With the increasing
consumption of lithium ion batteries (LIBs)
in electric and electronic products, the recycling of spent LIBs has
drawn significant attention due to their high potential of environmental
impacts and waste of valuable resources. Among different types of
spent LIBs, the difficulties for recycling spent LiFePO4 batteries rest on their relatively low extraction efficiency and
recycling selectivity in which secondary waste is frequently generated.
In this research, mechanochemical activation was developed to selectively
recycle Fe and Li from cathode scrap of spent LiFePO4 batteries.
By mechanochemical activation pretreatment and the diluted H3PO4 leaching solution, the leaching efficiency of Fe and
Li can be significantly improved to be 97.67% and 94.29%, respectively.
To understand the Fe and Li extraction process and the mechanochemical
activation mechanisms, the effects of various parameters during Fe
and Li recovery were comprehensively investigated, including activation
time, cathode powder to additive mass ratio, acid concentration, the
liquid-to-solid ratio, and leaching time. Subsequently, the metal
ions after leaching can be recovered by selective precipitation. In
the whole process, about 93.05% Fe and 82.55% Li could be recovered
as FePO4·2H2O and Li3PO4, achieving selective recycling of metals for efficient use
of resources from spent lithium ion batteries.
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