4.5 Article

Bio-Assisted Leaching of Non-Ferrous Metals from Waste Printed Circuit Boards-Importance of Process Parameters

Journal

METALS
Volume 12, Issue 12, Pages -

Publisher

MDPI
DOI: 10.3390/met12122092

Keywords

printed circuit boards (PCB); iron oxidizing bacteria; double-stage bioleaching; metal extraction; pulp density; leaching yield

Funding

  1. ERAMIN-2 Call 2019, BaCLEM [2010023]

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The effect of different process parameters on the bioleaching of metals from end-of-life printed circuit boards (PCBs) was investigated. The results showed that the concentration of ferric iron and pH had a significant influence on the degree of metal dissolution. The study found that under specific conditions, a substantial amount of copper, zinc, and nickel could be extracted from the PCBs. These findings provide possibilities for further research and suggest that bioleaching could be an economically and environmentally friendly technology for urban mining of non-ferrous metals.
The effect of varying process parameters during bio-catalyzed leaching of metals from end-of-life printed circuit boards (PCBs) was investigated. Fragmented PCBs (under 2 mm) were subjected to an indirect bioleaching in a stirred tank reactor while pulp density, pH and initial ferric iron content were varied. An iron oxidizing Acidithiobacillus ferrooxidans 61 microbial strain was used to generate the lixiviant through oxidizing Fe(II) to Fe(III). Chemically generated Fe(III) was tested as lixiviant under the same conditions as the biological one for comparative purposes. Cell enumeration during leaching and microscopic observations of the input and leached PCBs were conducted in parallel to shed light on the observed phenomena. The degree of bringing metals in solution was found to depend mainly on ferric iron concentration and pH. For the entire duration being always kept as 24 h, substantial portion of Cu (similar to 87%) was extracted respectively at 1% pulp density (PD), 15.5 g/L Fe3+ and pH 1. For Zn and Ni, nearly 100% recovery was observed at 5% PD, 18 g/L Fe3+ and pH 1.1. The achieved results offer possibilities for further studies at higher pulp density, to ultimately render the bioleaching approach as enabling economical and environmentally friendly technology for urban mining of non-ferrous metals.

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