As electric vehicles (EVs) continue to gain widespread adoption, battery performance and safety have become critical considerations for manufacturers and users alike. With increasing battery capacity and energy density, understanding thermal behavior and potential safety risks is more important than ever.
One of the key concerns in EV battery systems is thermal runaway, a chain reaction that can occur when battery cells experience excessive heat or internal short circuits. Identifying and mitigating these risks early in the design stage is essential for improving battery safety and reliability.
This webinar introduces how Simcenter FloEFD, a Computational Fluid Dynamics (CFD) solution, can be used to analyze fluid flow and heat transfer behavior within battery systems. Through simulation, engineers can visualize thermal conditions, identify potential hotspots, and optimize battery pack designs before physical testing.
What You Will Learn
✅ How to identify potential thermal risks in EV battery systems
✅ Methods for improving battery pack design and thermal management
✅ The fundamentals of CFD analysis for fluid flow and heat transfer
✅ How simulation can help visualize and evaluate battery thermal behavior
✅ Practical applications of Simcenter FloEFD in battery development
Key Benefits
- Improve EV battery safety and reliability
- Reduce design risks through simulation-driven engineering
- Optimize battery cooling performance
- Support faster and more effective product development
- Gain deeper insight into thermal and fluid flow behavior
This webinar is ideal for engineers and product developers involved in EV battery systems, thermal management, and simulation-driven product design.
