Investigation of the Coupling Between the Dynamics of Vortical Structures and Flame Stability in Bluff-Body Premixed Combustion Using Extended Spectral Proper Orthogonal Decomposition

Khalifehei, Morteza; Yalcinkaya, Yagiz; Padilla-Montero, Iván; Gungor, Ayse Gul; Rodríguez, Daniel

doi:10.1115/1.4066362

Journal of Engineering for Gas Turbines and Power

2024

DOI: 10.1115/1.4066362

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Investigation of the Coupling Between the Dynamics of Vortical Structures and Flame Stability in Bluff-Body Premixed Combustion Using Extended Spectral Proper Orthogonal Decomposition

Morteza Khalifehei,

Yagiz Yalcinkaya,

Iván Padilla-Montero

et al.

Abstract: Large eddy simulation data of a bluff-body stabilized flame are analyzed using spectral proper orthogonal decomposition (SPOD) to investigate: (i) the role of flame-vortex interactions in the dominant flow dynamics and (ii) how the proper choice of the cross-spectral density (CSD) defining SPOD can assist in identifying the underlying dynamics. Bluff-body flame holders aim to achieve stable flames under lean premixed conditions to minimize pollutant emissions. The recirculation region induced by the body promo… Show more

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2024

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Cited by 1 publication

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Curvature effects on a bluff-body wake

Sukuroglu,

Yalcinkaya,

Gungor

2024

Physics of Fluids

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This paper prioritizes advancing the understanding of curvature effects on bluff-body wakes to address the possible influence of wake and vorticity dynamics of non-reacting flows inside curved combustors. First, large eddy simulation of a non-reacting flow is carried out in a well-defined triangular bluff-body geometry with no curvature effect. Then, curvature is introduced to the flow field by curving the walls of the combustor. As the curvature increases, the symmetry of the flow field breaks by diverting toward the combustor's convex side. Higher turbulence generation is achieved in the near-wake region, reaching the trailing edge of the bluff body. The dominant mechanism in the near-wake region is found to be the hydrodynamic instabilities rather than the curvature effect. Along the lower shear layer, the coherent structures have appeared as more twisted and non-organized with augmented curvature. The structures along the upper shear layer showed well-organized and quasi-two-dimensional behavior. Curvature-induced Taylor–Görtler instability causes streamwise-elongated vortices to form along the combustor walls, and middle and far-wake regions. These elongated structures are found to be the result of vortex stretching/tilting due to curvature. Stretching/tilting are observed in the recirculation region for all configurations. However, the strengths of those motions are highly altered as the curvature increases, referring to higher turbulent activities near the bluff-body trailing edge. The lower shear layer is governed by the streamwise and wall-normal stretching of vortices in curved configurations. This characteristic seemed as the governing vorticity mechanism for the unstable behavior of the lower shear layer.

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Curvature effects on a bluff-body wake

Sukuroglu,

Yalcinkaya,

Gungor

2024

Physics of Fluids

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Investigation of the Coupling Between the Dynamics of Vortical Structures and Flame Stability in Bluff-Body Premixed Combustion Using Extended Spectral Proper Orthogonal Decomposition

Cited by 1 publication

References 30 publications

Curvature effects on a bluff-body wake

Curvature effects on a bluff-body wake

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