Please use this identifier to cite or link to this item: https://hdl.handle.net/11681/41581
Title: Houston Ship Channel Expansion Channel Improvement Project (ECIP) numerical modeling report : BABUS cell and Bird Island analysis
Authors: McAlpin, Jennifer N.
Ross, Cassandra G.
Keywords: Channels (Hydraulic engineering)
Coastal engineering--Mathematical models
Houston Ship Channel (Tex.)
Hydrodynamics
Inland navigation
Salinity
Sedimentation and deposition
Sediment transport
Publisher: Coastal and Hydraulics Laboratory (U.S.)
Engineer Research and Development Center (U.S.)
Series/Report no.: Technical Report (Engineer Research and Development Center (U.S.)) ; no. ERDC/CHL TR-21-12
Abstract: The Houston Ship Channel (HSC) is one of the busiest deep-draft navigation channels in the United States and must be able to accommodate increasing vessel sizes. The US Army Engineer District, Galveston (SWG), requested the Engineer Research and Development Center, Coastal and Hydraulics Laboratory, perform hydrodynamic and sediment modeling of proposed modifications in Galveston and Trinity Bays and along the HSC. The modeling results are necessary to provide data for hydrodynamic, salinity, and sediment transport analysis. SWG provided three project alternatives that include closing Rollover Pass, Bay Aquatic Beneficial Use System cells, Bird Islands, and HSC modifications. These alternatives and a Base (existing condition) will be simulated for present (2029) and future (2079) conditions. The results of these alternatives/conditions as compared to the Base are presented in this report. The model shows that the mean salinity varies by 2–3 ppt due to the HSC channel modifications and by approximately 5 ppt in the area of East Bay due to the closure of Rollover Pass. The tidal prism increases by 2.5% to 5% in the alternatives. The tidal amplitudes change by less than 0.01 m. The residual velocity vectors vary in and around areas where project modifications are made.
Description: Technical Report
Gov't Doc #: ERDC/CHL TR-21-12
Rights: Approved for Public Release; Distribution is Unlimited
URI: https://hdl.handle.net/11681/41581
http://dx.doi.org/10.21079/11681/41581
Appears in Collections:Technical Report

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