吴子牛
教育部特聘教授,博导
研究方向: 流体力学,计算流体力学 _____________________________________________________________________ 电话 : 62773794 传真: 62784116 E-mail: Email:ziniuwu@tsinghua.edu.cn 办公室: 邮编: 100084 _____________________________________________________________________ 学习经历与工作经历
1995年02月:法国教育部客座教授(接待单位ENSAM,5个月)
1997年02月:法国教育部客座教授(接待单位ENSAM,4个月)
1997年07月:北京航空航天大学教授
1999年07月,清华大学教授(入选《百人计划》)
2000年05月:香港科技大学数学系访问学者(2个月)
2001年09月:教育部长江特聘教授
2002年02月:香港科技大学数学系访问学者(2个月)
学科专业及研究方向
流体力学,计算流体力学
社会兼职
国外期刊《Computational Fluid Dynamics Journal》地区编辑
国内刊物《计算物理》执行编委
空气动力学会常务理事
计算空气动力学专业委员会委员
海峡两岸CFD学术会议常任秘书长
工作业绩
提出的液滴碰撞临界碎裂条件,被国外大量实验结果证实。
系统地研究了计算流体力学中分区界面处理所涉及的稳定性、收敛性和解的唯一性。
科研情况(包括科研项目,科研成果)
1.Z.N.Wu, Conservation of three-point compact schemes on single and multiblock patched grids for hyperbolic problems, J. Comput. Math., vol.21, pp.383-400,2003
2.Z.N.Wu and Ke Li, Anisotropic Cartesian grid method for steady inviscid shock flow computation, International Journal for Numerical Methods in Fluids, vol.41, pp.1053-1084, 2003
3.Z.N.Wu and H. Zou, Efficient parallel method for implicit upwind schemes approximating the Euler equations in gas dynamics,J. Comput. Phys., vol.187, pp.683-715, 2003.
4.Z.N.Wu, Backward formalism to derive the size of secondary ejected droplets produced by crown splashing of drops impinging on a solid wall, Communications in Mathematical Sciences, Vol.1, pp.57-67,2003.
T. Du, J. Shi, and Z.N.Wu, Mixed analytical/numerical method for flow equations with a source term, Computers and Fluids, vol.32, pp.659-690,2003.
Z.N.Wu, Interface treatment of a three-dimensional hybrid inviscid/viscous flow problem, Math.Models and Methods in Applied Sciences, Vol. 12 (12): 1707-1724, 2002.
Z.N.Wu, Expansion fan in forced and passively moving frames, Acta Mechanica (Europe), vol.156, pp.235-247, 2002.
Z.N.Wu, A note on the unified coordinate system for computing shock waves, J. Comput. Phys., vol.180, pp.110-119,2002.
Z.N.Wu and S. Fu, Positivity of K-epsilon turbulence models for incompressible flow, Math. Models and Methods in Applied Sciences, Vol.12 (3), pp.393-406,2002.
H. Zou and Z.N.Wu, Grid overlapping for implicit parallel computation of 2-D N-S equations, CFD Journal, Vol.10, pp.599-606,2002
Q. Du, M. Mo, and Z.N.Wu, Efficient parallel algorithms for parabolic problems, SIAM J. Numer. Anal.,Vol.39, pp.1469-1487,2002.
Z.N.Wu, Most unstable waves on a liquid blown by a high speed viscous gas with a Blasius velocity profile, Acta Mechanica (Europe), vol.149, pp.69-83, 2001
Z.N.Wu, Transmission of a slow shock wave across a non-conservative grid interface, J. Comput. Phys., vol.171, pp.579-615, 2001
Z.N.Wu, Linear well-posedness of a hybrid inviscid/viscous flow problem, Acta Mechanica (Europe), vol.145, pp.19-34,2000.
Z.N.Wu and H. Zou, Grid overlapping for implicit parallel computations of compressible flows, J. Comput. Phys., vol.157, pp.2-43, 2000.
Z.N.Wu, Steady and unsteady shock waves on overlapping grids, SIAM J, Sci. Comput., vol.20, pp.1851-1874,1999.
Z.N. Wu, Anisotropic Cartesian grid method for viscous flow computations, CFD Review, vol.1, pp.93-113 , 1998
G. De-Spiegeleer, A. Lerat, and Z.N.Wu, Implicit multi-domain computations of compressible flows with a large number of sub-domains, CFD Journal, vol.7, pp.245-264,1998.
B.Granier, A.Lerat, and Z.N.Wu, An implicit centered scheme for incompressible one- and two-phase flow computation, Computers & Fluids, vol.26, pp.373-393 ,1997.
Z.N.Wu, A genuinely second order accurate method for viscous flow computations, Lecture Notes in Physics,vol.490,pp.255-260,1997.
A. Lerat and Z.N.Wu, Stable conservative multidomain treatments for implicit Euler solvers, J. Comput. Phys., vol.123, pp.45-64 ,1996.
Z.N.Wu, Uniqueness of steady state solutions for difference equations on overlapping grids, SIAM J. Numer. Anal.,vol. 33, pp.1336-1357, 1996.
Z.N.Wu, Convergence study of an implicit multidomain method for compressible flow computations, Computers & Fluids, vol.25, pp.181-196, 1996.
Z.N.Wu, Compressible flow computations on overlapping grids, Lecture Notes in Physics,vol.453, pp.183-187, 1995. _____________________________________________________________________ 近期代表性论著: |