Holdings |
Library |
Call Number |
Additional Info |
Location |
Last Modified |
Checkout Status |
EHAM |
TD365.W37 1988 |
|
Region 1 Library/Boston,MA |
04/29/2016 |
EJED |
EPA 600-3-87-039 |
|
OCSPP Chemical Library/Washington,DC |
03/08/2002 |
EKBD |
EPA-600/3-87-039 |
|
Research Triangle Park Library/RTP, NC |
01/01/1988 |
STATUS |
ELBD ARCHIVE |
EPA 600-3-87-039 |
Received from HQ |
AWBERC Library/Cincinnati,OH |
10/04/2023 |
ELBD |
EPA 600-3-87-039 |
|
AWBERC Library/Cincinnati,OH |
07/14/1989 |
EMBD |
EPA/600/3-87/039 |
|
NRMRL/GWERD Library/Ada,OK |
09/29/1995 |
ESAD |
EPA 600-3-87-039 |
|
Region 10 Library/Seattle,WA |
03/23/2010 |
ESBD |
EPA/600/3-87/039 |
|
CPHEA/PESD Library/Corvallis,OR |
12/11/1992 |
NTIS |
PB88-185095 |
Some EPA libraries have a fiche copy filed under the call number shown. |
|
07/26/2022 |
|
Abstract |
The Water Quality Analysis Simulation Program Version 4 (WASP4) is a dynamic compartment modeling system that can be used to analyze a variety of water quality problems in a diverse set of water bodies. WASP4 simulates the transport and transformation of conventional and toxic pollutants in the water column and benthos of ponds, streams, lakes, reservoirs, rivers, estuaries, and coastal waters. The WASP4 modeling system covers four major subjects--hydrodynamics, conservative mass transport, eutrophication-dissolved oxygen kinetics, and toxic chemical-sediment dynamics. The WASP4 modeling system consists of two stand-alone computer programs, DYNHYD4 and WASP4, that can be run in conjunction or separately. The hydrodynamic program, DYNHYD4, simulates the movement of water and the water quality program, WASP4, simulates the movement and interaction of pollutants within the water. The latter program is supplied with two kinetic sub-models to simulate two of the major classes of water quality problems--conventional pollution (dissolved oxygen, biochemical oxygen demand, nutrients, and eutrophication) and toxic pollution (organic chemicals, heavy metals, and sediment). The substitution of either sub-model constitutes the models EUTRO4 and TOXI4, respectively. |