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Top-to-bottom Ekman layer and its implications for shallow rotating flows
Cushman-Roisin, B.; Deleersnijder, E. (2019). Top-to-bottom Ekman layer and its implications for shallow rotating flows. Environ. Fluid Mech. 19(5): 1105-1119. https://dx.doi.org/10.1007/s10652-018-9611-y
In: Environmental Fluid Mechanics. Springer: London; Dordrecht; Boston. ISSN 1567-7419; e-ISSN 1573-1510, more
Peer reviewed article  

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Keyword
    Marine/Coastal
Author keywords
    Coriolis force; Ekman layer; Ekman pumping; Shallow water;Two-dimensional modeling

Authors  Top 
  • Cushman-Roisin, B.
  • Deleersnijder, E., more

Abstract
    The analytical solution is derived for rotational frictional flow in a shallow layer of fluid in which the top and bottom Ekman layers join without leaving a frictionless interior. This vertical structure has significant implications for the horizontal flow. In particular, for a layer of water subjected to both a surface wind stress and bottom friction, the vorticity of the horizontal flow is a function not only of the curl of the wind stress (the classical result for deep water known as Ekman pumping) but also of its divergence. The importance of this divergence term peaks for a water depth around 3 times the Ekman layer thickness. This means that a curl-free but non-uniform wind stress on a shallow sea or lake can, through the dual action of rotation and friction, generate vorticity in the wind-driven currents. We also find that the reduction of three-dimensional dynamics to a two-dimensional model is more subtle than one could have anticipated and needs to be approached with utmost care. Taking the bottom stress as dependent solely on the depth-averaged flow, even with some veering, is not appropriate. The bottom stress ought to include a component proportional to the surface stress, which is negligible for large depths but increases with decreasing water depth.

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