English  
姓名: 李凤臣
性别:
英文名: Li Fengchen
人才称号:
职称: 教授、博导
职务: 专业: 招收工程热物理、流体动力学、核能科学与工程、应用数学等相关方向的硕士、博士研究生
所在机构: 能源与动力工程系 个人主页: https://www.researchgate.net/profile/Feng_Chen_Li
邮箱: lifch@tju.edu.cn 办公地点: 热动力大楼(34号楼)A252
传真: 办公电话:
主要学历: 1998.04-2001.03 ,日本京都大学,核能工程系,博士
1993.09-1996.07 ,中国原子能科学研究院,反应堆工程及安全研究设计所,硕士
1989.09-1993.07,天津大学,热能工程系,学士

主要学术经历: 2020.10-至今,天津大学,机械工程学院,教授、博导
2017.08-2020.09,中山大学,中法核工程与技术学院,教授、博导
2006.09-2017.08,哈尔滨工业大学,能源科学与工程学院,教授、博导
2004.11-2006.08 ,日本东京大学,生产技术研究所,日本学术振兴会研究员
2002.04-2004.11,日本产业技术综合研究所,能源利用部门,特聘研究员
2001.04-2002.03 ,日本海上技术综合研究所,湍流控制研究中心,特聘研究员
1996.08-1998.03,中国原子能科学研究院,反应堆工程及安全研究设计所,工程师
2015.11-2017.05,美国加州大学洛杉矶分校(UCLA),机械与航天工程系,核聚变科学与技术中心,首席研发工程师
2011.04-2013.10,美国加州大学洛杉矶分校(UCLA),机械与航天工程系,核聚变科学与技术中心,访问研究员
2015.01-2015.11,哈尔滨工业大学,能源科学与工程学院,副院长
2008.09-2017.08,哈尔滨工业大学,能源科学与工程学院,核能工程研究中心,主任
2008.09-2015.11,哈尔滨工业大学,能源科学与工程学院,核能工程系,系主任
2007.09-2014.12,哈尔滨工业大学,能源科学与工程学院,流体机械及控制工程研究所,副所长

主要研究方向: 先进核能利用技术;
核反应堆热工水力及安全分析;
磁约束核聚变堆液态包层技术;
沸腾换热及气液两相流;
粘弹性流体动力学及湍流减阻;
微流控及微尺度流动与传热;
深度学习在湍流及复杂系统研究中的应用及其他学科交叉方向

主要讲授课程: 主讲过的课程如下:

(1) 本科生课:

工程流体力学、
工程热力学、
传热学、
核反应堆物理分析、
核反应堆热工水力、
核电厂安全分析、
核电厂系统及设备、
流体力学多尺度流动创新实验课

(2) 研究生课:

高等流体力学、
粘性流体力学、
流体动力学先进测试技术、
Fluid Mechanics(留学生课)


主要学术兼职:

主要学术成就: 已合著出版专著6部,在湍流减阻、弹性湍流及流变学、沸腾换热及强化传热、核能工程与辐射防护、微尺度流动与换热及微流控、超空化与气液两相流及其他其他学科交叉研究方向上发表学术论文360余篇,其中SCI论文150余篇,授权专利18项.

获黑龙江省自然科学奖一等奖1项(2014,排名1);
获吴仲华奖励基金优秀青年学者奖(2009);
入选教育部新世纪优秀人才(2008).

主要科研项目: 1. 国家自然科学基金委中日(NSFC-JSPS)国际(地区)合作与交流项目(51911540073):复杂微流控流路中流动特征及机理研究,2019.04 - 2021.12,项目负责人
2. 国家自然科学基金面上项目(51776057):耦合激励信号的粘弹性流体微流动控制及机理研究,2018.01-2021.12,项目负责人
3. 国家自然科学基金面上项目(51276046):表面活性剂减阻剂对超空化两相流的影响机理,2013.1 – 2016.12,项目负责人
4. 国家自然科学基金面上项目(51076036):粘弹性流体基纳米流体流动与传热特性研究,2011.1 – 2013.12,项目负责人
5. 国家自然科学基金面上项目(10872060):极低雷诺数弹性湍流的统计特性和结构特性研究,2009.1 – 2011.12,项目负责人
6. 国家自然科学基金重大研究计划面上项目(90715015):大跨度桥梁斜拉索风雨多相介质耦合振动的精细化研究,2008.1 – 2010.12,项目负责人


