丁航

时间:2011-03-26浏览:16350

丁航

教育经历:

  • 1993 南京航空航天大学 学士
  •  2005新加坡国立大学 博士 

工作经历:

  • 2005-2006 新加坡国立大学 Research Fellow
  • 2006-2008 英国伦敦帝国理工大学 Postdoctral Research Associate
  • 2009-2011 加州大学圣巴巴拉分校Research Assistant Professor 

研究方向:

  • 长期从事计算流体力学的研究工作,尤其在计算方法、多相流数值方法、建模及流动物理分析方面积累了较为丰富的研究经验。多相流问题广泛存在于自然界和工程应用中,是目前流体力学研究领域中热门方向之一。它具有复杂的流动特征(如多相、多尺度、多物性及运动界面),包含非常丰富的流动现象(如拓扑改变、相变及流动奇异性)等。目前主要研究方向是(1)移动接触线问题,(2)复杂几何区域内多组分流动问题,(3)可压缩多相流计算,(4)微管中的相变和液滴形成,(5)两相流(连续组分)计算等。

代表性文章:

  1. P. Valluri, L. Ó Náraigh, H. Ding & P. D. M. Spelt (2010),Linear and nonlinear spatio-temporal instability in laminar two-layer flows,Journal of Fluid Mechanics, 656, 458-480
  2. G.K. Seevaratnam, H. Ding, O. Michel, J.Y.Y. Heng & O.K. Matar (2010), Laminar flow deformation of a droplet adhering to a wall in a channel, Chemical Engineering Science, 65, 4523-4534
  3. H. Ding, M. N. H. Gilani and P. D. M. Spelt (2010),Sliding, pinch-off and detachment of a droplet on a wall in shear flow Journal of Fluid Mechanics, 644: 217-244
  4. K.C. Sahu, H. Ding, O.K. Matar (2010), Numerical simulation of non-isothermal pressure-driven miscible channel flow with viscous heating, Chemical Engineering Science, 65: 3260-3267.
  5. L. Ding, C. Shu, H. Ding & N. Zhao (2010), Stencil adaptive diffuse interface method for simulation of two-dimensional incompressible multiphase flows, Computers & Fluids, 39: 936-944
  6. K.C. Sahu, H. Ding, P. Valluri and O.K. Matar (2009), Linear stability analysis and numerical simulation of miscible two-layer channel flow, Physics of Fluids, 21: 042104
  7. K.C. Sahu, H. Ding, P. Valluri and O.K. Matar (2009), Pressure-driven miscible two-fluid channel flow with density gradients, Physics of Fluids, 21: 043603
  8. H. Ding and P. D. M. Spelt (2008), Onset of motion of a three-dimensional droplet on a wall in shear flow at moderate Reynolds numbers, Journal of Fluid Mechanics, 599: 341-362
  9. H. Ding, P.D.M. Spelt and C. Shu (2007), Diffuse interface model for incompressible two-phase flows with large density ratios, Journal of Computational Physics, 226: 2078-2095
  10.  H. Ding and P.D.M. Spelt (2007), Wetting condition in diffuse interface simulations of contact line motion, Physical Review E, 75, 046708
  11. Ding and P. D. M. Spelt (2007), Inertial effects in droplet spreading: a comparison between diffuse interface and level-set simulations, Journal of Fluid Mechanics, 576, 287 – 296.
  12. H. Ding, C. Shu and Q. D. Cai (2007). Applications of stencil-adaptive finite difference method to incompressible viscous flows with curved boundary, Computers & Fluids, 36, 786-793
  13. H. Ding, C. Shu, K. S. Yeo and D. Xu (2007). Numerical simulation of flows around two circular cylinders by mesh-free least-square-based finite difference methods, International Journal for Numerical Methods in Fluids, 53, 305 – 332.
  14. C. Shu, W. X. Wu, H. Ding and C. M. Wang (2007). Free vibration analysis of plates using least square-based finite difference method, Computer Methods in Applied Mechanics and Engineering, 196: 1330 – 1343.
  15. H. Ding and C. Shu (2006). A stencil adaptive algorithm for finite difference solution of incompressible viscous flows, Journal of Computational Physics, 214, 397 – 420
  16. H. Ding, C. Shu, K. S. Yeo and D. Xu (2006). Numerical computation of 3D incompressible viscous flows in the primitive variable form by local multiquadric differential quadrature method, Computer Methods in Applied Mechanics and Engineering, 195, 516 – 533.