王晋军,男,
汉族,国家杰出青年科学基金获得者,
北京航空航天大学流体力学研究所所长、流体力学教育部重点实验室主任。现任Journal of Aircraft、《
实验力学》、《
实验流体力学》杂志副主编,Experiments in Fluids,《
力学学报》《
航空学报》等期刊的编委。兼任国际流动控制显示测量、国际流动显示会议指导委员会委员。
人物经历
1986年考入
清华大学攻读博士学位,1990年4月毕业。其后在北京航空航天大学做博士后,出站后留校工作。
1993年破格晋升为教授,1996年增选为博士生指导教师。
1997年~2003年任飞行器设计与应用力学系主任。
2002年7月~2002年12月,英国University of Manchester、University of
诺丁汉高级访问学者。
2004年12月~2005年4月,
香港中文大学物理系
杨振宁访问教授。
2010年9月~至今,王晋军担任流体力学教育部重点实验室的主任。
社会任职
美国航空航天协会“Journal of Aircraft”杂志副主编,
德国“Experiments in Fluids”杂志顾问编委,国内“航空学报”、“
实验流体力学”等期刊的编委。兼任国际流动控制显示测量会议指导委员会委员、亚洲流动显示国际会议指导委员会委员、中国空气动力学学会理事、北京力学会理事、
中航集团空气动力研究院学术委员会委员、总装备部翼型-叶栅空气动力学国防重点实验室学术委员会委员、高速高
雷诺数气动力航空科技重点实验室学术委员会委员。
人才培养
王晋军教授共培养和毕业博士生、硕士生55名,代表性优秀毕业生学位论文获奖情况如下:
参考资料:
主讲课程
湍流起源
科学写作与报告
湍流
参考资料:
荣誉
个人作品
《湍流研究最新进展---中国科协青年科学家论坛41论文集》
主要成就
科研项目
主要从事湍流、流动控制、飞行器
空气动力学等方面的研究工作,在
边界层旁路转捩、湍流拟序结构、零质量射流及
等离子体流动控制、飞行器气动布局及增升减阻等方面开展了大量的研究工作,承担了国家自然科学基金重点项目、国家自然科学基金面上项目、国防科技预研基金、航空科学基金、教育部博士点基金、国防科技预研项目、民机预研项目等课题30余项。在Progress in Aerospace Science、Journal of Fluid Mechanics、AIAA Journal、Experiments in Fluids、Journal of Turbulence等国际权威
学术期刊发表论文150多篇,获教育部自然科学2等奖等部委级奖励5项、北京市教学成果1等奖1项、
中国专利奖3项。
科研成果
近年来主要从事实验流体力学方面的研究工作,研究方向包括飞行器气动布局、
边界层转捩、湍流拟序结构及湍流减阻、旋涡分离流、流动控制、微型飞行器
空气动力学等。先后承担了国家自然科学基金、教育部博士点基金、国防基金、航空科学基金、863项目、国防预研项目等二十余项, 获部委级科技进步奖5项,在国内外重要学术刊物发表论文80余篇,论文被《SCI》、《EI》收录和他人引用70余篇(次)。
主要作品
专著及章节
1)Wang J. J.(王晋军)and Feng L. H.: Flow Control Techniques and Applications, Cambridge University Press, 2018.
2)王晋军, 冯立好: 第六章: 飞行器流动控制问题. 中国学科发展战略\u0026middot;新型飞行器中的关键力学问题, 科学出版社,
中国科学院编, 2018, 87-98
3)Feng L. H. and Wang J. J. (王晋军): Chapter: Leading-Edge Tubercles on Swept and Delta Wing Configurations. Flow Control Through Bio-inspired Leading-Edge Tubercles, Springer, Editors: New D. T. H. and Ng B. F., 2020, 111-129.
参考资料:
期刊论文
流动控制
1)Duan F., Wang J. J.(王晋军): Fluid–structure–sound interaction in noise reduction of a circular cylinder with flexible splitter plate, Journal of Fluid Mechanics, 2021, 920: A6.
2)Qu Y., Wang J. J.(王晋军), Feng L. H. and He X.: Effect of excitation
频率 on flow characteristics around a square cylinder with a synthetic jet positioned at front
surface, Journal of Fluid Mechanics, 2019, 880: 764-798.
3)He X., Guo Q. F., Wang J. J.(王晋军): Extended flexible trailing-edge on the flow structures of an airfoil at high angle of attack, Experiments in Fluids, 2019, 60: 122.