代表性论著: 著作/章节
B-1.Feng-Chen Li, Bo Yu, Jin-Jia Wei, Yasuo Kawaguchi, Turbulent drag reduction by surfactant additives(英文专著), John Wiley & Sons (Asia) Pet Ltd., 255 pages, ISBN: 9781118181072, March 2012.
B-2.李凤臣,宇波,魏进家,川口靖夫,表面活性剂湍流减阻,高等教育出版社,220页,ISBN: 9787040343151, 2012年6月出版.
B-3.蔡伟华,李小斌,张红娜,李凤臣,“黏弹性流体动力学”,科学出版社,304页,2016年9月出版,ISBN:9787030497987。
B-4.Feng-Chen Li, Koichi Hishida, Particle Image Velocimetry Techniques and its Applications in Multiphase Systems, Chapter 3 (Pages 87-147) in “Advances in Chemical Engineering – Characterization of Flow, Particles and Interfaces”, Ed. Jing-Hai Li, Springer, ISBN 9780123747389, 2009.

湍流减阻、弹性湍流及流变学
J-1.Wenhua Zhang, Hong-Na Zhang, Bo Yu, Jingfa Li, Fengchen Li, “Comparison of turbulent drag reduction mechanisms of viscoelastic fluids based on the Fukagata-Iwamoto-Kasagi identity and the Renard-Deck identity”, Physics of Fluids 32 (2020) 013104.
J-2.Lu Wang, Zhi-Ying Zheng, Wei-Hua Cai, Feng-Chen Li*, "Drag reduction characterizations of turbulent channel flow with surfactant additive by proper orthogonal decomposition and wavelet transform", Korea-Australia Rheology Journal 32(1) 2020 1-14.
J-3.Zhi-Ying Zheng, Feng-Chen Li, Lu Wang, Xiao-Bin Li, Hong-Na Zhang, Wei-Hua Cai, Xin Zheng, “Experimental study on rheological and thermophysical properties of seawater with surfactant additive - Part II: Surface tension and thermal conductivity”, International Journal of Heat and Mass Transfer 127 (2018) 1367-1379.
J-4.Zhi-Ying Zheng, Feng-Chen Li, Lu Wang, Xiao-Bin Li, Hong-Na Zhang, Wei-Hua Cai, Xin Zheng, “Experimental study on rheological and thermophysical properties of seawater with surfactant additive - Part I: Rheological properties”, Rheologica Acta 57 (2018) 619-633.
J-5.Jian-Ping Cheng, Hong-Na Zhang, Wei-Hua Cai, Si-Ning Li, Feng-Chen Li, “Effect of polymer additives on heat transport and large-scale circulation in turbulent Rayleigh-Benard convection”, Physical Review E 96, 013111, 2017.
J-6.Yu-Ke Li, Zhi-Ying Zheng, Hong-Na Zhang, Feng-Chen Li, Shi-Zhi Qian, Sang Woo Joo, Ludmila V. Kulagina, “Numerical study on secondary flows of viscoelastic fluids in straight ducts: Origin analysis and parametric effects”, Computers & Fluids 152, 57-73, 2017.
J-7.Jingfa Li, Bo Yu, Lu Wang, Feng-Chen Li, Lei Hou, "A mixed subgrid-scale model based on ICSM and TADM for LES of surfactant-induced drag-reduction in turbulent channel flow", Applied Thermal Engineering 115, 1322-1329, 2017.
J-8.Hong-Na Zhang, Dong-Yang Li, Xiao-Bin Li, Feng-Chen Li, "Numerical simulation of heat transfer process of viscoelastic fluid flow at high Weissenberg number by log-conformation reformulation", ASME Journal of Fluid Engineering 139, 091402, 2017.
J-9.Lu Wang, Zhi-Ying Zheng, Wei-Hua Cai, Feng-Chen Li*, Yue Wang, "Wavelet analyses of coherent structures and intermittency in forced homogeneous isotropic turbulence with polymer additives", Advances in Mechanical Engineering 9(11), 1-12, 2017.
J-10.Lu Wang, Zhi-Ying Zheng, Jia-Qi Bao, Tong-Zhou Wei, Wei-Hua Cai, Feng-Chen Li*, "Wavelet analysis on the drag-reducing characteristics of turbulent channel flow with surfactant additive based on experimental data", Canadian Journal of Physics 95, 1115-1121, 2017.
J-11.Yue Wang, Wei-Hua Cai, Xin Zheng, Hong-Na Zhang, Feng-Chen Li, "Experimental study on two-oscillating grid turbulence with viscoelastic fluids based on PIV", Canadian Journal of Physics 95(12), 1271-1277, 2017.
J-12.Hong-Na Zhang, Feng-Chen Li, Xiao-Bin Li, Dong-Yang Li, Wei-Hua Cai, Bo Yu, “Characteristics and generation of elastic turbulence in a three-dimensional parallel plate channel using direct numerical simulation”, Chinese Physics B 25, 094701, 2016.
J-13.Yue Wang, Wei-Hua Cai, Tong-Zhou Wei, Hong-Na Zhang, Lu Wang, Feng-Chen Li*, Proper orthogonal decomposition analysis for two-oscillating grid turbulence with viscoelastic fluids. Advances in Mechanical Engineering 8(11), 1-13, 2016.
J-14.Feng-Chen Li, Lu Wang, Wei-Hua Cai, “A new mixed subgrid-scale model for large eddy simulation of turbulent drag-reducing flows of viscoelastic fluids”, Chinese Physics B 24, 074701, 2015.
