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Course Criteria
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3.00 Credits
Principles of fluid motion in porous media. Techniques for design and construction of groundwater components in water resources systems. Introduces contaminant movement in the sub-surface and the mitigation of groundwater contamination. Computer applications.
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3.00 Credits
An overview of solid, hazardous, and industrial waste management. Topics include regulations, contaminant transport, waste sources, waste minimization, recycling, treatment and remediation technologies, landfill design and risk assessment.
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3.00 Credits
Analysis and design of masonry and timber structures. Sizing of members in masonry and timber according to applicable building codes.
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3.00 Credits
Fundamentals of hydrogeology: the hydrologic cycle; surface water and ground water interactions; principles of steady-state and transient flow groundwater flow; regional groundwater flow; finite difference solutions to groundwater flow equations. Application of MODFLOW and GIS to groundwater problems. Aquifer tests; ground water law and management; contaminant transport.
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3.00 Credits
Introduction to the planning, analysis and design of road-based transportation systems. Topics include alignment and geometric design; measuring and estimating demand, safety, and fundamentals of traffic engineering.
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3.00 Credits
The analysis and response of structures to dynamic loads. Emphasis is given to dynamic loads due to earthquakes. Basic principles of the seismic design of structures. Prerequisites: CENG 301 and ENSC 306. Fall.
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3.00 Credits
The theory and design of physical and chemical treatment processes for water and wastewater. Topics include traditional wastewater treatment plant unit operations. Additional topics include sustainability, grey water, water reuse, developing countries, and remediation.
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3.00 Credits
Course presents fundamentals of stream restoration: Hydrologic, sediment transport, geomorphic, and ecological principles applicable to (1) assessment of stream channel condition, (2) developing approaches to stream management and restoration, and (3) evaluating project performance. Approach emphasizes the inter-related nature of hydrology, hydraulics, sediment transport, geomorphology, fisheries, and aquatic and riparian ecology. Provides students opportunities to literally get their feet wet while making various observations and measurements in field exercises to evaluate physical and ecological stream characteristics assess stream stability.
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3.00 Credits
Design and construction supervision of the infrastructure required for land development. Topics include roadway geometry, water supply pipelines, sewer pipelines, and storm water drainage. Students will prepare design drawings, project plans, project reports, project specifications, and construction cost estimates that address regulatory requirements.
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3.00 Credits
Quantitative Risk Analysis provides engineers with a basis to improve decisions for design and operation of complex projects by incorporating effects of uncertainty. Applications to a variety of engineering problems.
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