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Modelling of turbulence over low hills and varying surface roughness

✍ Scribed by A. C. M. Beljaars; J. L. Walmsley; P. A. Taylor

Publisher
Springer
Year
1987
Tongue
English
Weight
716 KB
Volume
41
Category
Article
ISSN
0006-8314

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✦ Synopsis

Neutral surface layer flow over low hills and varying surface roughness is considered with emphasis on closure schemes in relation to the prediction of turbulence quantities. The equations are linearised, Fourier transformed in the two horizontal directions and solved by means of a finite difference method in the vertical. Three closure schemes are. employed, namely mixing length, E-E and E-E-T closure where E, E and T indicate that differential equations are used for turbulent kinetic energy, dissipation rate and shear stress.

Model calculations are compared with experimental data for the step in roughness problem and for the Askervein hill.

The mean flow results turn out to be relatively insensitive to the closure scheme. The shear stress and the dimensionless shear, however, are much better predicted with the E-E equations than with mixing length closure.

In the outer layer of the hill problem, advection of shear stress becomes important.

An equation for T is needed here.

πŸ“œ SIMILAR VOLUMES

Air flow over a two-dimensional hill: St
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✍ R. E. Britter; J. C. R. Hunt; K. J. Richards πŸ“‚ Article πŸ“… 2007 πŸ› John Wiley and Sons 🌐 English βš– 920 KB

## Abstract Wind tunnel measurements have been made of the streamwise mean and turbulent velocities over a rough, bell‐shaped, two‐dimensional hill, with height __h__ and maximum slope 0.26, placed in a neutrally stable boundary layer of thickness 10 __h__ and roughness length z~o~ = 0.02 h. Close