Fire Risk Assessment
We provide comprehensive fire risk assessment services for buildings and industrial facilities, helping you achieve safe, resilient, and compliant designs. Our approach combines quantitative and qualitative methods aligned with applicable fire codes, and established international practices.
Through a clear, step-by-step process, we identify hazards, develop credible fire and explosion scenarios, and evaluate likelihood and consequences. We prioritize risks using transparent matrices that consider life safety, property protection, business continuity, and environmental impact.
Our team specializes in developing event trees and fault trees to construct credible fire scenarios using both deterministic and probabilistic approaches. This structured, engineering-based analysis provides a deeper understanding of system reliability, initiating events, and potential escalation pathways, enabling better-informed design and risk management decisions.
The outcome is a set of practical, cost-benefit solutions tailored to your project’s risk acceptance criteria and operating context.
Typical deliverables
Fire hazard identification
Specific to facility use, occupancy profiles, operational practices, and fuel/ignition sources
Development of credible fire scenarios
Based on the occupancy, facility geometry, system performance, and operational conditions
Likelihood and consequence evaluation
Using structured ranking systems covering life safety, property, business continuity, and environmental impacts
Risk ranking and prioritization
Through transparent, consistent frameworks to highlight critical hazards
Development of mitigation strategies
Including engineering controls, operational changes, enhanced protection systems, and emergency planning
Comprehensive reporting
With risk matrices, scenario analyses, and clear recommendations to support stakeholder approvals
Our Expertise Covers
Fire hazard identification, including building use, occupancy profiles, operational practices, and fuel/ignition sources
Risk ranking and prioritization through transparent, consistent frameworks to highlight critical hazards
Development of credible fire scenarios based on building geometry, system performance, and operational conditions
Development of mitigation strategies, including engineering controls, operational changes, enhanced protection systems, and emergency planning
Likelihood and consequence evaluation using structured ranking systems covering life safety, property, business continuity, and environmental impacts
Comprehensive reporting with risk matrices, scenario analyses, and clear recommendations to support stakeholder approvals
Reference Projects
