铁矿烧结过程分为点火段、中间段(点火结束至烟气温度升温前)和升温段(烟气温度开始上升至达到最高温)3个阶段,通过烧结杯模拟实验研究了各阶段烟气中微细颗粒污染物的排放浓度及其特性.研究结果发现,点火段、中间段微细颗粒污染物的质量浓度较低,在升温段则显著上升;各阶段切割粒径d50=0.7μm粒级颗粒表面形貌也存在着差异,其中点火段和中间段的颗粒主要是由球形颗粒组成,颗粒轮廓清晰没有明显的聚结现象,而升温段d50=0.7μm粒级颗粒主要为不规则的絮状体,颗粒之间易聚结形成团聚状;升温段d50=0.7μm粒级颗粒中F、S、K、As、Pb元素的含量明显高于点火段和中间段的含量,而Fe元素则在点火段和中间段的含量较高,在升温段含量相对较低.
Sintering process was divided into three stages:ignition stage,middle stage (from the ending point of ignition to rising point of flue gas temperature) and flue gas temperature rising stage.The emission concentrations of fine particles and the characteristics of each stage were studied by sinter pot test.The results show that the emission concentration of fine particles during ignition stage and middle stage is relatively low,while it achieves a significant increase during the flue gas temperature increasing stage.Besides,the fine particles ds0 =0.7μm from the three sintering stages have different surface morphologys.The fine particles d50 =0.7 μm from the ignition period and middle stage mainly consist of spherical particles without agglomerating phenomenon while the fine particles from flue gas temperature increasing stage consist of random-shaped aggregation,in which the obvious phenomenon of agglomeration is found.The contents of elements like F,S,K,As,and Pb in the fine particles from the flue gas temperature increasing stage are the highest,but the content of Fe is the lowest comparing to the other stages.
参考文献
| [1] | 朱德庆;何奥平;潘建;穆枭.铁矿烧结过程温室气体COx排放规律的研究[J].钢铁,2006(2):76-80. |
| [2] | 党玉华;齐渊洪;王海风.烧结烟气脱硫技术[J].钢铁研究学报,2010(5):1-6. |
| [3] | 潘建,阮志勇,春铁军,朱德庆.烧结过程NOx生成行为研究[C].2012年度全国烧结球团技术交流年会论文集,2012:30-33. |
| [4] | 陈彦广;郭占成;王志.烧结过程中CO还原NO的模拟研究[J].钢铁研究学报,2009(1):6-9. |
| [5] | 赵晏强;李小春;李桂菊.中国钢铁行业CO2排放现状及点源分布特征[J].钢铁研究学报,2012(5):1-4,9. |
| [6] | 王玮;汤大钢;刘红杰;岳欣;潘志;丁焰.中国PM2.5污染状况和污染特征的研究[J].环境科学研究,2000(1):1-5. |
| [7] | 戴海夏;宋伟民.127 大气PM2.5的健康影响[J].国外医学(卫生学分册),2001(5):299-303. |
| [8] | 李红;曾凡刚;邵龙义;时宗波.可吸入颗粒物对人体健康危害的研究进展[J].环境与健康杂志,2002(1):85-87. |
| [9] | G. Liu;H. Wu;R.P. Gupta.Modeling the fragmentation of non--uniform porous char particles during pulverized coal combustion[J].Fuel,20006(6):627-633. |
| [10] | Wayne S.Seames.An initial study of the fine fragmentation fly ash particle mode generated during pulverized coal combustion[J].Fuel Processing Technology,20032(2):109-125. |
| [11] | Masanori NAKANO;Jun OKAZAKI.Influence of Operational Conditions on Dust Emission from Sintering Bed[J].ISIJ International,20072(2):240-244. |
| [12] | N. TSUBOUCHI;S. KUZUHARA;E. KASAI.Properties of dust particles sampled from windboxes of an iron ore sintering plant: Surface structures of unburned carbon[J].ISIJ International,20067(7):1020-1026. |
| [13] | Tsai Jiun-Horng;Lin Kuo-Hsiung;Chen Chih-Yu;Ding Jian-Yuan;Choa Ching-Guan;Chiang Hung-Lung.Chemical constituents in particulate emissions from an integrated iron and steel facility[J].Journal of hazardous materials,20071/2(1/2):111-119. |
| [14] | Won YANG;Changkook RYU;Sangmin CHOI.Modeling of Combustion and Heat Transfer in an Iron Ore Sintering Bed with Considerations of Multiple Solid Phases[J].ISIJ International,20043(3):492-499. |
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