电路板回收：选择性浸出的物理处理和铜提取。

Printed circuit board recycling: Physical processing and copper extraction by selective leaching.

机构信息

Department of Chemical Engineering, Polytechnic School of the University of São Paulo, R. do Lago, 250, 05424-970, PO 61548, São Paulo, Brazil.

Department of Chemical Engineering, Polytechnic School of the University of São Paulo, R. do Lago, 250, 05424-970, PO 61548, São Paulo, Brazil; Federal Institute of Technology, Science and Education of Espírito Santo, Rd ES-010, Km 6,5 - Manguinhos, CEP 29173-087 Serra, ES, Brazil.

出版信息

Waste Manag. 2015 Dec;46:503-10. doi: 10.1016/j.wasman.2015.08.030. Epub 2015 Aug 29.

DOI:10.1016/j.wasman.2015.08.030

PMID:26323203

Abstract

Global generation of waste electrical and electronic equipment (WEEE) is about 40 million tons per year. Constant increase in WEEE generation added to international legislations has improved the development of processes for materials recovery and sustainability of electrical and electronic industry. This paper describes a new hydrometallurgical route (leaching process) to recycle printed circuit boards (PCBs) from printers to recover copper. Methodology included PCBs characterization and a combined route of physical and hydrometallurgical processing. Magnetic separation, acid digestion and chemical analysis by ICP-OES were performed. On leaching process were used two stages: the first one in a sulfuric media and the second in an oxidant media. The results showed that the PCBs composition was 74.6 wt.% of non-magnetic material and 25.4 wt.% of magnetic one. The metallic fraction corresponded to 44.0 wt.%, the polymeric to 28.5 wt.% and the ceramic to 27.5 wt.%. The main metal was copper and its initial content was 32.5 wt.%. On sulfuric leaching 90 wt.% of Al, 40 wt.% of Zn and 8.6 wt.% of Sn were extracted, whereas on oxidant leaching tests the extraction percentage of Cu was 100 wt.%, of Zn 60 wt.% and of Al 10 wt.%. At the end of the hydrometallurgical processing was obtained 100% of copper extraction and the recovery factor was 98.46%, which corresponds to a 32 kg of Cu in 100 kg of PCB.

摘要

全球每年产生的废弃电气电子设备（WEEE）约为 4000 万吨。WEEE 产生量的持续增加以及国际法规的不断完善，促进了材料回收和电气电子行业可持续发展相关工艺的发展。本文介绍了一种从打印机回收印刷电路板（PCB）以回收铜的新型湿法冶金路线（浸出工艺）。该方法包括 PCB 特性分析以及物理和湿法冶金相结合的综合处理路线。采用磁分离、酸消解和 ICP-OES 化学分析进行处理。浸出过程分为两个阶段：第一阶段在硫酸介质中进行，第二阶段在氧化剂介质中进行。结果表明，PCB 的组成中 74.6wt.%为非磁性材料，25.4wt.%为磁性材料。金属部分对应 44.0wt.%，聚合物对应 28.5wt.%，陶瓷对应 27.5wt.%。主要金属是铜，其初始含量为 32.5wt.%。在硫酸浸出中，90wt.%的 Al、40wt.%的 Zn 和 8.6wt.%的 Sn 被提取，而在氧化剂浸出试验中，Cu 的提取率为 100wt.%，Zn 的提取率为 60wt.%，Al 的提取率为 10wt.%。湿法冶金处理结束时，铜的提取率达到 100%，回收率为 98.46%，即 100kg PCB 中可回收 32kg 铜。

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电路板回收：选择性浸出的物理处理和铜提取。

Printed circuit board recycling: Physical processing and copper extraction by selective leaching.

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