dafabet黄金手机版 - 歡迎您!

职称:副教授

E-mail address:zhaolihao@tsinghua.edu.cn

个人简介

清华大学dafabet黄金手机版长聘副教授,博士生导师,现任流体力学所副所长。主要从事两相流(颗粒、液滴两相流等)及湍流相关问题的理论与应用研究,在Journal of Fluid Mechanics、Physical Review Letters、Science Advances等流体力学和综合类期刊上发表SCI论文60余篇,担任数个国际SCI期刊编委,包括国际多相流杂志International Journal of Multiphase Flow编委、Acta Mechanica编委、Acta Mechanica Sinica青年编委及客座编辑等。现任中国力学学会环境力学专委会副主任、对外交流与合作委员会秘书长、中国空气动力学学会计算空气动力学专委会委员等。主讲《流体力学》、《颗粒两相流》等课程。

地址:清华大学dafabet黄金手机版,蒙民伟科技大楼北楼,100084,北京

邮件:zhaolihao@tsinghua.edu.cn

教育背景

2001.09 - 2005.07  南京航空航天大学   飞行器动力工程学士

2006.02 - 2008.02  韩国科学技术院   航空航天工程硕士

2008.08 - 2012.04  挪威科技大学   流体工程博士

工作履历

2012.04 - 2016.06  挪威科技大学  博士后

2016.08 - 2021.07  清华大学工程力学系  副教授

2021.08 - 至今    清华大学工程力学系  长聘副教授

学术兼职

International Journal of Multiphase Flow编委

Acta Mechanica编委

Heliyon编委(2018-2021)

Acta Mechanica Sinica青年编委

Acta Mechanica Sinica客座编辑

中国力学学会环境力学专委会副主任

中国力学学会对外交流与合作委员会秘书长

中国空气动力学学会计算空气动力学专委会委员

欧洲力学学会会员

2021 1st BICTAM-CISM Symposium on Dispersed Multiphase Flows组委会主席

研究领域

两相流(含颗粒、液滴等离散相)及湍流相关理论研究和应用问题研究。

研究概况

主要采用理论与数值模拟方法研究两相流问题,目前研究兴趣包括:(1)大雷诺数(粗糙、可压缩)壁湍流中颗粒输运及两相间相互作用;(2)非球形颗粒动力学及其在流动减阻方面的应用;(3)湍流中微小液滴的蒸发和沉降;(4)复杂流动中主动运动颗粒研究、基于机器学习的智能粒子策略研究及流动信号感知识别等。

针对不同类型两相流动问题,已发展了数套自主可控的大规模并行模拟程序。与实际需求结合,对航空航天、能源、环境、材料制备等过程中两相流相关问题具有兴趣,在进行或已完成的应用研究课题包括油气开采过程或能源过程中颗粒输运、复杂管道中颗粒物影响、海洋环境中浮游生物垂向迁移、基于机器学习的复杂流场环境中智能体(如游动机器人)行为策略研究等。

已承担的科研项目包括国家自然科学基金、国家级青年人才项目、清华国强研究院项目、中石油和中航工业等院所合作项目等。

奖励与荣誉

2019.09  清华大学优秀班主任(二等奖)

2019.05  清华大学dafabet黄金手机版第一届青年教师教学比赛一等奖

2015.06  研究被选入流体力学杂志(JFM)流体聚焦 (Focus on Fluids)

2012.09  欧洲流动湍流燃烧研究会(ERCOFTAC)达芬奇奖(银奖)

2008.02  BK21优秀硕士毕业论文

学术成果

已发表国际SCI期刊论文60余篇,主要发表在PRL(1)、Sci. Adv.(1)、JFM(11)、IJMF(10)、PRF(3)、PoF(19)等流体力学和综合类期刊上(* 通讯作者,# 一作)。

www.researchgate.net/profile/Lihao-Zhao

2022

1. Gyrotactic mechanism induced by fluid inertial torque for settling elongated microswimmers. J. Qiu, Z. Cui, E. Climent, L. Zhao*, Physical Review Research, in press (2022).

2. Navigation of micro-swimmers in steady flow: the importance of symmetries. J. Qiu, N. Mousavi, K. Gustavsson, C. Xu, B. Mehlig and L. Zhao*, Journal of Fluid Mechanics, 932, A10 (2022).

