Today’s carbon capture systems suffer a tradeoff between efficient capture and release, but a new approach developed at MIT can boost overall efficiency.
Today’s carbon capture systems suffer a tradeoff between efficient capture and release, but a new approach developed at MIT can boost overall efficiency.
Removing carbon dioxide from the atmosphere efficiently is often seen as a crucial need for combatting climate change, but systems for removing carbon dioxide suffer from a tradeoff. Chemical compounds that efficiently remove CO₂ from the air do not easily release it once captured, and compounds that release CO₂ efficiently are not very efficient at capturing it. Optimizing one part of the cycle tends to make the other part worse.
Now, using nanoscale filtering membranes, researchers at MIT have added a simple intermediate step that facilitates both parts of the cycle. The new approach could improve the efficiency of electrochemical carbon dioxide capture and release by six times and cut costs by at least 20 percent, they say.
The new findings are reported today in the journal ACS Energy Letters, in a paper by MIT doctoral students Simon Rufer, Tal Joseph, and Zara Aamer, and professor of mechanical engineering Kripa Varanasi.
Read more at Massachusetts Institute of Technology
Image: Using nanoscale filtering membranes, researchers at MIT have added a simple intermediate step that makes the process of removing carbon dioxide from the air more efficient. (Credit: Courtesy of Kripa Varanasi, Simon Rufer, Tal Joseph, and Zara Aamer)
