Modelliing of transport phenomena for improved steel quality in a delta shaped four strand tundish

Physical and mathematical modelling studies were performed, in order to analyze various transport phenomena occurring during steel making tundish operations. Their effects on liquid metal quality were reported. A full-scale water model of a twelve tonne, delta shaped, four strand, billet caster tundish was used for physical modelling. The commercial code ANSYS FLUENT 12 was used for carrying out mathematical modelling. The tundish used in the present study is a full scale replica of that operated at the RTIT/QIT plant in Sorel Tracy, Canada and is located at MMPC's water modelling laboratory at McGill University. It is a long lasting fact that the flow pattern within a tundish greatly affects the output metal quality. As such the insertion of flow modifiers in a tundish is a common practice. In the present study, eighteen different arrangements of flow modifier systems (combinations of impact pad and dams) were considered, and mathematical modelling was performed to predict the inclusion removal efficiency for each tundish configuration. A new dimensionless number (Gu) has been proposed, which is a good measure of steel cleanliness. During melt transfer from the ladle to the tundish, inert gas is injected into the ladle shroud, just below the slide gate, so as to prevent aspiration of ambient air. The effect of inert gas shrouding on the fluid flow patterns and slag movements have been numerically predicted by using a 3D mathematical model, and then validated with water model experiments. The effect of the alignment of the ladle shroud during melt transfer was also studied, using a 3D mathematical model, supported by subsequent water model experiments. It was demonstrated that a slight bias from the vertical can be very detrimental to steel quality. Remedial measures have been suggested. During typical steelmaking tundish operations, conditions are generally non-isothermal. Variable heat losses take place from the free surface and from the walls of the tundish. Similarly, during a ladle change, the steel poured in from the new ladle will tend to be at a higher temperature than the liquid steel remaining in the tundish. Flow patterns change under non-isothermal conditions and hence affect output steel quality. A thorough study has been performed to visualize the effect of thermal gradients on fluid flow patterns, and temperature distributions generated within the delta shaped tundish.%%%%Dans la presente etude, la modelisation physique et numerique fut utilisee pour analyser l'effet sur la qualite du metal liquide de differents phenomenes de transports ayant lieu dans un panier repartiteur durant les operations de coulee d'acier. Un modele physique pleine echelle d'un panier repartiteur de forme triangulaire d'une capacite de douze tonnes comprenant quatre jets pour la coulee de billettes ainsi qu'un modele mathematique utilisant le logiciel ANSYS FLUENT 12 fut utilise. Le panier utilisant l'eau comme fluide plutot que l'acier est une replique de celui utilise a l'acierie RTIT/QIT de Sorel Tracy, Canada. Il est…