Coupling power and hydrogen sector pathways to benefit decarbonization
MIT-led team finds holistic optimization of electric power and hydrogen supply chain infrastructure is favorable for emission reductions and decreased infrastructure costs.
MIT-led team finds holistic optimization of electric power and hydrogen supply chain infrastructure is favorable for emission reductions and decreased infrastructure costs.
Modeling tool showcases emerging MIT Joint Program research focus on multi-sector dynamics.
MIT researchers propose a gasoline-ethanol engine that is cleaner and more cost-effective than existing diesel engine technologies to help meet vehicle emission reduction goals.
MIT engineer oversees design and testing of key magnet components for the Institute's SPARC fusion project.
Analyzing California’s power system, MITEI researchers show that hydrogen-generated electricity is a cost-competitive candidate for backing up wind and solar.
As researchers consider materials for solid-state batteries, they also may want to consider how those materials could impact large-scale manufacturing.
MIT team produces practical guidelines for generating hydrogen using scrap aluminum.
An MIT study gauges the pace of shifting to battery power.
MIT-led research team fashions graphene foam into device that can extract uranium and other heavy metals from tap water.
MIT spinoff Via Separations aims for industrial decarbonization with its durable graphene oxide membranes.
The Plasma Science and Fusion Center mechanical engineer embraces her role in modeling fusion magnets and in promoting engineering to young women.
A new study describes why, in the sector where emissions are hardest to cut, carbon capture could be the sharpest knife.
Massachusetts Secretary of Energy and Environmental Affairs discusses the state’s plans to achieve net-zero emissions by 2050 and how to get there.
MIT researchers train a neural network to predict a “boiling crisis,” with potential applications for cooling computer chips and nuclear reactors.
Students in STS.032 (Energy, Environment, and Society) learn about environmental and health consequences of discarded electronics.