The electric vehicle market surge highlights the need for smaller, lighter batteries with increased capacity. This webinar will discuss the importance of robust numerical models in understanding thermal runaway propagation and identifying parameters to mitigate incidents in battery modules or packs.
TIME:
Wednesday, July 17
11:00 AM - 12:00 PM (EDT)
Venue:
Virtual
The surge in the electric vehicle market underscores the pressing need for smaller, lighter batteries with increased capacity. Yet, safety remains a critical concern in Li-ion battery (LIB) applications.
Thermal abuse resulting from manufacturing defects, deformation, or inadequate thermal management poses a significant risk. Due to the intricate electrochemical/thermal system, traditional safety testing falls short of comprehensively addressing thermal runaway propagation during internal shorting. Thus, a robust numerical model is critical in understanding thermal runaway propagation and pinpointing parameters to mitigate such incidents in battery modules or packs.
Battery systems and cell development engineers, battery thermal CAE engineer, EV battery development team leads, battery pack and system design engineer, EV/HEV battery project engineer, thermal management modules, energy and thermal management systems, systems engineer – thermal management module, electrochemist and battery scientists
Xiao Hu
