Mathematical Process Models in Iron- and Steelmaking: Proceedings of the Conference on "mathematical Process Models in Iron- and Steelmaking" |
Contents
Induration process for pellets on a moving strand | 6 |
Optimization of a pelletindurating machine by means of simplified mathematical models | 17 |
Mathematical model for the prediction of the residual lining thickness in the stack and bosh sections | 26 |
Copyright | |
22 other sections not shown
Common terms and phrases
assumed Bandak billets blast furnace boundary conditions calculated camber carbon casting speed coke concentration constant convection cooling curves decarburization described determined difference dimensionless dynamic effect electrode equations equilibrium exit experimental factor flatness function gas temperature heat conduction heat flow heat flux heat losses heat transfer coefficient increase ingot input JISI ladle layer linear liquid Llanwern mass transfer mathematical model maximum measured melting metal method mould nozzle obtained operation optimization oxidation oxygen parameters pellet plant predicted problem pyrometers radiation ratio reaction reduced refractory roll camber roll force roll gap rolling load schedule scrap secondary deformation shell thickness shown in Fig simulation slab slag solidification front solution sprays stand steelmaking strain rate stress surface temperature Table techniques teeming temperature temperature distribution thermal thermal conductivity thermocouples throughput tion tundish variables variations velocity width zone