微波辅助回收废LiCoO2电池相应黑质量

IF 4.6 4区 化学 Q2 ELECTROCHEMISTRY Batteries Pub Date : 2023-10-28 DOI:10.3390/batteries9110536
Matteo Scaglia, Antonella Cornelio, Alessandra Zanoletti, Daniele La Corte, Giada Biava, Ivano Alessandri, Angelo Forestan, Catya Alba, Laura Eleonora Depero, Elza Bontempi
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引用次数: 0

摘要

文献表明,利用火法对废LiCoO2 (LCO)电池进行处理,钴可以以Co3O4、CoO和Co的形式回收,锂可以以Li2O或Li2CO3的形式回收。然而,该技术的高能耗也被认为是该回收过程中的一个挑战。最近,人们提出了一种利用微波(MW)辐射的创新和可持续的方法来替代传统的火法冶金方法来处理废旧锂离子电池(LiBs)。这种方法旨在解决传统方法的缺点。在这项研究中,首次探索了在空气气氛下利用mw -材料相互作用处理废LCO电池的黑质量(BM)。研究表明,这一过程可以引发碳热反应。然而,MW使BM如此活跃,它导致样品在几分钟内迅速加热,也构成火灾风险。本文介绍并讨论了这种回收废旧LCO电池的新技术的好处和潜在危险,并提供了有关BM实际样品的信息。这项工作开启了使用微波对废lib进行原料回收的可能性,允许获得快速和更有效的反应。
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Microwave-Assisted Recovery of Spent LiCoO2 Battery from the Corresponding Black Mass
The literature indicates that utilizing pyrometallurgical methods for processing spent LiCoO2 (LCO) batteries can lead to cobalt recovery in the forms of Co3O4, CoO, and Co, while lithium can be retrieved as Li2O or Li2CO3. However, the technology’s high energy consumption has also been noted as a challenge in this recovery process. Recently, an innovative and sustainable approach using microwave (MW) radiation has been proposed as an alternative to traditional pyrometallurgical methods for treating used lithium-ion batteries (LiBs). This method aims to address the shortcomings of the conventional approach. In this study, the treatment of the black mass (BM) from spent LCO batteries is explored for the first time using MW–materials interaction under an air atmosphere. The research reveals that the process can trigger carbothermic reactions. However, MW makes the BM so reactive that it causes rapid heating of the sample in a few minutes, also posing a fire risk. This paper presents and discusses the benefits and potential hazards associated with this novel technology for the recovery of spent LCO batteries and gives information about real samples of BM. The work opens the possibility of using a microwave for raw material recovery in spent LIBs, allowing to obtain rapid and more efficient reactions.
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来源期刊
Batteries
Batteries Energy-Energy Engineering and Power Technology
CiteScore
4.00
自引率
15.00%
发文量
217
审稿时长
7 weeks
期刊最新文献
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