在简要分析当前钛铁矿还原富集技术中存在的问题的基础上,阐述了钛铁矿的非碳热还原及常规碳热还原技术的国内外研究现状.结合微波加热的特点,重点阐述了钛铁矿的微波碳热还原的国内外研究现状.指出,微波加热应用于钛铁矿的碳热还原,能明显提高炭的还原能力,提高还原速率,缩短反应时间,大幅度降低能耗,显示出良好的经济价值和潜在的工业化前景,同时也指出了钛铁矿微波碳热还原技术中需要解决的问题.
参考文献
| [1] | 邓国珠.世界钛资源及其开发利用现状[J].钛工业进展,2002(05):9-12. |
| [2] | 王立平,王镐,高颀,李献军,陈战乾,窦永庆.我国钛资源分布和生产现状[J].稀有金属,2004(01):265-267. |
| [3] | 邱冠周;郭宇峰.钛铁矿富集方法评述[J].矿产综合利用,1998(05):29-33. |
| [4] | 戴云朵,郭兴敏,张家芸.H+2注入法研究钛铁矿还原微观机理[J].北京科技大学学报,2007(04):373-376. |
| [5] | 兰尧中;刘纯鹏 .钛磁铁矿还原动力学[J].有色金属,1992,44(02):59-63. |
| [6] | Ogasawara T. .Hydrochloric acid leaching of a pre-reduced Brazilian ilmenite concentrate in an autoclave[J].Hydrometallurgy,2000(2):203-216. |
| [7] | Welham NJ. .Mechanochemical reduction of FeTiO3 by Si[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,1998(1/2):303-307. |
| [8] | Welham NJ. .Mechanically induced reduction of ilmenite (FeTiO3) and rutile (TiO2) by magnesium[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,1998(1/2):260-265. |
| [9] | Pыcc M A;周进华;于忠.铁合金冶炼[M].北京:冶金工业出版社,1986:297-298. |
| [10] | 兰尧中 .反应热对钛铁矿铝热还原的影响[J].云南师范大学学报,1997,17(02):47-50. |
| [11] | 杨仰军,孙朝晖,张帆.用攀枝花钛精矿冶炼钛铁的探讨[J].钢铁钒钛,1998(02):39. |
| [12] | Mohanty B P;Smith K A .Alkali metal catalysis of carbothermic reduction of ilmenite[J].Transactions of the Institution of Mining and Metallurgy,1993,102C:163-172. |
| [13] | 吴剑辉,孙康,李伟,马跃宇.碱金属氯化物对预氧化钛铁矿碳热还原反应的协同催化作用[J].广东有色金属学报,2000(01):25-29. |
| [14] | Chen Y;Hwang T;Marsh M et al.Study on mechanism of mechanical activation[J].Materials Science and Engineering A,1997,226:95-98. |
| [15] | C.S. Kucukkaragoz;R.H. Eric .Solid state reduction of a natural ilmenite[J].Minerals Engineering,2006(3):334-337. |
| [16] | Yuming Wang;Zhangfu Yuan .Reductive kinetics of the reaction between a natural ilmenite and carbon[J].International Journal of Mineral Processing,2006(3):133-140. |
| [17] | Gupta S K .Reductive kinetics of the reaction between ilmenite and graphite(1 000-1 100 ℃)[J].Metallurgical Transactions B,1987,18(12):713-717. |
| [18] | Chen Y;Hwang T;Williams J S .Ball milling induced low-temperature carbothermic reduction of ilmenite[J].Materials Letters,1996,9(28):55-58. |
| [19] | A. A. Francis;A. A. El-Midany .An assessment of the carbothermic reduction of ilmenite ore by statistical design[J].Journal of Materials Processing Technology,2008(1-3):279-286. |
| [20] | 范晓慧,郭宇峰,邱冠周,姜涛,朱德庆,黄柱成,杨永斌,徐经沧.钛精矿制取富钛料新工艺[J].矿产综合利用,2002(04):3-7. |
| [21] | 许文照;许述林;张灌鲁.褐煤还原攀枝花钛精矿工艺的改进[J].四川有色金属,1989(04):1-7. |
| [22] | 余伟.用钛精矿冶炼钛渣的工业试验研究[J].稀有金属与硬质合金,2004(04):29-32. |
| [23] | Saensunon B;Stewart G A;Pax R .A combined 57Fe-Mssbauer and X-ray diffraction study of the ilmenite reduction process in a commercial rotary kiln[J].International Journal of Mineral Processing,2008,86:26-32. |
| [24] | Welham N J .A paremetric study of the mechanically activated carbothermic reduction of ilmenite[J].Minerals Engineering,1996,9(12):1189-1200. |
| [25] | 彭金辉;杨显万.微波能技术新应用[M].昆明:云南科学技术出版社,1997:28-31. |
| [26] | 金钦汉.微波化学[M].北京:科学出版社,1999:7-17. |
| [27] | Walkiewicz J W;Kazonich G;McGill S L .Microwave heating characteristics of selected minerals and compounds[J].Minerals & Metallurgical Processing,1988,28(02):39-42. |
| [28] | R. M. KELLY;N. A. ROWSON .Microwave reduction of oxidised ilmenite concentrates[J].Minerals Engineering,1995(11):1427-1438. |
| [29] | Hua Y X .Microwave-assisted carbothermic reduction of ilmenite[J].Acta Metallurgica Sinica:English Letters,1996,9(03):164-170. |
| [30] | 黄孟阳,彭金辉,张世敏,孙艳,汪云华,黄铭,范兴祥.微波加热还原钛精矿制取富钛料新工艺[J].钢铁钒钛,2005(03):24-28. |
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