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基本信息


哈尔滨工业大学

教授、博士生导师

教育经历
1998.4 – 2001.3 京都大学（日本），工学院核能工程系，两相流动与能量转换专业，博士研究生。

获工学博士学位（2002.3）

1993.9 – 1996.7 中国原子能科学研究院，反应堆工程及安全研究设计所，反应堆工程及反应堆安全专业， 硕士研究生。

获工学硕士学位

1989.9 – 1993.7 天津大学，热能工程系，工程热物理专业，本科。

获工学学士学位

工作经历
2006.08 – 2017.08 哈尔滨工业大学，能源科学与工程学院，教授（博士生导师）。

2008.09 – 2017.08 哈尔滨工业大学，能源科学与工程学院，核能工程中心，主任。

2007.10 – 2015.03 哈尔滨工业大学，能源科学与工程学院，流体机械及工程研究所，副所长。

2015.01 – 2015.11 哈尔滨工业大学，能源科学与工程学院，副院长。

2015.11 – 2017.04 加州大学洛杉矶分校（UCLA，美国），机械及航天工程系，核聚变科学与技术中心，访问教授。

2014.01 东京理科大学（日本），机械工程系，访问教授。

2011.04 - 2013.09 加州大学洛杉矶分校（UCLA，美国），机械及航天工程系，核聚变科学与技术中心，访问教授。

2004.11 – 2006.08 东京大学（日本），生产技术研究所, 日本学术振兴会研究员。

2002.04 – 2004.11 产业技术综合研究所（日本）, 特别研究员。

2001.04 – 2002.03 海上技术安全研究所（日本），特别研究员。

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

获奖/荣誉
黑龙江省科学技术奖（自然类）二等奖, 2015（排名5）

黑龙江省科学技术奖（自然类）一等奖, 2014（排名1）

President Award of Tokyo University of Science, 2014

吴仲华优秀青年学者奖, 2009

入选教育部新世纪优秀人才支持计划, 2007

Japan Society for the Promotion of Science (JSPS) Fellowship Award, 2004

中国核工业总公司科技进步二等奖, 1998（排名5）

Best Paper Award (1997): Feng-Chen Li, Runbin Zhou, Guohua Xu, Riqi Yao, Guofeng Wei, "Cold leg small break LOCA experiments at HPITF - Effect of break area", The 5th International Topical Meeting on Nuclear Thermal Hydraulics, Operations & Safety (NUTHOS-5), Beijing, China, 1997

主要任职
2003.04 - 至今 美国机械工程师学会（ASME: American Society of Mechanical Engineers）会员；

2008 – 至今 国家自然科学基金通讯评审专家；

2012.02 – 至今 European Research Council (欧洲科研委员会)通讯评审专家；

2012.08 – 至今 浙江省自然科学基金委通讯评审专家；

2013.11 - 至今 黑龙江省核学会会员；

2013 - 2017 教育部高等学校核工程类专业教学指导委员会委员；

2014.09 - 至今 教育部高等学校科学研究优秀成果奖函审评审专家；

2014.11 - 至今 国家科技奖励函审评审专家

New Journal of Physics

Microfluidics and Nanofluidics

Journal of Micromechanics and Microengineering

International Journal of Heat and Mass Transfer

International Journal of Thermal Sciences

Measurement Science and Technology

Experiments in Fluids

Experimental Thermal and Fluid Science

Fusion Engineering and Design

Fusion Science and Techonlogy

Science China: Physics, Mechanics & Astronomy

Chinese Physics B

ASME Journal of Fluids Engineering

ASME Journal of Heat Transfer

Experimental Heat Transfer

等26个英文期刊和10余个中文期刊审稿人。

团队成员组成


教师：

李凤臣：工学博士，教授，博士生导师（http://homepage.hit.edu.cn/pages/lifengchen）

蔡伟华：工学博士，副教授，博士生导师（http://homepage.hit.edu.cn/pages/caiweihua）

李小斌：工学博士，副教授，硕士生导师 ( http://homepage.hit.edu.cn/pages/lixiaobin )



博士后：

兰朝凤：工学博士（哈尔滨工程大学），2014年9月入站，研究方向为粘弹性流体湍流的混沌理论

张红娜：工学博士（日本京都大学），2015年9月入站，研究方向为动电效应作用下粘弹性流体内粒子输运特性与机理



博士研究生：

李东阳：2012年9月入学，研究方向为微尺度通道内弹性湍流特性实验及数值模拟

郑智颖：2013年9月入学，研究方向为超空泡海水淡化技术研究

王 悦：2013年9月入学，研究方向为流体粘弹性对网格湍流特性及湍流标度律影响规律研究

张 梦：2014年4月入学，研究方向为粘弹性流体微流动控制及传热

贾 允：2014年4月入学（同等学力），研究方向为水轮机设计方法研究

韦同舟：2014年9月入学，研究方向为粘弹性流体热对流特性实验研究

Amine Boukenkoul (布克): 2014年9月入学，研究方向为湍流边界层分离的主动控制

Durga Bastakoti (杜尔加): 2015年9月入学，研究方向为应用复杂流体的振荡热管传热特性研究

Maxime Binama (马西): 2015年9月入学，研究方向为水泵水轮机内瞬变流动及振动特性分析

王 珏：2015年9月入学，研究方向为粘弹性流体沸腾传热特性

程建平：2015年9月入学，研究方向为粘弹性流体Rayleigh-Benard热对流特性及机理

Alex Muhirwa: 2016年9月入学，研究方向为水轮机内复杂湍流场特性实验研究

李禹克：2016年9月入学，研究方向为动电作用下粘弹性流体微尺度流动

李思宁：2016年9月入学，研究方向为粘弹性流体微尺度强化传热



硕士研究生：




已毕业研究生
工学博士：

1. 陈文礼：2004.03-2009.04（副导师，协助指导），博士论文题目《斜拉索风雨激振的试验研究与数值模拟》，留校任教，现为哈工大土木学院 教授、博士生导师

2. 蔡伟华：2008.09 - 2011.04，博士论文题目《粘弹性流体各向同性湍流特性研究》，获第14届哈尔滨工业大学优秀博士论文奖，留校任教，现为哈工大能源学院 副教授、博士生导师

3. 李小斌：2008.09 - 2012.04，博士论文题目《粘弹性流体微尺度流动特性研究》，留校任教，现为哈工大能源学院 副教授、硕士生导师

4. Dmitriy S. Likhachev: 2009.09 - 2013.07，博士论文题目《Study on the hydrodynamic characteristics of rotational supercavitation evaporator》，毕业后赴浙江大学化工学院化工机械研究所做博士后工作

5. 阳倦成：2010.09 - 2013.07，博士论文题目《粘弹性流体基纳米流体流动与换热特性研究》，毕业后赴中国科学院大学物理学院做师资博士后，现为西安交通大学航天学院 副教授

6. 苏文涛：2009.09 - 2014.07，博士论文题目《大型混流式水轮机模型内部流动稳定性研究》，毕业后留校工作，现任职于哈工大人事处

7. 姜晨醒：2011.09 - 2015.03，博士论文题目《湍流减阻添加剂对超空泡流动的影响机理研究》，毕业后赴哈尔滨工程大学动力与能源工程学院做师资博士后

8. 王璐：2012.09 - 2016.03，博士论文题目《粘弹性流体湍流减阻流动大涡数值模拟研究》，毕业后赴哈尔滨工程大学航天与建筑工程学院，任讲师



工学硕士：

1. 焦利芳：2006.09 - 2008.07，硕士论文题目《添加剂减阻技术在集中供暖系统中的节能应用》，毕业后赴日本京都大学攻读博士学位，目前就职于日本原子力研究所

