Filters: Tags: EFDC (X)
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The U.S. Geological Survey (USGS), in cooperation with the U.S. Army Corps of Engineers Engineer Research and Development Center and the U.S. Environmental Protection Agency, developed a predictive, mechanistic, three-dimensional hydrodynamic model for the St. Louis River Estuary (SLRE), Minnesota. This model was developed with Environmental Fluid Dynamics Code (EFDC), a grid-based, surface-water modeling package for simulating three-dimensional circulation, mass transport, sediments, and biogeochemical processes. The new model predicts discharge, water-surface elevations, flow velocity, and water temperature. The model was calibrated using data collected from April 2016 through November 2016 and validated with...
The U.S. Geological Survey (USGS), in a partnership with ExxonMobil Corporation, developed an updated Lake Houston EFDC model for predicting water-surface elevation, residence time, water temperature, and salinity. With a focus on salinity and water-surface elevations, the updated model simulated conditions from 2009-2017 with additional flow to simulate the Luce Bayou Interbasin Transfer under three different flow scenarios. One of the primary partnership goals was to understand the impact of the Luce Bayou Interbasin Transfer on salinity. The original model was developed and calibrated by using 2009 data and validated by using 2010 data, whereas the enhanced model (baseline model) of this project was calibrated...
The U.S. Geological Survey (USGS), in cooperation with the U.S. Army Corps of Engineers, Minnesota Pollution Control Agency, and the U.S. Environmental Protection Agency, ran a series of model scnearios using a predictive, mechanistic, three-dimensional hydrodynamic model for the St. Louis River Estuary (SLRE), Minnesota-Wisconsin. The original SLRE model was developed and published in the U.S. Geological Survey Scientific Investigations Report 2020-5028. The model scenarios for this model archive were run to to produce velocity profiles for the Munger Landing area (City of Duluth, Minnesota) within the St. Louis River Estuary. Although velocity profiles can be output for any cell within the model framework, the...
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