Markus Eckstein
Fraunhofer FFB
Day 3 (November 7, 2024)
12:10 p.m.
Ferrum
Mastering the challenges of ramping up a battery cell factory
The ramp-up of a battery cell factory is a complex and cost-intensive task. High reject rates of up to 50% and a long period of more than a year until key figures such as OEE (Overall Equipment Effectiveness) and yield are achieved represent a major risk for companies, as was recently observed at European cell manufacturers. The challenges during the ramp-up are complex and affect all disciplines and departments of a company. These include, for example, immature process definitions, unclear cause-and-effect relationships and a lack of standards for digitalization.
The main challenges in commissioning the production machines arise from the lack of publicly available expert knowledge, the very complex process chain with many known and unknown dependencies and problems in scaling up pilot lines. Many of these challenges are due to the fact that the battery industry is a relatively new industry with strong growth and many new players. Start-ups with little experience are entering the field and established companies are protecting their intellectual property rights by any means possible.
To overcome these challenges, we aim to use an interactive knowledge graph to store and provide information such as cause-effect relationships (CERs). Initially, CERs are defined by process experts and with each new production run, advanced data analysis can support or refute them and identify previously unknown CERs. In addition, the information stored in the graph is machine-readable and can be used together with process and sensor data from the machine in data-driven models to optimize machine parameters and processes.
In addition, a fully digitized factory will help to quickly identify negative events such as increased defect rates or reduced throughput as well as positive developments such as reduced energy usage or increased cell performance by using automated methods such as anomaly detection. This shortens the time between the occurrence of a significant event and the action taken as a result. As a final measure, we document the progress of our ramp-up in detail to record the knowledge gained.
Curriculum vitae
Markus Eckstein, M.Sc., has been group leader for electrode production since 2023. Since 2020 he has been a research associate at the Fraunhofer Research Institution for Battery Cell Production in Münster, Germany. Markus holds degrees in Mechanical Engineering (B.Sc., M.Sc.) and Economics (M.Sc.) from RWTH Aachen University. He gained international experience in the USA and practical experience in project management and leadership through his involvement in a student association that builds, operates, tests and races solar cars at the World Solar Challenge in Australia.
His expertise includes ramp-up management of battery cell production lines, DoE optimization, Q-gate optimization (Six Sigma Green Belt) and continuous mixing technologies. He has led several key projects, including the set-up and production ramp-up at the FFB Workspace in Münster, where he was responsible for the selection of machines and processes, the creation and negotiation of public tenders for machine purchases as well as the optimization of internal processes and QA gates for the ramp-up of sample production at various scales.
He also led the engineering process for a clean and dry space, managing the project from gathering process knowledge and creating public tenders to negotiating bids and overseeing the engineering and installation process. In his project management role for the ramp-up of the FFB PreFab, Markus coordinated and facilitated workshops with stakeholders, defined tasks, monitored milestones and negotiated KPIs and quality measures to ensure a successful ramp-up to production start.