Abstract:
A review is made of up-to-date investigations in the field of physicomathematical modeling of mixing of solid particles with high-velocity gas flows arising under the action on shock waves, compression waves, and expansion waves on unstable dust deposits on the boundaries of channels or plates and in cavities, as well as on free clouds of particles. In particular, experiments in shock tubes with particles initially located in cavities and on surfaces are described. The experimental data presented in the form of distributions of particle concentrations at various points of space above the unstable layer, pressure distributions on the lower wall of the shock tube, etc., are used for verification of proposed mathematical models in regimes of single particles, interacting continua, and turbulent diffusion. An analysis of experimental and numerical data shows that the models considered sometimes allow adequate identification of the wave structure of motion of the mixture and the field of parameters inside and outside the layer.
Keywords:dusty layers, shock and detonation waves, dust lifting, mixing, mechanics of heterogeneous media, layered detonation, explosion and fire safety, Kelvin–Helmholtz instability.
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