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Large eddy simulation of low swirl flames under external flow excitations

Shahsavari, M ; Sharif University of Technology | 2018

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  1. Type of Document: Article
  2. DOI: 10.1007/s10494-017-9829-7
  3. Publisher: Springer Netherlands , 2018
  4. Abstract:
  5. Low swirl flame characteristics under external flow excitations are numerically investigated using large eddy simulations with a dynamically thickened flame combustion model. A finite volume scheme on a Cartesian grid with a dynamic one equation eddy viscosity subgrid scale model is used for large eddy simulations. The excitations are imposed on inlet velocity profiles by a sinusoidal forcing function over a wide range of amplitudes and frequencies. Present investigation shows that although, the swirling motion of the low swirl flame is not intense enough to induce a recirculation zone in ensemble averaged results, external flow excitations increase the local swirl number upstream of the flame front. Such increase in the local swirl number is at maximum value when the low swirl flame is excited at the dominant frequency of the flow field, which in turn induces a vortex breakdown and hence a central recirculation zone. The strength and size of the time averaged recirculation zone depend on both the amplitude and frequency of the excitations. Moreover, phase-locked results indicate that external flow excitations induce local swirl fluctuations ahead of the flame front which alter the strength of the recirculation zone at different phase angles of the excitations. © 2017, Springer Science+Business Media B.V
  6. Keywords:
  7. Combustion instabilities ; Large eddy simulation ; Premixed low swirl flame ; Vortex breakdown ; Combustion ; Large eddy simulation ; Vortex flow ; Combustion instabilities ; Finite volume schemes ; Inlet velocity profile ; Low swirl ; Recirculation zones ; Sinusoidal forcing ; Sub-grid scale models ; Vortex breakdown ; Flame research
  8. Source: Flow, Turbulence and Combustion ; Volume 100, Issue 1 , 2018 , Pages 249-269 ; 13866184 (ISSN)
  9. URL: https://link.springer.com/article/10.1007/s10494-017-9829-7