21 - 30 of 62 results for: CSI::energy-environment

A series of seminar and lectures focused on power engineering. Renowned researchers from universities and national labs will deliver bi-weekly seminars on the state of the art of power system engineering. Seminar topics may include: power system analysis and simulation, control and stability, new market mechanisms, computation challenges and solutions, detection and estimation, and the role of communications in the grid. The instructors will cover relevant background materials in the in-between weeks. The seminars are planned to continue throughout the next academic year, so the course may be repeated for credit.

Freshwater is our most crucial natural resource, but it is facing mounting pressures from climate change and other factors. While public agencies traditionally dominated water management, private water companies are playing an increasingly important (and sometime controversial) role. In many cases, private companies are making critical contributions to meeting societal water needs (e.g., by developing new technologies and finding new ways to reduce water use). In other cases, however, the involvement of private companies has proven controversial (e.g., when private companies have taken over public water supply systems in developing countries such as Bolivia). This course will look at established and emerging businesses in the water sector and the legal, economic, and social issues generated by the private sector's involvement. These businesses include water technology companies (e.g., companies commercializing new desalination or water recycling technologies), venture capitalists, water funds (that directly buy and sell water rights), consulting firms, innovative agricultural companies, and large corporations (that increasingly are adopting corporate stewardship programs). The course will begin with two weeks of introduction to water and the private water sector. After that, each class will focus on a different water company. Company executives will attend each class session and discuss their business with the class. In most classes, we will examine (1) the viability and efficacy of the company's business plan, (2) the legal and/or social issues arising from the business' work, and (3) how the business might contribute to improved water management and policy. Each student will be expected to write (1) two short reflection papers on businesses that visit the class, and (2) a 10- to15-page paper at the conclusion of the class on an idea that the student has for a new water company, on an existing water company of the student's choice, or on a legal or policy initiative that can improve the role that business plays in improving water management (either in a particular sector or more generally). This course is open to graduate students from around the campus. Elements used in grading: Attendance, Class Participation, Written Assignments, Final Paper. Cross-listed with Civil & Environmental Engineering ( CEE 273B).

Application design thinking to make sustainability compelling, impactful and realizable. Analysis of contextual, functional and human-centered design thinking techniques to promote sustainable design of products and environments by holistically considering space, form, environment, energy, economics, and health. Includes Studio project work in prototyping, modeling, testing, and realizing sustainable design ideas. Prerequisite: Enrollment limited and by Permission Number only. Email instructor for application form.

The sources and health effects of gaseous and particulate air pollutants. The influence of meteorology on pollution: temperature profiles, stability classes, inversion layers, turbulence. Atmospheric diffusion equations, downwind dispersion of emissions from point and line sources. Removal of air pollutants via settling, diffusion, coagulation, precipitation, Mechanisms for ozone formation, in the troposphere versus in the stratosphere. Effects of airborne particle size and composition on light scattering/absorption, and on visual range. Prerequisites: MATH 51 or equivalent. Recommended: 101B, CHEM 31A, or equivalents.

Interdisciplinary exploration of current energy challenges and opportunities in the context of development, equity and sustainability objectives. Talks are presented by faculty, visitors, and students and include relevant technology, policy, and systems perspectives. More information about the seminar can be found on the website https://energyseminar.stanford.edu/May be repeated for credit.

The Central Valley of California provides a third of the produce grown in the U.S., but recent droughts and increasing demand have raised concerns about both food and water security. The pathway that water takes from rainfall to the irrigation of fields or household taps ('the water course') determines the quantity and quality of the available water. Working with various data sources (measurements made on the ground, in wells, and from satellites) allows us to model the water budget in the valley and explore the recent impacts on freshwater supplies.

The World Food Economy is a survey course that covers the economic and political dimensions of food production, consumption, and trade. The course focuses on food markets and food policy within a global context. It is comprised of three major sections: structural features (agronomic, technological, and economic) that determine the nature of domestic food systems; the role of domestic food and agricultural policies in international markets; and the integrating forces of international research, trade, and food aid in the world food economy. This 5-unit course entails a substantial group modeling project that is required for all students. Enrollment is by application only. The application is found at https://economics.stanford.edu/undergraduate/forms. Applications will be reviewed on a first-come, first-serve basis, and priority will be given to upper-level undergraduates who need the course for their major, and to graduate students pursuing work directly related to the course. The application submission period will close on March 15

Economic sources of environmental problems and alternative policies for dealing with them (technology standards, emissions taxes, and marketable pollution permits). Evaluation of policies addressing local air pollution, global climate change, and the use of renewable resources. Connections between population growth, economic output, environmental quality, sustainable development, and human welfare. Prerequisite for Undergraduates: ECON 50. May be taken concurrently with consent of the instructor.

We will discuss both theoretical and empirical analyses of environmental problems, ranging from local pollution challenges to global issues such as climate change. Topics include: Analyses of market failures, policy instruments, integrating environmental and distortionary taxes, policy making under uncertainty, valuing the environment, sustainable development, deforestation vs. conservation, and design of climate agreements.