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Course Criteria
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3.00 Credits
Laws governing the movement, recharge, and production of underground water with special emphasis on techniques and methods for analysis and modeling for development of groundwater resources. Dual list: CE 4810. Prerequisite: CE 4800.
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3.00 Credits
Develop understanding, analysis, design and construction techniques for all components considered in small earth dam design. integration of hydrology, hydraulics and soil mechanics into a sound dam design. Dam design will be emphasized from foundation through embankment. Prerequisite: CE 3300, 3600 and 4800 or concurrent enrollment.
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3.00 Credits
Examines fluid (liquid, gas, vapor) and heat flow in porous media and its effects specifically in soil. Near surface effects (impibation, infiltration and evaporation) is emphasized. Analytic and numerical solution techniques will be developed. Prerequisite: CE 5810.
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3.00 Credits
Develop principles and fundamental parameters that control groundwater flow and solute transport in groundwater systems. Introduce basic geochemical processes and contaminant chemistry and site monitoring techniques relevant to groundwater problems. Prerequisites: CE 5810, equivalent, or instructor approval.
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3.00 Credits
This course introduces recent advances in dealing with uncertainty issues in subsurface hydrology. Covered topics include reviewing basic statistics required for the course and subsurface flow and transport, uncertainty analysis using Monte Carlo simulations, sensitivity analysis in flow and contaminant transport, heterogeneity of hydrological processes in subsurface, and Bayesian updating.Prerequisites: CE 5810 or CE4800
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3.00 Credits
Physical principles of soil erosion by wind and water, computer simulations of erosion, selection and design of erosion control practices and structures. Prerequisite: CE 4300, CE 4800.
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3.00 Credits
Philosophy of modeling, hydrologic model formulation and design; lumped, semi-distributed, and physics-based hydrologic models for watershed- and landscape-scale predictions; process-level mathematical and numerical descriptions and coupling; model calibration, testing, and validation; parameterization, numerical approximations of flow equations; scale effects, modeling ethics. Prerequisites: CE 4800.
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3.00 Credits
Study in water resource planning and design and problem solving applying engineering principles and procedures. Western United States water problems are emphasized, including user completion, reallocation, consumptive use, water development, conservation, conveyance losses, and return flows. Dual listed CE 4870. Prerequisite: CE 3300.
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3.00 Credits
Introduction to the language, methods and tools in systems analysis in stochastic hydrologic modeling; parameter estimation; sensitivity analysis; optimization schemes; uncertainty analysis; probabilistic forecasting; state-space modeling with Kalman filtering, and data assimilation. Prerequisites: CE 4800.
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3.00 Credits
Advanced hydrologic analysis for the Mountain States, principles of hydrological system, and numerical models. Prerequisites: MATH 2310
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