Probability of the fast self reduction technology by carbon composite iron ore pellets (CCIP), and prospects.
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Accession number;05A0248800
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| Title;Probability of the fast self reduction technology by carbon composite iron ore pellets (CCIP), and prospects. |
| Author;
SHIMIZU MASAKATA
(Kyushu Univ., Graduate School of Engineering, JPN)
NISHIOKA HIROKI
(Kyushu Univ., Graduate School of Engineering, JPN)
MAEDA TAKAYUKI
(Kyushu Univ., Graduate School of Engineering, JPN)
NOMURA YOHEI
(Kyushu Univ., Graduate School of Engineering, JPN)
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Journal Title;Current Advances in Materials and Processes
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Journal Code:X0994A
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ISSN:0914-6628
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VOL.18;NO.1;PAGE.50-53(2005)
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| Figure&Table&Reference;FIG.13, REF.4 |
| Pub. Country;Japan |
| Language;Japanese |
| Abstract;The CCIP process is a key issue in realizing low temperature operation and fast reduction reactions in blast furnace refining, and the actual application of CCIP to existing blast furnaces and prospect for revolutionary furnace and tasks, and prospects are explained. The reduction and re-oxidation reaction behavior of high-density briquettes formed by hot forming process of coal and ore mixtures by the CCIP method are reported. Uses of CCB for iron-bath type melting reduction process for realizing fast reduction functions at high temperatures, the carbon coating of fine ores by methane gas, and applications to ultra-high rate processes are discussed. Uses of waste materials and biomass for co-production of iron and hydrogen are discussed, and tasks to be solved are summarized. |
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