A Washing Machine That Recycles Its Own Water

Three grad students have invented a filter that allows washers to reuse 95 percent of the water from each load.

Rick Wilking / Reuters

Earlier this year, the Massachusetts Institute of Technology hosted the inaugural MIT Water Innovation Prize, inviting attendees from around the world to pitch their water-conservation device or business to a panel of judges for a chance to win grants totaling $30,000. One of three big winners for the night was a new washing-machine filter that seeks to recycle 95 percent of laundry wastewater.

AquaFresco was created by the MIT doctoral candidates Sasha Huang, Alina Rwei, and Chris Lai, who study materials science and engineering. When a sustainability competition opened up in their department, the trio made the prototype for what would become AquaFresco. In the process, they became de facto experts on the water consumption associated with laundry.

Although washing machines are more efficient than ever, they still use more than 20 gallons of water to remove 1 tablespoon of dirt. And in addition to the water use itself is the problem of detergent.

“[Washing machines] are one of the major sources of detergent pollution in rivers,” Huang says. “Current laundry technology is not sustainable. A regular washer discards the water right into the drain after one usage, but less than 1 percent is the actual waste component.”

What AquaFresco does is filter out the small amount of waste and recycle the clean water and detergent for further cleaning cycles. If it works as Huang, Rwei, and Lai hope, you could use essentially the same batch of water to wash laundry for up to six months (replenished by the small percent that’s not recycled). In turn, this would mean much less detergent being released into the groundwater supply.

The science behind AquaFresco has to do with reducing the surface energy between the water and the waste. It uses an absorption-filtration system, unlike other filters that might use a fine mesh to separate waste by size. The outlet of the washer connects to the inlet of the AquaFresco filter, and wastewater goes through the filter, then out the filtration unit, and back to the washer for closed-loop cleaning.

To test how effective the system is, the creators have targeted the hotel industry, which has high water usage, a large volume of laundry, and strict standards for cleanliness in linens.

In American hotels, the biggest use of water is not swimming pools—they only account for 1 percent, in fact—but restrooms, followed by laundry. Water consumption is seen as a privilege you’re paying for, so guests may be more likely to take a long, hot shower in a hotel than at home. And all those showers add up.

Many hotels now try to educate their guests about water use, and this has gotten results, according to the U.S. Environmental Protection Agency, whose WaterSense H2Otel Challenge has partnered with hundreds of hotels to lower water consumption, sometimes by as much as 40 percent. But to find other ways to cut back, hotels are now looking at their second-biggest water culprit.

An AquaFresco filter would allow hotels to adapt almost any commercial machine to use far less water than a tunnel washer. It would be an appealing option for hotel owners unwilling to invest in new machines or unable to find space for them. It would also cut their water bills substantially.

At the moment, AquaFresco is being beta-tested at an island resort off the coast of New Hampshire, where fresh water has to be shipped in from the mainland. If the filter is a success, Huang thinks it could affect tourism more broadly, bringing more full-service hotels to remote places (because it cuts down so much on the need for fresh water). Viability in remote locations could also spell a future for AquaFresco in developing countries where water is hard to come by, and where women are disproportionately burdened with finding water to do laundry.

AquaFresco’s creators used their prize money to make a prototype of a unit for small hotels or households. Such a product could have a dramatic effect, since laundry accounts for up to 20 percent of the average homeowner’s indoor water consumption. Huang says they might eventually apply the technology to industrial cleaners and car washes, too. But the next frontier may be even bigger.

“We did get contacted by people working on a NASA project,” Huang says. “Nowadays, NASA spends millions of dollars on shipping new clothes up to the space station for the astronauts, and they are looking for a more efficient way to do laundry up there.”

This article appears courtesy of CityLab.