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31 - 40 of 139 results for: CEE ; Currently searching spring courses. You can expand your search to include all quarters

CEE 141C: Global Infrastructure Projects Seminar (CEE 241C)

Nine current global infrastructure projects presented by top project executives or company leaders from industry. Water, transportation, energy and communication projects are featured. Course provides comparisons of project development, win and delivery approaches for mega-projects around the world. Alternative project delivery methods, the role of public and private sector, different project management and construction strategies, and lessons learned. The course also includes field trips to local mega-projects. Grade (one unit) is based on attending all 9 lectures and at least 2 field trips.
Terms: Spr | Units: 1-2
Instructors: Sedar, B. (PI)

CEE 146S: Engineering Economics and Sustainability (ENGR 60)

Engineering Economics is a subset of the field of economics that draws upon the logic of economics, but adds that analytical power of mathematics and statistics. The concepts developed in this course are broadly applicable to many professional and personal decisions, including making purchasing decisions, deciding between project alternatives, evaluating different processes, and balancing environmental and social costs against economic costs. The concepts taught in this course will be increasingly valuable as students climb the carrier ladder in private industry, a non-governmental organization, a public agency, or in founding their own startup. Eventually, the ability to make informed decisions that are based in fundamental analysis of alternatives is a part of every career. As such, this course is recommended for engineering and non-engineering students alike. This course is taught exclusively online in every quarter it is offered. (Prerequisites: MATH 19 or 20 or approved equivalent.)
Terms: Aut, Spr, Sum | Units: 3

CEE 151: Negotiation (CEE 251)

Students learn to negotiate in a variety of arenas including getting a job, workplace negotiations, transactional transactions, and managing personal relationships. The class is interactive and case based; students will do weekly negotiations out of class. The instructor has worked as a professional negotiator in over 75 countries including work in political and ethnic conflict, land use and construction mediation, corporate mergers and acquisitions, and capital raising in the technology sector. He has taught this popular class at Stanford for over 20 years. An application is required in order to get into the class. Students should enroll on Axess and complete the application on Canvas by April 1st. Application instructions will be available on Axess or through the class website on Canvas. There will be a class fee in order to access the cases and other materials for the course.
Terms: Spr | Units: 3

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 162E: Rivers, Streams, and Canals (CEE 262E)

Introduction to the movement of water through natural and engineered channels, streams, and rivers. Basic equations and theory (mass, momentum, and energy equations) for steady and unsteady descriptions of the flow. Application of theory to the design of flood- control and canal systems. Flow controls such as weirs and sluice gates; gradually varied flow; Saint-Venant equations and flood waves; and method of characteristics. Laboratory demonstrations involving experiments with controls such as weirs and gates, gradually varied flow, and waves will be integrated into the class material. Prerequisite: CEE 101B or CEE 162A.
Terms: Spr | Units: 3 | UG Reqs: GER:DB-EngrAppSci
Instructors: Koseff, J. (PI)

CEE 165H: Big Earth Hackathon Wildland Fire Challenge (CEE 265H)

Come and tackle a problem in sustainability by participating in Stanford's Big Earth Hackathon challenge on wildland fires and finding an innovative solution to wildland fire prediction, mitigation, and/or equity and fairness. Students work in self-organized diverse teams of 1-4 students in weeks 1-8, with a final presentation of the work on Friday May 31. The teams will spend the first few weeks designing their specific team problem/scope/goals under one or more of the three primary areas of focus. Guidance in the design and solution processes will be provided by faculty, industry and/or community leaders. Workshops in data analysis, programming, GIS, and fundamental issues related to wildfires will be provided at the start of the quarter to give students tools and insights to define and tackle problems.
Terms: Spr | Units: 3
Instructors: Fong, D. (PI)

CEE 172: Air Quality Management

Quantitative introduction to the engineering methods used to study and seek solutions to current air quality problems. Topics: global atmospheric changes, urban sources of air pollution, indoor air quality problems, design and efficiencies of pollution control devices, and engineering strategies for managing air quality. Prerequisites: 70, MATH 51.
Terms: Spr | Units: 3 | UG Reqs: GER:DB-EngrAppSci
Instructors: Kopperud, R. (PI)

CEE 175A: California Coast: Science, Policy, and Law (CEE 275A)

This interdisciplinary course integrates the legal, scientific, and policy dimensions of how we characterize and manage resource use and allocation along the California coast. We will use this geographic setting as the vehicle for exploring more generally how agencies, legislatures, and courts resolve resource-use conflicts and the role that scientific information and uncertainty play in the process. Our focus will be on the land-sea interface as we explore contemporary coastal land-use and marine resource decision-making, including coastal pollution, public health, ecosystem management; public access; private development; local community and state infrastructure; natural systems and significant threats; resource extraction; and conservation, mitigation and restoration. Students will learn the fundamental physics, chemistry, and biology of the coastal zone, tools for exploring data collected in the coastal ocean, and the institutional framework that shapes public and private decisions more »
This interdisciplinary course integrates the legal, scientific, and policy dimensions of how we characterize and manage resource use and allocation along the California coast. We will use this geographic setting as the vehicle for exploring more generally how agencies, legislatures, and courts resolve resource-use conflicts and the role that scientific information and uncertainty play in the process. Our focus will be on the land-sea interface as we explore contemporary coastal land-use and marine resource decision-making, including coastal pollution, public health, ecosystem management; public access; private development; local community and state infrastructure; natural systems and significant threats; resource extraction; and conservation, mitigation and restoration. Students will learn the fundamental physics, chemistry, and biology of the coastal zone, tools for exploring data collected in the coastal ocean, and the institutional framework that shapes public and private decisions affecting coastal resources. There will be 3 to 4 written assignments addressing policy and science issues during the quarter, as well as a take-home final assignment. Special Instructions: In-class work and discussion is often done in interdisciplinary teams of students from the School of Law, the School of Engineering, the School of Humanities and Sciences, and the Doerr School of Sustainability. Students are expected to participate in class discussion and field trips. Elements used in grading: Participation, including class session and field trip attendance, writing and quantitative assignments. Cross-listed with Civil & Environmental Engineering ( CEE 175A/275A) and Law ( LAW 2510). Open to graduate students and to advanced undergraduates with instructor permission. Enrollment limited.
Terms: Spr | Units: 3-4

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
Instructors: Jacobson, M. (PI)

CEE 177Q: Data Analysis, Presentation, and Interpretation in Environmental Engineering (CEE 277Q)

This class is designed for students interested in pursuing research-based careers. It covers practical aspects of data analysis, presentation, interpretation relevant to the field of environmental engineering. Learning objectives include identifying and refining research questions, choosing appropriate data analysis methods, and applying principles of effective visual and written presentation of proposed research and research findings. Additional topics to be covered include preparing a constructive review, research ethics, and navigating the publication process.
Terms: Spr | Units: 3
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