A roughness-dependent model
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<math>l_m</math> is the mixing length. | <math>l_m</math> is the mixing length. | ||
- | Algebraic model for the turbulent kinetic Energy | + | ===Algebraic model for the turbulent kinetic Energy=== |
<table width="70%"><tr><td> | <table width="70%"><tr><td> | ||
<math> | <math> | ||
k^{{1 \over 2}}(y) = {1 \over {C_{\mu}}^{{1 \over 4}}} u_\tau e^{\frac{-y}{A}} | k^{{1 \over 2}}(y) = {1 \over {C_{\mu}}^{{1 \over 4}}} u_\tau e^{\frac{-y}{A}} | ||
</math></td><td width="5%">(4)</td></tr></table> | </math></td><td width="5%">(4)</td></tr></table> | ||
- | <math>u_\tau </math> is the shear velocity | + | <math>u_\tau </math> is the shear velocity and <math>A</math> a model parameter. |
- | Algebraic model for the mixing length, based on (4) | + | ===Algebraic model for the mixing length, based on (4)=== |
<table width="70%"><tr><td> | <table width="70%"><tr><td> | ||
<math> | <math> | ||
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<math>\kappa = 0.4</math>, <math>y_0</math> is the hydrodynamic roughness | <math>\kappa = 0.4</math>, <math>y_0</math> is the hydrodynamic roughness | ||
- | the algebraic eddy viscosity model is therefore | + | ===the algebraic eddy viscosity model is therefore=== |
<table width="70%"><tr><td> | <table width="70%"><tr><td> | ||
<math> | <math> |
Revision as of 15:10, 19 June 2007
Contents |
Two-equation eddy viscosity model
(1) |
where:
One-equation eddy viscosity model
(2) |
Algebraic eddy viscosity model
(3) |
is the mixing length.
Algebraic model for the turbulent kinetic Energy
(4) |
is the shear velocity and a model parameter.
Algebraic model for the mixing length, based on (4)
(5) |
, is the hydrodynamic roughness
the algebraic eddy viscosity model is therefore
(6) |
References
- Absi, R. (2006), "A roughness and time dependent mixing length equation", Journal of Hydraulic, Coastal and Environmental Engineering, Japan Society of Civil Engineers, (Doboku Gakkai Ronbunshuu B), Vol. 62, No. 4, pp.437-446.