2. 苏文涛：2007.09 - 2009.07，硕士论文题目《弱腐蚀性两性表面活性剂减阻剂特性实验研究》，毕业后继续攻读博士学位

3. 邹志林：2007.09 - 2009.07，硕士论文题目《表面活性剂对超空泡特性影响实验研究》，毕业后在中广核大亚湾核电厂工作

4. 阳倦成：2008.09 - 2010.07，硕士论文题目《Taylor-Couette流动不稳定现象研究》，毕业后继续攻读博士学位

5. 张红娜：2008.09 - 2010.07，硕士论文题目《粘弹性流体三维Kolmogorov流动弹性湍流直接数值模拟研究》，毕业后继续攻读博士学位

6. 曹 阳：2009.09 - 2011.07，硕士论文题目《粘弹性流体微通道流动特性及其强化混合应用研究》，毕业后继续攻读博士学位

7. 姜晨醒：2009.09 - 2011.07，硕士论文题目《减阻溶液中超空泡数值模拟研究》，毕业后继续攻读博士学位

8. 周英博：2009.09 - 2011.07，硕士论文题目《表面活性剂溶液胶束聚集数与流变特性和减阻效率研究》，毕业后在哈尔滨市质量监督局工作

9. 王 璐：2010.09 - 2012.07，硕士论文题目《粘弹性流体强迫各向同性湍流大涡数值模拟研究》，毕业后继续攻读博士学位

10. 李东阳：2010.09 - 2012.07，硕士论文题目《粘弹性流体基纳米流体湍流对流换热直接数值模拟研究》，毕业后继续攻读博士学位

11. 周文武：2010.09 - 2012.07，硕士论文题目《粘弹性流体基纳米流体导热系数与粘度研究》，毕业后赴美国Iowa State University攻读博士学位

12. 郑智颖：2011.09 - 2013.07，硕士论文题目《FLUENT在粘弹性流体流动数值模拟中的应用》，毕业后继续攻读博士学位

13. 徐鸿鹏：2011.09 - 2013.07，硕士论文题目《粘弹性流体基纳米流体流变学物性研究》，毕业后在西安航空动力试验技术研究所工作

14. 阳大清：2011.09 - 2013.07，硕士论文题目《结构参数对绕管式换热器壳侧流动与传热特性影响研究》，毕业后在国家知识产权局专利审查协作广东中心（广州）工作

15. 韦同舟：2012.09 - 2014.07，硕士论文题目《粘弹性流体振荡网格湍流PIV实验研究》，毕业后继续攻读博士学位

16. 韩文福：2012.09 - 2014.07，硕士论文题目《中比转数混流式水轮机尾水管压力脉动特性研究》，毕业后在国家电网新源控股有限公司（北京）工作

17. 李书磊：2012.09 - 2014.07，硕士论文题目《减阻溶液中轴对称水下航行体通气超空泡数值模拟研究》，毕业后继续攻读博士学位

18. 程建平：2013.09 - 2015.07，硕士论文题目《基于CFD的四环路压水堆偏环运行数值模拟》，毕业后继续攻读博士学位

19. 李 倩：2013.09 - 2015.07，硕士论文题目《旋转超空泡蒸发器叶片参数优化的数值模拟研究》，毕业后继续攻读博士学位

20. 鲍佳麒：2014.09 - 2016.07，硕士论文题目《边界层注入减阻剂湍流减阻特性实验研究》，毕业后在国核工程有限公司（上海）工作

21. 杨东爽：2014.09 - 2016.07，硕士论文题目《天然气井下涡流工具旋流特性研究及结构参数优化》，毕业后在一家软件公司（北京）工作

22. 王泽鸣：2014.09 - 2016.07，硕士论文题目《VVER-1000偏环运行蒸汽发生器换热特性数值模拟研究》，毕业后在中国原子能科学研究院工作

主要研究领域
2006年9月开始，筹建了复杂流动与传热实验室，目前的主要研究兴趣，是通过改变流体物性来达到流动控制和强化换热的目的。具体研究内容包括：

添加剂湍流减阻流动与换热： 研究表面活性剂水溶液湍流减阻流动机理、对流换热机理及强化对流换热方法； 表面活性剂减阻剂在实际集中供热/供冷系统中节能方面的应用研究，湍流减阻流动大涡数值模拟方法等。低雷诺数弹性湍流： 研究流体粘弹性引起的低雷诺数（甚至小于1）弹性湍流特性、发生机制及控制方法；与一般高雷诺数惯性湍流类比，研究惯性湍流耗散尺度特性，弹性湍流直接数值模拟方法等。微尺度流动与换热： 利用粘弹性流体在微尺度通道内获得弹性湍流，研究微尺度通道内弹性湍流发生方法、流动特性及换热特性，拓展粘弹性流体在微流动方面的应用，例如开发新型高效微尺度换热器、有流动控制机能的生物芯片等。粘弹性流体基纳米流体：确立以粘弹性流体为基液的纳米流体配制方法，探索获得湍流减阻效果的同时，强化湍流对流换热方法，粘弹性流体基纳米流体在微尺度通道内的流动与传热特性等。气液两相流： 添加剂超空泡流动控制（流动减阻及海水淡化、污水净化技术），添加剂强化沸腾换热，微气泡与添加剂溶液同时注入法湍流减阻，微气泡污水环境净化等。同时从事如下交叉学科研究内容：

流体动力学测试技术及数值模拟技术： 复杂环境下流动或流体物性测试技术开发（如高温腐蚀性液态金属流动压差测量、旋转流体机械内复杂湍流场测量、斜拉索表面雨线动态特性测量、变剪切率条件下纳米流体导热系数测量等）、复杂流动数值模拟技术（如旋转机械内复杂湍流场数值模拟技术、粘弹性流体高雷诺数湍流减阻流动大涡数值模拟技术、粘弹性流体极低雷诺数弹性湍流直接数值模拟技术、液态金属磁流体动力学瞬变现象数值模拟技术等）。液态金属磁流体动力学：以磁约束核聚变反应器为应用背景的液态金属磁流体动力学（特殊测试技术、通道插件特性、表面特性等）。土木风工程：大跨度桥梁结构风致振动、风雨致振动机理及尺度效应和雷诺数效应等。


主要科研项目
国家自然科学基金面上项目（**）：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

教育部博士点基金（博导类）项目（**020）：粘弹性流体湍流减阻流动奇异标度律特性及亚格子模型研究，2012.1 – 2014.12，项目负责人

国家自然科学基金面上项目（**）：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

哈尔滨工业大学基础研究杰出人才培育计划项目（HIT.BRET1.**）：基于改变流体物性的流动控制技术研究，2010.10 – 2012.10，项目负责人

国家自然科学基金面上项目（**）：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

科技部国际科技合作项目（2009DFR60120）：高性能核电系统强化换热技术与高效换热器研究，2009.1 – 2011.12，主要参加人

哈尔滨市科技攻关计划项目（2009AA2AG023）：强化换热技术与高效换热器研究，2009.1 – 2011.12，主要参加人

教育部留学回国人员科研启动基金：界面活性剂水溶液的湍流减阻流动与换热研究，2009.1 – 2010.12，项目负责人

国家自然科学基金重大研究计划面上项目（**）：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

教育部新世纪优秀人才支持计划项目（NCET-07-0235）：粘弹性减阻流体在集中供热系统中的应用及微尺度通道内弹性湍流的流动与换热，2008.1 – 2010.12，项目负责人

哈尔滨市科技创新人才研究专项资金项目（2006RFLXS013）：建筑物集中供热系统节能研究，2006.10 – 2008.10，项目负责人

哈尔滨工业大学海内外引进人才科研启动项目（**）：粘弹性非牛顿流体的湍流减阻与微尺度通道弹性湍流研究，2006.10 – 2008.12，项目负责人

招生信息
主讲研究生课程：

高等流体力学；粘性流体力学；流体动力学先进测试技术主讲本科生课程：

核反应堆物理分析；核反应堆安全分析；工程流体力学；流体力学创新实验课主讲留学生课程：

Fluid Mechanics招收如下专业方向的博、硕研究生：

工程热物理流体力学流体机械及工程应用数学核能科学与工程


论文专著
已出版专著 5 部、专著章节 1 章，发表学术论文 300 余篇，其中SCI源刊论文104篇。 主要论文专著列表如下： 著书或章节 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. Prof. Jing-Hai Li, Springer, ISBN **89, 2009（章节）.Feng-Chen Li, Bo Yu, Jin-Jia Wei, Yasuo Kawaguchi, Turbulent drag reduction by surfactant additives, John Wiley & Sons (Asia) Pet Ltd., ISBN **72, March 2012（英文专著）; 中文版本如下：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，ISBN **51, 2012年6月出版.