4)Xu Y., Wang J. J.(王晋军), Feng L. H., He G. S. and Wang Z. Y.: Laminar vortex rings impinging onto porous walls with a constant porosity, Journal of Fluid Mechanics, 2018, 837: 729-764.
5)Qu Y., Wang J. J.(王晋军), Sun M., Feng L. H.,
pan C., Gao Q. and He G. S.: Wake
vortex evolution of square cylinder with a slot synthetic jet positioned at the rear
surface, Journal of Fluid Mechanics, 2017, 812: 940-965.
6)Feng L. H., Choi K. S. and Wang J. J.(王晋军): Flow control over an airfoil using virtual Gurney flaps, Journal of Fluid Mechanics, 767 (2015), 595-626.
7)Feng L. H., Wang J. J.(王晋军): The virtual aeroshaping enhancement by synthetic jets with variable suction and blowing cycles, Physics of Fluids, 2014, 26(1): 014105.
8)Wang J. J.(王晋军), Choi K. S., Feng L. H., Jukes T. N. and Whalley R. D.: Recent developments in DBD
等离子体 flow control, Progress in Aerospace Sciences, 2013, 62: 52-78.
9)Feng L. H., Wang J. J.(王晋军): Circular cylinder
vortexsynchronization control with a synthetic jet positioned at the rear stagnation
小数点, Journal of
fluid Mechanics, 2010, 662: 232-259.
10)Wang J. J.(王晋军), Li Y. C. and Choi K. S.: Gurney flap---
升力enhancement, Mechanisms and Applications, Progress in Aerospace Sciences, 2008, 44(1): 22-47.
参考资料:
湍流与转捩
1)Long Y. G., Wu D. and Wang J. J.(王晋军): A novel and robust method for the turbulent / non ‑ turbulent interface detection, Experiments in Fluids, 2021, 62: 138.
2)Wang J.S. and Wang
约翰·约翰逊(王晋军): Wake-induced transition in the low-Reynolds-number flow over a multi-
element airfoil, Journal of Fluid Mechanics, 2021, 915: A28.
3)Wang W.K.,
pan C. and Wang J.J.(王晋军):
能量 transfer structures associated with large-scale motions in a turbulent boundary layer, Journal of Fluid Mechanics, 2021, 906: A14.
4)Zhu H. Y., Pan C., Wang G. H., Liang Y. R., Ji X. C. and Wang J. J.(王晋军): Attached eddy-like particle clustering in a turbulent boundary layer under net sedimentation conditions, Journal of Fluid Mechanics, 2021, 920: A5.
5)Wu D., Wang
约翰·约翰逊(王晋军)and
pan C.: Bubbles and drops in the vicinity of turbulent/non-turbulent interface in turbulent boundary layers, Experiments in Fluids, 2020, 61(11): 240.
6)Wang C. Y., Gao Q., Wang J. J.(王晋军), Wang B. and
pan C.: Experimental study on dominant vortex structures in near-wall region of turbulent boundary layer based on tomographic particle image velocimetry, Journal of Fluid Mechanics, 2019, 874: 426-454.
7)Deng S. C.,
pan C., Wang J. J.(王晋军) and He G. S.: On the spatial organization of hairpin packets in a turbulent boundary layer at low-to-moderate Reynolds number, Journal of Fluid Mechanics, 2018, 844: 635-668.
8)He G. S.,
pan C., Feng L. H., Gao Q. and Wang J. J.(王晋军): Evolution of Lagrangian coherent structures in a cylinder-wake
Disturbed flat plate boundary layer, Journal of Fluid Mechanics, 2016, 792: 274-306.
9)He G. S., Wang J. J.(王晋军)and
pan C.: Initial growth of disturbance in the boundary layer influenced by a circular cylinder wake, Journal of Fluid Mechanics, 2013, 718: 116-130.
10)Pan C., Wang J. J.(王晋军), Zhang P. F. and Feng L. H.: Coherent structures in bypass transition induced by a cylinder wake, Journal of Fluid Mechanics, 2008, 603: 367-389.
参考资料:
飞行器空气动力学
1)Guo Q. F., He X., Wang Z. and Wang J. J.(王晋军): Effects of wing flexibility on aerodynamic
表演 of an aircraft model, Chinese Journal of Aeronautics, 2021, 34: 133.
