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which are impossible to do with point measurements. An example about how to
use such model has been given by Santiago et al. (2007) and Martilli and Santiago
(2007).
References
Brown MJ, Lawson RE, DeCroix DS, Lee RL (2001). Comparison of centerline velocity measure-
ments obtained around 2D and 3D buildings arrays in a wind tunnel, Report LA-UR-01-4138,
Los Alamos National Laboratory, Los Alamos, 7p.
Calmet I, Leroyer S, Mestayer PG (2007). High-resolution simulations of the urban atmosphere
in sea-breeze conditions, 7th Symposium on the Urban Environment, September 10-13,
San Diego, CA.
Fluent Inc (2005). FLUENT 6.2 user's guide, volumes 1-3, Fluent Inc., Lebanon, p. 2216.
Foster I (1994). Designing and Building Parallel Programs. Addison-Wesley.
Martilli A, Santiago JL (2007). CFD simulation of airflow over a regular array of cubes. Part II:
analysis of spatial average properties. Boundary-Layer Meteorol 122:635-654.
Pielke RA (1984). Mesoscale Meteorological Modeling. Academic Press, 612p.
Santiago JL, Martilli A, Martin F (2007). CFD simulation of airflow over a regular arra of cubes.
Part I: Three-dimensional simulation of the flow and validation with wind-tunnel measure-
ments. Boundary-Layer Meteorol 122:609-634.
Schlünzen KH, Bächlin W, Brünger H, Eichhorn J, Grawe D, Schenk R, Winkler C (2004). An
evaluation guideline for prognostic microscale wind field models. In: 9th international con-
ference on harmonization within atmospheric dispersion modelling for regulatory purposes,
Garmisch-Partenkirchen, June 1-4, Germany, 4p.
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