Demidenko N.D., Kulagin V.A. Shokin Y.I., Li F.-C., Heat and mass transfer and supercavitation (俄文), Novosibirsk: NAUKA, ISBN **65, 2016.

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，ISBN **87, 2016年9月出版.

葛耀君，陈政清，李惠，廖海黎，李凤臣，“大跨桥梁的风致灾变”，科学出版社，ISBN **61, 2016年10月出版.

V.A. Kulagin, L.V. Kulagina, F.-C. Li, "Fundamentals of cavitation treatment of multi-component environments", RU-Science, Moscow, ISBN **26, 2017.

代表性英文杂志论文 70. J.-P. Cheng, H.-N. Zhang, W-H. Cai, S.-N. Li, F.-C. Li, "Effect of polymer additives on heat transport and large-scale circulation in turbulent Rayleigh-Benard convection", Physical Review E 96, 013111, 2017.

69. H.-N. Zhang, D.-Y. Li, X.-B. Li, F.-C. 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. (SCI, EI)

68. M. Binama, W.-T. Su, X.-B. Li, F.-C. Li, X.-Z. Wei, S. An, "Investigation on pump as turbine (PAT) techincal aspects for micro hydropower schemes: A state-of-teh-art review", Renewable & Sustainable Energy Reviews 79, 148-179, 2017. (SCI, EI)

67. Y.-K. Li, Z.-Y. Zheng, H.-N. Zhang, F.-C. Li, S.-Z. Qian, S.W. Joo, L.V. Kulagina, "Numerical study on secondary flows of viscoelastic fluids in straight ducts: Origin analysis and parametric effects", Computers & Fluids 152, 57-73, 2017. (SCI, EI)

66. D.-Y. Li, X.-B. Li, H.-N. Zhang, F.-C. Li, "Efficient heat transfer enhancement by polymer solution in a curvy microchannel", Microfluidics & Nanofluidics 21, Article No. 10: 1-13, 2017. (SCI, EI)

65. D.-Y. Li, H.-N. Zhang, J.-P. Cheng, X.-B. Li, F.-C. Li, S.-Z. Qian, S. W. Joo, "Numerical simulation of heat transfer enhancement by elastic turbulence in a curvy channel", Microfluidics & Nanofluidics 21, Article No. 25: 1-16, 2017. (SCI, EI)

64. S.-N. Li, H.-N. Zhang, X.-B. Li, Q. Li, F.-C. Li, S.-Z. Qian, S.W. 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. (SCI, EI)

63. J. Wang, F.-C. Li, X.-B. Li, "On the mechanism of boiling heat transfer enhancement by surfactant addition", International Journal of Heat and Mass Transfer 101, 800-806, 2016. (SCI, EI)

62. J. Wang, F.-C. Li, X.-B. Li, "Bubble explosion in pool boiling around a heated wire in surfactant solution", International Journal of Heat and Mass Transfer 99, 569-576, 2016. (SCI, EI)

61. C.-X. Jiang, Z.-J. Shuai, X.-Y. Zhang, W.-Y. Li, F.-C. Li, "Numerical study on evolution of axisymmetric natural supercavitation influenced by turbulent drag-reducing additives", Applied Thermal Engineering 107, 797-803, 2016. (SCI, EI)

60. C.-X. Jiang, Z.-J. Shuai, X.-Y. Zhang, W.-Y. Li, F.-C. 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. (SCI, EI)

59. H.-N. Zhang, F.-C. Li, X.-B. Li, D.-Y. Li, W.-H. Cai, B. Yu, "Characteristics and generation of elastic turbulence in a three-dimensional parallel plate channel using direct numerical simulation", Chinese Physics B 25, 094701, 2016. (SCI, EI)

58. X.-B. Li, M. Oishi, T. Matsuo, M. Oshima, F.-C. Li, "Measurement of viscoelastic fluid flow in the curved microchannel using digital holographic microscope and polarized camera", ASME Journal of Fluid Engineering 138, 091401, 2016. (SCI, EI)

57. J.-P. Cheng, L.-M. Yan, F.-C. Li, "Study on thermal hydraulic characteristics in pressure vessel of a four-loop PWR at asymmetric operation conditions by CFD simulations", Nuclear Engineering and Design 300, 591-600, 2016. (SCI, EI)

56. D.-Y. Li, X.-B. Li, H.-N. Zhang, F.-C. Li, S.-Z. Qian, S.W. Joo, "Measuring heat transfer performance of viscoelastic fluid flow in curved microchannel using Ti-Pt film temperature sensor", Experimetnal Thermal and Fluid Science 77, 226-233, 2016. (SCI, EI)

55. X.-B. Li, M. Oishi, M. Oshima, F.-C. Li, "Measurement of elasticity-induced unstable flow structure in the curved microchannel using confocal micro-PIV", Experimental Thermal and Fluid Science 75, 118-128, 2016. (SCI, EI)

54. C.-X. Jiang, F.-C. Li, "Experimental study on the characteristics of ventilated cavitation around an underwater navigating body influenced by turbulent drag-reducing additives", Schience China - Physics Mechanics & Astronomy 58, 594703, 2015. (SCI, EI)

53. Z.-Y. Zheng, F.-C. Li, Q. Li, V.A. Kulagin, "Numerical study on the characteristics of natural supercavitation by planar symmetric wedge-shaped cavitators for rotational supercavitating evaporator", Schience China - Technological Sciences 58, 1072-1083, 2015. (SCI, EI)

52. J.-C. Yang, F.-C. Li, M.-J. Ni, B. Yu, "Analysis of heat transfer performance for turbulent viscoelastic fluid based nanofluid using field synergy principle", Schience China - Technological Sciences 58, 1137-1145, 2015. (SCI, EI)

51. J.-C. Yang, F.-C. Li, W.-H. Cai, H.-N. Zhang, B. Yu, "Direct numerical simulation of viscoelastic-fluid-based nanofluid turbulent channel flow with heat transfer", Chinese Physics B 24, 084401, 2015. (SCI, EI)

50. F.-C. Li, L. Wang, W.-H. 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. (SCI, EI)

49. X.-B. Li, F.-C. Li, H.-N. Zhang, W.-H. Cai, H. Kinoshita, M. Oishi, M. Oshima “Droplet dynamics of viscoelastic fluid under very low interfacial tension in a T-junction microchannel”, Microfluidics and Nanofluidics 18, 1007-1021, 2015. (SCI, EI)

48. D-Y. Li, X.-B. Li, F.-C. Li, “Experimental and numerical study on the droplet formation in a cross-flow microchannel”, Journal of Nanoscience and Nanotechnology 15(4), 2964-2969, 2015. (SCI, EI)

