Natural Gas Utilization in Blast Furnace Ironmaking: Tuyere Injection, Shaft Injection and Prereduction

机译：高炉炼铁中的天然气利用：风口注入，竖井注入和预还原

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Increased utilization of natural gas in blast furnace ironmaking can decrease both the cost and the carbon intensity of ironmaking, given current US natural gas prices. In this paper, three ways to utilize natural gas are compared: tuyere injection, prereduction of iron ore, and shaft injection. The basis for comparison includes coke replacement ratios, carbon intensity and furnace productivity. These were calculated using relevant mass and energy balances, a blast furnace productivity correlation based on the bosh gas flow rate, and measured and modeled prereduction kinetics. Of the natural gas utilization methods, prereduction has the highest effective coke replacement ratio (and hence the largest advantage in raw material cost), but is likely to have the highest capital requirement.

机译：鉴于美国当前的天然气价格，高炉炼铁中天然气的利用增加可以降低炼铁的成本和碳强度。在本文中，比较了三种利用天然气的方法：风口注入，铁矿石预还原和竖井注入。比较的基础包括焦炭替代率，碳强度和熔炉生产率。使用相关的质量和能量平衡，基于波高气体流量的高炉生产率相关性以及测量和建模的预还原动力学来计算这些值。在天然气利用方法中，预还原法具有最高的有效焦炭置换率（因此在原料成本上具有最大的优势），但可能具有最高的资本要求。

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《Applications of process engineering principles in materials processing, energy and environmental technologies》|2017年|283-292|共10页
会议地点 San Diego(US)
作者
P. Chris Pistorius; Jorge Gibson; Megha Jampani;
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作者单位

Center for Iron and Steelmaking Research, Department of Materials Science and Engineering, Carnegie Mellon University, 5000 Forbes Avenue, Pittsburgh 15213, PA, USA;

Center for Iron and Steelmaking Research, Department of Materials Science and Engineering, Carnegie Mellon University, 5000 Forbes Avenue, Pittsburgh 15213, PA, USA;

Center for Iron and Steelmaking Research, Department of Materials Science and Engineering, Carnegie Mellon University, 5000 Forbes Avenue, Pittsburgh 15213, PA, USA;

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原文格式 PDF
正文语种 eng
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关键词
Blast furnace ironmaking; Carbon intensity; Coke replacement; Natural gas;

机译：高炉炼铁；碳强度更换焦炭；天然气;

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专利

1. Ironmaking technology with fuels and other materials injection in blast furnace tuyeres Part 1. Auxiliary fuels characteristics an its influence in the blast furnace process [J] . L. Garcia, A. Cores, A. Formoso Revista de Metalurgia . 1998,第1期

机译：高炉风口注入燃料和其他材料的炼铁技术第1部分。辅助燃料的特性及其对高炉工艺的影响
2. CFD study of hydrogen injection through tuyeres into ironmaking blast furnaces [J] . Zhuo Yuting, Hu Zhongjie, Shen Yansong Fuel . 2021,第Octa15期

机译：用Tuyeres进入炼铁高炉的氢气注射的CFD研究
3. Optimization of Tuyere Parameters for Natural Gas Injection and Control of Heterogenity of Blast Furnace Operation [J] . I. G. Tovarovskiy, Y. M. Gordon, V. P. Lialuk ISS TECH International Technology Conference Proceedings . 2003,第Apra期

机译：天然气注入风口参数的优化及高炉操作的非均质性
4. Injection of BOF slag through Blast Furnace Tuyeres-Trials in an Experimental Blast Furnace [C] . Peter Sikstroem, Lena Sundqvist Oekvist, Jan-Olov Wikstroem ironmaking conference . 2002

机译：在实验高炉中通过高炉风口试验注入BOF炉渣
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机译：高炉炼铁过程中注射用煤的结构和反应性研究。
6. A Novel Online Sequential Extreme Learning Machine for Gas Utilization Ratio Prediction in Blast Furnaces [O] . Yanjiao Li, Sen Zhang, Yixin Yin, 2017

机译：新型高炉在线顺序极限学习机用于燃气利用率预测
7. Control of Biomass Composition for Optimum Injection in Blast Furnace to Mitigate CO2 Emission in Ironmaking Process [O] . Shigeru Ueda, Ryo Inoue, Tatsuro Ariyama 2008

机译：用于在高炉中最佳注射的生物质组合物，以减轻铁制造过程中的CO2排放
8. Direct Injection of Natural Gas in Blast Furnaces at High Rates: Tuyere/Lance Design. Topical Report, January 1990-September 1992 [R] . 1992

机译：高速直接喷射高炉天然气：风口/喷枪设计。专题报告，1990年1月至1992年9月

Natural Gas Utilization in Blast Furnace Ironmaking: Tuyere Injection, Shaft Injection and Prereduction

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