With VENTO AEC you can proactively shape a risk reduction strategy to preserve the safety of buildings and protect people’s health in both outdoor and indoor environments
Risk Analysis
Risk Analysis
With VENTO AEC you can proactively shape a risk reduction strategy to preserve the safety of buildings and protect people’s health in both outdoor and indoor environments
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Enhance environmental safety
Enhance environmental safety
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The threat of fire and potential pollutant spread poses substantial risks to individuals, structures and the environment. Understanding propagation dynamics is vital for efficient risk management and to undertake protective measures.
This case study demonstrates a simulated car fire incident in a Milan city block.
The video illustrates a 10-minute transient showcasing the transport and diffusion of smoke. Clouds depict concentrations ranging from 10 µg/m³ to 100 mg/m³, while the ground map shows the diffusion at ground level in log scale.
Enhance environmental safety
Enhance environmental safety
The threat of fire and potential pollutant spread poses substantial risks to individuals, structures and the environment. Understanding propagation dynamics is vital for efficient risk management and to undertake protective measures. This case study demonstrates a simulated car fire incident in a Milan city block.
The video illustrates a 10-minute transient showcasing the transport and diffusion of smoke. Clouds depict concentrations ranging from 10 µg/m³ to 100 mg/m³, while the ground map shows the diffusion at ground level in log scale.
Courtesy of Italferr
Optimize evacuation plans and fire protection systems
Optimize evacuation plans and fire protection systems
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Smoke propagation in indoor enviroments is extremely threatening for the safety of building occupants in case of fire.
In this case, we conducted a simulation to investigate the dispersion of smoke and carbon monoxide resulting from a car fire at a train station, and how it would possibly impact the evacuation plan.
The 5-min transient simulation shows how the heated smoke ascends from the platform level to the concourse level using various routes, including escalators.
The 3D model in IFC format was generated by Revit.
Optimize evacuation plans and fire protection systems
Courtesy of Italferr
Smoke propagation in indoor enviroments is extremely threatening for the safety of building occupants in case of fire.
In this case, we conducted a simulation to investigate the dispersion of smoke and carbon monoxide resulting from a car fire at a train station, and how it would possibly impact the evacuation plan.
The 5-min transient simulation shows how the heated smoke ascends from the platform level to the concourse level using various routes, including escalators. The 3D model in IFC format was generated by Revit.
VENTO AEC matches FDS in Fire Safety Engineering analysis
VENTO AEC matches FDS in Fire Safety Engineering analysis
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VENTO AEC’s performance in smoke and heat simulation perfectly mirrors the capabilities of FDS (Fire Dynamics Simulator). Explore further in the benchmark case.
VENTO AEC matches FDS in Fire Safety Engineering analysis
VENTO AEC’s performance in smoke and heat simulation perfectly mirrors the capabilities of FDS (Fire Dynamics Simulator). Explore further in the benchmark case.
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