The lithium-ion battery recycling market is set to become increasingly profitable in the next few decades. According to recent estimates, it will be possible to recover about 86,000 metric tons of nickel, 35,000 metric tons of cobalt, and 125,000 metric tons of lithium carbonate equivalent from used batteries by 2030.
Amount of key raw materials recoverable from lithium-ion battery recycling by 2030, by mineral (in 1,000 metric tons)
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Other statistics that may interest you Battery minerals worldwide
Overview
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Reserves
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Production
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- Premium Statistic Global cobalt mine production 2010-2023
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Political stability
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Consumption
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Electric vehicles
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Trade and prices
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Environmental impact
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Outlook
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Further related statistics
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- Lithium-ion battery reuse and recycle revenue 2030, by country
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- Industry revenue of “Reconditioning and repair of motor vehicle engines“ in Brazil 2014-2025
- U.S. large-scale battery installations breakdown 2022, by chemistry
- Market share of automotive lithium-ion batteries manufacturers 2017
- Lithium-ion batteries sales value Japan 2013-2022
- Forecast global lithium-ion batteries market size 2022-2032
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- Lithium-ion battery cathode materials demand by product 2018-2020
- Lithium-ion battery anode materials demand by product 2018-2020
- Amount of material recovered for reuse by Apple through take-back initiatives 2015
- Lithium-ion batteries sales volume Japan 2013-2022
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Statistics
- Lithium-ion battery reuse and recycle revenue 2030, by country
- Lithium-ion battery revenue opportunities 2030, by country
- Industry revenue of “Reconditioning and repair of motor vehicle engines“ in Brazil 2014-20...
- U.S. large-scale battery installations breakdown 2022, by chemistry
- Market share of automotive lithium-ion batteries manufacturers 2017
- Lithium-ion batteries sales value Japan 2013-2022
- Forecast global lithium-ion batteries market size 2022-2032
- Projected decline in battery pack costs 2017-2025
- Lithium-ion battery cathode materials demand by product 2018-2020
- Lithium-ion battery anode materials demand by product 2018-2020
- Amount of material recovered for reuse by Apple through take-back initiatives 2015
- Lithium-ion batteries sales volume Japan 2013-2022
- Leading LiB component makers worldwide - market capitalization 2017
- Predicted costs of lithium-ion batteries in PHEV by element 2012-2016
Mining.com. (October 31, 2019). Amount of key raw materials recoverable from lithium-ion battery recycling by 2030, by mineral (in 1,000 metric tons) [Graph]. In Statista. Retrieved June 10, 2024, from https://www.statista.com/statistics/1103283/raw-materials-recoverable-from-li-ion-batteries/
Mining.com. "Amount of key raw materials recoverable from lithium-ion battery recycling by 2030, by mineral (in 1,000 metric tons)." Chart. October 31, 2019. Statista. Accessed June 10, 2024. https://www.statista.com/statistics/1103283/raw-materials-recoverable-from-li-ion-batteries/
Mining.com. (2019). Amount of key raw materials recoverable from lithium-ion battery recycling by 2030, by mineral (in 1,000 metric tons). Statista. Statista Inc.. Accessed: June 10, 2024. https://www.statista.com/statistics/1103283/raw-materials-recoverable-from-li-ion-batteries/
Mining.com. "Amount of Key Raw Materials Recoverable from Lithium-ion Battery Recycling by 2030, by Mineral (in 1,000 Metric Tons)." Statista, Statista Inc., 31 Oct 2019, https://www.statista.com/statistics/1103283/raw-materials-recoverable-from-li-ion-batteries/
Mining.com, Amount of key raw materials recoverable from lithium-ion battery recycling by 2030, by mineral (in 1,000 metric tons) Statista, https://www.statista.com/statistics/1103283/raw-materials-recoverable-from-li-ion-batteries/ (last visited June 10, 2024)
Amount of key raw materials recoverable from lithium-ion battery recycling by 2030, by mineral (in 1,000 metric tons) [Graph], Mining.com, October 31, 2019. [Online]. Available: https://www.statista.com/statistics/1103283/raw-materials-recoverable-from-li-ion-batteries/