210t RH浸渍管内钢液流动机理的水模型实验研究
Study on molten steel flow mechanism in 210t RH snorkels by water model experimental
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摘要: 采用1:4的比例建立水力学模型模拟210 t多功能RH浸渍管内钢液流动装置,对钢液流态进行分析,并考察吹氩量、浸渍管插入深度及吹氩孔个数对钢液流场和混匀时间的影响.结果表明:钢包内存在一主回流和大量小回流,并且来自下降管的下降液流和其周围液体形成了液-液两相流,这种流动状态对钢包内的混合及传质起着决定性的作用;本文得到的关于RH钢包内液体的这种流动状态,否定了RH过程的早期研究中关于下降管和上升管间存在"短流"现象的结论.吹氩量、浸渍管插入深度、上层和下层吹氩孔个数对钢液混匀时间的影响都非常明显,其中吹氩量及下层吹氩孔个数的变化对钢液混匀时间的影响趋势较为强烈.Abstract: A water model was builted by employing 1:4 ratio to simulate 210 t multi-function RH devices. The flow pattern of molten steel and the influence of argon blowing quantity,snorkel insertion depth and the number of argon blowing holes on the flow field of molten steel and mixing time were investigated by the water model. The results show that a main backflow and lots of small backflows exist in the steel ladle,and the decline fluid flow from the down tube forms a liquid-liquid two-phase flow,which plays a critical role in mixing and transforming in the steel ladle. The conclusion about ‘short flow’ that exists between the down tube and the offtake pipe in early studies is denied by the flow pattern in the RH steel ladle in this paper. The argon blowing quantity,snorkel insertion depth and the numbers of the upper and lower argon blowing holes influence the mixing time of molten steel obviously,but the argon blowing quantity and the number of lower argon blowing holes are stronger.