AOX degradation of the pulp and paper industry bleaching wastewater using nZVI in two different agitation processes

The pulp and paper industry has been researching different treatments for the degradation of adsorbable organohalogens (AOX). In this work, two agitation processes (mechanical and ultrasound) were analyzed in the AOX degradation of the bleaching wastewater using nano zero valent iron (nZVI). The wor...

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Bibliographic Details
Published in:Environmental technology & innovation 2021-05, Vol.22, p.101420, Article 101420
Main Authors: Erhardt, Camila Stockey, Basegio, Tania Maria, Capela, Isabel, Rodríguez, Adriane Lawisch, Machado, Ênio Leandro, López, Diosnel Antonio Rodríguez, Tarelho, Luís, Bergmann, Carlos Pérez
Format: Article
Language:English
Subjects:
Adsorbable organohalogens
Bleaching wastewater
Degradation
Nano zero valent iron
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Summary:The pulp and paper industry has been researching different treatments for the degradation of adsorbable organohalogens (AOX). In this work, two agitation processes (mechanical and ultrasound) were analyzed in the AOX degradation of the bleaching wastewater using nano zero valent iron (nZVI). The work used different variables for the AOX removal process, such as pH, time, nZVI, and hydrogen peroxide (H2O2) concentration. Results show an increase in AOX degradation when a higher nZVI concentration is used. The optimal combination of variables for the treatment with mechanical agitation was found in the ratio 2:5 (nZVI : H2O2), degrading 85% of AOX in 60 min, with acid pH. Ultrasound treatment consisted of half process time and less degradation than mechanical agitation treatment. The 2:5 ratio in ultrasound agitation degraded 55% of AOX within 30 min at the end of the process. Both methods of the homogenization process of zero valent iron nanoparticles in the bleaching wastewater of the paper and cellulose industry are efficient. However, the mechanical stirring process has a more significant potential for AOX degradation. The variables (pH, concentration of nZVI and H2O2 and duration of the process) used in the bleaching wastewater treatment process must be considered for future implementation in the pulp and paper industry. [Display omitted] •nZVI has potential for AOX degradation in the bleaching wastewater of the pulp and paper industry.•Increased nZVI concentration increases AOX degradation.•The optimal combination of variables for the treatment is the ratio 2:5 (nZVI: H2O2).•Both agitation processes in the effluent treatment are efficient.•The possibility of reusing nZVI in the treatment of effluent.
ISSN:2352-1864
2352-1864
DOI:10.1016/j.eti.2021.101420