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Abstract
For recovering precious metals from waste printed circuit boards (PCBs), a novel hybrid technology including physical and biological methods was developed. It consisted of crushing, corona-electrostatic separation, and bioleaching. Bioleaching process is the focus of this paper. A novel bioreactor for bioleaching was designed. Bioleaching was carried out using Pseudomonas chlororaphis. Bioleaching experiments using mixed particles of Au and Cu were performed and leachate contained 0.006 mg/L, 2823 mg/L Au+ and Cu2+ respectively. It showed when Cu existed, the concentrations of Au were extremely small. This provided the feasibility to separate Cu from Au. The method of orthogonal experimental design was employed in the simulation bioleaching experiments. Experimental results showed the optimized parameters for separating Cu from Au particles were pH 7.0, temperature 22.5 °C, and rotation speed 80 r/min. Based on the optimized parameters obtained, the bioreactor was operated for recovering mixed Au and Cu particles. 88.1 wt.% of Cu and 76.6 wt.% of Au were recovered. The paper contributed important information to recover precious metals from waste PCBs.
Highlights
printed circuit boards (PCBs) contains nearly 28% metals and the purity of metals in PCB is greater than that of rich-content minerals
For recovering precious metals from waste PCBs, cyanogenic strains were reported to be useful in the recovery of Au and Ag from waste PCBs
Little information is available about the reactor which was used for bioleaching precious metals from crushed waste PCBs17
Summary
PCB contains nearly 28% metals and the purity of metals in PCB is greater than that of rich-content minerals. The reasons are: (1) precious metals take up a small proportion in waste PCBs. Developing exclusive mechanical devices to recover precious metals will result in high cost. For recovering precious metals from waste PCBs, cyanogenic strains were reported to be useful in the recovery of Au and Ag from waste PCBs. Chromobacterium violaceum and Pseudomonas aeruginosa were the most reported strains[15,16]. The difficulty is how to separate nonmetallic parts when using bioleaching method for recovering metals from waste PCBs in industrial production. It is difficult to recover precious metals from crushed waste PCBs if just bioleaching was employed. Bioleaching experiments of separating Ag and Cu particles were performed This technology can recover Au from waste PCBs and contribute to the aspect of high-value recycling of e-waste
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