3. On the existence and formation of multi-scale particle streaks in turbulent channel flows. Y. Jie, Z. Cui, C. Xu, L. Zhao*, Journal of Fluid Mechanics, 935, A18 (2022).

4. Scale-dependent particle clustering in transitional wake flow. Z. Shi, F. Jiang, L. Zhao, H. Andersson, Journal of Fluid Mechanics, 940, A4 (2022).

5. High-throughput production of kilogram-scale nanofibers by Kármán vortex solution blow-spinning. Z. Li#, Z. Cui#, L. Zhao#, N. Hussain, Y. Zhao, C. Yang, X. Jiang, L. Li, J. Song, B. Zhang, Z. Cheng, H. Wu*, Science Advances, 8, eabn3690 (2022).

6. Active gyrotactic stability of microswimmers using hydromechanical signals. J. Qiu, N. Mousavi, L. Zhao*, K. Gustavsson* Physical Review Fluids, 7, 014311 (2022).

7. Micro-swimmers in vertical turbulent channel flows. Z. Zhang, J. Qiu, and L. Zhao*, International Journal of Multiphase Flow, 151, 104035 (2022).

8. Preferential orientation of tracer spheroids in evolving Taylor-Green vortex flow. R. Jayaram*, Y. Jie, L. Zhao and H. Andersson, Physics of Fluids, 34, 043310 (2022).

2021

9. Turbulence modulations and drag reduction by inertialess spheroids in turbulent channel flow. Z. Wang, C. Xu and L. Zhao*, Physics of Fluids, 33, 123313 (2021).

10. A method for long-time integration of finite-time Lyapunov exponent and Lyapunov vectors along fluid particle trajectories. Z. Cui and L. Zhao*, Physics of Fluids, 33, 125107 (2021).

11. Alignment of infinitesimal material elements in wall turbulence. Z. Cui, W. Huang, C. Xu, H. Andersson and L. Zhao*, International Journal of Multiphase Flow, 145, 103837 (2021).

12. Clusters and Coherent Voids in Particle-laden Wake Flow. Z. Shi, F. Jiang, L. Zhao, H. Andersson. International Journal of Multiphase Flow, 141, 103678 (2021).

13. Effects of the quiescent core in turbulent channel flow on transport and clustering of inertial particles Y. Jie, H. Andersson and L. Zhao*, International Journal of Multiphase Flow, 140, 103627 (2021).

14. Alignment and rotation of spheroids in unsteady vortex flow. R. Jayaram, Y. Jie, J. Gillissen, L. Zhao* and H. Andersson, Physics of Fluids, 33, 033310 (2021).

15. Inertial torque on a small spheroid in a uniform flow. F. Jiang, L. Zhao, H. Andersson, K. Gustavsson, A. Pumir and B. Mehlig*, Physical Review Fluids, 6, 024302 (2021).

2020

16. Alignment statistics of rods with the Lagrangian stretching direction in a channel flow. Z. Cui, Anshuman, L. Zhao* and B. Mehlig, Journal of Fluid Mechanics, 901, A16 (2020).

17. Orientation of inertial spheroids in turbulent Couette-Poiseuille flow with a shear-free wall. K. Yang, L. Zhao* and H. Andersson, International Journal of Multiphase Flow, 132, 103411 (2020).

18. Kinetic energy balance in turbulent particle-laden channel flow. Q. Pan, H. Xiang, Z. Wang, H. Andersson and L. Zhao*, Physics of Fluids, 32, 073307 (2020).

19. Bow shock clustering in particle-laden wetted cylinder flow. Z. Shi, F. Jiang, H. Strandenes, L. Zhao and H. Andersson, International Journal of Multiphase Flow, 130, 103332 (2020).

20. Clustering of inertial spheres in evolving Taylor-Green vortex flow. R. Jayaram, Y. Jie, L. Zhao* and H. Andersson, Physics of Fluids 32, 043306 (2020). (Selected as a Featured Article)

21. Non-monotonic effect of mass loading on turbulence modulations in particle-laden channel flow. T. Zhou, L. Zhao, W. Huang and C. Xu*, Physics of Fluids, 32, 043304 (2020). (Editor’s Pick).

