A group of high-level energy industry executives and regulators met at Princeton University to discuss distributed electricity generation.
In a small room tucked in a corner of Princeton University's MacMillan Building, computer screens cover the wall and line desktops, each displaying a colorful cornucopia of data used to monitor campus energy equipment and limit the University's energy consumption.
Turning solid waste into fuel and reducing greenhouse gases emitted in making concrete are the two innovations funded by the Princeton Energy and Environment Corporate Affiliates Program.
The market for alternative energy technologies shows many areas of promise but also is beset by major uncertainties over regulation and tax policy.
Taking their cue from the humble leaf, researchers have used microscopic folds on the surface of photovoltaic material to significantly increase the power output of flexible, low-cost solar cells.
Ask Andrew Bocarsly about the innovation behind Liquid Light, a New Jersey startup company that turns carbon dioxide into fuels and industrial chemicals.
One of the greatest challenges facing today’s policymakers is to find ways to meet the growing global demand for energy and to do so in more sustainable ways.
An expansion of hydropower planned for the Mekong River could have a catastrophic impact on the river's fishery and people who depend on it. Photo: P. Deetes/Creative Commons
Converting a standard shipping container into a sustainable source of energy for remote or disaster-torn regions, Princeton students took top honors in an EPA national competition.
Led by principal investigator Yueh-Lin (Lynn) Loo, researchers have used microscopic folds on the surface of photovoltaic material to significantly increase the power output of flexible, low-cost solar cells.
Craig Arnold has found a surprising link between battery life and the day-to-day physical forces acting on an overlooked battery component.
The Princeton Environmental Institute (PEI) has announced $1.1 million in new awards to support climate and energy research at Princeton University.
Robert Socolow reflects on the need for the global community to find a new starting point for action on climate change.
Sandra McCardell '76, has pursued a rather eclectic career since graduation - although her efforts have always managed to be in "The Spirit of Service."
The Republican victory in November will create huge challenges for the Obama administration in accomplishing its environmental policy objectives.
This course is an introduction to the study of environmental systems. Students will use quantitative analysis to examine three of today's most pressing issues: energy, water, and food.
The latest campus and local community green initiatives will be showcased at Princeton University's Sustainability Open House from 3 to 7 p.m. Tuesday, Nov. 16, in the Chancellor Green Rotunda.
Various efforts are underway to find a cheap, efficient and scalable way to recycle the greenhouse gas carbon dioxide back into the hydrocarbons that fuel civilization
Researchers at Princeton University are spearheading a project funded by the U.S. Department of Energy to study the risks and economics of capturing carbon dioxide, a greenhouse gas, and storing it underground.
Emily Carter, a Princeton professor of engineering and applied mathematics, and eminent physical chemist, has been appointed the founding director of the University's Andlinger Center for Energy and the Environment.
Princeton University researchers will participate in a $122 million research project sponsored by the U.S. Department of Energy (DOE) to develop technologies and educational programs to make buildings more energy efficient.
A Pakistani garbage dump seems like an unlikely place to find a solution to extreme poverty. But then again, the group of students from Princeton and Rutgers universities who plan to convert garbage into hope is an unlikely team.
The recipients include: Kevin Loutherback, Electrical Engineering; Dalin Shi, Geosciences; and Ann Carla Staver, Ecology and Evolutionary Biology.
Princeton Junior and Grand Challenges Intern, Mathias Esmann, Receives the 2010 International Center International Service Award
Esmann will be recognized for co-founding Global Minimum, a nongovernmental organization (NGO) that has undertaken numerous projects in Sierra Leone aimed at combating the spread of malaria while promoting development in the country.
Faculty in Princeton and Norway Collaborate to Teach Innovative Carbon Capture and Sequestration Course
Serving audiences across the ocean.
PEI Research and Center News from Spring/Summer 2010.
After the disaster the need skyrocketed, inspiring a team of Princeton researchers to launch a one-year effort to develop, deploy and test two novel disaster-relief technologies -- a rainwater harvester and filtration system, and a wind turbine for renewable energy production.
If you want to save the planet, think for a minute about the simple plastic cup. Eight or 12 ounces, perhaps emblazoned with a Princeton logo — the University goes through thousands of them each month.
The recipients, Craig Arnold, Associate Professor of Mechanical and Aerospace Engineering, and Lars Hedin, Professor of Ecology and Evolutionary Biology, will receive funding for projects that will be integrated teaching and research initiatives within the Siebel Energy Grand Challenge.
Though experts may dispute the role of human activity in climate change, evidence is mounting that temperatures and sea levels are rising.
When the more than 100 students completed internships this summer, they had at least one more commitment.
Regarding his plans for the Oil, Energy and Middle East Initiative, teaching and research.
Baker is in residence at PEI for the fall 2009 semester. A native of Texas, she is Director, Well Planning and Geotechnical Operations at BP.
At the moment, the roof above Dormitory A of the redeveloped Butler College complex is a "green" roof only in the most technical sense of the phrase.
The new dormitories at Princeton University are already covered in green -- but not the traditional green ivy of the Ivy League.
The United States could meet projected growth in energy demand through 2030 with existing technologies, but the nation's long-term energy sustainability will require an enduring commitment, by both the public and private sectors, to developing, demonstrating and deploying new technologies and energy sources, according to a National Academy of Sciences committee chaired by Princeton Professor and President Emeritus Harold T. Shapiro.
Actions Taken Over the Next Decade to Demonstrate and Deploy Key Technologies will Determine U.S. Energy Future
With a sustained national commitment, the United States could obtain substantial energy-efficiency improvements, new sources of energy, and reductions in greenhouse gas emissions through the accelerated deployment of existing and emerging energy technologies, according to America's Energy Future: Technology and Transformation, the capstone report of the America's Energy Future project of the National Research Council, the operating arm of the National Academy of Sciences and National Academy of
Biofuels derived from renewable sources can be produced in large quantities and address many problems related to fossil fuels, including greenhouse gas emissions, but only if they are made from certain sources, according to a new article by a team of scientists and policy experts that included several Princeton researchers.
Robert Socolow, a Princeton professor of mechanical and aerospace engineering, will receive the American Society of Mechanical Engineers' Frank Kreith Energy Award for his pioneering contributions in energy research.
Princeton University will be home to a new $20 million energy research center for combustion science as part of a federal initiative to spur discoveries that lay the groundwork for an economy based on clean replacements for fossil fuels.
The second round of initiatives seeking to improve sustainability on Princeton's campus have been funded under the auspices of the University's Sustainability Plan.
Grand Challenges collaborations focus on development, energy, health solutions.
Humanity can't go on like this. Earth's climate is shifting, and it is all but certainly civilization's fault for burning fossil fuels and spewing greenhouse gases into the atmosphere.
Princeton Professor of Mechanical and Aerospace Engineering Fred Dryer has a lofty goal: end the nation's reliance on oil for jet travel.
For the second consecutive year since adopting a Sustainability Plan, Princeton University's on-campus greenhouse gas emissions have decreased.
While Emily Carter was in Germany this week accepting an award from the German Chemical Society, she gave this lecture.