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杨越
目前任职                                                                                                                     
北京大学工学院力学与工程科学系   教授 
 
联系方式
地址:北京大学工学院1号楼   邮编:100871
电话:+86-10-62745328
Email:yygpku.edu.cn
 
工作经历
2020/02-至今          教授,北京大学工学院力学与工程科学系
                               湍流与复杂系统国家重点实验室,应用物理与技术研究中心
                               北京大学工程科学与新兴技术高精尖创新中心 
2016/06-2016/07    访问学者   斯坦福大学湍流研究中心
2013/08-2020/01    研究员,北京大学工学院力学与工程科学系
2011/03-2013/07    博士后   普林斯顿大学燃烧能源研究中心,康奈尔大学机械与航天工程系(兼职)
                               (主要合作者:Stephen B. Pope教授,Jacqueline H. Chen研究员)
 
教育背景
2007/09-2011/02   博士   加州理工学院   航空(导师:Dale I. Pullin教授)   
2004/09-2007/07   硕士   中国科学院力学研究所   流体力学(导师:何国威研究员)  
2000/09-2004/07   学士   浙江大学   热能动力工程,计算机科学(双学位)  
 

研究领域

湍流、转捩、燃烧  湍流简介

主要学术贡献:涡面场理论与应用 (综述 

 

教学信息

19/02-19/06, 18/02-18/06, 17/02-17/06, 16/02-16/06, 15/03-15/06   工程数学 本科生课程  北京大学
19/02-19/06, 18/02-18/06, 17/02-17/06  工学创新实践(机器人组) 本科生课程  北京大学   
18/09-19/01, 16/09-17/01  湍流数值模拟 研究生课程  北京大学  
17/09-18/01, 15/09-16/01   湍流燃烧 研究生课程  北京大学 
14/09-15/01  工程流体力学 本科生课程 北京大学
14/02-14/06  湍流   研究生课程   北京大学  
 
招聘信息
本课题组招收博士研究生、博士后、本科生,详情请点击这里
 
主要获奖及资助
2019   国家杰出青年科学基金,国家自然科学基金委员会
2019   教学优秀奖,北京大学
2019   中国力学学会优秀博士学位论文导师中国力学学会
2016   Summer Program Fellowship斯坦福大学湍流研究中心
2015   优秀青年科学基金,国家自然科学基金委员会
2014   求是杰出青年学者奖,求是科技基金会
2011   Combustion Energy Research Fellowship,普林斯顿大学
2011   Richard Bruce Chapman Memorial Award for distinguished research in Hydrodynamics,加州理工学院
 
代表论文目录 (通讯作者*标注; 全部论文目录, 全文下载见ResearchGate)
 

1.   J. You and Y. Yang* 

      Modelling of the turbulent burning velocity based on Lagrangian statistics of propagating surfaces

      Journal of Fluid Mechanics, 887, A11, 2020

    


2.   W. Tong, Y. Yang*, and S. Wang 

      Characterizing three-dimensional features of vortex surfaces in the flow past a finite plate

      Physics of Fluids, 32, 011903, 2020

     


3.   W. Zheng, S. Ruan, Y. Yang*, L. He, and S. Chen 

      Image-based modelling of the skin-friction coefficient in compressible boundary-layer transition

      Journal of Fluid Mechanics, 875, 1175-1203, 2019

   

 

4.   S. Xiong and Y. Yang* 

      Identifying the tangle of vortex tubes in homogeneous isotropic turbulence

      Journal of Fluid Mechanics, 874, 952-978, 2019 (Featured on cover)

 

 

5.   S. Xiong and Y. Yang* 

      Construction of knotted vortex tubes with the writhe-dependent helicity

      Physics of Fluids, 31, 047101, 2019

 

 

6.   J. Hao, S. Xiong, and Y. Yang* 

      Tracking vortex surfaces frozen in the virtual velocity in non-ideal flows

      Journal of Fluid Mechanics, 863, 513-544, 2019

 

 

7.   H. Zhou, J. You, S. Xiong, Y. Yang*, D. Thevenin, and S. Chen

      Interactions between the premixed flame front and the three-dimensional Taylor-Green vortex

