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| Physical simulation of bottom blowing argon in 150 t ladle |
| WU Wei-qin1, DONG Jian-feng2, WEI Guang-sheng2 |
1. Plate Business Department, Nanjing Iron and Steel Co., Ltd., Nanjing 210035,Jiangsu, China;
2. Ecological Engineering, University of Science and Technology Beijing, Beijing 100083, China |
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Abstract In order to evaluate the influence of gas supply flow, proportion and bottom blowing element type on bottom blowing argon process of 150 t ladle in a domestic steel plant, a 1:4 physical simulation model was established to study the influence of total gas supply, gas supply mode and bottom blowing element type on mixing time. The results show that the mixing time of ladle with two types of bottom blowing elements decreases with the increase of total gas supply. The mixing time of diffusion type bottom blowing element is less than that of slit type under small gas supply, but the two are opposite under large gas supply, and the mixing time of slit type bottom blowing element is more affected by gas supply model. Under the experimental conditions, the bottom blowing position far away from the center of the ladle has larger bottom blowing flow, which is conducive to mixing.
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Received: 31 August 2021
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| [1] |
阳方,沈巧珍,彭琦,等.100 t钢包底吹氩工艺优化研究[J].过程工程学报,2010,10(增刊1):108.
|
| [2] |
时朋召, 田玉石, 徐李军, 等. 120 t钢包底吹氩气物理模拟[J].中国冶金, 2021, 31(3):30.
|
| [3] |
王崇, 周朝刚. 钢包用弥散式透气砖的应用[J].连铸, 2019 (5):58.
|
| [4] |
娄文涛, 刘壮, 王晓雨, 等. 底吹氩钢包内渣-金反应及脱硫行为的数值模拟[J].钢铁, 2018, 53(12):37.
|
| [5] |
张华, 倪红卫, 成日金, 等. 150 t钢包底吹氩工艺优化[J].炼钢, 2009, 25(5):8.
|
| [6] |
王月, 艾新港, 刘飞, 等. 钢包双孔对称交替底吹气混匀行为的物理模拟[J].中国冶金, 2017, 27(7):18.
|
| [7] |
郑淑国, 朱苗勇. 钢包内喷嘴与透气砖吹氩去夹杂水模型研究[J].金属学报, 2006, 42(11):1143.
|
| [8] |
胡群, 李小松, 张家泉, 等. 差流量吹氩模式对150 t钢包混匀与顶渣行为的影响[J].钢铁, 2020, 55(12):35.
|
| [9] |
阮强, 陈兴润, 潘吉祥, 等. 110 t不锈钢钢包炉底吹氩水模拟[J].中国冶金, 2016, 26(2):50.
|
| [10] |
肖波, 雷玉成, 王忠英. 90 t钢包底吹氩水模型与数值模拟[J].钢铁, 2015, 50(11):32.
|
| [11] |
李文双, 朱荣, 鲍翔, 等. 150 t钢包底吹氩的水模型研究[J].特殊钢, 2013, 34(3):18.
|
| [12] |
赵根安, 张立峰, Conejo A N,等. 吹气孔直径对钢包模型内流动的影响[J].中国冶金, 2020, 30(12):22.
|
| [13] |
王志国, 王明林, 韦军尤, 等. 不同形状板坯结晶器钢液表面流速的物理模拟[J].连铸, 2021 (1):41.
|
| [14] |
王爱东,徐海芳,傅秋华,等.薄板坯连铸中间包流场数值模拟与优化[J].连铸,2020(4):1.
|
| [15] |
孔凡杰, 蒋有洪, 唐萍, 等. 100 t钢包浇铸末期起旋高度及控制物理模拟研究[J].连铸, 2020 (1):6.
|
| [16] |
李献峰,王振鹏,姜丽梅,等.超低碳钢连铸结晶器液面波动原因分析及改进[J].河北冶金,2021(10):66.
|
| [17] |
朱苗勇.高拉速连铸过程传输行为特征及关键技术探析[J].钢铁,2021,56(7):1.
|
| [18] |
赵根安,张立峰,Conejo A N,等.钢包水模型比例对混匀时间测量误差的影响[J].中国冶金,2021,31(2):24.
|
| [19] |
何涛,孙福龙,包伟峰.脱氧工艺对普碳钢钢水洁净度的影响[J].河北冶金,2020(11):20.
|
| [20] |
张燕超,张彩军,曾凯,等.300 t复吹转炉底吹系统优化模拟[J].钢铁,2021,56(5):31.
|
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2022, Vol. 41 
