Effective Anaerobic Decolorization of Azo Dye Acid Orange 7 in Continuous Upflow Packed-Bed Reactor Using Biological Activated Carbon System

Mezohegyi, Gergo; Kolodkin, Alexey; Castro, Ursula I.; Bengoa, Christophe; Stüber, Frank; Font, Josep; Fabregat, Azael; Fortuny, A.

doi:10.1021/ie061692o

Cited by 86 publications

(58 citation statements)

References 24 publications

(38 reference statements)

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“…However, the accelerating effects of AC gradually decrease, which is attributed to its continuous wash-out from the reactor. Similar to the above study, Mezohegyi et al achieved high decolorization rate of AO7 with an upflow packedbed reactor (UPBR) containing biological AC [39].…”

Section: New Development Of Redox Mediators Technologysupporting

confidence: 56%

Decolorization and Degradation of Azo Dyes by Redox Mediator System with Bacteria

Guo

Kang

Wang

et al. 2010

The Handbook of Environmental Chemistry

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Azo dyes are the largest and the most diverse group of synthetic dyes widely used in many industries, which are generally recalcitrant to biodegradation due to their xenobiotic nature. The effective treatment of azo dye wastewaters has been a big challenge, and up to now there is no single and economically attractive treatment that can effectively decolorize dyes. However, notable achievements have been conducted to explore the accelerating effects of different redox mediators during the anaerobic decolorization and degradation of azo dyes over the last two decades. The accumulated evidence suggest that redox mediators play a major role of electron shuttles in the reductive decolorization of azo dyes, both by chemical and biological mechanisms. This review is focused on the bacterial decolorization and degradation of azo dyes catalyzed by redox mediators and the further investigation to enhance the applicability of redox mediators on the bio-transformation of azo dyes.

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Section: New Development Of Redox Mediators Technologysupporting

confidence: 56%

Decolorization and Degradation of Azo Dyes by Redox Mediator System with Bacteria

Guo

Kang

Wang

et al. 2010

The Handbook of Environmental Chemistry

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“…Electrons obtained from oxidation of primary substrate are transferred to electronaccepting pollutants such as azo dyes directly or indirectly through redox mediators resulting in decolourization (Pandey et al 2007;Saratale et al 2011). The electrondonating primary substrates used in the reactor studies vary from simple substrates such as acetate, ethanol, yeast extract, and glucose, to more complex ones including relevant constituents of textile processing wastewaters such as starch, polyvinyl alcohol (PVA), and carboxymethylcellulose (CMC) (Carvalho et al 2008;Koupaie et al 2012;Laowansiri et al 2008;Sen and Demierer 2003;Mezohegyi et al 2007;Johnstrup et al 2011;Manu and Chaudhari 2002;O' Neill et al 2000). A given initial concentration of primary substrate to achieve decolourization of a given type of azo dye may not result in the similar extent of decolourization of a different type of azo dye at similar initial concentration (Rajaguru et al 2000).…”

Section: Primary Substrate Type and Its Concentrationmentioning

confidence: 99%

Destruction of azo dyes by anaerobic–aerobic sequential biological treatment: a review

Popli

Patel

2014

Int. J. Environ. Sci. Technol.

257

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Dyes are synthetic organic compounds widely used in various industries such as, textile, leather, plastic, food, pharmaceutical, and paints manufacturing industries. Coloured effluents are highly toxic to the aquatic life and mutagenic to humans. Wastewater containing dyes has become an important issue demanding serious attention. Among the synthetic dyes, azo dyes are the largest and most widely used dyes and account for more than half of the annually produced dyes. The biodegradation of azo dyes is difficult due to their complex structure and synthetic nature. Several treatments have been proposed for efficient azo dye removal, most of them presenting some limitations such as generation of waste sludge, high operational costs, poor efficiency, and incomplete mineralization. Biological treatment is a cost-effective and eco-friendly process for dye degradation. Sequential anaerobic-aerobic biological treatment is considered as one of the most cost-effective methods for the complete mineralization of azo dyes. The anaerobic stage yields decolourization through reductive cleavage of the dye's azo linkages, resulting in the formation of generally colourless but potentially hazardous aromatic amines. The aerobic stage involves degradation of the aromatic amines. It is the most logical step for removing the azo dyes from the wastewater. Several factors can influence the microbial activity and consequently the efficacy and effectiveness of the complete biodegradation processes. This paper summarizes the results of biological decolourization of azo dyes using various types of reactors, elaborates biochemical mechanisms involved, and discusses influence of various operational parameters on decolourization based on reports published in the last decade.

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“…where m c (g) is the mass of catalyst in the reactor, F v (mL min À1 ) is the volumetric flow rate of azo dye solution, and r (g mL À1 ) is the density of the solution [14].…”

Section: Continuous Experimentsmentioning

confidence: 99%

Biodegradation of acid orange 7 in an anaerobic–aerobic sequential treatment system

García-Martínez

Bengoa

Fortuny

et al. 2015

Chemical Engineering and Processing - Process Intensification

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Effective Anaerobic Decolorization of Azo Dye Acid Orange 7 in Continuous Upflow Packed-Bed Reactor Using Biological Activated Carbon System

Cited by 86 publications

References 24 publications

Decolorization and Degradation of Azo Dyes by Redox Mediator System with Bacteria

Decolorization and Degradation of Azo Dyes by Redox Mediator System with Bacteria

Destruction of azo dyes by anaerobic–aerobic sequential biological treatment: a review

Biodegradation of acid orange 7 in an anaerobic–aerobic sequential treatment system

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