Remediation of textile wastewater by hybrid technique using ZIF-67 catalyzed ozonation coupled with electrocoagulation
Large-scale industrial wet processing generates high volumes of wastewater, causing a continuous disruption of the clean environment. Textile wastewater contains high mass loadings of contaminants, which poses a challenge to the environment and requires adequate treatment. This study aims to investi...
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Veröffentlicht in: | Journal of water process engineering 2025-01, Vol.69, p.106604, Article 106604 |
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Sprache: | eng |
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Zusammenfassung: | Large-scale industrial wet processing generates high volumes of wastewater, causing a continuous disruption of the clean environment. Textile wastewater contains high mass loadings of contaminants, which poses a challenge to the environment and requires adequate treatment. This study aims to investigate the treatment of textile wastewater by catalytic ozonation coupled with electrocoagulation using ZIF 67 as a catalyst in a hybrid reactor. This research explores the first application of ZIF-67 in a hybrid system with catalytic ozonation and electrocoagulation processes to treat real textile effluent. The initial characterization of wastewater indicated high pollutant loads such as 480 mg/L chemical oxygen demand (COD) and 210 mg/L biological oxygen demand (COD). The influence of operational parameters like current density, ozone dose, pH, and catalyst dose were studied. The heterogeneous catalytic ozonation-electrocoagulation (HCOP-EC) process achieved 79.6 % decolorization, 73.3 % COD removal, and 69.04 % BOD after 30 min of treatment at optimal conditions of pH 9, ozone dose 0.3 mg/min, current density 15.2 mA/cm2, and catalyst dose 50 mg/L. The catalyst reusability study showed an efficient performance of up to 3 cycles. Due to the complex matrix nature of the real effluents, the HCOP-EC combined process may be effectively applied to remediate pollutant loads in real textile wastewater.
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•A study on ZIF 67 catalyzed ozonation coupled with EC for textile effluent treatment.•Up to 79.6 % decolorization, 73.3 % COD removal and 69.04 % BOD were achieved.•ZIF 67 showed efficient 55.80 % removal after reuse in the third cycle.•Process efficiency was of order as HCOP-EC > O3 > EC > MOF. |
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ISSN: | 2214-7144 2214-7144 |
DOI: | 10.1016/j.jwpe.2024.106604 |