Roger S. Thompson scite author profile

In stably stratified flow over a three-dimensional hill, we can define a dividing streamline that separates those streamlines that pass around the hill from those that pass over the hill. The height Hs of this dividing streamline can be estimated by Sheppard's simple energy argument; fluid parcels originating far upstream of a hill at an elevation above Hs have sufficient kinetic energy to rise over the top, whereas those below Hs must pass around the sides. This prediction provides the basis for analysing an extensive range of laboratory observations and measurements of stably stratified flow over a variety of shapes and orientations of hills and with different upwind density and velocity profiles. For symmetric hills and small upwind shear, Sheppard's expression provides a good estimate for Hs. For highly asymmetric flow and/or in the presence of strong upwind shear, the expression provides a lower limit for Hs. As the hills become more nearly two-dimensional, these experiments become less well defined because steady-state conditions take progressively longer to be established. The results of new studies are presented here of the development of the unsteady flow upwind of two-dimensional hills in a finite-length towing tank. These measurements suggest that a very long tank would be required for steady-state conditions to be established upstream of long ridges with or without small gaps and cast doubt upon the validity of previous laboratory studies.

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Experimental and theoretical study of the wake of a block-shaped vehicle in a shear-free boundary flow

Eskridge

Thompson

1982

Atmospheric Environment (1967)

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A “test of concept” comparison of aerodynamic and mechanical resuspension mechanisms for particles deposited on field rye grass (Secale cercele). Part 1. Relative particle flux rates

Gillette

Lawson

Thompson

2004

Atmospheric Environment

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Note on the Aerodynamic Roughness Length for Complex Terrain

Thompson¹

1978

J. Appl. Meteor.

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Roger S. Thompson

The structure of strongly stratified flow over hills: dividing-streamline concept

Experimental and theoretical study of the wake of a block-shaped vehicle in a shear-free boundary flow

A “test of concept” comparison of aerodynamic and mechanical resuspension mechanisms for particles deposited on field rye grass (Secale cercele). Part 1. Relative particle flux rates

Note on the Aerodynamic Roughness Length for Complex Terrain

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