Axios reporter Andrew Freedman examines a new study by researchers at MIT and the Singapore-MIT Alliance for Research and Technology showing that China’s breadbasket, the North China Plain, could face severe heat waves. Big picture, writes Freedman, “such heat waves could both threaten lives and dampen economic output in the region, where 400 million people live.”
CNN reporter Bard Wilkinson writes that a study by MIT researchers finds that by the end of the century China’s North Plain region will experience heatwaves that could kill healthy people within six hours. Wilkinson explains that the findings are, “worrying because many of the region's 400 million people are farmers exposed to climactic conditions.”
New research by Prof. Elfatih Eltahir finds that the North China Plain could face deadly heat waves by the end of the century unless measures are taken to curb carbon emissions, reports Damian Carrington for The Guardian. Eltahir found that there already has been a, “substantial increase in extreme heatwaves on the plain in the past 50 years.”
A new study by led by Prof. Elfatih Eltahir finds that climate change could cause the North China Plain, China’s most populous agricultural region, to face deadly heatwaves by 2100, reports Isabelle Gerretsen for the Thomson Reuters Foundation. “The intensity of those heatwaves means that survival of humans would be questionable,” says Eltahir.
In this video, VOA reporter Steve Baragona looks at different methods of harvesting water from fog. Baragona highlights a new system developed by MIT researchers, explaining that in some areas where the water supply is dwindling, “the technology is far cheaper than other options like desalination.”
MIT graduates Maher Damak and Karim Khalil discuss their startup Infinite Cooling and the new technique they developed to capture and recycle water expelled from power plant cooling towers on Bloomberg Baystate Business. Co-host Tom Moroney calls this energy efficient method that captures up to 80 percent of the water, an “idea that could change the world.”
Xinhua reports that MIT engineers have developed a new method of harvesting water from industrial cooling towers that could decrease the operating cost of power plants. Eventually the new method could also be used to harvest, “safe drinking water for coastal cities where seawater is used to cool local power plants.”
Writing for IEEE Spectrum, David Wagman spotlights a new technology from MIT researchers that could offer water-scarce cities, “a new source of the precious resource” by capturing and reusing water from cooling towers. Prof. Kripa Varanasi notes that their system, “can achieve on the order of 99 percent efficiency,” in capturing the water droplets.
MIT researchers have developed a system that captures water from power plant cooling towers, writes Martin Finucane for The Boston Globe. Finucane explains that, “the captured water would be pure, distilled water and could be piped to a city’s water system or it could be used in the power plant’s boilers, which, unlike the cooling system, require clean water.”
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.