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A Simple Device for Preventing Turbulent Contamination on Swept Leading Edges*

Published online by Cambridge University Press:  04 July 2016

M. Gaster*
Affiliation:
Notional Physical Laboratory, Formerly College of Aeronautics

Extract

On unswept wings, or wings with small amounts of sweep, the favourable pressure gradient round the leading edge, where the flow is rapidly accelerated away from the stagnation line, ensures a certain amount of laminar flow, provided the wing surface is sufficiently smooth. On highly swept wings, however, it has been found that turbulent flow can exist on the attachment line itself and there are therefore no naturally occurring regions of laminar flow. This trouble arises from the turbulence at the root of the wing, which sweeps along the attachment line. If the Reynolds number of this turbulent attachment line boundary layer is greater than some critical value, the whole attachment line boundary layer remains turbulent and the complete wing is contaminated. But if the Reynolds number is below the critical value, the turbulence decays along the leading edge and the boundary layer on the attachment line reverts back to the laminar state. This situation arises when the leading edge radius is small and the wing is only slightly swept. The attachment line boundary layer Reynolds number, Rθ, is given by the following equation:

Type
Technical Notes
Copyright
Copyright © Royal Aeronautical Society 1965

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Footnotes

*

British Patent Application No. 51305/64.

References

1.Gregory, N. Laminar Flow on a Swept Leading Edge. NPL Aero Memo No. 12, 1964.Google Scholar
2.Pfenninger, W. About Some Flow Problems in the Leading Edge Region of Swept Laminar Flow Wings. Northrop Norair BLC—160, 1964.Google Scholar