Pig Iron Making by Focused Microwave Beams with 20 kW at 2.45 GHz
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概要
- 論文の詳細を見る
The furnace with maximum 20 kW was constructed using focused 8 microwave beams at 2.455 GHz into the center of applicator (electromagnetic load chamber) to make high density electromagnetic field. By heating with the power of 17.5 kW during over 35 min, pig iron has been effectively produced from 1 kg of the mixed powder of magnetite ore and 18 mass% graphite. When wustite was reduced to iron, luminescence was emitted from reactor. The rate constant of pig iron making per microwave power was 4×10–3%·s–1·kW–1. The energy efficiency was 60% for heating resources and the reduction of magnetite to wustite and 15% for the reduction of wustite to iron and molten pig iron. The concentrations of impurities of phosphorous and silicon in pig iron were much lower than those in pig iron of blast furnace because of vaporization during the reduction of iron ore under rapid heating and the low oxygen potential in existence with graphite powder. The sulfur content in pig iron was a little higher than blast furnace pig iron because of little slag.
- The Iron and Steel Institute of Japanの論文
著者
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Nagata Kazuhiro
Dep. Chem. & Mater. Sci. Tokyo Institute Of Technology
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Hayashi Miyuki
Dep. Chemistry and Materials Science, Tokyo Institute of Technology
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Sato Motoyasu
Faculty of Engineering, Chubu University
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Nagata Kazuhiro
Dep. Conservation of the Heritage, Tokyo University of the Arts
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Hara Kyosuke
Dep. Chemistry and Materials Science, Tokyo Institute of Technology
関連論文
- Relation between Viscosity and Thermal Conductivity in Molten Silicate Slags and Fluxes
- Pig Iron Making by Focused Microwave Beams with 20 kW at 2.45 GHz