2019-2020 2020-2021 2021-2022 2022-2023 2023-2024
Browse
by subject...
    Schedule
view...
 

171 - 180 of 375 results for: CEE

CEE 222B: Computer Integrated Architecture/Engineering/Construction (AEC) Global Teamwork

Global AEC student teams continue their project activity focusing on the most challenging concept developed in 222A and chosen jointly with their client. Comprehensive team project focusing on design and construction, including: project development and documentation; detailing, 3D and 4D modeling, simulation, sustainable concepts, cost benefit analysis, and life-cycle cost analysis; and final project presentation of product and process. Prerequisite: CEE 222A.
Terms: Spr | Units: 2
Instructors: Fruchter, R. (PI)

CEE 223: Materials for Sustainable Built Environments

In this course, students will learn about new and traditional construction materials for use in sustainable building and infrastructure projects. Materials will include cement-based materials and fiber-reinforced polymer composites for structural and non-structural applications, as well as novel materials for e.g., facades, insulation, and paving. Material properties, their performance over time and their impact on people and the environment will be discussed. Pre-requisite: CEE 101A or equivalent.
Terms: Win, Spr | Units: 3

CEE 223A: Cement-based Materials, Properties and Durability

Students will develop an understanding of the chemical and physical processes of cement and concrete hydration, strength development, mechanical performance and durability. Students will learn how the properties of materials and admixture combine to create a wide range of cement-based materials used in the built environment. The course will address sustainable construction, including the use of alternative cements, admixtures, and aggregates. Students will apply the principles in this course to various aspects of civil and structural engineering, including innovative mix design specification and review, structural investigations and failure analysis, and cementitious materials research.
Terms: Win | Units: 2
Instructors: Douglas, K. (PI)

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

CEE 224S: Sustainable Urban Systems Seminar

The Sustainable Urban Systems (SUS) Seminar Series will feature speakers from academia, practice, industry, and government who are on the forefront of research and innovation in sustainable urban systems. The SUS Seminar will be open to the public; students will have the option of obtaining 1 unit of course credit based on attendance and completion of writing assignments.
Terms: Win, Spr | Units: 1

CEE 224X: Sustainable Urban Systems Project

Sustainable Urban Systems (SUS) Project is a project-based learning experience being piloted for an upcoming new SUS M.S. Program within CEE. For a minimum 2 units (open enrollment, engineers and non-engineers, undergraduate and graduate level), students attend lectures/discussions on Tuesdays and labs/workshops on Thursdays and complete light weekly assignments. For an optional added 1-3 units (by application only), students are placed in small interdisciplinary teams and work on complex design, engineering, and policy problems presented by external partners in a real-world urban setting. Multiple projects are offered throughout the academic year and may span multiple quarters. Students are expected to interact with professionals and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. For more information and to apply, visit  http://sus.stanford.edu.
Terms: Aut | Units: 2-5

CEE 224Y: Sustainable Urban Systems Project

Sustainable Urban Systems (SUS) Project is a project-based learning experience being piloted for an upcoming new SUS M.S. Program within CEE. Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered throughout the academic year and may span multiple quarters. Students are expected to interact with professionals and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. To view project descriptions and apply, visit http://sus.stanford.edu/courses/.
Terms: Win | Units: 2-5

CEE 224Z: Sustainable Urban Systems Project

Sustainable Urban Systems (SUS) Project is a project-based learning experience being piloted for an upcoming new SUS M.S. Program within CEE. Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered throughout the academic year and may span multiple quarters. Students are expected to interact with professionals and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. To view project descriptions and apply, visit http://sus.stanford.edu/courses/.
Terms: Spr | Units: 3-5

CEE 225: Defining Smart Cities: Visions of Urbanism for the 21st Century (CEE 125, URBANST 174)

In a rapidly urbanizing world, "the city" paves the way toward sustainability and social well-being. But what does it mean for a city to be smart? Does that also make it sustainable or resilient or livable? This seminar delves into current debates about urbanism through weekly talks by experts on topics such as big data, human-centered design, new urbanism, and natural capital. How urban spaces are shaped, for better or worse, by the complex interaction of cutting-edge technology, human societies, and the natural environment. The goal is to provoke vigorous discussion and to foster an understanding of cities that is at once technological, humanistic, and ecologically sound.
Terms: Aut | Units: 1-2

CEE 226: Life Cycle Assessment for Complex Systems

Life cycle modeling of products, industrial processes, and infrastructure/building systems; material and energy balances for large interdependent systems; environmental accounting; and life cycle costing. These methods, based on ISO 14000 standards, are used to examine emerging technologies, such as biobased products, building materials, building integrated photovoltaics, and alternative design strategies, such as remanufacturing, dematerialization, LEED, and Design for Environment: DfE. Student teams complete a life cycle assessment of a product or system chosen from industry.
Terms: Aut | Units: 3-4
Instructors: Lepech, M. (PI)
Filter Results:
term offered
updating results...
teaching presence
updating results...
number of units
updating results...
time offered
updating results...
days
updating results...
UG Requirements (GERs)
updating results...
component
updating results...
career
updating results...
© Stanford University | Terms of Use | Copyright Complaints