Spatial aspects of urban air quality management: Estimating the impact of micro-scale urban form on pollution dispersion

Urban planning and design solutions affect urban ventilation conditions, thus mitigating the effects of atmo-spheric pollution. However, these findings are not being implemented in the planning practice to a sufficient extent, partly due to the lack of specific guidelines. Moreover, many urban air quality monitoring (AQM) sites have low represnentativeness and thus do not provide comprehensive data for effective urban air pollution control with respect to the urban spatial policy. An integrated assessment method based on modelling, simu-lation, and geospatial data processing tools was used to investigate the impact of micro-scale urban form on the local ventilation conditions and pollution dispersion. The proposed approach combined computational fluid dynamics (CFD) and geographic information system (GIS) tools, and particularly the newly developed Residence Time Index (RTI) -a single CFD-derived parameter quantifying the capabilities of the micro-scale built envi-ronment to retain PM10 pollution. Urban segments around monitoring sites in three Polish cities (Gda ' nsk, Warsaw, and Pozna ' n), characterised by relatively low density and varied urban form typologies, were investi-gated. The results indicate that in these conditions the following features of the urban form have the strongest correlation with the RTI: plan area density (lambda P), gross floor area ratio (lambda GFA), and occlusivity (Oc), making them useful indicators for urban air quality management. On the other hand, PM10 data from the AQM sites are rather poorly linked with urban form indicators, which suggests that in complex urban scenarios a higher spatial res-olution of air quality data is required for shaping the spatial policy. The implications from this analysis are useful for the urban planning practice. The developed approach may be also a valuable decision support tool for the assessment of the spatial representativeness of AQM sites.