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Dr. Faizan Vance

Working area(s)

Flamelet Modelling, Flame stretch theory, Hydrogen and Solid particle combustion

Contact

work +49 6151 16-24146

Work L1|01 291
Otto-Berndt-Str. 2
64287 Darmstadt

Links

  • Simulation of reacting flows
  • Flame stabilisation with focus on flashback
  • Flame stretch theory and flamelet modelling
  • Iron combustion and propagation modes
  • Flame response to perturbations
Figure shows scaled fuel consumption rate for a hydrogen-air flame in a channel. In this model, the location of maximum strain (minimum stress) is prescribed on the top wall (visualized with a red circle) and is moved to and fro as a function of time. Hydrogen flame can be observed to follow this to and fro motion indicating a dynamically stabilised flame. For more information, please see Vance et al. Dynamic stabilization of a hydrogen premixed flame in a narrow channel, CnF 248 2023.
Figure shows scaled fuel consumption rate for a hydrogen-air flame in a channel. In this model, the location of maximum strain (minimum stress) is prescribed on the top wall (visualized with a red circle) and is moved to and fro as a function of time. Hydrogen flame can be observed to follow this to and fro motion indicating a dynamically stabilised flame. For more information, please see Vance et al. Dynamic stabilization of a hydrogen premixed flame in a narrow channel, CnF 248 2023.
  • Gaseous combustion
  • Particle combustion
  • Data analysis
  • Scientific visualisation

All publications are listed in the publication list:

Publications

Please note:

The integrated database, TUbiblio of TU Darmstadt, is currently being revised, which is why the author's complete publication list can currently only be accessed though the links above.