All Issue

2024 Vol.33, Issue 5

Article Review

31 October 2024. pp. 3-13
Abstract
References
1

Tarascon, J. M., Armand, M., 2001: Issues and challenges facing rechargeable lithium batteries(Review), Nature, 414(6861), pp.359-367.

10.1038/3510464411713543
2

Goodenough, J. B., Park, K.-S., 2013 : The Li-Ion Rechargeable Battery: A Perspective Journal of the American Chemical Society, 135, pp.1167-1176.

10.1021/ja309143823294028
3

Goodenough, J. B., Kim, Y., 2010 : Challenges for Rechargeable Li Batteries, Chemistry of Materials, 22, pp.587-603.

10.1021/cm901452z
4

Armand, M., Tarascon, J. M., 2008 : Building better batteries, Nature, 451, pp.652-665.

10.1038/451652a18256660
5

Mrozik, W., Rajaeifar, M. A., Heidrich, O., et al., 2021 : Environmental impacts, pollution sources and pathways of spent lithium-ion batteries, Energy & Environmental Science, 14, pp.6099-6121.

10.1039/D1EE00691F
6

Gaines, L., Sullivan, J., Burnham, A., 2011 : Life-Cycle Analysis for Lithium-Ion Battery Production and Recycling, Transportation Research Board 90th Annual Meeting, Washington, DC., Paper No. 11-3891.

7

Dewulf, J., Van der Vorst, G., Denturck, K., et al., 2010 : Recycling rechargeable lithium ion batteries : Critical analysis of natural resource savings, Resource, Conservation and Recycling, 54(4), pp.229-234.

10.1016/j.resconrec.2009.08.004
8

Fisher, K., Wallén, E., Laenen, P. P., et al., 2006 : Battery waste management life cycle assessment, Final report for publication, London : Environmental Resources Management (ERM), Ltd.

9

Hischier, R., Wäger, P., and Gauglhofer, J., 2005 : Does WEEE recycling make sense from an environmental perspective? : The environmental impacts of the Swiss take-back and recycling systems for waste electrical and electronic equipment (WEEE), Environmental Impact Assessment Review, 25(5), pp.525-539.

10.1016/j.eiar.2005.04.003
10

Heijungs, R., Guinée, J., and Huppes, G., 1997 : Impact categories for natural resources and land use, Centre of Environmental Science (CML), Report 138 : Section Substances & Products, Leiden University, Netherlands.

11

International Organisation for Standardisation (ISO), ISO 14040 : 2006 Environmental management - Life cycle assessment - Principles and framework. https ://www.iso.org/standard/37456.html, August 20, 2024.

12

Rajaeifar, M. A., Raugei, M., Steubing, B., et al., 2021 : Life cycle assessment of lithium-ion battery recycling using pyrometallurgical technologies, Journal of Industrial Ecology, 25, pp.1560-1571.

10.1111/jiec.13157
13

Larouche, F., Tedjar, F., Amouzegar, K., et al., 2020 : Progress and Status of Hydrometallurgical and Direct Recycling of Li-Ion Batteries and Beyond, Materials, 13(3), pp.801.

10.3390/ma1303080132050558PMC7040742
14

Choi, Y.-K., Jeong, S., Lee, J.-Y., et al., 2005 : Environmental Impacts Assessment of Spent LIBs (Lithium Ion Batteries) Recycling System Using Life Cycle Assessment, Korean Journal of LCA, 6(1), pp.41-46.

10.62765/kjlca.2005.6.1.41
15

Tao, Y., Wang, Z., Wu, B., et al., 2023 : Environmental life cycle assessment of recycling technologies for ternary lithium-ion batteries, Journal of Cleaner Production, 389, pp.136008.

10.1016/j.jclepro.2023.136008
16

Castro, F. D., Mehner, E., Cutaia, L., et al., 2022 : Life cycle assessment of an innovative lithium-ion battery recycling route : A feasibility study, Journal of Cleaner Production, 368, pp.133130.

10.1016/j.jclepro.2022.133130
17

Chen, Q., Lai, X., Gu, H., et al., 2022 : Investigating carbon footprint and carbon reduction potential using a cradle-to-cradle LCA approach on lithium-ion batteries for electric vehicles in China, Journal of Cleaner Production, 369, pp.133342.

10.1016/j.jclepro.2022.133342
18

Van Hoof, G., Robertz, B., and Verrecht, B., 2023 : Towards Sustainable Battery Recycling : A Carbon Footprint Comparison between Pyrometallurgical and Hydrometallurgical Battery Recycling Flowsheets, Metals, 13, pp.1915.

10.3390/met13121915
19

Kallitsis, E., Korre, A., Kelsall, G. H., 2022 : Life cycle assessment of recycling options for automotive Li-ion battery packs, Journal of Cleaner Production, 371, pp.133636.

10.1016/j.jclepro.2022.133636
20

Xu, R., Xu, W., Wang, J., et al., 2022 : A Review on Regenerating Materials from Spent Lithium-Ion Batteries, Molecules, 27(7), pp.2285.

10.3390/molecules2707228535408680PMC9000613
21

Boyden, A., Soo, V. K., Doolan, M., 2016 : The Environmental Impacts of Recycling Portable Lithium-Ion Batteries, Procedia CIRP, 48, pp.188-193.

10.1016/j.procir.2016.03.100
22

Chen, W. H., Hsieh, I. Y. L., 2023 : Techno-economic analysis of lithium-ion battery price reduction considering carbon footprint based on life cycle assessment, Journal of Cleaner Production, 425, pp.139045.

10.1016/j.jclepro.2023.139045
Information
  • Publisher :The Korean Institute of Resources Recycling
  • Publisher(Ko) :한국자원리싸이클링학회
  • Journal Title :Resources Recycling
  • Journal Title(Ko) :자원리싸이클링
  • Volume : 33
  • No :5
  • Pages :3-13
  • Received Date : 2024-08-20
  • Revised Date : 2024-09-19; 2024-09-24
  • Accepted Date : 2024-09-24