摘要
山东泰山钢铁集团有限公司(简称泰钢)1号高炉自2019年10月开炉投产以来,炉缸热电偶温度基本保持较低的温度。通过建立一维稳态传热模型计算碳复合砖的残余厚度和热面处保护层的厚度。结果表明,炉缸底部侧壁的碳复合砖侵蚀量较少,炉缸铁口中心线附近碳复合砖侵蚀量较多,高炉炉缸区域未出现“象脚状”侵蚀。高炉炉缸内保护层的厚度随着高度的增加而增大,富铁保护层易在铁口中心线以下形成,富渣保护层易在铁口中心线以上形成。碳复合砖中的主要成分氧化铝几乎不与铁水发生反应,而二氧化硅会与铁水发生反应。铁水渗透进入碳复合砖的临界孔隙为2.030μm,远大于其平均孔隙0.238μm,因此,采用碳复合砖有利于抵抗铁水的侵蚀。
Since the No.1 blast furnace of Shandong Taishan Iron and Steel Group Co.,Ltd.was put into operation in October 2019,the temperature of the cylinder thermocouple has remained consistently low.To calculate the residual thickness of the carbon composite brick and the thickness of the protective layer at the hot surface,a one-dimensional steady-state heat transfer model was established.The results show that the erosion of carbon composite bricks on the bottom sidewalls of the hearth is low,while the erosion of carbon composite bricks near the center line of the taphole of the hearth is high.Additionally,there is no evidence of"elephant foot"erosion in the hearth area of the blast furnace.The thickness of the protective layer in the blast furnace increases with height.An iron-rich protective layer is easily formed below the center line of the taphole,while a slag-rich protective layer is easily formed above it.The carbon composite brick's main component,alumina,hardly reacts with molten iron,while silica does react with it.The molten iron's critical radius that penetrates the carbon composite brick is 2.030μm,while is much larger than its average pore size of 0.238μm.This characteristic helps to resist the erosion of iron.
作者
曹楗
王翠
张建良
焦克新
宋明波
CAO Jian;WANG Cui;ZHANG Jianliang;JIAO Kexin;SONG Mingbo(State Key Laboratory of Advanced Metallurgy,University of Science and Technology Beijing,Beijing 100083,China;School of Metallurgical and Ecological Engineering,University of Science and Technology Beijing,Beijing 100083,China)
出处
《江西冶金》
2024年第2期81-88,共8页
Jiangxi Metallurgy
关键词
高炉
碳复合砖
保护层
侵蚀
渗透
blast furnace
carbon composite brick
protective layer
erosion
penetration
