EVALUATION OF VISCOSITY OF MOLTEN SLAGS IN BLAST FURNACE OPRATION

Science and Technology of Innovative Ironmaking for aiming at Energy Half ConsumptionNovember 27 to 28, 2003　Tokyo, JapanMinistry of Education, Culture, Sports, Science and Technology（MEXT

Evaluation of carbonisation gas from coal and woody biomass and reduction rate of carbon composite pellets.

Carbon composite iron oxide pellets using semichar or semicharcoal were proposed from the measured results of the carbonisation gas release behaviour. The carbonisation was done under a rising temperature condition until arriving at a maximum carbonisation temperature Tc,max to release some volatile matter (VM). The starting point of reduction of carbon composite pellets using semicharcoal produced at Tc,max?=?823?K under the rising temperature condition was observed at the reduction temperature TR?=?833?K, only a little higher than Tc,max, which was the aimed phenomenon for semicharcoal composite pellets. As Tc,max increases, the emitted carbonisation gas volume increases, the residual VM decreases, and, as a whole, the total heat value of the carbonisation gas tends to increase monotonically. The effect of the particle size of the semicharcoal on the reduction rate was studied. When TR is higher than Tc,max, the reduction rate increases, as the particle size decreases. When TR is equal to Tc,max, there is no effect. With decreasing Tc,max, the activation energy Ea of semicharcoal decreases. The maximum carbonisation temperature Tc,max may be optimised for reactivity (1/Ea) of semicharcoal and the total carbonisation gas volume or the heat value