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  • 徐立,孙强,张来来,陈蜀喆,邹祥岩.冰级船板式换热器流动传热分析及结构优化[J].柴油机,2018,40(3):29-33.    [点击复制]
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冰级船板式换热器流动传热分析及结构优化
徐立,孙强,张来来,陈蜀喆,邹祥岩
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高性能船舶技术教育部重点实验室武汉理工大学,湖北 武汉 430063;武汉理工大学能源与动力工程学院,湖北 武汉 430063
摘要:采用数值模拟方法研究换热板结构对冰晶两相流换热机制和流动特性的影响。研究结果表明:波纹倾角β=60°、波纹深度h=4 mm、波纹间距λ=12 mm为所研究的换热器适用于海水-冰晶两相流的最佳值。利用宽通道对其进行结构优化设计,并采用相关试验数据验证。结果表明:宽通道间距为16 mm时,换热强度最大,流动阻力较小,可有效防止冰晶堵塞板内沟槽,且此时的换热效果和流动特性最佳,适合极地工况下冰晶两相流流动换热。
关键词:  极地船  板式换热器  冰晶两相流  宽通道优化
Analysis of Flow and Heat Transfer and Structural Optimization ofPolar Ship Plate Heat Exchanger
Xu Li,Sun Qiang,Zhang Lailai,Chen Shuzhe,Zou Xiangyan
Key Laboratory of High Performance Ship Technology Wuhan University of Technology,Ministry of Education, Hubei Wuhan 430063;School of Energy and Power Engineering, Wuhan University of Technology, Hubei Wuhan 430063
Abstract:CFD was employed to study the heat transfer mechanism and flow characteristics of seawater-ice two-phase flow with different heat transfer plate structures. The results show that the ripple inclination angle β=60°, the ripple depth h=4 mm, the ripple spacing λ=12 mm are the best values for the plate heat exchanger to be applied to the seawater-ice particle two-phase flow. Wide channel was used to optimize the structure of the heat exchanger, and was verified by experimental data. The results show that when the wide channel space is 16 mm, the heat exchanger has largest heat transfer strength and minimal flow resistance, which can effectively prevent the ice crystal block in the groove of the plate, and the heat exchanger has best heat transfer effect and flow characteristics, so it can be applied to the seawater-ice two-phase flow heat transfer in polar conditions.
Key words:  polar ship  plate heat exchanger  seawater-ice two-phase flow  wide channel optimization