Net-Zero Energy in Wastewater Treatment

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Net-Zero Energy in Wastewater Treatment

The aim is to reduce energy use and maximize energy production in water resource recovery facilities, finding ways wastewater treatment facilities can operate solely on the energy from the water and wastes they treat

It is commonly known that wastewater possesses more energy than needed to operate a treatment facility, but the number of net-zero energy water resource recovery facilities (WRRFs) is still very low worldwide. Yet, a recent study states that the possibility of net-zero energy is now a grasp of many wastewater facilities, and the report provides some of the best insights on record as to how to achieve such results

Stephen Tarallo, a Client Services Director for Black & Veatch’s water business, served as co-principal investigator for the project, which is titled “Net-Zero Energy Solutions For Water Resource Recovery Facilities”.

“The research offers guidance for selecting the combination of technologies and energy management best practices to most effectively achieve energy neutrality at WRRFs,” Tarallo said. “We wanted to demonstrate how to maximize resource recovery through harnessing the chemical, thermal, potential and kinetic energy contained in the treated wastes.”

Best in Class of Modeled Facilities

The best overall performance was observed for a plant that consisted of chemically enhanced primary treatment (CEPT) followed by BOD-only activated sludge treatment, then anaerobic digestion, including thermal hydrolysis pre-treatment of feed sludge and co-digestion of market-available fats, oils and grease (FOG) and food waste, and combined heat and power (CHP). That facility reached an energy rating of 139 percent, meaning it met its actual energy usage plus nearly 40 percent more.

The team also developed criteria to assess the triple-bottom-line (social, environmental and financial) sustainability score of six different biosolids management options. The results showed that anaerobic digestion with co-digestion, as well as CHP followed by land-application of biosolids, had the best overall sustainability score.

For minimizing energy use, the study showed that best practices include:

The research on energy savings showed that improving primary treatment and solids capture in thickening and dewatering processes had the most significant total positive impact of all the best practices modeled.

“We found that the full combination of best practices reduces net energy use by roughly 40 percent compared to typical performance,” Tarallo said. “This is significant and demonstrates that proven technologies already exist for WRRFs to make a significant dent in their energy use.”

A Lofty but Reachable Goal

Tarallo said net-zero energy is a lofty goal that requires detailed planning and sustained commitment.

“The main challenges are different for each utility,” Tarallo said. “I would characterize the main challenge for biological nutrient removal (BNR) and membrane bioreactor (MBR) facilities as being technical – the technologies are just not sufficiently advanced at this time to confidently achieve the goal. For conventional and nitrification WRRFs, where technologies are available and well-proven, the challenges are more organizational and financial in nature.”

Source: 3BL Media

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