2)Wang J. S. and Wang J. J.(王晋军): Vortex
动力学 for Flow around the Slat Cove at Low Reynolds Numbers, Journal of Fluid Mechanics, 2021, 919: A27.
3)Wang J. S., Feng, L. H., Wang J. J.(王晋军) and Li, T.: G\u0026ouml;rtler vortices in low-reynolds-number flow over multi-element airfoil, Journal of Fluid Mechanics, 2018, 835: 898-935.
4)Chen H.,
pan C. and Wang J. J.(王晋军): Effects of sinusoidal leading edge on delta wing
表演 and mechanism, Science China-Technological Sciences, 2013, 56(3): 772-779.
5)Wang J. J.(王晋军)and Tu J. Q.: Effect of Wing Planform on Leading-Edge Vortex Structures, Chinese Science Bulletin, 2010, 55(2): 120-123.
6)Zhang P. F., Liu A. B. and Wang J. J.(王晋军): Aerodynamic Modification of NACA0012 Airfoil by Trailing Edge
等离子体 Gurney Flap, AIAA Journal, 2009, 47(10): 2467-2474.
7)Li Y. C. and Wang J. J.(王晋军)and J H.: Experimental investigations on the effects of divergent trailing edge and Gurney flaps on a supercritical airfoil, Aerospace Science and Technology, 2007, 11(2-3): 91-99.
8)Zhan J. X., Wang W. J., Wu Z. and Wang J. J.(王晋军): Wind-Tunnel Experimental Investigation on a Fixed-Wing Micro Air Vehicle, Journal of Aircraft, 2006, 43(1): 280-283.
9)Wang J. J.(王晋军), Zhan J. X., Zhan W. G. and Wu Z.: The Application of Gurney Flap on a Simplified
前锋Swept Aircraft Model, Journal of Aircraft, 2006, 43(5): 1561-1564.
10)Li Y. C., Wang J. J.(王晋军) and Zhang P. F.: Influences of mounting angles and locations on the effects of Gurney flaps, Journal of Aircraft, 2003, 40(3): 494-498.
参考资料:
流场测量技术与分析方法
1)Nie M. Y.,
pan C., Wang J. J.(王晋军)and Cai C. J.: A hybrid 3D particle matching algorithm based on ant colony optimization, Experiments in Fluids, 2021, 62: 68.
2)Wang H. P., Gao Q., Wang S. Z., Li Y. H., Wang Z. Y. and Wang J. J.(王晋军): Error reduction for
时间resolved PIV
数据 based on Navier-Stokes
方程s, Experiments in Fluids, 2019, 59(10): 149.
3)Wang W. K.,
pan C. and Wang J. J.(王晋军): Multi-component variational mode decomposition and its application on wall-bounded turbulence, Experiments in Fluids, 2019, 60(6): 95.
4)Wang Z. Y., Gao Q., Pan C., Feng L. H. and Wang J. J.(王晋军): Imaginary particle tracking accelerometry based on
时间resolved velocity fields, Experiments in Fluids, 2017, 58(9): 113.
5)
pan C., Wang J. J., Wang J. J.(王晋军) and Sun, M.:
动力学 of an unsteady stagnation vortical flow via dynamic mode decomposition analysis, Experiments in Fluids, 2017, 58(3): 21.
6)Wang Z. Y., Gao Q., Wang C. Y., Wei R. J. and Wang J. J.(王晋军): An irrotation correction on
压强 gradient and orthogonal-path integration for PIV-based pressure reconstruction, Experiments in Fluids, 2016, 57(6): 104.
7)Wang C. Y., Gao Q., Wang H. P., Wei R. J., Li T. and Wang J. J.(王晋军): Divergence-free smoothing for volumetric PIV
数据, Experiments in Fluids, 2016, 57(1): 15.
8)
pan C., Xue D., Xu Y., Wang J. J.(王晋军)and Wei R. J.: Evaluating the accuracy
表演 of Lucas-Kanade algorithm in the circumstance of PIV application, Science China-Physics Mechanics \u0026 Astronomy, 2015, 58(10): 104704.
9)
pan C., Wang H. P. and Wang J. J.(王晋军): Phase identification of quasi-periodic flow measured by particle image velocimetry with a low sampling rate, Measurement Science and Technology, 2013, 24(5): 055305.
