Kamil Kuglin, Dorota KaliszEffect of energy mix on the phenomenon of agglomeration of non-metallic inclusion particles in liquid steelAbstractIn the research, computer calculations were performed, consisting in solving the equation of population balance and the equation of the collision frequency of non-metallic inclusion particles, depending on the type of collision. In the simulations, the PSG method (Particle Grouping Method) was applied. The studies were conducted for a specific number of aluminium oxide particles. The particle radius and the power of mixing ε were assumed as variables. The simulation results were presented in the form of diagrams showing the change of the number of precipitates in respect of their initial number (n1/N0) for the first group of sizes (n1) in real-time, for each analyzed initial size of the particle radius: 1, 5 and 10 μm. The analysis of the elaborated results made it possible to conclude that, in the case of particles characterized by a larger radius, the increased energy mix intensifies the process of inclusions joining in agglomerates, which, in consequence, favours the processes of their removal from the volume of the liquid metal. Keywords: steel, non-metallic inclusions, agglomeration, computer simulation, PSG method, Download 1.55 MB >> |