Addressing an environmental problem in an innovative way, researchers have shown how used coffee grounds can remove harmful contaminants in water.
Coffee is one of the most popular drinks in the U.S., which makes for a perky population -- but it also creates a lot of used grounds. Scientists now report in the journal ACS Sustainable Chemistry & Engineering an innovative way to reduce this waste and help address another environmental problem. They have incorporated spent coffee grounds in a foam filter that can remove harmful lead and mercury from water.
Restaurants, the beverage industry and people in their homes produce millions of tons of used coffee grounds every year worldwide, according to researcher Despina Fragouli. While much of the used grounds go to landfills, some of them are applied as fertilizer, used as a biodiesel source or mixed into animal feed. Scientists are also studying it as a possible material for water remediation. Experiments so far have shown that powder made from spent coffee grounds can rid water of heavy metal ions, which can cause health problems. But an additional step is needed to separate the powder from the purified water. Fragouli and colleagues wanted to simplify this process.
The researchers fixed spent coffee powder in a bioelastomeric foam, which acted as a filter. In still water, the foam removed up to 99 percent of lead and mercury ions from water over 30 hours. In a more practical test in which lead-contaminated water flowed through the foam, it scrubbed the water of up to 67 percent of the lead ions. Because the coffee is immobilized, it is easy to handle and discard after use without any additional steps, the researchers say.
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This article has been republished from materials provided by American Chemical Society (ACS). Note: material may have been edited for length and content. For further information, please contact the cited source.
Asmita A. Chavan, et al. Spent Coffee Bioelastomeric Composite Foams for the Removal of Pb2 and Hg2 from Water. ACS Sustainable Chemistry & Engineering, 2016; DOI: 10.1021/acssuschemeng.6b01098