Accession Number : ADA304875
Title : System Simulation of Tidal Hydrodynamic Phenomena in Galveston Bay, Texas.
Descriptive Note : Final rept.,
Corporate Author : ARMY ENGINEER WATERWAYS EXPERIMENT STATION VICKSBURG MS HYDRAULICS LAB
Personal Author(s) : Hsieh, Bernard B.
PDF Url : ADA304875
Report Date : FEB 1996
Pagination or Media Count : 159
Abstract : An alternative method, capable of analyzing changes at individual points in an estuary system, as opposed to the global solutions generated by the numerical model, was developed. A system response approach using input/output relationships via nonlinear frequency domain analysis of Fourier Transform from a numerical model to describe the dynamic behavior of tidal hydrodynamic phenomena was used to play this role. Under this design, the system response functions from a verified numerical model for a particular location can be used to simulate the resulting output function, such as change in salinity, when input forcing functions, such as tidal variation and freshwater inflow, change. This approach was applied to address the salinity response due to freshwater inflow changes for 16 selected locations in Galveston Bay, TX. The system model base was constructed by selecting node points from 3-D numerical hydrodynamic model results. The annual numerical simulation of both base geometry (12-m-deep channel) and project conditions (l3.7-m-deep channel) for 1990 medium-flow conditions was used to construct the system response function. Three major tributaries (Trinity River, San Jacinto River, and Buffalo bayou) were considered as primary freshwater inflow sources for conducting these simulations. (MM)
Descriptors : *FRESH WATER, *HYDRODYNAMIC CODES, *SALINITY, *OCEAN TIDES, *ESTUARIES, MATHEMATICAL MODELS, COMPUTERIZED SIMULATION, FOURIER TRANSFORMATION, COASTAL REGIONS, OCEAN CURRENTS, DYNAMIC RESPONSE, INPUT OUTPUT PROCESSING, BATHYMETRY, FREQUENCY DOMAIN, CHANNELS(WATERWAYS), TEXAS, BAYS, MEXICO GULF.
Subject Categories : Physical and Dynamic Oceanography
Hydrology, Limnology and Potamology
Distribution Statement : APPROVED FOR PUBLIC RELEASE