The reduction behavior of pellet was researched through the programming apparatus under simulated con- ditions of oxygen blast furnace (OBF) and traditional blast furnace (T-BF). The results indicated that compare...The reduction behavior of pellet was researched through the programming apparatus under simulated con- ditions of oxygen blast furnace (OBF) and traditional blast furnace (T-BF). The results indicated that compared with traditional blast furnace, the reduction starting temperature of pellet decreased by 60 ℃ under oxygen blast furnace condition. The reduction degree of pellet could almost reach 100% under oxygen blast furnace condition when the temperature reached 1100 ℃, whereas it was only 82.49% in traditional blast furnace. The content of carbon in pel- let of oxygen blast furnace was about 5 times more than that of traditional blast furnace. In addition, the microstruc- ture at the periphery and core of pellets after reaction was characterized by means of SEM and EDS.展开更多
基金Sponsored by National Basic Research Program of China(2012CB720401)Natural Science Foundation of China and Baosteel(51134008)
文摘The reduction behavior of pellet was researched through the programming apparatus under simulated con- ditions of oxygen blast furnace (OBF) and traditional blast furnace (T-BF). The results indicated that compared with traditional blast furnace, the reduction starting temperature of pellet decreased by 60 ℃ under oxygen blast furnace condition. The reduction degree of pellet could almost reach 100% under oxygen blast furnace condition when the temperature reached 1100 ℃, whereas it was only 82.49% in traditional blast furnace. The content of carbon in pel- let of oxygen blast furnace was about 5 times more than that of traditional blast furnace. In addition, the microstruc- ture at the periphery and core of pellets after reaction was characterized by means of SEM and EDS.