Influence of Al₂O₃ on Reduction-Meltdown Behavior of Sinter in Blast Furnace

Abstract

At Kimitsu No. 3 sintering machine, a test was performed which produces a low-Al₂O₃ content (1.50%) sinter in contrast to an ordinary sinter (Al₂O₃=1.85%). Together with tests performed to check the availability of this sinter at Kimitsu No. 3 and No. 4 blast furnaces, off-line model experiments were conducted with the use of the same sinter. The results obtained are as follows:
(1) Keeping the sinter cold strength raised by lowering Al₂O₃ content at a fixed level has enabled a sintering with low energy (lower FeO content) to be done and the reducibility has been improved from ordinary 60% to 68% in JIS-RI.
(2) Through the off-line model experiments using this sinter and the tests with the use of the same sinter at the actual furnaces, the raise of a shaft efficiency of 2.0 to 2.5% has been attained with the raise of JIS-RI of 5% at the lumpy zone of blast furnace.
(3) At the cohesive zone accompanied with the formation of melt exceeding 1150°C, the amount of FeO-containing melt formed has decreased and the chance of pores being stopped up by the melt has diminished thanks to the improved reduction efficiency and the decreased Al₂O₃ and SiO₂ contents, which has led to a better permeability at the cohesive zone. Then, the resultant merit has brought the improvement in permeability of the blast furnace, which is verified by the foregoing off-line model experiments and actual furnace tests.