Adaptive Grid Methods and Computational Fluid Dynamics
Organized by Hua-zhong Tang and Kun Xu
- Part I
16:00-17:40, Tuesday, 13 December 2005, WLB203
- Automatic Grid-Generation
W. H. Hui, Academia Sinica, Taiwan
- A Moving Mesh Method for Singular Problems on Sphere
Ya-na Di, Peking University, China
- An Adaptive and Moving Grid Method for Two Dimensional Viscous
Flows
Changqiu Jin, The Hong Kong University of Science and Technology,
Hong Kong
- 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
- The Modified Ghost Fluid Method Applied to Compressible
Fluid-deformable Structure Coupling
Tiegang Liu, Institute of High Performance Computing, Singapore
- Convergence Rate of the Adaptive Moving Mesh Method for
Unsteady Convection-dominated Equations
Jingtang Ma, Chinese Academy of Sciences, China
- Moving Finite Element Method for Spike Dynamics
Zhong-hua Qiao, Hong Kong Baptist University, Hong Kong
- 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
- Adaptive Coordinate Transformation Methods for Multimaterial
Fluid Dynamics Computation
Zhijun Shen, Institute of Applied Physics and Computational
Mathematics, China
- A PNx PN Spectral Element Method for
Incompressible Flow
Chuan-ju Xu, Xiamen University, China
- Numerical Simulation of High Speed Chemically Reacting Gas
Flow
Li Yuan, Chinese Academy of Sciences, China
- 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
- Modeling and Simulation of Rarefied Flow: Beyond the Navier-Stokes
Equations
Kun Xu, The Hong Kong University of Science and Technology,
Hong Kong
- Shock Capturing with Discontinuous Galerkin Method
Vinh Tan Nguyen, Singapore-MIT Alliance, Singapore
- Simulation of Flow Round Obstacles and Defects Forming for
PIM Filling Process
Zhoushun Zheng, University of Oxford, UK and Central South
University, China
- Computational Modeling of Proton-Exchange Membrane Fuel
Cell Operation
Jun Cao, Ryerson University, Canada
Rationale |