Blast-furnace operation with pulverized-coal injection and with chunk anthracite

被引:6
作者
Lyalyuk V.P. [1 ]
Tarakanov A.K. [2 ]
Kassim D.A. [1 ]
Otorvin P.I. [3 ]
Pinchuk D.V. [3 ]
机构
[1] Krivoi Rog Metallurgical Institute, Ukrainian National Metallurgical Academy, Krivoi Rog
[2] Ukrainian National Metallurgical Academy, Dnepr
[3] PAO ArcelorMittal Krivoi Rog, Krivoi Rog
来源
Steel in Translation | 2017年 / 47卷 / 07期
关键词
blast furnaces; chunk anthracite; furnace charge; pulverized coal;
D O I
10.3103/S0967091217070063
中图分类号
学科分类号
摘要
In order to replace expensive coke, various fuels are added to the blast sent to the blast furnace: pulverized coal, natural gas, coke-oven gas, fuel oil, etc. A less common alternative is to introduce chunk anthracite through the charge hole. The use of chunk anthracite may considerably reduce the coke consumption and the production costs of the hot metal in circumstances where pulverized-coal injection is not employed and its introduction would require the use of high-quality iron ore and coke and also special preparations of the furnace and the associated systems. Chunk anthracite proves especially effective where there are constraints on the furnace productivity on account of production problems, the furnace is switched to slower operation, and plant economics must be improved. © 2017, Allerton Press, Inc.
引用
收藏
页码:469 / 472
页数:3
相关论文
共 50 条
[31]   Modelling in-furnace phenomena of pulverized coal injection in ironmaking blast furnace: Effect of coke bed porosities [J].
Shen, Yansong ;
Yu, Aibing ;
Austin, Peter ;
Zulli, Paul .
MINERALS ENGINEERING, 2012, 33 :54-65
[32]   Convergent-Divergent Injection Lance for the Enhancement of Combustion Efficiency of Pulverized Coal at Blast Furnace [J].
Murai, Ryota ;
Kashihara, Yusuke ;
Murao, Akinori ;
Sato, Michitaka .
TETSU TO HAGANE-JOURNAL OF THE IRON AND STEEL INSTITUTE OF JAPAN, 2017, 103 (11) :1-8
[33]   Convergent-Divergent Injection Lance for the Enhancement of Combustion Efficiency of Pulverized Coal at Blast Furnace [J].
Murai, Ryota ;
Kashihara, Yusuke ;
Murao, Akinori ;
Sato, Michitaka .
ISIJ INTERNATIONAL, 2016, 56 (05) :770-776
[34]   An Integrated Evaluation System of Anthracite, Meager-lean Coal and Bituminous Coal Co-injection for a Blast Furnace [J].
Ren, S. ;
Zhang, J. L. ;
Liu, W. J. ;
Su, B. X. ;
Xing, X. D. ;
Bai, Y. N. .
ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS, 2013, 35 (22) :2123-2131
[35]   Numerical simulations of the slagging characteristics in a down-fired, pulverized-coal boiler furnace [J].
Fang, Qingyan ;
Wang, Huajian ;
Wei, Yan ;
Lei, Lin ;
Duan, Xuelong ;
Zhou, Huaichun .
FUEL PROCESSING TECHNOLOGY, 2010, 91 (01) :88-96
[36]   Numerical prediction and practical improvement of pulverized coal combustion in blast furnace [J].
Du, SW ;
Chen, WH .
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER, 2006, 33 (03) :327-334
[37]   Co-Combustion of Food Solid Wastes and Pulverized Coal for Blast Furnace Injection: Characteristics, Kinetics, and Superiority [J].
Yang, Jian ;
Li, Zhenying ;
Wei, Rufei ;
Zhou, Di ;
Long, Hongming ;
Li, Jiaxin ;
Xu, Chunbao .
SUSTAINABILITY, 2022, 14 (12)
[38]   A comparative study of turbulence models performance for a 300 MWe tangentially fired pulverized-coal furnace [J].
Khaldi, Nawel ;
Mhiri, Hatem ;
Bournot, Philippe .
2014 5TH INTERNATIONAL RENEWABLE ENERGY CONGRESS (IREC), 2014,
[39]   Thermal reactivity and flowability of pulverized coal blending with iron-bearing dust injection in blast furnace process [J].
Gao, Qiangjian ;
Xiao, Xuhang ;
Suo, Zhiyuan ;
Long, Fang ;
Shen, Fengman .
CASE STUDIES IN THERMAL ENGINEERING, 2023, 41
[40]   Effect of Natural Gas Injection Point on Combustion and Gasification Efficiency of Pulverized Coal under Blast Furnace Condition [J].
Murao, Akinori ;
Fukada, Kiyoshi ;
Sato, Michitaka ;
Matsuno, Hidetoshi ;
Saito, Yasuhiro ;
Akaotsu, Shota ;
Matsushita, Yohsuke ;
Aoki, Hideyuki .
ISIJ INTERNATIONAL, 2019, 59 (12) :2165-2173
12345