Influence of sulfur dioxide on soot formation in diffusion flames

The line-of-sight soot surface temperatures and soot volume fractions were measured as a function of axial position in overventilated coflow laminar diffusion flames. A comparison of the influence of nitrogen dilution and the flame temperature on soot formation in diffusion flames of ethylene was ma

Profiles of soot concentration together with gas species concentrations and temperature are measured in propane/air turbulent diffusion flames of two typically different air inlet temperatures of 50 and 500°C, paying special attention to the roles of gas temperature on the behavior of soot formation

Soot thresholds, in the form of flame heights and fuel mass consumption rates at the smoke points, have been measured in atmospheric pressure, laminar diffusion flames of 42 pure hydrocarbons using a wick-fed burner. The smoke point fuel consumption rates were converted into threshold soot indices,

Experiments have been performed on laminar diffusion flames of mixtures of water and hydrocarbon vapor of different compositions with the mole fractions of water ranging up to about 0.9. The soot emission from the flame decreased steadily with an increase in water concentration; concurrently, there

Critical equivalence ratios (~c) have been measured as a function of temperature (1600-1880K) for premixed flames at atmospheric pressure. The five fuels studied are methane, ethane, propane, ethylene, and acetylene. The flames were stabilized on a flat flame burner and the temperatures were measure