Main Title |
Three dimensional hydrodynamic model for stratified flows in lakes and estuaries (HYDRO3D) : theory, user guidance, and applications for Superfund ecological risk assessments / |
Author |
Sheng, Y. Peter ;
Zakikhani, M. ;
McCutcheon, S. C. ;
Hosseinipour, E. Z. ;
Wang, P. F.
|
CORP Author |
Florida Univ., Gainesville. ;AScI Corp., Athens, GA. ;Aeronautical Research Associates of Princeton, Inc., NJ. ;Clemson Univ., SC.;Environmental Protection Agency, Athens, GA. National Exposure Research Lab. |
Publisher |
U.S. Environmental Protection Agency, Ecosystems Research Division, |
Year Published |
1999 |
Report Number |
EPA/600/R-99/049 ; PB99-169898; EPA-R-814345-01-0 |
Stock Number |
PB99-169898 |
OCLC Number |
44616213 |
Subjects |
Water quality--Mathematical models ;
Hydrodynamics
|
Additional Subjects |
Hydrodynamics ;
Three dimensional models ;
Stratified flow ;
Lakes ;
Estuaries ;
River flow ;
Tides ;
Water circulation ;
Harbors ;
Coastal areas ;
Coastal waters ;
Salinity ;
Turbulence ;
Density stratification ;
Geometry ;
Bathymetry ;
Water quality ;
Boundary conditions ;
HYDRO3D model
|
Internet Access |
|
Holdings |
Library |
Call Number |
Additional Info |
Location |
Last Modified |
Checkout Status |
ESAD |
EPA 600-R-99-049 |
|
Region 10 Library/Seattle,WA |
07/28/2000 |
NTIS |
PB99-169898 |
Some EPA libraries have a fiche copy filed under the call number shown. |
|
07/26/2022 |
|
Collation |
223 p. ; 28 cm. |
Abstract |
The HYDRO3D program has been documented to aid in the simulation of lakes, harbors, coastal areas, and estuaries. HYDRO3D is a dynamic modeling system that can be used to simulate currents in water bodies as they respond to tides, winds, density gradients, river flows, and basin geometry and bathymetry. The code is a three-dimensional, time-dependent, o-stretched coordinate, free surface model that can be run in fully three-dimensional (3-D) mode, tow-dimensional vertically-averaged (x-y), and two-dimensional laterally-averaged x-z mode. The applications provided demonstrated that the model is capable of realistic simulation of flow and salinity transport in complex and dynamic water bodies. These applications include simulations of tidal circulation and salinity transport in Suisun Bay, California and Charlotte Harbor, Florida and wind-forced circulation in Green Bay, Lake Michigan. Tidal circulation in Prince William Sound, Alaska was investigated to determine the feasibility of applying the model under emergency conditions. Finally, the calibration of the model for the Mississippi Sound is illustrated. |
Notes |
"June 1999." Includes bibliographical references. |
Place Published |
Athens, Ga. : |
Supplementary Notes |
See also AD-A136 857. Prepared in cooperation with AScI Corp., Athens, GA., Aeronautical Research Associates of Princeton, Inc., NJ. and Clemson Univ., SC. Sponsored by Environmental Protection Agency, Athens, GA. National Exposure Research Lab. |
Availability Notes |
Product reproduced from digital image. Order this product from NTIS by: phone at 1-800-553-NTIS (U.S. customers); (703)605-6000 (other countries); fax at (703)605-6900; and email at orders@ntis.fedworld.gov. NTIS is located at 5285 Port Royal Road, Springfield, VA, 22161, USA. |
Corporate Au Added Ent |
United States. Environmental Protection Agency. Ecosystems Research Division (Athens, Ga.). ; University of Florida. |
PUB Date Free Form |
1999. |
NTIS Prices |
PC A12/MF A03 |
BIB Level |
m |
Cataloging Source |
OCLC/T |
OCLC Time Stamp |
20000719142248 |
Language |
eng |
Origin |
OCLC |
Type |
MERGE |
OCLC Rec Leader |
01025nam 2200265Ka 45010 |