47. J.-C. Yang, F.-C. Li, H.-P. Xu, Y.-R. He, Y.-M. Huang, B.-C. Jiang, “Heat transfer performance of viscoelastic-fluid-based nanofluid pipe flow at entrance region”, Experimental Heat Transfer 28, 125-138, 2015. (SCI, EI)

46. D. S. Likhachev, F.-C. 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. (SCI, EI)

45. D. S. Likhachev, F.-C. Li, "Experimental study on the performance of a rotational supercavitating evaporator for desalination”, Science China Series - Technological Sciences 57, 2115-2130, 2014. (SCI, EI)

44. C.-X. Jiang, F.-C. Li, "Numerical study of natural supercavitation influenced by turbulent drag-reducing additives", Advances in Mechanical Engineering, Vol. 2014, Article ID 275316, 2014. (SCI)

43. X.-B. Li, H.-N. Zhang, M. Oshima, F.-C. Li, "Motion of passive scalar by elastic turbulence in curved channel flow", Advances in Mechanical Engineering, Vol. 2014, Article ID 734175, 2014. (SCI)

42. J.-C. Yang, F.-C. Li, W.-H. Cai, H.-N. Zhang, B. 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. (SCI, EI)

41. W.-T. Su, X.-B. Li, F.-C. Li, X.-Z. Wei, J.-T. Liu, Y.-L. Wu, "On the flow instabilities and turbulent kinetic energy of large-scale Francis hydro-turbine model at low flow rate conditions", Advances in Mechanical Engineering, Vol. 2014, Article ID 786891, 2014. (SCI)

40. C.-X. Jiang, F.-C. Li, "Experimental and numerical study of water entry supercavity influenced by turbulent drag-reducing additives", Advances in Mechanical Engineering, Vol. 2014, Article ID 280643, 2014. (SCI)

39. W.-T. Su, X.-B. Li, F.-C. Li, X.-Z. Wei, W.-F. Han, S.-H. Liu, "Experimental investigation on the hydrodynamic stabilities of large-scale Francis hydro-turbine model", Advances in Mechanical Engineering, Vol. 2014, Article ID 486821, 2014. (SCI)

38. D. S. Likhachev, F.-C. Li, “Modeling of a rotational supercavitating evaporator and geometrical characteristics of supercavity in it”, Science China Series G-Physics Mechanics & Astronomy 57, 541-554, 2014. (SCI)

37. 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 (SCI, EI).

36. Z.-Y. Zheng, F.-C. Li, J.-C. Yang, “Modeling asymmetric flow of viscoelastic fluid in symmetric planar sudden expansion geometry based on user-defined function in FLUENT CFD package”, Advances in Mechanical Engineering, Vol. 2013 (2013), Article ID 795937. (SCI)

35. D. S. Likhachev, F.-C. Li, “On Large-scale industrial water desalination methods: A review and new perspectives”, Desalination and Water Treatment 51, 2836-2849, 2013. (SCI, EI)

34. S. Smolentsev, F.-C. Li, N. Morley, Y. Ueki, M. Abdou, T. Sketchley, “Construction and initial operation of MHD PbLi facility at UCLA”, Fusion Engineering and Design 88, 317-326, 2013. (SCI, EI)

33. J.-C. Yang, F.-C. Li, Y.-R. He, Y.-M. Huang, B.-C. 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. (SCI, EI)

32. F.-C. Li, J.-C. Yang, W.-W. Zhou, Y.-R. He, Y.-M. Huang, B.-C. 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. (SCI, EI)

31. W.-T. Su, X.-B. Li, F.-C. Li, Z.-Y. Zheng, X. Zhang, “Comparison of LES, RANS computations and PIV experiments in a cylindrical cavity flow”, Advances in Mechanical Engineering, Vol. 2013 (2013), Article ID 592940. (SCI)

30. W.-H. Cai, F.-C. Li, H.-N. Zhang, Y. Wang and L. Wang, “The polymer effect on nonlinear processes in decaying homogeneous isotropic turbulence”, Advances in Mechanical Engineering, Vol. 2013 (2013), Article ID 921524. (SCI)

29. H.-N. Zhang, F.-C. Li, Y. Cao, B. Yu, “Direct numerical simulation of elastic turbulence and its mixing-enhancement effect in a straight channel flow”, Chinese Physics B 22(2), 024703, 2013. (SCI, EI)

28. F.-C. Li, W.-H. Cai, H.-N. Zhang, Y. Wang, “Influence of polymer additives on turbulent energy cascading in forced homogeneous isotropic turbulence studied by DNS”, Chinese Physics B 21(11) (2012) 114701. (SCI, EI)

27. F.-C. Li, H.-N. Zhang, Y. Cao, T. Kunugi, H. Kinoshita, M. Oshima, “Purely elastic instability and mixing enhancement in 3D curvilinear channel flow”, Chinese Physics Letters 29(9) (2012) 094704. (SCI)

26. W.-T. Su, F.-C. Li, X.-B. Li, X.-Z. Wei, Y. 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. (SCI, EI)

25. J.-C. Yang, F.-C. Li, W.-W. Zhou, Y.-R. He, B.-C. 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. (SCI, EI)

24. W.-H. Cai, F.-C. Li, H.-N. Zhang, Y. Wang, L. Wang, “Analysis of coherent structures in drag-reducing polymer solution flow based on proper orthogonal decomposition”, Science China - Physics, Mechanics and Astronomy, Vol. 55(5) (2012), pp. 1-7. (SCI)

23. X.-B. Li, F.-C. Li, W.-H. Cai, H.-N. Zhang, J.-C. 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. (SCI, EI)

22. X.-B. Li, F.-C. Li, J.-C. Yang, H. Kinoshita, M. Oishi and M. Oshima, “Study on the mechanism of droplet formation in T-junction microchannel”, Chemical Engineering Science, Vol. 69 (2012), pp. 340-351. (SCI, EI)

21. W.-H. Cai, F.-C. Li, H.-N. 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. (SCI)

20. Y.-B. Zhou, N. Xu, N. Ma, F.-C. Li, J.-J. Wei and B. Yu, “On relationships among the aggregation number, rheological property and turbulent drag-reducing effect of surfactant solutions”, Advances in Mechanical Engineering, Volume 2011, Article ID 345328, 5 pages, doi:10.1155/2011/345328, 2011.(SCI)

19. L. Wang, F.-C. Li, Y. Dong, W.-H. Cai and W.-T. Su, “Study on the performance characteristics of centrifugal pump with drag-reducing surfactant additives”, International Journal of Fluid Machinery and Systems, Vol. 4(2), pp. 223-228, 2011.

18. W.-H. Cai, F.-C. Li, H.-N. Zhang, “DNS study of decaying homogeneous isotropic turbulence with polymer additives”, Journal of Fluid Mechanics, Vol. 665, pp. 334-356, 2010. (SCI, EI)

17. F.-C. Li, W.-L. Chen, H. Li, R. 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 (SCI, EI).

16. 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 (SCI, EI).

15. 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 (SCI, EI).

14. F.-C. Li, B. Yu, J.-J. Wei, Y. Kawaguchi, K. Hishida, “Experimental study of drag-reduction mechanics for a dilute surfactant solution flow”, International Journal of Heat and Mass Transfer, Vol. 51(3-4) pp. 835-843, 2008 (SCI, EI).

