Washington [US]: A novel sewage treatment system may successfully convert residual sludge to biogas. This development has the potential to help cities reduce waste treatment expenses while also benefiting the environment. Reporting in the journal, Waste Management, a Washington State University research team tested a pretreatment technology, adding an extra step to typical treatments and using oxygen-containing high-pressure steam to break down sewage sludge. They found that they were able to convert more than 85 per cent of the organic material to biogas, which can be used to produce electricity or upgraded to Renewable Natural Gas (RNG) for the natural gas grid or for local use.
Adding the new pretreatment step improves the anaerobic conversion of sewage sludge at the wastewater treatment facility from the current less-than-50 per cent conversion rate. They produced 98 per cent more methane overall compared to the current practice. "It was shown to be extremely efficient, and that's very exciting," said Birgitte Ahring, professor in the Gene and Linda Voiland School of Chemical Engineering and Bioengineering, who led the work. "This can be applicable and something we could begin to explore in Washington state. Not wasting waste but using its potential instead has major advantages."
Sewage sludge is not a sought-after product. About half of the wastewater treatment plants in the U.S. use anaerobic digestion to reduce this waste, but the process, by which microbes break down the waste, is inefficient. The leftover sludge, called biosolids, generally ends up in landfills. Wastewater treatment facilities also use large amounts of electricity to clean up municipal wastewater. They are often the largest user of electricity in a small community.
"If they could make their own electricity or for some of the large plants, make renewable natural gas and add it to the natural gas grid, then they can reduce the use of fossil fuels. Here we are beginning to move into the idea of the circular economy," said Ahring, who is also a faculty member in the Bioproducts, Sciences, and Engineering Laboratory at WSU Tri-cities.