渣相组分对高炉炉缸死焦堆滞留率的影响

doi:10.13228/j.boyuan.issn0449-749x.20200105

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摘要为明确高炉炉渣组分对死焦堆中炉渣静态滞留率的影响,采用自行设计的炉渣穿焦试验装置模拟高炉炉渣穿过炉缸死焦堆的过程,探究不同二元碱度(w(CaO)/w(SiO₂))、镁铝比(w(MgO)/w(Al₂O₃))对炉渣滞留率的影响。试验结果表明,随着碱度的增加,炉渣穿过焦炭层的能力增强,滞留率降低;当炉渣镁铝比较低时,炉渣滞留率较高,当镁铝比为0.50～0.55时,滞留率出现最小值,当镁铝比较高时,由于渣焦间润湿性变好,“液桥”间炉渣滞留量增大,滞留率存在上升趋势;渣焦间润湿性较差。炉渣穿过焦炭层的过程主要为物理传输过程,但炉渣仍存在着向焦炭内部渗入的现象,渣焦界面发生反应生成SiC,该反应产物可改善渣焦界面润湿性。

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	胡翔宇
	张建良
	刘征建
	焦克新
	范筱玥

关键词 ：高炉炉渣, 静态滞留率, 炉渣碱度, 炉渣镁铝比, 炉缸

Abstract：In order to investigate the influence of blast furnace slag composition on the static holdup rate of slag in the deadman, a self-designed slag penetration coke experimental device was used to simulate the process of blast furnace slag flowing through the deadman in the hearth. The effect of basicity (w(CaO)/w(SiO₂)) and w(MgO)/w(Al₂O₃) on the static holdup rate of slag were also studied. The results show that as the basicity increasing, the ability of the slag dripping through the packed coke beds increases and the static holdup rate decreases. When the w(MgO)/w(Al₂O₃) is relatively low, the static holdup rate is high. When the w(MgO)/w(Al₂O₃) ranges from 0.5 to 0.55, the static holdup rate reaches its minimum. When the w(MgO)/w(Al₂O₃) is relatively high, the static holdup of "liquid bridges" becomes larger due to the better wettability between slag and coke, and the static holdup rate increases to a certain extent. The process of slag passing through the coke layer is mainly a physical transmission process due to the poor wettability between coke and slag. However, the SiC phase produced on the coke/slag interface as a result of the penetration of slag through the pores of the coke can improve the wettability.

Key words： blast furnace static holdup rate basicity w(MgO)/w(Al₂O₃) blast furnace hearth

收稿日期: 2020-03-13

引用本文:

胡翔宇, 张建良, 刘征建, 焦克新, 范筱玥. 渣相组分对高炉炉缸死焦堆滞留率的影响[J]. 钢铁, 2020, 55(10): 15-20. HU Xiang-yu, ZHANG Jian-liang, LIU Zheng-jian, JIAO Ke-xin, FAN Xiao-yue. Effect of slag composition on holdup rate of deadman in blast furnace hearth[J]. Iron and Steel, 2020, 55(10): 15-20.

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