printer friendly pageENERGY 177B: Engineering and Sustainable Development: Implementation (ENERGY 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
2 times
(up to 6 units total)
ENERGY 203: Stanford Climate Ventures
Solving the global climate challenge will require the creation and successful scale-up of hundreds of new ventures. This project-based course provides a launchpad for the development and creation of transformational climate ventures and innovation models. Interdisciplinary teams will research, analyze, and develop detailed launch plans for high-impact opportunities in the context of the new climate venture development framework offered in this course. Throughout the quarter, teams will complete 70+ interviews with customers, sector experts, and other partners in the emerging climatetech ecosystem, with introductions facilitated by the teaching team's unique networks in this space. Please see the course website
scv.stanford.edu for more information and alumni highlights. Project lead applications are due by December 11 through tinyurl.com/scvprojectlead. Students interested in joining a project team, please briefly indicate your interest in the course at tinyurl.com/scvgeneralinterest. Cardinal Course certified by the Haas Center for Public Service.
Terms: Win, Spr
| Units: 1-5
| Repeatable
3 times
(up to 18 units total)
Instructors:
Danielson, D. (PI)
;
McColl, D. (PI)
;
Moxley, J. (PI)
...
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Instructors:
Danielson, D. (PI)
;
McColl, D. (PI)
;
Moxley, J. (PI)
;
Woodward, J. (PI)
;
Schechter, A. (TA)
;
Singhla, B. (TA)
ENERGY 277A: Engineering and Sustainable Development: Toolkit (ENERGY 177A)
The first of a two-quarter, project-based course sequence that address cultural, sociopolitical, organizational, technical, and ethical issues at the heart of implementing sustainable engineering projects in a developing world. Students work in interdisciplinary project teams to tackle real-world design challenges in partnership with social entrepreneurs, local communities, 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 cultural awareness, ethical implications, user requirements, conceptual design, feasibility analysis, and implementation planning. Admission is by application. Students should plan to enroll in
ENERGY 177B/277B Engineering & Sustainable Development: Implementation following successful completion of this course. Designated a Cardinal Course by the Haas Center for Public Service. To satisfy a Ways requirement, students must register for an undergraduate course number (
ENERGY 177A) and this course must be taken for at least 3 units.
Terms: Win
| Units: 1-3
| Repeatable
2 times
(up to 6 units total)
ENERGY 277B: Engineering and Sustainable Development: Implementation (ENERGY 177B)
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
2 times
(up to 6 units total)
ENVRES 223: Introduction to Environmental Justice: Race, Class, Gender and Place (EARTHSYS 194)
This course examines the rhetoric, history and key case studies of environmental justice while encouraging critical and collaborative thinking, reading and researching about diversity in environmental movements within the global community and at Stanford, including the ways race, class and gender have shaped environmental battles still being fought today. We center diverse voices by bringing leaders, particularly from marginalized communities on the frontlines to our classroom to communicate experiences, insights and best practices. Together we will develop and present original research projects which may serve a particular organizational or community need, such as racialized dispossession, toxic pollution and human health, or indigenous land and water rights, among many others. Cardinal Course certified by the Haas Center for Public Service. On Mondays, we will meet for discussion-based seminars and small group activities. On Wednesdays, Intro to EJ students will attend lectures presented by leading EJ scholars and advocates through the Environmental Justice Colloquium (
EARTHSYS 194A).
Terms: Aut
| Units: 4
ESS 155: Science of Soils (EARTHSYS 155)
Physical, chemical, and biological processes within soil systems. Emphasis is on factors governing nutrient availability, plant growth and production, land-resource management, and pollution within soils. How to classify soils and assess nutrient cycling and contaminant fate. Recommended: introductory chemistry and biology.