13. F.-C. Li, Y. Dong, Y. Kawaguchi, and M. 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 (SCI, EI).

12. F.-C. LI, M. OISHI, Y. KAWAGUCHI, N. OSHIMA, M. 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 (SCI, EI).

11. F.-C. LI, Y. KAWAGUCHI, T. SEGAWA and K. HISHIDA, “On turbulent contribution to frictional drag in wall-bounded turbulent flow”, Chinese Physics Letters, Vol. 23(5), pp. 1226-1229, 2006 (SCI, EI).

10. 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 (SCI, EI).

9. F.-C. LI, Y. KAWAGUCHI, T. SEGAWA and K. SUGA, “Simultaneous measurement of turbulent velocity field and surface wave amplitude in the initial stage of an open-channel flow by PIV”, Experiments in Fluids, Vol. 39, pp. 945-953, 2005. (SCI, EI).

8. 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. (SCI, EI).

7. 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. (SCI, EI).

6. F.-C. LI, T. KUNUGI and A. 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. (SCI, EI).

5. F.-C. LI, Y. KAWAGUCHI and K. 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. (SCI, EI).

4. F.-C. LI, Y. KAWAGUCHI, T. SEGAWA and K. HISHIDA, “Stereoscopic particle image velocimetry investigation of three-dimensional characteristics of vortex structure in a turbulent channel flow”, Chinese Physics Letters, Vol. 22(3), pp 624-627, 2005. (SCI, EI).

3. 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. (SCI, EI).

2. 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. (SCI, EI).

1. F.-C. LI and A. 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. (SCI, EI).



代表性中文杂志论文 20. 郑智颖，李凤臣，李倩，王璐，蔡伟华，李小斌，张红娜，"海水淡化技术应用研究及发展现状"，科学通报，Vol. 61, 1-27, 2016.

19. 郑智颖，李倩，李凤臣，V.A. Kulagin，"旋转超空泡蒸发器抽汽参数选取数值模拟研究"，中国科学院大学学报，Vol. 33, 247-252, 2016.

18. 兰朝凤，苏文涛，李小斌，李凤臣，赵昊阳，"水轮机压力脉动的混沌动力学特性"，哈尔滨工业大学学报，Vol. 48, 101-105, 2016. (EI)

17. 贾允，宫汝志，李凤臣， “小开度工况下水轮机内部流场特性数值模拟研究”，大电机技术，Vol. 34, 54-60, 2015.

16. 苏文涛，郑智颖，李小斌，李凤臣，兰朝凤，“混流式水轮机偏工况运行的大涡数值模拟方法验证”，哈尔滨工业大学学报，Vol. 47, 84-91, 2015. (EI)

15. 李书磊，蔡伟华，李凤臣，“水平管内汽液两相流流型及流动换热特性数值模拟”，哈尔滨工业大学学报，Vol. 46, 57-46, 2014. (EI)

14. 阳倦成，徐鸿鹏，李凤臣，“粘弹性流体基纳米流体流变学特性”，化工学报，Vol. 65(S1), 199-205, 2014. (EI)

13. 阳倦成，李凤臣, 周文武，徐鸿鹏，李东阳，何玉荣，“粘弹性流体基铜纳米流体流动与传热实验研究”, 工程热物理学报, Vol. 35(2), pp. 366-370, 2014. (EI)

12. 李东阳，李凤臣, 阳倦成，张红娜，曹阳，何玉荣，“粘弹性流体基纳米流体湍流对流换热直接数值模拟研究”, 工程热物理学报, Vol. 34, pp. 961-964, 2013. (EI)

11. 蔡伟华，李凤臣，张红娜，王悦，李小斌，“减阻水溶液槽道湍流特性POD分析”, 哈尔滨工业大学学报, Vol. 44(7), pp. 51-57, 2012. (EI)

10. 张红娜，李凤臣，蔡伟华，阳倦成，李小斌，“三维Kolmogorov流动弹性湍流直接数值模拟研究”，工程热物理学报，Vol.32(6), pp. 973-976, 2011. (EI)

9. 郑智颖，徐鸿鹏，白哲，薄泽民，蔡伟华，李凤臣，“厢式货车尾部打孔式附加装置减阻特性研究”，节能技术，Vol. 28(2), 2011。

8. 李凤臣，邹志林，蔡伟华，阳倦成，张红娜，“减阻剂水溶液内弹体入射超空泡特性实验研究”，工程热物理学报，Vol. 31, pp. 857-862, 2010). (EI)

7. 王璐，李凤臣，董泳，蔡伟华，苏文涛，“表面活性剂减阻剂对离心泵特性影响的实验研究”，工程热物理学报，Vol. 31 (Suppl.), pp. 13-16, 2010. (EI)

6. 阳倦成，张红娜，李小斌，蔡伟华，张彦，李凤臣，“黏弹性流体纯弹性不稳定现象研究综述”，力学进展，Vol. 40, pp. 495-516, 2010.

5. 郑智颖，徐鸿鹏，白哲，薄泽民，蔡伟华，李凤臣，“厢式货车减阻研究”，节能技术，Vol. 28, pp. 396-400, 2010。

4. 郑智颖，徐鸿鹏，白哲，薄泽民，蔡伟华，李凤臣，“车头车厢间距对厢式货车气动特性影响研究”，节能技术，Vol. 28, pp. 501-504, 2010。

3. 李凤臣，大岛伸行，大岛まり，“表面活性剂水溶液弹性湍流特性实验研究”， 哈尔滨工业大学学报, Vol. 41(3), pp. 77-90, 2009 (EI).

2. 李凤臣，大岛伸行，大岛まり，“粘弹性流体旋转流实验研究”， 哈尔滨工业大学学报， Vol.40(11), pp. 1773-1776, 2008 (EI).

1. 焦利芳，李凤臣，“添加剂湍流减阻流动与换热及我国在该领域的研究进展”，力学进展, Vol. 38(3), pp. 339-357, 2008.

Current
Ph.D., Professor

Director of Nuclear Engineering Research Center



Affiliation: School of Energy Science and Engineering, HIT

Address: P. O. Box 453, 92 West Da-Zhi Street, Harbin 150001

Tel: 86-**

Email: lifch@hit.edu.cn

Education


1998.4 – 2001.3 Ph.D. (2002.03), Department of Nuclear Engineering, Kyoto University, Japan
1993.9 – 1996.7 M.E., Division of Nuclear Reactor Engineering and Safety, China Institute of Atomic Energy
1989.9 – 1993.7 B.E., Department of Thermal Engineering, Tianjin University


Employment
2006.08 - present Professor, School of Energy Science and Engineering (SESE), Harbin Institute of Technology (HIT)

2015.01 - 2015.11 Vice Dean of SESE, HIT

2008.09 - present Director, Nuclear Engineering Research Center, SESE, HIT

2007.10 - 2015.03 Vice Director, Institute of Fluidmachinery and Engineering, SESE, HIT

2015.11 - present Principal Development Engineer, Fusion Science and Technology Center, Mechanical and Aerospace

Engineering (MAE) Department, University of California at Los Angeles (UCLA)

2014.01 - 2014.01 Visiting Professor, Department of Mechanical Engineering, Tokyo University of Science, Japan

2011.04 - 2013.10 Visiting Professor, Fusion Science and Technology Center, MAE Department, UCLA

2004.11 - 2006.08 JSPS research fellow, Institute of Industrial Science, The University of Tokyo, Japan

2002.04 - 2004.11 Research fellow, National Institute of Advanced Industrial Science and Technology, Japan

2001.04 - 2002.03 Research fellow, National Maritime Research Institute, Japan

1996.08 - 1998.03 Engineer, Division of Reactor Engineering and Reactor Safety, China Institute of Atomic Energy

Current members


Faculty：

Feng-Chen Li: Ph.D., Professor (http://homepage.hit.edu.cn/pages/lifengchen)

Wei-Hua Cai: Ph.D., Associate professor (http://homepage.hit.edu.cn/pages/caiweihua)

Xiao-Bin Li: Ph.D., Associate professor ( http://homepage.hit.edu.cn/pages/lixiaobin )



Postdoc:

Chao-Feng Lan: Ph.D. (Harbin Engineering University), 2014.09 ~, engaged in chaotic theory for turbulent flows of viscoelastic fluids

Hong-Na Zhang: Ph.D. (Kyoto University, Japan) 2015.09 ~, engaged in particle transport characteristics and mechanism in viscoelastic fluid flow with electrokinetic effect.




