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On the pressure induced by the boundary layer on a flat plate in shear flow

Published online by Cambridge University Press:  28 March 2006

Alar Toomre
Affiliation:
Department of Mathematics, Massachusetts Institute of Technology
Nicholas Rott
Affiliation:
Department of Engineering, University of California at Los Angeles

Abstract

The problem solved is that of the interaction between a laminar boundary layer on a semi-infinite flat plate and an oncoming shear flow of finite lateral dimensions bounded by uniform irrotational flow extending to infinity. The pressures along the plate and upstream of the same are deduced (to a linearized approximation) in the form of a Fourier integral based on the solution of a simpler periodic flow problem. It is found that while the assumption of an infinite, uniform shear flow gives asymptotically correct interaction pressure gradients on the plate near the leading edge, the pressure level even there (compared to upstream infinity) is strongly influenced by the boundedness of the external shear. At distances from the leading edge which are large compared to the lateral extent of the shear flow, the pressure gradients along the plate are shown to be vanishingly smaller than in the infinite shear case.

Type
Research Article
Copyright
© 1964 Cambridge University Press

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References

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