Turbulent Boundary-layer Separation Induced by Flares on Cylinders at Zero Angle of Attack
Turbulent Boundary-layer Separation Induced by Flares on Cylinders at Zero Angle of Attack

Author: Donald M. Kuehn

Publisher:

Published: 1961

Total Pages: 36

ISBN-13:

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Separation caused by the pressure rise induced by flares has been experimentally investigated in the Mach number range of 1.5 to 5.0 and in the Reynolds number range (based on boundary-layer thickness) of 1.5X104 to 12X104. The purpose of the investigation was to determine the model geometry and flow conditions for which separation can be expected for a turbulent boundary layer of zero pressure gradient on the cylinder approaching the flare. Comparisons are made of the boundary-layer-separation characteristics of these three-dimensional flares with two-dimensional separation results from a previous investigation.

Laminar Boundary-layer Separation Induced by Flares on Cylinders at Zero Angle of Attack
Laminar Boundary-layer Separation Induced by Flares on Cylinders at Zero Angle of Attack

Author: Donald M. Kuehn

Publisher:

Published: 1962

Total Pages: 28

ISBN-13:

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Laminar boundary-layer separation induced by a flare on a cylindrical body of revolution has been experimentally investigated in the Mach number range of 2.0 to 5.5. The Reynolds number range (based on boundary-layer thickness) was 1x103 to 30x103. Geometric variables were nose shape, cylinder length, and flare angle. Test variables were Mach number, Reynolds number, and heat transfer. The purpose of the investigation was to determine which of these variables most influence laminar boundary-layer separation on a cylinder-flare configuration and to provide data that will aid in the prediction of laminar separation.