Li-s battery recycling

Research in Logistics and Production Pub Date : 1900-01-01 DOI:10.21008/J.2083-4950.2019.9.2.6

K. Siczek

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引用次数: 1

Abstract

Lithium-ion batteries are not situable for electric vehicles with high millage, military power supplies and fixed power networks. Therefore, the Li–S batteries have been intensively investigated, due to the high capacity, low cost, widespread source, and nontoxicity. The development of Li-S batteries causes increasing need to find the methods for their recycling. Some of them are discussed in the paper. The recycling of Li-S cell relates to its anode, cathode, electrolyte, binder and separator. The Li-S battery should be fully charged before recycling. There are potential methods for recycling of lithium from anodes, especially by re-melting. It is also possible to recycle some materials from the cathodes, especially sulfur by re-melting and graphite by dry crushing, Eco-bat Technologies method or the method investigated by Xiang et al. There is no effective recycling methods for electrolytes, binders and separators. It is necessary to carry out further studies on them. Paper type: Literature review Published online: 15 April 2019 Vol. 9, No. 2, pp. 125–135 DOI: 10.21008/j.2083-4950.2019.9.2.6 ISSN 2083-4942 (Print) ISSN 2083-4950 (Online) © 2019 Poznan University of Technology. All rights reserved.

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锂电池回收

锂离子电池不适用于高行驶里程的电动汽车、军用电源和固定电网。因此，锂硫电池因其高容量、低成本、来源广泛、无毒等优点而受到广泛的研究。随着锂电池的发展，对其回收方法的需求日益增加。本文对其中的一些问题进行了讨论。锂电池的回收涉及锂电池的阳极、阴极、电解液、粘结剂和隔膜。锂电池在回收前应充满电。从阳极中回收锂有潜在的方法，特别是通过重熔。也可以从阴极中回收一些材料，特别是通过重熔来回收硫，通过干燥破碎来回收石墨，Eco-bat技术方法或Xiang等人研究的方法。电解液、粘合剂和分离器没有有效的回收方法。有必要对其进行进一步的研究。论文类型:文献综述在线发表:2019年4月15日第9卷第2期125-135页DOI: 10.21008/j.2083-4950.2019.9.2.6 ISSN 2083-4942 (Print) ISSN 2083-4950 (online)©2019波兹南理工大学。版权所有。

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Research in Logistics and Production

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