住友金属矿业：高纯度稀有金属回收：再用于锂电池正极

住友金属矿业：高纯度稀有金属回收：再用于锂电池正极

住友金属矿业：

8月16日

来自废弃的 LiB
通过回收和提纯镍和钴，
宣布可作为 LiB 正极材料的原料再利用。
独特的锂回收技术：

此外，凭借我们独特的锂回收技术，

从废旧二次电池中回收铜、镍、钴和锂，

世界上首次建立了新的回收工艺。

2023年实际运行的机器：

我们将推动这项技术的商业化，并在2023年底前开始运行实机。

由于汽车转向电动汽车，对镍和钴的需求正在扩大，

这将导致二次电池的横向回收。

专业报纸《每日产业新闻》

https://www.japanmetal.com/news-h20210817109761.html

Success in Demonstration Experiments for Secondary Battery Recycling Technology That Includes Cobalt Recovery

– Establishment of a World-First New Recycling Process That Integrates Production of Soluble Slag That Enables Lithium Recovery –

August 16, 2021

Sumitomo Metal Mining Co.,

SMM has verified that nickel and cobalt from secondary batteries such as used lithium ion batteries (LIB) can be reused as a raw material for cathode material of LIBs through recovery and purification.

Additionally, through our world-first original lithium recovery technology,

we have established a new recycling process that is able to recycle

copper,
nickel,
cobalt and
lithium

from used secondary batteries.

News | Sumitomo Metal Mining Co., Ltd.

https://www.smm.co.jp/en/news/release/2021/08/001473.html

Now, we have optimized processes at this pilot plant,

and have been successful in the recovery of a high-purity nickel-cobalt mixture by stably and efficiently separating out the impurities in used secondary batteries.

Moreover, we manufactured and evaluated LIB cathode material that we made from the nickel-cobalt mixture.

We were able to verify that

the performance of those batteries was equivalent to that of batteries manufactured using existing raw materials derived from natural resources.

Additionally, we were successful in

producing a soluble slag that enables lithium recovery by pyrometallurgical smelting processes which has heretofore been difficult.

Through integration of this world-first original technology into our processes,

we have established a new recycling process that is able to recycle copper, nickel, cobalt and lithium from used secondary batteries.

This technology and process

were also developed to aim the resource recovery rate for used secondary batteries laid out in the European Commission’s proposal for a battery regulation that was proposed in December 2020.

Success in Demonstration Experiments for Secondary Battery Recycling Technology That Includes Cobalt Recovery

– Establishment of a World-First New Recycling Process That Integrates Production of Soluble Slag That Enables Lithium Recovery –

Moving forward, we estimate that the electrification of automobiles is going to further

If we are able to commercialize this process, which has verified “battery to battery” recycling,

we expect to be able to take the domestic sustainable circular economy to the next level

and to make contributions to resource recycling in response to global resource depletion.

Moving forward, through our battery recycling initiatives,

SMM will continue to engage in

the realization of becoming “a company that generates resources through high technological capabilities” laid out in the “Effective Use of Non-Ferrous Metal Resources” material issue of our “Vision for 2030.”

https://www.smm.co.jp/en/news/release/uploaded_files/20210816_EN.pdf