Authors
Sophie Vanhulle, Marie Trovaslet, Estelle Enaud, Mathias Lucas, Safiyh Taghavi, Daniel Van der Lelie, Benoit Van Aken, Magali Foret, Rob CA Onderwater, Dirk Wesenberg, Spiros N Agathos, Yves-Jacques Schneider, Anne-Marie Corbisier
Publication date
2008/1/15
Journal
Environmental Science & Technology
Volume
42
Issue
2
Pages
584-589
Publisher
American Chemical Society
Description
In view of compliance with increasingly stringent environmental legislation imposed by regional, national, and supranational (e.g., European Union) authorities, innovative environmental technologies for the treatment of dye-contaminated effluents are necessary in the color industry. In this study, effluents of an industrial dye producer were subjected to distinct treatment trains following an initial qualitative characterization. The effectiveness of ozonation and a treatment using white rot fungi (WRF) and their enzymes were compared with respect to parameters such as residual color, toxicity on human cells, and genotoxicity. A combined ozonation/WRF process was also investigated. The effluent exhibited significant toxicity that was reduced by only 10% through ozonation, whereas the fungal treatment achieved a 35% reduction. A combined treatment (ozone/WRF) caused an abatement of the toxicity by more than 70 …
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Scholar articles
S Vanhulle, M Trovaslet, E Enaud, M Lucas, S Taghavi… - Environmental Science & Technology, 2008