Numerical Investigation of Transient Soot Evolution Processes in an Aero-Engine Model Combustor

@article{Eberle2015NumericalIO,
  title={Numerical Investigation of Transient Soot Evolution Processes in an Aero-Engine Model Combustor},
  author={C. Eberle and P. Gerlinger and K. P. Geigle and M. Aigner},
  journal={Combustion Science and Technology},
  year={2015},
  volume={187},
  pages={1841 - 1866}
}
This article presents unsteady Reynolds averaged Navier–Stokes simulations (URANS) of a well-characterized aero-engine model combustor with finite-rate chemistry (FRC). The simulations give insight into the complex formation and destruction processes of soot at technically relevant conditions. It will be shown that a recently developed PAH (polycyclic aromatic hydrocarbons) and soot model is able to predict soot under complex combustion conditions at elevated pressure. Finite-rate chemistry is… Expand
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References

SHOWING 1-10 OF 87 REFERENCES
Large eddy simulation of soot evolution in an aircraft combustor
  • 48
  • Highly Influential
  • PDF
Large eddy simulation of soot formation in a turbulent non-premixed jet flame
  • 60
Development and validation of a new soot formation model for gas turbine combustor simulations
  • 52
  • PDF
Soot Formation and Flame Characterization of an Aero-Engine Model Combustor Burning Ethylene at Elevated Pressure
  • 42
  • Highly Influential
  • PDF
A numerical and experimental study of a laminar sooting coflow Jet-A1 diffusion flame
  • 48
...
1
2
3
4
5
...