新型高炉喷煤模拟燃烧实验装置设计

Design of an experimental device to simulate coal injection in blast furnaces

  • 摘要: 设计了一种适合模拟高炉喷煤燃烧的实验装置,满足热风既高温又高速的煤粉喷吹条件,可以模拟氧气高炉条件下的煤粉喷吹.喷吹瞬间流场的数值模拟结果表明,当喷吹气体速度达到最大值时,直吹管气体平均速度为162.35 m·s-1.利用该装置研究了氧气高炉条件下煤粉的燃烧规律.结果表明:煤粉的燃烧率随O/C原子比的增加而增加;在低O/C原子比条件下,煤粉的燃烧率较低,但其增幅比较明显;无烟煤的燃烧率低于烟煤.

     

    Abstract: An experimental device was designed to simulate coal injection in blast furnaces. The device meets the need of coal injection with high temperature and high speed by hot air, and it can be used to simulate coal injection in a nitrogen-free blast furnace. Numerical simulation of the flow field in the device at the injection moment was performed. The results show that when the velocity of injected air reaches the maximum, the average velocity of air in the blow pipe is 162.35 m·s-1. The combustion regularity of pulverized coal was investigated using the device. The results show that the burning rate of coal increases with an increase in O/C atomic ratio. In the low O/C atomic ratio range, the burning rate of coal is comparatively low, but it increases more rapidly compared to that in the high O/C atomic ratio range. The burning rate of anthracite is lower than that of bituminous coal.

     

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