从废弃的印刷电路板中提取黄金

Gjergj Dodbiba, Kouji Yabui, Josiane Ponou, T. Fujita
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引用次数: 0

摘要

成本效益分析。日本是贵金属的主要消费国。然而,中国所需的大部分贵金属都是进口的。为了确保贵金属的稳定供应以及应对不断增长的全球需求,重要的是开发具有成本效益和环保的技术,能够从电子废物中回收贵金属,称为电子废物。一般来说,从印刷电路板(PCB)中回收金(Au)的传统方法是将废料焚烧,然后进行酸浸。为了改进金的提取工艺,作者提出了一种新的方法。样品先在氮气气氛中碳化,然后浮选,以减少酸浸样品的量,减少酸的消耗。浮选回收的样品用王水溶解金。在考察了炭化温度的影响后,进行了成本效益分析和生命周期评估(LCA),以比较传统方法和建议方法的效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Extracting Gold from Obsolete Printed Circuit Boards
cost-benefit analysis. Abstract Japan is a major consumer of precious metals. Nevertheless, it imports most of its required amount of precious metals. In order to ensure a stable supply of precious metals as well as deal with the increasing global demand, it is important to develop cost effective and environmental-friendly technologies that are able to recover the precious metals from electronic waste, known as e-waste. Generally speaking the conventional method for recovering gold (Au) from printed circuit boards (PCB) involves the incineration of scarp, followed by acid leaching. In an attempt to improve the Au extraction process, the authors are putting forward a new method. The sample was first subject to carbonization in N 2 atmosphere, followed by flotation in order to reduce the amount of sample subject to acid leaching as well as reduce the acid consumption. The sample recovered by flotation was then treated with aqua regia to dissolve Au. After investigating the effect of the carbonization temperature, a Cost-Benefit Analysis and a Life Cycle Assessment (LCA) were carried out in order to compare the efficiency of both conventional and suggested methods.
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