Add to ORKGThis research program is concerned with the effect of low speed flow on the spreading and extinction processes of flames over solid fuels. Primary attention is given to flame propagation in concurrent flow - the more hazardous situation from the point of view of fire safety
Flame-spread over solid fuels in presence of an opposed flow field has received increasing attention...
The flame behaviors in a narrow gap with low-velocity airflow are significantly different from buoya...
While flame spread through uniform fuel-air mixtures has been widely studied in combustion science, ...
In reduced gravity, the combustion of solid fuel in low-speed flow can be studied. The flame behavio...
A numerical model is developed to examine laminar flame spread and extinction over a thin solid fuel...
A numerical model is developed to examine laminar flame spread and extinction over a thin solid fuel...
It is proposed that concurrent-flow flame spread over solid fuel beds will be steady under condition...
The overall objectives of the DARTFire project are to uncover the underlying physics and increase un...
Several aspects of opposed-flow flame spread are experimentally investigated because of their releva...
Experimental results obtained in drop towers and in Space Shuttle based experiments coupled with mod...
The objective is to determine the mechanism of gas-phase flame spread over solid fuel surfaces in th...
Flame spread over flat solid fuel beds is a useful means of understanding more complex two-phase non...
The flame spread and flame extinction characteristics of a thin fuel burning in a low-speed forced c...
An experimental study of ignition and flame growth over a thin solid fuel in oxidizer flow speeds fr...
This thesis presents the results of an experimental study on two-dimensional, planar propagating edg...
Flame-spread over solid fuels in presence of an opposed flow field has received increasing attention...
The flame behaviors in a narrow gap with low-velocity airflow are significantly different from buoya...
While flame spread through uniform fuel-air mixtures has been widely studied in combustion science, ...
In reduced gravity, the combustion of solid fuel in low-speed flow can be studied. The flame behavio...
A numerical model is developed to examine laminar flame spread and extinction over a thin solid fuel...
A numerical model is developed to examine laminar flame spread and extinction over a thin solid fuel...
It is proposed that concurrent-flow flame spread over solid fuel beds will be steady under condition...
The overall objectives of the DARTFire project are to uncover the underlying physics and increase un...
Several aspects of opposed-flow flame spread are experimentally investigated because of their releva...
Experimental results obtained in drop towers and in Space Shuttle based experiments coupled with mod...
The objective is to determine the mechanism of gas-phase flame spread over solid fuel surfaces in th...
Flame spread over flat solid fuel beds is a useful means of understanding more complex two-phase non...
The flame spread and flame extinction characteristics of a thin fuel burning in a low-speed forced c...
An experimental study of ignition and flame growth over a thin solid fuel in oxidizer flow speeds fr...
This thesis presents the results of an experimental study on two-dimensional, planar propagating edg...
Flame-spread over solid fuels in presence of an opposed flow field has received increasing attention...
The flame behaviors in a narrow gap with low-velocity airflow are significantly different from buoya...
While flame spread through uniform fuel-air mixtures has been widely studied in combustion science, ...