Investigation and Thermodynamic Consideration for Chlorination-Volatilization Behavior of Valuable Metals in Printed Circuit Board Wastes

A. Shibayama, Masahiro Watanabe, Kazutoshi Haga, A. Hosoi, Y. Takasaki
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Abstract

For the recycling of valuable metals contained in the printed circuit board wastes (PCBW), the effect of temperature on chlorination-volatilization behavior of metals under valuable chlorine resource was investigated. For the experimental sample powder of two types PCBW: crushed PCBW and roasted PCBW was used. The samples were heated at predefined temperatures ranging from 300°C to 900°C with chlorine, argon gas atmosphere or CaCl 2 as a solid chlorine source. Chlorine/Argon gas flow into furnace was set at a rate of 100 mL/min. As a result, most of metals in crushed PCBW did not volatilize regardless the temperature, argon gas atmosphere and CaCl 2 as chlorine source. In contrast, in the Cl 2 gas atmosphere, a lot of metals in crushed and/or roasted PCBW volatilized by raising temperature. Compering the experimental samples, volatilization rate of crushed PCBW is higher than roasted PCBW. This is considered to be influenced by the chemical composition of metals in the samples. When using the crushed PCBW, most metals were volatilized over 90% at 900°C. In addition, in 70% of volatilized metals that were recovered, Cu, Au, Ni were concen -trated. According to the results, valuable metals could be recovered by chlorination volatilization from PCBW.
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印制板废弃物中有价金属氯化挥发行为的研究与热力学考虑
为回收利用印制板废弃物中有价金属,研究了温度对有价氯资源下金属氯化挥发行为的影响。实验样品采用粉碎型和焙烧型两种粉末。样品在300°C至900°C的预定温度下加热,氯,氩气气氛或氯化钙作为固体氯源。氯气/氩气入炉速度设定为100ml /min。结果表明,无论温度、氩气气氛和氯化钙作为氯源,粉碎后的PCBW中大部分金属都不挥发。相反,在Cl 2气体环境中,粉碎和/或焙烧的PCBW中的许多金属通过升高温度而挥发。对比实验样品,粉碎后的PCBW挥发率高于焙烧后的PCBW。这被认为是受样品中金属化学成分的影响。当使用破碎的PCBW时,大多数金属在900℃时挥发超过90%。此外,在回收的挥发性金属中,有70%富集了Cu、Au、Ni。结果表明,氯化挥发法可回收多氯联苯废水中的有价金属。
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