• Title of article

    Numerical and experimental modelling of pollutant dispersion in a street canyon

  • Author/Authors

    Garcia Sagrado، نويسنده , , Ana Pilar and van Beeck، نويسنده , , Jeroen and Rambaud، نويسنده , , Patrick and Olivari، نويسنده , , Domenico، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2002
  • Pages
    19
  • From page
    321
  • To page
    339
  • Abstract
    The pollutant dispersion in a two-dimensional street canyon is studied in this project. The principal parameter investigated is the height of the downstream building. The pollutant source is situated in the middle of the street. The investigation is performed in two ways. Experiments have been carried out in the L-2B wind tunnel at von Karman Institute and numerical simulations have been done with the CFD software Fluent 5.2. The concentration measurements have been performed by means of light scattering technique and the velocity field has been measured with particle image velocimetry. In the numerical simulations, a preliminary study about the backward-facing step has been performed in order to select the best turbulence model in Fluent for these complex flows characterized by separation, stagnation, recirculation, reattachment, etc. The best model appeared to be the realizable k–ε model with the two-layer zonal approach to the wall, which predicts the reattachment length after the step with <1% error in comparison with the value obtained from direct numerical simulation by Le, Moin and Kim (Direct numerical simulation of turbulent flow over a backward-facing step, Report No. TF-58, 1996). This model has been applied in the street canyon simulations. Comparison with the experimental results has been made. s the height of the downstream building, the influence of a third building situated upstream of the street canyon in the flow and dispersion inside the street has been investigated.
  • Keywords
    Numerical modelling , Wind tunnel experiments , Pollutant dispersion , CFD application , Realizable k–? model
  • Journal title
    Journal of Wind Engineering and Industrial Aerodynamics
  • Serial Year
    2002
  • Journal title
    Journal of Wind Engineering and Industrial Aerodynamics
  • Record number

    1497480