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Wall-adapting local eddy-viscosity (WALE) model

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<math>  \overline{g}_{ij} = \frac{\partial \overline{u_i}}{\partial x_{j}} </math>
<math>  \overline{g}_{ij} = \frac{\partial \overline{u_i}}{\partial x_{j}} </math>
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<math>  \overline{g}_{ij}^{2} = \overline{g}_{ik} \overline{g}_{kj}        </math>
where <math>
where <math>

Latest revision as of 08:31, 19 May 2018

In the WALE model the eddy viscosity is modeled by:


 \mu_{t} = \rho \Delta _s^2 \frac{(S_{ij}^{d} S_{ij}^{d})^{3/2}}{(\overline{S}_{ij} \overline{S}_{ij})^{5/2} + (S_{ij}^{d} S_{ij}^{d})^{5/4}}


  \Delta _s = C_w V^{1/3}

 S_{ij}^{d} = \frac{1}{2} \left( \overline{g}_{ij}^{2} + \overline{g}_{ji}^{2}  \right) - \frac{1}{3} \delta_{ij} \overline{g}_{kk}^{2}

  \overline{g}_{ij} = \frac{\partial \overline{u_i}}{\partial x_{j}}

  \overline{g}_{ij}^{2} = \overline{g}_{ik} \overline{g}_{kj}

where 
 \bar S_{ij} 
is the rate-of-strain tensor for the resolved scale defined by


\bar S_{ij}  = \frac{1}{2}\left( {\frac{{\partial \bar u_i }}{{\partial x_j }} + \frac{{\partial \bar u_j }}{{\partial x_i }}} \right)

Where the constant  C_w = 0.325

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