职称:教授

电话:010-62797215

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

个人简介

必赢电子游戏网站长聘教授,博士生导师。主要从事复杂边界流动数值方法、复杂边界湍流机理及控制、仿生流动等方面的研究工作。在Journal of Fluid Mechanics, Physics of Fluids, Physical Review Fluids等流体力学主流期刊上发表SCI论文100多篇,SCI引用1500多次。担任AIP Advances和Journal of Mechanical Science and Technology副主编,International Journal of Heat and Fluid Flow、Theoretical and Applied Mechanics Letters和水动力学研究与进展等期刊编委,以及国际湍流与剪切流会议(TSFP)顾问委员会委员(Advisory Committee)。目前为中国力学学会湍流与稳定性专业组成员和北京力学会理事/流体力学专业委员会副主任。讲授本科生课程《流体力学》、《粘性流体力学》、《新生导引课》和研究生课程《湍流概论》(我校精品课)、《流固热耦合理论与模拟》。

通讯地址:北京市海淀区必赢电子游戏网站

邮政编码: 100084

电话:010-62797215 (O)

电子邮件: hwx@tsinghua.edu.cn

教育背景

1997.9-2001.7,我校工程力学系,学士

2001.9-2004.1,我校工程力学系,硕士

2004.3-2009.1,韩国科学技术院机械工程系,博士

工作履历

2009.2-2010.1, 韩国科学技术院机械工程系,博士后

2010.1-2012.12,我校工程力学系流体力学研究所,助理研究员

2012.12-2018.6,我校工程力学系流体力学研究所,副教授

2015.3-2015.8, 美国明尼苏达大学机械工程系,高级访问学者

2018.6-2021.12,我校工程力学系流体力学研究所,长聘副教授

2021.12至今, 我校工程力学系流体力学研究所,长聘教授


学术兼职

期刊任职

2020.04 至今  美国物理协会期刊 AIP Advances (SCI期刊)  Associate Editor

2019.10 至今  韩国机械工程学会会刊 JMST (SCI期刊)  Associate Editor

2019.08 至今  英国工程师协会会刊C辑 JMES (SCI期刊)  Associate Editor

2020.07 至今  Int. J. Heat and Fluid Flow (SCI期刊)  Editorial Board

2020.07 至今  Theoretical and Applied Mechanics Letters (ESCI期刊)  Editorial Board

2019.01 至今  水动力学研究与进展   编委

2017.07 至今 《空气动力学学报》《实验流体力学》 青年编委

会议任职

2019.12 至今  国际湍流与剪切流会议(TSFP)  Advisory Committee

学会任职

2020.09 至今  中国力学学会    湍流与稳定性专业委员会委员

2017.01 至今  中国空气动力学学会    低跨超声速专业委员会委员

2017.10 至今  北京力学学会    理事会成员/流体力学专业委员会副主任


研究领域

1. 复杂边界流动数值方法:浸没边界法、欧拉网格方法、自由面方法

2. 复杂边界湍流机理、模型及控制:波形/粗糙壁湍流、水波-湍流耦合、多尺度能量输运、复杂壁湍流标度律、减阻控制、直接数值模拟、大涡模拟、壁模型

3. 仿生流动:飞行(蜻蜓、蚊子)与游动(金枪鱼、鳐鱼、鱼群)机理、流体-柔性体耦合、涡-涡相互作用

4. 航行体水动力学:水面/水下航行体水动力特性、水动力噪声、新型推进器、梢隙涡空化

研究概况

承担多项国家自然科学基金、国家重点研发计划、十三五装备预研项目、我校国际科技合作项目等;研究成果在水面/水下航行器推进及减振降噪方面有成功的应用;与多国学者保持广泛的交流与合作。

奖励与荣誉

2021.9  北京地区广受关注学术论文奖

2021.8  我校教学成果二等奖(本人排名第1)

