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Faster, greener technique to improve recycling process for electric vehicle batteries

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Ultrasonic delamination technique to return high purity materials to new battery manufacture

The Faraday Institution

HARWELL, UK (29 June 2021) Researchers working on the Faraday Institution project on the recycling of lithium-ion batteries (ReLiB) at the Universities of Leicester and Birmingham have solved a critical challenge in the recovery of materials used in electric vehicle batteries at the end of their life, enabling their re-use in the manufacture of new batteries. The new method, which uses ultrasonic waves to separate out valuable material from the electrodes, is 100 times quicker, greener and leads to a higher purity of recovered materials relative to current separation methods.

The research has been published in Green Chemistry and the team have applied for a patent for the technique.

To ensure the environmental and economic benefits from EV batteries are fully realised, Faraday Institution researchers have been focused on the life cycle of the battery – from their first production to their re-use in secondary applications to their eventual recycling. One key stumbling block has been in materials segregation, that is how to remove and separate the critical materials – such as lithium, nickel, manganese and cobalt – from used batteries in a fast, economical and environmentally-friendly way.

Ultrasonic delamination technique to return high purity materials to new battery manufacture.
Credit: University of Leicester

The ReLiB team in Leicester and Birmingham devised a novel ultrasonic delamination technique that blasts the active materials from the electrodes leaving virgin aluminium or copper. This process proved highly effective in removing graphite and lithium nickel manganese cobalt oxides, commonly known as NMC. Materials recovered using the technique were found to have higher purity, and therefore higher value, than those recovered in conventional recycling approaches and are potentially easier to use in new electrode manufacture. The approach is fast and adapts technology in widespread use in the food preparation industry.

“For the full value of battery technologies to be captured for the UK, we must focus on the entire life cycle — from the mining of critical materials to battery manufacture to recycling — to create a circular economy that is both sustainable for the planet and profitable for industry,” commented Professor Pam Thomas, CEO, The Faraday Institution.

“This effort to deliver commercial, societal and environment impact for the UK is showing great promise. It is imperative that academia, industry and government redouble their efforts to develop the technological, economic and legal infrastructure that would allow a UK EV battery recycling industry to become established to realise the full benefits of a decarbonised transport sector.”

“This novel technique works in the same way as a dentist’s ultrasonic descaler, breaking the adhesive bonds between the coating layer and the substrate,” comments Professor Andrew Abbott at the University of Leicester who leads the research. “It is likely that the initial use of the technology will use production scrap from battery manufacturing facilities as the feedstock and feed recycled material straight back into the battery production line, possibly at the same site. This could be a real step change in battery recycling.”

Ultrasonic delamination technique to return high purity materials to new battery manufacture.
Credit: University of Leicester

Current delamination recycling techniques use concentrated acids in a batch immersion process. The new ultrasonic technique is a continuous, feed process that uses water or dilute acids as the solvent so the technique is greener and less expensive to operate. It can delaminate 100 times more electrode material in a given time and volume than existing batch delamination techniques.

Researchers are in initial discussions with several battery manufacturers and recycling companies to place a technology demonstrator at an industrial site in 2021, with a longer-term aim to license the technology. The research team at the Universities of Leicester and Birmingham have tested the technology on the four most common battery types and find that it performs with the same efficiency in each case.

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