摘要
采用多相流体积法对某钢厂的LF炉底吹钢包建立了氩气/钢液/钢渣三相瞬态数学模型.描述了钢包内多相流动的基本形貌,并与稳态计算的结果进行了对比;研究了不同吹气流量对渣滴卷入深度和渣眼直径的影响.计算结果表明,渣滴卷入深度和渣眼直径随吹气流量的增加而增加,且在吹气流量为600L/min时发生骤增,该流量为临界卷渣吹气流量;在保持吹气流量为300L/min的条件下,当渣层厚度从150mm增加到300mm时,渣眼直径由455mm减小至110mm,且此时更容易发生卷渣现象.
Multiphase volume of fluid (VOF) method was used to simulate argon-steel-slag three-phase flow in a bottom-blown steelmaking ladle. Transient multiphase flow features in the ladle were described and compared with steady simulation. Slag eye diameter and droplet dispersion height were quantified under different gas flow rates, showing that as gas flow rate rose, slag eye diameter and slag droplet dispersion height increased and jumped at 600 L/min, so critical gas flow rate was 600 L/min. Slag eye diameter dropped sharply from 455 to 110 mm, and the possibility of slag entrapment increased, when the slag layer height rose from 150 to 300 mm at the gas flow rate of 300 L/min.
出处
《过程工程学报》
CAS
CSCD
北大核心
2012年第6期946-951,共6页
The Chinese Journal of Process Engineering
关键词
底吹钢包
三相流
数值模拟
渣眼直径
卷渣
argon-stirred ladle
three-phase flow
numerical simulation
slag eye diameter
slag entrapment
