Theoretical analysis of fluid flow and heat transfer in stoichiometric combustion in a naturally-ventilated control-volume

“…The influence of buoyancy forces on the airflow structure (thermal plume development, smoke spreading, etc.) depends primarily on the ventilation grade of the enclosure containing the fire-source [6], e.g., whether the enclosure is unventilated, mechanically ventilated (controllable) or naturally ventilated [6,7]. In the latter case, it is crucial to evaluate the effects of the external wind forces, as compared to the buoyancy forces, on the indoor airflow, in order to develop a mathematical model to describe the phenomenon.…”

Simulation of airflow in one- and two-room enclosures containing a fire source

“…The influence of buoyancy forces on the airflow structure (thermal plume development, smoke spreading, etc.) depends primarily on the ventilation grade of the enclosure containing the fire-source [6], e.g., whether the enclosure is unventilated, mechanically ventilated (controllable) or naturally ventilated [6,7]. In the latter case, it is crucial to evaluate the effects of the external wind forces, as compared to the buoyancy forces, on the indoor airflow, in order to develop a mathematical model to describe the phenomenon.…”

Simulation of airflow in one- and two-room enclosures containing a fire source

“…The Physical problem. The physical problem considered is the spread of temperature in 3D model of a certain geometrical complexity [5,6]. A typical compartment fire includes the following major stages:…”

Simulation of Air Temperature in an Under-Bridge Storehouse

Airflow induced by a room fire: Effect of roof shape and source location