J-15.Lu Wang, Wei-Hua Cai, Feng-Chen Li, “Large-eddy simulations of a forced homogeneous isotropic turbulence with polymer additives”, Chinese Physics B 23(3), 034701, 2014.
J-16.Feng-Chen Li, Juan-Cheng Yang, Wen-Wu Zhou, Yu-Rong He, Yi-Min Huang, Bao-Cheng Jiang, “Experimental study on the characteristics of thermal conductivity and shear viscosity of viscoelastic-fluid-based nanofluids containing multiwalled carbon nanotubes”, Thermochimica Acta 556, 47–53, 2013.
J-17.Hong-Na Zhang, Feng-Chen Li, Yang Cao, Bo Yu, “Direct numerical simulation of elastic turbulence and its mixing-enhancement effect in a straight channel flow”, Chinese Physics B 22(2), 024703, 2013.
J-18.Wei-Hua Cai, Feng-Chen Li*, Hong-Na Zhang, Yue Wang and Lu Wang, "The polymer effect on nonlinear processes in decaying homogeneous isotropic turbulence", Advances in Mechanical Engineering, Vol. 2013 (2013), Article ID 921524.
J-19.Feng-Chen Li, Wei-Hua Cai, Hong-Na Zhang, Yue Wang, “Influence of polymer additives on turbulent energy cascading in forced homogeneous isotropic turbulence studied by DNS”, Chinese Physics B 21(11) (2012) 114701.
J-20.Wei-Hua Cai, Feng-Chen Li, Hong-Na Zhang, Yue Wang, Lu Wang, “Analysis of coherent structures in drag-reducing polymer solution flow based on proper orthogonal decomposition”, Science China Series G-Physics Mechanics & Astronomy, Vol. 55(5) (2012), pp. 1-7.
J-21.Wei-Hua Cai, Feng-Chen Li, Hong-Na Zhang, “Exhaustive investigation of the interaction between polymer effect and velocity gradient tensor in decaying homogeneous isotropic turbulence”, Chinese Physics B, Vol. 20(12), 124702-1-14, 2011.
J-22.Wei-Hua Cai, Feng-Chen Li, Hong-Na Zhang, “DNS study of decaying homogeneous isotropic turbulence with polymer additives”, Journal of Fluid Mechanics, Vol. 665, pp. 334-356, 2010.
J-23.W.-H. Cai, F.-C. Li, H.-N. Zhang, X.-B. Li, B. Yu, J.-J. Wei, Y. Kawaguchi and K. Hishida, “Study on the characteristics of turbulent drag-reducing channel flow by PIV combining with POD analysis”, Physics of Fluids 21, 115103, 2009.
J-24.Feng-Chen Li, Bo Yu, Jin-Jia Wei, Yasuo Kawaguchi, Koichi Hishida, “Experimental study of drag-reduction mechanisms for a dilute surfactant solution flow”, International Journal of Heat and Mass Transfer, Vol 51(3-4) pp. 835-843, 2008.
J-25.Feng-Chen Li, Yong Dong, Yasuo Kawaguchi, and Marie Oshima, “Experimental study on swirling flow of dilute surfactant solution with deformed free-surface”, Experimental Thermal and Fluid Science, Vol. 33, pp. 161-168, 2008.
J-26.Feng-Chen LI, Masamichi OISHI, Yasuo KAWAGUCHI, Nobuyuki OSHIMA and Marie OSHIMA, “Experimental study on symmetry breaking in a swirling free-surface cylinder flow influenced by viscoelasticity”, Experimental Thermal and Fluid Science, Vol. 31(3), pp. 237-248, 2007.
J-27.F.-C. LI, Y. KAWAGUCHI, K. HISHIDA and M. OSHIMA “Investigation of turbulence structures in a drag-reduced turbulent channel flow with surfactant additive using stereoscopic particle image velocimetry”, Experiments in Fluids, Vol. 40, pp. 218-230, 2006.
J-28.F.-C. LI, Y. KAWAGUCHI, K. HISHIDA and M. OSHIMA “Investigation of turbulence structures in a drag-reduced turbulent channel flow with surfactant additive using stereoscopic particle image velocimetry”, Experiments in Fluids, Vol. 40, pp. 218-230, 2006.
J-29.Feng-Chen LI, Yasuo KAWAGUCHI and Koichi HISHIDA, “Structural analysis of turbulent transport in a heated drag-reducing channel flow with surfactant additives”, International Journal of Heat and Mass Transfer, Vol. 48(5), pp 965-973, 2005.
J-30.F.-C. LI, Y. KAWAGUCHI, T. SEGAWA and K. HISHIDA, “Reynolds-number dependence of turbulence structures in a drag-reducing surfactant solution channel flow investigated by PIV”, Physics of Fluids, Vol. 17(7), 075104, 2005.
J-31.F.-C. LI, Y. KAWAGUCHI and K. HISHIDA, “Investigation on the characteristics of turbulence transport for momentum and heat in a drag-reducing surfactant solution flow”, Physics of Fluids, Vol. 16(9), pp 3281-3295, 2004.
J-32.F.-C. LI, D.Z. WANG, Y. KAWAGUCHI and K. HISHIDA, “Simultaneous measurements of velocity and temperature fluctuations in thermal boundary layer in a drag-reducing surfactant solution flow”, Experiments in Fluids, Vol. 36, pp 131-140, 2004.

