xEV / HEV Battery Thermal Management Innovation Summit USA

Explore the latest breakthroughs in battery thermal management, system-level integration, and high-efficiency cooling architectures. Optimize battery performance, energy density, and fast-charging capabilities while ensuring safety and longevity. Gain valuable insights into predictive thermal controls, AI-driven management systems, and next-gen heat transfer materials shaping the future of electrification. Benefit from unparalleled networking with industry-leading OEMs, innovators, and technical experts. Meet with exhibitors to discover cutting-edge technologies and engineering solutions firsthand, fostering connections to advance your projects. This comprehensive experience ensures you stay at the forefront of xEV battery technology and system-level innovation.

Gamma Technologies will have a booth and presentation: https://www.battery-thermal-management-usa.com/agenda-palto-alto/

Join our presentation:

Safer Batteries through Integrated Systems Simulation: Optimize Performance & Mitigate Risks with Advanced Thermal Management
9:20AM | Gautham Ramchandran, Solutions Consultant, Gamma Technologies

Explore how holistic multi-physics and multi-fidelity integrated simulation techniques are leveraged in early-stage design and validation to proactively address thermal risks. How multi-physics modeling, covering electrochemical, thermal, fluid, structural, and controls domains, provides predictive insights into thermal propagation behavior and the effectiveness of containment or mitigation strategies. Learn how to evaluate and effectively explore the design space of material choices, cell spacing, coolant flow paths, and venting strategies—before physical testing—reducing both cost and time-to-market.

• Explore how simulation-driven design can optimize battery pack architecture, including cell spacing, cooling pathways, and thermal barrier placement for enhanced safety.
• Learn how to integrate different physics domains within a single system simulation environment taking into account effects such as swelling, real-world degradation, environmental boundary conditions and xEV system power demands under real driving cycles, to enhance the accuracy of thermal risk forecasting in battery systems.
• Understand how predictive modeling can be applied to simulate thermal runaway scenarios across various battery chemistries and configurations by considering a cell-to-module-to-pack approach to fully account for component-to-component variations.
• Examine real-world case studies demonstrating the successful application of holistic systems simulation to prevent thermal runaway propagation in high-energy battery packs.
• Gain insights into the integration of real-world data into digital twin frameworks for real-time battery systems to improve model reliability and validation.

More info on the event here: https://www.battery-thermal-management-usa.com/