Improve battery safety and performance with multi-physics simulation

The demand for electric vehicles is growing rapidly, and with it, the need for safe and reliable batteries. Multi-physics simulation is a powerful tool that can be used to improve battery safety and performance. Multi-physics simulation considers the complex interactions between different physical phenomena. This allows engineers to design batteries that are more resistant to thermal runaway, better able to withstand extreme temperatures, and have longer lifespans.

The challenges of battery safety and performance

Batteries are essential for the modern world, powering everything from smartphones to electric vehicles. However, batteries can be prone to thermal runaway. In addition to safety, batteries also need to be designed for high performance and long life. This is a complex challenge, as the performance and lifetime of a battery can be affected by a variety of factors, including the chemistry of the battery, the design of the battery pack, and the operating conditions.

Use thermal runaway simulation to improve battery safety

Thermal runaway is a serious safety hazard that can occur in lithium-ion batteries. Thermal runaway simulation is a powerful tool that can be used to improve battery safety. By simulating the thermal runaway process, engineers can identify potential problems and test different design solutions. This can help to prevent thermal runaway from occurring in the first place, or to mitigate the effects of thermal runaway if it does occur.

Use battery pack model reduction to improve battery performance

Battery pack model reduction is a powerful technique that can be used to improve battery performance and reduce development costs. By creating a simplified model of the battery pack, engineers can quickly and easily simulate different design and operating conditions, identify potential problems, and optimize the design for optimal performance.