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Logo: Institute of Meteorology and Climatology /Leibniz Universität Hannover
Logo Leibniz Universität Hannover
Logo: Institute of Meteorology and Climatology /Leibniz Universität Hannover
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Large-eddy simulation study on the effect of vehicle-induced turbulence and exhaust fumes on wind flow and pollutant dispersion in urban street canyons (LEAF)

Supervisor:Björn Maronga
Researcher:Giovanna Motisi
Duration:2018-2021
Funded by:DFG
Bild Large-eddy simulation study on the effect of vehicle-induced turbulence and exhaust fumes on wind flow and pollutant dispersion in urban street canyons (LEAF)

The main objective of the proposed project is to evaluate the effects of traffic-induced turbulence and exhaust fumes on the turbulent flow and transport of pollutants in urban street canyons by means of high-resolution larg-eddy simulations (LES), taking into account the effects of vegetation and atmospheric stability. Moreover, the project shall provide the means to assess possible problems for the prediction of pollutant concentrations at street level in state-of-the-art urban microscale models that cannot explicitly resolve moving cars. In the scope of the MOSAIK project, for example, building-resolving LES for

selected city quarters in Germany are to be conducted with PALM. Results from these simulations shall be validated within MOSAIK against extensive measurement data that is currently obtained in the framework of [UC]². However, vehicular emissions in PALM are currently treated as line sources at street level, and traffic-induced turbulence is entirely neglected as the explicit incorporation of cars in the model is not feasible and there currently is no suitable parameterization for traffic-induced emissions available that would be compatible to the LES technique. The proposed project thus aims at acquiring the essential knowledge to develop a new parameterization of traffic-induced emissions that can be incorporated in LES models.

This research project is funded by DFG under grants MA 6383/3-1.

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