Mercedes Opens the First OEM In-House Battery Recycling Plant

This is the first step in building a complete EV battery recycling network.

Dan Carney, Senior Editor

November 7, 2024

9 Slides
The dramatic lighting makes the battery recycling plant temporarily look like the scene of a final showdown in an '80s sci-fi action flick.

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While the dramatic lighting makes it temporarily look like the scene of a final showdown in an '80s sci-fi action flick, this is the real Mercedes-Benz battery recycling facility in Kuppenheim, Germany.Mercedes-Benz

At a Glance

  • This is Europe's first battery recycling plant using an integrated mechanical-hydrometallurgical process.
  • The Kuppenheim plant boasts an recovery rate of more than 96 percent and net CO2-neutral operation.
  • It will generate enough recycled materials to produce more than 50,000 new battery modules per year.

Mercedes-Benz has opened a battery recycling facility in Kuppenheim, Germany with a capacity to produce enough recycled materials to build 50,000 new battery modules per year.

This is a plant that combines a hydrometallurgical recovery process along with the necessary mechanical breakdown of old batteries. That mechanical component separates the batteries’ plastics, copper, aluminum, and iron. The hydrometallurgical step is an 80℃ process that consumes much less energy and produces less waste than pyrometallurgical methods used elsewhere, according to the company.

Mercedes-Benz maximizes the recycling quota of automotive battery systems

The plant is net carbon neutral, operating on 100 percent green energy. It even has its own 350-kilowatt rooftop solar array. The facility is small, in relative terms, with an annual capacity of 2,500 tons. But Mercedes says that operating it will lead to higher production volumes over what the company describes as the medium-to-long term. The plant’s predicted recovery rate for valuable materials like cobalt, nickel, and lithium is 96 percent.

How Does It Work?

The first step in handling batteries is to check their state of charge, so they can be discharged if there any juice still left. Then the battery modules go onto a conveyor belt that carries them through a process where they are mechanically crushed and then washed and the materials are separated into coarse and fine bits. A gravity-based air system teams with magnetic separators, a grinder, and a series of sieves to break out the plastics, copper, iron, and aluminum, which are then packaged by type.

Related:Laser technology for EV battery recycling

Innovative combined process: Step one, mechanical process

The “black mass” contained in the dried coarse material also gets separated. This portion gets dumped in with the majority of the black mass that has already been strained out in the finely ground material, then the whole lot gets dissolved into a liquid leaching solution. Undissolved graphite gets filtered out and packaged, along with any precipitated iron and aluminum.

Finally, valuable materials like copper, cobalt, manganese, nickel, and lithium are each recovered, one after another through a multi-stage chemical separation process. The cobalt and nickel are then crystalized.

The Project

Mercedes has partnered with Primobius for the factory. That is a joint venture between the recycling plant, the mechanical engineering company SMS Group, and the process technology developer Neometals. Together, they are studying the process chain for recycling improvements, including in the areas of logistics and reintegration of the materials into the supply chain. “As a pioneer in automotive engineering, Europe's first integrated mechanical-hydrometallurgical battery recycling factory marks a key milestone towards enhancing raw-materials sustainability,” said Ola Källenius, Chairman of the Board of Management of Mercedes-Benz Group AG. “Together with our partners from industry and science, we are sending a strong signal of innovative strength for sustainable electric mobility and value creation in Germany and Europe.”

Related:EV Battery Recycling Requires More Efficient Processes

Closing the loop on batteries through sustainable recycling.

Mercedes’ “Design for Circularity” approach targets circular design, value retention, and closing the loop on raw materials. As part of this effort, Mercedes reconditions salvageable batteries for use as repair parts for its EVs. Lesser batteries get repurposed for stationary storage applications as backup power for the grid.

“We are systematically deepening our expertise in the battery value chain,” stated Jörg Burzer, Member of the Board of Management of Mercedes-Benz Group AG,

responsible for Production, Quality & Supply Chain Management. “The innovative technology enables us to recover valuable raw materials from the battery with the highest possible degree of purity. This turns today's batteries into tomorrow's sustainable mine for raw materials.”

About the Author

Dan Carney

Senior Editor, Design News

Dan’s coverage of the auto industry over three decades has taken him to the racetracks, automotive engineering centers, vehicle simulators, wind tunnels, and crash-test labs of the world.

A member of the North American Car, Truck, and Utility of the Year jury, Dan also contributes car reviews to Popular Science magazine, serves on the International Engine of the Year jury, and has judged the collegiate Formula SAE competition.

Dan is a winner of the International Motor Press Association's Ken Purdy Award for automotive writing, as well as the National Motorsports Press Association's award for magazine writing and the Washington Automotive Press Association's Golden Quill award.

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He has held a Sports Car Club of America racing license since 1991, is an SCCA National race winner, two-time SCCA Runoffs competitor in Formula F, and an Old Dominion Region Driver of the Year award winner. Co-drove a Ford Focus 1.0-liter EcoBoost to 16 Federation Internationale de l’Automobile-accredited world speed records over distances from just under 1km to over 4,104km at the CERAM test circuit in Mortefontaine, France.

He was also a longtime contributor to the Society of Automotive Engineers' Automotive Engineering International magazine.

He specializes in analyzing technical developments, particularly in the areas of motorsports, efficiency, and safety.

He has been published in The New York Times, NBC News, Motor Trend, Popular Mechanics, The Washington Post, Hagerty, AutoTrader.com, Maxim, RaceCar Engineering, AutoWeek, Virginia Living, and others.

Dan has authored books on the Honda S2000 and Dodge Viper sports cars and contributed automotive content to the consumer finance book, Fight For Your Money.

He is a member and past president of the Washington Automotive Press Association and is a member of the Society of Automotive Engineers

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