Solar hydropanel, zero mass water, solar panel, harvesting water from air

Sunlight + Air = Water. It’s a seemingly befuddling equation, but it’s at the heart of a new solar hydropanel developed by Arizona-based startup Zero Mass Water. Called SOURCE, the panels can be installed atop any building just like a standard photovoltaic, but instead of just harvesting solar energy, it uses the sun’s rays to pull water from the air. Indeed, each panel has the potential to draw up to 10 liters (2.64 gallons) of water per day.

According to  green energy solutions guide It is very creative way to take renewable energy and clear water in same time.

So how does it work? Each SOURCE array consists of a standard solar panel flanked by two hydropanels. As explained by The Verge in the video above, the photovoltaic at the center of the array drives a fan and the system’s communication with the hydropanels. The hydropanels themselves consist of two different proprietary materials, one that can generate heat, and another that can absorb moisture from the air. Together they are able to condense water into an onboard, 30-liter reservoir where it is mineralized with calcium and magnesium. From there, the water can be siphoned directly to a drinking tap.

As one might guess, the amount of humidity in the atmosphere and solar energy available will affect the payout. However, Zero Mass Water says that even low-humidity and arid regions can effectively benefit. The company’s CEO, Cody Friesen, cited the array atop his headquarters as an example. “Our array on the Zero Mass Water headquarters in Scottsdale, Arizona makes water year-long despite low relative humidity. The Phoenix-Metro area can get below 5% relative humidity in the summer, and SOURCE still produces water in these incredibly dry conditions,” he said. Additional panels can also be added to optimize water collection, but there is the matter of cost.

Right now, the two-panel array costs $4000, plus installation, which runs $500. The whole system has been engineered to last 10 years, which according to Treehugger’s calculations, this averages out to about $1.23 per day, or between $0.12 and $0.30 per liter of H2O.

To date, hundreds of panels have been set up in eight countries around the globe. Zero MassWater says the installations represent a combination of early adopters who have paid out of pocket for the technology and developing areas and emergency situations where funding has been provided by donors, NGOs, or other institutions.