English

Vortex Interaction in Triple Flickering Buoyant Diffusion Flames

Fluid Dynamics 2023-12-06 v1

Abstract

Triple flickering buoyant diffusion flames as a nonlinear dynamical system of coupled oscillators were computationally investigated. The four distinct dynamical modes (in-phase, death, rotation, and partial in-phase) observed in the previous candle-flame experiments were computationally reproduced for jet diffusion flames of methane. The four modes were interpreted from the perspective of vortex interaction and particularly of vorticity reconnection and vortex-induced flow. Specifically, the in-phase mode is caused by the periodic shedding of the trefoil vortex formed by the reconnection of three toroidal vortices; the death mode is due to the suppression of vortex shedding at small Reynolds numbers; the rotation mode appears as three toroidal vortices alternatively shed off with a constant phase difference; the partial in-phase model is caused by the vorticity reconnection of two toroidal vortices leaving another one shedding off in anti-phase.

Keywords

Cite

@article{arxiv.2201.01585,
  title  = {Vortex Interaction in Triple Flickering Buoyant Diffusion Flames},
  author = {Tao Yang and Yicheng Chi and Peng Zhang},
  journal= {arXiv preprint arXiv:2201.01585},
  year   = {2023}
}

Comments

17 pages,8 pages,research paper

R2 v1 2026-06-24T08:40:48.789Z