A model of flame propagation in rich mixtures of coal dust in air

The upper and lower limits of concentration for upu, ard propagation of flame in a vertical tube are given on a probability basis for coal dust-air mixtures. The 0.5 probability value of the lower limit varied from 0.23 to 0.31 g/1. and the upper limit varied from 2.07 to 1.02 g/l.; the actual value

Combustion wave propagation in a carbon dust/gas mixture is studied, taking into account both radiative and conductive heat transfer. A two-temperature mathematical model is suggested for the analysis of the nonstationary processes occurring in exothermic reactions during propagation of the wave fro

Sttspcnskms of lycopodium dust in air ~ere burned as small laminar flames. Tile burning velocity was determined as a limetion of radi:d disl:mce from the Ilame axis, It is shown that Ilow phenomena affect the shape, stabilization and burning velocity of the Ilanlc. Very little heat was transferred b

Flame-balls are stationary spherical premixed flames observed in certain near-limit mixtures. It is believed that radiative heat losses are an important stabilizing influence. Numerical solutions of flame balls are constructed for hydrogen-air mixtures using an accurate description of the chemical k

For flames propagating through a nonuniform medium a three-flame structure is described. This consists of a fuelrich premixed flame, a fuel-lean premixed flame, and, starting where these flames meet, a diffusion flame. Such formations have been observed experimentally and probably occur as laminar f