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12th Annual Battery Safety Summit – Increasing Efficiency & Thermal Stability
Said Al-Hallaj, PhD, Chief Battery Scientist, Beam Global - Enhancing Li-ion Battery Safety and Preventing Thermal Runaway Propagation Using Phase Change Composites. 2:30pm EDT, Oct 13, 2022

Beam AllCell-Annual Battery Safety Summit

 

Beam AllCell-Annual Battery Safety Summit

We are pleased to announce Said Al-Hallaj at Beam Global (AllCell Technologies is now part of Beam Global) will attend the 12th Annual Battery Safety Summit. In this talk Said will be discussing Enhancing Li-ion Battery Safety and Preventing Thermal Runaway Propagation Using Phase Change Composites at 2:30 pm, October 13th 2022.

Said Al-Hallaj at Beam Global AllCell TechnologiesSaid Al-Hallaj, PhD, Chief Battery Scientist, Beam Global

Said Al-Hallaj is the Chief Battery Scientist of Beam Global company (Nasdaq: BEEM, BEEMW), Co-founder and CEO of AllCell Technologies LLC (recently acquired by Beam Global), Founder and CEO of NETenergy, a thermal energy storage company, and a Research Professor of Chemical Engineering at the University of Illinois at Chicago (UIC). Dr. Al-Hallaj earned his bachelor and master’s degrees in chemical engineering from Jordan University of Science and Technology (JUST) and a Ph.D. in chemical engineering from the Illinois Institute of Technology (IIT). Said co-authored a book entitled “Hybrid Hydrogen Systems” and has published several book chapters and numerous numbers of peer reviewed and conference journal papers with >10,000 literature citations. Said is a serial entrepreneur, and his R&D effort has led to the successful commercialization of several clean-tech technologies.

 

About the Event – 12th Annual Battery Safety Summit. October 12 – 14, 2022 Tysons Corner, VA & Virtual.

Enhancing Li-ion Battery Safety and Preventing Thermal Runaway Propagation Using Phase Change Composites

In this work, an intelligent battery thermal management (iBTM) technology utilizes phase change composite (PCC) for thermal management and safety of Li-ion batteries. It integrates advanced battery management system (BMS) to monitor battery temperature, state of health (SOH), state of charge (SOC), and PCC matrix thermal state of charge (TSoC) to enable real-time dynamic fast charging. Initial results demonstrated 15-20 minutes rapid charge of high energy Type 21700 commercial cells.

The 12th Annual Battery Safety Summit will bring together key players from around the world to present the latest R&D advancements for integrating and implementing LIB safety to meet ever-increasing energy demands.

Details about the event are available here.