教育背景

博士 200707 清华大学 航天航空学院

学士 200207 清华大学 航天航空学院

工作履历

200708-至今 清华大学核研院104室 副研究员

研究领域

气液两相流、沸腾传热、流动控制和传热优化

学术成果

[1] H. B. Lian, S. Q. Li, S. Y. Jiang, and H. Y. Zhu, Study on Flow Characteristics of Integrated Natural Circulation Reactor Under Inclined Conditions. Nuclear Technology, 2024. 210(8): p. 1414.

[2] W. J. Chu, Y. Liu, L. Q. Pan, H. Y. Zhu, and X. T. Yang, Identification of boiling flow pattern in narrow rectangular channel based on TFA-CNN combined method. Flow Measurement and Instrumentation, 2022. 83: p. 12.

[3] W. J. Chu, Y. Liu, L. Q. Pan, H. Y. Zhu, and X. T. Yang, Study on Measure Approach of Void Fraction in Narrow Channel Based on Fully Convolutional Neural Network. Frontiers in Energy Research, 2021. 9: p. 11.

[4] Y. C. Huang, N. Gui, X. T. Yang, J. Y. Tu, S. Y. Jiang, and H. Y. Zhu, Local measurement of bubbly flow in helically coiled tubes using double-sensor conductivity probe. Journal of Nuclear Science and Technology, 2020. 57(6): p. 689.

[5] G. Y. Zhu, X. T. Yang, and H. Y. Zhu, Reduction of flow oscillation of natural circulation in non-inertial system. International Journal of Heat and Mass Transfer, 2019. 139: p. 720.

[6] G. Y. Zhu, X. T. Yang, S. Y. Jiang, and H. Y. Zhu, Intermittent gas-liquid two-phase flow in helically coiled tubes. International Journal of Multiphase Flow, 2019. 116: p. 113.

[7] H. Y. Zhu, X. T. Yang, G. Y. Zhu, and S. Y. Jiang, Flow Induction and Prevention in Noninertial Loops. Aiaa Journal, 2017. 55(10): p. 3239.

[8] H. Y. Zhu, Z. X. Li, X. T. Yang, G. Y. Zhu, J. Y. Tu, and S. Y. Jiang, Flow regime identification for upward two-phase flow in helically coiled tubes. Chemical Engineering Journal, 2017. 308: p. 606.

[9] Z. X. Li, S. Y. Jiang, X. T. Yang, Y. C. Huang, G. Y. Zhu, J. Y. Tu, and H. Y. Zhu, Bubbly-intermittent flow transition in helically coiled tubes. Chemical Engineering Journal, 2017. 323: p. 96.

[10] G. Y. Zhu, H. Y. Zhu, and Asme. Numerical simulation of interfacial phenomenon of air-water adiabatic intermittent flow in helically coiled tubes. in 24th International Conference on Nuclear Engineering. 2016. Charlotte, NC: Amer Soc Mechanical Engineers.

[11] Z. X. Li, H. Y. Zhu, and Asme. Numerical simulation of flow regime transition from slug to wavy flow in helically coiled tubes. in 24th International Conference on Nuclear Engineering. 2016. Charlotte, NC: Amer Soc Mechanical Engineers.

[12] H. Y. Zhu, X. T. Yang, J. Y. Tu, and S. Y. Jiang, Experimental investigation of natural circulation in a symmetrical loop under large scale rolling motion conditions. Journal of Nuclear Science and Technology, 2013. 50(8): p. 844.

[13] H. Y. Zhu, X. T. Yang, H. B. Lian, S. Y. Jiang, and Asme. Experimental and numerical study on natural circulation under inclined condition. in 21st International Conference on Nuclear Engineering (ICONE21). 2013. Chengdu, PEOPLES R CHINA: Amer Soc Mechanical Engineers.

[14] H. Y. Zhu, X. T. Yang, H. M. Ju, S. Y. Jiang, and Asme. Transient analysis of active residual heat removal process for htr-pm. in 21st International Conference on Nuclear Engineering (ICONE21). 2013. Chengdu, PEOPLES R CHINA: Amer Soc Mechanical Engineers.

[15] H. Y. Zhu, X. T. Yang, H. J. Gong, and S. Y. Jiang, Theoretical and experimental study on single-phase natural circulation under inclined conditions. Journal of Nuclear Science and Technology, 2013. 50(3): p. 304.

[16] Q. Chen, H. Y. Zhu, N. Pan, and Z. Y. Guo, An alternative criterion in heat transfer optimization. Proceedings of the Royal Society a-Mathematical Physical and Engineering Sciences, 2011. 467(2128): p. 1012.

[17] Z. Y. Guo, H. Y. Zhu, and X. G. Liang, Entransy - A physical quantity describing heat transfer ability. International Journal of Heat and Mass Transfer, 2007. 50(13-14): p. 2545.

[18] 廉海波, 李胜强, 姜胜耀, 朱宏晔, 摇摆耦合升功率条件下一体化自然循环反应堆流动特性研究, 舰船科学技术. 2023. 45(13): p. 96.

[19] 褚文俊, 朱宏晔, 成翔, 刘洋, 段日强, C形换热器一二次侧流动传热耦合特性数值模拟研究, 原子能科学技术. 2022. 56(12): p. 2533.

[20] 黄一川, 桂南, 杨星团, 屠基元, 姜胜耀, 朱宏晔, 螺旋直径对螺旋管泡状流截面分布特性的影响, 原子能科学技术. 2020. 54(07): p. 1205.

[21] 朱光宇, 朱宏晔, 居怀明, 杨星团, 黄晓津, 姜胜耀, 高温气冷堆堆芯主动冷却过程动态分析, 原子能科学技术. 2018. 52(02): p. 255.

[22] 朱宏晔, 杨星团, 孙艳飞, 姜胜耀, 大角度摇摆条件下对称回路自然循环特性研究, 核动力工程. 2015. 36(03): p. 145.

[23] 朱宏晔, 杨星团, 居怀明, 姜胜耀, 螺旋管内水和蒸汽局部传热特性研究, 热科学与技术. 2012. 11(01): p. 27.

[24] 朱宏晔, 杨星团, 居怀明, 姜胜耀, 高温气冷堆螺旋管蒸汽发生器流量漂移不稳定性研究, 核动力工程. 2012. 33(04): p. 76.

[25] 朱宏晔, 杨星团, 居怀明, 姜胜耀, 氦气冲刷螺旋管束传热的数值研究, 热科学与技术. 2012. 11(03): p. 216.

[26] 朱宏晔, 居怀明, 段日强, 薄涵亮, 高温气冷堆螺旋管直流蒸汽发生器时域模型, 清华大学学报(自然科学版). 2012. 52(02): p. 238.