沸腾换热及强化传热
J-33.Dong-Sheng Guo, Xiao-Bin Li, Hong-Na Zhang, Feng-Chen Li, Wen-Tao Su, "Vapor bubble-bubble Penetration during Subcooled Pool Boiling", International Journal of Heat and Mass Transfer 159 (2020) 120142.
J-34.Dong-Sheng Guo, Xiao-Bin Li, Hong-Na Zhang, Feng-Chen Li, Wen-Tao Su, "Bubble behaviors during subcooled pool boiling in water and nonionic surfactant aqueous solution", International Journal of Heat and Mass Transfer 159 (2020) 120087.
J-35.Jue Wang, Yi Cheng, Xiao-Bin Li, Feng-Chen Li, “Experimental and LBM simulation study of bubbles merging effect on flow boiling”, International Journal of Heat and Mass Transfer 132 (2019) 1053-1061.
J-36.Jue Wang, Hiroto Sakashita, Feng-Chen Li, Michitsugu Mori, “Heat transfer and CHF in subcooled flow boiling of aqueous surfactant solutions”, Experimental Thermal and Fluid Sciences 93, 131-138, 2018.
J-37.Durga Bastakoti, Hong-Na Zhang, Da Li, Wei-Hua Cai, Feng-Chen Li, "An overview on the developing trend of pulsating heat pipe and its performance", Applied Thermal Engineering 141, 305-332, 2018.
J-38.Durga Bastakoti, Hong-Na Zhang, Wei-Hua Cai, Feng-Chen Li, "An experimental investigation of thermal performance of pulsating heat pipe with alcohols and surfactant solutions", International Journal of Heat and Mass Transfer 117, 1032-1040, 2018.
J-39.Jue Wang, Feng-Chen Li, “Experimental study on the characteristics of CHF and pressure fluctuations of surfactant solution flow boiling”, International Journal of Heat and Mass Transfer 115, 1004-1010, 2017.
J-40.Jue Wang, Feng-Chen Li, Xiao-Bin Li, “On the mechanism of boiling heat transfer enhancement by surfactant addition”, International Journal of Heat and Mass Transfer 101, 800-806, 2016.
J-41.Jue Wang, Feng-Chen Li, Xiao-Bin Li, “Bubble explosion in pool boiling around a heated wire in surfactant solution”, International Journal of Heat and Mass Transfer 99, 569–575, 2016.
J-42.Juan-Cheng Yang, Feng-Chen Li, Ming-Jiu Ni, Bo Yu, “Analysis of heat transfer performance for turbulent viscoelastic fluid based nanofluid using field synergy principle”, Science China – Technological Sciences 58, 1137–1145, 2015.
J-43.Juan-Cheng Yang, Feng-Chen Li, Wei-Hua Cai, Hong-Na Zhang, and Bo Yu, “Direct numerical simulation of viscoelastic-fluid-based nanofluid turbulent channel flow with heat transfer”, Chinese Physics B 24, 084401, 2015.
J-44.Juan-Cheng Yang, Feng-Chen Li, Wei-Hua Cai, Hong-Na Zhang, and Bo Yu, “On the mechanism of convective heat transfer enhancement in a turbulent flow of nanofluid investigated by DNS and analyses of POD and FSP”, International Journal of Heat and Mass Transfer 78, 277-288, 2014.
J-45.Juan-Cheng Yang, Feng-Chen Li, Yu-Rong He, Yi-Min Huang, Bao-Cheng Jiang, “Experimental study on the characteristics of heat transfer and flow resistance in a turbulent pipe flow of viscoelastic-fluid-based Cu nanofluid”, International Journal of Heat and Mass Transfer 62, 303-313, 2013.
J-46.Juan-Cheng Yang, Feng-Chen Li, Wen-Wu Zhou, Yu-Rong He, Bao-Cheng Jiang, “Experimental investigation on the thermal conductivity and shear viscosity of viscoelastic-fluid-based nanofluids”, International Journal of Heat and Mass Transfer 55 (2012) 3160–3166.

