Numerical methods
From CFD-Wiki
(Difference between revisions)
Line 52: | Line 52: | ||
### [[MCBA - Mass Conservation Based Algorithms]] | ### [[MCBA - Mass Conservation Based Algorithms]] | ||
### [[GCBA - Geometric Conservation Based Algorithms]] | ### [[GCBA - Geometric Conservation Based Algorithms]] | ||
+ | ### [[Rhie-Chow interpolation]] | ||
+ | ### [[Momentum Weighted Interpolation Method (MWIM)]] | ||
### [[Artificial compressibility method]] | ### [[Artificial compressibility method]] | ||
# [[Efficiency and stability]] | # [[Efficiency and stability]] |
Revision as of 21:00, 12 October 2005
Numerical Aspects of CFD
This section covers the numerical soul of CFD.
- Introduction to numerical methods
- Geometrical Calculations
- Gradient calculations
- Discretisation
- Linear equation systems
- Introduction and need
- Matrix Related
- Direct numerical solutions
- Gauss elimination
- LU decomposition method
- Direct solution to tridiagonal matrix
- Iterative solutions
- Multigrid methods
- Solution of Poisson's equation
- Solution of Navier-Stokes equation
- Velocity-pressure coupling
- SIMPLE algorithm
- SIMPLEC algorithm
- SIMPLEM algorithm
- SIMPLEX algorithm
- SIMPLEST algorithm
- SIMPLER algorithm
- PISO algorithm
- PRIME algorithm
- MCBA - Mass Conservation Based Algorithms
- GCBA - Geometric Conservation Based Algorithms
- Rhie-Chow interpolation
- Momentum Weighted Interpolation Method (MWIM)
- Artificial compressibility method
- Velocity-pressure coupling
- Efficiency and stability
- Limiters
- Meshless methods
- Overset grids
- CFD Related algorithms
- Wall distance Calculations