Experimental and numerical investigation of flames stabilised behind rotating cylinders: interaction of flames with a moving wall

@article{Xavier2017ExperimentalAN,
  title={Experimental and numerical investigation of flames stabilised behind rotating cylinders: interaction of flames with a moving wall},
  author={Pradip Xavier and Abdulla Ghani and Daniel Mejia and Maxence Miguel-Brebion and Micha{\"e}l Bauerheim and Laurent Selle and Thierry Poinsot},
  journal={Journal of Fluid Mechanics},
  year={2017},
  volume={813},
  pages={127 - 151}
}
Steady methane/air laminar premixed flames stabilised on a cylindrical bluff body subjected to a continuous rotation are analysed using joint direct numerical simulations (DNS) and experiments. DNS are carried out using a 19 species scheme for methane/air combustion and a lumped model to predict the cylinder temperature. Rotation of the cylinder induces a symmetry breaking of the flow, and leads to two distinct flame branches in the wake of the cylinder. DNS are validated against experiments in… 
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14 Citations
Background Citations
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14 Citations

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