A 2D Euler solver for real gas flows using an adaptive grid
Abstract
A two-dimensional Euler solver for real gas flows has been developed. Three different methods to account for the effects of equilibrium air chemistry in the flowfiled were incorporated in the solver. These methods are discussed and compared in this paper. To improve the shock capturing capabilities of the numerical scheme, an adaptive grid generator based on molecular dynamics has been connected to the Euler solver. At present, the adaptive grid is used to capture both internal and external shock waves. Several strategies to adapt the grid are discussed and compared. It is concluded that the use of an adaptive grid improves the solution near shock waves, and can lead to a faster convergence.
- Publication:
-
8th GAMM-Conference on Numerical Methods in Fluid Mechanics
- Pub Date:
- 1990
- Bibcode:
- 1990nmfm.conf..554V
- Keywords:
-
- Computational Grids;
- Euler Equations Of Motion;
- Flow Distribution;
- Gas Flow;
- Grid Generation (Mathematics);
- Real Gases;
- Convergence;
- Digital Simulation;
- Hypersonic Flow;
- Shock Waves;
- Vector Processing (Computers);
- Fluid Mechanics and Heat Transfer