Supplementary information to the publication “Influence of foam composite in lithium-ion battery packs on their mechanical recycling”
References to related material | Publication “Influence of foam composite in lithium-ion battery packs on their mechanical recycling” | |
Type of the data | Dataset | |
Type of the data | Text | |
Total size of the dataset | 412406 | |
Author | Rademacher, Paul | |
Author | Kaas, Alexandra | |
Author | Wilke, Christian | |
Author | Peuker, Urs A. | |
Upload date | 2025-05-23T11:46:44Z | |
Publication date | 2025-05-23T11:46:44Z | |
Data of data creation | 2023 | |
Publication date | 2025-05-23 | |
Abstract of the dataset | Supplementary data to the following paper. Lithium-ion batteries (LIB) make an important contribution to the energy transition as energy storage devices for mobile and stationary applications. The recovery of the valuable materials contained in the lithium-ion batteries after their end of life is of central importance for the development of a circular economy in line with the concept of sustainability. Mechanical recycling is to be seen as a first step in this process. With processes for the mechanical recycling of LIB that have already been successfully developed and implemented, it is possible to recover most components of a LIB i.e., the materials of the anode, cathode and separator foils as well as the casing. The concentrate of the coating of the electrode foils, which is called black mass, becomes an intermediate product for hydrometallurgical recycling processes for the recovery of lithium, among other materials. Some OEM of the automotive industry are about to introduce cell-to-pack-technologies, in which individual LIB-cells are fixed and stabilised in their position inside the large battery pack with the aid of a foam material, thereby adding further materials to the battery pack. The effects of the foam on the recycling are not known yet. Within the scope of this experimental work, several technological variants to enrich and separate the foam as an individual material fraction were investigated. The holistic aim is to minimise contamination from the foam in the valuable fractions. Two different types of foam and their effect on the purity of the recycling products were analysed. | |
Public reference to this page | https://opara.zih.tu-dresden.de/handle/123456789/1482 | |
Public reference to this page | https://doi.org/10.25532/OPARA-849 | |
Publisher | Technische Universität Bergakademie Freiberg | |
Licence | Attribution-ShareAlike 4.0 International | en |
URI of the licence text | http://creativecommons.org/licenses/by-sa/4.0/ | |
Specification of the discipline(s) | 4 | |
Title of the dataset | Supplementary information to the publication “Influence of foam composite in lithium-ion battery packs on their mechanical recycling” | |
Research instruments | Dual shaft rotary ripper / dual shaft rotary shear, design TU Bergakademie Freiberg | |
Research instruments | Universal Granulator UG300 MS, Andritz MeWa GmbH, Gechingen, Germany | |
Research instruments | Sieving machine EML 450, Haver & Boecker OHG, Oelde, Germany | |
Research instruments | Zig-zag air classifier type LZS 10 / 120 x 240, Joest GmbH + Co. KG, Dülmen, Germany | |
Research instruments | universal testing machine | |
Research instruments | load cell type 643.41C-02, MTS Systems Corporation, Eden Prairie, USA | |
Research instruments | load cell type 661.19F-02, MTS Systems Corporation, Eden Prairie, USA | |
Research instruments | Thermogravimetric analysis type STA 449 F3 Jupiter, Netzsch-Gerätebau GmbH, Selb, Germany | |
Research instruments | Torque measuring shaft type HBM T1, HBM GmbH, Darmstadt, Germany | |
Research instruments | KiTorq Rotor Type 4550A, Kistler Instrumente GmbH, Sindelfingen, Germany | |
Underlying research object | lithium-ion batteries | |
Software | Microsoft Office LTSC Professional Plus 2021 | |
Software | LabVIEW 2023 |
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