Photocatalytic Degradation and Kinetics of Dyes in Textile Effluent Using UV – ZnO-Al System

Asian Journal of Applied Chemistry Research Pub Date : 2023-03-14 DOI:10.9734/ajacr/2023/v13i2240

J. F. Effiong, A. Nyong, E. Boekom, N. Simon

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引用次数: 1

Abstract

This study investigates the photodegradation of a mixture of 4 azo dyes (direct orange 39, chlorantine fast red 5B, viscose black B and direct sky blue K) present in textile effluents and the influence of catalyst dose, irradiation time, UV power intensity on the overall photodegradation kinetics of the process. The photocatalytic experiments were conducted in a batch stirred photoreactor equipped with a 10 W, 30W and 60 UV lamps, magnetic stirrer and thermometer. The photocatalysts used was zinc oxide nanoparticle doped with aluminium (AZO, 15nm, 99.99 to %). The results obtained showed that variation in the physical parameters influenced the efficiency of photodegradation. The kinetic study indicated that the photodegradation of the dyes present in the effluent from the textile industry followed the Langmuir-Hinshelwood model that is modified to accommodate reactions occurring at a solid-liquid interphase. At the catalyst dose of 0.5g/l, the apparent first order rate constant K1, was 0.00615 min-1 but at 2.5g/l it reduced to 0.00567 min-1. The best degradation was at the catalyst dose of 2.0g/L with the rate constant of 0.0134 min-1.

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UV - ZnO-Al体系光催化降解纺织废水中染料及其动力学研究

研究了纺织废水中4种偶氮染料(直接橙39、氯碱耐晒红5B、粘胶黑B和直接天蓝K)的混合光降解，以及催化剂剂量、照射时间、紫外功率强度对整个过程光降解动力学的影响。在配备10 W、30W和60 W紫外灯、磁力搅拌器和温度计的间歇式搅拌光反应器中进行光催化实验。采用掺铝氧化锌纳米颗粒(AZO, 15nm, 99.99 ~ %)作为光催化剂。结果表明，物理参数的变化会影响光降解效率。动力学研究表明，纺织工业废水中染料的光降解遵循Langmuir-Hinshelwood模型，该模型经过修改以适应发生在固液界面的反应。当催化剂用量为0.5g/l时，一级表观速率常数K1为0.00615 min-1，而当催化剂用量为2.5g/l时，一级表观速率常数K1为0.00567 min-1。催化剂用量为2.0g/L时，降解效果最佳，降解速率常数为0.0134 min-1。

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Asian Journal of Applied Chemistry Research

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