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个人简介

教育背景 2004-2009上海交通大学博士 2000-2004上海交通大学学士 工作经历 2011-2015 上海交通大学 助理研究员 2016- 上海交通大学 副教授 2017- 上海交通大学 核科学与工程学院副院长 博士生导师 出访及挂职经历 2009-2010 日本东京大学 博士后 科研项目 2019 国家自然科学基金 气液旋转流场中曲面壁面上液膜破碎行为研究 负责人 2018 核电重大专项课题 乏燃料池非能动长期冷却试验 负责人 2017 核电重大专项课题 汽水分离器结构参数敏感性试验 负责人 2015 核电重大专项课题 弯管区传热管束流弹失稳及临界流速验证试验 负责人 2015 核电重大专项课题 非能动余热排出热交换器两相流动与换热试验 负责人 2014 中广核电公司课题 汽水分离器流场CFD分析 负责人 2014 核电重大专项课题 管系振动及阀门泄漏试验台架外委设计 负责人 2013 核电重大专项课题 蒸汽发生器传热流场可视化和流致振动反应基础试验研究 负责人 2013 国家自然科学基金 超临界流体并联管流动不稳定性及传热特性研究 负责人 2013 留学回国人才基金 超临界流体环管流场结构测量和奇异传热特性发生机理研究 负责人 2012 核电重大专项课题 乏燃料池完全非能动冷却系统分离式热管单体基础试验 负责人 2011 核电重大专项课题 棒束内流动和传热行为研究试验II 负责人 2011 核电重大专项课题 CAP1400 SG 汽水分离器可视化模型CFD验证试验研究 负责人 2011 新进青年教师基金 基于局部微尺度流场结构的超临界流体环管传热弱化机理 负责人 教学工作 《先进核能系统》36课时,2学分 软件版权登记及专利 熊珍琴 等,带有斜疏水槽的旋叶分离器,2019 熊珍琴 等, 一种传热管束流致振动试验加速度传感器固定装置,2017. 张可丰,全正庭,祖洪彪,熊珍琴等,一种蒸汽发生器传热管束流致振动试验装置,2017. 熊珍琴, 代彦军,王如竹等, 太阳能两级双溶液除湿系统, 2009. 荣誉奖励 2021年 中国电力企业联合会技术成果二等奖 非能动余热排出热交换器自然循环流动传热分析技术及试验研究 2021年 上海交通大学教学成果 二等奖 2019年 核能行业协会 技术发明 二等奖 基于热管的乏燃料池非能动冷却关键技术研究与应用 2019年 上海交通大学教学成果 二等奖 2018年 上海交通大学 “SMC-晨星优秀青年学者(B类)” 2017年 烛光奖二等奖 2016年 优秀班主任 2013年 上海交通大学 “SMC-晨星优秀青年教师(B类)”

