The device moves saltwater in eddy-like rotations in multiple stages. This swirling action, along with the sun’s heat, spurs evaporation of freshwater vapor that is then condensed and collected, leaving salt behind. The system also pushes salt through so it doesn’t clog.
The researchers published their findings in the journal Joule in late September.
According to MIT News, the invention “has a higher water-production rate and a higher salt-rejection rate than all other passive solar desalination concepts currently being tested.”
“This is a very innovative approach that effectively mitigates key challenges in the field of desalination,” Guihua Yu, a University of Texas professor not involved in the research, said. “The design is particularly beneficial for regions struggling with high-salinity water.”
According to the United Nations, about 2 billion people worldwide don’t have access to safe drinking water. Only 0.5% of Earth’s water is usable as freshwater, says the World Meteorological Organization. Sea level rise may make groundwater supplies saltier, too.
The new tech, scaled up, could provide water cheaply, and could be especially helpful to low-income communities in dry, coastal nations. Because it’s solar-powered, users could be off-grid and wouldn’t need to pay for electricity.
At the size of a small suitcase, the researchers estimate, the new system could produce about 1 to 1.5 gallons of drinking water per hour, which could make it less expensive than water from a U.S. utility.
“For the first time, it is possible for water, produced by sunlight, to be even cheaper than tap water,” Lenan Zhang, one of the MIT researchers, told MIT News.
“This opens up the possibility for solar desalination to address real-world problems,” added MIT graduate student Yang Zhong, who was a co-author of the study.
The new system builds on earlier iterations that the team described in 2020 and 2022 papers. Those previous designs also used circulation and evaporation stages but either clogged with salt or produced fresh water less quickly.
Commenters on a Reddit post about the discovery had generally positive reactions.
“Wow, this is fantastic news! This could help avoid future water conflicts, which have been increasing in recent years,” said one Redditor.
“If this didn’t come from MIT News, I’d be very skeptical instead of regular skeptical. Big if true,” said another.
Several commenters wondered about the concentrated salt left over after desalination.
The researchers acknowledge that dealing with leftover salt and scaling up the technology are challenges ahead, but they are optimistic. Insider reports that domestic and international organizations are already asking about the product.
Join our free newsletter for weekly updates on the coolest innovations improving our lives and saving our planet.