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CEE 6430: Groundwater Engineering

3.00 Credits

Utah State University

Explores fundamentals of groundwater hydrology by focusing on theory related to aquifer systems and flow analysis, regional groundwater balance, well hydraulics, aquifer testing, capture zone analysis, unsaturated flow, saltwater intrusion, and basics of flow modeling. Prerequisite/Restriction: CEE 3430 or a similar hydrology course. Cross-listed as: CEE 5430.

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CEE 6440: Advanced Hydrology Through CUAHSI Virtual University

1.00 - 4.00 Credits

Utah State University

A web broadcast graduate level course consisting of a diverse set of four-week modules offered by instructors at Consortium of Universities for the Advancement of Hydrologic Science (CUAHSI) member universities. Students do between 1 and 4 modules of their choosing from member university offerings, which vary year to year. Registration Restriction(s): Graduate Standing Repeatable for credit: Yes Grade Mode: Standard

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CEE 6450: Hydrologic Modeling

3.00 Credits

Utah State University

Conceptual and numerical flow models and groundwater yield concepts (mining, sage, sustained). Simulation of management strategies to achieve such yields, including aquifer groundwater flow, watershed runoff from precipitation, and river flow in rivers. Hydrologic model classification, boundary conditions, and calibration. Prerequisite/Restriction: CEE 3430. Cross-listed as: CEE 5450.

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CEE 6460: Water Resources Engineering

3.00 Credits

Utah State University

Engineering design course covering a wide range of topics, including: surface and groundwater hydrology, statistical analysis, water law, hydroelectric power, water supply, irrigation, flood control, wastewater, drainage, dams and reservoirs, pipelines, open channels, and planning. Prerequisite/Restriction: CEE 3430, CEE 3500, and CEE 4200. Cross-listed as: CEE 5460.

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CEE 6470: Sedimentation Engineering

3.00 Credits

Utah State University

Explores river response, sediment transport, sediment and watershed yield, flow resistance, scour and erosion, and floodplain management. Prerequisite/Restriction: CEE 3500. Cross-listed as: CEE 5470.

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CEE 6480: Groundwater Contamination: Modeling, Monitoring, and Management

3.00 Credits

Utah State University

In-depth exploration of physical, chemical, and biological processes related to fate and transport of contaminants in the subsurface, mathematical modeling, remediation technologies, and mitigation of contaminated sites using risk-based decision-making. Prerequisite/Restriction: CEE 5430/CEE 6430 or equivalent.

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CEE 6490: Integrated River Basin/Watershed Planning and Management

3.00 Credits

Utah State University

This course introduces students to modern tools, strategies, and challenges to manage river basins. It covers multiple and competing water supplies, hydropower generation, recreation, ecosystem, and other objectives. Students forecast water demands, model operations, assess policies, and communicate with diverse stakeholders. Additional coursework is required for those enrolled in the graduate-level course. Crosslisted as CEE 5490 Prerequisite/Restriction: Graduate Standing

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CEE 6500: Open Channel Hydraulics with an Emphasis on Gradually Varied Flow

3.00 Credits

Utah State University

Theory and applications of steady uniform and gradually varied flow under both subcritical and supercritical flow conditions. Solutions to multiple-network canal systems by solving systems of combined ordinary differential and algebraic equations. Method for defining natural channel systems and solving steady-state flows in them. Prerequisites: CEE 3500, 3510 Crosslisted as: CEE 5500

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CEE 6510: Numerical and Statistical Methods for Civil Engineers

3.00 Credits

Utah State University

Engineering applications of approximation and interpolation, solution methods for ordinary differential equations, numerical solution of partial differential equations, nonparametric and parametric probability and regression estimation, and Monte Carlo and uncertainty analysis. (F)

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CEE 6530: Hydraulic Modeling

3.00 Credits

Utah State University

This course explores the derivation of the Navier-Stokes equations and solutions to unsteady free-surface flows with an emphasis on solving practical flow problems from industry and research perspectives using existing CFD software/solvers used in industry to model channels, rivers, and hydraulic structures. Prerequisite(s): CEE 5500 or CEE 6500 Repeatable for credit: No Grade Mode: Standard

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