Abstract

The results of measuring the characteristics of the glow of coal flames at the initial moments of ignition under the action of laser pulses of a neodymium laser (1064 nm, 120 µs) are presented. In microparticles of coal grades DG, G, Zh, and K, when the corresponding critical energy densities are exceeded during a laser pulse, the surface ignites and flame propagates at a speed of V ≈ 50 m/s. The emission spectra of flames are contributed by the emission of emitted hot coal particles, excited H∗2 and H2O∗ molecules, as well as the flame emission arising from the oxidation of carbon (CO∗) and carbon monoxide (CO∗2) by atmospheric oxygen

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