TY - GEN
T1 - MATHEMATICAL MODEL OF SINTERING PROGRESS CONSIDERING MELT-FORMATION AND SOLIDIFICATION PHENOMENA.
AU - Kasai, Eiki
AU - Yagi, Jun ichiro
AU - Omori, Yasuo
PY - 1984/12/1
Y1 - 1984/12/1
N2 - In this study, a laboratory-scale simulator was developed for the purpose of measuring the changes in process variables of packed beds in the course of sintering by using mini-pellets as raw materials, which were modeled for actual sinter mix. Some reactions, i. e. combustion of coke, melting and solidification phenomena and so forth, which were similar to those occurred in actual sinter beds proceeded in the packed bed of simulator. An attempt was made to analyze observed pressure drop, which gave a deep insight into the fundamental mechanism of gas flow in the sinter bed. The results obtained were applied to a global mathematical model of sintering process.
AB - In this study, a laboratory-scale simulator was developed for the purpose of measuring the changes in process variables of packed beds in the course of sintering by using mini-pellets as raw materials, which were modeled for actual sinter mix. Some reactions, i. e. combustion of coke, melting and solidification phenomena and so forth, which were similar to those occurred in actual sinter beds proceeded in the packed bed of simulator. An attempt was made to analyze observed pressure drop, which gave a deep insight into the fundamental mechanism of gas flow in the sinter bed. The results obtained were applied to a global mathematical model of sintering process.
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M3 - Conference contribution
AN - SCOPUS:0021724742
SN - 0895201631
T3 - Proceedings - Ironmaking Conference
SP - 241
EP - 249
BT - Proceedings - Ironmaking Conference
PB - Iron & Steel Soc of AIME
ER -