利用产氰菌回收低环境影响金

2005 4th International Symposium on Environmentally Conscious Design and Inverse Manufacturing Pub Date : 2005-12-12 DOI:10.1109/ECODIM.2005.1619383

Y. Kita, H. Nishikawa, M. Ike, T. Takemoto

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引用次数: 5

摘要

在电子组装中，Au经常用于表面电镀和键合线材料。为了从废弃的电子产品中回收黄金，目前普遍采用的方法是用青色溶液溶解，但这种溶液毒性很大。因此，具有环保意识的替代过程是可取的。利用具有氰化物形成和分解能力的紫色杆菌溶解金，并在金溶解后分解氰化物。本研究以溶氧对金溶出的影响作为金生物浸出的一个因素进行了研究，并对连续溶出金进行了连续和重复的间歇培养，作为一种再生氰化工艺。溶解氧浓度因细菌呼吸作用而降低，但曝气可恢复溶解氧浓度并激活Au的溶解。通过更换培养基，紫孢杆菌可反复产生氰化物，浸金300h后金粉中溶解60%的金

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Low Environmentally Impact Recovery of Gold using Cyanide Producing Bacteria

In the electronic assembly, Au is frequently used for surface plating and a bonding wire material. To recover gold from waste electronics, the dissolution process using cyan is a popular method, however, the solution is highly toxic. Accordingly, the environmentally conscious substitute process is preferable. Chromobacterium violaceum having ability of cyanide formation and decomposition were used to dissolve Au and decompose cyanide after Au dissolution. In this study the effects of dissolved oxygen on Au dissolution was investigate as a factor of Au bioleaching and continuous and repeated batch cultures were performed for the continuous Au dissolution as a reproducing cyanide process. Dissolved oxygen concentration decreased by the bacterial respiration but the aeration could recover it and activate Au dissolution. By replacing the medium C.violaceum can produce cyanide repeatedly then 60% of Au was dissolved from Au powder after 300h immersion

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2005 4th International Symposium on Environmentally Conscious Design and Inverse Manufacturing

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