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Kato-Launder modification

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P = \tau_{ij}^{turb} \frac{\partial u_i}{\partial x_j}
P = \tau_{ij}^{turb} \frac{\partial u_i}{\partial x_j}
</math>
</math>
-
Where <math>\tau_{ij}^{turb}</math> is the turbulent shear stress tensor given by the Boussinesq assumption:
+
 
 +
<math>\tau_{ij}^{turb}</math> is the turbulent shear stress tensor given by the Boussinesq assumption:
:<math>
:<math>
-
\tau_{ij}^{turb} \defeq
+
\tau_{ij}^{turb} \equiv
- \overline{\rho u''_i u''_j} \approx
- \overline{\rho u''_i u''_j} \approx
-
2 \mu_t \widetilde{S_{ij}^*-  
+
2 \mu_t S_{ij}^* - \frac{2}{3} \rho k \delta_{ij}
-
\frac{2}{3} \rav{\rho} k \delta_{ij}
+
</math>
</math>
 +
 +
Where <math>\mu_t</math> is the eddy-viscosity given by the turbluence model and <math>S_{ij}^*</math> is the trace-less viscous strain-rate defined by:
 +
 +
:<math>
 +
S_{ij}^* \equiv
 +
\frac{1}{2} \left(\frac{\partial u_i}{\partial x_j} +
 +
                \frac{\partial u_j}{\partial x_i} \right) -
 +
                \frac{1}{3} \frac{\partial u_k}{\partial x_k} \delta_{ij}
 +
</math>
 +
 +

Revision as of 14:43, 8 December 2005

The Kato-Launder modification is an ad-hoc modification of the turbulent production term in the k equation. The main purpose of the modification is to reduce the tendency that two-equation models have to over-predict the turbulent production in regions with large normal strain, i.e. regions with strong acceleration or decelleration.

The transport equation for the turbulent energy, k, used in most two-equation models can be written as:

\frac{\partial}{\partial t} \left( \rho k \right) + \frac{\partial}{\partial x_j} \left[ \rho k u_j - \left( \mu + \frac{\mu_t}{\sigma_k} \right) \frac{\partial k}{\partial x_j} \right] = P - \rho \epsilon - \rho D

Where P is the turbulent production normally given by:

P = \tau_{ij}^{turb} \frac{\partial u_i}{\partial x_j}

\tau_{ij}^{turb} is the turbulent shear stress tensor given by the Boussinesq assumption:

\tau_{ij}^{turb} \equiv - \overline{\rho u''_i u''_j} \approx 2 \mu_t S_{ij}^* - \frac{2}{3} \rho k \delta_{ij}

Where \mu_t is the eddy-viscosity given by the turbluence model and S_{ij}^* is the trace-less viscous strain-rate defined by:

S_{ij}^* \equiv \frac{1}{2} \left(\frac{\partial u_i}{\partial x_j} + \frac{\partial u_j}{\partial x_i} \right) - \frac{1}{3} \frac{\partial u_k}{\partial x_k} \delta_{ij}




References

Kato, M. and Launder, B. E. (1993), "The Modeling of Turbulent Flow Around Stationary and Vibrating Square Cylinders", Proc. 9th Symposium on Turbulent Shear Flows, Kyoto, August 1993, pp. 10.4.1-10.4.6.

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