镍氢电池的破碎与物理分离性能研究

Kenichi Horai, J. Shibata, N. Murayama, S. Koyanaka
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引用次数: 3

摘要

采用破碎和物理分离技术作为湿法冶金前处理,从镍氢电池中回收镍、钴和稀土等有价金属。采用膏状电极和烧结型电极两种类型的镍氢电池,在273 ~ 873 K的温度范围内进行焙烧,分别用单轴铣床、锤式破碎机和两轴剪切力破碎机对其进行粉碎。然后用筛网对破碎后的产品进行分类,给出有价金属的粒度分布。采用膏状电极对镍氢电池粉碎后的产品进行了磁选。最佳破碎条件因电极类型不同而不同。对于烧结型电极,具有冲击力的破碎机是有效的。对于膏状发泡镍电极,适合采用具有剪切力的破碎机。在适当的温度和气氛条件下焙烧后进行分级,然后进行磁选,可以分离铁和NiO。镍含量超过80wt %是可能的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study of Crushing and Physical Separation Properties of Nickel-Hydrogen Battery
The crushing and physical separation technologies as the pre-treatment of hydrometallurgical process were carried out for recovering valuable metals such as Ni, Co and rare earth from nickel-hydrogen battery. Two types of nickelhydrogen batteries which use a paste type electrode and sintered type electrode were roasted in the temperature range of 273–873 K and crushed by a single-axis cutter mill, a hammer crusher and a two-axis shear force crusher. Then the crushed products were classified with screens to give size distributions of the valuable metals. Magnetic separation was carried out for the crushed products of nickel-hydrogen battery using a paste type electrode. The optimum crushing conditions are different from the type of electrode. For the sintered type electrode, the crusher having an impact force is effective. For the paste type nickel foaming electrode, the crusher having a cutting and shear force is suitable. Classification after roasting in the proper conditions such as temperature and atmosphere followed by a magnetic separation is possible to separate Fe and NiO. The nickel content more than 80 wt% is possible.
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