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Discussion on dedusting method in casting area of continuous caster |
GONG Jiang-rong1,2, LIU Peng-tao1,2, HAN Li-min1,2 |
1. Beijing Shougang International Engineering Technology Co., Ltd., Beijing 100043, China;
2. Beijing Metallurgy Three-Dimensional Simulation Design Engineering Technology Research Centre, Beijing 100043, China |
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Abstract With the implementation of ultra-low emission requirements in the iron and steel industry, dedusting in the casting area is gradually becoming a necessary configuration of continuous casting machine. When adding dedusting facilities in the casting area, it is the key to the successful implementation dust removal in casting area to minimize the influence of new equipment on existing process operation and minimize modification of casting equipment and platform structure. Combined with the design practice, this paper introduces three typical methods of dust removal in casting area of domestic continuous casting production at present, and analyzes and compares the structure characteristics of dust collecting hood, the influence on process operation and equipment,and the amount of platform modification. It provides a reference for the choice of dust removal method in casting area of continuous casting production.
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Received: 29 July 2020
Published: 23 February 2021
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[1] |
李新创.超低排放是中国钢铁史上的重大绿色革命解读《关于推进实施钢铁行业超低排放的意见》[J].中国钢铁业,2019(6): 9.
|
[2] |
孙明杰,董文波,张伟鹏.汽车模具铸件生产车间浇注除尘工艺的选择[J].中国铸造装备与技术,2020,55(5):75.
|
[3] |
赵楠. 某钢厂120 t转炉炼钢连铸工程除尘系统分析[D].北京:北京建筑大学,2018.
|
[4] |
杨莹莉,李静,丁岳峰,等.转炉一次除尘超低排放技术应用现状及挑战[J].冶金能源,2020,39(5):60.
|
[5] |
刘志刚.转炉干法除尘器并联的实施与应用[J].冶金管理,2020(17):5.
|
[6] |
冯捷,史学红. 连续铸钢生产[M]. 北京:冶金工业出版社,2005:3.
|
[7] |
叶德新,曾令宇,万翔,等.大方坯连铸中间包快换工艺开发与应用[J].连铸,2019 (6):1.
|
[8] |
黄国俊,仝太钦,张正林,等.大圆坯连铸机水口结瘤原因分析及对策[J].连铸,2019 (6):5.
|
[9] |
曹殊材. 倾动式精炼电炉集尘罩改造探讨[C]//第25届全国铁合金学术研讨会论文集(下册).西安:中国金属学会,2017:2.
|
[10] |
王旭汗青. 高炉出铁场高效集尘罩的数值模拟研究[D].武汉:华中科技大学,2014.
|
[11] |
邵维. 炼钢除尘系统的研究与应用[J].中国金属通报,2018(4):285.
|
[12] |
宫江容,唐落谦. 连铸机浇注区域移动式除尘设备: 中国,CN104815830B[P].2015-08-05.
|
[13] |
沙学广. 连铸保护浇注方法及影响因素[J]. 安徽冶金, 2017(2): 30.
|
[14] |
张启东,聂作禄. 自主集成300 t钢包加盖技术在京唐的应用实践[J]. 中国冶金,2017,27(12):49.
|
[15] |
胡建强. 承钢冷轧中间库天车无人化系统介绍[C]//2018年全国热轧板带生产技术交流会论文集.重庆:中国金属学会轧钢分会,2018:5.
|
[16] |
王纯,张殿印.除尘工程设计手册[M]. 北京:化学工业出版社,2015:10.
|
[17] |
李纪章,郭龙堂. 连铸大包浇注烟气除尘工艺: 中国,CN108500224B[P].2018-09-07.
|
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