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COREX竖炉围管堵塞位置及其演变过程的物理模拟 被引量:1

Physical simulation of the position and evolution process of dust accumulation in the bustle pipe of a COREX shaft furnace
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摘要 建立COREX竖炉三维半周物理模型,模拟竖炉围管粉尘初始堵塞位置及其演变过程,考察鼓风量、排料速度、非工况排料等操作条件对围管粉尘堵塞的影响.模拟结果显示,COREX竖炉围管初始堵塞位置为AGD架梁圆管前方的8#~12#导气槽区域.当导气槽前端填充床内形成粉尘沉积区后,若沉积区向上发展速度大于其随物料向下运动速度,粉尘沉积区向围管方向发展,并逐步堵塞围管导气槽,进而在围管内形成粉尘堆积区.该堆积区在围管内继续发展,使得其堆脚向围管远端运动,从而逐步将远端导气槽堵塞.此外,模拟发现随着排料速度加快及鼓风量增加,围管内不易发生粉尘堵塞.当炉内非工况条件发生时,粉尘堆积的动态平衡被打破,易造成围管内粉尘的堆积堵塞. A 3D semi-cylindrical physical model of COREX shaft furnace was established,and the initial position and evolution process of dust accumulation in the bustle pipe of a shaft furnace were investigated through this model. The effects of discharging rate,gas flow rate,and non-normal operation condition on dust accumulation in the bustle pipe were also studied. The results show that the initial position of dust accumulation in the bustle pipe is in the 8#-12#slot region,located before the supporting tube of AGD beam.The dust blockage is first formed in the packed bed near the slot and then blocks the slot and grows into the bustle pipe if the growth velocity of the blockage region is greater than the descending velocity. Finally,dust accumulation can be observed in the bustle pipe. The dust accumulation is still growing in the bustle pipe,and the edge of the dust pile could develop to the far side; thus,the other slots would be gradually clogged by dust. Moreover,the results confirm that with increased discharge and gas flow rates,dust accumulation in the bustle pipe is greatly hindered. In contrast,under non-normal operation conditions,the dynamic balance of dust blockage is broken,and dust accumulation in bustle pipe is easily formed.
作者 周恒 吴胜利 寇明银 姚舜 游洋 罗志国 邹宗树 ZHOU Heng1, WU Sheng-li1 , KOU Ming-yin1 , YAO Shun1 , YOU Yang2, LUO Zhi-guo2 , ZOU Zong-shu2(1 ) School of Metallurgical and Ecological Engineering, University of Science and Technology Beijing, Beijing 100083, China 2) School of Metallurgy, Northeastern University, Shenyang 110819, Chin)
机构地区 北京科技大学冶金与生态工程学院 东北大学冶金学院
出处 《工程科学学报》 EI CSCD 北大核心 2018年第3期349-356,共8页 Chinese Journal of Engineering
基金 中国博士后科学基金面上资助项目(2017M610769) 中央高校基本科研业务费资助项目(FRF-TP-17-036A1)
关键词 COREX竖炉 围管 粉尘堵塞 物理模拟 AGD COREX shaft furnace bustle pipe dust accumulation physical simulation areal gas distribution
分类号 TF557 [冶金工程—钢铁冶金]
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工程科学学报
2018年 第3期

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