Blast Furnace Gas Flow Strength Prediction Using FMCW Radar

Jidong WEI; Xianzhong CHEN

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Blast Furnace Gas Flow Strength Prediction Using FMCW Radar

机译：基于FMCW雷达的高炉煤气流量强度预测

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A method of predicting gas flow strength upon burden surface has been proposed in this paper. A frequency modulated continuous wave (FMCW) radar is employed to achieve the echo signal of burden surface. The radar, operating at 24-26 GHz, is mounted on top of blast furnace (BF). The burden surface scattering yields attenuation due to the burden surface dust. The propagation constant has been derived in terms of gas flow velocity, particle size, dust concentration and so on. The method has been validated in real blast furnace during production process and maintenance process, respectively. The experiment results show that the predicted value has close agreement with the measured value. The attenuation has the same periodic trend with the BF charging process.

机译：提出了一种预测炉料表面气流强度的方法。采用调频连续波（FMCW）雷达获得载物面回波信号。雷达工作在24-26 GHz，安装在高炉（BF）的顶部。由于载物表面的灰尘，载物表面的散射产生衰减。根据气体流速，颗粒大小，粉尘浓度等得出了传播常数。该方法已在实际高炉的生产过程和维护过程中分别进行了验证。实验结果表明，预测值与实测值吻合良好。衰减与高炉充电过程具有相同的周期性趋势。

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来源
《ISIJ international》 |2015年第3期|600-604|共5页
作者
Jidong WEI; Xianzhong CHEN;
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作者单位

School of Automation & Electrical Engineering, University of Science and Technology Beijing, No. 30 Xueyuan Road, Haidian District, Beijing, 100083 China ,Key Laboratory of Advanced Control of Iron and Steel Process (Ministry of Education), University of Science and Technology Beijing, No. 30 Xueyuan Road, Haidian District, Beijing, 100083 China;

School of Automation & Electrical Engineering, University of Science and Technology Beijing, No. 30 Xueyuan Road, Haidian District, Beijing, 100083 China ,Key Laboratory of Advanced Control of Iron and Steel Process (Ministry of Education), University of Science and Technology Beijing, No. 30 Xueyuan Road, Haidian District, Beijing, 100083 China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
gas flow; gas-solid fluidized surface; FMCW radar; blast furnace;

机译：气流气固流化面FMCW雷达;高炉;

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1. Blast Furnace Gas Flow Strength Prediction Using FMCW Radar [J] . Jidong Wei, Xianzhong Chen ISIJ international . 2015,第3期

机译：基于FMCW雷达的高炉煤气流量强度预测
2. Ill-posed Echo State Network based on L-curve Method for Prediction of Blast Furnace Gas Flow [J] . Zhang Limin, Hua Changchun, Tang Yinggan, Neural processing letters . 2016,第1期

机译：基于L曲线方法的病态回波状态网络预测高炉煤气流量
3. Use of a quantile regression based echo state network ensemble for construction of prediction Intervals of gas flow in a blast furnace [J] . Zheng Lv, Jun Zhao, Ying Liu, Control Engineering Practice . 2016,第JANa期

机译：基于分位数回归的回波状态网络集成体用于构建高炉中气流间隔的预测
4. Prediction Model of Blast Furnace Gas Flow Distribution Based on GWO-ELM [C] . Zhihang Yue, Sen Zhang, Wendong Xiao IEEE International Conference on Control and Automation . 2020

机译：基于GWO-ELM的高炉气流分布预测模型
5. GAS FLOW PHENOMENA IN THE STACK REGION OF THE IRONMAKING BLAST FURNACE. [D] . PROPSTER, MARK ALBERT. 1977

机译：炼铁高炉堆垛区的气体流动现象。
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. An attempt at optimizing the flow characteristics of blast furnace slag by Investigation with slag obtained from blast furnace of Rourkela steel plant, SAIL [O] . Patnaik Pallabi, Dumpawar Shivani 2010

机译：通过对SAIL Rourkela钢厂高炉渣的研究，试图优化高炉渣的流动特性
8. Device for Analysis of the Gas Flow in Blast Furnaces or Shaft Kilns [R] . Weiss, E. 1981

机译：高炉或竖窑气体流量分析装置

Blast Furnace Gas Flow Strength Prediction Using FMCW Radar

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