      Proceedings of the Combustion Institute, 37, 2461-2468, 2019 

 


8.   Y. Zhao, S. Xiong, Y. Yang*, and S. Chen

      Sinuous distortion of vortex surfaces in the lateral growth of turbulent spots

      Physical Review Fluids, 3, 074701, 2018 |PDF|

         


9.   N. Peng and Y. Yang* 

      Effects of the Mach number on the evolution of vortex-surface fields in compressible Taylor-Green flows

      Physical Review Fluids, 3, 013401, 2018 |PDF|

         

 

10.   T. Zheng, J. You, and Y. Yang* 
      Principal curvatures and area ratio of propagating surfaces in isotropic turbulence
      Physical Review Fluids, 2, 103201, 2017 |PDF|
        
 
11.   S. Xiong and Y. Yang*
      The boundary-constraint method for constructing vortex-surface fields
      Journal of Computational Physics, 339, 31-45, 2017 |PDF|
 
 
12.   J. You, Y. Yang*, and S. B. Pope
      Effects of molecular transport in LES/PDF of piloted turbulent dimethyl ether/air jet flames
      Combustion and Flame, 176, 451-461, 2017 |PDF|
 
 
13.   G. He*, G. Jin, and Y. Yang
      Space-time correlations and dynamic coupling in turbulent flows
      Annual Review of Fluid Mechanics, 49, 51-71, 2017 
      
 
14.  Y. Zhao, Y. Yang*, and S. Chen
      Vortex reconnection in the late transition in channel flow
      Journal of Fluid Mechanics, 802, R4, 2016 |PDF
     
  
15.  Y. Zhao, Y. Yang*, and S. Chen
      Evolution of material surfaces in the temporal transition in channel flow
      Journal of Fluid Mechanics, 793, 840-876, 2016 |PDF|
     
 
16.  W. Zheng, Y. Yang*, and S. Chen
      Evolutionary geometry of Lagrangian structures in a transitional boundary layer
      Physics of Fluids, 28, 035110, 2016 |PDF|
     
 
17.  P. He and Y. Yang*
      Construction of initial vortex-surface fields and Clebsch potentials for flows with high-symmetry using first integrals
      Physics of Fluids, 28, 037101, 2016 |PDF|
     
 
18.  Y. Yang*, S. B. Pope, and J. H. Chen
      Empirical low-dimensional manifolds in composition space
      Combustion and Flame, 160, 1967-1980, 2013 |PDF|
     
 
19.  Y. Yang*, H. Wang, S. B. Pope, and J. H. Chen
      Large-eddy simulation/PDF modeling of a non-premixed CO/H2 temporally evolving jet flame
      Proceedings of the Combustion Institute, 34, 1241-1249, 2013 |PDF|
     
 
20.  Y. Yang* and D. I. Pullin
      Evolution of vortex-surface fields in viscous Taylor-Green and Kida-Pelz flows
      Journal of Fluid Mechanics, 685, 146-164, 2011 |PDF|
     
 
21.  Y. Yang* and D. I. Pullin
      Geometric study of Lagrangian and Eulerian structures in turbulent channel flow
      Journal of Fluid Mechanics, 674, 67-92, 2011 |PDF|
     
 
22.  Y. Yang* and D. I. Pullin
      On Lagrangian and vortex-surface fields in flows with Taylor-Green and Kida-Pelz initial conditions
      Journal of Fluid Mechanics, 661, 446-481, 2010 |PDF|
     
 
23.  Y. Yang*, D. I. Pullin, and I. Bermejo-Moreno
      Multi-scale geometric analysis of Lagrangian structures in isotropic turbulence
      Journal of Fluid Mechanics, 654, 230-277, 2010 (Featured on cover) |PDF|
     
 
24.  Y. Yang, G.-W. He*, and L.-P. Wang
      Effects of subgrid scale modeling on Lagrangian statistics in large-eddy simulation
      Journal of Turbulence, 9, 8, 2008 |PDF|
     
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