教授，博导，国家级青年人才，中国力学学会湍流与稳定性专业委员。北京大学力学系本、硕、博、博后（2002-2014），美国德州理工大学研究助理教授（2015-2019）。从事湍流边界层的理论研究，在湍流的分析、模型预测和流动减阻控制上开展了多方位探索并获得了系列发现，在JFM, PRF, PoF, PRE, PRR, NJP, Science China等发表SCI论文30余篇，部分论文被选为 JFM focus on fluids,  web of science 高被引论文，以及AMS封面。曾受美国斯坦福大学、纽约大学、加州大学（UCSB）、德州理工、法国里尔大学、英国帝国理工大学等多所高校邀请给出学术报告；受聘担任过国家体育总局科教教练（2006-2007），获得过教育部“2008科技奥运团队”表彰（2008），受到了中组部海外高层次人才（青年）计划支持（2020）。参与过科技部973、基金委重大创新、基金委创新群体等项目，现主持基金委面上项目，为Int. J. Nonlin. Sci. Num. 编委。

工作经历:

2020-至今 教授，北京航空航天大学流体所

2019- 2020副教授，北京航空航天大学流体所

2014-2019 研究助理教授/Faculty，Department of Mechanical Engineering, Texas Tech University, TX, USA

2013-2014 博士后湍流与复杂系统国家重点实验室，北京大学

教育经历:

2006-2012北京大学硕博连读，流体力学博士学位

2002-2006北京大学本科，力学学士学位

研究经历:

         2019- 流体所，北航

         研究方向：湍流理论；流动减阻；湍流模型；涡动力学

         科研项目：国家自然科学基金委面上项目，基金委创新群体，北航青年拔尖人才支持计划

         2015-2019 Department of Mechanical Engineering, Texas Tech University, TX, USA

         研究方向：流动减阻；湍流理论；涡动力学

         科研项目：校长研究基金

         2009-2014 湍流与复杂系统国家重点实验室，北京大学

         研究方向：湍流模型；壁湍流理论

         科研项目：国家自然科学基金委重大革新项目、科技部973重大专项

         2006-2008 科技教练，中国皮划艇激流回旋国家队

          研究方向：2008北京奥运赛道辅助设计；运动员读水训练

          科研项目：体育总局‘科技奥运’研究计划

招生指标：

           硕士（3名/年）、博士（1-2名/年），每年博士后均可入站。欢迎联系。

授课/教学经历:

         2021 Theoretical Mechanics (Beihang University)

         Teaching theoretical mechanics for international undergraduate students of BUAA.

         2020 Introduction to Turbulence (Beihang University)

         Teaching turbulence course for undergraduate students of BUAA. 

         2017 Fluid Mechanics Lecture (Texas Tech University)

         Teaching fluid mechanics for undergraduate students (with projects of Matlab and HYSYS).

         2013 Master's Research Mentor (Peking University)

         2011-2012 Undergraduate Research Mentor (Peking University)

         2010-2012 Advanced Applied Mathematics Tutor (Peking University)

学术服务:

         2014- Associate Editor of International Journal of Nonlinear Sciences and Numerical Simulation (IJNSNS).

         2011- Member of American Physical Society.

         Journal Reviewer: Journal of fluid mechanics, Physical Review Fluids, Physical Review E, Physical of Fluids, Journal of Turbulence, Modern Physics Letter B,SCIENCE CHINA Physics, Mechanics & Astronomy, IJNSNS

奖励:

         2020: 国家海外高层次人才（青年），中国

         2019: Global Scholarship for the 21st Century, Texas Tech University, USA

         2017: Global Scholarship for the 21st Century, Texas Tech University, USA

         2010-2012:研究生奖学金,北京大学

         2010:北京湍流青年论坛金奖（唯一），北京大学

         2009:学术创新奖，北京大学

         2008:北京奥运科技工作先进集体，中华人民共和国教育部

         2007：学术创新奖，北京大学

         2007：《北京日报》“青春的榜样”专题报道

         2006-2008:中国皮划艇激流回旋国家队科研助理教练

发表论文:(*通讯作者)

1.        X. Chen*, K.R. Sreenivasan. "Law of bounded dissipation and its consequences in turbulent wall flows." Journal of Fluid Mechanics (accepted), 2022.

2. J. Yao, X. Chen, F. Hussain. "Composite active drag control in turbulent channel flows". Physical Review Fluids. 6, 054605, 2021.

3. B. Birnir, L. Angheluta, J. Kaminsky, and X. Chen, "Spectral link of the generalized Twonsen-Perry constants in turbulent boundary layers", Physical Review Research, 3, 043054, 2021. 
   

