带孔扰流片核废液浓缩器强化换热数值研究
Numerical Study on Enhanced Heat Transfer in Nuclear Waste Liquid Concentrator with Porous Spoiler
郭俊飞 1卿德藩 1倪浪 1白建军 1向立平2
作者信息
- 1. 南华大学 机械工程学院,湖南 衡阳 421001
- 2. 南华大学 核科学技术学院,湖南 衡阳 421001
- 折叠
摘要
为提高核废液浓缩器的换热性能,并研究带孔扰流片螺旋板式换热器在核废液浓缩中的应用.文章采用周期流模型进行数值模拟,分析了不同带孔扰流片结构参数对换热器流动阻力和换热性能的影响.结果表明:增加扰流片长度或减小间距会增强流道内的传热性能,带孔扰流片强化传热综合性能受扰流片长度变化的影响较小,扰流片间距对综合性能影响大;大孔结构会减小压降和换热系数,但综合换热性能更高.在片长60 mm、间距为100 mm、开孔直径13 mm的条件下,Re值为33 238时综合性能评价系数达最大值E=0.89,Re大于49 858时未开孔扰流片的综合性能更好.
Abstract
In order to improve the heat transfer performance of nuclear waste concentrator,the application of spiral plate heat exchanger with perforated spoiler in nuclear waste liquid concentration is studied.With the use of periodic flow model in nu-merical simulation,the effect of different structural parameters of perforated spoilers on the flow resistance and heat transfer performance of heat exchanger is analyzed.The results show that increasing the length of the spoiler or decreasing the spacing will enhance the heat transfer performance in the flow channel.The comprehensive performance of the enhanced heat transfer of the perforated spoiler is less affected by the change of the spoiler length,and the spacing of the spoiler has great influence on the overall performance.The large-hole structure will reduce the pressure drop and heat transfer coefficient,while the overall heat transfer performance is higher.Under the conditions of film length of 60 mm,spacing of 100 mm and opening diameter of 13 mm,the comprehensive performance evaluation coefficient is the maximum value E=0.89 when the Re number is 33 238,and the comprehensive performance of the unopened spoiler is better when Re is greater than 49 858.
关键词
带孔扰流片/强化换热/数值模拟/周期流模型Key words
perforated spoiler/strengthen heat exchange/numerical simulation/periodic flowmodel引用本文复制引用
基金项目
湖南省教育厅科学研究重点项目(20A429)
出版年
2024
NETL
NSTL
万方数据