Research on the Coal-Based Direct Reduction of Vanadium Titanomagenetite

Tao Jiang; Shan Fei Guan; Yi Xia; Shao Wu Yu; Xiang Xin Xue; Rui Guo Bai; Dong Hui Chen; Fu Zeng Chang

doi:10.4028/www.scientific.net/AMR.753-755.16

Paper Titles

Preface and Organization

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Cherish the Earth's Mineral Resources and Promote the Comprehensive Utilization of Iron Tailings
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Forecast and Geological Significance of Main Channel in Songliao Basin Binbei Area Fuyu Oil Layer
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Research on the Coal-Based Direct Reduction of Vanadium Titanomagenetite
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Experimental Study on Recovery of Kronos from Iron-Separation Tailings
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Test Research on HIMS-Reverse Flotation of Oolitic Hematite of Longyan Iron Mine
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The Vanadium Titanium Magnetite Tailings of Chengde Area Comprehensive Recycling Situation and Development Trend
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The Concentration Experiments of Chengde Iron Tailings
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 753-755Research on the Coal-Based Direct Reduction of...

Research on the Coal-Based Direct Reduction of Vanadium Titanomagenetite

Abstract:

This paper investigates the impact of additives and cooling way on the metallization rate of reduction product by the experiment of the coal-based direct reduction of vanadium titanomagnetite ; The promotion of direct reduction product metallization by additive species, additive content, reduction time and cooling way was studied and the optimal condition was found; when used 3% CaF₂ as additive reduced for 0.5h and used water quenching to cool down the product, finally got the product which metallization got 93.80% and 42.93% higher than the null sample.

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Periodical:

Advanced Materials Research (Volumes 753-755)

Pages:

16-19

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.753-755.16

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Online since:

August 2013

Authors:

Tao Jiang, Shan Fei Guan, Yi Xia, Shao Wu Yu, Xiang Xin Xue, Rui Guo Bai, Dong Hui Chen, Fu Zeng Chang

Keywords:

Additive, Cooling Method, Direct Reduction, Vanadium Titanomagenitite

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References

[1] DuHegui, Blast furnace smelting of vanadium-titanium magnetite principle[M], Beijing, Science press, 1996, 1~16.

Google Scholar

[2] WangXiqing, Vanadium titanium magnetite smelting in blast furnace[M], Beijing, Metallurgical Industry Press, 1994, 1~18.

Google Scholar

[3] ShiZhanbiao, Non blast furnace ironmaking Science[M], Shenyang, Northeast Institute of Technology Press, 1991, 1-118.

Google Scholar

[4] FangJue, Non blast furnace metallurgy process and theory[M], Beijing, Metallurgical Industry Press, 2010, 1-149.

Google Scholar

[5] GaoWenxing, DongLingyan, ChenDengfu, WenLiangying, Development of the Coal-based direct reduction in rotary furnace[J], Mining industry, 2008, 17(2): 68~72.

Google Scholar

[6] ZhaoQingjie, ChuMansheng, WangZhiqing ect, The development of non blast furnace metallurgy in China[A], 2010 Annual Conference of countrywide puddling [C], Beijing, Chinese Society for metals iron branch, 2010, 63-67.

Google Scholar