Influence of furnace temperature and non-uniform heat flux density on direct reduction process of newly designed carbon containing pellet

In this study, innovative ellipsoid pellet with craters on its surface was designed, and the direct reduction process was compared with ellipsoid (without craters) and sphere pellets. In addition, furnace temperature and uneven heat flux density effects on the pellet direct reduction process were al...

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Bibliographic Details
Published in:Journal of Central South University 2022, Vol.29 (1), p.296-312
Main Authors: Li, Nan, Wang, Feng, Pan, Liang-ming
Format: Article
Language:English
Subjects:
Carbon
Craters
Direct reduction
Engineering
Flux density
Heat
Heat flux
Heat transfer
Heat transmission
Metallic Materials
Metallizing
Pellets
Rotary hearth furnaces
Zinc
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Summary:In this study, innovative ellipsoid pellet with craters on its surface was designed, and the direct reduction process was compared with ellipsoid (without craters) and sphere pellets. In addition, furnace temperature and uneven heat flux density effects on the pellet direct reduction process were also studied. The results show that ellipsoid pellet is better than that of spherical pellet on metallization ratio. However, under the condition of non-uniform heat flow, the ellipsoid pellet final metallization rate and zinc removal rate were lower. Although the heat transfer effect of ellipsoid pellet with craters was not improved significantly, the metallization rate and zinc removal rate were found improved, which will have a cumulative effect on the pellets direct reduction process in rotary hearth furnace. Under varying furnace temperature conditions, the pellet temperature was higher than that of the constant furnace temperature. After 1200 s, pellet Fe concentration increased to 123.6%, metallization rate and zinc removal rate increased to 113.7% and 102.2%, respectively. These results can provide references for the carbon-containing pellet design used in rotary hearth furnace.
ISSN:2095-2899
2227-5223
DOI:10.1007/s11771-022-4918-8