Compressible large eddy simulation of turbulent combustion in complex geometry on unstructured meshes

@article{Selle2004CompressibleLE,
  title={Compressible large eddy simulation of turbulent combustion in complex geometry on unstructured meshes},
  author={L. Selle and G. Lartigue and T. Poinsot and R. Koch and K.-U. Schildmacher and W. Krebs and B. Prade and P. Kaufmann and D. Veynante},
  journal={Combustion and Flame},
  year={2004},
  volume={137},
  pages={489-505}
}
Large-eddy simulations (LESs) of an industrial gas turbine burner are carried out for both nonreacting and reacting flow using a compressible unstructured solver. Results are compared with experimental data in terms of axial and azimuthal velocities (mean and RMS), averaged temperature, and existence of natural instabilities such as precessing vortex core (PVC). The LES is performed with a reduced two-step mechanism for methane–air combustion and a thickened flame model. The regime of… Expand
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