2020.7  我校疫情防控期间在线教学优秀教师

2018.10 第三届中国科协优秀科技论文

2017.12 Acta Mechanica Sinica最优论文奖(每年3篇)

2015.1  我校教学成果二等奖(本人排名第2)

2014.7  我校优秀军工定向生导师

2014.6  我校优秀班主任(一等奖)

2008.2 韩国科技部BK21杰出科研奖

2007.10 韩国计算流体工程学会年会最优论文奖

2001.7 我校优良毕业生

学术成果

相关链接:https://www.researchgate.net/profile/Wei-Xi_Huang

1. 复杂边界流动数值方法

M. Ma, W.-X. Huang*, C.-X. Xu, G.-X. Cui, A hybrid immersed boundary/wall-model approach for large-eddy simulation of high-Reynolds-number turbulent flows, International Journal of Heat and Fluid Flow, 88: 108769, 2021

L.-H. Wang, C.-M. Xie, W.-X. Huang*, A monolithic projection framework for constrained FSI problems with the immersed boundary method, Computer Methods in Applied Mechanics and Engineering, 371: 113332, 2020

W.-X. Huang, F.-B. Tian, Recent trends and progresses in the immersed boundary method, Proc. Inst. Mech. Eng.-Part C: Journal of Mechanical Engineering Science, 233(23-24): 7617-7636, 2019

M. Ma, W.-X. Huang*, C.-X. Xu, A dynamic wall model for large eddy simulation of turbulent flow over complex/moving boundaries based on the immersed boundary method, Physics of Fluids, 31: 115101, 2019 (Editor's Pick)

W.-X. Huang, F.-B. Tian, Recent trends and progresses in the immersed boundary method, Proc. Inst. Mech. Eng.-Part C: Journal of Mechanical Engineering Science, in press, 2019

W.-X. Huang*, W. Guo, An improved penalty immersed boundary method for multiphase flow simulation, International Journal for Numerical Methods in Fluids, 88: 447-462, 2018 (Cover Image)

罗海宁,黄伟希*. 移动最小二乘浸没边界法中的权函数影响分析. 计算力学学报, (4): 487-492, 2017

R.-Y. Li, C.-M. Xie, W.-X. Huang*, C.-X. Xu, An efficient immersed boundary projection method for flow over complex/moving boundaries, Computers & Fluids, 140: 122-135, 2016

C. Yan, W.-X. Huang*, G.-X. Cui, C.-X. Xu, Z.-S. Zhang, A Ghost Cell Immersed Boundary Method for Large Eddy Simulation of Flows in Complex Geometries, International Journal of Computational Fluid Dynamics, 29: 12-25, 2015

W.-X. Huang, C.B. Chang and H.J. Sung, Three-dimensional simulation of elastic capsules in shear flow by the penalty immersed boundary method, Journal of Computational Physics, 231: 3340-3364, 2012

W.-X. Huang, C.B. Chang and H.J. Sung, "An Improved Penalty Immersed Boundary Method for Fluid-Flexible Body Interaction", Journal of Computational Physics, 230: 5061-5079, 2011

W.-X. Huang and H.J. Sung, "An Immersed Boundary Method for Fluid−Flexible Structure Interaction," Computer Methods in Applied Mechanics and Engineering, 198: 2650-2661, 2009

S.J. Shin, W.-X. Huang and H.J. Sung, "Assessment of regularized delta functions and feedback forcing schemes for an immersed boundary method," International Journal for Numerical Methods in Fluids, 58: 263-286, 2008

W.-X. Huang, S.J. Shin and H.J. Sung, "Simulation of Flexible Filaments in a Uniform Flow by the Immersed Boundary Method," Journal of Computational Physics, 226: 2206-2228, 2007

W.-X. Huang and H.J. Sung, "Improvement of Mass Source/Sink for an Immersed Boundary Method," International Journal for Numerical Methods in Fluids, 53: 1659-1671, 2007

