Science Project

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Project number Project name Project origin Start time Roles Project kind
11775172 反应堆严重事故条件下纳米流体稳定性、传热传质特性及CHF机理研究 国家自然科学基金项目 2018-1~ 负责人 Vertical project
11475133 气泡泵及其对ADS次临界堆瞬态及事故工况下的动态特性影响的实验与理论研究 国家自然科学基金项目 2015-1~ 负责人 Vertical project
00000000 离散介质颗粒流动理论模型研究 校外合作 2014-8~2017-6 负责人 horizontal project
51276146 强迫循环条件下纳米流体强化临界热流密度机制研究 国家自然科学基金项目 2013-1~2016-12 负责人 Vertical project

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  1. Wu J M*, Liang H Y, Zhu F J, et al. CFD analysis of the impact of a novel spacer grid with longitudinal vortex generators on the sub-channel flow and heat transfer of a rod bundle[J]. Nuclear Engineering and Design, 2017,324:78-92.(SCI: 000414699200009  EI: 20173604130909 ) Download PDF
  2. Wang Y, Wu J M*. Single bubble dynamic behavior in Al2O3/H2O nanofluid on downward-facing surface. Nuclear Engineering and Technology, 2016, 48(4): 915-924. (SCI: 000382903000007)  Download PDF
  3. Wu J M, Zhao Jiyun. A review of nanofluid heat transfer and critical heat flux enhancementResearch gap to engineering application. Progress in Nuclear Energy, 66(1): 13-24, 2013.SCI: 155ZZ, EI: 201316162193232015高被引ESI论文)  Download PDF
  4. Wang Y, Deng K H, Wu J M, Su G H. A Correlation of Nanofluid Flow Boiling Heat Transfer Based on the Experimental Results of AlN/H2O and Al2O3/H2O nanofluid. Experimental Thermal and Fluid Science, 80(1): 376-383, 2017.( 通讯作者,第一作者为所指导的研究生. SCI: DZ1NW, EI:20163902845989)  Download PDF
  5. Wu J M, Zhao Jiyun Lei, Jiang; Liu, Bo. Effectiveness of nanofluid on improving the performance of microchannel heat sink. Applied Thermal Engineering 101 (5): 402-412, 2016 SCI: , EI: 20161302154164)  Download PDF
  6. Wang Y, Wu J M. Numerical simulation on single bubble behavior during Al2O3/H2O nanofluids flow boiling using Moving Particle Simi-implicit method. Progress in Nuclear Energy85(11):130-1352015(通讯作者,第一作者为所指导的研究生. SCICU2JF,  EI20152600971897)  Download PDF
  7.  Wu J M, Zhao J Y, Tseng K J. Parametric study on the performance of double- layered microchannels heat sink. Energy Conversion and Management, 80:550-560, 2014.SCI: AF7LX, EI:20141017427171)  Download PDF
  8. Sakanova Assel, Yin Shan, Zhao Jiyun, Wu J M, Leong K C. Optimization and comparison of double-layer and double-side micro-channel heat sinks with nanofluid for power electronics cooling. Applied Thermal Engineering, 65(1-2): 124-134, 2014SCI: AG0IL EI: 20140617274354,第一作者为本人在南洋理工大学所协助指导的博士生)
  9. 王云,武俊梅. Al2O3/H2O纳米流体球形下封头表面气泡脱离行为模拟. 原子能科学技术, 50(1): 73-79, 2016 (通讯作者,第一作者为所指导的研究生,EI20161302167905
  10. 王云,武俊梅. 纳米流体增强堆芯熔融物滞留能力的气泡动力学行为研究. 核动力工程, 35 (2):47-52, 2014(通讯作者,第一作者为所指导的研究生,EI: 20142217763674
  11. 邓匡汉、武俊梅、王云、苏光辉. 颗粒沉积对纳米流体流动及换热影响实验研究,核动力工程,38(3): 164-1672017EI:)已标注 期刊论文
