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91 - 100 of 133 results for: CEE

CEE 273S: Electricity Economics (CEE 173S)

This course develops a foundation of economic principles for the electric utility on the topics of regulation, planning, and operation. Topics covered in regulation include cost of capital, calculation of the revenue requirement, and rate design. Topics covered in planning include generation costs (fixed and variable), reliability, marginal costs, and cost-effectiveness. Topics covered in operations include least-cost dispatch and energy markets. The course is geared toward emerging electricity sector topics including renewable energy, distributed energy resources, energy storage, and clean firm resources. The course also covers the history of the U.S. electricity sector and its evolution to the current technical and regulatory structure with the goal that economic principles can be used to achieve a system that is both economically efficient and environmentally sustainable.
Terms: Win | Units: 3

CEE 276G: Sustainability Design Thinking (CEE 176G)

Application design thinking to make sustainability compelling, impactful and realizable. Analysis of contextual, functional and human-centered design thinking techniques to promote sustainable design of products and environments by holistically considering space, form, environment, energy, economics, and health. Includes Studio project work in prototyping, modeling, testing, and realizing sustainable design ideas. Prerequisite: Enrollment limited and by Permission Number only. Email instructor for application form.
Terms: Win, Sum | Units: 3

CEE 277F: Advanced Field Methods in Water, Health and Development

Field methods for assessing household stored water quality, hand contamination, behaviors, and knowledge related to water, sanitation and health. Limited enrollment. Instructor consent required.
Terms: Aut, Win, Spr, Sum | Units: 1-10
Instructors: Davis, J. (PI)

CEE 278A: Air Pollution Fundamentals

The sources and health effects of gaseous and particulate air pollutants. The influence of meteorology on pollution: temperature profiles, stability classes, inversion layers, turbulence. Atmospheric diffusion equations, downwind dispersion of emissions from point and line sources. Removal of air pollutants via settling, diffusion, coagulation, precipitation, Mechanisms for ozone formation, in the troposphere versus in the stratosphere. Effects of airborne particle size and composition on light scattering/absorption, and on visual range. Prerequisites: MATH 51 or equivalent. Recommended: 101B, CHEM 31A, or equivalents.
Terms: Aut, Win | Units: 3

CEE 279E: Wastewater Treatment: From Disposal to Resource Recovery (CEE 179E)

This course covers basic hydraulics and the fundamental processes used to treat wastewater. In addition to understanding the details behind the fundamental processes, students will learn to feel comfortable developing initial design criteria (30% designs) for fundamental processes. Students should also develop a feel for the typical values of water treatment parameters and the equipment involved. After covering conventional processes, the class addresses newer processes used to meet emerging treatment objectives, including nutrient removal, composting of biosolids and recycling of wastewater for beneficial uses, including potable reuse.n(Note this course was formerly CEE 174B)
Terms: Win, Spr | Units: 3

CEE 281: Mechanics and Finite Elements

Fluid conduction and solid deformation; conservation laws: balance of mass and balance of momentum; generalized Darcy's law and Hooke's law in 3D; the use of tensors in mechanics; finite element formulation of boundary-value problems; variational equations and Galerkin approximations; basic shape functions, numerical integration, and assembly operations.
Terms: Win | Units: 3

CEE 282: Nonlinear Structural Analysis

Introduction to methods of geometric and material nonlinear analysis, emphasizing modeling approaches for framed structures. Large-displacement analysis, concentrated and distributed plasticity models, and nonlinear solution methods. Applications to frame stability and performance-based seismic design. Assignments emphasize computer implementation and applications. Prerequisites: 280 and an advanced course in structural behavior (e.g., 285A, 285B or equivalent).
Terms: Win | Units: 3-4

CEE 283: Structural Dynamics

Vibrations and dynamic response of simple structures under time dependent loads; dynamic analysis of single and multiple degrees of freedom systems; support motion; response spectra.
Terms: Win, Sum | Units: 3-4

CEE 285B: Advanced Structural Steel Behavior and Design

Advanced topics in structural steel design. Topics include composite floor systems; bolted and welded connections; beam-column connections; innovative lateral load resisting systems. As part of this course students design a 15-story steel building. Prerequisite: basic course in structural steel design CEE182 or equivalent.
Terms: Win | Units: 3-4

CEE 288: Seismic Hazard and Risk Analysis (GEOPHYS 289)

Introduction to principles and procedures behind probabilistic seismic hazard and risk analysis. Engineering seismology topics include earthquake source characterization and ground motion characterization. Risk topics include fragility and vulnerability functions, ground motion selection, and an introduction to performance-based earthquake engineering. Integrative calculations to quantify hazard and risk. Prerequisite: CEE 203 or equivalent.
Terms: Win | Units: 3-4
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