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New Science Based Concepts for Increased Efficiency in Battery Recycling 2020
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Based on 19 high-quality articles, this Special Issue presents methods for further improving the currently achievable recycling rate, product quality in terms of focused elements, and approaches for the enhanced mobilization of lithium, graphite, and electrolyte components. In particular, the target of early-stage Li removal is a central point of various research approaches in the world, which has been reported, for example, under the names early-stage lithium recovery (ESLR process) with or without gaseous CO2 and supercritical CO2 leaching (COOL process). Furthermore, many more approaches are present in this Special Issue, ranging from robotic disassembly and the dismantling of Li‐ion batteries, or the optimization of various pyro‐ and hydrometallurgical as well as combined battery recycling processes for the treatment of conventional Li‐ion batteries, all the way to an evaluation of the recycling on an industrial level. In addition to the consideration of Li distribution in compounds of a Li2O-MgO-Al2O3-SiO2-CaO system, Li recovery from battery slags is also discussed. The development of suitable recycling strategies of six new battery systems, such as all-solid-state batteries, but also lithium–sulfur batteries, is also taken into account here. Some of the articles also discuss the fact that battery recycling processes do not have to produce end products such as high-purity battery materials, but that the aim should be to find an “entry point” into existing, proven large-scale industrial processes. Participants in this Special Issue originate from 18 research institutions from eight countries.
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Keywords
- all-solid-state batteries
- autoclave
- batteries
- battery generation
- battery recycling
- black mass
- carbon black
- carbonation
- Circular Economy
- cobalt
- critical raw materials
- D2EHPA
- direct battery recycling
- disassembly
- dry digestion
- electric vehicle battery
- electron probe microanalysis (EPMA)
- engineered artificial minerals (EnAM)
- environmental technologies
- EPMA
- factorial design of experiments
- fractionation
- graphite
- History of engineering & technology
- Hydrometallurgy
- industrial recycling technologies
- leaching
- lead bullion
- lead-acid battery recycling
- LFP
- LIB
- lithium
- lithium batteries
- lithium iron phosphate
- lithium minerals
- lithium phase transformation
- lithium recycling
- lithium removal
- lithium slag characterization
- lithium-ion batteries
- lithium-ion batteries (LIBs)
- lithium-ion battery
- lithium–sulfur batteries
- Manganese
- manganese recovery
- mechanical processing
- mechanical recycling processes
- mechanical treatment
- melt experiments
- metal recovery
- metallurgical recycling
- Mining technology & engineering
- mixed oxalate
- n/a
- Nickel
- Other technologies & applied sciences
- oxalic acid
- particle size analysis
- phosphorous removal
- pilot plant
- powder X-ray diffraction (PXRD)
- precipitation
- process stages
- PXRD
- pyrite cinder treatment
- pyrolysis
- pyrometallurgy
- Recovery
- recovery of valuable metals
- recycling
- recycling chain
- recycling efficiency
- reuse
- Robotic Disassembly
- rotational speed control
- Safety
- slag
- slag cleaning
- smelting
- SO2 emissions
- solid state batteries
- solvent extraction
- spent lithium-ion batteries
- sulfide matte
- supercritical CO2
- task planner
- Technology, engineering, agriculture
- Technology: general issues
- thermal treatment
- thermochemical modeling
- thermodynamic modeling
- tubular centrifuge
- unit processes
- waste treatment
- X-ray absorption near edge structure (XANES)
Links
DOI: 10.3390/books978-3-0365-5926-1Editions