传统加热直接还原具有热效率低、球团"冷中心"和废热废气量大等问题,造成还原时间长、能耗高和污染大。试验利用微波的选择加热、快速加热、体积加热和清洁干净等优点,以及铁矿球团和无烟煤强的吸波特性,开发了铁矿球团煤基微波竖炉直接还原这一新工艺。研究表明,铁矿球团外配煤粉在1 050℃的微波加热条件下还原焙烧65min,可以获得95.25%的金属化率,同时具有1718.88N/个的抗压强度。与常规加热相比,微波加热还原焙烧的时间可以缩短27.78%,抗压强度增加近1倍,而且还原过程产生的废热废气量很少。
Traditional heating for direct reduction had a low thermal efficiency and "cold center", even the large amount of waste heat and gas emissions, which made the long time, high energy consumption and heavy pollution for reduction of oxidized pellets. The major advantages of using microwaves in the experiment were rapid heat transfer, volumetric and selective heating and pollution-tree environment, in addition, iron concentrate oxidized pellets and anthracite had a strong microwave absorbency, on the basis, a new coal based direct reduction technology on iron concentrate oxidized pellets was developed in microwave shaft furnace. The results show that iron concentrate oxidized pellets coal based direct reduction by microwave heating in 1050℃ at 65 min, can obtain 95.25 % the metalliza- tion rate, and has 1 718.88 N/a compressive strength. Compared with conventional heating, the time of microwave heating reduction roasting can shorten 27.78%, and compressive strength nearly doubled increase, even has little waste heat and gas emission.
参考文献
| [1] | 杨婷;孙继青 .世界直接还原铁发展现状及分析[J].世界金属导报,2006,44(11):4. |
| [2] | Kurunov F .The Direct Production of Iron and Alternatives to the Blast Furnace in Iron Metallurgy for the 21st Century[J].Metallurgist,2010,54:335. |
| [3] | Srinivasan N S .Reduction of Iron Oxides by Carbon in a Cir culating Fluidized Bed Reactor[J].Powder Technology,2002,124:28. |
| [4] | Sohn;Fruehan R J .The Reduction of Iron Oxides by Vola- tiles in a Rotary Hearth Furnace Process[J].Metallurgical and Materials Transactions,2005,36 B:605. |
| [5] | Mashhadi H A;Rastgoo A R;Khaki J V.An Investigation on the Reduction of Iron Ore Pellets in Fixed Bed of Domestic Non-Coking Coals[J].International Journal of ISSI,2008(01):8. |
| [6] | Schenk J L .Recent Status of Fluidized Bed Technologies for Producing Iron Input Materials for Steelmaking[J].Partic- uology,2010,256:1. |
| [7] | 郭明威,朱荣,周振华.采用转底炉生产金属化球团的工业试验[J].炼铁,2010(01):59-62. |
| [8] | 张涛;陈凌;郭敏.煤气化竖炉直接还原工艺的开发[A].攀枝花:中国金属学会,2010:88. |
| [9] | Standish N;Worner H.Microwave Application in the Reduc tion of Metal Oxides With Carbon[J].Microwave Power and Electromagnetic Energy,1990(03):177. |
| [10] | Standish N;Huang W.Microwave Application in Carbother mie Reduction of Iron Ores[J].ISIJ International,1991(03):241. |
| [11] | Ku S H;Siores E;Taube A et al.Productivity Improve ment Through the Use of Industrial Microwave Technologies[J].Computers & Industrial Engineering,2002,42:281. |
| [12] | Qu Shao long .Microwave Application and Modeling in Direct Reduction of Iron Oxide[D].Michigan:Michigan Techno logical University,2004. |
| [13] | Ishizaki K;Nagata K.Selectivity of Microwave Energy Con sumption in the Reduction of FeaO4 With Carbon Black in Mixed Powder[J].ISIJ International,2007(06):811. |
| [14] | CHEN Jin,WANG She-bin,ZHANG Meng,LIU Jin-ying,ZHOU Jian-xiong.Kinetics of Voluminal Reduction of Chromium Ore Fines Containing Coal by Microwave Heating[J].钢铁研究学报(英文版),2008(06):10-15. |
| [15] | Yang Jian;Tomoyuki M;Mamoru K.Mechanism of Carbo- thermic Reduction of Hematite in Hematite Carbon Compos ire Pellets[J].ISIJ International,2007(10):1394. |
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