Ph.D. candidate:

Dong-Yang Li: 2012.09 ~, engaged in experimental and numerical simulation study on characteristics of elastic turbulence in micro-channels

Zhi-Ying Zheng: 2013.09 ~, engaged in desalination technique based on supercavitation

Yue Wang: 2013.09 ~, engaged in influencing mechanism of viscoelasticity on the characteristics of grid-turbulence and its scaling law

Meng Zhang: 2014.04 ~, engaged in micro-scaled flow control and heat transfer using viscoelastic fluid

Yun Jia: 2014.04 ~, engaged in designing technique of hydraulic machinery

Tong-Zhou Wei: 2014.09 ~, engaged in experimental study on the characteristics of Rayleigh-Benard convection in viscoelastic fluid

Amine Boukenkoul: 2014.09 ~, engaged in active control of turbulent boundary layer flow separation

Durga Bastakoti: 2015.09 ~, engaged in heat transfer characteristics of pulsating heat pipes using complex working fluids

Maxima Binama: 2015.09 ~, engaged in analysis of transient flow and vibration characteristics in pump turbine.

Jue Wang: 2015.09 ~, engaged in boiling heat transfer characteristics of viscoelastic fluids.

Jian-Ping Cheng: 2015.09 ~, engaged in numerical simulation on the mechanism of Rayleigh-Benard convection in viscoelastic fluids.

Alex Muhirwa: 2016.09 ~, engaged in experimental study on the characteristics of the complex turbulent flow field in a hydroturbine.

Graduated students
Ph.D.:

Wei-Hua Cai: got his Ph.D. in April 2011; title of Ph.D. thesis is "Study on the characteristics of isotropic turbulence in viscoelastic fluid"; selected as a faculty member of HIT.

Xiao-Bin Li: got his Ph.D. in April 2012; title of Ph.D. thesis is "Study on the characteristics of microscale flow of viscoelastic fluids"; selected as a faculty member of HIT.

Dmitriy S. Likhachev: got his Ph.D. in July 2013; title of Ph.D. thesis is "Study on the hydrodynamic characteristics of rotational supercavitation evaporator", working in Institute of Process Equipment, College of Chemical and Biological Engineering, Zhejiang University, as a PostDoc researcher.

Juan-Cheng Yang: got his Ph.D. in July 2013; title of Ph.D. thesis is "Study on the turbulent flow and heat transfer characteristics of viscoelastic fluid based nanofluid", working in School of Physics, University of Chinese Academy of Sciences, as a PostDoc researcher.

Wen-Tao Su: got his Ph.D. in July 2014; title of Ph.D. thesis is "Study on the characteristics of flow stability in a Franscis hydraulic turbine", working in Human Resource Department of HIT.



M.E.:

Li-Fang Jiao: 2006.09 - 2008.07; title of Master thesis is "Application of additives' drag reducing technology in district heating system"; continuing to pursue Ph.D.

Wen-Tao Su: 2007.09 - 2009.07; title of Master thesis is "Experimental Study on the Characteristics of Weak Erosive Sufactant Drag Reducer"; continuing to pursue Ph.D.

Zhi-Lin Zou: 2007.09 - 2009.07; title of Master thesis is "Experimental study on the characteristics of supercavitating flow influenced by surfactant additives"; working in Da-Ya bay nuclear power plant of China Guangdong Nuclear Power Company.

Juan-Cheng Yang: 2008.09 - 2010.07; title of Master thesis is "Study on instability in Taylor-Couette flow of viscoelastic fluids"; continuing to pursue Ph.D.

Hong-Na Zhang: 2008.09 - 2010.07; title of Master thesis is "Study on elastic turbulence in 3d Kolmogorov flow of viscoelastic fluid based on direct numerical simulation"; continuing to pursue Ph.D.

Yang Cao: 2009.09 - 2011.07; title of Master thesis is "Study on flow of viscoelastic fluid in micro-channel and its application in mixing of fluid"; continuing to pursue Ph.D.

Chen-Xing Jiang: 2009.09 - 2011.07; title of Master thesis is "Numerical simulation for surpercavitation in drag-reducing solution"; continuing to pursue Ph.D.

Ying-Bo Zhou: 2009.09 - 2011.07; title of Master thesis is "On relationships among the aggregation number, rheological property and turbulent drag-reducing effects of surfactant solutions"; working in Harbin Bureau of Quality and Technical Supervision.

Lu-Wang: 2010.09 - 2012.07; title of Master thesis is "Large eddy simulation of forcing homogeneous isotropic turbulence in viscoelastic fluid"; continuing to pursue Ph.D.

Dong-Yang Li: 2010.09 - 2012.07; title of Master thesis is "Direct numerical simulation on turbulent convective heat transfer of viscoelastic-fluid-based nanofluids"; continuing to pursue Ph.D.

Wen-Wu Zhou: 2010.09 - 2012.07; title of Master thesis is "On thermal conductivity and viscosity of viscoelastic-fluid-based nanofluids"; continuing to pursue Ph.D. in Department of Aerospace Engineering, Iowa State University, USA.

Zhi-Ying Zheng: 2011.09 - 2013.07; title of Master thesis is "Application of FLUENT software in numerical simulation for viscoelastic fluid flow", continuing to pursue Ph.D.

Hong-Peng Xu: 2011.09 - 2013.07; title of Master thesis is "Study on the rheological properties of viscoelastic fluid based nanofluid", working in Institute of Experimental Techniques, Xi'an.

Da-Qing Yang: 2011.09 - 2013.07; title of Master thesis is "Study on impact of geometry parameters on flow and heat transfer characteristics at shell side in a coil-wound heat exchanger", working in Patent Examination Cooperation Center of Guangdong

Tong-Zhou Wei: 2012.09 - 2014.07; title of Master thesis is "Experimental study on the grid-turbulence of viscoelastic fluid by PIV", continuing to pursue Ph.D.

Wen-Fu Han: 2012.09 - 2014.07; title of Master thesis is "Study on the characteristics of pressure fluctuation in Francis turbine draft tube at medium specific speed", working in State Grid Xin Yuan Company Limited (Beijing).

Shu-Lei Li: 2012.09 - 2014.07; title of Master thesis is "Numerical simulation for ventilated supercavitation on underwater bodies in drag-reducing solution", continuing to pursue Ph.D.