Terms: Spr
| Units: 4-5
| UG Reqs: GER: DB-NatSci, WAY-SMA
ETHICSOC 232T: Philanthropy for Sustainable Development (POLISCI 236, POLISCI 236S, SUSTAIN 222)
This course teaches students how to pursue social change through philanthropy with a focus on sustainable development. Students learn about the approaches, history, and key debates in philanthropy, and apply their knowledge by collaboratively making a substantial class contribution to one or more select nonprofit organizations. This class responds to the reality confronting all philanthropists: There are many ways in which we can change the world for the better, but our money and time is finite. How then can we best use our limited resources to accomplish change? And how will we know we've been successful? By the end of the course, students will understand the fundamentals of effective philanthropy, including how to define problems, develop a theory of change, evaluate outcomes, and reduce unintended harm. Students of all levels of familiarity with philanthropy are welcome to join and no discipline is privileged in the class.
Terms: Spr
| Units: 4-5
| UG Reqs: WAY-ER
GEOPHYS 190: Near-Surface Geophysics: Imaging Groundwater Systems
Introduction to geophysical methods that can be used for imaging and characterizing groundwater systems. Recurring periods of drought and flooding in California have led state and local water agencies to search for ways to capture flood water and use it to recharge (refill) the over-pumped groundwater systems. The course this year will be structured around analyzing a new geophysical data set to identify optimal locations for recharge. The data set: 26,000 kilometers of electromagnetic data, acquired with a helicopter-deployed system, which image the groundwater systems of the Valley to a depth of ~300 m. We will analyze these data to find optimal sites for recharge by mapping out the variation in sediment type and identifying pathways for flow. Pre-requisite:
CME 100 or
Math 51, or co-registration in either.
Terms: Spr
| Units: 4
| UG Reqs: WAY-SMA, GER:DB-EngrAppSci
Instructors:
Knight, R. (PI)
;
Prentice, B. (TA)
LAW 808D: Policy Practicum: Smoke: Wildfire Science and Policy Lab
Clients: California Native American Tribes, prescribed burn associations, federal legislative and executive branch decision makers. Wildfire has emerged as one of the most pressing biodiversity, air pollution and public health threats in the Western United States. Advancing land stewardship at sufficient scale to substantially improve the resilience of western forests to fire is critical to reducing wildfire risks and air pollution exposure for the tens of millions that live downwind. Communities are under threat as never before from catastrophic wildfire. Electric utilities face enormous challenges even as they strive to decarbonize their systems. In short, solving for wildfire resilience is an enormous technical and regulatory challenge. In this course, students will learn the basics of the wildfire policy debate in the west with a focus on California. Lectures will focus on both scientific and legal aspects of the challenge. In addition, students will work in groups on legal and reg
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Clients: California Native American Tribes, prescribed burn associations, federal legislative and executive branch decision makers. Wildfire has emerged as one of the most pressing biodiversity, air pollution and public health threats in the Western United States. Advancing land stewardship at sufficient scale to substantially improve the resilience of western forests to fire is critical to reducing wildfire risks and air pollution exposure for the tens of millions that live downwind. Communities are under threat as never before from catastrophic wildfire. Electric utilities face enormous challenges even as they strive to decarbonize their systems. In short, solving for wildfire resilience is an enormous technical and regulatory challenge. In this course, students will learn the basics of the wildfire policy debate in the west with a focus on California. Lectures will focus on both scientific and legal aspects of the challenge. In addition, students will work in groups on legal and regulatory analysis aimed at supporting better decision making on wildfire at the state and federal level. Students will work in partnership with postdocs and legal fellows on their group projects and may have the opportunity to present the results of their work to both clients and policymakers. The course is intended for students interested in multi-disciplinary approaches to public policy problems. No background in either the Clean Air Act, federal land management or wildfire policy is required. Students will engage in weekly lectures and discussions of wildfire science and policy, including student presentations and guest lectures by scientists, practitioners and policymakers. Students will also meet each week with Professors Sivas and Wara, and other members of the teaching team, in working sessions to discuss progress on team projects. Students may present the results of their research to California legislative and executive branch staff engaged in developing new approaches to wildfire policy. Elements used in grading: Attendance, Performance, Class Participation, Written Assignments, Final Paper. Students enrolled in Section 02 (with instructor consent) will be required to meet the Law School's R paper requirements. CONSENT APPLICATION: To apply for this course, students must complete and submit a Consent Application Form. In answering the application questions, "what skills do you bring to this class" and "what skills do you want to develop," students should also answer the following questions: What is your program of study at Stanford? What experiences and interests do you have relating to smoke or wildfire (including those that might relate to public health, community resilience, insurance, and tribal approaches to wildfire management)? Have you taken other wildfire related coursework? What interests you about policy in this field? What topics relating to smoke and wildfire would you like to learn (more) about? What type of work would you like to be involved in (e.g., drafting white papers/policy briefs, technical or scientific reports, etc.)? Do you have any specific technical skills (Machine learning based methods, GIS, legal research) that may be applicable to project based work? The Consent Application Form can be found at: SLS Registrar
https://registrar.law.stanford.edu/. See Consent Application Form for additional instructions and submission deadline. We will be accepting applicants past the registrar's deadline. All interested applicants can register on the course offerings webpage or e-mail the course instructors if the deadline has passed. This course is cross-listed with the Doerr School of Sustainability (
SUSTAIN 329).
