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OLS Field Name OLS Field Data
Main Title Instrumentation, Recording, and Processing of Meteorological Data Near Portage, Wisconsin: Wisconsin Power Plant Impact Study.
Author Stearns, C. R. ; Falconer, P. ; Weidner, G. ; Bowen, B. ; Dzamba, L. ;
CORP Author Wisconsin Univ.-Madison. Dept. of Meteorology. ;Wisconsin Power and Light Co., Madison. ;Wisconsin Public Service Commission, Madison. ;Wisconsin Dept. of Natural Resources, Madison.;Environmental Research Lab.-Duluth, MN.
Year Published 1984
Report Number EPA-R-803971; EPA-600/3-84-053;
Stock Number PB84-172469
Additional Subjects Electric power plants ; Meteorological data ; Air pollution ; Wisconsin ; Transport properties ; Sulfur dioxide ; Ozone ; Diffusion ; Wind(Meteorology) ; Environment impacts ; Mathematical models ; Air pollution sampling ; Cooling ponds ; Portage(Wisconsin) ; Gaussian plume models
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NTIS  PB84-172469 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 06/23/1988
Collation 161p
Abstract As part of the Columbia Power Plant Impact Study meteorological data were collected at a network of monitoring sites from 1972 through 1977. The data were the basis for a series of studies whose purpose was to elucidate the transport of airborne pollutants and to assess the climatic impact of the power plant. In a pilot diffusion climatology survey, local wind structure was interpreted in the context of synoptic weather patterns. A significant new low wind statistic was introduced. A case study traced the movement of an elevated level of ozone from the Southern Plains across the Midwest to the East Coast. It showed that long distance transport is necessary for elevated O3 levels to occur in most parts of the U.S. The horizontal variation of the wind field is an important factor in the transport of atmospheric pollutants from 10 to 100 km. The wind field was shown to be organized as a function of wind direction and wind speed around the Baraboo Hills. Two models for estimating concentrations of SO2 at ground level were compared. Both used the Gaussian plume equation: one estimated the required dispersion coefficients from the Hino stability model; the other was based on data for horizontal and vertical hourly wind direction range. Overall, the climatic effects of the power plant and cooling pond appear small. Fogging, condensation, and riming may occur downwind on several days each year. Temperature increases of about 1C may also be observed for a short distance downwind.
Supplementary Notes Prepared in cooperation with Wisconsin Power and Light Co., Madison., Wisconsin Public Service Commission, Madison., and Wisconsin Dept. of Natural Resources, Madison.
PUB Date Free Form Mar 84
Category Codes 13B; 68A; 97R
NTIS Prices PC A08/MF A01
Primary Description 600/03
Document Type NT
Cataloging Source NTIS/MT
Control Number 416024489
Origin NTIS
Type CAT