The WaterHub at Emory University’s main campus in Atlanta is a 5-year-old water reclamation system that has also served to promote research and community outreach on water reuse. ALYSSA POINTER / ALYSSA.POINTER@AJC.COM
The WaterHub looks a lot like a greenhouse. At 3,200 square feet, the glass structure is not much larger than the average American home. On any given day, up to 400,000 gallons of wastewater flow out of the campus sewer system to pipes under the light blue flooring that doubles as a diagram for how the system works. The waste is treated through a series of processes that mimic nature. Biological reactions break down the waste, which is then clarified, purified and disinfected before it is sent back to campus through a purple pipe (the color designated for all recycled water) to be used as toilet water in dorms or water for heating and cooling across campus.
It takes 12-24 hours for the wastewater to go through the treatment process, and about 50,000 gallons of clean water can be stored on campus. Visitors to the WaterHub compare it to a walk through a garden — underground treatment and purifiers in the tanks help control any odor — with layers of natural vegetation.
Bananas, as seen here, and ginger are growing inside the Emory WaterHub at the Emory University main campus. The water reclamation system is housed in a 3,200-square-foot glass structure, which features such a wide range of plants that visitors compare it to a botanical garden. ALYSSA POINTER / ALYSSA.POINTER@AJC.COM
Emory has reduced its use of water by up to 146 million gallons each year. The WaterHub is capable of supplying the equivalent of almost 40% of campus water use. The majority of the water (85%) goes to utility plants on campus.
Just a few decades ago, water reuse was mostly about filling a void in regions of the country that were arid and in need of irrigation, but that is changing, said Zachary Dorsey, spokesman for WaterReuse, an international organization for applied research, policy guidance and educational tools on water reuse.
“Water reuse is no longer thought of as an emergency measure for when you have drought. It is effective when you don’t have enough water, have too much water or have the wrong quality of water.” Closed loop systems like the one at Emory have recently begun to take off and have allowed communities to engage and invest in water reuse, Dorsey said.
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But if it were easy, everyone would do it. The most significant barriers, Dorsey said, are cost and education.
“The investment can be high. That is true about all of our water infrastructure. The solution for that is more investment by the federal government through the existing infrastructure programs,” Dorsey said.
Emory relied on public and private partnerships to get the WaterHub built at no cost, Howett said. The university has a long-term contract with private investors who paid the upfront costs. Emory pays the investors to use the water, which costs a lot less over time than the 11% per year rate increases paid to DeKalb County, she said.
The other barrier is getting the public accustomed to viewing recycled water as just plain water. “We have been taught our entire lives that once we have used water, it is a waste product,” Dorsey said. “The education is really to teach people that it is not the source of the water that is important, it is the quality of the water.”
Kean Hamilton, director of WaterHub Operations, surveys the plants inside the WaterHub at the Emory University main campus in Atlanta. The WaterHub has helped reduce the university’s water use by up to 146 million gallons each year. ALYSSA POINTER / ALYSSA.POINTER@AJC.COM
It was a long journey to get students and staff comfortable with reclaimed water, Howett said. The county even required Emory to add blue dye to the recycled water so that students would understand they should not drink it.
Other projects similar to the WaterHub will be coming to the metro area soon, said Bob Salvatelli of Sustainable Water, joining more than a dozen other recognized water innovations around the country that use recycled water for everything from recharging drinking water aquifers to generating electricity.
“We are still at a time when some have not realized how important it is to have resilience as a top priority,” Howett said. “It is also complex and requires deep thinking about water treatment. It is so important that institutions like Emory model that we have a responsibility to treat, use and take accountability for sewage we create on-site.”