Ignition Studies on High-Vitrinite and High-Inertinite Coals Using TGA/DSC, DTIF, EFR, and 20 L Dust Explosive Chamber

Abstract: The aim of this work was to study the ignition behaviour of eight coals of different coal ranks, petrographic compositions, and places of origin. The research allows us to gain deeper insight into the ignition mechanism and the relationship between certain properties of coals and their behaviour during ignition. The methodology utilised standard fuel ASTM data, petrographic analysis, pyrolysis and oxidation reactivity, and ignition characteristics generated through lab-scale tests using various ignition measur… Show more

“…Fu et al used CFD to simulate the magnesium dust dispersion and explosion of a 20 L apparatus [26]. Rybak et al investigated the ignition phenomenon of eight coals of different coal ranks, petrographic compositions, and places of origin using TGA/DSC, DTIF, EFR, and a 20 L cylindrical explosion device [27].…”

Study of Parameters and Theory of Sucrose Dust Explosion

“…Fu et al used CFD to simulate the magnesium dust dispersion and explosion of a 20 L apparatus [26]. Rybak et al investigated the ignition phenomenon of eight coals of different coal ranks, petrographic compositions, and places of origin using TGA/DSC, DTIF, EFR, and a 20 L cylindrical explosion device [27].…”

Study of Parameters and Theory of Sucrose Dust Explosion

Preliminary development of a dust explosion equipment for time-resolved SAXS experiment with synchrotron radiation

Influence mechanism of dispersion and agglomeration characteristics of micron/nano carbon dust on its combustion kinetics and explosion process