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41 - 50 of 397 results for: CSI::certificate

CEE 155: Introduction to Sensing Networks for CEE (CEE 255)

Introduce the design and implementation of sensor networks for monitoring the built and natural environment. Emphasis on the integration of modern sensor and communication technologies, signal processing and statistical models for network data analysis and interpretation to create practical deployments to enable sustainable systems, in areas such as energy, weather, transportation and buildings. Students will be involved in a practical project that may involve deploying a small sensor system, data models and analysis and signal processing. Limited enrollment.
Terms: Spr | Units: 3-4

CEE 156: Building Systems (CEE 256)

HVAC, lighting, and envelope systems for commercial and institutional buildings, with a focus on energy efficient design. Knowledge and skills required in the development of low-energy buildings that provide high quality environment for occupants.
Terms: Win | Units: 4 | UG Reqs: GER:DB-EngrAppSci

CEE 174A: Providing Safe Water for the Developing and Developed World

This course will cover basic hydraulics and the fundamental processes used to provide and control water, and will introduce the basics of engineering design. 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. The course should enable students to work competently in environmental engineering firms or on non-profit projects in the developing world such as Engineers without Borders. Pre-requisite: Chem31B/X.
Terms: Aut | Units: 3 | UG Reqs: WAY-SMA
Instructors: Mitch, W. (PI)

CEE 176A: Energy Efficient Buildings

Quantitative evaluation of technologies and techniques for reducing energy demand of residential-scale buildings. Heating and cooling load calculations, financial analysis, passive-solar design techniques, water heating systems, photovoltaic system sizing for net-zero-energy all-electric homes. Offered for 3 or 4 units; the 4-unit option includes a lab.
Terms: Win | Units: 3-4 | UG Reqs: GER:DB-EngrAppSci
Instructors: Masters, G. (PI)

CEE 176B: 100% Clean, Renewable Energy and Storage for Everything (CEE 276B)

This course discusses elements of a transition to 100% clean, renewable energy in the electricity, transportation, heating/cooling, and industrial sectors for towns, cities, states, countries, and companies. It examines wind, solar, geothermal, hydroelectric, tidal, and wave characteristics and resources; electricity, heat, cold and hydrogen storage; transmission and distribution; matching power demand with supply on the grid: efficiency; replacing fossil with electric appliances and machines in the buildings and industry; energy, health, and climate costs and savings; land requirements; feedbacks of renewables to the atmosphere; and 100% clean, renewable energy roadmaps to guide transitions.
Terms: Spr | Units: 3-4 | UG Reqs: GER:DB-EngrAppSci, WAY-AQR

CEE 177S: Engineering and Sustainable Development (CEE 277S, ENGR 177B, ENGR 277B)

The second of a two-quarter, project-based course sequence that address cultural, political, organizational, technical and business issues at the heart of implementing sustainable engineering projects in the developing world. Students work in interdisciplinary project teams to tackle real-world design challenges in partnership with social entrepreneurs and/or NGOs. This quarter focuses on implementation, evaluation, and deployment of the designs developed in the winter quarter. Designated a Cardinal Course by the Haas Center for Public Service
Terms: Spr | Units: 1-3 | Repeatable 3 times (up to 15 units total)

CEE 177X: Engineering and Sustainable Development: Toolkit (CEE 277X, ENGR 177A, ENGR 277A)

The first of a two-quarter, project-based course sequence that address cultural, political, organizational, technical, and business issues at the heart of implementing sustainable engineering projects in the developing world. Students work in interdisciplinary project teams to tackle real-world design challenges in partnership with social entrepreneurs and/or NGOs. While students must have the skills and aptitude necessary to make meaningful contributions to technical product designs, the course is open to all backgrounds and majors. The first quarter focuses on conceptual design, feasibility analysis, and implementation, evaluation, and deployment. Admission is by application. Following successful completion of ENGR 177A/277A, students have the option to enroll in CEE 177B/277B Engineering & Sustainable Development: Implementation. Designated a Cardinal Course by the Haas Center for Public Service.
Terms: Win | Units: 1-3 | Repeatable 20 times (up to 20 units total)

CEE 179C: Environmental Engineering Design

Application of engineering fundamentals including environmental engineering, hydrology, and engineering economy to a design problem. Enrollment limited; preference to seniors in Civil and Environmental Engineering.
Terms: Spr | Units: 5

CEE 207A: Understanding Energy (CEE 107A, EARTHSYS 103)

Energy is the number one contributor to climate change and has significant consequences for our society, political system, economy, and environment. Energy is also a fundamental driver of human development and opportunity. In taking this course, students will not only understand the fundamentals of each energy resource -- including significance and potential, conversion processes and technologies, drivers and barriers, policy and regulation, and social, economic, and environmental impacts -- students will also be able to put this in the context of the broader energy system. Both depletable and renewable energy resources are covered, including oil, natural gas, coal, nuclear, biomass and biofuel, hydroelectric, wind, solar thermal and photovoltaics (PV), geothermal, and ocean energy, with cross-cutting topics including electricity, storage, climate change and greenhouse gas emissions (GHG), sustainability, green buildings, energy efficiency, transportation, and the developing world. The course is 4 units, which includes lecture and in-class discussion, readings and videos, assignments, and two off-site field trips. Field trip offerings differ each fall (see syllabus for updated list), but may include Diablo Canyon nuclear power plant, Shasta dam, Tesla Gigafactory, NextEra wind farm, San Ardo oil field, Geyser¿s geothermal power plants, etc. Students choose two field trips from approximately 8 that are offered. Enroll for 5 units to also attend the Workshop, an interactive discussion section on cross-cutting topics that meets once per week for 80 minutes (timing TBD). The 3-unit option requires instructor approval - please contact Diana Ginnebaugh. Open to all: pre-majors and majors, with any background! The course was formerly called Energy Resources. Website: http://web.stanford.edu/class/cee207a/ nFor a course that covers all of this but goes less in-depth into the technical aspects of each energy resource, check out CEE 107S/207S Understanding Energy: Essentials, offered spring and summer (cannot take both for credit). Prerequisites: Algebra. May not be taken for credit by students who have completed CEE 107S/207S or CEE 107E.
Terms: Aut | Units: 3-5

CEE 224A: Sustainable Development Studio

(Undergraduates, see 124.) Project-based. Sustainable design, development, use and evolution of buildings; connections of building systems to broader resource systems. Areas include architecture, structure, materials, energy, water, air, landscape, and food. Projects use a cradle-to-cradle approach focusing on technical and biological nutrient cycles and information and knowledge generation and organization. May be repeated for credit.
Terms: Aut, Win, Spr, Sum | Units: 1-5 | Repeatable for credit
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