Septic Care: A New Wastewater Treatment Challenge

Microfibers released in washing machines can wreak havoc on soil treatment systems over time

Septic Care: A New Wastewater Treatment Challenge
The photo shows a 3 mm section of microfibers filtered from the drain water of a standard load of laundry, magnified 120x. (Source: http://rozaliaproject.org/stop-microfiber-pollution/)

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New studies indicate that the fibers in our clothes could be poisoning our waterways and food chain on a massive scale. Microfibers — tiny threads shed from fabric — have been found in abundance on shorelines where wastewater is released. In fact, 85 percent of the human-made material found on the shoreline were microfibers, and matched the types of material, such as nylon and acrylic, used in clothing. Microfibers are so small, too small to see. They can be as small as 3 microns. In comparison, a human hair is 50-100 microns.

In a recent study, researchers at the University of California at Santa Barbara found that on average, synthetic fleece jackets release 1.7 grams of microfibers each wash. That’s approximately 1,900 individual fibers. For those connected to a sewer system, the microfibers travel to the local wastewater treatment plant, where up to 40 percent of them enter rivers, lakes and oceans, according to the research findings. Synthetic microfibers are particularly dangerous because they have the potential to poison the food chain. The fibers’ size also allows them to be readily consumed by fish and other wildlife. These plastic fibers have the potential to bioaccumulate, concentrating the toxins in the bodies of larger animals higher up the food chain.

These tiny particles also have the potential to impact septic systems, since most washing machines don’t filter out particles and the current available add-on filters designed to keep lint out of septic tanks still don’t catch the tiniest fibers. Since the particles are so small they will be resistant to settling in the septic tank and will pass through effluent screens. It is likely that most of these fibers are captured in the soil treatment system, creating concern for plugging of soil pores over time.        

Solutions
There appear to be no easy answers. One way to begin to address the problem is to try to make clothes that shed fewer plastic fibers when washed. Researchers are working collaboratively with designers to create fabrics that are more durable and release less plastic waste during wash cycles.

Another way to address the problem is to tell customers to reduce the amount of times synthetic clothing gets washed, and when need be, use washing machines with filters installed that catch the microfibers in the wastewater. Although filters are not a common feature in washing machines, some manufacturers do include them and aftermarket filters are commercially available (although they currently do not filter out microfibers). Other, more innovative filters are under development. One example is the Rozalia Project’s microfiber catcher, which will collect microfibers as well as hair, and prevent them from flowing out with the drain water, and is reported to be available in 2017. It is also better to use front-loading, high-efficiency washing machines instead of top-loading washing machines. Researchers found that top-loading washing machines released five times more microfibers than front-loading washing machines, and the more you wash it, the worse it gets (aged jackets released almost two times the amount of new jackets).

The final place to catch microfibers before they are flushed to surface waters is at wastewater treatment plants. Although a typical secondary treatment plant will NOT do an effective job removing microfibers, plants that employ tertiary treatment to produce reclaimed water for non-potable uses typically use filtration that would remove microfibers. Wastewater treatment plants that use advanced treatment to produce potable water use microfiltration (as well as other technologies), which will also effectively remove microfibers.


About the author
Sara Heger, Ph.D., is an engineer, researcher and instructor in the Onsite Sewage Treatment Program in the Water Resources Center at the University of Minnesota. She presents at many local and national training events regarding the design, installation and management of septic systems and related research. Heger is education chair of the Minnesota Onsite Wastewater Association (MOWA) and the National Onsite Wastewater Recycling Association (NOWRA), and serves on the NSF International Committee on Wastewater Treatment Systems. Send her questions about septic system maintenance and operation by email to kim.peterson@colepublishing.com.



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