Designing Safe and Efficient Electric Vehicle Batteries using a MODSIM Multi-Physics Approach

The success of an Electric Vehicle (EV) program largely depends on selecting the appropriate battery materials, designing effective cells, and creating optimal pack designs. However, achieving the right design on the first attempt can be challenging, especially when trying to meet competing performance metrics. 

In this webinar, we will demonstrate how the SIMULIA digital design process provides insights into battery behavior, including electrochemistry, thermal, fluid and structural analysis. This helps designers create batteries with confidence.

You will learn how to make informed decisions regarding battery material selection, even when faced with limited information—much like the scenarios you typically encounter. We will also cover how to optimize cell design for both performance and safety and how to develop top-tier battery pack designs that effectively balance safety, efficiency, durability, and cost.

Highlights:

• Automated cell design creation, mesh generation, and a superior electrochemistry solver simplify the optimization of cell performance.
• The fully modular, flexible, and parameterized battery pack creation, combined with robust linear and nonlinear solvers, offers an unparalleled level of design, modeling, analysis, and optimization capabilities.
• Advanced multi-physics applications on the 3DEXPERIENCE Platform enable a unique approach to multidisciplinary trade-offs in battery pack engineering.