Recycling will become more and more important in the future. To fulfill the requirements of a more efficient recycling process and thus enable an eco-friendly handling of resources, modern technologies can be used. One of these modern technology streams is called Industry 4.0. This paper presents an approach to how Industry 4.0 can be integrated into recycling processes, resulting in Recycling 4.0. Electric vehicles and their traction batteries are used as an example. To enable a more efficient disassembly and recycling of these traction batteries, information about the battery is exchanged along the supply chain. A key issue is the development of a marketplace to exchange the information. Another topic is the connection of a robot to the information marketplace. On the one hand, the robot can get information from the marketplace for decision-making in the disassembly of traction batteries. On the other hand, the robotic system is capable of analyzing the condition of the battery, so it is also possible to transmit information from the robot to the information marketplace.
Resource scarcity is a global challenge, especially in E-mobility. Currently, Electric vehicles (EVs) are considered as an attractive option on a pathway towards low emission mobility. Nevertheless, due to the increasing sales and acceptance of EVs, new challenges arise regarding the scarcity of utilized materials, especially regarding lithium-ion battery systems. Battery production is responsible for the major share of the environmental and economical impacts of the overall EV production. In order to tackle these challenges, resource-efficient processes and a circular use are necessary. Today, a variety of new Industry 4.0 technologies (such as high integrated production systems) are affordable and have reached maturity. Like Industry 4.0, also Recycling 4.0 aims at digitalization of processes but with the focus on the End of Life stage of products. The main goal of the German research project Re-*All Authors contributed equally to this research cycling 4.0 is to develop approaches, which enable advanced information creation, transfer and use along the entire supply chain. In this work, a holistic approach towards an advanced circular economy (Recycling 4.0) is shown. This approach combines methods from different areas (such as economics, mechanical engineering, and computer science) and paves the way towards an advanced circular economy. This paper introduces this approach by discussing the current situation of EV recycling and related judicial fundamentals. Furthermore, the overall approach is introduced, and the discipline-specific sub-approaches are discussed in detail. CCS CONCEPTS •Computer systems organization➝ Architectures➝ distributed Architectures •Social and professional topics➝Professional topics➝Computing industry➝Sustainability
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