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MODELING URBAN METEOROLOGY OVER IDEALISED CITIES. COMPARISON BETWEEN RESULTS OF URBAN PARAMETERIZATION IMPLEMENTED IN MESOSCALE MODEL AND HORIZONTAL SPATIAL AVERAGE PROPERTIES OBTAINED USING CFD SIMULATIONS

Jose Luis Santiago ; Environment Department, Research Centre for Energy, Environment and Technology (CIEMAT), Madrid, Spain
Alberto Martilli ; Environment Department, Research Centre for Energy, Environment and Technology (CIEMAT), Madrid, Spain


Puni tekst: engleski pdf 855 Kb

str. 365-369

preuzimanja: 1.041

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Sažetak

Air quality inside the urban canopy layer (UCL) is important because here is where people live and a significant part of
the emissions are located. In this way, the modeling of UCL is also important. Different factors such as the increase of urban
population and the improvement of computational power, has produced an increasing interest on urban mesoscale modeling since
mid 1990s. However, the modeling of urban boundary layer is difficult because it is influenced by the complex morphology of a city
(buildings, cars, gardens) with different mechanical and thermal/radiative properties. In addition, the domain of mesoscale models
has a horizontal extension of several tens of kilometers (the whole city and its surrounding area) and, for computational reasons, it is
not possible to solve explicitly the flow around buildings. Therefore, urban parameterizations are necessary for high resolution
mesoscale simulations. On the other hand, Computational Fluid Dynamics (CFD) models can solve explicitly the flow around
buildings but their simulation domains cannot cover the whole city. In this work, focused on mechanical effects produced by
buildings, CFD simulations and the horizontal spatial average of the different flow properties are used to assess the performance of
an urban parameterization implemented on a mesoscale model and find its strengths and weaknesses. Horizontal spatial average of
the CFD results around the buildings are made in order to compare with similar mesoscale variables corresponding to a column of
computational cells over a urban zone with the same characteristics as the CFD configuration. In this case, the city is represented by
an array of cubes.

Ključne riječi

CFD Model; Mesoscale Model; Urban Canopy; Urban Parameterization

Hrčak ID:

64272

URI

https://hrcak.srce.hr/64272

Datum izdavanja:

12.12.2008.

Posjeta: 1.576 *