LECTURE
1. Reduction of iron oxides by carbon. Reduction of iron oxides by hydrogen. Reduction of hydrogen in the blast furnace at high temperatures.
2. Reduction by gaseous mixture of CO + H2. Derivation of calculations for minimal ammount of the mixture for oxide reductions.
3. Direct and Indirect reduction in blast furnace. Determination of the optimal ratio between the two types of reduction.
4.Entering the actual operating data for seminary work. Semestral work No 1.
5. Kinetics of reduction gas. Algorithm of processes in reducing aggregate Midrex. Derivation of velocity constants from experimental test reducibility.
6. Kinetics of gas reduction in blast furnace. Determination of real minimal consumption of gaseous oxidizer as a limit in CDR plot.
7. The amount of top gas in blast furnace (carbon balance)
8. Balance and statistical methods for control of blast furnace.
9. Expert systems and their use in the operating of metallurgical production.
10.Operating of iron charge and aditives into the blast furnace
1. Reduction of iron oxides by carbon. Reduction of iron oxides by hydrogen. Reduction of hydrogen in the blast furnace at high temperatures.
2. Reduction by gaseous mixture of CO + H2. Derivation of calculations for minimal ammount of the mixture for oxide reductions.
3. Direct and Indirect reduction in blast furnace. Determination of the optimal ratio between the two types of reduction.
4.Entering the actual operating data for seminary work. Semestral work No 1.
5. Kinetics of reduction gas. Algorithm of processes in reducing aggregate Midrex. Derivation of velocity constants from experimental test reducibility.
6. Kinetics of gas reduction in blast furnace. Determination of real minimal consumption of gaseous oxidizer as a limit in CDR plot.
7. The amount of top gas in blast furnace (carbon balance)
8. Balance and statistical methods for control of blast furnace.
9. Expert systems and their use in the operating of metallurgical production.
10.Operating of iron charge and aditives into the blast furnace