Comparative Study on Removal of Acid Violet 90 dye by using Catalytic Ozonation Processes with n.CeO2, n.ZnO and n.CeO2/n.ZnO Nanocatalysts and Kinetic Examination
Künye
Büşra Erden, Gamze Katırcıoğlu Sınmaz, Aksu, M., N. Pınar Tanattı, & Has, M. (2024). Comparative Study on Removal of Acid Violet 90 dye by using Catalytic Ozonation Processes with n.CeO2, n.ZnO and n.CeO2/n.ZnO Nanocatalysts and Kinetic Examination. Water Air & Soil Pollution, 235(9). https://doi.org/10.1007/s11270-024-07397-7 Özet
The textile industry uses high amounts of
water and dyestufs, and accordingly, wastewater containing signifcant amounts of dyestufs is produced,
which have to be treated before being discharged to
the environment. The aim of this study is the treatment of synthetic wastewater containing 50 mg/L
Acid Violet 90 dyestuf with catalytic ozonation process have been investigated by using n.CeO2, n.ZnO
and n.CeO2/n.ZnO (1:1, m:m) nanocatalysts. The process optimization has been performed with the pH,
ozone dose, catalyst dose and reaction time parameters. While the optimum conditions have been determined as pH 3, 600 mg/L ozone dose, 10 min reaction time, for all three catalysts, catalyst doses have
difered as 50 mg/L for n. CeO2, 30 mg/L for n.ZnO
and n.CeO2/n.ZnO. The removal efciencies of AV
90 have been achieved as 97.04, 96.2 and 95.7% for
n.CeO2, n.ZnO and n.CeO2/n.ZnO catalysts, respectively. Kinetic analyses showed that color removal
of AV 90 dyestuf followed First order kinetics with
R2
values of 0.9987 (n.CeO2), 0.9912 (n.ZnO) and
0.9923 (n.CeO2/n.ZnO) and reaction rate constant
values have been calculated as 0,3435 (n.CeO2),
0,3551(n.ZnO) and 0,3226 (n.CeO2/n.ZnO) min−1.