CFD Simulations AC2-09: Difference between revisions

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\frac{\partial\rho Y_k}{\partial t}+\frac{\partial\rho u_iY_k}{\partial x_i}=
\frac{\partial\rho Y_k}{\partial t}+\frac{\partial\rho u_iY_k}{\partial x_i}=
\frac{\partial}{\partial x_i}\left(\rho D_k\frac{\partial Y_k}{\partial x_i}\right)
\frac{\partial}{\partial x_i}\left(\rho D_k\frac{\partial Y_k}{\partial x_i}\right)
+\dot{\omega_k}\qquad(1)
+\dot{\omega_k}</math> for <math>k=1,2,\dots,N</math>
</math></center>
</center>


===Numerical Accuracy===
===Numerical Accuracy===

Revision as of 10:34, 28 April 2011


Front Page

Description

Test Data

CFD Simulations

Evaluation

Best Practice Advice

SANDIA Flame D

Application Challenge AC2-09   © copyright ERCOFTAC 2024

Overview of CFD Simulations

SIMULATION CASE CFD1

Solution Strategy

Computational Domain

Boundary Conditions

Application of Physical Models

for

Numerical Accuracy

CFD Results

References

SIMULATION CASE CFD2

(as per CFD 1)



Contributed by: Andrzej Boguslawski — Technical University of Częstochowa

Front Page

Description

Test Data

CFD Simulations

Evaluation

Best Practice Advice


© copyright ERCOFTAC 2024