采用浓缩室电池膜技术的铬蚀刻溶液的再生与循环利用。

The regeneration and recycle of chromium etching solutions using concentrator cell membrane technology.

作者信息

Chaudhary Abdul J, Ganguli Bijita, Grimes Susan M

机构信息

Institute for the Environment, Brunel University, Kingston Lane, Uxbridge, Middlesex UB8 3PH, United Kingdom.

出版信息

Chemosphere. 2006 Feb;62(5):841-6. doi: 10.1016/j.chemosphere.2005.04.074. Epub 2005 Jun 27.

DOI:10.1016/j.chemosphere.2005.04.074

PMID:15982714

Abstract

The regeneration of chromium (VI) and the recovery of etched copper from chromium etching solutions by electrodialysis is improved by the addition of a concentrator cell in the catholyte chamber. The concentrator media used are ion-exchange resins or activated carbon cloth. The maximum percentages for the regeneration of chromium and recovery of copper in these systems is however less than 80% and 90% respectively because of the competition between the processes of oxidation of Cr(III) and electrodeposition of copper. A novel combination of electrolysis with electrodialysis and concentrator cell technology is developed that achieves 92% chromium regeneration and 90% copper recovery.

摘要

通过在阴极电解液室中添加浓缩室，可改善铬（VI）的再生以及通过电渗析从铬蚀刻溶液中回收蚀刻铜的效果。所使用的浓缩介质为离子交换树脂或活性炭布。然而，由于Cr（III）氧化过程与铜电沉积过程之间的竞争，这些系统中铬再生和铜回收的最大百分比分别小于80%和90%。开发了一种将电解与电渗析及浓缩室技术相结合的新方法，该方法可实现92%的铬再生率和90%的铜回收率。

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采用浓缩室电池膜技术的铬蚀刻溶液的再生与循环利用。

The regeneration and recycle of chromium etching solutions using concentrator cell membrane technology.

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