核能工程与辐射防护
J-47.Baojie Nie, Sheng Fang, Man Jiang, Laishun Wang, Muyi Ni, Jiye Zheng, Zhiyi Yang, Fengchen Li, “Anthropogenic tritium: inventory, discharge, environmental behavior and health effects”, Renewable & Sustainable Energy Reviews 135 (2021) 110188.
J-48.Baojie Nie, Jin-Min Yang, Yuan Yuan, Feng-Chen Li*, “Additional radiation dose due to atmospheric dispersion of tritium evaporated from a hypothetical reservoir”, Applied Radiation and Isotopes 167 (2021) 109475.
J-49.Laishun Wang, Kai Wang, Nejdet Erkan, Yuan Yuan, Jiayue Chen, Baojie Nie, Fengchen Li, Koji Okamoto, “Metal material surface wettability increase induced by electron beam irradiation”, Applied Surface Science 511 (2020) 145555.
J-50.Laishun Wang, Yuan Yuan, Nejdet Ekan, Haiguang Gong, Khan Abdul, Fengchen Li, Koji Okamoto, “Influence of surface wettability increase induced by Gamma-ray irradiation on critical heat flux in downward-facing flow boiling”, Annals of Nuclear Energy 142 (2020) 107420.
J-51.Laishun Wang, Yuan Yuan, Nejdet Ekan, Fengchen Li, Koji Okamoto, “Effect of Metal Honeycomb Structure on Enhancing CHF in Saturated Downward-facing Flow Boiling”, International Journal of Heat and Mass Transfer 149 (2020) 119244.
J-52.Baojie Nie, Jinmin Yang, Wei Wang, Zhixing Gu, Yuan Yuan, Fengchen Li, “Numerical study on tritium dispersion in coastal waters: The case of Hangzhou Bay, China”, Journal of Hydrology 590 (2020) 125532.
J-53.Baojie Nie, Muyi Ni, Jinchao Liu, Zhilin Zhu, Zuolong Zhu, Fengchen Li, “Insights into potential consequences of fusion hypothetical accident, lessens learnt from the former fission accidents”, Environmental Pollution 245 (2019) 921-931.
J-54.Baojie Nie, Qin Zeng, Guangming Ran, Muyi Ni, Zuolong Zhu, Xueli Zhao, Fengchen Li, “Insights into fuel start-up and self-sufficiency for fusion energy: The case of CFETR”, Energy Science & Engineering 7 (2019) 457-468.
J-55.Baojie Nie, Man Jiang, Muyi Ni, Fengchen Li, “Preliminary environment radiation considerations for CFETR”, Fusion Engineering and Design 140 (2019) 16-22.
J-56.Jian-Ping Cheng, Li-Ming Yan, Feng-Chen Li, “CFD simulation of a four-loop PWR at asymmetric operation conditions”, Nuclear Engineering and Design 300, 591-600, 2016.
J-57.F.-C. Li, D. Sutevski, S. Smolentsev, M. Abdou, “Experimental and numerical studies of pressure drop in molten PbLi flows in a circular duct under non-uniform transverse magnetic field”, Fusion Engineering and Design 88, 3060-3071, 2013.
J-58.Feng-Chen LI, Tomoaki KUNUGI and Akimi SERIZAWA, “MHD effect on the flow structures and heat transfer characteristics of liquid metal-gas annular flow in a vertical pipe”, International Journal of Heat and Mass Transfer, Vol. 48(12), pp. 2571-2581, 2005.
J-59.Feng-Chen LI and Akimi SERIZAWA, “Experimental study on flow characteristics of a vertically falling film flow of liquid metal NaK in a transverse magnetic field”, Fusion Engineering and Design, Vol. 70(2), pp 185-199, 2004.

