Turbulence modeling
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- | # [[Turbulence]] | + | Turbulence modeling is a key issue in most CFD simulations. Virtually all engineering applications are turbulent and hence require a turbulence model. |
- | # [[ | + | |
- | ##[[Baldwin-Lomax model]] | + | ==Classes of turbulence models== |
- | # [[One equation models]] | + | |
- | ## [[Prandtl's one-equation model]] | + | *RANS-based models |
- | ## [[Baldwin-Barth model]] | + | **Linear eddy-viscosity models |
- | ## [[Spalart-Allmaras model]] | + | ***Algebraic models |
- | # [[Two equation models]] | + | ***One and two equation models |
- | ## [[k-epsilon models]] | + | **Non-linear eddy viscosity models and algebraic stress models |
- | ### [[Standard k-epsilon model]] | + | **Reynolds stress transport models |
- | ### [[Realisable k-epsilon model]] | + | |
- | ### [[RNG k-epsilon model]] | + | *Large eddy simulations |
- | ### [[Near wall treatment for k-epsilon models]] | + | |
- | ## [[k-omega models]] | + | *Detached eddy simulations and other hybrid models |
- | ### [[Wilcox's k-omega model]] | + | |
- | ### [[SST k-omega model]] | + | *Direct numerical simulations |
- | ### [[Near wall treatment for k-omega models]] | + | |
- | # [[Reynolds stress model (RSM) ]] | + | ==Content of turbulence modeling section== |
- | # [[Large eddy simulation (LES) ]] | + | |
+ | # '''[[Turbulence]]''' | ||
+ | # '''[[RANS-based turbulence models]]''' | ||
+ | ## '''''[[Linear eddy viscosity models]]''''' | ||
+ | ### ''[[Algebraic turbulence models|Algebraic models]]'' | ||
+ | #### [[Cebeci-Smith model]] | ||
+ | #### [[Baldwin-Lomax model]] | ||
+ | #### [[Johnson-King model]] | ||
+ | #### [[A roughness-dependent model]] | ||
+ | ### ''[[One equation turbulence models|One equation models]]'' | ||
+ | #### [[Prandtl's one-equation model]] | ||
+ | #### [[Baldwin-Barth model]] | ||
+ | #### [[Spalart-Allmaras model]] | ||
+ | #### [[Rahman-Siikonen-Agarwal Model]] | ||
+ | ### ''[[Two equation models]]'' | ||
+ | #### [[k-epsilon models]] | ||
+ | ##### [[Standard k-epsilon model]] | ||
+ | ##### [[Realisable k-epsilon model]] | ||
+ | ##### [[RNG k-epsilon model]] | ||
+ | ##### [[Near-wall treatment for k-epsilon models|Near-wall treatment]] | ||
+ | #### [[k-omega models]] | ||
+ | ##### [[Wilcox's k-omega model]] | ||
+ | ##### [[Wilcox's modified k-omega model]] | ||
+ | ##### [[SST k-omega model]] | ||
+ | ##### [[Near-wall treatment for k-omega models|Near-wall treatment]] | ||
+ | #### [[Two equation turbulence model constraints and limiters|Realisability issues]] | ||
+ | ##### [[Kato-Launder modification]] | ||
+ | ##### [[Durbin's realizability constraint]] | ||
+ | ##### [[Yap correction]] | ||
+ | ##### [[Realisability and Schwarz' inequality]] | ||
+ | ## '''''[[Nonlinear eddy viscosity models]]''''' | ||
+ | ### [[Explicit nonlinear constitutive relation]] | ||
+ | #### [[Cubic k-epsilon]] | ||
+ | #### [[Explicit algebraic Reynolds stress models (EARSM)]] | ||
+ | ### [[v2-f models]] | ||
+ | #### <math>\overline{\upsilon^2}-f</math> model | ||
+ | #### <math>\zeta-f</math> model | ||
+ | ## '''''[[Reynolds stress model (RSM) ]]''''' | ||
+ | # '''[[Large eddy simulation (LES) ]]''' | ||
## [[Smagorinsky-Lilly model]] | ## [[Smagorinsky-Lilly model]] | ||
## [[Dynamic subgrid-scale model]] | ## [[Dynamic subgrid-scale model]] | ||
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## [[Wall-adapting local eddy-viscosity (WALE) model]] | ## [[Wall-adapting local eddy-viscosity (WALE) model]] | ||
## [[Kinetic energy subgrid-scale model]] | ## [[Kinetic energy subgrid-scale model]] | ||
- | ## [[Near wall treatment for LES models]] | + | ## [[Near-wall treatment for LES models]] |
- | # [[Detached eddy simulation (DES) ]] | + | ## [[Structural modeling]] |
- | # [[ | + | # '''[[Detached eddy simulation (DES) ]]''' |
- | # [[ | + | # '''[[Direct numerical simulation (DNS) ]]''' |
+ | # '''[[Turbulence near-wall modeling]]''' | ||
+ | # '''[[Turbulence free-stream boundary conditions]]''' | ||
+ | ## [[Turbulence intensity]] | ||
+ | ## [[Turbulence length scale]] | ||
+ | |||
+ | [[Category:Turbulence models]] |
Latest revision as of 20:00, 25 June 2013
Turbulence modeling is a key issue in most CFD simulations. Virtually all engineering applications are turbulent and hence require a turbulence model.
Classes of turbulence models
- RANS-based models
- Linear eddy-viscosity models
- Algebraic models
- One and two equation models
- Non-linear eddy viscosity models and algebraic stress models
- Reynolds stress transport models
- Linear eddy-viscosity models
- Large eddy simulations
- Detached eddy simulations and other hybrid models
- Direct numerical simulations
Content of turbulence modeling section
- Turbulence
- RANS-based turbulence models
- Large eddy simulation (LES)
- Detached eddy simulation (DES)
- Direct numerical simulation (DNS)
- Turbulence near-wall modeling
- Turbulence free-stream boundary conditions