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Fire and Smoke Modelling in Buildings by Computational Fluid Dynamics
A proposed smoke ventilation system, in case of fire, is investigated for its effectiveness by computational fluid dynamics. Two building fire situations are modelled and the smoke concentrations throughout the building are predicted. The specified criterion is that visibility at eye height remains sufficient for the building to be evacuated. The predictions show that the proposed system is effective and that the higher of two modelled fan capacities is required.
Fire and Smoke Modelling in Buildings by Computational Fluid Dynamics
A proposed smoke ventilation system, in case of fire, is investigated for its effectiveness by computational fluid dynamics. Two building fire situations are modelled and the smoke concentrations throughout the building are predicted. The specified criterion is that visibility at eye height remains sufficient for the building to be evacuated. The predictions show that the proposed system is effective and that the higher of two modelled fan capacities is required.
Fire and Smoke Modelling in Buildings by Computational Fluid Dynamics
Kent, J. H. (author)
Architectural Science Review ; 40 ; 3-10
1997-03-01
8 pages
Article (Journal)
Electronic Resource
Unknown
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