微尺度流动与换热及微流控
J-60.Chao Yuan, Hong-Na Zhang, Xiao-Bin Li, Feng-Chen Li, “Numerical study on the characteristics of Boger type viscoelastic fluid flow in a micro cross-slot under sinusoidal stimulation”, Entropy 22 (2020) 64.
J-61.Chao Yuan, Hong-Na Zhang, Xiao-Bin Li, Feng-Chen Li, “Nonlinear effect in viscoelastic fluid flows and its application in microfluidics: A review”, Proceedings of the Institution of Mechanical Engineers Part C - Journal of Mechanical Engineering Science 234 (2020) 4390-4414.
J-62.Si-Ning Li, Hong-Na Zhang, Jian-Ping Cheng, Xiao-Bin Li, Feng-Chen Li, Wei-Hua Cai, “A state-of-the-art overview on developing trend of heat transfer enhancement by single-phase flow at micro scale”, International Journal of Heat and Mass Transfer 143 (2019) 118476.
J-63.Hong-Na Zhang, Si-Ning Li, Jian-Ping Cheng, Zhi-Ying Zheng, Xiao-Bin Li, Feng-Chen Li, “Numerical study on the pulsating effect on heat transfer performance of pseudo-plastic fluid flow in a manifold microchannel heat sink”, Applied Thermal Engineering 129, 1092-1105, 2018.
J-64.Si-Ning Li, Hong-Na Zhang, Xiao-Bin Li, Qian Li, Feng-Chen Li, Shizhi Qian, Sang Woo Joo, “Numerical study on the heat transfer performance of non-Newtonian fluid flow in manifold microchannel heat sink”, Applied Thermal Engineering 115, 1213-1225, 2017.
J-65.Dong-Yang Li, Hong-Na Zhang, Jian-Ping Cheng, Xiao-Bin Li, Feng-Chen Li, Shi-Zhi Qian, Sang Woo Joo, "Numerical simulation of heat transfer enhancement by elastic turbulence in a curvy channel", Microfluidics & Nanofluidics 21: Article No. 25: 1-16, 2017.
J-66.Dong-Yang Li, Xiao-Bin Li, Hong-Na Zhang, Feng-Chen Li, "Efficient heat transfer enhancement by polymer solution in a curvy microchannel", Microfluidics & Nanofluidics 21: Article No. 10: 1-13, 2017.
J-67.Xiao-Bin Li, Masamichi Oishi, Marie Oshima, Feng-Chen Li, Song-Jing Li, “Measuring elasticity-induced unstable flow structures in a curved microchannel using confocal micro particle image velocimetry”, Experimental Thermal and Fluid Science 75, 118-128, 2016.
J-68.Dong-Yang Li, Xiao-Bin Li, Hong-Na Zhang, Feng-Chen Li, Shi-Zhi Qian, Sang W. Joo “Measuring heat transfer performance of viscoelastic fluid flow in curved microchannel using Ti–Pt film temperature sensor”, Experimental Thermal and Fluid Sciences 77, 226–233, 2016.
J-69.Xiao-Bin Li, Feng-Chen Li, Wei-Hua Cai, Hong-Na Zhang, Juan-Cheng Yang, “Very-low-Re chaotic motions of viscoelastic fluid and its unique applications in microfluidic devices: A Review”, Experimental Thermal and Fluid Science, Vol. 39 (2012), pp. 1-16.
J-70.F.-C. Li, H. Kinoshita, X.-B. Li, M. Oishi, T. Fujii, M. Oshima, “Creating low-Reynolds-number chaotic flow motions in microchannels using viscoelastic surfactant solution”, Experimental Thermal and Fluid Science 34 (2010) 20–27.
J-71.Xiao-Bin Li, Feng-Chen Li, Juan-Cheng Yang, Haruyuki Kinoshita, Masamichi Oishi and Marie Oshima, “Study on the mechanism of droplet formation in T-junction microchannel”, Chemical Engineering Science, Vol. 69 (2012), pp. 340-351.
J-72.Yu-Ke Li, Hong-Na Zhang, Yong-Yao Li, Xiao-Bin Li, Jian Wu, Shizhi Qian, Feng-Chen Li, “Dynamic control of particle separation in deterministic lateral displacement separator with viscoelastic fluids”, Scientific Reports 8, 3618, 2018.
J-73.M. Zhang, W. Zhang, A.Q. Liu, F.-C. Li, C.-F. Lan, “Tunable polarization conversion and rotation based on a reconfigurable metasurface”, Scientific Reports 7, 12068, 2017.
J-74.Xiao-Bin Li, Masamichi Oishi, Tsukasa Matsuo, Marie Oshima, Feng-Chen Li, “Measurement of viscoelastic fluid flow in the curved microchannel using digital holographic microscope and polarized camera”, ASME Journal of Fluid Engineering 138, 091401 (8 pages), 2016.
J-75.Xiao-Bin Li, Feng-Chen Li, Hong-Na Zhang, Wei-Hua Cai, Haruyuki Kinoshita, Masamichi Oishi, Marie Oshima, “Droplet dynamics of viscoelastic fluid under very low interfacial tension in a T-junction microchannel”, Microfluidics and Nanofluidics 18, 1007-1021, 2015.

