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Second Symposium on Turbulence and Shear Flow Phenomena
June, 27-29, 2001, KTH, Stockholm, Sweden

DOI: 10.1615/TSFP2

TRANSITION MECHANISM AND ITS CONTROL IN BOUNDARY LAYERS UNDER CENTRIFUGAL FORCES

pages 61-66
DOI: 10.1615/TSFP2.100
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RÉSUMÉ

Interaction of centrifugal and viscous forces results in developing streamwise vortices that represent an inherent feature of boundary-layer flows over concave surfaces. This very feature was analyzed to reveal most efficient ways to control such flows. Natural and forced evolution of the vortical structure was studied experimentally and numerically on a basis of the Goertler stability theory and receptivity approach. A gentle and flexible technique to generate and maintain streamwise vortices with a given scale was developed and tested for transitional and turbulent boundary layers. It was realized through the imposed boundary condition in a form of a z-regular surface temperature variation. Generated strictly according to basic flow parameters, the vortices were shown either to stabilize the flow situation (extending a stage of the laminar-turbulent transition) or to intensify mixing processes near a wall depending on their scales and growth rates.

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