Research and Simulation of Environmental Efficiency of Drying Refractory and Construction Materials in Vertical Shaft Furnaces

Abstract

Based on the hypothesis about the dominant effect of the concentration, median diameter, dispersion, temperature, and humidity of dust particles at the outlet of the shaft furnace on the environmental efficiency of drying materials in shaft furnaces, a device for thermal aeration dust separation is proposed. Analysis of mathematical simulation of aerothermodynamic processes in a two-phase asbestos dust-gas flow medium confirmed the conclusions of industrial research on the effect of aerothermodynamic parameters of direct flow on the temperature and humidity of asbestos dust in a shaft furnace. Based on the principle of classification additivity, a mathematical model of aeration separation of dust particles directly in a shaft furnace depending on the parameters of the heat carrier and the proposed device has been constructed.