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Heat transfer characteristics for double-jet in different flow regions on a thick plate |
Xiu-hua Tian1, Tian-liang Fu1, Zhao-dong Wang1, Guo-dong Wang1 |
1 State Key Laboratory of Rolling and Automation, Northeastern University, Shenyang 110819, Liaoning, China |
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Abstract During multi-jet cooling, the complex hydrodynamic characteristics caused by the interaction between jets will affect the heat transfer of the plate. To further clarify the heat transfer characteristics in different flow regions, the double-jet cooling experiments were completed on a 50-mm-thick plate with the initial cooling temperature and jet angle in the range of 300–900 °C and 0°–60° , respectively. The inverse heat conduction was used to calculate the surface temperature and heat flux. Furthermore, the rewetting phenomenon, maximum heat flux and maximum cooling speed were studied. The results show that increasing the angle between jet and wall normal would increase the wetting front’s width downstream of the jet point. When the jet angle was 60° , the maximum value increased by 37.29 mm compared with that when the angle was 0 . The correlation between the width of the wetting front and the radial temperature gradient was further confirmed. In addition, it was found that the maximum heat flux would be affected by the duration of transition boiling, but not affected by complete wetting time. The results clarified the heat transfer mechanisms under various initial cooling temperature and inclination angle conditions on plate cooling in different flow regions, and provided valuable data for controlling heat transfer efficiency and improving cooling uniformity.
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Cite this article: |
Xiu-hua Tian,Tian-liang Fu,Zhao-dong Wang, et al. Heat transfer characteristics for double-jet in different flow regions on a thick plate[J]. Journal of Iron and Steel Research International, 2021, 28(11): 1400-1407.
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