Sandra Huster scite author profile

In the coming decades, the number of end-of-life (EoL) traction battery systems will increase sharply. The disassembly of the system to the battery module is necessary to recycle the battery modules or to be able to use them for further second-life applications. These different recovery paths are important pathways to archive a circular battery supply chain. So far, little knowledge about the disassembling of EoL batteries exists. Based on a disassembly experiment of a plug-in hybrid battery system, we present results regarding the battery set-up, including their fasteners, the necessary disassembly steps, and the sequence. Upon the experimental data, we assess the disassembly duration of the battery system under uncertainty with a fuzzy logic approach. The results indicate that a disassembling time of about 22 min is expected for the battery system in the field study if one worker conducts the process. An estimation for disassembling costs per battery system is performed for a plant in Germany. Depending on the plant capacity, the disassembling to battery module level is associated with costs between EUR 80 and 100 per battery system.

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Rücklaufmengen und Verwertungswege von Altbatterien aus Elektromobilen in Deutschland

Glöser‐Chahoud

Huster

Rosenberg

et al. 2021

Chemie Ingenieur Technik

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Die Elektromobilität wird als Schlüsseltechnologie zur Senkung der CO2‐Emissionen im Straßenverkehr gesehen. In der Diskussion um die Klimabilanz der Elektromobilität wird allerdings der hohe ökologische Fußabdruck in der Herstellung batterieelektrischer Fahrzeuge wenig adressiert, der sich insb. durch die ressourcenintensive Traktionsbatterie ergibt. Neben der Bereitstellung von regenerativem Ladestrom ist eine effiziente Kreislaufführung der Batteriematerialien und eine möglichst lange Nutzung der Batteriesysteme und Komponenten Voraussetzung für die nachhaltige Gestaltung der Elektromobilität. Der vorliegende Beitrag gibt einen Überblick zur kreislaufwirtschaftlichen Wertschöpfungskette von obsoleten Traktionsbatterien aus Elektromobilen. Mithilfe eines systemdynamischen und eines ereignisdiskreten Simulationsansatzes werden zukünftige Rücklaufmengen obsoleter Traktionsbatterien auf Basis aktueller Diffusionsszenarien abgeschätzt sowie unterschiedliche Verwertungsoptionen von 2nd‐Life‐Konzepten bis hin zu alternativen Recyclingverfahren dargestellt und diskutiert.

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A simulation model for assessing the potential of remanufacturing electric vehicle batteries as spare parts

Huster

Glöser‐Chahoud

Rosenberg

et al. 2022

Journal of Cleaner Production

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A dynamic network design model with capacity expansions for EoL traction battery recycling – A case study of an OEM in Germany

et al. 2023

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Sandra Huster

Industrial disassembling as a key enabler of circular economy solutions for obsolete electric vehicle battery systems

Field Study and Multimethod Analysis of an EV Battery System Disassembly

Rücklaufmengen und Verwertungswege von Altbatterien aus Elektromobilen in Deutschland

A simulation model for assessing the potential of remanufacturing electric vehicle batteries as spare parts

A dynamic network design model with capacity expansions for EoL traction battery recycling – A case study of an OEM in Germany

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