The model will consider gas dynamics and its interactions with electrochemical and thermal behaviours, with the goal of advancing the understanding of initiation and propagation of the thermal runaway processes and accelerate the design of countermeasures.
The work that the Electrochemical Science and Engineering research group at Imperial College London has achieved in the battery field aligns with WAE’s interest in offering greater battery safety and longevity. Achieving this will deliver cost-effective electrification solutions to benefit both WAE and its global client base.
Applying the multiphase multi-physics modelling toolsets will enable the design of safer battery packs with fewer iterations and physical tests; saving time, costs and materials.
As part of this programme, WAE will provide thermal runaway/propagation test data which has been developed as a result of numerous R&D programmes whilst the battery team will provide technical knowledge and industrial experience on battery safety designs helping steer the project to success.
Rob Millar, head of electrification, Williams Advanced Engineering, said: “We are confident that the proposed study will bring tangible economic and environmental benefits and look forward to building on our long term partnership with the team at Imperial College London.”
Dr Huizhi Wang of Imperial College London who is leading the project said: “Understanding and modelling thermal runaway plays a crucial role in guiding the development of safer batteries but remains challenging due to the complexity of the process. We are excited to be working with Williams Advanced Engineering on this research project to address the key knowledge gaps in battery safety modelling.”