Aerobic Granulation Technology- Based Cresol Degradation: A Comparative Evaluation of Reactor Studies

Authors

DOI:

https://doi.org/10.46488/

Keywords:

Aerobic granulation technology, Cresol isomers, Continuous Reactor, Catechol 1, 2-dioxygenase

Abstract

Cresols (ortho, meta-, and para-isomers), potent xenobiotic compounds prevalent in industrial wastewaters, pose severe environmental and health threats and require robust bioremediation solutions. Aerobic granulation technology was assessed for its degradation efficiency towards the cresol isomers in batch and continuous reactors, addressing a key gap in existing research that has focused mainly on individual cresol isomers. The comparative reactor evaluation revealed that continuous operation achieved a 10.17% increase in cresol degradation efficiency compared to batch mode, highlighting its sustained performance. The continuous reactor demonstrated optimal cresol degradation at a flow rate of 120 ml h-1 (HRT 8.33 h), underpinned by elevated volumetric and specific degradation rates. The enzyme analysis confirmed elevated levels of catechol 1,2-dioxygenase and phenol hydroxylase, driving oxidative metabolism. The mechanism of biodegradation has been confirmed through enzyme activity assays and FT-IR spectral analysis, which demonstrated the absence of characteristic peaks associated with cresol functional groups and the emergence of oxygenated functional groups, thereby confirming the structural changes during aerobic granular degradation. The significant degradation efficiency and enzyme-assisted structural transformation of cresol validate aerobic granular sludge as a robust treatment system for cresol-contaminated wastewater. 

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