2. 壁湍流机理、模型及控制

H.-N. Wang, W.-X. Huang, C.-X. Xu, Synthetic near-wall small-scale turbulence and its application in wall-modelled large-eddy simulation, Physics of Fluids, 33: 095102, 2021 (Featured Article)

H.-N. Wang, W.-X. Huang, C.-X. Xu, Off-wall boundary conditions for large-eddy simulation based on near-wall turbulence prediction, Physics of Fluids, 33: 045125, 2021 (Editor's Pick)

B.-Y. Zhang, W.-X. Huang, C.-X. Xu, A near-wall predictive model for passive scalars using minimal flow unit, Physics of Fluids, 33: 045119, 2021 (Featured Article)

H.-N. Wang, W.-X. Huang, C.-X. Xu, Space-time characteristics of turbulence in minimal flow units, Physics of Fluids, 32: 125103, 2020 (Editor's Pick)

B.-Z. Han, W.-X. Huang*, Active control for drag reduction of turbulent channel flow based on convolutional neural networks, Physics of Fluids, 32: 095108, 2020

Y. Song, C. Xu, W. Huang, Linear optimal control of transient growth in turbulent channel flows, Acta Mechanica Sinica, 35(4):729–739, 2019

M.-X. Zhao, W.-X. Huang, C.-X. Xu, Drag Reduction in Turbulent Flow along a Cylinder by Circumferential Oscillating Lorentz Force, Physics of Fluids, 31: 095104, 2019

M. Yu, W.-X. Huang, C.-X. Xu, Data-Driven Construction of a Reduced Order Model for Supersonic Boundary Layer Transition, Journal of Fluid Mechanics, 874: 1096-1114, 2019

M.-X. Zhao, W.-X. Huang, C.-X. Xu, Drag Reduction in Turbulent Flows along a Cylinder by Streamwise-Travelling Waves of Circumferential Wall Velocity, Journal of Fluid Mechanics, 862: 75-98, 2019

G. Yin, W. X. Huang, C. X. Xu, Prediction of near-wall turbulence using minimal flow unit, Journal of Fluid Mechanics, 841: 654-673, 2018

W.-Y. Zhang, W.-X. Huang*, C.-X. Xu, G.-X. Cui, Suboptimal Control of Wall Turbulence with Arrayed Dimple Actuators for Drag Reduction, Journal of Turbulence, 17(4): 379-399, 2016

Q.-J. Xia, W.-X. Huang*, C.-X. Xu, G.-X Cui, Direct numerical simulation of spatially developing turbulent boundary layers with opposition control, Fluid Dynamics Research, 47: 025503, 2015

Y.-J. Dai, W.-X. Huang*, C.-X. Xu, G.-X. Cui, Direct numerical simulation of turbulent flow in a rotating square duct, Physics of Fluids, 27: 065104, 2015

Yinshan Wang, Weixi Huang, Chunxiao Xu, On hairpin vortex generation from near-wall streamwise vortices, Acta Mechanica Sinica, 31(2): 139-152, 2015

B.-Q. Deng, C.-X. Xu, W.-X. Huang*, G.-X. Cui, Strengthened opposition control for skin-friction reduction in wall-bounded turbulent flows, Journal of Turbulence, 15(2): 122-143, 2014

B.Q. Deng, C.X. Xu, W.X. Huang, G.X. Cui, Effect of active control on optimal structures in wall turbulence, SCIENCE CHINA-Physics, Mechanics & Astronomy, 56(2), 290-297, 2013

M.-W. Ge, C.-X. Xu, W.-X. Huang, G.-X. Cui, Transient Response of Enstrophy Transport to Opposition Control in Turbulent Channel Flow, Applied Mathematics and Mechanics-English Edition, 34(2), 127-138, 2013

