Effect of Nickel Oxide Doping on the Kinetics and Mechanism of Iron Oxide Reduction
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概要
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Experiments were conducted on pure Fe<SUB>2</SUB>O<SUB>3</SUB> fines (–250 mesh) which were mixed with 1, 2.5, 5 and 10% by weight of pure NiO of the same size. The powder mixtures were pressed into compacts and fired at 1473 K for 20 h. The fired compacts were isothermally reduced at 1173-1473 K with hydrogen. The reduction course was followed up by means of weight loss technique. Porosity measurements, reflected light microscope and X-ray diffraction analysis were used to elucidate the reduction kinetics. NiO was found to have a significant effect on the reduction of iron oxide. The rate of reduction at both the initial and final stages increased with the increases of dopant content at all reduction temperatures and this was attributed to the formation of mickel ferrite (NiFe<SUB>2</SUB>O<SUB>4</SUB>) phase and the consequent increase in the total porosity of compacts. Ni<SUB><I>x</I></SUB>, Fe<SUB><I>y</I></SUB> solid solution (ferronickel alloy) was produced during reduction at all tempetatures studied. The values of apparent activation energy calculated from the experimental results, the structure of partially reduced compacts and the application of gas-solid reaction model were used to elucidate the reduction mechanism.
- 社団法人 日本鉄鋼協会の論文
- 1995-09-15
著者
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Khedr Mohamed
Faculty Of Science Beni-suef Branch Cairo Univ.
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EL-GEASSY A.
Central Metallurgical Res. & Devlopment Inst. (CMRDI)
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Omar A
Central Metallurgical Research And Development Institute Cmrdi
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Nasr M
Central Metallurgical Res. & Devlopment Inst. (cmrdi)
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Nasr M.
Central Metallurgical Research And Development Institute Cmrdi
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OMAR A.
Central Metallurgical Research and Development Institute, CMRDI
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KHEDR M.
Central Metallurgical Research and Development Institute, CMRDI
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Omar A.
Central Metallurgical Research And Development Institute Cmrdi
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El‐geassy A
Central Metallurgical Res. & Devlopment Inst. (cmrdi)
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NASR M.
Central Metallurgical Res. & Devlopment Inst. (CMRDI)
関連論文
- Optimization of Magnetizing Reduction and Magnetic Separation of Iron Ores by Experimental Design
- Reduction Behaviour of Iron Ore Fluxed Pellets under Load at 1023-1273K
- Effect of Nickel Oxide Doping on the Kinetics and Mechanism of Iron Oxide Reduction
- Carbon Monoxide Reduction and Accompanying Swelling of Iron Oxide Compacts
- Effect of Reducing Gas on the Volume Change during Reduction of Iron Oxide Compacts
- Stepwise Reduction of CaO and/or MgO Doped-Fe_2O_3 Compacts to Magnetite Then Subsequently to Iron at 1173-1473 K
- Gaseous Reduction of MgO-doped Fe_2O_3 Compacts with Carbon-monoxide at 1173-1473K
- Isothermal Reduction Kinetics of Fe_2O_3 Mixed with 1-10% Cr_2O_3 at 1173-1473K
- Reduction of CaO and/or MgO-doped Fe_2O_3 Compacts with Carbon-monoxide at 1173-1473K