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RECORD NUMBER: 4 OF 12

Main Title Outdoor smog chamber experiments to test photochemical models /
Author Jeffries, H. E. ; Kamens, R. M. ; Sexton, K. G. ; Gerhardt, A. A.
Other Authors
Author Title of a Work
Jeffries, H. E.
CORP Author North Carolina Univ. at Chapel Hill. School of Public Health.;Environmental Sciences Research Lab., Research Triangle Park, NC.
Publisher U.S. Environmental Protection Agency, Research and Development, Environmental Sciences Research Laboratory ; Center for Environmental Research Information [distributor],
Year Published 1982
Report Number EPA/600/3-82-016A
Stock Number PB82-198508
Subjects Smog--Analysis ; Air--Pollution--Experiments ; Photochemical smog--Analysis
Additional Subjects Air pollution ; Smog ; Mathematical models ; Test chambers ; Nitrogen oxides ; Photochemistry ; Temperature ; Solar radiation ; Humidity ; North Carolina ; Graphs(Charts)
Holdings
Library Call Number Additional Info Location Last
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Status
NTIS  PB82-198508 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation 280 pages ; 28 cm
Abstract
The smog chamber facility of the University of North Carolina was used in a study to provide experimental data for developing and testing kinetic mechanisms of photochemical smog formation. The smog chamber, located outdoors in rural North Carolina, is an A-frame structure covered with Teflon film. Because the chamber is partitioned into two sections, each with a volume of 156 cu m, two experiments can be conducted simultaneously. The dual chamber is operated under natural conditions of solar radiation, temperature, and relative humidity. In this study, 115 dual all-day experiments were conducted using NOx and a variety of organic species. The organic compounds investigated included various paraffins, olefins, aromatics and oxygenates, both singly and in mixtures of two or more components. In this report the data collected over the three-year period of the study are described. The experimental procedures and analytical methods used in this study and the limitations and uncertainties of the data are discussed. Guidance for modeling of the data is also given, including a detailed discussion of how to estimate photolytic rate constants from the available UV and total solar radiation data and how to treat such chamber artifacts as dilution, wall sources and losses of pollutants, and reactivity of the background air.
Notes
Caption title. "April 1982." "EPA-600/3-82-016a." Microfiche.