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Three-Dimensional Modelling of Concentration Fluctuations in Complicated Geometry
Authors:S. Andronopoulos  D. Grigoriadis  A. Robins  A. Venetsanos  S. Rafailidis  J.G. Bartzis
Affiliation:(1) Institute of Nuclear Technology and Radiation Protection/Environmental Research Laboratory, National Centre for Scientific Research `Demokritos', Greece;(2) Environmental Flow Research Centre, University of Surrey, U.K
Abstract:The strong fluctuating component in the measured concentration time series of a dispersing gaseous pollutant in the atmospheric boundary layer, and the hazard level associated to short-term concentration levels, demonstrate the necessity of calculating the magnitude of turbulent fluctuations of concentration using computational simulation models. Moreover the computation of concentration fluctuations in cases of dispersion in realistic situations, such as built-up areas or street canyons, is of special practical interest for hazard assessment purposes. In this paper, the formulation and evaluation of a model for concentration fluctuations, based on a transport equation, are presented. The model is applicable in cases of complex geometry. It is included in the framework of a computational code, developed for simulating the dispersion of buoyant pollutants over complex geometries. The experimental data used for the model evaluation concerned the dispersion of a passive gas in a street canyon between 4 identical rectangular buildings performed in a wind tunnel. The experimental concentration fluctuations data have been derived from measured high frequency concentrations. The concentration fluctuations model is evaluated by comparing the model's predictions with the observations in the form of scatter plots, quantile-quantile plots, contour plots and statistical indices as the fractional bias, the geometrical mean variance and the factor-of-two percentage. From the above comparisons it is concluded that the overall model performance in the present complex geometry case is satisfactory. The discrepancies between model predictions and observations are attributed to inaccuracies in prescribing the actual wind tunnel boundary conditions to the computational code.
Keywords:complex geometry  concentration  fluctuations  modelling  model evaluation  street canyon  wind tunnel
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