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RECORD NUMBER: 41 OF 183

OLS Field Name OLS Field Data
Main Title Dynamic Water Quality Forecasting and Management.
Author O'Conno, Donald J. ; Thoman, Robert V. ; Tor, Dominic Di ;
CORP Author Manhattan Coll., Bronx, N.Y. Dep. of Civil Engineering.
Year Published 1973
Report Number EPA-R-800369; 00927,; 660/3-73-009
Stock Number PB-225 048
Additional Subjects ( Water quality ; Mathematical models) ; Water pollution ; Nutrients ; Biochemical cycles ; Nitrogen ; Phosphorus ; Carbon ; Dissolved gases ; Oxygen ; Biochemical oxygen demand ; Phytoplankton ; Zooplankton ; Potomac River estuary ; Delaware River estuary ; Mass transfer ; Reaction kinetics ; Path of pollutants ; Eutrophication
Holdings
Library Call Number Additional Info Location Last
Modified
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Status
NTIS  PB-225 048 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 209p
Abstract
The report describes the formulation and initial verification of two modeling frameworks. The first is directed toward an analysis of the impact of the carbonaceous and nitrogenous components and wastewater on the dissolved oxygen resources of a natural water system. The second modeling framework concentrates on the interactions between the discharge of nutrient, both nitrogen and phosphorus, and the biomass of the phytoplankton and zooplankton populations which result, as well as incorporating the overall impact on dissolved oxygen. The models are formulated in terms of coupled differential equations which incorporate both the effect of transport due to tidal motion and turbulence, and the kinetics which describe the biological and chemical transformation that can occur. The modeling frameworks are applied to the Delaware and Potomac estuaries in order to estimate the ability of such models to describe the water quality effects of carbon, nitrogen, and phosphorous discharges. The agreement achieved between observation and calculation indicate that the major features of the impact of wastewater components on eutrophication phenomena can be successfully analyzed within the context of the models presented herein. (Author)