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Chinese Scientists Present Solar Powered Water Harvesting Technology

Researchers from Shanghai Jiao Tong University in China developed a promising new solar-powered atmospheric water harvesting technology that could help provide enough drinking water for people to survive in those difficult, dryland areas.

Their work was published in Applied Physics Reviews, an AIP Publishing journal.

More than 2.2 billion people currently live in water-stressed countries, and the United Nations estimates that 3.5 million die every year from water-related diseases. Because the areas most in need of improved drinking water are also located in some of the sunniest places in the world, there is strong interest in harnessing sunlight to help obtain clean water.

Schematic diagram of the daytime atmospheric water harvesting cycle. Image Credit: Wang Ruzhu. The research reporting paper is not behind a paywall at posting. Click this link.

Lead researcher Ruzhu Wang said, "This atmospheric water harvesting technology can be used to increase the daily water supply needs, such as household drinking water, industrial water, and water for personal hygiene."

Historically, researchers have faced challenges when injecting salt into hydrogels as the higher salt content reduced the swelling capacity of the hydrogel due to the salting-out effect. This led to salt leakage and the water absorption capacity decreased.

Wang noted, "We were impressed that even when up to 5 grams of salt was injected into 1 gram of polymer, the resulting gel maintained good swelling and salt-trapping properties."

The researchers synthesized a super hygroscopic gel using plant derivatives and hygroscopic salts that was capable of absorbing and retaining an unparalleled amount of water. One kilogram of dry gel could adsorb 1.18 kilograms of water in arid atmospheric environments and up to 6.4 kilograms in humid atmospheric environments. This hygroscopic gel was simple and inexpensive to prepare and would consequently be suitable for large-scale preparation.

In addition, the team adapted a prototype with desorption and condensation chambers, configured in parallel. They employed a turbofan in the condensation chamber to increase the recovery of desorbed water to more than 90%.

In an outdoor prototype demonstration, the team found it released adsorbed water even in the morning or afternoon when the sun is weak. The system could also achieve simultaneous adsorption and desorption during the daytime.

The team will work to achieve simultaneous adsorption and desorption using renewable energy to maximize daily water yield per unit mass of adsorbent to further optimize the system's performance for practical applications in water generation.

In addition to daily water production, sorbent materials that harvest atmosphere water could also play an important role in future applications such as dehumidification, agriculture irrigation, and thermal management for electronic devices.

***

Drinking water is in short supply across much of human occupied territory. In an even larger area the need overwhelms watering secondary uses leaving quality of life and economic development out of reach.

Using a solar power source blanks the need for a portable powers source such as a fuel or battery.

But most of these ideas die of lack of patient capital or greed. The end uses of scale have very small incomes and don't usually "invest" in new technology as early adopters.

What is of concern is the cost for the super hygroscopic gel capable of absorbing and retaining an unparalleled amount of water. One wonders about the number of uses and recycle potential.

By Brian Westenhaus via Newenergyandfuel.com

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Brian Westenhaus

Brian is the editor of the popular energy technology site New Energy and Fuel. The site’s mission is to inform, stimulate, amuse and abuse the… More