Klimafibel

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	Preface
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	1.	Climate as a Public Interest in Planning and Zoning
	2.	Characteristics and Forms of the Urban Climate
	3.	Energy-Conscious Planning and Zoning
	4.	Methods of Information Acquisition for Planning (Measurements, Wind Tunnels, Numerical Modelling)
	4.1	Measurements
	4.1.1	Stationary Measurements
	4.1.2	Measurements with mobile measurement devices
	4.1.3	Tracer Experiments
	4.1.4	Vertical Soundings
	4.2	Wind Tunnel
	4.2.1	Overview
	4.2.2	Operation and Investigation Methods
	4.2.2.1	Visualization of flows and pollutant dispersion by smoke
	4.2.2.2	Wind Velocity Measurements
	4.2.2.3	Measurement of Concentration Distribution in Dispersal Experiments
	4.2.3	Locations of Wind Tunnels
	4.3	Numerical Modelling of Flow and Transport Processes
	4.3.1	The Wind Field Model DIWIMO
	4.3.2	The Cold-Air Flow Model KALM and KLAM 21
	4.3.3	The Model STREET for Estimating Traffic-Produced Pollution
	4.3.4	The Model MLuS-02 for Calculating Pollutant Dispersal on Roads Without Dense Peripheral Development
	4.3.5	The Model PROKAS for Calculating Air Pollution on Roads
	4.3.6	The Micro-Scale Model MISKAM
	4.3.7	Mesoscale Terrain Climatic Models
	4.3.8	The Urban Climate Models RayMan , ENVI-met and MUKLIMO_3
	5.	Climatic and Air Hygiene Maps as Aids for Planning and Zoning (Example: Climate Atlas Federation Region Stuttgart)
	6.	Recommendations for Planning
	7.	Bibliography
	8.	Thematic Websites
	Imprint
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METHODS OF INFORMATION ACQUISITION FOR PLANNING (MEASUREMENTS, WIND TUNNELS, NUMERICAL MODELLING)

4.2.2.3 Measurement of Concentration Distribution in Dispersal Experiments

For a quantitative determination of air pollutants in the wind tunnel, tracer gases like CO₂, sulphur hexafluoride (SF₆) or HC are used to simulate pollutant sources. Samples are taken at the desired immission measuring points and analysed in order to determine the concentrations depending on other parameters like wind direction and wind speed. Analytical equipment like the fast FID (using HC as tracer) allows for a high temporal resolution of the concentrations (Figure 4/13).

Generally, boundary layer wind tunnels can only simulate neutral thermal stratifications of the atmosphere. This restriction especially concerns the examination of nocturnal cold-air flows.

Fig. 4/13: Cannula of a fast-FID in the HH model, Source : University of Hamburg , Institute for Meteorology