C.-X. Xu and W.-X. Huang, Transient Response of Reynolds Stress Transport to Spanwise Wall Oscillation in a Turbulent Channel Flow, Physics of Fluids, 17: 018101, 2005

3. 复杂边界湍流

L.-H. Wang, G.-Z. Ma, C.-X. Xu, H. J. Sung, W.-X. Huang*, Wall-attached structures over a traveling wavy boundary: Scalar transport, Physics of Fluids, 33: 105115, 2021 (Editor's Pick)

L.-H. Wang, C.-X. Xu, H. J. Sung, W.-X. Huang*, Wall-attached structures over a traveling wavy boundary: Turbulent velocity fluctuations, Physical Review Fluids, 6: 034611, 2021

B.-Y. Zhang, W.-X. Huang, Chun-Xiao Xu, Rough-wall turbulence in a minimal flow unit, Physics of Fluids, 32: 115120, 2020 (Editor's Pick)

G.-Z. Ma, C.-X. Xu, H. J. Sung, W.-X. Huang*, Scaling of rough-wall turbulence by the roughness height and steepness, Journal of Fluid Mechanics, 900: R7, 2020

L.-H. Wang, W.-Y. Zhang, X. Hao, W.-X. Huang*, L. Shen, C.-X. Xu, Z. Zhang, Surface wave effects on energy transfer in overlying turbulent flow, Journal of Fluid Mechanics, 893: A21, 2020

W.-Y. Zhang, W.-X. Huang*, C.-X. Xu, Very large-scale motions in turbulent flows over streamwise travelling wavy boundaries, Physical Review Fluids, 4: 054601, 2019

L.-H. Wang, W.-X. Huang*, C.-X. Xu, L. Shen, Z.-S. Zhang, Relationship between wall shear stresses and streamwise vortices in turbulent flow over wavy boundary, Applied Mathematics and Mechanics-English Edition, 40(3): 381-396, 2019

Q.-J. Xia, W.-X. Huang*, C.-X. Xu, Direct Numerical Simulation of Turbulent Boundary Layer over an Anisotropic Compliant Wall, Acta Mechanica Sinica, 35(2): 384-400, 2019

Q.-J. Xia, W.-X. Huang*, C.-X. Xu, Direct Numerical Simulation of Turbulent Boundary Layer over a Compliant Wall, Journal of Fluids and Structures, 71: 126-142, 2017

C. Yan, W.-X. Huang*, G.-X. Cui, Z.-S. Zhang, Large eddy simulation of flow over a vegetation-like canopy modeled as arrays of bluff elements, Boundary-Layer Meteorology, 165: 233-249, 2017

C. Yan, H. M. Nepf, W.-X. Huang*, G.-X. Cui, Large eddy simulation of flow and scalar transport in a vegetated channel, Environmental Fluid Mechanics, 17: 497-519, 2017

Z.-X. Hu, J. Huang, W.-X. Huang*, G.-X. Cui, Second-order curved interface treatments of the lattice Boltzmann method for convection-diffusion equations with conjugate interfacial conditions, Computers and Fluids, 144: 60-73, 2017

Y.S. Liu, G.X. Cui, Z.S. Wang, W.X. Huang, C.X. Xu, Z.S. Zhang, A composite model for complex building street configuration in a large eddy simulation of local urban atmospheric environment, SCIENCE CHINA Physics, Mechanics & Astronomy, 54(4): 716-723, 2011

W.-X. Huang, S.-H. Lee, H.J. Sung, T.-M. Lee and D.-S. Kim, "Simulation of Liquid Transfer between Separating Walls for Modeling Micro-gravure- offset Printing," International Journal of Heat and Fluid Flow, 29: 1436-1446, 2008

W.-X. Huang and H.J. Sung, "Vortex Shedding from a Circular Cylinder near a Moving Wall," Journal of Fluids and Structures, 23: 1064-1076, 2007

