Title of article
Experimental validation of a computational fluid dynamics code to predict the wind speed in street canyons for passive cooling purposes
Author/Authors
V.D. Assimakopoulos، نويسنده , , C. Georgakis ، نويسنده , , M. Santamouris a، نويسنده , , *، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2006
Pages
12
From page
423
To page
434
Abstract
Natural ventilation is one of the most efficient passive cooling techniques for buildings. Knowledge of the wind speed
in street canyons is the necessary condition for the application of such a technique in dense urban configurations. Thus,
prediction techniques to evaluate the microclimate and dispersion parameters in street canyons, has become a subject of
intense scientific research in recent years. In most of cases, wind flow and pollutant dispersion characteristics have been
studied numerically and experimentally with a view to provide an insight in urban dispersion. The microscale model
MIMO was employed in order to perform a three-dimensional modelling of the wind field within three typical deep
street canyons, located in the centre of Athens. Computational results were compared to field data collected during consecutive
three-day experimental campaigns that took place in the summer period. Results from the computations have
shown that the wind field in urban areas is quite complex, presenting areas of very low wind speeds and convergence of
vortices. The model underestimated the measured wind speed intensities, which may be partly explained by the uncertainty
of specific input parameters, the necessary simplifications for the application of such models and finally the geometrical
complexity of the area modelled. Finally, computations were performed for a reference velocity of 2 m/s, which
is considered to be a threshold value. The wind field developed departed from the one observed in the previous cases.
2005 Elsevier Ltd. All rights reserved.
Keywords
Experimental measurements , Natural ventilation , Microscale modelling , Urban street canyon
Journal title
Solar Energy
Serial Year
2006
Journal title
Solar Energy
Record number
939611
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