For over a century, vehicle fire safety was based on the predictable behavior of burning fuel—a slow, surface‑based process that allowed time to react. That model no longer holds. In the electric age, a single battery cell failure can trigger thermal runaway—a self‑sustaining chemical reaction that reaches maximum intensity in seconds.
This course challenges the outdated assumptions that external firefighting and traditional suppression can adequately manage these events. Using real‑world case studies, data‑driven analysis, and research from global safety authorities, it demonstrates that today’s reactive strategies are technically and environmentally unsustainable.
Participants will explore the new physics of EV fires, uncover why thermal runaway represents a fundamental shift in risk, and examine the critical need for engineered, internal prevention—systems designed to detect, isolate, and neutralize failures at their source.
By the end of the course, attendees will understand that sustainable safety in electric mobility and energy storage can only be achieved through a proactive, physics‑based redesign of how we prevent, not just fight, thermal runaway
Confidentiality and Intellectual Property Notice
ThermoShield EV™ is a patent‑pending / proprietary delivery and control system developed by Fire Rsik Consultancy Limited.
The information in this course outlines the general concept and safety rationale behind the technology.
Specific system embodiments, logic, and hardware configurations are protected under filed patent applications (application number pending) and are disclosed only under NDA.
© [2025] [Fire Risk Consultancy Limited]. All rights reserved.
© Fire Risk Consultancy Ltd | ThermoShield EV™ | Patents Pending | Educational Summary – No confidential design details disclosed