Laminar flame structure and burning velocities of premixed methanol-air

Annular turbulent premixed flames have been stabilized by means of an 'opposed jet burner'. Determinations of the mean gas flow velocity, the intensity of turbulence, the Eulerian scale and the microscale have been made in the flame stabilization region; the thicknees of the flame has been estimated

The asymptotic structure of methanol-air flames is analyzed using a reduced four-step mechanism, for values of equivalence ratio Ob from 0,52 to l.(I and values of pressure p from 1 to 10 arm. The reduced mechanism was deduced from a starting mechanism, containing 22 elementary chemical reactions. I

The burning velocities of hydrogen-air and hydrogen-air-steam mixtures as a function of the temperature and composition of the unburned gases have been measured by laser-Doppler anemometry and schlieren photography using a constant-velocity nozzle burner. A two-cyclone in-series particle generator w

Fuel-lean flammability limits and burning velocities in a closed vessel were measured for methane-air mixtures burning at earth gravity (one-g) and zero-gravity (zero-g) at initial pressures of 50-1500 Tore The zero-g flammability limit was found to be between the one-g upward and one-g downward fla

The premixed CgN#2 flame has been stabilized in the IO mm Hg pressure range, its emission spectra recorded between 2,500 and 8,OOG A, and its bumi.ng wiocity measured. The spectrum consists, for the most put, of the C-N red and violet systems, The orJy other emissions characteristic of the flame wer