Terms: Aut
| Units: 3
| Repeatable
3 times
(up to 9 units total)
Instructors:
Sivas, D. (PI)
;
Wara, M. (PI)
LAW 809K: Policy Practicum: Blue Foods for Indonesia: A Human & Planetary Health Action Lab
Globally, more than 1 billion people rely on seafood, yet this source of vital nutrition is chronically neglected in discussions about the future of food systems. In 2021, the UN Food Systems Summit brought international attention to the potential of "blue foods," thanks in part to insights and evidence provided by the Stanford-led Blue Food Assessment. Now, the Indonesian Ministry of National Development Planning has asked Stanford to help them build blue foods into Indonesia's national development strategy. Indonesia is the 4th most populous country, home to 278 million people and the most marine biodiversity on the planet. Over the next 18 months, we will work with the Ministry, Indonesian researchers, and NGO partners to develop a Blue Food Assessment for Indonesia that can help policymakers realize the potential of blue foods to meet pressing food system priorities -- improving nutrition, food security, and livelihoods, both nationally and in rural communities. This Blue Foods Act
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Globally, more than 1 billion people rely on seafood, yet this source of vital nutrition is chronically neglected in discussions about the future of food systems. In 2021, the UN Food Systems Summit brought international attention to the potential of "blue foods," thanks in part to insights and evidence provided by the Stanford-led Blue Food Assessment. Now, the Indonesian Ministry of National Development Planning has asked Stanford to help them build blue foods into Indonesia's national development strategy. Indonesia is the 4th most populous country, home to 278 million people and the most marine biodiversity on the planet. Over the next 18 months, we will work with the Ministry, Indonesian researchers, and NGO partners to develop a Blue Food Assessment for Indonesia that can help policymakers realize the potential of blue foods to meet pressing food system priorities -- improving nutrition, food security, and livelihoods, both nationally and in rural communities. This Blue Foods Action Lab is the first of a series to help Indonesia implement a far-reaching national program that could transform its food system and could be used as a model for other countries. For Spring quarter the role of the students will be to evaluate successful programs implemented by other nations in the areas that align with client interests and build from the student progress on topics from the winter quarter (i.e., aquaculture, small scale fisheries, blue food tech and justice and inclusion). A report will be produced and shared with the Indonesian Ministry and our NGO partner. The practicum seeks graduate and well-qualified undergraduate students in such programs as earth systems, computer science, public policy, international policy, business, law, sociology, and marine biology. Policy client: Indonesian Ministry of National Development Planning. Graduate and professional students from law, environmental science and policy, marine sciences, food systems, and public policy are invited to apply. R credit (Section 02) is possible only by consent of the instructor. After the term begins, students accepted into the course can transfer from section (01) into section (02), which meets the R requirement, with consent of the instructor. Elements used in grading: Attendance, Performance, Class Participation, Written Assignments, Final Paper. CONSENT APPLICATION: An application is required for acceptance into the course available at
https://forms.gle/WzXQDpt9Wa6hy7j87 Application deadline: March 13, 2024. Cross-listed with Doerr School of Sustainability (
SUSTAIN 121/221).
Terms: Win, Spr
| Units: 2-3
| Repeatable
2 times
(up to 6 units total)
Instructors:
Leape, J. (PI)
;
Martinez, J. (PI)
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