22. Swimming strategy of settling elongated micro-swimmers by reinforcement learning. J. Qiu, W. Huang, C. Xu and L. Zhao*, SCIENCE CHINA Physics, Mechanics & Astronomy, 63, 284711 (2020).

23. The particle stress in dilute suspensions of inertialess spheroids in turbulent channel flow. Z. Wang and L. Zhao*, Physics of Fluids, 32, 013302 (2020).

2019

24. Mapping spheroids’ rotation modes in turbulent channel flow: Effects of shear, turbulence, and particle inertia. L. Zhao*, N. Challabolta, H. Andersson and E. Variano, Journal of Fluid Mechanics, 876, 19-54 (2019).

25. Settling tracer spheroids in vertical channel flows. J. Qiu, C. Marchioli, H. I. Andersson and L. Zhao*, International Journal of Multiphase Flow, 118, 173-182 (2019).

26. Diagnostic tools of particle rotation anisotropy. K. Yang, L. Zhao and H. I. Andersson, International Journal of Multiphase Flow, 120, 103078 (2019).

27. Influence of the quiescent core on tracer spheroidal particle dynamics in turbulent channel flow. Y. Jie, C. Xu, J. Dawson, H. Andersson and L. Zhao*, Journal of Turbulence, 20, 424-438 (2019).

28. Passive directors in turbulence. L. Zhao, K. Gustavsson, R. Ni, S. Kramel, G. Voth, H. Andersson and B. Mehlig, Physical Review Fluids, 4, 054602 (2019) (Editors’ Suggestion).

29. Stability analysis of rotational dynamics of ellipsoids in simple shear flow. Z. Cui, L. Zhao*, W. Huang and C. Xu, Physics of Fluids, 31, 023301 (2019) (Editor’s Pick).

30. Preferential orientation of tracer spheroids in turbulent channel flow. Y. Jie, L. Zhao*, C. Xu, and H. Andersson, Theoretical and Applied Mechanics Letters, 9, 212-214 (2019).

31. Eulerian-Lagrangian simulation of pulverized biomass jet using spheroidal particle approximation. N. Guo, T. Li*, L. Zhao and T. Lovas, Fuel, 239, 636-651 (2019).

32. On rotational dynamics of a finite-sized ellipsoidal particle in shear flows. R. Li, Z. Cui, W. Huang*, L. Zhao and C. Xu, Acta Mechanica, 230, 449–467 (2019).

2018

33. Mean-shear versus orientation isotropy: effects on inertialess spheroids' rotation mode in wall turbulence. K. Yang, L. Zhao* and H. I. Andersson, Journal of Fluid Mechanics, 844, 796-816 (2018).

34. Lattice Boltzmann simulation of resolved oblate particles in wall turbulence. A. Eshghinejadfard*, L. Zhao and D. Thevenina, Journal of Fluid Mechanics, 849, 510-540 (2018).

35. Three-dimensional Voronoï analysis of preferential concentration of spheroidal particles. W. Yuan, L. Zhao*, H. Andersson and J. Deng, Physics of Fluids, 30, 063304 (2018).

36. On wall-normal motions of inertial spheroids in vertical turbulent channel flows. W. Yuan, L. Zhao*, N. R. Challabotla, H. Andersson and J. Deng*, Acta Mechanica, 229, 2947–2965 (2018).

37. Particle segregation in turbulent Couette-Poiseuille flow with vanishing wall shear. K. Yang, L. Zhao* and H. Andersson, International Journal of Multiphase Flow, 98, 45-55 (2018).

2017

38. Preferential particle concentration in wall-bounded turbulence with zero skin friction. K. Yang, L. Zhao* and H. I. Andersson, Physics of Fluids, 29, 113302 (2017).

39. Dynamics of disk-like particles in turbulent vertical channel flow. W. Yuan, H.I. Andersson, L. Zhao*, N. Challabotla and J. Deng, International Journal of Multiphase Flow, 96, 86-100 (2017).

40. Turbulent Couette-Poiseuille flow with zero wall shear. K. Yang, L. Zhao* and H. Andersson, International Journal of Heat and Fluid Flow, 63, 14-27 (2017).

