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首页> 外文期刊>Separation and Purification Technology >Rapid removal of organic micropollutants by heterogeneous peroxymonosulfate catalysis over a wide pH range: Performance, mechanism and economic analysis
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Rapid removal of organic micropollutants by heterogeneous peroxymonosulfate catalysis over a wide pH range: Performance, mechanism and economic analysis

机译:在宽pH范围内通过异质过氧键硫酸盐催化快速去除有机微量胶质剂:性能,机制和经济分析

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摘要

Despite the previous success of MoS2/Fe2+/PMS process in detoxifying organic micropollutants, the drawback of requiring a narrow range of working pH limits its practical application. In this study, a class of commercial MoS2 nanoparticles was introduced as a co-catalyst to facilitate the PMS activation by Fe3+ ion. Results showed that the MoS2/Fe3+/PMS system over a wide range of pH values (3.0-9.0) achieved above 90% of removal efficiency for seven pollutants (chloramphenicol, tetracycline, ciprofloxacin, benzoic acid, rhodamine B, sulfadiazine, and bisphenol A) within 60 min of reaction time. The addition of MoS2 greatly accelerated the reduction of Fe3+ to Fe2+ and the decomposition of PMS, thereby resulting in increased mineralization efficiency of pollutants. The generation of Mo6+ ion and Mo6+ peroxo-complexes also contributed to the promoting effect. Both sulfate (SO4 center dot-) and hydroxyl ((OH)-O-center dot) radicals were identified in MoS2/Fe3+/PMS system but SO4 center dot- was the dominant reactive oxidant. Chloride ion (Cl-) showed an enhanced effect on degradation, while bicarbonate ion (HCO3-) showed an inhibitory effect. Economic analysis was conducted by using an electrical energy per order (EE/O) approach. The above research findings suggest that the MoS2/Fe3+/PMS system is a promising oxidation technology owing to its efficient removal of various pollutants over a wide pH range.
机译:尽管在解毒有机微透露体中以前成功的MOS2 / FE2 + / PMS过程,但需要窄范围的工作PH范围限制其实际应用。在该研究中,将一类商业MOS2纳米颗粒作为助催化剂引入,以促进Fe3 +离子的PMS活化。结果表明,在七种污染物(氯霉素,四环素,环丙沙星,苯甲酸,罗丹明B,磺胺酰胺和双酚A的去除效率高于90%以上的MOS2 / Fe3 + / PMS系统以高于90%的去除率(3.0-9.0)。 )在反应时间60分钟内。添加MOS2大大加速了Fe3 +至Fe2 +的减少和PMS的分解,从而导致污染物的矿化效率增加。 MO6 +离子和MO6 +过氧复合物的产生也有助于促进效果。硫酸盐(SO4中心点)和羟基((OH)-O-中心点)在MOS2 / Fe3 + / PMS系统中鉴定出SO4中心点 - 是主要的反应性氧化剂。氯离子(CL-)显示出对降解的增强效果,而碳酸氢盐离子(HCO3-)显示出抑制作用。通过使用每阶(EE / O)方法的电能进行经济分析。上述研究结果表明,由于其在宽pH范围内有效地去除各种污染物,MOS2 / FE3 + / PMS系统是有前途的氧化技术。

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  • 作者

    Luo Hongwei; Cheng Ying; Zeng Yifeng; Luo Kai; He Dongqin; Pan Xiangliang;

  • 作者单位

    Zhejiang Univ Technol Coll Environm Key Lab Microbial Technol Ind Pollut Control Zhej Hangzhou 310014 Peoples R China;

    Zhejiang Univ Technol Coll Environm Key Lab Microbial Technol Ind Pollut Control Zhej Hangzhou 310014 Peoples R China;

    Zhejiang Univ Technol Coll Environm Key Lab Microbial Technol Ind Pollut Control Zhej Hangzhou 310014 Peoples R China;

    Zhejiang Univ Technol Coll Environm Key Lab Microbial Technol Ind Pollut Control Zhej Hangzhou 310014 Peoples R China;

    Zhejiang Univ Technol Coll Environm Key Lab Microbial Technol Ind Pollut Control Zhej Hangzhou 310014 Peoples R China;

    Zhejiang Univ Technol Coll Environm Key Lab Microbial Technol Ind Pollut Control Zhej Hangzhou 310014 Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 分离过程;气化工艺;
  • 关键词

    Sulfate and hydroxyl radicals; Micropollutants; Wastewater treatment; Reaction mechanisms; Ferric ion;

    机译:硫酸盐和羟基自由基;微污染物;废水处理;反应机制;铁离子;

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