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51 - 60 of 73 results for: CSI::energy-environment ; Currently searching offered courses. You can also include unoffered courses

ENVRES 225: E-IPER Current Topics Seminar

For E-IPER Ph.D and Joint M.S. students only. Weekly presentations of E-IPER students' research and other program-related projects. Occasional guest speakers. Individual or team presentation, active participation, and regular attendance required for credit. May be taken for credit a maximum of two times.
Terms: Aut, Win, Spr | Units: 1 | Repeatable 2 times (up to 2 units total)
Instructors: Barsom, S. (PI)

ENVRES 280: Introduction to Environmental Science

For E-IPER Joint M.S. students only. This course functions as a gateway for E-IPER Joint M.S. students to learn about the variety of environmental science conducted by the program's affiliated faculty. Topics include oceans, green chemistry, water policy, energy, and others. Students engage in problem solving related to the application of science to business, law, and the conservation of natural resources.
Terms: Spr | Units: 2

ENVRES 290: Capstone Project Seminar in Environment and Resources

Required for and limited to E-IPER Joint M.S. students. Propose, conduct and publicly present final individual or team projects demonstrating the integration of professional (M.B.A., J.D., or M.D.) and M.S. in Environment and Resources degrees. Presentation and submission of final product required. 3 total units required; can all be taken during one quarter or divided over two sequential quarters.
Terms: Aut, Win | Units: 1-3 | Repeatable 2 times (up to 6 units total)

ENVRES 380: Collaborating with the Future: Launching Large Scale Sustainable Transformations

This project-based d.school class combines Design Thinking with Systems Thinking, with the goal of designing interventions to large scale, complex and systemic challenges. This class draws from System theory, Behavioral Sciences, elements of Diffusion Theory, and a methodology for scaled transformation. Tools and theories introduced in class will be used to structure large-scale transformations that simultaneously create value on environmental, societal, and economic fronts. This is a project-based class involving team-based, real world challenges that are all complex and scaled. Primarily meant for Graduate Students (especially qualified/motivated Seniors will be considered). Admission to the class is through an application process through the d.school. Please find instructions and applications at the d.school class applications website.
Terms: Spr | Units: 3-4

ESS 270: Analyzing land use in a globalized world

This is a graduate level course that examines the dynamics of land use in relation to the multiple dimensions of globalization. The objective is to understand and analyze how the expansion of global trade, the emergence of new global actors, and public and private regulations affect land use changes. Beyond getting a better understanding of the dynamics of land use change, the course will enable students to better understand how to effectively influence land use change, from different vantage points: government, NGO, information broker, corporate actor. The main emphasis is on tropical regions. Lectures introduce various topics related to theories, practical cases, and evaluation tools to better understand and analyze contemporary land use dynamics. Data analyses will be conducted in the lab section, based on case studies.
Terms: Spr | Units: 3

ESS 280: Principles and Practices of Sustainable Agriculture (EARTHSYS 180)

Field-based training in ecologically sound agricultural practices at the Stanford Community Farm. Weekly lessons, field work, and group projects. Field trips to educational farms in the area. Topics include: soils, composting, irrigation techniques, IPM, basic plant anatomy and physiology, weeds, greenhouse management, and marketing.
Terms: Aut, Spr | Units: 3-4 | Repeatable 3 times (up to 12 units total)
Instructors: Archie, P. (PI)

ESS 282: Designing Educational Gardens (EARTHSYS 182)

A project-based course emphasizing 'ways of doing 's sustainable agricultural systems based at the new Stanford Educational Farm. Students will work individually and in small groups on the design of a new educational garden and related programs for the Stanford Educational Farm. The class will meet on 6 Fridays over the course of winter quarter. Class meetings will include an introduction to designing learning gardens and affiliated programs, 3 field trips to exemplary educational gardens in the bay area that will include tours and discussions with garden educators, and work sessions for student projects. By application only.
Terms: Win | Units: 2
Instructors: Archie, P. (PI)

ESS 305: Climate Change: An Earth Systems Perspective

A graduate-level, seminar-style class on climate change structured around the IPCC's AR5. Significant reading load and weekly talks by a rotating roster of contributing and lead authors from the IPCC. The focus will be on the physical science basis, adaptation and impacts (working groups 1 and 2), with some material drawn from mitigation (working group 3).
Terms: Aut | Units: 2

GSBGEN 335: Clean Energy Project Development and Finance

This case study-oriented course will focus on the critical skills needed to evaluate, develop, finance (on a non-recourse basis), and complete standalone energy and infrastructure projects. The primary course materials will be documents from several representative projects - e.g. solar, wind, storage, carbon capture - covering key areas including market and feasibility studies, environmental permitting and regulatory decisions, financial disclosure from bank and bond transactions, and construction, input, and offtake contracts. Documents and economic models tend to be highly customized. By taking a forensic approach, looking at several different projects, we can learn how project developers, financiers, and lawyers work to get deals over the finish line that meet the demands of the market, the requirements of the law, and (sometimes) broader societal goals, in particular climate change, economic competitiveness, and energy security.
Terms: Win | Units: 3

GSBGEN 336: Energy Markets and Policy

Transforming the global energy system to reduce climate change impacts, ensure security of supply, and foster economic development of the world's poorest regions depends on the ability of commercial players to deliver the needed energy at scale. Technological innovation is a necessary but not sufficient condition for this to occur. The complex institutional frameworks that regulate energy markets in the United States and around the world will play a major role in determining the financial viability of firms in the energy sector. In this course we survey the institutional contexts for energy enterprises of all types and consider what kinds of business models work in each setting. We study in detail how markets function for carbon (assessing the advantages and disadvantages of different policy tools and considering in particular California's implementation of A.B. 32); electricity (with extensive discussion of wholesale electricity markets, energy trading, and issues of market power); renewable energy technologies (focusing on ways to manage intermittency and on how renewable energy businesses respond to government incentives); nuclear power (as a case study of how the regulatory process affects investment decisions); oil and natural gas (treating both conventional and unconventional resources and emphasizing the key role of risk management in an industry characterized by uncertainty and high capital requirements); transportation fuels (discussing biofuels incentives, fuel efficiency standards, and other policy tools to lower carbon intensity); and energy for low-income populations, for which affordability and distribution pose special challenges. A primary teaching tool in the course is a game-based simulation of California's electricity markets under cap and trade. Student teams play the role of power companies and compete to maximize return by bidding generation into electricity markets and trading carbon allowances. The objective of the course is to provide a robust intellectual framework for analyzing how a business can most constructively participate in any sector like energy that is heavily affected by government policy. Instructors: Frank A. Wolak, Director, Program on Energy and Sustainable Development; Mark Thurber, Associate Director, Program on Energy and Sustainable Development.
Terms: Win | Units: 3
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