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LEVEL III: RECEIVING WATER QUALITY MODELLING FOR URBAN STORMWATER MANAGEMENT.

Publication ,  Journal Article
Medina, MA
Published in: Environmental Protection Technology Series. EPA
January 1, 1979

The model simulates the hypothetical response of the stream or tidal river system to the separate and combined effects of waste inputs from: 1) upstream sources, 2) dry weather urban sources, and 3) wet weather urban sources. The total hours of runoff-producing rainfall throughout a year are separated into storm events by defining a minimum interevent time. For a given storm event, the runoff and pollutant loads are summed and critical dissolved oxygen concentrations are estimated as a function of several hydrodynamic and biochemical parameters. Alternative control strategies are evaluated in terms of relative impacts by determining the probability of occurrence of water quality violations. Model output includes the downstream dissolved oxygen sag curves computed per each event, and the dissolved oxygen profile computed at a user-specified location downstream for all simulated events.

Duke Scholars

Published In

Environmental Protection Technology Series. EPA

Publication Date

January 1, 1979
 

Citation

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Medina, M. A. (1979). LEVEL III: RECEIVING WATER QUALITY MODELLING FOR URBAN STORMWATER MANAGEMENT. Environmental Protection Technology Series. EPA.
Medina, M. A. “LEVEL III: RECEIVING WATER QUALITY MODELLING FOR URBAN STORMWATER MANAGEMENT.Environmental Protection Technology Series. EPA, January 1, 1979.
Medina MA. LEVEL III: RECEIVING WATER QUALITY MODELLING FOR URBAN STORMWATER MANAGEMENT. Environmental Protection Technology Series EPA. 1979 Jan 1;
Medina, M. A. “LEVEL III: RECEIVING WATER QUALITY MODELLING FOR URBAN STORMWATER MANAGEMENT.Environmental Protection Technology Series. EPA, Jan. 1979.
Medina MA. LEVEL III: RECEIVING WATER QUALITY MODELLING FOR URBAN STORMWATER MANAGEMENT. Environmental Protection Technology Series EPA. 1979 Jan 1;

Published In

Environmental Protection Technology Series. EPA

Publication Date

January 1, 1979