Independent destructive testing of lithium-ion batteries, EV systems, energy storage products, hydrogen-related technologies, and other clean energy products to evaluate hazards, failure behaviour, mitigation strategies, and responder safety considerations.
Controlled field-based testing, emergency response simulations, and mobile laboratory deployments designed to support real-world learning, data collection, and operational validation.
Research focused on contamination, exposure risks, post-incident decontamination, air and surface hazards, runoff concerns, and short- and long-term environmental impacts following clean energy technology failures.
Education programs, technical sessions, and public safety symposiums for fire services, government, industry, regulators, and community partners. This includes events such as the University of Toronto lithium-ion battery symposium.
Community-facing education, volunteer engagement, and outreach initiatives focused on improving public understanding of clean energy hazards and safe adoption.