Engineering
Life Safety
with Precision
At our company, we design and optimize fire and smoke extraction systems engineered to perform when seconds count. These systems are life safety mechanisms — built to protect visibility, preserve evacuation routes, and support emergency response. Our work is grounded in both practical expertise and published research, reflecting a deep, ongoing engagement with the science of fire dynamics and smoke behavior. From underground car parks to critical infrastructure, we develop solutions that are data-driven, regulation-ready, and built to perform when it matters most.
Fire-Smoke
Scenario Analysis
&
Airflow Design
Using high-fidelity simulation tools, we model airflow, smoke propagation, temperature layers, and visibility loss under realistic fire conditions. Our team uses tools such as PyroSim and Fire Dynamics Simulator (FDS) to assess how smoke develops, spreads, and interacts with architectural features and extraction systems. These digital analyses allow us to anticipate behavior in both standard and worst-case scenarios — and to design extraction systems that respond rapidly, efficiently, and reliably.
This simulation-based approach ensures we can evaluate multiple system layouts and safety strategies before implementation — saving time, reducing cost, and improving performance from day one.
From Concept
to Compliance
Every smoke extraction solution we deliver is developed with full awareness of international fire codes, mechanical system constraints, and real-world operational needs. We integrate smoke control with fire detection systems, architectural planning, and mechanical infrastructure — ensuring cohesive designs that are technically sound and ready for approval.
Whether you’re developing a new facility or upgrading an existing system, we provide expert guidance at every step: from early-stage feasibility to simulation, documentation, and support during authority review and commissioning. Our focus is clarity, safety, and long-term confidence.