超空化与气液两相流
J-76.Zhi-Ying Zheng, Qian Li, Lu Wang, Li-Ming Yao, Wei-Hua Cai, Vladimir A Kulagin, Hui Li, Feng-Chen Li, “Numerical study on the effect of steam extraction on hydrodynamic characteristics of rotational supercavitating evaporator for desalination”, Desalination 455 (2019) 1-18.
J-77.Zhi-Ying Zheng, Qian Li, Lu Wang, Li-Ming Yao, Wei-Hua Cai, Hui Li, Vladimir A. Kulagin, Feng-Chen Li, “Numerical study on morphological characteristics of rotational natural supercavitation by rotational supercavitating evaporator with optimized blade shape”, Journal of Hydrodynamics 32 (2020) 468-485.
J-78.Chen-Xing Jiang, Shu-Lei Li, Feng-Chen Li, Wan-You Li, “Numerical study on axisymmetric ventilated supercavitation influenced by drag-reducing additives”, International Journal of Heat and Mass Transfer 115, 62-76, 2017.
J-79.F.-C. LI, Y. KAWAGUCHI, T. SEGAWA and K. SUGA, “Wave-turbulence interaction at the free surface of a low-speed plane liquid wall jet investigated by particle image velocimetry”, Physics of Fluids, Vol. 17(8), 082101, 2005.
J-80.Chen-Xing Jiang, Zhi-Jun Shuai, Xiang-Yuan Zhang, Wan-You Li, Feng-Chen Li, “Numerical Study on evolution of axisymmetric natural supercavitation influenced by turbulent drag-reducing additives”, Applied Thermal Engineering 107, 797–803, 2016.
J-81.Chen-Xing Jiang, Zhi-Jun Shuai, Xiang-Yuan Zhang, Wan-You Li, Feng-Chen Li, “Numerical study on the transient behavior of water-entry supercavitating flow around a cylindrical projectile influenced by turbulent drag-reducing additives”, Applied Thermal Engineering 104, 450-460, 2016.
J-82.Zhi-Ying Zheng, Lu Wang, Wei-Hua Cai, Xin Zheng, Qian Li, Tomoaki Kunugi, Hui Li, Feng-Chen Li, “Spatiotemporal evolution of rotational natural cavitation in rotational supercavitating evaporator for desalination”, ASME Journal of Fluid Engineering 142 (2020) 051205.
J-83.Chen-Xing Jiang, Feng-Chen Li, “Experimental study on the characteristics of ventilated cavitation around an underwater navigating body influenced by turbulent drag-reducing additives”, Science China-Physics Mechanics & Astronomy 58, 594703, 2015.
J-84.Zhi-Ying Zheng, Feng-Chen Li, Qian Li, Vladimir A. Kulagin, “Numerical study on the characteristics of natural supercavitation by planar symmetric wedge-shaped cavitators for rotational supercavitating evaporator”, Science China – Technological Sciences 58, 1072-1083, 2015.
J-85.Dmitriy S. Likhachev, Feng-Chen Li, Vladimir A. Kulagin, “Experimental study on the performance of a rotational supercavitating evaporator for desalination”, Science China-Technological Sciences 57, 2115-2130, 2014.
J-86.Dmitriy S. Likhachev, Feng-Chen Li, “Modeling of a rotational supercavitating evaporator and geometrical characteristics of supercavity within”, Science China-Physics Mechanics & Astronomy 57, 541-554, 2014.
J-87.Dmitriy S. Likhachev, Feng-Chen Li, “Numerical study of the characteristics of the supercavitation on a cone in bounded axial water flow”, Desalination and Water Treatment 52, 7053-7064, 2014.
J-88.Dmitriy S. Likhachev, Feng-Chen Li, “On Large-scale industrial water desalination methods: A review and new perspectives”, Desalination and Water Treatment 51, 2836-2849, 2013.