Research Areas
In September 2006, a new research laboratory named Complex Flow and Heat Transfer Lab (CFHTL: http://fluid.hit.edu.cn/cfhtl) was established. The current research interests in CFHTL are to explore novel techniques for flow control and heat transfer enhancement through changing fluid properties, as specified below:

Turbulent drag-reducing flow with additives and heat transfer: Further study of turbulent drag reduction mechanism, convective heat transfer mechanism and enhancement heat transfer strategies for turbulent flow of aqueous solution of surfactant; application test of surfactant drag reducers in real district heating/cooling systems in order to achieve energy-saving efficacy; development of large eddy simulation method for turbulent drag-reducing flow by additives, etc.Elastic turbulence at very low Reynolds number: Exploration of the characteristics of very-low-Reynolds-number elastic turbulence induced in viscoelastic fluid flows, its mechanism and control strategy; through comparisons with normal high-Reynolds-number inertial turbulence, studying the characteristics of dissipative scale in inertial turbulence; development of direct numerical simulation method for elastic turbulence, etc.Micro-scaled flow and heat transfer: By inducing elastic turbulence in micro-scaled channel flow of viscoelastic fluid, exploring inducing approaches to elastic turbulence in microchannels, flow and heat transfer characteristics, expanding the application area of elastic turbulence in microfluidics, such as development of novel micro-scaled heat exchanger with high-efficiency, biochip functioned by flow control, etc.Viscoelastic-fluid-based nanofluids: Establishing of preparation process for viscoelastic-fluid-based nanofluids; exploring novel approaches to enhancement of convective heat transfer in turbulent drag-reducing flow of viscoelastic fluid; study of flow and heat transfer characteristics of viscoelastic-fluid-based nanofluids in microchannels, etc.Gas-liquid two-phase flows: Exploration of novel approaches to control of supercavitating flow (flow drag reduction, desalination of sea water and sewage purification) using additives; enhancement of boiling heat transfer by additives; synergetic turbulent drag reduction by means of co-injection of microbubbles and additives; environmental cleaning of contaminated water using microbubbles, etc.Meanwhile, we are also engaged in the following interdisciplinary researches:

Development of measurement techniques for fluid dynamics: Development of flow or fluid properties measurement techniques in complicated environment, such as pressure drop measurement for high-temperature and intrinsically corrosive liquid metal flows, measurement of the complex turbulent flow field in rotary fluidmachinery, measurement of the dynamic characteristics of rivulets on the surface of inclined cable in rain and wind, measurement of shear-rate-dependent thermal conductivity of nanofluids, etc. Magnetohydrodynamics of liquid metal: Study of liquid metal magnetohydrodynamics under the application backgound of magnetic confinement nuclear fusion (special measurement techniques, performance characteristics of flow channel insert, surface properties, etc).Wind engineering in civil-engineering area: Study of the characteristics of wind-induced vibration of long-span bridges, mechanisms of wind-induced vibrations, scale-effect and Reynolds-number effect of wind-induced vibrations, etc.


Publications
Coauthored 4 books, published over 300 technical papers including 104 peer-reviewed papers in international journals. The selected publications are listed below: Book/Chapter 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. Prof. Jing-Hai Li, Springer, ISBN **89, 2009.Feng-Chen Li, Bo Yu, Jin-Jia Wei, Yasuo Kawaguchi, Turbulent drag reduction by surfactant additives, John Wiley & Sons (Asia) Pet Ltd., ISBN **72, March 2012 (Its Chinese version was published by Higher Education Press, ISBN **51, June 2012).

Demidenko N.D., Kulagin V.A., Shokin Y.I., Li F.-C., Heat and mass transfer and supercavitaion (in Russian). Novosibirsk: NAUKA, 436 pages, ISBN 978-5-02-019206-5, 2015.

Wei-Hua Cai, Xiao-Bin Li, Hong-Na Zhang, Feng-Chen Li, Viscoelastic fluid dynamics (in Chinese), Science Press Ltd., ISBN **87, September 2016.

Yao-Jun Ge, Zheng-Qing Chen, Hui Li, Hai-Li Liao, Feng-Chen Li, Wind hazard and effects on long span bridges, Science Press Ltd., ISBN **61, October 2016.

List of International Journal Papers 64. 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.

63. J. Wang, F.-C. Li, X.-B. Li, "On the mechanism of boiling heat transfer enhancement by surfactant addition", International Journal of Heat and Mass Transfer 101, 800-806, 2016

62. J. Wang, F.-C. Li, X.-B. Li, "Bubble explosion in pool boiling around a heated wire in surfactant solution", International Journal of Heat and Mass Transfer 99, 569-576, 2016.

61. C.-X. Jiang, Z.-J. Shuai, X.-Y. Zhang, W.-Y. Li, F.-C. Li, "Numerical study on evolution of axisymmetric natural supercavitation influenced by turbulent drag-reducing additives", Applied Thermal Engineering 107, 797-803, 2016.

60. C.-X. Jiang, Z.-J. Shuai, X.-Y. Zhang, W.-Y. Li, F.-C. 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.

59. H.-N. Zhang, F.-C. Li, X.-B. Li, D.-Y. Li, W.-H. Cai, B. Yu, "Characteristics and generation of elastic turbulence in a three-dimensional parallel plate channel using direct numerical simulation", Chinese Physics B 25, 094701, 2016.

58. X.-B. Li., M. Oishi, T. Matsuo, M. Oshima, F.-C. Li, "Measurement of viscoelastic fluid flow in the curved microchannel using digital holographic microscope and polarized camera", ASME Journal of Fluid Engineering 138, 091401, 2016.

57. J.-P. Cheng, L.-M. Yan, F.-C. Li, "Study on thermal hydraulic characteristics in pressure vessel of a four-loop PWR at asymmetric operation conditions by CFD simulations", Nuclear Engineering and Design 300, 591-600, 2016.

56. D.-Y. Li, X.-B. Li, H.-N. Zhang, F.-C. Li, S.-Z. Qian, S.W. Joo, "Measuring heat transfer performance of viscoelastic fluid flow in curved microchannel using Ti-Pt film temperature sensor", Experimental Thermal and Fluid Science 77, 226-233, 2016.

55. X.-B. Li, M. Oishi, M. Oshima, F.-C. Li, "Measurement of elasticity-induced unstable flow structure in the curved microchannel using confocal micro-PIV", Experimental Thermal and Fluid Science 75, 118-128, 2016.

54. C.-X. Jiang, F.-C. Li, "Experimental study on the characteristics of ventilated cavitation around an underwater navigating body influenced by turbulent drag-reducing additives", Schience China - Physics Mechanics & Astronomy 58, 594703, 2015.

53. Z.-Y. Zheng, F.-C. Li, Q. Li, V.A. Kulagin, "Numerical study on the characteristics of natural supercavitation by planar symmetric wedge-shaped cavitators for rotational supercavitating evaporator", Schience China - Technological Sciences 58, 1072-1083, 2015.

52. J.-C. Yang, F.-C. Li, M.-J. Ni, B. Yu, "Analysis of heat transfer performance for turbulent viscoelastic fluid based nanofluid using field synergy principle", Schience China - Technological Sciences 58, 1137-1145, 2015.

51. J.-C. Yang, F.-C. Li, W.-H. Cai, H.-N. Zhang, B. Yu, "Direct numerical simulation of viscoelastic-fluid-based nanofluid turbulent channel flow with heat transfer", Chinese Physics B 24, 084401, 2015.

50. F.-C. Li, L. Wang, W.-H. 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.

49. X.-B. Li, F.-C. Li, H.-N. Zhang, W.-H. Cai, H. Kinoshita, M. Oishi, M. Oshima “Droplet dynamics of viscoelastic fluid under very low interfacial tension in a T-junction microchannel”, Microfluidics and Nanofluidics 18, 1007-1021, 2015.

48. D-Y. Li, X.-B. Li, F.-C. Li, “Experimental and numerical study on the droplet formation in a cross-flow microchannel”, Journal of Nanoscience and Nanotechnology 15(4), 2964-2969, 2015.

47. J.-C. Yang, F.-C. Li, H.-P. Xu, Y.-R. He, Y.-M. Huang, B.-C. Jiang, “Heat transfer performance of viscoelastic-fluid-based nanofluid pipe flow at entrance region”, Experimental Heat Transfer 28, 125-138, 2015.

