2019
DOI: 10.1115/1.4045338
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Flow Dynamics in a Multiswirler Model Combustor Based on Large Eddy Simulation and Proper Orthogonal Decomposition Analysis

Abstract: Swirling flow is often employed in gas turbine combustion chambers for the sake of improving flame stability. Swirling flow induces not only recirculation zones but also large coherent structures, which show close relationship with flow dynamics and combustion instability. The flow dynamics including precessing vortex core (PVC) in simple swirlers is extensively studied, while the flow instability characteristics in a multiswirler combustor are not fully reported. In this paper, large eddy simulation (LES) of … Show more

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Cited by 3 publications
(3 citation statements)
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“…The drag force acting on the coupled droplet momentum transfer is described by a modified Schiller-Naumann drag model in order to limit the behavior in the inertial regime as seen in equation (19). The Ranz-Marshall correlation was adopted for the overall droplet heat transfer coefficient which relates the Nusselt number to Prandtl and Reynold numbers for flow past spherical particles according to equation (20). The mass transfer that defines the evaporation process is then calculated based on whether the evaporation falls above or below the droplet boiling temperature as formulated in equation (21).…”
Section: Liquid Fuel Combustionmentioning
confidence: 99%
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“…The drag force acting on the coupled droplet momentum transfer is described by a modified Schiller-Naumann drag model in order to limit the behavior in the inertial regime as seen in equation (19). The Ranz-Marshall correlation was adopted for the overall droplet heat transfer coefficient which relates the Nusselt number to Prandtl and Reynold numbers for flow past spherical particles according to equation (20). The mass transfer that defines the evaporation process is then calculated based on whether the evaporation falls above or below the droplet boiling temperature as formulated in equation (21).…”
Section: Liquid Fuel Combustionmentioning
confidence: 99%
“…It is noteworthy that the frequency of the PVC in similar studied burners varies greatly between 400 and 2000 Hz and depends greatly on the inlet velocity and the velocity gradients in the inner swirling region. 21,19,20,22 Figure 10 depicts the instantaneous Lambda-2 criterion visualization of the vortex core region colored by axial velocity. The PVC can be identified as the dominant swirling vortical structure that originates at the base of the burner and spirals downstream in a helical fashion.…”
Section: Detached Eddy Simulationmentioning
confidence: 99%
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