摘要
利用双流体模型对搅拌罐内气液两相的全三维流场进行了数值模拟。在建模过程中采用多参考坐标系法描述搅拌桨和挡板间的相互作用,并考虑通气引起的搅拌罐内液位的上升。考察了不同的曳力模型对计算结果的影响,研究了搅拌罐内气液两相的流动行为。结果表明:建模方法无需事先估算出气体到液面处的上升速度,方便了建模过程中边界条件的设置。采用这一建模方法不仅可以准确地捕获搅拌罐内气液两相流场的结构特征,而且可以反映出通气对搅拌罐内液位高度的影响。Schiller-Naumann曳力模型比较适合于搅拌罐内气液两相流场的数值模拟。
A two-fluid model was adopted to simulate the three-dimensional gas-liquid flow in a stirred vessel.During the modeling,the multiple reference frames approach was used to describe the interaction between impeller and baffles,and the variation of liquid level in stirred vessel caused by gasing was also considered.The influence of different drag force models on the numerical results was investigated,and the gas-liquid flow behavior in stirred vessel was analyzed. Results show that the modeling method in the p...
出处
《上海电机学院学报》
2008年第3期189-192,共4页
Journal of Shanghai Dianji University
基金
上海市教委一般项目(06VZ005)
上海高校选拔培养优秀青年教师科研专项基金项目
关键词
计算流体力学
搅拌罐
气液两相流
双流体模型
多参考坐标系法
computational fluid dynamics(CFD)
stirred vessels
gas-liquid flow
two-fluid model
multiple reference frames approach