Record Display for the EPA National Library Catalog
RECORD NUMBER: 917 OF 1157Main Title | Sensitivity of modeled ozone concentrations to uncertainties in biogenic emissions estimates / | |||||||||||||||||||||
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Author | Roselle, Shawn J. | |||||||||||||||||||||
CORP Author | Environmental Protection Agency, Research Triangle Park, NC. Atmospheric Research and Exposure Assessment Lab. | |||||||||||||||||||||
Publisher | U.S. Environmental Protection Agency, Atmospheric Research and Exposure Assessment Laboratory, | |||||||||||||||||||||
Year Published | 1992 | |||||||||||||||||||||
Report Number | EPA/600/R-92/067 | |||||||||||||||||||||
Stock Number | PB92-192202 | |||||||||||||||||||||
OCLC Number | 810161168 | |||||||||||||||||||||
Subjects | Atmospheric ozone--Research--United States | |||||||||||||||||||||
Additional Subjects | Ozone ; Mathematical models ; Natural emissions ; Air pollution ; Air pollution control ; Biosphere ; Concentration(Composition) ; Hydrocarbons ; Nitrogen oxides ; Data covariances ; Spatial distribution ; Meteorology ; Study estimates ; Air quality ; Regional analysis ; Northeast Region(United States) ; Regional Oxidant Model | |||||||||||||||||||||
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Collation | xxi, 193 p. : ill., maps, charts ; 28 cm. | |||||||||||||||||||||
Abstract | The study examines the sensitivity of regional ozone (O3) modeling to uncertainties in biogenic emissions estimates. The United States Environmental Protection Agency's (EPA) Regional Oxidant Model (ROM) was used to simulate the photochemistry of the northeastern United States for the period July 2-17, 1988. An operational model evaluation showed that ROM had a tendency to underpredict O3 when observed concentrations were above 70-80 ppb and to overpredict O3 when observed values were below this level. On average, the model underpredicted daily maximum O3 by 14 ppb. Spatial patterns of O3, however, were reproduced favorably by the model. Several simulations were performed to analyze the effects of uncertainties in biogenic emissions on predicted O3 and to study the effectiveness of two strategies of controlling anthropogenic emissions for reducing high O3 concentrations. Biogenic hydrocarbon emissions were adjusted by a factor of 3 to account for the existing range of uncertainty in these emissions. The impact of biogenic emission uncertainties on O3 predictions depended upon the availability of NOx. In some extremely NOx-limited areas, increasing the amount of biogenic emissions decreased O3 concentrations. Two control strategies were compared in the simulations: (1) reduced anthropogenic hydrocarbon emissions, and (2) reduced anthropogenic hydrocarbon and NOx emissions. The simulations showed that hydrocarbon emission controls were more beneficial to the New York City area, but that combined NOx and hydrocarbon controls were more beneficial to other areas of the Northeast. Hydrocarbon controls were more effective as biogenic hydrocarbon emissions were reduced, whereas combined NOx and hydrocarbon controls were more effective as biogenic hydrocarbon emissions were increased. |
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Notes | "EPA/600/R-92/067." Includes bibliographical references (p. 140-143). |