Research Progress on Recovering Valuable Metals from Wasted Circuit Board by Bio-Hydrometallurgy Technology

Hai Lin; Ying Bo Dong; Xin Wang

doi:10.4028/www.scientific.net/AMR.1130.677

Paper Titles

Acid Leaching of Cu and Zn from a Smelter Slag with a Bacterial Consortium
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Biotechnological Recovery of Valuable Metals from Lignite Ash
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Gold Biodissolution from Electronic Scrap and Biomineralization of Bacterial Gold Nanoparticles
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Novel Filamentous Fungi for Metal Removal from Spent Catalyst
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Research Progress on Recovering Valuable Metals from Wasted Circuit Board by Bio-Hydrometallurgy Technology
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The Re-Usability of Ecklonia maxima (Brown Seaweed) in the Treatment of Mine Effluent
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Removal of Cd(II) from Water System Using Novel Biosorbent Derived from Persimmon Fallen Leaves
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Biosorptive Removal of Hexavalent Chromium from Aqueous Industrial Solutions by a Novel Wood Apple Shell Powder Biomass
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Adsorption and Desorption Potential of Cadmium Using Green Algae: Equilibrium and Kinetic Studies
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Research Progress on Recovering Valuable Metals from Wasted Circuit Board by Bio-Hydrometallurgy Technology

Abstract:

The quantity of circuit boards produced and abandoned has increased with the development of electronics industry. The wasted circuit board has the characters of large amounts, high metal content and harmful to environment, which is known as “urban mines”. The effective recycling of the valuable metals in wasted circuit boards had always been the focus. The characteristics of pyrometallurgical recovery, mechanical recovery and wet recovery, such as low recovery ratio, high cost and environmental pollution fails to recover the precious metals from wasted circuit board. This paper outlines the research progress of using the microbiological method to recycle the metal from waste circuit boards, including the type of main used microbe, reaction mechanism and influencing factors and so on. Additional, this paper discusses the research status about taking advantage of the microbiological method to recycle the metals with high economic value. Finally, it discusses the research direction and prospect of this recycling method.