Numerical study of the superadiabatic flame temperature phenomenon in hydrocarbon premixed flames

A partially premixed methane/air flame in a two-dimensional configuration was studied in this work. The configuration was close to those used in real domestic boilers. The flame structure and flow pattern were calculated by implementing a complex chemistry and detailed transport formulation in an in

The instability of premixed plane flames in the three-dimensional (3-D) field is investigated by means of the numerical simulation. We show numerically that infinitesimal disturbances superimposed on the flames grow exponentially with time, as predicted in the linear analysis, and obtain the growth

Soot production in atmospheric pressure, laminar premixed flames of toluene and decalin was studied by varying the composition of the fuel/OJN2 mixture. As the O2/(N2 + 02) ratio was increased, the onset of sooting occurred at higher fuel/O2 ratios and at higher calculated adiabatic flame temperatur

03 Gaseous fuels (derived gaseous fuels) and CO-rich gas is used as fuel or for syntheses. Post-treatment or appropriate reaction conditions are used to solve the problems caused by Cl-, N-, or S-containing input materials.

The effect on flame temperature, burning velocity and carbon limit of adding water vapor to a premixed flame has been investigated using a Bunsen-type burner operated at atmospheric pressure and employing propane and ethylene as fuels. The results'indicate that water vapor does not act as an inert d