Details

Autor(en) / Beteiligte

• Nguyen, Luong N.
• Hai, Faisal I.
• Yang, Shufan
• Kang, Jinguo
• Leusch, Frederic D.L.
• Roddick, Felicity
• Price, William E.
• Nghiem, Long D.

Titel

Removal of trace organic contaminants by an MBR comprising a mixed culture of bacteria and white-rot fungi

Ist Teil von

• Bioresource technology, 2013-11, Vol.148, p.234-241

Ort / Verlag

Kidlington: Elsevier Ltd

Erscheinungsjahr

2013

Quelle

MEDLINE

Beschreibungen/Notizen

• •Fungal enzyme could degrade TrOC that are resistant to bacterial degradation.•Some TrOC well removed by bacteria were poorly removed by fungal enzyme.•Bacterial complemented well the degradation of TrOC by fungal MBR.•Biodegradation was a major TrOC removal mechanism by fungi-bacteria (F-B) MBR.•Redox-mediator dosing improved removal of resistant TrOC diclofenac by F-B MBR. The degradation of 30 trace organic contaminants (TrOC) by a white-rot fungus-augmented membrane bioreactor (MBR) was investigated. The results show that white-rot fungal enzyme (laccase), coupled with a redox mediator (1-hydroxy benzotriazole, HBT), could degrade TrOC that are resistant to bacterial degradation (e.g. diclofenac, triclosan, naproxen and atrazine) but achieved low removal of compounds (e.g. ibuprofen, gemfibrozil and amitriptyline) that are well removed by conventional activated sludge treatment. Overall, the fungus-augmented MBR showed better TrOC removal compared to a system containing conventional activated sludge. The major role of biodegradation in removal by the MBR was noted. Continuous mediator dosing to MBR may potentially enhance its performance, although not as effectively as for mediator-enhanced batch laccase systems. A ToxScreen3 assay revealed no significant increase in the toxicity of the effluent during MBR treatment of the synthetic wastewater comprising TrOC, confirming that no toxic by-products were produced.