School of Environmental Science and Engineering, Shanghai Jiao Tong University , 800 Dongchuan Road, Shanghai 200240, People's Republic of China.
Nanjing University & Yancheng Academy of Environmental Protection Technology and Engineering , Huanbao Road, Yancheng 224000, People's Republic of China.
Environ Sci Technol. 2017 Oct 17;51(20):11960-11966. doi: 10.1021/acs.est.7b02561. Epub 2017 Sep 27.
Lithium is a rare metal because of geographical scarcity and technical barrier. Recycling lithium resource from spent lithium ion batteries (LIBs) is significant for lithium deficiency and environmental protection. A novel approach for recycling lithium element as LiCO from spent LIBs is proposed. First, the electrode materials preobtained by mechanical separation are pyrolyzed under enclosed vacuum condition. During this process the Li is released as LiCO from the crystal structure of lithium transition metal oxides due to the collapse of the oxygen framework. An optimal Li recovery rate of 81.90% is achieved at 973 K for 30 min with a solid-to-liquid ratio of 25 g L, and the purity rate of LiCO is 99.7%. The collapsed mechanism is then presented to explain the release of lithium element during the vacuum pyrolysis. Three types of spent LIBs including LiMnO, LiCoO, and LiCoMnNiO are processed to prove the validity of in situ recycling LiCO from spent LIBs under enclosed vacuum condition. Finally, an economic assessment is taken to prove that this recycling process is positive.
锂是一种稀有金属,因为其在地理上的稀缺性和技术壁垒。从废旧锂离子电池 (LIBs) 中回收锂资源对于缓解锂资源短缺和环境保护具有重要意义。本文提出了一种从废旧 LIBs 中回收锂元素为 LiCO 的新方法。首先,通过机械分离预先获得的电极材料在封闭的真空条件下进行热解。在这个过程中,由于氧骨架的坍塌,Li 从锂过渡金属氧化物的晶体结构中以 LiCO 的形式释放出来。在 973 K 下,固液比为 25 g/L,反应 30 min,Li 的回收率最佳可达 81.90%,LiCO 的纯度为 99.7%。然后提出了坍塌机制来解释真空热解过程中锂元素的释放。处理了三种类型的废旧 LIBs,包括 LiMnO、LiCoO 和 LiCoMnNiO,以证明在封闭真空条件下从废旧 LIBs 中原位回收 LiCO 的有效性。最后,进行了经济评估,以证明该回收过程是可行的。
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