Forbes reporter Ken Silverstein highlights a joint study by MIT and Stanford researchers that finds that extending the California Diablo Canyon Power Plant will save customers billions while reducing carbon emissions. The researchers found that “if the plant stayed operational from 2025 to 2035,” writes Silverstein, “CO2 levels would drop by 10% a year and displace natural gas use, saving customers $2.6 billion.”
MIT researchers have developed a new fiber, dubbed OmniFibers, that could potentially be used to help regulate breath, reports Ray White for Mashable. “When sewn into clothing, the fiber can sense how much it’s stretched. It then gives tactile feedback to the wearer via pressure, stretch or vibration.”
Bloomberg reporter David R. Baker writes that a new report co-authored by MIT researchers keeping California’s last nuclear power plant open could help reduce energy costs and provide water to the state. Keeping the “Diablo Canyon open through 2035 would cut greenhouse-gas emissions from California’s power sector 10% each year, by reducing the amount of electricity needed from natural-gas plants,” writes Baker.
A new report by researchers from MIT, Stanford and other institutions finds that extending the life of the Diablo Canyon nuclear power plant in California should help the state meet its climate goals, reports Timothy Gardner for Reuters. The researchers found “delaying closure of the plant to 2025 would reduce California's carbon emissions from power plants by more than 10% from 2017 levels, reduce dependency on natural gas, and save up to $21 billion in power system costs.”
Writing for The Wall Street Journal, Prof. John Sterman details how he reduced his personal carbon footprint, from commuting via bicycle to completing a deep-energy retrofit on his home. “The project was great fun, cost-effective and the house is far more comfortable,” writes Sterman. “But personal action, though essential, isn’t sufficient. Building a prosperous, safe and equitable world requires that we transform our economy and institutions. To do so we must act now. There is no time to waste.”
Washington Post reporter Steven Zeitchik highlights Prof. Jessika Trancik’s work developing a carbon counter that details the carbon impacts of different cars and MIT startup Form Energy, which is “taking the oxidization process, normally only good for ruining your Saturday garage clean-up, and deploying it to store energy on power grids.” Says Trancik of the importance of allowing people the ability to take stock of their environmental impact: “One of the really important aspects of addressing climate change is bringing everyone into the discussion.”
Bloomberg reporter Will Mathis spotlights Osmoses, an MIT startup that has “created a membrane material thinner than human hair to reduce carbon emissions from industrial processes such as natural gas production.” CEO and postdoc Francesco Maria Benedetti explains that “we envision applying our technology to increase the sustainability of existing infrastructure."
Financial Times reporter Tom Wilson writes that researchers from MIT and Commonwealth Fusion Systems (CFS) have successfully demonstrated the use of a high-temperature superconductor, which engineers believe can allow for a more compact fusion power plant. “It’s the type of technology innovation that you know shows up every once in a while in a given field,” CFS chief executive, Bob Mumgaard, tells Wilson.
Nth Cycle, a company co-founded by Prof. Desiree Plata, has developed an extraction device that uses electric signals to identify valuable metals or black mass leftover from discarded electric batteries. “This modular system is easy to move and adapt and is far more efficient and environmentally friendly than the traditional methods of smelting or using a chemical wash to sort out the metals from the gunk,” writes Jon Chesto and Larry Edelman for The Boston Globe.
MIT Professor Badley Olsen speaks with WCVB-TV about his work identifying new ways to reuse rubbers and plastics. His research has allowed for fashion companies to produce sustainable and comfortable clothing and accessories for consumers. “You can both decrease the amount of petroleum you take out of the ground to make new materials and you can reduce the amount of waste. I think both of these are really important for the sustainability of our city and our society,” says Professor Olsen.
Researchers at MIT’s Plasma Science and Fusion Center and Commonwealth Fusion Systems speak with The New Yorker’s Rivka Galchen about the history of fusion research and the recent test of their large high-temperature superconducting electromagnet. “I feel we proved the science. I feel we can make a difference,” says MIT alumna Joy Dunn, head of manufacturing at CFS. “When people ask me, ‘Why fusion? Why not other renewables,’ my thinking is: This is a solution at the scale of the problem.”
Dennis Whyte, director of MIT’s Plasma Science and Fusion Center, and Bob Mumgaard, CEO of Commonwealth Fusion Systems, join Bruce Mohl on CommonWealth Magazine’s podcast, The Codcast, to discuss how their recent successful test of a high-temperature superconducting electromagnet will impact the quest for fusion energy. “With the advent of this new technology, there is nothing stopping us from building that first demonstration, the Kitty Hawk moment of fusion, when you see net energy from a system for the first time on earth,” said Whyte.
Motherboard reporter Matthew Gault spotlights how scientists from MIT and Commonwealth Fusion Systems developed a large high-temperature superconducting magnet that can create a magnetic field of 20 tesla, “a breakthrough that paves the way for carbon-free power.”
WBUR’s Bruce Gellerman explores how researchers from MIT and Commonwealth Fusion Systems successfully demonstrated “the world's strongest high-temperature superconducting magnet, putting them a step closer towards a workable fusion reactor.” The advance “provides reason for hope that in the not-too-distant future, we could have an entirely new technology to deploy in the race to transform the global energy system and slow climate change,” says Maria Zuber, MIT’s vice president for research.
Scientists from MIT and Commonwealth Fusion Systems have performed a successful test of the world’s strongest high temperature superconducting magnet, a crucial step in creating net positive energy from a fusion device, reports the Associated Press.