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MCCR产线110mm薄板坯结晶器流场的数值模拟
引用本文:刘珂,季晨曦,王胜东,孙齐松,田志红,李海波. MCCR产线110mm薄板坯结晶器流场的数值模拟[J]. 钢铁研究学报, 2021, 33(2): 143-148. DOI: DOI:10.13228/j.boyuan.issn1001-0963.20200244
作者姓名:刘珂  季晨曦  王胜东  孙齐松  田志红  李海波
作者单位:首钢集团有限公司技术研究院,北京100043;绿色可循环钢铁流程北京市重点实验室,北京100043;北京市能源用钢工程技术研究中心,北京100043;首钢京唐钢铁联合有限责任公司,河北唐山063200
基金项目:国家重点研发资助项目(2017YFB0304000)。
摘    要:首钢京唐MCCR产线是国内第一条多模式连铸连轧产线,薄板坯高拉速连铸是实现无头轧制模式的基础,结晶器内流场控制是决定薄板坯高拉速连铸的关键.采用VOF两相流模型研究薄板坯连铸结晶器内流场特点,采用插钉法测量实际生产过程结晶器弯月面流速,并与对应工况条件下模拟结果进行对比校验了模型准确性.通过薄板坯连铸结晶器内流场的数值...

关 键 词:MCCR  薄板坯  高拉速  结晶器  流场

Numerical simulation of fluid flow in funnel type mold of 110mm thin slab in MCCR process
LIU Ke,JI Chenxi,WANG Shengdong,SUN Qisong,TIAN Zhihong,LI Haibo. Numerical simulation of fluid flow in funnel type mold of 110mm thin slab in MCCR process[J]. Journal of Iron and Steel Research, 2021, 33(2): 143-148. DOI: DOI:10.13228/j.boyuan.issn1001-0963.20200244
Authors:LIU Ke  JI Chenxi  WANG Shengdong  SUN Qisong  TIAN Zhihong  LI Haibo
Affiliation:(1.Research Institute of Technology, Shougang Group Co., Ltd., Beijing 100043, China;2.Beijing Key Laboratory of Green Recyclable Process for Iron and Steel Production Technology, Beijing 100043, China;3.Beijing Engineering Research Center of Energy Steel, Beijing 100043, China;4.Shougang Jingtang United Iron and Steel Co., Ltd., Tangshan 063200, Hebei, China
Abstract:The Shougang Jingtang MCCR (Multi-mode Continuous Casting and Rolling) process was designed as the first domestic multi mode thin slab continuous casting and rolling line which can continuously produce coils without cutting before the coiling machine. To guarantee material balance between casting and rolling processes, high throughput operations of thin slab caster should be achieved. A stabilized mold level is one of the critical technologies needed to achieve stable casting operation for high throughput operations. A 3D two phase mathematical model was carried out to investigate the fluid flow characteristics in the mold under high throughput conditions, the pin method was used to measure the flow velocity of the mold meniscus in the actual production process, and the simulation results were compared with the corresponding operating conditions to verify the accuracy of the model. Through the numerical simulation of the flow field in the thin slab continuous casting mold, the flow characteristics of the molten steel in the mold under the condition of high drawing speed of the thin slab were obtained. The effects of continuous casting speed and two types of submerged nozzle structures on the velocity of the meniscus and the wave height difference were studied. According to the numerical simulation results, when liquid steel is fed into the funnel mold with 4-ports SEN, the meniscus flow velocity increases from 0.02m/s to 0.30m/s and max span of meniscus level increases from 2.0mm to 7.2mm as the throughput increases from 3.4t/min to 8.2t/min. Feeding liquid steel into the funnel mold with 5.ports SEN, the meniscus flow velocity increases from 0.25m/s to 0.50m/s and max span of meniscus level increases from 2.6mm to 17.0mm as the throughput increases from 3.4t/min to 8.2t/min. Under the condition of specific high throughput conditions of 5.5-8.2t/min, the use of four hole nozzle is more conducive to controlling the stability of liquid level fluctuations.
Keywords:Key words:MCCR   thin slab   high speed casting   mold   flow field  
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