![]() In the context of the EU Circular Economy Policy, the various precursors need to receive the same classification among EU Member States and among the international community. There is definitively a need for harmonization of the classification of spent batteries as a source of active materials to be used in new batteries or new applications. Today, there is a lack of coherence between the various approaches to the definition of products coming from the treatment of waste batteries (Waste Directive Classification – Waste Batteries Directive – Chemicals Policy (EchA)). The expansion of Chinese battery and electric vehicle manufacturers operating in Europe will continue to give these companies a head start in the Black Mass recycling market here, and the developing practise of exporting Black Mass to Asia and the USA is certainly set to continue. This creates a barrier to the development of the recycling market. What are the main challenges for EU operators?Įuropean collectors and recyclers have always faced a lack of harmonization between different member states of the classification of spent Li-ion batteries. Challenges remain in order to reach the scale of Chinese capacity for Black Mass treatment. Despite increasing volumes of Li-ion batteries needing recycling, the majority of the available tonnage comes from production waste from EV battery manufacturing or assembly facilities today. In Europe, the recyclers have traditionally concentrated on battery recycling and have been waiting for bigger volumes of spent Li-ion batteries to become available before increasing capacity. Many of these facilities have integrated the treatment of Black Mass mainly using a hydro-metallurgical process, which enables them to produce salts or metallic hydroxides which can be used as precursors. In China, Japan and South Korea there are large treatment facilities for batteries and battery waste, sometimes dealing with more than 50 000 tons per year. ICM: Where are the major recycling facilities located today? If a battery contains cobalt and nickel in certain quantities, then there will be no need to financially support the recycling operation. The composition of the Black Mass may vary significantly from OEM to OEM.Ĭan Black Mass processing be a profitable operation?ĭepending on the content, yes it can. Different battery chemistries such as primary batteries and Ni-MH batteries also produce Black Mass. The composition of Black Mass is very diversified as the composition of Li-Ion batteries varies significantly from one producer to another and from one application to another. Is there only one kind of Black Mass-produced from one battery chemistry? These critical materials can then be extracted from the black mass and re-used in new battery production or in new products and/or applications. The shredded material is then processed to produce “black mass”, which contains high amounts of these metals. Once a battery reaches the end of its service life, it is collected, dismantled, and shredded. Batteries are composed of metals including lithium, manganese, cobalt, and nickel. Jacques David talks to ICM AG about the management of the so-called Black Mass produced from the treatment of lithium batteries ahead of the workshop at ICBR 2021 in Geneva on 24th September.īlack Mass is what you obtain once a battery has been processed for recycling. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |