In order to study flow and dispersion of a passive scalar through a group of obstacles, we performed wind tunnel experiments in a neutrally stratified boundary layer. The aim of the study was to evaluate the influence of obstacle geometry and of wind direction on the spreading of a passive scalar plume. An idealized urban neighborhood was simulated by means of an array of aligned blocks, whose height H was approximately 1/16 of the simulated boundary layer depth; the width and the length of each block were 5H. The pollutant source was placed at height H/2 within the array. Flow-field and mean concentration data were obtained for different wind directions, which varied from 0 to 45◦, and for different spacing between the obstacles, which varied from H to 2H; all measurements were performed within and above the obstacle array. Measurements of concentration have been examined in order to evaluate the mass exchange processes and their dependence to the wind orientation. Our goal was to verify the extent of the applicability of a simple analytical model in rather complex geometries.
[1]
Richard Griffiths,et al.
Field experiments of dispersion through regular arrays of cubic structures
,
1997
.
[2]
M. J. Davidson,et al.
Wind tunnel simulations of plume dispersion through groups of obstacles
,
1996
.
[3]
Richard J. Perkins,et al.
Plume dispersion through large groups of obstacles – a field investigation
,
1995
.
[4]
D. J. Hall,et al.
A comparison of results from scaled field and wind tunnel modelling of dispersion in arrays of obstacles
,
1998
.
[5]
R. Britter,et al.
FLOW AND DISPERSION IN URBAN AREAS
,
2003
.