Doehlert matrix-based optimization of degradation of Rhodamine B in a swirling flow photolytic reactor operated in recirculation mode

IF 1.5 4区 工程技术 Q3 ENGINEERING, CHEMICAL Brazilian Journal of Chemical Engineering Pub Date : 2024-09-04 DOI:10.1007/s43153-024-00505-4
Manisha Bagal, Bhagyesh Nandgawle, Saif Khalfay, Rohan Thosar, Ashish Mohod, Parag R. Gogate
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Abstract

Textile industries produce extensive dye waste which if discharged into the freshwater bodies, can result in contamination and toxic effects on humans as well as ecosystem. Rhodamine B (RhB) is one of the major pollutants in textile wastewater and requires considerable attention for its remediation. The present study focuses on developing a novel design of a swirling flow photolytic oxidation reactor for large volume treatment of RhB dye. Degradation of Rh-B was studied at varying initial concentrations, variable quantities of Fenton’s reagent and hydrogen peroxide as additives, individually and in combination to achieve maximum efficacy. Further, the treatment efficacy of the reactor was optimized using surface response method based on Doehlert matrix with initial dye concentration (ppm), Fenton’s reagent (g) and pH as independent factors optimized to achieve maximum RhB degradation (%). The article also describes in detail about the design considerations and advantages of swirling flow photolytic reactor over classical UV/Fenton batch reactor setup. It highlights advantages of the design modifications along with catalytic oxidative reactions to achieve maximum dye degradation. The swirling flow photocatalytic reactor showed promising results especially for large volume degradation of RhB dye, while degradation percentage was significantly improved using the optimized parameters. When compared to the individual UV irradiation (25% degradation), the approach involving the combination i.e. UV with Fenton in the modified reactor, demonstrated degradation of RhB as high as up to 100%.

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基于多赫勒特矩阵的罗丹明 B 在以再循环模式运行的漩涡流光解反应器中的降解优化研究
纺织工业会产生大量染料废料,这些废料一旦排入淡水水体,就会对人类和生态系统造成污染和毒害。罗丹明 B(RhB)是纺织废水中的主要污染物之一,因此需要对其进行修复。本研究的重点是开发一种新型设计的漩涡流光解氧化反应器,用于大容量处理 RhB 染料。研究了不同初始浓度、不同数量的芬顿试剂和过氧化氢作为添加剂、单独使用或组合使用时 Rh-B 的降解情况,以实现最大功效。此外,还采用基于 Doehlert 矩阵的表面响应法对反应器的处理效果进行了优化,将初始染料浓度(ppm)、芬顿试剂(g)和 pH 值作为优化的独立因素,以实现最大的 RhB 降解率(%)。文章还详细介绍了漩涡流光解反应器的设计考虑因素和优于传统紫外/芬顿间歇反应器设置的优势。文章强调了设计修改和催化氧化反应的优势,以实现最大程度的染料降解。漩涡流光催化反应器显示出良好的效果,特别是在大体积降解 RhB 染料方面,使用优化参数后的降解率显著提高。与单独的紫外线照射(降解率为 25%)相比,在改良反应器中结合紫外线和 Fenton 的方法对 RhB 的降解率高达 100%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Brazilian Journal of Chemical Engineering
Brazilian Journal of Chemical Engineering 工程技术-工程:化工
CiteScore
2.50
自引率
0.00%
发文量
84
审稿时长
6.8 months
期刊介绍: The Brazilian Journal of Chemical Engineering is a quarterly publication of the Associação Brasileira de Engenharia Química (Brazilian Society of Chemical Engineering - ABEQ) aiming at publishing papers reporting on basic and applied research and innovation in the field of chemical engineering and related areas.
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