Leaching of base metals in PCBs and copper cementation by iron powder

IF 5.4 Q2 ENGINEERING, ENVIRONMENTAL
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Abstract

When dealing with electronic waste, printed circuit boards (PCBs) are some of the most important materials in terms of recovery possibilities, because of their high content of precious metals and base metals, notably copper (> 20% w/w), in addition to organic resins and ceramic materials. Efficient hydrometallurgical metals recovery from electronic waste is an important on-going research topic, and the present study consisted in the development of a process for the concentration of precious metals by leaching and recovery of major base metals mainly copper.

A fraction of crushed PCBs concentrated in metals with more than 50 % copper was used for the leaching tests for two types of components: processor cards and mobile phone cards. For the leaching process, two steps were carried out. A first step consisted in leaching the concentrate three times with sulfuric acid and hydrogen peroxide, a second step consisted in lead removal by nitric acid leaching.

The obtained results exhibit that, for processor cards, the first stage of leaching allowed the extraction of about 98 % of copper. Other base metals, zinc (99.8 %) and nickel (96 %) were also significantly leached. Precious metals were less leached except Ag with 88 % of release. The second stage of leaching with nitric acid allowed significant removal of lead (66 %). For mobile phone cards, the first stage of leaching led to an almost complete extraction of Cu (>98 %) and some other base metals (Fe, Ni, Sn, and Zn > 90 %). Al, Co and Mn were also extracted at 76 %, 78 % and 81 % respectively. Precious metals remained in the residue, except Pd which was leached at 16 %. The second stage of leaching with dilute nitric acid solution was not necessary for mobile phone cards, as it was responsible of an important Ag release from residue (80 %).

Abstract Image

多氯联苯中基本金属的沥滤和铁粉对铜的胶结作用
在处理电子废弃物时,印刷电路板(PCB)是一些最重要的回收材料,因为除了有机树脂和陶瓷材料外,它们还含有大量贵金属和贱金属,尤其是铜(20% w/w)。从电子废料中高效回收湿法冶金金属是一个重要的研究课题,本研究包括开发一种通过浸出法浓缩贵金属和回收主要贱金属(主要是铜)的工艺。沥滤过程分为两个步骤。第一步是用硫酸和过氧化氢对浓缩物进行三次沥滤,第二步是用硝酸沥滤除铅。其他贱金属锌(99.8%)和镍(96%)也被大量沥滤。贵金属的沥滤率较低,但银除外,沥滤率为 88%。第二阶段的硝酸沥滤可显著去除铅(66%)。对于手机卡,第一阶段浸出几乎完全提取了铜(98%)和其他一些贱金属(铁、镍、锡和锌,90%)。铝、钴和锰的提取率分别为 76%、78% 和 81%。除钯的萃取率为 16% 外,贵金属仍留在残渣中。对于手机卡来说,第二阶段用稀硝酸溶液萃取是不必要的,因为它会从残留物中释放出大量的 Ag(80%)。
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来源期刊
Journal of hazardous materials advances
Journal of hazardous materials advances Environmental Engineering
CiteScore
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