Safety Engineering

High-performance engineering simulations and technical consulting delivering measurable business impact, reduced risk and accelerated innovation.

Engineering Excellence That Drives Results

At SIM-engineer, we focuse on identifying, evaluating, and controlling risks to prevent accidents and ensure safe systems in workplaces, products, and processes.

Why SIM-engineer?

Risk Reduction

Validated numerical models supporting confident engineering decisions and regulatory compliance.

Cost Optimisation

Minimised prototyping and improved design efficiency through advanced simulation workflows.

Accelerated Development

Faster time-to-market enabled by integrated multiphysics and digital engineering tools.

Safety Engineering

We provide comprehensive safety engineering services dedicated to enhancing the integrity and risk preparedness of offshore and industrial installations. Our team delivers advanced analytical solutions supporting critical decision-making in emergency scenarios, structural failure assessment, and process safety evaluations.

We specialize in the application of Finite Element Method (FEM) and Computational Fluid Dynamics (CFD) to simulate and understand complex crisis events. Using FEM, we perform detailed structural mechanical analyses of failure mechanisms, including crack propagation, loss of containment, progressive collapse, and deformation under extreme loads such as blast pressure, impact, or thermal exposure. CFD enables us to model toxic gas dispersion, smoke propagation, aerosol spread, and ventilation effectiveness, offering realistic predictions of how hazardous substances or smoke move through offshore structures or open marine environments. We also conduct advanced fire and thermal radiation modelling, analyzing flame spread, heat flux distribution, and fire escalation scenarios to ensure compliance with offshore fire safety standards and to support emergency response planning.

With extensive expertise in safety engineering, we support clients throughout the entire risk-management and engineering cycle from hazard identification and consequence modelling, through detailed simulations and verification, to support during design improvements, emergency planning, and incident-response preparedness. Our work ensures that safety critical systems remain resilient, reliable, and compliant with international offshore safety regulations.

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