以常用的炼铁原料为基础,系统研究了配加不同比例的热压含碳球团对高炉炉料的软熔滴落性能的影响,并进行了理论分析。研究表明,配加热压含碳球团对高炉综合炉料的软化区间、熔化区间、滴落率和透气性等软熔滴落性能参数有显著的影响。随着热压含碳球团配比的增加,软化区间t40-t4逐渐变宽;熔化区间tD-tS逐渐变窄,熔化开始温度tS逐渐升高,滴落温度tD逐渐降低;滴落率先增加后降低,当配比为40%时,滴落率最高,为67.10%;最高压差先下降后升高,但在配加热压含碳球团条件下,炉料的最高压差都有所降低。从综合炉料的软熔滴落性能综合考虑,高炉炉料配加热压含碳球团的适宜配比应为40%~50%。
Effects of carbon composite iron ore hot briquette(CCB) with different charging proportions on the softening-dripping behavior of blast furnace burdens were investigated systemically and theoretically,based on the common iron-making materials.The results show that charging CCB affects greatly on the softening-dripping parameters of blast furnace burdens,such as softening range,melting range(or cohesive zone),dripping ratio,gas permeability etc.With the increasing CCB charging ratio,the softening range t40-t4 tends to narrowing.The melting range tD-tS also tends to narrowing,and the melting start temperature tS gradually increase,the dripping temperature tD gradually decline.The dripping ratio tends to increasing then decreasing,which comes up to its highest value(67.10%) at the charging proportion 40%.The max pressure difference tends to increasing then decreasing,but it is reduced with CCB charged.Taking account of the softening-dripping behavior of comprehensive burdens comprehensively,the appropriate proportion of CCB charging into blast furnace burdens should be set around 40%-50%.
参考文献
| [1] | Yoshiyuki MATSUI;Muneyoshi SAWAYAMA;Akito KASAI .Reduction Behavior of Carbon Composite Iron Ore Hot Briquette in Shaft Furnace and Scope on Blast Furnace Performance Reinforcement[J].ISIJ International,2003(12):1904-1912. |
| [2] | Chu M;Yagi J.Evaluation of Blast Furnace Performance With Carbon Composite Agglomerates Charging for Lower Temperature Operation[A].Shanghai;:The Chinese Society for Metals,2009:1090. |
| [3] | 付磊;吕继平;柳政根.铁矿热压含碳球团高温抗压强度的试验研究[A].宁波:中国金属学会,2008:347. |
| [4] | 储满生,王兆才,柳政根,吕继平.热压含碳球团自还原过程限制性环节的实验研究[J].过程工程学报,2010(01):121-126. |
| [5] | Kasai A;Matsui Y;Noma F et al.Cold Strength Enhance ment Mechanism of Carbon Composite Iron Ore Hol Bri quette[J].Tetsu To Hagane-Journal of the Iron and Steel Institute of Japan,2001,87(04):313. |
| [6] | Kasai A;Mataui Y;Miyagawa K.Devetopment of Carbon Composite Iron Ore Hot Briquette and Basic Investigation on Its Strength Enhancing Mechanism and Reducibility[A].Tokyo:MEXT,2003:205. |
| [7] | 储满生,王兆才,艾名星,柳政根.热压含碳球团冷态强度的实验研究[J].东北大学学报(自然科学版),2009(05):696-700. |
| [8] | Ariyama T;Ueda S;Natsui S.Current Technology and Future Aspect on CO2 Mitigation in Japanese Steel Industry[A].Shanghai:The Chinese Society for Metals,2009:57. |
| [9] | 储满生,艾名星,沈峰满,八木顺一郎.高炉使用热压含碳球团操作的数学模拟研究[J].钢铁研究,2007(01):12-17. |
| [10] | 储满生,柳政根,王兆才,付磊.配碳比对热压含碳球团软熔滴落性能的影响[J].东北大学学报(自然科学版),2010(03):394-397. |
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