A Different Approach to Vent Flow Calculations in Fire Compartments using the Critical Flow Condition

Abstract: In enclosure fires, density-driven vent flow through an opening to the fire compartment is directly dependent on the state of the fire and the evacuation of smoke and hot gases. If a fire is strongly under-ventilated, there may be heavy production of flammable gases. If a sudden opening occurs, e.g., a window breaks or a fireman opens a door to the fire compartment, fresh air enters the compartment and mixes with hot gases, thus creating a flammable mixture that might ignite and create a backdraft. In this art… Show more

“…Fleischmann et al [4] first observed a particular shape of the velocity profile. Guigay et al suggested a profile similar to potential flow in a 180 degree bend around a wall end [3], as shown in Fig 13. …”

“…This gives, at stable flow, the expression for the average velocity of the hot layer derived by the authors in Ref. [3]:…”

“…This information is essential to validate analytical and numerical models developed in Refs. [2] and [3]. The input air mass flow rate controls the flow Reynolds number and the shear stress between the flows, hence the cold and hot air mixing.…”

“…Its objective was to obtain a better understanding of gravity currents [2][3][4][5] and the resulting mixing in a fire enclosure. When an under-ventilated fire dies due to lack of oxygen, the enclosed room can remain full of hot unburnt gases.…”

A CFD and Experimental Investigation of the Mixing Process in Compartment Fires

“…Fleischmann et al [4] first observed a particular shape of the velocity profile. Guigay et al suggested a profile similar to potential flow in a 180 degree bend around a wall end [3], as shown in Fig 13. …”

“…This gives, at stable flow, the expression for the average velocity of the hot layer derived by the authors in Ref. [3]:…”

“…This information is essential to validate analytical and numerical models developed in Refs. [2] and [3]. The input air mass flow rate controls the flow Reynolds number and the shear stress between the flows, hence the cold and hot air mixing.…”

“…Its objective was to obtain a better understanding of gravity currents [2][3][4][5] and the resulting mixing in a fire enclosure. When an under-ventilated fire dies due to lack of oxygen, the enclosed room can remain full of hot unburnt gases.…”

A CFD and Experimental Investigation of the Mixing Process in Compartment Fires

“…The work presented in this article is part of a PhD thesis called "CFD and experimental investigation of under-ventilated compartment fires" [1]. Its objective was to obtain a better understanding of gravity currents [2][3][4][5] and the resulting mixing in a fire enclosure. When an under-ventilated fire dies due to lack of oxygen, the enclosed room can remain full of hot unburnt gases.…”

A CFD and Experimental Investigation of the Mixing Process in Compartment Fires

Doorway flow from a reduced scale isothermal air/helium approach