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VELOCITY AND SHEAR STRESS IN WAVE BOUNDARY LAYERS
Author(s) -
Paul G. Teleki
Publication year - 1972
Publication title -
proceedings of conference on coastal engineering/proceedings of ... conference on coastal engineering
Language(s) - English
Resource type - Journals
eISSN - 2156-1028
pISSN - 0589-087X
DOI - 10.9753/icce.v13.28
Subject(s) - laminar flow , mechanics , shear stress , boundary layer , shear velocity , shear flow , boundary value problem , critical resolved shear stress , boundary layer thickness , mathematics , physics , mathematical analysis , classical mechanics , geometry , shear rate , thermodynamics , turbulence , viscosity
The critical force for the entrainment of sediment on the ocean floor is the maximum, instantaneous shear force. A numerical estimate for the stress is made from the third approximation of a second order boundary layer theory for oscillating laminar flow. The analytical derivation satisfies both the case of flow in an oscillating water tunnel and the case of a progressive (Airy) wave, where the shear distribution depends on the form of the velocity distribution in the boundary layer. Solution for the velocity is on the basis of iteration in an infinite series, where the convective terms are numerically evaluated from lower order solutions. For the boundary shear, the phase lead is found to be less than predicted by linear theory, and although the correction at the third approximation is small compared to lower approximations, the modified vertical distribution provides a basis for the correction of shear measurements, obtained by indirect means, to the boundary value.

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