46. D. S. Likhachev, F.-C. 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.

45. D. S. Likhachev, F.-C. Li, “Experimental study on the performance of a rotational supercavitating evaporator for desalination”, Science China Series - Technological Sciences 57, 2115-2130, 2014.

44. C.-X. Jiang, F.-C. Li, "Numerical study of natural supercavitation influenced by turbulent drag-reducing additives", Advances in Mechanical Engineering, Vol. 2014, Article ID 275316, 2014.

43. X.-B. Li, H.-N. Zhang, M. Oshima, F.-C. Li, "Motion of passive scalar by elastic turbulence in curved channel flow", Advances in Mechanical Engineering, Vol. 2014, Article ID 734175, 2014.

42. J.-C. Yang, F.-C. Li, W.-H. Cai, H.-N. Zhang, B. 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.

41. W.-T. Su, X.-B. Li, F.-C. Li, X.-Z. Wei, J.-T. Liu, Y.-L. Wu, "On the flow instabilities and turbulent kinetic energy of large-scale Francis hydro-turbine model at low flow rate conditions", Advances in Mechanical Engineering, Vol. 2014, Article ID 786891, 2014.

40. C.-X. Jiang, F.-C. Li, "Experimental and numerical study of water entry supercavity influenced by turbulent drag-reducing additives", Advances in Mechanical Engineering, Vol. 2014, Article ID 280643, 2014.

39. W.-T. Su, X.-B. Li, F.-C. Li, X.-Z. Wei, W.-F. Han, S.-H. Liu, "Experimental investigation on the hydrodynamic stabilities of large-scale Francis hydro-turbine model", Advances in Mechanical Engineering, Vol. 2014, Article ID 486821, 2014.

38. D. S. Likhachev, F.-C. Li, “Modeling of a rotational supercavitating evaporator and geometrical characteristics of supercavity in it”, Science China Series G-Physics Mechanics & Astronomy 57, 541-554, 2014.

37. 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.

36. Z.-Y. Zheng, F.-C. Li, J.-C. Yang, “Modeling asymmetric flow of viscoelastic fluid in symmetric planar sudden expansion geometry based on user-defined function in FLUENT CFD package”, Advances in Mechanical Engineering, Vol. 2013 (2013), Article ID 795937.

35. D. S. Likhachev, F.-C. Li, “On Large-scale industrial water desalination methods: A review and new perspectives”, Desalination and Water Treatment 51, 2836-2849, 2013.

34. S. Smolentsev, F.-C. Li, N. Morley, Y. Ueki, M. Abdou, T. Sketchley, “Construction and initial operation of MHD PbLi facility at UCLA”, Fusion Engineering and Design 88, 317-326, 2013.

33. J.-C. Yang, F.-C. Li, Y.-R. He, Y.-M. Huang, B.-C. 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.

32. F.-C. Li, J.-C. Yang, W.-W. Zhou, Y.-R. He, Y.-M. Huang, B.-C. 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.

31. W.-T. Su, X.-B. Li, F.-C. Li, Z.-Y. Zheng, X. Zhang, “Comparison of LES, RANS computations and PIV experiments in a cylindrical cavity flow”, Advances in Mechanical Engineering, Vol. 2013 (2013), Article ID 592940.

30. W.-H. Cai, F.-C. Li, H.-N. Zhang, Y. Wang and L. Wang, “The polymer effect on nonlinear processes in decaying homogeneous isotropic turbulence”, Advances in Mechanical Engineering, Vol. 2013 (2013), Article ID 921524.

29. H.-N. Zhang, F.-C. Li, Y. Cao, B. Yu, “Direct numerical simulation of elastic turbulence and its mixing-enhancement effect in a straight channel flow”, Chinese Physics B 22(2), 024703, 2013.

28. F.-C. Li, W.-H. Cai, H.-N. Zhang, Y. Wang, “Influence of polymer additives on turbulent energy cascading in forced homogeneous isotropic turbulence studied by DNS”, Chinese Physics B 21(11) (2012) 114701.

27. F.-C. Li, H.-N. Zhang, Y. Cao, T. Kunugi, H. Kinoshita, M. Oshima, “Purely elastic instability and mixing enhancement in 3D curvilinear channel flow”, Chinese Physics Letters 29(9) (2012) 094704.

26. W.-T. Su, F.-C. Li, X.-B. Li, X.-Z. Wei, Y. 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.

25. J.-C. Yang, F.-C. Li, W.-W. Zhou, Y.-R. He, B.-C. 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.

24. W.-H. Cai, F.-C. Li, H.-N. Zhang, Y. Wang, L. Wang, “Analysis of coherent structures in drag-reducing polymer solution flow based on proper orthogonal decomposition”, Science China - Physics, Mechanics and Astronomy, Vol. 55(5) (2012), pp. 1-7.

23. X.-B. Li, F.-C. Li, W.-H. Cai, H.-N. Zhang, J.-C. 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.

22. X.-B. Li, F.-C. Li, J.-C. Yang, H. Kinoshita, M. Oishi and M. Oshima, “Study on the mechanism of droplet formation in T-junction microchannel”, Chemical Engineering Science, Vol. 69 (2012), pp. 340-351.

21. W.-H. Cai, F.-C. Li, H.-N. 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.

20. Y.-B. Zhou, N. Xu, N. Ma, F.-C. Li, J.-J. Wei and B. Yu, “On relationships among the aggregation number, rheological property and turbulent drag-reducing effect of surfactant solutions”, Advances in Mechanical Engineering, Volume 2011, Article ID 345328, 5 pages, doi:10.1155/2011/345328, 2011.

19. L. Wang, F.-C. Li, Y. Dong, W.-H. Cai and W.-T. Su, “Study on the performance characteristics of centrifugal pump with drag-reducing surfactant additives”, International Journal of Fluid Machinery and Systems, Vol. 4(2), pp. 223-228, 2011.

18. W.-H. Cai, F.-C. Li, H.-N. Zhang, “DNS study of decaying homogeneous isotropic turbulence with polymer additives”, Journal of Fluid Mechanics, Vol. 665, pp. 334-356, 2010.

17. F.-C. Li, W.-L. Chen, H. Li, R. 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.

16. 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.

15. 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.

14. F.-C. Li, B. Yu, J.-J. Wei, Y. Kawaguchi, K. Hishida, “Experimental study of drag-reduction mechanics for a dilute surfactant solution flow”, International Journal of Heat and Mass Transfer, Vol. 51(3-4) pp. 835-843, 2008.

13. F.-C. Li, Y. Dong, Y. Kawaguchi, and M. 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.

12. F.-C. LI, M. OISHI, Y. KAWAGUCHI, N. OSHIMA, M. 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.

11. F.-C. LI, Y. KAWAGUCHI, T. SEGAWA and K. HISHIDA, “On turbulent contribution to frictional drag in wall-bounded turbulent flow”, Chinese Physics Letters, Vol. 23(5), pp. 1226-1229, 2006.

10. 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.

9. F.-C. LI, Y. KAWAGUCHI, T. SEGAWA and K. SUGA, “Simultaneous measurement of turbulent velocity field and surface wave amplitude in the initial stage of an open-channel flow by PIV”, Experiments in Fluids, Vol. 39, pp. 945-953, 2005.

8. 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.

7. 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.

6. F.-C. LI, T. KUNUGI and A. 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.

5. F.-C. LI, Y. KAWAGUCHI and K. 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.

4. F.-C. LI, Y. KAWAGUCHI, T. SEGAWA and K. HISHIDA, “Stereoscopic particle image velocimetry investigation of three-dimensional characteristics of vortex structure in a turbulent channel flow”, Chinese Physics Letters, Vol. 22(3), pp 624-627, 2005.

3. 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.

2. 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.

1. F.-C. LI and A. 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.