Abstract
In this paper, propagation and quenching of aluminum dust flame in narrow channels with infinite length and constant width are investigated. Particles are distributed uniformly in three-dimensional space in a quiescent reaction medium. The combustion of a single particle was first studied, and the solution is presented. Each burning/burned particle is considered as a heat source, and the amount of heat loss to the channel walls is assumed as sink source. Based on the superposition principle, the space–time temperature distribution of particles and the heat loss to the walls are estimated based on the generated code. In this study, the amount of heat loss and quenching distance have been investigated as a function of aluminum dust concentration and particle diameter. The effects of preheating of the walls are also studied on quenching distance and heat loss. The estimated results are compared with the experimental data and show a fairly good agreement. The initial wall temperature affects the heat loss, and with the increase in the wall’s initial temperature, the value of quenching distance will be decreased.
Published Version
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