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稀土掺杂DSA电极在染料废水处理方面的研究进展 被引量:3

Research and Development for Application of DSA Electrode Doping with Rare Earth in Treatment of Dyeing Wastewater
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摘要 染料废水可生化性差,是目前国内较大的一个处理难题,电化学技术则提供了一种高效稳定的处理方式。为改善DSA电极在电催化活性、稳定性以及寿命等方面问题,提高其在印染废水处理领域的实际应用性,科研人员利用稀土独特的性能对DSA电极进行了修饰。本文将整理近几年来国内外对稀土掺杂DSA电极的研究成果,并对其修饰机理进行系统分类,为该方面进一步的研究提供较为科学和完整的参考。 Electrochemical oxidation technology, which characterized as high and stable degradation efficiency, was employed into the treatment of dyeing wastewater concerned as a source of large emission in China in terms of its poor biodegradability. In order to im- prove the electroeatalytic, the stability and the working life of the dimensionally stable anode (DSA) and expand the application field of electrochemical technology on dyeing water treatment, scientists modified the DSA with rare earth according to its unique properties. Various achievements, at home and abroad, about the mechanism of DSA electrode doped with rare earth were arranged and catego- rized to provide scientific and sufficient references for advanced research.
作者 沈宏 夏伊静 戴启洲 王家德 陈建孟
机构地区 浙江工业大学生物与环境工程学院
出处 《染料与染色》 CAS 2013年第2期49-52,62,共5页 Dyestuffs and Coloration
基金 国家科技支撑计划(2011BAE07B09) 高等学校博士学科点专项科研基金资助项目(NO.20113317120004) 浙江省自然科学基金项目(Y5090272) 浙江省重点科技创新团队项目(No.2011R09048-04)
关键词 印染废水 稀土掺杂 DSA电极 机理 dyeing wastewater rare earth doping DSA mechanism
分类号 X703 [环境科学与工程—环境工程]
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参考文献42

  • 1Danielle F. M. Oliveira, Paulo S. Batista, Paulo S. Muller Jr., et al. Evaluating the effectiveness of photocatalysts based on titanium dioxide in the degradation of the dye Ponceau 4R [ J ]. Dyes and Pigment, 2011, 29 (1) : 563 -572.
  • 2Lina Xu, Huazhang Zhao, Shaoyuan Shi, et al. Electrolytic treat- ment of C. I. Acid Orange 7 in aqueous solution using a three - di- mensional electrode reactor [ J ]. Dyes and Pigments, 2008, 77 (1): 158-164.
  • 3Cheng Chert, Zhuyi Wang, Shengping Ruan, et al. Photocatalytic degradation of C. I. Acid Orange 52 in the presence of Zn - doped TiO2 prepared by a stearic acid gel method [ J]. Dyes and Pigments, 2008, 77 (1): 204-209.
  • 4Juliane C. Forti, Josimar Ribeiro, Marcos R. V. Lanza, et al. Electrochemical characterization of DSA - type electrodes using niobi- um substrate [J]. Electrocatalysis, 2010, 1:129-138.
  • 5Z. S. Msindo, V. Sibanda, J. H. Potgieter. Electrochemical and physical characterisation of lead - based anodes in comparison to Ti - (70%) IrO2/ (30%) Ta2O5 dimensionally stable anodes for use in copper electrowinning [J]. Journal of Applied Electrochemis- try, 2010, 40 (3): 691-699.
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  • 7Carla Regina Costa, Francisco Montilla, Emilia Morallon, et al. Electrochemical oxidation of acid black 210 dye on the boron - doped diamond electrode in the presence of phosphate ions: Effect of cur- rent density, pH, and chloride ions [J]. Electrochimica Acta, 2009, 54 (27): 7048-7055.
  • 8Serdar Abaci, Ugur Tamer, Kadir Pekmez, et al. Electresynthesis of benzoquinone from phenol on α and β surfaces of PbO2 [ J ]. Electroehimica Aeta, 2005, 50 (18): 3655-3659.
  • 9Cui Yuhong, Feng Yujie, Liu Zhengqian. Influence of rare earths doping on the structure and electro - catalytic performance of Ti/Sb - SnO2 electrodes [ J ]. Electrechimica Acta, 2009, 54 ( 21 ) : 4903 - 4909.
  • 10Jiangtao Kong, Shaoyuan Shi, Lingcai Kong, et al. Preparation and characterization of PbO2 electrodes doped with different rare earth oxides [J]. Electrochimica Acta, 2007, 53 (4) : 2048 - 2054.

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染料与染色
2013年 第2期

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