Solid State Reduction of Iron, Manganese and Chromium Oxide Ores with Methane

机译：甲烷固态还原铁，锰和氧化铬矿石

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Sustainable development requires less energy consumption with lower carbon footprint. In this review the solid state reduction behaviour of three oxide ores using methane gas are briefly summarized based on experimental work conducted in our laboratories. The discussion concentrates mainly on mechanisms of the reduction studied through SEM-EDAX and X-ray diffraction techniques. Limited preliminary kinetic input is also mentioned. Iron ore containing titanium and vanadium could be reduced significantly in the solid state with methane-hydrogen mixture up to 400 ℃ lower than is needed in ordinary solid state carbothermic process. The reduction of chromite and manganese ores were possible similarly at lower temperatures with potential energy savings lower carbon footprint.

机译：可持续发展需要更少的能源消耗和更低的碳足迹。在这篇综述中，根据我们实验室的实验工作，简要总结了使用甲烷气体的三种氧化物矿石的固态还原行为。讨论主要集中在通过SEM-EDAX和X射线衍射技术研究的还原机理上。还提到了有限的初步动力学输入。甲烷-氢气混合物在高达400℃的温度下，可以将固态的钛和钒铁矿石还原，而该温度要比普通固态碳热法所需的还原温度低。类似地，在较低温度下也可以还原亚铬铁矿和锰矿，并具有潜在的节能潜力，降低碳足迹。

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来源
《Applications of process engineering principles in materials processing, energy and environmental technologies》|2017年|307-318|共12页
会议地点 San Diego(US)
作者
R.H. Eric; A. Bhaila; P. Halli; P. Taskinen;
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作者单位

School of Chemical and Metallurgical Engineering, University of the Witwatersrand, Johannesburg, South Africa,Department of Materials Science and Engineering, Aalto University, Espoo, Finland;

School of Chemical and Metallurgical Engineering, University of the Witwatersrand, Johannesburg, South Africa;

Department of Materials Science and Engineering, Aalto University, Espoo, Finland;

Department of Materials Science and Engineering, Aalto University, Espoo, Finland;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Metal oxides; Reduction; Methane;

机译：金属氧化物；减少;甲烷;

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专利

1. Optimization of Conditions to Produce Manganese and Iron Carbides from Denizli-Tavas Manganese Ore by Solid State Reduction [J] . Cem AKIL, Ahmet GEVECI Turkish Journal of Engineering and Environmental Sciences . 2008,第3期

机译：固态还原法优化Denizli-Tavas锰矿生产锰铁合金的条件
2. Reductive roasting of iron-rich manganese oxide ore with elemental sulfur for selective manganese extraction [J] . You Z., Li G., Peng Z., Journal of Mining and Metallurgy, Section B: Metallurgy . 2017,第2期

机译：富铁氧化锰矿石与元素硫的还原焙烧以选择性萃取锰
3. Manganese extraction from high-iron-content manganese oxide ores by selective reduction roasting-acid leaching process using black charcoal as reductant [J] . 张元波, 赵熠, 游志雄, 中南大学学报（英文版） . 2015,第007期

机译：黑炭为还原剂的选择性还原焙烧酸浸工艺从高铁锰氧化物矿中提取锰
4. Comparison of Iron and Chromium Reduction from Chrome Ore Concentrates by Solid Carbon and Carbon Monoxide [C] . N. Zh. Mukashev, N. Y. Kosdauletov, B. T. Suleimen International Conference on Industrial Engineering . 2020

机译：用固体碳和一氧化碳从铬矿石浓缩铁和铬的比较
5. OXIDATION-REDUCTION REACTIONS AND EQUILIBRIUM PHASE RELATIONS AT 1300 DEGREES C AT OXYGEN PRESSURES FROM 0.21 TO 10 EXP(-14) ATMOSPHERES FOR THE SPINEL SOLID SOLUTION SERIES M CHROMIUM(2)OXIDE(4), M = IRON AND MAGNESIUM; AND M ALUMINUM(2) OXIDE(4), M = IRON AND MAGNESIUM. [D] . ULMER, GENE CARLTON. 1964

机译：M氧化铬（2）（4），M =铁和镁的尖晶石型固溶体，在1300摄氏度，氧气压力从0.21到10 EXP（-14）大气压力下的氧化还原反应和平衡相关系;和M铝（2）氧化物（4），M =铁和镁。
6. Ferrous Iron and Sulfur Oxidation and Ferric Iron Reduction Activities of Thiobacillus ferrooxidans Are Affected by Growth on Ferrous Iron Sulfur or a Sulfide Ore [O] . Isamu Suzuki, Travis L. Takeuchi, Trin D. Yuthasastrakosol, 1990

机译：亚铁硫或硫化矿石的生长会影响亚铁硫氧亚铁的亚铁和硫的氧化和三价铁的还原活性
7. Solid state reduction of manganese and chromium ores by methane-containing gas [O] . Anacleto Nathaniel M. Materials Science and Engineering Faculty of Science and Technology UNSW 2002

机译：含甲烷气体对锰和铬矿石的固态还原
8. Chemical Characterization of Transition Metal Spinel-Type Oxides. Part 2. Manganese-Chromium-Iron Spinels [R] . Allen, G. C. , Jutson, J. A. , Tempest, P. A. 1987

机译：过渡金属尖晶石型氧化物的化学表征。第2部分。锰 - 铬 - 铁尖晶石

Solid State Reduction of Iron, Manganese and Chromium Oxide Ores with Methane

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