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Advancing Biofiltration through Research and Development

Partnering with research organizations and utilities, CDM Smith's R&D Program is driving water supply innovation

Jen Hooper - Advancing Biofiltration through Research and Development

Biofiltration—the use of biologically active filters—is a technology that has been explored for decades to reduce organic carbon and other contaminants in drinking water. Thanks to recent technical breakthroughs, it is becoming an increasingly effective tool for water utilities to meet regulatory demands and customer expectations. CDM Smith’s Research and Development (R&D) Program, heavily involved in biofiltration research for the past decade, has recently achieved significant advancements in biofiltration technology.

A Natural Ally for Ozone

As ozone has risen in popularity as a disinfection alternative to chlorination, biofiltration has emerged as a powerful ally. “Ozone is a strong oxidant and disinfectant, but as ozone reacts with natural organic matter, it generates highly biodegradable organic carbon,” says Jennifer Hooper, PE, CDM Smith researcher and environmental engineer. “If you don’t remove that organic carbon, you’ll get growth of bacteria on pipes in the distribution system. That carbon is like candy for bacteria! The good news is that biofiltration can effectively remove this organic carbon before it enters the distribution system.”

By moving ozonated potable water through a “biofilm” of carefully controlled bacteria that attaches to filter media and removes organic carbon and other contaminants, biofiltration can lead to better water quality and reduced long-term costs. Hooper says, “Biofiltration can remove not only organic carbon, but also taste and odor, disinfection byproducts and byproduct precursors, as well as personal care products and pharmaceuticals. Addressing these emerging contaminants helps our clients protect their distribution systems and provide higher quality water to their customers.”

Advancing Biofiltration through Research and Development

Collaborative Breakthroughs

Working with the Water Research Foundation (WRF), CDM Smith has been able to carry out five recent projects to advance the state of the science. For example, CDM Smith led a WRF project entitled “A Monitoring and Control Toolbox for Biological Filtration,” carried out in partnership with American Water. The CDM Smith/American Water team developed a Guidance Manual for monitoring and control of biological filtration, after evaluating a suite of 40 tools for process monitoring and control at 21 full-scale biofilters located across the United States. “Acceptance of biofiltration often requires tools for rigorous monitoring,” says Hooper. “Once you convert to biofiltration and implement the necessary monitoring tools, operators have seen very good performance.”

One of the utilities CDM Smith worked with on the monitoring toolbox project was Greater Cincinnati Water Works (GCWW). The partnership that CDM Smith and GCWW built on that project led to a partnership on another WRF project, “Chemically Enhanced Biological Filtration to Enhance Water Quality and Minimize Costs.” Hooper says, “We were doing sampling at GCWW’s facility and they were responsive and excited about the research. When we approached them about a tailored collaboration project, they were enthusiastic about working together.” The CDM Smith and GCWW project has moved from the bench phase and recently completed the pilot phase; the team is exploring how dosing with permanganate and other innovative chemical oxidants can be used as an alternative to ozone to increase the biodegradability of organic carbon and enhance biofiltration performance and value.

Advancing the State of the Science

A wealth of collaboration leads to steady advancement in biofiltration technology. As Hooper explains, “With every project, we’re working together with partners in the public and nonprofit worlds, and drawing upon the work of the researchers that have come before.” And with each project, new opportunities for follow-up work arise. “For example, our research in collaboration with GCWW indicated that ferrate, which is an innovative oxidant used in the wastewater industry, might be a powerful tool for the water industry as well. Future researchers might pick up that thread and launch a pilot!”

For researchers like Hooper, the opportunity to make potentially groundbreaking discoveries is one of the best parts of working in the water industry. “That’s why I came to CDM Smith,” she says. “The reason I’m here is to be a part of exciting, innovative projects and work with nationally recognized leaders. The challenges you’re exposed to on R&D projects are at a whole different level. It’s extremely rewarding.”

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