The effects of a shear flow on lee waves

Michael Patterson, Stuart Dalziel, Colm Caulfield, Stéphane Le Brun

Research output: Contribution to conferencePaper

Abstract

We explore experimentally and theoretically the effects of a shear flow on lee waves that are generated by a stationary isolated three-dimensional obstacle in a low-Froude-number stratified flow. We observe that the uniform flow (beneath the shear layer) can be divided into two regions: an essentially two-dimensional flow around the base of the obstacle and a wave-generating flow over the top portion of the obstacle. The third region's structure is dependent on the sign of the shear, and is either a wave-free region above the critical height where the wave speed equals the local fluid speed or a region in which the waves are fully reflected. By separating the permanent waves produced into distinct categories, we compare detailed experimental measurements with theoretical predictions. Finally we examine the time-dependent establishment of the waves, including the transition from a uniform flow to a sheared flow.
Original languageEnglish
Publication statusIn preparation - 18 Nov 2012
Event65th Annual Meeting of the American Physical Society's Division of Fluid Dynamics - San Diego, USA United States
Duration: 18 Nov 201220 Nov 2012

Conference

Conference65th Annual Meeting of the American Physical Society's Division of Fluid Dynamics
CountryUSA United States
CitySan Diego
Period18/11/1220/11/12

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    Patterson, M., Dalziel, S., Caulfield, C., & Le Brun, S. (2012). The effects of a shear flow on lee waves. Paper presented at 65th Annual Meeting of the American Physical Society's Division of Fluid Dynamics, San Diego, USA United States.