Modelling Activity in the Framework of the National Project “Transformation of Air-Pollution, Modelling its Transport and Dispersion”
In the framework of the presented activity a spatial distribution of tropospheric ozone is modelled. An overview of the ozone distribution will be given for local modelling study with very high resolution. Model results will be tested against measured data that will be collected both from field campaigns and from existing monitoring networks. Within this modelling activity results of some formerly and simultaneously solved projects can be also used.
KeywordsCombustion Transportation Ozone Advection Smog
Unable to display preview. Download preview PDF.
- 1.Machálek, P., 2001: Trends in air-pollution in the years 1990 — 1999. In Proc: Atmosphere 2001, Brno, 2001 (in Czech).Google Scholar
- 2.Leníček, J.,. Sekyra, ML, Kociánová, S., Novak, J., Beneš, I., 1997: Determination of VOC in some locations of the Czech Republic, Air Protection, 2, 10–12 (in Czech).Google Scholar
- 4.Bednář, J., Brechler, J., Halenka, T. and Kopáček, J., 2001: Modelling of Summer Photochemical Smog in the Prague Region, Phys. Chem. Earth (B), 6, 129–136.Google Scholar
- 5.Grell, G.A., Dudhia, J., Stauffer, D.R., 1994: A Description of the Fifth-Generation Penn/Srate /NCAR Mesoscale Model (MM5), NCAR Technical Note, NCAR/TN-398 + STR.Google Scholar
- 6.ENVIRON International Corp., 1998: User’s Guide: Comprehensive Air Quality Model with Extension (CAMx). Version 2.00., Novato, California 94945–5010.Google Scholar
- 7.Schlünzen, K. H., Bigalke, K., Lenz, C.-J., Lüpkes, Ch., Niemeier, U., von Salzen, K., 1996: Concept and Realuization of the Mesoscale Transport and Fluid Model ‘METRAS’, Universität Hamburg, 1996.Google Scholar