Ultrafast degradation of brilliant cresyl blue under hydrodynamic cavitation based advanced oxidation processes (AOPs)

The study highlights effectiveness of hydrodynamic cavitation (HC) in the degradation of effluents polluted by Brilliant Cresyl Blue (BCB) dye. Optimal process parameters were cavitation number 0.27, inlet pressure 1.70 bar, temperature 20 °C and pH 7. The efficiency of HC was investigated in combin...

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Bibliographic Details
Published in:Water resources and industry 2020-12, Vol.24, p.100134, Article 100134
Main Authors: Cako, Elvana, Gunasekaran, Kumaravel Dinesh, Cheshmeh Soltani, Reza Darvishi, Boczkaj, Grzegorz
Format: Article
Language:English
Subjects:
Advanced oxidation processes (AOPs)
Hydrodynamic cavitation
Hydroxyl radicals
Persulfate
Photooxidation
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Summary:The study highlights effectiveness of hydrodynamic cavitation (HC) in the degradation of effluents polluted by Brilliant Cresyl Blue (BCB) dye. Optimal process parameters were cavitation number 0.27, inlet pressure 1.70 bar, temperature 20 °C and pH 7. The efficiency of HC was investigated in combination with other advanced oxidation processes, including the addition of external oxidants (hydrogen peroxide, ozone, and sodium persulfate) and photooxidation. A detailed investigation of reactive radical species present in the system is also presented. Hybrid processes based on HC revealed the highest synergism. Finally, ultrafast degradation of target oxazine dye (decolorization efficiency of 100%) within the short treatment time of 1 min was developed. The most effective process was a combination of hydrodynamic cavitation and ozonation with a synergistic coefficient of 1.84 and electrical energy per order EEO of 0.03 kWh m−3 order−1. The presented solution is ready to be implemented as technology for industrial practice. [Display omitted] •Hydrodynamic cavitation aided by ozone (HC/O3) led to ultra-fast degradation of BCB dye.•Superoxide radicals (O2.•-) were the main oxidizing species in the system.•Hydroxyl radicals participated in degradation mechanism.•High synergism between ozonation and cavitation phenomenon.•Ideal, low cost, method for implementation in real industrial practice.
ISSN:2212-3717
2212-3717
DOI:10.1016/j.wri.2020.100134