This video tutorial provides an in-depth introduction to the simulation of battery charging processes using GeoDict 2024. Janine Hilden, an application engineer at Math2Market, explains in detail the application of concentration-dependent parameters of an active material for precise modeling of charging processes.
Simulation of Battery Cathodes
Using the advanced expert settings in GeoDict 2024, realistic simulations of battery cathodes can be performed, prepared with the Electrode GeoApp. The video covers the specific settings required to accurately investigate the impact of different concentrations on charging efficiency and material performance.
Possible challenges in the simulation are also discussed, along with solutions on how to overcome them using the GeoDict software. This detailed exploration of simulation settings helps users get the most out of their battery materials.
Optimization of Material Structure
Furthermore, it is explained how the simulation results can be used to optimize the material structure, thereby improving battery efficiency and lifespan. This guide provides valuable insights for engineers and scientists who want to thoroughly analyze and optimize the battery charging process, especially with regard to considering physicochemical interactions within the electrode.
Importance of Correct Parameter Selection
In addition, the importance of selecting the correct parameters to achieve accurate and reproducible results is emphasized. This is particularly relevant for the research and development of new battery materials. The precise selection and adjustment of parameters make it possible to increase model accuracy and significantly advance the development of innovative battery technologies.
Video-Tutorial: How to charge a battery considering the concentration dependent parameters of an active material
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