4. 仿生流动

J.-D. Zhang, W.-X. Huang*, Numerical model and hydrodynamic performance of tuna finlets, Theoretical and Applied Mechanics Letters, 12: 100322, 2022

D. Zhang, Q. Huang*, G. Pan, L. Yang, W.-X. Huang*, Vortex dynamics and hydrodynamic performance enhancement mechanism in batoid fish oscillatory swimming, Journal of Fluid Mechanics, 930: A28, 2022

E. Lau, W.-X. Huang*, Variations of flight patterns for falling flexible plates, Physics of Fluids, 33: 081904, 2021

J. Yang, Y. Chen, J.-D. Zhang, W.-X. Huang*, H. J. Sung*, A self-propelled flexible plate with a keel-like structure, Physics of Fluids, 33: 031902, 2021

J.-D Zhang, H. J. Sung, W.-X Huang*, Specialization of Tuna: A Numerical Study on the Function of Caudal Keels, Physics of Fluids, 32: 111902, 2020 (Editor's Pick)

J. Qiu, W. Huang, C. Xu, L. Zhao, Swimming strategy of settling elongated micro-swimmers by reinforcement learning, SCIENCE CHINA-Physics, Mechanics & Astronomy, 63(8): 284711, 2020

K. Jia, L. Fang, W.-X. Huang*, Coupled States of Dual Side-by-side Inverted Flags in a Uniform Flow, Journal of Fluids and Structures, 91: 102768, 2019

J.-D. Zhang, W.-X. Huang*, On the Role of Vortical Structures in Aerodynamic Performance of a Hovering Mosquito, Physics of Fluids, 31: 051906, 2019

J. Ryu, S.G. Park, W.-X. Huang, H. J. Sung, Hydrodynamics of a three-dimensional self-propelled flexible plate, Physics of Fluids, 31: 021902, 2019 (Editor's Pick)

R.-Y. Li, Z.-W. Cui, W.-X. Huang*, L.-H. Zhao, C.-X. Xu, On Rotational Dynamics of a Finite-sized Ellipsoidal Particle in Shear Flows, Acta Mechanica, 230: 449-467, 2019

E. M. Lau, J.-D. Zhang, Y.-X. Jia, W.-X. Huang*, C.-X. Xu, Vortical structures in the wake of falling plates Journal of Visualization, Journal of Visualization, 22:15-24, 2019

E. Lau, W.-X. Huang*, C.-X. Xu, Progression of heavy plates from stable falling to tumbling flight, Journal of Fluid Mechanics, 850: 1009-1031, 2018

E. Uddin, W.-X. Huang*, H.J. Sung*,  Actively Flapping Tandem Flexible Flags in a Viscous Flow, Journal of Fluid Mechanics, 780: 120-142, 2015

C.-M. Xie, W.-X. Huang*, Vortex interactions between forewing and hindwing of dragonfly in hovering flight, Theoretical & Applied Mechanics Letters, 5: 24-29, 2015

谢春梅, 黄伟希*. 前后排列柔性细丝在粘性流体中自主推进的稳定形态及动力学机制. 科学通报,62(19): 2094-2103, 2017(封面文章)

J.H. Lee, W.-X. Huang* and H.J. Sung*, Flapping Dynamics of a Flexible Flag in a Uniform Flow, Fluid Dynamics Research, 46: 055517, 2014

S.G. Park, C.B. Chang, W.-X. Huang, H.J. Sung, Simulation of Swimming Oblate Jellyfish with a Paddling Based Locomotion, Journal of Fluid Mechanics, 748: 731-755, 2014

E. Uddin, W.-X. Huang, H.J. Sung, Interaction Modes of Multiple Flexible Flags in a Uniform Flow, Journal of Fluid Mechanics, 729: 563-583, 2013

C.B. Chang, W.-X. Huang, H.J. Sung, Lateral Migration of an Elastic Capsule by Optical Force in a Uniform Flow, Physical Review E, 86: 066306, 2012

