Modeling of Laminar-Turbulent Transition for High Freestream Turbulence-Reference-Cited by-同舟云学术

Modeling of Laminar-Turbulent Transition for High Freestream Turbulence

Published:2000-10-13 Issue:1 Volume:123 Page:22-30
ISSN:0098-2202
Container-title:Journal of Fluids Engineering
language:en
Short-container-title:

Author:

Steelant J.¹,Dick E.²

Affiliation:

1. European Space Research and Technology Centre, Aerothermodynamics Section, Noordwijk, The Netherlands

2. Department of Flow, Heat and Combustion, University of Gent, Gent, Belgium

Abstract

To simulate transitional skin friction or heat transfer, the conditionally averaged Navier-Stokes equations are used. To describe the diffusion of freestream turbulence into the boundary layer and the intermittent laminar-turbulent flow behavior during transition, a turbulence weighting factor τ is used. A transport equation is presented for this τ-factor including convection, diffusion, production, and sink terms. In combination with the conditioned Navier-Stokes equations, this leads to an accurate calculation of flow characteristics within the transitional layer. The method is validated on transitional skin friction and heat transfer measurements, respectively on a flat plate and in a linear turbine cascade.

Publisher

ASME International

Subject

Mechanical Engineering

Link

http://asmedigitalcollection.asme.org/fluidsengineering/article-pdf/123/1/22/5738215/22_1.pdf

Reference20 articles.

1. Mayle, R. E., and Schulz, A., 1997, “The Path to Predicting Bypass Transition,” ASME J. Turbomach., 119, pp. 405–411.

2. Gostelow, J. P., and Blunden, A. R., 1989, “Investigations of Boundary Layer Transition in an Adverse Pressure Gradient,” ASME J. Turbomach., 111, pp. 366–375.

3. Steelant, J., and Dick, E., 1996, “Modelling of Bypass Transition with Conditioned Navier-Stokes Equations coupled to an Intermittency Equation,” Int. J. Numer. Methods Fluids, 23, pp. 193–220.

4. Steelant, J., and Dick, E., 1996, “Calculation of Transition in Adverse Pressure Gradient Flow by Conditioned Equations,” ASME 96-GT-160.

5. Cho, R., and Chung, M. K., 1992, “A k-ε-γ equation turbulence model,” J. Fluid Mech., 237, pp. 301–322.

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