Effect of casting parameters on permeability in lower part of blast furnace

Abstract

Maintenance of adequate permeability in the lower zone of a blast furnace is crucial for stable and efficient furnace operation. Permeability in the lower zone is influenced by the changing levels of hot metal and slag in addition to other operational factors. Thus, accumulation of liquids in the hearth and inadequate drainage will lead to deterioration in permeability, thereby limiting wind acceptance and furnace productivity. Therefore, the knowledge of the liquid level in the hearth and factors influencing drainage would be helpful for ensuring high permeability. Effort has been made in the present study to analyse the effect on liquid level of casting parameters such as casting rate (CR), production rate, gun up to knock out time (GKT), slag delay, cast duration (CD) and number of casts (NC). The relationships between casting parameters, liquid level and permeability resistance in the lower zone have been derived mathematically based on material balance. From known casting parameters, the liquid levels have been estimated. The prediction of liquid levels by the model was in good agreement with the furnace data on permeability resistance. In order to maintain high permeability in the lower zone, the optimum values of GKT, NC and CR for different production rates have been suggested to the plant.