Charting gas and oil's future in a decarbonizing world
New analytical method addressing the dynamic nature of the petroleum industry could enable more accurate energy scenarios.
New analytical method addressing the dynamic nature of the petroleum industry could enable more accurate energy scenarios.
MIT senior and Marshall Scholar Nick Schwartz wants to solve the energy problem — and make people smile along the way.
Approach could bypass the time-consuming steps currently needed to test new photovoltaic materials.
MIT researchers focus on empathy, transparency, and empowerment at this year's United Nations Climate Change Conference.
Two-day summit on climate leadership in northeastern North America draws almost 200 to MIT.
Bangkok-based property developer MQDC is joining the MIT Energy Initiative’s Low-Carbon Energy Center for Electric Power Systems Research.
Plans are in place to meet or exceed greenhouse gas reduction targets.
Optimizing the design of electricity markets could make it easier to integrate renewable energy sources into the power grid.
Research, education, and student activities help create a robust community focused on fueling the world's future.
Approach developed at MIT could help curb needless “flaring” of potent greenhouse gas.
Surprisingly, pressurization isn’t to blame for fouling of membranes, study finds.
“Air-breathing” battery can store electricity for months, for about a fifth the cost of current technologies.
MIT research scientist is exploring how machine learning can predict and prevent disruptions in reactors.
Nuclear science and engineering graduate student receives Department of Energy Innovation Award for his work on plasma turbulence.
Assistant professor of nuclear science and engineering leads projects for developing accident-tolerant fuel and optimizing nuclear energy technology.