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Volume 8

Journal of Fundamentals of Renewable Energy and Applications

ISSN: 2090-4541

Battery Tech 2018

September 10-11, 2018

September 10-11, 2018 | London, UK

3

rd

International Conference on

Battery and Fuel Cell Technology

Current situation of spent lithium-ion battery recycling in China

Fu-Shen Zhang, Meng-Meng Wang

and

Kai He

Chinese Academy of Sciences, China

University of Chinese Academy of Sciences, China

I

n recent years, with the rapid upgrade and replacement of new energy vehicle, as well as electronic devices, huge amounts

of spent lithium-ion batteries (LIBs) are generated worldwide. In view of the growing interest in environmental protection

and resources sustainable use, recovery of spent LIBs is becoming increasingly important. The Chinese government uses the

term new energy vehicles (NEVs) to designate plug-in electric vehicles. There are battery electric vehicles and hybrid electric

vehicles inducing purchase incentives. The fleet of NEVs in China is the second largest in the world after the United States,

with cumulative sales of around 300,000 plug-in cars sold since 2011 through March 2016. China is creating a favorable

environment to foster quicker growth in the NEV sector through intense government-led promotion. The guideline set the

target of 200,000 units of new energy buses and 100,000 new energy taxes and city logistics delivery vehicles by 2020 to

encourage the production and purchase of NEVs. For post-consumer new energy battery recycling, an environmental benign

process namely mechanochemical approach was developed for cobalt and lithium recovery from spent LIBs in the current

study. The main merit of the process is that neither corrosive acid nor strong oxidant was used. In the proposed process, lithium

cobalt oxide (obtained from spent LIBs) was co-grinded with various additives in a hermetic ball milling system, followed by a

water leaching procedure. Experiment results indicated that EDTA was the most suitable co-grinding reagent, and 98% of Co

and 99% of Li were respectively recovered under optimum conditions: LiCoO

2

to EDTA mass ratio 1:4, milling time 4 h, rotary

speed 600 r/min and ball-to-powder ratio 80:1, respectively. Mechanisms study implied that lone pair electrons provided by

two nitrogen atoms and four hydroxyl oxygen atoms of EDTA could enter the empty orbit of Co and Li by solid-solid reaction,

thus forming stable and water-soluble metal complexes Li-EDTA and Co-EDTA. Moreover, the separation of Co and Li could

be achieved through a chemical precipitation approach. This study provides a high efficiency and environmentally friendly

process for Co and Li recovery from spent LIBs.

Biography

Fu-Shen Zhang, PhD, is a Professor and Director of Solid Waste Treatment and Recycling Lab at Research Center for Eco-Environmental Sciences, Chinese Academy

of Sciences. His recent research addresses effective recycling of solid wastes, including valuable matters recovery and functional materials development from electronic

waste, construction waste, municipal solid waste and bio-waste. He has guided ten PhD, MSc students and several Postdoctoral Research Fellows in the field of

Environmental Engineering. He has published around one hundred peer review articles and applied more than thirty patents.

ffsszz2000@163.com

Fu-Shen Zhang et al., J Fundam Renewable Energy Appl 2018, Volume 8

DOI: 10.4172/2090-4541-C5-062