A MIXING LENGTH TREATMENT OF THE EFFECT OF TURBULENCE ON THE WIND GENERATION OF WATER WAVES.
Abstract
A theoretical study is made of the shearing flow over a sinusoidal boundary representing the interface between the ocean and the atmosphere, with the main purpose being to investigate the pressure distribution at the interface and to calculate the energy transfer between the two media. The theory is developed on a model of turbulent flow making use of Prandtl's mixing length theory to represent the shearing stress terms in the basic Navier-Stokes equations. A curvilinear coordinate system which follows the wave train is used in order to simplify the equations, and to allow for a linearized solution which requires only that the wave amplitude be small in comparison to the wave length. All parameters are non-dimensionalized and the analysis is made without restriction as to the type of velocity profile. Various velocity profiles are investigated and, in general, the phase relations between the pressure at the interface and wave elevation imply a situation which could allow an energy input from the air flow to the wave. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- May 01, 1966
- Accession Number
- AD0487811
Entities
People
- William Porter Danner
Organizations
- Naval Postgraduate School