Recovery of LiCoO2 from Wasted Lithium Ion Batteries by using Mineral Processing Technology (日韓資源リサイクル・材料化学に関する国際シンポジウム特集号)
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概要
- 論文の詳細を見る
Lithium cobalt oxide from a wasted lithium ion secondary battery (LIB) is recovered by means of flotation. At first, the wasted LIB was crushed by vertical cutting mill and classified by air table and vibration screen. Referring to the crushing and separating results, wasted LIB is represented by light materials (organic separator of anode and cathode of battery), metallic materials (aluminum & copper foil, aluminum case etc.) and electrode materials (mixture of lithium cobalt oxide (LiCoO2) and graphite).Electrode materials were thermally treated in a muffle furnace at 773K, followed by flotation to separate LiCoO2 and graphite. The fact that the surface of particles was changed from hydrophobic to hydrophilic due to the removal of binder from the surface at 773K.Considering the results, 92% LiCoO2 was recovered from electrode materials, whereas the purity was higher than 93%. The optimum conditions of flotation process were as follows: 0.2 kg/t kerosene as a collector, 0.14 kg/t MIBC as a frother and 10% pulp density.The experimental results suggested that this process by using mineral processing technology, such as crushing, screening, flotation, etc., is feasible to recover LiCoO2 from the wasted LIB representing a new recycling technique.
- 環境資源工学会の論文
著者
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FUJITA Toyohisa
RACE, Department of Geosystem Engineering, Graduate School of Engineering, The University of Tokyo
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Shibayama Atsushi
Venture Business Laboratory Akita University
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Shibayama Atsushi
Facultly Of Engineering And Resource Science Akita University
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KIM Younghun
Korea Resources Corporation (KORES)
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MATSUDA Mitsuaki
Akita Prefectural Resources Technology Development Organization
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Kim Younghum
Korea Resources Corporation (KORES)
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