研究领域

旋转流场下气液流动行为研究 多相流流致振动规律研究 超临界流体传热现象研究

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

Shuo Ouyang, Zhenqin Xiong, Jiyun Zhao, Zhen Li, Separator performance modeling and analysis using artificial neural network and response surface method, Annals of Nuclear Energy, 2022, 174, 109139.( SCI) Shuo Ouyang, Zhenqin Xiong*, Jiyun Zhao*, Ruiqi Kang, Separation efficiency theoretical model of swirl-vane separator based on bidirectional vortex, Annals of Nuclear Energy, 2022, 170, 108984.( SCI) Junlong Li, Zhanfei Qi, Kemei Cao, Maolong Liu, Zijiang Yang, Yao Xiao, Zhenqin Xiong, Hanyang Gu, Experimental investigation on the heat removal capacity of secondary side passive residual heat removal system for an integrated reactor, Applied Thermal Engineering, 2022, 204,117973. ( SCI) Zhang, B., Gong, S., Dong, S., Xiong, Z., Zhang, Z., Vortex shedding induced vibration of thin strip in confined rectangular channel, Progress in Nuclear Energy, 2021, 141, 103951.( SCI) Tao, J., Gu, H., Xiong, Z., Jiang, X., Xie, Y., Numerical and experimental study on thermal-hydraulic behaviors in the secondary side of passive residual heat removal heat exchanger, Annals of Nuclear Energy, 2020, 148, 107698.( SCI) Jiaqi Tao, Hanyang Gu, Zhenqin Xiong, Xing Jiang, Yongchen Xie, Investigation on transient thermal hydraulics of reduced scale passive residual heat removal heat exchanger in tank, Annals of Nuclear Energy, 2019, 130: 402-410.( SCI) Jiayue Chen, Zhenqin Xiong, Yao Xiao, Hanyang, Experimental study on the grid-enhanced heat transfer at supercritical pressures in rod bundle, Applied Thermal Engineering, 2019, 156: 299-309. Chen J, Gu H, Xiong Z*. Development of a one-dimensional transient model for predicting flow instability at supercritical pressures. Progress in Nuclear Energy. 2019, 112: 162-170.( SCI) Zhenting Quan, Kefeng Zhang, Zhenqin Xiong*, et al. Experimental study on cross flow induced vibration response of four-span straight tube bundle with TSP or AVB supports. Nuclear Engineering and Design, 2019, 349:8-19.( SCI) Chen J, Gu H, Xiong Z*. A circumferentially non-uniform heat transfer model for subchannel analysis of tight rod bundles. Annals of Nuclear Energy, 2018, 121: 50-61.(SCI) Yuhao Liu, Dawei Cui, Jiming Lin, Junhong Liu, Chao Li, Shanfang Huang, Zhenqin Xiong, Huaqiang Yin,Experimental study on steady-state heat transfer characteristics of the Nozzle-atomized dispersed flow,Applied Thermal Engineering,2018,140:686-695. Chen J, Gu H, Xiong Z*, Liu D. Experimental investigation on heat transfer behavior in a tight 19 rod bundle cooled with supercritical R134a. Annals of Nuclear Energy, 2018, 115: 393-402.(SCI) Tao J, Gu H, Xiong Z*, et al. Parametric analysis of heat transfer rate of passive residual heat removal heat exchanger submerged in water tank[J]. Experimental Thermal and Fluid Science, 2018, 98: 317-327.( SCI) Z Xiong, H Gu, S Zhang, J Chen,Effect of intermittent heating on the heat transfer performance of supercritical R134a flowing in a pipe,Experimental Thermal and Fluid Science, 2017, 88(11):434-443.(SCI) Z. Xiong, H. Gu, S.J. Gong, Experimental and numerical study on the flow pattern of the ADS windowless spallation target with a second free surface downstream using model fluid water, 2015, 291(9):179-187.(SCI) Z. Xiong,Y. Cheng, M. Wang, H. Gu, Experimental study on the sub-atmospheric loop heat pipe passive cooling system for spent fuel pool, Progress in Nuclear Energy, 2015, 79(3): 40-47. (SCI) Z. Xiong, R. Wang, Y. Dai, Experimental study on a two-stage liquid desiccant dehumidification system using dual desiccant solution, Heat Transfer Research, 2015,46(4): 383-397. (SCI) Z. Xiong, M. Wang, H. Gu, Y. Cheng, Experimental study on heat pipe heat removal capacity for passive cooling of spent fuel pool, Annals of Nuclear Energy, 2015, 83( 9): 258-263. (SCI) Z. Xiong, H. Gu, M. Wang, Y. Cheng,The thermal performance of a loop-type heat pipe for passively removing residual heat from spent fuel pool,Nuclear Engineering and Design, 2014, 280(12): 262-268. (SCI) Z. Xiong, M. Lu, M.Wang, H. Gu, X. Cheng, Study on flow pattern and separation performance of air-water swirl-vane separator, Annals of Nuclear Energy, 2014, 63(1): 138-145. (SCI) S. Zhang, H. Gu, Z. Xiong, X. Cheng, Numerical investigation on heat transfer of supercritical fluid in avertical 7-rod bundle,Journal of Supercritical Fluids, 2014, 92(8):8-15.(SCI) S. Zhang, H. Gu, X. Cheng, Z. Xiong, Experimental study on heat transfer of supercritical Freon flowing upward in a circular tube, Nuclear Engineering and Design, 2014, 280(12):305-315.(SCI) Z. Xiong, M. Lu, Y.Li, H. Gu, X. Cheng, Effects of the slots on the performance of swirl-vane separator, Nuclear Engineering and Design, 2013, 265,(12): 13-18. (SCI) Y. Cheng, M. Zheng, M. Wang, R. Zhang, Z. Xiong, The design and simulation of a new spent fuel pool passive cooling system, Annals of Nuclear Energy, 2013, 58(8): 124-131. (SCI) Z. Xiong, Y. Dai, R. Wang, Development of a novel two-stage liquid desiccant dehumidification system assisted by CaCl2 solution using exergy analysis method, Applied Energy, 2010, 87: 1495-1504. (SCI) Z. Xiong, Y. Dai, R. Wang, Exergy analysis of liquid desiccant dehumidification system, International Journal of Green Energy, 2010, 7(3): 241-262. (SCI) R.Z. Wang, T.s. Ge, C.J. Chen, Qiang Ma, Zhenqin Xiong, Solar sorption cooling systems for residential applications: Options and guidelines, 2009, 32(4):638-660. Z. Xiong, Y. Dai, R. Wang, Investigation on a two-stage solar liquid-desiccant (LiBr) dehumidification system assisted by CaCl2 solution, Applied Thermal Engineering, 2009,29:1209-1215.(SCI) 霍茁, 张可丰, 熊珍琴*, 祖洪彪, 顾汉洋, 谢永诚, 全正庭, 抗振条-传热管大间隙多跨直管束流致振动试验研究, 原子能科学技术, 2020,54(7):1214-1220.(EI) 徐晗, 路铭超, 熊珍琴*, 祖洪彪, 顾汉洋, 谢永诚, 疏水孔对旋叶分离器分离性能影响研究,核动力工程,2020.(EI) 方夏鋆, 祖洪彪, 熊珍琴, 张可丰, 谢永诚, 顾汉洋, 支承板支撑多跨管束流致振动试验研究, 原子能科学技术, 2017,51(8):1379-1386.(EI) 王明路, 熊珍琴, 顾汉洋, 叶成, 程旭等, 乏燃料水池非能动冷却热管传热性能研究,核动力工程, 2014,35(5):62-65.(EI) 熊珍琴, 王明路, 李亚洲等, 旋叶汽水分离器空气-水冷态试验研究, 核动力工程, 2013, 34(S1): 66-68. (EI) 路铭超, 李亚洲, 熊珍琴,汽水分离器性能试验研究, 动力工程学报, 2013, 33(1): 76-80. 李亚洲,熊珍琴,路铭超等,旋叶汽水分离器试验和数值模拟研究,原子能科学技术,2014,48(1),43-48. (EI)

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