2016

41. Why spheroids orient preferentially in near-wall turbulence. L. Zhao* and H. I. Andersson, Journal of Fluid Mechanics, 807, 221-234 (2016).

42. Orientation and rotation dynamics of triaxial ellipsoidal tracers in wall turbulence. N. Challabotla, L. Zhao* and H. I. Andersson, Physics of Fluids, 28, 123304 (2016).

43. On fiber behavior in turbulent vertical channel flow. N. Challabotla, L. Zhao* and H. I. Andersson, Chemical Engineering Science, 153, 75-86 (2016).

44. Gravity effects on fiber dynamics in wall turbulence. N. Challabotla*, L. Zhao and H. I. Andersson, Flow, Turbulence and Combustion, 97, 1095-1110 (2016).

45. A new Eulerian–Lagrangian agent method to model fish paths in a vertical slot fishway. Z. Gao*, H. I. Andersson, H. Dai, F. Jiang and L. Zhao, Ecological Engineering, 88, 217-225 (2016).

46. On the relative rotational motion between elongated fibers and fluid in turbulent channel flow. C. Marchioli, L. Zhao* and H. Andersson, Physics of Fluids, 28, 013301(2016).

2015-2010

47. Rotation of nonspherical particles in turbulent channel flow. L. Zhao*, N. Challabotla, H. Andersson and E. Variano, Physical Review Letters, 115, 244501(2015).

48. Shape effects on dynamics of inertia-free particles in wall turbulence. N. Challabotla, L. Zhao* and H. Andersson, Physics of Fluids, 27, 061703 (2015).

49. On the anisotropic vorticity in turbulent channel flows. H. I. Andersson, L. Zhao* and E. Variano, AMSE Journal of Fluid Engineering, 137,084503 (2015).

50. Orientation and rotation of inertial disk particles in wall turbulence. N. Challabotla, L. Zhao* and H. Andersson, Journal of Fluid Mechanics (Rapids), 766, R2 (2015). (JFM Focus on Fluids)

51. Slip velocity of rigid fibers in turbulent channel flow. L. Zhao*, C. Marchioli and H. Andersson, Physics of Fluids, 26, 063302(2014).

52. A Voronoi analysis of preferential concentration in a vertical channel flow. C. Nilsen, H. Andersson and L. Zhao, Physics of Fluids, 25, 115108(2013).

53. On inertial effects of long fibers in wall turbulence: fiber orientation and fiber stresses. L. Zhao*, H. Andersson and J. J. J. Gillissen, Acta Mechanica, 262, 2375–2384 (2013).

54. Bridging the gap between continuum mechanical micro-rotation viscosity and Lagrangian point-particles. H. Andersson and L. Zhao*, ASME Journal of Fluid Engineering, 135, 124502 (2013).

55. Interphasial energy transfer and particle dissipation in particle-laden wall turbulence. L. Zhao*, H. Andersson and J. J. J. Gillissen, Journal of Fluid Mechanics, 715, 32-59 (2013).

56. Statistics of particle suspensions in turbulent channel flow. L. Zhao* and H. Andersson, Communications in Computational Physics, 11, 1311-1322 (2012).

57. Stokes number effects on particle slip velocity in wall-bounded turbulence and implications for dispersion models. L. Zhao*, C. Marchioli and H. Andersson, Physics of Fluids (Letters), 24, 021705 (2012).

58. Torque-coupling and particle-turbulence interactions. H. Andersson, L. Zhao and M. Barri, Journal of Fluid Mechanics (Rapids), 696, 319-329 (2012).

59. Numerical investigation of particles turbulent dispersion in channel flow. T. Li*, L. Zhao, X. Ku, H. Andersson and T. Lovas, Thermal Science, 16, 1510-1514 (2012).

60. On particle spin in a two-way coupled turbulent channel flow simulation. L. Zhao* and H. Andersson, Physics of Fluids, 23, 093302 (2011).

61. Turbulence modulation and drag reduction by spherical particles. L. Zhao*, H. Andersson and J. J. J. Gillissen, Physics of Fluids (Letters), 22, 081702 (2010).