MIT researchers developed an electrically charged fog collector that can attract and collect more water droplets than a regular fog harvester, writes Matt Simon for Wired. The technology could eventually be used to recover water from power plant cooling towers where it can, “capture the plumes and collect that water,” explains Prof. Kripa Varanasi.
In an article for The Verge, Angela Chen highlights a new technique developed by MIT researchers to harvest water from fog. In the future, the researchers hope to place the harvesters, “near cooling plumes to collect and reuse water that would otherwise be lost.”
Fast Company reporter Adele Peters writes that MIT researchers have developed a system that captures large amounts of water from the cooling towers used on power plants and data centers. Prof. Kripa Varanasi explains that he hopes this new technology can be used to address water scarcity: “We are thinking of each of these cooling towers as water farms.”
Prof. Evelyn Wang has led the development of a device that may solve water shortages in arid climates. “The device is powered by sunlight only, and the researchers said it could eventually be used to provide more than one-fourth of a liter of water per kilogram of metal-organic framework each day,” writes Chukwuma Muanya of The Guardian.
Postdoc Sameer Rao talks to the BBC World Service about his team’s development of a device for extracting water from the atmosphere of excessively dry climates. “I think it can address water scarcity in areas where there is no water and there’s a lot of social and economic challenges because of that,” said Rao.
Prof. Evelyn Wang has improved upon a device she debuted last year that can pull water from the air of even the driest climates, reports UPI's Brooks Hays. The team tested the device in Arizona, “in a place that's representative of these arid areas, and [the device] showed that we can actually harvest the water, even in subzero dew points," said Wang.
In this video, Reuters reporter Elly Park spotlights a new technique developed by MIT researchers to purify contaminated water. Park explains that the, “highly-selective process can even capture micropollutants, things that can exist in small, but potentially dangerous amounts in water.”
BostInno’s Karis Hustad spotlights how Solve tackles some of the world’s most pressing challenges. “You need a different type of innovation or technology or adaptation and affordability of technology for some of the big challenges of today,” explains Alexandra Amouyel, Solve's executive director. “To do that, you need a much more bottom up, grassroots innovation process.”
Mike Wankum from WCVB visits Prof. Evelyn Wang in her lab to learn about a device that can extract water from the air in dry climates. To test the device, the research team will put “a water harvester on the roof of a building at the University of Arizona,” explains Wankum.
The MIT Media Lab has awarded its first Disobedience Award to Dr. Mona Hanna-Attisha and Prof. Marc Edwards, for their work drawing attention to the water crisis in Flint, Michigan, reports Scott Malone for Reuters. "They saw…an actual harm that was occurring and they did what they needed to do to intervene," explains Joi Ito, director of the Media Lab.
In an article about metal organic frameworks (MOFs), Max Opray of The Guardian highlights Prof. Evelyn Wang’s work developing a device that can extract water from the air. The transparent box developed by Prof. Wang and her team “delivers enough drinking water for a person’s daily needs,” explains Opray.
In an article for Scientific American, Kavya Balaraman writes that MIT researchers have found that climate change could impact rainfall conditions over the Nile, potentially exacerbating water conflicts. Prof. Elfatih Eltahir explains that with the increased frequency of El Niño and La Niña, “we are projecting enhanced variability in the Nile flow.”
Wall Street Journal reporter Daniel Akst writes about a new solar-powered, water-harvesting device developed by MIT researchers. The device is “about the size of a Kleenex box [and] can suck lifesaving amounts of water out of the air even in extremely arid places.”
CNN reporter Kaya Yurieff writes that MIT researchers have created a device that can harvest drinking water from the air, even in desert climates. “I'm most excited about being able to realize a functioning device in these remote areas and to be able to provide clean water to all the people who need it," says Prof. Evelyn Wang.
In an article published by Scientific American, Amin Al-Habaibeh writes about a device developed by MIT researchers that can extract drinking water from the atmosphere. Al-Habaibeh notes that the device’s ability to harvest water in dry regions, only using solar power, makes it a “particularly promising technology for harvesting water in arid or desert regions of the world.”