从多种锂离子电池黑质中提取有价金属的高温冶金方法

Safoura Babanejad*, Hesham Ahmed, Charlotte Andersson and Elsayed Mousa, 
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引用次数: 0

摘要

锂离子电池(LIB)如今已被广泛使用。由于锂离子电池的寿命有限,且在制造过程中存在资源限制,因此必须开发有效的回收途径,以回收其有价值的元素。本研究的重点是对不同 LIB 混合物中的黑质(BM)进行高温冶金回收。本研究首先考察了两种混合黑质的高温行为。随后,研究了机械活化对黑质还原动力学的影响。最后,赤铁矿被添加到 BM 中,首先被 BM 中多余的石墨还原,其次形成含有 Co 和 Ni 的铁基合金。这项研究表明,机械活化并不一定会影响 BM 的高温行为动力学。此外,它还证明了通过添加赤铁矿来制造合金是一种成功的方法,可以同时利用锂离子电池中的石墨并回收钴和镍,而不受锂离子电池类型的影响。为了提高锂离子电池高温冶金回收的可持续性,我们通过原位合金制造工艺来回收贵金属,以减少二氧化碳的排放。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Pyrometallurgical Approach to Extracting Valuable Metals from a Combination of Diverse Li-Ion Batteries’ Black Mass

Pyrometallurgical Approach to Extracting Valuable Metals from a Combination of Diverse Li-Ion Batteries’ Black Mass

Li-ion batteries (LIBs) are widely used nowadays. Because of their limited lifetimes and resource constraints in manufacturing them, it is essential to develop effective recycling routes to recover their valuable elements. This study focuses on the pyrometallurgical recycling of black mass (BM) from a mixture of different LIBs. In this study, the high-temperature behavior of two types of mixed BM is initially examined. Subsequently, the effect of mechanical activation on the BM reduction kinetics is investigated. Finally, hematite is added to the BM to first be reduced by the excess graphite in the BM and second to form an Fe-based alloy containing Co and Ni. This study demonstrates that mechanical activation does not necessarily affect the kinetics of BM high-temperature behavior. Furthermore, it demonstrates that alloy-making by the addition of hematite is a successful method to simultaneously utilize the graphite in the BM and recover Co and Ni, regardless of the LIB type.

When the sustainability in pyrometallurgical recycling of Li-ion batteries was enhanced, precious metals were recovered through an in situ alloy-making process, with an attempt to decrease CO2 emissions.

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