Effect of bottom topography, eddy diffusivity, and wind variation on circulation in a two-layer stratified lake.
Series: NASA technical note ; D-7235Washington, D.C. : National Aeronautics and Space Administration, 1973Description: iii, 44 pages : illustrations ; 27 cmContent type:- text
- unmediated
- volume
- TL521 .N38 tn no.7235
Item type | Current library | Call number | Copy number | Status | Date due | Barcode | Item holds | |
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NCAR Library Mesa Lab | 13690 | 1 | Available | 50583010201949 |
Cover title. "March 1973."
The steady-state, wind-driven circulation is calculated in a stratified lake composed of two layers having uniform but unequal densities and eddy diffusivities. The position of the thermocline and the velocities in both layers are calculated from an asymptotic solution of the shallow lake equations when the Ekman number in the epilimnion (upper layer) is of order one but the ratio of hypolimnion (lower layer) to epilimnion eddy diffusivities is much less than one. Large differences in the thermocline shape and the velocities occur between the solution for uniform wind stress and the one for unit order wind stress gradients. For the latter solution the hypolimnion eddy diffusivity magnitude and the bottom topography have a large and important effect.