/ Wastewater / Cleaning contaminated water with flax shives

Cleaning contaminated water with flax shives

Parul Dubey on January 6, 2023 - in Wastewater, Water

Researchers from the University of Saskatchewan used the Canadian Light Source to examine why flax shives are an effective adsorbent for clearing pharmaceutical pollutants from water.

SASKATOON – Using the Canadian Light Source (CLS), a team of researchers from the University of Saskatchewan (USask) has found that a common agriculture byproduct can treat waste water contaminated by antibiotics and other pharmaceutical chemicals.

Dr. Catherine Niu, a chemical engineering professor in USask’s Department of Chemical and Biological Engineering, said there is considerable interest in finding more cost-effective ways to remove pollutants from water sources.

In this study, Niu and colleagues demonstrated that flax shives that have been treated with heat and steam adsorb the medication carbamazepine from wastewater. Flax shives are the material left after fiber is extracted from flax stems. The team’s findings are published in the journal Chemical Engineering Research and Design.

“We saw there are so many agricultural byproducts generated that aren’t effectively used,” she said. “We wanted to explore the new use of those materials for water treatment.”

Niu hopes that by creating adsorbents that are inexpensive and easily accessible, they can attract the attention of businesses looking for more efficient ways to treat wastewater.

“The project has generated results which show such methods have potential for future industrial applications,” she said. “We’re still optimizing the process to develop adsorbents.”

Niu’s team used spectroscopy analysis at the CLS to examine – at the subatomic level — how and why the carbamazepine binds to the surface of flax shives. 

“It is very important to understand what causes this adsorption,” Niu said. “Without the CLS, we get partial evidence. Using the near edge x-ray absorption fine structure spectroscopy, we get information to confirm our estimates.”

 

Aghababaei, Aylin, Venu Babu Borugadda, Ajay Dalai, and Catherine Hui Niu. “An investigation on adsorption of carbamazepine with adsorbents developed from flax shives: kinetics, mechanisms, and desorption.” Chemical Engineering Research and Design (2022). https://doi.org/10.1016/j.cherd.2022.11.008

More CLS science highlights

The Canadian Light Source (CLS) is a national research facility of the University of Saskatchewan and one of the largest science projects in Canada’s history. More than 1,000 academic, government and industry scientists from around the world use the CLS every year in innovative health, agriculture, environment, and advanced materials research. 

The Canada Foundation for Innovation, Natural Sciences and Engineering Research Council, Canadian Institutes of Health Research, the Government of Saskatchewan, and the University of Saskatchewan fund CLS operations.

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