Numerical and experimental study on flame propagating mechanism of a fuel droplet array

An attempt is made to examine the con"guration and propagation characteristics of premixed turbulent #ame in a weak turbulence region. A laser tomography technique is used to obtain the #ame shape, and quantitative analysis is performed. It is found that the turbulent #ame front can be classi"ed int

A spray has a complex group structure under the influence of eddies that vary greatly in size. It is highly probable, therefore, that its flame also has a complex group structure corresponding to the two-phase structure. In order to observe such a flame structure in detail, the light emissions in OH

Experimental investigations on #ame spread along a droplet array have been conducted at elevated pressures up to supercritical pressures of the fuel droplet under normal gravity and microgravity. The #ame spread rate is measured using high-speed chemiluminescence images of OH radicals and direct vis

Pulsating flame propagation in mixtures consisting of gas and particles is calculated numerically using a simplified model of particle-cloud combustion. The key heat transfer processes are based on the radiation heat transfer between particles and the heat transfer between gas and particles. Therefo