• Part I
  16:00-17:40, Tuesday, 13 December 2005, WLB203
  
  
  1. Automatic Grid-Generation
     W. H. Hui, Academia Sinica, Taiwan
     
     
  2. A Moving Mesh Method for Singular Problems on Sphere
     Ya-na Di, Peking University, China
     
     
  3. An Adaptive and Moving Grid Method for Two Dimensional Viscous Flows
     Changqiu Jin, The Hong Kong University of Science and Technology, Hong Kong
     
     
  4. Spectral Simulation of 2-D Isotropic Turbulence with Hexagonal Grids
     Hui-yuan Li, Chinese Academy of Sciences, China
     
     
• Part II
  14:00-15:40, Wednesday, 14 December 2005, WLB203
  
  
  1. The Modified Ghost Fluid Method Applied to Compressible Fluid-deformable Structure Coupling
     Tiegang Liu, Institute of High Performance Computing, Singapore
     
     
  2. Convergence Rate of the Adaptive Moving Mesh Method for Unsteady Convection-dominated Equations
     Jingtang Ma, Chinese Academy of Sciences, China
     
     
  3. Moving Finite Element Method for Spike Dynamics
     Zhong-hua Qiao, Hong Kong Baptist University, Hong Kong
     
     
  4. Runge-Kutta Discontinuous Galerkin Methods for Simulations of Multi-phase Flow
     Jianxian Qiu, Nanjing University, China
     
     
• Part III
  16:00-17:40, Wednesday, 14 December 2005, WLB203
  
  
  1. Adaptive Coordinate Transformation Methods for Multimaterial Fluid Dynamics Computation
     Zhijun Shen, Institute of Applied Physics and Computational Mathematics, China
     
     
  2. A P_Nx P_N Spectral Element Method for Incompressible Flow
     Chuan-ju Xu, Xiamen University, China
     
     
  3. Numerical Simulation of High Speed Chemically Reacting Gas Flow
     Li Yuan, Chinese Academy of Sciences, China
     
     
  4. Moving Mesh Method Using Conservative Interpolation Based on l² Projection
     Zheng-ru Zhang, Beijing Normal University, China
     
     
• Part IV
  10:50-12:30, Thursday, 15 December 2005, WLB203
  
  
  1. Modeling and Simulation of Rarefied Flow: Beyond the Navier-Stokes Equations
     Kun Xu, The Hong Kong University of Science and Technology, Hong Kong
     
     
  2. Shock Capturing with Discontinuous Galerkin Method
     Vinh Tan Nguyen, Singapore-MIT Alliance, Singapore
     
     
  3. Simulation of Flow Round Obstacles and Defects Forming for PIM Filling Process
     Zhoushun Zheng, University of Oxford, UK and Central South University, China
     
     
  4. Computational Modeling of Proton-Exchange Membrane Fuel Cell Operation
     Jun Cao, Ryerson University, Canada
     

Rationale