tichy

Source: Journal of Tribology:;1987:;volume( 109 ):;issue: 001::page 164

Author:

Chiao-Ping Ku

John A. Tichy

DOI: 10.1115/1.3261311

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The one-dimensional squeeze film damper is modeled for high speed flow by using the two-equation (k-ε) turbulent transport model. The assumption is made that the fluid flow at each local region of the squeeze film damper has similar behavior to inertialess flow in a channel at comparable Reynolds number. Using the k-ε model, the inertialess channel flow case is solved. Based on this result, correlations are obtained for the mean velocity, inertia and viscous terms of the integrated momentum equation for the squeeze film damper. It is found that turbulence increases the magnitude of the fluid pressure and the tangential force, while fluid inertia causes a shift on the pressure creating a significant radial force. In applications, turbulence may be a beneficial effect, increasing the principal damping force; while inertia may be detrimental increasing the cross-coupling forces.

keyword(s): Turbulence , Dampers , Force , Inertia (Mechanics) , Equations , Flow (Dynamics) , Fluids , Channels (Hydraulic engineering) , Reynolds number , Channel flow , Pressure , Momentum , Fluid pressure , Fluid dynamics AND Damping ,

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Application of the k-ε Turbulence Model to the Squeeze Film Damper

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contributor author	Chiao-Ping Ku
contributor author	John A. Tichy
date accessioned	2017-05-08T23:25:57Z
date available	2017-05-08T23:25:57Z
date copyright	January, 1987
date issued	1987
identifier issn	0742-4787
identifier other	JOTRE9-28461#164_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/103175
description abstract	The one-dimensional squeeze film damper is modeled for high speed flow by using the two-equation (k-ε) turbulent transport model. The assumption is made that the fluid flow at each local region of the squeeze film damper has similar behavior to inertialess flow in a channel at comparable Reynolds number. Using the k-ε model, the inertialess channel flow case is solved. Based on this result, correlations are obtained for the mean velocity, inertia and viscous terms of the integrated momentum equation for the squeeze film damper. It is found that turbulence increases the magnitude of the fluid pressure and the tangential force, while fluid inertia causes a shift on the pressure creating a significant radial force. In applications, turbulence may be a beneficial effect, increasing the principal damping force; while inertia may be detrimental increasing the cross-coupling forces.
publisher	The American Society of Mechanical Engineers (ASME)
title	Application of the k-ε Turbulence Model to the Squeeze Film Damper
type	Journal Paper
journal volume	109
journal issue	1
journal title	Journal of Tribology
identifier doi	10.1115/1.3261311
journal fristpage	164
journal lastpage	168
identifier eissn	1528-8897
keywords	Turbulence
keywords	Dampers
keywords	Force
keywords	Inertia (Mechanics)
keywords	Equations
keywords	Flow (Dynamics)
keywords	Fluids
keywords	Channels (Hydraulic engineering)
keywords	Reynolds number
keywords	Channel flow
keywords	Pressure
keywords	Momentum
keywords	Fluid pressure
keywords	Fluid dynamics AND Damping
tree	Journal of Tribology:;1987:;volume( 109 ):;issue: 001
contenttype	Fulltext

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