Abstract:To make reasonable use of converter sludge and reduce the concentration of harmful elements in iron making process,the utilization of converter sludge by rotary hearth furnace was studied. Converter sludge had little effect on the quality of green balls,but it could increase the strength of dry balls,which could reduce the cracking and pulverization of pellets during transport and preheating process. The basicity and carbon content of raw materials were the key factors affecting the quality of metallized pellets,which were significantly affected by converter sludge. However the metallization rate and strength can be guaranteed by control the basicity between 0.75-0.85 and the mass percent of carbon between 11%-12%. The proportion of converter sludge was gradually increased from 8% to 24% during the industrial testing. The basicity and carbon content were adjusted by controlling the ratio of each raw material,and metallized pellets could meet the needs.
王飞, 毛瑞, 茅沈栋. 转底炉对转炉污泥的处理[J]. 钢铁, 2019, 54(12): 111-116.
WANG Fei, MAO Rui, MAO Shen-dong. Utilization of converter sludge by rotary hearth furnace. Iron and Steel, 2019, 54(12): 111-116.
陈均. 转炉炼钢污泥循环利用技术研究[J]. 炼钢,2014,30(6):5.(CHEN Jun. Research on recycling technology of steelmaking sludge[J]. Steelmaking,2014,30(6):5.)
[2]
石磊,陈荣欢,王如意. 钢铁工业含铁尘泥的资源化利用现状与发展方向[J]. 中国资源综合利用,2008,26(2):12.(SHI Lei,CHEN Rong-huan,WANG Ru-yi. Study of present utilization state and development trend of iron-containing sludge and dust in iron and steel industry[J]. China Resources Comprehensive Utilization,2008,26(2):12.)
[3]
刘自民,饶磊,桂满城,等. 马钢含铁尘泥综合利用研究与实践[J]. 中国冶金,2018,28(9):71. (LIU Zi-min,RAO Lei,GUI Man-cheng,et al. Research and practice of comprehensive utilization of Fe-containing dust in Masteel[J]. China Metallurgy,2018,28(9):71.)
[4]
罗晔,吴瑾,王超. 韩国钢铁工业的固体废弃物回收再利用[J]. 中国冶金,2017,27(10):76. (LUO Ye,WU Jin,WANG Chao. Recovery and reuse of solid waste in South Korean iron and steel industry[J]. China Metallurgy,2017,27(10):76.)
[5]
颜根发,金永明,朱培伦. 转炉污泥资源化处理循环模式合理性的探讨[J]. 钢铁,2008,43(12):87.(YAN Gen-fa,JIN Yong-ming,ZHU Pei-lun. On recycling treatment of BOF mud[J]. Iron and Steel,2008,43(12):87.)
[6]
李琛,刘瑾. 转炉污泥资源化利用研究进展[J]. 工业炉,2013,35(1):17. (LI Chen,LIU Jin. Research progress of resource utilization of converter sludge[J]. Industrial Furnace,2013,35(1):17.)
[9]
Koros P J. Dusts,scale,slags,sludge…not wastes,but sources of profits[J]. Metallurgical and materials Transactions B,2003,34(6):769.
[10]
付元坤,王雪松,李肇毅,等. 宝钢烧结系统锌平衡测试研究[J]. 冶金能源,2004,23(3):59.(FU Yuan-kun,WANG Xue-song,LI Zhao-yi,et al. Testing balance of the zinc to sintering system of Baosteel[J]. Energy for Metallurgical Industry,2004,23(3):59.)
[7]
王介超,刘晓荣,许斌,等. 转炉污泥对氧化性球团还原性的影响[J]. 中南大学学报:自然科学版,2011,42(2):287.(WANG Jie-chao,LIU Xiao-rong,XU Bin,et al. Effect of converter sludge on reduction degree of pellets[J]. Journal of Central South University:Science and Technology,2011,42(2):287.)
[11]
武轶,李小静,刘英才,等. 马钢大型高炉有害元素负荷及平衡分析[J]. 钢铁研究,2017,45(2):11.(WU Yi,LI Xiao-jing,LIU Ying-cai,et al. Load and equilibrium analysis of harmful elements in large blast furnace of Masteel[J]. Research on Iron and Steel,2017,45(2):11.)
[8]
朱贺民. 马钢综合利用转炉污泥技术[J]. 钢铁研究,2007,35(5):51.(ZHU He-min. Technology on utilization of OG sludge at Masteel[J]. Research on Iron and Steel,2007,35(5):51.)
[12]
张芳,张世忠,罗果萍,等. 锌在包钢高炉中行为机制[J]. 钢铁,2011,46(8):7.(ZHANG Fang,ZHANG Shi-zhong,LUO Guo-ping, et al. Behaviors of zinc in blast furnace of Baotou Iron and Steel (Group) Co[J]. Iron and Steel,2011,46(8):7.)
[13]
毛瑞,任立群,杜屏,等. 含铁尘泥金属化球团的合理渣系[J]. 钢铁研究学报,2017,29(5):357.(MAO Rui,REN Li-qun,DU Ping,et al. Reasonable slag system for metallized pellet made of dust and sludge containing iron[J]. Journal of Iron and Steel Research,2017,29(5):357.)
[14]
王飞,茅沈栋,毛瑞,等. 原料锌含量对转底炉球团还原焙烧过程的影响[J]. 烧结球团,2018,43(5):51.(WANG Fei,MAO Shen-dong,MAO Rui,et al. Influence of zinc content in raw materials on pellets of rotary hearth furnace during the roasting and reduction process[J]. Sintering and Pelletizing,2018,43(5):51.)
[9]
Koros P J. Dusts,scale,slags,sludge…not wastes,but sources of profits[J]. Metallurgical and materials Transactions B,2003,34(6):769.
[10]
付元坤,王雪松,李肇毅,等. 宝钢烧结系统锌平衡测试研究[J]. 冶金能源,2004,23(3):59.(FU Yuan-kun,WANG Xue-song,LI Zhao-yi,et al. Testing balance of the zinc to sintering system of Baosteel[J]. Energy for Metallurgical Industry,2004,23(3):59.)
[11]
武轶,李小静,刘英才,等. 马钢大型高炉有害元素负荷及平衡分析[J]. 钢铁研究,2017,45(2):11.(WU Yi,LI Xiao-jing,LIU Ying-cai,et al. Load and equilibrium analysis of harmful elements in large blast furnace of Masteel[J]. Research on Iron and Steel,2017,45(2):11.)
[12]
张芳,张世忠,罗果萍,等. 锌在包钢高炉中行为机制[J]. 钢铁,2011,46(8):7.(ZHANG Fang,ZHANG Shi-zhong,LUO Guo-ping, et al. Behaviors of zinc in blast furnace of Baotou Iron and Steel (Group) Co[J]. Iron and Steel,2011,46(8):7.)
[13]
毛瑞,任立群,杜屏,等. 含铁尘泥金属化球团的合理渣系[J]. 钢铁研究学报,2017,29(5):357.(MAO Rui,REN Li-qun,DU Ping,et al. Reasonable slag system for metallized pellet made of dust and sludge containing iron[J]. Journal of Iron and Steel Research,2017,29(5):357.)
[14]
王飞,茅沈栋,毛瑞,等. 原料锌含量对转底炉球团还原焙烧过程的影响[J]. 烧结球团,2018,43(5):51.(WANG Fei,MAO Shen-dong,MAO Rui,et al. Influence of zinc content in raw materials on pellets of rotary hearth furnace during the roasting and reduction process[J]. Sintering and Pelletizing,2018,43(5):51.)