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RECORD NUMBER: 37 OF 62

OLS Field Name OLS Field Data
Main Title Monitoring and Modeling Methods for Developing Air Pollution Control Strategies: A Case Study in the Northwest Czech Republic.
Author Stevens, R. K. ; Pinto, J. P. ; Willis, R. D. ; Mamane, Y. ; Novak, J. J. ;
CORP Author Environmental Protection Agency, Research Triangle Park, NC. Atmospheric Research and Exposure Assessment Lab. ;ManTech Environmental Technology, Inc., Research Triangle Park, NC. ;Samuel Neaman Inst. for Advanced Studies in Science and Technology, Haifa (Israel). ;Hydrometeorologicky Ustav, Prague (Czechoslovakia). ;Teplice District Inst. of Hygiene, Prague (Czech Republic).
Publisher 1995
Year Published 1995
Report Number EPA/600/A-95/033;
Stock Number PB95-190476
Additional Subjects Air pollution sampling ; Industrial plants ; Motor vehicles ; Air pollution sources ; Air pollution monitoring ; Czech Republic ; Sulfur dioxide ; Polycyclic aromatic hydrocarbons ; Particulates ; Organic carbon ; Aerosols ; Acidity ; Dusts ; Air pollution dilution ; Atmospheric diffusion ; Spatial distribution ; Reprints ; Northwestern Region(Czech Republic) ; Teplice(Czech Republic) ; Prachatice(Czech Republic)
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
NTIS  PB95-190476 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 05/26/1995
Collation 17p
Abstract
Scientists from the United States and the Czech Republic recently completed a study to investigate the ambient air quality impact of industrial and motor vehicle sources in Teplice. The primary monitoring sites were located in Teplice in northwestern Bohemia and Prachatice in southern Bohemia. Fine particulate air samples were composed mainly of organic carbon and sulfate and had smaller amounts of trace metals. The Teplice ambient monitoring and source characterization data were then used in receptor modeling calculations, which indicated that home heating and power plant emissions were responsible for up to 80% of ambient fine particle mass concentrations observed during winter inversion episodes. Motor vehicles, incinerators and windblown dust contributed to the balance of the inhalable particles.