Air quality modeling for the city of Graz

Air quality modeling for the city of Graz

Graz, a historical grown city in the southeast of Austria, sometimes faces problems with air pollution, mainly during wintertime. The old part of the city is the largest residentially used historical downtown in Central Europe. Due to its geographical position at the southeastern edge of the Alps, G...

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Bibliographic Details
Published in:Meteorology and atmospheric physics Vol. 57; no. 1-4; pp. 31 - 42
Main Authors: ALMBAUER, R, PUCHER, K, STURM, P. J
Format: Conference Proceeding Journal Article
Language:English
Published: Wien Springer 01-01-1995
New York, NY
Subjects:
Applied sciences
Atmospheric pollution
Exact sciences and technology
Pollutants physicochemistry study: properties, effects, reactions, transport and distribution
Pollution
Austria
Europe
Graz, Austria
Atmospheric condition
Seasonal variation
Pollution source inventory
Air pollution
Air quality
Urban area
Modeling
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Summary:Graz, a historical grown city in the southeast of Austria, sometimes faces problems with air pollution, mainly during wintertime. The old part of the city is the largest residentially used historical downtown in Central Europe. Due to its geographical position at the southeastern edge of the Alps, Graz often has weather situations with calm winds and strong inversions between October and March. The local wind system is marked by wind shears: near the surface, cold air flow in from the south, while in higher altitudes warm air from the north flows over the basin of Graz. During these winter periods with mighty inversions air quality values exceed the threshold limits. The reason is that the old structure of the downtown area with narrow streets and a lot of old domestic heating systems in many of the old buildings causes relatively high pollution levels. In the winter of 1988/89, the NO sub(2) threshold values for smog-alarm (0.8 mg/m super(3) , 3-h mean value) were exceeded several times at three air quality monitoring stations in the city of Graz. Therefore, a research project was initiated with the aim to find out the reasons for the bad air quality. The project comprised the setting up of an emission inventory as well as meteorological measurement campaigns and numerical simulations concerning the pollution dispersion in the area of Graz. The following report will try to show the interaction of the emission inventory on one hand and the determinations of flow conditions and pollutant dispersion on the other hand in order to analyze the air quality in the city. The emission inventory contains the emissions of air pollutants in a high temporal and spatial resolution. Before determining the surface flow fields, the meteorological conditions leading to the high pollution values were analyzed. After that, the boundary conditions were defined with the help of tethered balloon measurements. With these boundary conditions, quasi-steady-state flow fields were simulated. The dispersion of pollutants was calculated in a transient form using the stored flow fields. Conversion of pollutants was determined with the help of a parameterized version of the Eschenroeder-Martinez reaction mechanism. The period of winter 1990/91 with the highest pollution concentration was simulated to validate this model. The results show that the simulated and measured values of CO, NO and NO sub(2) correspond well with each other in the centre of the city, while the correspondence is not as good in the outskirts of the city where lower pollution levels are observed. It turned out that the suggested methodology is well suited for analyzing winter situations with high pollution levels.
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ISSN:0177-7971
1436-5065
DOI:10.1007/BF01044152