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Clean Water From Air Inspired By Desert Life
January 3, 2019 | Leave a Comment
A pair of new Ohio State University studies offers a possible solution to water scarcity, inspired by nature. Humans can get by in the most basic of shelters, can scratch together a meal from the most humble of ingredients. But we can’t survive without clean water. And in places where water is scarce – the world’s deserts, for example – getting water to people requires feats of engineering and irrigation that can be cumbersome, expensive and costly to operate.
Bharat Bhushan, Ohio Eminent Scholar and Howard D. Winbigler Professor of mechanical engineering at Ohio State said, “We thought: ‘How can we gather water from the ambient air around us? And so, we looked to the things in nature that already do that: the cactus, the beetle, desert grasses.”
Their findings were published Dec. 24th in the journal Philosophical Transactions of the Royal Society. The papers were co-authored with Ohio State Ph.D. student Dev Gurera and with Ohio State engineering researcher Dong Song.
Bhushan’s work focuses on finding nature-inspired solutions to societal problems. In this case, his research team looked to the desert to find life that survives despite limited access to water.
Inspirations for designing water collecting devices—desert beetle, desert grass and cactus. Image Credit: Ohio State University / The Royal Society. Click image for the largest view.
The cactus, beetle and desert grasses all collect water condensed from nighttime fog, gathering droplets from the air and filtering them to roots or reservoirs, providing enough hydration to survive.
Drops of water collect on wax-free, water-repellant bumps on a beetle’s back, then slide toward the beetle’s mouth on the flat surface between the bumps. Desert grasses collect water at their tips, then channel the water toward their root systems via channels in each blade. A cactus collects water on its barbed tips before guiding droplets down conical spines to the base of the plant.
Bhushan’s team studied each of these living things and realized they could build a similar – albeit larger – system to allow humans to pull water from nighttime fog or condensation.
They started studying the ways by which different surfaces might collect water, and which surfaces might be the most efficient. Using 3D printers, they built surfaces with bumps and barbs, then created enclosed, foggy environments using a commercial humidifier to see which system gathered the most water.
They learned that conical shapes gather more water than do cylindrical shapes, “which made sense, given what we know about the cactus,” Bhushan said. The reason that happens, he said, is because of a physics phenomenon called the Laplace pressure gradient. Water gathers at the tip of the cone, then flows down the cone’s slope to the bottom, where a reservoir is waiting.
Grooved surfaces moved water more quickly than ungrooved surfaces, “which seems obvious in retrospect, because of what we know about grass,” Bhushan said. In the research team’s experiments, grooved surfaces gathered about twice as much water as ungrooved surfaces.
The materials the cones were made out of mattered, too. Hydrophilic surfaces – those that allowed water to bead up rather than absorbing it – gathered the most water.
“The beetle’s surface material is heterogeneous, with hydrophilic spots surrounded by hydrophobic regions, which allows water to flow more easily to the beetle’s mouth,” Bhushan explained.
The research team also experimented on a structure that included multiple cones, and learned that more water accumulated when water droplets could coalesce between cones that were one or two millimeters apart. The team is continuing those experiments, Bhushan said.
The work so far has been done on a laboratory-only level, but Bhushan envisions the work scaled up, with structures in the desert that could gather water from fog or condensation. That water, he thinks, could supplement water from public systems or wells, either on a house-by-house basis, or on a community-wide basis.
There is precedent for the idea: In areas around the world, including the Atacama Desert in Chile, large nets capture water from fog and collect it in reservoirs for farmers and others to use. Those nets might not be the most efficient way of harnessing water from the air, Bhushan believes.
“Water supply is a critically important issue, especially for people of the most arid parts of the world,” Bhushan said. “By using bio-inspired technologies, we can help address the challenge of providing clean water to people around the globe, in as efficient a way as possible.”
The flip side, using energy to desalinate water, is stunningly expensive. And the process leaves behinds a concentrated salt to dispose of. This idea, taken as far as the economic value might go might prove to be a giant benefit to the developing arid parts of the world.
Beyond that, in your humble writer’s experience with atmosphere condensation collection yields very tasty water indeed. In time the rest of us might be a wee bit jealous of condensed water sources. Then again, somebody is sure to bottle it for a profit. That might get the ball rolling a bit faster . . .
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