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contributor authorR. J. Volino
date accessioned2017-05-08T23:58:11Z
date available2017-05-08T23:58:11Z
date copyrightJuly, 1998
date issued1998
identifier issn0889-504X
identifier otherJOTUEI-28666#613_1.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/121318
description abstractA model has been developed to incorporate more of the physics of free-stream turbulence effects into boundary layer calculations. The transport in the boundary layer is modeled using three terms: (1) the molecular viscosity, ν; (2) the turbulent eddy viscosity, εT, as used in existing turbulence models; and (3) a new free-stream-induced eddy viscosity, εf. The three terms are added to give an effective total viscosity. The free-stream-induced viscosity is modeled algebraically with guidance from experimental data. It scales on the rms fluctuating velocity in the free stream, the distance from the wall, and the boundary layer thickness. The model assumes a direct tie between boundary layer and free-stream fluctuations, and a distinctly different mechanism than the diffusion of turbulence from the free-stream to the boundary layer assumed in existing higher order turbulence models. The new model can be used in combination with any existing turbulence model. It is tested here in conjunction with a simple mixing length model and a parabolic boundary layer solver. Comparisons to experimental data are presented for flows with free-stream turbulence intensities ranging from 1 to 8 percent and for both zero and nonzero streamwise pressure gradient cases. Comparisons are good. Enhanced heat transfer in higher turbulence cases is correctly predicted. The effect of the free-stream turbulence on mean velocity and temperature profiles is also well predicted. In turbulent flow, the log region in the inner part of the boundary layer is preserved, while the wake is suppressed. The new model provides a simple and effective improvement for boundary layer prediction.
publisherThe American Society of Mechanical Engineers (ASME)
titleA New Model for Free-Stream Turbulence Effects on Boundary Layers
typeJournal Paper
journal volume120
journal issue3
journal titleJournal of Turbomachinery
identifier doi10.1115/1.2841760
journal fristpage613
journal lastpage620
identifier eissn1528-8900
keywordsTurbulence
keywordsBoundary layers
keywordsViscosity
keywordsEddies (Fluid dynamics)
keywordsFluctuations (Physics)
keywordsWakes
keywordsPhysics
keywordsFlow (Dynamics)
keywordsDiffusion (Physics)
keywordsHeat transfer
keywordsPressure gradient
keywordsTemperature profiles
keywordsThickness AND Mechanisms
treeJournal of Turbomachinery:;1998:;volume( 120 ):;issue: 003
contenttypeFulltext


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