10)Gao Q., Wang H. P. and Wang J. J.(王晋军): A single camera volumetric particle image velocimetry and its application, Science China-Technological Sciences, 2012, 55(9): 2501-2510.
参考资料:
会议邀请报告
1)Wang J. J.(王晋军)and Xu Y.: Synthetic Jet Impinging onto Porous Walls. The 7th International Conference on Jets, Wakes and Separated Flows March 15-17, 2022, Tokyo, Japan (
Keynote Speaker)
2)王晋军, 柔性翼增升减阻主动控制研究, 第十二届全国实验流体力学学术会议, 2021, April 22-25,
长沙市 (大会特邀报告)
3)王晋军, 涡与
边界层的相互作用机理及流动控制, 空气动力学学会2020年度
春节学术座谈会, January 11, 2020, 北京 (大会特邀报告)
4)王晋军, 先进流场测量技术及应用, 中国力学大会, 2019, August 25-28,
杭州市 (大会特邀报告)
5)Wang J. J.(王晋军): Mechanism and Application for Complex Flow Interaction, The 8th International Conference on Fluid Mechanics, September 25-28, 2018, Sendai, Japan (Invited lecturer)
6)Wang J. J.(王晋军): Control of Flow over Bluff Bodies, The 4th symposium on Fluid-Structure-Sound Interactions and Control, August 21-24, 2017, Tokyo, Japan (Invited lecturer)
7)Wang J. J.(王晋军): A New Kind of Bypass Transition: Experimental Exploration on the Laminar Boundary Layer Transition Induced by Vortex. The 12th International Symposium on Particle Image Velocimetry, June 18-22, 2017, Busan, Korea (Invited lecturer)
8)王晋军, 飞行器增升减阻流动控制研究, 第十届全国实验流体力学学术会议, 2016, May 7-8,
上海市 (大会邀请报告)
9)Wang J. J.(王晋军)and Feng L. H.: Active Flow Control Using Synthetic Jets, European Drag Reduction and Flow Control Meeting (EDRFCM 2015), March 23-26, 2015, Cambridge, UK (Invited lecturer)
10)Wang J. J.(王晋军)and Feng L. H.: Active control for flow over a bluff body, 16th International Symposium on Flow Visualization (ISFV16), June 24-27, 2014, Okinawa, Japan (Invited lecturer)
11)Wang J. J.(王晋军)and Feng L. H.: Dielectric-Barrier-Discharge (DBD)
等离子体 Induced Wall Jet and its Application in Flow Control, 14th Congress of Fluid Mechanics (14ACFM), October 15-19, 2013,
河内Halong, Vietnam (Invited lecturer)
12)Wang J. J.(王晋军)and
pan C.: Experimental Investigation on Passive Control of Turbulent Boundary Layer with Roughness Elements, Open Greener Horizon Forum and Official EU-China GRAIN Meeting, November 12-14, 2012, Barcelona, Spain (Invited lecturer)
13)王晋军, 流体力学实验研究与测试技术, 第十三届全国实验力学学术会议, 2012, July 29-August 1,
昆明市 (大会邀请报告)
14)Wang J. J.(王晋军): Applications of Mechanical/
等离子体 Gurney Flap in
升力enhancement and Noise Reduction, VKI-GRAIN Lecture Series: Advanced Methods and Tools for Reducing Environmental Impacts in Aeronautics
设计 for Aircraft and Aero-engines, July 4-6, 2011, Rhode-Saint-Genese, Belgium (Invited lecturer)
15)
pan C. and Wang J. J.(王晋军): Visualization studies on the boundary layer bypass transition and control, 11th Asian Symposium on Visualization, June 6-8, 2011, Niiggata, Japan (Invited lecturer)
16)王晋军, 尾迹诱导边界层旁路转捩及其控制的实验研究, 中国力学大会, 2011, August 22-24,
哈尔滨市 (流体力学分会特邀报告)
17)Wang J. J.(王晋军)and Zhang P. F.: Investigations on flow control and possible application in aeronautics, 1st joint China-EU aeronautical projects ki
Calvin Kleinoff meetings and open workshop, October 25-27, 2010, Nanjing, China (Invited lecturer)
参考资料:
参考资料
王晋军.北京航空航天大学官网.2020-05-11
王晋军.北京航空航天大学教师个人主页.2024-10-02
王晋军.北京航空航天大学教师个人主页.2024-11-05
王晋军.北京航空航天大学教师个人主页.2024-11-05