基于Box-Behnken设计方法的fenton法降解水中硝基苯

Archives of Hygiene Sciences Pub Date : 2021-01-10 DOI:10.52547/ARCHHYGSCI.10.1.58

A. Shokri, Ghasem Noshad, A. Hosseini

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引用次数: 1

摘要

硝基苯是水中主要的有机污染物之一，广泛用于染料、炸药和杀虫剂中。然而，它因其巨大的致癌性、毒性以及对环境和生物体的其他相反影响而臭名昭著。此外，由于硝基的强吸电子特性，NB表现出较差的氧化降解活性。根据美国环境保护署(U.S. Environmental Protection Agency)的规定，水体和湖泊溪流中的铌含量不应超过17ppm(1)。因此，环境风险促使人们采取有效的方法消除铌。通过将铌还原为毒性较小的苯胺来消除铌的研究结果表明，即使在A-R-T-I-C-L-EI-N-F-O A-B-S-T-R-A-C-T时，水生环境仍处于危险之中

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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Degradation of Nitrobenzene in an Aqueous Environment through Fenton-like Process Using Box–Behnken Design Method

Nitrobenzene (NB) is one of the main organic contaminants in water and is extensively used in dyes, explosives, and insecticides. However, it is infamous for its great carcinogenicity, toxicity, and other opposing influences on environments and organisms. Furthermore, NB demonstrates poor activity towards oxidative degradation due to the strong electron-withdrawing features of the nitro-group. According to the U.S. Environmental Protection Agency, the level of NB in water and lake streams should not exceed 17 ppm (1). Therefore, environmental risks have urged the advance of effective methods for NB elimination. Elimination of NB through reducing it to less poisonous aniline has been investigated and the results have shown that the aquatic environment was still at risk even when the A-R-T-I-C-L-EI-N-F-O A-B-S-T-R-A-C-T

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Archives of Hygiene Sciences

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2 weeks