Recycling Water and Recovering Energy

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Recycling Water and Recovering Energy

USC Viterbi engineer Adam Smith conducts research on wastewater treatment and resource recovery

We're running out of fresh water: Every year, around 2 million people die from a lack of safe drinking water, and it is estimated that in 15 years, half of the world's population could be living in areas running out of potable water, according to the United Nations Environment Program.

In a world where natural resources are becoming scarcer by the day, treating wastewater has become a priority.

With global ecology in mind,Adam Smith, assistant professor in the Sonny Astani Department of Civil and Environmental Engineering at the USC Viterbi School of Engineering, wants to develop efficient and sustainable ways of cleaning water. He's exploring the use of microbes for water treatment, focusing on resource recovery from waste streams.

"My research aims to develop environmental biotechnologies for treating wastewater so that we can generate water for reuse while recovering resources such as energy and nutrients," said Smith, who joined USC Viterbi in the fall.

From the beginning

Scientists have long known that microbes can be used for purifying water. However, current wastewater treatment processes are aerobic, which means that microbes use oxygen to degrade organic matter.

"Aerobic processes require us to constantly pump oxygen into the system," Smith said. "This consumes a lot of energy that we don't ever recover."

Smith hopes to replace aerobic processes with anaerobic ones, in which microbes don't require oxygen. Anaerobic processes have lower energy demands, and they can also produce energy.

"Some microbes can convert organic material into methane, or natural gas," Smith said. "We are designing systems in which we can harness those microbes to consume waste in water and produce methane gas, which we can then collect and convert into energy."

The approach would allow society to put some energy back on the electrical grid while reducing water treatment costs.

Branching out

Smith's research on converting water waste into energy is an extension of the work he began at the University of Michigan, where he earned his Ph.D. in 2014.

However, the engineer plans to move that work forward at USC. In addition to anaerobic biotechnologies, he currently studies systems in which specialized microbes can consume waste material and directly produce electricity rather than methane gas. This electricity can then be used to power the system.

"Releasing this methane to the environment could contribute to greenhouse gas emissions," Smith said. "To avoid this risk and recover additional energy, microbial fuel cells, which have long been viewed as competitors to anaerobic processes, could actually be used as a compatible technology downstream of an anaerobic process."

His work was among the first to demonstrate the possibility of treating domestic wastewater to strict environmental standards while simultaneously producing energy in low temperatures.

"Dr. Smith's research on the treatment of domestic wastewater at low temperatures evolved from being a marginal idea to one that is embraced by industry leaders and is moving to the mainstream in the environmental engineering community," said Lutgarde Raskin, Smith's doctoral thesis adviser and chair of the Department of Civil and Environmental Engineering at the University of Michigan.

Source: USC News

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