热解
萃取(化学)
锂(药物)
金属
材料科学
废物管理
化学
有机化学
冶金
工程类
医学
内分泌学
作者
Moshan Li,Enzheng Hu,Zuohua Liu,Guangwen Xu,Jianglong Yu,Zhaohui Lu,Guocan Zheng,Dean Pan,Rui Qu
标识
DOI:10.1016/j.jclepro.2025.146311
摘要
Lithium batteries (LIBs) recycling and biomass utilization have been major environmental concerns. Gas-induced recovery faces challenges such as side reactions, long reaction times and organic interference. Fast recovery of spent lithium-ion batteries through infrared ex-pyrolysis and synchronized extraction is presented. This study showed that Li (lithium) extraction of 97.2 % could be achieved in 30 min without pressurization and acid leaching. Besides, side reactions of Co (cobalt)-catalyzed Fischer-Tropsch synthesis leading to methane production and ethane overconsumption were observed in the reduction reactor. The LiCoO 2 -centered, CoO-coated porous structure significantly increased porosity, adsorbed reducing gases, and improved reduction efficiency. Lastly, a strong synergistic effect of the biomass and coal leading to a decrease in H 2 yield has also been observed. This method employs biomass and coal as gas supply precursors to transfer oxygen from the methoxy group in guaiacol to the gas phase during the secondary pyrolysis, instead of forming phenols. Importantly, the extraction efficiency is increased and the bio-oil quality is improved. These findings would provide insights into spent battery recycling and offer guidance for biomass treatment.
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