Digital Twins for Energy Transition - Modeling Electrochemical Systems
Join our course on modeling electrochemical systems. Learn to boost efficiency using Open-Source tools for H2, fuel cells & batteries
Course Description and Aims
The energy transition is upon us, and optimizing the efficiency, performance, and sustainability of energy systems and materials is more crucial than ever. Computational models offer a pathway to achieving these goals by providing deep insights in kinetic and transport processes in electrochemical systems and linking them to digital twins. By using Open-Source software, collaboration and accessibility to computational solutions of the global community can be promoted.
We are thrilled to invite you to our short course on modeling electrochemical systems and processes with Open-Source methods. The dynamic workshop will delve into the theoretical foundations of various steps in the supply chain, including:
· Green H2 Production
· H2 Usage
· Energy Storage
Our workshop is designed to equip you with a solid understanding of the modeling and simulation of electrochemical processes and demonstrate the application of these techniques for creating Digital Twins.
You will learn how to leverage Open-Source methods, e.g. openFuelCell2, to enhance the efficiency and sustainability of your energy systems.
This year‘s special topics cover
· Electrolysis (PEM, SO, alkaline)
· Fuel Cell (PEM, SO)
· Li-Ion-Batteries