  12. Wang Y, Deng KH, Liu B, * Wu JM, Su GH. Experimental study on AlN/H2O and Al2O3/H2O nanofluid flow boiling heat transfer and its influence factors in a vertical tube. The 24th International Conference on Nuclear Engineering, 2016.6, Charlotte, USA, (通讯作者,第一作者为所指导的研究生, EI: 20164703044667
  13. Wang Y, Wu J M. Experimental study on Al2O3/H2O nanofluid flow boiling heat transfer under different pressures. Proceedings of 5th Micro/Nano scale Heat & Mass Transfer International Conference. 2016.1 Singapore(通讯作者,第一作者为所指导的研究生, EI: 20162102413923
  14. Wu J M, Zhao Jiyun. Conjugated Numerical Study on the Performance of Microchannel Heat Sink Using Al2O3/H2O Nanofluid. Proceedings of the 22nd International Conference on Nuclear Engineering, 2014.7, Prague, Czech Republic.(SCI:BE0WC, EI: 20144800255254)
  15. Liang H Y, Wu J M. DEM-CFD simulation of the characteristics of pebbles flow and heat transfer with the coolant: 2nd Sino-German Symposium on Fundamentals of Advanced Nuclear Safety Technology (SG-FANS),  2017, Karlsruhe, Germany(通讯作者,第一作者为所指导的研究生)
  16. Wang Y, Wu J M. Experimental study on the effects of nanoparticle deposition to Al2O3/H2O nanofluid flow and convective heat transfer characteristics. Proceedings of The 7th China-Korea Workshop on Nuclear Reactor Thermal-Hydraulics (Worth-7): 2015.10, Kunming, China(通讯作者,第一作者为所指导的研究生)
  17. 梁好玉, 朱锋杰, 武俊梅, 董飞. 直流喷嘴雾化特性的数值分析: 中国工程热物理学会2017年传热传质学术会议, 中国苏州, 2017(通讯作者,第一作者为所指导的研究生)
  18. 梁好玉, 武俊梅. 压水堆燃料棒束新型定位格架的数值分析: 中国工程热物理学会2016年传热传质学术会议, 中国北京, 2016(通讯作者,第一作者为所指导的研究生)
  19. 邓匡汉, 王云, 苏光辉, 武俊梅. 颗粒沉积对纳米流体流动及换热影响的实验研究: 第十四届全国反应堆热工流体学术会议暨中核核反应堆热工水力技术重点实验室2015年度学术年会,中国北京,2015(通讯作者,第一作者为所指导的研究生)
  20. 王云,武俊梅. 纳米流体组分对流动沸腾气泡行为的影响. 中国工程热物理学会2014年传热传质学术会议, 中国西安, 2014(通讯作者,第一作者为所指导的研究生)
  21. Zhu FJ, Wu JM*, Shi LT et al. Experimental research on heat transfer characteristic of liquid lead-bismuth eutectic flowing in annular channel[C]. 26th International Conference on NuclearEngineering, London, England, 2018.(通讯作者,第一作者为所指导的研究生, EI: 20184606060295
  22. Yubai Xiao, Junmei Wu*. Analysis of Hydrogen and Source Term under Severe Accident Conditions for Thousand Megawatt PWR: the 27th International Conference on Nuclear Engineering, 2019.5,Tsukuba,Japan (通讯作者,第一作者为所指导的研究生,EI: 20193507377555)
  23. Wei Jin, Ning Jia, Junmei Wu*, Jiang Lei, Lin Liu. Numerical Study on Flow and Heat Transfer Characteristics of Pin-Fins with Different Shapes, ASME Turbo Expo 2019: Turbomachinery Technical Conference and Exposition, Phoenix, Arizona USA,2019(通讯作者,第一作者为所指导的研究生, EI: 20194807746166 )
  24. 朱锋杰,石磊太,武俊梅*等.环形通道内液态铅铋合金流动换热特性实验研究[J].原子能科学技术,2018 (通讯作者,第一作者为所指导的研究生
  25. 段敬添,雷蒋,武俊梅*. 涡流矩阵通道流动与换热特性的数值研究[C].中国航空学会动力分会第二十届燃烧与传热传质学术研讨会.中国浙江,2019(通讯作者,第一作者为所指导的研究生)
  26. Jingtian Duan, Ke Zhang, Jin Xu, Jiang Lei, Junmei Wu*. Flow Field Characteristics Correlated with Transfer Performance in a Wide Channel with Staggered Circular Pin Fins, ASME Turbo Expo 2020: Turbomachinery Technical Conference and Exposition, London, UK, 2020(通讯作者,第一作者为所指导的研究生)