Hybrid electrocoagulation and laccase mediated treatment for efficient decolorization of effluent generated from textile industries.

Enzymatic (laccase mediated) decolorization of dyes remains inefficient for recalcitrant dyes, which can be better handled by electrocoagulation (EC). However, EC is energy intensive and produce large amount of sludge. In light of the same, present study offers a promising solution for the treatment of textile effluent meeting surface discharge norms, using hybridization of enzymatic and electrocoagulation treatment. The findings revealed best color removal (90%) of undiluted (raw) textile effluent (4592 hazen) is achievable by employing EC using zinc-coated iron electrode at current density 25 mA cm followed by partially purified laccase (LT) treatment, and activated carbon (AC) polishing at ambient conditions. Overall, the decolorization performance of Hybrid EC-LT integrated AC approach was 1.95 times better than only laccase treatment. Also, the sludge generation from Hybrid EC-LT integrated AC (0.7 g L) was 3.3 times lesser than EC alone (2.1 g L). Therefore, the present study recommends Hybrid EC-LT integrated AC could be potential approach to treat complex textile effluent sustainably with lower energy input and waste sludge generation.