其他学科交叉
J-89.Xiaobin Li, Maxime Binama, Wentao Su, Weihua Cai, Alexis Muhirwa, Biao Li, Fengchen Li, "Runner blade number influencing RPT runner flow characteristics under off-design conditions", Renewable Energy 152 (2020) 876-891.
J-90.Feng-Chen Li, "An abundant and renewable potential energy source - Harvestable energy under vehicle wheels", Global Challenges 2019, 1800096, 2019.
J-91.Yun Jia, Xianzhu Wei, Qianyun Wang, Jinsheng Cui, Fengchen Li, "Experimental study of the effect of splitter blades on performance characteristics of a Francis turbine", Energies 12 (2019) 1676.
J-92.Maxime Binama, Wen-Tao Su, Wei-Hua Cai, Feng-Chen Li, Xian-Zhu Wei, Alex Muhirwa, Ru-Zhi Gong, David W. Wekesa, "Investigation on reversible pump turbine flow structures and associated pressure field characteristics under different guide vane openings", Science China - Technological Sciences 62 (2019) 2052-2074.
J-93.Mohammed Amin Boukenkoul, Feng-Chen Li, Wen-Li Chen, Hong-Na Zhang, “Lift-generation and moving-wall flow control over a low aspect ratio airfoil”, ASME Journal of Fluid Engineering 140, 011104, 2018.
J-94.Maxime Binama, Wen-Tao Su, Xiao-Bin Li, Feng-Chen Li, Xian-Zhu Wei, Shi An, “Investigation on pump as turbine (PAT) technical aspects for micro hydropower schemes: A state-of-the-art review”, Renewable & Sustainable Energy Reviews 79, 148-179, 2017.
J-95.Yun Jia, Feng-Chen Li, Xian-Zhu Wei, Xiao-Bin Li, Zhi-He Li, “A method for analysis of head cover deformation and vibration amplitude in Francis hydro-turbine system by combination of CFD and FEA”, Journal of Mechanical Science and Technology 31(9), 4255-4266, 2017.
J-96.Wen-Tao Su, Xiao-Bin Li, Chao-Feng Lan, Shi An, Jian-Sheng Wang and Feng-Chen Li, "Chaotic dynamic characteristics of pressure fluctuation signals in hydro-turbine", Journal of Mechanical Science and Technology 30, 5009-5017, 2016.
J-97.Xian-Zhu Wei, Wen-Tao Su, Xiao-Bin Li, Feng-Chen Li, Lei Guo, “Effect of blade perforation on Francis hydro-turbine cavitation characteristics”, Journal of Hydraulic Research 52(3), 412-420, 2014.
J-98.Ru-Zhi Gong, Hong-Jie Wang, Quan-Zhong Liu, Ling-Feng Shu, Feng-Chen Li. "Numerical simulation and rotor dynamic stability analysis on a large hydraulic turbine", Computers & Fluids 88, 11-18, 2013.
J-99.W.-L. Chen, H. Li, J.-P. Ou, F.-C. Li, "Numerical simulation of vortex-induced vibrations of inclined cables under different wind profiles", Journal of Bridge Engineering 18, pp. 42-53, 2013.
J-100.Shujin Laima, Hui Li, Wenli Chen, Fengchen Li, "Investigation and control of vortex-induced vibration of twin box girders", Journal of Fluids and Structures 39 (2013) 205-221.
J-101.Wen-Tao Su, Feng-Chen Li, Xiao-Bin Li, Xian-Zhu Wei, Yue Zhao, “Assessment of LES performance in simulating the complex 3D flows in turbo-machine”, Engineering Applications of Computational Fluid Mechanics 6(3) (2012) 355-364.
Feng-Chen Li, Wen-Li Chen, Hui Li, Rui Zhang, “An ultrasonic transmission thickness measurement system for study of water rivulets characteristics of stay cables suffering from wind-rain-induced vibration”, Sensors and Actuators A: Physical, Vol. 159, pp. 12-23, 2010.

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