4. J.B. Xie, J.C. He, Y. Bao and X. Chen, "A low-communication-overhead parallel DNS method for the 3D incompressible wall turbulence", International journal of computational fluid dynamics, 1971002, 2021.

5. Y. Ji, J. Yao, F. Hussain, and X. Chen*, "Vorticity transports in turbulent channels under large-scale control via spanwise wall jet focing", Physics of Fluids, 33, 095112, 2021.
   

6. X. Chen*, K.R. Sreenivasan. "Reynolds number scaling of the peak turbulence intensity in wall flows." Journal of Fluid Mechanics (Rapids), 908, R3, 2021.

7. X. Chen*, J. Yao, F. Hussain. "Theoretical framework for energy flux analysis of channels under drag control". Physical Review Fluids. 6, 013902, 2021.

8. Hong-Yue Zou, Wen-Feng Zhou, Xi Chen, Yun Bao, Jun Chen*, Zhen-Su She.“Boundary layer structure in turbulent Rayleigh-Benard convection in a slim box.”Acta Mechanica Sinica. https://doi.org/10.1007/s10409-019-00874-x. 2019.

9. X. Chen*, F. Hussain, Z.S. She. "Non-universal scaling transition of momentum cascade in wall turbulence." Journal of Fluid Mechanics (Rapids), 871, R2, 2019.

10. Hong-Yue Zou, Wen-Feng Zhou, Xi Chen, Yun Bao, Jun Chen*, Zhen-Su She.“Boundary layer structure in turbulent Rayleigh-Benard convection in a slim box.”Acta Mechanica Sinica. https://doi.org/10.1007/s10409-019-00874-x. 2019.

11. X. Chen, F. Hussain, Z.S. She. "Quantifying wall turbulence via a symmetry approach. Part 2. Reynolds stresses." Journal of Fluid Mechanics.850, 401-438, 2018.

12. J. Yao, X. Chen, F. Hussain. "Drag control in wall-bounded turbulent flows via spanwise opposed wall-jet forcing". Journal of Fluid Mechanics.852, 678-709, 2018.

13. Z.S. She., H.Y. Zou, M.J. Xiao, X. Chen, F. Hussain."Prediction of compressible turbulent boundary layer via a symmetry-based length model." Journal of Fluid Mechanics.857, 449-468, 2018.

14. J. Yao, X. Chen*, F. Thomas, F. Hussain. "Large-Scale Control for drag reduction in turbulent channel Flow". Physical Review Fluids - Rapid Communication, 2, 062601(R), 2017.

15. Z.S. She, X. Chen, F. Hussain. "Quantifying wall turbulence via a symmetry approach: a Lie group theory." Journal of Fluid Mechanics. 827, 322-356, 2017.

16. X. Chen, F. Hussain. "Similarity transformation for equilibrium flows, including effects of blowing and suction." Physical Review Fluids, 2, 034605, 2017.

17. X. Chen, B.B. Wei, F. Hussain, Z.S. She. "Anomalous dissipation and kinetic-energy distribution in pipes at very high Reynolds number." Physical Review E - Rapid Communication. 93, 011102(R), 2016.

18. B. Birnir, X. Chen*. "Sub-Gaussian behavior of the Townsend-Perry constants in turbulent boundary layers." Physical Review E - Rapid Communication 93, 011101(R), 2016.

19. X. Chen, F. Hussain, Z.S. She. "Predictions of canonical wall-bounded turbulent flows via a modified k-ω equation." Journal of Turbulence,10.1080/14685248, 2016.

20. X. Chen, F. Hussain, Z.S. She. "Bulk flow scaling for turbulent channel and pipe flows." Europhysics Letters, 115 (34001), 2016.

21. X. Chen, Z.S. She. "Analytic prediction for planar turbulent boundary layers." Science China Physics, Mechanics & Astronomy, 59 (0228.R1), 2016.

22. C. Liu, X. Chen*. "Probability density functions of vorticities in turbulent channels with effects of blowing and suction." International journal of nonlinear science and numerical simulation. 10.1515/ijnsns-2015-0163.

23. B. Birnir, X. Chen, C. Liu, "Moments and probability density functions in turbulent boundary layers." eScholarship, University of California (http://escholarship.org/uc/item/770564zd), 2015.

24. Z.S. She, X. Chen, B.B. Wei, H.Y. Zou, W.T. Bi, “SED-based studies of turbulence models for wall flows.” Scientia Sinica Physica, Mechanica & Astronomica; 2015, 45(12):124703.

25. Y. Wu, X. Chen, Z.S. She, F. Hussain. "On the Karman constant in turbulent channel flow", Phys. Scr. T155 (014009), 2013.