C.B. Chang, W.-X. Huang, K.H. Lee and H.J. Sung, Optical Levitation of a Non-Spherical Particle in a Loosely Focused Gaussian Beam, Optics Express, 20(21): 24068-24084, 2012

B.Y. Kim, W.-X. Huang, S.J. Shin, and H.J. Sung, Flexible Ring Flapping in a Uniform Flow, Journal of Fluid Mechanics, 707: 129-149, 2012

Hao-Tian Gao, Feng-Hua Qin, Wei-Xi Huang, De-Jun Sun, Multiple Modes of Filament Flapping in a Uniform Flow, Chinese Physics Letters, 29(9): 094702, 2012

F.-H. Qin, W.-X. Huang and H.J. Sung, Simulation of Small Swimmer Motions Driven by Tail/Flagellum Beating, Computers & Fluids, 55: 109-117, 2012

W.-X. Huang and H.J. Sung, "Three−Dimensional Simulation of a Flapping Flag in a Uniform Flow," Journal of Fluid Mechanics, 653: 301-336, 2010

S. Kim, W.-X. Huang and H.J. Sung, “Constructive and Destructive Interaction Modes between Two Tandem Flexible Flags in Viscous Flow,” Journal of Fluid Mechanics, 661: 511-521, 2010

5. 航行体水动力学

J.-W. Jiang, Z.-Y. Xiong, W. Rui, Y.-H. Chen, J.-R. Liu, W.-X. Huang*, An improved spectral method and experimental tests for the low-frequency broadband noise of marine propellers, Journal of Marine Science and Technology, in press

J.-W. Jiang, W.-Q. Wang, K. Chen, W.-X. Huang*, Large-Eddy Simulation of Three-Dimensional Aerofoil Tip-Gap Flow, Ocean Engineering, 243: 110315, 2022

C. Xie, J. Liu, J.-W. Jiang, W.-X. Huang*, Numerical study on wetted and cavitating tip-vortical flows around an elliptical hydrofoil: interplay of cavitation, vortices and turbulence, Physics of Fluids, 33: 093316, 2021

J.-W. Jiang, Y. Yang, T.-W. Ren, F. Wang, W.-X. Huang*, Data-driven evolutionary optimisation for the reduction of the low-frequency discrete-spectrum force of marine propeller noise, Journal of Marine Science and Engineering, 9(1): 18, 2021

J.-W. Jiang, J.-T. Qi, H.-P. Cai, K. Chen, W.-X. Huang*, Prediction and optimisation of low-frequency discrete- and broadband-spectrum marine propeller forces, Applied Ocean Research, 98: 102114, 2020

S. J. Kim, W.-X. Huang, H. J. Sung, The reduction of noise induced by flow over an open cavity, International Journal of Heat and Fluid Flow, 82: 108560, 2020

W.-X. Huang*, Y. Chen, S. Lee, Y. L. Young, M. Abdel-Maksoud, Hydrodynamics of marine propulsion, Proc. Inst. Mech. Eng.-Part C: Journal of Mechanical Engineering Science, 233(18): 6291-6292, 2019

J.-W. Jiang, W.-X. Huang*, Hydrodynamic design of an advanced submerged propulsion, Proc. Inst. Mech. Eng.-Part C: Journal of Mechanical Engineering Science, 233(18): 6367-6382, 2019

人才培养

已毕业博士生 3 名、硕士生 1 名,在读博士生 9 名,在站博士后2名,联合指导博士后1名;其中2人获未来学者奖。

我校本科毕设优秀论文(2016,2018,2020)

我校挑战杯三等奖指导老师(2020)

我校SRT优秀指导教师二等奖(2016,2018)

航院暑期创新实践营金奖指导老师(2020)

航院优秀新生导师奖(2020)

欢迎有意攻读博士生和毕业后有意做博士后的同学发Email咨询:hwx@tsinghua.edu.cn

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