Nitrobenzene degradation in Fenton-like systems using Cu(II) as catalyst. Comparison between Cu(II)- and Fe(III)-based systems

Daniela A. Nichela; Andrea M. Berkovic; Mariana R. Costante

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Nitrobenzene degradation in Fenton-like systems using Cu(II) as catalyst. Comparison between Cu(II)- and Fe(III)-based systems

机译：使用Cu（II）作为催化剂的类Fenton系统中的硝基苯降解。 Cu（II）和Fe（III）基体系之间的比较

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Nitrobenzene (NBE) degradation in Fenton-like systems using copper(II) as catalyst was investigated and compared with the trends observed in iron(III)-based systems. UV-vis spectroscopy, HPLC and TOC measurements were used to characterize the evolution of the reaction mixtures. Kinetic profiles were analyzed under a wide range of experimental conditions in order to assess the effects of the reaction temperature, initial concentrations and working pH. For both Cu(II)-based and Fe(III)-based systems, treatment times decreased with increasing oxidant and catalyst concentrations, but augmented with increasing NBE concentration. However, significant differences were observed for Cu(II)-based systems: higher activation energy above room temperature, broader pH range of activity with an optimal pH of about 6.2, absence of 1,3-dinitrobenzene among the reaction products and important reductions in the TOC levels even in the absence of irradiation.

机译：研究了以铜（II）为催化剂的类芬顿体系中的硝基苯（NBE）降解，并与基于铁（III）的体系中观察到的趋势进行了比较。紫外可见光谱，HPLC和TOC测量用于表征反应混合物的演变。在广泛的实验条件下分析了动力学曲线，以评估反应温度，初始浓度和工作pH的影响。对于基于Cu（II）和Fe（III）的系统，处理时间随着氧化剂和催化剂浓度的增加而减少，但随着NBE浓度的增加而增加。但是，对于基于Cu（II）的系统，观察到了显着差异：高于室温的活化能更高，活性的pH范围更宽，最佳pH约为6.2，反应产物中不存在1,3-二硝基苯，并且显着降低了甚至在没有辐射的情况下，TOC的水平。

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《Chemical engineering journal》 |2013年第null期|共10页
作者
Daniela A. Nichela; Andrea M. Berkovic; Mariana R. Costante;
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正文语种 eng
中图分类化学工业;
关键词
Nitrobenzene; Copper(II); Iron(III); Fenton-like; Photo-enhancement;

机译：硝基苯;铜（II）;铁（III）;Fenton样;光增强;

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Nitrobenzene degradation in Fenton-like systems using Cu(II) as catalyst. Comparison between Cu(II)- and Fe(III)-based systems

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