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.
Analyzing California’s power system, MITEI researchers show that hydrogen-generated electricity is a cost-competitive candidate for backing up wind and solar.
Student-designed Nimbus solar car travels 1,109 miles in five days, averaging 38.4 miles per hour.
Chemical engineering senior Awele Uwagwu works to accelerate the adoption of solar energy in Nigeria.
Matthew Johnston ’20 uses physics and baseball skills to get remote villages on the grid.
HASTS PhD student Caroline White-Nockleby aims to advance climate justice by minimizing localized burdens of renewable energy implementation.
What motivates people in remote communities to decide to buy and use a particular energy source?
A new approach to identifying useful formulations could help solve the degradation issue for these promising new lightweight photovoltaics.
Researchers evaluate the role and value of long-duration energy storage technologies in securing a carbon-free electric grid.
The three-day event featured talks on renewable energy, climate justice, and supporting clean tech startups.
Reducing internal losses could pave the way to low-cost perovskite-based photovoltaics that match silicon cells’ output.
Device could provide pressurized steam to run autoclaves without the need for electricity in off-grid areas.
MIT engineers have made their initial design more practical, efficient, and scalable.
Website hosts an expanded suite of digital tools and resources to help people make sense of climate change.
When Covid-19 forced Edgerton Center student teams off campus, the engineers found their problem-solving skills put to the test.