With modern laser diagnostic techniques it is now possible to image the detailed flame structure inside turbulent flames with high temporal and spatial resolution.

To study the effects of formation rate and surface oxidation reaction on the size of nanoparticle in the turbulent diffusion flame, simulation was performed by using the commercial CFD-code Fluent.

To probe into the effects of the interaction of fluid mechanics and particle dynamics in the process of flame synthesis, the simulation of titania nanoparticle synthesis in the turbulent diffusion flame was performed by using the commercial CFD-code FLUENT.

Properties of vertical free jet turbulent diffusion flame are studied in a co-axial double channel burner.

The buoyancy-modified k-ε model and the eddy-dissipation-concept (EDC) turbulent combustion model are employed to numerically simulate the methane turbulent non-premixed flames with low fuel/air initial momentum in a swirl combustor.

A ounterflow diffusion flame as a basic configuration ofdiffusion flames was studied, and an oxygen-enriched air/methane counterflow diffusion flame was analyzed numerically using detailed chemi-cal kinetic, for conditions that methane stream was diluted with the dilution (CO2 ), the influence of velocity g.

With the counterflow diffusion flame serving as an object of investigation and by the use of a detailed elementary reaction kinetics model based numerical analysis method a study was conducted of the influence of thermal radiation on the flame structure and NO x forma.