Effect of pressure for dust dispersion on minimum ignition temperature

The existing technical standards for determining the minimum ignition temperature (MIT) of dust clouds are inadequate. According to existing technical standards, this study expands the test pressure conditions. The MIT of dust clouds can be determined by a variety of different dispersion pressures, that is, 0.02, 0.04, 0.06, 0.08 and 0.1 MPa. But, whether the MIT of dust clouds tested under different dispersion pressures is consistent is lacking in the corresponding exploration. In this study, a set of measurement system of instantaneous concentration and particle size was established, which can observe the flow of dust clouds and the distribution of the instantaneous particle size and concentration of dust clouds in the heating furnace tube. On this basis, the MIT of dust clouds is determined, and the physical mechanism of dispersion pressure affecting the MIT of dust clouds is revealed. The results show that the MIT of dust clouds is consistent when the dispersion pressure in the range of 0.02–0.06 MPa. When the dispersion pressure is not in this range, the MIT of the dust clouds is very different due to the obvious increase of the instantaneous particle size of the dust clouds.