26. Z.S. She, X. Chen, W.T. Bi, J. Chen. "Breakthrough in Modeling Turbulence for Aerodynamics Computations." China Basic Science, Vol.4, 2013.

27. Z.S. She, Y. Wu, X. Chen, F. Hussain. "A multi-state description of roughness effects in turbulent pipe flow." New Journal of Physics, 14 093054, 2012.

28. Y. Wu, X. Chen, Z.S. She, F. Hussain. "Incorporating boundary constraints to predict mean velocities in turbulent channel flow." Sci China-Phys Mech Astron, Vol.55 No.9: 1691-1695, 2012.

29. Z.S. She, X. Chen, F. Hussain. “A Lie group derivation of a multi-layer mixing length formula in turbulent channel and pipe flow.” In Turbulence Colloquium Marseille 2011, Ed. Farge, Moffatt, Schneider, ISBN 978-2-7598-1145-8, 436-455.

30. Z.S. She, X. Chen, Y. Wu, F. Hussain. "New perspectives in statistical modeling of wall-bounded turbulence." Acta Mech Sinica, 26(6), 847-861, 2010.

31. Z.S. She, X. Chen, "Recent progress on the fundamental research of turbulence." Advance in Mechanics, 39(4):511-512 2009.

专著/出版书

1.佘振苏，倪志勇，陈曦等,科技创新助飞奥运梦想，科学出版社，2008.

学术会议报告：

1. “Understanding wall turbulence through symmetry approach”, New York University, NY, USA, 2019.

2. “Scaling of wall turbulence, Part I: Mean velocity; Part II: Reynolds Stresses; Part III: applications in CFD models and drag control”, University de Lille, Cedex, France, 2019.

3. “Quantifying turbulent boundary layer via a symmetry approach”, Department of Mathematics, University of California, Santa Barbara, CA, USA, 2019.

4. 71th Annual Meeting of the APS Division of Fluid Dynamics, Atlanta, Georgia, 2018.

Quantifying wall turbulence via a symmetry approach: Part 2. Reynolds stresses.

5. Control of Turbulent friction drag conference, Beihang University, Beijing, China, 2018.

Coherent structures and drag reduction.

6. 70th Annual Meeting of the APS Division of Fluid Dynamics, Denver, Colorado, 2017.

Drag control of wall-bounded flows.

7. Frontiers in Turbulence KRS70 at Denver Symposium, Denver, Colorado, USA, 2017.

New results in wall turbulence: Symmetry approach to modeling and drag control mechanism.

8. Turbulence seminar, Peking University, Beijing, China, 2016.

Predictions of turbulent boundary layer flow.

9. 68th Annual Meeting of the APS Division of Fluid Dynamics, Boston, MA, 2015.

A multi-layer description of Reynolds stresses in canonical wall bounded flows.

10. Fluid mechanical seminar, Texas Tech University, Lubbock, USA, 2015.

A mean field theory for wall-bounded turbulent flow.

11. Fluid mechanical seminar, Stanford University, San Francisco, USA, 2014.

Symmetry-based analysis for wall bounded turbulent flow.

12. Applied mathematical seminar, University of California, Santa Barbara, USA, 2014 Predictions for canonical wall bounded flows based on symmetry analysis.

13. The 36th Conference on Stochastic Processes and their Applications. University of Colorado Boulder, Colorado, USA, 2013.

Symmetry-based analysis for wall bounded turbulent flow.

14. High Reynolds Number Boundary Layer Turbulence: Integrating Descriptions of Statistical Structure, Scaling and Dynamical Evolution, University of New Hampshire, New Hampshire, USA, 2013.

Lie group derivation for a new bulk flow scaling in wall bounded turbulence.

15. 66th Annual Meeting of the APS Division of Fluid Dynamics, Pittsburgh, USA, 2013.

Lie-group derivation of a bulk flow scaling for wall bounded turbulence.

16. 23rd International Congress of Theoretical and Applied Mechanics, Beijing, ICTAM, 2012

A multi-layer model for turbulent kinetic energy in pipe flows.

17. 65th Annual Meeting of the APS Division of Fluid Dynamics, San Diego, USA, 2012.

Multi-layer prediction of velocity profiles in turbulent boundary layers.

18. The solar course, the chemic force and the speeding change of water, Nordic Institute for Theoretical Physics, Stockholm, Sweden, 2011.

A Lie-group mean-field theory for turbulent channel and pipe flow.

19. 64th Annual Meeting of the APS Division of Fluid Dynamics, Baltimore, USA, 2011.

A novel Lie-group analysis for wall-bounded turbulent flows.