Innovative Solution: Wood Dust-Based Device Effectively Traps 99.9% of Microplastics in Water, Combating Microplastic Pollution

Innovative Solution: Wood Dust-Based Device Effectively Traps 99.9% of Microplastics in Water, Combating Microplastic Pollution

Could plants be ⁢the ⁤answer to the looming threat of microplastic pollution? ⁤Scientists ⁢at ⁤UBC’s ‌BioProducts Institute found that if you add tannins—natural plant compounds that make your‍ mouth pucker if you bite into an unripe ‍fruit—to a layer of wood dust, you can ​create a filter that traps virtually all microplastic particles present in water.

While the experiment remains a ‌lab set-up at‍ this stage, ⁢the team‌ is convinced that the solution can be scaled up easily and inexpensively once⁣ they find ⁤the right industry ​partner.

Microplastics are tiny pieces of plastic debris resulting from the breakdown of consumer products ⁣and ⁣industrial waste. Keeping them out​ of water ‌supplies is a huge challenge, says Dr. Orlando Rojas, the institute’s scientific director and the Canada Excellence ⁣Research ⁣Chair in Forest Bioproducts.

He noted one study which found that virtually all tap water is ​contaminated by microplastics, and other research ⁤which‌ states that⁢ more than 10 ⁤billion tons of mismanaged plastic waste will be​ dispersed in​ the⁤ environment by 2025.

“Most solutions ‍proposed so‍ far are ⁣costly or difficult to scale up.‌ We’re proposing a ⁣solution that could potentially be ⁢scaled down‍ for home ​use or scaled⁣ up for⁣ municipal treatment‌ systems. Our filter, unlike plastic filters,⁣ does not contribute to further pollution as it uses renewable and biodegradable materials: tannic acids from ‌plants, bark, wood and leaves, and wood sawdust—a forestry byproduct that is both widely ⁤available and renewable.”

2023-08-16 15:24:02
Source from phys.org

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