Record Display for the EPA National Library Catalog
RECORD NUMBER: 1097 OF 4314Main Title | Droplet Phase (Heterogeneous) and Gas Phase (Homogeneous) Contributions to Secondary Ambient Aerosol Formation as Functions of Relative Humidity. | |||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Author | McMurry, P. H. ; Wilson, J. C. ; | |||||||||||
CORP Author | Minnesota Univ., Minneapolis. Dept. of Mechanical Engineering.;Environmental Sciences Research Lab., Research Triangle Park, NC. | |||||||||||
Year Published | 1983 | |||||||||||
Report Number | EPA-R-806801; EPA-600/J-83-227; | |||||||||||
Stock Number | PB84-226554 | |||||||||||
Additional Subjects | Aerosols ; Humidity ; Vapor phases ; Liquid phases ; Air pollution ; Sulfates ; Electric power plants ; Urban areas ; Sulfur dioxide ; Nitrogen oxides ; Combustion products ; Chemical reactions ; Plumes ; Reaction kinetics ; Ohio ; Industrial wastes ; Reprints ; Columbus(Ohio) | |||||||||||
Holdings |
|
|||||||||||
Collation | 10p | |||||||||||
Abstract | In previous publications (McMurry and Wilson, 1982; McMurry et al., 1981), techniques for determining the relative contributions of gas phase and liquid phase reactions to secondary ambient aerosol formation have been described. In this paper these methods are applied to more recent data acquired during the 1980 Environmental Protection Agency PEPE-NEROS study near Columbus, Ohio. It is shown that liquid phase reactions tend to be the most important mechanism of sulfate aerosol formation for relative humidities greater than 75%, while gas phase reactions are predominant at lower humidities. |