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Bich-Diep Nguyen M.Sc.

Working area(s)

Metal combustion: iron particle combustion and nanoparticle formation

Contact

work +49 6151 16-24146

Work 1|01 291
Otto-Berndt-Str. 2
64287 Darmstadt

Links

  • Heat and mass transfer in the boundary layer of oxidizing iron microparticles
  • Formation and flow characteristics of iron / iron oxide nanoparticles
  • Reaction kinetics of iron microparticles
  • Turbulent gas-liquid flows
The figure shows a fully resolved simulation of the boundary layer around an iron microparticle during rapid combustion. The top half depicts the temperature field, where it can be observed that the particle releases heat during combustion. The bottom half depicts the oxygen mass fraction field, which shows how oxygen is depleted in the boundary layer since oxygen is absorbed into the particle.
The figure shows a fully resolved simulation of the boundary layer around an iron microparticle during rapid combustion. The top half depicts the temperature field, where it can be observed that the particle releases heat during combustion. The bottom half depicts the oxygen mass fraction field, which shows how oxygen is depleted in the boundary layer since oxygen is absorbed into the particle.
  • Fully resolved boundary layer simulation of oxidizing single iron microparticles
  • Eulerian-Eulerian multiphase simulations
  • Population balance modelling with sectional methods and quadrature based moments method
  • 0D particle modelling

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.