An overview of lithium recycling methods from battery wastes

  • Affiliations:

    Hanoi University of Mining and Geology, Hanoi, Vietnam

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  • Received: 11st-Feb-2021
  • Revised: 16th-May-2021
  • Accepted: 13th-June-2021
  • Online: 20th-July-2021
Pages: 94 - 102
Views: 2717
Downloads: 1035
Rating: 1.0, Total rating: 102
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Abstract:

Due to the rapid development of technology and the increasing demand for energy and energy storage of electronic devices, billions of lithium batteries are produced every year. Due to the dominant capacity of storage as and super safety, lithium batteries are gradually replacing conventional batteries and otherelectrochemical batteries. Therefore, collecting and handling the used batteries should be the central concern due to their tremendous impact on the environment. This paper presents lithium recycling methods which are being studied and deployed for recovery of valuable metals from lithium battery wastes. Further directions and headings towards the researches for assessing of their application in the future are also proposed.

How to Cite
Phung, T.Tien and Tran, D.Van 2021. An overview of lithium recycling methods from battery wastes (in Vietnamese). Journal of Mining and Earth Sciences. 62, 3b (Jul, 2021), 94-102. DOI:https://doi.org/10.46326/JMES.2021.62(3b).10.
References

Alexandru Sonoca, Jack Jeswieta, Vi Kie Soob, (2015). Opportunities to Improve Recycling of Automotive Lithium Ion Batteries. Procedia CIRP, Vol. 29. 2015. DOI: 10.1016/j.procir.2015.02.039.

Espinosa, D.C.R.; Tenório, J.A.S, (2004). Fundamental aspects of recycling of nickel–cadmium batteries through vacuum distillation. Journal of Power Sources, 135, 320–326, 2004.

Fan E., Li L., Lin J., Wu J., Yang J., Wu F., Chen R., (2019). Low Temperature Molten-Salt-Assisted Recovery of Valuable Metals from Spent Lithium-Ion Batteries.  ACS Sustainable Chem. Eng. 2019, 7 (19), 16144-16150.

Georgi-Maschler T., Friedrich B., Weyhe R., Heegn H., Rutz M., (2012). Development of a recycling process for Li-ion batteries. J. Power Sources 2012, 207, 173-182.

IEA, (2020). Global EV Outlook 2020, IEA, Paris https://www.iea.org/reports/global-ev-outlook-2020.

Jha M. K., Kumari A., Jha A. K., Kumar V., Hait J., Pandey B. D., (2013). Recovery of lithium and cobalt from waste lithium ion batteries of mobile phone. Waste Manage, 33 (9), 1890-1897.

Kirti Richa, Callie W. Babbitt, Gabrielle Gaustad, Xue Wang, (2014), A future perspective on lithium-ion battery waste flows from electric vehicles. Resources, Conservation and Recycling, Volume 83, Pages 63-76

Lv, W.; Wang, Z.; Cao, H.; Sun, Y.; Zhang, Y.; Sun, Z (2018). A Critical Review and Analysis on the Recycling of Spent Lithium-Ion Batteries. ACS Sustainable Chem. Eng, 6 (2), 1504-1521

Li, L.; Lu, J.; Ren, Y.; Zhang, X. X.; Chen, R. J.; Wu, F.; Amine, K., (2012). Ascorbic-acid-assisted recovery of cobalt and lithium from spent Li-ion batteries. J. Power Sources, 218, 21-27. 

Mario Pagliaro, Francesco Meneguzzo (2019). Lithium battery reusing and recycling: A circular economy insight. Heliyon 5 (2019), e01866.

Mengyuan Chen, Bin Chen, Xiaotu Ma, Yan Wang and et al., (2019). Recycling End-of-Life Electric Vehicle Lithium-Ion Batteries, Joule 2019, https://doi.org/10.1016/j.joule.2019.09.014.

Pusztai, Tamás and Szamosi, Zoltán, (2019). Recycling of Lithium Batteries. MultiScience - XXXIII. microCAD International Multidisciplinary Scientific Conference University of Miskolc, 23-24 May, 2019.

Jingjing Zhao, Beilei Zhang, Hongwei Xie, Jiakang Qu, Xin Qu, Pengfei Xing, Huayi Yin., (2020). Hydrometallurgical recovery of spent cobalt-based lithium-ion battery cathodes using ethanol as the reducing agent. Environ. Res. 2020, 181, 108803-108812. 

Zhang, B.; Xie, H.; Lu, B.; Chen, X.; Xing, P.; Qu, J.; Song, Q.; Yin, H., (2019). A Green Electrochemical Process to Recover Co and Li from Spent LiCoO2-Based Batteries in Molten Salts. ACS Sustainable Chem. Eng. 7 (15), 13391-13399.

Yiqi Tang, Beilei Zhang, Hongwei Xie, Xin Qu, Pengfei Xing, Huayi Yin, (2020). Recovery and regeneration of lithium cobalt oxide from spent lithium-ion batteries through a low-temperature ammonium sulfate roasting approach. Journal of Power Sources, 474 (2020) 228596.

Quyết định số 16/2015/QĐ-TTg, ngày 22 tháng 5 năm 2015 của Thủ tướng Chính phủ, quy định về thu hồi, xử lý sản phẩm thải bỏ.

Thông tư số 34/2017/TT-BTNMT ngày 04 tháng 10 năm 2017 của Bộ Tài nguyên và Môi trường.

https://www.vietnamrecycles.com

https://baotainguyenmoitruong.vn/thu-hoi-pin-va-rac-thai-dien-tu-can-che-tai-manh-hon-317790.html

https://vtv.vn/cong-nghe/thi-truong-dien-thoai-va-ung-dung-viet-nam-6-thang-dau-nam-2020-co-gi-noi-bat-20201026202145475.htm

https://vi.wikipedia.org/wiki/Pin_Li-ion 

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