Algebraic turbulence models
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| + | Zero equation [[Turbulence modeling|turbulence models]] are models that do not require the solution of any additional equations, and are calculated directly from the flow variables. These models are often too simple for use in general situations, but can be quite useful for simpler flow geometries or in start-up situations (e.g. the initial phases of a computation in which a more complicated model may have difficulties). The two most well known zero equation models are the | ||
| + | *[[Baldwin-Lomax model]] and the | ||
| + | *[[Cebeci-Smith model]]. | ||
| - | + | Other even simpler models, such a models written as <math>\mu_t = f(y^+)</math>, are sometimes used in particular situations (e.g. boundary layers or jets). | |
| - | < | + | |
Revision as of 19:05, 14 April 2006
Zero equation turbulence models are models that do not require the solution of any additional equations, and are calculated directly from the flow variables. These models are often too simple for use in general situations, but can be quite useful for simpler flow geometries or in start-up situations (e.g. the initial phases of a computation in which a more complicated model may have difficulties). The two most well known zero equation models are the
- Baldwin-Lomax model and the
- Cebeci-Smith model.
Other even simpler models, such a models written as 
, are sometimes used in particular situations (e.g. boundary layers or jets).
